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	# app.py - TextDiffuser-2 implementation for Hugging Face Spaces
	import os
	import torch
	import gradio as gr
	import numpy as np
	import json
	from PIL import Image, ImageDraw, ImageFont
	from transformers import AutoTokenizer, AutoModelForCausalLM
	from diffusers import StableDiffusionPipeline

	# Check for GPU
	device = torch.device("cuda" if torch.cuda.is_available() else "cpu")
	print(f"Using device: {device}")

	class SimpleTextDiffuser:
	"""
	Simple implementation of TextDiffuser-2 concept for Hugging Face Spaces
	"""
	def __init__(self):
	# Load language model for layout generation
	# Using a small model for efficiency
	self.tokenizer = AutoTokenizer.from_pretrained("distilgpt2")
	self.language_model = AutoModelForCausalLM.from_pretrained("distilgpt2")
	self.language_model.to(device)

	# Only load the diffusion model if we have a GPU
	self.diffusion_model = None
	if torch.cuda.is_available():
	self.diffusion_model = StableDiffusionPipeline.from_pretrained(
	"runwayml/stable-diffusion-v1-5",
	torch_dtype=torch.float16
	)
	self.diffusion_model.to(device)

	print("Models initialized")

	def generate_layout(self, prompt, image_size=(512, 512), num_text_elements=3):
	"""Generate text layout based on prompt"""
	width, height = image_size

	# Format the prompt for layout generation
	layout_prompt = f"""
	Create a layout for an image with:
	- Description: {prompt}
	- Image size: {width}x{height}
	- Number of text elements: {num_text_elements}

	Generate text content and positions:
	"""

	# Generate layout using LM
	input_ids = self.tokenizer.encode(layout_prompt, return_tensors="pt").to(device)
	with torch.no_grad():
	output = self.language_model.generate(
	input_ids,
	max_length=input_ids.shape[1] + 150,
	temperature=0.7,
	num_return_sequences=1,
	pad_token_id=self.tokenizer.eos_token_id
	)

	layout_text = self.tokenizer.decode(output[0], skip_special_tokens=True)

	# Parse the generated layout (simplified)
	# In a real implementation, this would be more sophisticated
	text_elements = []

	# Simple fallback: generate random layout
	import random

	# Create a title element
	title = prompt.split()[:5]
	title = " ".join(title) + "..."
	title_x = width // 4
	title_y = height // 4
	text_elements.append({
	"text": title,
	"position": (title_x, title_y),
	"size": 24,
	"color": (0, 0, 0),
	"type": "title"
	})

	# Create additional text elements
	sample_texts = [
	"Premium Quality",
	"Best Value",
	"Limited Edition",
	"New Collection",
	"Special Offer",
	"Coming Soon",
	"Best Seller",
	"Top Choice",
	"Featured Product",
	"Exclusive Deal"
	]

	for i in range(1, num_text_elements):
	x = random.randint(width // 8, width * 3 // 4)
	y = random.randint(height // 3, height * 3 // 4)
	text = sample_texts[i % len(sample_texts)]
	color = (
	random.randint(0, 200),
	random.randint(0, 200),
	random.randint(0, 200)
	)

	text_elements.append({
	"text": text,
	"position": (x, y),
	"size": 18,
	"color": color,
	"type": f"element_{i}"
	})

	return text_elements, layout_text

	def generate_image(self, prompt, image_size=(512, 512)):
	"""Generate base image using diffusion model or placeholder"""
	width, height = image_size

	if self.diffusion_model and torch.cuda.is_available():
	# Generate image using diffusion model
	image = self.diffusion_model(
	prompt=prompt,
	height=height,
	width=width,
	num_inference_steps=30
	).images[0]
	else:
	# Create a placeholder gradient image
	image = Image.new("RGB", image_size, (240, 240, 240))

	# Add a colored gradient background
	for y in range(height):
	for x in range(width):
	r = int(240 - 100 * (y / height))
	g = int(240 - 50 * (x / width))
	b = int(240 - 75 * ((x + y) / (width + height)))
	image.putpixel((x, y), (r, g, b))

	return image

	def render_text(self, image, text_elements):
	"""Render text elements onto the image"""
	image_with_text = image.copy()
	draw = ImageDraw.Draw(image_with_text)

	for element in text_elements:
	try:
	font_size = element["size"]

	# Try to load a font, fall back to default if not available
	try:
	font = ImageFont.truetype("DejaVuSans.ttf", font_size)
	except IOError:
	try:
	font = ImageFont.truetype("Arial.ttf", font_size)
	except IOError:
	font = ImageFont.load_default()

	# Draw text with background for better visibility
	text = element["text"]
	position = element["position"]
	color = element["color"]

	# Get text size to create background
	bbox = draw.textbbox(position, text, font=font)
	text_width = bbox[2] - bbox[0]
	text_height = bbox[3] - bbox[1]

	# Draw semi-transparent background
	padding = 5
	background_box = [
	position[0] - padding,
	position[1] - padding,
	position[0] + text_width + padding,
	position[1] + text_height + padding
	]
	draw.rectangle(background_box, fill=(255, 255, 255, 200))

	# Draw text
	draw.text(position, text, fill=color, font=font)

	except Exception as e:
	print(f"Error rendering text: {e}")
	continue

	return image_with_text

	def visualize_layout(self, text_elements, image_size=(512, 512)):
	"""Create a visualization of the text layout"""
	width, height = image_size
	image = Image.new("RGB", image_size, (255, 255, 255))
	draw = ImageDraw.Draw(image)

	# Draw grid
	for x in range(0, width, 50):
	draw.line([(x, 0), (x, height)], fill=(230, 230, 230))
	for y in range(0, height, 50):
	draw.line([(0, y), (width, y)], fill=(230, 230, 230))

	# Draw text elements
	for element in text_elements:
	position = element["position"]
	text = element["text"]
	element_type = element.get("type", "unknown")

	# Draw position marker
	circle_radius = 5
	circle_bbox = [
	position[0] - circle_radius,
	position[1] - circle_radius,
	position[0] + circle_radius,
	position[1] + circle_radius
	]
	draw.ellipse(circle_bbox, fill=(255, 0, 0))

	# Draw text label
	try:
	font = ImageFont.truetype("DejaVuSans.ttf", 12)
	except IOError:
	font = ImageFont.load_default()

	# Draw text preview and position info
	info_text = f"{text} ({element_type})"
	pos_text = f"Position: ({position[0]}, {position[1]})"
	draw.text((position[0] + 10, position[1]), info_text, fill=(0, 0, 0), font=font)
	draw.text((position[0] + 10, position[1] + 15), pos_text, fill=(0, 0, 255), font=font)

	return image

	def generate_text_image(self, prompt, width=512, height=512, num_text_elements=3):
	"""Generate an image with rendered text based on prompt"""
	# Validate inputs
	width = max(256, min(1024, width))
	height = max(256, min(1024, height))
	num_text_elements = max(1, min(5, num_text_elements))

	image_size = (width, height)

	# Step 1: Generate text layout
	text_elements, layout_text = self.generate_layout(prompt, image_size, num_text_elements)

	# Step 2: Generate base image
	base_image = self.generate_image(prompt, image_size)

	# Step 3: Render text onto the image
	image_with_text = self.render_text(base_image, text_elements)

	# Step 4: Create layout visualization
	layout_visualization = self.visualize_layout(text_elements, image_size)

	# Step 5: Format layout information for display
	layout_info = {
	"prompt": prompt,
	"image_size": image_size,
	"num_text_elements": num_text_elements,
	"text_elements": text_elements,
	"layout_generation_prompt": layout_text
	}

	formatted_layout = json.dumps(layout_info, indent=2)

	return image_with_text, layout_visualization, formatted_layout

	# Initialize the model
	model = SimpleTextDiffuser()

	# Define the Gradio interface
	def process_request(prompt, width, height, num_text_elements):
	try:
	width = int(width)
	height = int(height)
	num_text_elements = int(num_text_elements)

	image, layout, layout_info = model.generate_text_image(
	prompt,
	width=width,
	height=height,
	num_text_elements=num_text_elements
	)

	return image, layout, layout_info
	except Exception as e:
	error_message = f"Error: {str(e)}"
	print(error_message)
	return None, None, error_message

	# Create the Gradio app
	with gr.Blocks(title="TextDiffuser-2 Demo") as demo:
	gr.Markdown("""
	# TextDiffuser-2 Demo

	This demo implements the concepts from the paper "[TextDiffuser-2: Unleashing the Power of Language Models for Text Rendering](https://arxiv.org/abs/2311.16465)" by Jingye Chen et al.

	Generate images with text by providing a descriptive prompt below.
	""")

	with gr.Row():
	with gr.Column(scale=1):
	prompt_input = gr.Textbox(
	label="Prompt",
	value="A modern business poster with company name and tagline",
	lines=3
	)

	with gr.Row():
	width_input = gr.Number(label="Width", value=512, minimum=256, maximum=1024, step=64)
	height_input = gr.Number(label="Height", value=512, minimum=256, maximum=1024, step=64)

	num_elements_input = gr.Slider(
	label="Number of Text Elements",
	minimum=1,
	maximum=5,
	value=3,
	step=1
	)

	submit_button = gr.Button("Generate Image", variant="primary")

	with gr.Column(scale=2):
	with gr.Tabs():
	with gr.TabItem("Generated Image"):
	image_output = gr.Image(label="Image with Text")

	with gr.TabItem("Layout Visualization"):
	layout_output = gr.Image(label="Text Layout")

	with gr.TabItem("Layout Information"):
	layout_info_output = gr.Code(language="json", label="Layout Data")

	gr.Markdown("""
	## Example Prompts

	Try these prompts or create your own:
	""")

	examples = gr.Examples(
	examples=[
	["A movie poster for a sci-fi thriller", 512, 768, 3],
	["A motivational quote on a sunset background", 768, 512, 2],
	["A coffee shop menu with prices", 512, 512, 4],
	["A modern business card design", 512, 384, 3],
	],
	inputs=[prompt_input, width_input, height_input, num_elements_input]
	)

	submit_button.click(
	fn=process_request,
	inputs=[prompt_input, width_input, height_input, num_elements_input],
	outputs=[image_output, layout_output, layout_info_output]
	)

	gr.Markdown("""
	## About

	This is a simplified implementation for demonstration purposes. The full approach described in the paper involves deeper integration of language models with the diffusion process.

	Running on: """ + str(device))

	# Launch the app
	if __name__ == "__main__":
	demo.launch()