def detect_image(filename): # Load data img = np.array(Image.open(filename).convert(params["channel"])) coords, _, _ = image.slide2d(sz=img.shape[:2], K=64, S=32) patches = image.crop_patches(img=img, coords=coords, patch_sz=64) loader = NumpyImageLoader(ndarray_data=patches, batch_size=16, n_workers=cpu_count(), pin_memory=True, shuffle=False).loader # Predict softmaxs = [] model.eval() for X in loader: X = X[0].to(DEVICE) logits = model(X) softmaxs.append(F.softmax(logits, dim=1).detach().cpu().numpy()) softmaxs = np.concatenate(softmaxs, axis=0) # Post-processing labels = image.post_process(softmaxs[:, 1], coords, 8, params["threshold"], 32, pools=pools) decision = image.fusion(labels) return decision #1 fake, 0 real
scores_au, scores_tp = [], [] # In[7]: # Test on authentic images for i, file in tqdm(enumerate(au_files), total=n_au_files): # Load softmaxs and coords from disk data = np.load(file).item() softmaxs, coords = data["softmaxs"], data["coords"] softmaxs = softmaxs[:, 1] # Postprocess labels = image.post_process(softmaxs, coords, 8, params["threshold"], 32, pools=pools) mark = image.fusion(labels) scores_au.append(mark) # In[8]: # Test on tampered images for i, file in tqdm(enumerate(tp_files), total=n_tp_files): # Load softmaxs and coords from disk data = np.load(file).item() softmaxs, coords = data["softmaxs"], data["coords"] softmaxs = softmaxs[:, 1]