// This file is part of OpenCV project. // It is subject to the license terms in the LICENSE file found in the top-level directory // of this distribution and at http://opencv.org/license.html. #include "test_precomp.hpp" #include "opencv2/core/utils/logger.defines.hpp" #undef CV_LOG_STRIP_LEVEL #define CV_LOG_STRIP_LEVEL CV_LOG_LEVEL_VERBOSE + 1 #include "opencv2/core/utils/logger.hpp" #include "opencv2/core/utils/buffer_area.private.hpp" #include "test_utils_tls.impl.hpp" namespace opencv_test { namespace { static const char * const keys = "{ h help | | print help }" "{ i info | false | print info }" "{ t true | true | true value }" "{ n unused | | dummy }" ; TEST(CommandLineParser, testFailure) { const char* argv[] = {"", "-q"}; const int argc = 2; cv::CommandLineParser parser(argc, argv, keys); EXPECT_ANY_THROW(parser.has("q")); EXPECT_ANY_THROW(parser.get("q")); EXPECT_ANY_THROW(parser.get(0)); parser.get("h"); EXPECT_FALSE(parser.check()); } TEST(CommandLineParser, testHas_noValues) { const char* argv[] = {"", "-h", "--info"}; const int argc = 3; cv::CommandLineParser parser(argc, argv, keys); EXPECT_TRUE(parser.has("help")); EXPECT_TRUE(parser.has("h")); EXPECT_TRUE(parser.get("help")); EXPECT_TRUE(parser.get("h")); EXPECT_TRUE(parser.has("info")); EXPECT_TRUE(parser.has("i")); EXPECT_TRUE(parser.get("info")); EXPECT_TRUE(parser.get("i")); EXPECT_TRUE(parser.get("true")); EXPECT_TRUE(parser.get("t")); EXPECT_FALSE(parser.has("n")); EXPECT_FALSE(parser.has("unused")); } TEST(CommandLineParser, testHas_TrueValues) { const char* argv[] = {"", "-h=TRUE", "--info=true"}; const int argc = 3; cv::CommandLineParser parser(argc, argv, keys); EXPECT_TRUE(parser.has("help")); EXPECT_TRUE(parser.has("h")); EXPECT_TRUE(parser.get("help")); EXPECT_TRUE(parser.get("h")); EXPECT_TRUE(parser.has("info")); EXPECT_TRUE(parser.has("i")); EXPECT_TRUE(parser.get("info")); EXPECT_TRUE(parser.get("i")); EXPECT_TRUE(parser.get("true")); EXPECT_TRUE(parser.get("t")); EXPECT_FALSE(parser.has("n")); EXPECT_FALSE(parser.has("unused")); } TEST(CommandLineParser, testHas_TrueValues1) { const char* argv[] = {"", "-h=1", "--info=1"}; const int argc = 3; cv::CommandLineParser parser(argc, argv, keys); EXPECT_TRUE(parser.has("help")); EXPECT_TRUE(parser.has("h")); EXPECT_TRUE(parser.get("help")); EXPECT_TRUE(parser.get("h")); EXPECT_TRUE(parser.has("info")); EXPECT_TRUE(parser.has("i")); EXPECT_TRUE(parser.get("info")); EXPECT_TRUE(parser.get("i")); EXPECT_TRUE(parser.get("true")); EXPECT_TRUE(parser.get("t")); EXPECT_FALSE(parser.has("n")); EXPECT_FALSE(parser.has("unused")); } TEST(CommandLineParser, testHas_FalseValues0) { const char* argv[] = {"", "-h=0", "--info=0"}; const int argc = 3; cv::CommandLineParser parser(argc, argv, keys); EXPECT_TRUE(parser.has("help")); EXPECT_TRUE(parser.has("h")); EXPECT_FALSE(parser.get("help")); EXPECT_FALSE(parser.get("h")); EXPECT_TRUE(parser.has("info")); EXPECT_TRUE(parser.has("i")); EXPECT_FALSE(parser.get("info")); EXPECT_FALSE(parser.get("i")); EXPECT_TRUE(parser.get("true")); EXPECT_TRUE(parser.get("t")); EXPECT_FALSE(parser.has("n")); EXPECT_FALSE(parser.has("unused")); } TEST(CommandLineParser, testBoolOption_noArgs) { const char* argv[] = {""}; const int argc = 1; cv::CommandLineParser parser(argc, argv, keys); EXPECT_FALSE(parser.get("help")); EXPECT_FALSE(parser.get("h")); EXPECT_FALSE(parser.get("info")); EXPECT_FALSE(parser.get("i")); EXPECT_TRUE(parser.get("true")); // default is true EXPECT_TRUE(parser.get("t")); } TEST(CommandLineParser, testBoolOption_noValues) { const char* argv[] = {"", "-h", "--info"}; const int argc = 3; cv::CommandLineParser parser(argc, argv, keys); EXPECT_TRUE(parser.get("help")); EXPECT_TRUE(parser.get("h")); EXPECT_TRUE(parser.get("info")); EXPECT_TRUE(parser.get("i")); EXPECT_TRUE(parser.get("true")); EXPECT_TRUE(parser.get("t")); } TEST(CommandLineParser, testBoolOption_TrueValues) { const char* argv[] = {"", "-h=TrUe", "-t=1", "--info=true", "-n=truE"}; const int argc = 5; cv::CommandLineParser parser(argc, argv, keys); EXPECT_TRUE(parser.get("help")); EXPECT_TRUE(parser.get("h")); EXPECT_TRUE(parser.get("info")); EXPECT_TRUE(parser.get("i")); EXPECT_TRUE(parser.get("true")); EXPECT_TRUE(parser.get("t")); EXPECT_TRUE(parser.get("unused")); EXPECT_TRUE(parser.get("n")); } TEST(CommandLineParser, testBoolOption_FalseValues) { const char* argv[] = {"", "--help=FALSE", "-t=FaLsE", "-i=false", "-n=0"}; const int argc = 5; cv::CommandLineParser parser(argc, argv, keys); EXPECT_FALSE(parser.get("help")); EXPECT_FALSE(parser.get("h")); EXPECT_FALSE(parser.get("info")); EXPECT_FALSE(parser.get("i")); EXPECT_FALSE(parser.get("true")); EXPECT_FALSE(parser.get("t")); EXPECT_FALSE(parser.get("unused")); EXPECT_FALSE(parser.get("n")); } static const char * const keys2 = "{ h help | | print help }" "{ @arg1 | default1 | param1 }" "{ @arg2 | | param2 }" "{ n unused | | dummy }" ; TEST(CommandLineParser, testPositional_noArgs) { const char* argv[] = {""}; const int argc = 1; cv::CommandLineParser parser(argc, argv, keys2); EXPECT_TRUE(parser.has("@arg1")); EXPECT_FALSE(parser.has("@arg2")); EXPECT_EQ("default1", parser.get("@arg1")); EXPECT_EQ("default1", parser.get(0)); EXPECT_EQ("", parser.get("@arg2")); EXPECT_EQ("", parser.get(1)); } TEST(CommandLineParser, testPositional_default) { const char* argv[] = {"", "test1", "test2"}; const int argc = 3; cv::CommandLineParser parser(argc, argv, keys2); EXPECT_TRUE(parser.has("@arg1")); EXPECT_TRUE(parser.has("@arg2")); EXPECT_EQ("test1", parser.get("@arg1")); EXPECT_EQ("test2", parser.get("@arg2")); EXPECT_EQ("test1", parser.get(0)); EXPECT_EQ("test2", parser.get(1)); } TEST(CommandLineParser, testPositional_withFlagsBefore) { const char* argv[] = {"", "-h", "test1", "test2"}; const int argc = 4; cv::CommandLineParser parser(argc, argv, keys2); EXPECT_TRUE(parser.has("@arg1")); EXPECT_TRUE(parser.has("@arg2")); EXPECT_EQ("test1", parser.get("@arg1")); EXPECT_EQ("test2", parser.get("@arg2")); EXPECT_EQ("test1", parser.get(0)); EXPECT_EQ("test2", parser.get(1)); } TEST(CommandLineParser, testPositional_withFlagsAfter) { const char* argv[] = {"", "test1", "test2", "-h"}; const int argc = 4; cv::CommandLineParser parser(argc, argv, keys2); EXPECT_TRUE(parser.has("@arg1")); EXPECT_TRUE(parser.has("@arg2")); EXPECT_EQ("test1", parser.get("@arg1")); EXPECT_EQ("test2", parser.get("@arg2")); EXPECT_EQ("test1", parser.get(0)); EXPECT_EQ("test2", parser.get(1)); } TEST(CommandLineParser, testEmptyStringValue) { static const char * const keys3 = "{ @pos0 | | empty default value }" "{ @pos1 | | forbid empty default value }"; const char* argv[] = {""}; const int argc = 1; cv::CommandLineParser parser(argc, argv, keys3); // EXPECT_TRUE(parser.has("@pos0")); EXPECT_EQ("", parser.get("@pos0")); EXPECT_TRUE(parser.check()); EXPECT_FALSE(parser.has("@pos1")); parser.get(1); EXPECT_FALSE(parser.check()); } TEST(CommandLineParser, positional_regression_5074_equal_sign) { static const char * const keys3 = "{ @eq0 | | }" "{ eq1 | | }"; const char* argv[] = {"", "1=0", "--eq1=1=0"}; const int argc = 3; cv::CommandLineParser parser(argc, argv, keys3); EXPECT_EQ("1=0", parser.get("@eq0")); EXPECT_EQ("1=0", parser.get(0)); EXPECT_EQ("1=0", parser.get("eq1")); EXPECT_TRUE(parser.check()); } TEST(AutoBuffer, allocate_test) { AutoBuffer abuf(2); EXPECT_EQ(2u, abuf.size()); abuf.allocate(4); EXPECT_EQ(4u, abuf.size()); abuf.allocate(6); EXPECT_EQ(6u, abuf.size()); } TEST(CommandLineParser, testScalar) { static const char * const keys3 = "{ s0 | 3 4 5 | default scalar }" "{ s1 | | single value scalar }" "{ s2 | | two values scalar (default with zeros) }" "{ s3 | | three values scalar }" "{ s4 | | four values scalar }" "{ s5 | | five values scalar }"; const char* argv[] = {"", "--s1=1.1", "--s3=1.1 2.2 3", "--s4=-4.2 1 0 3", "--s5=5 -4 3 2 1"}; const int argc = 5; CommandLineParser parser(argc, argv, keys3); EXPECT_EQ(parser.get("s0"), Scalar(3, 4, 5)); EXPECT_EQ(parser.get("s1"), Scalar(1.1)); EXPECT_EQ(parser.get("s2"), Scalar(0)); EXPECT_EQ(parser.get("s3"), Scalar(1.1, 2.2, 3)); EXPECT_EQ(parser.get("s4"), Scalar(-4.2, 1, 0, 3)); EXPECT_EQ(parser.get("s5"), Scalar(5, -4, 3, 2)); } TEST(Logger, DISABLED_message) { int id = 42; CV_LOG_VERBOSE(NULL, 0, "Verbose message: " << id); CV_LOG_VERBOSE(NULL, 1, "Verbose message: " << id); CV_LOG_DEBUG(NULL, "Debug message: " << id); CV_LOG_INFO(NULL, "Info message: " << id); CV_LOG_WARNING(NULL, "Warning message: " << id); CV_LOG_ERROR(NULL, "Error message: " << id); CV_LOG_FATAL(NULL, "Fatal message: " << id); } static int testLoggerMessageOnce(int id) { CV_LOG_ONCE_VERBOSE(NULL, 0, "Verbose message: " << id++); CV_LOG_ONCE_VERBOSE(NULL, 1, "Verbose message: " << id++); CV_LOG_ONCE_DEBUG(NULL, "Debug message: " << id++); CV_LOG_ONCE_INFO(NULL, "Info message: " << id++); CV_LOG_ONCE_WARNING(NULL, "Warning message: " << id++); CV_LOG_ONCE_ERROR(NULL, "Error message: " << id++); // doesn't make sense: CV_LOG_ONCE_FATAL return id; } TEST(Logger, DISABLED_message_once) { int check_id_first = testLoggerMessageOnce(42); EXPECT_GT(check_id_first, 42); int check_id_second = testLoggerMessageOnce(0); EXPECT_EQ(0, check_id_second); } TEST(Logger, DISABLED_message_if) { for (int i = 0; i < 100; i++) { CV_LOG_IF_VERBOSE(NULL, 0, i == 0 || i == 42, "Verbose message: " << i); CV_LOG_IF_VERBOSE(NULL, 1, i == 0 || i == 42, "Verbose message: " << i); CV_LOG_IF_DEBUG(NULL, i == 0 || i == 42, "Debug message: " << i); CV_LOG_IF_INFO(NULL, i == 0 || i == 42, "Info message: " << i); CV_LOG_IF_WARNING(NULL, i == 0 || i == 42, "Warning message: " << i); CV_LOG_IF_ERROR(NULL, i == 0 || i == 42, "Error message: " << i); CV_LOG_IF_FATAL(NULL, i == 0 || i == 42, "Fatal message: " << i); } } TEST(Samples, findFile) { cv::utils::logging::LogLevel prev = cv::utils::logging::setLogLevel(cv::utils::logging::LOG_LEVEL_VERBOSE); cv::String path; ASSERT_NO_THROW(path = samples::findFile("lena.jpg", false)); EXPECT_NE(std::string(), path.c_str()); cv::utils::logging::setLogLevel(prev); } TEST(Samples, findFile_missing) { cv::utils::logging::LogLevel prev = cv::utils::logging::setLogLevel(cv::utils::logging::LOG_LEVEL_VERBOSE); cv::String path; ASSERT_ANY_THROW(path = samples::findFile("non-existed.file", true)); cv::utils::logging::setLogLevel(prev); } template inline bool buffers_overlap(T * first, size_t first_num, T * second, size_t second_num) { // cerr << "[" << (void*)first << " : " << (void*)(first + first_num) << ")"; // cerr << " X "; // cerr << "[" << (void*)second << " : " << (void*)(second + second_num) << ")"; // cerr << endl; bool res = false; res |= (second <= first) && (first < second + second_num); res |= (second < first + first_num) && (first + first_num < second + second_num); return res; } typedef testing::TestWithParam BufferArea; TEST_P(BufferArea, basic) { const bool safe = GetParam(); const size_t SZ = 3; int * int_ptr = NULL; uchar * uchar_ptr = NULL; double * dbl_ptr = NULL; { cv::utils::BufferArea area(safe); area.allocate(int_ptr, SZ); area.allocate(uchar_ptr, SZ); area.allocate(dbl_ptr, SZ); area.commit(); ASSERT_TRUE(int_ptr != NULL); ASSERT_TRUE(uchar_ptr != NULL); ASSERT_TRUE(dbl_ptr != NULL); EXPECT_EQ((size_t)0, (size_t)int_ptr % sizeof(int)); EXPECT_EQ((size_t)0, (size_t)dbl_ptr % sizeof(double)); for (size_t i = 0; i < SZ; ++i) { int_ptr[i] = (int)i + 1; uchar_ptr[i] = (uchar)i + 1; dbl_ptr[i] = (double)i + 1; } area.zeroFill(int_ptr); area.zeroFill(uchar_ptr); area.zeroFill(dbl_ptr); for (size_t i = 0; i < SZ; ++i) { EXPECT_EQ((int)0, int_ptr[i]); EXPECT_EQ((uchar)0, uchar_ptr[i]); EXPECT_EQ((double)0, dbl_ptr[i]); } } } TEST_P(BufferArea, align) { const bool safe = GetParam(); const size_t SZ = 3; const size_t CNT = 5; typedef int T; T * buffers[CNT] = {0}; { cv::utils::BufferArea area(safe); // allocate buffers with 3 elements with growing alignment (power of two) for (size_t i = 0; i < CNT; ++i) { const ushort ALIGN = static_cast(sizeof(T) << i); EXPECT_TRUE(buffers[i] == NULL); area.allocate(buffers[i], SZ, ALIGN); } area.commit(); for (size_t i = 0; i < CNT; ++i) { const ushort ALIGN = static_cast(sizeof(T) << i); EXPECT_TRUE(buffers[i] != NULL); EXPECT_EQ((size_t)0, reinterpret_cast(buffers[i]) % ALIGN); if (i < CNT - 1) { SCOPED_TRACE(i); EXPECT_FALSE(buffers_overlap(buffers[i], SZ, buffers[i + 1], SZ)) << "Buffers overlap: " << buffers[i] << " (" << SZ << " elems)" << " and " << buffers[i + 1] << " (" << SZ << " elems)" << " (element size: " << sizeof(T) << ")"; } } } } TEST_P(BufferArea, default_align) { const bool safe = GetParam(); const size_t CNT = 100; const ushort ALIGN = 64; typedef int T; T * buffers[CNT] = {0}; { cv::utils::BufferArea area(safe); // allocate buffers with 1-99 elements with default alignment for (size_t i = 0; i < CNT; ++ i) { EXPECT_TRUE(buffers[i] == NULL); area.allocate(buffers[i], i + 1, ALIGN); } area.commit(); for (size_t i = 0; i < CNT; ++i) { EXPECT_TRUE(buffers[i] != NULL); EXPECT_EQ((size_t)0, reinterpret_cast(buffers[i]) % ALIGN); if (i < CNT - 1) { SCOPED_TRACE(i); EXPECT_FALSE(buffers_overlap(buffers[i], i + 1, buffers[i + 1], i + 2)) << "Buffers overlap: " << buffers[i] << " (" << i + 1 << " elems)" << " and " << buffers[i + 1] << " (" << i + 2 << " elems)" << " (element size: " << sizeof(T) << ")"; } } } } TEST_P(BufferArea, bad) { const bool safe = GetParam(); int * ptr = 0; cv::utils::BufferArea area(safe); EXPECT_ANY_THROW(area.allocate(ptr, 0)); // bad size EXPECT_ANY_THROW(area.allocate(ptr, 1, 0)); // bad alignment EXPECT_ANY_THROW(area.allocate(ptr, 1, 3)); // bad alignment ptr = (int*)1; EXPECT_ANY_THROW(area.allocate(ptr, 1)); // non-zero pointer } INSTANTIATE_TEST_CASE_P(/**/, BufferArea, testing::Values(true, false)); }} // namespace