Open Source Computer Vision Library https://opencv.org/
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/*M///////////////////////////////////////////////////////////////////////////////////////
//
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// License Agreement
// For Open Source Computer Vision Library
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// Copyright (C) 2010-2012, Multicoreware, Inc., all rights reserved.
// Copyright (C) 2010-2012, Advanced Micro Devices, Inc., all rights reserved.
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// @Authors
// Fangfang Bai, fangfang@multicorewareinc.com
// Jin Ma, jin@multicorewareinc.com
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#include "../perf_precomp.hpp"
#include "opencv2/ts/ocl_perf.hpp"
namespace opencv_test {
namespace ocl {
///////////// equalizeHist ////////////////////////
typedef TestBaseWithParam<Size> EqualizeHistFixture;
OCL_PERF_TEST_P(EqualizeHistFixture, EqualizeHist, OCL_TEST_SIZES)
{
const Size srcSize = GetParam();
const double eps = 1;
checkDeviceMaxMemoryAllocSize(srcSize, CV_8UC1);
UMat src(srcSize, CV_8UC1), dst(srcSize, CV_8UC1);
declare.in(src, WARMUP_RNG).out(dst);
OCL_TEST_CYCLE() cv::equalizeHist(src, dst);
SANITY_CHECK(dst, eps);
}
///////////// calcHist ////////////////////////
typedef TestBaseWithParam<Size> CalcHistFixture;
OCL_PERF_TEST_P(CalcHistFixture, CalcHist, OCL_TEST_SIZES)
{
const Size srcSize = GetParam();
const std::vector<int> channels(1, 0);
std::vector<float> ranges(2);
std::vector<int> histSize(1, 256);
ranges[0] = 0;
ranges[1] = 256;
checkDeviceMaxMemoryAllocSize(srcSize, CV_8UC1);
UMat src(srcSize, CV_8UC1), hist(256, 1, CV_32FC1);
declare.in(src, WARMUP_RNG).out(hist);
OCL_TEST_CYCLE() cv::calcHist(std::vector<UMat>(1, src), channels, noArray(), hist, histSize, ranges, false);
SANITY_CHECK(hist);
}
///////////// calcHist ////////////////////////
typedef TestBaseWithParam<Size> CalcBackProjFixture;
OCL_PERF_TEST_P(CalcBackProjFixture, CalcBackProj, OCL_TEST_SIZES)
{
const Size srcSize = GetParam();
const std::vector<int> channels(1, 0);
std::vector<float> ranges(2);
std::vector<int> histSize(1, 256);
ranges[0] = 0;
ranges[1] = 256;
checkDeviceMaxMemoryAllocSize(srcSize, CV_8UC1);
UMat src(srcSize, CV_8UC1), hist(256, 1, CV_32FC1), dst(srcSize, CV_8UC1);
declare.in(src, WARMUP_RNG).out(hist);
cv::calcHist(std::vector<UMat>(1, src), channels, noArray(), hist, histSize, ranges, false);
declare.in(src, WARMUP_RNG).out(dst);
OCL_TEST_CYCLE() cv::calcBackProject(std::vector<UMat>(1,src), channels, hist, dst, ranges, 1);
SANITY_CHECK_NOTHING();
}
/////////// CopyMakeBorder //////////////////////
CV_ENUM(Border, BORDER_CONSTANT, BORDER_REPLICATE, BORDER_REFLECT, BORDER_WRAP, BORDER_REFLECT_101)
typedef tuple<Size, MatType, Border> CopyMakeBorderParamType;
typedef TestBaseWithParam<CopyMakeBorderParamType> CopyMakeBorderFixture;
OCL_PERF_TEST_P(CopyMakeBorderFixture, CopyMakeBorder,
::testing::Combine(OCL_TEST_SIZES, OCL_TEST_TYPES_134, Border::all()))
{
const CopyMakeBorderParamType params = GetParam();
const Size srcSize = get<0>(params);
const int type = get<1>(params), borderType = get<2>(params);
checkDeviceMaxMemoryAllocSize(srcSize, type);
UMat src(srcSize, type), dst;
const Size dstSize = srcSize + Size(12, 12);
dst.create(dstSize, type);
declare.in(src, WARMUP_RNG).out(dst);
OCL_TEST_CYCLE() cv::copyMakeBorder(src, dst, 7, 5, 5, 7, borderType, cv::Scalar(1.0));
SANITY_CHECK(dst);
}
///////////// CornerMinEigenVal ////////////////////////
typedef Size_MatType CornerMinEigenValFixture;
OCL_PERF_TEST_P(CornerMinEigenValFixture, CornerMinEigenVal,
::testing::Combine(OCL_TEST_SIZES, OCL_PERF_ENUM(CV_8UC1, CV_32FC1)))
{
const Size_MatType_t params = GetParam();
const Size srcSize = get<0>(params);
const int type = get<1>(params), borderType = BORDER_REFLECT;
const int blockSize = 7, apertureSize = 1 + 2 * 3;
checkDeviceMaxMemoryAllocSize(srcSize, type);
UMat src(srcSize, type), dst(srcSize, CV_32FC1);
declare.in(src, WARMUP_RNG).out(dst);
OCL_TEST_CYCLE() cv::cornerMinEigenVal(src, dst, blockSize, apertureSize, borderType);
#ifdef HAVE_OPENCL
bool strictCheck = !ocl::useOpenCL() || ocl::Device::getDefault().isIntel();
#else
bool strictCheck = true;
#endif
// using native_* OpenCL functions on non-intel devices may lose accuracy
if (strictCheck)
SANITY_CHECK(dst, 1e-6, ERROR_RELATIVE);
else
SANITY_CHECK(dst, 0.1, ERROR_RELATIVE);
}
///////////// CornerHarris ////////////////////////
typedef Size_MatType CornerHarrisFixture;
OCL_PERF_TEST_P(CornerHarrisFixture, CornerHarris,
::testing::Combine(OCL_TEST_SIZES, OCL_PERF_ENUM(CV_8UC1, CV_32FC1)))
{
const Size_MatType_t params = GetParam();
const Size srcSize = get<0>(params);
const int type = get<1>(params), borderType = BORDER_REFLECT;
checkDeviceMaxMemoryAllocSize(srcSize, type);
UMat src(srcSize, type), dst(srcSize, CV_32FC1);
declare.in(src, WARMUP_RNG).out(dst);
OCL_TEST_CYCLE() cv::cornerHarris(src, dst, 5, 7, 0.1, borderType);
SANITY_CHECK(dst, 5e-6, ERROR_RELATIVE);
}
///////////// PreCornerDetect ////////////////////////
typedef Size_MatType PreCornerDetectFixture;
OCL_PERF_TEST_P(PreCornerDetectFixture, PreCornerDetect,
::testing::Combine(OCL_TEST_SIZES, OCL_PERF_ENUM(CV_8UC1, CV_32FC1)))
{
const Size_MatType_t params = GetParam();
const Size srcSize = get<0>(params);
const int type = get<1>(params), borderType = BORDER_REFLECT;
checkDeviceMaxMemoryAllocSize(srcSize, type);
UMat src(srcSize, type), dst(srcSize, CV_32FC1);
declare.in(src, WARMUP_RNG).out(dst);
OCL_TEST_CYCLE() cv::preCornerDetect(src, dst, 3, borderType);
SANITY_CHECK(dst, 1e-6, ERROR_RELATIVE);
}
///////////// Integral ////////////////////////
typedef tuple<Size, MatDepth> IntegralParams;
typedef TestBaseWithParam<IntegralParams> IntegralFixture;
OCL_PERF_TEST_P(IntegralFixture, Integral1, ::testing::Combine(OCL_TEST_SIZES, OCL_PERF_ENUM(CV_32S, CV_32F)))
{
const IntegralParams params = GetParam();
const Size srcSize = get<0>(params);
const int ddepth = get<1>(params);
checkDeviceMaxMemoryAllocSize(srcSize, ddepth);
UMat src(srcSize, CV_8UC1), dst(srcSize + Size(1, 1), ddepth);
declare.in(src, WARMUP_RNG).out(dst);
OCL_TEST_CYCLE() cv::integral(src, dst, ddepth);
SANITY_CHECK(dst, 2e-6, ERROR_RELATIVE);
}
OCL_PERF_TEST_P(IntegralFixture, Integral2, ::testing::Combine(OCL_TEST_SIZES, OCL_PERF_ENUM(CV_32S, CV_32F)))
{
const IntegralParams params = GetParam();
const Size srcSize = get<0>(params);
const int ddepth = get<1>(params);
checkDeviceMaxMemoryAllocSize(srcSize, ddepth);
UMat src(srcSize, CV_8UC1), sum(srcSize + Size(1, 1), ddepth), sqsum(srcSize + Size(1, 1), CV_32F);
declare.in(src, WARMUP_RNG).out(sum, sqsum);
OCL_TEST_CYCLE() cv::integral(src, sum, sqsum, ddepth, CV_32F);
SANITY_CHECK(sum, 2e-4, ERROR_RELATIVE);
SANITY_CHECK(sqsum, 5e-5, ERROR_RELATIVE);
}
///////////// Threshold ////////////////////////
CV_ENUM(ThreshType, THRESH_BINARY, THRESH_BINARY_INV, THRESH_TRUNC, THRESH_TOZERO_INV)
typedef tuple<Size, MatType, ThreshType> ThreshParams;
typedef TestBaseWithParam<ThreshParams> ThreshFixture;
OCL_PERF_TEST_P(ThreshFixture, Threshold,
::testing::Combine(OCL_TEST_SIZES, OCL_TEST_TYPES, ThreshType::all()))
{
const ThreshParams params = GetParam();
const Size srcSize = get<0>(params);
const int srcType = get<1>(params);
const int threshType = get<2>(params);
const double maxValue = 220.0, threshold = 50;
checkDeviceMaxMemoryAllocSize(srcSize, srcType);
UMat src(srcSize, srcType), dst(srcSize, srcType);
declare.in(src, WARMUP_RNG).out(dst);
OCL_TEST_CYCLE() cv::threshold(src, dst, threshold, maxValue, threshType);
SANITY_CHECK(dst);
}
///////////// CLAHE ////////////////////////
typedef TestBaseWithParam<Size> CLAHEFixture;
OCL_PERF_TEST_P(CLAHEFixture, CLAHE, OCL_TEST_SIZES)
{
const Size srcSize = GetParam();
checkDeviceMaxMemoryAllocSize(srcSize, CV_8UC1);
UMat src(srcSize, CV_8UC1), dst(srcSize, CV_8UC1);
const double clipLimit = 40.0;
declare.in(src, WARMUP_RNG).out(dst);
cv::Ptr<cv::CLAHE> clahe = cv::createCLAHE(clipLimit);
OCL_TEST_CYCLE() clahe->apply(src, dst);
SANITY_CHECK(dst);
}
///////////// Canny ////////////////////////
typedef tuple<Size, int, bool> CannyParams;
typedef TestBaseWithParam<CannyParams> CannyFixture;
OCL_PERF_TEST_P(CannyFixture, Canny, ::testing::Combine(OCL_TEST_SIZES, OCL_PERF_ENUM(3, 5), Bool()))
{
const CannyParams& params = GetParam();
cv::Size imgSize = get<0>(params);
int apertureSize = get<1>(params);
bool L2Grad = get<2>(params);
Mat _img = imread(getDataPath("gpu/stereobm/aloe-L.png"), cv::IMREAD_GRAYSCALE);
ASSERT_TRUE(!_img.empty()) << "can't open aloe-L.png";
UMat img;
cv::resize(_img, img, imgSize, 0, 0, INTER_LINEAR_EXACT);
UMat edges(img.size(), CV_8UC1);
declare.in(img).out(edges);
PERF_SAMPLE_BEGIN();
cv::Canny(img, edges, 50.0, 100.0, apertureSize, L2Grad);
PERF_SAMPLE_END();
SANITY_CHECK_NOTHING();
}
} } // namespace opencv_test::ocl