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// Copyright Catch2 Authors
// Distributed under the Boost Software License, Version 1.0.
// (See accompanying file LICENSE_1_0.txt or copy at
// https://www.boost.org/LICENSE_1_0.txt)
// SPDX-License-Identifier: BSL-1.0
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// Catch v3.0.0-preview.4
// Generated: 2022-01-03 23:14:22.246211
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// ----------------------------------------------------------
// This file is an amalgamation of multiple different files.
// You probably shouldn't edit it directly.
// ----------------------------------------------------------
# ifndef CATCH_AMALGAMATED_HPP_INCLUDED
# define CATCH_AMALGAMATED_HPP_INCLUDED
/** \file
* This is a convenience header for Catch2 . It includes * * all * * of Catch2 headers .
*
* Generally the Catch2 users should use specific includes they need ,
* but this header can be used instead for ease - of - experimentation , or
* just plain convenience , at the cost of ( significantly ) increased
* compilation times .
*
* When a new header is added to either the top level folder , or to the
* corresponding internal subfolder , it should be added here . Headers
* added to the various subparts ( e . g . matchers , generators , etc . . . ) ,
* should go their respective catch - all headers .
*/
# ifndef CATCH_ALL_HPP_INCLUDED
# define CATCH_ALL_HPP_INCLUDED
/** \file
* This is a convenience header for Catch2 ' s benchmarking . It includes
* * * all * * of Catch2 headers related to benchmarking .
*
* Generally the Catch2 users should use specific includes they need ,
* but this header can be used instead for ease - of - experimentation , or
* just plain convenience , at the cost of ( significantly ) increased
* compilation times .
*
* When a new header is added to either the ` benchmark ` folder , or to
* the corresponding internal ( detail ) subfolder , it should be added here .
*/
# ifndef CATCH_BENCHMARK_ALL_HPP_INCLUDED
# define CATCH_BENCHMARK_ALL_HPP_INCLUDED
// Adapted from donated nonius code.
# ifndef CATCH_BENCHMARK_HPP_INCLUDED
# define CATCH_BENCHMARK_HPP_INCLUDED
# ifndef CATCH_INTERFACES_CONFIG_HPP_INCLUDED
# define CATCH_INTERFACES_CONFIG_HPP_INCLUDED
# ifndef CATCH_NONCOPYABLE_HPP_INCLUDED
# define CATCH_NONCOPYABLE_HPP_INCLUDED
namespace Catch {
namespace Detail {
//! Deriving classes become noncopyable and nonmovable
class NonCopyable {
NonCopyable ( NonCopyable const & ) = delete ;
NonCopyable ( NonCopyable & & ) = delete ;
NonCopyable & operator = ( NonCopyable const & ) = delete ;
NonCopyable & operator = ( NonCopyable & & ) = delete ;
protected :
NonCopyable ( ) noexcept = default ;
} ;
} // namespace Detail
} // namespace Catch
# endif // CATCH_NONCOPYABLE_HPP_INCLUDED
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# ifndef CATCH_STRINGREF_HPP_INCLUDED
# define CATCH_STRINGREF_HPP_INCLUDED
# include <cstddef>
# include <string>
# include <iosfwd>
# include <cassert>
namespace Catch {
/// A non-owning string class (similar to the forthcoming std::string_view)
/// Note that, because a StringRef may be a substring of another string,
/// it may not be null terminated.
class StringRef {
public :
using size_type = std : : size_t ;
using const_iterator = const char * ;
private :
static constexpr char const * const s_empty = " " ;
char const * m_start = s_empty ;
size_type m_size = 0 ;
public : // construction
constexpr StringRef ( ) noexcept = default ;
StringRef ( char const * rawChars ) noexcept ;
constexpr StringRef ( char const * rawChars , size_type size ) noexcept
: m_start ( rawChars ) ,
m_size ( size )
{ }
StringRef ( std : : string const & stdString ) noexcept
: m_start ( stdString . c_str ( ) ) ,
m_size ( stdString . size ( ) )
{ }
explicit operator std : : string ( ) const {
return std : : string ( m_start , m_size ) ;
}
public : // operators
auto operator = = ( StringRef other ) const noexcept - > bool ;
auto operator ! = ( StringRef other ) const noexcept - > bool {
return ! ( * this = = other ) ;
}
constexpr auto operator [ ] ( size_type index ) const noexcept - > char {
assert ( index < m_size ) ;
return m_start [ index ] ;
}
bool operator < ( StringRef rhs ) const noexcept ;
public : // named queries
constexpr auto empty ( ) const noexcept - > bool {
return m_size = = 0 ;
}
constexpr auto size ( ) const noexcept - > size_type {
return m_size ;
}
// Returns a substring of [start, start + length).
// If start + length > size(), then the substring is [start, start + size()).
// If start > size(), then the substring is empty.
constexpr StringRef substr ( size_type start , size_type length ) const noexcept {
if ( start < m_size ) {
const auto shortened_size = m_size - start ;
return StringRef ( m_start + start , ( shortened_size < length ) ? shortened_size : length ) ;
} else {
return StringRef ( ) ;
}
}
// Returns the current start pointer. May not be null-terminated.
constexpr char const * data ( ) const noexcept {
return m_start ;
}
constexpr const_iterator begin ( ) const { return m_start ; }
constexpr const_iterator end ( ) const { return m_start + m_size ; }
friend std : : string & operator + = ( std : : string & lhs , StringRef sr ) ;
friend std : : ostream & operator < < ( std : : ostream & os , StringRef sr ) ;
friend std : : string operator + ( StringRef lhs , StringRef rhs ) ;
/**
* Provides a three - way comparison with rhs
*
* Returns negative number if lhs < rhs , 0 if lhs = = rhs , and a positive
* number if lhs > rhs
*/
int compare ( StringRef rhs ) const ;
} ;
constexpr auto operator " " _sr ( char const * rawChars , std : : size_t size ) noexcept - > StringRef {
return StringRef ( rawChars , size ) ;
}
} // namespace Catch
constexpr auto operator " " _catch_sr ( char const * rawChars , std : : size_t size ) noexcept - > Catch : : StringRef {
return Catch : : StringRef ( rawChars , size ) ;
}
# endif // CATCH_STRINGREF_HPP_INCLUDED
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# include <chrono>
# include <iosfwd>
# include <string>
# include <vector>
namespace Catch {
enum class Verbosity {
Quiet = 0 ,
Normal ,
High
} ;
struct WarnAbout { enum What {
Nothing = 0x00 ,
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//! A test case or leaf section did not run any assertions
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NoAssertions = 0x01 ,
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//! A command line test spec matched no test cases
UnmatchedTestSpec = 0x02 ,
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} ; } ;
enum class ShowDurations {
DefaultForReporter ,
Always ,
Never
} ;
enum class TestRunOrder {
Declared ,
LexicographicallySorted ,
Randomized
} ;
enum class UseColour {
Auto ,
Yes ,
No
} ;
struct WaitForKeypress { enum When {
Never ,
BeforeStart = 1 ,
BeforeExit = 2 ,
BeforeStartAndExit = BeforeStart | BeforeExit
} ; } ;
class TestSpec ;
struct IConfig : Detail : : NonCopyable {
virtual ~ IConfig ( ) ;
virtual bool allowThrows ( ) const = 0 ;
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virtual std : : ostream & defaultStream ( ) const = 0 ;
virtual StringRef name ( ) const = 0 ;
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virtual bool includeSuccessfulResults ( ) const = 0 ;
virtual bool shouldDebugBreak ( ) const = 0 ;
virtual bool warnAboutMissingAssertions ( ) const = 0 ;
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virtual bool warnAboutUnmatchedTestSpecs ( ) const = 0 ;
virtual bool zeroTestsCountAsSuccess ( ) const = 0 ;
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virtual int abortAfter ( ) const = 0 ;
virtual bool showInvisibles ( ) const = 0 ;
virtual ShowDurations showDurations ( ) const = 0 ;
virtual double minDuration ( ) const = 0 ;
virtual TestSpec const & testSpec ( ) const = 0 ;
virtual bool hasTestFilters ( ) const = 0 ;
virtual std : : vector < std : : string > const & getTestsOrTags ( ) const = 0 ;
virtual TestRunOrder runOrder ( ) const = 0 ;
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virtual uint32_t rngSeed ( ) const = 0 ;
virtual unsigned int shardCount ( ) const = 0 ;
virtual unsigned int shardIndex ( ) const = 0 ;
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virtual UseColour useColour ( ) const = 0 ;
virtual std : : vector < std : : string > const & getSectionsToRun ( ) const = 0 ;
virtual Verbosity verbosity ( ) const = 0 ;
virtual bool benchmarkNoAnalysis ( ) const = 0 ;
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virtual unsigned int benchmarkSamples ( ) const = 0 ;
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virtual double benchmarkConfidenceInterval ( ) const = 0 ;
virtual unsigned int benchmarkResamples ( ) const = 0 ;
virtual std : : chrono : : milliseconds benchmarkWarmupTime ( ) const = 0 ;
} ;
}
# endif // CATCH_INTERFACES_CONFIG_HPP_INCLUDED
# ifndef CATCH_COMPILER_CAPABILITIES_HPP_INCLUDED
# define CATCH_COMPILER_CAPABILITIES_HPP_INCLUDED
// Detect a number of compiler features - by compiler
// The following features are defined:
//
// CATCH_CONFIG_WINDOWS_SEH : is Windows SEH supported?
// CATCH_CONFIG_POSIX_SIGNALS : are POSIX signals supported?
// CATCH_CONFIG_DISABLE_EXCEPTIONS : Are exceptions enabled?
// ****************
// Note to maintainers: if new toggles are added please document them
// in configuration.md, too
// ****************
// In general each macro has a _NO_<feature name> form
// (e.g. CATCH_CONFIG_NO_POSIX_SIGNALS) which disables the feature.
// Many features, at point of detection, define an _INTERNAL_ macro, so they
// can be combined, en-mass, with the _NO_ forms later.
# ifndef CATCH_PLATFORM_HPP_INCLUDED
# define CATCH_PLATFORM_HPP_INCLUDED
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// See e.g.:
// https://opensource.apple.com/source/CarbonHeaders/CarbonHeaders-18.1/TargetConditionals.h.auto.html
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# ifdef __APPLE__
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# include <TargetConditionals.h>
# if (defined(TARGET_OS_OSX) && TARGET_OS_OSX == 1) || \
( defined ( TARGET_OS_MAC ) & & TARGET_OS_MAC = = 1 )
# define CATCH_PLATFORM_MAC
# elif (defined(TARGET_OS_IPHONE) && TARGET_OS_IPHONE == 1)
# define CATCH_PLATFORM_IPHONE
# endif
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# elif defined(linux) || defined(__linux) || defined(__linux__)
# define CATCH_PLATFORM_LINUX
# elif defined(WIN32) || defined(__WIN32__) || defined(_WIN32) || defined(_MSC_VER) || defined(__MINGW32__)
# define CATCH_PLATFORM_WINDOWS
# endif
# endif // CATCH_PLATFORM_HPP_INCLUDED
# ifdef __cplusplus
# if (__cplusplus >= 201402L) || (defined(_MSVC_LANG) && _MSVC_LANG >= 201402L)
# define CATCH_CPP14_OR_GREATER
# endif
# if (__cplusplus >= 201703L) || (defined(_MSVC_LANG) && _MSVC_LANG >= 201703L)
# define CATCH_CPP17_OR_GREATER
# endif
# endif
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// Only GCC compiler should be used in this block, so other compilers trying to
// mask themselves as GCC should be ignored.
# if defined(__GNUC__) && !defined(__clang__) && !defined(__ICC) && !defined(__CUDACC__) && !defined(__LCC__)
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# define CATCH_INTERNAL_START_WARNINGS_SUPPRESSION _Pragma( "GCC diagnostic push" )
# define CATCH_INTERNAL_STOP_WARNINGS_SUPPRESSION _Pragma( "GCC diagnostic pop" )
// This only works on GCC 9+. so we have to also add a global suppression of Wparentheses
// for older versions of GCC.
# define CATCH_INTERNAL_SUPPRESS_PARENTHESES_WARNINGS \
_Pragma ( " GCC diagnostic ignored \" -Wparentheses \" " )
# define CATCH_INTERNAL_SUPPRESS_UNUSED_VARIABLE_WARNINGS \
_Pragma ( " GCC diagnostic ignored \" -Wunused-variable \" " )
# define CATCH_INTERNAL_IGNORE_BUT_WARN(...) (void)__builtin_constant_p(__VA_ARGS__)
# endif
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# if defined(__clang__) && !defined(_MSC_VER)
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# define CATCH_INTERNAL_START_WARNINGS_SUPPRESSION _Pragma( "clang diagnostic push" )
# define CATCH_INTERNAL_STOP_WARNINGS_SUPPRESSION _Pragma( "clang diagnostic pop" )
// As of this writing, IBM XL's implementation of __builtin_constant_p has a bug
// which results in calls to destructors being emitted for each temporary,
// without a matching initialization. In practice, this can result in something
// like `std::string::~string` being called on an uninitialized value.
//
// For example, this code will likely segfault under IBM XL:
// ```
// REQUIRE(std::string("12") + "34" == "1234")
// ```
//
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// Similarly, NVHPC's implementation of `__builtin_constant_p` has a bug which
// results in calls to the immediately evaluated lambda expressions to be
// reported as unevaluated lambdas.
// https://developer.nvidia.com/nvidia_bug/3321845.
//
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// Therefore, `CATCH_INTERNAL_IGNORE_BUT_WARN` is not implemented.
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# if !defined(__ibmxl__) && !defined(__CUDACC__) && !defined( __NVCOMPILER )
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# define CATCH_INTERNAL_IGNORE_BUT_WARN(...) (void)__builtin_constant_p(__VA_ARGS__) /* NOLINT(cppcoreguidelines-pro-type-vararg, hicpp-vararg) */
# endif
# define CATCH_INTERNAL_SUPPRESS_GLOBALS_WARNINGS \
_Pragma ( " clang diagnostic ignored \" -Wexit-time-destructors \" " ) \
_Pragma ( " clang diagnostic ignored \" -Wglobal-constructors \" " )
# define CATCH_INTERNAL_SUPPRESS_PARENTHESES_WARNINGS \
_Pragma ( " clang diagnostic ignored \" -Wparentheses \" " )
# define CATCH_INTERNAL_SUPPRESS_UNUSED_VARIABLE_WARNINGS \
_Pragma ( " clang diagnostic ignored \" -Wunused-variable \" " )
# define CATCH_INTERNAL_SUPPRESS_ZERO_VARIADIC_WARNINGS \
_Pragma ( " clang diagnostic ignored \" -Wgnu-zero-variadic-macro-arguments \" " )
# define CATCH_INTERNAL_SUPPRESS_UNUSED_TEMPLATE_WARNINGS \
_Pragma ( " clang diagnostic ignored \" -Wunused-template \" " )
# endif // __clang__
////////////////////////////////////////////////////////////////////////////////
// Assume that non-Windows platforms support posix signals by default
# if !defined(CATCH_PLATFORM_WINDOWS)
# define CATCH_INTERNAL_CONFIG_POSIX_SIGNALS
# endif
////////////////////////////////////////////////////////////////////////////////
// We know some environments not to support full POSIX signals
# if defined(__CYGWIN__) || defined(__QNX__) || defined(__EMSCRIPTEN__) || defined(__DJGPP__)
# define CATCH_INTERNAL_CONFIG_NO_POSIX_SIGNALS
# endif
# ifdef __OS400__
# define CATCH_INTERNAL_CONFIG_NO_POSIX_SIGNALS
# define CATCH_CONFIG_COLOUR_NONE
# endif
////////////////////////////////////////////////////////////////////////////////
// Android somehow still does not support std::to_string
# if defined(__ANDROID__)
# define CATCH_INTERNAL_CONFIG_NO_CPP11_TO_STRING
# endif
////////////////////////////////////////////////////////////////////////////////
// Not all Windows environments support SEH properly
# if defined(__MINGW32__)
# define CATCH_INTERNAL_CONFIG_NO_WINDOWS_SEH
# endif
////////////////////////////////////////////////////////////////////////////////
// PS4
# if defined(__ORBIS__)
# define CATCH_INTERNAL_CONFIG_NO_NEW_CAPTURE
# endif
////////////////////////////////////////////////////////////////////////////////
// Cygwin
# ifdef __CYGWIN__
// Required for some versions of Cygwin to declare gettimeofday
// see: http://stackoverflow.com/questions/36901803/gettimeofday-not-declared-in-this-scope-cygwin
# define _BSD_SOURCE
// some versions of cygwin (most) do not support std::to_string. Use the libstd check.
// https://gcc.gnu.org/onlinedocs/gcc-4.8.2/libstdc++/api/a01053_source.html line 2812-2813
# if !((__cplusplus >= 201103L) && defined(_GLIBCXX_USE_C99) \
& & ! defined ( _GLIBCXX_HAVE_BROKEN_VSWPRINTF ) )
# define CATCH_INTERNAL_CONFIG_NO_CPP11_TO_STRING
# endif
# endif // __CYGWIN__
////////////////////////////////////////////////////////////////////////////////
// Visual C++
# if defined(_MSC_VER)
# define CATCH_INTERNAL_START_WARNINGS_SUPPRESSION __pragma( warning(push) )
# define CATCH_INTERNAL_STOP_WARNINGS_SUPPRESSION __pragma( warning(pop) )
// Universal Windows platform does not support SEH
// Or console colours (or console at all...)
# if defined(WINAPI_FAMILY) && (WINAPI_FAMILY == WINAPI_FAMILY_APP)
# define CATCH_CONFIG_COLOUR_NONE
# else
# define CATCH_INTERNAL_CONFIG_WINDOWS_SEH
# endif
// MSVC traditional preprocessor needs some workaround for __VA_ARGS__
// _MSVC_TRADITIONAL == 0 means new conformant preprocessor
// _MSVC_TRADITIONAL == 1 means old traditional non-conformant preprocessor
# if !defined(__clang__) // Handle Clang masquerading for msvc
# if !defined(_MSVC_TRADITIONAL) || (defined(_MSVC_TRADITIONAL) && _MSVC_TRADITIONAL)
# define CATCH_INTERNAL_CONFIG_TRADITIONAL_MSVC_PREPROCESSOR
# endif // MSVC_TRADITIONAL
# endif // __clang__
# endif // _MSC_VER
# if defined(_REENTRANT) || defined(_MSC_VER)
// Enable async processing, as -pthread is specified or no additional linking is required
# define CATCH_INTERNAL_CONFIG_USE_ASYNC
# endif // _MSC_VER
////////////////////////////////////////////////////////////////////////////////
// Check if we are compiled with -fno-exceptions or equivalent
# if defined(__EXCEPTIONS) || defined(__cpp_exceptions) || defined(_CPPUNWIND)
# define CATCH_INTERNAL_CONFIG_EXCEPTIONS_ENABLED
# endif
////////////////////////////////////////////////////////////////////////////////
// Embarcadero C++Build
# if defined(__BORLANDC__)
# define CATCH_INTERNAL_CONFIG_POLYFILL_ISNAN
# endif
////////////////////////////////////////////////////////////////////////////////
// RTX is a special version of Windows that is real time.
// This means that it is detected as Windows, but does not provide
// the same set of capabilities as real Windows does.
# if defined(UNDER_RTSS) || defined(RTX64_BUILD)
# define CATCH_INTERNAL_CONFIG_NO_WINDOWS_SEH
# define CATCH_INTERNAL_CONFIG_NO_ASYNC
# define CATCH_CONFIG_COLOUR_NONE
# endif
# if !defined(_GLIBCXX_USE_C99_MATH_TR1)
# define CATCH_INTERNAL_CONFIG_GLOBAL_NEXTAFTER
# endif
// Various stdlib support checks that require __has_include
# if defined(__has_include)
// Check if string_view is available and usable
# if __has_include(<string_view>) && defined(CATCH_CPP17_OR_GREATER)
# define CATCH_INTERNAL_CONFIG_CPP17_STRING_VIEW
# endif
// Check if optional is available and usable
# if __has_include(<optional>) && defined(CATCH_CPP17_OR_GREATER)
# define CATCH_INTERNAL_CONFIG_CPP17_OPTIONAL
# endif // __has_include(<optional>) && defined(CATCH_CPP17_OR_GREATER)
// Check if byte is available and usable
# if __has_include(<cstddef>) && defined(CATCH_CPP17_OR_GREATER)
# include <cstddef>
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# if defined(__cpp_lib_byte) && (__cpp_lib_byte > 0)
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# define CATCH_INTERNAL_CONFIG_CPP17_BYTE
# endif
# endif // __has_include(<cstddef>) && defined(CATCH_CPP17_OR_GREATER)
// Check if variant is available and usable
# if __has_include(<variant>) && defined(CATCH_CPP17_OR_GREATER)
# if defined(__clang__) && (__clang_major__ < 8)
// work around clang bug with libstdc++ https://bugs.llvm.org/show_bug.cgi?id=31852
// fix should be in clang 8, workaround in libstdc++ 8.2
# include <ciso646>
# if defined(__GLIBCXX__) && defined(_GLIBCXX_RELEASE) && (_GLIBCXX_RELEASE < 9)
# define CATCH_CONFIG_NO_CPP17_VARIANT
# else
# define CATCH_INTERNAL_CONFIG_CPP17_VARIANT
# endif // defined(__GLIBCXX__) && defined(_GLIBCXX_RELEASE) && (_GLIBCXX_RELEASE < 9)
# else
# define CATCH_INTERNAL_CONFIG_CPP17_VARIANT
# endif // defined(__clang__) && (__clang_major__ < 8)
# endif // __has_include(<variant>) && defined(CATCH_CPP17_OR_GREATER)
# endif // defined(__has_include)
# if defined(CATCH_INTERNAL_CONFIG_WINDOWS_SEH) && !defined(CATCH_CONFIG_NO_WINDOWS_SEH) && !defined(CATCH_CONFIG_WINDOWS_SEH) && !defined(CATCH_INTERNAL_CONFIG_NO_WINDOWS_SEH)
# define CATCH_CONFIG_WINDOWS_SEH
# endif
// This is set by default, because we assume that unix compilers are posix-signal-compatible by default.
# if defined(CATCH_INTERNAL_CONFIG_POSIX_SIGNALS) && !defined(CATCH_INTERNAL_CONFIG_NO_POSIX_SIGNALS) && !defined(CATCH_CONFIG_NO_POSIX_SIGNALS) && !defined(CATCH_CONFIG_POSIX_SIGNALS)
# define CATCH_CONFIG_POSIX_SIGNALS
# endif
# if !defined(CATCH_INTERNAL_CONFIG_NO_CPP11_TO_STRING) && !defined(CATCH_CONFIG_NO_CPP11_TO_STRING) && !defined(CATCH_CONFIG_CPP11_TO_STRING)
# define CATCH_CONFIG_CPP11_TO_STRING
# endif
# if defined(CATCH_INTERNAL_CONFIG_CPP17_OPTIONAL) && !defined(CATCH_CONFIG_NO_CPP17_OPTIONAL) && !defined(CATCH_CONFIG_CPP17_OPTIONAL)
# define CATCH_CONFIG_CPP17_OPTIONAL
# endif
# if defined(CATCH_INTERNAL_CONFIG_CPP17_STRING_VIEW) && !defined(CATCH_CONFIG_NO_CPP17_STRING_VIEW) && !defined(CATCH_CONFIG_CPP17_STRING_VIEW)
# define CATCH_CONFIG_CPP17_STRING_VIEW
# endif
# if defined(CATCH_INTERNAL_CONFIG_CPP17_VARIANT) && !defined(CATCH_CONFIG_NO_CPP17_VARIANT) && !defined(CATCH_CONFIG_CPP17_VARIANT)
# define CATCH_CONFIG_CPP17_VARIANT
# endif
# if defined(CATCH_INTERNAL_CONFIG_CPP17_BYTE) && !defined(CATCH_CONFIG_NO_CPP17_BYTE) && !defined(CATCH_CONFIG_CPP17_BYTE)
# define CATCH_CONFIG_CPP17_BYTE
# endif
# if defined(CATCH_CONFIG_EXPERIMENTAL_REDIRECT)
# define CATCH_INTERNAL_CONFIG_NEW_CAPTURE
# endif
# if defined(CATCH_INTERNAL_CONFIG_NEW_CAPTURE) && !defined(CATCH_INTERNAL_CONFIG_NO_NEW_CAPTURE) && !defined(CATCH_CONFIG_NO_NEW_CAPTURE) && !defined(CATCH_CONFIG_NEW_CAPTURE)
# define CATCH_CONFIG_NEW_CAPTURE
# endif
# if !defined(CATCH_INTERNAL_CONFIG_EXCEPTIONS_ENABLED) && !defined(CATCH_CONFIG_DISABLE_EXCEPTIONS)
# define CATCH_CONFIG_DISABLE_EXCEPTIONS
# endif
# if defined(CATCH_INTERNAL_CONFIG_POLYFILL_ISNAN) && !defined(CATCH_CONFIG_NO_POLYFILL_ISNAN) && !defined(CATCH_CONFIG_POLYFILL_ISNAN)
# define CATCH_CONFIG_POLYFILL_ISNAN
# endif
# if defined(CATCH_INTERNAL_CONFIG_USE_ASYNC) && !defined(CATCH_INTERNAL_CONFIG_NO_ASYNC) && !defined(CATCH_CONFIG_NO_USE_ASYNC) && !defined(CATCH_CONFIG_USE_ASYNC)
# define CATCH_CONFIG_USE_ASYNC
# endif
# if defined(CATCH_INTERNAL_CONFIG_GLOBAL_NEXTAFTER) && !defined(CATCH_CONFIG_NO_GLOBAL_NEXTAFTER) && !defined(CATCH_CONFIG_GLOBAL_NEXTAFTER)
# define CATCH_CONFIG_GLOBAL_NEXTAFTER
# endif
// Even if we do not think the compiler has that warning, we still have
// to provide a macro that can be used by the code.
# if !defined(CATCH_INTERNAL_START_WARNINGS_SUPPRESSION)
# define CATCH_INTERNAL_START_WARNINGS_SUPPRESSION
# endif
# if !defined(CATCH_INTERNAL_STOP_WARNINGS_SUPPRESSION)
# define CATCH_INTERNAL_STOP_WARNINGS_SUPPRESSION
# endif
# if !defined(CATCH_INTERNAL_SUPPRESS_PARENTHESES_WARNINGS)
# define CATCH_INTERNAL_SUPPRESS_PARENTHESES_WARNINGS
# endif
# if !defined(CATCH_INTERNAL_SUPPRESS_GLOBALS_WARNINGS)
# define CATCH_INTERNAL_SUPPRESS_GLOBALS_WARNINGS
# endif
# if !defined(CATCH_INTERNAL_SUPPRESS_UNUSED_VARIABLE_WARNINGS)
# define CATCH_INTERNAL_SUPPRESS_UNUSED_VARIABLE_WARNINGS
# endif
# if !defined(CATCH_INTERNAL_SUPPRESS_ZERO_VARIADIC_WARNINGS)
# define CATCH_INTERNAL_SUPPRESS_ZERO_VARIADIC_WARNINGS
# endif
// The goal of this macro is to avoid evaluation of the arguments, but
// still have the compiler warn on problems inside...
# if !defined(CATCH_INTERNAL_IGNORE_BUT_WARN)
# define CATCH_INTERNAL_IGNORE_BUT_WARN(...)
# endif
# if defined(__APPLE__) && defined(__apple_build_version__) && (__clang_major__ < 10)
# undef CATCH_INTERNAL_SUPPRESS_UNUSED_TEMPLATE_WARNINGS
# elif defined(__clang__) && (__clang_major__ < 5)
# undef CATCH_INTERNAL_SUPPRESS_UNUSED_TEMPLATE_WARNINGS
# endif
# if !defined(CATCH_INTERNAL_SUPPRESS_UNUSED_TEMPLATE_WARNINGS)
# define CATCH_INTERNAL_SUPPRESS_UNUSED_TEMPLATE_WARNINGS
# endif
# if defined(CATCH_CONFIG_DISABLE_EXCEPTIONS)
# define CATCH_TRY if ((true))
# define CATCH_CATCH_ALL if ((false))
# define CATCH_CATCH_ANON(type) if ((false))
# else
# define CATCH_TRY try
# define CATCH_CATCH_ALL catch (...)
# define CATCH_CATCH_ANON(type) catch (type)
# endif
# if defined(CATCH_INTERNAL_CONFIG_TRADITIONAL_MSVC_PREPROCESSOR) && !defined(CATCH_CONFIG_NO_TRADITIONAL_MSVC_PREPROCESSOR) && !defined(CATCH_CONFIG_TRADITIONAL_MSVC_PREPROCESSOR)
# define CATCH_CONFIG_TRADITIONAL_MSVC_PREPROCESSOR
# endif
# endif // CATCH_COMPILER_CAPABILITIES_HPP_INCLUDED
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# ifndef CATCH_CONTEXT_HPP_INCLUDED
# define CATCH_CONTEXT_HPP_INCLUDED
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namespace Catch {
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struct IResultCapture ;
struct IConfig ;
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struct IContext
{
virtual ~ IContext ( ) ; // = default
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virtual IResultCapture * getResultCapture ( ) = 0 ;
virtual IConfig const * getConfig ( ) const = 0 ;
} ;
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struct IMutableContext : IContext
{
virtual ~ IMutableContext ( ) ; // = default
virtual void setResultCapture ( IResultCapture * resultCapture ) = 0 ;
virtual void setConfig ( IConfig const * config ) = 0 ;
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private :
static IMutableContext * currentContext ;
friend IMutableContext & getCurrentMutableContext ( ) ;
friend void cleanUpContext ( ) ;
static void createContext ( ) ;
} ;
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inline IMutableContext & getCurrentMutableContext ( )
{
if ( ! IMutableContext : : currentContext )
IMutableContext : : createContext ( ) ;
// NOLINTNEXTLINE(clang-analyzer-core.uninitialized.UndefReturn)
return * IMutableContext : : currentContext ;
}
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inline IContext & getCurrentContext ( )
{
return getCurrentMutableContext ( ) ;
}
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void cleanUpContext ( ) ;
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class SimplePcg32 ;
SimplePcg32 & rng ( ) ;
}
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# endif // CATCH_CONTEXT_HPP_INCLUDED
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# ifndef CATCH_INTERFACES_REPORTER_HPP_INCLUDED
# define CATCH_INTERFACES_REPORTER_HPP_INCLUDED
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# ifndef CATCH_SECTION_INFO_HPP_INCLUDED
# define CATCH_SECTION_INFO_HPP_INCLUDED
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# ifndef CATCH_MOVE_AND_FORWARD_HPP_INCLUDED
# define CATCH_MOVE_AND_FORWARD_HPP_INCLUDED
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# include <type_traits>
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//! Replacement for std::move with better compile time performance
# define CATCH_MOVE(...) static_cast<std::remove_reference_t<decltype(__VA_ARGS__)>&&>(__VA_ARGS__)
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//! Replacement for std::forward with better compile time performance
# define CATCH_FORWARD(...) static_cast<decltype(__VA_ARGS__)&&>(__VA_ARGS__)
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# endif // CATCH_MOVE_AND_FORWARD_HPP_INCLUDED
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# ifndef CATCH_SOURCE_LINE_INFO_HPP_INCLUDED
# define CATCH_SOURCE_LINE_INFO_HPP_INCLUDED
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# include <cstddef>
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# include <iosfwd>
namespace Catch {
struct SourceLineInfo {
SourceLineInfo ( ) = delete ;
constexpr SourceLineInfo ( char const * _file , std : : size_t _line ) noexcept :
file ( _file ) ,
line ( _line )
{ }
bool operator = = ( SourceLineInfo const & other ) const noexcept ;
bool operator < ( SourceLineInfo const & other ) const noexcept ;
char const * file ;
std : : size_t line ;
friend std : : ostream & operator < < ( std : : ostream & os , SourceLineInfo const & info ) ;
} ;
}
# define CATCH_INTERNAL_LINEINFO \
: : Catch : : SourceLineInfo ( __FILE__ , static_cast < std : : size_t > ( __LINE__ ) )
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# endif // CATCH_SOURCE_LINE_INFO_HPP_INCLUDED
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# ifndef CATCH_TOTALS_HPP_INCLUDED
# define CATCH_TOTALS_HPP_INCLUDED
# include <cstddef>
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# include <cstdint>
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namespace Catch {
struct Counts {
Counts operator - ( Counts const & other ) const ;
Counts & operator + = ( Counts const & other ) ;
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std : : uint64_t total ( ) const ;
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bool allPassed ( ) const ;
bool allOk ( ) const ;
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std : : uint64_t passed = 0 ;
std : : uint64_t failed = 0 ;
std : : uint64_t failedButOk = 0 ;
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} ;
struct Totals {
Totals operator - ( Totals const & other ) const ;
Totals & operator + = ( Totals const & other ) ;
Totals delta ( Totals const & prevTotals ) const ;
int error = 0 ;
Counts assertions ;
Counts testCases ;
} ;
}
# endif // CATCH_TOTALS_HPP_INCLUDED
# include <string>
namespace Catch {
struct SectionInfo {
// The last argument is ignored, so that people can write
// SECTION("ShortName", "Proper description that is long") and
// still use the `-c` flag comfortably.
SectionInfo ( SourceLineInfo const & _lineInfo , std : : string _name ,
const char * const = nullptr ) :
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name ( CATCH_MOVE ( _name ) ) ,
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lineInfo ( _lineInfo )
{ }
std : : string name ;
SourceLineInfo lineInfo ;
} ;
struct SectionEndInfo {
SectionInfo sectionInfo ;
Counts prevAssertions ;
double durationInSeconds ;
} ;
} // end namespace Catch
# endif // CATCH_SECTION_INFO_HPP_INCLUDED
# ifndef CATCH_ASSERTION_RESULT_HPP_INCLUDED
# define CATCH_ASSERTION_RESULT_HPP_INCLUDED
# ifndef CATCH_ASSERTION_INFO_HPP_INCLUDED
# define CATCH_ASSERTION_INFO_HPP_INCLUDED
# ifndef CATCH_RESULT_TYPE_HPP_INCLUDED
# define CATCH_RESULT_TYPE_HPP_INCLUDED
namespace Catch {
// ResultWas::OfType enum
struct ResultWas { enum OfType {
Unknown = - 1 ,
Ok = 0 ,
Info = 1 ,
Warning = 2 ,
FailureBit = 0x10 ,
ExpressionFailed = FailureBit | 1 ,
ExplicitFailure = FailureBit | 2 ,
Exception = 0x100 | FailureBit ,
ThrewException = Exception | 1 ,
DidntThrowException = Exception | 2 ,
FatalErrorCondition = 0x200 | FailureBit
} ; } ;
bool isOk ( ResultWas : : OfType resultType ) ;
bool isJustInfo ( int flags ) ;
// ResultDisposition::Flags enum
struct ResultDisposition { enum Flags {
Normal = 0x01 ,
ContinueOnFailure = 0x02 , // Failures fail test, but execution continues
FalseTest = 0x04 , // Prefix expression with !
SuppressFail = 0x08 // Failures are reported but do not fail the test
} ; } ;
ResultDisposition : : Flags operator | ( ResultDisposition : : Flags lhs , ResultDisposition : : Flags rhs ) ;
bool shouldContinueOnFailure ( int flags ) ;
inline bool isFalseTest ( int flags ) { return ( flags & ResultDisposition : : FalseTest ) ! = 0 ; }
bool shouldSuppressFailure ( int flags ) ;
} // end namespace Catch
# endif // CATCH_RESULT_TYPE_HPP_INCLUDED
namespace Catch {
struct AssertionInfo {
// AssertionInfo() = delete;
StringRef macroName ;
SourceLineInfo lineInfo ;
StringRef capturedExpression ;
ResultDisposition : : Flags resultDisposition ;
} ;
} // end namespace Catch
# endif // CATCH_ASSERTION_INFO_HPP_INCLUDED
# ifndef CATCH_LAZY_EXPR_HPP_INCLUDED
# define CATCH_LAZY_EXPR_HPP_INCLUDED
# include <iosfwd>
namespace Catch {
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struct ITransientExpression ;
class LazyExpression {
friend class AssertionHandler ;
friend struct AssertionStats ;
friend class RunContext ;
ITransientExpression const * m_transientExpression = nullptr ;
bool m_isNegated ;
public :
LazyExpression ( bool isNegated ) :
m_isNegated ( isNegated )
{ }
LazyExpression ( LazyExpression const & other ) = default ;
LazyExpression & operator = ( LazyExpression const & ) = delete ;
explicit operator bool ( ) const {
return m_transientExpression ! = nullptr ;
}
friend auto operator < < ( std : : ostream & os , LazyExpression const & lazyExpr ) - > std : : ostream & ;
} ;
} // namespace Catch
# endif // CATCH_LAZY_EXPR_HPP_INCLUDED
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# include <string>
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namespace Catch {
struct AssertionResultData
{
AssertionResultData ( ) = delete ;
AssertionResultData ( ResultWas : : OfType _resultType , LazyExpression const & _lazyExpression ) ;
std : : string message ;
mutable std : : string reconstructedExpression ;
LazyExpression lazyExpression ;
ResultWas : : OfType resultType ;
std : : string reconstructExpression ( ) const ;
} ;
class AssertionResult {
public :
AssertionResult ( ) = delete ;
AssertionResult ( AssertionInfo const & info , AssertionResultData const & data ) ;
bool isOk ( ) const ;
bool succeeded ( ) const ;
ResultWas : : OfType getResultType ( ) const ;
bool hasExpression ( ) const ;
bool hasMessage ( ) const ;
std : : string getExpression ( ) const ;
std : : string getExpressionInMacro ( ) const ;
bool hasExpandedExpression ( ) const ;
std : : string getExpandedExpression ( ) const ;
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StringRef getMessage ( ) const ;
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SourceLineInfo getSourceInfo ( ) const ;
StringRef getTestMacroName ( ) const ;
//protected:
AssertionInfo m_info ;
AssertionResultData m_resultData ;
} ;
} // end namespace Catch
# endif // CATCH_ASSERTION_RESULT_HPP_INCLUDED
# ifndef CATCH_MESSAGE_INFO_HPP_INCLUDED
# define CATCH_MESSAGE_INFO_HPP_INCLUDED
# ifndef CATCH_INTERFACES_CAPTURE_HPP_INCLUDED
# define CATCH_INTERFACES_CAPTURE_HPP_INCLUDED
# include <string>
# include <chrono>
namespace Catch {
class AssertionResult ;
struct AssertionInfo ;
struct SectionInfo ;
struct SectionEndInfo ;
struct MessageInfo ;
struct MessageBuilder ;
struct Counts ;
struct AssertionReaction ;
struct SourceLineInfo ;
struct ITransientExpression ;
struct IGeneratorTracker ;
struct BenchmarkInfo ;
template < typename Duration = std : : chrono : : duration < double , std : : nano > >
struct BenchmarkStats ;
struct IResultCapture {
virtual ~ IResultCapture ( ) ;
virtual bool sectionStarted ( SectionInfo const & sectionInfo ,
Counts & assertions ) = 0 ;
virtual void sectionEnded ( SectionEndInfo const & endInfo ) = 0 ;
virtual void sectionEndedEarly ( SectionEndInfo const & endInfo ) = 0 ;
virtual auto acquireGeneratorTracker ( StringRef generatorName , SourceLineInfo const & lineInfo ) - > IGeneratorTracker & = 0 ;
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virtual void benchmarkPreparing ( StringRef name ) = 0 ;
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virtual void benchmarkStarting ( BenchmarkInfo const & info ) = 0 ;
virtual void benchmarkEnded ( BenchmarkStats < > const & stats ) = 0 ;
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virtual void benchmarkFailed ( StringRef error ) = 0 ;
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virtual void pushScopedMessage ( MessageInfo const & message ) = 0 ;
virtual void popScopedMessage ( MessageInfo const & message ) = 0 ;
virtual void emplaceUnscopedMessage ( MessageBuilder const & builder ) = 0 ;
virtual void handleFatalErrorCondition ( StringRef message ) = 0 ;
virtual void handleExpr
( AssertionInfo const & info ,
ITransientExpression const & expr ,
AssertionReaction & reaction ) = 0 ;
virtual void handleMessage
( AssertionInfo const & info ,
ResultWas : : OfType resultType ,
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StringRef message ,
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AssertionReaction & reaction ) = 0 ;
virtual void handleUnexpectedExceptionNotThrown
( AssertionInfo const & info ,
AssertionReaction & reaction ) = 0 ;
virtual void handleUnexpectedInflightException
( AssertionInfo const & info ,
std : : string const & message ,
AssertionReaction & reaction ) = 0 ;
virtual void handleIncomplete
( AssertionInfo const & info ) = 0 ;
virtual void handleNonExpr
( AssertionInfo const & info ,
ResultWas : : OfType resultType ,
AssertionReaction & reaction ) = 0 ;
virtual bool lastAssertionPassed ( ) = 0 ;
virtual void assertionPassed ( ) = 0 ;
// Deprecated, do not use:
virtual std : : string getCurrentTestName ( ) const = 0 ;
virtual const AssertionResult * getLastResult ( ) const = 0 ;
virtual void exceptionEarlyReported ( ) = 0 ;
} ;
IResultCapture & getResultCapture ( ) ;
}
# endif // CATCH_INTERFACES_CAPTURE_HPP_INCLUDED
# include <string>
namespace Catch {
struct MessageInfo {
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MessageInfo ( StringRef _macroName ,
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SourceLineInfo const & _lineInfo ,
ResultWas : : OfType _type ) ;
StringRef macroName ;
std : : string message ;
SourceLineInfo lineInfo ;
ResultWas : : OfType type ;
unsigned int sequence ;
bool operator = = ( MessageInfo const & other ) const {
return sequence = = other . sequence ;
}
bool operator < ( MessageInfo const & other ) const {
return sequence < other . sequence ;
}
private :
static unsigned int globalCount ;
} ;
} // end namespace Catch
# endif // CATCH_MESSAGE_INFO_HPP_INCLUDED
# ifndef CATCH_UNIQUE_PTR_HPP_INCLUDED
# define CATCH_UNIQUE_PTR_HPP_INCLUDED
# include <cassert>
# include <type_traits>
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# if defined(__clang__) && defined(__has_attribute)
# if __has_attribute(trivial_abi)
# define TRIVIAL_ABI [[clang::trivial_abi]]
# endif
# endif
# if !defined(TRIVIAL_ABI)
# define TRIVIAL_ABI
# endif
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namespace Catch {
namespace Detail {
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/**
* A reimplementation of ` std : : unique_ptr ` for improved compilation performance
*
* Does not support arrays nor custom deleters , but has trivial ABI
* when supposed by the compiler .
*/
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template < typename T >
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class TRIVIAL_ABI unique_ptr {
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T * m_ptr ;
public :
constexpr unique_ptr ( std : : nullptr_t = nullptr ) :
m_ptr { }
{ }
explicit constexpr unique_ptr ( T * ptr ) :
m_ptr ( ptr )
{ }
template < typename U , typename = std : : enable_if_t < std : : is_base_of < T , U > : : value > >
unique_ptr ( unique_ptr < U > & & from ) :
m_ptr ( from . release ( ) )
{ }
template < typename U , typename = std : : enable_if_t < std : : is_base_of < T , U > : : value > >
unique_ptr & operator = ( unique_ptr < U > & & from ) {
reset ( from . release ( ) ) ;
return * this ;
}
unique_ptr ( unique_ptr const & ) = delete ;
unique_ptr & operator = ( unique_ptr const & ) = delete ;
unique_ptr ( unique_ptr & & rhs ) noexcept :
m_ptr ( rhs . m_ptr ) {
rhs . m_ptr = nullptr ;
}
unique_ptr & operator = ( unique_ptr & & rhs ) noexcept {
reset ( rhs . release ( ) ) ;
return * this ;
}
~ unique_ptr ( ) {
delete m_ptr ;
}
T & operator * ( ) {
assert ( m_ptr ) ;
return * m_ptr ;
}
T const & operator * ( ) const {
assert ( m_ptr ) ;
return * m_ptr ;
}
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T * operator - > ( ) noexcept {
assert ( m_ptr ) ;
return m_ptr ;
}
T const * operator - > ( ) const noexcept {
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assert ( m_ptr ) ;
return m_ptr ;
}
T * get ( ) { return m_ptr ; }
T const * get ( ) const { return m_ptr ; }
void reset ( T * ptr = nullptr ) {
delete m_ptr ;
m_ptr = ptr ;
}
T * release ( ) {
auto temp = m_ptr ;
m_ptr = nullptr ;
return temp ;
}
explicit operator bool ( ) const {
return m_ptr ;
}
friend void swap ( unique_ptr & lhs , unique_ptr & rhs ) {
auto temp = lhs . m_ptr ;
lhs . m_ptr = rhs . m_ptr ;
rhs . m_ptr = temp ;
}
} ;
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//! Specialization to cause compile-time error for arrays
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template < typename T >
class unique_ptr < T [ ] > ;
template < typename T , typename . . . Args >
unique_ptr < T > make_unique ( Args & & . . . args ) {
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return unique_ptr < T > ( new T ( CATCH_FORWARD ( args ) . . . ) ) ;
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}
} // end namespace Detail
} // end namespace Catch
# endif // CATCH_UNIQUE_PTR_HPP_INCLUDED
// Adapted from donated nonius code.
# ifndef CATCH_ESTIMATE_HPP_INCLUDED
# define CATCH_ESTIMATE_HPP_INCLUDED
namespace Catch {
namespace Benchmark {
template < typename Duration >
struct Estimate {
Duration point ;
Duration lower_bound ;
Duration upper_bound ;
double confidence_interval ;
template < typename Duration2 >
operator Estimate < Duration2 > ( ) const {
return { point , lower_bound , upper_bound , confidence_interval } ;
}
} ;
} // namespace Benchmark
} // namespace Catch
# endif // CATCH_ESTIMATE_HPP_INCLUDED
// Adapted from donated nonius code.
# ifndef CATCH_OUTLIER_CLASSIFICATION_HPP_INCLUDED
# define CATCH_OUTLIER_CLASSIFICATION_HPP_INCLUDED
namespace Catch {
namespace Benchmark {
struct OutlierClassification {
int samples_seen = 0 ;
int low_severe = 0 ; // more than 3 times IQR below Q1
int low_mild = 0 ; // 1.5 to 3 times IQR below Q1
int high_mild = 0 ; // 1.5 to 3 times IQR above Q3
int high_severe = 0 ; // more than 3 times IQR above Q3
int total ( ) const {
return low_severe + low_mild + high_mild + high_severe ;
}
} ;
} // namespace Benchmark
} // namespace Catch
# endif // CATCH_OUTLIERS_CLASSIFICATION_HPP_INCLUDED
# include <string>
# include <vector>
# include <iosfwd>
namespace Catch {
struct ReporterDescription ;
struct TagInfo ;
struct TestCaseInfo ;
class TestCaseHandle ;
struct IConfig ;
struct ReporterConfig {
ReporterConfig ( IConfig const * _fullConfig , std : : ostream & _stream ) ;
std : : ostream & stream ( ) const ;
IConfig const * fullConfig ( ) const ;
private :
std : : ostream * m_stream ;
IConfig const * m_fullConfig ;
} ;
struct TestRunInfo {
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constexpr TestRunInfo ( StringRef _name ) : name ( _name ) { }
StringRef name ;
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} ;
struct AssertionStats {
AssertionStats ( AssertionResult const & _assertionResult ,
std : : vector < MessageInfo > const & _infoMessages ,
Totals const & _totals ) ;
AssertionStats ( AssertionStats const & ) = default ;
AssertionStats ( AssertionStats & & ) = default ;
AssertionStats & operator = ( AssertionStats const & ) = delete ;
AssertionStats & operator = ( AssertionStats & & ) = delete ;
AssertionResult assertionResult ;
std : : vector < MessageInfo > infoMessages ;
Totals totals ;
} ;
struct SectionStats {
SectionStats ( SectionInfo const & _sectionInfo ,
Counts const & _assertions ,
double _durationInSeconds ,
bool _missingAssertions ) ;
SectionInfo sectionInfo ;
Counts assertions ;
double durationInSeconds ;
bool missingAssertions ;
} ;
struct TestCaseStats {
TestCaseStats ( TestCaseInfo const & _testInfo ,
Totals const & _totals ,
std : : string const & _stdOut ,
std : : string const & _stdErr ,
bool _aborting ) ;
TestCaseInfo const * testInfo ;
Totals totals ;
std : : string stdOut ;
std : : string stdErr ;
bool aborting ;
} ;
struct TestRunStats {
TestRunStats ( TestRunInfo const & _runInfo ,
Totals const & _totals ,
bool _aborting ) ;
TestRunInfo runInfo ;
Totals totals ;
bool aborting ;
} ;
struct BenchmarkInfo {
std : : string name ;
double estimatedDuration ;
int iterations ;
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unsigned int samples ;
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unsigned int resamples ;
double clockResolution ;
double clockCost ;
} ;
template < class Duration >
struct BenchmarkStats {
BenchmarkInfo info ;
std : : vector < Duration > samples ;
Benchmark : : Estimate < Duration > mean ;
Benchmark : : Estimate < Duration > standardDeviation ;
Benchmark : : OutlierClassification outliers ;
double outlierVariance ;
template < typename Duration2 >
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operator BenchmarkStats < Duration2 > ( ) const {
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std : : vector < Duration2 > samples2 ;
samples2 . reserve ( samples . size ( ) ) ;
for ( auto const & sample : samples ) {
samples2 . push_back ( Duration2 ( sample ) ) ;
}
return {
info ,
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CATCH_MOVE ( samples2 ) ,
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mean ,
standardDeviation ,
outliers ,
outlierVariance ,
} ;
}
} ;
//! By setting up its preferences, a reporter can modify Catch2's behaviour
//! in some regards, e.g. it can request Catch2 to capture writes to
//! stdout/stderr during test execution, and pass them to the reporter.
struct ReporterPreferences {
//! Catch2 should redirect writes to stdout and pass them to the
//! reporter
bool shouldRedirectStdOut = false ;
//! Catch2 should call `Reporter::assertionEnded` even for passing
//! assertions
bool shouldReportAllAssertions = false ;
} ;
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//! The common base for all reporters and event listeners
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struct IStreamingReporter {
protected :
//! Derived classes can set up their preferences here
ReporterPreferences m_preferences ;
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//! The test run's config as filled in from CLI and defaults
IConfig const * m_config ;
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public :
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IStreamingReporter ( IConfig const * config ) : m_config ( config ) { }
virtual ~ IStreamingReporter ( ) ; // = default;
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// Implementing class must also provide the following static methods:
// static std::string getDescription();
ReporterPreferences const & getPreferences ( ) const {
return m_preferences ;
}
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//! Called when no test cases match provided test spec
virtual void noMatchingTestCases ( StringRef unmatchedSpec ) = 0 ;
//! Called for all invalid test specs from the cli
virtual void reportInvalidTestSpec ( StringRef invalidArgument ) = 0 ;
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/**
* Called once in a testing run before tests are started
*
* Not called if tests won ' t be run ( e . g . only listing will happen )
*/
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virtual void testRunStarting ( TestRunInfo const & testRunInfo ) = 0 ;
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//! Called _once_ for each TEST_CASE, no matter how many times it is entered
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virtual void testCaseStarting ( TestCaseInfo const & testInfo ) = 0 ;
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//! Called _every time_ a TEST_CASE is entered, including repeats (due to sections)
virtual void testCasePartialStarting ( TestCaseInfo const & testInfo , uint64_t partNumber ) = 0 ;
//! Called when a `SECTION` is being entered. Not called for skipped sections
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virtual void sectionStarting ( SectionInfo const & sectionInfo ) = 0 ;
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//! Called when user-code is being probed before the actual benchmark runs
virtual void benchmarkPreparing ( StringRef benchmarkName ) = 0 ;
//! Called after probe but before the user-code is being benchmarked
virtual void benchmarkStarting ( BenchmarkInfo const & benchmarkInfo ) = 0 ;
//! Called with the benchmark results if benchmark successfully finishes
virtual void benchmarkEnded ( BenchmarkStats < > const & benchmarkStats ) = 0 ;
//! Called if running the benchmarks fails for any reason
virtual void benchmarkFailed ( StringRef benchmarkName ) = 0 ;
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//! Called before assertion success/failure is evaluated
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virtual void assertionStarting ( AssertionInfo const & assertionInfo ) = 0 ;
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//! Called after assertion was fully evaluated
virtual void assertionEnded ( AssertionStats const & assertionStats ) = 0 ;
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//! Called after a `SECTION` has finished running
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virtual void sectionEnded ( SectionStats const & sectionStats ) = 0 ;
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//! Called _every time_ a TEST_CASE is entered, including repeats (due to sections)
virtual void testCasePartialEnded ( TestCaseStats const & testCaseStats , uint64_t partNumber ) = 0 ;
//! Called _once_ for each TEST_CASE, no matter how many times it is entered
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virtual void testCaseEnded ( TestCaseStats const & testCaseStats ) = 0 ;
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/**
* Called once after all tests in a testing run are finished
*
* Not called if tests weren ' t run ( e . g . only listings happened )
*/
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virtual void testRunEnded ( TestRunStats const & testRunStats ) = 0 ;
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//! Called with test cases that are skipped due to the test run aborting
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virtual void skipTest ( TestCaseInfo const & testInfo ) = 0 ;
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//! Called if a fatal error (signal/structured exception) occured
virtual void fatalErrorEncountered ( StringRef error ) = 0 ;
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//! Writes out information about provided reporters using reporter-specific format
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virtual void listReporters ( std : : vector < ReporterDescription > const & descriptions ) = 0 ;
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//! Writes out information about provided tests using reporter-specific format
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virtual void listTests ( std : : vector < TestCaseHandle > const & tests ) = 0 ;
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//! Writes out information about the provided tags using reporter-specific format
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virtual void listTags ( std : : vector < TagInfo > const & tags ) = 0 ;
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} ;
using IStreamingReporterPtr = Detail : : unique_ptr < IStreamingReporter > ;
} // end namespace Catch
# endif // CATCH_INTERFACES_REPORTER_HPP_INCLUDED
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# ifndef CATCH_UNIQUE_NAME_HPP_INCLUDED
# define CATCH_UNIQUE_NAME_HPP_INCLUDED
/** \file
* Wrapper for the CONFIG configuration option
*
* When generating internal unique names , there are two options . Either
* we mix in the current line number , or mix in an incrementing number .
* We prefer the latter , using ` __COUNTER__ ` , but users might want to
* use the former .
*/
# ifndef CATCH_CONFIG_COUNTER_HPP_INCLUDED
# define CATCH_CONFIG_COUNTER_HPP_INCLUDED
# if ( !defined(__JETBRAINS_IDE__) || __JETBRAINS_IDE__ >= 20170300L )
# define CATCH_INTERNAL_CONFIG_COUNTER
# endif
# if defined( CATCH_INTERNAL_CONFIG_COUNTER ) && \
! defined ( CATCH_CONFIG_NO_COUNTER ) & & \
! defined ( CATCH_CONFIG_COUNTER )
# define CATCH_CONFIG_COUNTER
# endif
# endif // CATCH_CONFIG_COUNTER_HPP_INCLUDED
# define INTERNAL_CATCH_UNIQUE_NAME_LINE2( name, line ) name##line
# define INTERNAL_CATCH_UNIQUE_NAME_LINE( name, line ) INTERNAL_CATCH_UNIQUE_NAME_LINE2( name, line )
# ifdef CATCH_CONFIG_COUNTER
# define INTERNAL_CATCH_UNIQUE_NAME( name ) INTERNAL_CATCH_UNIQUE_NAME_LINE( name, __COUNTER__ )
# else
# define INTERNAL_CATCH_UNIQUE_NAME( name ) INTERNAL_CATCH_UNIQUE_NAME_LINE( name, __LINE__ )
# endif
# endif // CATCH_UNIQUE_NAME_HPP_INCLUDED
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// Adapted from donated nonius code.
# ifndef CATCH_CHRONOMETER_HPP_INCLUDED
# define CATCH_CHRONOMETER_HPP_INCLUDED
// Adapted from donated nonius code.
# ifndef CATCH_CLOCK_HPP_INCLUDED
# define CATCH_CLOCK_HPP_INCLUDED
# include <chrono>
# include <ratio>
namespace Catch {
namespace Benchmark {
template < typename Clock >
using ClockDuration = typename Clock : : duration ;
template < typename Clock >
using FloatDuration = std : : chrono : : duration < double , typename Clock : : period > ;
template < typename Clock >
using TimePoint = typename Clock : : time_point ;
using default_clock = std : : chrono : : steady_clock ;
template < typename Clock >
struct now {
TimePoint < Clock > operator ( ) ( ) const {
return Clock : : now ( ) ;
}
} ;
using fp_seconds = std : : chrono : : duration < double , std : : ratio < 1 > > ;
} // namespace Benchmark
} // namespace Catch
# endif // CATCH_CLOCK_HPP_INCLUDED
// Adapted from donated nonius code.
# ifndef CATCH_OPTIMIZER_HPP_INCLUDED
# define CATCH_OPTIMIZER_HPP_INCLUDED
# if defined(_MSC_VER)
# include <atomic> // atomic_thread_fence
# endif
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# include <type_traits>
namespace Catch {
namespace Benchmark {
# if defined(__GNUC__) || defined(__clang__)
template < typename T >
inline void keep_memory ( T * p ) {
asm volatile ( " " : : " g " ( p ) : " memory " ) ;
}
inline void keep_memory ( ) {
asm volatile ( " " : : : " memory " ) ;
}
namespace Detail {
inline void optimizer_barrier ( ) { keep_memory ( ) ; }
} // namespace Detail
# elif defined(_MSC_VER)
# pragma optimize("", off)
template < typename T >
inline void keep_memory ( T * p ) {
// thanks @milleniumbug
* reinterpret_cast < char volatile * > ( p ) = * reinterpret_cast < char const volatile * > ( p ) ;
}
// TODO equivalent keep_memory()
# pragma optimize("", on)
namespace Detail {
inline void optimizer_barrier ( ) {
std : : atomic_thread_fence ( std : : memory_order_seq_cst ) ;
}
} // namespace Detail
# endif
template < typename T >
inline void deoptimize_value ( T & & x ) {
keep_memory ( & x ) ;
}
template < typename Fn , typename . . . Args >
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inline auto invoke_deoptimized ( Fn & & fn , Args & & . . . args ) - > std : : enable_if_t < ! std : : is_same < void , decltype ( fn ( args . . . ) ) > : : value > {
deoptimize_value ( CATCH_FORWARD ( fn ) ( CATCH_FORWARD ( args ) . . . ) ) ;
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}
template < typename Fn , typename . . . Args >
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inline auto invoke_deoptimized ( Fn & & fn , Args & & . . . args ) - > std : : enable_if_t < std : : is_same < void , decltype ( fn ( args . . . ) ) > : : value > {
CATCH_FORWARD ( fn ) ( CATCH_FORWARD ( args ) . . . ) ;
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}
} // namespace Benchmark
} // namespace Catch
# endif // CATCH_OPTIMIZER_HPP_INCLUDED
// Adapted from donated nonius code.
# ifndef CATCH_COMPLETE_INVOKE_HPP_INCLUDED
# define CATCH_COMPLETE_INVOKE_HPP_INCLUDED
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# ifndef CATCH_TEST_FAILURE_EXCEPTION_HPP_INCLUDED
# define CATCH_TEST_FAILURE_EXCEPTION_HPP_INCLUDED
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namespace Catch {
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//! Used to signal that an assertion macro failed
struct TestFailureException { } ;
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} // namespace Catch
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# endif // CATCH_TEST_FAILURE_EXCEPTION_HPP_INCLUDED
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# ifndef CATCH_META_HPP_INCLUDED
# define CATCH_META_HPP_INCLUDED
# include <type_traits>
namespace Catch {
template < typename T >
struct always_false : std : : false_type { } ;
template < typename > struct true_given : std : : true_type { } ;
struct is_callable_tester {
template < typename Fun , typename . . . Args >
true_given < decltype ( std : : declval < Fun > ( ) ( std : : declval < Args > ( ) . . . ) ) > static test ( int ) ;
template < typename . . . >
std : : false_type static test ( . . . ) ;
} ;
template < typename T >
struct is_callable ;
template < typename Fun , typename . . . Args >
struct is_callable < Fun ( Args . . . ) > : decltype ( is_callable_tester : : test < Fun , Args . . . > ( 0 ) ) { } ;
# if defined(__cpp_lib_is_invocable) && __cpp_lib_is_invocable >= 201703
// std::result_of is deprecated in C++17 and removed in C++20. Hence, it is
// replaced with std::invoke_result here.
template < typename Func , typename . . . U >
using FunctionReturnType = std : : remove_reference_t < std : : remove_cv_t < std : : invoke_result_t < Func , U . . . > > > ;
# else
template < typename Func , typename . . . U >
using FunctionReturnType = std : : remove_reference_t < std : : remove_cv_t < std : : result_of_t < Func ( U . . . ) > > > ;
# endif
} // namespace Catch
namespace mpl_ {
struct na ;
}
# endif // CATCH_META_HPP_INCLUDED
# ifndef CATCH_INTERFACES_REGISTRY_HUB_HPP_INCLUDED
# define CATCH_INTERFACES_REGISTRY_HUB_HPP_INCLUDED
# include <string>
namespace Catch {
class TestCaseHandle ;
struct TestCaseInfo ;
struct ITestCaseRegistry ;
struct IExceptionTranslatorRegistry ;
struct IExceptionTranslator ;
struct IReporterRegistry ;
struct IReporterFactory ;
struct ITagAliasRegistry ;
struct ITestInvoker ;
struct IMutableEnumValuesRegistry ;
struct SourceLineInfo ;
class StartupExceptionRegistry ;
using IReporterFactoryPtr = Detail : : unique_ptr < IReporterFactory > ;
struct IRegistryHub {
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virtual ~ IRegistryHub ( ) ; // = default
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virtual IReporterRegistry const & getReporterRegistry ( ) const = 0 ;
virtual ITestCaseRegistry const & getTestCaseRegistry ( ) const = 0 ;
virtual ITagAliasRegistry const & getTagAliasRegistry ( ) const = 0 ;
virtual IExceptionTranslatorRegistry const & getExceptionTranslatorRegistry ( ) const = 0 ;
virtual StartupExceptionRegistry const & getStartupExceptionRegistry ( ) const = 0 ;
} ;
struct IMutableRegistryHub {
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virtual ~ IMutableRegistryHub ( ) ; // = default
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virtual void registerReporter ( std : : string const & name , IReporterFactoryPtr factory ) = 0 ;
virtual void registerListener ( IReporterFactoryPtr factory ) = 0 ;
virtual void registerTest ( Detail : : unique_ptr < TestCaseInfo > & & testInfo , Detail : : unique_ptr < ITestInvoker > & & invoker ) = 0 ;
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virtual void registerTranslator ( Detail : : unique_ptr < IExceptionTranslator > & & translator ) = 0 ;
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virtual void registerTagAlias ( std : : string const & alias , std : : string const & tag , SourceLineInfo const & lineInfo ) = 0 ;
virtual void registerStartupException ( ) noexcept = 0 ;
virtual IMutableEnumValuesRegistry & getMutableEnumValuesRegistry ( ) = 0 ;
} ;
IRegistryHub const & getRegistryHub ( ) ;
IMutableRegistryHub & getMutableRegistryHub ( ) ;
void cleanUp ( ) ;
std : : string translateActiveException ( ) ;
}
# endif // CATCH_INTERFACES_REGISTRY_HUB_HPP_INCLUDED
# include <type_traits>
namespace Catch {
namespace Benchmark {
namespace Detail {
template < typename T >
struct CompleteType { using type = T ; } ;
template < >
struct CompleteType < void > { struct type { } ; } ;
template < typename T >
using CompleteType_t = typename CompleteType < T > : : type ;
template < typename Result >
struct CompleteInvoker {
template < typename Fun , typename . . . Args >
static Result invoke ( Fun & & fun , Args & & . . . args ) {
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return CATCH_FORWARD ( fun ) ( CATCH_FORWARD ( args ) . . . ) ;
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}
} ;
template < >
struct CompleteInvoker < void > {
template < typename Fun , typename . . . Args >
static CompleteType_t < void > invoke ( Fun & & fun , Args & & . . . args ) {
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CATCH_FORWARD ( fun ) ( CATCH_FORWARD ( args ) . . . ) ;
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return { } ;
}
} ;
// invoke and not return void :(
template < typename Fun , typename . . . Args >
CompleteType_t < FunctionReturnType < Fun , Args . . . > > complete_invoke ( Fun & & fun , Args & & . . . args ) {
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return CompleteInvoker < FunctionReturnType < Fun , Args . . . > > : : invoke ( CATCH_FORWARD ( fun ) , CATCH_FORWARD ( args ) . . . ) ;
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}
} // namespace Detail
template < typename Fun >
Detail : : CompleteType_t < FunctionReturnType < Fun > > user_code ( Fun & & fun ) {
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return Detail : : complete_invoke ( CATCH_FORWARD ( fun ) ) ;
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}
} // namespace Benchmark
} // namespace Catch
# endif // CATCH_COMPLETE_INVOKE_HPP_INCLUDED
namespace Catch {
namespace Benchmark {
namespace Detail {
struct ChronometerConcept {
virtual void start ( ) = 0 ;
virtual void finish ( ) = 0 ;
virtual ~ ChronometerConcept ( ) ; // = default;
ChronometerConcept ( ) = default ;
ChronometerConcept ( ChronometerConcept const & ) = default ;
ChronometerConcept & operator = ( ChronometerConcept const & ) = default ;
} ;
template < typename Clock >
struct ChronometerModel final : public ChronometerConcept {
void start ( ) override { started = Clock : : now ( ) ; }
void finish ( ) override { finished = Clock : : now ( ) ; }
ClockDuration < Clock > elapsed ( ) const { return finished - started ; }
TimePoint < Clock > started ;
TimePoint < Clock > finished ;
} ;
} // namespace Detail
struct Chronometer {
public :
template < typename Fun >
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void measure ( Fun & & fun ) { measure ( CATCH_FORWARD ( fun ) , is_callable < Fun ( int ) > ( ) ) ; }
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int runs ( ) const { return repeats ; }
Chronometer ( Detail : : ChronometerConcept & meter , int repeats_ )
: impl ( & meter )
, repeats ( repeats_ ) { }
private :
template < typename Fun >
void measure ( Fun & & fun , std : : false_type ) {
measure ( [ & fun ] ( int ) { return fun ( ) ; } , std : : true_type ( ) ) ;
}
template < typename Fun >
void measure ( Fun & & fun , std : : true_type ) {
Detail : : optimizer_barrier ( ) ;
impl - > start ( ) ;
for ( int i = 0 ; i < repeats ; + + i ) invoke_deoptimized ( fun , i ) ;
impl - > finish ( ) ;
Detail : : optimizer_barrier ( ) ;
}
Detail : : ChronometerConcept * impl ;
int repeats ;
} ;
} // namespace Benchmark
} // namespace Catch
# endif // CATCH_CHRONOMETER_HPP_INCLUDED
// Adapted from donated nonius code.
# ifndef CATCH_ENVIRONMENT_HPP_INCLUDED
# define CATCH_ENVIRONMENT_HPP_INCLUDED
namespace Catch {
namespace Benchmark {
template < typename Duration >
struct EnvironmentEstimate {
Duration mean ;
OutlierClassification outliers ;
template < typename Duration2 >
operator EnvironmentEstimate < Duration2 > ( ) const {
return { mean , outliers } ;
}
} ;
template < typename Clock >
struct Environment {
using clock_type = Clock ;
EnvironmentEstimate < FloatDuration < Clock > > clock_resolution ;
EnvironmentEstimate < FloatDuration < Clock > > clock_cost ;
} ;
} // namespace Benchmark
} // namespace Catch
# endif // CATCH_ENVIRONMENT_HPP_INCLUDED
// Adapted from donated nonius code.
# ifndef CATCH_EXECUTION_PLAN_HPP_INCLUDED
# define CATCH_EXECUTION_PLAN_HPP_INCLUDED
// Adapted from donated nonius code.
# ifndef CATCH_BENCHMARK_FUNCTION_HPP_INCLUDED
# define CATCH_BENCHMARK_FUNCTION_HPP_INCLUDED
# include <type_traits>
namespace Catch {
namespace Benchmark {
namespace Detail {
template < typename T , typename U >
struct is_related
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: std : : is_same < std : : decay_t < T > , std : : decay_t < U > > { } ;
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/// We need to reinvent std::function because every piece of code that might add overhead
/// in a measurement context needs to have consistent performance characteristics so that we
/// can account for it in the measurement.
/// Implementations of std::function with optimizations that aren't always applicable, like
/// small buffer optimizations, are not uncommon.
/// This is effectively an implementation of std::function without any such optimizations;
/// it may be slow, but it is consistently slow.
struct BenchmarkFunction {
private :
struct callable {
virtual void call ( Chronometer meter ) const = 0 ;
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virtual Catch : : Detail : : unique_ptr < callable > clone ( ) const = 0 ;
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virtual ~ callable ( ) ; // = default;
callable ( ) = default ;
callable ( callable const & ) = default ;
callable & operator = ( callable const & ) = default ;
} ;
template < typename Fun >
struct model : public callable {
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model ( Fun & & fun_ ) : fun ( CATCH_MOVE ( fun_ ) ) { }
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model ( Fun const & fun_ ) : fun ( fun_ ) { }
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Catch : : Detail : : unique_ptr < callable > clone ( ) const override {
return Catch : : Detail : : make_unique < model < Fun > > ( * this ) ;
}
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void call ( Chronometer meter ) const override {
call ( meter , is_callable < Fun ( Chronometer ) > ( ) ) ;
}
void call ( Chronometer meter , std : : true_type ) const {
fun ( meter ) ;
}
void call ( Chronometer meter , std : : false_type ) const {
meter . measure ( fun ) ;
}
Fun fun ;
} ;
struct do_nothing { void operator ( ) ( ) const { } } ;
template < typename T >
BenchmarkFunction ( model < T > * c ) : f ( c ) { }
public :
BenchmarkFunction ( )
: f ( new model < do_nothing > { { } } ) { }
template < typename Fun ,
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std : : enable_if_t < ! is_related < Fun , BenchmarkFunction > : : value , int > = 0 >
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BenchmarkFunction ( Fun & & fun )
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: f ( new model < std : : decay_t < Fun > > ( CATCH_FORWARD ( fun ) ) ) { }
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BenchmarkFunction ( BenchmarkFunction & & that ) noexcept :
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f ( CATCH_MOVE ( that . f ) ) { }
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BenchmarkFunction ( BenchmarkFunction const & that )
: f ( that . f - > clone ( ) ) { }
BenchmarkFunction &
operator = ( BenchmarkFunction & & that ) noexcept {
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f = CATCH_MOVE ( that . f ) ;
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return * this ;
}
BenchmarkFunction & operator = ( BenchmarkFunction const & that ) {
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f = that . f - > clone ( ) ;
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return * this ;
}
void operator ( ) ( Chronometer meter ) const { f - > call ( meter ) ; }
private :
Catch : : Detail : : unique_ptr < callable > f ;
} ;
} // namespace Detail
} // namespace Benchmark
} // namespace Catch
# endif // CATCH_BENCHMARK_FUNCTION_HPP_INCLUDED
// Adapted from donated nonius code.
# ifndef CATCH_REPEAT_HPP_INCLUDED
# define CATCH_REPEAT_HPP_INCLUDED
# include <type_traits>
namespace Catch {
namespace Benchmark {
namespace Detail {
template < typename Fun >
struct repeater {
void operator ( ) ( int k ) const {
for ( int i = 0 ; i < k ; + + i ) {
fun ( ) ;
}
}
Fun fun ;
} ;
template < typename Fun >
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repeater < std : : decay_t < Fun > > repeat ( Fun & & fun ) {
return { CATCH_FORWARD ( fun ) } ;
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}
} // namespace Detail
} // namespace Benchmark
} // namespace Catch
# endif // CATCH_REPEAT_HPP_INCLUDED
// Adapted from donated nonius code.
# ifndef CATCH_RUN_FOR_AT_LEAST_HPP_INCLUDED
# define CATCH_RUN_FOR_AT_LEAST_HPP_INCLUDED
// Adapted from donated nonius code.
# ifndef CATCH_MEASURE_HPP_INCLUDED
# define CATCH_MEASURE_HPP_INCLUDED
// Adapted from donated nonius code.
# ifndef CATCH_TIMING_HPP_INCLUDED
# define CATCH_TIMING_HPP_INCLUDED
# include <type_traits>
namespace Catch {
namespace Benchmark {
template < typename Duration , typename Result >
struct Timing {
Duration elapsed ;
Result result ;
int iterations ;
} ;
template < typename Clock , typename Func , typename . . . Args >
using TimingOf = Timing < ClockDuration < Clock > , Detail : : CompleteType_t < FunctionReturnType < Func , Args . . . > > > ;
} // namespace Benchmark
} // namespace Catch
# endif // CATCH_TIMING_HPP_INCLUDED
namespace Catch {
namespace Benchmark {
namespace Detail {
template < typename Clock , typename Fun , typename . . . Args >
TimingOf < Clock , Fun , Args . . . > measure ( Fun & & fun , Args & & . . . args ) {
auto start = Clock : : now ( ) ;
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auto & & r = Detail : : complete_invoke ( fun , CATCH_FORWARD ( args ) . . . ) ;
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auto end = Clock : : now ( ) ;
auto delta = end - start ;
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return { delta , CATCH_FORWARD ( r ) , 1 } ;
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}
} // namespace Detail
} // namespace Benchmark
} // namespace Catch
# endif // CATCH_MEASURE_HPP_INCLUDED
# include <type_traits>
namespace Catch {
namespace Benchmark {
namespace Detail {
template < typename Clock , typename Fun >
TimingOf < Clock , Fun , int > measure_one ( Fun & & fun , int iters , std : : false_type ) {
return Detail : : measure < Clock > ( fun , iters ) ;
}
template < typename Clock , typename Fun >
TimingOf < Clock , Fun , Chronometer > measure_one ( Fun & & fun , int iters , std : : true_type ) {
Detail : : ChronometerModel < Clock > meter ;
auto & & result = Detail : : complete_invoke ( fun , Chronometer ( meter , iters ) ) ;
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return { meter . elapsed ( ) , CATCH_MOVE ( result ) , iters } ;
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}
template < typename Clock , typename Fun >
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using run_for_at_least_argument_t = std : : conditional_t < is_callable < Fun ( Chronometer ) > : : value , Chronometer , int > ;
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[[noreturn]]
void throw_optimized_away_error ( ) ;
template < typename Clock , typename Fun >
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TimingOf < Clock , Fun , run_for_at_least_argument_t < Clock , Fun > >
run_for_at_least ( ClockDuration < Clock > how_long ,
const int initial_iterations ,
Fun & & fun ) {
auto iters = initial_iterations ;
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while ( iters < ( 1 < < 30 ) ) {
auto & & Timing = measure_one < Clock > ( fun , iters , is_callable < Fun ( Chronometer ) > ( ) ) ;
if ( Timing . elapsed > = how_long ) {
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return { Timing . elapsed , CATCH_MOVE ( Timing . result ) , iters } ;
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}
iters * = 2 ;
}
throw_optimized_away_error ( ) ;
}
} // namespace Detail
} // namespace Benchmark
} // namespace Catch
# endif // CATCH_RUN_FOR_AT_LEAST_HPP_INCLUDED
# include <algorithm>
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# include <iterator>
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namespace Catch {
namespace Benchmark {
template < typename Duration >
struct ExecutionPlan {
int iterations_per_sample ;
Duration estimated_duration ;
Detail : : BenchmarkFunction benchmark ;
Duration warmup_time ;
int warmup_iterations ;
template < typename Duration2 >
operator ExecutionPlan < Duration2 > ( ) const {
return { iterations_per_sample , estimated_duration , benchmark , warmup_time , warmup_iterations } ;
}
template < typename Clock >
std : : vector < FloatDuration < Clock > > run ( const IConfig & cfg , Environment < FloatDuration < Clock > > env ) const {
// warmup a bit
Detail : : run_for_at_least < Clock > ( std : : chrono : : duration_cast < ClockDuration < Clock > > ( warmup_time ) , warmup_iterations , Detail : : repeat ( now < Clock > { } ) ) ;
std : : vector < FloatDuration < Clock > > times ;
times . reserve ( cfg . benchmarkSamples ( ) ) ;
std : : generate_n ( std : : back_inserter ( times ) , cfg . benchmarkSamples ( ) , [ this , env ] {
Detail : : ChronometerModel < Clock > model ;
this - > benchmark ( Chronometer ( model , iterations_per_sample ) ) ;
auto sample_time = model . elapsed ( ) - env . clock_cost . mean ;
if ( sample_time < FloatDuration < Clock > : : zero ( ) ) sample_time = FloatDuration < Clock > : : zero ( ) ;
return sample_time / iterations_per_sample ;
} ) ;
return times ;
}
} ;
} // namespace Benchmark
} // namespace Catch
# endif // CATCH_EXECUTION_PLAN_HPP_INCLUDED
// Adapted from donated nonius code.
# ifndef CATCH_ESTIMATE_CLOCK_HPP_INCLUDED
# define CATCH_ESTIMATE_CLOCK_HPP_INCLUDED
// Adapted from donated nonius code.
# ifndef CATCH_STATS_HPP_INCLUDED
# define CATCH_STATS_HPP_INCLUDED
# include <algorithm>
# include <vector>
# include <numeric>
# include <tuple>
# include <cmath>
namespace Catch {
namespace Benchmark {
namespace Detail {
using sample = std : : vector < double > ;
double weighted_average_quantile ( int k , int q , std : : vector < double > : : iterator first , std : : vector < double > : : iterator last ) ;
template < typename Iterator >
OutlierClassification classify_outliers ( Iterator first , Iterator last ) {
std : : vector < double > copy ( first , last ) ;
auto q1 = weighted_average_quantile ( 1 , 4 , copy . begin ( ) , copy . end ( ) ) ;
auto q3 = weighted_average_quantile ( 3 , 4 , copy . begin ( ) , copy . end ( ) ) ;
auto iqr = q3 - q1 ;
auto los = q1 - ( iqr * 3. ) ;
auto lom = q1 - ( iqr * 1.5 ) ;
auto him = q3 + ( iqr * 1.5 ) ;
auto his = q3 + ( iqr * 3. ) ;
OutlierClassification o ;
for ( ; first ! = last ; + + first ) {
auto & & t = * first ;
if ( t < los ) + + o . low_severe ;
else if ( t < lom ) + + o . low_mild ;
else if ( t > his ) + + o . high_severe ;
else if ( t > him ) + + o . high_mild ;
+ + o . samples_seen ;
}
return o ;
}
template < typename Iterator >
double mean ( Iterator first , Iterator last ) {
auto count = last - first ;
double sum = std : : accumulate ( first , last , 0. ) ;
return sum / count ;
}
template < typename Estimator , typename Iterator >
sample jackknife ( Estimator & & estimator , Iterator first , Iterator last ) {
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auto n = static_cast < size_t > ( last - first ) ;
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auto second = first ;
+ + second ;
sample results ;
results . reserve ( n ) ;
for ( auto it = first ; it ! = last ; + + it ) {
std : : iter_swap ( it , first ) ;
results . push_back ( estimator ( second , last ) ) ;
}
return results ;
}
inline double normal_cdf ( double x ) {
return std : : erfc ( - x / std : : sqrt ( 2.0 ) ) / 2.0 ;
}
double erfc_inv ( double x ) ;
double normal_quantile ( double p ) ;
template < typename Iterator , typename Estimator >
Estimate < double > bootstrap ( double confidence_level , Iterator first , Iterator last , sample const & resample , Estimator & & estimator ) {
auto n_samples = last - first ;
double point = estimator ( first , last ) ;
// Degenerate case with a single sample
if ( n_samples = = 1 ) return { point , point , point , confidence_level } ;
sample jack = jackknife ( estimator , first , last ) ;
double jack_mean = mean ( jack . begin ( ) , jack . end ( ) ) ;
double sum_squares , sum_cubes ;
std : : tie ( sum_squares , sum_cubes ) = std : : accumulate ( jack . begin ( ) , jack . end ( ) , std : : make_pair ( 0. , 0. ) , [ jack_mean ] ( std : : pair < double , double > sqcb , double x ) - > std : : pair < double , double > {
auto d = jack_mean - x ;
auto d2 = d * d ;
auto d3 = d2 * d ;
return { sqcb . first + d2 , sqcb . second + d3 } ;
} ) ;
double accel = sum_cubes / ( 6 * std : : pow ( sum_squares , 1.5 ) ) ;
int n = static_cast < int > ( resample . size ( ) ) ;
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double prob_n = std : : count_if ( resample . begin ( ) , resample . end ( ) , [ point ] ( double x ) { return x < point ; } ) / static_cast < double > ( n ) ;
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// degenerate case with uniform samples
if ( prob_n = = 0 ) return { point , point , point , confidence_level } ;
double bias = normal_quantile ( prob_n ) ;
double z1 = normal_quantile ( ( 1. - confidence_level ) / 2. ) ;
auto cumn = [ n ] ( double x ) - > int {
return std : : lround ( normal_cdf ( x ) * n ) ; } ;
auto a = [ bias , accel ] ( double b ) { return bias + b / ( 1. - accel * b ) ; } ;
double b1 = bias + z1 ;
double b2 = bias - z1 ;
double a1 = a ( b1 ) ;
double a2 = a ( b2 ) ;
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auto lo = static_cast < size_t > ( ( std : : max ) ( cumn ( a1 ) , 0 ) ) ;
auto hi = static_cast < size_t > ( ( std : : min ) ( cumn ( a2 ) , n - 1 ) ) ;
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return { point , resample [ lo ] , resample [ hi ] , confidence_level } ;
}
double outlier_variance ( Estimate < double > mean , Estimate < double > stddev , int n ) ;
struct bootstrap_analysis {
Estimate < double > mean ;
Estimate < double > standard_deviation ;
double outlier_variance ;
} ;
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bootstrap_analysis analyse_samples ( double confidence_level , unsigned int n_resamples , std : : vector < double > : : iterator first , std : : vector < double > : : iterator last ) ;
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} // namespace Detail
} // namespace Benchmark
} // namespace Catch
# endif // CATCH_STATS_HPP_INCLUDED
# include <algorithm>
# include <iterator>
# include <vector>
# include <cmath>
namespace Catch {
namespace Benchmark {
namespace Detail {
template < typename Clock >
std : : vector < double > resolution ( int k ) {
std : : vector < TimePoint < Clock > > times ;
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times . reserve ( static_cast < size_t > ( k + 1 ) ) ;
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std : : generate_n ( std : : back_inserter ( times ) , k + 1 , now < Clock > { } ) ;
std : : vector < double > deltas ;
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deltas . reserve ( static_cast < size_t > ( k ) ) ;
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std : : transform ( std : : next ( times . begin ( ) ) , times . end ( ) , times . begin ( ) ,
std : : back_inserter ( deltas ) ,
[ ] ( TimePoint < Clock > a , TimePoint < Clock > b ) { return static_cast < double > ( ( a - b ) . count ( ) ) ; } ) ;
return deltas ;
}
const auto warmup_iterations = 10000 ;
const auto warmup_time = std : : chrono : : milliseconds ( 100 ) ;
const auto minimum_ticks = 1000 ;
const auto warmup_seed = 10000 ;
const auto clock_resolution_estimation_time = std : : chrono : : milliseconds ( 500 ) ;
const auto clock_cost_estimation_time_limit = std : : chrono : : seconds ( 1 ) ;
const auto clock_cost_estimation_tick_limit = 100000 ;
const auto clock_cost_estimation_time = std : : chrono : : milliseconds ( 10 ) ;
const auto clock_cost_estimation_iterations = 10000 ;
template < typename Clock >
int warmup ( ) {
return run_for_at_least < Clock > ( std : : chrono : : duration_cast < ClockDuration < Clock > > ( warmup_time ) , warmup_seed , & resolution < Clock > )
. iterations ;
}
template < typename Clock >
EnvironmentEstimate < FloatDuration < Clock > > estimate_clock_resolution ( int iterations ) {
auto r = run_for_at_least < Clock > ( std : : chrono : : duration_cast < ClockDuration < Clock > > ( clock_resolution_estimation_time ) , iterations , & resolution < Clock > )
. result ;
return {
FloatDuration < Clock > ( mean ( r . begin ( ) , r . end ( ) ) ) ,
classify_outliers ( r . begin ( ) , r . end ( ) ) ,
} ;
}
template < typename Clock >
EnvironmentEstimate < FloatDuration < Clock > > estimate_clock_cost ( FloatDuration < Clock > resolution ) {
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auto time_limit = ( std : : min ) (
resolution * clock_cost_estimation_tick_limit ,
FloatDuration < Clock > ( clock_cost_estimation_time_limit ) ) ;
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auto time_clock = [ ] ( int k ) {
return Detail : : measure < Clock > ( [ k ] {
for ( int i = 0 ; i < k ; + + i ) {
volatile auto ignored = Clock : : now ( ) ;
( void ) ignored ;
}
} ) . elapsed ;
} ;
time_clock ( 1 ) ;
int iters = clock_cost_estimation_iterations ;
auto & & r = run_for_at_least < Clock > ( std : : chrono : : duration_cast < ClockDuration < Clock > > ( clock_cost_estimation_time ) , iters , time_clock ) ;
std : : vector < double > times ;
int nsamples = static_cast < int > ( std : : ceil ( time_limit / r . elapsed ) ) ;
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times . reserve ( static_cast < size_t > ( nsamples ) ) ;
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std : : generate_n ( std : : back_inserter ( times ) , nsamples , [ time_clock , & r ] {
return static_cast < double > ( ( time_clock ( r . iterations ) / r . iterations ) . count ( ) ) ;
} ) ;
return {
FloatDuration < Clock > ( mean ( times . begin ( ) , times . end ( ) ) ) ,
classify_outliers ( times . begin ( ) , times . end ( ) ) ,
} ;
}
template < typename Clock >
Environment < FloatDuration < Clock > > measure_environment ( ) {
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# if defined(__clang__)
# pragma clang diagnostic push
# pragma clang diagnostic ignored "-Wexit-time-destructors"
# endif
static Catch : : Detail : : unique_ptr < Environment < FloatDuration < Clock > > > env ;
# if defined(__clang__)
# pragma clang diagnostic pop
# endif
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if ( env ) {
return * env ;
}
auto iters = Detail : : warmup < Clock > ( ) ;
auto resolution = Detail : : estimate_clock_resolution < Clock > ( iters ) ;
auto cost = Detail : : estimate_clock_cost < Clock > ( resolution . mean ) ;
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env = Catch : : Detail : : make_unique < Environment < FloatDuration < Clock > > > ( Environment < FloatDuration < Clock > > { resolution , cost } ) ;
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return * env ;
}
} // namespace Detail
} // namespace Benchmark
} // namespace Catch
# endif // CATCH_ESTIMATE_CLOCK_HPP_INCLUDED
// Adapted from donated nonius code.
# ifndef CATCH_ANALYSE_HPP_INCLUDED
# define CATCH_ANALYSE_HPP_INCLUDED
// Adapted from donated nonius code.
# ifndef CATCH_SAMPLE_ANALYSIS_HPP_INCLUDED
# define CATCH_SAMPLE_ANALYSIS_HPP_INCLUDED
# include <algorithm>
# include <vector>
# include <iterator>
namespace Catch {
namespace Benchmark {
template < typename Duration >
struct SampleAnalysis {
std : : vector < Duration > samples ;
Estimate < Duration > mean ;
Estimate < Duration > standard_deviation ;
OutlierClassification outliers ;
double outlier_variance ;
template < typename Duration2 >
operator SampleAnalysis < Duration2 > ( ) const {
std : : vector < Duration2 > samples2 ;
samples2 . reserve ( samples . size ( ) ) ;
std : : transform ( samples . begin ( ) , samples . end ( ) , std : : back_inserter ( samples2 ) , [ ] ( Duration d ) { return Duration2 ( d ) ; } ) ;
return {
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CATCH_MOVE ( samples2 ) ,
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mean ,
standard_deviation ,
outliers ,
outlier_variance ,
} ;
}
} ;
} // namespace Benchmark
} // namespace Catch
# endif // CATCH_SAMPLE_ANALYSIS_HPP_INCLUDED
# include <algorithm>
# include <iterator>
# include <vector>
namespace Catch {
namespace Benchmark {
namespace Detail {
template < typename Duration , typename Iterator >
SampleAnalysis < Duration > analyse ( const IConfig & cfg , Environment < Duration > , Iterator first , Iterator last ) {
if ( ! cfg . benchmarkNoAnalysis ( ) ) {
std : : vector < double > samples ;
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samples . reserve ( static_cast < size_t > ( last - first ) ) ;
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std : : transform ( first , last , std : : back_inserter ( samples ) , [ ] ( Duration d ) { return d . count ( ) ; } ) ;
auto analysis = Catch : : Benchmark : : Detail : : analyse_samples ( cfg . benchmarkConfidenceInterval ( ) , cfg . benchmarkResamples ( ) , samples . begin ( ) , samples . end ( ) ) ;
auto outliers = Catch : : Benchmark : : Detail : : classify_outliers ( samples . begin ( ) , samples . end ( ) ) ;
auto wrap_estimate = [ ] ( Estimate < double > e ) {
return Estimate < Duration > {
Duration ( e . point ) ,
Duration ( e . lower_bound ) ,
Duration ( e . upper_bound ) ,
e . confidence_interval ,
} ;
} ;
std : : vector < Duration > samples2 ;
samples2 . reserve ( samples . size ( ) ) ;
std : : transform ( samples . begin ( ) , samples . end ( ) , std : : back_inserter ( samples2 ) , [ ] ( double d ) { return Duration ( d ) ; } ) ;
return {
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CATCH_MOVE ( samples2 ) ,
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wrap_estimate ( analysis . mean ) ,
wrap_estimate ( analysis . standard_deviation ) ,
outliers ,
analysis . outlier_variance ,
} ;
} else {
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std : : vector < Duration > samples ;
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samples . reserve ( static_cast < size_t > ( last - first ) ) ;
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Duration mean = Duration ( 0 ) ;
int i = 0 ;
for ( auto it = first ; it < last ; + + it , + + i ) {
samples . push_back ( Duration ( * it ) ) ;
mean + = Duration ( * it ) ;
}
mean / = i ;
return {
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CATCH_MOVE ( samples ) ,
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Estimate < Duration > { mean , mean , mean , 0.0 } ,
Estimate < Duration > { Duration ( 0 ) , Duration ( 0 ) , Duration ( 0 ) , 0.0 } ,
OutlierClassification { } ,
0.0
} ;
}
}
} // namespace Detail
} // namespace Benchmark
} // namespace Catch
# endif // CATCH_ANALYSE_HPP_INCLUDED
# include <algorithm>
# include <functional>
# include <string>
# include <vector>
# include <cmath>
namespace Catch {
namespace Benchmark {
struct Benchmark {
Benchmark ( std : : string & & benchmarkName )
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: name ( CATCH_MOVE ( benchmarkName ) ) { }
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template < class FUN >
Benchmark ( std : : string & & benchmarkName , FUN & & func )
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: fun ( CATCH_MOVE ( func ) ) , name ( CATCH_MOVE ( benchmarkName ) ) { }
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template < typename Clock >
ExecutionPlan < FloatDuration < Clock > > prepare ( const IConfig & cfg , Environment < FloatDuration < Clock > > env ) const {
auto min_time = env . clock_resolution . mean * Detail : : minimum_ticks ;
auto run_time = std : : max ( min_time , std : : chrono : : duration_cast < decltype ( min_time ) > ( cfg . benchmarkWarmupTime ( ) ) ) ;
auto & & test = Detail : : run_for_at_least < Clock > ( std : : chrono : : duration_cast < ClockDuration < Clock > > ( run_time ) , 1 , fun ) ;
int new_iters = static_cast < int > ( std : : ceil ( min_time * test . iterations / test . elapsed ) ) ;
return { new_iters , test . elapsed / test . iterations * new_iters * cfg . benchmarkSamples ( ) , fun , std : : chrono : : duration_cast < FloatDuration < Clock > > ( cfg . benchmarkWarmupTime ( ) ) , Detail : : warmup_iterations } ;
}
template < typename Clock = default_clock >
void run ( ) {
auto const * cfg = getCurrentContext ( ) . getConfig ( ) ;
auto env = Detail : : measure_environment < Clock > ( ) ;
getResultCapture ( ) . benchmarkPreparing ( name ) ;
CATCH_TRY {
auto plan = user_code ( [ & ] {
return prepare < Clock > ( * cfg , env ) ;
} ) ;
BenchmarkInfo info {
name ,
plan . estimated_duration . count ( ) ,
plan . iterations_per_sample ,
cfg - > benchmarkSamples ( ) ,
cfg - > benchmarkResamples ( ) ,
env . clock_resolution . mean . count ( ) ,
env . clock_cost . mean . count ( )
} ;
getResultCapture ( ) . benchmarkStarting ( info ) ;
auto samples = user_code ( [ & ] {
return plan . template run < Clock > ( * cfg , env ) ;
} ) ;
auto analysis = Detail : : analyse ( * cfg , env , samples . begin ( ) , samples . end ( ) ) ;
BenchmarkStats < FloatDuration < Clock > > stats { info , analysis . samples , analysis . mean , analysis . standard_deviation , analysis . outliers , analysis . outlier_variance } ;
getResultCapture ( ) . benchmarkEnded ( stats ) ;
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} CATCH_CATCH_ANON ( TestFailureException ) {
getResultCapture ( ) . benchmarkFailed ( " Benchmark failed due to failed assertion " _sr ) ;
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} CATCH_CATCH_ALL {
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getResultCapture ( ) . benchmarkFailed ( translateActiveException ( ) ) ;
// We let the exception go further up so that the
// test case is marked as failed.
std : : rethrow_exception ( std : : current_exception ( ) ) ;
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}
}
// sets lambda to be used in fun *and* executes benchmark!
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template < typename Fun , std : : enable_if_t < ! Detail : : is_related < Fun , Benchmark > : : value , int > = 0 >
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Benchmark & operator = ( Fun func ) {
fun = Detail : : BenchmarkFunction ( func ) ;
run ( ) ;
return * this ;
}
explicit operator bool ( ) {
return true ;
}
private :
Detail : : BenchmarkFunction fun ;
std : : string name ;
} ;
}
} // namespace Catch
# define INTERNAL_CATCH_GET_1_ARG(arg1, arg2, ...) arg1
# define INTERNAL_CATCH_GET_2_ARG(arg1, arg2, ...) arg2
# define INTERNAL_CATCH_BENCHMARK(BenchmarkName, name, benchmarkIndex)\
if ( Catch : : Benchmark : : Benchmark BenchmarkName { name } ) \
BenchmarkName = [ & ] ( int benchmarkIndex )
# define INTERNAL_CATCH_BENCHMARK_ADVANCED(BenchmarkName, name)\
if ( Catch : : Benchmark : : Benchmark BenchmarkName { name } ) \
BenchmarkName = [ & ]
# if defined(CATCH_CONFIG_PREFIX_ALL)
# define CATCH_BENCHMARK(...) \
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INTERNAL_CATCH_BENCHMARK ( INTERNAL_CATCH_UNIQUE_NAME ( CATCH2_INTERNAL_BENCHMARK_ ) , INTERNAL_CATCH_GET_1_ARG ( __VA_ARGS__ , , ) , INTERNAL_CATCH_GET_2_ARG ( __VA_ARGS__ , , ) )
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# define CATCH_BENCHMARK_ADVANCED(name) \
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INTERNAL_CATCH_BENCHMARK_ADVANCED ( INTERNAL_CATCH_UNIQUE_NAME ( CATCH2_INTERNAL_BENCHMARK_ ) , name )
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# else
# define BENCHMARK(...) \
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INTERNAL_CATCH_BENCHMARK ( INTERNAL_CATCH_UNIQUE_NAME ( CATCH2_INTERNAL_BENCHMARK_ ) , INTERNAL_CATCH_GET_1_ARG ( __VA_ARGS__ , , ) , INTERNAL_CATCH_GET_2_ARG ( __VA_ARGS__ , , ) )
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# define BENCHMARK_ADVANCED(name) \
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INTERNAL_CATCH_BENCHMARK_ADVANCED ( INTERNAL_CATCH_UNIQUE_NAME ( CATCH2_INTERNAL_BENCHMARK_ ) , name )
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# endif
# endif // CATCH_BENCHMARK_HPP_INCLUDED
// Adapted from donated nonius code.
# ifndef CATCH_CONSTRUCTOR_HPP_INCLUDED
# define CATCH_CONSTRUCTOR_HPP_INCLUDED
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# include <type_traits>
namespace Catch {
namespace Benchmark {
namespace Detail {
template < typename T , bool Destruct >
struct ObjectStorage
{
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using TStorage = std : : aligned_storage_t < sizeof ( T ) , std : : alignment_of < T > : : value > ;
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ObjectStorage ( ) : data ( ) { }
ObjectStorage ( const ObjectStorage & other )
{
new ( & data ) T ( other . stored_object ( ) ) ;
}
ObjectStorage ( ObjectStorage & & other )
{
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new ( & data ) T ( CATCH_MOVE ( other . stored_object ( ) ) ) ;
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}
~ ObjectStorage ( ) { destruct_on_exit < T > ( ) ; }
template < typename . . . Args >
void construct ( Args & & . . . args )
{
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new ( & data ) T ( CATCH_FORWARD ( args ) . . . ) ;
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}
template < bool AllowManualDestruction = ! Destruct >
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std : : enable_if_t < AllowManualDestruction > destruct ( )
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{
stored_object ( ) . ~ T ( ) ;
}
private :
// If this is a constructor benchmark, destruct the underlying object
template < typename U >
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void destruct_on_exit ( std : : enable_if_t < Destruct , U > * = 0 ) { destruct < true > ( ) ; }
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// Otherwise, don't
template < typename U >
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void destruct_on_exit ( std : : enable_if_t < ! Destruct , U > * = 0 ) { }
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T & stored_object ( ) {
return * static_cast < T * > ( static_cast < void * > ( & data ) ) ;
}
T const & stored_object ( ) const {
return * static_cast < T * > ( static_cast < void * > ( & data ) ) ;
}
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TStorage data ;
} ;
} // namespace Detail
template < typename T >
using storage_for = Detail : : ObjectStorage < T , true > ;
template < typename T >
using destructable_object = Detail : : ObjectStorage < T , false > ;
} // namespace Benchmark
} // namespace Catch
# endif // CATCH_CONSTRUCTOR_HPP_INCLUDED
# endif // CATCH_BENCHMARK_ALL_HPP_INCLUDED
# ifndef CATCH_APPROX_HPP_INCLUDED
# define CATCH_APPROX_HPP_INCLUDED
# ifndef CATCH_TOSTRING_HPP_INCLUDED
# define CATCH_TOSTRING_HPP_INCLUDED
# include <vector>
# include <cstddef>
# include <type_traits>
# include <string>
# include <string.h>
/** \file
* Wrapper for the WCHAR configuration option
*
* We want to support platforms that do not provide ` wchar_t ` , so we
* sometimes have to disable providing wchar_t overloads through Catch2 ,
* e . g . the StringMaker specialization for ` std : : wstring ` .
*/
# ifndef CATCH_CONFIG_WCHAR_HPP_INCLUDED
# define CATCH_CONFIG_WCHAR_HPP_INCLUDED
// We assume that WCHAR should be enabled by default, and only disabled
// for a shortlist (so far only DJGPP) of compilers.
# if defined(__DJGPP__)
# define CATCH_INTERNAL_CONFIG_NO_WCHAR
# endif // __DJGPP__
# if !defined( CATCH_INTERNAL_CONFIG_NO_WCHAR ) && \
! defined ( CATCH_CONFIG_NO_WCHAR ) & & \
! defined ( CATCH_CONFIG_WCHAR )
# define CATCH_CONFIG_WCHAR
# endif
# endif // CATCH_CONFIG_WCHAR_HPP_INCLUDED
# ifndef CATCH_STREAM_HPP_INCLUDED
# define CATCH_STREAM_HPP_INCLUDED
# include <iosfwd>
# include <cstddef>
# include <ostream>
# include <string>
namespace Catch {
std : : ostream & cout ( ) ;
std : : ostream & cerr ( ) ;
std : : ostream & clog ( ) ;
struct IStream {
virtual ~ IStream ( ) ; // = default
virtual std : : ostream & stream ( ) const = 0 ;
} ;
auto makeStream ( std : : string const & filename ) - > Detail : : unique_ptr < IStream const > ;
class ReusableStringStream : Detail : : NonCopyable {
std : : size_t m_index ;
std : : ostream * m_oss ;
public :
ReusableStringStream ( ) ;
~ ReusableStringStream ( ) ;
//! Returns the serialized state
std : : string str ( ) const ;
//! Sets internal state to `str`
void str ( std : : string const & str ) ;
# if defined(__GNUC__) && !defined(__clang__)
# pragma GCC diagnostic push
// Old versions of GCC do not understand -Wnonnull-compare
# pragma GCC diagnostic ignored "-Wpragmas"
// Streaming a function pointer triggers Waddress and Wnonnull-compare
// on GCC, because it implicitly converts it to bool and then decides
// that the check it uses (a? true : false) is tautological and cannot
// be null...
# pragma GCC diagnostic ignored "-Waddress"
# pragma GCC diagnostic ignored "-Wnonnull-compare"
# endif
template < typename T >
auto operator < < ( T const & value ) - > ReusableStringStream & {
* m_oss < < value ;
return * this ;
}
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# if defined(__GNUC__) && !defined(__clang__)
# pragma GCC diagnostic pop
# endif
auto get ( ) - > std : : ostream & { return * m_oss ; }
} ;
}
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# endif // CATCH_STREAM_HPP_INCLUDED
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# ifndef CATCH_VOID_TYPE_HPP_INCLUDED
# define CATCH_VOID_TYPE_HPP_INCLUDED
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namespace Catch {
namespace Detail {
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template < typename . . . >
struct make_void { using type = void ; } ;
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template < typename . . . Ts >
using void_t = typename make_void < Ts . . . > : : type ;
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} // namespace Detail
} // namespace Catch
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# endif // CATCH_VOID_TYPE_HPP_INCLUDED
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# ifndef CATCH_INTERFACES_ENUM_VALUES_REGISTRY_HPP_INCLUDED
# define CATCH_INTERFACES_ENUM_VALUES_REGISTRY_HPP_INCLUDED
# include <vector>
namespace Catch {
namespace Detail {
struct EnumInfo {
StringRef m_name ;
std : : vector < std : : pair < int , StringRef > > m_values ;
~ EnumInfo ( ) ;
StringRef lookup ( int value ) const ;
} ;
} // namespace Detail
struct IMutableEnumValuesRegistry {
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virtual ~ IMutableEnumValuesRegistry ( ) ; // = default;
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virtual Detail : : EnumInfo const & registerEnum ( StringRef enumName , StringRef allEnums , std : : vector < int > const & values ) = 0 ;
template < typename E >
Detail : : EnumInfo const & registerEnum ( StringRef enumName , StringRef allEnums , std : : initializer_list < E > values ) {
static_assert ( sizeof ( int ) > = sizeof ( E ) , " Cannot serialize enum to int " ) ;
std : : vector < int > intValues ;
intValues . reserve ( values . size ( ) ) ;
for ( auto enumValue : values )
intValues . push_back ( static_cast < int > ( enumValue ) ) ;
return registerEnum ( enumName , allEnums , intValues ) ;
}
} ;
} // Catch
# endif // CATCH_INTERFACES_ENUM_VALUES_REGISTRY_HPP_INCLUDED
# ifdef CATCH_CONFIG_CPP17_STRING_VIEW
# include <string_view>
# endif
# ifdef _MSC_VER
# pragma warning(push)
# pragma warning(disable:4180) // We attempt to stream a function (address) by const&, which MSVC complains about but is harmless
# endif
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// We need a dummy global operator<< so we can bring it into Catch namespace later
struct Catch_global_namespace_dummy { } ;
std : : ostream & operator < < ( std : : ostream & , Catch_global_namespace_dummy ) ;
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namespace Catch {
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// Bring in global namespace operator<< for ADL lookup in
// `IsStreamInsertable` below.
using : : operator < < ;
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namespace Detail {
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constexpr StringRef unprintableString = " {?} " _sr ;
//! Encases `string in quotes, and optionally escapes invisibles
std : : string convertIntoString ( StringRef string , bool escapeInvisibles ) ;
//! Encases `string` in quotes, and escapes invisibles if user requested
//! it via CLI
std : : string convertIntoString ( StringRef string ) ;
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std : : string rawMemoryToString ( const void * object , std : : size_t size ) ;
template < typename T >
std : : string rawMemoryToString ( const T & object ) {
return rawMemoryToString ( & object , sizeof ( object ) ) ;
}
template < typename T >
class IsStreamInsertable {
template < typename Stream , typename U >
static auto test ( int )
- > decltype ( std : : declval < Stream & > ( ) < < std : : declval < U > ( ) , std : : true_type ( ) ) ;
template < typename , typename >
static auto test ( . . . ) - > std : : false_type ;
public :
static const bool value = decltype ( test < std : : ostream , const T & > ( 0 ) ) : : value ;
} ;
template < typename E >
std : : string convertUnknownEnumToString ( E e ) ;
template < typename T >
std : : enable_if_t <
! std : : is_enum < T > : : value & & ! std : : is_base_of < std : : exception , T > : : value ,
std : : string > convertUnstreamable ( T const & ) {
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return std : : string ( Detail : : unprintableString ) ;
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}
template < typename T >
std : : enable_if_t <
! std : : is_enum < T > : : value & & std : : is_base_of < std : : exception , T > : : value ,
std : : string > convertUnstreamable ( T const & ex ) {
return ex . what ( ) ;
}
template < typename T >
std : : enable_if_t <
std : : is_enum < T > : : value ,
std : : string > convertUnstreamable ( T const & value ) {
return convertUnknownEnumToString ( value ) ;
}
# if defined(_MANAGED)
//! Convert a CLR string to a utf8 std::string
template < typename T >
std : : string clrReferenceToString ( T ^ ref ) {
if ( ref = = nullptr )
return std : : string ( " null " ) ;
auto bytes = System : : Text : : Encoding : : UTF8 - > GetBytes ( ref - > ToString ( ) ) ;
cli : : pin_ptr < System : : Byte > p = & bytes [ 0 ] ;
return std : : string ( reinterpret_cast < char const * > ( p ) , bytes - > Length ) ;
}
# endif
} // namespace Detail
// If we decide for C++14, change these to enable_if_ts
template < typename T , typename = void >
struct StringMaker {
template < typename Fake = T >
static
std : : enable_if_t < : : Catch : : Detail : : IsStreamInsertable < Fake > : : value , std : : string >
convert ( const Fake & value ) {
ReusableStringStream rss ;
// NB: call using the function-like syntax to avoid ambiguity with
// user-defined templated operator<< under clang.
rss . operator < < ( value ) ;
return rss . str ( ) ;
}
template < typename Fake = T >
static
std : : enable_if_t < ! : : Catch : : Detail : : IsStreamInsertable < Fake > : : value , std : : string >
convert ( const Fake & value ) {
# if !defined(CATCH_CONFIG_FALLBACK_STRINGIFIER)
return Detail : : convertUnstreamable ( value ) ;
# else
return CATCH_CONFIG_FALLBACK_STRINGIFIER ( value ) ;
# endif
}
} ;
namespace Detail {
// This function dispatches all stringification requests inside of Catch.
// Should be preferably called fully qualified, like ::Catch::Detail::stringify
template < typename T >
std : : string stringify ( const T & e ) {
return : : Catch : : StringMaker < std : : remove_cv_t < std : : remove_reference_t < T > > > : : convert ( e ) ;
}
template < typename E >
std : : string convertUnknownEnumToString ( E e ) {
return : : Catch : : Detail : : stringify ( static_cast < std : : underlying_type_t < E > > ( e ) ) ;
}
# if defined(_MANAGED)
template < typename T >
std : : string stringify ( T ^ e ) {
return : : Catch : : StringMaker < T ^ > : : convert ( e ) ;
}
# endif
} // namespace Detail
// Some predefined specializations
template < >
struct StringMaker < std : : string > {
static std : : string convert ( const std : : string & str ) ;
} ;
# ifdef CATCH_CONFIG_CPP17_STRING_VIEW
template < >
struct StringMaker < std : : string_view > {
static std : : string convert ( std : : string_view str ) ;
} ;
# endif
template < >
struct StringMaker < char const * > {
static std : : string convert ( char const * str ) ;
} ;
template < >
struct StringMaker < char * > {
static std : : string convert ( char * str ) ;
} ;
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# if defined(CATCH_CONFIG_WCHAR)
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template < >
struct StringMaker < std : : wstring > {
static std : : string convert ( const std : : wstring & wstr ) ;
} ;
# ifdef CATCH_CONFIG_CPP17_STRING_VIEW
template < >
struct StringMaker < std : : wstring_view > {
static std : : string convert ( std : : wstring_view str ) ;
} ;
# endif
template < >
struct StringMaker < wchar_t const * > {
static std : : string convert ( wchar_t const * str ) ;
} ;
template < >
struct StringMaker < wchar_t * > {
static std : : string convert ( wchar_t * str ) ;
} ;
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# endif // CATCH_CONFIG_WCHAR
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template < size_t SZ >
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struct StringMaker < char [ SZ ] > {
static std : : string convert ( char const * str ) {
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// Note that `strnlen` is not actually part of standard C++,
// but both POSIX and Windows cstdlib provide it.
return Detail : : convertIntoString (
StringRef ( str , strnlen ( str , SZ ) ) ) ;
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}
} ;
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template < size_t SZ >
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struct StringMaker < signed char [ SZ ] > {
static std : : string convert ( signed char const * str ) {
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// See the plain `char const*` overload
auto reinterpreted = reinterpret_cast < char const * > ( str ) ;
return Detail : : convertIntoString (
StringRef ( reinterpreted , strnlen ( reinterpreted , SZ ) ) ) ;
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}
} ;
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template < size_t SZ >
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struct StringMaker < unsigned char [ SZ ] > {
static std : : string convert ( unsigned char const * str ) {
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// See the plain `char const*` overload
auto reinterpreted = reinterpret_cast < char const * > ( str ) ;
return Detail : : convertIntoString (
StringRef ( reinterpreted , strnlen ( reinterpreted , SZ ) ) ) ;
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}
} ;
# if defined(CATCH_CONFIG_CPP17_BYTE)
template < >
struct StringMaker < std : : byte > {
static std : : string convert ( std : : byte value ) ;
} ;
# endif // defined(CATCH_CONFIG_CPP17_BYTE)
template < >
struct StringMaker < int > {
static std : : string convert ( int value ) ;
} ;
template < >
struct StringMaker < long > {
static std : : string convert ( long value ) ;
} ;
template < >
struct StringMaker < long long > {
static std : : string convert ( long long value ) ;
} ;
template < >
struct StringMaker < unsigned int > {
static std : : string convert ( unsigned int value ) ;
} ;
template < >
struct StringMaker < unsigned long > {
static std : : string convert ( unsigned long value ) ;
} ;
template < >
struct StringMaker < unsigned long long > {
static std : : string convert ( unsigned long long value ) ;
} ;
template < >
struct StringMaker < bool > {
static std : : string convert ( bool b ) {
using namespace std : : string_literals ;
return b ? " true " s : " false " s ;
}
} ;
template < >
struct StringMaker < char > {
static std : : string convert ( char c ) ;
} ;
template < >
struct StringMaker < signed char > {
static std : : string convert ( signed char c ) ;
} ;
template < >
struct StringMaker < unsigned char > {
static std : : string convert ( unsigned char c ) ;
} ;
template < >
struct StringMaker < std : : nullptr_t > {
static std : : string convert ( std : : nullptr_t ) {
using namespace std : : string_literals ;
return " nullptr " s ;
}
} ;
template < >
struct StringMaker < float > {
static std : : string convert ( float value ) ;
static int precision ;
} ;
template < >
struct StringMaker < double > {
static std : : string convert ( double value ) ;
static int precision ;
} ;
template < typename T >
struct StringMaker < T * > {
template < typename U >
static std : : string convert ( U * p ) {
if ( p ) {
return : : Catch : : Detail : : rawMemoryToString ( p ) ;
} else {
return " nullptr " ;
}
}
} ;
template < typename R , typename C >
struct StringMaker < R C : : * > {
static std : : string convert ( R C : : * p ) {
if ( p ) {
return : : Catch : : Detail : : rawMemoryToString ( p ) ;
} else {
return " nullptr " ;
}
}
} ;
# if defined(_MANAGED)
template < typename T >
struct StringMaker < T ^ > {
static std : : string convert ( T ^ ref ) {
return : : Catch : : Detail : : clrReferenceToString ( ref ) ;
}
} ;
# endif
namespace Detail {
template < typename InputIterator , typename Sentinel = InputIterator >
std : : string rangeToString ( InputIterator first , Sentinel last ) {
ReusableStringStream rss ;
rss < < " { " ;
if ( first ! = last ) {
rss < < : : Catch : : Detail : : stringify ( * first ) ;
for ( + + first ; first ! = last ; + + first )
rss < < " , " < < : : Catch : : Detail : : stringify ( * first ) ;
}
rss < < " } " ;
return rss . str ( ) ;
}
}
} // namespace Catch
//////////////////////////////////////////////////////
// Separate std-lib types stringification, so it can be selectively enabled
// This means that we do not bring in their headers
# if defined(CATCH_CONFIG_ENABLE_ALL_STRINGMAKERS)
# define CATCH_CONFIG_ENABLE_PAIR_STRINGMAKER
# define CATCH_CONFIG_ENABLE_TUPLE_STRINGMAKER
# define CATCH_CONFIG_ENABLE_VARIANT_STRINGMAKER
# define CATCH_CONFIG_ENABLE_OPTIONAL_STRINGMAKER
# endif
// Separate std::pair specialization
# if defined(CATCH_CONFIG_ENABLE_PAIR_STRINGMAKER)
# include <utility>
namespace Catch {
template < typename T1 , typename T2 >
struct StringMaker < std : : pair < T1 , T2 > > {
static std : : string convert ( const std : : pair < T1 , T2 > & pair ) {
ReusableStringStream rss ;
rss < < " { "
< < : : Catch : : Detail : : stringify ( pair . first )
< < " , "
< < : : Catch : : Detail : : stringify ( pair . second )
< < " } " ;
return rss . str ( ) ;
}
} ;
}
# endif // CATCH_CONFIG_ENABLE_PAIR_STRINGMAKER
# if defined(CATCH_CONFIG_ENABLE_OPTIONAL_STRINGMAKER) && defined(CATCH_CONFIG_CPP17_OPTIONAL)
# include <optional>
namespace Catch {
template < typename T >
struct StringMaker < std : : optional < T > > {
static std : : string convert ( const std : : optional < T > & optional ) {
if ( optional . has_value ( ) ) {
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return : : Catch : : Detail : : stringify ( * optional ) ;
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} else {
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return " { } " ;
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}
}
} ;
}
# endif // CATCH_CONFIG_ENABLE_OPTIONAL_STRINGMAKER
// Separate std::tuple specialization
# if defined(CATCH_CONFIG_ENABLE_TUPLE_STRINGMAKER)
# include <tuple>
namespace Catch {
namespace Detail {
template <
typename Tuple ,
std : : size_t N = 0 ,
bool = ( N < std : : tuple_size < Tuple > : : value )
>
struct TupleElementPrinter {
static void print ( const Tuple & tuple , std : : ostream & os ) {
os < < ( N ? " , " : " " )
< < : : Catch : : Detail : : stringify ( std : : get < N > ( tuple ) ) ;
TupleElementPrinter < Tuple , N + 1 > : : print ( tuple , os ) ;
}
} ;
template <
typename Tuple ,
std : : size_t N
>
struct TupleElementPrinter < Tuple , N , false > {
static void print ( const Tuple & , std : : ostream & ) { }
} ;
}
template < typename . . . Types >
struct StringMaker < std : : tuple < Types . . . > > {
static std : : string convert ( const std : : tuple < Types . . . > & tuple ) {
ReusableStringStream rss ;
rss < < ' { ' ;
Detail : : TupleElementPrinter < std : : tuple < Types . . . > > : : print ( tuple , rss . get ( ) ) ;
rss < < " } " ;
return rss . str ( ) ;
}
} ;
}
# endif // CATCH_CONFIG_ENABLE_TUPLE_STRINGMAKER
# if defined(CATCH_CONFIG_ENABLE_VARIANT_STRINGMAKER) && defined(CATCH_CONFIG_CPP17_VARIANT)
# include <variant>
namespace Catch {
template < >
struct StringMaker < std : : monostate > {
static std : : string convert ( const std : : monostate & ) {
return " { } " ;
}
} ;
template < typename . . . Elements >
struct StringMaker < std : : variant < Elements . . . > > {
static std : : string convert ( const std : : variant < Elements . . . > & variant ) {
if ( variant . valueless_by_exception ( ) ) {
return " {valueless variant} " ;
} else {
return std : : visit (
[ ] ( const auto & value ) {
return : : Catch : : Detail : : stringify ( value ) ;
} ,
variant
) ;
}
}
} ;
}
# endif // CATCH_CONFIG_ENABLE_VARIANT_STRINGMAKER
namespace Catch {
// Import begin/ end from std here
using std : : begin ;
using std : : end ;
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namespace Detail {
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template < typename T , typename = void >
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struct is_range_impl : std : : false_type { } ;
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template < typename T >
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struct is_range_impl < T , void_t < decltype ( begin ( std : : declval < T > ( ) ) ) > > : std : : true_type { } ;
} // namespace Detail
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template < typename T >
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struct is_range : Detail : : is_range_impl < T > { } ;
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# if defined(_MANAGED) // Managed types are never ranges
template < typename T >
struct is_range < T ^ > {
static const bool value = false ;
} ;
# endif
template < typename Range >
std : : string rangeToString ( Range const & range ) {
return : : Catch : : Detail : : rangeToString ( begin ( range ) , end ( range ) ) ;
}
// Handle vector<bool> specially
template < typename Allocator >
std : : string rangeToString ( std : : vector < bool , Allocator > const & v ) {
ReusableStringStream rss ;
rss < < " { " ;
bool first = true ;
for ( bool b : v ) {
if ( first )
first = false ;
else
rss < < " , " ;
rss < < : : Catch : : Detail : : stringify ( b ) ;
}
rss < < " } " ;
return rss . str ( ) ;
}
template < typename R >
struct StringMaker < R , std : : enable_if_t < is_range < R > : : value & & ! : : Catch : : Detail : : IsStreamInsertable < R > : : value > > {
static std : : string convert ( R const & range ) {
return rangeToString ( range ) ;
}
} ;
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template < typename T , size_t SZ >
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struct StringMaker < T [ SZ ] > {
static std : : string convert ( T const ( & arr ) [ SZ ] ) {
return rangeToString ( arr ) ;
}
} ;
} // namespace Catch
// Separate std::chrono::duration specialization
# include <ctime>
# include <ratio>
# include <chrono>
namespace Catch {
template < class Ratio >
struct ratio_string {
static std : : string symbol ( ) {
Catch : : ReusableStringStream rss ;
rss < < ' [ ' < < Ratio : : num < < ' / '
< < Ratio : : den < < ' ] ' ;
return rss . str ( ) ;
}
} ;
template < >
struct ratio_string < std : : atto > {
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static char symbol ( ) { return ' a ' ; }
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} ;
template < >
struct ratio_string < std : : femto > {
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static char symbol ( ) { return ' f ' ; }
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} ;
template < >
struct ratio_string < std : : pico > {
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static char symbol ( ) { return ' p ' ; }
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} ;
template < >
struct ratio_string < std : : nano > {
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static char symbol ( ) { return ' n ' ; }
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} ;
template < >
struct ratio_string < std : : micro > {
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static char symbol ( ) { return ' u ' ; }
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} ;
template < >
struct ratio_string < std : : milli > {
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static char symbol ( ) { return ' m ' ; }
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} ;
////////////
// std::chrono::duration specializations
template < typename Value , typename Ratio >
struct StringMaker < std : : chrono : : duration < Value , Ratio > > {
static std : : string convert ( std : : chrono : : duration < Value , Ratio > const & duration ) {
ReusableStringStream rss ;
rss < < duration . count ( ) < < ' ' < < ratio_string < Ratio > : : symbol ( ) < < ' s ' ;
return rss . str ( ) ;
}
} ;
template < typename Value >
struct StringMaker < std : : chrono : : duration < Value , std : : ratio < 1 > > > {
static std : : string convert ( std : : chrono : : duration < Value , std : : ratio < 1 > > const & duration ) {
ReusableStringStream rss ;
rss < < duration . count ( ) < < " s " ;
return rss . str ( ) ;
}
} ;
template < typename Value >
struct StringMaker < std : : chrono : : duration < Value , std : : ratio < 60 > > > {
static std : : string convert ( std : : chrono : : duration < Value , std : : ratio < 60 > > const & duration ) {
ReusableStringStream rss ;
rss < < duration . count ( ) < < " m " ;
return rss . str ( ) ;
}
} ;
template < typename Value >
struct StringMaker < std : : chrono : : duration < Value , std : : ratio < 3600 > > > {
static std : : string convert ( std : : chrono : : duration < Value , std : : ratio < 3600 > > const & duration ) {
ReusableStringStream rss ;
rss < < duration . count ( ) < < " h " ;
return rss . str ( ) ;
}
} ;
////////////
// std::chrono::time_point specialization
// Generic time_point cannot be specialized, only std::chrono::time_point<system_clock>
template < typename Clock , typename Duration >
struct StringMaker < std : : chrono : : time_point < Clock , Duration > > {
static std : : string convert ( std : : chrono : : time_point < Clock , Duration > const & time_point ) {
return : : Catch : : Detail : : stringify ( time_point . time_since_epoch ( ) ) + " since epoch " ;
}
} ;
// std::chrono::time_point<system_clock> specialization
template < typename Duration >
struct StringMaker < std : : chrono : : time_point < std : : chrono : : system_clock , Duration > > {
static std : : string convert ( std : : chrono : : time_point < std : : chrono : : system_clock , Duration > const & time_point ) {
auto converted = std : : chrono : : system_clock : : to_time_t ( time_point ) ;
# ifdef _MSC_VER
std : : tm timeInfo = { } ;
gmtime_s ( & timeInfo , & converted ) ;
# else
std : : tm * timeInfo = std : : gmtime ( & converted ) ;
# endif
auto const timeStampSize = sizeof ( " 2017-01-16T17:06:45Z " ) ;
char timeStamp [ timeStampSize ] ;
const char * const fmt = " %Y-%m-%dT%H:%M:%SZ " ;
# ifdef _MSC_VER
std : : strftime ( timeStamp , timeStampSize , fmt , & timeInfo ) ;
# else
std : : strftime ( timeStamp , timeStampSize , fmt , timeInfo ) ;
# endif
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return std : : string ( timeStamp , timeStampSize - 1 ) ;
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}
} ;
}
# define INTERNAL_CATCH_REGISTER_ENUM( enumName, ... ) \
namespace Catch { \
template < > struct StringMaker < enumName > { \
static std : : string convert ( enumName value ) { \
static const auto & enumInfo = : : Catch : : getMutableRegistryHub ( ) . getMutableEnumValuesRegistry ( ) . registerEnum ( # enumName , # __VA_ARGS__ , { __VA_ARGS__ } ) ; \
return static_cast < std : : string > ( enumInfo . lookup ( static_cast < int > ( value ) ) ) ; \
} \
} ; \
}
# define CATCH_REGISTER_ENUM( enumName, ... ) INTERNAL_CATCH_REGISTER_ENUM( enumName, __VA_ARGS__ )
# ifdef _MSC_VER
# pragma warning(pop)
# endif
# endif // CATCH_TOSTRING_HPP_INCLUDED
# include <type_traits>
namespace Catch {
class Approx {
private :
bool equalityComparisonImpl ( double other ) const ;
// Sets and validates the new margin (margin >= 0)
void setMargin ( double margin ) ;
// Sets and validates the new epsilon (0 < epsilon < 1)
void setEpsilon ( double epsilon ) ;
public :
explicit Approx ( double value ) ;
static Approx custom ( ) ;
Approx operator - ( ) const ;
template < typename T , typename = std : : enable_if_t < std : : is_constructible < double , T > : : value > >
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Approx operator ( ) ( T const & value ) const {
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Approx approx ( static_cast < double > ( value ) ) ;
approx . m_epsilon = m_epsilon ;
approx . m_margin = m_margin ;
approx . m_scale = m_scale ;
return approx ;
}
template < typename T , typename = std : : enable_if_t < std : : is_constructible < double , T > : : value > >
explicit Approx ( T const & value ) : Approx ( static_cast < double > ( value ) )
{ }
template < typename T , typename = std : : enable_if_t < std : : is_constructible < double , T > : : value > >
friend bool operator = = ( const T & lhs , Approx const & rhs ) {
auto lhs_v = static_cast < double > ( lhs ) ;
return rhs . equalityComparisonImpl ( lhs_v ) ;
}
template < typename T , typename = std : : enable_if_t < std : : is_constructible < double , T > : : value > >
friend bool operator = = ( Approx const & lhs , const T & rhs ) {
return operator = = ( rhs , lhs ) ;
}
template < typename T , typename = std : : enable_if_t < std : : is_constructible < double , T > : : value > >
friend bool operator ! = ( T const & lhs , Approx const & rhs ) {
return ! operator = = ( lhs , rhs ) ;
}
template < typename T , typename = std : : enable_if_t < std : : is_constructible < double , T > : : value > >
friend bool operator ! = ( Approx const & lhs , T const & rhs ) {
return ! operator = = ( rhs , lhs ) ;
}
template < typename T , typename = std : : enable_if_t < std : : is_constructible < double , T > : : value > >
friend bool operator < = ( T const & lhs , Approx const & rhs ) {
return static_cast < double > ( lhs ) < rhs . m_value | | lhs = = rhs ;
}
template < typename T , typename = std : : enable_if_t < std : : is_constructible < double , T > : : value > >
friend bool operator < = ( Approx const & lhs , T const & rhs ) {
return lhs . m_value < static_cast < double > ( rhs ) | | lhs = = rhs ;
}
template < typename T , typename = std : : enable_if_t < std : : is_constructible < double , T > : : value > >
friend bool operator > = ( T const & lhs , Approx const & rhs ) {
return static_cast < double > ( lhs ) > rhs . m_value | | lhs = = rhs ;
}
template < typename T , typename = std : : enable_if_t < std : : is_constructible < double , T > : : value > >
friend bool operator > = ( Approx const & lhs , T const & rhs ) {
return lhs . m_value > static_cast < double > ( rhs ) | | lhs = = rhs ;
}
template < typename T , typename = std : : enable_if_t < std : : is_constructible < double , T > : : value > >
Approx & epsilon ( T const & newEpsilon ) {
double epsilonAsDouble = static_cast < double > ( newEpsilon ) ;
setEpsilon ( epsilonAsDouble ) ;
return * this ;
}
template < typename T , typename = std : : enable_if_t < std : : is_constructible < double , T > : : value > >
Approx & margin ( T const & newMargin ) {
double marginAsDouble = static_cast < double > ( newMargin ) ;
setMargin ( marginAsDouble ) ;
return * this ;
}
template < typename T , typename = std : : enable_if_t < std : : is_constructible < double , T > : : value > >
Approx & scale ( T const & newScale ) {
m_scale = static_cast < double > ( newScale ) ;
return * this ;
}
std : : string toString ( ) const ;
private :
double m_epsilon ;
double m_margin ;
double m_scale ;
double m_value ;
} ;
namespace literals {
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Approx operator " " _a ( long double val ) ;
Approx operator " " _a ( unsigned long long val ) ;
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} // end namespace literals
template < >
struct StringMaker < Catch : : Approx > {
static std : : string convert ( Catch : : Approx const & value ) ;
} ;
} // end namespace Catch
# endif // CATCH_APPROX_HPP_INCLUDED
# ifndef CATCH_CONFIG_HPP_INCLUDED
# define CATCH_CONFIG_HPP_INCLUDED
# ifndef CATCH_TEST_SPEC_HPP_INCLUDED
# define CATCH_TEST_SPEC_HPP_INCLUDED
# ifdef __clang__
# pragma clang diagnostic push
# pragma clang diagnostic ignored "-Wpadded"
# endif
# ifndef CATCH_WILDCARD_PATTERN_HPP_INCLUDED
# define CATCH_WILDCARD_PATTERN_HPP_INCLUDED
# ifndef CATCH_CASE_SENSITIVE_HPP_INCLUDED
# define CATCH_CASE_SENSITIVE_HPP_INCLUDED
namespace Catch {
enum class CaseSensitive { Yes , No } ;
} // namespace Catch
# endif // CATCH_CASE_SENSITIVE_HPP_INCLUDED
# include <string>
namespace Catch
{
class WildcardPattern {
enum WildcardPosition {
NoWildcard = 0 ,
WildcardAtStart = 1 ,
WildcardAtEnd = 2 ,
WildcardAtBothEnds = WildcardAtStart | WildcardAtEnd
} ;
public :
WildcardPattern ( std : : string const & pattern , CaseSensitive caseSensitivity ) ;
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bool matches ( std : : string const & str ) const ;
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private :
std : : string normaliseString ( std : : string const & str ) const ;
CaseSensitive m_caseSensitivity ;
WildcardPosition m_wildcard = NoWildcard ;
std : : string m_pattern ;
} ;
}
# endif // CATCH_WILDCARD_PATTERN_HPP_INCLUDED
# include <string>
# include <vector>
namespace Catch {
struct IConfig ;
struct TestCaseInfo ;
class TestCaseHandle ;
class TestSpec {
class Pattern {
public :
explicit Pattern ( std : : string const & name ) ;
virtual ~ Pattern ( ) ;
virtual bool matches ( TestCaseInfo const & testCase ) const = 0 ;
std : : string const & name ( ) const ;
private :
std : : string const m_name ;
} ;
class NamePattern : public Pattern {
public :
explicit NamePattern ( std : : string const & name , std : : string const & filterString ) ;
bool matches ( TestCaseInfo const & testCase ) const override ;
private :
WildcardPattern m_wildcardPattern ;
} ;
class TagPattern : public Pattern {
public :
explicit TagPattern ( std : : string const & tag , std : : string const & filterString ) ;
bool matches ( TestCaseInfo const & testCase ) const override ;
private :
std : : string m_tag ;
} ;
struct Filter {
std : : vector < Detail : : unique_ptr < Pattern > > m_required ;
std : : vector < Detail : : unique_ptr < Pattern > > m_forbidden ;
bool matches ( TestCaseInfo const & testCase ) const ;
std : : string name ( ) const ;
} ;
public :
struct FilterMatch {
std : : string name ;
std : : vector < TestCaseHandle const * > tests ;
} ;
using Matches = std : : vector < FilterMatch > ;
using vectorStrings = std : : vector < std : : string > ;
bool hasFilters ( ) const ;
bool matches ( TestCaseInfo const & testCase ) const ;
Matches matchesByFilter ( std : : vector < TestCaseHandle > const & testCases , IConfig const & config ) const ;
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const vectorStrings & getInvalidSpecs ( ) const ;
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private :
std : : vector < Filter > m_filters ;
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std : : vector < std : : string > m_invalidSpecs ;
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friend class TestSpecParser ;
} ;
}
# ifdef __clang__
# pragma clang diagnostic pop
# endif
# endif // CATCH_TEST_SPEC_HPP_INCLUDED
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# ifndef CATCH_OPTIONAL_HPP_INCLUDED
# define CATCH_OPTIONAL_HPP_INCLUDED
namespace Catch {
// An optional type
template < typename T >
class Optional {
public :
Optional ( ) : nullableValue ( nullptr ) { }
Optional ( T const & _value )
: nullableValue ( new ( storage ) T ( _value ) )
{ }
Optional ( Optional const & _other )
: nullableValue ( _other ? new ( storage ) T ( * _other ) : nullptr )
{ }
~ Optional ( ) {
reset ( ) ;
}
Optional & operator = ( Optional const & _other ) {
if ( & _other ! = this ) {
reset ( ) ;
if ( _other )
nullableValue = new ( storage ) T ( * _other ) ;
}
return * this ;
}
Optional & operator = ( T const & _value ) {
reset ( ) ;
nullableValue = new ( storage ) T ( _value ) ;
return * this ;
}
void reset ( ) {
if ( nullableValue )
nullableValue - > ~ T ( ) ;
nullableValue = nullptr ;
}
T & operator * ( ) {
assert ( nullableValue ) ;
return * nullableValue ;
}
T const & operator * ( ) const {
assert ( nullableValue ) ;
return * nullableValue ;
}
T * operator - > ( ) {
assert ( nullableValue ) ;
return nullableValue ;
}
const T * operator - > ( ) const {
assert ( nullableValue ) ;
return nullableValue ;
}
T valueOr ( T const & defaultValue ) const {
return nullableValue ? * nullableValue : defaultValue ;
}
bool some ( ) const { return nullableValue ! = nullptr ; }
bool none ( ) const { return nullableValue = = nullptr ; }
bool operator ! ( ) const { return nullableValue = = nullptr ; }
explicit operator bool ( ) const {
return some ( ) ;
}
friend bool operator = = ( Optional const & a , Optional const & b ) {
if ( a . none ( ) & & b . none ( ) ) {
return true ;
} else if ( a . some ( ) & & b . some ( ) ) {
return * a = = * b ;
} else {
return false ;
}
}
friend bool operator ! = ( Optional const & a , Optional const & b ) {
return ! ( a = = b ) ;
}
private :
T * nullableValue ;
alignas ( alignof ( T ) ) char storage [ sizeof ( T ) ] ;
} ;
} // end namespace Catch
# endif // CATCH_OPTIONAL_HPP_INCLUDED
# ifndef CATCH_RANDOM_SEED_GENERATION_HPP_INCLUDED
# define CATCH_RANDOM_SEED_GENERATION_HPP_INCLUDED
# include <cstdint>
namespace Catch {
enum class GenerateFrom {
Time ,
RandomDevice ,
//! Currently equivalent to RandomDevice, but can change at any point
Default
} ;
std : : uint32_t generateRandomSeed ( GenerateFrom from ) ;
} // end namespace Catch
# endif // CATCH_RANDOM_SEED_GENERATION_HPP_INCLUDED
# include <iosfwd>
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# include <vector>
# include <string>
namespace Catch {
struct IStream ;
struct ConfigData {
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struct ReporterAndFile {
std : : string reporterName ;
// If none, the output goes to the default output.
Optional < std : : string > outputFileName ;
friend bool operator = = ( ReporterAndFile const & lhs , ReporterAndFile const & rhs ) {
return lhs . reporterName = = rhs . reporterName & & lhs . outputFileName = = rhs . outputFileName ;
}
friend std : : ostream & operator < < ( std : : ostream & os , ReporterAndFile const & reporter ) ;
} ;
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bool listTests = false ;
bool listTags = false ;
bool listReporters = false ;
bool showSuccessfulTests = false ;
bool shouldDebugBreak = false ;
bool noThrow = false ;
bool showHelp = false ;
bool showInvisibles = false ;
bool filenamesAsTags = false ;
bool libIdentify = false ;
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bool allowZeroTests = false ;
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int abortAfter = - 1 ;
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uint32_t rngSeed = generateRandomSeed ( GenerateFrom : : Default ) ;
unsigned int shardCount = 1 ;
unsigned int shardIndex = 0 ;
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bool benchmarkNoAnalysis = false ;
unsigned int benchmarkSamples = 100 ;
double benchmarkConfidenceInterval = 0.95 ;
unsigned int benchmarkResamples = 100000 ;
std : : chrono : : milliseconds : : rep benchmarkWarmupTime = 100 ;
Verbosity verbosity = Verbosity : : Normal ;
WarnAbout : : What warnings = WarnAbout : : Nothing ;
ShowDurations showDurations = ShowDurations : : DefaultForReporter ;
double minDuration = - 1 ;
TestRunOrder runOrder = TestRunOrder : : Declared ;
UseColour useColour = UseColour : : Auto ;
WaitForKeypress : : When waitForKeypress = WaitForKeypress : : Never ;
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std : : string defaultOutputFilename ;
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std : : string name ;
std : : string processName ;
# ifndef CATCH_CONFIG_DEFAULT_REPORTER
# define CATCH_CONFIG_DEFAULT_REPORTER "console"
# endif
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std : : vector < ReporterAndFile > reporterSpecifications = {
{ CATCH_CONFIG_DEFAULT_REPORTER , { } }
} ;
// Internal: used as parser state
bool _nonDefaultReporterSpecifications = false ;
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# undef CATCH_CONFIG_DEFAULT_REPORTER
std : : vector < std : : string > testsOrTags ;
std : : vector < std : : string > sectionsToRun ;
} ;
class Config : public IConfig {
public :
Config ( ) = default ;
Config ( ConfigData const & data ) ;
~ Config ( ) override ; // = default in the cpp file
bool listTests ( ) const ;
bool listTags ( ) const ;
bool listReporters ( ) const ;
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std : : vector < ConfigData : : ReporterAndFile > const & getReportersAndOutputFiles ( ) const ;
std : : ostream & getReporterOutputStream ( std : : size_t reporterIdx ) const ;
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std : : vector < std : : string > const & getTestsOrTags ( ) const override ;
std : : vector < std : : string > const & getSectionsToRun ( ) const override ;
TestSpec const & testSpec ( ) const override ;
bool hasTestFilters ( ) const override ;
bool showHelp ( ) const ;
// IConfig interface
bool allowThrows ( ) const override ;
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std : : ostream & defaultStream ( ) const override ;
StringRef name ( ) const override ;
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bool includeSuccessfulResults ( ) const override ;
bool warnAboutMissingAssertions ( ) const override ;
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bool warnAboutUnmatchedTestSpecs ( ) const override ;
bool zeroTestsCountAsSuccess ( ) const override ;
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ShowDurations showDurations ( ) const override ;
double minDuration ( ) const override ;
TestRunOrder runOrder ( ) const override ;
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uint32_t rngSeed ( ) const override ;
unsigned int shardCount ( ) const override ;
unsigned int shardIndex ( ) const override ;
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UseColour useColour ( ) const override ;
bool shouldDebugBreak ( ) const override ;
int abortAfter ( ) const override ;
bool showInvisibles ( ) const override ;
Verbosity verbosity ( ) const override ;
bool benchmarkNoAnalysis ( ) const override ;
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unsigned int benchmarkSamples ( ) const override ;
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double benchmarkConfidenceInterval ( ) const override ;
unsigned int benchmarkResamples ( ) const override ;
std : : chrono : : milliseconds benchmarkWarmupTime ( ) const override ;
private :
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Detail : : unique_ptr < IStream const > openStream ( std : : string const & outputFileName ) ;
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ConfigData m_data ;
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Detail : : unique_ptr < IStream const > m_defaultStream ;
std : : vector < Detail : : unique_ptr < IStream const > > m_reporterStreams ;
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TestSpec m_testSpec ;
bool m_hasTestFilters = false ;
} ;
} // end namespace Catch
# endif // CATCH_CONFIG_HPP_INCLUDED
# ifndef CATCH_MESSAGE_HPP_INCLUDED
# define CATCH_MESSAGE_HPP_INCLUDED
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# ifndef CATCH_STREAM_END_STOP_HPP_INCLUDED
# define CATCH_STREAM_END_STOP_HPP_INCLUDED
namespace Catch {
// Use this in variadic streaming macros to allow
// << +StreamEndStop
// as well as
// << stuff +StreamEndStop
struct StreamEndStop {
StringRef operator + ( ) const { return StringRef ( ) ; }
template < typename T >
friend T const & operator + ( T const & value , StreamEndStop ) {
return value ;
}
} ;
} // namespace Catch
# endif // CATCH_STREAM_END_STOP_HPP_INCLUDED
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# include <string>
# include <vector>
namespace Catch {
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struct SourceLineInfo ;
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struct MessageStream {
template < typename T >
MessageStream & operator < < ( T const & value ) {
m_stream < < value ;
return * this ;
}
ReusableStringStream m_stream ;
} ;
struct MessageBuilder : MessageStream {
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MessageBuilder ( StringRef macroName ,
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SourceLineInfo const & lineInfo ,
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ResultWas : : OfType type ) :
m_info ( macroName , lineInfo , type ) { }
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template < typename T >
MessageBuilder & operator < < ( T const & value ) {
m_stream < < value ;
return * this ;
}
MessageInfo m_info ;
} ;
class ScopedMessage {
public :
explicit ScopedMessage ( MessageBuilder const & builder ) ;
ScopedMessage ( ScopedMessage & duplicate ) = delete ;
ScopedMessage ( ScopedMessage & & old ) noexcept ;
~ ScopedMessage ( ) ;
MessageInfo m_info ;
bool m_moved = false ;
} ;
class Capturer {
std : : vector < MessageInfo > m_messages ;
IResultCapture & m_resultCapture = getResultCapture ( ) ;
size_t m_captured = 0 ;
public :
Capturer ( StringRef macroName , SourceLineInfo const & lineInfo , ResultWas : : OfType resultType , StringRef names ) ;
Capturer ( Capturer const & ) = delete ;
Capturer & operator = ( Capturer const & ) = delete ;
~ Capturer ( ) ;
void captureValue ( size_t index , std : : string const & value ) ;
template < typename T >
void captureValues ( size_t index , T const & value ) {
captureValue ( index , Catch : : Detail : : stringify ( value ) ) ;
}
template < typename T , typename . . . Ts >
void captureValues ( size_t index , T const & value , Ts const & . . . values ) {
captureValue ( index , Catch : : Detail : : stringify ( value ) ) ;
captureValues ( index + 1 , values . . . ) ;
}
} ;
} // end namespace Catch
///////////////////////////////////////////////////////////////////////////////
# define INTERNAL_CATCH_MSG( macroName, messageType, resultDisposition, ... ) \
do { \
Catch : : AssertionHandler catchAssertionHandler ( macroName # # _catch_sr , CATCH_INTERNAL_LINEINFO , Catch : : StringRef ( ) , resultDisposition ) ; \
catchAssertionHandler . handleMessage ( messageType , ( Catch : : MessageStream ( ) < < __VA_ARGS__ + : : Catch : : StreamEndStop ( ) ) . m_stream . str ( ) ) ; \
INTERNAL_CATCH_REACT ( catchAssertionHandler ) \
} while ( false )
///////////////////////////////////////////////////////////////////////////////
# define INTERNAL_CATCH_CAPTURE( varName, macroName, ... ) \
Catch : : Capturer varName ( macroName , CATCH_INTERNAL_LINEINFO , Catch : : ResultWas : : Info , # __VA_ARGS__ ) ; \
varName . captureValues ( 0 , __VA_ARGS__ )
///////////////////////////////////////////////////////////////////////////////
# define INTERNAL_CATCH_INFO( macroName, log ) \
Catch : : ScopedMessage INTERNAL_CATCH_UNIQUE_NAME ( scopedMessage ) ( Catch : : MessageBuilder ( macroName # # _catch_sr , CATCH_INTERNAL_LINEINFO , Catch : : ResultWas : : Info ) < < log )
///////////////////////////////////////////////////////////////////////////////
# define INTERNAL_CATCH_UNSCOPED_INFO( macroName, log ) \
Catch : : getResultCapture ( ) . emplaceUnscopedMessage ( Catch : : MessageBuilder ( macroName # # _catch_sr , CATCH_INTERNAL_LINEINFO , Catch : : ResultWas : : Info ) < < log )
# if defined(CATCH_CONFIG_PREFIX_ALL) && !defined(CATCH_CONFIG_DISABLE)
# define CATCH_INFO( msg ) INTERNAL_CATCH_INFO( "CATCH_INFO", msg )
# define CATCH_UNSCOPED_INFO( msg ) INTERNAL_CATCH_UNSCOPED_INFO( "CATCH_UNSCOPED_INFO", msg )
# define CATCH_WARN( msg ) INTERNAL_CATCH_MSG( "CATCH_WARN", Catch::ResultWas::Warning, Catch::ResultDisposition::ContinueOnFailure, msg )
# define CATCH_CAPTURE( ... ) INTERNAL_CATCH_CAPTURE( INTERNAL_CATCH_UNIQUE_NAME(capturer), "CATCH_CAPTURE", __VA_ARGS__ )
# elif defined(CATCH_CONFIG_PREFIX_ALL) && defined(CATCH_CONFIG_DISABLE)
# define CATCH_INFO( msg ) (void)(0)
# define CATCH_UNSCOPED_INFO( msg ) (void)(0)
# define CATCH_WARN( msg ) (void)(0)
# define CATCH_CAPTURE( ... ) (void)(0)
# elif !defined(CATCH_CONFIG_PREFIX_ALL) && !defined(CATCH_CONFIG_DISABLE)
# define INFO( msg ) INTERNAL_CATCH_INFO( "INFO", msg )
# define UNSCOPED_INFO( msg ) INTERNAL_CATCH_UNSCOPED_INFO( "UNSCOPED_INFO", msg )
# define WARN( msg ) INTERNAL_CATCH_MSG( "WARN", Catch::ResultWas::Warning, Catch::ResultDisposition::ContinueOnFailure, msg )
# define CAPTURE( ... ) INTERNAL_CATCH_CAPTURE( INTERNAL_CATCH_UNIQUE_NAME(capturer), "CAPTURE", __VA_ARGS__ )
# elif !defined(CATCH_CONFIG_PREFIX_ALL) && defined(CATCH_CONFIG_DISABLE)
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# define INFO( msg ) (void)(0)
# define UNSCOPED_INFO( msg ) (void)(0)
# define WARN( msg ) (void)(0)
# define CAPTURE( ... ) (void)(0)
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# endif // end of user facing macro declarations
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# endif // CATCH_MESSAGE_HPP_INCLUDED
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# ifndef CATCH_SESSION_HPP_INCLUDED
# define CATCH_SESSION_HPP_INCLUDED
# ifndef CATCH_COMMANDLINE_HPP_INCLUDED
# define CATCH_COMMANDLINE_HPP_INCLUDED
# ifndef CATCH_CLARA_HPP_INCLUDED
# define CATCH_CLARA_HPP_INCLUDED
# if defined( __clang__ )
# pragma clang diagnostic push
# pragma clang diagnostic ignored "-Wweak-vtables"
# pragma clang diagnostic ignored "-Wshadow"
# pragma clang diagnostic ignored "-Wdeprecated"
# endif
# if defined( __GNUC__ )
# pragma GCC diagnostic push
# pragma GCC diagnostic ignored "-Wsign-conversion"
# endif
# ifndef CLARA_CONFIG_OPTIONAL_TYPE
# ifdef __has_include
# if __has_include( <optional>) && __cplusplus >= 201703L
# include <optional>
# define CLARA_CONFIG_OPTIONAL_TYPE std::optional
# endif
# endif
# endif
# include <cassert>
# include <cctype>
# include <memory>
# include <ostream>
# include <sstream>
# include <string>
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# include <type_traits>
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# include <vector>
namespace Catch {
namespace Clara {
class Args ;
class Parser ;
// enum of result types from a parse
enum class ParseResultType {
Matched ,
NoMatch ,
ShortCircuitAll ,
ShortCircuitSame
} ;
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struct accept_many_t { } ;
constexpr accept_many_t accept_many { } ;
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namespace Detail {
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struct fake_arg {
template < typename T >
operator T ( ) ;
} ;
template < typename F , typename = void >
struct is_unary_function : std : : false_type { } ;
template < typename F >
struct is_unary_function <
F ,
Catch : : Detail : : void_t < decltype (
std : : declval < F > ( ) ( fake_arg ( ) ) )
>
> : std : : true_type { } ;
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// Traits for extracting arg and return type of lambdas (for single
// argument lambdas)
template < typename L >
struct UnaryLambdaTraits
: UnaryLambdaTraits < decltype ( & L : : operator ( ) ) > { } ;
template < typename ClassT , typename ReturnT , typename . . . Args >
struct UnaryLambdaTraits < ReturnT ( ClassT : : * ) ( Args . . . ) const > {
static const bool isValid = false ;
} ;
template < typename ClassT , typename ReturnT , typename ArgT >
struct UnaryLambdaTraits < ReturnT ( ClassT : : * ) ( ArgT ) const > {
static const bool isValid = true ;
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using ArgType = std : : remove_const_t < std : : remove_reference_t < ArgT > > ;
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using ReturnType = ReturnT ;
} ;
class TokenStream ;
// Wraps a token coming from a token stream. These may not directly
// correspond to strings as a single string may encode an option +
// its argument if the : or = form is used
enum class TokenType { Option , Argument } ;
struct Token {
TokenType type ;
std : : string token ;
} ;
// Abstracts iterators into args as a stream of tokens, with option
// arguments uniformly handled
class TokenStream {
using Iterator = std : : vector < std : : string > : : const_iterator ;
Iterator it ;
Iterator itEnd ;
std : : vector < Token > m_tokenBuffer ;
void loadBuffer ( ) ;
public :
explicit TokenStream ( Args const & args ) ;
TokenStream ( Iterator it , Iterator itEnd ) ;
explicit operator bool ( ) const {
return ! m_tokenBuffer . empty ( ) | | it ! = itEnd ;
}
size_t count ( ) const {
return m_tokenBuffer . size ( ) + ( itEnd - it ) ;
}
Token operator * ( ) const {
assert ( ! m_tokenBuffer . empty ( ) ) ;
return m_tokenBuffer . front ( ) ;
}
Token const * operator - > ( ) const {
assert ( ! m_tokenBuffer . empty ( ) ) ;
return & m_tokenBuffer . front ( ) ;
}
TokenStream & operator + + ( ) ;
} ;
//! Denotes type of a parsing result
enum class ResultType {
Ok , ///< No errors
LogicError , ///< Error in user-specified arguments for
///< construction
RuntimeError ///< Error in parsing inputs
} ;
class ResultBase {
protected :
ResultBase ( ResultType type ) : m_type ( type ) { }
virtual ~ ResultBase ( ) ; // = default;
ResultBase ( ResultBase const & ) = default ;
ResultBase & operator = ( ResultBase const & ) = default ;
ResultBase ( ResultBase & & ) = default ;
ResultBase & operator = ( ResultBase & & ) = default ;
virtual void enforceOk ( ) const = 0 ;
ResultType m_type ;
} ;
template < typename T > class ResultValueBase : public ResultBase {
public :
auto value ( ) const - > T const & {
enforceOk ( ) ;
return m_value ;
}
protected :
ResultValueBase ( ResultType type ) : ResultBase ( type ) { }
ResultValueBase ( ResultValueBase const & other ) :
ResultBase ( other ) {
if ( m_type = = ResultType : : Ok )
new ( & m_value ) T ( other . m_value ) ;
}
ResultValueBase ( ResultType , T const & value ) : ResultBase ( ResultType : : Ok ) {
new ( & m_value ) T ( value ) ;
}
auto operator = ( ResultValueBase const & other )
- > ResultValueBase & {
if ( m_type = = ResultType : : Ok )
m_value . ~ T ( ) ;
ResultBase : : operator = ( other ) ;
if ( m_type = = ResultType : : Ok )
new ( & m_value ) T ( other . m_value ) ;
return * this ;
}
~ ResultValueBase ( ) override {
if ( m_type = = ResultType : : Ok )
m_value . ~ T ( ) ;
}
union {
T m_value ;
} ;
} ;
template < > class ResultValueBase < void > : public ResultBase {
protected :
using ResultBase : : ResultBase ;
} ;
template < typename T = void >
class BasicResult : public ResultValueBase < T > {
public :
template < typename U >
explicit BasicResult ( BasicResult < U > const & other ) :
ResultValueBase < T > ( other . type ( ) ) ,
m_errorMessage ( other . errorMessage ( ) ) {
assert ( type ( ) ! = ResultType : : Ok ) ;
}
template < typename U >
static auto ok ( U const & value ) - > BasicResult {
return { ResultType : : Ok , value } ;
}
static auto ok ( ) - > BasicResult { return { ResultType : : Ok } ; }
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static auto logicError ( std : : string & & message )
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- > BasicResult {
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return { ResultType : : LogicError , CATCH_MOVE ( message ) } ;
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}
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static auto runtimeError ( std : : string & & message )
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- > BasicResult {
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return { ResultType : : RuntimeError , CATCH_MOVE ( message ) } ;
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}
explicit operator bool ( ) const {
return m_type = = ResultType : : Ok ;
}
auto type ( ) const - > ResultType { return m_type ; }
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auto errorMessage ( ) const - > std : : string const & {
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return m_errorMessage ;
}
protected :
void enforceOk ( ) const override {
// Errors shouldn't reach this point, but if they do
// the actual error message will be in m_errorMessage
assert ( m_type ! = ResultType : : LogicError ) ;
assert ( m_type ! = ResultType : : RuntimeError ) ;
if ( m_type ! = ResultType : : Ok )
std : : abort ( ) ;
}
std : : string
m_errorMessage ; // Only populated if resultType is an error
BasicResult ( ResultType type ,
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std : : string & & message ) :
ResultValueBase < T > ( type ) , m_errorMessage ( CATCH_MOVE ( message ) ) {
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assert ( m_type ! = ResultType : : Ok ) ;
}
using ResultValueBase < T > : : ResultValueBase ;
using ResultBase : : m_type ;
} ;
class ParseState {
public :
ParseState ( ParseResultType type ,
TokenStream const & remainingTokens ) ;
ParseResultType type ( ) const { return m_type ; }
TokenStream const & remainingTokens ( ) const {
return m_remainingTokens ;
}
private :
ParseResultType m_type ;
TokenStream m_remainingTokens ;
} ;
using Result = BasicResult < void > ;
using ParserResult = BasicResult < ParseResultType > ;
using InternalParseResult = BasicResult < ParseState > ;
struct HelpColumns {
std : : string left ;
std : : string right ;
} ;
template < typename T >
ParserResult convertInto ( std : : string const & source , T & target ) {
std : : stringstream ss ( source ) ;
ss > > target ;
if ( ss . fail ( ) ) {
return ParserResult : : runtimeError (
" Unable to convert ' " + source +
" ' to destination type " ) ;
} else {
return ParserResult : : ok ( ParseResultType : : Matched ) ;
}
}
ParserResult convertInto ( std : : string const & source ,
std : : string & target ) ;
ParserResult convertInto ( std : : string const & source , bool & target ) ;
# ifdef CLARA_CONFIG_OPTIONAL_TYPE
template < typename T >
auto convertInto ( std : : string const & source ,
CLARA_CONFIG_OPTIONAL_TYPE < T > & target )
- > ParserResult {
T temp ;
auto result = convertInto ( source , temp ) ;
if ( result )
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target = CATCH_MOVE ( temp ) ;
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return result ;
}
# endif // CLARA_CONFIG_OPTIONAL_TYPE
struct BoundRef : Catch : : Detail : : NonCopyable {
virtual ~ BoundRef ( ) = default ;
virtual bool isContainer ( ) const ;
virtual bool isFlag ( ) const ;
} ;
struct BoundValueRefBase : BoundRef {
virtual auto setValue ( std : : string const & arg )
- > ParserResult = 0 ;
} ;
struct BoundFlagRefBase : BoundRef {
virtual auto setFlag ( bool flag ) - > ParserResult = 0 ;
bool isFlag ( ) const override ;
} ;
template < typename T > struct BoundValueRef : BoundValueRefBase {
T & m_ref ;
explicit BoundValueRef ( T & ref ) : m_ref ( ref ) { }
ParserResult setValue ( std : : string const & arg ) override {
return convertInto ( arg , m_ref ) ;
}
} ;
template < typename T >
struct BoundValueRef < std : : vector < T > > : BoundValueRefBase {
std : : vector < T > & m_ref ;
explicit BoundValueRef ( std : : vector < T > & ref ) : m_ref ( ref ) { }
auto isContainer ( ) const - > bool override { return true ; }
auto setValue ( std : : string const & arg )
- > ParserResult override {
T temp ;
auto result = convertInto ( arg , temp ) ;
if ( result )
m_ref . push_back ( temp ) ;
return result ;
}
} ;
struct BoundFlagRef : BoundFlagRefBase {
bool & m_ref ;
explicit BoundFlagRef ( bool & ref ) : m_ref ( ref ) { }
ParserResult setFlag ( bool flag ) override ;
} ;
template < typename ReturnType > struct LambdaInvoker {
static_assert (
std : : is_same < ReturnType , ParserResult > : : value ,
" Lambda must return void or clara::ParserResult " ) ;
template < typename L , typename ArgType >
static auto invoke ( L const & lambda , ArgType const & arg )
- > ParserResult {
return lambda ( arg ) ;
}
} ;
template < > struct LambdaInvoker < void > {
template < typename L , typename ArgType >
static auto invoke ( L const & lambda , ArgType const & arg )
- > ParserResult {
lambda ( arg ) ;
return ParserResult : : ok ( ParseResultType : : Matched ) ;
}
} ;
template < typename ArgType , typename L >
auto invokeLambda ( L const & lambda , std : : string const & arg )
- > ParserResult {
ArgType temp { } ;
auto result = convertInto ( arg , temp ) ;
return ! result ? result
: LambdaInvoker < typename UnaryLambdaTraits <
L > : : ReturnType > : : invoke ( lambda , temp ) ;
}
template < typename L > struct BoundLambda : BoundValueRefBase {
L m_lambda ;
static_assert (
UnaryLambdaTraits < L > : : isValid ,
" Supplied lambda must take exactly one argument " ) ;
explicit BoundLambda ( L const & lambda ) : m_lambda ( lambda ) { }
auto setValue ( std : : string const & arg )
- > ParserResult override {
return invokeLambda < typename UnaryLambdaTraits < L > : : ArgType > (
m_lambda , arg ) ;
}
} ;
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template < typename L > struct BoundManyLambda : BoundLambda < L > {
explicit BoundManyLambda ( L const & lambda ) : BoundLambda < L > ( lambda ) { }
bool isContainer ( ) const override { return true ; }
} ;
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template < typename L > struct BoundFlagLambda : BoundFlagRefBase {
L m_lambda ;
static_assert (
UnaryLambdaTraits < L > : : isValid ,
" Supplied lambda must take exactly one argument " ) ;
static_assert (
std : : is_same < typename UnaryLambdaTraits < L > : : ArgType ,
bool > : : value ,
" flags must be boolean " ) ;
explicit BoundFlagLambda ( L const & lambda ) :
m_lambda ( lambda ) { }
auto setFlag ( bool flag ) - > ParserResult override {
return LambdaInvoker < typename UnaryLambdaTraits <
L > : : ReturnType > : : invoke ( m_lambda , flag ) ;
}
} ;
enum class Optionality { Optional , Required } ;
class ParserBase {
public :
virtual ~ ParserBase ( ) = default ;
virtual auto validate ( ) const - > Result { return Result : : ok ( ) ; }
virtual auto parse ( std : : string const & exeName ,
TokenStream const & tokens ) const
- > InternalParseResult = 0 ;
virtual size_t cardinality ( ) const ;
InternalParseResult parse ( Args const & args ) const ;
} ;
template < typename DerivedT >
class ComposableParserImpl : public ParserBase {
public :
template < typename T >
auto operator | ( T const & other ) const - > Parser ;
} ;
// Common code and state for Args and Opts
template < typename DerivedT >
class ParserRefImpl : public ComposableParserImpl < DerivedT > {
protected :
Optionality m_optionality = Optionality : : Optional ;
std : : shared_ptr < BoundRef > m_ref ;
std : : string m_hint ;
std : : string m_description ;
explicit ParserRefImpl ( std : : shared_ptr < BoundRef > const & ref ) :
m_ref ( ref ) { }
public :
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template < typename LambdaT >
ParserRefImpl ( accept_many_t ,
LambdaT const & ref ,
std : : string const & hint ) :
m_ref ( std : : make_shared < BoundManyLambda < LambdaT > > ( ref ) ) ,
m_hint ( hint ) { }
template < typename T ,
typename = typename std : : enable_if_t <
! Detail : : is_unary_function < T > : : value > >
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ParserRefImpl ( T & ref , std : : string const & hint ) :
m_ref ( std : : make_shared < BoundValueRef < T > > ( ref ) ) ,
m_hint ( hint ) { }
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template < typename LambdaT ,
typename = typename std : : enable_if_t <
Detail : : is_unary_function < LambdaT > : : value > >
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ParserRefImpl ( LambdaT const & ref , std : : string const & hint ) :
m_ref ( std : : make_shared < BoundLambda < LambdaT > > ( ref ) ) ,
m_hint ( hint ) { }
auto operator ( ) ( std : : string const & description ) - > DerivedT & {
m_description = description ;
return static_cast < DerivedT & > ( * this ) ;
}
auto optional ( ) - > DerivedT & {
m_optionality = Optionality : : Optional ;
return static_cast < DerivedT & > ( * this ) ;
}
auto required ( ) - > DerivedT & {
m_optionality = Optionality : : Required ;
return static_cast < DerivedT & > ( * this ) ;
}
auto isOptional ( ) const - > bool {
return m_optionality = = Optionality : : Optional ;
}
auto cardinality ( ) const - > size_t override {
if ( m_ref - > isContainer ( ) )
return 0 ;
else
return 1 ;
}
std : : string const & hint ( ) const { return m_hint ; }
} ;
} // namespace detail
// A parser for arguments
class Arg : public Detail : : ParserRefImpl < Arg > {
public :
using ParserRefImpl : : ParserRefImpl ;
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using ParserBase : : parse ;
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Detail : : InternalParseResult
parse ( std : : string const & ,
Detail : : TokenStream const & tokens ) const override ;
} ;
// A parser for options
class Opt : public Detail : : ParserRefImpl < Opt > {
protected :
std : : vector < std : : string > m_optNames ;
public :
template < typename LambdaT >
explicit Opt ( LambdaT const & ref ) :
ParserRefImpl (
std : : make_shared < Detail : : BoundFlagLambda < LambdaT > > ( ref ) ) { }
explicit Opt ( bool & ref ) ;
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template < typename LambdaT ,
typename = typename std : : enable_if_t <
Detail : : is_unary_function < LambdaT > : : value > >
Opt ( LambdaT const & ref , std : : string const & hint ) :
ParserRefImpl ( ref , hint ) { }
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template < typename LambdaT >
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Opt ( accept_many_t , LambdaT const & ref , std : : string const & hint ) :
ParserRefImpl ( accept_many , ref , hint ) { }
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template < typename T ,
typename = typename std : : enable_if_t <
! Detail : : is_unary_function < T > : : value > >
Opt ( T & ref , std : : string const & hint ) :
ParserRefImpl ( ref , hint ) { }
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auto operator [ ] ( std : : string const & optName ) - > Opt & {
m_optNames . push_back ( optName ) ;
return * this ;
}
std : : vector < Detail : : HelpColumns > getHelpColumns ( ) const ;
bool isMatch ( std : : string const & optToken ) const ;
using ParserBase : : parse ;
Detail : : InternalParseResult
parse ( std : : string const & ,
Detail : : TokenStream const & tokens ) const override ;
Detail : : Result validate ( ) const override ;
} ;
// Specifies the name of the executable
class ExeName : public Detail : : ComposableParserImpl < ExeName > {
std : : shared_ptr < std : : string > m_name ;
std : : shared_ptr < Detail : : BoundValueRefBase > m_ref ;
template < typename LambdaT >
static auto makeRef ( LambdaT const & lambda )
- > std : : shared_ptr < Detail : : BoundValueRefBase > {
return std : : make_shared < Detail : : BoundLambda < LambdaT > > ( lambda ) ;
}
public :
ExeName ( ) ;
explicit ExeName ( std : : string & ref ) ;
template < typename LambdaT >
explicit ExeName ( LambdaT const & lambda ) : ExeName ( ) {
m_ref = std : : make_shared < Detail : : BoundLambda < LambdaT > > ( lambda ) ;
}
// The exe name is not parsed out of the normal tokens, but is
// handled specially
Detail : : InternalParseResult
parse ( std : : string const & ,
Detail : : TokenStream const & tokens ) const override ;
std : : string const & name ( ) const { return * m_name ; }
Detail : : ParserResult set ( std : : string const & newName ) ;
} ;
// A Combined parser
class Parser : Detail : : ParserBase {
mutable ExeName m_exeName ;
std : : vector < Opt > m_options ;
std : : vector < Arg > m_args ;
public :
auto operator | = ( ExeName const & exeName ) - > Parser & {
m_exeName = exeName ;
return * this ;
}
auto operator | = ( Arg const & arg ) - > Parser & {
m_args . push_back ( arg ) ;
return * this ;
}
auto operator | = ( Opt const & opt ) - > Parser & {
m_options . push_back ( opt ) ;
return * this ;
}
Parser & operator | = ( Parser const & other ) ;
template < typename T >
auto operator | ( T const & other ) const - > Parser {
return Parser ( * this ) | = other ;
}
std : : vector < Detail : : HelpColumns > getHelpColumns ( ) const ;
void writeToStream ( std : : ostream & os ) const ;
friend auto operator < < ( std : : ostream & os , Parser const & parser )
- > std : : ostream & {
parser . writeToStream ( os ) ;
return os ;
}
Detail : : Result validate ( ) const override ;
using ParserBase : : parse ;
Detail : : InternalParseResult
parse ( std : : string const & exeName ,
Detail : : TokenStream const & tokens ) const override ;
} ;
// Transport for raw args (copied from main args, or supplied via
// init list for testing)
class Args {
friend Detail : : TokenStream ;
std : : string m_exeName ;
std : : vector < std : : string > m_args ;
public :
Args ( int argc , char const * const * argv ) ;
Args ( std : : initializer_list < std : : string > args ) ;
std : : string const & exeName ( ) const { return m_exeName ; }
} ;
// Convenience wrapper for option parser that specifies the help option
struct Help : Opt {
Help ( bool & showHelpFlag ) ;
} ;
// Result type for parser operation
using Detail : : ParserResult ;
namespace Detail {
template < typename DerivedT >
template < typename T >
Parser
ComposableParserImpl < DerivedT > : : operator | ( T const & other ) const {
return Parser ( ) | static_cast < DerivedT const & > ( * this ) | other ;
}
}
} // namespace Clara
} // namespace Catch
# if defined( __clang__ )
# pragma clang diagnostic pop
# endif
# if defined( __GNUC__ )
# pragma GCC diagnostic pop
# endif
# endif // CATCH_CLARA_HPP_INCLUDED
namespace Catch {
struct ConfigData ;
Clara : : Parser makeCommandLineParser ( ConfigData & config ) ;
} // end namespace Catch
# endif // CATCH_COMMANDLINE_HPP_INCLUDED
namespace Catch {
class Session : Detail : : NonCopyable {
public :
Session ( ) ;
~ Session ( ) ;
void showHelp ( ) const ;
void libIdentify ( ) ;
int applyCommandLine ( int argc , char const * const * argv ) ;
# if defined(CATCH_CONFIG_WCHAR) && defined(_WIN32) && defined(UNICODE)
int applyCommandLine ( int argc , wchar_t const * const * argv ) ;
# endif
void useConfigData ( ConfigData const & configData ) ;
template < typename CharT >
int run ( int argc , CharT const * const argv [ ] ) {
if ( m_startupExceptions )
return 1 ;
int returnCode = applyCommandLine ( argc , argv ) ;
if ( returnCode = = 0 )
returnCode = run ( ) ;
return returnCode ;
}
int run ( ) ;
Clara : : Parser const & cli ( ) const ;
void cli ( Clara : : Parser const & newParser ) ;
ConfigData & configData ( ) ;
Config & config ( ) ;
private :
int runInternal ( ) ;
Clara : : Parser m_cli ;
ConfigData m_configData ;
Detail : : unique_ptr < Config > m_config ;
bool m_startupExceptions = false ;
} ;
} // end namespace Catch
# endif // CATCH_SESSION_HPP_INCLUDED
# ifndef CATCH_TAG_ALIAS_HPP_INCLUDED
# define CATCH_TAG_ALIAS_HPP_INCLUDED
# include <string>
namespace Catch {
struct TagAlias {
TagAlias ( std : : string const & _tag , SourceLineInfo _lineInfo ) :
tag ( _tag ) ,
lineInfo ( _lineInfo )
{ }
std : : string tag ;
SourceLineInfo lineInfo ;
} ;
} // end namespace Catch
# endif // CATCH_TAG_ALIAS_HPP_INCLUDED
# ifndef CATCH_TAG_ALIAS_AUTOREGISTRAR_HPP_INCLUDED
# define CATCH_TAG_ALIAS_AUTOREGISTRAR_HPP_INCLUDED
namespace Catch {
struct RegistrarForTagAliases {
RegistrarForTagAliases ( char const * alias , char const * tag , SourceLineInfo const & lineInfo ) ;
} ;
} // end namespace Catch
# define CATCH_REGISTER_TAG_ALIAS( alias, spec ) \
CATCH_INTERNAL_START_WARNINGS_SUPPRESSION \
CATCH_INTERNAL_SUPPRESS_GLOBALS_WARNINGS \
namespace { Catch : : RegistrarForTagAliases INTERNAL_CATCH_UNIQUE_NAME ( AutoRegisterTagAlias ) ( alias , spec , CATCH_INTERNAL_LINEINFO ) ; } \
CATCH_INTERNAL_STOP_WARNINGS_SUPPRESSION
# endif // CATCH_TAG_ALIAS_AUTOREGISTRAR_HPP_INCLUDED
# ifndef CATCH_TEMPLATE_TEST_MACROS_HPP_INCLUDED
# define CATCH_TEMPLATE_TEST_MACROS_HPP_INCLUDED
// We need this suppression to leak, because it took until GCC 10
// for the front end to handle local suppression via _Pragma properly
// inside templates (so `TEMPLATE_TEST_CASE` and co).
// **THIS IS DIFFERENT FOR STANDARD TESTS, WHERE GCC 9 IS SUFFICIENT**
# if defined(__GNUC__) && !defined(__clang__) && !defined(__ICC) && __GNUC__ < 10
# pragma GCC diagnostic ignored "-Wparentheses"
# endif
# ifndef CATCH_TEST_MACROS_HPP_INCLUDED
# define CATCH_TEST_MACROS_HPP_INCLUDED
# ifndef CATCH_TEST_MACRO_IMPL_HPP_INCLUDED
# define CATCH_TEST_MACRO_IMPL_HPP_INCLUDED
# ifndef CATCH_ASSERTION_HANDLER_HPP_INCLUDED
# define CATCH_ASSERTION_HANDLER_HPP_INCLUDED
# ifndef CATCH_DECOMPOSER_HPP_INCLUDED
# define CATCH_DECOMPOSER_HPP_INCLUDED
# include <iosfwd>
# ifdef _MSC_VER
# pragma warning(push)
# pragma warning(disable:4389) // '==' : signed/unsigned mismatch
# pragma warning(disable:4018) // more "signed/unsigned mismatch"
# pragma warning(disable:4312) // Converting int to T* using reinterpret_cast (issue on x64 platform)
# pragma warning(disable:4180) // qualifier applied to function type has no meaning
# pragma warning(disable:4800) // Forcing result to true or false
# endif
# ifdef __clang__
# pragma clang diagnostic push
# pragma clang diagnostic ignored "-Wsign-compare"
# elif defined __GNUC__
# pragma GCC diagnostic push
# pragma GCC diagnostic ignored "-Wsign-compare"
# endif
namespace Catch {
struct ITransientExpression {
auto isBinaryExpression ( ) const - > bool { return m_isBinaryExpression ; }
auto getResult ( ) const - > bool { return m_result ; }
virtual void streamReconstructedExpression ( std : : ostream & os ) const = 0 ;
ITransientExpression ( bool isBinaryExpression , bool result )
: m_isBinaryExpression ( isBinaryExpression ) ,
m_result ( result )
{ }
ITransientExpression ( ) = default ;
ITransientExpression ( ITransientExpression const & ) = default ;
ITransientExpression & operator = ( ITransientExpression const & ) = default ;
// We don't actually need a virtual destructor, but many static analysers
// complain if it's not here :-(
virtual ~ ITransientExpression ( ) ; // = default;
bool m_isBinaryExpression ;
bool m_result ;
friend std : : ostream & operator < < ( std : : ostream & out , ITransientExpression const & expr ) {
expr . streamReconstructedExpression ( out ) ;
return out ;
}
} ;
void formatReconstructedExpression ( std : : ostream & os , std : : string const & lhs , StringRef op , std : : string const & rhs ) ;
template < typename LhsT , typename RhsT >
class BinaryExpr : public ITransientExpression {
LhsT m_lhs ;
StringRef m_op ;
RhsT m_rhs ;
void streamReconstructedExpression ( std : : ostream & os ) const override {
formatReconstructedExpression
( os , Catch : : Detail : : stringify ( m_lhs ) , m_op , Catch : : Detail : : stringify ( m_rhs ) ) ;
}
public :
BinaryExpr ( bool comparisonResult , LhsT lhs , StringRef op , RhsT rhs )
: ITransientExpression { true , comparisonResult } ,
m_lhs ( lhs ) ,
m_op ( op ) ,
m_rhs ( rhs )
{ }
template < typename T >
auto operator & & ( T ) const - > BinaryExpr < LhsT , RhsT const & > const {
static_assert ( always_false < T > : : value ,
" chained comparisons are not supported inside assertions, "
" wrap the expression inside parentheses, or decompose it " ) ;
}
template < typename T >
auto operator | | ( T ) const - > BinaryExpr < LhsT , RhsT const & > const {
static_assert ( always_false < T > : : value ,
" chained comparisons are not supported inside assertions, "
" wrap the expression inside parentheses, or decompose it " ) ;
}
template < typename T >
auto operator = = ( T ) const - > BinaryExpr < LhsT , RhsT const & > const {
static_assert ( always_false < T > : : value ,
" chained comparisons are not supported inside assertions, "
" wrap the expression inside parentheses, or decompose it " ) ;
}
template < typename T >
auto operator ! = ( T ) const - > BinaryExpr < LhsT , RhsT const & > const {
static_assert ( always_false < T > : : value ,
" chained comparisons are not supported inside assertions, "
" wrap the expression inside parentheses, or decompose it " ) ;
}
template < typename T >
auto operator > ( T ) const - > BinaryExpr < LhsT , RhsT const & > const {
static_assert ( always_false < T > : : value ,
" chained comparisons are not supported inside assertions, "
" wrap the expression inside parentheses, or decompose it " ) ;
}
template < typename T >
auto operator < ( T ) const - > BinaryExpr < LhsT , RhsT const & > const {
static_assert ( always_false < T > : : value ,
" chained comparisons are not supported inside assertions, "
" wrap the expression inside parentheses, or decompose it " ) ;
}
template < typename T >
auto operator > = ( T ) const - > BinaryExpr < LhsT , RhsT const & > const {
static_assert ( always_false < T > : : value ,
" chained comparisons are not supported inside assertions, "
" wrap the expression inside parentheses, or decompose it " ) ;
}
template < typename T >
auto operator < = ( T ) const - > BinaryExpr < LhsT , RhsT const & > const {
static_assert ( always_false < T > : : value ,
" chained comparisons are not supported inside assertions, "
" wrap the expression inside parentheses, or decompose it " ) ;
}
} ;
template < typename LhsT >
class UnaryExpr : public ITransientExpression {
LhsT m_lhs ;
void streamReconstructedExpression ( std : : ostream & os ) const override {
os < < Catch : : Detail : : stringify ( m_lhs ) ;
}
public :
explicit UnaryExpr ( LhsT lhs )
: ITransientExpression { false , static_cast < bool > ( lhs ) } ,
m_lhs ( lhs )
{ }
} ;
// Specialised comparison functions to handle equality comparisons between ints and pointers (NULL deduces as an int)
template < typename LhsT , typename RhsT >
auto compareEqual ( LhsT const & lhs , RhsT const & rhs ) - > bool { return static_cast < bool > ( lhs = = rhs ) ; }
template < typename T >
auto compareEqual ( T * const & lhs , int rhs ) - > bool { return lhs = = reinterpret_cast < void const * > ( rhs ) ; }
template < typename T >
auto compareEqual ( T * const & lhs , long rhs ) - > bool { return lhs = = reinterpret_cast < void const * > ( rhs ) ; }
template < typename T >
auto compareEqual ( int lhs , T * const & rhs ) - > bool { return reinterpret_cast < void const * > ( lhs ) = = rhs ; }
template < typename T >
auto compareEqual ( long lhs , T * const & rhs ) - > bool { return reinterpret_cast < void const * > ( lhs ) = = rhs ; }
template < typename LhsT , typename RhsT >
auto compareNotEqual ( LhsT const & lhs , RhsT & & rhs ) - > bool { return static_cast < bool > ( lhs ! = rhs ) ; }
template < typename T >
auto compareNotEqual ( T * const & lhs , int rhs ) - > bool { return lhs ! = reinterpret_cast < void const * > ( rhs ) ; }
template < typename T >
auto compareNotEqual ( T * const & lhs , long rhs ) - > bool { return lhs ! = reinterpret_cast < void const * > ( rhs ) ; }
template < typename T >
auto compareNotEqual ( int lhs , T * const & rhs ) - > bool { return reinterpret_cast < void const * > ( lhs ) ! = rhs ; }
template < typename T >
auto compareNotEqual ( long lhs , T * const & rhs ) - > bool { return reinterpret_cast < void const * > ( lhs ) ! = rhs ; }
template < typename LhsT >
class ExprLhs {
LhsT m_lhs ;
public :
explicit ExprLhs ( LhsT lhs ) : m_lhs ( lhs ) { }
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template < typename RhsT , std : : enable_if_t < ! std : : is_arithmetic < std : : remove_reference_t < RhsT > > : : value , int > = 0 >
friend auto operator = = ( ExprLhs & & lhs , RhsT & & rhs ) - > BinaryExpr < LhsT , RhsT const & > {
return { compareEqual ( lhs . m_lhs , rhs ) , lhs . m_lhs , " == " _sr , rhs } ;
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}
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template < typename RhsT , std : : enable_if_t < std : : is_arithmetic < RhsT > : : value , int > = 0 >
friend auto operator = = ( ExprLhs & & lhs , RhsT rhs ) - > BinaryExpr < LhsT , RhsT > {
return { compareEqual ( lhs . m_lhs , rhs ) , lhs . m_lhs , " == " _sr , rhs } ;
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}
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template < typename RhsT , std : : enable_if_t < ! std : : is_arithmetic < std : : remove_reference_t < RhsT > > : : value , int > = 0 >
friend auto operator ! = ( ExprLhs & & lhs , RhsT & & rhs ) - > BinaryExpr < LhsT , RhsT const & > {
return { compareNotEqual ( lhs . m_lhs , rhs ) , lhs . m_lhs , " != " _sr , rhs } ;
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}
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template < typename RhsT , std : : enable_if_t < std : : is_arithmetic < RhsT > : : value , int > = 0 >
friend auto operator ! = ( ExprLhs & & lhs , RhsT rhs ) - > BinaryExpr < LhsT , RhsT > {
return { compareNotEqual ( lhs . m_lhs , rhs ) , lhs . m_lhs , " != " _sr , rhs } ;
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}
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# define CATCH_INTERNAL_DEFINE_EXPRESSION_OPERATOR(op) \
template < typename RhsT , std : : enable_if_t < ! std : : is_arithmetic < std : : remove_reference_t < RhsT > > : : value , int > = 0 > \
friend auto operator op ( ExprLhs & & lhs , RhsT & & rhs ) - > BinaryExpr < LhsT , RhsT const & > { \
return { static_cast < bool > ( lhs . m_lhs op rhs ) , lhs . m_lhs , # op # # _sr , rhs } ; \
} \
template < typename RhsT , std : : enable_if_t < std : : is_arithmetic < RhsT > : : value , int > = 0 > \
friend auto operator op ( ExprLhs & & lhs , RhsT rhs ) - > BinaryExpr < LhsT , RhsT > { \
return { static_cast < bool > ( lhs . m_lhs op rhs ) , lhs . m_lhs , # op # # _sr , rhs } ; \
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}
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CATCH_INTERNAL_DEFINE_EXPRESSION_OPERATOR ( < )
CATCH_INTERNAL_DEFINE_EXPRESSION_OPERATOR ( > )
CATCH_INTERNAL_DEFINE_EXPRESSION_OPERATOR ( < = )
CATCH_INTERNAL_DEFINE_EXPRESSION_OPERATOR ( > = )
CATCH_INTERNAL_DEFINE_EXPRESSION_OPERATOR ( | )
CATCH_INTERNAL_DEFINE_EXPRESSION_OPERATOR ( & )
CATCH_INTERNAL_DEFINE_EXPRESSION_OPERATOR ( ^ )
# undef CATCH_INTERNAL_DEFINE_EXPRESSION_OPERATOR
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template < typename RhsT >
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friend auto operator & & ( ExprLhs & & , RhsT & & ) - > BinaryExpr < LhsT , RhsT const & > {
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static_assert ( always_false < RhsT > : : value ,
" operator&& is not supported inside assertions, "
" wrap the expression inside parentheses, or decompose it " ) ;
}
template < typename RhsT >
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friend auto operator | | ( ExprLhs & & , RhsT & & ) - > BinaryExpr < LhsT , RhsT const & > {
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static_assert ( always_false < RhsT > : : value ,
" operator|| is not supported inside assertions, "
" wrap the expression inside parentheses, or decompose it " ) ;
}
auto makeUnaryExpr ( ) const - > UnaryExpr < LhsT > {
return UnaryExpr < LhsT > { m_lhs } ;
}
} ;
struct Decomposer {
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template < typename T , std : : enable_if_t < ! std : : is_arithmetic < std : : remove_reference_t < T > > : : value , int > = 0 >
friend auto operator < = ( Decomposer & & , T & & lhs ) - > ExprLhs < T const & > {
return ExprLhs < const T & > { lhs } ;
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}
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template < typename T , std : : enable_if_t < std : : is_arithmetic < T > : : value , int > = 0 >
friend auto operator < = ( Decomposer & & , T value ) - > ExprLhs < T > {
return ExprLhs < T > { value } ;
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}
} ;
} // end namespace Catch
# ifdef _MSC_VER
# pragma warning(pop)
# endif
# ifdef __clang__
# pragma clang diagnostic pop
# elif defined __GNUC__
# pragma GCC diagnostic pop
# endif
# endif // CATCH_DECOMPOSER_HPP_INCLUDED
namespace Catch {
struct AssertionResultData ;
struct IResultCapture ;
class RunContext ;
struct AssertionReaction {
bool shouldDebugBreak = false ;
bool shouldThrow = false ;
} ;
class AssertionHandler {
AssertionInfo m_assertionInfo ;
AssertionReaction m_reaction ;
bool m_completed = false ;
IResultCapture & m_resultCapture ;
public :
AssertionHandler
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( StringRef macroName ,
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SourceLineInfo const & lineInfo ,
StringRef capturedExpression ,
ResultDisposition : : Flags resultDisposition ) ;
~ AssertionHandler ( ) {
if ( ! m_completed ) {
m_resultCapture . handleIncomplete ( m_assertionInfo ) ;
}
}
template < typename T >
void handleExpr ( ExprLhs < T > const & expr ) {
handleExpr ( expr . makeUnaryExpr ( ) ) ;
}
void handleExpr ( ITransientExpression const & expr ) ;
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void handleMessage ( ResultWas : : OfType resultType , StringRef message ) ;
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void handleExceptionThrownAsExpected ( ) ;
void handleUnexpectedExceptionNotThrown ( ) ;
void handleExceptionNotThrownAsExpected ( ) ;
void handleThrowingCallSkipped ( ) ;
void handleUnexpectedInflightException ( ) ;
void complete ( ) ;
void setCompleted ( ) ;
// query
auto allowThrows ( ) const - > bool ;
} ;
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void handleExceptionMatchExpr ( AssertionHandler & handler , std : : string const & str , StringRef matcherString ) ;
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} // namespace Catch
# endif // CATCH_ASSERTION_HANDLER_HPP_INCLUDED
// We need this suppression to leak, because it took until GCC 9
// for the front end to handle local suppression via _Pragma properly
# if defined(__GNUC__) && !defined(__clang__) && !defined(__ICC) && __GNUC__ < 9
# pragma GCC diagnostic ignored "-Wparentheses"
# endif
# if !defined(CATCH_CONFIG_DISABLE)
# if !defined(CATCH_CONFIG_DISABLE_STRINGIFICATION)
# define CATCH_INTERNAL_STRINGIFY(...) #__VA_ARGS__
# else
# define CATCH_INTERNAL_STRINGIFY(...) "Disabled by CATCH_CONFIG_DISABLE_STRINGIFICATION"
# endif
# if defined(CATCH_CONFIG_FAST_COMPILE) || defined(CATCH_CONFIG_DISABLE_EXCEPTIONS)
///////////////////////////////////////////////////////////////////////////////
// Another way to speed-up compilation is to omit local try-catch for REQUIRE*
// macros.
# define INTERNAL_CATCH_TRY
# define INTERNAL_CATCH_CATCH( capturer )
# else // CATCH_CONFIG_FAST_COMPILE
# define INTERNAL_CATCH_TRY try
# define INTERNAL_CATCH_CATCH( handler ) catch(...) { handler.handleUnexpectedInflightException(); }
# endif
# define INTERNAL_CATCH_REACT( handler ) handler.complete();
///////////////////////////////////////////////////////////////////////////////
# define INTERNAL_CATCH_TEST( macroName, resultDisposition, ... ) \
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do { /* NOLINT(bugprone-infinite-loop) */ \
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/* The expression should not be evaluated, but warnings should hopefully be checked */ \
CATCH_INTERNAL_IGNORE_BUT_WARN ( __VA_ARGS__ ) ; \
Catch : : AssertionHandler catchAssertionHandler ( macroName # # _catch_sr , CATCH_INTERNAL_LINEINFO , CATCH_INTERNAL_STRINGIFY ( __VA_ARGS__ ) , resultDisposition ) ; \
INTERNAL_CATCH_TRY { \
CATCH_INTERNAL_START_WARNINGS_SUPPRESSION \
CATCH_INTERNAL_SUPPRESS_PARENTHESES_WARNINGS \
catchAssertionHandler . handleExpr ( Catch : : Decomposer ( ) < = __VA_ARGS__ ) ; \
CATCH_INTERNAL_STOP_WARNINGS_SUPPRESSION \
} INTERNAL_CATCH_CATCH ( catchAssertionHandler ) \
INTERNAL_CATCH_REACT ( catchAssertionHandler ) \
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} while ( ( void ) 0 , ( false ) & & static_cast < const bool & > ( ! ! ( __VA_ARGS__ ) ) ) // the expression here is never evaluated at runtime but it forces the compiler to give it a look
// The double negation silences MSVC's C4800 warning, the static_cast forces short-circuit evaluation if the type has overloaded &&.
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///////////////////////////////////////////////////////////////////////////////
# define INTERNAL_CATCH_IF( macroName, resultDisposition, ... ) \
INTERNAL_CATCH_TEST ( macroName , resultDisposition , __VA_ARGS__ ) ; \
if ( Catch : : getResultCapture ( ) . lastAssertionPassed ( ) )
///////////////////////////////////////////////////////////////////////////////
# define INTERNAL_CATCH_ELSE( macroName, resultDisposition, ... ) \
INTERNAL_CATCH_TEST ( macroName , resultDisposition , __VA_ARGS__ ) ; \
if ( ! Catch : : getResultCapture ( ) . lastAssertionPassed ( ) )
///////////////////////////////////////////////////////////////////////////////
# define INTERNAL_CATCH_NO_THROW( macroName, resultDisposition, ... ) \
do { \
Catch : : AssertionHandler catchAssertionHandler ( macroName # # _catch_sr , CATCH_INTERNAL_LINEINFO , CATCH_INTERNAL_STRINGIFY ( __VA_ARGS__ ) , resultDisposition ) ; \
try { \
static_cast < void > ( __VA_ARGS__ ) ; \
catchAssertionHandler . handleExceptionNotThrownAsExpected ( ) ; \
} \
catch ( . . . ) { \
catchAssertionHandler . handleUnexpectedInflightException ( ) ; \
} \
INTERNAL_CATCH_REACT ( catchAssertionHandler ) \
} while ( false )
///////////////////////////////////////////////////////////////////////////////
# define INTERNAL_CATCH_THROWS( macroName, resultDisposition, ... ) \
do { \
Catch : : AssertionHandler catchAssertionHandler ( macroName # # _catch_sr , CATCH_INTERNAL_LINEINFO , CATCH_INTERNAL_STRINGIFY ( __VA_ARGS__ ) , resultDisposition ) ; \
if ( catchAssertionHandler . allowThrows ( ) ) \
try { \
static_cast < void > ( __VA_ARGS__ ) ; \
catchAssertionHandler . handleUnexpectedExceptionNotThrown ( ) ; \
} \
catch ( . . . ) { \
catchAssertionHandler . handleExceptionThrownAsExpected ( ) ; \
} \
else \
catchAssertionHandler . handleThrowingCallSkipped ( ) ; \
INTERNAL_CATCH_REACT ( catchAssertionHandler ) \
} while ( false )
///////////////////////////////////////////////////////////////////////////////
# define INTERNAL_CATCH_THROWS_AS( macroName, exceptionType, resultDisposition, expr ) \
do { \
Catch : : AssertionHandler catchAssertionHandler ( macroName # # _catch_sr , CATCH_INTERNAL_LINEINFO , CATCH_INTERNAL_STRINGIFY ( expr ) " , " CATCH_INTERNAL_STRINGIFY ( exceptionType ) , resultDisposition ) ; \
if ( catchAssertionHandler . allowThrows ( ) ) \
try { \
static_cast < void > ( expr ) ; \
catchAssertionHandler . handleUnexpectedExceptionNotThrown ( ) ; \
} \
catch ( exceptionType const & ) { \
catchAssertionHandler . handleExceptionThrownAsExpected ( ) ; \
} \
catch ( . . . ) { \
catchAssertionHandler . handleUnexpectedInflightException ( ) ; \
} \
else \
catchAssertionHandler . handleThrowingCallSkipped ( ) ; \
INTERNAL_CATCH_REACT ( catchAssertionHandler ) \
} while ( false )
///////////////////////////////////////////////////////////////////////////////
// Although this is matcher-based, it can be used with just a string
# define INTERNAL_CATCH_THROWS_STR_MATCHES( macroName, resultDisposition, matcher, ... ) \
do { \
Catch : : AssertionHandler catchAssertionHandler ( macroName # # _catch_sr , CATCH_INTERNAL_LINEINFO , CATCH_INTERNAL_STRINGIFY ( __VA_ARGS__ ) " , " CATCH_INTERNAL_STRINGIFY ( matcher ) , resultDisposition ) ; \
if ( catchAssertionHandler . allowThrows ( ) ) \
try { \
static_cast < void > ( __VA_ARGS__ ) ; \
catchAssertionHandler . handleUnexpectedExceptionNotThrown ( ) ; \
} \
catch ( . . . ) { \
Catch : : handleExceptionMatchExpr ( catchAssertionHandler , matcher , # matcher # # _catch_sr ) ; \
} \
else \
catchAssertionHandler . handleThrowingCallSkipped ( ) ; \
INTERNAL_CATCH_REACT ( catchAssertionHandler ) \
} while ( false )
# endif // CATCH_CONFIG_DISABLE
# endif // CATCH_TEST_MACRO_IMPL_HPP_INCLUDED
# ifndef CATCH_PREPROCESSOR_HPP_INCLUDED
# define CATCH_PREPROCESSOR_HPP_INCLUDED
# if defined(__GNUC__)
// We need to silence "empty __VA_ARGS__ warning", and using just _Pragma does not work
# pragma GCC system_header
# endif
# define CATCH_RECURSION_LEVEL0(...) __VA_ARGS__
# define CATCH_RECURSION_LEVEL1(...) CATCH_RECURSION_LEVEL0(CATCH_RECURSION_LEVEL0(CATCH_RECURSION_LEVEL0(__VA_ARGS__)))
# define CATCH_RECURSION_LEVEL2(...) CATCH_RECURSION_LEVEL1(CATCH_RECURSION_LEVEL1(CATCH_RECURSION_LEVEL1(__VA_ARGS__)))
# define CATCH_RECURSION_LEVEL3(...) CATCH_RECURSION_LEVEL2(CATCH_RECURSION_LEVEL2(CATCH_RECURSION_LEVEL2(__VA_ARGS__)))
# define CATCH_RECURSION_LEVEL4(...) CATCH_RECURSION_LEVEL3(CATCH_RECURSION_LEVEL3(CATCH_RECURSION_LEVEL3(__VA_ARGS__)))
# define CATCH_RECURSION_LEVEL5(...) CATCH_RECURSION_LEVEL4(CATCH_RECURSION_LEVEL4(CATCH_RECURSION_LEVEL4(__VA_ARGS__)))
# ifdef CATCH_CONFIG_TRADITIONAL_MSVC_PREPROCESSOR
# define INTERNAL_CATCH_EXPAND_VARGS(...) __VA_ARGS__
// MSVC needs more evaluations
# define CATCH_RECURSION_LEVEL6(...) CATCH_RECURSION_LEVEL5(CATCH_RECURSION_LEVEL5(CATCH_RECURSION_LEVEL5(__VA_ARGS__)))
# define CATCH_RECURSE(...) CATCH_RECURSION_LEVEL6(CATCH_RECURSION_LEVEL6(__VA_ARGS__))
# else
# define CATCH_RECURSE(...) CATCH_RECURSION_LEVEL5(__VA_ARGS__)
# endif
# define CATCH_REC_END(...)
# define CATCH_REC_OUT
# define CATCH_EMPTY()
# define CATCH_DEFER(id) id CATCH_EMPTY()
# define CATCH_REC_GET_END2() 0, CATCH_REC_END
# define CATCH_REC_GET_END1(...) CATCH_REC_GET_END2
# define CATCH_REC_GET_END(...) CATCH_REC_GET_END1
# define CATCH_REC_NEXT0(test, next, ...) next CATCH_REC_OUT
# define CATCH_REC_NEXT1(test, next) CATCH_DEFER ( CATCH_REC_NEXT0 ) ( test, next, 0)
# define CATCH_REC_NEXT(test, next) CATCH_REC_NEXT1(CATCH_REC_GET_END test, next)
# define CATCH_REC_LIST0(f, x, peek, ...) , f(x) CATCH_DEFER ( CATCH_REC_NEXT(peek, CATCH_REC_LIST1) ) ( f, peek, __VA_ARGS__ )
# define CATCH_REC_LIST1(f, x, peek, ...) , f(x) CATCH_DEFER ( CATCH_REC_NEXT(peek, CATCH_REC_LIST0) ) ( f, peek, __VA_ARGS__ )
# define CATCH_REC_LIST2(f, x, peek, ...) f(x) CATCH_DEFER ( CATCH_REC_NEXT(peek, CATCH_REC_LIST1) ) ( f, peek, __VA_ARGS__ )
# define CATCH_REC_LIST0_UD(f, userdata, x, peek, ...) , f(userdata, x) CATCH_DEFER ( CATCH_REC_NEXT(peek, CATCH_REC_LIST1_UD) ) ( f, userdata, peek, __VA_ARGS__ )
# define CATCH_REC_LIST1_UD(f, userdata, x, peek, ...) , f(userdata, x) CATCH_DEFER ( CATCH_REC_NEXT(peek, CATCH_REC_LIST0_UD) ) ( f, userdata, peek, __VA_ARGS__ )
# define CATCH_REC_LIST2_UD(f, userdata, x, peek, ...) f(userdata, x) CATCH_DEFER ( CATCH_REC_NEXT(peek, CATCH_REC_LIST1_UD) ) ( f, userdata, peek, __VA_ARGS__ )
// Applies the function macro `f` to each of the remaining parameters, inserts commas between the results,
// and passes userdata as the first parameter to each invocation,
// e.g. CATCH_REC_LIST_UD(f, x, a, b, c) evaluates to f(x, a), f(x, b), f(x, c)
# define CATCH_REC_LIST_UD(f, userdata, ...) CATCH_RECURSE(CATCH_REC_LIST2_UD(f, userdata, __VA_ARGS__, ()()(), ()()(), ()()(), 0))
# define CATCH_REC_LIST(f, ...) CATCH_RECURSE(CATCH_REC_LIST2(f, __VA_ARGS__, ()()(), ()()(), ()()(), 0))
# define INTERNAL_CATCH_EXPAND1(param) INTERNAL_CATCH_EXPAND2(param)
# define INTERNAL_CATCH_EXPAND2(...) INTERNAL_CATCH_NO## __VA_ARGS__
# define INTERNAL_CATCH_DEF(...) INTERNAL_CATCH_DEF __VA_ARGS__
# define INTERNAL_CATCH_NOINTERNAL_CATCH_DEF
# define INTERNAL_CATCH_STRINGIZE(...) INTERNAL_CATCH_STRINGIZE2(__VA_ARGS__)
# ifndef CATCH_CONFIG_TRADITIONAL_MSVC_PREPROCESSOR
# define INTERNAL_CATCH_STRINGIZE2(...) #__VA_ARGS__
# define INTERNAL_CATCH_STRINGIZE_WITHOUT_PARENS(param) INTERNAL_CATCH_STRINGIZE(INTERNAL_CATCH_REMOVE_PARENS(param))
# else
// MSVC is adding extra space and needs another indirection to expand INTERNAL_CATCH_NOINTERNAL_CATCH_DEF
# define INTERNAL_CATCH_STRINGIZE2(...) INTERNAL_CATCH_STRINGIZE3(__VA_ARGS__)
# define INTERNAL_CATCH_STRINGIZE3(...) #__VA_ARGS__
# define INTERNAL_CATCH_STRINGIZE_WITHOUT_PARENS(param) (INTERNAL_CATCH_STRINGIZE(INTERNAL_CATCH_REMOVE_PARENS(param)) + 1)
# endif
# define INTERNAL_CATCH_MAKE_NAMESPACE2(...) ns_##__VA_ARGS__
# define INTERNAL_CATCH_MAKE_NAMESPACE(name) INTERNAL_CATCH_MAKE_NAMESPACE2(name)
# define INTERNAL_CATCH_REMOVE_PARENS(...) INTERNAL_CATCH_EXPAND1(INTERNAL_CATCH_DEF __VA_ARGS__)
# ifndef CATCH_CONFIG_TRADITIONAL_MSVC_PREPROCESSOR
# define INTERNAL_CATCH_MAKE_TYPE_LIST2(...) decltype(get_wrapper<INTERNAL_CATCH_REMOVE_PARENS_GEN(__VA_ARGS__)>())
# define INTERNAL_CATCH_MAKE_TYPE_LIST(...) INTERNAL_CATCH_MAKE_TYPE_LIST2(INTERNAL_CATCH_REMOVE_PARENS(__VA_ARGS__))
# else
# define INTERNAL_CATCH_MAKE_TYPE_LIST2(...) INTERNAL_CATCH_EXPAND_VARGS(decltype(get_wrapper<INTERNAL_CATCH_REMOVE_PARENS_GEN(__VA_ARGS__)>()))
# define INTERNAL_CATCH_MAKE_TYPE_LIST(...) INTERNAL_CATCH_EXPAND_VARGS(INTERNAL_CATCH_MAKE_TYPE_LIST2(INTERNAL_CATCH_REMOVE_PARENS(__VA_ARGS__)))
# endif
# define INTERNAL_CATCH_MAKE_TYPE_LISTS_FROM_TYPES(...)\
CATCH_REC_LIST ( INTERNAL_CATCH_MAKE_TYPE_LIST , __VA_ARGS__ )
# define INTERNAL_CATCH_REMOVE_PARENS_1_ARG(_0) INTERNAL_CATCH_REMOVE_PARENS(_0)
# define INTERNAL_CATCH_REMOVE_PARENS_2_ARG(_0, _1) INTERNAL_CATCH_REMOVE_PARENS(_0), INTERNAL_CATCH_REMOVE_PARENS_1_ARG(_1)
# define INTERNAL_CATCH_REMOVE_PARENS_3_ARG(_0, _1, _2) INTERNAL_CATCH_REMOVE_PARENS(_0), INTERNAL_CATCH_REMOVE_PARENS_2_ARG(_1, _2)
# define INTERNAL_CATCH_REMOVE_PARENS_4_ARG(_0, _1, _2, _3) INTERNAL_CATCH_REMOVE_PARENS(_0), INTERNAL_CATCH_REMOVE_PARENS_3_ARG(_1, _2, _3)
# define INTERNAL_CATCH_REMOVE_PARENS_5_ARG(_0, _1, _2, _3, _4) INTERNAL_CATCH_REMOVE_PARENS(_0), INTERNAL_CATCH_REMOVE_PARENS_4_ARG(_1, _2, _3, _4)
# define INTERNAL_CATCH_REMOVE_PARENS_6_ARG(_0, _1, _2, _3, _4, _5) INTERNAL_CATCH_REMOVE_PARENS(_0), INTERNAL_CATCH_REMOVE_PARENS_5_ARG(_1, _2, _3, _4, _5)
# define INTERNAL_CATCH_REMOVE_PARENS_7_ARG(_0, _1, _2, _3, _4, _5, _6) INTERNAL_CATCH_REMOVE_PARENS(_0), INTERNAL_CATCH_REMOVE_PARENS_6_ARG(_1, _2, _3, _4, _5, _6)
# define INTERNAL_CATCH_REMOVE_PARENS_8_ARG(_0, _1, _2, _3, _4, _5, _6, _7) INTERNAL_CATCH_REMOVE_PARENS(_0), INTERNAL_CATCH_REMOVE_PARENS_7_ARG(_1, _2, _3, _4, _5, _6, _7)
# define INTERNAL_CATCH_REMOVE_PARENS_9_ARG(_0, _1, _2, _3, _4, _5, _6, _7, _8) INTERNAL_CATCH_REMOVE_PARENS(_0), INTERNAL_CATCH_REMOVE_PARENS_8_ARG(_1, _2, _3, _4, _5, _6, _7, _8)
# define INTERNAL_CATCH_REMOVE_PARENS_10_ARG(_0, _1, _2, _3, _4, _5, _6, _7, _8, _9) INTERNAL_CATCH_REMOVE_PARENS(_0), INTERNAL_CATCH_REMOVE_PARENS_9_ARG(_1, _2, _3, _4, _5, _6, _7, _8, _9)
# define INTERNAL_CATCH_REMOVE_PARENS_11_ARG(_0, _1, _2, _3, _4, _5, _6, _7, _8, _9, _10) INTERNAL_CATCH_REMOVE_PARENS(_0), INTERNAL_CATCH_REMOVE_PARENS_10_ARG(_1, _2, _3, _4, _5, _6, _7, _8, _9, _10)
# define INTERNAL_CATCH_VA_NARGS_IMPL(_0, _1, _2, _3, _4, _5, _6, _7, _8, _9, _10, N, ...) N
# define INTERNAL_CATCH_TYPE_GEN\
template < typename . . . > struct TypeList { } ; \
template < typename . . . Ts > \
constexpr auto get_wrapper ( ) noexcept - > TypeList < Ts . . . > { return { } ; } \
template < template < typename . . . > class . . . > struct TemplateTypeList { } ; \
template < template < typename . . . > class . . . Cs > \
constexpr auto get_wrapper ( ) noexcept - > TemplateTypeList < Cs . . . > { return { } ; } \
template < typename . . . > \
struct append ; \
template < typename . . . > \
struct rewrap ; \
template < template < typename . . . > class , typename . . . > \
struct create ; \
template < template < typename . . . > class , typename > \
struct convert ; \
\
template < typename T > \
struct append < T > { using type = T ; } ; \
template < template < typename . . . > class L1 , typename . . . E1 , template < typename . . . > class L2 , typename . . . E2 , typename . . . Rest > \
struct append < L1 < E1 . . . > , L2 < E2 . . . > , Rest . . . > { using type = typename append < L1 < E1 . . . , E2 . . . > , Rest . . . > : : type ; } ; \
template < template < typename . . . > class L1 , typename . . . E1 , typename . . . Rest > \
struct append < L1 < E1 . . . > , TypeList < mpl_ : : na > , Rest . . . > { using type = L1 < E1 . . . > ; } ; \
\
template < template < typename . . . > class Container , template < typename . . . > class List , typename . . . elems > \
struct rewrap < TemplateTypeList < Container > , List < elems . . . > > { using type = TypeList < Container < elems . . . > > ; } ; \
template < template < typename . . . > class Container , template < typename . . . > class List , class . . . Elems , typename . . . Elements > \
struct rewrap < TemplateTypeList < Container > , List < Elems . . . > , Elements . . . > { using type = typename append < TypeList < Container < Elems . . . > > , typename rewrap < TemplateTypeList < Container > , Elements . . . > : : type > : : type ; } ; \
\
template < template < typename . . . > class Final , template < typename . . . > class . . . Containers , typename . . . Types > \
struct create < Final , TemplateTypeList < Containers . . . > , TypeList < Types . . . > > { using type = typename append < Final < > , typename rewrap < TemplateTypeList < Containers > , Types . . . > : : type . . . > : : type ; } ; \
template < template < typename . . . > class Final , template < typename . . . > class List , typename . . . Ts > \
struct convert < Final , List < Ts . . . > > { using type = typename append < Final < > , TypeList < Ts > . . . > : : type ; } ;
# define INTERNAL_CATCH_NTTP_1(signature, ...)\
template < INTERNAL_CATCH_REMOVE_PARENS ( signature ) > struct Nttp { } ; \
template < INTERNAL_CATCH_REMOVE_PARENS ( signature ) > \
constexpr auto get_wrapper ( ) noexcept - > Nttp < __VA_ARGS__ > { return { } ; } \
template < template < INTERNAL_CATCH_REMOVE_PARENS ( signature ) > class . . . > struct NttpTemplateTypeList { } ; \
template < template < INTERNAL_CATCH_REMOVE_PARENS ( signature ) > class . . . Cs > \
constexpr auto get_wrapper ( ) noexcept - > NttpTemplateTypeList < Cs . . . > { return { } ; } \
\
template < template < INTERNAL_CATCH_REMOVE_PARENS ( signature ) > class Container , template < INTERNAL_CATCH_REMOVE_PARENS ( signature ) > class List , INTERNAL_CATCH_REMOVE_PARENS ( signature ) > \
struct rewrap < NttpTemplateTypeList < Container > , List < __VA_ARGS__ > > { using type = TypeList < Container < __VA_ARGS__ > > ; } ; \
template < template < INTERNAL_CATCH_REMOVE_PARENS ( signature ) > class Container , template < INTERNAL_CATCH_REMOVE_PARENS ( signature ) > class List , INTERNAL_CATCH_REMOVE_PARENS ( signature ) , typename . . . Elements > \
struct rewrap < NttpTemplateTypeList < Container > , List < __VA_ARGS__ > , Elements . . . > { using type = typename append < TypeList < Container < __VA_ARGS__ > > , typename rewrap < NttpTemplateTypeList < Container > , Elements . . . > : : type > : : type ; } ; \
template < template < typename . . . > class Final , template < INTERNAL_CATCH_REMOVE_PARENS ( signature ) > class . . . Containers , typename . . . Types > \
struct create < Final , NttpTemplateTypeList < Containers . . . > , TypeList < Types . . . > > { using type = typename append < Final < > , typename rewrap < NttpTemplateTypeList < Containers > , Types . . . > : : type . . . > : : type ; } ;
# define INTERNAL_CATCH_DECLARE_SIG_TEST0(TestName)
# define INTERNAL_CATCH_DECLARE_SIG_TEST1(TestName, signature)\
template < INTERNAL_CATCH_REMOVE_PARENS ( signature ) > \
static void TestName ( )
# define INTERNAL_CATCH_DECLARE_SIG_TEST_X(TestName, signature, ...)\
template < INTERNAL_CATCH_REMOVE_PARENS ( signature ) > \
static void TestName ( )
# define INTERNAL_CATCH_DEFINE_SIG_TEST0(TestName)
# define INTERNAL_CATCH_DEFINE_SIG_TEST1(TestName, signature)\
template < INTERNAL_CATCH_REMOVE_PARENS ( signature ) > \
static void TestName ( )
# define INTERNAL_CATCH_DEFINE_SIG_TEST_X(TestName, signature,...)\
template < INTERNAL_CATCH_REMOVE_PARENS ( signature ) > \
static void TestName ( )
# define INTERNAL_CATCH_NTTP_REGISTER0(TestFunc, signature)\
template < typename Type > \
void reg_test ( TypeList < Type > , Catch : : NameAndTags nameAndTags ) \
{ \
Catch : : AutoReg ( Catch : : makeTestInvoker ( & TestFunc < Type > ) , CATCH_INTERNAL_LINEINFO , Catch : : StringRef ( ) , nameAndTags ) ; \
}
# define INTERNAL_CATCH_NTTP_REGISTER(TestFunc, signature, ...)\
template < INTERNAL_CATCH_REMOVE_PARENS ( signature ) > \
void reg_test ( Nttp < __VA_ARGS__ > , Catch : : NameAndTags nameAndTags ) \
{ \
Catch : : AutoReg ( Catch : : makeTestInvoker ( & TestFunc < __VA_ARGS__ > ) , CATCH_INTERNAL_LINEINFO , Catch : : StringRef ( ) , nameAndTags ) ; \
}
# define INTERNAL_CATCH_NTTP_REGISTER_METHOD0(TestName, signature, ...)\
template < typename Type > \
void reg_test ( TypeList < Type > , Catch : : StringRef className , Catch : : NameAndTags nameAndTags ) \
{ \
Catch : : AutoReg ( Catch : : makeTestInvoker ( & TestName < Type > : : test ) , CATCH_INTERNAL_LINEINFO , className , nameAndTags ) ; \
}
# define INTERNAL_CATCH_NTTP_REGISTER_METHOD(TestName, signature, ...)\
template < INTERNAL_CATCH_REMOVE_PARENS ( signature ) > \
void reg_test ( Nttp < __VA_ARGS__ > , Catch : : StringRef className , Catch : : NameAndTags nameAndTags ) \
{ \
Catch : : AutoReg ( Catch : : makeTestInvoker ( & TestName < __VA_ARGS__ > : : test ) , CATCH_INTERNAL_LINEINFO , className , nameAndTags ) ; \
}
# define INTERNAL_CATCH_DECLARE_SIG_TEST_METHOD0(TestName, ClassName)
# define INTERNAL_CATCH_DECLARE_SIG_TEST_METHOD1(TestName, ClassName, signature)\
template < typename TestType > \
struct TestName : INTERNAL_CATCH_REMOVE_PARENS ( ClassName ) < TestType > { \
void test ( ) ; \
}
# define INTERNAL_CATCH_DECLARE_SIG_TEST_METHOD_X(TestName, ClassName, signature, ...)\
template < INTERNAL_CATCH_REMOVE_PARENS ( signature ) > \
struct TestName : INTERNAL_CATCH_REMOVE_PARENS ( ClassName ) < __VA_ARGS__ > { \
void test ( ) ; \
}
# define INTERNAL_CATCH_DEFINE_SIG_TEST_METHOD0(TestName)
# define INTERNAL_CATCH_DEFINE_SIG_TEST_METHOD1(TestName, signature)\
template < typename TestType > \
void INTERNAL_CATCH_MAKE_NAMESPACE ( TestName ) : : TestName < TestType > : : test ( )
# define INTERNAL_CATCH_DEFINE_SIG_TEST_METHOD_X(TestName, signature, ...)\
template < INTERNAL_CATCH_REMOVE_PARENS ( signature ) > \
void INTERNAL_CATCH_MAKE_NAMESPACE ( TestName ) : : TestName < __VA_ARGS__ > : : test ( )
# ifndef CATCH_CONFIG_TRADITIONAL_MSVC_PREPROCESSOR
# define INTERNAL_CATCH_NTTP_0
# define INTERNAL_CATCH_NTTP_GEN(...) INTERNAL_CATCH_VA_NARGS_IMPL(__VA_ARGS__, INTERNAL_CATCH_NTTP_1(__VA_ARGS__), INTERNAL_CATCH_NTTP_1(__VA_ARGS__), INTERNAL_CATCH_NTTP_1(__VA_ARGS__), INTERNAL_CATCH_NTTP_1(__VA_ARGS__), INTERNAL_CATCH_NTTP_1(__VA_ARGS__), INTERNAL_CATCH_NTTP_1( __VA_ARGS__), INTERNAL_CATCH_NTTP_1( __VA_ARGS__), INTERNAL_CATCH_NTTP_1( __VA_ARGS__), INTERNAL_CATCH_NTTP_1( __VA_ARGS__),INTERNAL_CATCH_NTTP_1( __VA_ARGS__), INTERNAL_CATCH_NTTP_0)
# define INTERNAL_CATCH_DEFINE_SIG_TEST_METHOD(TestName, ...) INTERNAL_CATCH_VA_NARGS_IMPL( "dummy", __VA_ARGS__, INTERNAL_CATCH_DEFINE_SIG_TEST_METHOD_X,INTERNAL_CATCH_DEFINE_SIG_TEST_METHOD_X, INTERNAL_CATCH_DEFINE_SIG_TEST_METHOD_X, INTERNAL_CATCH_DEFINE_SIG_TEST_METHOD_X, INTERNAL_CATCH_DEFINE_SIG_TEST_METHOD_X, INTERNAL_CATCH_DEFINE_SIG_TEST_METHOD_X, INTERNAL_CATCH_DEFINE_SIG_TEST_METHOD_X,INTERNAL_CATCH_DEFINE_SIG_TEST_METHOD_X,INTERNAL_CATCH_DEFINE_SIG_TEST_METHOD_X, INTERNAL_CATCH_DEFINE_SIG_TEST_METHOD1, INTERNAL_CATCH_DEFINE_SIG_TEST_METHOD0)(TestName, __VA_ARGS__)
# define INTERNAL_CATCH_DECLARE_SIG_TEST_METHOD(TestName, ClassName, ...) INTERNAL_CATCH_VA_NARGS_IMPL( "dummy", __VA_ARGS__, INTERNAL_CATCH_DECLARE_SIG_TEST_METHOD_X,INTERNAL_CATCH_DECLARE_SIG_TEST_METHOD_X, INTERNAL_CATCH_DECLARE_SIG_TEST_METHOD_X, INTERNAL_CATCH_DECLARE_SIG_TEST_METHOD_X, INTERNAL_CATCH_DECLARE_SIG_TEST_METHOD_X, INTERNAL_CATCH_DECLARE_SIG_TEST_METHOD_X, INTERNAL_CATCH_DECLARE_SIG_TEST_METHOD_X,INTERNAL_CATCH_DECLARE_SIG_TEST_METHOD_X,INTERNAL_CATCH_DECLARE_SIG_TEST_METHOD_X, INTERNAL_CATCH_DECLARE_SIG_TEST_METHOD1, INTERNAL_CATCH_DECLARE_SIG_TEST_METHOD0)(TestName, ClassName, __VA_ARGS__)
# define INTERNAL_CATCH_NTTP_REG_METHOD_GEN(TestName, ...) INTERNAL_CATCH_VA_NARGS_IMPL( "dummy", __VA_ARGS__, INTERNAL_CATCH_NTTP_REGISTER_METHOD, INTERNAL_CATCH_NTTP_REGISTER_METHOD, INTERNAL_CATCH_NTTP_REGISTER_METHOD, INTERNAL_CATCH_NTTP_REGISTER_METHOD, INTERNAL_CATCH_NTTP_REGISTER_METHOD, INTERNAL_CATCH_NTTP_REGISTER_METHOD, INTERNAL_CATCH_NTTP_REGISTER_METHOD, INTERNAL_CATCH_NTTP_REGISTER_METHOD, INTERNAL_CATCH_NTTP_REGISTER_METHOD, INTERNAL_CATCH_NTTP_REGISTER_METHOD0, INTERNAL_CATCH_NTTP_REGISTER_METHOD0)(TestName, __VA_ARGS__)
# define INTERNAL_CATCH_NTTP_REG_GEN(TestFunc, ...) INTERNAL_CATCH_VA_NARGS_IMPL( "dummy", __VA_ARGS__, INTERNAL_CATCH_NTTP_REGISTER, INTERNAL_CATCH_NTTP_REGISTER, INTERNAL_CATCH_NTTP_REGISTER, INTERNAL_CATCH_NTTP_REGISTER, INTERNAL_CATCH_NTTP_REGISTER, INTERNAL_CATCH_NTTP_REGISTER, INTERNAL_CATCH_NTTP_REGISTER, INTERNAL_CATCH_NTTP_REGISTER, INTERNAL_CATCH_NTTP_REGISTER, INTERNAL_CATCH_NTTP_REGISTER0, INTERNAL_CATCH_NTTP_REGISTER0)(TestFunc, __VA_ARGS__)
# define INTERNAL_CATCH_DEFINE_SIG_TEST(TestName, ...) INTERNAL_CATCH_VA_NARGS_IMPL( "dummy", __VA_ARGS__, INTERNAL_CATCH_DEFINE_SIG_TEST_X, INTERNAL_CATCH_DEFINE_SIG_TEST_X, INTERNAL_CATCH_DEFINE_SIG_TEST_X, INTERNAL_CATCH_DEFINE_SIG_TEST_X, INTERNAL_CATCH_DEFINE_SIG_TEST_X, INTERNAL_CATCH_DEFINE_SIG_TEST_X, INTERNAL_CATCH_DEFINE_SIG_TEST_X, INTERNAL_CATCH_DEFINE_SIG_TEST_X,INTERNAL_CATCH_DEFINE_SIG_TEST_X,INTERNAL_CATCH_DEFINE_SIG_TEST1, INTERNAL_CATCH_DEFINE_SIG_TEST0)(TestName, __VA_ARGS__)
# define INTERNAL_CATCH_DECLARE_SIG_TEST(TestName, ...) INTERNAL_CATCH_VA_NARGS_IMPL( "dummy", __VA_ARGS__, INTERNAL_CATCH_DECLARE_SIG_TEST_X,INTERNAL_CATCH_DECLARE_SIG_TEST_X, INTERNAL_CATCH_DECLARE_SIG_TEST_X, INTERNAL_CATCH_DECLARE_SIG_TEST_X, INTERNAL_CATCH_DECLARE_SIG_TEST_X, INTERNAL_CATCH_DECLARE_SIG_TEST_X, INTERNAL_CATCH_DEFINE_SIG_TEST_X,INTERNAL_CATCH_DECLARE_SIG_TEST_X,INTERNAL_CATCH_DECLARE_SIG_TEST_X, INTERNAL_CATCH_DECLARE_SIG_TEST1, INTERNAL_CATCH_DECLARE_SIG_TEST0)(TestName, __VA_ARGS__)
# define INTERNAL_CATCH_REMOVE_PARENS_GEN(...) INTERNAL_CATCH_VA_NARGS_IMPL(__VA_ARGS__, INTERNAL_CATCH_REMOVE_PARENS_11_ARG,INTERNAL_CATCH_REMOVE_PARENS_10_ARG,INTERNAL_CATCH_REMOVE_PARENS_9_ARG,INTERNAL_CATCH_REMOVE_PARENS_8_ARG,INTERNAL_CATCH_REMOVE_PARENS_7_ARG,INTERNAL_CATCH_REMOVE_PARENS_6_ARG,INTERNAL_CATCH_REMOVE_PARENS_5_ARG,INTERNAL_CATCH_REMOVE_PARENS_4_ARG,INTERNAL_CATCH_REMOVE_PARENS_3_ARG,INTERNAL_CATCH_REMOVE_PARENS_2_ARG,INTERNAL_CATCH_REMOVE_PARENS_1_ARG)(__VA_ARGS__)
# else
# define INTERNAL_CATCH_NTTP_0(signature)
# define INTERNAL_CATCH_NTTP_GEN(...) INTERNAL_CATCH_EXPAND_VARGS(INTERNAL_CATCH_VA_NARGS_IMPL(__VA_ARGS__, INTERNAL_CATCH_NTTP_1, INTERNAL_CATCH_NTTP_1, INTERNAL_CATCH_NTTP_1, INTERNAL_CATCH_NTTP_1, INTERNAL_CATCH_NTTP_1, INTERNAL_CATCH_NTTP_1, INTERNAL_CATCH_NTTP_1, INTERNAL_CATCH_NTTP_1, INTERNAL_CATCH_NTTP_1,INTERNAL_CATCH_NTTP_1, INTERNAL_CATCH_NTTP_0)( __VA_ARGS__))
# define INTERNAL_CATCH_DEFINE_SIG_TEST_METHOD(TestName, ...) INTERNAL_CATCH_EXPAND_VARGS(INTERNAL_CATCH_VA_NARGS_IMPL( "dummy", __VA_ARGS__, INTERNAL_CATCH_DEFINE_SIG_TEST_METHOD_X,INTERNAL_CATCH_DEFINE_SIG_TEST_METHOD_X, INTERNAL_CATCH_DEFINE_SIG_TEST_METHOD_X, INTERNAL_CATCH_DEFINE_SIG_TEST_METHOD_X, INTERNAL_CATCH_DEFINE_SIG_TEST_METHOD_X, INTERNAL_CATCH_DEFINE_SIG_TEST_METHOD_X, INTERNAL_CATCH_DEFINE_SIG_TEST_METHOD_X,INTERNAL_CATCH_DEFINE_SIG_TEST_METHOD_X,INTERNAL_CATCH_DEFINE_SIG_TEST_METHOD_X, INTERNAL_CATCH_DEFINE_SIG_TEST_METHOD1, INTERNAL_CATCH_DEFINE_SIG_TEST_METHOD0)(TestName, __VA_ARGS__))
# define INTERNAL_CATCH_DECLARE_SIG_TEST_METHOD(TestName, ClassName, ...) INTERNAL_CATCH_EXPAND_VARGS(INTERNAL_CATCH_VA_NARGS_IMPL( "dummy", __VA_ARGS__, INTERNAL_CATCH_DECLARE_SIG_TEST_METHOD_X,INTERNAL_CATCH_DECLARE_SIG_TEST_METHOD_X, INTERNAL_CATCH_DECLARE_SIG_TEST_METHOD_X, INTERNAL_CATCH_DECLARE_SIG_TEST_METHOD_X, INTERNAL_CATCH_DECLARE_SIG_TEST_METHOD_X, INTERNAL_CATCH_DECLARE_SIG_TEST_METHOD_X, INTERNAL_CATCH_DECLARE_SIG_TEST_METHOD_X,INTERNAL_CATCH_DECLARE_SIG_TEST_METHOD_X,INTERNAL_CATCH_DECLARE_SIG_TEST_METHOD_X, INTERNAL_CATCH_DECLARE_SIG_TEST_METHOD1, INTERNAL_CATCH_DECLARE_SIG_TEST_METHOD0)(TestName, ClassName, __VA_ARGS__))
# define INTERNAL_CATCH_NTTP_REG_METHOD_GEN(TestName, ...) INTERNAL_CATCH_EXPAND_VARGS(INTERNAL_CATCH_VA_NARGS_IMPL( "dummy", __VA_ARGS__, INTERNAL_CATCH_NTTP_REGISTER_METHOD, INTERNAL_CATCH_NTTP_REGISTER_METHOD, INTERNAL_CATCH_NTTP_REGISTER_METHOD, INTERNAL_CATCH_NTTP_REGISTER_METHOD, INTERNAL_CATCH_NTTP_REGISTER_METHOD, INTERNAL_CATCH_NTTP_REGISTER_METHOD, INTERNAL_CATCH_NTTP_REGISTER_METHOD, INTERNAL_CATCH_NTTP_REGISTER_METHOD, INTERNAL_CATCH_NTTP_REGISTER_METHOD, INTERNAL_CATCH_NTTP_REGISTER_METHOD0, INTERNAL_CATCH_NTTP_REGISTER_METHOD0)(TestName, __VA_ARGS__))
# define INTERNAL_CATCH_NTTP_REG_GEN(TestFunc, ...) INTERNAL_CATCH_EXPAND_VARGS(INTERNAL_CATCH_VA_NARGS_IMPL( "dummy", __VA_ARGS__, INTERNAL_CATCH_NTTP_REGISTER, INTERNAL_CATCH_NTTP_REGISTER, INTERNAL_CATCH_NTTP_REGISTER, INTERNAL_CATCH_NTTP_REGISTER, INTERNAL_CATCH_NTTP_REGISTER, INTERNAL_CATCH_NTTP_REGISTER, INTERNAL_CATCH_NTTP_REGISTER, INTERNAL_CATCH_NTTP_REGISTER, INTERNAL_CATCH_NTTP_REGISTER, INTERNAL_CATCH_NTTP_REGISTER0, INTERNAL_CATCH_NTTP_REGISTER0)(TestFunc, __VA_ARGS__))
# define INTERNAL_CATCH_DEFINE_SIG_TEST(TestName, ...) INTERNAL_CATCH_EXPAND_VARGS(INTERNAL_CATCH_VA_NARGS_IMPL( "dummy", __VA_ARGS__, INTERNAL_CATCH_DEFINE_SIG_TEST_X, INTERNAL_CATCH_DEFINE_SIG_TEST_X, INTERNAL_CATCH_DEFINE_SIG_TEST_X, INTERNAL_CATCH_DEFINE_SIG_TEST_X, INTERNAL_CATCH_DEFINE_SIG_TEST_X, INTERNAL_CATCH_DEFINE_SIG_TEST_X, INTERNAL_CATCH_DEFINE_SIG_TEST_X, INTERNAL_CATCH_DEFINE_SIG_TEST_X,INTERNAL_CATCH_DEFINE_SIG_TEST_X,INTERNAL_CATCH_DEFINE_SIG_TEST1, INTERNAL_CATCH_DEFINE_SIG_TEST0)(TestName, __VA_ARGS__))
# define INTERNAL_CATCH_DECLARE_SIG_TEST(TestName, ...) INTERNAL_CATCH_EXPAND_VARGS(INTERNAL_CATCH_VA_NARGS_IMPL( "dummy", __VA_ARGS__, INTERNAL_CATCH_DECLARE_SIG_TEST_X,INTERNAL_CATCH_DECLARE_SIG_TEST_X, INTERNAL_CATCH_DECLARE_SIG_TEST_X, INTERNAL_CATCH_DECLARE_SIG_TEST_X, INTERNAL_CATCH_DECLARE_SIG_TEST_X, INTERNAL_CATCH_DECLARE_SIG_TEST_X, INTERNAL_CATCH_DEFINE_SIG_TEST_X,INTERNAL_CATCH_DECLARE_SIG_TEST_X,INTERNAL_CATCH_DECLARE_SIG_TEST_X, INTERNAL_CATCH_DECLARE_SIG_TEST1, INTERNAL_CATCH_DECLARE_SIG_TEST0)(TestName, __VA_ARGS__))
# define INTERNAL_CATCH_REMOVE_PARENS_GEN(...) INTERNAL_CATCH_EXPAND_VARGS(INTERNAL_CATCH_VA_NARGS_IMPL(__VA_ARGS__, INTERNAL_CATCH_REMOVE_PARENS_11_ARG,INTERNAL_CATCH_REMOVE_PARENS_10_ARG,INTERNAL_CATCH_REMOVE_PARENS_9_ARG,INTERNAL_CATCH_REMOVE_PARENS_8_ARG,INTERNAL_CATCH_REMOVE_PARENS_7_ARG,INTERNAL_CATCH_REMOVE_PARENS_6_ARG,INTERNAL_CATCH_REMOVE_PARENS_5_ARG,INTERNAL_CATCH_REMOVE_PARENS_4_ARG,INTERNAL_CATCH_REMOVE_PARENS_3_ARG,INTERNAL_CATCH_REMOVE_PARENS_2_ARG,INTERNAL_CATCH_REMOVE_PARENS_1_ARG)(__VA_ARGS__))
# endif
# endif // CATCH_PREPROCESSOR_HPP_INCLUDED
# ifndef CATCH_SECTION_HPP_INCLUDED
# define CATCH_SECTION_HPP_INCLUDED
# ifndef CATCH_TIMER_HPP_INCLUDED
# define CATCH_TIMER_HPP_INCLUDED
# include <cstdint>
namespace Catch {
class Timer {
uint64_t m_nanoseconds = 0 ;
public :
void start ( ) ;
auto getElapsedNanoseconds ( ) const - > uint64_t ;
auto getElapsedMicroseconds ( ) const - > uint64_t ;
auto getElapsedMilliseconds ( ) const - > unsigned int ;
auto getElapsedSeconds ( ) const - > double ;
} ;
} // namespace Catch
# endif // CATCH_TIMER_HPP_INCLUDED
namespace Catch {
class Section : Detail : : NonCopyable {
public :
Section ( SectionInfo & & info ) ;
~ Section ( ) ;
// This indicates whether the section should be executed or not
explicit operator bool ( ) const ;
private :
SectionInfo m_info ;
Counts m_assertions ;
bool m_sectionIncluded ;
Timer m_timer ;
} ;
} // end namespace Catch
# define INTERNAL_CATCH_SECTION( ... ) \
CATCH_INTERNAL_START_WARNINGS_SUPPRESSION \
CATCH_INTERNAL_SUPPRESS_UNUSED_VARIABLE_WARNINGS \
if ( Catch : : Section const & INTERNAL_CATCH_UNIQUE_NAME ( catch_internal_Section ) = Catch : : SectionInfo ( CATCH_INTERNAL_LINEINFO , __VA_ARGS__ ) ) \
CATCH_INTERNAL_STOP_WARNINGS_SUPPRESSION
# define INTERNAL_CATCH_DYNAMIC_SECTION( ... ) \
CATCH_INTERNAL_START_WARNINGS_SUPPRESSION \
CATCH_INTERNAL_SUPPRESS_UNUSED_VARIABLE_WARNINGS \
if ( Catch : : Section const & INTERNAL_CATCH_UNIQUE_NAME ( catch_internal_Section ) = Catch : : SectionInfo ( CATCH_INTERNAL_LINEINFO , ( Catch : : ReusableStringStream ( ) < < __VA_ARGS__ ) . str ( ) ) ) \
CATCH_INTERNAL_STOP_WARNINGS_SUPPRESSION
# endif // CATCH_SECTION_HPP_INCLUDED
# ifndef CATCH_TEST_REGISTRY_HPP_INCLUDED
# define CATCH_TEST_REGISTRY_HPP_INCLUDED
# ifndef CATCH_INTERFACES_TESTCASE_HPP_INCLUDED
# define CATCH_INTERFACES_TESTCASE_HPP_INCLUDED
# include <vector>
namespace Catch {
class TestSpec ;
struct TestCaseInfo ;
struct ITestInvoker {
virtual void invoke ( ) const = 0 ;
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virtual ~ ITestInvoker ( ) ; // = default
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} ;
class TestCaseHandle ;
struct IConfig ;
struct ITestCaseRegistry {
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virtual ~ ITestCaseRegistry ( ) ; // = default
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// TODO: this exists only for adding filenames to test cases -- let's expose this in a saner way later
virtual std : : vector < TestCaseInfo * > const & getAllInfos ( ) const = 0 ;
virtual std : : vector < TestCaseHandle > const & getAllTests ( ) const = 0 ;
virtual std : : vector < TestCaseHandle > const & getAllTestsSorted ( IConfig const & config ) const = 0 ;
} ;
bool isThrowSafe ( TestCaseHandle const & testCase , IConfig const & config ) ;
bool matchTest ( TestCaseHandle const & testCase , TestSpec const & testSpec , IConfig const & config ) ;
std : : vector < TestCaseHandle > filterTests ( std : : vector < TestCaseHandle > const & testCases , TestSpec const & testSpec , IConfig const & config ) ;
std : : vector < TestCaseHandle > const & getAllTestCasesSorted ( IConfig const & config ) ;
}
# endif // CATCH_INTERFACES_TESTCASE_HPP_INCLUDED
// GCC 5 and older do not properly handle disabling unused-variable warning
// with a _Pragma. This means that we have to leak the suppression to the
// user code as well :-(
# if defined(__GNUC__) && !defined(__clang__) && __GNUC__ <= 5
# pragma GCC diagnostic ignored "-Wunused-variable"
# endif
namespace Catch {
template < typename C >
class TestInvokerAsMethod : public ITestInvoker {
void ( C : : * m_testAsMethod ) ( ) ;
public :
TestInvokerAsMethod ( void ( C : : * testAsMethod ) ( ) ) noexcept : m_testAsMethod ( testAsMethod ) { }
void invoke ( ) const override {
C obj ;
( obj . * m_testAsMethod ) ( ) ;
}
} ;
Detail : : unique_ptr < ITestInvoker > makeTestInvoker ( void ( * testAsFunction ) ( ) ) ;
template < typename C >
Detail : : unique_ptr < ITestInvoker > makeTestInvoker ( void ( C : : * testAsMethod ) ( ) ) {
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return Detail : : make_unique < TestInvokerAsMethod < C > > ( testAsMethod ) ;
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}
struct NameAndTags {
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constexpr NameAndTags ( StringRef name_ = StringRef ( ) ,
StringRef tags_ = StringRef ( ) ) noexcept :
name ( name_ ) , tags ( tags_ ) { }
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StringRef name ;
StringRef tags ;
} ;
struct AutoReg : Detail : : NonCopyable {
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AutoReg ( Detail : : unique_ptr < ITestInvoker > invoker , SourceLineInfo const & lineInfo , StringRef classOrMethod , NameAndTags const & nameAndTags ) noexcept ;
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} ;
} // end namespace Catch
# if defined(CATCH_CONFIG_DISABLE)
# define INTERNAL_CATCH_TESTCASE_NO_REGISTRATION( TestName, ... ) \
static inline void TestName ( )
# define INTERNAL_CATCH_TESTCASE_METHOD_NO_REGISTRATION( TestName, ClassName, ... ) \
namespace { \
struct TestName : INTERNAL_CATCH_REMOVE_PARENS ( ClassName ) { \
void test ( ) ; \
} ; \
} \
void TestName : : test ( )
# endif
///////////////////////////////////////////////////////////////////////////////
# define INTERNAL_CATCH_TESTCASE2( TestName, ... ) \
static void TestName ( ) ; \
CATCH_INTERNAL_START_WARNINGS_SUPPRESSION \
CATCH_INTERNAL_SUPPRESS_GLOBALS_WARNINGS \
namespace { Catch : : AutoReg INTERNAL_CATCH_UNIQUE_NAME ( autoRegistrar ) ( Catch : : makeTestInvoker ( & TestName ) , CATCH_INTERNAL_LINEINFO , Catch : : StringRef ( ) , Catch : : NameAndTags { __VA_ARGS__ } ) ; } /* NOLINT */ \
CATCH_INTERNAL_STOP_WARNINGS_SUPPRESSION \
static void TestName ( )
# define INTERNAL_CATCH_TESTCASE( ... ) \
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INTERNAL_CATCH_TESTCASE2 ( INTERNAL_CATCH_UNIQUE_NAME ( CATCH2_INTERNAL_TEST_ ) , __VA_ARGS__ )
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///////////////////////////////////////////////////////////////////////////////
# define INTERNAL_CATCH_METHOD_AS_TEST_CASE( QualifiedMethod, ... ) \
CATCH_INTERNAL_START_WARNINGS_SUPPRESSION \
CATCH_INTERNAL_SUPPRESS_GLOBALS_WARNINGS \
namespace { Catch : : AutoReg INTERNAL_CATCH_UNIQUE_NAME ( autoRegistrar ) ( Catch : : makeTestInvoker ( & QualifiedMethod ) , CATCH_INTERNAL_LINEINFO , " & " # QualifiedMethod , Catch : : NameAndTags { __VA_ARGS__ } ) ; } /* NOLINT */ \
CATCH_INTERNAL_STOP_WARNINGS_SUPPRESSION
///////////////////////////////////////////////////////////////////////////////
# define INTERNAL_CATCH_TEST_CASE_METHOD2( TestName, ClassName, ... )\
CATCH_INTERNAL_START_WARNINGS_SUPPRESSION \
CATCH_INTERNAL_SUPPRESS_GLOBALS_WARNINGS \
namespace { \
struct TestName : INTERNAL_CATCH_REMOVE_PARENS ( ClassName ) { \
void test ( ) ; \
} ; \
Catch : : AutoReg INTERNAL_CATCH_UNIQUE_NAME ( autoRegistrar ) ( Catch : : makeTestInvoker ( & TestName : : test ) , CATCH_INTERNAL_LINEINFO , # ClassName , Catch : : NameAndTags { __VA_ARGS__ } ) ; /* NOLINT */ \
} \
CATCH_INTERNAL_STOP_WARNINGS_SUPPRESSION \
void TestName : : test ( )
# define INTERNAL_CATCH_TEST_CASE_METHOD( ClassName, ... ) \
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INTERNAL_CATCH_TEST_CASE_METHOD2 ( INTERNAL_CATCH_UNIQUE_NAME ( CATCH2_INTERNAL_TEST_ ) , ClassName , __VA_ARGS__ )
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///////////////////////////////////////////////////////////////////////////////
# define INTERNAL_CATCH_REGISTER_TESTCASE( Function, ... ) \
do { \
CATCH_INTERNAL_START_WARNINGS_SUPPRESSION \
CATCH_INTERNAL_SUPPRESS_GLOBALS_WARNINGS \
Catch : : AutoReg INTERNAL_CATCH_UNIQUE_NAME ( autoRegistrar ) ( Catch : : makeTestInvoker ( Function ) , CATCH_INTERNAL_LINEINFO , Catch : : StringRef ( ) , Catch : : NameAndTags { __VA_ARGS__ } ) ; /* NOLINT */ \
CATCH_INTERNAL_STOP_WARNINGS_SUPPRESSION \
} while ( false )
# endif // CATCH_TEST_REGISTRY_HPP_INCLUDED
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// All of our user-facing macros support configuration toggle, that
// forces them to be defined prefixed with CATCH_. We also like to
// support another toggle that can minimize (disable) their implementation.
// Given this, we have 4 different configuration options below
# if defined(CATCH_CONFIG_PREFIX_ALL) && !defined(CATCH_CONFIG_DISABLE)
# define CATCH_REQUIRE( ... ) INTERNAL_CATCH_TEST( "CATCH_REQUIRE", Catch::ResultDisposition::Normal, __VA_ARGS__ )
# define CATCH_REQUIRE_FALSE( ... ) INTERNAL_CATCH_TEST( "CATCH_REQUIRE_FALSE", Catch::ResultDisposition::Normal | Catch::ResultDisposition::FalseTest, __VA_ARGS__ )
# define CATCH_REQUIRE_THROWS( ... ) INTERNAL_CATCH_THROWS( "CATCH_REQUIRE_THROWS", Catch::ResultDisposition::Normal, __VA_ARGS__ )
# define CATCH_REQUIRE_THROWS_AS( expr, exceptionType ) INTERNAL_CATCH_THROWS_AS( "CATCH_REQUIRE_THROWS_AS", exceptionType, Catch::ResultDisposition::Normal, expr )
# define CATCH_REQUIRE_NOTHROW( ... ) INTERNAL_CATCH_NO_THROW( "CATCH_REQUIRE_NOTHROW", Catch::ResultDisposition::Normal, __VA_ARGS__ )
# define CATCH_CHECK( ... ) INTERNAL_CATCH_TEST( "CATCH_CHECK", Catch::ResultDisposition::ContinueOnFailure, __VA_ARGS__ )
# define CATCH_CHECK_FALSE( ... ) INTERNAL_CATCH_TEST( "CATCH_CHECK_FALSE", Catch::ResultDisposition::ContinueOnFailure | Catch::ResultDisposition::FalseTest, __VA_ARGS__ )
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# define CATCH_CHECKED_IF( ... ) INTERNAL_CATCH_IF( "CATCH_CHECKED_IF", Catch::ResultDisposition::ContinueOnFailure | Catch::ResultDisposition::SuppressFail, __VA_ARGS__ )
# define CATCH_CHECKED_ELSE( ... ) INTERNAL_CATCH_ELSE( "CATCH_CHECKED_ELSE", Catch::ResultDisposition::ContinueOnFailure | Catch::ResultDisposition::SuppressFail, __VA_ARGS__ )
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# define CATCH_CHECK_NOFAIL( ... ) INTERNAL_CATCH_TEST( "CATCH_CHECK_NOFAIL", Catch::ResultDisposition::ContinueOnFailure | Catch::ResultDisposition::SuppressFail, __VA_ARGS__ )
# define CATCH_CHECK_THROWS( ... ) INTERNAL_CATCH_THROWS( "CATCH_CHECK_THROWS", Catch::ResultDisposition::ContinueOnFailure, __VA_ARGS__ )
# define CATCH_CHECK_THROWS_AS( expr, exceptionType ) INTERNAL_CATCH_THROWS_AS( "CATCH_CHECK_THROWS_AS", exceptionType, Catch::ResultDisposition::ContinueOnFailure, expr )
# define CATCH_CHECK_NOTHROW( ... ) INTERNAL_CATCH_NO_THROW( "CATCH_CHECK_NOTHROW", Catch::ResultDisposition::ContinueOnFailure, __VA_ARGS__ )
# define CATCH_TEST_CASE( ... ) INTERNAL_CATCH_TESTCASE( __VA_ARGS__ )
# define CATCH_TEST_CASE_METHOD( className, ... ) INTERNAL_CATCH_TEST_CASE_METHOD( className, __VA_ARGS__ )
# define CATCH_METHOD_AS_TEST_CASE( method, ... ) INTERNAL_CATCH_METHOD_AS_TEST_CASE( method, __VA_ARGS__ )
# define CATCH_REGISTER_TEST_CASE( Function, ... ) INTERNAL_CATCH_REGISTER_TESTCASE( Function, __VA_ARGS__ )
# define CATCH_SECTION( ... ) INTERNAL_CATCH_SECTION( __VA_ARGS__ )
# define CATCH_DYNAMIC_SECTION( ... ) INTERNAL_CATCH_DYNAMIC_SECTION( __VA_ARGS__ )
# define CATCH_FAIL( ... ) INTERNAL_CATCH_MSG( "CATCH_FAIL", Catch::ResultWas::ExplicitFailure, Catch::ResultDisposition::Normal, __VA_ARGS__ )
# define CATCH_FAIL_CHECK( ... ) INTERNAL_CATCH_MSG( "CATCH_FAIL_CHECK", Catch::ResultWas::ExplicitFailure, Catch::ResultDisposition::ContinueOnFailure, __VA_ARGS__ )
# define CATCH_SUCCEED( ... ) INTERNAL_CATCH_MSG( "CATCH_SUCCEED", Catch::ResultWas::Ok, Catch::ResultDisposition::ContinueOnFailure, __VA_ARGS__ )
# if !defined(CATCH_CONFIG_RUNTIME_STATIC_REQUIRE)
# define CATCH_STATIC_REQUIRE( ... ) static_assert( __VA_ARGS__ , #__VA_ARGS__ ); CATCH_SUCCEED( #__VA_ARGS__ )
# define CATCH_STATIC_REQUIRE_FALSE( ... ) static_assert( !(__VA_ARGS__), "!(" #__VA_ARGS__ ")" ); CATCH_SUCCEED( #__VA_ARGS__ )
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# define CATCH_STATIC_CHECK( ... ) static_assert( __VA_ARGS__ , #__VA_ARGS__ ); CATCH_SUCCEED( #__VA_ARGS__ )
# define CATCH_STATIC_CHECK_FALSE( ... ) static_assert( !(__VA_ARGS__), "!(" #__VA_ARGS__ ")" ); CATCH_SUCCEED( #__VA_ARGS__ )
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# else
# define CATCH_STATIC_REQUIRE( ... ) CATCH_REQUIRE( __VA_ARGS__ )
# define CATCH_STATIC_REQUIRE_FALSE( ... ) CATCH_REQUIRE_FALSE( __VA_ARGS__ )
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# define CATCH_STATIC_CHECK( ... ) CATCH_CHECK( __VA_ARGS__ )
# define CATCH_STATIC_CHECK_FALSE( ... ) CATCH_CHECK_FALSE( __VA_ARGS__ )
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# endif
// "BDD-style" convenience wrappers
# define CATCH_SCENARIO( ... ) CATCH_TEST_CASE( "Scenario: " __VA_ARGS__ )
# define CATCH_SCENARIO_METHOD( className, ... ) INTERNAL_CATCH_TEST_CASE_METHOD( className, "Scenario: " __VA_ARGS__ )
# define CATCH_GIVEN( desc ) INTERNAL_CATCH_DYNAMIC_SECTION( " Given: " << desc )
# define CATCH_AND_GIVEN( desc ) INTERNAL_CATCH_DYNAMIC_SECTION( "And given: " << desc )
# define CATCH_WHEN( desc ) INTERNAL_CATCH_DYNAMIC_SECTION( " When: " << desc )
# define CATCH_AND_WHEN( desc ) INTERNAL_CATCH_DYNAMIC_SECTION( " And when: " << desc )
# define CATCH_THEN( desc ) INTERNAL_CATCH_DYNAMIC_SECTION( " Then: " << desc )
# define CATCH_AND_THEN( desc ) INTERNAL_CATCH_DYNAMIC_SECTION( " And: " << desc )
# elif defined(CATCH_CONFIG_PREFIX_ALL) && defined(CATCH_CONFIG_DISABLE) // ^^ prefixed, implemented | vv prefixed, disabled
# define CATCH_REQUIRE( ... ) (void)(0)
# define CATCH_REQUIRE_FALSE( ... ) (void)(0)
# define CATCH_REQUIRE_THROWS( ... ) (void)(0)
# define CATCH_REQUIRE_THROWS_AS( expr, exceptionType ) (void)(0)
# define CATCH_REQUIRE_NOTHROW( ... ) (void)(0)
# define CATCH_CHECK( ... ) (void)(0)
# define CATCH_CHECK_FALSE( ... ) (void)(0)
# define CATCH_CHECKED_IF( ... ) if (__VA_ARGS__)
# define CATCH_CHECKED_ELSE( ... ) if (!(__VA_ARGS__))
# define CATCH_CHECK_NOFAIL( ... ) (void)(0)
# define CATCH_CHECK_THROWS( ... ) (void)(0)
# define CATCH_CHECK_THROWS_AS( expr, exceptionType ) (void)(0)
# define CATCH_CHECK_NOTHROW( ... ) (void)(0)
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# define CATCH_TEST_CASE( ... ) INTERNAL_CATCH_TESTCASE_NO_REGISTRATION(INTERNAL_CATCH_UNIQUE_NAME( CATCH2_INTERNAL_TEST_ ))
# define CATCH_TEST_CASE_METHOD( className, ... ) INTERNAL_CATCH_TESTCASE_NO_REGISTRATION(INTERNAL_CATCH_UNIQUE_NAME( CATCH2_INTERNAL_TEST_ ))
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# define CATCH_METHOD_AS_TEST_CASE( method, ... )
# define CATCH_REGISTER_TEST_CASE( Function, ... ) (void)(0)
# define CATCH_SECTION( ... )
# define CATCH_DYNAMIC_SECTION( ... )
# define CATCH_FAIL( ... ) (void)(0)
# define CATCH_FAIL_CHECK( ... ) (void)(0)
# define CATCH_SUCCEED( ... ) (void)(0)
# define CATCH_STATIC_REQUIRE( ... ) (void)(0)
# define CATCH_STATIC_REQUIRE_FALSE( ... ) (void)(0)
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# define CATCH_STATIC_CHECK( ... ) (void)(0)
# define CATCH_STATIC_CHECK_FALSE( ... ) (void)(0)
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// "BDD-style" convenience wrappers
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# define CATCH_SCENARIO( ... ) INTERNAL_CATCH_TESTCASE_NO_REGISTRATION(INTERNAL_CATCH_UNIQUE_NAME( CATCH2_INTERNAL_TEST_ ))
# define CATCH_SCENARIO_METHOD( className, ... ) INTERNAL_CATCH_TESTCASE_METHOD_NO_REGISTRATION(INTERNAL_CATCH_UNIQUE_NAME( CATCH2_INTERNAL_TEST_ ), className )
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# define CATCH_GIVEN( desc )
# define CATCH_AND_GIVEN( desc )
# define CATCH_WHEN( desc )
# define CATCH_AND_WHEN( desc )
# define CATCH_THEN( desc )
# define CATCH_AND_THEN( desc )
# elif !defined(CATCH_CONFIG_PREFIX_ALL) && !defined(CATCH_CONFIG_DISABLE) // ^^ prefixed, disabled | vv unprefixed, implemented
# define REQUIRE( ... ) INTERNAL_CATCH_TEST( "REQUIRE", Catch::ResultDisposition::Normal, __VA_ARGS__ )
# define REQUIRE_FALSE( ... ) INTERNAL_CATCH_TEST( "REQUIRE_FALSE", Catch::ResultDisposition::Normal | Catch::ResultDisposition::FalseTest, __VA_ARGS__ )
# define REQUIRE_THROWS( ... ) INTERNAL_CATCH_THROWS( "REQUIRE_THROWS", Catch::ResultDisposition::Normal, __VA_ARGS__ )
# define REQUIRE_THROWS_AS( expr, exceptionType ) INTERNAL_CATCH_THROWS_AS( "REQUIRE_THROWS_AS", exceptionType, Catch::ResultDisposition::Normal, expr )
# define REQUIRE_NOTHROW( ... ) INTERNAL_CATCH_NO_THROW( "REQUIRE_NOTHROW", Catch::ResultDisposition::Normal, __VA_ARGS__ )
# define CHECK( ... ) INTERNAL_CATCH_TEST( "CHECK", Catch::ResultDisposition::ContinueOnFailure, __VA_ARGS__ )
# define CHECK_FALSE( ... ) INTERNAL_CATCH_TEST( "CHECK_FALSE", Catch::ResultDisposition::ContinueOnFailure | Catch::ResultDisposition::FalseTest, __VA_ARGS__ )
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# define CHECKED_IF( ... ) INTERNAL_CATCH_IF( "CHECKED_IF", Catch::ResultDisposition::ContinueOnFailure | Catch::ResultDisposition::SuppressFail, __VA_ARGS__ )
# define CHECKED_ELSE( ... ) INTERNAL_CATCH_ELSE( "CHECKED_ELSE", Catch::ResultDisposition::ContinueOnFailure | Catch::ResultDisposition::SuppressFail, __VA_ARGS__ )
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# define CHECK_NOFAIL( ... ) INTERNAL_CATCH_TEST( "CHECK_NOFAIL", Catch::ResultDisposition::ContinueOnFailure | Catch::ResultDisposition::SuppressFail, __VA_ARGS__ )
# define CHECK_THROWS( ... ) INTERNAL_CATCH_THROWS( "CHECK_THROWS", Catch::ResultDisposition::ContinueOnFailure, __VA_ARGS__ )
# define CHECK_THROWS_AS( expr, exceptionType ) INTERNAL_CATCH_THROWS_AS( "CHECK_THROWS_AS", exceptionType, Catch::ResultDisposition::ContinueOnFailure, expr )
# define CHECK_NOTHROW( ... ) INTERNAL_CATCH_NO_THROW( "CHECK_NOTHROW", Catch::ResultDisposition::ContinueOnFailure, __VA_ARGS__ )
# define TEST_CASE( ... ) INTERNAL_CATCH_TESTCASE( __VA_ARGS__ )
# define TEST_CASE_METHOD( className, ... ) INTERNAL_CATCH_TEST_CASE_METHOD( className, __VA_ARGS__ )
# define METHOD_AS_TEST_CASE( method, ... ) INTERNAL_CATCH_METHOD_AS_TEST_CASE( method, __VA_ARGS__ )
# define REGISTER_TEST_CASE( Function, ... ) INTERNAL_CATCH_REGISTER_TESTCASE( Function, __VA_ARGS__ )
# define SECTION( ... ) INTERNAL_CATCH_SECTION( __VA_ARGS__ )
# define DYNAMIC_SECTION( ... ) INTERNAL_CATCH_DYNAMIC_SECTION( __VA_ARGS__ )
# define FAIL( ... ) INTERNAL_CATCH_MSG( "FAIL", Catch::ResultWas::ExplicitFailure, Catch::ResultDisposition::Normal, __VA_ARGS__ )
# define FAIL_CHECK( ... ) INTERNAL_CATCH_MSG( "FAIL_CHECK", Catch::ResultWas::ExplicitFailure, Catch::ResultDisposition::ContinueOnFailure, __VA_ARGS__ )
# define SUCCEED( ... ) INTERNAL_CATCH_MSG( "SUCCEED", Catch::ResultWas::Ok, Catch::ResultDisposition::ContinueOnFailure, __VA_ARGS__ )
# if !defined(CATCH_CONFIG_RUNTIME_STATIC_REQUIRE)
# define STATIC_REQUIRE( ... ) static_assert( __VA_ARGS__, #__VA_ARGS__ ); SUCCEED( #__VA_ARGS__ )
# define STATIC_REQUIRE_FALSE( ... ) static_assert( !(__VA_ARGS__), "!(" #__VA_ARGS__ ")" ); SUCCEED( "!(" #__VA_ARGS__ ")" )
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# define STATIC_CHECK( ... ) static_assert( __VA_ARGS__, #__VA_ARGS__ ); SUCCEED( #__VA_ARGS__ )
# define STATIC_CHECK_FALSE( ... ) static_assert( !(__VA_ARGS__), "!(" #__VA_ARGS__ ")" ); SUCCEED( "!(" #__VA_ARGS__ ")" )
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# else
# define STATIC_REQUIRE( ... ) REQUIRE( __VA_ARGS__ )
# define STATIC_REQUIRE_FALSE( ... ) REQUIRE_FALSE( __VA_ARGS__ )
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# define STATIC_CHECK( ... ) CHECK( __VA_ARGS__ )
# define STATIC_CHECK_FALSE( ... ) CHECK_FALSE( __VA_ARGS__ )
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# endif
// "BDD-style" convenience wrappers
# define SCENARIO( ... ) TEST_CASE( "Scenario: " __VA_ARGS__ )
# define SCENARIO_METHOD( className, ... ) INTERNAL_CATCH_TEST_CASE_METHOD( className, "Scenario: " __VA_ARGS__ )
# define GIVEN( desc ) INTERNAL_CATCH_DYNAMIC_SECTION( " Given: " << desc )
# define AND_GIVEN( desc ) INTERNAL_CATCH_DYNAMIC_SECTION( "And given: " << desc )
# define WHEN( desc ) INTERNAL_CATCH_DYNAMIC_SECTION( " When: " << desc )
# define AND_WHEN( desc ) INTERNAL_CATCH_DYNAMIC_SECTION( " And when: " << desc )
# define THEN( desc ) INTERNAL_CATCH_DYNAMIC_SECTION( " Then: " << desc )
# define AND_THEN( desc ) INTERNAL_CATCH_DYNAMIC_SECTION( " And: " << desc )
# elif !defined(CATCH_CONFIG_PREFIX_ALL) && defined(CATCH_CONFIG_DISABLE) // ^^ unprefixed, implemented | vv unprefixed, disabled
# define REQUIRE( ... ) (void)(0)
# define REQUIRE_FALSE( ... ) (void)(0)
# define REQUIRE_THROWS( ... ) (void)(0)
# define REQUIRE_THROWS_AS( expr, exceptionType ) (void)(0)
# define REQUIRE_NOTHROW( ... ) (void)(0)
# define CHECK( ... ) (void)(0)
# define CHECK_FALSE( ... ) (void)(0)
# define CHECKED_IF( ... ) if (__VA_ARGS__)
# define CHECKED_ELSE( ... ) if (!(__VA_ARGS__))
# define CHECK_NOFAIL( ... ) (void)(0)
# define CHECK_THROWS( ... ) (void)(0)
# define CHECK_THROWS_AS( expr, exceptionType ) (void)(0)
# define CHECK_NOTHROW( ... ) (void)(0)
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# define TEST_CASE( ... ) INTERNAL_CATCH_TESTCASE_NO_REGISTRATION(INTERNAL_CATCH_UNIQUE_NAME( CATCH2_INTERNAL_TEST_ ), __VA_ARGS__)
# define TEST_CASE_METHOD( className, ... ) INTERNAL_CATCH_TESTCASE_NO_REGISTRATION(INTERNAL_CATCH_UNIQUE_NAME( CATCH2_INTERNAL_TEST_ ))
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# define METHOD_AS_TEST_CASE( method, ... )
# define REGISTER_TEST_CASE( Function, ... ) (void)(0)
# define SECTION( ... )
# define DYNAMIC_SECTION( ... )
# define FAIL( ... ) (void)(0)
# define FAIL_CHECK( ... ) (void)(0)
# define SUCCEED( ... ) (void)(0)
# define STATIC_REQUIRE( ... ) (void)(0)
# define STATIC_REQUIRE_FALSE( ... ) (void)(0)
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# define STATIC_CHECK( ... ) (void)(0)
# define STATIC_CHECK_FALSE( ... ) (void)(0)
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// "BDD-style" convenience wrappers
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# define SCENARIO( ... ) INTERNAL_CATCH_TESTCASE_NO_REGISTRATION(INTERNAL_CATCH_UNIQUE_NAME( CATCH2_INTERNAL_TEST_ ) )
# define SCENARIO_METHOD( className, ... ) INTERNAL_CATCH_TESTCASE_METHOD_NO_REGISTRATION(INTERNAL_CATCH_UNIQUE_NAME( CATCH2_INTERNAL_TEST_ ), className )
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# define GIVEN( desc )
# define AND_GIVEN( desc )
# define WHEN( desc )
# define AND_WHEN( desc )
# define THEN( desc )
# define AND_THEN( desc )
# endif // ^^ unprefixed, disabled
// end of user facing macros
# endif // CATCH_TEST_MACROS_HPP_INCLUDED
# ifndef CATCH_TEMPLATE_TEST_REGISTRY_HPP_INCLUDED
# define CATCH_TEMPLATE_TEST_REGISTRY_HPP_INCLUDED
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// GCC 5 and older do not properly handle disabling unused-variable warning
// with a _Pragma. This means that we have to leak the suppression to the
// user code as well :-(
# if defined(__GNUC__) && !defined(__clang__) && __GNUC__ <= 5
# pragma GCC diagnostic ignored "-Wunused-variable"
# endif
# if defined(CATCH_CONFIG_DISABLE)
# define INTERNAL_CATCH_TEMPLATE_TEST_CASE_NO_REGISTRATION_2( TestName, TestFunc, Name, Tags, Signature, ... ) \
INTERNAL_CATCH_DEFINE_SIG_TEST ( TestFunc , INTERNAL_CATCH_REMOVE_PARENS ( Signature ) )
# define INTERNAL_CATCH_TEMPLATE_TEST_CASE_METHOD_NO_REGISTRATION_2( TestNameClass, TestName, ClassName, Name, Tags, Signature, ... ) \
namespace { \
namespace INTERNAL_CATCH_MAKE_NAMESPACE ( TestName ) { \
INTERNAL_CATCH_DECLARE_SIG_TEST_METHOD ( TestName , ClassName , INTERNAL_CATCH_REMOVE_PARENS ( Signature ) ) ; \
} \
} \
INTERNAL_CATCH_DEFINE_SIG_TEST_METHOD ( TestName , INTERNAL_CATCH_REMOVE_PARENS ( Signature ) )
# ifndef CATCH_CONFIG_TRADITIONAL_MSVC_PREPROCESSOR
# define INTERNAL_CATCH_TEMPLATE_TEST_CASE_NO_REGISTRATION(Name, Tags, ...) \
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INTERNAL_CATCH_TEMPLATE_TEST_CASE_NO_REGISTRATION_2 ( INTERNAL_CATCH_UNIQUE_NAME ( CATCH2_INTERNAL_TEMPLATE_TEST_ ) , INTERNAL_CATCH_UNIQUE_NAME ( CATCH2_INTERNAL_TEMPLATE_TEST_ ) , Name , Tags , typename TestType , __VA_ARGS__ )
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# else
# define INTERNAL_CATCH_TEMPLATE_TEST_CASE_NO_REGISTRATION(Name, Tags, ...) \
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INTERNAL_CATCH_EXPAND_VARGS ( INTERNAL_CATCH_TEMPLATE_TEST_CASE_NO_REGISTRATION_2 ( INTERNAL_CATCH_UNIQUE_NAME ( CATCH2_INTERNAL_TEMPLATE_TEST_ ) , INTERNAL_CATCH_UNIQUE_NAME ( CATCH2_INTERNAL_TEMPLATE_TEST_ ) , Name , Tags , typename TestType , __VA_ARGS__ ) )
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# endif
# ifndef CATCH_CONFIG_TRADITIONAL_MSVC_PREPROCESSOR
# define INTERNAL_CATCH_TEMPLATE_TEST_CASE_SIG_NO_REGISTRATION(Name, Tags, Signature, ...) \
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INTERNAL_CATCH_TEMPLATE_TEST_CASE_NO_REGISTRATION_2 ( INTERNAL_CATCH_UNIQUE_NAME ( CATCH2_INTERNAL_TEMPLATE_TEST_ ) , INTERNAL_CATCH_UNIQUE_NAME ( CATCH2_INTERNAL_TEMPLATE_TEST_ ) , Name , Tags , Signature , __VA_ARGS__ )
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# else
# define INTERNAL_CATCH_TEMPLATE_TEST_CASE_SIG_NO_REGISTRATION(Name, Tags, Signature, ...) \
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INTERNAL_CATCH_EXPAND_VARGS ( INTERNAL_CATCH_TEMPLATE_TEST_CASE_NO_REGISTRATION_2 ( INTERNAL_CATCH_UNIQUE_NAME ( CATCH2_INTERNAL_TEMPLATE_TEST_ ) , INTERNAL_CATCH_UNIQUE_NAME ( CATCH2_INTERNAL_TEMPLATE_TEST_ ) , Name , Tags , Signature , __VA_ARGS__ ) )
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# endif
# ifndef CATCH_CONFIG_TRADITIONAL_MSVC_PREPROCESSOR
# define INTERNAL_CATCH_TEMPLATE_TEST_CASE_METHOD_NO_REGISTRATION( ClassName, Name, Tags,... ) \
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INTERNAL_CATCH_TEMPLATE_TEST_CASE_METHOD_NO_REGISTRATION_2 ( INTERNAL_CATCH_UNIQUE_NAME ( CATCH2_INTERNAL_TEMPLATE_TEST_CLASS_ ) , INTERNAL_CATCH_UNIQUE_NAME ( CATCH2_INTERNAL_TEMPLATE_TEST_ ) , ClassName , Name , Tags , typename T , __VA_ARGS__ )
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# else
# define INTERNAL_CATCH_TEMPLATE_TEST_CASE_METHOD_NO_REGISTRATION( ClassName, Name, Tags,... ) \
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INTERNAL_CATCH_EXPAND_VARGS ( INTERNAL_CATCH_TEMPLATE_TEST_CASE_METHOD_NO_REGISTRATION_2 ( INTERNAL_CATCH_UNIQUE_NAME ( CATCH2_INTERNAL_TEMPLATE_TEST_CLASS_ ) , INTERNAL_CATCH_UNIQUE_NAME ( CATCH2_INTERNAL_TEMPLATE_TEST_ ) , ClassName , Name , Tags , typename T , __VA_ARGS__ ) )
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# endif
# ifndef CATCH_CONFIG_TRADITIONAL_MSVC_PREPROCESSOR
# define INTERNAL_CATCH_TEMPLATE_TEST_CASE_METHOD_SIG_NO_REGISTRATION( ClassName, Name, Tags, Signature, ... ) \
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INTERNAL_CATCH_TEMPLATE_TEST_CASE_METHOD_NO_REGISTRATION_2 ( INTERNAL_CATCH_UNIQUE_NAME ( CATCH2_INTERNAL_TEMPLATE_TEST_CLASS_ ) , INTERNAL_CATCH_UNIQUE_NAME ( CATCH2_INTERNAL_TEMPLATE_TEST_ ) , ClassName , Name , Tags , Signature , __VA_ARGS__ )
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# else
# define INTERNAL_CATCH_TEMPLATE_TEST_CASE_METHOD_SIG_NO_REGISTRATION( ClassName, Name, Tags, Signature, ... ) \
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INTERNAL_CATCH_EXPAND_VARGS ( INTERNAL_CATCH_TEMPLATE_TEST_CASE_METHOD_NO_REGISTRATION_2 ( INTERNAL_CATCH_UNIQUE_NAME ( CATCH2_INTERNAL_TEMPLATE_TEST_CLASS_ ) , INTERNAL_CATCH_UNIQUE_NAME ( CATCH2_INTERNAL_TEMPLATE_TEST_ ) , ClassName , Name , Tags , Signature , __VA_ARGS__ ) )
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# endif
# endif
///////////////////////////////////////////////////////////////////////////////
# define INTERNAL_CATCH_TEMPLATE_TEST_CASE_2(TestName, TestFunc, Name, Tags, Signature, ... )\
CATCH_INTERNAL_START_WARNINGS_SUPPRESSION \
CATCH_INTERNAL_SUPPRESS_GLOBALS_WARNINGS \
CATCH_INTERNAL_SUPPRESS_ZERO_VARIADIC_WARNINGS \
CATCH_INTERNAL_SUPPRESS_UNUSED_TEMPLATE_WARNINGS \
CATCH_INTERNAL_SUPPRESS_UNUSED_VARIABLE_WARNINGS \
INTERNAL_CATCH_DECLARE_SIG_TEST ( TestFunc , INTERNAL_CATCH_REMOVE_PARENS ( Signature ) ) ; \
namespace { \
namespace INTERNAL_CATCH_MAKE_NAMESPACE ( TestName ) { \
INTERNAL_CATCH_TYPE_GEN \
INTERNAL_CATCH_NTTP_GEN ( INTERNAL_CATCH_REMOVE_PARENS ( Signature ) ) \
INTERNAL_CATCH_NTTP_REG_GEN ( TestFunc , INTERNAL_CATCH_REMOVE_PARENS ( Signature ) ) \
template < typename . . . Types > \
struct TestName { \
TestName ( ) { \
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size_t index = 0 ; \
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constexpr char const * tmpl_types [ ] = { CATCH_REC_LIST ( INTERNAL_CATCH_STRINGIZE_WITHOUT_PARENS , __VA_ARGS__ ) } ; \
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using expander = size_t [ ] ; \
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( void ) expander { ( reg_test ( Types { } , Catch : : NameAndTags { Name " - " + std : : string ( tmpl_types [ index ] ) , Tags } ) , index + + ) . . . } ; /* NOLINT */ \
} \
} ; \
static int INTERNAL_CATCH_UNIQUE_NAME ( globalRegistrar ) = [ ] ( ) { \
TestName < INTERNAL_CATCH_MAKE_TYPE_LISTS_FROM_TYPES ( __VA_ARGS__ ) > ( ) ; \
return 0 ; \
} ( ) ; \
} \
} \
CATCH_INTERNAL_STOP_WARNINGS_SUPPRESSION \
INTERNAL_CATCH_DEFINE_SIG_TEST ( TestFunc , INTERNAL_CATCH_REMOVE_PARENS ( Signature ) )
# ifndef CATCH_CONFIG_TRADITIONAL_MSVC_PREPROCESSOR
# define INTERNAL_CATCH_TEMPLATE_TEST_CASE(Name, Tags, ...) \
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INTERNAL_CATCH_TEMPLATE_TEST_CASE_2 ( INTERNAL_CATCH_UNIQUE_NAME ( CATCH2_INTERNAL_TEMPLATE_TEST_ ) , INTERNAL_CATCH_UNIQUE_NAME ( CATCH2_INTERNAL_TEMPLATE_TEST_ ) , Name , Tags , typename TestType , __VA_ARGS__ )
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# else
# define INTERNAL_CATCH_TEMPLATE_TEST_CASE(Name, Tags, ...) \
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INTERNAL_CATCH_EXPAND_VARGS ( INTERNAL_CATCH_TEMPLATE_TEST_CASE_2 ( INTERNAL_CATCH_UNIQUE_NAME ( CATCH2_INTERNAL_TEMPLATE_TEST_ ) , INTERNAL_CATCH_UNIQUE_NAME ( CATCH2_INTERNAL_TEMPLATE_TEST_ ) , Name , Tags , typename TestType , __VA_ARGS__ ) )
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# endif
# ifndef CATCH_CONFIG_TRADITIONAL_MSVC_PREPROCESSOR
# define INTERNAL_CATCH_TEMPLATE_TEST_CASE_SIG(Name, Tags, Signature, ...) \
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INTERNAL_CATCH_TEMPLATE_TEST_CASE_2 ( INTERNAL_CATCH_UNIQUE_NAME ( CATCH2_INTERNAL_TEMPLATE_TEST_ ) , INTERNAL_CATCH_UNIQUE_NAME ( CATCH2_INTERNAL_TEMPLATE_TEST_ ) , Name , Tags , Signature , __VA_ARGS__ )
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# else
# define INTERNAL_CATCH_TEMPLATE_TEST_CASE_SIG(Name, Tags, Signature, ...) \
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INTERNAL_CATCH_EXPAND_VARGS ( INTERNAL_CATCH_TEMPLATE_TEST_CASE_2 ( INTERNAL_CATCH_UNIQUE_NAME ( CATCH2_INTERNAL_TEMPLATE_TEST_ ) , INTERNAL_CATCH_UNIQUE_NAME ( CATCH2_INTERNAL_TEMPLATE_TEST_ ) , Name , Tags , Signature , __VA_ARGS__ ) )
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# endif
# define INTERNAL_CATCH_TEMPLATE_PRODUCT_TEST_CASE2(TestName, TestFuncName, Name, Tags, Signature, TmplTypes, TypesList) \
CATCH_INTERNAL_START_WARNINGS_SUPPRESSION \
CATCH_INTERNAL_SUPPRESS_GLOBALS_WARNINGS \
CATCH_INTERNAL_SUPPRESS_ZERO_VARIADIC_WARNINGS \
CATCH_INTERNAL_SUPPRESS_UNUSED_TEMPLATE_WARNINGS \
CATCH_INTERNAL_SUPPRESS_UNUSED_VARIABLE_WARNINGS \
template < typename TestType > static void TestFuncName ( ) ; \
namespace { \
namespace INTERNAL_CATCH_MAKE_NAMESPACE ( TestName ) { \
INTERNAL_CATCH_TYPE_GEN \
INTERNAL_CATCH_NTTP_GEN ( INTERNAL_CATCH_REMOVE_PARENS ( Signature ) ) \
template < typename . . . Types > \
struct TestName { \
void reg_tests ( ) { \
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size_t index = 0 ; \
using expander = size_t [ ] ; \
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constexpr char const * tmpl_types [ ] = { CATCH_REC_LIST ( INTERNAL_CATCH_STRINGIZE_WITHOUT_PARENS , INTERNAL_CATCH_REMOVE_PARENS ( TmplTypes ) ) } ; \
constexpr char const * types_list [ ] = { CATCH_REC_LIST ( INTERNAL_CATCH_STRINGIZE_WITHOUT_PARENS , INTERNAL_CATCH_REMOVE_PARENS ( TypesList ) ) } ; \
constexpr auto num_types = sizeof ( types_list ) / sizeof ( types_list [ 0 ] ) ; \
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( void ) expander { ( Catch : : AutoReg ( Catch : : makeTestInvoker ( & TestFuncName < Types > ) , CATCH_INTERNAL_LINEINFO , Catch : : StringRef ( ) , Catch : : NameAndTags { Name " - " + std : : string ( tmpl_types [ index / num_types ] ) + ' < ' + std : : string ( types_list [ index % num_types ] ) + ' > ' , Tags } ) , index + + ) . . . } ; /* NOLINT */ \
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} \
} ; \
static int INTERNAL_CATCH_UNIQUE_NAME ( globalRegistrar ) = [ ] ( ) { \
using TestInit = typename create < TestName , decltype ( get_wrapper < INTERNAL_CATCH_REMOVE_PARENS ( TmplTypes ) > ( ) ) , TypeList < INTERNAL_CATCH_MAKE_TYPE_LISTS_FROM_TYPES ( INTERNAL_CATCH_REMOVE_PARENS ( TypesList ) ) > > : : type ; \
TestInit t ; \
t . reg_tests ( ) ; \
return 0 ; \
} ( ) ; \
} \
} \
CATCH_INTERNAL_STOP_WARNINGS_SUPPRESSION \
template < typename TestType > \
static void TestFuncName ( )
# ifndef CATCH_CONFIG_TRADITIONAL_MSVC_PREPROCESSOR
# define INTERNAL_CATCH_TEMPLATE_PRODUCT_TEST_CASE(Name, Tags, ...)\
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INTERNAL_CATCH_TEMPLATE_PRODUCT_TEST_CASE2 ( INTERNAL_CATCH_UNIQUE_NAME ( CATCH2_INTERNAL_TEMPLATE_TEST_ ) , INTERNAL_CATCH_UNIQUE_NAME ( CATCH2_INTERNAL_TEMPLATE_TEST_ ) , Name , Tags , typename T , __VA_ARGS__ )
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# else
# define INTERNAL_CATCH_TEMPLATE_PRODUCT_TEST_CASE(Name, Tags, ...)\
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INTERNAL_CATCH_EXPAND_VARGS ( INTERNAL_CATCH_TEMPLATE_PRODUCT_TEST_CASE2 ( INTERNAL_CATCH_UNIQUE_NAME ( CATCH2_INTERNAL_TEMPLATE_TEST_ ) , INTERNAL_CATCH_UNIQUE_NAME ( CATCH2_INTERNAL_TEMPLATE_TEST_ ) , Name , Tags , typename T , __VA_ARGS__ ) )
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# endif
# ifndef CATCH_CONFIG_TRADITIONAL_MSVC_PREPROCESSOR
# define INTERNAL_CATCH_TEMPLATE_PRODUCT_TEST_CASE_SIG(Name, Tags, Signature, ...)\
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INTERNAL_CATCH_TEMPLATE_PRODUCT_TEST_CASE2 ( INTERNAL_CATCH_UNIQUE_NAME ( CATCH2_INTERNAL_TEMPLATE_TEST_ ) , INTERNAL_CATCH_UNIQUE_NAME ( CATCH2_INTERNAL_TEMPLATE_TEST_ ) , Name , Tags , Signature , __VA_ARGS__ )
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# else
# define INTERNAL_CATCH_TEMPLATE_PRODUCT_TEST_CASE_SIG(Name, Tags, Signature, ...)\
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INTERNAL_CATCH_EXPAND_VARGS ( INTERNAL_CATCH_TEMPLATE_PRODUCT_TEST_CASE2 ( INTERNAL_CATCH_UNIQUE_NAME ( CATCH2_INTERNAL_TEMPLATE_TEST_ ) , INTERNAL_CATCH_UNIQUE_NAME ( CATCH2_INTERNAL_TEMPLATE_TEST_ ) , Name , Tags , Signature , __VA_ARGS__ ) )
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# endif
# define INTERNAL_CATCH_TEMPLATE_LIST_TEST_CASE_2(TestName, TestFunc, Name, Tags, TmplList)\
CATCH_INTERNAL_START_WARNINGS_SUPPRESSION \
CATCH_INTERNAL_SUPPRESS_GLOBALS_WARNINGS \
CATCH_INTERNAL_SUPPRESS_UNUSED_TEMPLATE_WARNINGS \
CATCH_INTERNAL_SUPPRESS_UNUSED_VARIABLE_WARNINGS \
template < typename TestType > static void TestFunc ( ) ; \
namespace { \
namespace INTERNAL_CATCH_MAKE_NAMESPACE ( TestName ) { \
INTERNAL_CATCH_TYPE_GEN \
template < typename . . . Types > \
struct TestName { \
void reg_tests ( ) { \
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size_t index = 0 ; \
using expander = size_t [ ] ; \
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( void ) expander { ( Catch : : AutoReg ( Catch : : makeTestInvoker ( & TestFunc < Types > ) , CATCH_INTERNAL_LINEINFO , Catch : : StringRef ( ) , Catch : : NameAndTags { Name " - " + std : : string ( INTERNAL_CATCH_STRINGIZE ( TmplList ) ) + " - " + std : : to_string ( index ) , Tags } ) , index + + ) . . . } ; /* NOLINT */ \
} \
} ; \
static int INTERNAL_CATCH_UNIQUE_NAME ( globalRegistrar ) = [ ] ( ) { \
using TestInit = typename convert < TestName , TmplList > : : type ; \
TestInit t ; \
t . reg_tests ( ) ; \
return 0 ; \
} ( ) ; \
} } \
CATCH_INTERNAL_STOP_WARNINGS_SUPPRESSION \
template < typename TestType > \
static void TestFunc ( )
# define INTERNAL_CATCH_TEMPLATE_LIST_TEST_CASE(Name, Tags, TmplList) \
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INTERNAL_CATCH_TEMPLATE_LIST_TEST_CASE_2 ( INTERNAL_CATCH_UNIQUE_NAME ( CATCH2_INTERNAL_TEMPLATE_TEST_ ) , INTERNAL_CATCH_UNIQUE_NAME ( CATCH2_INTERNAL_TEMPLATE_TEST_ ) , Name , Tags , TmplList )
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# define INTERNAL_CATCH_TEMPLATE_TEST_CASE_METHOD_2( TestNameClass, TestName, ClassName, Name, Tags, Signature, ... ) \
CATCH_INTERNAL_START_WARNINGS_SUPPRESSION \
CATCH_INTERNAL_SUPPRESS_GLOBALS_WARNINGS \
CATCH_INTERNAL_SUPPRESS_ZERO_VARIADIC_WARNINGS \
CATCH_INTERNAL_SUPPRESS_UNUSED_TEMPLATE_WARNINGS \
CATCH_INTERNAL_SUPPRESS_UNUSED_VARIABLE_WARNINGS \
namespace { \
namespace INTERNAL_CATCH_MAKE_NAMESPACE ( TestName ) { \
INTERNAL_CATCH_TYPE_GEN \
INTERNAL_CATCH_NTTP_GEN ( INTERNAL_CATCH_REMOVE_PARENS ( Signature ) ) \
INTERNAL_CATCH_DECLARE_SIG_TEST_METHOD ( TestName , ClassName , INTERNAL_CATCH_REMOVE_PARENS ( Signature ) ) ; \
INTERNAL_CATCH_NTTP_REG_METHOD_GEN ( TestName , INTERNAL_CATCH_REMOVE_PARENS ( Signature ) ) \
template < typename . . . Types > \
struct TestNameClass { \
TestNameClass ( ) { \
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size_t index = 0 ; \
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constexpr char const * tmpl_types [ ] = { CATCH_REC_LIST ( INTERNAL_CATCH_STRINGIZE_WITHOUT_PARENS , __VA_ARGS__ ) } ; \
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using expander = size_t [ ] ; \
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( void ) expander { ( reg_test ( Types { } , # ClassName , Catch : : NameAndTags { Name " - " + std : : string ( tmpl_types [ index ] ) , Tags } ) , index + + ) . . . } ; /* NOLINT */ \
} \
} ; \
static int INTERNAL_CATCH_UNIQUE_NAME ( globalRegistrar ) = [ ] ( ) { \
TestNameClass < INTERNAL_CATCH_MAKE_TYPE_LISTS_FROM_TYPES ( __VA_ARGS__ ) > ( ) ; \
return 0 ; \
} ( ) ; \
} \
} \
CATCH_INTERNAL_STOP_WARNINGS_SUPPRESSION \
INTERNAL_CATCH_DEFINE_SIG_TEST_METHOD ( TestName , INTERNAL_CATCH_REMOVE_PARENS ( Signature ) )
# ifndef CATCH_CONFIG_TRADITIONAL_MSVC_PREPROCESSOR
# define INTERNAL_CATCH_TEMPLATE_TEST_CASE_METHOD( ClassName, Name, Tags,... ) \
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INTERNAL_CATCH_TEMPLATE_TEST_CASE_METHOD_2 ( INTERNAL_CATCH_UNIQUE_NAME ( CATCH2_INTERNAL_TEMPLATE_TEST_CLASS_ ) , INTERNAL_CATCH_UNIQUE_NAME ( CATCH2_INTERNAL_TEMPLATE_TEST_ ) , ClassName , Name , Tags , typename T , __VA_ARGS__ )
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# else
# define INTERNAL_CATCH_TEMPLATE_TEST_CASE_METHOD( ClassName, Name, Tags,... ) \
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INTERNAL_CATCH_EXPAND_VARGS ( INTERNAL_CATCH_TEMPLATE_TEST_CASE_METHOD_2 ( INTERNAL_CATCH_UNIQUE_NAME ( CATCH2_INTERNAL_TEMPLATE_TEST_CLASS_ ) , INTERNAL_CATCH_UNIQUE_NAME ( CATCH2_INTERNAL_TEMPLATE_TEST_ ) , ClassName , Name , Tags , typename T , __VA_ARGS__ ) )
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# endif
# ifndef CATCH_CONFIG_TRADITIONAL_MSVC_PREPROCESSOR
# define INTERNAL_CATCH_TEMPLATE_TEST_CASE_METHOD_SIG( ClassName, Name, Tags, Signature, ... ) \
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INTERNAL_CATCH_TEMPLATE_TEST_CASE_METHOD_2 ( INTERNAL_CATCH_UNIQUE_NAME ( CATCH2_INTERNAL_TEMPLATE_TEST_CLASS_ ) , INTERNAL_CATCH_UNIQUE_NAME ( CATCH2_INTERNAL_TEMPLATE_TEST_ ) , ClassName , Name , Tags , Signature , __VA_ARGS__ )
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# else
# define INTERNAL_CATCH_TEMPLATE_TEST_CASE_METHOD_SIG( ClassName, Name, Tags, Signature, ... ) \
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INTERNAL_CATCH_EXPAND_VARGS ( INTERNAL_CATCH_TEMPLATE_TEST_CASE_METHOD_2 ( INTERNAL_CATCH_UNIQUE_NAME ( CATCH2_INTERNAL_TEMPLATE_TEST_CLASS_ ) , INTERNAL_CATCH_UNIQUE_NAME ( CATCH2_INTERNAL_TEMPLATE_TEST_ ) , ClassName , Name , Tags , Signature , __VA_ARGS__ ) )
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# endif
# define INTERNAL_CATCH_TEMPLATE_PRODUCT_TEST_CASE_METHOD_2(TestNameClass, TestName, ClassName, Name, Tags, Signature, TmplTypes, TypesList)\
CATCH_INTERNAL_START_WARNINGS_SUPPRESSION \
CATCH_INTERNAL_SUPPRESS_GLOBALS_WARNINGS \
CATCH_INTERNAL_SUPPRESS_ZERO_VARIADIC_WARNINGS \
CATCH_INTERNAL_SUPPRESS_UNUSED_TEMPLATE_WARNINGS \
CATCH_INTERNAL_SUPPRESS_UNUSED_VARIABLE_WARNINGS \
template < typename TestType > \
struct TestName : INTERNAL_CATCH_REMOVE_PARENS ( ClassName < TestType > ) { \
void test ( ) ; \
} ; \
namespace { \
namespace INTERNAL_CATCH_MAKE_NAMESPACE ( TestNameClass ) { \
INTERNAL_CATCH_TYPE_GEN \
INTERNAL_CATCH_NTTP_GEN ( INTERNAL_CATCH_REMOVE_PARENS ( Signature ) ) \
template < typename . . . Types > \
struct TestNameClass { \
void reg_tests ( ) { \
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std : : size_t index = 0 ; \
using expander = std : : size_t [ ] ; \
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constexpr char const * tmpl_types [ ] = { CATCH_REC_LIST ( INTERNAL_CATCH_STRINGIZE_WITHOUT_PARENS , INTERNAL_CATCH_REMOVE_PARENS ( TmplTypes ) ) } ; \
constexpr char const * types_list [ ] = { CATCH_REC_LIST ( INTERNAL_CATCH_STRINGIZE_WITHOUT_PARENS , INTERNAL_CATCH_REMOVE_PARENS ( TypesList ) ) } ; \
constexpr auto num_types = sizeof ( types_list ) / sizeof ( types_list [ 0 ] ) ; \
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( void ) expander { ( Catch : : AutoReg ( Catch : : makeTestInvoker ( & TestName < Types > : : test ) , CATCH_INTERNAL_LINEINFO , # ClassName , Catch : : NameAndTags { Name " - " + std : : string ( tmpl_types [ index / num_types ] ) + ' < ' + std : : string ( types_list [ index % num_types ] ) + ' > ' , Tags } ) , index + + ) . . . } ; /* NOLINT */ \
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} \
} ; \
static int INTERNAL_CATCH_UNIQUE_NAME ( globalRegistrar ) = [ ] ( ) { \
using TestInit = typename create < TestNameClass , decltype ( get_wrapper < INTERNAL_CATCH_REMOVE_PARENS ( TmplTypes ) > ( ) ) , TypeList < INTERNAL_CATCH_MAKE_TYPE_LISTS_FROM_TYPES ( INTERNAL_CATCH_REMOVE_PARENS ( TypesList ) ) > > : : type ; \
TestInit t ; \
t . reg_tests ( ) ; \
return 0 ; \
} ( ) ; \
} \
} \
CATCH_INTERNAL_STOP_WARNINGS_SUPPRESSION \
template < typename TestType > \
void TestName < TestType > : : test ( )
# ifndef CATCH_CONFIG_TRADITIONAL_MSVC_PREPROCESSOR
# define INTERNAL_CATCH_TEMPLATE_PRODUCT_TEST_CASE_METHOD( ClassName, Name, Tags, ... )\
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INTERNAL_CATCH_TEMPLATE_PRODUCT_TEST_CASE_METHOD_2 ( INTERNAL_CATCH_UNIQUE_NAME ( CATCH2_INTERNAL_TEMPLATE_TEST_ ) , INTERNAL_CATCH_UNIQUE_NAME ( CATCH2_INTERNAL_TEMPLATE_TEST_ ) , ClassName , Name , Tags , typename T , __VA_ARGS__ )
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# else
# define INTERNAL_CATCH_TEMPLATE_PRODUCT_TEST_CASE_METHOD( ClassName, Name, Tags, ... )\
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INTERNAL_CATCH_EXPAND_VARGS ( INTERNAL_CATCH_TEMPLATE_PRODUCT_TEST_CASE_METHOD_2 ( INTERNAL_CATCH_UNIQUE_NAME ( CATCH2_INTERNAL_TEMPLATE_TEST_ ) , INTERNAL_CATCH_UNIQUE_NAME ( CATCH2_INTERNAL_TEMPLATE_TEST_ ) , ClassName , Name , Tags , typename T , __VA_ARGS__ ) )
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# endif
# ifndef CATCH_CONFIG_TRADITIONAL_MSVC_PREPROCESSOR
# define INTERNAL_CATCH_TEMPLATE_PRODUCT_TEST_CASE_METHOD_SIG( ClassName, Name, Tags, Signature, ... )\
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INTERNAL_CATCH_TEMPLATE_PRODUCT_TEST_CASE_METHOD_2 ( INTERNAL_CATCH_UNIQUE_NAME ( CATCH2_INTERNAL_TEMPLATE_TEST_ ) , INTERNAL_CATCH_UNIQUE_NAME ( CATCH2_INTERNAL_TEMPLATE_TEST_ ) , ClassName , Name , Tags , Signature , __VA_ARGS__ )
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# else
# define INTERNAL_CATCH_TEMPLATE_PRODUCT_TEST_CASE_METHOD_SIG( ClassName, Name, Tags, Signature, ... )\
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INTERNAL_CATCH_EXPAND_VARGS ( INTERNAL_CATCH_TEMPLATE_PRODUCT_TEST_CASE_METHOD_2 ( INTERNAL_CATCH_UNIQUE_NAME ( CATCH2_INTERNAL_TEMPLATE_TEST_ ) , INTERNAL_CATCH_UNIQUE_NAME ( CATCH2_INTERNAL_TEMPLATE_TEST_ ) , ClassName , Name , Tags , Signature , __VA_ARGS__ ) )
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# endif
# define INTERNAL_CATCH_TEMPLATE_LIST_TEST_CASE_METHOD_2( TestNameClass, TestName, ClassName, Name, Tags, TmplList) \
CATCH_INTERNAL_START_WARNINGS_SUPPRESSION \
CATCH_INTERNAL_SUPPRESS_GLOBALS_WARNINGS \
CATCH_INTERNAL_SUPPRESS_UNUSED_TEMPLATE_WARNINGS \
CATCH_INTERNAL_SUPPRESS_UNUSED_VARIABLE_WARNINGS \
template < typename TestType > \
struct TestName : INTERNAL_CATCH_REMOVE_PARENS ( ClassName < TestType > ) { \
void test ( ) ; \
} ; \
namespace { \
namespace INTERNAL_CATCH_MAKE_NAMESPACE ( TestName ) { \
INTERNAL_CATCH_TYPE_GEN \
template < typename . . . Types > \
struct TestNameClass { \
void reg_tests ( ) { \
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size_t index = 0 ; \
using expander = size_t [ ] ; \
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( void ) expander { ( Catch : : AutoReg ( Catch : : makeTestInvoker ( & TestName < Types > : : test ) , CATCH_INTERNAL_LINEINFO , # ClassName , Catch : : NameAndTags { Name " - " + std : : string ( INTERNAL_CATCH_STRINGIZE ( TmplList ) ) + " - " + std : : to_string ( index ) , Tags } ) , index + + ) . . . } ; /* NOLINT */ \
} \
} ; \
static int INTERNAL_CATCH_UNIQUE_NAME ( globalRegistrar ) = [ ] ( ) { \
using TestInit = typename convert < TestNameClass , TmplList > : : type ; \
TestInit t ; \
t . reg_tests ( ) ; \
return 0 ; \
} ( ) ; \
} } \
CATCH_INTERNAL_STOP_WARNINGS_SUPPRESSION \
template < typename TestType > \
void TestName < TestType > : : test ( )
# define INTERNAL_CATCH_TEMPLATE_LIST_TEST_CASE_METHOD(ClassName, Name, Tags, TmplList) \
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INTERNAL_CATCH_TEMPLATE_LIST_TEST_CASE_METHOD_2 ( INTERNAL_CATCH_UNIQUE_NAME ( CATCH2_INTERNAL_TEMPLATE_TEST_ ) , INTERNAL_CATCH_UNIQUE_NAME ( CATCH2_INTERNAL_TEMPLATE_TEST_ ) , ClassName , Name , Tags , TmplList )
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# endif // CATCH_TEMPLATE_TEST_REGISTRY_HPP_INCLUDED
# if defined(CATCH_CONFIG_PREFIX_ALL) && !defined(CATCH_CONFIG_DISABLE)
# ifndef CATCH_CONFIG_TRADITIONAL_MSVC_PREPROCESSOR
# define CATCH_TEMPLATE_TEST_CASE( ... ) INTERNAL_CATCH_TEMPLATE_TEST_CASE( __VA_ARGS__ )
# define CATCH_TEMPLATE_TEST_CASE_SIG( ... ) INTERNAL_CATCH_TEMPLATE_TEST_CASE_SIG( __VA_ARGS__ )
# define CATCH_TEMPLATE_TEST_CASE_METHOD( className, ... ) INTERNAL_CATCH_TEMPLATE_TEST_CASE_METHOD( className, __VA_ARGS__ )
# define CATCH_TEMPLATE_TEST_CASE_METHOD_SIG( className, ... ) INTERNAL_CATCH_TEMPLATE_TEST_CASE_METHOD_SIG( className, __VA_ARGS__ )
# define CATCH_TEMPLATE_PRODUCT_TEST_CASE( ... ) INTERNAL_CATCH_TEMPLATE_PRODUCT_TEST_CASE( __VA_ARGS__ )
# define CATCH_TEMPLATE_PRODUCT_TEST_CASE_SIG( ... ) INTERNAL_CATCH_TEMPLATE_PRODUCT_TEST_CASE_SIG( __VA_ARGS__ )
# define CATCH_TEMPLATE_PRODUCT_TEST_CASE_METHOD( className, ... ) INTERNAL_CATCH_TEMPLATE_PRODUCT_TEST_CASE_METHOD( className, __VA_ARGS__ )
# define CATCH_TEMPLATE_PRODUCT_TEST_CASE_METHOD_SIG( className, ... ) INTERNAL_CATCH_TEMPLATE_PRODUCT_TEST_CASE_METHOD_SIG( className, __VA_ARGS__ )
# define CATCH_TEMPLATE_LIST_TEST_CASE( ... ) INTERNAL_CATCH_TEMPLATE_LIST_TEST_CASE(__VA_ARGS__)
# define CATCH_TEMPLATE_LIST_TEST_CASE_METHOD( className, ... ) INTERNAL_CATCH_TEMPLATE_LIST_TEST_CASE_METHOD( className, __VA_ARGS__ )
# else
# define CATCH_TEMPLATE_TEST_CASE( ... ) INTERNAL_CATCH_EXPAND_VARGS( INTERNAL_CATCH_TEMPLATE_TEST_CASE( __VA_ARGS__ ) )
# define CATCH_TEMPLATE_TEST_CASE_SIG( ... ) INTERNAL_CATCH_EXPAND_VARGS( INTERNAL_CATCH_TEMPLATE_TEST_CASE_SIG( __VA_ARGS__ ) )
# define CATCH_TEMPLATE_TEST_CASE_METHOD( className, ... ) INTERNAL_CATCH_EXPAND_VARGS( INTERNAL_CATCH_TEMPLATE_TEST_CASE_METHOD( className, __VA_ARGS__ ) )
# define CATCH_TEMPLATE_TEST_CASE_METHOD_SIG( className, ... ) INTERNAL_CATCH_EXPAND_VARGS( INTERNAL_CATCH_TEMPLATE_TEST_CASE_METHOD_SIG( className, __VA_ARGS__ ) )
# define CATCH_TEMPLATE_PRODUCT_TEST_CASE( ... ) INTERNAL_CATCH_EXPAND_VARGS( INTERNAL_CATCH_TEMPLATE_PRODUCT_TEST_CASE( __VA_ARGS__ ) )
# define CATCH_TEMPLATE_PRODUCT_TEST_CASE_SIG( ... ) INTERNAL_CATCH_EXPAND_VARGS( INTERNAL_CATCH_TEMPLATE_PRODUCT_TEST_CASE_SIG( __VA_ARGS__ ) )
# define CATCH_TEMPLATE_PRODUCT_TEST_CASE_METHOD( className, ... ) INTERNAL_CATCH_EXPAND_VARGS( INTERNAL_CATCH_TEMPLATE_PRODUCT_TEST_CASE_METHOD( className, __VA_ARGS__ ) )
# define CATCH_TEMPLATE_PRODUCT_TEST_CASE_METHOD_SIG( className, ... ) INTERNAL_CATCH_EXPAND_VARGS( INTERNAL_CATCH_TEMPLATE_PRODUCT_TEST_CASE_METHOD_SIG( className, __VA_ARGS__ ) )
# define CATCH_TEMPLATE_LIST_TEST_CASE( ... ) INTERNAL_CATCH_EXPAND_VARGS( INTERNAL_CATCH_TEMPLATE_LIST_TEST_CASE( __VA_ARGS__ ) )
# define CATCH_TEMPLATE_LIST_TEST_CASE_METHOD( className, ... ) INTERNAL_CATCH_EXPAND_VARGS( INTERNAL_CATCH_TEMPLATE_LIST_TEST_CASE_METHOD( className, __VA_ARGS__ ) )
# endif
# elif defined(CATCH_CONFIG_PREFIX_ALL) && defined(CATCH_CONFIG_DISABLE)
# ifndef CATCH_CONFIG_TRADITIONAL_MSVC_PREPROCESSOR
# define CATCH_TEMPLATE_TEST_CASE( ... ) INTERNAL_CATCH_TEMPLATE_TEST_CASE_NO_REGISTRATION(__VA_ARGS__)
# define CATCH_TEMPLATE_TEST_CASE_SIG( ... ) INTERNAL_CATCH_TEMPLATE_TEST_CASE_SIG_NO_REGISTRATION(__VA_ARGS__)
# define CATCH_TEMPLATE_TEST_CASE_METHOD( className, ... ) INTERNAL_CATCH_TEMPLATE_TEST_CASE_METHOD_NO_REGISTRATION(className, __VA_ARGS__)
# define CATCH_TEMPLATE_TEST_CASE_METHOD_SIG( className, ... ) INTERNAL_CATCH_TEMPLATE_TEST_CASE_METHOD_SIG_NO_REGISTRATION(className, __VA_ARGS__ )
# else
# define CATCH_TEMPLATE_TEST_CASE( ... ) INTERNAL_CATCH_EXPAND_VARGS( INTERNAL_CATCH_TEMPLATE_TEST_CASE_NO_REGISTRATION(__VA_ARGS__) )
# define CATCH_TEMPLATE_TEST_CASE_SIG( ... ) INTERNAL_CATCH_EXPAND_VARGS( INTERNAL_CATCH_TEMPLATE_TEST_CASE_SIG_NO_REGISTRATION(__VA_ARGS__) )
# define CATCH_TEMPLATE_TEST_CASE_METHOD( className, ... ) INTERNAL_CATCH_EXPAND_VARGS( INTERNAL_CATCH_TEMPLATE_TEST_CASE_METHOD_NO_REGISTRATION(className, __VA_ARGS__ ) )
# define CATCH_TEMPLATE_TEST_CASE_METHOD_SIG( className, ... ) INTERNAL_CATCH_EXPAND_VARGS( INTERNAL_CATCH_TEMPLATE_TEST_CASE_METHOD_SIG_NO_REGISTRATION(className, __VA_ARGS__ ) )
# endif
// When disabled, these can be shared between proper preprocessor and MSVC preprocessor
# define CATCH_TEMPLATE_PRODUCT_TEST_CASE( ... ) CATCH_TEMPLATE_TEST_CASE( __VA_ARGS__ )
# define CATCH_TEMPLATE_PRODUCT_TEST_CASE_SIG( ... ) CATCH_TEMPLATE_TEST_CASE( __VA_ARGS__ )
# define CATCH_TEMPLATE_PRODUCT_TEST_CASE_METHOD( className, ... ) CATCH_TEMPLATE_TEST_CASE_METHOD( className, __VA_ARGS__ )
# define CATCH_TEMPLATE_PRODUCT_TEST_CASE_METHOD_SIG( className, ... ) CATCH_TEMPLATE_TEST_CASE_METHOD( className, __VA_ARGS__ )
# define CATCH_TEMPLATE_LIST_TEST_CASE( ... ) CATCH_TEMPLATE_TEST_CASE(__VA_ARGS__)
# define CATCH_TEMPLATE_LIST_TEST_CASE_METHOD( className, ... ) CATCH_TEMPLATE_TEST_CASE_METHOD( className, __VA_ARGS__ )
# elif !defined(CATCH_CONFIG_PREFIX_ALL) && !defined(CATCH_CONFIG_DISABLE)
# ifndef CATCH_CONFIG_TRADITIONAL_MSVC_PREPROCESSOR
# define TEMPLATE_TEST_CASE( ... ) INTERNAL_CATCH_TEMPLATE_TEST_CASE( __VA_ARGS__ )
# define TEMPLATE_TEST_CASE_SIG( ... ) INTERNAL_CATCH_TEMPLATE_TEST_CASE_SIG( __VA_ARGS__ )
# define TEMPLATE_TEST_CASE_METHOD( className, ... ) INTERNAL_CATCH_TEMPLATE_TEST_CASE_METHOD( className, __VA_ARGS__ )
# define TEMPLATE_TEST_CASE_METHOD_SIG( className, ... ) INTERNAL_CATCH_TEMPLATE_TEST_CASE_METHOD_SIG( className, __VA_ARGS__ )
# define TEMPLATE_PRODUCT_TEST_CASE( ... ) INTERNAL_CATCH_TEMPLATE_PRODUCT_TEST_CASE( __VA_ARGS__ )
# define TEMPLATE_PRODUCT_TEST_CASE_SIG( ... ) INTERNAL_CATCH_TEMPLATE_PRODUCT_TEST_CASE_SIG( __VA_ARGS__ )
# define TEMPLATE_PRODUCT_TEST_CASE_METHOD( className, ... ) INTERNAL_CATCH_TEMPLATE_PRODUCT_TEST_CASE_METHOD( className, __VA_ARGS__ )
# define TEMPLATE_PRODUCT_TEST_CASE_METHOD_SIG( className, ... ) INTERNAL_CATCH_TEMPLATE_PRODUCT_TEST_CASE_METHOD_SIG( className, __VA_ARGS__ )
# define TEMPLATE_LIST_TEST_CASE( ... ) INTERNAL_CATCH_TEMPLATE_LIST_TEST_CASE(__VA_ARGS__)
# define TEMPLATE_LIST_TEST_CASE_METHOD( className, ... ) INTERNAL_CATCH_TEMPLATE_LIST_TEST_CASE_METHOD( className, __VA_ARGS__ )
# else
# define TEMPLATE_TEST_CASE( ... ) INTERNAL_CATCH_EXPAND_VARGS( INTERNAL_CATCH_TEMPLATE_TEST_CASE( __VA_ARGS__ ) )
# define TEMPLATE_TEST_CASE_SIG( ... ) INTERNAL_CATCH_EXPAND_VARGS( INTERNAL_CATCH_TEMPLATE_TEST_CASE_SIG( __VA_ARGS__ ) )
# define TEMPLATE_TEST_CASE_METHOD( className, ... ) INTERNAL_CATCH_EXPAND_VARGS( INTERNAL_CATCH_TEMPLATE_TEST_CASE_METHOD( className, __VA_ARGS__ ) )
# define TEMPLATE_TEST_CASE_METHOD_SIG( className, ... ) INTERNAL_CATCH_EXPAND_VARGS( INTERNAL_CATCH_TEMPLATE_TEST_CASE_METHOD_SIG( className, __VA_ARGS__ ) )
# define TEMPLATE_PRODUCT_TEST_CASE( ... ) INTERNAL_CATCH_EXPAND_VARGS( INTERNAL_CATCH_TEMPLATE_PRODUCT_TEST_CASE( __VA_ARGS__ ) )
# define TEMPLATE_PRODUCT_TEST_CASE_SIG( ... ) INTERNAL_CATCH_EXPAND_VARGS( INTERNAL_CATCH_TEMPLATE_PRODUCT_TEST_CASE_SIG( __VA_ARGS__ ) )
# define TEMPLATE_PRODUCT_TEST_CASE_METHOD( className, ... ) INTERNAL_CATCH_EXPAND_VARGS( INTERNAL_CATCH_TEMPLATE_PRODUCT_TEST_CASE_METHOD( className, __VA_ARGS__ ) )
# define TEMPLATE_PRODUCT_TEST_CASE_METHOD_SIG( className, ... ) INTERNAL_CATCH_EXPAND_VARGS( INTERNAL_CATCH_TEMPLATE_PRODUCT_TEST_CASE_METHOD_SIG( className, __VA_ARGS__ ) )
# define TEMPLATE_LIST_TEST_CASE( ... ) INTERNAL_CATCH_EXPAND_VARGS( INTERNAL_CATCH_TEMPLATE_LIST_TEST_CASE( __VA_ARGS__ ) )
# define TEMPLATE_LIST_TEST_CASE_METHOD( className, ... ) INTERNAL_CATCH_EXPAND_VARGS( INTERNAL_CATCH_TEMPLATE_LIST_TEST_CASE_METHOD( className, __VA_ARGS__ ) )
# endif
# elif !defined(CATCH_CONFIG_PREFIX_ALL) && defined(CATCH_CONFIG_DISABLE)
# ifndef CATCH_CONFIG_TRADITIONAL_MSVC_PREPROCESSOR
# define TEMPLATE_TEST_CASE( ... ) INTERNAL_CATCH_TEMPLATE_TEST_CASE_NO_REGISTRATION(__VA_ARGS__)
# define TEMPLATE_TEST_CASE_SIG( ... ) INTERNAL_CATCH_TEMPLATE_TEST_CASE_SIG_NO_REGISTRATION(__VA_ARGS__)
# define TEMPLATE_TEST_CASE_METHOD( className, ... ) INTERNAL_CATCH_TEMPLATE_TEST_CASE_METHOD_NO_REGISTRATION(className, __VA_ARGS__)
# define TEMPLATE_TEST_CASE_METHOD_SIG( className, ... ) INTERNAL_CATCH_TEMPLATE_TEST_CASE_METHOD_SIG_NO_REGISTRATION(className, __VA_ARGS__ )
# else
# define TEMPLATE_TEST_CASE( ... ) INTERNAL_CATCH_EXPAND_VARGS( INTERNAL_CATCH_TEMPLATE_TEST_CASE_NO_REGISTRATION(__VA_ARGS__) )
# define TEMPLATE_TEST_CASE_SIG( ... ) INTERNAL_CATCH_EXPAND_VARGS( INTERNAL_CATCH_TEMPLATE_TEST_CASE_SIG_NO_REGISTRATION(__VA_ARGS__) )
# define TEMPLATE_TEST_CASE_METHOD( className, ... ) INTERNAL_CATCH_EXPAND_VARGS( INTERNAL_CATCH_TEMPLATE_TEST_CASE_METHOD_NO_REGISTRATION(className, __VA_ARGS__ ) )
# define TEMPLATE_TEST_CASE_METHOD_SIG( className, ... ) INTERNAL_CATCH_EXPAND_VARGS( INTERNAL_CATCH_TEMPLATE_TEST_CASE_METHOD_SIG_NO_REGISTRATION(className, __VA_ARGS__ ) )
# endif
// When disabled, these can be shared between proper preprocessor and MSVC preprocessor
# define TEMPLATE_PRODUCT_TEST_CASE( ... ) TEMPLATE_TEST_CASE( __VA_ARGS__ )
# define TEMPLATE_PRODUCT_TEST_CASE_SIG( ... ) TEMPLATE_TEST_CASE( __VA_ARGS__ )
# define TEMPLATE_PRODUCT_TEST_CASE_METHOD( className, ... ) TEMPLATE_TEST_CASE_METHOD( className, __VA_ARGS__ )
# define TEMPLATE_PRODUCT_TEST_CASE_METHOD_SIG( className, ... ) TEMPLATE_TEST_CASE_METHOD( className, __VA_ARGS__ )
# define TEMPLATE_LIST_TEST_CASE( ... ) TEMPLATE_TEST_CASE(__VA_ARGS__)
# define TEMPLATE_LIST_TEST_CASE_METHOD( className, ... ) TEMPLATE_TEST_CASE_METHOD( className, __VA_ARGS__ )
# endif // end of user facing macro declarations
# endif // CATCH_TEMPLATE_TEST_MACROS_HPP_INCLUDED
# ifndef CATCH_TEST_CASE_INFO_HPP_INCLUDED
# define CATCH_TEST_CASE_INFO_HPP_INCLUDED
# include <string>
# include <vector>
# ifdef __clang__
# pragma clang diagnostic push
# pragma clang diagnostic ignored "-Wpadded"
# endif
namespace Catch {
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/**
* A * * view * * of a tag string that provides case insensitive comparisons
*
* Note that in Catch2 internals , the square brackets around tags are
* not a part of tag ' s representation , so e . g . " [cool-tag] " is represented
* as " cool-tag " internally .
*/
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struct Tag {
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constexpr Tag ( StringRef original_ ) :
original ( original_ )
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{ }
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StringRef original ;
friend bool operator < ( Tag const & lhs , Tag const & rhs ) ;
friend bool operator = = ( Tag const & lhs , Tag const & rhs ) ;
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} ;
struct ITestInvoker ;
enum class TestCaseProperties : uint8_t {
None = 0 ,
IsHidden = 1 < < 1 ,
ShouldFail = 1 < < 2 ,
MayFail = 1 < < 3 ,
Throws = 1 < < 4 ,
NonPortable = 1 < < 5 ,
Benchmark = 1 < < 6
} ;
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/**
* Various metadata about the test case .
*
* A test case is uniquely identified by its ( class ) name and tags
* combination , with source location being ignored , and other properties
* being determined from tags .
*
* Tags are kept sorted .
*/
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struct TestCaseInfo : Detail : : NonCopyable {
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TestCaseInfo ( StringRef _className ,
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NameAndTags const & _tags ,
SourceLineInfo const & _lineInfo ) ;
bool isHidden ( ) const ;
bool throws ( ) const ;
bool okToFail ( ) const ;
bool expectedToFail ( ) const ;
// Adds the tag(s) with test's filename (for the -# flag)
void addFilenameTag ( ) ;
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//! Orders by name, classname and tags
friend bool operator < ( TestCaseInfo const & lhs ,
TestCaseInfo const & rhs ) ;
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std : : string tagsAsString ( ) const ;
std : : string name ;
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StringRef className ;
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private :
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std : : string backingTags ;
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// Internally we copy tags to the backing storage and then add
// refs to this storage to the tags vector.
void internalAppendTag ( StringRef tagString ) ;
public :
std : : vector < Tag > tags ;
SourceLineInfo lineInfo ;
TestCaseProperties properties = TestCaseProperties : : None ;
} ;
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/**
* Wrapper over the test case information and the test case invoker
*
* Does not own either , and is specifically made to be cheap
* to copy around .
*/
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class TestCaseHandle {
TestCaseInfo * m_info ;
ITestInvoker * m_invoker ;
public :
TestCaseHandle ( TestCaseInfo * info , ITestInvoker * invoker ) :
m_info ( info ) , m_invoker ( invoker ) { }
void invoke ( ) const {
m_invoker - > invoke ( ) ;
}
TestCaseInfo const & getTestCaseInfo ( ) const ;
} ;
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Detail : : unique_ptr < TestCaseInfo >
makeTestCaseInfo ( StringRef className ,
NameAndTags const & nameAndTags ,
SourceLineInfo const & lineInfo ) ;
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}
# ifdef __clang__
# pragma clang diagnostic pop
# endif
# endif // CATCH_TEST_CASE_INFO_HPP_INCLUDED
# ifndef CATCH_TRANSLATE_EXCEPTION_HPP_INCLUDED
# define CATCH_TRANSLATE_EXCEPTION_HPP_INCLUDED
# ifndef CATCH_INTERFACES_EXCEPTION_HPP_INCLUDED
# define CATCH_INTERFACES_EXCEPTION_HPP_INCLUDED
# include <string>
# include <vector>
namespace Catch {
using exceptionTranslateFunction = std : : string ( * ) ( ) ;
struct IExceptionTranslator ;
using ExceptionTranslators = std : : vector < Detail : : unique_ptr < IExceptionTranslator const > > ;
struct IExceptionTranslator {
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virtual ~ IExceptionTranslator ( ) ; // = default
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virtual std : : string translate ( ExceptionTranslators : : const_iterator it , ExceptionTranslators : : const_iterator itEnd ) const = 0 ;
} ;
struct IExceptionTranslatorRegistry {
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virtual ~ IExceptionTranslatorRegistry ( ) ; // = default
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virtual std : : string translateActiveException ( ) const = 0 ;
} ;
} // namespace Catch
# endif // CATCH_INTERFACES_EXCEPTION_HPP_INCLUDED
# include <exception>
namespace Catch {
class ExceptionTranslatorRegistrar {
template < typename T >
class ExceptionTranslator : public IExceptionTranslator {
public :
ExceptionTranslator ( std : : string ( * translateFunction ) ( T const & ) )
: m_translateFunction ( translateFunction )
{ }
std : : string translate ( ExceptionTranslators : : const_iterator it , ExceptionTranslators : : const_iterator itEnd ) const override {
# if !defined(CATCH_CONFIG_DISABLE_EXCEPTIONS)
try {
if ( it = = itEnd )
std : : rethrow_exception ( std : : current_exception ( ) ) ;
else
return ( * it ) - > translate ( it + 1 , itEnd ) ;
}
catch ( T const & ex ) {
return m_translateFunction ( ex ) ;
}
# else
return " You should never get here! " ;
# endif
}
protected :
std : : string ( * m_translateFunction ) ( T const & ) ;
} ;
public :
template < typename T >
ExceptionTranslatorRegistrar ( std : : string ( * translateFunction ) ( T const & ) ) {
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getMutableRegistryHub ( ) . registerTranslator (
Detail : : make_unique < ExceptionTranslator < T > > ( translateFunction )
) ;
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}
} ;
} // namespace Catch
///////////////////////////////////////////////////////////////////////////////
# define INTERNAL_CATCH_TRANSLATE_EXCEPTION2( translatorName, signature ) \
static std : : string translatorName ( signature ) ; \
CATCH_INTERNAL_START_WARNINGS_SUPPRESSION \
CATCH_INTERNAL_SUPPRESS_GLOBALS_WARNINGS \
namespace { Catch : : ExceptionTranslatorRegistrar INTERNAL_CATCH_UNIQUE_NAME ( catch_internal_ExceptionRegistrar ) ( & translatorName ) ; } \
CATCH_INTERNAL_STOP_WARNINGS_SUPPRESSION \
static std : : string translatorName ( signature )
# define INTERNAL_CATCH_TRANSLATE_EXCEPTION( signature ) INTERNAL_CATCH_TRANSLATE_EXCEPTION2( INTERNAL_CATCH_UNIQUE_NAME( catch_internal_ExceptionTranslator ), signature )
# if defined(CATCH_CONFIG_DISABLE)
# define INTERNAL_CATCH_TRANSLATE_EXCEPTION_NO_REG( translatorName, signature) \
static std : : string translatorName ( signature )
# endif
// This macro is always prefixed
# if !defined(CATCH_CONFIG_DISABLE)
# define CATCH_TRANSLATE_EXCEPTION( signature ) INTERNAL_CATCH_TRANSLATE_EXCEPTION( signature )
# else
# define CATCH_TRANSLATE_EXCEPTION( signature ) INTERNAL_CATCH_TRANSLATE_EXCEPTION_NO_REG( INTERNAL_CATCH_UNIQUE_NAME( catch_internal_ExceptionTranslator ), signature )
# endif
# endif // CATCH_TRANSLATE_EXCEPTION_HPP_INCLUDED
# ifndef CATCH_VERSION_HPP_INCLUDED
# define CATCH_VERSION_HPP_INCLUDED
# include <iosfwd>
namespace Catch {
// Versioning information
struct Version {
Version ( Version const & ) = delete ;
Version & operator = ( Version const & ) = delete ;
Version ( unsigned int _majorVersion ,
unsigned int _minorVersion ,
unsigned int _patchNumber ,
char const * const _branchName ,
unsigned int _buildNumber ) ;
unsigned int const majorVersion ;
unsigned int const minorVersion ;
unsigned int const patchNumber ;
// buildNumber is only used if branchName is not null
char const * const branchName ;
unsigned int const buildNumber ;
friend std : : ostream & operator < < ( std : : ostream & os , Version const & version ) ;
} ;
Version const & libraryVersion ( ) ;
}
# endif // CATCH_VERSION_HPP_INCLUDED
# ifndef CATCH_VERSION_MACROS_HPP_INCLUDED
# define CATCH_VERSION_MACROS_HPP_INCLUDED
# define CATCH_VERSION_MAJOR 3
# define CATCH_VERSION_MINOR 0
# define CATCH_VERSION_PATCH 0
# endif // CATCH_VERSION_MACROS_HPP_INCLUDED
/** \file
* This is a convenience header for Catch2 ' s Generator support . It includes
* * * all * * of Catch2 headers related to generators .
*
* Generally the Catch2 users should use specific includes they need ,
* but this header can be used instead for ease - of - experimentation , or
* just plain convenience , at the cost of ( significantly ) increased
* compilation times .
*
* When a new header is added to either the ` generators ` folder ,
* or to the corresponding internal subfolder , it should be added here .
*/
# ifndef CATCH_GENERATORS_ALL_HPP_INCLUDED
# define CATCH_GENERATORS_ALL_HPP_INCLUDED
# ifndef CATCH_GENERATOR_EXCEPTION_HPP_INCLUDED
# define CATCH_GENERATOR_EXCEPTION_HPP_INCLUDED
# include <exception>
namespace Catch {
// Exception type to be thrown when a Generator runs into an error,
// e.g. it cannot initialize the first return value based on
// runtime information
class GeneratorException : public std : : exception {
const char * const m_msg = " " ;
public :
GeneratorException ( const char * msg ) :
m_msg ( msg )
{ }
const char * what ( ) const noexcept override final ;
} ;
} // end namespace Catch
# endif // CATCH_GENERATOR_EXCEPTION_HPP_INCLUDED
# ifndef CATCH_GENERATORS_HPP_INCLUDED
# define CATCH_GENERATORS_HPP_INCLUDED
# ifndef CATCH_INTERFACES_GENERATORTRACKER_HPP_INCLUDED
# define CATCH_INTERFACES_GENERATORTRACKER_HPP_INCLUDED
namespace Catch {
namespace Generators {
class GeneratorUntypedBase {
public :
GeneratorUntypedBase ( ) = default ;
// Generation of copy ops is deprecated (and Clang will complain)
// if there is a user destructor defined
GeneratorUntypedBase ( GeneratorUntypedBase const & ) = default ;
GeneratorUntypedBase & operator = ( GeneratorUntypedBase const & ) = default ;
virtual ~ GeneratorUntypedBase ( ) ; // = default;
// Attempts to move the generator to the next element
//
// Returns true iff the move succeeded (and a valid element
// can be retrieved).
virtual bool next ( ) = 0 ;
} ;
using GeneratorBasePtr = Catch : : Detail : : unique_ptr < GeneratorUntypedBase > ;
} // namespace Generators
struct IGeneratorTracker {
virtual ~ IGeneratorTracker ( ) ; // = default;
virtual auto hasGenerator ( ) const - > bool = 0 ;
virtual auto getGenerator ( ) const - > Generators : : GeneratorBasePtr const & = 0 ;
virtual void setGenerator ( Generators : : GeneratorBasePtr & & generator ) = 0 ;
} ;
} // namespace Catch
# endif // CATCH_INTERFACES_GENERATORTRACKER_HPP_INCLUDED
# include <vector>
# include <tuple>
namespace Catch {
namespace Generators {
namespace Detail {
//! Throws GeneratorException with the provided message
[[noreturn]]
void throw_generator_exception ( char const * msg ) ;
} // end namespace detail
template < typename T >
struct IGenerator : GeneratorUntypedBase {
~ IGenerator ( ) override = default ;
IGenerator ( ) = default ;
IGenerator ( IGenerator const & ) = default ;
IGenerator & operator = ( IGenerator const & ) = default ;
// Returns the current element of the generator
//
// \Precondition The generator is either freshly constructed,
// or the last call to `next()` returned true
virtual T const & get ( ) const = 0 ;
using type = T ;
} ;
template < typename T >
using GeneratorPtr = Catch : : Detail : : unique_ptr < IGenerator < T > > ;
template < typename T >
class GeneratorWrapper final {
GeneratorPtr < T > m_generator ;
public :
//! Takes ownership of the passed pointer.
GeneratorWrapper ( IGenerator < T > * generator ) :
m_generator ( generator ) { }
GeneratorWrapper ( GeneratorPtr < T > generator ) :
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m_generator ( CATCH_MOVE ( generator ) ) { }
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T const & get ( ) const {
return m_generator - > get ( ) ;
}
bool next ( ) {
return m_generator - > next ( ) ;
}
} ;
template < typename T >
class SingleValueGenerator final : public IGenerator < T > {
T m_value ;
public :
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SingleValueGenerator ( T const & value ) :
m_value ( value )
{ }
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SingleValueGenerator ( T & & value ) :
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m_value ( CATCH_MOVE ( value ) )
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{ }
T const & get ( ) const override {
return m_value ;
}
bool next ( ) override {
return false ;
}
} ;
template < typename T >
class FixedValuesGenerator final : public IGenerator < T > {
static_assert ( ! std : : is_same < T , bool > : : value ,
" FixedValuesGenerator does not support bools because of std::vector<bool> "
" specialization, use SingleValue Generator instead. " ) ;
std : : vector < T > m_values ;
size_t m_idx = 0 ;
public :
FixedValuesGenerator ( std : : initializer_list < T > values ) : m_values ( values ) { }
T const & get ( ) const override {
return m_values [ m_idx ] ;
}
bool next ( ) override {
+ + m_idx ;
return m_idx < m_values . size ( ) ;
}
} ;
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template < typename T , typename DecayedT = std : : decay_t < T > >
GeneratorWrapper < DecayedT > value ( T & & value ) {
return GeneratorWrapper < DecayedT > (
Catch : : Detail : : make_unique < SingleValueGenerator < DecayedT > > (
CATCH_FORWARD ( value ) ) ) ;
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}
template < typename T >
GeneratorWrapper < T > values ( std : : initializer_list < T > values ) {
return GeneratorWrapper < T > ( Catch : : Detail : : make_unique < FixedValuesGenerator < T > > ( values ) ) ;
}
template < typename T >
class Generators : public IGenerator < T > {
std : : vector < GeneratorWrapper < T > > m_generators ;
size_t m_current = 0 ;
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void add_generator ( GeneratorWrapper < T > & & generator ) {
m_generators . emplace_back ( CATCH_MOVE ( generator ) ) ;
}
void add_generator ( T const & val ) {
m_generators . emplace_back ( value ( val ) ) ;
}
void add_generator ( T & & val ) {
m_generators . emplace_back ( value ( CATCH_MOVE ( val ) ) ) ;
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}
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template < typename U >
std : : enable_if_t < ! std : : is_same < std : : decay_t < U > , T > : : value >
add_generator ( U & & val ) {
add_generator ( T ( CATCH_FORWARD ( val ) ) ) ;
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}
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template < typename U > void add_generators ( U & & valueOrGenerator ) {
add_generator ( CATCH_FORWARD ( valueOrGenerator ) ) ;
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}
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template < typename U , typename . . . Gs >
void add_generators ( U & & valueOrGenerator , Gs & & . . . moreGenerators ) {
add_generator ( CATCH_FORWARD ( valueOrGenerator ) ) ;
add_generators ( CATCH_FORWARD ( moreGenerators ) . . . ) ;
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}
public :
template < typename . . . Gs >
Generators ( Gs & & . . . moreGenerators ) {
m_generators . reserve ( sizeof . . . ( Gs ) ) ;
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add_generators ( CATCH_FORWARD ( moreGenerators ) . . . ) ;
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}
T const & get ( ) const override {
return m_generators [ m_current ] . get ( ) ;
}
bool next ( ) override {
if ( m_current > = m_generators . size ( ) ) {
return false ;
}
const bool current_status = m_generators [ m_current ] . next ( ) ;
if ( ! current_status ) {
+ + m_current ;
}
return m_current < m_generators . size ( ) ;
}
} ;
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template < typename . . . Ts >
GeneratorWrapper < std : : tuple < std : : decay_t < Ts > . . . > >
table ( std : : initializer_list < std : : tuple < std : : decay_t < Ts > . . . > > tuples ) {
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return values < std : : tuple < Ts . . . > > ( tuples ) ;
}
// Tag type to signal that a generator sequence should convert arguments to a specific type
template < typename T >
struct as { } ;
template < typename T , typename . . . Gs >
auto makeGenerators ( GeneratorWrapper < T > & & generator , Gs & & . . . moreGenerators ) - > Generators < T > {
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return Generators < T > ( CATCH_MOVE ( generator ) , CATCH_FORWARD ( moreGenerators ) . . . ) ;
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}
template < typename T >
auto makeGenerators ( GeneratorWrapper < T > & & generator ) - > Generators < T > {
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return Generators < T > ( CATCH_MOVE ( generator ) ) ;
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}
template < typename T , typename . . . Gs >
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auto makeGenerators ( T & & val , Gs & & . . . moreGenerators ) - > Generators < std : : decay_t < T > > {
return makeGenerators ( value ( CATCH_FORWARD ( val ) ) , CATCH_FORWARD ( moreGenerators ) . . . ) ;
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}
template < typename T , typename U , typename . . . Gs >
auto makeGenerators ( as < T > , U & & val , Gs & & . . . moreGenerators ) - > Generators < T > {
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return makeGenerators ( value ( T ( CATCH_FORWARD ( val ) ) ) , CATCH_FORWARD ( moreGenerators ) . . . ) ;
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}
auto acquireGeneratorTracker ( StringRef generatorName , SourceLineInfo const & lineInfo ) - > IGeneratorTracker & ;
template < typename L >
// Note: The type after -> is weird, because VS2015 cannot parse
// the expression used in the typedef inside, when it is in
// return type. Yeah.
auto generate ( StringRef generatorName , SourceLineInfo const & lineInfo , L const & generatorExpression ) - > decltype ( std : : declval < decltype ( generatorExpression ( ) ) > ( ) . get ( ) ) {
using UnderlyingType = typename decltype ( generatorExpression ( ) ) : : type ;
IGeneratorTracker & tracker = acquireGeneratorTracker ( generatorName , lineInfo ) ;
if ( ! tracker . hasGenerator ( ) ) {
tracker . setGenerator ( Catch : : Detail : : make_unique < Generators < UnderlyingType > > ( generatorExpression ( ) ) ) ;
}
auto const & generator = static_cast < IGenerator < UnderlyingType > const & > ( * tracker . getGenerator ( ) ) ;
return generator . get ( ) ;
}
} // namespace Generators
} // namespace Catch
# define GENERATE( ... ) \
Catch : : Generators : : generate ( INTERNAL_CATCH_STRINGIZE ( INTERNAL_CATCH_UNIQUE_NAME ( generator ) ) , \
CATCH_INTERNAL_LINEINFO , \
[ ] { using namespace Catch : : Generators ; return makeGenerators ( __VA_ARGS__ ) ; } ) //NOLINT(google-build-using-namespace)
# define GENERATE_COPY( ... ) \
Catch : : Generators : : generate ( INTERNAL_CATCH_STRINGIZE ( INTERNAL_CATCH_UNIQUE_NAME ( generator ) ) , \
CATCH_INTERNAL_LINEINFO , \
[ = ] { using namespace Catch : : Generators ; return makeGenerators ( __VA_ARGS__ ) ; } ) //NOLINT(google-build-using-namespace)
# define GENERATE_REF( ... ) \
Catch : : Generators : : generate ( INTERNAL_CATCH_STRINGIZE ( INTERNAL_CATCH_UNIQUE_NAME ( generator ) ) , \
CATCH_INTERNAL_LINEINFO , \
[ & ] { using namespace Catch : : Generators ; return makeGenerators ( __VA_ARGS__ ) ; } ) //NOLINT(google-build-using-namespace)
# endif // CATCH_GENERATORS_HPP_INCLUDED
# ifndef CATCH_GENERATORS_ADAPTERS_HPP_INCLUDED
# define CATCH_GENERATORS_ADAPTERS_HPP_INCLUDED
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# include <cassert>
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namespace Catch {
namespace Generators {
template < typename T >
class TakeGenerator final : public IGenerator < T > {
GeneratorWrapper < T > m_generator ;
size_t m_returned = 0 ;
size_t m_target ;
public :
TakeGenerator ( size_t target , GeneratorWrapper < T > & & generator ) :
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m_generator ( CATCH_MOVE ( generator ) ) ,
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m_target ( target )
{
assert ( target ! = 0 & & " Empty generators are not allowed " ) ;
}
T const & get ( ) const override {
return m_generator . get ( ) ;
}
bool next ( ) override {
+ + m_returned ;
if ( m_returned > = m_target ) {
return false ;
}
const auto success = m_generator . next ( ) ;
// If the underlying generator does not contain enough values
// then we cut short as well
if ( ! success ) {
m_returned = m_target ;
}
return success ;
}
} ;
template < typename T >
GeneratorWrapper < T > take ( size_t target , GeneratorWrapper < T > & & generator ) {
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return GeneratorWrapper < T > ( Catch : : Detail : : make_unique < TakeGenerator < T > > ( target , CATCH_MOVE ( generator ) ) ) ;
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}
template < typename T , typename Predicate >
class FilterGenerator final : public IGenerator < T > {
GeneratorWrapper < T > m_generator ;
Predicate m_predicate ;
public :
template < typename P = Predicate >
FilterGenerator ( P & & pred , GeneratorWrapper < T > & & generator ) :
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m_generator ( CATCH_MOVE ( generator ) ) ,
m_predicate ( CATCH_FORWARD ( pred ) )
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{
if ( ! m_predicate ( m_generator . get ( ) ) ) {
// It might happen that there are no values that pass the
// filter. In that case we throw an exception.
auto has_initial_value = next ( ) ;
if ( ! has_initial_value ) {
Detail : : throw_generator_exception ( " No valid value found in filtered generator " ) ;
}
}
}
T const & get ( ) const override {
return m_generator . get ( ) ;
}
bool next ( ) override {
bool success = m_generator . next ( ) ;
if ( ! success ) {
return false ;
}
while ( ! m_predicate ( m_generator . get ( ) ) & & ( success = m_generator . next ( ) ) = = true ) ;
return success ;
}
} ;
template < typename T , typename Predicate >
GeneratorWrapper < T > filter ( Predicate & & pred , GeneratorWrapper < T > & & generator ) {
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return GeneratorWrapper < T > ( Catch : : Detail : : make_unique < FilterGenerator < T , Predicate > > ( CATCH_FORWARD ( pred ) , CATCH_MOVE ( generator ) ) ) ;
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}
template < typename T >
class RepeatGenerator final : public IGenerator < T > {
static_assert ( ! std : : is_same < T , bool > : : value ,
" RepeatGenerator currently does not support bools "
" because of std::vector<bool> specialization " ) ;
GeneratorWrapper < T > m_generator ;
mutable std : : vector < T > m_returned ;
size_t m_target_repeats ;
size_t m_current_repeat = 0 ;
size_t m_repeat_index = 0 ;
public :
RepeatGenerator ( size_t repeats , GeneratorWrapper < T > & & generator ) :
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m_generator ( CATCH_MOVE ( generator ) ) ,
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m_target_repeats ( repeats )
{
assert ( m_target_repeats > 0 & & " Repeat generator must repeat at least once " ) ;
}
T const & get ( ) const override {
if ( m_current_repeat = = 0 ) {
m_returned . push_back ( m_generator . get ( ) ) ;
return m_returned . back ( ) ;
}
return m_returned [ m_repeat_index ] ;
}
bool next ( ) override {
// There are 2 basic cases:
// 1) We are still reading the generator
// 2) We are reading our own cache
// In the first case, we need to poke the underlying generator.
// If it happily moves, we are left in that state, otherwise it is time to start reading from our cache
if ( m_current_repeat = = 0 ) {
const auto success = m_generator . next ( ) ;
if ( ! success ) {
+ + m_current_repeat ;
}
return m_current_repeat < m_target_repeats ;
}
// In the second case, we need to move indices forward and check that we haven't run up against the end
+ + m_repeat_index ;
if ( m_repeat_index = = m_returned . size ( ) ) {
m_repeat_index = 0 ;
+ + m_current_repeat ;
}
return m_current_repeat < m_target_repeats ;
}
} ;
template < typename T >
GeneratorWrapper < T > repeat ( size_t repeats , GeneratorWrapper < T > & & generator ) {
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return GeneratorWrapper < T > ( Catch : : Detail : : make_unique < RepeatGenerator < T > > ( repeats , CATCH_MOVE ( generator ) ) ) ;
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}
template < typename T , typename U , typename Func >
class MapGenerator final : public IGenerator < T > {
// TBD: provide static assert for mapping function, for friendly error message
GeneratorWrapper < U > m_generator ;
Func m_function ;
// To avoid returning dangling reference, we have to save the values
T m_cache ;
public :
template < typename F2 = Func >
MapGenerator ( F2 & & function , GeneratorWrapper < U > & & generator ) :
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m_generator ( CATCH_MOVE ( generator ) ) ,
m_function ( CATCH_FORWARD ( function ) ) ,
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m_cache ( m_function ( m_generator . get ( ) ) )
{ }
T const & get ( ) const override {
return m_cache ;
}
bool next ( ) override {
const auto success = m_generator . next ( ) ;
if ( success ) {
m_cache = m_function ( m_generator . get ( ) ) ;
}
return success ;
}
} ;
template < typename Func , typename U , typename T = FunctionReturnType < Func , U > >
GeneratorWrapper < T > map ( Func & & function , GeneratorWrapper < U > & & generator ) {
return GeneratorWrapper < T > (
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Catch : : Detail : : make_unique < MapGenerator < T , U , Func > > ( CATCH_FORWARD ( function ) , CATCH_MOVE ( generator ) )
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) ;
}
template < typename T , typename U , typename Func >
GeneratorWrapper < T > map ( Func & & function , GeneratorWrapper < U > & & generator ) {
return GeneratorWrapper < T > (
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Catch : : Detail : : make_unique < MapGenerator < T , U , Func > > ( CATCH_FORWARD ( function ) , CATCH_MOVE ( generator ) )
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) ;
}
template < typename T >
class ChunkGenerator final : public IGenerator < std : : vector < T > > {
std : : vector < T > m_chunk ;
size_t m_chunk_size ;
GeneratorWrapper < T > m_generator ;
bool m_used_up = false ;
public :
ChunkGenerator ( size_t size , GeneratorWrapper < T > generator ) :
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m_chunk_size ( size ) , m_generator ( CATCH_MOVE ( generator ) )
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{
m_chunk . reserve ( m_chunk_size ) ;
if ( m_chunk_size ! = 0 ) {
m_chunk . push_back ( m_generator . get ( ) ) ;
for ( size_t i = 1 ; i < m_chunk_size ; + + i ) {
if ( ! m_generator . next ( ) ) {
Detail : : throw_generator_exception ( " Not enough values to initialize the first chunk " ) ;
}
m_chunk . push_back ( m_generator . get ( ) ) ;
}
}
}
std : : vector < T > const & get ( ) const override {
return m_chunk ;
}
bool next ( ) override {
m_chunk . clear ( ) ;
for ( size_t idx = 0 ; idx < m_chunk_size ; + + idx ) {
if ( ! m_generator . next ( ) ) {
return false ;
}
m_chunk . push_back ( m_generator . get ( ) ) ;
}
return true ;
}
} ;
template < typename T >
GeneratorWrapper < std : : vector < T > > chunk ( size_t size , GeneratorWrapper < T > & & generator ) {
return GeneratorWrapper < std : : vector < T > > (
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Catch : : Detail : : make_unique < ChunkGenerator < T > > ( size , CATCH_MOVE ( generator ) )
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) ;
}
} // namespace Generators
} // namespace Catch
# endif // CATCH_GENERATORS_ADAPTERS_HPP_INCLUDED
# ifndef CATCH_GENERATORS_RANDOM_HPP_INCLUDED
# define CATCH_GENERATORS_RANDOM_HPP_INCLUDED
# ifndef CATCH_RANDOM_NUMBER_GENERATOR_HPP_INCLUDED
# define CATCH_RANDOM_NUMBER_GENERATOR_HPP_INCLUDED
# include <cstdint>
namespace Catch {
// This is a simple implementation of C++11 Uniform Random Number
// Generator. It does not provide all operators, because Catch2
// does not use it, but it should behave as expected inside stdlib's
// distributions.
// The implementation is based on the PCG family (http://pcg-random.org)
class SimplePcg32 {
using state_type = std : : uint64_t ;
public :
using result_type = std : : uint32_t ;
static constexpr result_type ( min ) ( ) {
return 0 ;
}
static constexpr result_type ( max ) ( ) {
return static_cast < result_type > ( - 1 ) ;
}
// Provide some default initial state for the default constructor
SimplePcg32 ( ) : SimplePcg32 ( 0xed743cc4U ) { }
explicit SimplePcg32 ( result_type seed_ ) ;
void seed ( result_type seed_ ) ;
void discard ( uint64_t skip ) ;
result_type operator ( ) ( ) ;
private :
friend bool operator = = ( SimplePcg32 const & lhs , SimplePcg32 const & rhs ) ;
friend bool operator ! = ( SimplePcg32 const & lhs , SimplePcg32 const & rhs ) ;
// In theory we also need operator<< and operator>>
// In practice we do not use them, so we will skip them for now
std : : uint64_t m_state ;
// This part of the state determines which "stream" of the numbers
// is chosen -- we take it as a constant for Catch2, so we only
// need to deal with seeding the main state.
// Picked by reading 8 bytes from `/dev/random` :-)
static const std : : uint64_t s_inc = ( 0x13ed0cc53f939476ULL < < 1ULL ) | 1ULL ;
} ;
} // end namespace Catch
# endif // CATCH_RANDOM_NUMBER_GENERATOR_HPP_INCLUDED
# include <random>
namespace Catch {
namespace Generators {
template < typename Float >
class RandomFloatingGenerator final : public IGenerator < Float > {
Catch : : SimplePcg32 & m_rng ;
std : : uniform_real_distribution < Float > m_dist ;
Float m_current_number ;
public :
RandomFloatingGenerator ( Float a , Float b ) :
m_rng ( rng ( ) ) ,
m_dist ( a , b ) {
static_cast < void > ( next ( ) ) ;
}
Float const & get ( ) const override {
return m_current_number ;
}
bool next ( ) override {
m_current_number = m_dist ( m_rng ) ;
return true ;
}
} ;
template < typename Integer >
class RandomIntegerGenerator final : public IGenerator < Integer > {
Catch : : SimplePcg32 & m_rng ;
std : : uniform_int_distribution < Integer > m_dist ;
Integer m_current_number ;
public :
RandomIntegerGenerator ( Integer a , Integer b ) :
m_rng ( rng ( ) ) ,
m_dist ( a , b ) {
static_cast < void > ( next ( ) ) ;
}
Integer const & get ( ) const override {
return m_current_number ;
}
bool next ( ) override {
m_current_number = m_dist ( m_rng ) ;
return true ;
}
} ;
// TODO: Ideally this would be also constrained against the various char types,
// but I don't expect users to run into that in practice.
template < typename T >
std : : enable_if_t < std : : is_integral < T > : : value & & ! std : : is_same < T , bool > : : value ,
GeneratorWrapper < T > >
random ( T a , T b ) {
return GeneratorWrapper < T > (
Catch : : Detail : : make_unique < RandomIntegerGenerator < T > > ( a , b )
) ;
}
template < typename T >
std : : enable_if_t < std : : is_floating_point < T > : : value ,
GeneratorWrapper < T > >
random ( T a , T b ) {
return GeneratorWrapper < T > (
Catch : : Detail : : make_unique < RandomFloatingGenerator < T > > ( a , b )
) ;
}
} // namespace Generators
} // namespace Catch
# endif // CATCH_GENERATORS_RANDOM_HPP_INCLUDED
# ifndef CATCH_GENERATORS_RANGE_HPP_INCLUDED
# define CATCH_GENERATORS_RANGE_HPP_INCLUDED
# include <iterator>
# include <type_traits>
namespace Catch {
namespace Generators {
template < typename T >
class RangeGenerator final : public IGenerator < T > {
T m_current ;
T m_end ;
T m_step ;
bool m_positive ;
public :
RangeGenerator ( T const & start , T const & end , T const & step ) :
m_current ( start ) ,
m_end ( end ) ,
m_step ( step ) ,
m_positive ( m_step > T ( 0 ) )
{
assert ( m_current ! = m_end & & " Range start and end cannot be equal " ) ;
assert ( m_step ! = T ( 0 ) & & " Step size cannot be zero " ) ;
assert ( ( ( m_positive & & m_current < = m_end ) | | ( ! m_positive & & m_current > = m_end ) ) & & " Step moves away from end " ) ;
}
RangeGenerator ( T const & start , T const & end ) :
RangeGenerator ( start , end , ( start < end ) ? T ( 1 ) : T ( - 1 ) )
{ }
T const & get ( ) const override {
return m_current ;
}
bool next ( ) override {
m_current + = m_step ;
return ( m_positive ) ? ( m_current < m_end ) : ( m_current > m_end ) ;
}
} ;
template < typename T >
GeneratorWrapper < T > range ( T const & start , T const & end , T const & step ) {
static_assert ( std : : is_arithmetic < T > : : value & & ! std : : is_same < T , bool > : : value , " Type must be numeric " ) ;
return GeneratorWrapper < T > ( Catch : : Detail : : make_unique < RangeGenerator < T > > ( start , end , step ) ) ;
}
template < typename T >
GeneratorWrapper < T > range ( T const & start , T const & end ) {
static_assert ( std : : is_integral < T > : : value & & ! std : : is_same < T , bool > : : value , " Type must be an integer " ) ;
return GeneratorWrapper < T > ( Catch : : Detail : : make_unique < RangeGenerator < T > > ( start , end ) ) ;
}
template < typename T >
class IteratorGenerator final : public IGenerator < T > {
static_assert ( ! std : : is_same < T , bool > : : value ,
" IteratorGenerator currently does not support bools "
" because of std::vector<bool> specialization " ) ;
std : : vector < T > m_elems ;
size_t m_current = 0 ;
public :
template < typename InputIterator , typename InputSentinel >
IteratorGenerator ( InputIterator first , InputSentinel last ) : m_elems ( first , last ) {
if ( m_elems . empty ( ) ) {
Detail : : throw_generator_exception ( " IteratorGenerator received no valid values " ) ;
}
}
T const & get ( ) const override {
return m_elems [ m_current ] ;
}
bool next ( ) override {
+ + m_current ;
return m_current ! = m_elems . size ( ) ;
}
} ;
template < typename InputIterator ,
typename InputSentinel ,
typename ResultType = typename std : : iterator_traits < InputIterator > : : value_type >
GeneratorWrapper < ResultType > from_range ( InputIterator from , InputSentinel to ) {
return GeneratorWrapper < ResultType > ( Catch : : Detail : : make_unique < IteratorGenerator < ResultType > > ( from , to ) ) ;
}
template < typename Container ,
typename ResultType = typename Container : : value_type >
GeneratorWrapper < ResultType > from_range ( Container const & cnt ) {
return GeneratorWrapper < ResultType > ( Catch : : Detail : : make_unique < IteratorGenerator < ResultType > > ( cnt . begin ( ) , cnt . end ( ) ) ) ;
}
} // namespace Generators
} // namespace Catch
# endif // CATCH_GENERATORS_RANGE_HPP_INCLUDED
# endif // CATCH_GENERATORS_ALL_HPP_INCLUDED
/** \file
* This is a convenience header for Catch2 ' s interfaces . It includes
* * * all * * of Catch2 headers related to interfaces .
*
* Generally the Catch2 users should use specific includes they need ,
* but this header can be used instead for ease - of - experimentation , or
* just plain convenience , at the cost of somewhat increased compilation
* times .
*
* When a new header is added to either the ` interfaces ` folder , or to
* the corresponding internal subfolder , it should be added here .
*/
# ifndef CATCH_INTERFACES_ALL_HPP_INCLUDED
# define CATCH_INTERFACES_ALL_HPP_INCLUDED
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# ifndef CATCH_INTERFACES_REPORTER_FACTORY_HPP_INCLUDED
# define CATCH_INTERFACES_REPORTER_FACTORY_HPP_INCLUDED
# include <string>
namespace Catch {
struct ReporterConfig ;
struct IStreamingReporter ;
using IStreamingReporterPtr = Detail : : unique_ptr < IStreamingReporter > ;
struct IReporterFactory {
virtual ~ IReporterFactory ( ) ; // = default
virtual IStreamingReporterPtr
create ( ReporterConfig const & config ) const = 0 ;
virtual std : : string getDescription ( ) const = 0 ;
} ;
using IReporterFactoryPtr = Detail : : unique_ptr < IReporterFactory > ;
} // namespace Catch
# endif // CATCH_INTERFACES_REPORTER_FACTORY_HPP_INCLUDED
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# ifndef CATCH_INTERFACES_REPORTER_REGISTRY_HPP_INCLUDED
# define CATCH_INTERFACES_REPORTER_REGISTRY_HPP_INCLUDED
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# ifndef CATCH_CASE_INSENSITIVE_COMPARISONS_HPP_INCLUDED
# define CATCH_CASE_INSENSITIVE_COMPARISONS_HPP_INCLUDED
# include <string>
namespace Catch {
namespace Detail {
//! Provides case-insensitive `op<` semantics when called
struct CaseInsensitiveLess {
bool operator ( ) ( StringRef lhs ,
StringRef rhs ) const ;
} ;
//! Provides case-insensitive `op==` semantics when called
struct CaseInsensitiveEqualTo {
bool operator ( ) ( StringRef lhs ,
StringRef rhs ) const ;
} ;
} // namespace Detail
} // namespace Catch
# endif // CATCH_CASE_INSENSITIVE_COMPARISONS_HPP_INCLUDED
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# include <string>
# include <vector>
# include <map>
namespace Catch {
struct IConfig ;
struct IStreamingReporter ;
using IStreamingReporterPtr = Detail : : unique_ptr < IStreamingReporter > ;
struct IReporterFactory ;
using IReporterFactoryPtr = Detail : : unique_ptr < IReporterFactory > ;
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struct ReporterConfig ;
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struct IReporterRegistry {
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using FactoryMap = std : : map < std : : string , IReporterFactoryPtr , Detail : : CaseInsensitiveLess > ;
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using Listeners = std : : vector < IReporterFactoryPtr > ;
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virtual ~ IReporterRegistry ( ) ; // = default
virtual IStreamingReporterPtr create ( std : : string const & name , ReporterConfig const & config ) const = 0 ;
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virtual FactoryMap const & getFactories ( ) const = 0 ;
virtual Listeners const & getListeners ( ) const = 0 ;
} ;
} // end namespace Catch
# endif // CATCH_INTERFACES_REPORTER_REGISTRY_HPP_INCLUDED
# ifndef CATCH_INTERFACES_TAG_ALIAS_REGISTRY_HPP_INCLUDED
# define CATCH_INTERFACES_TAG_ALIAS_REGISTRY_HPP_INCLUDED
# include <string>
namespace Catch {
struct TagAlias ;
struct ITagAliasRegistry {
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virtual ~ ITagAliasRegistry ( ) ; // = default
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// Nullptr if not present
virtual TagAlias const * find ( std : : string const & alias ) const = 0 ;
virtual std : : string expandAliases ( std : : string const & unexpandedTestSpec ) const = 0 ;
static ITagAliasRegistry const & get ( ) ;
} ;
} // end namespace Catch
# endif // CATCH_INTERFACES_TAG_ALIAS_REGISTRY_HPP_INCLUDED
# endif // CATCH_INTERFACES_ALL_HPP_INCLUDED
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/** \file
* Wrapper for ANDROID_LOGWRITE configuration option
*
* We want to default to enabling it when compiled for android , but
* users of the library should also be able to disable it if they want
* to .
*/
# ifndef CATCH_CONFIG_ANDROID_LOGWRITE_HPP_INCLUDED
# define CATCH_CONFIG_ANDROID_LOGWRITE_HPP_INCLUDED
# if defined(__ANDROID__)
# define CATCH_INTERNAL_CONFIG_ANDROID_LOGWRITE
# endif
# if defined( CATCH_INTERNAL_CONFIG_ANDROID_LOGWRITE ) && \
! defined ( CATCH_CONFIG_NO_ANDROID_LOGWRITE ) & & \
! defined ( CATCH_CONFIG_ANDROID_LOGWRITE )
# define CATCH_CONFIG_ANDROID_LOGWRITE
# endif
# endif // CATCH_CONFIG_ANDROID_LOGWRITE_HPP_INCLUDED
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/** \file
* Wrapper for UNCAUGHT_EXCEPTIONS configuration option
*
* For some functionality , Catch2 requires to know whether there is
* an active exception . Because ` std : : uncaught_exception ` is deprecated
* in C + + 17 , we want to use ` std : : uncaught_exceptions ` if possible .
*/
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# ifndef CATCH_CONFIG_UNCAUGHT_EXCEPTIONS_HPP_INCLUDED
# define CATCH_CONFIG_UNCAUGHT_EXCEPTIONS_HPP_INCLUDED
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# if defined(_MSC_VER)
# if _MSC_VER >= 1900 // Visual Studio 2015 or newer
# define CATCH_INTERNAL_CONFIG_CPP17_UNCAUGHT_EXCEPTIONS
# endif
# endif
# include <exception>
# if defined(__cpp_lib_uncaught_exceptions) \
& & ! defined ( CATCH_INTERNAL_CONFIG_CPP17_UNCAUGHT_EXCEPTIONS )
# define CATCH_INTERNAL_CONFIG_CPP17_UNCAUGHT_EXCEPTIONS
# endif // __cpp_lib_uncaught_exceptions
# if defined(CATCH_INTERNAL_CONFIG_CPP17_UNCAUGHT_EXCEPTIONS) \
& & ! defined ( CATCH_CONFIG_NO_CPP17_UNCAUGHT_EXCEPTIONS ) \
& & ! defined ( CATCH_CONFIG_CPP17_UNCAUGHT_EXCEPTIONS )
# define CATCH_CONFIG_CPP17_UNCAUGHT_EXCEPTIONS
# endif
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# endif // CATCH_CONFIG_UNCAUGHT_EXCEPTIONS_HPP_INCLUDED
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# ifndef CATCH_CONSOLE_COLOUR_HPP_INCLUDED
# define CATCH_CONSOLE_COLOUR_HPP_INCLUDED
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# include <iosfwd>
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namespace Catch {
struct Colour {
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 ,
BrightYellow = Bright | Yellow ,
// By intention
FileName = LightGrey ,
Warning = BrightYellow ,
ResultError = BrightRed ,
ResultSuccess = BrightGreen ,
ResultExpectedFailure = Warning ,
Error = BrightRed ,
Success = Green ,
OriginalExpression = Cyan ,
ReconstructedExpression = BrightYellow ,
SecondaryText = LightGrey ,
Headers = White
} ;
// Use constructed object for RAII guard
Colour ( Code _colourCode ) ;
Colour ( Colour & & other ) noexcept ;
Colour & operator = ( Colour & & other ) noexcept ;
~ Colour ( ) ;
// Use static method for one-shot changes
static void use ( Code _colourCode ) ;
private :
bool m_moved = false ;
friend std : : ostream & operator < < ( std : : ostream & os , Colour const & ) ;
} ;
} // end namespace Catch
# endif // CATCH_CONSOLE_COLOUR_HPP_INCLUDED
# ifndef CATCH_CONSOLE_WIDTH_HPP_INCLUDED
# define CATCH_CONSOLE_WIDTH_HPP_INCLUDED
# ifndef CATCH_CONFIG_CONSOLE_WIDTH
# define CATCH_CONFIG_CONSOLE_WIDTH 80
# endif
# endif // CATCH_CONSOLE_WIDTH_HPP_INCLUDED
# ifndef CATCH_CONTAINER_NONMEMBERS_HPP_INCLUDED
# define CATCH_CONTAINER_NONMEMBERS_HPP_INCLUDED
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# include <cstddef>
# include <initializer_list>
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// We want a simple polyfill over `std::empty`, `std::size` and so on
// for C++14 or C++ libraries with incomplete support.
// We also have to handle that MSVC std lib will happily provide these
// under older standards.
# if defined(CATCH_CPP17_OR_GREATER) || defined(_MSC_VER)
// We are already using this header either way, so there shouldn't
// be much additional overhead in including it to get the feature
// test macros
# include <string>
# if !defined(__cpp_lib_nonmember_container_access)
# define CATCH_CONFIG_POLYFILL_NONMEMBER_CONTAINER_ACCESS
# endif
# else
# define CATCH_CONFIG_POLYFILL_NONMEMBER_CONTAINER_ACCESS
# endif
namespace Catch {
namespace Detail {
# if defined(CATCH_CONFIG_POLYFILL_NONMEMBER_CONTAINER_ACCESS)
template < typename Container >
constexpr auto empty ( Container const & cont ) - > decltype ( cont . empty ( ) ) {
return cont . empty ( ) ;
}
template < typename T , std : : size_t N >
constexpr bool empty ( const T ( & ) [ N ] ) noexcept {
// GCC < 7 does not support the const T(&)[] parameter syntax
// so we have to ignore the length explicitly
( void ) N ;
return false ;
}
template < typename T >
constexpr bool empty ( std : : initializer_list < T > list ) noexcept {
return list . size ( ) > 0 ;
}
template < typename Container >
constexpr auto size ( Container const & cont ) - > decltype ( cont . size ( ) ) {
return cont . size ( ) ;
}
template < typename T , std : : size_t N >
constexpr std : : size_t size ( const T ( & ) [ N ] ) noexcept {
return N ;
}
# endif // CATCH_CONFIG_POLYFILL_NONMEMBER_CONTAINER_ACCESS
} // end namespace Detail
} // end namespace Catch
# endif // CATCH_CONTAINER_NONMEMBERS_HPP_INCLUDED
# ifndef CATCH_DEBUG_CONSOLE_HPP_INCLUDED
# define CATCH_DEBUG_CONSOLE_HPP_INCLUDED
# include <string>
namespace Catch {
void writeToDebugConsole ( std : : string const & text ) ;
}
# endif // CATCH_DEBUG_CONSOLE_HPP_INCLUDED
# ifndef CATCH_DEBUGGER_HPP_INCLUDED
# define CATCH_DEBUGGER_HPP_INCLUDED
namespace Catch {
bool isDebuggerActive ( ) ;
}
# ifdef CATCH_PLATFORM_MAC
# if defined(__i386__) || defined(__x86_64__)
# define CATCH_TRAP() __asm__("int $3\n" : : ) /* NOLINT */
# elif defined(__aarch64__)
# define CATCH_TRAP() __asm__(".inst 0xd4200000")
# endif
# elif defined(CATCH_PLATFORM_IPHONE)
// use inline assembler
# if defined(__i386__) || defined(__x86_64__)
# define CATCH_TRAP() __asm__("int $3")
# elif defined(__aarch64__)
# define CATCH_TRAP() __asm__(".inst 0xd4200000")
# elif defined(__arm__) && !defined(__thumb__)
# define CATCH_TRAP() __asm__(".inst 0xe7f001f0")
# elif defined(__arm__) && defined(__thumb__)
# define CATCH_TRAP() __asm__(".inst 0xde01")
# endif
# elif defined(CATCH_PLATFORM_LINUX)
// If we can use inline assembler, do it because this allows us to break
// directly at the location of the failing check instead of breaking inside
// raise() called from it, i.e. one stack frame below.
# if defined(__GNUC__) && (defined(__i386) || defined(__x86_64))
# define CATCH_TRAP() asm volatile ("int $3") /* NOLINT */
# else // Fall back to the generic way.
# include <signal.h>
# define CATCH_TRAP() raise(SIGTRAP)
# endif
# elif defined(_MSC_VER)
# define CATCH_TRAP() __debugbreak()
# elif defined(__MINGW32__)
extern " C " __declspec ( dllimport ) void __stdcall DebugBreak ( ) ;
# define CATCH_TRAP() DebugBreak()
# endif
# ifndef CATCH_BREAK_INTO_DEBUGGER
# ifdef CATCH_TRAP
# define CATCH_BREAK_INTO_DEBUGGER() []{ if( Catch::isDebuggerActive() ) { CATCH_TRAP(); } }()
# else
# define CATCH_BREAK_INTO_DEBUGGER() []{}()
# endif
# endif
# endif // CATCH_DEBUGGER_HPP_INCLUDED
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# ifndef CATCH_ENFORCE_HPP_INCLUDED
# define CATCH_ENFORCE_HPP_INCLUDED
# include <exception>
namespace Catch {
# if !defined(CATCH_CONFIG_DISABLE_EXCEPTIONS)
template < typename Ex >
[[noreturn]]
void throw_exception ( Ex const & e ) {
throw e ;
}
# else // ^^ Exceptions are enabled // Exceptions are disabled vv
[[noreturn]]
void throw_exception ( std : : exception const & e ) ;
# endif
[[noreturn]]
void throw_logic_error ( std : : string const & msg ) ;
[[noreturn]]
void throw_domain_error ( std : : string const & msg ) ;
[[noreturn]]
void throw_runtime_error ( std : : string const & msg ) ;
} // namespace Catch;
# define CATCH_MAKE_MSG(...) \
( Catch : : ReusableStringStream ( ) < < __VA_ARGS__ ) . str ( )
# define CATCH_INTERNAL_ERROR(...) \
Catch : : throw_logic_error ( CATCH_MAKE_MSG ( CATCH_INTERNAL_LINEINFO < < " : Internal Catch2 error: " < < __VA_ARGS__ ) )
# define CATCH_ERROR(...) \
Catch : : throw_domain_error ( CATCH_MAKE_MSG ( __VA_ARGS__ ) )
# define CATCH_RUNTIME_ERROR(...) \
Catch : : throw_runtime_error ( CATCH_MAKE_MSG ( __VA_ARGS__ ) )
# define CATCH_ENFORCE( condition, ... ) \
do { if ( ! ( condition ) ) CATCH_ERROR ( __VA_ARGS__ ) ; } while ( false )
# endif // CATCH_ENFORCE_HPP_INCLUDED
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# ifndef CATCH_ENUM_VALUES_REGISTRY_HPP_INCLUDED
# define CATCH_ENUM_VALUES_REGISTRY_HPP_INCLUDED
# include <vector>
namespace Catch {
namespace Detail {
Catch : : Detail : : unique_ptr < EnumInfo > makeEnumInfo ( StringRef enumName , StringRef allValueNames , std : : vector < int > const & values ) ;
class EnumValuesRegistry : public IMutableEnumValuesRegistry {
std : : vector < Catch : : Detail : : unique_ptr < EnumInfo > > m_enumInfos ;
EnumInfo const & registerEnum ( StringRef enumName , StringRef allEnums , std : : vector < int > const & values ) override ;
} ;
std : : vector < StringRef > parseEnums ( StringRef enums ) ;
} // Detail
} // Catch
# endif // CATCH_ENUM_VALUES_REGISTRY_HPP_INCLUDED
# ifndef CATCH_ERRNO_GUARD_HPP_INCLUDED
# define CATCH_ERRNO_GUARD_HPP_INCLUDED
namespace Catch {
//! Simple RAII class that stores the value of `errno`
//! at construction and restores it at destruction.
class ErrnoGuard {
public :
// Keep these outlined to avoid dragging in macros from <cerrno>
ErrnoGuard ( ) ;
~ ErrnoGuard ( ) ;
private :
int m_oldErrno ;
} ;
}
# endif // CATCH_ERRNO_GUARD_HPP_INCLUDED
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# ifndef CATCH_EXCEPTION_TRANSLATOR_REGISTRY_HPP_INCLUDED
# define CATCH_EXCEPTION_TRANSLATOR_REGISTRY_HPP_INCLUDED
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# include <vector>
# include <string>
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namespace Catch {
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class ExceptionTranslatorRegistry : public IExceptionTranslatorRegistry {
public :
~ ExceptionTranslatorRegistry ( ) override ;
void registerTranslator ( Detail : : unique_ptr < IExceptionTranslator > & & translator ) ;
std : : string translateActiveException ( ) const override ;
std : : string tryTranslators ( ) const ;
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private :
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ExceptionTranslators m_translators ;
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} ;
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}
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# endif // CATCH_EXCEPTION_TRANSLATOR_REGISTRY_HPP_INCLUDED
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# ifndef CATCH_FATAL_CONDITION_HANDLER_HPP_INCLUDED
# define CATCH_FATAL_CONDITION_HANDLER_HPP_INCLUDED
# include <cassert>
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namespace Catch {
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/**
* Wrapper for platform - specific fatal error ( signals / SEH ) handlers
*
* Tries to be cooperative with other handlers , and not step over
* other handlers . This means that unknown structured exceptions
* are passed on , previous signal handlers are called , and so on .
*
* Can only be instantiated once , and assumes that once a signal
* is caught , the binary will end up terminating . Thus , there
*/
class FatalConditionHandler {
bool m_started = false ;
// Install/disengage implementation for specific platform.
// Should be if-defed to work on current platform, can assume
// engage-disengage 1:1 pairing.
void engage_platform ( ) ;
void disengage_platform ( ) ;
public :
// Should also have platform-specific implementations as needed
FatalConditionHandler ( ) ;
~ FatalConditionHandler ( ) ;
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void engage ( ) {
assert ( ! m_started & & " Handler cannot be installed twice. " ) ;
m_started = true ;
engage_platform ( ) ;
}
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void disengage ( ) {
assert ( m_started & & " Handler cannot be uninstalled without being installed first " ) ;
m_started = false ;
disengage_platform ( ) ;
}
} ;
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//! Simple RAII guard for (dis)engaging the FatalConditionHandler
class FatalConditionHandlerGuard {
FatalConditionHandler * m_handler ;
public :
FatalConditionHandlerGuard ( FatalConditionHandler * handler ) :
m_handler ( handler ) {
m_handler - > engage ( ) ;
}
~ FatalConditionHandlerGuard ( ) {
m_handler - > disengage ( ) ;
}
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} ;
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} // end namespace Catch
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# endif // CATCH_FATAL_CONDITION_HANDLER_HPP_INCLUDED
# ifndef CATCH_FLOATING_POINT_HELPERS_HPP_INCLUDED
# define CATCH_FLOATING_POINT_HELPERS_HPP_INCLUDED
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# ifndef CATCH_POLYFILLS_HPP_INCLUDED
# define CATCH_POLYFILLS_HPP_INCLUDED
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namespace Catch {
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bool isnan ( float f ) ;
bool isnan ( double d ) ;
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}
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# endif // CATCH_POLYFILLS_HPP_INCLUDED
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# include <cmath>
# include <cstdint>
# include <utility>
# include <limits>
namespace Catch {
namespace Detail {
uint32_t convertToBits ( float f ) ;
uint64_t convertToBits ( double d ) ;
} // end namespace Detail
/**
* Calculates the ULP distance between two floating point numbers
*
* The ULP distance of two floating point numbers is the count of
* valid floating point numbers representable between them .
*
* There are some exceptions between how this function counts the
* distance , and the interpretation of the standard as implemented .
* by e . g . ` nextafter ` . For this function it always holds that :
* * ` ( x = = y ) = > ulpDistance ( x , y ) = = 0 ` ( so ` ulpDistance ( - 0 , 0 ) = = 0 ` )
* * ` ulpDistance ( maxFinite , INF ) = = 1 `
* * ` ulpDistance ( x , - x ) = = 2 * ulpDistance ( x , 0 ) `
*
* \ pre ` ! isnan ( lhs ) `
* \ pre ` ! isnan ( rhs ) `
* \ pre floating point numbers are represented in IEEE - 754 format
*/
template < typename FP >
uint64_t ulpDistance ( FP lhs , FP rhs ) {
assert ( std : : numeric_limits < FP > : : is_iec559 & &
" ulpDistance assumes IEEE-754 format for floating point types " ) ;
assert ( ! Catch : : isnan ( lhs ) & &
" Distance between NaN and number is not meaningful " ) ;
assert ( ! Catch : : isnan ( rhs ) & &
" Distance between NaN and number is not meaningful " ) ;
// We want X == Y to imply 0 ULP distance even if X and Y aren't
// bit-equal (-0 and 0), or X - Y != 0 (same sign infinities).
if ( lhs = = rhs ) { return 0 ; }
// We need a properly typed positive zero for type inference.
static constexpr FP positive_zero { } ;
// We want to ensure that +/- 0 is always represented as positive zero
if ( lhs = = positive_zero ) { lhs = positive_zero ; }
if ( rhs = = positive_zero ) { rhs = positive_zero ; }
// If arguments have different signs, we can handle them by summing
// how far are they from 0 each.
if ( std : : signbit ( lhs ) ! = std : : signbit ( rhs ) ) {
return ulpDistance ( std : : abs ( lhs ) , positive_zero ) +
ulpDistance ( std : : abs ( rhs ) , positive_zero ) ;
}
// When both lhs and rhs are of the same sign, we can just
// read the numbers bitwise as integers, and then subtract them
// (assuming IEEE).
uint64_t lc = Detail : : convertToBits ( lhs ) ;
uint64_t rc = Detail : : convertToBits ( rhs ) ;
// The ulp distance between two numbers is symmetric, so to avoid
// dealing with overflows we want the bigger converted number on the lhs
if ( lc < rc ) {
std : : swap ( lc , rc ) ;
}
return lc - rc ;
}
} // end namespace Catch
# endif // CATCH_FLOATING_POINT_HELPERS_HPP_INCLUDED
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# ifndef CATCH_LEAK_DETECTOR_HPP_INCLUDED
# define CATCH_LEAK_DETECTOR_HPP_INCLUDED
namespace Catch {
struct LeakDetector {
LeakDetector ( ) ;
~ LeakDetector ( ) ;
} ;
}
# endif // CATCH_LEAK_DETECTOR_HPP_INCLUDED
# ifndef CATCH_LIST_HPP_INCLUDED
# define CATCH_LIST_HPP_INCLUDED
# include <set>
# include <string>
namespace Catch {
struct IStreamingReporter ;
class Config ;
struct ReporterDescription {
std : : string name , description ;
} ;
struct TagInfo {
void add ( StringRef spelling ) ;
std : : string all ( ) const ;
std : : set < StringRef > spellings ;
std : : size_t count = 0 ;
} ;
bool list ( IStreamingReporter & reporter , Config const & config ) ;
} // end namespace Catch
# endif // CATCH_LIST_HPP_INCLUDED
# ifndef CATCH_OUTPUT_REDIRECT_HPP_INCLUDED
# define CATCH_OUTPUT_REDIRECT_HPP_INCLUDED
# include <cstdio>
# include <iosfwd>
# include <string>
namespace Catch {
class RedirectedStream {
std : : ostream & m_originalStream ;
std : : ostream & m_redirectionStream ;
std : : streambuf * m_prevBuf ;
public :
RedirectedStream ( std : : ostream & originalStream , std : : ostream & redirectionStream ) ;
~ RedirectedStream ( ) ;
} ;
class RedirectedStdOut {
ReusableStringStream m_rss ;
RedirectedStream m_cout ;
public :
RedirectedStdOut ( ) ;
auto str ( ) const - > std : : string ;
} ;
// StdErr has two constituent streams in C++, std::cerr and std::clog
// This means that we need to redirect 2 streams into 1 to keep proper
// order of writes
class RedirectedStdErr {
ReusableStringStream m_rss ;
RedirectedStream m_cerr ;
RedirectedStream m_clog ;
public :
RedirectedStdErr ( ) ;
auto str ( ) const - > std : : string ;
} ;
class RedirectedStreams {
public :
RedirectedStreams ( RedirectedStreams const & ) = delete ;
RedirectedStreams & operator = ( RedirectedStreams const & ) = delete ;
RedirectedStreams ( RedirectedStreams & & ) = delete ;
RedirectedStreams & operator = ( RedirectedStreams & & ) = delete ;
RedirectedStreams ( std : : string & redirectedCout , std : : string & redirectedCerr ) ;
~ RedirectedStreams ( ) ;
private :
std : : string & m_redirectedCout ;
std : : string & m_redirectedCerr ;
RedirectedStdOut m_redirectedStdOut ;
RedirectedStdErr m_redirectedStdErr ;
} ;
# if defined(CATCH_CONFIG_NEW_CAPTURE)
// Windows's implementation of std::tmpfile is terrible (it tries
// to create a file inside system folder, thus requiring elevated
// privileges for the binary), so we have to use tmpnam(_s) and
// create the file ourselves there.
class TempFile {
public :
TempFile ( TempFile const & ) = delete ;
TempFile & operator = ( TempFile const & ) = delete ;
TempFile ( TempFile & & ) = delete ;
TempFile & operator = ( TempFile & & ) = delete ;
TempFile ( ) ;
~ TempFile ( ) ;
std : : FILE * getFile ( ) ;
std : : string getContents ( ) ;
private :
std : : FILE * m_file = nullptr ;
# if defined(_MSC_VER)
char m_buffer [ L_tmpnam ] = { 0 } ;
# endif
} ;
class OutputRedirect {
public :
OutputRedirect ( OutputRedirect const & ) = delete ;
OutputRedirect & operator = ( OutputRedirect const & ) = delete ;
OutputRedirect ( OutputRedirect & & ) = delete ;
OutputRedirect & operator = ( OutputRedirect & & ) = delete ;
OutputRedirect ( std : : string & stdout_dest , std : : string & stderr_dest ) ;
~ OutputRedirect ( ) ;
private :
int m_originalStdout = - 1 ;
int m_originalStderr = - 1 ;
TempFile m_stdoutFile ;
TempFile m_stderrFile ;
std : : string & m_stdoutDest ;
std : : string & m_stderrDest ;
} ;
# endif
} // end namespace Catch
# endif // CATCH_OUTPUT_REDIRECT_HPP_INCLUDED
# ifndef CATCH_REPORTER_REGISTRY_HPP_INCLUDED
# define CATCH_REPORTER_REGISTRY_HPP_INCLUDED
# include <map>
namespace Catch {
class ReporterRegistry : public IReporterRegistry {
public :
ReporterRegistry ( ) ;
~ ReporterRegistry ( ) override ; // = default, out of line to allow fwd decl
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IStreamingReporterPtr create ( std : : string const & name , ReporterConfig const & config ) const override ;
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void registerReporter ( std : : string const & name , IReporterFactoryPtr factory ) ;
void registerListener ( IReporterFactoryPtr factory ) ;
FactoryMap const & getFactories ( ) const override ;
Listeners const & getListeners ( ) const override ;
private :
FactoryMap m_factories ;
Listeners m_listeners ;
} ;
}
# endif // CATCH_REPORTER_REGISTRY_HPP_INCLUDED
# ifndef CATCH_RUN_CONTEXT_HPP_INCLUDED
# define CATCH_RUN_CONTEXT_HPP_INCLUDED
# ifndef CATCH_TEST_CASE_TRACKER_HPP_INCLUDED
# define CATCH_TEST_CASE_TRACKER_HPP_INCLUDED
# include <string>
# include <vector>
namespace Catch {
namespace TestCaseTracking {
struct NameAndLocation {
std : : string name ;
SourceLineInfo location ;
NameAndLocation ( std : : string const & _name , SourceLineInfo const & _location ) ;
friend bool operator = = ( NameAndLocation const & lhs , NameAndLocation const & rhs ) {
return lhs . name = = rhs . name
& & lhs . location = = rhs . location ;
}
} ;
class ITracker ;
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using ITrackerPtr = Catch : : Detail : : unique_ptr < ITracker > ;
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class ITracker {
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NameAndLocation m_nameAndLocation ;
using Children = std : : vector < ITrackerPtr > ;
protected :
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enum CycleState {
NotStarted ,
Executing ,
ExecutingChildren ,
NeedsAnotherRun ,
CompletedSuccessfully ,
Failed
} ;
ITracker * m_parent = nullptr ;
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Children m_children ;
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CycleState m_runState = NotStarted ;
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public :
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ITracker ( NameAndLocation const & nameAndLoc , ITracker * parent ) :
m_nameAndLocation ( nameAndLoc ) ,
m_parent ( parent )
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{ }
// static queries
NameAndLocation const & nameAndLocation ( ) const {
return m_nameAndLocation ;
}
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ITracker * parent ( ) const {
return m_parent ;
}
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virtual ~ ITracker ( ) ; // = default
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// dynamic queries
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//! Returns true if tracker run to completion (successfully or not)
virtual bool isComplete ( ) const = 0 ;
//! Returns true if tracker run to completion succesfully
bool isSuccessfullyCompleted ( ) const ;
//! Returns true if tracker has started but hasn't been completed
bool isOpen ( ) const ;
//! Returns true iff tracker has started
bool hasStarted ( ) const ;
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// actions
virtual void close ( ) = 0 ; // Successfully complete
virtual void fail ( ) = 0 ;
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void markAsNeedingAnotherRun ( ) ;
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//! Register a nested ITracker
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void addChild ( ITrackerPtr & & child ) ;
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/**
* Returns ptr to specific child if register with this tracker .
*
* Returns nullptr if not found .
*/
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ITracker * findChild ( NameAndLocation const & nameAndLocation ) ;
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//! Have any children been added?
bool hasChildren ( ) const {
return ! m_children . empty ( ) ;
}
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//! Marks tracker as executing a child, doing se recursively up the tree
void openChild ( ) ;
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/**
* Returns true if the instance is a section tracker
*
* Subclasses should override to true if they are , replaces RTTI
* for internal debug checks .
*/
virtual bool isSectionTracker ( ) const ;
/**
* Returns true if the instance is a generator tracker
*
* Subclasses should override to true if they are , replaces RTTI
* for internal debug checks .
*/
virtual bool isGeneratorTracker ( ) const ;
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} ;
class TrackerContext {
enum RunState {
NotStarted ,
Executing ,
CompletedCycle
} ;
ITrackerPtr m_rootTracker ;
ITracker * m_currentTracker = nullptr ;
RunState m_runState = NotStarted ;
public :
ITracker & startRun ( ) ;
void endRun ( ) ;
void startCycle ( ) ;
void completeCycle ( ) ;
bool completedCycle ( ) const ;
ITracker & currentTracker ( ) ;
void setCurrentTracker ( ITracker * tracker ) ;
} ;
class TrackerBase : public ITracker {
protected :
TrackerContext & m_ctx ;
public :
TrackerBase ( NameAndLocation const & nameAndLocation , TrackerContext & ctx , ITracker * parent ) ;
bool isComplete ( ) const override ;
void open ( ) ;
void close ( ) override ;
void fail ( ) override ;
private :
void moveToParent ( ) ;
void moveToThis ( ) ;
} ;
class SectionTracker : public TrackerBase {
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std : : vector < StringRef > m_filters ;
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std : : string m_trimmed_name ;
public :
SectionTracker ( NameAndLocation const & nameAndLocation , TrackerContext & ctx , ITracker * parent ) ;
bool isSectionTracker ( ) const override ;
bool isComplete ( ) const override ;
static SectionTracker & acquire ( TrackerContext & ctx , NameAndLocation const & nameAndLocation ) ;
void tryOpen ( ) ;
void addInitialFilters ( std : : vector < std : : string > const & filters ) ;
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void addNextFilters ( std : : vector < StringRef > const & filters ) ;
//! Returns filters active in this tracker
std : : vector < StringRef > const & getFilters ( ) const ;
//! Returns whitespace-trimmed name of the tracked section
StringRef trimmedName ( ) const ;
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} ;
} // namespace TestCaseTracking
using TestCaseTracking : : ITracker ;
using TestCaseTracking : : TrackerContext ;
using TestCaseTracking : : SectionTracker ;
} // namespace Catch
# endif // CATCH_TEST_CASE_TRACKER_HPP_INCLUDED
# include <string>
namespace Catch {
struct IMutableContext ;
struct IGeneratorTracker ;
struct IConfig ;
///////////////////////////////////////////////////////////////////////////
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class RunContext : public IResultCapture {
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public :
RunContext ( RunContext const & ) = delete ;
RunContext & operator = ( RunContext const & ) = delete ;
explicit RunContext ( IConfig const * _config , IStreamingReporterPtr & & reporter ) ;
~ RunContext ( ) override ;
Totals runTest ( TestCaseHandle const & testCase ) ;
public : // IResultCapture
// Assertion handlers
void handleExpr
( AssertionInfo const & info ,
ITransientExpression const & expr ,
AssertionReaction & reaction ) override ;
void handleMessage
( AssertionInfo const & info ,
ResultWas : : OfType resultType ,
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StringRef message ,
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AssertionReaction & reaction ) override ;
void handleUnexpectedExceptionNotThrown
( AssertionInfo const & info ,
AssertionReaction & reaction ) override ;
void handleUnexpectedInflightException
( AssertionInfo const & info ,
std : : string const & message ,
AssertionReaction & reaction ) override ;
void handleIncomplete
( AssertionInfo const & info ) override ;
void handleNonExpr
( AssertionInfo const & info ,
ResultWas : : OfType resultType ,
AssertionReaction & reaction ) override ;
bool sectionStarted ( SectionInfo const & sectionInfo , Counts & assertions ) override ;
void sectionEnded ( SectionEndInfo const & endInfo ) override ;
void sectionEndedEarly ( SectionEndInfo const & endInfo ) override ;
auto acquireGeneratorTracker ( StringRef generatorName , SourceLineInfo const & lineInfo ) - > IGeneratorTracker & override ;
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void benchmarkPreparing ( StringRef name ) override ;
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void benchmarkStarting ( BenchmarkInfo const & info ) override ;
void benchmarkEnded ( BenchmarkStats < > const & stats ) override ;
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void benchmarkFailed ( StringRef error ) override ;
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void pushScopedMessage ( MessageInfo const & message ) override ;
void popScopedMessage ( MessageInfo const & message ) override ;
void emplaceUnscopedMessage ( MessageBuilder const & builder ) override ;
std : : string getCurrentTestName ( ) const override ;
const AssertionResult * getLastResult ( ) const override ;
void exceptionEarlyReported ( ) override ;
void handleFatalErrorCondition ( StringRef message ) override ;
bool lastAssertionPassed ( ) override ;
void assertionPassed ( ) override ;
public :
// !TBD We need to do this another way!
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bool aborting ( ) const ;
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private :
void runCurrentTest ( std : : string & redirectedCout , std : : string & redirectedCerr ) ;
void invokeActiveTestCase ( ) ;
void resetAssertionInfo ( ) ;
bool testForMissingAssertions ( Counts & assertions ) ;
void assertionEnded ( AssertionResult const & result ) ;
void reportExpr
( AssertionInfo const & info ,
ResultWas : : OfType resultType ,
ITransientExpression const * expr ,
bool negated ) ;
void populateReaction ( AssertionReaction & reaction ) ;
private :
void handleUnfinishedSections ( ) ;
TestRunInfo m_runInfo ;
IMutableContext & m_context ;
TestCaseHandle const * m_activeTestCase = nullptr ;
ITracker * m_testCaseTracker = nullptr ;
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Optional < AssertionResult > m_lastResult ;
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IConfig const * m_config ;
Totals m_totals ;
IStreamingReporterPtr m_reporter ;
std : : vector < MessageInfo > m_messages ;
std : : vector < ScopedMessage > m_messageScopes ; /* Keeps owners of so-called unscoped messages. */
AssertionInfo m_lastAssertionInfo ;
std : : vector < SectionEndInfo > m_unfinishedSections ;
std : : vector < ITracker * > m_activeSections ;
TrackerContext m_trackerContext ;
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FatalConditionHandler m_fatalConditionhandler ;
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bool m_lastAssertionPassed = false ;
bool m_shouldReportUnexpected = true ;
bool m_includeSuccessfulResults ;
} ;
void seedRng ( IConfig const & config ) ;
unsigned int rngSeed ( ) ;
} // end namespace Catch
# endif // CATCH_RUN_CONTEXT_HPP_INCLUDED
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# ifndef CATCH_SHARDING_HPP_INCLUDED
# define CATCH_SHARDING_HPP_INCLUDED
# include <cmath>
namespace Catch {
template < typename Container >
Container createShard ( Container const & container , std : : size_t const shardCount , std : : size_t const shardIndex ) {
assert ( shardCount > shardIndex ) ;
if ( shardCount = = 1 ) {
return container ;
}
const std : : size_t totalTestCount = container . size ( ) ;
const std : : size_t shardSize = totalTestCount / shardCount ;
const std : : size_t leftoverTests = totalTestCount % shardCount ;
const std : : size_t startIndex = shardIndex * shardSize + ( std : : min ) ( shardIndex , leftoverTests ) ;
const std : : size_t endIndex = ( shardIndex + 1 ) * shardSize + ( std : : min ) ( shardIndex + 1 , leftoverTests ) ;
auto startIterator = std : : next ( container . begin ( ) , static_cast < std : : ptrdiff_t > ( startIndex ) ) ;
auto endIterator = std : : next ( container . begin ( ) , static_cast < std : : ptrdiff_t > ( endIndex ) ) ;
return Container ( startIterator , endIterator ) ;
}
}
# endif // CATCH_SHARDING_HPP_INCLUDED
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# ifndef CATCH_SINGLETONS_HPP_INCLUDED
# define CATCH_SINGLETONS_HPP_INCLUDED
namespace Catch {
struct ISingleton {
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virtual ~ ISingleton ( ) ; // = default
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} ;
void addSingleton ( ISingleton * singleton ) ;
void cleanupSingletons ( ) ;
template < typename SingletonImplT , typename InterfaceT = SingletonImplT , typename MutableInterfaceT = InterfaceT >
class Singleton : SingletonImplT , public ISingleton {
static auto getInternal ( ) - > Singleton * {
static Singleton * s_instance = nullptr ;
if ( ! s_instance ) {
s_instance = new Singleton ;
addSingleton ( s_instance ) ;
}
return s_instance ;
}
public :
static auto get ( ) - > InterfaceT const & {
return * getInternal ( ) ;
}
static auto getMutable ( ) - > MutableInterfaceT & {
return * getInternal ( ) ;
}
} ;
} // namespace Catch
# endif // CATCH_SINGLETONS_HPP_INCLUDED
# ifndef CATCH_STARTUP_EXCEPTION_REGISTRY_HPP_INCLUDED
# define CATCH_STARTUP_EXCEPTION_REGISTRY_HPP_INCLUDED
# include <vector>
# include <exception>
namespace Catch {
class StartupExceptionRegistry {
# if !defined(CATCH_CONFIG_DISABLE_EXCEPTIONS)
public :
void add ( std : : exception_ptr const & exception ) noexcept ;
std : : vector < std : : exception_ptr > const & getExceptions ( ) const noexcept ;
private :
std : : vector < std : : exception_ptr > m_exceptions ;
# endif
} ;
} // end namespace Catch
# endif // CATCH_STARTUP_EXCEPTION_REGISTRY_HPP_INCLUDED
# ifndef CATCH_STRING_MANIP_HPP_INCLUDED
# define CATCH_STRING_MANIP_HPP_INCLUDED
# include <string>
# include <iosfwd>
# include <vector>
namespace Catch {
bool startsWith ( std : : string const & s , std : : string const & prefix ) ;
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bool startsWith ( StringRef s , char prefix ) ;
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bool endsWith ( std : : string const & s , std : : string const & suffix ) ;
bool endsWith ( std : : string const & s , char suffix ) ;
bool contains ( std : : string const & s , std : : string const & infix ) ;
void toLowerInPlace ( std : : string & s ) ;
std : : string toLower ( std : : string const & s ) ;
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char toLower ( char c ) ;
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//! Returns a new string without whitespace at the start/end
std : : string trim ( std : : string const & str ) ;
//! Returns a substring of the original ref without whitespace. Beware lifetimes!
StringRef trim ( StringRef ref ) ;
// !!! Be aware, returns refs into original string - make sure original string outlives them
std : : vector < StringRef > splitStringRef ( StringRef str , char delimiter ) ;
bool replaceInPlace ( std : : string & str , std : : string const & replaceThis , std : : string const & withThis ) ;
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/**
* Helper for streaming a " count [maybe-plural-of-label] " human - friendly string
*
* Usage example :
* ` ` ` cpp
* std : : cout < < " Found " < < pluralise ( count , " error " ) < < ' \n ' ;
* ` ` `
*
* * * Important : * * The provided string must outlive the instance
*/
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struct pluralise {
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pluralise ( std : : uint64_t count , StringRef label ) :
m_count ( count ) ,
m_label ( label )
{ }
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friend std : : ostream & operator < < ( std : : ostream & os , pluralise const & pluraliser ) ;
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std : : uint64_t m_count ;
StringRef m_label ;
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} ;
}
# endif // CATCH_STRING_MANIP_HPP_INCLUDED
# ifndef CATCH_TAG_ALIAS_REGISTRY_HPP_INCLUDED
# define CATCH_TAG_ALIAS_REGISTRY_HPP_INCLUDED
# include <map>
# include <string>
namespace Catch {
class TagAliasRegistry : public ITagAliasRegistry {
public :
~ TagAliasRegistry ( ) override ;
TagAlias const * find ( std : : string const & alias ) const override ;
std : : string expandAliases ( std : : string const & unexpandedTestSpec ) const override ;
void add ( std : : string const & alias , std : : string const & tag , SourceLineInfo const & lineInfo ) ;
private :
std : : map < std : : string , TagAlias > m_registry ;
} ;
} // end namespace Catch
# endif // CATCH_TAG_ALIAS_REGISTRY_HPP_INCLUDED
# ifndef CATCH_TEST_CASE_REGISTRY_IMPL_HPP_INCLUDED
# define CATCH_TEST_CASE_REGISTRY_IMPL_HPP_INCLUDED
# include <vector>
namespace Catch {
class TestCaseHandle ;
struct IConfig ;
class TestSpec ;
std : : vector < TestCaseHandle > sortTests ( IConfig const & config , std : : vector < TestCaseHandle > const & unsortedTestCases ) ;
bool isThrowSafe ( TestCaseHandle const & testCase , IConfig const & config ) ;
bool matchTest ( TestCaseHandle const & testCase , TestSpec const & testSpec , IConfig const & config ) ;
void enforceNoDuplicateTestCases ( std : : vector < TestCaseHandle > const & functions ) ;
std : : vector < TestCaseHandle > filterTests ( std : : vector < TestCaseHandle > const & testCases , TestSpec const & testSpec , IConfig const & config ) ;
std : : vector < TestCaseHandle > const & getAllTestCasesSorted ( IConfig const & config ) ;
class TestRegistry : public ITestCaseRegistry {
public :
~ TestRegistry ( ) override = default ;
void registerTest ( Detail : : unique_ptr < TestCaseInfo > testInfo , Detail : : unique_ptr < ITestInvoker > testInvoker ) ;
std : : vector < TestCaseInfo * > const & getAllInfos ( ) const override ;
std : : vector < TestCaseHandle > const & getAllTests ( ) const override ;
std : : vector < TestCaseHandle > const & getAllTestsSorted ( IConfig const & config ) const override ;
private :
std : : vector < Detail : : unique_ptr < TestCaseInfo > > m_owned_test_infos ;
// Keeps a materialized vector for `getAllInfos`.
// We should get rid of that eventually (see interface note)
std : : vector < TestCaseInfo * > m_viewed_test_infos ;
std : : vector < Detail : : unique_ptr < ITestInvoker > > m_invokers ;
std : : vector < TestCaseHandle > m_handles ;
mutable TestRunOrder m_currentSortOrder = TestRunOrder : : Declared ;
mutable std : : vector < TestCaseHandle > m_sortedFunctions ;
} ;
///////////////////////////////////////////////////////////////////////////
class TestInvokerAsFunction final : public ITestInvoker {
using TestType = void ( * ) ( ) ;
TestType m_testAsFunction ;
public :
TestInvokerAsFunction ( TestType testAsFunction ) noexcept :
m_testAsFunction ( testAsFunction ) { }
void invoke ( ) const override ;
} ;
///////////////////////////////////////////////////////////////////////////
} // end namespace Catch
# endif // CATCH_TEST_CASE_REGISTRY_IMPL_HPP_INCLUDED
# ifndef CATCH_TEST_SPEC_PARSER_HPP_INCLUDED
# define CATCH_TEST_SPEC_PARSER_HPP_INCLUDED
# ifdef __clang__
# pragma clang diagnostic push
# pragma clang diagnostic ignored "-Wpadded"
# endif
# include <vector>
# include <string>
namespace Catch {
struct ITagAliasRegistry ;
class TestSpecParser {
enum Mode { None , Name , QuotedName , Tag , EscapedName } ;
Mode m_mode = None ;
Mode lastMode = None ;
bool m_exclusion = false ;
std : : size_t m_pos = 0 ;
std : : size_t m_realPatternPos = 0 ;
std : : string m_arg ;
std : : string m_substring ;
std : : string m_patternName ;
std : : vector < std : : size_t > m_escapeChars ;
TestSpec : : Filter m_currentFilter ;
TestSpec m_testSpec ;
ITagAliasRegistry const * m_tagAliases = nullptr ;
public :
TestSpecParser ( ITagAliasRegistry const & tagAliases ) ;
TestSpecParser & parse ( std : : string const & arg ) ;
TestSpec testSpec ( ) ;
private :
bool visitChar ( char c ) ;
void startNewMode ( Mode mode ) ;
bool processNoneChar ( char c ) ;
void processNameChar ( char c ) ;
bool processOtherChar ( char c ) ;
void endMode ( ) ;
void escape ( ) ;
bool isControlChar ( char c ) const ;
void saveLastMode ( ) ;
void revertBackToLastMode ( ) ;
void addFilter ( ) ;
bool separate ( ) ;
// Handles common preprocessing of the pattern for name/tag patterns
std : : string preprocessPattern ( ) ;
// Adds the current pattern as a test name
void addNamePattern ( ) ;
// Adds the current pattern as a tag
void addTagPattern ( ) ;
inline void addCharToPattern ( char c ) {
m_substring + = c ;
m_patternName + = c ;
m_realPatternPos + + ;
}
} ;
TestSpec parseTestSpec ( std : : string const & arg ) ;
} // namespace Catch
# ifdef __clang__
# pragma clang diagnostic pop
# endif
# endif // CATCH_TEST_SPEC_PARSER_HPP_INCLUDED
# ifndef CATCH_TEXTFLOW_HPP_INCLUDED
# define CATCH_TEXTFLOW_HPP_INCLUDED
# include <cassert>
# include <string>
# include <vector>
namespace Catch {
namespace TextFlow {
class Columns ;
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/**
* Represents a column of text with specific width and indentation
*
* When written out to a stream , it will perform linebreaking
* of the provided text so that the written lines fit within
* target width .
*/
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class Column {
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// String to be written out
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std : : string m_string ;
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// Width of the column for linebreaking
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size_t m_width = CATCH_CONFIG_CONSOLE_WIDTH - 1 ;
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// Indentation of other lines (including first if initial indent is unset)
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size_t m_indent = 0 ;
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// Indentation of the first line
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size_t m_initialIndent = std : : string : : npos ;
public :
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/**
* Iterates " lines " in ` Column ` and return sthem
*/
class const_iterator {
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friend Column ;
struct EndTag { } ;
Column const & m_column ;
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// Where does the current line start?
size_t m_lineStart = 0 ;
// How long should the current line be?
size_t m_lineLength = 0 ;
// How far have we checked the string to iterate?
size_t m_parsedTo = 0 ;
// Should a '-' be appended to the line?
bool m_addHyphen = false ;
const_iterator ( Column const & column , EndTag ) :
m_column ( column ) , m_lineStart ( m_column . m_string . size ( ) ) { }
// Calculates the length of the current line
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void calcLength ( ) ;
// Returns current indention width
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size_t indentSize ( ) const ;
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// Creates an indented and (optionally) suffixed string from
// current iterator position, indentation and length.
std : : string addIndentAndSuffix ( size_t position ,
size_t length ) const ;
public :
using difference_type = std : : ptrdiff_t ;
using value_type = std : : string ;
using pointer = value_type * ;
using reference = value_type & ;
using iterator_category = std : : forward_iterator_tag ;
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explicit const_iterator ( Column const & column ) ;
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std : : string operator * ( ) const ;
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const_iterator & operator + + ( ) ;
const_iterator operator + + ( int ) ;
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bool operator = = ( const_iterator const & other ) const {
return m_lineStart = = other . m_lineStart & & & m_column = = & other . m_column ;
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}
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bool operator ! = ( const_iterator const & other ) const {
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return ! operator = = ( other ) ;
}
} ;
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using iterator = const_iterator ;
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explicit Column ( std : : string const & text ) : m_string ( text ) { }
Column & width ( size_t newWidth ) {
assert ( newWidth > 0 ) ;
m_width = newWidth ;
return * this ;
}
Column & indent ( size_t newIndent ) {
m_indent = newIndent ;
return * this ;
}
Column & initialIndent ( size_t newIndent ) {
m_initialIndent = newIndent ;
return * this ;
}
size_t width ( ) const { return m_width ; }
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const_iterator begin ( ) const { return const_iterator ( * this ) ; }
const_iterator end ( ) const { return { * this , const_iterator : : EndTag { } } ; }
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friend std : : ostream & operator < < ( std : : ostream & os ,
Column const & col ) ;
Columns operator + ( Column const & other ) ;
} ;
//! Creates a column that serves as an empty space of specific width
Column Spacer ( size_t spaceWidth ) ;
class Columns {
std : : vector < Column > m_columns ;
public :
class iterator {
friend Columns ;
struct EndTag { } ;
std : : vector < Column > const & m_columns ;
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std : : vector < Column : : const_iterator > m_iterators ;
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size_t m_activeIterators ;
iterator ( Columns const & columns , EndTag ) ;
public :
using difference_type = std : : ptrdiff_t ;
using value_type = std : : string ;
using pointer = value_type * ;
using reference = value_type & ;
using iterator_category = std : : forward_iterator_tag ;
explicit iterator ( Columns const & columns ) ;
auto operator = = ( iterator const & other ) const - > bool {
return m_iterators = = other . m_iterators ;
}
auto operator ! = ( iterator const & other ) const - > bool {
return m_iterators ! = other . m_iterators ;
}
std : : string operator * ( ) const ;
iterator & operator + + ( ) ;
iterator operator + + ( int ) ;
} ;
using const_iterator = iterator ;
iterator begin ( ) const { return iterator ( * this ) ; }
iterator end ( ) const { return { * this , iterator : : EndTag ( ) } ; }
Columns & operator + = ( Column const & col ) ;
Columns operator + ( Column const & col ) ;
friend std : : ostream & operator < < ( std : : ostream & os ,
Columns const & cols ) ;
} ;
} // namespace TextFlow
} // namespace Catch
# endif // CATCH_TEXTFLOW_HPP_INCLUDED
# ifndef CATCH_TO_STRING_HPP_INCLUDED
# define CATCH_TO_STRING_HPP_INCLUDED
# include <string>
namespace Catch {
template < typename T >
std : : string to_string ( T const & t ) {
# if defined(CATCH_CONFIG_CPP11_TO_STRING)
return std : : to_string ( t ) ;
# else
ReusableStringStream rss ;
rss < < t ;
return rss . str ( ) ;
# endif
}
} // end namespace Catch
# endif // CATCH_TO_STRING_HPP_INCLUDED
# ifndef CATCH_UNCAUGHT_EXCEPTIONS_HPP_INCLUDED
# define CATCH_UNCAUGHT_EXCEPTIONS_HPP_INCLUDED
namespace Catch {
bool uncaught_exceptions ( ) ;
} // end namespace Catch
# endif // CATCH_UNCAUGHT_EXCEPTIONS_HPP_INCLUDED
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# ifndef CATCH_WINDOWS_H_PROXY_HPP_INCLUDED
# define CATCH_WINDOWS_H_PROXY_HPP_INCLUDED
# if defined(CATCH_PLATFORM_WINDOWS)
# if !defined(NOMINMAX) && !defined(CATCH_CONFIG_NO_NOMINMAX)
# define CATCH_DEFINED_NOMINMAX
# define NOMINMAX
# endif
# if !defined(WIN32_LEAN_AND_MEAN) && !defined(CATCH_CONFIG_NO_WIN32_LEAN_AND_MEAN)
# define CATCH_DEFINED_WIN32_LEAN_AND_MEAN
# define WIN32_LEAN_AND_MEAN
# endif
# ifdef __AFXDLL
# include <AfxWin.h>
# else
# include <windows.h>
# endif
# ifdef CATCH_DEFINED_NOMINMAX
# undef NOMINMAX
# endif
# ifdef CATCH_DEFINED_WIN32_LEAN_AND_MEAN
# undef WIN32_LEAN_AND_MEAN
# endif
# endif // defined(CATCH_PLATFORM_WINDOWS)
# endif // CATCH_WINDOWS_H_PROXY_HPP_INCLUDED
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# ifndef CATCH_XMLWRITER_HPP_INCLUDED
# define CATCH_XMLWRITER_HPP_INCLUDED
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# include <vector>
namespace Catch {
enum class XmlFormatting {
None = 0x00 ,
Indent = 0x01 ,
Newline = 0x02 ,
} ;
XmlFormatting operator | ( XmlFormatting lhs , XmlFormatting rhs ) ;
XmlFormatting operator & ( XmlFormatting lhs , XmlFormatting rhs ) ;
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/**
* Helper for XML - encoding text ( escaping angle brackets , quotes , etc )
*
* Note : doesn ' t take ownership of passed strings , and thus the
* encoded string must outlive the encoding instance .
*/
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class XmlEncode {
public :
enum ForWhat { ForTextNodes , ForAttributes } ;
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XmlEncode ( StringRef str , ForWhat forWhat = ForTextNodes ) ;
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void encodeTo ( std : : ostream & os ) const ;
friend std : : ostream & operator < < ( std : : ostream & os , XmlEncode const & xmlEncode ) ;
private :
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StringRef m_str ;
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ForWhat m_forWhat ;
} ;
class XmlWriter {
public :
class ScopedElement {
public :
ScopedElement ( XmlWriter * writer , XmlFormatting fmt ) ;
ScopedElement ( ScopedElement & & other ) noexcept ;
ScopedElement & operator = ( ScopedElement & & other ) noexcept ;
~ ScopedElement ( ) ;
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ScopedElement &
writeText ( StringRef text ,
XmlFormatting fmt = XmlFormatting : : Newline |
XmlFormatting : : Indent ) ;
ScopedElement & writeAttribute ( StringRef name ,
StringRef attribute ) ;
template < typename T ,
// Without this SFINAE, this overload is a better match
// for `std::string`, `char const*`, `char const[N]` args.
// While it would still work, it would cause code bloat
// and multiple iteration over the strings
typename = typename std : : enable_if_t <
! std : : is_convertible < T , StringRef > : : value > >
ScopedElement & writeAttribute ( StringRef name ,
T const & attribute ) {
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m_writer - > writeAttribute ( name , attribute ) ;
return * this ;
}
private :
mutable XmlWriter * m_writer = nullptr ;
XmlFormatting m_fmt ;
} ;
XmlWriter ( std : : ostream & os = Catch : : cout ( ) ) ;
~ XmlWriter ( ) ;
XmlWriter ( XmlWriter const & ) = delete ;
XmlWriter & operator = ( XmlWriter const & ) = delete ;
XmlWriter & startElement ( std : : string const & name , XmlFormatting fmt = XmlFormatting : : Newline | XmlFormatting : : Indent ) ;
ScopedElement scopedElement ( std : : string const & name , XmlFormatting fmt = XmlFormatting : : Newline | XmlFormatting : : Indent ) ;
XmlWriter & endElement ( XmlFormatting fmt = XmlFormatting : : Newline | XmlFormatting : : Indent ) ;
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//! The attribute content is XML-encoded
XmlWriter & writeAttribute ( StringRef name , StringRef attribute ) ;
//! Writes the attribute as "true/false"
XmlWriter & writeAttribute ( StringRef name , bool attribute ) ;
//! The attribute content is XML-encoded
XmlWriter & writeAttribute ( StringRef name , char const * attribute ) ;
//! The attribute value must provide op<<(ostream&, T). The resulting
//! serialization is XML-encoded
template < typename T ,
// Without this SFINAE, this overload is a better match
// for `std::string`, `char const*`, `char const[N]` args.
// While it would still work, it would cause code bloat
// and multiple iteration over the strings
typename = typename std : : enable_if_t <
! std : : is_convertible < T , StringRef > : : value > >
XmlWriter & writeAttribute ( StringRef name , T const & attribute ) {
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ReusableStringStream rss ;
rss < < attribute ;
return writeAttribute ( name , rss . str ( ) ) ;
}
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//! Writes escaped `text` in a element
XmlWriter & writeText ( StringRef text ,
XmlFormatting fmt = XmlFormatting : : Newline |
XmlFormatting : : Indent ) ;
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//! Writes XML comment as "<!-- text -->"
XmlWriter & writeComment ( StringRef text ,
XmlFormatting fmt = XmlFormatting : : Newline |
XmlFormatting : : Indent ) ;
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void writeStylesheetRef ( StringRef url ) ;
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void ensureTagClosed ( ) ;
private :
void applyFormatting ( XmlFormatting fmt ) ;
void writeDeclaration ( ) ;
void newlineIfNecessary ( ) ;
bool m_tagIsOpen = false ;
bool m_needsNewline = false ;
std : : vector < std : : string > m_tags ;
std : : string m_indent ;
std : : ostream & m_os ;
} ;
}
# endif // CATCH_XMLWRITER_HPP_INCLUDED
/** \file
* This is a convenience header for Catch2 ' s Matcher support . It includes
* * * all * * of Catch2 headers related to matchers .
*
* Generally the Catch2 users should use specific includes they need ,
* but this header can be used instead for ease - of - experimentation , or
* just plain convenience , at the cost of increased compilation times .
*
* When a new header is added to either the ` matchers ` folder , or to
* the corresponding internal subfolder , it should be added here .
*/
# ifndef CATCH_MATCHERS_ALL_HPP_INCLUDED
# define CATCH_MATCHERS_ALL_HPP_INCLUDED
# ifndef CATCH_MATCHERS_HPP_INCLUDED
# define CATCH_MATCHERS_HPP_INCLUDED
# ifndef CATCH_MATCHERS_IMPL_HPP_INCLUDED
# define CATCH_MATCHERS_IMPL_HPP_INCLUDED
namespace Catch {
template < typename ArgT , typename MatcherT >
class MatchExpr : public ITransientExpression {
ArgT & & m_arg ;
MatcherT const & m_matcher ;
StringRef m_matcherString ;
public :
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MatchExpr ( ArgT & & arg , MatcherT const & matcher , StringRef matcherString )
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: ITransientExpression { true , matcher . match ( arg ) } , // not forwarding arg here on purpose
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m_arg ( CATCH_FORWARD ( arg ) ) ,
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m_matcher ( matcher ) ,
m_matcherString ( matcherString )
{ }
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void streamReconstructedExpression ( std : : ostream & os ) const override {
os < < Catch : : Detail : : stringify ( m_arg )
< < ' '
< < m_matcher . toString ( ) ;
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}
} ;
namespace Matchers {
template < typename ArgT >
struct MatcherBase ;
}
using StringMatcher = Matchers : : MatcherBase < std : : string > ;
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void handleExceptionMatchExpr ( AssertionHandler & handler , StringMatcher const & matcher , StringRef matcherString ) ;
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template < typename ArgT , typename MatcherT >
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auto makeMatchExpr ( ArgT & & arg , MatcherT const & matcher , StringRef matcherString ) - > MatchExpr < ArgT , MatcherT > {
return MatchExpr < ArgT , MatcherT > ( CATCH_FORWARD ( arg ) , matcher , matcherString ) ;
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}
} // namespace Catch
///////////////////////////////////////////////////////////////////////////////
# define INTERNAL_CHECK_THAT( macroName, matcher, resultDisposition, arg ) \
do { \
Catch : : AssertionHandler catchAssertionHandler ( macroName # # _catch_sr , CATCH_INTERNAL_LINEINFO , CATCH_INTERNAL_STRINGIFY ( arg ) " , " CATCH_INTERNAL_STRINGIFY ( matcher ) , resultDisposition ) ; \
INTERNAL_CATCH_TRY { \
catchAssertionHandler . handleExpr ( Catch : : makeMatchExpr ( arg , matcher , # matcher # # _catch_sr ) ) ; \
} INTERNAL_CATCH_CATCH ( catchAssertionHandler ) \
INTERNAL_CATCH_REACT ( catchAssertionHandler ) \
} while ( false )
///////////////////////////////////////////////////////////////////////////////
# define INTERNAL_CATCH_THROWS_MATCHES( macroName, exceptionType, resultDisposition, matcher, ... ) \
do { \
Catch : : AssertionHandler catchAssertionHandler ( macroName # # _catch_sr , CATCH_INTERNAL_LINEINFO , CATCH_INTERNAL_STRINGIFY ( __VA_ARGS__ ) " , " CATCH_INTERNAL_STRINGIFY ( exceptionType ) " , " CATCH_INTERNAL_STRINGIFY ( matcher ) , resultDisposition ) ; \
if ( catchAssertionHandler . allowThrows ( ) ) \
try { \
static_cast < void > ( __VA_ARGS__ ) ; \
catchAssertionHandler . handleUnexpectedExceptionNotThrown ( ) ; \
} \
catch ( exceptionType const & ex ) { \
catchAssertionHandler . handleExpr ( Catch : : makeMatchExpr ( ex , matcher , # matcher # # _catch_sr ) ) ; \
} \
catch ( . . . ) { \
catchAssertionHandler . handleUnexpectedInflightException ( ) ; \
} \
else \
catchAssertionHandler . handleThrowingCallSkipped ( ) ; \
INTERNAL_CATCH_REACT ( catchAssertionHandler ) \
} while ( false )
# endif // CATCH_MATCHERS_IMPL_HPP_INCLUDED
# include <string>
# include <vector>
namespace Catch {
namespace Matchers {
class MatcherUntypedBase {
public :
MatcherUntypedBase ( ) = default ;
MatcherUntypedBase ( MatcherUntypedBase const & ) = default ;
MatcherUntypedBase ( MatcherUntypedBase & & ) = default ;
MatcherUntypedBase & operator = ( MatcherUntypedBase const & ) = delete ;
MatcherUntypedBase & operator = ( MatcherUntypedBase & & ) = delete ;
std : : string toString ( ) const ;
protected :
virtual ~ MatcherUntypedBase ( ) ; // = default;
virtual std : : string describe ( ) const = 0 ;
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mutable std : : string m_cachedToString ;
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} ;
template < typename T >
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struct MatcherBase : MatcherUntypedBase {
virtual bool match ( T const & arg ) const = 0 ;
} ;
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namespace Detail {
template < typename ArgT >
struct MatchAllOf final : MatcherBase < ArgT > {
MatchAllOf ( ) = default ;
MatchAllOf ( MatchAllOf const & ) = delete ;
MatchAllOf & operator = ( MatchAllOf const & ) = delete ;
MatchAllOf ( MatchAllOf & & ) = default ;
MatchAllOf & operator = ( MatchAllOf & & ) = default ;
bool match ( ArgT const & arg ) const override {
for ( auto matcher : m_matchers ) {
if ( ! matcher - > match ( arg ) )
return false ;
}
return true ;
}
std : : string describe ( ) const override {
std : : string description ;
description . reserve ( 4 + m_matchers . size ( ) * 32 ) ;
description + = " ( " ;
bool first = true ;
for ( auto matcher : m_matchers ) {
if ( first )
first = false ;
else
description + = " and " ;
description + = matcher - > toString ( ) ;
}
description + = " ) " ;
return description ;
}
friend MatchAllOf operator & & ( MatchAllOf & & lhs , MatcherBase < ArgT > const & rhs ) {
lhs . m_matchers . push_back ( & rhs ) ;
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return CATCH_MOVE ( lhs ) ;
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}
friend MatchAllOf operator & & ( MatcherBase < ArgT > const & lhs , MatchAllOf & & rhs ) {
rhs . m_matchers . insert ( rhs . m_matchers . begin ( ) , & lhs ) ;
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return CATCH_MOVE ( rhs ) ;
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}
private :
std : : vector < MatcherBase < ArgT > const * > m_matchers ;
} ;
//! lvalue overload is intentionally deleted, users should
//! not be trying to compose stored composition matchers
template < typename ArgT >
MatchAllOf < ArgT > operator & & ( MatchAllOf < ArgT > const & lhs , MatcherBase < ArgT > const & rhs ) = delete ;
//! lvalue overload is intentionally deleted, users should
//! not be trying to compose stored composition matchers
template < typename ArgT >
MatchAllOf < ArgT > operator & & ( MatcherBase < ArgT > const & lhs , MatchAllOf < ArgT > const & rhs ) = delete ;
template < typename ArgT >
struct MatchAnyOf final : MatcherBase < ArgT > {
MatchAnyOf ( ) = default ;
MatchAnyOf ( MatchAnyOf const & ) = delete ;
MatchAnyOf & operator = ( MatchAnyOf const & ) = delete ;
MatchAnyOf ( MatchAnyOf & & ) = default ;
MatchAnyOf & operator = ( MatchAnyOf & & ) = default ;
bool match ( ArgT const & arg ) const override {
for ( auto matcher : m_matchers ) {
if ( matcher - > match ( arg ) )
return true ;
}
return false ;
}
std : : string describe ( ) const override {
std : : string description ;
description . reserve ( 4 + m_matchers . size ( ) * 32 ) ;
description + = " ( " ;
bool first = true ;
for ( auto matcher : m_matchers ) {
if ( first )
first = false ;
else
description + = " or " ;
description + = matcher - > toString ( ) ;
}
description + = " ) " ;
return description ;
}
friend MatchAnyOf operator | | ( MatchAnyOf & & lhs , MatcherBase < ArgT > const & rhs ) {
lhs . m_matchers . push_back ( & rhs ) ;
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return CATCH_MOVE ( lhs ) ;
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}
friend MatchAnyOf operator | | ( MatcherBase < ArgT > const & lhs , MatchAnyOf & & rhs ) {
rhs . m_matchers . insert ( rhs . m_matchers . begin ( ) , & lhs ) ;
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return CATCH_MOVE ( rhs ) ;
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}
private :
std : : vector < MatcherBase < ArgT > const * > m_matchers ;
} ;
//! lvalue overload is intentionally deleted, users should
//! not be trying to compose stored composition matchers
template < typename ArgT >
MatchAnyOf < ArgT > operator | | ( MatchAnyOf < ArgT > const & lhs , MatcherBase < ArgT > const & rhs ) = delete ;
//! lvalue overload is intentionally deleted, users should
//! not be trying to compose stored composition matchers
template < typename ArgT >
MatchAnyOf < ArgT > operator | | ( MatcherBase < ArgT > const & lhs , MatchAnyOf < ArgT > const & rhs ) = delete ;
template < typename ArgT >
struct MatchNotOf final : MatcherBase < ArgT > {
explicit MatchNotOf ( MatcherBase < ArgT > const & underlyingMatcher ) :
m_underlyingMatcher ( underlyingMatcher )
{ }
bool match ( ArgT const & arg ) const override {
return ! m_underlyingMatcher . match ( arg ) ;
}
std : : string describe ( ) const override {
return " not " + m_underlyingMatcher . toString ( ) ;
}
private :
MatcherBase < ArgT > const & m_underlyingMatcher ;
} ;
} // namespace Detail
template < typename T >
Detail : : MatchAllOf < T > operator & & ( MatcherBase < T > const & lhs , MatcherBase < T > const & rhs ) {
return Detail : : MatchAllOf < T > { } & & lhs & & rhs ;
}
template < typename T >
Detail : : MatchAnyOf < T > operator | | ( MatcherBase < T > const & lhs , MatcherBase < T > const & rhs ) {
return Detail : : MatchAnyOf < T > { } | | lhs | | rhs ;
}
template < typename T >
Detail : : MatchNotOf < T > operator ! ( MatcherBase < T > const & matcher ) {
return Detail : : MatchNotOf < T > { matcher } ;
}
} // namespace Matchers
} // namespace Catch
# if defined(CATCH_CONFIG_PREFIX_ALL) && !defined(CATCH_CONFIG_DISABLE)
# define CATCH_REQUIRE_THROWS_WITH( expr, matcher ) INTERNAL_CATCH_THROWS_STR_MATCHES( "CATCH_REQUIRE_THROWS_WITH", Catch::ResultDisposition::Normal, matcher, expr )
# define CATCH_REQUIRE_THROWS_MATCHES( expr, exceptionType, matcher ) INTERNAL_CATCH_THROWS_MATCHES( "CATCH_REQUIRE_THROWS_MATCHES", exceptionType, Catch::ResultDisposition::Normal, matcher, expr )
# define CATCH_CHECK_THROWS_WITH( expr, matcher ) INTERNAL_CATCH_THROWS_STR_MATCHES( "CATCH_CHECK_THROWS_WITH", Catch::ResultDisposition::ContinueOnFailure, matcher, expr )
# define CATCH_CHECK_THROWS_MATCHES( expr, exceptionType, matcher ) INTERNAL_CATCH_THROWS_MATCHES( "CATCH_CHECK_THROWS_MATCHES", exceptionType, Catch::ResultDisposition::ContinueOnFailure, matcher, expr )
# define CATCH_CHECK_THAT( arg, matcher ) INTERNAL_CHECK_THAT( "CATCH_CHECK_THAT", matcher, Catch::ResultDisposition::ContinueOnFailure, arg )
# define CATCH_REQUIRE_THAT( arg, matcher ) INTERNAL_CHECK_THAT( "CATCH_REQUIRE_THAT", matcher, Catch::ResultDisposition::Normal, arg )
# elif defined(CATCH_CONFIG_PREFIX_ALL) && defined(CATCH_CONFIG_DISABLE)
# define CATCH_REQUIRE_THROWS_WITH( expr, matcher ) (void)(0)
# define CATCH_REQUIRE_THROWS_MATCHES( expr, exceptionType, matcher ) (void)(0)
# define CATCH_CHECK_THROWS_WITH( expr, matcher ) (void)(0)
# define CATCH_CHECK_THROWS_MATCHES( expr, exceptionType, matcher ) (void)(0)
# define CATCH_CHECK_THAT( arg, matcher ) (void)(0)
# define CATCH_REQUIRE_THAT( arg, matcher ) (void)(0)
# elif !defined(CATCH_CONFIG_PREFIX_ALL) && !defined(CATCH_CONFIG_DISABLE)
# define REQUIRE_THROWS_WITH( expr, matcher ) INTERNAL_CATCH_THROWS_STR_MATCHES( "REQUIRE_THROWS_WITH", Catch::ResultDisposition::Normal, matcher, expr )
# define REQUIRE_THROWS_MATCHES( expr, exceptionType, matcher ) INTERNAL_CATCH_THROWS_MATCHES( "REQUIRE_THROWS_MATCHES", exceptionType, Catch::ResultDisposition::Normal, matcher, expr )
# define CHECK_THROWS_WITH( expr, matcher ) INTERNAL_CATCH_THROWS_STR_MATCHES( "CHECK_THROWS_WITH", Catch::ResultDisposition::ContinueOnFailure, matcher, expr )
# define CHECK_THROWS_MATCHES( expr, exceptionType, matcher ) INTERNAL_CATCH_THROWS_MATCHES( "CHECK_THROWS_MATCHES", exceptionType, Catch::ResultDisposition::ContinueOnFailure, matcher, expr )
# define CHECK_THAT( arg, matcher ) INTERNAL_CHECK_THAT( "CHECK_THAT", matcher, Catch::ResultDisposition::ContinueOnFailure, arg )
# define REQUIRE_THAT( arg, matcher ) INTERNAL_CHECK_THAT( "REQUIRE_THAT", matcher, Catch::ResultDisposition::Normal, arg )
# elif !defined(CATCH_CONFIG_PREFIX_ALL) && defined(CATCH_CONFIG_DISABLE)
# define REQUIRE_THROWS_WITH( expr, matcher ) (void)(0)
# define REQUIRE_THROWS_MATCHES( expr, exceptionType, matcher ) (void)(0)
# define CHECK_THROWS_WITH( expr, matcher ) (void)(0)
# define CHECK_THROWS_MATCHES( expr, exceptionType, matcher ) (void)(0)
# define CHECK_THAT( arg, matcher ) (void)(0)
# define REQUIRE_THAT( arg, matcher ) (void)(0)
# endif // end of user facing macro declarations
# endif // CATCH_MATCHERS_HPP_INCLUDED
# ifndef CATCH_MATCHERS_CONTAINER_PROPERTIES_HPP_INCLUDED
# define CATCH_MATCHERS_CONTAINER_PROPERTIES_HPP_INCLUDED
# ifndef CATCH_MATCHERS_TEMPLATED_HPP_INCLUDED
# define CATCH_MATCHERS_TEMPLATED_HPP_INCLUDED
# include <array>
# include <algorithm>
# include <string>
# include <type_traits>
namespace Catch {
namespace Matchers {
struct MatcherGenericBase : MatcherUntypedBase {
MatcherGenericBase ( ) = default ;
virtual ~ MatcherGenericBase ( ) ; // = default;
MatcherGenericBase ( MatcherGenericBase & ) = default ;
MatcherGenericBase ( MatcherGenericBase & & ) = default ;
MatcherGenericBase & operator = ( MatcherGenericBase const & ) = delete ;
MatcherGenericBase & operator = ( MatcherGenericBase & & ) = delete ;
} ;
namespace Detail {
template < std : : size_t N , std : : size_t M >
std : : array < void const * , N + M > array_cat ( std : : array < void const * , N > & & lhs , std : : array < void const * , M > & & rhs ) {
std : : array < void const * , N + M > arr { } ;
std : : copy_n ( lhs . begin ( ) , N , arr . begin ( ) ) ;
std : : copy_n ( rhs . begin ( ) , M , arr . begin ( ) + N ) ;
return arr ;
}
template < std : : size_t N >
std : : array < void const * , N + 1 > array_cat ( std : : array < void const * , N > & & lhs , void const * rhs ) {
std : : array < void const * , N + 1 > arr { } ;
std : : copy_n ( lhs . begin ( ) , N , arr . begin ( ) ) ;
arr [ N ] = rhs ;
return arr ;
}
template < std : : size_t N >
std : : array < void const * , N + 1 > array_cat ( void const * lhs , std : : array < void const * , N > & & rhs ) {
std : : array < void const * , N + 1 > arr { { lhs } } ;
std : : copy_n ( rhs . begin ( ) , N , arr . begin ( ) + 1 ) ;
return arr ;
}
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# if defined( __cpp_lib_logical_traits ) && __cpp_lib_logical_traits >= 201510
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using std : : conjunction ;
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# else // __cpp_lib_logical_traits
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template < typename . . . Cond >
struct conjunction : std : : true_type { } ;
template < typename Cond , typename . . . Rest >
struct conjunction < Cond , Rest . . . > : std : : integral_constant < bool , Cond : : value & & conjunction < Rest . . . > : : value > { } ;
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# endif // __cpp_lib_logical_traits
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template < typename T >
using is_generic_matcher = std : : is_base_of <
Catch : : Matchers : : MatcherGenericBase ,
std : : remove_cv_t < std : : remove_reference_t < T > >
> ;
template < typename . . . Ts >
using are_generic_matchers = conjunction < is_generic_matcher < Ts > . . . > ;
template < typename T >
using is_matcher = std : : is_base_of <
Catch : : Matchers : : MatcherUntypedBase ,
std : : remove_cv_t < std : : remove_reference_t < T > >
> ;
template < std : : size_t N , typename Arg >
bool match_all_of ( Arg & & , std : : array < void const * , N > const & , std : : index_sequence < > ) {
return true ;
}
template < typename T , typename . . . MatcherTs , std : : size_t N , typename Arg , std : : size_t Idx , std : : size_t . . . Indices >
bool match_all_of ( Arg & & arg , std : : array < void const * , N > const & matchers , std : : index_sequence < Idx , Indices . . . > ) {
return static_cast < T const * > ( matchers [ Idx ] ) - > match ( arg ) & & match_all_of < MatcherTs . . . > ( arg , matchers , std : : index_sequence < Indices . . . > { } ) ;
}
template < std : : size_t N , typename Arg >
bool match_any_of ( Arg & & , std : : array < void const * , N > const & , std : : index_sequence < > ) {
return false ;
}
template < typename T , typename . . . MatcherTs , std : : size_t N , typename Arg , std : : size_t Idx , std : : size_t . . . Indices >
bool match_any_of ( Arg & & arg , std : : array < void const * , N > const & matchers , std : : index_sequence < Idx , Indices . . . > ) {
return static_cast < T const * > ( matchers [ Idx ] ) - > match ( arg ) | | match_any_of < MatcherTs . . . > ( arg , matchers , std : : index_sequence < Indices . . . > { } ) ;
}
std : : string describe_multi_matcher ( StringRef combine , std : : string const * descriptions_begin , std : : string const * descriptions_end ) ;
template < typename . . . MatcherTs , std : : size_t . . . Idx >
std : : string describe_multi_matcher ( StringRef combine , std : : array < void const * , sizeof . . . ( MatcherTs ) > const & matchers , std : : index_sequence < Idx . . . > ) {
std : : array < std : : string , sizeof . . . ( MatcherTs ) > descriptions { {
static_cast < MatcherTs const * > ( matchers [ Idx ] ) - > toString ( ) . . .
} } ;
return describe_multi_matcher ( combine , descriptions . data ( ) , descriptions . data ( ) + descriptions . size ( ) ) ;
}
template < typename . . . MatcherTs >
struct MatchAllOfGeneric final : MatcherGenericBase {
MatchAllOfGeneric ( MatchAllOfGeneric const & ) = delete ;
MatchAllOfGeneric & operator = ( MatchAllOfGeneric const & ) = delete ;
MatchAllOfGeneric ( MatchAllOfGeneric & & ) = default ;
MatchAllOfGeneric & operator = ( MatchAllOfGeneric & & ) = default ;
MatchAllOfGeneric ( MatcherTs const & . . . matchers ) : m_matchers { { std : : addressof ( matchers ) . . . } } { }
explicit MatchAllOfGeneric ( std : : array < void const * , sizeof . . . ( MatcherTs ) > matchers ) : m_matchers { matchers } { }
template < typename Arg >
bool match ( Arg & & arg ) const {
return match_all_of < MatcherTs . . . > ( arg , m_matchers , std : : index_sequence_for < MatcherTs . . . > { } ) ;
}
std : : string describe ( ) const override {
return describe_multi_matcher < MatcherTs . . . > ( " and " _sr , m_matchers , std : : index_sequence_for < MatcherTs . . . > { } ) ;
}
std : : array < void const * , sizeof . . . ( MatcherTs ) > m_matchers ;
//! Avoids type nesting for `GenericAllOf && GenericAllOf` case
template < typename . . . MatchersRHS >
friend
MatchAllOfGeneric < MatcherTs . . . , MatchersRHS . . . > operator & & (
MatchAllOfGeneric < MatcherTs . . . > & & lhs ,
MatchAllOfGeneric < MatchersRHS . . . > & & rhs ) {
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return MatchAllOfGeneric < MatcherTs . . . , MatchersRHS . . . > { array_cat ( CATCH_MOVE ( lhs . m_matchers ) , CATCH_MOVE ( rhs . m_matchers ) ) } ;
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}
//! Avoids type nesting for `GenericAllOf && some matcher` case
template < typename MatcherRHS >
friend std : : enable_if_t < is_matcher < MatcherRHS > : : value ,
MatchAllOfGeneric < MatcherTs . . . , MatcherRHS > > operator & & (
MatchAllOfGeneric < MatcherTs . . . > & & lhs ,
MatcherRHS const & rhs ) {
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return MatchAllOfGeneric < MatcherTs . . . , MatcherRHS > { array_cat ( CATCH_MOVE ( lhs . m_matchers ) , static_cast < void const * > ( & rhs ) ) } ;
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}
//! Avoids type nesting for `some matcher && GenericAllOf` case
template < typename MatcherLHS >
friend std : : enable_if_t < is_matcher < MatcherLHS > : : value ,
MatchAllOfGeneric < MatcherLHS , MatcherTs . . . > > operator & & (
MatcherLHS const & lhs ,
MatchAllOfGeneric < MatcherTs . . . > & & rhs ) {
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return MatchAllOfGeneric < MatcherLHS , MatcherTs . . . > { array_cat ( static_cast < void const * > ( std : : addressof ( lhs ) ) , CATCH_MOVE ( rhs . m_matchers ) ) } ;
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}
} ;
template < typename . . . MatcherTs >
struct MatchAnyOfGeneric final : MatcherGenericBase {
MatchAnyOfGeneric ( MatchAnyOfGeneric const & ) = delete ;
MatchAnyOfGeneric & operator = ( MatchAnyOfGeneric const & ) = delete ;
MatchAnyOfGeneric ( MatchAnyOfGeneric & & ) = default ;
MatchAnyOfGeneric & operator = ( MatchAnyOfGeneric & & ) = default ;
MatchAnyOfGeneric ( MatcherTs const & . . . matchers ) : m_matchers { { std : : addressof ( matchers ) . . . } } { }
explicit MatchAnyOfGeneric ( std : : array < void const * , sizeof . . . ( MatcherTs ) > matchers ) : m_matchers { matchers } { }
template < typename Arg >
bool match ( Arg & & arg ) const {
return match_any_of < MatcherTs . . . > ( arg , m_matchers , std : : index_sequence_for < MatcherTs . . . > { } ) ;
}
std : : string describe ( ) const override {
return describe_multi_matcher < MatcherTs . . . > ( " or " _sr , m_matchers , std : : index_sequence_for < MatcherTs . . . > { } ) ;
}
std : : array < void const * , sizeof . . . ( MatcherTs ) > m_matchers ;
//! Avoids type nesting for `GenericAnyOf || GenericAnyOf` case
template < typename . . . MatchersRHS >
friend MatchAnyOfGeneric < MatcherTs . . . , MatchersRHS . . . > operator | | (
MatchAnyOfGeneric < MatcherTs . . . > & & lhs ,
MatchAnyOfGeneric < MatchersRHS . . . > & & rhs ) {
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return MatchAnyOfGeneric < MatcherTs . . . , MatchersRHS . . . > { array_cat ( CATCH_MOVE ( lhs . m_matchers ) , CATCH_MOVE ( rhs . m_matchers ) ) } ;
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}
//! Avoids type nesting for `GenericAnyOf || some matcher` case
template < typename MatcherRHS >
friend std : : enable_if_t < is_matcher < MatcherRHS > : : value ,
MatchAnyOfGeneric < MatcherTs . . . , MatcherRHS > > operator | | (
MatchAnyOfGeneric < MatcherTs . . . > & & lhs ,
MatcherRHS const & rhs ) {
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return MatchAnyOfGeneric < MatcherTs . . . , MatcherRHS > { array_cat ( CATCH_MOVE ( lhs . m_matchers ) , static_cast < void const * > ( std : : addressof ( rhs ) ) ) } ;
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}
//! Avoids type nesting for `some matcher || GenericAnyOf` case
template < typename MatcherLHS >
friend std : : enable_if_t < is_matcher < MatcherLHS > : : value ,
MatchAnyOfGeneric < MatcherLHS , MatcherTs . . . > > operator | | (
MatcherLHS const & lhs ,
MatchAnyOfGeneric < MatcherTs . . . > & & rhs ) {
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return MatchAnyOfGeneric < MatcherLHS , MatcherTs . . . > { array_cat ( static_cast < void const * > ( std : : addressof ( lhs ) ) , CATCH_MOVE ( rhs . m_matchers ) ) } ;
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}
} ;
template < typename MatcherT >
struct MatchNotOfGeneric final : MatcherGenericBase {
MatchNotOfGeneric ( MatchNotOfGeneric const & ) = delete ;
MatchNotOfGeneric & operator = ( MatchNotOfGeneric const & ) = delete ;
MatchNotOfGeneric ( MatchNotOfGeneric & & ) = default ;
MatchNotOfGeneric & operator = ( MatchNotOfGeneric & & ) = default ;
explicit MatchNotOfGeneric ( MatcherT const & matcher ) : m_matcher { matcher } { }
template < typename Arg >
bool match ( Arg & & arg ) const {
return ! m_matcher . match ( arg ) ;
}
std : : string describe ( ) const override {
return " not " + m_matcher . toString ( ) ;
}
//! Negating negation can just unwrap and return underlying matcher
friend MatcherT const & operator ! ( MatchNotOfGeneric < MatcherT > const & matcher ) {
return matcher . m_matcher ;
}
private :
MatcherT const & m_matcher ;
} ;
} // namespace Detail
// compose only generic matchers
template < typename MatcherLHS , typename MatcherRHS >
std : : enable_if_t < Detail : : are_generic_matchers < MatcherLHS , MatcherRHS > : : value , Detail : : MatchAllOfGeneric < MatcherLHS , MatcherRHS > >
operator & & ( MatcherLHS const & lhs , MatcherRHS const & rhs ) {
return { lhs , rhs } ;
}
template < typename MatcherLHS , typename MatcherRHS >
std : : enable_if_t < Detail : : are_generic_matchers < MatcherLHS , MatcherRHS > : : value , Detail : : MatchAnyOfGeneric < MatcherLHS , MatcherRHS > >
operator | | ( MatcherLHS const & lhs , MatcherRHS const & rhs ) {
return { lhs , rhs } ;
}
//! Wrap provided generic matcher in generic negator
template < typename MatcherT >
std : : enable_if_t < Detail : : is_generic_matcher < MatcherT > : : value , Detail : : MatchNotOfGeneric < MatcherT > >
operator ! ( MatcherT const & matcher ) {
return Detail : : MatchNotOfGeneric < MatcherT > { matcher } ;
}
// compose mixed generic and non-generic matchers
template < typename MatcherLHS , typename ArgRHS >
std : : enable_if_t < Detail : : is_generic_matcher < MatcherLHS > : : value , Detail : : MatchAllOfGeneric < MatcherLHS , MatcherBase < ArgRHS > > >
operator & & ( MatcherLHS const & lhs , MatcherBase < ArgRHS > const & rhs ) {
return { lhs , rhs } ;
}
template < typename ArgLHS , typename MatcherRHS >
std : : enable_if_t < Detail : : is_generic_matcher < MatcherRHS > : : value , Detail : : MatchAllOfGeneric < MatcherBase < ArgLHS > , MatcherRHS > >
operator & & ( MatcherBase < ArgLHS > const & lhs , MatcherRHS const & rhs ) {
return { lhs , rhs } ;
}
template < typename MatcherLHS , typename ArgRHS >
std : : enable_if_t < Detail : : is_generic_matcher < MatcherLHS > : : value , Detail : : MatchAnyOfGeneric < MatcherLHS , MatcherBase < ArgRHS > > >
operator | | ( MatcherLHS const & lhs , MatcherBase < ArgRHS > const & rhs ) {
return { lhs , rhs } ;
}
template < typename ArgLHS , typename MatcherRHS >
std : : enable_if_t < Detail : : is_generic_matcher < MatcherRHS > : : value , Detail : : MatchAnyOfGeneric < MatcherBase < ArgLHS > , MatcherRHS > >
operator | | ( MatcherBase < ArgLHS > const & lhs , MatcherRHS const & rhs ) {
return { lhs , rhs } ;
}
} // namespace Matchers
} // namespace Catch
# endif // CATCH_MATCHERS_TEMPLATED_HPP_INCLUDED
namespace Catch {
namespace Matchers {
class IsEmptyMatcher final : public MatcherGenericBase {
public :
// todo: Use polyfills
template < typename RangeLike >
bool match ( RangeLike & & rng ) const {
# if defined(CATCH_CONFIG_POLYFILL_NONMEMBER_CONTAINER_ACCESS)
using Catch : : Detail : : empty ;
# else
using std : : empty ;
# endif
return empty ( rng ) ;
}
std : : string describe ( ) const override ;
} ;
class HasSizeMatcher final : public MatcherGenericBase {
std : : size_t m_target_size ;
public :
explicit HasSizeMatcher ( std : : size_t target_size ) :
m_target_size ( target_size )
{ }
template < typename RangeLike >
bool match ( RangeLike & & rng ) const {
# if defined(CATCH_CONFIG_POLYFILL_NONMEMBER_CONTAINER_ACCESS)
using Catch : : Detail : : size ;
# else
using std : : size ;
# endif
return size ( rng ) = = m_target_size ;
}
std : : string describe ( ) const override ;
} ;
template < typename Matcher >
class SizeMatchesMatcher final : public MatcherGenericBase {
Matcher m_matcher ;
public :
explicit SizeMatchesMatcher ( Matcher m ) :
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m_matcher ( CATCH_MOVE ( m ) )
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{ }
template < typename RangeLike >
bool match ( RangeLike & & rng ) const {
# if defined(CATCH_CONFIG_POLYFILL_NONMEMBER_CONTAINER_ACCESS)
using Catch : : Detail : : size ;
# else
using std : : size ;
# endif
return m_matcher . match ( size ( rng ) ) ;
}
std : : string describe ( ) const override {
return " size matches " + m_matcher . describe ( ) ;
}
} ;
//! Creates a matcher that accepts empty ranges/containers
IsEmptyMatcher IsEmpty ( ) ;
//! Creates a matcher that accepts ranges/containers with specific size
HasSizeMatcher SizeIs ( std : : size_t sz ) ;
template < typename Matcher >
std : : enable_if_t < Detail : : is_matcher < Matcher > : : value ,
SizeMatchesMatcher < Matcher > > SizeIs ( Matcher & & m ) {
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return SizeMatchesMatcher < Matcher > { CATCH_FORWARD ( m ) } ;
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}
} // end namespace Matchers
} // end namespace Catch
# endif // CATCH_MATCHERS_CONTAINER_PROPERTIES_HPP_INCLUDED
# ifndef CATCH_MATCHERS_CONTAINS_HPP_INCLUDED
# define CATCH_MATCHERS_CONTAINS_HPP_INCLUDED
# include <algorithm>
# include <functional>
namespace Catch {
namespace Matchers {
//! Matcher for checking that an element in range is equal to specific element
template < typename T , typename Equality >
class ContainsElementMatcher final : public MatcherGenericBase {
T m_desired ;
Equality m_eq ;
public :
template < typename T2 , typename Equality2 >
ContainsElementMatcher ( T2 & & target , Equality2 & & predicate ) :
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m_desired ( CATCH_FORWARD ( target ) ) ,
m_eq ( CATCH_FORWARD ( predicate ) )
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{ }
std : : string describe ( ) const override {
return " contains element " + Catch : : Detail : : stringify ( m_desired ) ;
}
template < typename RangeLike >
bool match ( RangeLike & & rng ) const {
using std : : begin ; using std : : end ;
return end ( rng ) ! = std : : find_if ( begin ( rng ) , end ( rng ) ,
[ & ] ( auto const & elem ) {
return m_eq ( elem , m_desired ) ;
} ) ;
}
} ;
//! Meta-matcher for checking that an element in a range matches a specific matcher
template < typename Matcher >
class ContainsMatcherMatcher final : public MatcherGenericBase {
Matcher m_matcher ;
public :
// Note that we do a copy+move to avoid having to SFINAE this
// constructor (and also avoid some perfect forwarding failure
// cases)
ContainsMatcherMatcher ( Matcher matcher ) :
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m_matcher ( CATCH_MOVE ( matcher ) )
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{ }
template < typename RangeLike >
bool match ( RangeLike & & rng ) const {
for ( auto & & elem : rng ) {
if ( m_matcher . match ( elem ) ) {
return true ;
}
}
return false ;
}
std : : string describe ( ) const override {
return " contains element matching " + m_matcher . describe ( ) ;
}
} ;
/**
* Creates a matcher that checks whether a range contains a specific element .
*
* Uses ` std : : equal_to ` to do the comparison
*/
template < typename T >
std : : enable_if_t < ! Detail : : is_matcher < T > : : value ,
ContainsElementMatcher < T , std : : equal_to < > > > Contains ( T & & elem ) {
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return { CATCH_FORWARD ( elem ) , std : : equal_to < > { } } ;
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}
//! Creates a matcher that checks whether a range contains element matching a matcher
template < typename Matcher >
std : : enable_if_t < Detail : : is_matcher < Matcher > : : value ,
ContainsMatcherMatcher < Matcher > > Contains ( Matcher & & matcher ) {
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return { CATCH_FORWARD ( matcher ) } ;
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}
/**
* Creates a matcher that checks whether a range contains a specific element .
*
* Uses ` eq ` to do the comparisons
*/
template < typename T , typename Equality >
ContainsElementMatcher < T , Equality > Contains ( T & & elem , Equality & & eq ) {
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return { CATCH_FORWARD ( elem ) , CATCH_FORWARD ( eq ) } ;
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}
}
}
# endif // CATCH_MATCHERS_CONTAINS_HPP_INCLUDED
# ifndef CATCH_MATCHERS_EXCEPTION_HPP_INCLUDED
# define CATCH_MATCHERS_EXCEPTION_HPP_INCLUDED
namespace Catch {
namespace Matchers {
class ExceptionMessageMatcher final : public MatcherBase < std : : exception > {
std : : string m_message ;
public :
ExceptionMessageMatcher ( std : : string const & message ) :
m_message ( message )
{ }
bool match ( std : : exception const & ex ) const override ;
std : : string describe ( ) const override ;
} ;
//! Creates a matcher that checks whether a std derived exception has the provided message
ExceptionMessageMatcher Message ( std : : string const & message ) ;
} // namespace Matchers
} // namespace Catch
# endif // CATCH_MATCHERS_EXCEPTION_HPP_INCLUDED
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# ifndef CATCH_MATCHERS_FLOATING_POINT_HPP_INCLUDED
# define CATCH_MATCHERS_FLOATING_POINT_HPP_INCLUDED
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namespace Catch {
namespace Matchers {
namespace Detail {
enum class FloatingPointKind : uint8_t ;
}
struct WithinAbsMatcher final : MatcherBase < double > {
WithinAbsMatcher ( double target , double margin ) ;
bool match ( double const & matchee ) const override ;
std : : string describe ( ) const override ;
private :
double m_target ;
double m_margin ;
} ;
struct WithinUlpsMatcher final : MatcherBase < double > {
WithinUlpsMatcher ( double target , uint64_t ulps , Detail : : FloatingPointKind baseType ) ;
bool match ( double const & matchee ) const override ;
std : : string describe ( ) const override ;
private :
double m_target ;
uint64_t m_ulps ;
Detail : : FloatingPointKind m_type ;
} ;
// Given IEEE-754 format for floats and doubles, we can assume
// that float -> double promotion is lossless. Given this, we can
// assume that if we do the standard relative comparison of
// |lhs - rhs| <= epsilon * max(fabs(lhs), fabs(rhs)), then we get
// the same result if we do this for floats, as if we do this for
// doubles that were promoted from floats.
struct WithinRelMatcher final : MatcherBase < double > {
WithinRelMatcher ( double target , double epsilon ) ;
bool match ( double const & matchee ) const override ;
std : : string describe ( ) const override ;
private :
double m_target ;
double m_epsilon ;
} ;
//! Creates a matcher that accepts doubles within certain ULP range of target
WithinUlpsMatcher WithinULP ( double target , uint64_t maxUlpDiff ) ;
//! Creates a matcher that accepts floats within certain ULP range of target
WithinUlpsMatcher WithinULP ( float target , uint64_t maxUlpDiff ) ;
//! Creates a matcher that accepts numbers within certain range of target
WithinAbsMatcher WithinAbs ( double target , double margin ) ;
//! Creates a matcher that accepts doubles within certain relative range of target
WithinRelMatcher WithinRel ( double target , double eps ) ;
//! Creates a matcher that accepts doubles within 100*DBL_EPS relative range of target
WithinRelMatcher WithinRel ( double target ) ;
//! Creates a matcher that accepts doubles within certain relative range of target
WithinRelMatcher WithinRel ( float target , float eps ) ;
//! Creates a matcher that accepts floats within 100*FLT_EPS relative range of target
WithinRelMatcher WithinRel ( float target ) ;
} // namespace Matchers
} // namespace Catch
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# endif // CATCH_MATCHERS_FLOATING_POINT_HPP_INCLUDED
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# ifndef CATCH_MATCHERS_PREDICATE_HPP_INCLUDED
# define CATCH_MATCHERS_PREDICATE_HPP_INCLUDED
# include <string>
namespace Catch {
namespace Matchers {
namespace Detail {
std : : string finalizeDescription ( const std : : string & desc ) ;
} // namespace Detail
template < typename T , typename Predicate >
class PredicateMatcher final : public MatcherBase < T > {
Predicate m_predicate ;
std : : string m_description ;
public :
PredicateMatcher ( Predicate & & elem , std : : string const & descr )
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: m_predicate ( CATCH_FORWARD ( elem ) ) ,
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m_description ( Detail : : finalizeDescription ( descr ) )
{ }
bool match ( T const & item ) const override {
return m_predicate ( item ) ;
}
std : : string describe ( ) const override {
return m_description ;
}
} ;
/**
* Creates a matcher that calls delegates ` match ` to the provided predicate .
*
* The user has to explicitly specify the argument type to the matcher
*/
template < typename T , typename Pred >
PredicateMatcher < T , Pred > Predicate ( Pred & & predicate , std : : string const & description = " " ) {
static_assert ( is_callable < Pred ( T ) > : : value , " Predicate not callable with argument T " ) ;
static_assert ( std : : is_same < bool , FunctionReturnType < Pred , T > > : : value , " Predicate does not return bool " ) ;
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return PredicateMatcher < T , Pred > ( CATCH_FORWARD ( predicate ) , description ) ;
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}
} // namespace Matchers
} // namespace Catch
# endif // CATCH_MATCHERS_PREDICATE_HPP_INCLUDED
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# ifndef CATCH_MATCHERS_QUANTIFIERS_HPP_INCLUDED
# define CATCH_MATCHERS_QUANTIFIERS_HPP_INCLUDED
namespace Catch {
namespace Matchers {
// Matcher for checking that all elements in range matches a given matcher.
template < typename Matcher >
class AllMatchMatcher final : public MatcherGenericBase {
Matcher m_matcher ;
public :
AllMatchMatcher ( Matcher matcher ) :
m_matcher ( CATCH_MOVE ( matcher ) )
{ }
std : : string describe ( ) const override {
return " all match " + m_matcher . describe ( ) ;
}
template < typename RangeLike >
bool match ( RangeLike & & rng ) const {
for ( auto & & elem : rng ) {
if ( ! m_matcher . match ( elem ) ) {
return false ;
}
}
return true ;
}
} ;
// Matcher for checking that no element in range matches a given matcher.
template < typename Matcher >
class NoneMatchMatcher final : public MatcherGenericBase {
Matcher m_matcher ;
public :
NoneMatchMatcher ( Matcher matcher ) :
m_matcher ( CATCH_MOVE ( matcher ) )
{ }
std : : string describe ( ) const override {
return " none match " + m_matcher . describe ( ) ;
}
template < typename RangeLike >
bool match ( RangeLike & & rng ) const {
for ( auto & & elem : rng ) {
if ( m_matcher . match ( elem ) ) {
return false ;
}
}
return true ;
}
} ;
// Matcher for checking that at least one element in range matches a given matcher.
template < typename Matcher >
class AnyMatchMatcher final : public MatcherGenericBase {
Matcher m_matcher ;
public :
AnyMatchMatcher ( Matcher matcher ) :
m_matcher ( CATCH_MOVE ( matcher ) )
{ }
std : : string describe ( ) const override {
return " any match " + m_matcher . describe ( ) ;
}
template < typename RangeLike >
bool match ( RangeLike & & rng ) const {
for ( auto & & elem : rng ) {
if ( m_matcher . match ( elem ) ) {
return true ;
}
}
return false ;
}
} ;
// Creates a matcher that checks whether a range contains element matching a matcher
template < typename Matcher >
AllMatchMatcher < Matcher > AllMatch ( Matcher & & matcher ) {
return { CATCH_FORWARD ( matcher ) } ;
}
// Creates a matcher that checks whether no element in a range matches a matcher.
template < typename Matcher >
NoneMatchMatcher < Matcher > NoneMatch ( Matcher & & matcher ) {
return { CATCH_FORWARD ( matcher ) } ;
}
// Creates a matcher that checks whether any element in a range matches a matcher.
template < typename Matcher >
AnyMatchMatcher < Matcher > AnyMatch ( Matcher & & matcher ) {
return { CATCH_FORWARD ( matcher ) } ;
}
}
}
# endif // CATCH_MATCHERS_QUANTIFIERS_HPP_INCLUDED
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# ifndef CATCH_MATCHERS_STRING_HPP_INCLUDED
# define CATCH_MATCHERS_STRING_HPP_INCLUDED
# include <string>
namespace Catch {
namespace Matchers {
struct CasedString {
CasedString ( std : : string const & str , CaseSensitive caseSensitivity ) ;
std : : string adjustString ( std : : string const & str ) const ;
StringRef caseSensitivitySuffix ( ) const ;
CaseSensitive m_caseSensitivity ;
std : : string m_str ;
} ;
struct StringMatcherBase : MatcherBase < std : : string > {
StringMatcherBase ( std : : string const & operation , CasedString const & comparator ) ;
std : : string describe ( ) const override ;
CasedString m_comparator ;
std : : string m_operation ;
} ;
struct StringEqualsMatcher final : StringMatcherBase {
StringEqualsMatcher ( CasedString const & comparator ) ;
bool match ( std : : string const & source ) const override ;
} ;
struct StringContainsMatcher final : StringMatcherBase {
StringContainsMatcher ( CasedString const & comparator ) ;
bool match ( std : : string const & source ) const override ;
} ;
struct StartsWithMatcher final : StringMatcherBase {
StartsWithMatcher ( CasedString const & comparator ) ;
bool match ( std : : string const & source ) const override ;
} ;
struct EndsWithMatcher final : StringMatcherBase {
EndsWithMatcher ( CasedString const & comparator ) ;
bool match ( std : : string const & source ) const override ;
} ;
struct RegexMatcher final : MatcherBase < std : : string > {
RegexMatcher ( std : : string regex , CaseSensitive caseSensitivity ) ;
bool match ( std : : string const & matchee ) const override ;
std : : string describe ( ) const override ;
private :
std : : string m_regex ;
CaseSensitive m_caseSensitivity ;
} ;
//! Creates matcher that accepts strings that are exactly equal to `str`
StringEqualsMatcher Equals ( std : : string const & str , CaseSensitive caseSensitivity = CaseSensitive : : Yes ) ;
//! Creates matcher that accepts strings that contain `str`
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StringContainsMatcher ContainsSubstring ( std : : string const & str , CaseSensitive caseSensitivity = CaseSensitive : : Yes ) ;
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//! Creates matcher that accepts strings that _end_ with `str`
EndsWithMatcher EndsWith ( std : : string const & str , CaseSensitive caseSensitivity = CaseSensitive : : Yes ) ;
//! Creates matcher that accepts strings that _start_ with `str`
StartsWithMatcher StartsWith ( std : : string const & str , CaseSensitive caseSensitivity = CaseSensitive : : Yes ) ;
//! Creates matcher that accepts strings matching `regex`
RegexMatcher Matches ( std : : string const & regex , CaseSensitive caseSensitivity = CaseSensitive : : Yes ) ;
} // namespace Matchers
} // namespace Catch
# endif // CATCH_MATCHERS_STRING_HPP_INCLUDED
# ifndef CATCH_MATCHERS_VECTOR_HPP_INCLUDED
# define CATCH_MATCHERS_VECTOR_HPP_INCLUDED
# include <algorithm>
namespace Catch {
namespace Matchers {
template < typename T , typename Alloc >
struct VectorContainsElementMatcher final : MatcherBase < std : : vector < T , Alloc > > {
VectorContainsElementMatcher ( T const & comparator ) :
m_comparator ( comparator )
{ }
bool match ( std : : vector < T , Alloc > const & v ) const override {
for ( auto const & el : v ) {
if ( el = = m_comparator ) {
return true ;
}
}
return false ;
}
std : : string describe ( ) const override {
return " Contains: " + : : Catch : : Detail : : stringify ( m_comparator ) ;
}
T const & m_comparator ;
} ;
template < typename T , typename AllocComp , typename AllocMatch >
struct ContainsMatcher final : MatcherBase < std : : vector < T , AllocMatch > > {
ContainsMatcher ( std : : vector < T , AllocComp > const & comparator ) :
m_comparator ( comparator )
{ }
bool match ( std : : vector < T , AllocMatch > const & v ) const override {
// !TBD: see note in EqualsMatcher
if ( m_comparator . size ( ) > v . size ( ) )
return false ;
for ( auto const & comparator : m_comparator ) {
auto present = false ;
for ( const auto & el : v ) {
if ( el = = comparator ) {
present = true ;
break ;
}
}
if ( ! present ) {
return false ;
}
}
return true ;
}
std : : string describe ( ) const override {
return " Contains: " + : : Catch : : Detail : : stringify ( m_comparator ) ;
}
std : : vector < T , AllocComp > const & m_comparator ;
} ;
template < typename T , typename AllocComp , typename AllocMatch >
struct EqualsMatcher final : MatcherBase < std : : vector < T , AllocMatch > > {
EqualsMatcher ( std : : vector < T , AllocComp > const & comparator ) :
m_comparator ( comparator )
{ }
bool match ( std : : vector < T , AllocMatch > const & v ) const override {
// !TBD: This currently works if all elements can be compared using !=
// - a more general approach would be via a compare template that defaults
// to using !=. but could be specialised for, e.g. std::vector<T> etc
// - then just call that directly
if ( m_comparator . size ( ) ! = v . size ( ) )
return false ;
for ( std : : size_t i = 0 ; i < v . size ( ) ; + + i )
if ( m_comparator [ i ] ! = v [ i ] )
return false ;
return true ;
}
std : : string describe ( ) const override {
return " Equals: " + : : Catch : : Detail : : stringify ( m_comparator ) ;
}
std : : vector < T , AllocComp > const & m_comparator ;
} ;
template < typename T , typename AllocComp , typename AllocMatch >
struct ApproxMatcher final : MatcherBase < std : : vector < T , AllocMatch > > {
ApproxMatcher ( std : : vector < T , AllocComp > const & comparator ) :
m_comparator ( comparator )
{ }
bool match ( std : : vector < T , AllocMatch > const & v ) const override {
if ( m_comparator . size ( ) ! = v . size ( ) )
return false ;
for ( std : : size_t i = 0 ; i < v . size ( ) ; + + i )
if ( m_comparator [ i ] ! = approx ( v [ i ] ) )
return false ;
return true ;
}
std : : string describe ( ) const override {
return " is approx: " + : : Catch : : Detail : : stringify ( m_comparator ) ;
}
template < typename = std : : enable_if_t < std : : is_constructible < double , T > : : value > >
ApproxMatcher & epsilon ( T const & newEpsilon ) {
approx . epsilon ( static_cast < double > ( newEpsilon ) ) ;
return * this ;
}
template < typename = std : : enable_if_t < std : : is_constructible < double , T > : : value > >
ApproxMatcher & margin ( T const & newMargin ) {
approx . margin ( static_cast < double > ( newMargin ) ) ;
return * this ;
}
template < typename = std : : enable_if_t < std : : is_constructible < double , T > : : value > >
ApproxMatcher & scale ( T const & newScale ) {
approx . scale ( static_cast < double > ( newScale ) ) ;
return * this ;
}
std : : vector < T , AllocComp > const & m_comparator ;
mutable Catch : : Approx approx = Catch : : Approx : : custom ( ) ;
} ;
template < typename T , typename AllocComp , typename AllocMatch >
struct UnorderedEqualsMatcher final : MatcherBase < std : : vector < T , AllocMatch > > {
UnorderedEqualsMatcher ( std : : vector < T , AllocComp > const & target ) :
m_target ( target )
{ }
bool match ( std : : vector < T , AllocMatch > const & vec ) const override {
if ( m_target . size ( ) ! = vec . size ( ) ) {
return false ;
}
return std : : is_permutation ( m_target . begin ( ) , m_target . end ( ) , vec . begin ( ) ) ;
}
std : : string describe ( ) const override {
return " UnorderedEquals: " + : : Catch : : Detail : : stringify ( m_target ) ;
}
private :
std : : vector < T , AllocComp > const & m_target ;
} ;
// The following functions create the actual matcher objects.
// This allows the types to be inferred
//! Creates a matcher that matches vectors that contain all elements in `comparator`
template < typename T , typename AllocComp = std : : allocator < T > , typename AllocMatch = AllocComp >
ContainsMatcher < T , AllocComp , AllocMatch > Contains ( std : : vector < T , AllocComp > const & comparator ) {
return ContainsMatcher < T , AllocComp , AllocMatch > ( comparator ) ;
}
//! Creates a matcher that matches vectors that contain `comparator` as an element
template < typename T , typename Alloc = std : : allocator < T > >
VectorContainsElementMatcher < T , Alloc > VectorContains ( T const & comparator ) {
return VectorContainsElementMatcher < T , Alloc > ( comparator ) ;
}
//! Creates a matcher that matches vectors that are exactly equal to `comparator`
template < typename T , typename AllocComp = std : : allocator < T > , typename AllocMatch = AllocComp >
EqualsMatcher < T , AllocComp , AllocMatch > Equals ( std : : vector < T , AllocComp > const & comparator ) {
return EqualsMatcher < T , AllocComp , AllocMatch > ( comparator ) ;
}
//! Creates a matcher that matches vectors that `comparator` as an element
template < typename T , typename AllocComp = std : : allocator < T > , typename AllocMatch = AllocComp >
ApproxMatcher < T , AllocComp , AllocMatch > Approx ( std : : vector < T , AllocComp > const & comparator ) {
return ApproxMatcher < T , AllocComp , AllocMatch > ( comparator ) ;
}
//! Creates a matcher that matches vectors that is equal to `target` modulo permutation
template < typename T , typename AllocComp = std : : allocator < T > , typename AllocMatch = AllocComp >
UnorderedEqualsMatcher < T , AllocComp , AllocMatch > UnorderedEquals ( std : : vector < T , AllocComp > const & target ) {
return UnorderedEqualsMatcher < T , AllocComp , AllocMatch > ( target ) ;
}
} // namespace Matchers
} // namespace Catch
# endif // CATCH_MATCHERS_VECTOR_HPP_INCLUDED
# endif // CATCH_MATCHERS_ALL_HPP_INCLUDED
/** \file
* This is a convenience header for Catch2 ' s Reporter support . It includes
* * * all * * of Catch2 headers related to reporters , including all reporters .
*
* Generally the Catch2 users should use specific includes they need ,
* but this header can be used instead for ease - of - experimentation , or
* just plain convenience , at the cost of ( significantly ) increased
* compilation times .
*
* When a new header ( reporter ) is added to either the ` reporter ` folder ,
* or to the corresponding internal subfolder , it should be added here .
*/
# ifndef CATCH_REPORTERS_ALL_HPP_INCLUDED
# define CATCH_REPORTERS_ALL_HPP_INCLUDED
# ifndef CATCH_REPORTER_AUTOMAKE_HPP_INCLUDED
# define CATCH_REPORTER_AUTOMAKE_HPP_INCLUDED
# ifndef CATCH_REPORTER_STREAMING_BASE_HPP_INCLUDED
# define CATCH_REPORTER_STREAMING_BASE_HPP_INCLUDED
# include <iosfwd>
# include <string>
# include <vector>
namespace Catch {
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class StreamingReporterBase : public IStreamingReporter {
public :
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StreamingReporterBase ( ReporterConfig const & _config ) :
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IStreamingReporter ( _config . fullConfig ( ) ) ,
m_stream ( _config . stream ( ) ) { }
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~ StreamingReporterBase ( ) override ;
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void benchmarkPreparing ( StringRef ) override { }
void benchmarkStarting ( BenchmarkInfo const & ) override { }
void benchmarkEnded ( BenchmarkStats < > const & ) override { }
void benchmarkFailed ( StringRef ) override { }
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void fatalErrorEncountered ( StringRef /*error*/ ) override { }
void noMatchingTestCases ( StringRef /*unmatchedSpec*/ ) override { }
void reportInvalidTestSpec ( StringRef /*invalidArgument*/ ) override { }
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void testRunStarting ( TestRunInfo const & _testRunInfo ) override ;
void testCaseStarting ( TestCaseInfo const & _testInfo ) override {
currentTestCaseInfo = & _testInfo ;
}
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void testCasePartialStarting ( TestCaseInfo const & , uint64_t ) override { }
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void sectionStarting ( SectionInfo const & _sectionInfo ) override {
m_sectionStack . push_back ( _sectionInfo ) ;
}
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void assertionStarting ( AssertionInfo const & ) override { }
void assertionEnded ( AssertionStats const & ) override { }
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void sectionEnded ( SectionStats const & /* _sectionStats */ ) override {
m_sectionStack . pop_back ( ) ;
}
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void testCasePartialEnded ( TestCaseStats const & , uint64_t ) override { }
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void testCaseEnded ( TestCaseStats const & /* _testCaseStats */ ) override {
currentTestCaseInfo = nullptr ;
}
void testRunEnded ( TestRunStats const & /* _testRunStats */ ) override ;
void skipTest ( TestCaseInfo const & ) override {
// Don't do anything with this by default.
// It can optionally be overridden in the derived class.
}
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void listReporters ( std : : vector < ReporterDescription > const & descriptions ) override ;
void listTests ( std : : vector < TestCaseHandle > const & tests ) override ;
void listTags ( std : : vector < TagInfo > const & tags ) override ;
protected :
//! Stream that the reporter output should be written to
std : : ostream & m_stream ;
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TestRunInfo currentTestRunInfo { " test run has not started yet " _sr } ;
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TestCaseInfo const * currentTestCaseInfo = nullptr ;
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//! Stack of all _active_ sections in the _current_ test case
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std : : vector < SectionInfo > m_sectionStack ;
} ;
} // end namespace Catch
# endif // CATCH_REPORTER_STREAMING_BASE_HPP_INCLUDED
namespace Catch {
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struct AutomakeReporter final : StreamingReporterBase {
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AutomakeReporter ( ReporterConfig const & _config )
: StreamingReporterBase ( _config )
{ }
~ AutomakeReporter ( ) override ;
static std : : string getDescription ( ) {
using namespace std : : string_literals ;
return " Reports test results in the format of Automake .trs files " s ;
}
void testCaseEnded ( TestCaseStats const & _testCaseStats ) override ;
void skipTest ( TestCaseInfo const & testInfo ) override ;
} ;
} // end namespace Catch
# endif // CATCH_REPORTER_AUTOMAKE_HPP_INCLUDED
# ifndef CATCH_REPORTER_COMPACT_HPP_INCLUDED
# define CATCH_REPORTER_COMPACT_HPP_INCLUDED
namespace Catch {
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struct CompactReporter final : StreamingReporterBase {
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using StreamingReporterBase : : StreamingReporterBase ;
~ CompactReporter ( ) override ;
static std : : string getDescription ( ) ;
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void noMatchingTestCases ( StringRef unmatchedSpec ) override ;
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void assertionEnded ( AssertionStats const & _assertionStats ) override ;
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void sectionEnded ( SectionStats const & _sectionStats ) override ;
void testRunEnded ( TestRunStats const & _testRunStats ) override ;
} ;
} // end namespace Catch
# endif // CATCH_REPORTER_COMPACT_HPP_INCLUDED
# ifndef CATCH_REPORTER_CONSOLE_HPP_INCLUDED
# define CATCH_REPORTER_CONSOLE_HPP_INCLUDED
namespace Catch {
// Fwd decls
struct SummaryColumn ;
class TablePrinter ;
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struct ConsoleReporter final : StreamingReporterBase {
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Detail : : unique_ptr < TablePrinter > m_tablePrinter ;
ConsoleReporter ( ReporterConfig const & config ) ;
~ ConsoleReporter ( ) override ;
static std : : string getDescription ( ) ;
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void noMatchingTestCases ( StringRef unmatchedSpec ) override ;
void reportInvalidTestSpec ( StringRef arg ) override ;
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void assertionStarting ( AssertionInfo const & ) override ;
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void assertionEnded ( AssertionStats const & _assertionStats ) override ;
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void sectionStarting ( SectionInfo const & _sectionInfo ) override ;
void sectionEnded ( SectionStats const & _sectionStats ) override ;
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void benchmarkPreparing ( StringRef name ) override ;
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void benchmarkStarting ( BenchmarkInfo const & info ) override ;
void benchmarkEnded ( BenchmarkStats < > const & stats ) override ;
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void benchmarkFailed ( StringRef error ) override ;
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void testCaseEnded ( TestCaseStats const & _testCaseStats ) override ;
void testRunEnded ( TestRunStats const & _testRunStats ) override ;
void testRunStarting ( TestRunInfo const & _testRunInfo ) override ;
private :
void lazyPrint ( ) ;
void lazyPrintWithoutClosingBenchmarkTable ( ) ;
void lazyPrintRunInfo ( ) ;
void printTestCaseAndSectionHeader ( ) ;
void printClosedHeader ( std : : string const & _name ) ;
void printOpenHeader ( std : : string const & _name ) ;
// if string has a : in first line will set indent to follow it on
// subsequent lines
void printHeaderString ( std : : string const & _string , std : : size_t indent = 0 ) ;
void printTotals ( Totals const & totals ) ;
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void printSummaryRow ( StringRef label , std : : vector < SummaryColumn > const & cols , std : : size_t row ) ;
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void printTotalsDivider ( Totals const & totals ) ;
void printSummaryDivider ( ) ;
void printTestFilters ( ) ;
private :
bool m_headerPrinted = false ;
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bool m_testRunInfoPrinted = false ;
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} ;
} // end namespace Catch
# endif // CATCH_REPORTER_CONSOLE_HPP_INCLUDED
# ifndef CATCH_REPORTER_CUMULATIVE_BASE_HPP_INCLUDED
# define CATCH_REPORTER_CUMULATIVE_BASE_HPP_INCLUDED
# include <iosfwd>
# include <string>
# include <vector>
namespace Catch {
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namespace Detail {
//! Represents either an assertion or a benchmark result to be handled by cumulative reporter later
class AssertionOrBenchmarkResult {
// This should really be a variant, but this is much faster
// to write and the data layout here is already terrible
// enough that we do not have to care about the object size.
Optional < AssertionStats > m_assertion ;
Optional < BenchmarkStats < > > m_benchmark ;
public :
AssertionOrBenchmarkResult ( AssertionStats const & assertion ) ;
AssertionOrBenchmarkResult ( BenchmarkStats < > const & benchmark ) ;
bool isAssertion ( ) const ;
bool isBenchmark ( ) const ;
AssertionStats const & asAssertion ( ) const ;
BenchmarkStats < > const & asBenchmark ( ) const ;
} ;
}
/**
* Utility base for reporters that need to handle all results at once
*
* It stores tree of all test cases , sections and assertions , and after the
* test run is finished , calls into ` testRunEndedCumulative ` to pass the
* control to the deriving class .
*
* If you are deriving from this class and override any testing related
* member functions , you should first call into the base ' s implementation to
* avoid breaking the tree construction .
*
* Due to the way this base functions , it has to expand assertions up - front ,
* even if they are later unused ( e . g . because the deriving reporter does
* not report successful assertions , or because the deriving reporter does
* not use assertion expansion at all ) . Derived classes can use two
* customization points , ` m_shouldStoreSuccesfulAssertions ` and
* ` m_shouldStoreFailedAssertions ` , to disable the expansion and gain extra
* performance . * * Accessing the assertion expansions if it wasn ' t stored is
* UB . * *
*/
class CumulativeReporterBase : public IStreamingReporter {
public :
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template < typename T , typename ChildNodeT >
struct Node {
explicit Node ( T const & _value ) : value ( _value ) { }
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using ChildNodes = std : : vector < Detail : : unique_ptr < ChildNodeT > > ;
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T value ;
ChildNodes children ;
} ;
struct SectionNode {
explicit SectionNode ( SectionStats const & _stats ) : stats ( _stats ) { }
bool operator = = ( SectionNode const & other ) const {
return stats . sectionInfo . lineInfo = = other . stats . sectionInfo . lineInfo ;
}
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bool hasAnyAssertions ( ) const ;
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SectionStats stats ;
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std : : vector < Detail : : unique_ptr < SectionNode > > childSections ;
std : : vector < Detail : : AssertionOrBenchmarkResult > assertionsAndBenchmarks ;
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std : : string stdOut ;
std : : string stdErr ;
} ;
using TestCaseNode = Node < TestCaseStats , SectionNode > ;
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using TestRunNode = Node < TestRunStats , TestCaseNode > ;
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CumulativeReporterBase ( ReporterConfig const & _config ) :
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IStreamingReporter ( _config . fullConfig ( ) ) ,
m_stream ( _config . stream ( ) ) { }
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~ CumulativeReporterBase ( ) override ;
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void benchmarkPreparing ( StringRef ) override { }
void benchmarkStarting ( BenchmarkInfo const & ) override { }
void benchmarkEnded ( BenchmarkStats < > const & benchmarkStats ) override ;
void benchmarkFailed ( StringRef ) override { }
void noMatchingTestCases ( StringRef ) override { }
void reportInvalidTestSpec ( StringRef ) override { }
void fatalErrorEncountered ( StringRef /*error*/ ) override { }
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void testRunStarting ( TestRunInfo const & ) override { }
void testCaseStarting ( TestCaseInfo const & ) override { }
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void testCasePartialStarting ( TestCaseInfo const & , uint64_t ) override { }
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void sectionStarting ( SectionInfo const & sectionInfo ) override ;
void assertionStarting ( AssertionInfo const & ) override { }
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void assertionEnded ( AssertionStats const & assertionStats ) override ;
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void sectionEnded ( SectionStats const & sectionStats ) override ;
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void testCasePartialEnded ( TestCaseStats const & , uint64_t ) override { }
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void testCaseEnded ( TestCaseStats const & testCaseStats ) override ;
void testRunEnded ( TestRunStats const & testRunStats ) override ;
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//! Customization point: called after last test finishes (testRunEnded has been handled)
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virtual void testRunEndedCumulative ( ) = 0 ;
void skipTest ( TestCaseInfo const & ) override { }
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void listReporters ( std : : vector < ReporterDescription > const & descriptions ) override ;
void listTests ( std : : vector < TestCaseHandle > const & tests ) override ;
void listTags ( std : : vector < TagInfo > const & tags ) override ;
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protected :
//! Should the cumulative base store the assertion expansion for succesful assertions?
bool m_shouldStoreSuccesfulAssertions = true ;
//! Should the cumulative base store the assertion expansion for failed assertions?
bool m_shouldStoreFailedAssertions = true ;
//! Stream to write the output to
std : : ostream & m_stream ;
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// We need lazy construction here. We should probably refactor it
// later, after the events are redone.
//! The root node of the test run tree.
Detail : : unique_ptr < TestRunNode > m_testRun ;
private :
// Note: We rely on pointer identity being stable, which is why
// we store pointers to the nodes rather than the values.
std : : vector < Detail : : unique_ptr < TestCaseNode > > m_testCases ;
// Root section of the _current_ test case
Detail : : unique_ptr < SectionNode > m_rootSection ;
// Deepest section of the _current_ test case
SectionNode * m_deepestSection = nullptr ;
// Stack of _active_ sections in the _current_ test case
std : : vector < SectionNode * > m_sectionStack ;
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} ;
} // end namespace Catch
# endif // CATCH_REPORTER_CUMULATIVE_BASE_HPP_INCLUDED
# ifndef CATCH_REPORTER_EVENT_LISTENER_HPP_INCLUDED
# define CATCH_REPORTER_EVENT_LISTENER_HPP_INCLUDED
namespace Catch {
/**
* Base class identifying listeners .
*
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* Provides empty default implementation for all IStreamingReporter member
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* functions , so that listeners implementations can pick which
* member functions it actually cares about .
*/
class EventListenerBase : public IStreamingReporter {
public :
EventListenerBase ( ReporterConfig const & config ) :
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IStreamingReporter ( config . fullConfig ( ) ) { }
void reportInvalidTestSpec ( StringRef unmatchedSpec ) override ;
void fatalErrorEncountered ( StringRef error ) override ;
void benchmarkPreparing ( StringRef name ) override ;
void benchmarkStarting ( BenchmarkInfo const & benchmarkInfo ) override ;
void benchmarkEnded ( BenchmarkStats < > const & benchmarkStats ) override ;
void benchmarkFailed ( StringRef error ) override ;
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void assertionStarting ( AssertionInfo const & assertionInfo ) override ;
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void assertionEnded ( AssertionStats const & assertionStats ) override ;
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void listReporters (
std : : vector < ReporterDescription > const & descriptions ) override ;
void listTests ( std : : vector < TestCaseHandle > const & tests ) override ;
void listTags ( std : : vector < TagInfo > const & tagInfos ) override ;
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void noMatchingTestCases ( StringRef unmatchedSpec ) override ;
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void testRunStarting ( TestRunInfo const & testRunInfo ) override ;
void testCaseStarting ( TestCaseInfo const & testInfo ) override ;
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void testCasePartialStarting ( TestCaseInfo const & testInfo ,
uint64_t partNumber ) override ;
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void sectionStarting ( SectionInfo const & sectionInfo ) override ;
void sectionEnded ( SectionStats const & sectionStats ) override ;
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void testCasePartialEnded ( TestCaseStats const & testCaseStats ,
uint64_t partNumber ) override ;
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void testCaseEnded ( TestCaseStats const & testCaseStats ) override ;
void testRunEnded ( TestRunStats const & testRunStats ) override ;
void skipTest ( TestCaseInfo const & testInfo ) override ;
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} ;
} // end namespace Catch
# endif // CATCH_REPORTER_EVENT_LISTENER_HPP_INCLUDED
# ifndef CATCH_REPORTER_HELPERS_HPP_INCLUDED
# define CATCH_REPORTER_HELPERS_HPP_INCLUDED
# include <iosfwd>
# include <string>
# include <vector>
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namespace Catch {
struct IConfig ;
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class TestCaseHandle ;
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// Returns double formatted as %.3f (format expected on output)
std : : string getFormattedDuration ( double duration ) ;
//! Should the reporter show duration of test given current configuration?
bool shouldShowDuration ( IConfig const & config , double duration ) ;
std : : string serializeFilters ( std : : vector < std : : string > const & filters ) ;
struct lineOfChars {
char c ;
constexpr lineOfChars ( char c_ ) : c ( c_ ) { }
friend std : : ostream & operator < < ( std : : ostream & out , lineOfChars value ) ;
} ;
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/**
* Lists reporter descriptions to the provided stream in user - friendly
* format
*
* Used as the default listing implementation by the first party reporter
* bases . The output should be backwards compatible with the output of
* Catch2 v2 binaries .
*/
void
defaultListReporters ( std : : ostream & out ,
std : : vector < ReporterDescription > const & descriptions ,
Verbosity verbosity ) ;
/**
* Lists tag information to the provided stream in user - friendly format
*
* Used as the default listing implementation by the first party reporter
* bases . The output should be backwards compatible with the output of
* Catch2 v2 binaries .
*/
void defaultListTags ( std : : ostream & out , std : : vector < TagInfo > const & tags , bool isFiltered ) ;
/**
* Lists test case information to the provided stream in user - friendly
* format
*
* Used as the default listing implementation by the first party reporter
* bases . The output is backwards compatible with the output of Catch2
* v2 binaries , and also supports the format specific to the old
* ` - - list - test - names - only ` option , for people who used it in integrations .
*/
void defaultListTests ( std : : ostream & out ,
std : : vector < TestCaseHandle > const & tests ,
bool isFiltered ,
Verbosity verbosity ) ;
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} // end namespace Catch
# endif // CATCH_REPORTER_HELPERS_HPP_INCLUDED
# ifndef CATCH_REPORTER_JUNIT_HPP_INCLUDED
# define CATCH_REPORTER_JUNIT_HPP_INCLUDED
namespace Catch {
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class JunitReporter final : public CumulativeReporterBase {
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public :
JunitReporter ( ReporterConfig const & _config ) ;
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~ JunitReporter ( ) override = default ;
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static std : : string getDescription ( ) ;
void testRunStarting ( TestRunInfo const & runInfo ) override ;
void testCaseStarting ( TestCaseInfo const & testCaseInfo ) override ;
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void assertionEnded ( AssertionStats const & assertionStats ) override ;
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void testCaseEnded ( TestCaseStats const & testCaseStats ) override ;
void testRunEndedCumulative ( ) override ;
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private :
void writeRun ( TestRunNode const & testRunNode , double suiteTime ) ;
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void writeTestCase ( TestCaseNode const & testCaseNode ) ;
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void writeSection ( std : : string const & className ,
std : : string const & rootName ,
SectionNode const & sectionNode ,
bool testOkToFail ) ;
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void writeAssertions ( SectionNode const & sectionNode ) ;
void writeAssertion ( AssertionStats const & stats ) ;
XmlWriter xml ;
Timer suiteTimer ;
std : : string stdOutForSuite ;
std : : string stdErrForSuite ;
unsigned int unexpectedExceptions = 0 ;
bool m_okToFail = false ;
} ;
} // end namespace Catch
# endif // CATCH_REPORTER_JUNIT_HPP_INCLUDED
# ifndef CATCH_REPORTER_LISTENING_HPP_INCLUDED
# define CATCH_REPORTER_LISTENING_HPP_INCLUDED
namespace Catch {
class ListeningReporter final : public IStreamingReporter {
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/*
* Stores all added reporters and listeners
*
* All Listeners are stored before all reporters , and individual
* listeners / reporters are stored in order of insertion .
*/
std : : vector < IStreamingReporterPtr > m_reporterLikes ;
bool m_haveNoncapturingReporters = false ;
// Keep track of how many listeners we have already inserted,
// so that we can insert them into the main vector at the right place
size_t m_insertedListeners = 0 ;
void updatePreferences ( IStreamingReporter const & reporterish ) ;
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public :
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ListeningReporter ( IConfig const * config ) :
IStreamingReporter ( config )
{ }
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void addListener ( IStreamingReporterPtr & & listener ) ;
void addReporter ( IStreamingReporterPtr & & reporter ) ;
public : // IStreamingReporter
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void noMatchingTestCases ( StringRef unmatchedSpec ) override ;
void fatalErrorEncountered ( StringRef error ) override ;
void reportInvalidTestSpec ( StringRef arg ) override ;
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void benchmarkPreparing ( StringRef name ) override ;
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void benchmarkStarting ( BenchmarkInfo const & benchmarkInfo ) override ;
void benchmarkEnded ( BenchmarkStats < > const & benchmarkStats ) override ;
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void benchmarkFailed ( StringRef error ) override ;
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void testRunStarting ( TestRunInfo const & testRunInfo ) override ;
void testCaseStarting ( TestCaseInfo const & testInfo ) override ;
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void testCasePartialStarting ( TestCaseInfo const & testInfo , uint64_t partNumber ) override ;
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void sectionStarting ( SectionInfo const & sectionInfo ) override ;
void assertionStarting ( AssertionInfo const & assertionInfo ) override ;
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void assertionEnded ( AssertionStats const & assertionStats ) override ;
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void sectionEnded ( SectionStats const & sectionStats ) override ;
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void testCasePartialEnded ( TestCaseStats const & testInfo , uint64_t partNumber ) override ;
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void testCaseEnded ( TestCaseStats const & testCaseStats ) override ;
void testRunEnded ( TestRunStats const & testRunStats ) override ;
void skipTest ( TestCaseInfo const & testInfo ) override ;
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void listReporters ( std : : vector < ReporterDescription > const & descriptions ) override ;
void listTests ( std : : vector < TestCaseHandle > const & tests ) override ;
void listTags ( std : : vector < TagInfo > const & tags ) override ;
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} ;
} // end namespace Catch
# endif // CATCH_REPORTER_LISTENING_HPP_INCLUDED
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# ifndef CATCH_REPORTER_REGISTRARS_HPP_INCLUDED
# define CATCH_REPORTER_REGISTRARS_HPP_INCLUDED
namespace Catch {
struct IStreamingReporter ;
using IStreamingReporterPtr = Detail : : unique_ptr < IStreamingReporter > ;
template < typename T >
class ReporterFactory : public IReporterFactory {
IStreamingReporterPtr create ( ReporterConfig const & config ) const override {
return Detail : : make_unique < T > ( config ) ;
}
std : : string getDescription ( ) const override {
return T : : getDescription ( ) ;
}
} ;
template < typename T >
class ReporterRegistrar {
public :
explicit ReporterRegistrar ( std : : string const & name ) {
getMutableRegistryHub ( ) . registerReporter ( name , Detail : : make_unique < ReporterFactory < T > > ( ) ) ;
}
} ;
template < typename T >
class ListenerRegistrar {
class ListenerFactory : public IReporterFactory {
IStreamingReporterPtr create ( ReporterConfig const & config ) const override {
return Detail : : make_unique < T > ( config ) ;
}
std : : string getDescription ( ) const override {
return std : : string ( ) ;
}
} ;
public :
ListenerRegistrar ( ) {
getMutableRegistryHub ( ) . registerListener ( Detail : : make_unique < ListenerFactory > ( ) ) ;
}
} ;
}
# if !defined(CATCH_CONFIG_DISABLE)
# define CATCH_REGISTER_REPORTER( name, reporterType ) \
CATCH_INTERNAL_START_WARNINGS_SUPPRESSION \
CATCH_INTERNAL_SUPPRESS_GLOBALS_WARNINGS \
namespace { Catch : : ReporterRegistrar < reporterType > catch_internal_RegistrarFor # # reporterType ( name ) ; } \
CATCH_INTERNAL_STOP_WARNINGS_SUPPRESSION
# define CATCH_REGISTER_LISTENER( listenerType ) \
CATCH_INTERNAL_START_WARNINGS_SUPPRESSION \
CATCH_INTERNAL_SUPPRESS_GLOBALS_WARNINGS \
namespace { Catch : : ListenerRegistrar < listenerType > catch_internal_RegistrarFor # # listenerType ; } \
CATCH_INTERNAL_STOP_WARNINGS_SUPPRESSION
# else // CATCH_CONFIG_DISABLE
# define CATCH_REGISTER_REPORTER(name, reporterType)
# define CATCH_REGISTER_LISTENER(listenerType)
# endif // CATCH_CONFIG_DISABLE
# endif // CATCH_REPORTER_REGISTRARS_HPP_INCLUDED
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# ifndef CATCH_REPORTER_SONARQUBE_HPP_INCLUDED
# define CATCH_REPORTER_SONARQUBE_HPP_INCLUDED
namespace Catch {
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struct SonarQubeReporter final : CumulativeReporterBase {
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SonarQubeReporter ( ReporterConfig const & config )
: CumulativeReporterBase ( config )
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, xml ( m_stream ) {
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m_preferences . shouldRedirectStdOut = true ;
m_preferences . shouldReportAllAssertions = true ;
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m_shouldStoreSuccesfulAssertions = false ;
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}
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~ SonarQubeReporter ( ) override = default ;
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static std : : string getDescription ( ) {
using namespace std : : string_literals ;
return " Reports test results in the Generic Test Data SonarQube XML format " s ;
}
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void testRunStarting ( TestRunInfo const & testRunInfo ) override ;
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void testRunEndedCumulative ( ) override {
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writeRun ( * m_testRun ) ;
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xml . endElement ( ) ;
}
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void writeRun ( TestRunNode const & groupNode ) ;
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void writeTestFile ( std : : string const & filename , std : : vector < TestCaseNode const * > const & testCaseNodes ) ;
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void writeTestCase ( TestCaseNode const & testCaseNode ) ;
void writeSection ( std : : string const & rootName , SectionNode const & sectionNode , bool okToFail ) ;
void writeAssertions ( SectionNode const & sectionNode , bool okToFail ) ;
void writeAssertion ( AssertionStats const & stats , bool okToFail ) ;
private :
XmlWriter xml ;
} ;
} // end namespace Catch
# endif // CATCH_REPORTER_SONARQUBE_HPP_INCLUDED
# ifndef CATCH_REPORTER_TAP_HPP_INCLUDED
# define CATCH_REPORTER_TAP_HPP_INCLUDED
namespace Catch {
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struct TAPReporter final : StreamingReporterBase {
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TAPReporter ( ReporterConfig const & config ) :
StreamingReporterBase ( config ) {
m_preferences . shouldReportAllAssertions = true ;
}
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~ TAPReporter ( ) override = default ;
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static std : : string getDescription ( ) {
using namespace std : : string_literals ;
return " Reports test results in TAP format, suitable for test harnesses " s ;
}
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void noMatchingTestCases ( StringRef unmatchedSpec ) override ;
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void assertionEnded ( AssertionStats const & _assertionStats ) override ;
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void testRunEnded ( TestRunStats const & _testRunStats ) override ;
private :
std : : size_t counter = 0 ;
} ;
} // end namespace Catch
# endif // CATCH_REPORTER_TAP_HPP_INCLUDED
# ifndef CATCH_REPORTER_TEAMCITY_HPP_INCLUDED
# define CATCH_REPORTER_TEAMCITY_HPP_INCLUDED
# include <cstring>
# ifdef __clang__
# pragma clang diagnostic push
# pragma clang diagnostic ignored "-Wpadded"
# endif
namespace Catch {
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struct TeamCityReporter final : StreamingReporterBase {
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TeamCityReporter ( ReporterConfig const & _config )
: StreamingReporterBase ( _config )
{
m_preferences . shouldRedirectStdOut = true ;
}
~ TeamCityReporter ( ) override ;
static std : : string getDescription ( ) {
using namespace std : : string_literals ;
return " Reports test results as TeamCity service messages " s ;
}
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void testRunStarting ( TestRunInfo const & groupInfo ) override ;
void testRunEnded ( TestRunStats const & testGroupStats ) override ;
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void assertionEnded ( AssertionStats const & assertionStats ) override ;
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void sectionStarting ( SectionInfo const & sectionInfo ) override {
m_headerPrintedForThisSection = false ;
StreamingReporterBase : : sectionStarting ( sectionInfo ) ;
}
void testCaseStarting ( TestCaseInfo const & testInfo ) override ;
void testCaseEnded ( TestCaseStats const & testCaseStats ) override ;
private :
void printSectionHeader ( std : : ostream & os ) ;
private :
bool m_headerPrintedForThisSection = false ;
Timer m_testTimer ;
} ;
} // end namespace Catch
# ifdef __clang__
# pragma clang diagnostic pop
# endif
# endif // CATCH_REPORTER_TEAMCITY_HPP_INCLUDED
# ifndef CATCH_REPORTER_XML_HPP_INCLUDED
# define CATCH_REPORTER_XML_HPP_INCLUDED
namespace Catch {
class XmlReporter : public StreamingReporterBase {
public :
XmlReporter ( ReporterConfig const & _config ) ;
~ XmlReporter ( ) override ;
static std : : string getDescription ( ) ;
virtual std : : string getStylesheetRef ( ) const ;
void writeSourceInfo ( SourceLineInfo const & sourceInfo ) ;
public : // StreamingReporterBase
void testRunStarting ( TestRunInfo const & testInfo ) override ;
void testCaseStarting ( TestCaseInfo const & testInfo ) override ;
void sectionStarting ( SectionInfo const & sectionInfo ) override ;
void assertionStarting ( AssertionInfo const & ) override ;
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void assertionEnded ( AssertionStats const & assertionStats ) override ;
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void sectionEnded ( SectionStats const & sectionStats ) override ;
void testCaseEnded ( TestCaseStats const & testCaseStats ) override ;
void testRunEnded ( TestRunStats const & testRunStats ) override ;
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void benchmarkPreparing ( StringRef name ) override ;
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void benchmarkStarting ( BenchmarkInfo const & ) override ;
void benchmarkEnded ( BenchmarkStats < > const & ) override ;
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void benchmarkFailed ( StringRef error ) override ;
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void listReporters ( std : : vector < ReporterDescription > const & descriptions ) override ;
void listTests ( std : : vector < TestCaseHandle > const & tests ) override ;
void listTags ( std : : vector < TagInfo > const & tags ) override ;
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private :
Timer m_testCaseTimer ;
XmlWriter m_xml ;
int m_sectionDepth = 0 ;
} ;
} // end namespace Catch
# endif // CATCH_REPORTER_XML_HPP_INCLUDED
# endif // CATCH_REPORTERS_ALL_HPP_INCLUDED
# endif // CATCH_ALL_HPP_INCLUDED
# endif // CATCH_AMALGAMATED_HPP_INCLUDED