test/support/verbose_assert.h - third_party/libcxx - Git at Google

 #ifndef TEST_SUPPORT_VERBOSE_ASSERT
 #define TEST_SUPPORT_VERBOSE_ASSERT

 #include <iostream>
 #include <cstdio>
 #include <sstream>
 #include <string>
 #include "test_macros.h"

 namespace verbose_assert {

 typedef std::basic_ostream<char>&(EndLType)(std::basic_ostream<char>&);

 template <class Stream, class Tp,
     class = decltype(std::declval<Stream&>() << std::declval<Tp const&>())>
 std::true_type IsStreamableImp(int);
 template <class Stream, class Tp> std::false_type IsStreamableImp(long);

 template <class Stream, class Tp>
 struct IsStreamable : decltype(IsStreamableImp<Stream, Tp>(0)) {};

 template <class Tp, int ST = (IsStreamable<decltype(std::cerr), Tp>::value ? 1
         : (IsStreamable<decltype(std::wcerr), Tp>::value ? 2 : -1))>
 struct SelectStream {
   static_assert(ST == -1, "specialization required for ST != -1");
   static void Print(Tp const&) { std::clog << "Value Not Streamable!\n"; }
 };

 template <class Tp>
 struct SelectStream<Tp, 1> {
   static void Print(Tp const& val) { std::cerr << val; }
 };

 template <class Tp>
 struct SelectStream<Tp, 2> {
   static void Print(Tp const& val) { std::wcerr << val; }
 };

 struct AssertData {
   AssertData(const char* xcheck, const char* xfile, const char* xfunc,
              unsigned long xline, bool xpassed = true)
       : passed(xpassed), check(xcheck), file(xfile), func(xfunc), line(xline),
         msg() {}

   AssertData& SetFailed(std::string xmsg = std::string()) {
     msg = xmsg;
     passed = false;
     return *this;
   }

   void PrintFailed() const {
     std::fprintf(stderr, "%s:%lu %s: Assertion '%s' failed.\n", file, line,
                  func, check);
     if (!msg.empty())
       std::fprintf(stderr, "%s\n", msg.data());
   }

   bool passed;
   const char* check;
   const char* file;
   const char* func;
   unsigned long line;
   std::string msg;
 };

 // AssertHandler is the class constructed by failing CHECK macros. AssertHandler
 // will log information about the failures and abort when it is destructed.
 class AssertHandler {
 public:
   AssertHandler(AssertData const& Data)
       : passed(Data.passed) {
     if (!passed)
       Data.PrintFailed();
   }

   ~AssertHandler() TEST_NOEXCEPT_FALSE {
     if (!passed) {
       error_log << std::endl;
       std::abort();
     }
   }

   class LogType {
     friend class AssertHandler;

     template <class Tp>
     friend LogType& operator<<(LogType& log, Tp const& value) {
       if (!log.is_disabled) {
         SelectStream<Tp>::Print(value);
       }
       return log;
     }

     friend LogType& operator<<(LogType& log, EndLType* m) {
       if (!log.is_disabled) {
         SelectStream<EndLType*>::Print(m);
       }
       return log;
     }

   private:
     LogType(bool disable) : is_disabled(disable) {}
     bool is_disabled;

     LogType(LogType const&);
     LogType& operator=(LogType const&);
   };

   LogType& GetLog() {
     if (passed)
       return null_log;
     return error_log;
   }

 private:
   static LogType null_log;
   static LogType error_log;

   AssertHandler& operator=(const AssertHandler&) = delete;
   AssertHandler(const AssertHandler&) = delete;
   AssertHandler() = delete;

 private:
   bool passed;
 };

 AssertHandler::LogType AssertHandler::null_log(true);
 AssertHandler::LogType AssertHandler::error_log(false);

 template <class It1>
 std::string PrintRange(const char* Name, It1 F, It1 E) {
   std::stringstream ss;
   ss << "  " << Name << " = [";
   while (F != E) {
     ss << *F;
     ++F;
     if (F != E)
       ss << ", ";
   }
   ss << "]\n";
   return ss.str();
 }

 template <class Tp, class Up>
 std::string PrintMismatch(Tp const& LHS, Up const& RHS, int Elem) {
   std::stringstream ss;
   ss << "  Element " << Elem << " mismatched: `" << LHS << "` != `" << RHS
      << "`!\n";
   return ss.str();
 };

 struct EqualToComp {
   template <class Tp, class Up>
   bool operator()(Tp const& LHS, Up const& RHS) const {
     return LHS == RHS;
   }
 };

 template <class It1, class It2, class Comp>
 AssertData CheckCollectionsEqual(It1 F1, It1 E1, It2 F2, It2 E2,
                                  AssertData Data, Comp C = EqualToComp()) {
   const It1 F1Orig = F1;
   const It2 F2Orig = F2;
   bool Failed = false;
   std::string ErrorMsg;
   int Idx = 0;
   while (F1 != E1 && F2 != E2) {
     if (!(C(*F1, *F2))) {
       ErrorMsg += PrintMismatch(*F1, *F2, Idx);
       Failed = true;
       break;
     }
     ++Idx;
     ++F1;
     ++F2;
   }
   if (!Failed && (F1 != E1 || F2 != E2)) {
     ErrorMsg += "  Ranges have different sizes!\n";
     Failed = true;
   }
   if (Failed) {
     ErrorMsg += PrintRange("LHS", F1Orig, E1);
     ErrorMsg += PrintRange("RHS", F2Orig, E2);
     Data.SetFailed(ErrorMsg);
   }
   return Data;
 }
 } // namespace verbose_assert

 #ifdef __GNUC__
 #define ASSERT_FN_NAME() __PRETTY_FUNCTION__
 #else
 #define ASSERT_FN_NAME() __func__
 #endif

 #define DISPLAY(...) "    " #__VA_ARGS__ " = " << (__VA_ARGS__) << "\n"

 #define ASSERT(...)                                                            \
   ::verbose_assert::AssertHandler(::verbose_assert::AssertData(                \
     #__VA_ARGS__, __FILE__, ASSERT_FN_NAME(), __LINE__,(__VA_ARGS__))).GetLog()

 #define ASSERT_EQ(LHS, RHS) \
   ASSERT(LHS == RHS) << DISPLAY(LHS) << DISPLAY(RHS)
 #define ASSERT_NEQ(LHS, RHS) \
   ASSERT(LHS != RHS) << DISPLAY(LHS) << DISPLAY(RHS)
 #define ASSERT_PRED(PRED, LHS, RHS) \
   ASSERT(PRED(LHS, RHS)) << DISPLAY(LHS) << DISPLAY(RHS)

 #define ASSERT_COLLECTION_EQ_COMP(F1, E1, F2, E2, Comp)                        \
   (::verbose_assert::AssertHandler(                                            \
        ::verbose_assert::CheckCollectionsEqual(                                \
            F1, E1, F2, E2,                                                     \
            ::verbose_assert::AssertData("CheckCollectionsEqual(" #F1 ", " #E1  \
                                         ", " #F2 ", " #E2 ")",                 \
                                         __FILE__, ASSERT_FN_NAME(), __LINE__), \
            Comp))                                                              \
        .GetLog())

 #define ASSERT_COLLECTION_EQ(F1, E1, F2, E2)                                   \
   ASSERT_COLLECTION_EQ_COMP(F1, E1, F2, E2, ::verbose_assert::EqualToComp())

 #endif
	#ifndef TEST_SUPPORT_VERBOSE_ASSERT
	#define TEST_SUPPORT_VERBOSE_ASSERT

	#include <iostream>
	#include <cstdio>
	#include <sstream>
	#include <string>
	#include "test_macros.h"

	namespace verbose_assert {

	typedef std::basic_ostream<char>&(EndLType)(std::basic_ostream<char>&);

	template <class Stream, class Tp,
	class = decltype(std::declval<Stream&>() << std::declval<Tp const&>())>
	std::true_type IsStreamableImp(int);
	template <class Stream, class Tp> std::false_type IsStreamableImp(long);

	template <class Stream, class Tp>
	struct IsStreamable : decltype(IsStreamableImp<Stream, Tp>(0)) {};

	template <class Tp, int ST = (IsStreamable<decltype(std::cerr), Tp>::value ? 1
	: (IsStreamable<decltype(std::wcerr), Tp>::value ? 2 : -1))>
	struct SelectStream {
	static_assert(ST == -1, "specialization required for ST != -1");
	static void Print(Tp const&) { std::clog << "Value Not Streamable!\n"; }
	};

	template <class Tp>
	struct SelectStream<Tp, 1> {
	static void Print(Tp const& val) { std::cerr << val; }
	};

	template <class Tp>
	struct SelectStream<Tp, 2> {
	static void Print(Tp const& val) { std::wcerr << val; }
	};

	struct AssertData {
	AssertData(const char* xcheck, const char* xfile, const char* xfunc,
	unsigned long xline, bool xpassed = true)
	: passed(xpassed), check(xcheck), file(xfile), func(xfunc), line(xline),
	msg() {}

	AssertData& SetFailed(std::string xmsg = std::string()) {
	msg = xmsg;
	passed = false;
	return *this;
	}

	void PrintFailed() const {
	std::fprintf(stderr, "%s:%lu %s: Assertion '%s' failed.\n", file, line,
	func, check);
	if (!msg.empty())
	std::fprintf(stderr, "%s\n", msg.data());
	}

	bool passed;
	const char* check;
	const char* file;
	const char* func;
	unsigned long line;
	std::string msg;
	};

	// AssertHandler is the class constructed by failing CHECK macros. AssertHandler
	// will log information about the failures and abort when it is destructed.
	class AssertHandler {
	public:
	AssertHandler(AssertData const& Data)
	: passed(Data.passed) {
	if (!passed)
	Data.PrintFailed();
	}

	~AssertHandler() TEST_NOEXCEPT_FALSE {
	if (!passed) {
	error_log << std::endl;
	std::abort();
	}
	}

	class LogType {
	friend class AssertHandler;

	template <class Tp>
	friend LogType& operator<<(LogType& log, Tp const& value) {
	if (!log.is_disabled) {
	SelectStream<Tp>::Print(value);
	}
	return log;
	}

	friend LogType& operator<<(LogType& log, EndLType* m) {
	if (!log.is_disabled) {
	SelectStream<EndLType*>::Print(m);
	}
	return log;
	}

	private:
	LogType(bool disable) : is_disabled(disable) {}
	bool is_disabled;

	LogType(LogType const&);
	LogType& operator=(LogType const&);
	};

	LogType& GetLog() {
	if (passed)
	return null_log;
	return error_log;
	}

	private:
	static LogType null_log;
	static LogType error_log;

	AssertHandler& operator=(const AssertHandler&) = delete;
	AssertHandler(const AssertHandler&) = delete;
	AssertHandler() = delete;

	private:
	bool passed;
	};

	AssertHandler::LogType AssertHandler::null_log(true);
	AssertHandler::LogType AssertHandler::error_log(false);

	template <class It1>
	std::string PrintRange(const char* Name, It1 F, It1 E) {
	std::stringstream ss;
	ss << " " << Name << " = [";
	while (F != E) {
	ss << *F;
	++F;
	if (F != E)
	ss << ", ";
	}
	ss << "]\n";
	return ss.str();
	}

	template <class Tp, class Up>
	std::string PrintMismatch(Tp const& LHS, Up const& RHS, int Elem) {
	std::stringstream ss;
	ss << " Element " << Elem << " mismatched: `" << LHS << "` != `" << RHS
	<< "`!\n";
	return ss.str();
	};

	struct EqualToComp {
	template <class Tp, class Up>
	bool operator()(Tp const& LHS, Up const& RHS) const {
	return LHS == RHS;
	}
	};

	template <class It1, class It2, class Comp>
	AssertData CheckCollectionsEqual(It1 F1, It1 E1, It2 F2, It2 E2,
	AssertData Data, Comp C = EqualToComp()) {
	const It1 F1Orig = F1;
	const It2 F2Orig = F2;
	bool Failed = false;
	std::string ErrorMsg;
	int Idx = 0;
	while (F1 != E1 && F2 != E2) {
	if (!(C(F1, F2))) {
	ErrorMsg += PrintMismatch(F1, F2, Idx);
	Failed = true;
	break;
	}
	++Idx;
	++F1;
	++F2;
	}
	if (!Failed && (F1 != E1 \|\| F2 != E2)) {
	ErrorMsg += " Ranges have different sizes!\n";
	Failed = true;
	}
	if (Failed) {
	ErrorMsg += PrintRange("LHS", F1Orig, E1);
	ErrorMsg += PrintRange("RHS", F2Orig, E2);
	Data.SetFailed(ErrorMsg);
	}
	return Data;
	}
	} // namespace verbose_assert

	#ifdef __GNUC__
	#define ASSERT_FN_NAME() __PRETTY_FUNCTION__
	#else
	#define ASSERT_FN_NAME() __func__
	#endif

	#define DISPLAY(...) " " #__VA_ARGS__ " = " << (__VA_ARGS__) << "\n"

	#define ASSERT(...) \
	::verbose_assert::AssertHandler(::verbose_assert::AssertData( \
	#__VA_ARGS__, __FILE__, ASSERT_FN_NAME(), __LINE__,(__VA_ARGS__))).GetLog()

	#define ASSERT_EQ(LHS, RHS) \
	ASSERT(LHS == RHS) << DISPLAY(LHS) << DISPLAY(RHS)
	#define ASSERT_NEQ(LHS, RHS) \
	ASSERT(LHS != RHS) << DISPLAY(LHS) << DISPLAY(RHS)
	#define ASSERT_PRED(PRED, LHS, RHS) \
	ASSERT(PRED(LHS, RHS)) << DISPLAY(LHS) << DISPLAY(RHS)

	#define ASSERT_COLLECTION_EQ_COMP(F1, E1, F2, E2, Comp) \
	(::verbose_assert::AssertHandler( \
	::verbose_assert::CheckCollectionsEqual( \
	F1, E1, F2, E2, \
	::verbose_assert::AssertData("CheckCollectionsEqual(" #F1 ", " #E1 \
	", " #F2 ", " #E2 ")", \
	__FILE__, ASSERT_FN_NAME(), __LINE__), \
	Comp)) \
	.GetLog())

	#define ASSERT_COLLECTION_EQ(F1, E1, F2, E2) \
	ASSERT_COLLECTION_EQ_COMP(F1, E1, F2, E2, ::verbose_assert::EqualToComp())

	#endif