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SuSyGame / app.py

dariog

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	import gradio as gr
	import numpy as np
	import torch
	import random
	from PIL import Image
	from skimage.feature import graycomatrix, graycoprops
	from torchvision import transforms
	import os

	NUM_ROUNDS = 5 # Adjust the number of game rounds here
	PROB_THRESHOLD = 0.5 # Adjust the probability threshold for model prediction here

	# Load the model
	model = torch.jit.load("SuSy.pt")

	def process_image(image):
	# Set Parameters
	top_k_patches = 5
	patch_size = 224

	# Get the image dimensions
	width, height = image.size

	# Calculate the number of patches
	num_patches_x = width // patch_size
	num_patches_y = height // patch_size

	# Divide the image in patches
	patches = np.zeros((num_patches_x * num_patches_y, patch_size, patch_size, 3), dtype=np.uint8)
	for i in range(num_patches_x):
	for j in range(num_patches_y):
	x = i * patch_size
	y = j * patch_size
	patch = image.crop((x, y, x + patch_size, y + patch_size))
	patches[i * num_patches_y + j] = np.array(patch)

	# Compute the most relevant patches (optional)
	dissimilarity_scores = []
	for patch in patches:
	transform_patch = transforms.Compose([transforms.PILToTensor(), transforms.Grayscale()])
	grayscale_patch = transform_patch(Image.fromarray(patch)).squeeze(0)
	glcm = graycomatrix(grayscale_patch, [5], [0], 256, symmetric=True, normed=True)
	dissimilarity_scores.append(graycoprops(glcm, "contrast")[0, 0])

	# Sort patch indices by their dissimilarity score
	sorted_indices = np.argsort(dissimilarity_scores)[::-1]

	# Extract top k patches and convert them to tensor
	top_patches = patches[sorted_indices[:top_k_patches]]
	top_patches = torch.from_numpy(np.transpose(top_patches, (0, 3, 1, 2))) / 255.0

	# Predict patches
	model.eval()
	with torch.no_grad():
	preds = model(top_patches)

	# Process results
	classes = ['Authentic', 'DALL·E 3', 'Stable Diffusion 1.x', 'MJ V5/V6', 'MJ V1/V2', 'Stable Diffusion XL']
	mean_probs = preds.mean(dim=0).numpy()

	# Create a dictionary of class probabilities
	class_probs = {cls: prob for cls, prob in zip(classes, mean_probs)}

	# Sort probabilities in descending order
	sorted_probs = dict(sorted(class_probs.items(), key=lambda item: item[1], reverse=True))

	return sorted_probs


	class GameState:
	def __init__(self):
	self.user_score = 0
	self.model_score = 0
	self.current_round = 0
	self.total_rounds = 2
	self.game_images = []
	self.is_game_active = False
	self.last_results = None
	self.waiting_for_input = True

	def reset(self):
	self.__init__()

	game_state = GameState()

	def load_images():
	real_image_folder = "real_images"
	fake_image_folder = "fake_images"
	real_images = [os.path.join(real_image_folder, img) for img in os.listdir(real_image_folder)]
	fake_images = [os.path.join(fake_image_folder, img) for img in os.listdir(fake_image_folder)]
	selected_images = random.sample(real_images, 1) + random.sample(fake_images, 1)
	random.shuffle(selected_images)
	return selected_images

	def create_score_html():
	results_html = ""
	if game_state.last_results:
	results_html = f"""
	<div style='margin-top: 1rem; padding: 1rem; background-color: #e0e0e0; border-radius: 8px; color: #333;'>
	<h4 style='color: #333; margin-bottom: 0.5rem;'>Last Round Results:</h4>
	<p style='color: #333;'>Your guess: {game_state.last_results['user_guess']}</p>
	<p style='color: #333;'>Model's guess: {game_state.last_results['model_guess']}</p>
	<p style='color: #333;'>Correct answer: {game_state.last_results['correct_answer']}</p>
	</div>
	"""

	current_display_round = min(game_state.current_round + 1, game_state.total_rounds)

	return f"""
	<div style='padding: 1rem; background-color: #f0f0f0; border-radius: 8px; color: #333;'>
	<h3 style='margin-bottom: 1rem; color: #333;'>Score Board</h3>
	<div style='display: flex; justify-content: space-around;'>
	<div>
	<h4 style='color: #333;'>You</h4>
	<p style='font-size: 1.5rem; color: #333;'>{game_state.user_score}</p>
	</div>
	<div>
	<h4 style='color: #333;'>AI Model</h4>
	<p style='font-size: 1.5rem; color: #333;'>{game_state.model_score}</p>
	</div>
	</div>
	<div style='margin-top: 1rem;'>
	<p style='color: #333;'>Round: {current_display_round}/{game_state.total_rounds}</p>
	</div>
	{results_html}
	</div>
	"""

	def start_game():
	game_state.reset()
	game_state.game_images = load_images()
	game_state.is_game_active = True
	game_state.waiting_for_input = True
	current_image = Image.open(game_state.game_images[0])

	return (
	gr.update(value=current_image, visible=True), # Show image
	gr.update(visible=False), # Hide start button
	gr.update(interactive=True, visible=True, value=None), # Show radio buttons
	gr.update(visible=True, interactive=True), # Show submit button
	create_score_html(),
	gr.update(visible=False) # Hide feedback
	)

	def submit_guess(user_guess):
	if not game_state.is_game_active or not game_state.waiting_for_input or user_guess is None:
	return [gr.update()] * 6 # Return no updates if invalid state

	current_image = Image.open(game_state.game_images[game_state.current_round])
	model_prediction = process_image(current_image)
	correct_answer = "Real" if "real_images" in game_state.game_images[game_state.current_round] else "Fake"

	# Determine model's guess based on probabilities
	model_guess = "Real" if model_prediction['Authentic'] > 0.5 else "Fake"

	# Update scores
	if user_guess == correct_answer:
	game_state.user_score += 1
	if model_guess == correct_answer:
	game_state.model_score += 1

	# Store last results for display
	game_state.last_results = {
	'user_guess': user_guess,
	'model_guess': model_guess,
	'correct_answer': correct_answer
	}

	game_state.current_round += 1
	game_state.waiting_for_input = True

	# Check if game is over
	if game_state.current_round >= game_state.total_rounds:
	game_state.is_game_active = False
	return (
	gr.update(value=None, visible=False), # Hide image
	gr.update(visible=True), # Show start button
	gr.update(interactive=False, visible=False, value=None), # Hide radio
	gr.update(visible=False), # Hide submit button
	create_score_html(),
	gr.update(visible=True, value="<div style='text-align: center; margin-top: 20px; font-size: 1.2em;'>Game Over! Click 'Start New Game' to play again.</div>")
	)

	# Continue to next round
	next_image = Image.open(game_state.game_images[game_state.current_round])
	return (
	gr.update(value=next_image, visible=True), # Show next image
	gr.update(visible=False), # Keep start button hidden
	gr.update(interactive=True, visible=True, value=None), # Reset radio
	gr.update(visible=True, interactive=True), # Show submit button
	create_score_html(),
	gr.update(visible=False) # Keep feedback hidden
	)

	# Custom CSS
	custom_css = """
	#game-container {
	max-width: 1200px;
	margin: 0 auto;
	padding: 20px;
	}
	#start-button {
	max-width: 200px;
	margin: 0 auto;
	}
	"""

	# Define Gradio interface
	with gr.Blocks(css=custom_css) as iface:
	with gr.Column(elem_id="game-container"):
	gr.Markdown("# Real or Fake Image Challenge")
	gr.Markdown("Can you beat the AI at detecting synthetic images?")

	with gr.Row():
	with gr.Column(scale=2):
	image_display = gr.Image(
	type="pil",
	label="Current Image",
	interactive=False,
	visible=False
	)
	guess_input = gr.Radio(
	choices=["Real", "Fake"],
	label="Your Guess",
	interactive=False,
	visible=False
	)
	submit_button = gr.Button(
	"Submit Guess",
	visible=False,
	variant="primary"
	)

	with gr.Column(scale=1):
	score_display = gr.HTML()

	with gr.Row():
	with gr.Column(elem_id="start-button"):
	start_button = gr.Button("Start New Game", variant="primary", size="sm")

	feedback_display = gr.Markdown(visible=False)

	# Event handlers
	start_button.click(
	fn=start_game,
	outputs=[
	image_display,
	start_button,
	guess_input,
	submit_button,
	score_display,
	feedback_display
	]
	)

	submit_button.click(
	fn=submit_guess,
	inputs=[guess_input],
	outputs=[
	image_display,
	start_button,
	guess_input,
	submit_button,
	score_display,
	feedback_display
	]
	)

	# Launch the interface
	iface.launch()