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| import gradio as gr | |
| import os.path | |
| import numpy as np | |
| from collections import OrderedDict | |
| import torch | |
| import cv2 | |
| from PIL import Image, ImageOps | |
| import utils_image as util | |
| from network_fbcnn import FBCNN as net | |
| import requests | |
| def inference(input_img, is_gray, input_quality, enable_zoom, zoom, x_shift, y_shift, state): | |
| if is_gray: | |
| n_channels = 1 # set 1 for grayscale image, set 3 for color image | |
| model_name = 'fbcnn_gray.pth' | |
| else: | |
| n_channels = 3 # set 1 for grayscale image, set 3 for color image | |
| model_name = 'fbcnn_color.pth' | |
| nc = [64,128,256,512] | |
| nb = 4 | |
| input_quality = 100 - input_quality | |
| #model_pool = '/FBCNN/model_zoo' # fixed | |
| #model_path = os.path.join(model_pool, model_name) | |
| model_path = model_name | |
| if os.path.exists(model_path): | |
| print(f'loading model from {model_path}') | |
| else: | |
| os.makedirs(os.path.dirname(model_path), exist_ok=True) | |
| url = 'https://github.com/jiaxi-jiang/FBCNN/releases/download/v1.0/{}'.format(os.path.basename(model_path)) | |
| r = requests.get(url, allow_redirects=True) | |
| open(model_path, 'wb').write(r.content) | |
| device = torch.device('cuda' if torch.cuda.is_available() else 'cpu') | |
| # ---------------------------------------- | |
| # load model | |
| # ---------------------------------------- | |
| if (not enable_zoom) or (state[1] is None): | |
| model = net(in_nc=n_channels, out_nc=n_channels, nc=nc, nb=nb, act_mode='R') | |
| model.load_state_dict(torch.load(model_path), strict=True) | |
| model.eval() | |
| for k, v in model.named_parameters(): | |
| v.requires_grad = False | |
| model = model.to(device) | |
| test_results = OrderedDict() | |
| test_results['psnr'] = [] | |
| test_results['ssim'] = [] | |
| test_results['psnrb'] = [] | |
| # ------------------------------------ | |
| # (1) img_L | |
| # ------------------------------------ | |
| if n_channels == 1: | |
| open_cv_image = Image.fromarray(input_img) | |
| open_cv_image = ImageOps.grayscale(open_cv_image) | |
| open_cv_image = np.array(open_cv_image) # PIL to open cv image | |
| img = np.expand_dims(open_cv_image, axis=2) # HxWx1 | |
| elif n_channels == 3: | |
| open_cv_image = np.array(input_img) # PIL to open cv image | |
| if open_cv_image.ndim == 2: | |
| open_cv_image = cv2.cvtColor(open_cv_image, cv2.COLOR_GRAY2RGB) # GGG | |
| else: | |
| open_cv_image = cv2.cvtColor(open_cv_image, cv2.COLOR_BGR2RGB) # RGB | |
| img_L = util.uint2tensor4(open_cv_image) | |
| img_L = img_L.to(device) | |
| # ------------------------------------ | |
| # (2) img_E | |
| # ------------------------------------ | |
| img_E,QF = model(img_L) | |
| QF = 1- QF | |
| img_E = util.tensor2single(img_E) | |
| img_E = util.single2uint(img_E) | |
| qf_input = torch.tensor([[1-input_quality/100]]).cuda() if device == torch.device('cuda') else torch.tensor([[1-input_quality/100]]) | |
| img_E,QF = model(img_L, qf_input) | |
| QF = 1- QF | |
| img_E = util.tensor2single(img_E) | |
| img_E = util.single2uint(img_E) | |
| if img_E.ndim == 3: | |
| img_E = img_E[:, :, [2, 1, 0]] | |
| if (state[1] is not None) and enable_zoom: | |
| img_E = state[1] | |
| out_img = Image.fromarray(img_E) | |
| out_img_w, out_img_h = out_img.size # output image size | |
| zoom = zoom/100 | |
| x_shift = x_shift/100 | |
| y_shift = y_shift/100 | |
| zoom_w, zoom_h = out_img_w*zoom, out_img_h*zoom | |
| zoom_left, zoom_right = int((out_img_w - zoom_w)*x_shift), int(zoom_w + (out_img_w - zoom_w)*x_shift) | |
| zoom_top, zoom_bottom = int((out_img_h - zoom_h)*y_shift), int(zoom_h + (out_img_h - zoom_h)*y_shift) | |
| if (state[0] is None) or not enable_zoom: | |
| in_img = Image.fromarray(input_img) | |
| state[0] = input_img | |
| else: | |
| in_img = Image.fromarray(state[0]) | |
| in_img = in_img.crop((zoom_left, zoom_top, zoom_right, zoom_bottom)) | |
| in_img = in_img.resize((int(zoom_w/zoom), int(zoom_h/zoom)), Image.NEAREST) | |
| out_img = out_img.crop((zoom_left, zoom_top, zoom_right, zoom_bottom)) | |
| out_img = out_img.resize((int(zoom_w/zoom), int(zoom_h/zoom)), Image.NEAREST) | |
| return img_E, in_img, out_img, [state[0],img_E] | |
| interface = gr.Interface( | |
| fn = inference, | |
| inputs = [gr.inputs.Image(), | |
| gr.inputs.Checkbox(label="Grayscale (Check this if your image is grayscale)"), | |
| gr.inputs.Slider(minimum=1, maximum=100, step=1, label="Intensity (Higher = more JPEG artifact removal)"), | |
| gr.inputs.Checkbox(default=False, label="Edit Zoom preview \n(This is optional. " | |
| "Check this after the image result is loaded to edit zoom parameters\n" | |
| "without processing the input image.)"), | |
| gr.inputs.Slider(minimum=10, maximum=100, step=1, default=50, label="Zoom Image \n" | |
| "(Use this to see the image quality up close. \n" | |
| "100 = original size)"), | |
| gr.inputs.Slider(minimum=0, maximum=100, step=1, label="Zoom preview horizontal shift \n" | |
| "(Increase to shift to the right)"), | |
| gr.inputs.Slider(minimum=0, maximum=100, step=1, label="Zoom preview vertical shift \n" | |
| "(Increase to shift downwards)"), | |
| gr.inputs.State(default=[None,None]) | |
| ], | |
| outputs = [gr.outputs.Image(label="Result"), | |
| gr.outputs.Image(label="Before:"), | |
| gr.outputs.Image(label="After:"), | |
| "state"], | |
| examples = [["doraemon.jpg",False,60,False,42,50,50], | |
| ["tomandjerry.jpg",False,60,False,40,57,44], | |
| ["somepanda.jpg",True,100,False,30,8,24], | |
| ["cemetry.jpg",False,70,False,20,44,77], | |
| ["michelangelo_david.jpg",True,30,False,12,53,27], | |
| ["elon_musk.jpg",False,45,False,15,33,30]], | |
| allow_flagging=False | |
| ).launch(enable_queue=True) |