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Qwen-Image-Edit-Angles / app.py

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	import gradio as gr
	import numpy as np
	import random
	import torch
	import spaces

	from PIL import Image
	from diffusers import FlowMatchEulerDiscreteScheduler
	from optimization import optimize_pipeline_
	from qwenimage.pipeline_qwenimage_edit_plus import QwenImageEditPlusPipeline
	from qwenimage.transformer_qwenimage import QwenImageTransformer2DModel
	from qwenimage.qwen_fa3_processor import QwenDoubleStreamAttnProcessorFA3

	from huggingface_hub import InferenceClient
	import math
	from huggingface_hub import hf_hub_download
	from safetensors.torch import load_file

	import os
	import base64
	from io import BytesIO
	import json
	import time

	SYSTEM_PROMPT = '''
	# Edit Instruction Rewriter
	You are a professional edit instruction rewriter. Your task is to generate a precise, concise, and visually achievable professional-level edit instruction based on the user-provided instruction and the image to be edited.
	Please strictly follow the rewriting rules below:
	## 1. General Principles
	- Keep the rewritten prompt concise and comprehensive. Avoid overly long sentences and unnecessary descriptive language.
	- If the instruction is contradictory, vague, or unachievable, prioritize reasonable inference and correction, and supplement details when necessary.
	- Keep the main part of the original instruction unchanged, only enhancing its clarity, rationality, and visual feasibility.
	- All added objects or modifications must align with the logic and style of the scene in the input images.
	- If multiple sub-images are to be generated, describe the content of each sub-image individually.
	## 2. Task-Type Handling Rules
	### 1. Add, Delete, Replace Tasks
	- If the instruction is clear (already includes task type, target entity, position, quantity, attributes), preserve the original intent and only refine the grammar.
	- If the description is vague, supplement with minimal but sufficient details (category, color, size, orientation, position, etc.). For example:
	> Original: "Add an animal"
	> Rewritten: "Add a light-gray cat in the bottom-right corner, sitting and facing the camera"
	- Remove meaningless instructions: e.g., "Add 0 objects" should be ignored or flagged as invalid.
	- For replacement tasks, specify "Replace Y with X" and briefly describe the key visual features of X.
	### 2. Text Editing Tasks
	- All text content must be enclosed in English double quotes `" "`. Keep the original language of the text, and keep the capitalization.
	- Both adding new text and replacing existing text are text replacement tasks, For example:
	- Replace "xx" to "yy"
	- Replace the mask / bounding box to "yy"
	- Replace the visual object to "yy"
	- Specify text position, color, and layout only if user has required.
	- If font is specified, keep the original language of the font.
	### 3. Human Editing Tasks
	- Make the smallest changes to the given user's prompt.
	- If changes to background, action, expression, camera shot, or ambient lighting are required, please list each modification individually.
	- Edits to makeup or facial features / expression must be subtle, not exaggerated, and must preserve the subject's identity consistency.
	> Original: "Add eyebrows to the face"
	> Rewritten: "Slightly thicken the person's eyebrows with little change, look natural."
	### 4. Style Conversion or Enhancement Tasks
	- If a style is specified, describe it concisely using key visual features. For example:
	> Original: "Disco style"
	> Rewritten: "1970s disco style: flashing lights, disco ball, mirrored walls, vibrant colors"
	- For style reference, analyze the original image and extract key characteristics (color, composition, texture, lighting, artistic style, etc.), integrating them into the instruction.
	- Colorization tasks (including old photo restoration) must use the fixed template:
	"Restore and colorize the old photo."
	- Clearly specify the object to be modified. For example:
	> Original: Modify the subject in Picture 1 to match the style of Picture 2.
	> Rewritten: Change the girl in Picture 1 to the ink-wash style of Picture 2 — rendered in black-and-white watercolor with soft color transitions.
	### 5. Material Replacement
	- Clearly specify the object and the material. For example: "Change the material of the apple to papercut style."
	- For text material replacement, use the fixed template:
	"Change the material of text "xxxx" to laser style"
	### 6. Logo/Pattern Editing
	- Material replacement should preserve the original shape and structure as much as possible. For example:
	> Original: "Convert to sapphire material"
	> Rewritten: "Convert the main subject in the image to sapphire material, preserving similar shape and structure"
	- When migrating logos/patterns to new scenes, ensure shape and structure consistency. For example:
	> Original: "Migrate the logo in the image to a new scene"
	> Rewritten: "Migrate the logo in the image to a new scene, preserving similar shape and structure"
	### 7. Multi-Image Tasks
	- Rewritten prompts must clearly point out which image's element is being modified. For example:
	> Original: "Replace the subject of picture 1 with the subject of picture 2"
	> Rewritten: "Replace the girl of picture 1 with the boy of picture 2, keeping picture 2's background unchanged"
	- For stylization tasks, describe the reference image's style in the rewritten prompt, while preserving the visual content of the source image.
	## 3. Rationale and Logic Check
	- Resolve contradictory instructions: e.g., "Remove all trees but keep all trees" requires logical correction.
	- Supplement missing critical information: e.g., if position is unspecified, choose a reasonable area based on composition (near subject, blank space, center/edge, etc.).
	# Output Format Example
	```json
	{
	"Rewritten": "..."
	}
	'''


	NEXT_SCENE_SYSTEM_PROMPT = '''
	# Next Scene Prompt Generator
	You are a cinematic AI director assistant. Your task is to analyze the provided image and generate a compelling "Next Scene" prompt that describes the natural cinematic progression from the current frame.

	## Core Principles:
	- Think like a film director: Consider camera dynamics, visual composition, and narrative continuity
	- Create prompts that flow seamlessly from the current frame
	- Focus on visual progression rather than static modifications
	- Maintain compositional coherence while introducing organic transitions

	## Prompt Structure:
	Always begin with "Next Scene: " followed by your cinematic description.

	## Key Elements to Include:
	1. Camera Movement: Specify one of these or combinations:
	- Dolly shots (camera moves toward/away from subject)
	- Push-ins or pull-backs
	- Tracking moves (camera follows subject)
	- Pan left/right
	- Tilt up/down
	- Zoom in/out

	2. Framing Evolution: Describe how the shot composition changes:
	- Wide to close-up transitions
	- Angle shifts (high angle to eye level, etc.)
	- Reframing of subjects
	- Revealing new elements in frame

	3. Environmental Reveals (if applicable):
	- New characters entering frame
	- Expanded scenery
	- Spatial progression
	- Background elements becoming visible

	4. Atmospheric Shifts (if enhancing the scene):
	- Lighting changes (golden hour, shadows, lens flare)
	- Weather evolution
	- Time-of-day transitions
	- Depth and mood indicators

	## Guidelines:
	- Keep descriptions concise but vivid (2-3 sentences max)
	- Always specify the camera action first
	- Focus on what changes between this frame and the next
	- Maintain the scene's existing style and mood unless intentionally transitioning
	- Prefer natural, organic progressions over abrupt changes

	## Example Outputs:
	- "Next Scene: The camera pulls back from a tight close-up on the airship to a sweeping aerial view, revealing an entire fleet of vessels soaring through a fantasy landscape."
	- "Next Scene: The camera tracks forward and tilts down, bringing the sun and helicopters closer into frame as a strong lens flare intensifies."
	- "Next Scene: The camera pans right, removing the dragon and rider from view while revealing more of the floating mountain range in the distance."
	- "Next Scene: The camera moves slightly forward as sunlight breaks through the clouds, casting a soft glow around the character's silhouette in the mist. Realistic cinematic style, atmospheric depth."

	## Output Format:
	Return ONLY the next scene prompt as plain text, starting with "Next Scene: "
	Do NOT include JSON formatting or additional explanations.
	'''

	# --- Prompt Enhancement using Hugging Face InferenceClient ---
	def polish_prompt_hf(prompt, img_list):
	"""
	Rewrites the prompt using a Hugging Face InferenceClient.
	"""
	# Ensure HF_TOKEN is set
	api_key = os.environ.get("HF_TOKEN")
	if not api_key:
	print("Warning: HF_TOKEN not set. Falling back to original prompt.")
	return prompt

	try:
	# Initialize the client
	prompt = f"{SYSTEM_PROMPT}\n\nUser Input: {prompt}\n\nRewritten Prompt:"
	client = InferenceClient(
	provider="cerebras",
	api_key=api_key,
	)

	# Format the messages for the chat completions API
	sys_promot = "you are a helpful assistant, you should provide useful answers to users."
	messages = [
	{"role": "system", "content": sys_promot},
	{"role": "user", "content": []}]
	for img in img_list:
	messages[1]["content"].append(
	{"image": f"data:image/png;base64,{encode_image(img)}"})
	messages[1]["content"].append({"text": f"{prompt}"})

	# Call the API
	completion = client.chat.completions.create(
	model="Qwen/Qwen3-235B-A22B-Instruct-2507",
	messages=messages,
	)

	# Parse the response
	result = completion.choices[0].message.content

	# Try to extract JSON if present
	if '{"Rewritten"' in result or '"Rewritten"' in result:
	try:
	result = result.replace('```json', '').replace('```', '').strip()
	if result.startswith('{') and result.endswith('}'):
	result_json = json.loads(result)
	polished_prompt = result_json.get('Rewritten', result)
	else:
	polished_prompt = result
	except Exception as e:
	print(f"JSON parsing failed: {e}")
	polished_prompt = result
	else:
	polished_prompt = result

	polished_prompt = polished_prompt.strip().replace("\n", " ")
	print(f"Polished prompt from HF: {polished_prompt}")
	return polished_prompt

	except Exception as e:
	print(f"Error during API call to Hugging Face: {e}")
	return prompt

	def encode_image(img):
	"""Encode PIL Image to base64 string."""
	buffer = BytesIO()
	img.save(buffer, format="PNG")
	return base64.b64encode(buffer.getvalue()).decode()

	def suggest_next_scene_prompt_hf(img_list):
	"""
	Generate a cinematic "Next Scene" prompt using Hugging Face InferenceClient.
	"""
	api_key = os.environ.get("HF_TOKEN")
	if not api_key or not img_list:
	return ""

	try:
	client = InferenceClient(
	provider="cerebras",
	api_key=api_key,
	)

	messages = [
	{"role": "system", "content": NEXT_SCENE_SYSTEM_PROMPT},
	{"role": "user", "content": []}
	]

	for img in img_list:
	messages[1]["content"].append(
	{"image": f"data:image/png;base64,{encode_image(img)}"})
	messages[1]["content"].append({"text": "Generate a natural next scene prompt for this image."})

	completion = client.chat.completions.create(
	model="Qwen/Qwen3-235B-A22B-Instruct-2507",
	messages=messages,
	)

	result = completion.choices[0].message.content.strip()
	print(f"Generated Next Scene prompt: {result}")
	return result

	except Exception as e:
	print(f"Error generating next scene prompt: {e}")
	return ""

	def suggest_next_scene_prompt(images):
	"""
	Wrapper function to generate next scene prompt from image gallery.
	"""
	if not images:
	return ""

	pil_images = []
	for item in images:
	try:
	if isinstance(item[0], Image.Image):
	pil_images.append(item[0].convert("RGB"))
	elif isinstance(item[0], str):
	pil_images.append(Image.open(item[0]).convert("RGB"))
	elif hasattr(item, "name"):
	pil_images.append(Image.open(item.name).convert("RGB"))
	except Exception as e:
	print(f"Error processing image: {e}")
	continue

	if not pil_images:
	return ""

	return suggest_next_scene_prompt_hf(pil_images)

	# --- Model Loading ---
	dtype = torch.bfloat16
	device = "cuda" if torch.cuda.is_available() else "cpu"

	pipe = QwenImageEditPlusPipeline.from_pretrained("Phr00t/Qwen-Image-Edit-Rapid-AIO", torch_dtype=dtype).to(device)
	pipe.transformer.__class__ = QwenImageTransformer2DModel
	pipe.transformer.set_attn_processor(QwenDoubleStreamAttnProcessorFA3())

	# --- Ahead-of-time compilation ---
	optimize_pipeline_(pipe, image=Image.new("RGB", (1024, 1024)), prompt="prompt")

	# --- Constants ---
	MAX_SEED = np.iinfo(np.int32).max

	# --- Helper Functions ---
	def use_output_as_input(output_images):
	"""Convert the first image from the result gallery to input format."""
	if output_images and len(output_images) > 0:
	# output_images is a list of images
	first_image = output_images[0]
	# Return in the format expected by the Gallery: list of tuples
	return [first_image]
	return None

	def update_history(new_images, history):
	"""Updates the history gallery with new images."""
	time.sleep(0.5) # Small delay to ensure images are ready
	if history is None:
	history = []
	if new_images is not None and len(new_images) > 0:
	# Convert to list if needed
	if not isinstance(history, list):
	history = list(history) if history else []
	# Add all new images to the beginning of history
	for img in new_images:
	history.insert(0, img)
	# Keep only the last 20 images in history
	history = history[:20]
	return history

	def use_history_as_input(evt: gr.SelectData):
	"""Sets the selected history image as the new input image."""
	# evt.value contains the selected image
	if evt.value is not None:
	return [evt.value]
	return None

	# --- Inference Function ---
	@spaces.GPU
	def infer(
	images,
	prompt,
	seed=42,
	randomize_seed=False,
	true_guidance_scale=1.0,
	num_inference_steps=8,
	height=None,
	width=None,
	rewrite_prompt=False,
	num_images_per_prompt=1
	):
	negative_prompt = " "

	if randomize_seed:
	seed = random.randint(0, MAX_SEED)

	# Set up the generator for reproducibility
	generator = torch.Generator(device=device).manual_seed(seed)

	# Load input images into PIL Images
	pil_images = []
	if images is not None:
	for item in images:
	try:
	if isinstance(item[0], Image.Image):
	pil_images.append(item[0].convert("RGB"))
	elif isinstance(item[0], str):
	pil_images.append(Image.open(item[0]).convert("RGB"))
	elif hasattr(item, "name"):
	pil_images.append(Image.open(item.name).convert("RGB"))
	except Exception:
	continue

	if height==256 and width==256:
	height, width = None, None
	print(f"Calling pipeline with prompt: '{prompt}'")
	print(f"Negative Prompt: '{negative_prompt}'")
	print(f"Seed: {seed}, Steps: {num_inference_steps}, Guidance: {true_guidance_scale}, Size: {width}x{height}")
	if rewrite_prompt and len(pil_images) > 0:
	prompt = polish_prompt_hf(prompt, pil_images)
	print(f"Rewritten Prompt: {prompt}")


	# Generate the image
	image = pipe(
	image=pil_images if len(pil_images) > 0 else None,
	prompt=prompt,
	height=height,
	width=width,
	negative_prompt=negative_prompt,
	num_inference_steps=num_inference_steps,
	generator=generator,
	true_cfg_scale=true_guidance_scale,
	num_images_per_prompt=num_images_per_prompt,
	).images

	# Return images, seed, and make button visible
	return image, seed, gr.update(visible=True)

	# --- Examples and UI Layout ---
	examples = []

	css = """
	#col-container {
	margin: 0 auto;
	max-width: 1024px;
	}
	#logo-title {
	text-align: center;
	}
	#logo-title img {
	width: 400px;
	}
	#edit_text{margin-top: -62px !important}
	"""

	with gr.Blocks(css=css) as demo:
	with gr.Column(elem_id="col-container"):
	gr.HTML("""
	<div id="logo-title">
	<img src="https://qianwen-res.oss-cn-beijing.aliyuncs.com/Qwen-Image/qwen_image_edit_logo.png" alt="Qwen-Image Edit Logo" width="400" style="display: block; margin: 0 auto;">
	<h2 style="font-style: italic;color: #5b47d1;margin-top: -27px !important;margin-left: 96px">[Plus] Fast, 4-steps with Qwen Rapid AIO</h2>
	</div>
	""")
	gr.Markdown("""
	[Learn more](https://github.com/QwenLM/Qwen-Image) about the Qwen-Image series.
	This demo uses the new [Qwen-Image-Edit-2509](https://huggingface.co/Qwen/Qwen-Image-Edit-2509) with [Phr00t/Qwen-Image-Edit-Rapid-AIO](https://huggingface.co/Phr00t/Qwen-Image-Edit-Rapid-AIO/tree/main) + [AoT compilation & FA3](https://huggingface.co/blog/zerogpu-aoti) for accelerated inference.
	Try on [Qwen Chat](https://chat.qwen.ai/), or [download model](https://huggingface.co/Qwen/Qwen-Image-Edit-2509) to run locally with ComfyUI or diffusers.
	""")
	with gr.Row():
	with gr.Column():
	input_images = gr.Gallery(label="Input Images",
	show_label=False,
	type="pil",
	interactive=True)

	with gr.Column():
	result = gr.Gallery(label="Result", show_label=False, type="pil")
	# Add this button right after the result gallery - initially hidden
	use_output_btn = gr.Button("↗️ Use as input", variant="secondary", size="sm", visible=False)

	# Add history section
	gr.Markdown("---")
	with gr.Row():
	gr.Markdown("### 📜 History")
	clear_history_button = gr.Button("🗑️ Clear History", size="sm", variant="stop")

	history_gallery = gr.Gallery(
	label="Click any image to use as input",
	columns=4,
	rows=2,
	object_fit="contain",
	height="auto",
	interactive=False,
	show_label=True
	)

	with gr.Row():
	prompt = gr.Text(
	label="Prompt",
	show_label=False,
	placeholder="describe the edit instruction",
	container=False,
	)
	run_button = gr.Button("Edit!", variant="primary")

	with gr.Accordion("Advanced Settings", open=False):
	# Negative prompt UI element is removed here

	seed = gr.Slider(
	label="Seed",
	minimum=0,
	maximum=MAX_SEED,
	step=1,
	value=0,
	)

	randomize_seed = gr.Checkbox(label="Randomize seed", value=True)

	with gr.Row():

	true_guidance_scale = gr.Slider(
	label="True guidance scale",
	minimum=1.0,
	maximum=10.0,
	step=0.1,
	value=1.0
	)

	num_inference_steps = gr.Slider(
	label="Number of inference steps",
	minimum=1,
	maximum=40,
	step=1,
	value=4,
	)

	height = gr.Slider(
	label="Height",
	minimum=256,
	maximum=2048,
	step=8,
	value=None,
	)

	width = gr.Slider(
	label="Width",
	minimum=256,
	maximum=2048,
	step=8,
	value=None,
	)


	rewrite_prompt = gr.Checkbox(label="Rewrite prompt", value=False)

	# gr.Examples(examples=examples, inputs=[prompt], outputs=[result, seed], fn=infer, cache_examples=False)

	# Main generation events
	gr.on(
	triggers=[run_button.click, prompt.submit],
	fn=infer,
	inputs=[
	input_images,
	prompt,
	seed,
	randomize_seed,
	true_guidance_scale,
	num_inference_steps,
	height,
	width,
	rewrite_prompt,
	],
	outputs=[result, seed, use_output_btn],
	).then(
	fn=update_history,
	inputs=[result, history_gallery],
	outputs=history_gallery,
	show_api=False
	)

	# Add the event handler for the "Use Output as Input" button
	use_output_btn.click(
	fn=use_output_as_input,
	inputs=[result],
	outputs=[input_images]
	)

	# History gallery select handler
	history_gallery.select(
	fn=use_history_as_input,
	outputs=[input_images],
	show_api=False
	)

	# Clear history button
	clear_history_button.click(
	fn=lambda: [],
	inputs=None,
	outputs=history_gallery,
	show_api=False
	)

	input_images.change(fn=suggest_next_scene_prompt, inputs=[input_images], outputs=[prompt])

	if __name__ == "__main__":
	demo.launch()