clang-r475365/include/c++/v1/__format/formatter_output.h - platform/prebuilts/clang/host/darwin-x86 - Git at Google

 // -*- C++ -*-
 //===----------------------------------------------------------------------===//
 //
 // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
 // See https://llvm.org/LICENSE.txt for license information.
 // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
 //
 //===----------------------------------------------------------------------===//

 #ifndef _LIBCPP___FORMAT_FORMATTER_OUTPUT_H
 #define _LIBCPP___FORMAT_FORMATTER_OUTPUT_H

 #include <__algorithm/in_out_result.h>
 #include <__algorithm/ranges_copy.h>
 #include <__algorithm/ranges_fill_n.h>
 #include <__algorithm/ranges_transform.h>
 #include <__concepts/same_as.h>
 #include <__config>
 #include <__format/buffer.h>
 #include <__format/concepts.h>
 #include <__format/formatter.h>
 #include <__format/parser_std_format_spec.h>
 #include <__format/unicode.h>
 #include <__iterator/back_insert_iterator.h>
 #include <__utility/move.h>
 #include <__utility/unreachable.h>
 #include <cstddef>
 #include <string>
 #include <string_view>

 #if !defined(_LIBCPP_HAS_NO_PRAGMA_SYSTEM_HEADER)
 #  pragma GCC system_header
 #endif

 _LIBCPP_BEGIN_NAMESPACE_STD

 #if _LIBCPP_STD_VER > 17

 namespace __formatter {

 _LIBCPP_HIDE_FROM_ABI constexpr char __hex_to_upper(char __c) {
   switch (__c) {
   case 'a':
     return 'A';
   case 'b':
     return 'B';
   case 'c':
     return 'C';
   case 'd':
     return 'D';
   case 'e':
     return 'E';
   case 'f':
     return 'F';
   }
   return __c;
 }

 struct _LIBCPP_TYPE_VIS __padding_size_result {
   size_t __before_;
   size_t __after_;
 };

 _LIBCPP_HIDE_FROM_ABI constexpr __padding_size_result
 __padding_size(size_t __size, size_t __width, __format_spec::__alignment __align) {
   _LIBCPP_ASSERT(__width > __size, "don't call this function when no padding is required");
   _LIBCPP_ASSERT(
       __align != __format_spec::__alignment::__zero_padding, "the caller should have handled the zero-padding");

   size_t __fill = __width - __size;
   switch (__align) {
   case __format_spec::__alignment::__zero_padding:
     __libcpp_unreachable();

   case __format_spec::__alignment::__left:
     return {0, __fill};

   case __format_spec::__alignment::__center: {
     // The extra padding is divided per [format.string.std]/3
     // __before = floor(__fill, 2);
     // __after = ceil(__fill, 2);
     size_t __before = __fill / 2;
     size_t __after  = __fill - __before;
     return {__before, __after};
   }
   case __format_spec::__alignment::__default:
   case __format_spec::__alignment::__right:
     return {__fill, 0};
   }
   __libcpp_unreachable();
 }

 /// Copy wrapper.
 ///
 /// This uses a "mass output function" of __format::__output_buffer when possible.
 template <__fmt_char_type _CharT, __fmt_char_type _OutCharT = _CharT>
 _LIBCPP_HIDE_FROM_ABI auto __copy(basic_string_view<_CharT> __str, output_iterator<const _OutCharT&> auto __out_it)
     -> decltype(__out_it) {
   if constexpr (_VSTD::same_as<decltype(__out_it), _VSTD::back_insert_iterator<__format::__output_buffer<_OutCharT>>>) {
     __out_it.__get_container()->__copy(__str);
     return __out_it;
   } else {
     return std::ranges::copy(__str, _VSTD::move(__out_it)).out;
   }
 }

 template <__fmt_char_type _CharT, __fmt_char_type _OutCharT = _CharT>
 _LIBCPP_HIDE_FROM_ABI auto
 __copy(const _CharT* __first, const _CharT* __last, output_iterator<const _OutCharT&> auto __out_it)
     -> decltype(__out_it) {
   return __formatter::__copy(basic_string_view{__first, __last}, _VSTD::move(__out_it));
 }

 template <__fmt_char_type _CharT, __fmt_char_type _OutCharT = _CharT>
 _LIBCPP_HIDE_FROM_ABI auto __copy(const _CharT* __first, size_t __n, output_iterator<const _OutCharT&> auto __out_it)
     -> decltype(__out_it) {
   return __formatter::__copy(basic_string_view{__first, __n}, _VSTD::move(__out_it));
 }

 /// Transform wrapper.
 ///
 /// This uses a "mass output function" of __format::__output_buffer when possible.
 template <__fmt_char_type _CharT, __fmt_char_type _OutCharT = _CharT, class _UnaryOperation>
 _LIBCPP_HIDE_FROM_ABI auto
 __transform(const _CharT* __first,
             const _CharT* __last,
             output_iterator<const _OutCharT&> auto __out_it,
             _UnaryOperation __operation) -> decltype(__out_it) {
   if constexpr (_VSTD::same_as<decltype(__out_it), _VSTD::back_insert_iterator<__format::__output_buffer<_OutCharT>>>) {
     __out_it.__get_container()->__transform(__first, __last, _VSTD::move(__operation));
     return __out_it;
   } else {
     return std::ranges::transform(__first, __last, _VSTD::move(__out_it), __operation).out;
   }
 }

 /// Fill wrapper.
 ///
 /// This uses a "mass output function" of __format::__output_buffer when possible.
 template <__fmt_char_type _CharT, output_iterator<const _CharT&> _OutIt>
 _LIBCPP_HIDE_FROM_ABI _OutIt __fill(_OutIt __out_it, size_t __n, _CharT __value) {
   if constexpr (_VSTD::same_as<decltype(__out_it), _VSTD::back_insert_iterator<__format::__output_buffer<_CharT>>>) {
     __out_it.__get_container()->__fill(__n, __value);
     return __out_it;
   } else {
     return std::ranges::fill_n(_VSTD::move(__out_it), __n, __value);
   }
 }

 template <class _OutIt, class _CharT>
 _LIBCPP_HIDE_FROM_ABI _OutIt __write_using_decimal_separators(_OutIt __out_it, const char* __begin, const char* __first,
                                                               const char* __last, string&& __grouping, _CharT __sep,
                                                               __format_spec::__parsed_specifications<_CharT> __specs) {
   int __size = (__first - __begin) +    // [sign][prefix]
                (__last - __first) +     // data
                (__grouping.size() - 1); // number of separator characters

   __padding_size_result __padding = {0, 0};
   if (__specs.__alignment_ == __format_spec::__alignment::__zero_padding) {
     // Write [sign][prefix].
     __out_it = __formatter::__copy(__begin, __first, _VSTD::move(__out_it));

     if (__specs.__width_ > __size) {
       // Write zero padding.
       __padding.__before_ = __specs.__width_ - __size;
       __out_it            = __formatter::__fill(_VSTD::move(__out_it), __specs.__width_ - __size, _CharT('0'));
     }
   } else {
     if (__specs.__width_ > __size) {
       // Determine padding and write padding.
       __padding = __padding_size(__size, __specs.__width_, __specs.__alignment_);

       __out_it = __formatter::__fill(_VSTD::move(__out_it), __padding.__before_, __specs.__fill_);
     }
     // Write [sign][prefix].
     __out_it = __formatter::__copy(__begin, __first, _VSTD::move(__out_it));
   }

   auto __r = __grouping.rbegin();
   auto __e = __grouping.rend() - 1;
   _LIBCPP_ASSERT(__r != __e, "The slow grouping formatting is used while "
                              "there will be no separators written.");
   // The output is divided in small groups of numbers to write:
   // - A group before the first separator.
   // - A separator and a group, repeated for the number of separators.
   // - A group after the last separator.
   // This loop achieves that process by testing the termination condition
   // midway in the loop.
   //
   // TODO FMT This loop evaluates the loop invariant `__parser.__type !=
   // _Flags::_Type::__hexadecimal_upper_case` for every iteration. (This test
   // happens in the __write call.) Benchmark whether making two loops and
   // hoisting the invariant is worth the effort.
   while (true) {
     if (__specs.__std_.__type_ == __format_spec::__type::__hexadecimal_upper_case) {
       __last = __first + *__r;
       __out_it = __formatter::__transform(__first, __last, _VSTD::move(__out_it), __hex_to_upper);
       __first = __last;
     } else {
       __out_it = __formatter::__copy(__first, *__r, _VSTD::move(__out_it));
       __first += *__r;
     }

     if (__r == __e)
       break;

     ++__r;
     *__out_it++ = __sep;
   }

   return __formatter::__fill(_VSTD::move(__out_it), __padding.__after_, __specs.__fill_);
 }

 /// Writes the input to the output with the required padding.
 ///
 /// Since the output column width is specified the function can be used for
 /// ASCII and Unicode output.
 ///
 /// \pre \a __size <= \a __width. Using this function when this pre-condition
 ///      doesn't hold incurs an unwanted overhead.
 ///
 /// \param __str       The string to write.
 /// \param __out_it    The output iterator to write to.
 /// \param __specs     The parsed formatting specifications.
 /// \param __size      The (estimated) output column width. When the elements
 ///                    to be written are ASCII the following condition holds
 ///                    \a __size == \a __last - \a __first.
 ///
 /// \returns           An iterator pointing beyond the last element written.
 ///
 /// \note The type of the elements in range [\a __first, \a __last) can differ
 /// from the type of \a __specs. Integer output uses \c std::to_chars for its
 /// conversion, which means the [\a __first, \a __last) always contains elements
 /// of the type \c char.
 template <class _CharT, class _ParserCharT>
 _LIBCPP_HIDE_FROM_ABI auto
 __write(basic_string_view<_CharT> __str,
         output_iterator<const _CharT&> auto __out_it,
         __format_spec::__parsed_specifications<_ParserCharT> __specs,
         ptrdiff_t __size) -> decltype(__out_it) {
   if (__size >= __specs.__width_)
     return __formatter::__copy(__str, _VSTD::move(__out_it));

   __padding_size_result __padding = __formatter::__padding_size(__size, __specs.__width_, __specs.__std_.__alignment_);
   __out_it                        = __formatter::__fill(_VSTD::move(__out_it), __padding.__before_, __specs.__fill_);
   __out_it                        = __formatter::__copy(__str, _VSTD::move(__out_it));
   return __formatter::__fill(_VSTD::move(__out_it), __padding.__after_, __specs.__fill_);
 }

 template <class _CharT, class _ParserCharT>
 _LIBCPP_HIDE_FROM_ABI auto
 __write(const _CharT* __first,
         const _CharT* __last,
         output_iterator<const _CharT&> auto __out_it,
         __format_spec::__parsed_specifications<_ParserCharT> __specs,
         ptrdiff_t __size) -> decltype(__out_it) {
   _LIBCPP_ASSERT(__first <= __last, "Not a valid range");
   return __formatter::__write(basic_string_view{__first, __last}, _VSTD::move(__out_it), __specs, __size);
 }

 /// \overload
 ///
 /// Calls the function above where \a __size = \a __last - \a __first.
 template <class _CharT, class _ParserCharT>
 _LIBCPP_HIDE_FROM_ABI auto
 __write(const _CharT* __first,
         const _CharT* __last,
         output_iterator<const _CharT&> auto __out_it,
         __format_spec::__parsed_specifications<_ParserCharT> __specs) -> decltype(__out_it) {
   _LIBCPP_ASSERT(__first <= __last, "Not a valid range");
   return __formatter::__write(__first, __last, _VSTD::move(__out_it), __specs, __last - __first);
 }

 template <class _CharT, class _ParserCharT, class _UnaryOperation>
 _LIBCPP_HIDE_FROM_ABI auto __write_transformed(const _CharT* __first, const _CharT* __last,
                                                output_iterator<const _CharT&> auto __out_it,
                                                __format_spec::__parsed_specifications<_ParserCharT> __specs,
                                                _UnaryOperation __op) -> decltype(__out_it) {
   _LIBCPP_ASSERT(__first <= __last, "Not a valid range");

   ptrdiff_t __size = __last - __first;
   if (__size >= __specs.__width_)
     return __formatter::__transform(__first, __last, _VSTD::move(__out_it), __op);

   __padding_size_result __padding = __padding_size(__size, __specs.__width_, __specs.__alignment_);
   __out_it                        = __formatter::__fill(_VSTD::move(__out_it), __padding.__before_, __specs.__fill_);
   __out_it                        = __formatter::__transform(__first, __last, _VSTD::move(__out_it), __op);
   return __formatter::__fill(_VSTD::move(__out_it), __padding.__after_, __specs.__fill_);
 }

 /// Writes additional zero's for the precision before the exponent.
 /// This is used when the precision requested in the format string is larger
 /// than the maximum precision of the floating-point type. These precision
 /// digits are always 0.
 ///
 /// \param __exponent           The location of the exponent character.
 /// \param __num_trailing_zeros The number of 0's to write before the exponent
 ///                             character.
 template <class _CharT, class _ParserCharT>
 _LIBCPP_HIDE_FROM_ABI auto __write_using_trailing_zeros(
     const _CharT* __first,
     const _CharT* __last,
     output_iterator<const _CharT&> auto __out_it,
     __format_spec::__parsed_specifications<_ParserCharT> __specs,
     size_t __size,
     const _CharT* __exponent,
     size_t __num_trailing_zeros) -> decltype(__out_it) {
   _LIBCPP_ASSERT(__first <= __last, "Not a valid range");
   _LIBCPP_ASSERT(__num_trailing_zeros > 0, "The overload not writing trailing zeros should have been used");

   __padding_size_result __padding =
       __padding_size(__size + __num_trailing_zeros, __specs.__width_, __specs.__alignment_);
   __out_it = __formatter::__fill(_VSTD::move(__out_it), __padding.__before_, __specs.__fill_);
   __out_it = __formatter::__copy(__first, __exponent, _VSTD::move(__out_it));
   __out_it = __formatter::__fill(_VSTD::move(__out_it), __num_trailing_zeros, _CharT('0'));
   __out_it = __formatter::__copy(__exponent, __last, _VSTD::move(__out_it));
   return __formatter::__fill(_VSTD::move(__out_it), __padding.__after_, __specs.__fill_);
 }

 /// Writes a string using format's width estimation algorithm.
 ///
 /// \pre !__specs.__has_precision()
 ///
 /// \note When \c _LIBCPP_HAS_NO_UNICODE is defined the function assumes the
 /// input is ASCII.
 template <class _CharT>
 _LIBCPP_HIDE_FROM_ABI auto __write_string_no_precision(
     basic_string_view<_CharT> __str,
     output_iterator<const _CharT&> auto __out_it,
     __format_spec::__parsed_specifications<_CharT> __specs) -> decltype(__out_it) {
   _LIBCPP_ASSERT(!__specs.__has_precision(), "use __write_string");

   // No padding -> copy the string
   if (!__specs.__has_width())
     return __formatter::__copy(__str, _VSTD::move(__out_it));

   // Note when the estimated width is larger than size there's no padding. So
   // there's no reason to get the real size when the estimate is larger than or
   // equal to the minimum field width.
   size_t __size =
       __format_spec::__estimate_column_width(__str, __specs.__width_, __format_spec::__column_width_rounding::__up)
           .__width_;
   return __formatter::__write(__str, _VSTD::move(__out_it), __specs, __size);
 }

 template <class _CharT>
 _LIBCPP_HIDE_FROM_ABI int __truncate(basic_string_view<_CharT>& __str, int __precision) {
   __format_spec::__column_width_result<_CharT> __result =
       __format_spec::__estimate_column_width(__str, __precision, __format_spec::__column_width_rounding::__down);
   __str = basic_string_view<_CharT>{__str.begin(), __result.__last_};
   return __result.__width_;
 }

 /// Writes a string using format's width estimation algorithm.
 ///
 /// \note When \c _LIBCPP_HAS_NO_UNICODE is defined the function assumes the
 /// input is ASCII.
 template <class _CharT>
 _LIBCPP_HIDE_FROM_ABI auto __write_string(
     basic_string_view<_CharT> __str,
     output_iterator<const _CharT&> auto __out_it,
     __format_spec::__parsed_specifications<_CharT> __specs) -> decltype(__out_it) {
   if (!__specs.__has_precision())
     return __formatter::__write_string_no_precision(__str, _VSTD::move(__out_it), __specs);

   int __size = __formatter::__truncate(__str, __specs.__precision_);

   return __write(__str.begin(), __str.end(), _VSTD::move(__out_it), __specs, __size);
 }

 } // namespace __formatter

 #endif //_LIBCPP_STD_VER > 17

 _LIBCPP_END_NAMESPACE_STD

 #endif // _LIBCPP___FORMAT_FORMATTER_OUTPUT_H
	// -- C++ --
	//===----------------------------------------------------------------------===//
	//
	// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
	// See https://llvm.org/LICENSE.txt for license information.
	// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
	//
	//===----------------------------------------------------------------------===//

	#ifndef _LIBCPP___FORMAT_FORMATTER_OUTPUT_H
	#define _LIBCPP___FORMAT_FORMATTER_OUTPUT_H

	#include <__algorithm/in_out_result.h>
	#include <__algorithm/ranges_copy.h>
	#include <__algorithm/ranges_fill_n.h>
	#include <__algorithm/ranges_transform.h>
	#include <__concepts/same_as.h>
	#include <__config>
	#include <__format/buffer.h>
	#include <__format/concepts.h>
	#include <__format/formatter.h>
	#include <__format/parser_std_format_spec.h>
	#include <__format/unicode.h>
	#include <__iterator/back_insert_iterator.h>
	#include <__utility/move.h>
	#include <__utility/unreachable.h>
	#include <cstddef>
	#include <string>
	#include <string_view>

	#if !defined(_LIBCPP_HAS_NO_PRAGMA_SYSTEM_HEADER)
	# pragma GCC system_header
	#endif

	_LIBCPP_BEGIN_NAMESPACE_STD

	#if _LIBCPP_STD_VER > 17

	namespace __formatter {

	_LIBCPP_HIDE_FROM_ABI constexpr char __hex_to_upper(char __c) {
	switch (__c) {
	case 'a':
	return 'A';
	case 'b':
	return 'B';
	case 'c':
	return 'C';
	case 'd':
	return 'D';
	case 'e':
	return 'E';
	case 'f':
	return 'F';
	}
	return __c;
	}

	struct _LIBCPP_TYPE_VIS __padding_size_result {
	size_t __before_;
	size_t __after_;
	};

	_LIBCPP_HIDE_FROM_ABI constexpr __padding_size_result
	__padding_size(size_t __size, size_t __width, __format_spec::__alignment __align) {
	_LIBCPP_ASSERT(__width > __size, "don't call this function when no padding is required");
	_LIBCPP_ASSERT(
	__align != __format_spec::__alignment::__zero_padding, "the caller should have handled the zero-padding");

	size_t __fill = __width - __size;
	switch (__align) {
	case __format_spec::__alignment::__zero_padding:
	__libcpp_unreachable();

	case __format_spec::__alignment::__left:
	return {0, __fill};

	case __format_spec::__alignment::__center: {
	// The extra padding is divided per [format.string.std]/3
	// __before = floor(__fill, 2);
	// __after = ceil(__fill, 2);
	size_t __before = __fill / 2;
	size_t __after = __fill - __before;
	return {__before, __after};
	}
	case __format_spec::__alignment::__default:
	case __format_spec::__alignment::__right:
	return {__fill, 0};
	}
	__libcpp_unreachable();
	}

	/// Copy wrapper.
	///
	/// This uses a "mass output function" of __format::__output_buffer when possible.
	template <__fmt_char_type _CharT, __fmt_char_type _OutCharT = _CharT>
	_LIBCPP_HIDE_FROM_ABI auto __copy(basic_string_view<_CharT> __str, output_iterator<const _OutCharT&> auto __out_it)
	-> decltype(__out_it) {
	if constexpr (_VSTD::same_as<decltype(__out_it), _VSTD::back_insert_iterator<__format::__output_buffer<_OutCharT>>>) {
	__out_it.__get_container()->__copy(__str);
	return __out_it;
	} else {
	return std::ranges::copy(__str, _VSTD::move(__out_it)).out;
	}
	}

	template <__fmt_char_type _CharT, __fmt_char_type _OutCharT = _CharT>
	_LIBCPP_HIDE_FROM_ABI auto
	__copy(const _CharT* __first, const _CharT* __last, output_iterator<const _OutCharT&> auto __out_it)
	-> decltype(__out_it) {
	return __formatter::__copy(basic_string_view{__first, __last}, _VSTD::move(__out_it));
	}

	template <__fmt_char_type _CharT, __fmt_char_type _OutCharT = _CharT>
	_LIBCPP_HIDE_FROM_ABI auto __copy(const _CharT* __first, size_t __n, output_iterator<const _OutCharT&> auto __out_it)
	-> decltype(__out_it) {
	return __formatter::__copy(basic_string_view{__first, __n}, _VSTD::move(__out_it));
	}

	/// Transform wrapper.
	///
	/// This uses a "mass output function" of __format::__output_buffer when possible.
	template <__fmt_char_type _CharT, __fmt_char_type _OutCharT = _CharT, class _UnaryOperation>
	_LIBCPP_HIDE_FROM_ABI auto
	__transform(const _CharT* __first,
	const _CharT* __last,
	output_iterator<const _OutCharT&> auto __out_it,
	_UnaryOperation __operation) -> decltype(__out_it) {
	if constexpr (_VSTD::same_as<decltype(__out_it), _VSTD::back_insert_iterator<__format::__output_buffer<_OutCharT>>>) {
	__out_it.__get_container()->__transform(__first, __last, _VSTD::move(__operation));
	return __out_it;
	} else {
	return std::ranges::transform(__first, __last, _VSTD::move(__out_it), __operation).out;
	}
	}

	/// Fill wrapper.
	///
	/// This uses a "mass output function" of __format::__output_buffer when possible.
	template <__fmt_char_type _CharT, output_iterator<const _CharT&> _OutIt>
	_LIBCPP_HIDE_FROM_ABI _OutIt __fill(_OutIt __out_it, size_t __n, _CharT __value) {
	if constexpr (_VSTD::same_as<decltype(__out_it), _VSTD::back_insert_iterator<__format::__output_buffer<_CharT>>>) {
	__out_it.__get_container()->__fill(__n, __value);
	return __out_it;
	} else {
	return std::ranges::fill_n(_VSTD::move(__out_it), __n, __value);
	}
	}

	template <class _OutIt, class _CharT>
	_LIBCPP_HIDE_FROM_ABI _OutIt __write_using_decimal_separators(_OutIt __out_it, const char* __begin, const char* __first,
	const char* __last, string&& __grouping, _CharT __sep,
	__format_spec::__parsed_specifications<_CharT> __specs) {
	int __size = (__first - __begin) + // [sign][prefix]
	(__last - __first) + // data
	(__grouping.size() - 1); // number of separator characters

	__padding_size_result __padding = {0, 0};
	if (__specs.__alignment_ == __format_spec::__alignment::__zero_padding) {
	// Write [sign][prefix].
	__out_it = __formatter::__copy(__begin, __first, _VSTD::move(__out_it));

	if (__specs.__width_ > __size) {
	// Write zero padding.
	__padding.__before_ = __specs.__width_ - __size;
	__out_it = __formatter::__fill(_VSTD::move(__out_it), __specs.__width_ - __size, _CharT('0'));
	}
	} else {
	if (__specs.__width_ > __size) {
	// Determine padding and write padding.
	__padding = __padding_size(__size, __specs.__width_, __specs.__alignment_);

	__out_it = __formatter::__fill(_VSTD::move(__out_it), __padding.__before_, __specs.__fill_);
	}
	// Write [sign][prefix].
	__out_it = __formatter::__copy(__begin, __first, _VSTD::move(__out_it));
	}

	auto __r = __grouping.rbegin();
	auto __e = __grouping.rend() - 1;
	_LIBCPP_ASSERT(__r != __e, "The slow grouping formatting is used while "
	"there will be no separators written.");
	// The output is divided in small groups of numbers to write:
	// - A group before the first separator.
	// - A separator and a group, repeated for the number of separators.
	// - A group after the last separator.
	// This loop achieves that process by testing the termination condition
	// midway in the loop.
	//
	// TODO FMT This loop evaluates the loop invariant `__parser.__type !=
	// _Flags::_Type::__hexadecimal_upper_case` for every iteration. (This test
	// happens in the __write call.) Benchmark whether making two loops and
	// hoisting the invariant is worth the effort.
	while (true) {
	if (__specs.__std_.__type_ == __format_spec::__type::__hexadecimal_upper_case) {
	__last = __first + *__r;
	__out_it = __formatter::__transform(__first, __last, _VSTD::move(__out_it), __hex_to_upper);
	__first = __last;
	} else {
	__out_it = __formatter::__copy(__first, *__r, _VSTD::move(__out_it));
	__first += *__r;
	}

	if (__r == __e)
	break;

	++__r;
	*__out_it++ = __sep;
	}

	return __formatter::__fill(_VSTD::move(__out_it), __padding.__after_, __specs.__fill_);
	}

	/// Writes the input to the output with the required padding.
	///
	/// Since the output column width is specified the function can be used for
	/// ASCII and Unicode output.
	///
	/// \pre \a __size <= \a __width. Using this function when this pre-condition
	/// doesn't hold incurs an unwanted overhead.
	///
	/// \param __str The string to write.
	/// \param __out_it The output iterator to write to.
	/// \param __specs The parsed formatting specifications.
	/// \param __size The (estimated) output column width. When the elements
	/// to be written are ASCII the following condition holds
	/// \a __size == \a __last - \a __first.
	///
	/// \returns An iterator pointing beyond the last element written.
	///
	/// \note The type of the elements in range [\a __first, \a __last) can differ
	/// from the type of \a __specs. Integer output uses \c std::to_chars for its
	/// conversion, which means the [\a __first, \a __last) always contains elements
	/// of the type \c char.
	template <class _CharT, class _ParserCharT>
	_LIBCPP_HIDE_FROM_ABI auto
	__write(basic_string_view<_CharT> __str,
	output_iterator<const _CharT&> auto __out_it,
	__format_spec::__parsed_specifications<_ParserCharT> __specs,
	ptrdiff_t __size) -> decltype(__out_it) {
	if (__size >= __specs.__width_)
	return __formatter::__copy(__str, _VSTD::move(__out_it));

	__padding_size_result __padding = __formatter::__padding_size(__size, __specs.__width_, __specs.__std_.__alignment_);
	__out_it = __formatter::__fill(_VSTD::move(__out_it), __padding.__before_, __specs.__fill_);
	__out_it = __formatter::__copy(__str, _VSTD::move(__out_it));
	return __formatter::__fill(_VSTD::move(__out_it), __padding.__after_, __specs.__fill_);
	}

	template <class _CharT, class _ParserCharT>
	_LIBCPP_HIDE_FROM_ABI auto
	__write(const _CharT* __first,
	const _CharT* __last,
	output_iterator<const _CharT&> auto __out_it,
	__format_spec::__parsed_specifications<_ParserCharT> __specs,
	ptrdiff_t __size) -> decltype(__out_it) {
	_LIBCPP_ASSERT(__first <= __last, "Not a valid range");
	return __formatter::__write(basic_string_view{__first, __last}, _VSTD::move(__out_it), __specs, __size);
	}

	/// \overload
	///
	/// Calls the function above where \a __size = \a __last - \a __first.
	template <class _CharT, class _ParserCharT>
	_LIBCPP_HIDE_FROM_ABI auto
	__write(const _CharT* __first,
	const _CharT* __last,
	output_iterator<const _CharT&> auto __out_it,
	__format_spec::__parsed_specifications<_ParserCharT> __specs) -> decltype(__out_it) {
	_LIBCPP_ASSERT(__first <= __last, "Not a valid range");
	return __formatter::__write(__first, __last, _VSTD::move(__out_it), __specs, __last - __first);
	}

	template <class _CharT, class _ParserCharT, class _UnaryOperation>
	_LIBCPP_HIDE_FROM_ABI auto __write_transformed(const _CharT* __first, const _CharT* __last,
	output_iterator<const _CharT&> auto __out_it,
	__format_spec::__parsed_specifications<_ParserCharT> __specs,
	_UnaryOperation __op) -> decltype(__out_it) {
	_LIBCPP_ASSERT(__first <= __last, "Not a valid range");

	ptrdiff_t __size = __last - __first;
	if (__size >= __specs.__width_)
	return __formatter::__transform(__first, __last, _VSTD::move(__out_it), __op);

	__padding_size_result __padding = __padding_size(__size, __specs.__width_, __specs.__alignment_);
	__out_it = __formatter::__fill(_VSTD::move(__out_it), __padding.__before_, __specs.__fill_);
	__out_it = __formatter::__transform(__first, __last, _VSTD::move(__out_it), __op);
	return __formatter::__fill(_VSTD::move(__out_it), __padding.__after_, __specs.__fill_);
	}

	/// Writes additional zero's for the precision before the exponent.
	/// This is used when the precision requested in the format string is larger
	/// than the maximum precision of the floating-point type. These precision
	/// digits are always 0.
	///
	/// \param __exponent The location of the exponent character.
	/// \param __num_trailing_zeros The number of 0's to write before the exponent
	/// character.
	template <class _CharT, class _ParserCharT>
	_LIBCPP_HIDE_FROM_ABI auto __write_using_trailing_zeros(
	const _CharT* __first,
	const _CharT* __last,
	output_iterator<const _CharT&> auto __out_it,
	__format_spec::__parsed_specifications<_ParserCharT> __specs,
	size_t __size,
	const _CharT* __exponent,
	size_t __num_trailing_zeros) -> decltype(__out_it) {
	_LIBCPP_ASSERT(__first <= __last, "Not a valid range");
	_LIBCPP_ASSERT(__num_trailing_zeros > 0, "The overload not writing trailing zeros should have been used");

	__padding_size_result __padding =
	__padding_size(__size + __num_trailing_zeros, __specs.__width_, __specs.__alignment_);
	__out_it = __formatter::__fill(_VSTD::move(__out_it), __padding.__before_, __specs.__fill_);
	__out_it = __formatter::__copy(__first, __exponent, _VSTD::move(__out_it));
	__out_it = __formatter::__fill(_VSTD::move(__out_it), __num_trailing_zeros, _CharT('0'));
	__out_it = __formatter::__copy(__exponent, __last, _VSTD::move(__out_it));
	return __formatter::__fill(_VSTD::move(__out_it), __padding.__after_, __specs.__fill_);
	}

	/// Writes a string using format's width estimation algorithm.
	///
	/// \pre !__specs.__has_precision()
	///
	/// \note When \c _LIBCPP_HAS_NO_UNICODE is defined the function assumes the
	/// input is ASCII.
	template <class _CharT>
	_LIBCPP_HIDE_FROM_ABI auto __write_string_no_precision(
	basic_string_view<_CharT> __str,
	output_iterator<const _CharT&> auto __out_it,
	__format_spec::__parsed_specifications<_CharT> __specs) -> decltype(__out_it) {
	_LIBCPP_ASSERT(!__specs.__has_precision(), "use __write_string");

	// No padding -> copy the string
	if (!__specs.__has_width())
	return __formatter::__copy(__str, _VSTD::move(__out_it));

	// Note when the estimated width is larger than size there's no padding. So
	// there's no reason to get the real size when the estimate is larger than or
	// equal to the minimum field width.
	size_t __size =
	__format_spec::__estimate_column_width(__str, __specs.__width_, __format_spec::__column_width_rounding::__up)
	.__width_;
	return __formatter::__write(__str, _VSTD::move(__out_it), __specs, __size);
	}

	template <class _CharT>
	_LIBCPP_HIDE_FROM_ABI int __truncate(basic_string_view<_CharT>& __str, int __precision) {
	__format_spec::__column_width_result<_CharT> __result =
	__format_spec::__estimate_column_width(__str, __precision, __format_spec::__column_width_rounding::__down);
	__str = basic_string_view<_CharT>{__str.begin(), __result.__last_};
	return __result.__width_;
	}

	/// Writes a string using format's width estimation algorithm.
	///
	/// \note When \c _LIBCPP_HAS_NO_UNICODE is defined the function assumes the
	/// input is ASCII.
	template <class _CharT>
	_LIBCPP_HIDE_FROM_ABI auto __write_string(
	basic_string_view<_CharT> __str,
	output_iterator<const _CharT&> auto __out_it,
	__format_spec::__parsed_specifications<_CharT> __specs) -> decltype(__out_it) {
	if (!__specs.__has_precision())
	return __formatter::__write_string_no_precision(__str, _VSTD::move(__out_it), __specs);

	int __size = __formatter::__truncate(__str, __specs.__precision_);

	return __write(__str.begin(), __str.end(), _VSTD::move(__out_it), __specs, __size);
	}

	} // namespace __formatter

	#endif //_LIBCPP_STD_VER > 17

	_LIBCPP_END_NAMESPACE_STD

	#endif // _LIBCPP___FORMAT_FORMATTER_OUTPUT_H