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glide-text2im / app.py

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	import os
	os.system('pip install -e .')
	import gradio as gr

	import base64
	from io import BytesIO
	# from fastapi import FastAPI

	from PIL import Image
	import torch as th

	from glide_text2im.download import load_checkpoint
	from glide_text2im.model_creation import (
	create_model_and_diffusion,
	model_and_diffusion_defaults,
	model_and_diffusion_defaults_upsampler
	)

	# print("Loading models...")
	# app = FastAPI()

	# This notebook supports both CPU and GPU.
	# On CPU, generating one sample may take on the order of 20 minutes.
	# On a GPU, it should be under a minute.

	has_cuda = th.cuda.is_available()
	device = th.device('cpu' if not has_cuda else 'cuda')

	# Create base model.
	options = model_and_diffusion_defaults()
	options['use_fp16'] = has_cuda
	options['timestep_respacing'] = '100' # use 100 diffusion steps for fast sampling
	model, diffusion = create_model_and_diffusion(**options)
	model.eval()
	if has_cuda:
	model.convert_to_fp16()
	model.to(device)
	model.load_state_dict(load_checkpoint('base', device))
	print('total base parameters', sum(x.numel() for x in model.parameters()))

	# Create upsampler model.
	options_up = model_and_diffusion_defaults_upsampler()
	options_up['use_fp16'] = has_cuda
	options_up['timestep_respacing'] = 'fast27' # use 27 diffusion steps for very fast sampling
	model_up, diffusion_up = create_model_and_diffusion(**options_up)
	model_up.eval()
	if has_cuda:
	model_up.convert_to_fp16()
	model_up.to(device)
	model_up.load_state_dict(load_checkpoint('upsample', device))
	print('total upsampler parameters', sum(x.numel() for x in model_up.parameters()))


	def get_images(batch: th.Tensor):
	""" Display a batch of images inline. """
	scaled = ((batch + 1)*127.5).round().clamp(0,255).to(th.uint8).cpu()
	reshaped = scaled.permute(2, 0, 3, 1).reshape([batch.shape[2], -1, 3])
	return Image.fromarray(reshaped.numpy())


	# Create a classifier-free guidance sampling function
	guidance_scale = 3.0

	def model_fn(x_t, ts, **kwargs):
	half = x_t[: len(x_t) // 2]
	combined = th.cat([half, half], dim=0)
	model_out = model(combined, ts, **kwargs)
	eps, rest = model_out[:, :3], model_out[:, 3:]
	cond_eps, uncond_eps = th.split(eps, len(eps) // 2, dim=0)
	half_eps = uncond_eps + guidance_scale * (cond_eps - uncond_eps)
	eps = th.cat([half_eps, half_eps], dim=0)
	return th.cat([eps, rest], dim=1)


	# @app.get("/")
	def read_root():
	return {"glide!"}

	# @app.get("/{generate}")
	def sample(prompt):
	# Sampling parameters
	batch_size = 1

	# Tune this parameter to control the sharpness of 256x256 images.
	# A value of 1.0 is sharper, but sometimes results in grainy artifacts.
	upsample_temp = 0.997

	##############################
	# Sample from the base model #
	##############################

	# Create the text tokens to feed to the model.
	tokens = model.tokenizer.encode(prompt)
	tokens, mask = model.tokenizer.padded_tokens_and_mask(
	tokens, options['text_ctx']
	)

	# Create the classifier-free guidance tokens (empty)
	full_batch_size = batch_size * 2
	uncond_tokens, uncond_mask = model.tokenizer.padded_tokens_and_mask(
	[], options['text_ctx']
	)

	# Pack the tokens together into model kwargs.
	model_kwargs = dict(
	tokens=th.tensor(
	[tokens] * batch_size + [uncond_tokens] * batch_size, device=device
	),
	mask=th.tensor(
	[mask] * batch_size + [uncond_mask] * batch_size,
	dtype=th.bool,
	device=device,
	),
	)

	# Sample from the base model.
	model.del_cache()
	samples = diffusion.p_sample_loop(
	model_fn,
	(full_batch_size, 3, options["image_size"], options["image_size"]),
	device=device,
	clip_denoised=True,
	progress=True,
	model_kwargs=model_kwargs,
	cond_fn=None,
	)[:batch_size]
	model.del_cache()


	##############################
	# Upsample the 64x64 samples #
	##############################

	tokens = model_up.tokenizer.encode(prompt)
	tokens, mask = model_up.tokenizer.padded_tokens_and_mask(
	tokens, options_up['text_ctx']
	)

	# Create the model conditioning dict.
	model_kwargs = dict(
	# Low-res image to upsample.
	low_res=((samples+1)*127.5).round()/127.5 - 1,

	# Text tokens
	tokens=th.tensor(
	[tokens] * batch_size, device=device
	),
	mask=th.tensor(
	[mask] * batch_size,
	dtype=th.bool,
	device=device,
	),
	)

	# Sample from the base model.
	model_up.del_cache()
	up_shape = (batch_size, 3, options_up["image_size"], options_up["image_size"])
	up_samples = diffusion_up.ddim_sample_loop(
	model_up,
	up_shape,
	noise=th.randn(up_shape, device=device) * upsample_temp,
	device=device,
	clip_denoised=True,
	progress=True,
	model_kwargs=model_kwargs,
	cond_fn=None,
	)[:batch_size]
	model_up.del_cache()

	# Show the output
	image = get_images(up_samples)
	# image = to_base64(image)
	# return {"image": image}
	return image


	def to_base64(pil_image):
	buffered = BytesIO()
	pil_image.save(buffered, format="JPEG")
	return base64.b64encode(buffered.getvalue())

	title = "Interactive demo: glide-text2im"
	description = "Demo for OpenAI's GLIDE: Towards Photorealistic Image Generation and Editing with Text-Guided Diffusion Models."
	article = "<p style='text-align: center'><a href='https://arxiv.org/abs/2112.10741'>GLIDE: Towards Photorealistic Image Generation and Editing with Text-Guided Diffusion Models</a> \| <a href='https://github.com/openai/glide-text2im/'>Official Repo</a></p>"
	examples =["an oil painting of a corgi"]

	iface = gr.Interface(fn=sample,
	inputs=gr.inputs.Textbox(label='What would you like to see?'),
	outputs=gr.outputs.Image(type="pil", label="Model input + completions"),
	title=title,
	description=description,
	article=article,
	examples=examples,
	enable_queue=True)
	iface.launch(debug=True)