| | import cv2 |
| | import numpy as np |
| |
|
| | from basicsr.metrics.metric_util import reorder_image, to_y_channel |
| | from basicsr.utils.registry import METRIC_REGISTRY |
| |
|
| |
|
| | @METRIC_REGISTRY.register() |
| | def calculate_psnr(img1, img2, crop_border, input_order='HWC', test_y_channel=False): |
| | """Calculate PSNR (Peak Signal-to-Noise Ratio). |
| | |
| | Ref: https://en.wikipedia.org/wiki/Peak_signal-to-noise_ratio |
| | |
| | Args: |
| | img1 (ndarray): Images with range [0, 255]. |
| | img2 (ndarray): Images with range [0, 255]. |
| | crop_border (int): Cropped pixels in each edge of an image. These |
| | pixels are not involved in the PSNR calculation. |
| | input_order (str): Whether the input order is 'HWC' or 'CHW'. |
| | Default: 'HWC'. |
| | test_y_channel (bool): Test on Y channel of YCbCr. Default: False. |
| | |
| | Returns: |
| | float: psnr result. |
| | """ |
| |
|
| | assert img1.shape == img2.shape, (f'Image shapes are differnet: {img1.shape}, {img2.shape}.') |
| | if input_order not in ['HWC', 'CHW']: |
| | raise ValueError(f'Wrong input_order {input_order}. Supported input_orders are ' '"HWC" and "CHW"') |
| | img1 = reorder_image(img1, input_order=input_order) |
| | img2 = reorder_image(img2, input_order=input_order) |
| | img1 = img1.astype(np.float64) |
| | img2 = img2.astype(np.float64) |
| |
|
| | if crop_border != 0: |
| | img1 = img1[crop_border:-crop_border, crop_border:-crop_border, ...] |
| | img2 = img2[crop_border:-crop_border, crop_border:-crop_border, ...] |
| |
|
| | if test_y_channel: |
| | img1 = to_y_channel(img1) |
| | img2 = to_y_channel(img2) |
| |
|
| | mse = np.mean((img1 - img2)**2) |
| | if mse == 0: |
| | return float('inf') |
| | return 20. * np.log10(255. / np.sqrt(mse)) |
| |
|
| |
|
| | def _ssim(img1, img2): |
| | """Calculate SSIM (structural similarity) for one channel images. |
| | |
| | It is called by func:`calculate_ssim`. |
| | |
| | Args: |
| | img1 (ndarray): Images with range [0, 255] with order 'HWC'. |
| | img2 (ndarray): Images with range [0, 255] with order 'HWC'. |
| | |
| | Returns: |
| | float: ssim result. |
| | """ |
| |
|
| | C1 = (0.01 * 255)**2 |
| | C2 = (0.03 * 255)**2 |
| |
|
| | img1 = img1.astype(np.float64) |
| | img2 = img2.astype(np.float64) |
| | kernel = cv2.getGaussianKernel(11, 1.5) |
| | window = np.outer(kernel, kernel.transpose()) |
| |
|
| | mu1 = cv2.filter2D(img1, -1, window)[5:-5, 5:-5] |
| | mu2 = cv2.filter2D(img2, -1, window)[5:-5, 5:-5] |
| | mu1_sq = mu1**2 |
| | mu2_sq = mu2**2 |
| | mu1_mu2 = mu1 * mu2 |
| | sigma1_sq = cv2.filter2D(img1**2, -1, window)[5:-5, 5:-5] - mu1_sq |
| | sigma2_sq = cv2.filter2D(img2**2, -1, window)[5:-5, 5:-5] - mu2_sq |
| | sigma12 = cv2.filter2D(img1 * img2, -1, window)[5:-5, 5:-5] - mu1_mu2 |
| |
|
| | ssim_map = ((2 * mu1_mu2 + C1) * (2 * sigma12 + C2)) / ((mu1_sq + mu2_sq + C1) * (sigma1_sq + sigma2_sq + C2)) |
| | return ssim_map.mean() |
| |
|
| |
|
| | @METRIC_REGISTRY.register() |
| | def calculate_ssim(img1, img2, crop_border, input_order='HWC', test_y_channel=False): |
| | """Calculate SSIM (structural similarity). |
| | |
| | Ref: |
| | Image quality assessment: From error visibility to structural similarity |
| | |
| | The results are the same as that of the official released MATLAB code in |
| | https://ece.uwaterloo.ca/~z70wang/research/ssim/. |
| | |
| | For three-channel images, SSIM is calculated for each channel and then |
| | averaged. |
| | |
| | Args: |
| | img1 (ndarray): Images with range [0, 255]. |
| | img2 (ndarray): Images with range [0, 255]. |
| | crop_border (int): Cropped pixels in each edge of an image. These |
| | pixels are not involved in the SSIM calculation. |
| | input_order (str): Whether the input order is 'HWC' or 'CHW'. |
| | Default: 'HWC'. |
| | test_y_channel (bool): Test on Y channel of YCbCr. Default: False. |
| | |
| | Returns: |
| | float: ssim result. |
| | """ |
| |
|
| | assert img1.shape == img2.shape, (f'Image shapes are differnet: {img1.shape}, {img2.shape}.') |
| | if input_order not in ['HWC', 'CHW']: |
| | raise ValueError(f'Wrong input_order {input_order}. Supported input_orders are ' '"HWC" and "CHW"') |
| | img1 = reorder_image(img1, input_order=input_order) |
| | img2 = reorder_image(img2, input_order=input_order) |
| | img1 = img1.astype(np.float64) |
| | img2 = img2.astype(np.float64) |
| |
|
| | if crop_border != 0: |
| | img1 = img1[crop_border:-crop_border, crop_border:-crop_border, ...] |
| | img2 = img2[crop_border:-crop_border, crop_border:-crop_border, ...] |
| |
|
| | if test_y_channel: |
| | img1 = to_y_channel(img1) |
| | img2 = to_y_channel(img2) |
| |
|
| | ssims = [] |
| | for i in range(img1.shape[2]): |
| | ssims.append(_ssim(img1[..., i], img2[..., i])) |
| | return np.array(ssims).mean() |
| |
|
