// This file is part of OpenCV project. // It is subject to the license terms in the LICENSE file found in the top-level directory // of this distribution and at http://opencv.org/license.html. // // Copyright (C) 2019 Intel Corporation #include "../test_precomp.hpp" #include "gapi_render_tests.hpp" namespace opencv_test { cv::Scalar cvtBGRToYUVC(const cv::Scalar& bgr) { double y = bgr[2] * 0.299000 + bgr[1] * 0.587000 + bgr[0] * 0.114000; double u = bgr[2] * -0.168736 + bgr[1] * -0.331264 + bgr[0] * 0.500000 + 128; double v = bgr[2] * 0.500000 + bgr[1] * -0.418688 + bgr[0] * -0.081312 + 128; return {y, u, v}; } void drawMosaicRef(const cv::Mat& mat, const cv::Rect &rect, int cellSz) { cv::Rect mat_rect(0, 0, mat.cols, mat.rows); auto intersection = mat_rect & rect; cv::Mat msc_roi = mat(intersection); bool has_crop_x = false; bool has_crop_y = false; int cols = msc_roi.cols; int rows = msc_roi.rows; if (msc_roi.cols % cellSz != 0) { has_crop_x = true; cols -= msc_roi.cols % cellSz; } if (msc_roi.rows % cellSz != 0) { has_crop_y = true; rows -= msc_roi.rows % cellSz; } cv::Mat cell_roi; for(int i = 0; i < rows; i += cellSz ) { for(int j = 0; j < cols; j += cellSz) { cell_roi = msc_roi(cv::Rect(j, i, cellSz, cellSz)); cell_roi = cv::mean(cell_roi); } if (has_crop_x) { cell_roi = msc_roi(cv::Rect(cols, i, msc_roi.cols - cols, cellSz)); cell_roi = cv::mean(cell_roi); } } if (has_crop_y) { for(int j = 0; j < cols; j += cellSz) { cell_roi = msc_roi(cv::Rect(j, rows, cellSz, msc_roi.rows - rows)); cell_roi = cv::mean(cell_roi); } if (has_crop_x) { cell_roi = msc_roi(cv::Rect(cols, rows, msc_roi.cols - cols, msc_roi.rows - rows)); cell_roi = cv::mean(cell_roi); } } } void blendImageRef(cv::Mat& mat, const cv::Point& org, const cv::Mat& img, const cv::Mat& alpha) { auto roi = mat(cv::Rect(org, img.size())); cv::Mat img32f_w; cv::merge(std::vector(3, alpha), img32f_w); cv::Mat roi32f_w(roi.size(), CV_32FC3, cv::Scalar::all(1.0)); roi32f_w -= img32f_w; cv::Mat img32f, roi32f; img.convertTo(img32f, CV_32F, 1.0/255); roi.convertTo(roi32f, CV_32F, 1.0/255); cv::multiply(img32f, img32f_w, img32f); cv::multiply(roi32f, roi32f_w, roi32f); roi32f += img32f; roi32f.convertTo(roi, CV_8U, 255.0); } } // namespace opencv_test