Spaces:
Running
on
Zero
Running
on
Zero
| from typing import List, Literal | |
| import gradio as gr | |
| import torch | |
| import numpy as np | |
| import colorsys | |
| from diffusers import VQModel | |
| from diffusers.image_processor import VaeImageProcessor | |
| from diffusers.pipelines.wuerstchen.modeling_paella_vq_model import PaellaVQModel | |
| from abc import abstractmethod | |
| import torch.backends | |
| import torch.mps | |
| from PIL import Image | |
| if torch.cuda.is_available(): | |
| device = torch.device("cuda") | |
| elif torch.backends.mps.is_available(): | |
| device = torch.device("mps") | |
| else: | |
| device = torch.device("cpu") | |
| # abstract class VQImageRoundtripPipeline: | |
| class ImageRoundtripPipeline: | |
| def roundtrip_image(self, image, output_type="pil"): ... | |
| class VQImageRoundtripPipeline(ImageRoundtripPipeline): | |
| vqvae: VQModel | |
| vae_scale_factor: int | |
| vqvae_processor: VaeImageProcessor | |
| def __init__(self): | |
| self.vqvae = VQModel.from_pretrained("amused/amused-512", subfolder="vqvae") | |
| self.vqvae.eval() | |
| self.vqvae.to(device) | |
| self.vae_scale_factor = 2 ** (len(self.vqvae.config.block_out_channels) - 1) | |
| self.vqvae_processor = VaeImageProcessor( | |
| vae_scale_factor=self.vae_scale_factor, do_normalize=False | |
| ) | |
| print("VQ-GAN model loaded", self.vqvae) | |
| def roundtrip_image(self, image, output_type="pil"): | |
| image = self.vqvae_processor.preprocess(image) | |
| device = self.vqvae.device | |
| needs_upcasting = ( | |
| self.vqvae.dtype == torch.float16 and self.vqvae.config.force_upcast | |
| ) | |
| batch_size, im_channels, height, width = image.shape | |
| if needs_upcasting: | |
| self.vqvae.float() | |
| latents = self.vqvae.encode( | |
| image.to(dtype=self.vqvae.dtype, device=device) | |
| ).latents | |
| latents_batch_size, latent_channels, latents_height, latents_width = ( | |
| latents.shape | |
| ) | |
| latents = self.vqvae.quantize(latents)[2][2].reshape( | |
| batch_size, latents_height, latents_width | |
| ) | |
| output = self.vqvae.decode( | |
| latents, | |
| force_not_quantize=True, | |
| shape=( | |
| batch_size, | |
| height // self.vae_scale_factor, | |
| width // self.vae_scale_factor, | |
| self.vqvae.config.latent_channels, | |
| ), | |
| ).sample.clip(0, 1) | |
| output = self.vqvae_processor.postprocess(output, output_type) | |
| if needs_upcasting: | |
| self.vqvae.half() | |
| return output[0], latents.cpu().numpy(), self.vqvae.config.num_vq_embeddings | |
| class PaellaImageRoundtripPipeline(ImageRoundtripPipeline): | |
| vqgan: PaellaVQModel | |
| vae_scale_factor: int | |
| vqvae_processor: VaeImageProcessor | |
| def __init__(self): | |
| self.vqgan = PaellaVQModel.from_pretrained( | |
| "warp-ai/wuerstchen", subfolder="vqgan" | |
| ) | |
| self.vqgan.eval() | |
| self.vqgan.to(device) | |
| self.vae_scale_factor = 4 | |
| self.vqvae_processor = VaeImageProcessor( | |
| vae_scale_factor=self.vae_scale_factor, do_normalize=False | |
| ) | |
| print("Paella VQ-GAN model loaded", self.vqgan) | |
| def roundtrip_image(self, image, output_type="pil"): | |
| image = self.vqvae_processor.preprocess(image) | |
| device = self.vqgan.device | |
| batch_size, im_channels, height, width = image.shape | |
| latents = self.vqgan.encode( | |
| image.to(dtype=self.vqgan.dtype, device=device) | |
| ).latents | |
| latents_batch_size, latent_channels, latents_height, latents_width = ( | |
| latents.shape | |
| ) | |
| # latents = latents * self.vqgan.config.scale_factor | |
| # Manually quantize so we can inspect | |
| latents_q = self.vqgan.vquantizer(latents)[2][2].reshape( | |
| batch_size, latents_height, latents_width | |
| ) | |
| print("latents after quantize", (latents_q.shape, latents_q.dtype)) | |
| images = self.vqgan.decode(latents).sample.clamp(0, 1) | |
| output = self.vqvae_processor.postprocess(images, output_type) | |
| # if needs_upcasting: | |
| # self.vqgan.half() | |
| return output[0], latents_q.cpu().numpy(), self.vqgan.config.num_vq_embeddings | |
| pipeline_paella = PaellaImageRoundtripPipeline() | |
| pipeline_vq = VQImageRoundtripPipeline() | |
| # Function to generate a list of unique colors | |
| def generate_unique_colors_hsl(n): | |
| colors = [] | |
| for i in range(n): | |
| hue = i / (n // 4) # Distribute hues evenly around the color wheel 4 times | |
| lightness = 0.8 - (i / n) * 0.6 # Decrease brightness from 0.8 to 0.2 | |
| saturation = 1.0 | |
| rgb = colorsys.hls_to_rgb(hue, lightness, saturation) | |
| rgb = tuple(int(255 * x) for x in rgb) | |
| colors.append(rgb) | |
| return colors | |
| # Function to create the image from VQGAN tokens | |
| def vqgan_tokens_to_image(tokens, codebook_size, downscale_factor): | |
| # Generate unique colors for each token in the codebook | |
| colors = generate_unique_colors_hsl(codebook_size) | |
| # Create a lookup table | |
| lookup_table = np.array(colors, dtype=np.uint8) | |
| # Extract the token array (remove the batch dimension) | |
| token_array = tokens[0] | |
| # Map tokens to their RGB colors using the lookup table | |
| color_image = lookup_table[token_array] | |
| # Create a PIL image from the numpy array | |
| img = Image.fromarray(color_image, "RGB") | |
| # Upscale the image using nearest neighbor interpolation | |
| img = img.resize( | |
| ( | |
| color_image.shape[1] * downscale_factor, | |
| color_image.shape[0] * downscale_factor, | |
| ), | |
| Image.NEAREST, | |
| ) | |
| return img | |
| # This is a gradio space that lets you encode an image with various encoder-decoder pairs, eg VQ-GAN, SDXL's VAE, etc and check the image quality | |
| # def image_grid_to_string(image_grid): | |
| # """Convert a latent vq index "image" grid to a string, input shape is (1, height, width)""" | |
| # return "\n".join( | |
| # [" ".join([str(int(x)) for x in row]) for row in image_grid.squeeze()] | |
| # ) | |
| def describe_shape(shape): | |
| return f"Shape: {shape} num elements: {np.prod(shape)}" | |
| # @spaces.GPU | |
| def roundtrip_image( | |
| image, | |
| model: List[Literal["vqgan", Literal["paella"]]], | |
| size: List[Literal["256x256", "512x512", "1024x1024"]], | |
| output_type="pil", | |
| ): | |
| if size == "256x256": | |
| image = image.resize((256, 256)) | |
| elif size == "512x512": | |
| image = image.resize((512, 512)) | |
| elif size == "1024x1024": | |
| image = image.resize((1024, 1024)) | |
| else: | |
| raise ValueError(f"Unknown size {size}") | |
| if model == "vqgan": | |
| image, latents, codebook_size = pipeline_vq.roundtrip_image(image, output_type) | |
| return ( | |
| image, | |
| vqgan_tokens_to_image( | |
| latents, codebook_size, downscale_factor=pipeline_vq.vae_scale_factor | |
| ), | |
| describe_shape(latents.shape), | |
| ) | |
| elif model == "paella": | |
| image, latents, codebook_size = pipeline_paella.roundtrip_image( | |
| image, output_type | |
| ) | |
| return ( | |
| image, | |
| vqgan_tokens_to_image( | |
| latents, codebook_size, downscale_factor=pipeline_vq.vae_scale_factor | |
| ), | |
| describe_shape(latents.shape), | |
| ) | |
| else: | |
| raise ValueError(f"Unknown model {model}") | |
| demo = gr.Interface( | |
| fn=roundtrip_image, | |
| inputs=[ | |
| gr.Image(type="pil"), | |
| gr.Dropdown(["vqgan", "paella"], label="Model", value="vqgan"), | |
| gr.Dropdown(["256x256", "512x512", "1024x1024"], label="Size", value="512x512"), | |
| ], | |
| outputs=[ | |
| gr.Image(label="Reconstructed"), | |
| gr.Image(label="Tokens"), | |
| gr.Text(label="VQ Shape"), | |
| ], | |
| title="Image Tokenizer Playground", | |
| description="Round-trip an image through an encode-decoder pair to see the quality loss from the VQ-GAN for image generation, etc.", | |
| ) | |
| demo.launch() | |