// 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 "precomp.hpp" #include "opencv2/core/check.hpp" namespace cv { const char* depthToString(int depth) { const char* s = detail::depthToString_(depth); return s ? s : ""; } const cv::String typeToString(int type) { cv::String s = detail::typeToString_(type); if (s.empty()) { static cv::String invalidType(""); return invalidType; } return s; } namespace detail { static const char* getTestOpPhraseStr(unsigned testOp) { static const char* _names[] = { "{custom check}", "equal to", "not equal to", "less than or equal to", "less than", "greater than or equal to", "greater than" }; CV_DbgAssert(testOp < CV__LAST_TEST_OP); return testOp < CV__LAST_TEST_OP ? _names[testOp] : "???"; } static const char* getTestOpMath(unsigned testOp) { static const char* _names[] = { "???", "==", "!=", "<=", "<", ">=", ">" }; CV_DbgAssert(testOp < CV__LAST_TEST_OP); return testOp < CV__LAST_TEST_OP ? _names[testOp] : "???"; } const char* depthToString_(int depth) { static const char* depthNames[] = { "CV_8U", "CV_8S", "CV_16U", "CV_16S", "CV_32S", "CV_32F", "CV_64F", "CV_16F" }; return (depth <= CV_16F && depth >= 0) ? depthNames[depth] : NULL; } const cv::String typeToString_(int type) { int depth = CV_MAT_DEPTH(type); int cn = CV_MAT_CN(type); if (depth >= 0 && depth <= CV_16F) return cv::format("%sC%d", depthToString_(depth), cn); return cv::String(); } template static CV_NORETURN void check_failed_auto_(const T& v1, const T& v2, const CheckContext& ctx) { std::stringstream ss; ss << ctx.message << " (expected: '" << ctx.p1_str << " " << getTestOpMath(ctx.testOp) << " " << ctx.p2_str << "'), where" << std::endl << " '" << ctx.p1_str << "' is " << v1 << std::endl; if (ctx.testOp != TEST_CUSTOM && ctx.testOp < CV__LAST_TEST_OP) { ss << "must be " << getTestOpPhraseStr(ctx.testOp) << std::endl; } ss << " '" << ctx.p2_str << "' is " << v2; cv::error(cv::Error::StsError, ss.str(), ctx.func, ctx.file, ctx.line); } void check_failed_MatDepth(const int v1, const int v2, const CheckContext& ctx) { std::stringstream ss; ss << ctx.message << " (expected: '" << ctx.p1_str << " " << getTestOpMath(ctx.testOp) << " " << ctx.p2_str << "'), where" << std::endl << " '" << ctx.p1_str << "' is " << v1 << " (" << depthToString(v1) << ")" << std::endl; if (ctx.testOp != TEST_CUSTOM && ctx.testOp < CV__LAST_TEST_OP) { ss << "must be " << getTestOpPhraseStr(ctx.testOp) << std::endl; } ss << " '" << ctx.p2_str << "' is " << v2 << " (" << depthToString(v2) << ")"; cv::error(cv::Error::StsError, ss.str(), ctx.func, ctx.file, ctx.line); } void check_failed_MatType(const int v1, const int v2, const CheckContext& ctx) { std::stringstream ss; ss << ctx.message << " (expected: '" << ctx.p1_str << " " << getTestOpMath(ctx.testOp) << " " << ctx.p2_str << "'), where" << std::endl << " '" << ctx.p1_str << "' is " << v1 << " (" << typeToString(v1) << ")" << std::endl; if (ctx.testOp != TEST_CUSTOM && ctx.testOp < CV__LAST_TEST_OP) { ss << "must be " << getTestOpPhraseStr(ctx.testOp) << std::endl; } ss << " '" << ctx.p2_str << "' is " << v2 << " (" << typeToString(v2) << ")"; cv::error(cv::Error::StsError, ss.str(), ctx.func, ctx.file, ctx.line); } void check_failed_MatChannels(const int v1, const int v2, const CheckContext& ctx) { check_failed_auto_(v1, v2, ctx); } void check_failed_auto(const int v1, const int v2, const CheckContext& ctx) { check_failed_auto_(v1, v2, ctx); } void check_failed_auto(const size_t v1, const size_t v2, const CheckContext& ctx) { check_failed_auto_(v1, v2, ctx); } void check_failed_auto(const float v1, const float v2, const CheckContext& ctx) { check_failed_auto_(v1, v2, ctx); } void check_failed_auto(const double v1, const double v2, const CheckContext& ctx) { check_failed_auto_(v1, v2, ctx); } void check_failed_auto(const Size_ v1, const Size_ v2, const CheckContext& ctx) { check_failed_auto_< Size_ >(v1, v2, ctx); } template static CV_NORETURN void check_failed_auto_(const T& v, const CheckContext& ctx) { std::stringstream ss; ss << ctx.message << ":" << std::endl << " '" << ctx.p2_str << "'" << std::endl << "where" << std::endl << " '" << ctx.p1_str << "' is " << v; cv::error(cv::Error::StsError, ss.str(), ctx.func, ctx.file, ctx.line); } void check_failed_MatDepth(const int v, const CheckContext& ctx) { std::stringstream ss; ss << ctx.message << ":" << std::endl << " '" << ctx.p2_str << "'" << std::endl << "where" << std::endl << " '" << ctx.p1_str << "' is " << v << " (" << depthToString(v) << ")"; cv::error(cv::Error::StsError, ss.str(), ctx.func, ctx.file, ctx.line); } void check_failed_MatType(const int v, const CheckContext& ctx) { std::stringstream ss; ss << ctx.message << ":" << std::endl << " '" << ctx.p2_str << "'" << std::endl << "where" << std::endl << " '" << ctx.p1_str << "' is " << v << " (" << typeToString(v) << ")"; cv::error(cv::Error::StsError, ss.str(), ctx.func, ctx.file, ctx.line); } void check_failed_MatChannels(const int v, const CheckContext& ctx) { check_failed_auto_(v, ctx); } void check_failed_auto(const int v, const CheckContext& ctx) { check_failed_auto_(v, ctx); } void check_failed_auto(const size_t v, const CheckContext& ctx) { check_failed_auto_(v, ctx); } void check_failed_auto(const float v, const CheckContext& ctx) { check_failed_auto_(v, ctx); } void check_failed_auto(const double v, const CheckContext& ctx) { check_failed_auto_(v, ctx); } void check_failed_auto(const Size_ v, const CheckContext& ctx) { check_failed_auto_< Size_ >(v, ctx); } void check_failed_auto(const std::string& v, const CheckContext& ctx) { check_failed_auto_< std::string >(v, ctx); } }} // namespace