/*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. // // // Intel License Agreement // For Open Source Computer Vision Library // // Copyright (C) 2000, Intel Corporation, 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 Intel Corporation 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 Intel Corporation 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 "precomp.hpp" #include "opencv2/core/core_c.h" #include #include #include #include #include #if defined _WIN32 #include #include #undef small #undef min #undef max #undef abs #ifdef _MSC_VER #include #endif #else #include #include #include #endif // isDirectory #if defined _WIN32 || defined WINCE # include #else # include # include #endif #ifdef HAVE_OPENCL #define DUMP_CONFIG_PROPERTY(propertyName, propertyValue) \ do { \ std::stringstream ssName, ssValue;\ ssName << propertyName;\ ssValue << (propertyValue); \ ::testing::Test::RecordProperty(ssName.str(), ssValue.str()); \ } while (false) #define DUMP_MESSAGE_STDOUT(msg) \ do { \ std::cout << msg << std::endl; \ } while (false) #include "opencv2/core/opencl/opencl_info.hpp" #include "opencv2/core/utils/allocator_stats.hpp" namespace cv { namespace ocl { cv::utils::AllocatorStatisticsInterface& getOpenCLAllocatorStatistics(); }} #endif // HAVE_OPENCL #include "opencv2/core/utils/allocator_stats.hpp" namespace cv { CV_EXPORTS cv::utils::AllocatorStatisticsInterface& getAllocatorStatistics(); } #include "opencv_tests_config.hpp" #include "ts_tags.hpp" #if defined(__GNUC__) && defined(__linux__) extern "C" { size_t malloc_peak(void) __attribute__((weak)); void malloc_reset_peak(void) __attribute__((weak)); } // extern "C" #else // stubs static size_t (*malloc_peak)(void) = 0; static void (*malloc_reset_peak)(void) = 0; #endif namespace opencv_test { bool required_opencv_test_namespace = false; // compilation check for non-refactored tests } namespace cvtest { uint64 param_seed = 0x12345678; // real value is passed via parseCustomOptions function static std::string path_join(const std::string& prefix, const std::string& subpath) { CV_Assert(subpath.empty() || subpath[0] != '/'); if (prefix.empty()) return subpath; bool skipSlash = prefix.size() > 0 ? (prefix[prefix.size()-1] == '/' || prefix[prefix.size()-1] == '\\') : false; std::string path = prefix + (skipSlash ? "" : "/") + subpath; return path; } /*****************************************************************************************\ * Exception and memory handlers * \*****************************************************************************************/ // a few platform-dependent declarations #if defined _WIN32 #ifdef _MSC_VER static void SEHTranslator( unsigned int /*u*/, EXCEPTION_POINTERS* pExp ) { TS::FailureCode code = TS::FAIL_EXCEPTION; switch( pExp->ExceptionRecord->ExceptionCode ) { case EXCEPTION_ACCESS_VIOLATION: case EXCEPTION_ARRAY_BOUNDS_EXCEEDED: case EXCEPTION_DATATYPE_MISALIGNMENT: case EXCEPTION_FLT_STACK_CHECK: case EXCEPTION_STACK_OVERFLOW: case EXCEPTION_IN_PAGE_ERROR: code = TS::FAIL_MEMORY_EXCEPTION; break; case EXCEPTION_FLT_DENORMAL_OPERAND: case EXCEPTION_FLT_DIVIDE_BY_ZERO: case EXCEPTION_FLT_INEXACT_RESULT: case EXCEPTION_FLT_INVALID_OPERATION: case EXCEPTION_FLT_OVERFLOW: case EXCEPTION_FLT_UNDERFLOW: case EXCEPTION_INT_DIVIDE_BY_ZERO: case EXCEPTION_INT_OVERFLOW: code = TS::FAIL_ARITHM_EXCEPTION; break; case EXCEPTION_BREAKPOINT: case EXCEPTION_ILLEGAL_INSTRUCTION: case EXCEPTION_INVALID_DISPOSITION: case EXCEPTION_NONCONTINUABLE_EXCEPTION: case EXCEPTION_PRIV_INSTRUCTION: case EXCEPTION_SINGLE_STEP: code = TS::FAIL_EXCEPTION; } throw code; } #endif #else static const int tsSigId[] = { SIGSEGV, SIGBUS, SIGFPE, SIGILL, SIGABRT, -1 }; static jmp_buf tsJmpMark; static void signalHandler( int sig_code ) { TS::FailureCode code = TS::FAIL_EXCEPTION; switch( sig_code ) { case SIGFPE: code = TS::FAIL_ARITHM_EXCEPTION; break; case SIGSEGV: case SIGBUS: code = TS::FAIL_ARITHM_EXCEPTION; break; case SIGILL: code = TS::FAIL_EXCEPTION; } longjmp( tsJmpMark, (int)code ); } #endif // reads 16-digit hexadecimal number (i.e. 64-bit integer) int64 readSeed( const char* str ) { int64 val = 0; if( str && strlen(str) == 16 ) { for( int i = 0; str[i]; i++ ) { int c = tolower(str[i]); if( !isxdigit(c) ) return 0; val = val * 16 + (str[i] < 'a' ? str[i] - '0' : str[i] - 'a' + 10); } } return val; } /*****************************************************************************************\ * Base Class for Tests * \*****************************************************************************************/ BaseTest::BaseTest() { ts = TS::ptr(); test_case_count = -1; } BaseTest::~BaseTest() { clear(); } void BaseTest::clear() { } const CvFileNode* BaseTest::find_param( CvFileStorage* fs, const char* param_name ) { CvFileNode* node = cvGetFileNodeByName(fs, 0, get_name().c_str()); return node ? cvGetFileNodeByName( fs, node, param_name ) : 0; } int BaseTest::read_params( CvFileStorage* ) { return 0; } bool BaseTest::can_do_fast_forward() { return true; } void BaseTest::safe_run( int start_from ) { CV_TRACE_FUNCTION(); ts->update_context( 0, -1, true ); ts->update_context( this, -1, true ); if( !::testing::GTEST_FLAG(catch_exceptions) ) run( start_from ); else { try { #if !defined _WIN32 int _code = setjmp( tsJmpMark ); if( !_code ) run( start_from ); else throw TS::FailureCode(_code); #else run( start_from ); #endif } catch (const cv::Exception& exc) { const char* errorStr = cvErrorStr(exc.code); char buf[1 << 16]; const char* delim = exc.err.find('\n') == cv::String::npos ? "" : "\n"; sprintf( buf, "OpenCV Error:\n\t%s (%s%s) in %s, file %s, line %d", errorStr, delim, exc.err.c_str(), exc.func.size() > 0 ? exc.func.c_str() : "unknown function", exc.file.c_str(), exc.line ); ts->printf(TS::LOG, "%s\n", buf); ts->set_failed_test_info( TS::FAIL_ERROR_IN_CALLED_FUNC ); } catch (const TS::FailureCode& fc) { std::string errorStr = TS::str_from_code(fc); ts->printf(TS::LOG, "General failure:\n\t%s (%d)\n", errorStr.c_str(), fc); ts->set_failed_test_info( fc ); } catch (...) { ts->printf(TS::LOG, "Unknown failure\n"); ts->set_failed_test_info( TS::FAIL_EXCEPTION ); } } ts->set_gtest_status(); } void BaseTest::run( int start_from ) { int test_case_idx, count = get_test_case_count(); int64 t_start = cvGetTickCount(); double freq = cv::getTickFrequency(); bool ff = can_do_fast_forward(); int progress = 0, code; int64 t1 = t_start; for( test_case_idx = ff && start_from >= 0 ? start_from : 0; count < 0 || test_case_idx < count; test_case_idx++ ) { ts->update_context( this, test_case_idx, ff ); progress = update_progress( progress, test_case_idx, count, (double)(t1 - t_start)/(freq*1000) ); code = prepare_test_case( test_case_idx ); if( code < 0 || ts->get_err_code() < 0 ) return; if( code == 0 ) continue; run_func(); if( ts->get_err_code() < 0 ) return; if( validate_test_results( test_case_idx ) < 0 || ts->get_err_code() < 0 ) return; } } void BaseTest::run_func(void) { assert(0); } int BaseTest::get_test_case_count(void) { return test_case_count; } int BaseTest::prepare_test_case( int ) { return 0; } int BaseTest::validate_test_results( int ) { return 0; } int BaseTest::update_progress( int progress, int test_case_idx, int count, double dt ) { int width = 60 - (int)get_name().size(); if( count > 0 ) { int t = cvRound( ((double)test_case_idx * width)/count ); if( t > progress ) { ts->printf( TS::CONSOLE, "." ); progress = t; } } else if( cvRound(dt) > progress ) { ts->printf( TS::CONSOLE, "." ); progress = cvRound(dt); } return progress; } BadArgTest::BadArgTest() { test_case_idx = -1; // oldErrorCbk = 0; // oldErrorCbkData = 0; } BadArgTest::~BadArgTest(void) { } int BadArgTest::run_test_case( int expected_code, const string& _descr ) { int errcount = 0; bool thrown = false; const char* descr = _descr.c_str() ? _descr.c_str() : ""; try { run_func(); } catch(const cv::Exception& e) { thrown = true; if (e.code != expected_code && e.code != cv::Error::StsError && e.code != cv::Error::StsAssert // Exact error codes support will be dropped. Checks should provide proper text messages intead. ) { ts->printf(TS::LOG, "%s (test case #%d): the error code %d is different from the expected %d\n", descr, test_case_idx, e.code, expected_code); errcount = 1; } } catch(...) { thrown = true; ts->printf(TS::LOG, "%s (test case #%d): unknown exception was thrown (the function has likely crashed)\n", descr, test_case_idx); errcount = 1; } if(!thrown) { ts->printf(TS::LOG, "%s (test case #%d): no expected exception was thrown\n", descr, test_case_idx); errcount = 1; } test_case_idx++; return errcount; } /*****************************************************************************************\ * Base Class for Test System * \*****************************************************************************************/ /******************************** Constructors/Destructors ******************************/ TSParams::TSParams() { rng_seed = (uint64)-1; use_optimized = true; test_case_count_scale = 1; } TestInfo::TestInfo() { test = 0; code = 0; rng_seed = rng_seed0 = 0; test_case_idx = -1; } TS::TS() { } // ctor TS::~TS() { } // dtor string TS::str_from_code( const TS::FailureCode code ) { switch( code ) { case OK: return "Ok"; case FAIL_GENERIC: return "Generic/Unknown"; case FAIL_MISSING_TEST_DATA: return "No test data"; case FAIL_INVALID_TEST_DATA: return "Invalid test data"; case FAIL_ERROR_IN_CALLED_FUNC: return "cvError invoked"; case FAIL_EXCEPTION: return "Hardware/OS exception"; case FAIL_MEMORY_EXCEPTION: return "Invalid memory access"; case FAIL_ARITHM_EXCEPTION: return "Arithmetic exception"; case FAIL_MEMORY_CORRUPTION_BEGIN: return "Corrupted memblock (beginning)"; case FAIL_MEMORY_CORRUPTION_END: return "Corrupted memblock (end)"; case FAIL_MEMORY_LEAK: return "Memory leak"; case FAIL_INVALID_OUTPUT: return "Invalid function output"; case FAIL_MISMATCH: return "Unexpected output"; case FAIL_BAD_ACCURACY: return "Bad accuracy"; case FAIL_HANG: return "Infinite loop(?)"; case FAIL_BAD_ARG_CHECK: return "Incorrect handling of bad arguments"; default: ; } return "Generic/Unknown"; } static int tsErrorCallback( int status, const char* func_name, const char* err_msg, const char* file_name, int line, TS* ts ) { const char* delim = std::string(err_msg).find('\n') == std::string::npos ? "" : "\n"; ts->printf(TS::LOG, "OpenCV Error:\n\t%s (%s%s) in %s, file %s, line %d\n", cvErrorStr(status), delim, err_msg, func_name[0] != 0 ? func_name : "unknown function", file_name, line); return 0; } /************************************** Running tests **********************************/ void TS::init( const string& modulename ) { data_search_subdir.push_back(modulename); #ifndef WINRT char* datapath_dir = getenv("OPENCV_TEST_DATA_PATH"); #else char* datapath_dir = OPENCV_TEST_DATA_PATH; #endif if( datapath_dir ) { data_path = path_join(path_join(datapath_dir, modulename), ""); } cv::redirectError((cv::ErrorCallback)tsErrorCallback, this); if( ::testing::GTEST_FLAG(catch_exceptions) ) { #if defined _WIN32 #ifdef _MSC_VER _set_se_translator( SEHTranslator ); #endif #else for( int i = 0; tsSigId[i] >= 0; i++ ) signal( tsSigId[i], signalHandler ); #endif } else { #if defined _WIN32 #ifdef _MSC_VER _set_se_translator( 0 ); #endif #else for( int i = 0; tsSigId[i] >= 0; i++ ) signal( tsSigId[i], SIG_DFL ); #endif } if( params.use_optimized == 0 ) cv::setUseOptimized(false); rng = RNG(params.rng_seed); } void TS::set_gtest_status() { TS::FailureCode code = get_err_code(); if( code >= 0 ) return SUCCEED(); char seedstr[32]; sprintf(seedstr, "%08x%08x", (unsigned)(current_test_info.rng_seed>>32), (unsigned)(current_test_info.rng_seed)); string logs = ""; if( !output_buf[SUMMARY_IDX].empty() ) logs += "\n-----------------------------------\n\tSUM: " + output_buf[SUMMARY_IDX]; if( !output_buf[LOG_IDX].empty() ) logs += "\n-----------------------------------\n\tLOG:\n" + output_buf[LOG_IDX]; if( !output_buf[CONSOLE_IDX].empty() ) logs += "\n-----------------------------------\n\tCONSOLE: " + output_buf[CONSOLE_IDX]; logs += "\n-----------------------------------\n"; FAIL() << "\n\tfailure reason: " << str_from_code(code) << "\n\ttest case #" << current_test_info.test_case_idx << "\n\tseed: " << seedstr << logs; } void TS::update_context( BaseTest* test, int test_case_idx, bool update_ts_context ) { if( current_test_info.test != test ) { for( int i = 0; i <= CONSOLE_IDX; i++ ) output_buf[i] = string(); rng = RNG(params.rng_seed); current_test_info.rng_seed0 = current_test_info.rng_seed = rng.state; } current_test_info.test = test; current_test_info.test_case_idx = test_case_idx; current_test_info.code = 0; cvSetErrStatus( CV_StsOk ); if( update_ts_context ) current_test_info.rng_seed = rng.state; } void TS::set_failed_test_info( int fail_code ) { if( current_test_info.code >= 0 ) current_test_info.code = TS::FailureCode(fail_code); } #if defined _MSC_VER && _MSC_VER < 1400 #undef vsnprintf #define vsnprintf _vsnprintf #endif void TS::vprintf( int streams, const char* fmt, va_list l ) { char str[1 << 14]; vsnprintf( str, sizeof(str)-1, fmt, l ); for( int i = 0; i < MAX_IDX; i++ ) if( (streams & (1 << i)) ) { output_buf[i] += std::string(str); // in the new GTest-based framework we do not use // any output files (except for the automatically generated xml report). // if a test fails, all the buffers are printed, so we do not want to duplicate the information and // thus only add the new information to a single buffer and return from the function. break; } } void TS::printf( int streams, const char* fmt, ... ) { if( streams ) { va_list l; va_start( l, fmt ); vprintf( streams, fmt, l ); va_end( l ); } } TS* TS::ptr() { static TS ts; return &ts; } void fillGradient(Mat& img, int delta) { const int ch = img.channels(); CV_Assert(!img.empty() && img.depth() == CV_8U && ch <= 4); int n = 255 / delta; int r, c, i; for(r=0; r 0 // or enabled OpenCV builtin allocation statistics ) { CV_LOG_INFO(NULL, "Memory usage total: " << (memory_usage + ocl_memory_usage)); ::testing::Test::RecordProperty("memory_usage", cv::format("%llu", (unsigned long long)memory_usage)); ::testing::Test::RecordProperty("total_memory_usage", cv::format("%llu", (unsigned long long)(memory_usage + ocl_memory_usage))); } } void parseCustomOptions(int argc, char **argv) { const char * const command_line_keys = "{ ipp test_ipp_check |false |check whether IPP works without failures }" "{ test_seed |809564 |seed for random numbers generator }" "{ test_threads |-1 |the number of worker threads, if parallel execution is enabled}" "{ skip_unstable |false |skip unstable tests }" "{ test_bigdata |false |run BigData tests (>=2Gb) }" "{ test_require_data |false |fail on missing non-required test data instead of skip}" CV_TEST_TAGS_PARAMS "{ h help |false |print help info }" ; cv::CommandLineParser parser(argc, argv, command_line_keys); if (parser.get("help")) { std::cout << "\nAvailable options besides google test option: \n"; parser.printMessage(); } test_ipp_check = parser.get("test_ipp_check"); if (!test_ipp_check) #ifndef WINRT test_ipp_check = getenv("OPENCV_IPP_CHECK") != NULL; #else test_ipp_check = false; #endif param_seed = parser.get("test_seed"); testThreads = parser.get("test_threads"); skipUnstableTests = parser.get("skip_unstable"); runBigDataTests = parser.get("test_bigdata"); checkTestData = parser.get("test_require_data"); activateTestTags(parser); } static bool isDirectory(const std::string& path) { #if defined _WIN32 || defined WINCE WIN32_FILE_ATTRIBUTE_DATA all_attrs; #ifdef WINRT wchar_t wpath[MAX_PATH]; size_t copied = mbstowcs(wpath, path.c_str(), MAX_PATH); CV_Assert((copied != MAX_PATH) && (copied != (size_t)-1)); BOOL status = ::GetFileAttributesExW(wpath, GetFileExInfoStandard, &all_attrs); #else BOOL status = ::GetFileAttributesExA(path.c_str(), GetFileExInfoStandard, &all_attrs); #endif DWORD attributes = all_attrs.dwFileAttributes; return status && ((attributes & FILE_ATTRIBUTE_DIRECTORY) != 0); #else struct stat s; if (0 != stat(path.c_str(), &s)) return false; return S_ISDIR(s.st_mode); #endif } void addDataSearchPath(const std::string& path) { if (isDirectory(path)) TS::ptr()->data_search_path.push_back(path); } void addDataSearchSubDirectory(const std::string& subdir) { TS::ptr()->data_search_subdir.push_back(subdir); } static std::string findData(const std::string& relative_path, bool required, bool findDirectory) { #define TEST_TRY_FILE_WITH_PREFIX(prefix) \ { \ std::string path = path_join(prefix, relative_path); \ /*printf("Trying %s\n", path.c_str());*/ \ if (findDirectory) \ { \ if (isDirectory(path)) \ return path; \ } \ else \ { \ FILE* f = fopen(path.c_str(), "rb"); \ if(f) { \ fclose(f); \ return path; \ } \ } \ } const std::vector& search_path = TS::ptr()->data_search_path; for(size_t i = search_path.size(); i > 0; i--) { const std::string& prefix = search_path[i - 1]; TEST_TRY_FILE_WITH_PREFIX(prefix); } const std::vector& search_subdir = TS::ptr()->data_search_subdir; #ifndef WINRT char* datapath_dir = getenv("OPENCV_TEST_DATA_PATH"); #else char* datapath_dir = OPENCV_TEST_DATA_PATH; #endif std::string datapath; if (datapath_dir) { datapath = datapath_dir; //CV_Assert(isDirectory(datapath) && "OPENCV_TEST_DATA_PATH is specified but it doesn't exist"); if (isDirectory(datapath)) { for(size_t i = search_subdir.size(); i > 0; i--) { const std::string& subdir = search_subdir[i - 1]; std::string prefix = path_join(datapath, subdir); TEST_TRY_FILE_WITH_PREFIX(prefix); } } } #ifdef OPENCV_TEST_DATA_INSTALL_PATH datapath = path_join("./", OPENCV_TEST_DATA_INSTALL_PATH); if (isDirectory(datapath)) { for(size_t i = search_subdir.size(); i > 0; i--) { const std::string& subdir = search_subdir[i - 1]; std::string prefix = path_join(datapath, subdir); TEST_TRY_FILE_WITH_PREFIX(prefix); } } #ifdef OPENCV_INSTALL_PREFIX else { datapath = path_join(OPENCV_INSTALL_PREFIX, OPENCV_TEST_DATA_INSTALL_PATH); if (isDirectory(datapath)) { for(size_t i = search_subdir.size(); i > 0; i--) { const std::string& subdir = search_subdir[i - 1]; std::string prefix = path_join(datapath, subdir); TEST_TRY_FILE_WITH_PREFIX(prefix); } } } #endif #endif const char* type = findDirectory ? "directory" : "data file"; if (required || checkTestData) CV_Error(cv::Error::StsError, cv::format("OpenCV tests: Can't find required %s: %s", type, relative_path.c_str())); throw SkipTestException(cv::format("OpenCV tests: Can't find %s: %s", type, relative_path.c_str())); } std::string findDataFile(const std::string& relative_path, bool required) { return findData(relative_path, required, false); } std::string findDataDirectory(const std::string& relative_path, bool required) { return findData(relative_path, required, true); } inline static std::string getSnippetFromConfig(const std::string & start, const std::string & end) { const std::string buildInfo = cv::getBuildInformation(); size_t pos1 = buildInfo.find(start); if (pos1 != std::string::npos) { pos1 += start.length(); pos1 = buildInfo.find_first_not_of(" \t\n\r", pos1); } size_t pos2 = buildInfo.find(end, pos1); if (pos2 != std::string::npos) { pos2 = buildInfo.find_last_not_of(" \t\n\r", pos2); } if (pos1 != std::string::npos && pos2 != std::string::npos && pos1 < pos2) { return buildInfo.substr(pos1, pos2 - pos1 + 1); } return std::string(); } inline static void recordPropertyVerbose(const std::string & property, const std::string & msg, const std::string & value, const std::string & build_value = std::string()) { ::testing::Test::RecordProperty(property, value); std::cout << msg << ": " << (value.empty() ? std::string("N/A") : value) << std::endl; if (!build_value.empty()) { ::testing::Test::RecordProperty(property + "_build", build_value); if (build_value != value) std::cout << "WARNING: build value differs from runtime: " << build_value << endl; } } inline static void recordPropertyVerbose(const std::string& property, const std::string& msg, const char* value, const char* build_value = NULL) { return recordPropertyVerbose(property, msg, value ? std::string(value) : std::string(), build_value ? std::string(build_value) : std::string()); } #ifdef _DEBUG #define CV_TEST_BUILD_CONFIG "Debug" #else #define CV_TEST_BUILD_CONFIG "Release" #endif void SystemInfoCollector::OnTestProgramStart(const testing::UnitTest&) { std::cout << "CTEST_FULL_OUTPUT" << std::endl; // Tell CTest not to discard any output recordPropertyVerbose("cv_version", "OpenCV version", cv::getVersionString(), CV_VERSION); recordPropertyVerbose("cv_vcs_version", "OpenCV VCS version", getSnippetFromConfig("Version control:", "\n")); recordPropertyVerbose("cv_build_type", "Build type", getSnippetFromConfig("Configuration:", "\n"), CV_TEST_BUILD_CONFIG); recordPropertyVerbose("cv_compiler", "Compiler", getSnippetFromConfig("C++ Compiler:", "\n")); recordPropertyVerbose("cv_parallel_framework", "Parallel framework", cv::currentParallelFramework()); recordPropertyVerbose("cv_cpu_features", "CPU features", cv::getCPUFeaturesLine()); #ifdef HAVE_IPP recordPropertyVerbose("cv_ipp_version", "Intel(R) IPP version", cv::ipp::useIPP() ? cv::ipp::getIppVersion() : "disabled"); #endif #ifdef HAVE_OPENCL cv::dumpOpenCLInformation(); #endif } } //namespace cvtest /* End of file. */