test/support/format_string.hpp - third_party/libcxx - Git at Google

 #ifndef TEST_SUPPORT_FORMAT_STRING_HPP
 #define TEST_SUPPORT_FORMAT_STRING_HPP

 #include <cstdio>
 #include <string>
 #include <memory>
 #include <array>
 #include <cstdarg>

 namespace format_string_detail {
 inline std::string format_string_imp(const char* msg, ...) {
   // we might need a second shot at this, so pre-emptivly make a copy
   struct GuardVAList {
     va_list& xtarget;
     bool active;
     GuardVAList(va_list& val) : xtarget(val), active(true) {}

     void clear() {
       if (active)
         va_end(xtarget);
       active = false;
     }
     ~GuardVAList() {
       if (active)
         va_end(xtarget);
     }
   };
   va_list args;
   va_start(args, msg);
   GuardVAList args_guard(args);

   va_list args_cp;
   va_copy(args_cp, args);
   GuardVAList args_copy_guard(args_cp);

   std::array<char, 256> local_buff;
   std::size_t size = local_buff.size();
   auto ret = ::vsnprintf(local_buff.data(), size, msg, args_cp);

   args_copy_guard.clear();

   // handle empty expansion
   if (ret == 0)
     return std::string{};
   if (static_cast<std::size_t>(ret) < size)
     return std::string(local_buff.data());

   // we did not provide a long enough buffer on our first attempt.
   // add 1 to size to account for null-byte in size cast to prevent overflow
   size = static_cast<std::size_t>(ret) + 1;
   auto buff_ptr = std::unique_ptr<char[]>(new char[size]);
   ret = ::vsnprintf(buff_ptr.get(), size, msg, args);
   return std::string(buff_ptr.get());
 }

 const char* unwrap(std::string& s) { return s.c_str(); }
 template <class Arg>
 Arg const& unwrap(Arg& a) {
   static_assert(!std::is_class<Arg>::value, "cannot pass class here");
   return a;
 }

 } // namespace format_string_detail

 template <class... Args>
 std::string format_string(const char* fmt, Args const&... args) {
   return format_string_detail::format_string_imp(
       fmt, format_string_detail::unwrap(const_cast<Args&>(args))...);
 }

 #endif // TEST_SUPPORT_FORMAT_STRING_HPP
	#ifndef TEST_SUPPORT_FORMAT_STRING_HPP
	#define TEST_SUPPORT_FORMAT_STRING_HPP

	#include <cstdio>
	#include <string>
	#include <memory>
	#include <array>
	#include <cstdarg>

	namespace format_string_detail {
	inline std::string format_string_imp(const char* msg, ...) {
	// we might need a second shot at this, so pre-emptivly make a copy
	struct GuardVAList {
	va_list& xtarget;
	bool active;
	GuardVAList(va_list& val) : xtarget(val), active(true) {}

	void clear() {
	if (active)
	va_end(xtarget);
	active = false;
	}
	~GuardVAList() {
	if (active)
	va_end(xtarget);
	}
	};
	va_list args;
	va_start(args, msg);
	GuardVAList args_guard(args);

	va_list args_cp;
	va_copy(args_cp, args);
	GuardVAList args_copy_guard(args_cp);

	std::array<char, 256> local_buff;
	std::size_t size = local_buff.size();
	auto ret = ::vsnprintf(local_buff.data(), size, msg, args_cp);

	args_copy_guard.clear();

	// handle empty expansion
	if (ret == 0)
	return std::string{};
	if (static_cast<std::size_t>(ret) < size)
	return std::string(local_buff.data());

	// we did not provide a long enough buffer on our first attempt.
	// add 1 to size to account for null-byte in size cast to prevent overflow
	size = static_cast<std::size_t>(ret) + 1;
	auto buff_ptr = std::unique_ptr<char[]>(new char[size]);
	ret = ::vsnprintf(buff_ptr.get(), size, msg, args);
	return std::string(buff_ptr.get());
	}

	const char* unwrap(std::string& s) { return s.c_str(); }
	template <class Arg>
	Arg const& unwrap(Arg& a) {
	static_assert(!std::is_class<Arg>::value, "cannot pass class here");
	return a;
	}

	} // namespace format_string_detail

	template <class... Args>
	std::string format_string(const char* fmt, Args const&... args) {
	return format_string_detail::format_string_imp(
	fmt, format_string_detail::unwrap(const_cast<Args&>(args))...);
	}

	#endif // TEST_SUPPORT_FORMAT_STRING_HPP