fix outpainting image padding
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@ -85,59 +85,44 @@ def image_blur(data, std=3.14, mode="linear"):
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return np.real(convolve(data, kernel / np.sqrt(np.sum(kernel * kernel))))
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def soften_mask(np_rgba_image, softness, space):
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def soften_mask(mask_img, softness, space):
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if softness == 0:
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return np_rgba_image
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return mask_img
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softness = min(softness, 1.0)
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space = np.clip(space, 0.0, 1.0)
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original_max_opacity = np.max(np_rgba_image[:, :, 3])
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out_mask = np_rgba_image[:, :, 3] <= 0.0
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blurred_mask = image_blur(np_rgba_image[:, :, 3], 3.5 / softness, mode="linear")
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original_max_opacity = np.max(mask_img)
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out_mask = mask_img <= 0.0
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blurred_mask = image_blur(mask_img, 3.5 / softness, mode="linear")
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blurred_mask = np.maximum(blurred_mask - np.max(blurred_mask[out_mask]), 0.0)
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np_rgba_image[
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:, :, 3
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] *= blurred_mask # preserve partial opacity in original input mask
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np_rgba_image[:, :, 3] /= np.max(np_rgba_image[:, :, 3]) # renormalize
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np_rgba_image[:, :, 3] = np.clip(
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np_rgba_image[:, :, 3] - space, 0.0, 1.0
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) # make space
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np_rgba_image[:, :, 3] /= np.max(np_rgba_image[:, :, 3]) # and renormalize again
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np_rgba_image[:, :, 3] *= original_max_opacity # restore original max opacity
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return np_rgba_image
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mask_img *= blurred_mask # preserve partial opacity in original input mask
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mask_img /= np.max(mask_img) # renormalize
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mask_img = np.clip(mask_img - space, 0.0, 1.0) # make space
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mask_img /= np.max(mask_img) # and renormalize again
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mask_img *= original_max_opacity # restore original max opacity
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return mask_img
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def expand_image(
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cv2_img, top: int, right: int, bottom: int, left: int, softness: float, space: float
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):
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assert cv2_img.shape[2] == 3
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origin_h, origin_w = cv2_img.shape[:2]
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new_width = cv2_img.shape[1] + left + right
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new_height = cv2_img.shape[0] + top + bottom
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new_img = np.zeros((new_height, new_width, 4), np.uint8) # expanded image is rgba
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print(
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"Expanding input image from {0}x{1} to {2}x{3}".format(
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cv2_img.shape[1], cv2_img.shape[0], new_width, new_height
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)
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# TODO: which is better?
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# new_img = np.random.randint(0, 255, (new_height, new_width, 3), np.uint8)
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new_img = cv2.copyMakeBorder(
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cv2_img, top, bottom, left, right, cv2.BORDER_REPLICATE
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)
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if cv2_img.shape[2] == 3: # rgb input image
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new_img[
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top : top + cv2_img.shape[0], left : left + cv2_img.shape[1], 0:3
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] = cv2_img
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new_img[
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top : top + cv2_img.shape[0], left : left + cv2_img.shape[1], 3
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] = 255 # fully opaque
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elif cv2_img.shape[2] == 4: # rgba input image
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new_img[top : top + cv2_img.shape[0], left : left + cv2_img.shape[1]] = cv2_img
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else:
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raise Exception(
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"Unsupported image format: {0} channels".format(cv2_img.shape[2])
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)
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mask_img = np.zeros((new_height, new_width), np.uint8)
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mask_img[top : top + cv2_img.shape[0], left : left + cv2_img.shape[1]] = 255
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if softness > 0.0:
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new_img = soften_mask(new_img / 255.0, softness / 100.0, space / 100.0)
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new_img = (np.clip(new_img, 0.0, 1.0) * 255.0).astype(np.uint8)
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mask_img = soften_mask(mask_img / 255.0, softness / 100.0, space / 100.0)
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mask_img = (np.clip(mask_img, 0.0, 1.0) * 255.0).astype(np.uint8)
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mask_image = 255.0 - new_img[:, :, 3] # extract mask from alpha channel and invert
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mask_image = 255.0 - mask_img # extract mask from alpha channel and invert
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rgb_init_image = (
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0.0 + new_img[:, :, 0:3]
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) # strip mask from init_img leaving only rgb channels
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@ -153,7 +138,7 @@ def expand_image(
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hard_mask[:, origin_w // 2 :] = 255
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hard_mask = cv2.copyMakeBorder(
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hard_mask, top, bottom, left, right, cv2.BORDER_CONSTANT, value=255
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hard_mask, top, bottom, left, right, cv2.BORDER_DEFAULT, value=255
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)
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mask_image = np.where(hard_mask > 0, mask_image, 0)
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return rgb_init_image.astype(np.uint8), mask_image.astype(np.uint8)
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