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/*M///////////////////////////////////////////////////////////////////////////////////////
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//
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// IMPORTANT: READ BEFORE DOWNLOADING, COPYING, INSTALLING OR USING.
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//
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// By downloading, copying, installing or using the software you agree to this license.
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// If you do not agree to this license, do not download, install,
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// copy or use the software.
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//
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//
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// License Agreement
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// For Open Source Computer Vision Library
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//
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// Copyright (C) 2010-2012, Multicoreware, Inc., all rights reserved.
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// Copyright (C) 2010-2012, Advanced Micro Devices, Inc., all rights reserved.
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// Third party copyrights are property of their respective owners.
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//
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// @Authors
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// Peng Xiao, pengxiao@multicorewareinc.com
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//
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// Redistribution and use in source and binary forms, with or without modification,
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// are permitted provided that the following conditions are met:
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//
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// * Redistribution's of source code must retain the above copyright notice,
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// this list of conditions and the following disclaimer.
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//
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// * Redistribution's in binary form must reproduce the above copyright notice,
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// this list of conditions and the following disclaimer in the documentation
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// and/or other materials provided with the distribution.
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//
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// * The name of the copyright holders may not be used to endorse or promote products
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// derived from this software without specific prior written permission.
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//
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// This software is provided by the copyright holders and contributors as is and
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// any express or implied warranties, including, but not limited to, the implied
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// warranties of merchantability and fitness for a particular purpose are disclaimed.
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// In no event shall the Intel Corporation or contributors be liable for any direct,
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// indirect, incidental, special, exemplary, or consequential damages
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// (including, but not limited to, procurement of substitute goods or services;
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// loss of use, data, or profits; or business interruption) however caused
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// and on any theory of liability, whether in contract, strict liability,
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// or tort (including negligence or otherwise) arising in any way out of
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// the use of this software, even if advised of the possibility of such damage.
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//
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//M*/
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#include "test_precomp.hpp" |
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using namespace cv; |
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#ifdef HAVE_OPENCL |
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using namespace testing; |
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using namespace cv; |
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///////////////////////////////////////////////////////////////////////////////////////////////////////
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// cvtColor
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PARAM_TEST_CASE(CvtColor, MatDepth, bool) |
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{ |
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int depth; |
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bool use_roi; |
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// src mat
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Mat src; |
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Mat dst; |
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// src mat with roi
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Mat src_roi; |
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Mat dst_roi; |
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// ocl dst mat for testing
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ocl::oclMat gsrc_whole; |
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ocl::oclMat gdst_whole; |
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// ocl mat with roi
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ocl::oclMat gsrc_roi; |
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ocl::oclMat gdst_roi; |
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virtual void SetUp() |
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{ |
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depth = GET_PARAM(0); |
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use_roi = GET_PARAM(1); |
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} |
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virtual void random_roi(int channelsIn, int channelsOut) |
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{ |
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const int srcType = CV_MAKE_TYPE(depth, channelsIn); |
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const int dstType = CV_MAKE_TYPE(depth, channelsOut); |
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Size roiSize = randomSize(1, MAX_VALUE); |
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Border srcBorder = randomBorder(0, use_roi ? MAX_VALUE : 0); |
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randomSubMat(src, src_roi, roiSize, srcBorder, srcType, 2, 100); |
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Border dstBorder = randomBorder(0, use_roi ? MAX_VALUE : 0); |
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randomSubMat(dst, dst_roi, roiSize, dstBorder, dstType, 5, 16); |
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generateOclMat(gsrc_whole, gsrc_roi, src, roiSize, srcBorder); |
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generateOclMat(gdst_whole, gdst_roi, dst, roiSize, dstBorder); |
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} |
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void Near(double threshold) |
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{ |
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Mat whole, roi; |
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gdst_whole.download(whole); |
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gdst_roi.download(roi); |
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EXPECT_MAT_NEAR(dst, whole, threshold); |
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EXPECT_MAT_NEAR(dst_roi, roi, threshold); |
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} |
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void doTest(int channelsIn, int channelsOut, int code, double threshold = 1e-3) |
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{ |
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for (int j = 0; j < LOOP_TIMES; j++) |
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{ |
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random_roi(channelsIn, channelsOut); |
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cvtColor(src_roi, dst_roi, code, channelsOut); |
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ocl::cvtColor(gsrc_roi, gdst_roi, code, channelsOut); |
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Near(threshold); |
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} |
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} |
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}; |
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#define CVTCODE(name) COLOR_ ## name |
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// RGB[A] <-> BGR[A]
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OCL_TEST_P(CvtColor, BGR2BGRA) { doTest(3, 4, CVTCODE(BGR2BGRA)); } |
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OCL_TEST_P(CvtColor, RGB2RGBA) { doTest(3, 4, CVTCODE(RGB2RGBA)); } |
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OCL_TEST_P(CvtColor, BGRA2BGR) { doTest(4, 3, CVTCODE(BGRA2BGR)); } |
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OCL_TEST_P(CvtColor, RGBA2RGB) { doTest(4, 3, CVTCODE(RGBA2RGB)); } |
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OCL_TEST_P(CvtColor, BGR2RGBA) { doTest(3, 4, CVTCODE(BGR2RGBA)); } |
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OCL_TEST_P(CvtColor, RGB2BGRA) { doTest(3, 4, CVTCODE(RGB2BGRA)); } |
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OCL_TEST_P(CvtColor, RGBA2BGR) { doTest(4, 3, CVTCODE(RGBA2BGR)); } |
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OCL_TEST_P(CvtColor, BGRA2RGB) { doTest(4, 3, CVTCODE(BGRA2RGB)); } |
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OCL_TEST_P(CvtColor, BGR2RGB) { doTest(3, 3, CVTCODE(BGR2RGB)); } |
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OCL_TEST_P(CvtColor, RGB2BGR) { doTest(3, 3, CVTCODE(RGB2BGR)); } |
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OCL_TEST_P(CvtColor, BGRA2RGBA) { doTest(4, 4, CVTCODE(BGRA2RGBA)); } |
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OCL_TEST_P(CvtColor, RGBA2BGRA) { doTest(4, 4, CVTCODE(RGBA2BGRA)); } |
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// RGB <-> Gray
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OCL_TEST_P(CvtColor, RGB2GRAY) { doTest(3, 1, CVTCODE(RGB2GRAY)); } |
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OCL_TEST_P(CvtColor, GRAY2RGB) { doTest(1, 3, CVTCODE(GRAY2RGB)); } |
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OCL_TEST_P(CvtColor, BGR2GRAY) { doTest(3, 1, CVTCODE(BGR2GRAY)); } |
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OCL_TEST_P(CvtColor, GRAY2BGR) { doTest(1, 3, CVTCODE(GRAY2BGR)); } |
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OCL_TEST_P(CvtColor, RGBA2GRAY) { doTest(4, 1, CVTCODE(RGBA2GRAY)); } |
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OCL_TEST_P(CvtColor, GRAY2RGBA) { doTest(1, 4, CVTCODE(GRAY2RGBA)); } |
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OCL_TEST_P(CvtColor, BGRA2GRAY) { doTest(4, 1, CVTCODE(BGRA2GRAY)); } |
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OCL_TEST_P(CvtColor, GRAY2BGRA) { doTest(1, 4, CVTCODE(GRAY2BGRA)); } |
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// RGB <-> YUV
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OCL_TEST_P(CvtColor, RGB2YUV) { doTest(3, 3, CVTCODE(RGB2YUV)); } |
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OCL_TEST_P(CvtColor, BGR2YUV) { doTest(3, 3, CVTCODE(BGR2YUV)); } |
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OCL_TEST_P(CvtColor, RGBA2YUV) { doTest(4, 3, CVTCODE(RGB2YUV)); } |
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OCL_TEST_P(CvtColor, BGRA2YUV) { doTest(4, 3, CVTCODE(BGR2YUV)); } |
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OCL_TEST_P(CvtColor, YUV2RGB) { doTest(3, 3, CVTCODE(YUV2RGB)); } |
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OCL_TEST_P(CvtColor, YUV2BGR) { doTest(3, 3, CVTCODE(YUV2BGR)); } |
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OCL_TEST_P(CvtColor, YUV2RGBA) { doTest(3, 4, CVTCODE(YUV2RGB)); } |
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OCL_TEST_P(CvtColor, YUV2BGRA) { doTest(3, 4, CVTCODE(YUV2BGR)); } |
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// RGB <-> YCrCb
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OCL_TEST_P(CvtColor, RGB2YCrCb) { doTest(3, 3, CVTCODE(RGB2YCrCb)); } |
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OCL_TEST_P(CvtColor, BGR2YCrCb) { doTest(3, 3, CVTCODE(BGR2YCrCb)); } |
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OCL_TEST_P(CvtColor, RGBA2YCrCb) { doTest(4, 3, CVTCODE(RGB2YCrCb)); } |
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OCL_TEST_P(CvtColor, BGRA2YCrCb) { doTest(4, 3, CVTCODE(BGR2YCrCb)); } |
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OCL_TEST_P(CvtColor, YCrCb2RGB) { doTest(3, 3, CVTCODE(YCrCb2RGB)); } |
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OCL_TEST_P(CvtColor, YCrCb2BGR) { doTest(3, 3, CVTCODE(YCrCb2BGR)); } |
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OCL_TEST_P(CvtColor, YCrCb2RGBA) { doTest(3, 4, CVTCODE(YCrCb2RGB)); } |
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OCL_TEST_P(CvtColor, YCrCb2BGRA) { doTest(3, 4, CVTCODE(YCrCb2BGR)); } |
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// RGB <-> XYZ
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OCL_TEST_P(CvtColor, RGB2XYZ) { doTest(3, 3, CVTCODE(RGB2XYZ)); } |
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OCL_TEST_P(CvtColor, BGR2XYZ) { doTest(3, 3, CVTCODE(BGR2XYZ)); } |
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OCL_TEST_P(CvtColor, RGBA2XYZ) { doTest(4, 3, CVTCODE(RGB2XYZ)); } |
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OCL_TEST_P(CvtColor, BGRA2XYZ) { doTest(4, 3, CVTCODE(BGR2XYZ)); } |
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OCL_TEST_P(CvtColor, XYZ2RGB) { doTest(3, 3, CVTCODE(XYZ2RGB)); } |
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OCL_TEST_P(CvtColor, XYZ2BGR) { doTest(3, 3, CVTCODE(XYZ2BGR)); } |
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OCL_TEST_P(CvtColor, XYZ2RGBA) { doTest(3, 4, CVTCODE(XYZ2RGB)); } |
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OCL_TEST_P(CvtColor, XYZ2BGRA) { doTest(3, 4, CVTCODE(XYZ2BGR)); } |
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// RGB <-> HSV
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typedef CvtColor CvtColor8u32f; |
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OCL_TEST_P(CvtColor8u32f, RGB2HSV) { doTest(3, 3, CVTCODE(RGB2HSV)); } |
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OCL_TEST_P(CvtColor8u32f, BGR2HSV) { doTest(3, 3, CVTCODE(BGR2HSV)); } |
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OCL_TEST_P(CvtColor8u32f, RGBA2HSV) { doTest(4, 3, CVTCODE(RGB2HSV)); } |
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OCL_TEST_P(CvtColor8u32f, BGRA2HSV) { doTest(4, 3, CVTCODE(BGR2HSV)); } |
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OCL_TEST_P(CvtColor8u32f, RGB2HSV_FULL) { doTest(3, 3, CVTCODE(RGB2HSV_FULL)); } |
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OCL_TEST_P(CvtColor8u32f, BGR2HSV_FULL) { doTest(3, 3, CVTCODE(BGR2HSV_FULL)); } |
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OCL_TEST_P(CvtColor8u32f, RGBA2HSV_FULL) { doTest(4, 3, CVTCODE(RGB2HSV_FULL)); } |
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OCL_TEST_P(CvtColor8u32f, BGRA2HSV_FULL) { doTest(4, 3, CVTCODE(BGR2HSV_FULL)); } |
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OCL_TEST_P(CvtColor8u32f, HSV2RGB) { doTest(3, 3, CVTCODE(HSV2RGB), depth == CV_8U ? 1 : 4e-1); } |
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OCL_TEST_P(CvtColor8u32f, HSV2BGR) { doTest(3, 3, CVTCODE(HSV2BGR), depth == CV_8U ? 1 : 4e-1); } |
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OCL_TEST_P(CvtColor8u32f, HSV2RGBA) { doTest(3, 4, CVTCODE(HSV2RGB), depth == CV_8U ? 1 : 4e-1); } |
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OCL_TEST_P(CvtColor8u32f, HSV2BGRA) { doTest(3, 4, CVTCODE(HSV2BGR), depth == CV_8U ? 1 : 4e-1); } |
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OCL_TEST_P(CvtColor8u32f, HSV2RGB_FULL) { doTest(3, 3, CVTCODE(HSV2RGB_FULL), depth == CV_8U ? 1 : 4e-1); } |
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OCL_TEST_P(CvtColor8u32f, HSV2BGR_FULL) { doTest(3, 3, CVTCODE(HSV2BGR_FULL), depth == CV_8U ? 1 : 4e-1); } |
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OCL_TEST_P(CvtColor8u32f, HSV2RGBA_FULL) { doTest(3, 4, CVTCODE(HSV2BGR_FULL), depth == CV_8U ? 1 : 4e-1); } |
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OCL_TEST_P(CvtColor8u32f, HSV2BGRA_FULL) { doTest(3, 4, CVTCODE(HSV2BGR_FULL), depth == CV_8U ? 1 : 4e-1); } |
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// RGB <-> HLS
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OCL_TEST_P(CvtColor8u32f, RGB2HLS) { doTest(3, 3, CVTCODE(RGB2HLS), depth == CV_8U ? 1 : 1e-3); } |
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OCL_TEST_P(CvtColor8u32f, BGR2HLS) { doTest(3, 3, CVTCODE(BGR2HLS), depth == CV_8U ? 1 : 1e-3); } |
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OCL_TEST_P(CvtColor8u32f, RGBA2HLS) { doTest(4, 3, CVTCODE(RGB2HLS), depth == CV_8U ? 1 : 1e-3); } |
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OCL_TEST_P(CvtColor8u32f, BGRA2HLS) { doTest(4, 3, CVTCODE(BGR2HLS), depth == CV_8U ? 1 : 1e-3); } |
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OCL_TEST_P(CvtColor8u32f, RGB2HLS_FULL) { doTest(3, 3, CVTCODE(RGB2HLS_FULL), depth == CV_8U ? 1 : 1e-3); } |
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OCL_TEST_P(CvtColor8u32f, BGR2HLS_FULL) { doTest(3, 3, CVTCODE(BGR2HLS_FULL), depth == CV_8U ? 1 : 1e-3); } |
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OCL_TEST_P(CvtColor8u32f, RGBA2HLS_FULL) { doTest(4, 3, CVTCODE(RGB2HLS_FULL), depth == CV_8U ? 1 : 1e-3); } |
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OCL_TEST_P(CvtColor8u32f, BGRA2HLS_FULL) { doTest(4, 3, CVTCODE(BGR2HLS_FULL), depth == CV_8U ? 1 : 1e-3); } |
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OCL_TEST_P(CvtColor8u32f, HLS2RGB) { doTest(3, 3, CVTCODE(HLS2RGB), 1); } |
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OCL_TEST_P(CvtColor8u32f, HLS2BGR) { doTest(3, 3, CVTCODE(HLS2BGR), 1); } |
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OCL_TEST_P(CvtColor8u32f, HLS2RGBA) { doTest(3, 4, CVTCODE(HLS2RGB), 1); } |
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OCL_TEST_P(CvtColor8u32f, HLS2BGRA) { doTest(3, 4, CVTCODE(HLS2BGR), 1); } |
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OCL_TEST_P(CvtColor8u32f, HLS2RGB_FULL) { doTest(3, 3, CVTCODE(HLS2RGB_FULL), 1); } |
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OCL_TEST_P(CvtColor8u32f, HLS2BGR_FULL) { doTest(3, 3, CVTCODE(HLS2BGR_FULL), 1); } |
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OCL_TEST_P(CvtColor8u32f, HLS2RGBA_FULL) { doTest(3, 4, CVTCODE(HLS2RGB_FULL), 1); } |
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OCL_TEST_P(CvtColor8u32f, HLS2BGRA_FULL) { doTest(3, 4, CVTCODE(HLS2BGR_FULL), 1); } |
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// RGB5x5 <-> RGB
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typedef CvtColor CvtColor8u; |
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OCL_TEST_P(CvtColor8u, BGR5652BGR) { doTest(2, 3, CVTCODE(BGR5652BGR)); } |
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OCL_TEST_P(CvtColor8u, BGR5652RGB) { doTest(2, 3, CVTCODE(BGR5652RGB)); } |
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OCL_TEST_P(CvtColor8u, BGR5652BGRA) { doTest(2, 4, CVTCODE(BGR5652BGRA)); } |
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OCL_TEST_P(CvtColor8u, BGR5652RGBA) { doTest(2, 4, CVTCODE(BGR5652RGBA)); } |
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OCL_TEST_P(CvtColor8u, BGR5552BGR) { doTest(2, 3, CVTCODE(BGR5552BGR)); } |
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OCL_TEST_P(CvtColor8u, BGR5552RGB) { doTest(2, 3, CVTCODE(BGR5552RGB)); } |
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OCL_TEST_P(CvtColor8u, BGR5552BGRA) { doTest(2, 4, CVTCODE(BGR5552BGRA)); } |
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OCL_TEST_P(CvtColor8u, BGR5552RGBA) { doTest(2, 4, CVTCODE(BGR5552RGBA)); } |
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OCL_TEST_P(CvtColor8u, BGR2BGR565) { doTest(3, 2, CVTCODE(BGR2BGR565)); } |
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OCL_TEST_P(CvtColor8u, RGB2BGR565) { doTest(3, 2, CVTCODE(RGB2BGR565)); } |
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OCL_TEST_P(CvtColor8u, BGRA2BGR565) { doTest(4, 2, CVTCODE(BGRA2BGR565)); } |
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OCL_TEST_P(CvtColor8u, RGBA2BGR565) { doTest(4, 2, CVTCODE(RGBA2BGR565)); } |
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OCL_TEST_P(CvtColor8u, BGR2BGR555) { doTest(3, 2, CVTCODE(BGR2BGR555)); } |
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OCL_TEST_P(CvtColor8u, RGB2BGR555) { doTest(3, 2, CVTCODE(RGB2BGR555)); } |
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OCL_TEST_P(CvtColor8u, BGRA2BGR555) { doTest(4, 2, CVTCODE(BGRA2BGR555)); } |
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OCL_TEST_P(CvtColor8u, RGBA2BGR555) { doTest(4, 2, CVTCODE(RGBA2BGR555)); } |
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// RGB5x5 <-> Gray
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OCL_TEST_P(CvtColor8u, BGR5652GRAY) { doTest(2, 1, CVTCODE(BGR5652GRAY)); } |
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OCL_TEST_P(CvtColor8u, BGR5552GRAY) { doTest(2, 1, CVTCODE(BGR5552GRAY)); } |
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OCL_TEST_P(CvtColor8u, GRAY2BGR565) { doTest(1, 2, CVTCODE(GRAY2BGR565)); } |
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OCL_TEST_P(CvtColor8u, GRAY2BGR555) { doTest(1, 2, CVTCODE(GRAY2BGR555)); } |
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// RGBA <-> mRGBA
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OCL_TEST_P(CvtColor8u, RGBA2mRGBA) { doTest(4, 4, CVTCODE(RGBA2mRGBA)); } |
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OCL_TEST_P(CvtColor8u, mRGBA2RGBA) { doTest(4, 4, CVTCODE(mRGBA2RGBA)); } |
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// YUV -> RGBA_NV12
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struct CvtColor_YUV420 : |
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public CvtColor |
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{ |
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void random_roi(int channelsIn, int channelsOut) |
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{ |
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const int srcType = CV_MAKE_TYPE(depth, channelsIn); |
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const int dstType = CV_MAKE_TYPE(depth, channelsOut); |
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Size roiSize = randomSize(1, MAX_VALUE); |
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roiSize.width *= 2; |
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roiSize.height *= 3; |
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Border srcBorder = randomBorder(0, use_roi ? MAX_VALUE : 0); |
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randomSubMat(src, src_roi, roiSize, srcBorder, srcType, 2, 100); |
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Border dstBorder = randomBorder(0, use_roi ? MAX_VALUE : 0); |
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randomSubMat(dst, dst_roi, roiSize, dstBorder, dstType, 5, 16); |
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generateOclMat(gsrc_whole, gsrc_roi, src, roiSize, srcBorder); |
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generateOclMat(gdst_whole, gdst_roi, dst, roiSize, dstBorder); |
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} |
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}; |
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OCL_TEST_P(CvtColor_YUV420, YUV2RGBA_NV12) { doTest(1, 4, COLOR_YUV2RGBA_NV12); } |
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OCL_TEST_P(CvtColor_YUV420, YUV2BGRA_NV12) { doTest(1, 4, COLOR_YUV2BGRA_NV12); } |
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OCL_TEST_P(CvtColor_YUV420, YUV2RGB_NV12) { doTest(1, 3, COLOR_YUV2RGB_NV12); } |
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OCL_TEST_P(CvtColor_YUV420, YUV2BGR_NV12) { doTest(1, 3, COLOR_YUV2BGR_NV12); } |
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INSTANTIATE_TEST_CASE_P(OCL_ImgProc, CvtColor8u, |
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testing::Combine(testing::Values(MatDepth(CV_8U)), Bool())); |
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INSTANTIATE_TEST_CASE_P(OCL_ImgProc, CvtColor8u32f, |
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testing::Combine(testing::Values(MatDepth(CV_8U), MatDepth(CV_32F)), Bool())); |
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INSTANTIATE_TEST_CASE_P(OCL_ImgProc, CvtColor, |
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testing::Combine( |
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testing::Values(MatDepth(CV_8U), MatDepth(CV_16U), MatDepth(CV_32F)), |
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Bool())); |
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INSTANTIATE_TEST_CASE_P(OCL_ImgProc, CvtColor_YUV420, |
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testing::Combine( |
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testing::Values(MatDepth(CV_8U)), |
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Bool())); |
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#endif |
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Reference in new issue