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Hidiffusion_node.py
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Hidiffusion_node.py
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# !/usr/bin/env python
# -*- coding: UTF-8 -*-
import cv2
import torch
import os
from PIL import Image
import numpy as np
from diffusers import (StableDiffusionXLPipeline, DiffusionPipeline, DDIMScheduler, ControlNetModel,
KDPM2AncestralDiscreteScheduler, LMSDiscreteScheduler,
AutoPipelineForInpainting, DPMSolverMultistepScheduler, DPMSolverSinglestepScheduler,
EulerDiscreteScheduler, HeunDiscreteScheduler, UNet2DConditionModel,
StableDiffusionXLImg2ImgPipeline, AutoPipelineForImage2Image,
AutoPipelineForText2Image, StableDiffusionXLControlNetImg2ImgPipeline, KDPM2DiscreteScheduler,
EulerAncestralDiscreteScheduler, UniPCMultistepScheduler, AutoencoderKL,
StableDiffusionXLControlNetPipeline, DDPMScheduler, TCDScheduler, LCMScheduler,
StableDiffusionPipeline, StableDiffusionControlNetPipeline, StableDiffusionXLInpaintPipeline)
from diffusers.loaders.single_file_utils import load_single_file_checkpoint,infer_diffusers_model_type
from .hidiffusion.hidiffusion import apply_hidiffusion,remove_hidiffusion
import folder_paths
from safetensors.torch import load_file
import yaml
import diffusers
import random
from omegaconf import OmegaConf
from comfy.model_management import cleanup_models
from comfy.clip_vision import load as load_clip
dif_version = str(diffusers.__version__)
dif_version_int = int(dif_version.split(".")[1])
if dif_version_int >= 28:
from diffusers.models.unets.unet_2d_condition import UNet2DConditionModel
else:
from diffusers.models.unet_2d_condition import UNet2DConditionModel
from comfy.utils import common_upscale
from .guided_filter import FastGuidedFilter
from .ip_adapter import IPAdapterXL,IPAdapter
dir_path = os.path.dirname(os.path.abspath(__file__))
path_dir = os.path.dirname(dir_path)
file_path = os.path.dirname(path_dir)
scheduler_list = ["DDIM",
"Euler",
"Euler a",
"DDPM",
"DPM++ 2M",
"DPM++ 2M Karras",
"DPM++ 2M SDE",
"DPM++ 2M SDE Karras",
"DPM++ SDE",
"DPM++ SDE Karras",
"DPM2",
"DPM2 Karras",
"DPM2 a",
"DPM2 a Karras",
"Heun",
"LCM",
"LMS",
"LMS Karras",
"UniPC",
]
fs = open(os.path.join(dir_path, "model.yaml"), encoding="UTF-8")
datas = yaml.load(fs, Loader=yaml.FullLoader)
normal_model_list = datas["surport_model"]
sdxl_lightning_list = datas["lightning_unet"]
controlnet_suport = datas["surport_controlnet"]
xl_model_support = datas["sdxl_model"]
lightning_lora=datas["lightning_lora"]
lightning_xl_lora=datas["lightning_xl_lora"]
lcm_unet = ["dmd2_sdxl_4step_unet_fp16.bin", "dmd2_sdxl_1step_unet_fp16.bin", "lcm-sdxl-base-1.0.safetensors",
"Hyper-SDXL-1step-Unet.safetensors"]
def tensor_to_image(tensor):
image_np = tensor.squeeze().mul(255).clamp(0, 255).byte().numpy()
image = Image.fromarray(image_np, mode='RGB')
return image
def nomarl_upscale(img_tensor, width, height):
samples = img_tensor.movedim(-1, 1)
img = common_upscale(samples, width, height, "nearest-exact", "center")
samples = img.movedim(1, -1)
img_pil = tensor_to_image(samples)
return img_pil
def resize_image_control(control_image, resolution):
HH, WW, _ = control_image.shape
crop_h = random.randint(0, HH - resolution[1])
crop_w = random.randint(0, WW - resolution[0])
crop_image = control_image[crop_h:crop_h+resolution[1], crop_w:crop_w+resolution[0], :]
return crop_image, crop_w, crop_h
def apply_gaussian_blur(image_np, ksize=5, sigmaX=1.0):
if ksize % 2 == 0:
ksize += 1 # ksize must be odd
blurred_image = cv2.GaussianBlur(image_np, (ksize, ksize), sigmaX=sigmaX)
return blurred_image
def apply_guided_filter(image_np, radius, eps, scale):
filter = FastGuidedFilter(image_np, radius, eps, scale)
return filter.filter(image_np)
def input_size_adaptation_output(img_tensor,base_in, width, height):
#basein=1024
if width == height:
img_pil = nomarl_upscale(img_tensor, base_in, base_in) # 2pil
else:
if min(1,width/ height)==1: #高
r=height/base_in
img_pil = nomarl_upscale(img_tensor, round(width/r), base_in) # 2pil
else: #宽
r=width/base_in
img_pil = nomarl_upscale(img_tensor, base_in, round(height/r)) # 2pil
return img_pil
def get_sheduler(name):
scheduler = False
if name == "Euler":
scheduler = EulerDiscreteScheduler()
elif name == "Euler a":
scheduler = EulerAncestralDiscreteScheduler()
elif name == "DDIM":
scheduler = DDIMScheduler()
elif name == "DDPM":
scheduler = DDPMScheduler()
elif name == "DPM++ 2M":
scheduler = DPMSolverMultistepScheduler()
elif name == "DPM++ 2M Karras":
scheduler = DPMSolverMultistepScheduler(use_karras_sigmas=True)
elif name == "DPM++ 2M SDE":
scheduler = DPMSolverMultistepScheduler(algorithm_type="sde-dpmsolver++")
elif name == "DPM++ 2M SDE Karras":
scheduler = DPMSolverMultistepScheduler(use_karras_sigmas=True, algorithm_type="sde-dpmsolver++")
elif name == "DPM++ SDE":
scheduler = DPMSolverSinglestepScheduler()
elif name == "DPM++ SDE Karras":
scheduler = DPMSolverSinglestepScheduler(use_karras_sigmas=True)
elif name == "DPM2":
scheduler = KDPM2DiscreteScheduler()
elif name == "DPM2 Karras":
scheduler = KDPM2DiscreteScheduler(use_karras_sigmas=True)
elif name == "DPM2 a":
scheduler = KDPM2AncestralDiscreteScheduler()
elif name == "DPM2 a Karras":
scheduler = KDPM2AncestralDiscreteScheduler(use_karras_sigmas=True)
elif name == "Heun":
scheduler = HeunDiscreteScheduler()
elif name == "LCM":
scheduler = LCMScheduler()
elif name == "LMS":
scheduler = LMSDiscreteScheduler()
elif name == "LMS Karras":
scheduler = LMSDiscreteScheduler(use_karras_sigmas=True)
elif name == "UniPC":
scheduler = UniPCMultistepScheduler()
return scheduler
class HI_Diffusers_Model_Loader:
def __init__(self):
pass
@classmethod
def INPUT_TYPES(cls):
return {
"required": {
"function_choice": (["txt2img", "img2img", ],),
"ckpt_name": (folder_paths.get_filename_list("checkpoints"),),
"vae_id": (["none"] + folder_paths.get_filename_list("vae"),),
"unet_model": (["none"] + folder_paths.get_filename_list("unet"),),
"controlnet_model": (["none"] + folder_paths.get_filename_list("controlnet"),),
"lora": (["none"] + folder_paths.get_filename_list("loras"),),
"lora_scale": ("FLOAT", {"default": 0.8, "min": 0.1, "max": 1.0, "step": 0.1}),
"trigger_words": ("STRING", {"default": "best quality"}),
"scheduler": (scheduler_list,),
"apply_window_attn":("BOOLEAN", {"default": False},),
"ip_ckpt": (["none"] + folder_paths.get_filename_list("photomaker"),),
"clip_vision": (["none"] + folder_paths.get_filename_list("clip_vision"),),
}
}
RETURN_TYPES = ("HIDIF_MODEL", )
RETURN_NAMES = ("pipe", )
FUNCTION = "loader_models"
CATEGORY = "Hidiffusion_Pro"
def loader_models(self,function_choice, ckpt_name,vae_id,unet_model, controlnet_model,
lora,lora_scale,trigger_words,scheduler,apply_window_attn,ip_ckpt,clip_vision):
ckpt_path = folder_paths.get_full_path("checkpoints", ckpt_name) if ckpt_name!="none" else None
sd_type=""
if ckpt_path:
sd = load_single_file_checkpoint(ckpt_path)
sd_type = infer_diffusers_model_type(sd)
del sd
vae_id=vae_id if vae_id!="none" else None
controlnet_path=folder_paths.get_full_path("controlnet", controlnet_model) if controlnet_model!="none" else None
unet_ckpt = folder_paths.get_full_path("unet", unet_model) if unet_model!="none" else None
ip_ckpt = folder_paths.get_full_path("photomaker", ip_ckpt) if ip_ckpt != "none" else None
clip_vision = folder_paths.get_full_path("clip_vision", clip_vision) if clip_vision != "none" else None
scheduler_used = get_sheduler(scheduler)
if sd_type == "v1" or sd_type == "v2":
model_type="stable-diffusion-v1-5"
model_config=os.path.join(dir_path,"sd15_config")
original_config_file = os.path.join(folder_paths.models_dir, "configs", "v1-inference.yaml")
if dif_version_int >= 28:
model = StableDiffusionPipeline.from_single_file(
ckpt_path, config=model_config,original_config=original_config_file, torch_dtype=torch.float16).to("cuda")
else:
model = StableDiffusionPipeline.from_single_file(
ckpt_path,config=model_config, original_config_file=original_config_file, torch_dtype=torch.float16).to("cuda")
elif sd_type =="playground-v2-5":
model_type = "playground-v2-1024px-aesthetic"
model_config ="playgroundai/playground-v2.5-1024px-aesthetic"
model = StableDiffusionXLPipeline.from_single_file(ckpt_path, config=model_config,torch_dtype=torch.float16).to("cuda")
elif sd_type == "xl_inpaint":
model_type ="stable-diffusion-xl-1.0-inpainting-0.1"
model_config = "diffusers/stable-diffusion-xl-1.0-inpainting-0.1"
original_config_file = os.path.join(dir_path, "weights", "sd_xl_base.yaml")
if dif_version_int >= 28:
model = StableDiffusionXLInpaintPipeline.from_single_file(ckpt_path,config=model_config,
original_config=original_config_file,
torch_dtype=torch.float16,
)
else:
model = StableDiffusionXLInpaintPipeline.from_single_file(ckpt_path,config=model_config,
original_config_file=original_config_file,
torch_dtype=torch.float16,
)
if unet_model in sdxl_lightning_list:
if unet_model.rsplit('.', 1)[-1] == "bin":
model.unet.load_state_dict(torch.load(unet_ckpt),strict=False,)
else:
model.unet.load_state_dict(load_file(unet_ckpt), strict=False, )
elif sd_type == "xl_base":
model_type = "stable-diffusion-xl-base-1.0"
model_config=os.path.join(dir_path,"sdxl_config")
original_config_file = os.path.join(dir_path, "weights", "sd_xl_base.yaml")
if dif_version_int >= 28:
model = StableDiffusionXLPipeline.from_single_file(
ckpt_path, config=model_config,original_config=original_config_file, torch_dtype=torch.float16)
else:
model = StableDiffusionXLPipeline.from_single_file(
ckpt_path,config=model_config, original_config_file=original_config_file, torch_dtype=torch.float16)
if controlnet_path:
controlnet = ControlNetModel.from_unet(model.unet)
cn_state_dict = load_file(controlnet_path)
controlnet.load_state_dict(cn_state_dict, strict=False)
controlnet.to(torch.float16)
if function_choice == "img2img":
model = StableDiffusionXLControlNetImg2ImgPipeline.from_pipe(model,controlnet=controlnet)
else:
model = StableDiffusionXLControlNetPipeline.from_pipe(model,controlnet=controlnet)
if unet_model in sdxl_lightning_list:
if unet_model.rsplit('.', 1)[-1] == "bin":
model.unet.load_state_dict(torch.load(unet_ckpt), strict=False,)
else:
model.unet.load_state_dict(load_file(unet_ckpt), strict=False, )
else:
raise "unsupport model!!"
if vae_id:
vae_id = folder_paths.get_full_path("vae", vae_id)
if sd_type == "xl_base" or sd_type == "xl_inpaint":
vae_config=os.path.join(dir_path,"sdxl_config","vae")
elif sd_type == "v1" or sd_type == "v2" :
vae_config=os.path.join(dir_path, "sd15_config","vae")
elif sd_type == "playground-v2-5" :
vae_config=os.path.join(dir_path,"weights/playground")
else:
raise "vae not support"
model.vae = AutoencoderKL.from_single_file(vae_id,config=vae_config, torch_dtype=torch.float16).to("cuda")
if sd_type == "xl_inpaint":
model.scheduler =scheduler_used.from_pretrained(os.path.join(dir_path,"sdxl_config"), subfolder="scheduler")
else:
model.scheduler = scheduler_used.from_config(model.scheduler.config, timestep_spacing="trailing")
if lora!="none":
lora_path = folder_paths.get_full_path("loras", lora)
model.load_lora_weights(lora_path, adapter_name=trigger_words)
model.fuse_lora(lora_scale=lora_scale, adapter_names=[trigger_words,])
model.enable_xformers_memory_efficient_attention()
model.enable_vae_tiling()
apply_hidiffusion(model,apply_window_attn=apply_window_attn,model_type_str=model_type)
model.enable_model_cpu_offload() # need below apply_hidiffusion(model)
ip_adapter = False
if ip_ckpt is not None and clip_vision is not None:
model.enable_freeu(s1=0.6, s2=0.4, b1=1.1, b2=1.2)
device = "cuda"
remove_hidiffusion(model)
image_encoder = load_clip(clip_vision)
if sd_type == "xl_base":
config_path=os.path.join(dir_path,"weights","sdxl","config.json")
image_encoder_config = OmegaConf.load(config_path)
model = IPAdapterXL(model, image_encoder, ip_ckpt, device,image_encoder_config,
target_blocks=["up_blocks.0.attentions.1"])
elif sd_type == "v1":
config_path = os.path.join(dir_path, "weights", "sd15","config.json")
image_encoder_config = OmegaConf.load(config_path)
model = IPAdapter(model, image_encoder, ip_ckpt, device,image_encoder_config, target_blocks=["block"])
else:
raise "unsupport model,only support SDXL or SD1.5"
torch.cuda.empty_cache()
ip_adapter=True
torch.cuda.empty_cache()
pipe={"model":model,"controlnet_path":controlnet_path,"sd_type":sd_type,"lora":lora,"trigger_words":trigger_words,"ip_adapter":ip_adapter,"function_choice":function_choice}
torch.cuda.empty_cache()
return (pipe,)
class Hi_Sampler:
def __init__(self):
pass
@classmethod
def INPUT_TYPES(cls):
return {
"required": {
"pipe": ("HIDIF_MODEL",),
"prompt": ("STRING", {"multiline": True,
"default": "a girl,8k,smile,best quality"}),
"negative_prompt": ("STRING", {"multiline": True,
"default": "text, watermark, lowres, low quality, worst quality, deformed, glitch, low contrast, noisy, saturation, blurry"}),
"controlnet_scale": ("FLOAT", {"default": 0.5, "min": 0.1, "max": 1.0, "step": 0.1}),
"clip_skip": ("INT", {"default": 1, "min": -5, "max": 100,"step": 1}),
"pre_input": ("INT", {"default": 512, "min": 256, "max": 1024, "step": 64}),
"seed": ("INT", {"default": 0, "min": 0, "max": 0xffffffffffffffff}),
"steps": ("INT", {"default": 30, "min": 1, "max": 10000}),
"cfg": ("FLOAT", {"default": 7.5, "min": 0.0, "max": 100.0, "step": 0.1, "round": 0.01}),
"width": ("INT", {"default": 2048, "min": 64, "max": 8192, "step": 64, "display": "number"}),
"height": ("INT", {"default": 2048, "min": 64, "max": 8192, "step": 64, "display": "number"}),
"adapter_scale": ("FLOAT", {"default": 1.0, "min": 0.0, "max": 1.0, "step": 0.1,}),
},
"optional": {"image": ("IMAGE",),
"control_image": ("IMAGE",),
"ip_image": ("IMAGE",)}
}
RETURN_TYPES = ("IMAGE",)
RETURN_NAMES = ("image",)
FUNCTION = "hi_sampler"
CATEGORY = "Hidiffusion_Pro"
def hi_sampler(self, pipe, prompt, negative_prompt,controlnet_scale,clip_skip,pre_input,
seed,steps, cfg, width,height,adapter_scale,**kwargs):
model=pipe.get("model",None)
controlnet_path = pipe["controlnet_path"]
sd_type = pipe["sd_type"]
lora = pipe["lora"]
trigger_words = pipe["trigger_words"]
ip_adapter = pipe["ip_adapter"]
function_choice =pipe["function_choice"]
if ip_adapter:
ip_image = kwargs.get("ip_image")
#ip_image = input_size_adaptation_output(ip_image, pre_input, width, height)
if lora != "none":
prompt = prompt + " " + trigger_words
if controlnet_path is None:
if function_choice == "img2img":
image = kwargs.get("image")
image = input_size_adaptation_output(image, pre_input, width, height)
images = \
model.generate(prompt=prompt, negative_prompt=negative_prompt,pil_image=ip_image, image=image, scale=adapter_scale,num_inference_steps=steps,
guidance_scale=cfg, clip_skip=clip_skip,
height=height, width=width, seed=seed, )
else:
images = \
model.generate(pil_image=ip_image,prompt=prompt, negative_prompt=negative_prompt,scale=adapter_scale, num_inference_steps=steps,
guidance_scale=cfg, clip_skip=clip_skip,
height=height, width=width, seed=seed, )
else:
control_image = kwargs.get("control_image")
if "tile" in controlnet_path:
control_image = input_size_adaptation_output(control_image, pre_input, width, height)
controlnet_img = cv2.cvtColor(np.asarray(control_image), cv2.COLOR_RGB2BGR)
new_height, new_width, _ = controlnet_img.shape
ratio = np.sqrt(1024. * 1024. / (new_width * new_height))
W, H = int(new_width * ratio), int(new_height * ratio)
crop_w, crop_h = 0, 0
controlnet_img = cv2.resize(controlnet_img, (W, H))
blur_strength = random.sample([i / 10. for i in range(10, 201, 2)], k=1)[0]
radius = random.sample([i for i in range(1, 40, 2)], k=1)[0]
eps = random.sample([i / 1000. for i in range(1, 101, 2)], k=1)[0]
scale_factor = random.sample([i / 10. for i in range(10, 181, 5)], k=1)[0]
if random.random() > 0.5:
controlnet_img = apply_gaussian_blur(controlnet_img, ksize=int(blur_strength),
sigmaX=blur_strength / 2)
if random.random() > 0.5:
# Apply Guided Filter
controlnet_img = apply_guided_filter(controlnet_img, radius, eps, scale_factor)
# Resize image
controlnet_img = cv2.resize(controlnet_img, (int(W / scale_factor), int(H / scale_factor)),
interpolation=cv2.INTER_AREA)
controlnet_img = cv2.resize(controlnet_img, (W, H), interpolation=cv2.INTER_CUBIC)
controlnet_img = cv2.cvtColor(controlnet_img, cv2.COLOR_BGR2RGB)
control_image = Image.fromarray(controlnet_img)
else:
control_image = input_size_adaptation_output(control_image, pre_input, width, height)
if function_choice == "img2img":
image = kwargs["image"]
image = input_size_adaptation_output(image, pre_input, width, height)
if sd_type == "xl_inpaint":
images = model.generate(prompt=prompt, negative_prompt=negative_prompt, image=image,pil_image=ip_image, scale=adapter_scale,mask_image=control_image,
num_inference_steps=steps, guidance_scale=cfg, height=height, clip_skip=clip_skip,
width=width, controlnet_conditioning_scale=controlnet_scale,
seed=seed, )
else:
images = model.generate(prompt=prompt, negative_prompt=negative_prompt, image=image, pil_image=ip_image,scale=adapter_scale,control_image=control_image,
num_inference_steps=steps, guidance_scale=cfg, height=height, width=width,
clip_skip=clip_skip,
controlnet_conditioning_scale=controlnet_scale,
seed=seed, )
else:
images = model.generate(prompt=prompt, negative_prompt=negative_prompt, pil_image=ip_image,scale=adapter_scale,control_image=control_image,
num_inference_steps=steps, guidance_scale=cfg, height=height, width=width,
clip_skip=clip_skip,
controlnet_conditioning_scale=controlnet_scale,
seed=seed, )
images = images[0]
else:
if lora != "none":
prompt = prompt + " " + trigger_words
# print(model_type, unet_model, control_net, function_choice)
if controlnet_path is None:
if function_choice == "img2img":
image = kwargs["image"]
image = input_size_adaptation_output(image, pre_input, width, height)
images = \
model(prompt, negative_prompt=negative_prompt, image=image, num_inference_steps=steps,
guidance_scale=cfg, clip_skip=clip_skip,
height=height, width=width, seed=seed, ).images[0]
else:
images = \
model(prompt, negative_prompt=negative_prompt, num_inference_steps=steps,
guidance_scale=cfg, clip_skip=clip_skip,
height=height, width=width, seed=seed, ).images[0]
else:
control_image = kwargs["control_image"]
if "tile" in controlnet_path:
control_image = input_size_adaptation_output(control_image, pre_input, width, height)
controlnet_img = cv2.cvtColor(np.asarray(control_image), cv2.COLOR_RGB2BGR)
new_height, new_width, _ = controlnet_img.shape
ratio = np.sqrt(1024. * 1024. / (new_width * new_height))
W, H = int(new_width * ratio), int(new_height * ratio)
crop_w, crop_h = 0, 0
controlnet_img = cv2.resize(controlnet_img, (W, H))
blur_strength = random.sample([i / 10. for i in range(10, 201, 2)], k=1)[0]
radius = random.sample([i for i in range(1, 40, 2)], k=1)[0]
eps = random.sample([i / 1000. for i in range(1, 101, 2)], k=1)[0]
scale_factor = random.sample([i / 10. for i in range(10, 181, 5)], k=1)[0]
if random.random() > 0.5:
controlnet_img = apply_gaussian_blur(controlnet_img, ksize=int(blur_strength),
sigmaX=blur_strength / 2)
if random.random() > 0.5:
# Apply Guided Filter
controlnet_img = apply_guided_filter(controlnet_img, radius, eps, scale_factor)
# Resize image
controlnet_img = cv2.resize(controlnet_img, (int(W / scale_factor), int(H / scale_factor)),
interpolation=cv2.INTER_AREA)
controlnet_img = cv2.resize(controlnet_img, (W, H), interpolation=cv2.INTER_CUBIC)
controlnet_img = cv2.cvtColor(controlnet_img, cv2.COLOR_BGR2RGB)
control_image = Image.fromarray(controlnet_img)
else:
control_image = input_size_adaptation_output(control_image, pre_input, width, height)
if function_choice == "img2img":
image = kwargs["image"]
image = input_size_adaptation_output(image, pre_input, width, height)
if sd_type == "xl_inpaint":
print("controlnet inpainting")
images = \
model(prompt, negative_prompt=negative_prompt, image=image, mask_image=control_image,
num_inference_steps=steps, guidance_scale=cfg, height=height, clip_skip=clip_skip,
width=width, controlnet_conditioning_scale=controlnet_scale,
seed=seed, ).images[0]
else:
print("controlnet img2img")
images = model(prompt, negative_prompt=negative_prompt, image=image, control_image=control_image,
num_inference_steps=steps, guidance_scale=cfg, height=height, width=width,
clip_skip=clip_skip,
controlnet_conditioning_scale=controlnet_scale,
seed=seed, ).images[0]
else:
print("controlnet txt2img")
images = model(prompt,control_image=control_image, negative_prompt=negative_prompt,
num_inference_steps=steps, guidance_scale=cfg, height=height, width=width,
clip_skip=clip_skip,
controlnet_conditioning_scale=controlnet_scale,
seed=seed, ).images[0]
output_image = torch.from_numpy(np.array(images).astype(np.float32) / 255.0).unsqueeze(0)
if lora != "none":
if ip_adapter is None:
model.unfuse_lora()
torch.cuda.empty_cache()
return (output_image,)
NODE_CLASS_MAPPINGS = {
"HI_Diffusers_Model_Loader": HI_Diffusers_Model_Loader,
"Hi_Sampler": Hi_Sampler
}
NODE_DISPLAY_NAME_MAPPINGS = {
"HI_Diffusers_Model_Loader": "HI_Diffusers_Model_Loader",
"Hi_Hi_Sampler": "Hi_Sampler"
}