// ====================================================================== // == DO NOT MODIFY THIS FILE BY HAND - IT IS AUTO GENERATED BY CMAKE! == // ====================================================================== // // doctest.h - the lightest feature-rich C++ single-header testing framework for unit tests and TDD // // Copyright (c) 2016-2017 Viktor Kirilov // // Distributed under the MIT Software License // See accompanying file LICENSE.txt or copy at // https://opensource.org/licenses/MIT // // The documentation can be found at the library's page: // https://github.com/onqtam/doctest/blob/master/doc/markdown/readme.md // // ================================================================================================= // ================================================================================================= // ================================================================================================= // // The library is heavily influenced by Catch - https://github.com/philsquared/Catch // which uses the Boost Software License - Version 1.0 // see here - https://github.com/philsquared/Catch/blob/master/LICENSE_1_0.txt // // The concept of subcases (sections in Catch) and expression decomposition are from there. // Some parts of the code are taken directly: // - stringification - the detection of "ostream& operator<<(ostream&, const T&)" and StringMaker<> // - the Approx() helper class for floating point comparison // - colors in the console // - breaking into a debugger // - signal / SEH handling // - timer // // The expression decomposing templates are taken from lest - https://github.com/martinmoene/lest // which uses the Boost Software License - Version 1.0 // see here - https://github.com/martinmoene/lest/blob/master/LICENSE_1_0.txt // // The type list and the foreach algorithm on it for C++98 are taken from Loki // - http://loki-lib.sourceforge.net/ // - https://en.wikipedia.org/wiki/Loki_%28C%2B%2B%29 // - https://github.com/snaewe/loki-lib // which uses the MIT Software License // // ================================================================================================= // ================================================================================================= // ================================================================================================= // Suppress this globally (without push/pop) - there is no way to silence it in the // expression decomposition macros _Pragma() in macros doesn't work for the c++ front-end of g++ // https://gcc.gnu.org/bugzilla/show_bug.cgi?id=55578 // https://gcc.gnu.org/bugzilla/show_bug.cgi?id=69543 // Also the warning is completely worthless nowadays - http://stackoverflow.com/questions/14016993 #if defined(__GNUC__) && !defined(__clang__) #pragma GCC diagnostic ignored "-Waggregate-return" #endif #if defined(__clang__) #pragma clang diagnostic push #pragma clang diagnostic ignored "-Wunknown-pragmas" #pragma clang diagnostic ignored "-Wnon-virtual-dtor" #pragma clang diagnostic ignored "-Wweak-vtables" #pragma clang diagnostic ignored "-Wpadded" #pragma clang diagnostic ignored "-Wdeprecated" #pragma clang diagnostic ignored "-Wmissing-prototypes" #pragma clang diagnostic ignored "-Wunused-local-typedef" #pragma clang diagnostic ignored "-Wzero-as-null-pointer-constant" #pragma clang diagnostic ignored "-Wc++11-long-long" #endif // __clang__ #if defined(__GNUC__) && !defined(__clang__) #if __GNUC__ > 4 || (__GNUC__ == 4 && __GNUC_MINOR__ > 6) #pragma GCC diagnostic push #endif // > gcc 4.6 #pragma GCC diagnostic ignored "-Wunknown-pragmas" #pragma GCC diagnostic ignored "-Weffc++" #pragma GCC diagnostic ignored "-Wstrict-overflow" #pragma GCC diagnostic ignored "-Wstrict-aliasing" #pragma GCC diagnostic ignored "-Wctor-dtor-privacy" #pragma GCC diagnostic ignored "-Wmissing-declarations" #pragma GCC diagnostic ignored "-Wnon-virtual-dtor" #pragma GCC diagnostic ignored "-Winline" #pragma GCC diagnostic ignored "-Wlong-long" #if __GNUC__ > 4 || (__GNUC__ == 4 && __GNUC_MINOR__ > 6) #pragma GCC diagnostic ignored "-Wzero-as-null-pointer-constant" #endif // > gcc 4.6 #if __GNUC__ > 4 || (__GNUC__ == 4 && __GNUC_MINOR__ > 7) #pragma GCC diagnostic ignored "-Wunused-local-typedefs" #endif // > gcc 4.7 #if __GNUC__ > 5 || (__GNUC__ == 5 && __GNUC_MINOR__ > 3) #pragma GCC diagnostic ignored "-Wuseless-cast" #endif // > gcc 5.3 #endif // __GNUC__ #ifdef _MSC_VER #pragma warning(push) #pragma warning(disable : 4996) // The compiler encountered a deprecated declaration #pragma warning(disable : 4706) // assignment within conditional expression #pragma warning(disable : 4512) // 'class' : assignment operator could not be generated #pragma warning(disable : 4127) // conditional expression is constant #endif // _MSC_VER #ifndef DOCTEST_LIBRARY_INCLUDED #define DOCTEST_LIBRARY_INCLUDED #define DOCTEST_VERSION_MAJOR 1 #define DOCTEST_VERSION_MINOR 2 #define DOCTEST_VERSION_PATCH 1 #define DOCTEST_VERSION_STR "1.2.1" #define DOCTEST_VERSION \ (DOCTEST_VERSION_MAJOR * 10000 + DOCTEST_VERSION_MINOR * 100 + DOCTEST_VERSION_PATCH) // ================================================================================================= // == FEATURE DETECTION ============================================================================ // ================================================================================================= #if __cplusplus >= 201103L #ifndef DOCTEST_CONFIG_WITH_DELETED_FUNCTIONS #define DOCTEST_CONFIG_WITH_DELETED_FUNCTIONS #endif // DOCTEST_CONFIG_WITH_DELETED_FUNCTIONS #ifndef DOCTEST_CONFIG_WITH_RVALUE_REFERENCES #define DOCTEST_CONFIG_WITH_RVALUE_REFERENCES #endif // DOCTEST_CONFIG_WITH_RVALUE_REFERENCES #ifndef DOCTEST_CONFIG_WITH_NULLPTR #define DOCTEST_CONFIG_WITH_NULLPTR #endif // DOCTEST_CONFIG_WITH_NULLPTR #ifndef DOCTEST_CONFIG_WITH_LONG_LONG #define DOCTEST_CONFIG_WITH_LONG_LONG #endif // DOCTEST_CONFIG_WITH_LONG_LONG #ifndef DOCTEST_CONFIG_WITH_STATIC_ASSERT #define DOCTEST_CONFIG_WITH_STATIC_ASSERT #endif // DOCTEST_CONFIG_WITH_STATIC_ASSERT #ifndef DOCTEST_CONFIG_WITH_VARIADIC_MACROS #define DOCTEST_CONFIG_WITH_VARIADIC_MACROS #endif // DOCTEST_CONFIG_WITH_VARIADIC_MACROS #endif // __cplusplus >= 201103L #ifndef __has_feature #define __has_feature(x) 0 #endif // __has_feature // MSVC C++11 feature support table: https://msdn.microsoft.com/en-us/library/hh567368.aspx // GCC C++11 feature support table: https://gcc.gnu.org/projects/cxx-status.html // MSVC version table: // MSVC++ 15.0 _MSC_VER == 1910 (Visual Studio 2017) // MSVC++ 14.0 _MSC_VER == 1900 (Visual Studio 2015) // MSVC++ 12.0 _MSC_VER == 1800 (Visual Studio 2013) // MSVC++ 11.0 _MSC_VER == 1700 (Visual Studio 2012) // MSVC++ 10.0 _MSC_VER == 1600 (Visual Studio 2010) // MSVC++ 9.0 _MSC_VER == 1500 (Visual Studio 2008) // MSVC++ 8.0 _MSC_VER == 1400 (Visual Studio 2005) // deleted functions #ifndef DOCTEST_CONFIG_WITH_DELETED_FUNCTIONS #if defined(_MSC_VER) && (_MSC_VER >= 1800) #define DOCTEST_CONFIG_WITH_DELETED_FUNCTIONS #endif // _MSC_VER #if defined(__clang__) && __has_feature(cxx_deleted_functions) #define DOCTEST_CONFIG_WITH_DELETED_FUNCTIONS #endif // __clang__ #if defined(__GNUC__) && ((__GNUC__ == 4 && __GNUC_MINOR__ >= 4) || __GNUC__ > 4) && \ defined(__GXX_EXPERIMENTAL_CXX0X__) #define DOCTEST_CONFIG_WITH_DELETED_FUNCTIONS #endif // __GNUC__ #endif // DOCTEST_CONFIG_WITH_DELETED_FUNCTIONS #if defined(DOCTEST_CONFIG_NO_DELETED_FUNCTIONS) && defined(DOCTEST_CONFIG_WITH_DELETED_FUNCTIONS) #undef DOCTEST_CONFIG_WITH_DELETED_FUNCTIONS #endif // DOCTEST_CONFIG_NO_DELETED_FUNCTIONS // rvalue references #ifndef DOCTEST_CONFIG_WITH_RVALUE_REFERENCES #if defined(_MSC_VER) && (_MSC_VER >= 1600) #define DOCTEST_CONFIG_WITH_RVALUE_REFERENCES #endif // _MSC_VER #if defined(__clang__) && __has_feature(cxx_rvalue_references) #define DOCTEST_CONFIG_WITH_RVALUE_REFERENCES #endif // __clang__ #if defined(__GNUC__) && ((__GNUC__ == 4 && __GNUC_MINOR__ >= 3) || __GNUC__ > 4) && \ defined(__GXX_EXPERIMENTAL_CXX0X__) #define DOCTEST_CONFIG_WITH_RVALUE_REFERENCES #endif // __GNUC__ #endif // DOCTEST_CONFIG_WITH_RVALUE_REFERENCES #if defined(DOCTEST_CONFIG_NO_RVALUE_REFERENCES) && defined(DOCTEST_CONFIG_WITH_RVALUE_REFERENCES) #undef DOCTEST_CONFIG_WITH_RVALUE_REFERENCES #endif // DOCTEST_CONFIG_NO_RVALUE_REFERENCES // nullptr #ifndef DOCTEST_CONFIG_WITH_NULLPTR #if defined(__clang__) && __has_feature(cxx_nullptr) #define DOCTEST_CONFIG_WITH_NULLPTR #endif // __clang__ #if defined(__GNUC__) && ((__GNUC__ == 4 && __GNUC_MINOR__ >= 6) || __GNUC__ > 4) && \ defined(__GXX_EXPERIMENTAL_CXX0X__) #define DOCTEST_CONFIG_WITH_NULLPTR #endif // __GNUC__ #if defined(_MSC_VER) && (_MSC_VER >= 1600) // MSVC 2010 #define DOCTEST_CONFIG_WITH_NULLPTR #endif // _MSC_VER #endif // DOCTEST_CONFIG_WITH_NULLPTR #if defined(DOCTEST_CONFIG_NO_NULLPTR) && defined(DOCTEST_CONFIG_WITH_NULLPTR) #undef DOCTEST_CONFIG_WITH_NULLPTR #endif // DOCTEST_CONFIG_NO_NULLPTR // variadic macros #ifndef DOCTEST_CONFIG_WITH_VARIADIC_MACROS #if defined(_MSC_VER) && _MSC_VER > 1400 && !defined(__EDGE__) #define DOCTEST_CONFIG_WITH_VARIADIC_MACROS #endif // _MSC_VER #if defined(__GNUC__) && ((__GNUC__ == 4 && __GNUC_MINOR__ >= 1) || __GNUC__ > 4) && \ defined(__GXX_EXPERIMENTAL_CXX0X__) #define DOCTEST_CONFIG_WITH_VARIADIC_MACROS #endif // __GNUC__ and clang #endif // DOCTEST_CONFIG_WITH_VARIADIC_MACROS #if defined(DOCTEST_CONFIG_NO_VARIADIC_MACROS) && defined(DOCTEST_CONFIG_WITH_VARIADIC_MACROS) #undef DOCTEST_CONFIG_WITH_VARIADIC_MACROS #endif // DOCTEST_CONFIG_NO_VARIADIC_MACROS // long long #ifndef DOCTEST_CONFIG_WITH_LONG_LONG #if defined(_MSC_VER) && (_MSC_VER >= 1400) #define DOCTEST_CONFIG_WITH_LONG_LONG #endif // _MSC_VER #if(defined(__clang__) || \ (defined(__GNUC__) && ((__GNUC__ == 4 && __GNUC_MINOR__ >= 5) || __GNUC__ > 4))) && \ defined(__GXX_EXPERIMENTAL_CXX0X__) #define DOCTEST_CONFIG_WITH_LONG_LONG #endif // __GNUC__ and clang #endif // DOCTEST_CONFIG_WITH_LONG_LONG #if defined(DOCTEST_CONFIG_NO_LONG_LONG) && defined(DOCTEST_CONFIG_WITH_LONG_LONG) #undef DOCTEST_CONFIG_WITH_LONG_LONG #endif // DOCTEST_CONFIG_NO_LONG_LONG // static_assert #ifndef DOCTEST_CONFIG_WITH_STATIC_ASSERT #if defined(__clang__) && __has_feature(cxx_static_assert) #define DOCTEST_CONFIG_WITH_STATIC_ASSERT #endif // __clang__ #if defined(__GNUC__) && ((__GNUC__ == 4 && __GNUC_MINOR__ >= 3) || __GNUC__ > 4) && \ defined(__GXX_EXPERIMENTAL_CXX0X__) #define DOCTEST_CONFIG_WITH_STATIC_ASSERT #endif // __GNUC__ #if defined(_MSC_VER) && (_MSC_VER >= 1600) // MSVC 2010 #define DOCTEST_CONFIG_WITH_STATIC_ASSERT #endif // _MSC_VER #endif // DOCTEST_CONFIG_WITH_STATIC_ASSERT #if defined(DOCTEST_CONFIG_NO_STATIC_ASSERT) && defined(DOCTEST_CONFIG_WITH_STATIC_ASSERT) #undef DOCTEST_CONFIG_WITH_STATIC_ASSERT #endif // DOCTEST_CONFIG_NO_STATIC_ASSERT // other stuff... #if defined(DOCTEST_CONFIG_WITH_RVALUE_REFERENCES) || defined(DOCTEST_CONFIG_WITH_LONG_LONG) || \ defined(DOCTEST_CONFIG_WITH_DELETED_FUNCTIONS) || defined(DOCTEST_CONFIG_WITH_NULLPTR) || \ defined(DOCTEST_CONFIG_WITH_VARIADIC_MACROS) || defined(DOCTEST_CONFIG_WITH_STATIC_ASSERT) #define DOCTEST_NO_CPP11_COMPAT #endif // c++11 stuff #if defined(__clang__) && defined(DOCTEST_NO_CPP11_COMPAT) #pragma clang diagnostic ignored "-Wc++98-compat" #pragma clang diagnostic ignored "-Wc++98-compat-pedantic" #endif // __clang__ && DOCTEST_NO_CPP11_COMPAT #if defined(_MSC_VER) && !defined(DOCTEST_CONFIG_WINDOWS_SEH) #define DOCTEST_CONFIG_WINDOWS_SEH #endif // _MSC_VER #if defined(DOCTEST_CONFIG_NO_WINDOWS_SEH) && defined(DOCTEST_CONFIG_WINDOWS_SEH) #undef DOCTEST_CONFIG_WINDOWS_SEH #endif // DOCTEST_CONFIG_NO_WINDOWS_SEH #if !defined(_WIN32) && !defined(__QNX__) && !defined(DOCTEST_CONFIG_POSIX_SIGNALS) #define DOCTEST_CONFIG_POSIX_SIGNALS #endif // _WIN32 #if defined(DOCTEST_CONFIG_NO_POSIX_SIGNALS) && defined(DOCTEST_CONFIG_POSIX_SIGNALS) #undef DOCTEST_CONFIG_POSIX_SIGNALS #endif // DOCTEST_CONFIG_NO_POSIX_SIGNALS #ifndef DOCTEST_CONFIG_NO_EXCEPTIONS #if defined(__GNUC__) && !defined(__EXCEPTIONS) #define DOCTEST_CONFIG_NO_EXCEPTIONS #endif // clang and gcc // in MSVC _HAS_EXCEPTIONS is defined in a header instead of as a project define // so we can't do the automatic detection for MSVC without including some header #endif // DOCTEST_CONFIG_NO_EXCEPTIONS #ifdef DOCTEST_CONFIG_NO_EXCEPTIONS_BUT_WITH_ALL_ASSERTS #ifndef DOCTEST_CONFIG_NO_EXCEPTIONS #define DOCTEST_CONFIG_NO_EXCEPTIONS #endif // DOCTEST_CONFIG_NO_EXCEPTIONS #endif // DOCTEST_CONFIG_NO_EXCEPTIONS_BUT_WITH_ALL_ASSERTS #if defined(DOCTEST_CONFIG_NO_EXCEPTIONS) && !defined(DOCTEST_CONFIG_NO_TRY_CATCH_IN_ASSERTS) #define DOCTEST_CONFIG_NO_TRY_CATCH_IN_ASSERTS #endif // DOCTEST_CONFIG_NO_EXCEPTIONS && !DOCTEST_CONFIG_NO_TRY_CATCH_IN_ASSERTS #if defined(DOCTEST_CONFIG_IMPLEMENT_WITH_MAIN) && !defined(DOCTEST_CONFIG_IMPLEMENT) #define DOCTEST_CONFIG_IMPLEMENT #endif // DOCTEST_CONFIG_IMPLEMENT_WITH_MAIN #if defined _WIN32 || defined __CYGWIN__ #ifdef __GNUC__ #define DOCTEST_SYMBOL_EXPORT __attribute__((dllexport)) #define DOCTEST_SYMBOL_IMPORT __attribute__((dllimport)) #else // __GNUC__ #define DOCTEST_SYMBOL_EXPORT __declspec(dllexport) #define DOCTEST_SYMBOL_IMPORT __declspec(dllimport) #endif // __GNUC__ #else // _WIN32 #define DOCTEST_SYMBOL_EXPORT __attribute__((visibility("default"))) #define DOCTEST_SYMBOL_IMPORT #endif // _WIN32 #ifdef DOCTEST_CONFIG_IMPLEMENTATION_IN_DLL #ifdef DOCTEST_CONFIG_IMPLEMENT #define DOCTEST_INTERFACE DOCTEST_SYMBOL_EXPORT #else // DOCTEST_CONFIG_IMPLEMENT #define DOCTEST_INTERFACE DOCTEST_SYMBOL_IMPORT #endif // DOCTEST_CONFIG_IMPLEMENT #else // DOCTEST_CONFIG_IMPLEMENTATION_IN_DLL #define DOCTEST_INTERFACE #endif // DOCTEST_CONFIG_IMPLEMENTATION_IN_DLL #ifdef _MSC_VER #define DOCTEST_NOINLINE __declspec(noinline) #else // _MSC_VER #define DOCTEST_NOINLINE __attribute__((noinline)) #endif // _MSC_VER #ifndef DOCTEST_CONFIG_NUM_CAPTURES_ON_STACK #define DOCTEST_CONFIG_NUM_CAPTURES_ON_STACK 5 #endif // DOCTEST_CONFIG_NUM_CAPTURES_ON_STACK // ================================================================================================= // == FEATURE DETECTION END ======================================================================== // ================================================================================================= // internal macros for string concatenation and anonymous variable name generation #define DOCTEST_CAT_IMPL(s1, s2) s1##s2 #define DOCTEST_CAT(s1, s2) DOCTEST_CAT_IMPL(s1, s2) #ifdef __COUNTER__ // not standard and may be missing for some compilers #define DOCTEST_ANONYMOUS(x) DOCTEST_CAT(x, __COUNTER__) #else // __COUNTER__ #define DOCTEST_ANONYMOUS(x) DOCTEST_CAT(x, __LINE__) #endif // __COUNTER__ // macro for making a string out of an identifier #ifdef DOCTEST_CONFIG_WITH_VARIADIC_MACROS #define DOCTEST_TOSTR_IMPL(...) #__VA_ARGS__ #define DOCTEST_TOSTR(...) DOCTEST_TOSTR_IMPL(__VA_ARGS__) #else // DOCTEST_CONFIG_WITH_VARIADIC_MACROS #define DOCTEST_TOSTR_IMPL(x) #x #define DOCTEST_TOSTR(x) DOCTEST_TOSTR_IMPL(x) #endif // DOCTEST_CONFIG_WITH_VARIADIC_MACROS // for concatenating literals and making the result a string #define DOCTEST_STR_CONCAT_TOSTR(s1, s2) DOCTEST_TOSTR(s1) DOCTEST_TOSTR(s2) // counts the number of elements in a C string #define DOCTEST_COUNTOF(x) (sizeof(x) / sizeof(x[0])) #ifndef DOCTEST_CONFIG_ASSERTION_PARAMETERS_BY_VALUE #define DOCTEST_REF_WRAP(x) x& #else // DOCTEST_CONFIG_ASSERTION_PARAMETERS_BY_VALUE #define DOCTEST_REF_WRAP(x) x #endif // DOCTEST_CONFIG_ASSERTION_PARAMETERS_BY_VALUE // not using __APPLE__ because... this is how Catch does it #if defined(__MAC_OS_X_VERSION_MIN_REQUIRED) #define DOCTEST_PLATFORM_MAC #elif defined(__IPHONE_OS_VERSION_MIN_REQUIRED) #define DOCTEST_PLATFORM_IPHONE #elif defined(_WIN32) || defined(_MSC_VER) #define DOCTEST_PLATFORM_WINDOWS #else #define DOCTEST_PLATFORM_LINUX #endif #if defined(__clang__) #define DOCTEST_GLOBAL_NO_WARNINGS(var) \ _Pragma("clang diagnostic push") \ _Pragma("clang diagnostic ignored \"-Wglobal-constructors\"") static int var #define DOCTEST_GLOBAL_NO_WARNINGS_END() _Pragma("clang diagnostic pop") #elif defined(__GNUC__) #define DOCTEST_GLOBAL_NO_WARNINGS(var) static int var __attribute__((unused)) #define DOCTEST_GLOBAL_NO_WARNINGS_END() #else // MSVC / other #define DOCTEST_GLOBAL_NO_WARNINGS(var) static int var #define DOCTEST_GLOBAL_NO_WARNINGS_END() #endif // MSVC / other // should probably take a look at https://github.com/scottt/debugbreak #ifdef DOCTEST_PLATFORM_MAC #define DOCTEST_BREAK_INTO_DEBUGGER() __asm__("int $3\n" : :) #elif defined(_MSC_VER) #define DOCTEST_BREAK_INTO_DEBUGGER() __debugbreak() #elif defined(__MINGW32__) extern "C" __declspec(dllimport) void __stdcall DebugBreak(); #define DOCTEST_BREAK_INTO_DEBUGGER() ::DebugBreak() #else // linux #define DOCTEST_BREAK_INTO_DEBUGGER() ((void)0) #endif // linux #ifdef __clang__ // to detect if libc++ is being used with clang (the _LIBCPP_VERSION identifier) #include <ciso646> #endif // __clang__ #ifdef _LIBCPP_VERSION // not forward declaring ostream for libc++ because I had some problems (inline namespaces vs c++98) // so the <iosfwd> header is used - also it is very light and doesn't drag a ton of stuff #include <iosfwd> #else // _LIBCPP_VERSION #ifndef DOCTEST_CONFIG_USE_IOSFWD namespace std { template <class charT> struct char_traits; template <> struct char_traits<char>; template <class charT, class traits> class basic_ostream; typedef basic_ostream<char, char_traits<char> > ostream; } // namespace std #else // DOCTEST_CONFIG_USE_IOSFWD #include <iosfwd> #endif // DOCTEST_CONFIG_USE_IOSFWD #endif // _LIBCPP_VERSION // static assert macro - because of the c++98 support requires that the message is an // identifier (no spaces and not a C string) - example without quotes: I_am_a_message // taken from here: http://stackoverflow.com/a/1980156/3162383 #ifdef DOCTEST_CONFIG_WITH_STATIC_ASSERT #define DOCTEST_STATIC_ASSERT(expression, message) static_assert(expression, #message) #else // DOCTEST_CONFIG_WITH_STATIC_ASSERT #define DOCTEST_STATIC_ASSERT(expression, message) \ struct DOCTEST_CAT(__static_assertion_at_line_, __LINE__) \ { \ doctest::detail::static_assert_impl::StaticAssertion<static_cast<bool>((expression))> \ DOCTEST_CAT(DOCTEST_CAT(DOCTEST_CAT(STATIC_ASSERTION_FAILED_AT_LINE_, __LINE__), \ _), \ message); \ }; \ typedef doctest::detail::static_assert_impl::StaticAssertionTest<static_cast<int>( \ sizeof(DOCTEST_CAT(__static_assertion_at_line_, __LINE__)))> \ DOCTEST_CAT(__static_assertion_test_at_line_, __LINE__) #endif // DOCTEST_CONFIG_WITH_STATIC_ASSERT #ifdef DOCTEST_CONFIG_WITH_NULLPTR #ifdef _LIBCPP_VERSION #include <cstddef> #else // _LIBCPP_VERSION namespace std { typedef decltype(nullptr) nullptr_t; } #endif // _LIBCPP_VERSION #endif // DOCTEST_CONFIG_WITH_NULLPTR #ifndef DOCTEST_CONFIG_DISABLE namespace doctest { namespace detail { struct TestSuite { const char* m_test_suite; const char* m_description; bool m_skip; bool m_may_fail; bool m_should_fail; int m_expected_failures; double m_timeout; TestSuite& operator*(const char* in) { m_test_suite = in; // clear state m_description = 0; m_skip = false; m_may_fail = false; m_should_fail = false; m_expected_failures = 0; m_timeout = 0; return *this; } template <typename T> TestSuite& operator*(const T& in) { in.fill(*this); return *this; } }; } // namespace detail } // namespace doctest // in a separate namespace outside of doctest because the DOCTEST_TEST_SUITE macro // introduces an anonymous namespace in which getCurrentTestSuite gets overridden namespace doctest_detail_test_suite_ns { DOCTEST_INTERFACE doctest::detail::TestSuite& getCurrentTestSuite(); } // namespace doctest_detail_test_suite_ns #endif // DOCTEST_CONFIG_DISABLE namespace doctest { // A 24 byte string class (can be as small as 17 for x64 and 13 for x86) that can hold strings with length // of up to 23 chars on the stack before going on the heap - the last byte of the buffer is used for: // - "is small" bit - the highest bit - if "0" then it is small - otherwise its "1" (128) // - if small - capacity left before going on the heap - using the lowest 5 bits // - if small - 2 bits are left unused - the second and third highest ones // - if small - acts as a null terminator if strlen() is 23 (24 including the null terminator) // and the "is small" bit remains "0" ("as well as the capacity left") so its OK // Idea taken from this lecture about the string implementation of facebook/folly - fbstring // https://www.youtube.com/watch?v=kPR8h4-qZdk // TODO: // - optimizations - like not deleting memory unnecessarily in operator= and etc. // - resize/reserve/clear // - substr // - replace // - back/front // - iterator stuff // - find & friends // - push_back/pop_back // - assign/insert/erase // - relational operators as free functions - taking const char* as one of the params class DOCTEST_INTERFACE String { static const unsigned len = 24; //!OCLINT avoid private static members static const unsigned last = len - 1; //!OCLINT avoid private static members struct view // len should be more than sizeof(view) - because of the final byte for flags { char* ptr; unsigned size; unsigned capacity; }; union { char buf[len]; view data; }; void copy(const String& other); void setOnHeap() { *reinterpret_cast<unsigned char*>(&buf[last]) = 128; } void setLast(unsigned in = last) { buf[last] = char(in); } public: String() { buf[0] = '\0'; setLast(); } String(const char* in); String(const String& other) { copy(other); } ~String() { if(!isOnStack()) delete[] data.ptr; } // GCC 4.9/5/6 report Wstrict-overflow when optimizations are ON and it got inlined in the vector class somewhere... // see commit 574ef95f0cd379118be5011704664e4b5351f1e0 and build https://travis-ci.org/onqtam/doctest/builds/230671611 DOCTEST_NOINLINE String& operator=(const String& other) { if(!isOnStack()) delete[] data.ptr; copy(other); return *this; } String& operator+=(const String& other); String operator+(const String& other) const { return String(*this) += other; } #ifdef DOCTEST_CONFIG_WITH_RVALUE_REFERENCES String(String&& other); String& operator=(String&& other); #endif // DOCTEST_CONFIG_WITH_RVALUE_REFERENCES bool isOnStack() const { return (buf[last] & 128) == 0; } char operator[](unsigned i) const { return const_cast<String*>(this)->operator[](i); } // NOLINT char& operator[](unsigned i) { if(isOnStack()) return reinterpret_cast<char*>(buf)[i]; return data.ptr[i]; } const char* c_str() const { return const_cast<String*>(this)->c_str(); } // NOLINT char* c_str() { if(isOnStack()) return reinterpret_cast<char*>(buf); return data.ptr; } unsigned size() const { if(isOnStack()) return last - (unsigned(buf[last]) & 31); // using "last" would work only if "len" is 32 return data.size; } unsigned capacity() const { if(isOnStack()) return len; return data.capacity; } int compare(const char* other, bool no_case = false) const; int compare(const String& other, bool no_case = false) const; }; // clang-format off inline bool operator==(const String& lhs, const String& rhs) { return lhs.compare(rhs) == 0; } inline bool operator!=(const String& lhs, const String& rhs) { return lhs.compare(rhs) != 0; } inline bool operator< (const String& lhs, const String& rhs) { return lhs.compare(rhs) < 0; } inline bool operator> (const String& lhs, const String& rhs) { return lhs.compare(rhs) > 0; } inline bool operator<=(const String& lhs, const String& rhs) { return (lhs != rhs) ? lhs.compare(rhs) < 0 : true; } inline bool operator>=(const String& lhs, const String& rhs) { return (lhs != rhs) ? lhs.compare(rhs) > 0 : true; } // clang-format on DOCTEST_INTERFACE std::ostream& operator<<(std::ostream& stream, const String& in); namespace detail { #ifndef DOCTEST_CONFIG_WITH_STATIC_ASSERT namespace static_assert_impl { template <bool> struct StaticAssertion; template <> struct StaticAssertion<true> {}; template <int i> struct StaticAssertionTest {}; } // namespace static_assert_impl #endif // DOCTEST_CONFIG_WITH_STATIC_ASSERT namespace traits { template <typename T> struct remove_const { typedef T type; }; template <typename T> struct remove_const<const T> { typedef T type; }; template <typename T> struct remove_volatile { typedef T type; }; template <typename T> struct remove_volatile<volatile T> { typedef T type; }; template <typename T> struct remove_cv { typedef typename remove_volatile<typename remove_const<T>::type>::type type; }; template <typename T> struct is_pointer_helper { static const bool value = false; }; template <typename T> struct is_pointer_helper<T*> // cppcheck-suppress unusedStructMember { static const bool value = true; }; template <typename T> struct is_pointer // cppcheck-suppress unusedStructMember { static const bool value = is_pointer_helper<typename remove_cv<T>::type>::value; }; template <bool CONDITION, typename TYPE = void> struct enable_if {}; template <typename TYPE> struct enable_if<true, TYPE> { typedef TYPE type; }; template <typename T> struct remove_reference { typedef T type; }; template <typename T> struct remove_reference<T&> { typedef T type; }; template <typename T, typename AT_1 = void> class is_constructible_impl { private: template <typename C_T, typename C_AT_1> static bool test(typename enable_if< //!OCLINT avoid private static members sizeof(C_T) == sizeof(C_T(static_cast<C_AT_1>( *static_cast<typename remove_reference<C_AT_1>::type*>( 0))))>::type*); template <typename, typename> static int test(...); //!OCLINT avoid private static members public: static const bool value = sizeof(test<T, AT_1>(0)) == sizeof(bool); }; template <typename T> class is_constructible_impl<T, void> { private: template <typename C_T> static C_T testFun(C_T); //!OCLINT avoid private static members template <typename C_T> static bool test(typename enable_if< //!OCLINT avoid private static members sizeof(C_T) == sizeof(testFun(C_T()))>::type*); template <typename> static int test(...); //!OCLINT avoid private static members public: static const bool value = sizeof(test<T>(0)) == sizeof(bool); }; // is_constructible<> taken from here: http://stackoverflow.com/a/40443701/3162383 // for GCC/Clang gives the same results as std::is_constructible<> - see here: https://wandbox.org/permlink/bNWr7Ii2fuz4Vf7A // modifications: // - reworked to support only 1 argument (mainly because of MSVC...) // - removed pointer support // MSVC support: // - for versions before 2012 read the CAUTION comment below // currently intended for use only in the Approx() helper for strong typedefs of double - see issue #62 #ifndef _MSC_VER template <typename T, typename AT_1 = void> class is_constructible { public: static const bool value = is_pointer<typename remove_reference<T>::type>::value ? false : is_constructible_impl<T, AT_1>::value; }; #elif defined(_MSC_VER) && (_MSC_VER >= 1700) template <typename T, typename AT_1> struct is_constructible { static const bool value = __is_constructible(T, AT_1); }; #elif defined(_MSC_VER) // !!! USE WITH CAUTION !!! // will always return false - unable to implement this for versions of MSVC older than 2012 for now... template <typename T, typename AT_1> struct is_constructible { static const bool value = false; }; #endif // _MSC_VER } // namespace traits template <typename T> struct deferred_false // cppcheck-suppress unusedStructMember { static const bool value = false; }; // to silence the warning "-Wzero-as-null-pointer-constant" only for gcc 5 for the Approx template ctor - pragmas don't work for it... inline void* getNull() { return 0; } namespace has_insertion_operator_impl { typedef char no; typedef char yes[2]; struct any_t { template <typename T> // cppcheck-suppress noExplicitConstructor any_t(const DOCTEST_REF_WRAP(T)); }; yes& testStreamable(std::ostream&); no testStreamable(no); no operator<<(const std::ostream&, const any_t&); template <typename T> struct has_insertion_operator { static std::ostream& s; static const DOCTEST_REF_WRAP(T) t; static const bool value = sizeof(testStreamable(s << t)) == sizeof(yes); }; } // namespace has_insertion_operator_impl template <typename T> struct has_insertion_operator : has_insertion_operator_impl::has_insertion_operator<T> {}; DOCTEST_INTERFACE void my_memcpy(void* dest, const void* src, unsigned num); DOCTEST_INTERFACE unsigned my_strlen(const char* in); DOCTEST_INTERFACE std::ostream* createStream(); DOCTEST_INTERFACE String getStreamResult(std::ostream*); DOCTEST_INTERFACE void freeStream(std::ostream*); template <bool C> struct StringMakerBase { template <typename T> static String convert(const DOCTEST_REF_WRAP(T)) { return "{?}"; } }; template <> struct StringMakerBase<true> { template <typename T> static String convert(const DOCTEST_REF_WRAP(T) in) { std::ostream* stream = createStream(); *stream << in; String result = getStreamResult(stream); freeStream(stream); return result; } }; DOCTEST_INTERFACE String rawMemoryToString(const void* object, unsigned size); template <typename T> String rawMemoryToString(const DOCTEST_REF_WRAP(T) object) { return rawMemoryToString(&object, sizeof(object)); } class NullType {}; template <class T, class U> struct Typelist { typedef T Head; typedef U Tail; }; // type of recursive function template <class TList, class Callable> struct ForEachType; // Recursion rule template <class Head, class Tail, class Callable> struct ForEachType<Typelist<Head, Tail>, Callable> : public ForEachType<Tail, Callable> { enum { value = 1 + ForEachType<Tail, Callable>::value }; explicit ForEachType(Callable& callable) : ForEachType<Tail, Callable>(callable) { #if defined(_MSC_VER) && _MSC_VER <= 1900 callable.operator()<value, Head>(); #else // _MSC_VER callable.template operator()<value, Head>(); #endif // _MSC_VER } }; // Recursion end template <class Head, class Callable> struct ForEachType<Typelist<Head, NullType>, Callable> { public: enum { value = 0 }; explicit ForEachType(Callable& callable) { #if defined(_MSC_VER) && _MSC_VER <= 1900 callable.operator()<value, Head>(); #else // _MSC_VER callable.template operator()<value, Head>(); #endif // _MSC_VER } }; template <typename T> const char* type_to_string() { return "<>"; } } // namespace detail template <typename T1 = detail::NullType, typename T2 = detail::NullType, typename T3 = detail::NullType, typename T4 = detail::NullType, typename T5 = detail::NullType, typename T6 = detail::NullType, typename T7 = detail::NullType, typename T8 = detail::NullType, typename T9 = detail::NullType, typename T10 = detail::NullType, typename T11 = detail::NullType, typename T12 = detail::NullType, typename T13 = detail::NullType, typename T14 = detail::NullType, typename T15 = detail::NullType, typename T16 = detail::NullType, typename T17 = detail::NullType, typename T18 = detail::NullType, typename T19 = detail::NullType, typename T20 = detail::NullType, typename T21 = detail::NullType, typename T22 = detail::NullType, typename T23 = detail::NullType, typename T24 = detail::NullType, typename T25 = detail::NullType, typename T26 = detail::NullType, typename T27 = detail::NullType, typename T28 = detail::NullType, typename T29 = detail::NullType, typename T30 = detail::NullType, typename T31 = detail::NullType, typename T32 = detail::NullType, typename T33 = detail::NullType, typename T34 = detail::NullType, typename T35 = detail::NullType, typename T36 = detail::NullType, typename T37 = detail::NullType, typename T38 = detail::NullType, typename T39 = detail::NullType, typename T40 = detail::NullType, typename T41 = detail::NullType, typename T42 = detail::NullType, typename T43 = detail::NullType, typename T44 = detail::NullType, typename T45 = detail::NullType, typename T46 = detail::NullType, typename T47 = detail::NullType, typename T48 = detail::NullType, typename T49 = detail::NullType, typename T50 = detail::NullType, typename T51 = detail::NullType, typename T52 = detail::NullType, typename T53 = detail::NullType, typename T54 = detail::NullType, typename T55 = detail::NullType, typename T56 = detail::NullType, typename T57 = detail::NullType, typename T58 = detail::NullType, typename T59 = detail::NullType, typename T60 = detail::NullType> struct Types { private: typedef typename Types<T2, T3, T4, T5, T6, T7, T8, T9, T10, T11, T12, T13, T14, T15, T16, T17, T18, T19, T20, T21, T22, T23, T24, T25, T26, T27, T28, T29, T30, T31, T32, T33, T34, T35, T36, T37, T38, T39, T40, T41, T42, T43, T44, T45, T46, T47, T48, T49, T50, T51, T52, T53, T54, T55, T56, T57, T58, T59, T60>::Result TailResult; public: typedef detail::Typelist<T1, TailResult> Result; }; template <> struct Types<> { typedef detail::NullType Result; }; template <typename T> struct StringMaker : detail::StringMakerBase<detail::has_insertion_operator<T>::value> {}; template <typename T> struct StringMaker<T*> { template <typename U> static String convert(U* p) { if(p) return detail::rawMemoryToString(p); return "NULL"; } }; template <typename R, typename C> struct StringMaker<R C::*> { static String convert(R C::*p) { if(p) return detail::rawMemoryToString(p); return "NULL"; } }; template <typename T> String toString(const DOCTEST_REF_WRAP(T) value) { return StringMaker<T>::convert(value); } #ifdef DOCTEST_CONFIG_TREAT_CHAR_STAR_AS_STRING DOCTEST_INTERFACE String toString(char* in); DOCTEST_INTERFACE String toString(const char* in); #endif // DOCTEST_CONFIG_TREAT_CHAR_STAR_AS_STRING DOCTEST_INTERFACE String toString(bool in); DOCTEST_INTERFACE String toString(float in); DOCTEST_INTERFACE String toString(double in); DOCTEST_INTERFACE String toString(double long in); DOCTEST_INTERFACE String toString(char in); DOCTEST_INTERFACE String toString(char signed in); DOCTEST_INTERFACE String toString(char unsigned in); DOCTEST_INTERFACE String toString(int short in); DOCTEST_INTERFACE String toString(int short unsigned in); DOCTEST_INTERFACE String toString(int in); DOCTEST_INTERFACE String toString(int unsigned in); DOCTEST_INTERFACE String toString(int long in); DOCTEST_INTERFACE String toString(int long unsigned in); #ifdef DOCTEST_CONFIG_WITH_LONG_LONG DOCTEST_INTERFACE String toString(int long long in); DOCTEST_INTERFACE String toString(int long long unsigned in); #endif // DOCTEST_CONFIG_WITH_LONG_LONG #ifdef DOCTEST_CONFIG_WITH_NULLPTR DOCTEST_INTERFACE String toString(std::nullptr_t in); #endif // DOCTEST_CONFIG_WITH_NULLPTR class DOCTEST_INTERFACE Approx { public: explicit Approx(double value); Approx operator()(double value) const { Approx approx(value); approx.epsilon(m_epsilon); approx.scale(m_scale); return approx; } template <typename T> explicit Approx(const T& value, typename detail::traits::enable_if< detail::traits::is_constructible<double, T>::value>::type* = static_cast<T*>(detail::getNull())) { *this = Approx(static_cast<double>(value)); } // clang-format off // overloads for double - the first one is necessary as it is in the implementation part of doctest // as for the others - keeping them for potentially faster compile times DOCTEST_INTERFACE friend bool operator==(double lhs, Approx const& rhs); friend bool operator==(Approx const& lhs, double rhs) { return operator==(rhs, lhs); } friend bool operator!=(double lhs, Approx const& rhs) { return !operator==(lhs, rhs); } friend bool operator!=(Approx const& lhs, double rhs) { return !operator==(rhs, lhs); } friend bool operator<=(double lhs, Approx const& rhs) { return lhs < rhs.m_value || lhs == rhs; } friend bool operator<=(Approx const& lhs, double rhs) { return lhs.m_value < rhs || lhs == rhs; } friend bool operator>=(double lhs, Approx const& rhs) { return lhs > rhs.m_value || lhs == rhs; } friend bool operator>=(Approx const& lhs, double rhs) { return lhs.m_value > rhs || lhs == rhs; } friend bool operator< (double lhs, Approx const& rhs) { return lhs < rhs.m_value && lhs != rhs; } friend bool operator< (Approx const& lhs, double rhs) { return lhs.m_value < rhs && lhs != rhs; } friend bool operator> (double lhs, Approx const& rhs) { return lhs > rhs.m_value && lhs != rhs; } friend bool operator> (Approx const& lhs, double rhs) { return lhs.m_value > rhs && lhs != rhs; } #define DOCTEST_APPROX_PREFIX \ template <typename T> friend typename detail::traits::enable_if<detail::traits::is_constructible<double, T>::value, bool>::type DOCTEST_APPROX_PREFIX operator==(const T& lhs, const Approx& rhs) { return operator==(double(lhs), rhs); } DOCTEST_APPROX_PREFIX operator==(const Approx& lhs, const T& rhs) { return operator==(rhs, lhs); } DOCTEST_APPROX_PREFIX operator!=(const T& lhs, const Approx& rhs) { return !operator==(lhs, rhs); } DOCTEST_APPROX_PREFIX operator!=(const Approx& lhs, const T& rhs) { return !operator==(rhs, lhs); } DOCTEST_APPROX_PREFIX operator<=(const T& lhs, const Approx& rhs) { return double(lhs) < rhs.m_value || lhs == rhs; } DOCTEST_APPROX_PREFIX operator<=(const Approx& lhs, const T& rhs) { return lhs.m_value < double(rhs) || lhs == rhs; } DOCTEST_APPROX_PREFIX operator>=(const T& lhs, const Approx& rhs) { return double(lhs) > rhs.m_value || lhs == rhs; } DOCTEST_APPROX_PREFIX operator>=(const Approx& lhs, const T& rhs) { return lhs.m_value > double(rhs) || lhs == rhs; } DOCTEST_APPROX_PREFIX operator< (const T& lhs, const Approx& rhs) { return double(lhs) < rhs.m_value && lhs != rhs; } DOCTEST_APPROX_PREFIX operator< (const Approx& lhs, const T& rhs) { return lhs.m_value < double(rhs) && lhs != rhs; } DOCTEST_APPROX_PREFIX operator> (const T& lhs, const Approx& rhs) { return double(lhs) > rhs.m_value && lhs != rhs; } DOCTEST_APPROX_PREFIX operator> (const Approx& lhs, const T& rhs) { return lhs.m_value > double(rhs) && lhs != rhs; } #undef DOCTEST_APPROX_PREFIX // clang-format on Approx& epsilon(double newEpsilon) { m_epsilon = (newEpsilon); return *this; } template <typename T> typename detail::traits::enable_if<detail::traits::is_constructible<double, T>::value, Approx&>::type epsilon(const T& newEpsilon) { m_epsilon = static_cast<double>(newEpsilon); return *this; } Approx& scale(double newScale) { m_scale = (newScale); return *this; } template <typename T> typename detail::traits::enable_if<detail::traits::is_constructible<double, T>::value, Approx&>::type scale(const T& newScale) { m_scale = static_cast<double>(newScale); return *this; } String toString() const; private: double m_epsilon; double m_scale; double m_value; }; template <> inline String toString<Approx>(const DOCTEST_REF_WRAP(Approx) value) { return value.toString(); } #if !defined(DOCTEST_CONFIG_DISABLE) namespace detail { // the function type this library works with typedef void (*funcType)(); namespace assertType { enum Enum { // macro traits is_warn = 1, is_check = 2, is_require = 4, is_throws = 8, is_throws_as = 16, is_nothrow = 32, is_fast = 64, // not checked anywhere - used just to distinguish the types is_false = 128, is_unary = 256, is_eq = 512, is_ne = 1024, is_lt = 2048, is_gt = 4096, is_ge = 8192, is_le = 16384, // macro types DT_WARN = is_warn, DT_CHECK = is_check, DT_REQUIRE = is_require, DT_WARN_FALSE = is_false | is_warn, DT_CHECK_FALSE = is_false | is_check, DT_REQUIRE_FALSE = is_false | is_require, DT_WARN_THROWS = is_throws | is_warn, DT_CHECK_THROWS = is_throws | is_check, DT_REQUIRE_THROWS = is_throws | is_require, DT_WARN_THROWS_AS = is_throws_as | is_warn, DT_CHECK_THROWS_AS = is_throws_as | is_check, DT_REQUIRE_THROWS_AS = is_throws_as | is_require, DT_WARN_NOTHROW = is_nothrow | is_warn, DT_CHECK_NOTHROW = is_nothrow | is_check, DT_REQUIRE_NOTHROW = is_nothrow | is_require, DT_WARN_EQ = is_eq | is_warn, DT_CHECK_EQ = is_eq | is_check, DT_REQUIRE_EQ = is_eq | is_require, DT_WARN_NE = is_ne | is_warn, DT_CHECK_NE = is_ne | is_check, DT_REQUIRE_NE = is_ne | is_require, DT_WARN_GT = is_gt | is_warn, DT_CHECK_GT = is_gt | is_check, DT_REQUIRE_GT = is_gt | is_require, DT_WARN_LT = is_lt | is_warn, DT_CHECK_LT = is_lt | is_check, DT_REQUIRE_LT = is_lt | is_require, DT_WARN_GE = is_ge | is_warn, DT_CHECK_GE = is_ge | is_check, DT_REQUIRE_GE = is_ge | is_require, DT_WARN_LE = is_le | is_warn, DT_CHECK_LE = is_le | is_check, DT_REQUIRE_LE = is_le | is_require, DT_WARN_UNARY = is_unary | is_warn, DT_CHECK_UNARY = is_unary | is_check, DT_REQUIRE_UNARY = is_unary | is_require, DT_WARN_UNARY_FALSE = is_false | is_unary | is_warn, DT_CHECK_UNARY_FALSE = is_false | is_unary | is_check, DT_REQUIRE_UNARY_FALSE = is_false | is_unary | is_require, DT_FAST_WARN_EQ = is_fast | is_eq | is_warn, DT_FAST_CHECK_EQ = is_fast | is_eq | is_check, DT_FAST_REQUIRE_EQ = is_fast | is_eq | is_require, DT_FAST_WARN_NE = is_fast | is_ne | is_warn, DT_FAST_CHECK_NE = is_fast | is_ne | is_check, DT_FAST_REQUIRE_NE = is_fast | is_ne | is_require, DT_FAST_WARN_GT = is_fast | is_gt | is_warn, DT_FAST_CHECK_GT = is_fast | is_gt | is_check, DT_FAST_REQUIRE_GT = is_fast | is_gt | is_require, DT_FAST_WARN_LT = is_fast | is_lt | is_warn, DT_FAST_CHECK_LT = is_fast | is_lt | is_check, DT_FAST_REQUIRE_LT = is_fast | is_lt | is_require, DT_FAST_WARN_GE = is_fast | is_ge | is_warn, DT_FAST_CHECK_GE = is_fast | is_ge | is_check, DT_FAST_REQUIRE_GE = is_fast | is_ge | is_require, DT_FAST_WARN_LE = is_fast | is_le | is_warn, DT_FAST_CHECK_LE = is_fast | is_le | is_check, DT_FAST_REQUIRE_LE = is_fast | is_le | is_require, DT_FAST_WARN_UNARY = is_fast | is_unary | is_warn, DT_FAST_CHECK_UNARY = is_fast | is_unary | is_check, DT_FAST_REQUIRE_UNARY = is_fast | is_unary | is_require, DT_FAST_WARN_UNARY_FALSE = is_fast | is_false | is_unary | is_warn, DT_FAST_CHECK_UNARY_FALSE = is_fast | is_false | is_unary | is_check, DT_FAST_REQUIRE_UNARY_FALSE = is_fast | is_false | is_unary | is_require }; } // namespace assertType DOCTEST_INTERFACE const char* getAssertString(assertType::Enum val); // clang-format off template<class T> struct decay_array { typedef T type; }; template<class T, unsigned N> struct decay_array<T[N]> { typedef T* type; }; template<class T> struct decay_array<T[]> { typedef T* type; }; template<class T> struct not_char_pointer { enum { value = 1 }; }; template<> struct not_char_pointer<char*> { enum { value = 0 }; }; template<> struct not_char_pointer<const char*> { enum { value = 0 }; }; template<class T> struct can_use_op : not_char_pointer<typename decay_array<T>::type> {}; // clang-format on struct TestFailureException {}; DOCTEST_INTERFACE bool checkIfShouldThrow(assertType::Enum assert_type); DOCTEST_INTERFACE void fastAssertThrowIfFlagSet(int flags); DOCTEST_INTERFACE void throwException(); struct TestAccessibleContextState { bool no_throw; // to skip exceptions-related assertion macros bool success; // include successful assertions in output }; struct ContextState; DOCTEST_INTERFACE TestAccessibleContextState* getTestsContextState(); struct DOCTEST_INTERFACE SubcaseSignature { const char* m_name; const char* m_file; int m_line; SubcaseSignature(const char* name, const char* file, int line) : m_name(name) , m_file(file) , m_line(line) {} bool operator<(const SubcaseSignature& other) const; }; // cppcheck-suppress copyCtorAndEqOperator struct DOCTEST_INTERFACE Subcase { SubcaseSignature m_signature; bool m_entered; Subcase(const char* name, const char* file, int line); Subcase(const Subcase& other); ~Subcase(); operator bool() const { return m_entered; } }; template <typename L, typename R> String stringifyBinaryExpr(const DOCTEST_REF_WRAP(L) lhs, const char* op, const DOCTEST_REF_WRAP(R) rhs) { return toString(lhs) + op + toString(rhs); } struct DOCTEST_INTERFACE Result { bool m_passed; String m_decomposition; ~Result(); DOCTEST_NOINLINE Result(bool passed = false, const String& decomposition = String()) : m_passed(passed) , m_decomposition(decomposition) {} DOCTEST_NOINLINE Result(const Result& other) : m_passed(other.m_passed) , m_decomposition(other.m_decomposition) {} Result& operator=(const Result& other); operator bool() { return !m_passed; } // clang-format off // forbidding some expressions based on this table: http://en.cppreference.com/w/cpp/language/operator_precedence template <typename R> Result& operator& (const R&) { DOCTEST_STATIC_ASSERT(deferred_false<R>::value, Expression_Too_Complex_Please_Rewrite_As_Binary_Comparison); return *this; } template <typename R> Result& operator^ (const R&) { DOCTEST_STATIC_ASSERT(deferred_false<R>::value, Expression_Too_Complex_Please_Rewrite_As_Binary_Comparison); return *this; } template <typename R> Result& operator| (const R&) { DOCTEST_STATIC_ASSERT(deferred_false<R>::value, Expression_Too_Complex_Please_Rewrite_As_Binary_Comparison); return *this; } template <typename R> Result& operator&& (const R&) { DOCTEST_STATIC_ASSERT(deferred_false<R>::value, Expression_Too_Complex_Please_Rewrite_As_Binary_Comparison); return *this; } template <typename R> Result& operator|| (const R&) { DOCTEST_STATIC_ASSERT(deferred_false<R>::value, Expression_Too_Complex_Please_Rewrite_As_Binary_Comparison); return *this; } template <typename R> Result& operator== (const R&) { DOCTEST_STATIC_ASSERT(deferred_false<R>::value, Expression_Too_Complex_Please_Rewrite_As_Binary_Comparison); return *this; } template <typename R> Result& operator!= (const R&) { DOCTEST_STATIC_ASSERT(deferred_false<R>::value, Expression_Too_Complex_Please_Rewrite_As_Binary_Comparison); return *this; } template <typename R> Result& operator< (const R&) { DOCTEST_STATIC_ASSERT(deferred_false<R>::value, Expression_Too_Complex_Please_Rewrite_As_Binary_Comparison); return *this; } template <typename R> Result& operator> (const R&) { DOCTEST_STATIC_ASSERT(deferred_false<R>::value, Expression_Too_Complex_Please_Rewrite_As_Binary_Comparison); return *this; } template <typename R> Result& operator<= (const R&) { DOCTEST_STATIC_ASSERT(deferred_false<R>::value, Expression_Too_Complex_Please_Rewrite_As_Binary_Comparison); return *this; } template <typename R> Result& operator>= (const R&) { DOCTEST_STATIC_ASSERT(deferred_false<R>::value, Expression_Too_Complex_Please_Rewrite_As_Binary_Comparison); return *this; } template <typename R> Result& operator= (const R&) { DOCTEST_STATIC_ASSERT(deferred_false<R>::value, Expression_Too_Complex_Please_Rewrite_As_Binary_Comparison); return *this; } template <typename R> Result& operator+= (const R&) { DOCTEST_STATIC_ASSERT(deferred_false<R>::value, Expression_Too_Complex_Please_Rewrite_As_Binary_Comparison); return *this; } template <typename R> Result& operator-= (const R&) { DOCTEST_STATIC_ASSERT(deferred_false<R>::value, Expression_Too_Complex_Please_Rewrite_As_Binary_Comparison); return *this; } template <typename R> Result& operator*= (const R&) { DOCTEST_STATIC_ASSERT(deferred_false<R>::value, Expression_Too_Complex_Please_Rewrite_As_Binary_Comparison); return *this; } template <typename R> Result& operator/= (const R&) { DOCTEST_STATIC_ASSERT(deferred_false<R>::value, Expression_Too_Complex_Please_Rewrite_As_Binary_Comparison); return *this; } template <typename R> Result& operator%= (const R&) { DOCTEST_STATIC_ASSERT(deferred_false<R>::value, Expression_Too_Complex_Please_Rewrite_As_Binary_Comparison); return *this; } template <typename R> Result& operator<<=(const R&) { DOCTEST_STATIC_ASSERT(deferred_false<R>::value, Expression_Too_Complex_Please_Rewrite_As_Binary_Comparison); return *this; } template <typename R> Result& operator>>=(const R&) { DOCTEST_STATIC_ASSERT(deferred_false<R>::value, Expression_Too_Complex_Please_Rewrite_As_Binary_Comparison); return *this; } template <typename R> Result& operator&= (const R&) { DOCTEST_STATIC_ASSERT(deferred_false<R>::value, Expression_Too_Complex_Please_Rewrite_As_Binary_Comparison); return *this; } template <typename R> Result& operator^= (const R&) { DOCTEST_STATIC_ASSERT(deferred_false<R>::value, Expression_Too_Complex_Please_Rewrite_As_Binary_Comparison); return *this; } template <typename R> Result& operator|= (const R&) { DOCTEST_STATIC_ASSERT(deferred_false<R>::value, Expression_Too_Complex_Please_Rewrite_As_Binary_Comparison); return *this; } // clang-format on }; #ifndef DOCTEST_CONFIG_NO_COMPARISON_WARNING_SUPPRESSION #if defined(__clang__) #pragma clang diagnostic push #pragma clang diagnostic ignored "-Wsign-conversion" #pragma clang diagnostic ignored "-Wsign-compare" //#pragma clang diagnostic ignored "-Wdouble-promotion" //#pragma clang diagnostic ignored "-Wconversion" //#pragma clang diagnostic ignored "-Wfloat-equal" #endif // __clang__ #if defined(__GNUC__) && !defined(__clang__) #if __GNUC__ > 4 || (__GNUC__ == 4 && __GNUC_MINOR__ > 6) #pragma GCC diagnostic push #endif // > gcc 4.6 #pragma GCC diagnostic ignored "-Wsign-conversion" #pragma GCC diagnostic ignored "-Wsign-compare" #if __GNUC__ > 4 || (__GNUC__ == 4 && __GNUC_MINOR__ > 5) //#pragma GCC diagnostic ignored "-Wdouble-promotion" #endif // > gcc 4.5 //#pragma GCC diagnostic ignored "-Wconversion" //#pragma GCC diagnostic ignored "-Wfloat-equal" #endif // __GNUC__ #ifdef _MSC_VER #pragma warning(push) // http://stackoverflow.com/questions/39479163 what's the difference between C4018 and C4389 #pragma warning(disable : 4389) // 'operator' : signed/unsigned mismatch #pragma warning(disable : 4018) // 'expression' : signed/unsigned mismatch //#pragma warning(disable : 4805) // 'operation' : unsafe mix of type 'type' and type 'type' in operation #endif // _MSC_VER #endif // DOCTEST_CONFIG_NO_COMPARISON_WARNING_SUPPRESSION // clang-format off #ifndef DOCTEST_CONFIG_TREAT_CHAR_STAR_AS_STRING #define DOCTEST_COMPARISON_RETURN_TYPE bool #else // DOCTEST_CONFIG_TREAT_CHAR_STAR_AS_STRING #define DOCTEST_COMPARISON_RETURN_TYPE typename traits::enable_if<can_use_op<L>::value || can_use_op<R>::value, bool>::type inline bool eq(const char* lhs, const char* rhs) { return String(lhs) == String(rhs); } inline bool ne(const char* lhs, const char* rhs) { return String(lhs) != String(rhs); } inline bool lt(const char* lhs, const char* rhs) { return String(lhs) < String(rhs); } inline bool gt(const char* lhs, const char* rhs) { return String(lhs) > String(rhs); } inline bool le(const char* lhs, const char* rhs) { return String(lhs) <= String(rhs); } inline bool ge(const char* lhs, const char* rhs) { return String(lhs) >= String(rhs); } #endif // DOCTEST_CONFIG_TREAT_CHAR_STAR_AS_STRING template <typename L, typename R> DOCTEST_COMPARISON_RETURN_TYPE eq(const DOCTEST_REF_WRAP(L) lhs, const DOCTEST_REF_WRAP(R) rhs) { return lhs == rhs; } template <typename L, typename R> DOCTEST_COMPARISON_RETURN_TYPE ne(const DOCTEST_REF_WRAP(L) lhs, const DOCTEST_REF_WRAP(R) rhs) { return lhs != rhs; } template <typename L, typename R> DOCTEST_COMPARISON_RETURN_TYPE lt(const DOCTEST_REF_WRAP(L) lhs, const DOCTEST_REF_WRAP(R) rhs) { return lhs < rhs; } template <typename L, typename R> DOCTEST_COMPARISON_RETURN_TYPE gt(const DOCTEST_REF_WRAP(L) lhs, const DOCTEST_REF_WRAP(R) rhs) { return lhs > rhs; } template <typename L, typename R> DOCTEST_COMPARISON_RETURN_TYPE le(const DOCTEST_REF_WRAP(L) lhs, const DOCTEST_REF_WRAP(R) rhs) { return lhs <= rhs; } template <typename L, typename R> DOCTEST_COMPARISON_RETURN_TYPE ge(const DOCTEST_REF_WRAP(L) lhs, const DOCTEST_REF_WRAP(R) rhs) { return lhs >= rhs; } // clang-format on #ifndef DOCTEST_CONFIG_TREAT_CHAR_STAR_AS_STRING #define DOCTEST_CMP_EQ(l, r) l == r #define DOCTEST_CMP_NE(l, r) l != r #define DOCTEST_CMP_GT(l, r) l > r #define DOCTEST_CMP_LT(l, r) l < r #define DOCTEST_CMP_GE(l, r) l >= r #define DOCTEST_CMP_LE(l, r) l <= r #else // DOCTEST_CONFIG_TREAT_CHAR_STAR_AS_STRING #define DOCTEST_CMP_EQ(l, r) eq(l, r) #define DOCTEST_CMP_NE(l, r) ne(l, r) #define DOCTEST_CMP_GT(l, r) gt(l, r) #define DOCTEST_CMP_LT(l, r) lt(l, r) #define DOCTEST_CMP_GE(l, r) ge(l, r) #define DOCTEST_CMP_LE(l, r) le(l, r) #endif // DOCTEST_CONFIG_TREAT_CHAR_STAR_AS_STRING #define DOCTEST_DO_BINARY_EXPRESSION_COMPARISON(op, op_str, op_macro) \ template <typename R> \ DOCTEST_NOINLINE Result operator op(const DOCTEST_REF_WRAP(R) rhs) { \ bool res = op_macro(lhs, rhs); \ if(m_assert_type & assertType::is_false) \ res = !res; \ if(!res || doctest::detail::getTestsContextState()->success) \ return Result(res, stringifyBinaryExpr(lhs, op_str, rhs)); \ return Result(res); \ } #define DOCTEST_FORBIT_EXPRESSION(op) \ template <typename R> \ Expression_lhs& operator op(const R&) { \ DOCTEST_STATIC_ASSERT(deferred_false<R>::value, \ Expression_Too_Complex_Please_Rewrite_As_Binary_Comparison); \ return *this; \ } template <typename L> // cppcheck-suppress copyCtorAndEqOperator struct Expression_lhs { L lhs; assertType::Enum m_assert_type; explicit Expression_lhs(L in, assertType::Enum assert_type) : lhs(in) , m_assert_type(assert_type) {} Expression_lhs(const Expression_lhs& other) : lhs(other.lhs) {} DOCTEST_NOINLINE operator Result() { bool res = !!lhs; if(m_assert_type & assertType::is_false) //!OCLINT bitwise operator in conditional res = !res; if(!res || getTestsContextState()->success) return Result(res, toString(lhs)); return Result(res); } // clang-format off DOCTEST_DO_BINARY_EXPRESSION_COMPARISON(==, " == ", DOCTEST_CMP_EQ) //!OCLINT bitwise operator in conditional DOCTEST_DO_BINARY_EXPRESSION_COMPARISON(!=, " != ", DOCTEST_CMP_NE) //!OCLINT bitwise operator in conditional DOCTEST_DO_BINARY_EXPRESSION_COMPARISON(>, " > ", DOCTEST_CMP_GT) //!OCLINT bitwise operator in conditional DOCTEST_DO_BINARY_EXPRESSION_COMPARISON(<, " < ", DOCTEST_CMP_LT) //!OCLINT bitwise operator in conditional DOCTEST_DO_BINARY_EXPRESSION_COMPARISON(>=, " >= ", DOCTEST_CMP_GE) //!OCLINT bitwise operator in conditional DOCTEST_DO_BINARY_EXPRESSION_COMPARISON(<=, " <= ", DOCTEST_CMP_LE) //!OCLINT bitwise operator in conditional // clang-format on // forbidding some expressions based on this table: http://en.cppreference.com/w/cpp/language/operator_precedence DOCTEST_FORBIT_EXPRESSION(&) DOCTEST_FORBIT_EXPRESSION (^) DOCTEST_FORBIT_EXPRESSION(|) DOCTEST_FORBIT_EXPRESSION(&&) DOCTEST_FORBIT_EXPRESSION(||) DOCTEST_FORBIT_EXPRESSION(=) DOCTEST_FORBIT_EXPRESSION(+=) DOCTEST_FORBIT_EXPRESSION(-=) DOCTEST_FORBIT_EXPRESSION(*=) DOCTEST_FORBIT_EXPRESSION(/=) DOCTEST_FORBIT_EXPRESSION(%=) DOCTEST_FORBIT_EXPRESSION(<<=) DOCTEST_FORBIT_EXPRESSION(>>=) DOCTEST_FORBIT_EXPRESSION(&=) DOCTEST_FORBIT_EXPRESSION(^=) DOCTEST_FORBIT_EXPRESSION(|=) // these 2 are unfortunate because they should be allowed - they have higher precedence over the comparisons, but the // ExpressionDecomposer class uses the left shift operator to capture the left operand of the binary expression... DOCTEST_FORBIT_EXPRESSION(<<) DOCTEST_FORBIT_EXPRESSION(>>) }; #ifndef DOCTEST_CONFIG_NO_COMPARISON_WARNING_SUPPRESSION #if defined(__clang__) #pragma clang diagnostic pop #endif // __clang__ #if defined(__GNUC__) && !defined(__clang__) #if __GNUC__ > 4 || (__GNUC__ == 4 && __GNUC_MINOR__ > 6) #pragma GCC diagnostic pop #endif // > gcc 4.6 #endif // __GNUC__ #ifdef _MSC_VER #pragma warning(pop) #endif // _MSC_VER #endif // DOCTEST_CONFIG_NO_COMPARISON_WARNING_SUPPRESSION struct ExpressionDecomposer { assertType::Enum m_assert_type; ExpressionDecomposer(assertType::Enum assert_type) : m_assert_type(assert_type) {} // The right operator for capturing expressions is "<=" instead of "<<" (based on the operator precedence table) // but then there will be warnings from GCC about "-Wparentheses" and since "_Pragma()" is problematic this will stay for now... // https://github.com/philsquared/Catch/issues/870 // https://github.com/philsquared/Catch/issues/565 template <typename L> Expression_lhs<const DOCTEST_REF_WRAP(L)> operator<<(const DOCTEST_REF_WRAP(L) operand) { return Expression_lhs<const DOCTEST_REF_WRAP(L)>(operand, m_assert_type); } }; struct DOCTEST_INTERFACE TestCase { // not used for determining uniqueness funcType m_test; // a function pointer to the test case String m_full_name; // contains the name (only for templated test cases!) + the template type const char* m_name; // name of the test case const char* m_type; // for templated test cases - gets appended to the real name const char* m_test_suite; // the test suite in which the test was added const char* m_description; bool m_skip; bool m_may_fail; bool m_should_fail; int m_expected_failures; double m_timeout; // fields by which uniqueness of test cases shall be determined const char* m_file; // the file in which the test was registered unsigned m_line; // the line where the test was registered int m_template_id; // an ID used to distinguish between the different versions of a templated test case TestCase(funcType test, const char* file, unsigned line, const TestSuite& test_suite, const char* type = "", int template_id = -1); // for gcc 4.7 DOCTEST_NOINLINE ~TestCase() {} TestCase& operator*(const char* in); template <typename T> TestCase& operator*(const T& in) { in.fill(*this); return *this; } TestCase(const TestCase& other) { *this = other; } TestCase& operator=(const TestCase& other); bool operator<(const TestCase& other) const; }; // forward declarations of functions used by the macros DOCTEST_INTERFACE int regTest(const TestCase& tc); DOCTEST_INTERFACE int setTestSuite(const TestSuite& ts); DOCTEST_INTERFACE void addFailedAssert(assertType::Enum assert_type); DOCTEST_INTERFACE void logTestStart(const TestCase& tc); DOCTEST_INTERFACE void logTestEnd(); DOCTEST_INTERFACE void logTestException(const String& what, bool crash = false); DOCTEST_INTERFACE void logAssert(bool passed, const char* decomposition, bool threw, const String& exception, const char* expr, assertType::Enum assert_type, const char* file, int line); DOCTEST_INTERFACE void logAssertThrows(bool threw, const char* expr, assertType::Enum assert_type, const char* file, int line); DOCTEST_INTERFACE void logAssertThrowsAs(bool threw, bool threw_as, const char* as, const String& exception, const char* expr, assertType::Enum assert_type, const char* file, int line); DOCTEST_INTERFACE void logAssertNothrow(bool threw, const String& exception, const char* expr, assertType::Enum assert_type, const char* file, int line); DOCTEST_INTERFACE bool isDebuggerActive(); DOCTEST_INTERFACE void writeToDebugConsole(const String&); namespace binaryAssertComparison { enum Enum { eq = 0, ne, gt, lt, ge, le }; } // namespace binaryAssertComparison // clang-format off template <int, class L, class R> struct RelationalComparator { bool operator()(const DOCTEST_REF_WRAP(L), const DOCTEST_REF_WRAP(R) ) const { return false; } }; template <class L, class R> struct RelationalComparator<0, L, R> { bool operator()(const DOCTEST_REF_WRAP(L) lhs, const DOCTEST_REF_WRAP(R) rhs) const { return eq(lhs, rhs); } }; template <class L, class R> struct RelationalComparator<1, L, R> { bool operator()(const DOCTEST_REF_WRAP(L) lhs, const DOCTEST_REF_WRAP(R) rhs) const { return ne(lhs, rhs); } }; template <class L, class R> struct RelationalComparator<2, L, R> { bool operator()(const DOCTEST_REF_WRAP(L) lhs, const DOCTEST_REF_WRAP(R) rhs) const { return gt(lhs, rhs); } }; template <class L, class R> struct RelationalComparator<3, L, R> { bool operator()(const DOCTEST_REF_WRAP(L) lhs, const DOCTEST_REF_WRAP(R) rhs) const { return lt(lhs, rhs); } }; template <class L, class R> struct RelationalComparator<4, L, R> { bool operator()(const DOCTEST_REF_WRAP(L) lhs, const DOCTEST_REF_WRAP(R) rhs) const { return ge(lhs, rhs); } }; template <class L, class R> struct RelationalComparator<5, L, R> { bool operator()(const DOCTEST_REF_WRAP(L) lhs, const DOCTEST_REF_WRAP(R) rhs) const { return le(lhs, rhs); } }; // clang-format on struct DOCTEST_INTERFACE ResultBuilder { assertType::Enum m_assert_type; const char* m_file; int m_line; const char* m_expr; const char* m_exception_type; Result m_result; bool m_threw; bool m_threw_as; bool m_failed; String m_exception; ResultBuilder(assertType::Enum assert_type, const char* file, int line, const char* expr, const char* exception_type = ""); ~ResultBuilder(); void setResult(const Result& res) { m_result = res; } template <int comparison, typename L, typename R> DOCTEST_NOINLINE void binary_assert(const DOCTEST_REF_WRAP(L) lhs, const DOCTEST_REF_WRAP(R) rhs) { m_result.m_passed = RelationalComparator<comparison, L, R>()(lhs, rhs); if(!m_result.m_passed || getTestsContextState()->success) m_result.m_decomposition = stringifyBinaryExpr(lhs, ", ", rhs); } template <typename L> DOCTEST_NOINLINE void unary_assert(const DOCTEST_REF_WRAP(L) val) { m_result.m_passed = !!val; if(m_assert_type & assertType::is_false) //!OCLINT bitwise operator in conditional m_result.m_passed = !m_result.m_passed; if(!m_result.m_passed || getTestsContextState()->success) m_result.m_decomposition = toString(val); } void unexpectedExceptionOccurred(); bool log(); void react() const; }; namespace assertAction { enum Enum { nothing = 0, dbgbreak = 1, shouldthrow = 2 }; } // namespace assertAction template <int comparison, typename L, typename R> DOCTEST_NOINLINE int fast_binary_assert(assertType::Enum assert_type, const char* file, int line, const char* expr, const DOCTEST_REF_WRAP(L) lhs, const DOCTEST_REF_WRAP(R) rhs) { ResultBuilder rb(assert_type, file, line, expr); rb.m_result.m_passed = RelationalComparator<comparison, L, R>()(lhs, rhs); if(!rb.m_result.m_passed || getTestsContextState()->success) rb.m_result.m_decomposition = stringifyBinaryExpr(lhs, ", ", rhs); int res = 0; if(rb.log()) res |= assertAction::dbgbreak; if(rb.m_failed && checkIfShouldThrow(assert_type)) res |= assertAction::shouldthrow; #ifdef DOCTEST_CONFIG_SUPER_FAST_ASSERTS // ######################################################################################### // IF THE DEBUGGER BREAKS HERE - GO 1 LEVEL UP IN THE CALLSTACK TO SEE THE FAILING ASSERTION // THIS IS THE EFFECT OF HAVING 'DOCTEST_CONFIG_SUPER_FAST_ASSERTS' DEFINED // ######################################################################################### if(res & assertAction::dbgbreak) DOCTEST_BREAK_INTO_DEBUGGER(); fastAssertThrowIfFlagSet(res); #endif // DOCTEST_CONFIG_SUPER_FAST_ASSERTS return res; } template <typename L> DOCTEST_NOINLINE int fast_unary_assert(assertType::Enum assert_type, const char* file, int line, const char* val_str, const DOCTEST_REF_WRAP(L) val) { ResultBuilder rb(assert_type, file, line, val_str); rb.m_result.m_passed = !!val; if(assert_type & assertType::is_false) //!OCLINT bitwise operator in conditional rb.m_result.m_passed = !rb.m_result.m_passed; if(!rb.m_result.m_passed || getTestsContextState()->success) rb.m_result.m_decomposition = toString(val); int res = 0; if(rb.log()) res |= assertAction::dbgbreak; if(rb.m_failed && checkIfShouldThrow(assert_type)) res |= assertAction::shouldthrow; #ifdef DOCTEST_CONFIG_SUPER_FAST_ASSERTS // ######################################################################################### // IF THE DEBUGGER BREAKS HERE - GO 1 LEVEL UP IN THE CALLSTACK TO SEE THE FAILING ASSERTION // THIS IS THE EFFECT OF HAVING 'DOCTEST_CONFIG_SUPER_FAST_ASSERTS' DEFINED // ######################################################################################### if(res & assertAction::dbgbreak) DOCTEST_BREAK_INTO_DEBUGGER(); fastAssertThrowIfFlagSet(res); #endif // DOCTEST_CONFIG_SUPER_FAST_ASSERTS return res; } struct DOCTEST_INTERFACE IExceptionTranslator //!OCLINT destructor of virtual class { virtual ~IExceptionTranslator(); virtual bool translate(String&) const = 0; }; template <typename T> class ExceptionTranslator : public IExceptionTranslator //!OCLINT destructor of virtual class { public: explicit ExceptionTranslator(String (*translateFunction)(T)) : m_translateFunction(translateFunction) {} bool translate(String& res) const { #ifndef DOCTEST_CONFIG_NO_EXCEPTIONS try { throw; // cppcheck-suppress catchExceptionByValue } catch(T ex) { // NOLINT res = m_translateFunction(ex); //!OCLINT parameter reassignment return true; } catch(...) {} //!OCLINT - empty catch statement #endif // DOCTEST_CONFIG_NO_EXCEPTIONS ((void)res); // to silence -Wunused-parameter return false; } protected: String (*m_translateFunction)(T); }; DOCTEST_INTERFACE void registerExceptionTranslatorImpl( const IExceptionTranslator* translateFunction); // FIX FOR VISUAL STUDIO VERSIONS PRIOR TO 2015 - they failed to compile the call to operator<< with // std::ostream passed as a reference noting that there is a use of an undefined type (which there isn't) DOCTEST_INTERFACE void writeStringToStream(std::ostream* stream, const String& str); template <bool C> struct StringStreamBase { template <typename T> static void convert(std::ostream* stream, const T& in) { writeStringToStream(stream, toString(in)); } // always treat char* as a string in this context - no matter // if DOCTEST_CONFIG_TREAT_CHAR_STAR_AS_STRING is defined static void convert(std::ostream* stream, const char* in) { writeStringToStream(stream, String(in)); } }; template <> struct StringStreamBase<true> { template <typename T> static void convert(std::ostream* stream, const T& in) { *stream << in; } }; template <typename T> struct StringStream : StringStreamBase<has_insertion_operator<T>::value> {}; template <typename T> void toStream(std::ostream* stream, const T& value) { StringStream<T>::convert(stream, value); } #ifdef DOCTEST_CONFIG_TREAT_CHAR_STAR_AS_STRING DOCTEST_INTERFACE void toStream(std::ostream* stream, char* in); DOCTEST_INTERFACE void toStream(std::ostream* stream, const char* in); #endif // DOCTEST_CONFIG_TREAT_CHAR_STAR_AS_STRING DOCTEST_INTERFACE void toStream(std::ostream* stream, bool in); DOCTEST_INTERFACE void toStream(std::ostream* stream, float in); DOCTEST_INTERFACE void toStream(std::ostream* stream, double in); DOCTEST_INTERFACE void toStream(std::ostream* stream, double long in); DOCTEST_INTERFACE void toStream(std::ostream* stream, char in); DOCTEST_INTERFACE void toStream(std::ostream* stream, char signed in); DOCTEST_INTERFACE void toStream(std::ostream* stream, char unsigned in); DOCTEST_INTERFACE void toStream(std::ostream* stream, int short in); DOCTEST_INTERFACE void toStream(std::ostream* stream, int short unsigned in); DOCTEST_INTERFACE void toStream(std::ostream* stream, int in); DOCTEST_INTERFACE void toStream(std::ostream* stream, int unsigned in); DOCTEST_INTERFACE void toStream(std::ostream* stream, int long in); DOCTEST_INTERFACE void toStream(std::ostream* stream, int long unsigned in); #ifdef DOCTEST_CONFIG_WITH_LONG_LONG DOCTEST_INTERFACE void toStream(std::ostream* stream, int long long in); DOCTEST_INTERFACE void toStream(std::ostream* stream, int long long unsigned in); #endif // DOCTEST_CONFIG_WITH_LONG_LONG struct IContextScope //!OCLINT destructor of virtual class { virtual void build(std::ostream*) = 0; }; DOCTEST_INTERFACE void addToContexts(IContextScope* ptr); DOCTEST_INTERFACE void popFromContexts(); DOCTEST_INTERFACE void useContextIfExceptionOccurred(IContextScope* ptr); // cppcheck-suppress copyCtorAndEqOperator class ContextBuilder { friend class ContextScope; struct ICapture //!OCLINT destructor of virtual class { virtual void toStream(std::ostream*) const = 0; }; template <typename T> struct Capture : ICapture //!OCLINT destructor of virtual class { const T* capture; explicit Capture(const T* in) : capture(in) {} virtual void toStream(std::ostream* stream) const { // override doctest::detail::toStream(stream, *capture); } }; struct Chunk { char buf[sizeof(Capture<char>)]; // place to construct a Capture<T> }; struct Node { Chunk chunk; Node* next; }; Chunk stackChunks[DOCTEST_CONFIG_NUM_CAPTURES_ON_STACK]; int numCaptures; Node* head; Node* tail; void build(std::ostream* stream) const { int curr = 0; // iterate over small buffer while(curr < numCaptures && curr < DOCTEST_CONFIG_NUM_CAPTURES_ON_STACK) reinterpret_cast<const ICapture*>(stackChunks[curr++].buf)->toStream(stream); // iterate over list Node* curr_elem = head; while(curr < numCaptures) { reinterpret_cast<const ICapture*>(curr_elem->chunk.buf)->toStream(stream); curr_elem = curr_elem->next; ++curr; } } // steal the contents of the other - acting as a move constructor... DOCTEST_NOINLINE ContextBuilder(ContextBuilder& other) : numCaptures(other.numCaptures) , head(other.head) , tail(other.tail) { other.numCaptures = 0; other.head = 0; other.tail = 0; my_memcpy(stackChunks, other.stackChunks, unsigned(int(sizeof(Chunk)) * DOCTEST_CONFIG_NUM_CAPTURES_ON_STACK)); } public: // cppcheck-suppress uninitMemberVar DOCTEST_NOINLINE ContextBuilder() // NOLINT : numCaptures(0) , head(0) , tail(0) {} template <typename T> DOCTEST_NOINLINE ContextBuilder& operator<<(T& in) { Capture<T> temp(&in); // construct either on stack or on heap // copy the bytes for the whole object - including the vtable because we cant construct // the object directly in the buffer using placement new - need the <new> header... if(numCaptures < DOCTEST_CONFIG_NUM_CAPTURES_ON_STACK) { my_memcpy(stackChunks[numCaptures].buf, &temp, sizeof(Chunk)); } else { Node* curr = new Node; curr->next = 0; if(tail) { tail->next = curr; tail = curr; } else { head = tail = curr; } my_memcpy(tail->chunk.buf, &temp, sizeof(Chunk)); } ++numCaptures; return *this; } DOCTEST_NOINLINE ~ContextBuilder() { // free the linked list - the ones on the stack are left as-is // no destructors are called at all - there is no need while(head) { Node* next = head->next; delete head; head = next; } } #ifdef DOCTEST_CONFIG_WITH_RVALUE_REFERENCES template <typename T> ContextBuilder& operator<<(const T&&) { DOCTEST_STATIC_ASSERT( deferred_false<T>::value, Cannot_pass_temporaries_or_rvalues_to_the_streaming_operator_because_it_caches_pointers_to_the_passed_objects_for_lazy_evaluation); return *this; } #endif // DOCTEST_CONFIG_WITH_RVALUE_REFERENCES }; class ContextScope : public IContextScope //!OCLINT destructor of virtual class { ContextBuilder contextBuilder; bool built; public: DOCTEST_NOINLINE explicit ContextScope(ContextBuilder& temp) : contextBuilder(temp) , built(false) { addToContexts(this); } DOCTEST_NOINLINE ~ContextScope() { if(!built) useContextIfExceptionOccurred(this); popFromContexts(); } void build(std::ostream* stream) { built = true; contextBuilder.build(stream); } }; class DOCTEST_INTERFACE MessageBuilder { std::ostream* m_stream; const char* m_file; int m_line; doctest::detail::assertType::Enum m_severity; public: MessageBuilder(const char* file, int line, doctest::detail::assertType::Enum severity); ~MessageBuilder(); template <typename T> MessageBuilder& operator<<(const T& in) { doctest::detail::toStream(m_stream, in); return *this; } bool log(); void react(); }; } // namespace detail struct test_suite { const char* data; test_suite(const char* in) : data(in) {} void fill(detail::TestCase& state) const { state.m_test_suite = data; } void fill(detail::TestSuite& state) const { state.m_test_suite = data; } }; struct description { const char* data; description(const char* in) : data(in) {} void fill(detail::TestCase& state) const { state.m_description = data; } void fill(detail::TestSuite& state) const { state.m_description = data; } }; struct skip { bool data; skip(bool in = true) : data(in) {} void fill(detail::TestCase& state) const { state.m_skip = data; } void fill(detail::TestSuite& state) const { state.m_skip = data; } }; struct timeout { double data; timeout(double in) : data(in) {} void fill(detail::TestCase& state) const { state.m_timeout = data; } void fill(detail::TestSuite& state) const { state.m_timeout = data; } }; struct may_fail { bool data; may_fail(bool in = true) : data(in) {} void fill(detail::TestCase& state) const { state.m_may_fail = data; } void fill(detail::TestSuite& state) const { state.m_may_fail = data; } }; struct should_fail { bool data; should_fail(bool in = true) : data(in) {} void fill(detail::TestCase& state) const { state.m_should_fail = data; } void fill(detail::TestSuite& state) const { state.m_should_fail = data; } }; struct expected_failures { int data; expected_failures(int in) : data(in) {} void fill(detail::TestCase& state) const { state.m_expected_failures = data; } void fill(detail::TestSuite& state) const { state.m_expected_failures = data; } }; #endif // DOCTEST_CONFIG_DISABLE #ifndef DOCTEST_CONFIG_DISABLE template <typename T> int registerExceptionTranslator(String (*translateFunction)(T)) { #if defined(__clang__) #pragma clang diagnostic push #pragma clang diagnostic ignored "-Wexit-time-destructors" #endif // __clang__ static detail::ExceptionTranslator<T> exceptionTranslator(translateFunction); #if defined(__clang__) #pragma clang diagnostic pop #endif // __clang__ detail::registerExceptionTranslatorImpl(&exceptionTranslator); return 0; } #else // DOCTEST_CONFIG_DISABLE template <typename T> int registerExceptionTranslator(String (*)(T)) { return 0; } #endif // DOCTEST_CONFIG_DISABLE DOCTEST_INTERFACE bool isRunningInTest(); // cppcheck-suppress noCopyConstructor class DOCTEST_INTERFACE Context { #if !defined(DOCTEST_CONFIG_DISABLE) detail::ContextState* p; void parseArgs(int argc, const char* const* argv, bool withDefaults = false); #endif // DOCTEST_CONFIG_DISABLE public: explicit Context(int argc = 0, const char* const* argv = 0); ~Context(); void applyCommandLine(int argc, const char* const* argv); void addFilter(const char* filter, const char* value); void clearFilters(); void setOption(const char* option, int value); void setOption(const char* option, const char* value); bool shouldExit(); int run(); }; } // namespace doctest // if registering is not disabled #if !defined(DOCTEST_CONFIG_DISABLE) #ifdef DOCTEST_CONFIG_WITH_VARIADIC_MACROS #define DOCTEST_EXPAND_VA_ARGS(...) __VA_ARGS__ #else // DOCTEST_CONFIG_WITH_VARIADIC_MACROS #define DOCTEST_EXPAND_VA_ARGS #endif // DOCTEST_CONFIG_WITH_VARIADIC_MACROS #define DOCTEST_STRIP_PARENS(x) x #define DOCTEST_HANDLE_BRACED_VA_ARGS(expr) DOCTEST_STRIP_PARENS(DOCTEST_EXPAND_VA_ARGS expr) // registers the test by initializing a dummy var with a function #define DOCTEST_REGISTER_FUNCTION(f, decorators) \ DOCTEST_GLOBAL_NO_WARNINGS(DOCTEST_ANONYMOUS(_DOCTEST_ANON_VAR_)) = doctest::detail::regTest( \ doctest::detail::TestCase(f, __FILE__, __LINE__, \ doctest_detail_test_suite_ns::getCurrentTestSuite()) * \ decorators); \ DOCTEST_GLOBAL_NO_WARNINGS_END() #define DOCTEST_IMPLEMENT_FIXTURE(der, base, func, decorators) \ namespace \ { \ struct der : base \ { void f(); }; \ static void func() { \ der v; \ v.f(); \ } \ DOCTEST_REGISTER_FUNCTION(func, decorators) \ } \ inline DOCTEST_NOINLINE void der::f() #define DOCTEST_CREATE_AND_REGISTER_FUNCTION(f, decorators) \ static void f(); \ DOCTEST_REGISTER_FUNCTION(f, decorators) \ static void f() // for registering tests #define DOCTEST_TEST_CASE(decorators) \ DOCTEST_CREATE_AND_REGISTER_FUNCTION(DOCTEST_ANONYMOUS(_DOCTEST_ANON_FUNC_), decorators) // for registering tests with a fixture #define DOCTEST_TEST_CASE_FIXTURE(c, decorators) \ DOCTEST_IMPLEMENT_FIXTURE(DOCTEST_ANONYMOUS(_DOCTEST_ANON_CLASS_), c, \ DOCTEST_ANONYMOUS(_DOCTEST_ANON_FUNC_), decorators) // for converting types to strings without the <typeinfo> header and demangling #ifdef DOCTEST_CONFIG_WITH_VARIADIC_MACROS #define DOCTEST_TYPE_TO_STRING_IMPL(...) \ template <> \ inline const char* type_to_string<__VA_ARGS__>() { \ return "<" #__VA_ARGS__ ">"; \ } #define DOCTEST_TYPE_TO_STRING(...) \ namespace doctest \ { \ namespace detail \ { DOCTEST_TYPE_TO_STRING_IMPL(__VA_ARGS__) } \ } \ typedef int DOCTEST_ANONYMOUS(_DOCTEST_ANON_FOR_SEMICOLON_) #else // DOCTEST_CONFIG_WITH_VARIADIC_MACROS #define DOCTEST_TYPE_TO_STRING_IMPL(x) \ template <> \ inline const char* type_to_string<x>() { \ return "<" #x ">"; \ } #define DOCTEST_TYPE_TO_STRING(x) \ namespace doctest \ { \ namespace detail \ { DOCTEST_TYPE_TO_STRING_IMPL(x) } \ } \ typedef int DOCTEST_ANONYMOUS(_DOCTEST_ANON_FOR_SEMICOLON_) #endif // DOCTEST_CONFIG_WITH_VARIADIC_MACROS // for typed tests #define DOCTEST_TEST_CASE_TEMPLATE_IMPL(decorators, T, types, anon) \ template <typename T> \ inline void anon(); \ struct DOCTEST_CAT(anon, FUNCTOR) \ { \ template <int Index, typename Type> \ void operator()() { \ doctest::detail::regTest( \ doctest::detail::TestCase(anon<Type>, __FILE__, __LINE__, \ doctest_detail_test_suite_ns::getCurrentTestSuite(), \ doctest::detail::type_to_string<Type>(), Index) * \ decorators); \ } \ }; \ inline int DOCTEST_CAT(anon, REG_FUNC)() { \ DOCTEST_CAT(anon, FUNCTOR) registrar; \ doctest::detail::ForEachType<DOCTEST_HANDLE_BRACED_VA_ARGS(types)::Result, \ DOCTEST_CAT(anon, FUNCTOR)> \ doIt(registrar); \ return 0; \ } \ DOCTEST_GLOBAL_NO_WARNINGS(DOCTEST_CAT(anon, DUMMY)) = DOCTEST_CAT(anon, REG_FUNC)(); \ DOCTEST_GLOBAL_NO_WARNINGS_END() \ template <typename T> \ inline void anon() #ifdef DOCTEST_CONFIG_WITH_VARIADIC_MACROS #define DOCTEST_TEST_CASE_TEMPLATE(decorators, T, ...) \ DOCTEST_TEST_CASE_TEMPLATE_IMPL(decorators, T, (__VA_ARGS__), \ DOCTEST_ANONYMOUS(_DOCTEST_ANON_TMP_)) #else // DOCTEST_CONFIG_WITH_VARIADIC_MACROS #define DOCTEST_TEST_CASE_TEMPLATE(decorators, T, types) \ DOCTEST_TEST_CASE_TEMPLATE_IMPL(decorators, T, types, DOCTEST_ANONYMOUS(_DOCTEST_ANON_TMP_)) #endif // DOCTEST_CONFIG_WITH_VARIADIC_MACROS #define DOCTEST_TEST_CASE_TEMPLATE_DEFINE_IMPL(decorators, T, id, anon) \ template <typename T> \ inline void anon(); \ struct DOCTEST_CAT(id, _FUNCTOR) \ { \ int m_line; \ DOCTEST_CAT(id, _FUNCTOR) \ (int line) \ : m_line(line) {} \ template <int Index, typename Type> \ void operator()() { \ doctest::detail::regTest( \ doctest::detail::TestCase(anon<Type>, __FILE__, __LINE__, \ doctest_detail_test_suite_ns::getCurrentTestSuite(), \ doctest::detail::type_to_string<Type>(), \ m_line * 1000 + Index) * \ decorators); \ } \ }; \ template <typename T> \ inline void anon() #define DOCTEST_TEST_CASE_TEMPLATE_DEFINE(decorators, T, id) \ DOCTEST_TEST_CASE_TEMPLATE_DEFINE_IMPL(decorators, T, id, DOCTEST_ANONYMOUS(_DOCTEST_ANON_TMP_)) #define DOCTEST_TEST_CASE_TEMPLATE_INSTANTIATE_IMPL(id, types, anon) \ static int DOCTEST_CAT(anon, REG_FUNC)() { \ DOCTEST_CAT(id, _FUNCTOR) registrar(__LINE__); \ doctest::detail::ForEachType<DOCTEST_HANDLE_BRACED_VA_ARGS(types)::Result, \ DOCTEST_CAT(id, _FUNCTOR)> \ doIt(registrar); \ return 0; \ } \ DOCTEST_GLOBAL_NO_WARNINGS(DOCTEST_CAT(anon, DUMMY)) = DOCTEST_CAT(anon, REG_FUNC)(); \ DOCTEST_GLOBAL_NO_WARNINGS_END() typedef int DOCTEST_ANONYMOUS(_DOCTEST_ANON_FOR_SEMICOLON_) #ifdef DOCTEST_CONFIG_WITH_VARIADIC_MACROS #define DOCTEST_TEST_CASE_TEMPLATE_INSTANTIATE(id, ...) \ DOCTEST_TEST_CASE_TEMPLATE_INSTANTIATE_IMPL(id, (__VA_ARGS__), \ DOCTEST_ANONYMOUS(_DOCTEST_ANON_TMP_)) #else // DOCTEST_CONFIG_WITH_VARIADIC_MACROS #define DOCTEST_TEST_CASE_TEMPLATE_INSTANTIATE(id, types) \ DOCTEST_TEST_CASE_TEMPLATE_INSTANTIATE_IMPL(id, types, DOCTEST_ANONYMOUS(_DOCTEST_ANON_TMP_)) #endif // DOCTEST_CONFIG_WITH_VARIADIC_MACROS // for subcases #if defined(__GNUC__) #define DOCTEST_SUBCASE(name) \ if(const doctest::detail::Subcase & DOCTEST_ANONYMOUS(_DOCTEST_ANON_SUBCASE_) \ __attribute__((unused)) = \ doctest::detail::Subcase(name, __FILE__, __LINE__)) #else // __GNUC__ #define DOCTEST_SUBCASE(name) \ if(const doctest::detail::Subcase & DOCTEST_ANONYMOUS(_DOCTEST_ANON_SUBCASE_) = \ doctest::detail::Subcase(name, __FILE__, __LINE__)) #endif // __GNUC__ // for grouping tests in test suites by using code blocks #define DOCTEST_TEST_SUITE_IMPL(decorators, ns_name) \ namespace ns_name \ { \ namespace doctest_detail_test_suite_ns \ { \ inline DOCTEST_NOINLINE doctest::detail::TestSuite& getCurrentTestSuite() { \ static doctest::detail::TestSuite data; \ static bool inited = false; \ if(!inited) { \ data* decorators; \ inited = true; \ } \ return data; \ } \ } \ } \ namespace ns_name #define DOCTEST_TEST_SUITE(decorators) \ DOCTEST_TEST_SUITE_IMPL(decorators, DOCTEST_ANONYMOUS(_DOCTEST_ANON_SUITE_)) // for starting a testsuite block #define DOCTEST_TEST_SUITE_BEGIN(decorators) \ DOCTEST_GLOBAL_NO_WARNINGS(DOCTEST_ANONYMOUS(_DOCTEST_ANON_VAR_)) = \ doctest::detail::setTestSuite(doctest::detail::TestSuite() * decorators); \ DOCTEST_GLOBAL_NO_WARNINGS_END() \ typedef int DOCTEST_ANONYMOUS(_DOCTEST_ANON_FOR_SEMICOLON_) // for ending a testsuite block #define DOCTEST_TEST_SUITE_END \ DOCTEST_GLOBAL_NO_WARNINGS(DOCTEST_ANONYMOUS(_DOCTEST_ANON_VAR_)) = \ doctest::detail::setTestSuite(doctest::detail::TestSuite() * ""); \ DOCTEST_GLOBAL_NO_WARNINGS_END() \ typedef int DOCTEST_ANONYMOUS(_DOCTEST_ANON_FOR_SEMICOLON_) // for registering exception translators #define DOCTEST_REGISTER_EXCEPTION_TRANSLATOR_IMPL(translatorName, signature) \ static doctest::String translatorName(signature); \ DOCTEST_GLOBAL_NO_WARNINGS(DOCTEST_ANONYMOUS(_DOCTEST_ANON_TRANSLATOR_)) = \ doctest::registerExceptionTranslator(translatorName); \ DOCTEST_GLOBAL_NO_WARNINGS_END() \ static doctest::String translatorName(signature) #define DOCTEST_REGISTER_EXCEPTION_TRANSLATOR(signature) \ DOCTEST_REGISTER_EXCEPTION_TRANSLATOR_IMPL(DOCTEST_ANONYMOUS(_DOCTEST_ANON_TRANSLATOR_), \ signature) // for logging #define DOCTEST_INFO(x) \ doctest::detail::ContextScope DOCTEST_ANONYMOUS(_DOCTEST_CAPTURE_)( \ doctest::detail::ContextBuilder() << x) #define DOCTEST_CAPTURE(x) DOCTEST_INFO(#x " := " << x) #define DOCTEST_ADD_AT_IMPL(type, file, line, mb, x) \ do { \ doctest::detail::MessageBuilder mb(file, line, doctest::detail::assertType::type); \ mb << x; \ if(mb.log()) \ DOCTEST_BREAK_INTO_DEBUGGER(); \ mb.react(); \ } while((void)0, 0) // clang-format off #define DOCTEST_ADD_MESSAGE_AT(file, line, x) DOCTEST_ADD_AT_IMPL(is_warn, file, line, DOCTEST_ANONYMOUS(_DOCTEST_MESSAGE_), x) #define DOCTEST_ADD_FAIL_CHECK_AT(file, line, x) DOCTEST_ADD_AT_IMPL(is_check, file, line, DOCTEST_ANONYMOUS(_DOCTEST_MESSAGE_), x) #define DOCTEST_ADD_FAIL_AT(file, line, x) DOCTEST_ADD_AT_IMPL(is_require, file, line, DOCTEST_ANONYMOUS(_DOCTEST_MESSAGE_), x) // clang-format on #define DOCTEST_MESSAGE(x) DOCTEST_ADD_MESSAGE_AT(__FILE__, __LINE__, x) #define DOCTEST_FAIL_CHECK(x) DOCTEST_ADD_FAIL_CHECK_AT(__FILE__, __LINE__, x) #define DOCTEST_FAIL(x) DOCTEST_ADD_FAIL_AT(__FILE__, __LINE__, x) #if __cplusplus >= 201402L || (defined(_MSC_VER) && _MSC_VER >= 1910) template <class T, T x> constexpr T to_lvalue = x; #define DOCTEST_TO_LVALUE(...) to_lvalue<decltype(__VA_ARGS__), __VA_ARGS__> #else #ifdef DOCTEST_CONFIG_WITH_VARIADIC_MACROS #define DOCTEST_TO_LVALUE(...) TO_LVALUE_CAN_BE_USED_ONLY_IN_CPP14_MODE_OR_WITH_VS_2017_OR_NEWER #else // DOCTEST_CONFIG_WITH_VARIADIC_MACROS #define DOCTEST_TO_LVALUE(x) TO_LVALUE_CAN_BE_USED_ONLY_IN_CPP14_MODE_OR_WITH_VS_2017_OR_NEWER #endif // DOCTEST_CONFIG_WITH_VARIADIC_MACROS #endif // TO_LVALUE hack for logging macros like INFO() // common code in asserts - for convenience #define DOCTEST_ASSERT_LOG_AND_REACT(rb) \ if(rb.log()) \ DOCTEST_BREAK_INTO_DEBUGGER(); \ rb.react() #ifdef DOCTEST_CONFIG_NO_TRY_CATCH_IN_ASSERTS #define DOCTEST_WRAP_IN_TRY(x) x; #else // DOCTEST_CONFIG_NO_TRY_CATCH_IN_ASSERTS #define DOCTEST_WRAP_IN_TRY(x) \ try { \ x; \ } catch(...) { _DOCTEST_RB.unexpectedExceptionOccurred(); } #endif // DOCTEST_CONFIG_NO_TRY_CATCH_IN_ASSERTS #define DOCTEST_ASSERT_IMPLEMENT_3(expr, assert_type) \ doctest::detail::ResultBuilder _DOCTEST_RB( \ doctest::detail::assertType::assert_type, __FILE__, __LINE__, \ DOCTEST_TOSTR(DOCTEST_HANDLE_BRACED_VA_ARGS(expr))); \ DOCTEST_WRAP_IN_TRY(_DOCTEST_RB.setResult( \ doctest::detail::ExpressionDecomposer(doctest::detail::assertType::assert_type) \ << DOCTEST_HANDLE_BRACED_VA_ARGS(expr))) \ DOCTEST_ASSERT_LOG_AND_REACT(_DOCTEST_RB) #if defined(__clang__) #define DOCTEST_ASSERT_IMPLEMENT_2(expr, assert_type) \ _Pragma("clang diagnostic push") \ _Pragma("clang diagnostic ignored \"-Woverloaded-shift-op-parentheses\"") \ DOCTEST_ASSERT_IMPLEMENT_3(expr, assert_type); \ _Pragma("clang diagnostic pop") #else // __clang__ #define DOCTEST_ASSERT_IMPLEMENT_2(expr, assert_type) DOCTEST_ASSERT_IMPLEMENT_3(expr, assert_type); #endif // __clang__ #define DOCTEST_ASSERT_IMPLEMENT_1(expr, assert_type) \ do { \ DOCTEST_ASSERT_IMPLEMENT_2(expr, assert_type); \ } while((void)0, 0) #ifdef DOCTEST_CONFIG_WITH_VARIADIC_MACROS #define DOCTEST_WARN(...) DOCTEST_ASSERT_IMPLEMENT_1((__VA_ARGS__), DT_WARN) #define DOCTEST_CHECK(...) DOCTEST_ASSERT_IMPLEMENT_1((__VA_ARGS__), DT_CHECK) #define DOCTEST_REQUIRE(...) DOCTEST_ASSERT_IMPLEMENT_1((__VA_ARGS__), DT_REQUIRE) #define DOCTEST_WARN_FALSE(...) DOCTEST_ASSERT_IMPLEMENT_1((__VA_ARGS__), DT_WARN_FALSE) #define DOCTEST_CHECK_FALSE(...) DOCTEST_ASSERT_IMPLEMENT_1((__VA_ARGS__), DT_CHECK_FALSE) #define DOCTEST_REQUIRE_FALSE(...) DOCTEST_ASSERT_IMPLEMENT_1((__VA_ARGS__), DT_REQUIRE_FALSE) #else // DOCTEST_CONFIG_WITH_VARIADIC_MACROS #define DOCTEST_WARN(expr) DOCTEST_ASSERT_IMPLEMENT_1(expr, DT_WARN) #define DOCTEST_CHECK(expr) DOCTEST_ASSERT_IMPLEMENT_1(expr, DT_CHECK) #define DOCTEST_REQUIRE(expr) DOCTEST_ASSERT_IMPLEMENT_1(expr, DT_REQUIRE) #define DOCTEST_WARN_FALSE(expr) DOCTEST_ASSERT_IMPLEMENT_1(expr, DT_WARN_FALSE) #define DOCTEST_CHECK_FALSE(expr) DOCTEST_ASSERT_IMPLEMENT_1(expr, DT_CHECK_FALSE) #define DOCTEST_REQUIRE_FALSE(expr) DOCTEST_ASSERT_IMPLEMENT_1(expr, DT_REQUIRE_FALSE) #endif // DOCTEST_CONFIG_WITH_VARIADIC_MACROS // clang-format off #ifdef DOCTEST_CONFIG_WITH_VARIADIC_MACROS #define DOCTEST_WARN_MESSAGE(cond, msg) do { DOCTEST_INFO(msg); DOCTEST_ASSERT_IMPLEMENT_2((cond), DT_WARN); } while((void)0, 0) #define DOCTEST_CHECK_MESSAGE(cond, msg) do { DOCTEST_INFO(msg); DOCTEST_ASSERT_IMPLEMENT_2((cond), DT_CHECK); } while((void)0, 0) #define DOCTEST_REQUIRE_MESSAGE(cond, msg) do { DOCTEST_INFO(msg); DOCTEST_ASSERT_IMPLEMENT_2((cond), DT_REQUIRE); } while((void)0, 0) #define DOCTEST_WARN_FALSE_MESSAGE(cond, msg) do { DOCTEST_INFO(msg); DOCTEST_ASSERT_IMPLEMENT_2((cond), DT_WARN_FALSE); } while((void)0, 0) #define DOCTEST_CHECK_FALSE_MESSAGE(cond, msg) do { DOCTEST_INFO(msg); DOCTEST_ASSERT_IMPLEMENT_2((cond), DT_CHECK_FALSE); } while((void)0, 0) #define DOCTEST_REQUIRE_FALSE_MESSAGE(cond, msg) do { DOCTEST_INFO(msg); DOCTEST_ASSERT_IMPLEMENT_2((cond), DT_REQUIRE_FALSE); } while((void)0, 0) #else // DOCTEST_CONFIG_WITH_VARIADIC_MACROS #define DOCTEST_WARN_MESSAGE(cond, msg) do { DOCTEST_INFO(msg); DOCTEST_ASSERT_IMPLEMENT_2(cond, DT_WARN); } while((void)0, 0) #define DOCTEST_CHECK_MESSAGE(cond, msg) do { DOCTEST_INFO(msg); DOCTEST_ASSERT_IMPLEMENT_2(cond, DT_CHECK); } while((void)0, 0) #define DOCTEST_REQUIRE_MESSAGE(cond, msg) do { DOCTEST_INFO(msg); DOCTEST_ASSERT_IMPLEMENT_2(cond, DT_REQUIRE); } while((void)0, 0) #define DOCTEST_WARN_FALSE_MESSAGE(cond, msg) do { DOCTEST_INFO(msg); DOCTEST_ASSERT_IMPLEMENT_2(cond, DT_WARN_FALSE); } while((void)0, 0) #define DOCTEST_CHECK_FALSE_MESSAGE(cond, msg) do { DOCTEST_INFO(msg); DOCTEST_ASSERT_IMPLEMENT_2(cond, DT_CHECK_FALSE); } while((void)0, 0) #define DOCTEST_REQUIRE_FALSE_MESSAGE(cond, msg) do { DOCTEST_INFO(msg); DOCTEST_ASSERT_IMPLEMENT_2(cond, DT_REQUIRE_FALSE); } while((void)0, 0) #endif // DOCTEST_CONFIG_WITH_VARIADIC_MACROS // clang-format on #define DOCTEST_ASSERT_THROWS(expr, assert_type) \ do { \ if(!doctest::detail::getTestsContextState()->no_throw) { \ doctest::detail::ResultBuilder _DOCTEST_RB(doctest::detail::assertType::assert_type, \ __FILE__, __LINE__, #expr); \ try { \ expr; \ } catch(...) { _DOCTEST_RB.m_threw = true; } \ DOCTEST_ASSERT_LOG_AND_REACT(_DOCTEST_RB); \ } \ } while((void)0, 0) #define DOCTEST_ASSERT_THROWS_AS(expr, as, assert_type) \ do { \ if(!doctest::detail::getTestsContextState()->no_throw) { \ doctest::detail::ResultBuilder _DOCTEST_RB( \ doctest::detail::assertType::assert_type, __FILE__, __LINE__, #expr, \ DOCTEST_TOSTR(DOCTEST_HANDLE_BRACED_VA_ARGS(as))); \ try { \ expr; \ } catch(DOCTEST_HANDLE_BRACED_VA_ARGS(as)) { \ _DOCTEST_RB.m_threw = true; \ _DOCTEST_RB.m_threw_as = true; \ } catch(...) { _DOCTEST_RB.unexpectedExceptionOccurred(); } \ DOCTEST_ASSERT_LOG_AND_REACT(_DOCTEST_RB); \ } \ } while((void)0, 0) #define DOCTEST_ASSERT_NOTHROW(expr, assert_type) \ do { \ if(!doctest::detail::getTestsContextState()->no_throw) { \ doctest::detail::ResultBuilder _DOCTEST_RB(doctest::detail::assertType::assert_type, \ __FILE__, __LINE__, #expr); \ try { \ expr; \ } catch(...) { _DOCTEST_RB.unexpectedExceptionOccurred(); } \ DOCTEST_ASSERT_LOG_AND_REACT(_DOCTEST_RB); \ } \ } while((void)0, 0) #define DOCTEST_WARN_THROWS(expr) DOCTEST_ASSERT_THROWS(expr, DT_WARN_THROWS) #define DOCTEST_CHECK_THROWS(expr) DOCTEST_ASSERT_THROWS(expr, DT_CHECK_THROWS) #define DOCTEST_REQUIRE_THROWS(expr) DOCTEST_ASSERT_THROWS(expr, DT_REQUIRE_THROWS) // clang-format off #ifdef DOCTEST_CONFIG_WITH_VARIADIC_MACROS #define DOCTEST_WARN_THROWS_AS(expr, ...) DOCTEST_ASSERT_THROWS_AS(expr, (__VA_ARGS__), DT_WARN_THROWS_AS) #define DOCTEST_CHECK_THROWS_AS(expr, ...) DOCTEST_ASSERT_THROWS_AS(expr, (__VA_ARGS__), DT_CHECK_THROWS_AS) #define DOCTEST_REQUIRE_THROWS_AS(expr, ...) DOCTEST_ASSERT_THROWS_AS(expr, (__VA_ARGS__), DT_REQUIRE_THROWS_AS) #else // DOCTEST_CONFIG_WITH_VARIADIC_MACROS #define DOCTEST_WARN_THROWS_AS(expr, ex) DOCTEST_ASSERT_THROWS_AS(expr, ex, DT_WARN_THROWS_AS) #define DOCTEST_CHECK_THROWS_AS(expr, ex) DOCTEST_ASSERT_THROWS_AS(expr, ex, DT_CHECK_THROWS_AS) #define DOCTEST_REQUIRE_THROWS_AS(expr, ex) DOCTEST_ASSERT_THROWS_AS(expr, ex, DT_REQUIRE_THROWS_AS) #endif // DOCTEST_CONFIG_WITH_VARIADIC_MACROS // clang-format on #define DOCTEST_WARN_NOTHROW(expr) DOCTEST_ASSERT_NOTHROW(expr, DT_WARN_NOTHROW) #define DOCTEST_CHECK_NOTHROW(expr) DOCTEST_ASSERT_NOTHROW(expr, DT_CHECK_NOTHROW) #define DOCTEST_REQUIRE_NOTHROW(expr) DOCTEST_ASSERT_NOTHROW(expr, DT_REQUIRE_NOTHROW) // clang-format off #define DOCTEST_WARN_THROWS_MESSAGE(expr, msg) do { DOCTEST_INFO(msg); DOCTEST_WARN_THROWS(expr); } while((void)0, 0) #define DOCTEST_CHECK_THROWS_MESSAGE(expr, msg) do { DOCTEST_INFO(msg); DOCTEST_CHECK_THROWS(expr); } while((void)0, 0) #define DOCTEST_REQUIRE_THROWS_MESSAGE(expr, msg) do { DOCTEST_INFO(msg); DOCTEST_REQUIRE_THROWS(expr); } while((void)0, 0) #define DOCTEST_WARN_THROWS_AS_MESSAGE(expr, ex, msg) do { DOCTEST_INFO(msg); DOCTEST_WARN_THROWS_AS(expr, ex); } while((void)0, 0) #define DOCTEST_CHECK_THROWS_AS_MESSAGE(expr, ex, msg) do { DOCTEST_INFO(msg); DOCTEST_CHECK_THROWS_AS(expr, ex); } while((void)0, 0) #define DOCTEST_REQUIRE_THROWS_AS_MESSAGE(expr, ex, msg) do { DOCTEST_INFO(msg); DOCTEST_REQUIRE_THROWS_AS(expr, ex); } while((void)0, 0) #define DOCTEST_WARN_NOTHROW_MESSAGE(expr, msg) do { DOCTEST_INFO(msg); DOCTEST_WARN_NOTHROW(expr); } while((void)0, 0) #define DOCTEST_CHECK_NOTHROW_MESSAGE(expr, msg) do { DOCTEST_INFO(msg); DOCTEST_CHECK_NOTHROW(expr); } while((void)0, 0) #define DOCTEST_REQUIRE_NOTHROW_MESSAGE(expr, msg) do { DOCTEST_INFO(msg); DOCTEST_REQUIRE_NOTHROW(expr); } while((void)0, 0) // clang-format on #ifdef DOCTEST_CONFIG_WITH_VARIADIC_MACROS #define DOCTEST_BINARY_ASSERT(assert_type, expr, comp) \ do { \ doctest::detail::ResultBuilder _DOCTEST_RB( \ doctest::detail::assertType::assert_type, __FILE__, __LINE__, \ DOCTEST_TOSTR(DOCTEST_HANDLE_BRACED_VA_ARGS(expr))); \ DOCTEST_WRAP_IN_TRY( \ _DOCTEST_RB.binary_assert<doctest::detail::binaryAssertComparison::comp>( \ DOCTEST_HANDLE_BRACED_VA_ARGS(expr))) \ DOCTEST_ASSERT_LOG_AND_REACT(_DOCTEST_RB); \ } while((void)0, 0) #else // DOCTEST_CONFIG_WITH_VARIADIC_MACROS #define DOCTEST_BINARY_ASSERT(assert_type, lhs, rhs, comp) \ do { \ doctest::detail::ResultBuilder _DOCTEST_RB(doctest::detail::assertType::assert_type, \ __FILE__, __LINE__, #lhs ", " #rhs); \ DOCTEST_WRAP_IN_TRY( \ _DOCTEST_RB.binary_assert<doctest::detail::binaryAssertComparison::comp>(lhs, \ rhs)) \ DOCTEST_ASSERT_LOG_AND_REACT(_DOCTEST_RB); \ } while((void)0, 0) #endif // DOCTEST_CONFIG_WITH_VARIADIC_MACROS #define DOCTEST_UNARY_ASSERT(assert_type, expr) \ do { \ doctest::detail::ResultBuilder _DOCTEST_RB( \ doctest::detail::assertType::assert_type, __FILE__, __LINE__, \ DOCTEST_TOSTR(DOCTEST_HANDLE_BRACED_VA_ARGS(expr))); \ DOCTEST_WRAP_IN_TRY(_DOCTEST_RB.unary_assert(DOCTEST_HANDLE_BRACED_VA_ARGS(expr))) \ DOCTEST_ASSERT_LOG_AND_REACT(_DOCTEST_RB); \ } while((void)0, 0) #ifdef DOCTEST_CONFIG_WITH_VARIADIC_MACROS #define DOCTEST_WARN_EQ(...) DOCTEST_BINARY_ASSERT(DT_WARN_EQ, (__VA_ARGS__), eq) #define DOCTEST_CHECK_EQ(...) DOCTEST_BINARY_ASSERT(DT_CHECK_EQ, (__VA_ARGS__), eq) #define DOCTEST_REQUIRE_EQ(...) DOCTEST_BINARY_ASSERT(DT_REQUIRE_EQ, (__VA_ARGS__), eq) #define DOCTEST_WARN_NE(...) DOCTEST_BINARY_ASSERT(DT_WARN_NE, (__VA_ARGS__), ne) #define DOCTEST_CHECK_NE(...) DOCTEST_BINARY_ASSERT(DT_CHECK_NE, (__VA_ARGS__), ne) #define DOCTEST_REQUIRE_NE(...) DOCTEST_BINARY_ASSERT(DT_REQUIRE_NE, (__VA_ARGS__), ne) #define DOCTEST_WARN_GT(...) DOCTEST_BINARY_ASSERT(DT_WARN_GT, (__VA_ARGS__), gt) #define DOCTEST_CHECK_GT(...) DOCTEST_BINARY_ASSERT(DT_CHECK_GT, (__VA_ARGS__), gt) #define DOCTEST_REQUIRE_GT(...) DOCTEST_BINARY_ASSERT(DT_REQUIRE_GT, (__VA_ARGS__), gt) #define DOCTEST_WARN_LT(...) DOCTEST_BINARY_ASSERT(DT_WARN_LT, (__VA_ARGS__), lt) #define DOCTEST_CHECK_LT(...) DOCTEST_BINARY_ASSERT(DT_CHECK_LT, (__VA_ARGS__), lt) #define DOCTEST_REQUIRE_LT(...) DOCTEST_BINARY_ASSERT(DT_REQUIRE_LT, (__VA_ARGS__), lt) #define DOCTEST_WARN_GE(...) DOCTEST_BINARY_ASSERT(DT_WARN_GE, (__VA_ARGS__), ge) #define DOCTEST_CHECK_GE(...) DOCTEST_BINARY_ASSERT(DT_CHECK_GE, (__VA_ARGS__), ge) #define DOCTEST_REQUIRE_GE(...) DOCTEST_BINARY_ASSERT(DT_REQUIRE_GE, (__VA_ARGS__), ge) #define DOCTEST_WARN_LE(...) DOCTEST_BINARY_ASSERT(DT_WARN_LE, (__VA_ARGS__), le) #define DOCTEST_CHECK_LE(...) DOCTEST_BINARY_ASSERT(DT_CHECK_LE, (__VA_ARGS__), le) #define DOCTEST_REQUIRE_LE(...) DOCTEST_BINARY_ASSERT(DT_REQUIRE_LE, (__VA_ARGS__), le) #define DOCTEST_WARN_UNARY(...) DOCTEST_UNARY_ASSERT(DT_WARN_UNARY, (__VA_ARGS__)) #define DOCTEST_CHECK_UNARY(...) DOCTEST_UNARY_ASSERT(DT_CHECK_UNARY, (__VA_ARGS__)) #define DOCTEST_REQUIRE_UNARY(...) DOCTEST_UNARY_ASSERT(DT_REQUIRE_UNARY, (__VA_ARGS__)) #define DOCTEST_WARN_UNARY_FALSE(...) DOCTEST_UNARY_ASSERT(DT_WARN_UNARY_FALSE, (__VA_ARGS__)) #define DOCTEST_CHECK_UNARY_FALSE(...) DOCTEST_UNARY_ASSERT(DT_CHECK_UNARY_FALSE, (__VA_ARGS__)) #define DOCTEST_REQUIRE_UNARY_FALSE(...) DOCTEST_UNARY_ASSERT(DT_REQUIRE_UNARY_FALSE, (__VA_ARGS__)) #else // DOCTEST_CONFIG_WITH_VARIADIC_MACROS #define DOCTEST_WARN_EQ(lhs, rhs) DOCTEST_BINARY_ASSERT(DT_WARN_EQ, lhs, rhs, eq) #define DOCTEST_CHECK_EQ(lhs, rhs) DOCTEST_BINARY_ASSERT(DT_CHECK_EQ, lhs, rhs, eq) #define DOCTEST_REQUIRE_EQ(lhs, rhs) DOCTEST_BINARY_ASSERT(DT_REQUIRE_EQ, lhs, rhs, eq) #define DOCTEST_WARN_NE(lhs, rhs) DOCTEST_BINARY_ASSERT(DT_WARN_NE, lhs, rhs, ne) #define DOCTEST_CHECK_NE(lhs, rhs) DOCTEST_BINARY_ASSERT(DT_CHECK_NE, lhs, rhs, ne) #define DOCTEST_REQUIRE_NE(lhs, rhs) DOCTEST_BINARY_ASSERT(DT_REQUIRE_NE, lhs, rhs, ne) #define DOCTEST_WARN_GT(lhs, rhs) DOCTEST_BINARY_ASSERT(DT_WARN_GT, lhs, rhs, gt) #define DOCTEST_CHECK_GT(lhs, rhs) DOCTEST_BINARY_ASSERT(DT_CHECK_GT, lhs, rhs, gt) #define DOCTEST_REQUIRE_GT(lhs, rhs) DOCTEST_BINARY_ASSERT(DT_REQUIRE_GT, lhs, rhs, gt) #define DOCTEST_WARN_LT(lhs, rhs) DOCTEST_BINARY_ASSERT(DT_WARN_LT, lhs, rhs, lt) #define DOCTEST_CHECK_LT(lhs, rhs) DOCTEST_BINARY_ASSERT(DT_CHECK_LT, lhs, rhs, lt) #define DOCTEST_REQUIRE_LT(lhs, rhs) DOCTEST_BINARY_ASSERT(DT_REQUIRE_LT, lhs, rhs, lt) #define DOCTEST_WARN_GE(lhs, rhs) DOCTEST_BINARY_ASSERT(DT_WARN_GE, lhs, rhs, ge) #define DOCTEST_CHECK_GE(lhs, rhs) DOCTEST_BINARY_ASSERT(DT_CHECK_GE, lhs, rhs, ge) #define DOCTEST_REQUIRE_GE(lhs, rhs) DOCTEST_BINARY_ASSERT(DT_REQUIRE_GE, lhs, rhs, ge) #define DOCTEST_WARN_LE(lhs, rhs) DOCTEST_BINARY_ASSERT(DT_WARN_LE, lhs, rhs, le) #define DOCTEST_CHECK_LE(lhs, rhs) DOCTEST_BINARY_ASSERT(DT_CHECK_LE, lhs, rhs, le) #define DOCTEST_REQUIRE_LE(lhs, rhs) DOCTEST_BINARY_ASSERT(DT_REQUIRE_LE, lhs, rhs, le) #define DOCTEST_WARN_UNARY(v) DOCTEST_UNARY_ASSERT(DT_WARN_UNARY, v) #define DOCTEST_CHECK_UNARY(v) DOCTEST_UNARY_ASSERT(DT_CHECK_UNARY, v) #define DOCTEST_REQUIRE_UNARY(v) DOCTEST_UNARY_ASSERT(DT_REQUIRE_UNARY, v) #define DOCTEST_WARN_UNARY_FALSE(v) DOCTEST_UNARY_ASSERT(DT_WARN_UNARY_FALSE, v) #define DOCTEST_CHECK_UNARY_FALSE(v) DOCTEST_UNARY_ASSERT(DT_CHECK_UNARY_FALSE, v) #define DOCTEST_REQUIRE_UNARY_FALSE(v) DOCTEST_UNARY_ASSERT(DT_REQUIRE_UNARY_FALSE, v) #endif // DOCTEST_CONFIG_WITH_VARIADIC_MACROS #ifndef DOCTEST_CONFIG_SUPER_FAST_ASSERTS #ifdef DOCTEST_CONFIG_WITH_VARIADIC_MACROS #define DOCTEST_FAST_BINARY_ASSERT(assert_type, expr, comparison) \ do { \ int _DOCTEST_FAST_RES = doctest::detail::fast_binary_assert< \ doctest::detail::binaryAssertComparison::comparison>( \ doctest::detail::assertType::assert_type, __FILE__, __LINE__, \ DOCTEST_TOSTR(DOCTEST_HANDLE_BRACED_VA_ARGS(expr)), \ DOCTEST_HANDLE_BRACED_VA_ARGS(expr)); \ if(_DOCTEST_FAST_RES & doctest::detail::assertAction::dbgbreak) \ DOCTEST_BREAK_INTO_DEBUGGER(); \ doctest::detail::fastAssertThrowIfFlagSet(_DOCTEST_FAST_RES); \ } while((void)0, 0) #else // DOCTEST_CONFIG_WITH_VARIADIC_MACROS #define DOCTEST_FAST_BINARY_ASSERT(assert_type, lhs, rhs, comparison) \ do { \ int _DOCTEST_FAST_RES = doctest::detail::fast_binary_assert< \ doctest::detail::binaryAssertComparison::comparison>( \ doctest::detail::assertType::assert_type, __FILE__, __LINE__, #lhs ", " #rhs, lhs, \ rhs); \ if(_DOCTEST_FAST_RES & doctest::detail::assertAction::dbgbreak) \ DOCTEST_BREAK_INTO_DEBUGGER(); \ doctest::detail::fastAssertThrowIfFlagSet(_DOCTEST_FAST_RES); \ } while((void)0, 0) #endif // DOCTEST_CONFIG_WITH_VARIADIC_MACROS #define DOCTEST_FAST_UNARY_ASSERT(assert_type, expr) \ do { \ int _DOCTEST_FAST_RES = doctest::detail::fast_unary_assert( \ doctest::detail::assertType::assert_type, __FILE__, __LINE__, \ DOCTEST_TOSTR(DOCTEST_HANDLE_BRACED_VA_ARGS(expr)), \ DOCTEST_HANDLE_BRACED_VA_ARGS(expr)); \ if(_DOCTEST_FAST_RES & doctest::detail::assertAction::dbgbreak) \ DOCTEST_BREAK_INTO_DEBUGGER(); \ doctest::detail::fastAssertThrowIfFlagSet(_DOCTEST_FAST_RES); \ } while((void)0, 0) #else // DOCTEST_CONFIG_SUPER_FAST_ASSERTS #ifdef DOCTEST_CONFIG_WITH_VARIADIC_MACROS #define DOCTEST_FAST_BINARY_ASSERT(assert_type, expr, comparison) \ doctest::detail::fast_binary_assert<doctest::detail::binaryAssertComparison::comparison>( \ doctest::detail::assertType::assert_type, __FILE__, __LINE__, \ DOCTEST_TOSTR(DOCTEST_HANDLE_BRACED_VA_ARGS(expr)), \ DOCTEST_HANDLE_BRACED_VA_ARGS(expr)) #else // DOCTEST_CONFIG_WITH_VARIADIC_MACROS #define DOCTEST_FAST_BINARY_ASSERT(assert_type, lhs, rhs, comparison) \ doctest::detail::fast_binary_assert<doctest::detail::binaryAssertComparison::comparison>( \ doctest::detail::assertType::assert_type, __FILE__, __LINE__, #lhs ", " #rhs, lhs, \ rhs) #endif // DOCTEST_CONFIG_WITH_VARIADIC_MACROS #define DOCTEST_FAST_UNARY_ASSERT(assert_type, expr) \ doctest::detail::fast_unary_assert(doctest::detail::assertType::assert_type, __FILE__, \ __LINE__, \ DOCTEST_TOSTR(DOCTEST_HANDLE_BRACED_VA_ARGS(expr)), \ DOCTEST_HANDLE_BRACED_VA_ARGS(expr)) #endif // DOCTEST_CONFIG_SUPER_FAST_ASSERTS // clang-format off #ifdef DOCTEST_CONFIG_WITH_VARIADIC_MACROS #define DOCTEST_FAST_WARN_EQ(...) DOCTEST_FAST_BINARY_ASSERT(DT_FAST_WARN_EQ, (__VA_ARGS__), eq) #define DOCTEST_FAST_CHECK_EQ(...) DOCTEST_FAST_BINARY_ASSERT(DT_FAST_CHECK_EQ, (__VA_ARGS__), eq) #define DOCTEST_FAST_REQUIRE_EQ(...) DOCTEST_FAST_BINARY_ASSERT(DT_FAST_REQUIRE_EQ, (__VA_ARGS__), eq) #define DOCTEST_FAST_WARN_NE(...) DOCTEST_FAST_BINARY_ASSERT(DT_FAST_WARN_NE, (__VA_ARGS__), ne) #define DOCTEST_FAST_CHECK_NE(...) DOCTEST_FAST_BINARY_ASSERT(DT_FAST_CHECK_NE, (__VA_ARGS__), ne) #define DOCTEST_FAST_REQUIRE_NE(...) DOCTEST_FAST_BINARY_ASSERT(DT_FAST_REQUIRE_NE, (__VA_ARGS__), ne) #define DOCTEST_FAST_WARN_GT(...) DOCTEST_FAST_BINARY_ASSERT(DT_FAST_WARN_GT, (__VA_ARGS__), gt) #define DOCTEST_FAST_CHECK_GT(...) DOCTEST_FAST_BINARY_ASSERT(DT_FAST_CHECK_GT, (__VA_ARGS__), gt) #define DOCTEST_FAST_REQUIRE_GT(...) DOCTEST_FAST_BINARY_ASSERT(DT_FAST_REQUIRE_GT, (__VA_ARGS__), gt) #define DOCTEST_FAST_WARN_LT(...) DOCTEST_FAST_BINARY_ASSERT(DT_FAST_WARN_LT, (__VA_ARGS__), lt) #define DOCTEST_FAST_CHECK_LT(...) DOCTEST_FAST_BINARY_ASSERT(DT_FAST_CHECK_LT, (__VA_ARGS__), lt) #define DOCTEST_FAST_REQUIRE_LT(...) DOCTEST_FAST_BINARY_ASSERT(DT_FAST_REQUIRE_LT, (__VA_ARGS__), lt) #define DOCTEST_FAST_WARN_GE(...) DOCTEST_FAST_BINARY_ASSERT(DT_FAST_WARN_GE, (__VA_ARGS__), ge) #define DOCTEST_FAST_CHECK_GE(...) DOCTEST_FAST_BINARY_ASSERT(DT_FAST_CHECK_GE, (__VA_ARGS__), ge) #define DOCTEST_FAST_REQUIRE_GE(...) DOCTEST_FAST_BINARY_ASSERT(DT_FAST_REQUIRE_GE, (__VA_ARGS__), ge) #define DOCTEST_FAST_WARN_LE(...) DOCTEST_FAST_BINARY_ASSERT(DT_FAST_WARN_LE, (__VA_ARGS__), le) #define DOCTEST_FAST_CHECK_LE(...) DOCTEST_FAST_BINARY_ASSERT(DT_FAST_CHECK_LE, (__VA_ARGS__), le) #define DOCTEST_FAST_REQUIRE_LE(...) DOCTEST_FAST_BINARY_ASSERT(DT_FAST_REQUIRE_LE, (__VA_ARGS__), le) #define DOCTEST_FAST_WARN_UNARY(...) DOCTEST_FAST_UNARY_ASSERT(DT_FAST_WARN_UNARY, (__VA_ARGS__)) #define DOCTEST_FAST_CHECK_UNARY(...) DOCTEST_FAST_UNARY_ASSERT(DT_FAST_CHECK_UNARY, (__VA_ARGS__)) #define DOCTEST_FAST_REQUIRE_UNARY(...) DOCTEST_FAST_UNARY_ASSERT(DT_FAST_REQUIRE_UNARY, (__VA_ARGS__)) #define DOCTEST_FAST_WARN_UNARY_FALSE(...) DOCTEST_FAST_UNARY_ASSERT(DT_FAST_WARN_UNARY_FALSE, (__VA_ARGS__)) #define DOCTEST_FAST_CHECK_UNARY_FALSE(...) DOCTEST_FAST_UNARY_ASSERT(DT_FAST_CHECK_UNARY_FALSE, (__VA_ARGS__)) #define DOCTEST_FAST_REQUIRE_UNARY_FALSE(...) DOCTEST_FAST_UNARY_ASSERT(DT_FAST_REQUIRE_UNARY_FALSE, (__VA_ARGS__)) #else // DOCTEST_CONFIG_WITH_VARIADIC_MACROS #define DOCTEST_FAST_WARN_EQ(l, r) DOCTEST_FAST_BINARY_ASSERT(DT_FAST_WARN_EQ, l, r, eq) #define DOCTEST_FAST_CHECK_EQ(l, r) DOCTEST_FAST_BINARY_ASSERT(DT_FAST_CHECK_EQ, l, r, eq) #define DOCTEST_FAST_REQUIRE_EQ(l, r) DOCTEST_FAST_BINARY_ASSERT(DT_FAST_REQUIRE_EQ, l, r, eq) #define DOCTEST_FAST_WARN_NE(l, r) DOCTEST_FAST_BINARY_ASSERT(DT_FAST_WARN_NE, l, r, ne) #define DOCTEST_FAST_CHECK_NE(l, r) DOCTEST_FAST_BINARY_ASSERT(DT_FAST_CHECK_NE, l, r, ne) #define DOCTEST_FAST_REQUIRE_NE(l, r) DOCTEST_FAST_BINARY_ASSERT(DT_FAST_REQUIRE_NE, l, r, ne) #define DOCTEST_FAST_WARN_GT(l, r) DOCTEST_FAST_BINARY_ASSERT(DT_FAST_WARN_GT, l, r, gt) #define DOCTEST_FAST_CHECK_GT(l, r) DOCTEST_FAST_BINARY_ASSERT(DT_FAST_CHECK_GT, l, r, gt) #define DOCTEST_FAST_REQUIRE_GT(l, r) DOCTEST_FAST_BINARY_ASSERT(DT_FAST_REQUIRE_GT, l, r, gt) #define DOCTEST_FAST_WARN_LT(l, r) DOCTEST_FAST_BINARY_ASSERT(DT_FAST_WARN_LT, l, r, lt) #define DOCTEST_FAST_CHECK_LT(l, r) DOCTEST_FAST_BINARY_ASSERT(DT_FAST_CHECK_LT, l, r, lt) #define DOCTEST_FAST_REQUIRE_LT(l, r) DOCTEST_FAST_BINARY_ASSERT(DT_FAST_REQUIRE_LT, l, r, lt) #define DOCTEST_FAST_WARN_GE(l, r) DOCTEST_FAST_BINARY_ASSERT(DT_FAST_WARN_GE, l, r, ge) #define DOCTEST_FAST_CHECK_GE(l, r) DOCTEST_FAST_BINARY_ASSERT(DT_FAST_CHECK_GE, l, r, ge) #define DOCTEST_FAST_REQUIRE_GE(l, r) DOCTEST_FAST_BINARY_ASSERT(DT_FAST_REQUIRE_GE, l, r, ge) #define DOCTEST_FAST_WARN_LE(l, r) DOCTEST_FAST_BINARY_ASSERT(DT_FAST_WARN_LE, l, r, le) #define DOCTEST_FAST_CHECK_LE(l, r) DOCTEST_FAST_BINARY_ASSERT(DT_FAST_CHECK_LE, l, r, le) #define DOCTEST_FAST_REQUIRE_LE(l, r) DOCTEST_FAST_BINARY_ASSERT(DT_FAST_REQUIRE_LE, l, r, le) #define DOCTEST_FAST_WARN_UNARY(v) DOCTEST_FAST_UNARY_ASSERT(DT_FAST_WARN_UNARY, v) #define DOCTEST_FAST_CHECK_UNARY(v) DOCTEST_FAST_UNARY_ASSERT(DT_FAST_CHECK_UNARY, v) #define DOCTEST_FAST_REQUIRE_UNARY(v) DOCTEST_FAST_UNARY_ASSERT(DT_FAST_REQUIRE_UNARY, v) #define DOCTEST_FAST_WARN_UNARY_FALSE(v) DOCTEST_FAST_UNARY_ASSERT(DT_FAST_WARN_UNARY_FALSE, v) #define DOCTEST_FAST_CHECK_UNARY_FALSE(v) DOCTEST_FAST_UNARY_ASSERT(DT_FAST_CHECK_UNARY_FALSE, v) #define DOCTEST_FAST_REQUIRE_UNARY_FALSE(v) DOCTEST_FAST_UNARY_ASSERT(DT_FAST_REQUIRE_UNARY_FALSE, v) #endif // DOCTEST_CONFIG_WITH_VARIADIC_MACROS // clang-format on #ifdef DOCTEST_CONFIG_NO_EXCEPTIONS #undef DOCTEST_WARN_THROWS #undef DOCTEST_CHECK_THROWS #undef DOCTEST_REQUIRE_THROWS #undef DOCTEST_WARN_THROWS_AS #undef DOCTEST_CHECK_THROWS_AS #undef DOCTEST_REQUIRE_THROWS_AS #undef DOCTEST_WARN_NOTHROW #undef DOCTEST_CHECK_NOTHROW #undef DOCTEST_REQUIRE_NOTHROW #undef DOCTEST_WARN_THROWS_MESSAGE #undef DOCTEST_CHECK_THROWS_MESSAGE #undef DOCTEST_REQUIRE_THROWS_MESSAGE #undef DOCTEST_WARN_THROWS_AS_MESSAGE #undef DOCTEST_CHECK_THROWS_AS_MESSAGE #undef DOCTEST_REQUIRE_THROWS_AS_MESSAGE #undef DOCTEST_WARN_NOTHROW_MESSAGE #undef DOCTEST_CHECK_NOTHROW_MESSAGE #undef DOCTEST_REQUIRE_NOTHROW_MESSAGE #ifdef DOCTEST_CONFIG_NO_EXCEPTIONS_BUT_WITH_ALL_ASSERTS #define DOCTEST_WARN_THROWS(expr) ((void)0) #define DOCTEST_CHECK_THROWS(expr) ((void)0) #define DOCTEST_REQUIRE_THROWS(expr) ((void)0) #ifdef DOCTEST_CONFIG_WITH_VARIADIC_MACROS #define DOCTEST_WARN_THROWS_AS(expr, ...) ((void)0) #define DOCTEST_CHECK_THROWS_AS(expr, ...) ((void)0) #define DOCTEST_REQUIRE_THROWS_AS(expr, ...) ((void)0) #else // DOCTEST_CONFIG_WITH_VARIADIC_MACROS #define DOCTEST_WARN_THROWS_AS(expr, ex) ((void)0) #define DOCTEST_CHECK_THROWS_AS(expr, ex) ((void)0) #define DOCTEST_REQUIRE_THROWS_AS(expr, ex) ((void)0) #endif // DOCTEST_CONFIG_WITH_VARIADIC_MACROS #define DOCTEST_WARN_NOTHROW(expr) ((void)0) #define DOCTEST_CHECK_NOTHROW(expr) ((void)0) #define DOCTEST_REQUIRE_NOTHROW(expr) ((void)0) #define DOCTEST_WARN_THROWS_MESSAGE(expr, msg) ((void)0) #define DOCTEST_CHECK_THROWS_MESSAGE(expr, msg) ((void)0) #define DOCTEST_REQUIRE_THROWS_MESSAGE(expr, msg) ((void)0) #define DOCTEST_WARN_THROWS_AS_MESSAGE(expr, ex, msg) ((void)0) #define DOCTEST_CHECK_THROWS_AS_MESSAGE(expr, ex, msg) ((void)0) #define DOCTEST_REQUIRE_THROWS_AS_MESSAGE(expr, ex, msg) ((void)0) #define DOCTEST_WARN_NOTHROW_MESSAGE(expr, msg) ((void)0) #define DOCTEST_CHECK_NOTHROW_MESSAGE(expr, msg) ((void)0) #define DOCTEST_REQUIRE_NOTHROW_MESSAGE(expr, msg) ((void)0) #else // DOCTEST_CONFIG_NO_EXCEPTIONS_BUT_WITH_ALL_ASSERTS #undef DOCTEST_REQUIRE #undef DOCTEST_REQUIRE_FALSE #undef DOCTEST_REQUIRE_MESSAGE #undef DOCTEST_REQUIRE_FALSE_MESSAGE #undef DOCTEST_REQUIRE_EQ #undef DOCTEST_REQUIRE_NE #undef DOCTEST_REQUIRE_GT #undef DOCTEST_REQUIRE_LT #undef DOCTEST_REQUIRE_GE #undef DOCTEST_REQUIRE_LE #undef DOCTEST_REQUIRE_UNARY #undef DOCTEST_REQUIRE_UNARY_FALSE #undef DOCTEST_FAST_REQUIRE_EQ #undef DOCTEST_FAST_REQUIRE_NE #undef DOCTEST_FAST_REQUIRE_GT #undef DOCTEST_FAST_REQUIRE_LT #undef DOCTEST_FAST_REQUIRE_GE #undef DOCTEST_FAST_REQUIRE_LE #undef DOCTEST_FAST_REQUIRE_UNARY #undef DOCTEST_FAST_REQUIRE_UNARY_FALSE #endif // DOCTEST_CONFIG_NO_EXCEPTIONS_BUT_WITH_ALL_ASSERTS #endif // DOCTEST_CONFIG_NO_EXCEPTIONS // ================================================================================================= // == WHAT FOLLOWS IS VERSIONS OF THE MACROS THAT DO NOT DO ANY REGISTERING! == // == THIS CAN BE ENABLED BY DEFINING DOCTEST_CONFIG_DISABLE GLOBALLY! == // ================================================================================================= #else // DOCTEST_CONFIG_DISABLE #define DOCTEST_IMPLEMENT_FIXTURE(der, base, func, name) \ namespace \ { \ template <typename T> \ struct der : base \ { void f(); }; \ } \ template <typename T> \ inline void der<T>::f() #define DOCTEST_CREATE_AND_REGISTER_FUNCTION(f, name) \ template <typename T> \ static inline void f() // for registering tests #define DOCTEST_TEST_CASE(name) \ DOCTEST_CREATE_AND_REGISTER_FUNCTION(DOCTEST_ANONYMOUS(_DOCTEST_ANON_FUNC_), name) // for registering tests with a fixture #define DOCTEST_TEST_CASE_FIXTURE(x, name) \ DOCTEST_IMPLEMENT_FIXTURE(DOCTEST_ANONYMOUS(_DOCTEST_ANON_CLASS_), x, \ DOCTEST_ANONYMOUS(_DOCTEST_ANON_FUNC_), name) // for converting types to strings without the <typeinfo> header and demangling #ifdef DOCTEST_CONFIG_WITH_VARIADIC_MACROS #define DOCTEST_TYPE_TO_STRING(...) typedef int DOCTEST_ANONYMOUS(_DOCTEST_ANON_FOR_SEMICOLON_) #define DOCTEST_TYPE_TO_STRING_IMPL(...) #else // DOCTEST_CONFIG_WITH_VARIADIC_MACROS #define DOCTEST_TYPE_TO_STRING(x) typedef int DOCTEST_ANONYMOUS(_DOCTEST_ANON_FOR_SEMICOLON_) #define DOCTEST_TYPE_TO_STRING_IMPL(x) #endif // DOCTEST_CONFIG_WITH_VARIADIC_MACROS // for typed tests #define DOCTEST_TEST_CASE_TEMPLATE(name, type, types) \ template <typename type> \ inline void DOCTEST_ANONYMOUS(_DOCTEST_ANON_TMP_)() #define DOCTEST_TEST_CASE_TEMPLATE_DEFINE(name, type, id) \ template <typename type> \ inline void DOCTEST_ANONYMOUS(_DOCTEST_ANON_TMP_)() #define DOCTEST_TEST_CASE_TEMPLATE_INSTANTIATE(id, types) \ typedef int DOCTEST_ANONYMOUS(_DOCTEST_ANON_FOR_SEMICOLON_) // for subcases #define DOCTEST_SUBCASE(name) // for a testsuite block #define DOCTEST_TEST_SUITE(name) namespace // for starting a testsuite block #define DOCTEST_TEST_SUITE_BEGIN(name) typedef int DOCTEST_ANONYMOUS(_DOCTEST_ANON_FOR_SEMICOLON_) // for ending a testsuite block #define DOCTEST_TEST_SUITE_END typedef int DOCTEST_ANONYMOUS(_DOCTEST_ANON_FOR_SEMICOLON_) #define DOCTEST_REGISTER_EXCEPTION_TRANSLATOR(signature) \ template <typename T> \ static inline doctest::String DOCTEST_ANONYMOUS(_DOCTEST_ANON_TRANSLATOR_)(signature) #define DOCTEST_INFO(x) ((void)0) #define DOCTEST_CAPTURE(x) ((void)0) #define DOCTEST_ADD_MESSAGE_AT(file, line, x) ((void)0) #define DOCTEST_ADD_FAIL_CHECK_AT(file, line, x) ((void)0) #define DOCTEST_ADD_FAIL_AT(file, line, x) ((void)0) #define DOCTEST_MESSAGE(x) ((void)0) #define DOCTEST_FAIL_CHECK(x) ((void)0) #define DOCTEST_FAIL(x) ((void)0) #ifdef DOCTEST_CONFIG_WITH_VARIADIC_MACROS #define DOCTEST_WARN(...) ((void)0) #define DOCTEST_CHECK(...) ((void)0) #define DOCTEST_REQUIRE(...) ((void)0) #define DOCTEST_WARN_FALSE(...) ((void)0) #define DOCTEST_CHECK_FALSE(...) ((void)0) #define DOCTEST_REQUIRE_FALSE(...) ((void)0) #else // DOCTEST_CONFIG_WITH_VARIADIC_MACROS #define DOCTEST_WARN(expr) ((void)0) #define DOCTEST_CHECK(expr) ((void)0) #define DOCTEST_REQUIRE(expr) ((void)0) #define DOCTEST_WARN_FALSE(expr) ((void)0) #define DOCTEST_CHECK_FALSE(expr) ((void)0) #define DOCTEST_REQUIRE_FALSE(expr) ((void)0) #endif // DOCTEST_CONFIG_WITH_VARIADIC_MACROS #define DOCTEST_WARN_MESSAGE(cond, msg) ((void)0) #define DOCTEST_CHECK_MESSAGE(cond, msg) ((void)0) #define DOCTEST_REQUIRE_MESSAGE(cond, msg) ((void)0) #define DOCTEST_WARN_FALSE_MESSAGE(cond, msg) ((void)0) #define DOCTEST_CHECK_FALSE_MESSAGE(cond, msg) ((void)0) #define DOCTEST_REQUIRE_FALSE_MESSAGE(cond, msg) ((void)0) #define DOCTEST_WARN_THROWS(expr) ((void)0) #define DOCTEST_CHECK_THROWS(expr) ((void)0) #define DOCTEST_REQUIRE_THROWS(expr) ((void)0) #ifdef DOCTEST_CONFIG_WITH_VARIADIC_MACROS #define DOCTEST_WARN_THROWS_AS(expr, ...) ((void)0) #define DOCTEST_CHECK_THROWS_AS(expr, ...) ((void)0) #define DOCTEST_REQUIRE_THROWS_AS(expr, ...) ((void)0) #else // DOCTEST_CONFIG_WITH_VARIADIC_MACROS #define DOCTEST_WARN_THROWS_AS(expr, ex) ((void)0) #define DOCTEST_CHECK_THROWS_AS(expr, ex) ((void)0) #define DOCTEST_REQUIRE_THROWS_AS(expr, ex) ((void)0) #endif // DOCTEST_CONFIG_WITH_VARIADIC_MACROS #define DOCTEST_WARN_NOTHROW(expr) ((void)0) #define DOCTEST_CHECK_NOTHROW(expr) ((void)0) #define DOCTEST_REQUIRE_NOTHROW(expr) ((void)0) #define DOCTEST_WARN_THROWS_MESSAGE(expr, msg) ((void)0) #define DOCTEST_CHECK_THROWS_MESSAGE(expr, msg) ((void)0) #define DOCTEST_REQUIRE_THROWS_MESSAGE(expr, msg) ((void)0) #define DOCTEST_WARN_THROWS_AS_MESSAGE(expr, ex, msg) ((void)0) #define DOCTEST_CHECK_THROWS_AS_MESSAGE(expr, ex, msg) ((void)0) #define DOCTEST_REQUIRE_THROWS_AS_MESSAGE(expr, ex, msg) ((void)0) #define DOCTEST_WARN_NOTHROW_MESSAGE(expr, msg) ((void)0) #define DOCTEST_CHECK_NOTHROW_MESSAGE(expr, msg) ((void)0) #define DOCTEST_REQUIRE_NOTHROW_MESSAGE(expr, msg) ((void)0) #ifdef DOCTEST_CONFIG_WITH_VARIADIC_MACROS #define DOCTEST_WARN_EQ(...) ((void)0) #define DOCTEST_CHECK_EQ(...) ((void)0) #define DOCTEST_REQUIRE_EQ(...) ((void)0) #define DOCTEST_WARN_NE(...) ((void)0) #define DOCTEST_CHECK_NE(...) ((void)0) #define DOCTEST_REQUIRE_NE(...) ((void)0) #define DOCTEST_WARN_GT(...) ((void)0) #define DOCTEST_CHECK_GT(...) ((void)0) #define DOCTEST_REQUIRE_GT(...) ((void)0) #define DOCTEST_WARN_LT(...) ((void)0) #define DOCTEST_CHECK_LT(...) ((void)0) #define DOCTEST_REQUIRE_LT(...) ((void)0) #define DOCTEST_WARN_GE(...) ((void)0) #define DOCTEST_CHECK_GE(...) ((void)0) #define DOCTEST_REQUIRE_GE(...) ((void)0) #define DOCTEST_WARN_LE(...) ((void)0) #define DOCTEST_CHECK_LE(...) ((void)0) #define DOCTEST_REQUIRE_LE(...) ((void)0) #define DOCTEST_WARN_UNARY(...) ((void)0) #define DOCTEST_CHECK_UNARY(...) ((void)0) #define DOCTEST_REQUIRE_UNARY(...) ((void)0) #define DOCTEST_WARN_UNARY_FALSE(...) ((void)0) #define DOCTEST_CHECK_UNARY_FALSE(...) ((void)0) #define DOCTEST_REQUIRE_UNARY_FALSE(...) ((void)0) #define DOCTEST_FAST_WARN_EQ(...) ((void)0) #define DOCTEST_FAST_CHECK_EQ(...) ((void)0) #define DOCTEST_FAST_REQUIRE_EQ(...) ((void)0) #define DOCTEST_FAST_WARN_NE(...) ((void)0) #define DOCTEST_FAST_CHECK_NE(...) ((void)0) #define DOCTEST_FAST_REQUIRE_NE(...) ((void)0) #define DOCTEST_FAST_WARN_GT(...) ((void)0) #define DOCTEST_FAST_CHECK_GT(...) ((void)0) #define DOCTEST_FAST_REQUIRE_GT(...) ((void)0) #define DOCTEST_FAST_WARN_LT(...) ((void)0) #define DOCTEST_FAST_CHECK_LT(...) ((void)0) #define DOCTEST_FAST_REQUIRE_LT(...) ((void)0) #define DOCTEST_FAST_WARN_GE(...) ((void)0) #define DOCTEST_FAST_CHECK_GE(...) ((void)0) #define DOCTEST_FAST_REQUIRE_GE(...) ((void)0) #define DOCTEST_FAST_WARN_LE(...) ((void)0) #define DOCTEST_FAST_CHECK_LE(...) ((void)0) #define DOCTEST_FAST_REQUIRE_LE(...) ((void)0) #define DOCTEST_FAST_WARN_UNARY(...) ((void)0) #define DOCTEST_FAST_CHECK_UNARY(...) ((void)0) #define DOCTEST_FAST_REQUIRE_UNARY(...) ((void)0) #define DOCTEST_FAST_WARN_UNARY_FALSE(...) ((void)0) #define DOCTEST_FAST_CHECK_UNARY_FALSE(...) ((void)0) #define DOCTEST_FAST_REQUIRE_UNARY_FALSE(...) ((void)0) #else // DOCTEST_CONFIG_WITH_VARIADIC_MACROS #define DOCTEST_WARN_EQ(lhs, rhs) ((void)0) #define DOCTEST_CHECK_EQ(lhs, rhs) ((void)0) #define DOCTEST_REQUIRE_EQ(lhs, rhs) ((void)0) #define DOCTEST_WARN_NE(lhs, rhs) ((void)0) #define DOCTEST_CHECK_NE(lhs, rhs) ((void)0) #define DOCTEST_REQUIRE_NE(lhs, rhs) ((void)0) #define DOCTEST_WARN_GT(lhs, rhs) ((void)0) #define DOCTEST_CHECK_GT(lhs, rhs) ((void)0) #define DOCTEST_REQUIRE_GT(lhs, rhs) ((void)0) #define DOCTEST_WARN_LT(lhs, rhs) ((void)0) #define DOCTEST_CHECK_LT(lhs, rhs) ((void)0) #define DOCTEST_REQUIRE_LT(lhs, rhs) ((void)0) #define DOCTEST_WARN_GE(lhs, rhs) ((void)0) #define DOCTEST_CHECK_GE(lhs, rhs) ((void)0) #define DOCTEST_REQUIRE_GE(lhs, rhs) ((void)0) #define DOCTEST_WARN_LE(lhs, rhs) ((void)0) #define DOCTEST_CHECK_LE(lhs, rhs) ((void)0) #define DOCTEST_REQUIRE_LE(lhs, rhs) ((void)0) #define DOCTEST_WARN_UNARY(val) ((void)0) #define DOCTEST_CHECK_UNARY(val) ((void)0) #define DOCTEST_REQUIRE_UNARY(val) ((void)0) #define DOCTEST_WARN_UNARY_FALSE(val) ((void)0) #define DOCTEST_CHECK_UNARY_FALSE(val) ((void)0) #define DOCTEST_REQUIRE_UNARY_FALSE(val) ((void)0) #define DOCTEST_FAST_WARN_EQ(lhs, rhs) ((void)0) #define DOCTEST_FAST_CHECK_EQ(lhs, rhs) ((void)0) #define DOCTEST_FAST_REQUIRE_EQ(lhs, rhs) ((void)0) #define DOCTEST_FAST_WARN_NE(lhs, rhs) ((void)0) #define DOCTEST_FAST_CHECK_NE(lhs, rhs) ((void)0) #define DOCTEST_FAST_REQUIRE_NE(lhs, rhs) ((void)0) #define DOCTEST_FAST_WARN_GT(lhs, rhs) ((void)0) #define DOCTEST_FAST_CHECK_GT(lhs, rhs) ((void)0) #define DOCTEST_FAST_REQUIRE_GT(lhs, rhs) ((void)0) #define DOCTEST_FAST_WARN_LT(lhs, rhs) ((void)0) #define DOCTEST_FAST_CHECK_LT(lhs, rhs) ((void)0) #define DOCTEST_FAST_REQUIRE_LT(lhs, rhs) ((void)0) #define DOCTEST_FAST_WARN_GE(lhs, rhs) ((void)0) #define DOCTEST_FAST_CHECK_GE(lhs, rhs) ((void)0) #define DOCTEST_FAST_REQUIRE_GE(lhs, rhs) ((void)0) #define DOCTEST_FAST_WARN_LE(lhs, rhs) ((void)0) #define DOCTEST_FAST_CHECK_LE(lhs, rhs) ((void)0) #define DOCTEST_FAST_REQUIRE_LE(lhs, rhs) ((void)0) #define DOCTEST_FAST_WARN_UNARY(val) ((void)0) #define DOCTEST_FAST_CHECK_UNARY(val) ((void)0) #define DOCTEST_FAST_REQUIRE_UNARY(val) ((void)0) #define DOCTEST_FAST_WARN_UNARY_FALSE(val) ((void)0) #define DOCTEST_FAST_CHECK_UNARY_FALSE(val) ((void)0) #define DOCTEST_FAST_REQUIRE_UNARY_FALSE(val) ((void)0) #endif // DOCTEST_CONFIG_WITH_VARIADIC_MACROS #endif // DOCTEST_CONFIG_DISABLE // BDD style macros // clang-format off #define DOCTEST_SCENARIO(name) TEST_CASE(" Scenario: " name) #define DOCTEST_GIVEN(name) SUBCASE(" Given: " name) #define DOCTEST_WHEN(name) SUBCASE(" When: " name) #define DOCTEST_AND_WHEN(name) SUBCASE("And when: " name) #define DOCTEST_THEN(name) SUBCASE(" Then: " name) #define DOCTEST_AND_THEN(name) SUBCASE(" And: " name) // clang-format on // == SHORT VERSIONS OF THE MACROS #if !defined(DOCTEST_CONFIG_NO_SHORT_MACRO_NAMES) #define TEST_CASE DOCTEST_TEST_CASE #define TEST_CASE_FIXTURE DOCTEST_TEST_CASE_FIXTURE #define TYPE_TO_STRING DOCTEST_TYPE_TO_STRING #define TEST_CASE_TEMPLATE DOCTEST_TEST_CASE_TEMPLATE #define TEST_CASE_TEMPLATE_DEFINE DOCTEST_TEST_CASE_TEMPLATE_DEFINE #define TEST_CASE_TEMPLATE_INSTANTIATE DOCTEST_TEST_CASE_TEMPLATE_INSTANTIATE #define SUBCASE DOCTEST_SUBCASE #define TEST_SUITE DOCTEST_TEST_SUITE #define TEST_SUITE_BEGIN DOCTEST_TEST_SUITE_BEGIN #define TEST_SUITE_END DOCTEST_TEST_SUITE_END #define REGISTER_EXCEPTION_TRANSLATOR DOCTEST_REGISTER_EXCEPTION_TRANSLATOR #define INFO DOCTEST_INFO #define CAPTURE DOCTEST_CAPTURE #define ADD_MESSAGE_AT DOCTEST_ADD_MESSAGE_AT #define ADD_FAIL_CHECK_AT DOCTEST_ADD_FAIL_CHECK_AT #define ADD_FAIL_AT DOCTEST_ADD_FAIL_AT #define MESSAGE DOCTEST_MESSAGE #define FAIL_CHECK DOCTEST_FAIL_CHECK #define FAIL DOCTEST_FAIL #define TO_LVALUE DOCTEST_TO_LVALUE #define WARN DOCTEST_WARN #define WARN_FALSE DOCTEST_WARN_FALSE #define WARN_THROWS DOCTEST_WARN_THROWS #define WARN_THROWS_AS DOCTEST_WARN_THROWS_AS #define WARN_NOTHROW DOCTEST_WARN_NOTHROW #define CHECK DOCTEST_CHECK #define CHECK_FALSE DOCTEST_CHECK_FALSE #define CHECK_THROWS DOCTEST_CHECK_THROWS #define CHECK_THROWS_AS DOCTEST_CHECK_THROWS_AS #define CHECK_NOTHROW DOCTEST_CHECK_NOTHROW #define REQUIRE DOCTEST_REQUIRE #define REQUIRE_FALSE DOCTEST_REQUIRE_FALSE #define REQUIRE_THROWS DOCTEST_REQUIRE_THROWS #define REQUIRE_THROWS_AS DOCTEST_REQUIRE_THROWS_AS #define REQUIRE_NOTHROW DOCTEST_REQUIRE_NOTHROW #define WARN_MESSAGE DOCTEST_WARN_MESSAGE #define WARN_FALSE_MESSAGE DOCTEST_WARN_FALSE_MESSAGE #define WARN_THROWS_MESSAGE DOCTEST_WARN_THROWS_MESSAGE #define WARN_THROWS_AS_MESSAGE DOCTEST_WARN_THROWS_AS_MESSAGE #define WARN_NOTHROW_MESSAGE DOCTEST_WARN_NOTHROW_MESSAGE #define CHECK_MESSAGE DOCTEST_CHECK_MESSAGE #define CHECK_FALSE_MESSAGE DOCTEST_CHECK_FALSE_MESSAGE #define CHECK_THROWS_MESSAGE DOCTEST_CHECK_THROWS_MESSAGE #define CHECK_THROWS_AS_MESSAGE DOCTEST_CHECK_THROWS_AS_MESSAGE #define CHECK_NOTHROW_MESSAGE DOCTEST_CHECK_NOTHROW_MESSAGE #define REQUIRE_MESSAGE DOCTEST_REQUIRE_MESSAGE #define REQUIRE_FALSE_MESSAGE DOCTEST_REQUIRE_FALSE_MESSAGE #define REQUIRE_THROWS_MESSAGE DOCTEST_REQUIRE_THROWS_MESSAGE #define REQUIRE_THROWS_AS_MESSAGE DOCTEST_REQUIRE_THROWS_AS_MESSAGE #define REQUIRE_NOTHROW_MESSAGE DOCTEST_REQUIRE_NOTHROW_MESSAGE #define SCENARIO DOCTEST_SCENARIO #define GIVEN DOCTEST_GIVEN #define WHEN DOCTEST_WHEN #define AND_WHEN DOCTEST_AND_WHEN #define THEN DOCTEST_THEN #define AND_THEN DOCTEST_AND_THEN #define WARN_EQ DOCTEST_WARN_EQ #define CHECK_EQ DOCTEST_CHECK_EQ #define REQUIRE_EQ DOCTEST_REQUIRE_EQ #define WARN_NE DOCTEST_WARN_NE #define CHECK_NE DOCTEST_CHECK_NE #define REQUIRE_NE DOCTEST_REQUIRE_NE #define WARN_GT DOCTEST_WARN_GT #define CHECK_GT DOCTEST_CHECK_GT #define REQUIRE_GT DOCTEST_REQUIRE_GT #define WARN_LT DOCTEST_WARN_LT #define CHECK_LT DOCTEST_CHECK_LT #define REQUIRE_LT DOCTEST_REQUIRE_LT #define WARN_GE DOCTEST_WARN_GE #define CHECK_GE DOCTEST_CHECK_GE #define REQUIRE_GE DOCTEST_REQUIRE_GE #define WARN_LE DOCTEST_WARN_LE #define CHECK_LE DOCTEST_CHECK_LE #define REQUIRE_LE DOCTEST_REQUIRE_LE #define WARN_UNARY DOCTEST_WARN_UNARY #define CHECK_UNARY DOCTEST_CHECK_UNARY #define REQUIRE_UNARY DOCTEST_REQUIRE_UNARY #define WARN_UNARY_FALSE DOCTEST_WARN_UNARY_FALSE #define CHECK_UNARY_FALSE DOCTEST_CHECK_UNARY_FALSE #define REQUIRE_UNARY_FALSE DOCTEST_REQUIRE_UNARY_FALSE #define FAST_WARN_EQ DOCTEST_FAST_WARN_EQ #define FAST_CHECK_EQ DOCTEST_FAST_CHECK_EQ #define FAST_REQUIRE_EQ DOCTEST_FAST_REQUIRE_EQ #define FAST_WARN_NE DOCTEST_FAST_WARN_NE #define FAST_CHECK_NE DOCTEST_FAST_CHECK_NE #define FAST_REQUIRE_NE DOCTEST_FAST_REQUIRE_NE #define FAST_WARN_GT DOCTEST_FAST_WARN_GT #define FAST_CHECK_GT DOCTEST_FAST_CHECK_GT #define FAST_REQUIRE_GT DOCTEST_FAST_REQUIRE_GT #define FAST_WARN_LT DOCTEST_FAST_WARN_LT #define FAST_CHECK_LT DOCTEST_FAST_CHECK_LT #define FAST_REQUIRE_LT DOCTEST_FAST_REQUIRE_LT #define FAST_WARN_GE DOCTEST_FAST_WARN_GE #define FAST_CHECK_GE DOCTEST_FAST_CHECK_GE #define FAST_REQUIRE_GE DOCTEST_FAST_REQUIRE_GE #define FAST_WARN_LE DOCTEST_FAST_WARN_LE #define FAST_CHECK_LE DOCTEST_FAST_CHECK_LE #define FAST_REQUIRE_LE DOCTEST_FAST_REQUIRE_LE #define FAST_WARN_UNARY DOCTEST_FAST_WARN_UNARY #define FAST_CHECK_UNARY DOCTEST_FAST_CHECK_UNARY #define FAST_REQUIRE_UNARY DOCTEST_FAST_REQUIRE_UNARY #define FAST_WARN_UNARY_FALSE DOCTEST_FAST_WARN_UNARY_FALSE #define FAST_CHECK_UNARY_FALSE DOCTEST_FAST_CHECK_UNARY_FALSE #define FAST_REQUIRE_UNARY_FALSE DOCTEST_FAST_REQUIRE_UNARY_FALSE #endif // DOCTEST_CONFIG_NO_SHORT_MACRO_NAMES // this is here to clear the 'current test suite' for the current translation unit - at the top DOCTEST_TEST_SUITE_END(); // add stringification for primitive/fundamental types namespace doctest { namespace detail { DOCTEST_TYPE_TO_STRING_IMPL(bool) DOCTEST_TYPE_TO_STRING_IMPL(float) DOCTEST_TYPE_TO_STRING_IMPL(double) DOCTEST_TYPE_TO_STRING_IMPL(long double) DOCTEST_TYPE_TO_STRING_IMPL(char) DOCTEST_TYPE_TO_STRING_IMPL(signed char) DOCTEST_TYPE_TO_STRING_IMPL(unsigned char) DOCTEST_TYPE_TO_STRING_IMPL(wchar_t) DOCTEST_TYPE_TO_STRING_IMPL(short int) DOCTEST_TYPE_TO_STRING_IMPL(unsigned short int) DOCTEST_TYPE_TO_STRING_IMPL(int) DOCTEST_TYPE_TO_STRING_IMPL(unsigned int) DOCTEST_TYPE_TO_STRING_IMPL(long int) DOCTEST_TYPE_TO_STRING_IMPL(unsigned long int) #ifdef DOCTEST_CONFIG_WITH_LONG_LONG DOCTEST_TYPE_TO_STRING_IMPL(long long int) DOCTEST_TYPE_TO_STRING_IMPL(unsigned long long int) #endif // DOCTEST_CONFIG_WITH_LONG_LONG } // namespace detail } // namespace doctest #endif // DOCTEST_LIBRARY_INCLUDED #if defined(__clang__) #pragma clang diagnostic pop #endif // __clang__ #if defined(__GNUC__) && !defined(__clang__) #if __GNUC__ > 4 || (__GNUC__ == 4 && __GNUC_MINOR__ > 6) #pragma GCC diagnostic pop #endif // > gcc 4.6 #endif // __GNUC__ #ifdef _MSC_VER #pragma warning(pop) #endif // _MSC_VER #ifndef DOCTEST_SINGLE_HEADER #define DOCTEST_SINGLE_HEADER #endif // DOCTEST_SINGLE_HEADER #if defined(__clang__) #pragma clang diagnostic push #pragma clang diagnostic ignored "-Wunknown-pragmas" #pragma clang diagnostic ignored "-Wpadded" #pragma clang diagnostic ignored "-Wglobal-constructors" #pragma clang diagnostic ignored "-Wexit-time-destructors" #pragma clang diagnostic ignored "-Wmissing-prototypes" #pragma clang diagnostic ignored "-Wsign-conversion" #pragma clang diagnostic ignored "-Wshorten-64-to-32" #pragma clang diagnostic ignored "-Wmissing-variable-declarations" #pragma clang diagnostic ignored "-Wswitch" #pragma clang diagnostic ignored "-Wswitch-enum" #pragma clang diagnostic ignored "-Wcovered-switch-default" #pragma clang diagnostic ignored "-Wmissing-noreturn" #pragma clang diagnostic ignored "-Wunused-local-typedef" #pragma clang diagnostic ignored "-Wdisabled-macro-expansion" #pragma clang diagnostic ignored "-Wmissing-braces" #pragma clang diagnostic ignored "-Wmissing-field-initializers" #pragma clang diagnostic ignored "-Wzero-as-null-pointer-constant" #pragma clang diagnostic ignored "-Wc++11-long-long" #endif // __clang__ #if defined(__GNUC__) && !defined(__clang__) #if __GNUC__ > 4 || (__GNUC__ == 4 && __GNUC_MINOR__ > 6) #pragma GCC diagnostic push #endif // > gcc 4.6 #pragma GCC diagnostic ignored "-Wunknown-pragmas" #pragma GCC diagnostic ignored "-Wconversion" #pragma GCC diagnostic ignored "-Weffc++" #pragma GCC diagnostic ignored "-Wsign-conversion" #pragma GCC diagnostic ignored "-Wstrict-overflow" #pragma GCC diagnostic ignored "-Wmissing-field-initializers" #pragma GCC diagnostic ignored "-Wmissing-braces" #pragma GCC diagnostic ignored "-Wmissing-declarations" #pragma GCC diagnostic ignored "-Winline" #pragma GCC diagnostic ignored "-Wswitch" #pragma GCC diagnostic ignored "-Wswitch-enum" #pragma GCC diagnostic ignored "-Wswitch-default" #pragma GCC diagnostic ignored "-Wunsafe-loop-optimizations" #pragma GCC diagnostic ignored "-Wlong-long" #pragma GCC diagnostic ignored "-Wold-style-cast" #if __GNUC__ > 4 || (__GNUC__ == 4 && __GNUC_MINOR__ > 6) #pragma GCC diagnostic ignored "-Wzero-as-null-pointer-constant" #endif // > gcc 4.6 #if __GNUC__ > 4 || (__GNUC__ == 4 && __GNUC_MINOR__ > 7) #pragma GCC diagnostic ignored "-Wunused-local-typedefs" #endif // > gcc 4.7 #if __GNUC__ > 5 || (__GNUC__ == 5 && __GNUC_MINOR__ > 3) #pragma GCC diagnostic ignored "-Wuseless-cast" #endif // > gcc 5.3 #endif // __GNUC__ #ifdef _MSC_VER #pragma warning(push) #pragma warning(disable : 4996) // The compiler encountered a deprecated declaration #pragma warning(disable : 4267) // 'var' : conversion from 'size_t' to 'type', possible loss of data #pragma warning(disable : 4706) // assignment within conditional expression #pragma warning(disable : 4512) // 'class' : assignment operator could not be generated #pragma warning(disable : 4127) // conditional expression is constant #pragma warning(disable : 4530) // C++ exception handler used, but unwind semantics are not enabled #pragma warning(disable : 4577) // 'noexcept' used with no exception handling mode specified #endif // _MSC_VER #if defined(DOCTEST_CONFIG_IMPLEMENT) || !defined(DOCTEST_SINGLE_HEADER) #ifndef DOCTEST_LIBRARY_IMPLEMENTATION #define DOCTEST_LIBRARY_IMPLEMENTATION #ifndef DOCTEST_SINGLE_HEADER #include "doctest_fwd.h" #endif // DOCTEST_SINGLE_HEADER #if defined(__clang__) && defined(DOCTEST_NO_CPP11_COMPAT) #pragma clang diagnostic ignored "-Wc++98-compat" #pragma clang diagnostic ignored "-Wc++98-compat-pedantic" #endif // __clang__ && DOCTEST_NO_CPP11_COMPAT // snprintf() not in the C++98 standard #ifdef _MSC_VER #define DOCTEST_SNPRINTF _snprintf #else #define DOCTEST_SNPRINTF std::snprintf #endif #define DOCTEST_LOG_START() \ do { \ if(!contextState->hasLoggedCurrentTestStart) { \ doctest::detail::logTestStart(*contextState->currentTest); \ contextState->hasLoggedCurrentTestStart = true; \ } \ } while(false) // required includes - will go only in one translation unit! #include <ctime> #include <cmath> // borland (Embarcadero) compiler requires math.h and not cmath - https://github.com/onqtam/doctest/pull/37 #ifdef __BORLANDC__ #include <math.h> #endif // __BORLANDC__ #include <new> #include <cstdio> #include <cstdlib> #include <cstring> #include <limits> #include <utility> #include <sstream> #include <iomanip> #include <vector> #include <set> #include <exception> #include <stdexcept> #include <csignal> #include <cfloat> #ifndef _MSC_VER #include <stdint.h> #endif // _MSC_VER namespace doctest { namespace detail { // lowers ascii letters char tolower(const char c) { return (c >= 'A' && c <= 'Z') ? static_cast<char>(c + 32) : c; } template <typename T> T my_max(const T& lhs, const T& rhs) { return lhs > rhs ? lhs : rhs; } // case insensitive strcmp int stricmp(char const* a, char const* b) { for(;; a++, b++) { int d = tolower(*a) - tolower(*b); if(d != 0 || !*a) return d; } } void my_memcpy(void* dest, const void* src, unsigned num) { const char* csrc = static_cast<const char*>(src); char* cdest = static_cast<char*>(dest); for(unsigned i = 0; i < num; ++i) cdest[i] = csrc[i]; } // not using std::strlen() because of valgrind errors when optimizations are turned on // 'Invalid read of size 4' when the test suite len (with '\0') is not a multiple of 4 // for details see http://stackoverflow.com/questions/35671155 unsigned my_strlen(const char* in) { const char* temp = in; while(temp && *temp) ++temp; return unsigned(temp - in); } template <typename T> String fpToString(T value, int precision) { std::ostringstream oss; oss << std::setprecision(precision) << std::fixed << value; std::string d = oss.str(); size_t i = d.find_last_not_of('0'); if(i != std::string::npos && i != d.size() - 1) { if(d[i] == '.') i++; d = d.substr(0, i + 1); } return d.c_str(); } struct Endianness { enum Arch { Big, Little }; static Arch which() { union _ { int asInt; char asChar[sizeof(int)]; } u; u.asInt = 1; // NOLINT return (u.asChar[sizeof(int) - 1] == 1) ? Big : Little; // NOLINT } }; String rawMemoryToString(const void* object, unsigned size) { // Reverse order for little endian architectures int i = 0, end = static_cast<int>(size), inc = 1; if(Endianness::which() == Endianness::Little) { i = end - 1; end = inc = -1; } unsigned char const* bytes = static_cast<unsigned char const*>(object); std::ostringstream os; os << "0x" << std::setfill('0') << std::hex; for(; i != end; i += inc) os << std::setw(2) << static_cast<unsigned>(bytes[i]); return os.str().c_str(); } std::ostream* createStream() { return new std::ostringstream(); } String getStreamResult(std::ostream* in) { return static_cast<std::ostringstream*>(in)->str().c_str(); // NOLINT } void freeStream(std::ostream* in) { delete in; } #ifndef DOCTEST_CONFIG_DISABLE // this holds both parameters for the command line and runtime data for tests struct ContextState : TestAccessibleContextState //!OCLINT too many fields { // == parameters from the command line std::vector<std::vector<String> > filters; String order_by; // how tests should be ordered unsigned rand_seed; // the seed for rand ordering unsigned first; // the first (matching) test to be executed unsigned last; // the last (matching) test to be executed int abort_after; // stop tests after this many failed assertions int subcase_filter_levels; // apply the subcase filters for the first N levels bool case_sensitive; // if filtering should be case sensitive bool exit; // if the program should be exited after the tests are ran/whatever bool duration; // print the time duration of each test case bool no_exitcode; // if the framework should return 0 as the exitcode bool no_run; // to not run the tests at all (can be done with an "*" exclude) bool no_version; // to not print the version of the framework bool no_colors; // if output to the console should be colorized bool force_colors; // forces the use of colors even when a tty cannot be detected bool no_breaks; // to not break into the debugger bool no_skip; // don't skip test cases which are marked to be skipped bool no_path_in_filenames; // if the path to files should be removed from the output bool no_line_numbers; // if source code line numbers should be omitted from the output bool no_skipped_summary; // don't print "skipped" in the summary !!! UNDOCUMENTED !!! bool help; // to print the help bool version; // to print the version bool count; // if only the count of matching tests is to be retreived bool list_test_cases; // to list all tests matching the filters bool list_test_suites; // to list all suites matching the filters // == data for the tests being ran unsigned numTestsPassingFilters; unsigned numTestSuitesPassingFilters; unsigned numFailed; const TestCase* currentTest; bool hasLoggedCurrentTestStart; int numAssertionsForCurrentTestcase; int numAssertions; int numFailedAssertionsForCurrentTestcase; int numFailedAssertions; bool hasCurrentTestFailed; std::vector<IContextScope*> contexts; // for logging with INFO() and friends std::vector<std::string> exceptionalContexts; // logging from INFO() due to an exception // stuff for subcases std::set<SubcaseSignature> subcasesPassed; std::set<int> subcasesEnteredLevels; std::vector<Subcase> subcasesStack; int subcasesCurrentLevel; bool subcasesHasSkipped; void resetRunData() { numTestsPassingFilters = 0; numTestSuitesPassingFilters = 0; numFailed = 0; numAssertions = 0; numFailedAssertions = 0; numFailedAssertionsForCurrentTestcase = 0; } // cppcheck-suppress uninitMemberVar ContextState() : filters(8) // 8 different filters total { resetRunData(); } }; ContextState* contextState = 0; #endif // DOCTEST_CONFIG_DISABLE } // namespace detail void String::copy(const String& other) { if(other.isOnStack()) { detail::my_memcpy(buf, other.buf, len); } else { setOnHeap(); data.size = other.data.size; data.capacity = data.size + 1; data.ptr = new char[data.capacity]; detail::my_memcpy(data.ptr, other.data.ptr, data.size + 1); } } String::String(const char* in) { unsigned in_len = detail::my_strlen(in); if(in_len <= last) { detail::my_memcpy(buf, in, in_len + 1); setLast(last - in_len); } else { setOnHeap(); data.size = in_len; data.capacity = data.size + 1; data.ptr = new char[data.capacity]; detail::my_memcpy(data.ptr, in, in_len + 1); } } String& String::operator+=(const String& other) { unsigned my_old_size = size(); unsigned other_size = other.size(); unsigned total_size = my_old_size + other_size; if(isOnStack()) { if(total_size < len) { // append to the current stack space detail::my_memcpy(buf + my_old_size, other.c_str(), other_size + 1); setLast(last - total_size); } else { // alloc new chunk char* temp = new char[total_size + 1]; // copy current data to new location before writing in the union detail::my_memcpy(temp, buf, my_old_size); // skip the +1 ('\0') for speed // update data in union setOnHeap(); data.size = total_size; data.capacity = data.size + 1; data.ptr = temp; // transfer the rest of the data detail::my_memcpy(data.ptr + my_old_size, other.c_str(), other_size + 1); } } else { if(data.capacity > total_size) { // append to the current heap block data.size = total_size; detail::my_memcpy(data.ptr + my_old_size, other.c_str(), other_size + 1); } else { // resize data.capacity *= 2; if(data.capacity <= total_size) data.capacity = total_size + 1; // alloc new chunk char* temp = new char[data.capacity]; // copy current data to new location before releasing it detail::my_memcpy(temp, data.ptr, my_old_size); // skip the +1 ('\0') for speed // release old chunk delete[] data.ptr; // update the rest of the union members data.size = total_size; data.ptr = temp; // transfer the rest of the data detail::my_memcpy(data.ptr + my_old_size, other.c_str(), other_size + 1); } } return *this; } #ifdef DOCTEST_CONFIG_WITH_RVALUE_REFERENCES String::String(String&& other) { detail::my_memcpy(buf, other.buf, len); other.buf[0] = '\0'; other.setLast(); } String& String::operator=(String&& other) { if(!isOnStack()) delete[] data.ptr; detail::my_memcpy(buf, other.buf, len); other.buf[0] = '\0'; other.setLast(); return *this; } #endif // DOCTEST_CONFIG_WITH_RVALUE_REFERENCES int String::compare(const char* other, bool no_case) const { if(no_case) return detail::stricmp(c_str(), other); return std::strcmp(c_str(), other); } int String::compare(const String& other, bool no_case) const { return compare(other.c_str(), no_case); } std::ostream& operator<<(std::ostream& stream, const String& in) { stream << in.c_str(); return stream; } Approx::Approx(double value) : m_epsilon(static_cast<double>(std::numeric_limits<float>::epsilon()) * 100) , m_scale(1.0) , m_value(value) {} bool operator==(double lhs, Approx const& rhs) { // Thanks to Richard Harris for his help refining this formula return std::fabs(lhs - rhs.m_value) < rhs.m_epsilon * (rhs.m_scale + detail::my_max(std::fabs(lhs), std::fabs(rhs.m_value))); } String Approx::toString() const { return String("Approx( ") + doctest::toString(m_value) + " )"; } #ifdef DOCTEST_CONFIG_TREAT_CHAR_STAR_AS_STRING String toString(char* in) { return toString(static_cast<const char*>(in)); } String toString(const char* in) { return String("\"") + (in ? in : "{null string}") + "\""; } #endif // DOCTEST_CONFIG_TREAT_CHAR_STAR_AS_STRING String toString(bool in) { return in ? "true" : "false"; } String toString(float in) { return detail::fpToString(in, 5) + "f"; } String toString(double in) { return detail::fpToString(in, 10); } String toString(double long in) { return detail::fpToString(in, 15); } String toString(char in) { char buf[64]; std::sprintf(buf, "%d", in); return buf; } String toString(char signed in) { char buf[64]; std::sprintf(buf, "%d", in); return buf; } String toString(char unsigned in) { char buf[64]; std::sprintf(buf, "%ud", in); return buf; } String toString(int short in) { char buf[64]; std::sprintf(buf, "%d", in); return buf; } String toString(int short unsigned in) { char buf[64]; std::sprintf(buf, "%u", in); return buf; } String toString(int in) { char buf[64]; std::sprintf(buf, "%d", in); return buf; } String toString(int unsigned in) { char buf[64]; std::sprintf(buf, "%u", in); return buf; } String toString(int long in) { char buf[64]; std::sprintf(buf, "%ld", in); return buf; } String toString(int long unsigned in) { char buf[64]; std::sprintf(buf, "%lu", in); return buf; } #ifdef DOCTEST_CONFIG_WITH_LONG_LONG String toString(int long long in) { char buf[64]; std::sprintf(buf, "%lld", in); return buf; } String toString(int long long unsigned in) { char buf[64]; std::sprintf(buf, "%llu", in); return buf; } #endif // DOCTEST_CONFIG_WITH_LONG_LONG #ifdef DOCTEST_CONFIG_WITH_NULLPTR String toString(std::nullptr_t) { return "nullptr"; } #endif // DOCTEST_CONFIG_WITH_NULLPTR } // namespace doctest #ifdef DOCTEST_CONFIG_DISABLE namespace doctest { bool isRunningInTest() { return false; } Context::Context(int, const char* const*) {} Context::~Context() {} void Context::applyCommandLine(int, const char* const*) {} void Context::addFilter(const char*, const char*) {} void Context::clearFilters() {} void Context::setOption(const char*, int) {} void Context::setOption(const char*, const char*) {} bool Context::shouldExit() { return false; } int Context::run() { return 0; } } // namespace doctest #else // DOCTEST_CONFIG_DISABLE #if !defined(DOCTEST_CONFIG_COLORS_NONE) #if !defined(DOCTEST_CONFIG_COLORS_WINDOWS) && !defined(DOCTEST_CONFIG_COLORS_ANSI) #ifdef DOCTEST_PLATFORM_WINDOWS #define DOCTEST_CONFIG_COLORS_WINDOWS #else // linux #define DOCTEST_CONFIG_COLORS_ANSI #endif // platform #endif // DOCTEST_CONFIG_COLORS_WINDOWS && DOCTEST_CONFIG_COLORS_ANSI #endif // DOCTEST_CONFIG_COLORS_NONE #define DOCTEST_PRINTF_COLORED(buffer, color) \ do { \ doctest::detail::Color col(color); \ std::printf("%s", buffer); \ } while((void)0, 0) // the buffer size used for snprintf() calls #if !defined(DOCTEST_SNPRINTF_BUFFER_LENGTH) #define DOCTEST_SNPRINTF_BUFFER_LENGTH 1024 #endif // DOCTEST_SNPRINTF_BUFFER_LENGTH #if defined(_MSC_VER) || defined(__MINGW32__) #if defined(_MSC_VER) && _MSC_VER >= 1700 #define DOCTEST_WINDOWS_SAL_IN_OPT _In_opt_ #else // _MSC_VER #define DOCTEST_WINDOWS_SAL_IN_OPT #endif // _MSC_VER extern "C" __declspec(dllimport) void __stdcall OutputDebugStringA( DOCTEST_WINDOWS_SAL_IN_OPT const char*); extern "C" __declspec(dllimport) int __stdcall IsDebuggerPresent(); #endif // _MSC_VER || __MINGW32__ #ifdef DOCTEST_CONFIG_COLORS_ANSI #include <unistd.h> #endif // DOCTEST_CONFIG_COLORS_ANSI #ifdef _WIN32 // defines for a leaner windows.h #ifndef WIN32_MEAN_AND_LEAN #define WIN32_MEAN_AND_LEAN #endif // WIN32_MEAN_AND_LEAN #ifndef VC_EXTRA_LEAN #define VC_EXTRA_LEAN #endif // VC_EXTRA_LEAN #ifndef NOMINMAX #define NOMINMAX #endif // NOMINMAX // not sure what AfxWin.h is for - here I do what Catch does #ifdef __AFXDLL #include <AfxWin.h> #else #include <windows.h> #endif #include <io.h> #else // _WIN32 #include <sys/time.h> #endif // _WIN32 namespace doctest_detail_test_suite_ns { // holds the current test suite doctest::detail::TestSuite& getCurrentTestSuite() { static doctest::detail::TestSuite data; return data; } } // namespace doctest_detail_test_suite_ns namespace doctest { namespace detail { TestCase::TestCase(funcType test, const char* file, unsigned line, const TestSuite& test_suite, const char* type, int template_id) : m_test(test) , m_name(0) , m_type(type) , m_test_suite(test_suite.m_test_suite) , m_description(test_suite.m_description) , m_skip(test_suite.m_skip) , m_may_fail(test_suite.m_may_fail) , m_should_fail(test_suite.m_should_fail) , m_expected_failures(test_suite.m_expected_failures) , m_timeout(test_suite.m_timeout) , m_file(file) , m_line(line) , m_template_id(template_id) {} TestCase& TestCase::operator*(const char* in) { m_name = in; // make a new name with an appended type for templated test case if(m_template_id != -1) { m_full_name = String(m_name) + m_type; // redirect the name to point to the newly constructed full name m_name = m_full_name.c_str(); } return *this; } TestCase& TestCase::operator=(const TestCase& other) { m_test = other.m_test; m_full_name = other.m_full_name; m_name = other.m_name; m_type = other.m_type; m_test_suite = other.m_test_suite; m_description = other.m_description; m_skip = other.m_skip; m_may_fail = other.m_may_fail; m_should_fail = other.m_should_fail; m_expected_failures = other.m_expected_failures; m_timeout = other.m_timeout; m_file = other.m_file; m_line = other.m_line; m_template_id = other.m_template_id; if(m_template_id != -1) m_name = m_full_name.c_str(); return *this; } bool TestCase::operator<(const TestCase& other) const { if(m_line != other.m_line) return m_line < other.m_line; int file_cmp = std::strcmp(m_file, other.m_file); if(file_cmp != 0) return file_cmp < 0; return m_template_id < other.m_template_id; } const char* getAssertString(assertType::Enum val) { switch(val) { //!OCLINT missing default in switch statements // clang-format off case assertType::DT_WARN : return "WARN"; case assertType::DT_CHECK : return "CHECK"; case assertType::DT_REQUIRE : return "REQUIRE"; case assertType::DT_WARN_FALSE : return "WARN_FALSE"; case assertType::DT_CHECK_FALSE : return "CHECK_FALSE"; case assertType::DT_REQUIRE_FALSE : return "REQUIRE_FALSE"; case assertType::DT_WARN_THROWS : return "WARN_THROWS"; case assertType::DT_CHECK_THROWS : return "CHECK_THROWS"; case assertType::DT_REQUIRE_THROWS : return "REQUIRE_THROWS"; case assertType::DT_WARN_THROWS_AS : return "WARN_THROWS_AS"; case assertType::DT_CHECK_THROWS_AS : return "CHECK_THROWS_AS"; case assertType::DT_REQUIRE_THROWS_AS : return "REQUIRE_THROWS_AS"; case assertType::DT_WARN_NOTHROW : return "WARN_NOTHROW"; case assertType::DT_CHECK_NOTHROW : return "CHECK_NOTHROW"; case assertType::DT_REQUIRE_NOTHROW : return "REQUIRE_NOTHROW"; case assertType::DT_WARN_EQ : return "WARN_EQ"; case assertType::DT_CHECK_EQ : return "CHECK_EQ"; case assertType::DT_REQUIRE_EQ : return "REQUIRE_EQ"; case assertType::DT_WARN_NE : return "WARN_NE"; case assertType::DT_CHECK_NE : return "CHECK_NE"; case assertType::DT_REQUIRE_NE : return "REQUIRE_NE"; case assertType::DT_WARN_GT : return "WARN_GT"; case assertType::DT_CHECK_GT : return "CHECK_GT"; case assertType::DT_REQUIRE_GT : return "REQUIRE_GT"; case assertType::DT_WARN_LT : return "WARN_LT"; case assertType::DT_CHECK_LT : return "CHECK_LT"; case assertType::DT_REQUIRE_LT : return "REQUIRE_LT"; case assertType::DT_WARN_GE : return "WARN_GE"; case assertType::DT_CHECK_GE : return "CHECK_GE"; case assertType::DT_REQUIRE_GE : return "REQUIRE_GE"; case assertType::DT_WARN_LE : return "WARN_LE"; case assertType::DT_CHECK_LE : return "CHECK_LE"; case assertType::DT_REQUIRE_LE : return "REQUIRE_LE"; case assertType::DT_WARN_UNARY : return "WARN_UNARY"; case assertType::DT_CHECK_UNARY : return "CHECK_UNARY"; case assertType::DT_REQUIRE_UNARY : return "REQUIRE_UNARY"; case assertType::DT_WARN_UNARY_FALSE : return "WARN_UNARY_FALSE"; case assertType::DT_CHECK_UNARY_FALSE : return "CHECK_UNARY_FALSE"; case assertType::DT_REQUIRE_UNARY_FALSE : return "REQUIRE_UNARY_FALSE"; case assertType::DT_FAST_WARN_EQ : return "FAST_WARN_EQ"; case assertType::DT_FAST_CHECK_EQ : return "FAST_CHECK_EQ"; case assertType::DT_FAST_REQUIRE_EQ : return "FAST_REQUIRE_EQ"; case assertType::DT_FAST_WARN_NE : return "FAST_WARN_NE"; case assertType::DT_FAST_CHECK_NE : return "FAST_CHECK_NE"; case assertType::DT_FAST_REQUIRE_NE : return "FAST_REQUIRE_NE"; case assertType::DT_FAST_WARN_GT : return "FAST_WARN_GT"; case assertType::DT_FAST_CHECK_GT : return "FAST_CHECK_GT"; case assertType::DT_FAST_REQUIRE_GT : return "FAST_REQUIRE_GT"; case assertType::DT_FAST_WARN_LT : return "FAST_WARN_LT"; case assertType::DT_FAST_CHECK_LT : return "FAST_CHECK_LT"; case assertType::DT_FAST_REQUIRE_LT : return "FAST_REQUIRE_LT"; case assertType::DT_FAST_WARN_GE : return "FAST_WARN_GE"; case assertType::DT_FAST_CHECK_GE : return "FAST_CHECK_GE"; case assertType::DT_FAST_REQUIRE_GE : return "FAST_REQUIRE_GE"; case assertType::DT_FAST_WARN_LE : return "FAST_WARN_LE"; case assertType::DT_FAST_CHECK_LE : return "FAST_CHECK_LE"; case assertType::DT_FAST_REQUIRE_LE : return "FAST_REQUIRE_LE"; case assertType::DT_FAST_WARN_UNARY : return "FAST_WARN_UNARY"; case assertType::DT_FAST_CHECK_UNARY : return "FAST_CHECK_UNARY"; case assertType::DT_FAST_REQUIRE_UNARY : return "FAST_REQUIRE_UNARY"; case assertType::DT_FAST_WARN_UNARY_FALSE : return "FAST_WARN_UNARY_FALSE"; case assertType::DT_FAST_CHECK_UNARY_FALSE : return "FAST_CHECK_UNARY_FALSE"; case assertType::DT_FAST_REQUIRE_UNARY_FALSE: return "FAST_REQUIRE_UNARY_FALSE"; // clang-format on } return ""; } bool checkIfShouldThrow(assertType::Enum assert_type) { if(assert_type & assertType::is_require) //!OCLINT bitwise operator in conditional return true; if((assert_type & assertType::is_check) //!OCLINT bitwise operator in conditional && contextState->abort_after > 0 && contextState->numFailedAssertions >= contextState->abort_after) return true; return false; } void fastAssertThrowIfFlagSet(int flags) { if(flags & assertAction::shouldthrow) //!OCLINT bitwise operator in conditional throwException(); } void throwException() { #ifndef DOCTEST_CONFIG_NO_EXCEPTIONS throw TestFailureException(); #endif // DOCTEST_CONFIG_NO_EXCEPTIONS } // matching of a string against a wildcard mask (case sensitivity configurable) taken from // http://www.emoticode.net/c/simple-wildcard-string-compare-globbing-function.html int wildcmp(const char* str, const char* wild, bool caseSensitive) { const char* cp = 0; const char* mp = 0; // rolled my own tolower() to not include more headers while((*str) && (*wild != '*')) { if((caseSensitive ? (*wild != *str) : (tolower(*wild) != tolower(*str))) && (*wild != '?')) { return 0; } wild++; str++; } while(*str) { if(*wild == '*') { if(!*++wild) { return 1; } mp = wild; cp = str + 1; } else if((caseSensitive ? (*wild == *str) : (tolower(*wild) == tolower(*str))) || (*wild == '?')) { wild++; str++; } else { wild = mp; //!OCLINT parameter reassignment str = cp++; //!OCLINT parameter reassignment } } while(*wild == '*') { wild++; } return !*wild; } //// C string hash function (djb2) - taken from http://www.cse.yorku.ca/~oz/hash.html //unsigned hashStr(unsigned const char* str) { // unsigned long hash = 5381; // char c; // while((c = *str++)) // hash = ((hash << 5) + hash) + c; // hash * 33 + c // return hash; //} // checks if the name matches any of the filters (and can be configured what to do when empty) bool matchesAny(const char* name, const std::vector<String>& filters, int matchEmpty, bool caseSensitive) { if(filters.empty() && matchEmpty) return true; for(unsigned i = 0; i < filters.size(); ++i) if(wildcmp(name, filters[i].c_str(), caseSensitive)) return true; return false; } #ifdef _WIN32 typedef unsigned long long UInt64; UInt64 getCurrentTicks() { static UInt64 hz = 0, hzo = 0; if(!hz) { QueryPerformanceFrequency(reinterpret_cast<LARGE_INTEGER*>(&hz)); QueryPerformanceCounter(reinterpret_cast<LARGE_INTEGER*>(&hzo)); } UInt64 t; QueryPerformanceCounter(reinterpret_cast<LARGE_INTEGER*>(&t)); return ((t - hzo) * 1000000) / hz; } #else // _WIN32 typedef uint64_t UInt64; UInt64 getCurrentTicks() { timeval t; gettimeofday(&t, 0); return static_cast<UInt64>(t.tv_sec) * 1000000 + static_cast<UInt64>(t.tv_usec); } #endif // _WIN32 class Timer { public: Timer() : m_ticks(0) {} void start() { m_ticks = getCurrentTicks(); } unsigned int getElapsedMicroseconds() const { return static_cast<unsigned int>(getCurrentTicks() - m_ticks); } unsigned int getElapsedMilliseconds() const { return static_cast<unsigned int>(getElapsedMicroseconds() / 1000); } double getElapsedSeconds() const { return getElapsedMicroseconds() / 1000000.0; } private: UInt64 m_ticks; }; TestAccessibleContextState* getTestsContextState() { return contextState; } bool SubcaseSignature::operator<(const SubcaseSignature& other) const { if(m_line != other.m_line) return m_line < other.m_line; if(std::strcmp(m_file, other.m_file) != 0) return std::strcmp(m_file, other.m_file) < 0; return std::strcmp(m_name, other.m_name) < 0; } Subcase::Subcase(const char* name, const char* file, int line) : m_signature(name, file, line) , m_entered(false) { ContextState* s = contextState; // if we have already completed it if(s->subcasesPassed.count(m_signature) != 0) return; // check subcase filters if(s->subcasesCurrentLevel < s->subcase_filter_levels) { if(!matchesAny(m_signature.m_name, s->filters[6], 1, s->case_sensitive)) return; if(matchesAny(m_signature.m_name, s->filters[7], 0, s->case_sensitive)) return; } // if a Subcase on the same level has already been entered if(s->subcasesEnteredLevels.count(s->subcasesCurrentLevel) != 0) { s->subcasesHasSkipped = true; return; } s->subcasesStack.push_back(*this); if(s->hasLoggedCurrentTestStart) logTestEnd(); s->hasLoggedCurrentTestStart = false; s->subcasesEnteredLevels.insert(s->subcasesCurrentLevel++); m_entered = true; } Subcase::Subcase(const Subcase& other) : m_signature(other.m_signature.m_name, other.m_signature.m_file, other.m_signature.m_line) , m_entered(other.m_entered) {} Subcase::~Subcase() { if(m_entered) { ContextState* s = contextState; s->subcasesCurrentLevel--; // only mark the subcase as passed if no subcases have been skipped if(s->subcasesHasSkipped == false) s->subcasesPassed.insert(m_signature); if(!s->subcasesStack.empty()) s->subcasesStack.pop_back(); if(s->hasLoggedCurrentTestStart) logTestEnd(); s->hasLoggedCurrentTestStart = false; } } Result::~Result() {} Result& Result::operator=(const Result& other) { m_passed = other.m_passed; m_decomposition = other.m_decomposition; return *this; } // for sorting tests by file/line int fileOrderComparator(const void* a, const void* b) { const TestCase* lhs = *static_cast<TestCase* const*>(a); const TestCase* rhs = *static_cast<TestCase* const*>(b); #ifdef _MSC_VER // this is needed because MSVC gives different case for drive letters // for __FILE__ when evaluated in a header and a source file int res = stricmp(lhs->m_file, rhs->m_file); #else // _MSC_VER int res = std::strcmp(lhs->m_file, rhs->m_file); #endif // _MSC_VER if(res != 0) return res; return static_cast<int>(lhs->m_line - rhs->m_line); } // for sorting tests by suite/file/line int suiteOrderComparator(const void* a, const void* b) { const TestCase* lhs = *static_cast<TestCase* const*>(a); const TestCase* rhs = *static_cast<TestCase* const*>(b); int res = std::strcmp(lhs->m_test_suite, rhs->m_test_suite); if(res != 0) return res; return fileOrderComparator(a, b); } // for sorting tests by name/suite/file/line int nameOrderComparator(const void* a, const void* b) { const TestCase* lhs = *static_cast<TestCase* const*>(a); const TestCase* rhs = *static_cast<TestCase* const*>(b); int res_name = std::strcmp(lhs->m_name, rhs->m_name); if(res_name != 0) return res_name; return suiteOrderComparator(a, b); } // sets the current test suite int setTestSuite(const TestSuite& ts) { doctest_detail_test_suite_ns::getCurrentTestSuite() = ts; return 0; } // all the registered tests std::set<TestCase>& getRegisteredTests() { static std::set<TestCase> data; return data; } // used by the macros for registering tests int regTest(const TestCase& tc) { getRegisteredTests().insert(tc); return 0; } struct Color { enum Code { None = 0, White, Red, Green, Blue, Cyan, Yellow, Grey, Bright = 0x10, BrightRed = Bright | Red, BrightGreen = Bright | Green, LightGrey = Bright | Grey, BrightWhite = Bright | White }; explicit Color(Code code) { use(code); } ~Color() { use(None); } static void use(Code code); static void init(); }; #ifdef DOCTEST_CONFIG_COLORS_WINDOWS HANDLE g_stdoutHandle; WORD g_originalForegroundAttributes; WORD g_originalBackgroundAttributes; bool g_attrsInitted = false; #endif // DOCTEST_CONFIG_COLORS_WINDOWS void Color::init() { #ifdef DOCTEST_CONFIG_COLORS_WINDOWS if(!g_attrsInitted) { g_stdoutHandle = GetStdHandle(STD_OUTPUT_HANDLE); g_attrsInitted = true; CONSOLE_SCREEN_BUFFER_INFO csbiInfo; GetConsoleScreenBufferInfo(g_stdoutHandle, &csbiInfo); g_originalForegroundAttributes = csbiInfo.wAttributes & ~(BACKGROUND_GREEN | BACKGROUND_RED | BACKGROUND_BLUE | BACKGROUND_INTENSITY); g_originalBackgroundAttributes = csbiInfo.wAttributes & ~(FOREGROUND_GREEN | FOREGROUND_RED | FOREGROUND_BLUE | FOREGROUND_INTENSITY); } #endif // DOCTEST_CONFIG_COLORS_WINDOWS } void Color::use(Code #ifndef DOCTEST_CONFIG_COLORS_NONE code #endif // DOCTEST_CONFIG_COLORS_NONE ) { const ContextState* p = contextState; if(p->no_colors) return; #ifdef DOCTEST_CONFIG_COLORS_ANSI if(isatty(STDOUT_FILENO) == false && p->force_colors == false) return; const char* col = ""; // clang-format off switch(code) { //!OCLINT missing break in switch statement / unnecessary default statement in covered switch statement case Color::Red: col = "[0;31m"; break; case Color::Green: col = "[0;32m"; break; case Color::Blue: col = "[0;34m"; break; case Color::Cyan: col = "[0;36m"; break; case Color::Yellow: col = "[0;33m"; break; case Color::Grey: col = "[1;30m"; break; case Color::LightGrey: col = "[0;37m"; break; case Color::BrightRed: col = "[1;31m"; break; case Color::BrightGreen: col = "[1;32m"; break; case Color::BrightWhite: col = "[1;37m"; break; case Color::Bright: // invalid case Color::None: case Color::White: default: col = "[0m"; } // clang-format on std::printf("\033%s", col); #endif // DOCTEST_CONFIG_COLORS_ANSI #ifdef DOCTEST_CONFIG_COLORS_WINDOWS if(isatty(fileno(stdout)) == false && p->force_colors == false) return; #define DOCTEST_SET_ATTR(x) \ SetConsoleTextAttribute(g_stdoutHandle, x | g_originalBackgroundAttributes) // clang-format off switch (code) { case Color::White: DOCTEST_SET_ATTR(FOREGROUND_GREEN | FOREGROUND_RED | FOREGROUND_BLUE); break; case Color::Red: DOCTEST_SET_ATTR(FOREGROUND_RED); break; case Color::Green: DOCTEST_SET_ATTR(FOREGROUND_GREEN); break; case Color::Blue: DOCTEST_SET_ATTR(FOREGROUND_BLUE); break; case Color::Cyan: DOCTEST_SET_ATTR(FOREGROUND_BLUE | FOREGROUND_GREEN); break; case Color::Yellow: DOCTEST_SET_ATTR(FOREGROUND_RED | FOREGROUND_GREEN); break; case Color::Grey: DOCTEST_SET_ATTR(0); break; case Color::LightGrey: DOCTEST_SET_ATTR(FOREGROUND_INTENSITY); break; case Color::BrightRed: DOCTEST_SET_ATTR(FOREGROUND_INTENSITY | FOREGROUND_RED); break; case Color::BrightGreen: DOCTEST_SET_ATTR(FOREGROUND_INTENSITY | FOREGROUND_GREEN); break; case Color::BrightWhite: DOCTEST_SET_ATTR(FOREGROUND_INTENSITY | FOREGROUND_GREEN | FOREGROUND_RED | FOREGROUND_BLUE); break; case Color::None: case Color::Bright: // invalid default: DOCTEST_SET_ATTR(g_originalForegroundAttributes); } // clang-format on #undef DOCTEST_SET_ATTR #endif // DOCTEST_CONFIG_COLORS_WINDOWS } IExceptionTranslator::~IExceptionTranslator() {} std::vector<const IExceptionTranslator*>& getExceptionTranslators() { static std::vector<const IExceptionTranslator*> data; return data; } void registerExceptionTranslatorImpl(const IExceptionTranslator* translateFunction) { getExceptionTranslators().push_back(translateFunction); } String translateActiveException() { #ifndef DOCTEST_CONFIG_NO_EXCEPTIONS String res; std::vector<const IExceptionTranslator*>& translators = getExceptionTranslators(); for(size_t i = 0; i < translators.size(); ++i) if(translators[i]->translate(res)) return res; // clang-format off try { throw; } catch(std::exception& ex) { return ex.what(); } catch(std::string& msg) { return msg.c_str(); } catch(const char* msg) { return msg; } catch(...) { return "unknown exception"; } // clang-format on #else // DOCTEST_CONFIG_NO_EXCEPTIONS return ""; #endif // DOCTEST_CONFIG_NO_EXCEPTIONS } void writeStringToStream(std::ostream* stream, const String& str) { *stream << str; } #ifdef DOCTEST_CONFIG_TREAT_CHAR_STAR_AS_STRING void toStream(std::ostream* stream, char* in) { *stream << in; } void toStream(std::ostream* stream, const char* in) { *stream << in; } #endif // DOCTEST_CONFIG_TREAT_CHAR_STAR_AS_STRING void toStream(std::ostream* stream, bool in) { *stream << std::boolalpha << in << std::noboolalpha; } void toStream(std::ostream* stream, float in) { *stream << in; } void toStream(std::ostream* stream, double in) { *stream << in; } void toStream(std::ostream* stream, double long in) { *stream << in; } void toStream(std::ostream* stream, char in) { *stream << in; } void toStream(std::ostream* stream, char signed in) { *stream << in; } void toStream(std::ostream* stream, char unsigned in) { *stream << in; } void toStream(std::ostream* stream, int short in) { *stream << in; } void toStream(std::ostream* stream, int short unsigned in) { *stream << in; } void toStream(std::ostream* stream, int in) { *stream << in; } void toStream(std::ostream* stream, int unsigned in) { *stream << in; } void toStream(std::ostream* stream, int long in) { *stream << in; } void toStream(std::ostream* stream, int long unsigned in) { *stream << in; } #ifdef DOCTEST_CONFIG_WITH_LONG_LONG void toStream(std::ostream* stream, int long long in) { *stream << in; } void toStream(std::ostream* stream, int long long unsigned in) { *stream << in; } #endif // DOCTEST_CONFIG_WITH_LONG_LONG void addToContexts(IContextScope* ptr) { contextState->contexts.push_back(ptr); } void popFromContexts() { contextState->contexts.pop_back(); } void useContextIfExceptionOccurred(IContextScope* ptr) { if(std::uncaught_exception()) { std::ostringstream stream; ptr->build(&stream); contextState->exceptionalContexts.push_back(stream.str()); } } void printSummary(); #if !defined(DOCTEST_CONFIG_POSIX_SIGNALS) && !defined(DOCTEST_CONFIG_WINDOWS_SEH) void reportFatal(const std::string&) {} struct FatalConditionHandler { void reset() {} }; #else // DOCTEST_CONFIG_POSIX_SIGNALS || DOCTEST_CONFIG_WINDOWS_SEH void reportFatal(const std::string& message) { DOCTEST_LOG_START(); contextState->numAssertions += contextState->numAssertionsForCurrentTestcase; logTestException(message.c_str(), true); logTestEnd(); contextState->numFailed++; printSummary(); } #ifdef DOCTEST_PLATFORM_WINDOWS struct SignalDefs { DWORD id; const char* name; }; // There is no 1-1 mapping between signals and windows exceptions. // Windows can easily distinguish between SO and SigSegV, // but SigInt, SigTerm, etc are handled differently. SignalDefs signalDefs[] = { {EXCEPTION_ILLEGAL_INSTRUCTION, "SIGILL - Illegal instruction signal"}, {EXCEPTION_STACK_OVERFLOW, "SIGSEGV - Stack overflow"}, {EXCEPTION_ACCESS_VIOLATION, "SIGSEGV - Segmentation violation signal"}, {EXCEPTION_INT_DIVIDE_BY_ZERO, "Divide by zero error"}, }; struct FatalConditionHandler { static LONG CALLBACK handleVectoredException(PEXCEPTION_POINTERS ExceptionInfo) { for(size_t i = 0; i < sizeof(signalDefs) / sizeof(SignalDefs); ++i) { if(ExceptionInfo->ExceptionRecord->ExceptionCode == signalDefs[i].id) { reportFatal(signalDefs[i].name); } } // If its not an exception we care about, pass it along. // This stops us from eating debugger breaks etc. return EXCEPTION_CONTINUE_SEARCH; } FatalConditionHandler() { isSet = true; // 32k seems enough for doctest to handle stack overflow, // but the value was found experimentally, so there is no strong guarantee guaranteeSize = 32 * 1024; exceptionHandlerHandle = 0; // Register as first handler in current chain exceptionHandlerHandle = AddVectoredExceptionHandler(1, handleVectoredException); // Pass in guarantee size to be filled SetThreadStackGuarantee(&guaranteeSize); } static void reset() { if(isSet) { // Unregister handler and restore the old guarantee RemoveVectoredExceptionHandler(exceptionHandlerHandle); SetThreadStackGuarantee(&guaranteeSize); exceptionHandlerHandle = 0; isSet = false; } } ~FatalConditionHandler() { reset(); } private: static bool isSet; static ULONG guaranteeSize; static PVOID exceptionHandlerHandle; }; bool FatalConditionHandler::isSet = false; ULONG FatalConditionHandler::guaranteeSize = 0; PVOID FatalConditionHandler::exceptionHandlerHandle = 0; #else // DOCTEST_PLATFORM_WINDOWS struct SignalDefs { int id; const char* name; }; SignalDefs signalDefs[] = {{SIGINT, "SIGINT - Terminal interrupt signal"}, {SIGILL, "SIGILL - Illegal instruction signal"}, {SIGFPE, "SIGFPE - Floating point error signal"}, {SIGSEGV, "SIGSEGV - Segmentation violation signal"}, {SIGTERM, "SIGTERM - Termination request signal"}, {SIGABRT, "SIGABRT - Abort (abnormal termination) signal"}}; struct FatalConditionHandler { static bool isSet; static struct sigaction oldSigActions[sizeof(signalDefs) / sizeof(SignalDefs)]; static stack_t oldSigStack; static char altStackMem[SIGSTKSZ]; static void handleSignal(int sig) { std::string name = "<unknown signal>"; for(std::size_t i = 0; i < sizeof(signalDefs) / sizeof(SignalDefs); ++i) { SignalDefs& def = signalDefs[i]; if(sig == def.id) { name = def.name; break; } } reset(); reportFatal(name); raise(sig); } FatalConditionHandler() { isSet = true; stack_t sigStack; sigStack.ss_sp = altStackMem; sigStack.ss_size = SIGSTKSZ; sigStack.ss_flags = 0; sigaltstack(&sigStack, &oldSigStack); struct sigaction sa = {0}; sa.sa_handler = handleSignal; // NOLINT sa.sa_flags = SA_ONSTACK; for(std::size_t i = 0; i < sizeof(signalDefs) / sizeof(SignalDefs); ++i) { sigaction(signalDefs[i].id, &sa, &oldSigActions[i]); } } ~FatalConditionHandler() { reset(); } static void reset() { if(isSet) { // Set signals back to previous values -- hopefully nobody overwrote them in the meantime for(std::size_t i = 0; i < sizeof(signalDefs) / sizeof(SignalDefs); ++i) { sigaction(signalDefs[i].id, &oldSigActions[i], 0); } // Return the old stack sigaltstack(&oldSigStack, 0); isSet = false; } } }; bool FatalConditionHandler::isSet = false; struct sigaction FatalConditionHandler::oldSigActions[sizeof(signalDefs) / sizeof(SignalDefs)] = {}; stack_t FatalConditionHandler::oldSigStack = {}; char FatalConditionHandler::altStackMem[SIGSTKSZ] = {}; #endif // DOCTEST_PLATFORM_WINDOWS #endif // DOCTEST_CONFIG_POSIX_SIGNALS || DOCTEST_CONFIG_WINDOWS_SEH // depending on the current options this will remove the path of filenames const char* fileForOutput(const char* file) { if(contextState->no_path_in_filenames) { const char* back = std::strrchr(file, '\\'); const char* forward = std::strrchr(file, '/'); if(back || forward) { if(back > forward) forward = back; return forward + 1; } } return file; } // depending on the current options this will substitute the line numbers with 0 int lineForOutput(int line) { if(contextState->no_line_numbers) return 0; return line; } #ifdef DOCTEST_PLATFORM_MAC #include <sys/types.h> #include <unistd.h> #include <sys/sysctl.h> // The following function is taken directly from the following technical note: // http://developer.apple.com/library/mac/#qa/qa2004/qa1361.html // Returns true if the current process is being debugged (either // running under the debugger or has a debugger attached post facto). bool isDebuggerActive() { int mib[4]; kinfo_proc info; size_t size; // Initialize the flags so that, if sysctl fails for some bizarre // reason, we get a predictable result. info.kp_proc.p_flag = 0; // Initialize mib, which tells sysctl the info we want, in this case // we're looking for information about a specific process ID. mib[0] = CTL_KERN; mib[1] = KERN_PROC; mib[2] = KERN_PROC_PID; mib[3] = getpid(); // Call sysctl. size = sizeof(info); if(sysctl(mib, sizeof(mib) / sizeof(*mib), &info, &size, 0, 0) != 0) { fprintf(stderr, "\n** Call to sysctl failed - unable to determine if debugger is " "active **\n\n"); return false; } // We're being debugged if the P_TRACED flag is set. return ((info.kp_proc.p_flag & P_TRACED) != 0); } #elif defined(_MSC_VER) || defined(__MINGW32__) bool isDebuggerActive() { return ::IsDebuggerPresent() != 0; } #else bool isDebuggerActive() { return false; } #endif // Platform #ifdef DOCTEST_PLATFORM_WINDOWS void myOutputDebugString(const String& text) { ::OutputDebugStringA(text.c_str()); } #else // TODO: integration with XCode and other IDEs void myOutputDebugString(const String&) {} #endif // Platform const char* getSeparator() { return "===============================================================================\n"; } void printToDebugConsole(const String& text) { if(isDebuggerActive()) myOutputDebugString(text.c_str()); } void addFailedAssert(assertType::Enum assert_type) { if((assert_type & assertType::is_warn) == 0) { //!OCLINT bitwise operator in conditional contextState->numFailedAssertions++; contextState->numFailedAssertionsForCurrentTestcase++; contextState->hasCurrentTestFailed = true; } } void logTestStart(const TestCase& tc) { char loc[DOCTEST_SNPRINTF_BUFFER_LENGTH]; DOCTEST_SNPRINTF(loc, DOCTEST_COUNTOF(loc), "%s(%d)\n", fileForOutput(tc.m_file), lineForOutput(tc.m_line)); char ts1[DOCTEST_SNPRINTF_BUFFER_LENGTH]; DOCTEST_SNPRINTF(ts1, DOCTEST_COUNTOF(ts1), "TEST SUITE: "); char ts2[DOCTEST_SNPRINTF_BUFFER_LENGTH]; DOCTEST_SNPRINTF(ts2, DOCTEST_COUNTOF(ts2), "%s\n", tc.m_test_suite); char n1[DOCTEST_SNPRINTF_BUFFER_LENGTH]; DOCTEST_SNPRINTF(n1, DOCTEST_COUNTOF(n1), "TEST CASE: "); char n2[DOCTEST_SNPRINTF_BUFFER_LENGTH]; DOCTEST_SNPRINTF(n2, DOCTEST_COUNTOF(n2), "%s\n", tc.m_name); char d1[DOCTEST_SNPRINTF_BUFFER_LENGTH]; DOCTEST_SNPRINTF(d1, DOCTEST_COUNTOF(d1), "DESCRIPTION: "); char d2[DOCTEST_SNPRINTF_BUFFER_LENGTH]; DOCTEST_SNPRINTF(d2, DOCTEST_COUNTOF(d2), "%s\n", tc.m_description); // hack for BDD style of macros - to not print "TEST CASE:" char scenario[] = " Scenario:"; if(std::string(tc.m_name).substr(0, DOCTEST_COUNTOF(scenario) - 1) == scenario) n1[0] = '\0'; DOCTEST_PRINTF_COLORED(getSeparator(), Color::Yellow); DOCTEST_PRINTF_COLORED(loc, Color::LightGrey); String forDebugConsole; if(tc.m_description) { DOCTEST_PRINTF_COLORED(d1, Color::Yellow); DOCTEST_PRINTF_COLORED(d2, Color::None); forDebugConsole += d1; forDebugConsole += d2; } if(tc.m_test_suite[0] != '\0') { DOCTEST_PRINTF_COLORED(ts1, Color::Yellow); DOCTEST_PRINTF_COLORED(ts2, Color::None); forDebugConsole += ts1; forDebugConsole += ts2; } DOCTEST_PRINTF_COLORED(n1, Color::Yellow); DOCTEST_PRINTF_COLORED(n2, Color::None); String subcaseStuff; std::vector<Subcase>& subcasesStack = contextState->subcasesStack; for(unsigned i = 0; i < subcasesStack.size(); ++i) { if(subcasesStack[i].m_signature.m_name[0] != '\0') { char subcase[DOCTEST_SNPRINTF_BUFFER_LENGTH]; DOCTEST_SNPRINTF(subcase, DOCTEST_COUNTOF(loc), " %s\n", subcasesStack[i].m_signature.m_name); DOCTEST_PRINTF_COLORED(subcase, Color::None); subcaseStuff += subcase; } } DOCTEST_PRINTF_COLORED("\n", Color::None); printToDebugConsole(String(getSeparator()) + loc + forDebugConsole.c_str() + n1 + n2 + subcaseStuff.c_str() + "\n"); } void logTestEnd() {} void logTestException(const String& what, bool crash) { char msg[DOCTEST_SNPRINTF_BUFFER_LENGTH]; DOCTEST_SNPRINTF(msg, DOCTEST_COUNTOF(msg), "TEST CASE FAILED!\n"); char info1[DOCTEST_SNPRINTF_BUFFER_LENGTH]; char info2[DOCTEST_SNPRINTF_BUFFER_LENGTH]; info1[0] = 0; info2[0] = 0; DOCTEST_SNPRINTF(info1, DOCTEST_COUNTOF(info1), crash ? "crashed:\n" : "threw exception:\n"); DOCTEST_SNPRINTF(info2, DOCTEST_COUNTOF(info2), " %s\n", what.c_str()); std::string contextStr; if(!contextState->exceptionalContexts.empty()) { contextStr += "with context:\n"; for(size_t i = contextState->exceptionalContexts.size(); i > 0; --i) { contextStr += " "; contextStr += contextState->exceptionalContexts[i - 1]; contextStr += "\n"; } } DOCTEST_PRINTF_COLORED(msg, Color::Red); DOCTEST_PRINTF_COLORED(info1, Color::None); DOCTEST_PRINTF_COLORED(info2, Color::Cyan); DOCTEST_PRINTF_COLORED(contextStr.c_str(), Color::None); DOCTEST_PRINTF_COLORED("\n", Color::None); printToDebugConsole(String(msg) + info1 + info2 + contextStr.c_str() + "\n"); } String logContext() { std::ostringstream stream; std::vector<IContextScope*>& contexts = contextState->contexts; if(!contexts.empty()) stream << "with context:\n"; for(size_t i = 0; i < contexts.size(); ++i) { stream << " "; contexts[i]->build(&stream); stream << "\n"; } return stream.str().c_str(); } const char* getFailString(assertType::Enum assert_type) { if(assert_type & assertType::is_warn) //!OCLINT bitwise operator in conditional return "WARNING"; if(assert_type & assertType::is_check) //!OCLINT bitwise operator in conditional return "ERROR"; if(assert_type & assertType::is_require) //!OCLINT bitwise operator in conditional return "FATAL ERROR"; return ""; } void logAssert(bool passed, const char* decomposition, bool threw, const String& exception, const char* expr, assertType::Enum assert_type, const char* file, int line) { char loc[DOCTEST_SNPRINTF_BUFFER_LENGTH]; DOCTEST_SNPRINTF(loc, DOCTEST_COUNTOF(loc), "%s(%d)", fileForOutput(file), lineForOutput(line)); char msg[DOCTEST_SNPRINTF_BUFFER_LENGTH]; DOCTEST_SNPRINTF(msg, DOCTEST_COUNTOF(msg), " %s!\n", passed ? "PASSED" : getFailString(assert_type)); char info1[DOCTEST_SNPRINTF_BUFFER_LENGTH]; DOCTEST_SNPRINTF(info1, DOCTEST_COUNTOF(info1), " %s( %s )\n", getAssertString(assert_type), expr); char info2[DOCTEST_SNPRINTF_BUFFER_LENGTH]; char info3[DOCTEST_SNPRINTF_BUFFER_LENGTH]; info2[0] = 0; info3[0] = 0; if(threw) { DOCTEST_SNPRINTF(info2, DOCTEST_COUNTOF(info2), "threw exception:\n"); DOCTEST_SNPRINTF(info3, DOCTEST_COUNTOF(info3), " %s\n", exception.c_str()); } else { DOCTEST_SNPRINTF(info2, DOCTEST_COUNTOF(info2), "with expansion:\n"); DOCTEST_SNPRINTF(info3, DOCTEST_COUNTOF(info3), " %s( %s )\n", getAssertString(assert_type), decomposition); } bool isWarn = assert_type & assertType::is_warn; DOCTEST_PRINTF_COLORED(loc, Color::LightGrey); DOCTEST_PRINTF_COLORED(msg, passed ? Color::BrightGreen : isWarn ? Color::Yellow : Color::Red); DOCTEST_PRINTF_COLORED(info1, Color::Cyan); DOCTEST_PRINTF_COLORED(info2, Color::None); DOCTEST_PRINTF_COLORED(info3, Color::Cyan); String context = logContext(); DOCTEST_PRINTF_COLORED(context.c_str(), Color::None); DOCTEST_PRINTF_COLORED("\n", Color::None); printToDebugConsole(String(loc) + msg + info1 + info2 + info3 + context.c_str() + "\n"); } void logAssertThrows(bool threw, const char* expr, assertType::Enum assert_type, const char* file, int line) { char loc[DOCTEST_SNPRINTF_BUFFER_LENGTH]; DOCTEST_SNPRINTF(loc, DOCTEST_COUNTOF(loc), "%s(%d)", fileForOutput(file), lineForOutput(line)); char msg[DOCTEST_SNPRINTF_BUFFER_LENGTH]; DOCTEST_SNPRINTF(msg, DOCTEST_COUNTOF(msg), " %s!\n", threw ? "PASSED" : getFailString(assert_type)); char info1[DOCTEST_SNPRINTF_BUFFER_LENGTH]; DOCTEST_SNPRINTF(info1, DOCTEST_COUNTOF(info1), " %s( %s )\n", getAssertString(assert_type), expr); char info2[DOCTEST_SNPRINTF_BUFFER_LENGTH]; info2[0] = 0; if(!threw) DOCTEST_SNPRINTF(info2, DOCTEST_COUNTOF(info2), "didn't throw at all\n"); bool isWarn = assert_type & assertType::is_warn; DOCTEST_PRINTF_COLORED(loc, Color::LightGrey); DOCTEST_PRINTF_COLORED(msg, threw ? Color::BrightGreen : isWarn ? Color::Yellow : Color::Red); DOCTEST_PRINTF_COLORED(info1, Color::Cyan); DOCTEST_PRINTF_COLORED(info2, Color::None); String context = logContext(); DOCTEST_PRINTF_COLORED(context.c_str(), Color::None); DOCTEST_PRINTF_COLORED("\n", Color::None); printToDebugConsole(String(loc) + msg + info1 + info2 + context.c_str() + "\n"); } void logAssertThrowsAs(bool threw, bool threw_as, const char* as, const String& exception, const char* expr, assertType::Enum assert_type, const char* file, int line) { char loc[DOCTEST_SNPRINTF_BUFFER_LENGTH]; DOCTEST_SNPRINTF(loc, DOCTEST_COUNTOF(loc), "%s(%d)", fileForOutput(file), lineForOutput(line)); char msg[DOCTEST_SNPRINTF_BUFFER_LENGTH]; DOCTEST_SNPRINTF(msg, DOCTEST_COUNTOF(msg), " %s!\n", threw_as ? "PASSED" : getFailString(assert_type)); char info1[DOCTEST_SNPRINTF_BUFFER_LENGTH]; DOCTEST_SNPRINTF(info1, DOCTEST_COUNTOF(info1), " %s( %s, %s )\n", getAssertString(assert_type), expr, as); char info2[DOCTEST_SNPRINTF_BUFFER_LENGTH]; char info3[DOCTEST_SNPRINTF_BUFFER_LENGTH]; info2[0] = 0; info3[0] = 0; if(!threw) { //!OCLINT inverted logic DOCTEST_SNPRINTF(info2, DOCTEST_COUNTOF(info2), "didn't throw at all\n"); } else if(!threw_as) { DOCTEST_SNPRINTF(info2, DOCTEST_COUNTOF(info2), "threw a different exception:\n"); DOCTEST_SNPRINTF(info3, DOCTEST_COUNTOF(info3), " %s\n", exception.c_str()); } bool isWarn = assert_type & assertType::is_warn; DOCTEST_PRINTF_COLORED(loc, Color::LightGrey); DOCTEST_PRINTF_COLORED(msg, threw_as ? Color::BrightGreen : isWarn ? Color::Yellow : Color::Red); DOCTEST_PRINTF_COLORED(info1, Color::Cyan); DOCTEST_PRINTF_COLORED(info2, Color::None); DOCTEST_PRINTF_COLORED(info3, Color::Cyan); String context = logContext(); DOCTEST_PRINTF_COLORED(context.c_str(), Color::None); DOCTEST_PRINTF_COLORED("\n", Color::None); printToDebugConsole(String(loc) + msg + info1 + info2 + info3 + context.c_str() + "\n"); } void logAssertNothrow(bool threw, const String& exception, const char* expr, assertType::Enum assert_type, const char* file, int line) { char loc[DOCTEST_SNPRINTF_BUFFER_LENGTH]; DOCTEST_SNPRINTF(loc, DOCTEST_COUNTOF(loc), "%s(%d)", fileForOutput(file), lineForOutput(line)); char msg[DOCTEST_SNPRINTF_BUFFER_LENGTH]; DOCTEST_SNPRINTF(msg, DOCTEST_COUNTOF(msg), " %s!\n", threw ? getFailString(assert_type) : "PASSED"); char info1[DOCTEST_SNPRINTF_BUFFER_LENGTH]; DOCTEST_SNPRINTF(info1, DOCTEST_COUNTOF(info1), " %s( %s )\n", getAssertString(assert_type), expr); char info2[DOCTEST_SNPRINTF_BUFFER_LENGTH]; char info3[DOCTEST_SNPRINTF_BUFFER_LENGTH]; info2[0] = 0; info3[0] = 0; if(threw) { DOCTEST_SNPRINTF(info2, DOCTEST_COUNTOF(info2), "threw exception:\n"); DOCTEST_SNPRINTF(info3, DOCTEST_COUNTOF(info3), " %s\n", exception.c_str()); } bool isWarn = assert_type & assertType::is_warn; DOCTEST_PRINTF_COLORED(loc, Color::LightGrey); DOCTEST_PRINTF_COLORED(msg, threw ? isWarn ? Color::Yellow : Color::Red : Color::BrightGreen); DOCTEST_PRINTF_COLORED(info1, Color::Cyan); DOCTEST_PRINTF_COLORED(info2, Color::None); DOCTEST_PRINTF_COLORED(info3, Color::Cyan); String context = logContext(); DOCTEST_PRINTF_COLORED(context.c_str(), Color::None); DOCTEST_PRINTF_COLORED("\n", Color::None); printToDebugConsole(String(loc) + msg + info1 + info2 + info3 + context.c_str() + "\n"); } ResultBuilder::ResultBuilder(assertType::Enum assert_type, const char* file, int line, const char* expr, const char* exception_type) : m_assert_type(assert_type) , m_file(file) , m_line(line) , m_expr(expr) , m_exception_type(exception_type) , m_threw(false) , m_threw_as(false) , m_failed(false) { #ifdef _MSC_VER if(m_expr[0] == ' ') // this happens when variadic macros are disabled under MSVC ++m_expr; #endif // _MSC_VER } ResultBuilder::~ResultBuilder() {} void ResultBuilder::unexpectedExceptionOccurred() { m_threw = true; m_exception = translateActiveException(); } bool ResultBuilder::log() { if((m_assert_type & assertType::is_warn) == 0) //!OCLINT bitwise operator in conditional contextState->numAssertionsForCurrentTestcase++; if(m_assert_type & assertType::is_throws) { //!OCLINT bitwise operator in conditional m_failed = !m_threw; } else if(m_assert_type & //!OCLINT bitwise operator in conditional assertType::is_throws_as) { m_failed = !m_threw_as; } else if(m_assert_type & //!OCLINT bitwise operator in conditional assertType::is_nothrow) { m_failed = m_threw; } else { m_failed = m_result; } if(m_failed || contextState->success) { DOCTEST_LOG_START(); if(m_assert_type & assertType::is_throws) { //!OCLINT bitwise operator in conditional logAssertThrows(m_threw, m_expr, m_assert_type, m_file, m_line); } else if(m_assert_type & //!OCLINT bitwise operator in conditional assertType::is_throws_as) { logAssertThrowsAs(m_threw, m_threw_as, m_exception_type, m_exception, m_expr, m_assert_type, m_file, m_line); } else if(m_assert_type & //!OCLINT bitwise operator in conditional assertType::is_nothrow) { logAssertNothrow(m_threw, m_exception, m_expr, m_assert_type, m_file, m_line); } else { logAssert(m_result.m_passed, m_result.m_decomposition.c_str(), m_threw, m_exception, m_expr, m_assert_type, m_file, m_line); } } if(m_failed) addFailedAssert(m_assert_type); return m_failed && isDebuggerActive() && !contextState->no_breaks; // break into debugger } void ResultBuilder::react() const { if(m_failed && checkIfShouldThrow(m_assert_type)) throwException(); } MessageBuilder::MessageBuilder(const char* file, int line, doctest::detail::assertType::Enum severity) : m_stream(createStream()) , m_file(file) , m_line(line) , m_severity(severity) {} bool MessageBuilder::log() { DOCTEST_LOG_START(); bool is_warn = m_severity & doctest::detail::assertType::is_warn; // warn is just a message in this context so we dont treat it as an assert if(!is_warn) { contextState->numAssertionsForCurrentTestcase++; addFailedAssert(m_severity); } char loc[DOCTEST_SNPRINTF_BUFFER_LENGTH]; DOCTEST_SNPRINTF(loc, DOCTEST_COUNTOF(loc), "%s(%d)", fileForOutput(m_file), lineForOutput(m_line)); char msg[DOCTEST_SNPRINTF_BUFFER_LENGTH]; DOCTEST_SNPRINTF(msg, DOCTEST_COUNTOF(msg), " %s!\n", is_warn ? "MESSAGE" : getFailString(m_severity)); DOCTEST_PRINTF_COLORED(loc, Color::LightGrey); DOCTEST_PRINTF_COLORED(msg, is_warn ? Color::Yellow : Color::Red); String info = getStreamResult(m_stream); if(info.size()) { DOCTEST_PRINTF_COLORED(" ", Color::None); DOCTEST_PRINTF_COLORED(info.c_str(), Color::None); DOCTEST_PRINTF_COLORED("\n", Color::None); } String context = logContext(); DOCTEST_PRINTF_COLORED(context.c_str(), Color::None); DOCTEST_PRINTF_COLORED("\n", Color::None); printToDebugConsole(String(loc) + msg + " " + info.c_str() + "\n" + context.c_str() + "\n"); return isDebuggerActive() && !contextState->no_breaks && !is_warn; // break into debugger } void MessageBuilder::react() { if(m_severity & assertType::is_require) //!OCLINT bitwise operator in conditional throwException(); } MessageBuilder::~MessageBuilder() { freeStream(m_stream); } // the implementation of parseFlag() bool parseFlagImpl(int argc, const char* const* argv, const char* pattern) { for(int i = argc - 1; i >= 0; --i) { const char* temp = std::strstr(argv[i], pattern); if(temp && my_strlen(temp) == my_strlen(pattern)) { // eliminate strings in which the chars before the option are not '-' bool noBadCharsFound = true; //!OCLINT prefer early exits and continue while(temp != argv[i]) { if(*--temp != '-') { noBadCharsFound = false; break; } } if(noBadCharsFound && argv[i][0] == '-') return true; } } return false; } // locates a flag on the command line bool parseFlag(int argc, const char* const* argv, const char* pattern) { #ifndef DOCTEST_CONFIG_NO_UNPREFIXED_OPTIONS if(!parseFlagImpl(argc, argv, pattern)) return parseFlagImpl(argc, argv, pattern + 3); // 3 for "dt-" return true; #else // DOCTEST_CONFIG_NO_UNPREFIXED_OPTIONS return parseFlagImpl(argc, argv, pattern); #endif // DOCTEST_CONFIG_NO_UNPREFIXED_OPTIONS } // the implementation of parseOption() bool parseOptionImpl(int argc, const char* const* argv, const char* pattern, String& res) { for(int i = argc - 1; i >= 0; --i) { const char* temp = std::strstr(argv[i], pattern); if(temp) { //!OCLINT prefer early exits and continue // eliminate matches in which the chars before the option are not '-' bool noBadCharsFound = true; const char* curr = argv[i]; while(curr != temp) { if(*curr++ != '-') { noBadCharsFound = false; break; } } if(noBadCharsFound && argv[i][0] == '-') { temp += my_strlen(pattern); unsigned len = my_strlen(temp); if(len) { res = temp; return true; } } } } return false; } // parses an option and returns the string after the '=' character bool parseOption(int argc, const char* const* argv, const char* pattern, String& res, const String& defaultVal = String()) { res = defaultVal; #ifndef DOCTEST_CONFIG_NO_UNPREFIXED_OPTIONS if(!parseOptionImpl(argc, argv, pattern, res)) return parseOptionImpl(argc, argv, pattern + 3, res); // 3 for "dt-" return true; #else // DOCTEST_CONFIG_NO_UNPREFIXED_OPTIONS return parseOptionImpl(argc, argv, pattern, res); #endif // DOCTEST_CONFIG_NO_UNPREFIXED_OPTIONS } // parses a comma separated list of words after a pattern in one of the arguments in argv bool parseCommaSepArgs(int argc, const char* const* argv, const char* pattern, std::vector<String>& res) { String filtersString; if(parseOption(argc, argv, pattern, filtersString)) { // tokenize with "," as a separator // cppcheck-suppress strtokCalled char* pch = std::strtok(filtersString.c_str(), ","); // modifies the string while(pch != 0) { if(my_strlen(pch)) res.push_back(pch); // uses the strtok() internal state to go to the next token // cppcheck-suppress strtokCalled pch = std::strtok(0, ","); } return true; } return false; } enum optionType { option_bool, option_int }; // parses an int/bool option from the command line bool parseIntOption(int argc, const char* const* argv, const char* pattern, optionType type, int& res) { String parsedValue; if(!parseOption(argc, argv, pattern, parsedValue)) return false; if(type == 0) { // boolean const char positive[][5] = {"1", "true", "on", "yes"}; // 5 - strlen("true") + 1 const char negative[][6] = {"0", "false", "off", "no"}; // 6 - strlen("false") + 1 // if the value matches any of the positive/negative possibilities for(unsigned i = 0; i < 4; i++) { if(parsedValue.compare(positive[i], true) == 0) { res = 1; //!OCLINT parameter reassignment return true; } if(parsedValue.compare(negative[i], true) == 0) { res = 0; //!OCLINT parameter reassignment return true; } } } else { // integer int theInt = std::atoi(parsedValue.c_str()); // NOLINT if(theInt != 0) { res = theInt; //!OCLINT parameter reassignment return true; } } return false; } void printVersion() { if(contextState->no_version == false) { DOCTEST_PRINTF_COLORED("[doctest] ", Color::Cyan); std::printf("doctest version is \"%s\"\n", DOCTEST_VERSION_STR); } } void printHelp() { printVersion(); // clang-format off DOCTEST_PRINTF_COLORED("[doctest]\n", Color::Cyan); DOCTEST_PRINTF_COLORED("[doctest] ", Color::Cyan); std::printf("boolean values: \"1/on/yes/true\" or \"0/off/no/false\"\n"); DOCTEST_PRINTF_COLORED("[doctest] ", Color::Cyan); std::printf("filter values: \"str1,str2,str3\" (comma separated strings)\n"); DOCTEST_PRINTF_COLORED("[doctest]\n", Color::Cyan); DOCTEST_PRINTF_COLORED("[doctest] ", Color::Cyan); std::printf("filters use wildcards for matching strings\n"); DOCTEST_PRINTF_COLORED("[doctest] ", Color::Cyan); std::printf("something passes a filter if any of the strings in a filter matches\n"); DOCTEST_PRINTF_COLORED("[doctest]\n", Color::Cyan); DOCTEST_PRINTF_COLORED("[doctest] ", Color::Cyan); std::printf("ALL FLAGS, OPTIONS AND FILTERS ALSO AVAILABLE WITH A \"dt-\" PREFIX!!!\n"); DOCTEST_PRINTF_COLORED("[doctest]\n", Color::Cyan); DOCTEST_PRINTF_COLORED("[doctest] ", Color::Cyan); std::printf("Query flags - the program quits after them. Available:\n\n"); std::printf(" -?, --help, -h prints this message\n"); std::printf(" -v, --version prints the version\n"); std::printf(" -c, --count prints the number of matching tests\n"); std::printf(" -ltc, --list-test-cases lists all matching tests by name\n"); std::printf(" -lts, --list-test-suites lists all matching test suites\n\n"); // ========================================================================================= << 79 DOCTEST_PRINTF_COLORED("[doctest] ", Color::Cyan); std::printf("The available <int>/<string> options/filters are:\n\n"); std::printf(" -tc, --test-case=<filters> filters tests by their name\n"); std::printf(" -tce, --test-case-exclude=<filters> filters OUT tests by their name\n"); std::printf(" -sf, --source-file=<filters> filters tests by their file\n"); std::printf(" -sfe, --source-file-exclude=<filters> filters OUT tests by their file\n"); std::printf(" -ts, --test-suite=<filters> filters tests by their test suite\n"); std::printf(" -tse, --test-suite-exclude=<filters> filters OUT tests by their test suite\n"); std::printf(" -sc, --subcase=<filters> filters subcases by their name\n"); std::printf(" -sce, --subcase-exclude=<filters> filters OUT subcases by their name\n"); std::printf(" -ob, --order-by=<string> how the tests should be ordered\n"); std::printf(" <string> - by [file/suite/name/rand]\n"); std::printf(" -rs, --rand-seed=<int> seed for random ordering\n"); std::printf(" -f, --first=<int> the first test passing the filters to\n"); std::printf(" execute - for range-based execution\n"); std::printf(" -l, --last=<int> the last test passing the filters to\n"); std::printf(" execute - for range-based execution\n"); std::printf(" -aa, --abort-after=<int> stop after <int> failed assertions\n"); std::printf(" -scfl,--subcase-filter-levels=<int> apply filters for the first <int> levels\n"); DOCTEST_PRINTF_COLORED("\n[doctest] ", Color::Cyan); std::printf("Bool options - can be used like flags and true is assumed. Available:\n\n"); std::printf(" -s, --success=<bool> include successful assertions in output\n"); std::printf(" -cs, --case-sensitive=<bool> filters being treated as case sensitive\n"); std::printf(" -e, --exit=<bool> exits after the tests finish\n"); std::printf(" -d, --duration=<bool> prints the time duration of each test\n"); std::printf(" -nt, --no-throw=<bool> skips exceptions-related assert checks\n"); std::printf(" -ne, --no-exitcode=<bool> returns (or exits) always with success\n"); std::printf(" -nr, --no-run=<bool> skips all runtime doctest operations\n"); std::printf(" -nv, --no-version=<bool> omit the framework version in the output\n"); std::printf(" -nc, --no-colors=<bool> disables colors in output\n"); std::printf(" -fc, --force-colors=<bool> use colors even when not in a tty\n"); std::printf(" -nb, --no-breaks=<bool> disables breakpoints in debuggers\n"); std::printf(" -ns, --no-skip=<bool> don't skip test cases marked as skip\n"); std::printf(" -npf, --no-path-filenames=<bool> only filenames and no paths in output\n"); std::printf(" -nln, --no-line-numbers=<bool> 0 instead of real line numbers in output\n"); // ========================================================================================= << 79 // clang-format on DOCTEST_PRINTF_COLORED("\n[doctest] ", Color::Cyan); std::printf("for more information visit the project documentation\n\n"); } void printSummary() { const ContextState* p = contextState; DOCTEST_PRINTF_COLORED(getSeparator(), Color::Yellow); if(p->count || p->list_test_cases) { DOCTEST_PRINTF_COLORED("[doctest] ", Color::Cyan); std::printf("unskipped test cases passing the current filters: %u\n", p->numTestsPassingFilters); } else if(p->list_test_suites) { DOCTEST_PRINTF_COLORED("[doctest] ", Color::Cyan); std::printf("unskipped test cases passing the current filters: %u\n", p->numTestsPassingFilters); DOCTEST_PRINTF_COLORED("[doctest] ", Color::Cyan); std::printf("test suites with unskipped test cases passing the current filters: %u\n", p->numTestSuitesPassingFilters); } else { bool anythingFailed = p->numFailed > 0 || p->numFailedAssertions > 0; char buff[DOCTEST_SNPRINTF_BUFFER_LENGTH]; DOCTEST_PRINTF_COLORED("[doctest] ", Color::Cyan); DOCTEST_SNPRINTF(buff, DOCTEST_COUNTOF(buff), "test cases: %6u", p->numTestsPassingFilters); DOCTEST_PRINTF_COLORED(buff, Color::None); DOCTEST_SNPRINTF(buff, DOCTEST_COUNTOF(buff), " | "); DOCTEST_PRINTF_COLORED(buff, Color::None); DOCTEST_SNPRINTF(buff, DOCTEST_COUNTOF(buff), "%6d passed", p->numTestsPassingFilters - p->numFailed); DOCTEST_PRINTF_COLORED(buff, (p->numTestsPassingFilters == 0 || anythingFailed) ? Color::None : Color::Green); DOCTEST_SNPRINTF(buff, DOCTEST_COUNTOF(buff), " | "); DOCTEST_PRINTF_COLORED(buff, Color::None); DOCTEST_SNPRINTF(buff, DOCTEST_COUNTOF(buff), "%6u failed", p->numFailed); DOCTEST_PRINTF_COLORED(buff, p->numFailed > 0 ? Color::Red : Color::None); DOCTEST_SNPRINTF(buff, DOCTEST_COUNTOF(buff), " | "); DOCTEST_PRINTF_COLORED(buff, Color::None); if(p->no_skipped_summary == false) { int numSkipped = static_cast<unsigned>(getRegisteredTests().size()) - p->numTestsPassingFilters; DOCTEST_SNPRINTF(buff, DOCTEST_COUNTOF(buff), "%6d skipped", numSkipped); DOCTEST_PRINTF_COLORED(buff, numSkipped == 0 ? Color::None : Color::Yellow); } DOCTEST_PRINTF_COLORED("\n", Color::None); DOCTEST_PRINTF_COLORED("[doctest] ", Color::Cyan); DOCTEST_SNPRINTF(buff, DOCTEST_COUNTOF(buff), "assertions: %6d", p->numAssertions); DOCTEST_PRINTF_COLORED(buff, Color::None); DOCTEST_SNPRINTF(buff, DOCTEST_COUNTOF(buff), " | "); DOCTEST_PRINTF_COLORED(buff, Color::None); DOCTEST_SNPRINTF(buff, DOCTEST_COUNTOF(buff), "%6d passed", p->numAssertions - p->numFailedAssertions); DOCTEST_PRINTF_COLORED( buff, (p->numAssertions == 0 || anythingFailed) ? Color::None : Color::Green); DOCTEST_SNPRINTF(buff, DOCTEST_COUNTOF(buff), " | "); DOCTEST_PRINTF_COLORED(buff, Color::None); DOCTEST_SNPRINTF(buff, DOCTEST_COUNTOF(buff), "%6d failed", p->numFailedAssertions); DOCTEST_PRINTF_COLORED(buff, p->numFailedAssertions > 0 ? Color::Red : Color::None); DOCTEST_SNPRINTF(buff, DOCTEST_COUNTOF(buff), " |\n"); DOCTEST_PRINTF_COLORED(buff, Color::None); DOCTEST_PRINTF_COLORED("[doctest] ", Color::Cyan); DOCTEST_PRINTF_COLORED("Status: ", Color::None); const char* result = (p->numFailed > 0) ? "FAILURE!\n" : "SUCCESS!\n"; DOCTEST_PRINTF_COLORED(result, p->numFailed > 0 ? Color::Red : Color::Green); } // remove any coloring DOCTEST_PRINTF_COLORED("", Color::None); } } // namespace detail bool isRunningInTest() { return detail::contextState != 0; } Context::Context(int argc, const char* const* argv) : p(new detail::ContextState) { parseArgs(argc, argv, true); } Context::~Context() { delete p; } void Context::applyCommandLine(int argc, const char* const* argv) { parseArgs(argc, argv); } // parses args void Context::parseArgs(int argc, const char* const* argv, bool withDefaults) { using namespace detail; // clang-format off parseCommaSepArgs(argc, argv, "dt-source-file=", p->filters[0]); parseCommaSepArgs(argc, argv, "dt-sf=", p->filters[0]); parseCommaSepArgs(argc, argv, "dt-source-file-exclude=",p->filters[1]); parseCommaSepArgs(argc, argv, "dt-sfe=", p->filters[1]); parseCommaSepArgs(argc, argv, "dt-test-suite=", p->filters[2]); parseCommaSepArgs(argc, argv, "dt-ts=", p->filters[2]); parseCommaSepArgs(argc, argv, "dt-test-suite-exclude=", p->filters[3]); parseCommaSepArgs(argc, argv, "dt-tse=", p->filters[3]); parseCommaSepArgs(argc, argv, "dt-test-case=", p->filters[4]); parseCommaSepArgs(argc, argv, "dt-tc=", p->filters[4]); parseCommaSepArgs(argc, argv, "dt-test-case-exclude=", p->filters[5]); parseCommaSepArgs(argc, argv, "dt-tce=", p->filters[5]); parseCommaSepArgs(argc, argv, "dt-subcase=", p->filters[6]); parseCommaSepArgs(argc, argv, "dt-sc=", p->filters[6]); parseCommaSepArgs(argc, argv, "dt-subcase-exclude=", p->filters[7]); parseCommaSepArgs(argc, argv, "dt-sce=", p->filters[7]); // clang-format on int intRes = 0; String strRes; #define DOCTEST_PARSE_AS_BOOL_OR_FLAG(name, sname, var, default) \ if(parseIntOption(argc, argv, DOCTEST_STR_CONCAT_TOSTR(name, =), option_bool, intRes) || \ parseIntOption(argc, argv, DOCTEST_STR_CONCAT_TOSTR(sname, =), option_bool, intRes)) \ p->var = !!intRes; \ else if(parseFlag(argc, argv, #name) || parseFlag(argc, argv, #sname)) \ p->var = true; \ else if(withDefaults) \ p->var = default #define DOCTEST_PARSE_INT_OPTION(name, sname, var, default) \ if(parseIntOption(argc, argv, DOCTEST_STR_CONCAT_TOSTR(name, =), option_int, intRes) || \ parseIntOption(argc, argv, DOCTEST_STR_CONCAT_TOSTR(sname, =), option_int, intRes)) \ p->var = intRes; \ else if(withDefaults) \ p->var = default #define DOCTEST_PARSE_STR_OPTION(name, sname, var, default) \ if(parseOption(argc, argv, DOCTEST_STR_CONCAT_TOSTR(name, =), strRes, default) || \ parseOption(argc, argv, DOCTEST_STR_CONCAT_TOSTR(sname, =), strRes, default) || \ withDefaults) \ p->var = strRes // clang-format off DOCTEST_PARSE_STR_OPTION(dt-order-by, dt-ob, order_by, "file"); DOCTEST_PARSE_INT_OPTION(dt-rand-seed, dt-rs, rand_seed, 0); DOCTEST_PARSE_INT_OPTION(dt-first, dt-f, first, 1); DOCTEST_PARSE_INT_OPTION(dt-last, dt-l, last, 0); DOCTEST_PARSE_INT_OPTION(dt-abort-after, dt-aa, abort_after, 0); DOCTEST_PARSE_INT_OPTION(dt-subcase-filter-levels, dt-scfl, subcase_filter_levels, 2000000000); DOCTEST_PARSE_AS_BOOL_OR_FLAG(dt-success, dt-s, success, false); DOCTEST_PARSE_AS_BOOL_OR_FLAG(dt-case-sensitive, dt-cs, case_sensitive, false); DOCTEST_PARSE_AS_BOOL_OR_FLAG(dt-exit, dt-e, exit, false); DOCTEST_PARSE_AS_BOOL_OR_FLAG(dt-duration, dt-d, duration, false); DOCTEST_PARSE_AS_BOOL_OR_FLAG(dt-no-throw, dt-nt, no_throw, false); DOCTEST_PARSE_AS_BOOL_OR_FLAG(dt-no-exitcode, dt-ne, no_exitcode, false); DOCTEST_PARSE_AS_BOOL_OR_FLAG(dt-no-run, dt-nr, no_run, false); DOCTEST_PARSE_AS_BOOL_OR_FLAG(dt-no-version, dt-nv, no_version, false); DOCTEST_PARSE_AS_BOOL_OR_FLAG(dt-no-colors, dt-nc, no_colors, false); DOCTEST_PARSE_AS_BOOL_OR_FLAG(dt-force-colors, dt-fc, force_colors, false); DOCTEST_PARSE_AS_BOOL_OR_FLAG(dt-no-breaks, dt-nb, no_breaks, false); DOCTEST_PARSE_AS_BOOL_OR_FLAG(dt-no-skip, dt-ns, no_skip, false); DOCTEST_PARSE_AS_BOOL_OR_FLAG(dt-no-path-filenames, dt-npf, no_path_in_filenames, false); DOCTEST_PARSE_AS_BOOL_OR_FLAG(dt-no-line-numbers, dt-nln, no_line_numbers, false); DOCTEST_PARSE_AS_BOOL_OR_FLAG(dt-no-skipped-summary, dt-nss, no_skipped_summary, false); // clang-format on #undef DOCTEST_PARSE_STR_OPTION #undef DOCTEST_PARSE_INT_OPTION #undef DOCTEST_PARSE_AS_BOOL_OR_FLAG if(withDefaults) { p->help = false; p->version = false; p->count = false; p->list_test_cases = false; p->list_test_suites = false; } if(parseFlag(argc, argv, "dt-help") || parseFlag(argc, argv, "dt-h") || parseFlag(argc, argv, "dt-?")) { p->help = true; p->exit = true; } if(parseFlag(argc, argv, "dt-version") || parseFlag(argc, argv, "dt-v")) { p->version = true; p->exit = true; } if(parseFlag(argc, argv, "dt-count") || parseFlag(argc, argv, "dt-c")) { p->count = true; p->exit = true; } if(parseFlag(argc, argv, "dt-list-test-cases") || parseFlag(argc, argv, "dt-ltc")) { p->list_test_cases = true; p->exit = true; } if(parseFlag(argc, argv, "dt-list-test-suites") || parseFlag(argc, argv, "dt-lts")) { p->list_test_suites = true; p->exit = true; } } // allows the user to add procedurally to the filters from the command line void Context::addFilter(const char* filter, const char* value) { setOption(filter, value); } // allows the user to clear all filters from the command line void Context::clearFilters() { for(unsigned i = 0; i < p->filters.size(); ++i) p->filters[i].clear(); } // allows the user to override procedurally the int/bool options from the command line void Context::setOption(const char* option, int value) { setOption(option, toString(value).c_str()); } // allows the user to override procedurally the string options from the command line void Context::setOption(const char* option, const char* value) { String argv = String("-") + option + "=" + value; const char* lvalue = argv.c_str(); parseArgs(1, &lvalue); } // users should query this in their main() and exit the program if true bool Context::shouldExit() { return p->exit; } // the main function that does all the filtering and test running int Context::run() { using namespace detail; Color::init(); contextState = p; p->resetRunData(); // handle version, help and no_run if(p->no_run || p->version || p->help) { if(p->version) printVersion(); if(p->help) printHelp(); contextState = 0; return EXIT_SUCCESS; } printVersion(); DOCTEST_PRINTF_COLORED("[doctest] ", Color::Cyan); std::printf("run with \"--help\" for options\n"); unsigned i = 0; // counter used for loops - here for VC6 std::set<TestCase>& registeredTests = getRegisteredTests(); std::vector<const TestCase*> testArray; for(std::set<TestCase>::iterator it = registeredTests.begin(); it != registeredTests.end(); ++it) testArray.push_back(&(*it)); // sort the collected records if(!testArray.empty()) { if(p->order_by.compare("file", true) == 0) { std::qsort(&testArray[0], testArray.size(), sizeof(TestCase*), fileOrderComparator); } else if(p->order_by.compare("suite", true) == 0) { std::qsort(&testArray[0], testArray.size(), sizeof(TestCase*), suiteOrderComparator); } else if(p->order_by.compare("name", true) == 0) { std::qsort(&testArray[0], testArray.size(), sizeof(TestCase*), nameOrderComparator); } else if(p->order_by.compare("rand", true) == 0) { std::srand(p->rand_seed); // random_shuffle implementation const TestCase** first = &testArray[0]; for(i = testArray.size() - 1; i > 0; --i) { int idxToSwap = std::rand() % (i + 1); // NOLINT const TestCase* temp = first[i]; first[i] = first[idxToSwap]; first[idxToSwap] = temp; } } } if(p->list_test_cases) { DOCTEST_PRINTF_COLORED("[doctest] ", Color::Cyan); std::printf("listing all test case names\n"); DOCTEST_PRINTF_COLORED(getSeparator(), Color::Yellow); } std::set<String> testSuitesPassingFilters; if(p->list_test_suites) { DOCTEST_PRINTF_COLORED("[doctest] ", Color::Cyan); std::printf("listing all test suites\n"); DOCTEST_PRINTF_COLORED(getSeparator(), Color::Yellow); } // invoke the registered functions if they match the filter criteria (or just count them) for(i = 0; i < testArray.size(); i++) { const TestCase& data = *testArray[i]; if(data.m_skip && !p->no_skip) continue; if(!matchesAny(data.m_file, p->filters[0], 1, p->case_sensitive)) continue; if(matchesAny(data.m_file, p->filters[1], 0, p->case_sensitive)) continue; if(!matchesAny(data.m_test_suite, p->filters[2], 1, p->case_sensitive)) continue; if(matchesAny(data.m_test_suite, p->filters[3], 0, p->case_sensitive)) continue; if(!matchesAny(data.m_name, p->filters[4], 1, p->case_sensitive)) continue; if(matchesAny(data.m_name, p->filters[5], 0, p->case_sensitive)) continue; p->numTestsPassingFilters++; // do not execute the test if we are to only count the number of filter passing tests if(p->count) continue; // print the name of the test and don't execute it if(p->list_test_cases) { std::printf("%s\n", data.m_name); continue; } // print the name of the test suite if not done already and don't execute it if(p->list_test_suites) { if((testSuitesPassingFilters.count(data.m_test_suite) == 0) && data.m_test_suite[0] != '\0') { std::printf("%s\n", data.m_test_suite); testSuitesPassingFilters.insert(data.m_test_suite); p->numTestSuitesPassingFilters++; } continue; } // skip the test if it is not in the execution range if((p->last < p->numTestsPassingFilters && p->first <= p->last) || (p->first > p->numTestsPassingFilters)) continue; // execute the test if it passes all the filtering { p->currentTest = &data; bool failed = false; p->hasLoggedCurrentTestStart = false; p->numFailedAssertionsForCurrentTestcase = 0; p->subcasesPassed.clear(); double duration = 0; Timer timer; timer.start(); do { // if the start has been logged from a previous iteration of this loop if(p->hasLoggedCurrentTestStart) logTestEnd(); p->hasLoggedCurrentTestStart = false; // if logging successful tests - force the start log if(p->success) DOCTEST_LOG_START(); // reset the assertion state p->numAssertionsForCurrentTestcase = 0; p->hasCurrentTestFailed = false; // reset some of the fields for subcases (except for the set of fully passed ones) p->subcasesHasSkipped = false; p->subcasesCurrentLevel = 0; p->subcasesEnteredLevels.clear(); // reset stuff for logging with INFO() p->exceptionalContexts.clear(); // execute the test #ifndef DOCTEST_CONFIG_NO_EXCEPTIONS try { #endif // DOCTEST_CONFIG_NO_EXCEPTIONS FatalConditionHandler fatalConditionHandler; // Handle signals data.m_test(); fatalConditionHandler.reset(); if(contextState->hasCurrentTestFailed) failed = true; #ifndef DOCTEST_CONFIG_NO_EXCEPTIONS } catch(const TestFailureException&) { failed = true; } catch(...) { DOCTEST_LOG_START(); logTestException(translateActiveException()); failed = true; } #endif // DOCTEST_CONFIG_NO_EXCEPTIONS p->numAssertions += p->numAssertionsForCurrentTestcase; // exit this loop if enough assertions have failed if(p->abort_after > 0 && p->numFailedAssertions >= p->abort_after) { p->subcasesHasSkipped = false; DOCTEST_PRINTF_COLORED("Aborting - too many failed asserts!\n", Color::Red); } } while(p->subcasesHasSkipped == true); duration = timer.getElapsedSeconds(); if(Approx(p->currentTest->m_timeout).epsilon(DBL_EPSILON) != 0 && Approx(duration).epsilon(DBL_EPSILON) > p->currentTest->m_timeout) { failed = true; DOCTEST_LOG_START(); char msg[DOCTEST_SNPRINTF_BUFFER_LENGTH]; DOCTEST_SNPRINTF(msg, DOCTEST_COUNTOF(msg), "Test case exceeded time limit of %.6f!\n", p->currentTest->m_timeout); DOCTEST_PRINTF_COLORED(msg, Color::Red); } if(p->duration) { char msg[DOCTEST_SNPRINTF_BUFFER_LENGTH]; DOCTEST_SNPRINTF(msg, DOCTEST_COUNTOF(msg), "%.6f s: %s\n", duration, p->currentTest->m_name); DOCTEST_PRINTF_COLORED(msg, Color::None); } if(data.m_should_fail) { DOCTEST_LOG_START(); if(failed) { failed = false; DOCTEST_PRINTF_COLORED("Failed as expected so marking it as not failed\n", Color::Yellow); } else { failed = true; DOCTEST_PRINTF_COLORED("Should have failed but didn't! Marking it as failed!\n", Color::Red); } } else if(failed && data.m_may_fail) { DOCTEST_LOG_START(); failed = false; DOCTEST_PRINTF_COLORED("Allowed to fail so marking it as not failed\n", Color::Yellow); } else if(data.m_expected_failures > 0) { DOCTEST_LOG_START(); char msg[DOCTEST_SNPRINTF_BUFFER_LENGTH]; if(p->numFailedAssertionsForCurrentTestcase == data.m_expected_failures) { failed = false; DOCTEST_SNPRINTF( msg, DOCTEST_COUNTOF(msg), "Failed exactly %d times as expected so marking it as not failed!\n", data.m_expected_failures); DOCTEST_PRINTF_COLORED(msg, Color::Yellow); } else { failed = true; DOCTEST_SNPRINTF(msg, DOCTEST_COUNTOF(msg), "Didn't fail exactly %d times so marking it as failed!\n", data.m_expected_failures); DOCTEST_PRINTF_COLORED(msg, Color::Red); } } if(p->hasLoggedCurrentTestStart) logTestEnd(); if(failed) // if any subcase has failed - the whole test case has failed p->numFailed++; // stop executing tests if enough assertions have failed if(p->abort_after > 0 && p->numFailedAssertions >= p->abort_after) break; } } printSummary(); contextState = 0; if(p->numFailed && !p->no_exitcode) return EXIT_FAILURE; return EXIT_SUCCESS; } } // namespace doctest #endif // DOCTEST_CONFIG_DISABLE #ifdef DOCTEST_CONFIG_IMPLEMENT_WITH_MAIN int main(int argc, char** argv) { return doctest::Context(argc, argv).run(); } #endif // DOCTEST_CONFIG_IMPLEMENT_WITH_MAIN #endif // DOCTEST_LIBRARY_IMPLEMENTATION #endif // DOCTEST_CONFIG_IMPLEMENT #if defined(__clang__) #pragma clang diagnostic pop #endif // __clang__ #if defined(__GNUC__) && !defined(__clang__) #if __GNUC__ > 4 || (__GNUC__ == 4 && __GNUC_MINOR__ > 6) #pragma GCC diagnostic pop #endif // > gcc 4.6 #endif // __GNUC__ #ifdef _MSC_VER #pragma warning(pop) #endif // _MSC_VER