RefurnishAI / app.py
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import os
import random
import sys
from typing import Sequence, Mapping, Any, Union
import torch
import gradio as gr
from PIL import Image
from huggingface_hub import hf_hub_download
import spaces
hf_hub_download(repo_id="black-forest-labs/FLUX.1-Redux-dev", filename="flux1-redux-dev.safetensors", local_dir="models/style_models")
hf_hub_download(repo_id="black-forest-labs/FLUX.1-Depth-dev", filename="flux1-depth-dev.safetensors", local_dir="models/diffusion_models")
hf_hub_download(repo_id="Comfy-Org/sigclip_vision_384", filename="sigclip_vision_patch14_384.safetensors", local_dir="models/clip_vision")
hf_hub_download(repo_id="Kijai/DepthAnythingV2-safetensors", filename="depth_anything_v2_vitl_fp32.safetensors", local_dir="models/depthanything")
hf_hub_download(repo_id="black-forest-labs/FLUX.1-dev", filename="ae.safetensors", local_dir="models/vae/FLUX1")
hf_hub_download(repo_id="comfyanonymous/flux_text_encoders", filename="clip_l.safetensors", local_dir="models/text_encoders")
t5_path = hf_hub_download(repo_id="comfyanonymous/flux_text_encoders", filename="t5xxl_fp16.safetensors", local_dir="models/text_encoders/t5")
# Import all the necessary functions from the original script
def get_value_at_index(obj: Union[Sequence, Mapping], index: int) -> Any:
try:
return obj[index]
except KeyError:
return obj["result"][index]
# Add all the necessary setup functions from the original script
def find_path(name: str, path: str = None) -> str:
if path is None:
path = os.getcwd()
if name in os.listdir(path):
path_name = os.path.join(path, name)
print(f"{name} found: {path_name}")
return path_name
parent_directory = os.path.dirname(path)
if parent_directory == path:
return None
return find_path(name, parent_directory)
def add_comfyui_directory_to_sys_path() -> None:
comfyui_path = find_path("ComfyUI")
if comfyui_path is not None and os.path.isdir(comfyui_path):
sys.path.append(comfyui_path)
print(f"'{comfyui_path}' added to sys.path")
def add_extra_model_paths() -> None:
try:
from main import load_extra_path_config
except ImportError:
from utils.extra_config import load_extra_path_config
extra_model_paths = find_path("extra_model_paths.yaml")
if extra_model_paths is not None:
load_extra_path_config(extra_model_paths)
else:
print("Could not find the extra_model_paths config file.")
# Initialize paths
add_comfyui_directory_to_sys_path()
add_extra_model_paths()
def import_custom_nodes() -> None:
import asyncio
import execution
from nodes import init_extra_nodes
import server
loop = asyncio.new_event_loop()
asyncio.set_event_loop(loop)
server_instance = server.PromptServer(loop)
execution.PromptQueue(server_instance)
init_extra_nodes()
# Import all necessary nodes
from nodes import (
StyleModelLoader,
VAEEncode,
NODE_CLASS_MAPPINGS,
LoadImage,
CLIPVisionLoader,
SaveImage,
VAELoader,
CLIPVisionEncode,
DualCLIPLoader,
EmptyLatentImage,
VAEDecode,
UNETLoader,
CLIPTextEncode,
)
# Initialize all constant nodes and models in global context
import_custom_nodes()
# Global variables for preloaded models and constants
#with torch.inference_mode():
# Initialize constants
intconstant = NODE_CLASS_MAPPINGS["INTConstant"]()
CONST_1024 = intconstant.get_value(value=1024)
# Load CLIP
dualcliploader = DualCLIPLoader()
CLIP_MODEL = dualcliploader.load_clip(
clip_name1="t5/t5xxl_fp16.safetensors",
clip_name2="clip_l.safetensors",
type="flux",
)
# Load VAE
vaeloader = VAELoader()
VAE_MODEL = vaeloader.load_vae(vae_name="FLUX1/ae.safetensors")
# Load UNET
unetloader = UNETLoader()
UNET_MODEL = unetloader.load_unet(
unet_name="flux1-depth-dev.safetensors", weight_dtype="default"
)
# Load CLIP Vision
clipvisionloader = CLIPVisionLoader()
CLIP_VISION_MODEL = clipvisionloader.load_clip(
clip_name="sigclip_vision_patch14_384.safetensors"
)
# Load Style Model
stylemodelloader = StyleModelLoader()
STYLE_MODEL = stylemodelloader.load_style_model(
style_model_name="flux1-redux-dev.safetensors"
)
# Initialize samplers
ksamplerselect = NODE_CLASS_MAPPINGS["KSamplerSelect"]()
SAMPLER = ksamplerselect.get_sampler(sampler_name="euler")
# Initialize depth model
cr_clip_input_switch = NODE_CLASS_MAPPINGS["CR Clip Input Switch"]()
downloadandloaddepthanythingv2model = NODE_CLASS_MAPPINGS["DownloadAndLoadDepthAnythingV2Model"]()
DEPTH_MODEL = downloadandloaddepthanythingv2model.loadmodel(
model="depth_anything_v2_vitl_fp32.safetensors"
)
cliptextencode = CLIPTextEncode()
loadimage = LoadImage()
vaeencode = VAEEncode()
fluxguidance = NODE_CLASS_MAPPINGS["FluxGuidance"]()
instructpixtopixconditioning = NODE_CLASS_MAPPINGS["InstructPixToPixConditioning"]()
clipvisionencode = CLIPVisionEncode()
stylemodelapplyadvanced = NODE_CLASS_MAPPINGS["StyleModelApplyAdvanced"]()
emptylatentimage = EmptyLatentImage()
basicguider = NODE_CLASS_MAPPINGS["BasicGuider"]()
basicscheduler = NODE_CLASS_MAPPINGS["BasicScheduler"]()
randomnoise = NODE_CLASS_MAPPINGS["RandomNoise"]()
samplercustomadvanced = NODE_CLASS_MAPPINGS["SamplerCustomAdvanced"]()
vaedecode = VAEDecode()
cr_text = NODE_CLASS_MAPPINGS["CR Text"]()
saveimage = SaveImage()
getimagesizeandcount = NODE_CLASS_MAPPINGS["GetImageSizeAndCount"]()
depthanything_v2 = NODE_CLASS_MAPPINGS["DepthAnything_V2"]()
imageresize = NODE_CLASS_MAPPINGS["ImageResize+"]()
@spaces.GPU
def generate_image(prompt, structure_image, style_image, depth_strength=15, style_strength=0.5, progress=gr.Progress(track_tqdm=True)) -> str:
"""Main generation function that processes inputs and returns the path to the generated image."""
with torch.inference_mode():
# Set up CLIP
clip_switch = cr_clip_input_switch.switch(
Input=1,
clip1=get_value_at_index(CLIP_MODEL, 0),
clip2=get_value_at_index(CLIP_MODEL, 0),
)
# Encode text
text_encoded = cliptextencode.encode(
text=prompt,
clip=get_value_at_index(clip_switch, 0),
)
empty_text = cliptextencode.encode(
text="",
clip=get_value_at_index(clip_switch, 0),
)
# Process structure image
structure_img = loadimage.load_image(image=structure_image)
# Resize image
resized_img = imageresize.execute(
width=get_value_at_index(CONST_1024, 0),
height=get_value_at_index(CONST_1024, 0),
interpolation="bicubic",
method="keep proportion",
condition="always",
multiple_of=16,
image=get_value_at_index(structure_img, 0),
)
# Get image size
size_info = getimagesizeandcount.getsize(
image=get_value_at_index(resized_img, 0)
)
# Encode VAE
vae_encoded = vaeencode.encode(
pixels=get_value_at_index(size_info, 0),
vae=get_value_at_index(VAE_MODEL, 0),
)
# Process depth
depth_processed = depthanything_v2.process(
da_model=get_value_at_index(DEPTH_MODEL, 0),
images=get_value_at_index(size_info, 0),
)
# Apply Flux guidance
flux_guided = fluxguidance.append(
guidance=depth_strength,
conditioning=get_value_at_index(text_encoded, 0),
)
# Process style image
style_img = loadimage.load_image(image=style_image)
# Encode style with CLIP Vision
style_encoded = clipvisionencode.encode(
crop="center",
clip_vision=get_value_at_index(CLIP_VISION_MODEL, 0),
image=get_value_at_index(style_img, 0),
)
# Set up conditioning
conditioning = instructpixtopixconditioning.encode(
positive=get_value_at_index(flux_guided, 0),
negative=get_value_at_index(empty_text, 0),
vae=get_value_at_index(VAE_MODEL, 0),
pixels=get_value_at_index(depth_processed, 0),
)
# Apply style
style_applied = stylemodelapplyadvanced.apply_stylemodel(
strength=style_strength,
conditioning=get_value_at_index(conditioning, 0),
style_model=get_value_at_index(STYLE_MODEL, 0),
clip_vision_output=get_value_at_index(style_encoded, 0),
)
# Set up empty latent
empty_latent = emptylatentimage.generate(
width=get_value_at_index(resized_img, 1),
height=get_value_at_index(resized_img, 2),
batch_size=1,
)
# Set up guidance
guided = basicguider.get_guider(
model=get_value_at_index(UNET_MODEL, 0),
conditioning=get_value_at_index(style_applied, 0),
)
# Set up scheduler
schedule = basicscheduler.get_sigmas(
scheduler="simple",
steps=28,
denoise=1,
model=get_value_at_index(UNET_MODEL, 0),
)
# Generate random noise
noise = randomnoise.get_noise(noise_seed=random.randint(1, 2**64))
# Sample
sampled = samplercustomadvanced.sample(
noise=get_value_at_index(noise, 0),
guider=get_value_at_index(guided, 0),
sampler=get_value_at_index(SAMPLER, 0),
sigmas=get_value_at_index(schedule, 0),
latent_image=get_value_at_index(empty_latent, 0),
)
# Decode VAE
decoded = vaedecode.decode(
samples=get_value_at_index(sampled, 0),
vae=get_value_at_index(VAE_MODEL, 0),
)
# Save image
prefix = cr_text.text_multiline(text="Flux_BFL_Depth_Redux")
saved = saveimage.save_images(
filename_prefix=get_value_at_index(prefix, 0),
images=get_value_at_index(decoded, 0),
)
saved_path = f"output/{saved['ui']['images'][0]['filename']}"
return saved_path
# Create Gradio interface
examples = [
["", "mona.png", "receita-tacos.webp", 15, 0.6],
["a woman looking at a house catching fire on the background", "disaster_girl.png", "abaporu.jpg", 15, 0.15],
#["istanbul aerial, dramatic photography", "natasha.png", "istambul.jpg", 15, 0.5],
]
output_image = gr.Image(label="Generated Image")
with gr.Blocks() as app:
gr.Markdown("# FLUX Style Shaping")
gr.Markdown("Flux[dev] Redux + Flux[dev] Depth ComfyUI workflow by [Nathan Shipley](https://x.com/CitizenPlain) running directly on Gradio. [workflow](https://gist.github.com/nathanshipley/7a9ac1901adde76feebe58d558026f68) - [how to convert your any comfy workflow to gradio (soon)](#)")
with gr.Row():
with gr.Column():
prompt_input = gr.Textbox(label="Prompt", placeholder="Enter your prompt here...")
with gr.Row():
with gr.Group():
structure_image = gr.Image(label="Structure Image", type="filepath")
depth_strength = gr.Slider(minimum=0, maximum=50, value=15, label="Depth Strength")
with gr.Group():
style_image = gr.Image(label="Style Image", type="filepath")
style_strength = gr.Slider(minimum=0, maximum=1, value=0.5, label="Style Strength")
generate_btn = gr.Button("Generate")
gr.Examples(
examples=examples,
inputs=[prompt_input, structure_image, style_image, depth_strength, style_strength],
outputs=[output_image],
fn=generate_image,
cache_examples=True,
cache_mode="lazy"
)
with gr.Column():
output_image.render()
generate_btn.click(
fn=generate_image,
inputs=[prompt_input, structure_image, style_image, depth_strength, style_strength],
outputs=[output_image]
)
if __name__ == "__main__":
app.launch(share=True)