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Running
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Upload utils_sr.py
Browse files- utils_sr.py +141 -0
utils_sr.py
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import numpy as np
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import torch
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from PIL import Image
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import os
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import io
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import imageio
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def pad_reflect(image, pad_size):
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imsize = image.shape
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height, width = imsize[:2]
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new_img = np.zeros([height+pad_size*2, width+pad_size*2, imsize[2]]).astype(np.uint8)
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new_img[pad_size:-pad_size, pad_size:-pad_size, :] = image
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new_img[0:pad_size, pad_size:-pad_size, :] = np.flip(image[0:pad_size, :, :], axis=0) #top
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new_img[-pad_size:, pad_size:-pad_size, :] = np.flip(image[-pad_size:, :, :], axis=0) #bottom
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new_img[:, 0:pad_size, :] = np.flip(new_img[:, pad_size:pad_size*2, :], axis=1) #left
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new_img[:, -pad_size:, :] = np.flip(new_img[:, -pad_size*2:-pad_size, :], axis=1) #right
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return new_img
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def unpad_image(image, pad_size):
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return image[pad_size:-pad_size, pad_size:-pad_size, :]
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def jpegBlur(im,q):
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buf = io.BytesIO()
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imageio.imwrite(buf,im,format='jpg',quality=q)
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s = buf.getbuffer()
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return imageio.imread(s,format='jpg')
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def process_array(image_array, expand=True):
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""" Process a 3-dimensional array into a scaled, 4 dimensional batch of size 1. """
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image_batch = image_array / 255.0
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if expand:
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image_batch = np.expand_dims(image_batch, axis=0)
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return image_batch
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def process_output(output_tensor):
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""" Transforms the 4-dimensional output tensor into a suitable image format. """
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sr_img = output_tensor.clip(0, 1) * 255
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sr_img = np.uint8(sr_img)
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return sr_img
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def pad_patch(image_patch, padding_size, channel_last=True):
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""" Pads image_patch with with padding_size edge values. """
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if channel_last:
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return np.pad(
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image_patch,
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((padding_size, padding_size), (padding_size, padding_size), (0, 0)),
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'edge',
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)
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else:
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return np.pad(
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image_patch,
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((0, 0), (padding_size, padding_size), (padding_size, padding_size)),
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'edge',
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)
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def unpad_patches(image_patches, padding_size):
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return image_patches[:, padding_size:-padding_size, padding_size:-padding_size, :]
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def split_image_into_overlapping_patches(image_array, patch_size, padding_size=2):
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""" Splits the image into partially overlapping patches.
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The patches overlap by padding_size pixels.
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Pads the image twice:
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- first to have a size multiple of the patch size,
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- then to have equal padding at the borders.
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Args:
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image_array: numpy array of the input image.
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patch_size: size of the patches from the original image (without padding).
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padding_size: size of the overlapping area.
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"""
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xmax, ymax, _ = image_array.shape
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x_remainder = xmax % patch_size
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y_remainder = ymax % patch_size
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# modulo here is to avoid extending of patch_size instead of 0
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x_extend = (patch_size - x_remainder) % patch_size
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y_extend = (patch_size - y_remainder) % patch_size
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# make sure the image is divisible into regular patches
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extended_image = np.pad(image_array, ((0, x_extend), (0, y_extend), (0, 0)), 'edge')
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# add padding around the image to simplify computations
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padded_image = pad_patch(extended_image, padding_size, channel_last=True)
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xmax, ymax, _ = padded_image.shape
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patches = []
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x_lefts = range(padding_size, xmax - padding_size, patch_size)
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y_tops = range(padding_size, ymax - padding_size, patch_size)
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for x in x_lefts:
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for y in y_tops:
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x_left = x - padding_size
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y_top = y - padding_size
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x_right = x + patch_size + padding_size
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y_bottom = y + patch_size + padding_size
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patch = padded_image[x_left:x_right, y_top:y_bottom, :]
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patches.append(patch)
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return np.array(patches), padded_image.shape
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def stich_together(patches, padded_image_shape, target_shape, padding_size=4):
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""" Reconstruct the image from overlapping patches.
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After scaling, shapes and padding should be scaled too.
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Args:
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patches: patches obtained with split_image_into_overlapping_patches
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padded_image_shape: shape of the padded image contructed in split_image_into_overlapping_patches
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target_shape: shape of the final image
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padding_size: size of the overlapping area.
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"""
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xmax, ymax, _ = padded_image_shape
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patches = unpad_patches(patches, padding_size)
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patch_size = patches.shape[1]
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n_patches_per_row = ymax // patch_size
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complete_image = np.zeros((xmax, ymax, 3))
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row = -1
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col = 0
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for i in range(len(patches)):
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if i % n_patches_per_row == 0:
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row += 1
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col = 0
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complete_image[
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row * patch_size: (row + 1) * patch_size, col * patch_size: (col + 1) * patch_size,:
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] = patches[i]
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col += 1
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return complete_image[0: target_shape[0], 0: target_shape[1], :]
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