opencv/modules/gpu/test/test_nvidia.cpp

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#include "test_precomp.hpp"
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#ifdef HAVE_CUDA
using namespace cvtest;
using namespace testing;
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enum OutputLevel
{
OutputLevelNone,
OutputLevelCompact,
OutputLevelFull
};
bool nvidia_NPPST_Integral_Image(const std::string& test_data_path, OutputLevel outputLevel);
bool nvidia_NPPST_Squared_Integral_Image(const std::string& test_data_path, OutputLevel outputLevel);
bool nvidia_NPPST_RectStdDev(const std::string& test_data_path, OutputLevel outputLevel);
bool nvidia_NPPST_Resize(const std::string& test_data_path, OutputLevel outputLevel);
bool nvidia_NPPST_Vector_Operations(const std::string& test_data_path, OutputLevel outputLevel);
bool nvidia_NPPST_Transpose(const std::string& test_data_path, OutputLevel outputLevel);
bool nvidia_NCV_Vector_Operations(const std::string& test_data_path, OutputLevel outputLevel);
bool nvidia_NCV_Haar_Cascade_Loader(const std::string& test_data_path, OutputLevel outputLevel);
bool nvidia_NCV_Haar_Cascade_Application(const std::string& test_data_path, OutputLevel outputLevel);
bool nvidia_NCV_Hypotheses_Filtration(const std::string& test_data_path, OutputLevel outputLevel);
bool nvidia_NCV_Visualization(const std::string& test_data_path, OutputLevel outputLevel);
struct NVidiaTest : TestWithParam<cv::gpu::DeviceInfo>
{
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cv::gpu::DeviceInfo devInfo;
std::string path;
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virtual void SetUp()
{
devInfo = GetParam();
cv::gpu::setDevice(devInfo.deviceID());
path = std::string(TS::ptr()->get_data_path()) + "haarcascade/";
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}
};
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struct NPPST : NVidiaTest {};
struct NCV : NVidiaTest {};
OutputLevel nvidiaTestOutputLevel = OutputLevelNone;
TEST_P(NPPST, Integral)
{
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bool res = nvidia_NPPST_Integral_Image(path, nvidiaTestOutputLevel);
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ASSERT_TRUE(res);
}
TEST_P(NPPST, SquaredIntegral)
{
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bool res = nvidia_NPPST_Squared_Integral_Image(path, nvidiaTestOutputLevel);
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ASSERT_TRUE(res);
}
TEST_P(NPPST, RectStdDev)
{
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bool res = nvidia_NPPST_RectStdDev(path, nvidiaTestOutputLevel);
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ASSERT_TRUE(res);
}
TEST_P(NPPST, Resize)
{
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bool res = nvidia_NPPST_Resize(path, nvidiaTestOutputLevel);
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ASSERT_TRUE(res);
}
TEST_P(NPPST, VectorOperations)
{
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bool res = nvidia_NPPST_Vector_Operations(path, nvidiaTestOutputLevel);
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ASSERT_TRUE(res);
}
TEST_P(NPPST, Transpose)
{
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bool res = nvidia_NPPST_Transpose(path, nvidiaTestOutputLevel);
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ASSERT_TRUE(res);
}
TEST_P(NCV, VectorOperations)
{
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bool res = nvidia_NCV_Vector_Operations(path, nvidiaTestOutputLevel);
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ASSERT_TRUE(res);
}
TEST_P(NCV, HaarCascadeLoader)
{
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bool res = nvidia_NCV_Haar_Cascade_Loader(path, nvidiaTestOutputLevel);
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ASSERT_TRUE(res);
}
TEST_P(NCV, HaarCascadeApplication)
{
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bool res = nvidia_NCV_Haar_Cascade_Application(path, nvidiaTestOutputLevel);
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ASSERT_TRUE(res);
}
TEST_P(NCV, HypothesesFiltration)
{
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bool res = nvidia_NCV_Hypotheses_Filtration(path, nvidiaTestOutputLevel);
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ASSERT_TRUE(res);
}
TEST_P(NCV, Visualization)
{
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bool res = nvidia_NCV_Visualization(path, nvidiaTestOutputLevel);
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ASSERT_TRUE(res);
}
INSTANTIATE_TEST_CASE_P(NVidia, NPPST, ALL_DEVICES);
INSTANTIATE_TEST_CASE_P(NVidia, NCV, ALL_DEVICES);
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#endif // HAVE_CUDA