vn-verdnaturachat/ios/Pods/boost-for-react-native/boost/convert/strtol.hpp

// Copyright (c) 2009-2016 Vladimir Batov.
// Use, modification and distribution are subject to the Boost Software License,
// Version 1.0. See http://www.boost.org/LICENSE_1_0.txt.

#ifndef BOOST_CONVERT_STRTOL_CONVERTER_HPP
#define BOOST_CONVERT_STRTOL_CONVERTER_HPP

#include <boost/convert/base.hpp>
#include <boost/type_traits/make_unsigned.hpp>
#include <boost/type_traits/is_same.hpp>
#include <boost/math/special_functions/round.hpp>
#include <limits>
#include <cmath>
#include <cstdlib>
#include <climits>

#if __GNUC__ == 4 && __GNUC_MINOR__ <= 2
namespace std
{
    using ::strtold; // Tests indicated that gcc-4.2.1 does not have 'std::strtold'
}
#endif

namespace boost { namespace cnv
{
    struct strtol;
}}

/// @brief std::strtol-based extended converter
/// @details The converter offers a fairly decent overall performance and moderate formatting facilities.

struct boost::cnv::strtol : public boost::cnv::cnvbase<boost::cnv::strtol>
{
    typedef boost::cnv::strtol             this_type;
    typedef boost::cnv::cnvbase<this_type> base_type;

    using base_type::operator();

    private:

    friend struct boost::cnv::cnvbase<this_type>;

    template<typename string_type> void str_to(cnv::range<string_type> v, optional<   int_type>& r) const { str_to_i (v, r); }
    template<typename string_type> void str_to(cnv::range<string_type> v, optional<  sint_type>& r) const { str_to_i (v, r); }
    template<typename string_type> void str_to(cnv::range<string_type> v, optional<  lint_type>& r) const { str_to_i (v, r); }
    template<typename string_type> void str_to(cnv::range<string_type> v, optional< llint_type>& r) const { str_to_i (v, r); }
    template<typename string_type> void str_to(cnv::range<string_type> v, optional<  uint_type>& r) const { str_to_i (v, r); }
    template<typename string_type> void str_to(cnv::range<string_type> v, optional< usint_type>& r) const { str_to_i (v, r); }
    template<typename string_type> void str_to(cnv::range<string_type> v, optional< ulint_type>& r) const { str_to_i (v, r); }
    template<typename string_type> void str_to(cnv::range<string_type> v, optional<ullint_type>& r) const { str_to_i (v, r); }
    template<typename string_type> void str_to(cnv::range<string_type> v, optional<   flt_type>& r) const { str_to_d (v, r); }
    template<typename string_type> void str_to(cnv::range<string_type> v, optional<   dbl_type>& r) const { str_to_d (v, r); }
    template<typename string_type> void str_to(cnv::range<string_type> v, optional<  ldbl_type>& r) const { str_to_d (v, r); }

    template <typename char_type> cnv::range<char_type*> to_str (   int_type v, char_type* buf) const { return i_to_str(v, buf); }
    template <typename char_type> cnv::range<char_type*> to_str (  uint_type v, char_type* buf) const { return i_to_str(v, buf); }
    template <typename char_type> cnv::range<char_type*> to_str (  lint_type v, char_type* buf) const { return i_to_str(v, buf); }
    template <typename char_type> cnv::range<char_type*> to_str ( ulint_type v, char_type* buf) const { return i_to_str(v, buf); }
    template <typename char_type> cnv::range<char_type*> to_str ( llint_type v, char_type* buf) const { return i_to_str(v, buf); }
    template <typename char_type> cnv::range<char_type*> to_str (ullint_type v, char_type* buf) const { return i_to_str(v, buf); }
    template <typename char_type> cnv::range<char_type*> to_str ( dbl_type v, char_type* buf) const;

    template<typename char_type, typename in_type> cnv::range<char_type*> i_to_str (in_type, char_type*) const;
    template<typename string_type, typename out_type> void                str_to_i (cnv::range<string_type>, optional<out_type>&) const;
    template<typename string_type, typename out_type> void                str_to_d (cnv::range<string_type>, optional<out_type>&) const;

    static double adjust_fraction (double, int);
    static int           get_char (int v) { return (v < 10) ? (v += '0') : (v += 'A' - 10); }
};

template<typename char_type, typename Type>
boost::cnv::range<char_type*>
boost::cnv::strtol::i_to_str(Type in_value, char_type* buf) const
{
    // C1. Base=10 optimization improves performance 10%

    typedef typename boost::make_unsigned<Type>::type unsigned_type;

    char_type*         beg = buf + bufsize_ / 2;
    char_type*         end = beg;
    bool const is_negative = in_value < 0;
    unsigned_type    value = static_cast<unsigned_type>(is_negative ? -in_value : in_value);

    if (base_ == 10) for (; value; *(--beg) = int(value % 10) + '0', value /= 10); //C1
    else             for (; value; *(--beg) = get_char(value % base_), value /= base_);

    if (beg == end)  *(--beg) = '0';
    if (is_negative) *(--beg) = '-';

    return cnv::range<char_type*>(beg, end);
}

inline
double
boost::cnv::strtol::adjust_fraction(double fraction, int precision)
{
    // C1. Bring forward the fraction coming right after precision digits.
    //     That is, say, fraction=0.234567, precision=2. Then brought forward=23.4567
    // C3. INT_MAX(4bytes)=2,147,483,647. So, 10^8 seems appropriate. If not, drop it down to 4.
    // C4. ::round() returns the integral value that is nearest to x,
    //     with halfway cases rounded away from zero. Therefore,
    //          round( 0.4) =  0
    //          round( 0.5) =  1
    //          round( 0.6) =  1
    //          round(-0.4) =  0
    //          round(-0.5) = -1
    //          round(-0.6) = -1

    int const tens[] = { 1, 10, 100, 1000, 10000, 100000, 1000000, 10000000 };

    for (int k = precision / 8; k; --k) fraction *= 100000000; //C3.

    fraction *= tens[precision % 8]; //C1

//  return ::rint(fraction); //C4
    return boost::math::round(fraction); //C4
}

template <typename char_type>
inline
boost::cnv::range<char_type*>
boost::cnv::strtol::to_str(double value, char_type* buf) const
{
    char_type*         beg = buf + bufsize_ / 2;
    char_type*         end = beg;
    char_type*        ipos = end - 1;
    bool const is_negative = (value < 0) ? (value = -value, true) : false;
    double           ipart = std::floor(value);
    double           fpart = adjust_fraction(value - ipart, precision_);
    int          precision = precision_;
    int const         base = 10;

    for (; 1 <= ipart; ipart /= base)
        *(--beg) = get_char(int(ipart - std::floor(ipart / base) * base));

    if (beg == end) *(--beg) = '0';
    if (precision)  *(end++) = '.';

    for (char_type* fpos = end += precision; precision; --precision, fpart /= base)
        *(--fpos) = get_char(int(fpart - std::floor(fpart / base) * base));

    if (1 <= fpart)
    {
        for (; beg <= ipos; --ipos)
            if (*ipos == '9') *ipos = '0';
            else { ++*ipos; break; }

        if (ipos < beg)
            *(beg = ipos) = '1';
    }
    if (is_negative) *(--beg) = '-';

    return cnv::range<char_type*>(beg, end);
}

template<typename string_type, typename out_type>
void
boost::cnv::strtol::str_to_i(cnv::range<string_type> range, boost::optional<out_type>& result_out) const
{
    typedef typename boost::make_unsigned<out_type>::type unsigned_type;
    typedef cnv::range<string_type>                          range_type;
    typedef typename range_type::iterator                      iterator;

    iterator             s = range.begin();
    unsigned int        ch = *s;
    bool const is_negative = ch == '-' ? (ch = *++s, true) : ch == '+' ? (ch = *++s, false) : false;
    bool const is_unsigned = boost::is_same<out_type, unsigned_type>::value;
    unsigned int      base = base_;

    /**/ if (is_negative && is_unsigned) return;
    else if ((base == 0 || base == 16) && ch == '0' && (*++s == 'x' || *s == 'X')) ++s, base = 16;
    else if (base == 0) base = ch == '0' ? (++s, 8) : 10;

    unsigned_type const    max = (std::numeric_limits<out_type>::max)() + (is_negative ? 1 : 0);
    unsigned_type const cutoff = max / base;
    unsigned int  const cutlim = max % base;
    unsigned_type       result = 0;

    for (; s != range.sentry(); ++s)
    {
        ch = *s;

        /**/ if (std::isdigit(ch)) ch -= '0';
        else if (std::isalpha(ch)) ch -= (std::isupper(ch) ? 'A' : 'a') - 10;
        else return;

        if (base <= ch || cutoff < result || (result == cutoff && cutlim < ch))
            return;

        result *= base;
        result += ch;
    }
    result_out = is_negative ? -out_type(result) : out_type(result);
}

template<typename string_type, typename out_type>
void
boost::cnv::strtol::str_to_d(cnv::range<string_type> range, optional<out_type>& result_out) const
{
    // C2. Simply check if the end-of-string was reached -- *cnv_end == 0
    //     instead of traversing once with strlen() to find the end iterator
    //     and then comparing to it as in
    //         char const* end = str + strlen(str); // Unnecessary traversal!
    //         bool const good = ... && cnv_end == end;

    typedef cnv::range<string_type>      range_type;
    typedef typename range_type::value_type ch_type;

    ch_type const* str = &*range.begin(); // Currently only works with 'char'
    char*      cnv_end = 0;
    ldbl_type   result = strtold(str, &cnv_end);
    bool          good = result != -HUGE_VALL && result != HUGE_VALL && *cnv_end == 0/*C2*/;
    out_type       max = (std::numeric_limits<out_type>::max)();

    if (good && -max <= result && result <= max)
        result_out = out_type(result);
}

#endif // BOOST_CONVERT_STRTOL_CONVERTER_HPP
Update RN to 0.59.8 (#896) * update IOS react native to 0.59.8 * update Android react native to 0.59.8 * fix eslint errors * Android debug working * Android build * Fix lint * Making jest happy * Update CircleCI android image * Fix android build * Use 32 bits * Fix iOS build * Update detox * Use new Xcode build system * Use old build system * Update realm (64 bits support) 2019-05-22 20:15:35 +00:00			`// Copyright (c) 2009-2016 Vladimir Batov.`
			`// Use, modification and distribution are subject to the Boost Software License,`
			`// Version 1.0. See http://www.boost.org/LICENSE_1_0.txt.`

			`#ifndef BOOST_CONVERT_STRTOL_CONVERTER_HPP`
			`#define BOOST_CONVERT_STRTOL_CONVERTER_HPP`

			`#include <boost/convert/base.hpp>`
			`#include <boost/type_traits/make_unsigned.hpp>`
			`#include <boost/type_traits/is_same.hpp>`
			`#include <boost/math/special_functions/round.hpp>`
			`#include <limits>`
			`#include <cmath>`
			`#include <cstdlib>`
			`#include <climits>`

			`#if __GNUC__ == 4 && __GNUC_MINOR__ <= 2`
			`namespace std`
			`{`
			`using ::strtold; // Tests indicated that gcc-4.2.1 does not have 'std::strtold'`
			`}`
			`#endif`

			`namespace boost { namespace cnv`
			`{`
			`struct strtol;`
			`}}`

			`/// @brief std::strtol-based extended converter`
			`/// @details The converter offers a fairly decent overall performance and moderate formatting facilities.`

			`struct boost::cnv::strtol : public boost::cnv::cnvbase<boost::cnv::strtol>`
			`{`
			`typedef boost::cnv::strtol this_type;`
			`typedef boost::cnv::cnvbase<this_type> base_type;`

			`using base_type::operator();`

			`private:`

			`friend struct boost::cnv::cnvbase<this_type>;`

			`template<typename string_type> void str_to(cnv::range<string_type> v, optional< int_type>& r) const { str_to_i (v, r); }`
			`template<typename string_type> void str_to(cnv::range<string_type> v, optional< sint_type>& r) const { str_to_i (v, r); }`
			`template<typename string_type> void str_to(cnv::range<string_type> v, optional< lint_type>& r) const { str_to_i (v, r); }`
			`template<typename string_type> void str_to(cnv::range<string_type> v, optional< llint_type>& r) const { str_to_i (v, r); }`
			`template<typename string_type> void str_to(cnv::range<string_type> v, optional< uint_type>& r) const { str_to_i (v, r); }`
			`template<typename string_type> void str_to(cnv::range<string_type> v, optional< usint_type>& r) const { str_to_i (v, r); }`
			`template<typename string_type> void str_to(cnv::range<string_type> v, optional< ulint_type>& r) const { str_to_i (v, r); }`
			`template<typename string_type> void str_to(cnv::range<string_type> v, optional<ullint_type>& r) const { str_to_i (v, r); }`
			`template<typename string_type> void str_to(cnv::range<string_type> v, optional< flt_type>& r) const { str_to_d (v, r); }`
			`template<typename string_type> void str_to(cnv::range<string_type> v, optional< dbl_type>& r) const { str_to_d (v, r); }`
			`template<typename string_type> void str_to(cnv::range<string_type> v, optional< ldbl_type>& r) const { str_to_d (v, r); }`

			`template <typename char_type> cnv::range<char_type> to_str ( int_type v, char_type buf) const { return i_to_str(v, buf); }`
			`template <typename char_type> cnv::range<char_type> to_str ( uint_type v, char_type buf) const { return i_to_str(v, buf); }`
			`template <typename char_type> cnv::range<char_type> to_str ( lint_type v, char_type buf) const { return i_to_str(v, buf); }`
			`template <typename char_type> cnv::range<char_type> to_str ( ulint_type v, char_type buf) const { return i_to_str(v, buf); }`
			`template <typename char_type> cnv::range<char_type> to_str ( llint_type v, char_type buf) const { return i_to_str(v, buf); }`
			`template <typename char_type> cnv::range<char_type> to_str (ullint_type v, char_type buf) const { return i_to_str(v, buf); }`
			`template <typename char_type> cnv::range<char_type> to_str ( dbl_type v, char_type buf) const;`

			`template<typename char_type, typename in_type> cnv::range<char_type> i_to_str (in_type, char_type) const;`
			`template<typename string_type, typename out_type> void str_to_i (cnv::range<string_type>, optional<out_type>&) const;`
			`template<typename string_type, typename out_type> void str_to_d (cnv::range<string_type>, optional<out_type>&) const;`

			`static double adjust_fraction (double, int);`
			`static int get_char (int v) { return (v < 10) ? (v += '0') : (v += 'A' - 10); }`
			`};`

			`template<typename char_type, typename Type>`
			`boost::cnv::range<char_type*>`
			`boost::cnv::strtol::i_to_str(Type in_value, char_type* buf) const`
			`{`
			`// C1. Base=10 optimization improves performance 10%`

			`typedef typename boost::make_unsigned<Type>::type unsigned_type;`

			`char_type* beg = buf + bufsize_ / 2;`
			`char_type* end = beg;`
			`bool const is_negative = in_value < 0;`
			`unsigned_type value = static_cast<unsigned_type>(is_negative ? -in_value : in_value);`

			`if (base_ == 10) for (; value; *(--beg) = int(value % 10) + '0', value /= 10); //C1`
			`else for (; value; *(--beg) = get_char(value % base_), value /= base_);`

			`if (beg == end) *(--beg) = '0';`
			`if (is_negative) *(--beg) = '-';`

			`return cnv::range<char_type*>(beg, end);`
			`}`

			`inline`
			`double`
			`boost::cnv::strtol::adjust_fraction(double fraction, int precision)`
			`{`
			`// C1. Bring forward the fraction coming right after precision digits.`
			`// That is, say, fraction=0.234567, precision=2. Then brought forward=23.4567`
			`// C3. INT_MAX(4bytes)=2,147,483,647. So, 10^8 seems appropriate. If not, drop it down to 4.`
			`// C4. ::round() returns the integral value that is nearest to x,`
			`// with halfway cases rounded away from zero. Therefore,`
			`// round( 0.4) = 0`
			`// round( 0.5) = 1`
			`// round( 0.6) = 1`
			`// round(-0.4) = 0`
			`// round(-0.5) = -1`
			`// round(-0.6) = -1`

			`int const tens[] = { 1, 10, 100, 1000, 10000, 100000, 1000000, 10000000 };`

			`for (int k = precision / 8; k; --k) fraction *= 100000000; //C3.`

			`fraction *= tens[precision % 8]; //C1`

			`// return ::rint(fraction); //C4`
			`return boost::math::round(fraction); //C4`
			`}`

			`template <typename char_type>`
			`inline`
			`boost::cnv::range<char_type*>`
			`boost::cnv::strtol::to_str(double value, char_type* buf) const`
			`{`
			`char_type* beg = buf + bufsize_ / 2;`
			`char_type* end = beg;`
			`char_type* ipos = end - 1;`
			`bool const is_negative = (value < 0) ? (value = -value, true) : false;`
			`double ipart = std::floor(value);`
			`double fpart = adjust_fraction(value - ipart, precision_);`
			`int precision = precision_;`
			`int const base = 10;`

			`for (; 1 <= ipart; ipart /= base)`
			`(--beg) = get_char(int(ipart - std::floor(ipart / base) base));`

			`if (beg == end) *(--beg) = '0';`
			`if (precision) *(end++) = '.';`

			`for (char_type* fpos = end += precision; precision; --precision, fpart /= base)`
			`(--fpos) = get_char(int(fpart - std::floor(fpart / base) base));`

			`if (1 <= fpart)`
			`{`
			`for (; beg <= ipos; --ipos)`
			`if (ipos == '9') ipos = '0';`
			`else { ++*ipos; break; }`

			`if (ipos < beg)`
			`*(beg = ipos) = '1';`
			`}`
			`if (is_negative) *(--beg) = '-';`

			`return cnv::range<char_type*>(beg, end);`
			`}`

			`template<typename string_type, typename out_type>`
			`void`
			`boost::cnv::strtol::str_to_i(cnv::range<string_type> range, boost::optional<out_type>& result_out) const`
			`{`
			`typedef typename boost::make_unsigned<out_type>::type unsigned_type;`
			`typedef cnv::range<string_type> range_type;`
			`typedef typename range_type::iterator iterator;`

			`iterator s = range.begin();`
			`unsigned int ch = *s;`
			`bool const is_negative = ch == '-' ? (ch = ++s, true) : ch == '+' ? (ch = ++s, false) : false;`
			`bool const is_unsigned = boost::is_same<out_type, unsigned_type>::value;`
			`unsigned int base = base_;`

			`/**/ if (is_negative && is_unsigned) return;`
			`else if ((base == 0 \|\| base == 16) && ch == '0' && (++s == 'x' \|\| s == 'X')) ++s, base = 16;`
			`else if (base == 0) base = ch == '0' ? (++s, 8) : 10;`

			`unsigned_type const max = (std::numeric_limits<out_type>::max)() + (is_negative ? 1 : 0);`
			`unsigned_type const cutoff = max / base;`
			`unsigned int const cutlim = max % base;`
			`unsigned_type result = 0;`

			`for (; s != range.sentry(); ++s)`
			`{`
			`ch = *s;`

			`/**/ if (std::isdigit(ch)) ch -= '0';`
			`else if (std::isalpha(ch)) ch -= (std::isupper(ch) ? 'A' : 'a') - 10;`
			`else return;`

			`if (base <= ch \|\| cutoff < result \|\| (result == cutoff && cutlim < ch))`
			`return;`

			`result *= base;`
			`result += ch;`
			`}`
			`result_out = is_negative ? -out_type(result) : out_type(result);`
			`}`

			`template<typename string_type, typename out_type>`
			`void`
			`boost::cnv::strtol::str_to_d(cnv::range<string_type> range, optional<out_type>& result_out) const`
			`{`
			`// C2. Simply check if the end-of-string was reached -- *cnv_end == 0`
			`// instead of traversing once with strlen() to find the end iterator`
			`// and then comparing to it as in`
			`// char const* end = str + strlen(str); // Unnecessary traversal!`
			`// bool const good = ... && cnv_end == end;`

			`typedef cnv::range<string_type> range_type;`
			`typedef typename range_type::value_type ch_type;`

			`ch_type const* str = &*range.begin(); // Currently only works with 'char'`
			`char* cnv_end = 0;`
			`ldbl_type result = strtold(str, &cnv_end);`
			`bool good = result != -HUGE_VALL && result != HUGE_VALL && cnv_end == 0/C2*/;`
			`out_type max = (std::numeric_limits<out_type>::max)();`

			`if (good && -max <= result && result <= max)`
			`result_out = out_type(result);`
			`}`

			`#endif // BOOST_CONVERT_STRTOL_CONVERTER_HPP`