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/*
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* Catch v2 .2 .2
* Generated : 2018 - 04 - 06 12 : 05 : 03.186665
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* - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
* This file has been merged from multiple headers . Please don ' t edit it directly
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* Copyright ( c ) 2018 Two Blue Cubes Ltd . All rights reserved .
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*
* Distributed under the Boost Software License , Version 1.0 . ( See accompanying
* file LICENSE_1_0 . txt or copy at http : //www.boost.org/LICENSE_1_0.txt)
*/
# ifndef TWOBLUECUBES_SINGLE_INCLUDE_CATCH_HPP_INCLUDED
# define TWOBLUECUBES_SINGLE_INCLUDE_CATCH_HPP_INCLUDED
// start catch.hpp
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# define CATCH_VERSION_MAJOR 2
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# define CATCH_VERSION_MINOR 2
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# define CATCH_VERSION_PATCH 2
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# ifdef __clang__
# pragma clang system_header
# elif defined __GNUC__
# pragma GCC system_header
# endif
// start catch_suppress_warnings.h
# ifdef __clang__
# ifdef __ICC // icpc defines the __clang__ macro
# pragma warning(push)
# pragma warning(disable: 161 1682)
# else // __ICC
# pragma clang diagnostic ignored "-Wunused-variable"
# pragma clang diagnostic push
# pragma clang diagnostic ignored "-Wpadded"
# pragma clang diagnostic ignored "-Wswitch-enum"
# pragma clang diagnostic ignored "-Wcovered-switch-default"
# endif
# elif defined __GNUC__
# pragma GCC diagnostic ignored "-Wparentheses"
# pragma GCC diagnostic push
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# pragma GCC diagnostic ignored "-Wunused-variable"
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# pragma GCC diagnostic ignored "-Wpadded"
# endif
// end catch_suppress_warnings.h
# if defined(CATCH_CONFIG_MAIN) || defined(CATCH_CONFIG_RUNNER)
# define CATCH_IMPL
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# define CATCH_CONFIG_ALL_PARTS
# endif
// In the impl file, we want to have access to all parts of the headers
// Can also be used to sanely support PCHs
# if defined(CATCH_CONFIG_ALL_PARTS)
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# define CATCH_CONFIG_EXTERNAL_INTERFACES
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# if defined(CATCH_CONFIG_DISABLE_MATCHERS)
# undef CATCH_CONFIG_DISABLE_MATCHERS
# endif
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# define CATCH_CONFIG_ENABLE_CHRONO_STRINGMAKER
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# endif
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# if !defined(CATCH_CONFIG_IMPL_ONLY)
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// start catch_platform.h
# ifdef __APPLE__
# include <TargetConditionals.h>
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# if TARGET_OS_OSX == 1
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# define CATCH_PLATFORM_MAC
# elif TARGET_OS_IPHONE == 1
# define CATCH_PLATFORM_IPHONE
# endif
# elif defined(linux) || defined(__linux) || defined(__linux__)
# define CATCH_PLATFORM_LINUX
# elif defined(WIN32) || defined(__WIN32__) || defined(_WIN32) || defined(_MSC_VER)
# define CATCH_PLATFORM_WINDOWS
# endif
// end catch_platform.h
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# ifdef CATCH_IMPL
# ifndef CLARA_CONFIG_MAIN
# define CLARA_CONFIG_MAIN_NOT_DEFINED
# define CLARA_CONFIG_MAIN
# endif
# endif
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// start catch_user_interfaces.h
namespace Catch {
unsigned int rngSeed ( ) ;
}
// end catch_user_interfaces.h
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// start catch_tag_alias_autoregistrar.h
// start catch_common.h
// start catch_compiler_capabilities.h
// Detect a number of compiler features - by compiler
// The following features are defined:
//
// CATCH_CONFIG_COUNTER : is the __COUNTER__ macro supported?
// CATCH_CONFIG_WINDOWS_SEH : is Windows SEH supported?
// CATCH_CONFIG_POSIX_SIGNALS : are POSIX signals supported?
// ****************
// 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.
# ifdef __cplusplus
# if __cplusplus >= 201402L
# define CATCH_CPP14_OR_GREATER
# endif
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# if __cplusplus >= 201703L
# define CATCH_CPP17_OR_GREATER
# endif
# endif
# if defined(CATCH_CPP17_OR_GREATER)
# define CATCH_INTERNAL_CONFIG_CPP17_UNCAUGHT_EXCEPTIONS
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# endif
# ifdef __clang__
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# define CATCH_INTERNAL_SUPPRESS_GLOBALS_WARNINGS \
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_Pragma ( " clang diagnostic push " ) \
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_Pragma ( " clang diagnostic ignored \" -Wexit-time-destructors \" " ) \
_Pragma ( " clang diagnostic ignored \" -Wglobal-constructors \" " )
# define CATCH_INTERNAL_UNSUPPRESS_GLOBALS_WARNINGS \
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_Pragma ( " clang diagnostic pop " )
# define CATCH_INTERNAL_SUPPRESS_PARENTHESES_WARNINGS \
_Pragma ( " clang diagnostic push " ) \
_Pragma ( " clang diagnostic ignored \" -Wparentheses \" " )
# define CATCH_INTERNAL_UNSUPPRESS_PARENTHESES_WARNINGS \
_Pragma ( " clang diagnostic pop " )
# endif // __clang__
////////////////////////////////////////////////////////////////////////////////
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// Assume that non-Windows platforms support posix signals by default
# if !defined(CATCH_PLATFORM_WINDOWS)
# define CATCH_INTERNAL_CONFIG_POSIX_SIGNALS
# endif
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////////////////////////////////////////////////////////////////////////////////
// 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
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# endif
# ifdef __OS400__
# define CATCH_INTERNAL_CONFIG_NO_POSIX_SIGNALS
# define CATCH_CONFIG_COLOUR_NONE
# 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
# endif // __CYGWIN__
////////////////////////////////////////////////////////////////////////////////
// Visual C++
# ifdef _MSC_VER
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# if _MSC_VER >= 1900 // Visual Studio 2015 or newer
# define CATCH_INTERNAL_CONFIG_CPP17_UNCAUGHT_EXCEPTIONS
# endif
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// Universal Windows platform does not support SEH
// Or console colours (or console at all...)
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# if defined(WINAPI_FAMILY) && (WINAPI_FAMILY == WINAPI_FAMILY_APP)
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# define CATCH_CONFIG_COLOUR_NONE
# else
# define CATCH_INTERNAL_CONFIG_WINDOWS_SEH
# endif
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# endif // _MSC_VER
////////////////////////////////////////////////////////////////////////////////
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// DJGPP
# ifdef __DJGPP__
# define CATCH_INTERNAL_CONFIG_NO_WCHAR
# endif // __DJGPP__
////////////////////////////////////////////////////////////////////////////////
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// Use of __COUNTER__ is suppressed during code analysis in
// CLion/AppCode 2017.2.x and former, because __COUNTER__ is not properly
// handled by it.
// Otherwise all supported compilers support COUNTER macro,
// but user still might want to turn it off
# if ( !defined(__JETBRAINS_IDE__) || __JETBRAINS_IDE__ >= 20170300L )
# define CATCH_INTERNAL_CONFIG_COUNTER
# endif
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# if defined(CATCH_INTERNAL_CONFIG_COUNTER) && !defined(CATCH_CONFIG_NO_COUNTER) && !defined(CATCH_CONFIG_COUNTER)
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# define CATCH_CONFIG_COUNTER
# endif
# if defined(CATCH_INTERNAL_CONFIG_WINDOWS_SEH) && !defined(CATCH_CONFIG_NO_WINDOWS_SEH) && !defined(CATCH_CONFIG_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.
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# 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)
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# define CATCH_CONFIG_POSIX_SIGNALS
# endif
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// This is set by default, because we assume that compilers with no wchar_t support are just rare exceptions.
# if !defined(CATCH_INTERNAL_CONFIG_NO_WCHAR) && !defined(CATCH_CONFIG_NO_WCHAR) && !defined(CATCH_CONFIG_WCHAR)
# define CATCH_CONFIG_WCHAR
# endif
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# if defined(CATCH_INTERNAL_CONFIG_CPP17_UNCAUGHT_EXCEPTIONS) && !defined(CATCH_CONFIG_NO_CPP17_UNCAUGHT_EXCEPTIONS) && !defined(CATCH_CONFIG_CPP17_UNCAUGHT_EXCEPTIONS)
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# define CATCH_CONFIG_CPP17_UNCAUGHT_EXCEPTIONS
# endif
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# if !defined(CATCH_INTERNAL_SUPPRESS_PARENTHESES_WARNINGS)
# define CATCH_INTERNAL_SUPPRESS_PARENTHESES_WARNINGS
# define CATCH_INTERNAL_UNSUPPRESS_PARENTHESES_WARNINGS
# endif
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# if !defined(CATCH_INTERNAL_SUPPRESS_GLOBALS_WARNINGS)
# define CATCH_INTERNAL_SUPPRESS_GLOBALS_WARNINGS
# define CATCH_INTERNAL_UNSUPPRESS_GLOBALS_WARNINGS
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# endif
// end catch_compiler_capabilities.h
# 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
# include <iosfwd>
# include <string>
# include <cstdint>
namespace Catch {
struct CaseSensitive { enum Choice {
Yes ,
No
} ; } ;
class NonCopyable {
NonCopyable ( NonCopyable const & ) = delete ;
NonCopyable ( NonCopyable & & ) = delete ;
NonCopyable & operator = ( NonCopyable const & ) = delete ;
NonCopyable & operator = ( NonCopyable & & ) = delete ;
protected :
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NonCopyable ( ) ;
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virtual ~ NonCopyable ( ) ;
} ;
struct SourceLineInfo {
SourceLineInfo ( ) = delete ;
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SourceLineInfo ( char const * _file , std : : size_t _line ) noexcept
: file ( _file ) ,
line ( _line )
{ }
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SourceLineInfo ( SourceLineInfo const & other ) = default ;
SourceLineInfo ( SourceLineInfo & & ) = default ;
SourceLineInfo & operator = ( SourceLineInfo const & ) = default ;
SourceLineInfo & operator = ( SourceLineInfo & & ) = default ;
bool empty ( ) const noexcept ;
bool operator = = ( SourceLineInfo const & other ) const noexcept ;
bool operator < ( SourceLineInfo const & other ) const noexcept ;
char const * file ;
std : : size_t line ;
} ;
std : : ostream & operator < < ( std : : ostream & os , SourceLineInfo const & info ) ;
// Use this in variadic streaming macros to allow
// >> +StreamEndStop
// as well as
// >> stuff +StreamEndStop
struct StreamEndStop {
std : : string operator + ( ) const ;
} ;
template < typename T >
T const & operator + ( T const & value , StreamEndStop ) {
return value ;
}
}
# define CATCH_INTERNAL_LINEINFO \
: : Catch : : SourceLineInfo ( __FILE__ , static_cast < std : : size_t > ( __LINE__ ) )
// end catch_common.h
namespace Catch {
struct RegistrarForTagAliases {
RegistrarForTagAliases ( char const * alias , char const * tag , SourceLineInfo const & lineInfo ) ;
} ;
} // end namespace Catch
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# define CATCH_REGISTER_TAG_ALIAS( alias, spec ) \
CATCH_INTERNAL_SUPPRESS_GLOBALS_WARNINGS \
namespace { Catch : : RegistrarForTagAliases INTERNAL_CATCH_UNIQUE_NAME ( AutoRegisterTagAlias ) ( alias , spec , CATCH_INTERNAL_LINEINFO ) ; } \
CATCH_INTERNAL_UNSUPPRESS_GLOBALS_WARNINGS
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// end catch_tag_alias_autoregistrar.h
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// start catch_test_registry.h
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// start catch_interfaces_testcase.h
# include <vector>
# include <memory>
namespace Catch {
class TestSpec ;
struct ITestInvoker {
virtual void invoke ( ) const = 0 ;
virtual ~ ITestInvoker ( ) ;
} ;
using ITestCasePtr = std : : shared_ptr < ITestInvoker > ;
class TestCase ;
struct IConfig ;
struct ITestCaseRegistry {
virtual ~ ITestCaseRegistry ( ) ;
virtual std : : vector < TestCase > const & getAllTests ( ) const = 0 ;
virtual std : : vector < TestCase > const & getAllTestsSorted ( IConfig const & config ) const = 0 ;
} ;
bool matchTest ( TestCase const & testCase , TestSpec const & testSpec , IConfig const & config ) ;
std : : vector < TestCase > filterTests ( std : : vector < TestCase > const & testCases , TestSpec const & testSpec , IConfig const & config ) ;
std : : vector < TestCase > const & getAllTestCasesSorted ( IConfig const & config ) ;
}
// end catch_interfaces_testcase.h
// start catch_stringref.h
# include <cstddef>
# include <string>
# include <iosfwd>
namespace Catch {
class StringData ;
/// 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. c_str() must return a null terminated
/// string, however, and so the StringRef will internally take ownership
/// (taking a copy), if necessary. In theory this ownership is not externally
/// visible - but it does mean (substring) StringRefs should not be shared between
/// threads.
class StringRef {
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public :
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using size_type = std : : size_t ;
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private :
friend struct StringRefTestAccess ;
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char const * m_start ;
size_type m_size ;
char * m_data = nullptr ;
void takeOwnership ( ) ;
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static constexpr char const * const s_empty = " " ;
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public : // construction/ assignment
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StringRef ( ) noexcept
: StringRef ( s_empty , 0 )
{ }
StringRef ( StringRef const & other ) noexcept
: m_start ( other . m_start ) ,
m_size ( other . m_size )
{ }
StringRef ( StringRef & & other ) noexcept
: m_start ( other . m_start ) ,
m_size ( other . m_size ) ,
m_data ( other . m_data )
{
other . m_data = nullptr ;
}
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StringRef ( char const * rawChars ) noexcept ;
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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 ( ) )
{ }
~ StringRef ( ) noexcept {
delete [ ] m_data ;
}
auto operator = ( StringRef const & other ) noexcept - > StringRef & {
delete [ ] m_data ;
m_data = nullptr ;
m_start = other . m_start ;
m_size = other . m_size ;
return * this ;
}
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operator std : : string ( ) const ;
void swap ( StringRef & other ) noexcept ;
public : // operators
auto operator = = ( StringRef const & other ) const noexcept - > bool ;
auto operator ! = ( StringRef const & other ) const noexcept - > bool ;
auto operator [ ] ( size_type index ) const noexcept - > char ;
public : // named queries
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auto empty ( ) const noexcept - > bool {
return m_size = = 0 ;
}
auto size ( ) const noexcept - > size_type {
return m_size ;
}
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auto numberOfCharacters ( ) const noexcept - > size_type ;
auto c_str ( ) const - > char const * ;
public : // substrings and searches
auto substr ( size_type start , size_type size ) const noexcept - > StringRef ;
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// Returns the current start pointer.
// Note that the pointer can change when if the StringRef is a substring
auto currentData ( ) const noexcept - > char const * ;
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private : // ownership queries - may not be consistent between calls
auto isOwned ( ) const noexcept - > bool ;
auto isSubstring ( ) const noexcept - > bool ;
} ;
auto operator + ( StringRef const & lhs , StringRef const & rhs ) - > std : : string ;
auto operator + ( StringRef const & lhs , char const * rhs ) - > std : : string ;
auto operator + ( char const * lhs , StringRef const & rhs ) - > std : : string ;
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auto operator + = ( std : : string & lhs , StringRef const & sr ) - > std : : string & ;
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auto operator < < ( std : : ostream & os , StringRef const & sr ) - > std : : ostream & ;
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inline auto operator " " _sr ( char const * rawChars , std : : size_t size ) noexcept - > StringRef {
return StringRef ( rawChars , size ) ;
}
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} // namespace Catch
// end catch_stringref.h
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 ) ( ) ;
}
} ;
auto makeTestInvoker ( void ( * testAsFunction ) ( ) ) noexcept - > ITestInvoker * ;
template < typename C >
auto makeTestInvoker ( void ( C : : * testAsMethod ) ( ) ) noexcept - > ITestInvoker * {
return new ( std : : nothrow ) TestInvokerAsMethod < C > ( testAsMethod ) ;
}
struct NameAndTags {
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NameAndTags ( StringRef const & name_ = StringRef ( ) , StringRef const & tags_ = StringRef ( ) ) noexcept ;
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StringRef name ;
StringRef tags ;
} ;
struct AutoReg : NonCopyable {
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AutoReg ( ITestInvoker * invoker , SourceLineInfo const & lineInfo , StringRef const & classOrMethod , NameAndTags const & nameAndTags ) noexcept ;
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~ AutoReg ( ) ;
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} ;
} // end namespace Catch
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# if defined(CATCH_CONFIG_DISABLE)
# define INTERNAL_CATCH_TESTCASE_NO_REGISTRATION( TestName, ... ) \
static void TestName ( )
# define INTERNAL_CATCH_TESTCASE_METHOD_NO_REGISTRATION( TestName, ClassName, ... ) \
namespace { \
struct TestName : ClassName { \
void test ( ) ; \
} ; \
} \
void TestName : : test ( )
# endif
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///////////////////////////////////////////////////////////////////////////////
# define INTERNAL_CATCH_TESTCASE2( TestName, ... ) \
static void TestName ( ) ; \
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CATCH_INTERNAL_SUPPRESS_GLOBALS_WARNINGS \
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namespace { Catch : : AutoReg INTERNAL_CATCH_UNIQUE_NAME ( autoRegistrar ) ( Catch : : makeTestInvoker ( & TestName ) , CATCH_INTERNAL_LINEINFO , " " , Catch : : NameAndTags { __VA_ARGS__ } ) ; } /* NOLINT */ \
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CATCH_INTERNAL_UNSUPPRESS_GLOBALS_WARNINGS \
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static void TestName ( )
# define INTERNAL_CATCH_TESTCASE( ... ) \
INTERNAL_CATCH_TESTCASE2 ( INTERNAL_CATCH_UNIQUE_NAME ( ____C_A_T_C_H____T_E_S_T____ ) , __VA_ARGS__ )
///////////////////////////////////////////////////////////////////////////////
# define INTERNAL_CATCH_METHOD_AS_TEST_CASE( QualifiedMethod, ... ) \
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CATCH_INTERNAL_SUPPRESS_GLOBALS_WARNINGS \
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namespace { Catch : : AutoReg INTERNAL_CATCH_UNIQUE_NAME ( autoRegistrar ) ( Catch : : makeTestInvoker ( & QualifiedMethod ) , CATCH_INTERNAL_LINEINFO , " & " # QualifiedMethod , Catch : : NameAndTags { __VA_ARGS__ } ) ; } /* NOLINT */ \
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CATCH_INTERNAL_UNSUPPRESS_GLOBALS_WARNINGS
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///////////////////////////////////////////////////////////////////////////////
# define INTERNAL_CATCH_TEST_CASE_METHOD2( TestName, ClassName, ... )\
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CATCH_INTERNAL_SUPPRESS_GLOBALS_WARNINGS \
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namespace { \
struct TestName : ClassName { \
void test ( ) ; \
} ; \
Catch : : AutoReg INTERNAL_CATCH_UNIQUE_NAME ( autoRegistrar ) ( Catch : : makeTestInvoker ( & TestName : : test ) , CATCH_INTERNAL_LINEINFO , # ClassName , Catch : : NameAndTags { __VA_ARGS__ } ) ; /* NOLINT */ \
} \
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CATCH_INTERNAL_UNSUPPRESS_GLOBALS_WARNINGS \
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void TestName : : test ( )
# define INTERNAL_CATCH_TEST_CASE_METHOD( ClassName, ... ) \
INTERNAL_CATCH_TEST_CASE_METHOD2 ( INTERNAL_CATCH_UNIQUE_NAME ( ____C_A_T_C_H____T_E_S_T____ ) , ClassName , __VA_ARGS__ )
///////////////////////////////////////////////////////////////////////////////
# define INTERNAL_CATCH_REGISTER_TESTCASE( Function, ... ) \
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CATCH_INTERNAL_SUPPRESS_GLOBALS_WARNINGS \
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Catch : : AutoReg INTERNAL_CATCH_UNIQUE_NAME ( autoRegistrar ) ( Catch : : makeTestInvoker ( Function ) , CATCH_INTERNAL_LINEINFO , " " , Catch : : NameAndTags { __VA_ARGS__ } ) ; /* NOLINT */ \
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CATCH_INTERNAL_UNSUPPRESS_GLOBALS_WARNINGS
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// end catch_test_registry.h
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// start catch_capture.hpp
// start catch_assertionhandler.h
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// start catch_assertioninfo.h
// start catch_result_type.h
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
// end catch_result_type.h
namespace Catch {
struct AssertionInfo
{
StringRef macroName ;
SourceLineInfo lineInfo ;
StringRef capturedExpression ;
ResultDisposition : : Flags resultDisposition ;
// We want to delete this constructor but a compiler bug in 4.8 means
// the struct is then treated as non-aggregate
//AssertionInfo() = delete;
} ;
} // end namespace Catch
// end catch_assertioninfo.h
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// start catch_decomposer.h
// start catch_tostring.h
# include <vector>
# include <cstddef>
# include <type_traits>
# include <string>
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// start catch_stream.h
# include <iosfwd>
# include <cstddef>
# include <ostream>
namespace Catch {
std : : ostream & cout ( ) ;
std : : ostream & cerr ( ) ;
std : : ostream & clog ( ) ;
class StringRef ;
struct IStream {
virtual ~ IStream ( ) ;
virtual std : : ostream & stream ( ) const = 0 ;
} ;
auto makeStream ( StringRef const & filename ) - > IStream const * ;
class ReusableStringStream {
std : : size_t m_index ;
std : : ostream * m_oss ;
public :
ReusableStringStream ( ) ;
~ ReusableStringStream ( ) ;
auto str ( ) const - > std : : string ;
template < typename T >
auto operator < < ( T const & value ) - > ReusableStringStream & {
* m_oss < < value ;
return * this ;
}
auto get ( ) - > std : : ostream & { return * m_oss ; }
static void cleanup ( ) ;
} ;
}
// end catch_stream.h
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# ifdef __OBJC__
// start catch_objc_arc.hpp
# import <Foundation / Foundation.h>
# ifdef __has_feature
# define CATCH_ARC_ENABLED __has_feature(objc_arc)
# else
# define CATCH_ARC_ENABLED 0
# endif
void arcSafeRelease ( NSObject * obj ) ;
id performOptionalSelector ( id obj , SEL sel ) ;
# if !CATCH_ARC_ENABLED
inline void arcSafeRelease ( NSObject * obj ) {
[ obj release ] ;
}
inline id performOptionalSelector ( id obj , SEL sel ) {
if ( [ obj respondsToSelector : sel ] )
return [ obj performSelector : sel ] ;
return nil ;
}
# define CATCH_UNSAFE_UNRETAINED
# define CATCH_ARC_STRONG
# else
inline void arcSafeRelease ( NSObject * ) { }
inline id performOptionalSelector ( id obj , SEL sel ) {
# ifdef __clang__
# pragma clang diagnostic push
# pragma clang diagnostic ignored "-Warc-performSelector-leaks"
# endif
if ( [ obj respondsToSelector : sel ] )
return [ obj performSelector : sel ] ;
# ifdef __clang__
# pragma clang diagnostic pop
# endif
return nil ;
}
# define CATCH_UNSAFE_UNRETAINED __unsafe_unretained
# define CATCH_ARC_STRONG __strong
# endif
// end catch_objc_arc.hpp
# endif
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# 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
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struct Catch_global_namespace_dummy { } ;
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std : : ostream & operator < < ( std : : ostream & , Catch_global_namespace_dummy ) ;
namespace Catch {
// Bring in operator<< from global namespace into Catch namespace
using : : operator < < ;
namespace Detail {
extern const std : : string unprintableString ;
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 SS , typename TT >
static auto test ( int )
- > decltype ( std : : declval < SS & > ( ) < < std : : declval < TT > ( ) , 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 ;
} ;
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template < typename E >
std : : string convertUnknownEnumToString ( E e ) ;
template < typename T >
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typename std : : enable_if < ! std : : is_enum < T > : : value , std : : string > : : type convertUnstreamable ( T const & value ) {
# if !defined(CATCH_CONFIG_FALLBACK_STRINGIFIER)
( void ) value ;
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return Detail : : unprintableString ;
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# else
return CATCH_CONFIG_FALLBACK_STRINGIFIER ( value ) ;
# endif
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}
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template < typename T >
typename std : : enable_if < std : : is_enum < T > : : value , std : : string > : : type convertUnstreamable ( T const & value ) {
return convertUnknownEnumToString ( value ) ;
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}
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# 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
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} // namespace Detail
// If we decide for C++14, change these to enable_if_ts
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template < typename T , typename = void >
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struct StringMaker {
template < typename Fake = T >
static
typename std : : enable_if < : : Catch : : Detail : : IsStreamInsertable < Fake > : : value , std : : string > : : type
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convert ( const Fake & value ) {
ReusableStringStream rss ;
rss < < value ;
return rss . str ( ) ;
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}
template < typename Fake = T >
static
typename std : : enable_if < ! : : Catch : : Detail : : IsStreamInsertable < Fake > : : value , std : : string > : : type
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convert ( const Fake & value ) {
return Detail : : convertUnstreamable ( value ) ;
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}
} ;
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 < typename std : : remove_cv < typename std : : remove_reference < T > : : type > : : type > : : convert ( e ) ;
}
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template < typename E >
std : : string convertUnknownEnumToString ( E e ) {
return : : Catch : : Detail : : stringify ( static_cast < typename std : : underlying_type < E > : : type > ( e ) ) ;
}
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# if defined(_MANAGED)
template < typename T >
std : : string stringify ( T ^ e ) {
return : : Catch : : StringMaker < T ^ > : : convert ( e ) ;
}
# endif
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} // namespace Detail
// Some predefined specializations
template < >
struct StringMaker < std : : string > {
static std : : string convert ( const std : : string & str ) ;
} ;
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# ifdef CATCH_CONFIG_WCHAR
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template < >
struct StringMaker < std : : wstring > {
static std : : string convert ( const std : : wstring & wstr ) ;
} ;
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# endif
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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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# ifdef CATCH_CONFIG_WCHAR
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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
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// TBD: Should we use `strnlen` to ensure that we don't go out of the buffer,
// while keeping string semantics?
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template < int SZ >
struct StringMaker < char [ SZ ] > {
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static std : : string convert ( char const * str ) {
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return : : Catch : : Detail : : stringify ( std : : string { str } ) ;
}
} ;
template < int SZ >
struct StringMaker < signed char [ SZ ] > {
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static std : : string convert ( signed char const * str ) {
return : : Catch : : Detail : : stringify ( std : : string { reinterpret_cast < char const * > ( str ) } ) ;
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}
} ;
template < int SZ >
struct StringMaker < unsigned char [ SZ ] > {
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static std : : string convert ( unsigned char const * str ) {
return : : Catch : : Detail : : stringify ( std : : string { reinterpret_cast < char const * > ( str ) } ) ;
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}
} ;
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 ) ;
} ;
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 ) ;
} ;
template < >
struct StringMaker < float > {
static std : : string convert ( float value ) ;
} ;
template < >
struct StringMaker < double > {
static std : : string convert ( double value ) ;
} ;
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 " ;
}
}
} ;
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# if defined(_MANAGED)
template < typename T >
struct StringMaker < T ^ > {
static std : : string convert ( T ^ ref ) {
return : : Catch : : Detail : : clrReferenceToString ( ref ) ;
}
} ;
# endif
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namespace Detail {
template < typename InputIterator >
std : : string rangeToString ( InputIterator first , InputIterator last ) {
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ReusableStringStream rss ;
rss < < " { " ;
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if ( first ! = last ) {
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rss < < : : Catch : : Detail : : stringify ( * first ) ;
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for ( + + first ; first ! = last ; + + first )
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rss < < " , " < < : : Catch : : Detail : : stringify ( * first ) ;
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}
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rss < < " } " ;
return rss . str ( ) ;
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}
}
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# ifdef __OBJC__
template < >
struct StringMaker < NSString * > {
static std : : string convert ( NSString * nsstring ) {
if ( ! nsstring )
return " nil " ;
return std : : string ( " @ " ) + [ nsstring UTF8String ] ;
}
} ;
template < >
struct StringMaker < NSObject * > {
static std : : string convert ( NSObject * nsObject ) {
return : : Catch : : Detail : : stringify ( [ nsObject description ] ) ;
}
} ;
namespace Detail {
inline std : : string stringify ( NSString * nsstring ) {
return StringMaker < NSString * > : : convert ( nsstring ) ;
}
} // namespace Detail
# endif // __OBJC__
} // namespace Catch
//////////////////////////////////////////////////////
// Separate std-lib types stringification, so it can be selectively enabled
// This means that we do not bring in
# if defined(CATCH_CONFIG_ENABLE_ALL_STRINGMAKERS)
# define CATCH_CONFIG_ENABLE_PAIR_STRINGMAKER
# define CATCH_CONFIG_ENABLE_TUPLE_STRINGMAKER
# define CATCH_CONFIG_ENABLE_CHRONO_STRINGMAKER
# endif
// Separate std::pair specialization
# if defined(CATCH_CONFIG_ENABLE_PAIR_STRINGMAKER)
# include <utility>
namespace Catch {
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template < typename T1 , typename T2 >
struct StringMaker < std : : pair < T1 , T2 > > {
static std : : string convert ( const std : : pair < T1 , T2 > & pair ) {
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ReusableStringStream rss ;
rss < < " { "
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< < : : Catch : : Detail : : stringify ( pair . first )
< < " , "
< < : : Catch : : Detail : : stringify ( pair . second )
< < " } " ;
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return rss . str ( ) ;
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}
} ;
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}
# endif // CATCH_CONFIG_ENABLE_PAIR_STRINGMAKER
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// Separate std::tuple specialization
# if defined(CATCH_CONFIG_ENABLE_TUPLE_STRINGMAKER)
# include <tuple>
namespace Catch {
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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 ) {
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ReusableStringStream rss ;
rss < < ' { ' ;
Detail : : TupleElementPrinter < std : : tuple < Types . . . > > : : print ( tuple , rss . get ( ) ) ;
rss < < " } " ;
return rss . str ( ) ;
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}
} ;
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}
# endif // CATCH_CONFIG_ENABLE_TUPLE_STRINGMAKER
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namespace Catch {
struct not_this_one { } ; // Tag type for detecting which begin/ end are being selected
// Import begin/ end from std here so they are considered alongside the fallback (...) overloads in this namespace
using std : : begin ;
using std : : end ;
not_this_one begin ( . . . ) ;
not_this_one end ( . . . ) ;
template < typename T >
struct is_range {
static const bool value =
! std : : is_same < decltype ( begin ( std : : declval < T > ( ) ) ) , not_this_one > : : value & &
! std : : is_same < decltype ( end ( std : : declval < T > ( ) ) ) , not_this_one > : : value ;
} ;
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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
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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 >
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struct StringMaker < R , typename std : : enable_if < is_range < R > : : value & & ! : : Catch : : Detail : : IsStreamInsertable < R > : : value > : : type > {
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static std : : string convert ( R const & range ) {
return rangeToString ( range ) ;
}
} ;
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template < typename T , int SZ >
struct StringMaker < T [ SZ ] > {
static std : : string convert ( T const ( & arr ) [ SZ ] ) {
return rangeToString ( arr ) ;
}
} ;
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} // namespace Catch
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// Separate std::chrono::duration specialization
# if defined(CATCH_CONFIG_ENABLE_CHRONO_STRINGMAKER)
# include <ctime>
# include <ratio>
# include <chrono>
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namespace Catch {
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template < class Ratio >
struct ratio_string {
static std : : string symbol ( ) ;
} ;
template < class Ratio >
std : : string ratio_string < Ratio > : : symbol ( ) {
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Catch : : ReusableStringStream rss ;
rss < < ' [ ' < < Ratio : : num < < ' / '
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< < Ratio : : den < < ' ] ' ;
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return rss . str ( ) ;
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}
template < >
struct ratio_string < std : : atto > {
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static std : : string symbol ( ) ;
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} ;
template < >
struct ratio_string < std : : femto > {
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static std : : string symbol ( ) ;
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} ;
template < >
struct ratio_string < std : : pico > {
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static std : : string symbol ( ) ;
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} ;
template < >
struct ratio_string < std : : nano > {
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static std : : string symbol ( ) ;
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} ;
template < >
struct ratio_string < std : : micro > {
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static std : : string symbol ( ) ;
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} ;
template < >
struct ratio_string < std : : milli > {
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static std : : string symbol ( ) ;
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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 ) {
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ReusableStringStream rss ;
rss < < duration . count ( ) < < ' ' < < ratio_string < Ratio > : : symbol ( ) < < ' s ' ;
return rss . str ( ) ;
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}
} ;
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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 ) {
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ReusableStringStream rss ;
rss < < duration . count ( ) < < " s " ;
return rss . str ( ) ;
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}
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} ;
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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 ) {
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ReusableStringStream rss ;
rss < < duration . count ( ) < < " m " ;
return rss . str ( ) ;
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}
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} ;
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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 ) {
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ReusableStringStream rss ;
rss < < duration . count ( ) < < " h " ;
return rss . str ( ) ;
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}
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} ;
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////////////
// 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 ) ;
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# 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
return std : : string ( timeStamp ) ;
}
} ;
}
# endif // CATCH_CONFIG_ENABLE_CHRONO_STRINGMAKER
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# ifdef _MSC_VER
# pragma warning(pop)
# endif
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// end catch_tostring.h
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# include <iosfwd>
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# 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)
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# pragma warning(disable:4180) // qualifier applied to function type has no meaning
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# endif
namespace Catch {
struct ITransientExpression {
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auto isBinaryExpression ( ) const - > bool { return m_isBinaryExpression ; }
auto getResult ( ) const - > bool { return m_result ; }
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virtual void streamReconstructedExpression ( std : : ostream & os ) const = 0 ;
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ITransientExpression ( bool isBinaryExpression , bool result )
: m_isBinaryExpression ( isBinaryExpression ) ,
m_result ( result )
{ }
// We don't actually need a virtual destructor, but many static analysers
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// complain if it's not here :-(
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virtual ~ ITransientExpression ( ) ;
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bool m_isBinaryExpression ;
bool m_result ;
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} ;
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void formatReconstructedExpression ( std : : ostream & os , std : : string const & lhs , StringRef op , std : : string const & rhs ) ;
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template < typename LhsT , typename RhsT >
class BinaryExpr : public ITransientExpression {
LhsT m_lhs ;
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StringRef m_op ;
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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 :
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BinaryExpr ( bool comparisonResult , LhsT lhs , StringRef op , RhsT rhs )
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: ITransientExpression { true , comparisonResult } ,
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m_lhs ( lhs ) ,
m_op ( op ) ,
m_rhs ( rhs )
{ }
} ;
template < typename LhsT >
class UnaryExpr : public ITransientExpression {
LhsT m_lhs ;
void streamReconstructedExpression ( std : : ostream & os ) const override {
os < < Catch : : Detail : : stringify ( m_lhs ) ;
}
public :
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explicit UnaryExpr ( LhsT lhs )
: ITransientExpression { false , lhs ? true : false } ,
m_lhs ( lhs )
{ }
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} ;
// Specialised comparison functions to handle equality comparisons between ints and pointers (NULL deduces as an int)
template < typename LhsT , typename RhsT >
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auto compareEqual ( LhsT const & lhs , RhsT const & rhs ) - > bool { return static_cast < bool > ( lhs = = rhs ) ; }
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template < typename T >
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auto compareEqual ( T * const & lhs , int rhs ) - > bool { return lhs = = reinterpret_cast < void const * > ( rhs ) ; }
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template < typename T >
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auto compareEqual ( T * const & lhs , long rhs ) - > bool { return lhs = = reinterpret_cast < void const * > ( rhs ) ; }
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template < typename T >
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auto compareEqual ( int lhs , T * const & rhs ) - > bool { return reinterpret_cast < void const * > ( lhs ) = = rhs ; }
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template < typename T >
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auto compareEqual ( long lhs , T * const & rhs ) - > bool { return reinterpret_cast < void const * > ( lhs ) = = rhs ; }
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template < typename LhsT , typename RhsT >
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auto compareNotEqual ( LhsT const & lhs , RhsT & & rhs ) - > bool { return static_cast < bool > ( lhs ! = rhs ) ; }
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template < typename T >
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auto compareNotEqual ( T * const & lhs , int rhs ) - > bool { return lhs ! = reinterpret_cast < void const * > ( rhs ) ; }
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template < typename T >
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auto compareNotEqual ( T * const & lhs , long rhs ) - > bool { return lhs ! = reinterpret_cast < void const * > ( rhs ) ; }
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template < typename T >
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auto compareNotEqual ( int lhs , T * const & rhs ) - > bool { return reinterpret_cast < void const * > ( lhs ) ! = rhs ; }
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template < typename T >
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auto compareNotEqual ( long lhs , T * const & rhs ) - > bool { return reinterpret_cast < void const * > ( lhs ) ! = rhs ; }
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template < typename LhsT >
class ExprLhs {
LhsT m_lhs ;
public :
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explicit ExprLhs ( LhsT lhs ) : m_lhs ( lhs ) { }
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template < typename RhsT >
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auto operator = = ( RhsT const & rhs ) - > BinaryExpr < LhsT , RhsT const & > const {
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return { compareEqual ( m_lhs , rhs ) , m_lhs , " == " , rhs } ;
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}
auto operator = = ( bool rhs ) - > BinaryExpr < LhsT , bool > const {
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return { m_lhs = = rhs , m_lhs , " == " , rhs } ;
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}
template < typename RhsT >
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auto operator ! = ( RhsT const & rhs ) - > BinaryExpr < LhsT , RhsT const & > const {
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return { compareNotEqual ( m_lhs , rhs ) , m_lhs , " != " , rhs } ;
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}
auto operator ! = ( bool rhs ) - > BinaryExpr < LhsT , bool > const {
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return { m_lhs ! = rhs , m_lhs , " != " , rhs } ;
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}
template < typename RhsT >
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auto operator > ( RhsT const & rhs ) - > BinaryExpr < LhsT , RhsT const & > const {
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return { static_cast < bool > ( m_lhs > rhs ) , m_lhs , " > " , rhs } ;
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}
template < typename RhsT >
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auto operator < ( RhsT const & rhs ) - > BinaryExpr < LhsT , RhsT const & > const {
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return { static_cast < bool > ( m_lhs < rhs ) , m_lhs , " < " , rhs } ;
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}
template < typename RhsT >
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auto operator > = ( RhsT const & rhs ) - > BinaryExpr < LhsT , RhsT const & > const {
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return { static_cast < bool > ( m_lhs > = rhs ) , m_lhs , " >= " , rhs } ;
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}
template < typename RhsT >
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auto operator < = ( RhsT const & rhs ) - > BinaryExpr < LhsT , RhsT const & > const {
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return { static_cast < bool > ( m_lhs < = rhs ) , m_lhs , " <= " , rhs } ;
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}
auto makeUnaryExpr ( ) const - > UnaryExpr < LhsT > {
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return UnaryExpr < LhsT > { m_lhs } ;
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}
} ;
void handleExpression ( ITransientExpression const & expr ) ;
template < typename T >
void handleExpression ( ExprLhs < T > const & expr ) {
handleExpression ( expr . makeUnaryExpr ( ) ) ;
}
struct Decomposer {
template < typename T >
auto operator < = ( T const & lhs ) - > ExprLhs < T const & > {
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return ExprLhs < T const & > { lhs } ;
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}
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auto operator < = ( bool value ) - > ExprLhs < bool > {
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return ExprLhs < bool > { value } ;
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}
} ;
} // end namespace Catch
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# ifdef _MSC_VER
# pragma warning(pop)
# endif
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// end catch_decomposer.h
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// start catch_interfaces_capture.h
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# include <string>
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namespace Catch {
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class AssertionResult ;
struct AssertionInfo ;
struct SectionInfo ;
struct SectionEndInfo ;
struct MessageInfo ;
struct Counts ;
struct BenchmarkInfo ;
struct BenchmarkStats ;
struct AssertionReaction ;
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struct ITransientExpression ;
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struct IResultCapture {
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virtual ~ IResultCapture ( ) ;
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virtual bool sectionStarted ( SectionInfo const & sectionInfo ,
Counts & assertions ) = 0 ;
virtual void sectionEnded ( SectionEndInfo const & endInfo ) = 0 ;
virtual void sectionEndedEarly ( SectionEndInfo const & endInfo ) = 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 pushScopedMessage ( MessageInfo const & message ) = 0 ;
virtual void popScopedMessage ( MessageInfo const & message ) = 0 ;
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virtual void handleFatalErrorCondition ( StringRef message ) = 0 ;
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virtual void handleExpr
( AssertionInfo const & info ,
ITransientExpression const & expr ,
AssertionReaction & reaction ) = 0 ;
virtual void handleMessage
( AssertionInfo const & info ,
ResultWas : : OfType resultType ,
StringRef const & message ,
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 ;
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virtual bool lastAssertionPassed ( ) = 0 ;
virtual void assertionPassed ( ) = 0 ;
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// Deprecated, do not use:
virtual std : : string getCurrentTestName ( ) const = 0 ;
virtual const AssertionResult * getLastResult ( ) const = 0 ;
virtual void exceptionEarlyReported ( ) = 0 ;
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} ;
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IResultCapture & getResultCapture ( ) ;
}
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// end catch_interfaces_capture.h
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namespace Catch {
struct TestFailureException { } ;
struct AssertionResultData ;
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struct IResultCapture ;
class RunContext ;
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class LazyExpression {
friend class AssertionHandler ;
friend struct AssertionStats ;
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friend class RunContext ;
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ITransientExpression const * m_transientExpression = nullptr ;
bool m_isNegated ;
public :
LazyExpression ( bool isNegated ) ;
LazyExpression ( LazyExpression const & other ) ;
LazyExpression & operator = ( LazyExpression const & ) = delete ;
explicit operator bool ( ) const ;
friend auto operator < < ( std : : ostream & os , LazyExpression const & lazyExpr ) - > std : : ostream & ;
} ;
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struct AssertionReaction {
bool shouldDebugBreak = false ;
bool shouldThrow = false ;
} ;
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class AssertionHandler {
AssertionInfo m_assertionInfo ;
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AssertionReaction m_reaction ;
bool m_completed = false ;
IResultCapture & m_resultCapture ;
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public :
AssertionHandler
( StringRef macroName ,
SourceLineInfo const & lineInfo ,
StringRef capturedExpression ,
ResultDisposition : : Flags resultDisposition ) ;
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~ AssertionHandler ( ) {
if ( ! m_completed ) {
m_resultCapture . handleIncomplete ( m_assertionInfo ) ;
}
}
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template < typename T >
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void handleExpr ( ExprLhs < T > const & expr ) {
handleExpr ( expr . makeUnaryExpr ( ) ) ;
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}
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void handleExpr ( ITransientExpression const & expr ) ;
void handleMessage ( ResultWas : : OfType resultType , StringRef const & message ) ;
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void handleExceptionThrownAsExpected ( ) ;
void handleUnexpectedExceptionNotThrown ( ) ;
void handleExceptionNotThrownAsExpected ( ) ;
void handleThrowingCallSkipped ( ) ;
void handleUnexpectedInflightException ( ) ;
void complete ( ) ;
void setCompleted ( ) ;
// query
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auto allowThrows ( ) const - > bool ;
} ;
void handleExceptionMatchExpr ( AssertionHandler & handler , std : : string const & str , StringRef matcherString ) ;
} // namespace Catch
// end catch_assertionhandler.h
// start catch_message.h
# include <string>
namespace Catch {
struct MessageInfo {
MessageInfo ( std : : string const & _macroName ,
SourceLineInfo const & _lineInfo ,
ResultWas : : OfType _type ) ;
std : : string macroName ;
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std : : string message ;
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SourceLineInfo lineInfo ;
ResultWas : : OfType type ;
unsigned int sequence ;
bool operator = = ( MessageInfo const & other ) const ;
bool operator < ( MessageInfo const & other ) const ;
private :
static unsigned int globalCount ;
} ;
struct MessageStream {
template < typename T >
MessageStream & operator < < ( T const & value ) {
m_stream < < value ;
return * this ;
}
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ReusableStringStream m_stream ;
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} ;
struct MessageBuilder : MessageStream {
MessageBuilder ( std : : string const & macroName ,
SourceLineInfo const & lineInfo ,
ResultWas : : OfType type ) ;
template < typename T >
MessageBuilder & operator < < ( T const & value ) {
m_stream < < value ;
return * this ;
}
MessageInfo m_info ;
} ;
class ScopedMessage {
public :
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explicit ScopedMessage ( MessageBuilder const & builder ) ;
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~ ScopedMessage ( ) ;
MessageInfo m_info ;
} ;
} // end namespace Catch
// end catch_message.h
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# 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)
///////////////////////////////////////////////////////////////////////////////
// Another way to speed-up compilation is to omit local try-catch for REQUIRE*
// macros.
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# define INTERNAL_CATCH_TRY
# define INTERNAL_CATCH_CATCH( capturer )
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# else // CATCH_CONFIG_FAST_COMPILE
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# define INTERNAL_CATCH_TRY try
# define INTERNAL_CATCH_CATCH( handler ) catch(...) { handler.handleUnexpectedInflightException(); }
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# endif
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# define INTERNAL_CATCH_REACT( handler ) handler.complete();
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///////////////////////////////////////////////////////////////////////////////
# define INTERNAL_CATCH_TEST( macroName, resultDisposition, ... ) \
do { \
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Catch : : AssertionHandler catchAssertionHandler ( macroName , CATCH_INTERNAL_LINEINFO , CATCH_INTERNAL_STRINGIFY ( __VA_ARGS__ ) , resultDisposition ) ; \
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INTERNAL_CATCH_TRY { \
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CATCH_INTERNAL_SUPPRESS_PARENTHESES_WARNINGS \
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catchAssertionHandler . handleExpr ( Catch : : Decomposer ( ) < = __VA_ARGS__ ) ; \
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CATCH_INTERNAL_UNSUPPRESS_PARENTHESES_WARNINGS \
} INTERNAL_CATCH_CATCH ( catchAssertionHandler ) \
INTERNAL_CATCH_REACT ( catchAssertionHandler ) \
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} while ( ( void ) 0 , false & & static_cast < bool > ( ! ! ( __VA_ARGS__ ) ) ) // the expression here is never evaluated at runtime but it forces the compiler to give it a look
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// The double negation silences MSVC's C4800 warning, the static_cast forces short-circuit evaluation if the type has overloaded &&.
///////////////////////////////////////////////////////////////////////////////
# 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 { \
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Catch : : AssertionHandler catchAssertionHandler ( macroName , CATCH_INTERNAL_LINEINFO , CATCH_INTERNAL_STRINGIFY ( __VA_ARGS__ ) , resultDisposition ) ; \
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try { \
static_cast < void > ( __VA_ARGS__ ) ; \
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catchAssertionHandler . handleExceptionNotThrownAsExpected ( ) ; \
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} \
catch ( . . . ) { \
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catchAssertionHandler . handleUnexpectedInflightException ( ) ; \
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} \
INTERNAL_CATCH_REACT ( catchAssertionHandler ) \
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} while ( false )
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///////////////////////////////////////////////////////////////////////////////
# define INTERNAL_CATCH_THROWS( macroName, resultDisposition, ... ) \
do { \
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Catch : : AssertionHandler catchAssertionHandler ( macroName , CATCH_INTERNAL_LINEINFO , CATCH_INTERNAL_STRINGIFY ( __VA_ARGS__ ) , resultDisposition ) ; \
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if ( catchAssertionHandler . allowThrows ( ) ) \
try { \
static_cast < void > ( __VA_ARGS__ ) ; \
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catchAssertionHandler . handleUnexpectedExceptionNotThrown ( ) ; \
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} \
catch ( . . . ) { \
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catchAssertionHandler . handleExceptionThrownAsExpected ( ) ; \
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} \
else \
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catchAssertionHandler . handleThrowingCallSkipped ( ) ; \
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INTERNAL_CATCH_REACT ( catchAssertionHandler ) \
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} while ( false )
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///////////////////////////////////////////////////////////////////////////////
# define INTERNAL_CATCH_THROWS_AS( macroName, exceptionType, resultDisposition, expr ) \
do { \
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Catch : : AssertionHandler catchAssertionHandler ( macroName , CATCH_INTERNAL_LINEINFO , CATCH_INTERNAL_STRINGIFY ( expr ) " , " CATCH_INTERNAL_STRINGIFY ( exceptionType ) , resultDisposition ) ; \
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if ( catchAssertionHandler . allowThrows ( ) ) \
try { \
static_cast < void > ( expr ) ; \
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catchAssertionHandler . handleUnexpectedExceptionNotThrown ( ) ; \
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} \
catch ( exceptionType const & ) { \
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catchAssertionHandler . handleExceptionThrownAsExpected ( ) ; \
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} \
catch ( . . . ) { \
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catchAssertionHandler . handleUnexpectedInflightException ( ) ; \
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} \
else \
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catchAssertionHandler . handleThrowingCallSkipped ( ) ; \
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INTERNAL_CATCH_REACT ( catchAssertionHandler ) \
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} while ( false )
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///////////////////////////////////////////////////////////////////////////////
# define INTERNAL_CATCH_MSG( macroName, messageType, resultDisposition, ... ) \
do { \
Catch : : AssertionHandler catchAssertionHandler ( macroName , CATCH_INTERNAL_LINEINFO , " " , resultDisposition ) ; \
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catchAssertionHandler . handleMessage ( messageType , ( Catch : : MessageStream ( ) < < __VA_ARGS__ + : : Catch : : StreamEndStop ( ) ) . m_stream . str ( ) ) ; \
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INTERNAL_CATCH_REACT ( catchAssertionHandler ) \
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} while ( false )
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///////////////////////////////////////////////////////////////////////////////
# define INTERNAL_CATCH_INFO( macroName, log ) \
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Catch : : ScopedMessage INTERNAL_CATCH_UNIQUE_NAME ( scopedMessage ) ( Catch : : MessageBuilder ( macroName , CATCH_INTERNAL_LINEINFO , Catch : : ResultWas : : Info ) < < log ) ;
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///////////////////////////////////////////////////////////////////////////////
// Although this is matcher-based, it can be used with just a string
# define INTERNAL_CATCH_THROWS_STR_MATCHES( macroName, resultDisposition, matcher, ... ) \
do { \
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Catch : : AssertionHandler catchAssertionHandler ( macroName , CATCH_INTERNAL_LINEINFO , CATCH_INTERNAL_STRINGIFY ( __VA_ARGS__ ) " , " CATCH_INTERNAL_STRINGIFY ( matcher ) , resultDisposition ) ; \
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if ( catchAssertionHandler . allowThrows ( ) ) \
try { \
static_cast < void > ( __VA_ARGS__ ) ; \
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catchAssertionHandler . handleUnexpectedExceptionNotThrown ( ) ; \
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} \
catch ( . . . ) { \
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Catch : : handleExceptionMatchExpr ( catchAssertionHandler , matcher , # matcher ) ; \
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} \
else \
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catchAssertionHandler . handleThrowingCallSkipped ( ) ; \
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INTERNAL_CATCH_REACT ( catchAssertionHandler ) \
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} while ( false )
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# endif // CATCH_CONFIG_DISABLE
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// end catch_capture.hpp
// start catch_section.h
// start catch_section_info.h
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// start catch_totals.h
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# include <cstddef>
namespace Catch {
struct Counts {
Counts operator - ( Counts const & other ) const ;
Counts & operator + = ( Counts const & other ) ;
std : : size_t total ( ) const ;
bool allPassed ( ) const ;
bool allOk ( ) const ;
std : : size_t passed = 0 ;
std : : size_t failed = 0 ;
std : : size_t failedButOk = 0 ;
} ;
struct Totals {
Totals operator - ( Totals const & other ) const ;
Totals & operator + = ( Totals const & other ) ;
Totals delta ( Totals const & prevTotals ) const ;
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int error = 0 ;
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Counts assertions ;
Counts testCases ;
} ;
}
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// end catch_totals.h
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# include <string>
namespace Catch {
struct SectionInfo {
SectionInfo
( SourceLineInfo const & _lineInfo ,
std : : string const & _name ,
std : : string const & _description = std : : string ( ) ) ;
std : : string name ;
std : : string description ;
SourceLineInfo lineInfo ;
} ;
struct SectionEndInfo {
SectionEndInfo ( SectionInfo const & _sectionInfo , Counts const & _prevAssertions , double _durationInSeconds ) ;
SectionInfo sectionInfo ;
Counts prevAssertions ;
double durationInSeconds ;
} ;
} // end namespace Catch
// end catch_section_info.h
// start catch_timer.h
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# include <cstdint>
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namespace Catch {
auto getCurrentNanosecondsSinceEpoch ( ) - > uint64_t ;
auto getEstimatedClockResolution ( ) - > uint64_t ;
class Timer {
uint64_t m_nanoseconds = 0 ;
public :
void start ( ) ;
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auto getElapsedNanoseconds ( ) const - > uint64_t ;
auto getElapsedMicroseconds ( ) const - > uint64_t ;
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auto getElapsedMilliseconds ( ) const - > unsigned int ;
auto getElapsedSeconds ( ) const - > double ;
} ;
} // namespace Catch
// end catch_timer.h
# include <string>
namespace Catch {
class Section : NonCopyable {
public :
Section ( SectionInfo const & info ) ;
~ Section ( ) ;
// This indicates whether the section should be executed or not
explicit operator bool ( ) const ;
private :
SectionInfo m_info ;
std : : string m_name ;
Counts m_assertions ;
bool m_sectionIncluded ;
Timer m_timer ;
} ;
} // end namespace Catch
# define INTERNAL_CATCH_SECTION( ... ) \
if ( Catch : : Section const & INTERNAL_CATCH_UNIQUE_NAME ( catch_internal_Section ) = Catch : : SectionInfo ( CATCH_INTERNAL_LINEINFO , __VA_ARGS__ ) )
// end catch_section.h
// start catch_benchmark.h
# include <cstdint>
# include <string>
namespace Catch {
class BenchmarkLooper {
std : : string m_name ;
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std : : size_t m_count = 0 ;
std : : size_t m_iterationsToRun = 1 ;
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uint64_t m_resolution ;
Timer m_timer ;
static auto getResolution ( ) - > uint64_t ;
public :
// Keep most of this inline as it's on the code path that is being timed
BenchmarkLooper ( StringRef name )
: m_name ( name ) ,
m_resolution ( getResolution ( ) )
{
reportStart ( ) ;
m_timer . start ( ) ;
}
explicit operator bool ( ) {
if ( m_count < m_iterationsToRun )
return true ;
return needsMoreIterations ( ) ;
}
void increment ( ) {
+ + m_count ;
}
void reportStart ( ) ;
auto needsMoreIterations ( ) - > bool ;
} ;
} // end namespace Catch
# define BENCHMARK( name ) \
for ( Catch : : BenchmarkLooper looper ( name ) ; looper ; looper . increment ( ) )
// end catch_benchmark.h
// start catch_interfaces_exception.h
// start catch_interfaces_registry_hub.h
# include <string>
# include <memory>
namespace Catch {
class TestCase ;
struct ITestCaseRegistry ;
struct IExceptionTranslatorRegistry ;
struct IExceptionTranslator ;
struct IReporterRegistry ;
struct IReporterFactory ;
struct ITagAliasRegistry ;
class StartupExceptionRegistry ;
using IReporterFactoryPtr = std : : shared_ptr < IReporterFactory > ;
struct IRegistryHub {
virtual ~ IRegistryHub ( ) ;
virtual IReporterRegistry const & getReporterRegistry ( ) const = 0 ;
virtual ITestCaseRegistry const & getTestCaseRegistry ( ) const = 0 ;
virtual ITagAliasRegistry const & getTagAliasRegistry ( ) const = 0 ;
virtual IExceptionTranslatorRegistry & getExceptionTranslatorRegistry ( ) = 0 ;
virtual StartupExceptionRegistry const & getStartupExceptionRegistry ( ) const = 0 ;
} ;
struct IMutableRegistryHub {
virtual ~ IMutableRegistryHub ( ) ;
virtual void registerReporter ( std : : string const & name , IReporterFactoryPtr const & factory ) = 0 ;
virtual void registerListener ( IReporterFactoryPtr const & factory ) = 0 ;
virtual void registerTest ( TestCase const & testInfo ) = 0 ;
virtual void registerTranslator ( const IExceptionTranslator * translator ) = 0 ;
virtual void registerTagAlias ( std : : string const & alias , std : : string const & tag , SourceLineInfo const & lineInfo ) = 0 ;
virtual void registerStartupException ( ) noexcept = 0 ;
} ;
IRegistryHub & getRegistryHub ( ) ;
IMutableRegistryHub & getMutableRegistryHub ( ) ;
void cleanUp ( ) ;
std : : string translateActiveException ( ) ;
}
// end catch_interfaces_registry_hub.h
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# if defined(CATCH_CONFIG_DISABLE)
# define INTERNAL_CATCH_TRANSLATE_EXCEPTION_NO_REG( translatorName, signature) \
static std : : string translatorName ( signature )
# endif
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# include <exception>
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# include <string>
# include <vector>
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namespace Catch {
using exceptionTranslateFunction = std : : string ( * ) ( ) ;
struct IExceptionTranslator ;
using ExceptionTranslators = std : : vector < std : : unique_ptr < IExceptionTranslator const > > ;
struct IExceptionTranslator {
virtual ~ IExceptionTranslator ( ) ;
virtual std : : string translate ( ExceptionTranslators : : const_iterator it , ExceptionTranslators : : const_iterator itEnd ) const = 0 ;
} ;
struct IExceptionTranslatorRegistry {
virtual ~ IExceptionTranslatorRegistry ( ) ;
virtual std : : string translateActiveException ( ) const = 0 ;
} ;
class ExceptionTranslatorRegistrar {
template < typename T >
class ExceptionTranslator : public IExceptionTranslator {
public :
ExceptionTranslator ( std : : string ( * translateFunction ) ( T & ) )
: m_translateFunction ( translateFunction )
{ }
std : : string translate ( ExceptionTranslators : : const_iterator it , ExceptionTranslators : : const_iterator itEnd ) const override {
try {
if ( it = = itEnd )
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std : : rethrow_exception ( std : : current_exception ( ) ) ;
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else
return ( * it ) - > translate ( it + 1 , itEnd ) ;
}
catch ( T & ex ) {
return m_translateFunction ( ex ) ;
}
}
protected :
std : : string ( * m_translateFunction ) ( T & ) ;
} ;
public :
template < typename T >
ExceptionTranslatorRegistrar ( std : : string ( * translateFunction ) ( T & ) ) {
getMutableRegistryHub ( ) . registerTranslator
( new ExceptionTranslator < T > ( translateFunction ) ) ;
}
} ;
}
///////////////////////////////////////////////////////////////////////////////
# define INTERNAL_CATCH_TRANSLATE_EXCEPTION2( translatorName, signature ) \
static std : : string translatorName ( signature ) ; \
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CATCH_INTERNAL_SUPPRESS_GLOBALS_WARNINGS \
namespace { Catch : : ExceptionTranslatorRegistrar INTERNAL_CATCH_UNIQUE_NAME ( catch_internal_ExceptionRegistrar ) ( & translatorName ) ; } \
CATCH_INTERNAL_UNSUPPRESS_GLOBALS_WARNINGS \
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static std : : string translatorName ( signature )
# define INTERNAL_CATCH_TRANSLATE_EXCEPTION( signature ) INTERNAL_CATCH_TRANSLATE_EXCEPTION2( INTERNAL_CATCH_UNIQUE_NAME( catch_internal_ExceptionTranslator ), signature )
// end catch_interfaces_exception.h
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// start catch_approx.h
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# include <type_traits>
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# include <stdexcept>
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namespace Catch {
namespace Detail {
class Approx {
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private :
bool equalityComparisonImpl ( double other ) const ;
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public :
explicit Approx ( double value ) ;
static Approx custom ( ) ;
template < typename T , typename = typename std : : enable_if < std : : is_constructible < double , T > : : value > : : type >
Approx operator ( ) ( T const & value ) {
Approx approx ( static_cast < double > ( value ) ) ;
approx . epsilon ( m_epsilon ) ;
approx . margin ( m_margin ) ;
approx . scale ( m_scale ) ;
return approx ;
}
template < typename T , typename = typename std : : enable_if < std : : is_constructible < double , T > : : value > : : type >
explicit Approx ( T const & value ) : Approx ( static_cast < double > ( value ) )
{ }
template < typename T , typename = typename std : : enable_if < std : : is_constructible < double , T > : : value > : : type >
friend bool operator = = ( const T & lhs , Approx const & rhs ) {
auto lhs_v = static_cast < double > ( lhs ) ;
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return rhs . equalityComparisonImpl ( lhs_v ) ;
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}
template < typename T , typename = typename std : : enable_if < std : : is_constructible < double , T > : : value > : : type >
friend bool operator = = ( Approx const & lhs , const T & rhs ) {
return operator = = ( rhs , lhs ) ;
}
template < typename T , typename = typename std : : enable_if < std : : is_constructible < double , T > : : value > : : type >
friend bool operator ! = ( T const & lhs , Approx const & rhs ) {
return ! operator = = ( lhs , rhs ) ;
}
template < typename T , typename = typename std : : enable_if < std : : is_constructible < double , T > : : value > : : type >
friend bool operator ! = ( Approx const & lhs , T const & rhs ) {
return ! operator = = ( rhs , lhs ) ;
}
template < typename T , typename = typename std : : enable_if < std : : is_constructible < double , T > : : value > : : type >
friend bool operator < = ( T const & lhs , Approx const & rhs ) {
return static_cast < double > ( lhs ) < rhs . m_value | | lhs = = rhs ;
}
template < typename T , typename = typename std : : enable_if < std : : is_constructible < double , T > : : value > : : type >
friend bool operator < = ( Approx const & lhs , T const & rhs ) {
return lhs . m_value < static_cast < double > ( rhs ) | | lhs = = rhs ;
}
template < typename T , typename = typename std : : enable_if < std : : is_constructible < double , T > : : value > : : type >
friend bool operator > = ( T const & lhs , Approx const & rhs ) {
return static_cast < double > ( lhs ) > rhs . m_value | | lhs = = rhs ;
}
template < typename T , typename = typename std : : enable_if < std : : is_constructible < double , T > : : value > : : type >
friend bool operator > = ( Approx const & lhs , T const & rhs ) {
return lhs . m_value > static_cast < double > ( rhs ) | | lhs = = rhs ;
}
template < typename T , typename = typename std : : enable_if < std : : is_constructible < double , T > : : value > : : type >
Approx & epsilon ( T const & newEpsilon ) {
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double epsilonAsDouble = static_cast < double > ( newEpsilon ) ;
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if ( epsilonAsDouble < 0 | | epsilonAsDouble > 1.0 ) {
throw std : : domain_error
( " Invalid Approx::epsilon: " +
Catch : : Detail : : stringify ( epsilonAsDouble ) +
" , Approx::epsilon has to be between 0 and 1 " ) ;
}
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m_epsilon = epsilonAsDouble ;
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return * this ;
}
template < typename T , typename = typename std : : enable_if < std : : is_constructible < double , T > : : value > : : type >
Approx & margin ( T const & newMargin ) {
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double marginAsDouble = static_cast < double > ( newMargin ) ;
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if ( marginAsDouble < 0 ) {
throw std : : domain_error
( " Invalid Approx::margin: " +
Catch : : Detail : : stringify ( marginAsDouble ) +
" , Approx::Margin has to be non-negative. " ) ;
}
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m_margin = marginAsDouble ;
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return * this ;
}
template < typename T , typename = typename std : : enable_if < std : : is_constructible < double , T > : : value > : : type >
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 ;
} ;
}
template < >
struct StringMaker < Catch : : Detail : : Approx > {
static std : : string convert ( Catch : : Detail : : Approx const & value ) ;
} ;
} // end namespace Catch
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// end catch_approx.h
// start catch_string_manip.h
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# include <string>
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# include <iosfwd>
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namespace Catch {
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bool startsWith ( std : : string const & s , std : : string const & prefix ) ;
bool startsWith ( std : : string const & s , char prefix ) ;
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 ) ;
std : : string trim ( std : : string const & str ) ;
bool replaceInPlace ( std : : string & str , std : : string const & replaceThis , std : : string const & withThis ) ;
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struct pluralise {
pluralise ( std : : size_t count , std : : string const & label ) ;
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friend std : : ostream & operator < < ( std : : ostream & os , pluralise const & pluraliser ) ;
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std : : size_t m_count ;
std : : string m_label ;
} ;
}
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// end catch_string_manip.h
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# ifndef CATCH_CONFIG_DISABLE_MATCHERS
// start catch_capture_matchers.h
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// start catch_matchers.h
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# include <string>
# include <vector>
namespace Catch {
namespace Matchers {
namespace Impl {
template < typename ArgT > struct MatchAllOf ;
template < typename ArgT > struct MatchAnyOf ;
template < typename ArgT > struct MatchNotOf ;
class MatcherUntypedBase {
public :
MatcherUntypedBase ( ) = default ;
MatcherUntypedBase ( MatcherUntypedBase const & ) = default ;
MatcherUntypedBase & operator = ( MatcherUntypedBase const & ) = delete ;
std : : string toString ( ) const ;
protected :
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virtual ~ MatcherUntypedBase ( ) ;
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virtual std : : string describe ( ) const = 0 ;
mutable std : : string m_cachedToString ;
} ;
template < typename ObjectT >
struct MatcherMethod {
virtual bool match ( ObjectT const & arg ) const = 0 ;
} ;
template < typename PtrT >
struct MatcherMethod < PtrT * > {
virtual bool match ( PtrT * arg ) const = 0 ;
} ;
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template < typename T >
struct MatcherBase : MatcherUntypedBase , MatcherMethod < T > {
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MatchAllOf < T > operator & & ( MatcherBase const & other ) const ;
MatchAnyOf < T > operator | | ( MatcherBase const & other ) const ;
MatchNotOf < T > operator ! ( ) const ;
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} ;
template < typename ArgT >
struct MatchAllOf : MatcherBase < ArgT > {
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 ;
}
MatchAllOf < ArgT > & operator & & ( MatcherBase < ArgT > const & other ) {
m_matchers . push_back ( & other ) ;
return * this ;
}
std : : vector < MatcherBase < ArgT > const * > m_matchers ;
} ;
template < typename ArgT >
struct MatchAnyOf : MatcherBase < ArgT > {
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 ;
}
MatchAnyOf < ArgT > & operator | | ( MatcherBase < ArgT > const & other ) {
m_matchers . push_back ( & other ) ;
return * this ;
}
std : : vector < MatcherBase < ArgT > const * > m_matchers ;
} ;
template < typename ArgT >
struct MatchNotOf : MatcherBase < ArgT > {
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 ( ) ;
}
MatcherBase < ArgT > const & m_underlyingMatcher ;
} ;
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template < typename T >
MatchAllOf < T > MatcherBase < T > : : operator & & ( MatcherBase const & other ) const {
return MatchAllOf < T > ( ) & & * this & & other ;
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}
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template < typename T >
MatchAnyOf < T > MatcherBase < T > : : operator | | ( MatcherBase const & other ) const {
return MatchAnyOf < T > ( ) | | * this | | other ;
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}
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template < typename T >
MatchNotOf < T > MatcherBase < T > : : operator ! ( ) const {
return MatchNotOf < T > ( * this ) ;
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}
} // namespace Impl
} // namespace Matchers
using namespace Matchers ;
using Matchers : : Impl : : MatcherBase ;
} // namespace Catch
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// end catch_matchers.h
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// start catch_matchers_floating.h
# include <type_traits>
# include <cmath>
namespace Catch {
namespace Matchers {
namespace Floating {
enum class FloatingPointKind : uint8_t ;
struct WithinAbsMatcher : 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 : MatcherBase < double > {
WithinUlpsMatcher ( double target , int ulps , FloatingPointKind baseType ) ;
bool match ( double const & matchee ) const override ;
std : : string describe ( ) const override ;
private :
double m_target ;
int m_ulps ;
FloatingPointKind m_type ;
} ;
} // namespace Floating
// The following functions create the actual matcher objects.
// This allows the types to be inferred
Floating : : WithinUlpsMatcher WithinULP ( double target , int maxUlpDiff ) ;
Floating : : WithinUlpsMatcher WithinULP ( float target , int maxUlpDiff ) ;
Floating : : WithinAbsMatcher WithinAbs ( double target , double margin ) ;
} // namespace Matchers
} // namespace Catch
// end catch_matchers_floating.h
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// start catch_matchers_generic.hpp
# include <functional>
# include <string>
namespace Catch {
namespace Matchers {
namespace Generic {
namespace Detail {
std : : string finalizeDescription ( const std : : string & desc ) ;
}
template < typename T >
class PredicateMatcher : public MatcherBase < T > {
std : : function < bool ( T const & ) > m_predicate ;
std : : string m_description ;
public :
PredicateMatcher ( std : : function < bool ( T const & ) > const & elem , std : : string const & descr )
: m_predicate ( std : : move ( elem ) ) ,
m_description ( Detail : : finalizeDescription ( descr ) )
{ }
bool match ( T const & item ) const override {
return m_predicate ( item ) ;
}
std : : string describe ( ) const override {
return m_description ;
}
} ;
} // namespace Generic
// The following functions create the actual matcher objects.
// The user has to explicitly specify type to the function, because
// infering std::function<bool(T const&)> is hard (but possible) and
// requires a lot of TMP.
template < typename T >
Generic : : PredicateMatcher < T > Predicate ( std : : function < bool ( T const & ) > const & predicate , std : : string const & description = " " ) {
return Generic : : PredicateMatcher < T > ( predicate , description ) ;
}
} // namespace Matchers
} // namespace Catch
// end catch_matchers_generic.hpp
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// start catch_matchers_string.h
# include <string>
namespace Catch {
namespace Matchers {
namespace StdString {
struct CasedString
{
CasedString ( std : : string const & str , CaseSensitive : : Choice caseSensitivity ) ;
std : : string adjustString ( std : : string const & str ) const ;
std : : string caseSensitivitySuffix ( ) const ;
CaseSensitive : : Choice 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 EqualsMatcher : StringMatcherBase {
EqualsMatcher ( CasedString const & comparator ) ;
bool match ( std : : string const & source ) const override ;
} ;
struct ContainsMatcher : StringMatcherBase {
ContainsMatcher ( CasedString const & comparator ) ;
bool match ( std : : string const & source ) const override ;
} ;
struct StartsWithMatcher : StringMatcherBase {
StartsWithMatcher ( CasedString const & comparator ) ;
bool match ( std : : string const & source ) const override ;
} ;
struct EndsWithMatcher : StringMatcherBase {
EndsWithMatcher ( CasedString const & comparator ) ;
bool match ( std : : string const & source ) const override ;
} ;
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struct RegexMatcher : MatcherBase < std : : string > {
RegexMatcher ( std : : string regex , CaseSensitive : : Choice caseSensitivity ) ;
bool match ( std : : string const & matchee ) const override ;
std : : string describe ( ) const override ;
private :
std : : string m_regex ;
CaseSensitive : : Choice m_caseSensitivity ;
} ;
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} // namespace StdString
// The following functions create the actual matcher objects.
// This allows the types to be inferred
StdString : : EqualsMatcher Equals ( std : : string const & str , CaseSensitive : : Choice caseSensitivity = CaseSensitive : : Yes ) ;
StdString : : ContainsMatcher Contains ( std : : string const & str , CaseSensitive : : Choice caseSensitivity = CaseSensitive : : Yes ) ;
StdString : : EndsWithMatcher EndsWith ( std : : string const & str , CaseSensitive : : Choice caseSensitivity = CaseSensitive : : Yes ) ;
StdString : : StartsWithMatcher StartsWith ( std : : string const & str , CaseSensitive : : Choice caseSensitivity = CaseSensitive : : Yes ) ;
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StdString : : RegexMatcher Matches ( std : : string const & regex , CaseSensitive : : Choice caseSensitivity = CaseSensitive : : Yes ) ;
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} // namespace Matchers
} // namespace Catch
// end catch_matchers_string.h
// start catch_matchers_vector.h
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# include <algorithm>
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namespace Catch {
namespace Matchers {
namespace Vector {
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namespace Detail {
template < typename InputIterator , typename T >
size_t count ( InputIterator first , InputIterator last , T const & item ) {
size_t cnt = 0 ;
for ( ; first ! = last ; + + first ) {
if ( * first = = item ) {
+ + cnt ;
}
}
return cnt ;
}
template < typename InputIterator , typename T >
bool contains ( InputIterator first , InputIterator last , T const & item ) {
for ( ; first ! = last ; + + first ) {
if ( * first = = item ) {
return true ;
}
}
return false ;
}
}
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template < typename T >
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struct ContainsElementMatcher : MatcherBase < std : : vector < T > > {
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ContainsElementMatcher ( T const & comparator ) : m_comparator ( comparator ) { }
bool match ( std : : vector < T > 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 >
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struct ContainsMatcher : MatcherBase < std : : vector < T > > {
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ContainsMatcher ( std : : vector < T > const & comparator ) : m_comparator ( comparator ) { }
bool match ( std : : vector < T > 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 > const & m_comparator ;
} ;
template < typename T >
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struct EqualsMatcher : MatcherBase < std : : vector < T > > {
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EqualsMatcher ( std : : vector < T > const & comparator ) : m_comparator ( comparator ) { }
bool match ( std : : vector < T > 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 ;
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for ( std : : size_t i = 0 ; i < v . size ( ) ; + + i )
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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 > const & m_comparator ;
} ;
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template < typename T >
struct UnorderedEqualsMatcher : MatcherBase < std : : vector < T > > {
UnorderedEqualsMatcher ( std : : vector < T > const & target ) : m_target ( target ) { }
bool match ( std : : vector < T > const & vec ) const override {
// Note: This is a reimplementation of std::is_permutation,
// because I don't want to include <algorithm> inside the common path
if ( m_target . size ( ) ! = vec . size ( ) ) {
return false ;
}
auto lfirst = m_target . begin ( ) , llast = m_target . end ( ) ;
auto rfirst = vec . begin ( ) , rlast = vec . end ( ) ;
// Cut common prefix to optimize checking of permuted parts
while ( lfirst ! = llast & & * lfirst ! = * rfirst ) {
+ + lfirst ; + + rfirst ;
}
if ( lfirst = = llast ) {
return true ;
}
for ( auto mid = lfirst ; mid ! = llast ; + + mid ) {
// Skip already counted items
if ( Detail : : contains ( lfirst , mid , * mid ) ) {
continue ;
}
size_t num_vec = Detail : : count ( rfirst , rlast , * mid ) ;
if ( num_vec = = 0 | | Detail : : count ( lfirst , llast , * mid ) ! = num_vec ) {
return false ;
}
}
return true ;
}
std : : string describe ( ) const override {
return " UnorderedEquals: " + : : Catch : : Detail : : stringify ( m_target ) ;
}
private :
std : : vector < T > const & m_target ;
} ;
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} // namespace Vector
// The following functions create the actual matcher objects.
// This allows the types to be inferred
template < typename T >
Vector : : ContainsMatcher < T > Contains ( std : : vector < T > const & comparator ) {
return Vector : : ContainsMatcher < T > ( comparator ) ;
}
template < typename T >
Vector : : ContainsElementMatcher < T > VectorContains ( T const & comparator ) {
return Vector : : ContainsElementMatcher < T > ( comparator ) ;
}
template < typename T >
Vector : : EqualsMatcher < T > Equals ( std : : vector < T > const & comparator ) {
return Vector : : EqualsMatcher < T > ( comparator ) ;
}
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template < typename T >
Vector : : UnorderedEqualsMatcher < T > UnorderedEquals ( std : : vector < T > const & target ) {
return Vector : : UnorderedEqualsMatcher < T > ( target ) ;
}
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} // namespace Matchers
} // namespace Catch
// end catch_matchers_vector.h
namespace Catch {
template < typename ArgT , typename MatcherT >
class MatchExpr : public ITransientExpression {
ArgT const & m_arg ;
MatcherT m_matcher ;
StringRef m_matcherString ;
public :
MatchExpr ( ArgT const & arg , MatcherT const & matcher , StringRef matcherString )
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: ITransientExpression { true , matcher . match ( arg ) } ,
m_arg ( arg ) ,
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m_matcher ( matcher ) ,
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m_matcherString ( matcherString )
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{ }
void streamReconstructedExpression ( std : : ostream & os ) const override {
auto matcherAsString = m_matcher . toString ( ) ;
os < < Catch : : Detail : : stringify ( m_arg ) < < ' ' ;
if ( matcherAsString = = Detail : : unprintableString )
os < < m_matcherString ;
else
os < < matcherAsString ;
}
} ;
using StringMatcher = Matchers : : Impl : : MatcherBase < std : : string > ;
void handleExceptionMatchExpr ( AssertionHandler & handler , StringMatcher const & matcher , StringRef matcherString ) ;
template < typename ArgT , typename MatcherT >
auto makeMatchExpr ( ArgT const & arg , MatcherT const & matcher , StringRef matcherString ) - > MatchExpr < ArgT , MatcherT > {
return MatchExpr < ArgT , MatcherT > ( arg , matcher , matcherString ) ;
}
} // namespace Catch
///////////////////////////////////////////////////////////////////////////////
# define INTERNAL_CHECK_THAT( macroName, matcher, resultDisposition, arg ) \
do { \
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Catch : : AssertionHandler catchAssertionHandler ( macroName , CATCH_INTERNAL_LINEINFO , CATCH_INTERNAL_STRINGIFY ( arg ) " , " CATCH_INTERNAL_STRINGIFY ( matcher ) , resultDisposition ) ; \
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INTERNAL_CATCH_TRY { \
catchAssertionHandler . handleExpr ( Catch : : makeMatchExpr ( arg , matcher , # matcher ) ) ; \
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} INTERNAL_CATCH_CATCH ( catchAssertionHandler ) \
INTERNAL_CATCH_REACT ( catchAssertionHandler ) \
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} while ( false )
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///////////////////////////////////////////////////////////////////////////////
# define INTERNAL_CATCH_THROWS_MATCHES( macroName, exceptionType, resultDisposition, matcher, ... ) \
do { \
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Catch : : AssertionHandler catchAssertionHandler ( macroName , CATCH_INTERNAL_LINEINFO , CATCH_INTERNAL_STRINGIFY ( __VA_ARGS__ ) " , " CATCH_INTERNAL_STRINGIFY ( exceptionType ) " , " CATCH_INTERNAL_STRINGIFY ( matcher ) , resultDisposition ) ; \
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if ( catchAssertionHandler . allowThrows ( ) ) \
try { \
static_cast < void > ( __VA_ARGS__ ) ; \
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catchAssertionHandler . handleUnexpectedExceptionNotThrown ( ) ; \
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} \
catch ( exceptionType const & ex ) { \
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catchAssertionHandler . handleExpr ( Catch : : makeMatchExpr ( ex , matcher , # matcher ) ) ; \
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} \
catch ( . . . ) { \
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catchAssertionHandler . handleUnexpectedInflightException ( ) ; \
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} \
else \
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catchAssertionHandler . handleThrowingCallSkipped ( ) ; \
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INTERNAL_CATCH_REACT ( catchAssertionHandler ) \
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} while ( false )
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// end catch_capture_matchers.h
# endif
// These files are included here so the single_include script doesn't put them
// in the conditionally compiled sections
// start catch_test_case_info.h
# include <string>
# include <vector>
# include <memory>
# ifdef __clang__
# pragma clang diagnostic push
# pragma clang diagnostic ignored "-Wpadded"
# endif
namespace Catch {
struct ITestInvoker ;
struct TestCaseInfo {
enum SpecialProperties {
None = 0 ,
IsHidden = 1 < < 1 ,
ShouldFail = 1 < < 2 ,
MayFail = 1 < < 3 ,
Throws = 1 < < 4 ,
NonPortable = 1 < < 5 ,
Benchmark = 1 < < 6
} ;
TestCaseInfo ( std : : string const & _name ,
std : : string const & _className ,
std : : string const & _description ,
std : : vector < std : : string > const & _tags ,
SourceLineInfo const & _lineInfo ) ;
friend void setTags ( TestCaseInfo & testCaseInfo , std : : vector < std : : string > tags ) ;
bool isHidden ( ) const ;
bool throws ( ) const ;
bool okToFail ( ) const ;
bool expectedToFail ( ) const ;
std : : string tagsAsString ( ) const ;
std : : string name ;
std : : string className ;
std : : string description ;
std : : vector < std : : string > tags ;
std : : vector < std : : string > lcaseTags ;
SourceLineInfo lineInfo ;
SpecialProperties properties ;
} ;
class TestCase : public TestCaseInfo {
public :
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TestCase ( ITestInvoker * testCase , TestCaseInfo & & info ) ;
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TestCase withName ( std : : string const & _newName ) const ;
void invoke ( ) const ;
TestCaseInfo const & getTestCaseInfo ( ) const ;
bool operator = = ( TestCase const & other ) const ;
bool operator < ( TestCase const & other ) const ;
private :
std : : shared_ptr < ITestInvoker > test ;
} ;
TestCase makeTestCase ( ITestInvoker * testCase ,
std : : string const & className ,
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NameAndTags const & nameAndTags ,
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SourceLineInfo const & lineInfo ) ;
}
# ifdef __clang__
# pragma clang diagnostic pop
# endif
// end catch_test_case_info.h
// start catch_interfaces_runner.h
namespace Catch {
struct IRunner {
virtual ~ IRunner ( ) ;
virtual bool aborting ( ) const = 0 ;
} ;
}
// end catch_interfaces_runner.h
# ifdef __OBJC__
// start catch_objc.hpp
# import <objc / runtime.h>
# include <string>
// NB. Any general catch headers included here must be included
// in catch.hpp first to make sure they are included by the single
// header for non obj-usage
///////////////////////////////////////////////////////////////////////////////
// This protocol is really only here for (self) documenting purposes, since
// all its methods are optional.
@ protocol OcFixture
@ optional
- ( void ) setUp ;
- ( void ) tearDown ;
@ end
namespace Catch {
class OcMethod : public ITestInvoker {
public :
OcMethod ( Class cls , SEL sel ) : m_cls ( cls ) , m_sel ( sel ) { }
virtual void invoke ( ) const {
id obj = [ [ m_cls alloc ] init ] ;
performOptionalSelector ( obj , @ selector ( setUp ) ) ;
performOptionalSelector ( obj , m_sel ) ;
performOptionalSelector ( obj , @ selector ( tearDown ) ) ;
arcSafeRelease ( obj ) ;
}
private :
virtual ~ OcMethod ( ) { }
Class m_cls ;
SEL m_sel ;
} ;
namespace Detail {
inline std : : string getAnnotation ( Class cls ,
std : : string const & annotationName ,
std : : string const & testCaseName ) {
NSString * selStr = [ [ NSString alloc ] initWithFormat : @ " Catch_%s_%s " , annotationName . c_str ( ) , testCaseName . c_str ( ) ] ;
SEL sel = NSSelectorFromString ( selStr ) ;
arcSafeRelease ( selStr ) ;
id value = performOptionalSelector ( cls , sel ) ;
if ( value )
return [ ( NSString * ) value UTF8String ] ;
return " " ;
}
}
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inline std : : size_t registerTestMethods ( ) {
std : : size_t noTestMethods = 0 ;
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int noClasses = objc_getClassList ( nullptr , 0 ) ;
Class * classes = ( CATCH_UNSAFE_UNRETAINED Class * ) malloc ( sizeof ( Class ) * noClasses ) ;
objc_getClassList ( classes , noClasses ) ;
for ( int c = 0 ; c < noClasses ; c + + ) {
Class cls = classes [ c ] ;
{
u_int count ;
Method * methods = class_copyMethodList ( cls , & count ) ;
for ( u_int m = 0 ; m < count ; m + + ) {
SEL selector = method_getName ( methods [ m ] ) ;
std : : string methodName = sel_getName ( selector ) ;
if ( startsWith ( methodName , " Catch_TestCase_ " ) ) {
std : : string testCaseName = methodName . substr ( 15 ) ;
std : : string name = Detail : : getAnnotation ( cls , " Name " , testCaseName ) ;
std : : string desc = Detail : : getAnnotation ( cls , " Description " , testCaseName ) ;
const char * className = class_getName ( cls ) ;
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getMutableRegistryHub ( ) . registerTest ( makeTestCase ( new OcMethod ( cls , selector ) , className , name . c_str ( ) , desc . c_str ( ) , SourceLineInfo ( " " , 0 ) ) ) ;
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noTestMethods + + ;
}
}
free ( methods ) ;
}
}
return noTestMethods ;
}
# if !defined(CATCH_CONFIG_DISABLE_MATCHERS)
namespace Matchers {
namespace Impl {
namespace NSStringMatchers {
struct StringHolder : MatcherBase < NSString * > {
StringHolder ( NSString * substr ) : m_substr ( [ substr copy ] ) { }
StringHolder ( StringHolder const & other ) : m_substr ( [ other . m_substr copy ] ) { }
StringHolder ( ) {
arcSafeRelease ( m_substr ) ;
}
bool match ( NSString * arg ) const override {
return false ;
}
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NSString * CATCH_ARC_STRONG m_substr ;
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} ;
struct Equals : StringHolder {
Equals ( NSString * substr ) : StringHolder ( substr ) { }
bool match ( NSString * str ) const override {
return ( str ! = nil | | m_substr = = nil ) & &
[ str isEqualToString : m_substr ] ;
}
std : : string describe ( ) const override {
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return " equals string: " + Catch : : Detail : : stringify ( m_substr ) ;
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}
} ;
struct Contains : StringHolder {
Contains ( NSString * substr ) : StringHolder ( substr ) { }
bool match ( NSString * str ) const {
return ( str ! = nil | | m_substr = = nil ) & &
[ str rangeOfString : m_substr ] . location ! = NSNotFound ;
}
std : : string describe ( ) const override {
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return " contains string: " + Catch : : Detail : : stringify ( m_substr ) ;
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}
} ;
struct StartsWith : StringHolder {
StartsWith ( NSString * substr ) : StringHolder ( substr ) { }
bool match ( NSString * str ) const override {
return ( str ! = nil | | m_substr = = nil ) & &
[ str rangeOfString : m_substr ] . location = = 0 ;
}
std : : string describe ( ) const override {
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return " starts with: " + Catch : : Detail : : stringify ( m_substr ) ;
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}
} ;
struct EndsWith : StringHolder {
EndsWith ( NSString * substr ) : StringHolder ( substr ) { }
bool match ( NSString * str ) const override {
return ( str ! = nil | | m_substr = = nil ) & &
[ str rangeOfString : m_substr ] . location = = [ str length ] - [ m_substr length ] ;
}
std : : string describe ( ) const override {
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return " ends with: " + Catch : : Detail : : stringify ( m_substr ) ;
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}
} ;
} // namespace NSStringMatchers
} // namespace Impl
inline Impl : : NSStringMatchers : : Equals
Equals ( NSString * substr ) { return Impl : : NSStringMatchers : : Equals ( substr ) ; }
inline Impl : : NSStringMatchers : : Contains
Contains ( NSString * substr ) { return Impl : : NSStringMatchers : : Contains ( substr ) ; }
inline Impl : : NSStringMatchers : : StartsWith
StartsWith ( NSString * substr ) { return Impl : : NSStringMatchers : : StartsWith ( substr ) ; }
inline Impl : : NSStringMatchers : : EndsWith
EndsWith ( NSString * substr ) { return Impl : : NSStringMatchers : : EndsWith ( substr ) ; }
} // namespace Matchers
using namespace Matchers ;
# endif // CATCH_CONFIG_DISABLE_MATCHERS
} // namespace Catch
///////////////////////////////////////////////////////////////////////////////
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# define OC_MAKE_UNIQUE_NAME( root, uniqueSuffix ) root##uniqueSuffix
# define OC_TEST_CASE2( name, desc, uniqueSuffix ) \
+ ( NSString * ) OC_MAKE_UNIQUE_NAME ( Catch_Name_test_ , uniqueSuffix ) \
{ \
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return @ name ; \
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} \
+ ( NSString * ) OC_MAKE_UNIQUE_NAME ( Catch_Description_test_ , uniqueSuffix ) \
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{ \
return @ desc ; \
} \
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- ( void ) OC_MAKE_UNIQUE_NAME ( Catch_TestCase_test_ , uniqueSuffix )
# define OC_TEST_CASE( name, desc ) OC_TEST_CASE2( name, desc, __LINE__ )
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// end catch_objc.hpp
# endif
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# ifdef CATCH_CONFIG_EXTERNAL_INTERFACES
// start catch_external_interfaces.h
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// start catch_reporter_bases.hpp
// start catch_interfaces_reporter.h
// start catch_config.hpp
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// start catch_test_spec_parser.h
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# ifdef __clang__
# pragma clang diagnostic push
# pragma clang diagnostic ignored "-Wpadded"
# endif
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// start catch_test_spec.h
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# ifdef __clang__
# pragma clang diagnostic push
# pragma clang diagnostic ignored "-Wpadded"
# endif
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// start catch_wildcard_pattern.h
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namespace Catch
{
class WildcardPattern {
enum WildcardPosition {
NoWildcard = 0 ,
WildcardAtStart = 1 ,
WildcardAtEnd = 2 ,
WildcardAtBothEnds = WildcardAtStart | WildcardAtEnd
} ;
public :
WildcardPattern ( std : : string const & pattern , CaseSensitive : : Choice caseSensitivity ) ;
virtual ~ WildcardPattern ( ) = default ;
virtual bool matches ( std : : string const & str ) const ;
private :
std : : string adjustCase ( std : : string const & str ) const ;
CaseSensitive : : Choice m_caseSensitivity ;
WildcardPosition m_wildcard = NoWildcard ;
std : : string m_pattern ;
} ;
}
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// end catch_wildcard_pattern.h
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# include <string>
# include <vector>
# include <memory>
namespace Catch {
class TestSpec {
struct Pattern {
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virtual ~ Pattern ( ) ;
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virtual bool matches ( TestCaseInfo const & testCase ) const = 0 ;
} ;
using PatternPtr = std : : shared_ptr < Pattern > ;
class NamePattern : public Pattern {
public :
NamePattern ( std : : string const & name ) ;
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virtual ~ NamePattern ( ) ;
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virtual bool matches ( TestCaseInfo const & testCase ) const override ;
private :
WildcardPattern m_wildcardPattern ;
} ;
class TagPattern : public Pattern {
public :
TagPattern ( std : : string const & tag ) ;
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virtual ~ TagPattern ( ) ;
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virtual bool matches ( TestCaseInfo const & testCase ) const override ;
private :
std : : string m_tag ;
} ;
class ExcludedPattern : public Pattern {
public :
ExcludedPattern ( PatternPtr const & underlyingPattern ) ;
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virtual ~ ExcludedPattern ( ) ;
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virtual bool matches ( TestCaseInfo const & testCase ) const override ;
private :
PatternPtr m_underlyingPattern ;
} ;
struct Filter {
std : : vector < PatternPtr > m_patterns ;
bool matches ( TestCaseInfo const & testCase ) const ;
} ;
public :
bool hasFilters ( ) const ;
bool matches ( TestCaseInfo const & testCase ) const ;
private :
std : : vector < Filter > m_filters ;
friend class TestSpecParser ;
} ;
}
# ifdef __clang__
# pragma clang diagnostic pop
# endif
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// end catch_test_spec.h
// start catch_interfaces_tag_alias_registry.h
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# include <string>
namespace Catch {
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struct TagAlias ;
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struct ITagAliasRegistry {
virtual ~ ITagAliasRegistry ( ) ;
// Nullptr if not present
virtual TagAlias const * find ( std : : string const & alias ) const = 0 ;
virtual std : : string expandAliases ( std : : string const & unexpandedTestSpec ) const = 0 ;
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static ITagAliasRegistry const & get ( ) ;
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} ;
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} // end namespace Catch
// end catch_interfaces_tag_alias_registry.h
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namespace Catch {
class TestSpecParser {
enum Mode { None , Name , QuotedName , Tag , EscapedName } ;
Mode m_mode = None ;
bool m_exclusion = false ;
std : : size_t m_start = std : : string : : npos , m_pos = 0 ;
std : : string m_arg ;
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 :
void visitChar ( char c ) ;
void startNewMode ( Mode mode , std : : size_t start ) ;
void escape ( ) ;
std : : string subString ( ) const ;
template < typename T >
void addPattern ( ) {
std : : string token = subString ( ) ;
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for ( std : : size_t i = 0 ; i < m_escapeChars . size ( ) ; + + i )
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token = token . substr ( 0 , m_escapeChars [ i ] - m_start - i ) + token . substr ( m_escapeChars [ i ] - m_start - i + 1 ) ;
m_escapeChars . clear ( ) ;
if ( startsWith ( token , " exclude: " ) ) {
m_exclusion = true ;
token = token . substr ( 8 ) ;
}
if ( ! token . empty ( ) ) {
TestSpec : : PatternPtr pattern = std : : make_shared < T > ( token ) ;
if ( m_exclusion )
pattern = std : : make_shared < TestSpec : : ExcludedPattern > ( pattern ) ;
m_currentFilter . m_patterns . push_back ( pattern ) ;
}
m_exclusion = false ;
m_mode = None ;
}
void addFilter ( ) ;
} ;
TestSpec parseTestSpec ( std : : string const & arg ) ;
} // namespace Catch
# ifdef __clang__
# pragma clang diagnostic pop
# endif
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// end catch_test_spec_parser.h
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// start catch_interfaces_config.h
# include <iosfwd>
# include <string>
# include <vector>
# include <memory>
namespace Catch {
enum class Verbosity {
Quiet = 0 ,
Normal ,
High
} ;
struct WarnAbout { enum What {
Nothing = 0x00 ,
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NoAssertions = 0x01 ,
NoTests = 0x02
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} ; } ;
struct ShowDurations { enum OrNot {
DefaultForReporter ,
Always ,
Never
} ; } ;
struct RunTests { enum InWhatOrder {
InDeclarationOrder ,
InLexicographicalOrder ,
InRandomOrder
} ; } ;
struct UseColour { enum YesOrNo {
Auto ,
Yes ,
No
} ; } ;
struct WaitForKeypress { enum When {
Never ,
BeforeStart = 1 ,
BeforeExit = 2 ,
BeforeStartAndExit = BeforeStart | BeforeExit
} ; } ;
class TestSpec ;
struct IConfig : NonCopyable {
virtual ~ IConfig ( ) ;
virtual bool allowThrows ( ) const = 0 ;
virtual std : : ostream & stream ( ) const = 0 ;
virtual std : : string name ( ) const = 0 ;
virtual bool includeSuccessfulResults ( ) const = 0 ;
virtual bool shouldDebugBreak ( ) const = 0 ;
virtual bool warnAboutMissingAssertions ( ) const = 0 ;
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virtual bool warnAboutNoTests ( ) const = 0 ;
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virtual int abortAfter ( ) const = 0 ;
virtual bool showInvisibles ( ) const = 0 ;
virtual ShowDurations : : OrNot showDurations ( ) const = 0 ;
virtual TestSpec const & testSpec ( ) const = 0 ;
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virtual bool hasTestFilters ( ) const = 0 ;
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virtual RunTests : : InWhatOrder runOrder ( ) const = 0 ;
virtual unsigned int rngSeed ( ) const = 0 ;
virtual int benchmarkResolutionMultiple ( ) const = 0 ;
virtual UseColour : : YesOrNo useColour ( ) const = 0 ;
virtual std : : vector < std : : string > const & getSectionsToRun ( ) const = 0 ;
virtual Verbosity verbosity ( ) const = 0 ;
} ;
using IConfigPtr = std : : shared_ptr < IConfig const > ;
}
// end catch_interfaces_config.h
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// Libstdc++ doesn't like incomplete classes for unique_ptr
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# include <memory>
# include <vector>
# include <string>
# ifndef CATCH_CONFIG_CONSOLE_WIDTH
# define CATCH_CONFIG_CONSOLE_WIDTH 80
# endif
namespace Catch {
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struct IStream ;
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struct ConfigData {
bool listTests = false ;
bool listTags = false ;
bool listReporters = false ;
bool listTestNamesOnly = false ;
bool showSuccessfulTests = false ;
bool shouldDebugBreak = false ;
bool noThrow = false ;
bool showHelp = false ;
bool showInvisibles = false ;
bool filenamesAsTags = false ;
bool libIdentify = false ;
int abortAfter = - 1 ;
unsigned int rngSeed = 0 ;
int benchmarkResolutionMultiple = 100 ;
Verbosity verbosity = Verbosity : : Normal ;
WarnAbout : : What warnings = WarnAbout : : Nothing ;
ShowDurations : : OrNot showDurations = ShowDurations : : DefaultForReporter ;
RunTests : : InWhatOrder runOrder = RunTests : : InDeclarationOrder ;
UseColour : : YesOrNo useColour = UseColour : : Auto ;
WaitForKeypress : : When waitForKeypress = WaitForKeypress : : Never ;
std : : string outputFilename ;
std : : string name ;
std : : string processName ;
std : : vector < std : : string > reporterNames ;
std : : vector < std : : string > testsOrTags ;
std : : vector < std : : string > sectionsToRun ;
} ;
class Config : public IConfig {
public :
Config ( ) = default ;
Config ( ConfigData const & data ) ;
virtual ~ Config ( ) = default ;
std : : string const & getFilename ( ) const ;
bool listTests ( ) const ;
bool listTestNamesOnly ( ) const ;
bool listTags ( ) const ;
bool listReporters ( ) const ;
std : : string getProcessName ( ) const ;
std : : vector < std : : string > const & getReporterNames ( ) const ;
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std : : vector < std : : string > const & getTestsOrTags ( ) const ;
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std : : vector < std : : string > const & getSectionsToRun ( ) const override ;
virtual TestSpec const & testSpec ( ) const override ;
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bool hasTestFilters ( ) const override ;
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bool showHelp ( ) const ;
// IConfig interface
bool allowThrows ( ) const override ;
std : : ostream & stream ( ) const override ;
std : : string name ( ) const override ;
bool includeSuccessfulResults ( ) const override ;
bool warnAboutMissingAssertions ( ) const override ;
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bool warnAboutNoTests ( ) const override ;
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ShowDurations : : OrNot showDurations ( ) const override ;
RunTests : : InWhatOrder runOrder ( ) const override ;
unsigned int rngSeed ( ) const override ;
int benchmarkResolutionMultiple ( ) const override ;
UseColour : : YesOrNo useColour ( ) const override ;
bool shouldDebugBreak ( ) const override ;
int abortAfter ( ) const override ;
bool showInvisibles ( ) const override ;
Verbosity verbosity ( ) const override ;
private :
IStream const * openStream ( ) ;
ConfigData m_data ;
std : : unique_ptr < IStream const > m_stream ;
TestSpec m_testSpec ;
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bool m_hasTestFilters = false ;
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} ;
} // end namespace Catch
// end catch_config.hpp
// start catch_assertionresult.h
# include <string>
namespace Catch {
struct AssertionResultData
{
AssertionResultData ( ) = delete ;
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AssertionResultData ( ResultWas : : OfType _resultType , LazyExpression const & _lazyExpression ) ;
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std : : string message ;
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mutable std : : string reconstructedExpression ;
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LazyExpression lazyExpression ;
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ResultWas : : OfType resultType ;
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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 ;
std : : string getMessage ( ) const ;
SourceLineInfo getSourceInfo ( ) const ;
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StringRef getTestMacroName ( ) const ;
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//protected:
AssertionInfo m_info ;
AssertionResultData m_resultData ;
} ;
} // end namespace Catch
// end catch_assertionresult.h
// start catch_option.hpp
namespace Catch {
// An optional type
template < typename T >
class Option {
public :
Option ( ) : nullableValue ( nullptr ) { }
Option ( T const & _value )
: nullableValue ( new ( storage ) T ( _value ) )
{ }
Option ( Option const & _other )
: nullableValue ( _other ? new ( storage ) T ( * _other ) : nullptr )
{ }
~ Option ( ) {
reset ( ) ;
}
Option & operator = ( Option const & _other ) {
if ( & _other ! = this ) {
reset ( ) ;
if ( _other )
nullableValue = new ( storage ) T ( * _other ) ;
}
return * this ;
}
Option & operator = ( T const & _value ) {
reset ( ) ;
nullableValue = new ( storage ) T ( _value ) ;
return * this ;
}
void reset ( ) {
if ( nullableValue )
nullableValue - > ~ T ( ) ;
nullableValue = nullptr ;
}
T & operator * ( ) { return * nullableValue ; }
T const & operator * ( ) const { return * nullableValue ; }
T * operator - > ( ) { return nullableValue ; }
const T * operator - > ( ) const { 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 ( ) ;
}
private :
T * nullableValue ;
alignas ( alignof ( T ) ) char storage [ sizeof ( T ) ] ;
} ;
} // end namespace Catch
// end catch_option.hpp
# include <string>
# include <iosfwd>
# include <map>
# include <set>
# include <memory>
namespace Catch {
struct ReporterConfig {
explicit ReporterConfig ( IConfigPtr const & _fullConfig ) ;
ReporterConfig ( IConfigPtr const & _fullConfig , std : : ostream & _stream ) ;
std : : ostream & stream ( ) const ;
IConfigPtr fullConfig ( ) const ;
private :
std : : ostream * m_stream ;
IConfigPtr m_fullConfig ;
} ;
struct ReporterPreferences {
bool shouldRedirectStdOut = false ;
} ;
template < typename T >
struct LazyStat : Option < T > {
LazyStat & operator = ( T const & _value ) {
Option < T > : : operator = ( _value ) ;
used = false ;
return * this ;
}
void reset ( ) {
Option < T > : : reset ( ) ;
used = false ;
}
bool used = false ;
} ;
struct TestRunInfo {
TestRunInfo ( std : : string const & _name ) ;
std : : string name ;
} ;
struct GroupInfo {
GroupInfo ( std : : string const & _name ,
std : : size_t _groupIndex ,
std : : size_t _groupsCount ) ;
std : : string name ;
std : : size_t groupIndex ;
std : : size_t groupsCounts ;
} ;
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 & ) = default ;
AssertionStats & operator = ( AssertionStats & & ) = default ;
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virtual ~ AssertionStats ( ) ;
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AssertionResult assertionResult ;
std : : vector < MessageInfo > infoMessages ;
Totals totals ;
} ;
struct SectionStats {
SectionStats ( SectionInfo const & _sectionInfo ,
Counts const & _assertions ,
double _durationInSeconds ,
bool _missingAssertions ) ;
SectionStats ( SectionStats const & ) = default ;
SectionStats ( SectionStats & & ) = default ;
SectionStats & operator = ( SectionStats const & ) = default ;
SectionStats & operator = ( SectionStats & & ) = default ;
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virtual ~ SectionStats ( ) ;
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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 ) ;
TestCaseStats ( TestCaseStats const & ) = default ;
TestCaseStats ( TestCaseStats & & ) = default ;
TestCaseStats & operator = ( TestCaseStats const & ) = default ;
TestCaseStats & operator = ( TestCaseStats & & ) = default ;
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virtual ~ TestCaseStats ( ) ;
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TestCaseInfo testInfo ;
Totals totals ;
std : : string stdOut ;
std : : string stdErr ;
bool aborting ;
} ;
struct TestGroupStats {
TestGroupStats ( GroupInfo const & _groupInfo ,
Totals const & _totals ,
bool _aborting ) ;
TestGroupStats ( GroupInfo const & _groupInfo ) ;
TestGroupStats ( TestGroupStats const & ) = default ;
TestGroupStats ( TestGroupStats & & ) = default ;
TestGroupStats & operator = ( TestGroupStats const & ) = default ;
TestGroupStats & operator = ( TestGroupStats & & ) = default ;
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virtual ~ TestGroupStats ( ) ;
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GroupInfo groupInfo ;
Totals totals ;
bool aborting ;
} ;
struct TestRunStats {
TestRunStats ( TestRunInfo const & _runInfo ,
Totals const & _totals ,
bool _aborting ) ;
TestRunStats ( TestRunStats const & ) = default ;
TestRunStats ( TestRunStats & & ) = default ;
TestRunStats & operator = ( TestRunStats const & ) = default ;
TestRunStats & operator = ( TestRunStats & & ) = default ;
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virtual ~ TestRunStats ( ) ;
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TestRunInfo runInfo ;
Totals totals ;
bool aborting ;
} ;
struct BenchmarkInfo {
std : : string name ;
} ;
struct BenchmarkStats {
BenchmarkInfo info ;
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std : : size_t iterations ;
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uint64_t elapsedTimeInNanoseconds ;
} ;
struct IStreamingReporter {
virtual ~ IStreamingReporter ( ) = default ;
// Implementing class must also provide the following static methods:
// static std::string getDescription();
// static std::set<Verbosity> getSupportedVerbosities()
virtual ReporterPreferences getPreferences ( ) const = 0 ;
virtual void noMatchingTestCases ( std : : string const & spec ) = 0 ;
virtual void testRunStarting ( TestRunInfo const & testRunInfo ) = 0 ;
virtual void testGroupStarting ( GroupInfo const & groupInfo ) = 0 ;
virtual void testCaseStarting ( TestCaseInfo const & testInfo ) = 0 ;
virtual void sectionStarting ( SectionInfo const & sectionInfo ) = 0 ;
// *** experimental ***
virtual void benchmarkStarting ( BenchmarkInfo const & ) { }
virtual void assertionStarting ( AssertionInfo const & assertionInfo ) = 0 ;
// The return value indicates if the messages buffer should be cleared:
virtual bool assertionEnded ( AssertionStats const & assertionStats ) = 0 ;
// *** experimental ***
virtual void benchmarkEnded ( BenchmarkStats const & ) { }
virtual void sectionEnded ( SectionStats const & sectionStats ) = 0 ;
virtual void testCaseEnded ( TestCaseStats const & testCaseStats ) = 0 ;
virtual void testGroupEnded ( TestGroupStats const & testGroupStats ) = 0 ;
virtual void testRunEnded ( TestRunStats const & testRunStats ) = 0 ;
virtual void skipTest ( TestCaseInfo const & testInfo ) = 0 ;
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// Default empty implementation provided
virtual void fatalErrorEncountered ( StringRef name ) ;
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virtual bool isMulti ( ) const ;
} ;
using IStreamingReporterPtr = std : : unique_ptr < IStreamingReporter > ;
struct IReporterFactory {
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virtual ~ IReporterFactory ( ) ;
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virtual IStreamingReporterPtr create ( ReporterConfig const & config ) const = 0 ;
virtual std : : string getDescription ( ) const = 0 ;
} ;
using IReporterFactoryPtr = std : : shared_ptr < IReporterFactory > ;
struct IReporterRegistry {
using FactoryMap = std : : map < std : : string , IReporterFactoryPtr > ;
using Listeners = std : : vector < IReporterFactoryPtr > ;
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virtual ~ IReporterRegistry ( ) ;
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virtual IStreamingReporterPtr create ( std : : string const & name , IConfigPtr const & config ) const = 0 ;
virtual FactoryMap const & getFactories ( ) const = 0 ;
virtual Listeners const & getListeners ( ) const = 0 ;
} ;
void addReporter ( IStreamingReporterPtr & existingReporter , IStreamingReporterPtr & & additionalReporter ) ;
} // end namespace Catch
// end catch_interfaces_reporter.h
# include <algorithm>
# include <cstring>
# include <cfloat>
# include <cstdio>
# include <assert.h>
# include <memory>
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# include <ostream>
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namespace Catch {
void prepareExpandedExpression ( AssertionResult & result ) ;
// Returns double formatted as %.3f (format expected on output)
std : : string getFormattedDuration ( double duration ) ;
template < typename DerivedT >
struct StreamingReporterBase : IStreamingReporter {
StreamingReporterBase ( ReporterConfig const & _config )
: m_config ( _config . fullConfig ( ) ) ,
stream ( _config . stream ( ) )
{
m_reporterPrefs . shouldRedirectStdOut = false ;
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if ( ! DerivedT : : getSupportedVerbosities ( ) . count ( m_config - > verbosity ( ) ) )
throw std : : domain_error ( " Verbosity level not supported by this reporter " ) ;
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}
ReporterPreferences getPreferences ( ) const override {
return m_reporterPrefs ;
}
static std : : set < Verbosity > getSupportedVerbosities ( ) {
return { Verbosity : : Normal } ;
}
~ StreamingReporterBase ( ) override = default ;
void noMatchingTestCases ( std : : string const & ) override { }
void testRunStarting ( TestRunInfo const & _testRunInfo ) override {
currentTestRunInfo = _testRunInfo ;
}
void testGroupStarting ( GroupInfo const & _groupInfo ) override {
currentGroupInfo = _groupInfo ;
}
void testCaseStarting ( TestCaseInfo const & _testInfo ) override {
currentTestCaseInfo = _testInfo ;
}
void sectionStarting ( SectionInfo const & _sectionInfo ) override {
m_sectionStack . push_back ( _sectionInfo ) ;
}
void sectionEnded ( SectionStats const & /* _sectionStats */ ) override {
m_sectionStack . pop_back ( ) ;
}
void testCaseEnded ( TestCaseStats const & /* _testCaseStats */ ) override {
currentTestCaseInfo . reset ( ) ;
}
void testGroupEnded ( TestGroupStats const & /* _testGroupStats */ ) override {
currentGroupInfo . reset ( ) ;
}
void testRunEnded ( TestRunStats const & /* _testRunStats */ ) override {
currentTestCaseInfo . reset ( ) ;
currentGroupInfo . reset ( ) ;
currentTestRunInfo . reset ( ) ;
}
void skipTest ( TestCaseInfo const & ) override {
// Don't do anything with this by default.
// It can optionally be overridden in the derived class.
}
IConfigPtr m_config ;
std : : ostream & stream ;
LazyStat < TestRunInfo > currentTestRunInfo ;
LazyStat < GroupInfo > currentGroupInfo ;
LazyStat < TestCaseInfo > currentTestCaseInfo ;
std : : vector < SectionInfo > m_sectionStack ;
ReporterPreferences m_reporterPrefs ;
} ;
template < typename DerivedT >
struct CumulativeReporterBase : IStreamingReporter {
template < typename T , typename ChildNodeT >
struct Node {
explicit Node ( T const & _value ) : value ( _value ) { }
virtual ~ Node ( ) { }
using ChildNodes = std : : vector < std : : shared_ptr < ChildNodeT > > ;
T value ;
ChildNodes children ;
} ;
struct SectionNode {
explicit SectionNode ( SectionStats const & _stats ) : stats ( _stats ) { }
virtual ~ SectionNode ( ) = default ;
bool operator = = ( SectionNode const & other ) const {
return stats . sectionInfo . lineInfo = = other . stats . sectionInfo . lineInfo ;
}
bool operator = = ( std : : shared_ptr < SectionNode > const & other ) const {
return operator = = ( * other ) ;
}
SectionStats stats ;
using ChildSections = std : : vector < std : : shared_ptr < SectionNode > > ;
using Assertions = std : : vector < AssertionStats > ;
ChildSections childSections ;
Assertions assertions ;
std : : string stdOut ;
std : : string stdErr ;
} ;
struct BySectionInfo {
BySectionInfo ( SectionInfo const & other ) : m_other ( other ) { }
BySectionInfo ( BySectionInfo const & other ) : m_other ( other . m_other ) { }
bool operator ( ) ( std : : shared_ptr < SectionNode > const & node ) const {
return ( ( node - > stats . sectionInfo . name = = m_other . name ) & &
( node - > stats . sectionInfo . lineInfo = = m_other . lineInfo ) ) ;
}
void operator = ( BySectionInfo const & ) = delete ;
private :
SectionInfo const & m_other ;
} ;
using TestCaseNode = Node < TestCaseStats , SectionNode > ;
using TestGroupNode = Node < TestGroupStats , TestCaseNode > ;
using TestRunNode = Node < TestRunStats , TestGroupNode > ;
CumulativeReporterBase ( ReporterConfig const & _config )
: m_config ( _config . fullConfig ( ) ) ,
stream ( _config . stream ( ) )
{
m_reporterPrefs . shouldRedirectStdOut = false ;
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if ( ! DerivedT : : getSupportedVerbosities ( ) . count ( m_config - > verbosity ( ) ) )
throw std : : domain_error ( " Verbosity level not supported by this reporter " ) ;
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}
~ CumulativeReporterBase ( ) override = default ;
ReporterPreferences getPreferences ( ) const override {
return m_reporterPrefs ;
}
static std : : set < Verbosity > getSupportedVerbosities ( ) {
return { Verbosity : : Normal } ;
}
void testRunStarting ( TestRunInfo const & ) override { }
void testGroupStarting ( GroupInfo const & ) override { }
void testCaseStarting ( TestCaseInfo const & ) override { }
void sectionStarting ( SectionInfo const & sectionInfo ) override {
SectionStats incompleteStats ( sectionInfo , Counts ( ) , 0 , false ) ;
std : : shared_ptr < SectionNode > node ;
if ( m_sectionStack . empty ( ) ) {
if ( ! m_rootSection )
m_rootSection = std : : make_shared < SectionNode > ( incompleteStats ) ;
node = m_rootSection ;
}
else {
SectionNode & parentNode = * m_sectionStack . back ( ) ;
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auto it =
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std : : find_if ( parentNode . childSections . begin ( ) ,
parentNode . childSections . end ( ) ,
BySectionInfo ( sectionInfo ) ) ;
if ( it = = parentNode . childSections . end ( ) ) {
node = std : : make_shared < SectionNode > ( incompleteStats ) ;
parentNode . childSections . push_back ( node ) ;
}
else
node = * it ;
}
m_sectionStack . push_back ( node ) ;
m_deepestSection = std : : move ( node ) ;
}
void assertionStarting ( AssertionInfo const & ) override { }
bool assertionEnded ( AssertionStats const & assertionStats ) override {
assert ( ! m_sectionStack . empty ( ) ) ;
// AssertionResult holds a pointer to a temporary DecomposedExpression,
// which getExpandedExpression() calls to build the expression string.
// Our section stack copy of the assertionResult will likely outlive the
// temporary, so it must be expanded or discarded now to avoid calling
// a destroyed object later.
prepareExpandedExpression ( const_cast < AssertionResult & > ( assertionStats . assertionResult ) ) ;
SectionNode & sectionNode = * m_sectionStack . back ( ) ;
sectionNode . assertions . push_back ( assertionStats ) ;
return true ;
}
void sectionEnded ( SectionStats const & sectionStats ) override {
assert ( ! m_sectionStack . empty ( ) ) ;
SectionNode & node = * m_sectionStack . back ( ) ;
node . stats = sectionStats ;
m_sectionStack . pop_back ( ) ;
}
void testCaseEnded ( TestCaseStats const & testCaseStats ) override {
auto node = std : : make_shared < TestCaseNode > ( testCaseStats ) ;
assert ( m_sectionStack . size ( ) = = 0 ) ;
node - > children . push_back ( m_rootSection ) ;
m_testCases . push_back ( node ) ;
m_rootSection . reset ( ) ;
assert ( m_deepestSection ) ;
m_deepestSection - > stdOut = testCaseStats . stdOut ;
m_deepestSection - > stdErr = testCaseStats . stdErr ;
}
void testGroupEnded ( TestGroupStats const & testGroupStats ) override {
auto node = std : : make_shared < TestGroupNode > ( testGroupStats ) ;
node - > children . swap ( m_testCases ) ;
m_testGroups . push_back ( node ) ;
}
void testRunEnded ( TestRunStats const & testRunStats ) override {
auto node = std : : make_shared < TestRunNode > ( testRunStats ) ;
node - > children . swap ( m_testGroups ) ;
m_testRuns . push_back ( node ) ;
testRunEndedCumulative ( ) ;
}
virtual void testRunEndedCumulative ( ) = 0 ;
void skipTest ( TestCaseInfo const & ) override { }
IConfigPtr m_config ;
std : : ostream & stream ;
std : : vector < AssertionStats > m_assertions ;
std : : vector < std : : vector < std : : shared_ptr < SectionNode > > > m_sections ;
std : : vector < std : : shared_ptr < TestCaseNode > > m_testCases ;
std : : vector < std : : shared_ptr < TestGroupNode > > m_testGroups ;
std : : vector < std : : shared_ptr < TestRunNode > > m_testRuns ;
std : : shared_ptr < SectionNode > m_rootSection ;
std : : shared_ptr < SectionNode > m_deepestSection ;
std : : vector < std : : shared_ptr < SectionNode > > m_sectionStack ;
ReporterPreferences m_reporterPrefs ;
} ;
template < char C >
char const * getLineOfChars ( ) {
static char line [ CATCH_CONFIG_CONSOLE_WIDTH ] = { 0 } ;
if ( ! * line ) {
std : : memset ( line , C , CATCH_CONFIG_CONSOLE_WIDTH - 1 ) ;
line [ CATCH_CONFIG_CONSOLE_WIDTH - 1 ] = 0 ;
}
return line ;
}
struct TestEventListenerBase : StreamingReporterBase < TestEventListenerBase > {
TestEventListenerBase ( ReporterConfig const & _config ) ;
void assertionStarting ( AssertionInfo const & ) override ;
bool assertionEnded ( AssertionStats const & ) override ;
} ;
} // end namespace Catch
// end catch_reporter_bases.hpp
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// start catch_console_colour.h
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namespace Catch {
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struct Colour {
enum Code {
None = 0 ,
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White ,
Red ,
Green ,
Blue ,
Cyan ,
Yellow ,
Grey ,
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Bright = 0x10 ,
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BrightRed = Bright | Red ,
BrightGreen = Bright | Green ,
LightGrey = Bright | Grey ,
BrightWhite = Bright | White ,
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BrightYellow = Bright | Yellow ,
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// By intention
FileName = LightGrey ,
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Warning = BrightYellow ,
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ResultError = BrightRed ,
ResultSuccess = BrightGreen ,
ResultExpectedFailure = Warning ,
Error = BrightRed ,
Success = Green ,
OriginalExpression = Cyan ,
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ReconstructedExpression = BrightYellow ,
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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 ;
} ;
std : : ostream & operator < < ( std : : ostream & os , Colour const & ) ;
} // end namespace Catch
// end catch_console_colour.h
// start catch_reporter_registrars.hpp
namespace Catch {
template < typename T >
class ReporterRegistrar {
class ReporterFactory : public IReporterFactory {
virtual IStreamingReporterPtr create ( ReporterConfig const & config ) const override {
return std : : unique_ptr < T > ( new T ( config ) ) ;
}
virtual std : : string getDescription ( ) const override {
return T : : getDescription ( ) ;
}
} ;
public :
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explicit ReporterRegistrar ( std : : string const & name ) {
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getMutableRegistryHub ( ) . registerReporter ( name , std : : make_shared < ReporterFactory > ( ) ) ;
}
} ;
template < typename T >
class ListenerRegistrar {
class ListenerFactory : public IReporterFactory {
virtual IStreamingReporterPtr create ( ReporterConfig const & config ) const override {
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return std : : unique_ptr < T > ( new T ( config ) ) ;
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}
virtual std : : string getDescription ( ) const override {
return std : : string ( ) ;
}
} ;
public :
ListenerRegistrar ( ) {
getMutableRegistryHub ( ) . registerListener ( std : : make_shared < ListenerFactory > ( ) ) ;
}
} ;
}
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# if !defined(CATCH_CONFIG_DISABLE)
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# define CATCH_REGISTER_REPORTER( name, reporterType ) \
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CATCH_INTERNAL_SUPPRESS_GLOBALS_WARNINGS \
namespace { Catch : : ReporterRegistrar < reporterType > catch_internal_RegistrarFor # # reporterType ( name ) ; } \
CATCH_INTERNAL_UNSUPPRESS_GLOBALS_WARNINGS
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# define CATCH_REGISTER_LISTENER( listenerType ) \
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CATCH_INTERNAL_SUPPRESS_GLOBALS_WARNINGS \
namespace { Catch : : ListenerRegistrar < listenerType > catch_internal_RegistrarFor # # listenerType ; } \
CATCH_INTERNAL_SUPPRESS_GLOBALS_WARNINGS
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# else // CATCH_CONFIG_DISABLE
# define CATCH_REGISTER_REPORTER(name, reporterType)
# define CATCH_REGISTER_LISTENER(listenerType)
# endif // CATCH_CONFIG_DISABLE
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// end catch_reporter_registrars.hpp
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// Allow users to base their work off existing reporters
// start catch_reporter_compact.h
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namespace Catch {
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struct CompactReporter : StreamingReporterBase < CompactReporter > {
using StreamingReporterBase : : StreamingReporterBase ;
~ CompactReporter ( ) override ;
static std : : string getDescription ( ) ;
ReporterPreferences getPreferences ( ) const override ;
void noMatchingTestCases ( std : : string const & spec ) override ;
void assertionStarting ( AssertionInfo const & ) override ;
bool assertionEnded ( AssertionStats const & _assertionStats ) override ;
void sectionEnded ( SectionStats const & _sectionStats ) override ;
void testRunEnded ( TestRunStats const & _testRunStats ) override ;
} ;
} // end namespace Catch
// end catch_reporter_compact.h
// start catch_reporter_console.h
# if defined(_MSC_VER)
# pragma warning(push)
# pragma warning(disable:4061) // Not all labels are EXPLICITLY handled in switch
// Note that 4062 (not all labels are handled
// and default is missing) is enabled
# endif
namespace Catch {
// Fwd decls
struct SummaryColumn ;
class TablePrinter ;
struct ConsoleReporter : StreamingReporterBase < ConsoleReporter > {
std : : unique_ptr < TablePrinter > m_tablePrinter ;
ConsoleReporter ( ReporterConfig const & config ) ;
~ ConsoleReporter ( ) override ;
static std : : string getDescription ( ) ;
void noMatchingTestCases ( std : : string const & spec ) override ;
void assertionStarting ( AssertionInfo const & ) override ;
bool assertionEnded ( AssertionStats const & _assertionStats ) override ;
void sectionStarting ( SectionInfo const & _sectionInfo ) override ;
void sectionEnded ( SectionStats const & _sectionStats ) override ;
void benchmarkStarting ( BenchmarkInfo const & info ) override ;
void benchmarkEnded ( BenchmarkStats const & stats ) override ;
void testCaseEnded ( TestCaseStats const & _testCaseStats ) override ;
void testGroupEnded ( TestGroupStats const & _testGroupStats ) override ;
void testRunEnded ( TestRunStats const & _testRunStats ) override ;
private :
void lazyPrint ( ) ;
void lazyPrintWithoutClosingBenchmarkTable ( ) ;
void lazyPrintRunInfo ( ) ;
void lazyPrintGroupInfo ( ) ;
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 ) ;
void printSummaryRow ( std : : string const & label , std : : vector < SummaryColumn > const & cols , std : : size_t row ) ;
void printTotalsDivider ( Totals const & totals ) ;
void printSummaryDivider ( ) ;
private :
bool m_headerPrinted = false ;
} ;
} // end namespace Catch
# if defined(_MSC_VER)
# pragma warning(pop)
# endif
// end catch_reporter_console.h
// start catch_reporter_junit.h
// start catch_xmlwriter.h
# include <vector>
namespace Catch {
class XmlEncode {
public :
enum ForWhat { ForTextNodes , ForAttributes } ;
XmlEncode ( std : : string const & str , ForWhat forWhat = ForTextNodes ) ;
void encodeTo ( std : : ostream & os ) const ;
friend std : : ostream & operator < < ( std : : ostream & os , XmlEncode const & xmlEncode ) ;
private :
std : : string m_str ;
ForWhat m_forWhat ;
} ;
class XmlWriter {
public :
class ScopedElement {
public :
ScopedElement ( XmlWriter * writer ) ;
ScopedElement ( ScopedElement & & other ) noexcept ;
ScopedElement & operator = ( ScopedElement & & other ) noexcept ;
~ ScopedElement ( ) ;
ScopedElement & writeText ( std : : string const & text , bool indent = true ) ;
template < typename T >
ScopedElement & writeAttribute ( std : : string const & name , T const & attribute ) {
m_writer - > writeAttribute ( name , attribute ) ;
return * this ;
}
private :
mutable XmlWriter * m_writer = nullptr ;
} ;
XmlWriter ( std : : ostream & os = Catch : : cout ( ) ) ;
~ XmlWriter ( ) ;
XmlWriter ( XmlWriter const & ) = delete ;
XmlWriter & operator = ( XmlWriter const & ) = delete ;
XmlWriter & startElement ( std : : string const & name ) ;
ScopedElement scopedElement ( std : : string const & name ) ;
XmlWriter & endElement ( ) ;
XmlWriter & writeAttribute ( std : : string const & name , std : : string const & attribute ) ;
XmlWriter & writeAttribute ( std : : string const & name , bool attribute ) ;
template < typename T >
XmlWriter & writeAttribute ( std : : string const & name , T const & attribute ) {
ReusableStringStream rss ;
rss < < attribute ;
return writeAttribute ( name , rss . str ( ) ) ;
}
XmlWriter & writeText ( std : : string const & text , bool indent = true ) ;
XmlWriter & writeComment ( std : : string const & text ) ;
void writeStylesheetRef ( std : : string const & url ) ;
XmlWriter & writeBlankLine ( ) ;
void ensureTagClosed ( ) ;
private :
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 ;
} ;
}
// end catch_xmlwriter.h
namespace Catch {
class JunitReporter : public CumulativeReporterBase < JunitReporter > {
public :
JunitReporter ( ReporterConfig const & _config ) ;
~ JunitReporter ( ) override ;
static std : : string getDescription ( ) ;
void noMatchingTestCases ( std : : string const & /*spec*/ ) override ;
void testRunStarting ( TestRunInfo const & runInfo ) override ;
void testGroupStarting ( GroupInfo const & groupInfo ) override ;
void testCaseStarting ( TestCaseInfo const & testCaseInfo ) override ;
bool assertionEnded ( AssertionStats const & assertionStats ) override ;
void testCaseEnded ( TestCaseStats const & testCaseStats ) override ;
void testGroupEnded ( TestGroupStats const & testGroupStats ) override ;
void testRunEndedCumulative ( ) override ;
void writeGroup ( TestGroupNode const & groupNode , double suiteTime ) ;
void writeTestCase ( TestCaseNode const & testCaseNode ) ;
void writeSection ( std : : string const & className ,
std : : string const & rootName ,
SectionNode const & sectionNode ) ;
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
// end catch_reporter_junit.h
// start catch_reporter_xml.h
namespace Catch {
class XmlReporter : public StreamingReporterBase < XmlReporter > {
public :
XmlReporter ( ReporterConfig const & _config ) ;
~ XmlReporter ( ) override ;
static std : : string getDescription ( ) ;
virtual std : : string getStylesheetRef ( ) const ;
void writeSourceInfo ( SourceLineInfo const & sourceInfo ) ;
public : // StreamingReporterBase
void noMatchingTestCases ( std : : string const & s ) override ;
void testRunStarting ( TestRunInfo const & testInfo ) override ;
void testGroupStarting ( GroupInfo const & groupInfo ) override ;
void testCaseStarting ( TestCaseInfo const & testInfo ) override ;
void sectionStarting ( SectionInfo const & sectionInfo ) override ;
void assertionStarting ( AssertionInfo const & ) override ;
bool assertionEnded ( AssertionStats const & assertionStats ) override ;
void sectionEnded ( SectionStats const & sectionStats ) override ;
void testCaseEnded ( TestCaseStats const & testCaseStats ) override ;
void testGroupEnded ( TestGroupStats const & testGroupStats ) override ;
void testRunEnded ( TestRunStats const & testRunStats ) override ;
private :
Timer m_testCaseTimer ;
XmlWriter m_xml ;
int m_sectionDepth = 0 ;
} ;
} // end namespace Catch
// end catch_reporter_xml.h
// end catch_external_interfaces.h
# endif
# endif // ! CATCH_CONFIG_IMPL_ONLY
# ifdef CATCH_IMPL
// start catch_impl.hpp
# ifdef __clang__
# pragma clang diagnostic push
# pragma clang diagnostic ignored "-Wweak-vtables"
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# endif
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// Keep these here for external reporters
// start catch_test_case_tracker.h
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# include <string>
# include <vector>
# include <memory>
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namespace Catch {
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namespace TestCaseTracking {
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struct NameAndLocation {
std : : string name ;
SourceLineInfo location ;
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NameAndLocation ( std : : string const & _name , SourceLineInfo const & _location ) ;
} ;
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struct ITracker ;
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using ITrackerPtr = std : : shared_ptr < ITracker > ;
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struct ITracker {
virtual ~ ITracker ( ) ;
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// static queries
virtual NameAndLocation const & nameAndLocation ( ) const = 0 ;
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// dynamic queries
virtual bool isComplete ( ) const = 0 ; // Successfully completed or failed
virtual bool isSuccessfullyCompleted ( ) const = 0 ;
virtual bool isOpen ( ) const = 0 ; // Started but not complete
virtual bool hasChildren ( ) const = 0 ;
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virtual ITracker & parent ( ) = 0 ;
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// actions
virtual void close ( ) = 0 ; // Successfully complete
virtual void fail ( ) = 0 ;
virtual void markAsNeedingAnotherRun ( ) = 0 ;
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virtual void addChild ( ITrackerPtr const & child ) = 0 ;
virtual ITrackerPtr findChild ( NameAndLocation const & nameAndLocation ) = 0 ;
virtual void openChild ( ) = 0 ;
// Debug/ checking
virtual bool isSectionTracker ( ) const = 0 ;
virtual bool isIndexTracker ( ) const = 0 ;
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} ;
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class TrackerContext {
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enum RunState {
NotStarted ,
Executing ,
CompletedCycle
} ;
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ITrackerPtr m_rootTracker ;
ITracker * m_currentTracker = nullptr ;
RunState m_runState = NotStarted ;
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public :
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static TrackerContext & instance ( ) ;
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ITracker & startRun ( ) ;
void endRun ( ) ;
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void startCycle ( ) ;
void completeCycle ( ) ;
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bool completedCycle ( ) const ;
ITracker & currentTracker ( ) ;
void setCurrentTracker ( ITracker * tracker ) ;
} ;
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class TrackerBase : public ITracker {
protected :
enum CycleState {
NotStarted ,
Executing ,
ExecutingChildren ,
NeedsAnotherRun ,
CompletedSuccessfully ,
Failed
} ;
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class TrackerHasName {
NameAndLocation m_nameAndLocation ;
public :
TrackerHasName ( NameAndLocation const & nameAndLocation ) ;
bool operator ( ) ( ITrackerPtr const & tracker ) const ;
} ;
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using Children = std : : vector < ITrackerPtr > ;
NameAndLocation m_nameAndLocation ;
TrackerContext & m_ctx ;
ITracker * m_parent ;
Children m_children ;
CycleState m_runState = NotStarted ;
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public :
TrackerBase ( NameAndLocation const & nameAndLocation , TrackerContext & ctx , ITracker * parent ) ;
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NameAndLocation const & nameAndLocation ( ) const override ;
bool isComplete ( ) const override ;
bool isSuccessfullyCompleted ( ) const override ;
bool isOpen ( ) const override ;
bool hasChildren ( ) const override ;
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void addChild ( ITrackerPtr const & child ) override ;
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ITrackerPtr findChild ( NameAndLocation const & nameAndLocation ) override ;
ITracker & parent ( ) override ;
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void openChild ( ) override ;
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bool isSectionTracker ( ) const override ;
bool isIndexTracker ( ) const override ;
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void open ( ) ;
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void close ( ) override ;
void fail ( ) override ;
void markAsNeedingAnotherRun ( ) override ;
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private :
void moveToParent ( ) ;
void moveToThis ( ) ;
} ;
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class SectionTracker : public TrackerBase {
std : : vector < std : : string > m_filters ;
public :
SectionTracker ( NameAndLocation const & nameAndLocation , TrackerContext & ctx , ITracker * parent ) ;
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bool isSectionTracker ( ) const override ;
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static SectionTracker & acquire ( TrackerContext & ctx , NameAndLocation const & nameAndLocation ) ;
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void tryOpen ( ) ;
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void addInitialFilters ( std : : vector < std : : string > const & filters ) ;
void addNextFilters ( std : : vector < std : : string > const & filters ) ;
} ;
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class IndexTracker : public TrackerBase {
int m_size ;
int m_index = - 1 ;
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public :
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IndexTracker ( NameAndLocation const & nameAndLocation , TrackerContext & ctx , ITracker * parent , int size ) ;
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bool isIndexTracker ( ) const override ;
void close ( ) override ;
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static IndexTracker & acquire ( TrackerContext & ctx , NameAndLocation const & nameAndLocation , int size ) ;
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int index ( ) const ;
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void moveNext ( ) ;
} ;
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} // namespace TestCaseTracking
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using TestCaseTracking : : ITracker ;
using TestCaseTracking : : TrackerContext ;
using TestCaseTracking : : SectionTracker ;
using TestCaseTracking : : IndexTracker ;
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} // namespace Catch
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// end catch_test_case_tracker.h
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// start catch_leak_detector.h
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namespace Catch {
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struct LeakDetector {
LeakDetector ( ) ;
} ;
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}
// end catch_leak_detector.h
// Cpp files will be included in the single-header file here
// start catch_approx.cpp
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# include <cmath>
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# include <limits>
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namespace {
// Performs equivalent check of std::fabs(lhs - rhs) <= margin
// But without the subtraction to allow for INFINITY in comparison
bool marginComparison ( double lhs , double rhs , double margin ) {
return ( lhs + margin > = rhs ) & & ( rhs + margin > = lhs ) ;
}
}
namespace Catch {
namespace Detail {
Approx : : Approx ( double value )
: m_epsilon ( std : : numeric_limits < float > : : epsilon ( ) * 100 ) ,
m_margin ( 0.0 ) ,
m_scale ( 0.0 ) ,
m_value ( value )
{ }
Approx Approx : : custom ( ) {
return Approx ( 0 ) ;
}
std : : string Approx : : toString ( ) const {
ReusableStringStream rss ;
rss < < " Approx( " < < : : Catch : : Detail : : stringify ( m_value ) < < " ) " ;
return rss . str ( ) ;
}
bool Approx : : equalityComparisonImpl ( const double other ) const {
// First try with fixed margin, then compute margin based on epsilon, scale and Approx's value
// Thanks to Richard Harris for his help refining the scaled margin value
return marginComparison ( m_value , other , m_margin ) | | marginComparison ( m_value , other , m_epsilon * ( m_scale + std : : fabs ( m_value ) ) ) ;
}
} // end namespace Detail
std : : string StringMaker < Catch : : Detail : : Approx > : : convert ( Catch : : Detail : : Approx const & value ) {
return value . toString ( ) ;
}
} // end namespace Catch
// end catch_approx.cpp
// start catch_assertionhandler.cpp
// start catch_context.h
# include <memory>
namespace Catch {
struct IResultCapture ;
struct IRunner ;
struct IConfig ;
struct IMutableContext ;
using IConfigPtr = std : : shared_ptr < IConfig const > ;
struct IContext
{
virtual ~ IContext ( ) ;
virtual IResultCapture * getResultCapture ( ) = 0 ;
virtual IRunner * getRunner ( ) = 0 ;
virtual IConfigPtr const & getConfig ( ) const = 0 ;
} ;
struct IMutableContext : IContext
{
virtual ~ IMutableContext ( ) ;
virtual void setResultCapture ( IResultCapture * resultCapture ) = 0 ;
virtual void setRunner ( IRunner * runner ) = 0 ;
virtual void setConfig ( IConfigPtr const & config ) = 0 ;
private :
static IMutableContext * currentContext ;
friend IMutableContext & getCurrentMutableContext ( ) ;
friend void cleanUpContext ( ) ;
static void createContext ( ) ;
} ;
inline IMutableContext & getCurrentMutableContext ( )
{
if ( ! IMutableContext : : currentContext )
IMutableContext : : createContext ( ) ;
return * IMutableContext : : currentContext ;
}
inline IContext & getCurrentContext ( )
{
return getCurrentMutableContext ( ) ;
}
void cleanUpContext ( ) ;
}
// end catch_context.h
// start catch_debugger.h
namespace Catch {
bool isDebuggerActive ( ) ;
}
# ifdef CATCH_PLATFORM_MAC
# define CATCH_TRAP() __asm__("int $3\n" : : ) /* NOLINT */
# 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
# ifdef CATCH_TRAP
# define CATCH_BREAK_INTO_DEBUGGER() if( Catch::isDebuggerActive() ) { CATCH_TRAP(); }
# else
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namespace Catch {
inline void doNothing ( ) { }
}
# define CATCH_BREAK_INTO_DEBUGGER() Catch::doNothing()
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# endif
// end catch_debugger.h
// start catch_run_context.h
// start catch_fatal_condition.h
// start catch_windows_h_proxy.h
# 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)
// end catch_windows_h_proxy.h
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# if defined( CATCH_CONFIG_WINDOWS_SEH )
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namespace Catch {
struct FatalConditionHandler {
static LONG CALLBACK handleVectoredException ( PEXCEPTION_POINTERS ExceptionInfo ) ;
FatalConditionHandler ( ) ;
static void reset ( ) ;
~ FatalConditionHandler ( ) ;
private :
static bool isSet ;
static ULONG guaranteeSize ;
static PVOID exceptionHandlerHandle ;
} ;
} // namespace Catch
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# elif defined ( CATCH_CONFIG_POSIX_SIGNALS )
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# include <signal.h>
namespace Catch {
struct FatalConditionHandler {
static bool isSet ;
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static struct sigaction oldSigActions [ ] ;
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static stack_t oldSigStack ;
static char altStackMem [ ] ;
static void handleSignal ( int sig ) ;
FatalConditionHandler ( ) ;
~ FatalConditionHandler ( ) ;
static void reset ( ) ;
} ;
} // namespace Catch
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# else
namespace Catch {
struct FatalConditionHandler {
void reset ( ) ;
} ;
}
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# endif
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// end catch_fatal_condition.h
# include <string>
namespace Catch {
struct IMutableContext ;
///////////////////////////////////////////////////////////////////////////
class RunContext : public IResultCapture , public IRunner {
public :
RunContext ( RunContext const & ) = delete ;
RunContext & operator = ( RunContext const & ) = delete ;
explicit RunContext ( IConfigPtr const & _config , IStreamingReporterPtr & & reporter ) ;
~ RunContext ( ) override ;
void testGroupStarting ( std : : string const & testSpec , std : : size_t groupIndex , std : : size_t groupsCount ) ;
void testGroupEnded ( std : : string const & testSpec , Totals const & totals , std : : size_t groupIndex , std : : size_t groupsCount ) ;
Totals runTest ( TestCase const & testCase ) ;
IConfigPtr config ( ) const ;
IStreamingReporter & reporter ( ) const ;
public : // IResultCapture
// Assertion handlers
void handleExpr
( AssertionInfo const & info ,
ITransientExpression const & expr ,
AssertionReaction & reaction ) override ;
void handleMessage
( AssertionInfo const & info ,
ResultWas : : OfType resultType ,
StringRef const & message ,
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 ;
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void benchmarkStarting ( BenchmarkInfo const & info ) override ;
void benchmarkEnded ( BenchmarkStats const & stats ) override ;
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void pushScopedMessage ( MessageInfo const & message ) override ;
void popScopedMessage ( MessageInfo const & message ) override ;
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std : : string getCurrentTestName ( ) const override ;
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const AssertionResult * getLastResult ( ) const override ;
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void exceptionEarlyReported ( ) override ;
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void handleFatalErrorCondition ( StringRef message ) override ;
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bool lastAssertionPassed ( ) override ;
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void assertionPassed ( ) override ;
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public :
// !TBD We need to do this another way!
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bool aborting ( ) const final ;
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private :
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void runCurrentTest ( std : : string & redirectedCout , std : : string & redirectedCerr ) ;
void invokeActiveTestCase ( ) ;
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void resetAssertionInfo ( ) ;
bool testForMissingAssertions ( Counts & assertions ) ;
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void assertionEnded ( AssertionResult const & result ) ;
void reportExpr
( AssertionInfo const & info ,
ResultWas : : OfType resultType ,
ITransientExpression const * expr ,
bool negated ) ;
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void populateReaction ( AssertionReaction & reaction ) ;
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private :
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void handleUnfinishedSections ( ) ;
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TestRunInfo m_runInfo ;
IMutableContext & m_context ;
TestCase const * m_activeTestCase = nullptr ;
ITracker * m_testCaseTracker ;
Option < AssertionResult > m_lastResult ;
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IConfigPtr m_config ;
Totals m_totals ;
IStreamingReporterPtr m_reporter ;
std : : vector < MessageInfo > m_messages ;
AssertionInfo m_lastAssertionInfo ;
std : : vector < SectionEndInfo > m_unfinishedSections ;
std : : vector < ITracker * > m_activeSections ;
TrackerContext m_trackerContext ;
bool m_lastAssertionPassed = false ;
bool m_shouldReportUnexpected = true ;
bool m_includeSuccessfulResults ;
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} ;
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} // end namespace Catch
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// end catch_run_context.h
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namespace Catch {
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auto operator < < ( std : : ostream & os , ITransientExpression const & expr ) - > std : : ostream & {
expr . streamReconstructedExpression ( os ) ;
return os ;
}
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LazyExpression : : LazyExpression ( bool isNegated )
: m_isNegated ( isNegated )
{ }
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LazyExpression : : LazyExpression ( LazyExpression const & other ) : m_isNegated ( other . m_isNegated ) { }
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LazyExpression : : operator bool ( ) const {
return m_transientExpression ! = nullptr ;
}
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auto operator < < ( std : : ostream & os , LazyExpression const & lazyExpr ) - > std : : ostream & {
if ( lazyExpr . m_isNegated )
os < < " ! " ;
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if ( lazyExpr ) {
if ( lazyExpr . m_isNegated & & lazyExpr . m_transientExpression - > isBinaryExpression ( ) )
os < < " ( " < < * lazyExpr . m_transientExpression < < " ) " ;
else
os < < * lazyExpr . m_transientExpression ;
}
else {
os < < " {** error - unchecked empty expression requested **} " ;
}
return os ;
}
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AssertionHandler : : AssertionHandler
( StringRef macroName ,
SourceLineInfo const & lineInfo ,
StringRef capturedExpression ,
ResultDisposition : : Flags resultDisposition )
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: m_assertionInfo { macroName , lineInfo , capturedExpression , resultDisposition } ,
m_resultCapture ( getResultCapture ( ) )
{ }
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void AssertionHandler : : handleExpr ( ITransientExpression const & expr ) {
m_resultCapture . handleExpr ( m_assertionInfo , expr , m_reaction ) ;
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}
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void AssertionHandler : : handleMessage ( ResultWas : : OfType resultType , StringRef const & message ) {
m_resultCapture . handleMessage ( m_assertionInfo , resultType , message , m_reaction ) ;
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}
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auto AssertionHandler : : allowThrows ( ) const - > bool {
return getCurrentContext ( ) . getConfig ( ) - > allowThrows ( ) ;
}
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void AssertionHandler : : complete ( ) {
setCompleted ( ) ;
if ( m_reaction . shouldDebugBreak ) {
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// If you find your debugger stopping you here then go one level up on the
// call-stack for the code that caused it (typically a failed assertion)
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// (To go back to the test and change execution, jump over the throw, next)
CATCH_BREAK_INTO_DEBUGGER ( ) ;
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}
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if ( m_reaction . shouldThrow )
throw Catch : : TestFailureException ( ) ;
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}
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void AssertionHandler : : setCompleted ( ) {
m_completed = true ;
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}
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void AssertionHandler : : handleUnexpectedInflightException ( ) {
m_resultCapture . handleUnexpectedInflightException ( m_assertionInfo , Catch : : translateActiveException ( ) , m_reaction ) ;
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}
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void AssertionHandler : : handleExceptionThrownAsExpected ( ) {
m_resultCapture . handleNonExpr ( m_assertionInfo , ResultWas : : Ok , m_reaction ) ;
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}
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void AssertionHandler : : handleExceptionNotThrownAsExpected ( ) {
m_resultCapture . handleNonExpr ( m_assertionInfo , ResultWas : : Ok , m_reaction ) ;
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}
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void AssertionHandler : : handleUnexpectedExceptionNotThrown ( ) {
m_resultCapture . handleUnexpectedExceptionNotThrown ( m_assertionInfo , m_reaction ) ;
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}
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void AssertionHandler : : handleThrowingCallSkipped ( ) {
m_resultCapture . handleNonExpr ( m_assertionInfo , ResultWas : : Ok , m_reaction ) ;
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}
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// This is the overload that takes a string and infers the Equals matcher from it
// The more general overload, that takes any string matcher, is in catch_capture_matchers.cpp
void handleExceptionMatchExpr ( AssertionHandler & handler , std : : string const & str , StringRef matcherString ) {
handleExceptionMatchExpr ( handler , Matchers : : Equals ( str ) , matcherString ) ;
}
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} // namespace Catch
// end catch_assertionhandler.cpp
// start catch_assertionresult.cpp
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namespace Catch {
AssertionResultData : : AssertionResultData ( ResultWas : : OfType _resultType , LazyExpression const & _lazyExpression ) :
lazyExpression ( _lazyExpression ) ,
resultType ( _resultType ) { }
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std : : string AssertionResultData : : reconstructExpression ( ) const {
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if ( reconstructedExpression . empty ( ) ) {
if ( lazyExpression ) {
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ReusableStringStream rss ;
rss < < lazyExpression ;
reconstructedExpression = rss . str ( ) ;
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}
}
return reconstructedExpression ;
}
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AssertionResult : : AssertionResult ( AssertionInfo const & info , AssertionResultData const & data )
: m_info ( info ) ,
m_resultData ( data )
{ }
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// Result was a success
bool AssertionResult : : succeeded ( ) const {
return Catch : : isOk ( m_resultData . resultType ) ;
}
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// Result was a success, or failure is suppressed
bool AssertionResult : : isOk ( ) const {
return Catch : : isOk ( m_resultData . resultType ) | | shouldSuppressFailure ( m_info . resultDisposition ) ;
}
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ResultWas : : OfType AssertionResult : : getResultType ( ) const {
return m_resultData . resultType ;
}
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bool AssertionResult : : hasExpression ( ) const {
return m_info . capturedExpression [ 0 ] ! = 0 ;
}
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bool AssertionResult : : hasMessage ( ) const {
return ! m_resultData . message . empty ( ) ;
}
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std : : string AssertionResult : : getExpression ( ) const {
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if ( isFalseTest ( m_info . resultDisposition ) )
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return " !( " + m_info . capturedExpression + " ) " ;
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else
return m_info . capturedExpression ;
}
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std : : string AssertionResult : : getExpressionInMacro ( ) const {
std : : string expr ;
if ( m_info . macroName [ 0 ] = = 0 )
expr = m_info . capturedExpression ;
else {
expr . reserve ( m_info . macroName . size ( ) + m_info . capturedExpression . size ( ) + 4 ) ;
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expr + = m_info . macroName ;
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expr + = " ( " ;
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expr + = m_info . capturedExpression ;
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expr + = " ) " ;
}
return expr ;
}
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bool AssertionResult : : hasExpandedExpression ( ) const {
return hasExpression ( ) & & getExpandedExpression ( ) ! = getExpression ( ) ;
}
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std : : string AssertionResult : : getExpandedExpression ( ) const {
std : : string expr = m_resultData . reconstructExpression ( ) ;
return expr . empty ( )
? getExpression ( )
: expr ;
}
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std : : string AssertionResult : : getMessage ( ) const {
return m_resultData . message ;
}
SourceLineInfo AssertionResult : : getSourceInfo ( ) const {
return m_info . lineInfo ;
}
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StringRef AssertionResult : : getTestMacroName ( ) const {
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return m_info . macroName ;
}
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} // end namespace Catch
// end catch_assertionresult.cpp
// start catch_benchmark.cpp
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namespace Catch {
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auto BenchmarkLooper : : getResolution ( ) - > uint64_t {
return getEstimatedClockResolution ( ) * getCurrentContext ( ) . getConfig ( ) - > benchmarkResolutionMultiple ( ) ;
}
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void BenchmarkLooper : : reportStart ( ) {
getResultCapture ( ) . benchmarkStarting ( { m_name } ) ;
}
auto BenchmarkLooper : : needsMoreIterations ( ) - > bool {
auto elapsed = m_timer . getElapsedNanoseconds ( ) ;
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// Exponentially increasing iterations until we're confident in our timer resolution
if ( elapsed < m_resolution ) {
m_iterationsToRun * = 10 ;
return true ;
}
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getResultCapture ( ) . benchmarkEnded ( { { m_name } , m_count , elapsed } ) ;
return false ;
}
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} // end namespace Catch
// end catch_benchmark.cpp
// start catch_capture_matchers.cpp
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namespace Catch {
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using StringMatcher = Matchers : : Impl : : MatcherBase < std : : string > ;
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// This is the general overload that takes a any string matcher
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// There is another overload, in catch_assertionhandler.h/.cpp, that only takes a string and infers
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// the Equals matcher (so the header does not mention matchers)
void handleExceptionMatchExpr ( AssertionHandler & handler , StringMatcher const & matcher , StringRef matcherString ) {
std : : string exceptionMessage = Catch : : translateActiveException ( ) ;
MatchExpr < std : : string , StringMatcher const & > expr ( exceptionMessage , matcher , matcherString ) ;
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handler . handleExpr ( expr ) ;
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}
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} // namespace Catch
// end catch_capture_matchers.cpp
// start catch_commandline.cpp
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// start catch_commandline.h
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// start catch_clara.h
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// Use Catch's value for console width (store Clara's off to the side, if present)
# ifdef CLARA_CONFIG_CONSOLE_WIDTH
# define CATCH_TEMP_CLARA_CONFIG_CONSOLE_WIDTH CATCH_CLARA_TEXTFLOW_CONFIG_CONSOLE_WIDTH
# undef CATCH_CLARA_TEXTFLOW_CONFIG_CONSOLE_WIDTH
# endif
# define CATCH_CLARA_TEXTFLOW_CONFIG_CONSOLE_WIDTH CATCH_CONFIG_CONSOLE_WIDTH-1
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# ifdef __clang__
# pragma clang diagnostic push
# pragma clang diagnostic ignored "-Wweak-vtables"
# pragma clang diagnostic ignored "-Wexit-time-destructors"
# pragma clang diagnostic ignored "-Wshadow"
# endif
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// start clara.hpp
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// Copyright 2017 Two Blue Cubes Ltd. All rights reserved.
//
// Distributed under the Boost Software License, Version 1.0. (See accompanying
// file LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt)
//
// See https://github.com/philsquared/Clara for more details
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// Clara v1.1.4
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# ifndef CATCH_CLARA_CONFIG_CONSOLE_WIDTH
# define CATCH_CLARA_CONFIG_CONSOLE_WIDTH 80
# endif
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# ifndef CATCH_CLARA_TEXTFLOW_CONFIG_CONSOLE_WIDTH
# define CATCH_CLARA_TEXTFLOW_CONFIG_CONSOLE_WIDTH CATCH_CLARA_CONFIG_CONSOLE_WIDTH
# endif
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# ifndef CLARA_CONFIG_OPTIONAL_TYPE
# ifdef __has_include
# if __has_include(<optional>) && __cplusplus >= 201703L
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# include <optional>
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# define CLARA_CONFIG_OPTIONAL_TYPE std::optional
# endif
# endif
# endif
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// ----------- #included from clara_textflow.hpp -----------
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// TextFlowCpp
//
// A single-header library for wrapping and laying out basic text, by Phil Nash
//
// This work is licensed under the BSD 2-Clause license.
// See the accompanying LICENSE file, or the one at https://opensource.org/licenses/BSD-2-Clause
//
// This project is hosted at https://github.com/philsquared/textflowcpp
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# include <cassert>
# include <ostream>
# include <sstream>
# include <vector>
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# ifndef CATCH_CLARA_TEXTFLOW_CONFIG_CONSOLE_WIDTH
# define CATCH_CLARA_TEXTFLOW_CONFIG_CONSOLE_WIDTH 80
# endif
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namespace Catch { namespace clara { namespace TextFlow {
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inline auto isWhitespace ( char c ) - > bool {
static std : : string chars = " \t \n \r " ;
return chars . find ( c ) ! = std : : string : : npos ;
}
inline auto isBreakableBefore ( char c ) - > bool {
static std : : string chars = " [({<| " ;
return chars . find ( c ) ! = std : : string : : npos ;
}
inline auto isBreakableAfter ( char c ) - > bool {
static std : : string chars = " ])}>.,:;*+-=&/ \\ " ;
return chars . find ( c ) ! = std : : string : : npos ;
}
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class Columns ;
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class Column {
std : : vector < std : : string > m_strings ;
size_t m_width = CATCH_CLARA_TEXTFLOW_CONFIG_CONSOLE_WIDTH ;
size_t m_indent = 0 ;
size_t m_initialIndent = std : : string : : npos ;
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public :
class iterator {
friend Column ;
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Column const & m_column ;
size_t m_stringIndex = 0 ;
size_t m_pos = 0 ;
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size_t m_len = 0 ;
size_t m_end = 0 ;
bool m_suffix = false ;
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iterator ( Column const & column , size_t stringIndex )
: m_column ( column ) ,
m_stringIndex ( stringIndex )
{ }
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auto line ( ) const - > std : : string const & { return m_column . m_strings [ m_stringIndex ] ; }
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auto isBoundary ( size_t at ) const - > bool {
assert ( at > 0 ) ;
assert ( at < = line ( ) . size ( ) ) ;
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return at = = line ( ) . size ( ) | |
( isWhitespace ( line ( ) [ at ] ) & & ! isWhitespace ( line ( ) [ at - 1 ] ) ) | |
isBreakableBefore ( line ( ) [ at ] ) | |
isBreakableAfter ( line ( ) [ at - 1 ] ) ;
}
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void calcLength ( ) {
assert ( m_stringIndex < m_column . m_strings . size ( ) ) ;
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m_suffix = false ;
auto width = m_column . m_width - indent ( ) ;
m_end = m_pos ;
while ( m_end < line ( ) . size ( ) & & line ( ) [ m_end ] ! = ' \n ' )
+ + m_end ;
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if ( m_end < m_pos + width ) {
m_len = m_end - m_pos ;
}
else {
size_t len = width ;
while ( len > 0 & & ! isBoundary ( m_pos + len ) )
- - len ;
while ( len > 0 & & isWhitespace ( line ( ) [ m_pos + len - 1 ] ) )
- - len ;
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if ( len > 0 ) {
m_len = len ;
} else {
m_suffix = true ;
m_len = width - 1 ;
}
}
}
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auto indent ( ) const - > size_t {
auto initial = m_pos = = 0 & & m_stringIndex = = 0 ? m_column . m_initialIndent : std : : string : : npos ;
return initial = = std : : string : : npos ? m_column . m_indent : initial ;
}
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auto addIndentAndSuffix ( std : : string const & plain ) const - > std : : string {
return std : : string ( indent ( ) , ' ' ) + ( m_suffix ? plain + " - " : plain ) ;
}
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public :
explicit iterator ( Column const & column ) : m_column ( column ) {
assert ( m_column . m_width > m_column . m_indent ) ;
assert ( m_column . m_initialIndent = = std : : string : : npos | | m_column . m_width > m_column . m_initialIndent ) ;
calcLength ( ) ;
if ( m_len = = 0 )
m_stringIndex + + ; // Empty string
}
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auto operator * ( ) const - > std : : string {
assert ( m_stringIndex < m_column . m_strings . size ( ) ) ;
assert ( m_pos < = m_end ) ;
if ( m_pos + m_column . m_width < m_end )
return addIndentAndSuffix ( line ( ) . substr ( m_pos , m_len ) ) ;
else
return addIndentAndSuffix ( line ( ) . substr ( m_pos , m_end - m_pos ) ) ;
}
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auto operator + + ( ) - > iterator & {
m_pos + = m_len ;
if ( m_pos < line ( ) . size ( ) & & line ( ) [ m_pos ] = = ' \n ' )
m_pos + = 1 ;
else
while ( m_pos < line ( ) . size ( ) & & isWhitespace ( line ( ) [ m_pos ] ) )
+ + m_pos ;
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if ( m_pos = = line ( ) . size ( ) ) {
m_pos = 0 ;
+ + m_stringIndex ;
}
if ( m_stringIndex < m_column . m_strings . size ( ) )
calcLength ( ) ;
return * this ;
}
auto operator + + ( int ) - > iterator {
iterator prev ( * this ) ;
operator + + ( ) ;
return prev ;
}
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auto operator = = ( iterator const & other ) const - > bool {
return
m_pos = = other . m_pos & &
m_stringIndex = = other . m_stringIndex & &
& m_column = = & other . m_column ;
}
auto operator ! = ( iterator const & other ) const - > bool {
return ! operator = = ( other ) ;
}
} ;
using const_iterator = iterator ;
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explicit Column ( std : : string const & text ) { m_strings . push_back ( text ) ; }
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auto width ( size_t newWidth ) - > Column & {
assert ( newWidth > 0 ) ;
m_width = newWidth ;
return * this ;
}
auto indent ( size_t newIndent ) - > Column & {
m_indent = newIndent ;
return * this ;
}
auto initialIndent ( size_t newIndent ) - > Column & {
m_initialIndent = newIndent ;
return * this ;
}
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auto width ( ) const - > size_t { return m_width ; }
auto begin ( ) const - > iterator { return iterator ( * this ) ; }
auto end ( ) const - > iterator { return { * this , m_strings . size ( ) } ; }
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inline friend std : : ostream & operator < < ( std : : ostream & os , Column const & col ) {
bool first = true ;
for ( auto line : col ) {
if ( first )
first = false ;
else
os < < " \n " ;
os < < line ;
}
return os ;
}
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auto operator + ( Column const & other ) - > Columns ;
auto toString ( ) const - > std : : string {
std : : ostringstream oss ;
oss < < * this ;
return oss . str ( ) ;
}
} ;
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class Spacer : public Column {
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public :
explicit Spacer ( size_t spaceWidth ) : Column ( " " ) {
width ( spaceWidth ) ;
}
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} ;
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class Columns {
std : : vector < Column > m_columns ;
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public :
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class iterator {
friend Columns ;
struct EndTag { } ;
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std : : vector < Column > const & m_columns ;
std : : vector < Column : : iterator > m_iterators ;
size_t m_activeIterators ;
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iterator ( Columns const & columns , EndTag )
: m_columns ( columns . m_columns ) ,
m_activeIterators ( 0 )
{
m_iterators . reserve ( m_columns . size ( ) ) ;
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for ( auto const & col : m_columns )
m_iterators . push_back ( col . end ( ) ) ;
}
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public :
explicit iterator ( Columns const & columns )
: m_columns ( columns . m_columns ) ,
m_activeIterators ( m_columns . size ( ) )
{
m_iterators . reserve ( m_columns . size ( ) ) ;
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for ( auto const & col : m_columns )
m_iterators . push_back ( col . begin ( ) ) ;
}
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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 ;
}
auto operator * ( ) const - > std : : string {
std : : string row , padding ;
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for ( size_t i = 0 ; i < m_columns . size ( ) ; + + i ) {
auto width = m_columns [ i ] . width ( ) ;
if ( m_iterators [ i ] ! = m_columns [ i ] . end ( ) ) {
std : : string col = * m_iterators [ i ] ;
row + = padding + col ;
if ( col . size ( ) < width )
padding = std : : string ( width - col . size ( ) , ' ' ) ;
else
padding = " " ;
}
else {
padding + = std : : string ( width , ' ' ) ;
}
}
return row ;
}
auto operator + + ( ) - > iterator & {
for ( size_t i = 0 ; i < m_columns . size ( ) ; + + i ) {
if ( m_iterators [ i ] ! = m_columns [ i ] . end ( ) )
+ + m_iterators [ i ] ;
}
return * this ;
}
auto operator + + ( int ) - > iterator {
iterator prev ( * this ) ;
operator + + ( ) ;
return prev ;
}
} ;
using const_iterator = iterator ;
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auto begin ( ) const - > iterator { return iterator ( * this ) ; }
auto end ( ) const - > iterator { return { * this , iterator : : EndTag ( ) } ; }
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auto operator + = ( Column const & col ) - > Columns & {
m_columns . push_back ( col ) ;
return * this ;
}
auto operator + ( Column const & col ) - > Columns {
Columns combined = * this ;
combined + = col ;
return combined ;
}
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inline friend std : : ostream & operator < < ( std : : ostream & os , Columns const & cols ) {
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bool first = true ;
for ( auto line : cols ) {
if ( first )
first = false ;
else
os < < " \n " ;
os < < line ;
}
return os ;
}
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auto toString ( ) const - > std : : string {
std : : ostringstream oss ;
oss < < * this ;
return oss . str ( ) ;
}
} ;
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inline auto Column : : operator + ( Column const & other ) - > Columns {
Columns cols ;
cols + = * this ;
cols + = other ;
return cols ;
}
} } } // namespace Catch::clara::TextFlow
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// ----------- end of #include from clara_textflow.hpp -----------
// ........... back in clara.hpp
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# include <memory>
# include <set>
# include <algorithm>
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# if !defined(CATCH_PLATFORM_WINDOWS) && ( defined(WIN32) || defined(__WIN32__) || defined(_WIN32) || defined(_MSC_VER) )
# define CATCH_PLATFORM_WINDOWS
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# endif
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namespace Catch { namespace clara {
namespace detail {
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// Traits for extracting arg and return type of lambdas (for single argument lambdas)
template < typename L >
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struct UnaryLambdaTraits : UnaryLambdaTraits < decltype ( & L : : operator ( ) ) > { } ;
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template < typename ClassT , typename ReturnT , typename . . . Args >
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struct UnaryLambdaTraits < ReturnT ( ClassT : : * ) ( Args . . . ) const > {
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static const bool isValid = false ;
} ;
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template < typename ClassT , typename ReturnT , typename ArgT >
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struct UnaryLambdaTraits < ReturnT ( ClassT : : * ) ( ArgT ) const > {
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static const bool isValid = true ;
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using ArgType = typename std : : remove_const < typename std : : remove_reference < ArgT > : : type > : : type ;
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using ReturnType = ReturnT ;
} ;
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class TokenStream ;
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// Transport for raw args (copied from main args, or supplied via init list for testing)
class Args {
friend TokenStream ;
std : : string m_exeName ;
std : : vector < std : : string > m_args ;
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public :
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Args ( int argc , char const * const * argv )
: m_exeName ( argv [ 0 ] ) ,
m_args ( argv + 1 , argv + argc ) { }
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Args ( std : : initializer_list < std : : string > args )
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: m_exeName ( * args . begin ( ) ) ,
m_args ( args . begin ( ) + 1 , args . end ( ) )
{ }
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auto exeName ( ) const - > std : : string {
return m_exeName ;
}
} ;
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// 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 ;
} ;
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inline auto isOptPrefix ( char c ) - > bool {
return c = = ' - '
# ifdef CATCH_PLATFORM_WINDOWS
| | c = = ' / '
# endif
;
}
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// 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 ;
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void loadBuffer ( ) {
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m_tokenBuffer . resize ( 0 ) ;
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// Skip any empty strings
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while ( it ! = itEnd & & it - > empty ( ) )
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+ + it ;
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if ( it ! = itEnd ) {
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auto const & next = * it ;
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if ( isOptPrefix ( next [ 0 ] ) ) {
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auto delimiterPos = next . find_first_of ( " := " ) ;
if ( delimiterPos ! = std : : string : : npos ) {
m_tokenBuffer . push_back ( { TokenType : : Option , next . substr ( 0 , delimiterPos ) } ) ;
m_tokenBuffer . push_back ( { TokenType : : Argument , next . substr ( delimiterPos + 1 ) } ) ;
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} else {
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if ( next [ 1 ] ! = ' - ' & & next . size ( ) > 2 ) {
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std : : string opt = " - " ;
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for ( size_t i = 1 ; i < next . size ( ) ; + + i ) {
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opt [ 1 ] = next [ i ] ;
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m_tokenBuffer . push_back ( { TokenType : : Option , opt } ) ;
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}
} else {
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m_tokenBuffer . push_back ( { TokenType : : Option , next } ) ;
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}
}
} else {
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m_tokenBuffer . push_back ( { TokenType : : Argument , next } ) ;
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}
}
}
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public :
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explicit TokenStream ( Args const & args ) : TokenStream ( args . m_args . begin ( ) , args . m_args . end ( ) ) { }
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TokenStream ( Iterator it , Iterator itEnd ) : it ( it ) , itEnd ( itEnd ) {
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loadBuffer ( ) ;
}
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explicit operator bool ( ) const {
return ! m_tokenBuffer . empty ( ) | | it ! = itEnd ;
}
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auto count ( ) const - > size_t { return m_tokenBuffer . size ( ) + ( itEnd - it ) ; }
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auto operator * ( ) const - > Token {
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assert ( ! m_tokenBuffer . empty ( ) ) ;
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return m_tokenBuffer . front ( ) ;
}
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auto operator - > ( ) const - > Token const * {
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assert ( ! m_tokenBuffer . empty ( ) ) ;
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return & m_tokenBuffer . front ( ) ;
}
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auto operator + + ( ) - > TokenStream & {
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if ( m_tokenBuffer . size ( ) > = 2 ) {
m_tokenBuffer . erase ( m_tokenBuffer . begin ( ) ) ;
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} else {
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if ( it ! = itEnd )
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+ + it ;
loadBuffer ( ) ;
}
return * this ;
}
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} ;
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class ResultBase {
public :
enum Type {
Ok , LogicError , RuntimeError
} ;
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protected :
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ResultBase ( Type type ) : m_type ( type ) { }
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virtual ~ ResultBase ( ) = default ;
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virtual void enforceOk ( ) const = 0 ;
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Type m_type ;
} ;
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template < typename T >
class ResultValueBase : public ResultBase {
public :
auto value ( ) const - > T const & {
enforceOk ( ) ;
return m_value ;
}
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protected :
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ResultValueBase ( Type type ) : ResultBase ( type ) { }
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ResultValueBase ( ResultValueBase const & other ) : ResultBase ( other ) {
if ( m_type = = ResultBase : : Ok )
new ( & m_value ) T ( other . m_value ) ;
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}
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ResultValueBase ( Type , T const & value ) : ResultBase ( Ok ) {
new ( & m_value ) T ( value ) ;
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}
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auto operator = ( ResultValueBase const & other ) - > ResultValueBase & {
if ( m_type = = ResultBase : : Ok )
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m_value . ~ T ( ) ;
ResultBase : : operator = ( other ) ;
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if ( m_type = = ResultBase : : Ok )
new ( & m_value ) T ( other . m_value ) ;
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return * this ;
}
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~ ResultValueBase ( ) override {
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if ( m_type = = Ok )
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m_value . ~ T ( ) ;
}
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union {
T m_value ;
} ;
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} ;
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template < >
class ResultValueBase < void > : public ResultBase {
protected :
using ResultBase : : ResultBase ;
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} ;
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template < typename T = void >
class BasicResult : public ResultValueBase < T > {
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public :
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template < typename U >
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explicit BasicResult ( BasicResult < U > const & other )
: ResultValueBase < T > ( other . type ( ) ) ,
m_errorMessage ( other . errorMessage ( ) )
{
assert ( type ( ) ! = ResultBase : : Ok ) ;
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}
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template < typename U >
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static auto ok ( U const & value ) - > BasicResult { return { ResultBase : : Ok , value } ; }
static auto ok ( ) - > BasicResult { return { ResultBase : : Ok } ; }
static auto logicError ( std : : string const & message ) - > BasicResult { return { ResultBase : : LogicError , message } ; }
static auto runtimeError ( std : : string const & message ) - > BasicResult { return { ResultBase : : RuntimeError , message } ; }
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explicit operator bool ( ) const { return m_type = = ResultBase : : Ok ; }
auto type ( ) const - > ResultBase : : Type { return m_type ; }
auto errorMessage ( ) const - > std : : string { return m_errorMessage ; }
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protected :
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void enforceOk ( ) const override {
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// Errors shouldn't reach this point, but if they do
// the actual error message will be in m_errorMessage
assert ( m_type ! = ResultBase : : LogicError ) ;
assert ( m_type ! = ResultBase : : RuntimeError ) ;
if ( m_type ! = ResultBase : : Ok )
std : : abort ( ) ;
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}
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std : : string m_errorMessage ; // Only populated if resultType is an error
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BasicResult ( ResultBase : : Type type , std : : string const & message )
: ResultValueBase < T > ( type ) ,
m_errorMessage ( message )
{
assert ( m_type ! = ResultBase : : Ok ) ;
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}
using ResultValueBase < T > : : ResultValueBase ;
using ResultBase : : m_type ;
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} ;
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enum class ParseResultType {
Matched , NoMatch , ShortCircuitAll , ShortCircuitSame
} ;
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class ParseState {
public :
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ParseState ( ParseResultType type , TokenStream const & remainingTokens )
: m_type ( type ) ,
m_remainingTokens ( remainingTokens )
{ }
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auto type ( ) const - > ParseResultType { return m_type ; }
auto remainingTokens ( ) const - > TokenStream { return m_remainingTokens ; }
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private :
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ParseResultType m_type ;
TokenStream m_remainingTokens ;
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} ;
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using Result = BasicResult < void > ;
using ParserResult = BasicResult < ParseResultType > ;
using InternalParseResult = BasicResult < ParseState > ;
struct HelpColumns {
std : : string left ;
std : : string right ;
} ;
template < typename T >
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inline auto convertInto ( std : : string const & source , T & target ) - > ParserResult {
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std : : stringstream ss ;
ss < < source ;
ss > > target ;
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if ( ss . fail ( ) )
return ParserResult : : runtimeError ( " Unable to convert ' " + source + " ' to destination type " ) ;
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else
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return ParserResult : : ok ( ParseResultType : : Matched ) ;
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}
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inline auto convertInto ( std : : string const & source , std : : string & target ) - > ParserResult {
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target = source ;
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return ParserResult : : ok ( ParseResultType : : Matched ) ;
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}
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inline auto convertInto ( std : : string const & source , bool & target ) - > ParserResult {
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std : : string srcLC = source ;
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std : : transform ( srcLC . begin ( ) , srcLC . end ( ) , srcLC . begin ( ) , [ ] ( char c ) { return static_cast < char > ( : : tolower ( c ) ) ; } ) ;
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if ( srcLC = = " y " | | srcLC = = " 1 " | | srcLC = = " true " | | srcLC = = " yes " | | srcLC = = " on " )
target = true ;
else if ( srcLC = = " n " | | srcLC = = " 0 " | | srcLC = = " false " | | srcLC = = " no " | | srcLC = = " off " )
target = false ;
else
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return ParserResult : : runtimeError ( " Expected a boolean value but did not recognise: ' " + source + " ' " ) ;
return ParserResult : : ok ( ParseResultType : : Matched ) ;
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}
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# ifdef CLARA_CONFIG_OPTIONAL_TYPE
template < typename T >
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inline auto convertInto ( std : : string const & source , CLARA_CONFIG_OPTIONAL_TYPE < T > & target ) - > ParserResult {
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T temp ;
auto result = convertInto ( source , temp ) ;
if ( result )
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target = std : : move ( temp ) ;
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return result ;
}
# endif // CLARA_CONFIG_OPTIONAL_TYPE
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struct NonCopyable {
NonCopyable ( ) = default ;
NonCopyable ( NonCopyable const & ) = delete ;
NonCopyable ( NonCopyable & & ) = delete ;
NonCopyable & operator = ( NonCopyable const & ) = delete ;
NonCopyable & operator = ( NonCopyable & & ) = delete ;
} ;
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struct BoundRef : NonCopyable {
virtual ~ BoundRef ( ) = default ;
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virtual auto isContainer ( ) const - > bool { return false ; }
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virtual auto isFlag ( ) const - > bool { return false ; }
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} ;
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struct BoundValueRefBase : BoundRef {
virtual auto setValue ( std : : string const & arg ) - > ParserResult = 0 ;
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} ;
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struct BoundFlagRefBase : BoundRef {
virtual auto setFlag ( bool flag ) - > ParserResult = 0 ;
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virtual auto isFlag ( ) const - > bool { return true ; }
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} ;
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template < typename T >
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struct BoundValueRef : BoundValueRefBase {
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T & m_ref ;
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explicit BoundValueRef ( T & ref ) : m_ref ( ref ) { }
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auto setValue ( std : : string const & arg ) - > ParserResult override {
return convertInto ( arg , m_ref ) ;
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}
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} ;
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template < typename T >
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struct BoundValueRef < std : : vector < T > > : BoundValueRefBase {
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std : : vector < T > & m_ref ;
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explicit BoundValueRef ( std : : vector < T > & ref ) : m_ref ( ref ) { }
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auto isContainer ( ) const - > bool override { return true ; }
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auto setValue ( std : : string const & arg ) - > ParserResult override {
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T temp ;
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auto result = convertInto ( arg , temp ) ;
if ( result )
m_ref . push_back ( temp ) ;
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return result ;
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}
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} ;
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struct BoundFlagRef : BoundFlagRefBase {
bool & m_ref ;
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explicit BoundFlagRef ( bool & ref ) : m_ref ( ref ) { }
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auto setFlag ( bool flag ) - > ParserResult override {
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m_ref = flag ;
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return ParserResult : : ok ( ParseResultType : : Matched ) ;
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}
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} ;
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template < typename ReturnType >
struct LambdaInvoker {
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static_assert ( std : : is_same < ReturnType , ParserResult > : : value , " Lambda must return void or clara::ParserResult " ) ;
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template < typename L , typename ArgType >
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static auto invoke ( L const & lambda , ArgType const & arg ) - > ParserResult {
return lambda ( arg ) ;
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}
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} ;
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template < >
struct LambdaInvoker < void > {
template < typename L , typename ArgType >
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static auto invoke ( L const & lambda , ArgType const & arg ) - > ParserResult {
lambda ( arg ) ;
return ParserResult : : ok ( ParseResultType : : Matched ) ;
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}
} ;
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template < typename ArgType , typename L >
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inline auto invokeLambda ( L const & lambda , std : : string const & arg ) - > ParserResult {
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ArgType temp { } ;
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auto result = convertInto ( arg , temp ) ;
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return ! result
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? result
: LambdaInvoker < typename UnaryLambdaTraits < L > : : ReturnType > : : invoke ( lambda , temp ) ;
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}
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template < typename L >
struct BoundLambda : BoundValueRefBase {
L m_lambda ;
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static_assert ( UnaryLambdaTraits < L > : : isValid , " Supplied lambda must take exactly one argument " ) ;
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explicit BoundLambda ( L const & lambda ) : m_lambda ( lambda ) { }
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auto setValue ( std : : string const & arg ) - > ParserResult override {
return invokeLambda < typename UnaryLambdaTraits < L > : : ArgType > ( m_lambda , arg ) ;
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}
} ;
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template < typename L >
struct BoundFlagLambda : BoundFlagRefBase {
L m_lambda ;
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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 " ) ;
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explicit BoundFlagLambda ( L const & lambda ) : m_lambda ( lambda ) { }
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auto setFlag ( bool flag ) - > ParserResult override {
return LambdaInvoker < typename UnaryLambdaTraits < L > : : ReturnType > : : invoke ( m_lambda , flag ) ;
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}
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} ;
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enum class Optionality { Optional , Required } ;
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struct Parser ;
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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 auto cardinality ( ) const - > size_t { return 1 ; }
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auto parse ( Args const & args ) const - > InternalParseResult {
return parse ( args . exeName ( ) , TokenStream ( args ) ) ;
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}
} ;
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template < typename DerivedT >
class ComposableParserImpl : public ParserBase {
public :
template < typename T >
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auto operator | ( T const & other ) const - > Parser ;
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template < typename T >
auto operator + ( T const & other ) const - > Parser ;
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} ;
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// Common code and state for Args and Opts
template < typename DerivedT >
class ParserRefImpl : public ComposableParserImpl < DerivedT > {
protected :
Optionality m_optionality = Optionality : : Optional ;
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std : : shared_ptr < BoundRef > m_ref ;
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std : : string m_hint ;
std : : string m_description ;
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explicit ParserRefImpl ( std : : shared_ptr < BoundRef > const & ref ) : m_ref ( ref ) { }
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public :
template < typename T >
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ParserRefImpl ( T & ref , std : : string const & hint )
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: m_ref ( std : : make_shared < BoundValueRef < T > > ( ref ) ) ,
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m_hint ( hint )
{ }
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template < typename LambdaT >
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ParserRefImpl ( LambdaT const & ref , std : : string const & hint )
: m_ref ( std : : make_shared < BoundLambda < LambdaT > > ( ref ) ) ,
m_hint ( hint )
{ }
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auto operator ( ) ( std : : string const & description ) - > DerivedT & {
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m_description = description ;
return static_cast < DerivedT & > ( * this ) ;
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}
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auto optional ( ) - > DerivedT & {
m_optionality = Optionality : : Optional ;
return static_cast < DerivedT & > ( * this ) ;
} ;
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auto required ( ) - > DerivedT & {
m_optionality = Optionality : : Required ;
return static_cast < DerivedT & > ( * this ) ;
} ;
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auto isOptional ( ) const - > bool {
return m_optionality = = Optionality : : Optional ;
}
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auto cardinality ( ) const - > size_t override {
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if ( m_ref - > isContainer ( ) )
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return 0 ;
else
return 1 ;
}
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auto hint ( ) const - > std : : string { return m_hint ; }
} ;
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class ExeName : public ComposableParserImpl < ExeName > {
std : : shared_ptr < std : : string > m_name ;
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std : : shared_ptr < BoundValueRefBase > m_ref ;
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template < typename LambdaT >
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static auto makeRef ( LambdaT const & lambda ) - > std : : shared_ptr < BoundValueRefBase > {
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return std : : make_shared < BoundLambda < LambdaT > > ( lambda ) ;
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}
public :
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ExeName ( ) : m_name ( std : : make_shared < std : : string > ( " <executable> " ) ) { }
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explicit ExeName ( std : : string & ref ) : ExeName ( ) {
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m_ref = std : : make_shared < BoundValueRef < std : : string > > ( ref ) ;
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}
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template < typename LambdaT >
explicit ExeName ( LambdaT const & lambda ) : ExeName ( ) {
m_ref = std : : make_shared < BoundLambda < LambdaT > > ( lambda ) ;
}
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// The exe name is not parsed out of the normal tokens, but is handled specially
auto parse ( std : : string const & , TokenStream const & tokens ) const - > InternalParseResult override {
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return InternalParseResult : : ok ( ParseState ( ParseResultType : : NoMatch , tokens ) ) ;
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}
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auto name ( ) const - > std : : string { return * m_name ; }
auto set ( std : : string const & newName ) - > ParserResult {
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auto lastSlash = newName . find_last_of ( " \\ / " ) ;
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auto filename = ( lastSlash = = std : : string : : npos )
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? newName
: newName . substr ( lastSlash + 1 ) ;
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* m_name = filename ;
if ( m_ref )
return m_ref - > setValue ( filename ) ;
else
return ParserResult : : ok ( ParseResultType : : Matched ) ;
}
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} ;
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class Arg : public ParserRefImpl < Arg > {
public :
using ParserRefImpl : : ParserRefImpl ;
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auto parse ( std : : string const & , TokenStream const & tokens ) const - > InternalParseResult override {
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auto validationResult = validate ( ) ;
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if ( ! validationResult )
return InternalParseResult ( validationResult ) ;
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auto remainingTokens = tokens ;
auto const & token = * remainingTokens ;
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if ( token . type ! = TokenType : : Argument )
return InternalParseResult : : ok ( ParseState ( ParseResultType : : NoMatch , remainingTokens ) ) ;
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assert ( ! m_ref - > isFlag ( ) ) ;
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auto valueRef = static_cast < detail : : BoundValueRefBase * > ( m_ref . get ( ) ) ;
auto result = valueRef - > setValue ( remainingTokens - > token ) ;
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if ( ! result )
return InternalParseResult ( result ) ;
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else
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return InternalParseResult : : ok ( ParseState ( ParseResultType : : Matched , + + remainingTokens ) ) ;
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}
} ;
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inline auto normaliseOpt ( std : : string const & optName ) - > std : : string {
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# ifdef CATCH_PLATFORM_WINDOWS
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if ( optName [ 0 ] = = ' / ' )
return " - " + optName . substr ( 1 ) ;
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else
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# endif
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return optName ;
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}
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class Opt : public ParserRefImpl < Opt > {
protected :
std : : vector < std : : string > m_optNames ;
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public :
template < typename LambdaT >
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explicit Opt ( LambdaT const & ref ) : ParserRefImpl ( std : : make_shared < BoundFlagLambda < LambdaT > > ( ref ) ) { }
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explicit Opt ( bool & ref ) : ParserRefImpl ( std : : make_shared < BoundFlagRef > ( ref ) ) { }
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template < typename LambdaT >
Opt ( LambdaT const & ref , std : : string const & hint ) : ParserRefImpl ( ref , hint ) { }
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template < typename T >
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 ) ;
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return * this ;
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}
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auto getHelpColumns ( ) const - > std : : vector < HelpColumns > {
std : : ostringstream oss ;
bool first = true ;
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for ( auto const & opt : m_optNames ) {
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if ( first )
first = false ;
else
oss < < " , " ;
oss < < opt ;
}
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if ( ! m_hint . empty ( ) )
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oss < < " < " < < m_hint < < " > " ;
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return { { oss . str ( ) , m_description } } ;
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}
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auto isMatch ( std : : string const & optToken ) const - > bool {
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auto normalisedToken = normaliseOpt ( optToken ) ;
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for ( auto const & name : m_optNames ) {
if ( normaliseOpt ( name ) = = normalisedToken )
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return true ;
}
return false ;
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}
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using ParserBase : : parse ;
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auto parse ( std : : string const & , TokenStream const & tokens ) const - > InternalParseResult override {
auto validationResult = validate ( ) ;
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if ( ! validationResult )
return InternalParseResult ( validationResult ) ;
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auto remainingTokens = tokens ;
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if ( remainingTokens & & remainingTokens - > type = = TokenType : : Option ) {
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auto const & token = * remainingTokens ;
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if ( isMatch ( token . token ) ) {
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if ( m_ref - > isFlag ( ) ) {
auto flagRef = static_cast < detail : : BoundFlagRefBase * > ( m_ref . get ( ) ) ;
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auto result = flagRef - > setFlag ( true ) ;
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if ( ! result )
return InternalParseResult ( result ) ;
if ( result . value ( ) = = ParseResultType : : ShortCircuitAll )
return InternalParseResult : : ok ( ParseState ( result . value ( ) , remainingTokens ) ) ;
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} else {
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auto valueRef = static_cast < detail : : BoundValueRefBase * > ( m_ref . get ( ) ) ;
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+ + remainingTokens ;
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if ( ! remainingTokens )
return InternalParseResult : : runtimeError ( " Expected argument following " + token . token ) ;
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auto const & argToken = * remainingTokens ;
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if ( argToken . type ! = TokenType : : Argument )
return InternalParseResult : : runtimeError ( " Expected argument following " + token . token ) ;
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auto result = valueRef - > setValue ( argToken . token ) ;
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if ( ! result )
return InternalParseResult ( result ) ;
if ( result . value ( ) = = ParseResultType : : ShortCircuitAll )
return InternalParseResult : : ok ( ParseState ( result . value ( ) , remainingTokens ) ) ;
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}
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return InternalParseResult : : ok ( ParseState ( ParseResultType : : Matched , + + remainingTokens ) ) ;
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}
}
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return InternalParseResult : : ok ( ParseState ( ParseResultType : : NoMatch , remainingTokens ) ) ;
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}
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auto validate ( ) const - > Result override {
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if ( m_optNames . empty ( ) )
return Result : : logicError ( " No options supplied to Opt " ) ;
for ( auto const & name : m_optNames ) {
if ( name . empty ( ) )
return Result : : logicError ( " Option name cannot be empty " ) ;
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# ifdef CATCH_PLATFORM_WINDOWS
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if ( name [ 0 ] ! = ' - ' & & name [ 0 ] ! = ' / ' )
return Result : : logicError ( " Option name must begin with '-' or '/' " ) ;
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# else
if ( name [ 0 ] ! = ' - ' )
return Result : : logicError ( " Option name must begin with '-' " ) ;
# endif
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}
return ParserRefImpl : : validate ( ) ;
}
} ;
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struct Help : Opt {
Help ( bool & showHelpFlag )
: Opt ( [ & ] ( bool flag ) {
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showHelpFlag = flag ;
return ParserResult : : ok ( ParseResultType : : ShortCircuitAll ) ;
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} )
{
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static_cast < Opt & > ( * this )
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( " display usage information " )
[ " -? " ] [ " -h " ] [ " --help " ]
. optional ( ) ;
}
} ;
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struct Parser : ParserBase {
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mutable ExeName m_exeName ;
std : : vector < Opt > m_options ;
std : : vector < Arg > m_args ;
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auto operator | = ( ExeName const & exeName ) - > Parser & {
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m_exeName = exeName ;
return * this ;
}
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auto operator | = ( Arg const & arg ) - > Parser & {
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m_args . push_back ( arg ) ;
return * this ;
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}
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auto operator | = ( Opt const & opt ) - > Parser & {
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m_options . push_back ( opt ) ;
return * this ;
}
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auto operator | = ( Parser const & other ) - > Parser & {
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m_options . insert ( m_options . end ( ) , other . m_options . begin ( ) , other . m_options . end ( ) ) ;
m_args . insert ( m_args . end ( ) , other . m_args . begin ( ) , other . m_args . end ( ) ) ;
return * this ;
}
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template < typename T >
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auto operator | ( T const & other ) const - > Parser {
return Parser ( * this ) | = other ;
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}
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// Forward deprecated interface with '+' instead of '|'
template < typename T >
auto operator + = ( T const & other ) - > Parser & { return operator | = ( other ) ; }
template < typename T >
auto operator + ( T const & other ) const - > Parser { return operator | ( other ) ; }
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auto getHelpColumns ( ) const - > std : : vector < HelpColumns > {
std : : vector < HelpColumns > cols ;
for ( auto const & o : m_options ) {
auto childCols = o . getHelpColumns ( ) ;
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cols . insert ( cols . end ( ) , childCols . begin ( ) , childCols . end ( ) ) ;
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}
return cols ;
}
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void writeToStream ( std : : ostream & os ) const {
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if ( ! m_exeName . name ( ) . empty ( ) ) {
os < < " usage: \n " < < " " < < m_exeName . name ( ) < < " " ;
bool required = true , first = true ;
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for ( auto const & arg : m_args ) {
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if ( first )
first = false ;
else
os < < " " ;
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if ( arg . isOptional ( ) & & required ) {
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os < < " [ " ;
required = false ;
}
os < < " < " < < arg . hint ( ) < < " > " ;
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if ( arg . cardinality ( ) = = 0 )
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os < < " ... " ;
}
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if ( ! required )
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os < < " ] " ;
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if ( ! m_options . empty ( ) )
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os < < " options " ;
os < < " \n \n where options are: " < < std : : endl ;
}
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auto rows = getHelpColumns ( ) ;
size_t consoleWidth = CATCH_CLARA_CONFIG_CONSOLE_WIDTH ;
size_t optWidth = 0 ;
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for ( auto const & cols : rows )
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optWidth = ( std : : max ) ( optWidth , cols . left . size ( ) + 2 ) ;
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optWidth = ( std : : min ) ( optWidth , consoleWidth / 2 ) ;
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for ( auto const & cols : rows ) {
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auto row =
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TextFlow : : Column ( cols . left ) . width ( optWidth ) . indent ( 2 ) +
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TextFlow : : Spacer ( 4 ) +
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TextFlow : : Column ( cols . right ) . width ( consoleWidth - 7 - optWidth ) ;
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os < < row < < std : : endl ;
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}
}
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friend auto operator < < ( std : : ostream & os , Parser const & parser ) - > std : : ostream & {
parser . writeToStream ( os ) ;
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return os ;
}
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auto validate ( ) const - > Result override {
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for ( auto const & opt : m_options ) {
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auto result = opt . validate ( ) ;
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if ( ! result )
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return result ;
}
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for ( auto const & arg : m_args ) {
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auto result = arg . validate ( ) ;
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if ( ! result )
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return result ;
}
return Result : : ok ( ) ;
}
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using ParserBase : : parse ;
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auto parse ( std : : string const & exeName , TokenStream const & tokens ) const - > InternalParseResult override {
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struct ParserInfo {
ParserBase const * parser = nullptr ;
size_t count = 0 ;
} ;
const size_t totalParsers = m_options . size ( ) + m_args . size ( ) ;
assert ( totalParsers < 512 ) ;
// ParserInfo parseInfos[totalParsers]; // <-- this is what we really want to do
ParserInfo parseInfos [ 512 ] ;
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{
size_t i = 0 ;
for ( auto const & opt : m_options ) parseInfos [ i + + ] . parser = & opt ;
for ( auto const & arg : m_args ) parseInfos [ i + + ] . parser = & arg ;
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}
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m_exeName . set ( exeName ) ;
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auto result = InternalParseResult : : ok ( ParseState ( ParseResultType : : NoMatch , tokens ) ) ;
while ( result . value ( ) . remainingTokens ( ) ) {
bool tokenParsed = false ;
for ( size_t i = 0 ; i < totalParsers ; + + i ) {
auto & parseInfo = parseInfos [ i ] ;
if ( parseInfo . parser - > cardinality ( ) = = 0 | | parseInfo . count < parseInfo . parser - > cardinality ( ) ) {
result = parseInfo . parser - > parse ( exeName , result . value ( ) . remainingTokens ( ) ) ;
if ( ! result )
return result ;
if ( result . value ( ) . type ( ) ! = ParseResultType : : NoMatch ) {
tokenParsed = true ;
+ + parseInfo . count ;
break ;
}
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}
}
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if ( result . value ( ) . type ( ) = = ParseResultType : : ShortCircuitAll )
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return result ;
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if ( ! tokenParsed )
return InternalParseResult : : runtimeError ( " Unrecognised token: " + result . value ( ) . remainingTokens ( ) - > token ) ;
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}
// !TBD Check missing required options
return result ;
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}
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} ;
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template < typename DerivedT >
template < typename T >
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auto ComposableParserImpl < DerivedT > : : operator | ( T const & other ) const - > Parser {
return Parser ( ) | static_cast < DerivedT const & > ( * this ) | other ;
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}
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} // namespace detail
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// A Combined parser
using detail : : Parser ;
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// A parser for options
using detail : : Opt ;
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// A parser for arguments
using detail : : Arg ;
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// Wrapper for argc, argv from main()
using detail : : Args ;
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// Specifies the name of the executable
using detail : : ExeName ;
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// Convenience wrapper for option parser that specifies the help option
using detail : : Help ;
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// enum of result types from a parse
using detail : : ParseResultType ;
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// Result type for parser operation
using detail : : ParserResult ;
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} } // namespace Catch::clara
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// end clara.hpp
# ifdef __clang__
# pragma clang diagnostic pop
# endif
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// Restore Clara's value for console width, if present
# ifdef CATCH_TEMP_CLARA_CONFIG_CONSOLE_WIDTH
# define CATCH_CLARA_TEXTFLOW_CONFIG_CONSOLE_WIDTH CATCH_TEMP_CLARA_CONFIG_CONSOLE_WIDTH
# undef CATCH_TEMP_CLARA_CONFIG_CONSOLE_WIDTH
# endif
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// end catch_clara.h
namespace Catch {
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clara : : Parser makeCommandLineParser ( ConfigData & config ) ;
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} // end namespace Catch
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// end catch_commandline.h
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# include <fstream>
# include <ctime>
namespace Catch {
clara : : Parser makeCommandLineParser ( ConfigData & config ) {
using namespace clara ;
auto const setWarning = [ & ] ( std : : string const & warning ) {
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auto warningSet = [ & ] ( ) {
if ( warning = = " NoAssertions " )
return WarnAbout : : NoAssertions ;
if ( warning = = " NoTests " )
return WarnAbout : : NoTests ;
return WarnAbout : : Nothing ;
} ( ) ;
if ( warningSet = = WarnAbout : : Nothing )
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return ParserResult : : runtimeError ( " Unrecognised warning: ' " + warning + " ' " ) ;
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config . warnings = static_cast < WarnAbout : : What > ( config . warnings | warningSet ) ;
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return ParserResult : : ok ( ParseResultType : : Matched ) ;
} ;
auto const loadTestNamesFromFile = [ & ] ( std : : string const & filename ) {
std : : ifstream f ( filename . c_str ( ) ) ;
if ( ! f . is_open ( ) )
return ParserResult : : runtimeError ( " Unable to load input file: ' " + filename + " ' " ) ;
std : : string line ;
while ( std : : getline ( f , line ) ) {
line = trim ( line ) ;
if ( ! line . empty ( ) & & ! startsWith ( line , ' # ' ) ) {
if ( ! startsWith ( line , ' " ' ) )
line = ' " ' + line + ' " ' ;
config . testsOrTags . push_back ( line + ' , ' ) ;
}
}
return ParserResult : : ok ( ParseResultType : : Matched ) ;
} ;
auto const setTestOrder = [ & ] ( std : : string const & order ) {
if ( startsWith ( " declared " , order ) )
config . runOrder = RunTests : : InDeclarationOrder ;
else if ( startsWith ( " lexical " , order ) )
config . runOrder = RunTests : : InLexicographicalOrder ;
else if ( startsWith ( " random " , order ) )
config . runOrder = RunTests : : InRandomOrder ;
else
return clara : : ParserResult : : runtimeError ( " Unrecognised ordering: ' " + order + " ' " ) ;
return ParserResult : : ok ( ParseResultType : : Matched ) ;
} ;
auto const setRngSeed = [ & ] ( std : : string const & seed ) {
if ( seed ! = " time " )
return clara : : detail : : convertInto ( seed , config . rngSeed ) ;
config . rngSeed = static_cast < unsigned int > ( std : : time ( nullptr ) ) ;
return ParserResult : : ok ( ParseResultType : : Matched ) ;
} ;
auto const setColourUsage = [ & ] ( std : : string const & useColour ) {
auto mode = toLower ( useColour ) ;
if ( mode = = " yes " )
config . useColour = UseColour : : Yes ;
else if ( mode = = " no " )
config . useColour = UseColour : : No ;
else if ( mode = = " auto " )
config . useColour = UseColour : : Auto ;
else
return ParserResult : : runtimeError ( " colour mode must be one of: auto, yes or no. ' " + useColour + " ' not recognised " ) ;
return ParserResult : : ok ( ParseResultType : : Matched ) ;
} ;
auto const setWaitForKeypress = [ & ] ( std : : string const & keypress ) {
auto keypressLc = toLower ( keypress ) ;
if ( keypressLc = = " start " )
config . waitForKeypress = WaitForKeypress : : BeforeStart ;
else if ( keypressLc = = " exit " )
config . waitForKeypress = WaitForKeypress : : BeforeExit ;
else if ( keypressLc = = " both " )
config . waitForKeypress = WaitForKeypress : : BeforeStartAndExit ;
else
return ParserResult : : runtimeError ( " keypress argument must be one of: start, exit or both. ' " + keypress + " ' not recognised " ) ;
return ParserResult : : ok ( ParseResultType : : Matched ) ;
} ;
auto const setVerbosity = [ & ] ( std : : string const & verbosity ) {
auto lcVerbosity = toLower ( verbosity ) ;
if ( lcVerbosity = = " quiet " )
config . verbosity = Verbosity : : Quiet ;
else if ( lcVerbosity = = " normal " )
config . verbosity = Verbosity : : Normal ;
else if ( lcVerbosity = = " high " )
config . verbosity = Verbosity : : High ;
else
return ParserResult : : runtimeError ( " Unrecognised verbosity, ' " + verbosity + " ' " ) ;
return ParserResult : : ok ( ParseResultType : : Matched ) ;
} ;
auto cli
= ExeName ( config . processName )
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| Help ( config . showHelp )
| Opt ( config . listTests )
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[ " -l " ] [ " --list-tests " ]
( " list all/matching test cases " )
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| Opt ( config . listTags )
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[ " -t " ] [ " --list-tags " ]
( " list all/matching tags " )
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| Opt ( config . showSuccessfulTests )
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[ " -s " ] [ " --success " ]
( " include successful tests in output " )
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| Opt ( config . shouldDebugBreak )
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[ " -b " ] [ " --break " ]
( " break into debugger on failure " )
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| Opt ( config . noThrow )
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[ " -e " ] [ " --nothrow " ]
( " skip exception tests " )
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| Opt ( config . showInvisibles )
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[ " -i " ] [ " --invisibles " ]
( " show invisibles (tabs, newlines) " )
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| Opt ( config . outputFilename , " filename " )
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[ " -o " ] [ " --out " ]
( " output filename " )
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| Opt ( config . reporterNames , " name " )
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[ " -r " ] [ " --reporter " ]
( " reporter to use (defaults to console) " )
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| Opt ( config . name , " name " )
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[ " -n " ] [ " --name " ]
( " suite name " )
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| Opt ( [ & ] ( bool ) { config . abortAfter = 1 ; } )
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[ " -a " ] [ " --abort " ]
( " abort at first failure " )
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| Opt ( [ & ] ( int x ) { config . abortAfter = x ; } , " no. failures " )
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[ " -x " ] [ " --abortx " ]
( " abort after x failures " )
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| Opt ( setWarning , " warning name " )
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[ " -w " ] [ " --warn " ]
( " enable warnings " )
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| Opt ( [ & ] ( bool flag ) { config . showDurations = flag ? ShowDurations : : Always : ShowDurations : : Never ; } , " yes|no " )
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[ " -d " ] [ " --durations " ]
( " show test durations " )
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| Opt ( loadTestNamesFromFile , " filename " )
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[ " -f " ] [ " --input-file " ]
( " load test names to run from a file " )
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| Opt ( config . filenamesAsTags )
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[ " -# " ] [ " --filenames-as-tags " ]
( " adds a tag for the filename " )
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| Opt ( config . sectionsToRun , " section name " )
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[ " -c " ] [ " --section " ]
( " specify section to run " )
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| Opt ( setVerbosity , " quiet|normal|high " )
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[ " -v " ] [ " --verbosity " ]
( " set output verbosity " )
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| Opt ( config . listTestNamesOnly )
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[ " --list-test-names-only " ]
( " list all/matching test cases names only " )
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| Opt ( config . listReporters )
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[ " --list-reporters " ]
( " list all reporters " )
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| Opt ( setTestOrder , " decl|lex|rand " )
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[ " --order " ]
( " test case order (defaults to decl) " )
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| Opt ( setRngSeed , " 'time'|number " )
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[ " --rng-seed " ]
( " set a specific seed for random numbers " )
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| Opt ( setColourUsage , " yes|no " )
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[ " --use-colour " ]
( " should output be colourised " )
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| Opt ( config . libIdentify )
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[ " --libidentify " ]
( " report name and version according to libidentify standard " )
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| Opt ( setWaitForKeypress , " start|exit|both " )
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[ " --wait-for-keypress " ]
( " waits for a keypress before exiting " )
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| Opt ( config . benchmarkResolutionMultiple , " multiplier " )
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[ " --benchmark-resolution-multiple " ]
( " multiple of clock resolution to run benchmarks " )
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| Arg ( config . testsOrTags , " test name|pattern|tags " )
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( " which test or tests to use " ) ;
return cli ;
}
} // end namespace Catch
// end catch_commandline.cpp
// start catch_common.cpp
# include <cstring>
# include <ostream>
namespace Catch {
bool SourceLineInfo : : empty ( ) const noexcept {
return file [ 0 ] = = ' \0 ' ;
}
bool SourceLineInfo : : operator = = ( SourceLineInfo const & other ) const noexcept {
return line = = other . line & & ( file = = other . file | | std : : strcmp ( file , other . file ) = = 0 ) ;
}
bool SourceLineInfo : : operator < ( SourceLineInfo const & other ) const noexcept {
return line < other . line | | ( line = = other . line & & ( std : : strcmp ( file , other . file ) < 0 ) ) ;
}
std : : ostream & operator < < ( std : : ostream & os , SourceLineInfo const & info ) {
# ifndef __GNUG__
os < < info . file < < ' ( ' < < info . line < < ' ) ' ;
# else
os < < info . file < < ' : ' < < info . line ;
# endif
return os ;
}
std : : string StreamEndStop : : operator + ( ) const {
return std : : string ( ) ;
}
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NonCopyable : : NonCopyable ( ) = default ;
NonCopyable : : ~ NonCopyable ( ) = default ;
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}
// end catch_common.cpp
// start catch_config.cpp
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// start catch_enforce.h
# include <stdexcept>
# define CATCH_PREPARE_EXCEPTION( type, msg ) \
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type ( ( Catch : : ReusableStringStream ( ) < < msg ) . str ( ) )
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# define CATCH_INTERNAL_ERROR( msg ) \
throw CATCH_PREPARE_EXCEPTION ( std : : logic_error , CATCH_INTERNAL_LINEINFO < < " : Internal Catch error: " < < msg ) ;
# define CATCH_ERROR( msg ) \
throw CATCH_PREPARE_EXCEPTION ( std : : domain_error , msg )
# define CATCH_ENFORCE( condition, msg ) \
do { if ( ! ( condition ) ) CATCH_ERROR ( msg ) ; } while ( false )
// end catch_enforce.h
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namespace Catch {
Config : : Config ( ConfigData const & data )
: m_data ( data ) ,
m_stream ( openStream ( ) )
{
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TestSpecParser parser ( ITagAliasRegistry : : get ( ) ) ;
if ( data . testsOrTags . empty ( ) ) {
parser . parse ( " ~[.] " ) ; // All not hidden tests
}
else {
m_hasTestFilters = true ;
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for ( auto const & testOrTags : data . testsOrTags )
parser . parse ( testOrTags ) ;
}
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m_testSpec = parser . testSpec ( ) ;
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}
std : : string const & Config : : getFilename ( ) const {
return m_data . outputFilename ;
}
bool Config : : listTests ( ) const { return m_data . listTests ; }
bool Config : : listTestNamesOnly ( ) const { return m_data . listTestNamesOnly ; }
bool Config : : listTags ( ) const { return m_data . listTags ; }
bool Config : : listReporters ( ) const { return m_data . listReporters ; }
std : : string Config : : getProcessName ( ) const { return m_data . processName ; }
std : : vector < std : : string > const & Config : : getReporterNames ( ) const { return m_data . reporterNames ; }
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std : : vector < std : : string > const & Config : : getTestsOrTags ( ) const { return m_data . testsOrTags ; }
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std : : vector < std : : string > const & Config : : getSectionsToRun ( ) const { return m_data . sectionsToRun ; }
TestSpec const & Config : : testSpec ( ) const { return m_testSpec ; }
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bool Config : : hasTestFilters ( ) const { return m_hasTestFilters ; }
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bool Config : : showHelp ( ) const { return m_data . showHelp ; }
// IConfig interface
bool Config : : allowThrows ( ) const { return ! m_data . noThrow ; }
std : : ostream & Config : : stream ( ) const { return m_stream - > stream ( ) ; }
std : : string Config : : name ( ) const { return m_data . name . empty ( ) ? m_data . processName : m_data . name ; }
bool Config : : includeSuccessfulResults ( ) const { return m_data . showSuccessfulTests ; }
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bool Config : : warnAboutMissingAssertions ( ) const { return ! ! ( m_data . warnings & WarnAbout : : NoAssertions ) ; }
bool Config : : warnAboutNoTests ( ) const { return ! ! ( m_data . warnings & WarnAbout : : NoTests ) ; }
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ShowDurations : : OrNot Config : : showDurations ( ) const { return m_data . showDurations ; }
RunTests : : InWhatOrder Config : : runOrder ( ) const { return m_data . runOrder ; }
unsigned int Config : : rngSeed ( ) const { return m_data . rngSeed ; }
int Config : : benchmarkResolutionMultiple ( ) const { return m_data . benchmarkResolutionMultiple ; }
UseColour : : YesOrNo Config : : useColour ( ) const { return m_data . useColour ; }
bool Config : : shouldDebugBreak ( ) const { return m_data . shouldDebugBreak ; }
int Config : : abortAfter ( ) const { return m_data . abortAfter ; }
bool Config : : showInvisibles ( ) const { return m_data . showInvisibles ; }
Verbosity Config : : verbosity ( ) const { return m_data . verbosity ; }
IStream const * Config : : openStream ( ) {
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return Catch : : makeStream ( m_data . outputFilename ) ;
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}
} // end namespace Catch
// end catch_config.cpp
// start catch_console_colour.cpp
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# if defined(__clang__)
# pragma clang diagnostic push
# pragma clang diagnostic ignored "-Wexit-time-destructors"
# endif
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// start catch_errno_guard.h
namespace Catch {
class ErrnoGuard {
public :
ErrnoGuard ( ) ;
~ ErrnoGuard ( ) ;
private :
int m_oldErrno ;
} ;
}
// end catch_errno_guard.h
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# include <sstream>
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namespace Catch {
namespace {
struct IColourImpl {
virtual ~ IColourImpl ( ) = default ;
virtual void use ( Colour : : Code _colourCode ) = 0 ;
} ;
struct NoColourImpl : IColourImpl {
void use ( Colour : : Code ) { }
static IColourImpl * instance ( ) {
static NoColourImpl s_instance ;
return & s_instance ;
}
} ;
} // anon namespace
} // namespace Catch
# if !defined( CATCH_CONFIG_COLOUR_NONE ) && !defined( CATCH_CONFIG_COLOUR_WINDOWS ) && !defined( CATCH_CONFIG_COLOUR_ANSI )
# ifdef CATCH_PLATFORM_WINDOWS
# define CATCH_CONFIG_COLOUR_WINDOWS
# else
# define CATCH_CONFIG_COLOUR_ANSI
# endif
# endif
# if defined ( CATCH_CONFIG_COLOUR_WINDOWS ) /////////////////////////////////////////
namespace Catch {
namespace {
class Win32ColourImpl : public IColourImpl {
public :
Win32ColourImpl ( ) : stdoutHandle ( GetStdHandle ( STD_OUTPUT_HANDLE ) )
{
CONSOLE_SCREEN_BUFFER_INFO csbiInfo ;
GetConsoleScreenBufferInfo ( stdoutHandle , & csbiInfo ) ;
originalForegroundAttributes = csbiInfo . wAttributes & ~ ( BACKGROUND_GREEN | BACKGROUND_RED | BACKGROUND_BLUE | BACKGROUND_INTENSITY ) ;
originalBackgroundAttributes = csbiInfo . wAttributes & ~ ( FOREGROUND_GREEN | FOREGROUND_RED | FOREGROUND_BLUE | FOREGROUND_INTENSITY ) ;
}
virtual void use ( Colour : : Code _colourCode ) override {
switch ( _colourCode ) {
case Colour : : None : return setTextAttribute ( originalForegroundAttributes ) ;
case Colour : : White : return setTextAttribute ( FOREGROUND_GREEN | FOREGROUND_RED | FOREGROUND_BLUE ) ;
case Colour : : Red : return setTextAttribute ( FOREGROUND_RED ) ;
case Colour : : Green : return setTextAttribute ( FOREGROUND_GREEN ) ;
case Colour : : Blue : return setTextAttribute ( FOREGROUND_BLUE ) ;
case Colour : : Cyan : return setTextAttribute ( FOREGROUND_BLUE | FOREGROUND_GREEN ) ;
case Colour : : Yellow : return setTextAttribute ( FOREGROUND_RED | FOREGROUND_GREEN ) ;
case Colour : : Grey : return setTextAttribute ( 0 ) ;
case Colour : : LightGrey : return setTextAttribute ( FOREGROUND_INTENSITY ) ;
case Colour : : BrightRed : return setTextAttribute ( FOREGROUND_INTENSITY | FOREGROUND_RED ) ;
case Colour : : BrightGreen : return setTextAttribute ( FOREGROUND_INTENSITY | FOREGROUND_GREEN ) ;
case Colour : : BrightWhite : return setTextAttribute ( FOREGROUND_INTENSITY | FOREGROUND_GREEN | FOREGROUND_RED | FOREGROUND_BLUE ) ;
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case Colour : : BrightYellow : return setTextAttribute ( FOREGROUND_INTENSITY | FOREGROUND_RED | FOREGROUND_GREEN ) ;
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case Colour : : Bright : CATCH_INTERNAL_ERROR ( " not a colour " ) ;
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default :
CATCH_ERROR ( " Unknown colour requested " ) ;
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}
}
private :
void setTextAttribute ( WORD _textAttribute ) {
SetConsoleTextAttribute ( stdoutHandle , _textAttribute | originalBackgroundAttributes ) ;
}
HANDLE stdoutHandle ;
WORD originalForegroundAttributes ;
WORD originalBackgroundAttributes ;
} ;
IColourImpl * platformColourInstance ( ) {
static Win32ColourImpl s_instance ;
IConfigPtr config = getCurrentContext ( ) . getConfig ( ) ;
UseColour : : YesOrNo colourMode = config
? config - > useColour ( )
: UseColour : : Auto ;
if ( colourMode = = UseColour : : Auto )
colourMode = UseColour : : Yes ;
return colourMode = = UseColour : : Yes
? & s_instance
: NoColourImpl : : instance ( ) ;
}
} // end anon namespace
} // end namespace Catch
# elif defined( CATCH_CONFIG_COLOUR_ANSI ) //////////////////////////////////////
# include <unistd.h>
namespace Catch {
namespace {
// use POSIX/ ANSI console terminal codes
// Thanks to Adam Strzelecki for original contribution
// (http://github.com/nanoant)
// https://github.com/philsquared/Catch/pull/131
class PosixColourImpl : public IColourImpl {
public :
virtual void use ( Colour : : Code _colourCode ) override {
switch ( _colourCode ) {
case Colour : : None :
case Colour : : White : return setColour ( " [0m " ) ;
case Colour : : Red : return setColour ( " [0;31m " ) ;
case Colour : : Green : return setColour ( " [0;32m " ) ;
case Colour : : Blue : return setColour ( " [0;34m " ) ;
case Colour : : Cyan : return setColour ( " [0;36m " ) ;
case Colour : : Yellow : return setColour ( " [0;33m " ) ;
case Colour : : Grey : return setColour ( " [1;30m " ) ;
case Colour : : LightGrey : return setColour ( " [0;37m " ) ;
case Colour : : BrightRed : return setColour ( " [1;31m " ) ;
case Colour : : BrightGreen : return setColour ( " [1;32m " ) ;
case Colour : : BrightWhite : return setColour ( " [1;37m " ) ;
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case Colour : : BrightYellow : return setColour ( " [1;33m " ) ;
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case Colour : : Bright : CATCH_INTERNAL_ERROR ( " not a colour " ) ;
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default : CATCH_INTERNAL_ERROR ( " Unknown colour requested " ) ;
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}
}
static IColourImpl * instance ( ) {
static PosixColourImpl s_instance ;
return & s_instance ;
}
private :
void setColour ( const char * _escapeCode ) {
Catch : : cout ( ) < < ' \033 ' < < _escapeCode ;
}
} ;
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bool useColourOnPlatform ( ) {
return
# ifdef CATCH_PLATFORM_MAC
! isDebuggerActive ( ) & &
# endif
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# if !(defined(__DJGPP__) && defined(__STRICT_ANSI__))
isatty ( STDOUT_FILENO )
# else
false
# endif
;
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}
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IColourImpl * platformColourInstance ( ) {
ErrnoGuard guard ;
IConfigPtr config = getCurrentContext ( ) . getConfig ( ) ;
UseColour : : YesOrNo colourMode = config
? config - > useColour ( )
: UseColour : : Auto ;
if ( colourMode = = UseColour : : Auto )
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colourMode = useColourOnPlatform ( )
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? UseColour : : Yes
: UseColour : : No ;
return colourMode = = UseColour : : Yes
? PosixColourImpl : : instance ( )
: NoColourImpl : : instance ( ) ;
}
} // end anon namespace
} // end namespace Catch
# else // not Windows or ANSI ///////////////////////////////////////////////
namespace Catch {
static IColourImpl * platformColourInstance ( ) { return NoColourImpl : : instance ( ) ; }
} // end namespace Catch
# endif // Windows/ ANSI/ None
namespace Catch {
Colour : : Colour ( Code _colourCode ) { use ( _colourCode ) ; }
Colour : : Colour ( Colour & & rhs ) noexcept {
m_moved = rhs . m_moved ;
rhs . m_moved = true ;
}
Colour & Colour : : operator = ( Colour & & rhs ) noexcept {
m_moved = rhs . m_moved ;
rhs . m_moved = true ;
return * this ;
}
Colour : : ~ Colour ( ) { if ( ! m_moved ) use ( None ) ; }
void Colour : : use ( Code _colourCode ) {
static IColourImpl * impl = platformColourInstance ( ) ;
impl - > use ( _colourCode ) ;
}
std : : ostream & operator < < ( std : : ostream & os , Colour const & ) {
return os ;
}
} // end namespace Catch
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# if defined(__clang__)
# pragma clang diagnostic pop
# endif
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// end catch_console_colour.cpp
// start catch_context.cpp
namespace Catch {
class Context : public IMutableContext , NonCopyable {
public : // IContext
virtual IResultCapture * getResultCapture ( ) override {
return m_resultCapture ;
}
virtual IRunner * getRunner ( ) override {
return m_runner ;
}
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virtual IConfigPtr const & getConfig ( ) const override {
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return m_config ;
}
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virtual ~ Context ( ) override ;
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public : // IMutableContext
virtual void setResultCapture ( IResultCapture * resultCapture ) override {
m_resultCapture = resultCapture ;
}
virtual void setRunner ( IRunner * runner ) override {
m_runner = runner ;
}
virtual void setConfig ( IConfigPtr const & config ) override {
m_config = config ;
}
friend IMutableContext & getCurrentMutableContext ( ) ;
private :
IConfigPtr m_config ;
IRunner * m_runner = nullptr ;
IResultCapture * m_resultCapture = nullptr ;
} ;
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IMutableContext * IMutableContext : : currentContext = nullptr ;
void IMutableContext : : createContext ( )
{
currentContext = new Context ( ) ;
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}
void cleanUpContext ( ) {
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delete IMutableContext : : currentContext ;
IMutableContext : : currentContext = nullptr ;
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}
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IContext : : ~ IContext ( ) = default ;
IMutableContext : : ~ IMutableContext ( ) = default ;
Context : : ~ Context ( ) = default ;
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}
// end catch_context.cpp
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// start catch_debug_console.cpp
// start catch_debug_console.h
# include <string>
namespace Catch {
void writeToDebugConsole ( std : : string const & text ) ;
}
// end catch_debug_console.h
# ifdef CATCH_PLATFORM_WINDOWS
namespace Catch {
void writeToDebugConsole ( std : : string const & text ) {
: : OutputDebugStringA ( text . c_str ( ) ) ;
}
}
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# else
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namespace Catch {
void writeToDebugConsole ( std : : string const & text ) {
// !TBD: Need a version for Mac/ XCode and other IDEs
Catch : : cout ( ) < < text ;
}
}
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# endif // Platform
// end catch_debug_console.cpp
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// start catch_debugger.cpp
# ifdef CATCH_PLATFORM_MAC
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# include <assert.h>
# include <stdbool.h>
# include <sys / types.h>
# include <unistd.h>
# include <sys / sysctl.h>
# include <cstddef>
# include <ostream>
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namespace Catch {
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// The following function is taken directly from the following technical note:
// http://developer.apple.com/library/mac/#qa/qa2004/qa1361.html
// Returns true if the current process is being debugged (either
// running under the debugger or has a debugger attached post facto).
bool isDebuggerActive ( ) {
int mib [ 4 ] ;
struct kinfo_proc info ;
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std : : size_t size ;
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// Initialize the flags so that, if sysctl fails for some bizarre
// reason, we get a predictable result.
info . kp_proc . p_flag = 0 ;
// Initialize mib, which tells sysctl the info we want, in this case
// we're looking for information about a specific process ID.
mib [ 0 ] = CTL_KERN ;
mib [ 1 ] = KERN_PROC ;
mib [ 2 ] = KERN_PROC_PID ;
mib [ 3 ] = getpid ( ) ;
// Call sysctl.
size = sizeof ( info ) ;
if ( sysctl ( mib , sizeof ( mib ) / sizeof ( * mib ) , & info , & size , nullptr , 0 ) ! = 0 ) {
Catch : : cerr ( ) < < " \n ** Call to sysctl failed - unable to determine if debugger is active ** \n " < < std : : endl ;
return false ;
}
// We're being debugged if the P_TRACED flag is set.
return ( ( info . kp_proc . p_flag & P_TRACED ) ! = 0 ) ;
}
} // namespace Catch
# elif defined(CATCH_PLATFORM_LINUX)
# include <fstream>
# include <string>
namespace Catch {
// The standard POSIX way of detecting a debugger is to attempt to
// ptrace() the process, but this needs to be done from a child and not
// this process itself to still allow attaching to this process later
// if wanted, so is rather heavy. Under Linux we have the PID of the
// "debugger" (which doesn't need to be gdb, of course, it could also
// be strace, for example) in /proc/$PID/status, so just get it from
// there instead.
bool isDebuggerActive ( ) {
// Libstdc++ has a bug, where std::ifstream sets errno to 0
// This way our users can properly assert over errno values
ErrnoGuard guard ;
std : : ifstream in ( " /proc/self/status " ) ;
for ( std : : string line ; std : : getline ( in , line ) ; ) {
static const int PREFIX_LEN = 11 ;
if ( line . compare ( 0 , PREFIX_LEN , " TracerPid: \t " ) = = 0 ) {
// We're traced if the PID is not 0 and no other PID starts
// with 0 digit, so it's enough to check for just a single
// character.
return line . length ( ) > PREFIX_LEN & & line [ PREFIX_LEN ] ! = ' 0 ' ;
}
}
return false ;
}
} // namespace Catch
# elif defined(_MSC_VER)
extern " C " __declspec ( dllimport ) int __stdcall IsDebuggerPresent ( ) ;
namespace Catch {
bool isDebuggerActive ( ) {
return IsDebuggerPresent ( ) ! = 0 ;
}
}
# elif defined(__MINGW32__)
extern " C " __declspec ( dllimport ) int __stdcall IsDebuggerPresent ( ) ;
namespace Catch {
bool isDebuggerActive ( ) {
return IsDebuggerPresent ( ) ! = 0 ;
}
}
# else
namespace Catch {
bool isDebuggerActive ( ) { return false ; }
}
# endif // Platform
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// end catch_debugger.cpp
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// start catch_decomposer.cpp
namespace Catch {
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ITransientExpression : : ~ ITransientExpression ( ) = default ;
void formatReconstructedExpression ( std : : ostream & os , std : : string const & lhs , StringRef op , std : : string const & rhs ) {
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if ( lhs . size ( ) + rhs . size ( ) < 40 & &
lhs . find ( ' \n ' ) = = std : : string : : npos & &
rhs . find ( ' \n ' ) = = std : : string : : npos )
os < < lhs < < " " < < op < < " " < < rhs ;
else
os < < lhs < < " \n " < < op < < " \n " < < rhs ;
}
}
// end catch_decomposer.cpp
// start catch_errno_guard.cpp
# include <cerrno>
namespace Catch {
ErrnoGuard : : ErrnoGuard ( ) : m_oldErrno ( errno ) { }
ErrnoGuard : : ~ ErrnoGuard ( ) { errno = m_oldErrno ; }
}
// end catch_errno_guard.cpp
// start catch_exception_translator_registry.cpp
// start catch_exception_translator_registry.h
# include <vector>
# include <string>
# include <memory>
namespace Catch {
class ExceptionTranslatorRegistry : public IExceptionTranslatorRegistry {
public :
~ ExceptionTranslatorRegistry ( ) ;
virtual void registerTranslator ( const IExceptionTranslator * translator ) ;
virtual std : : string translateActiveException ( ) const override ;
std : : string tryTranslators ( ) const ;
private :
std : : vector < std : : unique_ptr < IExceptionTranslator const > > m_translators ;
} ;
}
// end catch_exception_translator_registry.h
# ifdef __OBJC__
# import "Foundation / Foundation.h"
# endif
namespace Catch {
ExceptionTranslatorRegistry : : ~ ExceptionTranslatorRegistry ( ) {
}
void ExceptionTranslatorRegistry : : registerTranslator ( const IExceptionTranslator * translator ) {
m_translators . push_back ( std : : unique_ptr < const IExceptionTranslator > ( translator ) ) ;
}
std : : string ExceptionTranslatorRegistry : : translateActiveException ( ) const {
try {
# ifdef __OBJC__
// In Objective-C try objective-c exceptions first
@ try {
return tryTranslators ( ) ;
}
@ catch ( NSException * exception ) {
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return Catch : : Detail : : stringify ( [ exception description ] ) ;
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}
# else
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// Compiling a mixed mode project with MSVC means that CLR
// exceptions will be caught in (...) as well. However, these
// do not fill-in std::current_exception and thus lead to crash
// when attempting rethrow.
// /EHa switch also causes structured exceptions to be caught
// here, but they fill-in current_exception properly, so
// at worst the output should be a little weird, instead of
// causing a crash.
if ( std : : current_exception ( ) = = nullptr ) {
return " Non C++ exception. Possibly a CLR exception. " ;
}
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return tryTranslators ( ) ;
# endif
}
catch ( TestFailureException & ) {
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std : : rethrow_exception ( std : : current_exception ( ) ) ;
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}
catch ( std : : exception & ex ) {
return ex . what ( ) ;
}
catch ( std : : string & msg ) {
return msg ;
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}
catch ( const char * msg ) {
return msg ;
}
catch ( . . . ) {
return " Unknown exception " ;
}
}
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std : : string ExceptionTranslatorRegistry : : tryTranslators ( ) const {
if ( m_translators . empty ( ) )
std : : rethrow_exception ( std : : current_exception ( ) ) ;
else
return m_translators [ 0 ] - > translate ( m_translators . begin ( ) + 1 , m_translators . end ( ) ) ;
}
}
// end catch_exception_translator_registry.cpp
// start catch_fatal_condition.cpp
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# if defined(__GNUC__)
# pragma GCC diagnostic push
# pragma GCC diagnostic ignored "-Wmissing-field-initializers"
# endif
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# if defined( CATCH_CONFIG_WINDOWS_SEH ) || defined( CATCH_CONFIG_POSIX_SIGNALS )
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namespace {
// Report the error condition
void reportFatal ( char const * const message ) {
Catch : : getCurrentContext ( ) . getResultCapture ( ) - > handleFatalErrorCondition ( message ) ;
}
}
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# endif // signals/SEH handling
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# if defined( CATCH_CONFIG_WINDOWS_SEH )
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namespace Catch {
struct SignalDefs { DWORD id ; const char * name ; } ;
// There is no 1-1 mapping between signals and windows exceptions.
// Windows can easily distinguish between SO and SigSegV,
// but SigInt, SigTerm, etc are handled differently.
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static SignalDefs signalDefs [ ] = {
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{ EXCEPTION_ILLEGAL_INSTRUCTION , " SIGILL - Illegal instruction signal " } ,
{ EXCEPTION_STACK_OVERFLOW , " SIGSEGV - Stack overflow " } ,
{ EXCEPTION_ACCESS_VIOLATION , " SIGSEGV - Segmentation violation signal " } ,
{ EXCEPTION_INT_DIVIDE_BY_ZERO , " Divide by zero error " } ,
} ;
LONG CALLBACK FatalConditionHandler : : handleVectoredException ( PEXCEPTION_POINTERS ExceptionInfo ) {
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for ( auto const & def : signalDefs ) {
if ( ExceptionInfo - > ExceptionRecord - > ExceptionCode = = def . id ) {
reportFatal ( def . name ) ;
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}
}
// If its not an exception we care about, pass it along.
// This stops us from eating debugger breaks etc.
return EXCEPTION_CONTINUE_SEARCH ;
}
FatalConditionHandler : : FatalConditionHandler ( ) {
isSet = true ;
// 32k seems enough for Catch to handle stack overflow,
// but the value was found experimentally, so there is no strong guarantee
guaranteeSize = 32 * 1024 ;
exceptionHandlerHandle = nullptr ;
// Register as first handler in current chain
exceptionHandlerHandle = AddVectoredExceptionHandler ( 1 , handleVectoredException ) ;
// Pass in guarantee size to be filled
SetThreadStackGuarantee ( & guaranteeSize ) ;
}
void FatalConditionHandler : : reset ( ) {
if ( isSet ) {
RemoveVectoredExceptionHandler ( exceptionHandlerHandle ) ;
SetThreadStackGuarantee ( & guaranteeSize ) ;
exceptionHandlerHandle = nullptr ;
isSet = false ;
}
}
FatalConditionHandler : : ~ FatalConditionHandler ( ) {
reset ( ) ;
}
bool FatalConditionHandler : : isSet = false ;
ULONG FatalConditionHandler : : guaranteeSize = 0 ;
PVOID FatalConditionHandler : : exceptionHandlerHandle = nullptr ;
} // namespace Catch
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# elif defined( CATCH_CONFIG_POSIX_SIGNALS )
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namespace Catch {
struct SignalDefs {
int id ;
const char * name ;
} ;
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static SignalDefs signalDefs [ ] = {
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{ SIGINT , " SIGINT - Terminal interrupt signal " } ,
{ SIGILL , " SIGILL - Illegal instruction signal " } ,
{ SIGFPE , " SIGFPE - Floating point error signal " } ,
{ SIGSEGV , " SIGSEGV - Segmentation violation signal " } ,
{ SIGTERM , " SIGTERM - Termination request signal " } ,
{ SIGABRT , " SIGABRT - Abort (abnormal termination) signal " }
} ;
void FatalConditionHandler : : handleSignal ( int sig ) {
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char const * name = " <unknown signal> " ;
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for ( auto const & def : signalDefs ) {
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if ( sig = = def . id ) {
name = def . name ;
break ;
}
}
reset ( ) ;
reportFatal ( name ) ;
raise ( sig ) ;
}
FatalConditionHandler : : FatalConditionHandler ( ) {
isSet = true ;
stack_t sigStack ;
sigStack . ss_sp = altStackMem ;
sigStack . ss_size = SIGSTKSZ ;
sigStack . ss_flags = 0 ;
sigaltstack ( & sigStack , & oldSigStack ) ;
struct sigaction sa = { } ;
sa . sa_handler = handleSignal ;
sa . sa_flags = SA_ONSTACK ;
for ( std : : size_t i = 0 ; i < sizeof ( signalDefs ) / sizeof ( SignalDefs ) ; + + i ) {
sigaction ( signalDefs [ i ] . id , & sa , & oldSigActions [ i ] ) ;
}
}
FatalConditionHandler : : ~ FatalConditionHandler ( ) {
reset ( ) ;
}
void FatalConditionHandler : : reset ( ) {
if ( isSet ) {
// Set signals back to previous values -- hopefully nobody overwrote them in the meantime
for ( std : : size_t i = 0 ; i < sizeof ( signalDefs ) / sizeof ( SignalDefs ) ; + + i ) {
sigaction ( signalDefs [ i ] . id , & oldSigActions [ i ] , nullptr ) ;
}
// Return the old stack
sigaltstack ( & oldSigStack , nullptr ) ;
isSet = false ;
}
}
bool FatalConditionHandler : : isSet = false ;
struct sigaction FatalConditionHandler : : oldSigActions [ sizeof ( signalDefs ) / sizeof ( SignalDefs ) ] = { } ;
stack_t FatalConditionHandler : : oldSigStack = { } ;
char FatalConditionHandler : : altStackMem [ SIGSTKSZ ] = { } ;
} // namespace Catch
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# else
namespace Catch {
void FatalConditionHandler : : reset ( ) { }
}
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# endif // signals/SEH handling
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# if defined(__GNUC__)
# pragma GCC diagnostic pop
# endif
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// end catch_fatal_condition.cpp
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// start catch_interfaces_capture.cpp
namespace Catch {
IResultCapture : : ~ IResultCapture ( ) = default ;
}
// end catch_interfaces_capture.cpp
// start catch_interfaces_config.cpp
namespace Catch {
IConfig : : ~ IConfig ( ) = default ;
}
// end catch_interfaces_config.cpp
// start catch_interfaces_exception.cpp
namespace Catch {
IExceptionTranslator : : ~ IExceptionTranslator ( ) = default ;
IExceptionTranslatorRegistry : : ~ IExceptionTranslatorRegistry ( ) = default ;
}
// end catch_interfaces_exception.cpp
// start catch_interfaces_registry_hub.cpp
namespace Catch {
IRegistryHub : : ~ IRegistryHub ( ) = default ;
IMutableRegistryHub : : ~ IMutableRegistryHub ( ) = default ;
}
// end catch_interfaces_registry_hub.cpp
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// start catch_interfaces_reporter.cpp
// start catch_reporter_multi.h
namespace Catch {
class MultipleReporters : public IStreamingReporter {
using Reporters = std : : vector < IStreamingReporterPtr > ;
Reporters m_reporters ;
public :
void add ( IStreamingReporterPtr & & reporter ) ;
public : // IStreamingReporter
ReporterPreferences getPreferences ( ) const override ;
void noMatchingTestCases ( std : : string const & spec ) override ;
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static std : : set < Verbosity > getSupportedVerbosities ( ) ;
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void benchmarkStarting ( BenchmarkInfo const & benchmarkInfo ) override ;
void benchmarkEnded ( BenchmarkStats const & benchmarkStats ) override ;
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void testRunStarting ( TestRunInfo const & testRunInfo ) override ;
void testGroupStarting ( GroupInfo const & groupInfo ) override ;
void testCaseStarting ( TestCaseInfo const & testInfo ) override ;
void sectionStarting ( SectionInfo const & sectionInfo ) override ;
void assertionStarting ( AssertionInfo const & assertionInfo ) override ;
// The return value indicates if the messages buffer should be cleared:
bool assertionEnded ( AssertionStats const & assertionStats ) override ;
void sectionEnded ( SectionStats const & sectionStats ) override ;
void testCaseEnded ( TestCaseStats const & testCaseStats ) override ;
void testGroupEnded ( TestGroupStats const & testGroupStats ) override ;
void testRunEnded ( TestRunStats const & testRunStats ) override ;
void skipTest ( TestCaseInfo const & testInfo ) override ;
bool isMulti ( ) const override ;
} ;
} // end namespace Catch
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// end catch_reporter_multi.h
namespace Catch {
ReporterConfig : : ReporterConfig ( IConfigPtr const & _fullConfig )
: m_stream ( & _fullConfig - > stream ( ) ) , m_fullConfig ( _fullConfig ) { }
ReporterConfig : : ReporterConfig ( IConfigPtr const & _fullConfig , std : : ostream & _stream )
: m_stream ( & _stream ) , m_fullConfig ( _fullConfig ) { }
std : : ostream & ReporterConfig : : stream ( ) const { return * m_stream ; }
IConfigPtr ReporterConfig : : fullConfig ( ) const { return m_fullConfig ; }
TestRunInfo : : TestRunInfo ( std : : string const & _name ) : name ( _name ) { }
GroupInfo : : GroupInfo ( std : : string const & _name ,
std : : size_t _groupIndex ,
std : : size_t _groupsCount )
: name ( _name ) ,
groupIndex ( _groupIndex ) ,
groupsCounts ( _groupsCount )
{ }
AssertionStats : : AssertionStats ( AssertionResult const & _assertionResult ,
std : : vector < MessageInfo > const & _infoMessages ,
Totals const & _totals )
: assertionResult ( _assertionResult ) ,
infoMessages ( _infoMessages ) ,
totals ( _totals )
{
assertionResult . m_resultData . lazyExpression . m_transientExpression = _assertionResult . m_resultData . lazyExpression . m_transientExpression ;
if ( assertionResult . hasMessage ( ) ) {
// Copy message into messages list.
// !TBD This should have been done earlier, somewhere
MessageBuilder builder ( assertionResult . getTestMacroName ( ) , assertionResult . getSourceInfo ( ) , assertionResult . getResultType ( ) ) ;
builder < < assertionResult . getMessage ( ) ;
builder . m_info . message = builder . m_stream . str ( ) ;
infoMessages . push_back ( builder . m_info ) ;
}
}
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AssertionStats : : ~ AssertionStats ( ) = default ;
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SectionStats : : SectionStats ( SectionInfo const & _sectionInfo ,
Counts const & _assertions ,
double _durationInSeconds ,
bool _missingAssertions )
: sectionInfo ( _sectionInfo ) ,
assertions ( _assertions ) ,
durationInSeconds ( _durationInSeconds ) ,
missingAssertions ( _missingAssertions )
{ }
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SectionStats : : ~ SectionStats ( ) = default ;
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TestCaseStats : : TestCaseStats ( TestCaseInfo const & _testInfo ,
Totals const & _totals ,
std : : string const & _stdOut ,
std : : string const & _stdErr ,
bool _aborting )
: testInfo ( _testInfo ) ,
totals ( _totals ) ,
stdOut ( _stdOut ) ,
stdErr ( _stdErr ) ,
aborting ( _aborting )
{ }
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TestCaseStats : : ~ TestCaseStats ( ) = default ;
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TestGroupStats : : TestGroupStats ( GroupInfo const & _groupInfo ,
Totals const & _totals ,
bool _aborting )
: groupInfo ( _groupInfo ) ,
totals ( _totals ) ,
aborting ( _aborting )
{ }
TestGroupStats : : TestGroupStats ( GroupInfo const & _groupInfo )
: groupInfo ( _groupInfo ) ,
aborting ( false )
{ }
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TestGroupStats : : ~ TestGroupStats ( ) = default ;
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TestRunStats : : TestRunStats ( TestRunInfo const & _runInfo ,
Totals const & _totals ,
bool _aborting )
: runInfo ( _runInfo ) ,
totals ( _totals ) ,
aborting ( _aborting )
{ }
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TestRunStats : : ~ TestRunStats ( ) = default ;
void IStreamingReporter : : fatalErrorEncountered ( StringRef ) { }
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bool IStreamingReporter : : isMulti ( ) const { return false ; }
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IReporterFactory : : ~ IReporterFactory ( ) = default ;
IReporterRegistry : : ~ IReporterRegistry ( ) = default ;
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void addReporter ( IStreamingReporterPtr & existingReporter , IStreamingReporterPtr & & additionalReporter ) {
if ( ! existingReporter ) {
existingReporter = std : : move ( additionalReporter ) ;
return ;
}
MultipleReporters * multi = nullptr ;
if ( existingReporter - > isMulti ( ) ) {
multi = static_cast < MultipleReporters * > ( existingReporter . get ( ) ) ;
}
else {
auto newMulti = std : : unique_ptr < MultipleReporters > ( new MultipleReporters ) ;
newMulti - > add ( std : : move ( existingReporter ) ) ;
multi = newMulti . get ( ) ;
existingReporter = std : : move ( newMulti ) ;
}
multi - > add ( std : : move ( additionalReporter ) ) ;
}
} // end namespace Catch
// end catch_interfaces_reporter.cpp
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// start catch_interfaces_runner.cpp
namespace Catch {
IRunner : : ~ IRunner ( ) = default ;
}
// end catch_interfaces_runner.cpp
// start catch_interfaces_testcase.cpp
namespace Catch {
ITestInvoker : : ~ ITestInvoker ( ) = default ;
ITestCaseRegistry : : ~ ITestCaseRegistry ( ) = default ;
}
// end catch_interfaces_testcase.cpp
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// start catch_leak_detector.cpp
# ifdef CATCH_CONFIG_WINDOWS_CRTDBG
# include <crtdbg.h>
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namespace Catch {
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LeakDetector : : LeakDetector ( ) {
int flag = _CrtSetDbgFlag ( _CRTDBG_REPORT_FLAG ) ;
flag | = _CRTDBG_LEAK_CHECK_DF ;
flag | = _CRTDBG_ALLOC_MEM_DF ;
_CrtSetDbgFlag ( flag ) ;
_CrtSetReportMode ( _CRT_WARN , _CRTDBG_MODE_FILE | _CRTDBG_MODE_DEBUG ) ;
_CrtSetReportFile ( _CRT_WARN , _CRTDBG_FILE_STDERR ) ;
// Change this to leaking allocation's number to break there
_CrtSetBreakAlloc ( - 1 ) ;
}
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}
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# else
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Catch : : LeakDetector : : LeakDetector ( ) { }
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# endif
// end catch_leak_detector.cpp
// start catch_list.cpp
// start catch_list.h
# include <set>
namespace Catch {
std : : size_t listTests ( Config const & config ) ;
std : : size_t listTestsNamesOnly ( Config const & config ) ;
struct TagInfo {
void add ( std : : string const & spelling ) ;
std : : string all ( ) const ;
std : : set < std : : string > spellings ;
std : : size_t count = 0 ;
} ;
std : : size_t listTags ( Config const & config ) ;
std : : size_t listReporters ( Config const & /*config*/ ) ;
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Option < std : : size_t > list ( Config const & config ) ;
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} // end namespace Catch
// end catch_list.h
// start catch_text.h
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namespace Catch {
using namespace clara : : TextFlow ;
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}
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// end catch_text.h
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# include <limits>
# include <algorithm>
# include <iomanip>
namespace Catch {
std : : size_t listTests ( Config const & config ) {
TestSpec testSpec = config . testSpec ( ) ;
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if ( config . hasTestFilters ( ) )
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Catch : : cout ( ) < < " Matching test cases: \n " ;
else {
Catch : : cout ( ) < < " All available test cases: \n " ;
}
auto matchedTestCases = filterTests ( getAllTestCasesSorted ( config ) , testSpec , config ) ;
for ( auto const & testCaseInfo : matchedTestCases ) {
Colour : : Code colour = testCaseInfo . isHidden ( )
? Colour : : SecondaryText
: Colour : : None ;
Colour colourGuard ( colour ) ;
Catch : : cout ( ) < < Column ( testCaseInfo . name ) . initialIndent ( 2 ) . indent ( 4 ) < < " \n " ;
if ( config . verbosity ( ) > = Verbosity : : High ) {
Catch : : cout ( ) < < Column ( Catch : : Detail : : stringify ( testCaseInfo . lineInfo ) ) . indent ( 4 ) < < std : : endl ;
std : : string description = testCaseInfo . description ;
if ( description . empty ( ) )
description = " (NO DESCRIPTION) " ;
Catch : : cout ( ) < < Column ( description ) . indent ( 4 ) < < std : : endl ;
}
if ( ! testCaseInfo . tags . empty ( ) )
Catch : : cout ( ) < < Column ( testCaseInfo . tagsAsString ( ) ) . indent ( 6 ) < < " \n " ;
}
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if ( ! config . hasTestFilters ( ) )
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Catch : : cout ( ) < < pluralise ( matchedTestCases . size ( ) , " test case " ) < < ' \n ' < < std : : endl ;
else
Catch : : cout ( ) < < pluralise ( matchedTestCases . size ( ) , " matching test case " ) < < ' \n ' < < std : : endl ;
return matchedTestCases . size ( ) ;
}
std : : size_t listTestsNamesOnly ( Config const & config ) {
TestSpec testSpec = config . testSpec ( ) ;
std : : size_t matchedTests = 0 ;
std : : vector < TestCase > matchedTestCases = filterTests ( getAllTestCasesSorted ( config ) , testSpec , config ) ;
for ( auto const & testCaseInfo : matchedTestCases ) {
matchedTests + + ;
if ( startsWith ( testCaseInfo . name , ' # ' ) )
Catch : : cout ( ) < < ' " ' < < testCaseInfo . name < < ' " ' ;
else
Catch : : cout ( ) < < testCaseInfo . name ;
if ( config . verbosity ( ) > = Verbosity : : High )
Catch : : cout ( ) < < " \t @ " < < testCaseInfo . lineInfo ;
Catch : : cout ( ) < < std : : endl ;
}
return matchedTests ;
}
void TagInfo : : add ( std : : string const & spelling ) {
+ + count ;
spellings . insert ( spelling ) ;
}
std : : string TagInfo : : all ( ) const {
std : : string out ;
for ( auto const & spelling : spellings )
out + = " [ " + spelling + " ] " ;
return out ;
}
std : : size_t listTags ( Config const & config ) {
TestSpec testSpec = config . testSpec ( ) ;
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if ( config . hasTestFilters ( ) )
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Catch : : cout ( ) < < " Tags for matching test cases: \n " ;
else {
Catch : : cout ( ) < < " All available tags: \n " ;
}
std : : map < std : : string , TagInfo > tagCounts ;
std : : vector < TestCase > matchedTestCases = filterTests ( getAllTestCasesSorted ( config ) , testSpec , config ) ;
for ( auto const & testCase : matchedTestCases ) {
for ( auto const & tagName : testCase . getTestCaseInfo ( ) . tags ) {
std : : string lcaseTagName = toLower ( tagName ) ;
auto countIt = tagCounts . find ( lcaseTagName ) ;
if ( countIt = = tagCounts . end ( ) )
countIt = tagCounts . insert ( std : : make_pair ( lcaseTagName , TagInfo ( ) ) ) . first ;
countIt - > second . add ( tagName ) ;
}
}
for ( auto const & tagCount : tagCounts ) {
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ReusableStringStream rss ;
rss < < " " < < std : : setw ( 2 ) < < tagCount . second . count < < " " ;
auto str = rss . str ( ) ;
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auto wrapper = Column ( tagCount . second . all ( ) )
. initialIndent ( 0 )
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. indent ( str . size ( ) )
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. width ( CATCH_CONFIG_CONSOLE_WIDTH - 10 ) ;
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Catch : : cout ( ) < < str < < wrapper < < ' \n ' ;
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}
Catch : : cout ( ) < < pluralise ( tagCounts . size ( ) , " tag " ) < < ' \n ' < < std : : endl ;
return tagCounts . size ( ) ;
}
std : : size_t listReporters ( Config const & /*config*/ ) {
Catch : : cout ( ) < < " Available reporters: \n " ;
IReporterRegistry : : FactoryMap const & factories = getRegistryHub ( ) . getReporterRegistry ( ) . getFactories ( ) ;
std : : size_t maxNameLen = 0 ;
for ( auto const & factoryKvp : factories )
maxNameLen = ( std : : max ) ( maxNameLen , factoryKvp . first . size ( ) ) ;
for ( auto const & factoryKvp : factories ) {
Catch : : cout ( )
< < Column ( factoryKvp . first + " : " )
. indent ( 2 )
. width ( 5 + maxNameLen )
+ Column ( factoryKvp . second - > getDescription ( ) )
. initialIndent ( 0 )
. indent ( 2 )
. width ( CATCH_CONFIG_CONSOLE_WIDTH - maxNameLen - 8 )
< < " \n " ;
}
Catch : : cout ( ) < < std : : endl ;
return factories . size ( ) ;
}
Option < std : : size_t > list ( Config const & config ) {
Option < std : : size_t > listedCount ;
if ( config . listTests ( ) )
listedCount = listedCount . valueOr ( 0 ) + listTests ( config ) ;
if ( config . listTestNamesOnly ( ) )
listedCount = listedCount . valueOr ( 0 ) + listTestsNamesOnly ( config ) ;
if ( config . listTags ( ) )
listedCount = listedCount . valueOr ( 0 ) + listTags ( config ) ;
if ( config . listReporters ( ) )
listedCount = listedCount . valueOr ( 0 ) + listReporters ( config ) ;
return listedCount ;
}
} // end namespace Catch
// end catch_list.cpp
// start catch_matchers.cpp
namespace Catch {
namespace Matchers {
namespace Impl {
std : : string MatcherUntypedBase : : toString ( ) const {
if ( m_cachedToString . empty ( ) )
m_cachedToString = describe ( ) ;
return m_cachedToString ;
}
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MatcherUntypedBase : : ~ MatcherUntypedBase ( ) = default ;
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} // namespace Impl
} // namespace Matchers
using namespace Matchers ;
using Matchers : : Impl : : MatcherBase ;
} // namespace Catch
// end catch_matchers.cpp
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// start catch_matchers_floating.cpp
# include <cstdlib>
# include <cstdint>
# include <cstring>
# include <stdexcept>
namespace Catch {
namespace Matchers {
namespace Floating {
enum class FloatingPointKind : uint8_t {
Float ,
Double
} ;
}
}
}
namespace {
template < typename T >
struct Converter ;
template < >
struct Converter < float > {
static_assert ( sizeof ( float ) = = sizeof ( int32_t ) , " Important ULP matcher assumption violated " ) ;
Converter ( float f ) {
std : : memcpy ( & i , & f , sizeof ( f ) ) ;
}
int32_t i ;
} ;
template < >
struct Converter < double > {
static_assert ( sizeof ( double ) = = sizeof ( int64_t ) , " Important ULP matcher assumption violated " ) ;
Converter ( double d ) {
std : : memcpy ( & i , & d , sizeof ( d ) ) ;
}
int64_t i ;
} ;
template < typename T >
auto convert ( T t ) - > Converter < T > {
return Converter < T > ( t ) ;
}
template < typename FP >
bool almostEqualUlps ( FP lhs , FP rhs , int maxUlpDiff ) {
// Comparison with NaN should always be false.
// This way we can rule it out before getting into the ugly details
if ( std : : isnan ( lhs ) | | std : : isnan ( rhs ) ) {
return false ;
}
auto lc = convert ( lhs ) ;
auto rc = convert ( rhs ) ;
if ( ( lc . i < 0 ) ! = ( rc . i < 0 ) ) {
// Potentially we can have +0 and -0
return lhs = = rhs ;
}
auto ulpDiff = std : : abs ( lc . i - rc . i ) ;
return ulpDiff < = maxUlpDiff ;
}
}
namespace Catch {
namespace Matchers {
namespace Floating {
WithinAbsMatcher : : WithinAbsMatcher ( double target , double margin )
: m_target { target } , m_margin { margin } {
if ( m_margin < 0 ) {
throw std : : domain_error ( " Allowed margin difference has to be >= 0 " ) ;
}
}
// Performs equivalent check of std::fabs(lhs - rhs) <= margin
// But without the subtraction to allow for INFINITY in comparison
bool WithinAbsMatcher : : match ( double const & matchee ) const {
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return ( matchee + m_margin > = m_target ) & & ( m_target + m_margin > = matchee ) ;
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}
std : : string WithinAbsMatcher : : describe ( ) const {
return " is within " + : : Catch : : Detail : : stringify ( m_margin ) + " of " + : : Catch : : Detail : : stringify ( m_target ) ;
}
WithinUlpsMatcher : : WithinUlpsMatcher ( double target , int ulps , FloatingPointKind baseType )
: m_target { target } , m_ulps { ulps } , m_type { baseType } {
if ( m_ulps < 0 ) {
throw std : : domain_error ( " Allowed ulp difference has to be >= 0 " ) ;
}
}
bool WithinUlpsMatcher : : match ( double const & matchee ) const {
switch ( m_type ) {
case FloatingPointKind : : Float :
return almostEqualUlps < float > ( static_cast < float > ( matchee ) , static_cast < float > ( m_target ) , m_ulps ) ;
case FloatingPointKind : : Double :
return almostEqualUlps < double > ( matchee , m_target , m_ulps ) ;
default :
throw std : : domain_error ( " Unknown FloatingPointKind value " ) ;
}
}
std : : string WithinUlpsMatcher : : describe ( ) const {
return " is within " + std : : to_string ( m_ulps ) + " ULPs of " + : : Catch : : Detail : : stringify ( m_target ) + ( ( m_type = = FloatingPointKind : : Float ) ? " f " : " " ) ;
}
} // namespace Floating
Floating : : WithinUlpsMatcher WithinULP ( double target , int maxUlpDiff ) {
return Floating : : WithinUlpsMatcher ( target , maxUlpDiff , Floating : : FloatingPointKind : : Double ) ;
}
Floating : : WithinUlpsMatcher WithinULP ( float target , int maxUlpDiff ) {
return Floating : : WithinUlpsMatcher ( target , maxUlpDiff , Floating : : FloatingPointKind : : Float ) ;
}
Floating : : WithinAbsMatcher WithinAbs ( double target , double margin ) {
return Floating : : WithinAbsMatcher ( target , margin ) ;
}
} // namespace Matchers
} // namespace Catch
// end catch_matchers_floating.cpp
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// start catch_matchers_generic.cpp
std : : string Catch : : Matchers : : Generic : : Detail : : finalizeDescription ( const std : : string & desc ) {
if ( desc . empty ( ) ) {
return " matches undescribed predicate " ;
} else {
return " matches predicate: \" " + desc + ' " ' ;
}
}
// end catch_matchers_generic.cpp
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// start catch_matchers_string.cpp
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# include <regex>
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namespace Catch {
namespace Matchers {
namespace StdString {
CasedString : : CasedString ( std : : string const & str , CaseSensitive : : Choice caseSensitivity )
: m_caseSensitivity ( caseSensitivity ) ,
m_str ( adjustString ( str ) )
{ }
std : : string CasedString : : adjustString ( std : : string const & str ) const {
return m_caseSensitivity = = CaseSensitive : : No
? toLower ( str )
: str ;
}
std : : string CasedString : : caseSensitivitySuffix ( ) const {
return m_caseSensitivity = = CaseSensitive : : No
? " (case insensitive) "
: std : : string ( ) ;
}
StringMatcherBase : : StringMatcherBase ( std : : string const & operation , CasedString const & comparator )
: m_comparator ( comparator ) ,
m_operation ( operation ) {
}
std : : string StringMatcherBase : : describe ( ) const {
std : : string description ;
description . reserve ( 5 + m_operation . size ( ) + m_comparator . m_str . size ( ) +
m_comparator . caseSensitivitySuffix ( ) . size ( ) ) ;
description + = m_operation ;
description + = " : \" " ;
description + = m_comparator . m_str ;
description + = " \" " ;
description + = m_comparator . caseSensitivitySuffix ( ) ;
return description ;
}
EqualsMatcher : : EqualsMatcher ( CasedString const & comparator ) : StringMatcherBase ( " equals " , comparator ) { }
bool EqualsMatcher : : match ( std : : string const & source ) const {
return m_comparator . adjustString ( source ) = = m_comparator . m_str ;
}
ContainsMatcher : : ContainsMatcher ( CasedString const & comparator ) : StringMatcherBase ( " contains " , comparator ) { }
bool ContainsMatcher : : match ( std : : string const & source ) const {
return contains ( m_comparator . adjustString ( source ) , m_comparator . m_str ) ;
}
StartsWithMatcher : : StartsWithMatcher ( CasedString const & comparator ) : StringMatcherBase ( " starts with " , comparator ) { }
bool StartsWithMatcher : : match ( std : : string const & source ) const {
return startsWith ( m_comparator . adjustString ( source ) , m_comparator . m_str ) ;
}
EndsWithMatcher : : EndsWithMatcher ( CasedString const & comparator ) : StringMatcherBase ( " ends with " , comparator ) { }
bool EndsWithMatcher : : match ( std : : string const & source ) const {
return endsWith ( m_comparator . adjustString ( source ) , m_comparator . m_str ) ;
}
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RegexMatcher : : RegexMatcher ( std : : string regex , CaseSensitive : : Choice caseSensitivity ) : m_regex ( std : : move ( regex ) ) , m_caseSensitivity ( caseSensitivity ) { }
bool RegexMatcher : : match ( std : : string const & matchee ) const {
auto flags = std : : regex : : ECMAScript ; // ECMAScript is the default syntax option anyway
if ( m_caseSensitivity = = CaseSensitive : : Choice : : No ) {
flags | = std : : regex : : icase ;
}
auto reg = std : : regex ( m_regex , flags ) ;
return std : : regex_match ( matchee , reg ) ;
}
std : : string RegexMatcher : : describe ( ) const {
return " matches " + : : Catch : : Detail : : stringify ( m_regex ) + ( ( m_caseSensitivity = = CaseSensitive : : Choice : : Yes ) ? " case sensitively " : " case insensitively " ) ;
}
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} // namespace StdString
StdString : : EqualsMatcher Equals ( std : : string const & str , CaseSensitive : : Choice caseSensitivity ) {
return StdString : : EqualsMatcher ( StdString : : CasedString ( str , caseSensitivity ) ) ;
}
StdString : : ContainsMatcher Contains ( std : : string const & str , CaseSensitive : : Choice caseSensitivity ) {
return StdString : : ContainsMatcher ( StdString : : CasedString ( str , caseSensitivity ) ) ;
}
StdString : : EndsWithMatcher EndsWith ( std : : string const & str , CaseSensitive : : Choice caseSensitivity ) {
return StdString : : EndsWithMatcher ( StdString : : CasedString ( str , caseSensitivity ) ) ;
}
StdString : : StartsWithMatcher StartsWith ( std : : string const & str , CaseSensitive : : Choice caseSensitivity ) {
return StdString : : StartsWithMatcher ( StdString : : CasedString ( str , caseSensitivity ) ) ;
}
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StdString : : RegexMatcher Matches ( std : : string const & regex , CaseSensitive : : Choice caseSensitivity ) {
return StdString : : RegexMatcher ( regex , caseSensitivity ) ;
}
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} // namespace Matchers
} // namespace Catch
// end catch_matchers_string.cpp
// start catch_message.cpp
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// start catch_uncaught_exceptions.h
namespace Catch {
bool uncaught_exceptions ( ) ;
} // end namespace Catch
// end catch_uncaught_exceptions.h
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namespace Catch {
MessageInfo : : MessageInfo ( std : : string const & _macroName ,
SourceLineInfo const & _lineInfo ,
ResultWas : : OfType _type )
: macroName ( _macroName ) ,
lineInfo ( _lineInfo ) ,
type ( _type ) ,
sequence ( + + globalCount )
{ }
bool MessageInfo : : operator = = ( MessageInfo const & other ) const {
return sequence = = other . sequence ;
}
bool MessageInfo : : operator < ( MessageInfo const & other ) const {
return sequence < other . sequence ;
}
// This may need protecting if threading support is added
unsigned int MessageInfo : : globalCount = 0 ;
////////////////////////////////////////////////////////////////////////////
Catch : : MessageBuilder : : MessageBuilder ( std : : string const & macroName ,
SourceLineInfo const & lineInfo ,
ResultWas : : OfType type )
: m_info ( macroName , lineInfo , type ) { }
////////////////////////////////////////////////////////////////////////////
ScopedMessage : : ScopedMessage ( MessageBuilder const & builder )
: m_info ( builder . m_info )
{
m_info . message = builder . m_stream . str ( ) ;
getResultCapture ( ) . pushScopedMessage ( m_info ) ;
}
ScopedMessage : : ~ ScopedMessage ( ) {
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if ( ! uncaught_exceptions ( ) ) {
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getResultCapture ( ) . popScopedMessage ( m_info ) ;
}
}
} // end namespace Catch
// end catch_message.cpp
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// start catch_random_number_generator.cpp
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// start catch_random_number_generator.h
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# include <algorithm>
namespace Catch {
struct IConfig ;
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void seedRng ( IConfig const & config ) ;
unsigned int rngSeed ( ) ;
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struct RandomNumberGenerator {
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using result_type = unsigned int ;
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static constexpr result_type ( min ) ( ) { return 0 ; }
static constexpr result_type ( max ) ( ) { return 1000000 ; }
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result_type operator ( ) ( result_type n ) const ;
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result_type operator ( ) ( ) const ;
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template < typename V >
static void shuffle ( V & vector ) {
RandomNumberGenerator rng ;
std : : shuffle ( vector . begin ( ) , vector . end ( ) , rng ) ;
}
} ;
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}
// end catch_random_number_generator.h
# include <cstdlib>
namespace Catch {
void seedRng ( IConfig const & config ) {
if ( config . rngSeed ( ) ! = 0 )
std : : srand ( config . rngSeed ( ) ) ;
}
unsigned int rngSeed ( ) {
return getCurrentContext ( ) . getConfig ( ) - > rngSeed ( ) ;
}
RandomNumberGenerator : : result_type RandomNumberGenerator : : operator ( ) ( result_type n ) const {
return std : : rand ( ) % n ;
}
RandomNumberGenerator : : result_type RandomNumberGenerator : : operator ( ) ( ) const {
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return std : : rand ( ) % ( max ) ( ) ;
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}
}
// end catch_random_number_generator.cpp
// start catch_registry_hub.cpp
// start catch_test_case_registry_impl.h
# include <vector>
# include <set>
# include <algorithm>
# include <ios>
namespace Catch {
class TestCase ;
struct IConfig ;
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std : : vector < TestCase > sortTests ( IConfig const & config , std : : vector < TestCase > const & unsortedTestCases ) ;
bool matchTest ( TestCase const & testCase , TestSpec const & testSpec , IConfig const & config ) ;
void enforceNoDuplicateTestCases ( std : : vector < TestCase > const & functions ) ;
std : : vector < TestCase > filterTests ( std : : vector < TestCase > const & testCases , TestSpec const & testSpec , IConfig const & config ) ;
std : : vector < TestCase > const & getAllTestCasesSorted ( IConfig const & config ) ;
class TestRegistry : public ITestCaseRegistry {
public :
virtual ~ TestRegistry ( ) = default ;
virtual void registerTest ( TestCase const & testCase ) ;
std : : vector < TestCase > const & getAllTests ( ) const override ;
std : : vector < TestCase > const & getAllTestsSorted ( IConfig const & config ) const override ;
private :
std : : vector < TestCase > m_functions ;
mutable RunTests : : InWhatOrder m_currentSortOrder = RunTests : : InDeclarationOrder ;
mutable std : : vector < TestCase > m_sortedFunctions ;
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std : : size_t m_unnamedCount = 0 ;
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std : : ios_base : : Init m_ostreamInit ; // Forces cout/ cerr to be initialised
} ;
///////////////////////////////////////////////////////////////////////////
class TestInvokerAsFunction : public ITestInvoker {
void ( * m_testAsFunction ) ( ) ;
public :
TestInvokerAsFunction ( void ( * testAsFunction ) ( ) ) noexcept ;
void invoke ( ) const override ;
} ;
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std : : string extractClassName ( StringRef const & classOrQualifiedMethodName ) ;
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///////////////////////////////////////////////////////////////////////////
} // end namespace Catch
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// end catch_test_case_registry_impl.h
// start catch_reporter_registry.h
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# include <map>
namespace Catch {
class ReporterRegistry : public IReporterRegistry {
public :
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~ ReporterRegistry ( ) override ;
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IStreamingReporterPtr create ( std : : string const & name , IConfigPtr const & config ) const override ;
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void registerReporter ( std : : string const & name , IReporterFactoryPtr const & factory ) ;
void registerListener ( IReporterFactoryPtr const & factory ) ;
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FactoryMap const & getFactories ( ) const override ;
Listeners const & getListeners ( ) const override ;
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private :
FactoryMap m_factories ;
Listeners m_listeners ;
} ;
}
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// end catch_reporter_registry.h
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// start catch_tag_alias_registry.h
// start catch_tag_alias.h
# include <string>
namespace Catch {
struct TagAlias {
TagAlias ( std : : string const & _tag , SourceLineInfo _lineInfo ) ;
std : : string tag ;
SourceLineInfo lineInfo ;
} ;
} // end namespace Catch
// end catch_tag_alias.h
# include <map>
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
// end catch_tag_alias_registry.h
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// start catch_startup_exception_registry.h
# include <vector>
# include <exception>
namespace Catch {
class StartupExceptionRegistry {
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 ;
} ;
} // end namespace Catch
// end catch_startup_exception_registry.h
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namespace Catch {
namespace {
class RegistryHub : public IRegistryHub , public IMutableRegistryHub ,
private NonCopyable {
public : // IRegistryHub
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RegistryHub ( ) = default ;
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IReporterRegistry const & getReporterRegistry ( ) const override {
return m_reporterRegistry ;
}
ITestCaseRegistry const & getTestCaseRegistry ( ) const override {
return m_testCaseRegistry ;
}
IExceptionTranslatorRegistry & getExceptionTranslatorRegistry ( ) override {
return m_exceptionTranslatorRegistry ;
}
ITagAliasRegistry const & getTagAliasRegistry ( ) const override {
return m_tagAliasRegistry ;
}
StartupExceptionRegistry const & getStartupExceptionRegistry ( ) const override {
return m_exceptionRegistry ;
}
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public : // IMutableRegistryHub
void registerReporter ( std : : string const & name , IReporterFactoryPtr const & factory ) override {
m_reporterRegistry . registerReporter ( name , factory ) ;
}
void registerListener ( IReporterFactoryPtr const & factory ) override {
m_reporterRegistry . registerListener ( factory ) ;
}
void registerTest ( TestCase const & testInfo ) override {
m_testCaseRegistry . registerTest ( testInfo ) ;
}
void registerTranslator ( const IExceptionTranslator * translator ) override {
m_exceptionTranslatorRegistry . registerTranslator ( translator ) ;
}
void registerTagAlias ( std : : string const & alias , std : : string const & tag , SourceLineInfo const & lineInfo ) override {
m_tagAliasRegistry . add ( alias , tag , lineInfo ) ;
}
void registerStartupException ( ) noexcept override {
m_exceptionRegistry . add ( std : : current_exception ( ) ) ;
}
private :
TestRegistry m_testCaseRegistry ;
ReporterRegistry m_reporterRegistry ;
ExceptionTranslatorRegistry m_exceptionTranslatorRegistry ;
TagAliasRegistry m_tagAliasRegistry ;
StartupExceptionRegistry m_exceptionRegistry ;
} ;
// Single, global, instance
RegistryHub * & getTheRegistryHub ( ) {
static RegistryHub * theRegistryHub = nullptr ;
if ( ! theRegistryHub )
theRegistryHub = new RegistryHub ( ) ;
return theRegistryHub ;
}
}
IRegistryHub & getRegistryHub ( ) {
return * getTheRegistryHub ( ) ;
}
IMutableRegistryHub & getMutableRegistryHub ( ) {
return * getTheRegistryHub ( ) ;
}
void cleanUp ( ) {
delete getTheRegistryHub ( ) ;
getTheRegistryHub ( ) = nullptr ;
cleanUpContext ( ) ;
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ReusableStringStream : : cleanup ( ) ;
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}
std : : string translateActiveException ( ) {
return getRegistryHub ( ) . getExceptionTranslatorRegistry ( ) . translateActiveException ( ) ;
}
} // end namespace Catch
// end catch_registry_hub.cpp
// start catch_reporter_registry.cpp
namespace Catch {
ReporterRegistry : : ~ ReporterRegistry ( ) = default ;
IStreamingReporterPtr ReporterRegistry : : create ( std : : string const & name , IConfigPtr const & config ) const {
auto it = m_factories . find ( name ) ;
if ( it = = m_factories . end ( ) )
return nullptr ;
return it - > second - > create ( ReporterConfig ( config ) ) ;
}
void ReporterRegistry : : registerReporter ( std : : string const & name , IReporterFactoryPtr const & factory ) {
m_factories . emplace ( name , factory ) ;
}
void ReporterRegistry : : registerListener ( IReporterFactoryPtr const & factory ) {
m_listeners . push_back ( factory ) ;
}
IReporterRegistry : : FactoryMap const & ReporterRegistry : : getFactories ( ) const {
return m_factories ;
}
IReporterRegistry : : Listeners const & ReporterRegistry : : getListeners ( ) const {
return m_listeners ;
}
}
// end catch_reporter_registry.cpp
// start catch_result_type.cpp
namespace Catch {
bool isOk ( ResultWas : : OfType resultType ) {
return ( resultType & ResultWas : : FailureBit ) = = 0 ;
}
bool isJustInfo ( int flags ) {
return flags = = ResultWas : : Info ;
}
ResultDisposition : : Flags operator | ( ResultDisposition : : Flags lhs , ResultDisposition : : Flags rhs ) {
return static_cast < ResultDisposition : : Flags > ( static_cast < int > ( lhs ) | static_cast < int > ( rhs ) ) ;
}
bool shouldContinueOnFailure ( int flags ) { return ( flags & ResultDisposition : : ContinueOnFailure ) ! = 0 ; }
bool shouldSuppressFailure ( int flags ) { return ( flags & ResultDisposition : : SuppressFail ) ! = 0 ; }
} // end namespace Catch
// end catch_result_type.cpp
// start catch_run_context.cpp
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# include <cassert>
# include <algorithm>
# include <sstream>
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namespace Catch {
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class RedirectedStream {
std : : ostream & m_originalStream ;
std : : ostream & m_redirectionStream ;
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std : : streambuf * m_prevBuf ;
public :
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RedirectedStream ( std : : ostream & originalStream , std : : ostream & redirectionStream )
: m_originalStream ( originalStream ) ,
m_redirectionStream ( redirectionStream ) ,
m_prevBuf ( m_originalStream . rdbuf ( ) )
{
m_originalStream . rdbuf ( m_redirectionStream . rdbuf ( ) ) ;
}
~ RedirectedStream ( ) {
m_originalStream . rdbuf ( m_prevBuf ) ;
}
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} ;
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class RedirectedStdOut {
ReusableStringStream m_rss ;
RedirectedStream m_cout ;
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public :
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RedirectedStdOut ( ) : m_cout ( Catch : : cout ( ) , m_rss . get ( ) ) { }
auto str ( ) const - > std : : string { return m_rss . str ( ) ; }
} ;
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// 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 ;
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public :
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RedirectedStdErr ( )
: m_cerr ( Catch : : cerr ( ) , m_rss . get ( ) ) ,
m_clog ( Catch : : clog ( ) , m_rss . get ( ) )
{ }
auto str ( ) const - > std : : string { return m_rss . str ( ) ; }
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} ;
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RunContext : : RunContext ( IConfigPtr const & _config , IStreamingReporterPtr & & reporter )
: m_runInfo ( _config - > name ( ) ) ,
m_context ( getCurrentMutableContext ( ) ) ,
m_config ( _config ) ,
m_reporter ( std : : move ( reporter ) ) ,
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m_lastAssertionInfo { StringRef ( ) , SourceLineInfo ( " " , 0 ) , StringRef ( ) , ResultDisposition : : Normal } ,
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m_includeSuccessfulResults ( m_config - > includeSuccessfulResults ( ) )
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{
m_context . setRunner ( this ) ;
m_context . setConfig ( m_config ) ;
m_context . setResultCapture ( this ) ;
m_reporter - > testRunStarting ( m_runInfo ) ;
}
RunContext : : ~ RunContext ( ) {
m_reporter - > testRunEnded ( TestRunStats ( m_runInfo , m_totals , aborting ( ) ) ) ;
}
void RunContext : : testGroupStarting ( std : : string const & testSpec , std : : size_t groupIndex , std : : size_t groupsCount ) {
m_reporter - > testGroupStarting ( GroupInfo ( testSpec , groupIndex , groupsCount ) ) ;
}
void RunContext : : testGroupEnded ( std : : string const & testSpec , Totals const & totals , std : : size_t groupIndex , std : : size_t groupsCount ) {
m_reporter - > testGroupEnded ( TestGroupStats ( GroupInfo ( testSpec , groupIndex , groupsCount ) , totals , aborting ( ) ) ) ;
}
Totals RunContext : : runTest ( TestCase const & testCase ) {
Totals prevTotals = m_totals ;
std : : string redirectedCout ;
std : : string redirectedCerr ;
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auto const & testInfo = testCase . getTestCaseInfo ( ) ;
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m_reporter - > testCaseStarting ( testInfo ) ;
m_activeTestCase = & testCase ;
ITracker & rootTracker = m_trackerContext . startRun ( ) ;
assert ( rootTracker . isSectionTracker ( ) ) ;
static_cast < SectionTracker & > ( rootTracker ) . addInitialFilters ( m_config - > getSectionsToRun ( ) ) ;
do {
m_trackerContext . startCycle ( ) ;
m_testCaseTracker = & SectionTracker : : acquire ( m_trackerContext , TestCaseTracking : : NameAndLocation ( testInfo . name , testInfo . lineInfo ) ) ;
runCurrentTest ( redirectedCout , redirectedCerr ) ;
} while ( ! m_testCaseTracker - > isSuccessfullyCompleted ( ) & & ! aborting ( ) ) ;
Totals deltaTotals = m_totals . delta ( prevTotals ) ;
if ( testInfo . expectedToFail ( ) & & deltaTotals . testCases . passed > 0 ) {
deltaTotals . assertions . failed + + ;
deltaTotals . testCases . passed - - ;
deltaTotals . testCases . failed + + ;
}
m_totals . testCases + = deltaTotals . testCases ;
m_reporter - > testCaseEnded ( TestCaseStats ( testInfo ,
deltaTotals ,
redirectedCout ,
redirectedCerr ,
aborting ( ) ) ) ;
m_activeTestCase = nullptr ;
m_testCaseTracker = nullptr ;
return deltaTotals ;
}
IConfigPtr RunContext : : config ( ) const {
return m_config ;
}
IStreamingReporter & RunContext : : reporter ( ) const {
return * m_reporter ;
}
void RunContext : : assertionEnded ( AssertionResult const & result ) {
if ( result . getResultType ( ) = = ResultWas : : Ok ) {
m_totals . assertions . passed + + ;
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m_lastAssertionPassed = true ;
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} else if ( ! result . isOk ( ) ) {
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m_lastAssertionPassed = false ;
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if ( m_activeTestCase - > getTestCaseInfo ( ) . okToFail ( ) )
m_totals . assertions . failedButOk + + ;
else
m_totals . assertions . failed + + ;
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}
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else {
m_lastAssertionPassed = true ;
}
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// We have no use for the return value (whether messages should be cleared), because messages were made scoped
// and should be let to clear themselves out.
static_cast < void > ( m_reporter - > assertionEnded ( AssertionStats ( result , m_messages , m_totals ) ) ) ;
// Reset working state
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resetAssertionInfo ( ) ;
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m_lastResult = result ;
}
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void RunContext : : resetAssertionInfo ( ) {
m_lastAssertionInfo . macroName = StringRef ( ) ;
m_lastAssertionInfo . capturedExpression = " {Unknown expression after the reported line} " _sr ;
}
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bool RunContext : : sectionStarted ( SectionInfo const & sectionInfo , Counts & assertions ) {
ITracker & sectionTracker = SectionTracker : : acquire ( m_trackerContext , TestCaseTracking : : NameAndLocation ( sectionInfo . name , sectionInfo . lineInfo ) ) ;
if ( ! sectionTracker . isOpen ( ) )
return false ;
m_activeSections . push_back ( & sectionTracker ) ;
m_lastAssertionInfo . lineInfo = sectionInfo . lineInfo ;
m_reporter - > sectionStarting ( sectionInfo ) ;
assertions = m_totals . assertions ;
return true ;
}
bool RunContext : : testForMissingAssertions ( Counts & assertions ) {
if ( assertions . total ( ) ! = 0 )
return false ;
if ( ! m_config - > warnAboutMissingAssertions ( ) )
return false ;
if ( m_trackerContext . currentTracker ( ) . hasChildren ( ) )
return false ;
m_totals . assertions . failed + + ;
assertions . failed + + ;
return true ;
}
void RunContext : : sectionEnded ( SectionEndInfo const & endInfo ) {
Counts assertions = m_totals . assertions - endInfo . prevAssertions ;
bool missingAssertions = testForMissingAssertions ( assertions ) ;
if ( ! m_activeSections . empty ( ) ) {
m_activeSections . back ( ) - > close ( ) ;
m_activeSections . pop_back ( ) ;
}
m_reporter - > sectionEnded ( SectionStats ( endInfo . sectionInfo , assertions , endInfo . durationInSeconds , missingAssertions ) ) ;
m_messages . clear ( ) ;
}
void RunContext : : sectionEndedEarly ( SectionEndInfo const & endInfo ) {
if ( m_unfinishedSections . empty ( ) )
m_activeSections . back ( ) - > fail ( ) ;
else
m_activeSections . back ( ) - > close ( ) ;
m_activeSections . pop_back ( ) ;
m_unfinishedSections . push_back ( endInfo ) ;
}
void RunContext : : benchmarkStarting ( BenchmarkInfo const & info ) {
m_reporter - > benchmarkStarting ( info ) ;
}
void RunContext : : benchmarkEnded ( BenchmarkStats const & stats ) {
m_reporter - > benchmarkEnded ( stats ) ;
}
void RunContext : : pushScopedMessage ( MessageInfo const & message ) {
m_messages . push_back ( message ) ;
}
void RunContext : : popScopedMessage ( MessageInfo const & message ) {
m_messages . erase ( std : : remove ( m_messages . begin ( ) , m_messages . end ( ) , message ) , m_messages . end ( ) ) ;
}
std : : string RunContext : : getCurrentTestName ( ) const {
return m_activeTestCase
? m_activeTestCase - > getTestCaseInfo ( ) . name
: std : : string ( ) ;
}
const AssertionResult * RunContext : : getLastResult ( ) const {
return & ( * m_lastResult ) ;
}
void RunContext : : exceptionEarlyReported ( ) {
m_shouldReportUnexpected = false ;
}
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void RunContext : : handleFatalErrorCondition ( StringRef message ) {
// First notify reporter that bad things happened
m_reporter - > fatalErrorEncountered ( message ) ;
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// Don't rebuild the result -- the stringification itself can cause more fatal errors
// Instead, fake a result data.
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AssertionResultData tempResult ( ResultWas : : FatalErrorCondition , { false } ) ;
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tempResult . message = message ;
AssertionResult result ( m_lastAssertionInfo , tempResult ) ;
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assertionEnded ( result ) ;
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handleUnfinishedSections ( ) ;
// Recreate section for test case (as we will lose the one that was in scope)
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auto const & testCaseInfo = m_activeTestCase - > getTestCaseInfo ( ) ;
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SectionInfo testCaseSection ( testCaseInfo . lineInfo , testCaseInfo . name , testCaseInfo . description ) ;
Counts assertions ;
assertions . failed = 1 ;
SectionStats testCaseSectionStats ( testCaseSection , assertions , 0 , false ) ;
m_reporter - > sectionEnded ( testCaseSectionStats ) ;
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auto const & testInfo = m_activeTestCase - > getTestCaseInfo ( ) ;
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Totals deltaTotals ;
deltaTotals . testCases . failed = 1 ;
deltaTotals . assertions . failed = 1 ;
m_reporter - > testCaseEnded ( TestCaseStats ( testInfo ,
deltaTotals ,
std : : string ( ) ,
std : : string ( ) ,
false ) ) ;
m_totals . testCases . failed + + ;
testGroupEnded ( std : : string ( ) , m_totals , 1 , 1 ) ;
m_reporter - > testRunEnded ( TestRunStats ( m_runInfo , m_totals , false ) ) ;
}
bool RunContext : : lastAssertionPassed ( ) {
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return m_lastAssertionPassed ;
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}
void RunContext : : assertionPassed ( ) {
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m_lastAssertionPassed = true ;
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+ + m_totals . assertions . passed ;
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resetAssertionInfo ( ) ;
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}
bool RunContext : : aborting ( ) const {
return m_totals . assertions . failed = = static_cast < std : : size_t > ( m_config - > abortAfter ( ) ) ;
}
void RunContext : : runCurrentTest ( std : : string & redirectedCout , std : : string & redirectedCerr ) {
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auto const & testCaseInfo = m_activeTestCase - > getTestCaseInfo ( ) ;
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SectionInfo testCaseSection ( testCaseInfo . lineInfo , testCaseInfo . name , testCaseInfo . description ) ;
m_reporter - > sectionStarting ( testCaseSection ) ;
Counts prevAssertions = m_totals . assertions ;
double duration = 0 ;
m_shouldReportUnexpected = true ;
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m_lastAssertionInfo = { " TEST_CASE " _sr , testCaseInfo . lineInfo , StringRef ( ) , ResultDisposition : : Normal } ;
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seedRng ( * m_config ) ;
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Timer timer ;
try {
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if ( m_reporter - > getPreferences ( ) . shouldRedirectStdOut ) {
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RedirectedStdOut redirectedStdOut ;
RedirectedStdErr redirectedStdErr ;
timer . start ( ) ;
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invokeActiveTestCase ( ) ;
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redirectedCout + = redirectedStdOut . str ( ) ;
redirectedCerr + = redirectedStdErr . str ( ) ;
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} else {
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timer . start ( ) ;
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invokeActiveTestCase ( ) ;
}
duration = timer . getElapsedSeconds ( ) ;
} catch ( TestFailureException & ) {
// This just means the test was aborted due to failure
} catch ( . . . ) {
// Under CATCH_CONFIG_FAST_COMPILE, unexpected exceptions under REQUIRE assertions
// are reported without translation at the point of origin.
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if ( m_shouldReportUnexpected ) {
AssertionReaction dummyReaction ;
handleUnexpectedInflightException ( m_lastAssertionInfo , translateActiveException ( ) , dummyReaction ) ;
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}
}
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Counts assertions = m_totals . assertions - prevAssertions ;
bool missingAssertions = testForMissingAssertions ( assertions ) ;
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m_testCaseTracker - > close ( ) ;
handleUnfinishedSections ( ) ;
m_messages . clear ( ) ;
SectionStats testCaseSectionStats ( testCaseSection , assertions , duration , missingAssertions ) ;
m_reporter - > sectionEnded ( testCaseSectionStats ) ;
}
void RunContext : : invokeActiveTestCase ( ) {
FatalConditionHandler fatalConditionHandler ; // Handle signals
m_activeTestCase - > invoke ( ) ;
fatalConditionHandler . reset ( ) ;
}
void RunContext : : handleUnfinishedSections ( ) {
// If sections ended prematurely due to an exception we stored their
// infos here so we can tear them down outside the unwind process.
for ( auto it = m_unfinishedSections . rbegin ( ) ,
itEnd = m_unfinishedSections . rend ( ) ;
it ! = itEnd ;
+ + it )
sectionEnded ( * it ) ;
m_unfinishedSections . clear ( ) ;
}
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void RunContext : : handleExpr (
AssertionInfo const & info ,
ITransientExpression const & expr ,
AssertionReaction & reaction
) {
m_reporter - > assertionStarting ( info ) ;
bool negated = isFalseTest ( info . resultDisposition ) ;
bool result = expr . getResult ( ) ! = negated ;
if ( result ) {
if ( ! m_includeSuccessfulResults ) {
assertionPassed ( ) ;
}
else {
reportExpr ( info , ResultWas : : Ok , & expr , negated ) ;
}
}
else {
reportExpr ( info , ResultWas : : ExpressionFailed , & expr , negated ) ;
populateReaction ( reaction ) ;
}
}
void RunContext : : reportExpr (
AssertionInfo const & info ,
ResultWas : : OfType resultType ,
ITransientExpression const * expr ,
bool negated ) {
m_lastAssertionInfo = info ;
AssertionResultData data ( resultType , LazyExpression ( negated ) ) ;
AssertionResult assertionResult { info , data } ;
assertionResult . m_resultData . lazyExpression . m_transientExpression = expr ;
assertionEnded ( assertionResult ) ;
}
void RunContext : : handleMessage (
AssertionInfo const & info ,
ResultWas : : OfType resultType ,
StringRef const & message ,
AssertionReaction & reaction
) {
m_reporter - > assertionStarting ( info ) ;
m_lastAssertionInfo = info ;
AssertionResultData data ( resultType , LazyExpression ( false ) ) ;
data . message = message ;
AssertionResult assertionResult { m_lastAssertionInfo , data } ;
assertionEnded ( assertionResult ) ;
if ( ! assertionResult . isOk ( ) )
populateReaction ( reaction ) ;
}
void RunContext : : handleUnexpectedExceptionNotThrown (
AssertionInfo const & info ,
AssertionReaction & reaction
) {
handleNonExpr ( info , Catch : : ResultWas : : DidntThrowException , reaction ) ;
}
void RunContext : : handleUnexpectedInflightException (
AssertionInfo const & info ,
std : : string const & message ,
AssertionReaction & reaction
) {
m_lastAssertionInfo = info ;
AssertionResultData data ( ResultWas : : ThrewException , LazyExpression ( false ) ) ;
data . message = message ;
AssertionResult assertionResult { info , data } ;
assertionEnded ( assertionResult ) ;
populateReaction ( reaction ) ;
}
void RunContext : : populateReaction ( AssertionReaction & reaction ) {
reaction . shouldDebugBreak = m_config - > shouldDebugBreak ( ) ;
reaction . shouldThrow = aborting ( ) | | ( m_lastAssertionInfo . resultDisposition & ResultDisposition : : Normal ) ;
}
void RunContext : : handleIncomplete (
AssertionInfo const & info
) {
m_lastAssertionInfo = info ;
AssertionResultData data ( ResultWas : : ThrewException , LazyExpression ( false ) ) ;
data . message = " Exception translation was disabled by CATCH_CONFIG_FAST_COMPILE " ;
AssertionResult assertionResult { info , data } ;
assertionEnded ( assertionResult ) ;
}
void RunContext : : handleNonExpr (
AssertionInfo const & info ,
ResultWas : : OfType resultType ,
AssertionReaction & reaction
) {
m_lastAssertionInfo = info ;
AssertionResultData data ( resultType , LazyExpression ( false ) ) ;
AssertionResult assertionResult { info , data } ;
assertionEnded ( assertionResult ) ;
if ( ! assertionResult . isOk ( ) )
populateReaction ( reaction ) ;
}
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IResultCapture & getResultCapture ( ) {
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if ( auto * capture = getCurrentContext ( ) . getResultCapture ( ) )
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return * capture ;
else
CATCH_INTERNAL_ERROR ( " No result capture instance " ) ;
}
}
// end catch_run_context.cpp
// start catch_section.cpp
namespace Catch {
Section : : Section ( SectionInfo const & info )
: m_info ( info ) ,
m_sectionIncluded ( getResultCapture ( ) . sectionStarted ( m_info , m_assertions ) )
{
m_timer . start ( ) ;
}
Section : : ~ Section ( ) {
if ( m_sectionIncluded ) {
SectionEndInfo endInfo ( m_info , m_assertions , m_timer . getElapsedSeconds ( ) ) ;
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if ( uncaught_exceptions ( ) )
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getResultCapture ( ) . sectionEndedEarly ( endInfo ) ;
else
getResultCapture ( ) . sectionEnded ( endInfo ) ;
}
}
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// This indicates whether the section should be executed or not
Section : : operator bool ( ) const {
return m_sectionIncluded ;
}
} // end namespace Catch
// end catch_section.cpp
// start catch_section_info.cpp
namespace Catch {
SectionInfo : : SectionInfo
( SourceLineInfo const & _lineInfo ,
std : : string const & _name ,
std : : string const & _description )
: name ( _name ) ,
description ( _description ) ,
lineInfo ( _lineInfo )
{ }
SectionEndInfo : : SectionEndInfo ( SectionInfo const & _sectionInfo , Counts const & _prevAssertions , double _durationInSeconds )
: sectionInfo ( _sectionInfo ) , prevAssertions ( _prevAssertions ) , durationInSeconds ( _durationInSeconds )
{ }
} // end namespace Catch
// end catch_section_info.cpp
// start catch_session.cpp
// start catch_session.h
# include <memory>
namespace Catch {
class Session : NonCopyable {
public :
Session ( ) ;
~ Session ( ) override ;
void showHelp ( ) const ;
void libIdentify ( ) ;
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int applyCommandLine ( int argc , char const * const * argv ) ;
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void useConfigData ( ConfigData const & configData ) ;
int run ( int argc , char * argv [ ] ) ;
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# if defined(CATCH_CONFIG_WCHAR) && defined(WIN32) && defined(UNICODE)
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int run ( int argc , wchar_t * const argv [ ] ) ;
# endif
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 ;
std : : shared_ptr < Config > m_config ;
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bool m_startupExceptions = false ;
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} ;
} // end namespace Catch
// end catch_session.h
// start catch_version.h
# 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 ( ) ;
}
// end catch_version.h
# include <cstdlib>
# include <iomanip>
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namespace Catch {
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namespace {
const int MaxExitCode = 255 ;
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IStreamingReporterPtr createReporter ( std : : string const & reporterName , IConfigPtr const & config ) {
auto reporter = Catch : : getRegistryHub ( ) . getReporterRegistry ( ) . create ( reporterName , config ) ;
CATCH_ENFORCE ( reporter , " No reporter registered with name: ' " < < reporterName < < " ' " ) ;
return reporter ;
}
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# ifndef CATCH_CONFIG_DEFAULT_REPORTER
# define CATCH_CONFIG_DEFAULT_REPORTER "console"
# endif
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IStreamingReporterPtr makeReporter ( std : : shared_ptr < Config > const & config ) {
auto const & reporterNames = config - > getReporterNames ( ) ;
if ( reporterNames . empty ( ) )
return createReporter ( CATCH_CONFIG_DEFAULT_REPORTER , config ) ;
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IStreamingReporterPtr reporter ;
for ( auto const & name : reporterNames )
addReporter ( reporter , createReporter ( name , config ) ) ;
return reporter ;
}
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# undef CATCH_CONFIG_DEFAULT_REPORTER
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void addListeners ( IStreamingReporterPtr & reporters , IConfigPtr const & config ) {
auto const & listeners = Catch : : getRegistryHub ( ) . getReporterRegistry ( ) . getListeners ( ) ;
for ( auto const & listener : listeners )
addReporter ( reporters , listener - > create ( Catch : : ReporterConfig ( config ) ) ) ;
}
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Catch : : Totals runTests ( std : : shared_ptr < Config > const & config ) {
IStreamingReporterPtr reporter = makeReporter ( config ) ;
addListeners ( reporter , config ) ;
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RunContext context ( config , std : : move ( reporter ) ) ;
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Totals totals ;
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context . testGroupStarting ( config - > name ( ) , 1 , 1 ) ;
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TestSpec testSpec = config - > testSpec ( ) ;
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auto const & allTestCases = getAllTestCasesSorted ( * config ) ;
for ( auto const & testCase : allTestCases ) {
if ( ! context . aborting ( ) & & matchTest ( testCase , testSpec , * config ) )
totals + = context . runTest ( testCase ) ;
else
context . reporter ( ) . skipTest ( testCase ) ;
}
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if ( config - > warnAboutNoTests ( ) & & totals . testCases . total ( ) = = 0 ) {
ReusableStringStream testConfig ;
bool first = true ;
for ( const auto & input : config - > getTestsOrTags ( ) ) {
if ( ! first ) { testConfig < < ' ' ; }
first = false ;
testConfig < < input ;
}
context . reporter ( ) . noMatchingTestCases ( testConfig . str ( ) ) ;
totals . error = - 1 ;
}
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context . testGroupEnded ( config - > name ( ) , totals , 1 , 1 ) ;
return totals ;
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}
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void applyFilenamesAsTags ( Catch : : IConfig const & config ) {
auto & tests = const_cast < std : : vector < TestCase > & > ( getAllTestCasesSorted ( config ) ) ;
for ( auto & testCase : tests ) {
auto tags = testCase . tags ;
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std : : string filename = testCase . lineInfo . file ;
auto lastSlash = filename . find_last_of ( " \\ / " ) ;
if ( lastSlash ! = std : : string : : npos ) {
filename . erase ( 0 , lastSlash ) ;
filename [ 0 ] = ' # ' ;
}
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auto lastDot = filename . find_last_of ( ' . ' ) ;
if ( lastDot ! = std : : string : : npos ) {
filename . erase ( lastDot ) ;
}
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tags . push_back ( std : : move ( filename ) ) ;
setTags ( testCase , tags ) ;
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}
}
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} // anon namespace
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Session : : Session ( ) {
static bool alreadyInstantiated = false ;
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if ( alreadyInstantiated ) {
try { CATCH_INTERNAL_ERROR ( " Only one instance of Catch::Session can ever be used " ) ; }
catch ( . . . ) { getMutableRegistryHub ( ) . registerStartupException ( ) ; }
}
const auto & exceptions = getRegistryHub ( ) . getStartupExceptionRegistry ( ) . getExceptions ( ) ;
if ( ! exceptions . empty ( ) ) {
m_startupExceptions = true ;
Colour colourGuard ( Colour : : Red ) ;
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Catch : : cerr ( ) < < " Errors occurred during startup! " < < ' \n ' ;
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// iterate over all exceptions and notify user
for ( const auto & ex_ptr : exceptions ) {
try {
std : : rethrow_exception ( ex_ptr ) ;
} catch ( std : : exception const & ex ) {
Catch : : cerr ( ) < < Column ( ex . what ( ) ) . indent ( 2 ) < < ' \n ' ;
}
}
}
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alreadyInstantiated = true ;
m_cli = makeCommandLineParser ( m_configData ) ;
}
Session : : ~ Session ( ) {
Catch : : cleanUp ( ) ;
}
void Session : : showHelp ( ) const {
Catch : : cout ( )
< < " \n Catch v " < < libraryVersion ( ) < < " \n "
< < m_cli < < std : : endl
< < " For more detailed usage please see the project docs \n " < < std : : endl ;
}
void Session : : libIdentify ( ) {
Catch : : cout ( )
< < std : : left < < std : : setw ( 16 ) < < " description: " < < " A Catch test executable \n "
< < std : : left < < std : : setw ( 16 ) < < " category: " < < " testframework \n "
< < std : : left < < std : : setw ( 16 ) < < " framework: " < < " Catch Test \n "
< < std : : left < < std : : setw ( 16 ) < < " version: " < < libraryVersion ( ) < < std : : endl ;
}
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int Session : : applyCommandLine ( int argc , char const * const * argv ) {
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if ( m_startupExceptions )
return 1 ;
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auto result = m_cli . parse ( clara : : Args ( argc , argv ) ) ;
if ( ! result ) {
Catch : : cerr ( )
< < Colour ( Colour : : Red )
< < " \n Error(s) in input: \n "
< < Column ( result . errorMessage ( ) ) . indent ( 2 )
< < " \n \n " ;
Catch : : cerr ( ) < < " Run with -? for usage \n " < < std : : endl ;
return MaxExitCode ;
}
if ( m_configData . showHelp )
showHelp ( ) ;
if ( m_configData . libIdentify )
libIdentify ( ) ;
m_config . reset ( ) ;
return 0 ;
}
void Session : : useConfigData ( ConfigData const & configData ) {
m_configData = configData ;
m_config . reset ( ) ;
}
int Session : : run ( int argc , char * argv [ ] ) {
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if ( m_startupExceptions )
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return 1 ;
int returnCode = applyCommandLine ( argc , argv ) ;
if ( returnCode = = 0 )
returnCode = run ( ) ;
return returnCode ;
}
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# if defined(CATCH_CONFIG_WCHAR) && defined(WIN32) && defined(UNICODE)
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int Session : : run ( int argc , wchar_t * const argv [ ] ) {
char * * utf8Argv = new char * [ argc ] ;
for ( int i = 0 ; i < argc ; + + i ) {
int bufSize = WideCharToMultiByte ( CP_UTF8 , 0 , argv [ i ] , - 1 , NULL , 0 , NULL , NULL ) ;
utf8Argv [ i ] = new char [ bufSize ] ;
WideCharToMultiByte ( CP_UTF8 , 0 , argv [ i ] , - 1 , utf8Argv [ i ] , bufSize , NULL , NULL ) ;
}
int returnCode = run ( argc , utf8Argv ) ;
for ( int i = 0 ; i < argc ; + + i )
delete [ ] utf8Argv [ i ] ;
delete [ ] utf8Argv ;
return returnCode ;
}
# endif
int Session : : run ( ) {
if ( ( m_configData . waitForKeypress & WaitForKeypress : : BeforeStart ) ! = 0 ) {
Catch : : cout ( ) < < " ...waiting for enter/ return before starting " < < std : : endl ;
static_cast < void > ( std : : getchar ( ) ) ;
}
int exitCode = runInternal ( ) ;
if ( ( m_configData . waitForKeypress & WaitForKeypress : : BeforeExit ) ! = 0 ) {
Catch : : cout ( ) < < " ...waiting for enter/ return before exiting, with code: " < < exitCode < < std : : endl ;
static_cast < void > ( std : : getchar ( ) ) ;
}
return exitCode ;
}
clara : : Parser const & Session : : cli ( ) const {
return m_cli ;
}
void Session : : cli ( clara : : Parser const & newParser ) {
m_cli = newParser ;
}
ConfigData & Session : : configData ( ) {
return m_configData ;
}
Config & Session : : config ( ) {
if ( ! m_config )
m_config = std : : make_shared < Config > ( m_configData ) ;
return * m_config ;
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}
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int Session : : runInternal ( ) {
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if ( m_startupExceptions )
return 1 ;
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if ( m_configData . showHelp | | m_configData . libIdentify )
return 0 ;
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try
{
config ( ) ; // Force config to be constructed
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seedRng ( * m_config ) ;
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if ( m_configData . filenamesAsTags )
applyFilenamesAsTags ( * m_config ) ;
// Handle list request
if ( Option < std : : size_t > listed = list ( config ( ) ) )
return static_cast < int > ( * listed ) ;
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auto totals = runTests ( m_config ) ;
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// Note that on unices only the lower 8 bits are usually used, clamping
// the return value to 255 prevents false negative when some multiple
// of 256 tests has failed
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return ( std : : min ) ( MaxExitCode , ( std : : max ) ( totals . error , static_cast < int > ( totals . assertions . failed ) ) ) ;
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}
catch ( std : : exception & ex ) {
Catch : : cerr ( ) < < ex . what ( ) < < std : : endl ;
return MaxExitCode ;
}
}
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} // end namespace Catch
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// end catch_session.cpp
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// start catch_startup_exception_registry.cpp
namespace Catch {
void StartupExceptionRegistry : : add ( std : : exception_ptr const & exception ) noexcept {
try {
m_exceptions . push_back ( exception ) ;
}
catch ( . . . ) {
// If we run out of memory during start-up there's really not a lot more we can do about it
std : : terminate ( ) ;
}
}
std : : vector < std : : exception_ptr > const & StartupExceptionRegistry : : getExceptions ( ) const noexcept {
return m_exceptions ;
}
} // end namespace Catch
// end catch_startup_exception_registry.cpp
// start catch_stream.cpp
# include <cstdio>
# include <iostream>
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# include <fstream>
# include <sstream>
# include <vector>
# include <memory>
# if defined(__clang__)
# pragma clang diagnostic push
# pragma clang diagnostic ignored "-Wexit-time-destructors"
# endif
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namespace Catch {
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Catch : : IStream : : ~ IStream ( ) = default ;
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namespace detail { namespace {
template < typename WriterF , std : : size_t bufferSize = 256 >
class StreamBufImpl : public std : : streambuf {
char data [ bufferSize ] ;
WriterF m_writer ;
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public :
StreamBufImpl ( ) {
setp ( data , data + sizeof ( data ) ) ;
}
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~ StreamBufImpl ( ) noexcept {
StreamBufImpl : : sync ( ) ;
}
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private :
int overflow ( int c ) override {
sync ( ) ;
if ( c ! = EOF ) {
if ( pbase ( ) = = epptr ( ) )
m_writer ( std : : string ( 1 , static_cast < char > ( c ) ) ) ;
else
sputc ( static_cast < char > ( c ) ) ;
}
return 0 ;
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}
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int sync ( ) override {
if ( pbase ( ) ! = pptr ( ) ) {
m_writer ( std : : string ( pbase ( ) , static_cast < std : : string : : size_type > ( pptr ( ) - pbase ( ) ) ) ) ;
setp ( pbase ( ) , epptr ( ) ) ;
}
return 0 ;
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}
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} ;
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///////////////////////////////////////////////////////////////////////////
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struct OutputDebugWriter {
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void operator ( ) ( std : : string const & str ) {
writeToDebugConsole ( str ) ;
}
} ;
///////////////////////////////////////////////////////////////////////////
class FileStream : public IStream {
mutable std : : ofstream m_ofs ;
public :
FileStream ( StringRef filename ) {
m_ofs . open ( filename . c_str ( ) ) ;
CATCH_ENFORCE ( ! m_ofs . fail ( ) , " Unable to open file: ' " < < filename < < " ' " ) ;
}
~ FileStream ( ) override = default ;
public : // IStream
std : : ostream & stream ( ) const override {
return m_ofs ;
}
} ;
///////////////////////////////////////////////////////////////////////////
class CoutStream : public IStream {
mutable std : : ostream m_os ;
public :
// Store the streambuf from cout up-front because
// cout may get redirected when running tests
CoutStream ( ) : m_os ( Catch : : cout ( ) . rdbuf ( ) ) { }
~ CoutStream ( ) override = default ;
public : // IStream
std : : ostream & stream ( ) const override { return m_os ; }
} ;
///////////////////////////////////////////////////////////////////////////
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class DebugOutStream : public IStream {
std : : unique_ptr < StreamBufImpl < OutputDebugWriter > > m_streamBuf ;
mutable std : : ostream m_os ;
public :
DebugOutStream ( )
: m_streamBuf ( new StreamBufImpl < OutputDebugWriter > ( ) ) ,
m_os ( m_streamBuf . get ( ) )
{ }
~ DebugOutStream ( ) override = default ;
public : // IStream
std : : ostream & stream ( ) const override { return m_os ; }
} ;
} } // namespace anon::detail
///////////////////////////////////////////////////////////////////////////
auto makeStream ( StringRef const & filename ) - > IStream const * {
if ( filename . empty ( ) )
return new detail : : CoutStream ( ) ;
else if ( filename [ 0 ] = = ' % ' ) {
if ( filename = = " %debug " )
return new detail : : DebugOutStream ( ) ;
else
CATCH_ERROR ( " Unrecognised stream: ' " < < filename < < " ' " ) ;
}
else
return new detail : : FileStream ( filename ) ;
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}
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// This class encapsulates the idea of a pool of ostringstreams that can be reused.
struct StringStreams {
std : : vector < std : : unique_ptr < std : : ostringstream > > m_streams ;
std : : vector < std : : size_t > m_unused ;
std : : ostringstream m_referenceStream ; // Used for copy state/ flags from
static StringStreams * s_instance ;
auto add ( ) - > std : : size_t {
if ( m_unused . empty ( ) ) {
m_streams . push_back ( std : : unique_ptr < std : : ostringstream > ( new std : : ostringstream ) ) ;
return m_streams . size ( ) - 1 ;
}
else {
auto index = m_unused . back ( ) ;
m_unused . pop_back ( ) ;
return index ;
}
}
void release ( std : : size_t index ) {
m_streams [ index ] - > copyfmt ( m_referenceStream ) ; // Restore initial flags and other state
m_unused . push_back ( index ) ;
}
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// !TBD: put in TLS
static auto instance ( ) - > StringStreams & {
if ( ! s_instance )
s_instance = new StringStreams ( ) ;
return * s_instance ;
}
static void cleanup ( ) {
delete s_instance ;
s_instance = nullptr ;
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}
} ;
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StringStreams * StringStreams : : s_instance = nullptr ;
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void ReusableStringStream : : cleanup ( ) {
StringStreams : : cleanup ( ) ;
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}
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ReusableStringStream : : ReusableStringStream ( )
: m_index ( StringStreams : : instance ( ) . add ( ) ) ,
m_oss ( StringStreams : : instance ( ) . m_streams [ m_index ] . get ( ) )
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{ }
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ReusableStringStream : : ~ ReusableStringStream ( ) {
static_cast < std : : ostringstream * > ( m_oss ) - > str ( " " ) ;
m_oss - > clear ( ) ;
StringStreams : : instance ( ) . release ( m_index ) ;
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}
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auto ReusableStringStream : : str ( ) const - > std : : string {
return static_cast < std : : ostringstream * > ( m_oss ) - > str ( ) ;
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}
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///////////////////////////////////////////////////////////////////////////
# ifndef CATCH_CONFIG_NOSTDOUT // If you #define this you must implement these functions
std : : ostream & cout ( ) { return std : : cout ; }
std : : ostream & cerr ( ) { return std : : cerr ; }
std : : ostream & clog ( ) { return std : : clog ; }
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# endif
}
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# if defined(__clang__)
# pragma clang diagnostic pop
# endif
// end catch_stream.cpp
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// start catch_string_manip.cpp
# include <algorithm>
# include <ostream>
# include <cstring>
# include <cctype>
namespace Catch {
bool startsWith ( std : : string const & s , std : : string const & prefix ) {
return s . size ( ) > = prefix . size ( ) & & std : : equal ( prefix . begin ( ) , prefix . end ( ) , s . begin ( ) ) ;
}
bool startsWith ( std : : string const & s , char prefix ) {
return ! s . empty ( ) & & s [ 0 ] = = prefix ;
}
bool endsWith ( std : : string const & s , std : : string const & suffix ) {
return s . size ( ) > = suffix . size ( ) & & std : : equal ( suffix . rbegin ( ) , suffix . rend ( ) , s . rbegin ( ) ) ;
}
bool endsWith ( std : : string const & s , char suffix ) {
return ! s . empty ( ) & & s [ s . size ( ) - 1 ] = = suffix ;
}
bool contains ( std : : string const & s , std : : string const & infix ) {
return s . find ( infix ) ! = std : : string : : npos ;
}
char toLowerCh ( char c ) {
return static_cast < char > ( std : : tolower ( c ) ) ;
}
void toLowerInPlace ( std : : string & s ) {
std : : transform ( s . begin ( ) , s . end ( ) , s . begin ( ) , toLowerCh ) ;
}
std : : string toLower ( std : : string const & s ) {
std : : string lc = s ;
toLowerInPlace ( lc ) ;
return lc ;
}
std : : string trim ( std : : string const & str ) {
static char const * whitespaceChars = " \n \r \t " ;
std : : string : : size_type start = str . find_first_not_of ( whitespaceChars ) ;
std : : string : : size_type end = str . find_last_not_of ( whitespaceChars ) ;
return start ! = std : : string : : npos ? str . substr ( start , 1 + end - start ) : std : : string ( ) ;
}
bool replaceInPlace ( std : : string & str , std : : string const & replaceThis , std : : string const & withThis ) {
bool replaced = false ;
std : : size_t i = str . find ( replaceThis ) ;
while ( i ! = std : : string : : npos ) {
replaced = true ;
str = str . substr ( 0 , i ) + withThis + str . substr ( i + replaceThis . size ( ) ) ;
if ( i < str . size ( ) - withThis . size ( ) )
i = str . find ( replaceThis , i + withThis . size ( ) ) ;
else
i = std : : string : : npos ;
}
return replaced ;
}
pluralise : : pluralise ( std : : size_t count , std : : string const & label )
: m_count ( count ) ,
m_label ( label )
{ }
std : : ostream & operator < < ( std : : ostream & os , pluralise const & pluraliser ) {
os < < pluraliser . m_count < < ' ' < < pluraliser . m_label ;
if ( pluraliser . m_count ! = 1 )
os < < ' s ' ;
return os ;
}
}
// end catch_string_manip.cpp
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// start catch_stringref.cpp
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# if defined(__clang__)
# pragma clang diagnostic push
# pragma clang diagnostic ignored "-Wexit-time-destructors"
# endif
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# include <ostream>
# include <cstring>
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# include <cstdint>
namespace {
const uint32_t byte_2_lead = 0xC0 ;
const uint32_t byte_3_lead = 0xE0 ;
const uint32_t byte_4_lead = 0xF0 ;
}
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namespace Catch {
StringRef : : StringRef ( char const * rawChars ) noexcept
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: StringRef ( rawChars , static_cast < StringRef : : size_type > ( std : : strlen ( rawChars ) ) )
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{ }
StringRef : : operator std : : string ( ) const {
return std : : string ( m_start , m_size ) ;
}
void StringRef : : swap ( StringRef & other ) noexcept {
std : : swap ( m_start , other . m_start ) ;
std : : swap ( m_size , other . m_size ) ;
std : : swap ( m_data , other . m_data ) ;
}
auto StringRef : : c_str ( ) const - > char const * {
if ( isSubstring ( ) )
const_cast < StringRef * > ( this ) - > takeOwnership ( ) ;
return m_start ;
}
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auto StringRef : : currentData ( ) const noexcept - > char const * {
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return m_start ;
}
auto StringRef : : isOwned ( ) const noexcept - > bool {
return m_data ! = nullptr ;
}
auto StringRef : : isSubstring ( ) const noexcept - > bool {
return m_start [ m_size ] ! = ' \0 ' ;
}
void StringRef : : takeOwnership ( ) {
if ( ! isOwned ( ) ) {
m_data = new char [ m_size + 1 ] ;
memcpy ( m_data , m_start , m_size ) ;
m_data [ m_size ] = ' \0 ' ;
m_start = m_data ;
}
}
auto StringRef : : substr ( size_type start , size_type size ) const noexcept - > StringRef {
if ( start < m_size )
return StringRef ( m_start + start , size ) ;
else
return StringRef ( ) ;
}
auto StringRef : : operator = = ( StringRef const & other ) const noexcept - > bool {
return
size ( ) = = other . size ( ) & &
( std : : strncmp ( m_start , other . m_start , size ( ) ) = = 0 ) ;
}
auto StringRef : : operator ! = ( StringRef const & other ) const noexcept - > bool {
return ! operator = = ( other ) ;
}
auto StringRef : : operator [ ] ( size_type index ) const noexcept - > char {
return m_start [ index ] ;
}
auto StringRef : : numberOfCharacters ( ) const noexcept - > size_type {
size_type noChars = m_size ;
// Make adjustments for uft encodings
for ( size_type i = 0 ; i < m_size ; + + i ) {
char c = m_start [ i ] ;
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if ( ( c & byte_2_lead ) = = byte_2_lead ) {
noChars - - ;
if ( ( c & byte_3_lead ) = = byte_3_lead )
noChars - - ;
if ( ( c & byte_4_lead ) = = byte_4_lead )
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noChars - - ;
}
}
return noChars ;
}
auto operator + ( StringRef const & lhs , StringRef const & rhs ) - > std : : string {
std : : string str ;
str . reserve ( lhs . size ( ) + rhs . size ( ) ) ;
str + = lhs ;
str + = rhs ;
return str ;
}
auto operator + ( StringRef const & lhs , const char * rhs ) - > std : : string {
return std : : string ( lhs ) + std : : string ( rhs ) ;
}
auto operator + ( char const * lhs , StringRef const & rhs ) - > std : : string {
return std : : string ( lhs ) + std : : string ( rhs ) ;
}
auto operator < < ( std : : ostream & os , StringRef const & str ) - > std : : ostream & {
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return os . write ( str . currentData ( ) , str . size ( ) ) ;
}
auto operator + = ( std : : string & lhs , StringRef const & rhs ) - > std : : string & {
lhs . append ( rhs . currentData ( ) , rhs . size ( ) ) ;
return lhs ;
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}
} // namespace Catch
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# if defined(__clang__)
# pragma clang diagnostic pop
# endif
// end catch_stringref.cpp
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// start catch_tag_alias.cpp
namespace Catch {
TagAlias : : TagAlias ( std : : string const & _tag , SourceLineInfo _lineInfo ) : tag ( _tag ) , lineInfo ( _lineInfo ) { }
}
// end catch_tag_alias.cpp
// start catch_tag_alias_autoregistrar.cpp
namespace Catch {
RegistrarForTagAliases : : RegistrarForTagAliases ( char const * alias , char const * tag , SourceLineInfo const & lineInfo ) {
try {
getMutableRegistryHub ( ) . registerTagAlias ( alias , tag , lineInfo ) ;
} catch ( . . . ) {
// Do not throw when constructing global objects, instead register the exception to be processed later
getMutableRegistryHub ( ) . registerStartupException ( ) ;
}
}
}
// end catch_tag_alias_autoregistrar.cpp
// start catch_tag_alias_registry.cpp
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# include <sstream>
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namespace Catch {
TagAliasRegistry : : ~ TagAliasRegistry ( ) { }
TagAlias const * TagAliasRegistry : : find ( std : : string const & alias ) const {
auto it = m_registry . find ( alias ) ;
if ( it ! = m_registry . end ( ) )
return & ( it - > second ) ;
else
return nullptr ;
}
std : : string TagAliasRegistry : : expandAliases ( std : : string const & unexpandedTestSpec ) const {
std : : string expandedTestSpec = unexpandedTestSpec ;
for ( auto const & registryKvp : m_registry ) {
std : : size_t pos = expandedTestSpec . find ( registryKvp . first ) ;
if ( pos ! = std : : string : : npos ) {
expandedTestSpec = expandedTestSpec . substr ( 0 , pos ) +
registryKvp . second . tag +
expandedTestSpec . substr ( pos + registryKvp . first . size ( ) ) ;
}
}
return expandedTestSpec ;
}
void TagAliasRegistry : : add ( std : : string const & alias , std : : string const & tag , SourceLineInfo const & lineInfo ) {
CATCH_ENFORCE ( startsWith ( alias , " [@ " ) & & endsWith ( alias , ' ] ' ) ,
" error: tag alias, ' " < < alias < < " ' is not of the form [@alias name]. \n " < < lineInfo ) ;
CATCH_ENFORCE ( m_registry . insert ( std : : make_pair ( alias , TagAlias ( tag , lineInfo ) ) ) . second ,
" error: tag alias, ' " < < alias < < " ' already registered. \n "
< < " \t First seen at: " < < find ( alias ) - > lineInfo < < " \n "
< < " \t Redefined at: " < < lineInfo ) ;
}
ITagAliasRegistry : : ~ ITagAliasRegistry ( ) { }
ITagAliasRegistry const & ITagAliasRegistry : : get ( ) {
return getRegistryHub ( ) . getTagAliasRegistry ( ) ;
}
} // end namespace Catch
// end catch_tag_alias_registry.cpp
// start catch_test_case_info.cpp
# include <cctype>
# include <exception>
# include <algorithm>
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# include <sstream>
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namespace Catch {
TestCaseInfo : : SpecialProperties parseSpecialTag ( std : : string const & tag ) {
if ( startsWith ( tag , ' . ' ) | |
tag = = " !hide " )
return TestCaseInfo : : IsHidden ;
else if ( tag = = " !throws " )
return TestCaseInfo : : Throws ;
else if ( tag = = " !shouldfail " )
return TestCaseInfo : : ShouldFail ;
else if ( tag = = " !mayfail " )
return TestCaseInfo : : MayFail ;
else if ( tag = = " !nonportable " )
return TestCaseInfo : : NonPortable ;
else if ( tag = = " !benchmark " )
return static_cast < TestCaseInfo : : SpecialProperties > ( TestCaseInfo : : Benchmark | TestCaseInfo : : IsHidden ) ;
else
return TestCaseInfo : : None ;
}
bool isReservedTag ( std : : string const & tag ) {
return parseSpecialTag ( tag ) = = TestCaseInfo : : None & & tag . size ( ) > 0 & & ! std : : isalnum ( tag [ 0 ] ) ;
}
void enforceNotReservedTag ( std : : string const & tag , SourceLineInfo const & _lineInfo ) {
CATCH_ENFORCE ( ! isReservedTag ( tag ) ,
" Tag name: [ " < < tag < < " ] is not allowed. \n "
< < " Tag names starting with non alpha-numeric characters are reserved \n "
< < _lineInfo ) ;
}
TestCase makeTestCase ( ITestInvoker * _testCase ,
std : : string const & _className ,
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NameAndTags const & nameAndTags ,
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SourceLineInfo const & _lineInfo )
{
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bool isHidden = false ;
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// Parse out tags
std : : vector < std : : string > tags ;
std : : string desc , tag ;
bool inTag = false ;
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std : : string _descOrTags = nameAndTags . tags ;
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for ( char c : _descOrTags ) {
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if ( ! inTag ) {
if ( c = = ' [ ' )
inTag = true ;
else
desc + = c ;
}
else {
if ( c = = ' ] ' ) {
TestCaseInfo : : SpecialProperties prop = parseSpecialTag ( tag ) ;
if ( ( prop & TestCaseInfo : : IsHidden ) ! = 0 )
isHidden = true ;
else if ( prop = = TestCaseInfo : : None )
enforceNotReservedTag ( tag , _lineInfo ) ;
tags . push_back ( tag ) ;
tag . clear ( ) ;
inTag = false ;
}
else
tag + = c ;
}
}
if ( isHidden ) {
tags . push_back ( " . " ) ;
}
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TestCaseInfo info ( nameAndTags . name , _className , desc , tags , _lineInfo ) ;
return TestCase ( _testCase , std : : move ( info ) ) ;
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}
void setTags ( TestCaseInfo & testCaseInfo , std : : vector < std : : string > tags ) {
std : : sort ( begin ( tags ) , end ( tags ) ) ;
tags . erase ( std : : unique ( begin ( tags ) , end ( tags ) ) , end ( tags ) ) ;
testCaseInfo . lcaseTags . clear ( ) ;
for ( auto const & tag : tags ) {
std : : string lcaseTag = toLower ( tag ) ;
testCaseInfo . properties = static_cast < TestCaseInfo : : SpecialProperties > ( testCaseInfo . properties | parseSpecialTag ( lcaseTag ) ) ;
testCaseInfo . lcaseTags . push_back ( lcaseTag ) ;
}
testCaseInfo . tags = std : : move ( tags ) ;
}
TestCaseInfo : : TestCaseInfo ( std : : string const & _name ,
std : : string const & _className ,
std : : string const & _description ,
std : : vector < std : : string > const & _tags ,
SourceLineInfo const & _lineInfo )
: name ( _name ) ,
className ( _className ) ,
description ( _description ) ,
lineInfo ( _lineInfo ) ,
properties ( None )
{
setTags ( * this , _tags ) ;
}
bool TestCaseInfo : : isHidden ( ) const {
return ( properties & IsHidden ) ! = 0 ;
}
bool TestCaseInfo : : throws ( ) const {
return ( properties & Throws ) ! = 0 ;
}
bool TestCaseInfo : : okToFail ( ) const {
return ( properties & ( ShouldFail | MayFail ) ) ! = 0 ;
}
bool TestCaseInfo : : expectedToFail ( ) const {
return ( properties & ( ShouldFail ) ) ! = 0 ;
}
std : : string TestCaseInfo : : tagsAsString ( ) const {
std : : string ret ;
// '[' and ']' per tag
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std : : size_t full_size = 2 * tags . size ( ) ;
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for ( const auto & tag : tags ) {
full_size + = tag . size ( ) ;
}
ret . reserve ( full_size ) ;
for ( const auto & tag : tags ) {
ret . push_back ( ' [ ' ) ;
ret . append ( tag ) ;
ret . push_back ( ' ] ' ) ;
}
return ret ;
}
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TestCase : : TestCase ( ITestInvoker * testCase , TestCaseInfo & & info ) : TestCaseInfo ( std : : move ( info ) ) , test ( testCase ) { }
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TestCase TestCase : : withName ( std : : string const & _newName ) const {
TestCase other ( * this ) ;
other . name = _newName ;
return other ;
}
void TestCase : : invoke ( ) const {
test - > invoke ( ) ;
}
bool TestCase : : operator = = ( TestCase const & other ) const {
return test . get ( ) = = other . test . get ( ) & &
name = = other . name & &
className = = other . className ;
}
bool TestCase : : operator < ( TestCase const & other ) const {
return name < other . name ;
}
TestCaseInfo const & TestCase : : getTestCaseInfo ( ) const
{
return * this ;
}
} // end namespace Catch
// end catch_test_case_info.cpp
// start catch_test_case_registry_impl.cpp
# include <sstream>
namespace Catch {
std : : vector < TestCase > sortTests ( IConfig const & config , std : : vector < TestCase > const & unsortedTestCases ) {
std : : vector < TestCase > sorted = unsortedTestCases ;
switch ( config . runOrder ( ) ) {
case RunTests : : InLexicographicalOrder :
std : : sort ( sorted . begin ( ) , sorted . end ( ) ) ;
break ;
case RunTests : : InRandomOrder :
seedRng ( config ) ;
RandomNumberGenerator : : shuffle ( sorted ) ;
break ;
case RunTests : : InDeclarationOrder :
// already in declaration order
break ;
}
return sorted ;
}
bool matchTest ( TestCase const & testCase , TestSpec const & testSpec , IConfig const & config ) {
return testSpec . matches ( testCase ) & & ( config . allowThrows ( ) | | ! testCase . throws ( ) ) ;
}
void enforceNoDuplicateTestCases ( std : : vector < TestCase > const & functions ) {
std : : set < TestCase > seenFunctions ;
for ( auto const & function : functions ) {
auto prev = seenFunctions . insert ( function ) ;
CATCH_ENFORCE ( prev . second ,
" error: TEST_CASE( \" " < < function . name < < " \" ) already defined. \n "
< < " \t First seen at " < < prev . first - > getTestCaseInfo ( ) . lineInfo < < " \n "
< < " \t Redefined at " < < function . getTestCaseInfo ( ) . lineInfo ) ;
}
}
std : : vector < TestCase > filterTests ( std : : vector < TestCase > const & testCases , TestSpec const & testSpec , IConfig const & config ) {
std : : vector < TestCase > filtered ;
filtered . reserve ( testCases . size ( ) ) ;
for ( auto const & testCase : testCases )
if ( matchTest ( testCase , testSpec , config ) )
filtered . push_back ( testCase ) ;
return filtered ;
}
std : : vector < TestCase > const & getAllTestCasesSorted ( IConfig const & config ) {
return getRegistryHub ( ) . getTestCaseRegistry ( ) . getAllTestsSorted ( config ) ;
}
void TestRegistry : : registerTest ( TestCase const & testCase ) {
std : : string name = testCase . getTestCaseInfo ( ) . name ;
if ( name . empty ( ) ) {
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ReusableStringStream rss ;
rss < < " Anonymous test case " < < + + m_unnamedCount ;
return registerTest ( testCase . withName ( rss . str ( ) ) ) ;
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}
m_functions . push_back ( testCase ) ;
}
std : : vector < TestCase > const & TestRegistry : : getAllTests ( ) const {
return m_functions ;
}
std : : vector < TestCase > const & TestRegistry : : getAllTestsSorted ( IConfig const & config ) const {
if ( m_sortedFunctions . empty ( ) )
enforceNoDuplicateTestCases ( m_functions ) ;
if ( m_currentSortOrder ! = config . runOrder ( ) | | m_sortedFunctions . empty ( ) ) {
m_sortedFunctions = sortTests ( config , m_functions ) ;
m_currentSortOrder = config . runOrder ( ) ;
}
return m_sortedFunctions ;
}
///////////////////////////////////////////////////////////////////////////
TestInvokerAsFunction : : TestInvokerAsFunction ( void ( * testAsFunction ) ( ) ) noexcept : m_testAsFunction ( testAsFunction ) { }
void TestInvokerAsFunction : : invoke ( ) const {
m_testAsFunction ( ) ;
}
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std : : string extractClassName ( StringRef const & classOrQualifiedMethodName ) {
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std : : string className = classOrQualifiedMethodName ;
if ( startsWith ( className , ' & ' ) )
{
std : : size_t lastColons = className . rfind ( " :: " ) ;
std : : size_t penultimateColons = className . rfind ( " :: " , lastColons - 1 ) ;
if ( penultimateColons = = std : : string : : npos )
penultimateColons = 1 ;
className = className . substr ( penultimateColons , lastColons - penultimateColons ) ;
}
return className ;
}
} // end namespace Catch
// end catch_test_case_registry_impl.cpp
// start catch_test_case_tracker.cpp
# include <algorithm>
# include <assert.h>
# include <stdexcept>
# include <memory>
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# include <sstream>
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# if defined(__clang__)
# pragma clang diagnostic push
# pragma clang diagnostic ignored "-Wexit-time-destructors"
# endif
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namespace Catch {
namespace TestCaseTracking {
NameAndLocation : : NameAndLocation ( std : : string const & _name , SourceLineInfo const & _location )
: name ( _name ) ,
location ( _location )
{ }
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ITracker : : ~ ITracker ( ) = default ;
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TrackerContext & TrackerContext : : instance ( ) {
static TrackerContext s_instance ;
return s_instance ;
}
ITracker & TrackerContext : : startRun ( ) {
m_rootTracker = std : : make_shared < SectionTracker > ( NameAndLocation ( " {root} " , CATCH_INTERNAL_LINEINFO ) , * this , nullptr ) ;
m_currentTracker = nullptr ;
m_runState = Executing ;
return * m_rootTracker ;
}
void TrackerContext : : endRun ( ) {
m_rootTracker . reset ( ) ;
m_currentTracker = nullptr ;
m_runState = NotStarted ;
}
void TrackerContext : : startCycle ( ) {
m_currentTracker = m_rootTracker . get ( ) ;
m_runState = Executing ;
}
void TrackerContext : : completeCycle ( ) {
m_runState = CompletedCycle ;
}
bool TrackerContext : : completedCycle ( ) const {
return m_runState = = CompletedCycle ;
}
ITracker & TrackerContext : : currentTracker ( ) {
return * m_currentTracker ;
}
void TrackerContext : : setCurrentTracker ( ITracker * tracker ) {
m_currentTracker = tracker ;
}
TrackerBase : : TrackerHasName : : TrackerHasName ( NameAndLocation const & nameAndLocation ) : m_nameAndLocation ( nameAndLocation ) { }
bool TrackerBase : : TrackerHasName : : operator ( ) ( ITrackerPtr const & tracker ) const {
return
tracker - > nameAndLocation ( ) . name = = m_nameAndLocation . name & &
tracker - > nameAndLocation ( ) . location = = m_nameAndLocation . location ;
}
TrackerBase : : TrackerBase ( NameAndLocation const & nameAndLocation , TrackerContext & ctx , ITracker * parent )
: m_nameAndLocation ( nameAndLocation ) ,
m_ctx ( ctx ) ,
m_parent ( parent )
{ }
NameAndLocation const & TrackerBase : : nameAndLocation ( ) const {
return m_nameAndLocation ;
}
bool TrackerBase : : isComplete ( ) const {
return m_runState = = CompletedSuccessfully | | m_runState = = Failed ;
}
bool TrackerBase : : isSuccessfullyCompleted ( ) const {
return m_runState = = CompletedSuccessfully ;
}
bool TrackerBase : : isOpen ( ) const {
return m_runState ! = NotStarted & & ! isComplete ( ) ;
}
bool TrackerBase : : hasChildren ( ) const {
return ! m_children . empty ( ) ;
}
void TrackerBase : : addChild ( ITrackerPtr const & child ) {
m_children . push_back ( child ) ;
}
ITrackerPtr TrackerBase : : findChild ( NameAndLocation const & nameAndLocation ) {
auto it = std : : find_if ( m_children . begin ( ) , m_children . end ( ) , TrackerHasName ( nameAndLocation ) ) ;
return ( it ! = m_children . end ( ) )
? * it
: nullptr ;
}
ITracker & TrackerBase : : parent ( ) {
assert ( m_parent ) ; // Should always be non-null except for root
return * m_parent ;
}
void TrackerBase : : openChild ( ) {
if ( m_runState ! = ExecutingChildren ) {
m_runState = ExecutingChildren ;
if ( m_parent )
m_parent - > openChild ( ) ;
}
}
bool TrackerBase : : isSectionTracker ( ) const { return false ; }
bool TrackerBase : : isIndexTracker ( ) const { return false ; }
void TrackerBase : : open ( ) {
m_runState = Executing ;
moveToThis ( ) ;
if ( m_parent )
m_parent - > openChild ( ) ;
}
void TrackerBase : : close ( ) {
// Close any still open children (e.g. generators)
while ( & m_ctx . currentTracker ( ) ! = this )
m_ctx . currentTracker ( ) . close ( ) ;
switch ( m_runState ) {
case NeedsAnotherRun :
break ;
case Executing :
m_runState = CompletedSuccessfully ;
break ;
case ExecutingChildren :
if ( m_children . empty ( ) | | m_children . back ( ) - > isComplete ( ) )
m_runState = CompletedSuccessfully ;
break ;
case NotStarted :
case CompletedSuccessfully :
case Failed :
CATCH_INTERNAL_ERROR ( " Illogical state: " < < m_runState ) ;
default :
CATCH_INTERNAL_ERROR ( " Unknown state: " < < m_runState ) ;
}
moveToParent ( ) ;
m_ctx . completeCycle ( ) ;
}
void TrackerBase : : fail ( ) {
m_runState = Failed ;
if ( m_parent )
m_parent - > markAsNeedingAnotherRun ( ) ;
moveToParent ( ) ;
m_ctx . completeCycle ( ) ;
}
void TrackerBase : : markAsNeedingAnotherRun ( ) {
m_runState = NeedsAnotherRun ;
}
void TrackerBase : : moveToParent ( ) {
assert ( m_parent ) ;
m_ctx . setCurrentTracker ( m_parent ) ;
}
void TrackerBase : : moveToThis ( ) {
m_ctx . setCurrentTracker ( this ) ;
}
SectionTracker : : SectionTracker ( NameAndLocation const & nameAndLocation , TrackerContext & ctx , ITracker * parent )
: TrackerBase ( nameAndLocation , ctx , parent )
{
if ( parent ) {
while ( ! parent - > isSectionTracker ( ) )
parent = & parent - > parent ( ) ;
SectionTracker & parentSection = static_cast < SectionTracker & > ( * parent ) ;
addNextFilters ( parentSection . m_filters ) ;
}
}
bool SectionTracker : : isSectionTracker ( ) const { return true ; }
SectionTracker & SectionTracker : : acquire ( TrackerContext & ctx , NameAndLocation const & nameAndLocation ) {
std : : shared_ptr < SectionTracker > section ;
ITracker & currentTracker = ctx . currentTracker ( ) ;
if ( ITrackerPtr childTracker = currentTracker . findChild ( nameAndLocation ) ) {
assert ( childTracker ) ;
assert ( childTracker - > isSectionTracker ( ) ) ;
section = std : : static_pointer_cast < SectionTracker > ( childTracker ) ;
}
else {
section = std : : make_shared < SectionTracker > ( nameAndLocation , ctx , & currentTracker ) ;
currentTracker . addChild ( section ) ;
}
if ( ! ctx . completedCycle ( ) )
section - > tryOpen ( ) ;
return * section ;
}
void SectionTracker : : tryOpen ( ) {
if ( ! isComplete ( ) & & ( m_filters . empty ( ) | | m_filters [ 0 ] . empty ( ) | | m_filters [ 0 ] = = m_nameAndLocation . name ) )
open ( ) ;
}
void SectionTracker : : addInitialFilters ( std : : vector < std : : string > const & filters ) {
if ( ! filters . empty ( ) ) {
m_filters . push_back ( " " ) ; // Root - should never be consulted
m_filters . push_back ( " " ) ; // Test Case - not a section filter
m_filters . insert ( m_filters . end ( ) , filters . begin ( ) , filters . end ( ) ) ;
}
}
void SectionTracker : : addNextFilters ( std : : vector < std : : string > const & filters ) {
if ( filters . size ( ) > 1 )
m_filters . insert ( m_filters . end ( ) , + + filters . begin ( ) , filters . end ( ) ) ;
}
IndexTracker : : IndexTracker ( NameAndLocation const & nameAndLocation , TrackerContext & ctx , ITracker * parent , int size )
: TrackerBase ( nameAndLocation , ctx , parent ) ,
m_size ( size )
{ }
bool IndexTracker : : isIndexTracker ( ) const { return true ; }
IndexTracker & IndexTracker : : acquire ( TrackerContext & ctx , NameAndLocation const & nameAndLocation , int size ) {
std : : shared_ptr < IndexTracker > tracker ;
ITracker & currentTracker = ctx . currentTracker ( ) ;
if ( ITrackerPtr childTracker = currentTracker . findChild ( nameAndLocation ) ) {
assert ( childTracker ) ;
assert ( childTracker - > isIndexTracker ( ) ) ;
tracker = std : : static_pointer_cast < IndexTracker > ( childTracker ) ;
}
else {
tracker = std : : make_shared < IndexTracker > ( nameAndLocation , ctx , & currentTracker , size ) ;
currentTracker . addChild ( tracker ) ;
}
if ( ! ctx . completedCycle ( ) & & ! tracker - > isComplete ( ) ) {
if ( tracker - > m_runState ! = ExecutingChildren & & tracker - > m_runState ! = NeedsAnotherRun )
tracker - > moveNext ( ) ;
tracker - > open ( ) ;
}
return * tracker ;
}
int IndexTracker : : index ( ) const { return m_index ; }
void IndexTracker : : moveNext ( ) {
m_index + + ;
m_children . clear ( ) ;
}
void IndexTracker : : close ( ) {
TrackerBase : : close ( ) ;
if ( m_runState = = CompletedSuccessfully & & m_index < m_size - 1 )
m_runState = Executing ;
}
} // namespace TestCaseTracking
using TestCaseTracking : : ITracker ;
using TestCaseTracking : : TrackerContext ;
using TestCaseTracking : : SectionTracker ;
using TestCaseTracking : : IndexTracker ;
} // namespace Catch
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# if defined(__clang__)
# pragma clang diagnostic pop
# endif
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// end catch_test_case_tracker.cpp
// start catch_test_registry.cpp
namespace Catch {
auto makeTestInvoker ( void ( * testAsFunction ) ( ) ) noexcept - > ITestInvoker * {
return new ( std : : nothrow ) TestInvokerAsFunction ( testAsFunction ) ;
}
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NameAndTags : : NameAndTags ( StringRef const & name_ , StringRef const & tags_ ) noexcept : name ( name_ ) , tags ( tags_ ) { }
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AutoReg : : AutoReg ( ITestInvoker * invoker , SourceLineInfo const & lineInfo , StringRef const & classOrMethod , NameAndTags const & nameAndTags ) noexcept {
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try {
getMutableRegistryHub ( )
. registerTest (
makeTestCase (
invoker ,
extractClassName ( classOrMethod ) ,
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nameAndTags ,
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lineInfo ) ) ;
} catch ( . . . ) {
// Do not throw when constructing global objects, instead register the exception to be processed later
getMutableRegistryHub ( ) . registerStartupException ( ) ;
}
}
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AutoReg : : ~ AutoReg ( ) = default ;
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}
// end catch_test_registry.cpp
// start catch_test_spec.cpp
# include <algorithm>
# include <string>
# include <vector>
# include <memory>
namespace Catch {
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TestSpec : : Pattern : : ~ Pattern ( ) = default ;
TestSpec : : NamePattern : : ~ NamePattern ( ) = default ;
TestSpec : : TagPattern : : ~ TagPattern ( ) = default ;
TestSpec : : ExcludedPattern : : ~ ExcludedPattern ( ) = default ;
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TestSpec : : NamePattern : : NamePattern ( std : : string const & name )
: m_wildcardPattern ( toLower ( name ) , CaseSensitive : : No )
{ }
bool TestSpec : : NamePattern : : matches ( TestCaseInfo const & testCase ) const {
return m_wildcardPattern . matches ( toLower ( testCase . name ) ) ;
}
TestSpec : : TagPattern : : TagPattern ( std : : string const & tag ) : m_tag ( toLower ( tag ) ) { }
bool TestSpec : : TagPattern : : matches ( TestCaseInfo const & testCase ) const {
return std : : find ( begin ( testCase . lcaseTags ) ,
end ( testCase . lcaseTags ) ,
m_tag ) ! = end ( testCase . lcaseTags ) ;
}
TestSpec : : ExcludedPattern : : ExcludedPattern ( PatternPtr const & underlyingPattern ) : m_underlyingPattern ( underlyingPattern ) { }
bool TestSpec : : ExcludedPattern : : matches ( TestCaseInfo const & testCase ) const { return ! m_underlyingPattern - > matches ( testCase ) ; }
bool TestSpec : : Filter : : matches ( TestCaseInfo const & testCase ) const {
// All patterns in a filter must match for the filter to be a match
for ( auto const & pattern : m_patterns ) {
if ( ! pattern - > matches ( testCase ) )
return false ;
}
return true ;
}
bool TestSpec : : hasFilters ( ) const {
return ! m_filters . empty ( ) ;
}
bool TestSpec : : matches ( TestCaseInfo const & testCase ) const {
// A TestSpec matches if any filter matches
for ( auto const & filter : m_filters )
if ( filter . matches ( testCase ) )
return true ;
return false ;
}
}
// end catch_test_spec.cpp
// start catch_test_spec_parser.cpp
namespace Catch {
TestSpecParser : : TestSpecParser ( ITagAliasRegistry const & tagAliases ) : m_tagAliases ( & tagAliases ) { }
TestSpecParser & TestSpecParser : : parse ( std : : string const & arg ) {
m_mode = None ;
m_exclusion = false ;
m_start = std : : string : : npos ;
m_arg = m_tagAliases - > expandAliases ( arg ) ;
m_escapeChars . clear ( ) ;
for ( m_pos = 0 ; m_pos < m_arg . size ( ) ; + + m_pos )
visitChar ( m_arg [ m_pos ] ) ;
if ( m_mode = = Name )
addPattern < TestSpec : : NamePattern > ( ) ;
return * this ;
}
TestSpec TestSpecParser : : testSpec ( ) {
addFilter ( ) ;
return m_testSpec ;
}
void TestSpecParser : : visitChar ( char c ) {
if ( m_mode = = None ) {
switch ( c ) {
case ' ' : return ;
case ' ~ ' : m_exclusion = true ; return ;
case ' [ ' : return startNewMode ( Tag , + + m_pos ) ;
case ' " ' : return startNewMode ( QuotedName , + + m_pos ) ;
case ' \\ ' : return escape ( ) ;
default : startNewMode ( Name , m_pos ) ; break ;
}
}
if ( m_mode = = Name ) {
if ( c = = ' , ' ) {
addPattern < TestSpec : : NamePattern > ( ) ;
addFilter ( ) ;
}
else if ( c = = ' [ ' ) {
if ( subString ( ) = = " exclude: " )
m_exclusion = true ;
else
addPattern < TestSpec : : NamePattern > ( ) ;
startNewMode ( Tag , + + m_pos ) ;
}
else if ( c = = ' \\ ' )
escape ( ) ;
}
else if ( m_mode = = EscapedName )
m_mode = Name ;
else if ( m_mode = = QuotedName & & c = = ' " ' )
addPattern < TestSpec : : NamePattern > ( ) ;
else if ( m_mode = = Tag & & c = = ' ] ' )
addPattern < TestSpec : : TagPattern > ( ) ;
}
void TestSpecParser : : startNewMode ( Mode mode , std : : size_t start ) {
m_mode = mode ;
m_start = start ;
}
void TestSpecParser : : escape ( ) {
if ( m_mode = = None )
m_start = m_pos ;
m_mode = EscapedName ;
m_escapeChars . push_back ( m_pos ) ;
}
std : : string TestSpecParser : : subString ( ) const { return m_arg . substr ( m_start , m_pos - m_start ) ; }
void TestSpecParser : : addFilter ( ) {
if ( ! m_currentFilter . m_patterns . empty ( ) ) {
m_testSpec . m_filters . push_back ( m_currentFilter ) ;
m_currentFilter = TestSpec : : Filter ( ) ;
}
}
TestSpec parseTestSpec ( std : : string const & arg ) {
return TestSpecParser ( ITagAliasRegistry : : get ( ) ) . parse ( arg ) . testSpec ( ) ;
}
} // namespace Catch
// end catch_test_spec_parser.cpp
// start catch_timer.cpp
# include <chrono>
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static const uint64_t nanosecondsInSecond = 1000000000 ;
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namespace Catch {
auto getCurrentNanosecondsSinceEpoch ( ) - > uint64_t {
return std : : chrono : : duration_cast < std : : chrono : : nanoseconds > ( std : : chrono : : high_resolution_clock : : now ( ) . time_since_epoch ( ) ) . count ( ) ;
}
auto estimateClockResolution ( ) - > uint64_t {
uint64_t sum = 0 ;
static const uint64_t iterations = 1000000 ;
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auto startTime = getCurrentNanosecondsSinceEpoch ( ) ;
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for ( std : : size_t i = 0 ; i < iterations ; + + i ) {
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uint64_t ticks ;
uint64_t baseTicks = getCurrentNanosecondsSinceEpoch ( ) ;
do {
ticks = getCurrentNanosecondsSinceEpoch ( ) ;
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} while ( ticks = = baseTicks ) ;
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auto delta = ticks - baseTicks ;
sum + = delta ;
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// If we have been calibrating for over 3 seconds -- the clock
// is terrible and we should move on.
// TBD: How to signal that the measured resolution is probably wrong?
if ( ticks > startTime + 3 * nanosecondsInSecond ) {
return sum / i ;
}
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}
// We're just taking the mean, here. To do better we could take the std. dev and exclude outliers
// - and potentially do more iterations if there's a high variance.
return sum / iterations ;
}
auto getEstimatedClockResolution ( ) - > uint64_t {
static auto s_resolution = estimateClockResolution ( ) ;
return s_resolution ;
}
void Timer : : start ( ) {
m_nanoseconds = getCurrentNanosecondsSinceEpoch ( ) ;
}
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auto Timer : : getElapsedNanoseconds ( ) const - > uint64_t {
return getCurrentNanosecondsSinceEpoch ( ) - m_nanoseconds ;
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}
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auto Timer : : getElapsedMicroseconds ( ) const - > uint64_t {
return getElapsedNanoseconds ( ) / 1000 ;
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}
auto Timer : : getElapsedMilliseconds ( ) const - > unsigned int {
return static_cast < unsigned int > ( getElapsedMicroseconds ( ) / 1000 ) ;
}
auto Timer : : getElapsedSeconds ( ) const - > double {
return getElapsedMicroseconds ( ) / 1000000.0 ;
}
} // namespace Catch
// end catch_timer.cpp
// start catch_tostring.cpp
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# if defined(__clang__)
# pragma clang diagnostic push
# pragma clang diagnostic ignored "-Wexit-time-destructors"
# pragma clang diagnostic ignored "-Wglobal-constructors"
# endif
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// Enable specific decls locally
# if !defined(CATCH_CONFIG_ENABLE_CHRONO_STRINGMAKER)
# define CATCH_CONFIG_ENABLE_CHRONO_STRINGMAKER
# endif
# include <cmath>
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# include <iomanip>
namespace Catch {
namespace Detail {
const std : : string unprintableString = " {?} " ;
namespace {
const int hexThreshold = 255 ;
struct Endianness {
enum Arch { Big , Little } ;
static Arch which ( ) {
union _ {
int asInt ;
char asChar [ sizeof ( int ) ] ;
} u ;
u . asInt = 1 ;
return ( u . asChar [ sizeof ( int ) - 1 ] = = 1 ) ? Big : Little ;
}
} ;
}
std : : string rawMemoryToString ( const void * object , std : : size_t size ) {
// Reverse order for little endian architectures
int i = 0 , end = static_cast < int > ( size ) , inc = 1 ;
if ( Endianness : : which ( ) = = Endianness : : Little ) {
i = end - 1 ;
end = inc = - 1 ;
}
unsigned char const * bytes = static_cast < unsigned char const * > ( object ) ;
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ReusableStringStream rss ;
rss < < " 0x " < < std : : setfill ( ' 0 ' ) < < std : : hex ;
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for ( ; i ! = end ; i + = inc )
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rss < < std : : setw ( 2 ) < < static_cast < unsigned > ( bytes [ i ] ) ;
return rss . str ( ) ;
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}
}
template < typename T >
std : : string fpToString ( T value , int precision ) {
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if ( std : : isnan ( value ) ) {
return " nan " ;
}
ReusableStringStream rss ;
rss < < std : : setprecision ( precision )
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< < std : : fixed
< < value ;
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std : : string d = rss . str ( ) ;
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std : : size_t i = d . find_last_not_of ( ' 0 ' ) ;
if ( i ! = std : : string : : npos & & i ! = d . size ( ) - 1 ) {
if ( d [ i ] = = ' . ' )
i + + ;
d = d . substr ( 0 , i + 1 ) ;
}
return d ;
}
//// ======================================================= ////
//
// Out-of-line defs for full specialization of StringMaker
//
//// ======================================================= ////
std : : string StringMaker < std : : string > : : convert ( const std : : string & str ) {
if ( ! getCurrentContext ( ) . getConfig ( ) - > showInvisibles ( ) ) {
return ' " ' + str + ' " ' ;
}
std : : string s ( " \" " ) ;
for ( char c : str ) {
switch ( c ) {
case ' \n ' :
s . append ( " \\ n " ) ;
break ;
case ' \t ' :
s . append ( " \\ t " ) ;
break ;
default :
s . push_back ( c ) ;
break ;
}
}
s . append ( " \" " ) ;
return s ;
}
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# ifdef CATCH_CONFIG_WCHAR
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std : : string StringMaker < std : : wstring > : : convert ( const std : : wstring & wstr ) {
std : : string s ;
s . reserve ( wstr . size ( ) ) ;
for ( auto c : wstr ) {
s + = ( c < = 0xff ) ? static_cast < char > ( c ) : ' ? ' ;
}
return : : Catch : : Detail : : stringify ( s ) ;
}
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# endif
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std : : string StringMaker < char const * > : : convert ( char const * str ) {
if ( str ) {
return : : Catch : : Detail : : stringify ( std : : string { str } ) ;
} else {
return { " {null string} " } ;
}
}
std : : string StringMaker < char * > : : convert ( char * str ) {
if ( str ) {
return : : Catch : : Detail : : stringify ( std : : string { str } ) ;
} else {
return { " {null string} " } ;
}
}
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# ifdef CATCH_CONFIG_WCHAR
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std : : string StringMaker < wchar_t const * > : : convert ( wchar_t const * str ) {
if ( str ) {
return : : Catch : : Detail : : stringify ( std : : wstring { str } ) ;
} else {
return { " {null string} " } ;
}
}
std : : string StringMaker < wchar_t * > : : convert ( wchar_t * str ) {
if ( str ) {
return : : Catch : : Detail : : stringify ( std : : wstring { str } ) ;
} else {
return { " {null string} " } ;
}
}
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# endif
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std : : string StringMaker < int > : : convert ( int value ) {
return : : Catch : : Detail : : stringify ( static_cast < long long > ( value ) ) ;
}
std : : string StringMaker < long > : : convert ( long value ) {
return : : Catch : : Detail : : stringify ( static_cast < long long > ( value ) ) ;
}
std : : string StringMaker < long long > : : convert ( long long value ) {
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ReusableStringStream rss ;
rss < < value ;
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if ( value > Detail : : hexThreshold ) {
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rss < < " (0x " < < std : : hex < < value < < ' ) ' ;
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}
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return rss . str ( ) ;
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}
std : : string StringMaker < unsigned int > : : convert ( unsigned int value ) {
return : : Catch : : Detail : : stringify ( static_cast < unsigned long long > ( value ) ) ;
}
std : : string StringMaker < unsigned long > : : convert ( unsigned long value ) {
return : : Catch : : Detail : : stringify ( static_cast < unsigned long long > ( value ) ) ;
}
std : : string StringMaker < unsigned long long > : : convert ( unsigned long long value ) {
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ReusableStringStream rss ;
rss < < value ;
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if ( value > Detail : : hexThreshold ) {
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rss < < " (0x " < < std : : hex < < value < < ' ) ' ;
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}
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return rss . str ( ) ;
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}
std : : string StringMaker < bool > : : convert ( bool b ) {
return b ? " true " : " false " ;
}
std : : string StringMaker < char > : : convert ( char value ) {
if ( value = = ' \r ' ) {
return " ' \\ r' " ;
} else if ( value = = ' \f ' ) {
return " ' \\ f' " ;
} else if ( value = = ' \n ' ) {
return " ' \\ n' " ;
} else if ( value = = ' \t ' ) {
return " ' \\ t' " ;
} else if ( ' \0 ' < = value & & value < ' ' ) {
return : : Catch : : Detail : : stringify ( static_cast < unsigned int > ( value ) ) ;
} else {
char chstr [ ] = " ' ' " ;
chstr [ 1 ] = value ;
return chstr ;
}
}
std : : string StringMaker < signed char > : : convert ( signed char c ) {
return : : Catch : : Detail : : stringify ( static_cast < char > ( c ) ) ;
}
std : : string StringMaker < unsigned char > : : convert ( unsigned char c ) {
return : : Catch : : Detail : : stringify ( static_cast < char > ( c ) ) ;
}
std : : string StringMaker < std : : nullptr_t > : : convert ( std : : nullptr_t ) {
return " nullptr " ;
}
std : : string StringMaker < float > : : convert ( float value ) {
return fpToString ( value , 5 ) + ' f ' ;
}
std : : string StringMaker < double > : : convert ( double value ) {
return fpToString ( value , 10 ) ;
}
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std : : string ratio_string < std : : atto > : : symbol ( ) { return " a " ; }
std : : string ratio_string < std : : femto > : : symbol ( ) { return " f " ; }
std : : string ratio_string < std : : pico > : : symbol ( ) { return " p " ; }
std : : string ratio_string < std : : nano > : : symbol ( ) { return " n " ; }
std : : string ratio_string < std : : micro > : : symbol ( ) { return " u " ; }
std : : string ratio_string < std : : milli > : : symbol ( ) { return " m " ; }
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} // end namespace Catch
# if defined(__clang__)
# pragma clang diagnostic pop
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# endif
// end catch_tostring.cpp
// start catch_totals.cpp
namespace Catch {
Counts Counts : : operator - ( Counts const & other ) const {
Counts diff ;
diff . passed = passed - other . passed ;
diff . failed = failed - other . failed ;
diff . failedButOk = failedButOk - other . failedButOk ;
return diff ;
}
Counts & Counts : : operator + = ( Counts const & other ) {
passed + = other . passed ;
failed + = other . failed ;
failedButOk + = other . failedButOk ;
return * this ;
}
std : : size_t Counts : : total ( ) const {
return passed + failed + failedButOk ;
}
bool Counts : : allPassed ( ) const {
return failed = = 0 & & failedButOk = = 0 ;
}
bool Counts : : allOk ( ) const {
return failed = = 0 ;
}
Totals Totals : : operator - ( Totals const & other ) const {
Totals diff ;
diff . assertions = assertions - other . assertions ;
diff . testCases = testCases - other . testCases ;
return diff ;
}
Totals & Totals : : operator + = ( Totals const & other ) {
assertions + = other . assertions ;
testCases + = other . testCases ;
return * this ;
}
Totals Totals : : delta ( Totals const & prevTotals ) const {
Totals diff = * this - prevTotals ;
if ( diff . assertions . failed > 0 )
+ + diff . testCases . failed ;
else if ( diff . assertions . failedButOk > 0 )
+ + diff . testCases . failedButOk ;
else
+ + diff . testCases . passed ;
return diff ;
}
}
// end catch_totals.cpp
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// start catch_uncaught_exceptions.cpp
# include <exception>
namespace Catch {
bool uncaught_exceptions ( ) {
# if defined(CATCH_CONFIG_CPP17_UNCAUGHT_EXCEPTIONS)
return std : : uncaught_exceptions ( ) > 0 ;
# else
return std : : uncaught_exception ( ) ;
# endif
}
} // end namespace Catch
// end catch_uncaught_exceptions.cpp
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// start catch_version.cpp
# include <ostream>
namespace Catch {
Version : : Version
( unsigned int _majorVersion ,
unsigned int _minorVersion ,
unsigned int _patchNumber ,
char const * const _branchName ,
unsigned int _buildNumber )
: majorVersion ( _majorVersion ) ,
minorVersion ( _minorVersion ) ,
patchNumber ( _patchNumber ) ,
branchName ( _branchName ) ,
buildNumber ( _buildNumber )
{ }
std : : ostream & operator < < ( std : : ostream & os , Version const & version ) {
os < < version . majorVersion < < ' . '
< < version . minorVersion < < ' . '
< < version . patchNumber ;
// branchName is never null -> 0th char is \0 if it is empty
if ( version . branchName [ 0 ] ) {
os < < ' - ' < < version . branchName
< < ' . ' < < version . buildNumber ;
}
return os ;
}
Version const & libraryVersion ( ) {
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static Version version ( 2 , 2 , 2 , " " , 0 ) ;
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return version ;
}
}
// end catch_version.cpp
// start catch_wildcard_pattern.cpp
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# include <sstream>
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namespace Catch {
WildcardPattern : : WildcardPattern ( std : : string const & pattern ,
CaseSensitive : : Choice caseSensitivity )
: m_caseSensitivity ( caseSensitivity ) ,
m_pattern ( adjustCase ( pattern ) )
{
if ( startsWith ( m_pattern , ' * ' ) ) {
m_pattern = m_pattern . substr ( 1 ) ;
m_wildcard = WildcardAtStart ;
}
if ( endsWith ( m_pattern , ' * ' ) ) {
m_pattern = m_pattern . substr ( 0 , m_pattern . size ( ) - 1 ) ;
m_wildcard = static_cast < WildcardPosition > ( m_wildcard | WildcardAtEnd ) ;
}
}
bool WildcardPattern : : matches ( std : : string const & str ) const {
switch ( m_wildcard ) {
case NoWildcard :
return m_pattern = = adjustCase ( str ) ;
case WildcardAtStart :
return endsWith ( adjustCase ( str ) , m_pattern ) ;
case WildcardAtEnd :
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return startsWith ( adjustCase ( str ) , m_pattern ) ;
case WildcardAtBothEnds :
return contains ( adjustCase ( str ) , m_pattern ) ;
default :
CATCH_INTERNAL_ERROR ( " Unknown enum " ) ;
}
}
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std : : string WildcardPattern : : adjustCase ( std : : string const & str ) const {
return m_caseSensitivity = = CaseSensitive : : No ? toLower ( str ) : str ;
}
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}
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// end catch_wildcard_pattern.cpp
// start catch_xmlwriter.cpp
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# include <iomanip>
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using uchar = unsigned char ;
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namespace Catch {
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namespace {
size_t trailingBytes ( unsigned char c ) {
if ( ( c & 0xE0 ) = = 0xC0 ) {
return 2 ;
}
if ( ( c & 0xF0 ) = = 0xE0 ) {
return 3 ;
}
if ( ( c & 0xF8 ) = = 0xF0 ) {
return 4 ;
}
CATCH_INTERNAL_ERROR ( " Invalid multibyte utf-8 start byte encountered " ) ;
}
uint32_t headerValue ( unsigned char c ) {
if ( ( c & 0xE0 ) = = 0xC0 ) {
return c & 0x1F ;
}
if ( ( c & 0xF0 ) = = 0xE0 ) {
return c & 0x0F ;
}
if ( ( c & 0xF8 ) = = 0xF0 ) {
return c & 0x07 ;
}
CATCH_INTERNAL_ERROR ( " Invalid multibyte utf-8 start byte encountered " ) ;
}
void hexEscapeChar ( std : : ostream & os , unsigned char c ) {
os < < " \\ x "
< < std : : uppercase < < std : : hex < < std : : setfill ( ' 0 ' ) < < std : : setw ( 2 )
< < static_cast < int > ( c ) ;
}
} // anonymous namespace
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XmlEncode : : XmlEncode ( std : : string const & str , ForWhat forWhat )
: m_str ( str ) ,
m_forWhat ( forWhat )
{ }
void XmlEncode : : encodeTo ( std : : ostream & os ) const {
// Apostrophe escaping not necessary if we always use " to write attributes
// (see: http://www.w3.org/TR/xml/#syntax)
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for ( std : : size_t idx = 0 ; idx < m_str . size ( ) ; + + idx ) {
uchar c = m_str [ idx ] ;
switch ( c ) {
case ' < ' : os < < " < " ; break ;
case ' & ' : os < < " & " ; break ;
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case ' > ' :
// See: http://www.w3.org/TR/xml/#syntax
if ( idx > 2 & & m_str [ idx - 1 ] = = ' ] ' & & m_str [ idx - 2 ] = = ' ] ' )
os < < " > " ;
else
os < < c ;
break ;
case ' \" ' :
if ( m_forWhat = = ForAttributes )
os < < " " " ;
else
os < < c ;
break ;
default :
// Check for control characters and invalid utf-8
// Escape control characters in standard ascii
// see http://stackoverflow.com/questions/404107/why-are-control-characters-illegal-in-xml-1-0
if ( c < 0x09 | | ( c > 0x0D & & c < 0x20 ) | | c = = 0x7F ) {
hexEscapeChar ( os , c ) ;
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break ;
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}
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// Plain ASCII: Write it to stream
if ( c < 0x7F ) {
os < < c ;
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break ;
2018-04-06 12:11:22 +02:00
}
2017-08-17 09:29:57 +02:00
2018-04-06 12:11:22 +02:00
// UTF-8 territory
// Check if the encoding is valid and if it is not, hex escape bytes.
// Important: We do not check the exact decoded values for validity, only the encoding format
// First check that this bytes is a valid lead byte:
// This means that it is not encoded as 1111 1XXX
// Or as 10XX XXXX
if ( c < 0xC0 | |
c > = 0xF8 ) {
hexEscapeChar ( os , c ) ;
break ;
}
auto encBytes = trailingBytes ( c ) ;
// Are there enough bytes left to avoid accessing out-of-bounds memory?
if ( idx + encBytes - 1 > = m_str . size ( ) ) {
hexEscapeChar ( os , c ) ;
break ;
}
// The header is valid, check data
// The next encBytes bytes must together be a valid utf-8
// This means: bitpattern 10XX XXXX and the extracted value is sane (ish)
bool valid = true ;
uint32_t value = headerValue ( c ) ;
for ( std : : size_t n = 1 ; n < encBytes ; + + n ) {
uchar nc = m_str [ idx + n ] ;
valid & = ( ( nc & 0xC0 ) = = 0x80 ) ;
value = ( value < < 6 ) | ( nc & 0x3F ) ;
}
if (
// Wrong bit pattern of following bytes
( ! valid ) | |
// Overlong encodings
( value < 0x80 ) | |
( 0x80 < = value & & value < 0x800 & & encBytes > 2 ) | |
( 0x800 < value & & value < 0x10000 & & encBytes > 3 ) | |
// Encoded value out of range
( value > = 0x110000 )
) {
hexEscapeChar ( os , c ) ;
break ;
}
// If we got here, this is in fact a valid(ish) utf-8 sequence
for ( std : : size_t n = 0 ; n < encBytes ; + + n ) {
os < < m_str [ idx + n ] ;
}
idx + = encBytes - 1 ;
break ;
2017-08-17 09:29:57 +02:00
}
}
}
std : : ostream & operator < < ( std : : ostream & os , XmlEncode const & xmlEncode ) {
xmlEncode . encodeTo ( os ) ;
return os ;
}
XmlWriter : : ScopedElement : : ScopedElement ( XmlWriter * writer )
: m_writer ( writer )
{ }
XmlWriter : : ScopedElement : : ScopedElement ( ScopedElement & & other ) noexcept
: m_writer ( other . m_writer ) {
other . m_writer = nullptr ;
}
XmlWriter : : ScopedElement & XmlWriter : : ScopedElement : : operator = ( ScopedElement & & other ) noexcept {
if ( m_writer ) {
m_writer - > endElement ( ) ;
}
m_writer = other . m_writer ;
other . m_writer = nullptr ;
return * this ;
}
XmlWriter : : ScopedElement : : ~ ScopedElement ( ) {
if ( m_writer )
m_writer - > endElement ( ) ;
}
XmlWriter : : ScopedElement & XmlWriter : : ScopedElement : : writeText ( std : : string const & text , bool indent ) {
m_writer - > writeText ( text , indent ) ;
return * this ;
}
XmlWriter : : XmlWriter ( std : : ostream & os ) : m_os ( os )
{
writeDeclaration ( ) ;
}
XmlWriter : : ~ XmlWriter ( ) {
while ( ! m_tags . empty ( ) )
endElement ( ) ;
}
XmlWriter & XmlWriter : : startElement ( std : : string const & name ) {
ensureTagClosed ( ) ;
newlineIfNecessary ( ) ;
m_os < < m_indent < < ' < ' < < name ;
m_tags . push_back ( name ) ;
m_indent + = " " ;
m_tagIsOpen = true ;
return * this ;
}
XmlWriter : : ScopedElement XmlWriter : : scopedElement ( std : : string const & name ) {
ScopedElement scoped ( this ) ;
startElement ( name ) ;
return scoped ;
}
XmlWriter & XmlWriter : : endElement ( ) {
newlineIfNecessary ( ) ;
m_indent = m_indent . substr ( 0 , m_indent . size ( ) - 2 ) ;
if ( m_tagIsOpen ) {
m_os < < " /> " ;
m_tagIsOpen = false ;
}
else {
m_os < < m_indent < < " </ " < < m_tags . back ( ) < < " > " ;
}
m_os < < std : : endl ;
m_tags . pop_back ( ) ;
return * this ;
}
XmlWriter & XmlWriter : : writeAttribute ( std : : string const & name , std : : string const & attribute ) {
if ( ! name . empty ( ) & & ! attribute . empty ( ) )
m_os < < ' ' < < name < < " = \" " < < XmlEncode ( attribute , XmlEncode : : ForAttributes ) < < ' " ' ;
return * this ;
}
XmlWriter & XmlWriter : : writeAttribute ( std : : string const & name , bool attribute ) {
m_os < < ' ' < < name < < " = \" " < < ( attribute ? " true " : " false " ) < < ' " ' ;
return * this ;
}
XmlWriter & XmlWriter : : writeText ( std : : string const & text , bool indent ) {
if ( ! text . empty ( ) ) {
bool tagWasOpen = m_tagIsOpen ;
ensureTagClosed ( ) ;
if ( tagWasOpen & & indent )
m_os < < m_indent ;
m_os < < XmlEncode ( text ) ;
m_needsNewline = true ;
}
return * this ;
}
XmlWriter & XmlWriter : : writeComment ( std : : string const & text ) {
ensureTagClosed ( ) ;
m_os < < m_indent < < " <!-- " < < text < < " --> " ;
m_needsNewline = true ;
return * this ;
}
void XmlWriter : : writeStylesheetRef ( std : : string const & url ) {
m_os < < " <?xml-stylesheet type= \" text/xsl \" href= \" " < < url < < " \" ?> \n " ;
}
XmlWriter & XmlWriter : : writeBlankLine ( ) {
ensureTagClosed ( ) ;
m_os < < ' \n ' ;
return * this ;
}
void XmlWriter : : ensureTagClosed ( ) {
if ( m_tagIsOpen ) {
m_os < < " > " < < std : : endl ;
m_tagIsOpen = false ;
}
}
void XmlWriter : : writeDeclaration ( ) {
m_os < < " <?xml version= \" 1.0 \" encoding= \" UTF-8 \" ?> \n " ;
}
void XmlWriter : : newlineIfNecessary ( ) {
if ( m_needsNewline ) {
m_os < < std : : endl ;
m_needsNewline = false ;
}
}
}
// end catch_xmlwriter.cpp
// start catch_reporter_bases.cpp
# include <cstring>
# include <cfloat>
# include <cstdio>
# include <assert.h>
# include <memory>
namespace Catch {
void prepareExpandedExpression ( AssertionResult & result ) {
result . getExpandedExpression ( ) ;
}
// Because formatting using c++ streams is stateful, drop down to C is required
// Alternatively we could use stringstream, but its performance is... not good.
std : : string getFormattedDuration ( double duration ) {
// Max exponent + 1 is required to represent the whole part
// + 1 for decimal point
// + 3 for the 3 decimal places
// + 1 for null terminator
2017-09-19 18:42:20 +02:00
const std : : size_t maxDoubleSize = DBL_MAX_10_EXP + 1 + 1 + 3 + 1 ;
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char buffer [ maxDoubleSize ] ;
// Save previous errno, to prevent sprintf from overwriting it
ErrnoGuard guard ;
# ifdef _MSC_VER
sprintf_s ( buffer , " %.3f " , duration ) ;
# else
sprintf ( buffer , " %.3f " , duration ) ;
# endif
return std : : string ( buffer ) ;
}
TestEventListenerBase : : TestEventListenerBase ( ReporterConfig const & _config )
: StreamingReporterBase ( _config ) { }
void TestEventListenerBase : : assertionStarting ( AssertionInfo const & ) { }
bool TestEventListenerBase : : assertionEnded ( AssertionStats const & ) {
return false ;
}
} // end namespace Catch
// end catch_reporter_bases.cpp
// start catch_reporter_compact.cpp
namespace {
# ifdef CATCH_PLATFORM_MAC
const char * failedString ( ) { return " FAILED " ; }
const char * passedString ( ) { return " PASSED " ; }
# else
const char * failedString ( ) { return " failed " ; }
const char * passedString ( ) { return " passed " ; }
# endif
// Colour::LightGrey
Catch : : Colour : : Code dimColour ( ) { return Catch : : Colour : : FileName ; }
std : : string bothOrAll ( std : : size_t count ) {
return count = = 1 ? std : : string ( ) :
count = = 2 ? " both " : " all " ;
}
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} // anon namespace
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namespace Catch {
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namespace {
// Colour, message variants:
// - white: No tests ran.
// - red: Failed [both/all] N test cases, failed [both/all] M assertions.
// - white: Passed [both/all] N test cases (no assertions).
// - red: Failed N tests cases, failed M assertions.
// - green: Passed [both/all] N tests cases with M assertions.
void printTotals ( std : : ostream & out , const Totals & totals ) {
if ( totals . testCases . total ( ) = = 0 ) {
out < < " No tests ran. " ;
} else if ( totals . testCases . failed = = totals . testCases . total ( ) ) {
Colour colour ( Colour : : ResultError ) ;
const std : : string qualify_assertions_failed =
totals . assertions . failed = = totals . assertions . total ( ) ?
bothOrAll ( totals . assertions . failed ) : std : : string ( ) ;
out < <
" Failed " < < bothOrAll ( totals . testCases . failed )
< < pluralise ( totals . testCases . failed , " test case " ) < < " , "
" failed " < < qualify_assertions_failed < <
pluralise ( totals . assertions . failed , " assertion " ) < < ' . ' ;
} else if ( totals . assertions . total ( ) = = 0 ) {
out < <
" Passed " < < bothOrAll ( totals . testCases . total ( ) )
< < pluralise ( totals . testCases . total ( ) , " test case " )
< < " (no assertions). " ;
} else if ( totals . assertions . failed ) {
Colour colour ( Colour : : ResultError ) ;
out < <
" Failed " < < pluralise ( totals . testCases . failed , " test case " ) < < " , "
" failed " < < pluralise ( totals . assertions . failed , " assertion " ) < < ' . ' ;
} else {
Colour colour ( Colour : : ResultSuccess ) ;
out < <
" Passed " < < bothOrAll ( totals . testCases . passed )
< < pluralise ( totals . testCases . passed , " test case " ) < <
" with " < < pluralise ( totals . assertions . passed , " assertion " ) < < ' . ' ;
}
}
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// Implementation of CompactReporter formatting
class AssertionPrinter {
public :
AssertionPrinter & operator = ( AssertionPrinter const & ) = delete ;
AssertionPrinter ( AssertionPrinter const & ) = delete ;
AssertionPrinter ( std : : ostream & _stream , AssertionStats const & _stats , bool _printInfoMessages )
: stream ( _stream )
, result ( _stats . assertionResult )
, messages ( _stats . infoMessages )
, itMessage ( _stats . infoMessages . begin ( ) )
, printInfoMessages ( _printInfoMessages ) { }
void print ( ) {
printSourceInfo ( ) ;
itMessage = messages . begin ( ) ;
switch ( result . getResultType ( ) ) {
case ResultWas : : Ok :
printResultType ( Colour : : ResultSuccess , passedString ( ) ) ;
printOriginalExpression ( ) ;
printReconstructedExpression ( ) ;
if ( ! result . hasExpression ( ) )
printRemainingMessages ( Colour : : None ) ;
else
printRemainingMessages ( ) ;
break ;
case ResultWas : : ExpressionFailed :
if ( result . isOk ( ) )
printResultType ( Colour : : ResultSuccess , failedString ( ) + std : : string ( " - but was ok " ) ) ;
else
printResultType ( Colour : : Error , failedString ( ) ) ;
printOriginalExpression ( ) ;
printReconstructedExpression ( ) ;
printRemainingMessages ( ) ;
break ;
case ResultWas : : ThrewException :
printResultType ( Colour : : Error , failedString ( ) ) ;
printIssue ( " unexpected exception with message: " ) ;
printMessage ( ) ;
printExpressionWas ( ) ;
printRemainingMessages ( ) ;
break ;
case ResultWas : : FatalErrorCondition :
printResultType ( Colour : : Error , failedString ( ) ) ;
printIssue ( " fatal error condition with message: " ) ;
printMessage ( ) ;
printExpressionWas ( ) ;
printRemainingMessages ( ) ;
break ;
case ResultWas : : DidntThrowException :
printResultType ( Colour : : Error , failedString ( ) ) ;
printIssue ( " expected exception, got none " ) ;
printExpressionWas ( ) ;
printRemainingMessages ( ) ;
break ;
case ResultWas : : Info :
printResultType ( Colour : : None , " info " ) ;
printMessage ( ) ;
printRemainingMessages ( ) ;
break ;
case ResultWas : : Warning :
printResultType ( Colour : : None , " warning " ) ;
printMessage ( ) ;
printRemainingMessages ( ) ;
break ;
case ResultWas : : ExplicitFailure :
printResultType ( Colour : : Error , failedString ( ) ) ;
printIssue ( " explicitly " ) ;
printRemainingMessages ( Colour : : None ) ;
break ;
// These cases are here to prevent compiler warnings
case ResultWas : : Unknown :
case ResultWas : : FailureBit :
case ResultWas : : Exception :
printResultType ( Colour : : Error , " ** internal error ** " ) ;
break ;
}
}
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private :
void printSourceInfo ( ) const {
Colour colourGuard ( Colour : : FileName ) ;
stream < < result . getSourceInfo ( ) < < ' : ' ;
}
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void printResultType ( Colour : : Code colour , std : : string const & passOrFail ) const {
if ( ! passOrFail . empty ( ) ) {
{
Colour colourGuard ( colour ) ;
stream < < ' ' < < passOrFail ;
}
stream < < ' : ' ;
}
}
void printIssue ( std : : string const & issue ) const {
stream < < ' ' < < issue ;
}
void printExpressionWas ( ) {
if ( result . hasExpression ( ) ) {
stream < < ' ; ' ;
{
Colour colour ( dimColour ( ) ) ;
stream < < " expression was: " ;
}
printOriginalExpression ( ) ;
}
}
void printOriginalExpression ( ) const {
if ( result . hasExpression ( ) ) {
stream < < ' ' < < result . getExpression ( ) ;
}
}
void printReconstructedExpression ( ) const {
if ( result . hasExpandedExpression ( ) ) {
{
Colour colour ( dimColour ( ) ) ;
stream < < " for: " ;
}
stream < < result . getExpandedExpression ( ) ;
}
}
void printMessage ( ) {
if ( itMessage ! = messages . end ( ) ) {
stream < < " ' " < < itMessage - > message < < ' \' ' ;
+ + itMessage ;
}
}
void printRemainingMessages ( Colour : : Code colour = dimColour ( ) ) {
if ( itMessage = = messages . end ( ) )
return ;
// using messages.end() directly yields (or auto) compilation error:
std : : vector < MessageInfo > : : const_iterator itEnd = messages . end ( ) ;
const std : : size_t N = static_cast < std : : size_t > ( std : : distance ( itMessage , itEnd ) ) ;
{
Colour colourGuard ( colour ) ;
stream < < " with " < < pluralise ( N , " message " ) < < ' : ' ;
}
for ( ; itMessage ! = itEnd ; ) {
// If this assertion is a warning ignore any INFO messages
if ( printInfoMessages | | itMessage - > type ! = ResultWas : : Info ) {
stream < < " ' " < < itMessage - > message < < ' \' ' ;
if ( + + itMessage ! = itEnd ) {
Colour colourGuard ( dimColour ( ) ) ;
stream < < " and " ;
}
}
}
}
private :
std : : ostream & stream ;
AssertionResult const & result ;
std : : vector < MessageInfo > messages ;
std : : vector < MessageInfo > : : const_iterator itMessage ;
bool printInfoMessages ;
} ;
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} // anon namespace
std : : string CompactReporter : : getDescription ( ) {
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return " Reports test results on a single line, suitable for IDEs " ;
}
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ReporterPreferences CompactReporter : : getPreferences ( ) const {
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ReporterPreferences prefs ;
prefs . shouldRedirectStdOut = false ;
return prefs ;
}
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void CompactReporter : : noMatchingTestCases ( std : : string const & spec ) {
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stream < < " No test cases matched ' " < < spec < < ' \' ' < < std : : endl ;
}
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void CompactReporter : : assertionStarting ( AssertionInfo const & ) { }
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bool CompactReporter : : assertionEnded ( AssertionStats const & _assertionStats ) {
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AssertionResult const & result = _assertionStats . assertionResult ;
bool printInfoMessages = true ;
// Drop out if result was successful and we're not printing those
if ( ! m_config - > includeSuccessfulResults ( ) & & result . isOk ( ) ) {
if ( result . getResultType ( ) ! = ResultWas : : Warning )
return false ;
printInfoMessages = false ;
}
AssertionPrinter printer ( stream , _assertionStats , printInfoMessages ) ;
printer . print ( ) ;
stream < < std : : endl ;
return true ;
}
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void CompactReporter : : sectionEnded ( SectionStats const & _sectionStats ) {
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if ( m_config - > showDurations ( ) = = ShowDurations : : Always ) {
stream < < getFormattedDuration ( _sectionStats . durationInSeconds ) < < " s: " < < _sectionStats . sectionInfo . name < < std : : endl ;
}
}
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void CompactReporter : : testRunEnded ( TestRunStats const & _testRunStats ) {
printTotals ( stream , _testRunStats . totals ) ;
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stream < < ' \n ' < < std : : endl ;
StreamingReporterBase : : testRunEnded ( _testRunStats ) ;
}
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CompactReporter : : ~ CompactReporter ( ) { }
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CATCH_REGISTER_REPORTER ( " compact " , CompactReporter )
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} // end namespace Catch
// end catch_reporter_compact.cpp
// start catch_reporter_console.cpp
# include <cfloat>
# include <cstdio>
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# if defined(_MSC_VER)
# pragma warning(push)
# pragma warning(disable:4061) // Not all labels are EXPLICITLY handled in switch
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// Note that 4062 (not all labels are handled
// and default is missing) is enabled
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# endif
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namespace Catch {
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namespace {
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// Formatter impl for ConsoleReporter
class ConsoleAssertionPrinter {
public :
ConsoleAssertionPrinter & operator = ( ConsoleAssertionPrinter const & ) = delete ;
ConsoleAssertionPrinter ( ConsoleAssertionPrinter const & ) = delete ;
ConsoleAssertionPrinter ( std : : ostream & _stream , AssertionStats const & _stats , bool _printInfoMessages )
: stream ( _stream ) ,
stats ( _stats ) ,
result ( _stats . assertionResult ) ,
colour ( Colour : : None ) ,
message ( result . getMessage ( ) ) ,
messages ( _stats . infoMessages ) ,
printInfoMessages ( _printInfoMessages ) {
switch ( result . getResultType ( ) ) {
case ResultWas : : Ok :
colour = Colour : : Success ;
passOrFail = " PASSED " ;
//if( result.hasMessage() )
if ( _stats . infoMessages . size ( ) = = 1 )
messageLabel = " with message " ;
if ( _stats . infoMessages . size ( ) > 1 )
messageLabel = " with messages " ;
break ;
case ResultWas : : ExpressionFailed :
if ( result . isOk ( ) ) {
colour = Colour : : Success ;
passOrFail = " FAILED - but was ok " ;
} else {
colour = Colour : : Error ;
passOrFail = " FAILED " ;
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}
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if ( _stats . infoMessages . size ( ) = = 1 )
messageLabel = " with message " ;
if ( _stats . infoMessages . size ( ) > 1 )
messageLabel = " with messages " ;
break ;
case ResultWas : : ThrewException :
colour = Colour : : Error ;
passOrFail = " FAILED " ;
messageLabel = " due to unexpected exception with " ;
if ( _stats . infoMessages . size ( ) = = 1 )
messageLabel + = " message " ;
if ( _stats . infoMessages . size ( ) > 1 )
messageLabel + = " messages " ;
break ;
case ResultWas : : FatalErrorCondition :
colour = Colour : : Error ;
passOrFail = " FAILED " ;
messageLabel = " due to a fatal error condition " ;
break ;
case ResultWas : : DidntThrowException :
colour = Colour : : Error ;
passOrFail = " FAILED " ;
messageLabel = " because no exception was thrown where one was expected " ;
break ;
case ResultWas : : Info :
messageLabel = " info " ;
break ;
case ResultWas : : Warning :
messageLabel = " warning " ;
break ;
case ResultWas : : ExplicitFailure :
passOrFail = " FAILED " ;
colour = Colour : : Error ;
if ( _stats . infoMessages . size ( ) = = 1 )
messageLabel = " explicitly with message " ;
if ( _stats . infoMessages . size ( ) > 1 )
messageLabel = " explicitly with messages " ;
break ;
// These cases are here to prevent compiler warnings
case ResultWas : : Unknown :
case ResultWas : : FailureBit :
case ResultWas : : Exception :
passOrFail = " ** internal error ** " ;
colour = Colour : : Error ;
break ;
}
}
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void print ( ) const {
printSourceInfo ( ) ;
if ( stats . totals . assertions . total ( ) > 0 ) {
if ( result . isOk ( ) )
stream < < ' \n ' ;
printResultType ( ) ;
printOriginalExpression ( ) ;
printReconstructedExpression ( ) ;
} else {
stream < < ' \n ' ;
}
printMessage ( ) ;
}
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private :
void printResultType ( ) const {
if ( ! passOrFail . empty ( ) ) {
Colour colourGuard ( colour ) ;
stream < < passOrFail < < " : \n " ;
}
}
void printOriginalExpression ( ) const {
if ( result . hasExpression ( ) ) {
Colour colourGuard ( Colour : : OriginalExpression ) ;
stream < < " " ;
stream < < result . getExpressionInMacro ( ) ;
stream < < ' \n ' ;
}
}
void printReconstructedExpression ( ) const {
if ( result . hasExpandedExpression ( ) ) {
stream < < " with expansion: \n " ;
Colour colourGuard ( Colour : : ReconstructedExpression ) ;
stream < < Column ( result . getExpandedExpression ( ) ) . indent ( 2 ) < < ' \n ' ;
}
}
void printMessage ( ) const {
if ( ! messageLabel . empty ( ) )
stream < < messageLabel < < ' : ' < < ' \n ' ;
for ( auto const & msg : messages ) {
// If this assertion is a warning ignore any INFO messages
if ( printInfoMessages | | msg . type ! = ResultWas : : Info )
stream < < Column ( msg . message ) . indent ( 2 ) < < ' \n ' ;
}
}
void printSourceInfo ( ) const {
Colour colourGuard ( Colour : : FileName ) ;
stream < < result . getSourceInfo ( ) < < " : " ;
}
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std : : ostream & stream ;
AssertionStats const & stats ;
AssertionResult const & result ;
Colour : : Code colour ;
std : : string passOrFail ;
std : : string messageLabel ;
std : : string message ;
std : : vector < MessageInfo > messages ;
bool printInfoMessages ;
} ;
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std : : size_t makeRatio ( std : : size_t number , std : : size_t total ) {
std : : size_t ratio = total > 0 ? CATCH_CONFIG_CONSOLE_WIDTH * number / total : 0 ;
return ( ratio = = 0 & & number > 0 ) ? 1 : ratio ;
}
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std : : size_t & findMax ( std : : size_t & i , std : : size_t & j , std : : size_t & k ) {
if ( i > j & & i > k )
return i ;
else if ( j > k )
return j ;
else
return k ;
}
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struct ColumnInfo {
enum Justification { Left , Right } ;
std : : string name ;
int width ;
Justification justification ;
} ;
struct ColumnBreak { } ;
struct RowBreak { } ;
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class Duration {
enum class Unit {
Auto ,
Nanoseconds ,
Microseconds ,
Milliseconds ,
Seconds ,
Minutes
} ;
static const uint64_t s_nanosecondsInAMicrosecond = 1000 ;
static const uint64_t s_nanosecondsInAMillisecond = 1000 * s_nanosecondsInAMicrosecond ;
static const uint64_t s_nanosecondsInASecond = 1000 * s_nanosecondsInAMillisecond ;
static const uint64_t s_nanosecondsInAMinute = 60 * s_nanosecondsInASecond ;
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uint64_t m_inNanoseconds ;
Unit m_units ;
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public :
explicit Duration ( uint64_t inNanoseconds , Unit units = Unit : : Auto )
: m_inNanoseconds ( inNanoseconds ) ,
m_units ( units ) {
if ( m_units = = Unit : : Auto ) {
if ( m_inNanoseconds < s_nanosecondsInAMicrosecond )
m_units = Unit : : Nanoseconds ;
else if ( m_inNanoseconds < s_nanosecondsInAMillisecond )
m_units = Unit : : Microseconds ;
else if ( m_inNanoseconds < s_nanosecondsInASecond )
m_units = Unit : : Milliseconds ;
else if ( m_inNanoseconds < s_nanosecondsInAMinute )
m_units = Unit : : Seconds ;
else
m_units = Unit : : Minutes ;
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}
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}
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auto value ( ) const - > double {
switch ( m_units ) {
case Unit : : Microseconds :
return m_inNanoseconds / static_cast < double > ( s_nanosecondsInAMicrosecond ) ;
case Unit : : Milliseconds :
return m_inNanoseconds / static_cast < double > ( s_nanosecondsInAMillisecond ) ;
case Unit : : Seconds :
return m_inNanoseconds / static_cast < double > ( s_nanosecondsInASecond ) ;
case Unit : : Minutes :
return m_inNanoseconds / static_cast < double > ( s_nanosecondsInAMinute ) ;
default :
return static_cast < double > ( m_inNanoseconds ) ;
}
}
auto unitsAsString ( ) const - > std : : string {
switch ( m_units ) {
case Unit : : Nanoseconds :
return " ns " ;
case Unit : : Microseconds :
return " µs " ;
case Unit : : Milliseconds :
return " ms " ;
case Unit : : Seconds :
return " s " ;
case Unit : : Minutes :
return " m " ;
default :
return " ** internal error ** " ;
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}
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}
friend auto operator < < ( std : : ostream & os , Duration const & duration ) - > std : : ostream & {
return os < < duration . value ( ) < < " " < < duration . unitsAsString ( ) ;
}
} ;
} // end anon namespace
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class TablePrinter {
std : : ostream & m_os ;
std : : vector < ColumnInfo > m_columnInfos ;
std : : ostringstream m_oss ;
int m_currentColumn = - 1 ;
bool m_isOpen = false ;
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public :
TablePrinter ( std : : ostream & os , std : : vector < ColumnInfo > columnInfos )
: m_os ( os ) ,
m_columnInfos ( std : : move ( columnInfos ) ) { }
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auto columnInfos ( ) const - > std : : vector < ColumnInfo > const & {
return m_columnInfos ;
}
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void open ( ) {
if ( ! m_isOpen ) {
m_isOpen = true ;
* this < < RowBreak ( ) ;
for ( auto const & info : m_columnInfos )
* this < < info . name < < ColumnBreak ( ) ;
* this < < RowBreak ( ) ;
m_os < < Catch : : getLineOfChars < ' - ' > ( ) < < " \n " ;
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}
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}
void close ( ) {
if ( m_isOpen ) {
* this < < RowBreak ( ) ;
m_os < < std : : endl ;
m_isOpen = false ;
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}
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}
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template < typename T >
friend TablePrinter & operator < < ( TablePrinter & tp , T const & value ) {
tp . m_oss < < value ;
return tp ;
}
friend TablePrinter & operator < < ( TablePrinter & tp , ColumnBreak ) {
auto colStr = tp . m_oss . str ( ) ;
// This takes account of utf8 encodings
auto strSize = Catch : : StringRef ( colStr ) . numberOfCharacters ( ) ;
tp . m_oss . str ( " " ) ;
tp . open ( ) ;
if ( tp . m_currentColumn = = static_cast < int > ( tp . m_columnInfos . size ( ) - 1 ) ) {
tp . m_currentColumn = - 1 ;
tp . m_os < < " \n " ;
}
tp . m_currentColumn + + ;
auto colInfo = tp . m_columnInfos [ tp . m_currentColumn ] ;
auto padding = ( strSize + 2 < static_cast < std : : size_t > ( colInfo . width ) )
? std : : string ( colInfo . width - ( strSize + 2 ) , ' ' )
: std : : string ( ) ;
if ( colInfo . justification = = ColumnInfo : : Left )
tp . m_os < < colStr < < padding < < " " ;
else
tp . m_os < < padding < < colStr < < " " ;
return tp ;
}
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friend TablePrinter & operator < < ( TablePrinter & tp , RowBreak ) {
if ( tp . m_currentColumn > 0 ) {
tp . m_os < < " \n " ;
tp . m_currentColumn = - 1 ;
}
return tp ;
}
} ;
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ConsoleReporter : : ConsoleReporter ( ReporterConfig const & config )
: StreamingReporterBase ( config ) ,
m_tablePrinter ( new TablePrinter ( config . stream ( ) ,
{
{ " benchmark name " , CATCH_CONFIG_CONSOLE_WIDTH - 32 , ColumnInfo : : Left } ,
{ " iters " , 8 , ColumnInfo : : Right } ,
{ " elapsed ns " , 14 , ColumnInfo : : Right } ,
{ " average " , 14 , ColumnInfo : : Right }
} ) ) { }
ConsoleReporter : : ~ ConsoleReporter ( ) = default ;
std : : string ConsoleReporter : : getDescription ( ) {
return " Reports test results as plain lines of text " ;
}
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void ConsoleReporter : : noMatchingTestCases ( std : : string const & spec ) {
stream < < " No test cases matched ' " < < spec < < ' \' ' < < std : : endl ;
}
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void ConsoleReporter : : assertionStarting ( AssertionInfo const & ) { }
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bool ConsoleReporter : : assertionEnded ( AssertionStats const & _assertionStats ) {
AssertionResult const & result = _assertionStats . assertionResult ;
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bool includeResults = m_config - > includeSuccessfulResults ( ) | | ! result . isOk ( ) ;
// Drop out if result was successful but we're not printing them.
if ( ! includeResults & & result . getResultType ( ) ! = ResultWas : : Warning )
return false ;
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lazyPrint ( ) ;
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ConsoleAssertionPrinter printer ( stream , _assertionStats , includeResults ) ;
printer . print ( ) ;
stream < < std : : endl ;
return true ;
}
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void ConsoleReporter : : sectionStarting ( SectionInfo const & _sectionInfo ) {
m_headerPrinted = false ;
StreamingReporterBase : : sectionStarting ( _sectionInfo ) ;
}
void ConsoleReporter : : sectionEnded ( SectionStats const & _sectionStats ) {
m_tablePrinter - > close ( ) ;
if ( _sectionStats . missingAssertions ) {
lazyPrint ( ) ;
Colour colour ( Colour : : ResultError ) ;
if ( m_sectionStack . size ( ) > 1 )
stream < < " \n No assertions in section " ;
else
stream < < " \n No assertions in test case " ;
stream < < " ' " < < _sectionStats . sectionInfo . name < < " ' \n " < < std : : endl ;
}
if ( m_config - > showDurations ( ) = = ShowDurations : : Always ) {
stream < < getFormattedDuration ( _sectionStats . durationInSeconds ) < < " s: " < < _sectionStats . sectionInfo . name < < std : : endl ;
}
if ( m_headerPrinted ) {
m_headerPrinted = false ;
}
StreamingReporterBase : : sectionEnded ( _sectionStats ) ;
}
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void ConsoleReporter : : benchmarkStarting ( BenchmarkInfo const & info ) {
lazyPrintWithoutClosingBenchmarkTable ( ) ;
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auto nameCol = Column ( info . name ) . width ( static_cast < std : : size_t > ( m_tablePrinter - > columnInfos ( ) [ 0 ] . width - 2 ) ) ;
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bool firstLine = true ;
for ( auto line : nameCol ) {
if ( ! firstLine )
( * m_tablePrinter ) < < ColumnBreak ( ) < < ColumnBreak ( ) < < ColumnBreak ( ) ;
else
firstLine = false ;
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( * m_tablePrinter ) < < line < < ColumnBreak ( ) ;
}
}
void ConsoleReporter : : benchmarkEnded ( BenchmarkStats const & stats ) {
Duration average ( stats . elapsedTimeInNanoseconds / stats . iterations ) ;
( * m_tablePrinter )
< < stats . iterations < < ColumnBreak ( )
< < stats . elapsedTimeInNanoseconds < < ColumnBreak ( )
< < average < < ColumnBreak ( ) ;
}
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void ConsoleReporter : : testCaseEnded ( TestCaseStats const & _testCaseStats ) {
m_tablePrinter - > close ( ) ;
StreamingReporterBase : : testCaseEnded ( _testCaseStats ) ;
m_headerPrinted = false ;
}
void ConsoleReporter : : testGroupEnded ( TestGroupStats const & _testGroupStats ) {
if ( currentGroupInfo . used ) {
printSummaryDivider ( ) ;
stream < < " Summary for group ' " < < _testGroupStats . groupInfo . name < < " ': \n " ;
printTotals ( _testGroupStats . totals ) ;
stream < < ' \n ' < < std : : endl ;
}
StreamingReporterBase : : testGroupEnded ( _testGroupStats ) ;
}
void ConsoleReporter : : testRunEnded ( TestRunStats const & _testRunStats ) {
printTotalsDivider ( _testRunStats . totals ) ;
printTotals ( _testRunStats . totals ) ;
stream < < std : : endl ;
StreamingReporterBase : : testRunEnded ( _testRunStats ) ;
}
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void ConsoleReporter : : lazyPrint ( ) {
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m_tablePrinter - > close ( ) ;
lazyPrintWithoutClosingBenchmarkTable ( ) ;
}
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void ConsoleReporter : : lazyPrintWithoutClosingBenchmarkTable ( ) {
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if ( ! currentTestRunInfo . used )
lazyPrintRunInfo ( ) ;
if ( ! currentGroupInfo . used )
lazyPrintGroupInfo ( ) ;
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if ( ! m_headerPrinted ) {
printTestCaseAndSectionHeader ( ) ;
m_headerPrinted = true ;
}
}
void ConsoleReporter : : lazyPrintRunInfo ( ) {
stream < < ' \n ' < < getLineOfChars < ' ~ ' > ( ) < < ' \n ' ;
Colour colour ( Colour : : SecondaryText ) ;
stream < < currentTestRunInfo - > name
< < " is a Catch v " < < libraryVersion ( ) < < " host application. \n "
< < " Run with -? for options \n \n " ;
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if ( m_config - > rngSeed ( ) ! = 0 )
stream < < " Randomness seeded to: " < < m_config - > rngSeed ( ) < < " \n \n " ;
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currentTestRunInfo . used = true ;
}
void ConsoleReporter : : lazyPrintGroupInfo ( ) {
if ( ! currentGroupInfo - > name . empty ( ) & & currentGroupInfo - > groupsCounts > 1 ) {
printClosedHeader ( " Group: " + currentGroupInfo - > name ) ;
currentGroupInfo . used = true ;
}
}
void ConsoleReporter : : printTestCaseAndSectionHeader ( ) {
assert ( ! m_sectionStack . empty ( ) ) ;
printOpenHeader ( currentTestCaseInfo - > name ) ;
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if ( m_sectionStack . size ( ) > 1 ) {
Colour colourGuard ( Colour : : Headers ) ;
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auto
it = m_sectionStack . begin ( ) + 1 , // Skip first section (test case)
itEnd = m_sectionStack . end ( ) ;
for ( ; it ! = itEnd ; + + it )
printHeaderString ( it - > name , 2 ) ;
}
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SourceLineInfo lineInfo = m_sectionStack . back ( ) . lineInfo ;
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if ( ! lineInfo . empty ( ) ) {
stream < < getLineOfChars < ' - ' > ( ) < < ' \n ' ;
Colour colourGuard ( Colour : : FileName ) ;
stream < < lineInfo < < ' \n ' ;
}
stream < < getLineOfChars < ' . ' > ( ) < < ' \n ' < < std : : endl ;
}
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void ConsoleReporter : : printClosedHeader ( std : : string const & _name ) {
printOpenHeader ( _name ) ;
stream < < getLineOfChars < ' . ' > ( ) < < ' \n ' ;
}
void ConsoleReporter : : printOpenHeader ( std : : string const & _name ) {
stream < < getLineOfChars < ' - ' > ( ) < < ' \n ' ;
{
Colour colourGuard ( Colour : : Headers ) ;
printHeaderString ( _name ) ;
}
}
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// if string has a : in first line will set indent to follow it on
// subsequent lines
void ConsoleReporter : : printHeaderString ( std : : string const & _string , std : : size_t indent ) {
std : : size_t i = _string . find ( " : " ) ;
if ( i ! = std : : string : : npos )
i + = 2 ;
else
i = 0 ;
stream < < Column ( _string ) . indent ( indent + i ) . initialIndent ( indent ) < < ' \n ' ;
}
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struct SummaryColumn {
SummaryColumn ( std : : string _label , Colour : : Code _colour )
: label ( std : : move ( _label ) ) ,
colour ( _colour ) { }
SummaryColumn addRow ( std : : size_t count ) {
ReusableStringStream rss ;
rss < < count ;
std : : string row = rss . str ( ) ;
for ( auto & oldRow : rows ) {
while ( oldRow . size ( ) < row . size ( ) )
oldRow = ' ' + oldRow ;
while ( oldRow . size ( ) > row . size ( ) )
row = ' ' + row ;
}
rows . push_back ( row ) ;
return * this ;
}
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std : : string label ;
Colour : : Code colour ;
std : : vector < std : : string > rows ;
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} ;
void ConsoleReporter : : printTotals ( Totals const & totals ) {
if ( totals . testCases . total ( ) = = 0 ) {
stream < < Colour ( Colour : : Warning ) < < " No tests ran \n " ;
} else if ( totals . assertions . total ( ) > 0 & & totals . testCases . allPassed ( ) ) {
stream < < Colour ( Colour : : ResultSuccess ) < < " All tests passed " ;
stream < < " ( "
< < pluralise ( totals . assertions . passed , " assertion " ) < < " in "
< < pluralise ( totals . testCases . passed , " test case " ) < < ' ) '
< < ' \n ' ;
} else {
std : : vector < SummaryColumn > columns ;
columns . push_back ( SummaryColumn ( " " , Colour : : None )
. addRow ( totals . testCases . total ( ) )
. addRow ( totals . assertions . total ( ) ) ) ;
columns . push_back ( SummaryColumn ( " passed " , Colour : : Success )
. addRow ( totals . testCases . passed )
. addRow ( totals . assertions . passed ) ) ;
columns . push_back ( SummaryColumn ( " failed " , Colour : : ResultError )
. addRow ( totals . testCases . failed )
. addRow ( totals . assertions . failed ) ) ;
columns . push_back ( SummaryColumn ( " failed as expected " , Colour : : ResultExpectedFailure )
. addRow ( totals . testCases . failedButOk )
. addRow ( totals . assertions . failedButOk ) ) ;
printSummaryRow ( " test cases " , columns , 0 ) ;
printSummaryRow ( " assertions " , columns , 1 ) ;
}
}
void ConsoleReporter : : printSummaryRow ( std : : string const & label , std : : vector < SummaryColumn > const & cols , std : : size_t row ) {
for ( auto col : cols ) {
std : : string value = col . rows [ row ] ;
if ( col . label . empty ( ) ) {
stream < < label < < " : " ;
if ( value ! = " 0 " )
stream < < value ;
else
stream < < Colour ( Colour : : Warning ) < < " - none - " ;
} else if ( value ! = " 0 " ) {
stream < < Colour ( Colour : : LightGrey ) < < " | " ;
stream < < Colour ( col . colour )
< < value < < ' ' < < col . label ;
}
}
stream < < ' \n ' ;
}
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void ConsoleReporter : : printTotalsDivider ( Totals const & totals ) {
if ( totals . testCases . total ( ) > 0 ) {
std : : size_t failedRatio = makeRatio ( totals . testCases . failed , totals . testCases . total ( ) ) ;
std : : size_t failedButOkRatio = makeRatio ( totals . testCases . failedButOk , totals . testCases . total ( ) ) ;
std : : size_t passedRatio = makeRatio ( totals . testCases . passed , totals . testCases . total ( ) ) ;
while ( failedRatio + failedButOkRatio + passedRatio < CATCH_CONFIG_CONSOLE_WIDTH - 1 )
findMax ( failedRatio , failedButOkRatio , passedRatio ) + + ;
while ( failedRatio + failedButOkRatio + passedRatio > CATCH_CONFIG_CONSOLE_WIDTH - 1 )
findMax ( failedRatio , failedButOkRatio , passedRatio ) - - ;
stream < < Colour ( Colour : : Error ) < < std : : string ( failedRatio , ' = ' ) ;
stream < < Colour ( Colour : : ResultExpectedFailure ) < < std : : string ( failedButOkRatio , ' = ' ) ;
if ( totals . testCases . allPassed ( ) )
stream < < Colour ( Colour : : ResultSuccess ) < < std : : string ( passedRatio , ' = ' ) ;
else
stream < < Colour ( Colour : : Success ) < < std : : string ( passedRatio , ' = ' ) ;
} else {
stream < < Colour ( Colour : : Warning ) < < std : : string ( CATCH_CONFIG_CONSOLE_WIDTH - 1 , ' = ' ) ;
}
stream < < ' \n ' ;
}
void ConsoleReporter : : printSummaryDivider ( ) {
stream < < getLineOfChars < ' - ' > ( ) < < ' \n ' ;
}
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CATCH_REGISTER_REPORTER ( " console " , ConsoleReporter )
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} // end namespace Catch
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# if defined(_MSC_VER)
# pragma warning(pop)
# endif
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// end catch_reporter_console.cpp
// start catch_reporter_junit.cpp
# include <assert.h>
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# include <sstream>
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# include <ctime>
# include <algorithm>
namespace Catch {
namespace {
std : : string getCurrentTimestamp ( ) {
// Beware, this is not reentrant because of backward compatibility issues
// Also, UTC only, again because of backward compatibility (%z is C++11)
time_t rawtime ;
std : : time ( & rawtime ) ;
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auto const timeStampSize = sizeof ( " 2017-01-16T17:06:45Z " ) ;
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# ifdef _MSC_VER
std : : tm timeInfo = { } ;
gmtime_s ( & timeInfo , & rawtime ) ;
# else
std : : tm * timeInfo ;
timeInfo = std : : gmtime ( & rawtime ) ;
# endif
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
return std : : string ( timeStamp ) ;
}
std : : string fileNameTag ( const std : : vector < std : : string > & tags ) {
auto it = std : : find_if ( begin ( tags ) ,
end ( tags ) ,
[ ] ( std : : string const & tag ) { return tag . front ( ) = = ' # ' ; } ) ;
if ( it ! = tags . end ( ) )
return it - > substr ( 1 ) ;
return std : : string ( ) ;
}
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} // anonymous namespace
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JunitReporter : : JunitReporter ( ReporterConfig const & _config )
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: CumulativeReporterBase ( _config ) ,
xml ( _config . stream ( ) )
{
m_reporterPrefs . shouldRedirectStdOut = true ;
}
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JunitReporter : : ~ JunitReporter ( ) { }
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std : : string JunitReporter : : getDescription ( ) {
return " Reports test results in an XML format that looks like Ant's junitreport target " ;
}
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void JunitReporter : : noMatchingTestCases ( std : : string const & /*spec*/ ) { }
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void JunitReporter : : testRunStarting ( TestRunInfo const & runInfo ) {
CumulativeReporterBase : : testRunStarting ( runInfo ) ;
xml . startElement ( " testsuites " ) ;
}
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void JunitReporter : : testGroupStarting ( GroupInfo const & groupInfo ) {
suiteTimer . start ( ) ;
stdOutForSuite . clear ( ) ;
stdErrForSuite . clear ( ) ;
unexpectedExceptions = 0 ;
CumulativeReporterBase : : testGroupStarting ( groupInfo ) ;
}
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void JunitReporter : : testCaseStarting ( TestCaseInfo const & testCaseInfo ) {
m_okToFail = testCaseInfo . okToFail ( ) ;
}
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bool JunitReporter : : assertionEnded ( AssertionStats const & assertionStats ) {
if ( assertionStats . assertionResult . getResultType ( ) = = ResultWas : : ThrewException & & ! m_okToFail )
unexpectedExceptions + + ;
return CumulativeReporterBase : : assertionEnded ( assertionStats ) ;
}
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void JunitReporter : : testCaseEnded ( TestCaseStats const & testCaseStats ) {
stdOutForSuite + = testCaseStats . stdOut ;
stdErrForSuite + = testCaseStats . stdErr ;
CumulativeReporterBase : : testCaseEnded ( testCaseStats ) ;
}
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void JunitReporter : : testGroupEnded ( TestGroupStats const & testGroupStats ) {
double suiteTime = suiteTimer . getElapsedSeconds ( ) ;
CumulativeReporterBase : : testGroupEnded ( testGroupStats ) ;
writeGroup ( * m_testGroups . back ( ) , suiteTime ) ;
}
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void JunitReporter : : testRunEndedCumulative ( ) {
xml . endElement ( ) ;
}
void JunitReporter : : writeGroup ( TestGroupNode const & groupNode , double suiteTime ) {
XmlWriter : : ScopedElement e = xml . scopedElement ( " testsuite " ) ;
TestGroupStats const & stats = groupNode . value ;
xml . writeAttribute ( " name " , stats . groupInfo . name ) ;
xml . writeAttribute ( " errors " , unexpectedExceptions ) ;
xml . writeAttribute ( " failures " , stats . totals . assertions . failed - unexpectedExceptions ) ;
xml . writeAttribute ( " tests " , stats . totals . assertions . total ( ) ) ;
xml . writeAttribute ( " hostname " , " tbd " ) ; // !TBD
if ( m_config - > showDurations ( ) = = ShowDurations : : Never )
xml . writeAttribute ( " time " , " " ) ;
else
xml . writeAttribute ( " time " , suiteTime ) ;
xml . writeAttribute ( " timestamp " , getCurrentTimestamp ( ) ) ;
// Write test cases
for ( auto const & child : groupNode . children )
writeTestCase ( * child ) ;
xml . scopedElement ( " system-out " ) . writeText ( trim ( stdOutForSuite ) , false ) ;
xml . scopedElement ( " system-err " ) . writeText ( trim ( stdErrForSuite ) , false ) ;
}
void JunitReporter : : writeTestCase ( TestCaseNode const & testCaseNode ) {
TestCaseStats const & stats = testCaseNode . value ;
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// All test cases have exactly one section - which represents the
// test case itself. That section may have 0-n nested sections
assert ( testCaseNode . children . size ( ) = = 1 ) ;
SectionNode const & rootSection = * testCaseNode . children . front ( ) ;
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std : : string className = stats . testInfo . className ;
if ( className . empty ( ) ) {
className = fileNameTag ( stats . testInfo . tags ) ;
if ( className . empty ( ) )
className = " global " ;
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}
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if ( ! m_config - > name ( ) . empty ( ) )
className = m_config - > name ( ) + " . " + className ;
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writeSection ( className , " " , rootSection ) ;
}
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void JunitReporter : : writeSection ( std : : string const & className ,
std : : string const & rootName ,
SectionNode const & sectionNode ) {
std : : string name = trim ( sectionNode . stats . sectionInfo . name ) ;
if ( ! rootName . empty ( ) )
name = rootName + ' / ' + name ;
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if ( ! sectionNode . assertions . empty ( ) | |
! sectionNode . stdOut . empty ( ) | |
! sectionNode . stdErr . empty ( ) ) {
XmlWriter : : ScopedElement e = xml . scopedElement ( " testcase " ) ;
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if ( className . empty ( ) ) {
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xml . writeAttribute ( " classname " , name ) ;
xml . writeAttribute ( " name " , " root " ) ;
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}
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else {
xml . writeAttribute ( " classname " , className ) ;
xml . writeAttribute ( " name " , name ) ;
}
xml . writeAttribute ( " time " , : : Catch : : Detail : : stringify ( sectionNode . stats . durationInSeconds ) ) ;
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writeAssertions ( sectionNode ) ;
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if ( ! sectionNode . stdOut . empty ( ) )
xml . scopedElement ( " system-out " ) . writeText ( trim ( sectionNode . stdOut ) , false ) ;
if ( ! sectionNode . stdErr . empty ( ) )
xml . scopedElement ( " system-err " ) . writeText ( trim ( sectionNode . stdErr ) , false ) ;
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}
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for ( auto const & childNode : sectionNode . childSections )
if ( className . empty ( ) )
writeSection ( name , " " , * childNode ) ;
else
writeSection ( className , name , * childNode ) ;
}
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void JunitReporter : : writeAssertions ( SectionNode const & sectionNode ) {
for ( auto const & assertion : sectionNode . assertions )
writeAssertion ( assertion ) ;
}
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void JunitReporter : : writeAssertion ( AssertionStats const & stats ) {
AssertionResult const & result = stats . assertionResult ;
if ( ! result . isOk ( ) ) {
std : : string elementName ;
switch ( result . getResultType ( ) ) {
case ResultWas : : ThrewException :
case ResultWas : : FatalErrorCondition :
elementName = " error " ;
break ;
case ResultWas : : ExplicitFailure :
elementName = " failure " ;
break ;
case ResultWas : : ExpressionFailed :
elementName = " failure " ;
break ;
case ResultWas : : DidntThrowException :
elementName = " failure " ;
break ;
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// We should never see these here:
case ResultWas : : Info :
case ResultWas : : Warning :
case ResultWas : : Ok :
case ResultWas : : Unknown :
case ResultWas : : FailureBit :
case ResultWas : : Exception :
elementName = " internalError " ;
break ;
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}
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XmlWriter : : ScopedElement e = xml . scopedElement ( elementName ) ;
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xml . writeAttribute ( " message " , result . getExpandedExpression ( ) ) ;
xml . writeAttribute ( " type " , result . getTestMacroName ( ) ) ;
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ReusableStringStream rss ;
if ( ! result . getMessage ( ) . empty ( ) )
rss < < result . getMessage ( ) < < ' \n ' ;
for ( auto const & msg : stats . infoMessages )
if ( msg . type = = ResultWas : : Info )
rss < < msg . message < < ' \n ' ;
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rss < < " at " < < result . getSourceInfo ( ) ;
xml . writeText ( rss . str ( ) , false ) ;
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}
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}
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CATCH_REGISTER_REPORTER ( " junit " , JunitReporter )
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} // end namespace Catch
// end catch_reporter_junit.cpp
// start catch_reporter_multi.cpp
namespace Catch {
void MultipleReporters : : add ( IStreamingReporterPtr & & reporter ) {
m_reporters . push_back ( std : : move ( reporter ) ) ;
}
ReporterPreferences MultipleReporters : : getPreferences ( ) const {
return m_reporters [ 0 ] - > getPreferences ( ) ;
}
std : : set < Verbosity > MultipleReporters : : getSupportedVerbosities ( ) {
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return std : : set < Verbosity > { } ;
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}
void MultipleReporters : : noMatchingTestCases ( std : : string const & spec ) {
for ( auto const & reporter : m_reporters )
reporter - > noMatchingTestCases ( spec ) ;
}
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void MultipleReporters : : benchmarkStarting ( BenchmarkInfo const & benchmarkInfo ) {
for ( auto const & reporter : m_reporters )
reporter - > benchmarkStarting ( benchmarkInfo ) ;
}
void MultipleReporters : : benchmarkEnded ( BenchmarkStats const & benchmarkStats ) {
for ( auto const & reporter : m_reporters )
reporter - > benchmarkEnded ( benchmarkStats ) ;
}
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void MultipleReporters : : testRunStarting ( TestRunInfo const & testRunInfo ) {
for ( auto const & reporter : m_reporters )
reporter - > testRunStarting ( testRunInfo ) ;
}
void MultipleReporters : : testGroupStarting ( GroupInfo const & groupInfo ) {
for ( auto const & reporter : m_reporters )
reporter - > testGroupStarting ( groupInfo ) ;
}
void MultipleReporters : : testCaseStarting ( TestCaseInfo const & testInfo ) {
for ( auto const & reporter : m_reporters )
reporter - > testCaseStarting ( testInfo ) ;
}
void MultipleReporters : : sectionStarting ( SectionInfo const & sectionInfo ) {
for ( auto const & reporter : m_reporters )
reporter - > sectionStarting ( sectionInfo ) ;
}
void MultipleReporters : : assertionStarting ( AssertionInfo const & assertionInfo ) {
for ( auto const & reporter : m_reporters )
reporter - > assertionStarting ( assertionInfo ) ;
}
// The return value indicates if the messages buffer should be cleared:
bool MultipleReporters : : assertionEnded ( AssertionStats const & assertionStats ) {
bool clearBuffer = false ;
for ( auto const & reporter : m_reporters )
clearBuffer | = reporter - > assertionEnded ( assertionStats ) ;
return clearBuffer ;
}
void MultipleReporters : : sectionEnded ( SectionStats const & sectionStats ) {
for ( auto const & reporter : m_reporters )
reporter - > sectionEnded ( sectionStats ) ;
}
void MultipleReporters : : testCaseEnded ( TestCaseStats const & testCaseStats ) {
for ( auto const & reporter : m_reporters )
reporter - > testCaseEnded ( testCaseStats ) ;
}
void MultipleReporters : : testGroupEnded ( TestGroupStats const & testGroupStats ) {
for ( auto const & reporter : m_reporters )
reporter - > testGroupEnded ( testGroupStats ) ;
}
void MultipleReporters : : testRunEnded ( TestRunStats const & testRunStats ) {
for ( auto const & reporter : m_reporters )
reporter - > testRunEnded ( testRunStats ) ;
}
void MultipleReporters : : skipTest ( TestCaseInfo const & testInfo ) {
for ( auto const & reporter : m_reporters )
reporter - > skipTest ( testInfo ) ;
}
bool MultipleReporters : : isMulti ( ) const {
return true ;
}
} // end namespace Catch
// end catch_reporter_multi.cpp
// start catch_reporter_xml.cpp
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# if defined(_MSC_VER)
# pragma warning(push)
# pragma warning(disable:4061) // Not all labels are EXPLICITLY handled in switch
// Note that 4062 (not all labels are handled
// and default is missing) is enabled
# endif
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namespace Catch {
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XmlReporter : : XmlReporter ( ReporterConfig const & _config )
: StreamingReporterBase ( _config ) ,
m_xml ( _config . stream ( ) )
{
m_reporterPrefs . shouldRedirectStdOut = true ;
}
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XmlReporter : : ~ XmlReporter ( ) = default ;
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std : : string XmlReporter : : getDescription ( ) {
return " Reports test results as an XML document " ;
}
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std : : string XmlReporter : : getStylesheetRef ( ) const {
return std : : string ( ) ;
}
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void XmlReporter : : writeSourceInfo ( SourceLineInfo const & sourceInfo ) {
m_xml
. writeAttribute ( " filename " , sourceInfo . file )
. writeAttribute ( " line " , sourceInfo . line ) ;
}
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void XmlReporter : : noMatchingTestCases ( std : : string const & s ) {
StreamingReporterBase : : noMatchingTestCases ( s ) ;
}
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void XmlReporter : : testRunStarting ( TestRunInfo const & testInfo ) {
StreamingReporterBase : : testRunStarting ( testInfo ) ;
std : : string stylesheetRef = getStylesheetRef ( ) ;
if ( ! stylesheetRef . empty ( ) )
m_xml . writeStylesheetRef ( stylesheetRef ) ;
m_xml . startElement ( " Catch " ) ;
if ( ! m_config - > name ( ) . empty ( ) )
m_xml . writeAttribute ( " name " , m_config - > name ( ) ) ;
}
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void XmlReporter : : testGroupStarting ( GroupInfo const & groupInfo ) {
StreamingReporterBase : : testGroupStarting ( groupInfo ) ;
m_xml . startElement ( " Group " )
. writeAttribute ( " name " , groupInfo . name ) ;
}
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void XmlReporter : : testCaseStarting ( TestCaseInfo const & testInfo ) {
StreamingReporterBase : : testCaseStarting ( testInfo ) ;
m_xml . startElement ( " TestCase " )
. writeAttribute ( " name " , trim ( testInfo . name ) )
. writeAttribute ( " description " , testInfo . description )
. writeAttribute ( " tags " , testInfo . tagsAsString ( ) ) ;
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writeSourceInfo ( testInfo . lineInfo ) ;
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if ( m_config - > showDurations ( ) = = ShowDurations : : Always )
m_testCaseTimer . start ( ) ;
m_xml . ensureTagClosed ( ) ;
}
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void XmlReporter : : sectionStarting ( SectionInfo const & sectionInfo ) {
StreamingReporterBase : : sectionStarting ( sectionInfo ) ;
if ( m_sectionDepth + + > 0 ) {
m_xml . startElement ( " Section " )
. writeAttribute ( " name " , trim ( sectionInfo . name ) )
. writeAttribute ( " description " , sectionInfo . description ) ;
writeSourceInfo ( sectionInfo . lineInfo ) ;
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m_xml . ensureTagClosed ( ) ;
}
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}
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void XmlReporter : : assertionStarting ( AssertionInfo const & ) { }
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bool XmlReporter : : assertionEnded ( AssertionStats const & assertionStats ) {
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AssertionResult const & result = assertionStats . assertionResult ;
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bool includeResults = m_config - > includeSuccessfulResults ( ) | | ! result . isOk ( ) ;
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if ( includeResults | | result . getResultType ( ) = = ResultWas : : Warning ) {
// Print any info messages in <Info> tags.
for ( auto const & msg : assertionStats . infoMessages ) {
if ( msg . type = = ResultWas : : Info & & includeResults ) {
m_xml . scopedElement ( " Info " )
. writeText ( msg . message ) ;
} else if ( msg . type = = ResultWas : : Warning ) {
m_xml . scopedElement ( " Warning " )
. writeText ( msg . message ) ;
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}
}
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}
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// Drop out if result was successful but we're not printing them.
if ( ! includeResults & & result . getResultType ( ) ! = ResultWas : : Warning )
return true ;
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// Print the expression if there is one.
if ( result . hasExpression ( ) ) {
m_xml . startElement ( " Expression " )
. writeAttribute ( " success " , result . succeeded ( ) )
. writeAttribute ( " type " , result . getTestMacroName ( ) ) ;
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writeSourceInfo ( result . getSourceInfo ( ) ) ;
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m_xml . scopedElement ( " Original " )
. writeText ( result . getExpression ( ) ) ;
m_xml . scopedElement ( " Expanded " )
. writeText ( result . getExpandedExpression ( ) ) ;
}
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// And... Print a result applicable to each result type.
switch ( result . getResultType ( ) ) {
case ResultWas : : ThrewException :
m_xml . startElement ( " Exception " ) ;
writeSourceInfo ( result . getSourceInfo ( ) ) ;
m_xml . writeText ( result . getMessage ( ) ) ;
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m_xml . endElement ( ) ;
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break ;
case ResultWas : : FatalErrorCondition :
m_xml . startElement ( " FatalErrorCondition " ) ;
writeSourceInfo ( result . getSourceInfo ( ) ) ;
m_xml . writeText ( result . getMessage ( ) ) ;
m_xml . endElement ( ) ;
break ;
case ResultWas : : Info :
m_xml . scopedElement ( " Info " )
. writeText ( result . getMessage ( ) ) ;
break ;
case ResultWas : : Warning :
// Warning will already have been written
break ;
case ResultWas : : ExplicitFailure :
m_xml . startElement ( " Failure " ) ;
writeSourceInfo ( result . getSourceInfo ( ) ) ;
m_xml . writeText ( result . getMessage ( ) ) ;
m_xml . endElement ( ) ;
break ;
default :
break ;
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}
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if ( result . hasExpression ( ) )
m_xml . endElement ( ) ;
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return true ;
}
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void XmlReporter : : sectionEnded ( SectionStats const & sectionStats ) {
StreamingReporterBase : : sectionEnded ( sectionStats ) ;
if ( - - m_sectionDepth > 0 ) {
XmlWriter : : ScopedElement e = m_xml . scopedElement ( " OverallResults " ) ;
e . writeAttribute ( " successes " , sectionStats . assertions . passed ) ;
e . writeAttribute ( " failures " , sectionStats . assertions . failed ) ;
e . writeAttribute ( " expectedFailures " , sectionStats . assertions . failedButOk ) ;
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if ( m_config - > showDurations ( ) = = ShowDurations : : Always )
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e . writeAttribute ( " durationInSeconds " , sectionStats . durationInSeconds ) ;
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m_xml . endElement ( ) ;
}
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}
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void XmlReporter : : testCaseEnded ( TestCaseStats const & testCaseStats ) {
StreamingReporterBase : : testCaseEnded ( testCaseStats ) ;
XmlWriter : : ScopedElement e = m_xml . scopedElement ( " OverallResult " ) ;
e . writeAttribute ( " success " , testCaseStats . totals . assertions . allOk ( ) ) ;
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if ( m_config - > showDurations ( ) = = ShowDurations : : Always )
e . writeAttribute ( " durationInSeconds " , m_testCaseTimer . getElapsedSeconds ( ) ) ;
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if ( ! testCaseStats . stdOut . empty ( ) )
m_xml . scopedElement ( " StdOut " ) . writeText ( trim ( testCaseStats . stdOut ) , false ) ;
if ( ! testCaseStats . stdErr . empty ( ) )
m_xml . scopedElement ( " StdErr " ) . writeText ( trim ( testCaseStats . stdErr ) , false ) ;
m_xml . endElement ( ) ;
}
void XmlReporter : : testGroupEnded ( TestGroupStats const & testGroupStats ) {
StreamingReporterBase : : testGroupEnded ( testGroupStats ) ;
// TODO: Check testGroupStats.aborting and act accordingly.
m_xml . scopedElement ( " OverallResults " )
. writeAttribute ( " successes " , testGroupStats . totals . assertions . passed )
. writeAttribute ( " failures " , testGroupStats . totals . assertions . failed )
. writeAttribute ( " expectedFailures " , testGroupStats . totals . assertions . failedButOk ) ;
m_xml . endElement ( ) ;
}
void XmlReporter : : testRunEnded ( TestRunStats const & testRunStats ) {
StreamingReporterBase : : testRunEnded ( testRunStats ) ;
m_xml . scopedElement ( " OverallResults " )
. writeAttribute ( " successes " , testRunStats . totals . assertions . passed )
. writeAttribute ( " failures " , testRunStats . totals . assertions . failed )
. writeAttribute ( " expectedFailures " , testRunStats . totals . assertions . failedButOk ) ;
m_xml . endElement ( ) ;
}
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CATCH_REGISTER_REPORTER ( " xml " , XmlReporter )
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} // end namespace Catch
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# if defined(_MSC_VER)
# pragma warning(pop)
# endif
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// end catch_reporter_xml.cpp
namespace Catch {
LeakDetector leakDetector ;
}
# ifdef __clang__
# pragma clang diagnostic pop
# endif
// end catch_impl.hpp
# endif
# ifdef CATCH_CONFIG_MAIN
// start catch_default_main.hpp
# ifndef __OBJC__
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# if defined(CATCH_CONFIG_WCHAR) && defined(WIN32) && defined(_UNICODE) && !defined(DO_NOT_USE_WMAIN)
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// Standard C/C++ Win32 Unicode wmain entry point
extern " C " int wmain ( int argc , wchar_t * argv [ ] , wchar_t * [ ] ) {
# else
// Standard C/C++ main entry point
int main ( int argc , char * argv [ ] ) {
# endif
return Catch : : Session ( ) . run ( argc , argv ) ;
}
# else // __OBJC__
// Objective-C entry point
int main ( int argc , char * const argv [ ] ) {
# if !CATCH_ARC_ENABLED
NSAutoreleasePool * pool = [ [ NSAutoreleasePool alloc ] init ] ;
# endif
Catch : : registerTestMethods ( ) ;
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int result = Catch : : Session ( ) . run ( argc , ( char * * ) argv ) ;
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# if !CATCH_ARC_ENABLED
[ pool drain ] ;
# endif
return result ;
}
# endif // __OBJC__
// end catch_default_main.hpp
# endif
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# if !defined(CATCH_CONFIG_IMPL_ONLY)
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# ifdef CLARA_CONFIG_MAIN_NOT_DEFINED
# undef CLARA_CONFIG_MAIN
# endif
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# if !defined(CATCH_CONFIG_DISABLE)
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//////
// If this config identifier is defined then all CATCH macros are prefixed with CATCH_
# ifdef CATCH_CONFIG_PREFIX_ALL
# 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_THROWS_WITH( expr, matcher ) INTERNAL_CATCH_THROWS_STR_MATCHES( "CATCH_REQUIRE_THROWS_WITH", Catch::ResultDisposition::Normal, matcher, expr )
# if !defined(CATCH_CONFIG_DISABLE_MATCHERS)
# define CATCH_REQUIRE_THROWS_MATCHES( expr, exceptionType, matcher ) INTERNAL_CATCH_THROWS_MATCHES( "CATCH_REQUIRE_THROWS_MATCHES", exceptionType, Catch::ResultDisposition::Normal, matcher, expr )
# endif // CATCH_CONFIG_DISABLE_MATCHERS
# 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__ )
# define CATCH_CHECKED_IF( ... ) INTERNAL_CATCH_IF( "CATCH_CHECKED_IF", Catch::ResultDisposition::ContinueOnFailure, __VA_ARGS__ )
# define CATCH_CHECKED_ELSE( ... ) INTERNAL_CATCH_ELSE( "CATCH_CHECKED_ELSE", Catch::ResultDisposition::ContinueOnFailure, __VA_ARGS__ )
# 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_THROWS_WITH( expr, matcher ) INTERNAL_CATCH_THROWS_STR_MATCHES( "CATCH_CHECK_THROWS_WITH", Catch::ResultDisposition::ContinueOnFailure, matcher, expr )
# if !defined(CATCH_CONFIG_DISABLE_MATCHERS)
# define CATCH_CHECK_THROWS_MATCHES( expr, exceptionType, matcher ) INTERNAL_CATCH_THROWS_MATCHES( "CATCH_CHECK_THROWS_MATCHES", exceptionType, Catch::ResultDisposition::ContinueOnFailure, matcher, expr )
# endif // CATCH_CONFIG_DISABLE_MATCHERS
# define CATCH_CHECK_NOTHROW( ... ) INTERNAL_CATCH_NO_THROW( "CATCH_CHECK_NOTHROW", Catch::ResultDisposition::ContinueOnFailure, __VA_ARGS__ )
# if !defined(CATCH_CONFIG_DISABLE_MATCHERS)
# 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 )
# endif // CATCH_CONFIG_DISABLE_MATCHERS
# define CATCH_INFO( msg ) INTERNAL_CATCH_INFO( "CATCH_INFO", msg )
# define CATCH_WARN( msg ) INTERNAL_CATCH_MSG( "CATCH_WARN", Catch::ResultWas::Warning, Catch::ResultDisposition::ContinueOnFailure, msg )
# define CATCH_CAPTURE( msg ) INTERNAL_CATCH_INFO( "CATCH_CAPTURE", #msg " := " << ::Catch::Detail::stringify(msg) )
# 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_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__ )
# define CATCH_ANON_TEST_CASE() INTERNAL_CATCH_TESTCASE()
// "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 ) CATCH_SECTION( std::string( "Given: ") + desc )
# define CATCH_WHEN( desc ) CATCH_SECTION( std::string( " When: ") + desc )
# define CATCH_AND_WHEN( desc ) CATCH_SECTION( std::string( " And: ") + desc )
# define CATCH_THEN( desc ) CATCH_SECTION( std::string( " Then: ") + desc )
# define CATCH_AND_THEN( desc ) CATCH_SECTION( std::string( " And: ") + desc )
// If CATCH_CONFIG_PREFIX_ALL is not defined then the CATCH_ prefix is not required
# else
# 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_THROWS_WITH( expr, matcher ) INTERNAL_CATCH_THROWS_STR_MATCHES( "REQUIRE_THROWS_WITH", Catch::ResultDisposition::Normal, matcher, expr )
# if !defined(CATCH_CONFIG_DISABLE_MATCHERS)
# define REQUIRE_THROWS_MATCHES( expr, exceptionType, matcher ) INTERNAL_CATCH_THROWS_MATCHES( "REQUIRE_THROWS_MATCHES", exceptionType, Catch::ResultDisposition::Normal, matcher, expr )
# endif // CATCH_CONFIG_DISABLE_MATCHERS
# 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__ )
# define CHECKED_IF( ... ) INTERNAL_CATCH_IF( "CHECKED_IF", Catch::ResultDisposition::ContinueOnFailure, __VA_ARGS__ )
# define CHECKED_ELSE( ... ) INTERNAL_CATCH_ELSE( "CHECKED_ELSE", Catch::ResultDisposition::ContinueOnFailure, __VA_ARGS__ )
# 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_THROWS_WITH( expr, matcher ) INTERNAL_CATCH_THROWS_STR_MATCHES( "CHECK_THROWS_WITH", Catch::ResultDisposition::ContinueOnFailure, matcher, expr )
# if !defined(CATCH_CONFIG_DISABLE_MATCHERS)
# define CHECK_THROWS_MATCHES( expr, exceptionType, matcher ) INTERNAL_CATCH_THROWS_MATCHES( "CHECK_THROWS_MATCHES", exceptionType, Catch::ResultDisposition::ContinueOnFailure, matcher, expr )
# endif // CATCH_CONFIG_DISABLE_MATCHERS
# define CHECK_NOTHROW( ... ) INTERNAL_CATCH_NO_THROW( "CHECK_NOTHROW", Catch::ResultDisposition::ContinueOnFailure, __VA_ARGS__ )
# if !defined(CATCH_CONFIG_DISABLE_MATCHERS)
# 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 )
# endif // CATCH_CONFIG_DISABLE_MATCHERS
# define INFO( msg ) INTERNAL_CATCH_INFO( "INFO", msg )
# define WARN( msg ) INTERNAL_CATCH_MSG( "WARN", Catch::ResultWas::Warning, Catch::ResultDisposition::ContinueOnFailure, msg )
# define CAPTURE( msg ) INTERNAL_CATCH_INFO( "CAPTURE", #msg " := " << ::Catch::Detail::stringify(msg) )
# 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 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__ )
# define ANON_TEST_CASE() INTERNAL_CATCH_TESTCASE()
# endif
# define CATCH_TRANSLATE_EXCEPTION( signature ) INTERNAL_CATCH_TRANSLATE_EXCEPTION( signature )
// "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 ) SECTION( std::string(" Given: ") + desc )
# define WHEN( desc ) SECTION( std::string(" When: ") + desc )
# define AND_WHEN( desc ) SECTION( std::string("And when: ") + desc )
# define THEN( desc ) SECTION( std::string(" Then: ") + desc )
# define AND_THEN( desc ) SECTION( std::string(" And: ") + desc )
using Catch : : Detail : : Approx ;
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# else
//////
// If this config identifier is defined then all CATCH macros are prefixed with CATCH_
# ifdef CATCH_CONFIG_PREFIX_ALL
# 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_THROWS_WITH( expr, matcher ) (void)(0)
# if !defined(CATCH_CONFIG_DISABLE_MATCHERS)
# define CATCH_REQUIRE_THROWS_MATCHES( expr, exceptionType, matcher ) (void)(0)
# endif // CATCH_CONFIG_DISABLE_MATCHERS
# 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_THROWS_WITH( expr, matcher ) (void)(0)
# if !defined(CATCH_CONFIG_DISABLE_MATCHERS)
# define CATCH_CHECK_THROWS_MATCHES( expr, exceptionType, matcher ) (void)(0)
# endif // CATCH_CONFIG_DISABLE_MATCHERS
# define CATCH_CHECK_NOTHROW( ... ) (void)(0)
# if !defined(CATCH_CONFIG_DISABLE_MATCHERS)
# define CATCH_CHECK_THAT( arg, matcher ) (void)(0)
# define CATCH_REQUIRE_THAT( arg, matcher ) (void)(0)
# endif // CATCH_CONFIG_DISABLE_MATCHERS
# define CATCH_INFO( msg ) (void)(0)
# define CATCH_WARN( msg ) (void)(0)
# define CATCH_CAPTURE( msg ) (void)(0)
# define CATCH_TEST_CASE( ... ) INTERNAL_CATCH_TESTCASE_NO_REGISTRATION(INTERNAL_CATCH_UNIQUE_NAME( ____C_A_T_C_H____T_E_S_T____ ))
# define CATCH_TEST_CASE_METHOD( className, ... ) INTERNAL_CATCH_TESTCASE_NO_REGISTRATION(INTERNAL_CATCH_UNIQUE_NAME( ____C_A_T_C_H____T_E_S_T____ ))
# define CATCH_METHOD_AS_TEST_CASE( method, ... )
# define CATCH_REGISTER_TEST_CASE( Function, ... ) (void)(0)
# define CATCH_SECTION( ... )
# define CATCH_FAIL( ... ) (void)(0)
# define CATCH_FAIL_CHECK( ... ) (void)(0)
# define CATCH_SUCCEED( ... ) (void)(0)
# define CATCH_ANON_TEST_CASE() INTERNAL_CATCH_TESTCASE_NO_REGISTRATION(INTERNAL_CATCH_UNIQUE_NAME( ____C_A_T_C_H____T_E_S_T____ ))
// "BDD-style" convenience wrappers
# define CATCH_SCENARIO( ... ) INTERNAL_CATCH_TESTCASE_NO_REGISTRATION(INTERNAL_CATCH_UNIQUE_NAME( ____C_A_T_C_H____T_E_S_T____ ))
# define CATCH_SCENARIO_METHOD( className, ... ) INTERNAL_CATCH_TESTCASE_METHOD_NO_REGISTRATION(INTERNAL_CATCH_UNIQUE_NAME( ____C_A_T_C_H____T_E_S_T____ ), className )
# define CATCH_GIVEN( desc )
# define CATCH_WHEN( desc )
# define CATCH_AND_WHEN( desc )
# define CATCH_THEN( desc )
# define CATCH_AND_THEN( desc )
// If CATCH_CONFIG_PREFIX_ALL is not defined then the CATCH_ prefix is not required
# else
# define REQUIRE( ... ) (void)(0)
# define REQUIRE_FALSE( ... ) (void)(0)
# define REQUIRE_THROWS( ... ) (void)(0)
# define REQUIRE_THROWS_AS( expr, exceptionType ) (void)(0)
# define REQUIRE_THROWS_WITH( expr, matcher ) (void)(0)
# if !defined(CATCH_CONFIG_DISABLE_MATCHERS)
# define REQUIRE_THROWS_MATCHES( expr, exceptionType, matcher ) (void)(0)
# endif // CATCH_CONFIG_DISABLE_MATCHERS
# 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_THROWS_WITH( expr, matcher ) (void)(0)
# if !defined(CATCH_CONFIG_DISABLE_MATCHERS)
# define CHECK_THROWS_MATCHES( expr, exceptionType, matcher ) (void)(0)
# endif // CATCH_CONFIG_DISABLE_MATCHERS
# define CHECK_NOTHROW( ... ) (void)(0)
# if !defined(CATCH_CONFIG_DISABLE_MATCHERS)
# define CHECK_THAT( arg, matcher ) (void)(0)
# define REQUIRE_THAT( arg, matcher ) (void)(0)
# endif // CATCH_CONFIG_DISABLE_MATCHERS
# define INFO( msg ) (void)(0)
# define WARN( msg ) (void)(0)
# define CAPTURE( msg ) (void)(0)
# define TEST_CASE( ... ) INTERNAL_CATCH_TESTCASE_NO_REGISTRATION(INTERNAL_CATCH_UNIQUE_NAME( ____C_A_T_C_H____T_E_S_T____ ))
# define TEST_CASE_METHOD( className, ... ) INTERNAL_CATCH_TESTCASE_NO_REGISTRATION(INTERNAL_CATCH_UNIQUE_NAME( ____C_A_T_C_H____T_E_S_T____ ))
# define METHOD_AS_TEST_CASE( method, ... )
# define REGISTER_TEST_CASE( Function, ... ) (void)(0)
# define SECTION( ... )
# define FAIL( ... ) (void)(0)
# define FAIL_CHECK( ... ) (void)(0)
# define SUCCEED( ... ) (void)(0)
# define ANON_TEST_CASE() INTERNAL_CATCH_TESTCASE_NO_REGISTRATION(INTERNAL_CATCH_UNIQUE_NAME( ____C_A_T_C_H____T_E_S_T____ ))
# endif
# define CATCH_TRANSLATE_EXCEPTION( signature ) INTERNAL_CATCH_TRANSLATE_EXCEPTION_NO_REG( INTERNAL_CATCH_UNIQUE_NAME( catch_internal_ExceptionTranslator ), signature )
// "BDD-style" convenience wrappers
# define SCENARIO( ... ) INTERNAL_CATCH_TESTCASE_NO_REGISTRATION(INTERNAL_CATCH_UNIQUE_NAME( ____C_A_T_C_H____T_E_S_T____ ) )
# define SCENARIO_METHOD( className, ... ) INTERNAL_CATCH_TESTCASE_METHOD_NO_REGISTRATION(INTERNAL_CATCH_UNIQUE_NAME( ____C_A_T_C_H____T_E_S_T____ ), className )
# define GIVEN( desc )
# define WHEN( desc )
# define AND_WHEN( desc )
# define THEN( desc )
# define AND_THEN( desc )
using Catch : : Detail : : Approx ;
# endif
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# endif // ! CATCH_CONFIG_IMPL_ONLY
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// start catch_reenable_warnings.h
# ifdef __clang__
# ifdef __ICC // icpc defines the __clang__ macro
# pragma warning(pop)
# else
# pragma clang diagnostic pop
# endif
# elif defined __GNUC__
# pragma GCC diagnostic pop
# endif
// end catch_reenable_warnings.h
// end catch.hpp
# endif // TWOBLUECUBES_SINGLE_INCLUDE_CATCH_HPP_INCLUDED