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v1.12.0
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@ -3,9 +3,9 @@
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[![Github Releases](https://img.shields.io/github/release/philsquared/catch.svg)](https://github.com/philsquared/catch/releases)
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[![Build Status](https://travis-ci.org/philsquared/Catch.svg?branch=master)](https://travis-ci.org/philsquared/Catch)
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[![Build status](https://ci.appveyor.com/api/projects/status/hrtk60hv6tw6fght/branch/master?svg=true)](https://ci.appveyor.com/project/philsquared/catch/branch/master)
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[![Try online](https://img.shields.io/badge/try-online-blue.svg)](https://wandbox.org/permlink/EyEbEIfp8CnnjguW)
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[![Try online](https://img.shields.io/badge/try-online-blue.svg)](https://wandbox.org/permlink/hgiYhcvH835lHvaA)
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<a href="https://github.com/philsquared/Catch/releases/download/v1.11.0/catch.hpp">The latest, single header, version can be downloaded directly using this link</a>
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<a href="https://github.com/philsquared/Catch/releases/download/v1.12.0/catch.hpp">The latest, single header, version can be downloaded directly using this link</a>
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## What's the Catch?
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@ -4,7 +4,7 @@ from conans import ConanFile
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class CatchConan(ConanFile):
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name = "Catch"
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version = "1.11.0"
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version = "1.12.0"
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description = "A modern, C++-native, header-only, framework for unit-tests, TDD and BDD"
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author = "philsquared"
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generators = "cmake"
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@ -1,3 +1,11 @@
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# 1.12.0
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### Fixes
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* Fixed compilation for strict C++98 mode (ie not gnu++98) and older compilers (#1103)
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* `INFO` messages are included in the `xml` reporter output even without `-s` specified.
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# 1.11.0
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### Fixes
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@ -38,7 +38,7 @@ namespace Catch {
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}
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inline Version libraryVersion() {
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static Version version( 1, 11, 0, "", 0 );
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static Version version( 1, 12, 0, "", 0 );
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return version;
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}
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@ -1,6 +1,6 @@
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/*
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* Catch v1.11.0
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* Generated: 2017-10-31 13:42:42.914833
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* Catch v1.12.0
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* Generated: 2018-01-11 21:56:34.893972
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* ----------------------------------------------------------
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* This file has been merged from multiple headers. Please don't edit it directly
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* Copyright (c) 2012 Two Blue Cubes Ltd. All rights reserved.
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@ -1320,10 +1320,12 @@ namespace Internal {
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template<> struct OperatorTraits<IsGreaterThanOrEqualTo>{ static const char* getName(){ return ">="; } };
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template<typename T>
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T& removeConst(T const &t) { return const_cast<T&>(t); }
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T& opCast(T const& t) { return const_cast<T&>(t); }
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// nullptr_t support based on pull request #154 from Konstantin Baumann
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#ifdef CATCH_CONFIG_CPP11_NULLPTR
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inline std::nullptr_t removeConst(std::nullptr_t) { return nullptr; }
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#endif
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inline std::nullptr_t opCast(std::nullptr_t) { return nullptr; }
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#endif // CATCH_CONFIG_CPP11_NULLPTR
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// So the compare overloads can be operator agnostic we convey the operator as a template
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// enum, which is used to specialise an Evaluator for doing the comparison.
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@ -1333,90 +1335,161 @@ namespace Internal {
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template<typename T1, typename T2>
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struct Evaluator<T1, T2, IsEqualTo> {
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static bool evaluate( T1 const& lhs, T2 const& rhs) {
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return bool(removeConst(lhs) == removeConst(rhs) );
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return bool( opCast( lhs ) == opCast( rhs ) );
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}
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};
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template<typename T1, typename T2>
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struct Evaluator<T1, T2, IsNotEqualTo> {
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static bool evaluate( T1 const& lhs, T2 const& rhs ) {
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return bool(removeConst(lhs) != removeConst(rhs) );
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return bool( opCast( lhs ) != opCast( rhs ) );
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}
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};
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template<typename T1, typename T2>
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struct Evaluator<T1, T2, IsLessThan> {
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static bool evaluate( T1 const& lhs, T2 const& rhs ) {
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return bool(removeConst(lhs) < removeConst(rhs) );
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return bool( opCast( lhs ) < opCast( rhs ) );
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}
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};
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template<typename T1, typename T2>
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struct Evaluator<T1, T2, IsGreaterThan> {
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static bool evaluate( T1 const& lhs, T2 const& rhs ) {
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return bool(removeConst(lhs) > removeConst(rhs) );
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return bool( opCast( lhs ) > opCast( rhs ) );
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}
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};
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template<typename T1, typename T2>
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struct Evaluator<T1, T2, IsGreaterThanOrEqualTo> {
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static bool evaluate( T1 const& lhs, T2 const& rhs ) {
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return bool(removeConst(lhs) >= removeConst(rhs) );
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return bool( opCast( lhs ) >= opCast( rhs ) );
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}
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};
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template<typename T1, typename T2>
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struct Evaluator<T1, T2, IsLessThanOrEqualTo> {
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static bool evaluate( T1 const& lhs, T2 const& rhs ) {
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return bool(removeConst(lhs) <= removeConst(rhs) );
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return bool( opCast( lhs ) <= opCast( rhs ) );
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}
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};
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// Special case for comparing a pointer to an int (deduced for p==0)
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template<typename T>
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struct Evaluator<int const&, T* const&, IsEqualTo> {
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static bool evaluate( int lhs, T* rhs) {
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return reinterpret_cast<void const*>( lhs ) == rhs;
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}
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};
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template<typename T>
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struct Evaluator<T* const&, int const&, IsEqualTo> {
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static bool evaluate( T* lhs, int rhs) {
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return lhs == reinterpret_cast<void const*>( rhs );
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}
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};
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template<typename T>
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struct Evaluator<int const&, T* const&, IsNotEqualTo> {
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static bool evaluate( int lhs, T* rhs) {
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return reinterpret_cast<void const*>( lhs ) != rhs;
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}
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};
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template<typename T>
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struct Evaluator<T* const&, int const&, IsNotEqualTo> {
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static bool evaluate( T* lhs, int rhs) {
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return lhs != reinterpret_cast<void const*>( rhs );
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}
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};
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template<Operator Op, typename T1, typename T2>
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bool applyEvaluator( T1 const& lhs, T2 const& rhs ) {
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return Evaluator<T1, T2, Op>::evaluate( lhs, rhs );
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}
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template<typename T>
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struct Evaluator<long const&, T* const&, IsEqualTo> {
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static bool evaluate( long lhs, T* rhs) {
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return reinterpret_cast<void const*>( lhs ) == rhs;
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}
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};
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template<typename T>
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struct Evaluator<T* const&, long const&, IsEqualTo> {
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static bool evaluate( T* lhs, long rhs) {
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return lhs == reinterpret_cast<void const*>( rhs );
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}
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};
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template<typename T>
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struct Evaluator<long const&, T* const&, IsNotEqualTo> {
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static bool evaluate( long lhs, T* rhs) {
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return reinterpret_cast<void const*>( lhs ) != rhs;
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}
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};
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template<typename T>
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struct Evaluator<T* const&, long const&, IsNotEqualTo> {
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static bool evaluate( T* lhs, long rhs) {
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return lhs != reinterpret_cast<void const*>( rhs );
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}
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};
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// This level of indirection allows us to specialise for integer types
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// to avoid signed/ unsigned warnings
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// "base" overload
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template<Operator Op, typename T1, typename T2>
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bool compare( T1 const& lhs, T2 const& rhs ) {
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return Evaluator<T1, T2, Op>::evaluate( lhs, rhs );
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}
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// unsigned X to int
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template<Operator Op> bool compare( unsigned int lhs, int rhs ) {
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return applyEvaluator<Op>( lhs, static_cast<unsigned int>( rhs ) );
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}
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template<Operator Op> bool compare( unsigned long lhs, int rhs ) {
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return applyEvaluator<Op>( lhs, static_cast<unsigned int>( rhs ) );
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}
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template<Operator Op> bool compare( unsigned char lhs, int rhs ) {
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return applyEvaluator<Op>( lhs, static_cast<unsigned int>( rhs ) );
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}
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// unsigned X to long
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template<Operator Op> bool compare( unsigned int lhs, long rhs ) {
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return applyEvaluator<Op>( lhs, static_cast<unsigned long>( rhs ) );
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}
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template<Operator Op> bool compare( unsigned long lhs, long rhs ) {
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return applyEvaluator<Op>( lhs, static_cast<unsigned long>( rhs ) );
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}
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template<Operator Op> bool compare( unsigned char lhs, long rhs ) {
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return applyEvaluator<Op>( lhs, static_cast<unsigned long>( rhs ) );
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}
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// int to unsigned X
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template<Operator Op> bool compare( int lhs, unsigned int rhs ) {
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return applyEvaluator<Op>( static_cast<unsigned int>( lhs ), rhs );
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}
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template<Operator Op> bool compare( int lhs, unsigned long rhs ) {
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return applyEvaluator<Op>( static_cast<unsigned int>( lhs ), rhs );
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}
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template<Operator Op> bool compare( int lhs, unsigned char rhs ) {
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return applyEvaluator<Op>( static_cast<unsigned int>( lhs ), rhs );
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}
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// long to unsigned X
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template<Operator Op> bool compare( long lhs, unsigned int rhs ) {
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return applyEvaluator<Op>( static_cast<unsigned long>( lhs ), rhs );
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}
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template<Operator Op> bool compare( long lhs, unsigned long rhs ) {
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return applyEvaluator<Op>( static_cast<unsigned long>( lhs ), rhs );
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}
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template<Operator Op> bool compare( long lhs, unsigned char rhs ) {
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return applyEvaluator<Op>( static_cast<unsigned long>( lhs ), rhs );
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}
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// pointer to long (when comparing against NULL)
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template<Operator Op, typename T> bool compare( long lhs, T* rhs ) {
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return Evaluator<T*, T*, Op>::evaluate( reinterpret_cast<T*>( lhs ), rhs );
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}
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template<Operator Op, typename T> bool compare( T* lhs, long rhs ) {
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return Evaluator<T*, T*, Op>::evaluate( lhs, reinterpret_cast<T*>( rhs ) );
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}
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// pointer to int (when comparing against NULL)
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template<Operator Op, typename T> bool compare( int lhs, T* rhs ) {
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return Evaluator<T*, T*, Op>::evaluate( reinterpret_cast<T*>( lhs ), rhs );
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}
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template<Operator Op, typename T> bool compare( T* lhs, int rhs ) {
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return Evaluator<T*, T*, Op>::evaluate( lhs, reinterpret_cast<T*>( rhs ) );
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}
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#ifdef CATCH_CONFIG_CPP11_LONG_LONG
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// long long to unsigned X
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template<Operator Op> bool compare( long long lhs, unsigned int rhs ) {
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return applyEvaluator<Op>( static_cast<unsigned long>( lhs ), rhs );
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}
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template<Operator Op> bool compare( long long lhs, unsigned long rhs ) {
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return applyEvaluator<Op>( static_cast<unsigned long>( lhs ), rhs );
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}
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template<Operator Op> bool compare( long long lhs, unsigned long long rhs ) {
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return applyEvaluator<Op>( static_cast<unsigned long>( lhs ), rhs );
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}
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template<Operator Op> bool compare( long long lhs, unsigned char rhs ) {
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return applyEvaluator<Op>( static_cast<unsigned long>( lhs ), rhs );
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}
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// unsigned long long to X
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template<Operator Op> bool compare( unsigned long long lhs, int rhs ) {
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return applyEvaluator<Op>( static_cast<long>( lhs ), rhs );
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}
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template<Operator Op> bool compare( unsigned long long lhs, long rhs ) {
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return applyEvaluator<Op>( static_cast<long>( lhs ), rhs );
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}
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template<Operator Op> bool compare( unsigned long long lhs, long long rhs ) {
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return applyEvaluator<Op>( static_cast<long>( lhs ), rhs );
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}
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template<Operator Op> bool compare( unsigned long long lhs, char rhs ) {
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return applyEvaluator<Op>( static_cast<long>( lhs ), rhs );
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}
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// pointer to long long (when comparing against NULL)
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template<Operator Op, typename T> bool compare( long long lhs, T* rhs ) {
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return Evaluator<T*, T*, Op>::evaluate( reinterpret_cast<T*>( lhs ), rhs );
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}
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template<Operator Op, typename T> bool compare( T* lhs, long long rhs ) {
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return Evaluator<T*, T*, Op>::evaluate( lhs, reinterpret_cast<T*>( rhs ) );
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}
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#endif // CATCH_CONFIG_CPP11_LONG_LONG
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#ifdef CATCH_CONFIG_CPP11_NULLPTR
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// pointer to nullptr_t (when comparing against nullptr)
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template<Operator Op, typename T> bool compare( std::nullptr_t, T* rhs ) {
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return Evaluator<T*, T*, Op>::evaluate( nullptr, rhs );
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}
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template<Operator Op, typename T> bool compare( T* lhs, std::nullptr_t ) {
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return Evaluator<T*, T*, Op>::evaluate( lhs, nullptr );
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}
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#endif // CATCH_CONFIG_CPP11_NULLPTR
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} // end of namespace Internal
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} // end of namespace Catch
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@ -1837,7 +1910,7 @@ public:
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void endExpression() const {
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m_rb
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.setResultType( Internal::Evaluator<LhsT, RhsT, Op>::evaluate( m_lhs, m_rhs ) )
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.setResultType( Internal::compare<Op>( m_lhs, m_rhs ) )
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.endExpression( *this );
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}
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@ -8393,7 +8466,7 @@ namespace Catch {
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}
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inline Version libraryVersion() {
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static Version version( 1, 11, 0, "", 0 );
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static Version version( 1, 12, 0, "", 0 );
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return version;
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}
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@ -10207,12 +10280,12 @@ namespace Catch {
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bool includeResults = m_config->includeSuccessfulResults() || !result.isOk();
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if( includeResults ) {
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if( includeResults || result.getResultType() == ResultWas::Warning ) {
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// Print any info messages in <Info> tags.
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for( std::vector<MessageInfo>::const_iterator it = assertionStats.infoMessages.begin(), itEnd = assertionStats.infoMessages.end();
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it != itEnd;
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++it ) {
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if( it->type == ResultWas::Info ) {
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if( it->type == ResultWas::Info && includeResults ) {
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m_xml.scopedElement( "Info" )
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.writeText( it->message );
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} else if ( it->type == ResultWas::Warning ) {
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@ -10,7 +10,7 @@ class CatchConanTest(ConanFile):
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settings = "os", "compiler", "arch", "build_type"
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username = getenv("CONAN_USERNAME", "philsquared")
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channel = getenv("CONAN_CHANNEL", "testing")
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requires = "Catch/1.11.0@%s/%s" % (username, channel)
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requires = "Catch/1.12.0@%s/%s" % (username, channel)
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def build(self):
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cmake = CMake(self)
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