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import gradio as gr
import asyncio
from threading import RLock
from pathlib import Path
from huggingface_hub import InferenceClient
import os
HF_TOKEN = os.environ.get("HF_TOKEN") if os.environ.get("HF_TOKEN") else None # If private or gated models aren't used, ENV setting is unnecessary.
server_timeout = 600
inference_timeout = 300
lock = RLock()
loaded_models = {}
model_info_dict = {}
def to_list(s):
return [x.strip() for x in s.split(",")]
def list_sub(a, b):
return [e for e in a if e not in b]
def list_uniq(l):
return sorted(set(l), key=l.index)
def is_repo_name(s):
import re
return re.fullmatch(r'^[^/]+?/[^/]+?$', s)
def get_status(model_name: str):
from huggingface_hub import InferenceClient
client = InferenceClient(token=HF_TOKEN, timeout=10)
return client.get_model_status(model_name)
def is_loadable(model_name: str, force_gpu: bool = False):
try:
status = get_status(model_name)
except Exception as e:
print(e)
print(f"Couldn't load {model_name}.")
return False
gpu_state = isinstance(status.compute_type, dict) and "gpu" in status.compute_type.keys()
if status is None or status.state not in ["Loadable", "Loaded"] or (force_gpu and not gpu_state):
print(f"Couldn't load {model_name}. Model state:'{status.state}', GPU:{gpu_state}")
return status is not None and status.state in ["Loadable", "Loaded"] and (not force_gpu or gpu_state)
def find_model_list(author: str="", tags: list[str]=[], not_tag="", sort: str="last_modified", limit: int=30, force_gpu=False, check_status=False):
from huggingface_hub import HfApi
api = HfApi(token=HF_TOKEN)
default_tags = ["diffusers"]
if not sort: sort = "last_modified"
limit = limit * 20 if check_status and force_gpu else limit * 5
models = []
try:
model_infos = api.list_models(author=author, #task="text-to-image",
tags=list_uniq(default_tags + tags), cardData=True, sort=sort, limit=limit)
except Exception as e:
print(f"Error: Failed to list models.")
print(e)
return models
for model in model_infos:
if not model.private and not model.gated or HF_TOKEN is not None:
loadable = is_loadable(model.id, force_gpu) if check_status else True
if not_tag and not_tag in model.tags or not loadable: continue
models.append(model.id)
if len(models) == limit: break
return models
def get_t2i_model_info_dict(repo_id: str):
from huggingface_hub import HfApi
api = HfApi(token=HF_TOKEN)
info = {"md": "None"}
try:
if not is_repo_name(repo_id) or not api.repo_exists(repo_id=repo_id): return info
model = api.model_info(repo_id=repo_id, token=HF_TOKEN)
except Exception as e:
print(f"Error: Failed to get {repo_id}'s info.")
print(e)
return info
if model.private or model.gated and HF_TOKEN is None: return info
try:
tags = model.tags
except Exception as e:
print(e)
return info
if not 'diffusers' in model.tags: return info
if 'diffusers:FluxPipeline' in tags: info["ver"] = "FLUX.1"
elif 'diffusers:StableDiffusionXLPipeline' in tags: info["ver"] = "SDXL"
elif 'diffusers:StableDiffusionPipeline' in tags: info["ver"] = "SD1.5"
elif 'diffusers:StableDiffusion3Pipeline' in tags: info["ver"] = "SD3"
else: info["ver"] = "Other"
info["url"] = f"https://huggingface.co/{repo_id}/"
info["tags"] = model.card_data.tags if model.card_data and model.card_data.tags else []
info["downloads"] = model.downloads
info["likes"] = model.likes
info["last_modified"] = model.last_modified.strftime("lastmod: %Y-%m-%d")
un_tags = ['text-to-image', 'stable-diffusion', 'stable-diffusion-api', 'safetensors', 'stable-diffusion-xl']
descs = [info["ver"]] + list_sub(info["tags"], un_tags) + [f'DLs: {info["downloads"]}'] + [f'❤: {info["likes"]}'] + [info["last_modified"]]
info["md"] = f'Model Info: {", ".join(descs)} [Model Repo]({info["url"]})'
return info
def rename_image(image_path: str | None, model_name: str, save_path: str | None = None):
import shutil
from datetime import datetime, timezone, timedelta
if image_path is None: return None
dt_now = datetime.now(timezone(timedelta(hours=9)))
filename = f"{model_name.split('/')[-1]}_{dt_now.strftime('%Y%m%d_%H%M%S')}.png"
try:
if Path(image_path).exists():
png_path = "image.png"
if str(Path(image_path).resolve()) != str(Path(png_path).resolve()): shutil.copy(image_path, png_path)
if save_path is not None:
new_path = str(Path(png_path).resolve().rename(Path(save_path).resolve()))
else:
new_path = str(Path(png_path).resolve().rename(Path(filename).resolve()))
return new_path
else:
return None
except Exception as e:
print(e)
return None
def save_gallery(image_path: str | None, images: list[tuple] | None):
if images is None: images = []
files = [i[0] for i in images]
if image_path is None: return images, files
files.insert(0, str(image_path))
images.insert(0, (str(image_path), Path(image_path).stem))
return images, files
# https://github.com/gradio-app/gradio/blob/main/gradio/external.py
# https://huggingface.co/docs/huggingface_hub/package_reference/inference_client
from typing import Literal
def load_from_model(model_name: str, hf_token: str | Literal[False] | None = None):
import httpx
import huggingface_hub
from gradio.exceptions import ModelNotFoundError, TooManyRequestsError
model_url = f"https://huggingface.co/{model_name}"
api_url = f"https://api-inference.huggingface.co/models/{model_name}"
print(f"Fetching model from: {model_url}")
headers = ({} if hf_token in [False, None] else {"Authorization": f"Bearer {hf_token}"})
response = httpx.request("GET", api_url, headers=headers)
if response.status_code != 200:
raise ModelNotFoundError(
f"Could not find model: {model_name}. If it is a private or gated model, please provide your Hugging Face access token (https://huggingface.co/settings/tokens) as the argument for the `hf_token` parameter."
)
p = response.json().get("pipeline_tag")
if p != "text-to-image": raise ModelNotFoundError(f"This model isn't for text-to-image or unsupported: {model_name}.")
headers["X-Wait-For-Model"] = "true"
client = huggingface_hub.InferenceClient(model=model_name, headers=headers,
token=hf_token, timeout=server_timeout)
inputs = gr.components.Textbox(label="Input")
outputs = gr.components.Image(label="Output")
fn = client.text_to_image
def query_huggingface_inference_endpoints(*data, **kwargs):
try:
data = fn(*data, **kwargs) # type: ignore
except huggingface_hub.utils.HfHubHTTPError as e:
if "429" in str(e):
raise TooManyRequestsError() from e
except Exception as e:
raise Exception() from e
return data
interface_info = {
"fn": query_huggingface_inference_endpoints,
"inputs": inputs,
"outputs": outputs,
"title": model_name,
}
return gr.Interface(**interface_info)
def load_model(model_name: str):
global loaded_models
global model_info_dict
if model_name in loaded_models.keys(): return loaded_models[model_name]
try:
loaded_models[model_name] = load_from_model(model_name, hf_token=HF_TOKEN)
print(f"Loaded: {model_name}")
except Exception as e:
if model_name in loaded_models.keys(): del loaded_models[model_name]
print(f"Failed to load: {model_name}")
print(e)
return None
try:
model_info_dict[model_name] = get_t2i_model_info_dict(model_name)
print(f"Assigned: {model_name}")
except Exception as e:
if model_name in model_info_dict.keys(): del model_info_dict[model_name]
print(f"Failed to assigned: {model_name}")
print(e)
return loaded_models[model_name]
def load_model_api(model_name: str):
global loaded_models
global model_info_dict
if model_name in loaded_models.keys(): return loaded_models[model_name]
try:
client = InferenceClient(timeout=5)
status = client.get_model_status(model_name, token=HF_TOKEN)
if status is None or status.framework != "diffusers" or status.state not in ["Loadable", "Loaded"]:
print(f"Failed to load by API: {model_name}")
return None
else:
loaded_models[model_name] = InferenceClient(model_name, token=HF_TOKEN, timeout=server_timeout)
print(f"Loaded by API: {model_name}")
except Exception as e:
if model_name in loaded_models.keys(): del loaded_models[model_name]
print(f"Failed to load by API: {model_name}")
print(e)
return None
try:
model_info_dict[model_name] = get_t2i_model_info_dict(model_name)
print(f"Assigned by API: {model_name}")
except Exception as e:
if model_name in model_info_dict.keys(): del model_info_dict[model_name]
print(f"Failed to assigned by API: {model_name}")
print(e)
return loaded_models[model_name]
def load_models(models: list):
for model in models:
load_model(model)
positive_prefix = {
"Pony": to_list("score_9, score_8_up, score_7_up"),
"Pony Anime": to_list("source_anime, anime, score_9, score_8_up, score_7_up"),
}
positive_suffix = {
"Common": to_list("highly detailed, masterpiece, best quality, very aesthetic, absurdres"),
"Anime": to_list("anime artwork, anime style, studio anime, highly detailed"),
}
negative_prefix = {
"Pony": to_list("score_6, score_5, score_4"),
"Pony Anime": to_list("score_6, score_5, score_4, source_pony, source_furry, source_cartoon"),
"Pony Real": to_list("score_6, score_5, score_4, source_anime, source_pony, source_furry, source_cartoon"),
}
negative_suffix = {
"Common": to_list("lowres, (bad), bad hands, bad feet, text, error, fewer, extra, missing, worst quality, jpeg artifacts, low quality, watermark, unfinished, displeasing, oldest, early, chromatic aberration, signature, extra digits, artistic error, username, scan, [abstract]"),
"Pony Anime": to_list("busty, ugly face, mutated hands, low res, blurry face, black and white, the simpsons, overwatch, apex legends"),
"Pony Real": to_list("ugly, airbrushed, simple background, cgi, cartoon, anime"),
}
positive_all = negative_all = []
for k, v in (positive_prefix | positive_suffix).items():
positive_all = positive_all + v + [s.replace("_", " ") for s in v]
positive_all = list_uniq(positive_all)
for k, v in (negative_prefix | negative_suffix).items():
negative_all = negative_all + v + [s.replace("_", " ") for s in v]
positive_all = list_uniq(positive_all)
def recom_prompt(prompt: str = "", neg_prompt: str = "", pos_pre: list = [], pos_suf: list = [], neg_pre: list = [], neg_suf: list = []):
def flatten(src):
return [item for row in src for item in row]
prompts = to_list(prompt)
neg_prompts = to_list(neg_prompt)
prompts = list_sub(prompts, positive_all)
neg_prompts = list_sub(neg_prompts, negative_all)
last_empty_p = [""] if not prompts and type != "None" else []
last_empty_np = [""] if not neg_prompts and type != "None" else []
prefix_ps = flatten([positive_prefix.get(s, []) for s in pos_pre])
suffix_ps = flatten([positive_suffix.get(s, []) for s in pos_suf])
prefix_nps = flatten([negative_prefix.get(s, []) for s in neg_pre])
suffix_nps = flatten([negative_suffix.get(s, []) for s in neg_suf])
prompt = ", ".join(list_uniq(prefix_ps + prompts + suffix_ps) + last_empty_p)
neg_prompt = ", ".join(list_uniq(prefix_nps + neg_prompts + suffix_nps) + last_empty_np)
return prompt, neg_prompt
recom_prompt_type = {
"None": ([], [], [], []),
"Auto": ([], [], [], []),
"Common": ([], ["Common"], [], ["Common"]),
"Animagine": ([], ["Common", "Anime"], [], ["Common"]),
"Pony": (["Pony"], ["Common"], ["Pony"], ["Common"]),
"Pony Anime": (["Pony", "Pony Anime"], ["Common", "Anime"], ["Pony", "Pony Anime"], ["Common", "Pony Anime"]),
"Pony Real": (["Pony"], ["Common"], ["Pony", "Pony Real"], ["Common", "Pony Real"]),
}
enable_auto_recom_prompt = False
def insert_recom_prompt(prompt: str = "", neg_prompt: str = "", type: str = "None"):
global enable_auto_recom_prompt
if type == "Auto": enable_auto_recom_prompt = True
else: enable_auto_recom_prompt = False
pos_pre, pos_suf, neg_pre, neg_suf = recom_prompt_type.get(type, ([], [], [], []))
return recom_prompt(prompt, neg_prompt, pos_pre, pos_suf, neg_pre, neg_suf)
def set_recom_prompt_preset(type: str = "None"):
pos_pre, pos_suf, neg_pre, neg_suf = recom_prompt_type.get(type, ([], [], [], []))
return pos_pre, pos_suf, neg_pre, neg_suf
def get_recom_prompt_type():
type = list(recom_prompt_type.keys())
type.remove("Auto")
return type
def get_positive_prefix():
return list(positive_prefix.keys())
def get_positive_suffix():
return list(positive_suffix.keys())
def get_negative_prefix():
return list(negative_prefix.keys())
def get_negative_suffix():
return list(negative_suffix.keys())
def get_tag_type(pos_pre: list = [], pos_suf: list = [], neg_pre: list = [], neg_suf: list = []):
tag_type = "danbooru"
words = pos_pre + pos_suf + neg_pre + neg_suf
for word in words:
if "Pony" in word:
tag_type = "e621"
break
return tag_type
def get_model_info_md(model_name: str):
if model_name in model_info_dict.keys(): return model_info_dict[model_name].get("md", "")
def change_model(model_name: str):
load_model_api(model_name)
return get_model_info_md(model_name)
def warm_model(model_name: str):
model = load_model_api(model_name)
if model:
try:
print(f"Warming model: {model_name}")
infer_body(model, " ")
except Exception as e:
print(e)
# https://huggingface.co/docs/api-inference/detailed_parameters
# https://huggingface.co/docs/huggingface_hub/package_reference/inference_client
def infer_body(client: InferenceClient | gr.Interface | object, model_str: str, prompt: str, neg_prompt: str = "",
height: int = 0, width: int = 0, steps: int = 0, cfg: int = 0, seed: int = -1):
png_path = "image.png"
kwargs = {}
if height > 0: kwargs["height"] = height
if width > 0: kwargs["width"] = width
if steps > 0: kwargs["num_inference_steps"] = steps
if cfg > 0: cfg = kwargs["guidance_scale"] = cfg
if seed == -1: kwargs["seed"] = randomize_seed()
else: kwargs["seed"] = seed
try:
if isinstance(client, InferenceClient):
image = client.text_to_image(prompt=prompt, negative_prompt=neg_prompt, **kwargs, token=HF_TOKEN)
elif isinstance(client, gr.Interface):
image = client.fn(prompt=prompt, negative_prompt=neg_prompt, **kwargs, token=HF_TOKEN)
else: return None
if isinstance(image, tuple): return None
return save_image(image, png_path, model_str, prompt, neg_prompt, height, width, steps, cfg, seed)
except Exception as e:
print(e)
raise Exception() from e
async def infer(model_name: str, prompt: str, neg_prompt: str ="", height: int = 0, width: int = 0,
steps: int = 0, cfg: int = 0, seed: int = -1,
save_path: str | None = None, timeout: float = inference_timeout):
model = load_model(model_name)
if not model: return None
task = asyncio.create_task(asyncio.to_thread(infer_body, model, model_name, prompt, neg_prompt,
height, width, steps, cfg, seed))
await asyncio.sleep(0)
try:
result = await asyncio.wait_for(task, timeout=timeout)
except asyncio.TimeoutError as e:
print(e)
print(f"Task timed out: {model_name}")
if not task.done(): task.cancel()
result = None
raise Exception(f"Task timed out: {model_name}") from e
except Exception as e:
print(e)
if not task.done(): task.cancel()
result = None
raise Exception() from e
if task.done() and result is not None:
with lock:
image = rename_image(result, model_name, save_path)
return image
return None
# https://github.com/aio-libs/pytest-aiohttp/issues/8 # also AsyncInferenceClient is buggy.
def infer_fn(model_name: str, prompt: str, neg_prompt: str = "", height: int = 0, width: int = 0,
steps: int = 0, cfg: int = 0, seed: int = -1,
pos_pre: list = [], pos_suf: list = [], neg_pre: list = [], neg_suf: list = [], save_path: str | None = None):
if model_name == 'NA':
return None
try:
loop = asyncio.get_running_loop()
except Exception:
loop = asyncio.new_event_loop()
try:
prompt, neg_prompt = recom_prompt(prompt, neg_prompt, pos_pre, pos_suf, neg_pre, neg_suf)
result = loop.run_until_complete(infer(model_name, prompt, neg_prompt, height, width,
steps, cfg, seed, save_path, inference_timeout))
except (Exception, asyncio.CancelledError) as e:
print(e)
print(f"Task aborted: {model_name}, Error: {e}")
result = None
raise gr.Error(f"Task aborted: {model_name}, Error: {e}")
finally:
loop.close()
return result
def infer_rand_fn(model_name_dummy: str, prompt: str, neg_prompt: str = "", height: int = 0, width: int = 0,
steps: int = 0, cfg: int = 0, seed: int = -1,
pos_pre: list = [], pos_suf: list = [], neg_pre: list = [], neg_suf: list = [], save_path: str | None = None):
import random
if model_name_dummy == 'NA':
return None
random.seed()
model_name = random.choice(list(loaded_models.keys()))
try:
loop = asyncio.get_running_loop()
except Exception:
loop = asyncio.new_event_loop()
try:
prompt, neg_prompt = recom_prompt(prompt, neg_prompt, pos_pre, pos_suf, neg_pre, neg_suf)
result = loop.run_until_complete(infer(model_name, prompt, neg_prompt, height, width,
steps, cfg, seed, save_path, inference_timeout))
except (Exception, asyncio.CancelledError) as e:
print(e)
print(f"Task aborted: {model_name}, Error: {e}")
result = None
raise gr.Error(f"Task aborted: {model_name}, Error: {e}")
finally:
loop.close()
return result
def save_image(image, savefile, modelname, prompt, nprompt, height=0, width=0, steps=0, cfg=0, seed=-1):
from PIL import Image, PngImagePlugin
import json
try:
metadata = {"prompt": prompt, "negative_prompt": nprompt, "Model": {"Model": modelname.split("/")[-1]}}
if steps > 0: metadata["num_inference_steps"] = steps
if cfg > 0: metadata["guidance_scale"] = cfg
if seed != -1: metadata["seed"] = seed
if width > 0 and height > 0: metadata["resolution"] = f"{width} x {height}"
metadata_str = json.dumps(metadata)
info = PngImagePlugin.PngInfo()
info.add_text("metadata", metadata_str)
image.save(savefile, "PNG", pnginfo=info)
return str(Path(savefile).resolve())
except Exception as e:
print(f"Failed to save image file: {e}")
raise Exception(f"Failed to save image file:") from e
def randomize_seed():
from random import seed, randint
MAX_SEED = 2**32-1
seed()
rseed = randint(0, MAX_SEED)
return rseed
from translatepy import Translator
translator = Translator()
def translate_to_en(input: str):
try:
output = str(translator.translate(input, 'English'))
except Exception as e:
output = input
print(e)
return output
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