// -*- 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_INTEGRAL_H #define _LIBCPP___FORMAT_FORMATTER_INTEGRAL_H #include <__charconv/to_chars_integral.h> #include <__charconv/to_chars_result.h> #include <__charconv/traits.h> #include <__concepts/arithmetic.h> #include <__concepts/same_as.h> #include <__config> #include <__format/concepts.h> #include <__format/format_error.h> #include <__format/formatter_output.h> #include <__format/parser_std_format_spec.h> #include <__iterator/concepts.h> #include <__iterator/iterator_traits.h> #include <__memory/pointer_traits.h> #include <__system_error/errc.h> #include <__type_traits/make_unsigned.h> #include <__utility/unreachable.h> #include #include #include #include #ifndef _LIBCPP_HAS_NO_LOCALIZATION # include <__locale> #endif #if !defined(_LIBCPP_HAS_NO_PRAGMA_SYSTEM_HEADER) # pragma GCC system_header #endif _LIBCPP_PUSH_MACROS #include <__undef_macros> _LIBCPP_BEGIN_NAMESPACE_STD #if _LIBCPP_STD_VER >= 20 namespace __formatter { // // Generic // template requires same_as> _LIBCPP_HIDE_FROM_ABI inline _Iterator __insert_sign(_Iterator __buf, bool __negative, __format_spec::__sign __sign) { if (__negative) *__buf++ = '-'; else switch (__sign) { case __format_spec::__sign::__default: case __format_spec::__sign::__minus: // No sign added. break; case __format_spec::__sign::__plus: *__buf++ = '+'; break; case __format_spec::__sign::__space: *__buf++ = ' '; break; } return __buf; } /** * Determines the required grouping based on the size of the input. * * The grouping's last element will be repeated. For simplicity this repeating * is unwrapped based on the length of the input. (When the input is short some * groups are not processed.) * * @returns The size of the groups to write. This means the number of * separator characters written is size() - 1. * * @note Since zero-sized groups cause issues they are silently ignored. * * @note The grouping field of the locale is always a @c std::string, * regardless whether the @c std::numpunct's type is @c char or @c wchar_t. */ _LIBCPP_HIDE_FROM_ABI inline string __determine_grouping(ptrdiff_t __size, const string& __grouping) { _LIBCPP_ASSERT_INTERNAL(!__grouping.empty() && __size > __grouping[0], "The slow grouping formatting is used while there will be no separators written"); string __r; auto __end = __grouping.end() - 1; auto __ptr = __grouping.begin(); while (true) { __size -= *__ptr; if (__size > 0) __r.push_back(*__ptr); else { // __size <= 0 so the value pushed will be <= *__ptr. __r.push_back(*__ptr + __size); return __r; } // Proceed to the next group. if (__ptr != __end) { do { ++__ptr; // Skip grouping with a width of 0. } while (*__ptr == 0 && __ptr != __end); } } __libcpp_unreachable(); } // // Char // template <__fmt_char_type _CharT> _LIBCPP_HIDE_FROM_ABI auto __format_char(integral auto __value, output_iterator auto __out_it, __format_spec::__parsed_specifications<_CharT> __specs) -> decltype(__out_it) { using _Tp = decltype(__value); if constexpr (!same_as<_CharT, _Tp>) { // cmp_less and cmp_greater can't be used for character types. if constexpr (signed_integral<_CharT> == signed_integral<_Tp>) { if (__value < numeric_limits<_CharT>::min() || __value > numeric_limits<_CharT>::max()) std::__throw_format_error("Integral value outside the range of the char type"); } else if constexpr (signed_integral<_CharT>) { // _CharT is signed _Tp is unsigned if (__value > static_cast>(numeric_limits<_CharT>::max())) std::__throw_format_error("Integral value outside the range of the char type"); } else { // _CharT is unsigned _Tp is signed if (__value < 0 || static_cast>(__value) > numeric_limits<_CharT>::max()) std::__throw_format_error("Integral value outside the range of the char type"); } } const auto __c = static_cast<_CharT>(__value); return __formatter::__write(std::addressof(__c), std::addressof(__c) + 1, std::move(__out_it), __specs); } // // Integer // /** Wrapper around @ref to_chars, returning the output iterator. */ template requires same_as> _LIBCPP_HIDE_FROM_ABI _Iterator __to_buffer(_Iterator __first, _Iterator __last, _Tp __value, int __base) { // TODO FMT Evaluate code overhead due to not calling the internal function // directly. (Should be zero overhead.) to_chars_result __r = std::to_chars(std::to_address(__first), std::to_address(__last), __value, __base); _LIBCPP_ASSERT_INTERNAL(__r.ec == errc(0), "Internal buffer too small"); auto __diff = __r.ptr - std::to_address(__first); return __first + __diff; } /** * Helper to determine the buffer size to output a integer in Base @em x. * * There are several overloads for the supported bases. The function uses the * base as template argument so it can be used in a constant expression. */ template consteval size_t __buffer_size() noexcept requires(_Base == 2) { return numeric_limits<_Tp>::digits // The number of binary digits. + 2 // Reserve space for the '0[Bb]' prefix. + 1; // Reserve space for the sign. } template consteval size_t __buffer_size() noexcept requires(_Base == 8) { return numeric_limits<_Tp>::digits // The number of binary digits. / 3 // Adjust to octal. + 1 // Turn floor to ceil. + 1 // Reserve space for the '0' prefix. + 1; // Reserve space for the sign. } template consteval size_t __buffer_size() noexcept requires(_Base == 10) { return numeric_limits<_Tp>::digits10 // The floored value. + 1 // Turn floor to ceil. + 1; // Reserve space for the sign. } template consteval size_t __buffer_size() noexcept requires(_Base == 16) { return numeric_limits<_Tp>::digits // The number of binary digits. / 4 // Adjust to hexadecimal. + 2 // Reserve space for the '0[Xx]' prefix. + 1; // Reserve space for the sign. } template requires same_as> _LIBCPP_HIDE_FROM_ABI _OutIt __write_using_decimal_separators( _OutIt __out_it, _Iterator __begin, _Iterator __first, _Iterator __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, std::move(__out_it)); if (__specs.__width_ > __size) { // Write zero padding. __padding.__before_ = __specs.__width_ - __size; __out_it = __formatter::__fill(std::move(__out_it), __specs.__width_ - __size, _CharT('0')); } } else { if (__specs.__width_ > __size) { // Determine padding and write padding. __padding = __formatter::__padding_size(__size, __specs.__width_, __specs.__alignment_); __out_it = __formatter::__fill(std::move(__out_it), __padding.__before_, __specs.__fill_); } // Write [sign][prefix]. __out_it = __formatter::__copy(__begin, __first, std::move(__out_it)); } auto __r = __grouping.rbegin(); auto __e = __grouping.rend() - 1; _LIBCPP_ASSERT_INTERNAL( __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, std::move(__out_it), __hex_to_upper); __first = __last; } else { __out_it = __formatter::__copy(__first, *__r, std::move(__out_it)); __first += *__r; } if (__r == __e) break; ++__r; *__out_it++ = __sep; } return __formatter::__fill(std::move(__out_it), __padding.__after_, __specs.__fill_); } template requires same_as> _LIBCPP_HIDE_FROM_ABI typename _FormatContext::iterator __format_integer( _Tp __value, _FormatContext& __ctx, __format_spec::__parsed_specifications<_CharT> __specs, bool __negative, _Iterator __begin, _Iterator __end, const char* __prefix, int __base) { _Iterator __first = __formatter::__insert_sign(__begin, __negative, __specs.__std_.__sign_); if (__specs.__std_.__alternate_form_ && __prefix) while (*__prefix) *__first++ = *__prefix++; _Iterator __last = __formatter::__to_buffer(__first, __end, __value, __base); # ifndef _LIBCPP_HAS_NO_LOCALIZATION if (__specs.__std_.__locale_specific_form_) { const auto& __np = std::use_facet>(__ctx.locale()); string __grouping = __np.grouping(); ptrdiff_t __size = __last - __first; // Writing the grouped form has more overhead than the normal output // routines. If there will be no separators written the locale-specific // form is identical to the normal routine. Test whether to grouped form // is required. if (!__grouping.empty() && __size > __grouping[0]) return __formatter::__write_using_decimal_separators( __ctx.out(), __begin, __first, __last, __formatter::__determine_grouping(__size, __grouping), __np.thousands_sep(), __specs); } # endif auto __out_it = __ctx.out(); if (__specs.__alignment_ != __format_spec::__alignment::__zero_padding) __first = __begin; else { // __buf contains [sign][prefix]data // ^ location of __first // The zero padding is done like: // - Write [sign][prefix] // - Write data right aligned with '0' as fill character. __out_it = __formatter::__copy(__begin, __first, std::move(__out_it)); __specs.__alignment_ = __format_spec::__alignment::__right; __specs.__fill_.__data[0] = _CharT('0'); int32_t __size = __first - __begin; __specs.__width_ -= std::min(__size, __specs.__width_); } if (__specs.__std_.__type_ != __format_spec::__type::__hexadecimal_upper_case) [[likely]] return __formatter::__write(__first, __last, __ctx.out(), __specs); return __formatter::__write_transformed(__first, __last, __ctx.out(), __specs, __formatter::__hex_to_upper); } template _LIBCPP_HIDE_FROM_ABI typename _FormatContext::iterator __format_integer(_Tp __value, _FormatContext& __ctx, __format_spec::__parsed_specifications<_CharT> __specs, bool __negative = false) { switch (__specs.__std_.__type_) { case __format_spec::__type::__binary_lower_case: { array()> __array; return __formatter::__format_integer(__value, __ctx, __specs, __negative, __array.begin(), __array.end(), "0b", 2); } case __format_spec::__type::__binary_upper_case: { array()> __array; return __formatter::__format_integer(__value, __ctx, __specs, __negative, __array.begin(), __array.end(), "0B", 2); } case __format_spec::__type::__octal: { // Octal is special; if __value == 0 there's no prefix. array()> __array; return __formatter::__format_integer( __value, __ctx, __specs, __negative, __array.begin(), __array.end(), __value != 0 ? "0" : nullptr, 8); } case __format_spec::__type::__default: case __format_spec::__type::__decimal: { array()> __array; return __formatter::__format_integer( __value, __ctx, __specs, __negative, __array.begin(), __array.end(), nullptr, 10); } case __format_spec::__type::__hexadecimal_lower_case: { array()> __array; return __formatter::__format_integer(__value, __ctx, __specs, __negative, __array.begin(), __array.end(), "0x", 16); } case __format_spec::__type::__hexadecimal_upper_case: { array()> __array; return __formatter::__format_integer(__value, __ctx, __specs, __negative, __array.begin(), __array.end(), "0X", 16); } default: _LIBCPP_ASSERT_INTERNAL(false, "The parse function should have validated the type"); __libcpp_unreachable(); } } template _LIBCPP_HIDE_FROM_ABI typename _FormatContext::iterator __format_integer(_Tp __value, _FormatContext& __ctx, __format_spec::__parsed_specifications<_CharT> __specs) { // Depending on the std-format-spec string the sign and the value // might not be outputted together: // - alternate form may insert a prefix string. // - zero-padding may insert additional '0' characters. // Therefore the value is processed as a positive unsigned value. // The function @ref __insert_sign will a '-' when the value was negative. auto __r = std::__to_unsigned_like(__value); bool __negative = __value < 0; if (__negative) __r = std::__complement(__r); return __formatter::__format_integer(__r, __ctx, __specs, __negative); } // // Formatter arithmetic (bool) // template struct _LIBCPP_TEMPLATE_VIS __bool_strings; template <> struct _LIBCPP_TEMPLATE_VIS __bool_strings { static constexpr string_view __true{"true"}; static constexpr string_view __false{"false"}; }; # ifndef _LIBCPP_HAS_NO_WIDE_CHARACTERS template <> struct _LIBCPP_TEMPLATE_VIS __bool_strings { static constexpr wstring_view __true{L"true"}; static constexpr wstring_view __false{L"false"}; }; # endif template _LIBCPP_HIDE_FROM_ABI typename _FormatContext::iterator __format_bool(bool __value, _FormatContext& __ctx, __format_spec::__parsed_specifications<_CharT> __specs) { # ifndef _LIBCPP_HAS_NO_LOCALIZATION if (__specs.__std_.__locale_specific_form_) { const auto& __np = std::use_facet>(__ctx.locale()); basic_string<_CharT> __str = __value ? __np.truename() : __np.falsename(); return __formatter::__write_string_no_precision(basic_string_view<_CharT>{__str}, __ctx.out(), __specs); } # endif basic_string_view<_CharT> __str = __value ? __formatter::__bool_strings<_CharT>::__true : __formatter::__bool_strings<_CharT>::__false; return __formatter::__write(__str.begin(), __str.end(), __ctx.out(), __specs); } } // namespace __formatter #endif //_LIBCPP_STD_VER >= 20 _LIBCPP_END_NAMESPACE_STD _LIBCPP_POP_MACROS #endif // _LIBCPP___FORMAT_FORMATTER_INTEGRAL_H