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@ -6,15 +6,12 @@ from pathlib import Path
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from PIL import Image
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import time
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# @ray.remote(num_cpus=1, num_gpus=0.3)
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def val_image_pair(model, hr_image, lr_image, output_image_path=None, device='cuda'):
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with torch.inference_mode():
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start_time = time.perf_counter_ns()
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# prepare lr_image
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lr_image = torch.tensor(lr_image).type(torch.float32).permute(2,0,1)
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lr_image = lr_image.unsqueeze(0).to(torch.device(device))
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b, c, h, w = lr_image.shape
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lr_image = lr_image.reshape(b, c, h, w)
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# predict
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pred_lr_image = model(lr_image)
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# postprocess
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@ -28,12 +25,11 @@ def val_image_pair(model, hr_image, lr_image, output_image_path=None, device='cu
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# metrics
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hr_image = modcrop(hr_image, model.scale)
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left, right = _rgb2ycbcr(pred_lr_image)[:, :, 0], _rgb2ycbcr(hr_image)[:, :, 0]
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Y_left, Y_right = _rgb2ycbcr(pred_lr_image)[:, :, 0], _rgb2ycbcr(hr_image)[:, :, 0]
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lr_area = np.prod(lr_image.shape[-2:])
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return PSNR(left, right, model.scale), cal_ssim(left, right), run_time_ns, lr_area
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return PSNR(Y_left, Y_right, model.scale), cal_ssim(Y_left, Y_right), run_time_ns, lr_area
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def valid_steps(model, datasets, config, log_prefix=""):
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# ray.init(num_cpus=16, num_gpus=1, ignore_reinit_error=True, log_to_driver=False, runtime_env={"working_dir": "../"})
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dataset_names = list(datasets.keys())
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results = []
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@ -52,17 +48,11 @@ def valid_steps(model, datasets, config, log_prefix=""):
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test_dataset = datasets[dataset_name]
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tasks = []
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for hr_image, lr_image, hr_image_path, lr_image_path in test_dataset:
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output_image_path = predictions_path / f'{Path(hr_image_path).stem}_rcnet.png' if config.save_predictions else None
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output_image_path = predictions_path / f'{Path(hr_image_path).stem}.png' if config.save_predictions else None
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task = val_image_pair(model, hr_image, lr_image, output_image_path, device=config.device)
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tasks.append(task)
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total_time = time.time() - start_time
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# ready_refs, remaining_refs = ray.wait(tasks, num_returns=1, timeout=None)
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# while len(remaining_refs) > 0:
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# print(f"\rReady {len(ready_refs)+1}/{len(test_dataset)}", end=" ")
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# ready_refs, remaining_refs = ray.wait(tasks, num_returns=len(ready_refs)+1, timeout=None)
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# print("\r", end=" ")
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# tasks = [ray.get(task) for task in tasks]
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for psnr, ssim, run_time_ns, lr_area in tasks:
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psnrs.append(psnr)
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