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Synthetic-data-gen / app.py

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	import gradio as gr
	import numpy as np
	import random
	import spaces
	import sourcecode
	import torch
	import torchvision.transforms as transforms
	from PIL import Image
	from torchmetrics.functional.image import structural_similarity_index_measure as ssim
	from transformers import CLIPModel, CLIPProcessor

	device = "cuda" if torch.cuda.is_available() else "cpu"
	model_path = "czl/stable-diffusion-v1-5"
	clip_model = CLIPModel.from_pretrained("openai/clip-vit-large-patch14").to(device)
	clip_processor = CLIPProcessor.from_pretrained("openai/clip-vit-large-patch14")

	if torch.cuda.is_available():
	torch.cuda.max_memory_allocated(device=device)
	pipe = sourcecode.pipe_img(
	model_path=model_path,
	device=device,
	use_torchcompile=False,
	)
	else:
	pipe = sourcecode.pipe_img(
	model_path=model_path,
	device=device,
	apply_optimization=False,
	)

	MAX_SEED = np.iinfo(np.int32).max
	MAX_IMAGE_SIZE = 1024

	@spaces.GPU
	def infer(
	input_image,
	prompt1,
	prompt2,
	negative_prompt,
	seed,
	randomize_seed,
	width,
	height,
	guidance_scale,
	interpolation_step,
	num_inference_steps,
	num_interpolation_steps,
	):
	device = "cuda" if torch.cuda.is_available() else "cpu"
	try:
	assert num_interpolation_steps % 2 == 0
	except AssertionError:
	raise ValueError("num_interpolation_steps must be an even number")

	if randomize_seed:
	seed = random.randint(0, MAX_SEED)
	prompts = [prompt1, prompt2]
	generator = torch.Generator().manual_seed(seed)

	sample_mid_interpolation = num_interpolation_steps
	remove_n_middle = 0

	interpolated_prompt_embeds, prompt_metadata = sourcecode.interpolatePrompts(
	prompts,
	pipe,
	num_interpolation_steps,
	sample_mid_interpolation,
	remove_n_middle=remove_n_middle,
	device=device,
	)
	negative_prompts = [negative_prompt, negative_prompt]
	if negative_prompts != ["", ""]:
	interpolated_negative_prompts_embeds, _ = sourcecode.interpolatePrompts(
	negative_prompts,
	pipe,
	num_interpolation_steps,
	sample_mid_interpolation,
	remove_n_middle=remove_n_middle,
	device=device,
	)
	else:
	interpolated_negative_prompts_embeds, _ = [None] * len(
	interpolated_prompt_embeds
	), None

	latents = torch.randn(
	(1, pipe.unet.config.in_channels, height // 8, width // 8),
	generator=generator,
	).to(device)
	embed_pairs = zip(interpolated_prompt_embeds, interpolated_negative_prompts_embeds)
	embed_pairs_list = list(embed_pairs)
	prompt_embeds, negative_prompt_embeds = embed_pairs_list[interpolation_step - 1]
	preprocess_input = transforms.Compose(
	[transforms.ToTensor(), transforms.Resize((512, 512))]
	)
	input_img_tensor = preprocess_input(input_image).unsqueeze(0)
	if negative_prompt_embeds is not None:
	npe = negative_prompt_embeds[None, ...]
	else:
	npe = None
	images_list = pipe(
	height=height,
	width=width,
	num_images_per_prompt=1,
	prompt_embeds=prompt_embeds[None, ...],
	negative_prompt_embeds=npe,
	num_inference_steps=num_inference_steps,
	guidance_scale=guidance_scale,
	generator=generator,
	latents=latents,
	image=input_img_tensor,
	)
	if images_list["nsfw_content_detected"][0]:
	image = Image.open("samples/unsafe.jpeg")
	return image, seed, "Unsafe content detected", "Unsafe content detected"
	else:
	image = images_list.images[0]
	pred_image = transforms.ToTensor()(image).unsqueeze(0)
	ssim_score = ssim(pred_image, input_img_tensor).item()
	real_inputs = clip_processor(
	text=prompts, padding=True, images=input_image, return_tensors="pt"
	).to(device)
	real_output = clip_model(**real_inputs)
	synth_inputs = clip_processor(
	text=prompts, padding=True, images=image, return_tensors="pt"
	).to(device)
	synth_output = clip_model(**synth_inputs)
	cos_sim = torch.nn.CosineSimilarity(dim=1)
	cosine_sim = (
	cos_sim(real_output.image_embeds, synth_output.image_embeds)
	.detach()
	.cpu()
	.numpy()
	.squeeze()
	* 100
	)

	return image, seed, round(ssim_score, 4), round(cosine_sim, 2)

	def update_steps(total_steps, interpolation_step):
	return gr.update(maximum=total_steps)

	def update_format(image_format):
	return gr.update(format=image_format)

	if torch.cuda.is_available():
	power_device = "GPU"
	else:
	power_device = "CPU"

	with gr.Blocks(title="Generative Date Augmentation Demo") as demo:

	gr.Markdown(

	)
	with gr.Row():
	with gr.Column():
	input_image = gr.Image(type="pil", label="Image to Augment")
	with gr.Row():
	prompt1 = gr.Text(
	label="Prompt for the image to synthesize. (Actual class)",
	show_label=True,
	max_lines=1,
	placeholder="Enter actual class",
	container=False,
	)
	with gr.Row():
	prompt2 = gr.Text(
	label="Prompt to augment against. (Confusing class)",
	show_label=True,
	max_lines=1,
	placeholder="Enter confusing class",
	container=False,
	)
	with gr.Row():
	num_interpolation_steps = gr.Slider(
	label="Total Interpolation Steps",
	minimum=2,
	maximum=128,
	step=2,
	value=16,
	)
	interpolation_step = gr.Slider(
	label="Sample Interpolation Step",
	minimum=1,
	maximum=16,
	step=1,
	value=8,
	)
	num_interpolation_steps.change(
	fn=update_steps,
	inputs=[num_interpolation_steps, interpolation_step],
	outputs=[interpolation_step],
	)
	run_button = gr.Button("Run", scale=0)
	with gr.Accordion("Advanced Settings", open=True):
	negative_prompt = gr.Text(
	label="Negative prompt",
	max_lines=1,
	placeholder="Enter a negative prompt",
	visible=False,
	)
	seed = gr.Slider(
	label="Seed",
	minimum=0,
	maximum=MAX_SEED,
	step=1,
	value=0,
	)
	randomize_seed = gr.Checkbox(label="Randomize seed", value=True)
	gr.Markdown("Negative Prompt: ")
	with gr.Row():
	negative_prompt = gr.Text(
	label="Negative Prompt",
	show_label=True,
	max_lines=1,
	value="deformed,drawings,disfigured,blurry image,distorted,cartoon",
	container=False,
	)
	with gr.Row():
	width = gr.Slider(
	label="Width",
	minimum=256,
	maximum=MAX_IMAGE_SIZE,
	step=32,
	value=512,
	)
	height = gr.Slider(
	label="Height",
	minimum=256,
	maximum=MAX_IMAGE_SIZE,
	step=32,
	value=512,
	)
	with gr.Row():
	guidance_scale = gr.Slider(
	label="Guidance scale",
	minimum=0.0,
	maximum=10.0,
	step=0.1,
	value=8.0,
	)
	num_inference_steps = gr.Slider(
	label="Number of inference steps",
	minimum=1,
	maximum=80,
	step=1,
	value=25,
	)
	with gr.Row():
	image_type = gr.Radio(
	choices=[
	"webp",
	"png",
	"jpeg",
	],
	label="Download Image Format",
	value="jpeg",
	)
	with gr.Column():
	result = gr.Image(label="Result", show_label=False, format="jpeg")
	image_type.change(
	fn=update_format,
	inputs=[image_type],
	outputs=[result],
	)
	gr.Markdown(
	"""
	Metadata:
	"""
	)
	with gr.Row():
	show_seed = gr.Label(label="Seed:", value="Randomized seed")
	ssim_score = gr.Label(
	label="SSIM Score:", value="Generate to see score"
	)
	cos_sim = gr.Label(label="CLIP Score:", value="Generate to see score")

	run_button.click(
	fn=infer,
	inputs=[
	input_image,
	prompt1,
	prompt2,
	negative_prompt,
	seed,
	randomize_seed,
	width,
	height,
	guidance_scale,
	interpolation_step,
	num_inference_steps,
	num_interpolation_steps,
	],
	outputs=[result, show_seed, ssim_score, cos_sim],
	)
	demo.queue().launch(show_error=True)