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opencv/modules/core/test/test_hasnonzero.cpp
Vadim Pisarevsky 1d18aba587
Extended several core functions to support new types (#24962) 
* started adding support for new types (16f, 16bf, 32u, 64u, 64s) to arithmetic functions

* fixed several tests; refactored and extended sum(), extended inRange().

* extended countNonZero(), mean(), meanStdDev(), minMaxIdx(), norm() and sum() to support new types (F16, BF16, U32, U64, S64)

* put missing CV_DEPTH_MAX to some function dispatcher tables
* extended findnonzero, hasnonzero with the new types support

* extended mixChannels() to support new types

* minor fix

* fixed a few compile errors on Linux and a few failures in core tests

* fixed a few more warnings and test failures

* trying to fix the remaining warnings and test failures. The test `MulTestGPU.MathOpTest` was disabled - not clear whether to set tolerance - it's not bit-exact operation, as possibly assumed by the test, due to the use of scale and possibly limited accuracy of the intermediate floating-point calculations.

* found that in the current snapshot G-API produces incorrect results in Mul, Div and AddWeighted (at least when using OpenCL on Windows x64 or MacOS x64). Disabled the respective tests.
2024-02-11 10:42:41 +03:00

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/*M///////////////////////////////////////////////////////////////////////////////////////
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// License Agreement
// For Open Source Computer Vision Library
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// Third party copyrights are property of their respective owners.
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#include "test_precomp.hpp"
namespace opencv_test { namespace {
typedef testing::TestWithParam<std::tuple<int, Size> > HasNonZeroAllZeros;
TEST_P(HasNonZeroAllZeros, hasNonZeroAllZeros)
{
const int type = std::get<0>(GetParam());
const Size size = std::get<1>(GetParam());
Mat m = Mat::zeros(size, type);
EXPECT_FALSE(hasNonZero(m));
}
INSTANTIATE_TEST_CASE_P(Core, HasNonZeroAllZeros,
testing::Combine(
testing::Values(CV_8UC1, CV_8SC1, CV_16UC1, CV_16SC1, CV_32SC1, CV_32FC1, CV_64FC1),
testing::Values(Size(1, 1), Size(320, 240), Size(127, 113), Size(1, 113))
)
);
typedef testing::TestWithParam<std::tuple<int, Size> > HasNonZeroNegZeros;
TEST_P(HasNonZeroNegZeros, hasNonZeroNegZeros)
{
const int type = std::get<0>(GetParam());
const Size size = std::get<1>(GetParam());
Mat m = Mat(size, type);
m.setTo(Scalar::all(-0.));
EXPECT_FALSE(hasNonZero(m));
}
INSTANTIATE_TEST_CASE_P(Core, HasNonZeroNegZeros,
testing::Combine(
testing::Values(CV_32FC1, CV_64FC1, CV_16FC1, CV_16BFC1),
testing::Values(Size(1, 1), Size(320, 240), Size(127, 113), Size(1, 113))
)
);
typedef testing::TestWithParam<std::tuple<int, Size> > HasNonZeroLimitValues;
TEST_P(HasNonZeroLimitValues, hasNonZeroLimitValues)
{
const int type = std::get<0>(GetParam());
const Size size = std::get<1>(GetParam());
Mat m = Mat(size, type);
m.setTo(Scalar::all(std::numeric_limits<double>::infinity()));
EXPECT_TRUE(hasNonZero(m));
m.setTo(Scalar::all(-std::numeric_limits<double>::infinity()));
EXPECT_TRUE(hasNonZero(m));
m.setTo(Scalar::all(std::numeric_limits<double>::quiet_NaN()));
EXPECT_TRUE(hasNonZero(m));
m.setTo((CV_MAT_DEPTH(type) == CV_64F) ? Scalar::all(std::numeric_limits<double>::epsilon()) : Scalar::all(std::numeric_limits<float>::epsilon()));
EXPECT_TRUE(hasNonZero(m));
m.setTo((CV_MAT_DEPTH(type) == CV_64F) ? Scalar::all(std::numeric_limits<double>::min()) : Scalar::all(std::numeric_limits<float>::min()));
EXPECT_TRUE(hasNonZero(m));
m.setTo((CV_MAT_DEPTH(type) == CV_64F) ? Scalar::all(std::numeric_limits<double>::denorm_min()) : Scalar::all(std::numeric_limits<float>::denorm_min()));
EXPECT_TRUE(hasNonZero(m));
}
INSTANTIATE_TEST_CASE_P(Core, HasNonZeroLimitValues,
testing::Combine(
testing::Values(CV_32FC1, CV_64FC1),
testing::Values(Size(1, 1), Size(320, 240), Size(127, 113), Size(1, 113))
)
);
typedef testing::TestWithParam<std::tuple<int, Size> > HasNonZeroRandom;
TEST_P(HasNonZeroRandom, hasNonZeroRandom)
{
const int type = std::get<0>(GetParam());
const Size size = std::get<1>(GetParam());
RNG& rng = theRNG();
const size_t N = std::min(100, size.area());
for(size_t i = 0 ; i<N ; ++i)
{
const int nz_pos_x = rng.uniform(0, size.width);
const int nz_pos_y = rng.uniform(0, size.height);
Mat m = Mat::zeros(size, type);
Mat nzROI = Mat(m, Rect(nz_pos_x, nz_pos_y, 1, 1));
nzROI.setTo(Scalar::all(1));
EXPECT_TRUE(hasNonZero(m));
}
}
INSTANTIATE_TEST_CASE_P(Core, HasNonZeroRandom,
testing::Combine(
testing::Values(CV_8UC1, CV_8SC1, CV_16UC1, CV_16SC1, CV_32SC1, CV_32FC1, CV_64FC1),
testing::Values(Size(1, 1), Size(320, 240), Size(127, 113), Size(1, 113))
)
);
typedef testing::TestWithParam<tuple<int, int, bool> > HasNonZeroNd;
TEST_P(HasNonZeroNd, hasNonZeroNd)
{
const int type = get<0>(GetParam());
const int ndims = get<1>(GetParam());
const bool continuous = get<2>(GetParam());
RNG& rng = theRNG();
const size_t N = 10;
for(size_t i = 0 ; i<N ; ++i)
{
std::vector<size_t> steps(ndims);
std::vector<int> sizes(ndims);
size_t totalBytes = 1;
for(int dim = 0 ; dim<ndims ; ++dim)
{
const bool isFirstDim = (dim == 0);
const bool isLastDim = (dim+1 == ndims);
const int length = rng.uniform(1, 64);
steps[dim] = (isLastDim ? 1 : static_cast<size_t>(length))*CV_ELEM_SIZE(type);
sizes[dim] = (isFirstDim || continuous) ? length : rng.uniform(1, length);
totalBytes *= steps[dim]*static_cast<size_t>(sizes[dim]);
}
std::vector<unsigned char> buffer(totalBytes);
void* data = buffer.data();
Mat m = Mat(ndims, sizes.data(), type, data, steps.data());
std::vector<Range> nzRange(ndims);
for(int dim = 0 ; dim<ndims ; ++dim)
{
const int pos = rng.uniform(0, sizes[dim]);
nzRange[dim] = Range(pos, pos+1);
}
Mat nzROI = Mat(m, nzRange.data());
nzROI.setTo(Scalar::all(1));
const int nzCount = countNonZero(m);
EXPECT_EQ((nzCount>0), hasNonZero(m));
}
}
INSTANTIATE_TEST_CASE_P(Core, HasNonZeroNd,
testing::Combine(
testing::Values(CV_8UC1),
testing::Values(2, 3),
testing::Values(true, false)
)
);
}} // namespace
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