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Running
on
Zero
Running
on
Zero
import os | |
import re | |
import time | |
from datetime import datetime | |
from itertools import product | |
from typing import Callable | |
import numpy as np | |
import spaces | |
import torch | |
from compel import Compel, DiffusersTextualInversionManager, ReturnedEmbeddingsType | |
from compel.prompt_parser import PromptParser | |
from huggingface_hub.utils import HFValidationError, RepositoryNotFoundError | |
from PIL import Image | |
from .config import Config | |
from .loader import Loader | |
from .utils import load_json | |
__import__("warnings").filterwarnings("ignore", category=FutureWarning, module="transformers") | |
__import__("transformers").logging.set_verbosity_error() | |
def parse_prompt_with_arrays(prompt: str) -> list[str]: | |
arrays = re.findall(r"\[\[(.*?)\]\]", prompt) | |
if not arrays: | |
return [prompt] | |
tokens = [item.split(",") for item in arrays] # [("a", "b"), ("1", "2")] | |
combinations = list(product(*tokens)) # [("a", "1"), ("a", "2"), ("b", "1"), ("b", "2")] | |
# find all the arrays in the prompt and replace them with tokens | |
prompts = [] | |
for combo in combinations: | |
current_prompt = prompt | |
for i, token in enumerate(combo): | |
current_prompt = current_prompt.replace(f"[[{arrays[i]}]]", token.strip(), 1) | |
prompts.append(current_prompt) | |
return prompts | |
def apply_style(positive_prompt, negative_prompt, style_id="none"): | |
if style_id.lower() == "none": | |
return (positive_prompt, negative_prompt) | |
styles = load_json("./data/styles.json") | |
style = styles.get(style_id) | |
if style is None: | |
return (positive_prompt, negative_prompt) | |
style_base = styles.get("_base", {}) | |
return ( | |
f"{style.get('positive')}, {style_base.get('positive')}".format(prompt=positive_prompt), | |
f"{style.get('negative')}, {style_base.get('negative')}".format(prompt=negative_prompt), | |
) | |
def prepare_image(input, size=None): | |
image = None | |
if isinstance(input, Image.Image): | |
image = input | |
if isinstance(input, np.ndarray): | |
image = Image.fromarray(input) | |
if isinstance(input, str): | |
if os.path.isfile(input): | |
image = Image.open(input) | |
if image is not None: | |
image = image.convert("RGB") | |
if size is not None: | |
image = image.resize(size, Image.Resampling.LANCZOS) | |
if image is not None: | |
return image | |
else: | |
raise ValueError("Invalid image prompt") | |
def gpu_duration(**kwargs): | |
loading = 20 | |
duration = 10 | |
width = kwargs.get("width", 512) | |
height = kwargs.get("height", 512) | |
scale = kwargs.get("scale", 1) | |
num_images = kwargs.get("num_images", 1) | |
size = width * height | |
if size > 500_000: | |
duration += 5 | |
if scale == 4: | |
duration += 5 | |
return loading + (duration * num_images) | |
def generate( | |
positive_prompt, | |
negative_prompt="", | |
image_prompt=None, | |
ip_image=None, | |
ip_face=False, | |
lora_1=None, | |
lora_1_weight=0.0, | |
lora_2=None, | |
lora_2_weight=0.0, | |
embeddings=[], | |
style=None, | |
seed=None, | |
model="Lykon/dreamshaper-8", | |
scheduler="DDIM", | |
width=512, | |
height=512, | |
guidance_scale=7.5, | |
inference_steps=40, | |
denoising_strength=0.8, | |
deepcache=1, | |
scale=1, | |
num_images=1, | |
karras=False, | |
taesd=False, | |
freeu=False, | |
clip_skip=False, | |
Info: Callable[[str], None] = None, | |
Error=Exception, | |
progress=None, | |
): | |
if not torch.cuda.is_available(): | |
raise Error("CUDA not available") | |
# https://pytorch.org/docs/stable/generated/torch.manual_seed.html | |
if seed is None or seed < 0: | |
seed = int(datetime.now().timestamp() * 1_000_000) % (2**64) | |
CURRENT_STEP = 0 | |
CURRENT_IMAGE = 1 | |
KIND = "img2img" if image_prompt is not None else "txt2img" | |
EMBEDDINGS_TYPE = ( | |
ReturnedEmbeddingsType.PENULTIMATE_HIDDEN_STATES_NORMALIZED | |
if clip_skip | |
else ReturnedEmbeddingsType.LAST_HIDDEN_STATES_NORMALIZED | |
) | |
if ip_image: | |
IP_ADAPTER = "full-face" if ip_face else "plus" | |
else: | |
IP_ADAPTER = "" | |
if progress is not None: | |
TQDM = False | |
progress((0, inference_steps), desc=f"Generating image {CURRENT_IMAGE}/{num_images}") | |
else: | |
TQDM = True | |
def callback_on_step_end(pipeline, step, timestep, latents): | |
nonlocal CURRENT_STEP, CURRENT_IMAGE | |
if progress is None: | |
return latents | |
strength = denoising_strength if KIND == "img2img" else 1 | |
total_steps = min(int(inference_steps * strength), inference_steps) | |
CURRENT_STEP = step + 1 | |
progress( | |
(CURRENT_STEP, total_steps), | |
desc=f"Generating image {CURRENT_IMAGE}/{num_images}", | |
) | |
return latents | |
start = time.perf_counter() | |
loader = Loader() | |
loader.load( | |
KIND, | |
IP_ADAPTER, | |
model, | |
scheduler, | |
karras, | |
taesd, | |
freeu, | |
deepcache, | |
scale, | |
TQDM, | |
) | |
if loader.pipe is None: | |
raise Error(f"Error loading {model}") | |
pipe = loader.pipe | |
upscaler = None | |
if scale == 2: | |
upscaler = loader.upscaler_2x | |
if scale == 4: | |
upscaler = loader.upscaler_4x | |
# load loras | |
loras = [] | |
weights = [] | |
loras_and_weights = [(lora_1, lora_1_weight), (lora_2, lora_2_weight)] | |
loras_dir = os.path.abspath(os.path.join(os.path.dirname(__file__), "..", "loras")) | |
for lora, weight in loras_and_weights: | |
if lora and lora.lower() != "none" and lora not in loras: | |
config = Config.CIVIT_LORAS.get(lora) | |
if config: | |
try: | |
pipe.load_lora_weights( | |
loras_dir, | |
adapter_name=lora, | |
weight_name=f"{lora}.{config['model_version_id']}.safetensors", | |
) | |
weights.append(weight) | |
loras.append(lora) | |
except Exception: | |
raise Error(f"Error loading {config['name']} LoRA") | |
# unload after generating or if there was an error | |
try: | |
if loras: | |
pipe.set_adapters(loras, adapter_weights=weights) | |
except Exception: | |
pipe.unload_lora_weights() | |
raise Error("Error setting LoRA weights") | |
# load embeddings | |
embeddings_dir = os.path.abspath(os.path.join(os.path.dirname(__file__), "..", "embeddings")) | |
for embedding in embeddings: | |
try: | |
# wrap embeddings in angle brackets | |
pipe.load_textual_inversion( | |
pretrained_model_name_or_path=f"{embeddings_dir}/{embedding}.pt", | |
token=f"<{embedding}>", | |
) | |
except (EnvironmentError, HFValidationError, RepositoryNotFoundError): | |
raise Error(f"Invalid embedding: {embedding}") | |
# prompt embeds | |
compel = Compel( | |
device=pipe.device, | |
tokenizer=pipe.tokenizer, | |
truncate_long_prompts=False, | |
text_encoder=pipe.text_encoder, | |
returned_embeddings_type=EMBEDDINGS_TYPE, | |
dtype_for_device_getter=lambda _: pipe.dtype, | |
textual_inversion_manager=DiffusersTextualInversionManager(pipe), | |
) | |
images = [] | |
current_seed = seed | |
for i in range(num_images): | |
# seeded generator for each iteration | |
generator = torch.Generator(device=pipe.device).manual_seed(current_seed) | |
try: | |
positive_prompts = parse_prompt_with_arrays(positive_prompt) | |
index = i % len(positive_prompts) | |
positive_styled, negative_styled = apply_style( | |
positive_prompts[index], | |
negative_prompt, | |
style, | |
) | |
if negative_styled.startswith("(), "): | |
negative_styled = negative_styled[4:] | |
for lora in loras: | |
positive_styled += f", {Config.CIVIT_LORAS[lora]['trigger']}" | |
for embedding in embeddings: | |
negative_styled += f", <{embedding}>" | |
# print prompts | |
positive_embeds, negative_embeds = compel.pad_conditioning_tensors_to_same_length( | |
[compel(positive_styled), compel(negative_styled)] | |
) | |
except PromptParser.ParsingException: | |
raise Error("Invalid prompt") | |
kwargs = { | |
"width": width, | |
"height": height, | |
"generator": generator, | |
"prompt_embeds": positive_embeds, | |
"guidance_scale": guidance_scale, | |
"num_inference_steps": inference_steps, | |
"negative_prompt_embeds": negative_embeds, | |
"output_type": "np" if scale > 1 else "pil", | |
} | |
if progress is not None: | |
kwargs["callback_on_step_end"] = callback_on_step_end | |
if KIND == "img2img": | |
kwargs["strength"] = denoising_strength | |
kwargs["image"] = prepare_image(image_prompt, (width, height)) | |
if IP_ADAPTER: | |
# don't resize full-face images since they are usually square crops | |
size = None if ip_face else (width, height) | |
kwargs["ip_adapter_image"] = prepare_image(ip_image, size) | |
try: | |
image = pipe(**kwargs).images[0] | |
if scale > 1: | |
image = upscaler.predict(image) | |
images.append((image, str(current_seed))) | |
current_seed += 1 | |
except Exception as e: | |
raise Error(f"{e}") | |
finally: | |
if embeddings: | |
pipe.unload_textual_inversion() | |
if loras: | |
pipe.unload_lora_weights() | |
CURRENT_STEP = 0 | |
CURRENT_IMAGE += 1 | |
diff = time.perf_counter() - start | |
if Info: | |
Info(f"Generated {len(images)} image{'s' if len(images) > 1 else ''} in {diff:.2f}s") | |
return images | |