// Print functions -*- C++ -*- // Copyright The GNU Toolchain Authors. // // This file is part of the GNU ISO C++ Library. This library is free // software; you can redistribute it and/or modify it under the // terms of the GNU General Public License as published by the // Free Software Foundation; either version 3, or (at your option) // any later version. // This library is distributed in the hope that it will be useful, // but WITHOUT ANY WARRANTY; without even the implied warranty of // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the // GNU General Public License for more details. // Under Section 7 of GPL version 3, you are granted additional // permissions described in the GCC Runtime Library Exception, version // 3.1, as published by the Free Software Foundation. // You should have received a copy of the GNU General Public License and // a copy of the GCC Runtime Library Exception along with this program; // see the files COPYING3 and COPYING.RUNTIME respectively. If not, see // . /** @file include/print * This is a Standard C++ Library header. */ #ifndef _GLIBCXX_PRINT #define _GLIBCXX_PRINT 1 #ifdef _GLIBCXX_SYSHDR #pragma GCC system_header #endif #include // for std::format #define __glibcxx_want_print #include #ifdef __cpp_lib_print // C++ >= 23 #include #include #include #include #ifdef _WIN32 # include #endif namespace std _GLIBCXX_VISIBILITY(default) { _GLIBCXX_BEGIN_NAMESPACE_VERSION namespace __format { #if _GLIBCXX_USE_STDIO_LOCKING && _GLIBCXX_USE_GLIBC_STDIO_EXT // These are defined in but we don't want to include that. extern "C" int __fwritable(FILE*) noexcept; extern "C" int __flbf(FILE*) noexcept; extern "C" size_t __fbufsize(FILE*) noexcept; // A format sink that writes directly to a Glibc FILE. // The file is locked on construction and its buffer is accessed directly. class _File_sink final : _Buf_sink { struct _File { explicit _File(FILE* __f) : _M_file(__f) { ::flockfile(__f); // Ensure stream is in write mode if (!__fwritable(__f)) { ::funlockfile(__f); __throw_system_error(EACCES); } // Allocate buffer if needed: if (_M_write_buf().empty()) if (::__overflow(__f, EOF) == EOF) { const int __err = errno; ::funlockfile(__f); __throw_system_error(__err); } } ~_File() { ::funlockfile(_M_file); } _File(_File&&) = delete; // A span viewing the unused portion of the stream's output buffer. std::span _M_write_buf() noexcept { return {_M_file->_IO_write_ptr, size_t(_M_file->_IO_buf_end - _M_file->_IO_write_ptr)}; } // Flush the output buffer to the file so we can write to it again. void _M_flush() { if (::fflush_unlocked(_M_file)) __throw_system_error(errno); } // Update the current position in the output buffer. void _M_bump(size_t __n) noexcept { _M_file->_IO_write_ptr += __n; } bool _M_line_buffered() const noexcept { return __flbf(_M_file); } // Or: _M_file->_flags & 0x200 bool _M_unbuffered() const noexcept { return __fbufsize(_M_file) == 1; } // Or: _M_file->_flags & 0x2 FILE* _M_file; } _M_file; bool _M_add_newline; // True for std::println, false for std::print. // Flush the stream's put area so it can be refilled. void _M_overflow() override { auto __s = this->_M_used(); if (__s.data() == this->_M_buf) { // Characters in internal buffer need to be transferred to the FILE. auto __n = ::fwrite_unlocked(__s.data(), 1, __s.size(), _M_file._M_file); if (__n != __s.size()) __throw_system_error(errno); this->_M_reset(this->_M_buf); } else { // Characters were written directly to the FILE's output buffer. _M_file._M_bump(__s.size()); _M_file._M_flush(); this->_M_reset(_M_file._M_write_buf()); } } public: _File_sink(FILE* __f, bool __add_newline) : _M_file(__f), _M_add_newline(__add_newline) { if (!_M_file._M_unbuffered()) // Write directly to the FILE's output buffer. this->_M_reset(_M_file._M_write_buf()); } ~_File_sink() noexcept(false) { auto __s = this->_M_used(); if (__s.data() == this->_M_buf) // Unbuffered stream { _File_sink::_M_overflow(); if (_M_add_newline) ::putc_unlocked('\n', _M_file._M_file); } else { _M_file._M_bump(__s.size()); if (_M_add_newline) ::putc_unlocked('\n', _M_file._M_file); else if (_M_file._M_line_buffered() && __s.size() && (__s.back() == '\n' || __builtin_memchr(__s.data(), '\n', __s.size()))) _M_file._M_flush(); } } using _Sink::out; }; #elif _GLIBCXX_USE_STDIO_LOCKING // A format sink that buffers output and then copies it to a stdio FILE. // The file is locked on construction and written to using fwrite_unlocked. class _File_sink final : _Buf_sink { FILE* _M_file; bool _M_add_newline; // Transfer buffer contents to the FILE, so buffer can be refilled. void _M_overflow() override { auto __s = this->_M_used(); #if _GLIBCXX_HAVE_FWRITE_UNLOCKED auto __n = ::fwrite_unlocked(__s.data(), 1, __s.size(), _M_file); if (__n != __s.size()) __throw_system_error(errno); #else for (char __c : __s) ::putc_unlocked(__c, _M_file); if (::ferror(_M_file)) __throw_system_error(errno); #endif this->_M_reset(this->_M_buf); } public: _File_sink(FILE* __f, bool __add_newline) noexcept : _Buf_sink(), _M_file(__f), _M_add_newline(__add_newline) { ::flockfile(__f); } ~_File_sink() noexcept(false) { _File_sink::_M_overflow(); if (_M_add_newline) ::putc_unlocked('\n', _M_file); ::funlockfile(_M_file); } using _Sink::out; }; #else // A wrapper around a format sink that copies the output to a stdio FILE. // This is not actually a _Sink itself, but it creates one to hold the // formatted characters and then copies them to the file when finished. class _File_sink final { FILE* _M_file; _Str_sink _M_sink; bool _M_add_newline; public: _File_sink(FILE* __f, bool __add_newline) noexcept : _M_file(__f), _M_add_newline(__add_newline) { } ~_File_sink() noexcept(false) { string __s = std::move(_M_sink).get(); if (_M_add_newline) __s += '\n'; auto __n = std::fwrite(__s.data(), 1, __s.size(), _M_file); if (__n < __s.size()) __throw_system_error(EIO); } auto out() { return _M_sink.out(); } }; #endif } // namespace __format inline void vprint_nonunicode(FILE* __stream, string_view __fmt, format_args __args) { std::vformat_to(__format::_File_sink(__stream, false).out(), __fmt, __args); } inline void vprint_nonunicode_buffered(FILE* __stream, string_view __fmt, format_args __args) { __format::_Str_sink __buf; std::vformat_to(__buf.out(), __fmt, __args); auto __out = __buf.view(); if (std::fwrite(__out.data(), 1, __out.size(), __stream) != __out.size()) __throw_system_error(EIO); } inline void vprint_unicode(FILE* __stream, string_view __fmt, format_args __args) { #if !defined(_WIN32) || defined(__CYGWIN__) // For most targets we don't need to do anything special to write // Unicode to a terminal. std::vprint_nonunicode(__stream, __fmt, __args); #else __format::_Str_sink __buf; std::vformat_to(__buf.out(), __fmt, __args); auto __out = __buf._M_span(); void* __open_terminal(FILE*); error_code __write_to_terminal(void*, span); // If stream refers to a terminal, write a native Unicode string to it. if (auto __term = __open_terminal(__stream)) { error_code __e; if (!std::fflush(__stream)) { __e = __write_to_terminal(__term, __out); if (!__e) return; if (__e == std::make_error_code(errc::illegal_byte_sequence)) return; } else __e = error_code(errno, generic_category()); _GLIBCXX_THROW_OR_ABORT(system_error(__e, "std::vprint_unicode")); } // Otherwise just write the string to the file. if (std::fwrite(__out.data(), 1, __out.size(), __stream) != __out.size()) __throw_system_error(EIO); #endif } inline void vprint_unicode_buffered(FILE* __stream, string_view __fmt, format_args __args) { #if !defined(_WIN32) || defined(__CYGWIN__) // For most targets we don't need to do anything special to write // Unicode to a terminal. Just use the nonunicode function. std::vprint_nonunicode_buffered(__stream, __fmt, __args); #else // For Windows the locking function formats everything first anyway, // so no formatting happens while a lock is taken. Just use that. std::vprint_unicode(__stream, __fmt, __args); #endif } template inline void print(FILE* __stream, format_string<_Args...> __fmt, _Args&&... __args) { constexpr bool __locksafe = (enable_nonlocking_formatter_optimization> && ...); auto __fmtargs = std::make_format_args(__args...); #if defined(_WIN32) && !defined(__CYGWIN__) if constexpr (__unicode::__literal_encoding_is_utf8()) std::vprint_unicode_buffered(__stream, __fmt.get(), __fmtargs); else #endif if constexpr (__locksafe) std::vprint_nonunicode(__stream, __fmt.get(), __fmtargs); else std::vprint_nonunicode_buffered(__stream, __fmt.get(), __fmtargs); } template inline void print(format_string<_Args...> __fmt, _Args&&... __args) { std::print(stdout, __fmt, std::forward<_Args>(__args)...); } template inline void println(FILE* __stream, format_string<_Args...> __fmt, _Args&&... __args) { constexpr bool __locksafe = (enable_nonlocking_formatter_optimization> && ...); // The standard wants us to call // print(stream, runtime_format(string(fmt.get()) + '\n'), args...) // here, but we can avoid that string concatenation in most cases, // and we know what that would call, so we can call that directly. auto __fmtargs = std::make_format_args(__args...); #if defined(_WIN32) && !defined(__CYGWIN__) if constexpr (__unicode::__literal_encoding_is_utf8()) { // We can't avoid the string concatenation here, but we can call // vprint_unicode_buffered directly, since that's what print would do. string __fmtn; __fmtn.reserve(__fmt.get().size() + 1); __fmtn = __fmt.get(); __fmtn += '\n'; std::vprint_unicode_buffered(__stream, __fmtn, __fmtargs); } else #endif // For non-Windows and for non-Unicode on Windows, we know that print // would call vprint_nonunicode or vprint_nonunicode_buffered with a // newline appended to the format-string. Use a _File_sink that adds // the newline automatically and write to it directly. if constexpr (__locksafe) std::vformat_to(__format::_File_sink(__stream, true).out(), __fmt.get(), __fmtargs); else { // Format to a string buffer first, then write the result to a // _File_sink that adds a newline. __format::_Str_sink __buf; std::vformat_to(__buf.out(), __fmt.get(), __fmtargs); string_view __s(__buf.view()); __format::_File_sink(__stream, true).out() = __s; } } template inline void println(format_string<_Args...> __fmt, _Args&&... __args) { std::println(stdout, __fmt, std::forward<_Args>(__args)...); } inline void vprint_unicode_buffered(string_view __fmt, format_args __args) { std::vprint_unicode_buffered(stdout, __fmt, __args); } inline void vprint_nonunicode_buffered(string_view __fmt, format_args __args) { std::vprint_nonunicode_buffered(stdout, __fmt, __args); } // Defined for C++26, supported as an extension to C++23. inline void println(FILE* __stream) { #if defined(_WIN32) && !defined(__CYGWIN__) if constexpr (__unicode::__literal_encoding_is_utf8()) std::vprint_unicode_buffered(__stream, "\n", std::make_format_args()); else #endif if (std::putc('\n', __stream) == EOF) __throw_system_error(EIO); } inline void println() { std::println(stdout); } _GLIBCXX_END_NAMESPACE_VERSION } // namespace std #endif // __cpp_lib_print #endif // _GLIBCXX_PRINT