video-libs / opencv /sources /modules /video /test /test_OF_reproducibility.cpp

ffmpeg (v6.0/v7.x), gensim, numpy, opencv

be94e5d verified 7 months ago

6.63 kB

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	#include "test_precomp.hpp"

	namespace opencv_test { namespace {

	typedef tuple<Size> OFParams;
	typedef TestWithParam<OFParams> DenseOpticalFlow_DIS;
	typedef TestWithParam<OFParams> DenseOpticalFlow_VariationalRefinement;

	TEST_P(DenseOpticalFlow_DIS, MultithreadReproducibility)
	{
	double MAX_DIF = 0.01;
	double MAX_MEAN_DIF = 0.001;
	int loopsCount = 2;
	RNG rng(0);

	OFParams params = GetParam();
	Size size = get<0>(params);

	int nThreads = cv::getNumThreads();
	if (nThreads == 1)
	throw SkipTestException("Single thread environment");
	for (int iter = 0; iter <= loopsCount; iter++)
	{
	Mat frame1(size, CV_8U);
	randu(frame1, 0, 255);
	Mat frame2(size, CV_8U);
	randu(frame2, 0, 255);

	Ptr<DISOpticalFlow> algo = DISOpticalFlow::create();
	int psz = rng.uniform(4, 16);
	int pstr = rng.uniform(1, psz - 1);
	int grad_iter = rng.uniform(1, 64);
	int var_iter = rng.uniform(0, 10);
	bool use_mean_normalization = !!rng.uniform(0, 2);
	bool use_spatial_propagation = !!rng.uniform(0, 2);
	algo->setFinestScale(0);
	algo->setPatchSize(psz);
	algo->setPatchStride(pstr);
	algo->setGradientDescentIterations(grad_iter);
	algo->setVariationalRefinementIterations(var_iter);
	algo->setUseMeanNormalization(use_mean_normalization);
	algo->setUseSpatialPropagation(use_spatial_propagation);

	cv::setNumThreads(nThreads);
	Mat resMultiThread;
	algo->calc(frame1, frame2, resMultiThread);

	cv::setNumThreads(1);
	Mat resSingleThread;
	algo->calc(frame1, frame2, resSingleThread);

	EXPECT_LE(cv::norm(resSingleThread, resMultiThread, NORM_INF), MAX_DIF);
	EXPECT_LE(cv::norm(resSingleThread, resMultiThread, NORM_L1), MAX_MEAN_DIF * frame1.total());

	// resulting flow should be within the frame bounds:
	double min_val, max_val;
	minMaxLoc(resMultiThread, &min_val, &max_val);
	EXPECT_LE(abs(min_val), sqrt( static_cast<double>(size.height * size.height + size.width * size.width)) );
	EXPECT_LE(abs(max_val), sqrt( static_cast<double>(size.height * size.height + size.width * size.width)) );
	}
	}

	INSTANTIATE_TEST_CASE_P(FullSet, DenseOpticalFlow_DIS, Values(szODD, szQVGA));

	TEST_P(DenseOpticalFlow_VariationalRefinement, MultithreadReproducibility)
	{
	double MAX_DIF = 0.01;
	double MAX_MEAN_DIF = 0.001;
	float input_flow_rad = 5.0;
	int loopsCount = 2;
	RNG rng(0);

	OFParams params = GetParam();
	Size size = get<0>(params);

	int nThreads = cv::getNumThreads();
	if (nThreads == 1)
	throw SkipTestException("Single thread environment");
	for (int iter = 0; iter <= loopsCount; iter++)
	{
	Mat frame1(size, CV_8U);
	randu(frame1, 0, 255);
	Mat frame2(size, CV_8U);
	randu(frame2, 0, 255);
	Mat flow(size, CV_32FC2);
	randu(flow, -input_flow_rad, input_flow_rad);

	Ptr<VariationalRefinement> var = VariationalRefinement::create();
	var->setAlpha(rng.uniform(1.0f, 100.0f));
	var->setGamma(rng.uniform(0.1f, 10.0f));
	var->setDelta(rng.uniform(0.1f, 10.0f));
	var->setSorIterations(rng.uniform(1, 20));
	var->setFixedPointIterations(rng.uniform(1, 20));
	var->setOmega(rng.uniform(1.01f, 1.99f));

	cv::setNumThreads(nThreads);
	Mat resMultiThread;
	flow.copyTo(resMultiThread);
	var->calc(frame1, frame2, resMultiThread);

	cv::setNumThreads(1);
	Mat resSingleThread;
	flow.copyTo(resSingleThread);
	var->calc(frame1, frame2, resSingleThread);

	EXPECT_LE(cv::norm(resSingleThread, resMultiThread, NORM_INF), MAX_DIF);
	EXPECT_LE(cv::norm(resSingleThread, resMultiThread, NORM_L1), MAX_MEAN_DIF * frame1.total());

	// resulting flow should be within the frame bounds:
	double min_val, max_val;
	minMaxLoc(resMultiThread, &min_val, &max_val);
	EXPECT_LE(abs(min_val), sqrt( static_cast<double>(size.height * size.height + size.width * size.width)) );
	EXPECT_LE(abs(max_val), sqrt( static_cast<double>(size.height * size.height + size.width * size.width)) );
	}
	}

	INSTANTIATE_TEST_CASE_P(FullSet, DenseOpticalFlow_VariationalRefinement, Values(szODD, szQVGA));

	}} // namespace