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- /*M///////////////////////////////////////////////////////////////////////////////////////
- //
- // IMPORTANT: READ BEFORE DOWNLOADING, COPYING, INSTALLING OR USING.
- //
- // By downloading, copying, installing or using the software you agree to this license.
- // If you do not agree to this license, do not download, install,
- // copy or use the software.
- //
- //
- // License Agreement
- // For Open Source Computer Vision Library
- //
- // Copyright (C) 2013, OpenCV Foundation, all rights reserved.
- // Third party copyrights are property of their respective owners.
- //
- // Redistribution and use in source and binary forms, with or without modification,
- // are permitted provided that the following conditions are met:
- //
- // * Redistribution's of source code must retain the above copyright notice,
- // this list of conditions and the following disclaimer.
- //
- // * Redistribution's in binary form must reproduce the above copyright notice,
- // this list of conditions and the following disclaimer in the documentation
- // and/or other materials provided with the distribution.
- //
- // * The name of the copyright holders may not be used to endorse or promote products
- // derived from this software without specific prior written permission.
- //
- // This software is provided by the copyright holders and contributors "as is" and
- // any express or implied warranties, including, but not limited to, the implied
- // warranties of merchantability and fitness for a particular purpose are disclaimed.
- // In no event shall the OpenCV Foundation or contributors be liable for any direct,
- // indirect, incidental, special, exemplary, or consequential damages
- // (including, but not limited to, procurement of substitute goods or services;
- // loss of use, data, or profits; or business interruption) however caused
- // and on any theory of liability, whether in contract, strict liability,
- // or tort (including negligence or otherwise) arising in any way out of
- // the use of this software, even if advised of the possibility of such damage.
- //
- //M*/
- #include "test_precomp.hpp"
- #include "opencv2/ts/ocl_test.hpp"
- using namespace opencv_test;
- using namespace testing;
- using namespace cv;
- namespace opencv_test {
- namespace ocl {
- #define UMAT_TEST_SIZES testing::Values(cv::Size(1, 1), cv::Size(1,128), cv::Size(128, 1), \
- cv::Size(128, 128), cv::Size(640, 480), cv::Size(751, 373), cv::Size(1200, 1200))
- /////////////////////////////// Basic Tests ////////////////////////////////
- PARAM_TEST_CASE(UMatBasicTests, int, int, Size, bool)
- {
- Mat a;
- UMat ua;
- int type;
- int depth;
- int cn;
- Size size;
- bool useRoi;
- Size roi_size;
- Rect roi;
- virtual void SetUp()
- {
- depth = GET_PARAM(0);
- cn = GET_PARAM(1);
- size = GET_PARAM(2);
- useRoi = GET_PARAM(3);
- type = CV_MAKE_TYPE(depth, cn);
- a = randomMat(size, type, -100, 100);
- a.copyTo(ua);
- int roi_shift_x = randomInt(0, size.width-1);
- int roi_shift_y = randomInt(0, size.height-1);
- roi_size = Size(size.width - roi_shift_x, size.height - roi_shift_y);
- roi = Rect(roi_shift_x, roi_shift_y, roi_size.width, roi_size.height);
- }
- };
- TEST_P(UMatBasicTests, createUMat)
- {
- if(useRoi)
- {
- ua = UMat(ua, roi);
- }
- int dims = randomInt(2,6);
- int _sz[CV_MAX_DIM];
- for( int i = 0; i<dims; i++)
- {
- _sz[i] = randomInt(1,50);
- }
- int *sz = _sz;
- int new_depth = randomInt(CV_8S, CV_64F);
- int new_cn = randomInt(1,4);
- ua.create(dims, sz, CV_MAKE_TYPE(new_depth, new_cn));
- for(int i = 0; i<dims; i++)
- {
- ASSERT_EQ(ua.size[i], sz[i]);
- }
- ASSERT_EQ(ua.dims, dims);
- ASSERT_EQ(ua.type(), CV_MAKE_TYPE(new_depth, new_cn) );
- Size new_size = randomSize(1, 1000);
- ua.create(new_size, CV_MAKE_TYPE(new_depth, new_cn) );
- ASSERT_EQ( ua.size(), new_size);
- ASSERT_EQ(ua.type(), CV_MAKE_TYPE(new_depth, new_cn) );
- ASSERT_EQ( ua.dims, 2);
- }
- TEST_P(UMatBasicTests, swap)
- {
- Mat b = randomMat(size, type, -100, 100);
- UMat ub;
- b.copyTo(ub);
- if(useRoi)
- {
- ua = UMat(ua,roi);
- ub = UMat(ub,roi);
- }
- UMat uc = ua, ud = ub;
- swap(ua,ub);
- EXPECT_MAT_NEAR(ub,uc, 0);
- EXPECT_MAT_NEAR(ud, ua, 0);
- }
- TEST_P(UMatBasicTests, base)
- {
- const int align_mask = 3;
- roi.x &= ~align_mask;
- roi.y &= ~align_mask;
- roi.width = (roi.width + align_mask) & ~align_mask;
- roi &= Rect(0, 0, ua.cols, ua.rows);
- if(useRoi)
- {
- ua = UMat(ua,roi);
- }
- UMat ub = ua.clone();
- EXPECT_MAT_NEAR(ub,ua,0);
- ASSERT_EQ(ua.channels(), cn);
- ASSERT_EQ(ua.depth(), depth);
- ASSERT_EQ(ua.type(), type);
- ASSERT_EQ(ua.elemSize(), a.elemSize());
- ASSERT_EQ(ua.elemSize1(), a.elemSize1());
- ASSERT_EQ(ub.empty(), ub.cols*ub.rows == 0);
- ub.release();
- ASSERT_TRUE( ub.empty() );
- if(useRoi && a.size() != ua.size())
- {
- ASSERT_EQ(ua.isSubmatrix(), true);
- }
- else
- {
- ASSERT_EQ(ua.isSubmatrix(), false);
- }
- int dims = randomInt(2,6);
- int sz[CV_MAX_DIM];
- size_t total = 1;
- for(int i = 0; i<dims; i++)
- {
- sz[i] = randomInt(1,45);
- total *= (size_t)sz[i];
- }
- int new_type = CV_MAKE_TYPE(randomInt(CV_8S,CV_64F),randomInt(1,4));
- ub = UMat(dims, sz, new_type);
- ASSERT_EQ(ub.total(), total);
- }
- TEST_P(UMatBasicTests, copyTo)
- {
- int i;
- if(useRoi)
- {
- UMat roi_ua;
- Mat roi_a;
- roi_ua = UMat(ua, roi);
- roi_a = Mat(a, roi);
- roi_a.copyTo(roi_ua);
- EXPECT_MAT_NEAR(roi_a, roi_ua, 0);
- roi_ua.copyTo(roi_a);
- EXPECT_MAT_NEAR(roi_ua, roi_a, 0);
- roi_ua.copyTo(ua);
- EXPECT_MAT_NEAR(roi_ua, ua, 0);
- ua.copyTo(a);
- EXPECT_MAT_NEAR(ua, a, 0);
- }
- {
- UMat ub;
- ua.copyTo(ub);
- EXPECT_MAT_NEAR(ua, ub, 0);
- }
- {
- UMat ub;
- i = randomInt(0, ua.cols-1);
- a.col(i).copyTo(ub);
- EXPECT_MAT_NEAR(a.col(i), ub, 0);
- }
- {
- UMat ub;
- ua.col(i).copyTo(ub);
- EXPECT_MAT_NEAR(ua.col(i), ub, 0);
- }
- {
- Mat b;
- ua.col(i).copyTo(b);
- EXPECT_MAT_NEAR(ua.col(i), b, 0);
- }
- {
- UMat ub;
- i = randomInt(0, a.rows-1);
- ua.row(i).copyTo(ub);
- EXPECT_MAT_NEAR(ua.row(i), ub, 0);
- }
- {
- UMat ub;
- a.row(i).copyTo(ub);
- EXPECT_MAT_NEAR(a.row(i), ub, 0);
- }
- {
- Mat b;
- ua.row(i).copyTo(b);
- EXPECT_MAT_NEAR(ua.row(i), b, 0);
- }
- }
- TEST_P(UMatBasicTests, GetUMat)
- {
- if(useRoi)
- {
- a = Mat(a, roi);
- ua = UMat(ua,roi);
- }
- {
- UMat ub;
- ub = a.getUMat(ACCESS_RW);
- EXPECT_MAT_NEAR(ub, ua, 0);
- }
- {
- UMat u = a.getUMat(ACCESS_RW);
- {
- Mat b = u.getMat(ACCESS_RW);
- EXPECT_MAT_NEAR(b, a, 0);
- }
- }
- {
- Mat b;
- b = ua.getMat(ACCESS_RW);
- EXPECT_MAT_NEAR(b, a, 0);
- }
- {
- Mat m = ua.getMat(ACCESS_RW);
- {
- UMat ub = m.getUMat(ACCESS_RW);
- EXPECT_MAT_NEAR(ub, ua, 0);
- }
- }
- }
- INSTANTIATE_TEST_CASE_P(UMat, UMatBasicTests, Combine(testing::Values(CV_8U, CV_64F), testing::Values(1, 2),
- testing::Values(cv::Size(1, 1), cv::Size(1, 128), cv::Size(128, 1), cv::Size(128, 128), cv::Size(640, 480)), Bool()));
- //////////////////////////////////////////////////////////////// Reshape ////////////////////////////////////////////////////////////////////////
- PARAM_TEST_CASE(UMatTestReshape, int, int, Size, bool)
- {
- Mat a;
- UMat ua, ub;
- int type;
- int depth;
- int cn;
- Size size;
- bool useRoi;
- Size roi_size;
- virtual void SetUp()
- {
- depth = GET_PARAM(0);
- cn = GET_PARAM(1);
- size = GET_PARAM(2);
- useRoi = GET_PARAM(3);
- type = CV_MAKE_TYPE(depth, cn);
- }
- };
- TEST_P(UMatTestReshape, reshape)
- {
- a = randomMat(size,type, -100, 100);
- a.copyTo(ua);
- if(useRoi)
- {
- int roi_shift_x = randomInt(0, size.width-1);
- int roi_shift_y = randomInt(0, size.height-1);
- roi_size = Size(size.width - roi_shift_x, size.height - roi_shift_y);
- Rect roi(roi_shift_x, roi_shift_y, roi_size.width, roi_size.height);
- ua = UMat(ua, roi).clone();
- a = Mat(a, roi).clone();
- }
- int nChannels = randomInt(1,4);
- if ((ua.cols*ua.channels()*ua.rows)%nChannels != 0)
- {
- EXPECT_ANY_THROW(ua.reshape(nChannels));
- }
- else
- {
- ub = ua.reshape(nChannels);
- ASSERT_EQ(ub.channels(),nChannels);
- ASSERT_EQ(ub.channels()*ub.cols*ub.rows, ua.channels()*ua.cols*ua.rows);
- EXPECT_MAT_NEAR(ua.reshape(nChannels), a.reshape(nChannels), 0);
- int new_rows = randomInt(1, INT_MAX);
- if ( ((int)ua.total()*ua.channels())%(new_rows*nChannels) != 0)
- {
- EXPECT_ANY_THROW (ua.reshape(nChannels, new_rows) );
- }
- else
- {
- EXPECT_NO_THROW ( ub = ua.reshape(nChannels, new_rows) );
- ASSERT_EQ(ub.channels(),nChannels);
- ASSERT_EQ(ub.rows, new_rows);
- ASSERT_EQ(ub.channels()*ub.cols*ub.rows, ua.channels()*ua.cols*ua.rows);
- EXPECT_MAT_NEAR(ua.reshape(nChannels,new_rows), a.reshape(nChannels,new_rows), 0);
- }
- new_rows = (int)ua.total()*ua.channels()/(nChannels*randomInt(1, size.width*size.height));
- if (new_rows == 0) new_rows = 1;
- int new_cols = (int)ua.total()*ua.channels()/(new_rows*nChannels);
- int sz[] = {new_rows, new_cols};
- if( ((int)ua.total()*ua.channels()) % (new_rows*new_cols) != 0 )
- {
- EXPECT_ANY_THROW( ua.reshape(nChannels, ua.dims, sz) );
- }
- else
- {
- EXPECT_NO_THROW ( ub = ua.reshape(nChannels, ua.dims, sz) );
- ASSERT_EQ(ub.channels(),nChannels);
- ASSERT_EQ(ub.rows, new_rows);
- ASSERT_EQ(ub.cols, new_cols);
- ASSERT_EQ(ub.channels()*ub.cols*ub.rows, ua.channels()*ua.cols*ua.rows);
- EXPECT_MAT_NEAR(ua.reshape(nChannels, ua.dims, sz), a.reshape(nChannels, a.dims, sz), 0);
- }
- }
- }
- INSTANTIATE_TEST_CASE_P(UMat, UMatTestReshape, Combine(OCL_ALL_DEPTHS, OCL_ALL_CHANNELS, UMAT_TEST_SIZES, Bool() ));
- static void check_ndim_shape(const cv::UMat &mat, int cn, int ndims, const int *sizes)
- {
- EXPECT_EQ(mat.channels(), cn);
- EXPECT_EQ(mat.dims, ndims);
- if (mat.dims != ndims)
- return;
- for (int i = 0; i < ndims; i++)
- EXPECT_EQ(mat.size[i], sizes[i]);
- }
- TEST(UMatTestReshape, reshape_ndims_2)
- {
- const cv::UMat A(8, 16, CV_8UC3);
- cv::UMat B;
- {
- int new_sizes_mask[] = { 0, 3, 4, 4 };
- int new_sizes_real[] = { 8, 3, 4, 4 };
- ASSERT_NO_THROW(B = A.reshape(1, 4, new_sizes_mask));
- check_ndim_shape(B, 1, 4, new_sizes_real);
- }
- {
- int new_sizes[] = { 16, 8 };
- ASSERT_NO_THROW(B = A.reshape(0, 2, new_sizes));
- check_ndim_shape(B, 3, 2, new_sizes);
- EXPECT_EQ(B.rows, new_sizes[0]);
- EXPECT_EQ(B.cols, new_sizes[1]);
- }
- {
- int new_sizes[] = { 2, 5, 1, 3 };
- cv::UMat A_sliced = A(cv::Range::all(), cv::Range(0, 15));
- ASSERT_ANY_THROW(A_sliced.reshape(4, 4, new_sizes));
- }
- }
- TEST(UMatTestReshape, reshape_ndims_4)
- {
- const int sizes[] = { 2, 6, 4, 12 };
- const cv::UMat A(4, sizes, CV_8UC3);
- cv::UMat B;
- {
- int new_sizes_mask[] = { 0, 864 };
- int new_sizes_real[] = { 2, 864 };
- ASSERT_NO_THROW(B = A.reshape(1, 2, new_sizes_mask));
- check_ndim_shape(B, 1, 2, new_sizes_real);
- EXPECT_EQ(B.rows, new_sizes_real[0]);
- EXPECT_EQ(B.cols, new_sizes_real[1]);
- }
- {
- int new_sizes_mask[] = { 4, 0, 0, 2, 3 };
- int new_sizes_real[] = { 4, 6, 4, 2, 3 };
- ASSERT_NO_THROW(B = A.reshape(0, 5, new_sizes_mask));
- check_ndim_shape(B, 3, 5, new_sizes_real);
- }
- {
- int new_sizes_mask[] = { 1, 1 };
- ASSERT_ANY_THROW(A.reshape(0, 2, new_sizes_mask));
- }
- {
- int new_sizes_mask[] = { 4, 6, 3, 3, 0 };
- ASSERT_ANY_THROW(A.reshape(0, 5, new_sizes_mask));
- }
- }
- ////////////////////////////////////////////////////////////////// ROI testing ///////////////////////////////////////////////////////////////
- PARAM_TEST_CASE(UMatTestRoi, int, int, Size)
- {
- Mat a, roi_a;
- UMat ua, roi_ua;
- int type;
- int depth;
- int cn;
- Size size;
- Size roi_size;
- virtual void SetUp()
- {
- depth = GET_PARAM(0);
- cn = GET_PARAM(1);
- size = GET_PARAM(2);
- type = CV_MAKE_TYPE(depth, cn);
- }
- };
- TEST_P(UMatTestRoi, createRoi)
- {
- int roi_shift_x = randomInt(0, size.width-1);
- int roi_shift_y = randomInt(0, size.height-1);
- roi_size = Size(size.width - roi_shift_x, size.height - roi_shift_y);
- a = randomMat(size, type, -100, 100);
- Rect roi(roi_shift_x, roi_shift_y, roi_size.width, roi_size.height);
- roi_a = Mat(a, roi);
- a.copyTo(ua);
- roi_ua = UMat(ua, roi);
- EXPECT_MAT_NEAR(roi_a, roi_ua, 0);
- }
- TEST_P(UMatTestRoi, locateRoi)
- {
- int roi_shift_x = randomInt(0, size.width-1);
- int roi_shift_y = randomInt(0, size.height-1);
- roi_size = Size(size.width - roi_shift_x, size.height - roi_shift_y);
- a = randomMat(size, type, -100, 100);
- Rect roi(roi_shift_x, roi_shift_y, roi_size.width, roi_size.height);
- roi_a = Mat(a, roi);
- a.copyTo(ua);
- roi_ua = UMat(ua,roi);
- Size sz, usz;
- Point p, up;
- roi_a.locateROI(sz, p);
- roi_ua.locateROI(usz, up);
- ASSERT_EQ(sz, usz);
- ASSERT_EQ(p, up);
- }
- TEST_P(UMatTestRoi, adjustRoi)
- {
- int roi_shift_x = randomInt(0, size.width-1);
- int roi_shift_y = randomInt(0, size.height-1);
- roi_size = Size(size.width - roi_shift_x, size.height - roi_shift_y);
- a = randomMat(size, type, -100, 100);
- Rect roi(roi_shift_x, roi_shift_y, roi_size.width, roi_size.height);
- a.copyTo(ua);
- roi_ua = UMat( ua, roi);
- int adjLeft = randomInt(-(roi_ua.cols/2), (size.width-1)/2);
- int adjRight = randomInt(-(roi_ua.cols/2), (size.width-1)/2);
- int adjTop = randomInt(-(roi_ua.rows/2), (size.height-1)/2);
- int adjBot = randomInt(-(roi_ua.rows/2), (size.height-1)/2);
- roi_ua.adjustROI(adjTop, adjBot, adjLeft, adjRight);
- roi_shift_x = std::max(0, roi.x-adjLeft);
- roi_shift_y = std::max(0, roi.y-adjTop);
- Rect new_roi( roi_shift_x, roi_shift_y, std::min(roi.width+adjRight+adjLeft, size.width-roi_shift_x), std::min(roi.height+adjBot+adjTop, size.height-roi_shift_y) );
- UMat test_roi = UMat(ua, new_roi);
- EXPECT_MAT_NEAR(roi_ua, test_roi, 0);
- }
- INSTANTIATE_TEST_CASE_P(UMat, UMatTestRoi, Combine(OCL_ALL_DEPTHS, OCL_ALL_CHANNELS, UMAT_TEST_SIZES ));
- TEST(UMatTestRoi, adjustRoiOverflow)
- {
- UMat m(15, 10, CV_32S);
- UMat roi(m, cv::Range(2, 10), cv::Range(3,6));
- int rowsInROI = roi.rows;
- roi.adjustROI(1, 0, 0, 0);
- ASSERT_EQ(roi.rows, rowsInROI + 1);
- roi.adjustROI(-m.rows, -m.rows, 0, 0);
- ASSERT_EQ(roi.rows, m.rows);
- }
- /////////////////////////////////////////////////////////////// Size ////////////////////////////////////////////////////////////////////
- PARAM_TEST_CASE(UMatTestSizeOperations, int, int, Size, bool)
- {
- Mat a, b, roi_a, roi_b;
- UMat ua, ub, roi_ua, roi_ub;
- int type;
- int depth;
- int cn;
- Size size;
- Size roi_size;
- bool useRoi;
- virtual void SetUp()
- {
- depth = GET_PARAM(0);
- cn = GET_PARAM(1);
- size = GET_PARAM(2);
- useRoi = GET_PARAM(3);
- type = CV_MAKE_TYPE(depth, cn);
- }
- };
- TEST_P(UMatTestSizeOperations, copySize)
- {
- Size s = randomSize(1,300);
- a = randomMat(size, type, -100, 100);
- b = randomMat(s, type, -100, 100);
- a.copyTo(ua);
- b.copyTo(ub);
- if(useRoi)
- {
- int roi_shift_x = randomInt(0, size.width-1);
- int roi_shift_y = randomInt(0, size.height-1);
- roi_size = Size(size.width - roi_shift_x, size.height - roi_shift_y);
- Rect roi(roi_shift_x, roi_shift_y, roi_size.width, roi_size.height);
- ua = UMat(ua,roi);
- roi_shift_x = randomInt(0, s.width-1);
- roi_shift_y = randomInt(0, s.height-1);
- roi_size = Size(s.width - roi_shift_x, s.height - roi_shift_y);
- roi = Rect(roi_shift_x, roi_shift_y, roi_size.width, roi_size.height);
- ub = UMat(ub, roi);
- }
- ua.copySize(ub);
- ASSERT_EQ(ua.size, ub.size);
- }
- INSTANTIATE_TEST_CASE_P(UMat, UMatTestSizeOperations, Combine(OCL_ALL_DEPTHS, OCL_ALL_CHANNELS, UMAT_TEST_SIZES, Bool() ));
- ///////////////////////////////////////////////////////////////// UMat operations ////////////////////////////////////////////////////////////////////////////
- PARAM_TEST_CASE(UMatTestUMatOperations, int, int, Size, bool)
- {
- Mat a, b;
- UMat ua, ub;
- int type;
- int depth;
- int cn;
- Size size;
- Size roi_size;
- bool useRoi;
- virtual void SetUp()
- {
- depth = GET_PARAM(0);
- cn = GET_PARAM(1);
- size = GET_PARAM(2);
- useRoi = GET_PARAM(3);
- type = CV_MAKE_TYPE(depth, cn);
- }
- };
- TEST_P(UMatTestUMatOperations, diag)
- {
- a = randomMat(size, type, -100, 100);
- a.copyTo(ua);
- Mat new_diag;
- if(useRoi)
- {
- int roi_shift_x = randomInt(0, size.width-1);
- int roi_shift_y = randomInt(0, size.height-1);
- roi_size = Size(size.width - roi_shift_x, size.height - roi_shift_y);
- Rect roi(roi_shift_x, roi_shift_y, roi_size.width, roi_size.height);
- ua = UMat(ua,roi);
- a = Mat(a, roi);
- }
- int n = randomInt(0, ua.cols-1);
- ub = ua.diag(n);
- b = a.diag(n);
- EXPECT_MAT_NEAR(b, ub, 0);
- new_diag = randomMat(Size(ua.rows, 1), type, -100, 100);
- new_diag.copyTo(ub);
- ua = cv::UMat::diag(ub);
- EXPECT_MAT_NEAR(ua.diag(), new_diag.t(), 0);
- }
- INSTANTIATE_TEST_CASE_P(UMat, UMatTestUMatOperations, Combine(OCL_ALL_DEPTHS, OCL_ALL_CHANNELS, UMAT_TEST_SIZES, Bool()));
- /////////////////////////////////////////////////////////////// getUMat -> GetMat ///////////////////////////////////////////////////////////////////
- PARAM_TEST_CASE(getUMat, int, int, Size, bool)
- {
- int type;
- Size size;
- virtual void SetUp()
- {
- int depth = GET_PARAM(0);
- int cn = GET_PARAM(1);
- size = GET_PARAM(2);
- useOpenCL = GET_PARAM(3);
- type = CV_MAKE_TYPE(depth, cn);
- isOpenCL_enabled = cv::ocl::useOpenCL();
- cv::ocl::setUseOpenCL(useOpenCL);
- }
- virtual void TearDown()
- {
- cv::ocl::setUseOpenCL(isOpenCL_enabled);
- }
- // UMat created from user allocated host memory (USE_HOST_PTR)
- void custom_ptr_test(size_t align_base, size_t align_offset)
- {
- void* pData_allocated = new unsigned char [size.area() * CV_ELEM_SIZE(type) + (align_base + align_offset)];
- void* pData = (char*)alignPtr(pData_allocated, (int)align_base) + align_offset;
- size_t step = size.width * CV_ELEM_SIZE(type);
- {
- Mat m = Mat(size, type, pData, step);
- m.setTo(cv::Scalar::all(2));
- UMat u = m.getUMat(ACCESS_RW);
- cv::add(u, cv::Scalar::all(2), u);
- Mat d = u.getMat(ACCESS_READ);
- Mat expected(m.size(), m.type(), cv::Scalar::all(4));
- double norm = cvtest::norm(d, expected, NORM_INF);
- EXPECT_EQ(0, norm);
- }
- delete[] (unsigned char*)pData_allocated;
- }
- private:
- bool useOpenCL;
- bool isOpenCL_enabled;
- };
- TEST_P(getUMat, custom_ptr_align_4Kb)
- {
- custom_ptr_test(4096, 0);
- }
- TEST_P(getUMat, custom_ptr_align_64b)
- {
- custom_ptr_test(4096, 64);
- }
- TEST_P(getUMat, custom_ptr_align_none)
- {
- custom_ptr_test(4096, cv::alignSize(CV_ELEM_SIZE(type), 4));
- }
- TEST_P(getUMat, self_allocated)
- {
- Mat m = Mat(size, type);
- m.setTo(cv::Scalar::all(2));
- UMat u = m.getUMat(ACCESS_RW);
- cv::add(u, cv::Scalar::all(2), u);
- Mat d = u.getMat(ACCESS_READ);
- Mat expected(m.size(), m.type(), cv::Scalar::all(4));
- double norm = cvtest::norm(d, expected, NORM_INF);
- EXPECT_EQ(0, norm);
- }
- INSTANTIATE_TEST_CASE_P(UMat, getUMat, Combine(
- Values(CV_8U, CV_64F), // depth
- Values(1, 3), // channels
- Values(cv::Size(1, 1), cv::Size(255, 255), cv::Size(256, 256)), // Size
- Bool() // useOpenCL
- ));
- ///////////////////////////////////////////////////////////////// OpenCL ////////////////////////////////////////////////////////////////////////////
- #ifdef HAVE_OPENCL
- TEST(UMat, BufferPoolGrowing)
- {
- #ifdef _DEBUG
- const int ITERATIONS = 100;
- #else
- const int ITERATIONS = 200;
- #endif
- const Size sz(1920, 1080);
- BufferPoolController* c = cv::ocl::getOpenCLAllocator()->getBufferPoolController();
- if (c)
- {
- size_t oldMaxReservedSize = c->getMaxReservedSize();
- c->freeAllReservedBuffers();
- c->setMaxReservedSize(sz.area() * 10);
- for (int i = 0; i < ITERATIONS; i++)
- {
- UMat um(Size(sz.width + i, sz.height + i), CV_8UC1);
- UMat um2(Size(sz.width + 2 * i, sz.height + 2 * i), CV_8UC1);
- }
- c->setMaxReservedSize(oldMaxReservedSize);
- c->freeAllReservedBuffers();
- }
- else
- std::cout << "Skipped, no OpenCL" << std::endl;
- }
- #endif
- class CV_UMatTest :
- public cvtest::BaseTest
- {
- public:
- CV_UMatTest() {}
- ~CV_UMatTest() {}
- protected:
- void run(int);
- struct test_excep
- {
- test_excep(const string& _s=string("")) : s(_s) { }
- string s;
- };
- bool TestUMat();
- void checkDiff(const Mat& m1, const Mat& m2, const string& s)
- {
- if (cvtest::norm(m1, m2, NORM_INF) != 0)
- throw test_excep(s);
- }
- void checkDiffF(const Mat& m1, const Mat& m2, const string& s)
- {
- if (cvtest::norm(m1, m2, NORM_INF) > 1e-5)
- throw test_excep(s);
- }
- };
- #define STR(a) STR2(a)
- #define STR2(a) #a
- #define CHECK_DIFF(a, b) checkDiff(a, b, "(" #a ") != (" #b ") at l." STR(__LINE__))
- #define CHECK_DIFF_FLT(a, b) checkDiffF(a, b, "(" #a ") !=(eps) (" #b ") at l." STR(__LINE__))
- bool CV_UMatTest::TestUMat()
- {
- try
- {
- Mat a(100, 100, CV_16SC2), b, c;
- randu(a, Scalar::all(-100), Scalar::all(100));
- Rect roi(1, 3, 5, 4);
- Mat ra(a, roi), rb, rc, rc0;
- UMat ua, ura, ub, urb, uc, urc;
- a.copyTo(ua);
- ua.copyTo(b);
- CHECK_DIFF(a, b);
- ura = ua(roi);
- ura.copyTo(rb);
- CHECK_DIFF(ra, rb);
- ra += Scalar::all(1.f);
- {
- Mat temp = ura.getMat(ACCESS_RW);
- temp += Scalar::all(1.f);
- }
- ra.copyTo(rb);
- CHECK_DIFF(ra, rb);
- b = a.clone();
- ra = a(roi);
- rb = b(roi);
- randu(b, Scalar::all(-100), Scalar::all(100));
- b.copyTo(ub);
- urb = ub(roi);
- /*std::cout << "==============================================\nbefore op (CPU):\n";
- std::cout << "ra: " << ra << std::endl;
- std::cout << "rb: " << rb << std::endl;*/
- ra.copyTo(ura);
- rb.copyTo(urb);
- ra.release();
- rb.release();
- ura.copyTo(ra);
- urb.copyTo(rb);
- /*std::cout << "==============================================\nbefore op (GPU):\n";
- std::cout << "ra: " << ra << std::endl;
- std::cout << "rb: " << rb << std::endl;*/
- cv::max(ra, rb, rc);
- cv::max(ura, urb, urc);
- urc.copyTo(rc0);
- /*std::cout << "==============================================\nafter op:\n";
- std::cout << "rc: " << rc << std::endl;
- std::cout << "rc0: " << rc0 << std::endl;*/
- CHECK_DIFF(rc0, rc);
- {
- UMat tmp = rc0.getUMat(ACCESS_WRITE);
- cv::max(ura, urb, tmp);
- }
- CHECK_DIFF(rc0, rc);
- ura.copyTo(urc);
- cv::max(urc, urb, urc);
- urc.copyTo(rc0);
- CHECK_DIFF(rc0, rc);
- rc = ra ^ rb;
- cv::bitwise_xor(ura, urb, urc);
- urc.copyTo(rc0);
- /*std::cout << "==============================================\nafter op:\n";
- std::cout << "ra: " << rc0 << std::endl;
- std::cout << "rc: " << rc << std::endl;*/
- CHECK_DIFF(rc0, rc);
- rc = ra + rb;
- cv::add(ura, urb, urc);
- urc.copyTo(rc0);
- CHECK_DIFF(rc0, rc);
- cv::subtract(ra, Scalar::all(5), rc);
- cv::subtract(ura, Scalar::all(5), urc);
- urc.copyTo(rc0);
- CHECK_DIFF(rc0, rc);
- }
- catch (const test_excep& e)
- {
- ts->printf(cvtest::TS::LOG, "%s\n", e.s.c_str());
- ts->set_failed_test_info(cvtest::TS::FAIL_MISMATCH);
- return false;
- }
- return true;
- }
- void CV_UMatTest::run( int /* start_from */)
- {
- printf("Use OpenCL: %s\nHave OpenCL: %s\n",
- cv::ocl::useOpenCL() ? "TRUE" : "FALSE",
- cv::ocl::haveOpenCL() ? "TRUE" : "FALSE" );
- if (!TestUMat())
- return;
- ts->set_failed_test_info(cvtest::TS::OK);
- }
- TEST(Core_UMat, base) { CV_UMatTest test; test.safe_run(); }
- TEST(Core_UMat, getUMat)
- {
- {
- int a[3] = { 1, 2, 3 };
- Mat m = Mat(1, 1, CV_32SC3, a);
- UMat u = m.getUMat(ACCESS_READ);
- EXPECT_NE((void*)NULL, u.u);
- }
- {
- Mat m(10, 10, CV_8UC1), ref;
- for (int y = 0; y < m.rows; ++y)
- {
- uchar * const ptr = m.ptr<uchar>(y);
- for (int x = 0; x < m.cols; ++x)
- ptr[x] = (uchar)(x + y * 2);
- }
- ref = m.clone();
- Rect r(1, 1, 8, 8);
- ref(r).setTo(17);
- {
- UMat um = m(r).getUMat(ACCESS_WRITE);
- um.setTo(17);
- }
- double err = cvtest::norm(m, ref, NORM_INF);
- if (err > 0)
- {
- std::cout << "m: " << std::endl << m << std::endl;
- std::cout << "ref: " << std::endl << ref << std::endl;
- }
- EXPECT_EQ(0., err);
- }
- }
- #include "test_precomp.hpp"
- TEST(Core_UMat, construct_from_vector)
- {
- std::vector<int> src = {1, 2, 3, 4};
- UMat um(src); // copyData parameter is deprecated and ignored
- src[0] = 100; // modify source to ensure data was copied
- Mat result;
- um.copyTo(result);
- ASSERT_EQ(4, result.rows);
- ASSERT_EQ(1, result.cols);
- ASSERT_EQ(CV_32S, result.type());
- EXPECT_EQ(1, result.at<int>(0));
- EXPECT_EQ(2, result.at<int>(1));
- EXPECT_EQ(3, result.at<int>(2));
- EXPECT_EQ(4, result.at<int>(3));
- }
- TEST(UMat, Sync)
- {
- UMat um(10, 10, CV_8UC1);
- {
- Mat m = um.getMat(ACCESS_WRITE);
- m.setTo(cv::Scalar::all(17));
- }
- um.setTo(cv::Scalar::all(19));
- EXPECT_EQ(0, cvtest::norm(um.getMat(ACCESS_READ), cv::Mat(um.size(), um.type(), 19), NORM_INF));
- }
- TEST(UMat, SyncTemp)
- {
- Mat m(10, 10, CV_8UC1);
- {
- UMat um = m.getUMat(ACCESS_WRITE);
- {
- Mat m2 = um.getMat(ACCESS_WRITE);
- m2.setTo(cv::Scalar::all(17));
- }
- um.setTo(cv::Scalar::all(19));
- EXPECT_EQ(0, cvtest::norm(um.getMat(ACCESS_READ), cv::Mat(um.size(), um.type(), 19), NORM_INF));
- }
- }
- TEST(UMat, CopyToIfDeviceCopyIsObsolete)
- {
- UMat um(7, 2, CV_8UC1);
- Mat m(um.size(), um.type());
- m.setTo(Scalar::all(0));
- {
- // make obsolete device copy of UMat
- Mat temp = um.getMat(ACCESS_WRITE);
- temp.setTo(Scalar::all(10));
- }
- m.copyTo(um);
- um.setTo(Scalar::all(17));
- EXPECT_EQ(0, cvtest::norm(um.getMat(ACCESS_READ), Mat(um.size(), um.type(), 17), NORM_INF));
- }
- TEST(UMat, setOpenCL)
- {
- #ifndef HAVE_OPENCL
- return; // test skipped
- #else
- // save the current state
- bool useOCL = cv::ocl::useOpenCL();
- Mat m = (Mat_<uchar>(3,3)<<0,1,2,3,4,5,6,7,8);
- cv::ocl::setUseOpenCL(true);
- UMat um1;
- m.copyTo(um1);
- cv::ocl::setUseOpenCL(false);
- UMat um2;
- m.copyTo(um2);
- cv::ocl::setUseOpenCL(true);
- countNonZero(um1);
- countNonZero(um2);
- um1.copyTo(um2);
- EXPECT_MAT_NEAR(um1, um2, 0);
- EXPECT_MAT_NEAR(um1, m, 0);
- um2.copyTo(um1);
- EXPECT_MAT_NEAR(um1, m, 0);
- EXPECT_MAT_NEAR(um1, um2, 0);
- cv::ocl::setUseOpenCL(false);
- countNonZero(um1);
- countNonZero(um2);
- um1.copyTo(um2);
- EXPECT_MAT_NEAR(um1, um2, 0);
- EXPECT_MAT_NEAR(um1, m, 0);
- um2.copyTo(um1);
- EXPECT_MAT_NEAR(um1, um2, 0);
- EXPECT_MAT_NEAR(um1, m, 0);
- // reset state to the previous one
- cv::ocl::setUseOpenCL(useOCL);
- #endif
- }
- TEST(UMat, ReadBufferRect)
- {
- UMat m(1, 10000, CV_32FC2, Scalar::all(-1));
- Mat t(1, 9000, CV_32FC2, Scalar::all(-200)), t2(1, 9000, CV_32FC2, Scalar::all(-1));
- m.colRange(0, 9000).copyTo(t);
- EXPECT_MAT_NEAR(t, t2, 0);
- }
- // Use iGPU or OPENCV_OPENCL_DEVICE=:CPU: to catch problem
- TEST(UMat, synchronization_map_unmap)
- {
- class TestParallelLoopBody : public cv::ParallelLoopBody
- {
- UMat u_;
- public:
- TestParallelLoopBody(const UMat& u) : u_(u) { }
- void operator() (const cv::Range& range) const
- {
- printf("range: %d, %d -- begin\n", range.start, range.end);
- for (int i = 0; i < 10; i++)
- {
- printf("%d: %d map...\n", range.start, i);
- Mat m = u_.getMat(cv::ACCESS_READ);
- printf("%d: %d unmap...\n", range.start, i);
- m.release();
- }
- printf("range: %d, %d -- end\n", range.start, range.end);
- }
- };
- try
- {
- UMat u(1000, 1000, CV_32FC1, Scalar::all(0));
- parallel_for_(cv::Range(0, 2), TestParallelLoopBody(u));
- }
- catch (const cv::Exception& e)
- {
- FAIL() << "Exception: " << e.what();
- ADD_FAILURE();
- }
- catch (...)
- {
- FAIL() << "Exception!";
- }
- }
- TEST(UMat, async_unmap)
- {
- for (int i = 0; i < 20; i++)
- {
- try
- {
- Mat m = Mat(1000, 1000, CV_8UC1, Scalar::all(0));
- UMat u = m.getUMat(ACCESS_READ);
- UMat dst;
- cv::add(u, Scalar::all(0), dst); // start async operation
- u.release();
- m.release();
- }
- catch (const cv::Exception& e)
- {
- printf("i = %d... %s\n", i, e.what());
- ADD_FAILURE();
- }
- catch (...)
- {
- printf("i = %d...\n", i);
- ADD_FAILURE();
- }
- }
- }
- TEST(UMat, unmap_in_class)
- {
- class Logic
- {
- public:
- Logic() {}
- void processData(InputArray input)
- {
- Mat m = input.getMat();
- {
- Mat dst;
- m.convertTo(dst, CV_32FC1);
- // some additional CPU-based per-pixel processing into dst
- intermediateResult = dst.getUMat(ACCESS_READ); // this violates lifetime of base(dst) / derived (intermediateResult) objects. Use copyTo?
- std::cout << "data processed..." << std::endl;
- } // problem is here: dst::~Mat()
- std::cout << "leave ProcessData()" << std::endl;
- }
- UMat getResult() const { return intermediateResult; }
- protected:
- UMat intermediateResult;
- };
- try
- {
- Mat m = Mat(1000, 1000, CV_8UC1, Scalar::all(0));
- Logic l;
- l.processData(m);
- UMat result = l.getResult();
- }
- catch (const cv::Exception& e)
- {
- printf("exception... %s\n", e.what());
- ADD_FAILURE();
- }
- catch (...)
- {
- printf("exception... \n");
- ADD_FAILURE();
- }
- }
- TEST(UMat, map_unmap_counting)
- {
- if (!cv::ocl::useOpenCL())
- {
- std::cout << "OpenCL is not enabled. Skip test" << std::endl;
- return;
- }
- std::cout << "Host memory: " << cv::ocl::Device::getDefault().hostUnifiedMemory() << std::endl;
- Mat m(Size(10, 10), CV_8UC1, Scalar::all(0));
- UMat um = m.getUMat(ACCESS_RW);
- {
- Mat d1 = um.getMat(ACCESS_RW);
- Mat d2 = um.getMat(ACCESS_RW);
- d1.release();
- }
- void* h = NULL;
- EXPECT_NO_THROW(h = um.handle(ACCESS_RW));
- std::cout << "Handle: " << h << std::endl;
- }
- static void process_with_async_cleanup(Mat& frame)
- {
- UMat blurResult;
- {
- UMat umat_buffer = frame.getUMat(ACCESS_READ);
- cv::blur(umat_buffer, blurResult, Size(3, 3)); // UMat doesn't support inplace, this call is not synchronized
- }
- Mat result;
- blurResult.copyTo(result);
- swap(result, frame);
- // umat_buffer cleanup is done asynchronously, silence warning about original 'frame' cleanup here (through 'result')
- // - release input 'frame' (as 'result')
- // - release 'umat_buffer' asynchronously and silence warning about "parent" buffer (in debug builds)
- }
- TEST(UMat, async_cleanup_without_call_chain_warning)
- {
- Mat frame(Size(640, 480), CV_8UC1, Scalar::all(128));
- for (int i = 0; i < 10; i++)
- {
- process_with_async_cleanup(frame);
- }
- }
- TEST(UMat, copyToConvertTo_Empty)
- {
- cv::UMat A(0, 0, CV_16SC2), B, C;
- A.copyTo(B);
- ASSERT_EQ(A.type(), B.type());
- A.convertTo(C, CV_32SC2);
- ASSERT_EQ(C.type(), CV_32SC2);
- }
- ///////////// oclCleanupCallback threadsafe check (#5062) /////////////////////
- // Case 1: reuse of old src Mat in OCL pipe. Hard to catch!
- OCL_TEST(UMat, DISABLED_OCL_ThreadSafe_CleanupCallback_1_VeryLongTest)
- {
- if (!cv::ocl::useOpenCL())
- {
- std::cout << "OpenCL is not enabled. Skip test" << std::endl;
- return;
- }
- for (int j = 0; j < 100; j++)
- {
- const Size srcSize(320, 240);
- const int type = CV_8UC1;
- const int dtype = CV_16UC1;
- Mat src(srcSize, type, Scalar::all(0));
- Mat dst_ref(srcSize, dtype);
- // Generate reference data as additional check
- OCL_OFF(src.convertTo(dst_ref, dtype));
- cv::ocl::setUseOpenCL(true); // restore OpenCL state
- UMat dst(srcSize, dtype);
- // Use multiple iterations to increase chance of data race catching
- for(int k = 0; k < 10000; k++)
- {
- UMat tmpUMat = src.getUMat(ACCESS_RW);
- tmpUMat.convertTo(dst, dtype);
- ::cv::ocl::finish(); // force kernel to complete to start cleanup sooner
- }
- EXPECT_MAT_NEAR(dst_ref, dst, 1);
- printf(".\n"); fflush(stdout);
- }
- }
- // Case 2: concurrent deallocation of UMatData between UMat and Mat deallocators. Hard to catch!
- OCL_TEST(UMat, DISABLED_OCL_ThreadSafe_CleanupCallback_2_VeryLongTest)
- {
- if (!cv::ocl::useOpenCL())
- {
- std::cout << "OpenCL is not enabled. Skip test" << std::endl;
- return;
- }
- for (int j = 0; j < 100; j++)
- {
- const Size srcSize(320, 240);
- const int type = CV_8UC1;
- const int dtype = CV_16UC1;
- // This test is only relevant for OCL
- UMat dst(srcSize, dtype);
- // Use multiple iterations to increase chance of data race catching
- for(int k = 0; k < 10000; k++)
- {
- Mat src(srcSize, type, Scalar::all(0)); // Declare src inside loop now to catch its destruction on stack
- {
- UMat tmpUMat = src.getUMat(ACCESS_RW);
- tmpUMat.convertTo(dst, dtype);
- }
- ::cv::ocl::finish(); // force kernel to complete to start cleanup sooner
- }
- printf(".\n"); fflush(stdout);
- }
- }
- TEST(UMat, DISABLED_Test_same_behaviour_read_and_read)
- {
- bool exceptionDetected = false;
- try
- {
- UMat u(Size(10, 10), CV_8UC1, Scalar::all(0));
- Mat m = u.getMat(ACCESS_READ);
- UMat dst;
- cv::add(u, Scalar::all(1), dst);
- }
- catch (...)
- {
- exceptionDetected = true;
- }
- ASSERT_FALSE(exceptionDetected); // no data race, 2+ reads are valid
- }
- // VP: this test (and probably others from same_behaviour series) is not valid in my opinion.
- TEST(UMat, DISABLED_Test_same_behaviour_read_and_write)
- {
- bool exceptionDetected = false;
- try
- {
- UMat u(Size(10, 10), CV_8UC1, Scalar::all(0));
- Mat m = u.getMat(ACCESS_READ);
- cv::add(u, Scalar::all(1), u);
- }
- catch (...)
- {
- exceptionDetected = true;
- }
- ASSERT_TRUE(exceptionDetected); // data race
- }
- TEST(UMat, DISABLED_Test_same_behaviour_write_and_read)
- {
- bool exceptionDetected = false;
- try
- {
- UMat u(Size(10, 10), CV_8UC1, Scalar::all(0));
- Mat m = u.getMat(ACCESS_WRITE);
- UMat dst;
- cv::add(u, Scalar::all(1), dst);
- }
- catch (...)
- {
- exceptionDetected = true;
- }
- ASSERT_TRUE(exceptionDetected); // data race
- }
- TEST(UMat, DISABLED_Test_same_behaviour_write_and_write)
- {
- bool exceptionDetected = false;
- try
- {
- UMat u(Size(10, 10), CV_8UC1, Scalar::all(0));
- Mat m = u.getMat(ACCESS_WRITE);
- cv::add(u, Scalar::all(1), u);
- }
- catch (...)
- {
- exceptionDetected = true;
- }
- ASSERT_TRUE(exceptionDetected); // data race
- }
- TEST(UMat, mat_umat_sync)
- {
- UMat u(10, 10, CV_8UC1, Scalar(1));
- {
- Mat m = u.getMat(ACCESS_RW).reshape(1);
- m.setTo(Scalar(255));
- }
- UMat uDiff;
- cv::compare(u, 255, uDiff, CMP_NE);
- ASSERT_EQ(0, countNonZero(uDiff));
- }
- TEST(UMat, testTempObjects_UMat)
- {
- UMat u(10, 10, CV_8UC1, Scalar(1));
- {
- UMat u2 = u.getMat(ACCESS_RW).getUMat(ACCESS_RW);
- u2.setTo(Scalar(255));
- }
- UMat uDiff;
- cv::compare(u, 255, uDiff, CMP_NE);
- ASSERT_EQ(0, countNonZero(uDiff));
- }
- TEST(UMat, testTempObjects_Mat)
- {
- Mat m(10, 10, CV_8UC1, Scalar(1));
- {
- Mat m2;
- ASSERT_ANY_THROW({
- // Below is unwrapped version of this invalid expression:
- // m2 = m.getUMat(ACCESS_RW).getMat(ACCESS_RW)
- UMat u = m.getUMat(ACCESS_RW);
- m2 = u.getMat(ACCESS_RW);
- u.release();
- });
- }
- }
- TEST(UMat, testWrongLifetime_UMat)
- {
- UMat u(10, 10, CV_8UC1, Scalar(1));
- {
- UMat u2 = u.getMat(ACCESS_RW).getUMat(ACCESS_RW);
- u.release(); // base object
- u2.release(); // derived object, should show warning message
- }
- }
- TEST(UMat, testWrongLifetime_Mat)
- {
- Mat m(10, 10, CV_8UC1, Scalar(1));
- {
- UMat u = m.getUMat(ACCESS_RW);
- Mat m2 = u.getMat(ACCESS_RW);
- m.release(); // base object
- m2.release(); // map of derived object
- u.release(); // derived object, should show warning message
- }
- }
- TEST(UMat, DISABLED_regression_5991)
- {
- int sz[] = {2,3,2};
- UMat mat(3, sz, CV_32F, Scalar(1));
- ASSERT_NO_THROW(mat.convertTo(mat, CV_8U));
- EXPECT_EQ(sz[0], mat.size[0]);
- EXPECT_EQ(sz[1], mat.size[1]);
- EXPECT_EQ(sz[2], mat.size[2]);
- EXPECT_EQ(0, cvtest::norm(mat.getMat(ACCESS_READ), Mat(3, sz, CV_8U, Scalar(1)), NORM_INF));
- }
- TEST(UMat, testTempObjects_Mat_issue_8693)
- {
- UMat srcUMat(3, 4, CV_32FC1);
- Mat srcMat;
- randu(srcUMat, -1.f, 1.f);
- srcUMat.copyTo(srcMat);
- reduce(srcUMat, srcUMat, 0, REDUCE_SUM);
- reduce(srcMat, srcMat, 0, REDUCE_SUM);
- srcUMat.convertTo(srcUMat, CV_64FC1);
- srcMat.convertTo(srcMat, CV_64FC1);
- EXPECT_EQ(0, cvtest::norm(srcUMat.getMat(ACCESS_READ), srcMat, NORM_INF));
- }
- TEST(UMat, resize_Mat_issue_13577)
- {
- // save the current state
- bool useOCL = cv::ocl::useOpenCL();
- cv::ocl::setUseOpenCL(false);
- UMat foo(10, 10, CV_32FC1);
- cv::resize(foo, foo, cv::Size(), .5, .5);
- cv::ocl::setUseOpenCL(useOCL); // restore state
- }
- TEST(UMat, exceptions_refcounts_issue_20594)
- {
- if (!cv::ocl::useOpenCL())
- {
- // skip test, difficult to create exception scenario without OpenCL
- std::cout << "OpenCL is not enabled. Skip test" << std::endl;
- return;
- }
- UMat umat1(10, 10, CV_8UC1);
- EXPECT_EQ(0, umat1.u->refcount);
- // cause exception in underlying allocator
- void* const original_handle = umat1.u->handle;
- umat1.u->handle = NULL;
- try
- {
- Mat mat1 = umat1.getMat(ACCESS_RW);
- }
- catch (...)
- {
- // nothing
- }
- // check for correct refcount, and no change of intentional bad handle
- EXPECT_EQ(0, umat1.u->refcount);
- EXPECT_EQ(NULL, umat1.u->handle);
- // reset UMat to good state
- umat1.u->refcount = 0;
- umat1.u->handle = original_handle;
- }
- #include "test_precomp.hpp"
- } } // namespace opencv_test::ocl
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