# Copyright (c) OpenMMLab. All rights reserved. import cv2 import numpy as np def imconvert(img, src, dst): """Convert an image from the src colorspace to dst colorspace. Args: img (ndarray): The input image. src (str): The source colorspace, e.g., 'rgb', 'hsv'. dst (str): The destination colorspace, e.g., 'rgb', 'hsv'. Returns: ndarray: The converted image. """ code = getattr(cv2, f'COLOR_{src.upper()}2{dst.upper()}') out_img = cv2.cvtColor(img, code) return out_img def bgr2gray(img, keepdim=False): """Convert a BGR image to grayscale image. Args: img (ndarray): The input image. keepdim (bool): If False (by default), then return the grayscale image with 2 dims, otherwise 3 dims. Returns: ndarray: The converted grayscale image. """ out_img = cv2.cvtColor(img, cv2.COLOR_BGR2GRAY) if keepdim: out_img = out_img[..., None] return out_img def rgb2gray(img, keepdim=False): """Convert a RGB image to grayscale image. Args: img (ndarray): The input image. keepdim (bool): If False (by default), then return the grayscale image with 2 dims, otherwise 3 dims. Returns: ndarray: The converted grayscale image. """ out_img = cv2.cvtColor(img, cv2.COLOR_RGB2GRAY) if keepdim: out_img = out_img[..., None] return out_img def gray2bgr(img): """Convert a grayscale image to BGR image. Args: img (ndarray): The input image. Returns: ndarray: The converted BGR image. """ img = img[..., None] if img.ndim == 2 else img out_img = cv2.cvtColor(img, cv2.COLOR_GRAY2BGR) return out_img def gray2rgb(img): """Convert a grayscale image to RGB image. Args: img (ndarray): The input image. Returns: ndarray: The converted RGB image. """ img = img[..., None] if img.ndim == 2 else img out_img = cv2.cvtColor(img, cv2.COLOR_GRAY2RGB) return out_img def _convert_input_type_range(img): """Convert the type and range of the input image. It converts the input image to np.float32 type and range of [0, 1]. It is mainly used for pre-processing the input image in colorspace conversion functions such as rgb2ycbcr and ycbcr2rgb. Args: img (ndarray): The input image. It accepts: 1. np.uint8 type with range [0, 255]; 2. np.float32 type with range [0, 1]. Returns: (ndarray): The converted image with type of np.float32 and range of [0, 1]. """ img_type = img.dtype img = img.astype(np.float32) if img_type == np.float32: pass elif img_type == np.uint8: img /= 255. else: raise TypeError('The img type should be np.float32 or np.uint8, ' f'but got {img_type}') return img def _convert_output_type_range(img, dst_type): """Convert the type and range of the image according to dst_type. It converts the image to desired type and range. If `dst_type` is np.uint8, images will be converted to np.uint8 type with range [0, 255]. If `dst_type` is np.float32, it converts the image to np.float32 type with range [0, 1]. It is mainly used for post-processing images in colorspace conversion functions such as rgb2ycbcr and ycbcr2rgb. Args: img (ndarray): The image to be converted with np.float32 type and range [0, 255]. dst_type (np.uint8 | np.float32): If dst_type is np.uint8, it converts the image to np.uint8 type with range [0, 255]. If dst_type is np.float32, it converts the image to np.float32 type with range [0, 1]. Returns: (ndarray): The converted image with desired type and range. """ if dst_type not in (np.uint8, np.float32): raise TypeError('The dst_type should be np.float32 or np.uint8, ' f'but got {dst_type}') if dst_type == np.uint8: img = img.round() else: img /= 255. return img.astype(dst_type) def rgb2ycbcr(img, y_only=False): """Convert a RGB image to YCbCr image. This function produces the same results as Matlab's `rgb2ycbcr` function. It implements the ITU-R BT.601 conversion for standard-definition television. See more details in https://en.wikipedia.org/wiki/YCbCr#ITU-R_BT.601_conversion. It differs from a similar function in cv2.cvtColor: `RGB <-> YCrCb`. In OpenCV, it implements a JPEG conversion. See more details in https://en.wikipedia.org/wiki/YCbCr#JPEG_conversion. Args: img (ndarray): The input image. It accepts: 1. np.uint8 type with range [0, 255]; 2. np.float32 type with range [0, 1]. y_only (bool): Whether to only return Y channel. Default: False. Returns: ndarray: The converted YCbCr image. The output image has the same type and range as input image. """ img_type = img.dtype img = _convert_input_type_range(img) if y_only: out_img = np.dot(img, [65.481, 128.553, 24.966]) + 16.0 else: out_img = np.matmul( img, [[65.481, -37.797, 112.0], [128.553, -74.203, -93.786], [24.966, 112.0, -18.214]]) + [16, 128, 128] out_img = _convert_output_type_range(out_img, img_type) return out_img def bgr2ycbcr(img, y_only=False): """Convert a BGR image to YCbCr image. The bgr version of rgb2ycbcr. It implements the ITU-R BT.601 conversion for standard-definition television. See more details in https://en.wikipedia.org/wiki/YCbCr#ITU-R_BT.601_conversion. It differs from a similar function in cv2.cvtColor: `BGR <-> YCrCb`. In OpenCV, it implements a JPEG conversion. See more details in https://en.wikipedia.org/wiki/YCbCr#JPEG_conversion. Args: img (ndarray): The input image. It accepts: 1. np.uint8 type with range [0, 255]; 2. np.float32 type with range [0, 1]. y_only (bool): Whether to only return Y channel. Default: False. Returns: ndarray: The converted YCbCr image. The output image has the same type and range as input image. """ img_type = img.dtype img = _convert_input_type_range(img) if y_only: out_img = np.dot(img, [24.966, 128.553, 65.481]) + 16.0 else: out_img = np.matmul( img, [[24.966, 112.0, -18.214], [128.553, -74.203, -93.786], [65.481, -37.797, 112.0]]) + [16, 128, 128] out_img = _convert_output_type_range(out_img, img_type) return out_img def ycbcr2rgb(img): """Convert a YCbCr image to RGB image. This function produces the same results as Matlab's ycbcr2rgb function. It implements the ITU-R BT.601 conversion for standard-definition television. See more details in https://en.wikipedia.org/wiki/YCbCr#ITU-R_BT.601_conversion. It differs from a similar function in cv2.cvtColor: `YCrCb <-> RGB`. In OpenCV, it implements a JPEG conversion. See more details in https://en.wikipedia.org/wiki/YCbCr#JPEG_conversion. Args: img (ndarray): The input image. It accepts: 1. np.uint8 type with range [0, 255]; 2. np.float32 type with range [0, 1]. Returns: ndarray: The converted RGB image. The output image has the same type and range as input image. """ img_type = img.dtype img = _convert_input_type_range(img) * 255 out_img = np.matmul(img, [[0.00456621, 0.00456621, 0.00456621], [0, -0.00153632, 0.00791071], [0.00625893, -0.00318811, 0]]) * 255.0 + [ -222.921, 135.576, -276.836 ] out_img = _convert_output_type_range(out_img, img_type) return out_img def ycbcr2bgr(img): """Convert a YCbCr image to BGR image. The bgr version of ycbcr2rgb. It implements the ITU-R BT.601 conversion for standard-definition television. See more details in https://en.wikipedia.org/wiki/YCbCr#ITU-R_BT.601_conversion. It differs from a similar function in cv2.cvtColor: `YCrCb <-> BGR`. In OpenCV, it implements a JPEG conversion. See more details in https://en.wikipedia.org/wiki/YCbCr#JPEG_conversion. Args: img (ndarray): The input image. It accepts: 1. np.uint8 type with range [0, 255]; 2. np.float32 type with range [0, 1]. Returns: ndarray: The converted BGR image. The output image has the same type and range as input image. """ img_type = img.dtype img = _convert_input_type_range(img) * 255 out_img = np.matmul(img, [[0.00456621, 0.00456621, 0.00456621], [0.00791071, -0.00153632, 0], [0, -0.00318811, 0.00625893]]) * 255.0 + [ -276.836, 135.576, -222.921 ] out_img = _convert_output_type_range(out_img, img_type) return out_img def convert_color_factory(src, dst): code = getattr(cv2, f'COLOR_{src.upper()}2{dst.upper()}') def convert_color(img): out_img = cv2.cvtColor(img, code) return out_img convert_color.__doc__ = f"""Convert a {src.upper()} image to {dst.upper()} image. Args: img (ndarray or str): The input image. Returns: ndarray: The converted {dst.upper()} image. """ return convert_color bgr2rgb = convert_color_factory('bgr', 'rgb') rgb2bgr = convert_color_factory('rgb', 'bgr') bgr2hsv = convert_color_factory('bgr', 'hsv') hsv2bgr = convert_color_factory('hsv', 'bgr') bgr2hls = convert_color_factory('bgr', 'hls') hls2bgr = convert_color_factory('hls', 'bgr')