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import os
import gradio as gr
import numpy as np
import spaces
import torch
import random
from PIL import Image
from typing import Iterable
# --- Gradio Theme ---
from gradio.themes import Soft
from gradio.themes.utils import colors, fonts, sizes
colors.steel_blue = colors.Color(
name="steel_blue",
c50="#EBF3F8",
c100="#D3E5F0",
c200="#A8CCE1",
c300="#7DB3D2",
c400="#529AC3",
c500="#4682B4",
c600="#3E72A0",
c700="#36638C",
c800="#2E5378",
c900="#264364",
c950="#1E3450",
)
class SteelBlueTheme(Soft):
def __init__(
self,
*,
primary_hue: colors.Color | str = colors.gray,
secondary_hue: colors.Color | str = colors.steel_blue,
neutral_hue: colors.Color | str = colors.slate,
text_size: sizes.Size | str = sizes.text_lg,
font: fonts.Font | str | Iterable[fonts.Font | str] = (
fonts.GoogleFont("Outfit"), "Arial", "sans-serif",
),
font_mono: fonts.Font | str | Iterable[fonts.Font | str] = (
fonts.GoogleFont("IBM Plex Mono"), "ui-monospace", "monospace",
),
):
super().__init__(
primary_hue=primary_hue,
secondary_hue=secondary_hue,
neutral_hue=neutral_hue,
text_size=text_size,
font=font,
font_mono=font_mono,
)
super().set(
background_fill_primary="*primary_50",
background_fill_primary_dark="*primary_900",
body_background_fill="linear-gradient(135deg, *primary_200, *primary_100)",
body_background_fill_dark="linear-gradient(135deg, *primary_900, *primary_800)",
button_primary_text_color="white",
button_primary_text_color_hover="white",
button_primary_background_fill="linear-gradient(90deg, *secondary_500, *secondary_600)",
button_primary_background_fill_hover="linear-gradient(90deg, *secondary_600, *secondary_700)",
slider_color="*secondary_500",
slider_color_dark="*secondary_600",
block_title_text_weight="600",
block_border_width="3px",
block_shadow="*shadow_drop_lg",
)
steel_blue_theme = SteelBlueTheme()
# --- Model Loading ---
from diffusers import FlowMatchEulerDiscreteScheduler
# from optimization import optimize_pipeline_ # Assuming this is a custom file
from qwenimage.pipeline_qwenimage_edit_plus import QwenImageEditPlusPipeline
from qwenimage.transformer_qwenimage import QwenImageTransformer2DModel
from qwenimage.qwen_fa3_processor import QwenDoubleStreamAttnProcessorFA3
dtype = torch.bfloat16
device = "cuda" if torch.cuda.is_available() else "cpu"
pipe = QwenImageEditPlusPipeline.from_pretrained(
"Qwen/Qwen-Image-Edit-2509",
transformer=QwenImageTransformer2DModel.from_pretrained(
"linoyts/Qwen-Image-Edit-Rapid-AIO",
subfolder='transformer',
torch_dtype=dtype,
device_map='cuda'
),
torch_dtype=dtype
).to(device)
# Load all LoRA adapters
pipe.load_lora_weights("autoweeb/Qwen-Image-Edit-2509-Photo-to-Anime",
weight_name="Qwen-Image-Edit-2509-Photo-to-Anime_000001000.safetensors",
adapter_name="anime")
pipe.load_lora_weights("dx8152/Qwen-Edit-2509-Multiple-angles",
weight_name="镜头转换.safetensors",
adapter_name="multiple-angles")
pipe.load_lora_weights("dx8152/Qwen-Image-Edit-2509-Light_restoration",
weight_name="移除光影.safetensors",
adapter_name="light-restoration")
pipe.load_lora_weights("dx8152/Qwen-Image-Edit-2509-Relight",
weight_name="Qwen-Edit-Relight.safetensors",
adapter_name="relight")
pipe.transformer.set_attn_processor(QwenDoubleStreamAttnProcessorFA3())
MAX_SEED = np.iinfo(np.int32).max
# --- Helper Function for Aspect Ratio ---
def update_dimensions_on_upload(image):
if image is None:
return 1024, 1024
original_width, original_height = image.size
# Cap max dimension to 1024 while preserving aspect ratio
if original_width > original_height:
new_width = 1024
new_height = int(1024 * original_height / original_width)
else:
new_height = 1024
new_width = int(1024 * original_width / original_height)
# Ensure dimensions are multiples of 8 for model compatibility
new_width = (new_width // 8) * 8
new_height = (new_height // 8) * 8
return new_width, new_height
# --- Main Inference Function ---
@spaces.GPU
def infer(
input_image,
prompt,
lora_adapter,
seed,
randomize_seed,
guidance_scale,
steps,
width,
height,
progress=gr.Progress(track_tqdm=True)
):
if input_image is None:
raise gr.Error("Please upload an image to edit.")
# Dynamically set the adapter
if lora_adapter == "Photo-to-Anime":
pipe.set_adapters(["anime"], adapter_weights=[1.0])
elif lora_adapter == "Multiple-Angles":
pipe.set_adapters(["multiple-angles"], adapter_weights=[1.0])
elif lora_adapter == "Light-Restoration":
pipe.set_adapters(["light-restoration"], adapter_weights=[1.0])
elif lora_adapter == "Relight":
pipe.set_adapters(["relight"], adapter_weights=[1.0])
if randomize_seed:
seed = random.randint(0, MAX_SEED)
generator = torch.Generator(device=device).manual_seed(seed)
negative_prompt = "worst quality, low quality, bad anatomy, bad hands, text, error, missing fingers, extra digit, fewer digits, cropped, jpeg artifacts, signature, watermark, username, blurry"
result = pipe(
image=input_image.convert("RGB"),
prompt=prompt,
negative_prompt=negative_prompt,
height=height,
width=width,
num_inference_steps=steps,
generator=generator,
true_cfg_scale=guidance_scale,
num_images_per_prompt=1,
).images[0]
return result, seed
# --- Wrapper for Examples ---
@spaces.GPU
def infer_example(input_image, prompt, lora_adapter):
# *** FIX: The input is already a PIL Image object from Gradio, not a path. ***
# We no longer need Image.open() here.
input_pil = input_image.convert("RGB")
# Calculate aspect ratio for the example image
width, height = update_dimensions_on_upload(input_pil)
# Set reasonable default values for example inference to get good results
guidance_scale = 1.0
steps = 4
# Call the main infer function
result, seed = infer(input_pil, prompt, lora_adapter, 0, True, guidance_scale, steps, width, height)
return result, seed
# --- UI Layout ---
css="""
#col-container {
margin: 0 auto;
max-width: 960px;
}
#main-title h1 {font-size: 2.1em !important;}
"""
with gr.Blocks(css=css, theme=steel_blue_theme) as demo:
with gr.Column(elem_id="col-container"):
gr.Markdown("# **Qwen-Image-Edit-2509-LoRAs-Fast**", elem_id="main-title")
gr.Markdown("Perform diverse image edits using specialized LoRA adapters for the Qwen-Image-Edit model.")
with gr.Row(equal_height=True):
with gr.Column():
input_image = gr.Image(label="Upload Image", type="pil", height=400)
lora_adapter = gr.Dropdown(
label="Choose Editing Style",
choices=["Photo-to-Anime", "Multiple-Angles", "Light-Restoration", "Relight"],
value="Photo-to-Anime"
)
prompt = gr.Text(
label="Edit Prompt",
show_label=True,
placeholder="e.g., transform into anime",
)
run_button = gr.Button("Run", variant="primary")
with gr.Accordion("⚙️ Advanced Settings", open=False):
seed = gr.Slider(label="Seed", minimum=0, maximum=MAX_SEED, step=1, value=0)
randomize_seed = gr.Checkbox(label="Randomize Seed", value=True)
guidance_scale = gr.Slider(label="Guidance Scale", minimum=1.0, maximum=10.0, step=0.1, value=1.0)
steps = gr.Slider(label="Inference Steps", minimum=1, maximum=50, step=1, value=4)
# Hidden sliders to hold image dimensions
height = gr.Slider(label="Height", minimum=256, maximum=1024, step=8, value=1024, visible=False)
width = gr.Slider(label="Width", minimum=256, maximum=1024, step=8, value=1024, visible=False)
with gr.Column():
output_image = gr.Image(label="Output Image", interactive=False, format="png", height=400)
gr.Examples(
examples=[
["examples/1.jpg", "Transform into anime.", "Photo-to-Anime"],
["examples/4.jpg", "Remove shadows and relight the image using soft lighting.", "Light-Restoration"],
["examples/5.jpg", "Relight the image using soft, diffused lighting that simulates sunlight filtering through curtains.", "Relight"],
["examples/2.jpeg", "Move the camera left.", "Multiple-Angles"],
["examples/2.jpeg", "Move the camera right.", "Multiple-Angles"],
["examples/2.jpeg", "Move the camera down.", "Multiple-Angles"],
["examples/2.jpeg", "Rotate the camera 45 degrees to the left.", "Multiple-Angles"],
["examples/3.jpg", "Rotate the camera 45 degrees to the right.", "Multiple-Angles"],
["examples/3.jpg", "Switch the camera to a top-down view.", "Multiple-Angles"],
["examples/3.jpg", "Switch the camera to a wide-angle lens.", "Multiple-Angles"],
["examples/3.jpg", "Switch the camera to a close-up lens.", "Multiple-Angles"],
],
inputs=[input_image, prompt, lora_adapter],
outputs=[output_image, seed],
fn=infer_example,
cache_examples="lazy",
label="Examples"
)
# --- Event Handlers ---
run_button.click(
fn=infer,
inputs=[input_image, prompt, lora_adapter, seed, randomize_seed, guidance_scale, steps, width, height],
outputs=[output_image, seed]
)
input_image.upload(
fn=update_dimensions_on_upload,
inputs=[input_image],
outputs=[width, height]
)
demo.launch() |