import os import sys import torch import gradio as gr import numpy as np import torchvision.transforms as transforms from torch.autograd import Variable from network.Transformer import Transformer from PIL import Image import logging logging.basicConfig(level=logging.INFO) logger = logging.getLogger(__name__) MAX_DIMENSION = 1280 MODEL_PATH = "models" COLOUR_MODEL = "RGB" STYLE_SHINKAI = "Makoto Shinkai" STYLE_HOSODA = "Mamoru Hosoda" STYLE_MIYAZAKI = "Hayao Miyazaki" STYLE_KON = "Satoshi Kon" DEFAULT_STYLE = STYLE_SHINKAI STYLE_CHOICE_LIST = [STYLE_SHINKAI, STYLE_HOSODA, STYLE_MIYAZAKI, STYLE_KON] shinkai_model = Transformer() hosoda_model = Transformer() miyazaki_model = Transformer() kon_model = Transformer() shinkai_model.load_state_dict( torch.load(os.path.join(MODEL_PATH, "shinkai_makoto.pth")) ) hosoda_model.load_state_dict( torch.load(os.path.join(MODEL_PATH, "hosoda_mamoru.pth")) ) miyazaki_model.load_state_dict( torch.load(os.path.join(MODEL_PATH, "miyazaki_hayao.pth")) ) kon_model.load_state_dict( torch.load(os.path.join(MODEL_PATH, "kon_satoshi.pth")) ) shinkai_model.eval() hosoda_model.eval() miyazaki_model.eval() kon_model.eval() enable_gpu = torch.cuda.is_available() def get_model(style): if style == STYLE_SHINKAI: return shinkai_model elif style == STYLE_HOSODA: return hosoda_model elif style == STYLE_MIYAZAKI: return miyazaki_model elif style == STYLE_KON: return kon_model else: logger.warning( f"Style {style} not found. Defaulting to Makoto Shinkai" ) return shinkai_model def adjust_image_for_model(img): logger.info(f"Image Height: {img.height}, Image Width: {img.width}") if img.height > MAX_DIMENSION or img.width > MAX_DIMENSION: logger.info(f"Dimensions too large. Resizing to {MAX_DIMENSION}px.") img.thumbnail((MAX_DIMENSION, MAX_DIMENSION), Image.ANTIALIAS) return img def inference(img, style): img = adjust_image_for_model(img) # load image input_image = img.convert(COLOUR_MODEL) input_image = np.asarray(input_image) # RGB -> BGR input_image = input_image[:, :, [2, 1, 0]] input_image = transforms.ToTensor()(input_image).unsqueeze(0) # preprocess, (-1, 1) input_image = -1 + 2 * input_image if enable_gpu: logger.info(f"CUDA found. Using GPU.") input_image = Variable(input_image).cuda() else: logger.info(f"CUDA not found. Using CPU.") input_image = Variable(input_image).float() # forward model = get_model(style) output_image = model(input_image) output_image = output_image[0] # BGR -> RGB output_image = output_image[[2, 1, 0], :, :] output_image = output_image.data.cpu().float() * 0.5 + 0.5 return transforms.ToPILImage()(output_image) title = "Anime Background GAN" description = "Gradio Demo for CartoonGAN by Chen Et. Al. Models are Shinkai Makoto, Hosoda Mamoru, Kon Satoshi, and Miyazaki Hayao." article = "

CartoonGAN Whitepaper from Chen et.al

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Local Run GitHub Repo

Original Implementation from Yijunmaverick

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" examples = [ ["examples/garden_in.jpg", STYLE_SHINKAI], ["examples/library_in.jpg", STYLE_KON], ] gr.Interface( fn=inference, inputs=[ gr.inputs.Image( type="pil", label="Input Photo (less than 1280px on both width and height)", ), gr.inputs.Dropdown( STYLE_CHOICE_LIST, type="value", default=DEFAULT_STYLE, label="Style", ), ], outputs=gr.outputs.Image( type="pil", label="Output Image", ), title=title, description=description, article=article, examples=examples, allow_flagging="never", allow_screenshot=False, ).launch(enable_queue=True)