From c6492246f8b7d5cf4ab9c1d7c084c0bec2a872e4 Mon Sep 17 00:00:00 2001 From: Vu Dinh Date: Wed, 15 Dec 2021 10:14:58 -0500 Subject: [PATCH] feat(constraint): Add constraint type validation to bundle validation A new type of dependency named constraint (olm.constraint) which uses CEL expression is introduced in OLM. This new type is added to dependencies.json file in the bundle just like gvk and package dependencies. As a result, a new validation for constraint type is added to ensure this type will be validated for bundle dependencies. Signed-off-by: Vu Dinh Vendor the constraints pkg from api repo Signed-off-by: Vu Dinh --- go.sum | 3 + pkg/lib/bundle/validate.go | 2 + pkg/registry/types.go | 38 + .../antlr/antlr4/runtime/Go/antlr/LICENSE | 26 + .../antlr/antlr4/runtime/Go/antlr/atn.go | 152 + .../antlr4/runtime/Go/antlr/atn_config.go | 295 ++ .../antlr4/runtime/Go/antlr/atn_config_set.go | 387 ++ .../Go/antlr/atn_deserialization_options.go | 25 + .../runtime/Go/antlr/atn_deserializer.go | 828 ++++ .../antlr4/runtime/Go/antlr/atn_simulator.go | 50 + .../antlr4/runtime/Go/antlr/atn_state.go | 386 ++ .../antlr/antlr4/runtime/Go/antlr/atn_type.go | 11 + .../antlr4/runtime/Go/antlr/char_stream.go | 12 + .../runtime/Go/antlr/common_token_factory.go | 56 + .../runtime/Go/antlr/common_token_stream.go | 447 ++ .../antlr/antlr4/runtime/Go/antlr/dfa.go | 183 + .../antlr4/runtime/Go/antlr/dfa_serializer.go | 152 + .../antlr4/runtime/Go/antlr/dfa_state.go | 198 + .../Go/antlr/diagnostic_error_listener.go | 111 + 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create mode 100644 vendor/github.com/operator-framework/api/pkg/constraints/constraint.go create mode 100644 vendor/github.com/stoewer/go-strcase/.gitignore create mode 100644 vendor/github.com/stoewer/go-strcase/.golangci.yml create mode 100644 vendor/github.com/stoewer/go-strcase/LICENSE create mode 100644 vendor/github.com/stoewer/go-strcase/README.md create mode 100644 vendor/github.com/stoewer/go-strcase/camel.go create mode 100644 vendor/github.com/stoewer/go-strcase/doc.go create mode 100644 vendor/github.com/stoewer/go-strcase/go.mod create mode 100644 vendor/github.com/stoewer/go-strcase/go.sum create mode 100644 vendor/github.com/stoewer/go-strcase/helper.go create mode 100644 vendor/github.com/stoewer/go-strcase/kebab.go create mode 100644 vendor/github.com/stoewer/go-strcase/snake.go create mode 100644 vendor/google.golang.org/genproto/googleapis/api/expr/v1alpha1/checked.pb.go create mode 100644 vendor/google.golang.org/genproto/googleapis/api/expr/v1alpha1/eval.pb.go create mode 100644 vendor/google.golang.org/genproto/googleapis/api/expr/v1alpha1/explain.pb.go create mode 100644 vendor/google.golang.org/genproto/googleapis/api/expr/v1alpha1/syntax.pb.go create mode 100644 vendor/google.golang.org/genproto/googleapis/api/expr/v1alpha1/value.pb.go create mode 100644 vendor/google.golang.org/protobuf/types/dynamicpb/dynamic.go create mode 100644 vendor/google.golang.org/protobuf/types/known/emptypb/empty.pb.go create mode 100644 vendor/google.golang.org/protobuf/types/known/structpb/struct.pb.go diff --git a/go.sum b/go.sum index 710d2d65e..55dcaab50 100644 --- a/go.sum +++ b/go.sum @@ -89,6 +89,7 @@ github.com/alessio/shellescape v1.4.1 h1:V7yhSDDn8LP4lc4jS8pFkt0zCnzVJlG5JXy9BVK github.com/alessio/shellescape v1.4.1/go.mod h1:PZAiSCk0LJaZkiCSkPv8qIobYglO3FPpyFjDCtHLS30= github.com/anmitsu/go-shlex v0.0.0-20161002113705-648efa622239/go.mod h1:2FmKhYUyUczH0OGQWaF5ceTx0UBShxjsH6f8oGKYe2c= github.com/antihax/optional v1.0.0/go.mod h1:uupD/76wgC+ih3iEmQUL+0Ugr19nfwCT1kdvxnR2qWY= +github.com/antlr/antlr4/runtime/Go/antlr v0.0.0-20210826220005-b48c857c3a0e h1:GCzyKMDDjSGnlpl3clrdAK7I1AaVoaiKDOYkUzChZzg= github.com/antlr/antlr4/runtime/Go/antlr v0.0.0-20210826220005-b48c857c3a0e/go.mod h1:F7bn7fEU90QkQ3tnmaTx3LTKLEDqnwWODIYppRQ5hnY= github.com/apache/thrift v0.12.0/go.mod h1:cp2SuWMxlEZw2r+iP2GNCdIi4C1qmUzdZFSVb+bacwQ= github.com/armon/circbuf v0.0.0-20150827004946-bbbad097214e/go.mod h1:3U/XgcO3hCbHZ8TKRvWD2dDTCfh9M9ya+I9JpbB7O8o= @@ -383,6 +384,7 @@ github.com/golangplus/testing v0.0.0-20180327235837-af21d9c3145e/go.mod h1:0AA// github.com/google/btree v0.0.0-20180813153112-4030bb1f1f0c/go.mod h1:lNA+9X1NB3Zf8V7Ke586lFgjr2dZNuvo3lPJSGZ5JPQ= github.com/google/btree v1.0.0/go.mod h1:lNA+9X1NB3Zf8V7Ke586lFgjr2dZNuvo3lPJSGZ5JPQ= github.com/google/btree v1.0.1/go.mod h1:xXMiIv4Fb/0kKde4SpL7qlzvu5cMJDRkFDxJfI9uaxA= +github.com/google/cel-go v0.9.0 h1:u1hg7lcZ/XWw2d3aV1jFS30ijQQ6q0/h1C2ZBeBD1gY= github.com/google/cel-go v0.9.0/go.mod h1:U7ayypeSkw23szu4GaQTPJGx66c20mx8JklMSxrmI1w= github.com/google/cel-spec v0.6.0/go.mod h1:Nwjgxy5CbjlPrtCWjeDjUyKMl8w41YBYGjsyDdqk0xA= github.com/google/go-cmp v0.2.0/go.mod h1:oXzfMopK8JAjlY9xF4vHSVASa0yLyX7SntLO5aqRK0M= @@ -765,6 +767,7 @@ github.com/spf13/pflag v1.0.5/go.mod h1:McXfInJRrz4CZXVZOBLb0bTZqETkiAhM9Iw0y3An github.com/spf13/viper v1.4.0/go.mod h1:PTJ7Z/lr49W6bUbkmS1V3by4uWynFiR9p7+dSq/yZzE= github.com/spf13/viper v1.7.0/go.mod h1:8WkrPz2fc9jxqZNCJI/76HCieCp4Q8HaLFoCha5qpdg= github.com/spf13/viper v1.8.1/go.mod h1:o0Pch8wJ9BVSWGQMbra6iw0oQ5oktSIBaujf1rJH9Ns= +github.com/stoewer/go-strcase v1.2.0 h1:Z2iHWqGXH00XYgqDmNgQbIBxf3wrNq0F3feEy0ainaU= github.com/stoewer/go-strcase v1.2.0/go.mod h1:IBiWB2sKIp3wVVQ3Y035++gc+knqhUQag1KpM8ahLw8= github.com/stretchr/objx v0.1.0/go.mod h1:HFkY916IF+rwdDfMAkV7OtwuqBVzrE8GR6GFx+wExME= github.com/stretchr/objx v0.1.1/go.mod h1:HFkY916IF+rwdDfMAkV7OtwuqBVzrE8GR6GFx+wExME= diff --git a/pkg/lib/bundle/validate.go b/pkg/lib/bundle/validate.go index d7a96d11c..fb8ca0368 100644 --- a/pkg/lib/bundle/validate.go +++ b/pkg/lib/bundle/validate.go @@ -237,6 +237,8 @@ func validateDependencies(dependenciesFile *registry.DependenciesFile) []error { errs = dp.Validate() case registry.LabelDependency: errs = dp.Validate() + case registry.CelConstraint: + errs = dp.Validate() default: errs = append(errs, fmt.Errorf("unsupported dependency type %s", d.GetType())) } diff --git a/pkg/registry/types.go b/pkg/registry/types.go index d7d258552..42908e508 100644 --- a/pkg/registry/types.go +++ b/pkg/registry/types.go @@ -8,6 +8,7 @@ import ( "strings" "github.com/blang/semver/v4" + "github.com/operator-framework/api/pkg/constraints" ) var ( @@ -55,6 +56,7 @@ const ( DeprecatedType = "olm.deprecated" LabelType = "olm.label" PropertyKey = "olm.properties" + ConstraintType = "olm.constraint" ) // APIKey stores GroupVersionKind for use as map keys @@ -220,6 +222,16 @@ type LabelDependency struct { Label string `json:"label" yaml:"label"` } +type CelConstraint struct { + // Constraint message that surfaces in resolution + // This field is optional + Message string `json:"message" yaml:"message"` + + // The cel struct that contraints CEL expression + // This field is required + Cel *constraints.Cel `json:"cel" yaml:"cel"` +} + type GVKProperty struct { // The group of GVK based property Group string `json:"group" yaml:"group"` @@ -289,6 +301,25 @@ func (pd *PackageDependency) Validate() []error { return errs } +// Validate will validate constraint type and return error(s) +func (cc *CelConstraint) Validate() []error { + errs := []error{} + if cc.Cel == nil { + errs = append(errs, fmt.Errorf("The CEL field is missing")) + } else { + if cc.Cel.Rule == "" { + errs = append(errs, fmt.Errorf("The CEL expression is missing")) + return errs + } + validator := constraints.NewCelEnvironment() + _, err := validator.Validate(cc.Cel.Rule) + if err != nil { + errs = append(errs, fmt.Errorf("Invalid CEL expression: %s", err.Error())) + } + } + return errs +} + // GetDependencies returns the list of dependency func (d *DependenciesFile) GetDependencies() []*Dependency { var dependencies []*Dependency @@ -329,6 +360,13 @@ func (e *Dependency) GetTypeValue() interface{} { return nil } return dep + case ConstraintType: + dep := CelConstraint{} + err := json.Unmarshal([]byte(e.GetValue()), &dep) + if err != nil { + return nil + } + return dep } return nil } diff --git a/vendor/github.com/antlr/antlr4/runtime/Go/antlr/LICENSE b/vendor/github.com/antlr/antlr4/runtime/Go/antlr/LICENSE new file mode 100644 index 000000000..52cf18e42 --- /dev/null +++ b/vendor/github.com/antlr/antlr4/runtime/Go/antlr/LICENSE @@ -0,0 +1,26 @@ +Copyright 2021 The ANTLR Project + +Redistribution and use in source and binary forms, with or without modification, +are permitted provided that the following conditions are met: + + 1. Redistributions of source code must retain the above copyright notice, + this list of conditions and the following disclaimer. + + 2. Redistributions in binary form must reproduce the above copyright notice, + this list of conditions and the following disclaimer in the documentation + and/or other materials provided with the distribution. + + 3. Neither the name of the copyright holder nor the names of its + contributors may be used to endorse or promote products derived from this + software without specific prior written permission. + +THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND +ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED +WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE +DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE +FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL +DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR +SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER +CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, +OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE +OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. diff --git a/vendor/github.com/antlr/antlr4/runtime/Go/antlr/atn.go b/vendor/github.com/antlr/antlr4/runtime/Go/antlr/atn.go new file mode 100644 index 000000000..1592212e1 --- /dev/null +++ b/vendor/github.com/antlr/antlr4/runtime/Go/antlr/atn.go @@ -0,0 +1,152 @@ +// Copyright (c) 2012-2017 The ANTLR Project. All rights reserved. +// Use of this file is governed by the BSD 3-clause license that +// can be found in the LICENSE.txt file in the project root. + +package antlr + +var ATNInvalidAltNumber int + +type ATN struct { + // DecisionToState is the decision points for all rules, subrules, optional + // blocks, ()+, ()*, etc. Used to build DFA predictors for them. + DecisionToState []DecisionState + + // grammarType is the ATN type and is used for deserializing ATNs from strings. + grammarType int + + // lexerActions is referenced by action transitions in the ATN for lexer ATNs. + lexerActions []LexerAction + + // maxTokenType is the maximum value for any symbol recognized by a transition in the ATN. + maxTokenType int + + modeNameToStartState map[string]*TokensStartState + + modeToStartState []*TokensStartState + + // ruleToStartState maps from rule index to starting state number. + ruleToStartState []*RuleStartState + + // ruleToStopState maps from rule index to stop state number. + ruleToStopState []*RuleStopState + + // ruleToTokenType maps the rule index to the resulting token type for lexer + // ATNs. For parser ATNs, it maps the rule index to the generated bypass token + // type if ATNDeserializationOptions.isGenerateRuleBypassTransitions was + // specified, and otherwise is nil. + ruleToTokenType []int + + states []ATNState +} + +func NewATN(grammarType int, maxTokenType int) *ATN { + return &ATN{ + grammarType: grammarType, + maxTokenType: maxTokenType, + modeNameToStartState: make(map[string]*TokensStartState), + } +} + +// NextTokensInContext computes the set of valid tokens that can occur starting +// in state s. If ctx is nil, the set of tokens will not include what can follow +// the rule surrounding s. In other words, the set will be restricted to tokens +// reachable staying within the rule of s. +func (a *ATN) NextTokensInContext(s ATNState, ctx RuleContext) *IntervalSet { + return NewLL1Analyzer(a).Look(s, nil, ctx) +} + +// NextTokensNoContext computes the set of valid tokens that can occur starting +// in s and staying in same rule. Token.EPSILON is in set if we reach end of +// rule. +func (a *ATN) NextTokensNoContext(s ATNState) *IntervalSet { + if s.GetNextTokenWithinRule() != nil { + return s.GetNextTokenWithinRule() + } + + s.SetNextTokenWithinRule(a.NextTokensInContext(s, nil)) + s.GetNextTokenWithinRule().readOnly = true + + return s.GetNextTokenWithinRule() +} + +func (a *ATN) NextTokens(s ATNState, ctx RuleContext) *IntervalSet { + if ctx == nil { + return a.NextTokensNoContext(s) + } + + return a.NextTokensInContext(s, ctx) +} + +func (a *ATN) addState(state ATNState) { + if state != nil { + state.SetATN(a) + state.SetStateNumber(len(a.states)) + } + + a.states = append(a.states, state) +} + +func (a *ATN) removeState(state ATNState) { + a.states[state.GetStateNumber()] = nil // Just free the memory; don't shift states in the slice +} + +func (a *ATN) defineDecisionState(s DecisionState) int { + a.DecisionToState = append(a.DecisionToState, s) + s.setDecision(len(a.DecisionToState) - 1) + + return s.getDecision() +} + +func (a *ATN) getDecisionState(decision int) DecisionState { + if len(a.DecisionToState) == 0 { + return nil + } + + return a.DecisionToState[decision] +} + +// getExpectedTokens computes the set of input symbols which could follow ATN +// state number stateNumber in the specified full parse context ctx and returns +// the set of potentially valid input symbols which could follow the specified +// state in the specified context. This method considers the complete parser +// context, but does not evaluate semantic predicates (i.e. all predicates +// encountered during the calculation are assumed true). If a path in the ATN +// exists from the starting state to the RuleStopState of the outermost context +// without Matching any symbols, Token.EOF is added to the returned set. +// +// A nil ctx defaults to ParserRuleContext.EMPTY. +// +// It panics if the ATN does not contain state stateNumber. +func (a *ATN) getExpectedTokens(stateNumber int, ctx RuleContext) *IntervalSet { + if stateNumber < 0 || stateNumber >= len(a.states) { + panic("Invalid state number.") + } + + s := a.states[stateNumber] + following := a.NextTokens(s, nil) + + if !following.contains(TokenEpsilon) { + return following + } + + expected := NewIntervalSet() + + expected.addSet(following) + expected.removeOne(TokenEpsilon) + + for ctx != nil && ctx.GetInvokingState() >= 0 && following.contains(TokenEpsilon) { + invokingState := a.states[ctx.GetInvokingState()] + rt := invokingState.GetTransitions()[0] + + following = a.NextTokens(rt.(*RuleTransition).followState, nil) + expected.addSet(following) + expected.removeOne(TokenEpsilon) + ctx = ctx.GetParent().(RuleContext) + } + + if following.contains(TokenEpsilon) { + expected.addOne(TokenEOF) + } + + return expected +} diff --git a/vendor/github.com/antlr/antlr4/runtime/Go/antlr/atn_config.go b/vendor/github.com/antlr/antlr4/runtime/Go/antlr/atn_config.go new file mode 100644 index 000000000..0535d5246 --- /dev/null +++ b/vendor/github.com/antlr/antlr4/runtime/Go/antlr/atn_config.go @@ -0,0 +1,295 @@ +// Copyright (c) 2012-2017 The ANTLR Project. All rights reserved. +// Use of this file is governed by the BSD 3-clause license that +// can be found in the LICENSE.txt file in the project root. + +package antlr + +import ( + "fmt" +) + +type comparable interface { + equals(other interface{}) bool +} + +// ATNConfig is a tuple: (ATN state, predicted alt, syntactic, semantic +// context). The syntactic context is a graph-structured stack node whose +// path(s) to the root is the rule invocation(s) chain used to arrive at the +// state. The semantic context is the tree of semantic predicates encountered +// before reaching an ATN state. +type ATNConfig interface { + comparable + + hash() int + + GetState() ATNState + GetAlt() int + GetSemanticContext() SemanticContext + + GetContext() PredictionContext + SetContext(PredictionContext) + + GetReachesIntoOuterContext() int + SetReachesIntoOuterContext(int) + + String() string + + getPrecedenceFilterSuppressed() bool + setPrecedenceFilterSuppressed(bool) +} + +type BaseATNConfig struct { + precedenceFilterSuppressed bool + state ATNState + alt int + context PredictionContext + semanticContext SemanticContext + reachesIntoOuterContext int +} + +func NewBaseATNConfig7(old *BaseATNConfig) *BaseATNConfig { // TODO: Dup + return &BaseATNConfig{ + state: old.state, + alt: old.alt, + context: old.context, + semanticContext: old.semanticContext, + reachesIntoOuterContext: old.reachesIntoOuterContext, + } +} + +func NewBaseATNConfig6(state ATNState, alt int, context PredictionContext) *BaseATNConfig { + return NewBaseATNConfig5(state, alt, context, SemanticContextNone) +} + +func NewBaseATNConfig5(state ATNState, alt int, context PredictionContext, semanticContext SemanticContext) *BaseATNConfig { + if semanticContext == nil { + panic("semanticContext cannot be nil") // TODO: Necessary? + } + + return &BaseATNConfig{state: state, alt: alt, context: context, semanticContext: semanticContext} +} + +func NewBaseATNConfig4(c ATNConfig, state ATNState) *BaseATNConfig { + return NewBaseATNConfig(c, state, c.GetContext(), c.GetSemanticContext()) +} + +func NewBaseATNConfig3(c ATNConfig, state ATNState, semanticContext SemanticContext) *BaseATNConfig { + return NewBaseATNConfig(c, state, c.GetContext(), semanticContext) +} + +func NewBaseATNConfig2(c ATNConfig, semanticContext SemanticContext) *BaseATNConfig { + return NewBaseATNConfig(c, c.GetState(), c.GetContext(), semanticContext) +} + +func NewBaseATNConfig1(c ATNConfig, state ATNState, context PredictionContext) *BaseATNConfig { + return NewBaseATNConfig(c, state, context, c.GetSemanticContext()) +} + +func NewBaseATNConfig(c ATNConfig, state ATNState, context PredictionContext, semanticContext SemanticContext) *BaseATNConfig { + if semanticContext == nil { + panic("semanticContext cannot be nil") + } + + return &BaseATNConfig{ + state: state, + alt: c.GetAlt(), + context: context, + semanticContext: semanticContext, + reachesIntoOuterContext: c.GetReachesIntoOuterContext(), + precedenceFilterSuppressed: c.getPrecedenceFilterSuppressed(), + } +} + +func (b *BaseATNConfig) getPrecedenceFilterSuppressed() bool { + return b.precedenceFilterSuppressed +} + +func (b *BaseATNConfig) setPrecedenceFilterSuppressed(v bool) { + b.precedenceFilterSuppressed = v +} + +func (b *BaseATNConfig) GetState() ATNState { + return b.state +} + +func (b *BaseATNConfig) GetAlt() int { + return b.alt +} + +func (b *BaseATNConfig) SetContext(v PredictionContext) { + b.context = v +} +func (b *BaseATNConfig) GetContext() PredictionContext { + return b.context +} + +func (b *BaseATNConfig) GetSemanticContext() SemanticContext { + return b.semanticContext +} + +func (b *BaseATNConfig) GetReachesIntoOuterContext() int { + return b.reachesIntoOuterContext +} + +func (b *BaseATNConfig) SetReachesIntoOuterContext(v int) { + b.reachesIntoOuterContext = v +} + +// An ATN configuration is equal to another if both have the same state, they +// predict the same alternative, and syntactic/semantic contexts are the same. +func (b *BaseATNConfig) equals(o interface{}) bool { + if b == o { + return true + } + + var other, ok = o.(*BaseATNConfig) + + if !ok { + return false + } + + var equal bool + + if b.context == nil { + equal = other.context == nil + } else { + equal = b.context.equals(other.context) + } + + var ( + nums = b.state.GetStateNumber() == other.state.GetStateNumber() + alts = b.alt == other.alt + cons = b.semanticContext.equals(other.semanticContext) + sups = b.precedenceFilterSuppressed == other.precedenceFilterSuppressed + ) + + return nums && alts && cons && sups && equal +} + +func (b *BaseATNConfig) hash() int { + var c int + if b.context != nil { + c = b.context.hash() + } + + h := murmurInit(7) + h = murmurUpdate(h, b.state.GetStateNumber()) + h = murmurUpdate(h, b.alt) + h = murmurUpdate(h, c) + h = murmurUpdate(h, b.semanticContext.hash()) + return murmurFinish(h, 4) +} + +func (b *BaseATNConfig) String() string { + var s1, s2, s3 string + + if b.context != nil { + s1 = ",[" + fmt.Sprint(b.context) + "]" + } + + if b.semanticContext != SemanticContextNone { + s2 = "," + fmt.Sprint(b.semanticContext) + } + + if b.reachesIntoOuterContext > 0 { + s3 = ",up=" + fmt.Sprint(b.reachesIntoOuterContext) + } + + return fmt.Sprintf("(%v,%v%v%v%v)", b.state, b.alt, s1, s2, s3) +} + +type LexerATNConfig struct { + *BaseATNConfig + lexerActionExecutor *LexerActionExecutor + passedThroughNonGreedyDecision bool +} + +func NewLexerATNConfig6(state ATNState, alt int, context PredictionContext) *LexerATNConfig { + return &LexerATNConfig{BaseATNConfig: NewBaseATNConfig5(state, alt, context, SemanticContextNone)} +} + +func NewLexerATNConfig5(state ATNState, alt int, context PredictionContext, lexerActionExecutor *LexerActionExecutor) *LexerATNConfig { + return &LexerATNConfig{ + BaseATNConfig: NewBaseATNConfig5(state, alt, context, SemanticContextNone), + lexerActionExecutor: lexerActionExecutor, + } +} + +func NewLexerATNConfig4(c *LexerATNConfig, state ATNState) *LexerATNConfig { + return &LexerATNConfig{ + BaseATNConfig: NewBaseATNConfig(c, state, c.GetContext(), c.GetSemanticContext()), + lexerActionExecutor: c.lexerActionExecutor, + passedThroughNonGreedyDecision: checkNonGreedyDecision(c, state), + } +} + +func NewLexerATNConfig3(c *LexerATNConfig, state ATNState, lexerActionExecutor *LexerActionExecutor) *LexerATNConfig { + return &LexerATNConfig{ + BaseATNConfig: NewBaseATNConfig(c, state, c.GetContext(), c.GetSemanticContext()), + lexerActionExecutor: lexerActionExecutor, + passedThroughNonGreedyDecision: checkNonGreedyDecision(c, state), + } +} + +func NewLexerATNConfig2(c *LexerATNConfig, state ATNState, context PredictionContext) *LexerATNConfig { + return &LexerATNConfig{ + BaseATNConfig: NewBaseATNConfig(c, state, context, c.GetSemanticContext()), + lexerActionExecutor: c.lexerActionExecutor, + passedThroughNonGreedyDecision: checkNonGreedyDecision(c, state), + } +} + +func NewLexerATNConfig1(state ATNState, alt int, context PredictionContext) *LexerATNConfig { + return &LexerATNConfig{BaseATNConfig: NewBaseATNConfig5(state, alt, context, SemanticContextNone)} +} + +func (l *LexerATNConfig) hash() int { + var f int + if l.passedThroughNonGreedyDecision { + f = 1 + } else { + f = 0 + } + h := murmurInit(7) + h = murmurUpdate(h, l.state.hash()) + h = murmurUpdate(h, l.alt) + h = murmurUpdate(h, l.context.hash()) + h = murmurUpdate(h, l.semanticContext.hash()) + h = murmurUpdate(h, f) + h = murmurUpdate(h, l.lexerActionExecutor.hash()) + h = murmurFinish(h, 6) + return h +} + +func (l *LexerATNConfig) equals(other interface{}) bool { + var othert, ok = other.(*LexerATNConfig) + + if l == other { + return true + } else if !ok { + return false + } else if l.passedThroughNonGreedyDecision != othert.passedThroughNonGreedyDecision { + return false + } + + var b bool + + if l.lexerActionExecutor != nil { + b = !l.lexerActionExecutor.equals(othert.lexerActionExecutor) + } else { + b = othert.lexerActionExecutor != nil + } + + if b { + return false + } + + return l.BaseATNConfig.equals(othert.BaseATNConfig) +} + + +func checkNonGreedyDecision(source *LexerATNConfig, target ATNState) bool { + var ds, ok = target.(DecisionState) + + return source.passedThroughNonGreedyDecision || (ok && ds.getNonGreedy()) +} diff --git a/vendor/github.com/antlr/antlr4/runtime/Go/antlr/atn_config_set.go b/vendor/github.com/antlr/antlr4/runtime/Go/antlr/atn_config_set.go new file mode 100644 index 000000000..d9f74755f --- /dev/null +++ b/vendor/github.com/antlr/antlr4/runtime/Go/antlr/atn_config_set.go @@ -0,0 +1,387 @@ +// Copyright (c) 2012-2017 The ANTLR Project. All rights reserved. +// Use of this file is governed by the BSD 3-clause license that +// can be found in the LICENSE.txt file in the project root. + +package antlr + +import "fmt" + +type ATNConfigSet interface { + hash() int + Add(ATNConfig, *DoubleDict) bool + AddAll([]ATNConfig) bool + + GetStates() *Set + GetPredicates() []SemanticContext + GetItems() []ATNConfig + + OptimizeConfigs(interpreter *BaseATNSimulator) + + Equals(other interface{}) bool + + Length() int + IsEmpty() bool + Contains(ATNConfig) bool + ContainsFast(ATNConfig) bool + Clear() + String() string + + HasSemanticContext() bool + SetHasSemanticContext(v bool) + + ReadOnly() bool + SetReadOnly(bool) + + GetConflictingAlts() *BitSet + SetConflictingAlts(*BitSet) + + FullContext() bool + + GetUniqueAlt() int + SetUniqueAlt(int) + + GetDipsIntoOuterContext() bool + SetDipsIntoOuterContext(bool) +} + +// BaseATNConfigSet is a specialized set of ATNConfig that tracks information +// about its elements and can combine similar configurations using a +// graph-structured stack. +type BaseATNConfigSet struct { + cachedHash int + + // configLookup is used to determine whether two BaseATNConfigSets are equal. We + // need all configurations with the same (s, i, _, semctx) to be equal. A key + // effectively doubles the number of objects associated with ATNConfigs. All + // keys are hashed by (s, i, _, pi), not including the context. Wiped out when + // read-only because a set becomes a DFA state. + configLookup *Set + + // configs is the added elements. + configs []ATNConfig + + // TODO: These fields make me pretty uncomfortable, but it is nice to pack up + // info together because it saves recomputation. Can we track conflicts as they + // are added to save scanning configs later? + conflictingAlts *BitSet + + // dipsIntoOuterContext is used by parsers and lexers. In a lexer, it indicates + // we hit a pred while computing a closure operation. Do not make a DFA state + // from the BaseATNConfigSet in this case. TODO: How is this used by parsers? + dipsIntoOuterContext bool + + // fullCtx is whether it is part of a full context LL prediction. Used to + // determine how to merge $. It is a wildcard with SLL, but not for an LL + // context merge. + fullCtx bool + + // Used in parser and lexer. In lexer, it indicates we hit a pred + // while computing a closure operation. Don't make a DFA state from a. + hasSemanticContext bool + + // readOnly is whether it is read-only. Do not + // allow any code to manipulate the set if true because DFA states will point at + // sets and those must not change. It not protect other fields; conflictingAlts + // in particular, which is assigned after readOnly. + readOnly bool + + // TODO: These fields make me pretty uncomfortable, but it is nice to pack up + // info together because it saves recomputation. Can we track conflicts as they + // are added to save scanning configs later? + uniqueAlt int +} + +func NewBaseATNConfigSet(fullCtx bool) *BaseATNConfigSet { + return &BaseATNConfigSet{ + cachedHash: -1, + configLookup: NewSet(nil, equalATNConfigs), + fullCtx: fullCtx, + } +} + +// Add merges contexts with existing configs for (s, i, pi, _), where s is the +// ATNConfig.state, i is the ATNConfig.alt, and pi is the +// ATNConfig.semanticContext. We use (s,i,pi) as the key. Updates +// dipsIntoOuterContext and hasSemanticContext when necessary. +func (b *BaseATNConfigSet) Add(config ATNConfig, mergeCache *DoubleDict) bool { + if b.readOnly { + panic("set is read-only") + } + + if config.GetSemanticContext() != SemanticContextNone { + b.hasSemanticContext = true + } + + if config.GetReachesIntoOuterContext() > 0 { + b.dipsIntoOuterContext = true + } + + existing := b.configLookup.add(config).(ATNConfig) + + if existing == config { + b.cachedHash = -1 + b.configs = append(b.configs, config) // Track order here + + return true + } + + // Merge a previous (s, i, pi, _) with it and save the result + rootIsWildcard := !b.fullCtx + merged := merge(existing.GetContext(), config.GetContext(), rootIsWildcard, mergeCache) + + // No need to check for existing.context because config.context is in the cache, + // since the only way to create new graphs is the "call rule" and here. We cache + // at both places. + existing.SetReachesIntoOuterContext(intMax(existing.GetReachesIntoOuterContext(), config.GetReachesIntoOuterContext())) + + // Preserve the precedence filter suppression during the merge + if config.getPrecedenceFilterSuppressed() { + existing.setPrecedenceFilterSuppressed(true) + } + + // Replace the context because there is no need to do alt mapping + existing.SetContext(merged) + + return true +} + +func (b *BaseATNConfigSet) GetStates() *Set { + states := NewSet(nil, nil) + + for i := 0; i < len(b.configs); i++ { + states.add(b.configs[i].GetState()) + } + + return states +} + +func (b *BaseATNConfigSet) HasSemanticContext() bool { + return b.hasSemanticContext +} + +func (b *BaseATNConfigSet) SetHasSemanticContext(v bool) { + b.hasSemanticContext = v +} + +func (b *BaseATNConfigSet) GetPredicates() []SemanticContext { + preds := make([]SemanticContext, 0) + + for i := 0; i < len(b.configs); i++ { + c := b.configs[i].GetSemanticContext() + + if c != SemanticContextNone { + preds = append(preds, c) + } + } + + return preds +} + +func (b *BaseATNConfigSet) GetItems() []ATNConfig { + return b.configs +} + +func (b *BaseATNConfigSet) OptimizeConfigs(interpreter *BaseATNSimulator) { + if b.readOnly { + panic("set is read-only") + } + + if b.configLookup.length() == 0 { + return + } + + for i := 0; i < len(b.configs); i++ { + config := b.configs[i] + + config.SetContext(interpreter.getCachedContext(config.GetContext())) + } +} + +func (b *BaseATNConfigSet) AddAll(coll []ATNConfig) bool { + for i := 0; i < len(coll); i++ { + b.Add(coll[i], nil) + } + + return false +} + +func (b *BaseATNConfigSet) Equals(other interface{}) bool { + if b == other { + return true + } else if _, ok := other.(*BaseATNConfigSet); !ok { + return false + } + + other2 := other.(*BaseATNConfigSet) + + return b.configs != nil && + // TODO: b.configs.equals(other2.configs) && // TODO: Is b necessary? + b.fullCtx == other2.fullCtx && + b.uniqueAlt == other2.uniqueAlt && + b.conflictingAlts == other2.conflictingAlts && + b.hasSemanticContext == other2.hasSemanticContext && + b.dipsIntoOuterContext == other2.dipsIntoOuterContext +} + +func (b *BaseATNConfigSet) hash() int { + if b.readOnly { + if b.cachedHash == -1 { + b.cachedHash = b.hashCodeConfigs() + } + + return b.cachedHash + } + + return b.hashCodeConfigs() +} + +func (b *BaseATNConfigSet) hashCodeConfigs() int { + h := murmurInit(1) + for _, c := range b.configs { + if c != nil { + h = murmurUpdate(h, c.hash()) + } + } + return murmurFinish(h, len(b.configs)) +} + +func (b *BaseATNConfigSet) Length() int { + return len(b.configs) +} + +func (b *BaseATNConfigSet) IsEmpty() bool { + return len(b.configs) == 0 +} + +func (b *BaseATNConfigSet) Contains(item ATNConfig) bool { + if b.configLookup == nil { + panic("not implemented for read-only sets") + } + + return b.configLookup.contains(item) +} + +func (b *BaseATNConfigSet) ContainsFast(item ATNConfig) bool { + if b.configLookup == nil { + panic("not implemented for read-only sets") + } + + return b.configLookup.contains(item) // TODO: containsFast is not implemented for Set +} + +func (b *BaseATNConfigSet) Clear() { + if b.readOnly { + panic("set is read-only") + } + + b.configs = make([]ATNConfig, 0) + b.cachedHash = -1 + b.configLookup = NewSet(nil, equalATNConfigs) +} + +func (b *BaseATNConfigSet) FullContext() bool { + return b.fullCtx +} + +func (b *BaseATNConfigSet) GetDipsIntoOuterContext() bool { + return b.dipsIntoOuterContext +} + +func (b *BaseATNConfigSet) SetDipsIntoOuterContext(v bool) { + b.dipsIntoOuterContext = v +} + +func (b *BaseATNConfigSet) GetUniqueAlt() int { + return b.uniqueAlt +} + +func (b *BaseATNConfigSet) SetUniqueAlt(v int) { + b.uniqueAlt = v +} + +func (b *BaseATNConfigSet) GetConflictingAlts() *BitSet { + return b.conflictingAlts +} + +func (b *BaseATNConfigSet) SetConflictingAlts(v *BitSet) { + b.conflictingAlts = v +} + +func (b *BaseATNConfigSet) ReadOnly() bool { + return b.readOnly +} + +func (b *BaseATNConfigSet) SetReadOnly(readOnly bool) { + b.readOnly = readOnly + + if readOnly { + b.configLookup = nil // Read only, so no need for the lookup cache + } +} + +func (b *BaseATNConfigSet) String() string { + s := "[" + + for i, c := range b.configs { + s += c.String() + + if i != len(b.configs)-1 { + s += ", " + } + } + + s += "]" + + if b.hasSemanticContext { + s += ",hasSemanticContext=" + fmt.Sprint(b.hasSemanticContext) + } + + if b.uniqueAlt != ATNInvalidAltNumber { + s += ",uniqueAlt=" + fmt.Sprint(b.uniqueAlt) + } + + if b.conflictingAlts != nil { + s += ",conflictingAlts=" + b.conflictingAlts.String() + } + + if b.dipsIntoOuterContext { + s += ",dipsIntoOuterContext" + } + + return s +} + +type OrderedATNConfigSet struct { + *BaseATNConfigSet +} + +func NewOrderedATNConfigSet() *OrderedATNConfigSet { + b := NewBaseATNConfigSet(false) + + b.configLookup = NewSet(nil, nil) + + return &OrderedATNConfigSet{BaseATNConfigSet: b} +} + +func equalATNConfigs(a, b interface{}) bool { + if a == nil || b == nil { + return false + } + + if a == b { + return true + } + + var ai, ok = a.(ATNConfig) + var bi, ok1 = b.(ATNConfig) + + if !ok || !ok1 { + return false + } + + nums := ai.GetState().GetStateNumber() == bi.GetState().GetStateNumber() + alts := ai.GetAlt() == bi.GetAlt() + cons := ai.GetSemanticContext().equals(bi.GetSemanticContext()) + + return nums && alts && cons +} diff --git a/vendor/github.com/antlr/antlr4/runtime/Go/antlr/atn_deserialization_options.go b/vendor/github.com/antlr/antlr4/runtime/Go/antlr/atn_deserialization_options.go new file mode 100644 index 000000000..18b89efaf --- /dev/null +++ b/vendor/github.com/antlr/antlr4/runtime/Go/antlr/atn_deserialization_options.go @@ -0,0 +1,25 @@ +// Copyright (c) 2012-2017 The ANTLR Project. All rights reserved. +// Use of this file is governed by the BSD 3-clause license that +// can be found in the LICENSE.txt file in the project root. + +package antlr + +var ATNDeserializationOptionsdefaultOptions = &ATNDeserializationOptions{true, false, false} + +type ATNDeserializationOptions struct { + readOnly bool + verifyATN bool + generateRuleBypassTransitions bool +} + +func NewATNDeserializationOptions(CopyFrom *ATNDeserializationOptions) *ATNDeserializationOptions { + o := new(ATNDeserializationOptions) + + if CopyFrom != nil { + o.readOnly = CopyFrom.readOnly + o.verifyATN = CopyFrom.verifyATN + o.generateRuleBypassTransitions = CopyFrom.generateRuleBypassTransitions + } + + return o +} diff --git a/vendor/github.com/antlr/antlr4/runtime/Go/antlr/atn_deserializer.go b/vendor/github.com/antlr/antlr4/runtime/Go/antlr/atn_deserializer.go new file mode 100644 index 000000000..884d39cf7 --- /dev/null +++ b/vendor/github.com/antlr/antlr4/runtime/Go/antlr/atn_deserializer.go @@ -0,0 +1,828 @@ +// Copyright (c) 2012-2017 The ANTLR Project. All rights reserved. +// Use of this file is governed by the BSD 3-clause license that +// can be found in the LICENSE.txt file in the project root. + +package antlr + +import ( + "encoding/hex" + "fmt" + "strconv" + "strings" + "unicode/utf16" +) + +// This is the earliest supported serialized UUID. +// stick to serialized version for now, we don't need a UUID instance +var BaseSerializedUUID = "AADB8D7E-AEEF-4415-AD2B-8204D6CF042E" +var AddedUnicodeSMP = "59627784-3BE5-417A-B9EB-8131A7286089" + +// This list contains all of the currently supported UUIDs, ordered by when +// the feature first appeared in this branch. +var SupportedUUIDs = []string{BaseSerializedUUID, AddedUnicodeSMP} + +var SerializedVersion = 3 + +// This is the current serialized UUID. +var SerializedUUID = AddedUnicodeSMP + +type LoopEndStateIntPair struct { + item0 *LoopEndState + item1 int +} + +type BlockStartStateIntPair struct { + item0 BlockStartState + item1 int +} + +type ATNDeserializer struct { + deserializationOptions *ATNDeserializationOptions + data []rune + pos int + uuid string +} + +func NewATNDeserializer(options *ATNDeserializationOptions) *ATNDeserializer { + if options == nil { + options = ATNDeserializationOptionsdefaultOptions + } + + return &ATNDeserializer{deserializationOptions: options} +} + +func stringInSlice(a string, list []string) int { + for i, b := range list { + if b == a { + return i + } + } + + return -1 +} + +// isFeatureSupported determines if a particular serialized representation of an +// ATN supports a particular feature, identified by the UUID used for +// serializing the ATN at the time the feature was first introduced. Feature is +// the UUID marking the first time the feature was supported in the serialized +// ATN. ActualUuid is the UUID of the actual serialized ATN which is currently +// being deserialized. It returns true if actualUuid represents a serialized ATN +// at or after the feature identified by feature was introduced, and otherwise +// false. +func (a *ATNDeserializer) isFeatureSupported(feature, actualUUID string) bool { + idx1 := stringInSlice(feature, SupportedUUIDs) + + if idx1 < 0 { + return false + } + + idx2 := stringInSlice(actualUUID, SupportedUUIDs) + + return idx2 >= idx1 +} + +func (a *ATNDeserializer) DeserializeFromUInt16(data []uint16) *ATN { + a.reset(utf16.Decode(data)) + a.checkVersion() + a.checkUUID() + + atn := a.readATN() + + a.readStates(atn) + a.readRules(atn) + a.readModes(atn) + + sets := make([]*IntervalSet, 0) + + // First, deserialize sets with 16-bit arguments <= U+FFFF. + sets = a.readSets(atn, sets, a.readInt) + // Next, if the ATN was serialized with the Unicode SMP feature, + // deserialize sets with 32-bit arguments <= U+10FFFF. + if (a.isFeatureSupported(AddedUnicodeSMP, a.uuid)) { + sets = a.readSets(atn, sets, a.readInt32) + } + + a.readEdges(atn, sets) + a.readDecisions(atn) + a.readLexerActions(atn) + a.markPrecedenceDecisions(atn) + a.verifyATN(atn) + + if a.deserializationOptions.generateRuleBypassTransitions && atn.grammarType == ATNTypeParser { + a.generateRuleBypassTransitions(atn) + // Re-verify after modification + a.verifyATN(atn) + } + + return atn + +} + +func (a *ATNDeserializer) reset(data []rune) { + temp := make([]rune, len(data)) + + for i, c := range data { + // Don't adjust the first value since that's the version number + if i == 0 { + temp[i] = c + } else if c > 1 { + temp[i] = c - 2 + } else { + temp[i] = c + 65533 + } + } + + a.data = temp + a.pos = 0 +} + +func (a *ATNDeserializer) checkVersion() { + version := a.readInt() + + if version != SerializedVersion { + panic("Could not deserialize ATN with version " + strconv.Itoa(version) + " (expected " + strconv.Itoa(SerializedVersion) + ").") + } +} + +func (a *ATNDeserializer) checkUUID() { + uuid := a.readUUID() + + if stringInSlice(uuid, SupportedUUIDs) < 0 { + panic("Could not deserialize ATN with UUID: " + uuid + " (expected " + SerializedUUID + " or a legacy UUID).") + } + + a.uuid = uuid +} + +func (a *ATNDeserializer) readATN() *ATN { + grammarType := a.readInt() + maxTokenType := a.readInt() + + return NewATN(grammarType, maxTokenType) +} + +func (a *ATNDeserializer) readStates(atn *ATN) { + loopBackStateNumbers := make([]LoopEndStateIntPair, 0) + endStateNumbers := make([]BlockStartStateIntPair, 0) + + nstates := a.readInt() + + for i := 0; i < nstates; i++ { + stype := a.readInt() + + // Ignore bad types of states + if stype == ATNStateInvalidType { + atn.addState(nil) + + continue + } + + ruleIndex := a.readInt() + + if ruleIndex == 0xFFFF { + ruleIndex = -1 + } + + s := a.stateFactory(stype, ruleIndex) + + if stype == ATNStateLoopEnd { + loopBackStateNumber := a.readInt() + + loopBackStateNumbers = append(loopBackStateNumbers, LoopEndStateIntPair{s.(*LoopEndState), loopBackStateNumber}) + } else if s2, ok := s.(BlockStartState); ok { + endStateNumber := a.readInt() + + endStateNumbers = append(endStateNumbers, BlockStartStateIntPair{s2, endStateNumber}) + } + + atn.addState(s) + } + + // Delay the assignment of loop back and end states until we know all the state + // instances have been initialized + for j := 0; j < len(loopBackStateNumbers); j++ { + pair := loopBackStateNumbers[j] + + pair.item0.loopBackState = atn.states[pair.item1] + } + + for j := 0; j < len(endStateNumbers); j++ { + pair := endStateNumbers[j] + + pair.item0.setEndState(atn.states[pair.item1].(*BlockEndState)) + } + + numNonGreedyStates := a.readInt() + + for j := 0; j < numNonGreedyStates; j++ { + stateNumber := a.readInt() + + atn.states[stateNumber].(DecisionState).setNonGreedy(true) + } + + numPrecedenceStates := a.readInt() + + for j := 0; j < numPrecedenceStates; j++ { + stateNumber := a.readInt() + + atn.states[stateNumber].(*RuleStartState).isPrecedenceRule = true + } +} + +func (a *ATNDeserializer) readRules(atn *ATN) { + nrules := a.readInt() + + if atn.grammarType == ATNTypeLexer { + atn.ruleToTokenType = make([]int, nrules) // TODO: initIntArray(nrules, 0) + } + + atn.ruleToStartState = make([]*RuleStartState, nrules) // TODO: initIntArray(nrules, 0) + + for i := 0; i < nrules; i++ { + s := a.readInt() + startState := atn.states[s].(*RuleStartState) + + atn.ruleToStartState[i] = startState + + if atn.grammarType == ATNTypeLexer { + tokenType := a.readInt() + + if tokenType == 0xFFFF { + tokenType = TokenEOF + } + + atn.ruleToTokenType[i] = tokenType + } + } + + atn.ruleToStopState = make([]*RuleStopState, nrules) //initIntArray(nrules, 0) + + for i := 0; i < len(atn.states); i++ { + state := atn.states[i] + + if s2, ok := state.(*RuleStopState); ok { + atn.ruleToStopState[s2.ruleIndex] = s2 + atn.ruleToStartState[s2.ruleIndex].stopState = s2 + } + } +} + +func (a *ATNDeserializer) readModes(atn *ATN) { + nmodes := a.readInt() + + for i := 0; i < nmodes; i++ { + s := a.readInt() + + atn.modeToStartState = append(atn.modeToStartState, atn.states[s].(*TokensStartState)) + } +} + +func (a *ATNDeserializer) readSets(atn *ATN, sets []*IntervalSet, readUnicode func() int) []*IntervalSet { + m := a.readInt() + + for i := 0; i < m; i++ { + iset := NewIntervalSet() + + sets = append(sets, iset) + + n := a.readInt() + containsEOF := a.readInt() + + if containsEOF != 0 { + iset.addOne(-1) + } + + for j := 0; j < n; j++ { + i1 := readUnicode() + i2 := readUnicode() + + iset.addRange(i1, i2) + } + } + + return sets +} + +func (a *ATNDeserializer) readEdges(atn *ATN, sets []*IntervalSet) { + nedges := a.readInt() + + for i := 0; i < nedges; i++ { + var ( + src = a.readInt() + trg = a.readInt() + ttype = a.readInt() + arg1 = a.readInt() + arg2 = a.readInt() + arg3 = a.readInt() + trans = a.edgeFactory(atn, ttype, src, trg, arg1, arg2, arg3, sets) + srcState = atn.states[src] + ) + + srcState.AddTransition(trans, -1) + } + + // Edges for rule stop states can be derived, so they are not serialized + for i := 0; i < len(atn.states); i++ { + state := atn.states[i] + + for j := 0; j < len(state.GetTransitions()); j++ { + var t, ok = state.GetTransitions()[j].(*RuleTransition) + + if !ok { + continue + } + + outermostPrecedenceReturn := -1 + + if atn.ruleToStartState[t.getTarget().GetRuleIndex()].isPrecedenceRule { + if t.precedence == 0 { + outermostPrecedenceReturn = t.getTarget().GetRuleIndex() + } + } + + trans := NewEpsilonTransition(t.followState, outermostPrecedenceReturn) + + atn.ruleToStopState[t.getTarget().GetRuleIndex()].AddTransition(trans, -1) + } + } + + for i := 0; i < len(atn.states); i++ { + state := atn.states[i] + + if s2, ok := state.(*BaseBlockStartState); ok { + // We need to know the end state to set its start state + if s2.endState == nil { + panic("IllegalState") + } + + // Block end states can only be associated to a single block start state + if s2.endState.startState != nil { + panic("IllegalState") + } + + s2.endState.startState = state + } + + if s2, ok := state.(*PlusLoopbackState); ok { + for j := 0; j < len(s2.GetTransitions()); j++ { + target := s2.GetTransitions()[j].getTarget() + + if t2, ok := target.(*PlusBlockStartState); ok { + t2.loopBackState = state + } + } + } else if s2, ok := state.(*StarLoopbackState); ok { + for j := 0; j < len(s2.GetTransitions()); j++ { + target := s2.GetTransitions()[j].getTarget() + + if t2, ok := target.(*StarLoopEntryState); ok { + t2.loopBackState = state + } + } + } + } +} + +func (a *ATNDeserializer) readDecisions(atn *ATN) { + ndecisions := a.readInt() + + for i := 0; i < ndecisions; i++ { + s := a.readInt() + decState := atn.states[s].(DecisionState) + + atn.DecisionToState = append(atn.DecisionToState, decState) + decState.setDecision(i) + } +} + +func (a *ATNDeserializer) readLexerActions(atn *ATN) { + if atn.grammarType == ATNTypeLexer { + count := a.readInt() + + atn.lexerActions = make([]LexerAction, count) // initIntArray(count, nil) + + for i := 0; i < count; i++ { + actionType := a.readInt() + data1 := a.readInt() + + if data1 == 0xFFFF { + data1 = -1 + } + + data2 := a.readInt() + + if data2 == 0xFFFF { + data2 = -1 + } + + lexerAction := a.lexerActionFactory(actionType, data1, data2) + + atn.lexerActions[i] = lexerAction + } + } +} + +func (a *ATNDeserializer) generateRuleBypassTransitions(atn *ATN) { + count := len(atn.ruleToStartState) + + for i := 0; i < count; i++ { + atn.ruleToTokenType[i] = atn.maxTokenType + i + 1 + } + + for i := 0; i < count; i++ { + a.generateRuleBypassTransition(atn, i) + } +} + +func (a *ATNDeserializer) generateRuleBypassTransition(atn *ATN, idx int) { + bypassStart := NewBasicBlockStartState() + + bypassStart.ruleIndex = idx + atn.addState(bypassStart) + + bypassStop := NewBlockEndState() + + bypassStop.ruleIndex = idx + atn.addState(bypassStop) + + bypassStart.endState = bypassStop + + atn.defineDecisionState(bypassStart.BaseDecisionState) + + bypassStop.startState = bypassStart + + var excludeTransition Transition + var endState ATNState + + if atn.ruleToStartState[idx].isPrecedenceRule { + // Wrap from the beginning of the rule to the StarLoopEntryState + endState = nil + + for i := 0; i < len(atn.states); i++ { + state := atn.states[i] + + if a.stateIsEndStateFor(state, idx) != nil { + endState = state + excludeTransition = state.(*StarLoopEntryState).loopBackState.GetTransitions()[0] + + break + } + } + + if excludeTransition == nil { + panic("Couldn't identify final state of the precedence rule prefix section.") + } + } else { + endState = atn.ruleToStopState[idx] + } + + // All non-excluded transitions that currently target end state need to target + // blockEnd instead + for i := 0; i < len(atn.states); i++ { + state := atn.states[i] + + for j := 0; j < len(state.GetTransitions()); j++ { + transition := state.GetTransitions()[j] + + if transition == excludeTransition { + continue + } + + if transition.getTarget() == endState { + transition.setTarget(bypassStop) + } + } + } + + // All transitions leaving the rule start state need to leave blockStart instead + ruleToStartState := atn.ruleToStartState[idx] + count := len(ruleToStartState.GetTransitions()) + + for count > 0 { + bypassStart.AddTransition(ruleToStartState.GetTransitions()[count-1], -1) + ruleToStartState.SetTransitions([]Transition{ruleToStartState.GetTransitions()[len(ruleToStartState.GetTransitions())-1]}) + } + + // Link the new states + atn.ruleToStartState[idx].AddTransition(NewEpsilonTransition(bypassStart, -1), -1) + bypassStop.AddTransition(NewEpsilonTransition(endState, -1), -1) + + MatchState := NewBasicState() + + atn.addState(MatchState) + MatchState.AddTransition(NewAtomTransition(bypassStop, atn.ruleToTokenType[idx]), -1) + bypassStart.AddTransition(NewEpsilonTransition(MatchState, -1), -1) +} + +func (a *ATNDeserializer) stateIsEndStateFor(state ATNState, idx int) ATNState { + if state.GetRuleIndex() != idx { + return nil + } + + if _, ok := state.(*StarLoopEntryState); !ok { + return nil + } + + maybeLoopEndState := state.GetTransitions()[len(state.GetTransitions())-1].getTarget() + + if _, ok := maybeLoopEndState.(*LoopEndState); !ok { + return nil + } + + var _, ok = maybeLoopEndState.GetTransitions()[0].getTarget().(*RuleStopState) + + if maybeLoopEndState.(*LoopEndState).epsilonOnlyTransitions && ok { + return state + } + + return nil +} + +// markPrecedenceDecisions analyzes the StarLoopEntryState states in the +// specified ATN to set the StarLoopEntryState.precedenceRuleDecision field to +// the correct value. +func (a *ATNDeserializer) markPrecedenceDecisions(atn *ATN) { + for _, state := range atn.states { + if _, ok := state.(*StarLoopEntryState); !ok { + continue + } + + // We analyze the ATN to determine if a ATN decision state is the + // decision for the closure block that determines whether a + // precedence rule should continue or complete. + if atn.ruleToStartState[state.GetRuleIndex()].isPrecedenceRule { + maybeLoopEndState := state.GetTransitions()[len(state.GetTransitions())-1].getTarget() + + if s3, ok := maybeLoopEndState.(*LoopEndState); ok { + var _, ok2 = maybeLoopEndState.GetTransitions()[0].getTarget().(*RuleStopState) + + if s3.epsilonOnlyTransitions && ok2 { + state.(*StarLoopEntryState).precedenceRuleDecision = true + } + } + } + } +} + +func (a *ATNDeserializer) verifyATN(atn *ATN) { + if !a.deserializationOptions.verifyATN { + return + } + + // Verify assumptions + for i := 0; i < len(atn.states); i++ { + state := atn.states[i] + + if state == nil { + continue + } + + a.checkCondition(state.GetEpsilonOnlyTransitions() || len(state.GetTransitions()) <= 1, "") + + switch s2 := state.(type) { + case *PlusBlockStartState: + a.checkCondition(s2.loopBackState != nil, "") + + case *StarLoopEntryState: + a.checkCondition(s2.loopBackState != nil, "") + a.checkCondition(len(s2.GetTransitions()) == 2, "") + + switch s2 := state.(type) { + case *StarBlockStartState: + var _, ok2 = s2.GetTransitions()[1].getTarget().(*LoopEndState) + + a.checkCondition(ok2, "") + a.checkCondition(!s2.nonGreedy, "") + + case *LoopEndState: + var s3, ok2 = s2.GetTransitions()[1].getTarget().(*StarBlockStartState) + + a.checkCondition(ok2, "") + a.checkCondition(s3.nonGreedy, "") + + default: + panic("IllegalState") + } + + case *StarLoopbackState: + a.checkCondition(len(state.GetTransitions()) == 1, "") + + var _, ok2 = state.GetTransitions()[0].getTarget().(*StarLoopEntryState) + + a.checkCondition(ok2, "") + + case *LoopEndState: + a.checkCondition(s2.loopBackState != nil, "") + + case *RuleStartState: + a.checkCondition(s2.stopState != nil, "") + + case *BaseBlockStartState: + a.checkCondition(s2.endState != nil, "") + + case *BlockEndState: + a.checkCondition(s2.startState != nil, "") + + case DecisionState: + a.checkCondition(len(s2.GetTransitions()) <= 1 || s2.getDecision() >= 0, "") + + default: + var _, ok = s2.(*RuleStopState) + + a.checkCondition(len(s2.GetTransitions()) <= 1 || ok, "") + } + } +} + +func (a *ATNDeserializer) checkCondition(condition bool, message string) { + if !condition { + if message == "" { + message = "IllegalState" + } + + panic(message) + } +} + +func (a *ATNDeserializer) readInt() int { + v := a.data[a.pos] + + a.pos++ + + return int(v) +} + +func (a *ATNDeserializer) readInt32() int { + var low = a.readInt() + var high = a.readInt() + return low | (high << 16) +} + +//TODO +//func (a *ATNDeserializer) readLong() int64 { +// panic("Not implemented") +// var low = a.readInt32() +// var high = a.readInt32() +// return (low & 0x00000000FFFFFFFF) | (high << int32) +//} + +func createByteToHex() []string { + bth := make([]string, 256) + + for i := 0; i < 256; i++ { + bth[i] = strings.ToUpper(hex.EncodeToString([]byte{byte(i)})) + } + + return bth +} + +var byteToHex = createByteToHex() + +func (a *ATNDeserializer) readUUID() string { + bb := make([]int, 16) + + for i := 7; i >= 0; i-- { + integer := a.readInt() + + bb[(2*i)+1] = integer & 0xFF + bb[2*i] = (integer >> 8) & 0xFF + } + + return byteToHex[bb[0]] + byteToHex[bb[1]] + + byteToHex[bb[2]] + byteToHex[bb[3]] + "-" + + byteToHex[bb[4]] + byteToHex[bb[5]] + "-" + + byteToHex[bb[6]] + byteToHex[bb[7]] + "-" + + byteToHex[bb[8]] + byteToHex[bb[9]] + "-" + + byteToHex[bb[10]] + byteToHex[bb[11]] + + byteToHex[bb[12]] + byteToHex[bb[13]] + + byteToHex[bb[14]] + byteToHex[bb[15]] +} + +func (a *ATNDeserializer) edgeFactory(atn *ATN, typeIndex, src, trg, arg1, arg2, arg3 int, sets []*IntervalSet) Transition { + target := atn.states[trg] + + switch typeIndex { + case TransitionEPSILON: + return NewEpsilonTransition(target, -1) + + case TransitionRANGE: + if arg3 != 0 { + return NewRangeTransition(target, TokenEOF, arg2) + } + + return NewRangeTransition(target, arg1, arg2) + + case TransitionRULE: + return NewRuleTransition(atn.states[arg1], arg2, arg3, target) + + case TransitionPREDICATE: + return NewPredicateTransition(target, arg1, arg2, arg3 != 0) + + case TransitionPRECEDENCE: + return NewPrecedencePredicateTransition(target, arg1) + + case TransitionATOM: + if arg3 != 0 { + return NewAtomTransition(target, TokenEOF) + } + + return NewAtomTransition(target, arg1) + + case TransitionACTION: + return NewActionTransition(target, arg1, arg2, arg3 != 0) + + case TransitionSET: + return NewSetTransition(target, sets[arg1]) + + case TransitionNOTSET: + return NewNotSetTransition(target, sets[arg1]) + + case TransitionWILDCARD: + return NewWildcardTransition(target) + } + + panic("The specified transition type is not valid.") +} + +func (a *ATNDeserializer) stateFactory(typeIndex, ruleIndex int) ATNState { + var s ATNState + + switch typeIndex { + case ATNStateInvalidType: + return nil + + case ATNStateBasic: + s = NewBasicState() + + case ATNStateRuleStart: + s = NewRuleStartState() + + case ATNStateBlockStart: + s = NewBasicBlockStartState() + + case ATNStatePlusBlockStart: + s = NewPlusBlockStartState() + + case ATNStateStarBlockStart: + s = NewStarBlockStartState() + + case ATNStateTokenStart: + s = NewTokensStartState() + + case ATNStateRuleStop: + s = NewRuleStopState() + + case ATNStateBlockEnd: + s = NewBlockEndState() + + case ATNStateStarLoopBack: + s = NewStarLoopbackState() + + case ATNStateStarLoopEntry: + s = NewStarLoopEntryState() + + case ATNStatePlusLoopBack: + s = NewPlusLoopbackState() + + case ATNStateLoopEnd: + s = NewLoopEndState() + + default: + panic(fmt.Sprintf("state type %d is invalid", typeIndex)) + } + + s.SetRuleIndex(ruleIndex) + + return s +} + +func (a *ATNDeserializer) lexerActionFactory(typeIndex, data1, data2 int) LexerAction { + switch typeIndex { + case LexerActionTypeChannel: + return NewLexerChannelAction(data1) + + case LexerActionTypeCustom: + return NewLexerCustomAction(data1, data2) + + case LexerActionTypeMode: + return NewLexerModeAction(data1) + + case LexerActionTypeMore: + return LexerMoreActionINSTANCE + + case LexerActionTypePopMode: + return LexerPopModeActionINSTANCE + + case LexerActionTypePushMode: + return NewLexerPushModeAction(data1) + + case LexerActionTypeSkip: + return LexerSkipActionINSTANCE + + case LexerActionTypeType: + return NewLexerTypeAction(data1) + + default: + panic(fmt.Sprintf("lexer action %d is invalid", typeIndex)) + } +} diff --git a/vendor/github.com/antlr/antlr4/runtime/Go/antlr/atn_simulator.go b/vendor/github.com/antlr/antlr4/runtime/Go/antlr/atn_simulator.go new file mode 100644 index 000000000..d5454d6d5 --- /dev/null +++ b/vendor/github.com/antlr/antlr4/runtime/Go/antlr/atn_simulator.go @@ -0,0 +1,50 @@ +// Copyright (c) 2012-2017 The ANTLR Project. All rights reserved. +// Use of this file is governed by the BSD 3-clause license that +// can be found in the LICENSE.txt file in the project root. + +package antlr + +var ATNSimulatorError = NewDFAState(0x7FFFFFFF, NewBaseATNConfigSet(false)) + +type IATNSimulator interface { + SharedContextCache() *PredictionContextCache + ATN() *ATN + DecisionToDFA() []*DFA +} + +type BaseATNSimulator struct { + atn *ATN + sharedContextCache *PredictionContextCache + decisionToDFA []*DFA +} + +func NewBaseATNSimulator(atn *ATN, sharedContextCache *PredictionContextCache) *BaseATNSimulator { + b := new(BaseATNSimulator) + + b.atn = atn + b.sharedContextCache = sharedContextCache + + return b +} + +func (b *BaseATNSimulator) getCachedContext(context PredictionContext) PredictionContext { + if b.sharedContextCache == nil { + return context + } + + visited := make(map[PredictionContext]PredictionContext) + + return getCachedBasePredictionContext(context, b.sharedContextCache, visited) +} + +func (b *BaseATNSimulator) SharedContextCache() *PredictionContextCache { + return b.sharedContextCache +} + +func (b *BaseATNSimulator) ATN() *ATN { + return b.atn +} + +func (b *BaseATNSimulator) DecisionToDFA() []*DFA { + return b.decisionToDFA +} diff --git a/vendor/github.com/antlr/antlr4/runtime/Go/antlr/atn_state.go b/vendor/github.com/antlr/antlr4/runtime/Go/antlr/atn_state.go new file mode 100644 index 000000000..563d5db38 --- /dev/null +++ b/vendor/github.com/antlr/antlr4/runtime/Go/antlr/atn_state.go @@ -0,0 +1,386 @@ +// Copyright (c) 2012-2017 The ANTLR Project. All rights reserved. +// Use of this file is governed by the BSD 3-clause license that +// can be found in the LICENSE.txt file in the project root. + +package antlr + +import "strconv" + +// Constants for serialization. +const ( + ATNStateInvalidType = 0 + ATNStateBasic = 1 + ATNStateRuleStart = 2 + ATNStateBlockStart = 3 + ATNStatePlusBlockStart = 4 + ATNStateStarBlockStart = 5 + ATNStateTokenStart = 6 + ATNStateRuleStop = 7 + ATNStateBlockEnd = 8 + ATNStateStarLoopBack = 9 + ATNStateStarLoopEntry = 10 + ATNStatePlusLoopBack = 11 + ATNStateLoopEnd = 12 + + ATNStateInvalidStateNumber = -1 +) + +var ATNStateInitialNumTransitions = 4 + +type ATNState interface { + GetEpsilonOnlyTransitions() bool + + GetRuleIndex() int + SetRuleIndex(int) + + GetNextTokenWithinRule() *IntervalSet + SetNextTokenWithinRule(*IntervalSet) + + GetATN() *ATN + SetATN(*ATN) + + GetStateType() int + + GetStateNumber() int + SetStateNumber(int) + + GetTransitions() []Transition + SetTransitions([]Transition) + AddTransition(Transition, int) + + String() string + hash() int +} + +type BaseATNState struct { + // NextTokenWithinRule caches lookahead during parsing. Not used during construction. + NextTokenWithinRule *IntervalSet + + // atn is the current ATN. + atn *ATN + + epsilonOnlyTransitions bool + + // ruleIndex tracks the Rule index because there are no Rule objects at runtime. + ruleIndex int + + stateNumber int + + stateType int + + // Track the transitions emanating from this ATN state. + transitions []Transition +} + +func NewBaseATNState() *BaseATNState { + return &BaseATNState{stateNumber: ATNStateInvalidStateNumber, stateType: ATNStateInvalidType} +} + +func (as *BaseATNState) GetRuleIndex() int { + return as.ruleIndex +} + +func (as *BaseATNState) SetRuleIndex(v int) { + as.ruleIndex = v +} +func (as *BaseATNState) GetEpsilonOnlyTransitions() bool { + return as.epsilonOnlyTransitions +} + +func (as *BaseATNState) GetATN() *ATN { + return as.atn +} + +func (as *BaseATNState) SetATN(atn *ATN) { + as.atn = atn +} + +func (as *BaseATNState) GetTransitions() []Transition { + return as.transitions +} + +func (as *BaseATNState) SetTransitions(t []Transition) { + as.transitions = t +} + +func (as *BaseATNState) GetStateType() int { + return as.stateType +} + +func (as *BaseATNState) GetStateNumber() int { + return as.stateNumber +} + +func (as *BaseATNState) SetStateNumber(stateNumber int) { + as.stateNumber = stateNumber +} + +func (as *BaseATNState) GetNextTokenWithinRule() *IntervalSet { + return as.NextTokenWithinRule +} + +func (as *BaseATNState) SetNextTokenWithinRule(v *IntervalSet) { + as.NextTokenWithinRule = v +} + +func (as *BaseATNState) hash() int { + return as.stateNumber +} + +func (as *BaseATNState) String() string { + return strconv.Itoa(as.stateNumber) +} + +func (as *BaseATNState) equals(other interface{}) bool { + if ot, ok := other.(ATNState); ok { + return as.stateNumber == ot.GetStateNumber() + } + + return false +} + +func (as *BaseATNState) isNonGreedyExitState() bool { + return false +} + +func (as *BaseATNState) AddTransition(trans Transition, index int) { + if len(as.transitions) == 0 { + as.epsilonOnlyTransitions = trans.getIsEpsilon() + } else if as.epsilonOnlyTransitions != trans.getIsEpsilon() { + as.epsilonOnlyTransitions = false + } + + if index == -1 { + as.transitions = append(as.transitions, trans) + } else { + as.transitions = append(as.transitions[:index], append([]Transition{trans}, as.transitions[index:]...)...) + // TODO: as.transitions.splice(index, 1, trans) + } +} + +type BasicState struct { + *BaseATNState +} + +func NewBasicState() *BasicState { + b := NewBaseATNState() + + b.stateType = ATNStateBasic + + return &BasicState{BaseATNState: b} +} + +type DecisionState interface { + ATNState + + getDecision() int + setDecision(int) + + getNonGreedy() bool + setNonGreedy(bool) +} + +type BaseDecisionState struct { + *BaseATNState + decision int + nonGreedy bool +} + +func NewBaseDecisionState() *BaseDecisionState { + return &BaseDecisionState{BaseATNState: NewBaseATNState(), decision: -1} +} + +func (s *BaseDecisionState) getDecision() int { + return s.decision +} + +func (s *BaseDecisionState) setDecision(b int) { + s.decision = b +} + +func (s *BaseDecisionState) getNonGreedy() bool { + return s.nonGreedy +} + +func (s *BaseDecisionState) setNonGreedy(b bool) { + s.nonGreedy = b +} + +type BlockStartState interface { + DecisionState + + getEndState() *BlockEndState + setEndState(*BlockEndState) +} + +// BaseBlockStartState is the start of a regular (...) block. +type BaseBlockStartState struct { + *BaseDecisionState + endState *BlockEndState +} + +func NewBlockStartState() *BaseBlockStartState { + return &BaseBlockStartState{BaseDecisionState: NewBaseDecisionState()} +} + +func (s *BaseBlockStartState) getEndState() *BlockEndState { + return s.endState +} + +func (s *BaseBlockStartState) setEndState(b *BlockEndState) { + s.endState = b +} + +type BasicBlockStartState struct { + *BaseBlockStartState +} + +func NewBasicBlockStartState() *BasicBlockStartState { + b := NewBlockStartState() + + b.stateType = ATNStateBlockStart + + return &BasicBlockStartState{BaseBlockStartState: b} +} + +// BlockEndState is a terminal node of a simple (a|b|c) block. +type BlockEndState struct { + *BaseATNState + startState ATNState +} + +func NewBlockEndState() *BlockEndState { + b := NewBaseATNState() + + b.stateType = ATNStateBlockEnd + + return &BlockEndState{BaseATNState: b} +} + +// RuleStopState is the last node in the ATN for a rule, unless that rule is the +// start symbol. In that case, there is one transition to EOF. Later, we might +// encode references to all calls to this rule to compute FOLLOW sets for error +// handling. +type RuleStopState struct { + *BaseATNState +} + +func NewRuleStopState() *RuleStopState { + b := NewBaseATNState() + + b.stateType = ATNStateRuleStop + + return &RuleStopState{BaseATNState: b} +} + +type RuleStartState struct { + *BaseATNState + stopState ATNState + isPrecedenceRule bool +} + +func NewRuleStartState() *RuleStartState { + b := NewBaseATNState() + + b.stateType = ATNStateRuleStart + + return &RuleStartState{BaseATNState: b} +} + +// PlusLoopbackState is a decision state for A+ and (A|B)+. It has two +// transitions: one to the loop back to start of the block, and one to exit. +type PlusLoopbackState struct { + *BaseDecisionState +} + +func NewPlusLoopbackState() *PlusLoopbackState { + b := NewBaseDecisionState() + + b.stateType = ATNStatePlusLoopBack + + return &PlusLoopbackState{BaseDecisionState: b} +} + +// PlusBlockStartState is the start of a (A|B|...)+ loop. Technically it is a +// decision state; we don't use it for code generation. Somebody might need it, +// it is included for completeness. In reality, PlusLoopbackState is the real +// decision-making node for A+. +type PlusBlockStartState struct { + *BaseBlockStartState + loopBackState ATNState +} + +func NewPlusBlockStartState() *PlusBlockStartState { + b := NewBlockStartState() + + b.stateType = ATNStatePlusBlockStart + + return &PlusBlockStartState{BaseBlockStartState: b} +} + +// StarBlockStartState is the block that begins a closure loop. +type StarBlockStartState struct { + *BaseBlockStartState +} + +func NewStarBlockStartState() *StarBlockStartState { + b := NewBlockStartState() + + b.stateType = ATNStateStarBlockStart + + return &StarBlockStartState{BaseBlockStartState: b} +} + +type StarLoopbackState struct { + *BaseATNState +} + +func NewStarLoopbackState() *StarLoopbackState { + b := NewBaseATNState() + + b.stateType = ATNStateStarLoopBack + + return &StarLoopbackState{BaseATNState: b} +} + +type StarLoopEntryState struct { + *BaseDecisionState + loopBackState ATNState + precedenceRuleDecision bool +} + +func NewStarLoopEntryState() *StarLoopEntryState { + b := NewBaseDecisionState() + + b.stateType = ATNStateStarLoopEntry + + // False precedenceRuleDecision indicates whether s state can benefit from a precedence DFA during SLL decision making. + return &StarLoopEntryState{BaseDecisionState: b} +} + +// LoopEndState marks the end of a * or + loop. +type LoopEndState struct { + *BaseATNState + loopBackState ATNState +} + +func NewLoopEndState() *LoopEndState { + b := NewBaseATNState() + + b.stateType = ATNStateLoopEnd + + return &LoopEndState{BaseATNState: b} +} + +// TokensStartState is the Tokens rule start state linking to each lexer rule start state. +type TokensStartState struct { + *BaseDecisionState +} + +func NewTokensStartState() *TokensStartState { + b := NewBaseDecisionState() + + b.stateType = ATNStateTokenStart + + return &TokensStartState{BaseDecisionState: b} +} diff --git a/vendor/github.com/antlr/antlr4/runtime/Go/antlr/atn_type.go b/vendor/github.com/antlr/antlr4/runtime/Go/antlr/atn_type.go new file mode 100644 index 000000000..a7b48976b --- /dev/null +++ b/vendor/github.com/antlr/antlr4/runtime/Go/antlr/atn_type.go @@ -0,0 +1,11 @@ +// Copyright (c) 2012-2017 The ANTLR Project. All rights reserved. +// Use of this file is governed by the BSD 3-clause license that +// can be found in the LICENSE.txt file in the project root. + +package antlr + +// Represent the type of recognizer an ATN applies to. +const ( + ATNTypeLexer = 0 + ATNTypeParser = 1 +) diff --git a/vendor/github.com/antlr/antlr4/runtime/Go/antlr/char_stream.go b/vendor/github.com/antlr/antlr4/runtime/Go/antlr/char_stream.go new file mode 100644 index 000000000..70c1207f7 --- /dev/null +++ b/vendor/github.com/antlr/antlr4/runtime/Go/antlr/char_stream.go @@ -0,0 +1,12 @@ +// Copyright (c) 2012-2017 The ANTLR Project. All rights reserved. +// Use of this file is governed by the BSD 3-clause license that +// can be found in the LICENSE.txt file in the project root. + +package antlr + +type CharStream interface { + IntStream + GetText(int, int) string + GetTextFromTokens(start, end Token) string + GetTextFromInterval(*Interval) string +} diff --git a/vendor/github.com/antlr/antlr4/runtime/Go/antlr/common_token_factory.go b/vendor/github.com/antlr/antlr4/runtime/Go/antlr/common_token_factory.go new file mode 100644 index 000000000..330ff8f31 --- /dev/null +++ b/vendor/github.com/antlr/antlr4/runtime/Go/antlr/common_token_factory.go @@ -0,0 +1,56 @@ +// Copyright (c) 2012-2017 The ANTLR Project. All rights reserved. +// Use of this file is governed by the BSD 3-clause license that +// can be found in the LICENSE.txt file in the project root. + +package antlr + +// TokenFactory creates CommonToken objects. +type TokenFactory interface { + Create(source *TokenSourceCharStreamPair, ttype int, text string, channel, start, stop, line, column int) Token +} + +// CommonTokenFactory is the default TokenFactory implementation. +type CommonTokenFactory struct { + // copyText indicates whether CommonToken.setText should be called after + // constructing tokens to explicitly set the text. This is useful for cases + // where the input stream might not be able to provide arbitrary substrings of + // text from the input after the lexer creates a token (e.g. the + // implementation of CharStream.GetText in UnbufferedCharStream panics an + // UnsupportedOperationException). Explicitly setting the token text allows + // Token.GetText to be called at any time regardless of the input stream + // implementation. + // + // The default value is false to avoid the performance and memory overhead of + // copying text for every token unless explicitly requested. + copyText bool +} + +func NewCommonTokenFactory(copyText bool) *CommonTokenFactory { + return &CommonTokenFactory{copyText: copyText} +} + +// CommonTokenFactoryDEFAULT is the default CommonTokenFactory. It does not +// explicitly copy token text when constructing tokens. +var CommonTokenFactoryDEFAULT = NewCommonTokenFactory(false) + +func (c *CommonTokenFactory) Create(source *TokenSourceCharStreamPair, ttype int, text string, channel, start, stop, line, column int) Token { + t := NewCommonToken(source, ttype, channel, start, stop) + + t.line = line + t.column = column + + if text != "" { + t.SetText(text) + } else if c.copyText && source.charStream != nil { + t.SetText(source.charStream.GetTextFromInterval(NewInterval(start, stop))) + } + + return t +} + +func (c *CommonTokenFactory) createThin(ttype int, text string) Token { + t := NewCommonToken(nil, ttype, TokenDefaultChannel, -1, -1) + t.SetText(text) + + return t +} diff --git a/vendor/github.com/antlr/antlr4/runtime/Go/antlr/common_token_stream.go b/vendor/github.com/antlr/antlr4/runtime/Go/antlr/common_token_stream.go new file mode 100644 index 000000000..c90e9b890 --- /dev/null +++ b/vendor/github.com/antlr/antlr4/runtime/Go/antlr/common_token_stream.go @@ -0,0 +1,447 @@ +// Copyright (c) 2012-2017 The ANTLR Project. All rights reserved. +// Use of this file is governed by the BSD 3-clause license that +// can be found in the LICENSE.txt file in the project root. + +package antlr + +import ( + "strconv" +) + +// CommonTokenStream is an implementation of TokenStream that loads tokens from +// a TokenSource on-demand and places the tokens in a buffer to provide access +// to any previous token by index. This token stream ignores the value of +// Token.getChannel. If your parser requires the token stream filter tokens to +// only those on a particular channel, such as Token.DEFAULT_CHANNEL or +// Token.HIDDEN_CHANNEL, use a filtering token stream such a CommonTokenStream. +type CommonTokenStream struct { + channel int + + // fetchedEOF indicates whether the Token.EOF token has been fetched from + // tokenSource and added to tokens. This field improves performance for the + // following cases: + // + // consume: The lookahead check in consume to preven consuming the EOF symbol is + // optimized by checking the values of fetchedEOF and p instead of calling LA. + // + // fetch: The check to prevent adding multiple EOF symbols into tokens is + // trivial with bt field. + fetchedEOF bool + + // index indexs into tokens of the current token (next token to consume). + // tokens[p] should be LT(1). It is set to -1 when the stream is first + // constructed or when SetTokenSource is called, indicating that the first token + // has not yet been fetched from the token source. For additional information, + // see the documentation of IntStream for a description of initializing methods. + index int + + // tokenSource is the TokenSource from which tokens for the bt stream are + // fetched. + tokenSource TokenSource + + // tokens is all tokens fetched from the token source. The list is considered a + // complete view of the input once fetchedEOF is set to true. + tokens []Token +} + +func NewCommonTokenStream(lexer Lexer, channel int) *CommonTokenStream { + return &CommonTokenStream{ + channel: channel, + index: -1, + tokenSource: lexer, + tokens: make([]Token, 0), + } +} + +func (c *CommonTokenStream) GetAllTokens() []Token { + return c.tokens +} + +func (c *CommonTokenStream) Mark() int { + return 0 +} + +func (c *CommonTokenStream) Release(marker int) {} + +func (c *CommonTokenStream) reset() { + c.Seek(0) +} + +func (c *CommonTokenStream) Seek(index int) { + c.lazyInit() + c.index = c.adjustSeekIndex(index) +} + +func (c *CommonTokenStream) Get(index int) Token { + c.lazyInit() + + return c.tokens[index] +} + +func (c *CommonTokenStream) Consume() { + SkipEOFCheck := false + + if c.index >= 0 { + if c.fetchedEOF { + // The last token in tokens is EOF. Skip the check if p indexes any fetched. + // token except the last. + SkipEOFCheck = c.index < len(c.tokens)-1 + } else { + // No EOF token in tokens. Skip the check if p indexes a fetched token. + SkipEOFCheck = c.index < len(c.tokens) + } + } else { + // Not yet initialized + SkipEOFCheck = false + } + + if !SkipEOFCheck && c.LA(1) == TokenEOF { + panic("cannot consume EOF") + } + + if c.Sync(c.index + 1) { + c.index = c.adjustSeekIndex(c.index + 1) + } +} + +// Sync makes sure index i in tokens has a token and returns true if a token is +// located at index i and otherwise false. +func (c *CommonTokenStream) Sync(i int) bool { + n := i - len(c.tokens) + 1 // TODO: How many more elements do we need? + + if n > 0 { + fetched := c.fetch(n) + return fetched >= n + } + + return true +} + +// fetch adds n elements to buffer and returns the actual number of elements +// added to the buffer. +func (c *CommonTokenStream) fetch(n int) int { + if c.fetchedEOF { + return 0 + } + + for i := 0; i < n; i++ { + t := c.tokenSource.NextToken() + + t.SetTokenIndex(len(c.tokens)) + c.tokens = append(c.tokens, t) + + if t.GetTokenType() == TokenEOF { + c.fetchedEOF = true + + return i + 1 + } + } + + return n +} + +// GetTokens gets all tokens from start to stop inclusive. +func (c *CommonTokenStream) GetTokens(start int, stop int, types *IntervalSet) []Token { + if start < 0 || stop < 0 { + return nil + } + + c.lazyInit() + + subset := make([]Token, 0) + + if stop >= len(c.tokens) { + stop = len(c.tokens) - 1 + } + + for i := start; i < stop; i++ { + t := c.tokens[i] + + if t.GetTokenType() == TokenEOF { + break + } + + if types == nil || types.contains(t.GetTokenType()) { + subset = append(subset, t) + } + } + + return subset +} + +func (c *CommonTokenStream) LA(i int) int { + return c.LT(i).GetTokenType() +} + +func (c *CommonTokenStream) lazyInit() { + if c.index == -1 { + c.setup() + } +} + +func (c *CommonTokenStream) setup() { + c.Sync(0) + c.index = c.adjustSeekIndex(0) +} + +func (c *CommonTokenStream) GetTokenSource() TokenSource { + return c.tokenSource +} + +// SetTokenSource resets the c token stream by setting its token source. +func (c *CommonTokenStream) SetTokenSource(tokenSource TokenSource) { + c.tokenSource = tokenSource + c.tokens = make([]Token, 0) + c.index = -1 +} + +// NextTokenOnChannel returns the index of the next token on channel given a +// starting index. Returns i if tokens[i] is on channel. Returns -1 if there are +// no tokens on channel between i and EOF. +func (c *CommonTokenStream) NextTokenOnChannel(i, channel int) int { + c.Sync(i) + + if i >= len(c.tokens) { + return -1 + } + + token := c.tokens[i] + + for token.GetChannel() != c.channel { + if token.GetTokenType() == TokenEOF { + return -1 + } + + i++ + c.Sync(i) + token = c.tokens[i] + } + + return i +} + +// previousTokenOnChannel returns the index of the previous token on channel +// given a starting index. Returns i if tokens[i] is on channel. Returns -1 if +// there are no tokens on channel between i and 0. +func (c *CommonTokenStream) previousTokenOnChannel(i, channel int) int { + for i >= 0 && c.tokens[i].GetChannel() != channel { + i-- + } + + return i +} + +// GetHiddenTokensToRight collects all tokens on a specified channel to the +// right of the current token up until we see a token on DEFAULT_TOKEN_CHANNEL +// or EOF. If channel is -1, it finds any non-default channel token. +func (c *CommonTokenStream) GetHiddenTokensToRight(tokenIndex, channel int) []Token { + c.lazyInit() + + if tokenIndex < 0 || tokenIndex >= len(c.tokens) { + panic(strconv.Itoa(tokenIndex) + " not in 0.." + strconv.Itoa(len(c.tokens)-1)) + } + + nextOnChannel := c.NextTokenOnChannel(tokenIndex+1, LexerDefaultTokenChannel) + from := tokenIndex + 1 + + // If no onchannel to the right, then nextOnChannel == -1, so set to to last token + var to int + + if nextOnChannel == -1 { + to = len(c.tokens) - 1 + } else { + to = nextOnChannel + } + + return c.filterForChannel(from, to, channel) +} + +// GetHiddenTokensToLeft collects all tokens on channel to the left of the +// current token until we see a token on DEFAULT_TOKEN_CHANNEL. If channel is +// -1, it finds any non default channel token. +func (c *CommonTokenStream) GetHiddenTokensToLeft(tokenIndex, channel int) []Token { + c.lazyInit() + + if tokenIndex < 0 || tokenIndex >= len(c.tokens) { + panic(strconv.Itoa(tokenIndex) + " not in 0.." + strconv.Itoa(len(c.tokens)-1)) + } + + prevOnChannel := c.previousTokenOnChannel(tokenIndex-1, LexerDefaultTokenChannel) + + if prevOnChannel == tokenIndex-1 { + return nil + } + + // If there are none on channel to the left and prevOnChannel == -1 then from = 0 + from := prevOnChannel + 1 + to := tokenIndex - 1 + + return c.filterForChannel(from, to, channel) +} + +func (c *CommonTokenStream) filterForChannel(left, right, channel int) []Token { + hidden := make([]Token, 0) + + for i := left; i < right+1; i++ { + t := c.tokens[i] + + if channel == -1 { + if t.GetChannel() != LexerDefaultTokenChannel { + hidden = append(hidden, t) + } + } else if t.GetChannel() == channel { + hidden = append(hidden, t) + } + } + + if len(hidden) == 0 { + return nil + } + + return hidden +} + +func (c *CommonTokenStream) GetSourceName() string { + return c.tokenSource.GetSourceName() +} + +func (c *CommonTokenStream) Size() int { + return len(c.tokens) +} + +func (c *CommonTokenStream) Index() int { + return c.index +} + +func (c *CommonTokenStream) GetAllText() string { + return c.GetTextFromInterval(nil) +} + +func (c *CommonTokenStream) GetTextFromTokens(start, end Token) string { + if start == nil || end == nil { + return "" + } + + return c.GetTextFromInterval(NewInterval(start.GetTokenIndex(), end.GetTokenIndex())) +} + +func (c *CommonTokenStream) GetTextFromRuleContext(interval RuleContext) string { + return c.GetTextFromInterval(interval.GetSourceInterval()) +} + +func (c *CommonTokenStream) GetTextFromInterval(interval *Interval) string { + c.lazyInit() + c.Fill() + + if interval == nil { + interval = NewInterval(0, len(c.tokens)-1) + } + + start := interval.Start + stop := interval.Stop + + if start < 0 || stop < 0 { + return "" + } + + if stop >= len(c.tokens) { + stop = len(c.tokens) - 1 + } + + s := "" + + for i := start; i < stop+1; i++ { + t := c.tokens[i] + + if t.GetTokenType() == TokenEOF { + break + } + + s += t.GetText() + } + + return s +} + +// Fill gets all tokens from the lexer until EOF. +func (c *CommonTokenStream) Fill() { + c.lazyInit() + + for c.fetch(1000) == 1000 { + continue + } +} + +func (c *CommonTokenStream) adjustSeekIndex(i int) int { + return c.NextTokenOnChannel(i, c.channel) +} + +func (c *CommonTokenStream) LB(k int) Token { + if k == 0 || c.index-k < 0 { + return nil + } + + i := c.index + n := 1 + + // Find k good tokens looking backward + for n <= k { + // Skip off-channel tokens + i = c.previousTokenOnChannel(i-1, c.channel) + n++ + } + + if i < 0 { + return nil + } + + return c.tokens[i] +} + +func (c *CommonTokenStream) LT(k int) Token { + c.lazyInit() + + if k == 0 { + return nil + } + + if k < 0 { + return c.LB(-k) + } + + i := c.index + n := 1 // We know tokens[n] is valid + + // Find k good tokens + for n < k { + // Skip off-channel tokens, but make sure to not look past EOF + if c.Sync(i + 1) { + i = c.NextTokenOnChannel(i+1, c.channel) + } + + n++ + } + + return c.tokens[i] +} + +// getNumberOfOnChannelTokens counts EOF once. +func (c *CommonTokenStream) getNumberOfOnChannelTokens() int { + var n int + + c.Fill() + + for i := 0; i < len(c.tokens); i++ { + t := c.tokens[i] + + if t.GetChannel() == c.channel { + n++ + } + + if t.GetTokenType() == TokenEOF { + break + } + } + + return n +} diff --git a/vendor/github.com/antlr/antlr4/runtime/Go/antlr/dfa.go b/vendor/github.com/antlr/antlr4/runtime/Go/antlr/dfa.go new file mode 100644 index 000000000..770c32a6b --- /dev/null +++ b/vendor/github.com/antlr/antlr4/runtime/Go/antlr/dfa.go @@ -0,0 +1,183 @@ +// Copyright (c) 2012-2017 The ANTLR Project. All rights reserved. +// Use of this file is governed by the BSD 3-clause license that +// can be found in the LICENSE.txt file in the project root. + +package antlr + +import ( + "sort" + "sync" +) + +type DFA struct { + // atnStartState is the ATN state in which this was created + atnStartState DecisionState + + decision int + + // states is all the DFA states. Use Map to get the old state back; Set can only + // indicate whether it is there. + states map[int]*DFAState + statesMu sync.RWMutex + + s0 *DFAState + s0Mu sync.RWMutex + + // precedenceDfa is the backing field for isPrecedenceDfa and setPrecedenceDfa. + // True if the DFA is for a precedence decision and false otherwise. + precedenceDfa bool + precedenceDfaMu sync.RWMutex +} + +func NewDFA(atnStartState DecisionState, decision int) *DFA { + return &DFA{ + atnStartState: atnStartState, + decision: decision, + states: make(map[int]*DFAState), + } +} + +// getPrecedenceStartState gets the start state for the current precedence and +// returns the start state corresponding to the specified precedence if a start +// state exists for the specified precedence and nil otherwise. d must be a +// precedence DFA. See also isPrecedenceDfa. +func (d *DFA) getPrecedenceStartState(precedence int) *DFAState { + if !d.getPrecedenceDfa() { + panic("only precedence DFAs may contain a precedence start state") + } + + // s0.edges is never nil for a precedence DFA + if precedence < 0 || precedence >= len(d.getS0().getEdges()) { + return nil + } + + return d.getS0().getIthEdge(precedence) +} + +// setPrecedenceStartState sets the start state for the current precedence. d +// must be a precedence DFA. See also isPrecedenceDfa. +func (d *DFA) setPrecedenceStartState(precedence int, startState *DFAState) { + if !d.getPrecedenceDfa() { + panic("only precedence DFAs may contain a precedence start state") + } + + if precedence < 0 { + return + } + + // Synchronization on s0 here is ok. When the DFA is turned into a + // precedence DFA, s0 will be initialized once and not updated again. s0.edges + // is never nil for a precedence DFA. + s0 := d.getS0() + if precedence >= s0.numEdges() { + edges := append(s0.getEdges(), make([]*DFAState, precedence+1-s0.numEdges())...) + s0.setEdges(edges) + d.setS0(s0) + } + + s0.setIthEdge(precedence, startState) +} + +func (d *DFA) getPrecedenceDfa() bool { + d.precedenceDfaMu.RLock() + defer d.precedenceDfaMu.RUnlock() + return d.precedenceDfa +} + +// setPrecedenceDfa sets whether d is a precedence DFA. If precedenceDfa differs +// from the current DFA configuration, then d.states is cleared, the initial +// state s0 is set to a new DFAState with an empty outgoing DFAState.edges to +// store the start states for individual precedence values if precedenceDfa is +// true or nil otherwise, and d.precedenceDfa is updated. +func (d *DFA) setPrecedenceDfa(precedenceDfa bool) { + if d.getPrecedenceDfa() != precedenceDfa { + d.setStates(make(map[int]*DFAState)) + + if precedenceDfa { + precedenceState := NewDFAState(-1, NewBaseATNConfigSet(false)) + + precedenceState.setEdges(make([]*DFAState, 0)) + precedenceState.isAcceptState = false + precedenceState.requiresFullContext = false + d.setS0(precedenceState) + } else { + d.setS0(nil) + } + + d.precedenceDfaMu.Lock() + defer d.precedenceDfaMu.Unlock() + d.precedenceDfa = precedenceDfa + } +} + +func (d *DFA) getS0() *DFAState { + d.s0Mu.RLock() + defer d.s0Mu.RUnlock() + return d.s0 +} + +func (d *DFA) setS0(s *DFAState) { + d.s0Mu.Lock() + defer d.s0Mu.Unlock() + d.s0 = s +} + +func (d *DFA) getState(hash int) (*DFAState, bool) { + d.statesMu.RLock() + defer d.statesMu.RUnlock() + s, ok := d.states[hash] + return s, ok +} + +func (d *DFA) setStates(states map[int]*DFAState) { + d.statesMu.Lock() + defer d.statesMu.Unlock() + d.states = states +} + +func (d *DFA) setState(hash int, state *DFAState) { + d.statesMu.Lock() + defer d.statesMu.Unlock() + d.states[hash] = state +} + +func (d *DFA) numStates() int { + d.statesMu.RLock() + defer d.statesMu.RUnlock() + return len(d.states) +} + +type dfaStateList []*DFAState + +func (d dfaStateList) Len() int { return len(d) } +func (d dfaStateList) Less(i, j int) bool { return d[i].stateNumber < d[j].stateNumber } +func (d dfaStateList) Swap(i, j int) { d[i], d[j] = d[j], d[i] } + +// sortedStates returns the states in d sorted by their state number. +func (d *DFA) sortedStates() []*DFAState { + vs := make([]*DFAState, 0, len(d.states)) + + for _, v := range d.states { + vs = append(vs, v) + } + + sort.Sort(dfaStateList(vs)) + + return vs +} + +func (d *DFA) String(literalNames []string, symbolicNames []string) string { + if d.getS0() == nil { + return "" + } + + return NewDFASerializer(d, literalNames, symbolicNames).String() +} + +func (d *DFA) ToLexerString() string { + if d.getS0() == nil { + return "" + } + + return NewLexerDFASerializer(d).String() +} diff --git a/vendor/github.com/antlr/antlr4/runtime/Go/antlr/dfa_serializer.go b/vendor/github.com/antlr/antlr4/runtime/Go/antlr/dfa_serializer.go new file mode 100644 index 000000000..fcfef975c --- /dev/null +++ b/vendor/github.com/antlr/antlr4/runtime/Go/antlr/dfa_serializer.go @@ -0,0 +1,152 @@ +// Copyright (c) 2012-2017 The ANTLR Project. All rights reserved. +// Use of this file is governed by the BSD 3-clause license that +// can be found in the LICENSE.txt file in the project root. + +package antlr + +import ( + "fmt" + "strconv" +) + +// DFASerializer is a DFA walker that knows how to dump them to serialized +// strings. +type DFASerializer struct { + dfa *DFA + literalNames []string + symbolicNames []string +} + +func NewDFASerializer(dfa *DFA, literalNames, symbolicNames []string) *DFASerializer { + if literalNames == nil { + literalNames = make([]string, 0) + } + + if symbolicNames == nil { + symbolicNames = make([]string, 0) + } + + return &DFASerializer{ + dfa: dfa, + literalNames: literalNames, + symbolicNames: symbolicNames, + } +} + +func (d *DFASerializer) String() string { + if d.dfa.getS0() == nil { + return "" + } + + buf := "" + states := d.dfa.sortedStates() + + for _, s := range states { + if s.edges != nil { + n := len(s.edges) + + for j := 0; j < n; j++ { + t := s.edges[j] + + if t != nil && t.stateNumber != 0x7FFFFFFF { + buf += d.GetStateString(s) + buf += "-" + buf += d.getEdgeLabel(j) + buf += "->" + buf += d.GetStateString(t) + buf += "\n" + } + } + } + } + + if len(buf) == 0 { + return "" + } + + return buf +} + +func (d *DFASerializer) getEdgeLabel(i int) string { + if i == 0 { + return "EOF" + } else if d.literalNames != nil && i-1 < len(d.literalNames) { + return d.literalNames[i-1] + } else if d.symbolicNames != nil && i-1 < len(d.symbolicNames) { + return d.symbolicNames[i-1] + } + + return strconv.Itoa(i - 1) +} + +func (d *DFASerializer) GetStateString(s *DFAState) string { + var a, b string + + if s.isAcceptState { + a = ":" + } + + if s.requiresFullContext { + b = "^" + } + + baseStateStr := a + "s" + strconv.Itoa(s.stateNumber) + b + + if s.isAcceptState { + if s.predicates != nil { + return baseStateStr + "=>" + fmt.Sprint(s.predicates) + } + + return baseStateStr + "=>" + fmt.Sprint(s.prediction) + } + + return baseStateStr +} + +type LexerDFASerializer struct { + *DFASerializer +} + +func NewLexerDFASerializer(dfa *DFA) *LexerDFASerializer { + return &LexerDFASerializer{DFASerializer: NewDFASerializer(dfa, nil, nil)} +} + +func (l *LexerDFASerializer) getEdgeLabel(i int) string { + return "'" + string(i) + "'" +} + +func (l *LexerDFASerializer) String() string { + if l.dfa.getS0() == nil { + return "" + } + + buf := "" + states := l.dfa.sortedStates() + + for i := 0; i < len(states); i++ { + s := states[i] + + if s.edges != nil { + n := len(s.edges) + + for j := 0; j < n; j++ { + t := s.edges[j] + + if t != nil && t.stateNumber != 0x7FFFFFFF { + buf += l.GetStateString(s) + buf += "-" + buf += l.getEdgeLabel(j) + buf += "->" + buf += l.GetStateString(t) + buf += "\n" + } + } + } + } + + if len(buf) == 0 { + return "" + } + + return buf +} diff --git a/vendor/github.com/antlr/antlr4/runtime/Go/antlr/dfa_state.go b/vendor/github.com/antlr/antlr4/runtime/Go/antlr/dfa_state.go new file mode 100644 index 000000000..680ce9ace --- /dev/null +++ b/vendor/github.com/antlr/antlr4/runtime/Go/antlr/dfa_state.go @@ -0,0 +1,198 @@ +// Copyright (c) 2012-2017 The ANTLR Project. All rights reserved. +// Use of this file is governed by the BSD 3-clause license that +// can be found in the LICENSE.txt file in the project root. + +package antlr + +import ( + "fmt" + "sync" +) + +// PredPrediction maps a predicate to a predicted alternative. +type PredPrediction struct { + alt int + pred SemanticContext +} + +func NewPredPrediction(pred SemanticContext, alt int) *PredPrediction { + return &PredPrediction{alt: alt, pred: pred} +} + +func (p *PredPrediction) String() string { + return "(" + fmt.Sprint(p.pred) + ", " + fmt.Sprint(p.alt) + ")" +} + +// DFAState represents a set of possible ATN configurations. As Aho, Sethi, +// Ullman p. 117 says: "The DFA uses its state to keep track of all possible +// states the ATN can be in after reading each input symbol. That is to say, +// after reading input a1a2..an, the DFA is in a state that represents the +// subset T of the states of the ATN that are reachable from the ATN's start +// state along some path labeled a1a2..an." In conventional NFA-to-DFA +// conversion, therefore, the subset T would be a bitset representing the set of +// states the ATN could be in. We need to track the alt predicted by each state +// as well, however. More importantly, we need to maintain a stack of states, +// tracking the closure operations as they jump from rule to rule, emulating +// rule invocations (method calls). I have to add a stack to simulate the proper +// lookahead sequences for the underlying LL grammar from which the ATN was +// derived. +// +// I use a set of ATNConfig objects, not simple states. An ATNConfig is both a +// state (ala normal conversion) and a RuleContext describing the chain of rules +// (if any) followed to arrive at that state. +// +// A DFAState may have multiple references to a particular state, but with +// different ATN contexts (with same or different alts) meaning that state was +// reached via a different set of rule invocations. +type DFAState struct { + stateNumber int + configs ATNConfigSet + + // edges elements point to the target of the symbol. Shift up by 1 so (-1) + // Token.EOF maps to the first element. + edges []*DFAState + edgesMu sync.RWMutex + + isAcceptState bool + + // prediction is the ttype we match or alt we predict if the state is accept. + // Set to ATN.INVALID_ALT_NUMBER when predicates != nil or + // requiresFullContext. + prediction int + + lexerActionExecutor *LexerActionExecutor + + // requiresFullContext indicates it was created during an SLL prediction that + // discovered a conflict between the configurations in the state. Future + // ParserATNSimulator.execATN invocations immediately jump doing + // full context prediction if true. + requiresFullContext bool + + // predicates is the predicates associated with the ATN configurations of the + // DFA state during SLL parsing. When we have predicates, requiresFullContext + // is false, since full context prediction evaluates predicates on-the-fly. If + // d is + // not nil, then prediction is ATN.INVALID_ALT_NUMBER. + // + // We only use these for non-requiresFullContext but conflicting states. That + // means we know from the context (it's $ or we don't dip into outer context) + // that it's an ambiguity not a conflict. + // + // This list is computed by + // ParserATNSimulator.predicateDFAState. + predicates []*PredPrediction +} + +func NewDFAState(stateNumber int, configs ATNConfigSet) *DFAState { + if configs == nil { + configs = NewBaseATNConfigSet(false) + } + + return &DFAState{configs: configs, stateNumber: stateNumber} +} + +// GetAltSet gets the set of all alts mentioned by all ATN configurations in d. +func (d *DFAState) GetAltSet() *Set { + alts := NewSet(nil, nil) + + if d.configs != nil { + for _, c := range d.configs.GetItems() { + alts.add(c.GetAlt()) + } + } + + if alts.length() == 0 { + return nil + } + + return alts +} + +func (d *DFAState) getEdges() []*DFAState { + d.edgesMu.RLock() + defer d.edgesMu.RUnlock() + return d.edges +} + +func (d *DFAState) numEdges() int { + d.edgesMu.RLock() + defer d.edgesMu.RUnlock() + return len(d.edges) +} + +func (d *DFAState) getIthEdge(i int) *DFAState { + d.edgesMu.RLock() + defer d.edgesMu.RUnlock() + return d.edges[i] +} + +func (d *DFAState) setEdges(newEdges []*DFAState) { + d.edgesMu.Lock() + defer d.edgesMu.Unlock() + d.edges = newEdges +} + +func (d *DFAState) setIthEdge(i int, edge *DFAState) { + d.edgesMu.Lock() + defer d.edgesMu.Unlock() + d.edges[i] = edge +} + +func (d *DFAState) setPrediction(v int) { + d.prediction = v +} + +// equals returns whether d equals other. Two DFAStates are equal if their ATN +// configuration sets are the same. This method is used to see if a state +// already exists. +// +// Because the number of alternatives and number of ATN configurations are +// finite, there is a finite number of DFA states that can be processed. This is +// necessary to show that the algorithm terminates. +// +// Cannot test the DFA state numbers here because in +// ParserATNSimulator.addDFAState we need to know if any other state exists that +// has d exact set of ATN configurations. The stateNumber is irrelevant. +func (d *DFAState) equals(other interface{}) bool { + if d == other { + return true + } else if _, ok := other.(*DFAState); !ok { + return false + } + + return d.configs.Equals(other.(*DFAState).configs) +} + +func (d *DFAState) String() string { + var s string + if d.isAcceptState { + if d.predicates != nil { + s = "=>" + fmt.Sprint(d.predicates) + } else { + s = "=>" + fmt.Sprint(d.prediction) + } + } + + return fmt.Sprintf("%d:%s%s", fmt.Sprint(d.configs), s) +} + +func (d *DFAState) hash() int { + h := murmurInit(11) + + c := 1 + if d.isAcceptState { + if d.predicates != nil { + for _, p := range d.predicates { + h = murmurUpdate(h, p.alt) + h = murmurUpdate(h, p.pred.hash()) + c += 2 + } + } else { + h = murmurUpdate(h, d.prediction) + c += 1 + } + } + + h = murmurUpdate(h, d.configs.hash()) + return murmurFinish(h, c) +} \ No newline at end of file diff --git a/vendor/github.com/antlr/antlr4/runtime/Go/antlr/diagnostic_error_listener.go b/vendor/github.com/antlr/antlr4/runtime/Go/antlr/diagnostic_error_listener.go new file mode 100644 index 000000000..1fec43d9d --- /dev/null +++ b/vendor/github.com/antlr/antlr4/runtime/Go/antlr/diagnostic_error_listener.go @@ -0,0 +1,111 @@ +// Copyright (c) 2012-2017 The ANTLR Project. All rights reserved. +// Use of this file is governed by the BSD 3-clause license that +// can be found in the LICENSE.txt file in the project root. + +package antlr + +import ( + "strconv" +) + +// +// This implementation of {@link ANTLRErrorListener} can be used to identify +// certain potential correctness and performance problems in grammars. "reports" +// are made by calling {@link Parser//NotifyErrorListeners} with the appropriate +// message. +// +//
    +//
  • Ambiguities: These are cases where more than one path through the +// grammar can Match the input.
    • +//
  • Weak context sensitivity: These are cases where full-context +// prediction resolved an SLL conflict to a unique alternative which equaled the +// minimum alternative of the SLL conflict.
    • +//
  • Strong (forced) context sensitivity: These are cases where the +// full-context prediction resolved an SLL conflict to a unique alternative, +// and the minimum alternative of the SLL conflict was found to not be +// a truly viable alternative. Two-stage parsing cannot be used for inputs where +// d situation occurs.
    • +//
+ +type DiagnosticErrorListener struct { + *DefaultErrorListener + + exactOnly bool +} + +func NewDiagnosticErrorListener(exactOnly bool) *DiagnosticErrorListener { + + n := new(DiagnosticErrorListener) + + // whether all ambiguities or only exact ambiguities are Reported. + n.exactOnly = exactOnly + return n +} + +func (d *DiagnosticErrorListener) ReportAmbiguity(recognizer Parser, dfa *DFA, startIndex, stopIndex int, exact bool, ambigAlts *BitSet, configs ATNConfigSet) { + if d.exactOnly && !exact { + return + } + msg := "reportAmbiguity d=" + + d.getDecisionDescription(recognizer, dfa) + + ": ambigAlts=" + + d.getConflictingAlts(ambigAlts, configs).String() + + ", input='" + + recognizer.GetTokenStream().GetTextFromInterval(NewInterval(startIndex, stopIndex)) + "'" + recognizer.NotifyErrorListeners(msg, nil, nil) +} + +func (d *DiagnosticErrorListener) ReportAttemptingFullContext(recognizer Parser, dfa *DFA, startIndex, stopIndex int, conflictingAlts *BitSet, configs ATNConfigSet) { + + msg := "reportAttemptingFullContext d=" + + d.getDecisionDescription(recognizer, dfa) + + ", input='" + + recognizer.GetTokenStream().GetTextFromInterval(NewInterval(startIndex, stopIndex)) + "'" + recognizer.NotifyErrorListeners(msg, nil, nil) +} + +func (d *DiagnosticErrorListener) ReportContextSensitivity(recognizer Parser, dfa *DFA, startIndex, stopIndex, prediction int, configs ATNConfigSet) { + msg := "reportContextSensitivity d=" + + d.getDecisionDescription(recognizer, dfa) + + ", input='" + + recognizer.GetTokenStream().GetTextFromInterval(NewInterval(startIndex, stopIndex)) + "'" + recognizer.NotifyErrorListeners(msg, nil, nil) +} + +func (d *DiagnosticErrorListener) getDecisionDescription(recognizer Parser, dfa *DFA) string { + decision := dfa.decision + ruleIndex := dfa.atnStartState.GetRuleIndex() + + ruleNames := recognizer.GetRuleNames() + if ruleIndex < 0 || ruleIndex >= len(ruleNames) { + return strconv.Itoa(decision) + } + ruleName := ruleNames[ruleIndex] + if ruleName == "" { + return strconv.Itoa(decision) + } + return strconv.Itoa(decision) + " (" + ruleName + ")" +} + +// +// Computes the set of conflicting or ambiguous alternatives from a +// configuration set, if that information was not already provided by the +// parser. +// +// @param ReportedAlts The set of conflicting or ambiguous alternatives, as +// Reported by the parser. +// @param configs The conflicting or ambiguous configuration set. +// @return Returns {@code ReportedAlts} if it is not {@code nil}, otherwise +// returns the set of alternatives represented in {@code configs}. +// +func (d *DiagnosticErrorListener) getConflictingAlts(ReportedAlts *BitSet, set ATNConfigSet) *BitSet { + if ReportedAlts != nil { + return ReportedAlts + } + result := NewBitSet() + for _, c := range set.GetItems() { + result.add(c.GetAlt()) + } + + return result +} diff --git a/vendor/github.com/antlr/antlr4/runtime/Go/antlr/error_listener.go b/vendor/github.com/antlr/antlr4/runtime/Go/antlr/error_listener.go new file mode 100644 index 000000000..028e1a9d7 --- /dev/null +++ b/vendor/github.com/antlr/antlr4/runtime/Go/antlr/error_listener.go @@ -0,0 +1,108 @@ +// Copyright (c) 2012-2017 The ANTLR Project. All rights reserved. +// Use of this file is governed by the BSD 3-clause license that +// can be found in the LICENSE.txt file in the project root. + +package antlr + +import ( + "fmt" + "os" + "strconv" +) + +// Provides an empty default implementation of {@link ANTLRErrorListener}. The +// default implementation of each method does nothing, but can be overridden as +// necessary. + +type ErrorListener interface { + SyntaxError(recognizer Recognizer, offendingSymbol interface{}, line, column int, msg string, e RecognitionException) + ReportAmbiguity(recognizer Parser, dfa *DFA, startIndex, stopIndex int, exact bool, ambigAlts *BitSet, configs ATNConfigSet) + ReportAttemptingFullContext(recognizer Parser, dfa *DFA, startIndex, stopIndex int, conflictingAlts *BitSet, configs ATNConfigSet) + ReportContextSensitivity(recognizer Parser, dfa *DFA, startIndex, stopIndex, prediction int, configs ATNConfigSet) +} + +type DefaultErrorListener struct { +} + +func NewDefaultErrorListener() *DefaultErrorListener { + return new(DefaultErrorListener) +} + +func (d *DefaultErrorListener) SyntaxError(recognizer Recognizer, offendingSymbol interface{}, line, column int, msg string, e RecognitionException) { +} + +func (d *DefaultErrorListener) ReportAmbiguity(recognizer Parser, dfa *DFA, startIndex, stopIndex int, exact bool, ambigAlts *BitSet, configs ATNConfigSet) { +} + +func (d *DefaultErrorListener) ReportAttemptingFullContext(recognizer Parser, dfa *DFA, startIndex, stopIndex int, conflictingAlts *BitSet, configs ATNConfigSet) { +} + +func (d *DefaultErrorListener) ReportContextSensitivity(recognizer Parser, dfa *DFA, startIndex, stopIndex, prediction int, configs ATNConfigSet) { +} + +type ConsoleErrorListener struct { + *DefaultErrorListener +} + +func NewConsoleErrorListener() *ConsoleErrorListener { + return new(ConsoleErrorListener) +} + +// +// Provides a default instance of {@link ConsoleErrorListener}. +// +var ConsoleErrorListenerINSTANCE = NewConsoleErrorListener() + +// +// {@inheritDoc} +// +//

+// This implementation prints messages to {@link System//err} containing the +// values of {@code line}, {@code charPositionInLine}, and {@code msg} using +// the following format.

+// +// 
+// line line:charPositionInLine msg
+//
+// +func (c *ConsoleErrorListener) SyntaxError(recognizer Recognizer, offendingSymbol interface{}, line, column int, msg string, e RecognitionException) { + fmt.Fprintln(os.Stderr, "line "+strconv.Itoa(line)+":"+strconv.Itoa(column)+" "+msg) +} + +type ProxyErrorListener struct { + *DefaultErrorListener + delegates []ErrorListener +} + +func NewProxyErrorListener(delegates []ErrorListener) *ProxyErrorListener { + if delegates == nil { + panic("delegates is not provided") + } + l := new(ProxyErrorListener) + l.delegates = delegates + return l +} + +func (p *ProxyErrorListener) SyntaxError(recognizer Recognizer, offendingSymbol interface{}, line, column int, msg string, e RecognitionException) { + for _, d := range p.delegates { + d.SyntaxError(recognizer, offendingSymbol, line, column, msg, e) + } +} + +func (p *ProxyErrorListener) ReportAmbiguity(recognizer Parser, dfa *DFA, startIndex, stopIndex int, exact bool, ambigAlts *BitSet, configs ATNConfigSet) { + for _, d := range p.delegates { + d.ReportAmbiguity(recognizer, dfa, startIndex, stopIndex, exact, ambigAlts, configs) + } +} + +func (p *ProxyErrorListener) ReportAttemptingFullContext(recognizer Parser, dfa *DFA, startIndex, stopIndex int, conflictingAlts *BitSet, configs ATNConfigSet) { + for _, d := range p.delegates { + d.ReportAttemptingFullContext(recognizer, dfa, startIndex, stopIndex, conflictingAlts, configs) + } +} + +func (p *ProxyErrorListener) ReportContextSensitivity(recognizer Parser, dfa *DFA, startIndex, stopIndex, prediction int, configs ATNConfigSet) { + for _, d := range p.delegates { + d.ReportContextSensitivity(recognizer, dfa, startIndex, stopIndex, prediction, configs) + } +} diff --git a/vendor/github.com/antlr/antlr4/runtime/Go/antlr/error_strategy.go b/vendor/github.com/antlr/antlr4/runtime/Go/antlr/error_strategy.go new file mode 100644 index 000000000..977a6e454 --- /dev/null +++ b/vendor/github.com/antlr/antlr4/runtime/Go/antlr/error_strategy.go @@ -0,0 +1,758 @@ +// Copyright (c) 2012-2017 The ANTLR Project. All rights reserved. +// Use of this file is governed by the BSD 3-clause license that +// can be found in the LICENSE.txt file in the project root. + +package antlr + +import ( + "fmt" + "reflect" + "strconv" + "strings" +) + +type ErrorStrategy interface { + reset(Parser) + RecoverInline(Parser) Token + Recover(Parser, RecognitionException) + Sync(Parser) + inErrorRecoveryMode(Parser) bool + ReportError(Parser, RecognitionException) + ReportMatch(Parser) +} + +// This is the default implementation of {@link ANTLRErrorStrategy} used for +// error Reporting and recovery in ANTLR parsers. +// +type DefaultErrorStrategy struct { + errorRecoveryMode bool + lastErrorIndex int + lastErrorStates *IntervalSet +} + +var _ ErrorStrategy = &DefaultErrorStrategy{} + +func NewDefaultErrorStrategy() *DefaultErrorStrategy { + + d := new(DefaultErrorStrategy) + + // Indicates whether the error strategy is currently "recovering from an + // error". This is used to suppress Reporting multiple error messages while + // attempting to recover from a detected syntax error. + // + // @see //inErrorRecoveryMode + // + d.errorRecoveryMode = false + + // The index into the input stream where the last error occurred. + // This is used to prevent infinite loops where an error is found + // but no token is consumed during recovery...another error is found, + // ad nauseum. This is a failsafe mechanism to guarantee that at least + // one token/tree node is consumed for two errors. + // + d.lastErrorIndex = -1 + d.lastErrorStates = nil + return d +} + +//

The default implementation simply calls {@link //endErrorCondition} to +// ensure that the handler is not in error recovery mode.

+func (d *DefaultErrorStrategy) reset(recognizer Parser) { + d.endErrorCondition(recognizer) +} + +// +// This method is called to enter error recovery mode when a recognition +// exception is Reported. +// +// @param recognizer the parser instance +// +func (d *DefaultErrorStrategy) beginErrorCondition(recognizer Parser) { + d.errorRecoveryMode = true +} + +func (d *DefaultErrorStrategy) inErrorRecoveryMode(recognizer Parser) bool { + return d.errorRecoveryMode +} + +// +// This method is called to leave error recovery mode after recovering from +// a recognition exception. +// +// @param recognizer +// +func (d *DefaultErrorStrategy) endErrorCondition(recognizer Parser) { + d.errorRecoveryMode = false + d.lastErrorStates = nil + d.lastErrorIndex = -1 +} + +// +// {@inheritDoc} +// +//

The default implementation simply calls {@link //endErrorCondition}.

+// +func (d *DefaultErrorStrategy) ReportMatch(recognizer Parser) { + d.endErrorCondition(recognizer) +} + +// +// {@inheritDoc} +// +//

The default implementation returns immediately if the handler is already +// in error recovery mode. Otherwise, it calls {@link //beginErrorCondition} +// and dispatches the Reporting task based on the runtime type of {@code e} +// according to the following table.

+// +//
    +//
  • {@link NoViableAltException}: Dispatches the call to +// {@link //ReportNoViableAlternative}
    • +//
  • {@link InputMisMatchException}: Dispatches the call to +// {@link //ReportInputMisMatch}
    • +//
  • {@link FailedPredicateException}: Dispatches the call to +// {@link //ReportFailedPredicate}
    • +//
  • All other types: calls {@link Parser//NotifyErrorListeners} to Report +// the exception
    • +//
+// +func (d *DefaultErrorStrategy) ReportError(recognizer Parser, e RecognitionException) { + // if we've already Reported an error and have not Matched a token + // yet successfully, don't Report any errors. + if d.inErrorRecoveryMode(recognizer) { + return // don't Report spurious errors + } + d.beginErrorCondition(recognizer) + + switch t := e.(type) { + default: + fmt.Println("unknown recognition error type: " + reflect.TypeOf(e).Name()) + // fmt.Println(e.stack) + recognizer.NotifyErrorListeners(e.GetMessage(), e.GetOffendingToken(), e) + case *NoViableAltException: + d.ReportNoViableAlternative(recognizer, t) + case *InputMisMatchException: + d.ReportInputMisMatch(recognizer, t) + case *FailedPredicateException: + d.ReportFailedPredicate(recognizer, t) + } +} + +// {@inheritDoc} +// +//

The default implementation reSynchronizes the parser by consuming tokens +// until we find one in the reSynchronization set--loosely the set of tokens +// that can follow the current rule.

+// +func (d *DefaultErrorStrategy) Recover(recognizer Parser, e RecognitionException) { + + if d.lastErrorIndex == recognizer.GetInputStream().Index() && + d.lastErrorStates != nil && d.lastErrorStates.contains(recognizer.GetState()) { + // uh oh, another error at same token index and previously-Visited + // state in ATN must be a case where LT(1) is in the recovery + // token set so nothing got consumed. Consume a single token + // at least to prevent an infinite loop d is a failsafe. + recognizer.Consume() + } + d.lastErrorIndex = recognizer.GetInputStream().Index() + if d.lastErrorStates == nil { + d.lastErrorStates = NewIntervalSet() + } + d.lastErrorStates.addOne(recognizer.GetState()) + followSet := d.getErrorRecoverySet(recognizer) + d.consumeUntil(recognizer, followSet) +} + +// The default implementation of {@link ANTLRErrorStrategy//Sync} makes sure +// that the current lookahead symbol is consistent with what were expecting +// at d point in the ATN. You can call d anytime but ANTLR only +// generates code to check before subrules/loops and each iteration. +// +//

Implements Jim Idle's magic Sync mechanism in closures and optional +// subrules. E.g.,

+// +// 
+// a : Sync ( stuff Sync )*
+// Sync : {consume to what can follow Sync}
+//
+// +// At the start of a sub rule upon error, {@link //Sync} performs single +// token deletion, if possible. If it can't do that, it bails on the current +// rule and uses the default error recovery, which consumes until the +// reSynchronization set of the current rule. +// +//

If the sub rule is optional ({@code (...)?}, {@code (...)*}, or block +// with an empty alternative), then the expected set includes what follows +// the subrule.

+// +//

During loop iteration, it consumes until it sees a token that can start a +// sub rule or what follows loop. Yes, that is pretty aggressive. We opt to +// stay in the loop as long as possible.

+// +//

ORIGINS

+// +//

Previous versions of ANTLR did a poor job of their recovery within loops. +// A single mismatch token or missing token would force the parser to bail +// out of the entire rules surrounding the loop. So, for rule

+// +// 
+// classfunc : 'class' ID '{' member* '}'
+//
+// +// input with an extra token between members would force the parser to +// consume until it found the next class definition rather than the next +// member definition of the current class. +// +//

This functionality cost a little bit of effort because the parser has to +// compare token set at the start of the loop and at each iteration. If for +// some reason speed is suffering for you, you can turn off d +// functionality by simply overriding d method as a blank { }.

+// +func (d *DefaultErrorStrategy) Sync(recognizer Parser) { + // If already recovering, don't try to Sync + if d.inErrorRecoveryMode(recognizer) { + return + } + + s := recognizer.GetInterpreter().atn.states[recognizer.GetState()] + la := recognizer.GetTokenStream().LA(1) + + // try cheaper subset first might get lucky. seems to shave a wee bit off + nextTokens := recognizer.GetATN().NextTokens(s, nil) + if nextTokens.contains(TokenEpsilon) || nextTokens.contains(la) { + return + } + + switch s.GetStateType() { + case ATNStateBlockStart, ATNStateStarBlockStart, ATNStatePlusBlockStart, ATNStateStarLoopEntry: + // Report error and recover if possible + if d.SingleTokenDeletion(recognizer) != nil { + return + } + panic(NewInputMisMatchException(recognizer)) + case ATNStatePlusLoopBack, ATNStateStarLoopBack: + d.ReportUnwantedToken(recognizer) + expecting := NewIntervalSet() + expecting.addSet(recognizer.GetExpectedTokens()) + whatFollowsLoopIterationOrRule := expecting.addSet(d.getErrorRecoverySet(recognizer)) + d.consumeUntil(recognizer, whatFollowsLoopIterationOrRule) + default: + // do nothing if we can't identify the exact kind of ATN state + } +} + +// This is called by {@link //ReportError} when the exception is a +// {@link NoViableAltException}. +// +// @see //ReportError +// +// @param recognizer the parser instance +// @param e the recognition exception +// +func (d *DefaultErrorStrategy) ReportNoViableAlternative(recognizer Parser, e *NoViableAltException) { + tokens := recognizer.GetTokenStream() + var input string + if tokens != nil { + if e.startToken.GetTokenType() == TokenEOF { + input = "" + } else { + input = tokens.GetTextFromTokens(e.startToken, e.offendingToken) + } + } else { + input = "" + } + msg := "no viable alternative at input " + d.escapeWSAndQuote(input) + recognizer.NotifyErrorListeners(msg, e.offendingToken, e) +} + +// +// This is called by {@link //ReportError} when the exception is an +// {@link InputMisMatchException}. +// +// @see //ReportError +// +// @param recognizer the parser instance +// @param e the recognition exception +// +func (this *DefaultErrorStrategy) ReportInputMisMatch(recognizer Parser, e *InputMisMatchException) { + msg := "mismatched input " + this.GetTokenErrorDisplay(e.offendingToken) + + " expecting " + e.getExpectedTokens().StringVerbose(recognizer.GetLiteralNames(), recognizer.GetSymbolicNames(), false) + recognizer.NotifyErrorListeners(msg, e.offendingToken, e) +} + +// +// This is called by {@link //ReportError} when the exception is a +// {@link FailedPredicateException}. +// +// @see //ReportError +// +// @param recognizer the parser instance +// @param e the recognition exception +// +func (d *DefaultErrorStrategy) ReportFailedPredicate(recognizer Parser, e *FailedPredicateException) { + ruleName := recognizer.GetRuleNames()[recognizer.GetParserRuleContext().GetRuleIndex()] + msg := "rule " + ruleName + " " + e.message + recognizer.NotifyErrorListeners(msg, e.offendingToken, e) +} + +// This method is called to Report a syntax error which requires the removal +// of a token from the input stream. At the time d method is called, the +// erroneous symbol is current {@code LT(1)} symbol and has not yet been +// removed from the input stream. When d method returns, +// {@code recognizer} is in error recovery mode. +// +//

This method is called when {@link //singleTokenDeletion} identifies +// single-token deletion as a viable recovery strategy for a mismatched +// input error.

+// +//

The default implementation simply returns if the handler is already in +// error recovery mode. Otherwise, it calls {@link //beginErrorCondition} to +// enter error recovery mode, followed by calling +// {@link Parser//NotifyErrorListeners}.

+// +// @param recognizer the parser instance +// +func (d *DefaultErrorStrategy) ReportUnwantedToken(recognizer Parser) { + if d.inErrorRecoveryMode(recognizer) { + return + } + d.beginErrorCondition(recognizer) + t := recognizer.GetCurrentToken() + tokenName := d.GetTokenErrorDisplay(t) + expecting := d.GetExpectedTokens(recognizer) + msg := "extraneous input " + tokenName + " expecting " + + expecting.StringVerbose(recognizer.GetLiteralNames(), recognizer.GetSymbolicNames(), false) + recognizer.NotifyErrorListeners(msg, t, nil) +} + +// This method is called to Report a syntax error which requires the +// insertion of a missing token into the input stream. At the time d +// method is called, the missing token has not yet been inserted. When d +// method returns, {@code recognizer} is in error recovery mode. +// +//

This method is called when {@link //singleTokenInsertion} identifies +// single-token insertion as a viable recovery strategy for a mismatched +// input error.

+// +//

The default implementation simply returns if the handler is already in +// error recovery mode. Otherwise, it calls {@link //beginErrorCondition} to +// enter error recovery mode, followed by calling +// {@link Parser//NotifyErrorListeners}.

+// +// @param recognizer the parser instance +// +func (d *DefaultErrorStrategy) ReportMissingToken(recognizer Parser) { + if d.inErrorRecoveryMode(recognizer) { + return + } + d.beginErrorCondition(recognizer) + t := recognizer.GetCurrentToken() + expecting := d.GetExpectedTokens(recognizer) + msg := "missing " + expecting.StringVerbose(recognizer.GetLiteralNames(), recognizer.GetSymbolicNames(), false) + + " at " + d.GetTokenErrorDisplay(t) + recognizer.NotifyErrorListeners(msg, t, nil) +} + +//

The default implementation attempts to recover from the mismatched input +// by using single token insertion and deletion as described below. If the +// recovery attempt fails, d method panics an +// {@link InputMisMatchException}.

+// +//

EXTRA TOKEN (single token deletion)

+// +//

{@code LA(1)} is not what we are looking for. If {@code LA(2)} has the +// right token, however, then assume {@code LA(1)} is some extra spurious +// token and delete it. Then consume and return the next token (which was +// the {@code LA(2)} token) as the successful result of the Match operation.

+// +//

This recovery strategy is implemented by {@link +// //singleTokenDeletion}.

+// +//

MISSING TOKEN (single token insertion)

+// +//

If current token (at {@code LA(1)}) is consistent with what could come +// after the expected {@code LA(1)} token, then assume the token is missing +// and use the parser's {@link TokenFactory} to create it on the fly. The +// "insertion" is performed by returning the created token as the successful +// result of the Match operation.

+// +//

This recovery strategy is implemented by {@link +// //singleTokenInsertion}.

+// +//

EXAMPLE

+// +//

For example, Input {@code i=(3} is clearly missing the {@code ')'}. When +// the parser returns from the nested call to {@code expr}, it will have +// call chain:

+// +// 
+// stat &rarr expr &rarr atom
+//
+// +// and it will be trying to Match the {@code ')'} at d point in the +// derivation: +// +// 
+// => ID '=' '(' INT ')' ('+' atom)* ''
+// ^
+//
+// +// The attempt to Match {@code ')'} will fail when it sees {@code ''} and +// call {@link //recoverInline}. To recover, it sees that {@code LA(1)==''} +// is in the set of tokens that can follow the {@code ')'} token reference +// in rule {@code atom}. It can assume that you forgot the {@code ')'}. +// +func (d *DefaultErrorStrategy) RecoverInline(recognizer Parser) Token { + // SINGLE TOKEN DELETION + MatchedSymbol := d.SingleTokenDeletion(recognizer) + if MatchedSymbol != nil { + // we have deleted the extra token. + // now, move past ttype token as if all were ok + recognizer.Consume() + return MatchedSymbol + } + // SINGLE TOKEN INSERTION + if d.SingleTokenInsertion(recognizer) { + return d.GetMissingSymbol(recognizer) + } + // even that didn't work must panic the exception + panic(NewInputMisMatchException(recognizer)) +} + +// +// This method implements the single-token insertion inline error recovery +// strategy. It is called by {@link //recoverInline} if the single-token +// deletion strategy fails to recover from the mismatched input. If this +// method returns {@code true}, {@code recognizer} will be in error recovery +// mode. +// +//

This method determines whether or not single-token insertion is viable by +// checking if the {@code LA(1)} input symbol could be successfully Matched +// if it were instead the {@code LA(2)} symbol. If d method returns +// {@code true}, the caller is responsible for creating and inserting a +// token with the correct type to produce d behavior.

+// +// @param recognizer the parser instance +// @return {@code true} if single-token insertion is a viable recovery +// strategy for the current mismatched input, otherwise {@code false} +// +func (d *DefaultErrorStrategy) SingleTokenInsertion(recognizer Parser) bool { + currentSymbolType := recognizer.GetTokenStream().LA(1) + // if current token is consistent with what could come after current + // ATN state, then we know we're missing a token error recovery + // is free to conjure up and insert the missing token + atn := recognizer.GetInterpreter().atn + currentState := atn.states[recognizer.GetState()] + next := currentState.GetTransitions()[0].getTarget() + expectingAtLL2 := atn.NextTokens(next, recognizer.GetParserRuleContext()) + if expectingAtLL2.contains(currentSymbolType) { + d.ReportMissingToken(recognizer) + return true + } + + return false +} + +// This method implements the single-token deletion inline error recovery +// strategy. It is called by {@link //recoverInline} to attempt to recover +// from mismatched input. If this method returns nil, the parser and error +// handler state will not have changed. If this method returns non-nil, +// {@code recognizer} will not be in error recovery mode since the +// returned token was a successful Match. +// +//

If the single-token deletion is successful, d method calls +// {@link //ReportUnwantedToken} to Report the error, followed by +// {@link Parser//consume} to actually "delete" the extraneous token. Then, +// before returning {@link //ReportMatch} is called to signal a successful +// Match.

+// +// @param recognizer the parser instance +// @return the successfully Matched {@link Token} instance if single-token +// deletion successfully recovers from the mismatched input, otherwise +// {@code nil} +// +func (d *DefaultErrorStrategy) SingleTokenDeletion(recognizer Parser) Token { + NextTokenType := recognizer.GetTokenStream().LA(2) + expecting := d.GetExpectedTokens(recognizer) + if expecting.contains(NextTokenType) { + d.ReportUnwantedToken(recognizer) + // print("recoverFromMisMatchedToken deleting " \ + // + str(recognizer.GetTokenStream().LT(1)) \ + // + " since " + str(recognizer.GetTokenStream().LT(2)) \ + // + " is what we want", file=sys.stderr) + recognizer.Consume() // simply delete extra token + // we want to return the token we're actually Matching + MatchedSymbol := recognizer.GetCurrentToken() + d.ReportMatch(recognizer) // we know current token is correct + return MatchedSymbol + } + + return nil +} + +// Conjure up a missing token during error recovery. +// +// The recognizer attempts to recover from single missing +// symbols. But, actions might refer to that missing symbol. +// For example, x=ID {f($x)}. The action clearly assumes +// that there has been an identifier Matched previously and that +// $x points at that token. If that token is missing, but +// the next token in the stream is what we want we assume that +// d token is missing and we keep going. Because we +// have to return some token to replace the missing token, +// we have to conjure one up. This method gives the user control +// over the tokens returned for missing tokens. Mostly, +// you will want to create something special for identifier +// tokens. For literals such as '{' and ',', the default +// action in the parser or tree parser works. It simply creates +// a CommonToken of the appropriate type. The text will be the token. +// If you change what tokens must be created by the lexer, +// override d method to create the appropriate tokens. +// +func (d *DefaultErrorStrategy) GetMissingSymbol(recognizer Parser) Token { + currentSymbol := recognizer.GetCurrentToken() + expecting := d.GetExpectedTokens(recognizer) + expectedTokenType := expecting.first() + var tokenText string + + if expectedTokenType == TokenEOF { + tokenText = "" + } else { + ln := recognizer.GetLiteralNames() + if expectedTokenType > 0 && expectedTokenType < len(ln) { + tokenText = "" + } else { + tokenText = "" // TODO matches the JS impl + } + } + current := currentSymbol + lookback := recognizer.GetTokenStream().LT(-1) + if current.GetTokenType() == TokenEOF && lookback != nil { + current = lookback + } + + tf := recognizer.GetTokenFactory() + + return tf.Create(current.GetSource(), expectedTokenType, tokenText, TokenDefaultChannel, -1, -1, current.GetLine(), current.GetColumn()) +} + +func (d *DefaultErrorStrategy) GetExpectedTokens(recognizer Parser) *IntervalSet { + return recognizer.GetExpectedTokens() +} + +// How should a token be displayed in an error message? The default +// is to display just the text, but during development you might +// want to have a lot of information spit out. Override in that case +// to use t.String() (which, for CommonToken, dumps everything about +// the token). This is better than forcing you to override a method in +// your token objects because you don't have to go modify your lexer +// so that it creates a NewJava type. +// +func (d *DefaultErrorStrategy) GetTokenErrorDisplay(t Token) string { + if t == nil { + return "" + } + s := t.GetText() + if s == "" { + if t.GetTokenType() == TokenEOF { + s = "" + } else { + s = "<" + strconv.Itoa(t.GetTokenType()) + ">" + } + } + return d.escapeWSAndQuote(s) +} + +func (d *DefaultErrorStrategy) escapeWSAndQuote(s string) string { + s = strings.Replace(s, "\t", "\\t", -1) + s = strings.Replace(s, "\n", "\\n", -1) + s = strings.Replace(s, "\r", "\\r", -1) + return "'" + s + "'" +} + +// Compute the error recovery set for the current rule. During +// rule invocation, the parser pushes the set of tokens that can +// follow that rule reference on the stack d amounts to +// computing FIRST of what follows the rule reference in the +// enclosing rule. See LinearApproximator.FIRST(). +// This local follow set only includes tokens +// from within the rule i.e., the FIRST computation done by +// ANTLR stops at the end of a rule. +// +// EXAMPLE +// +// When you find a "no viable alt exception", the input is not +// consistent with any of the alternatives for rule r. The best +// thing to do is to consume tokens until you see something that +// can legally follow a call to r//or* any rule that called r. +// You don't want the exact set of viable next tokens because the +// input might just be missing a token--you might consume the +// rest of the input looking for one of the missing tokens. +// +// Consider grammar: +// +// a : '[' b ']' +// | '(' b ')' +// +// b : c '^' INT +// c : ID +// | INT +// +// +// At each rule invocation, the set of tokens that could follow +// that rule is pushed on a stack. Here are the various +// context-sensitive follow sets: +// +// FOLLOW(b1_in_a) = FIRST(']') = ']' +// FOLLOW(b2_in_a) = FIRST(')') = ')' +// FOLLOW(c_in_b) = FIRST('^') = '^' +// +// Upon erroneous input "[]", the call chain is +// +// a -> b -> c +// +// and, hence, the follow context stack is: +// +// depth follow set start of rule execution +// 0 a (from main()) +// 1 ']' b +// 2 '^' c +// +// Notice that ')' is not included, because b would have to have +// been called from a different context in rule a for ')' to be +// included. +// +// For error recovery, we cannot consider FOLLOW(c) +// (context-sensitive or otherwise). We need the combined set of +// all context-sensitive FOLLOW sets--the set of all tokens that +// could follow any reference in the call chain. We need to +// reSync to one of those tokens. Note that FOLLOW(c)='^' and if +// we reSync'd to that token, we'd consume until EOF. We need to +// Sync to context-sensitive FOLLOWs for a, b, and c: {']','^'}. +// In this case, for input "[]", LA(1) is ']' and in the set, so we would +// not consume anything. After printing an error, rule c would +// return normally. Rule b would not find the required '^' though. +// At this point, it gets a mismatched token error and panics an +// exception (since LA(1) is not in the viable following token +// set). The rule exception handler tries to recover, but finds +// the same recovery set and doesn't consume anything. Rule b +// exits normally returning to rule a. Now it finds the ']' (and +// with the successful Match exits errorRecovery mode). +// +// So, you can see that the parser walks up the call chain looking +// for the token that was a member of the recovery set. +// +// Errors are not generated in errorRecovery mode. +// +// ANTLR's error recovery mechanism is based upon original ideas: +// +// "Algorithms + Data Structures = Programs" by Niklaus Wirth +// +// and +// +// "A note on error recovery in recursive descent parsers": +// http://portal.acm.org/citation.cfm?id=947902.947905 +// +// Later, Josef Grosch had some good ideas: +// +// "Efficient and Comfortable Error Recovery in Recursive Descent +// Parsers": +// ftp://www.cocolab.com/products/cocktail/doca4.ps/ell.ps.zip +// +// Like Grosch I implement context-sensitive FOLLOW sets that are combined +// at run-time upon error to avoid overhead during parsing. +// +func (d *DefaultErrorStrategy) getErrorRecoverySet(recognizer Parser) *IntervalSet { + atn := recognizer.GetInterpreter().atn + ctx := recognizer.GetParserRuleContext() + recoverSet := NewIntervalSet() + for ctx != nil && ctx.GetInvokingState() >= 0 { + // compute what follows who invoked us + invokingState := atn.states[ctx.GetInvokingState()] + rt := invokingState.GetTransitions()[0] + follow := atn.NextTokens(rt.(*RuleTransition).followState, nil) + recoverSet.addSet(follow) + ctx = ctx.GetParent().(ParserRuleContext) + } + recoverSet.removeOne(TokenEpsilon) + return recoverSet +} + +// Consume tokens until one Matches the given token set.// +func (d *DefaultErrorStrategy) consumeUntil(recognizer Parser, set *IntervalSet) { + ttype := recognizer.GetTokenStream().LA(1) + for ttype != TokenEOF && !set.contains(ttype) { + recognizer.Consume() + ttype = recognizer.GetTokenStream().LA(1) + } +} + +// +// This implementation of {@link ANTLRErrorStrategy} responds to syntax errors +// by immediately canceling the parse operation with a +// {@link ParseCancellationException}. The implementation ensures that the +// {@link ParserRuleContext//exception} field is set for all parse tree nodes +// that were not completed prior to encountering the error. +// +//

+// This error strategy is useful in the following scenarios.

+// +//
    +//
  • Two-stage parsing: This error strategy allows the first +// stage of two-stage parsing to immediately terminate if an error is +// encountered, and immediately fall back to the second stage. In addition to +// avoiding wasted work by attempting to recover from errors here, the empty +// implementation of {@link BailErrorStrategy//Sync} improves the performance of +// the first stage.
    • +//
  • Silent validation: When syntax errors are not being +// Reported or logged, and the parse result is simply ignored if errors occur, +// the {@link BailErrorStrategy} avoids wasting work on recovering from errors +// when the result will be ignored either way.
    • +//
+// +//

+// {@code myparser.setErrorHandler(NewBailErrorStrategy())}

+// +// @see Parser//setErrorHandler(ANTLRErrorStrategy) + +type BailErrorStrategy struct { + *DefaultErrorStrategy +} + +var _ ErrorStrategy = &BailErrorStrategy{} + +func NewBailErrorStrategy() *BailErrorStrategy { + + b := new(BailErrorStrategy) + + b.DefaultErrorStrategy = NewDefaultErrorStrategy() + + return b +} + +// Instead of recovering from exception {@code e}, re-panic it wrapped +// in a {@link ParseCancellationException} so it is not caught by the +// rule func catches. Use {@link Exception//getCause()} to get the +// original {@link RecognitionException}. +// +func (b *BailErrorStrategy) Recover(recognizer Parser, e RecognitionException) { + context := recognizer.GetParserRuleContext() + for context != nil { + context.SetException(e) + context = context.GetParent().(ParserRuleContext) + } + panic(NewParseCancellationException()) // TODO we don't emit e properly +} + +// Make sure we don't attempt to recover inline if the parser +// successfully recovers, it won't panic an exception. +// +func (b *BailErrorStrategy) RecoverInline(recognizer Parser) Token { + b.Recover(recognizer, NewInputMisMatchException(recognizer)) + + return nil +} + +// Make sure we don't attempt to recover from problems in subrules.// +func (b *BailErrorStrategy) Sync(recognizer Parser) { + // pass +} diff --git a/vendor/github.com/antlr/antlr4/runtime/Go/antlr/errors.go b/vendor/github.com/antlr/antlr4/runtime/Go/antlr/errors.go new file mode 100644 index 000000000..2ef74926e --- /dev/null +++ b/vendor/github.com/antlr/antlr4/runtime/Go/antlr/errors.go @@ -0,0 +1,241 @@ +// Copyright (c) 2012-2017 The ANTLR Project. All rights reserved. +// Use of this file is governed by the BSD 3-clause license that +// can be found in the LICENSE.txt file in the project root. + +package antlr + +// The root of the ANTLR exception hierarchy. In general, ANTLR tracks just +// 3 kinds of errors: prediction errors, failed predicate errors, and +// mismatched input errors. In each case, the parser knows where it is +// in the input, where it is in the ATN, the rule invocation stack, +// and what kind of problem occurred. + +type RecognitionException interface { + GetOffendingToken() Token + GetMessage() string + GetInputStream() IntStream +} + +type BaseRecognitionException struct { + message string + recognizer Recognizer + offendingToken Token + offendingState int + ctx RuleContext + input IntStream +} + +func NewBaseRecognitionException(message string, recognizer Recognizer, input IntStream, ctx RuleContext) *BaseRecognitionException { + + // todo + // Error.call(this) + // + // if (!!Error.captureStackTrace) { + // Error.captureStackTrace(this, RecognitionException) + // } else { + // stack := NewError().stack + // } + // TODO may be able to use - "runtime" func Stack(buf []byte, all bool) int + + t := new(BaseRecognitionException) + + t.message = message + t.recognizer = recognizer + t.input = input + t.ctx = ctx + // The current {@link Token} when an error occurred. Since not all streams + // support accessing symbols by index, we have to track the {@link Token} + // instance itself. + t.offendingToken = nil + // Get the ATN state number the parser was in at the time the error + // occurred. For {@link NoViableAltException} and + // {@link LexerNoViableAltException} exceptions, this is the + // {@link DecisionState} number. For others, it is the state whose outgoing + // edge we couldn't Match. + t.offendingState = -1 + if t.recognizer != nil { + t.offendingState = t.recognizer.GetState() + } + + return t +} + +func (b *BaseRecognitionException) GetMessage() string { + return b.message +} + +func (b *BaseRecognitionException) GetOffendingToken() Token { + return b.offendingToken +} + +func (b *BaseRecognitionException) GetInputStream() IntStream { + return b.input +} + +//

If the state number is not known, b method returns -1.

+ +// +// Gets the set of input symbols which could potentially follow the +// previously Matched symbol at the time b exception was panicn. +// +//

If the set of expected tokens is not known and could not be computed, +// b method returns {@code nil}.

+// +// @return The set of token types that could potentially follow the current +// state in the ATN, or {@code nil} if the information is not available. +// / +func (b *BaseRecognitionException) getExpectedTokens() *IntervalSet { + if b.recognizer != nil { + return b.recognizer.GetATN().getExpectedTokens(b.offendingState, b.ctx) + } + + return nil +} + +func (b *BaseRecognitionException) String() string { + return b.message +} + +type LexerNoViableAltException struct { + *BaseRecognitionException + + startIndex int + deadEndConfigs ATNConfigSet +} + +func NewLexerNoViableAltException(lexer Lexer, input CharStream, startIndex int, deadEndConfigs ATNConfigSet) *LexerNoViableAltException { + + l := new(LexerNoViableAltException) + + l.BaseRecognitionException = NewBaseRecognitionException("", lexer, input, nil) + + l.startIndex = startIndex + l.deadEndConfigs = deadEndConfigs + + return l +} + +func (l *LexerNoViableAltException) String() string { + symbol := "" + if l.startIndex >= 0 && l.startIndex < l.input.Size() { + symbol = l.input.(CharStream).GetTextFromInterval(NewInterval(l.startIndex, l.startIndex)) + } + return "LexerNoViableAltException" + symbol +} + +type NoViableAltException struct { + *BaseRecognitionException + + startToken Token + offendingToken Token + ctx ParserRuleContext + deadEndConfigs ATNConfigSet +} + +// Indicates that the parser could not decide which of two or more paths +// to take based upon the remaining input. It tracks the starting token +// of the offending input and also knows where the parser was +// in the various paths when the error. Reported by ReportNoViableAlternative() +// +func NewNoViableAltException(recognizer Parser, input TokenStream, startToken Token, offendingToken Token, deadEndConfigs ATNConfigSet, ctx ParserRuleContext) *NoViableAltException { + + if ctx == nil { + ctx = recognizer.GetParserRuleContext() + } + + if offendingToken == nil { + offendingToken = recognizer.GetCurrentToken() + } + + if startToken == nil { + startToken = recognizer.GetCurrentToken() + } + + if input == nil { + input = recognizer.GetInputStream().(TokenStream) + } + + n := new(NoViableAltException) + n.BaseRecognitionException = NewBaseRecognitionException("", recognizer, input, ctx) + + // Which configurations did we try at input.Index() that couldn't Match + // input.LT(1)?// + n.deadEndConfigs = deadEndConfigs + // The token object at the start index the input stream might + // not be buffering tokens so get a reference to it. (At the + // time the error occurred, of course the stream needs to keep a + // buffer all of the tokens but later we might not have access to those.) + n.startToken = startToken + n.offendingToken = offendingToken + + return n +} + +type InputMisMatchException struct { + *BaseRecognitionException +} + +// This signifies any kind of mismatched input exceptions such as +// when the current input does not Match the expected token. +// +func NewInputMisMatchException(recognizer Parser) *InputMisMatchException { + + i := new(InputMisMatchException) + i.BaseRecognitionException = NewBaseRecognitionException("", recognizer, recognizer.GetInputStream(), recognizer.GetParserRuleContext()) + + i.offendingToken = recognizer.GetCurrentToken() + + return i + +} + +// A semantic predicate failed during validation. Validation of predicates +// occurs when normally parsing the alternative just like Matching a token. +// Disambiguating predicate evaluation occurs when we test a predicate during +// prediction. + +type FailedPredicateException struct { + *BaseRecognitionException + + ruleIndex int + predicateIndex int + predicate string +} + +func NewFailedPredicateException(recognizer Parser, predicate string, message string) *FailedPredicateException { + + f := new(FailedPredicateException) + + f.BaseRecognitionException = NewBaseRecognitionException(f.formatMessage(predicate, message), recognizer, recognizer.GetInputStream(), recognizer.GetParserRuleContext()) + + s := recognizer.GetInterpreter().atn.states[recognizer.GetState()] + trans := s.GetTransitions()[0] + if trans2, ok := trans.(*PredicateTransition); ok { + f.ruleIndex = trans2.ruleIndex + f.predicateIndex = trans2.predIndex + } else { + f.ruleIndex = 0 + f.predicateIndex = 0 + } + f.predicate = predicate + f.offendingToken = recognizer.GetCurrentToken() + + return f +} + +func (f *FailedPredicateException) formatMessage(predicate, message string) string { + if message != "" { + return message + } + + return "failed predicate: {" + predicate + "}?" +} + +type ParseCancellationException struct { +} + +func NewParseCancellationException() *ParseCancellationException { + // Error.call(this) + // Error.captureStackTrace(this, ParseCancellationException) + return new(ParseCancellationException) +} diff --git a/vendor/github.com/antlr/antlr4/runtime/Go/antlr/file_stream.go b/vendor/github.com/antlr/antlr4/runtime/Go/antlr/file_stream.go new file mode 100644 index 000000000..842170c08 --- /dev/null +++ b/vendor/github.com/antlr/antlr4/runtime/Go/antlr/file_stream.go @@ -0,0 +1,49 @@ +// Copyright (c) 2012-2017 The ANTLR Project. All rights reserved. +// Use of this file is governed by the BSD 3-clause license that +// can be found in the LICENSE.txt file in the project root. + +package antlr + +import ( + "bytes" + "io" + "os" +) + +// This is an InputStream that is loaded from a file all at once +// when you construct the object. + +type FileStream struct { + *InputStream + + filename string +} + +func NewFileStream(fileName string) (*FileStream, error) { + + buf := bytes.NewBuffer(nil) + + f, err := os.Open(fileName) + if err != nil { + return nil, err + } + defer f.Close() + _, err = io.Copy(buf, f) + if err != nil { + return nil, err + } + + fs := new(FileStream) + + fs.filename = fileName + s := string(buf.Bytes()) + + fs.InputStream = NewInputStream(s) + + return fs, nil + +} + +func (f *FileStream) GetSourceName() string { + return f.filename +} diff --git a/vendor/github.com/antlr/antlr4/runtime/Go/antlr/go.mod b/vendor/github.com/antlr/antlr4/runtime/Go/antlr/go.mod new file mode 100644 index 000000000..004cf3465 --- /dev/null +++ b/vendor/github.com/antlr/antlr4/runtime/Go/antlr/go.mod @@ -0,0 +1,3 @@ +module github.com/antlr/antlr4/runtime/Go/antlr + +go 1.16 diff --git a/vendor/github.com/antlr/antlr4/runtime/Go/antlr/input_stream.go b/vendor/github.com/antlr/antlr4/runtime/Go/antlr/input_stream.go new file mode 100644 index 000000000..5ff270f53 --- /dev/null +++ b/vendor/github.com/antlr/antlr4/runtime/Go/antlr/input_stream.go @@ -0,0 +1,113 @@ +// Copyright (c) 2012-2017 The ANTLR Project. All rights reserved. +// Use of this file is governed by the BSD 3-clause license that +// can be found in the LICENSE.txt file in the project root. + +package antlr + +type InputStream struct { + name string + index int + data []rune + size int +} + +func NewInputStream(data string) *InputStream { + + is := new(InputStream) + + is.name = "" + is.index = 0 + is.data = []rune(data) + is.size = len(is.data) // number of runes + + return is +} + +func (is *InputStream) reset() { + is.index = 0 +} + +func (is *InputStream) Consume() { + if is.index >= is.size { + // assert is.LA(1) == TokenEOF + panic("cannot consume EOF") + } + is.index++ +} + +func (is *InputStream) LA(offset int) int { + + if offset == 0 { + return 0 // nil + } + if offset < 0 { + offset++ // e.g., translate LA(-1) to use offset=0 + } + pos := is.index + offset - 1 + + if pos < 0 || pos >= is.size { // invalid + return TokenEOF + } + + return int(is.data[pos]) +} + +func (is *InputStream) LT(offset int) int { + return is.LA(offset) +} + +func (is *InputStream) Index() int { + return is.index +} + +func (is *InputStream) Size() int { + return is.size +} + +// mark/release do nothing we have entire buffer +func (is *InputStream) Mark() int { + return -1 +} + +func (is *InputStream) Release(marker int) { +} + +func (is *InputStream) Seek(index int) { + if index <= is.index { + is.index = index // just jump don't update stream state (line,...) + return + } + // seek forward + is.index = intMin(index, is.size) +} + +func (is *InputStream) GetText(start int, stop int) string { + if stop >= is.size { + stop = is.size - 1 + } + if start >= is.size { + return "" + } + + return string(is.data[start : stop+1]) +} + +func (is *InputStream) GetTextFromTokens(start, stop Token) string { + if start != nil && stop != nil { + return is.GetTextFromInterval(NewInterval(start.GetTokenIndex(), stop.GetTokenIndex())) + } + + return "" +} + +func (is *InputStream) GetTextFromInterval(i *Interval) string { + return is.GetText(i.Start, i.Stop) +} + +func (*InputStream) GetSourceName() string { + return "Obtained from string" +} + +func (is *InputStream) String() string { + return string(is.data) +} diff --git a/vendor/github.com/antlr/antlr4/runtime/Go/antlr/int_stream.go b/vendor/github.com/antlr/antlr4/runtime/Go/antlr/int_stream.go new file mode 100644 index 000000000..438e0ea6e --- /dev/null +++ b/vendor/github.com/antlr/antlr4/runtime/Go/antlr/int_stream.go @@ -0,0 +1,16 @@ +// Copyright (c) 2012-2017 The ANTLR Project. All rights reserved. +// Use of this file is governed by the BSD 3-clause license that +// can be found in the LICENSE.txt file in the project root. + +package antlr + +type IntStream interface { + Consume() + LA(int) int + Mark() int + Release(marker int) + Index() int + Seek(index int) + Size() int + GetSourceName() string +} diff --git a/vendor/github.com/antlr/antlr4/runtime/Go/antlr/interval_set.go b/vendor/github.com/antlr/antlr4/runtime/Go/antlr/interval_set.go new file mode 100644 index 000000000..510d90911 --- /dev/null +++ b/vendor/github.com/antlr/antlr4/runtime/Go/antlr/interval_set.go @@ -0,0 +1,296 @@ +// Copyright (c) 2012-2017 The ANTLR Project. All rights reserved. +// Use of this file is governed by the BSD 3-clause license that +// can be found in the LICENSE.txt file in the project root. + +package antlr + +import ( + "strconv" + "strings" +) + +type Interval struct { + Start int + Stop int +} + +/* stop is not included! */ +func NewInterval(start, stop int) *Interval { + i := new(Interval) + + i.Start = start + i.Stop = stop + return i +} + +func (i *Interval) Contains(item int) bool { + return item >= i.Start && item < i.Stop +} + +func (i *Interval) String() string { + if i.Start == i.Stop-1 { + return strconv.Itoa(i.Start) + } + + return strconv.Itoa(i.Start) + ".." + strconv.Itoa(i.Stop-1) +} + +func (i *Interval) length() int { + return i.Stop - i.Start +} + +type IntervalSet struct { + intervals []*Interval + readOnly bool +} + +func NewIntervalSet() *IntervalSet { + + i := new(IntervalSet) + + i.intervals = nil + i.readOnly = false + + return i +} + +func (i *IntervalSet) first() int { + if len(i.intervals) == 0 { + return TokenInvalidType + } + + return i.intervals[0].Start +} + +func (i *IntervalSet) addOne(v int) { + i.addInterval(NewInterval(v, v+1)) +} + +func (i *IntervalSet) addRange(l, h int) { + i.addInterval(NewInterval(l, h+1)) +} + +func (i *IntervalSet) addInterval(v *Interval) { + if i.intervals == nil { + i.intervals = make([]*Interval, 0) + i.intervals = append(i.intervals, v) + } else { + // find insert pos + for k, interval := range i.intervals { + // distinct range -> insert + if v.Stop < interval.Start { + i.intervals = append(i.intervals[0:k], append([]*Interval{v}, i.intervals[k:]...)...) + return + } else if v.Stop == interval.Start { + i.intervals[k].Start = v.Start + return + } else if v.Start <= interval.Stop { + i.intervals[k] = NewInterval(intMin(interval.Start, v.Start), intMax(interval.Stop, v.Stop)) + + // if not applying to end, merge potential overlaps + if k < len(i.intervals)-1 { + l := i.intervals[k] + r := i.intervals[k+1] + // if r contained in l + if l.Stop >= r.Stop { + i.intervals = append(i.intervals[0:k+1], i.intervals[k+2:]...) + } else if l.Stop >= r.Start { // partial overlap + i.intervals[k] = NewInterval(l.Start, r.Stop) + i.intervals = append(i.intervals[0:k+1], i.intervals[k+2:]...) + } + } + return + } + } + // greater than any exiting + i.intervals = append(i.intervals, v) + } +} + +func (i *IntervalSet) addSet(other *IntervalSet) *IntervalSet { + if other.intervals != nil { + for k := 0; k < len(other.intervals); k++ { + i2 := other.intervals[k] + i.addInterval(NewInterval(i2.Start, i2.Stop)) + } + } + return i +} + +func (i *IntervalSet) complement(start int, stop int) *IntervalSet { + result := NewIntervalSet() + result.addInterval(NewInterval(start, stop+1)) + for j := 0; j < len(i.intervals); j++ { + result.removeRange(i.intervals[j]) + } + return result +} + +func (i *IntervalSet) contains(item int) bool { + if i.intervals == nil { + return false + } + for k := 0; k < len(i.intervals); k++ { + if i.intervals[k].Contains(item) { + return true + } + } + return false +} + +func (i *IntervalSet) length() int { + len := 0 + + for _, v := range i.intervals { + len += v.length() + } + + return len +} + +func (i *IntervalSet) removeRange(v *Interval) { + if v.Start == v.Stop-1 { + i.removeOne(v.Start) + } else if i.intervals != nil { + k := 0 + for n := 0; n < len(i.intervals); n++ { + ni := i.intervals[k] + // intervals are ordered + if v.Stop <= ni.Start { + return + } else if v.Start > ni.Start && v.Stop < ni.Stop { + i.intervals[k] = NewInterval(ni.Start, v.Start) + x := NewInterval(v.Stop, ni.Stop) + // i.intervals.splice(k, 0, x) + i.intervals = append(i.intervals[0:k], append([]*Interval{x}, i.intervals[k:]...)...) + return + } else if v.Start <= ni.Start && v.Stop >= ni.Stop { + // i.intervals.splice(k, 1) + i.intervals = append(i.intervals[0:k], i.intervals[k+1:]...) + k = k - 1 // need another pass + } else if v.Start < ni.Stop { + i.intervals[k] = NewInterval(ni.Start, v.Start) + } else if v.Stop < ni.Stop { + i.intervals[k] = NewInterval(v.Stop, ni.Stop) + } + k++ + } + } +} + +func (i *IntervalSet) removeOne(v int) { + if i.intervals != nil { + for k := 0; k < len(i.intervals); k++ { + ki := i.intervals[k] + // intervals i ordered + if v < ki.Start { + return + } else if v == ki.Start && v == ki.Stop-1 { + // i.intervals.splice(k, 1) + i.intervals = append(i.intervals[0:k], i.intervals[k+1:]...) + return + } else if v == ki.Start { + i.intervals[k] = NewInterval(ki.Start+1, ki.Stop) + return + } else if v == ki.Stop-1 { + i.intervals[k] = NewInterval(ki.Start, ki.Stop-1) + return + } else if v < ki.Stop-1 { + x := NewInterval(ki.Start, v) + ki.Start = v + 1 + // i.intervals.splice(k, 0, x) + i.intervals = append(i.intervals[0:k], append([]*Interval{x}, i.intervals[k:]...)...) + return + } + } + } +} + +func (i *IntervalSet) String() string { + return i.StringVerbose(nil, nil, false) +} + +func (i *IntervalSet) StringVerbose(literalNames []string, symbolicNames []string, elemsAreChar bool) string { + + if i.intervals == nil { + return "{}" + } else if literalNames != nil || symbolicNames != nil { + return i.toTokenString(literalNames, symbolicNames) + } else if elemsAreChar { + return i.toCharString() + } + + return i.toIndexString() +} + +func (i *IntervalSet) toCharString() string { + names := make([]string, len(i.intervals)) + + for j := 0; j < len(i.intervals); j++ { + v := i.intervals[j] + if v.Stop == v.Start+1 { + if v.Start == TokenEOF { + names = append(names, "") + } else { + names = append(names, ("'" + string(v.Start) + "'")) + } + } else { + names = append(names, "'"+string(v.Start)+"'..'"+string(v.Stop-1)+"'") + } + } + if len(names) > 1 { + return "{" + strings.Join(names, ", ") + "}" + } + + return names[0] +} + +func (i *IntervalSet) toIndexString() string { + + names := make([]string, 0) + for j := 0; j < len(i.intervals); j++ { + v := i.intervals[j] + if v.Stop == v.Start+1 { + if v.Start == TokenEOF { + names = append(names, "") + } else { + names = append(names, strconv.Itoa(v.Start)) + } + } else { + names = append(names, strconv.Itoa(v.Start)+".."+strconv.Itoa(v.Stop-1)) + } + } + if len(names) > 1 { + return "{" + strings.Join(names, ", ") + "}" + } + + return names[0] +} + +func (i *IntervalSet) toTokenString(literalNames []string, symbolicNames []string) string { + names := make([]string, 0) + for _, v := range i.intervals { + for j := v.Start; j < v.Stop; j++ { + names = append(names, i.elementName(literalNames, symbolicNames, j)) + } + } + if len(names) > 1 { + return "{" + strings.Join(names, ", ") + "}" + } + + return names[0] +} + +func (i *IntervalSet) elementName(literalNames []string, symbolicNames []string, a int) string { + if a == TokenEOF { + return "" + } else if a == TokenEpsilon { + return "" + } else { + if a < len(literalNames) && literalNames[a] != "" { + return literalNames[a] + } + + return symbolicNames[a] + } +} diff --git a/vendor/github.com/antlr/antlr4/runtime/Go/antlr/lexer.go b/vendor/github.com/antlr/antlr4/runtime/Go/antlr/lexer.go new file mode 100644 index 000000000..b04f04572 --- /dev/null +++ b/vendor/github.com/antlr/antlr4/runtime/Go/antlr/lexer.go @@ -0,0 +1,418 @@ +// Copyright (c) 2012-2017 The ANTLR Project. All rights reserved. +// Use of this file is governed by the BSD 3-clause license that +// can be found in the LICENSE.txt file in the project root. + +package antlr + +import ( + "fmt" + "strconv" +) + +// A lexer is recognizer that draws input symbols from a character stream. +// lexer grammars result in a subclass of this object. A Lexer object +// uses simplified Match() and error recovery mechanisms in the interest +// of speed. +/// + +type Lexer interface { + TokenSource + Recognizer + + Emit() Token + + SetChannel(int) + PushMode(int) + PopMode() int + SetType(int) + SetMode(int) +} + +type BaseLexer struct { + *BaseRecognizer + + Interpreter ILexerATNSimulator + TokenStartCharIndex int + TokenStartLine int + TokenStartColumn int + ActionType int + Virt Lexer // The most derived lexer implementation. Allows virtual method calls. + + input CharStream + factory TokenFactory + tokenFactorySourcePair *TokenSourceCharStreamPair + token Token + hitEOF bool + channel int + thetype int + modeStack IntStack + mode int + text string +} + +func NewBaseLexer(input CharStream) *BaseLexer { + + lexer := new(BaseLexer) + + lexer.BaseRecognizer = NewBaseRecognizer() + + lexer.input = input + lexer.factory = CommonTokenFactoryDEFAULT + lexer.tokenFactorySourcePair = &TokenSourceCharStreamPair{lexer, input} + + lexer.Virt = lexer + + lexer.Interpreter = nil // child classes must populate it + + // The goal of all lexer rules/methods is to create a token object. + // l is an instance variable as multiple rules may collaborate to + // create a single token. NextToken will return l object after + // Matching lexer rule(s). If you subclass to allow multiple token + // emissions, then set l to the last token to be Matched or + // something nonnil so that the auto token emit mechanism will not + // emit another token. + lexer.token = nil + + // What character index in the stream did the current token start at? + // Needed, for example, to get the text for current token. Set at + // the start of NextToken. + lexer.TokenStartCharIndex = -1 + + // The line on which the first character of the token resides/// + lexer.TokenStartLine = -1 + + // The character position of first character within the line/// + lexer.TokenStartColumn = -1 + + // Once we see EOF on char stream, next token will be EOF. + // If you have DONE : EOF then you see DONE EOF. + lexer.hitEOF = false + + // The channel number for the current token/// + lexer.channel = TokenDefaultChannel + + // The token type for the current token/// + lexer.thetype = TokenInvalidType + + lexer.modeStack = make([]int, 0) + lexer.mode = LexerDefaultMode + + // You can set the text for the current token to override what is in + // the input char buffer. Use setText() or can set l instance var. + // / + lexer.text = "" + + return lexer +} + +const ( + LexerDefaultMode = 0 + LexerMore = -2 + LexerSkip = -3 +) + +const ( + LexerDefaultTokenChannel = TokenDefaultChannel + LexerHidden = TokenHiddenChannel + LexerMinCharValue = 0x0000 + LexerMaxCharValue = 0x10FFFF +) + +func (b *BaseLexer) reset() { + // wack Lexer state variables + if b.input != nil { + b.input.Seek(0) // rewind the input + } + b.token = nil + b.thetype = TokenInvalidType + b.channel = TokenDefaultChannel + b.TokenStartCharIndex = -1 + b.TokenStartColumn = -1 + b.TokenStartLine = -1 + b.text = "" + + b.hitEOF = false + b.mode = LexerDefaultMode + b.modeStack = make([]int, 0) + + b.Interpreter.reset() +} + +func (b *BaseLexer) GetInterpreter() ILexerATNSimulator { + return b.Interpreter +} + +func (b *BaseLexer) GetInputStream() CharStream { + return b.input +} + +func (b *BaseLexer) GetSourceName() string { + return b.GrammarFileName +} + +func (b *BaseLexer) SetChannel(v int) { + b.channel = v +} + +func (b *BaseLexer) GetTokenFactory() TokenFactory { + return b.factory +} + +func (b *BaseLexer) setTokenFactory(f TokenFactory) { + b.factory = f +} + +func (b *BaseLexer) safeMatch() (ret int) { + defer func() { + if e := recover(); e != nil { + if re, ok := e.(RecognitionException); ok { + b.notifyListeners(re) // Report error + b.Recover(re) + ret = LexerSkip // default + } + } + }() + + return b.Interpreter.Match(b.input, b.mode) +} + +// Return a token from l source i.e., Match a token on the char stream. +func (b *BaseLexer) NextToken() Token { + if b.input == nil { + panic("NextToken requires a non-nil input stream.") + } + + tokenStartMarker := b.input.Mark() + + // previously in finally block + defer func() { + // make sure we release marker after Match or + // unbuffered char stream will keep buffering + b.input.Release(tokenStartMarker) + }() + + for { + if b.hitEOF { + b.EmitEOF() + return b.token + } + b.token = nil + b.channel = TokenDefaultChannel + b.TokenStartCharIndex = b.input.Index() + b.TokenStartColumn = b.Interpreter.GetCharPositionInLine() + b.TokenStartLine = b.Interpreter.GetLine() + b.text = "" + continueOuter := false + for { + b.thetype = TokenInvalidType + ttype := LexerSkip + + ttype = b.safeMatch() + + if b.input.LA(1) == TokenEOF { + b.hitEOF = true + } + if b.thetype == TokenInvalidType { + b.thetype = ttype + } + if b.thetype == LexerSkip { + continueOuter = true + break + } + if b.thetype != LexerMore { + break + } + } + + if continueOuter { + continue + } + if b.token == nil { + b.Virt.Emit() + } + return b.token + } + + return nil +} + +// Instruct the lexer to Skip creating a token for current lexer rule +// and look for another token. NextToken() knows to keep looking when +// a lexer rule finishes with token set to SKIPTOKEN. Recall that +// if token==nil at end of any token rule, it creates one for you +// and emits it. +// / +func (b *BaseLexer) Skip() { + b.thetype = LexerSkip +} + +func (b *BaseLexer) More() { + b.thetype = LexerMore +} + +func (b *BaseLexer) SetMode(m int) { + b.mode = m +} + +func (b *BaseLexer) PushMode(m int) { + if LexerATNSimulatorDebug { + fmt.Println("pushMode " + strconv.Itoa(m)) + } + b.modeStack.Push(b.mode) + b.mode = m +} + +func (b *BaseLexer) PopMode() int { + if len(b.modeStack) == 0 { + panic("Empty Stack") + } + if LexerATNSimulatorDebug { + fmt.Println("popMode back to " + fmt.Sprint(b.modeStack[0:len(b.modeStack)-1])) + } + i, _ := b.modeStack.Pop() + b.mode = i + return b.mode +} + +func (b *BaseLexer) inputStream() CharStream { + return b.input +} + +// SetInputStream resets the lexer input stream and associated lexer state. +func (b *BaseLexer) SetInputStream(input CharStream) { + b.input = nil + b.tokenFactorySourcePair = &TokenSourceCharStreamPair{b, b.input} + b.reset() + b.input = input + b.tokenFactorySourcePair = &TokenSourceCharStreamPair{b, b.input} +} + +func (b *BaseLexer) GetTokenSourceCharStreamPair() *TokenSourceCharStreamPair { + return b.tokenFactorySourcePair +} + +// By default does not support multiple emits per NextToken invocation +// for efficiency reasons. Subclass and override l method, NextToken, +// and GetToken (to push tokens into a list and pull from that list +// rather than a single variable as l implementation does). +// / +func (b *BaseLexer) EmitToken(token Token) { + b.token = token +} + +// The standard method called to automatically emit a token at the +// outermost lexical rule. The token object should point into the +// char buffer start..stop. If there is a text override in 'text', +// use that to set the token's text. Override l method to emit +// custom Token objects or provide a Newfactory. +// / +func (b *BaseLexer) Emit() Token { + t := b.factory.Create(b.tokenFactorySourcePair, b.thetype, b.text, b.channel, b.TokenStartCharIndex, b.GetCharIndex()-1, b.TokenStartLine, b.TokenStartColumn) + b.EmitToken(t) + return t +} + +func (b *BaseLexer) EmitEOF() Token { + cpos := b.GetCharPositionInLine() + lpos := b.GetLine() + eof := b.factory.Create(b.tokenFactorySourcePair, TokenEOF, "", TokenDefaultChannel, b.input.Index(), b.input.Index()-1, lpos, cpos) + b.EmitToken(eof) + return eof +} + +func (b *BaseLexer) GetCharPositionInLine() int { + return b.Interpreter.GetCharPositionInLine() +} + +func (b *BaseLexer) GetLine() int { + return b.Interpreter.GetLine() +} + +func (b *BaseLexer) GetType() int { + return b.thetype +} + +func (b *BaseLexer) SetType(t int) { + b.thetype = t +} + +// What is the index of the current character of lookahead?/// +func (b *BaseLexer) GetCharIndex() int { + return b.input.Index() +} + +// Return the text Matched so far for the current token or any text override. +//Set the complete text of l token it wipes any previous changes to the text. +func (b *BaseLexer) GetText() string { + if b.text != "" { + return b.text + } + + return b.Interpreter.GetText(b.input) +} + +func (b *BaseLexer) SetText(text string) { + b.text = text +} + +func (b *BaseLexer) GetATN() *ATN { + return b.Interpreter.ATN() +} + +// Return a list of all Token objects in input char stream. +// Forces load of all tokens. Does not include EOF token. +// / +func (b *BaseLexer) GetAllTokens() []Token { + vl := b.Virt + tokens := make([]Token, 0) + t := vl.NextToken() + for t.GetTokenType() != TokenEOF { + tokens = append(tokens, t) + t = vl.NextToken() + } + return tokens +} + +func (b *BaseLexer) notifyListeners(e RecognitionException) { + start := b.TokenStartCharIndex + stop := b.input.Index() + text := b.input.GetTextFromInterval(NewInterval(start, stop)) + msg := "token recognition error at: '" + text + "'" + listener := b.GetErrorListenerDispatch() + listener.SyntaxError(b, nil, b.TokenStartLine, b.TokenStartColumn, msg, e) +} + +func (b *BaseLexer) getErrorDisplayForChar(c rune) string { + if c == TokenEOF { + return "" + } else if c == '\n' { + return "\\n" + } else if c == '\t' { + return "\\t" + } else if c == '\r' { + return "\\r" + } else { + return string(c) + } +} + +func (b *BaseLexer) getCharErrorDisplay(c rune) string { + return "'" + b.getErrorDisplayForChar(c) + "'" +} + +// Lexers can normally Match any char in it's vocabulary after Matching +// a token, so do the easy thing and just kill a character and hope +// it all works out. You can instead use the rule invocation stack +// to do sophisticated error recovery if you are in a fragment rule. +// / +func (b *BaseLexer) Recover(re RecognitionException) { + if b.input.LA(1) != TokenEOF { + if _, ok := re.(*LexerNoViableAltException); ok { + // Skip a char and try again + b.Interpreter.Consume(b.input) + } else { + // TODO: Do we lose character or line position information? + b.input.Consume() + } + } +} diff --git a/vendor/github.com/antlr/antlr4/runtime/Go/antlr/lexer_action.go b/vendor/github.com/antlr/antlr4/runtime/Go/antlr/lexer_action.go new file mode 100644 index 000000000..20df84f94 --- /dev/null +++ b/vendor/github.com/antlr/antlr4/runtime/Go/antlr/lexer_action.go @@ -0,0 +1,431 @@ +// Copyright (c) 2012-2017 The ANTLR Project. All rights reserved. +// Use of this file is governed by the BSD 3-clause license that +// can be found in the LICENSE.txt file in the project root. + +package antlr + +import "strconv" + +const ( + LexerActionTypeChannel = 0 //The type of a {@link LexerChannelAction} action. + LexerActionTypeCustom = 1 //The type of a {@link LexerCustomAction} action. + LexerActionTypeMode = 2 //The type of a {@link LexerModeAction} action. + LexerActionTypeMore = 3 //The type of a {@link LexerMoreAction} action. + LexerActionTypePopMode = 4 //The type of a {@link LexerPopModeAction} action. + LexerActionTypePushMode = 5 //The type of a {@link LexerPushModeAction} action. + LexerActionTypeSkip = 6 //The type of a {@link LexerSkipAction} action. + LexerActionTypeType = 7 //The type of a {@link LexerTypeAction} action. +) + +type LexerAction interface { + getActionType() int + getIsPositionDependent() bool + execute(lexer Lexer) + hash() int + equals(other LexerAction) bool +} + +type BaseLexerAction struct { + actionType int + isPositionDependent bool +} + +func NewBaseLexerAction(action int) *BaseLexerAction { + la := new(BaseLexerAction) + + la.actionType = action + la.isPositionDependent = false + + return la +} + +func (b *BaseLexerAction) execute(lexer Lexer) { + panic("Not implemented") +} + +func (b *BaseLexerAction) getActionType() int { + return b.actionType +} + +func (b *BaseLexerAction) getIsPositionDependent() bool { + return b.isPositionDependent +} + +func (b *BaseLexerAction) hash() int { + return b.actionType +} + +func (b *BaseLexerAction) equals(other LexerAction) bool { + return b == other +} + +// +// Implements the {@code Skip} lexer action by calling {@link Lexer//Skip}. +// +//

The {@code Skip} command does not have any parameters, so l action is +// implemented as a singleton instance exposed by {@link //INSTANCE}.

+type LexerSkipAction struct { + *BaseLexerAction +} + +func NewLexerSkipAction() *LexerSkipAction { + la := new(LexerSkipAction) + la.BaseLexerAction = NewBaseLexerAction(LexerActionTypeSkip) + return la +} + +// Provides a singleton instance of l parameterless lexer action. +var LexerSkipActionINSTANCE = NewLexerSkipAction() + +func (l *LexerSkipAction) execute(lexer Lexer) { + lexer.Skip() +} + +func (l *LexerSkipAction) String() string { + return "skip" +} + +// Implements the {@code type} lexer action by calling {@link Lexer//setType} +// with the assigned type. +type LexerTypeAction struct { + *BaseLexerAction + + thetype int +} + +func NewLexerTypeAction(thetype int) *LexerTypeAction { + l := new(LexerTypeAction) + l.BaseLexerAction = NewBaseLexerAction(LexerActionTypeType) + l.thetype = thetype + return l +} + +func (l *LexerTypeAction) execute(lexer Lexer) { + lexer.SetType(l.thetype) +} + +func (l *LexerTypeAction) hash() int { + h := murmurInit(0) + h = murmurUpdate(h, l.actionType) + h = murmurUpdate(h, l.thetype) + return murmurFinish(h, 2) +} + +func (l *LexerTypeAction) equals(other LexerAction) bool { + if l == other { + return true + } else if _, ok := other.(*LexerTypeAction); !ok { + return false + } else { + return l.thetype == other.(*LexerTypeAction).thetype + } +} + +func (l *LexerTypeAction) String() string { + return "actionType(" + strconv.Itoa(l.thetype) + ")" +} + +// Implements the {@code pushMode} lexer action by calling +// {@link Lexer//pushMode} with the assigned mode. +type LexerPushModeAction struct { + *BaseLexerAction + + mode int +} + +func NewLexerPushModeAction(mode int) *LexerPushModeAction { + + l := new(LexerPushModeAction) + l.BaseLexerAction = NewBaseLexerAction(LexerActionTypePushMode) + + l.mode = mode + return l +} + +//

This action is implemented by calling {@link Lexer//pushMode} with the +// value provided by {@link //getMode}.

+func (l *LexerPushModeAction) execute(lexer Lexer) { + lexer.PushMode(l.mode) +} + +func (l *LexerPushModeAction) hash() int { + h := murmurInit(0) + h = murmurUpdate(h, l.actionType) + h = murmurUpdate(h, l.mode) + return murmurFinish(h, 2) +} + +func (l *LexerPushModeAction) equals(other LexerAction) bool { + if l == other { + return true + } else if _, ok := other.(*LexerPushModeAction); !ok { + return false + } else { + return l.mode == other.(*LexerPushModeAction).mode + } +} + +func (l *LexerPushModeAction) String() string { + return "pushMode(" + strconv.Itoa(l.mode) + ")" +} + +// Implements the {@code popMode} lexer action by calling {@link Lexer//popMode}. +// +//

The {@code popMode} command does not have any parameters, so l action is +// implemented as a singleton instance exposed by {@link //INSTANCE}.

+type LexerPopModeAction struct { + *BaseLexerAction +} + +func NewLexerPopModeAction() *LexerPopModeAction { + + l := new(LexerPopModeAction) + + l.BaseLexerAction = NewBaseLexerAction(LexerActionTypePopMode) + + return l +} + +var LexerPopModeActionINSTANCE = NewLexerPopModeAction() + +//

This action is implemented by calling {@link Lexer//popMode}.

+func (l *LexerPopModeAction) execute(lexer Lexer) { + lexer.PopMode() +} + +func (l *LexerPopModeAction) String() string { + return "popMode" +} + +// Implements the {@code more} lexer action by calling {@link Lexer//more}. +// +//

The {@code more} command does not have any parameters, so l action is +// implemented as a singleton instance exposed by {@link //INSTANCE}.

+ +type LexerMoreAction struct { + *BaseLexerAction +} + +func NewLexerMoreAction() *LexerMoreAction { + l := new(LexerMoreAction) + l.BaseLexerAction = NewBaseLexerAction(LexerActionTypeMore) + + return l +} + +var LexerMoreActionINSTANCE = NewLexerMoreAction() + +//

This action is implemented by calling {@link Lexer//popMode}.

+func (l *LexerMoreAction) execute(lexer Lexer) { + lexer.More() +} + +func (l *LexerMoreAction) String() string { + return "more" +} + +// Implements the {@code mode} lexer action by calling {@link Lexer//mode} with +// the assigned mode. +type LexerModeAction struct { + *BaseLexerAction + + mode int +} + +func NewLexerModeAction(mode int) *LexerModeAction { + l := new(LexerModeAction) + l.BaseLexerAction = NewBaseLexerAction(LexerActionTypeMode) + l.mode = mode + return l +} + +//

This action is implemented by calling {@link Lexer//mode} with the +// value provided by {@link //getMode}.

+func (l *LexerModeAction) execute(lexer Lexer) { + lexer.SetMode(l.mode) +} + +func (l *LexerModeAction) hash() int { + h := murmurInit(0) + h = murmurUpdate(h, l.actionType) + h = murmurUpdate(h, l.mode) + return murmurFinish(h, 2) +} + +func (l *LexerModeAction) equals(other LexerAction) bool { + if l == other { + return true + } else if _, ok := other.(*LexerModeAction); !ok { + return false + } else { + return l.mode == other.(*LexerModeAction).mode + } +} + +func (l *LexerModeAction) String() string { + return "mode(" + strconv.Itoa(l.mode) + ")" +} + +// Executes a custom lexer action by calling {@link Recognizer//action} with the +// rule and action indexes assigned to the custom action. The implementation of +// a custom action is added to the generated code for the lexer in an override +// of {@link Recognizer//action} when the grammar is compiled. +// +//

This class may represent embedded actions created with the {...} +// syntax in ANTLR 4, as well as actions created for lexer commands where the +// command argument could not be evaluated when the grammar was compiled.

+ +// Constructs a custom lexer action with the specified rule and action +// indexes. +// +// @param ruleIndex The rule index to use for calls to +// {@link Recognizer//action}. +// @param actionIndex The action index to use for calls to +// {@link Recognizer//action}. + +type LexerCustomAction struct { + *BaseLexerAction + ruleIndex, actionIndex int +} + +func NewLexerCustomAction(ruleIndex, actionIndex int) *LexerCustomAction { + l := new(LexerCustomAction) + l.BaseLexerAction = NewBaseLexerAction(LexerActionTypeCustom) + l.ruleIndex = ruleIndex + l.actionIndex = actionIndex + l.isPositionDependent = true + return l +} + +//

Custom actions are implemented by calling {@link Lexer//action} with the +// appropriate rule and action indexes.

+func (l *LexerCustomAction) execute(lexer Lexer) { + lexer.Action(nil, l.ruleIndex, l.actionIndex) +} + +func (l *LexerCustomAction) hash() int { + h := murmurInit(0) + h = murmurUpdate(h, l.actionType) + h = murmurUpdate(h, l.ruleIndex) + h = murmurUpdate(h, l.actionIndex) + return murmurFinish(h, 3) +} + +func (l *LexerCustomAction) equals(other LexerAction) bool { + if l == other { + return true + } else if _, ok := other.(*LexerCustomAction); !ok { + return false + } else { + return l.ruleIndex == other.(*LexerCustomAction).ruleIndex && l.actionIndex == other.(*LexerCustomAction).actionIndex + } +} + +// Implements the {@code channel} lexer action by calling +// {@link Lexer//setChannel} with the assigned channel. +// Constructs a New{@code channel} action with the specified channel value. +// @param channel The channel value to pass to {@link Lexer//setChannel}. +type LexerChannelAction struct { + *BaseLexerAction + + channel int +} + +func NewLexerChannelAction(channel int) *LexerChannelAction { + l := new(LexerChannelAction) + l.BaseLexerAction = NewBaseLexerAction(LexerActionTypeChannel) + l.channel = channel + return l +} + +//

This action is implemented by calling {@link Lexer//setChannel} with the +// value provided by {@link //getChannel}.

+func (l *LexerChannelAction) execute(lexer Lexer) { + lexer.SetChannel(l.channel) +} + +func (l *LexerChannelAction) hash() int { + h := murmurInit(0) + h = murmurUpdate(h, l.actionType) + h = murmurUpdate(h, l.channel) + return murmurFinish(h, 2) +} + +func (l *LexerChannelAction) equals(other LexerAction) bool { + if l == other { + return true + } else if _, ok := other.(*LexerChannelAction); !ok { + return false + } else { + return l.channel == other.(*LexerChannelAction).channel + } +} + +func (l *LexerChannelAction) String() string { + return "channel(" + strconv.Itoa(l.channel) + ")" +} + +// This implementation of {@link LexerAction} is used for tracking input offsets +// for position-dependent actions within a {@link LexerActionExecutor}. +// +//

This action is not serialized as part of the ATN, and is only required for +// position-dependent lexer actions which appear at a location other than the +// end of a rule. For more information about DFA optimizations employed for +// lexer actions, see {@link LexerActionExecutor//append} and +// {@link LexerActionExecutor//fixOffsetBeforeMatch}.

+ +// Constructs a Newindexed custom action by associating a character offset +// with a {@link LexerAction}. +// +//

Note: This class is only required for lexer actions for which +// {@link LexerAction//isPositionDependent} returns {@code true}.

+// +// @param offset The offset into the input {@link CharStream}, relative to +// the token start index, at which the specified lexer action should be +// executed. +// @param action The lexer action to execute at a particular offset in the +// input {@link CharStream}. +type LexerIndexedCustomAction struct { + *BaseLexerAction + + offset int + lexerAction LexerAction + isPositionDependent bool +} + +func NewLexerIndexedCustomAction(offset int, lexerAction LexerAction) *LexerIndexedCustomAction { + + l := new(LexerIndexedCustomAction) + l.BaseLexerAction = NewBaseLexerAction(lexerAction.getActionType()) + + l.offset = offset + l.lexerAction = lexerAction + l.isPositionDependent = true + + return l +} + +//

This method calls {@link //execute} on the result of {@link //getAction} +// using the provided {@code lexer}.

+func (l *LexerIndexedCustomAction) execute(lexer Lexer) { + // assume the input stream position was properly set by the calling code + l.lexerAction.execute(lexer) +} + +func (l *LexerIndexedCustomAction) hash() int { + h := murmurInit(0) + h = murmurUpdate(h, l.actionType) + h = murmurUpdate(h, l.offset) + h = murmurUpdate(h, l.lexerAction.hash()) + return murmurFinish(h, 3) +} + +func (l *LexerIndexedCustomAction) equals(other LexerAction) bool { + if l == other { + return true + } else if _, ok := other.(*LexerIndexedCustomAction); !ok { + return false + } else { + return l.offset == other.(*LexerIndexedCustomAction).offset && l.lexerAction == other.(*LexerIndexedCustomAction).lexerAction + } +} diff --git a/vendor/github.com/antlr/antlr4/runtime/Go/antlr/lexer_action_executor.go b/vendor/github.com/antlr/antlr4/runtime/Go/antlr/lexer_action_executor.go new file mode 100644 index 000000000..80b949a1a --- /dev/null +++ b/vendor/github.com/antlr/antlr4/runtime/Go/antlr/lexer_action_executor.go @@ -0,0 +1,170 @@ +// Copyright (c) 2012-2017 The ANTLR Project. All rights reserved. +// Use of this file is governed by the BSD 3-clause license that +// can be found in the LICENSE.txt file in the project root. + +package antlr + +// Represents an executor for a sequence of lexer actions which traversed during +// the Matching operation of a lexer rule (token). +// +//

The executor tracks position information for position-dependent lexer actions +// efficiently, ensuring that actions appearing only at the end of the rule do +// not cause bloating of the {@link DFA} created for the lexer.

+ +type LexerActionExecutor struct { + lexerActions []LexerAction + cachedHash int +} + +func NewLexerActionExecutor(lexerActions []LexerAction) *LexerActionExecutor { + + if lexerActions == nil { + lexerActions = make([]LexerAction, 0) + } + + l := new(LexerActionExecutor) + + l.lexerActions = lexerActions + + // Caches the result of {@link //hashCode} since the hash code is an element + // of the performance-critical {@link LexerATNConfig//hashCode} operation. + l.cachedHash = murmurInit(57) + for _, a := range lexerActions { + l.cachedHash = murmurUpdate(l.cachedHash, a.hash()) + } + + return l +} + +// Creates a {@link LexerActionExecutor} which executes the actions for +// the input {@code lexerActionExecutor} followed by a specified +// {@code lexerAction}. +// +// @param lexerActionExecutor The executor for actions already traversed by +// the lexer while Matching a token within a particular +// {@link LexerATNConfig}. If this is {@code nil}, the method behaves as +// though it were an empty executor. +// @param lexerAction The lexer action to execute after the actions +// specified in {@code lexerActionExecutor}. +// +// @return A {@link LexerActionExecutor} for executing the combine actions +// of {@code lexerActionExecutor} and {@code lexerAction}. +func LexerActionExecutorappend(lexerActionExecutor *LexerActionExecutor, lexerAction LexerAction) *LexerActionExecutor { + if lexerActionExecutor == nil { + return NewLexerActionExecutor([]LexerAction{lexerAction}) + } + + return NewLexerActionExecutor(append(lexerActionExecutor.lexerActions, lexerAction)) +} + +// Creates a {@link LexerActionExecutor} which encodes the current offset +// for position-dependent lexer actions. +// +//

Normally, when the executor encounters lexer actions where +// {@link LexerAction//isPositionDependent} returns {@code true}, it calls +// {@link IntStream//seek} on the input {@link CharStream} to set the input +// position to the end of the current token. This behavior provides +// for efficient DFA representation of lexer actions which appear at the end +// of a lexer rule, even when the lexer rule Matches a variable number of +// characters.

+// +//

Prior to traversing a Match transition in the ATN, the current offset +// from the token start index is assigned to all position-dependent lexer +// actions which have not already been assigned a fixed offset. By storing +// the offsets relative to the token start index, the DFA representation of +// lexer actions which appear in the middle of tokens remains efficient due +// to sharing among tokens of the same length, regardless of their absolute +// position in the input stream.

+// +//

If the current executor already has offsets assigned to all +// position-dependent lexer actions, the method returns {@code this}.

+// +// @param offset The current offset to assign to all position-dependent +// lexer actions which do not already have offsets assigned. +// +// @return A {@link LexerActionExecutor} which stores input stream offsets +// for all position-dependent lexer actions. +// / +func (l *LexerActionExecutor) fixOffsetBeforeMatch(offset int) *LexerActionExecutor { + var updatedLexerActions []LexerAction + for i := 0; i < len(l.lexerActions); i++ { + _, ok := l.lexerActions[i].(*LexerIndexedCustomAction) + if l.lexerActions[i].getIsPositionDependent() && !ok { + if updatedLexerActions == nil { + updatedLexerActions = make([]LexerAction, 0) + + for _, a := range l.lexerActions { + updatedLexerActions = append(updatedLexerActions, a) + } + } + + updatedLexerActions[i] = NewLexerIndexedCustomAction(offset, l.lexerActions[i]) + } + } + if updatedLexerActions == nil { + return l + } + + return NewLexerActionExecutor(updatedLexerActions) +} + +// Execute the actions encapsulated by l executor within the context of a +// particular {@link Lexer}. +// +//

This method calls {@link IntStream//seek} to set the position of the +// {@code input} {@link CharStream} prior to calling +// {@link LexerAction//execute} on a position-dependent action. Before the +// method returns, the input position will be restored to the same position +// it was in when the method was invoked.

+// +// @param lexer The lexer instance. +// @param input The input stream which is the source for the current token. +// When l method is called, the current {@link IntStream//index} for +// {@code input} should be the start of the following token, i.e. 1 +// character past the end of the current token. +// @param startIndex The token start index. This value may be passed to +// {@link IntStream//seek} to set the {@code input} position to the beginning +// of the token. +// / +func (l *LexerActionExecutor) execute(lexer Lexer, input CharStream, startIndex int) { + requiresSeek := false + stopIndex := input.Index() + + defer func() { + if requiresSeek { + input.Seek(stopIndex) + } + }() + + for i := 0; i < len(l.lexerActions); i++ { + lexerAction := l.lexerActions[i] + if la, ok := lexerAction.(*LexerIndexedCustomAction); ok { + offset := la.offset + input.Seek(startIndex + offset) + lexerAction = la.lexerAction + requiresSeek = (startIndex + offset) != stopIndex + } else if lexerAction.getIsPositionDependent() { + input.Seek(stopIndex) + requiresSeek = false + } + lexerAction.execute(lexer) + } +} + +func (l *LexerActionExecutor) hash() int { + if l == nil { + return 61 + } + return l.cachedHash +} + +func (l *LexerActionExecutor) equals(other interface{}) bool { + if l == other { + return true + } else if _, ok := other.(*LexerActionExecutor); !ok { + return false + } else { + return l.cachedHash == other.(*LexerActionExecutor).cachedHash && + &l.lexerActions == &other.(*LexerActionExecutor).lexerActions + } +} diff --git a/vendor/github.com/antlr/antlr4/runtime/Go/antlr/lexer_atn_simulator.go b/vendor/github.com/antlr/antlr4/runtime/Go/antlr/lexer_atn_simulator.go new file mode 100644 index 000000000..32d69e1b8 --- /dev/null +++ b/vendor/github.com/antlr/antlr4/runtime/Go/antlr/lexer_atn_simulator.go @@ -0,0 +1,658 @@ +// Copyright (c) 2012-2017 The ANTLR Project. All rights reserved. +// Use of this file is governed by the BSD 3-clause license that +// can be found in the LICENSE.txt file in the project root. + +package antlr + +import ( + "fmt" + "strconv" +) + +var ( + LexerATNSimulatorDebug = false + LexerATNSimulatorDFADebug = false + + LexerATNSimulatorMinDFAEdge = 0 + LexerATNSimulatorMaxDFAEdge = 127 // forces unicode to stay in ATN + + LexerATNSimulatorMatchCalls = 0 +) + +type ILexerATNSimulator interface { + IATNSimulator + + reset() + Match(input CharStream, mode int) int + GetCharPositionInLine() int + GetLine() int + GetText(input CharStream) string + Consume(input CharStream) +} + +type LexerATNSimulator struct { + *BaseATNSimulator + + recog Lexer + predictionMode int + mergeCache DoubleDict + startIndex int + Line int + CharPositionInLine int + mode int + prevAccept *SimState + MatchCalls int +} + +func NewLexerATNSimulator(recog Lexer, atn *ATN, decisionToDFA []*DFA, sharedContextCache *PredictionContextCache) *LexerATNSimulator { + l := new(LexerATNSimulator) + + l.BaseATNSimulator = NewBaseATNSimulator(atn, sharedContextCache) + + l.decisionToDFA = decisionToDFA + l.recog = recog + // The current token's starting index into the character stream. + // Shared across DFA to ATN simulation in case the ATN fails and the + // DFA did not have a previous accept state. In l case, we use the + // ATN-generated exception object. + l.startIndex = -1 + // line number 1..n within the input/// + l.Line = 1 + // The index of the character relative to the beginning of the line + // 0..n-1/// + l.CharPositionInLine = 0 + l.mode = LexerDefaultMode + // Used during DFA/ATN exec to record the most recent accept configuration + // info + l.prevAccept = NewSimState() + // done + return l +} + +func (l *LexerATNSimulator) copyState(simulator *LexerATNSimulator) { + l.CharPositionInLine = simulator.CharPositionInLine + l.Line = simulator.Line + l.mode = simulator.mode + l.startIndex = simulator.startIndex +} + +func (l *LexerATNSimulator) Match(input CharStream, mode int) int { + l.MatchCalls++ + l.mode = mode + mark := input.Mark() + + defer func() { + input.Release(mark) + }() + + l.startIndex = input.Index() + l.prevAccept.reset() + + dfa := l.decisionToDFA[mode] + + if dfa.getS0() == nil { + return l.MatchATN(input) + } + + return l.execATN(input, dfa.getS0()) +} + +func (l *LexerATNSimulator) reset() { + l.prevAccept.reset() + l.startIndex = -1 + l.Line = 1 + l.CharPositionInLine = 0 + l.mode = LexerDefaultMode +} + +func (l *LexerATNSimulator) MatchATN(input CharStream) int { + startState := l.atn.modeToStartState[l.mode] + + if LexerATNSimulatorDebug { + fmt.Println("MatchATN mode " + strconv.Itoa(l.mode) + " start: " + startState.String()) + } + oldMode := l.mode + s0Closure := l.computeStartState(input, startState) + suppressEdge := s0Closure.hasSemanticContext + s0Closure.hasSemanticContext = false + + next := l.addDFAState(s0Closure) + + if !suppressEdge { + l.decisionToDFA[l.mode].setS0(next) + } + + predict := l.execATN(input, next) + + if LexerATNSimulatorDebug { + fmt.Println("DFA after MatchATN: " + l.decisionToDFA[oldMode].ToLexerString()) + } + return predict +} + +func (l *LexerATNSimulator) execATN(input CharStream, ds0 *DFAState) int { + + if LexerATNSimulatorDebug { + fmt.Println("start state closure=" + ds0.configs.String()) + } + if ds0.isAcceptState { + // allow zero-length tokens + l.captureSimState(l.prevAccept, input, ds0) + } + t := input.LA(1) + s := ds0 // s is current/from DFA state + + for { // while more work + if LexerATNSimulatorDebug { + fmt.Println("execATN loop starting closure: " + s.configs.String()) + } + + // As we move src->trg, src->trg, we keep track of the previous trg to + // avoid looking up the DFA state again, which is expensive. + // If the previous target was already part of the DFA, we might + // be able to avoid doing a reach operation upon t. If s!=nil, + // it means that semantic predicates didn't prevent us from + // creating a DFA state. Once we know s!=nil, we check to see if + // the DFA state has an edge already for t. If so, we can just reuse + // it's configuration set there's no point in re-computing it. + // This is kind of like doing DFA simulation within the ATN + // simulation because DFA simulation is really just a way to avoid + // computing reach/closure sets. Technically, once we know that + // we have a previously added DFA state, we could jump over to + // the DFA simulator. But, that would mean popping back and forth + // a lot and making things more complicated algorithmically. + // This optimization makes a lot of sense for loops within DFA. + // A character will take us back to an existing DFA state + // that already has lots of edges out of it. e.g., .* in comments. + target := l.getExistingTargetState(s, t) + if target == nil { + target = l.computeTargetState(input, s, t) + // print("Computed:" + str(target)) + } + if target == ATNSimulatorError { + break + } + // If l is a consumable input element, make sure to consume before + // capturing the accept state so the input index, line, and char + // position accurately reflect the state of the interpreter at the + // end of the token. + if t != TokenEOF { + l.Consume(input) + } + if target.isAcceptState { + l.captureSimState(l.prevAccept, input, target) + if t == TokenEOF { + break + } + } + t = input.LA(1) + s = target // flip current DFA target becomes Newsrc/from state + } + + return l.failOrAccept(l.prevAccept, input, s.configs, t) +} + +// Get an existing target state for an edge in the DFA. If the target state +// for the edge has not yet been computed or is otherwise not available, +// l method returns {@code nil}. +// +// @param s The current DFA state +// @param t The next input symbol +// @return The existing target DFA state for the given input symbol +// {@code t}, or {@code nil} if the target state for l edge is not +// already cached +func (l *LexerATNSimulator) getExistingTargetState(s *DFAState, t int) *DFAState { + if s.getEdges() == nil || t < LexerATNSimulatorMinDFAEdge || t > LexerATNSimulatorMaxDFAEdge { + return nil + } + + target := s.getIthEdge(t-LexerATNSimulatorMinDFAEdge) + if LexerATNSimulatorDebug && target != nil { + fmt.Println("reuse state " + strconv.Itoa(s.stateNumber) + " edge to " + strconv.Itoa(target.stateNumber)) + } + return target +} + +// Compute a target state for an edge in the DFA, and attempt to add the +// computed state and corresponding edge to the DFA. +// +// @param input The input stream +// @param s The current DFA state +// @param t The next input symbol +// +// @return The computed target DFA state for the given input symbol +// {@code t}. If {@code t} does not lead to a valid DFA state, l method +// returns {@link //ERROR}. +func (l *LexerATNSimulator) computeTargetState(input CharStream, s *DFAState, t int) *DFAState { + reach := NewOrderedATNConfigSet() + + // if we don't find an existing DFA state + // Fill reach starting from closure, following t transitions + l.getReachableConfigSet(input, s.configs, reach.BaseATNConfigSet, t) + + if len(reach.configs) == 0 { // we got nowhere on t from s + if !reach.hasSemanticContext { + // we got nowhere on t, don't panic out l knowledge it'd + // cause a failover from DFA later. + l.addDFAEdge(s, t, ATNSimulatorError, nil) + } + // stop when we can't Match any more char + return ATNSimulatorError + } + // Add an edge from s to target DFA found/created for reach + return l.addDFAEdge(s, t, nil, reach.BaseATNConfigSet) +} + +func (l *LexerATNSimulator) failOrAccept(prevAccept *SimState, input CharStream, reach ATNConfigSet, t int) int { + if l.prevAccept.dfaState != nil { + lexerActionExecutor := prevAccept.dfaState.lexerActionExecutor + l.accept(input, lexerActionExecutor, l.startIndex, prevAccept.index, prevAccept.line, prevAccept.column) + return prevAccept.dfaState.prediction + } + + // if no accept and EOF is first char, return EOF + if t == TokenEOF && input.Index() == l.startIndex { + return TokenEOF + } + + panic(NewLexerNoViableAltException(l.recog, input, l.startIndex, reach)) +} + +// Given a starting configuration set, figure out all ATN configurations +// we can reach upon input {@code t}. Parameter {@code reach} is a return +// parameter. +func (l *LexerATNSimulator) getReachableConfigSet(input CharStream, closure ATNConfigSet, reach ATNConfigSet, t int) { + // l is used to Skip processing for configs which have a lower priority + // than a config that already reached an accept state for the same rule + SkipAlt := ATNInvalidAltNumber + + for _, cfg := range closure.GetItems() { + currentAltReachedAcceptState := (cfg.GetAlt() == SkipAlt) + if currentAltReachedAcceptState && cfg.(*LexerATNConfig).passedThroughNonGreedyDecision { + continue + } + + if LexerATNSimulatorDebug { + + fmt.Printf("testing %s at %s\n", l.GetTokenName(t), cfg.String()) // l.recog, true)) + } + + for _, trans := range cfg.GetState().GetTransitions() { + target := l.getReachableTarget(trans, t) + if target != nil { + lexerActionExecutor := cfg.(*LexerATNConfig).lexerActionExecutor + if lexerActionExecutor != nil { + lexerActionExecutor = lexerActionExecutor.fixOffsetBeforeMatch(input.Index() - l.startIndex) + } + treatEOFAsEpsilon := (t == TokenEOF) + config := NewLexerATNConfig3(cfg.(*LexerATNConfig), target, lexerActionExecutor) + if l.closure(input, config, reach, + currentAltReachedAcceptState, true, treatEOFAsEpsilon) { + // any remaining configs for l alt have a lower priority + // than the one that just reached an accept state. + SkipAlt = cfg.GetAlt() + } + } + } + } +} + +func (l *LexerATNSimulator) accept(input CharStream, lexerActionExecutor *LexerActionExecutor, startIndex, index, line, charPos int) { + if LexerATNSimulatorDebug { + fmt.Printf("ACTION %s\n", lexerActionExecutor) + } + // seek to after last char in token + input.Seek(index) + l.Line = line + l.CharPositionInLine = charPos + if lexerActionExecutor != nil && l.recog != nil { + lexerActionExecutor.execute(l.recog, input, startIndex) + } +} + +func (l *LexerATNSimulator) getReachableTarget(trans Transition, t int) ATNState { + if trans.Matches(t, 0, LexerMaxCharValue) { + return trans.getTarget() + } + + return nil +} + +func (l *LexerATNSimulator) computeStartState(input CharStream, p ATNState) *OrderedATNConfigSet { + configs := NewOrderedATNConfigSet() + for i := 0; i < len(p.GetTransitions()); i++ { + target := p.GetTransitions()[i].getTarget() + cfg := NewLexerATNConfig6(target, i+1, BasePredictionContextEMPTY) + l.closure(input, cfg, configs, false, false, false) + } + + return configs +} + +// Since the alternatives within any lexer decision are ordered by +// preference, l method stops pursuing the closure as soon as an accept +// state is reached. After the first accept state is reached by depth-first +// search from {@code config}, all other (potentially reachable) states for +// l rule would have a lower priority. +// +// @return {@code true} if an accept state is reached, otherwise +// {@code false}. +func (l *LexerATNSimulator) closure(input CharStream, config *LexerATNConfig, configs ATNConfigSet, + currentAltReachedAcceptState, speculative, treatEOFAsEpsilon bool) bool { + + if LexerATNSimulatorDebug { + fmt.Println("closure(" + config.String() + ")") // config.String(l.recog, true) + ")") + } + + _, ok := config.state.(*RuleStopState) + if ok { + + if LexerATNSimulatorDebug { + if l.recog != nil { + fmt.Printf("closure at %s rule stop %s\n", l.recog.GetRuleNames()[config.state.GetRuleIndex()], config) + } else { + fmt.Printf("closure at rule stop %s\n", config) + } + } + + if config.context == nil || config.context.hasEmptyPath() { + if config.context == nil || config.context.isEmpty() { + configs.Add(config, nil) + return true + } + + configs.Add(NewLexerATNConfig2(config, config.state, BasePredictionContextEMPTY), nil) + currentAltReachedAcceptState = true + } + if config.context != nil && !config.context.isEmpty() { + for i := 0; i < config.context.length(); i++ { + if config.context.getReturnState(i) != BasePredictionContextEmptyReturnState { + newContext := config.context.GetParent(i) // "pop" return state + returnState := l.atn.states[config.context.getReturnState(i)] + cfg := NewLexerATNConfig2(config, returnState, newContext) + currentAltReachedAcceptState = l.closure(input, cfg, configs, currentAltReachedAcceptState, speculative, treatEOFAsEpsilon) + } + } + } + return currentAltReachedAcceptState + } + // optimization + if !config.state.GetEpsilonOnlyTransitions() { + if !currentAltReachedAcceptState || !config.passedThroughNonGreedyDecision { + configs.Add(config, nil) + } + } + for j := 0; j < len(config.state.GetTransitions()); j++ { + trans := config.state.GetTransitions()[j] + cfg := l.getEpsilonTarget(input, config, trans, configs, speculative, treatEOFAsEpsilon) + if cfg != nil { + currentAltReachedAcceptState = l.closure(input, cfg, configs, + currentAltReachedAcceptState, speculative, treatEOFAsEpsilon) + } + } + return currentAltReachedAcceptState +} + +// side-effect: can alter configs.hasSemanticContext +func (l *LexerATNSimulator) getEpsilonTarget(input CharStream, config *LexerATNConfig, trans Transition, + configs ATNConfigSet, speculative, treatEOFAsEpsilon bool) *LexerATNConfig { + + var cfg *LexerATNConfig + + if trans.getSerializationType() == TransitionRULE { + + rt := trans.(*RuleTransition) + newContext := SingletonBasePredictionContextCreate(config.context, rt.followState.GetStateNumber()) + cfg = NewLexerATNConfig2(config, trans.getTarget(), newContext) + + } else if trans.getSerializationType() == TransitionPRECEDENCE { + panic("Precedence predicates are not supported in lexers.") + } else if trans.getSerializationType() == TransitionPREDICATE { + // Track traversing semantic predicates. If we traverse, + // we cannot add a DFA state for l "reach" computation + // because the DFA would not test the predicate again in the + // future. Rather than creating collections of semantic predicates + // like v3 and testing them on prediction, v4 will test them on the + // fly all the time using the ATN not the DFA. This is slower but + // semantically it's not used that often. One of the key elements to + // l predicate mechanism is not adding DFA states that see + // predicates immediately afterwards in the ATN. For example, + + // a : ID {p1}? | ID {p2}? + + // should create the start state for rule 'a' (to save start state + // competition), but should not create target of ID state. The + // collection of ATN states the following ID references includes + // states reached by traversing predicates. Since l is when we + // test them, we cannot cash the DFA state target of ID. + + pt := trans.(*PredicateTransition) + + if LexerATNSimulatorDebug { + fmt.Println("EVAL rule " + strconv.Itoa(trans.(*PredicateTransition).ruleIndex) + ":" + strconv.Itoa(pt.predIndex)) + } + configs.SetHasSemanticContext(true) + if l.evaluatePredicate(input, pt.ruleIndex, pt.predIndex, speculative) { + cfg = NewLexerATNConfig4(config, trans.getTarget()) + } + } else if trans.getSerializationType() == TransitionACTION { + if config.context == nil || config.context.hasEmptyPath() { + // execute actions anywhere in the start rule for a token. + // + // TODO: if the entry rule is invoked recursively, some + // actions may be executed during the recursive call. The + // problem can appear when hasEmptyPath() is true but + // isEmpty() is false. In l case, the config needs to be + // split into two contexts - one with just the empty path + // and another with everything but the empty path. + // Unfortunately, the current algorithm does not allow + // getEpsilonTarget to return two configurations, so + // additional modifications are needed before we can support + // the split operation. + lexerActionExecutor := LexerActionExecutorappend(config.lexerActionExecutor, l.atn.lexerActions[trans.(*ActionTransition).actionIndex]) + cfg = NewLexerATNConfig3(config, trans.getTarget(), lexerActionExecutor) + } else { + // ignore actions in referenced rules + cfg = NewLexerATNConfig4(config, trans.getTarget()) + } + } else if trans.getSerializationType() == TransitionEPSILON { + cfg = NewLexerATNConfig4(config, trans.getTarget()) + } else if trans.getSerializationType() == TransitionATOM || + trans.getSerializationType() == TransitionRANGE || + trans.getSerializationType() == TransitionSET { + if treatEOFAsEpsilon { + if trans.Matches(TokenEOF, 0, LexerMaxCharValue) { + cfg = NewLexerATNConfig4(config, trans.getTarget()) + } + } + } + return cfg +} + +// Evaluate a predicate specified in the lexer. +// +//

If {@code speculative} is {@code true}, l method was called before +// {@link //consume} for the Matched character. This method should call +// {@link //consume} before evaluating the predicate to ensure position +// sensitive values, including {@link Lexer//GetText}, {@link Lexer//GetLine}, +// and {@link Lexer//getcolumn}, properly reflect the current +// lexer state. This method should restore {@code input} and the simulator +// to the original state before returning (i.e. undo the actions made by the +// call to {@link //consume}.

+// +// @param input The input stream. +// @param ruleIndex The rule containing the predicate. +// @param predIndex The index of the predicate within the rule. +// @param speculative {@code true} if the current index in {@code input} is +// one character before the predicate's location. +// +// @return {@code true} if the specified predicate evaluates to +// {@code true}. +// / +func (l *LexerATNSimulator) evaluatePredicate(input CharStream, ruleIndex, predIndex int, speculative bool) bool { + // assume true if no recognizer was provided + if l.recog == nil { + return true + } + if !speculative { + return l.recog.Sempred(nil, ruleIndex, predIndex) + } + savedcolumn := l.CharPositionInLine + savedLine := l.Line + index := input.Index() + marker := input.Mark() + + defer func() { + l.CharPositionInLine = savedcolumn + l.Line = savedLine + input.Seek(index) + input.Release(marker) + }() + + l.Consume(input) + return l.recog.Sempred(nil, ruleIndex, predIndex) +} + +func (l *LexerATNSimulator) captureSimState(settings *SimState, input CharStream, dfaState *DFAState) { + settings.index = input.Index() + settings.line = l.Line + settings.column = l.CharPositionInLine + settings.dfaState = dfaState +} + +func (l *LexerATNSimulator) addDFAEdge(from *DFAState, tk int, to *DFAState, cfgs ATNConfigSet) *DFAState { + if to == nil && cfgs != nil { + // leading to l call, ATNConfigSet.hasSemanticContext is used as a + // marker indicating dynamic predicate evaluation makes l edge + // dependent on the specific input sequence, so the static edge in the + // DFA should be omitted. The target DFAState is still created since + // execATN has the ability to reSynchronize with the DFA state cache + // following the predicate evaluation step. + // + // TJP notes: next time through the DFA, we see a pred again and eval. + // If that gets us to a previously created (but dangling) DFA + // state, we can continue in pure DFA mode from there. + // / + suppressEdge := cfgs.HasSemanticContext() + cfgs.SetHasSemanticContext(false) + + to = l.addDFAState(cfgs) + + if suppressEdge { + return to + } + } + // add the edge + if tk < LexerATNSimulatorMinDFAEdge || tk > LexerATNSimulatorMaxDFAEdge { + // Only track edges within the DFA bounds + return to + } + if LexerATNSimulatorDebug { + fmt.Println("EDGE " + from.String() + " -> " + to.String() + " upon " + strconv.Itoa(tk)) + } + if from.getEdges() == nil { + // make room for tokens 1..n and -1 masquerading as index 0 + from.setEdges(make([]*DFAState, LexerATNSimulatorMaxDFAEdge-LexerATNSimulatorMinDFAEdge+1)) + } + from.setIthEdge(tk-LexerATNSimulatorMinDFAEdge, to) // connect + + return to +} + +// Add a NewDFA state if there isn't one with l set of +// configurations already. This method also detects the first +// configuration containing an ATN rule stop state. Later, when +// traversing the DFA, we will know which rule to accept. +func (l *LexerATNSimulator) addDFAState(configs ATNConfigSet) *DFAState { + + proposed := NewDFAState(-1, configs) + var firstConfigWithRuleStopState ATNConfig + + for _, cfg := range configs.GetItems() { + + _, ok := cfg.GetState().(*RuleStopState) + + if ok { + firstConfigWithRuleStopState = cfg + break + } + } + if firstConfigWithRuleStopState != nil { + proposed.isAcceptState = true + proposed.lexerActionExecutor = firstConfigWithRuleStopState.(*LexerATNConfig).lexerActionExecutor + proposed.setPrediction(l.atn.ruleToTokenType[firstConfigWithRuleStopState.GetState().GetRuleIndex()]) + } + hash := proposed.hash() + dfa := l.decisionToDFA[l.mode] + existing, ok := dfa.getState(hash) + if ok { + return existing + } + newState := proposed + newState.stateNumber = dfa.numStates() + configs.SetReadOnly(true) + newState.configs = configs + dfa.setState(hash, newState) + return newState +} + +func (l *LexerATNSimulator) getDFA(mode int) *DFA { + return l.decisionToDFA[mode] +} + +// Get the text Matched so far for the current token. +func (l *LexerATNSimulator) GetText(input CharStream) string { + // index is first lookahead char, don't include. + return input.GetTextFromInterval(NewInterval(l.startIndex, input.Index()-1)) +} + +func (l *LexerATNSimulator) Consume(input CharStream) { + curChar := input.LA(1) + if curChar == int('\n') { + l.Line++ + l.CharPositionInLine = 0 + } else { + l.CharPositionInLine++ + } + input.Consume() +} + +func (l *LexerATNSimulator) GetCharPositionInLine() int { + return l.CharPositionInLine +} + +func (l *LexerATNSimulator) GetLine() int { + return l.Line +} + +func (l *LexerATNSimulator) GetTokenName(tt int) string { + if tt == -1 { + return "EOF" + } + + return "'" + string(tt) + "'" +} + +func resetSimState(sim *SimState) { + sim.index = -1 + sim.line = 0 + sim.column = -1 + sim.dfaState = nil +} + +type SimState struct { + index int + line int + column int + dfaState *DFAState +} + +func NewSimState() *SimState { + s := new(SimState) + resetSimState(s) + return s +} + +func (s *SimState) reset() { + resetSimState(s) +} diff --git a/vendor/github.com/antlr/antlr4/runtime/Go/antlr/ll1_analyzer.go b/vendor/github.com/antlr/antlr4/runtime/Go/antlr/ll1_analyzer.go new file mode 100644 index 000000000..3ebc40a76 --- /dev/null +++ b/vendor/github.com/antlr/antlr4/runtime/Go/antlr/ll1_analyzer.go @@ -0,0 +1,212 @@ +// Copyright (c) 2012-2017 The ANTLR Project. All rights reserved. +// Use of this file is governed by the BSD 3-clause license that +// can be found in the LICENSE.txt file in the project root. + +package antlr + +type LL1Analyzer struct { + atn *ATN +} + +func NewLL1Analyzer(atn *ATN) *LL1Analyzer { + la := new(LL1Analyzer) + la.atn = atn + return la +} + +//* Special value added to the lookahead sets to indicate that we hit +// a predicate during analysis if {@code seeThruPreds==false}. +/// +const ( + LL1AnalyzerHitPred = TokenInvalidType +) + +//* +// Calculates the SLL(1) expected lookahead set for each outgoing transition +// of an {@link ATNState}. The returned array has one element for each +// outgoing transition in {@code s}. If the closure from transition +// i leads to a semantic predicate before Matching a symbol, the +// element at index i of the result will be {@code nil}. +// +// @param s the ATN state +// @return the expected symbols for each outgoing transition of {@code s}. +func (la *LL1Analyzer) getDecisionLookahead(s ATNState) []*IntervalSet { + if s == nil { + return nil + } + count := len(s.GetTransitions()) + look := make([]*IntervalSet, count) + for alt := 0; alt < count; alt++ { + look[alt] = NewIntervalSet() + lookBusy := NewSet(nil, nil) + seeThruPreds := false // fail to get lookahead upon pred + la.look1(s.GetTransitions()[alt].getTarget(), nil, BasePredictionContextEMPTY, look[alt], lookBusy, NewBitSet(), seeThruPreds, false) + // Wipe out lookahead for la alternative if we found nothing + // or we had a predicate when we !seeThruPreds + if look[alt].length() == 0 || look[alt].contains(LL1AnalyzerHitPred) { + look[alt] = nil + } + } + return look +} + +//* +// Compute set of tokens that can follow {@code s} in the ATN in the +// specified {@code ctx}. +// +//

If {@code ctx} is {@code nil} and the end of the rule containing +// {@code s} is reached, {@link Token//EPSILON} is added to the result set. +// If {@code ctx} is not {@code nil} and the end of the outermost rule is +// reached, {@link Token//EOF} is added to the result set.

+// +// @param s the ATN state +// @param stopState the ATN state to stop at. This can be a +// {@link BlockEndState} to detect epsilon paths through a closure. +// @param ctx the complete parser context, or {@code nil} if the context +// should be ignored +// +// @return The set of tokens that can follow {@code s} in the ATN in the +// specified {@code ctx}. +/// +func (la *LL1Analyzer) Look(s, stopState ATNState, ctx RuleContext) *IntervalSet { + r := NewIntervalSet() + seeThruPreds := true // ignore preds get all lookahead + var lookContext PredictionContext + if ctx != nil { + lookContext = predictionContextFromRuleContext(s.GetATN(), ctx) + } + la.look1(s, stopState, lookContext, r, NewSet(nil, nil), NewBitSet(), seeThruPreds, true) + return r +} + +//* +// Compute set of tokens that can follow {@code s} in the ATN in the +// specified {@code ctx}. +// +//

If {@code ctx} is {@code nil} and {@code stopState} or the end of the +// rule containing {@code s} is reached, {@link Token//EPSILON} is added to +// the result set. If {@code ctx} is not {@code nil} and {@code addEOF} is +// {@code true} and {@code stopState} or the end of the outermost rule is +// reached, {@link Token//EOF} is added to the result set.

+// +// @param s the ATN state. +// @param stopState the ATN state to stop at. This can be a +// {@link BlockEndState} to detect epsilon paths through a closure. +// @param ctx The outer context, or {@code nil} if the outer context should +// not be used. +// @param look The result lookahead set. +// @param lookBusy A set used for preventing epsilon closures in the ATN +// from causing a stack overflow. Outside code should pass +// {@code NewSet} for la argument. +// @param calledRuleStack A set used for preventing left recursion in the +// ATN from causing a stack overflow. Outside code should pass +// {@code NewBitSet()} for la argument. +// @param seeThruPreds {@code true} to true semantic predicates as +// implicitly {@code true} and "see through them", otherwise {@code false} +// to treat semantic predicates as opaque and add {@link //HitPred} to the +// result if one is encountered. +// @param addEOF Add {@link Token//EOF} to the result if the end of the +// outermost context is reached. This parameter has no effect if {@code ctx} +// is {@code nil}. + +func (la *LL1Analyzer) look2(s, stopState ATNState, ctx PredictionContext, look *IntervalSet, lookBusy *Set, calledRuleStack *BitSet, seeThruPreds, addEOF bool, i int) { + + returnState := la.atn.states[ctx.getReturnState(i)] + la.look1(returnState, stopState, ctx.GetParent(i), look, lookBusy, calledRuleStack, seeThruPreds, addEOF) + +} + +func (la *LL1Analyzer) look1(s, stopState ATNState, ctx PredictionContext, look *IntervalSet, lookBusy *Set, calledRuleStack *BitSet, seeThruPreds, addEOF bool) { + + c := NewBaseATNConfig6(s, 0, ctx) + + if lookBusy.contains(c) { + return + } + + lookBusy.add(c) + + if s == stopState { + if ctx == nil { + look.addOne(TokenEpsilon) + return + } else if ctx.isEmpty() && addEOF { + look.addOne(TokenEOF) + return + } + } + + _, ok := s.(*RuleStopState) + + if ok { + if ctx == nil { + look.addOne(TokenEpsilon) + return + } else if ctx.isEmpty() && addEOF { + look.addOne(TokenEOF) + return + } + + if ctx != BasePredictionContextEMPTY { + removed := calledRuleStack.contains(s.GetRuleIndex()) + defer func() { + if removed { + calledRuleStack.add(s.GetRuleIndex()) + } + }() + calledRuleStack.remove(s.GetRuleIndex()) + // run thru all possible stack tops in ctx + for i := 0; i < ctx.length(); i++ { + returnState := la.atn.states[ctx.getReturnState(i)] + la.look2(returnState, stopState, ctx, look, lookBusy, calledRuleStack, seeThruPreds, addEOF, i) + } + return + } + } + + n := len(s.GetTransitions()) + + for i := 0; i < n; i++ { + t := s.GetTransitions()[i] + + if t1, ok := t.(*RuleTransition); ok { + if calledRuleStack.contains(t1.getTarget().GetRuleIndex()) { + continue + } + + newContext := SingletonBasePredictionContextCreate(ctx, t1.followState.GetStateNumber()) + la.look3(stopState, newContext, look, lookBusy, calledRuleStack, seeThruPreds, addEOF, t1) + } else if t2, ok := t.(AbstractPredicateTransition); ok { + if seeThruPreds { + la.look1(t2.getTarget(), stopState, ctx, look, lookBusy, calledRuleStack, seeThruPreds, addEOF) + } else { + look.addOne(LL1AnalyzerHitPred) + } + } else if t.getIsEpsilon() { + la.look1(t.getTarget(), stopState, ctx, look, lookBusy, calledRuleStack, seeThruPreds, addEOF) + } else if _, ok := t.(*WildcardTransition); ok { + look.addRange(TokenMinUserTokenType, la.atn.maxTokenType) + } else { + set := t.getLabel() + if set != nil { + if _, ok := t.(*NotSetTransition); ok { + set = set.complement(TokenMinUserTokenType, la.atn.maxTokenType) + } + look.addSet(set) + } + } + } +} + +func (la *LL1Analyzer) look3(stopState ATNState, ctx PredictionContext, look *IntervalSet, lookBusy *Set, calledRuleStack *BitSet, seeThruPreds, addEOF bool, t1 *RuleTransition) { + + newContext := SingletonBasePredictionContextCreate(ctx, t1.followState.GetStateNumber()) + + defer func() { + calledRuleStack.remove(t1.getTarget().GetRuleIndex()) + }() + + calledRuleStack.add(t1.getTarget().GetRuleIndex()) + la.look1(t1.getTarget(), stopState, newContext, look, lookBusy, calledRuleStack, seeThruPreds, addEOF) + +} diff --git a/vendor/github.com/antlr/antlr4/runtime/Go/antlr/parser.go b/vendor/github.com/antlr/antlr4/runtime/Go/antlr/parser.go new file mode 100644 index 000000000..fb60258e3 --- /dev/null +++ b/vendor/github.com/antlr/antlr4/runtime/Go/antlr/parser.go @@ -0,0 +1,718 @@ +// Copyright (c) 2012-2017 The ANTLR Project. All rights reserved. +// Use of this file is governed by the BSD 3-clause license that +// can be found in the LICENSE.txt file in the project root. + +package antlr + +import ( + "fmt" + "strconv" +) + +type Parser interface { + Recognizer + + GetInterpreter() *ParserATNSimulator + + GetTokenStream() TokenStream + GetTokenFactory() TokenFactory + GetParserRuleContext() ParserRuleContext + SetParserRuleContext(ParserRuleContext) + Consume() Token + GetParseListeners() []ParseTreeListener + + GetErrorHandler() ErrorStrategy + SetErrorHandler(ErrorStrategy) + GetInputStream() IntStream + GetCurrentToken() Token + GetExpectedTokens() *IntervalSet + NotifyErrorListeners(string, Token, RecognitionException) + IsExpectedToken(int) bool + GetPrecedence() int + GetRuleInvocationStack(ParserRuleContext) []string +} + +type BaseParser struct { + *BaseRecognizer + + Interpreter *ParserATNSimulator + BuildParseTrees bool + + input TokenStream + errHandler ErrorStrategy + precedenceStack IntStack + ctx ParserRuleContext + + tracer *TraceListener + parseListeners []ParseTreeListener + _SyntaxErrors int +} + +// p.is all the parsing support code essentially most of it is error +// recovery stuff.// +func NewBaseParser(input TokenStream) *BaseParser { + + p := new(BaseParser) + + p.BaseRecognizer = NewBaseRecognizer() + + // The input stream. + p.input = nil + // The error handling strategy for the parser. The default value is a new + // instance of {@link DefaultErrorStrategy}. + p.errHandler = NewDefaultErrorStrategy() + p.precedenceStack = make([]int, 0) + p.precedenceStack.Push(0) + // The {@link ParserRuleContext} object for the currently executing rule. + // p.is always non-nil during the parsing process. + p.ctx = nil + // Specifies whether or not the parser should construct a parse tree during + // the parsing process. The default value is {@code true}. + p.BuildParseTrees = true + // When {@link //setTrace}{@code (true)} is called, a reference to the + // {@link TraceListener} is stored here so it can be easily removed in a + // later call to {@link //setTrace}{@code (false)}. The listener itself is + // implemented as a parser listener so p.field is not directly used by + // other parser methods. + p.tracer = nil + // The list of {@link ParseTreeListener} listeners registered to receive + // events during the parse. + p.parseListeners = nil + // The number of syntax errors Reported during parsing. p.value is + // incremented each time {@link //NotifyErrorListeners} is called. + p._SyntaxErrors = 0 + p.SetInputStream(input) + + return p +} + +// p.field maps from the serialized ATN string to the deserialized {@link +// ATN} with +// bypass alternatives. +// +// @see ATNDeserializationOptions//isGenerateRuleBypassTransitions() +// +var bypassAltsAtnCache = make(map[string]int) + +// reset the parser's state// +func (p *BaseParser) reset() { + if p.input != nil { + p.input.Seek(0) + } + p.errHandler.reset(p) + p.ctx = nil + p._SyntaxErrors = 0 + p.SetTrace(nil) + p.precedenceStack = make([]int, 0) + p.precedenceStack.Push(0) + if p.Interpreter != nil { + p.Interpreter.reset() + } +} + +func (p *BaseParser) GetErrorHandler() ErrorStrategy { + return p.errHandler +} + +func (p *BaseParser) SetErrorHandler(e ErrorStrategy) { + p.errHandler = e +} + +// Match current input symbol against {@code ttype}. If the symbol type +// Matches, {@link ANTLRErrorStrategy//ReportMatch} and {@link //consume} are +// called to complete the Match process. +// +//

If the symbol type does not Match, +// {@link ANTLRErrorStrategy//recoverInline} is called on the current error +// strategy to attempt recovery. If {@link //getBuildParseTree} is +// {@code true} and the token index of the symbol returned by +// {@link ANTLRErrorStrategy//recoverInline} is -1, the symbol is added to +// the parse tree by calling {@link ParserRuleContext//addErrorNode}.

+// +// @param ttype the token type to Match +// @return the Matched symbol +// @panics RecognitionException if the current input symbol did not Match +// {@code ttype} and the error strategy could not recover from the +// mismatched symbol + +func (p *BaseParser) Match(ttype int) Token { + + t := p.GetCurrentToken() + + if t.GetTokenType() == ttype { + p.errHandler.ReportMatch(p) + p.Consume() + } else { + t = p.errHandler.RecoverInline(p) + if p.BuildParseTrees && t.GetTokenIndex() == -1 { + // we must have conjured up a Newtoken during single token + // insertion + // if it's not the current symbol + p.ctx.AddErrorNode(t) + } + } + + return t +} + +// Match current input symbol as a wildcard. If the symbol type Matches +// (i.e. has a value greater than 0), {@link ANTLRErrorStrategy//ReportMatch} +// and {@link //consume} are called to complete the Match process. +// +//

If the symbol type does not Match, +// {@link ANTLRErrorStrategy//recoverInline} is called on the current error +// strategy to attempt recovery. If {@link //getBuildParseTree} is +// {@code true} and the token index of the symbol returned by +// {@link ANTLRErrorStrategy//recoverInline} is -1, the symbol is added to +// the parse tree by calling {@link ParserRuleContext//addErrorNode}.

+// +// @return the Matched symbol +// @panics RecognitionException if the current input symbol did not Match +// a wildcard and the error strategy could not recover from the mismatched +// symbol + +func (p *BaseParser) MatchWildcard() Token { + t := p.GetCurrentToken() + if t.GetTokenType() > 0 { + p.errHandler.ReportMatch(p) + p.Consume() + } else { + t = p.errHandler.RecoverInline(p) + if p.BuildParseTrees && t.GetTokenIndex() == -1 { + // we must have conjured up a Newtoken during single token + // insertion + // if it's not the current symbol + p.ctx.AddErrorNode(t) + } + } + return t +} + +func (p *BaseParser) GetParserRuleContext() ParserRuleContext { + return p.ctx +} + +func (p *BaseParser) SetParserRuleContext(v ParserRuleContext) { + p.ctx = v +} + +func (p *BaseParser) GetParseListeners() []ParseTreeListener { + if p.parseListeners == nil { + return make([]ParseTreeListener, 0) + } + return p.parseListeners +} + +// Registers {@code listener} to receive events during the parsing process. +// +//

To support output-preserving grammar transformations (including but not +// limited to left-recursion removal, automated left-factoring, and +// optimized code generation), calls to listener methods during the parse +// may differ substantially from calls made by +// {@link ParseTreeWalker//DEFAULT} used after the parse is complete. In +// particular, rule entry and exit events may occur in a different order +// during the parse than after the parser. In addition, calls to certain +// rule entry methods may be omitted.

+// +//

With the following specific exceptions, calls to listener events are +// deterministic, i.e. for identical input the calls to listener +// methods will be the same.

+// +//
    +//
  • Alterations to the grammar used to generate code may change the +// behavior of the listener calls.
    • +//
  • Alterations to the command line options passed to ANTLR 4 when +// generating the parser may change the behavior of the listener calls.
    • +//
  • Changing the version of the ANTLR Tool used to generate the parser +// may change the behavior of the listener calls.
    • +//
+// +// @param listener the listener to add +// +// @panics nilPointerException if {@code} listener is {@code nil} +// +func (p *BaseParser) AddParseListener(listener ParseTreeListener) { + if listener == nil { + panic("listener") + } + if p.parseListeners == nil { + p.parseListeners = make([]ParseTreeListener, 0) + } + p.parseListeners = append(p.parseListeners, listener) +} + +// +// Remove {@code listener} from the list of parse listeners. +// +//

If {@code listener} is {@code nil} or has not been added as a parse +// listener, p.method does nothing.

+// @param listener the listener to remove +// +func (p *BaseParser) RemoveParseListener(listener ParseTreeListener) { + + if p.parseListeners != nil { + + idx := -1 + for i, v := range p.parseListeners { + if v == listener { + idx = i + break + } + } + + if idx == -1 { + return + } + + // remove the listener from the slice + p.parseListeners = append(p.parseListeners[0:idx], p.parseListeners[idx+1:]...) + + if len(p.parseListeners) == 0 { + p.parseListeners = nil + } + } +} + +// Remove all parse listeners. +func (p *BaseParser) removeParseListeners() { + p.parseListeners = nil +} + +// Notify any parse listeners of an enter rule event. +func (p *BaseParser) TriggerEnterRuleEvent() { + if p.parseListeners != nil { + ctx := p.ctx + for _, listener := range p.parseListeners { + listener.EnterEveryRule(ctx) + ctx.EnterRule(listener) + } + } +} + +// +// Notify any parse listeners of an exit rule event. +// +// @see //addParseListener +// +func (p *BaseParser) TriggerExitRuleEvent() { + if p.parseListeners != nil { + // reverse order walk of listeners + ctx := p.ctx + l := len(p.parseListeners) - 1 + + for i := range p.parseListeners { + listener := p.parseListeners[l-i] + ctx.ExitRule(listener) + listener.ExitEveryRule(ctx) + } + } +} + +func (p *BaseParser) GetInterpreter() *ParserATNSimulator { + return p.Interpreter +} + +func (p *BaseParser) GetATN() *ATN { + return p.Interpreter.atn +} + +func (p *BaseParser) GetTokenFactory() TokenFactory { + return p.input.GetTokenSource().GetTokenFactory() +} + +// Tell our token source and error strategy about a Newway to create tokens.// +func (p *BaseParser) setTokenFactory(factory TokenFactory) { + p.input.GetTokenSource().setTokenFactory(factory) +} + +// The ATN with bypass alternatives is expensive to create so we create it +// lazily. +// +// @panics UnsupportedOperationException if the current parser does not +// implement the {@link //getSerializedATN()} method. +// +func (p *BaseParser) GetATNWithBypassAlts() { + + // TODO + panic("Not implemented!") + + // serializedAtn := p.getSerializedATN() + // if (serializedAtn == nil) { + // panic("The current parser does not support an ATN with bypass alternatives.") + // } + // result := p.bypassAltsAtnCache[serializedAtn] + // if (result == nil) { + // deserializationOptions := NewATNDeserializationOptions(nil) + // deserializationOptions.generateRuleBypassTransitions = true + // result = NewATNDeserializer(deserializationOptions).deserialize(serializedAtn) + // p.bypassAltsAtnCache[serializedAtn] = result + // } + // return result +} + +// The preferred method of getting a tree pattern. For example, here's a +// sample use: +// +// 
+// ParseTree t = parser.expr()
+// ParseTreePattern p = parser.compileParseTreePattern("<ID>+0",
+// MyParser.RULE_expr)
+// ParseTreeMatch m = p.Match(t)
+// String id = m.Get("ID")
+//
+ +func (p *BaseParser) compileParseTreePattern(pattern, patternRuleIndex, lexer Lexer) { + + panic("NewParseTreePatternMatcher not implemented!") + // + // if (lexer == nil) { + // if (p.GetTokenStream() != nil) { + // tokenSource := p.GetTokenStream().GetTokenSource() + // if _, ok := tokenSource.(ILexer); ok { + // lexer = tokenSource + // } + // } + // } + // if (lexer == nil) { + // panic("Parser can't discover a lexer to use") + // } + + // m := NewParseTreePatternMatcher(lexer, p) + // return m.compile(pattern, patternRuleIndex) +} + +func (p *BaseParser) GetInputStream() IntStream { + return p.GetTokenStream() +} + +func (p *BaseParser) SetInputStream(input TokenStream) { + p.SetTokenStream(input) +} + +func (p *BaseParser) GetTokenStream() TokenStream { + return p.input +} + +// Set the token stream and reset the parser.// +func (p *BaseParser) SetTokenStream(input TokenStream) { + p.input = nil + p.reset() + p.input = input +} + +// Match needs to return the current input symbol, which gets put +// into the label for the associated token ref e.g., x=ID. +// +func (p *BaseParser) GetCurrentToken() Token { + return p.input.LT(1) +} + +func (p *BaseParser) NotifyErrorListeners(msg string, offendingToken Token, err RecognitionException) { + if offendingToken == nil { + offendingToken = p.GetCurrentToken() + } + p._SyntaxErrors++ + line := offendingToken.GetLine() + column := offendingToken.GetColumn() + listener := p.GetErrorListenerDispatch() + listener.SyntaxError(p, offendingToken, line, column, msg, err) +} + +func (p *BaseParser) Consume() Token { + o := p.GetCurrentToken() + if o.GetTokenType() != TokenEOF { + p.GetInputStream().Consume() + } + hasListener := p.parseListeners != nil && len(p.parseListeners) > 0 + if p.BuildParseTrees || hasListener { + if p.errHandler.inErrorRecoveryMode(p) { + node := p.ctx.AddErrorNode(o) + if p.parseListeners != nil { + for _, l := range p.parseListeners { + l.VisitErrorNode(node) + } + } + + } else { + node := p.ctx.AddTokenNode(o) + if p.parseListeners != nil { + for _, l := range p.parseListeners { + l.VisitTerminal(node) + } + } + } + // node.invokingState = p.state + } + + return o +} + +func (p *BaseParser) addContextToParseTree() { + // add current context to parent if we have a parent + if p.ctx.GetParent() != nil { + p.ctx.GetParent().(ParserRuleContext).AddChild(p.ctx) + } +} + +func (p *BaseParser) EnterRule(localctx ParserRuleContext, state, ruleIndex int) { + p.SetState(state) + p.ctx = localctx + p.ctx.SetStart(p.input.LT(1)) + if p.BuildParseTrees { + p.addContextToParseTree() + } + if p.parseListeners != nil { + p.TriggerEnterRuleEvent() + } +} + +func (p *BaseParser) ExitRule() { + p.ctx.SetStop(p.input.LT(-1)) + // trigger event on ctx, before it reverts to parent + if p.parseListeners != nil { + p.TriggerExitRuleEvent() + } + p.SetState(p.ctx.GetInvokingState()) + if p.ctx.GetParent() != nil { + p.ctx = p.ctx.GetParent().(ParserRuleContext) + } else { + p.ctx = nil + } +} + +func (p *BaseParser) EnterOuterAlt(localctx ParserRuleContext, altNum int) { + localctx.SetAltNumber(altNum) + // if we have Newlocalctx, make sure we replace existing ctx + // that is previous child of parse tree + if p.BuildParseTrees && p.ctx != localctx { + if p.ctx.GetParent() != nil { + p.ctx.GetParent().(ParserRuleContext).RemoveLastChild() + p.ctx.GetParent().(ParserRuleContext).AddChild(localctx) + } + } + p.ctx = localctx +} + +// Get the precedence level for the top-most precedence rule. +// +// @return The precedence level for the top-most precedence rule, or -1 if +// the parser context is not nested within a precedence rule. + +func (p *BaseParser) GetPrecedence() int { + if len(p.precedenceStack) == 0 { + return -1 + } + + return p.precedenceStack[len(p.precedenceStack)-1] +} + +func (p *BaseParser) EnterRecursionRule(localctx ParserRuleContext, state, ruleIndex, precedence int) { + p.SetState(state) + p.precedenceStack.Push(precedence) + p.ctx = localctx + p.ctx.SetStart(p.input.LT(1)) + if p.parseListeners != nil { + p.TriggerEnterRuleEvent() // simulates rule entry for + // left-recursive rules + } +} + +// +// Like {@link //EnterRule} but for recursive rules. + +func (p *BaseParser) PushNewRecursionContext(localctx ParserRuleContext, state, ruleIndex int) { + previous := p.ctx + previous.SetParent(localctx) + previous.SetInvokingState(state) + previous.SetStop(p.input.LT(-1)) + + p.ctx = localctx + p.ctx.SetStart(previous.GetStart()) + if p.BuildParseTrees { + p.ctx.AddChild(previous) + } + if p.parseListeners != nil { + p.TriggerEnterRuleEvent() // simulates rule entry for + // left-recursive rules + } +} + +func (p *BaseParser) UnrollRecursionContexts(parentCtx ParserRuleContext) { + p.precedenceStack.Pop() + p.ctx.SetStop(p.input.LT(-1)) + retCtx := p.ctx // save current ctx (return value) + // unroll so ctx is as it was before call to recursive method + if p.parseListeners != nil { + for p.ctx != parentCtx { + p.TriggerExitRuleEvent() + p.ctx = p.ctx.GetParent().(ParserRuleContext) + } + } else { + p.ctx = parentCtx + } + // hook into tree + retCtx.SetParent(parentCtx) + if p.BuildParseTrees && parentCtx != nil { + // add return ctx into invoking rule's tree + parentCtx.AddChild(retCtx) + } +} + +func (p *BaseParser) GetInvokingContext(ruleIndex int) ParserRuleContext { + ctx := p.ctx + for ctx != nil { + if ctx.GetRuleIndex() == ruleIndex { + return ctx + } + ctx = ctx.GetParent().(ParserRuleContext) + } + return nil +} + +func (p *BaseParser) Precpred(localctx RuleContext, precedence int) bool { + return precedence >= p.precedenceStack[len(p.precedenceStack)-1] +} + +func (p *BaseParser) inContext(context ParserRuleContext) bool { + // TODO: useful in parser? + return false +} + +// +// Checks whether or not {@code symbol} can follow the current state in the +// ATN. The behavior of p.method is equivalent to the following, but is +// implemented such that the complete context-sensitive follow set does not +// need to be explicitly constructed. +// +// 
+// return getExpectedTokens().contains(symbol)
+//
+// +// @param symbol the symbol type to check +// @return {@code true} if {@code symbol} can follow the current state in +// the ATN, otherwise {@code false}. + +func (p *BaseParser) IsExpectedToken(symbol int) bool { + atn := p.Interpreter.atn + ctx := p.ctx + s := atn.states[p.state] + following := atn.NextTokens(s, nil) + if following.contains(symbol) { + return true + } + if !following.contains(TokenEpsilon) { + return false + } + for ctx != nil && ctx.GetInvokingState() >= 0 && following.contains(TokenEpsilon) { + invokingState := atn.states[ctx.GetInvokingState()] + rt := invokingState.GetTransitions()[0] + following = atn.NextTokens(rt.(*RuleTransition).followState, nil) + if following.contains(symbol) { + return true + } + ctx = ctx.GetParent().(ParserRuleContext) + } + if following.contains(TokenEpsilon) && symbol == TokenEOF { + return true + } + + return false +} + +// Computes the set of input symbols which could follow the current parser +// state and context, as given by {@link //GetState} and {@link //GetContext}, +// respectively. +// +// @see ATN//getExpectedTokens(int, RuleContext) +// +func (p *BaseParser) GetExpectedTokens() *IntervalSet { + return p.Interpreter.atn.getExpectedTokens(p.state, p.ctx) +} + +func (p *BaseParser) GetExpectedTokensWithinCurrentRule() *IntervalSet { + atn := p.Interpreter.atn + s := atn.states[p.state] + return atn.NextTokens(s, nil) +} + +// Get a rule's index (i.e., {@code RULE_ruleName} field) or -1 if not found.// +func (p *BaseParser) GetRuleIndex(ruleName string) int { + var ruleIndex, ok = p.GetRuleIndexMap()[ruleName] + if ok { + return ruleIndex + } + + return -1 +} + +// Return List<String> of the rule names in your parser instance +// leading up to a call to the current rule. You could override if +// you want more details such as the file/line info of where +// in the ATN a rule is invoked. +// +// this very useful for error messages. + +func (p *BaseParser) GetRuleInvocationStack(c ParserRuleContext) []string { + if c == nil { + c = p.ctx + } + stack := make([]string, 0) + for c != nil { + // compute what follows who invoked us + ruleIndex := c.GetRuleIndex() + if ruleIndex < 0 { + stack = append(stack, "n/a") + } else { + stack = append(stack, p.GetRuleNames()[ruleIndex]) + } + + vp := c.GetParent() + + if vp == nil { + break + } + + c = vp.(ParserRuleContext) + } + return stack +} + +// For debugging and other purposes.// +func (p *BaseParser) GetDFAStrings() string { + return fmt.Sprint(p.Interpreter.decisionToDFA) +} + +// For debugging and other purposes.// +func (p *BaseParser) DumpDFA() { + seenOne := false + for _, dfa := range p.Interpreter.decisionToDFA { + if dfa.numStates() > 0 { + if seenOne { + fmt.Println() + } + fmt.Println("Decision " + strconv.Itoa(dfa.decision) + ":") + fmt.Print(dfa.String(p.LiteralNames, p.SymbolicNames)) + seenOne = true + } + } +} + +func (p *BaseParser) GetSourceName() string { + return p.GrammarFileName +} + +// During a parse is sometimes useful to listen in on the rule entry and exit +// events as well as token Matches. p.is for quick and dirty debugging. +// +func (p *BaseParser) SetTrace(trace *TraceListener) { + if trace == nil { + p.RemoveParseListener(p.tracer) + p.tracer = nil + } else { + if p.tracer != nil { + p.RemoveParseListener(p.tracer) + } + p.tracer = NewTraceListener(p) + p.AddParseListener(p.tracer) + } +} diff --git a/vendor/github.com/antlr/antlr4/runtime/Go/antlr/parser_atn_simulator.go b/vendor/github.com/antlr/antlr4/runtime/Go/antlr/parser_atn_simulator.go new file mode 100644 index 000000000..c83e8137b --- /dev/null +++ b/vendor/github.com/antlr/antlr4/runtime/Go/antlr/parser_atn_simulator.go @@ -0,0 +1,1473 @@ +// Copyright (c) 2012-2017 The ANTLR Project. All rights reserved. +// Use of this file is governed by the BSD 3-clause license that +// can be found in the LICENSE.txt file in the project root. + +package antlr + +import ( + "fmt" + "strconv" + "strings" +) + +var ( + ParserATNSimulatorDebug = false + ParserATNSimulatorListATNDecisions = false + ParserATNSimulatorDFADebug = false + ParserATNSimulatorRetryDebug = false +) + +type ParserATNSimulator struct { + *BaseATNSimulator + + parser Parser + predictionMode int + input TokenStream + startIndex int + dfa *DFA + mergeCache *DoubleDict + outerContext ParserRuleContext +} + +func NewParserATNSimulator(parser Parser, atn *ATN, decisionToDFA []*DFA, sharedContextCache *PredictionContextCache) *ParserATNSimulator { + + p := new(ParserATNSimulator) + + p.BaseATNSimulator = NewBaseATNSimulator(atn, sharedContextCache) + + p.parser = parser + p.decisionToDFA = decisionToDFA + // SLL, LL, or LL + exact ambig detection?// + p.predictionMode = PredictionModeLL + // LAME globals to avoid parameters!!!!! I need these down deep in predTransition + p.input = nil + p.startIndex = 0 + p.outerContext = nil + p.dfa = nil + // Each prediction operation uses a cache for merge of prediction contexts. + // Don't keep around as it wastes huge amounts of memory. DoubleKeyMap + // isn't Synchronized but we're ok since two threads shouldn't reuse same + // parser/atnsim object because it can only handle one input at a time. + // This maps graphs a and b to merged result c. (a,b)&rarrc. We can avoid + // the merge if we ever see a and b again. Note that (b,a)&rarrc should + // also be examined during cache lookup. + // + p.mergeCache = nil + + return p +} + +func (p *ParserATNSimulator) GetPredictionMode() int { + return p.predictionMode +} + +func (p *ParserATNSimulator) SetPredictionMode(v int) { + p.predictionMode = v +} + +func (p *ParserATNSimulator) reset() { +} + +func (p *ParserATNSimulator) AdaptivePredict(input TokenStream, decision int, outerContext ParserRuleContext) int { + if ParserATNSimulatorDebug || ParserATNSimulatorListATNDecisions { + fmt.Println("AdaptivePredict decision " + strconv.Itoa(decision) + + " exec LA(1)==" + p.getLookaheadName(input) + + " line " + strconv.Itoa(input.LT(1).GetLine()) + ":" + + strconv.Itoa(input.LT(1).GetColumn())) + } + + p.input = input + p.startIndex = input.Index() + p.outerContext = outerContext + + dfa := p.decisionToDFA[decision] + p.dfa = dfa + m := input.Mark() + index := input.Index() + + defer func() { + p.dfa = nil + p.mergeCache = nil // wack cache after each prediction + input.Seek(index) + input.Release(m) + }() + + // Now we are certain to have a specific decision's DFA + // But, do we still need an initial state? + var s0 *DFAState + if dfa.getPrecedenceDfa() { + // the start state for a precedence DFA depends on the current + // parser precedence, and is provided by a DFA method. + s0 = dfa.getPrecedenceStartState(p.parser.GetPrecedence()) + } else { + // the start state for a "regular" DFA is just s0 + s0 = dfa.getS0() + } + + if s0 == nil { + if outerContext == nil { + outerContext = RuleContextEmpty + } + if ParserATNSimulatorDebug || ParserATNSimulatorListATNDecisions { + fmt.Println("predictATN decision " + strconv.Itoa(dfa.decision) + + " exec LA(1)==" + p.getLookaheadName(input) + + ", outerContext=" + outerContext.String(p.parser.GetRuleNames(), nil)) + } + // If p is not a precedence DFA, we check the ATN start state + // to determine if p ATN start state is the decision for the + // closure block that determines whether a precedence rule + // should continue or complete. + + t2 := dfa.atnStartState + t, ok := t2.(*StarLoopEntryState) + if !dfa.getPrecedenceDfa() && ok { + if t.precedenceRuleDecision { + dfa.setPrecedenceDfa(true) + } + } + fullCtx := false + s0Closure := p.computeStartState(dfa.atnStartState, RuleContextEmpty, fullCtx) + + if dfa.getPrecedenceDfa() { + // If p is a precedence DFA, we use applyPrecedenceFilter + // to convert the computed start state to a precedence start + // state. We then use DFA.setPrecedenceStartState to set the + // appropriate start state for the precedence level rather + // than simply setting DFA.s0. + // + s0Closure = p.applyPrecedenceFilter(s0Closure) + s0 = p.addDFAState(dfa, NewDFAState(-1, s0Closure)) + dfa.setPrecedenceStartState(p.parser.GetPrecedence(), s0) + } else { + s0 = p.addDFAState(dfa, NewDFAState(-1, s0Closure)) + dfa.setS0(s0) + } + } + alt := p.execATN(dfa, s0, input, index, outerContext) + if ParserATNSimulatorDebug { + fmt.Println("DFA after predictATN: " + dfa.String(p.parser.GetLiteralNames(), nil)) + } + return alt + +} + +// Performs ATN simulation to compute a predicted alternative based +// upon the remaining input, but also updates the DFA cache to avoid +// having to traverse the ATN again for the same input sequence. + +// There are some key conditions we're looking for after computing a new +// set of ATN configs (proposed DFA state): +// if the set is empty, there is no viable alternative for current symbol +// does the state uniquely predict an alternative? +// does the state have a conflict that would prevent us from +// putting it on the work list? + +// We also have some key operations to do: +// add an edge from previous DFA state to potentially NewDFA state, D, +// upon current symbol but only if adding to work list, which means in all +// cases except no viable alternative (and possibly non-greedy decisions?) +// collecting predicates and adding semantic context to DFA accept states +// adding rule context to context-sensitive DFA accept states +// consuming an input symbol +// Reporting a conflict +// Reporting an ambiguity +// Reporting a context sensitivity +// Reporting insufficient predicates + +// cover these cases: +// dead end +// single alt +// single alt + preds +// conflict +// conflict + preds +// +func (p *ParserATNSimulator) execATN(dfa *DFA, s0 *DFAState, input TokenStream, startIndex int, outerContext ParserRuleContext) int { + + if ParserATNSimulatorDebug || ParserATNSimulatorListATNDecisions { + fmt.Println("execATN decision " + strconv.Itoa(dfa.decision) + + " exec LA(1)==" + p.getLookaheadName(input) + + " line " + strconv.Itoa(input.LT(1).GetLine()) + ":" + strconv.Itoa(input.LT(1).GetColumn())) + } + + previousD := s0 + + if ParserATNSimulatorDebug { + fmt.Println("s0 = " + s0.String()) + } + t := input.LA(1) + for { // for more work + D := p.getExistingTargetState(previousD, t) + if D == nil { + D = p.computeTargetState(dfa, previousD, t) + } + if D == ATNSimulatorError { + // if any configs in previous dipped into outer context, that + // means that input up to t actually finished entry rule + // at least for SLL decision. Full LL doesn't dip into outer + // so don't need special case. + // We will get an error no matter what so delay until after + // decision better error message. Also, no reachable target + // ATN states in SLL implies LL will also get nowhere. + // If conflict in states that dip out, choose min since we + // will get error no matter what. + e := p.noViableAlt(input, outerContext, previousD.configs, startIndex) + input.Seek(startIndex) + alt := p.getSynValidOrSemInvalidAltThatFinishedDecisionEntryRule(previousD.configs, outerContext) + if alt != ATNInvalidAltNumber { + return alt + } + + panic(e) + } + if D.requiresFullContext && p.predictionMode != PredictionModeSLL { + // IF PREDS, MIGHT RESOLVE TO SINGLE ALT => SLL (or syntax error) + conflictingAlts := D.configs.GetConflictingAlts() + if D.predicates != nil { + if ParserATNSimulatorDebug { + fmt.Println("DFA state has preds in DFA sim LL failover") + } + conflictIndex := input.Index() + if conflictIndex != startIndex { + input.Seek(startIndex) + } + conflictingAlts = p.evalSemanticContext(D.predicates, outerContext, true) + if conflictingAlts.length() == 1 { + if ParserATNSimulatorDebug { + fmt.Println("Full LL avoided") + } + return conflictingAlts.minValue() + } + if conflictIndex != startIndex { + // restore the index so Reporting the fallback to full + // context occurs with the index at the correct spot + input.Seek(conflictIndex) + } + } + if ParserATNSimulatorDFADebug { + fmt.Println("ctx sensitive state " + outerContext.String(nil, nil) + " in " + D.String()) + } + fullCtx := true + s0Closure := p.computeStartState(dfa.atnStartState, outerContext, fullCtx) + p.ReportAttemptingFullContext(dfa, conflictingAlts, D.configs, startIndex, input.Index()) + alt := p.execATNWithFullContext(dfa, D, s0Closure, input, startIndex, outerContext) + return alt + } + if D.isAcceptState { + if D.predicates == nil { + return D.prediction + } + stopIndex := input.Index() + input.Seek(startIndex) + alts := p.evalSemanticContext(D.predicates, outerContext, true) + if alts.length() == 0 { + panic(p.noViableAlt(input, outerContext, D.configs, startIndex)) + } else if alts.length() == 1 { + return alts.minValue() + } else { + // Report ambiguity after predicate evaluation to make sure the correct set of ambig alts is Reported. + p.ReportAmbiguity(dfa, D, startIndex, stopIndex, false, alts, D.configs) + return alts.minValue() + } + } + previousD = D + + if t != TokenEOF { + input.Consume() + t = input.LA(1) + } + } + + panic("Should not have reached p state") +} + +// Get an existing target state for an edge in the DFA. If the target state +// for the edge has not yet been computed or is otherwise not available, +// p method returns {@code nil}. +// +// @param previousD The current DFA state +// @param t The next input symbol +// @return The existing target DFA state for the given input symbol +// {@code t}, or {@code nil} if the target state for p edge is not +// already cached + +func (p *ParserATNSimulator) getExistingTargetState(previousD *DFAState, t int) *DFAState { + edges := previousD.getEdges() + if edges == nil { + return nil + } + + return previousD.getIthEdge(t+1) +} + +// Compute a target state for an edge in the DFA, and attempt to add the +// computed state and corresponding edge to the DFA. +// +// @param dfa The DFA +// @param previousD The current DFA state +// @param t The next input symbol +// +// @return The computed target DFA state for the given input symbol +// {@code t}. If {@code t} does not lead to a valid DFA state, p method +// returns {@link //ERROR}. + +func (p *ParserATNSimulator) computeTargetState(dfa *DFA, previousD *DFAState, t int) *DFAState { + reach := p.computeReachSet(previousD.configs, t, false) + + if reach == nil { + p.addDFAEdge(dfa, previousD, t, ATNSimulatorError) + return ATNSimulatorError + } + // create Newtarget state we'll add to DFA after it's complete + D := NewDFAState(-1, reach) + + predictedAlt := p.getUniqueAlt(reach) + + if ParserATNSimulatorDebug { + altSubSets := PredictionModegetConflictingAltSubsets(reach) + fmt.Println("SLL altSubSets=" + fmt.Sprint(altSubSets) + + ", previous=" + previousD.configs.String() + + ", configs=" + reach.String() + + ", predict=" + strconv.Itoa(predictedAlt) + + ", allSubsetsConflict=" + + fmt.Sprint(PredictionModeallSubsetsConflict(altSubSets)) + + ", conflictingAlts=" + p.getConflictingAlts(reach).String()) + } + if predictedAlt != ATNInvalidAltNumber { + // NO CONFLICT, UNIQUELY PREDICTED ALT + D.isAcceptState = true + D.configs.SetUniqueAlt(predictedAlt) + D.setPrediction(predictedAlt) + } else if PredictionModehasSLLConflictTerminatingPrediction(p.predictionMode, reach) { + // MORE THAN ONE VIABLE ALTERNATIVE + D.configs.SetConflictingAlts(p.getConflictingAlts(reach)) + D.requiresFullContext = true + // in SLL-only mode, we will stop at p state and return the minimum alt + D.isAcceptState = true + D.setPrediction(D.configs.GetConflictingAlts().minValue()) + } + if D.isAcceptState && D.configs.HasSemanticContext() { + p.predicateDFAState(D, p.atn.getDecisionState(dfa.decision)) + if D.predicates != nil { + D.setPrediction(ATNInvalidAltNumber) + } + } + // all adds to dfa are done after we've created full D state + D = p.addDFAEdge(dfa, previousD, t, D) + return D +} + +func (p *ParserATNSimulator) predicateDFAState(dfaState *DFAState, decisionState DecisionState) { + // We need to test all predicates, even in DFA states that + // uniquely predict alternative. + nalts := len(decisionState.GetTransitions()) + // Update DFA so reach becomes accept state with (predicate,alt) + // pairs if preds found for conflicting alts + altsToCollectPredsFrom := p.getConflictingAltsOrUniqueAlt(dfaState.configs) + altToPred := p.getPredsForAmbigAlts(altsToCollectPredsFrom, dfaState.configs, nalts) + if altToPred != nil { + dfaState.predicates = p.getPredicatePredictions(altsToCollectPredsFrom, altToPred) + dfaState.setPrediction(ATNInvalidAltNumber) // make sure we use preds + } else { + // There are preds in configs but they might go away + // when OR'd together like {p}? || NONE == NONE. If neither + // alt has preds, resolve to min alt + dfaState.setPrediction(altsToCollectPredsFrom.minValue()) + } +} + +// comes back with reach.uniqueAlt set to a valid alt +func (p *ParserATNSimulator) execATNWithFullContext(dfa *DFA, D *DFAState, s0 ATNConfigSet, input TokenStream, startIndex int, outerContext ParserRuleContext) int { + + if ParserATNSimulatorDebug || ParserATNSimulatorListATNDecisions { + fmt.Println("execATNWithFullContext " + s0.String()) + } + + fullCtx := true + foundExactAmbig := false + var reach ATNConfigSet + previous := s0 + input.Seek(startIndex) + t := input.LA(1) + predictedAlt := -1 + + for { // for more work + reach = p.computeReachSet(previous, t, fullCtx) + if reach == nil { + // if any configs in previous dipped into outer context, that + // means that input up to t actually finished entry rule + // at least for LL decision. Full LL doesn't dip into outer + // so don't need special case. + // We will get an error no matter what so delay until after + // decision better error message. Also, no reachable target + // ATN states in SLL implies LL will also get nowhere. + // If conflict in states that dip out, choose min since we + // will get error no matter what. + e := p.noViableAlt(input, outerContext, previous, startIndex) + input.Seek(startIndex) + alt := p.getSynValidOrSemInvalidAltThatFinishedDecisionEntryRule(previous, outerContext) + if alt != ATNInvalidAltNumber { + return alt + } + + panic(e) + } + altSubSets := PredictionModegetConflictingAltSubsets(reach) + if ParserATNSimulatorDebug { + fmt.Println("LL altSubSets=" + fmt.Sprint(altSubSets) + ", predict=" + + strconv.Itoa(PredictionModegetUniqueAlt(altSubSets)) + ", resolvesToJustOneViableAlt=" + + fmt.Sprint(PredictionModeresolvesToJustOneViableAlt(altSubSets))) + } + reach.SetUniqueAlt(p.getUniqueAlt(reach)) + // unique prediction? + if reach.GetUniqueAlt() != ATNInvalidAltNumber { + predictedAlt = reach.GetUniqueAlt() + break + } else if p.predictionMode != PredictionModeLLExactAmbigDetection { + predictedAlt = PredictionModeresolvesToJustOneViableAlt(altSubSets) + if predictedAlt != ATNInvalidAltNumber { + break + } + } else { + // In exact ambiguity mode, we never try to terminate early. + // Just keeps scarfing until we know what the conflict is + if PredictionModeallSubsetsConflict(altSubSets) && PredictionModeallSubsetsEqual(altSubSets) { + foundExactAmbig = true + predictedAlt = PredictionModegetSingleViableAlt(altSubSets) + break + } + // else there are multiple non-conflicting subsets or + // we're not sure what the ambiguity is yet. + // So, keep going. + } + previous = reach + if t != TokenEOF { + input.Consume() + t = input.LA(1) + } + } + // If the configuration set uniquely predicts an alternative, + // without conflict, then we know that it's a full LL decision + // not SLL. + if reach.GetUniqueAlt() != ATNInvalidAltNumber { + p.ReportContextSensitivity(dfa, predictedAlt, reach, startIndex, input.Index()) + return predictedAlt + } + // We do not check predicates here because we have checked them + // on-the-fly when doing full context prediction. + + // + // In non-exact ambiguity detection mode, we might actually be able to + // detect an exact ambiguity, but I'm not going to spend the cycles + // needed to check. We only emit ambiguity warnings in exact ambiguity + // mode. + // + // For example, we might know that we have conflicting configurations. + // But, that does not mean that there is no way forward without a + // conflict. It's possible to have nonconflicting alt subsets as in: + + // altSubSets=[{1, 2}, {1, 2}, {1}, {1, 2}] + + // from + // + // [(17,1,[5 $]), (13,1,[5 10 $]), (21,1,[5 10 $]), (11,1,[$]), + // (13,2,[5 10 $]), (21,2,[5 10 $]), (11,2,[$])] + // + // In p case, (17,1,[5 $]) indicates there is some next sequence that + // would resolve p without conflict to alternative 1. Any other viable + // next sequence, however, is associated with a conflict. We stop + // looking for input because no amount of further lookahead will alter + // the fact that we should predict alternative 1. We just can't say for + // sure that there is an ambiguity without looking further. + + p.ReportAmbiguity(dfa, D, startIndex, input.Index(), foundExactAmbig, nil, reach) + + return predictedAlt +} + +func (p *ParserATNSimulator) computeReachSet(closure ATNConfigSet, t int, fullCtx bool) ATNConfigSet { + if ParserATNSimulatorDebug { + fmt.Println("in computeReachSet, starting closure: " + closure.String()) + } + if p.mergeCache == nil { + p.mergeCache = NewDoubleDict() + } + intermediate := NewBaseATNConfigSet(fullCtx) + + // Configurations already in a rule stop state indicate reaching the end + // of the decision rule (local context) or end of the start rule (full + // context). Once reached, these configurations are never updated by a + // closure operation, so they are handled separately for the performance + // advantage of having a smaller intermediate set when calling closure. + // + // For full-context reach operations, separate handling is required to + // ensure that the alternative Matching the longest overall sequence is + // chosen when multiple such configurations can Match the input. + + var SkippedStopStates []*BaseATNConfig + + // First figure out where we can reach on input t + for _, c := range closure.GetItems() { + if ParserATNSimulatorDebug { + fmt.Println("testing " + p.GetTokenName(t) + " at " + c.String()) + } + + _, ok := c.GetState().(*RuleStopState) + + if ok { + if fullCtx || t == TokenEOF { + if SkippedStopStates == nil { + SkippedStopStates = make([]*BaseATNConfig, 0) + } + SkippedStopStates = append(SkippedStopStates, c.(*BaseATNConfig)) + if ParserATNSimulatorDebug { + fmt.Println("added " + c.String() + " to SkippedStopStates") + } + } + continue + } + + for j := 0; j < len(c.GetState().GetTransitions()); j++ { + trans := c.GetState().GetTransitions()[j] + target := p.getReachableTarget(trans, t) + if target != nil { + cfg := NewBaseATNConfig4(c, target) + intermediate.Add(cfg, p.mergeCache) + if ParserATNSimulatorDebug { + fmt.Println("added " + cfg.String() + " to intermediate") + } + } + } + } + // Now figure out where the reach operation can take us... + var reach ATNConfigSet + + // This block optimizes the reach operation for intermediate sets which + // trivially indicate a termination state for the overall + // AdaptivePredict operation. + // + // The conditions assume that intermediate + // contains all configurations relevant to the reach set, but p + // condition is not true when one or more configurations have been + // withheld in SkippedStopStates, or when the current symbol is EOF. + // + if SkippedStopStates == nil && t != TokenEOF { + if len(intermediate.configs) == 1 { + // Don't pursue the closure if there is just one state. + // It can only have one alternative just add to result + // Also don't pursue the closure if there is unique alternative + // among the configurations. + reach = intermediate + } else if p.getUniqueAlt(intermediate) != ATNInvalidAltNumber { + // Also don't pursue the closure if there is unique alternative + // among the configurations. + reach = intermediate + } + } + // If the reach set could not be trivially determined, perform a closure + // operation on the intermediate set to compute its initial value. + // + if reach == nil { + reach = NewBaseATNConfigSet(fullCtx) + closureBusy := NewSet(nil, nil) + treatEOFAsEpsilon := t == TokenEOF + for k := 0; k < len(intermediate.configs); k++ { + p.closure(intermediate.configs[k], reach, closureBusy, false, fullCtx, treatEOFAsEpsilon) + } + } + if t == TokenEOF { + // After consuming EOF no additional input is possible, so we are + // only interested in configurations which reached the end of the + // decision rule (local context) or end of the start rule (full + // context). Update reach to contain only these configurations. This + // handles both explicit EOF transitions in the grammar and implicit + // EOF transitions following the end of the decision or start rule. + // + // When reach==intermediate, no closure operation was performed. In + // p case, removeAllConfigsNotInRuleStopState needs to check for + // reachable rule stop states as well as configurations already in + // a rule stop state. + // + // This is handled before the configurations in SkippedStopStates, + // because any configurations potentially added from that list are + // already guaranteed to meet p condition whether or not it's + // required. + // + reach = p.removeAllConfigsNotInRuleStopState(reach, reach == intermediate) + } + // If SkippedStopStates!=nil, then it contains at least one + // configuration. For full-context reach operations, these + // configurations reached the end of the start rule, in which case we + // only add them back to reach if no configuration during the current + // closure operation reached such a state. This ensures AdaptivePredict + // chooses an alternative Matching the longest overall sequence when + // multiple alternatives are viable. + // + if SkippedStopStates != nil && ((!fullCtx) || (!PredictionModehasConfigInRuleStopState(reach))) { + for l := 0; l < len(SkippedStopStates); l++ { + reach.Add(SkippedStopStates[l], p.mergeCache) + } + } + if len(reach.GetItems()) == 0 { + return nil + } + + return reach +} + +// +// Return a configuration set containing only the configurations from +// {@code configs} which are in a {@link RuleStopState}. If all +// configurations in {@code configs} are already in a rule stop state, p +// method simply returns {@code configs}. +// +//

When {@code lookToEndOfRule} is true, p method uses +// {@link ATN//NextTokens} for each configuration in {@code configs} which is +// not already in a rule stop state to see if a rule stop state is reachable +// from the configuration via epsilon-only transitions.

+// +// @param configs the configuration set to update +// @param lookToEndOfRule when true, p method checks for rule stop states +// reachable by epsilon-only transitions from each configuration in +// {@code configs}. +// +// @return {@code configs} if all configurations in {@code configs} are in a +// rule stop state, otherwise return a Newconfiguration set containing only +// the configurations from {@code configs} which are in a rule stop state +// +func (p *ParserATNSimulator) removeAllConfigsNotInRuleStopState(configs ATNConfigSet, lookToEndOfRule bool) ATNConfigSet { + if PredictionModeallConfigsInRuleStopStates(configs) { + return configs + } + result := NewBaseATNConfigSet(configs.FullContext()) + for _, config := range configs.GetItems() { + + _, ok := config.GetState().(*RuleStopState) + + if ok { + result.Add(config, p.mergeCache) + continue + } + if lookToEndOfRule && config.GetState().GetEpsilonOnlyTransitions() { + NextTokens := p.atn.NextTokens(config.GetState(), nil) + if NextTokens.contains(TokenEpsilon) { + endOfRuleState := p.atn.ruleToStopState[config.GetState().GetRuleIndex()] + result.Add(NewBaseATNConfig4(config, endOfRuleState), p.mergeCache) + } + } + } + return result +} + +func (p *ParserATNSimulator) computeStartState(a ATNState, ctx RuleContext, fullCtx bool) ATNConfigSet { + // always at least the implicit call to start rule + initialContext := predictionContextFromRuleContext(p.atn, ctx) + configs := NewBaseATNConfigSet(fullCtx) + for i := 0; i < len(a.GetTransitions()); i++ { + target := a.GetTransitions()[i].getTarget() + c := NewBaseATNConfig6(target, i+1, initialContext) + closureBusy := NewSet(nil, nil) + p.closure(c, configs, closureBusy, true, fullCtx, false) + } + return configs +} + +// +// This method transforms the start state computed by +// {@link //computeStartState} to the special start state used by a +// precedence DFA for a particular precedence value. The transformation +// process applies the following changes to the start state's configuration +// set. +// +//
    +//
  1. Evaluate the precedence predicates for each configuration using +// {@link SemanticContext//evalPrecedence}.
    2. +//
  2. Remove all configurations which predict an alternative greater than +// 1, for which another configuration that predicts alternative 1 is in the +// same ATN state with the same prediction context. This transformation is +// valid for the following reasons: +//
      +//
    • The closure block cannot contain any epsilon transitions which bypass +// the body of the closure, so all states reachable via alternative 1 are +// part of the precedence alternatives of the transformed left-recursive +// rule.
      • +//
    • The "primary" portion of a left recursive rule cannot contain an +// epsilon transition, so the only way an alternative other than 1 can exist +// in a state that is also reachable via alternative 1 is by nesting calls +// to the left-recursive rule, with the outer calls not being at the +// preferred precedence level.
      • +//
    +//
    3. +//
+// +//

+// The prediction context must be considered by p filter to address +// situations like the following. +//

+// +// 
+// grammar TA
+// prog: statement* EOF
+// statement: letterA | statement letterA 'b'
+// letterA: 'a'
+//
+// +//

+// If the above grammar, the ATN state immediately before the token +// reference {@code 'a'} in {@code letterA} is reachable from the left edge +// of both the primary and closure blocks of the left-recursive rule +// {@code statement}. The prediction context associated with each of these +// configurations distinguishes between them, and prevents the alternative +// which stepped out to {@code prog} (and then back in to {@code statement} +// from being eliminated by the filter. +//

+// +// @param configs The configuration set computed by +// {@link //computeStartState} as the start state for the DFA. +// @return The transformed configuration set representing the start state +// for a precedence DFA at a particular precedence level (determined by +// calling {@link Parser//getPrecedence}). +// +func (p *ParserATNSimulator) applyPrecedenceFilter(configs ATNConfigSet) ATNConfigSet { + + statesFromAlt1 := make(map[int]PredictionContext) + configSet := NewBaseATNConfigSet(configs.FullContext()) + + for _, config := range configs.GetItems() { + // handle alt 1 first + if config.GetAlt() != 1 { + continue + } + updatedContext := config.GetSemanticContext().evalPrecedence(p.parser, p.outerContext) + if updatedContext == nil { + // the configuration was eliminated + continue + } + statesFromAlt1[config.GetState().GetStateNumber()] = config.GetContext() + if updatedContext != config.GetSemanticContext() { + configSet.Add(NewBaseATNConfig2(config, updatedContext), p.mergeCache) + } else { + configSet.Add(config, p.mergeCache) + } + } + for _, config := range configs.GetItems() { + + if config.GetAlt() == 1 { + // already handled + continue + } + // In the future, p elimination step could be updated to also + // filter the prediction context for alternatives predicting alt>1 + // (basically a graph subtraction algorithm). + if !config.getPrecedenceFilterSuppressed() { + context := statesFromAlt1[config.GetState().GetStateNumber()] + if context != nil && context.equals(config.GetContext()) { + // eliminated + continue + } + } + configSet.Add(config, p.mergeCache) + } + return configSet +} + +func (p *ParserATNSimulator) getReachableTarget(trans Transition, ttype int) ATNState { + if trans.Matches(ttype, 0, p.atn.maxTokenType) { + return trans.getTarget() + } + + return nil +} + +func (p *ParserATNSimulator) getPredsForAmbigAlts(ambigAlts *BitSet, configs ATNConfigSet, nalts int) []SemanticContext { + + altToPred := make([]SemanticContext, nalts+1) + for _, c := range configs.GetItems() { + if ambigAlts.contains(c.GetAlt()) { + altToPred[c.GetAlt()] = SemanticContextorContext(altToPred[c.GetAlt()], c.GetSemanticContext()) + } + } + nPredAlts := 0 + for i := 1; i < nalts+1; i++ { + pred := altToPred[i] + if pred == nil { + altToPred[i] = SemanticContextNone + } else if pred != SemanticContextNone { + nPredAlts++ + } + } + // nonambig alts are nil in altToPred + if nPredAlts == 0 { + altToPred = nil + } + if ParserATNSimulatorDebug { + fmt.Println("getPredsForAmbigAlts result " + fmt.Sprint(altToPred)) + } + return altToPred +} + +func (p *ParserATNSimulator) getPredicatePredictions(ambigAlts *BitSet, altToPred []SemanticContext) []*PredPrediction { + pairs := make([]*PredPrediction, 0) + containsPredicate := false + for i := 1; i < len(altToPred); i++ { + pred := altToPred[i] + // unpredicated is indicated by SemanticContextNONE + if ambigAlts != nil && ambigAlts.contains(i) { + pairs = append(pairs, NewPredPrediction(pred, i)) + } + if pred != SemanticContextNone { + containsPredicate = true + } + } + if !containsPredicate { + return nil + } + return pairs +} + +// +// This method is used to improve the localization of error messages by +// choosing an alternative rather than panicing a +// {@link NoViableAltException} in particular prediction scenarios where the +// {@link //ERROR} state was reached during ATN simulation. +// +//

+// The default implementation of p method uses the following +// algorithm to identify an ATN configuration which successfully parsed the +// decision entry rule. Choosing such an alternative ensures that the +// {@link ParserRuleContext} returned by the calling rule will be complete +// and valid, and the syntax error will be Reported later at a more +// localized location.

+// +//
    +//
  • If a syntactically valid path or paths reach the end of the decision rule and +// they are semantically valid if predicated, return the min associated alt.
    • +//
  • Else, if a semantically invalid but syntactically valid path exist +// or paths exist, return the minimum associated alt. +//
    • +//
  • Otherwise, return {@link ATN//INVALID_ALT_NUMBER}.
    • +//
+// +//

+// In some scenarios, the algorithm described above could predict an +// alternative which will result in a {@link FailedPredicateException} in +// the parser. Specifically, p could occur if the only configuration +// capable of successfully parsing to the end of the decision rule is +// blocked by a semantic predicate. By choosing p alternative within +// {@link //AdaptivePredict} instead of panicing a +// {@link NoViableAltException}, the resulting +// {@link FailedPredicateException} in the parser will identify the specific +// predicate which is preventing the parser from successfully parsing the +// decision rule, which helps developers identify and correct logic errors +// in semantic predicates. +//

+// +// @param configs The ATN configurations which were valid immediately before +// the {@link //ERROR} state was reached +// @param outerContext The is the \gamma_0 initial parser context from the paper +// or the parser stack at the instant before prediction commences. +// +// @return The value to return from {@link //AdaptivePredict}, or +// {@link ATN//INVALID_ALT_NUMBER} if a suitable alternative was not +// identified and {@link //AdaptivePredict} should Report an error instead. +// +func (p *ParserATNSimulator) getSynValidOrSemInvalidAltThatFinishedDecisionEntryRule(configs ATNConfigSet, outerContext ParserRuleContext) int { + cfgs := p.splitAccordingToSemanticValidity(configs, outerContext) + semValidConfigs := cfgs[0] + semInvalidConfigs := cfgs[1] + alt := p.GetAltThatFinishedDecisionEntryRule(semValidConfigs) + if alt != ATNInvalidAltNumber { // semantically/syntactically viable path exists + return alt + } + // Is there a syntactically valid path with a failed pred? + if len(semInvalidConfigs.GetItems()) > 0 { + alt = p.GetAltThatFinishedDecisionEntryRule(semInvalidConfigs) + if alt != ATNInvalidAltNumber { // syntactically viable path exists + return alt + } + } + return ATNInvalidAltNumber +} + +func (p *ParserATNSimulator) GetAltThatFinishedDecisionEntryRule(configs ATNConfigSet) int { + alts := NewIntervalSet() + + for _, c := range configs.GetItems() { + _, ok := c.GetState().(*RuleStopState) + + if c.GetReachesIntoOuterContext() > 0 || (ok && c.GetContext().hasEmptyPath()) { + alts.addOne(c.GetAlt()) + } + } + if alts.length() == 0 { + return ATNInvalidAltNumber + } + + return alts.first() +} + +// Walk the list of configurations and split them according to +// those that have preds evaluating to true/false. If no pred, assume +// true pred and include in succeeded set. Returns Pair of sets. +// +// Create a NewSet so as not to alter the incoming parameter. +// +// Assumption: the input stream has been restored to the starting point +// prediction, which is where predicates need to evaluate. + +type ATNConfigSetPair struct { + item0, item1 ATNConfigSet +} + +func (p *ParserATNSimulator) splitAccordingToSemanticValidity(configs ATNConfigSet, outerContext ParserRuleContext) []ATNConfigSet { + succeeded := NewBaseATNConfigSet(configs.FullContext()) + failed := NewBaseATNConfigSet(configs.FullContext()) + + for _, c := range configs.GetItems() { + if c.GetSemanticContext() != SemanticContextNone { + predicateEvaluationResult := c.GetSemanticContext().evaluate(p.parser, outerContext) + if predicateEvaluationResult { + succeeded.Add(c, nil) + } else { + failed.Add(c, nil) + } + } else { + succeeded.Add(c, nil) + } + } + return []ATNConfigSet{succeeded, failed} +} + +// Look through a list of predicate/alt pairs, returning alts for the +// pairs that win. A {@code NONE} predicate indicates an alt containing an +// unpredicated config which behaves as "always true." If !complete +// then we stop at the first predicate that evaluates to true. This +// includes pairs with nil predicates. +// +func (p *ParserATNSimulator) evalSemanticContext(predPredictions []*PredPrediction, outerContext ParserRuleContext, complete bool) *BitSet { + predictions := NewBitSet() + for i := 0; i < len(predPredictions); i++ { + pair := predPredictions[i] + if pair.pred == SemanticContextNone { + predictions.add(pair.alt) + if !complete { + break + } + continue + } + + predicateEvaluationResult := pair.pred.evaluate(p.parser, outerContext) + if ParserATNSimulatorDebug || ParserATNSimulatorDFADebug { + fmt.Println("eval pred " + pair.String() + "=" + fmt.Sprint(predicateEvaluationResult)) + } + if predicateEvaluationResult { + if ParserATNSimulatorDebug || ParserATNSimulatorDFADebug { + fmt.Println("PREDICT " + fmt.Sprint(pair.alt)) + } + predictions.add(pair.alt) + if !complete { + break + } + } + } + return predictions +} + +func (p *ParserATNSimulator) closure(config ATNConfig, configs ATNConfigSet, closureBusy *Set, collectPredicates, fullCtx, treatEOFAsEpsilon bool) { + initialDepth := 0 + p.closureCheckingStopState(config, configs, closureBusy, collectPredicates, + fullCtx, initialDepth, treatEOFAsEpsilon) +} + +func (p *ParserATNSimulator) closureCheckingStopState(config ATNConfig, configs ATNConfigSet, closureBusy *Set, collectPredicates, fullCtx bool, depth int, treatEOFAsEpsilon bool) { + + if ParserATNSimulatorDebug { + fmt.Println("closure(" + config.String() + ")") + fmt.Println("configs(" + configs.String() + ")") + if config.GetReachesIntoOuterContext() > 50 { + panic("problem") + } + } + + _, ok := config.GetState().(*RuleStopState) + if ok { + // We hit rule end. If we have context info, use it + // run thru all possible stack tops in ctx + if !config.GetContext().isEmpty() { + for i := 0; i < config.GetContext().length(); i++ { + if config.GetContext().getReturnState(i) == BasePredictionContextEmptyReturnState { + if fullCtx { + configs.Add(NewBaseATNConfig1(config, config.GetState(), BasePredictionContextEMPTY), p.mergeCache) + continue + } else { + // we have no context info, just chase follow links (if greedy) + if ParserATNSimulatorDebug { + fmt.Println("FALLING off rule " + p.getRuleName(config.GetState().GetRuleIndex())) + } + p.closureWork(config, configs, closureBusy, collectPredicates, fullCtx, depth, treatEOFAsEpsilon) + } + continue + } + returnState := p.atn.states[config.GetContext().getReturnState(i)] + newContext := config.GetContext().GetParent(i) // "pop" return state + + c := NewBaseATNConfig5(returnState, config.GetAlt(), newContext, config.GetSemanticContext()) + // While we have context to pop back from, we may have + // gotten that context AFTER having falling off a rule. + // Make sure we track that we are now out of context. + c.SetReachesIntoOuterContext(config.GetReachesIntoOuterContext()) + p.closureCheckingStopState(c, configs, closureBusy, collectPredicates, fullCtx, depth-1, treatEOFAsEpsilon) + } + return + } else if fullCtx { + // reached end of start rule + configs.Add(config, p.mergeCache) + return + } else { + // else if we have no context info, just chase follow links (if greedy) + if ParserATNSimulatorDebug { + fmt.Println("FALLING off rule " + p.getRuleName(config.GetState().GetRuleIndex())) + } + } + } + p.closureWork(config, configs, closureBusy, collectPredicates, fullCtx, depth, treatEOFAsEpsilon) +} + +// Do the actual work of walking epsilon edges// +func (p *ParserATNSimulator) closureWork(config ATNConfig, configs ATNConfigSet, closureBusy *Set, collectPredicates, fullCtx bool, depth int, treatEOFAsEpsilon bool) { + state := config.GetState() + // optimization + if !state.GetEpsilonOnlyTransitions() { + configs.Add(config, p.mergeCache) + // make sure to not return here, because EOF transitions can act as + // both epsilon transitions and non-epsilon transitions. + } + for i := 0; i < len(state.GetTransitions()); i++ { + t := state.GetTransitions()[i] + _, ok := t.(*ActionTransition) + continueCollecting := collectPredicates && !ok + c := p.getEpsilonTarget(config, t, continueCollecting, depth == 0, fullCtx, treatEOFAsEpsilon) + if ci, ok := c.(*BaseATNConfig); ok && ci != nil { + if !t.getIsEpsilon() && closureBusy.add(c) != c { + // avoid infinite recursion for EOF* and EOF+ + continue + } + newDepth := depth + + if _, ok := config.GetState().(*RuleStopState); ok { + + // target fell off end of rule mark resulting c as having dipped into outer context + // We can't get here if incoming config was rule stop and we had context + // track how far we dip into outer context. Might + // come in handy and we avoid evaluating context dependent + // preds if p is > 0. + + if closureBusy.add(c) != c { + // avoid infinite recursion for right-recursive rules + continue + } + + if p.dfa != nil && p.dfa.getPrecedenceDfa() { + if t.(*EpsilonTransition).outermostPrecedenceReturn == p.dfa.atnStartState.GetRuleIndex() { + c.setPrecedenceFilterSuppressed(true) + } + } + + c.SetReachesIntoOuterContext(c.GetReachesIntoOuterContext() + 1) + configs.SetDipsIntoOuterContext(true) // TODO: can remove? only care when we add to set per middle of p method + newDepth-- + if ParserATNSimulatorDebug { + fmt.Println("dips into outer ctx: " + c.String()) + } + } else if _, ok := t.(*RuleTransition); ok { + // latch when newDepth goes negative - once we step out of the entry context we can't return + if newDepth >= 0 { + newDepth++ + } + } + p.closureCheckingStopState(c, configs, closureBusy, continueCollecting, fullCtx, newDepth, treatEOFAsEpsilon) + } + } +} + +func (p *ParserATNSimulator) getRuleName(index int) string { + if p.parser != nil && index >= 0 { + return p.parser.GetRuleNames()[index] + } + + return "" +} + +func (p *ParserATNSimulator) getEpsilonTarget(config ATNConfig, t Transition, collectPredicates, inContext, fullCtx, treatEOFAsEpsilon bool) ATNConfig { + + switch t.getSerializationType() { + case TransitionRULE: + return p.ruleTransition(config, t.(*RuleTransition)) + case TransitionPRECEDENCE: + return p.precedenceTransition(config, t.(*PrecedencePredicateTransition), collectPredicates, inContext, fullCtx) + case TransitionPREDICATE: + return p.predTransition(config, t.(*PredicateTransition), collectPredicates, inContext, fullCtx) + case TransitionACTION: + return p.actionTransition(config, t.(*ActionTransition)) + case TransitionEPSILON: + return NewBaseATNConfig4(config, t.getTarget()) + case TransitionATOM: + // EOF transitions act like epsilon transitions after the first EOF + // transition is traversed + if treatEOFAsEpsilon { + if t.Matches(TokenEOF, 0, 1) { + return NewBaseATNConfig4(config, t.getTarget()) + } + } + return nil + case TransitionRANGE: + // EOF transitions act like epsilon transitions after the first EOF + // transition is traversed + if treatEOFAsEpsilon { + if t.Matches(TokenEOF, 0, 1) { + return NewBaseATNConfig4(config, t.getTarget()) + } + } + return nil + case TransitionSET: + // EOF transitions act like epsilon transitions after the first EOF + // transition is traversed + if treatEOFAsEpsilon { + if t.Matches(TokenEOF, 0, 1) { + return NewBaseATNConfig4(config, t.getTarget()) + } + } + return nil + default: + return nil + } +} + +func (p *ParserATNSimulator) actionTransition(config ATNConfig, t *ActionTransition) *BaseATNConfig { + if ParserATNSimulatorDebug { + fmt.Println("ACTION edge " + strconv.Itoa(t.ruleIndex) + ":" + strconv.Itoa(t.actionIndex)) + } + return NewBaseATNConfig4(config, t.getTarget()) +} + +func (p *ParserATNSimulator) precedenceTransition(config ATNConfig, + pt *PrecedencePredicateTransition, collectPredicates, inContext, fullCtx bool) *BaseATNConfig { + + if ParserATNSimulatorDebug { + fmt.Println("PRED (collectPredicates=" + fmt.Sprint(collectPredicates) + ") " + + strconv.Itoa(pt.precedence) + ">=_p, ctx dependent=true") + if p.parser != nil { + fmt.Println("context surrounding pred is " + fmt.Sprint(p.parser.GetRuleInvocationStack(nil))) + } + } + var c *BaseATNConfig + if collectPredicates && inContext { + if fullCtx { + // In full context mode, we can evaluate predicates on-the-fly + // during closure, which dramatically reduces the size of + // the config sets. It also obviates the need to test predicates + // later during conflict resolution. + currentPosition := p.input.Index() + p.input.Seek(p.startIndex) + predSucceeds := pt.getPredicate().evaluate(p.parser, p.outerContext) + p.input.Seek(currentPosition) + if predSucceeds { + c = NewBaseATNConfig4(config, pt.getTarget()) // no pred context + } + } else { + newSemCtx := SemanticContextandContext(config.GetSemanticContext(), pt.getPredicate()) + c = NewBaseATNConfig3(config, pt.getTarget(), newSemCtx) + } + } else { + c = NewBaseATNConfig4(config, pt.getTarget()) + } + if ParserATNSimulatorDebug { + fmt.Println("config from pred transition=" + c.String()) + } + return c +} + +func (p *ParserATNSimulator) predTransition(config ATNConfig, pt *PredicateTransition, collectPredicates, inContext, fullCtx bool) *BaseATNConfig { + + if ParserATNSimulatorDebug { + fmt.Println("PRED (collectPredicates=" + fmt.Sprint(collectPredicates) + ") " + strconv.Itoa(pt.ruleIndex) + + ":" + strconv.Itoa(pt.predIndex) + ", ctx dependent=" + fmt.Sprint(pt.isCtxDependent)) + if p.parser != nil { + fmt.Println("context surrounding pred is " + fmt.Sprint(p.parser.GetRuleInvocationStack(nil))) + } + } + var c *BaseATNConfig + if collectPredicates && ((pt.isCtxDependent && inContext) || !pt.isCtxDependent) { + if fullCtx { + // In full context mode, we can evaluate predicates on-the-fly + // during closure, which dramatically reduces the size of + // the config sets. It also obviates the need to test predicates + // later during conflict resolution. + currentPosition := p.input.Index() + p.input.Seek(p.startIndex) + predSucceeds := pt.getPredicate().evaluate(p.parser, p.outerContext) + p.input.Seek(currentPosition) + if predSucceeds { + c = NewBaseATNConfig4(config, pt.getTarget()) // no pred context + } + } else { + newSemCtx := SemanticContextandContext(config.GetSemanticContext(), pt.getPredicate()) + c = NewBaseATNConfig3(config, pt.getTarget(), newSemCtx) + } + } else { + c = NewBaseATNConfig4(config, pt.getTarget()) + } + if ParserATNSimulatorDebug { + fmt.Println("config from pred transition=" + c.String()) + } + return c +} + +func (p *ParserATNSimulator) ruleTransition(config ATNConfig, t *RuleTransition) *BaseATNConfig { + if ParserATNSimulatorDebug { + fmt.Println("CALL rule " + p.getRuleName(t.getTarget().GetRuleIndex()) + ", ctx=" + config.GetContext().String()) + } + returnState := t.followState + newContext := SingletonBasePredictionContextCreate(config.GetContext(), returnState.GetStateNumber()) + return NewBaseATNConfig1(config, t.getTarget(), newContext) +} + +func (p *ParserATNSimulator) getConflictingAlts(configs ATNConfigSet) *BitSet { + altsets := PredictionModegetConflictingAltSubsets(configs) + return PredictionModeGetAlts(altsets) +} + +// Sam pointed out a problem with the previous definition, v3, of +// ambiguous states. If we have another state associated with conflicting +// alternatives, we should keep going. For example, the following grammar +// +// s : (ID | ID ID?) '' +// +// When the ATN simulation reaches the state before '', it has a DFA +// state that looks like: [12|1|[], 6|2|[], 12|2|[]]. Naturally +// 12|1|[] and 12|2|[] conflict, but we cannot stop processing p node +// because alternative to has another way to continue, via [6|2|[]]. +// The key is that we have a single state that has config's only associated +// with a single alternative, 2, and crucially the state transitions +// among the configurations are all non-epsilon transitions. That means +// we don't consider any conflicts that include alternative 2. So, we +// ignore the conflict between alts 1 and 2. We ignore a set of +// conflicting alts when there is an intersection with an alternative +// associated with a single alt state in the state&rarrconfig-list map. +// +// It's also the case that we might have two conflicting configurations but +// also a 3rd nonconflicting configuration for a different alternative: +// [1|1|[], 1|2|[], 8|3|[]]. This can come about from grammar: +// +// a : A | A | A B +// +// After Matching input A, we reach the stop state for rule A, state 1. +// State 8 is the state right before B. Clearly alternatives 1 and 2 +// conflict and no amount of further lookahead will separate the two. +// However, alternative 3 will be able to continue and so we do not +// stop working on p state. In the previous example, we're concerned +// with states associated with the conflicting alternatives. Here alt +// 3 is not associated with the conflicting configs, but since we can continue +// looking for input reasonably, I don't declare the state done. We +// ignore a set of conflicting alts when we have an alternative +// that we still need to pursue. +// + +func (p *ParserATNSimulator) getConflictingAltsOrUniqueAlt(configs ATNConfigSet) *BitSet { + var conflictingAlts *BitSet + if configs.GetUniqueAlt() != ATNInvalidAltNumber { + conflictingAlts = NewBitSet() + conflictingAlts.add(configs.GetUniqueAlt()) + } else { + conflictingAlts = configs.GetConflictingAlts() + } + return conflictingAlts +} + +func (p *ParserATNSimulator) GetTokenName(t int) string { + if t == TokenEOF { + return "EOF" + } + + if p.parser != nil && p.parser.GetLiteralNames() != nil { + if t >= len(p.parser.GetLiteralNames()) { + fmt.Println(strconv.Itoa(t) + " ttype out of range: " + strings.Join(p.parser.GetLiteralNames(), ",")) + // fmt.Println(p.parser.GetInputStream().(TokenStream).GetAllText()) // p seems incorrect + } else { + return p.parser.GetLiteralNames()[t] + "<" + strconv.Itoa(t) + ">" + } + } + + return strconv.Itoa(t) +} + +func (p *ParserATNSimulator) getLookaheadName(input TokenStream) string { + return p.GetTokenName(input.LA(1)) +} + +// Used for debugging in AdaptivePredict around execATN but I cut +// it out for clarity now that alg. works well. We can leave p +// "dead" code for a bit. +// +func (p *ParserATNSimulator) dumpDeadEndConfigs(nvae *NoViableAltException) { + + panic("Not implemented") + + // fmt.Println("dead end configs: ") + // var decs = nvae.deadEndConfigs + // + // for i:=0; i0) { + // var t = c.state.GetTransitions()[0] + // if t2, ok := t.(*AtomTransition); ok { + // trans = "Atom "+ p.GetTokenName(t2.label) + // } else if t3, ok := t.(SetTransition); ok { + // _, ok := t.(*NotSetTransition) + // + // var s string + // if (ok){ + // s = "~" + // } + // + // trans = s + "Set " + t3.set + // } + // } + // fmt.Errorf(c.String(p.parser, true) + ":" + trans) + // } +} + +func (p *ParserATNSimulator) noViableAlt(input TokenStream, outerContext ParserRuleContext, configs ATNConfigSet, startIndex int) *NoViableAltException { + return NewNoViableAltException(p.parser, input, input.Get(startIndex), input.LT(1), configs, outerContext) +} + +func (p *ParserATNSimulator) getUniqueAlt(configs ATNConfigSet) int { + alt := ATNInvalidAltNumber + for _, c := range configs.GetItems() { + if alt == ATNInvalidAltNumber { + alt = c.GetAlt() // found first alt + } else if c.GetAlt() != alt { + return ATNInvalidAltNumber + } + } + return alt +} + +// +// Add an edge to the DFA, if possible. This method calls +// {@link //addDFAState} to ensure the {@code to} state is present in the +// DFA. If {@code from} is {@code nil}, or if {@code t} is outside the +// range of edges that can be represented in the DFA tables, p method +// returns without adding the edge to the DFA. +// +//

If {@code to} is {@code nil}, p method returns {@code nil}. +// Otherwise, p method returns the {@link DFAState} returned by calling +// {@link //addDFAState} for the {@code to} state.

+// +// @param dfa The DFA +// @param from The source state for the edge +// @param t The input symbol +// @param to The target state for the edge +// +// @return If {@code to} is {@code nil}, p method returns {@code nil} +// otherwise p method returns the result of calling {@link //addDFAState} +// on {@code to} +// +func (p *ParserATNSimulator) addDFAEdge(dfa *DFA, from *DFAState, t int, to *DFAState) *DFAState { + if ParserATNSimulatorDebug { + fmt.Println("EDGE " + from.String() + " -> " + to.String() + " upon " + p.GetTokenName(t)) + } + if to == nil { + return nil + } + to = p.addDFAState(dfa, to) // used existing if possible not incoming + if from == nil || t < -1 || t > p.atn.maxTokenType { + return to + } + if from.getEdges() == nil { + from.setEdges(make([]*DFAState, p.atn.maxTokenType+1+1)) + } + from.setIthEdge(t+1, to) // connect + + if ParserATNSimulatorDebug { + var names []string + if p.parser != nil { + names = p.parser.GetLiteralNames() + } + + fmt.Println("DFA=\n" + dfa.String(names, nil)) + } + return to +} + +// +// Add state {@code D} to the DFA if it is not already present, and return +// the actual instance stored in the DFA. If a state equivalent to {@code D} +// is already in the DFA, the existing state is returned. Otherwise p +// method returns {@code D} after adding it to the DFA. +// +//

If {@code D} is {@link //ERROR}, p method returns {@link //ERROR} and +// does not change the DFA.

+// +// @param dfa The dfa +// @param D The DFA state to add +// @return The state stored in the DFA. This will be either the existing +// state if {@code D} is already in the DFA, or {@code D} itself if the +// state was not already present. +// +func (p *ParserATNSimulator) addDFAState(dfa *DFA, d *DFAState) *DFAState { + if d == ATNSimulatorError { + return d + } + hash := d.hash() + existing, ok := dfa.getState(hash) + if ok { + return existing + } + d.stateNumber = dfa.numStates() + if !d.configs.ReadOnly() { + d.configs.OptimizeConfigs(p.BaseATNSimulator) + d.configs.SetReadOnly(true) + } + dfa.setState(hash, d) + if ParserATNSimulatorDebug { + fmt.Println("adding NewDFA state: " + d.String()) + } + return d +} + +func (p *ParserATNSimulator) ReportAttemptingFullContext(dfa *DFA, conflictingAlts *BitSet, configs ATNConfigSet, startIndex, stopIndex int) { + if ParserATNSimulatorDebug || ParserATNSimulatorRetryDebug { + interval := NewInterval(startIndex, stopIndex+1) + fmt.Println("ReportAttemptingFullContext decision=" + strconv.Itoa(dfa.decision) + ":" + configs.String() + + ", input=" + p.parser.GetTokenStream().GetTextFromInterval(interval)) + } + if p.parser != nil { + p.parser.GetErrorListenerDispatch().ReportAttemptingFullContext(p.parser, dfa, startIndex, stopIndex, conflictingAlts, configs) + } +} + +func (p *ParserATNSimulator) ReportContextSensitivity(dfa *DFA, prediction int, configs ATNConfigSet, startIndex, stopIndex int) { + if ParserATNSimulatorDebug || ParserATNSimulatorRetryDebug { + interval := NewInterval(startIndex, stopIndex+1) + fmt.Println("ReportContextSensitivity decision=" + strconv.Itoa(dfa.decision) + ":" + configs.String() + + ", input=" + p.parser.GetTokenStream().GetTextFromInterval(interval)) + } + if p.parser != nil { + p.parser.GetErrorListenerDispatch().ReportContextSensitivity(p.parser, dfa, startIndex, stopIndex, prediction, configs) + } +} + +// If context sensitive parsing, we know it's ambiguity not conflict// +func (p *ParserATNSimulator) ReportAmbiguity(dfa *DFA, D *DFAState, startIndex, stopIndex int, + exact bool, ambigAlts *BitSet, configs ATNConfigSet) { + if ParserATNSimulatorDebug || ParserATNSimulatorRetryDebug { + interval := NewInterval(startIndex, stopIndex+1) + fmt.Println("ReportAmbiguity " + ambigAlts.String() + ":" + configs.String() + + ", input=" + p.parser.GetTokenStream().GetTextFromInterval(interval)) + } + if p.parser != nil { + p.parser.GetErrorListenerDispatch().ReportAmbiguity(p.parser, dfa, startIndex, stopIndex, exact, ambigAlts, configs) + } +} diff --git a/vendor/github.com/antlr/antlr4/runtime/Go/antlr/parser_rule_context.go b/vendor/github.com/antlr/antlr4/runtime/Go/antlr/parser_rule_context.go new file mode 100644 index 000000000..49cd10c5f --- /dev/null +++ b/vendor/github.com/antlr/antlr4/runtime/Go/antlr/parser_rule_context.go @@ -0,0 +1,362 @@ +// Copyright (c) 2012-2017 The ANTLR Project. All rights reserved. +// Use of this file is governed by the BSD 3-clause license that +// can be found in the LICENSE.txt file in the project root. + +package antlr + +import ( + "reflect" + "strconv" +) + +type ParserRuleContext interface { + RuleContext + + SetException(RecognitionException) + + AddTokenNode(token Token) *TerminalNodeImpl + AddErrorNode(badToken Token) *ErrorNodeImpl + + EnterRule(listener ParseTreeListener) + ExitRule(listener ParseTreeListener) + + SetStart(Token) + GetStart() Token + + SetStop(Token) + GetStop() Token + + AddChild(child RuleContext) RuleContext + RemoveLastChild() +} + +type BaseParserRuleContext struct { + *BaseRuleContext + + start, stop Token + exception RecognitionException + children []Tree +} + +func NewBaseParserRuleContext(parent ParserRuleContext, invokingStateNumber int) *BaseParserRuleContext { + prc := new(BaseParserRuleContext) + + prc.BaseRuleContext = NewBaseRuleContext(parent, invokingStateNumber) + + prc.RuleIndex = -1 + // * If we are debugging or building a parse tree for a Visitor, + // we need to track all of the tokens and rule invocations associated + // with prc rule's context. This is empty for parsing w/o tree constr. + // operation because we don't the need to track the details about + // how we parse prc rule. + // / + prc.children = nil + prc.start = nil + prc.stop = nil + // The exception that forced prc rule to return. If the rule successfully + // completed, prc is {@code nil}. + prc.exception = nil + + return prc +} + +func (prc *BaseParserRuleContext) SetException(e RecognitionException) { + prc.exception = e +} + +func (prc *BaseParserRuleContext) GetChildren() []Tree { + return prc.children +} + +func (prc *BaseParserRuleContext) CopyFrom(ctx *BaseParserRuleContext) { + // from RuleContext + prc.parentCtx = ctx.parentCtx + prc.invokingState = ctx.invokingState + prc.children = nil + prc.start = ctx.start + prc.stop = ctx.stop +} + +func (prc *BaseParserRuleContext) GetText() string { + if prc.GetChildCount() == 0 { + return "" + } + + var s string + for _, child := range prc.children { + s += child.(ParseTree).GetText() + } + + return s +} + +// Double dispatch methods for listeners +func (prc *BaseParserRuleContext) EnterRule(listener ParseTreeListener) { +} + +func (prc *BaseParserRuleContext) ExitRule(listener ParseTreeListener) { +} + +// * Does not set parent link other add methods do that/// +func (prc *BaseParserRuleContext) addTerminalNodeChild(child TerminalNode) TerminalNode { + if prc.children == nil { + prc.children = make([]Tree, 0) + } + if child == nil { + panic("Child may not be null") + } + prc.children = append(prc.children, child) + return child +} + +func (prc *BaseParserRuleContext) AddChild(child RuleContext) RuleContext { + if prc.children == nil { + prc.children = make([]Tree, 0) + } + if child == nil { + panic("Child may not be null") + } + prc.children = append(prc.children, child) + return child +} + +// * Used by EnterOuterAlt to toss out a RuleContext previously added as +// we entered a rule. If we have // label, we will need to remove +// generic ruleContext object. +// / +func (prc *BaseParserRuleContext) RemoveLastChild() { + if prc.children != nil && len(prc.children) > 0 { + prc.children = prc.children[0 : len(prc.children)-1] + } +} + +func (prc *BaseParserRuleContext) AddTokenNode(token Token) *TerminalNodeImpl { + + node := NewTerminalNodeImpl(token) + prc.addTerminalNodeChild(node) + node.parentCtx = prc + return node + +} + +func (prc *BaseParserRuleContext) AddErrorNode(badToken Token) *ErrorNodeImpl { + node := NewErrorNodeImpl(badToken) + prc.addTerminalNodeChild(node) + node.parentCtx = prc + return node +} + +func (prc *BaseParserRuleContext) GetChild(i int) Tree { + if prc.children != nil && len(prc.children) >= i { + return prc.children[i] + } + + return nil +} + +func (prc *BaseParserRuleContext) GetChildOfType(i int, childType reflect.Type) RuleContext { + if childType == nil { + return prc.GetChild(i).(RuleContext) + } + + for j := 0; j < len(prc.children); j++ { + child := prc.children[j] + if reflect.TypeOf(child) == childType { + if i == 0 { + return child.(RuleContext) + } + + i-- + } + } + + return nil +} + +func (prc *BaseParserRuleContext) ToStringTree(ruleNames []string, recog Recognizer) string { + return TreesStringTree(prc, ruleNames, recog) +} + +func (prc *BaseParserRuleContext) GetRuleContext() RuleContext { + return prc +} + +func (prc *BaseParserRuleContext) Accept(visitor ParseTreeVisitor) interface{} { + return visitor.VisitChildren(prc) +} + +func (prc *BaseParserRuleContext) SetStart(t Token) { + prc.start = t +} + +func (prc *BaseParserRuleContext) GetStart() Token { + return prc.start +} + +func (prc *BaseParserRuleContext) SetStop(t Token) { + prc.stop = t +} + +func (prc *BaseParserRuleContext) GetStop() Token { + return prc.stop +} + +func (prc *BaseParserRuleContext) GetToken(ttype int, i int) TerminalNode { + + for j := 0; j < len(prc.children); j++ { + child := prc.children[j] + if c2, ok := child.(TerminalNode); ok { + if c2.GetSymbol().GetTokenType() == ttype { + if i == 0 { + return c2 + } + + i-- + } + } + } + return nil +} + +func (prc *BaseParserRuleContext) GetTokens(ttype int) []TerminalNode { + if prc.children == nil { + return make([]TerminalNode, 0) + } + + tokens := make([]TerminalNode, 0) + + for j := 0; j < len(prc.children); j++ { + child := prc.children[j] + if tchild, ok := child.(TerminalNode); ok { + if tchild.GetSymbol().GetTokenType() == ttype { + tokens = append(tokens, tchild) + } + } + } + + return tokens +} + +func (prc *BaseParserRuleContext) GetPayload() interface{} { + return prc +} + +func (prc *BaseParserRuleContext) getChild(ctxType reflect.Type, i int) RuleContext { + if prc.children == nil || i < 0 || i >= len(prc.children) { + return nil + } + + j := -1 // what element have we found with ctxType? + for _, o := range prc.children { + + childType := reflect.TypeOf(o) + + if childType.Implements(ctxType) { + j++ + if j == i { + return o.(RuleContext) + } + } + } + return nil +} + +// Go lacks generics, so it's not possible for us to return the child with the correct type, but we do +// check for convertibility + +func (prc *BaseParserRuleContext) GetTypedRuleContext(ctxType reflect.Type, i int) RuleContext { + return prc.getChild(ctxType, i) +} + +func (prc *BaseParserRuleContext) GetTypedRuleContexts(ctxType reflect.Type) []RuleContext { + if prc.children == nil { + return make([]RuleContext, 0) + } + + contexts := make([]RuleContext, 0) + + for _, child := range prc.children { + childType := reflect.TypeOf(child) + + if childType.ConvertibleTo(ctxType) { + contexts = append(contexts, child.(RuleContext)) + } + } + return contexts +} + +func (prc *BaseParserRuleContext) GetChildCount() int { + if prc.children == nil { + return 0 + } + + return len(prc.children) +} + +func (prc *BaseParserRuleContext) GetSourceInterval() *Interval { + if prc.start == nil || prc.stop == nil { + return TreeInvalidInterval + } + + return NewInterval(prc.start.GetTokenIndex(), prc.stop.GetTokenIndex()) +} + +//need to manage circular dependencies, so export now + +// Print out a whole tree, not just a node, in LISP format +// (root child1 .. childN). Print just a node if b is a leaf. +// + +func (prc *BaseParserRuleContext) String(ruleNames []string, stop RuleContext) string { + + var p ParserRuleContext = prc + s := "[" + for p != nil && p != stop { + if ruleNames == nil { + if !p.IsEmpty() { + s += strconv.Itoa(p.GetInvokingState()) + } + } else { + ri := p.GetRuleIndex() + var ruleName string + if ri >= 0 && ri < len(ruleNames) { + ruleName = ruleNames[ri] + } else { + ruleName = strconv.Itoa(ri) + } + s += ruleName + } + if p.GetParent() != nil && (ruleNames != nil || !p.GetParent().(ParserRuleContext).IsEmpty()) { + s += " " + } + pi := p.GetParent() + if pi != nil { + p = pi.(ParserRuleContext) + } else { + p = nil + } + } + s += "]" + return s +} + +var RuleContextEmpty = NewBaseParserRuleContext(nil, -1) + +type InterpreterRuleContext interface { + ParserRuleContext +} + +type BaseInterpreterRuleContext struct { + *BaseParserRuleContext +} + +func NewBaseInterpreterRuleContext(parent BaseInterpreterRuleContext, invokingStateNumber, ruleIndex int) *BaseInterpreterRuleContext { + + prc := new(BaseInterpreterRuleContext) + + prc.BaseParserRuleContext = NewBaseParserRuleContext(parent, invokingStateNumber) + + prc.RuleIndex = ruleIndex + + return prc +} diff --git a/vendor/github.com/antlr/antlr4/runtime/Go/antlr/prediction_context.go b/vendor/github.com/antlr/antlr4/runtime/Go/antlr/prediction_context.go new file mode 100644 index 000000000..99acb333f --- /dev/null +++ b/vendor/github.com/antlr/antlr4/runtime/Go/antlr/prediction_context.go @@ -0,0 +1,756 @@ +// Copyright (c) 2012-2017 The ANTLR Project. All rights reserved. +// Use of this file is governed by the BSD 3-clause license that +// can be found in the LICENSE.txt file in the project root. + +package antlr + +import ( + "strconv" +) + +// Represents {@code $} in local context prediction, which means wildcard. +// {@code//+x =//}. +// / +const ( + BasePredictionContextEmptyReturnState = 0x7FFFFFFF +) + +// Represents {@code $} in an array in full context mode, when {@code $} +// doesn't mean wildcard: {@code $ + x = [$,x]}. Here, +// {@code $} = {@link //EmptyReturnState}. +// / + +var ( + BasePredictionContextglobalNodeCount = 1 + BasePredictionContextid = BasePredictionContextglobalNodeCount +) + +type PredictionContext interface { + hash() int + GetParent(int) PredictionContext + getReturnState(int) int + equals(PredictionContext) bool + length() int + isEmpty() bool + hasEmptyPath() bool + String() string +} + +type BasePredictionContext struct { + cachedHash int +} + +func NewBasePredictionContext(cachedHash int) *BasePredictionContext { + pc := new(BasePredictionContext) + pc.cachedHash = cachedHash + + return pc +} + +func (b *BasePredictionContext) isEmpty() bool { + return false +} + +func calculateHash(parent PredictionContext, returnState int) int { + h := murmurInit(1) + h = murmurUpdate(h, parent.hash()) + h = murmurUpdate(h, returnState) + return murmurFinish(h, 2) +} + +func calculateEmptyHash() int { + h := murmurInit(1) + return murmurFinish(h, 0) +} + +// Used to cache {@link BasePredictionContext} objects. Its used for the shared +// context cash associated with contexts in DFA states. This cache +// can be used for both lexers and parsers. + +type PredictionContextCache struct { + cache map[PredictionContext]PredictionContext +} + +func NewPredictionContextCache() *PredictionContextCache { + t := new(PredictionContextCache) + t.cache = make(map[PredictionContext]PredictionContext) + return t +} + +// Add a context to the cache and return it. If the context already exists, +// return that one instead and do not add a Newcontext to the cache. +// Protect shared cache from unsafe thread access. +// +func (p *PredictionContextCache) add(ctx PredictionContext) PredictionContext { + if ctx == BasePredictionContextEMPTY { + return BasePredictionContextEMPTY + } + existing := p.cache[ctx] + if existing != nil { + return existing + } + p.cache[ctx] = ctx + return ctx +} + +func (p *PredictionContextCache) Get(ctx PredictionContext) PredictionContext { + return p.cache[ctx] +} + +func (p *PredictionContextCache) length() int { + return len(p.cache) +} + +type SingletonPredictionContext interface { + PredictionContext +} + +type BaseSingletonPredictionContext struct { + *BasePredictionContext + + parentCtx PredictionContext + returnState int +} + +func NewBaseSingletonPredictionContext(parent PredictionContext, returnState int) *BaseSingletonPredictionContext { + + s := new(BaseSingletonPredictionContext) + s.BasePredictionContext = NewBasePredictionContext(37) + + if parent != nil { + s.cachedHash = calculateHash(parent, returnState) + } else { + s.cachedHash = calculateEmptyHash() + } + + s.parentCtx = parent + s.returnState = returnState + + return s +} + +func SingletonBasePredictionContextCreate(parent PredictionContext, returnState int) PredictionContext { + if returnState == BasePredictionContextEmptyReturnState && parent == nil { + // someone can pass in the bits of an array ctx that mean $ + return BasePredictionContextEMPTY + } + + return NewBaseSingletonPredictionContext(parent, returnState) +} + +func (b *BaseSingletonPredictionContext) length() int { + return 1 +} + +func (b *BaseSingletonPredictionContext) GetParent(index int) PredictionContext { + return b.parentCtx +} + +func (b *BaseSingletonPredictionContext) getReturnState(index int) int { + return b.returnState +} + +func (b *BaseSingletonPredictionContext) hasEmptyPath() bool { + return b.returnState == BasePredictionContextEmptyReturnState +} + +func (b *BaseSingletonPredictionContext) equals(other PredictionContext) bool { + if b == other { + return true + } else if _, ok := other.(*BaseSingletonPredictionContext); !ok { + return false + } else if b.hash() != other.hash() { + return false // can't be same if hash is different + } + + otherP := other.(*BaseSingletonPredictionContext) + + if b.returnState != other.getReturnState(0) { + return false + } else if b.parentCtx == nil { + return otherP.parentCtx == nil + } + + return b.parentCtx.equals(otherP.parentCtx) +} + +func (b *BaseSingletonPredictionContext) hash() int { + h := murmurInit(1) + + if b.parentCtx == nil { + return murmurFinish(h, 0) + } + + h = murmurUpdate(h, b.parentCtx.hash()) + h = murmurUpdate(h, b.returnState) + return murmurFinish(h, 2) +} + +func (b *BaseSingletonPredictionContext) String() string { + var up string + + if b.parentCtx == nil { + up = "" + } else { + up = b.parentCtx.String() + } + + if len(up) == 0 { + if b.returnState == BasePredictionContextEmptyReturnState { + return "$" + } + + return strconv.Itoa(b.returnState) + } + + return strconv.Itoa(b.returnState) + " " + up +} + +var BasePredictionContextEMPTY = NewEmptyPredictionContext() + +type EmptyPredictionContext struct { + *BaseSingletonPredictionContext +} + +func NewEmptyPredictionContext() *EmptyPredictionContext { + + p := new(EmptyPredictionContext) + + p.BaseSingletonPredictionContext = NewBaseSingletonPredictionContext(nil, BasePredictionContextEmptyReturnState) + + return p +} + +func (e *EmptyPredictionContext) isEmpty() bool { + return true +} + +func (e *EmptyPredictionContext) GetParent(index int) PredictionContext { + return nil +} + +func (e *EmptyPredictionContext) getReturnState(index int) int { + return e.returnState +} + +func (e *EmptyPredictionContext) equals(other PredictionContext) bool { + return e == other +} + +func (e *EmptyPredictionContext) String() string { + return "$" +} + +type ArrayPredictionContext struct { + *BasePredictionContext + + parents []PredictionContext + returnStates []int +} + +func NewArrayPredictionContext(parents []PredictionContext, returnStates []int) *ArrayPredictionContext { + // Parent can be nil only if full ctx mode and we make an array + // from {@link //EMPTY} and non-empty. We merge {@link //EMPTY} by using + // nil parent and + // returnState == {@link //EmptyReturnState}. + + c := new(ArrayPredictionContext) + c.BasePredictionContext = NewBasePredictionContext(37) + + for i := range parents { + c.cachedHash += calculateHash(parents[i], returnStates[i]) + } + + c.parents = parents + c.returnStates = returnStates + + return c +} + +func (a *ArrayPredictionContext) GetReturnStates() []int { + return a.returnStates +} + +func (a *ArrayPredictionContext) hasEmptyPath() bool { + return a.getReturnState(a.length()-1) == BasePredictionContextEmptyReturnState +} + +func (a *ArrayPredictionContext) isEmpty() bool { + // since EmptyReturnState can only appear in the last position, we + // don't need to verify that size==1 + return a.returnStates[0] == BasePredictionContextEmptyReturnState +} + +func (a *ArrayPredictionContext) length() int { + return len(a.returnStates) +} + +func (a *ArrayPredictionContext) GetParent(index int) PredictionContext { + return a.parents[index] +} + +func (a *ArrayPredictionContext) getReturnState(index int) int { + return a.returnStates[index] +} + +func (a *ArrayPredictionContext) equals(other PredictionContext) bool { + if _, ok := other.(*ArrayPredictionContext); !ok { + return false + } else if a.cachedHash != other.hash() { + return false // can't be same if hash is different + } else { + otherP := other.(*ArrayPredictionContext) + return &a.returnStates == &otherP.returnStates && &a.parents == &otherP.parents + } +} + +func (a *ArrayPredictionContext) hash() int { + h := murmurInit(1) + + for _, p := range a.parents { + h = murmurUpdate(h, p.hash()) + } + + for _, r := range a.returnStates { + h = murmurUpdate(h, r) + } + + return murmurFinish(h, 2 * len(a.parents)) +} + +func (a *ArrayPredictionContext) String() string { + if a.isEmpty() { + return "[]" + } + + s := "[" + for i := 0; i < len(a.returnStates); i++ { + if i > 0 { + s = s + ", " + } + if a.returnStates[i] == BasePredictionContextEmptyReturnState { + s = s + "$" + continue + } + s = s + strconv.Itoa(a.returnStates[i]) + if a.parents[i] != nil { + s = s + " " + a.parents[i].String() + } else { + s = s + "nil" + } + } + + return s + "]" +} + +// Convert a {@link RuleContext} tree to a {@link BasePredictionContext} graph. +// Return {@link //EMPTY} if {@code outerContext} is empty or nil. +// / +func predictionContextFromRuleContext(a *ATN, outerContext RuleContext) PredictionContext { + if outerContext == nil { + outerContext = RuleContextEmpty + } + // if we are in RuleContext of start rule, s, then BasePredictionContext + // is EMPTY. Nobody called us. (if we are empty, return empty) + if outerContext.GetParent() == nil || outerContext == RuleContextEmpty { + return BasePredictionContextEMPTY + } + // If we have a parent, convert it to a BasePredictionContext graph + parent := predictionContextFromRuleContext(a, outerContext.GetParent().(RuleContext)) + state := a.states[outerContext.GetInvokingState()] + transition := state.GetTransitions()[0] + + return SingletonBasePredictionContextCreate(parent, transition.(*RuleTransition).followState.GetStateNumber()) +} + +func merge(a, b PredictionContext, rootIsWildcard bool, mergeCache *DoubleDict) PredictionContext { + // share same graph if both same + if a == b { + return a + } + + ac, ok1 := a.(*BaseSingletonPredictionContext) + bc, ok2 := b.(*BaseSingletonPredictionContext) + + if ok1 && ok2 { + return mergeSingletons(ac, bc, rootIsWildcard, mergeCache) + } + // At least one of a or b is array + // If one is $ and rootIsWildcard, return $ as// wildcard + if rootIsWildcard { + if _, ok := a.(*EmptyPredictionContext); ok { + return a + } + if _, ok := b.(*EmptyPredictionContext); ok { + return b + } + } + // convert singleton so both are arrays to normalize + if _, ok := a.(*BaseSingletonPredictionContext); ok { + a = NewArrayPredictionContext([]PredictionContext{a.GetParent(0)}, []int{a.getReturnState(0)}) + } + if _, ok := b.(*BaseSingletonPredictionContext); ok { + b = NewArrayPredictionContext([]PredictionContext{b.GetParent(0)}, []int{b.getReturnState(0)}) + } + return mergeArrays(a.(*ArrayPredictionContext), b.(*ArrayPredictionContext), rootIsWildcard, mergeCache) +} + +// +// Merge two {@link SingletonBasePredictionContext} instances. +// +//

Stack tops equal, parents merge is same return left graph.
+//

+// +//

Same stack top, parents differ merge parents giving array node, then +// remainders of those graphs. A Newroot node is created to point to the +// merged parents.
+//

+// +//

Different stack tops pointing to same parent. Make array node for the +// root where both element in the root point to the same (original) +// parent.
+//

+// +//

Different stack tops pointing to different parents. Make array node for +// the root where each element points to the corresponding original +// parent.
+//

+// +// @param a the first {@link SingletonBasePredictionContext} +// @param b the second {@link SingletonBasePredictionContext} +// @param rootIsWildcard {@code true} if this is a local-context merge, +// otherwise false to indicate a full-context merge +// @param mergeCache +// / +func mergeSingletons(a, b *BaseSingletonPredictionContext, rootIsWildcard bool, mergeCache *DoubleDict) PredictionContext { + if mergeCache != nil { + previous := mergeCache.Get(a.hash(), b.hash()) + if previous != nil { + return previous.(PredictionContext) + } + previous = mergeCache.Get(b.hash(), a.hash()) + if previous != nil { + return previous.(PredictionContext) + } + } + + rootMerge := mergeRoot(a, b, rootIsWildcard) + if rootMerge != nil { + if mergeCache != nil { + mergeCache.set(a.hash(), b.hash(), rootMerge) + } + return rootMerge + } + if a.returnState == b.returnState { + parent := merge(a.parentCtx, b.parentCtx, rootIsWildcard, mergeCache) + // if parent is same as existing a or b parent or reduced to a parent, + // return it + if parent == a.parentCtx { + return a // ax + bx = ax, if a=b + } + if parent == b.parentCtx { + return b // ax + bx = bx, if a=b + } + // else: ax + ay = a'[x,y] + // merge parents x and y, giving array node with x,y then remainders + // of those graphs. dup a, a' points at merged array + // Newjoined parent so create Newsingleton pointing to it, a' + spc := SingletonBasePredictionContextCreate(parent, a.returnState) + if mergeCache != nil { + mergeCache.set(a.hash(), b.hash(), spc) + } + return spc + } + // a != b payloads differ + // see if we can collapse parents due to $+x parents if local ctx + var singleParent PredictionContext + if a == b || (a.parentCtx != nil && a.parentCtx == b.parentCtx) { // ax + + // bx = + // [a,b]x + singleParent = a.parentCtx + } + if singleParent != nil { // parents are same + // sort payloads and use same parent + payloads := []int{a.returnState, b.returnState} + if a.returnState > b.returnState { + payloads[0] = b.returnState + payloads[1] = a.returnState + } + parents := []PredictionContext{singleParent, singleParent} + apc := NewArrayPredictionContext(parents, payloads) + if mergeCache != nil { + mergeCache.set(a.hash(), b.hash(), apc) + } + return apc + } + // parents differ and can't merge them. Just pack together + // into array can't merge. + // ax + by = [ax,by] + payloads := []int{a.returnState, b.returnState} + parents := []PredictionContext{a.parentCtx, b.parentCtx} + if a.returnState > b.returnState { // sort by payload + payloads[0] = b.returnState + payloads[1] = a.returnState + parents = []PredictionContext{b.parentCtx, a.parentCtx} + } + apc := NewArrayPredictionContext(parents, payloads) + if mergeCache != nil { + mergeCache.set(a.hash(), b.hash(), apc) + } + return apc +} + +// +// Handle case where at least one of {@code a} or {@code b} is +// {@link //EMPTY}. In the following diagrams, the symbol {@code $} is used +// to represent {@link //EMPTY}. +// +//

Local-Context Merges

+// +//

These local-context merge operations are used when {@code rootIsWildcard} +// is true.

+// +//

{@link //EMPTY} is superset of any graph return {@link //EMPTY}.
+//

+// +//

{@link //EMPTY} and anything is {@code //EMPTY}, so merged parent is +// {@code //EMPTY} return left graph.
+//

+// +//

Special case of last merge if local context.
+//

+// +//

Full-Context Merges

+// +//

These full-context merge operations are used when {@code rootIsWildcard} +// is false.

+// +//

+// +//

Must keep all contexts {@link //EMPTY} in array is a special value (and +// nil parent).
+//

+// +//

+// +// @param a the first {@link SingletonBasePredictionContext} +// @param b the second {@link SingletonBasePredictionContext} +// @param rootIsWildcard {@code true} if this is a local-context merge, +// otherwise false to indicate a full-context merge +// / +func mergeRoot(a, b SingletonPredictionContext, rootIsWildcard bool) PredictionContext { + if rootIsWildcard { + if a == BasePredictionContextEMPTY { + return BasePredictionContextEMPTY // // + b =// + } + if b == BasePredictionContextEMPTY { + return BasePredictionContextEMPTY // a +// =// + } + } else { + if a == BasePredictionContextEMPTY && b == BasePredictionContextEMPTY { + return BasePredictionContextEMPTY // $ + $ = $ + } else if a == BasePredictionContextEMPTY { // $ + x = [$,x] + payloads := []int{b.getReturnState(-1), BasePredictionContextEmptyReturnState} + parents := []PredictionContext{b.GetParent(-1), nil} + return NewArrayPredictionContext(parents, payloads) + } else if b == BasePredictionContextEMPTY { // x + $ = [$,x] ($ is always first if present) + payloads := []int{a.getReturnState(-1), BasePredictionContextEmptyReturnState} + parents := []PredictionContext{a.GetParent(-1), nil} + return NewArrayPredictionContext(parents, payloads) + } + } + return nil +} + +// +// Merge two {@link ArrayBasePredictionContext} instances. +// +//

Different tops, different parents.
+//

+// +//

Shared top, same parents.
+//

+// +//

Shared top, different parents.
+//

+// +//

Shared top, all shared parents.
+//

+// +//

Equal tops, merge parents and reduce top to +// {@link SingletonBasePredictionContext}.
+//

+// / +func mergeArrays(a, b *ArrayPredictionContext, rootIsWildcard bool, mergeCache *DoubleDict) PredictionContext { + if mergeCache != nil { + previous := mergeCache.Get(a.hash(), b.hash()) + if previous != nil { + return previous.(PredictionContext) + } + previous = mergeCache.Get(b.hash(), a.hash()) + if previous != nil { + return previous.(PredictionContext) + } + } + // merge sorted payloads a + b => M + i := 0 // walks a + j := 0 // walks b + k := 0 // walks target M array + + mergedReturnStates := make([]int, len(a.returnStates)+len(b.returnStates)) + mergedParents := make([]PredictionContext, len(a.returnStates)+len(b.returnStates)) + // walk and merge to yield mergedParents, mergedReturnStates + for i < len(a.returnStates) && j < len(b.returnStates) { + aParent := a.parents[i] + bParent := b.parents[j] + if a.returnStates[i] == b.returnStates[j] { + // same payload (stack tops are equal), must yield merged singleton + payload := a.returnStates[i] + // $+$ = $ + bothDollars := payload == BasePredictionContextEmptyReturnState && aParent == nil && bParent == nil + axAX := (aParent != nil && bParent != nil && aParent == bParent) // ax+ax + // -> + // ax + if bothDollars || axAX { + mergedParents[k] = aParent // choose left + mergedReturnStates[k] = payload + } else { // ax+ay -> a'[x,y] + mergedParent := merge(aParent, bParent, rootIsWildcard, mergeCache) + mergedParents[k] = mergedParent + mergedReturnStates[k] = payload + } + i++ // hop over left one as usual + j++ // but also Skip one in right side since we merge + } else if a.returnStates[i] < b.returnStates[j] { // copy a[i] to M + mergedParents[k] = aParent + mergedReturnStates[k] = a.returnStates[i] + i++ + } else { // b > a, copy b[j] to M + mergedParents[k] = bParent + mergedReturnStates[k] = b.returnStates[j] + j++ + } + k++ + } + // copy over any payloads remaining in either array + if i < len(a.returnStates) { + for p := i; p < len(a.returnStates); p++ { + mergedParents[k] = a.parents[p] + mergedReturnStates[k] = a.returnStates[p] + k++ + } + } else { + for p := j; p < len(b.returnStates); p++ { + mergedParents[k] = b.parents[p] + mergedReturnStates[k] = b.returnStates[p] + k++ + } + } + // trim merged if we combined a few that had same stack tops + if k < len(mergedParents) { // write index < last position trim + if k == 1 { // for just one merged element, return singleton top + pc := SingletonBasePredictionContextCreate(mergedParents[0], mergedReturnStates[0]) + if mergeCache != nil { + mergeCache.set(a.hash(), b.hash(), pc) + } + return pc + } + mergedParents = mergedParents[0:k] + mergedReturnStates = mergedReturnStates[0:k] + } + + M := NewArrayPredictionContext(mergedParents, mergedReturnStates) + + // if we created same array as a or b, return that instead + // TODO: track whether this is possible above during merge sort for speed + if M == a { + if mergeCache != nil { + mergeCache.set(a.hash(), b.hash(), a) + } + return a + } + if M == b { + if mergeCache != nil { + mergeCache.set(a.hash(), b.hash(), b) + } + return b + } + combineCommonParents(mergedParents) + + if mergeCache != nil { + mergeCache.set(a.hash(), b.hash(), M) + } + return M +} + +// +// Make pass over all M {@code parents} merge any {@code equals()} +// ones. +// / +func combineCommonParents(parents []PredictionContext) { + uniqueParents := make(map[PredictionContext]PredictionContext) + + for p := 0; p < len(parents); p++ { + parent := parents[p] + if uniqueParents[parent] == nil { + uniqueParents[parent] = parent + } + } + for q := 0; q < len(parents); q++ { + parents[q] = uniqueParents[parents[q]] + } +} + +func getCachedBasePredictionContext(context PredictionContext, contextCache *PredictionContextCache, visited map[PredictionContext]PredictionContext) PredictionContext { + + if context.isEmpty() { + return context + } + existing := visited[context] + if existing != nil { + return existing + } + existing = contextCache.Get(context) + if existing != nil { + visited[context] = existing + return existing + } + changed := false + parents := make([]PredictionContext, context.length()) + for i := 0; i < len(parents); i++ { + parent := getCachedBasePredictionContext(context.GetParent(i), contextCache, visited) + if changed || parent != context.GetParent(i) { + if !changed { + parents = make([]PredictionContext, context.length()) + for j := 0; j < context.length(); j++ { + parents[j] = context.GetParent(j) + } + changed = true + } + parents[i] = parent + } + } + if !changed { + contextCache.add(context) + visited[context] = context + return context + } + var updated PredictionContext + if len(parents) == 0 { + updated = BasePredictionContextEMPTY + } else if len(parents) == 1 { + updated = SingletonBasePredictionContextCreate(parents[0], context.getReturnState(0)) + } else { + updated = NewArrayPredictionContext(parents, context.(*ArrayPredictionContext).GetReturnStates()) + } + contextCache.add(updated) + visited[updated] = updated + visited[context] = updated + + return updated +} diff --git a/vendor/github.com/antlr/antlr4/runtime/Go/antlr/prediction_mode.go b/vendor/github.com/antlr/antlr4/runtime/Go/antlr/prediction_mode.go new file mode 100644 index 000000000..15718f912 --- /dev/null +++ b/vendor/github.com/antlr/antlr4/runtime/Go/antlr/prediction_mode.go @@ -0,0 +1,553 @@ +// Copyright (c) 2012-2017 The ANTLR Project. All rights reserved. +// Use of this file is governed by the BSD 3-clause license that +// can be found in the LICENSE.txt file in the project root. + +package antlr + +// This enumeration defines the prediction modes available in ANTLR 4 along with +// utility methods for analyzing configuration sets for conflicts and/or +// ambiguities. + +const ( + // + // The SLL(*) prediction mode. This prediction mode ignores the current + // parser context when making predictions. This is the fastest prediction + // mode, and provides correct results for many grammars. This prediction + // mode is more powerful than the prediction mode provided by ANTLR 3, but + // may result in syntax errors for grammar and input combinations which are + // not SLL. + // + //

+ // When using this prediction mode, the parser will either return a correct + // parse tree (i.e. the same parse tree that would be returned with the + // {@link //LL} prediction mode), or it will Report a syntax error. If a + // syntax error is encountered when using the {@link //SLL} prediction mode, + // it may be due to either an actual syntax error in the input or indicate + // that the particular combination of grammar and input requires the more + // powerful {@link //LL} prediction abilities to complete successfully.

+ // + //

+ // This prediction mode does not provide any guarantees for prediction + // behavior for syntactically-incorrect inputs.

+ // + PredictionModeSLL = 0 + // + // The LL(*) prediction mode. This prediction mode allows the current parser + // context to be used for resolving SLL conflicts that occur during + // prediction. This is the fastest prediction mode that guarantees correct + // parse results for all combinations of grammars with syntactically correct + // inputs. + // + //

+ // When using this prediction mode, the parser will make correct decisions + // for all syntactically-correct grammar and input combinations. However, in + // cases where the grammar is truly ambiguous this prediction mode might not + // Report a precise answer for exactly which alternatives are + // ambiguous.

+ // + //

+ // This prediction mode does not provide any guarantees for prediction + // behavior for syntactically-incorrect inputs.

+ // + PredictionModeLL = 1 + // + // The LL(*) prediction mode with exact ambiguity detection. In addition to + // the correctness guarantees provided by the {@link //LL} prediction mode, + // this prediction mode instructs the prediction algorithm to determine the + // complete and exact set of ambiguous alternatives for every ambiguous + // decision encountered while parsing. + // + //

+ // This prediction mode may be used for diagnosing ambiguities during + // grammar development. Due to the performance overhead of calculating sets + // of ambiguous alternatives, this prediction mode should be avoided when + // the exact results are not necessary.

+ // + //

+ // This prediction mode does not provide any guarantees for prediction + // behavior for syntactically-incorrect inputs.

+ // + PredictionModeLLExactAmbigDetection = 2 +) + +// +// Computes the SLL prediction termination condition. +// +//

+// This method computes the SLL prediction termination condition for both of +// the following cases.

+// +//
    +//
  • The usual SLL+LL fallback upon SLL conflict
    • +//
  • Pure SLL without LL fallback
    • +//
+// +//

COMBINED SLL+LL PARSING

+// +//

When LL-fallback is enabled upon SLL conflict, correct predictions are +// ensured regardless of how the termination condition is computed by this +// method. Due to the substantially higher cost of LL prediction, the +// prediction should only fall back to LL when the additional lookahead +// cannot lead to a unique SLL prediction.

+// +//

Assuming combined SLL+LL parsing, an SLL configuration set with only +// conflicting subsets should fall back to full LL, even if the +// configuration sets don't resolve to the same alternative (e.g. +// {@code {1,2}} and {@code {3,4}}. If there is at least one non-conflicting +// configuration, SLL could continue with the hopes that more lookahead will +// resolve via one of those non-conflicting configurations.

+// +//

Here's the prediction termination rule them: SLL (for SLL+LL parsing) +// stops when it sees only conflicting configuration subsets. In contrast, +// full LL keeps going when there is uncertainty.

+// +//

HEURISTIC

+// +//

As a heuristic, we stop prediction when we see any conflicting subset +// unless we see a state that only has one alternative associated with it. +// The single-alt-state thing lets prediction continue upon rules like +// (otherwise, it would admit defeat too soon):

+// +//

{@code [12|1|[], 6|2|[], 12|2|[]]. s : (ID | ID ID?) '' }

+// +//

When the ATN simulation reaches the state before {@code ''}, it has a +// DFA state that looks like: {@code [12|1|[], 6|2|[], 12|2|[]]}. Naturally +// {@code 12|1|[]} and {@code 12|2|[]} conflict, but we cannot stop +// processing this node because alternative to has another way to continue, +// via {@code [6|2|[]]}.

+// +//

It also let's us continue for this rule:

+// +//

{@code [1|1|[], 1|2|[], 8|3|[]] a : A | A | A B }

+// +//

After Matching input A, we reach the stop state for rule A, state 1. +// State 8 is the state right before B. Clearly alternatives 1 and 2 +// conflict and no amount of further lookahead will separate the two. +// However, alternative 3 will be able to continue and so we do not stop +// working on this state. In the previous example, we're concerned with +// states associated with the conflicting alternatives. Here alt 3 is not +// associated with the conflicting configs, but since we can continue +// looking for input reasonably, don't declare the state done.

+// +//

PURE SLL PARSING

+// +//

To handle pure SLL parsing, all we have to do is make sure that we +// combine stack contexts for configurations that differ only by semantic +// predicate. From there, we can do the usual SLL termination heuristic.

+// +//

PREDICATES IN SLL+LL PARSING

+// +//

SLL decisions don't evaluate predicates until after they reach DFA stop +// states because they need to create the DFA cache that works in all +// semantic situations. In contrast, full LL evaluates predicates collected +// during start state computation so it can ignore predicates thereafter. +// This means that SLL termination detection can totally ignore semantic +// predicates.

+// +//

Implementation-wise, {@link ATNConfigSet} combines stack contexts but not +// semantic predicate contexts so we might see two configurations like the +// following.

+// +//

{@code (s, 1, x, {}), (s, 1, x', {p})}

+// +//

Before testing these configurations against others, we have to merge +// {@code x} and {@code x'} (without modifying the existing configurations). +// For example, we test {@code (x+x')==x''} when looking for conflicts in +// the following configurations.

+// +//

{@code (s, 1, x, {}), (s, 1, x', {p}), (s, 2, x'', {})}

+// +//

If the configuration set has predicates (as indicated by +// {@link ATNConfigSet//hasSemanticContext}), this algorithm makes a copy of +// the configurations to strip out all of the predicates so that a standard +// {@link ATNConfigSet} will merge everything ignoring predicates.

+// +func PredictionModehasSLLConflictTerminatingPrediction(mode int, configs ATNConfigSet) bool { + // Configs in rule stop states indicate reaching the end of the decision + // rule (local context) or end of start rule (full context). If all + // configs meet this condition, then none of the configurations is able + // to Match additional input so we terminate prediction. + // + if PredictionModeallConfigsInRuleStopStates(configs) { + return true + } + // pure SLL mode parsing + if mode == PredictionModeSLL { + // Don't bother with combining configs from different semantic + // contexts if we can fail over to full LL costs more time + // since we'll often fail over anyway. + if configs.HasSemanticContext() { + // dup configs, tossing out semantic predicates + dup := NewBaseATNConfigSet(false) + for _, c := range configs.GetItems() { + + // NewBaseATNConfig({semanticContext:}, c) + c = NewBaseATNConfig2(c, SemanticContextNone) + dup.Add(c, nil) + } + configs = dup + } + // now we have combined contexts for configs with dissimilar preds + } + // pure SLL or combined SLL+LL mode parsing + altsets := PredictionModegetConflictingAltSubsets(configs) + return PredictionModehasConflictingAltSet(altsets) && !PredictionModehasStateAssociatedWithOneAlt(configs) +} + +// Checks if any configuration in {@code configs} is in a +// {@link RuleStopState}. Configurations meeting this condition have reached +// the end of the decision rule (local context) or end of start rule (full +// context). +// +// @param configs the configuration set to test +// @return {@code true} if any configuration in {@code configs} is in a +// {@link RuleStopState}, otherwise {@code false} +func PredictionModehasConfigInRuleStopState(configs ATNConfigSet) bool { + for _, c := range configs.GetItems() { + if _, ok := c.GetState().(*RuleStopState); ok { + return true + } + } + return false +} + +// Checks if all configurations in {@code configs} are in a +// {@link RuleStopState}. Configurations meeting this condition have reached +// the end of the decision rule (local context) or end of start rule (full +// context). +// +// @param configs the configuration set to test +// @return {@code true} if all configurations in {@code configs} are in a +// {@link RuleStopState}, otherwise {@code false} +func PredictionModeallConfigsInRuleStopStates(configs ATNConfigSet) bool { + + for _, c := range configs.GetItems() { + if _, ok := c.GetState().(*RuleStopState); !ok { + return false + } + } + return true +} + +// +// Full LL prediction termination. +// +//

Can we stop looking ahead during ATN simulation or is there some +// uncertainty as to which alternative we will ultimately pick, after +// consuming more input? Even if there are partial conflicts, we might know +// that everything is going to resolve to the same minimum alternative. That +// means we can stop since no more lookahead will change that fact. On the +// other hand, there might be multiple conflicts that resolve to different +// minimums. That means we need more look ahead to decide which of those +// alternatives we should predict.

+// +//

The basic idea is to split the set of configurations {@code C}, into +// conflicting subsets {@code (s, _, ctx, _)} and singleton subsets with +// non-conflicting configurations. Two configurations conflict if they have +// identical {@link ATNConfig//state} and {@link ATNConfig//context} values +// but different {@link ATNConfig//alt} value, e.g. {@code (s, i, ctx, _)} +// and {@code (s, j, ctx, _)} for {@code i!=j}.

+// +//

Reduce these configuration subsets to the set of possible alternatives. +// You can compute the alternative subsets in one pass as follows:

+// +//

{@code A_s,ctx = {i | (s, i, ctx, _)}} for each configuration in +// {@code C} holding {@code s} and {@code ctx} fixed.

+// +//

Or in pseudo-code, for each configuration {@code c} in {@code C}:

+// +// 
+// map[c] U= c.{@link ATNConfig//alt alt} // map hash/equals uses s and x, not
+// alt and not pred
+//
+// +//

The values in {@code map} are the set of {@code A_s,ctx} sets.

+// +//

If {@code |A_s,ctx|=1} then there is no conflict associated with +// {@code s} and {@code ctx}.

+// +//

Reduce the subsets to singletons by choosing a minimum of each subset. If +// the union of these alternative subsets is a singleton, then no amount of +// more lookahead will help us. We will always pick that alternative. If, +// however, there is more than one alternative, then we are uncertain which +// alternative to predict and must continue looking for resolution. We may +// or may not discover an ambiguity in the future, even if there are no +// conflicting subsets this round.

+// +//

The biggest sin is to terminate early because it means we've made a +// decision but were uncertain as to the eventual outcome. We haven't used +// enough lookahead. On the other hand, announcing a conflict too late is no +// big deal you will still have the conflict. It's just inefficient. It +// might even look until the end of file.

+// +//

No special consideration for semantic predicates is required because +// predicates are evaluated on-the-fly for full LL prediction, ensuring that +// no configuration contains a semantic context during the termination +// check.

+// +//

CONFLICTING CONFIGS

+// +//

Two configurations {@code (s, i, x)} and {@code (s, j, x')}, conflict +// when {@code i!=j} but {@code x=x'}. Because we merge all +// {@code (s, i, _)} configurations together, that means that there are at +// most {@code n} configurations associated with state {@code s} for +// {@code n} possible alternatives in the decision. The merged stacks +// complicate the comparison of configuration contexts {@code x} and +// {@code x'}. Sam checks to see if one is a subset of the other by calling +// merge and checking to see if the merged result is either {@code x} or +// {@code x'}. If the {@code x} associated with lowest alternative {@code i} +// is the superset, then {@code i} is the only possible prediction since the +// others resolve to {@code min(i)} as well. However, if {@code x} is +// associated with {@code j>i} then at least one stack configuration for +// {@code j} is not in conflict with alternative {@code i}. The algorithm +// should keep going, looking for more lookahead due to the uncertainty.

+// +//

For simplicity, I'm doing a equality check between {@code x} and +// {@code x'} that lets the algorithm continue to consume lookahead longer +// than necessary. The reason I like the equality is of course the +// simplicity but also because that is the test you need to detect the +// alternatives that are actually in conflict.

+// +//

CONTINUE/STOP RULE

+// +//

Continue if union of resolved alternative sets from non-conflicting and +// conflicting alternative subsets has more than one alternative. We are +// uncertain about which alternative to predict.

+// +//

The complete set of alternatives, {@code [i for (_,i,_)]}, tells us which +// alternatives are still in the running for the amount of input we've +// consumed at this point. The conflicting sets let us to strip away +// configurations that won't lead to more states because we resolve +// conflicts to the configuration with a minimum alternate for the +// conflicting set.

+// +//

CASES

+// +//
    +// +//
  • no conflicts and more than 1 alternative in set => continue
    • +// +//
  • {@code (s, 1, x)}, {@code (s, 2, x)}, {@code (s, 3, z)}, +// {@code (s', 1, y)}, {@code (s', 2, y)} yields non-conflicting set +// {@code {3}} U conflicting sets {@code min({1,2})} U {@code min({1,2})} = +// {@code {1,3}} => continue +//
    • +// +//
  • {@code (s, 1, x)}, {@code (s, 2, x)}, {@code (s', 1, y)}, +// {@code (s', 2, y)}, {@code (s'', 1, z)} yields non-conflicting set +// {@code {1}} U conflicting sets {@code min({1,2})} U {@code min({1,2})} = +// {@code {1}} => stop and predict 1
    • +// +//
  • {@code (s, 1, x)}, {@code (s, 2, x)}, {@code (s', 1, y)}, +// {@code (s', 2, y)} yields conflicting, reduced sets {@code {1}} U +// {@code {1}} = {@code {1}} => stop and predict 1, can announce +// ambiguity {@code {1,2}}
    • +// +//
  • {@code (s, 1, x)}, {@code (s, 2, x)}, {@code (s', 2, y)}, +// {@code (s', 3, y)} yields conflicting, reduced sets {@code {1}} U +// {@code {2}} = {@code {1,2}} => continue
    • +// +//
  • {@code (s, 1, x)}, {@code (s, 2, x)}, {@code (s', 3, y)}, +// {@code (s', 4, y)} yields conflicting, reduced sets {@code {1}} U +// {@code {3}} = {@code {1,3}} => continue
    • +// +//
+// +//

EXACT AMBIGUITY DETECTION

+// +//

If all states Report the same conflicting set of alternatives, then we +// know we have the exact ambiguity set.

+// +//

|A_i|>1 and +// A_i = A_j for all i, j.

+// +//

In other words, we continue examining lookahead until all {@code A_i} +// have more than one alternative and all {@code A_i} are the same. If +// {@code A={{1,2}, {1,3}}}, then regular LL prediction would terminate +// because the resolved set is {@code {1}}. To determine what the real +// ambiguity is, we have to know whether the ambiguity is between one and +// two or one and three so we keep going. We can only stop prediction when +// we need exact ambiguity detection when the sets look like +// {@code A={{1,2}}} or {@code {{1,2},{1,2}}}, etc...

+// +func PredictionModeresolvesToJustOneViableAlt(altsets []*BitSet) int { + return PredictionModegetSingleViableAlt(altsets) +} + +// +// Determines if every alternative subset in {@code altsets} contains more +// than one alternative. +// +// @param altsets a collection of alternative subsets +// @return {@code true} if every {@link BitSet} in {@code altsets} has +// {@link BitSet//cardinality cardinality} > 1, otherwise {@code false} +// +func PredictionModeallSubsetsConflict(altsets []*BitSet) bool { + return !PredictionModehasNonConflictingAltSet(altsets) +} + +// +// Determines if any single alternative subset in {@code altsets} contains +// exactly one alternative. +// +// @param altsets a collection of alternative subsets +// @return {@code true} if {@code altsets} contains a {@link BitSet} with +// {@link BitSet//cardinality cardinality} 1, otherwise {@code false} +// +func PredictionModehasNonConflictingAltSet(altsets []*BitSet) bool { + for i := 0; i < len(altsets); i++ { + alts := altsets[i] + if alts.length() == 1 { + return true + } + } + return false +} + +// +// Determines if any single alternative subset in {@code altsets} contains +// more than one alternative. +// +// @param altsets a collection of alternative subsets +// @return {@code true} if {@code altsets} contains a {@link BitSet} with +// {@link BitSet//cardinality cardinality} > 1, otherwise {@code false} +// +func PredictionModehasConflictingAltSet(altsets []*BitSet) bool { + for i := 0; i < len(altsets); i++ { + alts := altsets[i] + if alts.length() > 1 { + return true + } + } + return false +} + +// +// Determines if every alternative subset in {@code altsets} is equivalent. +// +// @param altsets a collection of alternative subsets +// @return {@code true} if every member of {@code altsets} is equal to the +// others, otherwise {@code false} +// +func PredictionModeallSubsetsEqual(altsets []*BitSet) bool { + var first *BitSet + + for i := 0; i < len(altsets); i++ { + alts := altsets[i] + if first == nil { + first = alts + } else if alts != first { + return false + } + } + + return true +} + +// +// Returns the unique alternative predicted by all alternative subsets in +// {@code altsets}. If no such alternative exists, this method returns +// {@link ATN//INVALID_ALT_NUMBER}. +// +// @param altsets a collection of alternative subsets +// +func PredictionModegetUniqueAlt(altsets []*BitSet) int { + all := PredictionModeGetAlts(altsets) + if all.length() == 1 { + return all.minValue() + } + + return ATNInvalidAltNumber +} + +// Gets the complete set of represented alternatives for a collection of +// alternative subsets. This method returns the union of each {@link BitSet} +// in {@code altsets}. +// +// @param altsets a collection of alternative subsets +// @return the set of represented alternatives in {@code altsets} +// +func PredictionModeGetAlts(altsets []*BitSet) *BitSet { + all := NewBitSet() + for _, alts := range altsets { + all.or(alts) + } + return all +} + +// +// This func gets the conflicting alt subsets from a configuration set. +// For each configuration {@code c} in {@code configs}: +// +// 
+// map[c] U= c.{@link ATNConfig//alt alt} // map hash/equals uses s and x, not
+// alt and not pred
+//
+// +func PredictionModegetConflictingAltSubsets(configs ATNConfigSet) []*BitSet { + configToAlts := make(map[int]*BitSet) + + for _, c := range configs.GetItems() { + key := 31 * c.GetState().GetStateNumber() + c.GetContext().hash() + + alts, ok := configToAlts[key] + if !ok { + alts = NewBitSet() + configToAlts[key] = alts + } + alts.add(c.GetAlt()) + } + + values := make([]*BitSet, 0, 10) + for _, v := range configToAlts { + values = append(values, v) + } + return values +} + +// +// Get a map from state to alt subset from a configuration set. For each +// configuration {@code c} in {@code configs}: +// +// 
+// map[c.{@link ATNConfig//state state}] U= c.{@link ATNConfig//alt alt}
+//
+// +func PredictionModeGetStateToAltMap(configs ATNConfigSet) *AltDict { + m := NewAltDict() + + for _, c := range configs.GetItems() { + alts := m.Get(c.GetState().String()) + if alts == nil { + alts = NewBitSet() + m.put(c.GetState().String(), alts) + } + alts.(*BitSet).add(c.GetAlt()) + } + return m +} + +func PredictionModehasStateAssociatedWithOneAlt(configs ATNConfigSet) bool { + values := PredictionModeGetStateToAltMap(configs).values() + for i := 0; i < len(values); i++ { + if values[i].(*BitSet).length() == 1 { + return true + } + } + return false +} + +func PredictionModegetSingleViableAlt(altsets []*BitSet) int { + result := ATNInvalidAltNumber + + for i := 0; i < len(altsets); i++ { + alts := altsets[i] + minAlt := alts.minValue() + if result == ATNInvalidAltNumber { + result = minAlt + } else if result != minAlt { // more than 1 viable alt + return ATNInvalidAltNumber + } + } + return result +} diff --git a/vendor/github.com/antlr/antlr4/runtime/Go/antlr/recognizer.go b/vendor/github.com/antlr/antlr4/runtime/Go/antlr/recognizer.go new file mode 100644 index 000000000..89d35244a --- /dev/null +++ b/vendor/github.com/antlr/antlr4/runtime/Go/antlr/recognizer.go @@ -0,0 +1,217 @@ +// Copyright (c) 2012-2017 The ANTLR Project. All rights reserved. +// Use of this file is governed by the BSD 3-clause license that +// can be found in the LICENSE.txt file in the project root. + +package antlr + +import ( + "fmt" + "strings" + + "strconv" +) + +type Recognizer interface { + GetLiteralNames() []string + GetSymbolicNames() []string + GetRuleNames() []string + + Sempred(RuleContext, int, int) bool + Precpred(RuleContext, int) bool + + GetState() int + SetState(int) + Action(RuleContext, int, int) + AddErrorListener(ErrorListener) + RemoveErrorListeners() + GetATN() *ATN + GetErrorListenerDispatch() ErrorListener +} + +type BaseRecognizer struct { + listeners []ErrorListener + state int + + RuleNames []string + LiteralNames []string + SymbolicNames []string + GrammarFileName string +} + +func NewBaseRecognizer() *BaseRecognizer { + rec := new(BaseRecognizer) + rec.listeners = []ErrorListener{ConsoleErrorListenerINSTANCE} + rec.state = -1 + return rec +} + +var tokenTypeMapCache = make(map[string]int) +var ruleIndexMapCache = make(map[string]int) + +func (b *BaseRecognizer) checkVersion(toolVersion string) { + runtimeVersion := "4.9.2" + if runtimeVersion != toolVersion { + fmt.Println("ANTLR runtime and generated code versions disagree: " + runtimeVersion + "!=" + toolVersion) + } +} + +func (b *BaseRecognizer) Action(context RuleContext, ruleIndex, actionIndex int) { + panic("action not implemented on Recognizer!") +} + +func (b *BaseRecognizer) AddErrorListener(listener ErrorListener) { + b.listeners = append(b.listeners, listener) +} + +func (b *BaseRecognizer) RemoveErrorListeners() { + b.listeners = make([]ErrorListener, 0) +} + +func (b *BaseRecognizer) GetRuleNames() []string { + return b.RuleNames +} + +func (b *BaseRecognizer) GetTokenNames() []string { + return b.LiteralNames +} + +func (b *BaseRecognizer) GetSymbolicNames() []string { + return b.SymbolicNames +} + +func (b *BaseRecognizer) GetLiteralNames() []string { + return b.LiteralNames +} + +func (b *BaseRecognizer) GetState() int { + return b.state +} + +func (b *BaseRecognizer) SetState(v int) { + b.state = v +} + +//func (b *Recognizer) GetTokenTypeMap() { +// var tokenNames = b.GetTokenNames() +// if (tokenNames==nil) { +// panic("The current recognizer does not provide a list of token names.") +// } +// var result = tokenTypeMapCache[tokenNames] +// if(result==nil) { +// result = tokenNames.reduce(function(o, k, i) { o[k] = i }) +// result.EOF = TokenEOF +// tokenTypeMapCache[tokenNames] = result +// } +// return result +//} + +// Get a map from rule names to rule indexes. +// +//

Used for XPath and tree pattern compilation.

+// +func (b *BaseRecognizer) GetRuleIndexMap() map[string]int { + + panic("Method not defined!") + // var ruleNames = b.GetRuleNames() + // if (ruleNames==nil) { + // panic("The current recognizer does not provide a list of rule names.") + // } + // + // var result = ruleIndexMapCache[ruleNames] + // if(result==nil) { + // result = ruleNames.reduce(function(o, k, i) { o[k] = i }) + // ruleIndexMapCache[ruleNames] = result + // } + // return result +} + +func (b *BaseRecognizer) GetTokenType(tokenName string) int { + panic("Method not defined!") + // var ttype = b.GetTokenTypeMap()[tokenName] + // if (ttype !=nil) { + // return ttype + // } else { + // return TokenInvalidType + // } +} + +//func (b *Recognizer) GetTokenTypeMap() map[string]int { +// Vocabulary vocabulary = getVocabulary() +// +// Synchronized (tokenTypeMapCache) { +// Map result = tokenTypeMapCache.Get(vocabulary) +// if (result == null) { +// result = new HashMap() +// for (int i = 0; i < GetATN().maxTokenType; i++) { +// String literalName = vocabulary.getLiteralName(i) +// if (literalName != null) { +// result.put(literalName, i) +// } +// +// String symbolicName = vocabulary.GetSymbolicName(i) +// if (symbolicName != null) { +// result.put(symbolicName, i) +// } +// } +// +// result.put("EOF", Token.EOF) +// result = Collections.unmodifiableMap(result) +// tokenTypeMapCache.put(vocabulary, result) +// } +// +// return result +// } +//} + +// What is the error header, normally line/character position information?// +func (b *BaseRecognizer) GetErrorHeader(e RecognitionException) string { + line := e.GetOffendingToken().GetLine() + column := e.GetOffendingToken().GetColumn() + return "line " + strconv.Itoa(line) + ":" + strconv.Itoa(column) +} + +// How should a token be displayed in an error message? The default +// is to display just the text, but during development you might +// want to have a lot of information spit out. Override in that case +// to use t.String() (which, for CommonToken, dumps everything about +// the token). This is better than forcing you to override a method in +// your token objects because you don't have to go modify your lexer +// so that it creates a NewJava type. +// +// @deprecated This method is not called by the ANTLR 4 Runtime. Specific +// implementations of {@link ANTLRErrorStrategy} may provide a similar +// feature when necessary. For example, see +// {@link DefaultErrorStrategy//GetTokenErrorDisplay}. +// +func (b *BaseRecognizer) GetTokenErrorDisplay(t Token) string { + if t == nil { + return "" + } + s := t.GetText() + if s == "" { + if t.GetTokenType() == TokenEOF { + s = "" + } else { + s = "<" + strconv.Itoa(t.GetTokenType()) + ">" + } + } + s = strings.Replace(s, "\t", "\\t", -1) + s = strings.Replace(s, "\n", "\\n", -1) + s = strings.Replace(s, "\r", "\\r", -1) + + return "'" + s + "'" +} + +func (b *BaseRecognizer) GetErrorListenerDispatch() ErrorListener { + return NewProxyErrorListener(b.listeners) +} + +// subclass needs to override these if there are sempreds or actions +// that the ATN interp needs to execute +func (b *BaseRecognizer) Sempred(localctx RuleContext, ruleIndex int, actionIndex int) bool { + return true +} + +func (b *BaseRecognizer) Precpred(localctx RuleContext, precedence int) bool { + return true +} diff --git a/vendor/github.com/antlr/antlr4/runtime/Go/antlr/rule_context.go b/vendor/github.com/antlr/antlr4/runtime/Go/antlr/rule_context.go new file mode 100644 index 000000000..600cf8c06 --- /dev/null +++ b/vendor/github.com/antlr/antlr4/runtime/Go/antlr/rule_context.go @@ -0,0 +1,114 @@ +// Copyright (c) 2012-2017 The ANTLR Project. All rights reserved. +// Use of this file is governed by the BSD 3-clause license that +// can be found in the LICENSE.txt file in the project root. + +package antlr + +// A rule context is a record of a single rule invocation. It knows +// which context invoked it, if any. If there is no parent context, then +// naturally the invoking state is not valid. The parent link +// provides a chain upwards from the current rule invocation to the root +// of the invocation tree, forming a stack. We actually carry no +// information about the rule associated with b context (except +// when parsing). We keep only the state number of the invoking state from +// the ATN submachine that invoked b. Contrast b with the s +// pointer inside ParserRuleContext that tracks the current state +// being "executed" for the current rule. +// +// The parent contexts are useful for computing lookahead sets and +// getting error information. +// +// These objects are used during parsing and prediction. +// For the special case of parsers, we use the subclass +// ParserRuleContext. +// +// @see ParserRuleContext +// + +type RuleContext interface { + RuleNode + + GetInvokingState() int + SetInvokingState(int) + + GetRuleIndex() int + IsEmpty() bool + + GetAltNumber() int + SetAltNumber(altNumber int) + + String([]string, RuleContext) string +} + +type BaseRuleContext struct { + parentCtx RuleContext + invokingState int + RuleIndex int +} + +func NewBaseRuleContext(parent RuleContext, invokingState int) *BaseRuleContext { + + rn := new(BaseRuleContext) + + // What context invoked b rule? + rn.parentCtx = parent + + // What state invoked the rule associated with b context? + // The "return address" is the followState of invokingState + // If parent is nil, b should be -1. + if parent == nil { + rn.invokingState = -1 + } else { + rn.invokingState = invokingState + } + + return rn +} + +func (b *BaseRuleContext) GetBaseRuleContext() *BaseRuleContext { + return b +} + +func (b *BaseRuleContext) SetParent(v Tree) { + if v == nil { + b.parentCtx = nil + } else { + b.parentCtx = v.(RuleContext) + } +} + +func (b *BaseRuleContext) GetInvokingState() int { + return b.invokingState +} + +func (b *BaseRuleContext) SetInvokingState(t int) { + b.invokingState = t +} + +func (b *BaseRuleContext) GetRuleIndex() int { + return b.RuleIndex +} + +func (b *BaseRuleContext) GetAltNumber() int { + return ATNInvalidAltNumber +} + +func (b *BaseRuleContext) SetAltNumber(altNumber int) {} + +// A context is empty if there is no invoking state meaning nobody call +// current context. +func (b *BaseRuleContext) IsEmpty() bool { + return b.invokingState == -1 +} + +// Return the combined text of all child nodes. This method only considers +// tokens which have been added to the parse tree. +//

+// Since tokens on hidden channels (e.g. whitespace or comments) are not +// added to the parse trees, they will not appear in the output of b +// method. +// + +func (b *BaseRuleContext) GetParent() Tree { + return b.parentCtx +} diff --git a/vendor/github.com/antlr/antlr4/runtime/Go/antlr/semantic_context.go b/vendor/github.com/antlr/antlr4/runtime/Go/antlr/semantic_context.go new file mode 100644 index 000000000..49205a162 --- /dev/null +++ b/vendor/github.com/antlr/antlr4/runtime/Go/antlr/semantic_context.go @@ -0,0 +1,455 @@ +// Copyright (c) 2012-2017 The ANTLR Project. All rights reserved. +// Use of this file is governed by the BSD 3-clause license that +// can be found in the LICENSE.txt file in the project root. + +package antlr + +import ( + "fmt" + "strconv" +) + +// A tree structure used to record the semantic context in which +// an ATN configuration is valid. It's either a single predicate, +// a conjunction {@code p1&&p2}, or a sum of products {@code p1||p2}. +// +//

I have scoped the {@link AND}, {@link OR}, and {@link Predicate} subclasses of +// {@link SemanticContext} within the scope of this outer class.

+// + +type SemanticContext interface { + comparable + + evaluate(parser Recognizer, outerContext RuleContext) bool + evalPrecedence(parser Recognizer, outerContext RuleContext) SemanticContext + + hash() int + String() string +} + +func SemanticContextandContext(a, b SemanticContext) SemanticContext { + if a == nil || a == SemanticContextNone { + return b + } + if b == nil || b == SemanticContextNone { + return a + } + result := NewAND(a, b) + if len(result.opnds) == 1 { + return result.opnds[0] + } + + return result +} + +func SemanticContextorContext(a, b SemanticContext) SemanticContext { + if a == nil { + return b + } + if b == nil { + return a + } + if a == SemanticContextNone || b == SemanticContextNone { + return SemanticContextNone + } + result := NewOR(a, b) + if len(result.opnds) == 1 { + return result.opnds[0] + } + + return result +} + +type Predicate struct { + ruleIndex int + predIndex int + isCtxDependent bool +} + +func NewPredicate(ruleIndex, predIndex int, isCtxDependent bool) *Predicate { + p := new(Predicate) + + p.ruleIndex = ruleIndex + p.predIndex = predIndex + p.isCtxDependent = isCtxDependent // e.g., $i ref in pred + return p +} + +//The default {@link SemanticContext}, which is semantically equivalent to +//a predicate of the form {@code {true}?}. + +var SemanticContextNone SemanticContext = NewPredicate(-1, -1, false) + +func (p *Predicate) evalPrecedence(parser Recognizer, outerContext RuleContext) SemanticContext { + return p +} + +func (p *Predicate) evaluate(parser Recognizer, outerContext RuleContext) bool { + + var localctx RuleContext + + if p.isCtxDependent { + localctx = outerContext + } + + return parser.Sempred(localctx, p.ruleIndex, p.predIndex) +} + +func (p *Predicate) equals(other interface{}) bool { + if p == other { + return true + } else if _, ok := other.(*Predicate); !ok { + return false + } else { + return p.ruleIndex == other.(*Predicate).ruleIndex && + p.predIndex == other.(*Predicate).predIndex && + p.isCtxDependent == other.(*Predicate).isCtxDependent + } +} + +func (p *Predicate) hash() int { + return p.ruleIndex*43 + p.predIndex*47 +} + +func (p *Predicate) String() string { + return "{" + strconv.Itoa(p.ruleIndex) + ":" + strconv.Itoa(p.predIndex) + "}?" +} + +type PrecedencePredicate struct { + precedence int +} + +func NewPrecedencePredicate(precedence int) *PrecedencePredicate { + + p := new(PrecedencePredicate) + p.precedence = precedence + + return p +} + +func (p *PrecedencePredicate) evaluate(parser Recognizer, outerContext RuleContext) bool { + return parser.Precpred(outerContext, p.precedence) +} + +func (p *PrecedencePredicate) evalPrecedence(parser Recognizer, outerContext RuleContext) SemanticContext { + if parser.Precpred(outerContext, p.precedence) { + return SemanticContextNone + } + + return nil +} + +func (p *PrecedencePredicate) compareTo(other *PrecedencePredicate) int { + return p.precedence - other.precedence +} + +func (p *PrecedencePredicate) equals(other interface{}) bool { + if p == other { + return true + } else if _, ok := other.(*PrecedencePredicate); !ok { + return false + } else { + return p.precedence == other.(*PrecedencePredicate).precedence + } +} + +func (p *PrecedencePredicate) hash() int { + return p.precedence * 51 +} + +func (p *PrecedencePredicate) String() string { + return "{" + strconv.Itoa(p.precedence) + ">=prec}?" +} + +func PrecedencePredicatefilterPrecedencePredicates(set *Set) []*PrecedencePredicate { + result := make([]*PrecedencePredicate, 0) + + for _, v := range set.values() { + if c2, ok := v.(*PrecedencePredicate); ok { + result = append(result, c2) + } + } + + return result +} + +// A semantic context which is true whenever none of the contained contexts +// is false.` + +type AND struct { + opnds []SemanticContext +} + +func NewAND(a, b SemanticContext) *AND { + + operands := NewSet(nil, nil) + if aa, ok := a.(*AND); ok { + for _, o := range aa.opnds { + operands.add(o) + } + } else { + operands.add(a) + } + + if ba, ok := b.(*AND); ok { + for _, o := range ba.opnds { + operands.add(o) + } + } else { + operands.add(b) + } + precedencePredicates := PrecedencePredicatefilterPrecedencePredicates(operands) + if len(precedencePredicates) > 0 { + // interested in the transition with the lowest precedence + var reduced *PrecedencePredicate + + for _, p := range precedencePredicates { + if reduced == nil || p.precedence < reduced.precedence { + reduced = p + } + } + + operands.add(reduced) + } + + vs := operands.values() + opnds := make([]SemanticContext, len(vs)) + for i, v := range vs { + opnds[i] = v.(SemanticContext) + } + + and := new(AND) + and.opnds = opnds + + return and +} + +func (a *AND) equals(other interface{}) bool { + if a == other { + return true + } else if _, ok := other.(*AND); !ok { + return false + } else { + for i, v := range other.(*AND).opnds { + if !a.opnds[i].equals(v) { + return false + } + } + return true + } +} + +// +// {@inheritDoc} +// +//

+// The evaluation of predicates by a context is short-circuiting, but +// unordered.

+// +func (a *AND) evaluate(parser Recognizer, outerContext RuleContext) bool { + for i := 0; i < len(a.opnds); i++ { + if !a.opnds[i].evaluate(parser, outerContext) { + return false + } + } + return true +} + +func (a *AND) evalPrecedence(parser Recognizer, outerContext RuleContext) SemanticContext { + differs := false + operands := make([]SemanticContext, 0) + + for i := 0; i < len(a.opnds); i++ { + context := a.opnds[i] + evaluated := context.evalPrecedence(parser, outerContext) + differs = differs || (evaluated != context) + if evaluated == nil { + // The AND context is false if any element is false + return nil + } else if evaluated != SemanticContextNone { + // Reduce the result by Skipping true elements + operands = append(operands, evaluated) + } + } + if !differs { + return a + } + + if len(operands) == 0 { + // all elements were true, so the AND context is true + return SemanticContextNone + } + + var result SemanticContext + + for _, o := range operands { + if result == nil { + result = o + } else { + result = SemanticContextandContext(result, o) + } + } + + return result +} + +func (a *AND) hash() int { + h := murmurInit(37) // Init with a value different from OR + for _, op := range a.opnds { + h = murmurUpdate(h, op.hash()) + } + return murmurFinish(h, len(a.opnds)) +} + +func (a *OR) hash() int { + h := murmurInit(41) // Init with a value different from AND + for _, op := range a.opnds { + h = murmurUpdate(h, op.hash()) + } + return murmurFinish(h, len(a.opnds)) +} + +func (a *AND) String() string { + s := "" + + for _, o := range a.opnds { + s += "&& " + fmt.Sprint(o) + } + + if len(s) > 3 { + return s[0:3] + } + + return s +} + +// +// A semantic context which is true whenever at least one of the contained +// contexts is true. +// + +type OR struct { + opnds []SemanticContext +} + +func NewOR(a, b SemanticContext) *OR { + + operands := NewSet(nil, nil) + if aa, ok := a.(*OR); ok { + for _, o := range aa.opnds { + operands.add(o) + } + } else { + operands.add(a) + } + + if ba, ok := b.(*OR); ok { + for _, o := range ba.opnds { + operands.add(o) + } + } else { + operands.add(b) + } + precedencePredicates := PrecedencePredicatefilterPrecedencePredicates(operands) + if len(precedencePredicates) > 0 { + // interested in the transition with the lowest precedence + var reduced *PrecedencePredicate + + for _, p := range precedencePredicates { + if reduced == nil || p.precedence > reduced.precedence { + reduced = p + } + } + + operands.add(reduced) + } + + vs := operands.values() + + opnds := make([]SemanticContext, len(vs)) + for i, v := range vs { + opnds[i] = v.(SemanticContext) + } + + o := new(OR) + o.opnds = opnds + + return o +} + +func (o *OR) equals(other interface{}) bool { + if o == other { + return true + } else if _, ok := other.(*OR); !ok { + return false + } else { + for i, v := range other.(*OR).opnds { + if !o.opnds[i].equals(v) { + return false + } + } + return true + } +} + +//

+// The evaluation of predicates by o context is short-circuiting, but +// unordered.

+// +func (o *OR) evaluate(parser Recognizer, outerContext RuleContext) bool { + for i := 0; i < len(o.opnds); i++ { + if o.opnds[i].evaluate(parser, outerContext) { + return true + } + } + return false +} + +func (o *OR) evalPrecedence(parser Recognizer, outerContext RuleContext) SemanticContext { + differs := false + operands := make([]SemanticContext, 0) + for i := 0; i < len(o.opnds); i++ { + context := o.opnds[i] + evaluated := context.evalPrecedence(parser, outerContext) + differs = differs || (evaluated != context) + if evaluated == SemanticContextNone { + // The OR context is true if any element is true + return SemanticContextNone + } else if evaluated != nil { + // Reduce the result by Skipping false elements + operands = append(operands, evaluated) + } + } + if !differs { + return o + } + if len(operands) == 0 { + // all elements were false, so the OR context is false + return nil + } + var result SemanticContext + + for _, o := range operands { + if result == nil { + result = o + } else { + result = SemanticContextorContext(result, o) + } + } + + return result +} + +func (o *OR) String() string { + s := "" + + for _, o := range o.opnds { + s += "|| " + fmt.Sprint(o) + } + + if len(s) > 3 { + return s[0:3] + } + + return s +} diff --git a/vendor/github.com/antlr/antlr4/runtime/Go/antlr/token.go b/vendor/github.com/antlr/antlr4/runtime/Go/antlr/token.go new file mode 100644 index 000000000..2d8e99095 --- /dev/null +++ b/vendor/github.com/antlr/antlr4/runtime/Go/antlr/token.go @@ -0,0 +1,210 @@ +// Copyright (c) 2012-2017 The ANTLR Project. All rights reserved. +// Use of this file is governed by the BSD 3-clause license that +// can be found in the LICENSE.txt file in the project root. + +package antlr + +import ( + "strconv" + "strings" +) + +type TokenSourceCharStreamPair struct { + tokenSource TokenSource + charStream CharStream +} + +// A token has properties: text, type, line, character position in the line +// (so we can ignore tabs), token channel, index, and source from which +// we obtained this token. + +type Token interface { + GetSource() *TokenSourceCharStreamPair + GetTokenType() int + GetChannel() int + GetStart() int + GetStop() int + GetLine() int + GetColumn() int + + GetText() string + SetText(s string) + + GetTokenIndex() int + SetTokenIndex(v int) + + GetTokenSource() TokenSource + GetInputStream() CharStream +} + +type BaseToken struct { + source *TokenSourceCharStreamPair + tokenType int // token type of the token + channel int // The parser ignores everything not on DEFAULT_CHANNEL + start int // optional return -1 if not implemented. + stop int // optional return -1 if not implemented. + tokenIndex int // from 0..n-1 of the token object in the input stream + line int // line=1..n of the 1st character + column int // beginning of the line at which it occurs, 0..n-1 + text string // text of the token. + readOnly bool +} + +const ( + TokenInvalidType = 0 + + // During lookahead operations, this "token" signifies we hit rule end ATN state + // and did not follow it despite needing to. + TokenEpsilon = -2 + + TokenMinUserTokenType = 1 + + TokenEOF = -1 + + // All tokens go to the parser (unless Skip() is called in that rule) + // on a particular "channel". The parser tunes to a particular channel + // so that whitespace etc... can go to the parser on a "hidden" channel. + + TokenDefaultChannel = 0 + + // Anything on different channel than DEFAULT_CHANNEL is not parsed + // by parser. + + TokenHiddenChannel = 1 +) + +func (b *BaseToken) GetChannel() int { + return b.channel +} + +func (b *BaseToken) GetStart() int { + return b.start +} + +func (b *BaseToken) GetStop() int { + return b.stop +} + +func (b *BaseToken) GetLine() int { + return b.line +} + +func (b *BaseToken) GetColumn() int { + return b.column +} + +func (b *BaseToken) GetTokenType() int { + return b.tokenType +} + +func (b *BaseToken) GetSource() *TokenSourceCharStreamPair { + return b.source +} + +func (b *BaseToken) GetTokenIndex() int { + return b.tokenIndex +} + +func (b *BaseToken) SetTokenIndex(v int) { + b.tokenIndex = v +} + +func (b *BaseToken) GetTokenSource() TokenSource { + return b.source.tokenSource +} + +func (b *BaseToken) GetInputStream() CharStream { + return b.source.charStream +} + +type CommonToken struct { + *BaseToken +} + +func NewCommonToken(source *TokenSourceCharStreamPair, tokenType, channel, start, stop int) *CommonToken { + + t := new(CommonToken) + + t.BaseToken = new(BaseToken) + + t.source = source + t.tokenType = tokenType + t.channel = channel + t.start = start + t.stop = stop + t.tokenIndex = -1 + if t.source.tokenSource != nil { + t.line = source.tokenSource.GetLine() + t.column = source.tokenSource.GetCharPositionInLine() + } else { + t.column = -1 + } + return t +} + +// An empty {@link Pair} which is used as the default value of +// {@link //source} for tokens that do not have a source. + +//CommonToken.EMPTY_SOURCE = [ nil, nil ] + +// Constructs a New{@link CommonToken} as a copy of another {@link Token}. +// +//

+// If {@code oldToken} is also a {@link CommonToken} instance, the newly +// constructed token will share a reference to the {@link //text} field and +// the {@link Pair} stored in {@link //source}. Otherwise, {@link //text} will +// be assigned the result of calling {@link //GetText}, and {@link //source} +// will be constructed from the result of {@link Token//GetTokenSource} and +// {@link Token//GetInputStream}.

+// +// @param oldToken The token to copy. +// +func (c *CommonToken) clone() *CommonToken { + t := NewCommonToken(c.source, c.tokenType, c.channel, c.start, c.stop) + t.tokenIndex = c.GetTokenIndex() + t.line = c.GetLine() + t.column = c.GetColumn() + t.text = c.GetText() + return t +} + +func (c *CommonToken) GetText() string { + if c.text != "" { + return c.text + } + input := c.GetInputStream() + if input == nil { + return "" + } + n := input.Size() + if c.start < n && c.stop < n { + return input.GetTextFromInterval(NewInterval(c.start, c.stop)) + } + return "" +} + +func (c *CommonToken) SetText(text string) { + c.text = text +} + +func (c *CommonToken) String() string { + txt := c.GetText() + if txt != "" { + txt = strings.Replace(txt, "\n", "\\n", -1) + txt = strings.Replace(txt, "\r", "\\r", -1) + txt = strings.Replace(txt, "\t", "\\t", -1) + } else { + txt = "" + } + + var ch string + if c.channel > 0 { + ch = ",channel=" + strconv.Itoa(c.channel) + } else { + ch = "" + } + + return "[@" + strconv.Itoa(c.tokenIndex) + "," + strconv.Itoa(c.start) + ":" + strconv.Itoa(c.stop) + "='" + + txt + "',<" + strconv.Itoa(c.tokenType) + ">" + + ch + "," + strconv.Itoa(c.line) + ":" + strconv.Itoa(c.column) + "]" +} diff --git a/vendor/github.com/antlr/antlr4/runtime/Go/antlr/token_source.go b/vendor/github.com/antlr/antlr4/runtime/Go/antlr/token_source.go new file mode 100644 index 000000000..e023978fe --- /dev/null +++ b/vendor/github.com/antlr/antlr4/runtime/Go/antlr/token_source.go @@ -0,0 +1,17 @@ +// Copyright (c) 2012-2017 The ANTLR Project. All rights reserved. +// Use of this file is governed by the BSD 3-clause license that +// can be found in the LICENSE.txt file in the project root. + +package antlr + +type TokenSource interface { + NextToken() Token + Skip() + More() + GetLine() int + GetCharPositionInLine() int + GetInputStream() CharStream + GetSourceName() string + setTokenFactory(factory TokenFactory) + GetTokenFactory() TokenFactory +} diff --git a/vendor/github.com/antlr/antlr4/runtime/Go/antlr/token_stream.go b/vendor/github.com/antlr/antlr4/runtime/Go/antlr/token_stream.go new file mode 100644 index 000000000..df92c8147 --- /dev/null +++ b/vendor/github.com/antlr/antlr4/runtime/Go/antlr/token_stream.go @@ -0,0 +1,20 @@ +// Copyright (c) 2012-2017 The ANTLR Project. All rights reserved. +// Use of this file is governed by the BSD 3-clause license that +// can be found in the LICENSE.txt file in the project root. + +package antlr + +type TokenStream interface { + IntStream + + LT(k int) Token + + Get(index int) Token + GetTokenSource() TokenSource + SetTokenSource(TokenSource) + + GetAllText() string + GetTextFromInterval(*Interval) string + GetTextFromRuleContext(RuleContext) string + GetTextFromTokens(Token, Token) string +} diff --git a/vendor/github.com/antlr/antlr4/runtime/Go/antlr/tokenstream_rewriter.go b/vendor/github.com/antlr/antlr4/runtime/Go/antlr/tokenstream_rewriter.go new file mode 100644 index 000000000..96a03f02a --- /dev/null +++ b/vendor/github.com/antlr/antlr4/runtime/Go/antlr/tokenstream_rewriter.go @@ -0,0 +1,649 @@ +// Copyright (c) 2012-2017 The ANTLR Project. All rights reserved. +// Use of this file is governed by the BSD 3-clause license that +// can be found in the LICENSE.txt file in the project root. +package antlr + +import ( +"bytes" +"fmt" +) + + +// +// Useful for rewriting out a buffered input token stream after doing some +// augmentation or other manipulations on it. + +//

+// You can insert stuff, replace, and delete chunks. Note that the operations +// are done lazily--only if you convert the buffer to a {@link String} with +// {@link TokenStream#getText()}. This is very efficient because you are not +// moving data around all the time. As the buffer of tokens is converted to +// strings, the {@link #getText()} method(s) scan the input token stream and +// check to see if there is an operation at the current index. If so, the +// operation is done and then normal {@link String} rendering continues on the +// buffer. This is like having multiple Turing machine instruction streams +// (programs) operating on a single input tape. :)

+//

+ +// This rewriter makes no modifications to the token stream. It does not ask the +// stream to fill itself up nor does it advance the input cursor. The token +// stream {@link TokenStream#index()} will return the same value before and +// after any {@link #getText()} call.

+ +//

+// The rewriter only works on tokens that you have in the buffer and ignores the +// current input cursor. If you are buffering tokens on-demand, calling +// {@link #getText()} halfway through the input will only do rewrites for those +// tokens in the first half of the file.

+ +//

+// Since the operations are done lazily at {@link #getText}-time, operations do +// not screw up the token index values. That is, an insert operation at token +// index {@code i} does not change the index values for tokens +// {@code i}+1..n-1.

+ +//

+// Because operations never actually alter the buffer, you may always get the +// original token stream back without undoing anything. Since the instructions +// are queued up, you can easily simulate transactions and roll back any changes +// if there is an error just by removing instructions. For example,

+ +// 
+// CharStream input = new ANTLRFileStream("input");
+// TLexer lex = new TLexer(input);
+// CommonTokenStream tokens = new CommonTokenStream(lex);
+// T parser = new T(tokens);
+// TokenStreamRewriter rewriter = new TokenStreamRewriter(tokens);
+// parser.startRule();
+//
+ +//

+// Then in the rules, you can execute (assuming rewriter is visible):

+ +// 
+// Token t,u;
+// ...
+// rewriter.insertAfter(t, "text to put after t");}
+// rewriter.insertAfter(u, "text after u");}
+// System.out.println(rewriter.getText());
+//
+ +//

+// You can also have multiple "instruction streams" and get multiple rewrites +// from a single pass over the input. Just name the instruction streams and use +// that name again when printing the buffer. This could be useful for generating +// a C file and also its header file--all from the same buffer:

+ +// 
+// rewriter.insertAfter("pass1", t, "text to put after t");}
+// rewriter.insertAfter("pass2", u, "text after u");}
+// System.out.println(rewriter.getText("pass1"));
+// System.out.println(rewriter.getText("pass2"));
+//
+ +//

+// If you don't use named rewrite streams, a "default" stream is used as the +// first example shows.

+ + + +const( + Default_Program_Name = "default" + Program_Init_Size = 100 + Min_Token_Index = 0 +) + +// Define the rewrite operation hierarchy + +type RewriteOperation interface { + // Execute the rewrite operation by possibly adding to the buffer. + // Return the index of the next token to operate on. + Execute(buffer *bytes.Buffer) int + String() string + GetInstructionIndex() int + GetIndex() int + GetText() string + GetOpName() string + GetTokens() TokenStream + SetInstructionIndex(val int) + SetIndex(int) + SetText(string) + SetOpName(string) + SetTokens(TokenStream) +} + +type BaseRewriteOperation struct { + //Current index of rewrites list + instruction_index int + //Token buffer index + index int + //Substitution text + text string + //Actual operation name + op_name string + //Pointer to token steam + tokens TokenStream +} + +func (op *BaseRewriteOperation)GetInstructionIndex() int{ + return op.instruction_index +} + +func (op *BaseRewriteOperation)GetIndex() int{ + return op.index +} + +func (op *BaseRewriteOperation)GetText() string{ + return op.text +} + +func (op *BaseRewriteOperation)GetOpName() string{ + return op.op_name +} + +func (op *BaseRewriteOperation)GetTokens() TokenStream{ + return op.tokens +} + +func (op *BaseRewriteOperation)SetInstructionIndex(val int){ + op.instruction_index = val +} + +func (op *BaseRewriteOperation)SetIndex(val int) { + op.index = val +} + +func (op *BaseRewriteOperation)SetText(val string){ + op.text = val +} + +func (op *BaseRewriteOperation)SetOpName(val string){ + op.op_name = val +} + +func (op *BaseRewriteOperation)SetTokens(val TokenStream) { + op.tokens = val +} + + +func (op *BaseRewriteOperation) Execute(buffer *bytes.Buffer) int{ + return op.index +} + +func (op *BaseRewriteOperation) String() string { + return fmt.Sprintf("<%s@%d:\"%s\">", + op.op_name, + op.tokens.Get(op.GetIndex()), + op.text, + ) + +} + + +type InsertBeforeOp struct { + BaseRewriteOperation +} + +func NewInsertBeforeOp(index int, text string, stream TokenStream) *InsertBeforeOp{ + return &InsertBeforeOp{BaseRewriteOperation:BaseRewriteOperation{ + index:index, + text:text, + op_name:"InsertBeforeOp", + tokens:stream, + }} +} + +func (op *InsertBeforeOp) Execute(buffer *bytes.Buffer) int{ + buffer.WriteString(op.text) + if op.tokens.Get(op.index).GetTokenType() != TokenEOF{ + buffer.WriteString(op.tokens.Get(op.index).GetText()) + } + return op.index+1 +} + +func (op *InsertBeforeOp) String() string { + return op.BaseRewriteOperation.String() +} + +// Distinguish between insert after/before to do the "insert afters" +// first and then the "insert befores" at same index. Implementation +// of "insert after" is "insert before index+1". + +type InsertAfterOp struct { + BaseRewriteOperation +} + +func NewInsertAfterOp(index int, text string, stream TokenStream) *InsertAfterOp{ + return &InsertAfterOp{BaseRewriteOperation:BaseRewriteOperation{ + index:index+1, + text:text, + tokens:stream, + }} +} + +func (op *InsertAfterOp) Execute(buffer *bytes.Buffer) int { + buffer.WriteString(op.text) + if op.tokens.Get(op.index).GetTokenType() != TokenEOF{ + buffer.WriteString(op.tokens.Get(op.index).GetText()) + } + return op.index+1 +} + +func (op *InsertAfterOp) String() string { + return op.BaseRewriteOperation.String() +} + +// I'm going to try replacing range from x..y with (y-x)+1 ReplaceOp +// instructions. +type ReplaceOp struct{ + BaseRewriteOperation + LastIndex int +} + +func NewReplaceOp(from, to int, text string, stream TokenStream)*ReplaceOp { + return &ReplaceOp{ + BaseRewriteOperation:BaseRewriteOperation{ + index:from, + text:text, + op_name:"ReplaceOp", + tokens:stream, + }, + LastIndex:to, + } +} + +func (op *ReplaceOp)Execute(buffer *bytes.Buffer) int{ + if op.text != ""{ + buffer.WriteString(op.text) + } + return op.LastIndex +1 +} + +func (op *ReplaceOp) String() string { + if op.text == "" { + return fmt.Sprintf("", + op.tokens.Get(op.index), op.tokens.Get(op.LastIndex)) + } + return fmt.Sprintf("", + op.tokens.Get(op.index), op.tokens.Get(op.LastIndex), op.text) +} + + +type TokenStreamRewriter struct { + //Our source stream + tokens TokenStream + // You may have multiple, named streams of rewrite operations. + // I'm calling these things "programs." + // Maps String (name) → rewrite (List) + programs map[string][]RewriteOperation + last_rewrite_token_indexes map[string]int +} + +func NewTokenStreamRewriter(tokens TokenStream) *TokenStreamRewriter{ + return &TokenStreamRewriter{ + tokens: tokens, + programs: map[string][]RewriteOperation{ + Default_Program_Name:make([]RewriteOperation,0, Program_Init_Size), + }, + last_rewrite_token_indexes: map[string]int{}, + } +} + +func (tsr *TokenStreamRewriter) GetTokenStream() TokenStream{ + return tsr.tokens +} + +// Rollback the instruction stream for a program so that +// the indicated instruction (via instructionIndex) is no +// longer in the stream. UNTESTED! +func (tsr *TokenStreamRewriter) Rollback(program_name string, instruction_index int){ + is, ok := tsr.programs[program_name] + if ok{ + tsr.programs[program_name] = is[Min_Token_Index:instruction_index] + } +} + +func (tsr *TokenStreamRewriter) RollbackDefault(instruction_index int){ + tsr.Rollback(Default_Program_Name, instruction_index) +} +//Reset the program so that no instructions exist +func (tsr *TokenStreamRewriter) DeleteProgram(program_name string){ + tsr.Rollback(program_name, Min_Token_Index) //TODO: double test on that cause lower bound is not included +} + +func (tsr *TokenStreamRewriter) DeleteProgramDefault(){ + tsr.DeleteProgram(Default_Program_Name) +} + +func (tsr *TokenStreamRewriter) InsertAfter(program_name string, index int, text string){ + // to insert after, just insert before next index (even if past end) + var op RewriteOperation = NewInsertAfterOp(index, text, tsr.tokens) + rewrites := tsr.GetProgram(program_name) + op.SetInstructionIndex(len(rewrites)) + tsr.AddToProgram(program_name, op) +} + +func (tsr *TokenStreamRewriter) InsertAfterDefault(index int, text string){ + tsr.InsertAfter(Default_Program_Name, index, text) +} + +func (tsr *TokenStreamRewriter) InsertAfterToken(program_name string, token Token, text string){ + tsr.InsertAfter(program_name, token.GetTokenIndex(), text) +} + +func (tsr* TokenStreamRewriter) InsertBefore(program_name string, index int, text string){ + var op RewriteOperation = NewInsertBeforeOp(index, text, tsr.tokens) + rewrites := tsr.GetProgram(program_name) + op.SetInstructionIndex(len(rewrites)) + tsr.AddToProgram(program_name, op) +} + +func (tsr *TokenStreamRewriter) InsertBeforeDefault(index int, text string){ + tsr.InsertBefore(Default_Program_Name, index, text) +} + +func (tsr *TokenStreamRewriter) InsertBeforeToken(program_name string,token Token, text string){ + tsr.InsertBefore(program_name, token.GetTokenIndex(), text) +} + +func (tsr *TokenStreamRewriter) Replace(program_name string, from, to int, text string){ + if from > to || from < 0 || to < 0 || to >= tsr.tokens.Size(){ + panic(fmt.Sprintf("replace: range invalid: %d..%d(size=%d)", + from, to, tsr.tokens.Size())) + } + var op RewriteOperation = NewReplaceOp(from, to, text, tsr.tokens) + rewrites := tsr.GetProgram(program_name) + op.SetInstructionIndex(len(rewrites)) + tsr.AddToProgram(program_name, op) +} + +func (tsr *TokenStreamRewriter)ReplaceDefault(from, to int, text string) { + tsr.Replace(Default_Program_Name, from, to, text) +} + +func (tsr *TokenStreamRewriter)ReplaceDefaultPos(index int, text string){ + tsr.ReplaceDefault(index, index, text) +} + +func (tsr *TokenStreamRewriter)ReplaceToken(program_name string, from, to Token, text string){ + tsr.Replace(program_name, from.GetTokenIndex(), to.GetTokenIndex(), text) +} + +func (tsr *TokenStreamRewriter)ReplaceTokenDefault(from, to Token, text string){ + tsr.ReplaceToken(Default_Program_Name, from, to, text) +} + +func (tsr *TokenStreamRewriter)ReplaceTokenDefaultPos(index Token, text string){ + tsr.ReplaceTokenDefault(index, index, text) +} + +func (tsr *TokenStreamRewriter)Delete(program_name string, from, to int){ + tsr.Replace(program_name, from, to, "" ) +} + +func (tsr *TokenStreamRewriter)DeleteDefault(from, to int){ + tsr.Delete(Default_Program_Name, from, to) +} + +func (tsr *TokenStreamRewriter)DeleteDefaultPos(index int){ + tsr.DeleteDefault(index,index) +} + +func (tsr *TokenStreamRewriter)DeleteToken(program_name string, from, to Token) { + tsr.ReplaceToken(program_name, from, to, "") +} + +func (tsr *TokenStreamRewriter)DeleteTokenDefault(from,to Token){ + tsr.DeleteToken(Default_Program_Name, from, to) +} + +func (tsr *TokenStreamRewriter)GetLastRewriteTokenIndex(program_name string)int { + i, ok := tsr.last_rewrite_token_indexes[program_name] + if !ok{ + return -1 + } + return i +} + +func (tsr *TokenStreamRewriter)GetLastRewriteTokenIndexDefault()int{ + return tsr.GetLastRewriteTokenIndex(Default_Program_Name) +} + +func (tsr *TokenStreamRewriter)SetLastRewriteTokenIndex(program_name string, i int){ + tsr.last_rewrite_token_indexes[program_name] = i +} + +func (tsr *TokenStreamRewriter)InitializeProgram(name string)[]RewriteOperation{ + is := make([]RewriteOperation, 0, Program_Init_Size) + tsr.programs[name] = is + return is +} + +func (tsr *TokenStreamRewriter)AddToProgram(name string, op RewriteOperation){ + is := tsr.GetProgram(name) + is = append(is, op) + tsr.programs[name] = is +} + +func (tsr *TokenStreamRewriter)GetProgram(name string) []RewriteOperation { + is, ok := tsr.programs[name] + if !ok{ + is = tsr.InitializeProgram(name) + } + return is +} +// Return the text from the original tokens altered per the +// instructions given to this rewriter. +func (tsr *TokenStreamRewriter)GetTextDefault() string{ + return tsr.GetText( + Default_Program_Name, + NewInterval(0, tsr.tokens.Size()-1)) +} +// Return the text from the original tokens altered per the +// instructions given to this rewriter. +func (tsr *TokenStreamRewriter)GetText(program_name string, interval *Interval) string { + rewrites := tsr.programs[program_name] + start := interval.Start + stop := interval.Stop + // ensure start/end are in range + stop = min(stop, tsr.tokens.Size()-1) + start = max(start,0) + if rewrites == nil || len(rewrites) == 0{ + return tsr.tokens.GetTextFromInterval(interval) // no instructions to execute + } + buf := bytes.Buffer{} + // First, optimize instruction stream + indexToOp := reduceToSingleOperationPerIndex(rewrites) + // Walk buffer, executing instructions and emitting tokens + for i:=start; i<=stop && i= tsr.tokens.Size()-1 {buf.WriteString(op.GetText())} + } + } + return buf.String() +} + +// We need to combine operations and report invalid operations (like +// overlapping replaces that are not completed nested). Inserts to +// same index need to be combined etc... Here are the cases: +// +// I.i.u I.j.v leave alone, nonoverlapping +// I.i.u I.i.v combine: Iivu +// +// R.i-j.u R.x-y.v | i-j in x-y delete first R +// R.i-j.u R.i-j.v delete first R +// R.i-j.u R.x-y.v | x-y in i-j ERROR +// R.i-j.u R.x-y.v | boundaries overlap ERROR +// +// Delete special case of replace (text==null): +// D.i-j.u D.x-y.v | boundaries overlap combine to max(min)..max(right) +// +// I.i.u R.x-y.v | i in (x+1)-y delete I (since insert before +// we're not deleting i) +// I.i.u R.x-y.v | i not in (x+1)-y leave alone, nonoverlapping +// R.x-y.v I.i.u | i in x-y ERROR +// R.x-y.v I.x.u R.x-y.uv (combine, delete I) +// R.x-y.v I.i.u | i not in x-y leave alone, nonoverlapping +// +// I.i.u = insert u before op @ index i +// R.x-y.u = replace x-y indexed tokens with u +// +// First we need to examine replaces. For any replace op: +// +// 1. wipe out any insertions before op within that range. +// 2. Drop any replace op before that is contained completely within +// that range. +// 3. Throw exception upon boundary overlap with any previous replace. +// +// Then we can deal with inserts: +// +// 1. for any inserts to same index, combine even if not adjacent. +// 2. for any prior replace with same left boundary, combine this +// insert with replace and delete this replace. +// 3. throw exception if index in same range as previous replace +// +// Don't actually delete; make op null in list. Easier to walk list. +// Later we can throw as we add to index → op map. +// +// Note that I.2 R.2-2 will wipe out I.2 even though, technically, the +// inserted stuff would be before the replace range. But, if you +// add tokens in front of a method body '{' and then delete the method +// body, I think the stuff before the '{' you added should disappear too. +// +// Return a map from token index to operation. +// +func reduceToSingleOperationPerIndex(rewrites []RewriteOperation) map[int]RewriteOperation{ + // WALK REPLACES + for i:=0; i < len(rewrites); i++{ + op := rewrites[i] + if op == nil{continue} + rop, ok := op.(*ReplaceOp) + if !ok{continue} + // Wipe prior inserts within range + for j:=0; j rop.index && iop.index <=rop.LastIndex{ + // delete insert as it's a no-op. + rewrites[iop.instruction_index] = nil + } + } + } + // Drop any prior replaces contained within + for j:=0; j=rop.index && prevop.LastIndex <= rop.LastIndex{ + // delete replace as it's a no-op. + rewrites[prevop.instruction_index] = nil + continue + } + // throw exception unless disjoint or identical + disjoint := prevop.LastIndex < rop.index || prevop.index > rop.LastIndex + // Delete special case of replace (text==null): + // D.i-j.u D.x-y.v | boundaries overlap combine to max(min)..max(right) + if prevop.text == "" && rop.text == "" && !disjoint{ + rewrites[prevop.instruction_index] = nil + rop.index = min(prevop.index, rop.index) + rop.LastIndex = max(prevop.LastIndex, rop.LastIndex) + println("new rop" + rop.String()) //TODO: remove console write, taken from Java version + }else if !disjoint{ + panic("replace op boundaries of " + rop.String() + " overlap with previous " + prevop.String()) + } + } + } + } + // WALK INSERTS + for i:=0; i < len(rewrites); i++ { + op := rewrites[i] + if op == nil{continue} + //hack to replicate inheritance in composition + _, iok := rewrites[i].(*InsertBeforeOp) + _, aok := rewrites[i].(*InsertAfterOp) + if !iok && !aok{continue} + iop := rewrites[i] + // combine current insert with prior if any at same index + // deviating a bit from TokenStreamRewriter.java - hard to incorporate inheritance logic + for j:=0; j= rop.index && iop.GetIndex() <= rop.LastIndex{ + panic("insert op "+iop.String()+" within boundaries of previous "+rop.String()) + } + } + } + } + m := map[int]RewriteOperation{} + for i:=0; i < len(rewrites); i++{ + op := rewrites[i] + if op == nil {continue} + if _, ok := m[op.GetIndex()]; ok{ + panic("should only be one op per index") + } + m[op.GetIndex()] = op + } + return m +} + + +/* + Quick fixing Go lack of overloads + */ + +func max(a,b int)int{ + if a>b{ + return a + }else { + return b + } +} +func min(a,b int)int{ + if aThis is a one way link. It emanates from a state (usually via a list of +// transitions) and has a target state.

+// +//

Since we never have to change the ATN transitions once we construct it, +// the states. We'll use the term Edge for the DFA to distinguish them from +// ATN transitions.

+ +type Transition interface { + getTarget() ATNState + setTarget(ATNState) + getIsEpsilon() bool + getLabel() *IntervalSet + getSerializationType() int + Matches(int, int, int) bool +} + +type BaseTransition struct { + target ATNState + isEpsilon bool + label int + intervalSet *IntervalSet + serializationType int +} + +func NewBaseTransition(target ATNState) *BaseTransition { + + if target == nil { + panic("target cannot be nil.") + } + + t := new(BaseTransition) + + t.target = target + // Are we epsilon, action, sempred? + t.isEpsilon = false + t.intervalSet = nil + + return t +} + +func (t *BaseTransition) getTarget() ATNState { + return t.target +} + +func (t *BaseTransition) setTarget(s ATNState) { + t.target = s +} + +func (t *BaseTransition) getIsEpsilon() bool { + return t.isEpsilon +} + +func (t *BaseTransition) getLabel() *IntervalSet { + return t.intervalSet +} + +func (t *BaseTransition) getSerializationType() int { + return t.serializationType +} + +func (t *BaseTransition) Matches(symbol, minVocabSymbol, maxVocabSymbol int) bool { + panic("Not implemented") +} + +const ( + TransitionEPSILON = 1 + TransitionRANGE = 2 + TransitionRULE = 3 + TransitionPREDICATE = 4 // e.g., {isType(input.LT(1))}? + TransitionATOM = 5 + TransitionACTION = 6 + TransitionSET = 7 // ~(A|B) or ~atom, wildcard, which convert to next 2 + TransitionNOTSET = 8 + TransitionWILDCARD = 9 + TransitionPRECEDENCE = 10 +) + +var TransitionserializationNames = []string{ + "INVALID", + "EPSILON", + "RANGE", + "RULE", + "PREDICATE", + "ATOM", + "ACTION", + "SET", + "NOT_SET", + "WILDCARD", + "PRECEDENCE", +} + +//var TransitionserializationTypes struct { +// EpsilonTransition int +// RangeTransition int +// RuleTransition int +// PredicateTransition int +// AtomTransition int +// ActionTransition int +// SetTransition int +// NotSetTransition int +// WildcardTransition int +// PrecedencePredicateTransition int +//}{ +// TransitionEPSILON, +// TransitionRANGE, +// TransitionRULE, +// TransitionPREDICATE, +// TransitionATOM, +// TransitionACTION, +// TransitionSET, +// TransitionNOTSET, +// TransitionWILDCARD, +// TransitionPRECEDENCE +//} + +// TODO: make all transitions sets? no, should remove set edges +type AtomTransition struct { + *BaseTransition +} + +func NewAtomTransition(target ATNState, intervalSet int) *AtomTransition { + + t := new(AtomTransition) + t.BaseTransition = NewBaseTransition(target) + + t.label = intervalSet // The token type or character value or, signifies special intervalSet. + t.intervalSet = t.makeLabel() + t.serializationType = TransitionATOM + + return t +} + +func (t *AtomTransition) makeLabel() *IntervalSet { + s := NewIntervalSet() + s.addOne(t.label) + return s +} + +func (t *AtomTransition) Matches(symbol, minVocabSymbol, maxVocabSymbol int) bool { + return t.label == symbol +} + +func (t *AtomTransition) String() string { + return strconv.Itoa(t.label) +} + +type RuleTransition struct { + *BaseTransition + + followState ATNState + ruleIndex, precedence int +} + +func NewRuleTransition(ruleStart ATNState, ruleIndex, precedence int, followState ATNState) *RuleTransition { + + t := new(RuleTransition) + t.BaseTransition = NewBaseTransition(ruleStart) + + t.ruleIndex = ruleIndex + t.precedence = precedence + t.followState = followState + t.serializationType = TransitionRULE + t.isEpsilon = true + + return t +} + +func (t *RuleTransition) Matches(symbol, minVocabSymbol, maxVocabSymbol int) bool { + return false +} + +type EpsilonTransition struct { + *BaseTransition + + outermostPrecedenceReturn int +} + +func NewEpsilonTransition(target ATNState, outermostPrecedenceReturn int) *EpsilonTransition { + + t := new(EpsilonTransition) + t.BaseTransition = NewBaseTransition(target) + + t.serializationType = TransitionEPSILON + t.isEpsilon = true + t.outermostPrecedenceReturn = outermostPrecedenceReturn + return t +} + +func (t *EpsilonTransition) Matches(symbol, minVocabSymbol, maxVocabSymbol int) bool { + return false +} + +func (t *EpsilonTransition) String() string { + return "epsilon" +} + +type RangeTransition struct { + *BaseTransition + + start, stop int +} + +func NewRangeTransition(target ATNState, start, stop int) *RangeTransition { + + t := new(RangeTransition) + t.BaseTransition = NewBaseTransition(target) + + t.serializationType = TransitionRANGE + t.start = start + t.stop = stop + t.intervalSet = t.makeLabel() + return t +} + +func (t *RangeTransition) makeLabel() *IntervalSet { + s := NewIntervalSet() + s.addRange(t.start, t.stop) + return s +} + +func (t *RangeTransition) Matches(symbol, minVocabSymbol, maxVocabSymbol int) bool { + return symbol >= t.start && symbol <= t.stop +} + +func (t *RangeTransition) String() string { + return "'" + string(t.start) + "'..'" + string(t.stop) + "'" +} + +type AbstractPredicateTransition interface { + Transition + IAbstractPredicateTransitionFoo() +} + +type BaseAbstractPredicateTransition struct { + *BaseTransition +} + +func NewBasePredicateTransition(target ATNState) *BaseAbstractPredicateTransition { + + t := new(BaseAbstractPredicateTransition) + t.BaseTransition = NewBaseTransition(target) + + return t +} + +func (a *BaseAbstractPredicateTransition) IAbstractPredicateTransitionFoo() {} + +type PredicateTransition struct { + *BaseAbstractPredicateTransition + + isCtxDependent bool + ruleIndex, predIndex int +} + +func NewPredicateTransition(target ATNState, ruleIndex, predIndex int, isCtxDependent bool) *PredicateTransition { + + t := new(PredicateTransition) + t.BaseAbstractPredicateTransition = NewBasePredicateTransition(target) + + t.serializationType = TransitionPREDICATE + t.ruleIndex = ruleIndex + t.predIndex = predIndex + t.isCtxDependent = isCtxDependent // e.g., $i ref in pred + t.isEpsilon = true + return t +} + +func (t *PredicateTransition) Matches(symbol, minVocabSymbol, maxVocabSymbol int) bool { + return false +} + +func (t *PredicateTransition) getPredicate() *Predicate { + return NewPredicate(t.ruleIndex, t.predIndex, t.isCtxDependent) +} + +func (t *PredicateTransition) String() string { + return "pred_" + strconv.Itoa(t.ruleIndex) + ":" + strconv.Itoa(t.predIndex) +} + +type ActionTransition struct { + *BaseTransition + + isCtxDependent bool + ruleIndex, actionIndex, predIndex int +} + +func NewActionTransition(target ATNState, ruleIndex, actionIndex int, isCtxDependent bool) *ActionTransition { + + t := new(ActionTransition) + t.BaseTransition = NewBaseTransition(target) + + t.serializationType = TransitionACTION + t.ruleIndex = ruleIndex + t.actionIndex = actionIndex + t.isCtxDependent = isCtxDependent // e.g., $i ref in pred + t.isEpsilon = true + return t +} + +func (t *ActionTransition) Matches(symbol, minVocabSymbol, maxVocabSymbol int) bool { + return false +} + +func (t *ActionTransition) String() string { + return "action_" + strconv.Itoa(t.ruleIndex) + ":" + strconv.Itoa(t.actionIndex) +} + +type SetTransition struct { + *BaseTransition +} + +func NewSetTransition(target ATNState, set *IntervalSet) *SetTransition { + + t := new(SetTransition) + t.BaseTransition = NewBaseTransition(target) + + t.serializationType = TransitionSET + if set != nil { + t.intervalSet = set + } else { + t.intervalSet = NewIntervalSet() + t.intervalSet.addOne(TokenInvalidType) + } + + return t +} + +func (t *SetTransition) Matches(symbol, minVocabSymbol, maxVocabSymbol int) bool { + return t.intervalSet.contains(symbol) +} + +func (t *SetTransition) String() string { + return t.intervalSet.String() +} + +type NotSetTransition struct { + *SetTransition +} + +func NewNotSetTransition(target ATNState, set *IntervalSet) *NotSetTransition { + + t := new(NotSetTransition) + + t.SetTransition = NewSetTransition(target, set) + + t.serializationType = TransitionNOTSET + + return t +} + +func (t *NotSetTransition) Matches(symbol, minVocabSymbol, maxVocabSymbol int) bool { + return symbol >= minVocabSymbol && symbol <= maxVocabSymbol && !t.intervalSet.contains(symbol) +} + +func (t *NotSetTransition) String() string { + return "~" + t.intervalSet.String() +} + +type WildcardTransition struct { + *BaseTransition +} + +func NewWildcardTransition(target ATNState) *WildcardTransition { + + t := new(WildcardTransition) + t.BaseTransition = NewBaseTransition(target) + + t.serializationType = TransitionWILDCARD + return t +} + +func (t *WildcardTransition) Matches(symbol, minVocabSymbol, maxVocabSymbol int) bool { + return symbol >= minVocabSymbol && symbol <= maxVocabSymbol +} + +func (t *WildcardTransition) String() string { + return "." +} + +type PrecedencePredicateTransition struct { + *BaseAbstractPredicateTransition + + precedence int +} + +func NewPrecedencePredicateTransition(target ATNState, precedence int) *PrecedencePredicateTransition { + + t := new(PrecedencePredicateTransition) + t.BaseAbstractPredicateTransition = NewBasePredicateTransition(target) + + t.serializationType = TransitionPRECEDENCE + t.precedence = precedence + t.isEpsilon = true + + return t +} + +func (t *PrecedencePredicateTransition) Matches(symbol, minVocabSymbol, maxVocabSymbol int) bool { + return false +} + +func (t *PrecedencePredicateTransition) getPredicate() *PrecedencePredicate { + return NewPrecedencePredicate(t.precedence) +} + +func (t *PrecedencePredicateTransition) String() string { + return fmt.Sprint(t.precedence) + " >= _p" +} diff --git a/vendor/github.com/antlr/antlr4/runtime/Go/antlr/tree.go b/vendor/github.com/antlr/antlr4/runtime/Go/antlr/tree.go new file mode 100644 index 000000000..bdeb6d788 --- /dev/null +++ b/vendor/github.com/antlr/antlr4/runtime/Go/antlr/tree.go @@ -0,0 +1,256 @@ +// Copyright (c) 2012-2017 The ANTLR Project. All rights reserved. +// Use of this file is governed by the BSD 3-clause license that +// can be found in the LICENSE.txt file in the project root. + +package antlr + +// The basic notion of a tree has a parent, a payload, and a list of children. +// It is the most abstract interface for all the trees used by ANTLR. +/// + +var TreeInvalidInterval = NewInterval(-1, -2) + +type Tree interface { + GetParent() Tree + SetParent(Tree) + GetPayload() interface{} + GetChild(i int) Tree + GetChildCount() int + GetChildren() []Tree +} + +type SyntaxTree interface { + Tree + + GetSourceInterval() *Interval +} + +type ParseTree interface { + SyntaxTree + + Accept(Visitor ParseTreeVisitor) interface{} + GetText() string + + ToStringTree([]string, Recognizer) string +} + +type RuleNode interface { + ParseTree + + GetRuleContext() RuleContext + GetBaseRuleContext() *BaseRuleContext +} + +type TerminalNode interface { + ParseTree + + GetSymbol() Token +} + +type ErrorNode interface { + TerminalNode + + errorNode() +} + +type ParseTreeVisitor interface { + Visit(tree ParseTree) interface{} + VisitChildren(node RuleNode) interface{} + VisitTerminal(node TerminalNode) interface{} + VisitErrorNode(node ErrorNode) interface{} +} + +type BaseParseTreeVisitor struct{} + +var _ ParseTreeVisitor = &BaseParseTreeVisitor{} + +func (v *BaseParseTreeVisitor) Visit(tree ParseTree) interface{} { return nil } +func (v *BaseParseTreeVisitor) VisitChildren(node RuleNode) interface{} { return nil } +func (v *BaseParseTreeVisitor) VisitTerminal(node TerminalNode) interface{} { return nil } +func (v *BaseParseTreeVisitor) VisitErrorNode(node ErrorNode) interface{} { return nil } + +// TODO +//func (this ParseTreeVisitor) Visit(ctx) { +// if (Utils.isArray(ctx)) { +// self := this +// return ctx.map(function(child) { return VisitAtom(self, child)}) +// } else { +// return VisitAtom(this, ctx) +// } +//} +// +//func VisitAtom(Visitor, ctx) { +// if (ctx.parser == nil) { //is terminal +// return +// } +// +// name := ctx.parser.ruleNames[ctx.ruleIndex] +// funcName := "Visit" + Utils.titleCase(name) +// +// return Visitor[funcName](ctx) +//} + +type ParseTreeListener interface { + VisitTerminal(node TerminalNode) + VisitErrorNode(node ErrorNode) + EnterEveryRule(ctx ParserRuleContext) + ExitEveryRule(ctx ParserRuleContext) +} + +type BaseParseTreeListener struct{} + +var _ ParseTreeListener = &BaseParseTreeListener{} + +func (l *BaseParseTreeListener) VisitTerminal(node TerminalNode) {} +func (l *BaseParseTreeListener) VisitErrorNode(node ErrorNode) {} +func (l *BaseParseTreeListener) EnterEveryRule(ctx ParserRuleContext) {} +func (l *BaseParseTreeListener) ExitEveryRule(ctx ParserRuleContext) {} + +type TerminalNodeImpl struct { + parentCtx RuleContext + + symbol Token +} + +var _ TerminalNode = &TerminalNodeImpl{} + +func NewTerminalNodeImpl(symbol Token) *TerminalNodeImpl { + tn := new(TerminalNodeImpl) + + tn.parentCtx = nil + tn.symbol = symbol + + return tn +} + +func (t *TerminalNodeImpl) GetChild(i int) Tree { + return nil +} + +func (t *TerminalNodeImpl) GetChildren() []Tree { + return nil +} + +func (t *TerminalNodeImpl) SetChildren(tree []Tree) { + panic("Cannot set children on terminal node") +} + +func (t *TerminalNodeImpl) GetSymbol() Token { + return t.symbol +} + +func (t *TerminalNodeImpl) GetParent() Tree { + return t.parentCtx +} + +func (t *TerminalNodeImpl) SetParent(tree Tree) { + t.parentCtx = tree.(RuleContext) +} + +func (t *TerminalNodeImpl) GetPayload() interface{} { + return t.symbol +} + +func (t *TerminalNodeImpl) GetSourceInterval() *Interval { + if t.symbol == nil { + return TreeInvalidInterval + } + tokenIndex := t.symbol.GetTokenIndex() + return NewInterval(tokenIndex, tokenIndex) +} + +func (t *TerminalNodeImpl) GetChildCount() int { + return 0 +} + +func (t *TerminalNodeImpl) Accept(v ParseTreeVisitor) interface{} { + return v.VisitTerminal(t) +} + +func (t *TerminalNodeImpl) GetText() string { + return t.symbol.GetText() +} + +func (t *TerminalNodeImpl) String() string { + if t.symbol.GetTokenType() == TokenEOF { + return "" + } + + return t.symbol.GetText() +} + +func (t *TerminalNodeImpl) ToStringTree(s []string, r Recognizer) string { + return t.String() +} + +// Represents a token that was consumed during reSynchronization +// rather than during a valid Match operation. For example, +// we will create this kind of a node during single token insertion +// and deletion as well as during "consume until error recovery set" +// upon no viable alternative exceptions. + +type ErrorNodeImpl struct { + *TerminalNodeImpl +} + +var _ ErrorNode = &ErrorNodeImpl{} + +func NewErrorNodeImpl(token Token) *ErrorNodeImpl { + en := new(ErrorNodeImpl) + en.TerminalNodeImpl = NewTerminalNodeImpl(token) + return en +} + +func (e *ErrorNodeImpl) errorNode() {} + +func (e *ErrorNodeImpl) Accept(v ParseTreeVisitor) interface{} { + return v.VisitErrorNode(e) +} + +type ParseTreeWalker struct { +} + +func NewParseTreeWalker() *ParseTreeWalker { + return new(ParseTreeWalker) +} + +// Performs a walk on the given parse tree starting at the root and going down recursively +// with depth-first search. On each node, EnterRule is called before +// recursively walking down into child nodes, then +// ExitRule is called after the recursive call to wind up. +func (p *ParseTreeWalker) Walk(listener ParseTreeListener, t Tree) { + switch tt := t.(type) { + case ErrorNode: + listener.VisitErrorNode(tt) + case TerminalNode: + listener.VisitTerminal(tt) + default: + p.EnterRule(listener, t.(RuleNode)) + for i := 0; i < t.GetChildCount(); i++ { + child := t.GetChild(i) + p.Walk(listener, child) + } + p.ExitRule(listener, t.(RuleNode)) + } +} + +// +// Enters a grammar rule by first triggering the generic event {@link ParseTreeListener//EnterEveryRule} +// then by triggering the event specific to the given parse tree node +// +func (p *ParseTreeWalker) EnterRule(listener ParseTreeListener, r RuleNode) { + ctx := r.GetRuleContext().(ParserRuleContext) + listener.EnterEveryRule(ctx) + ctx.EnterRule(listener) +} + +// Exits a grammar rule by first triggering the event specific to the given parse tree node +// then by triggering the generic event {@link ParseTreeListener//ExitEveryRule} +// +func (p *ParseTreeWalker) ExitRule(listener ParseTreeListener, r RuleNode) { + ctx := r.GetRuleContext().(ParserRuleContext) + ctx.ExitRule(listener) + listener.ExitEveryRule(ctx) +} + +var ParseTreeWalkerDefault = NewParseTreeWalker() diff --git a/vendor/github.com/antlr/antlr4/runtime/Go/antlr/trees.go b/vendor/github.com/antlr/antlr4/runtime/Go/antlr/trees.go new file mode 100644 index 000000000..80144ecad --- /dev/null +++ b/vendor/github.com/antlr/antlr4/runtime/Go/antlr/trees.go @@ -0,0 +1,137 @@ +// Copyright (c) 2012-2017 The ANTLR Project. All rights reserved. +// Use of this file is governed by the BSD 3-clause license that +// can be found in the LICENSE.txt file in the project root. + +package antlr + +import "fmt" + +/** A set of utility routines useful for all kinds of ANTLR trees. */ + +// Print out a whole tree in LISP form. {@link //getNodeText} is used on the +// node payloads to get the text for the nodes. Detect +// parse trees and extract data appropriately. +func TreesStringTree(tree Tree, ruleNames []string, recog Recognizer) string { + + if recog != nil { + ruleNames = recog.GetRuleNames() + } + + s := TreesGetNodeText(tree, ruleNames, nil) + + s = EscapeWhitespace(s, false) + c := tree.GetChildCount() + if c == 0 { + return s + } + res := "(" + s + " " + if c > 0 { + s = TreesStringTree(tree.GetChild(0), ruleNames, nil) + res += s + } + for i := 1; i < c; i++ { + s = TreesStringTree(tree.GetChild(i), ruleNames, nil) + res += (" " + s) + } + res += ")" + return res +} + +func TreesGetNodeText(t Tree, ruleNames []string, recog Parser) string { + if recog != nil { + ruleNames = recog.GetRuleNames() + } + + if ruleNames != nil { + switch t2 := t.(type) { + case RuleNode: + t3 := t2.GetRuleContext() + altNumber := t3.GetAltNumber() + + if altNumber != ATNInvalidAltNumber { + return fmt.Sprintf("%s:%d", ruleNames[t3.GetRuleIndex()], altNumber) + } + return ruleNames[t3.GetRuleIndex()] + case ErrorNode: + return fmt.Sprint(t2) + case TerminalNode: + if t2.GetSymbol() != nil { + return t2.GetSymbol().GetText() + } + } + } + + // no recog for rule names + payload := t.GetPayload() + if p2, ok := payload.(Token); ok { + return p2.GetText() + } + + return fmt.Sprint(t.GetPayload()) +} + +// Return ordered list of all children of this node +func TreesGetChildren(t Tree) []Tree { + list := make([]Tree, 0) + for i := 0; i < t.GetChildCount(); i++ { + list = append(list, t.GetChild(i)) + } + return list +} + +// Return a list of all ancestors of this node. The first node of +// list is the root and the last is the parent of this node. +// +func TreesgetAncestors(t Tree) []Tree { + ancestors := make([]Tree, 0) + t = t.GetParent() + for t != nil { + f := []Tree{t} + ancestors = append(f, ancestors...) + t = t.GetParent() + } + return ancestors +} + +func TreesFindAllTokenNodes(t ParseTree, ttype int) []ParseTree { + return TreesfindAllNodes(t, ttype, true) +} + +func TreesfindAllRuleNodes(t ParseTree, ruleIndex int) []ParseTree { + return TreesfindAllNodes(t, ruleIndex, false) +} + +func TreesfindAllNodes(t ParseTree, index int, findTokens bool) []ParseTree { + nodes := make([]ParseTree, 0) + treesFindAllNodes(t, index, findTokens, &nodes) + return nodes +} + +func treesFindAllNodes(t ParseTree, index int, findTokens bool, nodes *[]ParseTree) { + // check this node (the root) first + + t2, ok := t.(TerminalNode) + t3, ok2 := t.(ParserRuleContext) + + if findTokens && ok { + if t2.GetSymbol().GetTokenType() == index { + *nodes = append(*nodes, t2) + } + } else if !findTokens && ok2 { + if t3.GetRuleIndex() == index { + *nodes = append(*nodes, t3) + } + } + // check children + for i := 0; i < t.GetChildCount(); i++ { + treesFindAllNodes(t.GetChild(i).(ParseTree), index, findTokens, nodes) + } +} + +func TreesDescendants(t ParseTree) []ParseTree { + nodes := []ParseTree{t} + for i := 0; i < t.GetChildCount(); i++ { + nodes = append(nodes, TreesDescendants(t.GetChild(i).(ParseTree))...) + } + return nodes +} diff --git a/vendor/github.com/antlr/antlr4/runtime/Go/antlr/utils.go b/vendor/github.com/antlr/antlr4/runtime/Go/antlr/utils.go new file mode 100644 index 000000000..bba2ffae7 --- /dev/null +++ b/vendor/github.com/antlr/antlr4/runtime/Go/antlr/utils.go @@ -0,0 +1,417 @@ +// Copyright (c) 2012-2017 The ANTLR Project. All rights reserved. +// Use of this file is governed by the BSD 3-clause license that +// can be found in the LICENSE.txt file in the project root. + +package antlr + +import ( + "bytes" + "errors" + "fmt" + "sort" + "strconv" + "strings" +) + +func intMin(a, b int) int { + if a < b { + return a + } + return b +} + +func intMax(a, b int) int { + if a > b { + return a + } + return b +} + +// A simple integer stack + +type IntStack []int + +var ErrEmptyStack = errors.New("Stack is empty") + +func (s *IntStack) Pop() (int, error) { + l := len(*s) - 1 + if l < 0 { + return 0, ErrEmptyStack + } + v := (*s)[l] + *s = (*s)[0:l] + return v, nil +} + +func (s *IntStack) Push(e int) { + *s = append(*s, e) +} + +type Set struct { + data map[int][]interface{} + hashcodeFunction func(interface{}) int + equalsFunction func(interface{}, interface{}) bool +} + +func NewSet( + hashcodeFunction func(interface{}) int, + equalsFunction func(interface{}, interface{}) bool) *Set { + + s := new(Set) + + s.data = make(map[int][]interface{}) + + if hashcodeFunction != nil { + s.hashcodeFunction = hashcodeFunction + } else { + s.hashcodeFunction = standardHashFunction + } + + if equalsFunction == nil { + s.equalsFunction = standardEqualsFunction + } else { + s.equalsFunction = equalsFunction + } + + return s +} + +func standardEqualsFunction(a interface{}, b interface{}) bool { + + ac, oka := a.(comparable) + bc, okb := b.(comparable) + + if !oka || !okb { + panic("Not Comparable") + } + + return ac.equals(bc) +} + +func standardHashFunction(a interface{}) int { + if h, ok := a.(hasher); ok { + return h.hash() + } + + panic("Not Hasher") +} + +type hasher interface { + hash() int +} + +func (s *Set) length() int { + return len(s.data) +} + +func (s *Set) add(value interface{}) interface{} { + + key := s.hashcodeFunction(value) + + values := s.data[key] + + if s.data[key] != nil { + for i := 0; i < len(values); i++ { + if s.equalsFunction(value, values[i]) { + return values[i] + } + } + + s.data[key] = append(s.data[key], value) + return value + } + + v := make([]interface{}, 1, 10) + v[0] = value + s.data[key] = v + + return value +} + +func (s *Set) contains(value interface{}) bool { + + key := s.hashcodeFunction(value) + + values := s.data[key] + + if s.data[key] != nil { + for i := 0; i < len(values); i++ { + if s.equalsFunction(value, values[i]) { + return true + } + } + } + return false +} + +func (s *Set) values() []interface{} { + var l []interface{} + + for _, v := range s.data { + l = append(l, v...) + } + + return l +} + +func (s *Set) String() string { + r := "" + + for _, av := range s.data { + for _, v := range av { + r += fmt.Sprint(v) + } + } + + return r +} + +type BitSet struct { + data map[int]bool +} + +func NewBitSet() *BitSet { + b := new(BitSet) + b.data = make(map[int]bool) + return b +} + +func (b *BitSet) add(value int) { + b.data[value] = true +} + +func (b *BitSet) clear(index int) { + delete(b.data, index) +} + +func (b *BitSet) or(set *BitSet) { + for k := range set.data { + b.add(k) + } +} + +func (b *BitSet) remove(value int) { + delete(b.data, value) +} + +func (b *BitSet) contains(value int) bool { + return b.data[value] +} + +func (b *BitSet) values() []int { + ks := make([]int, len(b.data)) + i := 0 + for k := range b.data { + ks[i] = k + i++ + } + sort.Ints(ks) + return ks +} + +func (b *BitSet) minValue() int { + min := 2147483647 + + for k := range b.data { + if k < min { + min = k + } + } + + return min +} + +func (b *BitSet) equals(other interface{}) bool { + otherBitSet, ok := other.(*BitSet) + if !ok { + return false + } + + if len(b.data) != len(otherBitSet.data) { + return false + } + + for k, v := range b.data { + if otherBitSet.data[k] != v { + return false + } + } + + return true +} + +func (b *BitSet) length() int { + return len(b.data) +} + +func (b *BitSet) String() string { + vals := b.values() + valsS := make([]string, len(vals)) + + for i, val := range vals { + valsS[i] = strconv.Itoa(val) + } + return "{" + strings.Join(valsS, ", ") + "}" +} + +type AltDict struct { + data map[string]interface{} +} + +func NewAltDict() *AltDict { + d := new(AltDict) + d.data = make(map[string]interface{}) + return d +} + +func (a *AltDict) Get(key string) interface{} { + key = "k-" + key + return a.data[key] +} + +func (a *AltDict) put(key string, value interface{}) { + key = "k-" + key + a.data[key] = value +} + +func (a *AltDict) values() []interface{} { + vs := make([]interface{}, len(a.data)) + i := 0 + for _, v := range a.data { + vs[i] = v + i++ + } + return vs +} + +type DoubleDict struct { + data map[int]map[int]interface{} +} + +func NewDoubleDict() *DoubleDict { + dd := new(DoubleDict) + dd.data = make(map[int]map[int]interface{}) + return dd +} + +func (d *DoubleDict) Get(a, b int) interface{} { + data := d.data[a] + + if data == nil { + return nil + } + + return data[b] +} + +func (d *DoubleDict) set(a, b int, o interface{}) { + data := d.data[a] + + if data == nil { + data = make(map[int]interface{}) + d.data[a] = data + } + + data[b] = o +} + +func EscapeWhitespace(s string, escapeSpaces bool) string { + + s = strings.Replace(s, "\t", "\\t", -1) + s = strings.Replace(s, "\n", "\\n", -1) + s = strings.Replace(s, "\r", "\\r", -1) + if escapeSpaces { + s = strings.Replace(s, " ", "\u00B7", -1) + } + return s +} + +func TerminalNodeToStringArray(sa []TerminalNode) []string { + st := make([]string, len(sa)) + + for i, s := range sa { + st[i] = fmt.Sprintf("%v", s) + } + + return st +} + +func PrintArrayJavaStyle(sa []string) string { + var buffer bytes.Buffer + + buffer.WriteString("[") + + for i, s := range sa { + buffer.WriteString(s) + if i != len(sa)-1 { + buffer.WriteString(", ") + } + } + + buffer.WriteString("]") + + return buffer.String() +} + +// The following routines were lifted from bits.rotate* available in Go 1.9. + +const uintSize = 32 << (^uint(0) >> 32 & 1) // 32 or 64 + +// rotateLeft returns the value of x rotated left by (k mod UintSize) bits. +// To rotate x right by k bits, call RotateLeft(x, -k). +func rotateLeft(x uint, k int) uint { + if uintSize == 32 { + return uint(rotateLeft32(uint32(x), k)) + } + return uint(rotateLeft64(uint64(x), k)) +} + +// rotateLeft32 returns the value of x rotated left by (k mod 32) bits. +func rotateLeft32(x uint32, k int) uint32 { + const n = 32 + s := uint(k) & (n - 1) + return x<>(n-s) +} + +// rotateLeft64 returns the value of x rotated left by (k mod 64) bits. +func rotateLeft64(x uint64, k int) uint64 { + const n = 64 + s := uint(k) & (n - 1) + return x<>(n-s) +} + + +// murmur hash +const ( + c1_32 uint = 0xCC9E2D51 + c2_32 uint = 0x1B873593 + n1_32 uint = 0xE6546B64 +) + +func murmurInit(seed int) int { + return seed +} + +func murmurUpdate(h1 int, k1 int) int { + var k1u uint + k1u = uint(k1) * c1_32 + k1u = rotateLeft(k1u, 15) + k1u *= c2_32 + + var h1u = uint(h1) ^ k1u + k1u = rotateLeft(k1u, 13) + h1u = h1u*5 + 0xe6546b64 + return int(h1u) +} + +func murmurFinish(h1 int, numberOfWords int) int { + var h1u uint = uint(h1) + h1u ^= uint(numberOfWords * 4) + h1u ^= h1u >> 16 + h1u *= uint(0x85ebca6b) + h1u ^= h1u >> 13 + h1u *= 0xc2b2ae35 + h1u ^= h1u >> 16 + + return int(h1u) +} diff --git a/vendor/github.com/google/cel-go/LICENSE b/vendor/github.com/google/cel-go/LICENSE new file mode 100644 index 000000000..d64569567 --- /dev/null +++ b/vendor/github.com/google/cel-go/LICENSE @@ -0,0 +1,202 @@ + + Apache License + Version 2.0, January 2004 + http://www.apache.org/licenses/ + + TERMS AND CONDITIONS FOR USE, REPRODUCTION, AND DISTRIBUTION + + 1. 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The contents + of the NOTICE file are for informational purposes only and + do not modify the License. You may add Your own attribution + notices within Derivative Works that You distribute, alongside + or as an addendum to the NOTICE text from the Work, provided + that such additional attribution notices cannot be construed + as modifying the License. + + You may add Your own copyright statement to Your modifications and + may provide additional or different license terms and conditions + for use, reproduction, or distribution of Your modifications, or + for any such Derivative Works as a whole, provided Your use, + reproduction, and distribution of the Work otherwise complies with + the conditions stated in this License. + + 5. Submission of Contributions. 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In no event and under no legal theory, + whether in tort (including negligence), contract, or otherwise, + unless required by applicable law (such as deliberate and grossly + negligent acts) or agreed to in writing, shall any Contributor be + liable to You for damages, including any direct, indirect, special, + incidental, or consequential damages of any character arising as a + result of this License or out of the use or inability to use the + Work (including but not limited to damages for loss of goodwill, + work stoppage, computer failure or malfunction, or any and all + other commercial damages or losses), even if such Contributor + has been advised of the possibility of such damages. + + 9. Accepting Warranty or Additional Liability. While redistributing + the Work or Derivative Works thereof, You may choose to offer, + and charge a fee for, acceptance of support, warranty, indemnity, + or other liability obligations and/or rights consistent with this + License. However, in accepting such obligations, You may act only + on Your own behalf and on Your sole responsibility, not on behalf + of any other Contributor, and only if You agree to indemnify, + defend, and hold each Contributor harmless for any liability + incurred by, or claims asserted against, such Contributor by reason + of your accepting any such warranty or additional liability. + + END OF TERMS AND CONDITIONS + + APPENDIX: How to apply the Apache License to your work. + + To apply the Apache License to your work, attach the following + boilerplate notice, with the fields enclosed by brackets "[]" + replaced with your own identifying information. (Don't include + the brackets!) The text should be enclosed in the appropriate + comment syntax for the file format. We also recommend that a + file or class name and description of purpose be included on the + same "printed page" as the copyright notice for easier + identification within third-party archives. + + Copyright [yyyy] [name of copyright owner] + + Licensed under the Apache License, Version 2.0 (the "License"); + you may not use this file except in compliance with the License. + You may obtain a copy of the License at + + http://www.apache.org/licenses/LICENSE-2.0 + + Unless required by applicable law or agreed to in writing, software + distributed under the License is distributed on an "AS IS" BASIS, + WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. + See the License for the specific language governing permissions and + limitations under the License. diff --git a/vendor/github.com/google/cel-go/cel/BUILD.bazel b/vendor/github.com/google/cel-go/cel/BUILD.bazel new file mode 100644 index 000000000..aed827444 --- /dev/null +++ b/vendor/github.com/google/cel-go/cel/BUILD.bazel @@ -0,0 +1,64 @@ +load("@io_bazel_rules_go//go:def.bzl", "go_library", "go_test") + +package( + licenses = ["notice"], # Apache 2.0 +) + +go_library( + name = "go_default_library", + srcs = [ + "cel.go", + "env.go", + "io.go", + "library.go", + "options.go", + "program.go", + ], + importpath = "github.com/google/cel-go/cel", + visibility = ["//visibility:public"], + deps = [ + "//checker:go_default_library", + "//checker/decls:go_default_library", + "//common:go_default_library", + "//common/containers:go_default_library", + "//common/types:go_default_library", + "//common/types/pb:go_default_library", + "//common/types/ref:go_default_library", + "//interpreter:go_default_library", + "//interpreter/functions:go_default_library", + "//parser:go_default_library", + "@org_golang_google_genproto//googleapis/api/expr/v1alpha1:go_default_library", + "@org_golang_google_protobuf//proto:go_default_library", + "@org_golang_google_protobuf//reflect/protodesc:go_default_library", + "@org_golang_google_protobuf//reflect/protoreflect:go_default_library", + "@org_golang_google_protobuf//reflect/protoregistry:go_default_library", + "@org_golang_google_protobuf//types/descriptorpb:go_default_library", + "@org_golang_google_protobuf//types/dynamicpb:go_default_library", + ], +) + +go_test( + name = "go_default_test", + srcs = [ + "cel_test.go", + ], + data = [ + "//cel/testdata:gen_test_fds", + ], + embed = [ + ":go_default_library", + ], + deps = [ + "//checker/decls:go_default_library", + "//common/operators:go_default_library", + "//common/overloads:go_default_library", + "//common/types:go_default_library", + "//common/types/ref:go_default_library", + "//common/types/traits:go_default_library", + "//interpreter/functions:go_default_library", + "//test/proto2pb:go_default_library", + "//test/proto3pb:go_default_library", + "@io_bazel_rules_go//proto/wkt:descriptor_go_proto", + "@org_golang_google_genproto//googleapis/api/expr/v1alpha1:go_default_library", + ], +) diff --git a/vendor/github.com/google/cel-go/cel/cel.go b/vendor/github.com/google/cel-go/cel/cel.go new file mode 100644 index 000000000..eb5a9f4cc --- /dev/null +++ b/vendor/github.com/google/cel-go/cel/cel.go @@ -0,0 +1,19 @@ +// Copyright 2019 Google LLC +// +// Licensed under the Apache License, Version 2.0 (the "License"); +// you may not use this file except in compliance with the License. +// You may obtain a copy of the License at +// +// http://www.apache.org/licenses/LICENSE-2.0 +// +// Unless required by applicable law or agreed to in writing, software +// distributed under the License is distributed on an "AS IS" BASIS, +// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. +// See the License for the specific language governing permissions and +// limitations under the License. + +// Package cel defines the top-level interface for the Common Expression Language (CEL). +// +// CEL is a non-Turing complete expression language designed to parse, check, and evaluate +// expressions against user-defined environments. +package cel diff --git a/vendor/github.com/google/cel-go/cel/env.go b/vendor/github.com/google/cel-go/cel/env.go new file mode 100644 index 000000000..a35ac190f --- /dev/null +++ b/vendor/github.com/google/cel-go/cel/env.go @@ -0,0 +1,466 @@ +// Copyright 2019 Google LLC +// +// Licensed under the Apache License, Version 2.0 (the "License"); +// you may not use this file except in compliance with the License. +// You may obtain a copy of the License at +// +// http://www.apache.org/licenses/LICENSE-2.0 +// +// Unless required by applicable law or agreed to in writing, software +// distributed under the License is distributed on an "AS IS" BASIS, +// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. +// See the License for the specific language governing permissions and +// limitations under the License. + +package cel + +import ( + "errors" + "sync" + + "github.com/google/cel-go/checker" + "github.com/google/cel-go/checker/decls" + "github.com/google/cel-go/common" + "github.com/google/cel-go/common/containers" + "github.com/google/cel-go/common/types" + "github.com/google/cel-go/common/types/ref" + "github.com/google/cel-go/interpreter" + "github.com/google/cel-go/parser" + + exprpb "google.golang.org/genproto/googleapis/api/expr/v1alpha1" +) + +// Source interface representing a user-provided expression. +type Source interface { + common.Source +} + +// Ast representing the checked or unchecked expression, its source, and related metadata such as +// source position information. +type Ast struct { + expr *exprpb.Expr + info *exprpb.SourceInfo + source Source + refMap map[int64]*exprpb.Reference + typeMap map[int64]*exprpb.Type +} + +// Expr returns the proto serializable instance of the parsed/checked expression. +func (ast *Ast) Expr() *exprpb.Expr { + return ast.expr +} + +// IsChecked returns whether the Ast value has been successfully type-checked. +func (ast *Ast) IsChecked() bool { + return ast.typeMap != nil && len(ast.typeMap) > 0 +} + +// SourceInfo returns character offset and newling position information about expression elements. +func (ast *Ast) SourceInfo() *exprpb.SourceInfo { + return ast.info +} + +// ResultType returns the output type of the expression if the Ast has been type-checked, else +// returns decls.Dyn as the parse step cannot infer the type. +func (ast *Ast) ResultType() *exprpb.Type { + if !ast.IsChecked() { + return decls.Dyn + } + return ast.typeMap[ast.expr.Id] +} + +// Source returns a view of the input used to create the Ast. This source may be complete or +// constructed from the SourceInfo. +func (ast *Ast) Source() Source { + return ast.source +} + +// FormatType converts a type message into a string representation. +func FormatType(t *exprpb.Type) string { + return checker.FormatCheckedType(t) +} + +// Env encapsulates the context necessary to perform parsing, type checking, or generation of +// evaluable programs for different expressions. +type Env struct { + Container *containers.Container + declarations []*exprpb.Decl + macros []parser.Macro + adapter ref.TypeAdapter + provider ref.TypeProvider + features map[int]bool + // program options tied to the environment. + progOpts []ProgramOption + + // Internal checker representation + chk *checker.Env + chkErr error + once sync.Once +} + +// NewEnv creates a program environment configured with the standard library of CEL functions and +// macros. The Env value returned can parse and check any CEL program which builds upon the core +// features documented in the CEL specification. +// +// See the EnvOption helper functions for the options that can be used to configure the +// environment. +func NewEnv(opts ...EnvOption) (*Env, error) { + stdOpts := append([]EnvOption{StdLib()}, opts...) + return NewCustomEnv(stdOpts...) +} + +// NewCustomEnv creates a custom program environment which is not automatically configured with the +// standard library of functions and macros documented in the CEL spec. +// +// The purpose for using a custom environment might be for subsetting the standard library produced +// by the cel.StdLib() function. Subsetting CEL is a core aspect of its design that allows users to +// limit the compute and memory impact of a CEL program by controlling the functions and macros +// that may appear in a given expression. +// +// See the EnvOption helper functions for the options that can be used to configure the +// environment. +func NewCustomEnv(opts ...EnvOption) (*Env, error) { + registry, err := types.NewRegistry() + if err != nil { + return nil, err + } + return (&Env{ + declarations: []*exprpb.Decl{}, + macros: []parser.Macro{}, + Container: containers.DefaultContainer, + adapter: registry, + provider: registry, + features: map[int]bool{}, + progOpts: []ProgramOption{}, + }).configure(opts) +} + +// Check performs type-checking on the input Ast and yields a checked Ast and/or set of Issues. +// +// Checking has failed if the returned Issues value and its Issues.Err() value are non-nil. +// Issues should be inspected if they are non-nil, but may not represent a fatal error. +// +// It is possible to have both non-nil Ast and Issues values returned from this call: however, +// the mere presence of an Ast does not imply that it is valid for use. +func (e *Env) Check(ast *Ast) (*Ast, *Issues) { + // Note, errors aren't currently possible on the Ast to ParsedExpr conversion. + pe, _ := AstToParsedExpr(ast) + + // Construct the internal checker env, erroring if there is an issue adding the declarations. + e.once.Do(func() { + ce := checker.NewEnv(e.Container, e.provider) + ce.EnableDynamicAggregateLiterals(true) + if e.HasFeature(FeatureDisableDynamicAggregateLiterals) { + ce.EnableDynamicAggregateLiterals(false) + } + err := ce.Add(e.declarations...) + if err != nil { + e.chkErr = err + } else { + e.chk = ce + } + }) + // The once call will ensure that this value is set or nil for all invocations. + if e.chkErr != nil { + errs := common.NewErrors(ast.Source()) + errs.ReportError(common.NoLocation, e.chkErr.Error()) + return nil, NewIssues(errs) + } + + res, errs := checker.Check(pe, ast.Source(), e.chk) + if len(errs.GetErrors()) > 0 { + return nil, NewIssues(errs) + } + // Manually create the Ast to ensure that the Ast source information (which may be more + // detailed than the information provided by Check), is returned to the caller. + return &Ast{ + source: ast.Source(), + expr: res.GetExpr(), + info: res.GetSourceInfo(), + refMap: res.GetReferenceMap(), + typeMap: res.GetTypeMap()}, nil +} + +// Compile combines the Parse and Check phases CEL program compilation to produce an Ast and +// associated issues. +// +// If an error is encountered during parsing the Compile step will not continue with the Check +// phase. If non-error issues are encountered during Parse, they may be combined with any issues +// discovered during Check. +// +// Note, for parse-only uses of CEL use Parse. +func (e *Env) Compile(txt string) (*Ast, *Issues) { + return e.CompileSource(common.NewTextSource(txt)) +} + +// CompileSource combines the Parse and Check phases CEL program compilation to produce an Ast and +// associated issues. +// +// If an error is encountered during parsing the CompileSource step will not continue with the +// Check phase. If non-error issues are encountered during Parse, they may be combined with any +// issues discovered during Check. +// +// Note, for parse-only uses of CEL use Parse. +func (e *Env) CompileSource(src common.Source) (*Ast, *Issues) { + ast, iss := e.ParseSource(src) + if iss.Err() != nil { + return nil, iss + } + checked, iss2 := e.Check(ast) + iss = iss.Append(iss2) + if iss.Err() != nil { + return nil, iss + } + return checked, iss +} + +// Extend the current environment with additional options to produce a new Env. +// +// Note, the extended Env value should not share memory with the original. It is possible, however, +// that a CustomTypeAdapter or CustomTypeProvider options could provide values which are mutable. +// To ensure separation of state between extended environments either make sure the TypeAdapter and +// TypeProvider are immutable, or that their underlying implementations are based on the +// ref.TypeRegistry which provides a Copy method which will be invoked by this method. +func (e *Env) Extend(opts ...EnvOption) (*Env, error) { + if e.chkErr != nil { + return nil, e.chkErr + } + // Copy slices. + decsCopy := make([]*exprpb.Decl, len(e.declarations)) + macsCopy := make([]parser.Macro, len(e.macros)) + progOptsCopy := make([]ProgramOption, len(e.progOpts)) + copy(decsCopy, e.declarations) + copy(macsCopy, e.macros) + copy(progOptsCopy, e.progOpts) + + // Copy the adapter / provider if they appear to be mutable. + adapter := e.adapter + provider := e.provider + adapterReg, isAdapterReg := e.adapter.(ref.TypeRegistry) + providerReg, isProviderReg := e.provider.(ref.TypeRegistry) + // In most cases the provider and adapter will be a ref.TypeRegistry; + // however, in the rare cases where they are not, they are assumed to + // be immutable. Since it is possible to set the TypeProvider separately + // from the TypeAdapter, the possible configurations which could use a + // TypeRegistry as the base implementation are captured below. + if isAdapterReg && isProviderReg { + reg := providerReg.Copy() + provider = reg + // If the adapter and provider are the same object, set the adapter + // to the same ref.TypeRegistry as the provider. + if adapterReg == providerReg { + adapter = reg + } else { + // Otherwise, make a copy of the adapter. + adapter = adapterReg.Copy() + } + } else if isProviderReg { + provider = providerReg.Copy() + } else if isAdapterReg { + adapter = adapterReg.Copy() + } + + featuresCopy := make(map[int]bool, len(e.features)) + for k, v := range e.features { + featuresCopy[k] = v + } + + ext := &Env{ + Container: e.Container, + declarations: decsCopy, + macros: macsCopy, + progOpts: progOptsCopy, + adapter: adapter, + features: featuresCopy, + provider: provider, + } + return ext.configure(opts) +} + +// HasFeature checks whether the environment enables the given feature +// flag, as enumerated in options.go. +func (e *Env) HasFeature(flag int) bool { + _, has := e.features[flag] + return has +} + +// Parse parses the input expression value `txt` to a Ast and/or a set of Issues. +// +// This form of Parse creates a common.Source value for the input `txt` and forwards to the +// ParseSource method. +func (e *Env) Parse(txt string) (*Ast, *Issues) { + src := common.NewTextSource(txt) + return e.ParseSource(src) +} + +// ParseSource parses the input source to an Ast and/or set of Issues. +// +// Parsing has failed if the returned Issues value and its Issues.Err() value is non-nil. +// Issues should be inspected if they are non-nil, but may not represent a fatal error. +// +// It is possible to have both non-nil Ast and Issues values returned from this call; however, +// the mere presence of an Ast does not imply that it is valid for use. +func (e *Env) ParseSource(src common.Source) (*Ast, *Issues) { + res, errs := parser.ParseWithMacros(src, e.macros) + if len(errs.GetErrors()) > 0 { + return nil, &Issues{errs: errs} + } + // Manually create the Ast to ensure that the text source information is propagated on + // subsequent calls to Check. + return &Ast{ + source: Source(src), + expr: res.GetExpr(), + info: res.GetSourceInfo()}, nil +} + +// Program generates an evaluable instance of the Ast within the environment (Env). +func (e *Env) Program(ast *Ast, opts ...ProgramOption) (Program, error) { + optSet := e.progOpts + if len(opts) != 0 { + mergedOpts := []ProgramOption{} + mergedOpts = append(mergedOpts, e.progOpts...) + mergedOpts = append(mergedOpts, opts...) + optSet = mergedOpts + } + return newProgram(e, ast, optSet) +} + +// SetFeature sets the given feature flag, as enumerated in options.go. +func (e *Env) SetFeature(flag int) { + e.features[flag] = true +} + +// TypeAdapter returns the `ref.TypeAdapter` configured for the environment. +func (e *Env) TypeAdapter() ref.TypeAdapter { + return e.adapter +} + +// TypeProvider returns the `ref.TypeProvider` configured for the environment. +func (e *Env) TypeProvider() ref.TypeProvider { + return e.provider +} + +// UnknownVars returns an interpreter.PartialActivation which marks all variables +// declared in the Env as unknown AttributePattern values. +// +// Note, the UnknownVars will behave the same as an interpreter.EmptyActivation +// unless the PartialAttributes option is provided as a ProgramOption. +func (e *Env) UnknownVars() interpreter.PartialActivation { + var unknownPatterns []*interpreter.AttributePattern + for _, d := range e.declarations { + switch d.GetDeclKind().(type) { + case *exprpb.Decl_Ident: + unknownPatterns = append(unknownPatterns, + interpreter.NewAttributePattern(d.GetName())) + } + } + part, _ := PartialVars( + interpreter.EmptyActivation(), + unknownPatterns...) + return part +} + +// ResidualAst takes an Ast and its EvalDetails to produce a new Ast which only contains the +// attribute references which are unknown. +// +// Residual expressions are beneficial in a few scenarios: +// +// - Optimizing constant expression evaluations away. +// - Indexing and pruning expressions based on known input arguments. +// - Surfacing additional requirements that are needed in order to complete an evaluation. +// - Sharing the evaluation of an expression across multiple machines/nodes. +// +// For example, if an expression targets a 'resource' and 'request' attribute and the possible +// values for the resource are known, a PartialActivation could mark the 'request' as an unknown +// interpreter.AttributePattern and the resulting ResidualAst would be reduced to only the parts +// of the expression that reference the 'request'. +// +// Note, the expression ids within the residual AST generated through this method have no +// correlation to the expression ids of the original AST. +// +// See the PartialVars helper for how to construct a PartialActivation. +// +// TODO: Consider adding an option to generate a Program.Residual to avoid round-tripping to an +// Ast format and then Program again. +func (e *Env) ResidualAst(a *Ast, details *EvalDetails) (*Ast, error) { + pruned := interpreter.PruneAst(a.Expr(), details.State()) + expr, err := AstToString(ParsedExprToAst(&exprpb.ParsedExpr{Expr: pruned})) + if err != nil { + return nil, err + } + parsed, iss := e.Parse(expr) + if iss != nil && iss.Err() != nil { + return nil, iss.Err() + } + if !a.IsChecked() { + return parsed, nil + } + checked, iss := e.Check(parsed) + if iss != nil && iss.Err() != nil { + return nil, iss.Err() + } + return checked, nil +} + +// configure applies a series of EnvOptions to the current environment. +func (e *Env) configure(opts []EnvOption) (*Env, error) { + // Customized the environment using the provided EnvOption values. If an error is + // generated at any step this, will be returned as a nil Env with a non-nil error. + var err error + for _, opt := range opts { + e, err = opt(e) + if err != nil { + return nil, err + } + } + return e, nil +} + +// Issues defines methods for inspecting the error details of parse and check calls. +// +// Note: in the future, non-fatal warnings and notices may be inspectable via the Issues struct. +type Issues struct { + errs *common.Errors +} + +// NewIssues returns an Issues struct from a common.Errors object. +func NewIssues(errs *common.Errors) *Issues { + return &Issues{ + errs: errs, + } +} + +// Err returns an error value if the issues list contains one or more errors. +func (i *Issues) Err() error { + if i == nil { + return nil + } + if len(i.Errors()) > 0 { + return errors.New(i.String()) + } + return nil +} + +// Errors returns the collection of errors encountered in more granular detail. +func (i *Issues) Errors() []common.Error { + if i == nil { + return []common.Error{} + } + return i.errs.GetErrors() +} + +// Append collects the issues from another Issues struct into a new Issues object. +func (i *Issues) Append(other *Issues) *Issues { + if i == nil { + return other + } + return NewIssues(i.errs.Append(other.errs.GetErrors())) +} + +// String converts the issues to a suitable display string. +func (i *Issues) String() string { + if i == nil { + return "" + } + return i.errs.ToDisplayString() +} diff --git a/vendor/github.com/google/cel-go/cel/io.go b/vendor/github.com/google/cel-go/cel/io.go new file mode 100644 index 000000000..4df33c064 --- /dev/null +++ b/vendor/github.com/google/cel-go/cel/io.go @@ -0,0 +1,122 @@ +// Copyright 2019 Google LLC +// +// Licensed under the Apache License, Version 2.0 (the "License"); +// you may not use this file except in compliance with the License. +// You may obtain a copy of the License at +// +// http://www.apache.org/licenses/LICENSE-2.0 +// +// Unless required by applicable law or agreed to in writing, software +// distributed under the License is distributed on an "AS IS" BASIS, +// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. +// See the License for the specific language governing permissions and +// limitations under the License. + +package cel + +import ( + "fmt" + + "github.com/google/cel-go/common" + "github.com/google/cel-go/parser" + + exprpb "google.golang.org/genproto/googleapis/api/expr/v1alpha1" +) + +// CheckedExprToAst converts a checked expression proto message to an Ast. +func CheckedExprToAst(checkedExpr *exprpb.CheckedExpr) *Ast { + return CheckedExprToAstWithSource(checkedExpr, nil) +} + +// CheckedExprToAstWithSource converts a checked expression proto message to an Ast, +// using the provided Source as the textual contents. +// +// In general the source is not necessary unless the AST has been modified between the +// `Parse` and `Check` calls as an `Ast` created from the `Parse` step will carry the source +// through future calls. +// +// Prefer CheckedExprToAst if loading expressions from storage. +func CheckedExprToAstWithSource(checkedExpr *exprpb.CheckedExpr, src common.Source) *Ast { + refMap := checkedExpr.GetReferenceMap() + if refMap == nil { + refMap = map[int64]*exprpb.Reference{} + } + typeMap := checkedExpr.GetTypeMap() + if typeMap == nil { + typeMap = map[int64]*exprpb.Type{} + } + si := checkedExpr.GetSourceInfo() + if si == nil { + si = &exprpb.SourceInfo{} + } + if src == nil { + src = common.NewInfoSource(si) + } + return &Ast{ + expr: checkedExpr.GetExpr(), + info: si, + source: src, + refMap: refMap, + typeMap: typeMap, + } +} + +// AstToCheckedExpr converts an Ast to an protobuf CheckedExpr value. +// +// If the Ast.IsChecked() returns false, this conversion method will return an error. +func AstToCheckedExpr(a *Ast) (*exprpb.CheckedExpr, error) { + if !a.IsChecked() { + return nil, fmt.Errorf("cannot convert unchecked ast") + } + return &exprpb.CheckedExpr{ + Expr: a.Expr(), + SourceInfo: a.SourceInfo(), + ReferenceMap: a.refMap, + TypeMap: a.typeMap, + }, nil +} + +// ParsedExprToAst converts a parsed expression proto message to an Ast. +func ParsedExprToAst(parsedExpr *exprpb.ParsedExpr) *Ast { + return ParsedExprToAstWithSource(parsedExpr, nil) +} + +// ParsedExprToAstWithSource converts a parsed expression proto message to an Ast, +// using the provided Source as the textual contents. +// +// In general you only need this if you need to recheck a previously checked +// expression, or if you need to separately check a subset of an expression. +// +// Prefer ParsedExprToAst if loading expressions from storage. +func ParsedExprToAstWithSource(parsedExpr *exprpb.ParsedExpr, src common.Source) *Ast { + si := parsedExpr.GetSourceInfo() + if si == nil { + si = &exprpb.SourceInfo{} + } + if src == nil { + src = common.NewInfoSource(si) + } + return &Ast{ + expr: parsedExpr.GetExpr(), + info: si, + source: src, + } +} + +// AstToParsedExpr converts an Ast to an protobuf ParsedExpr value. +func AstToParsedExpr(a *Ast) (*exprpb.ParsedExpr, error) { + return &exprpb.ParsedExpr{ + Expr: a.Expr(), + SourceInfo: a.SourceInfo(), + }, nil +} + +// AstToString converts an Ast back to a string if possible. +// +// Note, the conversion may not be an exact replica of the original expression, but will produce +// a string that is semantically equivalent and whose textual representation is stable. +func AstToString(a *Ast) (string, error) { + expr := a.Expr() + info := a.SourceInfo() + return parser.Unparse(expr, info) +} diff --git a/vendor/github.com/google/cel-go/cel/library.go b/vendor/github.com/google/cel-go/cel/library.go new file mode 100644 index 000000000..cef161d6a --- /dev/null +++ b/vendor/github.com/google/cel-go/cel/library.go @@ -0,0 +1,77 @@ +// Copyright 2020 Google LLC +// +// Licensed under the Apache License, Version 2.0 (the "License"); +// you may not use this file except in compliance with the License. +// You may obtain a copy of the License at +// +// http://www.apache.org/licenses/LICENSE-2.0 +// +// Unless required by applicable law or agreed to in writing, software +// distributed under the License is distributed on an "AS IS" BASIS, +// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. +// See the License for the specific language governing permissions and +// limitations under the License. + +package cel + +import ( + "github.com/google/cel-go/checker" + "github.com/google/cel-go/interpreter/functions" + "github.com/google/cel-go/parser" +) + +// Library provides a collection of EnvOption and ProgramOption values used to confiugre a CEL +// environment for a particular use case or with a related set of functionality. +// +// Note, the ProgramOption values provided by a library are expected to be static and not vary +// between calls to Env.Program(). If there is a need for such dynamic configuration, prefer to +// configure these options outside the Library and within the Env.Program() call directly. +type Library interface { + // CompileOptions returns a collection of funcitional options for configuring the Parse / Check + // environment. + CompileOptions() []EnvOption + + // ProgramOptions returns a collection of functional options which should be included in every + // Program generated from the Env.Program() call. + ProgramOptions() []ProgramOption +} + +// Lib creates an EnvOption out of a Library, allowing libraries to be provided as functional args, +// and to be linked to each other. +func Lib(l Library) EnvOption { + return func(e *Env) (*Env, error) { + var err error + for _, opt := range l.CompileOptions() { + e, err = opt(e) + if err != nil { + return nil, err + } + } + e.progOpts = append(e.progOpts, l.ProgramOptions()...) + return e, nil + } +} + +// StdLib returns an EnvOption for the standard library of CEL functions and macros. +func StdLib() EnvOption { + return Lib(stdLibrary{}) +} + +// stdLibrary implements the Library interface and provides functional options for the core CEL +// features documented in the specification. +type stdLibrary struct{} + +// EnvOptions returns options for the standard CEL function declarations and macros. +func (stdLibrary) CompileOptions() []EnvOption { + return []EnvOption{ + Declarations(checker.StandardDeclarations()...), + Macros(parser.AllMacros...), + } +} + +// ProgramOptions returns function implementations for the standard CEL functions. +func (stdLibrary) ProgramOptions() []ProgramOption { + return []ProgramOption{ + Functions(functions.StandardOverloads()...), + } +} diff --git a/vendor/github.com/google/cel-go/cel/options.go b/vendor/github.com/google/cel-go/cel/options.go new file mode 100644 index 000000000..78a6d7493 --- /dev/null +++ b/vendor/github.com/google/cel-go/cel/options.go @@ -0,0 +1,451 @@ +// Copyright 2019 Google LLC +// +// Licensed under the Apache License, Version 2.0 (the "License"); +// you may not use this file except in compliance with the License. +// You may obtain a copy of the License at +// +// http://www.apache.org/licenses/LICENSE-2.0 +// +// Unless required by applicable law or agreed to in writing, software +// distributed under the License is distributed on an "AS IS" BASIS, +// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. +// See the License for the specific language governing permissions and +// limitations under the License. + +package cel + +import ( + "fmt" + + "github.com/google/cel-go/checker/decls" + "github.com/google/cel-go/common/containers" + "github.com/google/cel-go/common/types/pb" + "github.com/google/cel-go/common/types/ref" + "github.com/google/cel-go/interpreter" + "github.com/google/cel-go/interpreter/functions" + "github.com/google/cel-go/parser" + "google.golang.org/protobuf/proto" + "google.golang.org/protobuf/reflect/protodesc" + "google.golang.org/protobuf/reflect/protoreflect" + "google.golang.org/protobuf/reflect/protoregistry" + "google.golang.org/protobuf/types/dynamicpb" + + exprpb "google.golang.org/genproto/googleapis/api/expr/v1alpha1" + descpb "google.golang.org/protobuf/types/descriptorpb" +) + +// These constants beginning with "Feature" enable optional behavior in +// the library. See the documentation for each constant to see its +// effects, compatibility restrictions, and standard conformance. +const ( + _ = iota + + // Disallow heterogeneous aggregate (list, map) literals. + // Note, it is still possible to have heterogeneous aggregates when + // provided as variables to the expression, as well as via conversion + // of well-known dynamic types, or with unchecked expressions. + // Affects checking. Provides a subset of standard behavior. + FeatureDisableDynamicAggregateLiterals +) + +// EnvOption is a functional interface for configuring the environment. +type EnvOption func(e *Env) (*Env, error) + +// ClearMacros options clears all parser macros. +// +// Clearing macros will ensure CEL expressions can only contain linear evaluation paths, as +// comprehensions such as `all` and `exists` are enabled only via macros. +func ClearMacros() EnvOption { + return func(e *Env) (*Env, error) { + e.macros = parser.NoMacros + return e, nil + } +} + +// CustomTypeAdapter swaps the default ref.TypeAdapter implementation with a custom one. +// +// Note: This option must be specified before the Types and TypeDescs options when used together. +func CustomTypeAdapter(adapter ref.TypeAdapter) EnvOption { + return func(e *Env) (*Env, error) { + e.adapter = adapter + return e, nil + } +} + +// CustomTypeProvider swaps the default ref.TypeProvider implementation with a custom one. +// +// Note: This option must be specified before the Types and TypeDescs options when used together. +func CustomTypeProvider(provider ref.TypeProvider) EnvOption { + return func(e *Env) (*Env, error) { + e.provider = provider + return e, nil + } +} + +// Declarations option extends the declaration set configured in the environment. +// +// Note: Declarations will by default be appended to the pre-existing declaration set configured +// for the environment. The NewEnv call builds on top of the standard CEL declarations. For a +// purely custom set of declarations use NewCustomEnv. +func Declarations(decls ...*exprpb.Decl) EnvOption { + // TODO: provide an alternative means of specifying declarations that doesn't refer + // to the underlying proto implementations. + return func(e *Env) (*Env, error) { + e.declarations = append(e.declarations, decls...) + return e, nil + } +} + +// Features sets the given feature flags. See list of Feature constants above. +func Features(flags ...int) EnvOption { + return func(e *Env) (*Env, error) { + for _, flag := range flags { + e.SetFeature(flag) + } + return e, nil + } +} + +// HomogeneousAggregateLiterals option ensures that list and map literal entry types must agree +// during type-checking. +// +// Note, it is still possible to have heterogeneous aggregates when provided as variables to the +// expression, as well as via conversion of well-known dynamic types, or with unchecked +// expressions. +func HomogeneousAggregateLiterals() EnvOption { + return Features(FeatureDisableDynamicAggregateLiterals) +} + +// Macros option extends the macro set configured in the environment. +// +// Note: This option must be specified after ClearMacros if used together. +func Macros(macros ...parser.Macro) EnvOption { + return func(e *Env) (*Env, error) { + e.macros = append(e.macros, macros...) + return e, nil + } +} + +// Container sets the container for resolving variable names. Defaults to an empty container. +// +// If all references within an expression are relative to a protocol buffer package, then +// specifying a container of `google.type` would make it possible to write expressions such as +// `Expr{expression: 'a < b'}` instead of having to write `google.type.Expr{...}`. +func Container(name string) EnvOption { + return func(e *Env) (*Env, error) { + cont, err := e.Container.Extend(containers.Name(name)) + if err != nil { + return nil, err + } + e.Container = cont + return e, nil + } +} + +// Abbrevs configures a set of simple names as abbreviations for fully-qualified names. +// +// An abbreviation (abbrev for short) is a simple name that expands to a fully-qualified name. +// Abbreviations can be useful when working with variables, functions, and especially types from +// multiple namespaces: +// +// // CEL object construction +// qual.pkg.version.ObjTypeName{ +// field: alt.container.ver.FieldTypeName{value: ...} +// } +// +// Only one the qualified names above may be used as the CEL container, so at least one of these +// references must be a long qualified name within an otherwise short CEL program. Using the +// following abbreviations, the program becomes much simpler: +// +// // CEL Go option +// Abbrevs("qual.pkg.version.ObjTypeName", "alt.container.ver.FieldTypeName") +// // Simplified Object construction +// ObjTypeName{field: FieldTypeName{value: ...}} +// +// There are a few rules for the qualified names and the simple abbreviations generated from them: +// - Qualified names must be dot-delimited, e.g. `package.subpkg.name`. +// - The last element in the qualified name is the abbreviation. +// - Abbreviations must not collide with each other. +// - The abbreviation must not collide with unqualified names in use. +// +// Abbreviations are distinct from container-based references in the following important ways: +// - Abbreviations must expand to a fully-qualified name. +// - Expanded abbreviations do not participate in namespace resolution. +// - Abbreviation expansion is done instead of the container search for a matching identifier. +// - Containers follow C++ namespace resolution rules with searches from the most qualified name +// to the least qualified name. +// - Container references within the CEL program may be relative, and are resolved to fully +// qualified names at either type-check time or program plan time, whichever comes first. +// +// If there is ever a case where an identifier could be in both the container and as an +// abbreviation, the abbreviation wins as this will ensure that the meaning of a program is +// preserved between compilations even as the container evolves. +func Abbrevs(qualifiedNames ...string) EnvOption { + return func(e *Env) (*Env, error) { + cont, err := e.Container.Extend(containers.Abbrevs(qualifiedNames...)) + if err != nil { + return nil, err + } + e.Container = cont + return e, nil + } +} + +// Types adds one or more type declarations to the environment, allowing for construction of +// type-literals whose definitions are included in the common expression built-in set. +// +// The input types may either be instances of `proto.Message` or `ref.Type`. Any other type +// provided to this option will result in an error. +// +// Well-known protobuf types within the `google.protobuf.*` package are included in the standard +// environment by default. +// +// Note: This option must be specified after the CustomTypeProvider option when used together. +func Types(addTypes ...interface{}) EnvOption { + return func(e *Env) (*Env, error) { + reg, isReg := e.provider.(ref.TypeRegistry) + if !isReg { + return nil, fmt.Errorf("custom types not supported by provider: %T", e.provider) + } + for _, t := range addTypes { + switch v := t.(type) { + case proto.Message: + fdMap := pb.CollectFileDescriptorSet(v) + for _, fd := range fdMap { + err := reg.RegisterDescriptor(fd) + if err != nil { + return nil, err + } + } + case ref.Type: + err := reg.RegisterType(v) + if err != nil { + return nil, err + } + default: + return nil, fmt.Errorf("unsupported type: %T", t) + } + } + return e, nil + } +} + +// TypeDescs adds type declarations from any protoreflect.FileDescriptor, protoregistry.Files, +// google.protobuf.FileDescriptorProto or google.protobuf.FileDescriptorSet provided. +// +// Note that messages instantiated from these descriptors will be *dynamicpb.Message values +// rather than the concrete message type. +// +// TypeDescs are hermetic to a single Env object, but may be copied to other Env values via +// extension or by re-using the same EnvOption with another NewEnv() call. +func TypeDescs(descs ...interface{}) EnvOption { + return func(e *Env) (*Env, error) { + reg, isReg := e.provider.(ref.TypeRegistry) + if !isReg { + return nil, fmt.Errorf("custom types not supported by provider: %T", e.provider) + } + // Scan the input descriptors for FileDescriptorProto messages and accumulate them into a + // synthetic FileDescriptorSet as the FileDescriptorProto messages may refer to each other + // and will not resolve properly unless they are part of the same set. + var fds *descpb.FileDescriptorSet + for _, d := range descs { + switch f := d.(type) { + case *descpb.FileDescriptorProto: + if fds == nil { + fds = &descpb.FileDescriptorSet{ + File: []*descpb.FileDescriptorProto{}, + } + } + fds.File = append(fds.File, f) + } + } + if fds != nil { + if err := registerFileSet(reg, fds); err != nil { + return nil, err + } + } + for _, d := range descs { + switch f := d.(type) { + case *protoregistry.Files: + if err := registerFiles(reg, f); err != nil { + return nil, err + } + case protoreflect.FileDescriptor: + if err := reg.RegisterDescriptor(f); err != nil { + return nil, err + } + case *descpb.FileDescriptorSet: + if err := registerFileSet(reg, f); err != nil { + return nil, err + } + case *descpb.FileDescriptorProto: + // skip, handled as a synthetic file descriptor set. + default: + return nil, fmt.Errorf("unsupported type descriptor: %T", d) + } + } + return e, nil + } +} + +func registerFileSet(reg ref.TypeRegistry, fileSet *descpb.FileDescriptorSet) error { + files, err := protodesc.NewFiles(fileSet) + if err != nil { + return fmt.Errorf("protodesc.NewFiles(%v) failed: %v", fileSet, err) + } + return registerFiles(reg, files) +} + +func registerFiles(reg ref.TypeRegistry, files *protoregistry.Files) error { + var err error + files.RangeFiles(func(fd protoreflect.FileDescriptor) bool { + err = reg.RegisterDescriptor(fd) + return err == nil + }) + return err +} + +// ProgramOption is a functional interface for configuring evaluation bindings and behaviors. +type ProgramOption func(p *prog) (*prog, error) + +// CustomDecorator appends an InterpreterDecorator to the program. +// +// InterpretableDecorators can be used to inspect, alter, or replace the Program plan. +func CustomDecorator(dec interpreter.InterpretableDecorator) ProgramOption { + return func(p *prog) (*prog, error) { + p.decorators = append(p.decorators, dec) + return p, nil + } +} + +// Functions adds function overloads that extend or override the set of CEL built-ins. +func Functions(funcs ...*functions.Overload) ProgramOption { + return func(p *prog) (*prog, error) { + if err := p.dispatcher.Add(funcs...); err != nil { + return nil, err + } + return p, nil + } +} + +// Globals sets the global variable values for a given program. These values may be shadowed by +// variables with the same name provided to the Eval() call. +// +// The vars value may either be an `interpreter.Activation` instance or a `map[string]interface{}`. +func Globals(vars interface{}) ProgramOption { + return func(p *prog) (*prog, error) { + defaultVars, err := + interpreter.NewActivation(vars) + if err != nil { + return nil, err + } + p.defaultVars = defaultVars + return p, nil + } +} + +// EvalOption indicates an evaluation option that may affect the evaluation behavior or information +// in the output result. +type EvalOption int + +const ( + // OptTrackState will cause the runtime to return an immutable EvalState value in the Result. + OptTrackState EvalOption = 1 << iota + + // OptExhaustiveEval causes the runtime to disable short-circuits and track state. + OptExhaustiveEval EvalOption = 1< 0 { + // Instantiate overload's type with fresh type variables. + substitutions := newMapping() + for _, typePar := range overload.TypeParams { + substitutions.add(decls.NewTypeParamType(typePar), c.newTypeVar()) + } + overloadType = substitute(substitutions, overloadType, false) + } + + candidateArgTypes := overloadType.GetFunction().ArgTypes + if c.isAssignableList(argTypes, candidateArgTypes) { + if checkedRef == nil { + checkedRef = newFunctionReference(overload.OverloadId) + } else { + checkedRef.OverloadId = append(checkedRef.OverloadId, overload.OverloadId) + } + + // First matching overload, determines result type. + fnResultType := substitute(c.mappings, + overloadType.GetFunction().ResultType, + false) + if resultType == nil { + resultType = fnResultType + } else if !isDyn(resultType) && !proto.Equal(fnResultType, resultType) { + resultType = decls.Dyn + } + } + } + + if resultType == nil { + c.errors.noMatchingOverload(loc, fn.GetName(), argTypes, target != nil) + resultType = decls.Error + return nil + } + + return newResolution(checkedRef, resultType) +} + +func (c *checker) checkCreateList(e *exprpb.Expr) { + create := e.GetListExpr() + var elemType *exprpb.Type + for _, e := range create.Elements { + c.check(e) + elemType = c.joinTypes(c.location(e), elemType, c.getType(e)) + } + if elemType == nil { + // If the list is empty, assign free type var to elem type. + elemType = c.newTypeVar() + } + c.setType(e, decls.NewListType(elemType)) +} + +func (c *checker) checkCreateStruct(e *exprpb.Expr) { + str := e.GetStructExpr() + if str.MessageName != "" { + c.checkCreateMessage(e) + } else { + c.checkCreateMap(e) + } +} + +func (c *checker) checkCreateMap(e *exprpb.Expr) { + mapVal := e.GetStructExpr() + var keyType *exprpb.Type + var valueType *exprpb.Type + for _, ent := range mapVal.GetEntries() { + key := ent.GetMapKey() + c.check(key) + keyType = c.joinTypes(c.location(key), keyType, c.getType(key)) + + c.check(ent.Value) + valueType = c.joinTypes(c.location(ent.Value), valueType, c.getType(ent.Value)) + } + if keyType == nil { + // If the map is empty, assign free type variables to typeKey and value type. + keyType = c.newTypeVar() + valueType = c.newTypeVar() + } + c.setType(e, decls.NewMapType(keyType, valueType)) +} + +func (c *checker) checkCreateMessage(e *exprpb.Expr) { + msgVal := e.GetStructExpr() + // Determine the type of the message. + messageType := decls.Error + decl := c.env.LookupIdent(msgVal.MessageName) + if decl == nil { + c.errors.undeclaredReference( + c.location(e), c.env.container.Name(), msgVal.MessageName) + return + } + // Ensure the type name is fully qualified in the AST. + msgVal.MessageName = decl.GetName() + c.setReference(e, newIdentReference(decl.GetName(), nil)) + ident := decl.GetIdent() + identKind := kindOf(ident.Type) + if identKind != kindError { + if identKind != kindType { + c.errors.notAType(c.location(e), ident.Type) + } else { + messageType = ident.Type.GetType() + if kindOf(messageType) != kindObject { + c.errors.notAMessageType(c.location(e), messageType) + messageType = decls.Error + } + } + } + if isObjectWellKnownType(messageType) { + c.setType(e, getObjectWellKnownType(messageType)) + } else { + c.setType(e, messageType) + } + + // Check the field initializers. + for _, ent := range msgVal.GetEntries() { + field := ent.GetFieldKey() + value := ent.Value + c.check(value) + + fieldType := decls.Error + if t, found := c.lookupFieldType( + c.locationByID(ent.Id), + messageType.GetMessageType(), + field); found { + fieldType = t.Type + } + if !c.isAssignable(fieldType, c.getType(value)) { + c.errors.fieldTypeMismatch( + c.locationByID(ent.Id), field, fieldType, c.getType(value)) + } + } +} + +func (c *checker) checkComprehension(e *exprpb.Expr) { + comp := e.GetComprehensionExpr() + c.check(comp.IterRange) + c.check(comp.AccuInit) + accuType := c.getType(comp.AccuInit) + rangeType := c.getType(comp.IterRange) + var varType *exprpb.Type + + switch kindOf(rangeType) { + case kindList: + varType = rangeType.GetListType().ElemType + case kindMap: + // Ranges over the keys. + varType = rangeType.GetMapType().KeyType + case kindDyn, kindError, kindTypeParam: + // Set the range type to DYN to prevent assignment to a potentionally incorrect type + // at a later point in type-checking. The isAssignable call will update the type + // substitutions for the type param under the covers. + c.isAssignable(decls.Dyn, rangeType) + // Set the range iteration variable to type DYN as well. + varType = decls.Dyn + default: + c.errors.notAComprehensionRange(c.location(comp.IterRange), rangeType) + varType = decls.Error + } + + // Create a scope for the comprehension since it has a local accumulation variable. + // This scope will contain the accumulation variable used to compute the result. + c.env = c.env.enterScope() + c.env.Add(decls.NewVar(comp.AccuVar, accuType)) + // Create a block scope for the loop. + c.env = c.env.enterScope() + c.env.Add(decls.NewVar(comp.IterVar, varType)) + // Check the variable references in the condition and step. + c.check(comp.LoopCondition) + c.assertType(comp.LoopCondition, decls.Bool) + c.check(comp.LoopStep) + c.assertType(comp.LoopStep, accuType) + // Exit the loop's block scope before checking the result. + c.env = c.env.exitScope() + c.check(comp.Result) + // Exit the comprehension scope. + c.env = c.env.exitScope() + c.setType(e, c.getType(comp.Result)) +} + +// Checks compatibility of joined types, and returns the most general common type. +func (c *checker) joinTypes(loc common.Location, + previous *exprpb.Type, + current *exprpb.Type) *exprpb.Type { + if previous == nil { + return current + } + if c.isAssignable(previous, current) { + return mostGeneral(previous, current) + } + if c.dynAggregateLiteralElementTypesEnabled() { + return decls.Dyn + } + c.errors.typeMismatch(loc, previous, current) + return decls.Error +} + +func (c *checker) dynAggregateLiteralElementTypesEnabled() bool { + return c.env.aggLitElemType == dynElementType +} + +func (c *checker) newTypeVar() *exprpb.Type { + id := c.freeTypeVarCounter + c.freeTypeVarCounter++ + return decls.NewTypeParamType(fmt.Sprintf("_var%d", id)) +} + +func (c *checker) isAssignable(t1 *exprpb.Type, t2 *exprpb.Type) bool { + subs := isAssignable(c.mappings, t1, t2) + if subs != nil { + c.mappings = subs + return true + } + + return false +} + +func (c *checker) isAssignableList(l1 []*exprpb.Type, l2 []*exprpb.Type) bool { + subs := isAssignableList(c.mappings, l1, l2) + if subs != nil { + c.mappings = subs + return true + } + + return false +} + +func (c *checker) lookupFieldType(l common.Location, messageType string, fieldName string) (*ref.FieldType, bool) { + if _, found := c.env.provider.FindType(messageType); !found { + // This should not happen, anyway, report an error. + c.errors.unexpectedFailedResolution(l, messageType) + return nil, false + } + + if ft, found := c.env.provider.FindFieldType(messageType, fieldName); found { + return ft, found + } + + c.errors.undefinedField(l, fieldName) + return nil, false +} + +func (c *checker) setType(e *exprpb.Expr, t *exprpb.Type) { + if old, found := c.types[e.Id]; found && !proto.Equal(old, t) { + c.errors.ReportError(c.location(e), + "(Incompatible) Type already exists for expression: %v(%d) old:%v, new:%v", e, e.GetId(), old, t) + return + } + c.types[e.Id] = t +} + +func (c *checker) getType(e *exprpb.Expr) *exprpb.Type { + return c.types[e.Id] +} + +func (c *checker) setReference(e *exprpb.Expr, r *exprpb.Reference) { + if old, found := c.references[e.Id]; found && !proto.Equal(old, r) { + c.errors.ReportError(c.location(e), + "Reference already exists for expression: %v(%d) old:%v, new:%v", e, e.Id, old, r) + return + } + c.references[e.Id] = r +} + +func (c *checker) assertType(e *exprpb.Expr, t *exprpb.Type) { + if !c.isAssignable(t, c.getType(e)) { + c.errors.typeMismatch(c.location(e), t, c.getType(e)) + } +} + +type overloadResolution struct { + Reference *exprpb.Reference + Type *exprpb.Type +} + +func newResolution(checkedRef *exprpb.Reference, t *exprpb.Type) *overloadResolution { + return &overloadResolution{ + Reference: checkedRef, + Type: t, + } +} + +func (c *checker) location(e *exprpb.Expr) common.Location { + return c.locationByID(e.Id) +} + +func (c *checker) locationByID(id int64) common.Location { + positions := c.sourceInfo.GetPositions() + var line = 1 + if offset, found := positions[id]; found { + col := int(offset) + for _, lineOffset := range c.sourceInfo.LineOffsets { + if lineOffset < offset { + line++ + col = int(offset - lineOffset) + } else { + break + } + } + return common.NewLocation(line, col) + } + return common.NoLocation +} + +func newIdentReference(name string, value *exprpb.Constant) *exprpb.Reference { + return &exprpb.Reference{Name: name, Value: value} +} + +func newFunctionReference(overloads ...string) *exprpb.Reference { + return &exprpb.Reference{OverloadId: overloads} +} diff --git a/vendor/github.com/google/cel-go/checker/decls/BUILD.bazel b/vendor/github.com/google/cel-go/checker/decls/BUILD.bazel new file mode 100644 index 000000000..5a24f1da8 --- /dev/null +++ b/vendor/github.com/google/cel-go/checker/decls/BUILD.bazel @@ -0,0 +1,20 @@ +load("@io_bazel_rules_go//go:def.bzl", "go_library") + +package( + default_visibility = ["//visibility:public"], + licenses = ["notice"], # Apache 2.0 +) + +go_library( + name = "go_default_library", + srcs = [ + "decls.go", + "scopes.go", + ], + importpath = "github.com/google/cel-go/checker/decls", + deps = [ + "@org_golang_google_genproto//googleapis/api/expr/v1alpha1:go_default_library", + "@org_golang_google_protobuf//types/known/emptypb:go_default_library", + "@org_golang_google_protobuf//types/known/structpb:go_default_library", + ], +) diff --git a/vendor/github.com/google/cel-go/checker/decls/decls.go b/vendor/github.com/google/cel-go/checker/decls/decls.go new file mode 100644 index 000000000..88a99282d --- /dev/null +++ b/vendor/github.com/google/cel-go/checker/decls/decls.go @@ -0,0 +1,231 @@ +// Copyright 2018 Google LLC +// +// Licensed under the Apache License, Version 2.0 (the "License"); +// you may not use this file except in compliance with the License. +// You may obtain a copy of the License at +// +// http://www.apache.org/licenses/LICENSE-2.0 +// +// Unless required by applicable law or agreed to in writing, software +// distributed under the License is distributed on an "AS IS" BASIS, +// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. +// See the License for the specific language governing permissions and +// limitations under the License. + +// Package decls provides helpers for creating variable and function declarations. +package decls + +import ( + emptypb "google.golang.org/protobuf/types/known/emptypb" + structpb "google.golang.org/protobuf/types/known/structpb" + exprpb "google.golang.org/genproto/googleapis/api/expr/v1alpha1" +) + +var ( + // Error type used to communicate issues during type-checking. + Error = &exprpb.Type{ + TypeKind: &exprpb.Type_Error{ + Error: &emptypb.Empty{}}} + + // Dyn is a top-type used to represent any value. + Dyn = &exprpb.Type{ + TypeKind: &exprpb.Type_Dyn{ + Dyn: &emptypb.Empty{}}} +) + +// Commonly used types. +var ( + Bool = NewPrimitiveType(exprpb.Type_BOOL) + Bytes = NewPrimitiveType(exprpb.Type_BYTES) + Double = NewPrimitiveType(exprpb.Type_DOUBLE) + Int = NewPrimitiveType(exprpb.Type_INT64) + Null = &exprpb.Type{ + TypeKind: &exprpb.Type_Null{ + Null: structpb.NullValue_NULL_VALUE}} + String = NewPrimitiveType(exprpb.Type_STRING) + Uint = NewPrimitiveType(exprpb.Type_UINT64) +) + +// Well-known types. +// TODO: Replace with an abstract type registry. +var ( + Any = NewWellKnownType(exprpb.Type_ANY) + Duration = NewWellKnownType(exprpb.Type_DURATION) + Timestamp = NewWellKnownType(exprpb.Type_TIMESTAMP) +) + +// NewAbstractType creates an abstract type declaration which references a proto +// message name and may also include type parameters. +func NewAbstractType(name string, paramTypes ...*exprpb.Type) *exprpb.Type { + return &exprpb.Type{ + TypeKind: &exprpb.Type_AbstractType_{ + AbstractType: &exprpb.Type_AbstractType{ + Name: name, + ParameterTypes: paramTypes}}} +} + +// NewFunctionType creates a function invocation contract, typically only used +// by type-checking steps after overload resolution. +func NewFunctionType(resultType *exprpb.Type, + argTypes ...*exprpb.Type) *exprpb.Type { + return &exprpb.Type{ + TypeKind: &exprpb.Type_Function{ + Function: &exprpb.Type_FunctionType{ + ResultType: resultType, + ArgTypes: argTypes}}} +} + +// NewFunction creates a named function declaration with one or more overloads. +func NewFunction(name string, + overloads ...*exprpb.Decl_FunctionDecl_Overload) *exprpb.Decl { + return &exprpb.Decl{ + Name: name, + DeclKind: &exprpb.Decl_Function{ + Function: &exprpb.Decl_FunctionDecl{ + Overloads: overloads}}} +} + +// NewIdent creates a named identifier declaration with an optional literal +// value. +// +// Literal values are typically only associated with enum identifiers. +// +// Deprecated: Use NewVar or NewConst instead. +func NewIdent(name string, t *exprpb.Type, v *exprpb.Constant) *exprpb.Decl { + return &exprpb.Decl{ + Name: name, + DeclKind: &exprpb.Decl_Ident{ + Ident: &exprpb.Decl_IdentDecl{ + Type: t, + Value: v}}} +} + +// NewConst creates a constant identifier with a CEL constant literal value. +func NewConst(name string, t *exprpb.Type, v *exprpb.Constant) *exprpb.Decl { + return NewIdent(name, t, v) +} + +// NewVar creates a variable identifier. +func NewVar(name string, t *exprpb.Type) *exprpb.Decl { + return NewIdent(name, t, nil) +} + +// NewInstanceOverload creates a instance function overload contract. +// First element of argTypes is instance. +func NewInstanceOverload(id string, argTypes []*exprpb.Type, + resultType *exprpb.Type) *exprpb.Decl_FunctionDecl_Overload { + return &exprpb.Decl_FunctionDecl_Overload{ + OverloadId: id, + ResultType: resultType, + Params: argTypes, + IsInstanceFunction: true} +} + +// NewListType generates a new list with elements of a certain type. +func NewListType(elem *exprpb.Type) *exprpb.Type { + return &exprpb.Type{ + TypeKind: &exprpb.Type_ListType_{ + ListType: &exprpb.Type_ListType{ + ElemType: elem}}} +} + +// NewMapType generates a new map with typed keys and values. +func NewMapType(key *exprpb.Type, value *exprpb.Type) *exprpb.Type { + return &exprpb.Type{ + TypeKind: &exprpb.Type_MapType_{ + MapType: &exprpb.Type_MapType{ + KeyType: key, + ValueType: value}}} +} + +// NewObjectType creates an object type for a qualified type name. +func NewObjectType(typeName string) *exprpb.Type { + return &exprpb.Type{ + TypeKind: &exprpb.Type_MessageType{ + MessageType: typeName}} +} + +// NewOverload creates a function overload declaration which contains a unique +// overload id as well as the expected argument and result types. Overloads +// must be aggregated within a Function declaration. +func NewOverload(id string, argTypes []*exprpb.Type, + resultType *exprpb.Type) *exprpb.Decl_FunctionDecl_Overload { + return &exprpb.Decl_FunctionDecl_Overload{ + OverloadId: id, + ResultType: resultType, + Params: argTypes, + IsInstanceFunction: false} +} + +// NewParameterizedInstanceOverload creates a parametric function instance overload type. +func NewParameterizedInstanceOverload(id string, + argTypes []*exprpb.Type, + resultType *exprpb.Type, + typeParams []string) *exprpb.Decl_FunctionDecl_Overload { + return &exprpb.Decl_FunctionDecl_Overload{ + OverloadId: id, + ResultType: resultType, + Params: argTypes, + TypeParams: typeParams, + IsInstanceFunction: true} +} + +// NewParameterizedOverload creates a parametric function overload type. +func NewParameterizedOverload(id string, + argTypes []*exprpb.Type, + resultType *exprpb.Type, + typeParams []string) *exprpb.Decl_FunctionDecl_Overload { + return &exprpb.Decl_FunctionDecl_Overload{ + OverloadId: id, + ResultType: resultType, + Params: argTypes, + TypeParams: typeParams, + IsInstanceFunction: false} +} + +// NewPrimitiveType creates a type for a primitive value. See the var declarations +// for Int, Uint, etc. +func NewPrimitiveType(primitive exprpb.Type_PrimitiveType) *exprpb.Type { + return &exprpb.Type{ + TypeKind: &exprpb.Type_Primitive{ + Primitive: primitive}} +} + +// NewTypeType creates a new type designating a type. +func NewTypeType(nested *exprpb.Type) *exprpb.Type { + if nested == nil { + // must set the nested field for a valid oneof option + nested = &exprpb.Type{} + } + return &exprpb.Type{ + TypeKind: &exprpb.Type_Type{ + Type: nested}} +} + +// NewTypeParamType creates a type corresponding to a named, contextual parameter. +func NewTypeParamType(name string) *exprpb.Type { + return &exprpb.Type{ + TypeKind: &exprpb.Type_TypeParam{ + TypeParam: name}} +} + +// NewWellKnownType creates a type corresponding to a protobuf well-known type +// value. +func NewWellKnownType(wellKnown exprpb.Type_WellKnownType) *exprpb.Type { + return &exprpb.Type{ + TypeKind: &exprpb.Type_WellKnown{ + WellKnown: wellKnown}} +} + +// NewWrapperType creates a wrapped primitive type instance. Wrapped types +// are roughly equivalent to a nullable, or optionally valued type. +func NewWrapperType(wrapped *exprpb.Type) *exprpb.Type { + primitive := wrapped.GetPrimitive() + if primitive == exprpb.Type_PRIMITIVE_TYPE_UNSPECIFIED { + // TODO: return an error + panic("Wrapped type must be a primitive") + } + return &exprpb.Type{ + TypeKind: &exprpb.Type_Wrapper{ + Wrapper: primitive}} +} diff --git a/vendor/github.com/google/cel-go/checker/decls/scopes.go b/vendor/github.com/google/cel-go/checker/decls/scopes.go new file mode 100644 index 000000000..1064c73b1 --- /dev/null +++ b/vendor/github.com/google/cel-go/checker/decls/scopes.go @@ -0,0 +1,115 @@ +// Copyright 2018 Google LLC +// +// Licensed under the Apache License, Version 2.0 (the "License"); +// you may not use this file except in compliance with the License. +// You may obtain a copy of the License at +// +// http://www.apache.org/licenses/LICENSE-2.0 +// +// Unless required by applicable law or agreed to in writing, software +// distributed under the License is distributed on an "AS IS" BASIS, +// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. +// See the License for the specific language governing permissions and +// limitations under the License. + +package decls + +import exprpb "google.golang.org/genproto/googleapis/api/expr/v1alpha1" + +// Scopes represents nested Decl sets where the Scopes value contains a Groups containing all +// identifiers in scope and an optional parent representing outer scopes. +// Each Groups value is a mapping of names to Decls in the ident and function namespaces. +// Lookups are performed such that bindings in inner scopes shadow those in outer scopes. +type Scopes struct { + parent *Scopes + scopes *Group +} + +// NewScopes creates a new, empty Scopes. +// Some operations can't be safely performed until a Group is added with Push. +func NewScopes() *Scopes { + return &Scopes{ + scopes: newGroup(), + } +} + +// Push creates a new Scopes value which references the current Scope as its parent. +func (s *Scopes) Push() *Scopes { + return &Scopes{ + parent: s, + scopes: newGroup(), + } +} + +// Pop returns the parent Scopes value for the current scope, or the current scope if the parent +// is nil. +func (s *Scopes) Pop() *Scopes { + if s.parent != nil { + return s.parent + } + // TODO: Consider whether this should be an error / panic. + return s +} + +// AddIdent adds the ident Decl in the current scope. +// Note: If the name collides with an existing identifier in the scope, the Decl is overwritten. +func (s *Scopes) AddIdent(decl *exprpb.Decl) { + s.scopes.idents[decl.Name] = decl +} + +// FindIdent finds the first ident Decl with a matching name in Scopes, or nil if one cannot be +// found. +// Note: The search is performed from innermost to outermost. +func (s *Scopes) FindIdent(name string) *exprpb.Decl { + if ident, found := s.scopes.idents[name]; found { + return ident + } + if s.parent != nil { + return s.parent.FindIdent(name) + } + return nil +} + +// FindIdentInScope finds the first ident Decl with a matching name in the current Scopes value, or +// nil if one does not exist. +// Note: The search is only performed on the current scope and does not search outer scopes. +func (s *Scopes) FindIdentInScope(name string) *exprpb.Decl { + if ident, found := s.scopes.idents[name]; found { + return ident + } + return nil +} + +// AddFunction adds the function Decl to the current scope. +// Note: Any previous entry for a function in the current scope with the same name is overwritten. +func (s *Scopes) AddFunction(fn *exprpb.Decl) { + s.scopes.functions[fn.Name] = fn +} + +// FindFunction finds the first function Decl with a matching name in Scopes. +// The search is performed from innermost to outermost. +// Returns nil if no such function in Scopes. +func (s *Scopes) FindFunction(name string) *exprpb.Decl { + if fn, found := s.scopes.functions[name]; found { + return fn + } + if s.parent != nil { + return s.parent.FindFunction(name) + } + return nil +} + +// Group is a set of Decls that is pushed on or popped off a Scopes as a unit. +// Contains separate namespaces for idenifier and function Decls. +// (Should be named "Scope" perhaps?) +type Group struct { + idents map[string]*exprpb.Decl + functions map[string]*exprpb.Decl +} + +func newGroup() *Group { + return &Group{ + idents: make(map[string]*exprpb.Decl), + functions: make(map[string]*exprpb.Decl), + } +} diff --git a/vendor/github.com/google/cel-go/checker/env.go b/vendor/github.com/google/cel-go/checker/env.go new file mode 100644 index 000000000..e8bce7b06 --- /dev/null +++ b/vendor/github.com/google/cel-go/checker/env.go @@ -0,0 +1,346 @@ +// Copyright 2018 Google LLC +// +// Licensed under the Apache License, Version 2.0 (the "License"); +// you may not use this file except in compliance with the License. +// You may obtain a copy of the License at +// +// http://www.apache.org/licenses/LICENSE-2.0 +// +// Unless required by applicable law or agreed to in writing, software +// distributed under the License is distributed on an "AS IS" BASIS, +// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. +// See the License for the specific language governing permissions and +// limitations under the License. + +package checker + +import ( + "fmt" + "strings" + + "github.com/google/cel-go/checker/decls" + "github.com/google/cel-go/common/containers" + "github.com/google/cel-go/common/types" + "github.com/google/cel-go/common/types/pb" + "github.com/google/cel-go/common/types/ref" + "github.com/google/cel-go/parser" + + exprpb "google.golang.org/genproto/googleapis/api/expr/v1alpha1" +) + +type aggregateLiteralElementType int + +const ( + dynElementType aggregateLiteralElementType = iota + homogenousElementType aggregateLiteralElementType = 1 << iota +) + +// Env is the environment for type checking. +// +// The Env is comprised of a container, type provider, declarations, and other related objects +// which can be used to assist with type-checking. +type Env struct { + container *containers.Container + provider ref.TypeProvider + declarations *decls.Scopes + aggLitElemType aggregateLiteralElementType +} + +// NewEnv returns a new *Env with the given parameters. +func NewEnv(container *containers.Container, provider ref.TypeProvider) *Env { + declarations := decls.NewScopes() + declarations.Push() + + return &Env{ + container: container, + provider: provider, + declarations: declarations, + } +} + +// NewStandardEnv returns a new *Env with the given params plus standard declarations. +func NewStandardEnv(container *containers.Container, provider ref.TypeProvider) *Env { + e := NewEnv(container, provider) + if err := e.Add(StandardDeclarations()...); err != nil { + // The standard declaration set should never have duplicate declarations. + panic(err) + } + // TODO: isolate standard declarations from the custom set which may be provided layer. + return e +} + +// EnableDynamicAggregateLiterals detmerines whether list and map literals may support mixed +// element types at check-time. This does not preclude the presence of a dynamic list or map +// somewhere in the CEL evaluation process. +func (e *Env) EnableDynamicAggregateLiterals(enabled bool) *Env { + e.aggLitElemType = dynElementType + if !enabled { + e.aggLitElemType = homogenousElementType + } + return e +} + +// Add adds new Decl protos to the Env. +// Returns an error for identifier redeclarations. +func (e *Env) Add(decls ...*exprpb.Decl) error { + errMsgs := make([]errorMsg, 0) + for _, decl := range decls { + switch decl.DeclKind.(type) { + case *exprpb.Decl_Ident: + errMsgs = append(errMsgs, e.addIdent(sanitizeIdent(decl))) + case *exprpb.Decl_Function: + errMsgs = append(errMsgs, e.addFunction(sanitizeFunction(decl))...) + } + } + return formatError(errMsgs) +} + +// LookupIdent returns a Decl proto for typeName as an identifier in the Env. +// Returns nil if no such identifier is found in the Env. +func (e *Env) LookupIdent(name string) *exprpb.Decl { + for _, candidate := range e.container.ResolveCandidateNames(name) { + if ident := e.declarations.FindIdent(candidate); ident != nil { + return ident + } + + // Next try to import the name as a reference to a message type. If found, + // the declaration is added to the outest (global) scope of the + // environment, so next time we can access it faster. + if t, found := e.provider.FindType(candidate); found { + decl := decls.NewVar(candidate, t) + e.declarations.AddIdent(decl) + return decl + } + + // Next try to import this as an enum value by splitting the name in a type prefix and + // the enum inside. + if enumValue := e.provider.EnumValue(candidate); enumValue.Type() != types.ErrType { + decl := decls.NewIdent(candidate, + decls.Int, + &exprpb.Constant{ + ConstantKind: &exprpb.Constant_Int64Value{ + Int64Value: int64(enumValue.(types.Int))}}) + e.declarations.AddIdent(decl) + return decl + } + } + return nil +} + +// LookupFunction returns a Decl proto for typeName as a function in env. +// Returns nil if no such function is found in env. +func (e *Env) LookupFunction(name string) *exprpb.Decl { + for _, candidate := range e.container.ResolveCandidateNames(name) { + if fn := e.declarations.FindFunction(candidate); fn != nil { + return fn + } + } + return nil +} + +// addOverload adds overload to function declaration f. +// Returns one or more errorMsg values if the overload overlaps with an existing overload or macro. +func (e *Env) addOverload(f *exprpb.Decl, overload *exprpb.Decl_FunctionDecl_Overload) []errorMsg { + errMsgs := make([]errorMsg, 0) + function := f.GetFunction() + emptyMappings := newMapping() + overloadFunction := decls.NewFunctionType(overload.GetResultType(), + overload.GetParams()...) + overloadErased := substitute(emptyMappings, overloadFunction, true) + for _, existing := range function.GetOverloads() { + existingFunction := decls.NewFunctionType(existing.GetResultType(), + existing.GetParams()...) + existingErased := substitute(emptyMappings, existingFunction, true) + overlap := isAssignable(emptyMappings, overloadErased, existingErased) != nil || + isAssignable(emptyMappings, existingErased, overloadErased) != nil + if overlap && + overload.GetIsInstanceFunction() == existing.GetIsInstanceFunction() { + errMsgs = append(errMsgs, + overlappingOverloadError(f.Name, + overload.GetOverloadId(), overloadFunction, + existing.GetOverloadId(), existingFunction)) + } + } + + for _, macro := range parser.AllMacros { + if macro.Function() == f.Name && + macro.IsReceiverStyle() == overload.GetIsInstanceFunction() && + macro.ArgCount() == len(overload.GetParams()) { + errMsgs = append(errMsgs, overlappingMacroError(f.Name, macro.ArgCount())) + } + } + if len(errMsgs) > 0 { + return errMsgs + } + function.Overloads = append(function.GetOverloads(), overload) + return errMsgs +} + +// addFunction adds the function Decl to the Env. +// Adds a function decl if one doesn't already exist, then adds all overloads from the Decl. +// If overload overlaps with an existing overload, adds to the errors in the Env instead. +func (e *Env) addFunction(decl *exprpb.Decl) []errorMsg { + current := e.declarations.FindFunction(decl.Name) + if current == nil { + //Add the function declaration without overloads and check the overloads below. + current = decls.NewFunction(decl.Name) + e.declarations.AddFunction(current) + } + + errorMsgs := make([]errorMsg, 0) + for _, overload := range decl.GetFunction().GetOverloads() { + errorMsgs = append(errorMsgs, e.addOverload(current, overload)...) + } + return errorMsgs +} + +// addIdent adds the Decl to the declarations in the Env. +// Returns a non-empty errorMsg if the identifier is already declared in the scope. +func (e *Env) addIdent(decl *exprpb.Decl) errorMsg { + current := e.declarations.FindIdentInScope(decl.Name) + if current != nil { + return overlappingIdentifierError(decl.Name) + } + e.declarations.AddIdent(decl) + return "" +} + +// sanitizeFunction replaces well-known types referenced by message name with their equivalent +// CEL built-in type instances. +func sanitizeFunction(decl *exprpb.Decl) *exprpb.Decl { + fn := decl.GetFunction() + // Determine whether the declaration requires replacements from proto-based message type + // references to well-known CEL type references. + var needsSanitizing bool + for _, o := range fn.GetOverloads() { + if isObjectWellKnownType(o.GetResultType()) { + needsSanitizing = true + break + } + for _, p := range o.GetParams() { + if isObjectWellKnownType(p) { + needsSanitizing = true + break + } + } + } + + // Early return if the declaration requires no modification. + if !needsSanitizing { + return decl + } + + // Sanitize all of the overloads if any overload requires an update to its type references. + overloads := make([]*exprpb.Decl_FunctionDecl_Overload, len(fn.GetOverloads())) + for i, o := range fn.GetOverloads() { + rt := o.GetResultType() + if isObjectWellKnownType(rt) { + rt = getObjectWellKnownType(rt) + } + params := make([]*exprpb.Type, len(o.GetParams())) + copy(params, o.GetParams()) + for j, p := range params { + if isObjectWellKnownType(p) { + params[j] = getObjectWellKnownType(p) + } + } + // If sanitized, replace the overload definition. + if o.IsInstanceFunction { + overloads[i] = + decls.NewInstanceOverload(o.GetOverloadId(), params, rt) + } else { + overloads[i] = + decls.NewOverload(o.GetOverloadId(), params, rt) + } + } + return decls.NewFunction(decl.GetName(), overloads...) +} + +// sanitizeIdent replaces the identifier's well-known types referenced by message name with +// references to CEL built-in type instances. +func sanitizeIdent(decl *exprpb.Decl) *exprpb.Decl { + id := decl.GetIdent() + t := id.GetType() + if !isObjectWellKnownType(t) { + return decl + } + return decls.NewIdent(decl.GetName(), getObjectWellKnownType(t), id.GetValue()) +} + +// isObjectWellKnownType returns true if the input type is an OBJECT type with a message name +// that corresponds the message name of a built-in CEL type. +func isObjectWellKnownType(t *exprpb.Type) bool { + if kindOf(t) != kindObject { + return false + } + _, found := pb.CheckedWellKnowns[t.GetMessageType()] + return found +} + +// getObjectWellKnownType returns the built-in CEL type declaration for input type's message name. +func getObjectWellKnownType(t *exprpb.Type) *exprpb.Type { + return pb.CheckedWellKnowns[t.GetMessageType()] +} + +// enterScope creates a new Env instance with a new innermost declaration scope. +func (e *Env) enterScope() *Env { + childDecls := e.declarations.Push() + return &Env{ + declarations: childDecls, + container: e.container, + provider: e.provider, + aggLitElemType: e.aggLitElemType, + } +} + +// exitScope creates a new Env instance with the nearest outer declaration scope. +func (e *Env) exitScope() *Env { + parentDecls := e.declarations.Pop() + return &Env{ + declarations: parentDecls, + container: e.container, + provider: e.provider, + aggLitElemType: e.aggLitElemType, + } +} + +// errorMsg is a type alias meant to represent error-based return values which +// may be accumulated into an error at a later point in execution. +type errorMsg string + +func overlappingIdentifierError(name string) errorMsg { + return errorMsg(fmt.Sprintf("overlapping identifier for name '%s'", name)) +} + +func overlappingOverloadError(name string, + overloadID1 string, f1 *exprpb.Type, + overloadID2 string, f2 *exprpb.Type) errorMsg { + return errorMsg(fmt.Sprintf( + "overlapping overload for name '%s' (type '%s' with overloadId: '%s' "+ + "cannot be distinguished from '%s' with overloadId: '%s')", + name, + FormatCheckedType(f1), + overloadID1, + FormatCheckedType(f2), + overloadID2)) +} + +func overlappingMacroError(name string, argCount int) errorMsg { + return errorMsg(fmt.Sprintf( + "overlapping macro for name '%s' with %d args", name, argCount)) +} + +func formatError(errMsgs []errorMsg) error { + errStrs := make([]string, 0) + if len(errMsgs) > 0 { + for i := 0; i < len(errMsgs); i++ { + if errMsgs[i] != "" { + errStrs = append(errStrs, string(errMsgs[i])) + } + } + } + if len(errStrs) > 0 { + return fmt.Errorf("%s", strings.Join(errStrs, "\n")) + } + return nil +} diff --git a/vendor/github.com/google/cel-go/checker/errors.go b/vendor/github.com/google/cel-go/checker/errors.go new file mode 100644 index 000000000..06566aecf --- /dev/null +++ b/vendor/github.com/google/cel-go/checker/errors.go @@ -0,0 +1,100 @@ +// Copyright 2018 Google LLC +// +// Licensed under the Apache License, Version 2.0 (the "License"); +// you may not use this file except in compliance with the License. +// You may obtain a copy of the License at +// +// http://www.apache.org/licenses/LICENSE-2.0 +// +// Unless required by applicable law or agreed to in writing, software +// distributed under the License is distributed on an "AS IS" BASIS, +// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. +// See the License for the specific language governing permissions and +// limitations under the License. + +package checker + +import ( + "github.com/google/cel-go/common" + + exprpb "google.golang.org/genproto/googleapis/api/expr/v1alpha1" +) + +// typeErrors is a specialization of Errors. +type typeErrors struct { + *common.Errors +} + +func (e *typeErrors) undeclaredReference(l common.Location, container string, name string) { + e.ReportError(l, "undeclared reference to '%s' (in container '%s')", name, container) +} + +func (e *typeErrors) expressionDoesNotSelectField(l common.Location) { + e.ReportError(l, "expression does not select a field") +} + +func (e *typeErrors) typeDoesNotSupportFieldSelection(l common.Location, t *exprpb.Type) { + e.ReportError(l, "type '%s' does not support field selection", t) +} + +func (e *typeErrors) undefinedField(l common.Location, field string) { + e.ReportError(l, "undefined field '%s'", field) +} + +func (e *typeErrors) noMatchingOverload(l common.Location, name string, args []*exprpb.Type, isInstance bool) { + signature := formatFunction(nil, args, isInstance) + e.ReportError(l, "found no matching overload for '%s' applied to '%s'", name, signature) +} + +func (e *typeErrors) notAType(l common.Location, t *exprpb.Type) { + e.ReportError(l, "'%s(%v)' is not a type", FormatCheckedType(t), t) +} + +func (e *typeErrors) notAMessageType(l common.Location, t *exprpb.Type) { + e.ReportError(l, "'%s' is not a message type", FormatCheckedType(t)) +} + +func (e *typeErrors) fieldTypeMismatch(l common.Location, name string, field *exprpb.Type, value *exprpb.Type) { + e.ReportError(l, "expected type of field '%s' is '%s' but provided type is '%s'", + name, FormatCheckedType(field), FormatCheckedType(value)) +} + +func (e *typeErrors) unexpectedFailedResolution(l common.Location, typeName string) { + e.ReportError(l, "[internal] unexpected failed resolution of '%s'", typeName) +} + +func (e *typeErrors) notAComprehensionRange(l common.Location, t *exprpb.Type) { + e.ReportError(l, "expression of type '%s' cannot be range of a comprehension (must be list, map, or dynamic)", + FormatCheckedType(t)) +} + +func (e *typeErrors) typeMismatch(l common.Location, expected *exprpb.Type, actual *exprpb.Type) { + e.ReportError(l, "expected type '%s' but found '%s'", + FormatCheckedType(expected), FormatCheckedType(actual)) +} + +func formatFunction(resultType *exprpb.Type, argTypes []*exprpb.Type, isInstance bool) string { + result := "" + if isInstance { + target := argTypes[0] + argTypes = argTypes[1:] + + result += FormatCheckedType(target) + result += "." + } + + result += "(" + for i, arg := range argTypes { + if i > 0 { + result += ", " + } + result += FormatCheckedType(arg) + } + result += ")" + if resultType != nil { + result += " -> " + result += FormatCheckedType(resultType) + } + + return result +} diff --git a/vendor/github.com/google/cel-go/checker/mapping.go b/vendor/github.com/google/cel-go/checker/mapping.go new file mode 100644 index 000000000..fbc55a28d --- /dev/null +++ b/vendor/github.com/google/cel-go/checker/mapping.go @@ -0,0 +1,49 @@ +// Copyright 2018 Google LLC +// +// Licensed under the Apache License, Version 2.0 (the "License"); +// you may not use this file except in compliance with the License. +// You may obtain a copy of the License at +// +// http://www.apache.org/licenses/LICENSE-2.0 +// +// Unless required by applicable law or agreed to in writing, software +// distributed under the License is distributed on an "AS IS" BASIS, +// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. +// See the License for the specific language governing permissions and +// limitations under the License. + +package checker + +import ( + exprpb "google.golang.org/genproto/googleapis/api/expr/v1alpha1" +) + +type mapping struct { + mapping map[string]*exprpb.Type +} + +func newMapping() *mapping { + return &mapping{ + mapping: make(map[string]*exprpb.Type), + } +} + +func (m *mapping) add(from *exprpb.Type, to *exprpb.Type) { + m.mapping[typeKey(from)] = to +} + +func (m *mapping) find(from *exprpb.Type) (*exprpb.Type, bool) { + if r, found := m.mapping[typeKey(from)]; found { + return r, found + } + return nil, false +} + +func (m *mapping) copy() *mapping { + c := newMapping() + + for k, v := range m.mapping { + c.mapping[k] = v + } + return c +} diff --git a/vendor/github.com/google/cel-go/checker/printer.go b/vendor/github.com/google/cel-go/checker/printer.go new file mode 100644 index 000000000..15c25ecc6 --- /dev/null +++ b/vendor/github.com/google/cel-go/checker/printer.go @@ -0,0 +1,71 @@ +// Copyright 2018 Google LLC +// +// Licensed under the Apache License, Version 2.0 (the "License"); +// you may not use this file except in compliance with the License. +// You may obtain a copy of the License at +// +// http://www.apache.org/licenses/LICENSE-2.0 +// +// Unless required by applicable law or agreed to in writing, software +// distributed under the License is distributed on an "AS IS" BASIS, +// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. +// See the License for the specific language governing permissions and +// limitations under the License. + +package checker + +import ( + "github.com/google/cel-go/common/debug" + + exprpb "google.golang.org/genproto/googleapis/api/expr/v1alpha1" +) + +type semanticAdorner struct { + checks *exprpb.CheckedExpr +} + +var _ debug.Adorner = &semanticAdorner{} + +func (a *semanticAdorner) GetMetadata(elem interface{}) string { + result := "" + e, isExpr := elem.(*exprpb.Expr) + if !isExpr { + return result + } + t := a.checks.TypeMap[e.Id] + if t != nil { + result += "~" + result += FormatCheckedType(t) + } + + switch e.ExprKind.(type) { + case *exprpb.Expr_IdentExpr, + *exprpb.Expr_CallExpr, + *exprpb.Expr_StructExpr, + *exprpb.Expr_SelectExpr: + if ref, found := a.checks.ReferenceMap[e.Id]; found { + if len(ref.GetOverloadId()) == 0 { + result += "^" + ref.Name + } else { + for i, overload := range ref.OverloadId { + if i == 0 { + result += "^" + } else { + result += "|" + } + result += overload + } + } + } + } + + return result +} + +// Print returns a string representation of the Expr message, +// annotated with types from the CheckedExpr. The Expr must +// be a sub-expression embedded in the CheckedExpr. +func Print(e *exprpb.Expr, checks *exprpb.CheckedExpr) string { + a := &semanticAdorner{checks: checks} + return debug.ToAdornedDebugString(e, a) +} diff --git a/vendor/github.com/google/cel-go/checker/standard.go b/vendor/github.com/google/cel-go/checker/standard.go new file mode 100644 index 000000000..769de7511 --- /dev/null +++ b/vendor/github.com/google/cel-go/checker/standard.go @@ -0,0 +1,440 @@ +// Copyright 2018 Google LLC +// +// Licensed under the Apache License, Version 2.0 (the "License"); +// you may not use this file except in compliance with the License. +// You may obtain a copy of the License at +// +// http://www.apache.org/licenses/LICENSE-2.0 +// +// Unless required by applicable law or agreed to in writing, software +// distributed under the License is distributed on an "AS IS" BASIS, +// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. +// See the License for the specific language governing permissions and +// limitations under the License. + +package checker + +import ( + "github.com/google/cel-go/checker/decls" + "github.com/google/cel-go/common/operators" + "github.com/google/cel-go/common/overloads" + + exprpb "google.golang.org/genproto/googleapis/api/expr/v1alpha1" +) + +// StandardDeclarations returns the Decls for all functions and constants in the evaluator. +func StandardDeclarations() []*exprpb.Decl { + // Some shortcuts we use when building declarations. + paramA := decls.NewTypeParamType("A") + typeParamAList := []string{"A"} + listOfA := decls.NewListType(paramA) + paramB := decls.NewTypeParamType("B") + typeParamABList := []string{"A", "B"} + mapOfAB := decls.NewMapType(paramA, paramB) + + var idents []*exprpb.Decl + for _, t := range []*exprpb.Type{ + decls.Int, decls.Uint, decls.Bool, + decls.Double, decls.Bytes, decls.String} { + idents = append(idents, + decls.NewVar(FormatCheckedType(t), decls.NewTypeType(t))) + } + idents = append(idents, + decls.NewVar("list", decls.NewTypeType(listOfA)), + decls.NewVar("map", decls.NewTypeType(mapOfAB)), + decls.NewVar("null_type", decls.NewTypeType(decls.Null)), + decls.NewVar("type", decls.NewTypeType(decls.NewTypeType(nil)))) + + // Booleans + // TODO: allow the conditional to return a heterogenous type. + return append(idents, []*exprpb.Decl{ + decls.NewFunction(operators.Conditional, + decls.NewParameterizedOverload(overloads.Conditional, + []*exprpb.Type{decls.Bool, paramA, paramA}, paramA, + typeParamAList)), + + decls.NewFunction(operators.LogicalAnd, + decls.NewOverload(overloads.LogicalAnd, + []*exprpb.Type{decls.Bool, decls.Bool}, decls.Bool)), + + decls.NewFunction(operators.LogicalOr, + decls.NewOverload(overloads.LogicalOr, + []*exprpb.Type{decls.Bool, decls.Bool}, decls.Bool)), + + decls.NewFunction(operators.LogicalNot, + decls.NewOverload(overloads.LogicalNot, + []*exprpb.Type{decls.Bool}, decls.Bool)), + + decls.NewFunction(operators.NotStrictlyFalse, + decls.NewOverload(overloads.NotStrictlyFalse, + []*exprpb.Type{decls.Bool}, decls.Bool)), + + // Relations. + + decls.NewFunction(operators.Less, + decls.NewOverload(overloads.LessBool, + []*exprpb.Type{decls.Bool, decls.Bool}, decls.Bool), + decls.NewOverload(overloads.LessInt64, + []*exprpb.Type{decls.Int, decls.Int}, decls.Bool), + decls.NewOverload(overloads.LessUint64, + []*exprpb.Type{decls.Uint, decls.Uint}, decls.Bool), + decls.NewOverload(overloads.LessDouble, + []*exprpb.Type{decls.Double, decls.Double}, decls.Bool), + decls.NewOverload(overloads.LessString, + []*exprpb.Type{decls.String, decls.String}, decls.Bool), + decls.NewOverload(overloads.LessBytes, + []*exprpb.Type{decls.Bytes, decls.Bytes}, decls.Bool), + decls.NewOverload(overloads.LessTimestamp, + []*exprpb.Type{decls.Timestamp, decls.Timestamp}, decls.Bool), + decls.NewOverload(overloads.LessDuration, + []*exprpb.Type{decls.Duration, decls.Duration}, decls.Bool)), + + decls.NewFunction(operators.LessEquals, + decls.NewOverload(overloads.LessEqualsBool, + []*exprpb.Type{decls.Bool, decls.Bool}, decls.Bool), + decls.NewOverload(overloads.LessEqualsInt64, + []*exprpb.Type{decls.Int, decls.Int}, decls.Bool), + decls.NewOverload(overloads.LessEqualsUint64, + []*exprpb.Type{decls.Uint, decls.Uint}, decls.Bool), + decls.NewOverload(overloads.LessEqualsDouble, + []*exprpb.Type{decls.Double, decls.Double}, decls.Bool), + decls.NewOverload(overloads.LessEqualsString, + []*exprpb.Type{decls.String, decls.String}, decls.Bool), + decls.NewOverload(overloads.LessEqualsBytes, + []*exprpb.Type{decls.Bytes, decls.Bytes}, decls.Bool), + decls.NewOverload(overloads.LessEqualsTimestamp, + []*exprpb.Type{decls.Timestamp, decls.Timestamp}, decls.Bool), + decls.NewOverload(overloads.LessEqualsDuration, + []*exprpb.Type{decls.Duration, decls.Duration}, decls.Bool)), + + decls.NewFunction(operators.Greater, + decls.NewOverload(overloads.GreaterBool, + []*exprpb.Type{decls.Bool, decls.Bool}, decls.Bool), + decls.NewOverload(overloads.GreaterInt64, + []*exprpb.Type{decls.Int, decls.Int}, decls.Bool), + decls.NewOverload(overloads.GreaterUint64, + []*exprpb.Type{decls.Uint, decls.Uint}, decls.Bool), + decls.NewOverload(overloads.GreaterDouble, + []*exprpb.Type{decls.Double, decls.Double}, decls.Bool), + decls.NewOverload(overloads.GreaterString, + []*exprpb.Type{decls.String, decls.String}, decls.Bool), + decls.NewOverload(overloads.GreaterBytes, + []*exprpb.Type{decls.Bytes, decls.Bytes}, decls.Bool), + decls.NewOverload(overloads.GreaterTimestamp, + []*exprpb.Type{decls.Timestamp, decls.Timestamp}, decls.Bool), + decls.NewOverload(overloads.GreaterDuration, + []*exprpb.Type{decls.Duration, decls.Duration}, decls.Bool)), + + decls.NewFunction(operators.GreaterEquals, + decls.NewOverload(overloads.GreaterEqualsBool, + []*exprpb.Type{decls.Bool, decls.Bool}, decls.Bool), + decls.NewOverload(overloads.GreaterEqualsInt64, + []*exprpb.Type{decls.Int, decls.Int}, decls.Bool), + decls.NewOverload(overloads.GreaterEqualsUint64, + []*exprpb.Type{decls.Uint, decls.Uint}, decls.Bool), + decls.NewOverload(overloads.GreaterEqualsDouble, + []*exprpb.Type{decls.Double, decls.Double}, decls.Bool), + decls.NewOverload(overloads.GreaterEqualsString, + []*exprpb.Type{decls.String, decls.String}, decls.Bool), + decls.NewOverload(overloads.GreaterEqualsBytes, + []*exprpb.Type{decls.Bytes, decls.Bytes}, decls.Bool), + decls.NewOverload(overloads.GreaterEqualsTimestamp, + []*exprpb.Type{decls.Timestamp, decls.Timestamp}, decls.Bool), + decls.NewOverload(overloads.GreaterEqualsDuration, + []*exprpb.Type{decls.Duration, decls.Duration}, decls.Bool)), + + decls.NewFunction(operators.Equals, + decls.NewParameterizedOverload(overloads.Equals, + []*exprpb.Type{paramA, paramA}, decls.Bool, + typeParamAList)), + + decls.NewFunction(operators.NotEquals, + decls.NewParameterizedOverload(overloads.NotEquals, + []*exprpb.Type{paramA, paramA}, decls.Bool, + typeParamAList)), + + // Algebra. + + decls.NewFunction(operators.Subtract, + decls.NewOverload(overloads.SubtractInt64, + []*exprpb.Type{decls.Int, decls.Int}, decls.Int), + decls.NewOverload(overloads.SubtractUint64, + []*exprpb.Type{decls.Uint, decls.Uint}, decls.Uint), + decls.NewOverload(overloads.SubtractDouble, + []*exprpb.Type{decls.Double, decls.Double}, decls.Double), + decls.NewOverload(overloads.SubtractTimestampTimestamp, + []*exprpb.Type{decls.Timestamp, decls.Timestamp}, decls.Duration), + decls.NewOverload(overloads.SubtractTimestampDuration, + []*exprpb.Type{decls.Timestamp, decls.Duration}, decls.Timestamp), + decls.NewOverload(overloads.SubtractDurationDuration, + []*exprpb.Type{decls.Duration, decls.Duration}, decls.Duration)), + + decls.NewFunction(operators.Multiply, + decls.NewOverload(overloads.MultiplyInt64, + []*exprpb.Type{decls.Int, decls.Int}, decls.Int), + decls.NewOverload(overloads.MultiplyUint64, + []*exprpb.Type{decls.Uint, decls.Uint}, decls.Uint), + decls.NewOverload(overloads.MultiplyDouble, + []*exprpb.Type{decls.Double, decls.Double}, decls.Double)), + + decls.NewFunction(operators.Divide, + decls.NewOverload(overloads.DivideInt64, + []*exprpb.Type{decls.Int, decls.Int}, decls.Int), + decls.NewOverload(overloads.DivideUint64, + []*exprpb.Type{decls.Uint, decls.Uint}, decls.Uint), + decls.NewOverload(overloads.DivideDouble, + []*exprpb.Type{decls.Double, decls.Double}, decls.Double)), + + decls.NewFunction(operators.Modulo, + decls.NewOverload(overloads.ModuloInt64, + []*exprpb.Type{decls.Int, decls.Int}, decls.Int), + decls.NewOverload(overloads.ModuloUint64, + []*exprpb.Type{decls.Uint, decls.Uint}, decls.Uint)), + + decls.NewFunction(operators.Add, + decls.NewOverload(overloads.AddInt64, + []*exprpb.Type{decls.Int, decls.Int}, decls.Int), + decls.NewOverload(overloads.AddUint64, + []*exprpb.Type{decls.Uint, decls.Uint}, decls.Uint), + decls.NewOverload(overloads.AddDouble, + []*exprpb.Type{decls.Double, decls.Double}, decls.Double), + decls.NewOverload(overloads.AddString, + []*exprpb.Type{decls.String, decls.String}, decls.String), + decls.NewOverload(overloads.AddBytes, + []*exprpb.Type{decls.Bytes, decls.Bytes}, decls.Bytes), + decls.NewParameterizedOverload(overloads.AddList, + []*exprpb.Type{listOfA, listOfA}, listOfA, + typeParamAList), + decls.NewOverload(overloads.AddTimestampDuration, + []*exprpb.Type{decls.Timestamp, decls.Duration}, decls.Timestamp), + decls.NewOverload(overloads.AddDurationTimestamp, + []*exprpb.Type{decls.Duration, decls.Timestamp}, decls.Timestamp), + decls.NewOverload(overloads.AddDurationDuration, + []*exprpb.Type{decls.Duration, decls.Duration}, decls.Duration)), + + decls.NewFunction(operators.Negate, + decls.NewOverload(overloads.NegateInt64, + []*exprpb.Type{decls.Int}, decls.Int), + decls.NewOverload(overloads.NegateDouble, + []*exprpb.Type{decls.Double}, decls.Double)), + + // Index. + + decls.NewFunction(operators.Index, + decls.NewParameterizedOverload(overloads.IndexList, + []*exprpb.Type{listOfA, decls.Int}, paramA, + typeParamAList), + decls.NewParameterizedOverload(overloads.IndexMap, + []*exprpb.Type{mapOfAB, paramA}, paramB, + typeParamABList)), + //decls.NewOverload(overloads.IndexMessage, + // []*expr.Type{decls.Dyn, decls.String}, decls.Dyn)), + + // Collections. + + decls.NewFunction(overloads.Size, + decls.NewInstanceOverload(overloads.SizeStringInst, + []*exprpb.Type{decls.String}, decls.Int), + decls.NewInstanceOverload(overloads.SizeBytesInst, + []*exprpb.Type{decls.Bytes}, decls.Int), + decls.NewParameterizedInstanceOverload(overloads.SizeListInst, + []*exprpb.Type{listOfA}, decls.Int, typeParamAList), + decls.NewParameterizedInstanceOverload(overloads.SizeMapInst, + []*exprpb.Type{mapOfAB}, decls.Int, typeParamABList), + decls.NewOverload(overloads.SizeString, + []*exprpb.Type{decls.String}, decls.Int), + decls.NewOverload(overloads.SizeBytes, + []*exprpb.Type{decls.Bytes}, decls.Int), + decls.NewParameterizedOverload(overloads.SizeList, + []*exprpb.Type{listOfA}, decls.Int, typeParamAList), + decls.NewParameterizedOverload(overloads.SizeMap, + []*exprpb.Type{mapOfAB}, decls.Int, typeParamABList)), + + decls.NewFunction(operators.In, + decls.NewParameterizedOverload(overloads.InList, + []*exprpb.Type{paramA, listOfA}, decls.Bool, + typeParamAList), + decls.NewParameterizedOverload(overloads.InMap, + []*exprpb.Type{paramA, mapOfAB}, decls.Bool, + typeParamABList)), + + // Deprecated 'in()' function. + + decls.NewFunction(overloads.DeprecatedIn, + decls.NewParameterizedOverload(overloads.InList, + []*exprpb.Type{paramA, listOfA}, decls.Bool, + typeParamAList), + decls.NewParameterizedOverload(overloads.InMap, + []*exprpb.Type{paramA, mapOfAB}, decls.Bool, + typeParamABList)), + //decls.NewOverload(overloads.InMessage, + // []*expr.Type{Dyn, decls.String},decls.Bool)), + + // Conversions to type. + + decls.NewFunction(overloads.TypeConvertType, + decls.NewParameterizedOverload(overloads.TypeConvertType, + []*exprpb.Type{paramA}, decls.NewTypeType(paramA), typeParamAList)), + + // Conversions to int. + + decls.NewFunction(overloads.TypeConvertInt, + decls.NewOverload(overloads.IntToInt, []*exprpb.Type{decls.Int}, decls.Int), + decls.NewOverload(overloads.UintToInt, []*exprpb.Type{decls.Uint}, decls.Int), + decls.NewOverload(overloads.DoubleToInt, []*exprpb.Type{decls.Double}, decls.Int), + decls.NewOverload(overloads.StringToInt, []*exprpb.Type{decls.String}, decls.Int), + decls.NewOverload(overloads.TimestampToInt, []*exprpb.Type{decls.Timestamp}, decls.Int), + decls.NewOverload(overloads.DurationToInt, []*exprpb.Type{decls.Duration}, decls.Int)), + + // Conversions to uint. + + decls.NewFunction(overloads.TypeConvertUint, + decls.NewOverload(overloads.UintToUint, []*exprpb.Type{decls.Uint}, decls.Uint), + decls.NewOverload(overloads.IntToUint, []*exprpb.Type{decls.Int}, decls.Uint), + decls.NewOverload(overloads.DoubleToUint, []*exprpb.Type{decls.Double}, decls.Uint), + decls.NewOverload(overloads.StringToUint, []*exprpb.Type{decls.String}, decls.Uint)), + + // Conversions to double. + + decls.NewFunction(overloads.TypeConvertDouble, + decls.NewOverload(overloads.DoubleToDouble, []*exprpb.Type{decls.Double}, decls.Double), + decls.NewOverload(overloads.IntToDouble, []*exprpb.Type{decls.Int}, decls.Double), + decls.NewOverload(overloads.UintToDouble, []*exprpb.Type{decls.Uint}, decls.Double), + decls.NewOverload(overloads.StringToDouble, []*exprpb.Type{decls.String}, decls.Double)), + + // Conversions to bool. + + decls.NewFunction(overloads.TypeConvertBool, + decls.NewOverload(overloads.BoolToBool, []*exprpb.Type{decls.Bool}, decls.Bool), + decls.NewOverload(overloads.StringToBool, []*exprpb.Type{decls.String}, decls.Bool)), + + // Conversions to string. + + decls.NewFunction(overloads.TypeConvertString, + decls.NewOverload(overloads.StringToString, []*exprpb.Type{decls.String}, decls.String), + decls.NewOverload(overloads.BoolToString, []*exprpb.Type{decls.Bool}, decls.String), + decls.NewOverload(overloads.IntToString, []*exprpb.Type{decls.Int}, decls.String), + decls.NewOverload(overloads.UintToString, []*exprpb.Type{decls.Uint}, decls.String), + decls.NewOverload(overloads.DoubleToString, []*exprpb.Type{decls.Double}, decls.String), + decls.NewOverload(overloads.BytesToString, []*exprpb.Type{decls.Bytes}, decls.String), + decls.NewOverload(overloads.TimestampToString, []*exprpb.Type{decls.Timestamp}, decls.String), + decls.NewOverload(overloads.DurationToString, []*exprpb.Type{decls.Duration}, decls.String)), + + // Conversions to bytes. + + decls.NewFunction(overloads.TypeConvertBytes, + decls.NewOverload(overloads.BytesToBytes, []*exprpb.Type{decls.Bytes}, decls.Bytes), + decls.NewOverload(overloads.StringToBytes, []*exprpb.Type{decls.String}, decls.Bytes)), + + // Conversions to timestamps. + + decls.NewFunction(overloads.TypeConvertTimestamp, + decls.NewOverload(overloads.TimestampToTimestamp, + []*exprpb.Type{decls.Timestamp}, decls.Timestamp), + decls.NewOverload(overloads.StringToTimestamp, + []*exprpb.Type{decls.String}, decls.Timestamp), + decls.NewOverload(overloads.IntToTimestamp, + []*exprpb.Type{decls.Int}, decls.Timestamp)), + + // Conversions to durations. + + decls.NewFunction(overloads.TypeConvertDuration, + decls.NewOverload(overloads.DurationToDuration, + []*exprpb.Type{decls.Duration}, decls.Duration), + decls.NewOverload(overloads.StringToDuration, + []*exprpb.Type{decls.String}, decls.Duration), + decls.NewOverload(overloads.IntToDuration, + []*exprpb.Type{decls.Int}, decls.Duration)), + + // Conversions to Dyn. + + decls.NewFunction(overloads.TypeConvertDyn, + decls.NewParameterizedOverload(overloads.ToDyn, + []*exprpb.Type{paramA}, decls.Dyn, + typeParamAList)), + + // String functions. + + decls.NewFunction(overloads.Contains, + decls.NewInstanceOverload(overloads.ContainsString, + []*exprpb.Type{decls.String, decls.String}, decls.Bool)), + decls.NewFunction(overloads.EndsWith, + decls.NewInstanceOverload(overloads.EndsWithString, + []*exprpb.Type{decls.String, decls.String}, decls.Bool)), + decls.NewFunction(overloads.Matches, + decls.NewInstanceOverload(overloads.MatchesString, + []*exprpb.Type{decls.String, decls.String}, decls.Bool)), + decls.NewFunction(overloads.StartsWith, + decls.NewInstanceOverload(overloads.StartsWithString, + []*exprpb.Type{decls.String, decls.String}, decls.Bool)), + + // Date/time functions. + + decls.NewFunction(overloads.TimeGetFullYear, + decls.NewInstanceOverload(overloads.TimestampToYear, + []*exprpb.Type{decls.Timestamp}, decls.Int), + decls.NewInstanceOverload(overloads.TimestampToYearWithTz, + []*exprpb.Type{decls.Timestamp, decls.String}, decls.Int)), + + decls.NewFunction(overloads.TimeGetMonth, + decls.NewInstanceOverload(overloads.TimestampToMonth, + []*exprpb.Type{decls.Timestamp}, decls.Int), + decls.NewInstanceOverload(overloads.TimestampToMonthWithTz, + []*exprpb.Type{decls.Timestamp, decls.String}, decls.Int)), + + decls.NewFunction(overloads.TimeGetDayOfYear, + decls.NewInstanceOverload(overloads.TimestampToDayOfYear, + []*exprpb.Type{decls.Timestamp}, decls.Int), + decls.NewInstanceOverload(overloads.TimestampToDayOfYearWithTz, + []*exprpb.Type{decls.Timestamp, decls.String}, decls.Int)), + + decls.NewFunction(overloads.TimeGetDayOfMonth, + decls.NewInstanceOverload(overloads.TimestampToDayOfMonthZeroBased, + []*exprpb.Type{decls.Timestamp}, decls.Int), + decls.NewInstanceOverload(overloads.TimestampToDayOfMonthZeroBasedWithTz, + []*exprpb.Type{decls.Timestamp, decls.String}, decls.Int)), + + decls.NewFunction(overloads.TimeGetDate, + decls.NewInstanceOverload(overloads.TimestampToDayOfMonthOneBased, + []*exprpb.Type{decls.Timestamp}, decls.Int), + decls.NewInstanceOverload(overloads.TimestampToDayOfMonthOneBasedWithTz, + []*exprpb.Type{decls.Timestamp, decls.String}, decls.Int)), + + decls.NewFunction(overloads.TimeGetDayOfWeek, + decls.NewInstanceOverload(overloads.TimestampToDayOfWeek, + []*exprpb.Type{decls.Timestamp}, decls.Int), + decls.NewInstanceOverload(overloads.TimestampToDayOfWeekWithTz, + []*exprpb.Type{decls.Timestamp, decls.String}, decls.Int)), + + decls.NewFunction(overloads.TimeGetHours, + decls.NewInstanceOverload(overloads.TimestampToHours, + []*exprpb.Type{decls.Timestamp}, decls.Int), + decls.NewInstanceOverload(overloads.TimestampToHoursWithTz, + []*exprpb.Type{decls.Timestamp, decls.String}, decls.Int), + decls.NewInstanceOverload(overloads.DurationToHours, + []*exprpb.Type{decls.Duration}, decls.Int)), + + decls.NewFunction(overloads.TimeGetMinutes, + decls.NewInstanceOverload(overloads.TimestampToMinutes, + []*exprpb.Type{decls.Timestamp}, decls.Int), + decls.NewInstanceOverload(overloads.TimestampToMinutesWithTz, + []*exprpb.Type{decls.Timestamp, decls.String}, decls.Int), + decls.NewInstanceOverload(overloads.DurationToMinutes, + []*exprpb.Type{decls.Duration}, decls.Int)), + + decls.NewFunction(overloads.TimeGetSeconds, + decls.NewInstanceOverload(overloads.TimestampToSeconds, + []*exprpb.Type{decls.Timestamp}, decls.Int), + decls.NewInstanceOverload(overloads.TimestampToSecondsWithTz, + []*exprpb.Type{decls.Timestamp, decls.String}, decls.Int), + decls.NewInstanceOverload(overloads.DurationToSeconds, + []*exprpb.Type{decls.Duration}, decls.Int)), + + decls.NewFunction(overloads.TimeGetMilliseconds, + decls.NewInstanceOverload(overloads.TimestampToMilliseconds, + []*exprpb.Type{decls.Timestamp}, decls.Int), + decls.NewInstanceOverload(overloads.TimestampToMillisecondsWithTz, + []*exprpb.Type{decls.Timestamp, decls.String}, decls.Int), + decls.NewInstanceOverload(overloads.DurationToMilliseconds, + []*exprpb.Type{decls.Duration}, decls.Int))}...) +} diff --git a/vendor/github.com/google/cel-go/checker/types.go b/vendor/github.com/google/cel-go/checker/types.go new file mode 100644 index 000000000..38c11d41a --- /dev/null +++ b/vendor/github.com/google/cel-go/checker/types.go @@ -0,0 +1,505 @@ +// Copyright 2018 Google LLC +// +// Licensed under the Apache License, Version 2.0 (the "License"); +// you may not use this file except in compliance with the License. +// You may obtain a copy of the License at +// +// http://www.apache.org/licenses/LICENSE-2.0 +// +// Unless required by applicable law or agreed to in writing, software +// distributed under the License is distributed on an "AS IS" BASIS, +// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. +// See the License for the specific language governing permissions and +// limitations under the License. + +package checker + +import ( + "fmt" + "strings" + + "github.com/google/cel-go/checker/decls" + + "google.golang.org/protobuf/proto" + + exprpb "google.golang.org/genproto/googleapis/api/expr/v1alpha1" +) + +const ( + kindUnknown = iota + 1 + kindError + kindFunction + kindDyn + kindPrimitive + kindWellKnown + kindWrapper + kindNull + kindAbstract + kindType + kindList + kindMap + kindObject + kindTypeParam +) + +// FormatCheckedType converts a type message into a string representation. +func FormatCheckedType(t *exprpb.Type) string { + switch kindOf(t) { + case kindDyn: + return "dyn" + case kindFunction: + return formatFunction(t.GetFunction().GetResultType(), + t.GetFunction().GetArgTypes(), + false) + case kindList: + return fmt.Sprintf("list(%s)", FormatCheckedType(t.GetListType().ElemType)) + case kindObject: + return t.GetMessageType() + case kindMap: + return fmt.Sprintf("map(%s, %s)", + FormatCheckedType(t.GetMapType().KeyType), + FormatCheckedType(t.GetMapType().ValueType)) + case kindNull: + return "null" + case kindPrimitive: + switch t.GetPrimitive() { + case exprpb.Type_UINT64: + return "uint" + case exprpb.Type_INT64: + return "int" + } + return strings.Trim(strings.ToLower(t.GetPrimitive().String()), " ") + case kindType: + if t.GetType() == nil { + return "type" + } + return fmt.Sprintf("type(%s)", FormatCheckedType(t.GetType())) + case kindWellKnown: + switch t.GetWellKnown() { + case exprpb.Type_ANY: + return "any" + case exprpb.Type_DURATION: + return "duration" + case exprpb.Type_TIMESTAMP: + return "timestamp" + } + case kindWrapper: + return fmt.Sprintf("wrapper(%s)", + FormatCheckedType(decls.NewPrimitiveType(t.GetWrapper()))) + case kindError: + return "!error!" + } + return t.String() +} + +// isDyn returns true if the input t is either type DYN or a well-known ANY message. +func isDyn(t *exprpb.Type) bool { + // Note: object type values that are well-known and map to a DYN value in practice + // are sanitized prior to being added to the environment. + switch kindOf(t) { + case kindDyn: + return true + case kindWellKnown: + return t.GetWellKnown() == exprpb.Type_ANY + default: + return false + } +} + +// isDynOrError returns true if the input is either an Error, DYN, or well-known ANY message. +func isDynOrError(t *exprpb.Type) bool { + switch kindOf(t) { + case kindError: + return true + default: + return isDyn(t) + } +} + +// isEqualOrLessSpecific checks whether one type is equal or less specific than the other one. +// A type is less specific if it matches the other type using the DYN type. +func isEqualOrLessSpecific(t1 *exprpb.Type, t2 *exprpb.Type) bool { + kind1, kind2 := kindOf(t1), kindOf(t2) + // The first type is less specific. + if isDyn(t1) || kind1 == kindTypeParam { + return true + } + // The first type is not less specific. + if isDyn(t2) || kind2 == kindTypeParam { + return false + } + // Types must be of the same kind to be equal. + if kind1 != kind2 { + return false + } + + // With limited exceptions for ANY and JSON values, the types must agree and be equivalent in + // order to return true. + switch kind1 { + case kindAbstract: + a1 := t1.GetAbstractType() + a2 := t2.GetAbstractType() + if a1.GetName() != a2.GetName() || + len(a1.GetParameterTypes()) != len(a2.GetParameterTypes()) { + return false + } + for i, p1 := range a1.GetParameterTypes() { + if !isEqualOrLessSpecific(p1, a2.GetParameterTypes()[i]) { + return false + } + } + return true + case kindFunction: + fn1 := t1.GetFunction() + fn2 := t2.GetFunction() + if len(fn1.ArgTypes) != len(fn2.ArgTypes) { + return false + } + if !isEqualOrLessSpecific(fn1.ResultType, fn2.ResultType) { + return false + } + for i, a1 := range fn1.ArgTypes { + if !isEqualOrLessSpecific(a1, fn2.ArgTypes[i]) { + return false + } + } + return true + case kindList: + return isEqualOrLessSpecific(t1.GetListType().ElemType, t2.GetListType().ElemType) + case kindMap: + m1 := t1.GetMapType() + m2 := t2.GetMapType() + return isEqualOrLessSpecific(m1.KeyType, m2.KeyType) && + isEqualOrLessSpecific(m1.ValueType, m2.ValueType) + case kindType: + return true + default: + return proto.Equal(t1, t2) + } +} + +/// internalIsAssignable returns true if t1 is assignable to t2. +func internalIsAssignable(m *mapping, t1 *exprpb.Type, t2 *exprpb.Type) bool { + // A type is always assignable to itself. + // Early terminate the call to avoid cases of infinite recursion. + if proto.Equal(t1, t2) { + return true + } + // Process type parameters. + kind1, kind2 := kindOf(t1), kindOf(t2) + if kind2 == kindTypeParam { + if t2Sub, found := m.find(t2); found { + // If the types are compatible, pick the more general type and return true + if !internalIsAssignable(m, t1, t2Sub) { + return false + } + m.add(t2, mostGeneral(t1, t2Sub)) + return true + } + if notReferencedIn(m, t2, t1) { + m.add(t2, t1) + return true + } + } + if kind1 == kindTypeParam { + // For the lower type bound, we currently do not perform adjustment. The restricted + // way we use type parameters in lower type bounds, it is not necessary, but may + // become if we generalize type unification. + if t1Sub, found := m.find(t1); found { + // If the types are compatible, pick the more general type and return true + if !internalIsAssignable(m, t1Sub, t2) { + return false + } + m.add(t1, mostGeneral(t1Sub, t2)) + return true + } + if notReferencedIn(m, t1, t2) { + m.add(t1, t2) + return true + } + } + + // Next check for wildcard types. + if isDynOrError(t1) || isDynOrError(t2) { + return true + } + + // Test for when the types do not need to agree, but are more specific than dyn. + switch kind1 { + case kindNull: + return internalIsAssignableNull(t2) + case kindPrimitive: + return internalIsAssignablePrimitive(t1.GetPrimitive(), t2) + case kindWrapper: + return internalIsAssignable(m, decls.NewPrimitiveType(t1.GetWrapper()), t2) + default: + if kind1 != kind2 { + return false + } + } + + // Test for when the types must agree. + switch kind1 { + // ERROR, TYPE_PARAM, and DYN handled above. + case kindAbstract: + return internalIsAssignableAbstractType(m, t1.GetAbstractType(), t2.GetAbstractType()) + case kindFunction: + return internalIsAssignableFunction(m, t1.GetFunction(), t2.GetFunction()) + case kindList: + return internalIsAssignable(m, t1.GetListType().GetElemType(), t2.GetListType().GetElemType()) + case kindMap: + return internalIsAssignableMap(m, t1.GetMapType(), t2.GetMapType()) + case kindObject: + return t1.GetMessageType() == t2.GetMessageType() + case kindType: + // A type is a type is a type, any additional parameterization of the + // type cannot affect method resolution or assignability. + return true + case kindWellKnown: + return t1.GetWellKnown() == t2.GetWellKnown() + default: + return false + } +} + +// internalIsAssignableAbstractType returns true if the abstract type names agree and all type +// parameters are assignable. +func internalIsAssignableAbstractType(m *mapping, + a1 *exprpb.Type_AbstractType, + a2 *exprpb.Type_AbstractType) bool { + if a1.GetName() != a2.GetName() { + return false + } + if internalIsAssignableList(m, a1.GetParameterTypes(), a2.GetParameterTypes()) { + return true + } + return false +} + +// internalIsAssignableFunction returns true if the function return type and arg types are +// assignable. +func internalIsAssignableFunction(m *mapping, + f1 *exprpb.Type_FunctionType, + f2 *exprpb.Type_FunctionType) bool { + f1ArgTypes := flattenFunctionTypes(f1) + f2ArgTypes := flattenFunctionTypes(f2) + if internalIsAssignableList(m, f1ArgTypes, f2ArgTypes) { + return true + } + return false +} + +// internalIsAssignableList returns true if the element types at each index in the list are +// assignable from l1[i] to l2[i]. The list lengths must also agree for the lists to be +// assignable. +func internalIsAssignableList(m *mapping, l1 []*exprpb.Type, l2 []*exprpb.Type) bool { + if len(l1) != len(l2) { + return false + } + for i, t1 := range l1 { + if !internalIsAssignable(m, t1, l2[i]) { + return false + } + } + return true +} + +// internalIsAssignableMap returns true if map m1 may be assigned to map m2. +func internalIsAssignableMap(m *mapping, m1 *exprpb.Type_MapType, m2 *exprpb.Type_MapType) bool { + if internalIsAssignableList(m, + []*exprpb.Type{m1.GetKeyType(), m1.GetValueType()}, + []*exprpb.Type{m2.GetKeyType(), m2.GetValueType()}) { + return true + } + return false +} + +// internalIsAssignableNull returns true if the type is nullable. +func internalIsAssignableNull(t *exprpb.Type) bool { + switch kindOf(t) { + case kindAbstract, kindObject, kindNull, kindWellKnown, kindWrapper: + return true + default: + return false + } +} + +// internalIsAssignablePrimitive returns true if the target type is the same or if it is a wrapper +// for the primitive type. +func internalIsAssignablePrimitive(p exprpb.Type_PrimitiveType, target *exprpb.Type) bool { + switch kindOf(target) { + case kindPrimitive: + return p == target.GetPrimitive() + case kindWrapper: + return p == target.GetWrapper() + default: + return false + } +} + +// isAssignable returns an updated type substitution mapping if t1 is assignable to t2. +func isAssignable(m *mapping, t1 *exprpb.Type, t2 *exprpb.Type) *mapping { + mCopy := m.copy() + if internalIsAssignable(mCopy, t1, t2) { + return mCopy + } + return nil +} + +// isAssignableList returns an updated type substitution mapping if l1 is assignable to l2. +func isAssignableList(m *mapping, l1 []*exprpb.Type, l2 []*exprpb.Type) *mapping { + mCopy := m.copy() + if internalIsAssignableList(mCopy, l1, l2) { + return mCopy + } + return nil +} + +// kindOf returns the kind of the type as defined in the checked.proto. +func kindOf(t *exprpb.Type) int { + if t == nil || t.TypeKind == nil { + return kindUnknown + } + switch t.TypeKind.(type) { + case *exprpb.Type_Error: + return kindError + case *exprpb.Type_Function: + return kindFunction + case *exprpb.Type_Dyn: + return kindDyn + case *exprpb.Type_Primitive: + return kindPrimitive + case *exprpb.Type_WellKnown: + return kindWellKnown + case *exprpb.Type_Wrapper: + return kindWrapper + case *exprpb.Type_Null: + return kindNull + case *exprpb.Type_Type: + return kindType + case *exprpb.Type_ListType_: + return kindList + case *exprpb.Type_MapType_: + return kindMap + case *exprpb.Type_MessageType: + return kindObject + case *exprpb.Type_TypeParam: + return kindTypeParam + case *exprpb.Type_AbstractType_: + return kindAbstract + } + return kindUnknown +} + +// mostGeneral returns the more general of two types which are known to unify. +func mostGeneral(t1 *exprpb.Type, t2 *exprpb.Type) *exprpb.Type { + if isEqualOrLessSpecific(t1, t2) { + return t1 + } + return t2 +} + +// notReferencedIn checks whether the type doesn't appear directly or transitively within the other +// type. This is a standard requirement for type unification, commonly referred to as the "occurs +// check". +func notReferencedIn(m *mapping, t *exprpb.Type, withinType *exprpb.Type) bool { + if proto.Equal(t, withinType) { + return false + } + withinKind := kindOf(withinType) + switch withinKind { + case kindTypeParam: + wtSub, found := m.find(withinType) + if !found { + return true + } + return notReferencedIn(m, t, wtSub) + case kindAbstract: + for _, pt := range withinType.GetAbstractType().GetParameterTypes() { + if !notReferencedIn(m, t, pt) { + return false + } + } + return true + case kindFunction: + fn := withinType.GetFunction() + types := flattenFunctionTypes(fn) + for _, a := range types { + if !notReferencedIn(m, t, a) { + return false + } + } + return true + case kindList: + return notReferencedIn(m, t, withinType.GetListType().ElemType) + case kindMap: + mt := withinType.GetMapType() + return notReferencedIn(m, t, mt.KeyType) && notReferencedIn(m, t, mt.ValueType) + case kindWrapper: + return notReferencedIn(m, t, decls.NewPrimitiveType(withinType.GetWrapper())) + default: + return true + } +} + +// substitute replaces all direct and indirect occurrences of bound type parameters. Unbound type +// parameters are replaced by DYN if typeParamToDyn is true. +func substitute(m *mapping, t *exprpb.Type, typeParamToDyn bool) *exprpb.Type { + if tSub, found := m.find(t); found { + return substitute(m, tSub, typeParamToDyn) + } + kind := kindOf(t) + if typeParamToDyn && kind == kindTypeParam { + return decls.Dyn + } + switch kind { + case kindAbstract: + // TODO: implement! + at := t.GetAbstractType() + params := make([]*exprpb.Type, len(at.GetParameterTypes())) + for i, p := range at.GetParameterTypes() { + params[i] = substitute(m, p, typeParamToDyn) + } + return decls.NewAbstractType(at.GetName(), params...) + case kindFunction: + fn := t.GetFunction() + rt := substitute(m, fn.ResultType, typeParamToDyn) + args := make([]*exprpb.Type, len(fn.ArgTypes)) + for i, a := range fn.ArgTypes { + args[i] = substitute(m, a, typeParamToDyn) + } + return decls.NewFunctionType(rt, args...) + case kindList: + return decls.NewListType(substitute(m, t.GetListType().ElemType, typeParamToDyn)) + case kindMap: + mt := t.GetMapType() + return decls.NewMapType(substitute(m, mt.KeyType, typeParamToDyn), + substitute(m, mt.ValueType, typeParamToDyn)) + case kindType: + if t.GetType() != nil { + return decls.NewTypeType(substitute(m, t.GetType(), typeParamToDyn)) + } + return t + default: + return t + } +} + +func typeKey(t *exprpb.Type) string { + return FormatCheckedType(t) +} + +// flattenFunctionTypes takes a function with arg types T1, T2, ..., TN and result type TR +// and returns a slice containing {T1, T2, ..., TN, TR}. +func flattenFunctionTypes(f *exprpb.Type_FunctionType) []*exprpb.Type { + argTypes := f.GetArgTypes() + if len(argTypes) == 0 { + return []*exprpb.Type{f.GetResultType()} + } + flattend := make([]*exprpb.Type, len(argTypes)+1, len(argTypes)+1) + for i, at := range argTypes { + flattend[i] = at + } + flattend[len(argTypes)] = f.GetResultType() + return flattend +} diff --git a/vendor/github.com/google/cel-go/common/BUILD.bazel b/vendor/github.com/google/cel-go/common/BUILD.bazel new file mode 100644 index 000000000..9e4ad65e9 --- /dev/null +++ b/vendor/github.com/google/cel-go/common/BUILD.bazel @@ -0,0 +1,34 @@ +load("@io_bazel_rules_go//go:def.bzl", "go_library", "go_test") + +package( + default_visibility = ["//visibility:public"], + licenses = ["notice"], # Apache 2.0 +) + +go_library( + name = "go_default_library", + srcs = [ + "error.go", + "errors.go", + "location.go", + "source.go", + ], + importpath = "github.com/google/cel-go/common", + deps = [ + "//common/runes:go_default_library", + "@org_golang_google_genproto//googleapis/api/expr/v1alpha1:go_default_library", + "@org_golang_x_text//width:go_default_library", + ], +) + +go_test( + name = "go_default_test", + size = "small", + srcs = [ + "errors_test.go", + "source_test.go", + ], + embed = [ + ":go_default_library", + ], +) diff --git a/vendor/github.com/google/cel-go/common/containers/BUILD.bazel b/vendor/github.com/google/cel-go/common/containers/BUILD.bazel new file mode 100644 index 000000000..18142d94e --- /dev/null +++ b/vendor/github.com/google/cel-go/common/containers/BUILD.bazel @@ -0,0 +1,31 @@ +load("@io_bazel_rules_go//go:def.bzl", "go_library", "go_test") + +package( + default_visibility = ["//visibility:public"], + licenses = ["notice"], # Apache 2.0 +) + +go_library( + name = "go_default_library", + srcs = [ + "container.go", + ], + importpath = "github.com/google/cel-go/common/containers", + deps = [ + "@org_golang_google_genproto//googleapis/api/expr/v1alpha1:go_default_library", + ], +) + +go_test( + name = "go_default_test", + size = "small", + srcs = [ + "container_test.go", + ], + embed = [ + ":go_default_library", + ], + deps = [ + "@org_golang_google_genproto//googleapis/api/expr/v1alpha1:go_default_library", + ], +) diff --git a/vendor/github.com/google/cel-go/common/containers/container.go b/vendor/github.com/google/cel-go/common/containers/container.go new file mode 100644 index 000000000..07ae72c81 --- /dev/null +++ b/vendor/github.com/google/cel-go/common/containers/container.go @@ -0,0 +1,316 @@ +// Copyright 2018 Google LLC +// +// Licensed under the Apache License, Version 2.0 (the "License"); +// you may not use this file except in compliance with the License. +// You may obtain a copy of the License at +// +// http://www.apache.org/licenses/LICENSE-2.0 +// +// Unless required by applicable law or agreed to in writing, software +// distributed under the License is distributed on an "AS IS" BASIS, +// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. +// See the License for the specific language governing permissions and +// limitations under the License. + +// Package containers defines types and functions for resolving qualified names within a namespace +// or type provided to CEL. +package containers + +import ( + "fmt" + "strings" + + exprpb "google.golang.org/genproto/googleapis/api/expr/v1alpha1" +) + +var ( + // DefaultContainer has an empty container name. + DefaultContainer *Container = nil + + // Empty map to search for aliases when needed. + noAliases = make(map[string]string) +) + +// NewContainer creates a new Container with the fully-qualified name. +func NewContainer(opts ...ContainerOption) (*Container, error) { + var c *Container + var err error + for _, opt := range opts { + c, err = opt(c) + if err != nil { + return nil, err + } + } + return c, nil +} + +// Container holds a reference to an optional qualified container name and set of aliases. +// +// The program container can be used to simplify variable, function, and type specification within +// CEL programs and behaves more or less like a C++ namespace. See ResolveCandidateNames for more +// details. +type Container struct { + name string + aliases map[string]string +} + +// Extend creates a new Container with the existing settings and applies a series of +// ContainerOptions to further configure the new container. +func (c *Container) Extend(opts ...ContainerOption) (*Container, error) { + if c == nil { + return NewContainer(opts...) + } + // Copy the name and aliases of the existing container. + ext := &Container{name: c.Name()} + if len(c.aliasSet()) > 0 { + aliasSet := make(map[string]string, len(c.aliasSet())) + for k, v := range c.aliasSet() { + aliasSet[k] = v + } + ext.aliases = aliasSet + } + // Apply the new options to the container. + var err error + for _, opt := range opts { + ext, err = opt(ext) + if err != nil { + return nil, err + } + } + return ext, nil +} + +// Name returns the fully-qualified name of the container. +// +// The name may conceptually be a namespace, package, or type. +func (c *Container) Name() string { + if c == nil { + return "" + } + return c.name +} + +// ResolveCandidateNames returns the candidates name of namespaced identifiers in C++ resolution +// order. +// +// Names which shadow other names are returned first. If a name includes a leading dot ('.'), +// the name is treated as an absolute identifier which cannot be shadowed. +// +// Given a container name a.b.c.M.N and a type name R.s, this will deliver in order: +// +// a.b.c.M.N.R.s +// a.b.c.M.R.s +// a.b.c.R.s +// a.b.R.s +// a.R.s +// R.s +// +// If aliases or abbreviations are configured for the container, then alias names will take +// precedence over containerized names. +func (c *Container) ResolveCandidateNames(name string) []string { + if strings.HasPrefix(name, ".") { + qn := name[1:] + alias, isAlias := c.findAlias(qn) + if isAlias { + return []string{alias} + } + return []string{qn} + } + alias, isAlias := c.findAlias(name) + if isAlias { + return []string{alias} + } + if c.Name() == "" { + return []string{name} + } + nextCont := c.Name() + candidates := []string{nextCont + "." + name} + for i := strings.LastIndex(nextCont, "."); i >= 0; i = strings.LastIndex(nextCont, ".") { + nextCont = nextCont[:i] + candidates = append(candidates, nextCont+"."+name) + } + return append(candidates, name) +} + +// aliasSet returns the alias to fully-qualified name mapping stored in the container. +func (c *Container) aliasSet() map[string]string { + if c == nil || c.aliases == nil { + return noAliases + } + return c.aliases +} + +// findAlias takes a name as input and returns an alias expansion if one exists. +// +// If the name is qualified, the first component of the qualified name is checked against known +// aliases. Any alias that is found in a qualified name is expanded in the result: +// +// alias: R -> my.alias.R +// name: R.S.T +// output: my.alias.R.S.T +// +// Note, the name must not have a leading dot. +func (c *Container) findAlias(name string) (string, bool) { + // If an alias exists for the name, ensure it is searched last. + simple := name + qualifier := "" + dot := strings.Index(name, ".") + if dot >= 0 { + simple = name[0:dot] + qualifier = name[dot:] + } + alias, found := c.aliasSet()[simple] + if !found { + return "", false + } + return alias + qualifier, true +} + +// ContainerOption specifies a functional configuration option for a Container. +// +// Note, ContainerOption implementations must be able to handle nil container inputs. +type ContainerOption func(*Container) (*Container, error) + +// Abbrevs configures a set of simple names as abbreviations for fully-qualified names. +// +// An abbreviation (abbrev for short) is a simple name that expands to a fully-qualified name. +// Abbreviations can be useful when working with variables, functions, and especially types from +// multiple namespaces: +// +// // CEL object construction +// qual.pkg.version.ObjTypeName{ +// field: alt.container.ver.FieldTypeName{value: ...} +// } +// +// Only one the qualified names above may be used as the CEL container, so at least one of these +// references must be a long qualified name within an otherwise short CEL program. Using the +// following abbreviations, the program becomes much simpler: +// +// // CEL Go option +// Abbrevs("qual.pkg.version.ObjTypeName", "alt.container.ver.FieldTypeName") +// // Simplified Object construction +// ObjTypeName{field: FieldTypeName{value: ...}} +// +// There are a few rules for the qualified names and the simple abbreviations generated from them: +// - Qualified names must be dot-delimited, e.g. `package.subpkg.name`. +// - The last element in the qualified name is the abbreviation. +// - Abbreviations must not collide with each other. +// - The abbreviation must not collide with unqualified names in use. +// +// Abbreviations are distinct from container-based references in the following important ways: +// - Abbreviations must expand to a fully-qualified name. +// - Expanded abbreviations do not participate in namespace resolution. +// - Abbreviation expansion is done instead of the container search for a matching identifier. +// - Containers follow C++ namespace resolution rules with searches from the most qualified name +// to the least qualified name. +// - Container references within the CEL program may be relative, and are resolved to fully +// qualified names at either type-check time or program plan time, whichever comes first. +// +// If there is ever a case where an identifier could be in both the container and as an +// abbreviation, the abbreviation wins as this will ensure that the meaning of a program is +// preserved between compilations even as the container evolves. +func Abbrevs(qualifiedNames ...string) ContainerOption { + return func(c *Container) (*Container, error) { + for _, qn := range qualifiedNames { + ind := strings.LastIndex(qn, ".") + if ind <= 0 || ind >= len(qn)-1 { + return nil, fmt.Errorf( + "invalid qualified name: %s, wanted name of the form 'qualified.name'", qn) + } + alias := qn[ind+1:] + var err error + c, err = aliasAs("abbreviation", qn, alias)(c) + if err != nil { + return nil, err + } + } + return c, nil + } +} + +// Alias associates a fully-qualified name with a user-defined alias. +// +// In general, Abbrevs is preferred to Alias since the names generated from the Abbrevs option +// are more easily traced back to source code. The Alias option is useful for propagating alias +// configuration from one Container instance to another, and may also be useful for remapping +// poorly chosen protobuf message / package names. +// +// Note: all of the rules that apply to Abbrevs also apply to Alias. +func Alias(qualifiedName, alias string) ContainerOption { + return aliasAs("alias", qualifiedName, alias) +} + +func aliasAs(kind, qualifiedName, alias string) ContainerOption { + return func(c *Container) (*Container, error) { + if len(alias) == 0 || strings.Contains(alias, ".") { + return nil, fmt.Errorf( + "%s must be non-empty and simple (not qualified): %s=%s", kind, kind, alias) + } + + if qualifiedName[0:1] == "." { + return nil, fmt.Errorf("qualified name must not begin with a leading '.': %s", + qualifiedName) + } + ind := strings.LastIndex(qualifiedName, ".") + if ind <= 0 || ind == len(qualifiedName)-1 { + return nil, fmt.Errorf("%s must refer to a valid qualified name: %s", + kind, qualifiedName) + } + aliasRef, found := c.aliasSet()[alias] + if found { + return nil, fmt.Errorf( + "%s collides with existing reference: name=%s, %s=%s, existing=%s", + kind, qualifiedName, kind, alias, aliasRef) + } + if strings.HasPrefix(c.Name(), alias+".") || c.Name() == alias { + return nil, fmt.Errorf( + "%s collides with container name: name=%s, %s=%s, container=%s", + kind, qualifiedName, kind, alias, c.Name()) + } + if c == nil { + c = &Container{} + } + if c.aliases == nil { + c.aliases = make(map[string]string) + } + c.aliases[alias] = qualifiedName + return c, nil + } +} + +// Name sets the fully-qualified name of the Container. +func Name(name string) ContainerOption { + return func(c *Container) (*Container, error) { + if len(name) > 0 && name[0:1] == "." { + return nil, fmt.Errorf("container name must not contain a leading '.': %s", name) + } + if c.Name() == name { + return c, nil + } + if c == nil { + return &Container{name: name}, nil + } + c.name = name + return c, nil + } +} + +// ToQualifiedName converts an expression AST into a qualified name if possible, with a boolean +// 'found' value that indicates if the conversion is successful. +func ToQualifiedName(e *exprpb.Expr) (string, bool) { + switch e.ExprKind.(type) { + case *exprpb.Expr_IdentExpr: + id := e.GetIdentExpr() + return id.Name, true + case *exprpb.Expr_SelectExpr: + sel := e.GetSelectExpr() + // Test only expressions are not valid as qualified names. + if sel.GetTestOnly() { + return "", false + } + if qual, found := ToQualifiedName(sel.Operand); found { + return qual + "." + sel.Field, true + } + } + return "", false +} diff --git a/vendor/github.com/google/cel-go/common/doc.go b/vendor/github.com/google/cel-go/common/doc.go new file mode 100644 index 000000000..5362fdfe4 --- /dev/null +++ b/vendor/github.com/google/cel-go/common/doc.go @@ -0,0 +1,17 @@ +// Copyright 2018 Google LLC +// +// Licensed under the Apache License, Version 2.0 (the "License"); +// you may not use this file except in compliance with the License. +// You may obtain a copy of the License at +// +// http://www.apache.org/licenses/LICENSE-2.0 +// +// Unless required by applicable law or agreed to in writing, software +// distributed under the License is distributed on an "AS IS" BASIS, +// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. +// See the License for the specific language governing permissions and +// limitations under the License. + +// Package common defines types and utilities common to expression parsing, +// checking, and interpretation +package common diff --git a/vendor/github.com/google/cel-go/common/error.go b/vendor/github.com/google/cel-go/common/error.go new file mode 100644 index 000000000..bfe93d973 --- /dev/null +++ b/vendor/github.com/google/cel-go/common/error.go @@ -0,0 +1,70 @@ +// Copyright 2018 Google LLC +// +// Licensed under the Apache License, Version 2.0 (the "License"); +// you may not use this file except in compliance with the License. +// You may obtain a copy of the License at +// +// http://www.apache.org/licenses/LICENSE-2.0 +// +// Unless required by applicable law or agreed to in writing, software +// distributed under the License is distributed on an "AS IS" BASIS, +// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. +// See the License for the specific language governing permissions and +// limitations under the License. + +package common + +import ( + "fmt" + "strings" + "unicode/utf8" + + "golang.org/x/text/width" +) + +// Error type which references a location within source and a message. +type Error struct { + Location Location + Message string +} + +const ( + dot = "." + ind = "^" +) + +var ( + wideDot = width.Widen.String(dot) + wideInd = width.Widen.String(ind) +) + +// ToDisplayString decorates the error message with the source location. +func (e *Error) ToDisplayString(source Source) string { + var result = fmt.Sprintf("ERROR: %s:%d:%d: %s", + source.Description(), + e.Location.Line(), + e.Location.Column()+1, // add one to the 0-based column for display + e.Message) + if snippet, found := source.Snippet(e.Location.Line()); found { + snippet := strings.Replace(snippet, "\t", " ", -1) + srcLine := "\n | " + snippet + var bytes = []byte(snippet) + var indLine = "\n | " + for i := 0; i < e.Location.Column() && len(bytes) > 0; i++ { + _, sz := utf8.DecodeRune(bytes) + bytes = bytes[sz:] + if sz > 1 { + indLine += wideDot + } else { + indLine += dot + } + } + if _, sz := utf8.DecodeRune(bytes); sz > 1 { + indLine += wideInd + } else { + indLine += ind + } + result += srcLine + indLine + } + return result +} diff --git a/vendor/github.com/google/cel-go/common/errors.go b/vendor/github.com/google/cel-go/common/errors.go new file mode 100644 index 000000000..6be0fdef3 --- /dev/null +++ b/vendor/github.com/google/cel-go/common/errors.go @@ -0,0 +1,74 @@ +// Copyright 2018 Google LLC +// +// Licensed under the Apache License, Version 2.0 (the "License"); +// you may not use this file except in compliance with the License. +// You may obtain a copy of the License at +// +// http://www.apache.org/licenses/LICENSE-2.0 +// +// Unless required by applicable law or agreed to in writing, software +// distributed under the License is distributed on an "AS IS" BASIS, +// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. +// See the License for the specific language governing permissions and +// limitations under the License. + +package common + +import ( + "fmt" + "sort" +) + +// Errors type which contains a list of errors observed during parsing. +type Errors struct { + errors []Error + source Source +} + +// NewErrors creates a new instance of the Errors type. +func NewErrors(source Source) *Errors { + return &Errors{ + errors: []Error{}, + source: source} +} + +// ReportError records an error at a source location. +func (e *Errors) ReportError(l Location, format string, args ...interface{}) { + err := Error{ + Location: l, + Message: fmt.Sprintf(format, args...), + } + e.errors = append(e.errors, err) +} + +// GetErrors returns the list of observed errors. +func (e *Errors) GetErrors() []Error { + return e.errors[:] +} + +// Append takes an Errors object as input creates a new Errors object with the current and input +// errors. +func (e *Errors) Append(errs []Error) *Errors { + return &Errors{ + errors: append(e.errors, errs...), + source: e.source, + } +} + +// ToDisplayString returns the error set to a newline delimited string. +func (e *Errors) ToDisplayString() string { + var result = "" + sort.SliceStable(e.errors, func(i, j int) bool { + ei := e.errors[i].Location + ej := e.errors[j].Location + return ei.Line() < ej.Line() || + (ei.Line() == ej.Line() && ei.Column() < ej.Column()) + }) + for i, err := range e.errors { + if i >= 1 { + result += "\n" + } + result += err.ToDisplayString(e.source) + } + return result +} diff --git a/vendor/github.com/google/cel-go/common/location.go b/vendor/github.com/google/cel-go/common/location.go new file mode 100644 index 000000000..31fce6cd3 --- /dev/null +++ b/vendor/github.com/google/cel-go/common/location.go @@ -0,0 +1,51 @@ +// Copyright 2018 Google LLC +// +// Licensed under the Apache License, Version 2.0 (the "License"); +// you may not use this file except in compliance with the License. +// You may obtain a copy of the License at +// +// http://www.apache.org/licenses/LICENSE-2.0 +// +// Unless required by applicable law or agreed to in writing, software +// distributed under the License is distributed on an "AS IS" BASIS, +// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. +// See the License for the specific language governing permissions and +// limitations under the License. + +package common + +// Location interface to represent a location within Source. +type Location interface { + Line() int // 1-based line number within source. + Column() int // 0-based column number within source. +} + +// SourceLocation helper type to manually construct a location. +type SourceLocation struct { + line int + column int +} + +var ( + // Location implements the SourcceLocation interface. + _ Location = &SourceLocation{} + // NoLocation is a particular illegal location. + NoLocation = &SourceLocation{-1, -1} +) + +// NewLocation creates a new location. +func NewLocation(line, column int) Location { + return &SourceLocation{ + line: line, + column: column} +} + +// Line returns the 1-based line of the location. +func (l *SourceLocation) Line() int { + return l.line +} + +// Column returns the 0-based column number of the location. +func (l *SourceLocation) Column() int { + return l.column +} diff --git a/vendor/github.com/google/cel-go/common/operators/BUILD.bazel b/vendor/github.com/google/cel-go/common/operators/BUILD.bazel new file mode 100644 index 000000000..b5b67f062 --- /dev/null +++ b/vendor/github.com/google/cel-go/common/operators/BUILD.bazel @@ -0,0 +1,14 @@ +load("@io_bazel_rules_go//go:def.bzl", "go_library", "go_test") + +package( + default_visibility = ["//visibility:public"], + licenses = ["notice"], # Apache 2.0 +) + +go_library( + name = "go_default_library", + srcs = [ + "operators.go", + ], + importpath = "github.com/google/cel-go/common/operators", +) diff --git a/vendor/github.com/google/cel-go/common/operators/operators.go b/vendor/github.com/google/cel-go/common/operators/operators.go new file mode 100644 index 000000000..8f832c4d4 --- /dev/null +++ b/vendor/github.com/google/cel-go/common/operators/operators.go @@ -0,0 +1,145 @@ +// Copyright 2018 Google LLC +// +// Licensed under the Apache License, Version 2.0 (the "License"); +// you may not use this file except in compliance with the License. +// You may obtain a copy of the License at +// +// http://www.apache.org/licenses/LICENSE-2.0 +// +// Unless required by applicable law or agreed to in writing, software +// distributed under the License is distributed on an "AS IS" BASIS, +// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. +// See the License for the specific language governing permissions and +// limitations under the License. + +// Package operators defines the internal function names of operators. +// +// ALl operators in the expression language are modelled as function calls. +package operators + +// String "names" for CEL operators. +const ( + // Symbolic operators. + Conditional = "_?_:_" + LogicalAnd = "_&&_" + LogicalOr = "_||_" + LogicalNot = "!_" + Equals = "_==_" + NotEquals = "_!=_" + Less = "_<_" + LessEquals = "_<=_" + Greater = "_>_" + GreaterEquals = "_>=_" + Add = "_+_" + Subtract = "_-_" + Multiply = "_*_" + Divide = "_/_" + Modulo = "_%_" + Negate = "-_" + Index = "_[_]" + + // Macros, must have a valid identifier. + Has = "has" + All = "all" + Exists = "exists" + ExistsOne = "exists_one" + Map = "map" + Filter = "filter" + + // Named operators, must not have be valid identifiers. + NotStrictlyFalse = "@not_strictly_false" + In = "@in" + + // Deprecated: named operators with valid identifiers. + OldNotStrictlyFalse = "__not_strictly_false__" + OldIn = "_in_" +) + +var ( + operators = map[string]string{ + "+": Add, + "/": Divide, + "==": Equals, + ">": Greater, + ">=": GreaterEquals, + "in": In, + "<": Less, + "<=": LessEquals, + "%": Modulo, + "*": Multiply, + "!=": NotEquals, + "-": Subtract, + } + reverseOperators = map[string]string{ + Add: "+", + Divide: "/", + Equals: "==", + Greater: ">", + GreaterEquals: ">=", + In: "in", + Less: "<", + LessEquals: "<=", + LogicalAnd: "&&", + LogicalNot: "!", + LogicalOr: "||", + Modulo: "%", + Multiply: "*", + Negate: "-", + NotEquals: "!=", + OldIn: "in", + Subtract: "-", + } + // precedence of the operator, where the higher value means higher. + precedence = map[string]int{ + Conditional: 8, + LogicalOr: 7, + LogicalAnd: 6, + Equals: 5, + Greater: 5, + GreaterEquals: 5, + In: 5, + Less: 5, + LessEquals: 5, + NotEquals: 5, + OldIn: 5, + Add: 4, + Subtract: 4, + Divide: 3, + Modulo: 3, + Multiply: 3, + LogicalNot: 2, + Negate: 2, + Index: 1, + } +) + +// Find the internal function name for an operator, if the input text is one. +func Find(text string) (string, bool) { + op, found := operators[text] + return op, found +} + +// FindReverse returns the unmangled, text representation of the operator. +func FindReverse(op string) (string, bool) { + txt, found := reverseOperators[op] + return txt, found +} + +// FindReverseBinaryOperator returns the unmangled, text representation of a binary operator. +func FindReverseBinaryOperator(op string) (string, bool) { + if op == LogicalNot || op == Negate { + return "", false + } + txt, found := reverseOperators[op] + return txt, found +} + +// Precedence returns the operator precedence, where the higher the number indicates +// higher precedence operations. +func Precedence(op string) int { + p, found := precedence[op] + if found { + return p + } + return 0 +} diff --git a/vendor/github.com/google/cel-go/common/overloads/BUILD.bazel b/vendor/github.com/google/cel-go/common/overloads/BUILD.bazel new file mode 100644 index 000000000..e46e2f483 --- /dev/null +++ b/vendor/github.com/google/cel-go/common/overloads/BUILD.bazel @@ -0,0 +1,14 @@ +load("@io_bazel_rules_go//go:def.bzl", "go_library") + +package( + default_visibility = ["//visibility:public"], + licenses = ["notice"], # Apache 2.0 +) + +go_library( + name = "go_default_library", + srcs = [ + "overloads.go", + ], + importpath = "github.com/google/cel-go/common/overloads", +) diff --git a/vendor/github.com/google/cel-go/common/overloads/overloads.go b/vendor/github.com/google/cel-go/common/overloads/overloads.go new file mode 100644 index 000000000..a1c01ee72 --- /dev/null +++ b/vendor/github.com/google/cel-go/common/overloads/overloads.go @@ -0,0 +1,293 @@ +// Copyright 2018 Google LLC +// +// Licensed under the Apache License, Version 2.0 (the "License"); +// you may not use this file except in compliance with the License. +// You may obtain a copy of the License at +// +// http://www.apache.org/licenses/LICENSE-2.0 +// +// Unless required by applicable law or agreed to in writing, software +// distributed under the License is distributed on an "AS IS" BASIS, +// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. +// See the License for the specific language governing permissions and +// limitations under the License. + +// Package overloads defines the internal overload identifiers for function and +// operator overloads. +package overloads + +// Boolean logic overloads +const ( + Conditional = "conditional" + LogicalAnd = "logical_and" + LogicalOr = "logical_or" + LogicalNot = "logical_not" + NotStrictlyFalse = "not_strictly_false" + Equals = "equals" + NotEquals = "not_equals" + LessBool = "less_bool" + LessInt64 = "less_int64" + LessUint64 = "less_uint64" + LessDouble = "less_double" + LessString = "less_string" + LessBytes = "less_bytes" + LessTimestamp = "less_timestamp" + LessDuration = "less_duration" + LessEqualsBool = "less_equals_bool" + LessEqualsInt64 = "less_equals_int64" + LessEqualsUint64 = "less_equals_uint64" + LessEqualsDouble = "less_equals_double" + LessEqualsString = "less_equals_string" + LessEqualsBytes = "less_equals_bytes" + LessEqualsTimestamp = "less_equals_timestamp" + LessEqualsDuration = "less_equals_duration" + GreaterBool = "greater_bool" + GreaterInt64 = "greater_int64" + GreaterUint64 = "greater_uint64" + GreaterDouble = "greater_double" + GreaterString = "greater_string" + GreaterBytes = "greater_bytes" + GreaterTimestamp = "greater_timestamp" + GreaterDuration = "greater_duration" + GreaterEqualsBool = "greater_equals_bool" + GreaterEqualsInt64 = "greater_equals_int64" + GreaterEqualsUint64 = "greater_equals_uint64" + GreaterEqualsDouble = "greater_equals_double" + GreaterEqualsString = "greater_equals_string" + GreaterEqualsBytes = "greater_equals_bytes" + GreaterEqualsTimestamp = "greater_equals_timestamp" + GreaterEqualsDuration = "greater_equals_duration" +) + +// Math overloads +const ( + AddInt64 = "add_int64" + AddUint64 = "add_uint64" + AddDouble = "add_double" + AddString = "add_string" + AddBytes = "add_bytes" + AddList = "add_list" + AddTimestampDuration = "add_timestamp_duration" + AddDurationTimestamp = "add_duration_timestamp" + AddDurationDuration = "add_duration_duration" + SubtractInt64 = "subtract_int64" + SubtractUint64 = "subtract_uint64" + SubtractDouble = "subtract_double" + SubtractTimestampTimestamp = "subtract_timestamp_timestamp" + SubtractTimestampDuration = "subtract_timestamp_duration" + SubtractDurationDuration = "subtract_duration_duration" + MultiplyInt64 = "multiply_int64" + MultiplyUint64 = "multiply_uint64" + MultiplyDouble = "multiply_double" + DivideInt64 = "divide_int64" + DivideUint64 = "divide_uint64" + DivideDouble = "divide_double" + ModuloInt64 = "modulo_int64" + ModuloUint64 = "modulo_uint64" + NegateInt64 = "negate_int64" + NegateDouble = "negate_double" +) + +// Index overloads +const ( + IndexList = "index_list" + IndexMap = "index_map" + IndexMessage = "index_message" // TODO: introduce concept of types.Message +) + +// In operators +const ( + DeprecatedIn = "in" + InList = "in_list" + InMap = "in_map" + InMessage = "in_message" // TODO: introduce concept of types.Message +) + +// Size overloads +const ( + Size = "size" + SizeString = "size_string" + SizeBytes = "size_bytes" + SizeList = "size_list" + SizeMap = "size_map" + SizeStringInst = "string_size" + SizeBytesInst = "bytes_size" + SizeListInst = "list_size" + SizeMapInst = "map_size" +) + +// String function names. +const ( + Contains = "contains" + EndsWith = "endsWith" + Matches = "matches" + StartsWith = "startsWith" +) + +// String function overload names. +const ( + ContainsString = "contains_string" + EndsWithString = "ends_with_string" + MatchesString = "matches_string" + StartsWithString = "starts_with_string" +) + +// Time-based functions. +const ( + TimeGetFullYear = "getFullYear" + TimeGetMonth = "getMonth" + TimeGetDayOfYear = "getDayOfYear" + TimeGetDate = "getDate" + TimeGetDayOfMonth = "getDayOfMonth" + TimeGetDayOfWeek = "getDayOfWeek" + TimeGetHours = "getHours" + TimeGetMinutes = "getMinutes" + TimeGetSeconds = "getSeconds" + TimeGetMilliseconds = "getMilliseconds" +) + +// Timestamp overloads for time functions without timezones. +const ( + TimestampToYear = "timestamp_to_year" + TimestampToMonth = "timestamp_to_month" + TimestampToDayOfYear = "timestamp_to_day_of_year" + TimestampToDayOfMonthZeroBased = "timestamp_to_day_of_month" + TimestampToDayOfMonthOneBased = "timestamp_to_day_of_month_1_based" + TimestampToDayOfWeek = "timestamp_to_day_of_week" + TimestampToHours = "timestamp_to_hours" + TimestampToMinutes = "timestamp_to_minutes" + TimestampToSeconds = "timestamp_to_seconds" + TimestampToMilliseconds = "timestamp_to_milliseconds" +) + +// Timestamp overloads for time functions with timezones. +const ( + TimestampToYearWithTz = "timestamp_to_year_with_tz" + TimestampToMonthWithTz = "timestamp_to_month_with_tz" + TimestampToDayOfYearWithTz = "timestamp_to_day_of_year_with_tz" + TimestampToDayOfMonthZeroBasedWithTz = "timestamp_to_day_of_month_with_tz" + TimestampToDayOfMonthOneBasedWithTz = "timestamp_to_day_of_month_1_based_with_tz" + TimestampToDayOfWeekWithTz = "timestamp_to_day_of_week_with_tz" + TimestampToHoursWithTz = "timestamp_to_hours_with_tz" + TimestampToMinutesWithTz = "timestamp_to_minutes_with_tz" + TimestampToSecondsWithTz = "timestamp_to_seconds_tz" + TimestampToMillisecondsWithTz = "timestamp_to_milliseconds_with_tz" +) + +// Duration overloads for time functions. +const ( + DurationToHours = "duration_to_hours" + DurationToMinutes = "duration_to_minutes" + DurationToSeconds = "duration_to_seconds" + DurationToMilliseconds = "duration_to_milliseconds" +) + +// Type conversion methods and overloads +const ( + TypeConvertInt = "int" + TypeConvertUint = "uint" + TypeConvertDouble = "double" + TypeConvertBool = "bool" + TypeConvertString = "string" + TypeConvertBytes = "bytes" + TypeConvertTimestamp = "timestamp" + TypeConvertDuration = "duration" + TypeConvertType = "type" + TypeConvertDyn = "dyn" +) + +// Int conversion functions. +const ( + IntToInt = "int64_to_int64" + UintToInt = "uint64_to_int64" + DoubleToInt = "double_to_int64" + StringToInt = "string_to_int64" + TimestampToInt = "timestamp_to_int64" + DurationToInt = "duration_to_int64" +) + +// Uint conversion functions. +const ( + UintToUint = "uint64_to_uint64" + IntToUint = "int64_to_uint64" + DoubleToUint = "double_to_uint64" + StringToUint = "string_to_uint64" +) + +// Double conversion functions. +const ( + DoubleToDouble = "double_to_double" + IntToDouble = "int64_to_double" + UintToDouble = "uint64_to_double" + StringToDouble = "string_to_double" +) + +// Bool conversion functions. +const ( + BoolToBool = "bool_to_bool" + StringToBool = "string_to_bool" +) + +// Bytes conversion functions. +const ( + BytesToBytes = "bytes_to_bytes" + StringToBytes = "string_to_bytes" +) + +// String conversion functions. +const ( + StringToString = "string_to_string" + BoolToString = "bool_to_string" + IntToString = "int64_to_string" + UintToString = "uint64_to_string" + DoubleToString = "double_to_string" + BytesToString = "bytes_to_string" + TimestampToString = "timestamp_to_string" + DurationToString = "duration_to_string" +) + +// Timestamp conversion functions +const ( + TimestampToTimestamp = "timestamp_to_timestamp" + StringToTimestamp = "string_to_timestamp" + IntToTimestamp = "int64_to_timestamp" +) + +// Convert duration from string +const ( + DurationToDuration = "duration_to_duration" + StringToDuration = "string_to_duration" + IntToDuration = "int64_to_duration" +) + +// Convert to dyn +const ( + ToDyn = "to_dyn" +) + +// Comprehensions helper methods, not directly accessible via a developer. +const ( + Iterator = "@iterator" + HasNext = "@hasNext" + Next = "@next" +) + +// IsTypeConversionFunction returns whether the input function is a standard library type +// conversion function. +func IsTypeConversionFunction(function string) bool { + switch function { + case TypeConvertBool, + TypeConvertBytes, + TypeConvertDouble, + TypeConvertDuration, + TypeConvertDyn, + TypeConvertInt, + TypeConvertString, + TypeConvertTimestamp, + TypeConvertType, + TypeConvertUint: + return true + default: + return false + } +} diff --git a/vendor/github.com/google/cel-go/common/runes/BUILD.bazel b/vendor/github.com/google/cel-go/common/runes/BUILD.bazel new file mode 100644 index 000000000..bb30242cf --- /dev/null +++ b/vendor/github.com/google/cel-go/common/runes/BUILD.bazel @@ -0,0 +1,25 @@ +load("@io_bazel_rules_go//go:def.bzl", "go_library", "go_test") + +package( + default_visibility = ["//visibility:public"], + licenses = ["notice"], # Apache 2.0 +) + +go_library( + name = "go_default_library", + srcs = [ + "buffer.go", + ], + importpath = "github.com/google/cel-go/common/runes", +) + +go_test( + name = "go_default_test", + size = "small", + srcs = [ + "buffer_test.go", + ], + embed = [ + ":go_default_library", + ], +) diff --git a/vendor/github.com/google/cel-go/common/runes/buffer.go b/vendor/github.com/google/cel-go/common/runes/buffer.go new file mode 100644 index 000000000..50aac0b27 --- /dev/null +++ b/vendor/github.com/google/cel-go/common/runes/buffer.go @@ -0,0 +1,194 @@ +// Copyright 2021 Google LLC +// +// Licensed under the Apache License, Version 2.0 (the "License"); +// you may not use this file except in compliance with the License. +// You may obtain a copy of the License at +// +// http://www.apache.org/licenses/LICENSE-2.0 +// +// Unless required by applicable law or agreed to in writing, software +// distributed under the License is distributed on an "AS IS" BASIS, +// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. +// See the License for the specific language governing permissions and +// limitations under the License. + +// Package runes provides interfaces and utilities for working with runes. +package runes + +import ( + "strings" + "unicode/utf8" +) + +// Buffer is an interface for accessing a contiguous array of code points. +type Buffer interface { + Get(i int) rune + Slice(i, j int) string + Len() int +} + +type emptyBuffer struct{} + +func (e *emptyBuffer) Get(i int) rune { + panic("slice index out of bounds") +} + +func (e *emptyBuffer) Slice(i, j int) string { + if i != 0 || i != j { + panic("slice index out of bounds") + } + return "" +} + +func (e *emptyBuffer) Len() int { + return 0 +} + +var _ Buffer = &emptyBuffer{} + +// asciiBuffer is an implementation for an array of code points that contain code points only from +// the ASCII character set. +type asciiBuffer struct { + arr []byte +} + +func (a *asciiBuffer) Get(i int) rune { + return rune(uint32(a.arr[i])) +} + +func (a *asciiBuffer) Slice(i, j int) string { + return string(a.arr[i:j]) +} + +func (a *asciiBuffer) Len() int { + return len(a.arr) +} + +var _ Buffer = &asciiBuffer{} + +// basicBuffer is an implementation for an array of code points that contain code points from both +// the Latin-1 character set and Basic Multilingual Plane. +type basicBuffer struct { + arr []uint16 +} + +func (b *basicBuffer) Get(i int) rune { + return rune(uint32(b.arr[i])) +} + +func (b *basicBuffer) Slice(i, j int) string { + var str strings.Builder + str.Grow((j - i) * 3) // Worst case encoding size for 0xffff is 3. + for ; i < j; i++ { + str.WriteRune(rune(uint32(b.arr[i]))) + } + return str.String() +} + +func (b *basicBuffer) Len() int { + return len(b.arr) +} + +var _ Buffer = &basicBuffer{} + +// supplementalBuffer is an implementation for an array of code points that contain code points from +// the Latin-1 character set, Basic Multilingual Plane, or the Supplemental Multilingual Plane. +type supplementalBuffer struct { + arr []rune +} + +func (s *supplementalBuffer) Get(i int) rune { + return rune(uint32(s.arr[i])) +} + +func (s *supplementalBuffer) Slice(i, j int) string { + return string(s.arr[i:j]) +} + +func (s *supplementalBuffer) Len() int { + return len(s.arr) +} + +var _ Buffer = &supplementalBuffer{} + +var nilBuffer = &emptyBuffer{} + +// NewBuffer returns an efficient implementation of Buffer for the given text based on the ranges of +// the encoded code points contained within. +// +// Code points are represented as an array of byte, uint16, or rune. This approach ensures that +// each index represents a code point by itself without needing to use an array of rune. At first +// we assume all code points are less than or equal to '\u007f'. If this holds true, the +// underlying storage is a byte array containing only ASCII characters. If we encountered a code +// point above this range but less than or equal to '\uffff' we allocate a uint16 array, copy the +// elements of previous byte array to the uint16 array, and continue. If this holds true, the +// underlying storage is a uint16 array containing only Unicode characters in the Basic Multilingual +// Plane. If we encounter a code point above '\uffff' we allocate an rune array, copy the previous +// elements of the byte or uint16 array, and continue. The underlying storage is an rune array +// containing any Unicode character. +func NewBuffer(data string) Buffer { + if len(data) == 0 { + return nilBuffer + } + var ( + idx = 0 + buf8 = make([]byte, 0, len(data)) + buf16 []uint16 + buf32 []rune + ) + for idx < len(data) { + r, s := utf8.DecodeRuneInString(data[idx:]) + idx += s + if r < utf8.RuneSelf { + buf8 = append(buf8, byte(r)) + continue + } + if r <= 0xffff { + buf16 = make([]uint16, len(buf8), len(data)) + for i, v := range buf8 { + buf16[i] = uint16(v) + } + buf8 = nil + buf16 = append(buf16, uint16(r)) + goto copy16 + } + buf32 = make([]rune, len(buf8), len(data)) + for i, v := range buf8 { + buf32[i] = rune(uint32(v)) + } + buf8 = nil + buf32 = append(buf32, r) + goto copy32 + } + return &asciiBuffer{ + arr: buf8, + } +copy16: + for idx < len(data) { + r, s := utf8.DecodeRuneInString(data[idx:]) + idx += s + if r <= 0xffff { + buf16 = append(buf16, uint16(r)) + continue + } + buf32 = make([]rune, len(buf16), len(data)) + for i, v := range buf16 { + buf32[i] = rune(uint32(v)) + } + buf16 = nil + buf32 = append(buf32, r) + goto copy32 + } + return &basicBuffer{ + arr: buf16, + } +copy32: + for idx < len(data) { + r, s := utf8.DecodeRuneInString(data[idx:]) + idx += s + buf32 = append(buf32, r) + } + return &supplementalBuffer{ + arr: buf32, + } +} diff --git a/vendor/github.com/google/cel-go/common/source.go b/vendor/github.com/google/cel-go/common/source.go new file mode 100644 index 000000000..52377d930 --- /dev/null +++ b/vendor/github.com/google/cel-go/common/source.go @@ -0,0 +1,186 @@ +// Copyright 2018 Google LLC +// +// Licensed under the Apache License, Version 2.0 (the "License"); +// you may not use this file except in compliance with the License. +// You may obtain a copy of the License at +// +// http://www.apache.org/licenses/LICENSE-2.0 +// +// Unless required by applicable law or agreed to in writing, software +// distributed under the License is distributed on an "AS IS" BASIS, +// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. +// See the License for the specific language governing permissions and +// limitations under the License. + +package common + +import ( + "strings" + "unicode/utf8" + + "github.com/google/cel-go/common/runes" + + exprpb "google.golang.org/genproto/googleapis/api/expr/v1alpha1" +) + +// Source interface for filter source contents. +type Source interface { + // Content returns the source content represented as a string. + // Examples contents are the single file contents, textbox field, + // or url parameter. + Content() string + + // Description gives a brief description of the source. + // Example descriptions are a file name or ui element. + Description() string + + // LineOffsets gives the character offsets at which lines occur. + // The zero-th entry should refer to the break between the first + // and second line, or EOF if there is only one line of source. + LineOffsets() []int32 + + // LocationOffset translates a Location to an offset. + // Given the line and column of the Location returns the + // Location's character offset in the Source, and a bool + // indicating whether the Location was found. + LocationOffset(location Location) (int32, bool) + + // OffsetLocation translates a character offset to a Location, or + // false if the conversion was not feasible. + OffsetLocation(offset int32) (Location, bool) + + // NewLocation takes an input line and column and produces a Location. + // The default behavior is to treat the line and column as absolute, + // but concrete derivations may use this method to convert a relative + // line and column position into an absolute location. + NewLocation(line, col int) Location + + // Snippet returns a line of content and whether the line was found. + Snippet(line int) (string, bool) +} + +// The sourceImpl type implementation of the Source interface. +type sourceImpl struct { + runes.Buffer + description string + lineOffsets []int32 + idOffsets map[int64]int32 +} + +var _ runes.Buffer = &sourceImpl{} + +// TODO(jimlarson) "Character offsets" should index the code points +// within the UTF-8 encoded string. It currently indexes bytes. +// Can be accomplished by using rune[] instead of string for contents. + +// NewTextSource creates a new Source from the input text string. +func NewTextSource(text string) Source { + return NewStringSource(text, "") +} + +// NewStringSource creates a new Source from the given contents and description. +func NewStringSource(contents string, description string) Source { + // Compute line offsets up front as they are referred to frequently. + lines := strings.Split(contents, "\n") + offsets := make([]int32, len(lines)) + var offset int32 + for i, line := range lines { + offset = offset + int32(utf8.RuneCountInString(line)) + 1 + offsets[int32(i)] = offset + } + return &sourceImpl{ + Buffer: runes.NewBuffer(contents), + description: description, + lineOffsets: offsets, + idOffsets: map[int64]int32{}, + } +} + +// NewInfoSource creates a new Source from a SourceInfo. +func NewInfoSource(info *exprpb.SourceInfo) Source { + return &sourceImpl{ + Buffer: runes.NewBuffer(""), + description: info.GetLocation(), + lineOffsets: info.GetLineOffsets(), + idOffsets: info.GetPositions(), + } +} + +// Content implements the Source interface method. +func (s *sourceImpl) Content() string { + return s.Slice(0, s.Len()) +} + +// Description implements the Source interface method. +func (s *sourceImpl) Description() string { + return s.description +} + +// LineOffsets implements the Source interface method. +func (s *sourceImpl) LineOffsets() []int32 { + return s.lineOffsets +} + +// LocationOffset implements the Source interface method. +func (s *sourceImpl) LocationOffset(location Location) (int32, bool) { + if lineOffset, found := s.findLineOffset(location.Line()); found { + return lineOffset + int32(location.Column()), true + } + return -1, false +} + +// NewLocation implements the Source interface method. +func (s *sourceImpl) NewLocation(line, col int) Location { + return NewLocation(line, col) +} + +// OffsetLocation implements the Source interface method. +func (s *sourceImpl) OffsetLocation(offset int32) (Location, bool) { + line, lineOffset := s.findLine(offset) + return NewLocation(int(line), int(offset-lineOffset)), true +} + +// Snippet implements the Source interface method. +func (s *sourceImpl) Snippet(line int) (string, bool) { + charStart, found := s.findLineOffset(line) + if !found || s.Len() == 0 { + return "", false + } + charEnd, found := s.findLineOffset(line + 1) + if found { + return s.Slice(int(charStart), int(charEnd-1)), true + } + return s.Slice(int(charStart), s.Len()), true +} + +// findLineOffset returns the offset where the (1-indexed) line begins, +// or false if line doesn't exist. +func (s *sourceImpl) findLineOffset(line int) (int32, bool) { + if line == 1 { + return 0, true + } + if line > 1 && line <= int(len(s.lineOffsets)) { + offset := s.lineOffsets[line-2] + return offset, true + } + return -1, false +} + +// findLine finds the line that contains the given character offset and +// returns the line number and offset of the beginning of that line. +// Note that the last line is treated as if it contains all offsets +// beyond the end of the actual source. +func (s *sourceImpl) findLine(characterOffset int32) (int32, int32) { + var line int32 = 1 + for _, lineOffset := range s.lineOffsets { + if lineOffset > characterOffset { + break + } else { + line++ + } + } + if line == 1 { + return line, 0 + } + return line, s.lineOffsets[line-2] +} diff --git a/vendor/github.com/google/cel-go/common/types/BUILD.bazel b/vendor/github.com/google/cel-go/common/types/BUILD.bazel new file mode 100644 index 000000000..32789f54a --- /dev/null +++ b/vendor/github.com/google/cel-go/common/types/BUILD.bazel @@ -0,0 +1,84 @@ +load("@io_bazel_rules_go//go:def.bzl", "go_library", "go_test") + +package( + default_visibility = ["//visibility:public"], + licenses = ["notice"], # Apache 2.0 +) + +go_library( + name = "go_default_library", + srcs = [ + "any_value.go", + "bool.go", + "bytes.go", + "double.go", + "duration.go", + "err.go", + "int.go", + "iterator.go", + "json_value.go", + "list.go", + "map.go", + "null.go", + "object.go", + "overflow.go", + "provider.go", + "string.go", + "timestamp.go", + "type.go", + "uint.go", + "unknown.go", + "util.go", + ], + importpath = "github.com/google/cel-go/common/types", + deps = [ + "//common/overloads:go_default_library", + "//common/types/pb:go_default_library", + "//common/types/ref:go_default_library", + "//common/types/traits:go_default_library", + "@com_github_stoewer_go_strcase//:go_default_library", + "@org_golang_google_genproto//googleapis/api/expr/v1alpha1:go_default_library", + "@org_golang_google_protobuf//encoding/protojson:go_default_library", + "@org_golang_google_protobuf//proto:go_default_library", + "@org_golang_google_protobuf//reflect/protoreflect:go_default_library", + "@org_golang_google_protobuf//types/known/anypb:go_default_library", + "@org_golang_google_protobuf//types/known/durationpb:go_default_library", + "@org_golang_google_protobuf//types/known/structpb:go_default_library", + "@org_golang_google_protobuf//types/known/timestamppb:go_default_library", + "@org_golang_google_protobuf//types/known/wrapperspb:go_default_library", + ], +) + +go_test( + name = "go_default_test", + size = "small", + srcs = [ + "bool_test.go", + "bytes_test.go", + "double_test.go", + "duration_test.go", + "int_test.go", + "json_list_test.go", + "json_struct_test.go", + "list_test.go", + "map_test.go", + "null_test.go", + "object_test.go", + "provider_test.go", + "string_test.go", + "timestamp_test.go", + "type_test.go", + "uint_test.go", + ], + embed = [":go_default_library"], + deps = [ + "//common/types/ref:go_default_library", + "//test:go_default_library", + "//test/proto3pb:test_all_types_go_proto", + "@org_golang_google_genproto//googleapis/api/expr/v1alpha1:go_default_library", + "@org_golang_google_protobuf//encoding/protojson:go_default_library", + "@org_golang_google_protobuf//types/known/anypb:go_default_library", + "@org_golang_google_protobuf//types/known/durationpb:go_default_library", + "@org_golang_google_protobuf//types/known/timestamppb:go_default_library", + ], +) diff --git a/vendor/github.com/google/cel-go/common/types/any_value.go b/vendor/github.com/google/cel-go/common/types/any_value.go new file mode 100644 index 000000000..cda0f13ac --- /dev/null +++ b/vendor/github.com/google/cel-go/common/types/any_value.go @@ -0,0 +1,24 @@ +// Copyright 2018 Google LLC +// +// Licensed under the Apache License, Version 2.0 (the "License"); +// you may not use this file except in compliance with the License. +// You may obtain a copy of the License at +// +// http://www.apache.org/licenses/LICENSE-2.0 +// +// Unless required by applicable law or agreed to in writing, software +// distributed under the License is distributed on an "AS IS" BASIS, +// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. +// See the License for the specific language governing permissions and +// limitations under the License. + +package types + +import ( + "reflect" + + anypb "google.golang.org/protobuf/types/known/anypb" +) + +// anyValueType constant representing the reflected type of google.protobuf.Any. +var anyValueType = reflect.TypeOf(&anypb.Any{}) diff --git a/vendor/github.com/google/cel-go/common/types/bool.go b/vendor/github.com/google/cel-go/common/types/bool.go new file mode 100644 index 000000000..34c557b14 --- /dev/null +++ b/vendor/github.com/google/cel-go/common/types/bool.go @@ -0,0 +1,144 @@ +// Copyright 2018 Google LLC +// +// Licensed under the Apache License, Version 2.0 (the "License"); +// you may not use this file except in compliance with the License. +// You may obtain a copy of the License at +// +// http://www.apache.org/licenses/LICENSE-2.0 +// +// Unless required by applicable law or agreed to in writing, software +// distributed under the License is distributed on an "AS IS" BASIS, +// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. +// See the License for the specific language governing permissions and +// limitations under the License. + +package types + +import ( + "fmt" + "reflect" + "strconv" + + "github.com/google/cel-go/common/types/ref" + "github.com/google/cel-go/common/types/traits" + + anypb "google.golang.org/protobuf/types/known/anypb" + structpb "google.golang.org/protobuf/types/known/structpb" + wrapperspb "google.golang.org/protobuf/types/known/wrapperspb" +) + +// Bool type that implements ref.Val and supports comparison and negation. +type Bool bool + +var ( + // BoolType singleton. + BoolType = NewTypeValue("bool", + traits.ComparerType, + traits.NegatorType) + + // boolWrapperType golang reflected type for protobuf bool wrapper type. + boolWrapperType = reflect.TypeOf(&wrapperspb.BoolValue{}) +) + +// Boolean constants +const ( + False = Bool(false) + True = Bool(true) +) + +// Compare implements the traits.Comparer interface method. +func (b Bool) Compare(other ref.Val) ref.Val { + otherBool, ok := other.(Bool) + if !ok { + return ValOrErr(other, "no such overload") + } + if b == otherBool { + return IntZero + } + if !b && otherBool { + return IntNegOne + } + return IntOne +} + +// ConvertToNative implements the ref.Val interface method. +func (b Bool) ConvertToNative(typeDesc reflect.Type) (interface{}, error) { + switch typeDesc.Kind() { + case reflect.Bool: + return reflect.ValueOf(b).Convert(typeDesc).Interface(), nil + case reflect.Ptr: + switch typeDesc { + case anyValueType: + // Primitives must be wrapped to a wrapperspb.BoolValue before being packed into an Any. + return anypb.New(wrapperspb.Bool(bool(b))) + case boolWrapperType: + // Convert the bool to a wrapperspb.BoolValue. + return wrapperspb.Bool(bool(b)), nil + case jsonValueType: + // Return the bool as a new structpb.Value. + return structpb.NewBoolValue(bool(b)), nil + default: + if typeDesc.Elem().Kind() == reflect.Bool { + p := bool(b) + return &p, nil + } + } + case reflect.Interface: + bv := b.Value() + if reflect.TypeOf(bv).Implements(typeDesc) { + return bv, nil + } + if reflect.TypeOf(b).Implements(typeDesc) { + return b, nil + } + } + return nil, fmt.Errorf("type conversion error from bool to '%v'", typeDesc) +} + +// ConvertToType implements the ref.Val interface method. +func (b Bool) ConvertToType(typeVal ref.Type) ref.Val { + switch typeVal { + case StringType: + return String(strconv.FormatBool(bool(b))) + case BoolType: + return b + case TypeType: + return BoolType + } + return NewErr("type conversion error from '%v' to '%v'", BoolType, typeVal) +} + +// Equal implements the ref.Val interface method. +func (b Bool) Equal(other ref.Val) ref.Val { + otherBool, ok := other.(Bool) + if !ok { + return ValOrErr(other, "no such overload") + } + return Bool(b == otherBool) +} + +// Negate implements the traits.Negater interface method. +func (b Bool) Negate() ref.Val { + return !b +} + +// Type implements the ref.Val interface method. +func (b Bool) Type() ref.Type { + return BoolType +} + +// Value implements the ref.Val interface method. +func (b Bool) Value() interface{} { + return bool(b) +} + +// IsBool returns whether the input ref.Val or ref.Type is equal to BoolType. +func IsBool(elem interface{}) bool { + switch elem := elem.(type) { + case ref.Type: + return elem == BoolType + case ref.Val: + return IsBool(elem.Type()) + } + return false +} diff --git a/vendor/github.com/google/cel-go/common/types/bytes.go b/vendor/github.com/google/cel-go/common/types/bytes.go new file mode 100644 index 000000000..5ef367f02 --- /dev/null +++ b/vendor/github.com/google/cel-go/common/types/bytes.go @@ -0,0 +1,135 @@ +// Copyright 2018 Google LLC +// +// Licensed under the Apache License, Version 2.0 (the "License"); +// you may not use this file except in compliance with the License. +// You may obtain a copy of the License at +// +// http://www.apache.org/licenses/LICENSE-2.0 +// +// Unless required by applicable law or agreed to in writing, software +// distributed under the License is distributed on an "AS IS" BASIS, +// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. +// See the License for the specific language governing permissions and +// limitations under the License. + +package types + +import ( + "bytes" + "encoding/base64" + "fmt" + "reflect" + "unicode/utf8" + + "github.com/google/cel-go/common/types/ref" + "github.com/google/cel-go/common/types/traits" + + anypb "google.golang.org/protobuf/types/known/anypb" + structpb "google.golang.org/protobuf/types/known/structpb" + wrapperspb "google.golang.org/protobuf/types/known/wrapperspb" +) + +// Bytes type that implements ref.Val and supports add, compare, and size +// operations. +type Bytes []byte + +var ( + // BytesType singleton. + BytesType = NewTypeValue("bytes", + traits.AdderType, + traits.ComparerType, + traits.SizerType) + + // byteWrapperType golang reflected type for protobuf bytes wrapper type. + byteWrapperType = reflect.TypeOf(&wrapperspb.BytesValue{}) +) + +// Add implements traits.Adder interface method by concatenating byte sequences. +func (b Bytes) Add(other ref.Val) ref.Val { + otherBytes, ok := other.(Bytes) + if !ok { + return ValOrErr(other, "no such overload") + } + return append(b, otherBytes...) +} + +// Compare implments traits.Comparer interface method by lexicographic ordering. +func (b Bytes) Compare(other ref.Val) ref.Val { + otherBytes, ok := other.(Bytes) + if !ok { + return ValOrErr(other, "no such overload") + } + return Int(bytes.Compare(b, otherBytes)) +} + +// ConvertToNative implements the ref.Val interface method. +func (b Bytes) ConvertToNative(typeDesc reflect.Type) (interface{}, error) { + switch typeDesc.Kind() { + case reflect.Array, reflect.Slice: + return reflect.ValueOf(b).Convert(typeDesc).Interface(), nil + case reflect.Ptr: + switch typeDesc { + case anyValueType: + // Primitives must be wrapped before being set on an Any field. + return anypb.New(wrapperspb.Bytes([]byte(b))) + case byteWrapperType: + // Convert the bytes to a wrapperspb.BytesValue. + return wrapperspb.Bytes([]byte(b)), nil + case jsonValueType: + // CEL follows the proto3 to JSON conversion by encoding bytes to a string via base64. + // The encoding below matches the golang 'encoding/json' behavior during marshaling, + // which uses base64.StdEncoding. + str := base64.StdEncoding.EncodeToString([]byte(b)) + return structpb.NewStringValue(str), nil + } + case reflect.Interface: + bv := b.Value() + if reflect.TypeOf(bv).Implements(typeDesc) { + return bv, nil + } + if reflect.TypeOf(b).Implements(typeDesc) { + return b, nil + } + } + return nil, fmt.Errorf("type conversion error from Bytes to '%v'", typeDesc) +} + +// ConvertToType implements the ref.Val interface method. +func (b Bytes) ConvertToType(typeVal ref.Type) ref.Val { + switch typeVal { + case StringType: + if !utf8.Valid(b) { + return NewErr("invalid UTF-8 in bytes, cannot convert to string") + } + return String(b) + case BytesType: + return b + case TypeType: + return BytesType + } + return NewErr("type conversion error from '%s' to '%s'", BytesType, typeVal) +} + +// Equal implements the ref.Val interface method. +func (b Bytes) Equal(other ref.Val) ref.Val { + otherBytes, ok := other.(Bytes) + if !ok { + return ValOrErr(other, "no such overload") + } + return Bool(bytes.Equal(b, otherBytes)) +} + +// Size implements the traits.Sizer interface method. +func (b Bytes) Size() ref.Val { + return Int(len(b)) +} + +// Type implements the ref.Val interface method. +func (b Bytes) Type() ref.Type { + return BytesType +} + +// Value implements the ref.Val interface method. +func (b Bytes) Value() interface{} { + return []byte(b) +} diff --git a/vendor/github.com/google/cel-go/common/types/doc.go b/vendor/github.com/google/cel-go/common/types/doc.go new file mode 100644 index 000000000..5f641d704 --- /dev/null +++ b/vendor/github.com/google/cel-go/common/types/doc.go @@ -0,0 +1,17 @@ +// Copyright 2018 Google LLC +// +// Licensed under the Apache License, Version 2.0 (the "License"); +// you may not use this file except in compliance with the License. +// You may obtain a copy of the License at +// +// http://www.apache.org/licenses/LICENSE-2.0 +// +// Unless required by applicable law or agreed to in writing, software +// distributed under the License is distributed on an "AS IS" BASIS, +// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. +// See the License for the specific language governing permissions and +// limitations under the License. + +// Package types contains the types, traits, and utilities common to all +// components of expression handling. +package types diff --git a/vendor/github.com/google/cel-go/common/types/double.go b/vendor/github.com/google/cel-go/common/types/double.go new file mode 100644 index 000000000..2a6791376 --- /dev/null +++ b/vendor/github.com/google/cel-go/common/types/double.go @@ -0,0 +1,200 @@ +// Copyright 2018 Google LLC +// +// Licensed under the Apache License, Version 2.0 (the "License"); +// you may not use this file except in compliance with the License. +// You may obtain a copy of the License at +// +// http://www.apache.org/licenses/LICENSE-2.0 +// +// Unless required by applicable law or agreed to in writing, software +// distributed under the License is distributed on an "AS IS" BASIS, +// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. +// See the License for the specific language governing permissions and +// limitations under the License. + +package types + +import ( + "fmt" + "reflect" + + "github.com/google/cel-go/common/types/ref" + "github.com/google/cel-go/common/types/traits" + + anypb "google.golang.org/protobuf/types/known/anypb" + structpb "google.golang.org/protobuf/types/known/structpb" + wrapperspb "google.golang.org/protobuf/types/known/wrapperspb" +) + +// Double type that implements ref.Val, comparison, and mathematical +// operations. +type Double float64 + +var ( + // DoubleType singleton. + DoubleType = NewTypeValue("double", + traits.AdderType, + traits.ComparerType, + traits.DividerType, + traits.MultiplierType, + traits.NegatorType, + traits.SubtractorType) + + // doubleWrapperType reflected type for protobuf double wrapper type. + doubleWrapperType = reflect.TypeOf(&wrapperspb.DoubleValue{}) + + // floatWrapperType reflected type for protobuf float wrapper type. + floatWrapperType = reflect.TypeOf(&wrapperspb.FloatValue{}) +) + +// Add implements traits.Adder.Add. +func (d Double) Add(other ref.Val) ref.Val { + otherDouble, ok := other.(Double) + if !ok { + return MaybeNoSuchOverloadErr(other) + } + return d + otherDouble +} + +// Compare implements traits.Comparer.Compare. +func (d Double) Compare(other ref.Val) ref.Val { + otherDouble, ok := other.(Double) + if !ok { + return MaybeNoSuchOverloadErr(other) + } + if d < otherDouble { + return IntNegOne + } + if d > otherDouble { + return IntOne + } + return IntZero +} + +// ConvertToNative implements ref.Val.ConvertToNative. +func (d Double) ConvertToNative(typeDesc reflect.Type) (interface{}, error) { + switch typeDesc.Kind() { + case reflect.Float32: + v := float32(d) + return reflect.ValueOf(v).Convert(typeDesc).Interface(), nil + case reflect.Float64: + v := float64(d) + return reflect.ValueOf(v).Convert(typeDesc).Interface(), nil + case reflect.Ptr: + switch typeDesc { + case anyValueType: + // Primitives must be wrapped before being set on an Any field. + return anypb.New(wrapperspb.Double(float64(d))) + case doubleWrapperType: + // Convert to a wrapperspb.DoubleValue + return wrapperspb.Double(float64(d)), nil + case floatWrapperType: + // Convert to a wrapperspb.FloatValue (with truncation). + return wrapperspb.Float(float32(d)), nil + case jsonValueType: + // Note, there are special cases for proto3 to json conversion that + // expect the floating point value to be converted to a NaN, + // Infinity, or -Infinity string values, but the jsonpb string + // marshaling of the protobuf.Value will handle this conversion. + return structpb.NewNumberValue(float64(d)), nil + } + switch typeDesc.Elem().Kind() { + case reflect.Float32: + v := float32(d) + p := reflect.New(typeDesc.Elem()) + p.Elem().Set(reflect.ValueOf(v).Convert(typeDesc.Elem())) + return p.Interface(), nil + case reflect.Float64: + v := float64(d) + p := reflect.New(typeDesc.Elem()) + p.Elem().Set(reflect.ValueOf(v).Convert(typeDesc.Elem())) + return p.Interface(), nil + } + case reflect.Interface: + dv := d.Value() + if reflect.TypeOf(dv).Implements(typeDesc) { + return dv, nil + } + if reflect.TypeOf(d).Implements(typeDesc) { + return d, nil + } + } + return nil, fmt.Errorf("type conversion error from Double to '%v'", typeDesc) +} + +// ConvertToType implements ref.Val.ConvertToType. +func (d Double) ConvertToType(typeVal ref.Type) ref.Val { + switch typeVal { + case IntType: + i, err := doubleToInt64Checked(float64(d)) + if err != nil { + return wrapErr(err) + } + return Int(i) + case UintType: + i, err := doubleToUint64Checked(float64(d)) + if err != nil { + return wrapErr(err) + } + return Uint(i) + case DoubleType: + return d + case StringType: + return String(fmt.Sprintf("%g", float64(d))) + case TypeType: + return DoubleType + } + return NewErr("type conversion error from '%s' to '%s'", DoubleType, typeVal) +} + +// Divide implements traits.Divider.Divide. +func (d Double) Divide(other ref.Val) ref.Val { + otherDouble, ok := other.(Double) + if !ok { + return MaybeNoSuchOverloadErr(other) + } + return d / otherDouble +} + +// Equal implements ref.Val.Equal. +func (d Double) Equal(other ref.Val) ref.Val { + otherDouble, ok := other.(Double) + if !ok { + return MaybeNoSuchOverloadErr(other) + } + // TODO: Handle NaNs properly. + return Bool(d == otherDouble) +} + +// Multiply implements traits.Multiplier.Multiply. +func (d Double) Multiply(other ref.Val) ref.Val { + otherDouble, ok := other.(Double) + if !ok { + return MaybeNoSuchOverloadErr(other) + } + return d * otherDouble +} + +// Negate implements traits.Negater.Negate. +func (d Double) Negate() ref.Val { + return -d +} + +// Subtract implements traits.Subtractor.Subtract. +func (d Double) Subtract(subtrahend ref.Val) ref.Val { + subtraDouble, ok := subtrahend.(Double) + if !ok { + return MaybeNoSuchOverloadErr(subtrahend) + } + return d - subtraDouble +} + +// Type implements ref.Val.Type. +func (d Double) Type() ref.Type { + return DoubleType +} + +// Value implements ref.Val.Value. +func (d Double) Value() interface{} { + return float64(d) +} diff --git a/vendor/github.com/google/cel-go/common/types/duration.go b/vendor/github.com/google/cel-go/common/types/duration.go new file mode 100644 index 000000000..23409b75e --- /dev/null +++ b/vendor/github.com/google/cel-go/common/types/duration.go @@ -0,0 +1,202 @@ +// Copyright 2018 Google LLC +// +// Licensed under the Apache License, Version 2.0 (the "License"); +// you may not use this file except in compliance with the License. +// You may obtain a copy of the License at +// +// http://www.apache.org/licenses/LICENSE-2.0 +// +// Unless required by applicable law or agreed to in writing, software +// distributed under the License is distributed on an "AS IS" BASIS, +// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. +// See the License for the specific language governing permissions and +// limitations under the License. + +package types + +import ( + "fmt" + "reflect" + "strconv" + "time" + + "github.com/google/cel-go/common/overloads" + "github.com/google/cel-go/common/types/ref" + "github.com/google/cel-go/common/types/traits" + + anypb "google.golang.org/protobuf/types/known/anypb" + dpb "google.golang.org/protobuf/types/known/durationpb" + structpb "google.golang.org/protobuf/types/known/structpb" +) + +// Duration type that implements ref.Val and supports add, compare, negate, +// and subtract operators. This type is also a receiver which means it can +// participate in dispatch to receiver functions. +type Duration struct { + time.Duration +} + +func durationOf(d time.Duration) Duration { + return Duration{Duration: d} +} + +var ( + // DurationType singleton. + DurationType = NewTypeValue("google.protobuf.Duration", + traits.AdderType, + traits.ComparerType, + traits.NegatorType, + traits.ReceiverType, + traits.SubtractorType) +) + +// Add implements traits.Adder.Add. +func (d Duration) Add(other ref.Val) ref.Val { + switch other.Type() { + case DurationType: + dur2 := other.(Duration) + val, err := addDurationChecked(d.Duration, dur2.Duration) + if err != nil { + return wrapErr(err) + } + return durationOf(val) + case TimestampType: + ts := other.(Timestamp).Time + val, err := addTimeDurationChecked(ts, d.Duration) + if err != nil { + return wrapErr(err) + } + return timestampOf(val) + } + return MaybeNoSuchOverloadErr(other) +} + +// Compare implements traits.Comparer.Compare. +func (d Duration) Compare(other ref.Val) ref.Val { + otherDur, ok := other.(Duration) + if !ok { + return MaybeNoSuchOverloadErr(other) + } + d1 := d.Duration + d2 := otherDur.Duration + switch { + case d1 < d2: + return IntNegOne + case d1 > d2: + return IntOne + default: + return IntZero + } +} + +// ConvertToNative implements ref.Val.ConvertToNative. +func (d Duration) ConvertToNative(typeDesc reflect.Type) (interface{}, error) { + // If the duration is already assignable to the desired type return it. + if reflect.TypeOf(d.Duration).AssignableTo(typeDesc) { + return d.Duration, nil + } + if reflect.TypeOf(d).AssignableTo(typeDesc) { + return d, nil + } + switch typeDesc { + case anyValueType: + // Pack the duration as a dpb.Duration into an Any value. + return anypb.New(dpb.New(d.Duration)) + case durationValueType: + // Unwrap the CEL value to its underlying proto value. + return dpb.New(d.Duration), nil + case jsonValueType: + // CEL follows the proto3 to JSON conversion. + // Note, using jsonpb would wrap the result in extra double quotes. + v := d.ConvertToType(StringType) + if IsError(v) { + return nil, v.(*Err) + } + return structpb.NewStringValue(string(v.(String))), nil + } + return nil, fmt.Errorf("type conversion error from 'Duration' to '%v'", typeDesc) +} + +// ConvertToType implements ref.Val.ConvertToType. +func (d Duration) ConvertToType(typeVal ref.Type) ref.Val { + switch typeVal { + case StringType: + return String(strconv.FormatFloat(d.Seconds(), 'f', -1, 64) + "s") + case IntType: + return Int(d.Duration) + case DurationType: + return d + case TypeType: + return DurationType + } + return NewErr("type conversion error from '%s' to '%s'", DurationType, typeVal) +} + +// Equal implements ref.Val.Equal. +func (d Duration) Equal(other ref.Val) ref.Val { + otherDur, ok := other.(Duration) + if !ok { + return MaybeNoSuchOverloadErr(other) + } + return Bool(d.Duration == otherDur.Duration) +} + +// Negate implements traits.Negater.Negate. +func (d Duration) Negate() ref.Val { + val, err := negateDurationChecked(d.Duration) + if err != nil { + return wrapErr(err) + } + return durationOf(val) +} + +// Receive implements traits.Receiver.Receive. +func (d Duration) Receive(function string, overload string, args []ref.Val) ref.Val { + if len(args) == 0 { + if f, found := durationZeroArgOverloads[function]; found { + return f(d.Duration) + } + } + return NoSuchOverloadErr() +} + +// Subtract implements traits.Subtractor.Subtract. +func (d Duration) Subtract(subtrahend ref.Val) ref.Val { + subtraDur, ok := subtrahend.(Duration) + if !ok { + return MaybeNoSuchOverloadErr(subtrahend) + } + val, err := subtractDurationChecked(d.Duration, subtraDur.Duration) + if err != nil { + return wrapErr(err) + } + return durationOf(val) +} + +// Type implements ref.Val.Type. +func (d Duration) Type() ref.Type { + return DurationType +} + +// Value implements ref.Val.Value. +func (d Duration) Value() interface{} { + return d.Duration +} + +var ( + durationValueType = reflect.TypeOf(&dpb.Duration{}) + + durationZeroArgOverloads = map[string]func(time.Duration) ref.Val{ + overloads.TimeGetHours: func(dur time.Duration) ref.Val { + return Int(dur.Hours()) + }, + overloads.TimeGetMinutes: func(dur time.Duration) ref.Val { + return Int(dur.Minutes()) + }, + overloads.TimeGetSeconds: func(dur time.Duration) ref.Val { + return Int(dur.Seconds()) + }, + overloads.TimeGetMilliseconds: func(dur time.Duration) ref.Val { + return Int(dur.Milliseconds()) + }} +) diff --git a/vendor/github.com/google/cel-go/common/types/err.go b/vendor/github.com/google/cel-go/common/types/err.go new file mode 100644 index 000000000..1ae247f41 --- /dev/null +++ b/vendor/github.com/google/cel-go/common/types/err.go @@ -0,0 +1,130 @@ +// Copyright 2018 Google LLC +// +// Licensed under the Apache License, Version 2.0 (the "License"); +// you may not use this file except in compliance with the License. +// You may obtain a copy of the License at +// +// http://www.apache.org/licenses/LICENSE-2.0 +// +// Unless required by applicable law or agreed to in writing, software +// distributed under the License is distributed on an "AS IS" BASIS, +// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. +// See the License for the specific language governing permissions and +// limitations under the License. + +package types + +import ( + "errors" + "fmt" + "reflect" + + "github.com/google/cel-go/common/types/ref" +) + +// Err type which extends the built-in go error and implements ref.Val. +type Err struct { + error +} + +var ( + // ErrType singleton. + ErrType = NewTypeValue("error") + + // errDivideByZero is an error indicating a division by zero of an integer value. + errDivideByZero = errors.New("division by zero") + // errModulusByZero is an error indicating a modulus by zero of an integer value. + errModulusByZero = errors.New("modulus by zero") + // errIntOverflow is an error representing integer overflow. + errIntOverflow = errors.New("integer overflow") + // errUintOverflow is an error representing unsigned integer overflow. + errUintOverflow = errors.New("unsigned integer overflow") + // errDurationOverflow is an error representing duration overflow. + errDurationOverflow = errors.New("duration overflow") + // errTimestampOverflow is an error representing timestamp overflow. + errTimestampOverflow = errors.New("timestamp overflow") + celErrTimestampOverflow = &Err{error: errTimestampOverflow} + + // celErrNoSuchOverload indicates that the call arguments did not match a supported method signature. + celErrNoSuchOverload = NewErr("no such overload") +) + +// NewErr creates a new Err described by the format string and args. +// TODO: Audit the use of this function and standardize the error messages and codes. +func NewErr(format string, args ...interface{}) ref.Val { + return &Err{fmt.Errorf(format, args...)} +} + +// NoSuchOverloadErr returns a new types.Err instance with a no such overload message. +func NoSuchOverloadErr() ref.Val { + return celErrNoSuchOverload +} + +// UnsupportedRefValConversionErr returns a types.NewErr instance with a no such conversion +// message that indicates that the native value could not be converted to a CEL ref.Val. +func UnsupportedRefValConversionErr(val interface{}) ref.Val { + return NewErr("unsupported conversion to ref.Val: (%T)%v", val, val) +} + +// MaybeNoSuchOverloadErr returns the error or unknown if the input ref.Val is one of these types, +// else a new no such overload error. +func MaybeNoSuchOverloadErr(val ref.Val) ref.Val { + return ValOrErr(val, "no such overload") +} + +// ValOrErr either returns the existing error or create a new one. +// TODO: Audit the use of this function and standardize the error messages and codes. +func ValOrErr(val ref.Val, format string, args ...interface{}) ref.Val { + if val == nil { + return NewErr(format, args...) + } + switch val.Type() { + case ErrType, UnknownType: + return val + default: + return NewErr(format, args...) + } +} + +// wrapErr wraps an existing Go error value into a CEL Err value. +func wrapErr(err error) ref.Val { + return &Err{error: err} +} + +// ConvertToNative implements ref.Val.ConvertToNative. +func (e *Err) ConvertToNative(typeDesc reflect.Type) (interface{}, error) { + return nil, e.error +} + +// ConvertToType implements ref.Val.ConvertToType. +func (e *Err) ConvertToType(typeVal ref.Type) ref.Val { + // Errors are not convertible to other representations. + return e +} + +// Equal implements ref.Val.Equal. +func (e *Err) Equal(other ref.Val) ref.Val { + // An error cannot be equal to any other value, so it returns itself. + return e +} + +// String implements fmt.Stringer. +func (e *Err) String() string { + return e.error.Error() +} + +// Type implements ref.Val.Type. +func (e *Err) Type() ref.Type { + return ErrType +} + +// Value implements ref.Val.Value. +func (e *Err) Value() interface{} { + return e.error +} + +// IsError returns whether the input element ref.Type or ref.Val is equal to +// the ErrType singleton. +func IsError(val ref.Val) bool { + return val.Type() == ErrType +} diff --git a/vendor/github.com/google/cel-go/common/types/int.go b/vendor/github.com/google/cel-go/common/types/int.go new file mode 100644 index 000000000..1b45c6425 --- /dev/null +++ b/vendor/github.com/google/cel-go/common/types/int.go @@ -0,0 +1,286 @@ +// Copyright 2018 Google LLC +// +// Licensed under the Apache License, Version 2.0 (the "License"); +// you may not use this file except in compliance with the License. +// You may obtain a copy of the License at +// +// http://www.apache.org/licenses/LICENSE-2.0 +// +// Unless required by applicable law or agreed to in writing, software +// distributed under the License is distributed on an "AS IS" BASIS, +// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. +// See the License for the specific language governing permissions and +// limitations under the License. + +package types + +import ( + "fmt" + "reflect" + "strconv" + "time" + + "github.com/google/cel-go/common/types/ref" + "github.com/google/cel-go/common/types/traits" + + anypb "google.golang.org/protobuf/types/known/anypb" + structpb "google.golang.org/protobuf/types/known/structpb" + wrapperspb "google.golang.org/protobuf/types/known/wrapperspb" +) + +// Int type that implements ref.Val as well as comparison and math operators. +type Int int64 + +// Int constants used for comparison results. +const ( + // IntZero is the zero-value for Int + IntZero = Int(0) + IntOne = Int(1) + IntNegOne = Int(-1) +) + +var ( + // IntType singleton. + IntType = NewTypeValue("int", + traits.AdderType, + traits.ComparerType, + traits.DividerType, + traits.ModderType, + traits.MultiplierType, + traits.NegatorType, + traits.SubtractorType) + + // int32WrapperType reflected type for protobuf int32 wrapper type. + int32WrapperType = reflect.TypeOf(&wrapperspb.Int32Value{}) + + // int64WrapperType reflected type for protobuf int64 wrapper type. + int64WrapperType = reflect.TypeOf(&wrapperspb.Int64Value{}) +) + +// Add implements traits.Adder.Add. +func (i Int) Add(other ref.Val) ref.Val { + otherInt, ok := other.(Int) + if !ok { + return MaybeNoSuchOverloadErr(other) + } + val, err := addInt64Checked(int64(i), int64(otherInt)) + if err != nil { + return wrapErr(err) + } + return Int(val) +} + +// Compare implements traits.Comparer.Compare. +func (i Int) Compare(other ref.Val) ref.Val { + otherInt, ok := other.(Int) + if !ok { + return MaybeNoSuchOverloadErr(other) + } + if i < otherInt { + return IntNegOne + } + if i > otherInt { + return IntOne + } + return IntZero +} + +// ConvertToNative implements ref.Val.ConvertToNative. +func (i Int) ConvertToNative(typeDesc reflect.Type) (interface{}, error) { + switch typeDesc.Kind() { + case reflect.Int, reflect.Int32: + // Enums are also mapped as int32 derivations. + // Note, the code doesn't convert to the enum value directly since this is not known, but + // the net effect with respect to proto-assignment is handled correctly by the reflection + // Convert method. + v, err := int64ToInt32Checked(int64(i)) + if err != nil { + return nil, err + } + return reflect.ValueOf(v).Convert(typeDesc).Interface(), nil + case reflect.Int64: + return reflect.ValueOf(i).Convert(typeDesc).Interface(), nil + case reflect.Ptr: + switch typeDesc { + case anyValueType: + // Primitives must be wrapped before being set on an Any field. + return anypb.New(wrapperspb.Int64(int64(i))) + case int32WrapperType: + // Convert the value to a wrapperspb.Int32Value, error on overflow. + v, err := int64ToInt32Checked(int64(i)) + if err != nil { + return nil, err + } + return wrapperspb.Int32(v), nil + case int64WrapperType: + // Convert the value to a wrapperspb.Int64Value. + return wrapperspb.Int64(int64(i)), nil + case jsonValueType: + // The proto-to-JSON conversion rules would convert all 64-bit integer values to JSON + // decimal strings. Because CEL ints might come from the automatic widening of 32-bit + // values in protos, the JSON type is chosen dynamically based on the value. + // + // - Integers -2^53-1 < n < 2^53-1 are encoded as JSON numbers. + // - Integers outside this range are encoded as JSON strings. + // + // The integer to float range represents the largest interval where such a conversion + // can round-trip accurately. Thus, conversions from a 32-bit source can expect a JSON + // number as with protobuf. Those consuming JSON from a 64-bit source must be able to + // handle either a JSON number or a JSON decimal string. To handle these cases safely + // the string values must be explicitly converted to int() within a CEL expression; + // however, it is best to simply stay within the JSON number range when building JSON + // objects in CEL. + if i.isJSONSafe() { + return structpb.NewNumberValue(float64(i)), nil + } + // Proto3 to JSON conversion requires string-formatted int64 values + // since the conversion to floating point would result in truncation. + return structpb.NewStringValue(strconv.FormatInt(int64(i), 10)), nil + } + switch typeDesc.Elem().Kind() { + case reflect.Int32: + // Convert the value to a wrapperspb.Int32Value, error on overflow. + v, err := int64ToInt32Checked(int64(i)) + if err != nil { + return nil, err + } + p := reflect.New(typeDesc.Elem()) + p.Elem().Set(reflect.ValueOf(v).Convert(typeDesc.Elem())) + return p.Interface(), nil + case reflect.Int64: + v := int64(i) + p := reflect.New(typeDesc.Elem()) + p.Elem().Set(reflect.ValueOf(v).Convert(typeDesc.Elem())) + return p.Interface(), nil + } + case reflect.Interface: + iv := i.Value() + if reflect.TypeOf(iv).Implements(typeDesc) { + return iv, nil + } + if reflect.TypeOf(i).Implements(typeDesc) { + return i, nil + } + } + return nil, fmt.Errorf("unsupported type conversion from 'int' to %v", typeDesc) +} + +// ConvertToType implements ref.Val.ConvertToType. +func (i Int) ConvertToType(typeVal ref.Type) ref.Val { + switch typeVal { + case IntType: + return i + case UintType: + u, err := int64ToUint64Checked(int64(i)) + if err != nil { + return wrapErr(err) + } + return Uint(u) + case DoubleType: + return Double(i) + case StringType: + return String(fmt.Sprintf("%d", int64(i))) + case TimestampType: + // The maximum positive value that can be passed to time.Unix is math.MaxInt64 minus the number + // of seconds between year 1 and year 1970. See comments on unixToInternal. + if int64(i) < minUnixTime || int64(i) > maxUnixTime { + return celErrTimestampOverflow + } + return timestampOf(time.Unix(int64(i), 0).UTC()) + case TypeType: + return IntType + } + return NewErr("type conversion error from '%s' to '%s'", IntType, typeVal) +} + +// Divide implements traits.Divider.Divide. +func (i Int) Divide(other ref.Val) ref.Val { + otherInt, ok := other.(Int) + if !ok { + return MaybeNoSuchOverloadErr(other) + } + val, err := divideInt64Checked(int64(i), int64(otherInt)) + if err != nil { + return wrapErr(err) + } + return Int(val) +} + +// Equal implements ref.Val.Equal. +func (i Int) Equal(other ref.Val) ref.Val { + otherInt, ok := other.(Int) + if !ok { + return MaybeNoSuchOverloadErr(other) + } + return Bool(i == otherInt) +} + +// Modulo implements traits.Modder.Modulo. +func (i Int) Modulo(other ref.Val) ref.Val { + otherInt, ok := other.(Int) + if !ok { + return MaybeNoSuchOverloadErr(other) + } + val, err := moduloInt64Checked(int64(i), int64(otherInt)) + if err != nil { + return wrapErr(err) + } + return Int(val) +} + +// Multiply implements traits.Multiplier.Multiply. +func (i Int) Multiply(other ref.Val) ref.Val { + otherInt, ok := other.(Int) + if !ok { + return MaybeNoSuchOverloadErr(other) + } + val, err := multiplyInt64Checked(int64(i), int64(otherInt)) + if err != nil { + return wrapErr(err) + } + return Int(val) +} + +// Negate implements traits.Negater.Negate. +func (i Int) Negate() ref.Val { + val, err := negateInt64Checked(int64(i)) + if err != nil { + return wrapErr(err) + } + return Int(val) +} + +// Subtract implements traits.Subtractor.Subtract. +func (i Int) Subtract(subtrahend ref.Val) ref.Val { + subtraInt, ok := subtrahend.(Int) + if !ok { + return MaybeNoSuchOverloadErr(subtrahend) + } + val, err := subtractInt64Checked(int64(i), int64(subtraInt)) + if err != nil { + return wrapErr(err) + } + return Int(val) +} + +// Type implements ref.Val.Type. +func (i Int) Type() ref.Type { + return IntType +} + +// Value implements ref.Val.Value. +func (i Int) Value() interface{} { + return int64(i) +} + +// isJSONSafe indicates whether the int is safely representable as a floating point value in JSON. +func (i Int) isJSONSafe() bool { + return i >= minIntJSON && i <= maxIntJSON +} + +const ( + // maxIntJSON is defined as the Number.MAX_SAFE_INTEGER value per EcmaScript 6. + maxIntJSON = 1<<53 - 1 + // minIntJSON is defined as the Number.MIN_SAFE_INTEGER value per EcmaScript 6. + minIntJSON = -maxIntJSON +) diff --git a/vendor/github.com/google/cel-go/common/types/iterator.go b/vendor/github.com/google/cel-go/common/types/iterator.go new file mode 100644 index 000000000..490662778 --- /dev/null +++ b/vendor/github.com/google/cel-go/common/types/iterator.go @@ -0,0 +1,55 @@ +// Copyright 2018 Google LLC +// +// Licensed under the Apache License, Version 2.0 (the "License"); +// you may not use this file except in compliance with the License. +// You may obtain a copy of the License at +// +// http://www.apache.org/licenses/LICENSE-2.0 +// +// Unless required by applicable law or agreed to in writing, software +// distributed under the License is distributed on an "AS IS" BASIS, +// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. +// See the License for the specific language governing permissions and +// limitations under the License. + +package types + +import ( + "fmt" + "reflect" + + "github.com/google/cel-go/common/types/ref" + "github.com/google/cel-go/common/types/traits" +) + +var ( + // IteratorType singleton. + IteratorType = NewTypeValue("iterator", traits.IteratorType) +) + +// baseIterator is the basis for list, map, and object iterators. +// +// An iterator in and of itself should not be a valid value for comparison, but must implement the +// `ref.Val` methods in order to be well-supported within instruction arguments processed by the +// interpreter. +type baseIterator struct{} + +func (*baseIterator) ConvertToNative(typeDesc reflect.Type) (interface{}, error) { + return nil, fmt.Errorf("type conversion on iterators not supported") +} + +func (*baseIterator) ConvertToType(typeVal ref.Type) ref.Val { + return NewErr("no such overload") +} + +func (*baseIterator) Equal(other ref.Val) ref.Val { + return NewErr("no such overload") +} + +func (*baseIterator) Type() ref.Type { + return IteratorType +} + +func (*baseIterator) Value() interface{} { + return nil +} diff --git a/vendor/github.com/google/cel-go/common/types/json_value.go b/vendor/github.com/google/cel-go/common/types/json_value.go new file mode 100644 index 000000000..cd63b5194 --- /dev/null +++ b/vendor/github.com/google/cel-go/common/types/json_value.go @@ -0,0 +1,28 @@ +// Copyright 2018 Google LLC +// +// Licensed under the Apache License, Version 2.0 (the "License"); +// you may not use this file except in compliance with the License. +// You may obtain a copy of the License at +// +// http://www.apache.org/licenses/LICENSE-2.0 +// +// Unless required by applicable law or agreed to in writing, software +// distributed under the License is distributed on an "AS IS" BASIS, +// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. +// See the License for the specific language governing permissions and +// limitations under the License. + +package types + +import ( + "reflect" + + structpb "google.golang.org/protobuf/types/known/structpb" +) + +// JSON type constants representing the reflected types of protobuf JSON values. +var ( + jsonValueType = reflect.TypeOf(&structpb.Value{}) + jsonListValueType = reflect.TypeOf(&structpb.ListValue{}) + jsonStructType = reflect.TypeOf(&structpb.Struct{}) +) diff --git a/vendor/github.com/google/cel-go/common/types/list.go b/vendor/github.com/google/cel-go/common/types/list.go new file mode 100644 index 000000000..51c5d21e2 --- /dev/null +++ b/vendor/github.com/google/cel-go/common/types/list.go @@ -0,0 +1,447 @@ +// Copyright 2018 Google LLC +// +// Licensed under the Apache License, Version 2.0 (the "License"); +// you may not use this file except in compliance with the License. +// You may obtain a copy of the License at +// +// http://www.apache.org/licenses/LICENSE-2.0 +// +// Unless required by applicable law or agreed to in writing, software +// distributed under the License is distributed on an "AS IS" BASIS, +// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. +// See the License for the specific language governing permissions and +// limitations under the License. + +package types + +import ( + "fmt" + "reflect" + + "github.com/google/cel-go/common/types/ref" + "github.com/google/cel-go/common/types/traits" + "google.golang.org/protobuf/proto" + "google.golang.org/protobuf/reflect/protoreflect" + + anypb "google.golang.org/protobuf/types/known/anypb" + structpb "google.golang.org/protobuf/types/known/structpb" +) + +var ( + // ListType singleton. + ListType = NewTypeValue("list", + traits.AdderType, + traits.ContainerType, + traits.IndexerType, + traits.IterableType, + traits.SizerType) +) + +// NewDynamicList returns a traits.Lister with heterogenous elements. +// value should be an array of "native" types, i.e. any type that +// NativeToValue() can convert to a ref.Val. +func NewDynamicList(adapter ref.TypeAdapter, value interface{}) traits.Lister { + refValue := reflect.ValueOf(value) + return &baseList{ + TypeAdapter: adapter, + value: value, + size: refValue.Len(), + get: func(i int) interface{} { + return refValue.Index(i).Interface() + }, + } +} + +// NewStringList returns a traits.Lister containing only strings. +func NewStringList(adapter ref.TypeAdapter, elems []string) traits.Lister { + return &baseList{ + TypeAdapter: adapter, + value: elems, + size: len(elems), + get: func(i int) interface{} { return elems[i] }, + } +} + +// NewRefValList returns a traits.Lister with ref.Val elements. +// +// This type specialization is used with list literals within CEL expressions. +func NewRefValList(adapter ref.TypeAdapter, elems []ref.Val) traits.Lister { + return &baseList{ + TypeAdapter: adapter, + value: elems, + size: len(elems), + get: func(i int) interface{} { return elems[i] }, + } +} + +// NewProtoList returns a traits.Lister based on a pb.List instance. +func NewProtoList(adapter ref.TypeAdapter, list protoreflect.List) traits.Lister { + return &baseList{ + TypeAdapter: adapter, + value: list, + size: list.Len(), + get: func(i int) interface{} { return list.Get(i).Interface() }, + } +} + +// NewJSONList returns a traits.Lister based on structpb.ListValue instance. +func NewJSONList(adapter ref.TypeAdapter, l *structpb.ListValue) traits.Lister { + vals := l.GetValues() + return &baseList{ + TypeAdapter: adapter, + value: l, + size: len(vals), + get: func(i int) interface{} { return vals[i] }, + } +} + +// baseList points to a list containing elements of any type. +// The `value` is an array of native values, and refValue is its reflection object. +// The `ref.TypeAdapter` enables native type to CEL type conversions. +type baseList struct { + ref.TypeAdapter + value interface{} + + // size indicates the number of elements within the list. + // Since objects are immutable the size of a list is static. + size int + + // get returns a value at the specified integer index. + // The index is guaranteed to be checked against the list index range. + get func(int) interface{} +} + +// Add implements the traits.Adder interface method. +func (l *baseList) Add(other ref.Val) ref.Val { + otherList, ok := other.(traits.Lister) + if !ok { + return MaybeNoSuchOverloadErr(other) + } + if l.Size() == IntZero { + return other + } + if otherList.Size() == IntZero { + return l + } + return &concatList{ + TypeAdapter: l.TypeAdapter, + prevList: l, + nextList: otherList} +} + +// Contains implements the traits.Container interface method. +func (l *baseList) Contains(elem ref.Val) ref.Val { + if IsUnknownOrError(elem) { + return elem + } + var err ref.Val + for i := 0; i < l.size; i++ { + val := l.NativeToValue(l.get(i)) + cmp := elem.Equal(val) + b, ok := cmp.(Bool) + // When there is an error on the contain check, this is not necessarily terminal. + // The contains call could find the element and return True, just as though the user + // had written a per-element comparison in an exists() macro or logical ||, e.g. + // list.exists(e, e == elem) + if !ok && err == nil { + err = ValOrErr(cmp, "no such overload") + } + if b == True { + return True + } + } + if err != nil { + return err + } + return False +} + +// ConvertToNative implements the ref.Val interface method. +func (l *baseList) ConvertToNative(typeDesc reflect.Type) (interface{}, error) { + // If the underlying list value is assignable to the reflected type return it. + if reflect.TypeOf(l.value).AssignableTo(typeDesc) { + return l.value, nil + } + // If the list wrapper is assignable to the desired type return it. + if reflect.TypeOf(l).AssignableTo(typeDesc) { + return l, nil + } + // Attempt to convert the list to a set of well known protobuf types. + switch typeDesc { + case anyValueType: + json, err := l.ConvertToNative(jsonListValueType) + if err != nil { + return nil, err + } + return anypb.New(json.(proto.Message)) + case jsonValueType, jsonListValueType: + jsonValues, err := + l.ConvertToNative(reflect.TypeOf([]*structpb.Value{})) + if err != nil { + return nil, err + } + jsonList := &structpb.ListValue{Values: jsonValues.([]*structpb.Value)} + if typeDesc == jsonListValueType { + return jsonList, nil + } + return structpb.NewListValue(jsonList), nil + } + // Non-list conversion. + if typeDesc.Kind() != reflect.Slice && typeDesc.Kind() != reflect.Array { + return nil, fmt.Errorf("type conversion error from list to '%v'", typeDesc) + } + + // List conversion. + // Allow the element ConvertToNative() function to determine whether conversion is possible. + otherElemType := typeDesc.Elem() + elemCount := l.size + nativeList := reflect.MakeSlice(typeDesc, elemCount, elemCount) + for i := 0; i < elemCount; i++ { + elem := l.NativeToValue(l.get(i)) + nativeElemVal, err := elem.ConvertToNative(otherElemType) + if err != nil { + return nil, err + } + nativeList.Index(i).Set(reflect.ValueOf(nativeElemVal)) + } + return nativeList.Interface(), nil +} + +// ConvertToType implements the ref.Val interface method. +func (l *baseList) ConvertToType(typeVal ref.Type) ref.Val { + switch typeVal { + case ListType: + return l + case TypeType: + return ListType + } + return NewErr("type conversion error from '%s' to '%s'", ListType, typeVal) +} + +// Equal implements the ref.Val interface method. +func (l *baseList) Equal(other ref.Val) ref.Val { + otherList, ok := other.(traits.Lister) + if !ok { + return MaybeNoSuchOverloadErr(other) + } + if l.Size() != otherList.Size() { + return False + } + var maybeErr ref.Val + for i := IntZero; i < l.Size().(Int); i++ { + thisElem := l.Get(i) + otherElem := otherList.Get(i) + elemEq := thisElem.Equal(otherElem) + if elemEq == False { + return False + } + if maybeErr == nil && IsUnknownOrError(elemEq) { + maybeErr = elemEq + } + } + if maybeErr != nil { + return maybeErr + } + return True +} + +// Get implements the traits.Indexer interface method. +func (l *baseList) Get(index ref.Val) ref.Val { + i, ok := index.(Int) + if !ok { + return ValOrErr(index, "unsupported index type '%s' in list", index.Type()) + } + iv := int(i) + if iv < 0 || iv >= l.size { + return NewErr("index '%d' out of range in list size '%d'", i, l.Size()) + } + elem := l.get(iv) + return l.NativeToValue(elem) +} + +// Iterator implements the traits.Iterable interface method. +func (l *baseList) Iterator() traits.Iterator { + return newListIterator(l) +} + +// Size implements the traits.Sizer interface method. +func (l *baseList) Size() ref.Val { + return Int(l.size) +} + +// Type implements the ref.Val interface method. +func (l *baseList) Type() ref.Type { + return ListType +} + +// Value implements the ref.Val interface method. +func (l *baseList) Value() interface{} { + return l.value +} + +// concatList combines two list implementations together into a view. +// The `ref.TypeAdapter` enables native type to CEL type conversions. +type concatList struct { + ref.TypeAdapter + value interface{} + prevList traits.Lister + nextList traits.Lister +} + +// Add implements the traits.Adder interface method. +func (l *concatList) Add(other ref.Val) ref.Val { + otherList, ok := other.(traits.Lister) + if !ok { + return MaybeNoSuchOverloadErr(other) + } + if l.Size() == IntZero { + return other + } + if otherList.Size() == IntZero { + return l + } + return &concatList{ + TypeAdapter: l.TypeAdapter, + prevList: l, + nextList: otherList} +} + +// Contains implments the traits.Container interface method. +func (l *concatList) Contains(elem ref.Val) ref.Val { + // The concat list relies on the IsErrorOrUnknown checks against the input element to be + // performed by the `prevList` and/or `nextList`. + prev := l.prevList.Contains(elem) + // Short-circuit the return if the elem was found in the prev list. + if prev == True { + return prev + } + // Return if the elem was found in the next list. + next := l.nextList.Contains(elem) + if next == True { + return next + } + // Handle the case where an error or unknown was encountered before checking next. + if IsUnknownOrError(prev) { + return prev + } + // Otherwise, rely on the next value as the representative result. + return next +} + +// ConvertToNative implements the ref.Val interface method. +func (l *concatList) ConvertToNative(typeDesc reflect.Type) (interface{}, error) { + combined := NewDynamicList(l.TypeAdapter, l.Value().([]interface{})) + return combined.ConvertToNative(typeDesc) +} + +// ConvertToType implements the ref.Val interface method. +func (l *concatList) ConvertToType(typeVal ref.Type) ref.Val { + switch typeVal { + case ListType: + return l + case TypeType: + return ListType + } + return NewErr("type conversion error from '%s' to '%s'", ListType, typeVal) +} + +// Equal implements the ref.Val interface method. +func (l *concatList) Equal(other ref.Val) ref.Val { + otherList, ok := other.(traits.Lister) + if !ok { + return MaybeNoSuchOverloadErr(other) + } + if l.Size() != otherList.Size() { + return False + } + var maybeErr ref.Val + for i := IntZero; i < l.Size().(Int); i++ { + thisElem := l.Get(i) + otherElem := otherList.Get(i) + elemEq := thisElem.Equal(otherElem) + if elemEq == False { + return False + } + if maybeErr == nil && IsUnknownOrError(elemEq) { + maybeErr = elemEq + } + } + if maybeErr != nil { + return maybeErr + } + return True +} + +// Get implements the traits.Indexer interface method. +func (l *concatList) Get(index ref.Val) ref.Val { + i, ok := index.(Int) + if !ok { + return MaybeNoSuchOverloadErr(index) + } + if i < l.prevList.Size().(Int) { + return l.prevList.Get(i) + } + offset := i - l.prevList.Size().(Int) + return l.nextList.Get(offset) +} + +// Iterator implements the traits.Iterable interface method. +func (l *concatList) Iterator() traits.Iterator { + return newListIterator(l) +} + +// Size implements the traits.Sizer interface method. +func (l *concatList) Size() ref.Val { + return l.prevList.Size().(Int).Add(l.nextList.Size()) +} + +// Type implements the ref.Val interface method. +func (l *concatList) Type() ref.Type { + return ListType +} + +// Value implements the ref.Val interface method. +func (l *concatList) Value() interface{} { + if l.value == nil { + merged := make([]interface{}, l.Size().(Int)) + prevLen := l.prevList.Size().(Int) + for i := Int(0); i < prevLen; i++ { + merged[i] = l.prevList.Get(i).Value() + } + nextLen := l.nextList.Size().(Int) + for j := Int(0); j < nextLen; j++ { + merged[prevLen+j] = l.nextList.Get(j).Value() + } + l.value = merged + } + return l.value +} + +func newListIterator(listValue traits.Lister) traits.Iterator { + return &listIterator{ + listValue: listValue, + len: listValue.Size().(Int), + } +} + +type listIterator struct { + *baseIterator + listValue traits.Lister + cursor Int + len Int +} + +// HasNext implements the traits.Iterator interface method. +func (it *listIterator) HasNext() ref.Val { + return Bool(it.cursor < it.len) +} + +// Next implements the traits.Iterator interface method. +func (it *listIterator) Next() ref.Val { + if it.HasNext() == True { + index := it.cursor + it.cursor++ + return it.listValue.Get(index) + } + return nil +} diff --git a/vendor/github.com/google/cel-go/common/types/map.go b/vendor/github.com/google/cel-go/common/types/map.go new file mode 100644 index 000000000..2b1453d90 --- /dev/null +++ b/vendor/github.com/google/cel-go/common/types/map.go @@ -0,0 +1,809 @@ +// Copyright 2018 Google LLC +// +// Licensed under the Apache License, Version 2.0 (the "License"); +// you may not use this file except in compliance with the License. +// You may obtain a copy of the License at +// +// http://www.apache.org/licenses/LICENSE-2.0 +// +// Unless required by applicable law or agreed to in writing, software +// distributed under the License is distributed on an "AS IS" BASIS, +// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. +// See the License for the specific language governing permissions and +// limitations under the License. + +package types + +import ( + "fmt" + "reflect" + + "github.com/google/cel-go/common/types/pb" + "github.com/google/cel-go/common/types/ref" + "github.com/google/cel-go/common/types/traits" + "github.com/stoewer/go-strcase" + "google.golang.org/protobuf/proto" + "google.golang.org/protobuf/reflect/protoreflect" + + anypb "google.golang.org/protobuf/types/known/anypb" + structpb "google.golang.org/protobuf/types/known/structpb" +) + +// NewDynamicMap returns a traits.Mapper value with dynamic key, value pairs. +func NewDynamicMap(adapter ref.TypeAdapter, value interface{}) traits.Mapper { + refValue := reflect.ValueOf(value) + return &baseMap{ + TypeAdapter: adapter, + mapAccessor: newReflectMapAccessor(adapter, refValue), + value: value, + size: refValue.Len(), + } +} + +// NewJSONStruct creates a traits.Mapper implementation backed by a JSON struct that has been +// encoded in protocol buffer form. +// +// The `adapter` argument provides type adaptation capabilities from proto to CEL. +func NewJSONStruct(adapter ref.TypeAdapter, value *structpb.Struct) traits.Mapper { + fields := value.GetFields() + return &baseMap{ + TypeAdapter: adapter, + mapAccessor: newJSONStructAccessor(adapter, fields), + value: value, + size: len(fields), + } +} + +// NewRefValMap returns a specialized traits.Mapper with CEL valued keys and values. +func NewRefValMap(adapter ref.TypeAdapter, value map[ref.Val]ref.Val) traits.Mapper { + return &baseMap{ + TypeAdapter: adapter, + mapAccessor: newRefValMapAccessor(value), + value: value, + size: len(value), + } +} + +// NewStringInterfaceMap returns a specialized traits.Mapper with string keys and interface values. +func NewStringInterfaceMap(adapter ref.TypeAdapter, value map[string]interface{}) traits.Mapper { + return &baseMap{ + TypeAdapter: adapter, + mapAccessor: newStringIfaceMapAccessor(adapter, value), + value: value, + size: len(value), + } +} + +// NewStringStringMap returns a specialized traits.Mapper with string keys and values. +func NewStringStringMap(adapter ref.TypeAdapter, value map[string]string) traits.Mapper { + return &baseMap{ + TypeAdapter: adapter, + mapAccessor: newStringMapAccessor(value), + value: value, + size: len(value), + } +} + +// NewProtoMap returns a specialized traits.Mapper for handling protobuf map values. +func NewProtoMap(adapter ref.TypeAdapter, value *pb.Map) traits.Mapper { + return &protoMap{ + TypeAdapter: adapter, + value: value, + } +} + +var ( + // MapType singleton. + MapType = NewTypeValue("map", + traits.ContainerType, + traits.IndexerType, + traits.IterableType, + traits.SizerType) +) + +// mapAccessor is a private interface for finding values within a map and iterating over the keys. +// This interface implements portions of the API surface area required by the traits.Mapper +// interface. +type mapAccessor interface { + // Find returns a value, if one exists, for the inpput key. + // + // If the key is not found the function returns (nil, false). + // If the input key is not valid for the map, or is Err or Unknown the function returns + // (Unknown|Err, false). + Find(ref.Val) (ref.Val, bool) + + // Iterator returns an Iterator over the map key set. + Iterator() traits.Iterator +} + +// baseMap is a reflection based map implementation designed to handle a variety of map-like types. +// +// Since CEL is side-effect free, the base map represents an immutable object. +type baseMap struct { + // TypeAdapter used to convert keys and values accessed within the map. + ref.TypeAdapter + + // mapAccessor interface implementation used to find and iterate over map keys. + mapAccessor + + // value is the native Go value upon which the map type operators. + value interface{} + + // size is the number of entries in the map. + size int +} + +// Contains implements the traits.Container interface method. +func (m *baseMap) Contains(index ref.Val) ref.Val { + val, found := m.Find(index) + // When the index is not found and val is non-nil, this is an error or unknown value. + if !found && val != nil && IsUnknownOrError(val) { + return val + } + return Bool(found) +} + +// ConvertToNative implements the ref.Val interface method. +func (m *baseMap) ConvertToNative(typeDesc reflect.Type) (interface{}, error) { + // If the map is already assignable to the desired type return it, e.g. interfaces and + // maps with the same key value types. + if reflect.TypeOf(m.value).AssignableTo(typeDesc) { + return m.value, nil + } + if reflect.TypeOf(m).AssignableTo(typeDesc) { + return m, nil + } + switch typeDesc { + case anyValueType: + json, err := m.ConvertToNative(jsonStructType) + if err != nil { + return nil, err + } + return anypb.New(json.(proto.Message)) + case jsonValueType, jsonStructType: + jsonEntries, err := + m.ConvertToNative(reflect.TypeOf(map[string]*structpb.Value{})) + if err != nil { + return nil, err + } + jsonMap := &structpb.Struct{Fields: jsonEntries.(map[string]*structpb.Value)} + if typeDesc == jsonStructType { + return jsonMap, nil + } + return structpb.NewStructValue(jsonMap), nil + } + + // Unwrap pointers, but track their use. + isPtr := false + if typeDesc.Kind() == reflect.Ptr { + tk := typeDesc + typeDesc = typeDesc.Elem() + if typeDesc.Kind() == reflect.Ptr { + return nil, fmt.Errorf("unsupported type conversion to '%v'", tk) + } + isPtr = true + } + switch typeDesc.Kind() { + // Map conversion. + case reflect.Map: + otherKey := typeDesc.Key() + otherElem := typeDesc.Elem() + nativeMap := reflect.MakeMapWithSize(typeDesc, m.size) + it := m.Iterator() + for it.HasNext() == True { + key := it.Next() + refKeyValue, err := key.ConvertToNative(otherKey) + if err != nil { + return nil, err + } + refElemValue, err := m.Get(key).ConvertToNative(otherElem) + if err != nil { + return nil, err + } + nativeMap.SetMapIndex(reflect.ValueOf(refKeyValue), reflect.ValueOf(refElemValue)) + } + return nativeMap.Interface(), nil + case reflect.Struct: + nativeStructPtr := reflect.New(typeDesc) + nativeStruct := nativeStructPtr.Elem() + it := m.Iterator() + for it.HasNext() == True { + key := it.Next() + // Ensure the field name being referenced is exported. + // Only exported (public) field names can be set by reflection, where the name + // must be at least one character in length and start with an upper-case letter. + fieldName := key.ConvertToType(StringType) + if IsError(fieldName) { + return nil, fieldName.(*Err) + } + name := string(fieldName.(String)) + name = strcase.UpperCamelCase(name) + fieldRef := nativeStruct.FieldByName(name) + if !fieldRef.IsValid() { + return nil, fmt.Errorf("type conversion error, no such field '%s' in type '%v'", name, typeDesc) + } + fieldValue, err := m.Get(key).ConvertToNative(fieldRef.Type()) + if err != nil { + return nil, err + } + fieldRef.Set(reflect.ValueOf(fieldValue)) + } + if isPtr { + return nativeStructPtr.Interface(), nil + } + return nativeStruct.Interface(), nil + } + return nil, fmt.Errorf("type conversion error from map to '%v'", typeDesc) +} + +// ConvertToType implements the ref.Val interface method. +func (m *baseMap) ConvertToType(typeVal ref.Type) ref.Val { + switch typeVal { + case MapType: + return m + case TypeType: + return MapType + } + return NewErr("type conversion error from '%s' to '%s'", MapType, typeVal) +} + +// Equal implements the ref.Val interface method. +func (m *baseMap) Equal(other ref.Val) ref.Val { + otherMap, ok := other.(traits.Mapper) + if !ok { + return MaybeNoSuchOverloadErr(other) + } + if m.Size() != otherMap.Size() { + return False + } + it := m.Iterator() + var maybeErr ref.Val + for it.HasNext() == True { + key := it.Next() + thisVal, _ := m.Find(key) + otherVal, found := otherMap.Find(key) + if !found { + if otherVal == nil { + return False + } + if maybeErr == nil { + maybeErr = MaybeNoSuchOverloadErr(otherVal) + } + continue + } + valEq := thisVal.Equal(otherVal) + if valEq == False { + return False + } + if maybeErr == nil && IsUnknownOrError(valEq) { + maybeErr = valEq + } + } + if maybeErr != nil { + return maybeErr + } + return True +} + +// Get implements the traits.Indexer interface method. +func (m *baseMap) Get(key ref.Val) ref.Val { + v, found := m.Find(key) + if !found { + return ValOrErr(v, "no such key: %v", key) + } + return v +} + +// Size implements the traits.Sizer interface method. +func (m *baseMap) Size() ref.Val { + return Int(m.size) +} + +// Type implements the ref.Val interface method. +func (m *baseMap) Type() ref.Type { + return MapType +} + +// Value implements the ref.Val interface method. +func (m *baseMap) Value() interface{} { + return m.value +} + +func newJSONStructAccessor(adapter ref.TypeAdapter, st map[string]*structpb.Value) mapAccessor { + return &jsonStructAccessor{ + TypeAdapter: adapter, + st: st, + } +} + +type jsonStructAccessor struct { + ref.TypeAdapter + st map[string]*structpb.Value +} + +// Find searches the json struct field map for the input key value and returns (value, true) if +// found. +// +// If the key is not found the function returns (nil, false). +// If the input key is not a String, or is an Err or Unknown, the function returns +// (Unknown|Err, false). +func (a *jsonStructAccessor) Find(key ref.Val) (ref.Val, bool) { + strKey, ok := key.(String) + if !ok { + return ValOrErr(key, "unsupported key type: %v", key.Type()), false + } + keyVal, found := a.st[string(strKey)] + if !found { + return nil, false + } + return a.NativeToValue(keyVal), true +} + +// Iterator creates a new traits.Iterator from the set of JSON struct field names. +func (a *jsonStructAccessor) Iterator() traits.Iterator { + // Copy the keys to make their order stable. + mapKeys := make([]string, len(a.st)) + i := 0 + for k := range a.st { + mapKeys[i] = k + i++ + } + return &stringKeyIterator{ + mapKeys: mapKeys, + len: len(mapKeys), + } +} + +func newReflectMapAccessor(adapter ref.TypeAdapter, value reflect.Value) mapAccessor { + keyType := value.Type().Key() + return &reflectMapAccessor{ + TypeAdapter: adapter, + refValue: value, + keyType: keyType, + } +} + +type reflectMapAccessor struct { + ref.TypeAdapter + refValue reflect.Value + keyType reflect.Type +} + +// Find converts the input key to a native Golang type and then uses reflection to find the key, +// returning (value, true) if present. +// +// If the key is not found the function returns (nil, false). +// If the input key is not a String, or is an Err or Unknown, the function returns +// (Unknown|Err, false). +func (a *reflectMapAccessor) Find(key ref.Val) (ref.Val, bool) { + if IsUnknownOrError(key) { + return MaybeNoSuchOverloadErr(key), false + } + if a.refValue.Len() == 0 { + return nil, false + } + k, err := key.ConvertToNative(a.keyType) + if err != nil { + return NewErr("unsupported key type: %v", key.Type()), false + } + refKey := reflect.ValueOf(k) + val := a.refValue.MapIndex(refKey) + if val.IsValid() { + return a.NativeToValue(val.Interface()), true + } + mapIt := a.refValue.MapRange() + for mapIt.Next() { + if refKey.Kind() == mapIt.Key().Kind() { + return nil, false + } + } + return NewErr("unsupported key type: %v", key.Type()), false +} + +// Iterator creates a Golang reflection based traits.Iterator. +func (a *reflectMapAccessor) Iterator() traits.Iterator { + return &mapIterator{ + TypeAdapter: a.TypeAdapter, + mapKeys: a.refValue.MapRange(), + len: a.refValue.Len(), + } +} + +func newRefValMapAccessor(mapVal map[ref.Val]ref.Val) mapAccessor { + return &refValMapAccessor{mapVal: mapVal} +} + +type refValMapAccessor struct { + mapVal map[ref.Val]ref.Val +} + +// Find uses native map accesses to find the key, returning (value, true) if present. +// +// If the key is not found the function returns (nil, false). +// If the input key is an Err or Unknown, the function returns (Unknown|Err, false). +func (a *refValMapAccessor) Find(key ref.Val) (ref.Val, bool) { + if IsUnknownOrError(key) { + return key, false + } + if len(a.mapVal) == 0 { + return nil, false + } + keyVal, found := a.mapVal[key] + if found { + return keyVal, true + } + for k := range a.mapVal { + if k.Type().TypeName() == key.Type().TypeName() { + return nil, false + } + } + return NewErr("unsupported key type: %v", key.Type()), found +} + +// Iterator produces a new traits.Iterator which iterates over the map keys via Golang reflection. +func (a *refValMapAccessor) Iterator() traits.Iterator { + return &mapIterator{ + TypeAdapter: DefaultTypeAdapter, + mapKeys: reflect.ValueOf(a.mapVal).MapRange(), + len: len(a.mapVal), + } +} + +func newStringMapAccessor(strMap map[string]string) mapAccessor { + return &stringMapAccessor{mapVal: strMap} +} + +type stringMapAccessor struct { + mapVal map[string]string +} + +// Find uses native map accesses to find the key, returning (value, true) if present. +// +// If the key is not found the function returns (nil, false). +// If the input key is not a String, or is an Err or Unknown, the function returns +// (Unknown|Err, false). +func (a *stringMapAccessor) Find(key ref.Val) (ref.Val, bool) { + strKey, ok := key.(String) + if !ok { + return ValOrErr(key, "unsupported key type: %v", key.Type()), false + } + keyVal, found := a.mapVal[string(strKey)] + if !found { + return nil, false + } + return String(keyVal), true +} + +// Iterator creates a new traits.Iterator from the string key set of the map. +func (a *stringMapAccessor) Iterator() traits.Iterator { + // Copy the keys to make their order stable. + mapKeys := make([]string, len(a.mapVal)) + i := 0 + for k := range a.mapVal { + mapKeys[i] = k + i++ + } + return &stringKeyIterator{ + mapKeys: mapKeys, + len: len(mapKeys), + } +} + +func newStringIfaceMapAccessor(adapter ref.TypeAdapter, mapVal map[string]interface{}) mapAccessor { + return &stringIfaceMapAccessor{ + TypeAdapter: adapter, + mapVal: mapVal, + } +} + +type stringIfaceMapAccessor struct { + ref.TypeAdapter + mapVal map[string]interface{} +} + +// Find uses native map accesses to find the key, returning (value, true) if present. +// +// If the key is not found the function returns (nil, false). +// If the input key is not a String, or is an Err or Unknown, the function returns +// (Unknown|Err, false). +func (a *stringIfaceMapAccessor) Find(key ref.Val) (ref.Val, bool) { + strKey, ok := key.(String) + if !ok { + return ValOrErr(key, "unsupported key type: %v", key.Type()), false + } + keyVal, found := a.mapVal[string(strKey)] + if !found { + return nil, false + } + return a.NativeToValue(keyVal), true +} + +// Iterator creates a new traits.Iterator from the string key set of the map. +func (a *stringIfaceMapAccessor) Iterator() traits.Iterator { + // Copy the keys to make their order stable. + mapKeys := make([]string, len(a.mapVal)) + i := 0 + for k := range a.mapVal { + mapKeys[i] = k + i++ + } + return &stringKeyIterator{ + mapKeys: mapKeys, + len: len(mapKeys), + } +} + +// protoMap is a specialized, separate implementation of the traits.Mapper interfaces tailored to +// accessing protoreflect.Map values. +type protoMap struct { + ref.TypeAdapter + value *pb.Map +} + +// Contains returns whether the map contains the given key. +func (m *protoMap) Contains(key ref.Val) ref.Val { + val, found := m.Find(key) + // When the index is not found and val is non-nil, this is an error or unknown value. + if !found && val != nil && IsUnknownOrError(val) { + return val + } + return Bool(found) +} + +// ConvertToNative implements the ref.Val interface method. +// +// Note, assignment to Golang struct types is not yet supported. +func (m *protoMap) ConvertToNative(typeDesc reflect.Type) (interface{}, error) { + // If the map is already assignable to the desired type return it, e.g. interfaces and + // maps with the same key value types. + switch typeDesc { + case anyValueType: + json, err := m.ConvertToNative(jsonStructType) + if err != nil { + return nil, err + } + return anypb.New(json.(proto.Message)) + case jsonValueType, jsonStructType: + jsonEntries, err := + m.ConvertToNative(reflect.TypeOf(map[string]*structpb.Value{})) + if err != nil { + return nil, err + } + jsonMap := &structpb.Struct{ + Fields: jsonEntries.(map[string]*structpb.Value)} + if typeDesc == jsonStructType { + return jsonMap, nil + } + return structpb.NewStructValue(jsonMap), nil + } + switch typeDesc.Kind() { + case reflect.Struct, reflect.Ptr: + if reflect.TypeOf(m.value).AssignableTo(typeDesc) { + return m.value, nil + } + if reflect.TypeOf(m).AssignableTo(typeDesc) { + return m, nil + } + } + if typeDesc.Kind() != reflect.Map { + return nil, fmt.Errorf("unsupported type conversion: %v to map", typeDesc) + } + + keyType := m.value.KeyType.ReflectType() + valType := m.value.ValueType.ReflectType() + otherKeyType := typeDesc.Key() + otherValType := typeDesc.Elem() + mapVal := reflect.MakeMapWithSize(typeDesc, m.value.Len()) + var err error + m.value.Range(func(key protoreflect.MapKey, val protoreflect.Value) bool { + ntvKey := key.Interface() + ntvVal := val.Interface() + switch ntvVal.(type) { + case protoreflect.Message: + ntvVal = ntvVal.(protoreflect.Message).Interface() + } + if keyType == otherKeyType && valType == otherValType { + mapVal.SetMapIndex(reflect.ValueOf(ntvKey), reflect.ValueOf(ntvVal)) + return true + } + celKey := m.NativeToValue(ntvKey) + celVal := m.NativeToValue(ntvVal) + ntvKey, err = celKey.ConvertToNative(otherKeyType) + if err != nil { + // early terminate the range loop. + return false + } + ntvVal, err = celVal.ConvertToNative(otherValType) + if err != nil { + // early terminate the range loop. + return false + } + mapVal.SetMapIndex(reflect.ValueOf(ntvKey), reflect.ValueOf(ntvVal)) + return true + }) + if err != nil { + return nil, err + } + return mapVal.Interface(), nil +} + +// ConvertToType implements the ref.Val interface method. +func (m *protoMap) ConvertToType(typeVal ref.Type) ref.Val { + switch typeVal { + case MapType: + return m + case TypeType: + return MapType + } + return NewErr("type conversion error from '%s' to '%s'", MapType, typeVal) +} + +// Equal implements the ref.Val interface method. +func (m *protoMap) Equal(other ref.Val) ref.Val { + otherMap, ok := other.(traits.Mapper) + if !ok { + return MaybeNoSuchOverloadErr(other) + } + if m.value.Map.Len() != int(otherMap.Size().(Int)) { + return False + } + var retVal ref.Val = True + m.value.Range(func(key protoreflect.MapKey, val protoreflect.Value) bool { + keyVal := m.NativeToValue(key.Interface()) + valVal := m.NativeToValue(val) + otherVal, found := otherMap.Find(keyVal) + if !found { + if otherVal == nil { + retVal = False + return false + } + retVal = MaybeNoSuchOverloadErr(otherVal) + return false + } + valEq := valVal.Equal(otherVal) + if valEq != True { + retVal = valEq + return false + } + return true + }) + return retVal +} + +// Find returns whether the protoreflect.Map contains the input key. +// +// If the key is not found the function returns (nil, false). +// If the input key is not a supported proto map key type, or is an Err or Unknown, +// the function returns +// (Unknown|Err, false). +func (m *protoMap) Find(key ref.Val) (ref.Val, bool) { + if IsUnknownOrError(key) { + return key, false + } + // Convert the input key to the expected protobuf key type. + ntvKey, err := key.ConvertToNative(m.value.KeyType.ReflectType()) + if err != nil { + return NewErr("unsupported key type: %v", key.Type()), false + } + // Use protoreflection to get the key value. + val := m.value.Get(protoreflect.ValueOf(ntvKey).MapKey()) + if !val.IsValid() { + return nil, false + } + // Perform nominal type unwrapping from the input value. + switch v := val.Interface().(type) { + case protoreflect.List, protoreflect.Map: + // Maps do not support list or map values + return NewErr("unsupported map element type: (%T)%v", v, v), false + default: + return m.NativeToValue(v), true + } +} + +// Get implements the traits.Indexer interface method. +func (m *protoMap) Get(key ref.Val) ref.Val { + v, found := m.Find(key) + if !found { + return ValOrErr(v, "no such key: %v", key) + } + return v +} + +// Iterator implements the traits.Iterable interface method. +func (m *protoMap) Iterator() traits.Iterator { + // Copy the keys to make their order stable. + mapKeys := make([]protoreflect.MapKey, 0, m.value.Len()) + m.value.Range(func(k protoreflect.MapKey, v protoreflect.Value) bool { + mapKeys = append(mapKeys, k) + return true + }) + return &protoMapIterator{ + TypeAdapter: m.TypeAdapter, + mapKeys: mapKeys, + len: m.value.Len(), + } +} + +// Size returns the number of entries in the protoreflect.Map. +func (m *protoMap) Size() ref.Val { + return Int(m.value.Len()) +} + +// Type implements the ref.Val interface method. +func (m *protoMap) Type() ref.Type { + return MapType +} + +// Value implements the ref.Val interface method. +func (m *protoMap) Value() interface{} { + return m.value +} + +type mapIterator struct { + *baseIterator + ref.TypeAdapter + mapKeys *reflect.MapIter + cursor int + len int +} + +// HasNext implements the traits.Iterator interface method. +func (it *mapIterator) HasNext() ref.Val { + return Bool(it.cursor < it.len) +} + +// Next implements the traits.Iterator interface method. +func (it *mapIterator) Next() ref.Val { + if it.HasNext() == True && it.mapKeys.Next() { + it.cursor++ + refKey := it.mapKeys.Key() + return it.NativeToValue(refKey.Interface()) + } + return nil +} + +type protoMapIterator struct { + *baseIterator + ref.TypeAdapter + mapKeys []protoreflect.MapKey + cursor int + len int +} + +// HasNext implements the traits.Iterator interface method. +func (it *protoMapIterator) HasNext() ref.Val { + return Bool(it.cursor < it.len) +} + +// Next implements the traits.Iterator interface method. +func (it *protoMapIterator) Next() ref.Val { + if it.HasNext() == True { + index := it.cursor + it.cursor++ + refKey := it.mapKeys[index] + return it.NativeToValue(refKey.Interface()) + } + return nil +} + +type stringKeyIterator struct { + *baseIterator + mapKeys []string + cursor int + len int +} + +// HasNext implements the traits.Iterator interface method. +func (it *stringKeyIterator) HasNext() ref.Val { + return Bool(it.cursor < it.len) +} + +// Next implements the traits.Iterator interface method. +func (it *stringKeyIterator) Next() ref.Val { + if it.HasNext() == True { + index := it.cursor + it.cursor++ + return String(it.mapKeys[index]) + } + return nil +} diff --git a/vendor/github.com/google/cel-go/common/types/null.go b/vendor/github.com/google/cel-go/common/types/null.go new file mode 100644 index 000000000..5a693f6e6 --- /dev/null +++ b/vendor/github.com/google/cel-go/common/types/null.go @@ -0,0 +1,100 @@ +// Copyright 2018 Google LLC +// +// Licensed under the Apache License, Version 2.0 (the "License"); +// you may not use this file except in compliance with the License. +// You may obtain a copy of the License at +// +// http://www.apache.org/licenses/LICENSE-2.0 +// +// Unless required by applicable law or agreed to in writing, software +// distributed under the License is distributed on an "AS IS" BASIS, +// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. +// See the License for the specific language governing permissions and +// limitations under the License. + +package types + +import ( + "fmt" + "reflect" + + "github.com/google/cel-go/common/types/ref" + "google.golang.org/protobuf/proto" + + anypb "google.golang.org/protobuf/types/known/anypb" + structpb "google.golang.org/protobuf/types/known/structpb" +) + +// Null type implementation. +type Null structpb.NullValue + +var ( + // NullType singleton. + NullType = NewTypeValue("null_type") + // NullValue singleton. + NullValue = Null(structpb.NullValue_NULL_VALUE) + + jsonNullType = reflect.TypeOf(structpb.NullValue_NULL_VALUE) +) + +// ConvertToNative implements ref.Val.ConvertToNative. +func (n Null) ConvertToNative(typeDesc reflect.Type) (interface{}, error) { + switch typeDesc.Kind() { + case reflect.Int32: + return reflect.ValueOf(n).Convert(typeDesc).Interface(), nil + case reflect.Ptr: + switch typeDesc { + case anyValueType: + // Convert to a JSON-null before packing to an Any field since the enum value for JSON + // null cannot be packed directly. + pb, err := n.ConvertToNative(jsonValueType) + if err != nil { + return nil, err + } + return anypb.New(pb.(proto.Message)) + case jsonValueType: + return structpb.NewNullValue(), nil + } + case reflect.Interface: + nv := n.Value() + if reflect.TypeOf(nv).Implements(typeDesc) { + return nv, nil + } + if reflect.TypeOf(n).Implements(typeDesc) { + return n, nil + } + } + // If the type conversion isn't supported return an error. + return nil, fmt.Errorf("type conversion error from '%v' to '%v'", NullType, typeDesc) +} + +// ConvertToType implements ref.Val.ConvertToType. +func (n Null) ConvertToType(typeVal ref.Type) ref.Val { + switch typeVal { + case StringType: + return String("null") + case NullType: + return n + case TypeType: + return NullType + } + return NewErr("type conversion error from '%s' to '%s'", NullType, typeVal) +} + +// Equal implements ref.Val.Equal. +func (n Null) Equal(other ref.Val) ref.Val { + if NullType != other.Type() { + return ValOrErr(other, "no such overload") + } + return True +} + +// Type implements ref.Val.Type. +func (n Null) Type() ref.Type { + return NullType +} + +// Value implements ref.Val.Value. +func (n Null) Value() interface{} { + return structpb.NullValue_NULL_VALUE +} diff --git a/vendor/github.com/google/cel-go/common/types/object.go b/vendor/github.com/google/cel-go/common/types/object.go new file mode 100644 index 000000000..d4efa066b --- /dev/null +++ b/vendor/github.com/google/cel-go/common/types/object.go @@ -0,0 +1,158 @@ +// Copyright 2018 Google LLC +// +// Licensed under the Apache License, Version 2.0 (the "License"); +// you may not use this file except in compliance with the License. +// You may obtain a copy of the License at +// +// http://www.apache.org/licenses/LICENSE-2.0 +// +// Unless required by applicable law or agreed to in writing, software +// distributed under the License is distributed on an "AS IS" BASIS, +// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. +// See the License for the specific language governing permissions and +// limitations under the License. + +package types + +import ( + "fmt" + "reflect" + + "github.com/google/cel-go/common/types/pb" + "github.com/google/cel-go/common/types/ref" + "google.golang.org/protobuf/encoding/protojson" + "google.golang.org/protobuf/proto" + + anypb "google.golang.org/protobuf/types/known/anypb" + structpb "google.golang.org/protobuf/types/known/structpb" +) + +type protoObj struct { + ref.TypeAdapter + value proto.Message + typeDesc *pb.TypeDescription + typeValue *TypeValue +} + +// NewObject returns an object based on a proto.Message value which handles +// conversion between protobuf type values and expression type values. +// Objects support indexing and iteration. +// +// Note: the type value is pulled from the list of registered types within the +// type provider. If the proto type is not registered within the type provider, +// then this will result in an error within the type adapter / provider. +func NewObject(adapter ref.TypeAdapter, + typeDesc *pb.TypeDescription, + typeValue *TypeValue, + value proto.Message) ref.Val { + return &protoObj{ + TypeAdapter: adapter, + value: value, + typeDesc: typeDesc, + typeValue: typeValue} +} + +func (o *protoObj) ConvertToNative(typeDesc reflect.Type) (interface{}, error) { + pb := o.value + if reflect.TypeOf(pb).AssignableTo(typeDesc) { + return pb, nil + } + if reflect.TypeOf(o).AssignableTo(typeDesc) { + return o, nil + } + switch typeDesc { + case anyValueType: + _, isAny := pb.(*anypb.Any) + if isAny { + return pb, nil + } + return anypb.New(pb) + case jsonValueType: + // Marshal the proto to JSON first, and then rehydrate as protobuf.Value as there is no + // support for direct conversion from proto.Message to protobuf.Value. + bytes, err := protojson.Marshal(pb) + if err != nil { + return nil, err + } + json := &structpb.Value{} + err = protojson.Unmarshal(bytes, json) + if err != nil { + return nil, err + } + return json, nil + default: + if typeDesc == o.typeDesc.ReflectType() { + return o.value, nil + } + if typeDesc.Kind() == reflect.Ptr { + val := reflect.New(typeDesc.Elem()).Interface() + dstPB, ok := val.(proto.Message) + if ok { + proto.Merge(dstPB, pb) + return dstPB, nil + } + } + } + return nil, fmt.Errorf("type conversion error from '%T' to '%v'", o.value, typeDesc) +} + +func (o *protoObj) ConvertToType(typeVal ref.Type) ref.Val { + switch typeVal { + default: + if o.Type().TypeName() == typeVal.TypeName() { + return o + } + case TypeType: + return o.typeValue + } + return NewErr("type conversion error from '%s' to '%s'", o.typeDesc.Name(), typeVal) +} + +func (o *protoObj) Equal(other ref.Val) ref.Val { + if o.typeDesc.Name() != other.Type().TypeName() { + return MaybeNoSuchOverloadErr(other) + } + return Bool(proto.Equal(o.value, other.Value().(proto.Message))) +} + +// IsSet tests whether a field which is defined is set to a non-default value. +func (o *protoObj) IsSet(field ref.Val) ref.Val { + protoFieldName, ok := field.(String) + if !ok { + return MaybeNoSuchOverloadErr(field) + } + protoFieldStr := string(protoFieldName) + fd, found := o.typeDesc.FieldByName(protoFieldStr) + if !found { + return NewErr("no such field '%s'", field) + } + if fd.IsSet(o.value) { + return True + } + return False +} + +func (o *protoObj) Get(index ref.Val) ref.Val { + protoFieldName, ok := index.(String) + if !ok { + return MaybeNoSuchOverloadErr(index) + } + protoFieldStr := string(protoFieldName) + fd, found := o.typeDesc.FieldByName(protoFieldStr) + if !found { + return NewErr("no such field '%s'", index) + } + fv, err := fd.GetFrom(o.value) + if err != nil { + return NewErr(err.Error()) + } + return o.NativeToValue(fv) +} + +func (o *protoObj) Type() ref.Type { + return o.typeValue +} + +func (o *protoObj) Value() interface{} { + return o.value +} diff --git a/vendor/github.com/google/cel-go/common/types/overflow.go b/vendor/github.com/google/cel-go/common/types/overflow.go new file mode 100644 index 000000000..48cc6ece6 --- /dev/null +++ b/vendor/github.com/google/cel-go/common/types/overflow.go @@ -0,0 +1,357 @@ +// Copyright 2021 Google LLC +// +// Licensed under the Apache License, Version 2.0 (the "License"); +// you may not use this file except in compliance with the License. +// You may obtain a copy of the License at +// +// http://www.apache.org/licenses/LICENSE-2.0 +// +// Unless required by applicable law or agreed to in writing, software +// distributed under the License is distributed on an "AS IS" BASIS, +// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. +// See the License for the specific language governing permissions and +// limitations under the License. + +package types + +import ( + "math" + "time" +) + +var ( + doubleTwoTo64 = math.Ldexp(1.0, 64) +) + +// addInt64Checked performs addition with overflow detection of two int64 values. +// +// If the operation fails the error return value will be non-nil. +func addInt64Checked(x, y int64) (int64, error) { + if (y > 0 && x > math.MaxInt64-y) || (y < 0 && x < math.MinInt64-y) { + return 0, errIntOverflow + } + return x + y, nil +} + +// subtractInt64Checked performs subtraction with overflow detection of two int64 values. +// +// If the operation fails the error return value will be non-nil. +func subtractInt64Checked(x, y int64) (int64, error) { + if (y < 0 && x > math.MaxInt64+y) || (y > 0 && x < math.MinInt64+y) { + return 0, errIntOverflow + } + return x - y, nil +} + +// negateInt64Checked performs negation with overflow detection of an int64. +// +// If the operation fails the error return value will be non-nil. +func negateInt64Checked(x int64) (int64, error) { + // In twos complement, negating MinInt64 would result in a valid of MaxInt64+1. + if x == math.MinInt64 { + return 0, errIntOverflow + } + return -x, nil +} + +// multiplyInt64Checked performs multiplication with overflow detection of two int64 value. +// +// If the operation fails the error return value will be non-nil. +func multiplyInt64Checked(x, y int64) (int64, error) { + // Detecting multiplication overflow is more complicated than the others. The first two detect + // attempting to negate MinInt64, which would result in MaxInt64+1. The other four detect normal + // overflow conditions. + if (x == -1 && y == math.MinInt64) || (y == -1 && x == math.MinInt64) || + // x is positive, y is positive + (x > 0 && y > 0 && x > math.MaxInt64/y) || + // x is positive, y is negative + (x > 0 && y < 0 && y < math.MinInt64/x) || + // x is negative, y is positive + (x < 0 && y > 0 && x < math.MinInt64/y) || + // x is negative, y is negative + (x < 0 && y < 0 && y < math.MaxInt64/x) { + return 0, errIntOverflow + } + return x * y, nil +} + +// divideInt64Checked performs division with overflow detection of two int64 values, +// as well as a division by zero check. +// +// If the operation fails the error return value will be non-nil. +func divideInt64Checked(x, y int64) (int64, error) { + // Division by zero. + if y == 0 { + return 0, errDivideByZero + } + // In twos complement, negating MinInt64 would result in a valid of MaxInt64+1. + if x == math.MinInt64 && y == -1 { + return 0, errIntOverflow + } + return x / y, nil +} + +// moduloInt64Checked performs modulo with overflow detection of two int64 values +// as well as a modulus by zero check. +// +// If the operation fails the error return value will be non-nil. +func moduloInt64Checked(x, y int64) (int64, error) { + // Modulus by zero. + if y == 0 { + return 0, errModulusByZero + } + // In twos complement, negating MinInt64 would result in a valid of MaxInt64+1. + if x == math.MinInt64 && y == -1 { + return 0, errIntOverflow + } + return x % y, nil +} + +// addUint64Checked performs addition with overflow detection of two uint64 values. +// +// If the operation fails due to overflow the error return value will be non-nil. +func addUint64Checked(x, y uint64) (uint64, error) { + if y > 0 && x > math.MaxUint64-y { + return 0, errUintOverflow + } + return x + y, nil +} + +// subtractUint64Checked performs subtraction with overflow detection of two uint64 values. +// +// If the operation fails due to overflow the error return value will be non-nil. +func subtractUint64Checked(x, y uint64) (uint64, error) { + if y > x { + return 0, errUintOverflow + } + return x - y, nil +} + +// multiplyUint64Checked performs multiplication with overflow detection of two uint64 values. +// +// If the operation fails due to overflow the error return value will be non-nil. +func multiplyUint64Checked(x, y uint64) (uint64, error) { + if y != 0 && x > math.MaxUint64/y { + return 0, errUintOverflow + } + return x * y, nil +} + +// divideUint64Checked performs division with a test for division by zero. +// +// If the operation fails the error return value will be non-nil. +func divideUint64Checked(x, y uint64) (uint64, error) { + if y == 0 { + return 0, errDivideByZero + } + return x / y, nil +} + +// moduloUint64Checked performs modulo with a test for modulus by zero. +// +// If the operation fails the error return value will be non-nil. +func moduloUint64Checked(x, y uint64) (uint64, error) { + if y == 0 { + return 0, errModulusByZero + } + return x % y, nil +} + +// addDurationChecked performs addition with overflow detection of two time.Durations. +// +// If the operation fails due to overflow the error return value will be non-nil. +func addDurationChecked(x, y time.Duration) (time.Duration, error) { + val, err := addInt64Checked(int64(x), int64(y)) + if err != nil { + return time.Duration(0), err + } + return time.Duration(val), nil +} + +// subtractDurationChecked performs subtraction with overflow detection of two time.Durations. +// +// If the operation fails due to overflow the error return value will be non-nil. +func subtractDurationChecked(x, y time.Duration) (time.Duration, error) { + val, err := subtractInt64Checked(int64(x), int64(y)) + if err != nil { + return time.Duration(0), err + } + return time.Duration(val), nil +} + +// negateDurationChecked performs negation with overflow detection of a time.Duration. +// +// If the operation fails due to overflow the error return value will be non-nil. +func negateDurationChecked(x time.Duration) (time.Duration, error) { + val, err := negateInt64Checked(int64(x)) + if err != nil { + return time.Duration(0), err + } + return time.Duration(val), nil +} + +// addDurationChecked performs addition with overflow detection of a time.Time and time.Duration. +// +// If the operation fails due to overflow the error return value will be non-nil. +func addTimeDurationChecked(x time.Time, y time.Duration) (time.Time, error) { + // This is tricky. A time is represented as (int64, int32) where the first is seconds and second + // is nanoseconds. A duration is int64 representing nanoseconds. We cannot normalize time to int64 + // as it could potentially overflow. The only way to proceed is to break time and duration into + // second and nanosecond components. + + // First we break time into its components by truncating and subtracting. + sec1 := x.Truncate(time.Second).Unix() // Truncate to seconds. + nsec1 := x.Sub(x.Truncate(time.Second)).Nanoseconds() // Get nanoseconds by truncating and subtracting. + + // Second we break duration into its components by dividing and modulo. + sec2 := int64(y) / int64(time.Second) // Truncate to seconds. + nsec2 := int64(y) % int64(time.Second) // Get remainder. + + // Add seconds first, detecting any overflow. + sec, err := addInt64Checked(sec1, sec2) + if err != nil { + return time.Time{}, err + } + // Nanoseconds cannot overflow as time.Time normalizes them to [0, 999999999]. + nsec := nsec1 + nsec2 + + // We need to normalize nanoseconds to be positive and carry extra nanoseconds to seconds. + // Adapted from time.Unix(int64, int64). + if nsec < 0 || nsec >= int64(time.Second) { + // Add seconds. + sec, err = addInt64Checked(sec, nsec/int64(time.Second)) + if err != nil { + return time.Time{}, err + } + + nsec -= (nsec / int64(time.Second)) * int64(time.Second) + if nsec < 0 { + // Subtract an extra second + sec, err = addInt64Checked(sec, -1) + if err != nil { + return time.Time{}, err + } + nsec += int64(time.Second) + } + } + + // Check if the the number of seconds from Unix epoch is within our acceptable range. + if sec < minUnixTime || sec > maxUnixTime { + return time.Time{}, errTimestampOverflow + } + + // Return resulting time and propagate time zone. + return time.Unix(sec, nsec).In(x.Location()), nil +} + +// subtractTimeChecked performs subtraction with overflow detection of two time.Time. +// +// If the operation fails due to overflow the error return value will be non-nil. +func subtractTimeChecked(x, y time.Time) (time.Duration, error) { + // Similar to addTimeDurationOverflow() above. + + // First we break time into its components by truncating and subtracting. + sec1 := x.Truncate(time.Second).Unix() // Truncate to seconds. + nsec1 := x.Sub(x.Truncate(time.Second)).Nanoseconds() // Get nanoseconds by truncating and subtracting. + + // Second we break duration into its components by truncating and subtracting. + sec2 := y.Truncate(time.Second).Unix() // Truncate to seconds. + nsec2 := y.Sub(y.Truncate(time.Second)).Nanoseconds() // Get nanoseconds by truncating and subtracting. + + // Subtract seconds first, detecting any overflow. + sec, err := subtractInt64Checked(sec1, sec2) + if err != nil { + return time.Duration(0), err + } + + // Nanoseconds cannot overflow as time.Time normalizes them to [0, 999999999]. + nsec := nsec1 - nsec2 + + // Scale seconds to nanoseconds detecting overflow. + tsec, err := multiplyInt64Checked(sec, int64(time.Second)) + if err != nil { + return time.Duration(0), err + } + + // Lastly we need to add the two nanoseconds together. + val, err := addInt64Checked(tsec, nsec) + if err != nil { + return time.Duration(0), err + } + + return time.Duration(val), nil +} + +// subtractTimeDurationChecked performs subtraction with overflow detection of a time.Time and +// time.Duration. +// +// If the operation fails due to overflow the error return value will be non-nil. +func subtractTimeDurationChecked(x time.Time, y time.Duration) (time.Time, error) { + // The easiest way to implement this is to negate y and add them. + // x - y = x + -y + val, err := negateDurationChecked(y) + if err != nil { + return time.Time{}, err + } + return addTimeDurationChecked(x, val) +} + +// doubleToInt64Checked converts a double to an int64 value. +// +// If the conversion fails due to overflow the error return value will be non-nil. +func doubleToInt64Checked(v float64) (int64, error) { + if math.IsInf(v, 0) || math.IsNaN(v) || v <= float64(math.MinInt64) || v >= float64(math.MaxInt64) { + return 0, errIntOverflow + } + return int64(v), nil +} + +// doubleToInt64Checked converts a double to a uint64 value. +// +// If the conversion fails due to overflow the error return value will be non-nil. +func doubleToUint64Checked(v float64) (uint64, error) { + if math.IsInf(v, 0) || math.IsNaN(v) || v < 0 || v >= doubleTwoTo64 { + return 0, errUintOverflow + } + return uint64(v), nil +} + +// int64toUint64Checked converts an int64 to a uint64 value. +// +// If the conversion fails due to overflow the error return value will be non-nil. +func int64ToUint64Checked(v int64) (uint64, error) { + if v < 0 { + return 0, errUintOverflow + } + return uint64(v), nil +} + +// int64toInt32Checked converts an int64 to an int32 value. +// +// If the conversion fails due to overflow the error return value will be non-nil. +func int64ToInt32Checked(v int64) (int32, error) { + if v < math.MinInt32 || v > math.MaxInt32 { + return 0, errIntOverflow + } + return int32(v), nil +} + +// uint64toUint32Checked converts a uint64 to a uint32 value. +// +// If the conversion fails due to overflow the error return value will be non-nil. +func uint64ToUint32Checked(v uint64) (uint32, error) { + if v > math.MaxUint32 { + return 0, errUintOverflow + } + return uint32(v), nil +} + +// uint64toInt64Checked converts a uint64 to an int64 value. +// +// If the conversion fails due to overflow the error return value will be non-nil. +func uint64ToInt64Checked(v uint64) (int64, error) { + if v > math.MaxInt64 { + return 0, errIntOverflow + } + return int64(v), nil +} diff --git a/vendor/github.com/google/cel-go/common/types/pb/BUILD.bazel b/vendor/github.com/google/cel-go/common/types/pb/BUILD.bazel new file mode 100644 index 000000000..b0c79a7f5 --- /dev/null +++ b/vendor/github.com/google/cel-go/common/types/pb/BUILD.bazel @@ -0,0 +1,50 @@ +load("@io_bazel_rules_go//go:def.bzl", "go_library", "go_test") + +package( + default_visibility = ["//visibility:public"], + licenses = ["notice"], # Apache 2.0 +) + +go_library( + name = "go_default_library", + srcs = [ + "checked.go", + "enum.go", + "file.go", + "pb.go", + "type.go", + ], + importpath = "github.com/google/cel-go/common/types/pb", + deps = [ + "@org_golang_google_genproto//googleapis/api/expr/v1alpha1:go_default_library", + "@org_golang_google_protobuf//proto:go_default_library", + "@org_golang_google_protobuf//reflect/protoreflect:go_default_library", + "@org_golang_google_protobuf//reflect/protoregistry:go_default_library", + "@org_golang_google_protobuf//types/dynamicpb:go_default_library", + "@org_golang_google_protobuf//types/known/anypb:go_default_library", + "@org_golang_google_protobuf//types/known/durationpb:go_default_library", + "@org_golang_google_protobuf//types/known/emptypb:go_default_library", + "@org_golang_google_protobuf//types/known/structpb:go_default_library", + "@org_golang_google_protobuf//types/known/timestamppb:go_default_library", + "@org_golang_google_protobuf//types/known/wrapperspb:go_default_library", + ], +) + +go_test( + name = "go_default_test", + size = "small", + srcs = [ + "file_test.go", + "pb_test.go", + "type_test.go", + ], + embed = [":go_default_library"], + deps = [ + "//checker/decls:go_default_library", + "//test/proto2pb:test_all_types_go_proto", + "//test/proto3pb:test_all_types_go_proto", + "@org_golang_google_protobuf//reflect/protodesc:go_default_library", + "@org_golang_google_protobuf//reflect/protoreflect:go_default_library", + "@org_golang_google_protobuf//types/descriptorpb:go_default_library", + ], +) diff --git a/vendor/github.com/google/cel-go/common/types/pb/checked.go b/vendor/github.com/google/cel-go/common/types/pb/checked.go new file mode 100644 index 000000000..312a6a072 --- /dev/null +++ b/vendor/github.com/google/cel-go/common/types/pb/checked.go @@ -0,0 +1,93 @@ +// Copyright 2018 Google LLC +// +// Licensed under the Apache License, Version 2.0 (the "License"); +// you may not use this file except in compliance with the License. +// You may obtain a copy of the License at +// +// http://www.apache.org/licenses/LICENSE-2.0 +// +// Unless required by applicable law or agreed to in writing, software +// distributed under the License is distributed on an "AS IS" BASIS, +// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. +// See the License for the specific language governing permissions and +// limitations under the License. + +package pb + +import ( + "google.golang.org/protobuf/reflect/protoreflect" + + exprpb "google.golang.org/genproto/googleapis/api/expr/v1alpha1" + emptypb "google.golang.org/protobuf/types/known/emptypb" + structpb "google.golang.org/protobuf/types/known/structpb" +) + +var ( + // CheckedPrimitives map from proto field descriptor type to expr.Type. + CheckedPrimitives = map[protoreflect.Kind]*exprpb.Type{ + protoreflect.BoolKind: checkedBool, + protoreflect.BytesKind: checkedBytes, + protoreflect.DoubleKind: checkedDouble, + protoreflect.FloatKind: checkedDouble, + protoreflect.Int32Kind: checkedInt, + protoreflect.Int64Kind: checkedInt, + protoreflect.Sint32Kind: checkedInt, + protoreflect.Sint64Kind: checkedInt, + protoreflect.Uint32Kind: checkedUint, + protoreflect.Uint64Kind: checkedUint, + protoreflect.Fixed32Kind: checkedUint, + protoreflect.Fixed64Kind: checkedUint, + protoreflect.Sfixed32Kind: checkedInt, + protoreflect.Sfixed64Kind: checkedInt, + protoreflect.StringKind: checkedString} + + // CheckedWellKnowns map from qualified proto type name to expr.Type for + // well-known proto types. + CheckedWellKnowns = map[string]*exprpb.Type{ + // Wrapper types. + "google.protobuf.BoolValue": checkedWrap(checkedBool), + "google.protobuf.BytesValue": checkedWrap(checkedBytes), + "google.protobuf.DoubleValue": checkedWrap(checkedDouble), + "google.protobuf.FloatValue": checkedWrap(checkedDouble), + "google.protobuf.Int64Value": checkedWrap(checkedInt), + "google.protobuf.Int32Value": checkedWrap(checkedInt), + "google.protobuf.UInt64Value": checkedWrap(checkedUint), + "google.protobuf.UInt32Value": checkedWrap(checkedUint), + "google.protobuf.StringValue": checkedWrap(checkedString), + // Well-known types. + "google.protobuf.Any": checkedAny, + "google.protobuf.Duration": checkedDuration, + "google.protobuf.Timestamp": checkedTimestamp, + // Json types. + "google.protobuf.ListValue": checkedListDyn, + "google.protobuf.NullValue": checkedNull, + "google.protobuf.Struct": checkedMapStringDyn, + "google.protobuf.Value": checkedDyn, + } + + // common types + checkedDyn = &exprpb.Type{TypeKind: &exprpb.Type_Dyn{Dyn: &emptypb.Empty{}}} + // Wrapper and primitive types. + checkedBool = checkedPrimitive(exprpb.Type_BOOL) + checkedBytes = checkedPrimitive(exprpb.Type_BYTES) + checkedDouble = checkedPrimitive(exprpb.Type_DOUBLE) + checkedInt = checkedPrimitive(exprpb.Type_INT64) + checkedString = checkedPrimitive(exprpb.Type_STRING) + checkedUint = checkedPrimitive(exprpb.Type_UINT64) + // Well-known type equivalents. + checkedAny = checkedWellKnown(exprpb.Type_ANY) + checkedDuration = checkedWellKnown(exprpb.Type_DURATION) + checkedTimestamp = checkedWellKnown(exprpb.Type_TIMESTAMP) + // Json-based type equivalents. + checkedNull = &exprpb.Type{ + TypeKind: &exprpb.Type_Null{ + Null: structpb.NullValue_NULL_VALUE}} + checkedListDyn = &exprpb.Type{ + TypeKind: &exprpb.Type_ListType_{ + ListType: &exprpb.Type_ListType{ElemType: checkedDyn}}} + checkedMapStringDyn = &exprpb.Type{ + TypeKind: &exprpb.Type_MapType_{ + MapType: &exprpb.Type_MapType{ + KeyType: checkedString, + ValueType: checkedDyn}}} +) diff --git a/vendor/github.com/google/cel-go/common/types/pb/enum.go b/vendor/github.com/google/cel-go/common/types/pb/enum.go new file mode 100644 index 000000000..4a26b5c7c --- /dev/null +++ b/vendor/github.com/google/cel-go/common/types/pb/enum.go @@ -0,0 +1,44 @@ +// Copyright 2018 Google LLC +// +// Licensed under the Apache License, Version 2.0 (the "License"); +// you may not use this file except in compliance with the License. +// You may obtain a copy of the License at +// +// http://www.apache.org/licenses/LICENSE-2.0 +// +// Unless required by applicable law or agreed to in writing, software +// distributed under the License is distributed on an "AS IS" BASIS, +// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. +// See the License for the specific language governing permissions and +// limitations under the License. + +package pb + +import ( + "google.golang.org/protobuf/reflect/protoreflect" +) + +// NewEnumValueDescription produces an enum value description with the fully qualified enum value +// name and the enum value descriptor. +func NewEnumValueDescription(name string, desc protoreflect.EnumValueDescriptor) *EnumValueDescription { + return &EnumValueDescription{ + enumValueName: name, + desc: desc, + } +} + +// EnumValueDescription maps a fully-qualified enum value name to its numeric value. +type EnumValueDescription struct { + enumValueName string + desc protoreflect.EnumValueDescriptor +} + +// Name returns the fully-qualified identifier name for the enum value. +func (ed *EnumValueDescription) Name() string { + return ed.enumValueName +} + +// Value returns the (numeric) value of the enum. +func (ed *EnumValueDescription) Value() int32 { + return int32(ed.desc.Number()) +} diff --git a/vendor/github.com/google/cel-go/common/types/pb/file.go b/vendor/github.com/google/cel-go/common/types/pb/file.go new file mode 100644 index 000000000..0bcade75f --- /dev/null +++ b/vendor/github.com/google/cel-go/common/types/pb/file.go @@ -0,0 +1,141 @@ +// Copyright 2018 Google LLC +// +// Licensed under the Apache License, Version 2.0 (the "License"); +// you may not use this file except in compliance with the License. +// You may obtain a copy of the License at +// +// http://www.apache.org/licenses/LICENSE-2.0 +// +// Unless required by applicable law or agreed to in writing, software +// distributed under the License is distributed on an "AS IS" BASIS, +// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. +// See the License for the specific language governing permissions and +// limitations under the License. + +package pb + +import ( + "fmt" + + "google.golang.org/protobuf/reflect/protoreflect" +) + +// NewFileDescription returns a FileDescription instance with a complete listing of all the message +// types and enum values declared within any scope in the file. +func NewFileDescription(fileDesc protoreflect.FileDescriptor, pbdb *Db) *FileDescription { + metadata := collectFileMetadata(fileDesc) + enums := make(map[string]*EnumValueDescription) + for name, enumVal := range metadata.enumValues { + enums[name] = NewEnumValueDescription(name, enumVal) + } + types := make(map[string]*TypeDescription) + for name, msgType := range metadata.msgTypes { + types[name] = NewTypeDescription(name, msgType) + } + return &FileDescription{ + types: types, + enums: enums, + } +} + +// FileDescription holds a map of all types and enum values declared within a proto file. +type FileDescription struct { + types map[string]*TypeDescription + enums map[string]*EnumValueDescription +} + +// GetEnumDescription returns an EnumDescription for a qualified enum value +// name declared within the .proto file. +func (fd *FileDescription) GetEnumDescription(enumName string) (*EnumValueDescription, bool) { + ed, found := fd.enums[sanitizeProtoName(enumName)] + return ed, found +} + +// GetEnumNames returns the string names of all enum values in the file. +func (fd *FileDescription) GetEnumNames() []string { + enumNames := make([]string, len(fd.enums)) + i := 0 + for _, e := range fd.enums { + enumNames[i] = e.Name() + i++ + } + return enumNames +} + +// GetTypeDescription returns a TypeDescription for a qualified protobuf message type name +// declared within the .proto file. +func (fd *FileDescription) GetTypeDescription(typeName string) (*TypeDescription, bool) { + td, found := fd.types[sanitizeProtoName(typeName)] + return td, found +} + +// GetTypeNames returns the list of all type names contained within the file. +func (fd *FileDescription) GetTypeNames() []string { + typeNames := make([]string, len(fd.types)) + i := 0 + for _, t := range fd.types { + typeNames[i] = t.Name() + i++ + } + return typeNames +} + +// sanitizeProtoName strips the leading '.' from the proto message name. +func sanitizeProtoName(name string) string { + if name != "" && name[0] == '.' { + return name[1:] + } + return name +} + +// fileMetadata is a flattened view of message types and enum values within a file descriptor. +type fileMetadata struct { + // msgTypes maps from fully-qualified message name to descriptor. + msgTypes map[string]protoreflect.MessageDescriptor + // enumValues maps from fully-qualified enum value to enum value descriptor. + enumValues map[string]protoreflect.EnumValueDescriptor + // TODO: support enum type definitions for use in future type-check enhancements. +} + +// collectFileMetadata traverses the proto file object graph to collect message types and enum +// values and index them by their fully qualified names. +func collectFileMetadata(fileDesc protoreflect.FileDescriptor) *fileMetadata { + msgTypes := make(map[string]protoreflect.MessageDescriptor) + enumValues := make(map[string]protoreflect.EnumValueDescriptor) + collectMsgTypes(fileDesc.Messages(), msgTypes, enumValues) + collectEnumValues(fileDesc.Enums(), enumValues) + return &fileMetadata{ + msgTypes: msgTypes, + enumValues: enumValues, + } +} + +// collectMsgTypes recursively collects messages, nested messages, and nested enums into a map of +// fully qualified protobuf names to descriptors. +func collectMsgTypes(msgTypes protoreflect.MessageDescriptors, msgTypeMap map[string]protoreflect.MessageDescriptor, enumValueMap map[string]protoreflect.EnumValueDescriptor) { + for i := 0; i < msgTypes.Len(); i++ { + msgType := msgTypes.Get(i) + msgTypeMap[string(msgType.FullName())] = msgType + nestedMsgTypes := msgType.Messages() + if nestedMsgTypes.Len() != 0 { + collectMsgTypes(nestedMsgTypes, msgTypeMap, enumValueMap) + } + nestedEnumTypes := msgType.Enums() + if nestedEnumTypes.Len() != 0 { + collectEnumValues(nestedEnumTypes, enumValueMap) + } + } +} + +// collectEnumValues accumulates the enum values within an enum declaration. +func collectEnumValues(enumTypes protoreflect.EnumDescriptors, enumValueMap map[string]protoreflect.EnumValueDescriptor) { + for i := 0; i < enumTypes.Len(); i++ { + enumType := enumTypes.Get(i) + enumTypeValues := enumType.Values() + for j := 0; j < enumTypeValues.Len(); j++ { + enumValue := enumTypeValues.Get(j) + enumValueName := fmt.Sprintf("%s.%s", string(enumType.FullName()), string(enumValue.Name())) + enumValueMap[enumValueName] = enumValue + } + } +} diff --git a/vendor/github.com/google/cel-go/common/types/pb/pb.go b/vendor/github.com/google/cel-go/common/types/pb/pb.go new file mode 100644 index 000000000..d02fbe0c2 --- /dev/null +++ b/vendor/github.com/google/cel-go/common/types/pb/pb.go @@ -0,0 +1,196 @@ +// Copyright 2018 Google LLC +// +// Licensed under the Apache License, Version 2.0 (the "License"); +// you may not use this file except in compliance with the License. +// You may obtain a copy of the License at +// +// http://www.apache.org/licenses/LICENSE-2.0 +// +// Unless required by applicable law or agreed to in writing, software +// distributed under the License is distributed on an "AS IS" BASIS, +// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. +// See the License for the specific language governing permissions and +// limitations under the License. + +// Package pb reflects over protocol buffer descriptors to generate objects +// that simplify type, enum, and field lookup. +package pb + +import ( + "google.golang.org/protobuf/proto" + "google.golang.org/protobuf/reflect/protoreflect" + "google.golang.org/protobuf/reflect/protoregistry" + + anypb "google.golang.org/protobuf/types/known/anypb" + durpb "google.golang.org/protobuf/types/known/durationpb" + emptypb "google.golang.org/protobuf/types/known/emptypb" + structpb "google.golang.org/protobuf/types/known/structpb" + tspb "google.golang.org/protobuf/types/known/timestamppb" + wrapperspb "google.golang.org/protobuf/types/known/wrapperspb" +) + +// Db maps from file / message / enum name to file description. +// +// Each Db is isolated from each other, and while information about protobuf descriptors may be +// fetched from the global protobuf registry, no descriptors are added to this registry, else +// the isolation guarantees of the Db object would be violated. +type Db struct { + revFileDescriptorMap map[string]*FileDescription + // files contains the deduped set of FileDescriptions whose types are contained in the pb.Db. + files []*FileDescription +} + +var ( + // DefaultDb used at evaluation time or unless overridden at check time. + DefaultDb = &Db{ + revFileDescriptorMap: make(map[string]*FileDescription), + files: []*FileDescription{}, + } +) + +// NewDb creates a new `pb.Db` with an empty type name to file description map. +func NewDb() *Db { + pbdb := &Db{ + revFileDescriptorMap: make(map[string]*FileDescription), + files: []*FileDescription{}, + } + // The FileDescription objects in the default db contain lazily initialized TypeDescription + // values which may point to the state contained in the DefaultDb irrespective of this shallow + // copy; however, the type graph for a field is idempotently computed, and is guaranteed to + // only be initialized once thanks to atomic values within the TypeDescription objects, so it + // is safe to share these values across instances. + for k, v := range DefaultDb.revFileDescriptorMap { + pbdb.revFileDescriptorMap[k] = v + } + pbdb.files = append(pbdb.files, DefaultDb.files...) + return pbdb +} + +// Copy creates a copy of the current database with its own internal descriptor mapping. +func (pbdb *Db) Copy() *Db { + copy := NewDb() + for k, v := range pbdb.revFileDescriptorMap { + copy.revFileDescriptorMap[k] = v + } + for _, f := range pbdb.files { + hasFile := false + for _, f2 := range copy.files { + if f2 == f { + hasFile = true + } + } + if !hasFile { + copy.files = append(copy.files, f) + } + } + return copy +} + +// FileDescriptions returns the set of file descriptions associated with this db. +func (pbdb *Db) FileDescriptions() []*FileDescription { + return pbdb.files +} + +// RegisterDescriptor produces a `FileDescription` from a `FileDescriptor` and registers the +// message and enum types into the `pb.Db`. +func (pbdb *Db) RegisterDescriptor(fileDesc protoreflect.FileDescriptor) (*FileDescription, error) { + fd, found := pbdb.revFileDescriptorMap[fileDesc.Path()] + if found { + return fd, nil + } + // Make sure to search the global registry to see if a protoreflect.FileDescriptor for + // the file specified has been linked into the binary. If so, use the copy of the descriptor + // from the global cache. + // + // Note: Proto reflection relies on descriptor values being object equal rather than object + // equivalence. This choice means that a FieldDescriptor generated from a FileDescriptorProto + // will be incompatible with the FieldDescriptor in the global registry and any message created + // from that global registry. + globalFD, err := protoregistry.GlobalFiles.FindFileByPath(fileDesc.Path()) + if err == nil { + fileDesc = globalFD + } + fd = NewFileDescription(fileDesc, pbdb) + for _, enumValName := range fd.GetEnumNames() { + pbdb.revFileDescriptorMap[enumValName] = fd + } + for _, msgTypeName := range fd.GetTypeNames() { + pbdb.revFileDescriptorMap[msgTypeName] = fd + } + pbdb.revFileDescriptorMap[fileDesc.Path()] = fd + + // Return the specific file descriptor registered. + pbdb.files = append(pbdb.files, fd) + return fd, nil +} + +// RegisterMessage produces a `FileDescription` from a `message` and registers the message and all +// other definitions within the message file into the `pb.Db`. +func (pbdb *Db) RegisterMessage(message proto.Message) (*FileDescription, error) { + msgDesc := message.ProtoReflect().Descriptor() + msgName := msgDesc.FullName() + typeName := sanitizeProtoName(string(msgName)) + if fd, found := pbdb.revFileDescriptorMap[typeName]; found { + return fd, nil + } + return pbdb.RegisterDescriptor(msgDesc.ParentFile()) +} + +// DescribeEnum takes a qualified enum name and returns an `EnumDescription` if it exists in the +// `pb.Db`. +func (pbdb *Db) DescribeEnum(enumName string) (*EnumValueDescription, bool) { + enumName = sanitizeProtoName(enumName) + if fd, found := pbdb.revFileDescriptorMap[enumName]; found { + return fd.GetEnumDescription(enumName) + } + return nil, false +} + +// DescribeType returns a `TypeDescription` for the `typeName` if it exists in the `pb.Db`. +func (pbdb *Db) DescribeType(typeName string) (*TypeDescription, bool) { + typeName = sanitizeProtoName(typeName) + if fd, found := pbdb.revFileDescriptorMap[typeName]; found { + return fd.GetTypeDescription(typeName) + } + return nil, false +} + +// CollectFileDescriptorSet builds a file descriptor set associated with the file where the input +// message is declared. +func CollectFileDescriptorSet(message proto.Message) map[string]protoreflect.FileDescriptor { + fdMap := map[string]protoreflect.FileDescriptor{} + parentFile := message.ProtoReflect().Descriptor().ParentFile() + fdMap[parentFile.Path()] = parentFile + // Initialize list of dependencies + deps := make([]protoreflect.FileImport, parentFile.Imports().Len()) + for i := 0; i < parentFile.Imports().Len(); i++ { + deps[i] = parentFile.Imports().Get(i) + } + // Expand list for new dependencies + for i := 0; i < len(deps); i++ { + dep := deps[i] + if _, found := fdMap[dep.Path()]; found { + continue + } + fdMap[dep.Path()] = dep.FileDescriptor + for j := 0; j < dep.FileDescriptor.Imports().Len(); j++ { + deps = append(deps, dep.FileDescriptor.Imports().Get(j)) + } + } + return fdMap +} + +func init() { + // Describe well-known types to ensure they can always be resolved by the check and interpret + // execution phases. + // + // The following subset of message types is enough to ensure that all well-known types can + // resolved in the runtime, since describing the value results in describing the whole file + // where the message is declared. + DefaultDb.RegisterMessage(&anypb.Any{}) + DefaultDb.RegisterMessage(&durpb.Duration{}) + DefaultDb.RegisterMessage(&emptypb.Empty{}) + DefaultDb.RegisterMessage(&tspb.Timestamp{}) + DefaultDb.RegisterMessage(&structpb.Value{}) + DefaultDb.RegisterMessage(&wrapperspb.BoolValue{}) +} diff --git a/vendor/github.com/google/cel-go/common/types/pb/type.go b/vendor/github.com/google/cel-go/common/types/pb/type.go new file mode 100644 index 000000000..8594008b1 --- /dev/null +++ b/vendor/github.com/google/cel-go/common/types/pb/type.go @@ -0,0 +1,532 @@ +// Copyright 2018 Google LLC +// +// Licensed under the Apache License, Version 2.0 (the "License"); +// you may not use this file except in compliance with the License. +// You may obtain a copy of the License at +// +// http://www.apache.org/licenses/LICENSE-2.0 +// +// Unless required by applicable law or agreed to in writing, software +// distributed under the License is distributed on an "AS IS" BASIS, +// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. +// See the License for the specific language governing permissions and +// limitations under the License. + +package pb + +import ( + "fmt" + "reflect" + + "google.golang.org/protobuf/proto" + "google.golang.org/protobuf/reflect/protoreflect" + + exprpb "google.golang.org/genproto/googleapis/api/expr/v1alpha1" + dynamicpb "google.golang.org/protobuf/types/dynamicpb" + anypb "google.golang.org/protobuf/types/known/anypb" + dpb "google.golang.org/protobuf/types/known/durationpb" + structpb "google.golang.org/protobuf/types/known/structpb" + tpb "google.golang.org/protobuf/types/known/timestamppb" + wrapperspb "google.golang.org/protobuf/types/known/wrapperspb" +) + +// description is a private interface used to make it convenient to perform type unwrapping at +// the TypeDescription or FieldDescription level. +type description interface { + // Zero returns an empty immutable protobuf message when the description is a protobuf message + // type. + Zero() proto.Message +} + +// NewTypeDescription produces a TypeDescription value for the fully-qualified proto type name +// with a given descriptor. +func NewTypeDescription(typeName string, desc protoreflect.MessageDescriptor) *TypeDescription { + msgType := dynamicpb.NewMessageType(desc) + msgZero := dynamicpb.NewMessage(desc) + fieldMap := map[string]*FieldDescription{} + fields := desc.Fields() + for i := 0; i < fields.Len(); i++ { + f := fields.Get(i) + fieldMap[string(f.Name())] = NewFieldDescription(f) + } + return &TypeDescription{ + typeName: typeName, + desc: desc, + msgType: msgType, + fieldMap: fieldMap, + reflectType: reflectTypeOf(msgZero), + zeroMsg: zeroValueOf(msgZero), + } +} + +// TypeDescription is a collection of type metadata relevant to expression +// checking and evaluation. +type TypeDescription struct { + typeName string + desc protoreflect.MessageDescriptor + msgType protoreflect.MessageType + fieldMap map[string]*FieldDescription + reflectType reflect.Type + zeroMsg proto.Message +} + +// FieldMap returns a string field name to FieldDescription map. +func (td *TypeDescription) FieldMap() map[string]*FieldDescription { + return td.fieldMap +} + +// FieldByName returns (FieldDescription, true) if the field name is declared within the type. +func (td *TypeDescription) FieldByName(name string) (*FieldDescription, bool) { + fd, found := td.fieldMap[name] + if !found { + return nil, false + } + return fd, true +} + +// MaybeUnwrap accepts a proto message as input and unwraps it to a primitive CEL type if possible. +// +// This method returns the unwrapped value and 'true', else the original value and 'false'. +func (td *TypeDescription) MaybeUnwrap(msg proto.Message) (interface{}, bool) { + return unwrap(td, msg) +} + +// Name returns the fully-qualified name of the type. +func (td *TypeDescription) Name() string { + return string(td.desc.FullName()) +} + +// New returns a mutable proto message +func (td *TypeDescription) New() protoreflect.Message { + return td.msgType.New() +} + +// ReflectType returns the Golang reflect.Type for this type. +func (td *TypeDescription) ReflectType() reflect.Type { + return td.reflectType +} + +// Zero returns the zero proto.Message value for this type. +func (td *TypeDescription) Zero() proto.Message { + return td.zeroMsg +} + +// NewFieldDescription creates a new field description from a protoreflect.FieldDescriptor. +func NewFieldDescription(fieldDesc protoreflect.FieldDescriptor) *FieldDescription { + var reflectType reflect.Type + var zeroMsg proto.Message + switch fieldDesc.Kind() { + case protoreflect.EnumKind: + reflectType = reflectTypeOf(protoreflect.EnumNumber(0)) + case protoreflect.MessageKind: + zeroMsg = dynamicpb.NewMessage(fieldDesc.Message()) + reflectType = reflectTypeOf(zeroMsg) + default: + reflectType = reflectTypeOf(fieldDesc.Default().Interface()) + if fieldDesc.IsList() { + parentMsg := dynamicpb.NewMessage(fieldDesc.ContainingMessage()) + listField := parentMsg.NewField(fieldDesc).List() + elem := listField.NewElement().Interface() + switch elemType := elem.(type) { + case protoreflect.Message: + elem = elemType.Interface() + } + reflectType = reflectTypeOf(elem) + } + } + // Ensure the list type is appropriately reflected as a Go-native list. + if fieldDesc.IsList() { + reflectType = reflect.SliceOf(reflectType) + } + var keyType, valType *FieldDescription + if fieldDesc.IsMap() { + keyType = NewFieldDescription(fieldDesc.MapKey()) + valType = NewFieldDescription(fieldDesc.MapValue()) + } + return &FieldDescription{ + desc: fieldDesc, + KeyType: keyType, + ValueType: valType, + reflectType: reflectType, + zeroMsg: zeroValueOf(zeroMsg), + } +} + +// FieldDescription holds metadata related to fields declared within a type. +type FieldDescription struct { + // KeyType holds the key FieldDescription for map fields. + KeyType *FieldDescription + // ValueType holds the value FieldDescription for map fields. + ValueType *FieldDescription + + desc protoreflect.FieldDescriptor + reflectType reflect.Type + zeroMsg proto.Message +} + +// CheckedType returns the type-definition used at type-check time. +func (fd *FieldDescription) CheckedType() *exprpb.Type { + if fd.desc.IsMap() { + return &exprpb.Type{ + TypeKind: &exprpb.Type_MapType_{ + MapType: &exprpb.Type_MapType{ + KeyType: fd.KeyType.typeDefToType(), + ValueType: fd.ValueType.typeDefToType(), + }, + }, + } + } + if fd.desc.IsList() { + return &exprpb.Type{ + TypeKind: &exprpb.Type_ListType_{ + ListType: &exprpb.Type_ListType{ + ElemType: fd.typeDefToType()}}} + } + return fd.typeDefToType() +} + +// Descriptor returns the protoreflect.FieldDescriptor for this type. +func (fd *FieldDescription) Descriptor() protoreflect.FieldDescriptor { + return fd.desc +} + +// IsSet returns whether the field is set on the target value, per the proto presence conventions +// of proto2 or proto3 accordingly. +// +// This function implements the FieldType.IsSet function contract which can be used to operate on +// more than just protobuf field accesses; however, the target here must be a protobuf.Message. +func (fd *FieldDescription) IsSet(target interface{}) bool { + switch v := target.(type) { + case proto.Message: + pbRef := v.ProtoReflect() + pbDesc := pbRef.Descriptor() + if pbDesc == fd.desc.ContainingMessage() { + // When the target protobuf shares the same message descriptor instance as the field + // descriptor, use the cached field descriptor value. + return pbRef.Has(fd.desc) + } + // Otherwise, fallback to a dynamic lookup of the field descriptor from the target + // instance as an attempt to use the cached field descriptor will result in a panic. + return pbRef.Has(pbDesc.Fields().ByName(protoreflect.Name(fd.Name()))) + default: + return false + } +} + +// GetFrom returns the accessor method associated with the field on the proto generated struct. +// +// If the field is not set, the proto default value is returned instead. +// +// This function implements the FieldType.GetFrom function contract which can be used to operate +// on more than just protobuf field accesses; however, the target here must be a protobuf.Message. +func (fd *FieldDescription) GetFrom(target interface{}) (interface{}, error) { + v, ok := target.(proto.Message) + if !ok { + return nil, fmt.Errorf("unsupported field selection target: (%T)%v", target, target) + } + pbRef := v.ProtoReflect() + pbDesc := pbRef.Descriptor() + var fieldVal interface{} + if pbDesc == fd.desc.ContainingMessage() { + // When the target protobuf shares the same message descriptor instance as the field + // descriptor, use the cached field descriptor value. + fieldVal = pbRef.Get(fd.desc).Interface() + } else { + // Otherwise, fallback to a dynamic lookup of the field descriptor from the target + // instance as an attempt to use the cached field descriptor will result in a panic. + fieldVal = pbRef.Get(pbDesc.Fields().ByName(protoreflect.Name(fd.Name()))).Interface() + } + switch fv := fieldVal.(type) { + // Fast-path return for primitive types. + case bool, []byte, float32, float64, int32, int64, string, uint32, uint64, protoreflect.List: + return fv, nil + case protoreflect.EnumNumber: + return int64(fv), nil + case protoreflect.Map: + // Return a wrapper around the protobuf-reflected Map types which carries additional + // information about the key and value definitions of the map. + return &Map{Map: fv, KeyType: fd.KeyType, ValueType: fd.ValueType}, nil + case protoreflect.Message: + // Make sure to unwrap well-known protobuf types before returning. + unwrapped, _ := fd.MaybeUnwrapDynamic(fv) + return unwrapped, nil + default: + return fv, nil + } +} + +// IsEnum returns true if the field type refers to an enum value. +func (fd *FieldDescription) IsEnum() bool { + return fd.desc.Kind() == protoreflect.EnumKind +} + +// IsMap returns true if the field is of map type. +func (fd *FieldDescription) IsMap() bool { + return fd.desc.IsMap() +} + +// IsMessage returns true if the field is of message type. +func (fd *FieldDescription) IsMessage() bool { + return fd.desc.Kind() == protoreflect.MessageKind +} + +// IsOneof returns true if the field is declared within a oneof block. +func (fd *FieldDescription) IsOneof() bool { + return fd.desc.ContainingOneof() != nil +} + +// IsList returns true if the field is a repeated value. +// +// This method will also return true for map values, so check whether the +// field is also a map. +func (fd *FieldDescription) IsList() bool { + return fd.desc.IsList() +} + +// MaybeUnwrapDynamic takes the reflected protoreflect.Message and determines whether the +// value can be unwrapped to a more primitive CEL type. +// +// This function returns the unwrapped value and 'true' on success, or the original value +// and 'false' otherwise. +func (fd *FieldDescription) MaybeUnwrapDynamic(msg protoreflect.Message) (interface{}, bool) { + return unwrapDynamic(fd, msg) +} + +// Name returns the CamelCase name of the field within the proto-based struct. +func (fd *FieldDescription) Name() string { + return string(fd.desc.Name()) +} + +// ReflectType returns the Golang reflect.Type for this field. +func (fd *FieldDescription) ReflectType() reflect.Type { + return fd.reflectType +} + +// String returns the fully qualified name of the field within its type as well as whether the +// field occurs within a oneof. +func (fd *FieldDescription) String() string { + return fmt.Sprintf("%v.%s `oneof=%t`", fd.desc.ContainingMessage().FullName(), fd.Name(), fd.IsOneof()) +} + +// Zero returns the zero value for the protobuf message represented by this field. +// +// If the field is not a proto.Message type, the zero value is nil. +func (fd *FieldDescription) Zero() proto.Message { + return fd.zeroMsg +} + +func (fd *FieldDescription) typeDefToType() *exprpb.Type { + if fd.desc.Kind() == protoreflect.MessageKind { + msgType := string(fd.desc.Message().FullName()) + if wk, found := CheckedWellKnowns[msgType]; found { + return wk + } + return checkedMessageType(msgType) + } + if fd.desc.Kind() == protoreflect.EnumKind { + return checkedInt + } + return CheckedPrimitives[fd.desc.Kind()] +} + +// Map wraps the protoreflect.Map object with a key and value FieldDescription for use in +// retrieving individual elements within CEL value data types. +type Map struct { + protoreflect.Map + KeyType *FieldDescription + ValueType *FieldDescription +} + +func checkedMessageType(name string) *exprpb.Type { + return &exprpb.Type{ + TypeKind: &exprpb.Type_MessageType{MessageType: name}} +} + +func checkedPrimitive(primitive exprpb.Type_PrimitiveType) *exprpb.Type { + return &exprpb.Type{ + TypeKind: &exprpb.Type_Primitive{Primitive: primitive}} +} + +func checkedWellKnown(wellKnown exprpb.Type_WellKnownType) *exprpb.Type { + return &exprpb.Type{ + TypeKind: &exprpb.Type_WellKnown{WellKnown: wellKnown}} +} + +func checkedWrap(t *exprpb.Type) *exprpb.Type { + return &exprpb.Type{ + TypeKind: &exprpb.Type_Wrapper{Wrapper: t.GetPrimitive()}} +} + +// unwrap unwraps the provided proto.Message value, potentially based on the description if the +// input message is a *dynamicpb.Message which obscures the typing information from Go. +// +// Returns the unwrapped value and 'true' if unwrapped, otherwise the input value and 'false'. +func unwrap(desc description, msg proto.Message) (interface{}, bool) { + switch v := msg.(type) { + case *anypb.Any: + dynMsg, err := v.UnmarshalNew() + if err != nil { + return v, false + } + return unwrapDynamic(desc, dynMsg.ProtoReflect()) + case *dynamicpb.Message: + return unwrapDynamic(desc, v) + case *dpb.Duration: + return v.AsDuration(), true + case *tpb.Timestamp: + return v.AsTime(), true + case *structpb.Value: + switch v.GetKind().(type) { + case *structpb.Value_BoolValue: + return v.GetBoolValue(), true + case *structpb.Value_ListValue: + return v.GetListValue(), true + case *structpb.Value_NullValue: + return structpb.NullValue_NULL_VALUE, true + case *structpb.Value_NumberValue: + return v.GetNumberValue(), true + case *structpb.Value_StringValue: + return v.GetStringValue(), true + case *structpb.Value_StructValue: + return v.GetStructValue(), true + default: + return structpb.NullValue_NULL_VALUE, true + } + case *wrapperspb.BoolValue: + return v.GetValue(), true + case *wrapperspb.BytesValue: + return v.GetValue(), true + case *wrapperspb.DoubleValue: + return v.GetValue(), true + case *wrapperspb.FloatValue: + return float64(v.GetValue()), true + case *wrapperspb.Int32Value: + return int64(v.GetValue()), true + case *wrapperspb.Int64Value: + return v.GetValue(), true + case *wrapperspb.StringValue: + return v.GetValue(), true + case *wrapperspb.UInt32Value: + return uint64(v.GetValue()), true + case *wrapperspb.UInt64Value: + return v.GetValue(), true + } + return msg, false +} + +// unwrapDynamic unwraps a reflected protobuf Message value. +// +// Returns the unwrapped value and 'true' if unwrapped, otherwise the input value and 'false'. +func unwrapDynamic(desc description, refMsg protoreflect.Message) (interface{}, bool) { + msg := refMsg.Interface() + if !refMsg.IsValid() { + msg = desc.Zero() + } + // In order to ensure that these wrapped types match the expectations of the CEL type system + // the dynamicpb.Message must be merged with an protobuf instance of the well-known type value. + typeName := string(refMsg.Descriptor().FullName()) + switch typeName { + case "google.protobuf.Any": + // Note, Any values require further unwrapping; however, this unwrapping may or may not + // be to a well-known type. If the unwrapped value is a well-known type it will be further + // unwrapped before being returned to the caller. Otherwise, the dynamic protobuf object + // represented by the Any will be returned. + unwrappedAny := &anypb.Any{} + proto.Merge(unwrappedAny, msg) + dynMsg, err := unwrappedAny.UnmarshalNew() + if err != nil { + // Allow the error to move further up the stack as it should result in an type + // conversion error if the caller does not recover it somehow. + return unwrappedAny, true + } + // Attempt to unwrap the dynamic type, otherwise return the dynamic message. + if unwrapped, nested := unwrapDynamic(desc, dynMsg.ProtoReflect()); nested { + return unwrapped, true + } + return dynMsg, true + case "google.protobuf.BoolValue", + "google.protobuf.BytesValue", + "google.protobuf.DoubleValue", + "google.protobuf.FloatValue", + "google.protobuf.Int32Value", + "google.protobuf.Int64Value", + "google.protobuf.StringValue", + "google.protobuf.UInt32Value", + "google.protobuf.UInt64Value": + // The msg value is ignored when dealing with wrapper types as they have a null or value + // behavior, rather than the standard zero value behavior of other proto message types. + if !refMsg.IsValid() { + return structpb.NullValue_NULL_VALUE, true + } + valueField := refMsg.Descriptor().Fields().ByName("value") + return refMsg.Get(valueField).Interface(), true + case "google.protobuf.Duration": + unwrapped := &dpb.Duration{} + proto.Merge(unwrapped, msg) + return unwrapped.AsDuration(), true + case "google.protobuf.ListValue": + unwrapped := &structpb.ListValue{} + proto.Merge(unwrapped, msg) + return unwrapped, true + case "google.protobuf.NullValue": + return structpb.NullValue_NULL_VALUE, true + case "google.protobuf.Struct": + unwrapped := &structpb.Struct{} + proto.Merge(unwrapped, msg) + return unwrapped, true + case "google.protobuf.Timestamp": + unwrapped := &tpb.Timestamp{} + proto.Merge(unwrapped, msg) + return unwrapped.AsTime(), true + case "google.protobuf.Value": + unwrapped := &structpb.Value{} + proto.Merge(unwrapped, msg) + return unwrap(desc, unwrapped) + } + return msg, false +} + +// reflectTypeOf intercepts the reflect.Type call to ensure that dynamicpb.Message types preserve +// well-known protobuf reflected types expected by the CEL type system. +func reflectTypeOf(val interface{}) reflect.Type { + switch v := val.(type) { + case proto.Message: + return reflect.TypeOf(zeroValueOf(v)) + default: + return reflect.TypeOf(v) + } +} + +// zeroValueOf will return the strongest possible proto.Message representing the default protobuf +// message value of the input msg type. +func zeroValueOf(msg proto.Message) proto.Message { + if msg == nil { + return nil + } + typeName := string(msg.ProtoReflect().Descriptor().FullName()) + zeroVal, found := zeroValueMap[typeName] + if found { + return zeroVal + } + return msg +} + +var ( + zeroValueMap = map[string]proto.Message{ + "google.protobuf.Any": &anypb.Any{}, + "google.protobuf.Duration": &dpb.Duration{}, + "google.protobuf.ListValue": &structpb.ListValue{}, + "google.protobuf.Struct": &structpb.Struct{}, + "google.protobuf.Timestamp": &tpb.Timestamp{}, + "google.protobuf.Value": &structpb.Value{}, + "google.protobuf.BoolValue": wrapperspb.Bool(false), + "google.protobuf.BytesValue": wrapperspb.Bytes([]byte{}), + "google.protobuf.DoubleValue": wrapperspb.Double(0.0), + "google.protobuf.FloatValue": wrapperspb.Float(0.0), + "google.protobuf.Int32Value": wrapperspb.Int32(0), + "google.protobuf.Int64Value": wrapperspb.Int64(0), + "google.protobuf.StringValue": wrapperspb.String(""), + "google.protobuf.UInt32Value": wrapperspb.UInt32(0), + "google.protobuf.UInt64Value": wrapperspb.UInt64(0), + } +) diff --git a/vendor/github.com/google/cel-go/common/types/provider.go b/vendor/github.com/google/cel-go/common/types/provider.go new file mode 100644 index 000000000..3ab30b763 --- /dev/null +++ b/vendor/github.com/google/cel-go/common/types/provider.go @@ -0,0 +1,533 @@ +// Copyright 2018 Google LLC +// +// Licensed under the Apache License, Version 2.0 (the "License"); +// you may not use this file except in compliance with the License. +// You may obtain a copy of the License at +// +// http://www.apache.org/licenses/LICENSE-2.0 +// +// Unless required by applicable law or agreed to in writing, software +// distributed under the License is distributed on an "AS IS" BASIS, +// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. +// See the License for the specific language governing permissions and +// limitations under the License. + +package types + +import ( + "fmt" + "reflect" + "time" + + "github.com/google/cel-go/common/types/pb" + "github.com/google/cel-go/common/types/ref" + "github.com/google/cel-go/common/types/traits" + "google.golang.org/protobuf/proto" + "google.golang.org/protobuf/reflect/protoreflect" + + exprpb "google.golang.org/genproto/googleapis/api/expr/v1alpha1" + anypb "google.golang.org/protobuf/types/known/anypb" + dpb "google.golang.org/protobuf/types/known/durationpb" + structpb "google.golang.org/protobuf/types/known/structpb" + tpb "google.golang.org/protobuf/types/known/timestamppb" +) + +type protoTypeRegistry struct { + revTypeMap map[string]ref.Type + pbdb *pb.Db +} + +// NewRegistry accepts a list of proto message instances and returns a type +// provider which can create new instances of the provided message or any +// message that proto depends upon in its FileDescriptor. +func NewRegistry(types ...proto.Message) (ref.TypeRegistry, error) { + p := &protoTypeRegistry{ + revTypeMap: make(map[string]ref.Type), + pbdb: pb.NewDb(), + } + err := p.RegisterType( + BoolType, + BytesType, + DoubleType, + DurationType, + IntType, + ListType, + MapType, + NullType, + StringType, + TimestampType, + TypeType, + UintType) + if err != nil { + return nil, err + } + // This block ensures that the well-known protobuf types are registered by default. + for _, fd := range p.pbdb.FileDescriptions() { + err = p.registerAllTypes(fd) + if err != nil { + return nil, err + } + } + for _, msgType := range types { + err = p.RegisterMessage(msgType) + if err != nil { + return nil, err + } + } + return p, nil +} + +// NewEmptyRegistry returns a registry which is completely unconfigured. +func NewEmptyRegistry() ref.TypeRegistry { + return &protoTypeRegistry{ + revTypeMap: make(map[string]ref.Type), + pbdb: pb.NewDb(), + } +} + +// Copy implements the ref.TypeRegistry interface method which copies the current state of the +// registry into its own memory space. +func (p *protoTypeRegistry) Copy() ref.TypeRegistry { + copy := &protoTypeRegistry{ + revTypeMap: make(map[string]ref.Type), + pbdb: p.pbdb.Copy(), + } + for k, v := range p.revTypeMap { + copy.revTypeMap[k] = v + } + return copy +} + +func (p *protoTypeRegistry) EnumValue(enumName string) ref.Val { + enumVal, found := p.pbdb.DescribeEnum(enumName) + if !found { + return NewErr("unknown enum name '%s'", enumName) + } + return Int(enumVal.Value()) +} + +func (p *protoTypeRegistry) FindFieldType(messageType string, + fieldName string) (*ref.FieldType, bool) { + msgType, found := p.pbdb.DescribeType(messageType) + if !found { + return nil, false + } + field, found := msgType.FieldByName(fieldName) + if !found { + return nil, false + } + return &ref.FieldType{ + Type: field.CheckedType(), + IsSet: field.IsSet, + GetFrom: field.GetFrom}, + true +} + +func (p *protoTypeRegistry) FindIdent(identName string) (ref.Val, bool) { + if t, found := p.revTypeMap[identName]; found { + return t.(ref.Val), true + } + if enumVal, found := p.pbdb.DescribeEnum(identName); found { + return Int(enumVal.Value()), true + } + return nil, false +} + +func (p *protoTypeRegistry) FindType(typeName string) (*exprpb.Type, bool) { + if _, found := p.pbdb.DescribeType(typeName); !found { + return nil, false + } + if typeName != "" && typeName[0] == '.' { + typeName = typeName[1:] + } + return &exprpb.Type{ + TypeKind: &exprpb.Type_Type{ + Type: &exprpb.Type{ + TypeKind: &exprpb.Type_MessageType{ + MessageType: typeName}}}}, true +} + +func (p *protoTypeRegistry) NewValue(typeName string, fields map[string]ref.Val) ref.Val { + td, found := p.pbdb.DescribeType(typeName) + if !found { + return NewErr("unknown type '%s'", typeName) + } + msg := td.New() + fieldMap := td.FieldMap() + for name, value := range fields { + field, found := fieldMap[name] + if !found { + return NewErr("no such field: %s", name) + } + err := msgSetField(msg, field, value) + if err != nil { + return &Err{err} + } + } + return p.NativeToValue(msg.Interface()) +} + +func (p *protoTypeRegistry) RegisterDescriptor(fileDesc protoreflect.FileDescriptor) error { + fd, err := p.pbdb.RegisterDescriptor(fileDesc) + if err != nil { + return err + } + return p.registerAllTypes(fd) +} + +func (p *protoTypeRegistry) RegisterMessage(message proto.Message) error { + fd, err := p.pbdb.RegisterMessage(message) + if err != nil { + return err + } + return p.registerAllTypes(fd) +} + +func (p *protoTypeRegistry) RegisterType(types ...ref.Type) error { + for _, t := range types { + p.revTypeMap[t.TypeName()] = t + } + // TODO: generate an error when the type name is registered more than once. + return nil +} + +// NativeToValue converts various "native" types to ref.Val with this specific implementation +// providing support for custom proto-based types. +// +// This method should be the inverse of ref.Val.ConvertToNative. +func (p *protoTypeRegistry) NativeToValue(value interface{}) ref.Val { + if val, found := nativeToValue(p, value); found { + return val + } + switch v := value.(type) { + case proto.Message: + typeName := string(v.ProtoReflect().Descriptor().FullName()) + td, found := p.pbdb.DescribeType(typeName) + if !found { + return NewErr("unknown type: '%s'", typeName) + } + unwrapped, isUnwrapped := td.MaybeUnwrap(v) + if isUnwrapped { + return p.NativeToValue(unwrapped) + } + typeVal, found := p.FindIdent(typeName) + if !found { + return NewErr("unknown type: '%s'", typeName) + } + return NewObject(p, td, typeVal.(*TypeValue), v) + case *pb.Map: + return NewProtoMap(p, v) + case protoreflect.List: + return NewProtoList(p, v) + case protoreflect.Message: + return p.NativeToValue(v.Interface()) + case protoreflect.Value: + return p.NativeToValue(v.Interface()) + } + return UnsupportedRefValConversionErr(value) +} + +func (p *protoTypeRegistry) registerAllTypes(fd *pb.FileDescription) error { + for _, typeName := range fd.GetTypeNames() { + err := p.RegisterType(NewObjectTypeValue(typeName)) + if err != nil { + return err + } + } + return nil +} + +// defaultTypeAdapter converts go native types to CEL values. +type defaultTypeAdapter struct{} + +var ( + // DefaultTypeAdapter adapts canonical CEL types from their equivalent Go values. + DefaultTypeAdapter = &defaultTypeAdapter{} +) + +// NativeToValue implements the ref.TypeAdapter interface. +func (a *defaultTypeAdapter) NativeToValue(value interface{}) ref.Val { + if val, found := nativeToValue(a, value); found { + return val + } + return UnsupportedRefValConversionErr(value) +} + +// nativeToValue returns the converted (ref.Val, true) of a conversion is found, +// otherwise (nil, false) +func nativeToValue(a ref.TypeAdapter, value interface{}) (ref.Val, bool) { + switch v := value.(type) { + case nil: + return NullValue, true + case *Bool: + if v != nil { + return *v, true + } + case *Bytes: + if v != nil { + return *v, true + } + case *Double: + if v != nil { + return *v, true + } + case *Int: + if v != nil { + return *v, true + } + case *String: + if v != nil { + return *v, true + } + case *Uint: + if v != nil { + return *v, true + } + case bool: + return Bool(v), true + case int: + return Int(v), true + case int32: + return Int(v), true + case int64: + return Int(v), true + case uint: + return Uint(v), true + case uint32: + return Uint(v), true + case uint64: + return Uint(v), true + case float32: + return Double(v), true + case float64: + return Double(v), true + case string: + return String(v), true + case *dpb.Duration: + return Duration{Duration: v.AsDuration()}, true + case time.Duration: + return Duration{Duration: v}, true + case *tpb.Timestamp: + return Timestamp{Time: v.AsTime()}, true + case time.Time: + return Timestamp{Time: v}, true + case *bool: + if v != nil { + return Bool(*v), true + } + case *float32: + if v != nil { + return Double(*v), true + } + case *float64: + if v != nil { + return Double(*v), true + } + case *int: + if v != nil { + return Int(*v), true + } + case *int32: + if v != nil { + return Int(*v), true + } + case *int64: + if v != nil { + return Int(*v), true + } + case *string: + if v != nil { + return String(*v), true + } + case *uint: + if v != nil { + return Uint(*v), true + } + case *uint32: + if v != nil { + return Uint(*v), true + } + case *uint64: + if v != nil { + return Uint(*v), true + } + case []byte: + return Bytes(v), true + // specializations for common lists types. + case []string: + return NewStringList(a, v), true + case []ref.Val: + return NewRefValList(a, v), true + // specializations for common map types. + case map[string]string: + return NewStringStringMap(a, v), true + case map[string]interface{}: + return NewStringInterfaceMap(a, v), true + case map[ref.Val]ref.Val: + return NewRefValMap(a, v), true + // additional specializations may be added upon request / need. + case *anypb.Any: + if v == nil { + return UnsupportedRefValConversionErr(v), true + } + unpackedAny, err := v.UnmarshalNew() + if err != nil { + return NewErr("anypb.UnmarshalNew() failed for type %q: %v", v.GetTypeUrl(), err), true + } + return a.NativeToValue(unpackedAny), true + case *structpb.NullValue, structpb.NullValue: + return NullValue, true + case *structpb.ListValue: + return NewJSONList(a, v), true + case *structpb.Struct: + return NewJSONStruct(a, v), true + case ref.Val: + return v, true + case protoreflect.EnumNumber: + return Int(v), true + case proto.Message: + if v == nil { + return UnsupportedRefValConversionErr(v), true + } + typeName := string(v.ProtoReflect().Descriptor().FullName()) + td, found := pb.DefaultDb.DescribeType(typeName) + if !found { + return nil, false + } + val, unwrapped := td.MaybeUnwrap(v) + if !unwrapped { + return nil, false + } + return a.NativeToValue(val), true + // Note: dynamicpb.Message implements the proto.Message _and_ protoreflect.Message interfaces + // which means that this case must appear after handling a proto.Message type. + case protoreflect.Message: + return a.NativeToValue(v.Interface()), true + default: + refValue := reflect.ValueOf(v) + if refValue.Kind() == reflect.Ptr { + if refValue.IsNil() { + return UnsupportedRefValConversionErr(v), true + } + refValue = refValue.Elem() + } + refKind := refValue.Kind() + switch refKind { + case reflect.Array, reflect.Slice: + return NewDynamicList(a, v), true + case reflect.Map: + return NewDynamicMap(a, v), true + // type aliases of primitive types cannot be asserted as that type, but rather need + // to be downcast to int32 before being converted to a CEL representation. + case reflect.Int32: + intType := reflect.TypeOf(int32(0)) + return Int(refValue.Convert(intType).Interface().(int32)), true + case reflect.Int64: + intType := reflect.TypeOf(int64(0)) + return Int(refValue.Convert(intType).Interface().(int64)), true + case reflect.Uint32: + uintType := reflect.TypeOf(uint32(0)) + return Uint(refValue.Convert(uintType).Interface().(uint32)), true + case reflect.Uint64: + uintType := reflect.TypeOf(uint64(0)) + return Uint(refValue.Convert(uintType).Interface().(uint64)), true + case reflect.Float32: + doubleType := reflect.TypeOf(float32(0)) + return Double(refValue.Convert(doubleType).Interface().(float32)), true + case reflect.Float64: + doubleType := reflect.TypeOf(float64(0)) + return Double(refValue.Convert(doubleType).Interface().(float64)), true + } + } + return nil, false +} + +func msgSetField(target protoreflect.Message, field *pb.FieldDescription, val ref.Val) error { + if field.IsList() { + lv := target.NewField(field.Descriptor()) + list, ok := val.(traits.Lister) + if !ok { + return unsupportedTypeConversionError(field, val) + } + err := msgSetListField(lv.List(), field, list) + if err != nil { + return err + } + target.Set(field.Descriptor(), lv) + return nil + } + if field.IsMap() { + mv := target.NewField(field.Descriptor()) + mp, ok := val.(traits.Mapper) + if !ok { + return unsupportedTypeConversionError(field, val) + } + err := msgSetMapField(mv.Map(), field, mp) + if err != nil { + return err + } + target.Set(field.Descriptor(), mv) + return nil + } + v, err := val.ConvertToNative(field.ReflectType()) + if err != nil { + return fieldTypeConversionError(field, err) + } + switch v.(type) { + case proto.Message: + v = v.(proto.Message).ProtoReflect() + } + target.Set(field.Descriptor(), protoreflect.ValueOf(v)) + return nil +} + +func msgSetListField(target protoreflect.List, listField *pb.FieldDescription, listVal traits.Lister) error { + elemReflectType := listField.ReflectType().Elem() + for i := Int(0); i < listVal.Size().(Int); i++ { + elem := listVal.Get(i) + elemVal, err := elem.ConvertToNative(elemReflectType) + if err != nil { + return fieldTypeConversionError(listField, err) + } + switch ev := elemVal.(type) { + case proto.Message: + elemVal = ev.ProtoReflect() + } + target.Append(protoreflect.ValueOf(elemVal)) + } + return nil +} + +func msgSetMapField(target protoreflect.Map, mapField *pb.FieldDescription, mapVal traits.Mapper) error { + targetKeyType := mapField.KeyType.ReflectType() + targetValType := mapField.ValueType.ReflectType() + it := mapVal.Iterator() + for it.HasNext() == True { + key := it.Next() + val := mapVal.Get(key) + k, err := key.ConvertToNative(targetKeyType) + if err != nil { + return fieldTypeConversionError(mapField, err) + } + v, err := val.ConvertToNative(targetValType) + if err != nil { + return fieldTypeConversionError(mapField, err) + } + switch v.(type) { + case proto.Message: + v = v.(proto.Message).ProtoReflect() + } + target.Set(protoreflect.ValueOf(k).MapKey(), protoreflect.ValueOf(v)) + } + return nil +} + +func unsupportedTypeConversionError(field *pb.FieldDescription, val ref.Val) error { + msgName := field.Descriptor().ContainingMessage().FullName() + return fmt.Errorf("unsupported field type for %v.%v: %v", msgName, field.Name(), val.Type()) +} + +func fieldTypeConversionError(field *pb.FieldDescription, err error) error { + msgName := field.Descriptor().ContainingMessage().FullName() + return fmt.Errorf("field type conversion error for %v.%v value type: %v", msgName, field.Name(), err) +} diff --git a/vendor/github.com/google/cel-go/common/types/ref/BUILD.bazel b/vendor/github.com/google/cel-go/common/types/ref/BUILD.bazel new file mode 100644 index 000000000..1d0f46899 --- /dev/null +++ b/vendor/github.com/google/cel-go/common/types/ref/BUILD.bazel @@ -0,0 +1,20 @@ +load("@io_bazel_rules_go//go:def.bzl", "go_library") + +package( + default_visibility = ["//visibility:public"], + licenses = ["notice"], # Apache 2.0 +) + +go_library( + name = "go_default_library", + srcs = [ + "provider.go", + "reference.go", + ], + importpath = "github.com/google/cel-go/common/types/ref", + deps = [ + "@org_golang_google_genproto//googleapis/api/expr/v1alpha1:go_default_library", + "@org_golang_google_protobuf//proto:go_default_library", + "@org_golang_google_protobuf//reflect/protoreflect:go_default_library", + ], +) diff --git a/vendor/github.com/google/cel-go/common/types/ref/provider.go b/vendor/github.com/google/cel-go/common/types/ref/provider.go new file mode 100644 index 000000000..91a711fa7 --- /dev/null +++ b/vendor/github.com/google/cel-go/common/types/ref/provider.go @@ -0,0 +1,103 @@ +// Copyright 2018 Google LLC +// +// Licensed under the Apache License, Version 2.0 (the "License"); +// you may not use this file except in compliance with the License. +// You may obtain a copy of the License at +// +// http://www.apache.org/licenses/LICENSE-2.0 +// +// Unless required by applicable law or agreed to in writing, software +// distributed under the License is distributed on an "AS IS" BASIS, +// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. +// See the License for the specific language governing permissions and +// limitations under the License. + +package ref + +import ( + "google.golang.org/protobuf/proto" + "google.golang.org/protobuf/reflect/protoreflect" + + exprpb "google.golang.org/genproto/googleapis/api/expr/v1alpha1" +) + +// TypeProvider specifies functions for creating new object instances and for +// resolving enum values by name. +type TypeProvider interface { + // EnumValue returns the numeric value of the given enum value name. + EnumValue(enumName string) Val + + // FindIdent takes a qualified identifier name and returns a Value if one + // exists. + FindIdent(identName string) (Val, bool) + + // FindType looks up the Type given a qualified typeName. Returns false + // if not found. + // + // Used during type-checking only. + FindType(typeName string) (*exprpb.Type, bool) + + // FieldFieldType returns the field type for a checked type value. Returns + // false if the field could not be found. + // + // Used during type-checking only. + FindFieldType(messageType string, fieldName string) (*FieldType, bool) + + // NewValue creates a new type value from a qualified name and map of field + // name to value. + // + // Note, for each value, the Val.ConvertToNative function will be invoked + // to convert the Val to the field's native type. If an error occurs during + // conversion, the NewValue will be a types.Err. + NewValue(typeName string, fields map[string]Val) Val +} + +// TypeAdapter converts native Go values of varying type and complexity to equivalent CEL values. +type TypeAdapter interface { + // NativeToValue converts the input `value` to a CEL `ref.Val`. + NativeToValue(value interface{}) Val +} + +// TypeRegistry allows third-parties to add custom types to CEL. Not all `TypeProvider` +// implementations support type-customization, so these features are optional. However, a +// `TypeRegistry` should be a `TypeProvider` and a `TypeAdapter` to ensure that types +// which are registered can be converted to CEL representations. +type TypeRegistry interface { + TypeAdapter + TypeProvider + + // RegisterDescriptor registers the contents of a protocol buffer `FileDescriptor`. + RegisterDescriptor(fileDesc protoreflect.FileDescriptor) error + + // RegisterMessage registers a protocol buffer message and its dependencies. + RegisterMessage(message proto.Message) error + + // RegisterType registers a type value with the provider which ensures the + // provider is aware of how to map the type to an identifier. + // + // If a type is provided more than once with an alternative definition, the + // call will result in an error. + RegisterType(types ...Type) error + + // Copy the TypeRegistry and return a new registry whose mutable state is isolated. + Copy() TypeRegistry +} + +// FieldType represents a field's type value and whether that field supports +// presence detection. +type FieldType struct { + // Type of the field. + Type *exprpb.Type + + // IsSet indicates whether the field is set on an input object. + IsSet FieldTester + + // GetFrom retrieves the field value on the input object, if set. + GetFrom FieldGetter +} + +// FieldTester is used to test field presence on an input object. +type FieldTester func(target interface{}) bool + +// FieldGetter is used to get the field value from an input object, if set. +type FieldGetter func(target interface{}) (interface{}, error) diff --git a/vendor/github.com/google/cel-go/common/types/ref/reference.go b/vendor/github.com/google/cel-go/common/types/ref/reference.go new file mode 100644 index 000000000..e12169988 --- /dev/null +++ b/vendor/github.com/google/cel-go/common/types/ref/reference.go @@ -0,0 +1,59 @@ +// Copyright 2018 Google LLC +// +// Licensed under the Apache License, Version 2.0 (the "License"); +// you may not use this file except in compliance with the License. +// You may obtain a copy of the License at +// +// http://www.apache.org/licenses/LICENSE-2.0 +// +// Unless required by applicable law or agreed to in writing, software +// distributed under the License is distributed on an "AS IS" BASIS, +// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. +// See the License for the specific language governing permissions and +// limitations under the License. + +// Package ref contains the reference interfaces used throughout the types +// components. +package ref + +import ( + "reflect" +) + +// Type interface indicate the name of a given type. +type Type interface { + // HasTrait returns whether the type has a given trait associated with it. + // + // See common/types/traits/traits.go for a list of supported traits. + HasTrait(trait int) bool + + // TypeName returns the qualified type name of the type. + // + // The type name is also used as the type's identifier name at type-check + // and interpretation time. + TypeName() string +} + +// Val interface defines the functions supported by all expression values. +// Val implementations may specialize the behavior of the value through the +// addition of traits. +type Val interface { + // ConvertToNative converts the Value to a native Go struct according to the + // reflected type description, or error if the conversion is not feasible. + ConvertToNative(typeDesc reflect.Type) (interface{}, error) + + // ConvertToType supports type conversions between value types supported by + // the expression language. + ConvertToType(typeValue Type) Val + + // Equal returns true if the `other` value has the same type and content as + // the implementing struct. + Equal(other Val) Val + + // Type returns the TypeValue of the value. + Type() Type + + // Value returns the raw value of the instance which may not be directly + // compatible with the expression language types. + Value() interface{} +} diff --git a/vendor/github.com/google/cel-go/common/types/string.go b/vendor/github.com/google/cel-go/common/types/string.go new file mode 100644 index 000000000..354d99b29 --- /dev/null +++ b/vendor/github.com/google/cel-go/common/types/string.go @@ -0,0 +1,221 @@ +// Copyright 2018 Google LLC +// +// Licensed under the Apache License, Version 2.0 (the "License"); +// you may not use this file except in compliance with the License. +// You may obtain a copy of the License at +// +// http://www.apache.org/licenses/LICENSE-2.0 +// +// Unless required by applicable law or agreed to in writing, software +// distributed under the License is distributed on an "AS IS" BASIS, +// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. +// See the License for the specific language governing permissions and +// limitations under the License. + +package types + +import ( + "fmt" + "reflect" + "regexp" + "strconv" + "strings" + "time" + + "github.com/google/cel-go/common/overloads" + "github.com/google/cel-go/common/types/ref" + "github.com/google/cel-go/common/types/traits" + + anypb "google.golang.org/protobuf/types/known/anypb" + structpb "google.golang.org/protobuf/types/known/structpb" + wrapperspb "google.golang.org/protobuf/types/known/wrapperspb" +) + +// String type implementation which supports addition, comparison, matching, +// and size functions. +type String string + +var ( + // StringType singleton. + StringType = NewTypeValue("string", + traits.AdderType, + traits.ComparerType, + traits.MatcherType, + traits.ReceiverType, + traits.SizerType) + + stringOneArgOverloads = map[string]func(String, ref.Val) ref.Val{ + overloads.Contains: stringContains, + overloads.EndsWith: stringEndsWith, + overloads.StartsWith: stringStartsWith, + } + + stringWrapperType = reflect.TypeOf(&wrapperspb.StringValue{}) +) + +// Add implements traits.Adder.Add. +func (s String) Add(other ref.Val) ref.Val { + otherString, ok := other.(String) + if !ok { + return MaybeNoSuchOverloadErr(other) + } + return s + otherString +} + +// Compare implements traits.Comparer.Compare. +func (s String) Compare(other ref.Val) ref.Val { + otherString, ok := other.(String) + if !ok { + return MaybeNoSuchOverloadErr(other) + } + return Int(strings.Compare(s.Value().(string), otherString.Value().(string))) +} + +// ConvertToNative implements ref.Val.ConvertToNative. +func (s String) ConvertToNative(typeDesc reflect.Type) (interface{}, error) { + switch typeDesc.Kind() { + case reflect.String: + if reflect.TypeOf(s).AssignableTo(typeDesc) { + return s, nil + } + return s.Value(), nil + case reflect.Ptr: + switch typeDesc { + case anyValueType: + // Primitives must be wrapped before being set on an Any field. + return anypb.New(wrapperspb.String(string(s))) + case jsonValueType: + // Convert to a protobuf representation of a JSON String. + return structpb.NewStringValue(string(s)), nil + case stringWrapperType: + // Convert to a wrapperspb.StringValue. + return wrapperspb.String(string(s)), nil + } + if typeDesc.Elem().Kind() == reflect.String { + p := s.Value().(string) + return &p, nil + } + case reflect.Interface: + sv := s.Value() + if reflect.TypeOf(sv).Implements(typeDesc) { + return sv, nil + } + if reflect.TypeOf(s).Implements(typeDesc) { + return s, nil + } + } + return nil, fmt.Errorf( + "unsupported native conversion from string to '%v'", typeDesc) +} + +// ConvertToType implements ref.Val.ConvertToType. +func (s String) ConvertToType(typeVal ref.Type) ref.Val { + switch typeVal { + case IntType: + if n, err := strconv.ParseInt(s.Value().(string), 10, 64); err == nil { + return Int(n) + } + case UintType: + if n, err := strconv.ParseUint(s.Value().(string), 10, 64); err == nil { + return Uint(n) + } + case DoubleType: + if n, err := strconv.ParseFloat(s.Value().(string), 64); err == nil { + return Double(n) + } + case BoolType: + if b, err := strconv.ParseBool(s.Value().(string)); err == nil { + return Bool(b) + } + case BytesType: + return Bytes(s) + case DurationType: + if d, err := time.ParseDuration(s.Value().(string)); err == nil { + return durationOf(d) + } + case TimestampType: + if t, err := time.Parse(time.RFC3339, s.Value().(string)); err == nil { + if t.Unix() < minUnixTime || t.Unix() > maxUnixTime { + return celErrTimestampOverflow + } + return timestampOf(t) + } + case StringType: + return s + case TypeType: + return StringType + } + return NewErr("type conversion error from '%s' to '%s'", StringType, typeVal) +} + +// Equal implements ref.Val.Equal. +func (s String) Equal(other ref.Val) ref.Val { + otherString, ok := other.(String) + if !ok { + return MaybeNoSuchOverloadErr(other) + } + return Bool(s == otherString) +} + +// Match implements traits.Matcher.Match. +func (s String) Match(pattern ref.Val) ref.Val { + pat, ok := pattern.(String) + if !ok { + return MaybeNoSuchOverloadErr(pattern) + } + matched, err := regexp.MatchString(pat.Value().(string), s.Value().(string)) + if err != nil { + return &Err{err} + } + return Bool(matched) +} + +// Receive implements traits.Reciever.Receive. +func (s String) Receive(function string, overload string, args []ref.Val) ref.Val { + switch len(args) { + case 1: + if f, found := stringOneArgOverloads[function]; found { + return f(s, args[0]) + } + } + return NoSuchOverloadErr() +} + +// Size implements traits.Sizer.Size. +func (s String) Size() ref.Val { + return Int(len([]rune(s.Value().(string)))) +} + +// Type implements ref.Val.Type. +func (s String) Type() ref.Type { + return StringType +} + +// Value implements ref.Val.Value. +func (s String) Value() interface{} { + return string(s) +} + +func stringContains(s String, sub ref.Val) ref.Val { + subStr, ok := sub.(String) + if !ok { + return MaybeNoSuchOverloadErr(sub) + } + return Bool(strings.Contains(string(s), string(subStr))) +} + +func stringEndsWith(s String, suf ref.Val) ref.Val { + sufStr, ok := suf.(String) + if !ok { + return MaybeNoSuchOverloadErr(suf) + } + return Bool(strings.HasSuffix(string(s), string(sufStr))) +} + +func stringStartsWith(s String, pre ref.Val) ref.Val { + preStr, ok := pre.(String) + if !ok { + return MaybeNoSuchOverloadErr(pre) + } + return Bool(strings.HasPrefix(string(s), string(preStr))) +} diff --git a/vendor/github.com/google/cel-go/common/types/timestamp.go b/vendor/github.com/google/cel-go/common/types/timestamp.go new file mode 100644 index 000000000..d27b6b80a --- /dev/null +++ b/vendor/github.com/google/cel-go/common/types/timestamp.go @@ -0,0 +1,318 @@ +// Copyright 2018 Google LLC +// +// Licensed under the Apache License, Version 2.0 (the "License"); +// you may not use this file except in compliance with the License. +// You may obtain a copy of the License at +// +// http://www.apache.org/licenses/LICENSE-2.0 +// +// Unless required by applicable law or agreed to in writing, software +// distributed under the License is distributed on an "AS IS" BASIS, +// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. +// See the License for the specific language governing permissions and +// limitations under the License. + +package types + +import ( + "fmt" + "reflect" + "strconv" + "strings" + "time" + + "github.com/google/cel-go/common/overloads" + "github.com/google/cel-go/common/types/ref" + "github.com/google/cel-go/common/types/traits" + + anypb "google.golang.org/protobuf/types/known/anypb" + structpb "google.golang.org/protobuf/types/known/structpb" + tpb "google.golang.org/protobuf/types/known/timestamppb" +) + +// Timestamp type implementation which supports add, compare, and subtract +// operations. Timestamps are also capable of participating in dynamic +// function dispatch to instance methods. +type Timestamp struct { + time.Time +} + +func timestampOf(t time.Time) Timestamp { + // Note that this function does not validate that time.Time is in our supported range. + return Timestamp{Time: t} +} + +const ( + // The number of seconds between year 1 and year 1970. This is borrowed from + // https://golang.org/src/time/time.go. + unixToInternal int64 = (1969*365 + 1969/4 - 1969/100 + 1969/400) * (60 * 60 * 24) + + // Number of seconds between `0001-01-01T00:00:00Z` and the Unix epoch. + minUnixTime int64 = -62135596800 + // Number of seconds between `9999-12-31T23:59:59.999999999Z` and the Unix epoch. + maxUnixTime int64 = 253402300799 +) + +var ( + // TimestampType singleton. + TimestampType = NewTypeValue("google.protobuf.Timestamp", + traits.AdderType, + traits.ComparerType, + traits.ReceiverType, + traits.SubtractorType) +) + +// Add implements traits.Adder.Add. +func (t Timestamp) Add(other ref.Val) ref.Val { + switch other.Type() { + case DurationType: + return other.(Duration).Add(t) + } + return MaybeNoSuchOverloadErr(other) +} + +// Compare implements traits.Comparer.Compare. +func (t Timestamp) Compare(other ref.Val) ref.Val { + if TimestampType != other.Type() { + return MaybeNoSuchOverloadErr(other) + } + ts1 := t.Time + ts2 := other.(Timestamp).Time + switch { + case ts1.Before(ts2): + return IntNegOne + case ts1.After(ts2): + return IntOne + default: + return IntZero + } +} + +// ConvertToNative implements ref.Val.ConvertToNative. +func (t Timestamp) ConvertToNative(typeDesc reflect.Type) (interface{}, error) { + // If the timestamp is already assignable to the desired type return it. + if reflect.TypeOf(t.Time).AssignableTo(typeDesc) { + return t.Time, nil + } + if reflect.TypeOf(t).AssignableTo(typeDesc) { + return t, nil + } + switch typeDesc { + case anyValueType: + // Pack the underlying time as a tpb.Timestamp into an Any value. + return anypb.New(tpb.New(t.Time)) + case jsonValueType: + // CEL follows the proto3 to JSON conversion which formats as an RFC 3339 encoded JSON + // string. + v := t.ConvertToType(StringType) + if IsError(v) { + return nil, v.(*Err) + } + return structpb.NewStringValue(string(v.(String))), nil + case timestampValueType: + // Unwrap the underlying tpb.Timestamp. + return tpb.New(t.Time), nil + } + return nil, fmt.Errorf("type conversion error from 'Timestamp' to '%v'", typeDesc) +} + +// ConvertToType implements ref.Val.ConvertToType. +func (t Timestamp) ConvertToType(typeVal ref.Type) ref.Val { + switch typeVal { + case StringType: + return String(t.Format(time.RFC3339Nano)) + case IntType: + // Return the Unix time in seconds since 1970 + return Int(t.Unix()) + case TimestampType: + return t + case TypeType: + return TimestampType + } + return NewErr("type conversion error from '%s' to '%s'", TimestampType, typeVal) +} + +// Equal implements ref.Val.Equal. +func (t Timestamp) Equal(other ref.Val) ref.Val { + if TimestampType != other.Type() { + return MaybeNoSuchOverloadErr(other) + } + return Bool(t.Time.Equal(other.(Timestamp).Time)) +} + +// Receive implements traits.Reciever.Receive. +func (t Timestamp) Receive(function string, overload string, args []ref.Val) ref.Val { + switch len(args) { + case 0: + if f, found := timestampZeroArgOverloads[function]; found { + return f(t.Time) + } + case 1: + if f, found := timestampOneArgOverloads[function]; found { + return f(t.Time, args[0]) + } + } + return NoSuchOverloadErr() +} + +// Subtract implements traits.Subtractor.Subtract. +func (t Timestamp) Subtract(subtrahend ref.Val) ref.Val { + switch subtrahend.Type() { + case DurationType: + dur := subtrahend.(Duration) + val, err := subtractTimeDurationChecked(t.Time, dur.Duration) + if err != nil { + return wrapErr(err) + } + return timestampOf(val) + case TimestampType: + t2 := subtrahend.(Timestamp).Time + val, err := subtractTimeChecked(t.Time, t2) + if err != nil { + return wrapErr(err) + } + return durationOf(val) + } + return MaybeNoSuchOverloadErr(subtrahend) +} + +// Type implements ref.Val.Type. +func (t Timestamp) Type() ref.Type { + return TimestampType +} + +// Value implements ref.Val.Value. +func (t Timestamp) Value() interface{} { + return t.Time +} + +var ( + timestampValueType = reflect.TypeOf(&tpb.Timestamp{}) + + timestampZeroArgOverloads = map[string]func(time.Time) ref.Val{ + overloads.TimeGetFullYear: timestampGetFullYear, + overloads.TimeGetMonth: timestampGetMonth, + overloads.TimeGetDayOfYear: timestampGetDayOfYear, + overloads.TimeGetDate: timestampGetDayOfMonthOneBased, + overloads.TimeGetDayOfMonth: timestampGetDayOfMonthZeroBased, + overloads.TimeGetDayOfWeek: timestampGetDayOfWeek, + overloads.TimeGetHours: timestampGetHours, + overloads.TimeGetMinutes: timestampGetMinutes, + overloads.TimeGetSeconds: timestampGetSeconds, + overloads.TimeGetMilliseconds: timestampGetMilliseconds} + + timestampOneArgOverloads = map[string]func(time.Time, ref.Val) ref.Val{ + overloads.TimeGetFullYear: timestampGetFullYearWithTz, + overloads.TimeGetMonth: timestampGetMonthWithTz, + overloads.TimeGetDayOfYear: timestampGetDayOfYearWithTz, + overloads.TimeGetDate: timestampGetDayOfMonthOneBasedWithTz, + overloads.TimeGetDayOfMonth: timestampGetDayOfMonthZeroBasedWithTz, + overloads.TimeGetDayOfWeek: timestampGetDayOfWeekWithTz, + overloads.TimeGetHours: timestampGetHoursWithTz, + overloads.TimeGetMinutes: timestampGetMinutesWithTz, + overloads.TimeGetSeconds: timestampGetSecondsWithTz, + overloads.TimeGetMilliseconds: timestampGetMillisecondsWithTz} +) + +type timestampVisitor func(time.Time) ref.Val + +func timestampGetFullYear(t time.Time) ref.Val { + return Int(t.Year()) +} +func timestampGetMonth(t time.Time) ref.Val { + // CEL spec indicates that the month should be 0-based, but the Time value + // for Month() is 1-based. + return Int(t.Month() - 1) +} +func timestampGetDayOfYear(t time.Time) ref.Val { + return Int(t.YearDay() - 1) +} +func timestampGetDayOfMonthZeroBased(t time.Time) ref.Val { + return Int(t.Day() - 1) +} +func timestampGetDayOfMonthOneBased(t time.Time) ref.Val { + return Int(t.Day()) +} +func timestampGetDayOfWeek(t time.Time) ref.Val { + return Int(t.Weekday()) +} +func timestampGetHours(t time.Time) ref.Val { + return Int(t.Hour()) +} +func timestampGetMinutes(t time.Time) ref.Val { + return Int(t.Minute()) +} +func timestampGetSeconds(t time.Time) ref.Val { + return Int(t.Second()) +} +func timestampGetMilliseconds(t time.Time) ref.Val { + return Int(t.Nanosecond() / 1000000) +} + +func timestampGetFullYearWithTz(t time.Time, tz ref.Val) ref.Val { + return timeZone(tz, timestampGetFullYear)(t) +} +func timestampGetMonthWithTz(t time.Time, tz ref.Val) ref.Val { + return timeZone(tz, timestampGetMonth)(t) +} +func timestampGetDayOfYearWithTz(t time.Time, tz ref.Val) ref.Val { + return timeZone(tz, timestampGetDayOfYear)(t) +} +func timestampGetDayOfMonthZeroBasedWithTz(t time.Time, tz ref.Val) ref.Val { + return timeZone(tz, timestampGetDayOfMonthZeroBased)(t) +} +func timestampGetDayOfMonthOneBasedWithTz(t time.Time, tz ref.Val) ref.Val { + return timeZone(tz, timestampGetDayOfMonthOneBased)(t) +} +func timestampGetDayOfWeekWithTz(t time.Time, tz ref.Val) ref.Val { + return timeZone(tz, timestampGetDayOfWeek)(t) +} +func timestampGetHoursWithTz(t time.Time, tz ref.Val) ref.Val { + return timeZone(tz, timestampGetHours)(t) +} +func timestampGetMinutesWithTz(t time.Time, tz ref.Val) ref.Val { + return timeZone(tz, timestampGetMinutes)(t) +} +func timestampGetSecondsWithTz(t time.Time, tz ref.Val) ref.Val { + return timeZone(tz, timestampGetSeconds)(t) +} +func timestampGetMillisecondsWithTz(t time.Time, tz ref.Val) ref.Val { + return timeZone(tz, timestampGetMilliseconds)(t) +} + +func timeZone(tz ref.Val, visitor timestampVisitor) timestampVisitor { + return func(t time.Time) ref.Val { + if StringType != tz.Type() { + return MaybeNoSuchOverloadErr(tz) + } + val := string(tz.(String)) + ind := strings.Index(val, ":") + if ind == -1 { + loc, err := time.LoadLocation(val) + if err != nil { + return wrapErr(err) + } + return visitor(t.In(loc)) + } + + // If the input is not the name of a timezone (for example, 'US/Central'), it should be a numerical offset from UTC + // in the format ^(+|-)(0[0-9]|1[0-4]):[0-5][0-9]$. The numerical input is parsed in terms of hours and minutes. + hr, err := strconv.Atoi(string(val[0:ind])) + if err != nil { + return wrapErr(err) + } + min, err := strconv.Atoi(string(val[ind+1])) + if err != nil { + return wrapErr(err) + } + var offset int + if string(val[0]) == "-" { + offset = hr*60 - min + } else { + offset = hr*60 + min + } + secondsEastOfUTC := int((time.Duration(offset) * time.Minute).Seconds()) + timezone := time.FixedZone("", secondsEastOfUTC) + return visitor(t.In(timezone)) + } +} diff --git a/vendor/github.com/google/cel-go/common/types/traits/BUILD.bazel b/vendor/github.com/google/cel-go/common/types/traits/BUILD.bazel new file mode 100644 index 000000000..86e54af61 --- /dev/null +++ b/vendor/github.com/google/cel-go/common/types/traits/BUILD.bazel @@ -0,0 +1,28 @@ +load("@io_bazel_rules_go//go:def.bzl", "go_library") + +package( + default_visibility = ["//visibility:public"], + licenses = ["notice"], # Apache 2.0 +) + +go_library( + name = "go_default_library", + srcs = [ + "comparer.go", + "container.go", + "field_tester.go", + "indexer.go", + "iterator.go", + "lister.go", + "mapper.go", + "matcher.go", + "math.go", + "receiver.go", + "sizer.go", + "traits.go", + ], + importpath = "github.com/google/cel-go/common/types/traits", + deps = [ + "//common/types/ref:go_default_library", + ], +) diff --git a/vendor/github.com/google/cel-go/common/types/traits/comparer.go b/vendor/github.com/google/cel-go/common/types/traits/comparer.go new file mode 100644 index 000000000..b531d9ae2 --- /dev/null +++ b/vendor/github.com/google/cel-go/common/types/traits/comparer.go @@ -0,0 +1,33 @@ +// Copyright 2018 Google LLC +// +// Licensed under the Apache License, Version 2.0 (the "License"); +// you may not use this file except in compliance with the License. +// You may obtain a copy of the License at +// +// http://www.apache.org/licenses/LICENSE-2.0 +// +// Unless required by applicable law or agreed to in writing, software +// distributed under the License is distributed on an "AS IS" BASIS, +// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. +// See the License for the specific language governing permissions and +// limitations under the License. + +package traits + +import ( + "github.com/google/cel-go/common/types/ref" +) + +// Comparer interface for ordering comparisons between values in order to +// support '<', '<=', '>=', '>' overloads. +type Comparer interface { + // Compare this value to the input other value, returning an Int: + // + // this < other -> Int(-1) + // this == other -> Int(0) + // this > other -> Int(1) + // + // If the comparison cannot be made or is not supported, an error should + // be returned. + Compare(other ref.Val) ref.Val +} diff --git a/vendor/github.com/google/cel-go/common/types/traits/container.go b/vendor/github.com/google/cel-go/common/types/traits/container.go new file mode 100644 index 000000000..cf5c621ae --- /dev/null +++ b/vendor/github.com/google/cel-go/common/types/traits/container.go @@ -0,0 +1,23 @@ +// Copyright 2018 Google LLC +// +// Licensed under the Apache License, Version 2.0 (the "License"); +// you may not use this file except in compliance with the License. +// You may obtain a copy of the License at +// +// http://www.apache.org/licenses/LICENSE-2.0 +// +// Unless required by applicable law or agreed to in writing, software +// distributed under the License is distributed on an "AS IS" BASIS, +// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. +// See the License for the specific language governing permissions and +// limitations under the License. + +package traits + +import "github.com/google/cel-go/common/types/ref" + +// Container interface which permits containment tests such as 'a in b'. +type Container interface { + // Contains returns true if the value exists within the object. + Contains(value ref.Val) ref.Val +} diff --git a/vendor/github.com/google/cel-go/common/types/traits/field_tester.go b/vendor/github.com/google/cel-go/common/types/traits/field_tester.go new file mode 100644 index 000000000..816a95652 --- /dev/null +++ b/vendor/github.com/google/cel-go/common/types/traits/field_tester.go @@ -0,0 +1,30 @@ +// Copyright 2018 Google LLC +// +// Licensed under the Apache License, Version 2.0 (the "License"); +// you may not use this file except in compliance with the License. +// You may obtain a copy of the License at +// +// http://www.apache.org/licenses/LICENSE-2.0 +// +// Unless required by applicable law or agreed to in writing, software +// distributed under the License is distributed on an "AS IS" BASIS, +// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. +// See the License for the specific language governing permissions and +// limitations under the License. + +package traits + +import ( + "github.com/google/cel-go/common/types/ref" +) + +// FieldTester indicates if a defined field on an object type is set to a +// non-default value. +// +// For use with the `has()` macro. +type FieldTester interface { + // IsSet returns true if the field is defined and set to a non-default + // value. The method will return false if defined and not set, and an error + // if the field is not defined. + IsSet(field ref.Val) ref.Val +} diff --git a/vendor/github.com/google/cel-go/common/types/traits/indexer.go b/vendor/github.com/google/cel-go/common/types/traits/indexer.go new file mode 100644 index 000000000..662c6836c --- /dev/null +++ b/vendor/github.com/google/cel-go/common/types/traits/indexer.go @@ -0,0 +1,25 @@ +// Copyright 2018 Google LLC +// +// Licensed under the Apache License, Version 2.0 (the "License"); +// you may not use this file except in compliance with the License. +// You may obtain a copy of the License at +// +// http://www.apache.org/licenses/LICENSE-2.0 +// +// Unless required by applicable law or agreed to in writing, software +// distributed under the License is distributed on an "AS IS" BASIS, +// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. +// See the License for the specific language governing permissions and +// limitations under the License. + +package traits + +import ( + "github.com/google/cel-go/common/types/ref" +) + +// Indexer permits random access of elements by index 'a[b()]'. +type Indexer interface { + // Get the value at the specified index or error. + Get(index ref.Val) ref.Val +} diff --git a/vendor/github.com/google/cel-go/common/types/traits/iterator.go b/vendor/github.com/google/cel-go/common/types/traits/iterator.go new file mode 100644 index 000000000..42dd371aa --- /dev/null +++ b/vendor/github.com/google/cel-go/common/types/traits/iterator.go @@ -0,0 +1,36 @@ +// Copyright 2018 Google LLC +// +// Licensed under the Apache License, Version 2.0 (the "License"); +// you may not use this file except in compliance with the License. +// You may obtain a copy of the License at +// +// http://www.apache.org/licenses/LICENSE-2.0 +// +// Unless required by applicable law or agreed to in writing, software +// distributed under the License is distributed on an "AS IS" BASIS, +// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. +// See the License for the specific language governing permissions and +// limitations under the License. + +package traits + +import ( + "github.com/google/cel-go/common/types/ref" +) + +// Iterable aggregate types permit traversal over their elements. +type Iterable interface { + // Iterator returns a new iterator view of the struct. + Iterator() Iterator +} + +// Iterator permits safe traversal over the contents of an aggregate type. +type Iterator interface { + ref.Val + + // HasNext returns true if there are unvisited elements in the Iterator. + HasNext() ref.Val + + // Next returns the next element. + Next() ref.Val +} diff --git a/vendor/github.com/google/cel-go/common/types/traits/lister.go b/vendor/github.com/google/cel-go/common/types/traits/lister.go new file mode 100644 index 000000000..7b05c301d --- /dev/null +++ b/vendor/github.com/google/cel-go/common/types/traits/lister.go @@ -0,0 +1,27 @@ +// Copyright 2018 Google LLC +// +// Licensed under the Apache License, Version 2.0 (the "License"); +// you may not use this file except in compliance with the License. +// You may obtain a copy of the License at +// +// http://www.apache.org/licenses/LICENSE-2.0 +// +// Unless required by applicable law or agreed to in writing, software +// distributed under the License is distributed on an "AS IS" BASIS, +// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. +// See the License for the specific language governing permissions and +// limitations under the License. + +package traits + +import "github.com/google/cel-go/common/types/ref" + +// Lister interface which aggregates the traits of a list. +type Lister interface { + ref.Val + Adder + Container + Indexer + Iterable + Sizer +} diff --git a/vendor/github.com/google/cel-go/common/types/traits/mapper.go b/vendor/github.com/google/cel-go/common/types/traits/mapper.go new file mode 100644 index 000000000..2f7c919a8 --- /dev/null +++ b/vendor/github.com/google/cel-go/common/types/traits/mapper.go @@ -0,0 +1,33 @@ +// Copyright 2018 Google LLC +// +// Licensed under the Apache License, Version 2.0 (the "License"); +// you may not use this file except in compliance with the License. +// You may obtain a copy of the License at +// +// http://www.apache.org/licenses/LICENSE-2.0 +// +// Unless required by applicable law or agreed to in writing, software +// distributed under the License is distributed on an "AS IS" BASIS, +// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. +// See the License for the specific language governing permissions and +// limitations under the License. + +package traits + +import "github.com/google/cel-go/common/types/ref" + +// Mapper interface which aggregates the traits of a maps. +type Mapper interface { + ref.Val + Container + Indexer + Iterable + Sizer + + // Find returns a value, if one exists, for the input key. + // + // If the key is not found the function returns (nil, false). + // If the input key is not valid for the map, or is Err or Unknown the function returns + // (Unknown|Err, false). + Find(key ref.Val) (ref.Val, bool) +} diff --git a/vendor/github.com/google/cel-go/common/types/traits/matcher.go b/vendor/github.com/google/cel-go/common/types/traits/matcher.go new file mode 100644 index 000000000..085dc94ff --- /dev/null +++ b/vendor/github.com/google/cel-go/common/types/traits/matcher.go @@ -0,0 +1,23 @@ +// Copyright 2018 Google LLC +// +// Licensed under the Apache License, Version 2.0 (the "License"); +// you may not use this file except in compliance with the License. +// You may obtain a copy of the License at +// +// http://www.apache.org/licenses/LICENSE-2.0 +// +// Unless required by applicable law or agreed to in writing, software +// distributed under the License is distributed on an "AS IS" BASIS, +// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. +// See the License for the specific language governing permissions and +// limitations under the License. + +package traits + +import "github.com/google/cel-go/common/types/ref" + +// Matcher interface for supporting 'matches()' overloads. +type Matcher interface { + // Match returns true if the pattern matches the current value. + Match(pattern ref.Val) ref.Val +} diff --git a/vendor/github.com/google/cel-go/common/types/traits/math.go b/vendor/github.com/google/cel-go/common/types/traits/math.go new file mode 100644 index 000000000..86d5b9137 --- /dev/null +++ b/vendor/github.com/google/cel-go/common/types/traits/math.go @@ -0,0 +1,62 @@ +// Copyright 2018 Google LLC +// +// Licensed under the Apache License, Version 2.0 (the "License"); +// you may not use this file except in compliance with the License. +// You may obtain a copy of the License at +// +// http://www.apache.org/licenses/LICENSE-2.0 +// +// Unless required by applicable law or agreed to in writing, software +// distributed under the License is distributed on an "AS IS" BASIS, +// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. +// See the License for the specific language governing permissions and +// limitations under the License. + +package traits + +import "github.com/google/cel-go/common/types/ref" + +// Adder interface to support '+' operator overloads. +type Adder interface { + // Add returns a combination of the current value and other value. + // + // If the other value is an unsupported type, an error is returned. + Add(other ref.Val) ref.Val +} + +// Divider interface to support '/' operator overloads. +type Divider interface { + // Divide returns the result of dividing the current value by the input + // denominator. + // + // A denominator value of zero results in an error. + Divide(denominator ref.Val) ref.Val +} + +// Modder interface to support '%' operator overloads. +type Modder interface { + // Modulo returns the result of taking the modulus of the current value + // by the denominator. + // + // A denominator value of zero results in an error. + Modulo(denominator ref.Val) ref.Val +} + +// Multiplier interface to support '*' operator overloads. +type Multiplier interface { + // Multiply returns the result of multiplying the current and input value. + Multiply(other ref.Val) ref.Val +} + +// Negater interface to support unary '-' and '!' operator overloads. +type Negater interface { + // Negate returns the complement of the current value. + Negate() ref.Val +} + +// Subtractor interface to support binary '-' operator overloads. +type Subtractor interface { + // Subtract returns the result of subtracting the input from the current + // value. + Subtract(subtrahend ref.Val) ref.Val +} diff --git a/vendor/github.com/google/cel-go/common/types/traits/receiver.go b/vendor/github.com/google/cel-go/common/types/traits/receiver.go new file mode 100644 index 000000000..8f41db45e --- /dev/null +++ b/vendor/github.com/google/cel-go/common/types/traits/receiver.go @@ -0,0 +1,24 @@ +// Copyright 2018 Google LLC +// +// Licensed under the Apache License, Version 2.0 (the "License"); +// you may not use this file except in compliance with the License. +// You may obtain a copy of the License at +// +// http://www.apache.org/licenses/LICENSE-2.0 +// +// Unless required by applicable law or agreed to in writing, software +// distributed under the License is distributed on an "AS IS" BASIS, +// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. +// See the License for the specific language governing permissions and +// limitations under the License. + +package traits + +import "github.com/google/cel-go/common/types/ref" + +// Receiver interface for routing instance method calls within a value. +type Receiver interface { + // Receive accepts a function name, overload id, and arguments and returns + // a value. + Receive(function string, overload string, args []ref.Val) ref.Val +} diff --git a/vendor/github.com/google/cel-go/common/types/traits/sizer.go b/vendor/github.com/google/cel-go/common/types/traits/sizer.go new file mode 100644 index 000000000..b80d25137 --- /dev/null +++ b/vendor/github.com/google/cel-go/common/types/traits/sizer.go @@ -0,0 +1,25 @@ +// Copyright 2018 Google LLC +// +// Licensed under the Apache License, Version 2.0 (the "License"); +// you may not use this file except in compliance with the License. +// You may obtain a copy of the License at +// +// http://www.apache.org/licenses/LICENSE-2.0 +// +// Unless required by applicable law or agreed to in writing, software +// distributed under the License is distributed on an "AS IS" BASIS, +// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. +// See the License for the specific language governing permissions and +// limitations under the License. + +package traits + +import ( + "github.com/google/cel-go/common/types/ref" +) + +// Sizer interface for supporting 'size()' overloads. +type Sizer interface { + // Size returns the number of elements or length of the value. + Size() ref.Val +} diff --git a/vendor/github.com/google/cel-go/common/types/traits/traits.go b/vendor/github.com/google/cel-go/common/types/traits/traits.go new file mode 100644 index 000000000..6da3e6a3e --- /dev/null +++ b/vendor/github.com/google/cel-go/common/types/traits/traits.go @@ -0,0 +1,64 @@ +// Copyright 2018 Google LLC +// +// Licensed under the Apache License, Version 2.0 (the "License"); +// you may not use this file except in compliance with the License. +// You may obtain a copy of the License at +// +// http://www.apache.org/licenses/LICENSE-2.0 +// +// Unless required by applicable law or agreed to in writing, software +// distributed under the License is distributed on an "AS IS" BASIS, +// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. +// See the License for the specific language governing permissions and +// limitations under the License. + +// Package traits defines interfaces that a type may implement to participate +// in operator overloads and function dispatch. +package traits + +const ( + // AdderType types provide a '+' operator overload. + AdderType = 1 << iota + + // ComparerType types support ordering comparisons '<', '<=', '>', '>='. + ComparerType + + // ContainerType types support 'in' operations. + ContainerType + + // DividerType types support '/' operations. + DividerType + + // FieldTesterType types support the detection of field value presence. + FieldTesterType + + // IndexerType types support index access with dynamic values. + IndexerType + + // IterableType types can be iterated over in comprehensions. + IterableType + + // IteratorType types support iterator semantics. + IteratorType + + // MatcherType types support pattern matching via 'matches' method. + MatcherType + + // ModderType types support modulus operations '%' + ModderType + + // MultiplierType types support '*' operations. + MultiplierType + + // NegatorType types support either negation via '!' or '-' + NegatorType + + // ReceiverType types support dynamic dispatch to instance methods. + ReceiverType + + // SizerType types support the size() method. + SizerType + + // SubtractorType type support '-' operations. + SubtractorType +) diff --git a/vendor/github.com/google/cel-go/common/types/type.go b/vendor/github.com/google/cel-go/common/types/type.go new file mode 100644 index 000000000..a7253270a --- /dev/null +++ b/vendor/github.com/google/cel-go/common/types/type.go @@ -0,0 +1,104 @@ +// Copyright 2018 Google LLC +// +// Licensed under the Apache License, Version 2.0 (the "License"); +// you may not use this file except in compliance with the License. +// You may obtain a copy of the License at +// +// http://www.apache.org/licenses/LICENSE-2.0 +// +// Unless required by applicable law or agreed to in writing, software +// distributed under the License is distributed on an "AS IS" BASIS, +// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. +// See the License for the specific language governing permissions and +// limitations under the License. + +package types + +import ( + "fmt" + "reflect" + + "github.com/google/cel-go/common/types/ref" + "github.com/google/cel-go/common/types/traits" +) + +var ( + // TypeType is the type of a TypeValue. + TypeType = NewTypeValue("type") +) + +// TypeValue is an instance of a Value that describes a value's type. +type TypeValue struct { + name string + traitMask int +} + +// NewTypeValue returns *TypeValue which is both a ref.Type and ref.Val. +func NewTypeValue(name string, traits ...int) *TypeValue { + traitMask := 0 + for _, trait := range traits { + traitMask |= trait + } + return &TypeValue{ + name: name, + traitMask: traitMask} +} + +// NewObjectTypeValue returns a *TypeValue based on the input name, which is +// annotated with the traits relevant to all objects. +func NewObjectTypeValue(name string) *TypeValue { + return NewTypeValue(name, + traits.FieldTesterType, + traits.IndexerType) +} + +// ConvertToNative implements ref.Val.ConvertToNative. +func (t *TypeValue) ConvertToNative(typeDesc reflect.Type) (interface{}, error) { + // TODO: replace the internal type representation with a proto-value. + return nil, fmt.Errorf("type conversion not supported for 'type'") +} + +// ConvertToType implements ref.Val.ConvertToType. +func (t *TypeValue) ConvertToType(typeVal ref.Type) ref.Val { + switch typeVal { + case TypeType: + return TypeType + case StringType: + return String(t.TypeName()) + } + return NewErr("type conversion error from '%s' to '%s'", TypeType, typeVal) +} + +// Equal implements ref.Val.Equal. +func (t *TypeValue) Equal(other ref.Val) ref.Val { + if TypeType != other.Type() { + return ValOrErr(other, "no such overload") + } + return Bool(t.TypeName() == other.(ref.Type).TypeName()) +} + +// HasTrait indicates whether the type supports the given trait. +// Trait codes are defined in the traits package, e.g. see traits.AdderType. +func (t *TypeValue) HasTrait(trait int) bool { + return trait&t.traitMask == trait +} + +// String implements fmt.Stringer. +func (t *TypeValue) String() string { + return t.name +} + +// Type implements ref.Val.Type. +func (t *TypeValue) Type() ref.Type { + return TypeType +} + +// TypeName gives the type's name as a string. +func (t *TypeValue) TypeName() string { + return t.name +} + +// Value implements ref.Val.Value. +func (t *TypeValue) Value() interface{} { + return t.name +} diff --git a/vendor/github.com/google/cel-go/common/types/uint.go b/vendor/github.com/google/cel-go/common/types/uint.go new file mode 100644 index 000000000..d8d0f24cc --- /dev/null +++ b/vendor/github.com/google/cel-go/common/types/uint.go @@ -0,0 +1,238 @@ +// Copyright 2018 Google LLC +// +// Licensed under the Apache License, Version 2.0 (the "License"); +// you may not use this file except in compliance with the License. +// You may obtain a copy of the License at +// +// http://www.apache.org/licenses/LICENSE-2.0 +// +// Unless required by applicable law or agreed to in writing, software +// distributed under the License is distributed on an "AS IS" BASIS, +// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. +// See the License for the specific language governing permissions and +// limitations under the License. + +package types + +import ( + "fmt" + "reflect" + "strconv" + + "github.com/google/cel-go/common/types/ref" + "github.com/google/cel-go/common/types/traits" + + anypb "google.golang.org/protobuf/types/known/anypb" + structpb "google.golang.org/protobuf/types/known/structpb" + wrapperspb "google.golang.org/protobuf/types/known/wrapperspb" +) + +// Uint type implementation which supports comparison and math operators. +type Uint uint64 + +var ( + // UintType singleton. + UintType = NewTypeValue("uint", + traits.AdderType, + traits.ComparerType, + traits.DividerType, + traits.ModderType, + traits.MultiplierType, + traits.SubtractorType) + + uint32WrapperType = reflect.TypeOf(&wrapperspb.UInt32Value{}) + + uint64WrapperType = reflect.TypeOf(&wrapperspb.UInt64Value{}) +) + +// Uint constants +const ( + uintZero = Uint(0) +) + +// Add implements traits.Adder.Add. +func (i Uint) Add(other ref.Val) ref.Val { + otherUint, ok := other.(Uint) + if !ok { + return MaybeNoSuchOverloadErr(other) + } + val, err := addUint64Checked(uint64(i), uint64(otherUint)) + if err != nil { + return wrapErr(err) + } + return Uint(val) +} + +// Compare implements traits.Comparer.Compare. +func (i Uint) Compare(other ref.Val) ref.Val { + otherUint, ok := other.(Uint) + if !ok { + return MaybeNoSuchOverloadErr(other) + } + if i < otherUint { + return IntNegOne + } + if i > otherUint { + return IntOne + } + return IntZero +} + +// ConvertToNative implements ref.Val.ConvertToNative. +func (i Uint) ConvertToNative(typeDesc reflect.Type) (interface{}, error) { + switch typeDesc.Kind() { + case reflect.Uint, reflect.Uint32: + v, err := uint64ToUint32Checked(uint64(i)) + if err != nil { + return 0, err + } + return reflect.ValueOf(v).Convert(typeDesc).Interface(), nil + case reflect.Uint64: + return reflect.ValueOf(i).Convert(typeDesc).Interface(), nil + case reflect.Ptr: + switch typeDesc { + case anyValueType: + // Primitives must be wrapped before being set on an Any field. + return anypb.New(wrapperspb.UInt64(uint64(i))) + case jsonValueType: + // JSON can accurately represent 32-bit uints as floating point values. + if i.isJSONSafe() { + return structpb.NewNumberValue(float64(i)), nil + } + // Proto3 to JSON conversion requires string-formatted uint64 values + // since the conversion to floating point would result in truncation. + return structpb.NewStringValue(strconv.FormatUint(uint64(i), 10)), nil + case uint32WrapperType: + // Convert the value to a wrapperspb.UInt32Value, error on overflow. + v, err := uint64ToUint32Checked(uint64(i)) + if err != nil { + return 0, err + } + return wrapperspb.UInt32(v), nil + case uint64WrapperType: + // Convert the value to a wrapperspb.UInt64Value. + return wrapperspb.UInt64(uint64(i)), nil + } + switch typeDesc.Elem().Kind() { + case reflect.Uint32: + v, err := uint64ToUint32Checked(uint64(i)) + if err != nil { + return 0, err + } + p := reflect.New(typeDesc.Elem()) + p.Elem().Set(reflect.ValueOf(v).Convert(typeDesc.Elem())) + return p.Interface(), nil + case reflect.Uint64: + v := uint64(i) + p := reflect.New(typeDesc.Elem()) + p.Elem().Set(reflect.ValueOf(v).Convert(typeDesc.Elem())) + return p.Interface(), nil + } + case reflect.Interface: + iv := i.Value() + if reflect.TypeOf(iv).Implements(typeDesc) { + return iv, nil + } + if reflect.TypeOf(i).Implements(typeDesc) { + return i, nil + } + } + return nil, fmt.Errorf("unsupported type conversion from 'uint' to %v", typeDesc) +} + +// ConvertToType implements ref.Val.ConvertToType. +func (i Uint) ConvertToType(typeVal ref.Type) ref.Val { + switch typeVal { + case IntType: + v, err := uint64ToInt64Checked(uint64(i)) + if err != nil { + return wrapErr(err) + } + return Int(v) + case UintType: + return i + case DoubleType: + return Double(i) + case StringType: + return String(fmt.Sprintf("%d", uint64(i))) + case TypeType: + return UintType + } + return NewErr("type conversion error from '%s' to '%s'", UintType, typeVal) +} + +// Divide implements traits.Divider.Divide. +func (i Uint) Divide(other ref.Val) ref.Val { + otherUint, ok := other.(Uint) + if !ok { + return MaybeNoSuchOverloadErr(other) + } + div, err := divideUint64Checked(uint64(i), uint64(otherUint)) + if err != nil { + return wrapErr(err) + } + return Uint(div) +} + +// Equal implements ref.Val.Equal. +func (i Uint) Equal(other ref.Val) ref.Val { + otherUint, ok := other.(Uint) + if !ok { + return MaybeNoSuchOverloadErr(other) + } + return Bool(i == otherUint) +} + +// Modulo implements traits.Modder.Modulo. +func (i Uint) Modulo(other ref.Val) ref.Val { + otherUint, ok := other.(Uint) + if !ok { + return MaybeNoSuchOverloadErr(other) + } + mod, err := moduloUint64Checked(uint64(i), uint64(otherUint)) + if err != nil { + return wrapErr(err) + } + return Uint(mod) +} + +// Multiply implements traits.Multiplier.Multiply. +func (i Uint) Multiply(other ref.Val) ref.Val { + otherUint, ok := other.(Uint) + if !ok { + return MaybeNoSuchOverloadErr(other) + } + val, err := multiplyUint64Checked(uint64(i), uint64(otherUint)) + if err != nil { + return wrapErr(err) + } + return Uint(val) +} + +// Subtract implements traits.Subtractor.Subtract. +func (i Uint) Subtract(subtrahend ref.Val) ref.Val { + subtraUint, ok := subtrahend.(Uint) + if !ok { + return MaybeNoSuchOverloadErr(subtrahend) + } + val, err := subtractUint64Checked(uint64(i), uint64(subtraUint)) + if err != nil { + return wrapErr(err) + } + return Uint(val) +} + +// Type implements ref.Val.Type. +func (i Uint) Type() ref.Type { + return UintType +} + +// Value implements ref.Val.Value. +func (i Uint) Value() interface{} { + return uint64(i) +} + +// isJSONSafe indicates whether the uint is safely representable as a floating point value in JSON. +func (i Uint) isJSONSafe() bool { + return i <= maxIntJSON +} diff --git a/vendor/github.com/google/cel-go/common/types/unknown.go b/vendor/github.com/google/cel-go/common/types/unknown.go new file mode 100644 index 000000000..a950920d6 --- /dev/null +++ b/vendor/github.com/google/cel-go/common/types/unknown.go @@ -0,0 +1,61 @@ +// Copyright 2018 Google LLC +// +// Licensed under the Apache License, Version 2.0 (the "License"); +// you may not use this file except in compliance with the License. +// You may obtain a copy of the License at +// +// http://www.apache.org/licenses/LICENSE-2.0 +// +// Unless required by applicable law or agreed to in writing, software +// distributed under the License is distributed on an "AS IS" BASIS, +// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. +// See the License for the specific language governing permissions and +// limitations under the License. + +package types + +import ( + "reflect" + + "github.com/google/cel-go/common/types/ref" +) + +// Unknown type implementation which collects expression ids which caused the +// current value to become unknown. +type Unknown []int64 + +var ( + // UnknownType singleton. + UnknownType = NewTypeValue("unknown") +) + +// ConvertToNative implements ref.Val.ConvertToNative. +func (u Unknown) ConvertToNative(typeDesc reflect.Type) (interface{}, error) { + return u.Value(), nil +} + +// ConvertToType implements ref.Val.ConvertToType. +func (u Unknown) ConvertToType(typeVal ref.Type) ref.Val { + return u +} + +// Equal implements ref.Val.Equal. +func (u Unknown) Equal(other ref.Val) ref.Val { + return u +} + +// Type implements ref.Val.Type. +func (u Unknown) Type() ref.Type { + return UnknownType +} + +// Value implements ref.Val.Value. +func (u Unknown) Value() interface{} { + return []int64(u) +} + +// IsUnknown returns whether the element ref.Type or ref.Val is equal to the +// UnknownType singleton. +func IsUnknown(val ref.Val) bool { + return val.Type() == UnknownType +} diff --git a/vendor/github.com/google/cel-go/common/types/util.go b/vendor/github.com/google/cel-go/common/types/util.go new file mode 100644 index 000000000..761c512d7 --- /dev/null +++ b/vendor/github.com/google/cel-go/common/types/util.go @@ -0,0 +1,38 @@ +// Copyright 2018 Google LLC +// +// Licensed under the Apache License, Version 2.0 (the "License"); +// you may not use this file except in compliance with the License. +// You may obtain a copy of the License at +// +// http://www.apache.org/licenses/LICENSE-2.0 +// +// Unless required by applicable law or agreed to in writing, software +// distributed under the License is distributed on an "AS IS" BASIS, +// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. +// See the License for the specific language governing permissions and +// limitations under the License. + +package types + +import ( + "github.com/google/cel-go/common/types/ref" +) + +// IsUnknownOrError returns whether the input element ref.Val is an ErrType or UnknonwType. +func IsUnknownOrError(val ref.Val) bool { + switch val.Type() { + case UnknownType, ErrType: + return true + } + return false +} + +// IsPrimitiveType returns whether the input element ref.Val is a primitive type. +// Note, primitive types do not include well-known types such as Duration and Timestamp. +func IsPrimitiveType(val ref.Val) bool { + switch val.Type() { + case BoolType, BytesType, DoubleType, IntType, StringType, UintType: + return true + } + return false +} diff --git a/vendor/github.com/google/cel-go/interpreter/BUILD.bazel b/vendor/github.com/google/cel-go/interpreter/BUILD.bazel new file mode 100644 index 000000000..2f4079fa0 --- /dev/null +++ b/vendor/github.com/google/cel-go/interpreter/BUILD.bazel @@ -0,0 +1,70 @@ +load("@io_bazel_rules_go//go:def.bzl", "go_library", "go_test") + +package( + default_visibility = ["//visibility:public"], + licenses = ["notice"], # Apache 2.0 +) + +go_library( + name = "go_default_library", + srcs = [ + "activation.go", + "attribute_patterns.go", + "attributes.go", + "coster.go", + "decorators.go", + "dispatcher.go", + "evalstate.go", + "interpretable.go", + "interpreter.go", + "planner.go", + "prune.go", + ], + importpath = "github.com/google/cel-go/interpreter", + deps = [ + "//common:go_default_library", + "//common/containers:go_default_library", + "//common/operators:go_default_library", + "//common/overloads:go_default_library", + "//common/types:go_default_library", + "//common/types/ref:go_default_library", + "//common/types/traits:go_default_library", + "//interpreter/functions:go_default_library", + "@org_golang_google_genproto//googleapis/api/expr/v1alpha1:go_default_library", + "@org_golang_google_protobuf//proto:go_default_library", + "@org_golang_google_protobuf//types/known/durationpb:go_default_library", + "@org_golang_google_protobuf//types/known/structpb:go_default_library", + "@org_golang_google_protobuf//types/known/timestamppb:go_default_library", + "@org_golang_google_protobuf//types/known/wrapperspb:go_default_library", + ], +) + +go_test( + name = "go_default_test", + srcs = [ + "activation_test.go", + "attribute_patterns_test.go", + "attributes_test.go", + "interpreter_test.go", + "prune_test.go", + ], + embed = [ + ":go_default_library", + ], + deps = [ + "//checker:go_default_library", + "//checker/decls:go_default_library", + "//common/containers:go_default_library", + "//common/debug:go_default_library", + "//common/operators:go_default_library", + "//common/types:go_default_library", + "//interpreter/functions:go_default_library", + "//parser:go_default_library", + "//test:go_default_library", + "//test/proto2pb:go_default_library", + "//test/proto3pb:go_default_library", + "@org_golang_google_genproto//googleapis/api/expr/v1alpha1:go_default_library", + "@org_golang_google_protobuf//proto:go_default_library", + "@org_golang_google_protobuf//types/known/anypb:go_default_library", + ], +) diff --git a/vendor/github.com/google/cel-go/interpreter/activation.go b/vendor/github.com/google/cel-go/interpreter/activation.go new file mode 100644 index 000000000..4f1315199 --- /dev/null +++ b/vendor/github.com/google/cel-go/interpreter/activation.go @@ -0,0 +1,197 @@ +// Copyright 2018 Google LLC +// +// Licensed under the Apache License, Version 2.0 (the "License"); +// you may not use this file except in compliance with the License. +// You may obtain a copy of the License at +// +// http://www.apache.org/licenses/LICENSE-2.0 +// +// Unless required by applicable law or agreed to in writing, software +// distributed under the License is distributed on an "AS IS" BASIS, +// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. +// See the License for the specific language governing permissions and +// limitations under the License. + +package interpreter + +import ( + "errors" + "fmt" + "sync" + + "github.com/google/cel-go/common/types/ref" +) + +// Activation used to resolve identifiers by name and references by id. +// +// An Activation is the primary mechanism by which a caller supplies input into a CEL program. +type Activation interface { + // ResolveName returns a value from the activation by qualified name, or false if the name + // could not be found. + ResolveName(name string) (interface{}, bool) + + // Parent returns the parent of the current activation, may be nil. + // If non-nil, the parent will be searched during resolve calls. + Parent() Activation +} + +// EmptyActivation returns a variable free activation. +func EmptyActivation() Activation { + // This call cannot fail. + a, _ := NewActivation(map[string]interface{}{}) + return a +} + +// NewActivation returns an activation based on a map-based binding where the map keys are +// expected to be qualified names used with ResolveName calls. +// +// The input `bindings` may either be of type `Activation` or `map[string]interface{}`. +// +// Lazy bindings may be supplied within the map-based input in either of the following forms: +// - func() interface{} +// - func() ref.Val +// +// The output of the lazy binding will overwrite the variable reference in the internal map. +// +// Values which are not represented as ref.Val types on input may be adapted to a ref.Val using +// the ref.TypeAdapter configured in the environment. +func NewActivation(bindings interface{}) (Activation, error) { + if bindings == nil { + return nil, errors.New("bindings must be non-nil") + } + a, isActivation := bindings.(Activation) + if isActivation { + return a, nil + } + m, isMap := bindings.(map[string]interface{}) + if !isMap { + return nil, fmt.Errorf( + "activation input must be an activation or map[string]interface: got %T", + bindings) + } + return &mapActivation{bindings: m}, nil +} + +// mapActivation which implements Activation and maps of named values. +// +// Named bindings may lazily supply values by providing a function which accepts no arguments and +// produces an interface value. +type mapActivation struct { + bindings map[string]interface{} +} + +// Parent implements the Activation interface method. +func (a *mapActivation) Parent() Activation { + return nil +} + +// ResolveName implements the Activation interface method. +func (a *mapActivation) ResolveName(name string) (interface{}, bool) { + obj, found := a.bindings[name] + if !found { + return nil, false + } + fn, isLazy := obj.(func() ref.Val) + if isLazy { + obj = fn() + a.bindings[name] = obj + } + fnRaw, isLazy := obj.(func() interface{}) + if isLazy { + obj = fnRaw() + a.bindings[name] = obj + } + return obj, found +} + +// hierarchicalActivation which implements Activation and contains a parent and +// child activation. +type hierarchicalActivation struct { + parent Activation + child Activation +} + +// Parent implements the Activation interface method. +func (a *hierarchicalActivation) Parent() Activation { + return a.parent +} + +// ResolveName implements the Activation interface method. +func (a *hierarchicalActivation) ResolveName(name string) (interface{}, bool) { + if object, found := a.child.ResolveName(name); found { + return object, found + } + return a.parent.ResolveName(name) +} + +// NewHierarchicalActivation takes two activations and produces a new one which prioritizes +// resolution in the child first and parent(s) second. +func NewHierarchicalActivation(parent Activation, child Activation) Activation { + return &hierarchicalActivation{parent, child} +} + +// NewPartialActivation returns an Activation which contains a list of AttributePattern values +// representing field and index operations that should result in a 'types.Unknown' result. +// +// The `bindings` value may be any value type supported by the interpreter.NewActivation call, +// but is typically either an existing Activation or map[string]interface{}. +func NewPartialActivation(bindings interface{}, + unknowns ...*AttributePattern) (PartialActivation, error) { + a, err := NewActivation(bindings) + if err != nil { + return nil, err + } + return &partActivation{Activation: a, unknowns: unknowns}, nil +} + +// PartialActivation extends the Activation interface with a set of UnknownAttributePatterns. +type PartialActivation interface { + Activation + + // UnknownAttributePaths returns a set of AttributePattern values which match Attribute + // expressions for data accesses whose values are not yet known. + UnknownAttributePatterns() []*AttributePattern +} + +// partActivation is the default implementations of the PartialActivation interface. +type partActivation struct { + Activation + unknowns []*AttributePattern +} + +// UnknownAttributePatterns implements the PartialActivation interface method. +func (a *partActivation) UnknownAttributePatterns() []*AttributePattern { + return a.unknowns +} + +// varActivation represents a single mutable variable binding. +// +// This activation type should only be used within folds as the fold loop controls the object +// life-cycle. +type varActivation struct { + parent Activation + name string + val ref.Val +} + +// Parent implements the Activation interface method. +func (v *varActivation) Parent() Activation { + return v.parent +} + +// ResolveName implements the Activation interface method. +func (v *varActivation) ResolveName(name string) (interface{}, bool) { + if name == v.name { + return v.val, true + } + return v.parent.ResolveName(name) +} + +var ( + // pool of var activations to reduce allocations during folds. + varActivationPool = &sync.Pool{ + New: func() interface{} { + return &varActivation{} + }, + } +) diff --git a/vendor/github.com/google/cel-go/interpreter/attribute_patterns.go b/vendor/github.com/google/cel-go/interpreter/attribute_patterns.go new file mode 100644 index 000000000..3633255d2 --- /dev/null +++ b/vendor/github.com/google/cel-go/interpreter/attribute_patterns.go @@ -0,0 +1,383 @@ +// Copyright 2020 Google LLC +// +// Licensed under the Apache License, Version 2.0 (the "License"); +// you may not use this file except in compliance with the License. +// You may obtain a copy of the License at +// +// http://www.apache.org/licenses/LICENSE-2.0 +// +// Unless required by applicable law or agreed to in writing, software +// distributed under the License is distributed on an "AS IS" BASIS, +// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. +// See the License for the specific language governing permissions and +// limitations under the License. + +package interpreter + +import ( + "fmt" + + "github.com/google/cel-go/common/containers" + "github.com/google/cel-go/common/types" + "github.com/google/cel-go/common/types/ref" +) + +// AttributePattern represents a top-level variable with an optional set of qualifier patterns. +// +// When using a CEL expression within a container, e.g. a package or namespace, the variable name +// in the pattern must match the qualified name produced during the variable namespace resolution. +// For example, if variable `c` appears in an expression whose container is `a.b`, the variable +// name supplied to the pattern must be `a.b.c` +// +// The qualifier patterns for attribute matching must be one of the following: +// +// - valid map key type: string, int, uint, bool +// - wildcard (*) +// +// Examples: +// +// 1. ns.myvar["complex-value"] +// 2. ns.myvar["complex-value"][0] +// 3. ns.myvar["complex-value"].*.name +// +// The first example is simple: match an attribute where the variable is 'ns.myvar' with a +// field access on 'complex-value'. The second example expands the match to indicate that only +// a specific index `0` should match. And lastly, the third example matches any indexed access +// that later selects the 'name' field. +type AttributePattern struct { + variable string + qualifierPatterns []*AttributeQualifierPattern +} + +// NewAttributePattern produces a new mutable AttributePattern based on a variable name. +func NewAttributePattern(variable string) *AttributePattern { + return &AttributePattern{ + variable: variable, + qualifierPatterns: []*AttributeQualifierPattern{}, + } +} + +// QualString adds a string qualifier pattern to the AttributePattern. The string may be a valid +// identifier, or string map key including empty string. +func (apat *AttributePattern) QualString(pattern string) *AttributePattern { + apat.qualifierPatterns = append(apat.qualifierPatterns, + &AttributeQualifierPattern{value: pattern}) + return apat +} + +// QualInt adds an int qualifier pattern to the AttributePattern. The index may be either a map or +// list index. +func (apat *AttributePattern) QualInt(pattern int64) *AttributePattern { + apat.qualifierPatterns = append(apat.qualifierPatterns, + &AttributeQualifierPattern{value: pattern}) + return apat +} + +// QualUint adds an uint qualifier pattern for a map index operation to the AttributePattern. +func (apat *AttributePattern) QualUint(pattern uint64) *AttributePattern { + apat.qualifierPatterns = append(apat.qualifierPatterns, + &AttributeQualifierPattern{value: pattern}) + return apat +} + +// QualBool adds a bool qualifier pattern for a map index operation to the AttributePattern. +func (apat *AttributePattern) QualBool(pattern bool) *AttributePattern { + apat.qualifierPatterns = append(apat.qualifierPatterns, + &AttributeQualifierPattern{value: pattern}) + return apat +} + +// Wildcard adds a special sentinel qualifier pattern that will match any single qualifier. +func (apat *AttributePattern) Wildcard() *AttributePattern { + apat.qualifierPatterns = append(apat.qualifierPatterns, + &AttributeQualifierPattern{wildcard: true}) + return apat +} + +// VariableMatches returns true if the fully qualified variable matches the AttributePattern +// fully qualified variable name. +func (apat *AttributePattern) VariableMatches(variable string) bool { + return apat.variable == variable +} + +// QualifierPatterns returns the set of AttributeQualifierPattern values on the AttributePattern. +func (apat *AttributePattern) QualifierPatterns() []*AttributeQualifierPattern { + return apat.qualifierPatterns +} + +// AttributeQualifierPattern holds a wilcard or valued qualifier pattern. +type AttributeQualifierPattern struct { + wildcard bool + value interface{} +} + +// Matches returns true if the qualifier pattern is a wildcard, or the Qualifier implements the +// qualifierValueEquator interface and its IsValueEqualTo returns true for the qualifier pattern. +func (qpat *AttributeQualifierPattern) Matches(q Qualifier) bool { + if qpat.wildcard { + return true + } + qve, ok := q.(qualifierValueEquator) + return ok && qve.QualifierValueEquals(qpat.value) +} + +// qualifierValueEquator defines an interface for determining if an input value, of valid map key +// type, is equal to the value held in the Qualifier. This interface is used by the +// AttributeQualifierPattern to determine pattern matches for non-wildcard qualifier patterns. +// +// Note: Attribute values are also Qualifier values; however, Attriutes are resolved before +// qualification happens. This is an implementation detail, but one relevant to why the Attribute +// types do not surface in the list of implementations. +// +// See: partialAttributeFactory.matchesUnknownPatterns for more details on how this interface is +// used. +type qualifierValueEquator interface { + // QualifierValueEquals returns true if the input value is equal to the value held in the + // Qualifier. + QualifierValueEquals(value interface{}) bool +} + +// QualifierValueEquals implementation for boolean qualifiers. +func (q *boolQualifier) QualifierValueEquals(value interface{}) bool { + bval, ok := value.(bool) + return ok && q.value == bval +} + +// QualifierValueEquals implementation for field qualifiers. +func (q *fieldQualifier) QualifierValueEquals(value interface{}) bool { + sval, ok := value.(string) + return ok && q.Name == sval +} + +// QualifierValueEquals implementation for string qualifiers. +func (q *stringQualifier) QualifierValueEquals(value interface{}) bool { + sval, ok := value.(string) + return ok && q.value == sval +} + +// QualifierValueEquals implementation for int qualifiers. +func (q *intQualifier) QualifierValueEquals(value interface{}) bool { + ival, ok := value.(int64) + return ok && q.value == ival +} + +// QualifierValueEquals implementation for uint qualifiers. +func (q *uintQualifier) QualifierValueEquals(value interface{}) bool { + uval, ok := value.(uint64) + return ok && q.value == uval +} + +// NewPartialAttributeFactory returns an AttributeFactory implementation capable of performing +// AttributePattern matches with PartialActivation inputs. +func NewPartialAttributeFactory(container *containers.Container, + adapter ref.TypeAdapter, + provider ref.TypeProvider) AttributeFactory { + fac := NewAttributeFactory(container, adapter, provider) + return &partialAttributeFactory{ + AttributeFactory: fac, + container: container, + adapter: adapter, + provider: provider, + } +} + +type partialAttributeFactory struct { + AttributeFactory + container *containers.Container + adapter ref.TypeAdapter + provider ref.TypeProvider +} + +// AbsoluteAttribute implementation of the AttributeFactory interface which wraps the +// NamespacedAttribute resolution in an internal attributeMatcher object to dynamically match +// unknown patterns from PartialActivation inputs if given. +func (fac *partialAttributeFactory) AbsoluteAttribute(id int64, names ...string) NamespacedAttribute { + attr := fac.AttributeFactory.AbsoluteAttribute(id, names...) + return &attributeMatcher{fac: fac, NamespacedAttribute: attr} +} + +// MaybeAttribute implementation of the AttributeFactory interface which ensure that the set of +// 'maybe' NamespacedAttribute values are produced using the PartialAttributeFactory rather than +// the base AttributeFactory implementation. +func (fac *partialAttributeFactory) MaybeAttribute(id int64, name string) Attribute { + return &maybeAttribute{ + id: id, + attrs: []NamespacedAttribute{ + fac.AbsoluteAttribute(id, fac.container.ResolveCandidateNames(name)...), + }, + adapter: fac.adapter, + provider: fac.provider, + fac: fac, + } +} + +// matchesUnknownPatterns returns true if the variable names and qualifiers for a given +// Attribute value match any of the ActivationPattern objects in the set of unknown activation +// patterns on the given PartialActivation. +// +// For example, in the expression `a.b`, the Attribute is composed of variable `a`, with string +// qualifier `b`. When a PartialActivation is supplied, it indicates that some or all of the data +// provided in the input is unknown by specifying unknown AttributePatterns. An AttributePattern +// that refers to variable `a` with a string qualifier of `c` will not match `a.b`; however, any +// of the following patterns will match Attribute `a.b`: +// +// - `AttributePattern("a")` +// - `AttributePattern("a").Wildcard()` +// - `AttributePattern("a").QualString("b")` +// - `AttributePattern("a").QualString("b").QualInt(0)` +// +// Any AttributePattern which overlaps an Attribute or vice-versa will produce an Unknown result +// for the last pattern matched variable or qualifier in the Attribute. In the first matching +// example, the expression id representing variable `a` would be listed in the Unknown result, +// whereas in the other pattern examples, the qualifier `b` would be returned as the Unknown. +func (fac *partialAttributeFactory) matchesUnknownPatterns( + vars PartialActivation, + attrID int64, + variableNames []string, + qualifiers []Qualifier) (types.Unknown, error) { + patterns := vars.UnknownAttributePatterns() + candidateIndices := map[int]struct{}{} + for _, variable := range variableNames { + for i, pat := range patterns { + if pat.VariableMatches(variable) { + candidateIndices[i] = struct{}{} + } + } + } + // Determine whether to return early if there are no candidate unknown patterns. + if len(candidateIndices) == 0 { + return nil, nil + } + // Determine whether to return early if there are no qualifiers. + if len(qualifiers) == 0 { + return types.Unknown{attrID}, nil + } + // Resolve the attribute qualifiers into a static set. This prevents more dynamic + // Attribute resolutions than necessary when there are multiple unknown patterns + // that traverse the same Attribute-based qualifier field. + newQuals := make([]Qualifier, len(qualifiers)) + for i, qual := range qualifiers { + attr, isAttr := qual.(Attribute) + if isAttr { + val, err := attr.Resolve(vars) + if err != nil { + return nil, err + } + unk, isUnk := val.(types.Unknown) + if isUnk { + return unk, nil + } + // If this resolution behavior ever changes, new implementations of the + // qualifierValueEquator may be required to handle proper resolution. + qual, err = fac.NewQualifier(nil, qual.ID(), val) + if err != nil { + return nil, err + } + } + newQuals[i] = qual + } + // Determine whether any of the unknown patterns match. + for patIdx := range candidateIndices { + pat := patterns[patIdx] + isUnk := true + matchExprID := attrID + qualPats := pat.QualifierPatterns() + for i, qual := range newQuals { + if i >= len(qualPats) { + break + } + matchExprID = qual.ID() + qualPat := qualPats[i] + // Note, the AttributeQualifierPattern relies on the input Qualifier not being an + // Attribute, since there is no way to resolve the Attribute with the information + // provided to the Matches call. + if !qualPat.Matches(qual) { + isUnk = false + break + } + } + if isUnk { + return types.Unknown{matchExprID}, nil + } + } + return nil, nil +} + +// attributeMatcher embeds the NamespacedAttribute interface which allows it to participate in +// AttributePattern matching against Attribute values without having to modify the code paths that +// identify Attributes in expressions. +type attributeMatcher struct { + NamespacedAttribute + qualifiers []Qualifier + fac *partialAttributeFactory +} + +// AddQualifier implements the Attribute interface method. +func (m *attributeMatcher) AddQualifier(qual Qualifier) (Attribute, error) { + // Add the qualifier to the embedded NamespacedAttribute. If the input to the Resolve + // method is not a PartialActivation, or does not match an unknown attribute pattern, the + // Resolve method is directly invoked on the underlying NamespacedAttribute. + _, err := m.NamespacedAttribute.AddQualifier(qual) + if err != nil { + return nil, err + } + // The attributeMatcher overloads TryResolve and will attempt to match unknown patterns against + // the variable name and qualifier set contained within the Attribute. These values are not + // directly inspectable on the top-level NamespacedAttribute interface and so are tracked within + // the attributeMatcher. + m.qualifiers = append(m.qualifiers, qual) + return m, nil +} + +// Resolve is an implementation of the Attribute interface method which uses the +// attributeMatcher TryResolve implementation rather than the embedded NamespacedAttribute +// Resolve implementation. +func (m *attributeMatcher) Resolve(vars Activation) (interface{}, error) { + obj, found, err := m.TryResolve(vars) + if err != nil { + return nil, err + } + if !found { + return nil, fmt.Errorf("no such attribute: %v", m.NamespacedAttribute) + } + return obj, nil +} + +// TryResolve is an implementation of the NamespacedAttribute interface method which tests +// for matching unknown attribute patterns and returns types.Unknown if present. Otherwise, +// the standard Resolve logic applies. +func (m *attributeMatcher) TryResolve(vars Activation) (interface{}, bool, error) { + id := m.NamespacedAttribute.ID() + partial, isPartial := vars.(PartialActivation) + if isPartial { + unk, err := m.fac.matchesUnknownPatterns( + partial, + id, + m.CandidateVariableNames(), + m.qualifiers) + if err != nil { + return nil, true, err + } + if unk != nil { + return unk, true, nil + } + } + return m.NamespacedAttribute.TryResolve(vars) +} + +// Qualify is an implementation of the Qualifier interface method. +func (m *attributeMatcher) Qualify(vars Activation, obj interface{}) (interface{}, error) { + val, err := m.Resolve(vars) + if err != nil { + return nil, err + } + unk, isUnk := val.(types.Unknown) + if isUnk { + return unk, nil + } + qual, err := m.fac.NewQualifier(nil, m.ID(), val) + if err != nil { + return nil, err + } + return qual.Qualify(vars, obj) +} diff --git a/vendor/github.com/google/cel-go/interpreter/attributes.go b/vendor/github.com/google/cel-go/interpreter/attributes.go new file mode 100644 index 000000000..e101c669b --- /dev/null +++ b/vendor/github.com/google/cel-go/interpreter/attributes.go @@ -0,0 +1,1032 @@ +// Copyright 2019 Google LLC +// +// Licensed under the Apache License, Version 2.0 (the "License"); +// you may not use this file except in compliance with the License. +// You may obtain a copy of the License at +// +// http://www.apache.org/licenses/LICENSE-2.0 +// +// Unless required by applicable law or agreed to in writing, software +// distributed under the License is distributed on an "AS IS" BASIS, +// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. +// See the License for the specific language governing permissions and +// limitations under the License. + +package interpreter + +import ( + "errors" + "fmt" + "math" + + "github.com/google/cel-go/common/containers" + "github.com/google/cel-go/common/types" + "github.com/google/cel-go/common/types/ref" + "github.com/google/cel-go/common/types/traits" + + exprpb "google.golang.org/genproto/googleapis/api/expr/v1alpha1" +) + +// AttributeFactory provides methods creating Attribute and Qualifier values. +type AttributeFactory interface { + // AbsoluteAttribute creates an attribute that refers to a top-level variable name. + // + // Checked expressions generate absolute attribute with a single name. + // Parse-only expressions may have more than one possible absolute identifier when the + // expression is created within a container, e.g. package or namespace. + // + // When there is more than one name supplied to the AbsoluteAttribute call, the names + // must be in CEL's namespace resolution order. The name arguments provided here are + // returned in the same order as they were provided by the NamespacedAttribute + // CandidateVariableNames method. + AbsoluteAttribute(id int64, names ...string) NamespacedAttribute + + // ConditionalAttribute creates an attribute with two Attribute branches, where the Attribute + // that is resolved depends on the boolean evaluation of the input 'expr'. + ConditionalAttribute(id int64, expr Interpretable, t, f Attribute) Attribute + + // MaybeAttribute creates an attribute that refers to either a field selection or a namespaced + // variable name. + // + // Only expressions which have not been type-checked may generate oneof attributes. + MaybeAttribute(id int64, name string) Attribute + + // RelativeAttribute creates an attribute whose value is a qualification of a dynamic + // computation rather than a static variable reference. + RelativeAttribute(id int64, operand Interpretable) Attribute + + // NewQualifier creates a qualifier on the target object with a given value. + // + // The 'val' may be an Attribute or any proto-supported map key type: bool, int, string, uint. + // + // The qualifier may consider the object type being qualified, if present. If absent, the + // qualification should be considered dynamic and the qualification should still work, though + // it may be sub-optimal. + NewQualifier(objType *exprpb.Type, qualID int64, val interface{}) (Qualifier, error) +} + +// Qualifier marker interface for designating different qualifier values and where they appear +// within field selections and index call expressions (`_[_]`). +type Qualifier interface { + // ID where the qualifier appears within an expression. + ID() int64 + + // Qualify performs a qualification, e.g. field selection, on the input object and returns + // the value or error that results. + Qualify(vars Activation, obj interface{}) (interface{}, error) +} + +// ConstantQualifier interface embeds the Qualifier interface and provides an option to inspect the +// qualifier's constant value. +// +// Non-constant qualifiers are of Attribute type. +type ConstantQualifier interface { + Qualifier + + Value() ref.Val +} + +// Attribute values are a variable or value with an optional set of qualifiers, such as field, key, +// or index accesses. +type Attribute interface { + Qualifier + + // AddQualifier adds a qualifier on the Attribute or error if the qualification is not a valid + // qualifier type. + AddQualifier(Qualifier) (Attribute, error) + + // Resolve returns the value of the Attribute given the current Activation. + Resolve(Activation) (interface{}, error) +} + +// NamespacedAttribute values are a variable within a namespace, and an optional set of qualifiers +// such as field, key, or index accesses. +type NamespacedAttribute interface { + Attribute + + // CandidateVariableNames returns the possible namespaced variable names for this Attribute in + // the CEL namespace resolution order. + CandidateVariableNames() []string + + // Qualifiers returns the list of qualifiers associated with the Attribute.s + Qualifiers() []Qualifier + + // TryResolve attempts to return the value of the attribute given the current Activation. + // If an error is encountered during attribute resolution, it will be returned immediately. + // If the attribute cannot be resolved within the Activation, the result must be: `nil`, + // `false`, `nil`. + TryResolve(Activation) (interface{}, bool, error) +} + +// NewAttributeFactory returns a default AttributeFactory which is produces Attribute values +// capable of resolving types by simple names and qualify the values using the supported qualifier +// types: bool, int, string, and uint. +func NewAttributeFactory(cont *containers.Container, + a ref.TypeAdapter, + p ref.TypeProvider) AttributeFactory { + return &attrFactory{ + container: cont, + adapter: a, + provider: p, + } +} + +type attrFactory struct { + container *containers.Container + adapter ref.TypeAdapter + provider ref.TypeProvider +} + +// AbsoluteAttribute refers to a variable value and an optional qualifier path. +// +// The namespaceNames represent the names the variable could have based on namespace +// resolution rules. +func (r *attrFactory) AbsoluteAttribute(id int64, names ...string) NamespacedAttribute { + return &absoluteAttribute{ + id: id, + namespaceNames: names, + qualifiers: []Qualifier{}, + adapter: r.adapter, + provider: r.provider, + fac: r, + } +} + +// ConditionalAttribute supports the case where an attribute selection may occur on a conditional +// expression, e.g. (cond ? a : b).c +func (r *attrFactory) ConditionalAttribute(id int64, expr Interpretable, t, f Attribute) Attribute { + return &conditionalAttribute{ + id: id, + expr: expr, + truthy: t, + falsy: f, + adapter: r.adapter, + fac: r, + } +} + +// MaybeAttribute collects variants of unchecked AbsoluteAttribute values which could either be +// direct variable accesses or some combination of variable access with qualification. +func (r *attrFactory) MaybeAttribute(id int64, name string) Attribute { + return &maybeAttribute{ + id: id, + attrs: []NamespacedAttribute{ + r.AbsoluteAttribute(id, r.container.ResolveCandidateNames(name)...), + }, + adapter: r.adapter, + provider: r.provider, + fac: r, + } +} + +// RelativeAttribute refers to an expression and an optional qualifier path. +func (r *attrFactory) RelativeAttribute(id int64, operand Interpretable) Attribute { + return &relativeAttribute{ + id: id, + operand: operand, + qualifiers: []Qualifier{}, + adapter: r.adapter, + fac: r, + } +} + +// NewQualifier is an implementation of the AttributeFactory interface. +func (r *attrFactory) NewQualifier(objType *exprpb.Type, + qualID int64, + val interface{}) (Qualifier, error) { + // Before creating a new qualifier check to see if this is a protobuf message field access. + // If so, use the precomputed GetFrom qualification method rather than the standard + // stringQualifier. + str, isStr := val.(string) + if isStr && objType != nil && objType.GetMessageType() != "" { + ft, found := r.provider.FindFieldType(objType.GetMessageType(), str) + if found && ft.IsSet != nil && ft.GetFrom != nil { + return &fieldQualifier{ + id: qualID, + Name: str, + FieldType: ft, + adapter: r.adapter, + }, nil + } + } + return newQualifier(r.adapter, qualID, val) +} + +type absoluteAttribute struct { + id int64 + // namespaceNames represent the names the variable could have based on declared container + // (package) of the expression. + namespaceNames []string + qualifiers []Qualifier + adapter ref.TypeAdapter + provider ref.TypeProvider + fac AttributeFactory +} + +// ID implements the Attribute interface method. +func (a *absoluteAttribute) ID() int64 { + return a.id +} + +// Cost implements the Coster interface method. +func (a *absoluteAttribute) Cost() (min, max int64) { + for _, q := range a.qualifiers { + minQ, maxQ := estimateCost(q) + min += minQ + max += maxQ + } + min++ // For object retrieval. + max++ + return +} + +// AddQualifier implements the Attribute interface method. +func (a *absoluteAttribute) AddQualifier(qual Qualifier) (Attribute, error) { + a.qualifiers = append(a.qualifiers, qual) + return a, nil +} + +// CandidateVariableNames implements the NamespaceAttribute interface method. +func (a *absoluteAttribute) CandidateVariableNames() []string { + return a.namespaceNames +} + +// Qualifiers returns the list of Qualifier instances associated with the namespaced attribute. +func (a *absoluteAttribute) Qualifiers() []Qualifier { + return a.qualifiers +} + +// Qualify is an implementation of the Qualifier interface method. +func (a *absoluteAttribute) Qualify(vars Activation, obj interface{}) (interface{}, error) { + val, err := a.Resolve(vars) + if err != nil { + return nil, err + } + unk, isUnk := val.(types.Unknown) + if isUnk { + return unk, nil + } + qual, err := a.fac.NewQualifier(nil, a.id, val) + if err != nil { + return nil, err + } + return qual.Qualify(vars, obj) +} + +// Resolve returns the resolved Attribute value given the Activation, or error if the Attribute +// variable is not found, or if its Qualifiers cannot be applied successfully. +func (a *absoluteAttribute) Resolve(vars Activation) (interface{}, error) { + obj, found, err := a.TryResolve(vars) + if err != nil { + return nil, err + } + if found { + return obj, nil + } + return nil, fmt.Errorf("no such attribute: %v", a) +} + +// String implements the Stringer interface method. +func (a *absoluteAttribute) String() string { + return fmt.Sprintf("id: %v, names: %v", a.id, a.namespaceNames) +} + +// TryResolve iterates through the namespaced variable names until one is found within the +// Activation or TypeProvider. +// +// If the variable name cannot be found as an Activation variable or in the TypeProvider as +// a type, then the result is `nil`, `false`, `nil` per the interface requirement. +func (a *absoluteAttribute) TryResolve(vars Activation) (interface{}, bool, error) { + for _, nm := range a.namespaceNames { + // If the variable is found, process it. Otherwise, wait until the checks to + // determine whether the type is unknown before returning. + op, found := vars.ResolveName(nm) + if found { + var err error + for _, qual := range a.qualifiers { + op, err = qual.Qualify(vars, op) + if err != nil { + return nil, true, err + } + } + return op, true, nil + } + // Attempt to resolve the qualified type name if the name is not a variable identifier. + typ, found := a.provider.FindIdent(nm) + if found { + if len(a.qualifiers) == 0 { + return typ, true, nil + } + return nil, true, fmt.Errorf("no such attribute: %v", typ) + } + } + return nil, false, nil +} + +type conditionalAttribute struct { + id int64 + expr Interpretable + truthy Attribute + falsy Attribute + adapter ref.TypeAdapter + fac AttributeFactory +} + +// ID is an implementation of the Attribute interface method. +func (a *conditionalAttribute) ID() int64 { + return a.id +} + +// Cost provides the heuristic cost of a ternary operation ? : . +// The cost is computed as cost(expr) plus the min/max costs of evaluating either +// `t` or `f`. +func (a *conditionalAttribute) Cost() (min, max int64) { + tMin, tMax := estimateCost(a.truthy) + fMin, fMax := estimateCost(a.falsy) + eMin, eMax := estimateCost(a.expr) + return eMin + findMin(tMin, fMin), eMax + findMax(tMax, fMax) +} + +// AddQualifier appends the same qualifier to both sides of the conditional, in effect managing +// the qualification of alternate attributes. +func (a *conditionalAttribute) AddQualifier(qual Qualifier) (Attribute, error) { + _, err := a.truthy.AddQualifier(qual) + if err != nil { + return nil, err + } + _, err = a.falsy.AddQualifier(qual) + if err != nil { + return nil, err + } + return a, nil +} + +// Qualify is an implementation of the Qualifier interface method. +func (a *conditionalAttribute) Qualify(vars Activation, obj interface{}) (interface{}, error) { + val, err := a.Resolve(vars) + if err != nil { + return nil, err + } + unk, isUnk := val.(types.Unknown) + if isUnk { + return unk, nil + } + qual, err := a.fac.NewQualifier(nil, a.id, val) + if err != nil { + return nil, err + } + return qual.Qualify(vars, obj) +} + +// Resolve evaluates the condition, and then resolves the truthy or falsy branch accordingly. +func (a *conditionalAttribute) Resolve(vars Activation) (interface{}, error) { + val := a.expr.Eval(vars) + if types.IsError(val) { + return nil, val.(*types.Err) + } + if val == types.True { + return a.truthy.Resolve(vars) + } + if val == types.False { + return a.falsy.Resolve(vars) + } + if types.IsUnknown(val) { + return val, nil + } + return nil, types.MaybeNoSuchOverloadErr(val).(*types.Err) +} + +// String is an implementation of the Stringer interface method. +func (a *conditionalAttribute) String() string { + return fmt.Sprintf("id: %v, truthy attribute: %v, falsy attribute: %v", a.id, a.truthy, a.falsy) +} + +type maybeAttribute struct { + id int64 + attrs []NamespacedAttribute + adapter ref.TypeAdapter + provider ref.TypeProvider + fac AttributeFactory +} + +// ID is an implementation of the Attribute interface method. +func (a *maybeAttribute) ID() int64 { + return a.id +} + +// Cost implements the Coster interface method. The min cost is computed as the minimal cost among +// all the possible attributes, the max cost ditto. +func (a *maybeAttribute) Cost() (min, max int64) { + min, max = math.MaxInt64, 0 + for _, a := range a.attrs { + minA, maxA := estimateCost(a) + min = findMin(min, minA) + max = findMax(max, maxA) + } + return +} + +func findMin(x, y int64) int64 { + if x < y { + return x + } + return y +} + +func findMax(x, y int64) int64 { + if x > y { + return x + } + return y +} + +// AddQualifier adds a qualifier to each possible attribute variant, and also creates +// a new namespaced variable from the qualified value. +// +// The algorithm for building the maybe attribute is as follows: +// +// 1. Create a maybe attribute from a simple identifier when it occurs in a parsed-only expression +// +// mb = MaybeAttribute(, "a") +// +// Initializing the maybe attribute creates an absolute attribute internally which includes the +// possible namespaced names of the attribute. In this example, let's assume we are in namespace +// 'ns', then the maybe is either one of the following variable names: +// +// possible variables names -- ns.a, a +// +// 2. Adding a qualifier to the maybe means that the variable name could be a longer qualified +// name, or a field selection on one of the possible variable names produced earlier: +// +// mb.AddQualifier("b") +// +// possible variables names -- ns.a.b, a.b +// possible field selection -- ns.a['b'], a['b'] +// +// If none of the attributes within the maybe resolves a value, the result is an error. +func (a *maybeAttribute) AddQualifier(qual Qualifier) (Attribute, error) { + str := "" + isStr := false + cq, isConst := qual.(ConstantQualifier) + if isConst { + str, isStr = cq.Value().Value().(string) + } + var augmentedNames []string + // First add the qualifier to all existing attributes in the oneof. + for _, attr := range a.attrs { + if isStr && len(attr.Qualifiers()) == 0 { + candidateVars := attr.CandidateVariableNames() + augmentedNames = make([]string, len(candidateVars)) + for i, name := range candidateVars { + augmentedNames[i] = fmt.Sprintf("%s.%s", name, str) + } + } + _, err := attr.AddQualifier(qual) + if err != nil { + return nil, err + } + } + // Next, ensure the most specific variable / type reference is searched first. + a.attrs = append([]NamespacedAttribute{ + a.fac.AbsoluteAttribute(qual.ID(), augmentedNames...), + }, a.attrs...) + return a, nil +} + +// Qualify is an implementation of the Qualifier interface method. +func (a *maybeAttribute) Qualify(vars Activation, obj interface{}) (interface{}, error) { + val, err := a.Resolve(vars) + if err != nil { + return nil, err + } + unk, isUnk := val.(types.Unknown) + if isUnk { + return unk, nil + } + qual, err := a.fac.NewQualifier(nil, a.id, val) + if err != nil { + return nil, err + } + return qual.Qualify(vars, obj) +} + +// Resolve follows the variable resolution rules to determine whether the attribute is a variable +// or a field selection. +func (a *maybeAttribute) Resolve(vars Activation) (interface{}, error) { + for _, attr := range a.attrs { + obj, found, err := attr.TryResolve(vars) + // Return an error if one is encountered. + if err != nil { + return nil, err + } + // If the object was found, return it. + if found { + return obj, nil + } + } + // Else, produce a no such attribute error. + return nil, fmt.Errorf("no such attribute: %v", a) +} + +// String is an implementation of the Stringer interface method. +func (a *maybeAttribute) String() string { + return fmt.Sprintf("id: %v, attributes: %v", a.id, a.attrs) +} + +type relativeAttribute struct { + id int64 + operand Interpretable + qualifiers []Qualifier + adapter ref.TypeAdapter + fac AttributeFactory +} + +// ID is an implementation of the Attribute interface method. +func (a *relativeAttribute) ID() int64 { + return a.id +} + +// Cost implements the Coster interface method. +func (a *relativeAttribute) Cost() (min, max int64) { + min, max = estimateCost(a.operand) + for _, qual := range a.qualifiers { + minQ, maxQ := estimateCost(qual) + min += minQ + max += maxQ + } + return +} + +// AddQualifier implements the Attribute interface method. +func (a *relativeAttribute) AddQualifier(qual Qualifier) (Attribute, error) { + a.qualifiers = append(a.qualifiers, qual) + return a, nil +} + +// Qualify is an implementation of the Qualifier interface method. +func (a *relativeAttribute) Qualify(vars Activation, obj interface{}) (interface{}, error) { + val, err := a.Resolve(vars) + if err != nil { + return nil, err + } + unk, isUnk := val.(types.Unknown) + if isUnk { + return unk, nil + } + qual, err := a.fac.NewQualifier(nil, a.id, val) + if err != nil { + return nil, err + } + return qual.Qualify(vars, obj) +} + +// Resolve expression value and qualifier relative to the expression result. +func (a *relativeAttribute) Resolve(vars Activation) (interface{}, error) { + // First, evaluate the operand. + v := a.operand.Eval(vars) + if types.IsError(v) { + return nil, v.(*types.Err) + } + if types.IsUnknown(v) { + return v, nil + } + // Next, qualify it. Qualification handles unkonwns as well, so there's no need to recheck. + var err error + var obj interface{} = v + for _, qual := range a.qualifiers { + obj, err = qual.Qualify(vars, obj) + if err != nil { + return nil, err + } + } + return obj, nil +} + +// String is an implementation of the Stringer interface method. +func (a *relativeAttribute) String() string { + return fmt.Sprintf("id: %v, operand: %v", a.id, a.operand) +} + +func newQualifier(adapter ref.TypeAdapter, id int64, v interface{}) (Qualifier, error) { + var qual Qualifier + switch val := v.(type) { + case Attribute: + return &attrQualifier{id: id, Attribute: val}, nil + case string: + qual = &stringQualifier{id: id, value: val, celValue: types.String(val), adapter: adapter} + case int: + qual = &intQualifier{id: id, value: int64(val), celValue: types.Int(val), adapter: adapter} + case int32: + qual = &intQualifier{id: id, value: int64(val), celValue: types.Int(val), adapter: adapter} + case int64: + qual = &intQualifier{id: id, value: val, celValue: types.Int(val), adapter: adapter} + case uint: + qual = &uintQualifier{id: id, value: uint64(val), celValue: types.Uint(val), adapter: adapter} + case uint32: + qual = &uintQualifier{id: id, value: uint64(val), celValue: types.Uint(val), adapter: adapter} + case uint64: + qual = &uintQualifier{id: id, value: val, celValue: types.Uint(val), adapter: adapter} + case bool: + qual = &boolQualifier{id: id, value: val, celValue: types.Bool(val), adapter: adapter} + case types.String: + qual = &stringQualifier{id: id, value: string(val), celValue: val, adapter: adapter} + case types.Int: + qual = &intQualifier{id: id, value: int64(val), celValue: val, adapter: adapter} + case types.Uint: + qual = &uintQualifier{id: id, value: uint64(val), celValue: val, adapter: adapter} + case types.Bool: + qual = &boolQualifier{id: id, value: bool(val), celValue: val, adapter: adapter} + default: + return nil, fmt.Errorf("invalid qualifier type: %T", v) + } + return qual, nil +} + +type attrQualifier struct { + id int64 + Attribute +} + +func (q *attrQualifier) ID() int64 { + return q.id +} + +// Cost returns zero for constant field qualifiers +func (q *attrQualifier) Cost() (min, max int64) { + return estimateCost(q.Attribute) +} + +type stringQualifier struct { + id int64 + value string + celValue ref.Val + adapter ref.TypeAdapter +} + +// ID is an implementation of the Qualifier interface method. +func (q *stringQualifier) ID() int64 { + return q.id +} + +// Qualify implements the Qualifier interface method. +func (q *stringQualifier) Qualify(vars Activation, obj interface{}) (interface{}, error) { + s := q.value + isMap := false + isKey := false + switch o := obj.(type) { + case map[string]interface{}: + isMap = true + obj, isKey = o[s] + case map[string]string: + isMap = true + obj, isKey = o[s] + case map[string]int: + isMap = true + obj, isKey = o[s] + case map[string]int32: + isMap = true + obj, isKey = o[s] + case map[string]int64: + isMap = true + obj, isKey = o[s] + case map[string]uint: + isMap = true + obj, isKey = o[s] + case map[string]uint32: + isMap = true + obj, isKey = o[s] + case map[string]uint64: + isMap = true + obj, isKey = o[s] + case map[string]float32: + isMap = true + obj, isKey = o[s] + case map[string]float64: + isMap = true + obj, isKey = o[s] + case map[string]bool: + isMap = true + obj, isKey = o[s] + case types.Unknown: + return o, nil + default: + elem, err := refResolve(q.adapter, q.celValue, obj) + if err != nil { + return nil, err + } + if types.IsUnknown(elem) { + return elem, nil + } + return elem, nil + } + if isMap && !isKey { + return nil, fmt.Errorf("no such key: %v", s) + } + return obj, nil +} + +// Value implements the ConstantQualifier interface +func (q *stringQualifier) Value() ref.Val { + return q.celValue +} + +// Cost returns zero for constant field qualifiers +func (q *stringQualifier) Cost() (min, max int64) { + return 0, 0 +} + +type intQualifier struct { + id int64 + value int64 + celValue ref.Val + adapter ref.TypeAdapter +} + +// ID is an implementation of the Qualifier interface method. +func (q *intQualifier) ID() int64 { + return q.id +} + +// Qualify implements the Qualifier interface method. +func (q *intQualifier) Qualify(vars Activation, obj interface{}) (interface{}, error) { + i := q.value + isMap := false + isKey := false + isIndex := false + switch o := obj.(type) { + // The specialized map types supported by an int qualifier are considerably fewer than the set + // of specialized map types supported by string qualifiers since they are less frequently used + // than string-based map keys. Additional specializations may be added in the future if + // desired. + case map[int]interface{}: + isMap = true + obj, isKey = o[int(i)] + case map[int32]interface{}: + isMap = true + obj, isKey = o[int32(i)] + case map[int64]interface{}: + isMap = true + obj, isKey = o[i] + case []interface{}: + isIndex = i >= 0 && i < int64(len(o)) + if isIndex { + obj = o[i] + } + case []string: + isIndex = i >= 0 && i < int64(len(o)) + if isIndex { + obj = o[i] + } + case []int: + isIndex = i >= 0 && i < int64(len(o)) + if isIndex { + obj = o[i] + } + case []int32: + isIndex = i >= 0 && i < int64(len(o)) + if isIndex { + obj = o[i] + } + case []int64: + isIndex = i >= 0 && i < int64(len(o)) + if isIndex { + obj = o[i] + } + case []uint: + isIndex = i >= 0 && i < int64(len(o)) + if isIndex { + obj = o[i] + } + case []uint32: + isIndex = i >= 0 && i < int64(len(o)) + if isIndex { + obj = o[i] + } + case []uint64: + isIndex = i >= 0 && i < int64(len(o)) + if isIndex { + obj = o[i] + } + case []float32: + isIndex = i >= 0 && i < int64(len(o)) + if isIndex { + obj = o[i] + } + case []float64: + isIndex = i >= 0 && i < int64(len(o)) + if isIndex { + obj = o[i] + } + case []bool: + isIndex = i >= 0 && i < int64(len(o)) + if isIndex { + obj = o[i] + } + case types.Unknown: + return o, nil + default: + elem, err := refResolve(q.adapter, q.celValue, obj) + if err != nil { + return nil, err + } + if types.IsUnknown(elem) { + return elem, nil + } + return elem, nil + } + if isMap && !isKey { + return nil, fmt.Errorf("no such key: %v", i) + } + if !isMap && !isIndex { + return nil, fmt.Errorf("index out of bounds: %v", i) + } + return obj, nil +} + +// Value implements the ConstantQualifier interface +func (q *intQualifier) Value() ref.Val { + return q.celValue +} + +// Cost returns zero for constant field qualifiers +func (q *intQualifier) Cost() (min, max int64) { + return 0, 0 +} + +type uintQualifier struct { + id int64 + value uint64 + celValue ref.Val + adapter ref.TypeAdapter +} + +// ID is an implementation of the Qualifier interface method. +func (q *uintQualifier) ID() int64 { + return q.id +} + +// Qualify implements the Qualifier interface method. +func (q *uintQualifier) Qualify(vars Activation, obj interface{}) (interface{}, error) { + u := q.value + isMap := false + isKey := false + switch o := obj.(type) { + // The specialized map types supported by a uint qualifier are considerably fewer than the set + // of specialized map types supported by string qualifiers since they are less frequently used + // than string-based map keys. Additional specializations may be added in the future if + // desired. + case map[uint]interface{}: + isMap = true + obj, isKey = o[uint(u)] + case map[uint32]interface{}: + isMap = true + obj, isKey = o[uint32(u)] + case map[uint64]interface{}: + isMap = true + obj, isKey = o[u] + case types.Unknown: + return o, nil + default: + elem, err := refResolve(q.adapter, q.celValue, obj) + if err != nil { + return nil, err + } + if types.IsUnknown(elem) { + return elem, nil + } + return elem, nil + } + if isMap && !isKey { + return nil, fmt.Errorf("no such key: %v", u) + } + return obj, nil +} + +// Value implements the ConstantQualifier interface +func (q *uintQualifier) Value() ref.Val { + return q.celValue +} + +// Cost returns zero for constant field qualifiers +func (q *uintQualifier) Cost() (min, max int64) { + return 0, 0 +} + +type boolQualifier struct { + id int64 + value bool + celValue ref.Val + adapter ref.TypeAdapter +} + +// ID is an implementation of the Qualifier interface method. +func (q *boolQualifier) ID() int64 { + return q.id +} + +// Qualify implements the Qualifier interface method. +func (q *boolQualifier) Qualify(vars Activation, obj interface{}) (interface{}, error) { + b := q.value + isKey := false + switch o := obj.(type) { + // The specialized map types supported by a bool qualifier are considerably fewer than the set + // of specialized map types supported by string qualifiers since they are less frequently used + // than string-based map keys. Additional specializations may be added in the future if + // desired. + case map[bool]interface{}: + obj, isKey = o[b] + case types.Unknown: + return o, nil + default: + elem, err := refResolve(q.adapter, q.celValue, obj) + if err != nil { + return nil, err + } + if types.IsUnknown(elem) { + return elem, nil + } + return elem, nil + } + if !isKey { + return nil, fmt.Errorf("no such key: %v", b) + } + return obj, nil +} + +// Value implements the ConstantQualifier interface +func (q *boolQualifier) Value() ref.Val { + return q.celValue +} + +// Cost returns zero for constant field qualifiers +func (q *boolQualifier) Cost() (min, max int64) { + return 0, 0 +} + +// fieldQualifier indicates that the qualification is a well-defined field with a known +// field type. When the field type is known this can be used to improve the speed and +// efficiency of field resolution. +type fieldQualifier struct { + id int64 + Name string + FieldType *ref.FieldType + adapter ref.TypeAdapter +} + +// ID is an implementation of the Qualifier interface method. +func (q *fieldQualifier) ID() int64 { + return q.id +} + +// Qualify implements the Qualifier interface method. +func (q *fieldQualifier) Qualify(vars Activation, obj interface{}) (interface{}, error) { + if rv, ok := obj.(ref.Val); ok { + obj = rv.Value() + } + return q.FieldType.GetFrom(obj) +} + +// Value implements the ConstantQualifier interface +func (q *fieldQualifier) Value() ref.Val { + return types.String(q.Name) +} + +// Cost returns zero for constant field qualifiers +func (q *fieldQualifier) Cost() (min, max int64) { + return 0, 0 +} + +// refResolve attempts to convert the value to a CEL value and then uses reflection methods +// to try and resolve the qualifier. +func refResolve(adapter ref.TypeAdapter, idx ref.Val, obj interface{}) (ref.Val, error) { + celVal := adapter.NativeToValue(obj) + mapper, isMapper := celVal.(traits.Mapper) + if isMapper { + elem, found := mapper.Find(idx) + if !found { + return nil, fmt.Errorf("no such key: %v", idx) + } + if types.IsError(elem) { + return nil, elem.(*types.Err) + } + return elem, nil + } + indexer, isIndexer := celVal.(traits.Indexer) + if isIndexer { + elem := indexer.Get(idx) + if types.IsError(elem) { + return nil, elem.(*types.Err) + } + return elem, nil + } + if types.IsUnknown(celVal) { + return celVal, nil + } + // TODO: If the types.Err value contains more than just an error message at some point in the + // future, then it would be reasonable to return error values as ref.Val types rather than + // simple go error types. + if types.IsError(celVal) { + return nil, celVal.(*types.Err) + } + return nil, errors.New("no such overload") +} diff --git a/vendor/github.com/google/cel-go/interpreter/coster.go b/vendor/github.com/google/cel-go/interpreter/coster.go new file mode 100644 index 000000000..15cb6bc04 --- /dev/null +++ b/vendor/github.com/google/cel-go/interpreter/coster.go @@ -0,0 +1,31 @@ +// Copyright 2020 Google LLC +// +// Licensed under the Apache License, Version 2.0 (the "License"); +// you may not use this file except in compliance with the License. +// You may obtain a copy of the License at +// +// http://www.apache.org/licenses/LICENSE-2.0 +// +// Unless required by applicable law or agreed to in writing, software +// distributed under the License is distributed on an "AS IS" BASIS, +// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. +// See the License for the specific language governing permissions and +// limitations under the License. + +package interpreter + +import "math" + +// Coster calculates the heuristic cost incurred during evaluation. +type Coster interface { + Cost() (min, max int64) +} + +// estimateCost returns the heuristic cost interval for the program. +func estimateCost(i interface{}) (min, max int64) { + c, ok := i.(Coster) + if !ok { + return 0, math.MaxInt64 + } + return c.Cost() +} diff --git a/vendor/github.com/google/cel-go/interpreter/decorators.go b/vendor/github.com/google/cel-go/interpreter/decorators.go new file mode 100644 index 000000000..23a7f695b --- /dev/null +++ b/vendor/github.com/google/cel-go/interpreter/decorators.go @@ -0,0 +1,201 @@ +// Copyright 2018 Google LLC +// +// Licensed under the Apache License, Version 2.0 (the "License"); +// you may not use this file except in compliance with the License. +// You may obtain a copy of the License at +// +// http://www.apache.org/licenses/LICENSE-2.0 +// +// Unless required by applicable law or agreed to in writing, software +// distributed under the License is distributed on an "AS IS" BASIS, +// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. +// See the License for the specific language governing permissions and +// limitations under the License. + +package interpreter + +import ( + "github.com/google/cel-go/common/overloads" + "github.com/google/cel-go/common/types" + "github.com/google/cel-go/common/types/ref" + "github.com/google/cel-go/common/types/traits" +) + +// InterpretableDecorator is a functional interface for decorating or replacing +// Interpretable expression nodes at construction time. +type InterpretableDecorator func(Interpretable) (Interpretable, error) + +// evalObserver is a functional interface that accepts an expression id and an observed value. +type evalObserver func(int64, ref.Val) + +// decObserveEval records evaluation state into an EvalState object. +func decObserveEval(observer evalObserver) InterpretableDecorator { + return func(i Interpretable) (Interpretable, error) { + switch inst := i.(type) { + case *evalWatch, *evalWatchAttr, *evalWatchConst: + // these instruction are already watching, return straight-away. + return i, nil + case InterpretableAttribute: + return &evalWatchAttr{ + InterpretableAttribute: inst, + observer: observer, + }, nil + case InterpretableConst: + return &evalWatchConst{ + InterpretableConst: inst, + observer: observer, + }, nil + default: + return &evalWatch{ + Interpretable: i, + observer: observer, + }, nil + } + } +} + +// decDisableShortcircuits ensures that all branches of an expression will be evaluated, no short-circuiting. +func decDisableShortcircuits() InterpretableDecorator { + return func(i Interpretable) (Interpretable, error) { + switch expr := i.(type) { + case *evalOr: + return &evalExhaustiveOr{ + id: expr.id, + lhs: expr.lhs, + rhs: expr.rhs, + }, nil + case *evalAnd: + return &evalExhaustiveAnd{ + id: expr.id, + lhs: expr.lhs, + rhs: expr.rhs, + }, nil + case *evalFold: + return &evalExhaustiveFold{ + id: expr.id, + accu: expr.accu, + accuVar: expr.accuVar, + iterRange: expr.iterRange, + iterVar: expr.iterVar, + cond: expr.cond, + step: expr.step, + result: expr.result, + }, nil + case InterpretableAttribute: + cond, isCond := expr.Attr().(*conditionalAttribute) + if isCond { + return &evalExhaustiveConditional{ + id: cond.id, + attr: cond, + adapter: expr.Adapter(), + }, nil + } + } + return i, nil + } +} + +// decOptimize optimizes the program plan by looking for common evaluation patterns and +// conditionally precomputating the result. +// - build list and map values with constant elements. +// - convert 'in' operations to set membership tests if possible. +func decOptimize() InterpretableDecorator { + return func(i Interpretable) (Interpretable, error) { + switch inst := i.(type) { + case *evalList: + return maybeBuildListLiteral(i, inst) + case *evalMap: + return maybeBuildMapLiteral(i, inst) + case InterpretableCall: + if inst.OverloadID() == overloads.InList { + return maybeOptimizeSetMembership(i, inst) + } + if overloads.IsTypeConversionFunction(inst.Function()) { + return maybeOptimizeConstUnary(i, inst) + } + } + return i, nil + } +} + +func maybeOptimizeConstUnary(i Interpretable, call InterpretableCall) (Interpretable, error) { + args := call.Args() + if len(args) != 1 { + return i, nil + } + _, isConst := args[0].(InterpretableConst) + if !isConst { + return i, nil + } + val := call.Eval(EmptyActivation()) + if types.IsError(val) { + return nil, val.(*types.Err) + } + return NewConstValue(call.ID(), val), nil +} + +func maybeBuildListLiteral(i Interpretable, l *evalList) (Interpretable, error) { + for _, elem := range l.elems { + _, isConst := elem.(InterpretableConst) + if !isConst { + return i, nil + } + } + return NewConstValue(l.ID(), l.Eval(EmptyActivation())), nil +} + +func maybeBuildMapLiteral(i Interpretable, mp *evalMap) (Interpretable, error) { + for idx, key := range mp.keys { + _, isConst := key.(InterpretableConst) + if !isConst { + return i, nil + } + _, isConst = mp.vals[idx].(InterpretableConst) + if !isConst { + return i, nil + } + } + return NewConstValue(mp.ID(), mp.Eval(EmptyActivation())), nil +} + +// maybeOptimizeSetMembership may convert an 'in' operation against a list to map key membership +// test if the following conditions are true: +// - the list is a constant with homogeneous element types. +// - the elements are all of primitive type. +func maybeOptimizeSetMembership(i Interpretable, inlist InterpretableCall) (Interpretable, error) { + args := inlist.Args() + lhs := args[0] + rhs := args[1] + l, isConst := rhs.(InterpretableConst) + if !isConst { + return i, nil + } + // When the incoming binary call is flagged with as the InList overload, the value will + // always be convertible to a `traits.Lister` type. + list := l.Value().(traits.Lister) + if list.Size() == types.IntZero { + return NewConstValue(inlist.ID(), types.False), nil + } + it := list.Iterator() + var typ ref.Type + valueSet := make(map[ref.Val]ref.Val) + for it.HasNext() == types.True { + elem := it.Next() + if !types.IsPrimitiveType(elem) { + // Note, non-primitive type are not yet supported. + return i, nil + } + if typ == nil { + typ = elem.Type() + } else if typ.TypeName() != elem.Type().TypeName() { + return i, nil + } + valueSet[elem] = types.True + } + return &evalSetMembership{ + inst: inlist, + arg: lhs, + argTypeName: typ.TypeName(), + valueSet: valueSet, + }, nil +} diff --git a/vendor/github.com/google/cel-go/interpreter/dispatcher.go b/vendor/github.com/google/cel-go/interpreter/dispatcher.go new file mode 100644 index 000000000..febf9d8a8 --- /dev/null +++ b/vendor/github.com/google/cel-go/interpreter/dispatcher.go @@ -0,0 +1,100 @@ +// Copyright 2018 Google LLC +// +// Licensed under the Apache License, Version 2.0 (the "License"); +// you may not use this file except in compliance with the License. +// You may obtain a copy of the License at +// +// http://www.apache.org/licenses/LICENSE-2.0 +// +// Unless required by applicable law or agreed to in writing, software +// distributed under the License is distributed on an "AS IS" BASIS, +// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. +// See the License for the specific language governing permissions and +// limitations under the License. + +package interpreter + +import ( + "fmt" + + "github.com/google/cel-go/interpreter/functions" +) + +// Dispatcher resolves function calls to their appropriate overload. +type Dispatcher interface { + // Add one or more overloads, returning an error if any Overload has the same Overload#Name. + Add(overloads ...*functions.Overload) error + + // FindOverload returns an Overload definition matching the provided name. + FindOverload(overload string) (*functions.Overload, bool) + + // OverloadIds returns the set of all overload identifiers configured for dispatch. + OverloadIds() []string +} + +// NewDispatcher returns an empty Dispatcher instance. +func NewDispatcher() Dispatcher { + return &defaultDispatcher{ + overloads: make(map[string]*functions.Overload)} +} + +// ExtendDispatcher returns a Dispatcher which inherits the overloads of its parent, and +// provides an isolation layer between built-ins and extension functions which is useful +// for forward compatibility. +func ExtendDispatcher(parent Dispatcher) Dispatcher { + return &defaultDispatcher{ + parent: parent, + overloads: make(map[string]*functions.Overload)} +} + +// overloadMap helper type for indexing overloads by function name. +type overloadMap map[string]*functions.Overload + +// defaultDispatcher struct which contains an overload map. +type defaultDispatcher struct { + parent Dispatcher + overloads overloadMap +} + +// Add implements the Dispatcher.Add interface method. +func (d *defaultDispatcher) Add(overloads ...*functions.Overload) error { + for _, o := range overloads { + // add the overload unless an overload of the same name has already been provided. + if _, found := d.overloads[o.Operator]; found { + return fmt.Errorf("overload already exists '%s'", o.Operator) + } + // index the overload by function name. + d.overloads[o.Operator] = o + } + return nil +} + +// FindOverload implements the Dispatcher.FindOverload interface method. +func (d *defaultDispatcher) FindOverload(overload string) (*functions.Overload, bool) { + o, found := d.overloads[overload] + // Attempt to dispatch to an overload defined in the parent. + if !found && d.parent != nil { + return d.parent.FindOverload(overload) + } + return o, found +} + +// OverloadIds implements the Dispatcher interface method. +func (d *defaultDispatcher) OverloadIds() []string { + i := 0 + overloads := make([]string, len(d.overloads)) + for name := range d.overloads { + overloads[i] = name + i++ + } + if d.parent == nil { + return overloads + } + parentOverloads := d.parent.OverloadIds() + for _, pName := range parentOverloads { + if _, found := d.overloads[pName]; !found { + overloads = append(overloads, pName) + } + } + return overloads +} diff --git a/vendor/github.com/google/cel-go/interpreter/evalstate.go b/vendor/github.com/google/cel-go/interpreter/evalstate.go new file mode 100644 index 000000000..cc0d3e6f9 --- /dev/null +++ b/vendor/github.com/google/cel-go/interpreter/evalstate.go @@ -0,0 +1,75 @@ +// Copyright 2018 Google LLC +// +// Licensed under the Apache License, Version 2.0 (the "License"); +// you may not use this file except in compliance with the License. +// You may obtain a copy of the License at +// +// http://www.apache.org/licenses/LICENSE-2.0 +// +// Unless required by applicable law or agreed to in writing, software +// distributed under the License is distributed on an "AS IS" BASIS, +// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. +// See the License for the specific language governing permissions and +// limitations under the License. + +package interpreter + +import ( + "github.com/google/cel-go/common/types/ref" +) + +// EvalState tracks the values associated with expression ids during execution. +type EvalState interface { + // IDs returns the list of ids with recorded values. + IDs() []int64 + + // Value returns the observed value of the given expression id if found, and a nil false + // result if not. + Value(int64) (ref.Val, bool) + + // SetValue sets the observed value of the expression id. + SetValue(int64, ref.Val) + + // Reset clears the previously recorded expression values. + Reset() +} + +// evalState permits the mutation of evaluation state for a given expression id. +type evalState struct { + values map[int64]ref.Val +} + +// NewEvalState returns an EvalState instanced used to observe the intermediate +// evaluations of an expression. +func NewEvalState() EvalState { + return &evalState{ + values: make(map[int64]ref.Val), + } +} + +// IDs implements the EvalState interface method. +func (s *evalState) IDs() []int64 { + var ids []int64 + for k, v := range s.values { + if v != nil { + ids = append(ids, k) + } + } + return ids +} + +// Value is an implementation of the EvalState interface method. +func (s *evalState) Value(exprID int64) (ref.Val, bool) { + val, found := s.values[exprID] + return val, found +} + +// SetValue is an implementation of the EvalState interface method. +func (s *evalState) SetValue(exprID int64, val ref.Val) { + s.values[exprID] = val +} + +// Reset implements the EvalState interface method. +func (s *evalState) Reset() { + s.values = map[int64]ref.Val{} +} diff --git a/vendor/github.com/google/cel-go/interpreter/functions/BUILD.bazel b/vendor/github.com/google/cel-go/interpreter/functions/BUILD.bazel new file mode 100644 index 000000000..846d11bf4 --- /dev/null +++ b/vendor/github.com/google/cel-go/interpreter/functions/BUILD.bazel @@ -0,0 +1,22 @@ +load("@io_bazel_rules_go//go:def.bzl", "go_library") + +package( + default_visibility = ["//visibility:public"], + licenses = ["notice"], # Apache 2.0 +) + +go_library( + name = "go_default_library", + srcs = [ + "functions.go", + "standard.go", + ], + importpath = "github.com/google/cel-go/interpreter/functions", + deps = [ + "//common/operators:go_default_library", + "//common/overloads:go_default_library", + "//common/types:go_default_library", + "//common/types/ref:go_default_library", + "//common/types/traits:go_default_library", + ], +) diff --git a/vendor/github.com/google/cel-go/interpreter/functions/functions.go b/vendor/github.com/google/cel-go/interpreter/functions/functions.go new file mode 100644 index 000000000..4ca706e96 --- /dev/null +++ b/vendor/github.com/google/cel-go/interpreter/functions/functions.go @@ -0,0 +1,58 @@ +// Copyright 2018 Google LLC +// +// Licensed under the Apache License, Version 2.0 (the "License"); +// you may not use this file except in compliance with the License. +// You may obtain a copy of the License at +// +// http://www.apache.org/licenses/LICENSE-2.0 +// +// Unless required by applicable law or agreed to in writing, software +// distributed under the License is distributed on an "AS IS" BASIS, +// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. +// See the License for the specific language governing permissions and +// limitations under the License. + +// Package functions defines the standard builtin functions supported by the +// interpreter and as declared within the checker#StandardDeclarations. +package functions + +import "github.com/google/cel-go/common/types/ref" + +// Overload defines a named overload of a function, indicating an operand trait +// which must be present on the first argument to the overload as well as one +// of either a unary, binary, or function implementation. +// +// The majority of operators within the expression language are unary or binary +// and the specializations simplify the call contract for implementers of +// types with operator overloads. Any added complexity is assumed to be handled +// by the generic FunctionOp. +type Overload struct { + // Operator name as written in an expression or defined within + // operators.go. + Operator string + + // Operand trait used to dispatch the call. The zero-value indicates a + // global function overload or that one of the Unary / Binary / Function + // definitions should be used to execute the call. + OperandTrait int + + // Unary defines the overload with a UnaryOp implementation. May be nil. + Unary UnaryOp + + // Binary defines the overload with a BinaryOp implementation. May be nil. + Binary BinaryOp + + // Function defines the overload with a FunctionOp implementation. May be + // nil. + Function FunctionOp +} + +// UnaryOp is a function that takes a single value and produces an output. +type UnaryOp func(value ref.Val) ref.Val + +// BinaryOp is a function that takes two values and produces an output. +type BinaryOp func(lhs ref.Val, rhs ref.Val) ref.Val + +// FunctionOp is a function with accepts zero or more arguments and produces +// an value (as interface{}) or error as a result. +type FunctionOp func(values ...ref.Val) ref.Val diff --git a/vendor/github.com/google/cel-go/interpreter/functions/standard.go b/vendor/github.com/google/cel-go/interpreter/functions/standard.go new file mode 100644 index 000000000..c8767bc17 --- /dev/null +++ b/vendor/github.com/google/cel-go/interpreter/functions/standard.go @@ -0,0 +1,272 @@ +// Copyright 2018 Google LLC +// +// Licensed under the Apache License, Version 2.0 (the "License"); +// you may not use this file except in compliance with the License. +// You may obtain a copy of the License at +// +// http://www.apache.org/licenses/LICENSE-2.0 +// +// Unless required by applicable law or agreed to in writing, software +// distributed under the License is distributed on an "AS IS" BASIS, +// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. +// See the License for the specific language governing permissions and +// limitations under the License. + +package functions + +import ( + "github.com/google/cel-go/common/operators" + "github.com/google/cel-go/common/overloads" + "github.com/google/cel-go/common/types" + "github.com/google/cel-go/common/types/ref" + "github.com/google/cel-go/common/types/traits" +) + +// StandardOverloads returns the definitions of the built-in overloads. +func StandardOverloads() []*Overload { + return []*Overload{ + // Logical not (!a) + { + Operator: operators.LogicalNot, + OperandTrait: traits.NegatorType, + Unary: func(value ref.Val) ref.Val { + if !types.IsBool(value) { + return types.ValOrErr(value, "no such overload") + } + return value.(traits.Negater).Negate() + }}, + // Not strictly false: IsBool(a) ? a : true + { + Operator: operators.NotStrictlyFalse, + Unary: notStrictlyFalse}, + // Deprecated: not strictly false, may be overridden in the environment. + { + Operator: operators.OldNotStrictlyFalse, + Unary: notStrictlyFalse}, + + // Less than operator + {Operator: operators.Less, + OperandTrait: traits.ComparerType, + Binary: func(lhs ref.Val, rhs ref.Val) ref.Val { + cmp := lhs.(traits.Comparer).Compare(rhs) + if cmp == types.IntNegOne { + return types.True + } + if cmp == types.IntOne || cmp == types.IntZero { + return types.False + } + return cmp + }}, + + // Less than or equal operator + {Operator: operators.LessEquals, + OperandTrait: traits.ComparerType, + Binary: func(lhs ref.Val, rhs ref.Val) ref.Val { + cmp := lhs.(traits.Comparer).Compare(rhs) + if cmp == types.IntNegOne || cmp == types.IntZero { + return types.True + } + if cmp == types.IntOne { + return types.False + } + return cmp + }}, + + // Greater than operator + {Operator: operators.Greater, + OperandTrait: traits.ComparerType, + Binary: func(lhs ref.Val, rhs ref.Val) ref.Val { + cmp := lhs.(traits.Comparer).Compare(rhs) + if cmp == types.IntOne { + return types.True + } + if cmp == types.IntNegOne || cmp == types.IntZero { + return types.False + } + return cmp + }}, + + // Greater than equal operators + {Operator: operators.GreaterEquals, + OperandTrait: traits.ComparerType, + Binary: func(lhs ref.Val, rhs ref.Val) ref.Val { + cmp := lhs.(traits.Comparer).Compare(rhs) + if cmp == types.IntOne || cmp == types.IntZero { + return types.True + } + if cmp == types.IntNegOne { + return types.False + } + return cmp + }}, + + // TODO: Verify overflow, NaN, underflow cases for numeric values. + + // Add operator + {Operator: operators.Add, + OperandTrait: traits.AdderType, + Binary: func(lhs ref.Val, rhs ref.Val) ref.Val { + return lhs.(traits.Adder).Add(rhs) + }}, + + // Subtract operators + {Operator: operators.Subtract, + OperandTrait: traits.SubtractorType, + Binary: func(lhs ref.Val, rhs ref.Val) ref.Val { + return lhs.(traits.Subtractor).Subtract(rhs) + }}, + + // Multiply operator + {Operator: operators.Multiply, + OperandTrait: traits.MultiplierType, + Binary: func(lhs ref.Val, rhs ref.Val) ref.Val { + return lhs.(traits.Multiplier).Multiply(rhs) + }}, + + // Divide operator + {Operator: operators.Divide, + OperandTrait: traits.DividerType, + Binary: func(lhs ref.Val, rhs ref.Val) ref.Val { + return lhs.(traits.Divider).Divide(rhs) + }}, + + // Modulo operator + {Operator: operators.Modulo, + OperandTrait: traits.ModderType, + Binary: func(lhs ref.Val, rhs ref.Val) ref.Val { + return lhs.(traits.Modder).Modulo(rhs) + }}, + + // Negate operator + {Operator: operators.Negate, + OperandTrait: traits.NegatorType, + Unary: func(value ref.Val) ref.Val { + if types.IsBool(value) { + return types.ValOrErr(value, "no such overload") + } + return value.(traits.Negater).Negate() + }}, + + // Index operator + {Operator: operators.Index, + OperandTrait: traits.IndexerType, + Binary: func(lhs ref.Val, rhs ref.Val) ref.Val { + return lhs.(traits.Indexer).Get(rhs) + }}, + + // Size function + {Operator: overloads.Size, + OperandTrait: traits.SizerType, + Unary: func(value ref.Val) ref.Val { + return value.(traits.Sizer).Size() + }}, + + // In operator + {Operator: operators.In, Binary: inAggregate}, + // Deprecated: in operator, may be overridden in the environment. + {Operator: operators.OldIn, Binary: inAggregate}, + + // Matches function + {Operator: overloads.Matches, + OperandTrait: traits.MatcherType, + Binary: func(lhs ref.Val, rhs ref.Val) ref.Val { + return lhs.(traits.Matcher).Match(rhs) + }}, + + // Type conversion functions + // TODO: verify type conversion safety of numeric values. + + // Int conversions. + {Operator: overloads.TypeConvertInt, + Unary: func(value ref.Val) ref.Val { + return value.ConvertToType(types.IntType) + }}, + + // Uint conversions. + {Operator: overloads.TypeConvertUint, + Unary: func(value ref.Val) ref.Val { + return value.ConvertToType(types.UintType) + }}, + + // Double conversions. + {Operator: overloads.TypeConvertDouble, + Unary: func(value ref.Val) ref.Val { + return value.ConvertToType(types.DoubleType) + }}, + + // Bool conversions. + {Operator: overloads.TypeConvertBool, + Unary: func(value ref.Val) ref.Val { + return value.ConvertToType(types.BoolType) + }}, + + // Bytes conversions. + {Operator: overloads.TypeConvertBytes, + Unary: func(value ref.Val) ref.Val { + return value.ConvertToType(types.BytesType) + }}, + + // String conversions. + {Operator: overloads.TypeConvertString, + Unary: func(value ref.Val) ref.Val { + return value.ConvertToType(types.StringType) + }}, + + // Timestamp conversions. + {Operator: overloads.TypeConvertTimestamp, + Unary: func(value ref.Val) ref.Val { + return value.ConvertToType(types.TimestampType) + }}, + + // Duration conversions. + {Operator: overloads.TypeConvertDuration, + Unary: func(value ref.Val) ref.Val { + return value.ConvertToType(types.DurationType) + }}, + + // Type operations. + {Operator: overloads.TypeConvertType, + Unary: func(value ref.Val) ref.Val { + return value.ConvertToType(types.TypeType) + }}, + + // Dyn conversion (identity function). + {Operator: overloads.TypeConvertDyn, + Unary: func(value ref.Val) ref.Val { + return value + }}, + + {Operator: overloads.Iterator, + OperandTrait: traits.IterableType, + Unary: func(value ref.Val) ref.Val { + return value.(traits.Iterable).Iterator() + }}, + + {Operator: overloads.HasNext, + OperandTrait: traits.IteratorType, + Unary: func(value ref.Val) ref.Val { + return value.(traits.Iterator).HasNext() + }}, + + {Operator: overloads.Next, + OperandTrait: traits.IteratorType, + Unary: func(value ref.Val) ref.Val { + return value.(traits.Iterator).Next() + }}, + } + +} + +func notStrictlyFalse(value ref.Val) ref.Val { + if types.IsBool(value) { + return value + } + return types.True +} + +func inAggregate(lhs ref.Val, rhs ref.Val) ref.Val { + if rhs.Type().HasTrait(traits.ContainerType) { + return rhs.(traits.Container).Contains(lhs) + } + return types.ValOrErr(rhs, "no such overload") +} diff --git a/vendor/github.com/google/cel-go/interpreter/interpretable.go b/vendor/github.com/google/cel-go/interpreter/interpretable.go new file mode 100644 index 000000000..28af6d44b --- /dev/null +++ b/vendor/github.com/google/cel-go/interpreter/interpretable.go @@ -0,0 +1,1204 @@ +// Copyright 2019 Google LLC +// +// Licensed under the Apache License, Version 2.0 (the "License"); +// you may not use this file except in compliance with the License. +// You may obtain a copy of the License at +// +// http://www.apache.org/licenses/LICENSE-2.0 +// +// Unless required by applicable law or agreed to in writing, software +// distributed under the License is distributed on an "AS IS" BASIS, +// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. +// See the License for the specific language governing permissions and +// limitations under the License. + +package interpreter + +import ( + "math" + + "github.com/google/cel-go/common/operators" + "github.com/google/cel-go/common/overloads" + "github.com/google/cel-go/common/types" + "github.com/google/cel-go/common/types/ref" + "github.com/google/cel-go/common/types/traits" + "github.com/google/cel-go/interpreter/functions" +) + +// Interpretable can accept a given Activation and produce a value along with +// an accompanying EvalState which can be used to inspect whether additional +// data might be necessary to complete the evaluation. +type Interpretable interface { + // ID value corresponding to the expression node. + ID() int64 + + // Eval an Activation to produce an output. + Eval(activation Activation) ref.Val +} + +// InterpretableConst interface for tracking whether the Interpretable is a constant value. +type InterpretableConst interface { + Interpretable + + // Value returns the constant value of the instruction. + Value() ref.Val +} + +// InterpretableAttribute interface for tracking whether the Interpretable is an attribute. +type InterpretableAttribute interface { + Interpretable + + // Attr returns the Attribute value. + Attr() Attribute + + // Adapter returns the type adapter to be used for adapting resolved Attribute values. + Adapter() ref.TypeAdapter + + // AddQualifier proxies the Attribute.AddQualifier method. + // + // Note, this method may mutate the current attribute state. If the desire is to clone the + // Attribute, the Attribute should first be copied before adding the qualifier. Attributes + // are not copyable by default, so this is a capable that would need to be added to the + // AttributeFactory or specifically to the underlying Attribute implementation. + AddQualifier(Qualifier) (Attribute, error) + + // Qualify replicates the Attribute.Qualify method to permit extension and interception + // of object qualification. + Qualify(vars Activation, obj interface{}) (interface{}, error) + + // Resolve returns the value of the Attribute given the current Activation. + Resolve(Activation) (interface{}, error) +} + +// InterpretableCall interface for inspecting Interpretable instructions related to function calls. +type InterpretableCall interface { + Interpretable + + // Function returns the function name as it appears in text or mangled operator name as it + // appears in the operators.go file. + Function() string + + // OverloadID returns the overload id associated with the function specialization. + // Overload ids are stable across language boundaries and can be treated as synonymous with a + // unique function signature. + OverloadID() string + + // Args returns the normalized arguments to the function overload. + // For receiver-style functions, the receiver target is arg 0. + Args() []Interpretable +} + +// Core Interpretable implementations used during the program planning phase. + +type evalTestOnly struct { + id int64 + op Interpretable + field types.String + fieldType *ref.FieldType +} + +// ID implements the Interpretable interface method. +func (test *evalTestOnly) ID() int64 { + return test.id +} + +// Eval implements the Interpretable interface method. +func (test *evalTestOnly) Eval(ctx Activation) ref.Val { + // Handle field selection on a proto in the most efficient way possible. + if test.fieldType != nil { + opAttr, ok := test.op.(InterpretableAttribute) + if ok { + opVal, err := opAttr.Resolve(ctx) + if err != nil { + return types.NewErr(err.Error()) + } + refVal, ok := opVal.(ref.Val) + if ok { + opVal = refVal.Value() + } + if test.fieldType.IsSet(opVal) { + return types.True + } + return types.False + } + } + + obj := test.op.Eval(ctx) + tester, ok := obj.(traits.FieldTester) + if ok { + return tester.IsSet(test.field) + } + container, ok := obj.(traits.Container) + if ok { + return container.Contains(test.field) + } + return types.ValOrErr(obj, "invalid type for field selection.") +} + +// Cost provides the heuristic cost of a `has(field)` macro. The cost has at least 1 for determining +// if the field exists, apart from the cost of accessing the field. +func (test *evalTestOnly) Cost() (min, max int64) { + min, max = estimateCost(test.op) + min++ + max++ + return +} + +// NewConstValue creates a new constant valued Interpretable. +func NewConstValue(id int64, val ref.Val) InterpretableConst { + return &evalConst{ + id: id, + val: val, + } +} + +type evalConst struct { + id int64 + val ref.Val +} + +// ID implements the Interpretable interface method. +func (cons *evalConst) ID() int64 { + return cons.id +} + +// Eval implements the Interpretable interface method. +func (cons *evalConst) Eval(ctx Activation) ref.Val { + return cons.val +} + +// Cost returns zero for a constant valued Interpretable. +func (cons *evalConst) Cost() (min, max int64) { + return 0, 0 +} + +// Value implements the InterpretableConst interface method. +func (cons *evalConst) Value() ref.Val { + return cons.val +} + +type evalOr struct { + id int64 + lhs Interpretable + rhs Interpretable +} + +// ID implements the Interpretable interface method. +func (or *evalOr) ID() int64 { + return or.id +} + +// Eval implements the Interpretable interface method. +func (or *evalOr) Eval(ctx Activation) ref.Val { + // short-circuit lhs. + lVal := or.lhs.Eval(ctx) + lBool, lok := lVal.(types.Bool) + if lok && lBool == types.True { + return types.True + } + // short-circuit on rhs. + rVal := or.rhs.Eval(ctx) + rBool, rok := rVal.(types.Bool) + if rok && rBool == types.True { + return types.True + } + // return if both sides are bool false. + if lok && rok { + return types.False + } + // TODO: return both values as a set if both are unknown or error. + // prefer left unknown to right unknown. + if types.IsUnknown(lVal) { + return lVal + } + if types.IsUnknown(rVal) { + return rVal + } + // If the left-hand side is non-boolean return it as the error. + if types.IsError(lVal) { + return lVal + } + return types.ValOrErr(rVal, "no such overload") +} + +// Cost implements the Coster interface method. The minimum possible cost incurs when the left-hand +// side expr is sufficient in determining the evaluation result. +func (or *evalOr) Cost() (min, max int64) { + return calShortCircuitBinaryOpsCost(or.lhs, or.rhs) +} + +type evalAnd struct { + id int64 + lhs Interpretable + rhs Interpretable +} + +// ID implements the Interpretable interface method. +func (and *evalAnd) ID() int64 { + return and.id +} + +// Eval implements the Interpretable interface method. +func (and *evalAnd) Eval(ctx Activation) ref.Val { + // short-circuit lhs. + lVal := and.lhs.Eval(ctx) + lBool, lok := lVal.(types.Bool) + if lok && lBool == types.False { + return types.False + } + // short-circuit on rhs. + rVal := and.rhs.Eval(ctx) + rBool, rok := rVal.(types.Bool) + if rok && rBool == types.False { + return types.False + } + // return if both sides are bool true. + if lok && rok { + return types.True + } + // TODO: return both values as a set if both are unknown or error. + // prefer left unknown to right unknown. + if types.IsUnknown(lVal) { + return lVal + } + if types.IsUnknown(rVal) { + return rVal + } + // If the left-hand side is non-boolean return it as the error. + if types.IsError(lVal) { + return lVal + } + return types.ValOrErr(rVal, "no such overload") +} + +// Cost implements the Coster interface method. The minimum possible cost incurs when the left-hand +// side expr is sufficient in determining the evaluation result. +func (and *evalAnd) Cost() (min, max int64) { + return calShortCircuitBinaryOpsCost(and.lhs, and.rhs) +} + +func calShortCircuitBinaryOpsCost(lhs, rhs Interpretable) (min, max int64) { + lMin, lMax := estimateCost(lhs) + _, rMax := estimateCost(rhs) + return lMin, lMax + rMax + 1 +} + +type evalEq struct { + id int64 + lhs Interpretable + rhs Interpretable +} + +// ID implements the Interpretable interface method. +func (eq *evalEq) ID() int64 { + return eq.id +} + +// Eval implements the Interpretable interface method. +func (eq *evalEq) Eval(ctx Activation) ref.Val { + lVal := eq.lhs.Eval(ctx) + rVal := eq.rhs.Eval(ctx) + return lVal.Equal(rVal) +} + +// Cost implements the Coster interface method. +func (eq *evalEq) Cost() (min, max int64) { + return calExhaustiveBinaryOpsCost(eq.lhs, eq.rhs) +} + +// Function implements the InterpretableCall interface method. +func (*evalEq) Function() string { + return operators.Equals +} + +// OverloadID implements the InterpretableCall interface method. +func (*evalEq) OverloadID() string { + return overloads.Equals +} + +// Args implements the InterpretableCall interface method. +func (eq *evalEq) Args() []Interpretable { + return []Interpretable{eq.lhs, eq.rhs} +} + +type evalNe struct { + id int64 + lhs Interpretable + rhs Interpretable +} + +// ID implements the Interpretable interface method. +func (ne *evalNe) ID() int64 { + return ne.id +} + +// Eval implements the Interpretable interface method. +func (ne *evalNe) Eval(ctx Activation) ref.Val { + lVal := ne.lhs.Eval(ctx) + rVal := ne.rhs.Eval(ctx) + eqVal := lVal.Equal(rVal) + eqBool, ok := eqVal.(types.Bool) + if !ok { + return types.ValOrErr(eqVal, "no such overload: _!=_") + } + return !eqBool +} + +// Cost implements the Coster interface method. +func (ne *evalNe) Cost() (min, max int64) { + return calExhaustiveBinaryOpsCost(ne.lhs, ne.rhs) +} + +// Function implements the InterpretableCall interface method. +func (*evalNe) Function() string { + return operators.NotEquals +} + +// OverloadID implements the InterpretableCall interface method. +func (*evalNe) OverloadID() string { + return overloads.NotEquals +} + +// Args implements the InterpretableCall interface method. +func (ne *evalNe) Args() []Interpretable { + return []Interpretable{ne.lhs, ne.rhs} +} + +type evalZeroArity struct { + id int64 + function string + overload string + impl functions.FunctionOp +} + +// ID implements the Interpretable interface method. +func (zero *evalZeroArity) ID() int64 { + return zero.id +} + +// Eval implements the Interpretable interface method. +func (zero *evalZeroArity) Eval(ctx Activation) ref.Val { + return zero.impl() +} + +// Cost returns 1 representing the heuristic cost of the function. +func (zero *evalZeroArity) Cost() (min, max int64) { + return 1, 1 +} + +// Function implements the InterpretableCall interface method. +func (zero *evalZeroArity) Function() string { + return zero.function +} + +// OverloadID implements the InterpretableCall interface method. +func (zero *evalZeroArity) OverloadID() string { + return zero.overload +} + +// Args returns the argument to the unary function. +func (zero *evalZeroArity) Args() []Interpretable { + return []Interpretable{} +} + +type evalUnary struct { + id int64 + function string + overload string + arg Interpretable + trait int + impl functions.UnaryOp +} + +// ID implements the Interpretable interface method. +func (un *evalUnary) ID() int64 { + return un.id +} + +// Eval implements the Interpretable interface method. +func (un *evalUnary) Eval(ctx Activation) ref.Val { + argVal := un.arg.Eval(ctx) + // Early return if the argument to the function is unknown or error. + if types.IsUnknownOrError(argVal) { + return argVal + } + // If the implementation is bound and the argument value has the right traits required to + // invoke it, then call the implementation. + if un.impl != nil && (un.trait == 0 || argVal.Type().HasTrait(un.trait)) { + return un.impl(argVal) + } + // Otherwise, if the argument is a ReceiverType attempt to invoke the receiver method on the + // operand (arg0). + if argVal.Type().HasTrait(traits.ReceiverType) { + return argVal.(traits.Receiver).Receive(un.function, un.overload, []ref.Val{}) + } + return types.NewErr("no such overload: %s", un.function) +} + +// Cost implements the Coster interface method. +func (un *evalUnary) Cost() (min, max int64) { + min, max = estimateCost(un.arg) + min++ // add cost for function + max++ + return +} + +// Function implements the InterpretableCall interface method. +func (un *evalUnary) Function() string { + return un.function +} + +// OverloadID implements the InterpretableCall interface method. +func (un *evalUnary) OverloadID() string { + return un.overload +} + +// Args returns the argument to the unary function. +func (un *evalUnary) Args() []Interpretable { + return []Interpretable{un.arg} +} + +type evalBinary struct { + id int64 + function string + overload string + lhs Interpretable + rhs Interpretable + trait int + impl functions.BinaryOp +} + +// ID implements the Interpretable interface method. +func (bin *evalBinary) ID() int64 { + return bin.id +} + +// Eval implements the Interpretable interface method. +func (bin *evalBinary) Eval(ctx Activation) ref.Val { + lVal := bin.lhs.Eval(ctx) + rVal := bin.rhs.Eval(ctx) + // Early return if any argument to the function is unknown or error. + if types.IsUnknownOrError(lVal) { + return lVal + } + if types.IsUnknownOrError(rVal) { + return rVal + } + // If the implementation is bound and the argument value has the right traits required to + // invoke it, then call the implementation. + if bin.impl != nil && (bin.trait == 0 || lVal.Type().HasTrait(bin.trait)) { + return bin.impl(lVal, rVal) + } + // Otherwise, if the argument is a ReceiverType attempt to invoke the receiver method on the + // operand (arg0). + if lVal.Type().HasTrait(traits.ReceiverType) { + return lVal.(traits.Receiver).Receive(bin.function, bin.overload, []ref.Val{rVal}) + } + return types.NewErr("no such overload: %s", bin.function) +} + +// Cost implements the Coster interface method. +func (bin *evalBinary) Cost() (min, max int64) { + return calExhaustiveBinaryOpsCost(bin.lhs, bin.rhs) +} + +// Function implements the InterpretableCall interface method. +func (bin *evalBinary) Function() string { + return bin.function +} + +// OverloadID implements the InterpretableCall interface method. +func (bin *evalBinary) OverloadID() string { + return bin.overload +} + +// Args returns the argument to the unary function. +func (bin *evalBinary) Args() []Interpretable { + return []Interpretable{bin.lhs, bin.rhs} +} + +type evalVarArgs struct { + id int64 + function string + overload string + args []Interpretable + trait int + impl functions.FunctionOp +} + +// ID implements the Interpretable interface method. +func (fn *evalVarArgs) ID() int64 { + return fn.id +} + +// Eval implements the Interpretable interface method. +func (fn *evalVarArgs) Eval(ctx Activation) ref.Val { + argVals := make([]ref.Val, len(fn.args)) + // Early return if any argument to the function is unknown or error. + for i, arg := range fn.args { + argVals[i] = arg.Eval(ctx) + if types.IsUnknownOrError(argVals[i]) { + return argVals[i] + } + } + // If the implementation is bound and the argument value has the right traits required to + // invoke it, then call the implementation. + arg0 := argVals[0] + if fn.impl != nil && (fn.trait == 0 || arg0.Type().HasTrait(fn.trait)) { + return fn.impl(argVals...) + } + // Otherwise, if the argument is a ReceiverType attempt to invoke the receiver method on the + // operand (arg0). + if arg0.Type().HasTrait(traits.ReceiverType) { + return arg0.(traits.Receiver).Receive(fn.function, fn.overload, argVals[1:]) + } + return types.NewErr("no such overload: %s", fn.function) +} + +// Cost implements the Coster interface method. +func (fn *evalVarArgs) Cost() (min, max int64) { + min, max = sumOfCost(fn.args) + min++ // add cost for function + max++ + return +} + +// Function implements the InterpretableCall interface method. +func (fn *evalVarArgs) Function() string { + return fn.function +} + +// OverloadID implements the InterpretableCall interface method. +func (fn *evalVarArgs) OverloadID() string { + return fn.overload +} + +// Args returns the argument to the unary function. +func (fn *evalVarArgs) Args() []Interpretable { + return fn.args +} + +type evalList struct { + id int64 + elems []Interpretable + adapter ref.TypeAdapter +} + +// ID implements the Interpretable interface method. +func (l *evalList) ID() int64 { + return l.id +} + +// Eval implements the Interpretable interface method. +func (l *evalList) Eval(ctx Activation) ref.Val { + elemVals := make([]ref.Val, len(l.elems)) + // If any argument is unknown or error early terminate. + for i, elem := range l.elems { + elemVal := elem.Eval(ctx) + if types.IsUnknownOrError(elemVal) { + return elemVal + } + elemVals[i] = elemVal + } + return l.adapter.NativeToValue(elemVals) +} + +// Cost implements the Coster interface method. +func (l *evalList) Cost() (min, max int64) { + return sumOfCost(l.elems) +} + +type evalMap struct { + id int64 + keys []Interpretable + vals []Interpretable + adapter ref.TypeAdapter +} + +// ID implements the Interpretable interface method. +func (m *evalMap) ID() int64 { + return m.id +} + +// Eval implements the Interpretable interface method. +func (m *evalMap) Eval(ctx Activation) ref.Val { + entries := make(map[ref.Val]ref.Val) + // If any argument is unknown or error early terminate. + for i, key := range m.keys { + keyVal := key.Eval(ctx) + if types.IsUnknownOrError(keyVal) { + return keyVal + } + valVal := m.vals[i].Eval(ctx) + if types.IsUnknownOrError(valVal) { + return valVal + } + entries[keyVal] = valVal + } + return m.adapter.NativeToValue(entries) +} + +// Cost implements the Coster interface method. +func (m *evalMap) Cost() (min, max int64) { + kMin, kMax := sumOfCost(m.keys) + vMin, vMax := sumOfCost(m.vals) + return kMin + vMin, kMax + vMax +} + +type evalObj struct { + id int64 + typeName string + fields []string + vals []Interpretable + provider ref.TypeProvider +} + +// ID implements the Interpretable interface method. +func (o *evalObj) ID() int64 { + return o.id +} + +// Eval implements the Interpretable interface method. +func (o *evalObj) Eval(ctx Activation) ref.Val { + fieldVals := make(map[string]ref.Val) + // If any argument is unknown or error early terminate. + for i, field := range o.fields { + val := o.vals[i].Eval(ctx) + if types.IsUnknownOrError(val) { + return val + } + fieldVals[field] = val + } + return o.provider.NewValue(o.typeName, fieldVals) +} + +// Cost implements the Coster interface method. +func (o *evalObj) Cost() (min, max int64) { + return sumOfCost(o.vals) +} + +func sumOfCost(interps []Interpretable) (min, max int64) { + min, max = 0, 0 + for _, in := range interps { + minT, maxT := estimateCost(in) + min += minT + max += maxT + } + return +} + +type evalFold struct { + id int64 + accuVar string + iterVar string + iterRange Interpretable + accu Interpretable + cond Interpretable + step Interpretable + result Interpretable +} + +// ID implements the Interpretable interface method. +func (fold *evalFold) ID() int64 { + return fold.id +} + +// Eval implements the Interpretable interface method. +func (fold *evalFold) Eval(ctx Activation) ref.Val { + foldRange := fold.iterRange.Eval(ctx) + if !foldRange.Type().HasTrait(traits.IterableType) { + return types.ValOrErr(foldRange, "got '%T', expected iterable type", foldRange) + } + // Configure the fold activation with the accumulator initial value. + accuCtx := varActivationPool.Get().(*varActivation) + accuCtx.parent = ctx + accuCtx.name = fold.accuVar + accuCtx.val = fold.accu.Eval(ctx) + iterCtx := varActivationPool.Get().(*varActivation) + iterCtx.parent = accuCtx + iterCtx.name = fold.iterVar + it := foldRange.(traits.Iterable).Iterator() + for it.HasNext() == types.True { + // Modify the iter var in the fold activation. + iterCtx.val = it.Next() + + // Evaluate the condition, terminate the loop if false. + cond := fold.cond.Eval(iterCtx) + condBool, ok := cond.(types.Bool) + if !types.IsUnknown(cond) && ok && condBool != types.True { + break + } + + // Evalute the evaluation step into accu var. + accuCtx.val = fold.step.Eval(iterCtx) + } + // Compute the result. + res := fold.result.Eval(accuCtx) + varActivationPool.Put(iterCtx) + varActivationPool.Put(accuCtx) + return res +} + +// Cost implements the Coster interface method. +func (fold *evalFold) Cost() (min, max int64) { + // Compute the cost for evaluating iterRange. + iMin, iMax := estimateCost(fold.iterRange) + + // Compute the size of iterRange. If the size depends on the input, return the maximum possible + // cost range. + foldRange := fold.iterRange.Eval(EmptyActivation()) + if !foldRange.Type().HasTrait(traits.IterableType) { + return 0, math.MaxInt64 + } + var rangeCnt int64 + it := foldRange.(traits.Iterable).Iterator() + for it.HasNext() == types.True { + it.Next() + rangeCnt++ + } + aMin, aMax := estimateCost(fold.accu) + cMin, cMax := estimateCost(fold.cond) + sMin, sMax := estimateCost(fold.step) + rMin, rMax := estimateCost(fold.result) + + // The cond and step costs are multiplied by size(iterRange). The minimum possible cost incurs + // when the evaluation result can be determined by the first iteration. + return iMin + aMin + cMin + sMin + rMin, + iMax + aMax + cMax*rangeCnt + sMax*rangeCnt + rMax +} + +// Optional Intepretable implementations that specialize, subsume, or extend the core evaluation +// plan via decorators. + +// evalSetMembership is an Interpretable implementation which tests whether an input value +// exists within the set of map keys used to model a set. +type evalSetMembership struct { + inst Interpretable + arg Interpretable + argTypeName string + valueSet map[ref.Val]ref.Val +} + +// ID implements the Interpretable interface method. +func (e *evalSetMembership) ID() int64 { + return e.inst.ID() +} + +// Eval implements the Interpretable interface method. +func (e *evalSetMembership) Eval(ctx Activation) ref.Val { + val := e.arg.Eval(ctx) + if val.Type().TypeName() != e.argTypeName { + return types.ValOrErr(val, "no such overload") + } + if ret, found := e.valueSet[val]; found { + return ret + } + return types.False +} + +// Cost implements the Coster interface method. +func (e *evalSetMembership) Cost() (min, max int64) { + return estimateCost(e.arg) +} + +// evalWatch is an Interpretable implementation that wraps the execution of a given +// expression so that it may observe the computed value and send it to an observer. +type evalWatch struct { + Interpretable + observer evalObserver +} + +// Eval implements the Interpretable interface method. +func (e *evalWatch) Eval(ctx Activation) ref.Val { + val := e.Interpretable.Eval(ctx) + e.observer(e.ID(), val) + return val +} + +// Cost implements the Coster interface method. +func (e *evalWatch) Cost() (min, max int64) { + return estimateCost(e.Interpretable) +} + +// evalWatchAttr describes a watcher of an instAttr Interpretable. +// +// Since the watcher may be selected against at a later stage in program planning, the watcher +// must implement the instAttr interface by proxy. +type evalWatchAttr struct { + InterpretableAttribute + observer evalObserver +} + +// AddQualifier creates a wrapper over the incoming qualifier which observes the qualification +// result. +func (e *evalWatchAttr) AddQualifier(q Qualifier) (Attribute, error) { + cq, isConst := q.(ConstantQualifier) + if isConst { + q = &evalWatchConstQual{ + ConstantQualifier: cq, + observer: e.observer, + adapter: e.InterpretableAttribute.Adapter(), + } + } else { + q = &evalWatchQual{ + Qualifier: q, + observer: e.observer, + adapter: e.InterpretableAttribute.Adapter(), + } + } + _, err := e.InterpretableAttribute.AddQualifier(q) + return e, err +} + +// evalWatchConstQual observes the qualification of an object using a constant boolean, int, +// string, or uint. +type evalWatchConstQual struct { + ConstantQualifier + observer evalObserver + adapter ref.TypeAdapter +} + +// Cost implements the Coster interface method. +func (e *evalWatchConstQual) Cost() (min, max int64) { + return estimateCost(e.ConstantQualifier) +} + +// Qualify observes the qualification of a object via a constant boolean, int, string, or uint. +func (e *evalWatchConstQual) Qualify(vars Activation, obj interface{}) (interface{}, error) { + out, err := e.ConstantQualifier.Qualify(vars, obj) + var val ref.Val + if err != nil { + val = types.NewErr(err.Error()) + } else { + val = e.adapter.NativeToValue(out) + } + e.observer(e.ID(), val) + return out, err +} + +// QualifierValueEquals tests whether the incoming value is equal to the qualificying constant. +func (e *evalWatchConstQual) QualifierValueEquals(value interface{}) bool { + qve, ok := e.ConstantQualifier.(qualifierValueEquator) + return ok && qve.QualifierValueEquals(value) +} + +// evalWatchQual observes the qualification of an object by a value computed at runtime. +type evalWatchQual struct { + Qualifier + observer evalObserver + adapter ref.TypeAdapter +} + +// Cost implements the Coster interface method. +func (e *evalWatchQual) Cost() (min, max int64) { + return estimateCost(e.Qualifier) +} + +// Qualify observes the qualification of a object via a value computed at runtime. +func (e *evalWatchQual) Qualify(vars Activation, obj interface{}) (interface{}, error) { + out, err := e.Qualifier.Qualify(vars, obj) + var val ref.Val + if err != nil { + val = types.NewErr(err.Error()) + } else { + val = e.adapter.NativeToValue(out) + } + e.observer(e.ID(), val) + return out, err +} + +// Cost implements the Coster interface method. +func (e *evalWatchAttr) Cost() (min, max int64) { + return estimateCost(e.InterpretableAttribute) +} + +// Eval implements the Interpretable interface method. +func (e *evalWatchAttr) Eval(vars Activation) ref.Val { + val := e.InterpretableAttribute.Eval(vars) + e.observer(e.ID(), val) + return val +} + +// evalWatchConst describes a watcher of an instConst Interpretable. +type evalWatchConst struct { + InterpretableConst + observer evalObserver +} + +// Eval implements the Interpretable interface method. +func (e *evalWatchConst) Eval(vars Activation) ref.Val { + val := e.Value() + e.observer(e.ID(), val) + return val +} + +// Cost implements the Coster interface method. +func (e *evalWatchConst) Cost() (min, max int64) { + return estimateCost(e.InterpretableConst) +} + +// evalExhaustiveOr is just like evalOr, but does not short-circuit argument evaluation. +type evalExhaustiveOr struct { + id int64 + lhs Interpretable + rhs Interpretable +} + +// ID implements the Interpretable interface method. +func (or *evalExhaustiveOr) ID() int64 { + return or.id +} + +// Eval implements the Interpretable interface method. +func (or *evalExhaustiveOr) Eval(ctx Activation) ref.Val { + lVal := or.lhs.Eval(ctx) + rVal := or.rhs.Eval(ctx) + lBool, lok := lVal.(types.Bool) + if lok && lBool == types.True { + return types.True + } + rBool, rok := rVal.(types.Bool) + if rok && rBool == types.True { + return types.True + } + if lok && rok { + return types.False + } + if types.IsUnknown(lVal) { + return lVal + } + if types.IsUnknown(rVal) { + return rVal + } + // TODO: Combine the errors into a set in the future. + // If the left-hand side is non-boolean return it as the error. + if types.IsError(lVal) { + return lVal + } + return types.ValOrErr(rVal, "no such overload") +} + +// Cost implements the Coster interface method. +func (or *evalExhaustiveOr) Cost() (min, max int64) { + return calExhaustiveBinaryOpsCost(or.lhs, or.rhs) +} + +// evalExhaustiveAnd is just like evalAnd, but does not short-circuit argument evaluation. +type evalExhaustiveAnd struct { + id int64 + lhs Interpretable + rhs Interpretable +} + +// ID implements the Interpretable interface method. +func (and *evalExhaustiveAnd) ID() int64 { + return and.id +} + +// Eval implements the Interpretable interface method. +func (and *evalExhaustiveAnd) Eval(ctx Activation) ref.Val { + lVal := and.lhs.Eval(ctx) + rVal := and.rhs.Eval(ctx) + lBool, lok := lVal.(types.Bool) + if lok && lBool == types.False { + return types.False + } + rBool, rok := rVal.(types.Bool) + if rok && rBool == types.False { + return types.False + } + if lok && rok { + return types.True + } + if types.IsUnknown(lVal) { + return lVal + } + if types.IsUnknown(rVal) { + return rVal + } + // TODO: Combine the errors into a set in the future. + // If the left-hand side is non-boolean return it as the error. + if types.IsError(lVal) { + return lVal + } + return types.ValOrErr(rVal, "no such overload") +} + +// Cost implements the Coster interface method. +func (and *evalExhaustiveAnd) Cost() (min, max int64) { + return calExhaustiveBinaryOpsCost(and.lhs, and.rhs) +} + +func calExhaustiveBinaryOpsCost(lhs, rhs Interpretable) (min, max int64) { + lMin, lMax := estimateCost(lhs) + rMin, rMax := estimateCost(rhs) + return lMin + rMin + 1, lMax + rMax + 1 +} + +// evalExhaustiveConditional is like evalConditional, but does not short-circuit argument +// evaluation. +type evalExhaustiveConditional struct { + id int64 + adapter ref.TypeAdapter + attr *conditionalAttribute +} + +// ID implements the Interpretable interface method. +func (cond *evalExhaustiveConditional) ID() int64 { + return cond.id +} + +// Eval implements the Interpretable interface method. +func (cond *evalExhaustiveConditional) Eval(ctx Activation) ref.Val { + cVal := cond.attr.expr.Eval(ctx) + tVal, err := cond.attr.truthy.Resolve(ctx) + if err != nil { + return types.NewErr(err.Error()) + } + fVal, err := cond.attr.falsy.Resolve(ctx) + if err != nil { + return types.NewErr(err.Error()) + } + cBool, ok := cVal.(types.Bool) + if !ok { + return types.ValOrErr(cVal, "no such overload") + } + if cBool { + return cond.adapter.NativeToValue(tVal) + } + return cond.adapter.NativeToValue(fVal) +} + +// Cost implements the Coster interface method. +func (cond *evalExhaustiveConditional) Cost() (min, max int64) { + return cond.attr.Cost() +} + +// evalExhaustiveFold is like evalFold, but does not short-circuit argument evaluation. +type evalExhaustiveFold struct { + id int64 + accuVar string + iterVar string + iterRange Interpretable + accu Interpretable + cond Interpretable + step Interpretable + result Interpretable +} + +// ID implements the Interpretable interface method. +func (fold *evalExhaustiveFold) ID() int64 { + return fold.id +} + +// Eval implements the Interpretable interface method. +func (fold *evalExhaustiveFold) Eval(ctx Activation) ref.Val { + foldRange := fold.iterRange.Eval(ctx) + if !foldRange.Type().HasTrait(traits.IterableType) { + return types.ValOrErr(foldRange, "got '%T', expected iterable type", foldRange) + } + // Configure the fold activation with the accumulator initial value. + accuCtx := varActivationPool.Get().(*varActivation) + accuCtx.parent = ctx + accuCtx.name = fold.accuVar + accuCtx.val = fold.accu.Eval(ctx) + iterCtx := varActivationPool.Get().(*varActivation) + iterCtx.parent = accuCtx + iterCtx.name = fold.iterVar + it := foldRange.(traits.Iterable).Iterator() + for it.HasNext() == types.True { + // Modify the iter var in the fold activation. + iterCtx.val = it.Next() + + // Evaluate the condition, but don't terminate the loop as this is exhaustive eval! + fold.cond.Eval(iterCtx) + + // Evalute the evaluation step into accu var. + accuCtx.val = fold.step.Eval(iterCtx) + } + // Compute the result. + res := fold.result.Eval(accuCtx) + varActivationPool.Put(iterCtx) + varActivationPool.Put(accuCtx) + return res +} + +// Cost implements the Coster interface method. +func (fold *evalExhaustiveFold) Cost() (min, max int64) { + // Compute the cost for evaluating iterRange. + iMin, iMax := estimateCost(fold.iterRange) + + // Compute the size of iterRange. If the size depends on the input, return the maximum possible + // cost range. + foldRange := fold.iterRange.Eval(EmptyActivation()) + if !foldRange.Type().HasTrait(traits.IterableType) { + return 0, math.MaxInt64 + } + var rangeCnt int64 + it := foldRange.(traits.Iterable).Iterator() + for it.HasNext() == types.True { + it.Next() + rangeCnt++ + } + + aMin, aMax := estimateCost(fold.accu) + cMin, cMax := estimateCost(fold.cond) + sMin, sMax := estimateCost(fold.step) + rMin, rMax := estimateCost(fold.result) + + // The cond and step costs are multiplied by size(iterRange). + return iMin + aMin + cMin*rangeCnt + sMin*rangeCnt + rMin, + iMax + aMax + cMax*rangeCnt + sMax*rangeCnt + rMax +} + +// evalAttr evaluates an Attribute value. +type evalAttr struct { + adapter ref.TypeAdapter + attr Attribute +} + +// ID of the attribute instruction. +func (a *evalAttr) ID() int64 { + return a.attr.ID() +} + +// AddQualifier implements the instAttr interface method. +func (a *evalAttr) AddQualifier(qual Qualifier) (Attribute, error) { + attr, err := a.attr.AddQualifier(qual) + a.attr = attr + return attr, err +} + +// Attr implements the instAttr interface method. +func (a *evalAttr) Attr() Attribute { + return a.attr +} + +// Adapter implements the instAttr interface method. +func (a *evalAttr) Adapter() ref.TypeAdapter { + return a.adapter +} + +// Cost implements the Coster interface method. +func (a *evalAttr) Cost() (min, max int64) { + return estimateCost(a.attr) +} + +// Eval implements the Interpretable interface method. +func (a *evalAttr) Eval(ctx Activation) ref.Val { + v, err := a.attr.Resolve(ctx) + if err != nil { + return types.NewErr(err.Error()) + } + return a.adapter.NativeToValue(v) +} + +// Qualify proxies to the Attribute's Qualify method. +func (a *evalAttr) Qualify(ctx Activation, obj interface{}) (interface{}, error) { + return a.attr.Qualify(ctx, obj) +} + +// Resolve proxies to the Attribute's Resolve method. +func (a *evalAttr) Resolve(ctx Activation) (interface{}, error) { + return a.attr.Resolve(ctx) +} diff --git a/vendor/github.com/google/cel-go/interpreter/interpreter.go b/vendor/github.com/google/cel-go/interpreter/interpreter.go new file mode 100644 index 000000000..6ffc41efe --- /dev/null +++ b/vendor/github.com/google/cel-go/interpreter/interpreter.go @@ -0,0 +1,137 @@ +// Copyright 2018 Google LLC +// +// Licensed under the Apache License, Version 2.0 (the "License"); +// you may not use this file except in compliance with the License. +// You may obtain a copy of the License at +// +// http://www.apache.org/licenses/LICENSE-2.0 +// +// Unless required by applicable law or agreed to in writing, software +// distributed under the License is distributed on an "AS IS" BASIS, +// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. +// See the License for the specific language governing permissions and +// limitations under the License. + +// Package interpreter provides functions to evaluate parsed expressions with +// the option to augment the evaluation with inputs and functions supplied at +// evaluation time. +package interpreter + +import ( + "github.com/google/cel-go/common/containers" + "github.com/google/cel-go/common/types/ref" + "github.com/google/cel-go/interpreter/functions" + + exprpb "google.golang.org/genproto/googleapis/api/expr/v1alpha1" +) + +// Interpreter generates a new Interpretable from a checked or unchecked expression. +type Interpreter interface { + // NewInterpretable creates an Interpretable from a checked expression and an + // optional list of InterpretableDecorator values. + NewInterpretable(checked *exprpb.CheckedExpr, + decorators ...InterpretableDecorator) (Interpretable, error) + + // NewUncheckedInterpretable returns an Interpretable from a parsed expression + // and an optional list of InterpretableDecorator values. + NewUncheckedInterpretable(expr *exprpb.Expr, + decorators ...InterpretableDecorator) (Interpretable, error) +} + +// TrackState decorates each expression node with an observer which records the value +// associated with the given expression id. EvalState must be provided to the decorator. +// This decorator is not thread-safe, and the EvalState must be reset between Eval() +// calls. +func TrackState(state EvalState) InterpretableDecorator { + observer := func(id int64, val ref.Val) { + state.SetValue(id, val) + } + return decObserveEval(observer) +} + +// ExhaustiveEval replaces operations that short-circuit with versions that evaluate +// expressions and couples this behavior with the TrackState() decorator to provide +// insight into the evaluation state of the entire expression. EvalState must be +// provided to the decorator. This decorator is not thread-safe, and the EvalState +// must be reset between Eval() calls. +func ExhaustiveEval(state EvalState) InterpretableDecorator { + ex := decDisableShortcircuits() + obs := TrackState(state) + return func(i Interpretable) (Interpretable, error) { + var err error + i, err = ex(i) + if err != nil { + return nil, err + } + return obs(i) + } +} + +// Optimize will pre-compute operations such as list and map construction and optimize +// call arguments to set membership tests. The set of optimizations will increase over time. +func Optimize() InterpretableDecorator { + return decOptimize() +} + +type exprInterpreter struct { + dispatcher Dispatcher + container *containers.Container + provider ref.TypeProvider + adapter ref.TypeAdapter + attrFactory AttributeFactory +} + +// NewInterpreter builds an Interpreter from a Dispatcher and TypeProvider which will be used +// throughout the Eval of all Interpretable instances gerenated from it. +func NewInterpreter(dispatcher Dispatcher, + container *containers.Container, + provider ref.TypeProvider, + adapter ref.TypeAdapter, + attrFactory AttributeFactory) Interpreter { + return &exprInterpreter{ + dispatcher: dispatcher, + container: container, + provider: provider, + adapter: adapter, + attrFactory: attrFactory} +} + +// NewStandardInterpreter builds a Dispatcher and TypeProvider with support for all of the CEL +// builtins defined in the language definition. +func NewStandardInterpreter(container *containers.Container, + provider ref.TypeProvider, + adapter ref.TypeAdapter, + resolver AttributeFactory) Interpreter { + dispatcher := NewDispatcher() + dispatcher.Add(functions.StandardOverloads()...) + return NewInterpreter(dispatcher, container, provider, adapter, resolver) +} + +// NewIntepretable implements the Interpreter interface method. +func (i *exprInterpreter) NewInterpretable( + checked *exprpb.CheckedExpr, + decorators ...InterpretableDecorator) (Interpretable, error) { + p := newPlanner( + i.dispatcher, + i.provider, + i.adapter, + i.attrFactory, + i.container, + checked, + decorators...) + return p.Plan(checked.GetExpr()) +} + +// NewUncheckedIntepretable implements the Interpreter interface method. +func (i *exprInterpreter) NewUncheckedInterpretable( + expr *exprpb.Expr, + decorators ...InterpretableDecorator) (Interpretable, error) { + p := newUncheckedPlanner( + i.dispatcher, + i.provider, + i.adapter, + i.attrFactory, + i.container, + decorators...) + return p.Plan(expr) +} diff --git a/vendor/github.com/google/cel-go/interpreter/planner.go b/vendor/github.com/google/cel-go/interpreter/planner.go new file mode 100644 index 000000000..040e19c6a --- /dev/null +++ b/vendor/github.com/google/cel-go/interpreter/planner.go @@ -0,0 +1,773 @@ +// Copyright 2018 Google LLC +// +// Licensed under the Apache License, Version 2.0 (the "License"); +// you may not use this file except in compliance with the License. +// You may obtain a copy of the License at +// +// http://www.apache.org/licenses/LICENSE-2.0 +// +// Unless required by applicable law or agreed to in writing, software +// distributed under the License is distributed on an "AS IS" BASIS, +// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. +// See the License for the specific language governing permissions and +// limitations under the License. + +package interpreter + +import ( + "fmt" + "strings" + + "github.com/google/cel-go/common/containers" + "github.com/google/cel-go/common/operators" + "github.com/google/cel-go/common/types" + "github.com/google/cel-go/common/types/ref" + "github.com/google/cel-go/interpreter/functions" + + exprpb "google.golang.org/genproto/googleapis/api/expr/v1alpha1" +) + +// interpretablePlanner creates an Interpretable evaluation plan from a proto Expr value. +type interpretablePlanner interface { + // Plan generates an Interpretable value (or error) from the input proto Expr. + Plan(expr *exprpb.Expr) (Interpretable, error) +} + +// newPlanner creates an interpretablePlanner which references a Dispatcher, TypeProvider, +// TypeAdapter, Container, and CheckedExpr value. These pieces of data are used to resolve +// functions, types, and namespaced identifiers at plan time rather than at runtime since +// it only needs to be done once and may be semi-expensive to compute. +func newPlanner(disp Dispatcher, + provider ref.TypeProvider, + adapter ref.TypeAdapter, + attrFactory AttributeFactory, + cont *containers.Container, + checked *exprpb.CheckedExpr, + decorators ...InterpretableDecorator) interpretablePlanner { + return &planner{ + disp: disp, + provider: provider, + adapter: adapter, + attrFactory: attrFactory, + container: cont, + refMap: checked.GetReferenceMap(), + typeMap: checked.GetTypeMap(), + decorators: decorators, + } +} + +// newUncheckedPlanner creates an interpretablePlanner which references a Dispatcher, TypeProvider, +// TypeAdapter, and Container to resolve functions and types at plan time. Namespaces present in +// Select expressions are resolved lazily at evaluation time. +func newUncheckedPlanner(disp Dispatcher, + provider ref.TypeProvider, + adapter ref.TypeAdapter, + attrFactory AttributeFactory, + cont *containers.Container, + decorators ...InterpretableDecorator) interpretablePlanner { + return &planner{ + disp: disp, + provider: provider, + adapter: adapter, + attrFactory: attrFactory, + container: cont, + refMap: make(map[int64]*exprpb.Reference), + typeMap: make(map[int64]*exprpb.Type), + decorators: decorators, + } +} + +// planner is an implementatio of the interpretablePlanner interface. +type planner struct { + disp Dispatcher + provider ref.TypeProvider + adapter ref.TypeAdapter + attrFactory AttributeFactory + container *containers.Container + refMap map[int64]*exprpb.Reference + typeMap map[int64]*exprpb.Type + decorators []InterpretableDecorator +} + +// Plan implements the interpretablePlanner interface. This implementation of the Plan method also +// applies decorators to each Interpretable generated as part of the overall plan. Decorators are +// useful for layering functionality into the evaluation that is not natively understood by CEL, +// such as state-tracking, expression re-write, and possibly efficient thread-safe memoization of +// repeated expressions. +func (p *planner) Plan(expr *exprpb.Expr) (Interpretable, error) { + switch expr.ExprKind.(type) { + case *exprpb.Expr_CallExpr: + return p.decorate(p.planCall(expr)) + case *exprpb.Expr_IdentExpr: + return p.decorate(p.planIdent(expr)) + case *exprpb.Expr_SelectExpr: + return p.decorate(p.planSelect(expr)) + case *exprpb.Expr_ListExpr: + return p.decorate(p.planCreateList(expr)) + case *exprpb.Expr_StructExpr: + return p.decorate(p.planCreateStruct(expr)) + case *exprpb.Expr_ComprehensionExpr: + return p.decorate(p.planComprehension(expr)) + case *exprpb.Expr_ConstExpr: + return p.decorate(p.planConst(expr)) + } + return nil, fmt.Errorf("unsupported expr: %v", expr) +} + +// decorate applies the InterpretableDecorator functions to the given Interpretable. +// Both the Interpretable and error generated by a Plan step are accepted as arguments +// for convenience. +func (p *planner) decorate(i Interpretable, err error) (Interpretable, error) { + if err != nil { + return nil, err + } + for _, dec := range p.decorators { + i, err = dec(i) + if err != nil { + return nil, err + } + } + return i, nil +} + +// planIdent creates an Interpretable that resolves an identifier from an Activation. +func (p *planner) planIdent(expr *exprpb.Expr) (Interpretable, error) { + // Establish whether the identifier is in the reference map. + if identRef, found := p.refMap[expr.GetId()]; found { + return p.planCheckedIdent(expr.GetId(), identRef) + } + // Create the possible attribute list for the unresolved reference. + ident := expr.GetIdentExpr() + return &evalAttr{ + adapter: p.adapter, + attr: p.attrFactory.MaybeAttribute(expr.GetId(), ident.Name), + }, nil +} + +func (p *planner) planCheckedIdent(id int64, identRef *exprpb.Reference) (Interpretable, error) { + // Plan a constant reference if this is the case for this simple identifier. + if identRef.Value != nil { + return p.Plan(&exprpb.Expr{Id: id, + ExprKind: &exprpb.Expr_ConstExpr{ + ConstExpr: identRef.Value, + }}) + } + + // Check to see whether the type map indicates this is a type name. All types should be + // registered with the provider. + cType := p.typeMap[id] + if cType.GetType() != nil { + cVal, found := p.provider.FindIdent(identRef.Name) + if !found { + return nil, fmt.Errorf("reference to undefined type: %s", identRef.Name) + } + return NewConstValue(id, cVal), nil + } + + // Otherwise, return the attribute for the resolved identifier name. + return &evalAttr{ + adapter: p.adapter, + attr: p.attrFactory.AbsoluteAttribute(id, identRef.Name), + }, nil +} + +// planSelect creates an Interpretable with either: +// a) selects a field from a map or proto. +// b) creates a field presence test for a select within a has() macro. +// c) resolves the select expression to a namespaced identifier. +func (p *planner) planSelect(expr *exprpb.Expr) (Interpretable, error) { + // If the Select id appears in the reference map from the CheckedExpr proto then it is either + // a namespaced identifier or enum value. + if identRef, found := p.refMap[expr.GetId()]; found { + return p.planCheckedIdent(expr.GetId(), identRef) + } + + sel := expr.GetSelectExpr() + // Plan the operand evaluation. + op, err := p.Plan(sel.GetOperand()) + if err != nil { + return nil, err + } + + // Determine the field type if this is a proto message type. + var fieldType *ref.FieldType + opType := p.typeMap[sel.GetOperand().GetId()] + if opType.GetMessageType() != "" { + ft, found := p.provider.FindFieldType(opType.GetMessageType(), sel.Field) + if found && ft.IsSet != nil && ft.GetFrom != nil { + fieldType = ft + } + } + + // If the Select was marked TestOnly, this is a presence test. + // + // Note: presence tests are defined for structured (e.g. proto) and dynamic values (map, json) + // as follows: + // - True if the object field has a non-default value, e.g. obj.str != "" + // - True if the dynamic value has the field defined, e.g. key in map + // + // However, presence tests are not defined for qualified identifier names with primitive types. + // If a string named 'a.b.c' is declared in the environment and referenced within `has(a.b.c)`, + // it is not clear whether has should error or follow the convention defined for structured + // values. + if sel.TestOnly { + // Return the test only eval expression. + return &evalTestOnly{ + id: expr.Id, + field: types.String(sel.Field), + fieldType: fieldType, + op: op, + }, nil + } + // Build a qualifier. + qual, err := p.attrFactory.NewQualifier( + opType, expr.Id, sel.Field) + if err != nil { + return nil, err + } + // Lastly, create a field selection Interpretable. + attr, isAttr := op.(InterpretableAttribute) + if isAttr { + _, err = attr.AddQualifier(qual) + return attr, err + } + + relAttr, err := p.relativeAttr(op.ID(), op) + if err != nil { + return nil, err + } + _, err = relAttr.AddQualifier(qual) + if err != nil { + return nil, err + } + return relAttr, nil +} + +// planCall creates a callable Interpretable while specializing for common functions and invocation +// patterns. Specifically, conditional operators &&, ||, ?:, and (in)equality functions result in +// optimized Interpretable values. +func (p *planner) planCall(expr *exprpb.Expr) (Interpretable, error) { + call := expr.GetCallExpr() + target, fnName, oName := p.resolveFunction(expr) + argCount := len(call.GetArgs()) + var offset int + if target != nil { + argCount++ + offset++ + } + + args := make([]Interpretable, argCount) + if target != nil { + arg, err := p.Plan(target) + if err != nil { + return nil, err + } + args[0] = arg + } + for i, argExpr := range call.GetArgs() { + arg, err := p.Plan(argExpr) + if err != nil { + return nil, err + } + args[i+offset] = arg + } + + // Generate specialized Interpretable operators by function name if possible. + switch fnName { + case operators.LogicalAnd: + return p.planCallLogicalAnd(expr, args) + case operators.LogicalOr: + return p.planCallLogicalOr(expr, args) + case operators.Conditional: + return p.planCallConditional(expr, args) + case operators.Equals: + return p.planCallEqual(expr, args) + case operators.NotEquals: + return p.planCallNotEqual(expr, args) + case operators.Index: + return p.planCallIndex(expr, args) + } + + // Otherwise, generate Interpretable calls specialized by argument count. + // Try to find the specific function by overload id. + var fnDef *functions.Overload + if oName != "" { + fnDef, _ = p.disp.FindOverload(oName) + } + // If the overload id couldn't resolve the function, try the simple function name. + if fnDef == nil { + fnDef, _ = p.disp.FindOverload(fnName) + } + switch argCount { + case 0: + return p.planCallZero(expr, fnName, oName, fnDef) + case 1: + return p.planCallUnary(expr, fnName, oName, fnDef, args) + case 2: + return p.planCallBinary(expr, fnName, oName, fnDef, args) + default: + return p.planCallVarArgs(expr, fnName, oName, fnDef, args) + } +} + +// planCallZero generates a zero-arity callable Interpretable. +func (p *planner) planCallZero(expr *exprpb.Expr, + function string, + overload string, + impl *functions.Overload) (Interpretable, error) { + if impl == nil || impl.Function == nil { + return nil, fmt.Errorf("no such overload: %s()", function) + } + return &evalZeroArity{ + id: expr.Id, + function: function, + overload: overload, + impl: impl.Function, + }, nil +} + +// planCallUnary generates a unary callable Interpretable. +func (p *planner) planCallUnary(expr *exprpb.Expr, + function string, + overload string, + impl *functions.Overload, + args []Interpretable) (Interpretable, error) { + var fn functions.UnaryOp + var trait int + if impl != nil { + if impl.Unary == nil { + return nil, fmt.Errorf("no such overload: %s(arg)", function) + } + fn = impl.Unary + trait = impl.OperandTrait + } + return &evalUnary{ + id: expr.Id, + function: function, + overload: overload, + arg: args[0], + trait: trait, + impl: fn, + }, nil +} + +// planCallBinary generates a binary callable Interpretable. +func (p *planner) planCallBinary(expr *exprpb.Expr, + function string, + overload string, + impl *functions.Overload, + args []Interpretable) (Interpretable, error) { + var fn functions.BinaryOp + var trait int + if impl != nil { + if impl.Binary == nil { + return nil, fmt.Errorf("no such overload: %s(lhs, rhs)", function) + } + fn = impl.Binary + trait = impl.OperandTrait + } + return &evalBinary{ + id: expr.Id, + function: function, + overload: overload, + lhs: args[0], + rhs: args[1], + trait: trait, + impl: fn, + }, nil +} + +// planCallVarArgs generates a variable argument callable Interpretable. +func (p *planner) planCallVarArgs(expr *exprpb.Expr, + function string, + overload string, + impl *functions.Overload, + args []Interpretable) (Interpretable, error) { + var fn functions.FunctionOp + var trait int + if impl != nil { + if impl.Function == nil { + return nil, fmt.Errorf("no such overload: %s(...)", function) + } + fn = impl.Function + trait = impl.OperandTrait + } + return &evalVarArgs{ + id: expr.Id, + function: function, + overload: overload, + args: args, + trait: trait, + impl: fn, + }, nil +} + +// planCallEqual generates an equals (==) Interpretable. +func (p *planner) planCallEqual(expr *exprpb.Expr, + args []Interpretable) (Interpretable, error) { + return &evalEq{ + id: expr.Id, + lhs: args[0], + rhs: args[1], + }, nil +} + +// planCallNotEqual generates a not equals (!=) Interpretable. +func (p *planner) planCallNotEqual(expr *exprpb.Expr, + args []Interpretable) (Interpretable, error) { + return &evalNe{ + id: expr.Id, + lhs: args[0], + rhs: args[1], + }, nil +} + +// planCallLogicalAnd generates a logical and (&&) Interpretable. +func (p *planner) planCallLogicalAnd(expr *exprpb.Expr, + args []Interpretable) (Interpretable, error) { + return &evalAnd{ + id: expr.Id, + lhs: args[0], + rhs: args[1], + }, nil +} + +// planCallLogicalOr generates a logical or (||) Interpretable. +func (p *planner) planCallLogicalOr(expr *exprpb.Expr, + args []Interpretable) (Interpretable, error) { + return &evalOr{ + id: expr.Id, + lhs: args[0], + rhs: args[1], + }, nil +} + +// planCallConditional generates a conditional / ternary (c ? t : f) Interpretable. +func (p *planner) planCallConditional(expr *exprpb.Expr, + args []Interpretable) (Interpretable, error) { + cond := args[0] + + t := args[1] + var tAttr Attribute + truthyAttr, isTruthyAttr := t.(InterpretableAttribute) + if isTruthyAttr { + tAttr = truthyAttr.Attr() + } else { + tAttr = p.attrFactory.RelativeAttribute(t.ID(), t) + } + + f := args[2] + var fAttr Attribute + falsyAttr, isFalsyAttr := f.(InterpretableAttribute) + if isFalsyAttr { + fAttr = falsyAttr.Attr() + } else { + fAttr = p.attrFactory.RelativeAttribute(f.ID(), f) + } + + return &evalAttr{ + adapter: p.adapter, + attr: p.attrFactory.ConditionalAttribute(expr.Id, cond, tAttr, fAttr), + }, nil +} + +// planCallIndex either extends an attribute with the argument to the index operation, or creates +// a relative attribute based on the return of a function call or operation. +func (p *planner) planCallIndex(expr *exprpb.Expr, + args []Interpretable) (Interpretable, error) { + op := args[0] + ind := args[1] + opAttr, err := p.relativeAttr(op.ID(), op) + if err != nil { + return nil, err + } + opType := p.typeMap[expr.GetCallExpr().GetTarget().GetId()] + indConst, isIndConst := ind.(InterpretableConst) + if isIndConst { + qual, err := p.attrFactory.NewQualifier( + opType, expr.GetId(), indConst.Value()) + if err != nil { + return nil, err + } + _, err = opAttr.AddQualifier(qual) + return opAttr, err + } + indAttr, isIndAttr := ind.(InterpretableAttribute) + if isIndAttr { + qual, err := p.attrFactory.NewQualifier( + opType, expr.GetId(), indAttr) + if err != nil { + return nil, err + } + _, err = opAttr.AddQualifier(qual) + return opAttr, err + } + indQual, err := p.relativeAttr(expr.GetId(), ind) + if err != nil { + return nil, err + } + _, err = opAttr.AddQualifier(indQual) + return opAttr, err +} + +// planCreateList generates a list construction Interpretable. +func (p *planner) planCreateList(expr *exprpb.Expr) (Interpretable, error) { + list := expr.GetListExpr() + elems := make([]Interpretable, len(list.GetElements())) + for i, elem := range list.GetElements() { + elemVal, err := p.Plan(elem) + if err != nil { + return nil, err + } + elems[i] = elemVal + } + return &evalList{ + id: expr.Id, + elems: elems, + adapter: p.adapter, + }, nil +} + +// planCreateStruct generates a map or object construction Interpretable. +func (p *planner) planCreateStruct(expr *exprpb.Expr) (Interpretable, error) { + str := expr.GetStructExpr() + if len(str.MessageName) != 0 { + return p.planCreateObj(expr) + } + entries := str.GetEntries() + keys := make([]Interpretable, len(entries)) + vals := make([]Interpretable, len(entries)) + for i, entry := range entries { + keyVal, err := p.Plan(entry.GetMapKey()) + if err != nil { + return nil, err + } + keys[i] = keyVal + + valVal, err := p.Plan(entry.GetValue()) + if err != nil { + return nil, err + } + vals[i] = valVal + } + return &evalMap{ + id: expr.Id, + keys: keys, + vals: vals, + adapter: p.adapter, + }, nil +} + +// planCreateObj generates an object construction Interpretable. +func (p *planner) planCreateObj(expr *exprpb.Expr) (Interpretable, error) { + obj := expr.GetStructExpr() + typeName, defined := p.resolveTypeName(obj.MessageName) + if !defined { + return nil, fmt.Errorf("unknown type: %s", typeName) + } + entries := obj.GetEntries() + fields := make([]string, len(entries)) + vals := make([]Interpretable, len(entries)) + for i, entry := range entries { + fields[i] = entry.GetFieldKey() + val, err := p.Plan(entry.GetValue()) + if err != nil { + return nil, err + } + vals[i] = val + } + return &evalObj{ + id: expr.Id, + typeName: typeName, + fields: fields, + vals: vals, + provider: p.provider, + }, nil +} + +// planComprehension generates an Interpretable fold operation. +func (p *planner) planComprehension(expr *exprpb.Expr) (Interpretable, error) { + fold := expr.GetComprehensionExpr() + accu, err := p.Plan(fold.GetAccuInit()) + if err != nil { + return nil, err + } + iterRange, err := p.Plan(fold.GetIterRange()) + if err != nil { + return nil, err + } + cond, err := p.Plan(fold.GetLoopCondition()) + if err != nil { + return nil, err + } + step, err := p.Plan(fold.GetLoopStep()) + if err != nil { + return nil, err + } + result, err := p.Plan(fold.GetResult()) + if err != nil { + return nil, err + } + return &evalFold{ + id: expr.Id, + accuVar: fold.AccuVar, + accu: accu, + iterVar: fold.IterVar, + iterRange: iterRange, + cond: cond, + step: step, + result: result, + }, nil +} + +// planConst generates a constant valued Interpretable. +func (p *planner) planConst(expr *exprpb.Expr) (Interpretable, error) { + val, err := p.constValue(expr.GetConstExpr()) + if err != nil { + return nil, err + } + return NewConstValue(expr.Id, val), nil +} + +// constValue converts a proto Constant value to a ref.Val. +func (p *planner) constValue(c *exprpb.Constant) (ref.Val, error) { + switch c.ConstantKind.(type) { + case *exprpb.Constant_BoolValue: + return p.adapter.NativeToValue(c.GetBoolValue()), nil + case *exprpb.Constant_BytesValue: + return p.adapter.NativeToValue(c.GetBytesValue()), nil + case *exprpb.Constant_DoubleValue: + return p.adapter.NativeToValue(c.GetDoubleValue()), nil + case *exprpb.Constant_DurationValue: + return p.adapter.NativeToValue(c.GetDurationValue().AsDuration()), nil + case *exprpb.Constant_Int64Value: + return p.adapter.NativeToValue(c.GetInt64Value()), nil + case *exprpb.Constant_NullValue: + return p.adapter.NativeToValue(c.GetNullValue()), nil + case *exprpb.Constant_StringValue: + return p.adapter.NativeToValue(c.GetStringValue()), nil + case *exprpb.Constant_TimestampValue: + return p.adapter.NativeToValue(c.GetTimestampValue().AsTime()), nil + case *exprpb.Constant_Uint64Value: + return p.adapter.NativeToValue(c.GetUint64Value()), nil + } + return nil, fmt.Errorf("unknown constant type: %v", c) +} + +// resolveTypeName takes a qualified string constructed at parse time, applies the proto +// namespace resolution rules to it in a scan over possible matching types in the TypeProvider. +func (p *planner) resolveTypeName(typeName string) (string, bool) { + for _, qualifiedTypeName := range p.container.ResolveCandidateNames(typeName) { + if _, found := p.provider.FindType(qualifiedTypeName); found { + return qualifiedTypeName, true + } + } + return "", false +} + +// resolveFunction determines the call target, function name, and overload name from a given Expr +// value. +// +// The resolveFunction resolves ambiguities where a function may either be a receiver-style +// invocation or a qualified global function name. +// - The target expression may only consist of ident and select expressions. +// - The function is declared in the environment using its fully-qualified name. +// - The fully-qualified function name matches the string serialized target value. +func (p *planner) resolveFunction(expr *exprpb.Expr) (*exprpb.Expr, string, string) { + // Note: similar logic exists within the `checker/checker.go`. If making changes here + // please consider the impact on checker.go and consolidate implementations or mirror code + // as appropriate. + call := expr.GetCallExpr() + target := call.GetTarget() + fnName := call.GetFunction() + + // Checked expressions always have a reference map entry, and _should_ have the fully qualified + // function name as the fnName value. + oRef, hasOverload := p.refMap[expr.GetId()] + if hasOverload { + if len(oRef.GetOverloadId()) == 1 { + return target, fnName, oRef.GetOverloadId()[0] + } + // Note, this namespaced function name will not appear as a fully qualified name in ASTs + // built and stored before cel-go v0.5.0; however, this functionality did not work at all + // before the v0.5.0 release. + return target, fnName, "" + } + + // Parse-only expressions need to handle the same logic as is normally performed at check time, + // but with potentially much less information. The only reliable source of information about + // which functions are configured is the dispatcher. + if target == nil { + // If the user has a parse-only expression, then it should have been configured as such in + // the interpreter dispatcher as it may have been omitted from the checker environment. + for _, qualifiedName := range p.container.ResolveCandidateNames(fnName) { + _, found := p.disp.FindOverload(qualifiedName) + if found { + return nil, qualifiedName, "" + } + } + // It's possible that the overload was not found, but this situation is accounted for in + // the planCall phase; however, the leading dot used for denoting fully-qualified + // namespaced identifiers must be stripped, as all declarations already use fully-qualified + // names. This stripping behavior is handled automatically by the ResolveCandidateNames + // call. + return target, stripLeadingDot(fnName), "" + } + + // Handle the situation where the function target actually indicates a qualified function name. + qualifiedPrefix, maybeQualified := p.toQualifiedName(target) + if maybeQualified { + maybeQualifiedName := qualifiedPrefix + "." + fnName + for _, qualifiedName := range p.container.ResolveCandidateNames(maybeQualifiedName) { + _, found := p.disp.FindOverload(qualifiedName) + if found { + // Clear the target to ensure the proper arity is used for finding the + // implementation. + return nil, qualifiedName, "" + } + } + } + // In the default case, the function is exactly as it was advertised: a receiver call on with + // an expression-based target with the given simple function name. + return target, fnName, "" +} + +func (p *planner) relativeAttr(id int64, eval Interpretable) (InterpretableAttribute, error) { + eAttr, ok := eval.(InterpretableAttribute) + if !ok { + eAttr = &evalAttr{ + adapter: p.adapter, + attr: p.attrFactory.RelativeAttribute(id, eval), + } + } + decAttr, err := p.decorate(eAttr, nil) + if err != nil { + return nil, err + } + eAttr, ok = decAttr.(InterpretableAttribute) + if !ok { + return nil, fmt.Errorf("invalid attribute decoration: %v(%T)", decAttr, decAttr) + } + return eAttr, nil +} + +// toQualifiedName converts an expression AST into a qualified name if possible, with a boolean +// 'found' value that indicates if the conversion is successful. +func (p *planner) toQualifiedName(operand *exprpb.Expr) (string, bool) { + // If the checker identified the expression as an attribute by the type-checker, then it can't + // possibly be part of qualified name in a namespace. + _, isAttr := p.refMap[operand.GetId()] + if isAttr { + return "", false + } + // Since functions cannot be both namespaced and receiver functions, if the operand is not an + // qualified variable name, return the (possibly) qualified name given the expressions. + return containers.ToQualifiedName(operand) +} + +func stripLeadingDot(name string) string { + if strings.HasPrefix(name, ".") { + return name[1:] + } + return name +} diff --git a/vendor/github.com/google/cel-go/interpreter/prune.go b/vendor/github.com/google/cel-go/interpreter/prune.go new file mode 100644 index 000000000..7dab68efb --- /dev/null +++ b/vendor/github.com/google/cel-go/interpreter/prune.go @@ -0,0 +1,391 @@ +// Copyright 2018 Google LLC +// +// Licensed under the Apache License, Version 2.0 (the "License"); +// you may not use this file except in compliance with the License. +// You may obtain a copy of the License at +// +// http://www.apache.org/licenses/LICENSE-2.0 +// +// Unless required by applicable law or agreed to in writing, software +// distributed under the License is distributed on an "AS IS" BASIS, +// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. +// See the License for the specific language governing permissions and +// limitations under the License. + +package interpreter + +import ( + "github.com/google/cel-go/common/operators" + "github.com/google/cel-go/common/types" + "github.com/google/cel-go/common/types/ref" + "github.com/google/cel-go/common/types/traits" + + exprpb "google.golang.org/genproto/googleapis/api/expr/v1alpha1" + structpb "google.golang.org/protobuf/types/known/structpb" +) + +type astPruner struct { + expr *exprpb.Expr + state EvalState + nextExprID int64 +} + +// TODO Consider having a separate walk of the AST that finds common +// subexpressions. This can be called before or after constant folding to find +// common subexpressions. + +// PruneAst prunes the given AST based on the given EvalState and generates a new AST. +// Given AST is copied on write and a new AST is returned. +// Couple of typical use cases this interface would be: +// +// A) +// 1) Evaluate expr with some unknowns, +// 2) If result is unknown: +// a) PruneAst +// b) Goto 1 +// Functional call results which are known would be effectively cached across +// iterations. +// +// B) +// 1) Compile the expression (maybe via a service and maybe after checking a +// compiled expression does not exists in local cache) +// 2) Prepare the environment and the interpreter. Activation might be empty. +// 3) Eval the expression. This might return unknown or error or a concrete +// value. +// 4) PruneAst +// 4) Maybe cache the expression +// This is effectively constant folding the expression. How the environment is +// prepared in step 2 is flexible. For example, If the caller caches the +// compiled and constant folded expressions, but is not willing to constant +// fold(and thus cache results of) some external calls, then they can prepare +// the overloads accordingly. +func PruneAst(expr *exprpb.Expr, state EvalState) *exprpb.Expr { + pruner := &astPruner{ + expr: expr, + state: state, + nextExprID: 1} + newExpr, _ := pruner.prune(expr) + return newExpr +} + +func (p *astPruner) createLiteral(id int64, val *exprpb.Constant) *exprpb.Expr { + return &exprpb.Expr{ + Id: id, + ExprKind: &exprpb.Expr_ConstExpr{ + ConstExpr: val, + }, + } +} + +func (p *astPruner) maybeCreateLiteral(id int64, val ref.Val) (*exprpb.Expr, bool) { + switch val.Type() { + case types.BoolType: + return p.createLiteral(id, + &exprpb.Constant{ConstantKind: &exprpb.Constant_BoolValue{BoolValue: val.Value().(bool)}}), true + case types.IntType: + return p.createLiteral(id, + &exprpb.Constant{ConstantKind: &exprpb.Constant_Int64Value{Int64Value: val.Value().(int64)}}), true + case types.UintType: + return p.createLiteral(id, + &exprpb.Constant{ConstantKind: &exprpb.Constant_Uint64Value{Uint64Value: val.Value().(uint64)}}), true + case types.StringType: + return p.createLiteral(id, + &exprpb.Constant{ConstantKind: &exprpb.Constant_StringValue{StringValue: val.Value().(string)}}), true + case types.DoubleType: + return p.createLiteral(id, + &exprpb.Constant{ConstantKind: &exprpb.Constant_DoubleValue{DoubleValue: val.Value().(float64)}}), true + case types.BytesType: + return p.createLiteral(id, + &exprpb.Constant{ConstantKind: &exprpb.Constant_BytesValue{BytesValue: val.Value().([]byte)}}), true + case types.NullType: + return p.createLiteral(id, + &exprpb.Constant{ConstantKind: &exprpb.Constant_NullValue{NullValue: val.Value().(structpb.NullValue)}}), true + } + + // Attempt to build a list literal. + if list, isList := val.(traits.Lister); isList { + sz := list.Size().(types.Int) + elemExprs := make([]*exprpb.Expr, sz) + for i := types.Int(0); i < sz; i++ { + elem := list.Get(i) + if types.IsUnknownOrError(elem) { + return nil, false + } + elemExpr, ok := p.maybeCreateLiteral(p.nextID(), elem) + if !ok { + return nil, false + } + elemExprs[i] = elemExpr + } + return &exprpb.Expr{ + Id: id, + ExprKind: &exprpb.Expr_ListExpr{ + ListExpr: &exprpb.Expr_CreateList{ + Elements: elemExprs, + }, + }, + }, true + } + + // Create a map literal if possible. + if mp, isMap := val.(traits.Mapper); isMap { + it := mp.Iterator() + entries := make([]*exprpb.Expr_CreateStruct_Entry, mp.Size().(types.Int)) + i := 0 + for it.HasNext() != types.False { + key := it.Next() + val := mp.Get(key) + if types.IsUnknownOrError(key) || types.IsUnknownOrError(val) { + return nil, false + } + keyExpr, ok := p.maybeCreateLiteral(p.nextID(), key) + if !ok { + return nil, false + } + valExpr, ok := p.maybeCreateLiteral(p.nextID(), val) + if !ok { + return nil, false + } + entry := &exprpb.Expr_CreateStruct_Entry{ + Id: p.nextID(), + KeyKind: &exprpb.Expr_CreateStruct_Entry_MapKey{ + MapKey: keyExpr, + }, + Value: valExpr, + } + entries[i] = entry + i++ + } + return &exprpb.Expr{ + Id: id, + ExprKind: &exprpb.Expr_StructExpr{ + StructExpr: &exprpb.Expr_CreateStruct{ + Entries: entries, + }, + }, + }, true + } + + // TODO(issues/377) To construct message literals, the type provider will need to support + // the enumeration the fields for a given message. + return nil, false +} + +func (p *astPruner) maybePruneAndOr(node *exprpb.Expr) (*exprpb.Expr, bool) { + if !p.existsWithUnknownValue(node.GetId()) { + return nil, false + } + + call := node.GetCallExpr() + // We know result is unknown, so we have at least one unknown arg + // and if one side is a known value, we know we can ignore it. + if p.existsWithKnownValue(call.Args[0].GetId()) { + return call.Args[1], true + } + if p.existsWithKnownValue(call.Args[1].GetId()) { + return call.Args[0], true + } + return nil, false +} + +func (p *astPruner) maybePruneConditional(node *exprpb.Expr) (*exprpb.Expr, bool) { + if !p.existsWithUnknownValue(node.GetId()) { + return nil, false + } + + call := node.GetCallExpr() + condVal, condValueExists := p.value(call.Args[0].GetId()) + if !condValueExists || types.IsUnknownOrError(condVal) { + return nil, false + } + + if condVal.Value().(bool) { + return call.Args[1], true + } + return call.Args[2], true +} + +func (p *astPruner) maybePruneFunction(node *exprpb.Expr) (*exprpb.Expr, bool) { + call := node.GetCallExpr() + if call.Function == operators.LogicalOr || call.Function == operators.LogicalAnd { + return p.maybePruneAndOr(node) + } + if call.Function == operators.Conditional { + return p.maybePruneConditional(node) + } + + return nil, false +} + +func (p *astPruner) prune(node *exprpb.Expr) (*exprpb.Expr, bool) { + if node == nil { + return node, false + } + val, valueExists := p.value(node.GetId()) + if valueExists && !types.IsUnknownOrError(val) { + if newNode, ok := p.maybeCreateLiteral(node.GetId(), val); ok { + return newNode, true + } + } + + // We have either an unknown/error value, or something we dont want to + // transform, or expression was not evaluated. If possible, drill down + // more. + + switch node.ExprKind.(type) { + case *exprpb.Expr_SelectExpr: + if operand, pruned := p.prune(node.GetSelectExpr().Operand); pruned { + return &exprpb.Expr{ + Id: node.GetId(), + ExprKind: &exprpb.Expr_SelectExpr{ + SelectExpr: &exprpb.Expr_Select{ + Operand: operand, + Field: node.GetSelectExpr().GetField(), + TestOnly: node.GetSelectExpr().GetTestOnly(), + }, + }, + }, true + } + case *exprpb.Expr_CallExpr: + if newExpr, pruned := p.maybePruneFunction(node); pruned { + newExpr, _ = p.prune(newExpr) + return newExpr, true + } + var prunedCall bool + call := node.GetCallExpr() + args := call.GetArgs() + newArgs := make([]*exprpb.Expr, len(args)) + newCall := &exprpb.Expr_Call{ + Function: call.GetFunction(), + Target: call.GetTarget(), + Args: newArgs, + } + for i, arg := range args { + newArgs[i] = arg + if newArg, prunedArg := p.prune(arg); prunedArg { + prunedCall = true + newArgs[i] = newArg + } + } + if newTarget, prunedTarget := p.prune(call.GetTarget()); prunedTarget { + prunedCall = true + newCall.Target = newTarget + } + if prunedCall { + return &exprpb.Expr{ + Id: node.GetId(), + ExprKind: &exprpb.Expr_CallExpr{ + CallExpr: newCall, + }, + }, true + } + case *exprpb.Expr_ListExpr: + elems := node.GetListExpr().GetElements() + newElems := make([]*exprpb.Expr, len(elems)) + var prunedList bool + for i, elem := range elems { + newElems[i] = elem + if newElem, prunedElem := p.prune(elem); prunedElem { + newElems[i] = newElem + prunedList = true + } + } + if prunedList { + return &exprpb.Expr{ + Id: node.GetId(), + ExprKind: &exprpb.Expr_ListExpr{ + ListExpr: &exprpb.Expr_CreateList{ + Elements: newElems, + }, + }, + }, true + } + case *exprpb.Expr_StructExpr: + var prunedStruct bool + entries := node.GetStructExpr().GetEntries() + messageType := node.GetStructExpr().GetMessageName() + newEntries := make([]*exprpb.Expr_CreateStruct_Entry, len(entries)) + for i, entry := range entries { + newEntries[i] = entry + newKey, prunedKey := p.prune(entry.GetMapKey()) + newValue, prunedValue := p.prune(entry.GetValue()) + if !prunedKey && !prunedValue { + continue + } + prunedStruct = true + newEntry := &exprpb.Expr_CreateStruct_Entry{ + Value: newValue, + } + if messageType != "" { + newEntry.KeyKind = &exprpb.Expr_CreateStruct_Entry_FieldKey{ + FieldKey: entry.GetFieldKey(), + } + } else { + newEntry.KeyKind = &exprpb.Expr_CreateStruct_Entry_MapKey{ + MapKey: newKey, + } + } + newEntries[i] = newEntry + } + if prunedStruct { + return &exprpb.Expr{ + Id: node.GetId(), + ExprKind: &exprpb.Expr_StructExpr{ + StructExpr: &exprpb.Expr_CreateStruct{ + MessageName: messageType, + Entries: newEntries, + }, + }, + }, true + } + case *exprpb.Expr_ComprehensionExpr: + compre := node.GetComprehensionExpr() + // Only the range of the comprehension is pruned since the state tracking only records + // the last iteration of the comprehension and not each step in the evaluation which + // means that the any residuals computed in between might be inaccurate. + if newRange, pruned := p.prune(compre.GetIterRange()); pruned { + return &exprpb.Expr{ + Id: node.GetId(), + ExprKind: &exprpb.Expr_ComprehensionExpr{ + ComprehensionExpr: &exprpb.Expr_Comprehension{ + IterVar: compre.GetIterVar(), + IterRange: newRange, + AccuVar: compre.GetAccuVar(), + AccuInit: compre.GetAccuInit(), + LoopCondition: compre.GetLoopCondition(), + LoopStep: compre.GetLoopStep(), + Result: compre.GetResult(), + }, + }, + }, true + } + } + return node, false +} + +func (p *astPruner) value(id int64) (ref.Val, bool) { + val, found := p.state.Value(id) + return val, (found && val != nil) +} + +func (p *astPruner) existsWithUnknownValue(id int64) bool { + val, valueExists := p.value(id) + return valueExists && types.IsUnknown(val) +} + +func (p *astPruner) existsWithKnownValue(id int64) bool { + val, valueExists := p.value(id) + return valueExists && !types.IsUnknown(val) +} + +func (p *astPruner) nextID() int64 { + for { + _, found := p.state.Value(p.nextExprID) + if !found { + next := p.nextExprID + p.nextExprID++ + return next + } + p.nextExprID++ + } +} diff --git a/vendor/github.com/google/cel-go/parser/BUILD.bazel b/vendor/github.com/google/cel-go/parser/BUILD.bazel new file mode 100644 index 000000000..a1917b464 --- /dev/null +++ b/vendor/github.com/google/cel-go/parser/BUILD.bazel @@ -0,0 +1,51 @@ +load("@io_bazel_rules_go//go:def.bzl", "go_library", "go_test") + +package( + licenses = ["notice"], # Apache 2.0 +) + +go_library( + name = "go_default_library", + srcs = [ + "errors.go", + "helper.go", + "input.go", + "macro.go", + "options.go", + "parser.go", + "unescape.go", + "unparser.go", + ], + importpath = "github.com/google/cel-go/parser", + visibility = ["//visibility:public"], + deps = [ + "//common:go_default_library", + "//common/operators:go_default_library", + "//common/runes:go_default_library", + "//parser/gen:go_default_library", + "@com_github_antlr//runtime/Go/antlr:go_default_library", + "@org_golang_google_genproto//googleapis/api/expr/v1alpha1:go_default_library", + "@org_golang_google_protobuf//proto:go_default_library", + "@org_golang_google_protobuf//types/known/structpb:go_default_library", + ], +) + +go_test( + name = "go_default_test", + size = "small", + srcs = [ + "parser_test.go", + "unescape_test.go", + "unparser_test.go", + ], + embed = [ + ":go_default_library", + ], + deps = [ + "//common/debug:go_default_library", + "//parser/gen:go_default_library", + "//test:go_default_library", + "@com_github_antlr//runtime/Go/antlr:go_default_library", + "@org_golang_google_protobuf//proto:go_default_library", + ], +) diff --git a/vendor/github.com/google/cel-go/parser/errors.go b/vendor/github.com/google/cel-go/parser/errors.go new file mode 100644 index 000000000..ce49bb87f --- /dev/null +++ b/vendor/github.com/google/cel-go/parser/errors.go @@ -0,0 +1,30 @@ +// Copyright 2018 Google LLC +// +// Licensed under the Apache License, Version 2.0 (the "License"); +// you may not use this file except in compliance with the License. +// You may obtain a copy of the License at +// +// http://www.apache.org/licenses/LICENSE-2.0 +// +// Unless required by applicable law or agreed to in writing, software +// distributed under the License is distributed on an "AS IS" BASIS, +// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. +// See the License for the specific language governing permissions and +// limitations under the License. + +package parser + +import ( + "fmt" + + "github.com/google/cel-go/common" +) + +// parseErrors is a specialization of Errors. +type parseErrors struct { + *common.Errors +} + +func (e *parseErrors) syntaxError(l common.Location, message string) { + e.ReportError(l, fmt.Sprintf("Syntax error: %s", message)) +} diff --git a/vendor/github.com/google/cel-go/parser/gen/BUILD.bazel b/vendor/github.com/google/cel-go/parser/gen/BUILD.bazel new file mode 100644 index 000000000..78e0432c4 --- /dev/null +++ b/vendor/github.com/google/cel-go/parser/gen/BUILD.bazel @@ -0,0 +1,26 @@ +load("@io_bazel_rules_go//go:def.bzl", "go_library") + +package( + default_visibility = ["//parser:__subpackages__"], + licenses = ["notice"], # Apache 2.0 +) + +go_library( + name = "go_default_library", + srcs = [ + "cel_base_listener.go", + "cel_base_visitor.go", + "cel_lexer.go", + "cel_listener.go", + "cel_parser.go", + "cel_visitor.go", + ], + data = [ + "CEL.tokens", + "CELLexer.tokens", + ], + importpath = "github.com/google/cel-go/parser/gen", + deps = [ + "@com_github_antlr//runtime/Go/antlr:go_default_library", + ], +) diff --git a/vendor/github.com/google/cel-go/parser/gen/CEL.g4 b/vendor/github.com/google/cel-go/parser/gen/CEL.g4 new file mode 100644 index 000000000..792812028 --- /dev/null +++ b/vendor/github.com/google/cel-go/parser/gen/CEL.g4 @@ -0,0 +1,186 @@ +// Copyright 2018 Google LLC +// +// Licensed under the Apache License, Version 2.0 (the "License"); +// you may not use this file except in compliance with the License. +// You may obtain a copy of the License at +// +// http://www.apache.org/licenses/LICENSE-2.0 +// +// Unless required by applicable law or agreed to in writing, software +// distributed under the License is distributed on an "AS IS" BASIS, +// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. +// See the License for the specific language governing permissions and +// limitations under the License. + +grammar CEL; + +// Grammar Rules +// ============= + +start + : e=expr EOF + ; + +expr + : e=conditionalOr (op='?' e1=conditionalOr ':' e2=expr)? + ; + +conditionalOr + : e=conditionalAnd (ops+='||' e1+=conditionalAnd)* + ; + +conditionalAnd + : e=relation (ops+='&&' e1+=relation)* + ; + +relation + : calc + | relation op=('<'|'<='|'>='|'>'|'=='|'!='|'in') relation + ; + +calc + : unary + | calc op=('*'|'/'|'%') calc + | calc op=('+'|'-') calc + ; + +unary + : member # MemberExpr + | (ops+='!')+ member # LogicalNot + | (ops+='-')+ member # Negate + ; + +member + : primary # PrimaryExpr + | member op='.' id=IDENTIFIER (open='(' args=exprList? ')')? # SelectOrCall + | member op='[' index=expr ']' # Index + | member op='{' entries=fieldInitializerList? ','? '}' # CreateMessage + ; + +primary + : leadingDot='.'? id=IDENTIFIER (op='(' args=exprList? ')')? # IdentOrGlobalCall + | '(' e=expr ')' # Nested + | op='[' elems=exprList? ','? ']' # CreateList + | op='{' entries=mapInitializerList? ','? '}' # CreateStruct + | literal # ConstantLiteral + ; + +exprList + : e+=expr (',' e+=expr)* + ; + +fieldInitializerList + : fields+=IDENTIFIER cols+=':' values+=expr (',' fields+=IDENTIFIER cols+=':' values+=expr)* + ; + +mapInitializerList + : keys+=expr cols+=':' values+=expr (',' keys+=expr cols+=':' values+=expr)* + ; + +literal + : sign=MINUS? tok=NUM_INT # Int + | tok=NUM_UINT # Uint + | sign=MINUS? tok=NUM_FLOAT # Double + | tok=STRING # String + | tok=BYTES # Bytes + | tok='true' # BoolTrue + | tok='false' # BoolFalse + | tok='null' # Null + ; + +// Lexer Rules +// =========== + +EQUALS : '=='; +NOT_EQUALS : '!='; +IN: 'in'; +LESS : '<'; +LESS_EQUALS : '<='; +GREATER_EQUALS : '>='; +GREATER : '>'; +LOGICAL_AND : '&&'; +LOGICAL_OR : '||'; + +LBRACKET : '['; +RPRACKET : ']'; +LBRACE : '{'; +RBRACE : '}'; +LPAREN : '('; +RPAREN : ')'; +DOT : '.'; +COMMA : ','; +MINUS : '-'; +EXCLAM : '!'; +QUESTIONMARK : '?'; +COLON : ':'; +PLUS : '+'; +STAR : '*'; +SLASH : '/'; +PERCENT : '%'; +TRUE : 'true'; +FALSE : 'false'; +NULL : 'null'; + +fragment BACKSLASH : '\\'; +fragment LETTER : 'A'..'Z' | 'a'..'z' ; +fragment DIGIT : '0'..'9' ; +fragment EXPONENT : ('e' | 'E') ( '+' | '-' )? DIGIT+ ; +fragment HEXDIGIT : ('0'..'9'|'a'..'f'|'A'..'F') ; +fragment RAW : 'r' | 'R'; + +fragment ESC_SEQ + : ESC_CHAR_SEQ + | ESC_BYTE_SEQ + | ESC_UNI_SEQ + | ESC_OCT_SEQ + ; + +fragment ESC_CHAR_SEQ + : BACKSLASH ('a'|'b'|'f'|'n'|'r'|'t'|'v'|'"'|'\''|'\\'|'?'|'`') + ; + +fragment ESC_OCT_SEQ + : BACKSLASH ('0'..'3') ('0'..'7') ('0'..'7') + ; + +fragment ESC_BYTE_SEQ + : BACKSLASH ( 'x' | 'X' ) HEXDIGIT HEXDIGIT + ; + +fragment ESC_UNI_SEQ + : BACKSLASH 'u' HEXDIGIT HEXDIGIT HEXDIGIT HEXDIGIT + | BACKSLASH 'U' HEXDIGIT HEXDIGIT HEXDIGIT HEXDIGIT HEXDIGIT HEXDIGIT HEXDIGIT HEXDIGIT + ; + +WHITESPACE : ( '\t' | ' ' | '\r' | '\n'| '\u000C' )+ -> channel(HIDDEN) ; +COMMENT : '//' (~'\n')* -> channel(HIDDEN) ; + +NUM_FLOAT + : ( DIGIT+ ('.' DIGIT+) EXPONENT? + | DIGIT+ EXPONENT + | '.' DIGIT+ EXPONENT? + ) + ; + +NUM_INT + : ( DIGIT+ | '0x' HEXDIGIT+ ); + +NUM_UINT + : DIGIT+ ( 'u' | 'U' ) + | '0x' HEXDIGIT+ ( 'u' | 'U' ) + ; + +STRING + : '"' (ESC_SEQ | ~('\\'|'"'|'\n'|'\r'))* '"' + | '\'' (ESC_SEQ | ~('\\'|'\''|'\n'|'\r'))* '\'' + | '"""' (ESC_SEQ | ~('\\'))*? '"""' + | '\'\'\'' (ESC_SEQ | ~('\\'))*? '\'\'\'' + | RAW '"' ~('"'|'\n'|'\r')* '"' + | RAW '\'' ~('\''|'\n'|'\r')* '\'' + | RAW '"""' .*? '"""' + | RAW '\'\'\'' .*? '\'\'\'' + ; + +BYTES : ('b' | 'B') STRING; + +IDENTIFIER : (LETTER | '_') ( LETTER | DIGIT | '_')*; diff --git a/vendor/github.com/google/cel-go/parser/gen/CEL.tokens b/vendor/github.com/google/cel-go/parser/gen/CEL.tokens new file mode 100644 index 000000000..c99e4c021 --- /dev/null +++ b/vendor/github.com/google/cel-go/parser/gen/CEL.tokens @@ -0,0 +1,64 @@ +EQUALS=1 +NOT_EQUALS=2 +IN=3 +LESS=4 +LESS_EQUALS=5 +GREATER_EQUALS=6 +GREATER=7 +LOGICAL_AND=8 +LOGICAL_OR=9 +LBRACKET=10 +RPRACKET=11 +LBRACE=12 +RBRACE=13 +LPAREN=14 +RPAREN=15 +DOT=16 +COMMA=17 +MINUS=18 +EXCLAM=19 +QUESTIONMARK=20 +COLON=21 +PLUS=22 +STAR=23 +SLASH=24 +PERCENT=25 +TRUE=26 +FALSE=27 +NULL=28 +WHITESPACE=29 +COMMENT=30 +NUM_FLOAT=31 +NUM_INT=32 +NUM_UINT=33 +STRING=34 +BYTES=35 +IDENTIFIER=36 +'=='=1 +'!='=2 +'in'=3 +'<'=4 +'<='=5 +'>='=6 +'>'=7 +'&&'=8 +'||'=9 +'['=10 +']'=11 +'{'=12 +'}'=13 +'('=14 +')'=15 +'.'=16 +','=17 +'-'=18 +'!'=19 +'?'=20 +':'=21 +'+'=22 +'*'=23 +'/'=24 +'%'=25 +'true'=26 +'false'=27 +'null'=28 diff --git a/vendor/github.com/google/cel-go/parser/gen/CELLexer.tokens b/vendor/github.com/google/cel-go/parser/gen/CELLexer.tokens new file mode 100644 index 000000000..c99e4c021 --- /dev/null +++ b/vendor/github.com/google/cel-go/parser/gen/CELLexer.tokens @@ -0,0 +1,64 @@ +EQUALS=1 +NOT_EQUALS=2 +IN=3 +LESS=4 +LESS_EQUALS=5 +GREATER_EQUALS=6 +GREATER=7 +LOGICAL_AND=8 +LOGICAL_OR=9 +LBRACKET=10 +RPRACKET=11 +LBRACE=12 +RBRACE=13 +LPAREN=14 +RPAREN=15 +DOT=16 +COMMA=17 +MINUS=18 +EXCLAM=19 +QUESTIONMARK=20 +COLON=21 +PLUS=22 +STAR=23 +SLASH=24 +PERCENT=25 +TRUE=26 +FALSE=27 +NULL=28 +WHITESPACE=29 +COMMENT=30 +NUM_FLOAT=31 +NUM_INT=32 +NUM_UINT=33 +STRING=34 +BYTES=35 +IDENTIFIER=36 +'=='=1 +'!='=2 +'in'=3 +'<'=4 +'<='=5 +'>='=6 +'>'=7 +'&&'=8 +'||'=9 +'['=10 +']'=11 +'{'=12 +'}'=13 +'('=14 +')'=15 +'.'=16 +','=17 +'-'=18 +'!'=19 +'?'=20 +':'=21 +'+'=22 +'*'=23 +'/'=24 +'%'=25 +'true'=26 +'false'=27 +'null'=28 diff --git a/vendor/github.com/google/cel-go/parser/gen/cel_base_listener.go b/vendor/github.com/google/cel-go/parser/gen/cel_base_listener.go new file mode 100644 index 000000000..94f6c5881 --- /dev/null +++ b/vendor/github.com/google/cel-go/parser/gen/cel_base_listener.go @@ -0,0 +1,195 @@ +// Generated from /Users/tswadell/go/src/github.com/google/cel-go/bin/../parser/gen/CEL.g4 by ANTLR 4.7. + +package gen // CEL +import "github.com/antlr/antlr4/runtime/Go/antlr" + +// BaseCELListener is a complete listener for a parse tree produced by CELParser. +type BaseCELListener struct{} + +var _ CELListener = &BaseCELListener{} + +// VisitTerminal is called when a terminal node is visited. +func (s *BaseCELListener) VisitTerminal(node antlr.TerminalNode) {} + +// VisitErrorNode is called when an error node is visited. +func (s *BaseCELListener) VisitErrorNode(node antlr.ErrorNode) {} + +// EnterEveryRule is called when any rule is entered. +func (s *BaseCELListener) EnterEveryRule(ctx antlr.ParserRuleContext) {} + +// ExitEveryRule is called when any rule is exited. +func (s *BaseCELListener) ExitEveryRule(ctx antlr.ParserRuleContext) {} + +// EnterStart is called when production start is entered. +func (s *BaseCELListener) EnterStart(ctx *StartContext) {} + +// ExitStart is called when production start is exited. +func (s *BaseCELListener) ExitStart(ctx *StartContext) {} + +// EnterExpr is called when production expr is entered. +func (s *BaseCELListener) EnterExpr(ctx *ExprContext) {} + +// ExitExpr is called when production expr is exited. +func (s *BaseCELListener) ExitExpr(ctx *ExprContext) {} + +// EnterConditionalOr is called when production conditionalOr is entered. +func (s *BaseCELListener) EnterConditionalOr(ctx *ConditionalOrContext) {} + +// ExitConditionalOr is called when production conditionalOr is exited. +func (s *BaseCELListener) ExitConditionalOr(ctx *ConditionalOrContext) {} + +// EnterConditionalAnd is called when production conditionalAnd is entered. +func (s *BaseCELListener) EnterConditionalAnd(ctx *ConditionalAndContext) {} + +// ExitConditionalAnd is called when production conditionalAnd is exited. +func (s *BaseCELListener) ExitConditionalAnd(ctx *ConditionalAndContext) {} + +// EnterRelation is called when production relation is entered. +func (s *BaseCELListener) EnterRelation(ctx *RelationContext) {} + +// ExitRelation is called when production relation is exited. +func (s *BaseCELListener) ExitRelation(ctx *RelationContext) {} + +// EnterCalc is called when production calc is entered. +func (s *BaseCELListener) EnterCalc(ctx *CalcContext) {} + +// ExitCalc is called when production calc is exited. +func (s *BaseCELListener) ExitCalc(ctx *CalcContext) {} + +// EnterMemberExpr is called when production MemberExpr is entered. +func (s *BaseCELListener) EnterMemberExpr(ctx *MemberExprContext) {} + +// ExitMemberExpr is called when production MemberExpr is exited. +func (s *BaseCELListener) ExitMemberExpr(ctx *MemberExprContext) {} + +// EnterLogicalNot is called when production LogicalNot is entered. +func (s *BaseCELListener) EnterLogicalNot(ctx *LogicalNotContext) {} + +// ExitLogicalNot is called when production LogicalNot is exited. +func (s *BaseCELListener) ExitLogicalNot(ctx *LogicalNotContext) {} + +// EnterNegate is called when production Negate is entered. +func (s *BaseCELListener) EnterNegate(ctx *NegateContext) {} + +// ExitNegate is called when production Negate is exited. +func (s *BaseCELListener) ExitNegate(ctx *NegateContext) {} + +// EnterSelectOrCall is called when production SelectOrCall is entered. +func (s *BaseCELListener) EnterSelectOrCall(ctx *SelectOrCallContext) {} + +// ExitSelectOrCall is called when production SelectOrCall is exited. +func (s *BaseCELListener) ExitSelectOrCall(ctx *SelectOrCallContext) {} + +// EnterPrimaryExpr is called when production PrimaryExpr is entered. +func (s *BaseCELListener) EnterPrimaryExpr(ctx *PrimaryExprContext) {} + +// ExitPrimaryExpr is called when production PrimaryExpr is exited. +func (s *BaseCELListener) ExitPrimaryExpr(ctx *PrimaryExprContext) {} + +// EnterIndex is called when production Index is entered. +func (s *BaseCELListener) EnterIndex(ctx *IndexContext) {} + +// ExitIndex is called when production Index is exited. +func (s *BaseCELListener) ExitIndex(ctx *IndexContext) {} + +// EnterCreateMessage is called when production CreateMessage is entered. +func (s *BaseCELListener) EnterCreateMessage(ctx *CreateMessageContext) {} + +// ExitCreateMessage is called when production CreateMessage is exited. +func (s *BaseCELListener) ExitCreateMessage(ctx *CreateMessageContext) {} + +// EnterIdentOrGlobalCall is called when production IdentOrGlobalCall is entered. +func (s *BaseCELListener) EnterIdentOrGlobalCall(ctx *IdentOrGlobalCallContext) {} + +// ExitIdentOrGlobalCall is called when production IdentOrGlobalCall is exited. +func (s *BaseCELListener) ExitIdentOrGlobalCall(ctx *IdentOrGlobalCallContext) {} + +// EnterNested is called when production Nested is entered. +func (s *BaseCELListener) EnterNested(ctx *NestedContext) {} + +// ExitNested is called when production Nested is exited. +func (s *BaseCELListener) ExitNested(ctx *NestedContext) {} + +// EnterCreateList is called when production CreateList is entered. +func (s *BaseCELListener) EnterCreateList(ctx *CreateListContext) {} + +// ExitCreateList is called when production CreateList is exited. +func (s *BaseCELListener) ExitCreateList(ctx *CreateListContext) {} + +// EnterCreateStruct is called when production CreateStruct is entered. +func (s *BaseCELListener) EnterCreateStruct(ctx *CreateStructContext) {} + +// ExitCreateStruct is called when production CreateStruct is exited. +func (s *BaseCELListener) ExitCreateStruct(ctx *CreateStructContext) {} + +// EnterConstantLiteral is called when production ConstantLiteral is entered. +func (s *BaseCELListener) EnterConstantLiteral(ctx *ConstantLiteralContext) {} + +// ExitConstantLiteral is called when production ConstantLiteral is exited. +func (s *BaseCELListener) ExitConstantLiteral(ctx *ConstantLiteralContext) {} + +// EnterExprList is called when production exprList is entered. +func (s *BaseCELListener) EnterExprList(ctx *ExprListContext) {} + +// ExitExprList is called when production exprList is exited. +func (s *BaseCELListener) ExitExprList(ctx *ExprListContext) {} + +// EnterFieldInitializerList is called when production fieldInitializerList is entered. +func (s *BaseCELListener) EnterFieldInitializerList(ctx *FieldInitializerListContext) {} + +// ExitFieldInitializerList is called when production fieldInitializerList is exited. +func (s *BaseCELListener) ExitFieldInitializerList(ctx *FieldInitializerListContext) {} + +// EnterMapInitializerList is called when production mapInitializerList is entered. +func (s *BaseCELListener) EnterMapInitializerList(ctx *MapInitializerListContext) {} + +// ExitMapInitializerList is called when production mapInitializerList is exited. +func (s *BaseCELListener) ExitMapInitializerList(ctx *MapInitializerListContext) {} + +// EnterInt is called when production Int is entered. +func (s *BaseCELListener) EnterInt(ctx *IntContext) {} + +// ExitInt is called when production Int is exited. +func (s *BaseCELListener) ExitInt(ctx *IntContext) {} + +// EnterUint is called when production Uint is entered. +func (s *BaseCELListener) EnterUint(ctx *UintContext) {} + +// ExitUint is called when production Uint is exited. +func (s *BaseCELListener) ExitUint(ctx *UintContext) {} + +// EnterDouble is called when production Double is entered. +func (s *BaseCELListener) EnterDouble(ctx *DoubleContext) {} + +// ExitDouble is called when production Double is exited. +func (s *BaseCELListener) ExitDouble(ctx *DoubleContext) {} + +// EnterString is called when production String is entered. +func (s *BaseCELListener) EnterString(ctx *StringContext) {} + +// ExitString is called when production String is exited. +func (s *BaseCELListener) ExitString(ctx *StringContext) {} + +// EnterBytes is called when production Bytes is entered. +func (s *BaseCELListener) EnterBytes(ctx *BytesContext) {} + +// ExitBytes is called when production Bytes is exited. +func (s *BaseCELListener) ExitBytes(ctx *BytesContext) {} + +// EnterBoolTrue is called when production BoolTrue is entered. +func (s *BaseCELListener) EnterBoolTrue(ctx *BoolTrueContext) {} + +// ExitBoolTrue is called when production BoolTrue is exited. +func (s *BaseCELListener) ExitBoolTrue(ctx *BoolTrueContext) {} + +// EnterBoolFalse is called when production BoolFalse is entered. +func (s *BaseCELListener) EnterBoolFalse(ctx *BoolFalseContext) {} + +// ExitBoolFalse is called when production BoolFalse is exited. +func (s *BaseCELListener) ExitBoolFalse(ctx *BoolFalseContext) {} + +// EnterNull is called when production Null is entered. +func (s *BaseCELListener) EnterNull(ctx *NullContext) {} + +// ExitNull is called when production Null is exited. +func (s *BaseCELListener) ExitNull(ctx *NullContext) {} diff --git a/vendor/github.com/google/cel-go/parser/gen/cel_base_visitor.go b/vendor/github.com/google/cel-go/parser/gen/cel_base_visitor.go new file mode 100644 index 000000000..bb46a64d5 --- /dev/null +++ b/vendor/github.com/google/cel-go/parser/gen/cel_base_visitor.go @@ -0,0 +1,124 @@ +// Generated from /Users/tswadell/go/src/github.com/google/cel-go/bin/../parser/gen/CEL.g4 by ANTLR 4.7. + +package gen // CEL +import "github.com/antlr/antlr4/runtime/Go/antlr" + +type BaseCELVisitor struct { + *antlr.BaseParseTreeVisitor +} + +func (v *BaseCELVisitor) VisitStart(ctx *StartContext) interface{} { + return v.VisitChildren(ctx) +} + +func (v *BaseCELVisitor) VisitExpr(ctx *ExprContext) interface{} { + return v.VisitChildren(ctx) +} + +func (v *BaseCELVisitor) VisitConditionalOr(ctx *ConditionalOrContext) interface{} { + return v.VisitChildren(ctx) +} + +func (v *BaseCELVisitor) VisitConditionalAnd(ctx *ConditionalAndContext) interface{} { + return v.VisitChildren(ctx) +} + +func (v *BaseCELVisitor) VisitRelation(ctx *RelationContext) interface{} { + return v.VisitChildren(ctx) +} + +func (v *BaseCELVisitor) VisitCalc(ctx *CalcContext) interface{} { + return v.VisitChildren(ctx) +} + +func (v *BaseCELVisitor) VisitMemberExpr(ctx *MemberExprContext) interface{} { + return v.VisitChildren(ctx) +} + +func (v *BaseCELVisitor) VisitLogicalNot(ctx *LogicalNotContext) interface{} { + return v.VisitChildren(ctx) +} + +func (v *BaseCELVisitor) VisitNegate(ctx *NegateContext) interface{} { + return v.VisitChildren(ctx) +} + +func (v *BaseCELVisitor) VisitSelectOrCall(ctx *SelectOrCallContext) interface{} { + return v.VisitChildren(ctx) +} + +func (v *BaseCELVisitor) VisitPrimaryExpr(ctx *PrimaryExprContext) interface{} { + return v.VisitChildren(ctx) +} + +func (v *BaseCELVisitor) VisitIndex(ctx *IndexContext) interface{} { + return v.VisitChildren(ctx) +} + +func (v *BaseCELVisitor) VisitCreateMessage(ctx *CreateMessageContext) interface{} { + return v.VisitChildren(ctx) +} + +func (v *BaseCELVisitor) VisitIdentOrGlobalCall(ctx *IdentOrGlobalCallContext) interface{} { + return v.VisitChildren(ctx) +} + +func (v *BaseCELVisitor) VisitNested(ctx *NestedContext) interface{} { + return v.VisitChildren(ctx) +} + +func (v *BaseCELVisitor) VisitCreateList(ctx *CreateListContext) interface{} { + return v.VisitChildren(ctx) +} + +func (v *BaseCELVisitor) VisitCreateStruct(ctx *CreateStructContext) interface{} { + return v.VisitChildren(ctx) +} + +func (v *BaseCELVisitor) VisitConstantLiteral(ctx *ConstantLiteralContext) interface{} { + return v.VisitChildren(ctx) +} + +func (v *BaseCELVisitor) VisitExprList(ctx *ExprListContext) interface{} { + return v.VisitChildren(ctx) +} + +func (v *BaseCELVisitor) VisitFieldInitializerList(ctx *FieldInitializerListContext) interface{} { + return v.VisitChildren(ctx) +} + +func (v *BaseCELVisitor) VisitMapInitializerList(ctx *MapInitializerListContext) interface{} { + return v.VisitChildren(ctx) +} + +func (v *BaseCELVisitor) VisitInt(ctx *IntContext) interface{} { + return v.VisitChildren(ctx) +} + +func (v *BaseCELVisitor) VisitUint(ctx *UintContext) interface{} { + return v.VisitChildren(ctx) +} + +func (v *BaseCELVisitor) VisitDouble(ctx *DoubleContext) interface{} { + return v.VisitChildren(ctx) +} + +func (v *BaseCELVisitor) VisitString(ctx *StringContext) interface{} { + return v.VisitChildren(ctx) +} + +func (v *BaseCELVisitor) VisitBytes(ctx *BytesContext) interface{} { + return v.VisitChildren(ctx) +} + +func (v *BaseCELVisitor) VisitBoolTrue(ctx *BoolTrueContext) interface{} { + return v.VisitChildren(ctx) +} + +func (v *BaseCELVisitor) VisitBoolFalse(ctx *BoolFalseContext) interface{} { + return v.VisitChildren(ctx) +} + +func (v *BaseCELVisitor) VisitNull(ctx *NullContext) interface{} { + return v.VisitChildren(ctx) +} diff --git a/vendor/github.com/google/cel-go/parser/gen/cel_lexer.go b/vendor/github.com/google/cel-go/parser/gen/cel_lexer.go new file mode 100644 index 000000000..b76f78a65 --- /dev/null +++ b/vendor/github.com/google/cel-go/parser/gen/cel_lexer.go @@ -0,0 +1,319 @@ +// Generated from /Users/tswadell/go/src/github.com/google/cel-go/bin/../parser/gen/CEL.g4 by ANTLR 4.7. + +package gen + +import ( + "fmt" + "unicode" + + "github.com/antlr/antlr4/runtime/Go/antlr" +) + +// Suppress unused import error +var _ = fmt.Printf +var _ = unicode.IsLetter + +var serializedLexerAtn = []uint16{ + 3, 24715, 42794, 33075, 47597, 16764, 15335, 30598, 22884, 2, 38, 425, + 8, 1, 4, 2, 9, 2, 4, 3, 9, 3, 4, 4, 9, 4, 4, 5, 9, 5, 4, 6, 9, 6, 4, 7, + 9, 7, 4, 8, 9, 8, 4, 9, 9, 9, 4, 10, 9, 10, 4, 11, 9, 11, 4, 12, 9, 12, + 4, 13, 9, 13, 4, 14, 9, 14, 4, 15, 9, 15, 4, 16, 9, 16, 4, 17, 9, 17, 4, + 18, 9, 18, 4, 19, 9, 19, 4, 20, 9, 20, 4, 21, 9, 21, 4, 22, 9, 22, 4, 23, + 9, 23, 4, 24, 9, 24, 4, 25, 9, 25, 4, 26, 9, 26, 4, 27, 9, 27, 4, 28, 9, + 28, 4, 29, 9, 29, 4, 30, 9, 30, 4, 31, 9, 31, 4, 32, 9, 32, 4, 33, 9, 33, + 4, 34, 9, 34, 4, 35, 9, 35, 4, 36, 9, 36, 4, 37, 9, 37, 4, 38, 9, 38, 4, + 39, 9, 39, 4, 40, 9, 40, 4, 41, 9, 41, 4, 42, 9, 42, 4, 43, 9, 43, 4, 44, + 9, 44, 4, 45, 9, 45, 4, 46, 9, 46, 4, 47, 9, 47, 4, 48, 9, 48, 3, 2, 3, + 2, 3, 2, 3, 3, 3, 3, 3, 3, 3, 4, 3, 4, 3, 4, 3, 5, 3, 5, 3, 6, 3, 6, 3, + 6, 3, 7, 3, 7, 3, 7, 3, 8, 3, 8, 3, 9, 3, 9, 3, 9, 3, 10, 3, 10, 3, 10, + 3, 11, 3, 11, 3, 12, 3, 12, 3, 13, 3, 13, 3, 14, 3, 14, 3, 15, 3, 15, 3, + 16, 3, 16, 3, 17, 3, 17, 3, 18, 3, 18, 3, 19, 3, 19, 3, 20, 3, 20, 3, 21, + 3, 21, 3, 22, 3, 22, 3, 23, 3, 23, 3, 24, 3, 24, 3, 25, 3, 25, 3, 26, 3, + 26, 3, 27, 3, 27, 3, 27, 3, 27, 3, 27, 3, 28, 3, 28, 3, 28, 3, 28, 3, 28, + 3, 28, 3, 29, 3, 29, 3, 29, 3, 29, 3, 29, 3, 30, 3, 30, 3, 31, 3, 31, 3, + 32, 3, 32, 3, 33, 3, 33, 5, 33, 179, 10, 33, 3, 33, 6, 33, 182, 10, 33, + 13, 33, 14, 33, 183, 3, 34, 3, 34, 3, 35, 3, 35, 3, 36, 3, 36, 3, 36, 3, + 36, 5, 36, 194, 10, 36, 3, 37, 3, 37, 3, 37, 3, 38, 3, 38, 3, 38, 3, 38, + 3, 38, 3, 39, 3, 39, 3, 39, 3, 39, 3, 39, 3, 40, 3, 40, 3, 40, 3, 40, 3, + 40, 3, 40, 3, 40, 3, 40, 3, 40, 3, 40, 3, 40, 3, 40, 3, 40, 3, 40, 3, 40, + 3, 40, 3, 40, 3, 40, 5, 40, 227, 10, 40, 3, 41, 6, 41, 230, 10, 41, 13, + 41, 14, 41, 231, 3, 41, 3, 41, 3, 42, 3, 42, 3, 42, 3, 42, 7, 42, 240, + 10, 42, 12, 42, 14, 42, 243, 11, 42, 3, 42, 3, 42, 3, 43, 6, 43, 248, 10, + 43, 13, 43, 14, 43, 249, 3, 43, 3, 43, 6, 43, 254, 10, 43, 13, 43, 14, + 43, 255, 3, 43, 5, 43, 259, 10, 43, 3, 43, 6, 43, 262, 10, 43, 13, 43, + 14, 43, 263, 3, 43, 3, 43, 3, 43, 3, 43, 6, 43, 270, 10, 43, 13, 43, 14, + 43, 271, 3, 43, 5, 43, 275, 10, 43, 5, 43, 277, 10, 43, 3, 44, 6, 44, 280, + 10, 44, 13, 44, 14, 44, 281, 3, 44, 3, 44, 3, 44, 3, 44, 6, 44, 288, 10, + 44, 13, 44, 14, 44, 289, 5, 44, 292, 10, 44, 3, 45, 6, 45, 295, 10, 45, + 13, 45, 14, 45, 296, 3, 45, 3, 45, 3, 45, 3, 45, 3, 45, 3, 45, 6, 45, 305, + 10, 45, 13, 45, 14, 45, 306, 3, 45, 3, 45, 5, 45, 311, 10, 45, 3, 46, 3, + 46, 3, 46, 7, 46, 316, 10, 46, 12, 46, 14, 46, 319, 11, 46, 3, 46, 3, 46, + 3, 46, 3, 46, 7, 46, 325, 10, 46, 12, 46, 14, 46, 328, 11, 46, 3, 46, 3, + 46, 3, 46, 3, 46, 3, 46, 3, 46, 3, 46, 7, 46, 337, 10, 46, 12, 46, 14, + 46, 340, 11, 46, 3, 46, 3, 46, 3, 46, 3, 46, 3, 46, 3, 46, 3, 46, 3, 46, + 3, 46, 7, 46, 351, 10, 46, 12, 46, 14, 46, 354, 11, 46, 3, 46, 3, 46, 3, + 46, 3, 46, 3, 46, 3, 46, 7, 46, 362, 10, 46, 12, 46, 14, 46, 365, 11, 46, + 3, 46, 3, 46, 3, 46, 3, 46, 3, 46, 7, 46, 372, 10, 46, 12, 46, 14, 46, + 375, 11, 46, 3, 46, 3, 46, 3, 46, 3, 46, 3, 46, 3, 46, 3, 46, 3, 46, 7, + 46, 385, 10, 46, 12, 46, 14, 46, 388, 11, 46, 3, 46, 3, 46, 3, 46, 3, 46, + 3, 46, 3, 46, 3, 46, 3, 46, 3, 46, 3, 46, 7, 46, 400, 10, 46, 12, 46, 14, + 46, 403, 11, 46, 3, 46, 3, 46, 3, 46, 3, 46, 5, 46, 409, 10, 46, 3, 47, + 3, 47, 3, 47, 3, 48, 3, 48, 5, 48, 416, 10, 48, 3, 48, 3, 48, 3, 48, 7, + 48, 421, 10, 48, 12, 48, 14, 48, 424, 11, 48, 6, 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2, 2, 2, 13, 3, 2, 2, 2, 2, 15, 3, 2, 2, 2, 2, 17, 3, 2, 2, 2, 2, 19, + 3, 2, 2, 2, 2, 21, 3, 2, 2, 2, 2, 23, 3, 2, 2, 2, 2, 25, 3, 2, 2, 2, 2, + 27, 3, 2, 2, 2, 2, 29, 3, 2, 2, 2, 2, 31, 3, 2, 2, 2, 2, 33, 3, 2, 2, 2, + 2, 35, 3, 2, 2, 2, 2, 37, 3, 2, 2, 2, 2, 39, 3, 2, 2, 2, 2, 41, 3, 2, 2, + 2, 2, 43, 3, 2, 2, 2, 2, 45, 3, 2, 2, 2, 2, 47, 3, 2, 2, 2, 2, 49, 3, 2, + 2, 2, 2, 51, 3, 2, 2, 2, 2, 53, 3, 2, 2, 2, 2, 55, 3, 2, 2, 2, 2, 57, 3, + 2, 2, 2, 2, 81, 3, 2, 2, 2, 2, 83, 3, 2, 2, 2, 2, 85, 3, 2, 2, 2, 2, 87, + 3, 2, 2, 2, 2, 89, 3, 2, 2, 2, 2, 91, 3, 2, 2, 2, 2, 93, 3, 2, 2, 2, 2, + 95, 3, 2, 2, 2, 3, 97, 3, 2, 2, 2, 5, 100, 3, 2, 2, 2, 7, 103, 3, 2, 2, + 2, 9, 106, 3, 2, 2, 2, 11, 108, 3, 2, 2, 2, 13, 111, 3, 2, 2, 2, 15, 114, + 3, 2, 2, 2, 17, 116, 3, 2, 2, 2, 19, 119, 3, 2, 2, 2, 21, 122, 3, 2, 2, + 2, 23, 124, 3, 2, 2, 2, 25, 126, 3, 2, 2, 2, 27, 128, 3, 2, 2, 2, 29, 130, + 3, 2, 2, 2, 31, 132, 3, 2, 2, 2, 33, 134, 3, 2, 2, 2, 35, 136, 3, 2, 2, + 2, 37, 138, 3, 2, 2, 2, 39, 140, 3, 2, 2, 2, 41, 142, 3, 2, 2, 2, 43, 144, + 3, 2, 2, 2, 45, 146, 3, 2, 2, 2, 47, 148, 3, 2, 2, 2, 49, 150, 3, 2, 2, + 2, 51, 152, 3, 2, 2, 2, 53, 154, 3, 2, 2, 2, 55, 159, 3, 2, 2, 2, 57, 165, + 3, 2, 2, 2, 59, 170, 3, 2, 2, 2, 61, 172, 3, 2, 2, 2, 63, 174, 3, 2, 2, + 2, 65, 176, 3, 2, 2, 2, 67, 185, 3, 2, 2, 2, 69, 187, 3, 2, 2, 2, 71, 193, + 3, 2, 2, 2, 73, 195, 3, 2, 2, 2, 75, 198, 3, 2, 2, 2, 77, 203, 3, 2, 2, + 2, 79, 226, 3, 2, 2, 2, 81, 229, 3, 2, 2, 2, 83, 235, 3, 2, 2, 2, 85, 276, + 3, 2, 2, 2, 87, 291, 3, 2, 2, 2, 89, 310, 3, 2, 2, 2, 91, 408, 3, 2, 2, + 2, 93, 410, 3, 2, 2, 2, 95, 415, 3, 2, 2, 2, 97, 98, 7, 63, 2, 2, 98, 99, + 7, 63, 2, 2, 99, 4, 3, 2, 2, 2, 100, 101, 7, 35, 2, 2, 101, 102, 7, 63, + 2, 2, 102, 6, 3, 2, 2, 2, 103, 104, 7, 107, 2, 2, 104, 105, 7, 112, 2, + 2, 105, 8, 3, 2, 2, 2, 106, 107, 7, 62, 2, 2, 107, 10, 3, 2, 2, 2, 108, + 109, 7, 62, 2, 2, 109, 110, 7, 63, 2, 2, 110, 12, 3, 2, 2, 2, 111, 112, + 7, 64, 2, 2, 112, 113, 7, 63, 2, 2, 113, 14, 3, 2, 2, 2, 114, 115, 7, 64, + 2, 2, 115, 16, 3, 2, 2, 2, 116, 117, 7, 40, 2, 2, 117, 118, 7, 40, 2, 2, + 118, 18, 3, 2, 2, 2, 119, 120, 7, 126, 2, 2, 120, 121, 7, 126, 2, 2, 121, + 20, 3, 2, 2, 2, 122, 123, 7, 93, 2, 2, 123, 22, 3, 2, 2, 2, 124, 125, 7, + 95, 2, 2, 125, 24, 3, 2, 2, 2, 126, 127, 7, 125, 2, 2, 127, 26, 3, 2, 2, + 2, 128, 129, 7, 127, 2, 2, 129, 28, 3, 2, 2, 2, 130, 131, 7, 42, 2, 2, + 131, 30, 3, 2, 2, 2, 132, 133, 7, 43, 2, 2, 133, 32, 3, 2, 2, 2, 134, 135, + 7, 48, 2, 2, 135, 34, 3, 2, 2, 2, 136, 137, 7, 46, 2, 2, 137, 36, 3, 2, + 2, 2, 138, 139, 7, 47, 2, 2, 139, 38, 3, 2, 2, 2, 140, 141, 7, 35, 2, 2, + 141, 40, 3, 2, 2, 2, 142, 143, 7, 65, 2, 2, 143, 42, 3, 2, 2, 2, 144, 145, + 7, 60, 2, 2, 145, 44, 3, 2, 2, 2, 146, 147, 7, 45, 2, 2, 147, 46, 3, 2, + 2, 2, 148, 149, 7, 44, 2, 2, 149, 48, 3, 2, 2, 2, 150, 151, 7, 49, 2, 2, + 151, 50, 3, 2, 2, 2, 152, 153, 7, 39, 2, 2, 153, 52, 3, 2, 2, 2, 154, 155, + 7, 118, 2, 2, 155, 156, 7, 116, 2, 2, 156, 157, 7, 119, 2, 2, 157, 158, + 7, 103, 2, 2, 158, 54, 3, 2, 2, 2, 159, 160, 7, 104, 2, 2, 160, 161, 7, + 99, 2, 2, 161, 162, 7, 110, 2, 2, 162, 163, 7, 117, 2, 2, 163, 164, 7, + 103, 2, 2, 164, 56, 3, 2, 2, 2, 165, 166, 7, 112, 2, 2, 166, 167, 7, 119, + 2, 2, 167, 168, 7, 110, 2, 2, 168, 169, 7, 110, 2, 2, 169, 58, 3, 2, 2, + 2, 170, 171, 7, 94, 2, 2, 171, 60, 3, 2, 2, 2, 172, 173, 9, 2, 2, 2, 173, + 62, 3, 2, 2, 2, 174, 175, 4, 50, 59, 2, 175, 64, 3, 2, 2, 2, 176, 178, + 9, 3, 2, 2, 177, 179, 9, 4, 2, 2, 178, 177, 3, 2, 2, 2, 178, 179, 3, 2, + 2, 2, 179, 181, 3, 2, 2, 2, 180, 182, 5, 63, 32, 2, 181, 180, 3, 2, 2, + 2, 182, 183, 3, 2, 2, 2, 183, 181, 3, 2, 2, 2, 183, 184, 3, 2, 2, 2, 184, + 66, 3, 2, 2, 2, 185, 186, 9, 5, 2, 2, 186, 68, 3, 2, 2, 2, 187, 188, 9, + 6, 2, 2, 188, 70, 3, 2, 2, 2, 189, 194, 5, 73, 37, 2, 190, 194, 5, 77, + 39, 2, 191, 194, 5, 79, 40, 2, 192, 194, 5, 75, 38, 2, 193, 189, 3, 2, + 2, 2, 193, 190, 3, 2, 2, 2, 193, 191, 3, 2, 2, 2, 193, 192, 3, 2, 2, 2, + 194, 72, 3, 2, 2, 2, 195, 196, 5, 59, 30, 2, 196, 197, 9, 7, 2, 2, 197, + 74, 3, 2, 2, 2, 198, 199, 5, 59, 30, 2, 199, 200, 4, 50, 53, 2, 200, 201, + 4, 50, 57, 2, 201, 202, 4, 50, 57, 2, 202, 76, 3, 2, 2, 2, 203, 204, 5, + 59, 30, 2, 204, 205, 9, 8, 2, 2, 205, 206, 5, 67, 34, 2, 206, 207, 5, 67, + 34, 2, 207, 78, 3, 2, 2, 2, 208, 209, 5, 59, 30, 2, 209, 210, 7, 119, 2, + 2, 210, 211, 5, 67, 34, 2, 211, 212, 5, 67, 34, 2, 212, 213, 5, 67, 34, + 2, 213, 214, 5, 67, 34, 2, 214, 227, 3, 2, 2, 2, 215, 216, 5, 59, 30, 2, + 216, 217, 7, 87, 2, 2, 217, 218, 5, 67, 34, 2, 218, 219, 5, 67, 34, 2, + 219, 220, 5, 67, 34, 2, 220, 221, 5, 67, 34, 2, 221, 222, 5, 67, 34, 2, + 222, 223, 5, 67, 34, 2, 223, 224, 5, 67, 34, 2, 224, 225, 5, 67, 34, 2, + 225, 227, 3, 2, 2, 2, 226, 208, 3, 2, 2, 2, 226, 215, 3, 2, 2, 2, 227, + 80, 3, 2, 2, 2, 228, 230, 9, 9, 2, 2, 229, 228, 3, 2, 2, 2, 230, 231, 3, + 2, 2, 2, 231, 229, 3, 2, 2, 2, 231, 232, 3, 2, 2, 2, 232, 233, 3, 2, 2, + 2, 233, 234, 8, 41, 2, 2, 234, 82, 3, 2, 2, 2, 235, 236, 7, 49, 2, 2, 236, + 237, 7, 49, 2, 2, 237, 241, 3, 2, 2, 2, 238, 240, 10, 10, 2, 2, 239, 238, + 3, 2, 2, 2, 240, 243, 3, 2, 2, 2, 241, 239, 3, 2, 2, 2, 241, 242, 3, 2, + 2, 2, 242, 244, 3, 2, 2, 2, 243, 241, 3, 2, 2, 2, 244, 245, 8, 42, 2, 2, + 245, 84, 3, 2, 2, 2, 246, 248, 5, 63, 32, 2, 247, 246, 3, 2, 2, 2, 248, + 249, 3, 2, 2, 2, 249, 247, 3, 2, 2, 2, 249, 250, 3, 2, 2, 2, 250, 251, + 3, 2, 2, 2, 251, 253, 7, 48, 2, 2, 252, 254, 5, 63, 32, 2, 253, 252, 3, + 2, 2, 2, 254, 255, 3, 2, 2, 2, 255, 253, 3, 2, 2, 2, 255, 256, 3, 2, 2, + 2, 256, 258, 3, 2, 2, 2, 257, 259, 5, 65, 33, 2, 258, 257, 3, 2, 2, 2, + 258, 259, 3, 2, 2, 2, 259, 277, 3, 2, 2, 2, 260, 262, 5, 63, 32, 2, 261, + 260, 3, 2, 2, 2, 262, 263, 3, 2, 2, 2, 263, 261, 3, 2, 2, 2, 263, 264, + 3, 2, 2, 2, 264, 265, 3, 2, 2, 2, 265, 266, 5, 65, 33, 2, 266, 277, 3, + 2, 2, 2, 267, 269, 7, 48, 2, 2, 268, 270, 5, 63, 32, 2, 269, 268, 3, 2, + 2, 2, 270, 271, 3, 2, 2, 2, 271, 269, 3, 2, 2, 2, 271, 272, 3, 2, 2, 2, + 272, 274, 3, 2, 2, 2, 273, 275, 5, 65, 33, 2, 274, 273, 3, 2, 2, 2, 274, + 275, 3, 2, 2, 2, 275, 277, 3, 2, 2, 2, 276, 247, 3, 2, 2, 2, 276, 261, + 3, 2, 2, 2, 276, 267, 3, 2, 2, 2, 277, 86, 3, 2, 2, 2, 278, 280, 5, 63, + 32, 2, 279, 278, 3, 2, 2, 2, 280, 281, 3, 2, 2, 2, 281, 279, 3, 2, 2, 2, + 281, 282, 3, 2, 2, 2, 282, 292, 3, 2, 2, 2, 283, 284, 7, 50, 2, 2, 284, + 285, 7, 122, 2, 2, 285, 287, 3, 2, 2, 2, 286, 288, 5, 67, 34, 2, 287, 286, + 3, 2, 2, 2, 288, 289, 3, 2, 2, 2, 289, 287, 3, 2, 2, 2, 289, 290, 3, 2, + 2, 2, 290, 292, 3, 2, 2, 2, 291, 279, 3, 2, 2, 2, 291, 283, 3, 2, 2, 2, + 292, 88, 3, 2, 2, 2, 293, 295, 5, 63, 32, 2, 294, 293, 3, 2, 2, 2, 295, + 296, 3, 2, 2, 2, 296, 294, 3, 2, 2, 2, 296, 297, 3, 2, 2, 2, 297, 298, + 3, 2, 2, 2, 298, 299, 9, 11, 2, 2, 299, 311, 3, 2, 2, 2, 300, 301, 7, 50, + 2, 2, 301, 302, 7, 122, 2, 2, 302, 304, 3, 2, 2, 2, 303, 305, 5, 67, 34, + 2, 304, 303, 3, 2, 2, 2, 305, 306, 3, 2, 2, 2, 306, 304, 3, 2, 2, 2, 306, + 307, 3, 2, 2, 2, 307, 308, 3, 2, 2, 2, 308, 309, 9, 11, 2, 2, 309, 311, + 3, 2, 2, 2, 310, 294, 3, 2, 2, 2, 310, 300, 3, 2, 2, 2, 311, 90, 3, 2, + 2, 2, 312, 317, 7, 36, 2, 2, 313, 316, 5, 71, 36, 2, 314, 316, 10, 12, + 2, 2, 315, 313, 3, 2, 2, 2, 315, 314, 3, 2, 2, 2, 316, 319, 3, 2, 2, 2, + 317, 315, 3, 2, 2, 2, 317, 318, 3, 2, 2, 2, 318, 320, 3, 2, 2, 2, 319, + 317, 3, 2, 2, 2, 320, 409, 7, 36, 2, 2, 321, 326, 7, 41, 2, 2, 322, 325, + 5, 71, 36, 2, 323, 325, 10, 13, 2, 2, 324, 322, 3, 2, 2, 2, 324, 323, 3, + 2, 2, 2, 325, 328, 3, 2, 2, 2, 326, 324, 3, 2, 2, 2, 326, 327, 3, 2, 2, + 2, 327, 329, 3, 2, 2, 2, 328, 326, 3, 2, 2, 2, 329, 409, 7, 41, 2, 2, 330, + 331, 7, 36, 2, 2, 331, 332, 7, 36, 2, 2, 332, 333, 7, 36, 2, 2, 333, 338, + 3, 2, 2, 2, 334, 337, 5, 71, 36, 2, 335, 337, 10, 14, 2, 2, 336, 334, 3, + 2, 2, 2, 336, 335, 3, 2, 2, 2, 337, 340, 3, 2, 2, 2, 338, 339, 3, 2, 2, + 2, 338, 336, 3, 2, 2, 2, 339, 341, 3, 2, 2, 2, 340, 338, 3, 2, 2, 2, 341, + 342, 7, 36, 2, 2, 342, 343, 7, 36, 2, 2, 343, 409, 7, 36, 2, 2, 344, 345, + 7, 41, 2, 2, 345, 346, 7, 41, 2, 2, 346, 347, 7, 41, 2, 2, 347, 352, 3, + 2, 2, 2, 348, 351, 5, 71, 36, 2, 349, 351, 10, 14, 2, 2, 350, 348, 3, 2, + 2, 2, 350, 349, 3, 2, 2, 2, 351, 354, 3, 2, 2, 2, 352, 353, 3, 2, 2, 2, + 352, 350, 3, 2, 2, 2, 353, 355, 3, 2, 2, 2, 354, 352, 3, 2, 2, 2, 355, + 356, 7, 41, 2, 2, 356, 357, 7, 41, 2, 2, 357, 409, 7, 41, 2, 2, 358, 359, + 5, 69, 35, 2, 359, 363, 7, 36, 2, 2, 360, 362, 10, 15, 2, 2, 361, 360, + 3, 2, 2, 2, 362, 365, 3, 2, 2, 2, 363, 361, 3, 2, 2, 2, 363, 364, 3, 2, + 2, 2, 364, 366, 3, 2, 2, 2, 365, 363, 3, 2, 2, 2, 366, 367, 7, 36, 2, 2, + 367, 409, 3, 2, 2, 2, 368, 369, 5, 69, 35, 2, 369, 373, 7, 41, 2, 2, 370, + 372, 10, 16, 2, 2, 371, 370, 3, 2, 2, 2, 372, 375, 3, 2, 2, 2, 373, 371, + 3, 2, 2, 2, 373, 374, 3, 2, 2, 2, 374, 376, 3, 2, 2, 2, 375, 373, 3, 2, + 2, 2, 376, 377, 7, 41, 2, 2, 377, 409, 3, 2, 2, 2, 378, 379, 5, 69, 35, + 2, 379, 380, 7, 36, 2, 2, 380, 381, 7, 36, 2, 2, 381, 382, 7, 36, 2, 2, + 382, 386, 3, 2, 2, 2, 383, 385, 11, 2, 2, 2, 384, 383, 3, 2, 2, 2, 385, + 388, 3, 2, 2, 2, 386, 387, 3, 2, 2, 2, 386, 384, 3, 2, 2, 2, 387, 389, + 3, 2, 2, 2, 388, 386, 3, 2, 2, 2, 389, 390, 7, 36, 2, 2, 390, 391, 7, 36, + 2, 2, 391, 392, 7, 36, 2, 2, 392, 409, 3, 2, 2, 2, 393, 394, 5, 69, 35, + 2, 394, 395, 7, 41, 2, 2, 395, 396, 7, 41, 2, 2, 396, 397, 7, 41, 2, 2, + 397, 401, 3, 2, 2, 2, 398, 400, 11, 2, 2, 2, 399, 398, 3, 2, 2, 2, 400, + 403, 3, 2, 2, 2, 401, 402, 3, 2, 2, 2, 401, 399, 3, 2, 2, 2, 402, 404, + 3, 2, 2, 2, 403, 401, 3, 2, 2, 2, 404, 405, 7, 41, 2, 2, 405, 406, 7, 41, + 2, 2, 406, 407, 7, 41, 2, 2, 407, 409, 3, 2, 2, 2, 408, 312, 3, 2, 2, 2, + 408, 321, 3, 2, 2, 2, 408, 330, 3, 2, 2, 2, 408, 344, 3, 2, 2, 2, 408, + 358, 3, 2, 2, 2, 408, 368, 3, 2, 2, 2, 408, 378, 3, 2, 2, 2, 408, 393, + 3, 2, 2, 2, 409, 92, 3, 2, 2, 2, 410, 411, 9, 17, 2, 2, 411, 412, 5, 91, + 46, 2, 412, 94, 3, 2, 2, 2, 413, 416, 5, 61, 31, 2, 414, 416, 7, 97, 2, + 2, 415, 413, 3, 2, 2, 2, 415, 414, 3, 2, 2, 2, 416, 422, 3, 2, 2, 2, 417, + 421, 5, 61, 31, 2, 418, 421, 5, 63, 32, 2, 419, 421, 7, 97, 2, 2, 420, + 417, 3, 2, 2, 2, 420, 418, 3, 2, 2, 2, 420, 419, 3, 2, 2, 2, 421, 424, + 3, 2, 2, 2, 422, 420, 3, 2, 2, 2, 422, 423, 3, 2, 2, 2, 423, 96, 3, 2, + 2, 2, 424, 422, 3, 2, 2, 2, 38, 2, 178, 183, 193, 226, 231, 241, 249, 255, + 258, 263, 271, 274, 276, 281, 289, 291, 296, 306, 310, 315, 317, 324, 326, + 336, 338, 350, 352, 363, 373, 386, 401, 408, 415, 420, 422, 3, 2, 3, 2, +} + +var lexerChannelNames = []string{ + "DEFAULT_TOKEN_CHANNEL", "HIDDEN", +} + +var lexerModeNames = []string{ + "DEFAULT_MODE", +} + +var lexerLiteralNames = []string{ + "", "'=='", "'!='", "'in'", "'<'", "'<='", "'>='", "'>'", "'&&'", "'||'", + "'['", "']'", "'{'", "'}'", "'('", "')'", "'.'", "','", "'-'", "'!'", "'?'", + "':'", "'+'", "'*'", "'/'", "'%'", "'true'", "'false'", "'null'", +} + +var lexerSymbolicNames = []string{ + "", "EQUALS", "NOT_EQUALS", "IN", "LESS", "LESS_EQUALS", "GREATER_EQUALS", + "GREATER", "LOGICAL_AND", "LOGICAL_OR", "LBRACKET", "RPRACKET", "LBRACE", + "RBRACE", "LPAREN", "RPAREN", "DOT", "COMMA", "MINUS", "EXCLAM", "QUESTIONMARK", + "COLON", "PLUS", "STAR", "SLASH", "PERCENT", "TRUE", "FALSE", "NULL", "WHITESPACE", + "COMMENT", "NUM_FLOAT", "NUM_INT", "NUM_UINT", "STRING", "BYTES", "IDENTIFIER", +} + +var lexerRuleNames = []string{ + "EQUALS", "NOT_EQUALS", "IN", "LESS", "LESS_EQUALS", "GREATER_EQUALS", + "GREATER", "LOGICAL_AND", "LOGICAL_OR", "LBRACKET", "RPRACKET", "LBRACE", + "RBRACE", "LPAREN", "RPAREN", "DOT", "COMMA", "MINUS", "EXCLAM", "QUESTIONMARK", + "COLON", "PLUS", "STAR", "SLASH", "PERCENT", "TRUE", "FALSE", "NULL", "BACKSLASH", + "LETTER", "DIGIT", "EXPONENT", "HEXDIGIT", "RAW", "ESC_SEQ", "ESC_CHAR_SEQ", + "ESC_OCT_SEQ", "ESC_BYTE_SEQ", "ESC_UNI_SEQ", "WHITESPACE", "COMMENT", + "NUM_FLOAT", "NUM_INT", "NUM_UINT", "STRING", "BYTES", "IDENTIFIER", +} + +type CELLexer struct { + *antlr.BaseLexer + channelNames []string + modeNames []string + // TODO: EOF string +} + +func NewCELLexer(input antlr.CharStream) *CELLexer { + + l := new(CELLexer) + lexerDeserializer := antlr.NewATNDeserializer(nil) + lexerAtn := lexerDeserializer.DeserializeFromUInt16(serializedLexerAtn) + lexerDecisionToDFA := make([]*antlr.DFA, len(lexerAtn.DecisionToState)) + for index, ds := range lexerAtn.DecisionToState { + lexerDecisionToDFA[index] = antlr.NewDFA(ds, index) + } + + l.BaseLexer = antlr.NewBaseLexer(input) + l.Interpreter = antlr.NewLexerATNSimulator(l, lexerAtn, lexerDecisionToDFA, antlr.NewPredictionContextCache()) + + l.channelNames = lexerChannelNames + l.modeNames = lexerModeNames + l.RuleNames = lexerRuleNames + l.LiteralNames = lexerLiteralNames + l.SymbolicNames = lexerSymbolicNames + l.GrammarFileName = "CEL.g4" + // TODO: l.EOF = antlr.TokenEOF + + return l +} + +// CELLexer tokens. +const ( + CELLexerEQUALS = 1 + CELLexerNOT_EQUALS = 2 + CELLexerIN = 3 + CELLexerLESS = 4 + CELLexerLESS_EQUALS = 5 + CELLexerGREATER_EQUALS = 6 + CELLexerGREATER = 7 + CELLexerLOGICAL_AND = 8 + CELLexerLOGICAL_OR = 9 + CELLexerLBRACKET = 10 + CELLexerRPRACKET = 11 + CELLexerLBRACE = 12 + CELLexerRBRACE = 13 + CELLexerLPAREN = 14 + CELLexerRPAREN = 15 + CELLexerDOT = 16 + CELLexerCOMMA = 17 + CELLexerMINUS = 18 + CELLexerEXCLAM = 19 + CELLexerQUESTIONMARK = 20 + CELLexerCOLON = 21 + CELLexerPLUS = 22 + CELLexerSTAR = 23 + CELLexerSLASH = 24 + CELLexerPERCENT = 25 + CELLexerTRUE = 26 + CELLexerFALSE = 27 + CELLexerNULL = 28 + CELLexerWHITESPACE = 29 + CELLexerCOMMENT = 30 + CELLexerNUM_FLOAT = 31 + CELLexerNUM_INT = 32 + CELLexerNUM_UINT = 33 + CELLexerSTRING = 34 + CELLexerBYTES = 35 + CELLexerIDENTIFIER = 36 +) diff --git a/vendor/github.com/google/cel-go/parser/gen/cel_listener.go b/vendor/github.com/google/cel-go/parser/gen/cel_listener.go new file mode 100644 index 000000000..9abfc1121 --- /dev/null +++ b/vendor/github.com/google/cel-go/parser/gen/cel_listener.go @@ -0,0 +1,183 @@ +// Generated from /Users/tswadell/go/src/github.com/google/cel-go/bin/../parser/gen/CEL.g4 by ANTLR 4.7. + +package gen // CEL +import "github.com/antlr/antlr4/runtime/Go/antlr" + +// CELListener is a complete listener for a parse tree produced by CELParser. +type CELListener interface { + antlr.ParseTreeListener + + // EnterStart is called when entering the start production. + EnterStart(c *StartContext) + + // EnterExpr is called when entering the expr production. + EnterExpr(c *ExprContext) + + // EnterConditionalOr is called when entering the conditionalOr production. + EnterConditionalOr(c *ConditionalOrContext) + + // EnterConditionalAnd is called when entering the conditionalAnd production. + EnterConditionalAnd(c *ConditionalAndContext) + + // EnterRelation is called when entering the relation production. + EnterRelation(c *RelationContext) + + // EnterCalc is called when entering the calc production. + EnterCalc(c *CalcContext) + + // EnterMemberExpr is called when entering the MemberExpr production. + EnterMemberExpr(c *MemberExprContext) + + // EnterLogicalNot is called when entering the LogicalNot production. + EnterLogicalNot(c *LogicalNotContext) + + // EnterNegate is called when entering the Negate production. + EnterNegate(c *NegateContext) + + // EnterSelectOrCall is called when entering the SelectOrCall production. + EnterSelectOrCall(c *SelectOrCallContext) + + // EnterPrimaryExpr is called when entering the PrimaryExpr production. + EnterPrimaryExpr(c *PrimaryExprContext) + + // EnterIndex is called when entering the Index production. + EnterIndex(c *IndexContext) + + // EnterCreateMessage is called when entering the CreateMessage production. + EnterCreateMessage(c *CreateMessageContext) + + // EnterIdentOrGlobalCall is called when entering the IdentOrGlobalCall production. + EnterIdentOrGlobalCall(c *IdentOrGlobalCallContext) + + // EnterNested is called when entering the Nested production. + EnterNested(c *NestedContext) + + // EnterCreateList is called when entering the CreateList production. + EnterCreateList(c *CreateListContext) + + // EnterCreateStruct is called when entering the CreateStruct production. + EnterCreateStruct(c *CreateStructContext) + + // EnterConstantLiteral is called when entering the ConstantLiteral production. + EnterConstantLiteral(c *ConstantLiteralContext) + + // EnterExprList is called when entering the exprList production. + EnterExprList(c *ExprListContext) + + // EnterFieldInitializerList is called when entering the fieldInitializerList production. + EnterFieldInitializerList(c *FieldInitializerListContext) + + // EnterMapInitializerList is called when entering the mapInitializerList production. + EnterMapInitializerList(c *MapInitializerListContext) + + // EnterInt is called when entering the Int production. + EnterInt(c *IntContext) + + // EnterUint is called when entering the Uint production. + EnterUint(c *UintContext) + + // EnterDouble is called when entering the Double production. + EnterDouble(c *DoubleContext) + + // EnterString is called when entering the String production. + EnterString(c *StringContext) + + // EnterBytes is called when entering the Bytes production. + EnterBytes(c *BytesContext) + + // EnterBoolTrue is called when entering the BoolTrue production. + EnterBoolTrue(c *BoolTrueContext) + + // EnterBoolFalse is called when entering the BoolFalse production. + EnterBoolFalse(c *BoolFalseContext) + + // EnterNull is called when entering the Null production. + EnterNull(c *NullContext) + + // ExitStart is called when exiting the start production. + ExitStart(c *StartContext) + + // ExitExpr is called when exiting the expr production. + ExitExpr(c *ExprContext) + + // ExitConditionalOr is called when exiting the conditionalOr production. + ExitConditionalOr(c *ConditionalOrContext) + + // ExitConditionalAnd is called when exiting the conditionalAnd production. + ExitConditionalAnd(c *ConditionalAndContext) + + // ExitRelation is called when exiting the relation production. + ExitRelation(c *RelationContext) + + // ExitCalc is called when exiting the calc production. + ExitCalc(c *CalcContext) + + // ExitMemberExpr is called when exiting the MemberExpr production. + ExitMemberExpr(c *MemberExprContext) + + // ExitLogicalNot is called when exiting the LogicalNot production. + ExitLogicalNot(c *LogicalNotContext) + + // ExitNegate is called when exiting the Negate production. + ExitNegate(c *NegateContext) + + // ExitSelectOrCall is called when exiting the SelectOrCall production. + ExitSelectOrCall(c *SelectOrCallContext) + + // ExitPrimaryExpr is called when exiting the PrimaryExpr production. + ExitPrimaryExpr(c *PrimaryExprContext) + + // ExitIndex is called when exiting the Index production. + ExitIndex(c *IndexContext) + + // ExitCreateMessage is called when exiting the CreateMessage production. + ExitCreateMessage(c *CreateMessageContext) + + // ExitIdentOrGlobalCall is called when exiting the IdentOrGlobalCall production. + ExitIdentOrGlobalCall(c *IdentOrGlobalCallContext) + + // ExitNested is called when exiting the Nested production. + ExitNested(c *NestedContext) + + // ExitCreateList is called when exiting the CreateList production. + ExitCreateList(c *CreateListContext) + + // ExitCreateStruct is called when exiting the CreateStruct production. + ExitCreateStruct(c *CreateStructContext) + + // ExitConstantLiteral is called when exiting the ConstantLiteral production. + ExitConstantLiteral(c *ConstantLiteralContext) + + // ExitExprList is called when exiting the exprList production. + ExitExprList(c *ExprListContext) + + // ExitFieldInitializerList is called when exiting the fieldInitializerList production. + ExitFieldInitializerList(c *FieldInitializerListContext) + + // ExitMapInitializerList is called when exiting the mapInitializerList production. + ExitMapInitializerList(c *MapInitializerListContext) + + // ExitInt is called when exiting the Int production. + ExitInt(c *IntContext) + + // ExitUint is called when exiting the Uint production. + ExitUint(c *UintContext) + + // ExitDouble is called when exiting the Double production. + ExitDouble(c *DoubleContext) + + // ExitString is called when exiting the String production. + ExitString(c *StringContext) + + // ExitBytes is called when exiting the Bytes production. + ExitBytes(c *BytesContext) + + // ExitBoolTrue is called when exiting the BoolTrue production. + ExitBoolTrue(c *BoolTrueContext) + + // ExitBoolFalse is called when exiting the BoolFalse production. + ExitBoolFalse(c *BoolFalseContext) + + // ExitNull is called when exiting the Null production. + ExitNull(c *NullContext) +} diff --git a/vendor/github.com/google/cel-go/parser/gen/cel_parser.go b/vendor/github.com/google/cel-go/parser/gen/cel_parser.go new file mode 100644 index 000000000..d99ed1c6a --- /dev/null +++ b/vendor/github.com/google/cel-go/parser/gen/cel_parser.go @@ -0,0 +1,4097 @@ +// Generated from /Users/tswadell/go/src/github.com/google/cel-go/bin/../parser/gen/CEL.g4 by ANTLR 4.7. + +package gen // CEL +import ( + "fmt" + "reflect" + "strconv" + + "github.com/antlr/antlr4/runtime/Go/antlr" +) + +// Suppress unused import errors +var _ = fmt.Printf +var _ = reflect.Copy +var _ = strconv.Itoa + +var parserATN = []uint16{ + 3, 24715, 42794, 33075, 47597, 16764, 15335, 30598, 22884, 3, 38, 211, + 4, 2, 9, 2, 4, 3, 9, 3, 4, 4, 9, 4, 4, 5, 9, 5, 4, 6, 9, 6, 4, 7, 9, 7, + 4, 8, 9, 8, 4, 9, 9, 9, 4, 10, 9, 10, 4, 11, 9, 11, 4, 12, 9, 12, 4, 13, + 9, 13, 4, 14, 9, 14, 3, 2, 3, 2, 3, 2, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, + 3, 5, 3, 38, 10, 3, 3, 4, 3, 4, 3, 4, 7, 4, 43, 10, 4, 12, 4, 14, 4, 46, + 11, 4, 3, 5, 3, 5, 3, 5, 7, 5, 51, 10, 5, 12, 5, 14, 5, 54, 11, 5, 3, 6, + 3, 6, 3, 6, 3, 6, 3, 6, 3, 6, 7, 6, 62, 10, 6, 12, 6, 14, 6, 65, 11, 6, + 3, 7, 3, 7, 3, 7, 3, 7, 3, 7, 3, 7, 3, 7, 3, 7, 3, 7, 7, 7, 76, 10, 7, + 12, 7, 14, 7, 79, 11, 7, 3, 8, 3, 8, 6, 8, 83, 10, 8, 13, 8, 14, 8, 84, + 3, 8, 3, 8, 6, 8, 89, 10, 8, 13, 8, 14, 8, 90, 3, 8, 5, 8, 94, 10, 8, 3, + 9, 3, 9, 3, 9, 3, 9, 3, 9, 3, 9, 3, 9, 3, 9, 5, 9, 104, 10, 9, 3, 9, 5, + 9, 107, 10, 9, 3, 9, 3, 9, 3, 9, 3, 9, 3, 9, 3, 9, 3, 9, 3, 9, 5, 9, 117, + 10, 9, 3, 9, 5, 9, 120, 10, 9, 3, 9, 7, 9, 123, 10, 9, 12, 9, 14, 9, 126, + 11, 9, 3, 10, 5, 10, 129, 10, 10, 3, 10, 3, 10, 3, 10, 5, 10, 134, 10, + 10, 3, 10, 5, 10, 137, 10, 10, 3, 10, 3, 10, 3, 10, 3, 10, 3, 10, 3, 10, + 5, 10, 145, 10, 10, 3, 10, 5, 10, 148, 10, 10, 3, 10, 3, 10, 3, 10, 5, + 10, 153, 10, 10, 3, 10, 5, 10, 156, 10, 10, 3, 10, 3, 10, 5, 10, 160, 10, + 10, 3, 11, 3, 11, 3, 11, 7, 11, 165, 10, 11, 12, 11, 14, 11, 168, 11, 11, + 3, 12, 3, 12, 3, 12, 3, 12, 3, 12, 3, 12, 3, 12, 7, 12, 177, 10, 12, 12, + 12, 14, 12, 180, 11, 12, 3, 13, 3, 13, 3, 13, 3, 13, 3, 13, 3, 13, 3, 13, + 3, 13, 7, 13, 190, 10, 13, 12, 13, 14, 13, 193, 11, 13, 3, 14, 5, 14, 196, + 10, 14, 3, 14, 3, 14, 3, 14, 5, 14, 201, 10, 14, 3, 14, 3, 14, 3, 14, 3, + 14, 3, 14, 3, 14, 5, 14, 209, 10, 14, 3, 14, 2, 5, 10, 12, 16, 15, 2, 4, + 6, 8, 10, 12, 14, 16, 18, 20, 22, 24, 26, 2, 5, 3, 2, 3, 9, 3, 2, 25, 27, + 4, 2, 20, 20, 24, 24, 2, 237, 2, 28, 3, 2, 2, 2, 4, 31, 3, 2, 2, 2, 6, + 39, 3, 2, 2, 2, 8, 47, 3, 2, 2, 2, 10, 55, 3, 2, 2, 2, 12, 66, 3, 2, 2, + 2, 14, 93, 3, 2, 2, 2, 16, 95, 3, 2, 2, 2, 18, 159, 3, 2, 2, 2, 20, 161, + 3, 2, 2, 2, 22, 169, 3, 2, 2, 2, 24, 181, 3, 2, 2, 2, 26, 208, 3, 2, 2, + 2, 28, 29, 5, 4, 3, 2, 29, 30, 7, 2, 2, 3, 30, 3, 3, 2, 2, 2, 31, 37, 5, + 6, 4, 2, 32, 33, 7, 22, 2, 2, 33, 34, 5, 6, 4, 2, 34, 35, 7, 23, 2, 2, + 35, 36, 5, 4, 3, 2, 36, 38, 3, 2, 2, 2, 37, 32, 3, 2, 2, 2, 37, 38, 3, + 2, 2, 2, 38, 5, 3, 2, 2, 2, 39, 44, 5, 8, 5, 2, 40, 41, 7, 11, 2, 2, 41, + 43, 5, 8, 5, 2, 42, 40, 3, 2, 2, 2, 43, 46, 3, 2, 2, 2, 44, 42, 3, 2, 2, + 2, 44, 45, 3, 2, 2, 2, 45, 7, 3, 2, 2, 2, 46, 44, 3, 2, 2, 2, 47, 52, 5, + 10, 6, 2, 48, 49, 7, 10, 2, 2, 49, 51, 5, 10, 6, 2, 50, 48, 3, 2, 2, 2, + 51, 54, 3, 2, 2, 2, 52, 50, 3, 2, 2, 2, 52, 53, 3, 2, 2, 2, 53, 9, 3, 2, + 2, 2, 54, 52, 3, 2, 2, 2, 55, 56, 8, 6, 1, 2, 56, 57, 5, 12, 7, 2, 57, + 63, 3, 2, 2, 2, 58, 59, 12, 3, 2, 2, 59, 60, 9, 2, 2, 2, 60, 62, 5, 10, + 6, 4, 61, 58, 3, 2, 2, 2, 62, 65, 3, 2, 2, 2, 63, 61, 3, 2, 2, 2, 63, 64, + 3, 2, 2, 2, 64, 11, 3, 2, 2, 2, 65, 63, 3, 2, 2, 2, 66, 67, 8, 7, 1, 2, + 67, 68, 5, 14, 8, 2, 68, 77, 3, 2, 2, 2, 69, 70, 12, 4, 2, 2, 70, 71, 9, + 3, 2, 2, 71, 76, 5, 12, 7, 5, 72, 73, 12, 3, 2, 2, 73, 74, 9, 4, 2, 2, + 74, 76, 5, 12, 7, 4, 75, 69, 3, 2, 2, 2, 75, 72, 3, 2, 2, 2, 76, 79, 3, + 2, 2, 2, 77, 75, 3, 2, 2, 2, 77, 78, 3, 2, 2, 2, 78, 13, 3, 2, 2, 2, 79, + 77, 3, 2, 2, 2, 80, 94, 5, 16, 9, 2, 81, 83, 7, 21, 2, 2, 82, 81, 3, 2, + 2, 2, 83, 84, 3, 2, 2, 2, 84, 82, 3, 2, 2, 2, 84, 85, 3, 2, 2, 2, 85, 86, + 3, 2, 2, 2, 86, 94, 5, 16, 9, 2, 87, 89, 7, 20, 2, 2, 88, 87, 3, 2, 2, + 2, 89, 90, 3, 2, 2, 2, 90, 88, 3, 2, 2, 2, 90, 91, 3, 2, 2, 2, 91, 92, + 3, 2, 2, 2, 92, 94, 5, 16, 9, 2, 93, 80, 3, 2, 2, 2, 93, 82, 3, 2, 2, 2, + 93, 88, 3, 2, 2, 2, 94, 15, 3, 2, 2, 2, 95, 96, 8, 9, 1, 2, 96, 97, 5, + 18, 10, 2, 97, 124, 3, 2, 2, 2, 98, 99, 12, 5, 2, 2, 99, 100, 7, 18, 2, + 2, 100, 106, 7, 38, 2, 2, 101, 103, 7, 16, 2, 2, 102, 104, 5, 20, 11, 2, + 103, 102, 3, 2, 2, 2, 103, 104, 3, 2, 2, 2, 104, 105, 3, 2, 2, 2, 105, + 107, 7, 17, 2, 2, 106, 101, 3, 2, 2, 2, 106, 107, 3, 2, 2, 2, 107, 123, + 3, 2, 2, 2, 108, 109, 12, 4, 2, 2, 109, 110, 7, 12, 2, 2, 110, 111, 5, + 4, 3, 2, 111, 112, 7, 13, 2, 2, 112, 123, 3, 2, 2, 2, 113, 114, 12, 3, + 2, 2, 114, 116, 7, 14, 2, 2, 115, 117, 5, 22, 12, 2, 116, 115, 3, 2, 2, + 2, 116, 117, 3, 2, 2, 2, 117, 119, 3, 2, 2, 2, 118, 120, 7, 19, 2, 2, 119, + 118, 3, 2, 2, 2, 119, 120, 3, 2, 2, 2, 120, 121, 3, 2, 2, 2, 121, 123, + 7, 15, 2, 2, 122, 98, 3, 2, 2, 2, 122, 108, 3, 2, 2, 2, 122, 113, 3, 2, + 2, 2, 123, 126, 3, 2, 2, 2, 124, 122, 3, 2, 2, 2, 124, 125, 3, 2, 2, 2, + 125, 17, 3, 2, 2, 2, 126, 124, 3, 2, 2, 2, 127, 129, 7, 18, 2, 2, 128, + 127, 3, 2, 2, 2, 128, 129, 3, 2, 2, 2, 129, 130, 3, 2, 2, 2, 130, 136, + 7, 38, 2, 2, 131, 133, 7, 16, 2, 2, 132, 134, 5, 20, 11, 2, 133, 132, 3, + 2, 2, 2, 133, 134, 3, 2, 2, 2, 134, 135, 3, 2, 2, 2, 135, 137, 7, 17, 2, + 2, 136, 131, 3, 2, 2, 2, 136, 137, 3, 2, 2, 2, 137, 160, 3, 2, 2, 2, 138, + 139, 7, 16, 2, 2, 139, 140, 5, 4, 3, 2, 140, 141, 7, 17, 2, 2, 141, 160, + 3, 2, 2, 2, 142, 144, 7, 12, 2, 2, 143, 145, 5, 20, 11, 2, 144, 143, 3, + 2, 2, 2, 144, 145, 3, 2, 2, 2, 145, 147, 3, 2, 2, 2, 146, 148, 7, 19, 2, + 2, 147, 146, 3, 2, 2, 2, 147, 148, 3, 2, 2, 2, 148, 149, 3, 2, 2, 2, 149, + 160, 7, 13, 2, 2, 150, 152, 7, 14, 2, 2, 151, 153, 5, 24, 13, 2, 152, 151, + 3, 2, 2, 2, 152, 153, 3, 2, 2, 2, 153, 155, 3, 2, 2, 2, 154, 156, 7, 19, + 2, 2, 155, 154, 3, 2, 2, 2, 155, 156, 3, 2, 2, 2, 156, 157, 3, 2, 2, 2, + 157, 160, 7, 15, 2, 2, 158, 160, 5, 26, 14, 2, 159, 128, 3, 2, 2, 2, 159, + 138, 3, 2, 2, 2, 159, 142, 3, 2, 2, 2, 159, 150, 3, 2, 2, 2, 159, 158, + 3, 2, 2, 2, 160, 19, 3, 2, 2, 2, 161, 166, 5, 4, 3, 2, 162, 163, 7, 19, + 2, 2, 163, 165, 5, 4, 3, 2, 164, 162, 3, 2, 2, 2, 165, 168, 3, 2, 2, 2, + 166, 164, 3, 2, 2, 2, 166, 167, 3, 2, 2, 2, 167, 21, 3, 2, 2, 2, 168, 166, + 3, 2, 2, 2, 169, 170, 7, 38, 2, 2, 170, 171, 7, 23, 2, 2, 171, 178, 5, + 4, 3, 2, 172, 173, 7, 19, 2, 2, 173, 174, 7, 38, 2, 2, 174, 175, 7, 23, + 2, 2, 175, 177, 5, 4, 3, 2, 176, 172, 3, 2, 2, 2, 177, 180, 3, 2, 2, 2, + 178, 176, 3, 2, 2, 2, 178, 179, 3, 2, 2, 2, 179, 23, 3, 2, 2, 2, 180, 178, + 3, 2, 2, 2, 181, 182, 5, 4, 3, 2, 182, 183, 7, 23, 2, 2, 183, 191, 5, 4, + 3, 2, 184, 185, 7, 19, 2, 2, 185, 186, 5, 4, 3, 2, 186, 187, 7, 23, 2, + 2, 187, 188, 5, 4, 3, 2, 188, 190, 3, 2, 2, 2, 189, 184, 3, 2, 2, 2, 190, + 193, 3, 2, 2, 2, 191, 189, 3, 2, 2, 2, 191, 192, 3, 2, 2, 2, 192, 25, 3, + 2, 2, 2, 193, 191, 3, 2, 2, 2, 194, 196, 7, 20, 2, 2, 195, 194, 3, 2, 2, + 2, 195, 196, 3, 2, 2, 2, 196, 197, 3, 2, 2, 2, 197, 209, 7, 34, 2, 2, 198, + 209, 7, 35, 2, 2, 199, 201, 7, 20, 2, 2, 200, 199, 3, 2, 2, 2, 200, 201, + 3, 2, 2, 2, 201, 202, 3, 2, 2, 2, 202, 209, 7, 33, 2, 2, 203, 209, 7, 36, + 2, 2, 204, 209, 7, 37, 2, 2, 205, 209, 7, 28, 2, 2, 206, 209, 7, 29, 2, + 2, 207, 209, 7, 30, 2, 2, 208, 195, 3, 2, 2, 2, 208, 198, 3, 2, 2, 2, 208, + 200, 3, 2, 2, 2, 208, 203, 3, 2, 2, 2, 208, 204, 3, 2, 2, 2, 208, 205, + 3, 2, 2, 2, 208, 206, 3, 2, 2, 2, 208, 207, 3, 2, 2, 2, 209, 27, 3, 2, + 2, 2, 31, 37, 44, 52, 63, 75, 77, 84, 90, 93, 103, 106, 116, 119, 122, + 124, 128, 133, 136, 144, 147, 152, 155, 159, 166, 178, 191, 195, 200, 208, +} + +var literalNames = []string{ + "", "'=='", "'!='", "'in'", "'<'", "'<='", "'>='", "'>'", "'&&'", "'||'", + "'['", "']'", "'{'", "'}'", "'('", "')'", "'.'", "','", "'-'", "'!'", "'?'", + "':'", "'+'", "'*'", "'/'", "'%'", "'true'", "'false'", "'null'", +} +var symbolicNames = []string{ + "", "EQUALS", "NOT_EQUALS", "IN", "LESS", "LESS_EQUALS", "GREATER_EQUALS", + "GREATER", "LOGICAL_AND", "LOGICAL_OR", "LBRACKET", "RPRACKET", "LBRACE", + "RBRACE", "LPAREN", "RPAREN", "DOT", "COMMA", "MINUS", "EXCLAM", "QUESTIONMARK", + "COLON", "PLUS", "STAR", "SLASH", "PERCENT", "TRUE", "FALSE", "NULL", "WHITESPACE", + "COMMENT", "NUM_FLOAT", "NUM_INT", "NUM_UINT", "STRING", "BYTES", "IDENTIFIER", +} + +var ruleNames = []string{ + "start", "expr", "conditionalOr", "conditionalAnd", "relation", "calc", + "unary", "member", "primary", "exprList", "fieldInitializerList", "mapInitializerList", + "literal", +} + +type CELParser struct { + *antlr.BaseParser +} + +func NewCELParser(input antlr.TokenStream) *CELParser { + this := new(CELParser) + deserializer := antlr.NewATNDeserializer(nil) + deserializedATN := deserializer.DeserializeFromUInt16(parserATN) + decisionToDFA := make([]*antlr.DFA, len(deserializedATN.DecisionToState)) + for index, ds := range deserializedATN.DecisionToState { + decisionToDFA[index] = antlr.NewDFA(ds, index) + } + + this.BaseParser = antlr.NewBaseParser(input) + + this.Interpreter = antlr.NewParserATNSimulator(this, deserializedATN, decisionToDFA, antlr.NewPredictionContextCache()) + this.RuleNames = ruleNames + this.LiteralNames = literalNames + this.SymbolicNames = symbolicNames + this.GrammarFileName = "CEL.g4" + + return this +} + +// CELParser tokens. +const ( + CELParserEOF = antlr.TokenEOF + CELParserEQUALS = 1 + CELParserNOT_EQUALS = 2 + CELParserIN = 3 + CELParserLESS = 4 + CELParserLESS_EQUALS = 5 + CELParserGREATER_EQUALS = 6 + CELParserGREATER = 7 + CELParserLOGICAL_AND = 8 + CELParserLOGICAL_OR = 9 + CELParserLBRACKET = 10 + CELParserRPRACKET = 11 + CELParserLBRACE = 12 + CELParserRBRACE = 13 + CELParserLPAREN = 14 + CELParserRPAREN = 15 + CELParserDOT = 16 + CELParserCOMMA = 17 + CELParserMINUS = 18 + CELParserEXCLAM = 19 + CELParserQUESTIONMARK = 20 + CELParserCOLON = 21 + CELParserPLUS = 22 + CELParserSTAR = 23 + CELParserSLASH = 24 + CELParserPERCENT = 25 + CELParserTRUE = 26 + CELParserFALSE = 27 + CELParserNULL = 28 + CELParserWHITESPACE = 29 + CELParserCOMMENT = 30 + CELParserNUM_FLOAT = 31 + CELParserNUM_INT = 32 + CELParserNUM_UINT = 33 + CELParserSTRING = 34 + CELParserBYTES = 35 + CELParserIDENTIFIER = 36 +) + +// CELParser rules. +const ( + CELParserRULE_start = 0 + CELParserRULE_expr = 1 + CELParserRULE_conditionalOr = 2 + CELParserRULE_conditionalAnd = 3 + CELParserRULE_relation = 4 + CELParserRULE_calc = 5 + CELParserRULE_unary = 6 + CELParserRULE_member = 7 + CELParserRULE_primary = 8 + CELParserRULE_exprList = 9 + CELParserRULE_fieldInitializerList = 10 + CELParserRULE_mapInitializerList = 11 + CELParserRULE_literal = 12 +) + +// IStartContext is an interface to support dynamic dispatch. +type IStartContext interface { + antlr.ParserRuleContext + + // GetParser returns the parser. + GetParser() antlr.Parser + + // GetE returns the e rule contexts. + GetE() IExprContext + + // SetE sets the e rule contexts. + SetE(IExprContext) + + // IsStartContext differentiates from other interfaces. + IsStartContext() +} + +type StartContext struct { + *antlr.BaseParserRuleContext + parser antlr.Parser + e IExprContext +} + +func NewEmptyStartContext() *StartContext { + var p = new(StartContext) + p.BaseParserRuleContext = antlr.NewBaseParserRuleContext(nil, -1) + p.RuleIndex = CELParserRULE_start + return p +} + +func (*StartContext) IsStartContext() {} + +func NewStartContext(parser antlr.Parser, parent antlr.ParserRuleContext, invokingState int) *StartContext { + var p = new(StartContext) + + p.BaseParserRuleContext = antlr.NewBaseParserRuleContext(parent, invokingState) + + p.parser = parser + p.RuleIndex = CELParserRULE_start + + return p +} + +func (s *StartContext) GetParser() antlr.Parser { return s.parser } + +func (s *StartContext) GetE() IExprContext { return s.e } + +func (s *StartContext) SetE(v IExprContext) { s.e = v } + +func (s *StartContext) EOF() antlr.TerminalNode { + return s.GetToken(CELParserEOF, 0) +} + +func (s *StartContext) Expr() IExprContext { + var t = s.GetTypedRuleContext(reflect.TypeOf((*IExprContext)(nil)).Elem(), 0) + + if t == nil { + return nil + } + + return t.(IExprContext) +} + +func (s *StartContext) GetRuleContext() antlr.RuleContext { + return s +} + +func (s *StartContext) ToStringTree(ruleNames []string, recog antlr.Recognizer) string { + return antlr.TreesStringTree(s, ruleNames, recog) +} + +func (s *StartContext) EnterRule(listener antlr.ParseTreeListener) { + if listenerT, ok := listener.(CELListener); ok { + listenerT.EnterStart(s) + } +} + +func (s *StartContext) ExitRule(listener antlr.ParseTreeListener) { + if listenerT, ok := listener.(CELListener); ok { + listenerT.ExitStart(s) + } +} + +func (s *StartContext) Accept(visitor antlr.ParseTreeVisitor) interface{} { + switch t := visitor.(type) { + case CELVisitor: + return t.VisitStart(s) + + default: + return t.VisitChildren(s) + } +} + +func (p *CELParser) Start() (localctx IStartContext) { + localctx = NewStartContext(p, p.GetParserRuleContext(), p.GetState()) + p.EnterRule(localctx, 0, CELParserRULE_start) + + defer func() { + p.ExitRule() + }() + + defer func() { + if err := recover(); err != nil { + if v, ok := err.(antlr.RecognitionException); ok { + localctx.SetException(v) + p.GetErrorHandler().ReportError(p, v) + p.GetErrorHandler().Recover(p, v) + } else { + panic(err) + } + } + }() + + p.EnterOuterAlt(localctx, 1) + { + p.SetState(26) + + var _x = p.Expr() + + localctx.(*StartContext).e = _x + } + { + p.SetState(27) + p.Match(CELParserEOF) + } + + return localctx +} + +// IExprContext is an interface to support dynamic dispatch. +type IExprContext interface { + antlr.ParserRuleContext + + // GetParser returns the parser. + GetParser() antlr.Parser + + // GetOp returns the op token. + GetOp() antlr.Token + + // SetOp sets the op token. + SetOp(antlr.Token) + + // GetE returns the e rule contexts. + GetE() IConditionalOrContext + + // GetE1 returns the e1 rule contexts. + GetE1() IConditionalOrContext + + // GetE2 returns the e2 rule contexts. + GetE2() IExprContext + + // SetE sets the e rule contexts. + SetE(IConditionalOrContext) + + // SetE1 sets the e1 rule contexts. + SetE1(IConditionalOrContext) + + // SetE2 sets the e2 rule contexts. + SetE2(IExprContext) + + // IsExprContext differentiates from other interfaces. + IsExprContext() +} + +type ExprContext struct { + *antlr.BaseParserRuleContext + parser antlr.Parser + e IConditionalOrContext + op antlr.Token + e1 IConditionalOrContext + e2 IExprContext +} + +func NewEmptyExprContext() *ExprContext { + var p = new(ExprContext) + p.BaseParserRuleContext = antlr.NewBaseParserRuleContext(nil, -1) + p.RuleIndex = CELParserRULE_expr + return p +} + +func (*ExprContext) IsExprContext() {} + +func NewExprContext(parser antlr.Parser, parent antlr.ParserRuleContext, invokingState int) *ExprContext { + var p = new(ExprContext) + + p.BaseParserRuleContext = antlr.NewBaseParserRuleContext(parent, invokingState) + + p.parser = parser + p.RuleIndex = CELParserRULE_expr + + return p +} + +func (s *ExprContext) GetParser() antlr.Parser { return s.parser } + +func (s *ExprContext) GetOp() antlr.Token { return s.op } + +func (s *ExprContext) SetOp(v antlr.Token) { s.op = v } + +func (s *ExprContext) GetE() IConditionalOrContext { return s.e } + +func (s *ExprContext) GetE1() IConditionalOrContext { return s.e1 } + +func (s *ExprContext) GetE2() IExprContext { return s.e2 } + +func (s *ExprContext) SetE(v IConditionalOrContext) { s.e = v } + +func (s *ExprContext) SetE1(v IConditionalOrContext) { s.e1 = v } + +func (s *ExprContext) SetE2(v IExprContext) { s.e2 = v } + +func (s *ExprContext) AllConditionalOr() []IConditionalOrContext { + var ts = s.GetTypedRuleContexts(reflect.TypeOf((*IConditionalOrContext)(nil)).Elem()) + var tst = make([]IConditionalOrContext, len(ts)) + + for i, t := range ts { + if t != nil { + tst[i] = t.(IConditionalOrContext) + } + } + + return tst +} + +func (s *ExprContext) ConditionalOr(i int) IConditionalOrContext { + var t = s.GetTypedRuleContext(reflect.TypeOf((*IConditionalOrContext)(nil)).Elem(), i) + + if t == nil { + return nil + } + + return t.(IConditionalOrContext) +} + +func (s *ExprContext) Expr() IExprContext { + var t = s.GetTypedRuleContext(reflect.TypeOf((*IExprContext)(nil)).Elem(), 0) + + if t == nil { + return nil + } + + return t.(IExprContext) +} + +func (s *ExprContext) GetRuleContext() antlr.RuleContext { + return s +} + +func (s *ExprContext) ToStringTree(ruleNames []string, recog antlr.Recognizer) string { + return antlr.TreesStringTree(s, ruleNames, recog) +} + +func (s *ExprContext) EnterRule(listener antlr.ParseTreeListener) { + if listenerT, ok := listener.(CELListener); ok { + listenerT.EnterExpr(s) + } +} + +func (s *ExprContext) ExitRule(listener antlr.ParseTreeListener) { + if listenerT, ok := listener.(CELListener); ok { + listenerT.ExitExpr(s) + } +} + +func (s *ExprContext) Accept(visitor antlr.ParseTreeVisitor) interface{} { + switch t := visitor.(type) { + case CELVisitor: + return t.VisitExpr(s) + + default: + return t.VisitChildren(s) + } +} + +func (p *CELParser) Expr() (localctx IExprContext) { + localctx = NewExprContext(p, p.GetParserRuleContext(), p.GetState()) + p.EnterRule(localctx, 2, CELParserRULE_expr) + var _la int + + defer func() { + p.ExitRule() + }() + + defer func() { + if err := recover(); err != nil { + if v, ok := err.(antlr.RecognitionException); ok { + localctx.SetException(v) + p.GetErrorHandler().ReportError(p, v) + p.GetErrorHandler().Recover(p, v) + } else { + panic(err) + } + } + }() + + p.EnterOuterAlt(localctx, 1) + { + p.SetState(29) + + var _x = p.ConditionalOr() + + localctx.(*ExprContext).e = _x + } + p.SetState(35) + p.GetErrorHandler().Sync(p) + _la = p.GetTokenStream().LA(1) + + if _la == CELParserQUESTIONMARK { + { + p.SetState(30) + + var _m = p.Match(CELParserQUESTIONMARK) + + localctx.(*ExprContext).op = _m + } + { + p.SetState(31) + + var _x = p.ConditionalOr() + + localctx.(*ExprContext).e1 = _x + } + { + p.SetState(32) + p.Match(CELParserCOLON) + } + { + p.SetState(33) + + var _x = p.Expr() + + localctx.(*ExprContext).e2 = _x + } + + } + + return localctx +} + +// IConditionalOrContext is an interface to support dynamic dispatch. +type IConditionalOrContext interface { + antlr.ParserRuleContext + + // GetParser returns the parser. + GetParser() antlr.Parser + + // GetS9 returns the s9 token. + GetS9() antlr.Token + + // SetS9 sets the s9 token. + SetS9(antlr.Token) + + // GetOps returns the ops token list. + GetOps() []antlr.Token + + // SetOps sets the ops token list. + SetOps([]antlr.Token) + + // GetE returns the e rule contexts. + GetE() IConditionalAndContext + + // Get_conditionalAnd returns the _conditionalAnd rule contexts. + Get_conditionalAnd() IConditionalAndContext + + // SetE sets the e rule contexts. + SetE(IConditionalAndContext) + + // Set_conditionalAnd sets the _conditionalAnd rule contexts. + Set_conditionalAnd(IConditionalAndContext) + + // GetE1 returns the e1 rule context list. + GetE1() []IConditionalAndContext + + // SetE1 sets the e1 rule context list. + SetE1([]IConditionalAndContext) + + // IsConditionalOrContext differentiates from other interfaces. + IsConditionalOrContext() +} + +type ConditionalOrContext struct { + *antlr.BaseParserRuleContext + parser antlr.Parser + e IConditionalAndContext + s9 antlr.Token + ops []antlr.Token + _conditionalAnd IConditionalAndContext + e1 []IConditionalAndContext +} + +func NewEmptyConditionalOrContext() *ConditionalOrContext { + var p = new(ConditionalOrContext) + p.BaseParserRuleContext = antlr.NewBaseParserRuleContext(nil, -1) + p.RuleIndex = CELParserRULE_conditionalOr + return p +} + +func (*ConditionalOrContext) IsConditionalOrContext() {} + +func NewConditionalOrContext(parser antlr.Parser, parent antlr.ParserRuleContext, invokingState int) *ConditionalOrContext { + var p = new(ConditionalOrContext) + + p.BaseParserRuleContext = antlr.NewBaseParserRuleContext(parent, invokingState) + + p.parser = parser + p.RuleIndex = CELParserRULE_conditionalOr + + return p +} + +func (s *ConditionalOrContext) GetParser() antlr.Parser { return s.parser } + +func (s *ConditionalOrContext) GetS9() antlr.Token { return s.s9 } + +func (s *ConditionalOrContext) SetS9(v antlr.Token) { s.s9 = v } + +func (s *ConditionalOrContext) GetOps() []antlr.Token { return s.ops } + +func (s *ConditionalOrContext) SetOps(v []antlr.Token) { s.ops = v } + +func (s *ConditionalOrContext) GetE() IConditionalAndContext { return s.e } + +func (s *ConditionalOrContext) Get_conditionalAnd() IConditionalAndContext { return s._conditionalAnd } + +func (s *ConditionalOrContext) SetE(v IConditionalAndContext) { s.e = v } + +func (s *ConditionalOrContext) Set_conditionalAnd(v IConditionalAndContext) { s._conditionalAnd = v } + +func (s *ConditionalOrContext) GetE1() []IConditionalAndContext { return s.e1 } + +func (s *ConditionalOrContext) SetE1(v []IConditionalAndContext) { s.e1 = v } + +func (s *ConditionalOrContext) AllConditionalAnd() []IConditionalAndContext { + var ts = s.GetTypedRuleContexts(reflect.TypeOf((*IConditionalAndContext)(nil)).Elem()) + var tst = make([]IConditionalAndContext, len(ts)) + + for i, t := range ts { + if t != nil { + tst[i] = t.(IConditionalAndContext) + } + } + + return tst +} + +func (s *ConditionalOrContext) ConditionalAnd(i int) IConditionalAndContext { + var t = s.GetTypedRuleContext(reflect.TypeOf((*IConditionalAndContext)(nil)).Elem(), i) + + if t == nil { + return nil + } + + return t.(IConditionalAndContext) +} + +func (s *ConditionalOrContext) GetRuleContext() antlr.RuleContext { + return s +} + +func (s *ConditionalOrContext) ToStringTree(ruleNames []string, recog antlr.Recognizer) string { + return antlr.TreesStringTree(s, ruleNames, recog) +} + +func (s *ConditionalOrContext) EnterRule(listener antlr.ParseTreeListener) { + if listenerT, ok := listener.(CELListener); ok { + listenerT.EnterConditionalOr(s) + } +} + +func (s *ConditionalOrContext) ExitRule(listener antlr.ParseTreeListener) { + if listenerT, ok := listener.(CELListener); ok { + listenerT.ExitConditionalOr(s) + } +} + +func (s *ConditionalOrContext) Accept(visitor antlr.ParseTreeVisitor) interface{} { + switch t := visitor.(type) { + case CELVisitor: + return t.VisitConditionalOr(s) + + default: + return t.VisitChildren(s) + } +} + +func (p *CELParser) ConditionalOr() (localctx IConditionalOrContext) { + localctx = NewConditionalOrContext(p, p.GetParserRuleContext(), p.GetState()) + p.EnterRule(localctx, 4, CELParserRULE_conditionalOr) + var _la int + + defer func() { + p.ExitRule() + }() + + defer func() { + if err := recover(); err != nil { + if v, ok := err.(antlr.RecognitionException); ok { + localctx.SetException(v) + p.GetErrorHandler().ReportError(p, v) + p.GetErrorHandler().Recover(p, v) + } else { + panic(err) + } + } + }() + + p.EnterOuterAlt(localctx, 1) + { + p.SetState(37) + + var _x = p.ConditionalAnd() + + localctx.(*ConditionalOrContext).e = _x + } + p.SetState(42) + p.GetErrorHandler().Sync(p) + _la = p.GetTokenStream().LA(1) + + for _la == CELParserLOGICAL_OR { + { + p.SetState(38) + + var _m = p.Match(CELParserLOGICAL_OR) + + localctx.(*ConditionalOrContext).s9 = _m + } + localctx.(*ConditionalOrContext).ops = append(localctx.(*ConditionalOrContext).ops, localctx.(*ConditionalOrContext).s9) + { + p.SetState(39) + + var _x = p.ConditionalAnd() + + localctx.(*ConditionalOrContext)._conditionalAnd = _x + } + localctx.(*ConditionalOrContext).e1 = append(localctx.(*ConditionalOrContext).e1, localctx.(*ConditionalOrContext)._conditionalAnd) + + p.SetState(44) + p.GetErrorHandler().Sync(p) + _la = p.GetTokenStream().LA(1) + } + + return localctx +} + +// IConditionalAndContext is an interface to support dynamic dispatch. +type IConditionalAndContext interface { + antlr.ParserRuleContext + + // GetParser returns the parser. + GetParser() antlr.Parser + + // GetS8 returns the s8 token. + GetS8() antlr.Token + + // SetS8 sets the s8 token. + SetS8(antlr.Token) + + // GetOps returns the ops token list. + GetOps() []antlr.Token + + // SetOps sets the ops token list. + SetOps([]antlr.Token) + + // GetE returns the e rule contexts. + GetE() IRelationContext + + // Get_relation returns the _relation rule contexts. + Get_relation() IRelationContext + + // SetE sets the e rule contexts. + SetE(IRelationContext) + + // Set_relation sets the _relation rule contexts. + Set_relation(IRelationContext) + + // GetE1 returns the e1 rule context list. + GetE1() []IRelationContext + + // SetE1 sets the e1 rule context list. + SetE1([]IRelationContext) + + // IsConditionalAndContext differentiates from other interfaces. + IsConditionalAndContext() +} + +type ConditionalAndContext struct { + *antlr.BaseParserRuleContext + parser antlr.Parser + e IRelationContext + s8 antlr.Token + ops []antlr.Token + _relation IRelationContext + e1 []IRelationContext +} + +func NewEmptyConditionalAndContext() *ConditionalAndContext { + var p = new(ConditionalAndContext) + p.BaseParserRuleContext = antlr.NewBaseParserRuleContext(nil, -1) + p.RuleIndex = CELParserRULE_conditionalAnd + return p +} + +func (*ConditionalAndContext) IsConditionalAndContext() {} + +func NewConditionalAndContext(parser antlr.Parser, parent antlr.ParserRuleContext, invokingState int) *ConditionalAndContext { + var p = new(ConditionalAndContext) + + p.BaseParserRuleContext = antlr.NewBaseParserRuleContext(parent, invokingState) + + p.parser = parser + p.RuleIndex = CELParserRULE_conditionalAnd + + return p +} + +func (s *ConditionalAndContext) GetParser() antlr.Parser { return s.parser } + +func (s *ConditionalAndContext) GetS8() antlr.Token { return s.s8 } + +func (s *ConditionalAndContext) SetS8(v antlr.Token) { s.s8 = v } + +func (s *ConditionalAndContext) GetOps() []antlr.Token { return s.ops } + +func (s *ConditionalAndContext) SetOps(v []antlr.Token) { s.ops = v } + +func (s *ConditionalAndContext) GetE() IRelationContext { return s.e } + +func (s *ConditionalAndContext) Get_relation() IRelationContext { return s._relation } + +func (s *ConditionalAndContext) SetE(v IRelationContext) { s.e = v } + +func (s *ConditionalAndContext) Set_relation(v IRelationContext) { s._relation = v } + +func (s *ConditionalAndContext) GetE1() []IRelationContext { return s.e1 } + +func (s *ConditionalAndContext) SetE1(v []IRelationContext) { s.e1 = v } + +func (s *ConditionalAndContext) AllRelation() []IRelationContext { + var ts = s.GetTypedRuleContexts(reflect.TypeOf((*IRelationContext)(nil)).Elem()) + var tst = make([]IRelationContext, len(ts)) + + for i, t := range ts { + if t != nil { + tst[i] = t.(IRelationContext) + } + } + + return tst +} + +func (s *ConditionalAndContext) Relation(i int) IRelationContext { + var t = s.GetTypedRuleContext(reflect.TypeOf((*IRelationContext)(nil)).Elem(), i) + + if t == nil { + return nil + } + + return t.(IRelationContext) +} + +func (s *ConditionalAndContext) GetRuleContext() antlr.RuleContext { + return s +} + +func (s *ConditionalAndContext) ToStringTree(ruleNames []string, recog antlr.Recognizer) string { + return antlr.TreesStringTree(s, ruleNames, recog) +} + +func (s *ConditionalAndContext) EnterRule(listener antlr.ParseTreeListener) { + if listenerT, ok := listener.(CELListener); ok { + listenerT.EnterConditionalAnd(s) + } +} + +func (s *ConditionalAndContext) ExitRule(listener antlr.ParseTreeListener) { + if listenerT, ok := listener.(CELListener); ok { + listenerT.ExitConditionalAnd(s) + } +} + +func (s *ConditionalAndContext) Accept(visitor antlr.ParseTreeVisitor) interface{} { + switch t := visitor.(type) { + case CELVisitor: + return t.VisitConditionalAnd(s) + + default: + return t.VisitChildren(s) + } +} + +func (p *CELParser) ConditionalAnd() (localctx IConditionalAndContext) { + localctx = NewConditionalAndContext(p, p.GetParserRuleContext(), p.GetState()) + p.EnterRule(localctx, 6, CELParserRULE_conditionalAnd) + var _la int + + defer func() { + p.ExitRule() + }() + + defer func() { + if err := recover(); err != nil { + if v, ok := err.(antlr.RecognitionException); ok { + localctx.SetException(v) + p.GetErrorHandler().ReportError(p, v) + p.GetErrorHandler().Recover(p, v) + } else { + panic(err) + } + } + }() + + p.EnterOuterAlt(localctx, 1) + { + p.SetState(45) + + var _x = p.relation(0) + + localctx.(*ConditionalAndContext).e = _x + } + p.SetState(50) + p.GetErrorHandler().Sync(p) + _la = p.GetTokenStream().LA(1) + + for _la == CELParserLOGICAL_AND { + { + p.SetState(46) + + var _m = p.Match(CELParserLOGICAL_AND) + + localctx.(*ConditionalAndContext).s8 = _m + } + localctx.(*ConditionalAndContext).ops = append(localctx.(*ConditionalAndContext).ops, localctx.(*ConditionalAndContext).s8) + { + p.SetState(47) + + var _x = p.relation(0) + + localctx.(*ConditionalAndContext)._relation = _x + } + localctx.(*ConditionalAndContext).e1 = append(localctx.(*ConditionalAndContext).e1, localctx.(*ConditionalAndContext)._relation) + + p.SetState(52) + p.GetErrorHandler().Sync(p) + _la = p.GetTokenStream().LA(1) + } + + return localctx +} + +// IRelationContext is an interface to support dynamic dispatch. +type IRelationContext interface { + antlr.ParserRuleContext + + // GetParser returns the parser. + GetParser() antlr.Parser + + // GetOp returns the op token. + GetOp() antlr.Token + + // SetOp sets the op token. + SetOp(antlr.Token) + + // IsRelationContext differentiates from other interfaces. + IsRelationContext() +} + +type RelationContext struct { + *antlr.BaseParserRuleContext + parser antlr.Parser + op antlr.Token +} + +func NewEmptyRelationContext() *RelationContext { + var p = new(RelationContext) + p.BaseParserRuleContext = antlr.NewBaseParserRuleContext(nil, -1) + p.RuleIndex = CELParserRULE_relation + return p +} + +func (*RelationContext) IsRelationContext() {} + +func NewRelationContext(parser antlr.Parser, parent antlr.ParserRuleContext, invokingState int) *RelationContext { + var p = new(RelationContext) + + p.BaseParserRuleContext = antlr.NewBaseParserRuleContext(parent, invokingState) + + p.parser = parser + p.RuleIndex = CELParserRULE_relation + + return p +} + +func (s *RelationContext) GetParser() antlr.Parser { return s.parser } + +func (s *RelationContext) GetOp() antlr.Token { return s.op } + +func (s *RelationContext) SetOp(v antlr.Token) { s.op = v } + +func (s *RelationContext) Calc() ICalcContext { + var t = s.GetTypedRuleContext(reflect.TypeOf((*ICalcContext)(nil)).Elem(), 0) + + if t == nil { + return nil + } + + return t.(ICalcContext) +} + +func (s *RelationContext) AllRelation() []IRelationContext { + var ts = s.GetTypedRuleContexts(reflect.TypeOf((*IRelationContext)(nil)).Elem()) + var tst = make([]IRelationContext, len(ts)) + + for i, t := range ts { + if t != nil { + tst[i] = t.(IRelationContext) + } + } + + return tst +} + +func (s *RelationContext) Relation(i int) IRelationContext { + var t = s.GetTypedRuleContext(reflect.TypeOf((*IRelationContext)(nil)).Elem(), i) + + if t == nil { + return nil + } + + return t.(IRelationContext) +} + +func (s *RelationContext) GetRuleContext() antlr.RuleContext { + return s +} + +func (s *RelationContext) ToStringTree(ruleNames []string, recog antlr.Recognizer) string { + return antlr.TreesStringTree(s, ruleNames, recog) +} + +func (s *RelationContext) EnterRule(listener antlr.ParseTreeListener) { + if listenerT, ok := listener.(CELListener); ok { + listenerT.EnterRelation(s) + } +} + +func (s *RelationContext) ExitRule(listener antlr.ParseTreeListener) { + if listenerT, ok := listener.(CELListener); ok { + listenerT.ExitRelation(s) + } +} + +func (s *RelationContext) Accept(visitor antlr.ParseTreeVisitor) interface{} { + switch t := visitor.(type) { + case CELVisitor: + return t.VisitRelation(s) + + default: + return t.VisitChildren(s) + } +} + +func (p *CELParser) Relation() (localctx IRelationContext) { + return p.relation(0) +} + +func (p *CELParser) relation(_p int) (localctx IRelationContext) { + var _parentctx antlr.ParserRuleContext = p.GetParserRuleContext() + _parentState := p.GetState() + localctx = NewRelationContext(p, p.GetParserRuleContext(), _parentState) + var _prevctx IRelationContext = localctx + var _ antlr.ParserRuleContext = _prevctx // TODO: To prevent unused variable warning. + _startState := 8 + p.EnterRecursionRule(localctx, 8, CELParserRULE_relation, _p) + var _la int + + defer func() { + p.UnrollRecursionContexts(_parentctx) + }() + + defer func() { + if err := recover(); err != nil { + if v, ok := err.(antlr.RecognitionException); ok { + localctx.SetException(v) + p.GetErrorHandler().ReportError(p, v) + p.GetErrorHandler().Recover(p, v) + } else { + panic(err) + } + } + }() + + var _alt int + + p.EnterOuterAlt(localctx, 1) + { + p.SetState(54) + p.calc(0) + } + + p.GetParserRuleContext().SetStop(p.GetTokenStream().LT(-1)) + p.SetState(61) + p.GetErrorHandler().Sync(p) + _alt = p.GetInterpreter().AdaptivePredict(p.GetTokenStream(), 3, p.GetParserRuleContext()) + + for _alt != 2 && _alt != antlr.ATNInvalidAltNumber { + if _alt == 1 { + if p.GetParseListeners() != nil { + p.TriggerExitRuleEvent() + } + _prevctx = localctx + localctx = NewRelationContext(p, _parentctx, _parentState) + p.PushNewRecursionContext(localctx, _startState, CELParserRULE_relation) + p.SetState(56) + + if !(p.Precpred(p.GetParserRuleContext(), 1)) { + panic(antlr.NewFailedPredicateException(p, "p.Precpred(p.GetParserRuleContext(), 1)", "")) + } + p.SetState(57) + + var _lt = p.GetTokenStream().LT(1) + + localctx.(*RelationContext).op = _lt + + _la = p.GetTokenStream().LA(1) + + if !(((_la)&-(0x1f+1)) == 0 && ((1<= c.buf.Len() { + panic("cannot consume EOF") + } + c.pos++ +} + +// LA implements (antlr.CharStream).LA. +func (c *charStream) LA(offset int) int { + if offset == 0 { + return 0 + } + if offset < 0 { + offset++ + } + pos := c.pos + offset - 1 + if pos < 0 || pos >= c.buf.Len() { + return antlr.TokenEOF + } + return int(c.buf.Get(pos)) +} + +// LT mimics (*antlr.InputStream).LT. +func (c *charStream) LT(offset int) int { + return c.LA(offset) +} + +// Mark implements (antlr.CharStream).Mark. +func (c *charStream) Mark() int { + return -1 +} + +// Release implements (antlr.CharStream).Release. +func (c *charStream) Release(marker int) {} + +// Index implements (antlr.CharStream).Index. +func (c *charStream) Index() int { + return c.pos +} + +// Seek implements (antlr.CharStream).Seek. +func (c *charStream) Seek(index int) { + if index <= c.pos { + c.pos = index + return + } + if index < c.buf.Len() { + c.pos = index + } else { + c.pos = c.buf.Len() + } +} + +// Size implements (antlr.CharStream).Size. +func (c *charStream) Size() int { + return c.buf.Len() +} + +// GetSourceName implements (antlr.CharStream).GetSourceName. +func (c *charStream) GetSourceName() string { + return c.src +} + +// GetText implements (antlr.CharStream).GetText. +func (c *charStream) GetText(start, stop int) string { + if stop >= c.buf.Len() { + stop = c.buf.Len() - 1 + } + if start >= c.buf.Len() { + return "" + } + return c.buf.Slice(start, stop+1) +} + +// GetTextFromTokens implements (antlr.CharStream).GetTextFromTokens. +func (c *charStream) GetTextFromTokens(start, stop antlr.Token) string { + if start != nil && stop != nil { + return c.GetText(start.GetTokenIndex(), stop.GetTokenIndex()) + } + return "" +} + +// GetTextFromInterval implements (antlr.CharStream).GetTextFromInterval. +func (c *charStream) GetTextFromInterval(i *antlr.Interval) string { + return c.GetText(i.Start, i.Stop) +} + +// String mimics (*antlr.InputStream).String. +func (c *charStream) String() string { + return c.buf.Slice(0, c.buf.Len()) +} + +var _ antlr.CharStream = &charStream{} + +func newCharStream(buf runes.Buffer, desc string) antlr.CharStream { + return &charStream{ + buf: buf, + src: desc, + } +} diff --git a/vendor/github.com/google/cel-go/parser/macro.go b/vendor/github.com/google/cel-go/parser/macro.go new file mode 100644 index 000000000..baeddd94e --- /dev/null +++ b/vendor/github.com/google/cel-go/parser/macro.go @@ -0,0 +1,386 @@ +// Copyright 2018 Google LLC +// +// Licensed under the Apache License, Version 2.0 (the "License"); +// you may not use this file except in compliance with the License. +// You may obtain a copy of the License at +// +// http://www.apache.org/licenses/LICENSE-2.0 +// +// Unless required by applicable law or agreed to in writing, software +// distributed under the License is distributed on an "AS IS" BASIS, +// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. +// See the License for the specific language governing permissions and +// limitations under the License. + +package parser + +import ( + "fmt" + + "github.com/google/cel-go/common" + "github.com/google/cel-go/common/operators" + + exprpb "google.golang.org/genproto/googleapis/api/expr/v1alpha1" +) + +// TODO: Consider moving macros to common. + +// NewGlobalMacro creates a Macro for a global function with the specified arg count. +func NewGlobalMacro(function string, argCount int, expander MacroExpander) Macro { + return ¯o{ + function: function, + argCount: argCount, + expander: expander} +} + +// NewReceiverMacro creates a Macro for a receiver function matching the specified arg count. +func NewReceiverMacro(function string, argCount int, expander MacroExpander) Macro { + return ¯o{ + function: function, + argCount: argCount, + expander: expander, + receiverStyle: true} +} + +// NewGlobalVarArgMacro creates a Macro for a global function with a variable arg count. +func NewGlobalVarArgMacro(function string, expander MacroExpander) Macro { + return ¯o{ + function: function, + expander: expander, + varArgStyle: true} +} + +// NewReceiverVarArgMacro creates a Macro for a receiver function matching a variable arg +// count. +func NewReceiverVarArgMacro(function string, expander MacroExpander) Macro { + return ¯o{ + function: function, + expander: expander, + receiverStyle: true, + varArgStyle: true} +} + +// Macro interface for describing the function signature to match and the MacroExpander to apply. +// +// Note: when a Macro should apply to multiple overloads (based on arg count) of a given function, +// a Macro should be created per arg-count. +type Macro interface { + // Function name to match. + Function() string + + // ArgCount for the function call. + // + // When the macro is a var-arg style macro, the return value will be zero, but the MacroKey + // will contain a `*` where the arg count would have been. + ArgCount() int + + // IsReceiverStyle returns true if the macro matches a receiver style call. + IsReceiverStyle() bool + + // MacroKey returns the macro signatures accepted by this macro. + // + // Format: `::`. + // + // When the macros is a var-arg style macro, the `arg-count` value is represented as a `*`. + MacroKey() string + + // Expander returns the MacroExpander to apply when the macro key matches the parsed call + // signature. + Expander() MacroExpander +} + +// Macro type which declares the function name and arg count expected for the +// macro, as well as a macro expansion function. +type macro struct { + function string + receiverStyle bool + varArgStyle bool + argCount int + expander MacroExpander +} + +// Function returns the macro's function name (i.e. the function whose syntax it mimics). +func (m *macro) Function() string { + return m.function +} + +// ArgCount returns the number of arguments the macro expects. +func (m *macro) ArgCount() int { + return m.argCount +} + +// IsReceiverStyle returns whether the macro is receiver style. +func (m *macro) IsReceiverStyle() bool { + return m.receiverStyle +} + +// Expander implements the Macro interface method. +func (m *macro) Expander() MacroExpander { + return m.expander +} + +// MacroKey implements the Macro interface method. +func (m *macro) MacroKey() string { + if m.varArgStyle { + return makeVarArgMacroKey(m.function, m.receiverStyle) + } + return makeMacroKey(m.function, m.argCount, m.receiverStyle) +} + +func makeMacroKey(name string, args int, receiverStyle bool) string { + return fmt.Sprintf("%s:%d:%v", name, args, receiverStyle) +} + +func makeVarArgMacroKey(name string, receiverStyle bool) string { + return fmt.Sprintf("%s:*:%v", name, receiverStyle) +} + +// MacroExpander converts the target and args of a function call that matches a Macro. +// +// Note: when the Macros.IsReceiverStyle() is true, the target argument will be nil. +type MacroExpander func(eh ExprHelper, + target *exprpb.Expr, + args []*exprpb.Expr) (*exprpb.Expr, *common.Error) + +// ExprHelper assists with the manipulation of proto-based Expr values in a manner which is +// consistent with the source position and expression id generation code leveraged by both +// the parser and type-checker. +type ExprHelper interface { + // LiteralBool creates an Expr value for a bool literal. + LiteralBool(value bool) *exprpb.Expr + + // LiteralBytes creates an Expr value for a byte literal. + LiteralBytes(value []byte) *exprpb.Expr + + // LiteralDouble creates an Expr value for double literal. + LiteralDouble(value float64) *exprpb.Expr + + // LiteralInt creates an Expr value for an int literal. + LiteralInt(value int64) *exprpb.Expr + + // LiteralString creates am Expr value for a string literal. + LiteralString(value string) *exprpb.Expr + + // LiteralUint creates an Expr value for a uint literal. + LiteralUint(value uint64) *exprpb.Expr + + // NewList creates a CreateList instruction where the list is comprised of the optional set + // of elements provided as arguments. + NewList(elems ...*exprpb.Expr) *exprpb.Expr + + // NewMap creates a CreateStruct instruction for a map where the map is comprised of the + // optional set of key, value entries. + NewMap(entries ...*exprpb.Expr_CreateStruct_Entry) *exprpb.Expr + + // NewMapEntry creates a Map Entry for the key, value pair. + NewMapEntry(key *exprpb.Expr, val *exprpb.Expr) *exprpb.Expr_CreateStruct_Entry + + // NewObject creates a CreateStruct instruction for an object with a given type name and + // optional set of field initializers. + NewObject(typeName string, fieldInits ...*exprpb.Expr_CreateStruct_Entry) *exprpb.Expr + + // NewObjectFieldInit creates a new Object field initializer from the field name and value. + NewObjectFieldInit(field string, init *exprpb.Expr) *exprpb.Expr_CreateStruct_Entry + + // Fold creates a fold comprehension instruction. + // + // - iterVar is the iteration variable name. + // - iterRange represents the expression that resolves to a list or map where the elements or + // keys (respectively) will be iterated over. + // - accuVar is the accumulation variable name, typically parser.AccumulatorName. + // - accuInit is the initial expression whose value will be set for the accuVar prior to + // folding. + // - condition is the expression to test to determine whether to continue folding. + // - step is the expression to evaluation at the conclusion of a single fold iteration. + // - result is the computation to evaluate at the conclusion of the fold. + // + // The accuVar should not shadow variable names that you would like to reference within the + // environment in the step and condition expressions. Presently, the name __result__ is commonly + // used by built-in macros but this may change in the future. + Fold(iterVar string, + iterRange *exprpb.Expr, + accuVar string, + accuInit *exprpb.Expr, + condition *exprpb.Expr, + step *exprpb.Expr, + result *exprpb.Expr) *exprpb.Expr + + // Ident creates an identifier Expr value. + Ident(name string) *exprpb.Expr + + // GlobalCall creates a function call Expr value for a global (free) function. + GlobalCall(function string, args ...*exprpb.Expr) *exprpb.Expr + + // ReceiverCall creates a function call Expr value for a receiver-style function. + ReceiverCall(function string, target *exprpb.Expr, args ...*exprpb.Expr) *exprpb.Expr + + // PresenceTest creates a Select TestOnly Expr value for modelling has() semantics. + PresenceTest(operand *exprpb.Expr, field string) *exprpb.Expr + + // Select create a field traversal Expr value. + Select(operand *exprpb.Expr, field string) *exprpb.Expr + + // OffsetLocation returns the Location of the expression identifier. + OffsetLocation(exprID int64) common.Location +} + +var ( + // AllMacros includes the list of all spec-supported macros. + AllMacros = []Macro{ + // The macro "has(m.f)" which tests the presence of a field, avoiding the need to specify + // the field as a string. + NewGlobalMacro(operators.Has, 1, makeHas), + + // The macro "range.all(var, predicate)", which is true if for all elements in range the + // predicate holds. + NewReceiverMacro(operators.All, 2, makeAll), + + // The macro "range.exists(var, predicate)", which is true if for at least one element in + // range the predicate holds. + NewReceiverMacro(operators.Exists, 2, makeExists), + + // The macro "range.exists_one(var, predicate)", which is true if for exactly one element + // in range the predicate holds. + NewReceiverMacro(operators.ExistsOne, 2, makeExistsOne), + + // The macro "range.map(var, function)", applies the function to the vars in the range. + NewReceiverMacro(operators.Map, 2, makeMap), + + // The macro "range.map(var, predicate, function)", applies the function to the vars in + // the range for which the predicate holds true. The other variables are filtered out. + NewReceiverMacro(operators.Map, 3, makeMap), + + // The macro "range.filter(var, predicate)", filters out the variables for which the + // predicate is false. + NewReceiverMacro(operators.Filter, 2, makeFilter), + } + + // NoMacros list. + NoMacros = []Macro{} +) + +// AccumulatorName is the traditional variable name assigned to the fold accumulator variable. +const AccumulatorName = "__result__" + +type quantifierKind int + +const ( + quantifierAll quantifierKind = iota + quantifierExists + quantifierExistsOne +) + +func makeAll(eh ExprHelper, target *exprpb.Expr, args []*exprpb.Expr) (*exprpb.Expr, *common.Error) { + return makeQuantifier(quantifierAll, eh, target, args) +} + +func makeExists(eh ExprHelper, target *exprpb.Expr, args []*exprpb.Expr) (*exprpb.Expr, *common.Error) { + return makeQuantifier(quantifierExists, eh, target, args) +} + +func makeExistsOne(eh ExprHelper, target *exprpb.Expr, args []*exprpb.Expr) (*exprpb.Expr, *common.Error) { + return makeQuantifier(quantifierExistsOne, eh, target, args) +} + +func makeQuantifier(kind quantifierKind, eh ExprHelper, target *exprpb.Expr, args []*exprpb.Expr) (*exprpb.Expr, *common.Error) { + v, found := extractIdent(args[0]) + if !found { + location := eh.OffsetLocation(args[0].GetId()) + return nil, &common.Error{ + Message: "argument must be a simple name", + Location: location} + } + accuIdent := func() *exprpb.Expr { + return eh.Ident(AccumulatorName) + } + + var init *exprpb.Expr + var condition *exprpb.Expr + var step *exprpb.Expr + var result *exprpb.Expr + switch kind { + case quantifierAll: + init = eh.LiteralBool(true) + condition = eh.GlobalCall(operators.NotStrictlyFalse, accuIdent()) + step = eh.GlobalCall(operators.LogicalAnd, accuIdent(), args[1]) + result = accuIdent() + case quantifierExists: + init = eh.LiteralBool(false) + condition = eh.GlobalCall( + operators.NotStrictlyFalse, + eh.GlobalCall(operators.LogicalNot, accuIdent())) + step = eh.GlobalCall(operators.LogicalOr, accuIdent(), args[1]) + result = accuIdent() + case quantifierExistsOne: + zeroExpr := eh.LiteralInt(0) + oneExpr := eh.LiteralInt(1) + init = zeroExpr + condition = eh.LiteralBool(true) + step = eh.GlobalCall(operators.Conditional, args[1], + eh.GlobalCall(operators.Add, accuIdent(), oneExpr), accuIdent()) + result = eh.GlobalCall(operators.Equals, accuIdent(), oneExpr) + default: + return nil, &common.Error{Message: fmt.Sprintf("unrecognized quantifier '%v'", kind)} + } + return eh.Fold(v, target, AccumulatorName, init, condition, step, result), nil +} + +func makeMap(eh ExprHelper, target *exprpb.Expr, args []*exprpb.Expr) (*exprpb.Expr, *common.Error) { + v, found := extractIdent(args[0]) + if !found { + return nil, &common.Error{Message: "argument is not an identifier"} + } + + var fn *exprpb.Expr + var filter *exprpb.Expr + + if len(args) == 3 { + filter = args[1] + fn = args[2] + } else { + filter = nil + fn = args[1] + } + + accuExpr := eh.Ident(AccumulatorName) + init := eh.NewList() + condition := eh.LiteralBool(true) + // TODO: use compiler internal method for faster, stateful add. + step := eh.GlobalCall(operators.Add, accuExpr, eh.NewList(fn)) + + if filter != nil { + step = eh.GlobalCall(operators.Conditional, filter, step, accuExpr) + } + return eh.Fold(v, target, AccumulatorName, init, condition, step, accuExpr), nil +} + +func makeFilter(eh ExprHelper, target *exprpb.Expr, args []*exprpb.Expr) (*exprpb.Expr, *common.Error) { + v, found := extractIdent(args[0]) + if !found { + return nil, &common.Error{Message: "argument is not an identifier"} + } + + filter := args[1] + accuExpr := eh.Ident(AccumulatorName) + init := eh.NewList() + condition := eh.LiteralBool(true) + // TODO: use compiler internal method for faster, stateful add. + step := eh.GlobalCall(operators.Add, accuExpr, eh.NewList(args[0])) + step = eh.GlobalCall(operators.Conditional, filter, step, accuExpr) + return eh.Fold(v, target, AccumulatorName, init, condition, step, accuExpr), nil +} + +func extractIdent(e *exprpb.Expr) (string, bool) { + switch e.ExprKind.(type) { + case *exprpb.Expr_IdentExpr: + return e.GetIdentExpr().GetName(), true + } + return "", false +} + +func makeHas(eh ExprHelper, target *exprpb.Expr, args []*exprpb.Expr) (*exprpb.Expr, *common.Error) { + if s, ok := args[0].ExprKind.(*exprpb.Expr_SelectExpr); ok { + return eh.PresenceTest(s.SelectExpr.GetOperand(), s.SelectExpr.GetField()), nil + } + return nil, &common.Error{Message: "invalid argument to has() macro"} +} diff --git a/vendor/github.com/google/cel-go/parser/options.go b/vendor/github.com/google/cel-go/parser/options.go new file mode 100644 index 000000000..b50686a91 --- /dev/null +++ b/vendor/github.com/google/cel-go/parser/options.go @@ -0,0 +1,104 @@ +// Copyright 2021 Google LLC +// +// Licensed under the Apache License, Version 2.0 (the "License"); +// you may not use this file except in compliance with the License. +// You may obtain a copy of the License at +// +// http://www.apache.org/licenses/LICENSE-2.0 +// +// Unless required by applicable law or agreed to in writing, software +// distributed under the License is distributed on an "AS IS" BASIS, +// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. +// See the License for the specific language governing permissions and +// limitations under the License. + +package parser + +import "fmt" + +type options struct { + maxRecursionDepth int + errorRecoveryTokenLookaheadLimit int + errorRecoveryLimit int + expressionSizeCodePointLimit int + macros map[string]Macro + populateMacroCalls bool +} + +// Option configures the behavior of the parser. +type Option func(*options) error + +// MaxRecursionDepth limits the maximum depth the parser will attempt to parse the expression before giving up. +func MaxRecursionDepth(limit int) Option { + return func(opts *options) error { + if limit < -1 { + return fmt.Errorf("max recursion depth must be greater than or equal to -1: %d", limit) + } + opts.maxRecursionDepth = limit + return nil + } +} + +// ErrorRecoveryLookaheadTokenLimit limits the number of lexer tokens that may be considered during error recovery. +// +// Error recovery often involves looking ahead in the input to determine if there's a point at which parsing may +// successfully resume. In some pathological cases, the parser can look through quite a large set of input which +// in turn generates a lot of back-tracking and performance degredation. +// +// The limit must be > 1, and is recommended to be less than the default of 256. +func ErrorRecoveryLookaheadTokenLimit(limit int) Option { + return func(opts *options) error { + if limit < 1 { + return fmt.Errorf("error recovery lookahead token limit must be at least 1: %d", limit) + } + opts.errorRecoveryTokenLookaheadLimit = limit + return nil + } +} + +// ErrorRecoveryLimit limits the number of attempts the parser will perform to recover from an error. +func ErrorRecoveryLimit(limit int) Option { + return func(opts *options) error { + if limit < -1 { + return fmt.Errorf("error recovery limit must be greater than or equal to -1: %d", limit) + } + opts.errorRecoveryLimit = limit + return nil + } +} + +// ExpressionSizeCodePointLimit is an option which limits the maximum code point count of an +// expression. +func ExpressionSizeCodePointLimit(expressionSizeCodePointLimit int) Option { + return func(opts *options) error { + if expressionSizeCodePointLimit < -1 { + return fmt.Errorf("expression size code point limit must be greater than or equal to -1: %d", expressionSizeCodePointLimit) + } + opts.expressionSizeCodePointLimit = expressionSizeCodePointLimit + return nil + } +} + +// Macros adds the given macros to the parser. +func Macros(macros ...Macro) Option { + return func(opts *options) error { + for _, m := range macros { + if m != nil { + if opts.macros == nil { + opts.macros = make(map[string]Macro) + } + opts.macros[m.MacroKey()] = m + } + } + return nil + } +} + +// PopulateMacroCalls ensures that the original call signatures replaced by expanded macros +// are preserved in the `SourceInfo` of parse result. +func PopulateMacroCalls(populateMacroCalls bool) Option { + return func(opts *options) error { + opts.populateMacroCalls = populateMacroCalls + return nil + } +} diff --git a/vendor/github.com/google/cel-go/parser/parser.go b/vendor/github.com/google/cel-go/parser/parser.go new file mode 100644 index 000000000..11dcc0eb9 --- /dev/null +++ b/vendor/github.com/google/cel-go/parser/parser.go @@ -0,0 +1,903 @@ +// Copyright 2018 Google LLC +// +// Licensed under the Apache License, Version 2.0 (the "License"); +// you may not use this file except in compliance with the License. +// You may obtain a copy of the License at +// +// http://www.apache.org/licenses/LICENSE-2.0 +// +// Unless required by applicable law or agreed to in writing, software +// distributed under the License is distributed on an "AS IS" BASIS, +// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. +// See the License for the specific language governing permissions and +// limitations under the License. + +// Package parser declares an expression parser with support for macro +// expansion. +package parser + +import ( + "fmt" + "strconv" + "strings" + "sync" + + "github.com/antlr/antlr4/runtime/Go/antlr" + "github.com/google/cel-go/common" + "github.com/google/cel-go/common/operators" + "github.com/google/cel-go/common/runes" + "github.com/google/cel-go/parser/gen" + + exprpb "google.golang.org/genproto/googleapis/api/expr/v1alpha1" + structpb "google.golang.org/protobuf/types/known/structpb" +) + +// Parser encapsulates the context necessary to perform parsing for different expressions. +type Parser struct { + options +} + +// NewParser builds and returns a new Parser using the provided options. +func NewParser(opts ...Option) (*Parser, error) { + p := &Parser{} + for _, opt := range opts { + if err := opt(&p.options); err != nil { + return nil, err + } + } + if p.maxRecursionDepth == 0 { + p.maxRecursionDepth = 200 + } + if p.maxRecursionDepth == -1 { + p.maxRecursionDepth = int((^uint(0)) >> 1) + } + if p.errorRecoveryTokenLookaheadLimit == 0 { + p.errorRecoveryTokenLookaheadLimit = 256 + } + if p.errorRecoveryLimit == 0 { + p.errorRecoveryLimit = 30 + } + if p.errorRecoveryLimit == -1 { + p.errorRecoveryLimit = int((^uint(0)) >> 1) + } + if p.expressionSizeCodePointLimit == 0 { + p.expressionSizeCodePointLimit = 100_000 + } + if p.expressionSizeCodePointLimit == -1 { + p.expressionSizeCodePointLimit = int((^uint(0)) >> 1) + } + // Bool is false by default, so populateMacroCalls will be false by default + return p, nil +} + +// mustNewParser does the work of NewParser and panics if an error occurs. +// +// This function is only intended for internal use and is for backwards compatibility in Parse and +// ParseWithMacros, where we know the options will result in an error. +func mustNewParser(opts ...Option) *Parser { + p, err := NewParser(opts...) + if err != nil { + panic(err) + } + return p +} + +// Parse parses the expression represented by source and returns the result. +func (p *Parser) Parse(source common.Source) (*exprpb.ParsedExpr, *common.Errors) { + impl := parser{ + errors: &parseErrors{common.NewErrors(source)}, + helper: newParserHelper(source), + macros: p.macros, + maxRecursionDepth: p.maxRecursionDepth, + errorRecoveryLimit: p.errorRecoveryLimit, + errorRecoveryLookaheadTokenLimit: p.errorRecoveryTokenLookaheadLimit, + populateMacroCalls: p.populateMacroCalls, + } + buf, ok := source.(runes.Buffer) + if !ok { + buf = runes.NewBuffer(source.Content()) + } + var e *exprpb.Expr + if buf.Len() > p.expressionSizeCodePointLimit { + e = impl.reportError(common.NoLocation, + "expression code point size exceeds limit: size: %d, limit %d", + buf.Len(), p.expressionSizeCodePointLimit) + } else { + e = impl.parse(buf, source.Description()) + } + return &exprpb.ParsedExpr{ + Expr: e, + SourceInfo: impl.helper.getSourceInfo(), + }, impl.errors.Errors +} + +// reservedIds are not legal to use as variables. We exclude them post-parse, as they *are* valid +// field names for protos, and it would complicate the grammar to distinguish the cases. +var reservedIds = map[string]struct{}{ + "as": {}, + "break": {}, + "const": {}, + "continue": {}, + "else": {}, + "false": {}, + "for": {}, + "function": {}, + "if": {}, + "import": {}, + "in": {}, + "let": {}, + "loop": {}, + "package": {}, + "namespace": {}, + "null": {}, + "return": {}, + "true": {}, + "var": {}, + "void": {}, + "while": {}, +} + +// Parse converts a source input a parsed expression. +// This function calls ParseWithMacros with AllMacros. +// +// Deprecated: Use NewParser().Parse() instead. +func Parse(source common.Source) (*exprpb.ParsedExpr, *common.Errors) { + return ParseWithMacros(source, AllMacros) +} + +// ParseWithMacros converts a source input and macros set to a parsed expression. +// +// Deprecated: Use NewParser().Parse() instead. +func ParseWithMacros(source common.Source, macros []Macro) (*exprpb.ParsedExpr, *common.Errors) { + return mustNewParser(Macros(macros...)).Parse(source) +} + +type recursionError struct { + message string +} + +// Error implements error. +func (re *recursionError) Error() string { + return re.message +} + +var _ error = &recursionError{} + +type recursionListener struct { + maxDepth int + ruleTypeDepth map[int]*int +} + +func (rl *recursionListener) VisitTerminal(node antlr.TerminalNode) {} + +func (rl *recursionListener) VisitErrorNode(node antlr.ErrorNode) {} + +func (rl *recursionListener) EnterEveryRule(ctx antlr.ParserRuleContext) { + if ctx == nil { + return + } + ruleIndex := ctx.GetRuleIndex() + depth, found := rl.ruleTypeDepth[ruleIndex] + if !found { + var counter = 1 + rl.ruleTypeDepth[ruleIndex] = &counter + depth = &counter + } else { + *depth++ + } + if *depth >= rl.maxDepth { + panic(&recursionError{ + message: fmt.Sprintf("expression recursion limit exceeded: %d", rl.maxDepth), + }) + } +} + +func (rl *recursionListener) ExitEveryRule(ctx antlr.ParserRuleContext) { + if ctx == nil { + return + } + ruleIndex := ctx.GetRuleIndex() + if depth, found := rl.ruleTypeDepth[ruleIndex]; found && *depth > 0 { + *depth-- + } +} + +var _ antlr.ParseTreeListener = &recursionListener{} + +type recoveryLimitError struct { + message string +} + +// Error implements error. +func (rl *recoveryLimitError) Error() string { + return rl.message +} + +type lookaheadLimitError struct { + message string +} + +func (ll *lookaheadLimitError) Error() string { + return ll.message +} + +var _ error = &recoveryLimitError{} + +type recoveryLimitErrorStrategy struct { + *antlr.DefaultErrorStrategy + errorRecoveryLimit int + errorRecoveryTokenLookaheadLimit int + recoveryAttempts int +} + +type lookaheadConsumer struct { + antlr.Parser + errorRecoveryTokenLookaheadLimit int + lookaheadAttempts int +} + +func (lc *lookaheadConsumer) Consume() antlr.Token { + if lc.lookaheadAttempts >= lc.errorRecoveryTokenLookaheadLimit { + panic(&lookaheadLimitError{ + message: fmt.Sprintf("error recovery token lookahead limit exceeded: %d", lc.errorRecoveryTokenLookaheadLimit), + }) + } + lc.lookaheadAttempts++ + return lc.Parser.Consume() +} + +func (rl *recoveryLimitErrorStrategy) Recover(recognizer antlr.Parser, e antlr.RecognitionException) { + rl.checkAttempts(recognizer) + lc := &lookaheadConsumer{Parser: recognizer, errorRecoveryTokenLookaheadLimit: rl.errorRecoveryTokenLookaheadLimit} + rl.DefaultErrorStrategy.Recover(lc, e) +} + +func (rl *recoveryLimitErrorStrategy) RecoverInline(recognizer antlr.Parser) antlr.Token { + rl.checkAttempts(recognizer) + lc := &lookaheadConsumer{Parser: recognizer, errorRecoveryTokenLookaheadLimit: rl.errorRecoveryTokenLookaheadLimit} + return rl.DefaultErrorStrategy.RecoverInline(lc) +} + +func (rl *recoveryLimitErrorStrategy) checkAttempts(recognizer antlr.Parser) { + if rl.recoveryAttempts == rl.errorRecoveryLimit { + rl.recoveryAttempts++ + msg := fmt.Sprintf("error recovery attempt limit exceeded: %d", rl.errorRecoveryLimit) + recognizer.NotifyErrorListeners(msg, nil, nil) + panic(&recoveryLimitError{ + message: msg, + }) + } + rl.recoveryAttempts++ +} + +var _ antlr.ErrorStrategy = &recoveryLimitErrorStrategy{} + +type parser struct { + gen.BaseCELVisitor + errors *parseErrors + helper *parserHelper + macros map[string]Macro + maxRecursionDepth int + errorRecoveryLimit int + errorRecoveryLookaheadTokenLimit int + populateMacroCalls bool +} + +var ( + _ gen.CELVisitor = (*parser)(nil) + + lexerPool *sync.Pool = &sync.Pool{ + New: func() interface{} { + l := gen.NewCELLexer(nil) + l.RemoveErrorListeners() + return l + }, + } + + parserPool *sync.Pool = &sync.Pool{ + New: func() interface{} { + p := gen.NewCELParser(nil) + p.RemoveErrorListeners() + return p + }, + } +) + +func (p *parser) parse(expr runes.Buffer, desc string) *exprpb.Expr { + lexer := lexerPool.Get().(*gen.CELLexer) + prsr := parserPool.Get().(*gen.CELParser) + + // Unfortunately ANTLR Go runtime is missing (*antlr.BaseParser).RemoveParseListeners, so this is + // good enough until that is exported. + prsrListener := &recursionListener{ + maxDepth: p.maxRecursionDepth, + ruleTypeDepth: map[int]*int{}, + } + + defer func() { + // Reset the lexer and parser before putting them back in the pool. + lexer.RemoveErrorListeners() + prsr.RemoveParseListener(prsrListener) + prsr.RemoveErrorListeners() + lexer.SetInputStream(nil) + prsr.SetInputStream(nil) + lexerPool.Put(lexer) + parserPool.Put(prsr) + }() + + lexer.SetInputStream(newCharStream(expr, desc)) + prsr.SetInputStream(antlr.NewCommonTokenStream(lexer, 0)) + + lexer.AddErrorListener(p) + prsr.AddErrorListener(p) + prsr.AddParseListener(prsrListener) + + prsr.SetErrorHandler(&recoveryLimitErrorStrategy{ + DefaultErrorStrategy: antlr.NewDefaultErrorStrategy(), + errorRecoveryLimit: p.errorRecoveryLimit, + errorRecoveryTokenLookaheadLimit: p.errorRecoveryLookaheadTokenLimit, + }) + + defer func() { + if val := recover(); val != nil { + switch err := val.(type) { + case *lookaheadLimitError: + p.errors.ReportError(common.NoLocation, err.Error()) + case *recursionError: + p.errors.ReportError(common.NoLocation, err.Error()) + case *recoveryLimitError: + // do nothing, listeners already notified and error reported. + default: + panic(val) + } + } + }() + + return p.Visit(prsr.Start()).(*exprpb.Expr) +} + +// Visitor implementations. +func (p *parser) Visit(tree antlr.ParseTree) interface{} { + switch tree.(type) { + case *gen.StartContext: + return p.VisitStart(tree.(*gen.StartContext)) + case *gen.ExprContext: + return p.VisitExpr(tree.(*gen.ExprContext)) + case *gen.ConditionalAndContext: + return p.VisitConditionalAnd(tree.(*gen.ConditionalAndContext)) + case *gen.ConditionalOrContext: + return p.VisitConditionalOr(tree.(*gen.ConditionalOrContext)) + case *gen.RelationContext: + return p.VisitRelation(tree.(*gen.RelationContext)) + case *gen.CalcContext: + return p.VisitCalc(tree.(*gen.CalcContext)) + case *gen.LogicalNotContext: + return p.VisitLogicalNot(tree.(*gen.LogicalNotContext)) + case *gen.MemberExprContext: + return p.VisitMemberExpr(tree.(*gen.MemberExprContext)) + case *gen.PrimaryExprContext: + return p.VisitPrimaryExpr(tree.(*gen.PrimaryExprContext)) + case *gen.SelectOrCallContext: + return p.VisitSelectOrCall(tree.(*gen.SelectOrCallContext)) + case *gen.MapInitializerListContext: + return p.VisitMapInitializerList(tree.(*gen.MapInitializerListContext)) + case *gen.NegateContext: + return p.VisitNegate(tree.(*gen.NegateContext)) + case *gen.IndexContext: + return p.VisitIndex(tree.(*gen.IndexContext)) + case *gen.UnaryContext: + return p.VisitUnary(tree.(*gen.UnaryContext)) + case *gen.CreateListContext: + return p.VisitCreateList(tree.(*gen.CreateListContext)) + case *gen.CreateMessageContext: + return p.VisitCreateMessage(tree.(*gen.CreateMessageContext)) + case *gen.CreateStructContext: + return p.VisitCreateStruct(tree.(*gen.CreateStructContext)) + } + + // Report at least one error if the parser reaches an unknown parse element. + // Typically, this happens if the parser has already encountered a syntax error elsewhere. + if len(p.errors.GetErrors()) == 0 { + txt := "<>" + if tree != nil { + txt = fmt.Sprintf("<<%T>>", tree) + } + return p.reportError(common.NoLocation, "unknown parse element encountered: %s", txt) + } + return p.helper.newExpr(common.NoLocation) + +} + +// Visit a parse tree produced by CELParser#start. +func (p *parser) VisitStart(ctx *gen.StartContext) interface{} { + return p.Visit(ctx.Expr()) +} + +// Visit a parse tree produced by CELParser#expr. +func (p *parser) VisitExpr(ctx *gen.ExprContext) interface{} { + result := p.Visit(ctx.GetE()).(*exprpb.Expr) + if ctx.GetOp() == nil { + return result + } + opID := p.helper.id(ctx.GetOp()) + ifTrue := p.Visit(ctx.GetE1()).(*exprpb.Expr) + ifFalse := p.Visit(ctx.GetE2()).(*exprpb.Expr) + return p.globalCallOrMacro(opID, operators.Conditional, result, ifTrue, ifFalse) +} + +// Visit a parse tree produced by CELParser#conditionalOr. +func (p *parser) VisitConditionalOr(ctx *gen.ConditionalOrContext) interface{} { + result := p.Visit(ctx.GetE()).(*exprpb.Expr) + if ctx.GetOps() == nil { + return result + } + b := newBalancer(p.helper, operators.LogicalOr, result) + rest := ctx.GetE1() + for i, op := range ctx.GetOps() { + if i >= len(rest) { + return p.reportError(ctx, "unexpected character, wanted '||'") + } + next := p.Visit(rest[i]).(*exprpb.Expr) + opID := p.helper.id(op) + b.addTerm(opID, next) + } + return b.balance() +} + +// Visit a parse tree produced by CELParser#conditionalAnd. +func (p *parser) VisitConditionalAnd(ctx *gen.ConditionalAndContext) interface{} { + result := p.Visit(ctx.GetE()).(*exprpb.Expr) + if ctx.GetOps() == nil { + return result + } + b := newBalancer(p.helper, operators.LogicalAnd, result) + rest := ctx.GetE1() + for i, op := range ctx.GetOps() { + if i >= len(rest) { + return p.reportError(ctx, "unexpected character, wanted '&&'") + } + next := p.Visit(rest[i]).(*exprpb.Expr) + opID := p.helper.id(op) + b.addTerm(opID, next) + } + return b.balance() +} + +// Visit a parse tree produced by CELParser#relation. +func (p *parser) VisitRelation(ctx *gen.RelationContext) interface{} { + if ctx.Calc() != nil { + return p.Visit(ctx.Calc()) + } + opText := "" + if ctx.GetOp() != nil { + opText = ctx.GetOp().GetText() + } + if op, found := operators.Find(opText); found { + lhs := p.Visit(ctx.Relation(0)).(*exprpb.Expr) + opID := p.helper.id(ctx.GetOp()) + rhs := p.Visit(ctx.Relation(1)).(*exprpb.Expr) + return p.globalCallOrMacro(opID, op, lhs, rhs) + } + return p.reportError(ctx, "operator not found") +} + +// Visit a parse tree produced by CELParser#calc. +func (p *parser) VisitCalc(ctx *gen.CalcContext) interface{} { + if ctx.Unary() != nil { + return p.Visit(ctx.Unary()) + } + opText := "" + if ctx.GetOp() != nil { + opText = ctx.GetOp().GetText() + } + if op, found := operators.Find(opText); found { + lhs := p.Visit(ctx.Calc(0)).(*exprpb.Expr) + opID := p.helper.id(ctx.GetOp()) + rhs := p.Visit(ctx.Calc(1)).(*exprpb.Expr) + return p.globalCallOrMacro(opID, op, lhs, rhs) + } + return p.reportError(ctx, "operator not found") +} + +func (p *parser) VisitUnary(ctx *gen.UnaryContext) interface{} { + return p.helper.newLiteralString(ctx, "<>") +} + +// Visit a parse tree produced by CELParser#MemberExpr. +func (p *parser) VisitMemberExpr(ctx *gen.MemberExprContext) interface{} { + switch ctx.Member().(type) { + case *gen.PrimaryExprContext: + return p.VisitPrimaryExpr(ctx.Member().(*gen.PrimaryExprContext)) + case *gen.SelectOrCallContext: + return p.VisitSelectOrCall(ctx.Member().(*gen.SelectOrCallContext)) + case *gen.IndexContext: + return p.VisitIndex(ctx.Member().(*gen.IndexContext)) + case *gen.CreateMessageContext: + return p.VisitCreateMessage(ctx.Member().(*gen.CreateMessageContext)) + } + return p.reportError(ctx, "unsupported simple expression") +} + +// Visit a parse tree produced by CELParser#LogicalNot. +func (p *parser) VisitLogicalNot(ctx *gen.LogicalNotContext) interface{} { + if len(ctx.GetOps())%2 == 0 { + return p.Visit(ctx.Member()) + } + opID := p.helper.id(ctx.GetOps()[0]) + target := p.Visit(ctx.Member()).(*exprpb.Expr) + return p.globalCallOrMacro(opID, operators.LogicalNot, target) +} + +func (p *parser) VisitNegate(ctx *gen.NegateContext) interface{} { + if len(ctx.GetOps())%2 == 0 { + return p.Visit(ctx.Member()) + } + opID := p.helper.id(ctx.GetOps()[0]) + target := p.Visit(ctx.Member()).(*exprpb.Expr) + return p.globalCallOrMacro(opID, operators.Negate, target) +} + +// Visit a parse tree produced by CELParser#SelectOrCall. +func (p *parser) VisitSelectOrCall(ctx *gen.SelectOrCallContext) interface{} { + operand := p.Visit(ctx.Member()).(*exprpb.Expr) + // Handle the error case where no valid identifier is specified. + if ctx.GetId() == nil { + return p.helper.newExpr(ctx) + } + id := ctx.GetId().GetText() + if ctx.GetOpen() != nil { + opID := p.helper.id(ctx.GetOpen()) + return p.receiverCallOrMacro(opID, id, operand, p.visitList(ctx.GetArgs())...) + } + return p.helper.newSelect(ctx.GetOp(), operand, id) +} + +// Visit a parse tree produced by CELParser#PrimaryExpr. +func (p *parser) VisitPrimaryExpr(ctx *gen.PrimaryExprContext) interface{} { + switch ctx.Primary().(type) { + case *gen.NestedContext: + return p.VisitNested(ctx.Primary().(*gen.NestedContext)) + case *gen.IdentOrGlobalCallContext: + return p.VisitIdentOrGlobalCall(ctx.Primary().(*gen.IdentOrGlobalCallContext)) + case *gen.CreateListContext: + return p.VisitCreateList(ctx.Primary().(*gen.CreateListContext)) + case *gen.CreateStructContext: + return p.VisitCreateStruct(ctx.Primary().(*gen.CreateStructContext)) + case *gen.ConstantLiteralContext: + return p.VisitConstantLiteral(ctx.Primary().(*gen.ConstantLiteralContext)) + } + + return p.reportError(ctx, "invalid primary expression") +} + +// Visit a parse tree produced by CELParser#Index. +func (p *parser) VisitIndex(ctx *gen.IndexContext) interface{} { + target := p.Visit(ctx.Member()).(*exprpb.Expr) + opID := p.helper.id(ctx.GetOp()) + index := p.Visit(ctx.GetIndex()).(*exprpb.Expr) + return p.globalCallOrMacro(opID, operators.Index, target, index) +} + +// Visit a parse tree produced by CELParser#CreateMessage. +func (p *parser) VisitCreateMessage(ctx *gen.CreateMessageContext) interface{} { + target := p.Visit(ctx.Member()).(*exprpb.Expr) + objID := p.helper.id(ctx.GetOp()) + if messageName, found := p.extractQualifiedName(target); found { + entries := p.VisitIFieldInitializerList(ctx.GetEntries()).([]*exprpb.Expr_CreateStruct_Entry) + return p.helper.newObject(objID, messageName, entries...) + } + return p.helper.newExpr(objID) +} + +// Visit a parse tree of field initializers. +func (p *parser) VisitIFieldInitializerList(ctx gen.IFieldInitializerListContext) interface{} { + if ctx == nil || ctx.GetFields() == nil { + // This is the result of a syntax error handled elswhere, return empty. + return []*exprpb.Expr_CreateStruct_Entry{} + } + + result := make([]*exprpb.Expr_CreateStruct_Entry, len(ctx.GetFields())) + cols := ctx.GetCols() + vals := ctx.GetValues() + for i, f := range ctx.GetFields() { + if i >= len(cols) || i >= len(vals) { + // This is the result of a syntax error detected elsewhere. + return []*exprpb.Expr_CreateStruct_Entry{} + } + initID := p.helper.id(cols[i]) + value := p.Visit(vals[i]).(*exprpb.Expr) + field := p.helper.newObjectField(initID, f.GetText(), value) + result[i] = field + } + return result +} + +// Visit a parse tree produced by CELParser#IdentOrGlobalCall. +func (p *parser) VisitIdentOrGlobalCall(ctx *gen.IdentOrGlobalCallContext) interface{} { + identName := "" + if ctx.GetLeadingDot() != nil { + identName = "." + } + // Handle the error case where no valid identifier is specified. + if ctx.GetId() == nil { + return p.helper.newExpr(ctx) + } + // Handle reserved identifiers. + id := ctx.GetId().GetText() + if _, ok := reservedIds[id]; ok { + return p.reportError(ctx, "reserved identifier: %s", id) + } + identName += id + if ctx.GetOp() != nil { + opID := p.helper.id(ctx.GetOp()) + return p.globalCallOrMacro(opID, identName, p.visitList(ctx.GetArgs())...) + } + return p.helper.newIdent(ctx.GetId(), identName) +} + +// Visit a parse tree produced by CELParser#Nested. +func (p *parser) VisitNested(ctx *gen.NestedContext) interface{} { + return p.Visit(ctx.GetE()) +} + +// Visit a parse tree produced by CELParser#CreateList. +func (p *parser) VisitCreateList(ctx *gen.CreateListContext) interface{} { + listID := p.helper.id(ctx.GetOp()) + return p.helper.newList(listID, p.visitList(ctx.GetElems())...) +} + +// Visit a parse tree produced by CELParser#CreateStruct. +func (p *parser) VisitCreateStruct(ctx *gen.CreateStructContext) interface{} { + structID := p.helper.id(ctx.GetOp()) + entries := []*exprpb.Expr_CreateStruct_Entry{} + if ctx.GetEntries() != nil { + entries = p.Visit(ctx.GetEntries()).([]*exprpb.Expr_CreateStruct_Entry) + } + return p.helper.newMap(structID, entries...) +} + +// Visit a parse tree produced by CELParser#ConstantLiteral. +func (p *parser) VisitConstantLiteral(ctx *gen.ConstantLiteralContext) interface{} { + switch ctx.Literal().(type) { + case *gen.IntContext: + return p.VisitInt(ctx.Literal().(*gen.IntContext)) + case *gen.UintContext: + return p.VisitUint(ctx.Literal().(*gen.UintContext)) + case *gen.DoubleContext: + return p.VisitDouble(ctx.Literal().(*gen.DoubleContext)) + case *gen.StringContext: + return p.VisitString(ctx.Literal().(*gen.StringContext)) + case *gen.BytesContext: + return p.VisitBytes(ctx.Literal().(*gen.BytesContext)) + case *gen.BoolFalseContext: + return p.VisitBoolFalse(ctx.Literal().(*gen.BoolFalseContext)) + case *gen.BoolTrueContext: + return p.VisitBoolTrue(ctx.Literal().(*gen.BoolTrueContext)) + case *gen.NullContext: + return p.VisitNull(ctx.Literal().(*gen.NullContext)) + } + return p.reportError(ctx, "invalid literal") +} + +// Visit a parse tree produced by CELParser#mapInitializerList. +func (p *parser) VisitMapInitializerList(ctx *gen.MapInitializerListContext) interface{} { + if ctx == nil || ctx.GetKeys() == nil { + // This is the result of a syntax error handled elswhere, return empty. + return []*exprpb.Expr_CreateStruct_Entry{} + } + + result := make([]*exprpb.Expr_CreateStruct_Entry, len(ctx.GetCols())) + keys := ctx.GetKeys() + vals := ctx.GetValues() + for i, col := range ctx.GetCols() { + colID := p.helper.id(col) + if i >= len(keys) || i >= len(vals) { + // This is the result of a syntax error detected elsewhere. + return []*exprpb.Expr_CreateStruct_Entry{} + } + key := p.Visit(keys[i]).(*exprpb.Expr) + value := p.Visit(vals[i]).(*exprpb.Expr) + entry := p.helper.newMapEntry(colID, key, value) + result[i] = entry + } + return result +} + +// Visit a parse tree produced by CELParser#Int. +func (p *parser) VisitInt(ctx *gen.IntContext) interface{} { + text := ctx.GetTok().GetText() + base := 10 + if strings.HasPrefix(text, "0x") { + base = 16 + text = text[2:] + } + if ctx.GetSign() != nil { + text = ctx.GetSign().GetText() + text + } + i, err := strconv.ParseInt(text, base, 64) + if err != nil { + return p.reportError(ctx, "invalid int literal") + } + return p.helper.newLiteralInt(ctx, i) +} + +// Visit a parse tree produced by CELParser#Uint. +func (p *parser) VisitUint(ctx *gen.UintContext) interface{} { + text := ctx.GetTok().GetText() + // trim the 'u' designator included in the uint literal. + text = text[:len(text)-1] + base := 10 + if strings.HasPrefix(text, "0x") { + base = 16 + text = text[2:] + } + i, err := strconv.ParseUint(text, base, 64) + if err != nil { + return p.reportError(ctx, "invalid uint literal") + } + return p.helper.newLiteralUint(ctx, i) +} + +// Visit a parse tree produced by CELParser#Double. +func (p *parser) VisitDouble(ctx *gen.DoubleContext) interface{} { + txt := ctx.GetTok().GetText() + if ctx.GetSign() != nil { + txt = ctx.GetSign().GetText() + txt + } + f, err := strconv.ParseFloat(txt, 64) + if err != nil { + return p.reportError(ctx, "invalid double literal") + } + return p.helper.newLiteralDouble(ctx, f) + +} + +// Visit a parse tree produced by CELParser#String. +func (p *parser) VisitString(ctx *gen.StringContext) interface{} { + s := p.unquote(ctx, ctx.GetText(), false) + return p.helper.newLiteralString(ctx, s) +} + +// Visit a parse tree produced by CELParser#Bytes. +func (p *parser) VisitBytes(ctx *gen.BytesContext) interface{} { + b := []byte(p.unquote(ctx, ctx.GetTok().GetText()[1:], true)) + return p.helper.newLiteralBytes(ctx, b) +} + +// Visit a parse tree produced by CELParser#BoolTrue. +func (p *parser) VisitBoolTrue(ctx *gen.BoolTrueContext) interface{} { + return p.helper.newLiteralBool(ctx, true) +} + +// Visit a parse tree produced by CELParser#BoolFalse. +func (p *parser) VisitBoolFalse(ctx *gen.BoolFalseContext) interface{} { + return p.helper.newLiteralBool(ctx, false) +} + +// Visit a parse tree produced by CELParser#Null. +func (p *parser) VisitNull(ctx *gen.NullContext) interface{} { + return p.helper.newLiteral(ctx, + &exprpb.Constant{ + ConstantKind: &exprpb.Constant_NullValue{ + NullValue: structpb.NullValue_NULL_VALUE}}) +} + +func (p *parser) visitList(ctx gen.IExprListContext) []*exprpb.Expr { + if ctx == nil { + return []*exprpb.Expr{} + } + return p.visitSlice(ctx.GetE()) +} + +func (p *parser) visitSlice(expressions []gen.IExprContext) []*exprpb.Expr { + if expressions == nil { + return []*exprpb.Expr{} + } + result := make([]*exprpb.Expr, len(expressions)) + for i, e := range expressions { + ex := p.Visit(e).(*exprpb.Expr) + result[i] = ex + } + return result +} + +func (p *parser) extractQualifiedName(e *exprpb.Expr) (string, bool) { + if e == nil { + return "", false + } + switch e.ExprKind.(type) { + case *exprpb.Expr_IdentExpr: + return e.GetIdentExpr().GetName(), true + case *exprpb.Expr_SelectExpr: + s := e.GetSelectExpr() + if prefix, found := p.extractQualifiedName(s.Operand); found { + return prefix + "." + s.Field, true + } + } + // TODO: Add a method to Source to get location from character offset. + location := p.helper.getLocation(e.GetId()) + p.reportError(location, "expected a qualified name") + return "", false +} + +func (p *parser) unquote(ctx interface{}, value string, isBytes bool) string { + text, err := unescape(value, isBytes) + if err != nil { + p.reportError(ctx, "%s", err.Error()) + return value + } + return text +} + +func (p *parser) reportError(ctx interface{}, format string, args ...interface{}) *exprpb.Expr { + var location common.Location + switch ctx.(type) { + case common.Location: + location = ctx.(common.Location) + case antlr.Token, antlr.ParserRuleContext: + err := p.helper.newExpr(ctx) + location = p.helper.getLocation(err.GetId()) + } + err := p.helper.newExpr(ctx) + // Provide arguments to the report error. + p.errors.ReportError(location, format, args...) + return err +} + +// ANTLR Parse listener implementations +func (p *parser) SyntaxError(recognizer antlr.Recognizer, offendingSymbol interface{}, line, column int, msg string, e antlr.RecognitionException) { + // TODO: Snippet + l := p.helper.source.NewLocation(line, column) + p.errors.syntaxError(l, msg) +} + +func (p *parser) ReportAmbiguity(recognizer antlr.Parser, dfa *antlr.DFA, startIndex, stopIndex int, exact bool, ambigAlts *antlr.BitSet, configs antlr.ATNConfigSet) { + // Intentional +} + +func (p *parser) ReportAttemptingFullContext(recognizer antlr.Parser, dfa *antlr.DFA, startIndex, stopIndex int, conflictingAlts *antlr.BitSet, configs antlr.ATNConfigSet) { + // Intentional +} + +func (p *parser) ReportContextSensitivity(recognizer antlr.Parser, dfa *antlr.DFA, startIndex, stopIndex, prediction int, configs antlr.ATNConfigSet) { + // Intentional +} + +func (p *parser) globalCallOrMacro(exprID int64, function string, args ...*exprpb.Expr) *exprpb.Expr { + if expr, found := p.expandMacro(exprID, function, nil, args...); found { + return expr + } + return p.helper.newGlobalCall(exprID, function, args...) +} + +func (p *parser) receiverCallOrMacro(exprID int64, function string, target *exprpb.Expr, args ...*exprpb.Expr) *exprpb.Expr { + if expr, found := p.expandMacro(exprID, function, target, args...); found { + return expr + } + return p.helper.newReceiverCall(exprID, function, target, args...) +} + +func (p *parser) expandMacro(exprID int64, function string, target *exprpb.Expr, args ...*exprpb.Expr) (*exprpb.Expr, bool) { + macro, found := p.macros[makeMacroKey(function, len(args), target != nil)] + if !found { + macro, found = p.macros[makeVarArgMacroKey(function, target != nil)] + if !found { + return nil, false + } + } + eh := exprHelperPool.Get().(*exprHelper) + defer exprHelperPool.Put(eh) + eh.parserHelper = p.helper + eh.id = exprID + expr, err := macro.Expander()(eh, target, args) + if err != nil { + if err.Location != nil { + return p.reportError(err.Location, err.Message), true + } + return p.reportError(p.helper.getLocation(exprID), err.Message), true + } + if p.populateMacroCalls { + p.helper.addMacroCall(expr.GetId(), function, target, args...) + } + return expr, true +} diff --git a/vendor/github.com/google/cel-go/parser/unescape.go b/vendor/github.com/google/cel-go/parser/unescape.go new file mode 100644 index 000000000..27c57a9f3 --- /dev/null +++ b/vendor/github.com/google/cel-go/parser/unescape.go @@ -0,0 +1,237 @@ +// Copyright 2018 Google LLC +// +// Licensed under the Apache License, Version 2.0 (the "License"); +// you may not use this file except in compliance with the License. +// You may obtain a copy of the License at +// +// http://www.apache.org/licenses/LICENSE-2.0 +// +// Unless required by applicable law or agreed to in writing, software +// distributed under the License is distributed on an "AS IS" BASIS, +// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. +// See the License for the specific language governing permissions and +// limitations under the License. + +package parser + +import ( + "fmt" + "strings" + "unicode/utf8" +) + +// Unescape takes a quoted string, unquotes, and unescapes it. +// +// This function performs escaping compatible with GoogleSQL. +func unescape(value string, isBytes bool) (string, error) { + // All strings normalize newlines to the \n representation. + value = newlineNormalizer.Replace(value) + n := len(value) + + // Nothing to unescape / decode. + if n < 2 { + return value, fmt.Errorf("unable to unescape string") + } + + // Raw string preceded by the 'r|R' prefix. + isRawLiteral := false + if value[0] == 'r' || value[0] == 'R' { + value = value[1:] + n = len(value) + isRawLiteral = true + } + + // Quoted string of some form, must have same first and last char. + if value[0] != value[n-1] || (value[0] != '"' && value[0] != '\'') { + return value, fmt.Errorf("unable to unescape string") + } + + // Normalize the multi-line CEL string representation to a standard + // Go quoted string. + if n >= 6 { + if strings.HasPrefix(value, "'''") { + if !strings.HasSuffix(value, "'''") { + return value, fmt.Errorf("unable to unescape string") + } + value = "\"" + value[3:n-3] + "\"" + } else if strings.HasPrefix(value, `"""`) { + if !strings.HasSuffix(value, `"""`) { + return value, fmt.Errorf("unable to unescape string") + } + value = "\"" + value[3:n-3] + "\"" + } + n = len(value) + } + value = value[1 : n-1] + // If there is nothing to escape, then return. + if isRawLiteral || !strings.ContainsRune(value, '\\') { + return value, nil + } + + // Otherwise the string contains escape characters. + // The following logic is adapted from `strconv/quote.go` + var runeTmp [utf8.UTFMax]byte + buf := make([]byte, 0, 3*n/2) + for len(value) > 0 { + c, encode, rest, err := unescapeChar(value, isBytes) + if err != nil { + return "", err + } + value = rest + if c < utf8.RuneSelf || !encode { + buf = append(buf, byte(c)) + } else { + n := utf8.EncodeRune(runeTmp[:], c) + buf = append(buf, runeTmp[:n]...) + } + } + return string(buf), nil +} + +// unescapeChar takes a string input and returns the following info: +// +// value - the escaped unicode rune at the front of the string. +// encode - the value should be unicode-encoded +// tail - the remainder of the input string. +// err - error value, if the character could not be unescaped. +// +// When encode is true the return value may still fit within a single byte, +// but unicode encoding is attempted which is more expensive than when the +// value is known to self-represent as a single byte. +// +// If isBytes is set, unescape as a bytes literal so octal and hex escapes +// represent byte values, not unicode code points. +func unescapeChar(s string, isBytes bool) (value rune, encode bool, tail string, err error) { + // 1. Character is not an escape sequence. + switch c := s[0]; { + case c >= utf8.RuneSelf: + r, size := utf8.DecodeRuneInString(s) + return r, true, s[size:], nil + case c != '\\': + return rune(s[0]), false, s[1:], nil + } + + // 2. Last character is the start of an escape sequence. + if len(s) <= 1 { + err = fmt.Errorf("unable to unescape string, found '\\' as last character") + return + } + + c := s[1] + s = s[2:] + // 3. Common escape sequences shared with Google SQL + switch c { + case 'a': + value = '\a' + case 'b': + value = '\b' + case 'f': + value = '\f' + case 'n': + value = '\n' + case 'r': + value = '\r' + case 't': + value = '\t' + case 'v': + value = '\v' + case '\\': + value = '\\' + case '\'': + value = '\'' + case '"': + value = '"' + case '`': + value = '`' + case '?': + value = '?' + + // 4. Unicode escape sequences, reproduced from `strconv/quote.go` + case 'x', 'X', 'u', 'U': + n := 0 + encode = true + switch c { + case 'x', 'X': + n = 2 + encode = !isBytes + case 'u': + n = 4 + if isBytes { + err = fmt.Errorf("unable to unescape string") + return + } + case 'U': + n = 8 + if isBytes { + err = fmt.Errorf("unable to unescape string") + return + } + } + var v rune + if len(s) < n { + err = fmt.Errorf("unable to unescape string") + return + } + for j := 0; j < n; j++ { + x, ok := unhex(s[j]) + if !ok { + err = fmt.Errorf("unable to unescape string") + return + } + v = v<<4 | x + } + s = s[n:] + if !isBytes && v > utf8.MaxRune { + err = fmt.Errorf("unable to unescape string") + return + } + value = v + + // 5. Octal escape sequences, must be three digits \[0-3][0-7][0-7] + case '0', '1', '2', '3': + if len(s) < 2 { + err = fmt.Errorf("unable to unescape octal sequence in string") + return + } + v := rune(c - '0') + for j := 0; j < 2; j++ { + x := s[j] + if x < '0' || x > '7' { + err = fmt.Errorf("unable to unescape octal sequence in string") + return + } + v = v*8 + rune(x-'0') + } + if !isBytes && v > utf8.MaxRune { + err = fmt.Errorf("unable to unescape string") + return + } + value = v + s = s[2:] + encode = !isBytes + + // Unknown escape sequence. + default: + err = fmt.Errorf("unable to unescape string") + } + + tail = s + return +} + +func unhex(b byte) (rune, bool) { + c := rune(b) + switch { + case '0' <= c && c <= '9': + return c - '0', true + case 'a' <= c && c <= 'f': + return c - 'a' + 10, true + case 'A' <= c && c <= 'F': + return c - 'A' + 10, true + } + return 0, false +} + +var ( + newlineNormalizer = strings.NewReplacer("\r\n", "\n", "\r", "\n") +) diff --git a/vendor/github.com/google/cel-go/parser/unparser.go b/vendor/github.com/google/cel-go/parser/unparser.go new file mode 100644 index 000000000..6a610ff76 --- /dev/null +++ b/vendor/github.com/google/cel-go/parser/unparser.go @@ -0,0 +1,446 @@ +// Copyright 2019 Google LLC +// +// Licensed under the Apache License, Version 2.0 (the "License"); +// you may not use this file except in compliance with the License. +// You may obtain a copy of the License at +// +// http://www.apache.org/licenses/LICENSE-2.0 +// +// Unless required by applicable law or agreed to in writing, software +// distributed under the License is distributed on an "AS IS" BASIS, +// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. +// See the License for the specific language governing permissions and +// limitations under the License. + +package parser + +import ( + "errors" + "fmt" + "strconv" + "strings" + + "github.com/google/cel-go/common/operators" + + exprpb "google.golang.org/genproto/googleapis/api/expr/v1alpha1" +) + +// Unparse takes an input expression and source position information and generates a human-readable +// expression. +// +// Note, unparsing an AST will often generate the same expression as was originally parsed, but some +// formatting may be lost in translation, notably: +// +// - All quoted literals are doubled quoted. +// - Byte literals are represented as octal escapes (same as Google SQL). +// - Floating point values are converted to the small number of digits needed to represent the value. +// - Spacing around punctuation marks may be lost. +// - Parentheses will only be applied when they affect operator precedence. +func Unparse(expr *exprpb.Expr, info *exprpb.SourceInfo) (string, error) { + un := &unparser{info: info} + err := un.visit(expr) + if err != nil { + return "", err + } + return un.str.String(), nil +} + +// unparser visits an expression to reconstruct a human-readable string from an AST. +type unparser struct { + str strings.Builder + info *exprpb.SourceInfo +} + +func (un *unparser) visit(expr *exprpb.Expr) error { + if expr == nil { + return errors.New("unsupported expression") + } + visited, err := un.visitMaybeMacroCall(expr) + if visited || err != nil { + return err + } + switch expr.ExprKind.(type) { + case *exprpb.Expr_CallExpr: + return un.visitCall(expr) + case *exprpb.Expr_ConstExpr: + return un.visitConst(expr) + case *exprpb.Expr_IdentExpr: + return un.visitIdent(expr) + case *exprpb.Expr_ListExpr: + return un.visitList(expr) + case *exprpb.Expr_SelectExpr: + return un.visitSelect(expr) + case *exprpb.Expr_StructExpr: + return un.visitStruct(expr) + default: + return fmt.Errorf("unsupported expression: %v", expr) + } +} + +func (un *unparser) visitCall(expr *exprpb.Expr) error { + c := expr.GetCallExpr() + fun := c.GetFunction() + switch fun { + // ternary operator + case operators.Conditional: + return un.visitCallConditional(expr) + // index operator + case operators.Index: + return un.visitCallIndex(expr) + // unary operators + case operators.LogicalNot, operators.Negate: + return un.visitCallUnary(expr) + // binary operators + case operators.Add, + operators.Divide, + operators.Equals, + operators.Greater, + operators.GreaterEquals, + operators.In, + operators.Less, + operators.LessEquals, + operators.LogicalAnd, + operators.LogicalOr, + operators.Modulo, + operators.Multiply, + operators.NotEquals, + operators.OldIn, + operators.Subtract: + return un.visitCallBinary(expr) + // standard function calls. + default: + return un.visitCallFunc(expr) + } +} + +func (un *unparser) visitCallBinary(expr *exprpb.Expr) error { + c := expr.GetCallExpr() + fun := c.GetFunction() + args := c.GetArgs() + lhs := args[0] + // add parens if the current operator is lower precedence than the lhs expr operator. + lhsParen := isComplexOperatorWithRespectTo(fun, lhs) + rhs := args[1] + // add parens if the current operator is lower precedence than the rhs expr operator, + // or the same precedence and the operator is left recursive. + rhsParen := isComplexOperatorWithRespectTo(fun, rhs) + if !rhsParen && isLeftRecursive(fun) { + rhsParen = isSamePrecedence(fun, rhs) + } + err := un.visitMaybeNested(lhs, lhsParen) + if err != nil { + return err + } + unmangled, found := operators.FindReverseBinaryOperator(fun) + if !found { + return fmt.Errorf("cannot unmangle operator: %s", fun) + } + un.str.WriteString(" ") + un.str.WriteString(unmangled) + un.str.WriteString(" ") + return un.visitMaybeNested(rhs, rhsParen) +} + +func (un *unparser) visitCallConditional(expr *exprpb.Expr) error { + c := expr.GetCallExpr() + args := c.GetArgs() + // add parens if operand is a conditional itself. + nested := isSamePrecedence(operators.Conditional, args[0]) || + isComplexOperator(args[0]) + err := un.visitMaybeNested(args[0], nested) + if err != nil { + return err + } + un.str.WriteString(" ? ") + // add parens if operand is a conditional itself. + nested = isSamePrecedence(operators.Conditional, args[1]) || + isComplexOperator(args[1]) + err = un.visitMaybeNested(args[1], nested) + if err != nil { + return err + } + un.str.WriteString(" : ") + // add parens if operand is a conditional itself. + nested = isSamePrecedence(operators.Conditional, args[2]) || + isComplexOperator(args[2]) + + return un.visitMaybeNested(args[2], nested) +} + +func (un *unparser) visitCallFunc(expr *exprpb.Expr) error { + c := expr.GetCallExpr() + fun := c.GetFunction() + args := c.GetArgs() + if c.GetTarget() != nil { + nested := isBinaryOrTernaryOperator(c.GetTarget()) + err := un.visitMaybeNested(c.GetTarget(), nested) + if err != nil { + return err + } + un.str.WriteString(".") + } + un.str.WriteString(fun) + un.str.WriteString("(") + for i, arg := range args { + err := un.visit(arg) + if err != nil { + return err + } + if i < len(args)-1 { + un.str.WriteString(", ") + } + } + un.str.WriteString(")") + return nil +} + +func (un *unparser) visitCallIndex(expr *exprpb.Expr) error { + c := expr.GetCallExpr() + args := c.GetArgs() + nested := isBinaryOrTernaryOperator(args[0]) + err := un.visitMaybeNested(args[0], nested) + if err != nil { + return err + } + un.str.WriteString("[") + err = un.visit(args[1]) + if err != nil { + return err + } + un.str.WriteString("]") + return nil +} + +func (un *unparser) visitCallUnary(expr *exprpb.Expr) error { + c := expr.GetCallExpr() + fun := c.GetFunction() + args := c.GetArgs() + unmangled, found := operators.FindReverse(fun) + if !found { + return fmt.Errorf("cannot unmangle operator: %s", fun) + } + un.str.WriteString(unmangled) + nested := isComplexOperator(args[0]) + return un.visitMaybeNested(args[0], nested) +} + +func (un *unparser) visitConst(expr *exprpb.Expr) error { + c := expr.GetConstExpr() + switch c.ConstantKind.(type) { + case *exprpb.Constant_BoolValue: + un.str.WriteString(strconv.FormatBool(c.GetBoolValue())) + case *exprpb.Constant_BytesValue: + // bytes constants are surrounded with b"" + b := c.GetBytesValue() + un.str.WriteString(`b"`) + un.str.WriteString(bytesToOctets(b)) + un.str.WriteString(`"`) + case *exprpb.Constant_DoubleValue: + // represent the float using the minimum required digits + d := strconv.FormatFloat(c.GetDoubleValue(), 'g', -1, 64) + un.str.WriteString(d) + case *exprpb.Constant_Int64Value: + i := strconv.FormatInt(c.GetInt64Value(), 10) + un.str.WriteString(i) + case *exprpb.Constant_NullValue: + un.str.WriteString("null") + case *exprpb.Constant_StringValue: + // strings will be double quoted with quotes escaped. + un.str.WriteString(strconv.Quote(c.GetStringValue())) + case *exprpb.Constant_Uint64Value: + // uint literals have a 'u' suffix. + ui := strconv.FormatUint(c.GetUint64Value(), 10) + un.str.WriteString(ui) + un.str.WriteString("u") + default: + return fmt.Errorf("unsupported constant: %v", expr) + } + return nil +} + +func (un *unparser) visitIdent(expr *exprpb.Expr) error { + un.str.WriteString(expr.GetIdentExpr().GetName()) + return nil +} + +func (un *unparser) visitList(expr *exprpb.Expr) error { + l := expr.GetListExpr() + elems := l.GetElements() + un.str.WriteString("[") + for i, elem := range elems { + err := un.visit(elem) + if err != nil { + return err + } + if i < len(elems)-1 { + un.str.WriteString(", ") + } + } + un.str.WriteString("]") + return nil +} + +func (un *unparser) visitSelect(expr *exprpb.Expr) error { + sel := expr.GetSelectExpr() + // handle the case when the select expression was generated by the has() macro. + if sel.GetTestOnly() { + un.str.WriteString("has(") + } + nested := !sel.GetTestOnly() && isBinaryOrTernaryOperator(sel.GetOperand()) + err := un.visitMaybeNested(sel.GetOperand(), nested) + if err != nil { + return err + } + un.str.WriteString(".") + un.str.WriteString(sel.GetField()) + if sel.GetTestOnly() { + un.str.WriteString(")") + } + return nil +} + +func (un *unparser) visitStruct(expr *exprpb.Expr) error { + s := expr.GetStructExpr() + // If the message name is non-empty, then this should be treated as message construction. + if s.GetMessageName() != "" { + return un.visitStructMsg(expr) + } + // Otherwise, build a map. + return un.visitStructMap(expr) +} + +func (un *unparser) visitStructMsg(expr *exprpb.Expr) error { + m := expr.GetStructExpr() + entries := m.GetEntries() + un.str.WriteString(m.GetMessageName()) + un.str.WriteString("{") + for i, entry := range entries { + f := entry.GetFieldKey() + un.str.WriteString(f) + un.str.WriteString(": ") + v := entry.GetValue() + err := un.visit(v) + if err != nil { + return err + } + if i < len(entries)-1 { + un.str.WriteString(", ") + } + } + un.str.WriteString("}") + return nil +} + +func (un *unparser) visitStructMap(expr *exprpb.Expr) error { + m := expr.GetStructExpr() + entries := m.GetEntries() + un.str.WriteString("{") + for i, entry := range entries { + k := entry.GetMapKey() + err := un.visit(k) + if err != nil { + return err + } + un.str.WriteString(": ") + v := entry.GetValue() + err = un.visit(v) + if err != nil { + return err + } + if i < len(entries)-1 { + un.str.WriteString(", ") + } + } + un.str.WriteString("}") + return nil +} + +func (un *unparser) visitMaybeMacroCall(expr *exprpb.Expr) (bool, error) { + macroCalls := un.info.GetMacroCalls() + call, found := macroCalls[expr.GetId()] + if !found { + return false, nil + } + return true, un.visit(call) +} + +func (un *unparser) visitMaybeNested(expr *exprpb.Expr, nested bool) error { + if nested { + un.str.WriteString("(") + } + err := un.visit(expr) + if err != nil { + return err + } + if nested { + un.str.WriteString(")") + } + return nil +} + +// isLeftRecursive indicates whether the parser resolves the call in a left-recursive manner as +// this can have an effect of how parentheses affect the order of operations in the AST. +func isLeftRecursive(op string) bool { + return op != operators.LogicalAnd && op != operators.LogicalOr +} + +// isSamePrecedence indicates whether the precedence of the input operator is the same as the +// precedence of the (possible) operation represented in the input Expr. +// +// If the expr is not a Call, the result is false. +func isSamePrecedence(op string, expr *exprpb.Expr) bool { + if expr.GetCallExpr() == nil { + return false + } + c := expr.GetCallExpr() + other := c.GetFunction() + return operators.Precedence(op) == operators.Precedence(other) +} + +// isLowerPrecedence indicates whether the precedence of the input operator is lower precedence +// than the (possible) operation represented in the input Expr. +// +// If the expr is not a Call, the result is false. +func isLowerPrecedence(op string, expr *exprpb.Expr) bool { + c := expr.GetCallExpr() + other := c.GetFunction() + return operators.Precedence(op) < operators.Precedence(other) +} + +// Indicates whether the expr is a complex operator, i.e., a call expression +// with 2 or more arguments. +func isComplexOperator(expr *exprpb.Expr) bool { + if expr.GetCallExpr() != nil && len(expr.GetCallExpr().GetArgs()) >= 2 { + return true + } + return false +} + +// Indicates whether it is a complex operation compared to another. +// expr is *not* considered complex if it is not a call expression or has +// less than two arguments, or if it has a higher precedence than op. +func isComplexOperatorWithRespectTo(op string, expr *exprpb.Expr) bool { + if expr.GetCallExpr() == nil || len(expr.GetCallExpr().GetArgs()) < 2 { + return false + } + return isLowerPrecedence(op, expr) +} + +// Indicate whether this is a binary or ternary operator. +func isBinaryOrTernaryOperator(expr *exprpb.Expr) bool { + if expr.GetCallExpr() == nil || len(expr.GetCallExpr().GetArgs()) < 2 { + return false + } + _, isBinaryOp := operators.FindReverseBinaryOperator(expr.GetCallExpr().GetFunction()) + return isBinaryOp || isSamePrecedence(operators.Conditional, expr) +} + +// bytesToOctets converts byte sequences to a string using a three digit octal encoded value +// per byte. +func bytesToOctets(byteVal []byte) string { + var b strings.Builder + for _, c := range byteVal { + fmt.Fprintf(&b, "\\%03o", c) + } + return b.String() +} diff --git a/vendor/github.com/operator-framework/api/pkg/constraints/cel.go b/vendor/github.com/operator-framework/api/pkg/constraints/cel.go new file mode 100644 index 000000000..1fb10b5dd --- /dev/null +++ b/vendor/github.com/operator-framework/api/pkg/constraints/cel.go @@ -0,0 +1,135 @@ +package constraints + +import ( + "fmt" + + "github.com/google/cel-go/cel" + "github.com/google/cel-go/checker/decls" + "github.com/google/cel-go/common/types" + "github.com/google/cel-go/common/types/ref" + "github.com/google/cel-go/interpreter/functions" + exprpb "google.golang.org/genproto/googleapis/api/expr/v1alpha1" + + "github.com/blang/semver/v4" +) + +// PropertiesKey is the key for bundle properties map (input data for CEL evaluation) +const PropertiesKey = "properties" + +// Cel is a struct representing CEL expression information +type Cel struct { + // The CEL expression + Rule string `json:"rule" yaml:"rule"` +} + +// NewCelEnvironment returns a CEL environment which can be used to +// evaluate CEL expression and an error if occurs +func NewCelEnvironment() *CelEnvironment { + env, err := cel.NewEnv(cel.Declarations( + decls.NewVar(PropertiesKey, decls.NewListType(decls.NewMapType(decls.String, decls.Any)))), + cel.Lib(semverLib{}), + ) + // If an error occurs here, it means the CEL enviroment is unable to load + // configuration for custom libraries propertly. Hence, the CEL enviroment is + // unusable. Panic here will cause the program to fail immediately to prevent + // cascading failures later on when this CEL env is in use. + if err != nil { + panic(err) + } + return &CelEnvironment{ + env: env, + } +} + +// CelEnvironment is a struct that encapsulates CEL custom program enviroment +type CelEnvironment struct { + env *cel.Env +} + +// CelProgram is a struct that encapsulates compiled CEL program +type CelProgram struct { + program cel.Program +} + +/* +This section of code is for custom library for semver comparison in CEL +The code is inspired by https://github.com/google/cel-go/blob/master/cel/cel_test.go#L46 + +The semver_compare is written based on `Compare` function in https://github.com/blang/semver +particularly in https://github.com/blang/semver/blob/master/semver.go#L125 + +Example: +`semver_compare(v1, v2)` is equivalent of `v1.Compare(v2)` in blang/semver library + +The result is `semver_compare` is an integer just like `Compare`. So, the CEL +expression `semver_compare(v1, v2) == 0` is equivalent v1.Compare(v2) == 0. In +the other words, it checks if v1 is equal to v2 in term of semver comparision. +*/ +type semverLib struct{} + +func (semverLib) CompileOptions() []cel.EnvOption { + return []cel.EnvOption{ + cel.Declarations( + decls.NewFunction("semver_compare", + decls.NewOverload("semver_compare", + []*exprpb.Type{decls.Any, decls.Any}, + decls.Int))), + } +} + +func (semverLib) ProgramOptions() []cel.ProgramOption { + return []cel.ProgramOption{ + cel.Functions( + &functions.Overload{ + Operator: "semver_compare", + Binary: semverCompare, + }, + ), + } +} + +func semverCompare(val1, val2 ref.Val) ref.Val { + v1, err := semver.ParseTolerant(fmt.Sprint(val1.Value())) + if err != nil { + return types.ValOrErr(val1, "unable to parse '%v' to semver format", val1.Value()) + } + + v2, err := semver.ParseTolerant(fmt.Sprint(val2.Value())) + if err != nil { + return types.ValOrErr(val2, "unable to parse '%v' to semver format", val2.Value()) + } + return types.Int(v1.Compare(v2)) +} + +// Evaluate to evaluate the compiled CEL program against input data (map) +func (e CelProgram) Evaluate(data map[string]interface{}) (bool, error) { + result, _, err := e.program.Eval(data) + if err != nil { + return false, err + } + + // we should have already ensured that this will be types.Bool during compilation + if b, ok := result.Value().(bool); ok { + return b, nil + } + return false, fmt.Errorf("cel expression evalutated to %T, not bool", result.Value()) +} + +// Validate to validate the CEL expression string by compiling it into CEL program +func (e *CelEnvironment) Validate(rule string) (CelProgram, error) { + var celProg CelProgram + ast, issues := e.env.Compile(rule) + if err := issues.Err(); err != nil { + return celProg, err + } + + if ast.ResultType() != decls.Bool { + return celProg, fmt.Errorf("cel expressions must have type Bool") + } + + prog, err := e.env.Program(ast) + if err != nil { + return celProg, err + } + return CelProgram{program: prog}, nil +} diff --git a/vendor/github.com/operator-framework/api/pkg/constraints/constraint.go b/vendor/github.com/operator-framework/api/pkg/constraints/constraint.go new file mode 100644 index 000000000..d59d04542 --- /dev/null +++ b/vendor/github.com/operator-framework/api/pkg/constraints/constraint.go @@ -0,0 +1,86 @@ +package constraints + +import ( + "bytes" + "encoding/json" + "fmt" +) + +// OLMConstraintType is the schema "type" key for all constraints known to OLM +// (except for legacy types). +const OLMConstraintType = "olm.constraint" + +// Constraint holds parsed, potentially nested dependency constraints. +type Constraint struct { + // Constraint message that surfaces in resolution + // This field is optional + Message string `json:"message,omitempty" yaml:"message,omitempty"` + + // The cel struct that contraints CEL expression + Cel *Cel `json:"cel,omitempty" yaml:"cel,omitempty"` + + // Package defines a constraint for a package within a version range. + Package *PackageConstraint `json:"package,omitempty" yaml:"package,omitempty"` + + // GVK defines a constraint for a GVK. + GVK *GVKConstraint `json:"gvk,omitempty" yaml:"gvk,omitempty"` + + // All, Any, and None are compound constraints. See this enhancement for details: + // https://github.com/operator-framework/enhancements/blob/master/enhancements/compound-bundle-constraints.md + All *CompoundConstraint `json:"all,omitempty" yaml:"all,omitempty"` + Any *CompoundConstraint `json:"any,omitempty" yaml:"any,omitempty"` + // A note on None: this constraint is not particularly useful by itself. + // It should be used within an All constraint alongside some other constraint type + // since saying "none of these GVKs/packages/etc." without an alternative doesn't make sense. + None *CompoundConstraint `json:"none,omitempty" yaml:"none,omitempty"` +} + +// CompoundConstraint holds a list of potentially nested constraints +// over which a boolean operation is applied. +type CompoundConstraint struct { + Constraints []Constraint `json:"constraints" yaml:"constraints"` +} + +// GVKConstraint defines a GVK constraint. +type GVKConstraint struct { + Group string `json:"group" yaml:"group"` + Kind string `json:"kind" yaml:"kind"` + Version string `json:"version" yaml:"version"` +} + +// PackageConstraint defines a package constraint. +type PackageConstraint struct { + // PackageName is the name of the package. + PackageName string `json:"packageName" yaml:"packageName"` + // VersionRange required for the package. + VersionRange string `json:"versionRange" yaml:"versionRange"` +} + +// maxConstraintSize defines the maximum raw size in bytes of an olm.constraint. +// 64Kb seems reasonable, since this number allows for long description strings +// and either few deep nestings or shallow nestings and long constraints lists, +// but not both. +// QUESTION: make this configurable? +const maxConstraintSize = 2 << 16 + +// ErrMaxConstraintSizeExceeded is returned when a constraint's size > maxConstraintSize. +var ErrMaxConstraintSizeExceeded = fmt.Errorf("olm.constraint value is greater than max constraint size %d bytes", maxConstraintSize) + +// Parse parses an olm.constraint property's value recursively into a Constraint. +// Unknown value schemas result in an error. Constraints that exceed the number of bytes +// defined by maxConstraintSize result results in an error. +func Parse(v json.RawMessage) (c Constraint, err error) { + // There is no way to explicitly limit nesting depth. + // From https://github.com/golang/go/issues/31789#issuecomment-538134396, + // the recommended approach is to error out if raw input size + // is greater than some threshold. + if len(v) > maxConstraintSize { + return c, ErrMaxConstraintSizeExceeded + } + + d := json.NewDecoder(bytes.NewBuffer(v)) + d.DisallowUnknownFields() + err = d.Decode(&c) + + return +} diff --git a/vendor/github.com/stoewer/go-strcase/.gitignore b/vendor/github.com/stoewer/go-strcase/.gitignore new file mode 100644 index 000000000..db5247b94 --- /dev/null +++ b/vendor/github.com/stoewer/go-strcase/.gitignore @@ -0,0 +1,17 @@ +# Compiled Object files, Static and Dynamic libs (Shared Objects) +*.o +*.a +*.so + +# Folders +vendor +doc + +# Temporary files +*~ +*.swp + +# Editor and IDE config +.idea +*.iml +.vscode diff --git a/vendor/github.com/stoewer/go-strcase/.golangci.yml b/vendor/github.com/stoewer/go-strcase/.golangci.yml new file mode 100644 index 000000000..7f98d55c4 --- /dev/null +++ b/vendor/github.com/stoewer/go-strcase/.golangci.yml @@ -0,0 +1,26 @@ +run: + deadline: 10m + +linters: + enable: + - dupl + - goconst + - gocyclo + - godox + - gosec + - interfacer + - lll + - maligned + - misspell + - prealloc + - stylecheck + - unconvert + - unparam + - errcheck + - golint + - gofmt + disable: [] + fast: false + +issues: + exclude-use-default: false diff --git a/vendor/github.com/stoewer/go-strcase/LICENSE b/vendor/github.com/stoewer/go-strcase/LICENSE new file mode 100644 index 000000000..a105a3819 --- /dev/null +++ b/vendor/github.com/stoewer/go-strcase/LICENSE @@ -0,0 +1,21 @@ +The MIT License (MIT) + +Copyright (c) 2017, Adrian Stoewer + +Permission is hereby granted, free of charge, to any person obtaining a copy +of this software and associated documentation files (the "Software"), to deal +in the Software without restriction, including without limitation the rights +to use, copy, modify, merge, publish, distribute, sublicense, and/or sell +copies of the Software, and to permit persons to whom the Software is +furnished to do so, subject to the following conditions: + +The above copyright notice and this permission notice shall be included in all +copies or substantial portions of the Software. + +THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR +IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, +FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE +AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER +LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, +OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE +SOFTWARE. diff --git a/vendor/github.com/stoewer/go-strcase/README.md b/vendor/github.com/stoewer/go-strcase/README.md new file mode 100644 index 000000000..0e8635d80 --- /dev/null +++ b/vendor/github.com/stoewer/go-strcase/README.md @@ -0,0 +1,50 @@ +[![CircleCI](https://circleci.com/gh/stoewer/go-strcase/tree/master.svg?style=svg)](https://circleci.com/gh/stoewer/go-strcase/tree/master) +[![codecov](https://codecov.io/gh/stoewer/go-strcase/branch/master/graph/badge.svg)](https://codecov.io/gh/stoewer/go-strcase) +[![GoDoc](https://godoc.org/github.com/stoewer/go-strcase?status.svg)](https://pkg.go.dev/github.com/stoewer/go-strcase) +--- + +Go strcase +========== + +The package `strcase` converts between different kinds of naming formats such as camel case +(`CamelCase`), snake case (`snake_case`) or kebab case (`kebab-case`). +The package is designed to work only with strings consisting of standard ASCII letters. +Unicode is currently not supported. + +Versioning and stability +------------------------ + +Although the master branch is supposed to remain always backward compatible, the repository +contains version tags in order to support vendoring tools. +The tag names follow semantic versioning conventions and have the following format `v1.0.0`. +This package supports Go modules introduced with version 1.11. + +Example +------- + +```go +import "github.com/stoewer/go-strcase" + +var snake = strcase.SnakeCase("CamelCase") +``` + +Dependencies +------------ + +### Build dependencies + +* none + +### Test dependencies + +* `github.com/stretchr/testify` + +Run linters and unit tests +-------------------------- + +To run the static code analysis, linters and tests use the following commands: + +``` +golangci-lint run --config .golangci.yml ./... +go test ./... +``` diff --git a/vendor/github.com/stoewer/go-strcase/camel.go b/vendor/github.com/stoewer/go-strcase/camel.go new file mode 100644 index 000000000..5c233cc8f --- /dev/null +++ b/vendor/github.com/stoewer/go-strcase/camel.go @@ -0,0 +1,37 @@ +// Copyright (c) 2017, A. Stoewer +// All rights reserved. + +package strcase + +import ( + "strings" +) + +// UpperCamelCase converts a string into camel case starting with a upper case letter. +func UpperCamelCase(s string) string { + return camelCase(s, true) +} + +// LowerCamelCase converts a string into camel case starting with a lower case letter. +func LowerCamelCase(s string) string { + return camelCase(s, false) +} + +func camelCase(s string, upper bool) string { + s = strings.TrimSpace(s) + buffer := make([]rune, 0, len(s)) + + stringIter(s, func(prev, curr, next rune) { + if !isDelimiter(curr) { + if isDelimiter(prev) || (upper && prev == 0) { + buffer = append(buffer, toUpper(curr)) + } else if isLower(prev) { + buffer = append(buffer, curr) + } else { + buffer = append(buffer, toLower(curr)) + } + } + }) + + return string(buffer) +} diff --git a/vendor/github.com/stoewer/go-strcase/doc.go b/vendor/github.com/stoewer/go-strcase/doc.go new file mode 100644 index 000000000..3e441ca3e --- /dev/null +++ b/vendor/github.com/stoewer/go-strcase/doc.go @@ -0,0 +1,8 @@ +// Copyright (c) 2017, A. Stoewer +// All rights reserved. + +// Package strcase converts between different kinds of naming formats such as camel case +// (CamelCase), snake case (snake_case) or kebab case (kebab-case). The package is designed +// to work only with strings consisting of standard ASCII letters. Unicode is currently not +// supported. +package strcase diff --git a/vendor/github.com/stoewer/go-strcase/go.mod b/vendor/github.com/stoewer/go-strcase/go.mod new file mode 100644 index 000000000..8a360abe1 --- /dev/null +++ b/vendor/github.com/stoewer/go-strcase/go.mod @@ -0,0 +1,5 @@ +module github.com/stoewer/go-strcase + +go 1.11 + +require github.com/stretchr/testify v1.5.1 diff --git a/vendor/github.com/stoewer/go-strcase/go.sum b/vendor/github.com/stoewer/go-strcase/go.sum new file mode 100644 index 000000000..331fa6982 --- /dev/null +++ b/vendor/github.com/stoewer/go-strcase/go.sum @@ -0,0 +1,11 @@ +github.com/davecgh/go-spew v1.1.0 h1:ZDRjVQ15GmhC3fiQ8ni8+OwkZQO4DARzQgrnXU1Liz8= +github.com/davecgh/go-spew v1.1.0/go.mod h1:J7Y8YcW2NihsgmVo/mv3lAwl/skON4iLHjSsI+c5H38= +github.com/pmezard/go-difflib v1.0.0 h1:4DBwDE0NGyQoBHbLQYPwSUPoCMWR5BEzIk/f1lZbAQM= +github.com/pmezard/go-difflib v1.0.0/go.mod h1:iKH77koFhYxTK1pcRnkKkqfTogsbg7gZNVY4sRDYZ/4= +github.com/stretchr/objx v0.1.0/go.mod h1:HFkY916IF+rwdDfMAkV7OtwuqBVzrE8GR6GFx+wExME= +github.com/stretchr/testify v1.5.1 h1:nOGnQDM7FYENwehXlg/kFVnos3rEvtKTjRvOWSzb6H4= +github.com/stretchr/testify v1.5.1/go.mod h1:5W2xD1RspED5o8YsWQXVCued0rvSQ+mT+I5cxcmMvtA= +gopkg.in/check.v1 v0.0.0-20161208181325-20d25e280405 h1:yhCVgyC4o1eVCa2tZl7eS0r+SDo693bJlVdllGtEeKM= +gopkg.in/check.v1 v0.0.0-20161208181325-20d25e280405/go.mod h1:Co6ibVJAznAaIkqp8huTwlJQCZ016jof/cbN4VW5Yz0= +gopkg.in/yaml.v2 v2.2.2 h1:ZCJp+EgiOT7lHqUV2J862kp8Qj64Jo6az82+3Td9dZw= +gopkg.in/yaml.v2 v2.2.2/go.mod h1:hI93XBmqTisBFMUTm0b8Fm+jr3Dg1NNxqwp+5A1VGuI= diff --git a/vendor/github.com/stoewer/go-strcase/helper.go b/vendor/github.com/stoewer/go-strcase/helper.go new file mode 100644 index 000000000..ecad58914 --- /dev/null +++ b/vendor/github.com/stoewer/go-strcase/helper.go @@ -0,0 +1,71 @@ +// Copyright (c) 2017, A. Stoewer +// All rights reserved. + +package strcase + +// isLower checks if a character is lower case. More precisely it evaluates if it is +// in the range of ASCII character 'a' to 'z'. +func isLower(ch rune) bool { + return ch >= 'a' && ch <= 'z' +} + +// toLower converts a character in the range of ASCII characters 'A' to 'Z' to its lower +// case counterpart. Other characters remain the same. +func toLower(ch rune) rune { + if ch >= 'A' && ch <= 'Z' { + return ch + 32 + } + return ch +} + +// isLower checks if a character is upper case. More precisely it evaluates if it is +// in the range of ASCII characters 'A' to 'Z'. +func isUpper(ch rune) bool { + return ch >= 'A' && ch <= 'Z' +} + +// toLower converts a character in the range of ASCII characters 'a' to 'z' to its lower +// case counterpart. Other characters remain the same. +func toUpper(ch rune) rune { + if ch >= 'a' && ch <= 'z' { + return ch - 32 + } + return ch +} + +// isSpace checks if a character is some kind of whitespace. +func isSpace(ch rune) bool { + return ch == ' ' || ch == '\t' || ch == '\n' || ch == '\r' +} + +// isDelimiter checks if a character is some kind of whitespace or '_' or '-'. +func isDelimiter(ch rune) bool { + return ch == '-' || ch == '_' || isSpace(ch) +} + +// iterFunc is a callback that is called fro a specific position in a string. Its arguments are the +// rune at the respective string position as well as the previous and the next rune. If curr is at the +// first position of the string prev is zero. If curr is at the end of the string next is zero. +type iterFunc func(prev, curr, next rune) + +// stringIter iterates over a string, invoking the callback for every single rune in the string. +func stringIter(s string, callback iterFunc) { + var prev rune + var curr rune + for _, next := range s { + if curr == 0 { + prev = curr + curr = next + continue + } + + callback(prev, curr, next) + + prev = curr + curr = next + } + + if len(s) > 0 { + callback(prev, curr, 0) + } +} diff --git a/vendor/github.com/stoewer/go-strcase/kebab.go b/vendor/github.com/stoewer/go-strcase/kebab.go new file mode 100644 index 000000000..e9a648757 --- /dev/null +++ b/vendor/github.com/stoewer/go-strcase/kebab.go @@ -0,0 +1,14 @@ +// Copyright (c) 2017, A. Stoewer +// All rights reserved. + +package strcase + +// KebabCase converts a string into kebab case. +func KebabCase(s string) string { + return delimiterCase(s, '-', false) +} + +// UpperKebabCase converts a string into kebab case with capital letters. +func UpperKebabCase(s string) string { + return delimiterCase(s, '-', true) +} diff --git a/vendor/github.com/stoewer/go-strcase/snake.go b/vendor/github.com/stoewer/go-strcase/snake.go new file mode 100644 index 000000000..1b216e20c --- /dev/null +++ b/vendor/github.com/stoewer/go-strcase/snake.go @@ -0,0 +1,58 @@ +// Copyright (c) 2017, A. Stoewer +// All rights reserved. + +package strcase + +import ( + "strings" +) + +// SnakeCase converts a string into snake case. +func SnakeCase(s string) string { + return delimiterCase(s, '_', false) +} + +// UpperSnakeCase converts a string into snake case with capital letters. +func UpperSnakeCase(s string) string { + return delimiterCase(s, '_', true) +} + +// delimiterCase converts a string into snake_case or kebab-case depending on the delimiter passed +// as second argument. When upperCase is true the result will be UPPER_SNAKE_CASE or UPPER-KEBAB-CASE. +func delimiterCase(s string, delimiter rune, upperCase bool) string { + s = strings.TrimSpace(s) + buffer := make([]rune, 0, len(s)+3) + + adjustCase := toLower + if upperCase { + adjustCase = toUpper + } + + var prev rune + var curr rune + for _, next := range s { + if isDelimiter(curr) { + if !isDelimiter(prev) { + buffer = append(buffer, delimiter) + } + } else if isUpper(curr) { + if isLower(prev) || (isUpper(prev) && isLower(next)) { + buffer = append(buffer, delimiter) + } + buffer = append(buffer, adjustCase(curr)) + } else if curr != 0 { + buffer = append(buffer, adjustCase(curr)) + } + prev = curr + curr = next + } + + if len(s) > 0 { + if isUpper(curr) && isLower(prev) && prev != 0 { + buffer = append(buffer, delimiter) + } + buffer = append(buffer, adjustCase(curr)) + } + + return string(buffer) +} diff --git a/vendor/google.golang.org/genproto/googleapis/api/expr/v1alpha1/checked.pb.go b/vendor/google.golang.org/genproto/googleapis/api/expr/v1alpha1/checked.pb.go new file mode 100644 index 000000000..af8596fd2 --- /dev/null +++ b/vendor/google.golang.org/genproto/googleapis/api/expr/v1alpha1/checked.pb.go @@ -0,0 +1,1641 @@ +// Copyright 2020 Google LLC +// +// Licensed under the Apache License, Version 2.0 (the "License"); +// you may not use this file except in compliance with the License. +// You may obtain a copy of the License at +// +// http://www.apache.org/licenses/LICENSE-2.0 +// +// Unless required by applicable law or agreed to in writing, software +// distributed under the License is distributed on an "AS IS" BASIS, +// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. +// See the License for the specific language governing permissions and +// limitations under the License. + +// Code generated by protoc-gen-go. DO NOT EDIT. +// versions: +// protoc-gen-go v1.26.0 +// protoc v3.12.2 +// source: google/api/expr/v1alpha1/checked.proto + +package expr + +import ( + reflect "reflect" + sync "sync" + + protoreflect "google.golang.org/protobuf/reflect/protoreflect" + protoimpl "google.golang.org/protobuf/runtime/protoimpl" + emptypb "google.golang.org/protobuf/types/known/emptypb" + structpb "google.golang.org/protobuf/types/known/structpb" +) + +const ( + // Verify that this generated code is sufficiently up-to-date. + _ = protoimpl.EnforceVersion(20 - protoimpl.MinVersion) + // Verify that runtime/protoimpl is sufficiently up-to-date. + _ = protoimpl.EnforceVersion(protoimpl.MaxVersion - 20) +) + +// CEL primitive types. +type Type_PrimitiveType int32 + +const ( + // Unspecified type. + Type_PRIMITIVE_TYPE_UNSPECIFIED Type_PrimitiveType = 0 + // Boolean type. + Type_BOOL Type_PrimitiveType = 1 + // Int64 type. + // + // Proto-based integer values are widened to int64. + Type_INT64 Type_PrimitiveType = 2 + // Uint64 type. + // + // Proto-based unsigned integer values are widened to uint64. + Type_UINT64 Type_PrimitiveType = 3 + // Double type. + // + // Proto-based float values are widened to double values. + Type_DOUBLE Type_PrimitiveType = 4 + // String type. + Type_STRING Type_PrimitiveType = 5 + // Bytes type. + Type_BYTES Type_PrimitiveType = 6 +) + +// Enum value maps for Type_PrimitiveType. +var ( + Type_PrimitiveType_name = map[int32]string{ + 0: "PRIMITIVE_TYPE_UNSPECIFIED", + 1: "BOOL", + 2: "INT64", + 3: "UINT64", + 4: "DOUBLE", + 5: "STRING", + 6: "BYTES", + } + Type_PrimitiveType_value = map[string]int32{ + "PRIMITIVE_TYPE_UNSPECIFIED": 0, + "BOOL": 1, + "INT64": 2, + "UINT64": 3, + "DOUBLE": 4, + "STRING": 5, + "BYTES": 6, + } +) + +func (x Type_PrimitiveType) Enum() *Type_PrimitiveType { + p := new(Type_PrimitiveType) + *p = x + return p +} + +func (x Type_PrimitiveType) String() string { + return protoimpl.X.EnumStringOf(x.Descriptor(), protoreflect.EnumNumber(x)) +} + +func (Type_PrimitiveType) Descriptor() protoreflect.EnumDescriptor { + return file_google_api_expr_v1alpha1_checked_proto_enumTypes[0].Descriptor() +} + +func (Type_PrimitiveType) Type() protoreflect.EnumType { + return &file_google_api_expr_v1alpha1_checked_proto_enumTypes[0] +} + +func (x Type_PrimitiveType) Number() protoreflect.EnumNumber { + return protoreflect.EnumNumber(x) +} + +// Deprecated: Use Type_PrimitiveType.Descriptor instead. +func (Type_PrimitiveType) EnumDescriptor() ([]byte, []int) { + return file_google_api_expr_v1alpha1_checked_proto_rawDescGZIP(), []int{1, 0} +} + +// Well-known protobuf types treated with first-class support in CEL. +type Type_WellKnownType int32 + +const ( + // Unspecified type. + Type_WELL_KNOWN_TYPE_UNSPECIFIED Type_WellKnownType = 0 + // Well-known protobuf.Any type. + // + // Any types are a polymorphic message type. During type-checking they are + // treated like `DYN` types, but at runtime they are resolved to a specific + // message type specified at evaluation time. + Type_ANY Type_WellKnownType = 1 + // Well-known protobuf.Timestamp type, internally referenced as `timestamp`. + Type_TIMESTAMP Type_WellKnownType = 2 + // Well-known protobuf.Duration type, internally referenced as `duration`. + Type_DURATION Type_WellKnownType = 3 +) + +// Enum value maps for Type_WellKnownType. +var ( + Type_WellKnownType_name = map[int32]string{ + 0: "WELL_KNOWN_TYPE_UNSPECIFIED", + 1: "ANY", + 2: "TIMESTAMP", + 3: "DURATION", + } + Type_WellKnownType_value = map[string]int32{ + "WELL_KNOWN_TYPE_UNSPECIFIED": 0, + "ANY": 1, + "TIMESTAMP": 2, + "DURATION": 3, + } +) + +func (x Type_WellKnownType) Enum() *Type_WellKnownType { + p := new(Type_WellKnownType) + *p = x + return p +} + +func (x Type_WellKnownType) String() string { + return protoimpl.X.EnumStringOf(x.Descriptor(), protoreflect.EnumNumber(x)) +} + +func (Type_WellKnownType) Descriptor() protoreflect.EnumDescriptor { + return file_google_api_expr_v1alpha1_checked_proto_enumTypes[1].Descriptor() +} + +func (Type_WellKnownType) Type() protoreflect.EnumType { + return &file_google_api_expr_v1alpha1_checked_proto_enumTypes[1] +} + +func (x Type_WellKnownType) Number() protoreflect.EnumNumber { + return protoreflect.EnumNumber(x) +} + +// Deprecated: Use Type_WellKnownType.Descriptor instead. +func (Type_WellKnownType) EnumDescriptor() ([]byte, []int) { + return file_google_api_expr_v1alpha1_checked_proto_rawDescGZIP(), []int{1, 1} +} + +// A CEL expression which has been successfully type checked. +type CheckedExpr struct { + state protoimpl.MessageState + sizeCache protoimpl.SizeCache + unknownFields protoimpl.UnknownFields + + // A map from expression ids to resolved references. + // + // The following entries are in this table: + // + // - An Ident or Select expression is represented here if it resolves to a + // declaration. For instance, if `a.b.c` is represented by + // `select(select(id(a), b), c)`, and `a.b` resolves to a declaration, + // while `c` is a field selection, then the reference is attached to the + // nested select expression (but not to the id or or the outer select). + // In turn, if `a` resolves to a declaration and `b.c` are field selections, + // the reference is attached to the ident expression. + // - Every Call expression has an entry here, identifying the function being + // called. + // - Every CreateStruct expression for a message has an entry, identifying + // the message. + ReferenceMap map[int64]*Reference `protobuf:"bytes,2,rep,name=reference_map,json=referenceMap,proto3" json:"reference_map,omitempty" protobuf_key:"varint,1,opt,name=key,proto3" protobuf_val:"bytes,2,opt,name=value,proto3"` + // A map from expression ids to types. + // + // Every expression node which has a type different than DYN has a mapping + // here. If an expression has type DYN, it is omitted from this map to save + // space. + TypeMap map[int64]*Type `protobuf:"bytes,3,rep,name=type_map,json=typeMap,proto3" json:"type_map,omitempty" protobuf_key:"varint,1,opt,name=key,proto3" protobuf_val:"bytes,2,opt,name=value,proto3"` + // The source info derived from input that generated the parsed `expr` and + // any optimizations made during the type-checking pass. + SourceInfo *SourceInfo `protobuf:"bytes,5,opt,name=source_info,json=sourceInfo,proto3" json:"source_info,omitempty"` + // The checked expression. Semantically equivalent to the parsed `expr`, but + // may have structural differences. + Expr *Expr `protobuf:"bytes,4,opt,name=expr,proto3" json:"expr,omitempty"` +} + +func (x *CheckedExpr) Reset() { + *x = CheckedExpr{} + if protoimpl.UnsafeEnabled { + mi := &file_google_api_expr_v1alpha1_checked_proto_msgTypes[0] + ms := protoimpl.X.MessageStateOf(protoimpl.Pointer(x)) + ms.StoreMessageInfo(mi) + } +} + +func (x *CheckedExpr) String() string { + return protoimpl.X.MessageStringOf(x) +} + +func (*CheckedExpr) ProtoMessage() {} + +func (x *CheckedExpr) ProtoReflect() protoreflect.Message { + mi := &file_google_api_expr_v1alpha1_checked_proto_msgTypes[0] + if protoimpl.UnsafeEnabled && x != nil { + ms := protoimpl.X.MessageStateOf(protoimpl.Pointer(x)) + if ms.LoadMessageInfo() == nil { + ms.StoreMessageInfo(mi) + } + return ms + } + return mi.MessageOf(x) +} + +// Deprecated: Use CheckedExpr.ProtoReflect.Descriptor instead. +func (*CheckedExpr) Descriptor() ([]byte, []int) { + return file_google_api_expr_v1alpha1_checked_proto_rawDescGZIP(), []int{0} +} + +func (x *CheckedExpr) GetReferenceMap() map[int64]*Reference { + if x != nil { + return x.ReferenceMap + } + return nil +} + +func (x *CheckedExpr) GetTypeMap() map[int64]*Type { + if x != nil { + return x.TypeMap + } + return nil +} + +func (x *CheckedExpr) GetSourceInfo() *SourceInfo { + if x != nil { + return x.SourceInfo + } + return nil +} + +func (x *CheckedExpr) GetExpr() *Expr { + if x != nil { + return x.Expr + } + return nil +} + +// Represents a CEL type. +type Type struct { + state protoimpl.MessageState + sizeCache protoimpl.SizeCache + unknownFields protoimpl.UnknownFields + + // The kind of type. + // + // Types that are assignable to TypeKind: + // *Type_Dyn + // *Type_Null + // *Type_Primitive + // *Type_Wrapper + // *Type_WellKnown + // *Type_ListType_ + // *Type_MapType_ + // *Type_Function + // *Type_MessageType + // *Type_TypeParam + // *Type_Type + // *Type_Error + // *Type_AbstractType_ + TypeKind isType_TypeKind `protobuf_oneof:"type_kind"` +} + +func (x *Type) Reset() { + *x = Type{} + if protoimpl.UnsafeEnabled { + mi := &file_google_api_expr_v1alpha1_checked_proto_msgTypes[1] + ms := protoimpl.X.MessageStateOf(protoimpl.Pointer(x)) + ms.StoreMessageInfo(mi) + } +} + +func (x *Type) String() string { + return protoimpl.X.MessageStringOf(x) +} + +func (*Type) ProtoMessage() {} + +func (x *Type) ProtoReflect() protoreflect.Message { + mi := &file_google_api_expr_v1alpha1_checked_proto_msgTypes[1] + if protoimpl.UnsafeEnabled && x != nil { + ms := protoimpl.X.MessageStateOf(protoimpl.Pointer(x)) + if ms.LoadMessageInfo() == nil { + ms.StoreMessageInfo(mi) + } + return ms + } + return mi.MessageOf(x) +} + +// Deprecated: Use Type.ProtoReflect.Descriptor instead. +func (*Type) Descriptor() ([]byte, []int) { + return file_google_api_expr_v1alpha1_checked_proto_rawDescGZIP(), []int{1} +} + +func (m *Type) GetTypeKind() isType_TypeKind { + if m != nil { + return m.TypeKind + } + return nil +} + +func (x *Type) GetDyn() *emptypb.Empty { + if x, ok := x.GetTypeKind().(*Type_Dyn); ok { + return x.Dyn + } + return nil +} + +func (x *Type) GetNull() structpb.NullValue { + if x, ok := x.GetTypeKind().(*Type_Null); ok { + return x.Null + } + return structpb.NullValue_NULL_VALUE +} + +func (x *Type) GetPrimitive() Type_PrimitiveType { + if x, ok := x.GetTypeKind().(*Type_Primitive); ok { + return x.Primitive + } + return Type_PRIMITIVE_TYPE_UNSPECIFIED +} + +func (x *Type) GetWrapper() Type_PrimitiveType { + if x, ok := x.GetTypeKind().(*Type_Wrapper); ok { + return x.Wrapper + } + return Type_PRIMITIVE_TYPE_UNSPECIFIED +} + +func (x *Type) GetWellKnown() Type_WellKnownType { + if x, ok := x.GetTypeKind().(*Type_WellKnown); ok { + return x.WellKnown + } + return Type_WELL_KNOWN_TYPE_UNSPECIFIED +} + +func (x *Type) GetListType() *Type_ListType { + if x, ok := x.GetTypeKind().(*Type_ListType_); ok { + return x.ListType + } + return nil +} + +func (x *Type) GetMapType() *Type_MapType { + if x, ok := x.GetTypeKind().(*Type_MapType_); ok { + return x.MapType + } + return nil +} + +func (x *Type) GetFunction() *Type_FunctionType { + if x, ok := x.GetTypeKind().(*Type_Function); ok { + return x.Function + } + return nil +} + +func (x *Type) GetMessageType() string { + if x, ok := x.GetTypeKind().(*Type_MessageType); ok { + return x.MessageType + } + return "" +} + +func (x *Type) GetTypeParam() string { + if x, ok := x.GetTypeKind().(*Type_TypeParam); ok { + return x.TypeParam + } + return "" +} + +func (x *Type) GetType() *Type { + if x, ok := x.GetTypeKind().(*Type_Type); ok { + return x.Type + } + return nil +} + +func (x *Type) GetError() *emptypb.Empty { + if x, ok := x.GetTypeKind().(*Type_Error); ok { + return x.Error + } + return nil +} + +func (x *Type) GetAbstractType() *Type_AbstractType { + if x, ok := x.GetTypeKind().(*Type_AbstractType_); ok { + return x.AbstractType + } + return nil +} + +type isType_TypeKind interface { + isType_TypeKind() +} + +type Type_Dyn struct { + // Dynamic type. + Dyn *emptypb.Empty `protobuf:"bytes,1,opt,name=dyn,proto3,oneof"` +} + +type Type_Null struct { + // Null value. + Null structpb.NullValue `protobuf:"varint,2,opt,name=null,proto3,enum=google.protobuf.NullValue,oneof"` +} + +type Type_Primitive struct { + // Primitive types: `true`, `1u`, `-2.0`, `'string'`, `b'bytes'`. + Primitive Type_PrimitiveType `protobuf:"varint,3,opt,name=primitive,proto3,enum=google.api.expr.v1alpha1.Type_PrimitiveType,oneof"` +} + +type Type_Wrapper struct { + // Wrapper of a primitive type, e.g. `google.protobuf.Int64Value`. + Wrapper Type_PrimitiveType `protobuf:"varint,4,opt,name=wrapper,proto3,enum=google.api.expr.v1alpha1.Type_PrimitiveType,oneof"` +} + +type Type_WellKnown struct { + // Well-known protobuf type such as `google.protobuf.Timestamp`. + WellKnown Type_WellKnownType `protobuf:"varint,5,opt,name=well_known,json=wellKnown,proto3,enum=google.api.expr.v1alpha1.Type_WellKnownType,oneof"` +} + +type Type_ListType_ struct { + // Parameterized list with elements of `list_type`, e.g. `list`. + ListType *Type_ListType `protobuf:"bytes,6,opt,name=list_type,json=listType,proto3,oneof"` +} + +type Type_MapType_ struct { + // Parameterized map with typed keys and values. + MapType *Type_MapType `protobuf:"bytes,7,opt,name=map_type,json=mapType,proto3,oneof"` +} + +type Type_Function struct { + // Function type. + Function *Type_FunctionType `protobuf:"bytes,8,opt,name=function,proto3,oneof"` +} + +type Type_MessageType struct { + // Protocol buffer message type. + // + // The `message_type` string specifies the qualified message type name. For + // example, `google.plus.Profile`. + MessageType string `protobuf:"bytes,9,opt,name=message_type,json=messageType,proto3,oneof"` +} + +type Type_TypeParam struct { + // Type param type. + // + // The `type_param` string specifies the type parameter name, e.g. `list` + // would be a `list_type` whose element type was a `type_param` type + // named `E`. + TypeParam string `protobuf:"bytes,10,opt,name=type_param,json=typeParam,proto3,oneof"` +} + +type Type_Type struct { + // Type type. + // + // The `type` value specifies the target type. e.g. int is type with a + // target type of `Primitive.INT`. + Type *Type `protobuf:"bytes,11,opt,name=type,proto3,oneof"` +} + +type Type_Error struct { + // Error type. + // + // During type-checking if an expression is an error, its type is propagated + // as the `ERROR` type. This permits the type-checker to discover other + // errors present in the expression. + Error *emptypb.Empty `protobuf:"bytes,12,opt,name=error,proto3,oneof"` +} + +type Type_AbstractType_ struct { + // Abstract, application defined type. + AbstractType *Type_AbstractType `protobuf:"bytes,14,opt,name=abstract_type,json=abstractType,proto3,oneof"` +} + +func (*Type_Dyn) isType_TypeKind() {} + +func (*Type_Null) isType_TypeKind() {} + +func (*Type_Primitive) isType_TypeKind() {} + +func (*Type_Wrapper) isType_TypeKind() {} + +func (*Type_WellKnown) isType_TypeKind() {} + +func (*Type_ListType_) isType_TypeKind() {} + +func (*Type_MapType_) isType_TypeKind() {} + +func (*Type_Function) isType_TypeKind() {} + +func (*Type_MessageType) isType_TypeKind() {} + +func (*Type_TypeParam) isType_TypeKind() {} + +func (*Type_Type) isType_TypeKind() {} + +func (*Type_Error) isType_TypeKind() {} + +func (*Type_AbstractType_) isType_TypeKind() {} + +// Represents a declaration of a named value or function. +// +// A declaration is part of the contract between the expression, the agent +// evaluating that expression, and the caller requesting evaluation. +type Decl struct { + state protoimpl.MessageState + sizeCache protoimpl.SizeCache + unknownFields protoimpl.UnknownFields + + // The fully qualified name of the declaration. + // + // Declarations are organized in containers and this represents the full path + // to the declaration in its container, as in `google.api.expr.Decl`. + // + // Declarations used as [FunctionDecl.Overload][google.api.expr.v1alpha1.Decl.FunctionDecl.Overload] parameters may or may not + // have a name depending on whether the overload is function declaration or a + // function definition containing a result [Expr][google.api.expr.v1alpha1.Expr]. + Name string `protobuf:"bytes,1,opt,name=name,proto3" json:"name,omitempty"` + // Required. The declaration kind. + // + // Types that are assignable to DeclKind: + // *Decl_Ident + // *Decl_Function + DeclKind isDecl_DeclKind `protobuf_oneof:"decl_kind"` +} + +func (x *Decl) Reset() { + *x = Decl{} + if protoimpl.UnsafeEnabled { + mi := &file_google_api_expr_v1alpha1_checked_proto_msgTypes[2] + ms := protoimpl.X.MessageStateOf(protoimpl.Pointer(x)) + ms.StoreMessageInfo(mi) + } +} + +func (x *Decl) String() string { + return protoimpl.X.MessageStringOf(x) +} + +func (*Decl) ProtoMessage() {} + +func (x *Decl) ProtoReflect() protoreflect.Message { + mi := &file_google_api_expr_v1alpha1_checked_proto_msgTypes[2] + if protoimpl.UnsafeEnabled && x != nil { + ms := protoimpl.X.MessageStateOf(protoimpl.Pointer(x)) + if ms.LoadMessageInfo() == nil { + ms.StoreMessageInfo(mi) + } + return ms + } + return mi.MessageOf(x) +} + +// Deprecated: Use Decl.ProtoReflect.Descriptor instead. +func (*Decl) Descriptor() ([]byte, []int) { + return file_google_api_expr_v1alpha1_checked_proto_rawDescGZIP(), []int{2} +} + +func (x *Decl) GetName() string { + if x != nil { + return x.Name + } + return "" +} + +func (m *Decl) GetDeclKind() isDecl_DeclKind { + if m != nil { + return m.DeclKind + } + return nil +} + +func (x *Decl) GetIdent() *Decl_IdentDecl { + if x, ok := x.GetDeclKind().(*Decl_Ident); ok { + return x.Ident + } + return nil +} + +func (x *Decl) GetFunction() *Decl_FunctionDecl { + if x, ok := x.GetDeclKind().(*Decl_Function); ok { + return x.Function + } + return nil +} + +type isDecl_DeclKind interface { + isDecl_DeclKind() +} + +type Decl_Ident struct { + // Identifier declaration. + Ident *Decl_IdentDecl `protobuf:"bytes,2,opt,name=ident,proto3,oneof"` +} + +type Decl_Function struct { + // Function declaration. + Function *Decl_FunctionDecl `protobuf:"bytes,3,opt,name=function,proto3,oneof"` +} + +func (*Decl_Ident) isDecl_DeclKind() {} + +func (*Decl_Function) isDecl_DeclKind() {} + +// Describes a resolved reference to a declaration. +type Reference struct { + state protoimpl.MessageState + sizeCache protoimpl.SizeCache + unknownFields protoimpl.UnknownFields + + // The fully qualified name of the declaration. + Name string `protobuf:"bytes,1,opt,name=name,proto3" json:"name,omitempty"` + // For references to functions, this is a list of `Overload.overload_id` + // values which match according to typing rules. + // + // If the list has more than one element, overload resolution among the + // presented candidates must happen at runtime because of dynamic types. The + // type checker attempts to narrow down this list as much as possible. + // + // Empty if this is not a reference to a [Decl.FunctionDecl][google.api.expr.v1alpha1.Decl.FunctionDecl]. + OverloadId []string `protobuf:"bytes,3,rep,name=overload_id,json=overloadId,proto3" json:"overload_id,omitempty"` + // For references to constants, this may contain the value of the + // constant if known at compile time. + Value *Constant `protobuf:"bytes,4,opt,name=value,proto3" json:"value,omitempty"` +} + +func (x *Reference) Reset() { + *x = Reference{} + if protoimpl.UnsafeEnabled { + mi := &file_google_api_expr_v1alpha1_checked_proto_msgTypes[3] + ms := protoimpl.X.MessageStateOf(protoimpl.Pointer(x)) + ms.StoreMessageInfo(mi) + } +} + +func (x *Reference) String() string { + return protoimpl.X.MessageStringOf(x) +} + +func (*Reference) ProtoMessage() {} + +func (x *Reference) ProtoReflect() protoreflect.Message { + mi := &file_google_api_expr_v1alpha1_checked_proto_msgTypes[3] + if protoimpl.UnsafeEnabled && x != nil { + ms := protoimpl.X.MessageStateOf(protoimpl.Pointer(x)) + if ms.LoadMessageInfo() == nil { + ms.StoreMessageInfo(mi) + } + return ms + } + return mi.MessageOf(x) +} + +// Deprecated: Use Reference.ProtoReflect.Descriptor instead. +func (*Reference) Descriptor() ([]byte, []int) { + return file_google_api_expr_v1alpha1_checked_proto_rawDescGZIP(), []int{3} +} + +func (x *Reference) GetName() string { + if x != nil { + return x.Name + } + return "" +} + +func (x *Reference) GetOverloadId() []string { + if x != nil { + return x.OverloadId + } + return nil +} + +func (x *Reference) GetValue() *Constant { + if x != nil { + return x.Value + } + return nil +} + +// List type with typed elements, e.g. `list`. +type Type_ListType struct { + state protoimpl.MessageState + sizeCache protoimpl.SizeCache + unknownFields protoimpl.UnknownFields + + // The element type. + ElemType *Type `protobuf:"bytes,1,opt,name=elem_type,json=elemType,proto3" json:"elem_type,omitempty"` +} + +func (x *Type_ListType) Reset() { + *x = Type_ListType{} + if protoimpl.UnsafeEnabled { + mi := &file_google_api_expr_v1alpha1_checked_proto_msgTypes[6] + ms := protoimpl.X.MessageStateOf(protoimpl.Pointer(x)) + ms.StoreMessageInfo(mi) + } +} + +func (x *Type_ListType) String() string { + return protoimpl.X.MessageStringOf(x) +} + +func (*Type_ListType) ProtoMessage() {} + +func (x *Type_ListType) ProtoReflect() protoreflect.Message { + mi := &file_google_api_expr_v1alpha1_checked_proto_msgTypes[6] + if protoimpl.UnsafeEnabled && x != nil { + ms := protoimpl.X.MessageStateOf(protoimpl.Pointer(x)) + if ms.LoadMessageInfo() == nil { + ms.StoreMessageInfo(mi) + } + return ms + } + return mi.MessageOf(x) +} + +// Deprecated: Use Type_ListType.ProtoReflect.Descriptor instead. +func (*Type_ListType) Descriptor() ([]byte, []int) { + return file_google_api_expr_v1alpha1_checked_proto_rawDescGZIP(), []int{1, 0} +} + +func (x *Type_ListType) GetElemType() *Type { + if x != nil { + return x.ElemType + } + return nil +} + +// Map type with parameterized key and value types, e.g. `map`. +type Type_MapType struct { + state protoimpl.MessageState + sizeCache protoimpl.SizeCache + unknownFields protoimpl.UnknownFields + + // The type of the key. + KeyType *Type `protobuf:"bytes,1,opt,name=key_type,json=keyType,proto3" json:"key_type,omitempty"` + // The type of the value. + ValueType *Type `protobuf:"bytes,2,opt,name=value_type,json=valueType,proto3" json:"value_type,omitempty"` +} + +func (x *Type_MapType) Reset() { + *x = Type_MapType{} + if protoimpl.UnsafeEnabled { + mi := &file_google_api_expr_v1alpha1_checked_proto_msgTypes[7] + ms := protoimpl.X.MessageStateOf(protoimpl.Pointer(x)) + ms.StoreMessageInfo(mi) + } +} + +func (x *Type_MapType) String() string { + return protoimpl.X.MessageStringOf(x) +} + +func (*Type_MapType) ProtoMessage() {} + +func (x *Type_MapType) ProtoReflect() protoreflect.Message { + mi := &file_google_api_expr_v1alpha1_checked_proto_msgTypes[7] + if protoimpl.UnsafeEnabled && x != nil { + ms := protoimpl.X.MessageStateOf(protoimpl.Pointer(x)) + if ms.LoadMessageInfo() == nil { + ms.StoreMessageInfo(mi) + } + return ms + } + return mi.MessageOf(x) +} + +// Deprecated: Use Type_MapType.ProtoReflect.Descriptor instead. +func (*Type_MapType) Descriptor() ([]byte, []int) { + return file_google_api_expr_v1alpha1_checked_proto_rawDescGZIP(), []int{1, 1} +} + +func (x *Type_MapType) GetKeyType() *Type { + if x != nil { + return x.KeyType + } + return nil +} + +func (x *Type_MapType) GetValueType() *Type { + if x != nil { + return x.ValueType + } + return nil +} + +// Function type with result and arg types. +type Type_FunctionType struct { + state protoimpl.MessageState + sizeCache protoimpl.SizeCache + unknownFields protoimpl.UnknownFields + + // Result type of the function. + ResultType *Type `protobuf:"bytes,1,opt,name=result_type,json=resultType,proto3" json:"result_type,omitempty"` + // Argument types of the function. + ArgTypes []*Type `protobuf:"bytes,2,rep,name=arg_types,json=argTypes,proto3" json:"arg_types,omitempty"` +} + +func (x *Type_FunctionType) Reset() { + *x = Type_FunctionType{} + if protoimpl.UnsafeEnabled { + mi := &file_google_api_expr_v1alpha1_checked_proto_msgTypes[8] + ms := protoimpl.X.MessageStateOf(protoimpl.Pointer(x)) + ms.StoreMessageInfo(mi) + } +} + +func (x *Type_FunctionType) String() string { + return protoimpl.X.MessageStringOf(x) +} + +func (*Type_FunctionType) ProtoMessage() {} + +func (x *Type_FunctionType) ProtoReflect() protoreflect.Message { + mi := &file_google_api_expr_v1alpha1_checked_proto_msgTypes[8] + if protoimpl.UnsafeEnabled && x != nil { + ms := protoimpl.X.MessageStateOf(protoimpl.Pointer(x)) + if ms.LoadMessageInfo() == nil { + ms.StoreMessageInfo(mi) + } + return ms + } + return mi.MessageOf(x) +} + +// Deprecated: Use Type_FunctionType.ProtoReflect.Descriptor instead. +func (*Type_FunctionType) Descriptor() ([]byte, []int) { + return file_google_api_expr_v1alpha1_checked_proto_rawDescGZIP(), []int{1, 2} +} + +func (x *Type_FunctionType) GetResultType() *Type { + if x != nil { + return x.ResultType + } + return nil +} + +func (x *Type_FunctionType) GetArgTypes() []*Type { + if x != nil { + return x.ArgTypes + } + return nil +} + +// Application defined abstract type. +type Type_AbstractType struct { + state protoimpl.MessageState + sizeCache protoimpl.SizeCache + unknownFields protoimpl.UnknownFields + + // The fully qualified name of this abstract type. + Name string `protobuf:"bytes,1,opt,name=name,proto3" json:"name,omitempty"` + // Parameter types for this abstract type. + ParameterTypes []*Type `protobuf:"bytes,2,rep,name=parameter_types,json=parameterTypes,proto3" json:"parameter_types,omitempty"` +} + +func (x *Type_AbstractType) Reset() { + *x = Type_AbstractType{} + if protoimpl.UnsafeEnabled { + mi := &file_google_api_expr_v1alpha1_checked_proto_msgTypes[9] + ms := protoimpl.X.MessageStateOf(protoimpl.Pointer(x)) + ms.StoreMessageInfo(mi) + } +} + +func (x *Type_AbstractType) String() string { + return protoimpl.X.MessageStringOf(x) +} + +func (*Type_AbstractType) ProtoMessage() {} + +func (x *Type_AbstractType) ProtoReflect() protoreflect.Message { + mi := &file_google_api_expr_v1alpha1_checked_proto_msgTypes[9] + if protoimpl.UnsafeEnabled && x != nil { + ms := protoimpl.X.MessageStateOf(protoimpl.Pointer(x)) + if ms.LoadMessageInfo() == nil { + ms.StoreMessageInfo(mi) + } + return ms + } + return mi.MessageOf(x) +} + +// Deprecated: Use Type_AbstractType.ProtoReflect.Descriptor instead. +func (*Type_AbstractType) Descriptor() ([]byte, []int) { + return file_google_api_expr_v1alpha1_checked_proto_rawDescGZIP(), []int{1, 3} +} + +func (x *Type_AbstractType) GetName() string { + if x != nil { + return x.Name + } + return "" +} + +func (x *Type_AbstractType) GetParameterTypes() []*Type { + if x != nil { + return x.ParameterTypes + } + return nil +} + +// Identifier declaration which specifies its type and optional `Expr` value. +// +// An identifier without a value is a declaration that must be provided at +// evaluation time. An identifier with a value should resolve to a constant, +// but may be used in conjunction with other identifiers bound at evaluation +// time. +type Decl_IdentDecl struct { + state protoimpl.MessageState + sizeCache protoimpl.SizeCache + unknownFields protoimpl.UnknownFields + + // Required. The type of the identifier. + Type *Type `protobuf:"bytes,1,opt,name=type,proto3" json:"type,omitempty"` + // The constant value of the identifier. If not specified, the identifier + // must be supplied at evaluation time. + Value *Constant `protobuf:"bytes,2,opt,name=value,proto3" json:"value,omitempty"` + // Documentation string for the identifier. + Doc string `protobuf:"bytes,3,opt,name=doc,proto3" json:"doc,omitempty"` +} + +func (x *Decl_IdentDecl) Reset() { + *x = Decl_IdentDecl{} + if protoimpl.UnsafeEnabled { + mi := &file_google_api_expr_v1alpha1_checked_proto_msgTypes[10] + ms := protoimpl.X.MessageStateOf(protoimpl.Pointer(x)) + ms.StoreMessageInfo(mi) + } +} + +func (x *Decl_IdentDecl) String() string { + return protoimpl.X.MessageStringOf(x) +} + +func (*Decl_IdentDecl) ProtoMessage() {} + +func (x *Decl_IdentDecl) ProtoReflect() protoreflect.Message { + mi := &file_google_api_expr_v1alpha1_checked_proto_msgTypes[10] + if protoimpl.UnsafeEnabled && x != nil { + ms := protoimpl.X.MessageStateOf(protoimpl.Pointer(x)) + if ms.LoadMessageInfo() == nil { + ms.StoreMessageInfo(mi) + } + return ms + } + return mi.MessageOf(x) +} + +// Deprecated: Use Decl_IdentDecl.ProtoReflect.Descriptor instead. +func (*Decl_IdentDecl) Descriptor() ([]byte, []int) { + return file_google_api_expr_v1alpha1_checked_proto_rawDescGZIP(), []int{2, 0} +} + +func (x *Decl_IdentDecl) GetType() *Type { + if x != nil { + return x.Type + } + return nil +} + +func (x *Decl_IdentDecl) GetValue() *Constant { + if x != nil { + return x.Value + } + return nil +} + +func (x *Decl_IdentDecl) GetDoc() string { + if x != nil { + return x.Doc + } + return "" +} + +// Function declaration specifies one or more overloads which indicate the +// function's parameter types and return type, and may optionally specify a +// function definition in terms of CEL expressions. +// +// Functions have no observable side-effects (there may be side-effects like +// logging which are not observable from CEL). +type Decl_FunctionDecl struct { + state protoimpl.MessageState + sizeCache protoimpl.SizeCache + unknownFields protoimpl.UnknownFields + + // Required. List of function overloads, must contain at least one overload. + Overloads []*Decl_FunctionDecl_Overload `protobuf:"bytes,1,rep,name=overloads,proto3" json:"overloads,omitempty"` +} + +func (x *Decl_FunctionDecl) Reset() { + *x = Decl_FunctionDecl{} + if protoimpl.UnsafeEnabled { + mi := &file_google_api_expr_v1alpha1_checked_proto_msgTypes[11] + ms := protoimpl.X.MessageStateOf(protoimpl.Pointer(x)) + ms.StoreMessageInfo(mi) + } +} + +func (x *Decl_FunctionDecl) String() string { + return protoimpl.X.MessageStringOf(x) +} + +func (*Decl_FunctionDecl) ProtoMessage() {} + +func (x *Decl_FunctionDecl) ProtoReflect() protoreflect.Message { + mi := &file_google_api_expr_v1alpha1_checked_proto_msgTypes[11] + if protoimpl.UnsafeEnabled && x != nil { + ms := protoimpl.X.MessageStateOf(protoimpl.Pointer(x)) + if ms.LoadMessageInfo() == nil { + ms.StoreMessageInfo(mi) + } + return ms + } + return mi.MessageOf(x) +} + +// Deprecated: Use Decl_FunctionDecl.ProtoReflect.Descriptor instead. +func (*Decl_FunctionDecl) Descriptor() ([]byte, []int) { + return file_google_api_expr_v1alpha1_checked_proto_rawDescGZIP(), []int{2, 1} +} + +func (x *Decl_FunctionDecl) GetOverloads() []*Decl_FunctionDecl_Overload { + if x != nil { + return x.Overloads + } + return nil +} + +// An overload indicates a function's parameter types and return type, and +// may optionally include a function body described in terms of [Expr][google.api.expr.v1alpha1.Expr] +// values. +// +// Functions overloads are declared in either a function or method +// call-style. For methods, the `params[0]` is the expected type of the +// target receiver. +// +// Overloads must have non-overlapping argument types after erasure of all +// parameterized type variables (similar as type erasure in Java). +type Decl_FunctionDecl_Overload struct { + state protoimpl.MessageState + sizeCache protoimpl.SizeCache + unknownFields protoimpl.UnknownFields + + // Required. Globally unique overload name of the function which reflects + // the function name and argument types. + // + // This will be used by a [Reference][google.api.expr.v1alpha1.Reference] to indicate the `overload_id` that + // was resolved for the function `name`. + OverloadId string `protobuf:"bytes,1,opt,name=overload_id,json=overloadId,proto3" json:"overload_id,omitempty"` + // List of function parameter [Type][google.api.expr.v1alpha1.Type] values. + // + // Param types are disjoint after generic type parameters have been + // replaced with the type `DYN`. Since the `DYN` type is compatible with + // any other type, this means that if `A` is a type parameter, the + // function types `int` and `int` are not disjoint. Likewise, + // `map` is not disjoint from `map`. + // + // When the `result_type` of a function is a generic type param, the + // type param name also appears as the `type` of on at least one params. + Params []*Type `protobuf:"bytes,2,rep,name=params,proto3" json:"params,omitempty"` + // The type param names associated with the function declaration. + // + // For example, `function ex(K key, map map) : V` would yield + // the type params of `K, V`. + TypeParams []string `protobuf:"bytes,3,rep,name=type_params,json=typeParams,proto3" json:"type_params,omitempty"` + // Required. The result type of the function. For example, the operator + // `string.isEmpty()` would have `result_type` of `kind: BOOL`. + ResultType *Type `protobuf:"bytes,4,opt,name=result_type,json=resultType,proto3" json:"result_type,omitempty"` + // Whether the function is to be used in a method call-style `x.f(...)` + // of a function call-style `f(x, ...)`. + // + // For methods, the first parameter declaration, `params[0]` is the + // expected type of the target receiver. + IsInstanceFunction bool `protobuf:"varint,5,opt,name=is_instance_function,json=isInstanceFunction,proto3" json:"is_instance_function,omitempty"` + // Documentation string for the overload. + Doc string `protobuf:"bytes,6,opt,name=doc,proto3" json:"doc,omitempty"` +} + +func (x *Decl_FunctionDecl_Overload) Reset() { + *x = Decl_FunctionDecl_Overload{} + if protoimpl.UnsafeEnabled { + mi := &file_google_api_expr_v1alpha1_checked_proto_msgTypes[12] + ms := protoimpl.X.MessageStateOf(protoimpl.Pointer(x)) + ms.StoreMessageInfo(mi) + } +} + +func (x *Decl_FunctionDecl_Overload) String() string { + return protoimpl.X.MessageStringOf(x) +} + +func (*Decl_FunctionDecl_Overload) ProtoMessage() {} + +func (x *Decl_FunctionDecl_Overload) ProtoReflect() protoreflect.Message { + mi := &file_google_api_expr_v1alpha1_checked_proto_msgTypes[12] + if protoimpl.UnsafeEnabled && x != nil { + ms := protoimpl.X.MessageStateOf(protoimpl.Pointer(x)) + if ms.LoadMessageInfo() == nil { + ms.StoreMessageInfo(mi) + } + return ms + } + return mi.MessageOf(x) +} + +// Deprecated: Use Decl_FunctionDecl_Overload.ProtoReflect.Descriptor instead. +func (*Decl_FunctionDecl_Overload) Descriptor() ([]byte, []int) { + return file_google_api_expr_v1alpha1_checked_proto_rawDescGZIP(), []int{2, 1, 0} +} + +func (x *Decl_FunctionDecl_Overload) GetOverloadId() string { + if x != nil { + return x.OverloadId + } + return "" +} + +func (x *Decl_FunctionDecl_Overload) GetParams() []*Type { + if x != nil { + return x.Params + } + return nil +} + +func (x 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protoimpl.X.CompressGZIP(file_google_api_expr_v1alpha1_checked_proto_rawDescData) + }) + return file_google_api_expr_v1alpha1_checked_proto_rawDescData +} + +var file_google_api_expr_v1alpha1_checked_proto_enumTypes = make([]protoimpl.EnumInfo, 2) +var file_google_api_expr_v1alpha1_checked_proto_msgTypes = make([]protoimpl.MessageInfo, 13) +var file_google_api_expr_v1alpha1_checked_proto_goTypes = []interface{}{ + (Type_PrimitiveType)(0), // 0: google.api.expr.v1alpha1.Type.PrimitiveType + (Type_WellKnownType)(0), // 1: google.api.expr.v1alpha1.Type.WellKnownType + (*CheckedExpr)(nil), // 2: google.api.expr.v1alpha1.CheckedExpr + (*Type)(nil), // 3: google.api.expr.v1alpha1.Type + (*Decl)(nil), // 4: google.api.expr.v1alpha1.Decl + (*Reference)(nil), // 5: google.api.expr.v1alpha1.Reference + nil, // 6: google.api.expr.v1alpha1.CheckedExpr.ReferenceMapEntry + nil, // 7: google.api.expr.v1alpha1.CheckedExpr.TypeMapEntry + (*Type_ListType)(nil), // 8: google.api.expr.v1alpha1.Type.ListType + (*Type_MapType)(nil), // 9: google.api.expr.v1alpha1.Type.MapType + (*Type_FunctionType)(nil), // 10: google.api.expr.v1alpha1.Type.FunctionType + (*Type_AbstractType)(nil), // 11: google.api.expr.v1alpha1.Type.AbstractType + (*Decl_IdentDecl)(nil), // 12: google.api.expr.v1alpha1.Decl.IdentDecl + (*Decl_FunctionDecl)(nil), // 13: google.api.expr.v1alpha1.Decl.FunctionDecl + (*Decl_FunctionDecl_Overload)(nil), // 14: google.api.expr.v1alpha1.Decl.FunctionDecl.Overload + (*SourceInfo)(nil), // 15: google.api.expr.v1alpha1.SourceInfo + (*Expr)(nil), // 16: google.api.expr.v1alpha1.Expr + (*emptypb.Empty)(nil), // 17: google.protobuf.Empty + (structpb.NullValue)(0), // 18: google.protobuf.NullValue + (*Constant)(nil), // 19: google.api.expr.v1alpha1.Constant +} +var file_google_api_expr_v1alpha1_checked_proto_depIdxs = []int32{ + 6, // 0: google.api.expr.v1alpha1.CheckedExpr.reference_map:type_name -> google.api.expr.v1alpha1.CheckedExpr.ReferenceMapEntry + 7, // 1: google.api.expr.v1alpha1.CheckedExpr.type_map:type_name -> google.api.expr.v1alpha1.CheckedExpr.TypeMapEntry + 15, // 2: google.api.expr.v1alpha1.CheckedExpr.source_info:type_name -> google.api.expr.v1alpha1.SourceInfo + 16, // 3: google.api.expr.v1alpha1.CheckedExpr.expr:type_name -> google.api.expr.v1alpha1.Expr + 17, // 4: google.api.expr.v1alpha1.Type.dyn:type_name -> google.protobuf.Empty + 18, // 5: google.api.expr.v1alpha1.Type.null:type_name -> google.protobuf.NullValue + 0, // 6: google.api.expr.v1alpha1.Type.primitive:type_name -> google.api.expr.v1alpha1.Type.PrimitiveType + 0, // 7: google.api.expr.v1alpha1.Type.wrapper:type_name -> google.api.expr.v1alpha1.Type.PrimitiveType + 1, // 8: google.api.expr.v1alpha1.Type.well_known:type_name -> google.api.expr.v1alpha1.Type.WellKnownType + 8, // 9: google.api.expr.v1alpha1.Type.list_type:type_name -> google.api.expr.v1alpha1.Type.ListType + 9, // 10: google.api.expr.v1alpha1.Type.map_type:type_name -> google.api.expr.v1alpha1.Type.MapType + 10, // 11: google.api.expr.v1alpha1.Type.function:type_name -> google.api.expr.v1alpha1.Type.FunctionType + 3, // 12: google.api.expr.v1alpha1.Type.type:type_name -> google.api.expr.v1alpha1.Type + 17, // 13: google.api.expr.v1alpha1.Type.error:type_name -> google.protobuf.Empty + 11, // 14: google.api.expr.v1alpha1.Type.abstract_type:type_name -> google.api.expr.v1alpha1.Type.AbstractType + 12, // 15: google.api.expr.v1alpha1.Decl.ident:type_name -> google.api.expr.v1alpha1.Decl.IdentDecl + 13, // 16: google.api.expr.v1alpha1.Decl.function:type_name -> google.api.expr.v1alpha1.Decl.FunctionDecl + 19, // 17: google.api.expr.v1alpha1.Reference.value:type_name -> google.api.expr.v1alpha1.Constant + 5, // 18: google.api.expr.v1alpha1.CheckedExpr.ReferenceMapEntry.value:type_name -> google.api.expr.v1alpha1.Reference + 3, // 19: google.api.expr.v1alpha1.CheckedExpr.TypeMapEntry.value:type_name -> google.api.expr.v1alpha1.Type + 3, // 20: google.api.expr.v1alpha1.Type.ListType.elem_type:type_name -> google.api.expr.v1alpha1.Type + 3, // 21: google.api.expr.v1alpha1.Type.MapType.key_type:type_name -> google.api.expr.v1alpha1.Type + 3, // 22: google.api.expr.v1alpha1.Type.MapType.value_type:type_name -> google.api.expr.v1alpha1.Type + 3, // 23: google.api.expr.v1alpha1.Type.FunctionType.result_type:type_name -> google.api.expr.v1alpha1.Type + 3, // 24: google.api.expr.v1alpha1.Type.FunctionType.arg_types:type_name -> google.api.expr.v1alpha1.Type + 3, // 25: google.api.expr.v1alpha1.Type.AbstractType.parameter_types:type_name -> google.api.expr.v1alpha1.Type + 3, // 26: google.api.expr.v1alpha1.Decl.IdentDecl.type:type_name -> google.api.expr.v1alpha1.Type + 19, // 27: google.api.expr.v1alpha1.Decl.IdentDecl.value:type_name -> google.api.expr.v1alpha1.Constant + 14, // 28: google.api.expr.v1alpha1.Decl.FunctionDecl.overloads:type_name -> google.api.expr.v1alpha1.Decl.FunctionDecl.Overload + 3, // 29: google.api.expr.v1alpha1.Decl.FunctionDecl.Overload.params:type_name -> google.api.expr.v1alpha1.Type + 3, // 30: google.api.expr.v1alpha1.Decl.FunctionDecl.Overload.result_type:type_name -> google.api.expr.v1alpha1.Type + 31, // [31:31] is the sub-list for method output_type + 31, // [31:31] is the sub-list for method input_type + 31, // [31:31] is the sub-list for extension type_name + 31, // [31:31] is the sub-list for extension extendee + 0, // [0:31] is the sub-list for field type_name +} + +func init() { file_google_api_expr_v1alpha1_checked_proto_init() } +func file_google_api_expr_v1alpha1_checked_proto_init() { + if File_google_api_expr_v1alpha1_checked_proto != nil { + return + } + file_google_api_expr_v1alpha1_syntax_proto_init() + if !protoimpl.UnsafeEnabled { + file_google_api_expr_v1alpha1_checked_proto_msgTypes[0].Exporter = func(v interface{}, i int) interface{} { + switch v := v.(*CheckedExpr); i { + case 0: + return &v.state + case 1: + return &v.sizeCache + case 2: + return &v.unknownFields + default: + return nil + } + } + file_google_api_expr_v1alpha1_checked_proto_msgTypes[1].Exporter = func(v interface{}, i int) interface{} { + switch v := v.(*Type); i { + case 0: + return &v.state + case 1: + return &v.sizeCache + case 2: + return &v.unknownFields + default: + return nil + } + } + file_google_api_expr_v1alpha1_checked_proto_msgTypes[2].Exporter = func(v interface{}, i int) interface{} { + switch v := v.(*Decl); i { + case 0: + return &v.state + case 1: + return &v.sizeCache + case 2: + return &v.unknownFields + default: + return nil + } + } + file_google_api_expr_v1alpha1_checked_proto_msgTypes[3].Exporter = func(v interface{}, i int) interface{} { + switch v := v.(*Reference); i { + case 0: + return &v.state + case 1: + return &v.sizeCache + case 2: + return &v.unknownFields + default: + return nil + } + } + file_google_api_expr_v1alpha1_checked_proto_msgTypes[6].Exporter = func(v interface{}, i int) interface{} { + switch v := v.(*Type_ListType); i { + case 0: + return &v.state + case 1: + return &v.sizeCache + case 2: + return &v.unknownFields + default: + return nil + } + } + file_google_api_expr_v1alpha1_checked_proto_msgTypes[7].Exporter = func(v interface{}, i int) interface{} { + switch v := v.(*Type_MapType); i { + case 0: + return &v.state + case 1: + return &v.sizeCache + case 2: + return &v.unknownFields + default: + return nil + } + } + file_google_api_expr_v1alpha1_checked_proto_msgTypes[8].Exporter = func(v interface{}, i int) interface{} { + switch v := v.(*Type_FunctionType); i { + case 0: + return &v.state + case 1: + return &v.sizeCache + case 2: + return &v.unknownFields + default: + return nil + } + } + file_google_api_expr_v1alpha1_checked_proto_msgTypes[9].Exporter = func(v interface{}, i int) interface{} { + switch v := v.(*Type_AbstractType); i { + case 0: + return &v.state + case 1: + return &v.sizeCache + case 2: + return &v.unknownFields + default: + return nil + } + } + file_google_api_expr_v1alpha1_checked_proto_msgTypes[10].Exporter = func(v interface{}, i int) interface{} { + switch v := v.(*Decl_IdentDecl); i { + case 0: + return &v.state + case 1: + return &v.sizeCache + case 2: + return &v.unknownFields + default: + return nil + } + } + file_google_api_expr_v1alpha1_checked_proto_msgTypes[11].Exporter = func(v interface{}, i int) interface{} { + switch v := v.(*Decl_FunctionDecl); i { + case 0: + return &v.state + case 1: + return &v.sizeCache + case 2: + return &v.unknownFields + default: + return nil + } + } + file_google_api_expr_v1alpha1_checked_proto_msgTypes[12].Exporter = func(v interface{}, i int) interface{} { + switch v := v.(*Decl_FunctionDecl_Overload); i { + case 0: + return &v.state + case 1: + return &v.sizeCache + case 2: + return &v.unknownFields + default: + return nil + } + } + } + file_google_api_expr_v1alpha1_checked_proto_msgTypes[1].OneofWrappers = []interface{}{ + (*Type_Dyn)(nil), + (*Type_Null)(nil), + (*Type_Primitive)(nil), + (*Type_Wrapper)(nil), + (*Type_WellKnown)(nil), + (*Type_ListType_)(nil), + (*Type_MapType_)(nil), + (*Type_Function)(nil), + (*Type_MessageType)(nil), + (*Type_TypeParam)(nil), + (*Type_Type)(nil), + (*Type_Error)(nil), + (*Type_AbstractType_)(nil), + } + file_google_api_expr_v1alpha1_checked_proto_msgTypes[2].OneofWrappers = []interface{}{ + (*Decl_Ident)(nil), + (*Decl_Function)(nil), + } + type x struct{} + out := protoimpl.TypeBuilder{ + File: protoimpl.DescBuilder{ + GoPackagePath: reflect.TypeOf(x{}).PkgPath(), + RawDescriptor: file_google_api_expr_v1alpha1_checked_proto_rawDesc, + NumEnums: 2, + NumMessages: 13, + NumExtensions: 0, + NumServices: 0, + }, + GoTypes: file_google_api_expr_v1alpha1_checked_proto_goTypes, + DependencyIndexes: file_google_api_expr_v1alpha1_checked_proto_depIdxs, + EnumInfos: file_google_api_expr_v1alpha1_checked_proto_enumTypes, + MessageInfos: file_google_api_expr_v1alpha1_checked_proto_msgTypes, + }.Build() + File_google_api_expr_v1alpha1_checked_proto = out.File + file_google_api_expr_v1alpha1_checked_proto_rawDesc = nil + file_google_api_expr_v1alpha1_checked_proto_goTypes = nil + file_google_api_expr_v1alpha1_checked_proto_depIdxs = nil +} diff --git a/vendor/google.golang.org/genproto/googleapis/api/expr/v1alpha1/eval.pb.go b/vendor/google.golang.org/genproto/googleapis/api/expr/v1alpha1/eval.pb.go new file mode 100644 index 000000000..e1a8bcd66 --- /dev/null +++ b/vendor/google.golang.org/genproto/googleapis/api/expr/v1alpha1/eval.pb.go @@ -0,0 +1,579 @@ +// Copyright 2020 Google LLC +// +// Licensed under the Apache License, Version 2.0 (the "License"); +// you may not use this file except in compliance with the License. +// You may obtain a copy of the License at +// +// http://www.apache.org/licenses/LICENSE-2.0 +// +// Unless required by applicable law or agreed to in writing, software +// distributed under the License is distributed on an "AS IS" BASIS, +// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. +// See the License for the specific language governing permissions and +// limitations under the License. + +// Code generated by protoc-gen-go. DO NOT EDIT. +// versions: +// protoc-gen-go v1.26.0 +// protoc v3.12.2 +// source: google/api/expr/v1alpha1/eval.proto + +package expr + +import ( + reflect "reflect" + sync "sync" + + status "google.golang.org/genproto/googleapis/rpc/status" + protoreflect "google.golang.org/protobuf/reflect/protoreflect" + protoimpl "google.golang.org/protobuf/runtime/protoimpl" +) + +const ( + // Verify that this generated code is sufficiently up-to-date. + _ = protoimpl.EnforceVersion(20 - protoimpl.MinVersion) + // Verify that runtime/protoimpl is sufficiently up-to-date. + _ = protoimpl.EnforceVersion(protoimpl.MaxVersion - 20) +) + +// The state of an evaluation. +// +// Can represent an inital, partial, or completed state of evaluation. +type EvalState struct { + state protoimpl.MessageState + sizeCache protoimpl.SizeCache + unknownFields protoimpl.UnknownFields + + // The unique values referenced in this message. + Values []*ExprValue `protobuf:"bytes,1,rep,name=values,proto3" json:"values,omitempty"` + // An ordered list of results. + // + // Tracks the flow of evaluation through the expression. + // May be sparse. + Results []*EvalState_Result `protobuf:"bytes,3,rep,name=results,proto3" json:"results,omitempty"` +} + +func (x *EvalState) Reset() { + *x = EvalState{} + if protoimpl.UnsafeEnabled { + mi := &file_google_api_expr_v1alpha1_eval_proto_msgTypes[0] + ms := protoimpl.X.MessageStateOf(protoimpl.Pointer(x)) + ms.StoreMessageInfo(mi) + } +} + +func (x *EvalState) String() string { + return protoimpl.X.MessageStringOf(x) +} + +func (*EvalState) ProtoMessage() {} + +func (x *EvalState) ProtoReflect() protoreflect.Message { + mi := &file_google_api_expr_v1alpha1_eval_proto_msgTypes[0] + if protoimpl.UnsafeEnabled && x != nil { + ms := protoimpl.X.MessageStateOf(protoimpl.Pointer(x)) + if ms.LoadMessageInfo() == nil { + ms.StoreMessageInfo(mi) + } + return ms + } + return mi.MessageOf(x) +} + +// Deprecated: Use EvalState.ProtoReflect.Descriptor instead. +func (*EvalState) Descriptor() ([]byte, []int) { + return file_google_api_expr_v1alpha1_eval_proto_rawDescGZIP(), []int{0} +} + +func (x *EvalState) GetValues() []*ExprValue { + if x != nil { + return x.Values + } + return nil +} + +func (x *EvalState) GetResults() []*EvalState_Result { + if x != nil { + return x.Results + } + return nil +} + +// The value of an evaluated expression. +type ExprValue struct { + state protoimpl.MessageState + sizeCache protoimpl.SizeCache + unknownFields protoimpl.UnknownFields + + // An expression can resolve to a value, error or unknown. + // + // Types that are assignable to Kind: + // *ExprValue_Value + // *ExprValue_Error + // *ExprValue_Unknown + Kind isExprValue_Kind `protobuf_oneof:"kind"` +} + +func (x *ExprValue) Reset() { + *x = ExprValue{} + if protoimpl.UnsafeEnabled { + mi := &file_google_api_expr_v1alpha1_eval_proto_msgTypes[1] + ms := protoimpl.X.MessageStateOf(protoimpl.Pointer(x)) + ms.StoreMessageInfo(mi) + } +} + +func (x *ExprValue) String() string { + return protoimpl.X.MessageStringOf(x) +} + +func (*ExprValue) ProtoMessage() {} + +func (x *ExprValue) ProtoReflect() protoreflect.Message { + mi := &file_google_api_expr_v1alpha1_eval_proto_msgTypes[1] + if protoimpl.UnsafeEnabled && x != nil { + ms := protoimpl.X.MessageStateOf(protoimpl.Pointer(x)) + if ms.LoadMessageInfo() == nil { + ms.StoreMessageInfo(mi) + } + return ms + } + return mi.MessageOf(x) +} + +// Deprecated: Use ExprValue.ProtoReflect.Descriptor instead. +func (*ExprValue) Descriptor() ([]byte, []int) { + return file_google_api_expr_v1alpha1_eval_proto_rawDescGZIP(), []int{1} +} + +func (m *ExprValue) GetKind() isExprValue_Kind { + if m != nil { + return m.Kind + } + return nil +} + +func (x *ExprValue) GetValue() *Value { + if x, ok := x.GetKind().(*ExprValue_Value); ok { + return x.Value + } + return nil +} + +func (x *ExprValue) GetError() *ErrorSet { + if x, ok := x.GetKind().(*ExprValue_Error); ok { + return x.Error + } + return nil +} + +func (x *ExprValue) GetUnknown() *UnknownSet { + if x, ok := x.GetKind().(*ExprValue_Unknown); ok { + return x.Unknown + } + return nil +} + +type isExprValue_Kind interface { + isExprValue_Kind() +} + +type ExprValue_Value struct { + // A concrete value. + Value *Value `protobuf:"bytes,1,opt,name=value,proto3,oneof"` +} + +type ExprValue_Error struct { + // The set of errors in the critical path of evalution. + // + // Only errors in the critical path are included. For example, + // `( || true) && ` will only result in ``, + // while ` || ` will result in both `` and + // ``. + // + // Errors cause by the presence of other errors are not included in the + // set. For example `.foo`, `foo()`, and ` + 1` will + // only result in ``. + // + // Multiple errors *might* be included when evaluation could result + // in different errors. For example ` + ` and + // `foo(, )` may result in ``, `` or both. + // The exact subset of errors included for this case is unspecified and + // depends on the implementation details of the evaluator. + Error *ErrorSet `protobuf:"bytes,2,opt,name=error,proto3,oneof"` +} + +type ExprValue_Unknown struct { + // The set of unknowns in the critical path of evaluation. + // + // Unknown behaves identically to Error with regards to propagation. + // Specifically, only unknowns in the critical path are included, unknowns + // caused by the presence of other unknowns are not included, and multiple + // unknowns *might* be included included when evaluation could result in + // different unknowns. For example: + // + // ( || true) && -> + // || -> + // .foo -> + // foo() -> + // + -> or + // + // Unknown takes precidence over Error in cases where a `Value` can short + // circuit the result: + // + // || -> + // && -> + // + // Errors take precidence in all other cases: + // + // + -> + // foo(, ) -> + Unknown *UnknownSet `protobuf:"bytes,3,opt,name=unknown,proto3,oneof"` +} + +func (*ExprValue_Value) isExprValue_Kind() {} + +func (*ExprValue_Error) isExprValue_Kind() {} + +func (*ExprValue_Unknown) isExprValue_Kind() {} + +// A set of errors. +// +// The errors included depend on the context. See `ExprValue.error`. +type ErrorSet struct { + state protoimpl.MessageState + sizeCache protoimpl.SizeCache + unknownFields protoimpl.UnknownFields + + // The errors in the set. + Errors []*status.Status `protobuf:"bytes,1,rep,name=errors,proto3" json:"errors,omitempty"` +} + +func (x *ErrorSet) Reset() { + *x = ErrorSet{} + if protoimpl.UnsafeEnabled { + mi := &file_google_api_expr_v1alpha1_eval_proto_msgTypes[2] + ms := protoimpl.X.MessageStateOf(protoimpl.Pointer(x)) + ms.StoreMessageInfo(mi) + } +} + +func (x *ErrorSet) String() string { + return protoimpl.X.MessageStringOf(x) +} + +func (*ErrorSet) ProtoMessage() {} + +func (x *ErrorSet) ProtoReflect() protoreflect.Message { + mi := &file_google_api_expr_v1alpha1_eval_proto_msgTypes[2] + if protoimpl.UnsafeEnabled && x != nil { + ms := protoimpl.X.MessageStateOf(protoimpl.Pointer(x)) + if ms.LoadMessageInfo() == nil { + ms.StoreMessageInfo(mi) + } + return ms + } + return mi.MessageOf(x) +} + +// Deprecated: Use ErrorSet.ProtoReflect.Descriptor instead. +func (*ErrorSet) Descriptor() ([]byte, []int) { + return file_google_api_expr_v1alpha1_eval_proto_rawDescGZIP(), []int{2} +} + +func (x *ErrorSet) GetErrors() []*status.Status { + if x != nil { + return x.Errors + } + return nil +} + +// A set of expressions for which the value is unknown. +// +// The unknowns included depend on the context. See `ExprValue.unknown`. +type UnknownSet struct { + state protoimpl.MessageState + sizeCache protoimpl.SizeCache + unknownFields protoimpl.UnknownFields + + // The ids of the expressions with unknown values. + Exprs []int64 `protobuf:"varint,1,rep,packed,name=exprs,proto3" json:"exprs,omitempty"` +} + +func (x *UnknownSet) Reset() { + *x = UnknownSet{} + if protoimpl.UnsafeEnabled { + mi := &file_google_api_expr_v1alpha1_eval_proto_msgTypes[3] + ms := protoimpl.X.MessageStateOf(protoimpl.Pointer(x)) + ms.StoreMessageInfo(mi) + } +} + +func (x *UnknownSet) String() string { + return protoimpl.X.MessageStringOf(x) +} + +func (*UnknownSet) ProtoMessage() {} + +func (x *UnknownSet) ProtoReflect() protoreflect.Message { + mi := &file_google_api_expr_v1alpha1_eval_proto_msgTypes[3] + if protoimpl.UnsafeEnabled && x != nil { + ms := protoimpl.X.MessageStateOf(protoimpl.Pointer(x)) + if ms.LoadMessageInfo() == nil { + ms.StoreMessageInfo(mi) + } + return ms + } + return mi.MessageOf(x) +} + +// Deprecated: Use UnknownSet.ProtoReflect.Descriptor instead. +func (*UnknownSet) Descriptor() ([]byte, []int) { + return file_google_api_expr_v1alpha1_eval_proto_rawDescGZIP(), []int{3} +} + +func (x *UnknownSet) GetExprs() []int64 { + if x != nil { + return x.Exprs + } + return nil +} + +// A single evalution result. +type EvalState_Result struct { + state protoimpl.MessageState + sizeCache protoimpl.SizeCache + unknownFields protoimpl.UnknownFields + + // The id of the expression this result if for. + Expr int64 `protobuf:"varint,1,opt,name=expr,proto3" json:"expr,omitempty"` + // The index in `values` of the resulting value. + Value int64 `protobuf:"varint,2,opt,name=value,proto3" json:"value,omitempty"` +} + +func (x *EvalState_Result) Reset() { + *x = EvalState_Result{} + if protoimpl.UnsafeEnabled { + mi := &file_google_api_expr_v1alpha1_eval_proto_msgTypes[4] + ms := protoimpl.X.MessageStateOf(protoimpl.Pointer(x)) + ms.StoreMessageInfo(mi) + } +} + +func (x *EvalState_Result) String() string { + return protoimpl.X.MessageStringOf(x) +} + +func (*EvalState_Result) ProtoMessage() {} + +func (x *EvalState_Result) ProtoReflect() protoreflect.Message { + mi := &file_google_api_expr_v1alpha1_eval_proto_msgTypes[4] + if protoimpl.UnsafeEnabled && x != nil { + ms := protoimpl.X.MessageStateOf(protoimpl.Pointer(x)) + if ms.LoadMessageInfo() == nil { + ms.StoreMessageInfo(mi) + } + return ms + } + return mi.MessageOf(x) +} + +// Deprecated: Use EvalState_Result.ProtoReflect.Descriptor instead. +func (*EvalState_Result) Descriptor() ([]byte, []int) { + return file_google_api_expr_v1alpha1_eval_proto_rawDescGZIP(), []int{0, 0} +} + +func (x *EvalState_Result) GetExpr() int64 { + if x != nil { + return x.Expr + } + return 0 +} + +func (x *EvalState_Result) GetValue() int64 { + if x != nil { + return x.Value + } + return 0 +} + +var File_google_api_expr_v1alpha1_eval_proto protoreflect.FileDescriptor + +var 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protoimpl.X.CompressGZIP(file_google_api_expr_v1alpha1_eval_proto_rawDescData) + }) + return file_google_api_expr_v1alpha1_eval_proto_rawDescData +} + +var file_google_api_expr_v1alpha1_eval_proto_msgTypes = make([]protoimpl.MessageInfo, 5) +var file_google_api_expr_v1alpha1_eval_proto_goTypes = []interface{}{ + (*EvalState)(nil), // 0: google.api.expr.v1alpha1.EvalState + (*ExprValue)(nil), // 1: google.api.expr.v1alpha1.ExprValue + (*ErrorSet)(nil), // 2: google.api.expr.v1alpha1.ErrorSet + (*UnknownSet)(nil), // 3: google.api.expr.v1alpha1.UnknownSet + (*EvalState_Result)(nil), // 4: google.api.expr.v1alpha1.EvalState.Result + (*Value)(nil), // 5: google.api.expr.v1alpha1.Value + (*status.Status)(nil), // 6: google.rpc.Status +} +var file_google_api_expr_v1alpha1_eval_proto_depIdxs = []int32{ + 1, // 0: google.api.expr.v1alpha1.EvalState.values:type_name -> google.api.expr.v1alpha1.ExprValue + 4, // 1: google.api.expr.v1alpha1.EvalState.results:type_name -> google.api.expr.v1alpha1.EvalState.Result + 5, // 2: google.api.expr.v1alpha1.ExprValue.value:type_name -> google.api.expr.v1alpha1.Value + 2, // 3: google.api.expr.v1alpha1.ExprValue.error:type_name -> google.api.expr.v1alpha1.ErrorSet + 3, // 4: google.api.expr.v1alpha1.ExprValue.unknown:type_name -> google.api.expr.v1alpha1.UnknownSet + 6, // 5: google.api.expr.v1alpha1.ErrorSet.errors:type_name -> google.rpc.Status + 6, // [6:6] is the sub-list for method output_type + 6, // [6:6] is the sub-list for method input_type + 6, // [6:6] is the sub-list for extension type_name + 6, // [6:6] is the sub-list for extension extendee + 0, // [0:6] is the sub-list for field type_name +} + +func init() { file_google_api_expr_v1alpha1_eval_proto_init() } +func file_google_api_expr_v1alpha1_eval_proto_init() { + if File_google_api_expr_v1alpha1_eval_proto != nil { + return + } + file_google_api_expr_v1alpha1_value_proto_init() + if !protoimpl.UnsafeEnabled { + file_google_api_expr_v1alpha1_eval_proto_msgTypes[0].Exporter = func(v interface{}, i int) interface{} { + switch v := v.(*EvalState); i { + case 0: + return &v.state + case 1: + return &v.sizeCache + case 2: + return &v.unknownFields + default: + return nil + } + } + file_google_api_expr_v1alpha1_eval_proto_msgTypes[1].Exporter = func(v interface{}, i int) interface{} { + switch v := v.(*ExprValue); i { + case 0: + return &v.state + case 1: + return &v.sizeCache + case 2: + return &v.unknownFields + default: + return nil + } + } + file_google_api_expr_v1alpha1_eval_proto_msgTypes[2].Exporter = func(v interface{}, i int) interface{} { + switch v := v.(*ErrorSet); i { + case 0: + return &v.state + case 1: + return &v.sizeCache + case 2: + return &v.unknownFields + default: + return nil + } + } + file_google_api_expr_v1alpha1_eval_proto_msgTypes[3].Exporter = func(v interface{}, i int) interface{} { + switch v := v.(*UnknownSet); i { + case 0: + return &v.state + case 1: + return &v.sizeCache + case 2: + return &v.unknownFields + default: + return nil + } + } + file_google_api_expr_v1alpha1_eval_proto_msgTypes[4].Exporter = func(v interface{}, i int) interface{} { + switch v := v.(*EvalState_Result); i { + case 0: + return &v.state + case 1: + return &v.sizeCache + case 2: + return &v.unknownFields + default: + return nil + } + } + } + file_google_api_expr_v1alpha1_eval_proto_msgTypes[1].OneofWrappers = []interface{}{ + (*ExprValue_Value)(nil), + (*ExprValue_Error)(nil), + (*ExprValue_Unknown)(nil), + } + type x struct{} + out := protoimpl.TypeBuilder{ + File: protoimpl.DescBuilder{ + GoPackagePath: reflect.TypeOf(x{}).PkgPath(), + RawDescriptor: file_google_api_expr_v1alpha1_eval_proto_rawDesc, + NumEnums: 0, + NumMessages: 5, + NumExtensions: 0, + NumServices: 0, + }, + GoTypes: file_google_api_expr_v1alpha1_eval_proto_goTypes, + DependencyIndexes: file_google_api_expr_v1alpha1_eval_proto_depIdxs, + MessageInfos: file_google_api_expr_v1alpha1_eval_proto_msgTypes, + }.Build() + File_google_api_expr_v1alpha1_eval_proto = out.File + file_google_api_expr_v1alpha1_eval_proto_rawDesc = nil + file_google_api_expr_v1alpha1_eval_proto_goTypes = nil + file_google_api_expr_v1alpha1_eval_proto_depIdxs = nil +} diff --git a/vendor/google.golang.org/genproto/googleapis/api/expr/v1alpha1/explain.pb.go b/vendor/google.golang.org/genproto/googleapis/api/expr/v1alpha1/explain.pb.go new file mode 100644 index 000000000..7cc7c1bff --- /dev/null +++ b/vendor/google.golang.org/genproto/googleapis/api/expr/v1alpha1/explain.pb.go @@ -0,0 +1,275 @@ +// Copyright 2020 Google LLC +// +// Licensed under the Apache License, Version 2.0 (the "License"); +// you may not use this file except in compliance with the License. +// You may obtain a copy of the License at +// +// http://www.apache.org/licenses/LICENSE-2.0 +// +// Unless required by applicable law or agreed to in writing, software +// distributed under the License is distributed on an "AS IS" BASIS, +// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. +// See the License for the specific language governing permissions and +// limitations under the License. + +// Code generated by protoc-gen-go. DO NOT EDIT. +// versions: +// protoc-gen-go v1.26.0 +// protoc v3.12.2 +// source: google/api/expr/v1alpha1/explain.proto + +package expr + +import ( + reflect "reflect" + sync "sync" + + protoreflect "google.golang.org/protobuf/reflect/protoreflect" + protoimpl "google.golang.org/protobuf/runtime/protoimpl" +) + +const ( + // Verify that this generated code is sufficiently up-to-date. + _ = protoimpl.EnforceVersion(20 - protoimpl.MinVersion) + // Verify that runtime/protoimpl is sufficiently up-to-date. + _ = protoimpl.EnforceVersion(protoimpl.MaxVersion - 20) +) + +// Values of intermediate expressions produced when evaluating expression. +// Deprecated, use `EvalState` instead. +// +// Deprecated: Do not use. +type Explain struct { + state protoimpl.MessageState + sizeCache protoimpl.SizeCache + unknownFields protoimpl.UnknownFields + + // All of the observed values. + // + // The field value_index is an index in the values list. + // Separating values from steps is needed to remove redundant values. + Values []*Value `protobuf:"bytes,1,rep,name=values,proto3" json:"values,omitempty"` + // List of steps. + // + // Repeated evaluations of the same expression generate new ExprStep + // instances. The order of such ExprStep instances matches the order of + // elements returned by Comprehension.iter_range. + ExprSteps []*Explain_ExprStep `protobuf:"bytes,2,rep,name=expr_steps,json=exprSteps,proto3" json:"expr_steps,omitempty"` +} + +func (x *Explain) Reset() { + *x = Explain{} + if protoimpl.UnsafeEnabled { + mi := &file_google_api_expr_v1alpha1_explain_proto_msgTypes[0] + ms := protoimpl.X.MessageStateOf(protoimpl.Pointer(x)) + ms.StoreMessageInfo(mi) + } +} + +func (x *Explain) String() string { + return protoimpl.X.MessageStringOf(x) +} + +func (*Explain) ProtoMessage() {} + +func (x *Explain) ProtoReflect() protoreflect.Message { + mi := &file_google_api_expr_v1alpha1_explain_proto_msgTypes[0] + if protoimpl.UnsafeEnabled && x != nil { + ms := protoimpl.X.MessageStateOf(protoimpl.Pointer(x)) + if ms.LoadMessageInfo() == nil { + ms.StoreMessageInfo(mi) + } + return ms + } + return mi.MessageOf(x) +} + +// Deprecated: Use Explain.ProtoReflect.Descriptor instead. +func (*Explain) Descriptor() ([]byte, []int) { + return file_google_api_expr_v1alpha1_explain_proto_rawDescGZIP(), []int{0} +} + +func (x *Explain) GetValues() []*Value { + if x != nil { + return x.Values + } + return nil +} + +func (x *Explain) GetExprSteps() []*Explain_ExprStep { + if x != nil { + return x.ExprSteps + } + return nil +} + +// ID and value index of one step. +type Explain_ExprStep struct { + state protoimpl.MessageState + sizeCache protoimpl.SizeCache + unknownFields protoimpl.UnknownFields + + // ID of corresponding Expr node. + Id int64 `protobuf:"varint,1,opt,name=id,proto3" json:"id,omitempty"` + // Index of the value in the values list. + ValueIndex int32 `protobuf:"varint,2,opt,name=value_index,json=valueIndex,proto3" json:"value_index,omitempty"` +} + +func (x *Explain_ExprStep) Reset() { + *x = Explain_ExprStep{} + if protoimpl.UnsafeEnabled { + mi := &file_google_api_expr_v1alpha1_explain_proto_msgTypes[1] + ms := protoimpl.X.MessageStateOf(protoimpl.Pointer(x)) + ms.StoreMessageInfo(mi) + } +} + +func (x *Explain_ExprStep) String() string { + return protoimpl.X.MessageStringOf(x) +} + +func (*Explain_ExprStep) ProtoMessage() {} + +func (x *Explain_ExprStep) ProtoReflect() protoreflect.Message { + mi := &file_google_api_expr_v1alpha1_explain_proto_msgTypes[1] + if protoimpl.UnsafeEnabled && x != nil { + ms := protoimpl.X.MessageStateOf(protoimpl.Pointer(x)) + if ms.LoadMessageInfo() == nil { + ms.StoreMessageInfo(mi) + } + return ms + } + return mi.MessageOf(x) +} + +// Deprecated: Use Explain_ExprStep.ProtoReflect.Descriptor instead. +func (*Explain_ExprStep) Descriptor() ([]byte, []int) { + return file_google_api_expr_v1alpha1_explain_proto_rawDescGZIP(), []int{0, 0} +} + +func (x *Explain_ExprStep) GetId() int64 { + if x != nil { + return x.Id + } + return 0 +} + +func (x *Explain_ExprStep) GetValueIndex() int32 { + if x != nil { + return x.ValueIndex + } + return 0 +} + +var File_google_api_expr_v1alpha1_explain_proto 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file_google_api_expr_v1alpha1_explain_proto_rawDescGZIP() []byte { + file_google_api_expr_v1alpha1_explain_proto_rawDescOnce.Do(func() { + file_google_api_expr_v1alpha1_explain_proto_rawDescData = protoimpl.X.CompressGZIP(file_google_api_expr_v1alpha1_explain_proto_rawDescData) + }) + return file_google_api_expr_v1alpha1_explain_proto_rawDescData +} + +var file_google_api_expr_v1alpha1_explain_proto_msgTypes = make([]protoimpl.MessageInfo, 2) +var file_google_api_expr_v1alpha1_explain_proto_goTypes = []interface{}{ + (*Explain)(nil), // 0: google.api.expr.v1alpha1.Explain + (*Explain_ExprStep)(nil), // 1: google.api.expr.v1alpha1.Explain.ExprStep + (*Value)(nil), // 2: google.api.expr.v1alpha1.Value +} +var file_google_api_expr_v1alpha1_explain_proto_depIdxs = []int32{ + 2, // 0: google.api.expr.v1alpha1.Explain.values:type_name -> google.api.expr.v1alpha1.Value + 1, // 1: google.api.expr.v1alpha1.Explain.expr_steps:type_name -> google.api.expr.v1alpha1.Explain.ExprStep + 2, // [2:2] is the sub-list for method output_type + 2, // [2:2] is the sub-list for method input_type + 2, // [2:2] is the sub-list for extension type_name + 2, // [2:2] is the sub-list for extension extendee + 0, // [0:2] is the sub-list for field type_name +} + +func init() { file_google_api_expr_v1alpha1_explain_proto_init() } +func file_google_api_expr_v1alpha1_explain_proto_init() { + if File_google_api_expr_v1alpha1_explain_proto != nil { + return + } + file_google_api_expr_v1alpha1_value_proto_init() + if !protoimpl.UnsafeEnabled { + file_google_api_expr_v1alpha1_explain_proto_msgTypes[0].Exporter = func(v interface{}, i int) interface{} { + switch v := v.(*Explain); i { + case 0: + return &v.state + case 1: + return &v.sizeCache + case 2: + return &v.unknownFields + default: + return nil + } + } + file_google_api_expr_v1alpha1_explain_proto_msgTypes[1].Exporter = func(v interface{}, i int) interface{} { + switch v := v.(*Explain_ExprStep); i { + case 0: + return &v.state + case 1: + return &v.sizeCache + case 2: + return &v.unknownFields + default: + return nil + } + } + } + type x struct{} + out := protoimpl.TypeBuilder{ + File: protoimpl.DescBuilder{ + GoPackagePath: reflect.TypeOf(x{}).PkgPath(), + RawDescriptor: file_google_api_expr_v1alpha1_explain_proto_rawDesc, + NumEnums: 0, + NumMessages: 2, + NumExtensions: 0, + NumServices: 0, + }, + GoTypes: file_google_api_expr_v1alpha1_explain_proto_goTypes, + DependencyIndexes: file_google_api_expr_v1alpha1_explain_proto_depIdxs, + MessageInfos: file_google_api_expr_v1alpha1_explain_proto_msgTypes, + }.Build() + File_google_api_expr_v1alpha1_explain_proto = out.File + file_google_api_expr_v1alpha1_explain_proto_rawDesc = nil + file_google_api_expr_v1alpha1_explain_proto_goTypes = nil + file_google_api_expr_v1alpha1_explain_proto_depIdxs = nil +} diff --git a/vendor/google.golang.org/genproto/googleapis/api/expr/v1alpha1/syntax.pb.go b/vendor/google.golang.org/genproto/googleapis/api/expr/v1alpha1/syntax.pb.go new file mode 100644 index 000000000..95cfea0eb --- /dev/null +++ b/vendor/google.golang.org/genproto/googleapis/api/expr/v1alpha1/syntax.pb.go @@ -0,0 +1,1684 @@ +// Copyright 2020 Google LLC +// +// Licensed under the Apache License, Version 2.0 (the "License"); +// you may not use this file except in compliance with the License. +// You may obtain a copy of the License at +// +// http://www.apache.org/licenses/LICENSE-2.0 +// +// Unless required by applicable law or agreed to in writing, software +// distributed under the License is distributed on an "AS IS" BASIS, +// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. +// See the License for the specific language governing permissions and +// limitations under the License. + +// Code generated by protoc-gen-go. DO NOT EDIT. +// versions: +// protoc-gen-go v1.26.0 +// protoc v3.12.2 +// source: google/api/expr/v1alpha1/syntax.proto + +package expr + +import ( + reflect "reflect" + sync "sync" + + protoreflect "google.golang.org/protobuf/reflect/protoreflect" + protoimpl "google.golang.org/protobuf/runtime/protoimpl" + durationpb "google.golang.org/protobuf/types/known/durationpb" + structpb "google.golang.org/protobuf/types/known/structpb" + timestamppb "google.golang.org/protobuf/types/known/timestamppb" +) + +const ( + // Verify that this generated code is sufficiently up-to-date. + _ = protoimpl.EnforceVersion(20 - protoimpl.MinVersion) + // Verify that runtime/protoimpl is sufficiently up-to-date. + _ = protoimpl.EnforceVersion(protoimpl.MaxVersion - 20) +) + +// An expression together with source information as returned by the parser. +type ParsedExpr struct { + state protoimpl.MessageState + sizeCache protoimpl.SizeCache + unknownFields protoimpl.UnknownFields + + // The parsed expression. + Expr *Expr `protobuf:"bytes,2,opt,name=expr,proto3" json:"expr,omitempty"` + // The source info derived from input that generated the parsed `expr`. + SourceInfo *SourceInfo `protobuf:"bytes,3,opt,name=source_info,json=sourceInfo,proto3" json:"source_info,omitempty"` +} + +func (x *ParsedExpr) Reset() { + *x = ParsedExpr{} + if protoimpl.UnsafeEnabled { + mi := &file_google_api_expr_v1alpha1_syntax_proto_msgTypes[0] + ms := protoimpl.X.MessageStateOf(protoimpl.Pointer(x)) + ms.StoreMessageInfo(mi) + } +} + +func (x *ParsedExpr) String() string { + return protoimpl.X.MessageStringOf(x) +} + +func (*ParsedExpr) ProtoMessage() {} + +func (x *ParsedExpr) ProtoReflect() protoreflect.Message { + mi := &file_google_api_expr_v1alpha1_syntax_proto_msgTypes[0] + if protoimpl.UnsafeEnabled && x != nil { + ms := protoimpl.X.MessageStateOf(protoimpl.Pointer(x)) + if ms.LoadMessageInfo() == nil { + ms.StoreMessageInfo(mi) + } + return ms + } + return mi.MessageOf(x) +} + +// Deprecated: Use ParsedExpr.ProtoReflect.Descriptor instead. +func (*ParsedExpr) Descriptor() ([]byte, []int) { + return file_google_api_expr_v1alpha1_syntax_proto_rawDescGZIP(), []int{0} +} + +func (x *ParsedExpr) GetExpr() *Expr { + if x != nil { + return x.Expr + } + return nil +} + +func (x *ParsedExpr) GetSourceInfo() *SourceInfo { + if x != nil { + return x.SourceInfo + } + return nil +} + +// An abstract representation of a common expression. +// +// Expressions are abstractly represented as a collection of identifiers, +// select statements, function calls, literals, and comprehensions. All +// operators with the exception of the '.' operator are modelled as function +// calls. This makes it easy to represent new operators into the existing AST. +// +// All references within expressions must resolve to a [Decl][google.api.expr.v1alpha1.Decl] provided at +// type-check for an expression to be valid. A reference may either be a bare +// identifier `name` or a qualified identifier `google.api.name`. References +// may either refer to a value or a function declaration. +// +// For example, the expression `google.api.name.startsWith('expr')` references +// the declaration `google.api.name` within a [Expr.Select][google.api.expr.v1alpha1.Expr.Select] expression, and +// the function declaration `startsWith`. +type Expr struct { + state protoimpl.MessageState + sizeCache protoimpl.SizeCache + unknownFields protoimpl.UnknownFields + + // Required. An id assigned to this node by the parser which is unique in a + // given expression tree. This is used to associate type information and other + // attributes to a node in the parse tree. + Id int64 `protobuf:"varint,2,opt,name=id,proto3" json:"id,omitempty"` + // Required. Variants of expressions. + // + // Types that are assignable to ExprKind: + // *Expr_ConstExpr + // *Expr_IdentExpr + // *Expr_SelectExpr + // *Expr_CallExpr + // *Expr_ListExpr + // *Expr_StructExpr + // *Expr_ComprehensionExpr + ExprKind isExpr_ExprKind `protobuf_oneof:"expr_kind"` +} + +func (x *Expr) Reset() { + *x = Expr{} + if protoimpl.UnsafeEnabled { + mi := &file_google_api_expr_v1alpha1_syntax_proto_msgTypes[1] + ms := protoimpl.X.MessageStateOf(protoimpl.Pointer(x)) + ms.StoreMessageInfo(mi) + } +} + +func (x *Expr) String() string { + return protoimpl.X.MessageStringOf(x) +} + +func (*Expr) ProtoMessage() {} + +func (x *Expr) ProtoReflect() protoreflect.Message { + mi := &file_google_api_expr_v1alpha1_syntax_proto_msgTypes[1] + if protoimpl.UnsafeEnabled && x != nil { + ms := protoimpl.X.MessageStateOf(protoimpl.Pointer(x)) + if ms.LoadMessageInfo() == nil { + ms.StoreMessageInfo(mi) + } + return ms + } + return mi.MessageOf(x) +} + +// Deprecated: Use Expr.ProtoReflect.Descriptor instead. +func (*Expr) Descriptor() ([]byte, []int) { + return file_google_api_expr_v1alpha1_syntax_proto_rawDescGZIP(), []int{1} +} + +func (x *Expr) GetId() int64 { + if x != nil { + return x.Id + } + return 0 +} + +func (m *Expr) GetExprKind() isExpr_ExprKind { + if m != nil { + return m.ExprKind + } + return nil +} + +func (x *Expr) GetConstExpr() *Constant { + if x, ok := x.GetExprKind().(*Expr_ConstExpr); ok { + return x.ConstExpr + } + return nil +} + +func (x *Expr) GetIdentExpr() *Expr_Ident { + if x, ok := x.GetExprKind().(*Expr_IdentExpr); ok { + return x.IdentExpr + } + return nil +} + +func (x *Expr) GetSelectExpr() *Expr_Select { + if x, ok := x.GetExprKind().(*Expr_SelectExpr); ok { + return x.SelectExpr + } + return nil +} + +func (x *Expr) GetCallExpr() *Expr_Call { + if x, ok := x.GetExprKind().(*Expr_CallExpr); ok { + return x.CallExpr + } + return nil +} + +func (x *Expr) GetListExpr() *Expr_CreateList { + if x, ok := x.GetExprKind().(*Expr_ListExpr); ok { + return x.ListExpr + } + return nil +} + +func (x *Expr) GetStructExpr() *Expr_CreateStruct { + if x, ok := x.GetExprKind().(*Expr_StructExpr); ok { + return x.StructExpr + } + return nil +} + +func (x *Expr) GetComprehensionExpr() *Expr_Comprehension { + if x, ok := x.GetExprKind().(*Expr_ComprehensionExpr); ok { + return x.ComprehensionExpr + } + return nil +} + +type isExpr_ExprKind interface { + isExpr_ExprKind() +} + +type Expr_ConstExpr struct { + // A literal expression. + ConstExpr *Constant `protobuf:"bytes,3,opt,name=const_expr,json=constExpr,proto3,oneof"` +} + +type Expr_IdentExpr struct { + // An identifier expression. + IdentExpr *Expr_Ident `protobuf:"bytes,4,opt,name=ident_expr,json=identExpr,proto3,oneof"` +} + +type Expr_SelectExpr struct { + // A field selection expression, e.g. `request.auth`. + SelectExpr *Expr_Select `protobuf:"bytes,5,opt,name=select_expr,json=selectExpr,proto3,oneof"` +} + +type Expr_CallExpr struct { + // A call expression, including calls to predefined functions and operators. + CallExpr *Expr_Call `protobuf:"bytes,6,opt,name=call_expr,json=callExpr,proto3,oneof"` +} + +type Expr_ListExpr struct { + // A list creation expression. + ListExpr *Expr_CreateList `protobuf:"bytes,7,opt,name=list_expr,json=listExpr,proto3,oneof"` +} + +type Expr_StructExpr struct { + // A map or message creation expression. + StructExpr *Expr_CreateStruct `protobuf:"bytes,8,opt,name=struct_expr,json=structExpr,proto3,oneof"` +} + +type Expr_ComprehensionExpr struct { + // A comprehension expression. + ComprehensionExpr *Expr_Comprehension `protobuf:"bytes,9,opt,name=comprehension_expr,json=comprehensionExpr,proto3,oneof"` +} + +func (*Expr_ConstExpr) isExpr_ExprKind() {} + +func (*Expr_IdentExpr) isExpr_ExprKind() {} + +func (*Expr_SelectExpr) isExpr_ExprKind() {} + +func (*Expr_CallExpr) isExpr_ExprKind() {} + +func (*Expr_ListExpr) isExpr_ExprKind() {} + +func (*Expr_StructExpr) isExpr_ExprKind() {} + +func (*Expr_ComprehensionExpr) isExpr_ExprKind() {} + +// Represents a primitive literal. +// +// Named 'Constant' here for backwards compatibility. +// +// This is similar as the primitives supported in the well-known type +// `google.protobuf.Value`, but richer so it can represent CEL's full range of +// primitives. +// +// Lists and structs are not included as constants as these aggregate types may +// contain [Expr][google.api.expr.v1alpha1.Expr] elements which require evaluation and are thus not constant. +// +// Examples of literals include: `"hello"`, `b'bytes'`, `1u`, `4.2`, `-2`, +// `true`, `null`. +type Constant struct { + state protoimpl.MessageState + sizeCache protoimpl.SizeCache + unknownFields protoimpl.UnknownFields + + // Required. The valid constant kinds. + // + // Types that are assignable to ConstantKind: + // *Constant_NullValue + // *Constant_BoolValue + // *Constant_Int64Value + // *Constant_Uint64Value + // *Constant_DoubleValue + // *Constant_StringValue + // *Constant_BytesValue + // *Constant_DurationValue + // *Constant_TimestampValue + ConstantKind isConstant_ConstantKind `protobuf_oneof:"constant_kind"` +} + +func (x *Constant) Reset() { + *x = Constant{} + if protoimpl.UnsafeEnabled { + mi := &file_google_api_expr_v1alpha1_syntax_proto_msgTypes[2] + ms := protoimpl.X.MessageStateOf(protoimpl.Pointer(x)) + ms.StoreMessageInfo(mi) + } +} + +func (x *Constant) String() string { + return protoimpl.X.MessageStringOf(x) +} + +func (*Constant) ProtoMessage() {} + +func (x *Constant) ProtoReflect() protoreflect.Message { + mi := &file_google_api_expr_v1alpha1_syntax_proto_msgTypes[2] + if protoimpl.UnsafeEnabled && x != nil { + ms := protoimpl.X.MessageStateOf(protoimpl.Pointer(x)) + if ms.LoadMessageInfo() == nil { + ms.StoreMessageInfo(mi) + } + return ms + } + return mi.MessageOf(x) +} + +// Deprecated: Use Constant.ProtoReflect.Descriptor instead. +func (*Constant) Descriptor() ([]byte, []int) { + return file_google_api_expr_v1alpha1_syntax_proto_rawDescGZIP(), []int{2} +} + +func (m *Constant) GetConstantKind() isConstant_ConstantKind { + if m != nil { + return m.ConstantKind + } + return nil +} + +func (x *Constant) GetNullValue() structpb.NullValue { + if x, ok := x.GetConstantKind().(*Constant_NullValue); ok { + return x.NullValue + } + return structpb.NullValue_NULL_VALUE +} + +func (x *Constant) GetBoolValue() bool { + if x, ok := x.GetConstantKind().(*Constant_BoolValue); ok { + return x.BoolValue + } + return false +} + +func (x *Constant) GetInt64Value() int64 { + if x, ok := x.GetConstantKind().(*Constant_Int64Value); ok { + return x.Int64Value + } + return 0 +} + +func (x *Constant) GetUint64Value() uint64 { + if x, ok := x.GetConstantKind().(*Constant_Uint64Value); ok { + return x.Uint64Value + } + return 0 +} + +func (x *Constant) GetDoubleValue() float64 { + if x, ok := x.GetConstantKind().(*Constant_DoubleValue); ok { + return x.DoubleValue + } + return 0 +} + +func (x *Constant) GetStringValue() string { + if x, ok := x.GetConstantKind().(*Constant_StringValue); ok { + return x.StringValue + } + return "" +} + +func (x *Constant) GetBytesValue() []byte { + if x, ok := x.GetConstantKind().(*Constant_BytesValue); ok { + return x.BytesValue + } + return nil +} + +// Deprecated: Do not use. +func (x *Constant) GetDurationValue() *durationpb.Duration { + if x, ok := x.GetConstantKind().(*Constant_DurationValue); ok { + return x.DurationValue + } + return nil +} + +// Deprecated: Do not use. +func (x *Constant) GetTimestampValue() *timestamppb.Timestamp { + if x, ok := x.GetConstantKind().(*Constant_TimestampValue); ok { + return x.TimestampValue + } + return nil +} + +type isConstant_ConstantKind interface { + isConstant_ConstantKind() +} + +type Constant_NullValue struct { + // null value. + NullValue structpb.NullValue `protobuf:"varint,1,opt,name=null_value,json=nullValue,proto3,enum=google.protobuf.NullValue,oneof"` +} + +type Constant_BoolValue struct { + // boolean value. + BoolValue bool `protobuf:"varint,2,opt,name=bool_value,json=boolValue,proto3,oneof"` +} + +type Constant_Int64Value struct { + // int64 value. + Int64Value int64 `protobuf:"varint,3,opt,name=int64_value,json=int64Value,proto3,oneof"` +} + +type Constant_Uint64Value struct { + // uint64 value. + Uint64Value uint64 `protobuf:"varint,4,opt,name=uint64_value,json=uint64Value,proto3,oneof"` +} + +type Constant_DoubleValue struct { + // double value. + DoubleValue float64 `protobuf:"fixed64,5,opt,name=double_value,json=doubleValue,proto3,oneof"` +} + +type Constant_StringValue struct { + // string value. + StringValue string `protobuf:"bytes,6,opt,name=string_value,json=stringValue,proto3,oneof"` +} + +type Constant_BytesValue struct { + // bytes value. + BytesValue []byte `protobuf:"bytes,7,opt,name=bytes_value,json=bytesValue,proto3,oneof"` +} + +type Constant_DurationValue struct { + // protobuf.Duration value. + // + // Deprecated: duration is no longer considered a builtin cel type. + // + // Deprecated: Do not use. + DurationValue *durationpb.Duration `protobuf:"bytes,8,opt,name=duration_value,json=durationValue,proto3,oneof"` +} + +type Constant_TimestampValue struct { + // protobuf.Timestamp value. + // + // Deprecated: timestamp is no longer considered a builtin cel type. + // + // Deprecated: Do not use. + TimestampValue *timestamppb.Timestamp `protobuf:"bytes,9,opt,name=timestamp_value,json=timestampValue,proto3,oneof"` +} + +func (*Constant_NullValue) isConstant_ConstantKind() {} + +func (*Constant_BoolValue) isConstant_ConstantKind() {} + +func (*Constant_Int64Value) isConstant_ConstantKind() {} + +func (*Constant_Uint64Value) isConstant_ConstantKind() {} + +func (*Constant_DoubleValue) isConstant_ConstantKind() {} + +func (*Constant_StringValue) isConstant_ConstantKind() {} + +func (*Constant_BytesValue) isConstant_ConstantKind() {} + +func (*Constant_DurationValue) isConstant_ConstantKind() {} + +func (*Constant_TimestampValue) isConstant_ConstantKind() {} + +// Source information collected at parse time. +type SourceInfo struct { + state protoimpl.MessageState + sizeCache protoimpl.SizeCache + unknownFields protoimpl.UnknownFields + + // The syntax version of the source, e.g. `cel1`. + SyntaxVersion string `protobuf:"bytes,1,opt,name=syntax_version,json=syntaxVersion,proto3" json:"syntax_version,omitempty"` + // The location name. All position information attached to an expression is + // relative to this location. + // + // The location could be a file, UI element, or similar. For example, + // `acme/app/AnvilPolicy.cel`. + Location string `protobuf:"bytes,2,opt,name=location,proto3" json:"location,omitempty"` + // Monotonically increasing list of character offsets where newlines appear. + // + // The line number of a given position is the index `i` where for a given + // `id` the `line_offsets[i] < id_positions[id] < line_offsets[i+1]`. The + // column may be derivd from `id_positions[id] - line_offsets[i]`. + LineOffsets []int32 `protobuf:"varint,3,rep,packed,name=line_offsets,json=lineOffsets,proto3" json:"line_offsets,omitempty"` + // A map from the parse node id (e.g. `Expr.id`) to the character offset + // within source. + Positions map[int64]int32 `protobuf:"bytes,4,rep,name=positions,proto3" json:"positions,omitempty" protobuf_key:"varint,1,opt,name=key,proto3" protobuf_val:"varint,2,opt,name=value,proto3"` + // A map from the parse node id where a macro replacement was made to the + // call `Expr` that resulted in a macro expansion. + // + // For example, `has(value.field)` is a function call that is replaced by a + // `test_only` field selection in the AST. Likewise, the call + // `list.exists(e, e > 10)` translates to a comprehension expression. The key + // in the map corresponds to the expression id of the expanded macro, and the + // value is the call `Expr` that was replaced. + MacroCalls map[int64]*Expr `protobuf:"bytes,5,rep,name=macro_calls,json=macroCalls,proto3" json:"macro_calls,omitempty" protobuf_key:"varint,1,opt,name=key,proto3" protobuf_val:"bytes,2,opt,name=value,proto3"` +} + +func (x *SourceInfo) Reset() { + *x = SourceInfo{} + if protoimpl.UnsafeEnabled { + mi := &file_google_api_expr_v1alpha1_syntax_proto_msgTypes[3] + ms := protoimpl.X.MessageStateOf(protoimpl.Pointer(x)) + ms.StoreMessageInfo(mi) + } +} + +func (x *SourceInfo) String() string { + return protoimpl.X.MessageStringOf(x) +} + +func (*SourceInfo) ProtoMessage() {} + +func (x *SourceInfo) ProtoReflect() protoreflect.Message { + mi := &file_google_api_expr_v1alpha1_syntax_proto_msgTypes[3] + if protoimpl.UnsafeEnabled && x != nil { + ms := protoimpl.X.MessageStateOf(protoimpl.Pointer(x)) + if ms.LoadMessageInfo() == nil { + ms.StoreMessageInfo(mi) + } + return ms + } + return mi.MessageOf(x) +} + +// Deprecated: Use SourceInfo.ProtoReflect.Descriptor instead. +func (*SourceInfo) Descriptor() ([]byte, []int) { + return file_google_api_expr_v1alpha1_syntax_proto_rawDescGZIP(), []int{3} +} + +func (x *SourceInfo) GetSyntaxVersion() string { + if x != nil { + return x.SyntaxVersion + } + return "" +} + +func (x *SourceInfo) GetLocation() string { + if x != nil { + return x.Location + } + return "" +} + +func (x *SourceInfo) GetLineOffsets() []int32 { + if x != nil { + return x.LineOffsets + } + return nil +} + +func (x *SourceInfo) GetPositions() map[int64]int32 { + if x != nil { + return x.Positions + } + return nil +} + +func (x *SourceInfo) GetMacroCalls() map[int64]*Expr { + if x != nil { + return x.MacroCalls + } + return nil +} + +// A specific position in source. +type SourcePosition struct { + state protoimpl.MessageState + sizeCache protoimpl.SizeCache + unknownFields protoimpl.UnknownFields + + // The soucre location name (e.g. file name). + Location string `protobuf:"bytes,1,opt,name=location,proto3" json:"location,omitempty"` + // The character offset. + Offset int32 `protobuf:"varint,2,opt,name=offset,proto3" json:"offset,omitempty"` + // The 1-based index of the starting line in the source text + // where the issue occurs, or 0 if unknown. + Line int32 `protobuf:"varint,3,opt,name=line,proto3" json:"line,omitempty"` + // The 0-based index of the starting position within the line of source text + // where the issue occurs. Only meaningful if line is nonzero. + Column int32 `protobuf:"varint,4,opt,name=column,proto3" json:"column,omitempty"` +} + +func (x *SourcePosition) Reset() { + *x = SourcePosition{} + if protoimpl.UnsafeEnabled { + mi := &file_google_api_expr_v1alpha1_syntax_proto_msgTypes[4] + ms := protoimpl.X.MessageStateOf(protoimpl.Pointer(x)) + ms.StoreMessageInfo(mi) + } +} + +func (x *SourcePosition) String() string { + return protoimpl.X.MessageStringOf(x) +} + +func (*SourcePosition) ProtoMessage() {} + +func (x *SourcePosition) ProtoReflect() protoreflect.Message { + mi := &file_google_api_expr_v1alpha1_syntax_proto_msgTypes[4] + if protoimpl.UnsafeEnabled && x != nil { + ms := protoimpl.X.MessageStateOf(protoimpl.Pointer(x)) + if ms.LoadMessageInfo() == nil { + ms.StoreMessageInfo(mi) + } + return ms + } + return mi.MessageOf(x) +} + +// Deprecated: Use SourcePosition.ProtoReflect.Descriptor instead. +func (*SourcePosition) Descriptor() ([]byte, []int) { + return file_google_api_expr_v1alpha1_syntax_proto_rawDescGZIP(), []int{4} +} + +func (x *SourcePosition) GetLocation() string { + if x != nil { + return x.Location + } + return "" +} + +func (x *SourcePosition) GetOffset() int32 { + if x != nil { + return x.Offset + } + return 0 +} + +func (x *SourcePosition) GetLine() int32 { + if x != nil { + return x.Line + } + return 0 +} + +func (x *SourcePosition) GetColumn() int32 { + if x != nil { + return x.Column + } + return 0 +} + +// An identifier expression. e.g. `request`. +type Expr_Ident struct { + state protoimpl.MessageState + sizeCache protoimpl.SizeCache + unknownFields protoimpl.UnknownFields + + // Required. Holds a single, unqualified identifier, possibly preceded by a + // '.'. + // + // Qualified names are represented by the [Expr.Select][google.api.expr.v1alpha1.Expr.Select] expression. + Name string `protobuf:"bytes,1,opt,name=name,proto3" json:"name,omitempty"` +} + +func (x *Expr_Ident) Reset() { + *x = Expr_Ident{} + if protoimpl.UnsafeEnabled { + mi := &file_google_api_expr_v1alpha1_syntax_proto_msgTypes[5] + ms := protoimpl.X.MessageStateOf(protoimpl.Pointer(x)) + ms.StoreMessageInfo(mi) + } +} + +func (x *Expr_Ident) String() string { + return protoimpl.X.MessageStringOf(x) +} + +func (*Expr_Ident) ProtoMessage() {} + +func (x *Expr_Ident) ProtoReflect() protoreflect.Message { + mi := &file_google_api_expr_v1alpha1_syntax_proto_msgTypes[5] + if protoimpl.UnsafeEnabled && x != nil { + ms := protoimpl.X.MessageStateOf(protoimpl.Pointer(x)) + if ms.LoadMessageInfo() == nil { + ms.StoreMessageInfo(mi) + } + return ms + } + return mi.MessageOf(x) +} + +// Deprecated: Use Expr_Ident.ProtoReflect.Descriptor instead. +func (*Expr_Ident) Descriptor() ([]byte, []int) { + return file_google_api_expr_v1alpha1_syntax_proto_rawDescGZIP(), []int{1, 0} +} + +func (x *Expr_Ident) GetName() string { + if x != nil { + return x.Name + } + return "" +} + +// A field selection expression. e.g. `request.auth`. +type Expr_Select struct { + state protoimpl.MessageState + sizeCache protoimpl.SizeCache + unknownFields protoimpl.UnknownFields + + // Required. The target of the selection expression. + // + // For example, in the select expression `request.auth`, the `request` + // portion of the expression is the `operand`. + Operand *Expr `protobuf:"bytes,1,opt,name=operand,proto3" json:"operand,omitempty"` + // Required. The name of the field to select. + // + // For example, in the select expression `request.auth`, the `auth` portion + // of the expression would be the `field`. + Field string `protobuf:"bytes,2,opt,name=field,proto3" json:"field,omitempty"` + // Whether the select is to be interpreted as a field presence test. + // + // This results from the macro `has(request.auth)`. + TestOnly bool `protobuf:"varint,3,opt,name=test_only,json=testOnly,proto3" json:"test_only,omitempty"` +} + +func (x *Expr_Select) Reset() { + *x = Expr_Select{} + if protoimpl.UnsafeEnabled { + mi := &file_google_api_expr_v1alpha1_syntax_proto_msgTypes[6] + ms := protoimpl.X.MessageStateOf(protoimpl.Pointer(x)) + ms.StoreMessageInfo(mi) + } +} + +func (x *Expr_Select) String() string { + return protoimpl.X.MessageStringOf(x) +} + +func (*Expr_Select) ProtoMessage() {} + +func (x *Expr_Select) ProtoReflect() protoreflect.Message { + mi := &file_google_api_expr_v1alpha1_syntax_proto_msgTypes[6] + if protoimpl.UnsafeEnabled && x != nil { + ms := protoimpl.X.MessageStateOf(protoimpl.Pointer(x)) + if ms.LoadMessageInfo() == nil { + ms.StoreMessageInfo(mi) + } + return ms + } + return mi.MessageOf(x) +} + +// Deprecated: Use Expr_Select.ProtoReflect.Descriptor instead. +func (*Expr_Select) Descriptor() ([]byte, []int) { + return file_google_api_expr_v1alpha1_syntax_proto_rawDescGZIP(), []int{1, 1} +} + +func (x *Expr_Select) GetOperand() *Expr { + if x != nil { + return x.Operand + } + return nil +} + +func (x *Expr_Select) GetField() string { + if x != nil { + return x.Field + } + return "" +} + +func (x *Expr_Select) GetTestOnly() bool { + if x != nil { + return x.TestOnly + } + return false +} + +// A call expression, including calls to predefined functions and operators. +// +// For example, `value == 10`, `size(map_value)`. +type Expr_Call struct { + state protoimpl.MessageState + sizeCache protoimpl.SizeCache + unknownFields protoimpl.UnknownFields + + // The target of an method call-style expression. For example, `x` in + // `x.f()`. + Target *Expr `protobuf:"bytes,1,opt,name=target,proto3" json:"target,omitempty"` + // Required. The name of the function or method being called. + Function string `protobuf:"bytes,2,opt,name=function,proto3" json:"function,omitempty"` + // The arguments. + Args []*Expr `protobuf:"bytes,3,rep,name=args,proto3" json:"args,omitempty"` +} + +func (x *Expr_Call) Reset() { + *x = Expr_Call{} + if protoimpl.UnsafeEnabled { + mi := &file_google_api_expr_v1alpha1_syntax_proto_msgTypes[7] + ms := protoimpl.X.MessageStateOf(protoimpl.Pointer(x)) + ms.StoreMessageInfo(mi) + } +} + +func (x *Expr_Call) String() string { + return protoimpl.X.MessageStringOf(x) +} + +func (*Expr_Call) ProtoMessage() {} + +func (x *Expr_Call) ProtoReflect() protoreflect.Message { + mi := &file_google_api_expr_v1alpha1_syntax_proto_msgTypes[7] + if protoimpl.UnsafeEnabled && x != nil { + ms := protoimpl.X.MessageStateOf(protoimpl.Pointer(x)) + if ms.LoadMessageInfo() == nil { + ms.StoreMessageInfo(mi) + } + return ms + } + return mi.MessageOf(x) +} + +// Deprecated: Use Expr_Call.ProtoReflect.Descriptor instead. +func (*Expr_Call) Descriptor() ([]byte, []int) { + return file_google_api_expr_v1alpha1_syntax_proto_rawDescGZIP(), []int{1, 2} +} + +func (x *Expr_Call) GetTarget() *Expr { + if x != nil { + return x.Target + } + return nil +} + +func (x *Expr_Call) GetFunction() string { + if x != nil { + return x.Function + } + return "" +} + +func (x *Expr_Call) GetArgs() []*Expr { + if x != nil { + return x.Args + } + return nil +} + +// A list creation expression. +// +// Lists may either be homogenous, e.g. `[1, 2, 3]`, or heterogenous, e.g. +// `dyn([1, 'hello', 2.0])` +type Expr_CreateList struct { + state protoimpl.MessageState + sizeCache protoimpl.SizeCache + unknownFields protoimpl.UnknownFields + + // The elements part of the list. + Elements []*Expr `protobuf:"bytes,1,rep,name=elements,proto3" json:"elements,omitempty"` +} + +func (x *Expr_CreateList) Reset() { + *x = Expr_CreateList{} + if protoimpl.UnsafeEnabled { + mi := &file_google_api_expr_v1alpha1_syntax_proto_msgTypes[8] + ms := protoimpl.X.MessageStateOf(protoimpl.Pointer(x)) + ms.StoreMessageInfo(mi) + } +} + +func (x *Expr_CreateList) String() string { + return protoimpl.X.MessageStringOf(x) +} + +func (*Expr_CreateList) ProtoMessage() {} + +func (x *Expr_CreateList) ProtoReflect() protoreflect.Message { + mi := &file_google_api_expr_v1alpha1_syntax_proto_msgTypes[8] + if protoimpl.UnsafeEnabled && x != nil { + ms := protoimpl.X.MessageStateOf(protoimpl.Pointer(x)) + if ms.LoadMessageInfo() == nil { + ms.StoreMessageInfo(mi) + } + return ms + } + return mi.MessageOf(x) +} + +// Deprecated: Use Expr_CreateList.ProtoReflect.Descriptor instead. +func (*Expr_CreateList) Descriptor() ([]byte, []int) { + return file_google_api_expr_v1alpha1_syntax_proto_rawDescGZIP(), []int{1, 3} +} + +func (x *Expr_CreateList) GetElements() []*Expr { + if x != nil { + return x.Elements + } + return nil +} + +// A map or message creation expression. +// +// Maps are constructed as `{'key_name': 'value'}`. Message construction is +// similar, but prefixed with a type name and composed of field ids: +// `types.MyType{field_id: 'value'}`. +type Expr_CreateStruct struct { + state protoimpl.MessageState + sizeCache protoimpl.SizeCache + unknownFields protoimpl.UnknownFields + + // The type name of the message to be created, empty when creating map + // literals. + MessageName string `protobuf:"bytes,1,opt,name=message_name,json=messageName,proto3" json:"message_name,omitempty"` + // The entries in the creation expression. + Entries []*Expr_CreateStruct_Entry `protobuf:"bytes,2,rep,name=entries,proto3" json:"entries,omitempty"` +} + +func (x *Expr_CreateStruct) Reset() { + *x = Expr_CreateStruct{} + if protoimpl.UnsafeEnabled { + mi := &file_google_api_expr_v1alpha1_syntax_proto_msgTypes[9] + ms := protoimpl.X.MessageStateOf(protoimpl.Pointer(x)) + ms.StoreMessageInfo(mi) + } +} + +func (x *Expr_CreateStruct) String() string { + return protoimpl.X.MessageStringOf(x) +} + +func (*Expr_CreateStruct) ProtoMessage() {} + +func (x *Expr_CreateStruct) ProtoReflect() protoreflect.Message { + mi := &file_google_api_expr_v1alpha1_syntax_proto_msgTypes[9] + if protoimpl.UnsafeEnabled && x != nil { + ms := protoimpl.X.MessageStateOf(protoimpl.Pointer(x)) + if ms.LoadMessageInfo() == nil { + ms.StoreMessageInfo(mi) + } + return ms + } + return mi.MessageOf(x) +} + +// Deprecated: Use Expr_CreateStruct.ProtoReflect.Descriptor instead. +func (*Expr_CreateStruct) Descriptor() ([]byte, []int) { + return file_google_api_expr_v1alpha1_syntax_proto_rawDescGZIP(), []int{1, 4} +} + +func (x *Expr_CreateStruct) GetMessageName() string { + if x != nil { + return x.MessageName + } + return "" +} + +func (x *Expr_CreateStruct) GetEntries() []*Expr_CreateStruct_Entry { + if x != nil { + return x.Entries + } + return nil +} + +// A comprehension expression applied to a list or map. +// +// Comprehensions are not part of the core syntax, but enabled with macros. +// A macro matches a specific call signature within a parsed AST and replaces +// the call with an alternate AST block. Macro expansion happens at parse +// time. +// +// The following macros are supported within CEL: +// +// Aggregate type macros may be applied to all elements in a list or all keys +// in a map: +// +// * `all`, `exists`, `exists_one` - test a predicate expression against +// the inputs and return `true` if the predicate is satisfied for all, +// any, or only one value `list.all(x, x < 10)`. +// * `filter` - test a predicate expression against the inputs and return +// the subset of elements which satisfy the predicate: +// `payments.filter(p, p > 1000)`. +// * `map` - apply an expression to all elements in the input and return the +// output aggregate type: `[1, 2, 3].map(i, i * i)`. +// +// The `has(m.x)` macro tests whether the property `x` is present in struct +// `m`. The semantics of this macro depend on the type of `m`. For proto2 +// messages `has(m.x)` is defined as 'defined, but not set`. For proto3, the +// macro tests whether the property is set to its default. For map and struct +// types, the macro tests whether the property `x` is defined on `m`. +type Expr_Comprehension struct { + state protoimpl.MessageState + sizeCache protoimpl.SizeCache + unknownFields protoimpl.UnknownFields + + // The name of the iteration variable. + IterVar string `protobuf:"bytes,1,opt,name=iter_var,json=iterVar,proto3" json:"iter_var,omitempty"` + // The range over which var iterates. + IterRange *Expr `protobuf:"bytes,2,opt,name=iter_range,json=iterRange,proto3" json:"iter_range,omitempty"` + // The name of the variable used for accumulation of the result. + AccuVar string `protobuf:"bytes,3,opt,name=accu_var,json=accuVar,proto3" json:"accu_var,omitempty"` + // The initial value of the accumulator. + AccuInit *Expr `protobuf:"bytes,4,opt,name=accu_init,json=accuInit,proto3" json:"accu_init,omitempty"` + // An expression which can contain iter_var and accu_var. + // + // Returns false when the result has been computed and may be used as + // a hint to short-circuit the remainder of the comprehension. + LoopCondition *Expr `protobuf:"bytes,5,opt,name=loop_condition,json=loopCondition,proto3" json:"loop_condition,omitempty"` + // An expression which can contain iter_var and accu_var. + // + // Computes the next value of accu_var. + LoopStep *Expr `protobuf:"bytes,6,opt,name=loop_step,json=loopStep,proto3" json:"loop_step,omitempty"` + // An expression which can contain accu_var. + // + // Computes the result. + Result *Expr `protobuf:"bytes,7,opt,name=result,proto3" json:"result,omitempty"` +} + +func (x *Expr_Comprehension) Reset() { + *x = Expr_Comprehension{} + if protoimpl.UnsafeEnabled { + mi := &file_google_api_expr_v1alpha1_syntax_proto_msgTypes[10] + ms := protoimpl.X.MessageStateOf(protoimpl.Pointer(x)) + ms.StoreMessageInfo(mi) + } +} + +func (x *Expr_Comprehension) String() string { + return protoimpl.X.MessageStringOf(x) +} + +func (*Expr_Comprehension) ProtoMessage() {} + +func (x *Expr_Comprehension) ProtoReflect() protoreflect.Message { + mi := &file_google_api_expr_v1alpha1_syntax_proto_msgTypes[10] + if protoimpl.UnsafeEnabled && x != nil { + ms := protoimpl.X.MessageStateOf(protoimpl.Pointer(x)) + if ms.LoadMessageInfo() == nil { + ms.StoreMessageInfo(mi) + } + return ms + } + return mi.MessageOf(x) +} + +// Deprecated: Use Expr_Comprehension.ProtoReflect.Descriptor instead. +func (*Expr_Comprehension) Descriptor() ([]byte, []int) { + return file_google_api_expr_v1alpha1_syntax_proto_rawDescGZIP(), []int{1, 5} +} + +func (x *Expr_Comprehension) GetIterVar() string { + if x != nil { + return x.IterVar + } + return "" +} + +func (x *Expr_Comprehension) GetIterRange() *Expr { + if x != nil { + return x.IterRange + } + return nil +} + +func (x *Expr_Comprehension) GetAccuVar() string { + if x != nil { + return x.AccuVar + } + return "" +} + +func (x *Expr_Comprehension) GetAccuInit() *Expr { + if x != nil { + return x.AccuInit + } + return nil +} + +func (x *Expr_Comprehension) GetLoopCondition() *Expr { + if x != nil { + return x.LoopCondition + } + return nil +} + +func (x *Expr_Comprehension) GetLoopStep() *Expr { + if x != nil { + return x.LoopStep + } + return nil +} + +func (x *Expr_Comprehension) GetResult() *Expr { + if x != nil { + return x.Result + } + return nil +} + +// Represents an entry. +type Expr_CreateStruct_Entry struct { + state protoimpl.MessageState + sizeCache protoimpl.SizeCache + unknownFields protoimpl.UnknownFields + + // Required. An id assigned to this node by the parser which is unique + // in a given expression tree. This is used to associate type + // information and other attributes to the node. + Id int64 `protobuf:"varint,1,opt,name=id,proto3" json:"id,omitempty"` + // The `Entry` key kinds. + // + // Types that are assignable to KeyKind: + // *Expr_CreateStruct_Entry_FieldKey + // *Expr_CreateStruct_Entry_MapKey + KeyKind isExpr_CreateStruct_Entry_KeyKind `protobuf_oneof:"key_kind"` + // Required. The value assigned to the key. + Value *Expr `protobuf:"bytes,4,opt,name=value,proto3" json:"value,omitempty"` +} + +func (x *Expr_CreateStruct_Entry) Reset() { + *x = Expr_CreateStruct_Entry{} + if protoimpl.UnsafeEnabled { + mi := &file_google_api_expr_v1alpha1_syntax_proto_msgTypes[11] + ms := protoimpl.X.MessageStateOf(protoimpl.Pointer(x)) + ms.StoreMessageInfo(mi) + } +} + +func (x *Expr_CreateStruct_Entry) String() string { + return protoimpl.X.MessageStringOf(x) +} + +func (*Expr_CreateStruct_Entry) ProtoMessage() {} + +func (x *Expr_CreateStruct_Entry) ProtoReflect() protoreflect.Message { + mi := &file_google_api_expr_v1alpha1_syntax_proto_msgTypes[11] + if protoimpl.UnsafeEnabled && x != nil { + ms := protoimpl.X.MessageStateOf(protoimpl.Pointer(x)) + if ms.LoadMessageInfo() == nil { + ms.StoreMessageInfo(mi) + } + return ms + } + return mi.MessageOf(x) +} + +// Deprecated: Use Expr_CreateStruct_Entry.ProtoReflect.Descriptor instead. +func (*Expr_CreateStruct_Entry) Descriptor() ([]byte, []int) { + return file_google_api_expr_v1alpha1_syntax_proto_rawDescGZIP(), []int{1, 4, 0} +} + +func (x *Expr_CreateStruct_Entry) GetId() int64 { + if x != nil { + return x.Id + } + return 0 +} + +func (m *Expr_CreateStruct_Entry) GetKeyKind() isExpr_CreateStruct_Entry_KeyKind { + if m != nil { + return m.KeyKind + } + return nil +} + +func (x *Expr_CreateStruct_Entry) GetFieldKey() string { + if x, ok := x.GetKeyKind().(*Expr_CreateStruct_Entry_FieldKey); ok { + return x.FieldKey + } + return "" +} + +func (x *Expr_CreateStruct_Entry) GetMapKey() *Expr { + if x, ok := x.GetKeyKind().(*Expr_CreateStruct_Entry_MapKey); ok { + return x.MapKey + } + return nil +} + +func (x *Expr_CreateStruct_Entry) GetValue() *Expr { + if x != nil { + return x.Value + } + return nil +} + +type isExpr_CreateStruct_Entry_KeyKind interface { + isExpr_CreateStruct_Entry_KeyKind() +} + +type Expr_CreateStruct_Entry_FieldKey struct { + // The field key for a message creator statement. + FieldKey string `protobuf:"bytes,2,opt,name=field_key,json=fieldKey,proto3,oneof"` +} + +type Expr_CreateStruct_Entry_MapKey struct { + // The key expression for a map creation statement. + MapKey *Expr `protobuf:"bytes,3,opt,name=map_key,json=mapKey,proto3,oneof"` +} + +func (*Expr_CreateStruct_Entry_FieldKey) isExpr_CreateStruct_Entry_KeyKind() {} + +func (*Expr_CreateStruct_Entry_MapKey) isExpr_CreateStruct_Entry_KeyKind() {} + +var File_google_api_expr_v1alpha1_syntax_proto protoreflect.FileDescriptor + +var file_google_api_expr_v1alpha1_syntax_proto_rawDesc = []byte{ + 0x0a, 0x25, 0x67, 0x6f, 0x6f, 0x67, 0x6c, 0x65, 0x2f, 0x61, 0x70, 0x69, 0x2f, 0x65, 0x78, 0x70, + 0x72, 0x2f, 0x76, 0x31, 0x61, 0x6c, 0x70, 0x68, 0x61, 0x31, 0x2f, 0x73, 0x79, 0x6e, 0x74, 0x61, + 0x78, 0x2e, 0x70, 0x72, 0x6f, 0x74, 0x6f, 0x12, 0x18, 0x67, 0x6f, 0x6f, 0x67, 0x6c, 0x65, 0x2e, + 0x61, 0x70, 0x69, 0x2e, 0x65, 0x78, 0x70, 0x72, 0x2e, 0x76, 0x31, 0x61, 0x6c, 0x70, 0x68, 0x61, + 0x31, 0x1a, 0x1e, 0x67, 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file_google_api_expr_v1alpha1_syntax_proto_goTypes = []interface{}{ + (*ParsedExpr)(nil), // 0: google.api.expr.v1alpha1.ParsedExpr + (*Expr)(nil), // 1: google.api.expr.v1alpha1.Expr + (*Constant)(nil), // 2: google.api.expr.v1alpha1.Constant + (*SourceInfo)(nil), // 3: google.api.expr.v1alpha1.SourceInfo + (*SourcePosition)(nil), // 4: google.api.expr.v1alpha1.SourcePosition + (*Expr_Ident)(nil), // 5: google.api.expr.v1alpha1.Expr.Ident + (*Expr_Select)(nil), // 6: google.api.expr.v1alpha1.Expr.Select + (*Expr_Call)(nil), // 7: google.api.expr.v1alpha1.Expr.Call + (*Expr_CreateList)(nil), // 8: google.api.expr.v1alpha1.Expr.CreateList + (*Expr_CreateStruct)(nil), // 9: google.api.expr.v1alpha1.Expr.CreateStruct + (*Expr_Comprehension)(nil), // 10: google.api.expr.v1alpha1.Expr.Comprehension + (*Expr_CreateStruct_Entry)(nil), // 11: google.api.expr.v1alpha1.Expr.CreateStruct.Entry + nil, // 12: google.api.expr.v1alpha1.SourceInfo.PositionsEntry + nil, // 13: google.api.expr.v1alpha1.SourceInfo.MacroCallsEntry + (structpb.NullValue)(0), // 14: google.protobuf.NullValue + (*durationpb.Duration)(nil), // 15: google.protobuf.Duration + (*timestamppb.Timestamp)(nil), // 16: google.protobuf.Timestamp +} +var file_google_api_expr_v1alpha1_syntax_proto_depIdxs = []int32{ + 1, // 0: google.api.expr.v1alpha1.ParsedExpr.expr:type_name -> google.api.expr.v1alpha1.Expr + 3, // 1: google.api.expr.v1alpha1.ParsedExpr.source_info:type_name -> google.api.expr.v1alpha1.SourceInfo + 2, // 2: google.api.expr.v1alpha1.Expr.const_expr:type_name -> google.api.expr.v1alpha1.Constant + 5, // 3: google.api.expr.v1alpha1.Expr.ident_expr:type_name -> google.api.expr.v1alpha1.Expr.Ident + 6, // 4: google.api.expr.v1alpha1.Expr.select_expr:type_name -> google.api.expr.v1alpha1.Expr.Select + 7, // 5: google.api.expr.v1alpha1.Expr.call_expr:type_name -> google.api.expr.v1alpha1.Expr.Call + 8, // 6: google.api.expr.v1alpha1.Expr.list_expr:type_name -> google.api.expr.v1alpha1.Expr.CreateList + 9, // 7: google.api.expr.v1alpha1.Expr.struct_expr:type_name -> google.api.expr.v1alpha1.Expr.CreateStruct + 10, // 8: google.api.expr.v1alpha1.Expr.comprehension_expr:type_name -> google.api.expr.v1alpha1.Expr.Comprehension + 14, // 9: google.api.expr.v1alpha1.Constant.null_value:type_name -> google.protobuf.NullValue + 15, // 10: google.api.expr.v1alpha1.Constant.duration_value:type_name -> google.protobuf.Duration + 16, // 11: google.api.expr.v1alpha1.Constant.timestamp_value:type_name -> google.protobuf.Timestamp + 12, // 12: google.api.expr.v1alpha1.SourceInfo.positions:type_name -> google.api.expr.v1alpha1.SourceInfo.PositionsEntry + 13, // 13: google.api.expr.v1alpha1.SourceInfo.macro_calls:type_name -> google.api.expr.v1alpha1.SourceInfo.MacroCallsEntry + 1, // 14: google.api.expr.v1alpha1.Expr.Select.operand:type_name -> google.api.expr.v1alpha1.Expr + 1, // 15: google.api.expr.v1alpha1.Expr.Call.target:type_name -> google.api.expr.v1alpha1.Expr + 1, // 16: google.api.expr.v1alpha1.Expr.Call.args:type_name -> google.api.expr.v1alpha1.Expr + 1, // 17: google.api.expr.v1alpha1.Expr.CreateList.elements:type_name -> google.api.expr.v1alpha1.Expr + 11, // 18: google.api.expr.v1alpha1.Expr.CreateStruct.entries:type_name -> google.api.expr.v1alpha1.Expr.CreateStruct.Entry + 1, // 19: google.api.expr.v1alpha1.Expr.Comprehension.iter_range:type_name -> google.api.expr.v1alpha1.Expr + 1, // 20: google.api.expr.v1alpha1.Expr.Comprehension.accu_init:type_name -> google.api.expr.v1alpha1.Expr + 1, // 21: google.api.expr.v1alpha1.Expr.Comprehension.loop_condition:type_name -> google.api.expr.v1alpha1.Expr + 1, // 22: google.api.expr.v1alpha1.Expr.Comprehension.loop_step:type_name -> google.api.expr.v1alpha1.Expr + 1, // 23: google.api.expr.v1alpha1.Expr.Comprehension.result:type_name -> google.api.expr.v1alpha1.Expr + 1, // 24: google.api.expr.v1alpha1.Expr.CreateStruct.Entry.map_key:type_name -> google.api.expr.v1alpha1.Expr + 1, // 25: google.api.expr.v1alpha1.Expr.CreateStruct.Entry.value:type_name -> google.api.expr.v1alpha1.Expr + 1, // 26: google.api.expr.v1alpha1.SourceInfo.MacroCallsEntry.value:type_name -> google.api.expr.v1alpha1.Expr + 27, // [27:27] is the sub-list for method output_type + 27, // [27:27] is the sub-list for method input_type + 27, // [27:27] is the sub-list for extension type_name + 27, // [27:27] is the sub-list for extension extendee + 0, // [0:27] is the sub-list for field type_name +} + +func init() { file_google_api_expr_v1alpha1_syntax_proto_init() } +func file_google_api_expr_v1alpha1_syntax_proto_init() { + if File_google_api_expr_v1alpha1_syntax_proto != nil { + return + } + if !protoimpl.UnsafeEnabled { + file_google_api_expr_v1alpha1_syntax_proto_msgTypes[0].Exporter = func(v interface{}, i int) interface{} { + switch v := v.(*ParsedExpr); i { + case 0: + return &v.state + case 1: + return &v.sizeCache + case 2: + return &v.unknownFields + default: + return nil + } + } + file_google_api_expr_v1alpha1_syntax_proto_msgTypes[1].Exporter = func(v interface{}, i int) interface{} { + switch v := v.(*Expr); i { + case 0: + return &v.state + case 1: + return &v.sizeCache + case 2: + return &v.unknownFields + default: + return nil + } + } + file_google_api_expr_v1alpha1_syntax_proto_msgTypes[2].Exporter = func(v interface{}, i int) interface{} { + switch v := v.(*Constant); i { + case 0: + return &v.state + case 1: + return &v.sizeCache + case 2: + return &v.unknownFields + default: + return nil + } + } + file_google_api_expr_v1alpha1_syntax_proto_msgTypes[3].Exporter = func(v interface{}, i int) interface{} { + switch v := v.(*SourceInfo); i { + case 0: + return &v.state + case 1: + return &v.sizeCache + case 2: + return &v.unknownFields + default: + return nil + } + } + file_google_api_expr_v1alpha1_syntax_proto_msgTypes[4].Exporter = func(v interface{}, i int) interface{} { + switch v := v.(*SourcePosition); i { + case 0: + return &v.state + case 1: + return &v.sizeCache + case 2: + return &v.unknownFields + default: + return nil + } + } + file_google_api_expr_v1alpha1_syntax_proto_msgTypes[5].Exporter = func(v interface{}, i int) interface{} { + switch v := v.(*Expr_Ident); i { + case 0: + return &v.state + case 1: + return &v.sizeCache + case 2: + return &v.unknownFields + default: + return nil + } + } + file_google_api_expr_v1alpha1_syntax_proto_msgTypes[6].Exporter = func(v interface{}, i int) interface{} { + switch v := v.(*Expr_Select); i { + case 0: + return &v.state + case 1: + return &v.sizeCache + case 2: + return &v.unknownFields + default: + return nil + } + } + file_google_api_expr_v1alpha1_syntax_proto_msgTypes[7].Exporter = func(v interface{}, i int) interface{} { + switch v := v.(*Expr_Call); i { + case 0: + return &v.state + case 1: + return &v.sizeCache + case 2: + return &v.unknownFields + default: + return nil + } + } + file_google_api_expr_v1alpha1_syntax_proto_msgTypes[8].Exporter = func(v interface{}, i int) interface{} { + switch v := v.(*Expr_CreateList); i { + case 0: + return &v.state + case 1: + return &v.sizeCache + case 2: + return &v.unknownFields + default: + return nil + } + } + file_google_api_expr_v1alpha1_syntax_proto_msgTypes[9].Exporter = func(v interface{}, i int) interface{} { + switch v := v.(*Expr_CreateStruct); i { + case 0: + return &v.state + case 1: + return &v.sizeCache + case 2: + return &v.unknownFields + default: + return nil + } + } + file_google_api_expr_v1alpha1_syntax_proto_msgTypes[10].Exporter = func(v interface{}, i int) interface{} { + switch v := v.(*Expr_Comprehension); i { + case 0: + return &v.state + case 1: + return &v.sizeCache + case 2: + return &v.unknownFields + default: + return nil + } + } + file_google_api_expr_v1alpha1_syntax_proto_msgTypes[11].Exporter = func(v interface{}, i int) interface{} { + switch v := v.(*Expr_CreateStruct_Entry); i { + case 0: + return &v.state + case 1: + return &v.sizeCache + case 2: + return &v.unknownFields + default: + return nil + } + } + } + file_google_api_expr_v1alpha1_syntax_proto_msgTypes[1].OneofWrappers = []interface{}{ + (*Expr_ConstExpr)(nil), + (*Expr_IdentExpr)(nil), + (*Expr_SelectExpr)(nil), + (*Expr_CallExpr)(nil), + (*Expr_ListExpr)(nil), + (*Expr_StructExpr)(nil), + (*Expr_ComprehensionExpr)(nil), + } + file_google_api_expr_v1alpha1_syntax_proto_msgTypes[2].OneofWrappers = []interface{}{ + (*Constant_NullValue)(nil), + (*Constant_BoolValue)(nil), + (*Constant_Int64Value)(nil), + (*Constant_Uint64Value)(nil), + (*Constant_DoubleValue)(nil), + (*Constant_StringValue)(nil), + (*Constant_BytesValue)(nil), + (*Constant_DurationValue)(nil), + (*Constant_TimestampValue)(nil), + } + file_google_api_expr_v1alpha1_syntax_proto_msgTypes[11].OneofWrappers = []interface{}{ + (*Expr_CreateStruct_Entry_FieldKey)(nil), + (*Expr_CreateStruct_Entry_MapKey)(nil), + } + type x struct{} + out := protoimpl.TypeBuilder{ + File: protoimpl.DescBuilder{ + GoPackagePath: reflect.TypeOf(x{}).PkgPath(), + RawDescriptor: file_google_api_expr_v1alpha1_syntax_proto_rawDesc, + NumEnums: 0, + NumMessages: 14, + NumExtensions: 0, + NumServices: 0, + }, + GoTypes: file_google_api_expr_v1alpha1_syntax_proto_goTypes, + DependencyIndexes: file_google_api_expr_v1alpha1_syntax_proto_depIdxs, + MessageInfos: file_google_api_expr_v1alpha1_syntax_proto_msgTypes, + }.Build() + File_google_api_expr_v1alpha1_syntax_proto = out.File + file_google_api_expr_v1alpha1_syntax_proto_rawDesc = nil + file_google_api_expr_v1alpha1_syntax_proto_goTypes = nil + file_google_api_expr_v1alpha1_syntax_proto_depIdxs = nil +} diff --git a/vendor/google.golang.org/genproto/googleapis/api/expr/v1alpha1/value.pb.go b/vendor/google.golang.org/genproto/googleapis/api/expr/v1alpha1/value.pb.go new file mode 100644 index 000000000..808e9fe12 --- /dev/null +++ b/vendor/google.golang.org/genproto/googleapis/api/expr/v1alpha1/value.pb.go @@ -0,0 +1,720 @@ +// Copyright 2020 Google LLC +// +// Licensed under the Apache License, Version 2.0 (the "License"); +// you may not use this file except in compliance with the License. +// You may obtain a copy of the License at +// +// http://www.apache.org/licenses/LICENSE-2.0 +// +// Unless required by applicable law or agreed to in writing, software +// distributed under the License is distributed on an "AS IS" BASIS, +// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. +// See the License for the specific language governing permissions and +// limitations under the License. + +// Code generated by protoc-gen-go. DO NOT EDIT. +// versions: +// protoc-gen-go v1.26.0 +// protoc v3.12.2 +// source: google/api/expr/v1alpha1/value.proto + +package expr + +import ( + reflect "reflect" + sync "sync" + + protoreflect "google.golang.org/protobuf/reflect/protoreflect" + protoimpl "google.golang.org/protobuf/runtime/protoimpl" + anypb "google.golang.org/protobuf/types/known/anypb" + structpb "google.golang.org/protobuf/types/known/structpb" +) + +const ( + // Verify that this generated code is sufficiently up-to-date. + _ = protoimpl.EnforceVersion(20 - protoimpl.MinVersion) + // Verify that runtime/protoimpl is sufficiently up-to-date. + _ = protoimpl.EnforceVersion(protoimpl.MaxVersion - 20) +) + +// Represents a CEL value. +// +// This is similar to `google.protobuf.Value`, but can represent CEL's full +// range of values. +type Value struct { + state protoimpl.MessageState + sizeCache protoimpl.SizeCache + unknownFields protoimpl.UnknownFields + + // Required. The valid kinds of values. + // + // Types that are assignable to Kind: + // *Value_NullValue + // *Value_BoolValue + // *Value_Int64Value + // *Value_Uint64Value + // *Value_DoubleValue + // *Value_StringValue + // *Value_BytesValue + // *Value_EnumValue + // *Value_ObjectValue + // *Value_MapValue + // *Value_ListValue + // *Value_TypeValue + Kind isValue_Kind `protobuf_oneof:"kind"` +} + +func (x *Value) Reset() { + *x = Value{} + if protoimpl.UnsafeEnabled { + mi := &file_google_api_expr_v1alpha1_value_proto_msgTypes[0] + ms := protoimpl.X.MessageStateOf(protoimpl.Pointer(x)) + ms.StoreMessageInfo(mi) + } +} + +func (x *Value) String() string { + return protoimpl.X.MessageStringOf(x) +} + +func (*Value) ProtoMessage() {} + +func (x *Value) ProtoReflect() protoreflect.Message { + mi := &file_google_api_expr_v1alpha1_value_proto_msgTypes[0] + if protoimpl.UnsafeEnabled && x != nil { + ms := protoimpl.X.MessageStateOf(protoimpl.Pointer(x)) + if ms.LoadMessageInfo() == nil { + ms.StoreMessageInfo(mi) + } + return ms + } + return mi.MessageOf(x) +} + +// Deprecated: Use Value.ProtoReflect.Descriptor instead. +func (*Value) Descriptor() ([]byte, []int) { + return file_google_api_expr_v1alpha1_value_proto_rawDescGZIP(), []int{0} +} + +func (m *Value) GetKind() isValue_Kind { + if m != nil { + return m.Kind + } + return nil +} + +func (x *Value) GetNullValue() structpb.NullValue { + if x, ok := x.GetKind().(*Value_NullValue); ok { + return x.NullValue + } + return structpb.NullValue_NULL_VALUE +} + +func (x *Value) GetBoolValue() bool { + if x, ok := x.GetKind().(*Value_BoolValue); ok { + return x.BoolValue + } + return false +} + +func (x *Value) GetInt64Value() int64 { + if x, ok := x.GetKind().(*Value_Int64Value); ok { + return x.Int64Value + } + return 0 +} + +func (x *Value) GetUint64Value() uint64 { + if x, ok := x.GetKind().(*Value_Uint64Value); ok { + return x.Uint64Value + } + return 0 +} + +func (x *Value) GetDoubleValue() float64 { + if x, ok := x.GetKind().(*Value_DoubleValue); ok { + return x.DoubleValue + } + return 0 +} + +func (x *Value) GetStringValue() string { + if x, ok := x.GetKind().(*Value_StringValue); ok { + return x.StringValue + } + return "" +} + +func (x *Value) GetBytesValue() []byte { + if x, ok := x.GetKind().(*Value_BytesValue); ok { + return x.BytesValue + } + return nil +} + +func (x *Value) GetEnumValue() *EnumValue { + if x, ok := x.GetKind().(*Value_EnumValue); ok { + return x.EnumValue + } + return nil +} + +func (x *Value) GetObjectValue() *anypb.Any { + if x, ok := x.GetKind().(*Value_ObjectValue); ok { + return x.ObjectValue + } + return nil +} + +func (x *Value) GetMapValue() *MapValue { + if x, ok := x.GetKind().(*Value_MapValue); ok { + return x.MapValue + } + return nil +} + +func (x *Value) GetListValue() *ListValue { + if x, ok := x.GetKind().(*Value_ListValue); ok { + return x.ListValue + } + return nil +} + +func (x *Value) GetTypeValue() string { + if x, ok := x.GetKind().(*Value_TypeValue); ok { + return x.TypeValue + } + return "" +} + +type isValue_Kind interface { + isValue_Kind() +} + +type Value_NullValue struct { + // Null value. + NullValue structpb.NullValue `protobuf:"varint,1,opt,name=null_value,json=nullValue,proto3,enum=google.protobuf.NullValue,oneof"` +} + +type Value_BoolValue struct { + // Boolean value. + BoolValue bool `protobuf:"varint,2,opt,name=bool_value,json=boolValue,proto3,oneof"` +} + +type Value_Int64Value struct { + // Signed integer value. + Int64Value int64 `protobuf:"varint,3,opt,name=int64_value,json=int64Value,proto3,oneof"` +} + +type Value_Uint64Value struct { + // Unsigned integer value. + Uint64Value uint64 `protobuf:"varint,4,opt,name=uint64_value,json=uint64Value,proto3,oneof"` +} + +type Value_DoubleValue struct { + // Floating point value. + DoubleValue float64 `protobuf:"fixed64,5,opt,name=double_value,json=doubleValue,proto3,oneof"` +} + +type Value_StringValue struct { + // UTF-8 string value. + StringValue string `protobuf:"bytes,6,opt,name=string_value,json=stringValue,proto3,oneof"` +} + +type Value_BytesValue struct { + // Byte string value. + BytesValue []byte `protobuf:"bytes,7,opt,name=bytes_value,json=bytesValue,proto3,oneof"` +} + +type Value_EnumValue struct { + // An enum value. + EnumValue *EnumValue `protobuf:"bytes,9,opt,name=enum_value,json=enumValue,proto3,oneof"` +} + +type Value_ObjectValue struct { + // The proto message backing an object value. + ObjectValue *anypb.Any `protobuf:"bytes,10,opt,name=object_value,json=objectValue,proto3,oneof"` +} + +type Value_MapValue struct { + // Map value. + MapValue *MapValue `protobuf:"bytes,11,opt,name=map_value,json=mapValue,proto3,oneof"` +} + +type Value_ListValue struct { + // List value. + ListValue *ListValue `protobuf:"bytes,12,opt,name=list_value,json=listValue,proto3,oneof"` +} + +type Value_TypeValue struct { + // Type value. + TypeValue string `protobuf:"bytes,15,opt,name=type_value,json=typeValue,proto3,oneof"` +} + +func (*Value_NullValue) isValue_Kind() {} + +func (*Value_BoolValue) isValue_Kind() {} + +func (*Value_Int64Value) isValue_Kind() {} + +func (*Value_Uint64Value) isValue_Kind() {} + +func (*Value_DoubleValue) isValue_Kind() {} + +func (*Value_StringValue) isValue_Kind() {} + +func (*Value_BytesValue) isValue_Kind() {} + +func (*Value_EnumValue) isValue_Kind() {} + +func (*Value_ObjectValue) isValue_Kind() {} + +func (*Value_MapValue) isValue_Kind() {} + +func (*Value_ListValue) isValue_Kind() {} + +func (*Value_TypeValue) isValue_Kind() {} + +// An enum value. +type EnumValue struct { + state protoimpl.MessageState + sizeCache protoimpl.SizeCache + unknownFields protoimpl.UnknownFields + + // The fully qualified name of the enum type. + Type string `protobuf:"bytes,1,opt,name=type,proto3" json:"type,omitempty"` + // The value of the enum. + Value int32 `protobuf:"varint,2,opt,name=value,proto3" json:"value,omitempty"` +} + +func (x *EnumValue) Reset() { + *x = EnumValue{} + if protoimpl.UnsafeEnabled { + mi := &file_google_api_expr_v1alpha1_value_proto_msgTypes[1] + ms := protoimpl.X.MessageStateOf(protoimpl.Pointer(x)) + ms.StoreMessageInfo(mi) + } +} + +func (x *EnumValue) String() string { + return protoimpl.X.MessageStringOf(x) +} + +func (*EnumValue) ProtoMessage() {} + +func (x *EnumValue) ProtoReflect() protoreflect.Message { + mi := &file_google_api_expr_v1alpha1_value_proto_msgTypes[1] + if protoimpl.UnsafeEnabled && x != nil { + ms := protoimpl.X.MessageStateOf(protoimpl.Pointer(x)) + if ms.LoadMessageInfo() == nil { + ms.StoreMessageInfo(mi) + } + return ms + } + return mi.MessageOf(x) +} + +// Deprecated: Use EnumValue.ProtoReflect.Descriptor instead. +func (*EnumValue) Descriptor() ([]byte, []int) { + return file_google_api_expr_v1alpha1_value_proto_rawDescGZIP(), []int{1} +} + +func (x *EnumValue) GetType() string { + if x != nil { + return x.Type + } + return "" +} + +func (x *EnumValue) GetValue() int32 { + if x != nil { + return x.Value + } + return 0 +} + +// A list. +// +// Wrapped in a message so 'not set' and empty can be differentiated, which is +// required for use in a 'oneof'. +type ListValue struct { + state protoimpl.MessageState + sizeCache protoimpl.SizeCache + unknownFields protoimpl.UnknownFields + + // The ordered values in the list. + Values []*Value `protobuf:"bytes,1,rep,name=values,proto3" json:"values,omitempty"` +} + +func (x *ListValue) Reset() { + *x = ListValue{} + if protoimpl.UnsafeEnabled { + mi := &file_google_api_expr_v1alpha1_value_proto_msgTypes[2] + ms := protoimpl.X.MessageStateOf(protoimpl.Pointer(x)) + ms.StoreMessageInfo(mi) + } +} + +func (x *ListValue) String() string { + return protoimpl.X.MessageStringOf(x) +} + +func (*ListValue) ProtoMessage() {} + +func (x *ListValue) ProtoReflect() protoreflect.Message { + mi := &file_google_api_expr_v1alpha1_value_proto_msgTypes[2] + if protoimpl.UnsafeEnabled && x != nil { + ms := protoimpl.X.MessageStateOf(protoimpl.Pointer(x)) + if ms.LoadMessageInfo() == nil { + ms.StoreMessageInfo(mi) + } + return ms + } + return mi.MessageOf(x) +} + +// Deprecated: Use ListValue.ProtoReflect.Descriptor instead. +func (*ListValue) Descriptor() ([]byte, []int) { + return file_google_api_expr_v1alpha1_value_proto_rawDescGZIP(), []int{2} +} + +func (x *ListValue) GetValues() []*Value { + if x != nil { + return x.Values + } + return nil +} + +// A map. +// +// Wrapped in a message so 'not set' and empty can be differentiated, which is +// required for use in a 'oneof'. +type MapValue struct { + state protoimpl.MessageState + sizeCache protoimpl.SizeCache + unknownFields protoimpl.UnknownFields + + // The set of map entries. + // + // CEL has fewer restrictions on keys, so a protobuf map represenation + // cannot be used. + Entries []*MapValue_Entry `protobuf:"bytes,1,rep,name=entries,proto3" json:"entries,omitempty"` +} + +func (x *MapValue) Reset() { + *x = MapValue{} + if protoimpl.UnsafeEnabled { + mi := &file_google_api_expr_v1alpha1_value_proto_msgTypes[3] + ms := protoimpl.X.MessageStateOf(protoimpl.Pointer(x)) + ms.StoreMessageInfo(mi) + } +} + +func (x *MapValue) String() string { + return protoimpl.X.MessageStringOf(x) +} + +func (*MapValue) ProtoMessage() {} + +func (x *MapValue) ProtoReflect() protoreflect.Message { + mi := &file_google_api_expr_v1alpha1_value_proto_msgTypes[3] + if protoimpl.UnsafeEnabled && x != nil { + ms := protoimpl.X.MessageStateOf(protoimpl.Pointer(x)) + if ms.LoadMessageInfo() == nil { + ms.StoreMessageInfo(mi) + } + return ms + } + return mi.MessageOf(x) +} + +// Deprecated: Use MapValue.ProtoReflect.Descriptor instead. +func (*MapValue) Descriptor() ([]byte, []int) { + return file_google_api_expr_v1alpha1_value_proto_rawDescGZIP(), []int{3} +} + +func (x *MapValue) GetEntries() []*MapValue_Entry { + if x != nil { + return x.Entries + } + return nil +} + +// An entry in the map. +type MapValue_Entry struct { + state protoimpl.MessageState + sizeCache protoimpl.SizeCache + unknownFields protoimpl.UnknownFields + + // The key. + // + // Must be unique with in the map. + // Currently only boolean, int, uint, and string values can be keys. + Key *Value `protobuf:"bytes,1,opt,name=key,proto3" json:"key,omitempty"` + // The value. + Value *Value `protobuf:"bytes,2,opt,name=value,proto3" json:"value,omitempty"` +} + +func (x *MapValue_Entry) Reset() { + *x = MapValue_Entry{} + if protoimpl.UnsafeEnabled { + mi := &file_google_api_expr_v1alpha1_value_proto_msgTypes[4] + ms := protoimpl.X.MessageStateOf(protoimpl.Pointer(x)) + ms.StoreMessageInfo(mi) + } +} + +func (x *MapValue_Entry) String() string { + return protoimpl.X.MessageStringOf(x) +} + +func (*MapValue_Entry) ProtoMessage() {} + +func (x *MapValue_Entry) ProtoReflect() protoreflect.Message { + mi := &file_google_api_expr_v1alpha1_value_proto_msgTypes[4] + if protoimpl.UnsafeEnabled && x != nil { + ms := protoimpl.X.MessageStateOf(protoimpl.Pointer(x)) + if ms.LoadMessageInfo() == nil { + ms.StoreMessageInfo(mi) + } + return ms + } + return mi.MessageOf(x) +} + +// Deprecated: Use MapValue_Entry.ProtoReflect.Descriptor instead. +func (*MapValue_Entry) Descriptor() ([]byte, []int) { + return file_google_api_expr_v1alpha1_value_proto_rawDescGZIP(), []int{3, 0} +} + +func (x *MapValue_Entry) GetKey() *Value { + if x != nil { + return x.Key + } + return nil +} + +func (x *MapValue_Entry) GetValue() *Value { + if x != nil { + return x.Value + } + return nil +} + +var File_google_api_expr_v1alpha1_value_proto protoreflect.FileDescriptor + +var file_google_api_expr_v1alpha1_value_proto_rawDesc = []byte{ + 0x0a, 0x24, 0x67, 0x6f, 0x6f, 0x67, 0x6c, 0x65, 0x2f, 0x61, 0x70, 0x69, 0x2f, 0x65, 0x78, 0x70, + 0x72, 0x2f, 0x76, 0x31, 0x61, 0x6c, 0x70, 0x68, 0x61, 0x31, 0x2f, 0x76, 0x61, 0x6c, 0x75, 0x65, + 0x2e, 0x70, 0x72, 0x6f, 0x74, 0x6f, 0x12, 0x18, 0x67, 0x6f, 0x6f, 0x67, 0x6c, 0x65, 0x2e, 0x61, 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file_google_api_expr_v1alpha1_value_proto_rawDescGZIP() []byte { + file_google_api_expr_v1alpha1_value_proto_rawDescOnce.Do(func() { + file_google_api_expr_v1alpha1_value_proto_rawDescData = protoimpl.X.CompressGZIP(file_google_api_expr_v1alpha1_value_proto_rawDescData) + }) + return file_google_api_expr_v1alpha1_value_proto_rawDescData +} + +var file_google_api_expr_v1alpha1_value_proto_msgTypes = make([]protoimpl.MessageInfo, 5) +var file_google_api_expr_v1alpha1_value_proto_goTypes = []interface{}{ + (*Value)(nil), // 0: google.api.expr.v1alpha1.Value + (*EnumValue)(nil), // 1: google.api.expr.v1alpha1.EnumValue + (*ListValue)(nil), // 2: google.api.expr.v1alpha1.ListValue + (*MapValue)(nil), // 3: google.api.expr.v1alpha1.MapValue + (*MapValue_Entry)(nil), // 4: google.api.expr.v1alpha1.MapValue.Entry + (structpb.NullValue)(0), // 5: google.protobuf.NullValue + (*anypb.Any)(nil), // 6: google.protobuf.Any +} +var file_google_api_expr_v1alpha1_value_proto_depIdxs = []int32{ + 5, // 0: google.api.expr.v1alpha1.Value.null_value:type_name -> google.protobuf.NullValue + 1, // 1: google.api.expr.v1alpha1.Value.enum_value:type_name -> google.api.expr.v1alpha1.EnumValue + 6, // 2: google.api.expr.v1alpha1.Value.object_value:type_name -> google.protobuf.Any + 3, // 3: google.api.expr.v1alpha1.Value.map_value:type_name -> google.api.expr.v1alpha1.MapValue + 2, // 4: google.api.expr.v1alpha1.Value.list_value:type_name -> google.api.expr.v1alpha1.ListValue + 0, // 5: google.api.expr.v1alpha1.ListValue.values:type_name -> google.api.expr.v1alpha1.Value + 4, // 6: google.api.expr.v1alpha1.MapValue.entries:type_name -> google.api.expr.v1alpha1.MapValue.Entry + 0, // 7: google.api.expr.v1alpha1.MapValue.Entry.key:type_name -> google.api.expr.v1alpha1.Value + 0, // 8: google.api.expr.v1alpha1.MapValue.Entry.value:type_name -> google.api.expr.v1alpha1.Value + 9, // [9:9] is the sub-list for method output_type + 9, // [9:9] is the sub-list for method input_type + 9, // [9:9] is the sub-list for extension type_name + 9, // [9:9] is the sub-list for extension extendee + 0, // [0:9] is the sub-list for field type_name +} + +func init() { file_google_api_expr_v1alpha1_value_proto_init() } +func file_google_api_expr_v1alpha1_value_proto_init() { + if File_google_api_expr_v1alpha1_value_proto != nil { + return + } + if !protoimpl.UnsafeEnabled { + file_google_api_expr_v1alpha1_value_proto_msgTypes[0].Exporter = func(v interface{}, i int) interface{} { + switch v := v.(*Value); i { + case 0: + return &v.state + case 1: + return &v.sizeCache + case 2: + return &v.unknownFields + default: + return nil + } + } + file_google_api_expr_v1alpha1_value_proto_msgTypes[1].Exporter = func(v interface{}, i int) interface{} { + switch v := v.(*EnumValue); i { + case 0: + return &v.state + case 1: + return &v.sizeCache + case 2: + return &v.unknownFields + default: + return nil + } + } + file_google_api_expr_v1alpha1_value_proto_msgTypes[2].Exporter = func(v interface{}, i int) interface{} { + switch v := v.(*ListValue); i { + case 0: + return &v.state + case 1: + return &v.sizeCache + case 2: + return &v.unknownFields + default: + return nil + } + } + file_google_api_expr_v1alpha1_value_proto_msgTypes[3].Exporter = func(v interface{}, i int) interface{} { + switch v := v.(*MapValue); i { + case 0: + return &v.state + case 1: + return &v.sizeCache + case 2: + return &v.unknownFields + default: + return nil + } + } + file_google_api_expr_v1alpha1_value_proto_msgTypes[4].Exporter = func(v interface{}, i int) interface{} { + switch v := v.(*MapValue_Entry); i { + case 0: + return &v.state + case 1: + return &v.sizeCache + case 2: + return &v.unknownFields + default: + return nil + } + } + } + file_google_api_expr_v1alpha1_value_proto_msgTypes[0].OneofWrappers = []interface{}{ + (*Value_NullValue)(nil), + (*Value_BoolValue)(nil), + (*Value_Int64Value)(nil), + (*Value_Uint64Value)(nil), + (*Value_DoubleValue)(nil), + (*Value_StringValue)(nil), + (*Value_BytesValue)(nil), + (*Value_EnumValue)(nil), + (*Value_ObjectValue)(nil), + (*Value_MapValue)(nil), + (*Value_ListValue)(nil), + (*Value_TypeValue)(nil), + } + type x struct{} + out := protoimpl.TypeBuilder{ + File: protoimpl.DescBuilder{ + GoPackagePath: reflect.TypeOf(x{}).PkgPath(), + RawDescriptor: file_google_api_expr_v1alpha1_value_proto_rawDesc, + NumEnums: 0, + NumMessages: 5, + NumExtensions: 0, + NumServices: 0, + }, + GoTypes: file_google_api_expr_v1alpha1_value_proto_goTypes, + DependencyIndexes: file_google_api_expr_v1alpha1_value_proto_depIdxs, + MessageInfos: file_google_api_expr_v1alpha1_value_proto_msgTypes, + }.Build() + File_google_api_expr_v1alpha1_value_proto = out.File + file_google_api_expr_v1alpha1_value_proto_rawDesc = nil + file_google_api_expr_v1alpha1_value_proto_goTypes = nil + file_google_api_expr_v1alpha1_value_proto_depIdxs = nil +} diff --git a/vendor/google.golang.org/protobuf/types/dynamicpb/dynamic.go b/vendor/google.golang.org/protobuf/types/dynamicpb/dynamic.go new file mode 100644 index 000000000..900b9d287 --- /dev/null +++ b/vendor/google.golang.org/protobuf/types/dynamicpb/dynamic.go @@ -0,0 +1,713 @@ +// Copyright 2019 The Go Authors. All rights reserved. +// Use of this source code is governed by a BSD-style +// license that can be found in the LICENSE file. + +// Package dynamicpb creates protocol buffer messages using runtime type information. +package dynamicpb + +import ( + "math" + + "google.golang.org/protobuf/internal/errors" + pref "google.golang.org/protobuf/reflect/protoreflect" + "google.golang.org/protobuf/runtime/protoiface" + "google.golang.org/protobuf/runtime/protoimpl" +) + +// enum is a dynamic protoreflect.Enum. +type enum struct { + num pref.EnumNumber + typ pref.EnumType +} + +func (e enum) Descriptor() pref.EnumDescriptor { return e.typ.Descriptor() } +func (e enum) Type() pref.EnumType { return e.typ } +func (e enum) Number() pref.EnumNumber { return e.num } + +// enumType is a dynamic protoreflect.EnumType. +type enumType struct { + desc pref.EnumDescriptor +} + +// NewEnumType creates a new EnumType with the provided descriptor. +// +// EnumTypes created by this package are equal if their descriptors are equal. +// That is, if ed1 == ed2, then NewEnumType(ed1) == NewEnumType(ed2). +// +// Enum values created by the EnumType are equal if their numbers are equal. +func NewEnumType(desc pref.EnumDescriptor) pref.EnumType { + return enumType{desc} +} + +func (et enumType) New(n pref.EnumNumber) pref.Enum { return enum{n, et} } +func (et enumType) Descriptor() pref.EnumDescriptor { return et.desc } + +// extensionType is a dynamic protoreflect.ExtensionType. +type extensionType struct { + desc extensionTypeDescriptor +} + +// A Message is a dynamically constructed protocol buffer message. +// +// Message implements the proto.Message interface, and may be used with all +// standard proto package functions such as Marshal, Unmarshal, and so forth. +// +// Message also implements the protoreflect.Message interface. See the protoreflect +// package documentation for that interface for how to get and set fields and +// otherwise interact with the contents of a Message. +// +// Reflection API functions which construct messages, such as NewField, +// return new dynamic messages of the appropriate type. Functions which take +// messages, such as Set for a message-value field, will accept any message +// with a compatible type. +// +// Operations which modify a Message are not safe for concurrent use. +type Message struct { + typ messageType + known map[pref.FieldNumber]pref.Value + ext map[pref.FieldNumber]pref.FieldDescriptor + unknown pref.RawFields +} + +var ( + _ pref.Message = (*Message)(nil) + _ pref.ProtoMessage = (*Message)(nil) + _ protoiface.MessageV1 = (*Message)(nil) +) + +// NewMessage creates a new message with the provided descriptor. +func NewMessage(desc pref.MessageDescriptor) *Message { + return &Message{ + typ: messageType{desc}, + known: make(map[pref.FieldNumber]pref.Value), + ext: make(map[pref.FieldNumber]pref.FieldDescriptor), + } +} + +// ProtoMessage implements the legacy message interface. +func (m *Message) ProtoMessage() {} + +// ProtoReflect implements the protoreflect.ProtoMessage interface. +func (m *Message) ProtoReflect() pref.Message { + return m +} + +// String returns a string representation of a message. +func (m *Message) String() string { + return protoimpl.X.MessageStringOf(m) +} + +// Reset clears the message to be empty, but preserves the dynamic message type. +func (m *Message) Reset() { + m.known = make(map[pref.FieldNumber]pref.Value) + m.ext = make(map[pref.FieldNumber]pref.FieldDescriptor) + m.unknown = nil +} + +// Descriptor returns the message descriptor. +func (m *Message) Descriptor() pref.MessageDescriptor { + return m.typ.desc +} + +// Type returns the message type. +func (m *Message) Type() pref.MessageType { + return m.typ +} + +// New returns a newly allocated empty message with the same descriptor. +// See protoreflect.Message for details. +func (m *Message) New() pref.Message { + return m.Type().New() +} + +// Interface returns the message. +// See protoreflect.Message for details. +func (m *Message) Interface() pref.ProtoMessage { + return m +} + +// ProtoMethods is an internal detail of the protoreflect.Message interface. +// Users should never call this directly. +func (m *Message) ProtoMethods() *protoiface.Methods { + return nil +} + +// Range visits every populated field in undefined order. +// See protoreflect.Message for details. +func (m *Message) Range(f func(pref.FieldDescriptor, pref.Value) bool) { + for num, v := range m.known { + fd := m.ext[num] + if fd == nil { + fd = m.Descriptor().Fields().ByNumber(num) + } + if !isSet(fd, v) { + continue + } + if !f(fd, v) { + return + } + } +} + +// Has reports whether a field is populated. +// See protoreflect.Message for details. +func (m *Message) Has(fd pref.FieldDescriptor) bool { + m.checkField(fd) + if fd.IsExtension() && m.ext[fd.Number()] != fd { + return false + } + v, ok := m.known[fd.Number()] + if !ok { + return false + } + return isSet(fd, v) +} + +// Clear clears a field. +// See protoreflect.Message for details. +func (m *Message) Clear(fd pref.FieldDescriptor) { + m.checkField(fd) + num := fd.Number() + delete(m.known, num) + delete(m.ext, num) +} + +// Get returns the value of a field. +// See protoreflect.Message for details. +func (m *Message) Get(fd pref.FieldDescriptor) pref.Value { + m.checkField(fd) + num := fd.Number() + if fd.IsExtension() { + if fd != m.ext[num] { + return fd.(pref.ExtensionTypeDescriptor).Type().Zero() + } + return m.known[num] + } + if v, ok := m.known[num]; ok { + switch { + case fd.IsMap(): + if v.Map().Len() > 0 { + return v + } + case fd.IsList(): + if v.List().Len() > 0 { + return v + } + default: + return v + } + } + switch { + case fd.IsMap(): + return pref.ValueOfMap(&dynamicMap{desc: fd}) + case fd.IsList(): + return pref.ValueOfList(emptyList{desc: fd}) + case fd.Message() != nil: + return pref.ValueOfMessage(&Message{typ: messageType{fd.Message()}}) + case fd.Kind() == pref.BytesKind: + return pref.ValueOfBytes(append([]byte(nil), fd.Default().Bytes()...)) + default: + return fd.Default() + } +} + +// Mutable returns a mutable reference to a repeated, map, or message field. +// See protoreflect.Message for details. +func (m *Message) Mutable(fd pref.FieldDescriptor) pref.Value { + m.checkField(fd) + if !fd.IsMap() && !fd.IsList() && fd.Message() == nil { + panic(errors.New("%v: getting mutable reference to non-composite type", fd.FullName())) + } + if m.known == nil { + panic(errors.New("%v: modification of read-only message", fd.FullName())) + } + num := fd.Number() + if fd.IsExtension() { + if fd != m.ext[num] { + m.ext[num] = fd + m.known[num] = fd.(pref.ExtensionTypeDescriptor).Type().New() + } + return m.known[num] + } + if v, ok := m.known[num]; ok { + return v + } + m.clearOtherOneofFields(fd) + m.known[num] = m.NewField(fd) + if fd.IsExtension() { + m.ext[num] = fd + } + return m.known[num] +} + +// Set stores a value in a field. +// See protoreflect.Message for details. +func (m *Message) Set(fd pref.FieldDescriptor, v pref.Value) { + m.checkField(fd) + if m.known == nil { + panic(errors.New("%v: modification of read-only message", fd.FullName())) + } + if fd.IsExtension() { + isValid := true + switch { + case !fd.(pref.ExtensionTypeDescriptor).Type().IsValidValue(v): + isValid = false + case fd.IsList(): + isValid = v.List().IsValid() + case fd.IsMap(): + isValid = v.Map().IsValid() + case fd.Message() != nil: + isValid = v.Message().IsValid() + } + if !isValid { + panic(errors.New("%v: assigning invalid type %T", fd.FullName(), v.Interface())) + } + m.ext[fd.Number()] = fd + } else { + typecheck(fd, v) + } + m.clearOtherOneofFields(fd) + m.known[fd.Number()] = v +} + +func (m *Message) clearOtherOneofFields(fd pref.FieldDescriptor) { + od := fd.ContainingOneof() + if od == nil { + return + } + num := fd.Number() + for i := 0; i < od.Fields().Len(); i++ { + if n := od.Fields().Get(i).Number(); n != num { + delete(m.known, n) + } + } +} + +// NewField returns a new value for assignable to the field of a given descriptor. +// See protoreflect.Message for details. +func (m *Message) NewField(fd pref.FieldDescriptor) pref.Value { + m.checkField(fd) + switch { + case fd.IsExtension(): + return fd.(pref.ExtensionTypeDescriptor).Type().New() + case fd.IsMap(): + return pref.ValueOfMap(&dynamicMap{ + desc: fd, + mapv: make(map[interface{}]pref.Value), + }) + case fd.IsList(): + return pref.ValueOfList(&dynamicList{desc: fd}) + case fd.Message() != nil: + return pref.ValueOfMessage(NewMessage(fd.Message()).ProtoReflect()) + default: + return fd.Default() + } +} + +// WhichOneof reports which field in a oneof is populated, returning nil if none are populated. +// See protoreflect.Message for details. +func (m *Message) WhichOneof(od pref.OneofDescriptor) pref.FieldDescriptor { + for i := 0; i < od.Fields().Len(); i++ { + fd := od.Fields().Get(i) + if m.Has(fd) { + return fd + } + } + return nil +} + +// GetUnknown returns the raw unknown fields. +// See protoreflect.Message for details. +func (m *Message) GetUnknown() pref.RawFields { + return m.unknown +} + +// SetUnknown sets the raw unknown fields. +// See protoreflect.Message for details. +func (m *Message) SetUnknown(r pref.RawFields) { + if m.known == nil { + panic(errors.New("%v: modification of read-only message", m.typ.desc.FullName())) + } + m.unknown = r +} + +// IsValid reports whether the message is valid. +// See protoreflect.Message for details. +func (m *Message) IsValid() bool { + return m.known != nil +} + +func (m *Message) checkField(fd pref.FieldDescriptor) { + if fd.IsExtension() && fd.ContainingMessage().FullName() == m.Descriptor().FullName() { + if _, ok := fd.(pref.ExtensionTypeDescriptor); !ok { + panic(errors.New("%v: extension field descriptor does not implement ExtensionTypeDescriptor", fd.FullName())) + } + return + } + if fd.Parent() == m.Descriptor() { + return + } + fields := m.Descriptor().Fields() + index := fd.Index() + if index >= fields.Len() || fields.Get(index) != fd { + panic(errors.New("%v: field descriptor does not belong to this message", fd.FullName())) + } +} + +type messageType struct { + desc pref.MessageDescriptor +} + +// NewMessageType creates a new MessageType with the provided descriptor. +// +// MessageTypes created by this package are equal if their descriptors are equal. +// That is, if md1 == md2, then NewMessageType(md1) == NewMessageType(md2). +func NewMessageType(desc pref.MessageDescriptor) pref.MessageType { + return messageType{desc} +} + +func (mt messageType) New() pref.Message { return NewMessage(mt.desc) } +func (mt messageType) Zero() pref.Message { return &Message{typ: messageType{mt.desc}} } +func (mt messageType) Descriptor() pref.MessageDescriptor { return mt.desc } +func (mt messageType) Enum(i int) pref.EnumType { + if ed := mt.desc.Fields().Get(i).Enum(); ed != nil { + return NewEnumType(ed) + } + return nil +} +func (mt messageType) Message(i int) pref.MessageType { + if md := mt.desc.Fields().Get(i).Message(); md != nil { + return NewMessageType(md) + } + return nil +} + +type emptyList struct { + desc pref.FieldDescriptor +} + +func (x emptyList) Len() int { return 0 } +func (x emptyList) Get(n int) pref.Value { panic(errors.New("out of range")) } +func (x emptyList) Set(n int, v pref.Value) { panic(errors.New("modification of immutable list")) } +func (x emptyList) Append(v pref.Value) { panic(errors.New("modification of immutable list")) } +func (x emptyList) AppendMutable() pref.Value { panic(errors.New("modification of immutable list")) } +func (x emptyList) Truncate(n int) { panic(errors.New("modification of immutable list")) } +func (x emptyList) NewElement() pref.Value { return newListEntry(x.desc) } +func (x emptyList) IsValid() bool { return false } + +type dynamicList struct { + desc pref.FieldDescriptor + list []pref.Value +} + +func (x *dynamicList) Len() int { + return len(x.list) +} + +func (x *dynamicList) Get(n int) pref.Value { + return x.list[n] +} + +func (x *dynamicList) Set(n int, v pref.Value) { + typecheckSingular(x.desc, v) + x.list[n] = v +} + +func (x *dynamicList) Append(v pref.Value) { + typecheckSingular(x.desc, v) + x.list = append(x.list, v) +} + +func (x *dynamicList) AppendMutable() pref.Value { + if x.desc.Message() == nil { + panic(errors.New("%v: invalid AppendMutable on list with non-message type", x.desc.FullName())) + } + v := x.NewElement() + x.Append(v) + return v +} + +func (x *dynamicList) Truncate(n int) { + // Zero truncated elements to avoid keeping data live. + for i := n; i < len(x.list); i++ { + x.list[i] = pref.Value{} + } + x.list = x.list[:n] +} + +func (x *dynamicList) NewElement() pref.Value { + return newListEntry(x.desc) +} + +func (x *dynamicList) IsValid() bool { + return true +} + +type dynamicMap struct { + desc pref.FieldDescriptor + mapv map[interface{}]pref.Value +} + +func (x *dynamicMap) Get(k pref.MapKey) pref.Value { return x.mapv[k.Interface()] } +func (x *dynamicMap) Set(k pref.MapKey, v pref.Value) { + typecheckSingular(x.desc.MapKey(), k.Value()) + typecheckSingular(x.desc.MapValue(), v) + x.mapv[k.Interface()] = v +} +func (x *dynamicMap) Has(k pref.MapKey) bool { return x.Get(k).IsValid() } +func (x *dynamicMap) Clear(k pref.MapKey) { delete(x.mapv, k.Interface()) } +func (x *dynamicMap) Mutable(k pref.MapKey) pref.Value { + if x.desc.MapValue().Message() == nil { + panic(errors.New("%v: invalid Mutable on map with non-message value type", x.desc.FullName())) + } + v := x.Get(k) + if !v.IsValid() { + v = x.NewValue() + x.Set(k, v) + } + return v +} +func (x *dynamicMap) Len() int { return len(x.mapv) } +func (x *dynamicMap) NewValue() pref.Value { + if md := x.desc.MapValue().Message(); md != nil { + return pref.ValueOfMessage(NewMessage(md).ProtoReflect()) + } + return x.desc.MapValue().Default() +} +func (x *dynamicMap) IsValid() bool { + return x.mapv != nil +} + +func (x *dynamicMap) Range(f func(pref.MapKey, pref.Value) bool) { + for k, v := range x.mapv { + if !f(pref.ValueOf(k).MapKey(), v) { + return + } + } +} + +func isSet(fd pref.FieldDescriptor, v pref.Value) bool { + switch { + case fd.IsMap(): + return v.Map().Len() > 0 + case fd.IsList(): + return v.List().Len() > 0 + case fd.ContainingOneof() != nil: + return true + case fd.Syntax() == pref.Proto3 && !fd.IsExtension(): + switch fd.Kind() { + case pref.BoolKind: + return v.Bool() + case pref.EnumKind: + return v.Enum() != 0 + case pref.Int32Kind, pref.Sint32Kind, pref.Int64Kind, pref.Sint64Kind, pref.Sfixed32Kind, pref.Sfixed64Kind: + return v.Int() != 0 + case pref.Uint32Kind, pref.Uint64Kind, pref.Fixed32Kind, pref.Fixed64Kind: + return v.Uint() != 0 + case pref.FloatKind, pref.DoubleKind: + return v.Float() != 0 || math.Signbit(v.Float()) + case pref.StringKind: + return v.String() != "" + case pref.BytesKind: + return len(v.Bytes()) > 0 + } + } + return true +} + +func typecheck(fd pref.FieldDescriptor, v pref.Value) { + if err := typeIsValid(fd, v); err != nil { + panic(err) + } +} + +func typeIsValid(fd pref.FieldDescriptor, v pref.Value) error { + switch { + case !v.IsValid(): + return errors.New("%v: assigning invalid value", fd.FullName()) + case fd.IsMap(): + if mapv, ok := v.Interface().(*dynamicMap); !ok || mapv.desc != fd || !mapv.IsValid() { + return errors.New("%v: assigning invalid type %T", fd.FullName(), v.Interface()) + } + return nil + case fd.IsList(): + switch list := v.Interface().(type) { + case *dynamicList: + if list.desc == fd && list.IsValid() { + return nil + } + case emptyList: + if list.desc == fd && list.IsValid() { + return nil + } + } + return errors.New("%v: assigning invalid type %T", fd.FullName(), v.Interface()) + default: + return singularTypeIsValid(fd, v) + } +} + +func typecheckSingular(fd pref.FieldDescriptor, v pref.Value) { + if err := singularTypeIsValid(fd, v); err != nil { + panic(err) + } +} + +func singularTypeIsValid(fd pref.FieldDescriptor, v pref.Value) error { + vi := v.Interface() + var ok bool + switch fd.Kind() { + case pref.BoolKind: + _, ok = vi.(bool) + case pref.EnumKind: + // We could check against the valid set of enum values, but do not. + _, ok = vi.(pref.EnumNumber) + case pref.Int32Kind, pref.Sint32Kind, pref.Sfixed32Kind: + _, ok = vi.(int32) + case pref.Uint32Kind, pref.Fixed32Kind: + _, ok = vi.(uint32) + case pref.Int64Kind, pref.Sint64Kind, pref.Sfixed64Kind: + _, ok = vi.(int64) + case pref.Uint64Kind, pref.Fixed64Kind: + _, ok = vi.(uint64) + case pref.FloatKind: + _, ok = vi.(float32) + case pref.DoubleKind: + _, ok = vi.(float64) + case pref.StringKind: + _, ok = vi.(string) + case pref.BytesKind: + _, ok = vi.([]byte) + case pref.MessageKind, pref.GroupKind: + var m pref.Message + m, ok = vi.(pref.Message) + if ok && m.Descriptor().FullName() != fd.Message().FullName() { + return errors.New("%v: assigning invalid message type %v", fd.FullName(), m.Descriptor().FullName()) + } + if dm, ok := vi.(*Message); ok && dm.known == nil { + return errors.New("%v: assigning invalid zero-value message", fd.FullName()) + } + } + if !ok { + return errors.New("%v: assigning invalid type %T", fd.FullName(), v.Interface()) + } + return nil +} + +func newListEntry(fd pref.FieldDescriptor) pref.Value { + switch fd.Kind() { + case pref.BoolKind: + return pref.ValueOfBool(false) + case pref.EnumKind: + return pref.ValueOfEnum(fd.Enum().Values().Get(0).Number()) + case pref.Int32Kind, pref.Sint32Kind, pref.Sfixed32Kind: + return pref.ValueOfInt32(0) + case pref.Uint32Kind, pref.Fixed32Kind: + return pref.ValueOfUint32(0) + case pref.Int64Kind, pref.Sint64Kind, pref.Sfixed64Kind: + return pref.ValueOfInt64(0) + case pref.Uint64Kind, pref.Fixed64Kind: + return pref.ValueOfUint64(0) + case pref.FloatKind: + return pref.ValueOfFloat32(0) + case pref.DoubleKind: + return pref.ValueOfFloat64(0) + case pref.StringKind: + return pref.ValueOfString("") + case pref.BytesKind: + return pref.ValueOfBytes(nil) + case pref.MessageKind, pref.GroupKind: + return pref.ValueOfMessage(NewMessage(fd.Message()).ProtoReflect()) + } + panic(errors.New("%v: unknown kind %v", fd.FullName(), fd.Kind())) +} + +// NewExtensionType creates a new ExtensionType with the provided descriptor. +// +// Dynamic ExtensionTypes with the same descriptor compare as equal. That is, +// if xd1 == xd2, then NewExtensionType(xd1) == NewExtensionType(xd2). +// +// The InterfaceOf and ValueOf methods of the extension type are defined as: +// +// func (xt extensionType) ValueOf(iv interface{}) protoreflect.Value { +// return protoreflect.ValueOf(iv) +// } +// +// func (xt extensionType) InterfaceOf(v protoreflect.Value) interface{} { +// return v.Interface() +// } +// +// The Go type used by the proto.GetExtension and proto.SetExtension functions +// is determined by these methods, and is therefore equivalent to the Go type +// used to represent a protoreflect.Value. See the protoreflect.Value +// documentation for more details. +func NewExtensionType(desc pref.ExtensionDescriptor) pref.ExtensionType { + if xt, ok := desc.(pref.ExtensionTypeDescriptor); ok { + desc = xt.Descriptor() + } + return extensionType{extensionTypeDescriptor{desc}} +} + +func (xt extensionType) New() pref.Value { + switch { + case xt.desc.IsMap(): + return pref.ValueOfMap(&dynamicMap{ + desc: xt.desc, + mapv: make(map[interface{}]pref.Value), + }) + case xt.desc.IsList(): + return pref.ValueOfList(&dynamicList{desc: xt.desc}) + case xt.desc.Message() != nil: + return pref.ValueOfMessage(NewMessage(xt.desc.Message())) + default: + return xt.desc.Default() + } +} + +func (xt extensionType) Zero() pref.Value { + switch { + case xt.desc.IsMap(): + return pref.ValueOfMap(&dynamicMap{desc: xt.desc}) + case xt.desc.Cardinality() == pref.Repeated: + return pref.ValueOfList(emptyList{desc: xt.desc}) + case xt.desc.Message() != nil: + return pref.ValueOfMessage(&Message{typ: messageType{xt.desc.Message()}}) + default: + return xt.desc.Default() + } +} + +func (xt extensionType) TypeDescriptor() pref.ExtensionTypeDescriptor { + return xt.desc +} + +func (xt extensionType) ValueOf(iv interface{}) pref.Value { + v := pref.ValueOf(iv) + typecheck(xt.desc, v) + return v +} + +func (xt extensionType) InterfaceOf(v pref.Value) interface{} { + typecheck(xt.desc, v) + return v.Interface() +} + +func (xt extensionType) IsValidInterface(iv interface{}) bool { + return typeIsValid(xt.desc, pref.ValueOf(iv)) == nil +} + +func (xt extensionType) IsValidValue(v pref.Value) bool { + return typeIsValid(xt.desc, v) == nil +} + +type extensionTypeDescriptor struct { + pref.ExtensionDescriptor +} + +func (xt extensionTypeDescriptor) Type() pref.ExtensionType { + return extensionType{xt} +} + +func (xt extensionTypeDescriptor) Descriptor() pref.ExtensionDescriptor { + return xt.ExtensionDescriptor +} diff --git a/vendor/google.golang.org/protobuf/types/known/emptypb/empty.pb.go b/vendor/google.golang.org/protobuf/types/known/emptypb/empty.pb.go new file mode 100644 index 000000000..e7fcea31f --- /dev/null +++ b/vendor/google.golang.org/protobuf/types/known/emptypb/empty.pb.go @@ -0,0 +1,168 @@ +// Protocol Buffers - Google's data interchange format +// Copyright 2008 Google Inc. All rights reserved. +// https://developers.google.com/protocol-buffers/ +// +// Redistribution and use in source and binary forms, with or without +// modification, are permitted provided that the following conditions are +// met: +// +// * Redistributions of source code must retain the above copyright +// notice, this list of conditions and the following disclaimer. +// * Redistributions in binary form must reproduce the above +// copyright notice, this list of conditions and the following disclaimer +// in the documentation and/or other materials provided with the +// distribution. +// * Neither the name of Google Inc. nor the names of its +// contributors may be used to endorse or promote products derived from +// this software without specific prior written permission. +// +// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS +// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT +// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR +// A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT +// OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, +// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT +// LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, +// DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY +// THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT +// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE +// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. + +// Code generated by protoc-gen-go. DO NOT EDIT. +// source: google/protobuf/empty.proto + +package emptypb + +import ( + protoreflect "google.golang.org/protobuf/reflect/protoreflect" + protoimpl "google.golang.org/protobuf/runtime/protoimpl" + reflect "reflect" + sync "sync" +) + +// A generic empty message that you can re-use to avoid defining duplicated +// empty messages in your APIs. A typical example is to use it as the request +// or the response type of an API method. For instance: +// +// service Foo { +// rpc Bar(google.protobuf.Empty) returns (google.protobuf.Empty); +// } +// +// The JSON representation for `Empty` is empty JSON object `{}`. +type Empty struct { + state protoimpl.MessageState + sizeCache protoimpl.SizeCache + unknownFields protoimpl.UnknownFields +} + +func (x *Empty) Reset() { + *x = Empty{} + if protoimpl.UnsafeEnabled { + mi := &file_google_protobuf_empty_proto_msgTypes[0] + ms := protoimpl.X.MessageStateOf(protoimpl.Pointer(x)) + ms.StoreMessageInfo(mi) + } +} + +func (x *Empty) String() string { + return protoimpl.X.MessageStringOf(x) +} + +func (*Empty) ProtoMessage() {} + +func (x *Empty) ProtoReflect() protoreflect.Message { + mi := &file_google_protobuf_empty_proto_msgTypes[0] + if protoimpl.UnsafeEnabled && x != nil { + ms := protoimpl.X.MessageStateOf(protoimpl.Pointer(x)) + if ms.LoadMessageInfo() == nil { + ms.StoreMessageInfo(mi) + } + return ms + } + return mi.MessageOf(x) +} + +// Deprecated: Use Empty.ProtoReflect.Descriptor instead. +func (*Empty) Descriptor() ([]byte, []int) { + return file_google_protobuf_empty_proto_rawDescGZIP(), []int{0} +} + +var File_google_protobuf_empty_proto protoreflect.FileDescriptor + +var file_google_protobuf_empty_proto_rawDesc = []byte{ + 0x0a, 0x1b, 0x67, 0x6f, 0x6f, 0x67, 0x6c, 0x65, 0x2f, 0x70, 0x72, 0x6f, 0x74, 0x6f, 0x62, 0x75, + 0x66, 0x2f, 0x65, 0x6d, 0x70, 0x74, 0x79, 0x2e, 0x70, 0x72, 0x6f, 0x74, 0x6f, 0x12, 0x0f, 0x67, + 0x6f, 0x6f, 0x67, 0x6c, 0x65, 0x2e, 0x70, 0x72, 0x6f, 0x74, 0x6f, 0x62, 0x75, 0x66, 0x22, 0x07, + 0x0a, 0x05, 0x45, 0x6d, 0x70, 0x74, 0x79, 0x42, 0x7d, 0x0a, 0x13, 0x63, 0x6f, 0x6d, 0x2e, 0x67, + 0x6f, 0x6f, 0x67, 0x6c, 0x65, 0x2e, 0x70, 0x72, 0x6f, 0x74, 0x6f, 0x62, 0x75, 0x66, 0x42, 0x0a, + 0x45, 0x6d, 0x70, 0x74, 0x79, 0x50, 0x72, 0x6f, 0x74, 0x6f, 0x50, 0x01, 0x5a, 0x2e, 0x67, 0x6f, + 0x6f, 0x67, 0x6c, 0x65, 0x2e, 0x67, 0x6f, 0x6c, 0x61, 0x6e, 0x67, 0x2e, 0x6f, 0x72, 0x67, 0x2f, + 0x70, 0x72, 0x6f, 0x74, 0x6f, 0x62, 0x75, 0x66, 0x2f, 0x74, 0x79, 0x70, 0x65, 0x73, 0x2f, 0x6b, + 0x6e, 0x6f, 0x77, 0x6e, 0x2f, 0x65, 0x6d, 0x70, 0x74, 0x79, 0x70, 0x62, 0xf8, 0x01, 0x01, 0xa2, + 0x02, 0x03, 0x47, 0x50, 0x42, 0xaa, 0x02, 0x1e, 0x47, 0x6f, 0x6f, 0x67, 0x6c, 0x65, 0x2e, 0x50, + 0x72, 0x6f, 0x74, 0x6f, 0x62, 0x75, 0x66, 0x2e, 0x57, 0x65, 0x6c, 0x6c, 0x4b, 0x6e, 0x6f, 0x77, + 0x6e, 0x54, 0x79, 0x70, 0x65, 0x73, 0x62, 0x06, 0x70, 0x72, 0x6f, 0x74, 0x6f, 0x33, +} + +var ( + file_google_protobuf_empty_proto_rawDescOnce sync.Once + file_google_protobuf_empty_proto_rawDescData = file_google_protobuf_empty_proto_rawDesc +) + +func file_google_protobuf_empty_proto_rawDescGZIP() []byte { + file_google_protobuf_empty_proto_rawDescOnce.Do(func() { + file_google_protobuf_empty_proto_rawDescData = protoimpl.X.CompressGZIP(file_google_protobuf_empty_proto_rawDescData) + }) + return file_google_protobuf_empty_proto_rawDescData +} + +var file_google_protobuf_empty_proto_msgTypes = make([]protoimpl.MessageInfo, 1) +var file_google_protobuf_empty_proto_goTypes = []interface{}{ + (*Empty)(nil), // 0: google.protobuf.Empty +} +var file_google_protobuf_empty_proto_depIdxs = []int32{ + 0, // [0:0] is the sub-list for method output_type + 0, // [0:0] is the sub-list for method input_type + 0, // [0:0] is the sub-list for extension type_name + 0, // [0:0] is the sub-list for extension extendee + 0, // [0:0] is the sub-list for field type_name +} + +func init() { file_google_protobuf_empty_proto_init() } +func file_google_protobuf_empty_proto_init() { + if File_google_protobuf_empty_proto != nil { + return + } + if !protoimpl.UnsafeEnabled { + file_google_protobuf_empty_proto_msgTypes[0].Exporter = func(v interface{}, i int) interface{} { + switch v := v.(*Empty); i { + case 0: + return &v.state + case 1: + return &v.sizeCache + case 2: + return &v.unknownFields + default: + return nil + } + } + } + type x struct{} + out := protoimpl.TypeBuilder{ + File: protoimpl.DescBuilder{ + GoPackagePath: reflect.TypeOf(x{}).PkgPath(), + RawDescriptor: file_google_protobuf_empty_proto_rawDesc, + NumEnums: 0, + NumMessages: 1, + NumExtensions: 0, + NumServices: 0, + }, + GoTypes: file_google_protobuf_empty_proto_goTypes, + DependencyIndexes: file_google_protobuf_empty_proto_depIdxs, + MessageInfos: file_google_protobuf_empty_proto_msgTypes, + }.Build() + File_google_protobuf_empty_proto = out.File + file_google_protobuf_empty_proto_rawDesc = nil + file_google_protobuf_empty_proto_goTypes = nil + file_google_protobuf_empty_proto_depIdxs = nil +} diff --git a/vendor/google.golang.org/protobuf/types/known/structpb/struct.pb.go b/vendor/google.golang.org/protobuf/types/known/structpb/struct.pb.go new file mode 100644 index 000000000..586690522 --- /dev/null +++ b/vendor/google.golang.org/protobuf/types/known/structpb/struct.pb.go @@ -0,0 +1,810 @@ +// Protocol Buffers - Google's data interchange format +// Copyright 2008 Google Inc. All rights reserved. +// https://developers.google.com/protocol-buffers/ +// +// Redistribution and use in source and binary forms, with or without +// modification, are permitted provided that the following conditions are +// met: +// +// * Redistributions of source code must retain the above copyright +// notice, this list of conditions and the following disclaimer. +// * Redistributions in binary form must reproduce the above +// copyright notice, this list of conditions and the following disclaimer +// in the documentation and/or other materials provided with the +// distribution. +// * Neither the name of Google Inc. nor the names of its +// contributors may be used to endorse or promote products derived from +// this software without specific prior written permission. +// +// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS +// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT +// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR +// A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT +// OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, +// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT +// LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, +// DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY +// THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT +// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE +// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. + +// Code generated by protoc-gen-go. DO NOT EDIT. +// source: google/protobuf/struct.proto + +// Package structpb contains generated types for google/protobuf/struct.proto. +// +// The messages (i.e., Value, Struct, and ListValue) defined in struct.proto are +// used to represent arbitrary JSON. The Value message represents a JSON value, +// the Struct message represents a JSON object, and the ListValue message +// represents a JSON array. See https://json.org for more information. +// +// The Value, Struct, and ListValue types have generated MarshalJSON and +// UnmarshalJSON methods such that they serialize JSON equivalent to what the +// messages themselves represent. Use of these types with the +// "google.golang.org/protobuf/encoding/protojson" package +// ensures that they will be serialized as their JSON equivalent. +// +// +// Conversion to and from a Go interface +// +// The standard Go "encoding/json" package has functionality to serialize +// arbitrary types to a large degree. The Value.AsInterface, Struct.AsMap, and +// ListValue.AsSlice methods can convert the protobuf message representation into +// a form represented by interface{}, map[string]interface{}, and []interface{}. +// This form can be used with other packages that operate on such data structures +// and also directly with the standard json package. +// +// In order to convert the interface{}, map[string]interface{}, and []interface{} +// forms back as Value, Struct, and ListValue messages, use the NewStruct, +// NewList, and NewValue constructor functions. +// +// +// Example usage +// +// Consider the following example JSON object: +// +// { +// "firstName": "John", +// "lastName": "Smith", +// "isAlive": true, +// "age": 27, +// "address": { +// "streetAddress": "21 2nd Street", +// "city": "New York", +// "state": "NY", +// "postalCode": "10021-3100" +// }, +// "phoneNumbers": [ +// { +// "type": "home", +// "number": "212 555-1234" +// }, +// { +// "type": "office", +// "number": "646 555-4567" +// } +// ], +// "children": [], +// "spouse": null +// } +// +// To construct a Value message representing the above JSON object: +// +// m, err := structpb.NewValue(map[string]interface{}{ +// "firstName": "John", +// "lastName": "Smith", +// "isAlive": true, +// "age": 27, +// "address": map[string]interface{}{ +// "streetAddress": "21 2nd Street", +// "city": "New York", +// "state": "NY", +// "postalCode": "10021-3100", +// }, +// "phoneNumbers": []interface{}{ +// map[string]interface{}{ +// "type": "home", +// "number": "212 555-1234", +// }, +// map[string]interface{}{ +// "type": "office", +// "number": "646 555-4567", +// }, +// }, +// "children": []interface{}{}, +// "spouse": nil, +// }) +// if err != nil { +// ... // handle error +// } +// ... // make use of m as a *structpb.Value +// +package structpb + +import ( + base64 "encoding/base64" + protojson "google.golang.org/protobuf/encoding/protojson" + protoreflect "google.golang.org/protobuf/reflect/protoreflect" + protoimpl "google.golang.org/protobuf/runtime/protoimpl" + math "math" + reflect "reflect" + sync "sync" + utf8 "unicode/utf8" +) + +// `NullValue` is a singleton enumeration to represent the null value for the +// `Value` type union. +// +// The JSON representation for `NullValue` is JSON `null`. +type NullValue int32 + +const ( + // Null value. + NullValue_NULL_VALUE NullValue = 0 +) + +// Enum value maps for NullValue. +var ( + NullValue_name = map[int32]string{ + 0: "NULL_VALUE", + } + NullValue_value = map[string]int32{ + "NULL_VALUE": 0, + } +) + +func (x NullValue) Enum() *NullValue { + p := new(NullValue) + *p = x + return p +} + +func (x NullValue) String() string { + return protoimpl.X.EnumStringOf(x.Descriptor(), protoreflect.EnumNumber(x)) +} + +func (NullValue) Descriptor() protoreflect.EnumDescriptor { + return file_google_protobuf_struct_proto_enumTypes[0].Descriptor() +} + +func (NullValue) Type() protoreflect.EnumType { + return &file_google_protobuf_struct_proto_enumTypes[0] +} + +func (x NullValue) Number() protoreflect.EnumNumber { + return protoreflect.EnumNumber(x) +} + +// Deprecated: Use NullValue.Descriptor instead. +func (NullValue) EnumDescriptor() ([]byte, []int) { + return file_google_protobuf_struct_proto_rawDescGZIP(), []int{0} +} + +// `Struct` represents a structured data value, consisting of fields +// which map to dynamically typed values. In some languages, `Struct` +// might be supported by a native representation. For example, in +// scripting languages like JS a struct is represented as an +// object. The details of that representation are described together +// with the proto support for the language. +// +// The JSON representation for `Struct` is JSON object. +type Struct struct { + state protoimpl.MessageState + sizeCache protoimpl.SizeCache + unknownFields protoimpl.UnknownFields + + // Unordered map of dynamically typed values. + Fields map[string]*Value `protobuf:"bytes,1,rep,name=fields,proto3" json:"fields,omitempty" protobuf_key:"bytes,1,opt,name=key,proto3" protobuf_val:"bytes,2,opt,name=value,proto3"` +} + +// NewStruct constructs a Struct from a general-purpose Go map. +// The map keys must be valid UTF-8. +// The map values are converted using NewValue. +func NewStruct(v map[string]interface{}) (*Struct, error) { + x := &Struct{Fields: make(map[string]*Value, len(v))} + for k, v := range v { + if !utf8.ValidString(k) { + return nil, protoimpl.X.NewError("invalid UTF-8 in string: %q", k) + } + var err error + x.Fields[k], err = NewValue(v) + if err != nil { + return nil, err + } + } + return x, nil +} + +// AsMap converts x to a general-purpose Go map. +// The map values are converted by calling Value.AsInterface. +func (x *Struct) AsMap() map[string]interface{} { + vs := make(map[string]interface{}) + for k, v := range x.GetFields() { + vs[k] = v.AsInterface() + } + return vs +} + +func (x *Struct) MarshalJSON() ([]byte, error) { + return protojson.Marshal(x) +} + +func (x *Struct) UnmarshalJSON(b []byte) error { + return protojson.Unmarshal(b, x) +} + +func (x *Struct) Reset() { + *x = Struct{} + if protoimpl.UnsafeEnabled { + mi := &file_google_protobuf_struct_proto_msgTypes[0] + ms := protoimpl.X.MessageStateOf(protoimpl.Pointer(x)) + ms.StoreMessageInfo(mi) + } +} + +func (x *Struct) String() string { + return protoimpl.X.MessageStringOf(x) +} + +func (*Struct) ProtoMessage() {} + +func (x *Struct) ProtoReflect() protoreflect.Message { + mi := &file_google_protobuf_struct_proto_msgTypes[0] + if protoimpl.UnsafeEnabled && x != nil { + ms := protoimpl.X.MessageStateOf(protoimpl.Pointer(x)) + if ms.LoadMessageInfo() == nil { + ms.StoreMessageInfo(mi) + } + return ms + } + return mi.MessageOf(x) +} + +// Deprecated: Use Struct.ProtoReflect.Descriptor instead. +func (*Struct) Descriptor() ([]byte, []int) { + return file_google_protobuf_struct_proto_rawDescGZIP(), []int{0} +} + +func (x *Struct) GetFields() map[string]*Value { + if x != nil { + return x.Fields + } + return nil +} + +// `Value` represents a dynamically typed value which can be either +// null, a number, a string, a boolean, a recursive struct value, or a +// list of values. A producer of value is expected to set one of that +// variants, absence of any variant indicates an error. +// +// The JSON representation for `Value` is JSON value. +type Value struct { + state protoimpl.MessageState + sizeCache protoimpl.SizeCache + unknownFields protoimpl.UnknownFields + + // The kind of value. + // + // Types that are assignable to Kind: + // *Value_NullValue + // *Value_NumberValue + // *Value_StringValue + // *Value_BoolValue + // *Value_StructValue + // *Value_ListValue + Kind isValue_Kind `protobuf_oneof:"kind"` +} + +// NewValue constructs a Value from a general-purpose Go interface. +// +// ╔════════════════════════╤════════════════════════════════════════════╗ +// ║ Go type │ Conversion ║ +// ╠════════════════════════╪════════════════════════════════════════════╣ +// ║ nil │ stored as NullValue ║ +// ║ bool │ stored as BoolValue ║ +// ║ int, int32, int64 │ stored as NumberValue ║ +// ║ uint, uint32, uint64 │ stored as NumberValue ║ +// ║ float32, float64 │ stored as NumberValue ║ +// ║ string │ stored as StringValue; must be valid UTF-8 ║ +// ║ []byte │ stored as StringValue; base64-encoded ║ +// ║ map[string]interface{} │ stored as StructValue ║ +// ║ []interface{} │ stored as ListValue ║ +// ╚════════════════════════╧════════════════════════════════════════════╝ +// +// When converting an int64 or uint64 to a NumberValue, numeric precision loss +// is possible since they are stored as a float64. +func NewValue(v interface{}) (*Value, error) { + switch v := v.(type) { + case nil: + return NewNullValue(), nil + case bool: + return NewBoolValue(v), nil + case int: + return NewNumberValue(float64(v)), nil + case int32: + return NewNumberValue(float64(v)), nil + case int64: + return NewNumberValue(float64(v)), nil + case uint: + return NewNumberValue(float64(v)), nil + case uint32: + return NewNumberValue(float64(v)), nil + case uint64: + return NewNumberValue(float64(v)), nil + case float32: + return NewNumberValue(float64(v)), nil + case float64: + return NewNumberValue(float64(v)), nil + case string: + if !utf8.ValidString(v) { + return nil, protoimpl.X.NewError("invalid UTF-8 in string: %q", v) + } + return NewStringValue(v), nil + case []byte: + s := base64.StdEncoding.EncodeToString(v) + return NewStringValue(s), nil + case map[string]interface{}: + v2, err := NewStruct(v) + if err != nil { + return nil, err + } + return NewStructValue(v2), nil + case []interface{}: + v2, err := NewList(v) + if err != nil { + return nil, err + } + return NewListValue(v2), nil + default: + return nil, protoimpl.X.NewError("invalid type: %T", v) + } +} + +// NewNullValue constructs a new null Value. +func NewNullValue() *Value { + return &Value{Kind: &Value_NullValue{NullValue: NullValue_NULL_VALUE}} +} + +// NewBoolValue constructs a new boolean Value. +func NewBoolValue(v bool) *Value { + return &Value{Kind: &Value_BoolValue{BoolValue: v}} +} + +// NewNumberValue constructs a new number Value. +func NewNumberValue(v float64) *Value { + return &Value{Kind: &Value_NumberValue{NumberValue: v}} +} + +// NewStringValue constructs a new string Value. +func NewStringValue(v string) *Value { + return &Value{Kind: &Value_StringValue{StringValue: v}} +} + +// NewStructValue constructs a new struct Value. +func NewStructValue(v *Struct) *Value { + return &Value{Kind: &Value_StructValue{StructValue: v}} +} + +// NewListValue constructs a new list Value. +func NewListValue(v *ListValue) *Value { + return &Value{Kind: &Value_ListValue{ListValue: v}} +} + +// AsInterface converts x to a general-purpose Go interface. +// +// Calling Value.MarshalJSON and "encoding/json".Marshal on this output produce +// semantically equivalent JSON (assuming no errors occur). +// +// Floating-point values (i.e., "NaN", "Infinity", and "-Infinity") are +// converted as strings to remain compatible with MarshalJSON. +func (x *Value) AsInterface() interface{} { + switch v := x.GetKind().(type) { + case *Value_NumberValue: + if v != nil { + switch { + case math.IsNaN(v.NumberValue): + return "NaN" + case math.IsInf(v.NumberValue, +1): + return "Infinity" + case math.IsInf(v.NumberValue, -1): + return "-Infinity" + default: + return v.NumberValue + } + } + case *Value_StringValue: + if v != nil { + return v.StringValue + } + case *Value_BoolValue: + if v != nil { + return v.BoolValue + } + case *Value_StructValue: + if v != nil { + return v.StructValue.AsMap() + } + case *Value_ListValue: + if v != nil { + return v.ListValue.AsSlice() + } + } + return nil +} + +func (x *Value) MarshalJSON() ([]byte, error) { + return protojson.Marshal(x) +} + +func (x *Value) UnmarshalJSON(b []byte) error { + return protojson.Unmarshal(b, x) +} + +func (x *Value) Reset() { + *x = Value{} + if protoimpl.UnsafeEnabled { + mi := &file_google_protobuf_struct_proto_msgTypes[1] + ms := protoimpl.X.MessageStateOf(protoimpl.Pointer(x)) + ms.StoreMessageInfo(mi) + } +} + +func (x *Value) String() string { + return protoimpl.X.MessageStringOf(x) +} + +func (*Value) ProtoMessage() {} + +func (x *Value) ProtoReflect() protoreflect.Message { + mi := &file_google_protobuf_struct_proto_msgTypes[1] + if protoimpl.UnsafeEnabled && x != nil { + ms := protoimpl.X.MessageStateOf(protoimpl.Pointer(x)) + if ms.LoadMessageInfo() == nil { + ms.StoreMessageInfo(mi) + } + return ms + } + return mi.MessageOf(x) +} + +// Deprecated: Use Value.ProtoReflect.Descriptor instead. +func (*Value) Descriptor() ([]byte, []int) { + return file_google_protobuf_struct_proto_rawDescGZIP(), []int{1} +} + +func (m *Value) GetKind() isValue_Kind { + if m != nil { + return m.Kind + } + return nil +} + +func (x *Value) GetNullValue() NullValue { + if x, ok := x.GetKind().(*Value_NullValue); ok { + return x.NullValue + } + return NullValue_NULL_VALUE +} + +func (x *Value) GetNumberValue() float64 { + if x, ok := x.GetKind().(*Value_NumberValue); ok { + return x.NumberValue + } + return 0 +} + +func (x *Value) GetStringValue() string { + if x, ok := x.GetKind().(*Value_StringValue); ok { + return x.StringValue + } + return "" +} + +func (x *Value) GetBoolValue() bool { + if x, ok := x.GetKind().(*Value_BoolValue); ok { + return x.BoolValue + } + return false +} + +func (x *Value) GetStructValue() *Struct { + if x, ok := x.GetKind().(*Value_StructValue); ok { + return x.StructValue + } + return nil +} + +func (x *Value) GetListValue() *ListValue { + if x, ok := x.GetKind().(*Value_ListValue); ok { + return x.ListValue + } + return nil +} + +type isValue_Kind interface { + isValue_Kind() +} + +type Value_NullValue struct { + // Represents a null value. + NullValue NullValue `protobuf:"varint,1,opt,name=null_value,json=nullValue,proto3,enum=google.protobuf.NullValue,oneof"` +} + +type Value_NumberValue struct { + // Represents a double value. + NumberValue float64 `protobuf:"fixed64,2,opt,name=number_value,json=numberValue,proto3,oneof"` +} + +type Value_StringValue struct { + // Represents a string value. + StringValue string `protobuf:"bytes,3,opt,name=string_value,json=stringValue,proto3,oneof"` +} + +type Value_BoolValue struct { + // Represents a boolean value. + BoolValue bool `protobuf:"varint,4,opt,name=bool_value,json=boolValue,proto3,oneof"` +} + +type Value_StructValue struct { + // Represents a structured value. + StructValue *Struct `protobuf:"bytes,5,opt,name=struct_value,json=structValue,proto3,oneof"` +} + +type Value_ListValue struct { + // Represents a repeated `Value`. + ListValue *ListValue `protobuf:"bytes,6,opt,name=list_value,json=listValue,proto3,oneof"` +} + +func (*Value_NullValue) isValue_Kind() {} + +func (*Value_NumberValue) isValue_Kind() {} + +func (*Value_StringValue) isValue_Kind() {} + +func (*Value_BoolValue) isValue_Kind() {} + +func (*Value_StructValue) isValue_Kind() {} + +func (*Value_ListValue) isValue_Kind() {} + +// `ListValue` is a wrapper around a repeated field of values. +// +// The JSON representation for `ListValue` is JSON array. +type ListValue struct { + state protoimpl.MessageState + sizeCache protoimpl.SizeCache + unknownFields protoimpl.UnknownFields + + // Repeated field of dynamically typed values. + Values []*Value `protobuf:"bytes,1,rep,name=values,proto3" json:"values,omitempty"` +} + +// NewList constructs a ListValue from a general-purpose Go slice. +// The slice elements are converted using NewValue. +func NewList(v []interface{}) (*ListValue, error) { + x := &ListValue{Values: make([]*Value, len(v))} + for i, v := range v { + var err error + x.Values[i], err = NewValue(v) + if err != nil { + return nil, err + } + } + return x, nil +} + +// AsSlice converts x to a general-purpose Go slice. +// The slice elements are converted by calling Value.AsInterface. +func (x *ListValue) AsSlice() []interface{} { + vs := make([]interface{}, len(x.GetValues())) + for i, v := range x.GetValues() { + vs[i] = v.AsInterface() + } + return vs +} + +func (x *ListValue) MarshalJSON() ([]byte, error) { + return protojson.Marshal(x) +} + +func (x *ListValue) UnmarshalJSON(b []byte) error { + return protojson.Unmarshal(b, x) +} + +func (x *ListValue) Reset() { + *x = ListValue{} + if protoimpl.UnsafeEnabled { + mi := &file_google_protobuf_struct_proto_msgTypes[2] + ms := protoimpl.X.MessageStateOf(protoimpl.Pointer(x)) + ms.StoreMessageInfo(mi) + } +} + +func (x *ListValue) String() string { + return protoimpl.X.MessageStringOf(x) +} + +func (*ListValue) ProtoMessage() {} + +func (x *ListValue) ProtoReflect() protoreflect.Message { + mi := &file_google_protobuf_struct_proto_msgTypes[2] + if protoimpl.UnsafeEnabled && x != nil { + ms := protoimpl.X.MessageStateOf(protoimpl.Pointer(x)) + if ms.LoadMessageInfo() == nil { + ms.StoreMessageInfo(mi) + } + return ms + } + return mi.MessageOf(x) +} + +// Deprecated: Use ListValue.ProtoReflect.Descriptor instead. +func (*ListValue) Descriptor() ([]byte, []int) { + return file_google_protobuf_struct_proto_rawDescGZIP(), []int{2} +} + +func (x *ListValue) GetValues() []*Value { + if x != 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file_google_protobuf_struct_proto_rawDescData = protoimpl.X.CompressGZIP(file_google_protobuf_struct_proto_rawDescData) + }) + return file_google_protobuf_struct_proto_rawDescData +} + +var file_google_protobuf_struct_proto_enumTypes = make([]protoimpl.EnumInfo, 1) +var file_google_protobuf_struct_proto_msgTypes = make([]protoimpl.MessageInfo, 4) +var file_google_protobuf_struct_proto_goTypes = []interface{}{ + (NullValue)(0), // 0: google.protobuf.NullValue + (*Struct)(nil), // 1: google.protobuf.Struct + (*Value)(nil), // 2: google.protobuf.Value + (*ListValue)(nil), // 3: google.protobuf.ListValue + nil, // 4: google.protobuf.Struct.FieldsEntry +} +var file_google_protobuf_struct_proto_depIdxs = []int32{ + 4, // 0: google.protobuf.Struct.fields:type_name -> google.protobuf.Struct.FieldsEntry + 0, // 1: google.protobuf.Value.null_value:type_name -> google.protobuf.NullValue + 1, // 2: google.protobuf.Value.struct_value:type_name -> google.protobuf.Struct + 3, // 3: google.protobuf.Value.list_value:type_name -> google.protobuf.ListValue + 2, // 4: google.protobuf.ListValue.values:type_name -> google.protobuf.Value + 2, // 5: google.protobuf.Struct.FieldsEntry.value:type_name -> google.protobuf.Value + 6, // [6:6] is the sub-list for method output_type + 6, // [6:6] is the sub-list for method input_type + 6, // [6:6] is the sub-list for extension type_name + 6, // [6:6] is the sub-list for extension extendee + 0, // [0:6] is the sub-list for field type_name +} + +func init() { file_google_protobuf_struct_proto_init() } +func file_google_protobuf_struct_proto_init() { + if File_google_protobuf_struct_proto != nil { + return + } + if !protoimpl.UnsafeEnabled { + file_google_protobuf_struct_proto_msgTypes[0].Exporter = func(v interface{}, i int) interface{} { + switch v := v.(*Struct); i { + case 0: + return &v.state + case 1: + return &v.sizeCache + case 2: + return &v.unknownFields + default: + return nil + } + } + file_google_protobuf_struct_proto_msgTypes[1].Exporter = func(v interface{}, i int) interface{} { + switch v := v.(*Value); i { + case 0: + return &v.state + case 1: + return &v.sizeCache + case 2: + return &v.unknownFields + default: + return nil + } + } + file_google_protobuf_struct_proto_msgTypes[2].Exporter = func(v interface{}, i int) interface{} { + switch v := v.(*ListValue); i { + case 0: + return &v.state + case 1: + return &v.sizeCache + case 2: + return &v.unknownFields + default: + return nil + } + } + } + file_google_protobuf_struct_proto_msgTypes[1].OneofWrappers = []interface{}{ + (*Value_NullValue)(nil), + (*Value_NumberValue)(nil), + (*Value_StringValue)(nil), + (*Value_BoolValue)(nil), + (*Value_StructValue)(nil), + (*Value_ListValue)(nil), + } + type x struct{} + out := protoimpl.TypeBuilder{ + File: protoimpl.DescBuilder{ + GoPackagePath: reflect.TypeOf(x{}).PkgPath(), + RawDescriptor: file_google_protobuf_struct_proto_rawDesc, + NumEnums: 1, + NumMessages: 4, + NumExtensions: 0, + NumServices: 0, + }, + GoTypes: file_google_protobuf_struct_proto_goTypes, + DependencyIndexes: file_google_protobuf_struct_proto_depIdxs, + EnumInfos: file_google_protobuf_struct_proto_enumTypes, + MessageInfos: file_google_protobuf_struct_proto_msgTypes, + }.Build() + File_google_protobuf_struct_proto = out.File + file_google_protobuf_struct_proto_rawDesc = nil + file_google_protobuf_struct_proto_goTypes = nil + file_google_protobuf_struct_proto_depIdxs = nil +} diff --git a/vendor/modules.txt b/vendor/modules.txt index a70a95a8a..a047dfb04 100644 --- a/vendor/modules.txt +++ b/vendor/modules.txt @@ -37,6 +37,8 @@ github.com/PuerkitoBio/urlesc github.com/Shopify/logrus-bugsnag # github.com/alessio/shellescape v1.4.1 github.com/alessio/shellescape +# github.com/antlr/antlr4/runtime/Go/antlr v0.0.0-20210826220005-b48c857c3a0e +github.com/antlr/antlr4/runtime/Go/antlr # github.com/asaskevich/govalidator v0.0.0-20190424111038-f61b66f89f4a github.com/asaskevich/govalidator # github.com/beorn7/perks v1.0.1 @@ -253,6 +255,24 @@ github.com/golang/protobuf/ptypes/any github.com/golang/protobuf/ptypes/duration github.com/golang/protobuf/ptypes/timestamp github.com/golang/protobuf/ptypes/wrappers +# github.com/google/cel-go v0.9.0 +github.com/google/cel-go/cel +github.com/google/cel-go/checker +github.com/google/cel-go/checker/decls +github.com/google/cel-go/common +github.com/google/cel-go/common/containers +github.com/google/cel-go/common/debug +github.com/google/cel-go/common/operators +github.com/google/cel-go/common/overloads +github.com/google/cel-go/common/runes +github.com/google/cel-go/common/types +github.com/google/cel-go/common/types/pb +github.com/google/cel-go/common/types/ref +github.com/google/cel-go/common/types/traits +github.com/google/cel-go/interpreter +github.com/google/cel-go/interpreter/functions +github.com/google/cel-go/parser +github.com/google/cel-go/parser/gen # github.com/google/go-cmp v0.5.6 ## explicit github.com/google/go-cmp/cmp @@ -398,6 +418,7 @@ github.com/opencontainers/image-spec/specs-go github.com/opencontainers/image-spec/specs-go/v1 # github.com/operator-framework/api v0.11.0 ## explicit +github.com/operator-framework/api/pkg/constraints github.com/operator-framework/api/pkg/lib/version github.com/operator-framework/api/pkg/manifests github.com/operator-framework/api/pkg/operators @@ -446,6 +467,8 @@ github.com/sirupsen/logrus/hooks/test github.com/spf13/cobra # github.com/spf13/pflag v1.0.5 github.com/spf13/pflag +# github.com/stoewer/go-strcase v1.2.0 +github.com/stoewer/go-strcase # github.com/stretchr/testify v1.7.0 ## explicit github.com/stretchr/testify/assert @@ -615,6 +638,7 @@ google.golang.org/appengine/internal/remote_api google.golang.org/appengine/internal/urlfetch google.golang.org/appengine/urlfetch # google.golang.org/genproto v0.0.0-20210831024726-fe130286e0e2 +google.golang.org/genproto/googleapis/api/expr/v1alpha1 google.golang.org/genproto/googleapis/api/httpbody google.golang.org/genproto/googleapis/rpc/status google.golang.org/genproto/protobuf/field_mask @@ -706,9 +730,12 @@ google.golang.org/protobuf/reflect/protoregistry google.golang.org/protobuf/runtime/protoiface google.golang.org/protobuf/runtime/protoimpl google.golang.org/protobuf/types/descriptorpb +google.golang.org/protobuf/types/dynamicpb google.golang.org/protobuf/types/known/anypb google.golang.org/protobuf/types/known/durationpb +google.golang.org/protobuf/types/known/emptypb google.golang.org/protobuf/types/known/fieldmaskpb +google.golang.org/protobuf/types/known/structpb google.golang.org/protobuf/types/known/timestamppb google.golang.org/protobuf/types/known/wrapperspb google.golang.org/protobuf/types/pluginpb