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//
// Copyright (c) 2009-2011 Artyom Beilis (Tonkikh)
// Copyright (c) 2024 Alexander Grund
//
// Distributed under the Boost Software License, Version 1.0.
// https://www.boost.org/LICENSE_1_0.txt
#include <boost/locale/formatting.hpp>
#include "all_generator.hpp"
#include "cdata.hpp"
#include "formatter.hpp"
#include "formatters_cache.hpp"
#include <algorithm>
#include <ios>
#include <limits>
#include <locale>
#include <string>
#include <type_traits>
namespace boost { namespace locale { namespace impl_icu {
namespace detail {
template<typename T, typename PreferredType, typename AlternativeType>
struct choose_type_by_digits
: std::conditional<std::numeric_limits<T>::digits <= std::numeric_limits<PreferredType>::digits,
PreferredType,
AlternativeType> {};
template<typename T, bool integer = std::numeric_limits<T>::is_integer>
struct icu_format_type {
static_assert(sizeof(T) <= sizeof(int64_t), "Only up to 64 bit integer types are supported by ICU");
// ICU supports (only) int32_t and int64_t, use the former as long as it fits, else the latter
using large_type = typename choose_type_by_digits<T, int64_t, uint64_t>::type;
using type = typename choose_type_by_digits<T, int32_t, large_type>::type;
};
template<typename T>
struct icu_format_type<T, false> {
// Only float type ICU supports is double
using type = double;
};
template<typename ValueType>
static bool use_parent(std::ios_base& ios)
{
const uint64_t flg = ios_info::get(ios).display_flags();
if(flg == flags::posix)
return true;
if(!std::numeric_limits<ValueType>::is_integer)
return false;
if(flg == flags::number && (ios.flags() & std::ios_base::basefield) != std::ios_base::dec)
return true;
return false;
}
} // namespace detail
template<typename CharType>
class num_format : public std::num_put<CharType> {
public:
typedef typename std::num_put<CharType>::iter_type iter_type;
typedef std::basic_string<CharType> string_type;
typedef formatter<CharType> formatter_type;
num_format(const cdata& d, size_t refs = 0) : std::num_put<CharType>(refs), loc_(d.locale()), enc_(d.encoding())
{}
protected:
iter_type do_put(iter_type out, std::ios_base& ios, CharType fill, long val) const override
{
return do_real_put(out, ios, fill, val);
}
iter_type do_put(iter_type out, std::ios_base& ios, CharType fill, unsigned long val) const override
{
return do_real_put(out, ios, fill, val);
}
iter_type do_put(iter_type out, std::ios_base& ios, CharType fill, double val) const override
{
return do_real_put(out, ios, fill, val);
}
iter_type do_put(iter_type out, std::ios_base& ios, CharType fill, long double val) const override
{
return do_real_put(out, ios, fill, val);
}
iter_type do_put(iter_type out, std::ios_base& ios, CharType fill, long long val) const override
{
return do_real_put(out, ios, fill, val);
}
iter_type do_put(iter_type out, std::ios_base& ios, CharType fill, unsigned long long val) const override
{
return do_real_put(out, ios, fill, val);
}
private:
template<typename ValueType>
iter_type do_real_put(iter_type out, std::ios_base& ios, CharType fill, ValueType val) const
{
if(detail::use_parent<ValueType>(ios))
return std::num_put<CharType>::do_put(out, ios, fill, val);
const std::unique_ptr<formatter_type> formatter = formatter_type::create(ios, loc_, enc_);
if(!formatter)
return std::num_put<CharType>::do_put(out, ios, fill, val);
using icu_type = typename detail::icu_format_type<ValueType>::type;
size_t code_points;
const string_type str = formatter->format(static_cast<icu_type>(val), code_points);
std::streamsize on_left = 0, on_right = 0, points = code_points;
if(points < ios.width()) {
const std::streamsize n = ios.width() - points;
const std::ios_base::fmtflags flags = ios.flags() & std::ios_base::adjustfield;
// We do not really know internal point, so we assume that it does not
// exist. So according to the standard field should be right aligned
if(flags != std::ios_base::left)
on_left = n;
on_right = n - on_left;
}
while(on_left > 0) {
*out++ = fill;
on_left--;
}
std::copy(str.begin(), str.end(), out);
while(on_right > 0) {
*out++ = fill;
on_right--;
}
ios.width(0);
return out;
}
icu::Locale loc_;
std::string enc_;
}; // num_format
template<typename CharType>
class num_parse : public std::num_get<CharType> {
public:
num_parse(const cdata& d, size_t refs = 0) : std::num_get<CharType>(refs), loc_(d.locale()), enc_(d.encoding())
{}
protected:
typedef typename std::num_get<CharType>::iter_type iter_type;
typedef std::basic_string<CharType> string_type;
typedef formatter<CharType> formatter_type;
typedef std::basic_istream<CharType> stream_type;
iter_type
do_get(iter_type in, iter_type end, std::ios_base& ios, std::ios_base::iostate& err, long& val) const override
{
return do_real_get(in, end, ios, err, val);
}
iter_type do_get(iter_type in,
iter_type end,
std::ios_base& ios,
std::ios_base::iostate& err,
unsigned short& val) const override
{
return do_real_get(in, end, ios, err, val);
}
iter_type do_get(iter_type in,
iter_type end,
std::ios_base& ios,
std::ios_base::iostate& err,
unsigned int& val) const override
{
return do_real_get(in, end, ios, err, val);
}
iter_type do_get(iter_type in,
iter_type end,
std::ios_base& ios,
std::ios_base::iostate& err,
unsigned long& val) const override
{
return do_real_get(in, end, ios, err, val);
}
iter_type
do_get(iter_type in, iter_type end, std::ios_base& ios, std::ios_base::iostate& err, float& val) const override
{
return do_real_get(in, end, ios, err, val);
}
iter_type
do_get(iter_type in, iter_type end, std::ios_base& ios, std::ios_base::iostate& err, double& val) const override
{
return do_real_get(in, end, ios, err, val);
}
iter_type do_get(iter_type in,
iter_type end,
std::ios_base& ios,
std::ios_base::iostate& err,
long double& val) const override
{
return do_real_get(in, end, ios, err, val);
}
iter_type do_get(iter_type in,
iter_type end,
std::ios_base& ios,
std::ios_base::iostate& err,
long long& val) const override
{
return do_real_get(in, end, ios, err, val);
}
iter_type do_get(iter_type in,
iter_type end,
std::ios_base& ios,
std::ios_base::iostate& err,
unsigned long long& val) const override
{
return do_real_get(in, end, ios, err, val);
}
private:
//
// This is not really an efficient solution, but it works
//
template<typename ValueType>
iter_type
do_real_get(iter_type in, iter_type end, std::ios_base& ios, std::ios_base::iostate& err, ValueType& val) const
{
stream_type* stream_ptr = dynamic_cast<stream_type*>(&ios);
if(!stream_ptr || detail::use_parent<ValueType>(ios))
return std::num_get<CharType>::do_get(in, end, ios, err, val);
const std::unique_ptr<formatter_type> formatter = formatter_type::create(ios, loc_, enc_);
if(!formatter)
return std::num_get<CharType>::do_get(in, end, ios, err, val);
string_type tmp;
tmp.reserve(64);
CharType c;
while(in != end && (((c = *in) <= 32 && (c > 0)) || c == 127)) // Assuming that ASCII is a subset
++in;
while(tmp.size() < 4096 && in != end && *in != '\n')
tmp += *in++;
using icu_type = typename detail::icu_format_type<ValueType>::type;
icu_type value;
size_t parsed_chars;
if((parsed_chars = formatter->parse(tmp, value)) == 0 || !is_losless_castable<ValueType>(value))
err |= std::ios_base::failbit;
else
val = static_cast<ValueType>(value);
for(size_t n = tmp.size(); n > parsed_chars; n--)
stream_ptr->putback(tmp[n - 1]);
in = iter_type(*stream_ptr);
if(in == end)
err |= std::ios_base::eofbit;
return in;
}
BOOST_LOCALE_START_CONST_CONDITION
template<typename TargetType, typename SrcType>
bool is_losless_castable(SrcType v) const
{
typedef std::numeric_limits<TargetType> target_limits;
typedef std::numeric_limits<SrcType> casted_limits;
if(v < 0 && !target_limits::is_signed)
return false;
constexpr TargetType max_val = target_limits::max();
if(sizeof(SrcType) > sizeof(TargetType) && v > static_cast<SrcType>(max_val))
return false;
if(target_limits::is_integer == casted_limits::is_integer)
return true;
if(target_limits::is_integer) { // and source is not
if(static_cast<SrcType>(static_cast<TargetType>(v)) != v)
return false;
}
return true;
}
BOOST_LOCALE_END_CONST_CONDITION
icu::Locale loc_;
std::string enc_;
};
template<typename CharType>
std::locale install_formatting_facets(const std::locale& in, const cdata& cd)
{
std::locale tmp = std::locale(in, new num_format<CharType>(cd));
if(!std::has_facet<formatters_cache>(in))
tmp = std::locale(tmp, new formatters_cache(cd.locale()));
return tmp;
}
template<typename CharType>
std::locale install_parsing_facets(const std::locale& in, const cdata& cd)
{
std::locale tmp = std::locale(in, new num_parse<CharType>(cd));
if(!std::has_facet<formatters_cache>(in))
tmp = std::locale(tmp, new formatters_cache(cd.locale()));
return tmp;
}
std::locale create_formatting(const std::locale& in, const cdata& cd, char_facet_t type)
{
switch(type) {
case char_facet_t::nochar: break;
case char_facet_t::char_f: return install_formatting_facets<char>(in, cd);
case char_facet_t::wchar_f: return install_formatting_facets<wchar_t>(in, cd);
#ifdef __cpp_char8_t
case char_facet_t::char8_f: break; // std-facet not available (yet)
#endif
#ifdef BOOST_LOCALE_ENABLE_CHAR16_T
case char_facet_t::char16_f: return install_formatting_facets<char16_t>(in, cd);
#endif
#ifdef BOOST_LOCALE_ENABLE_CHAR32_T
case char_facet_t::char32_f: return install_formatting_facets<char32_t>(in, cd);
#endif
}
return in;
}
std::locale create_parsing(const std::locale& in, const cdata& cd, char_facet_t type)
{
switch(type) {
case char_facet_t::nochar: break;
case char_facet_t::char_f: return install_parsing_facets<char>(in, cd);
case char_facet_t::wchar_f: return install_parsing_facets<wchar_t>(in, cd);
#ifdef __cpp_char8_t
case char_facet_t::char8_f: break; // std-facet not available (yet)
#endif
#ifdef BOOST_LOCALE_ENABLE_CHAR16_T
case char_facet_t::char16_f: return install_parsing_facets<char16_t>(in, cd);
#endif
#ifdef BOOST_LOCALE_ENABLE_CHAR32_T
case char_facet_t::char32_f: return install_parsing_facets<char32_t>(in, cd);
#endif
}
return in;
}
}}} // namespace boost::locale::impl_icu
// boostinspect:nominmax
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