/usr/include/cxxtools/convert.h is in libcxxtools-dev 2.2.1-2.
This file is owned by root:root, with mode 0o644.
The actual contents of the file can be viewed below.
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* Copyright (C) 2004-2007 by Marc Boris Duerner
* Copyright (C) 2004-2007 by Stepan Beal
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation; either
* version 2.1 of the License, or (at your option) any later version.
*
* As a special exception, you may use this file as part of a free
* software library without restriction. Specifically, if other files
* instantiate templates or use macros or inline functions from this
* file, or you compile this file and link it with other files to
* produce an executable, this file does not by itself cause the
* resulting executable to be covered by the GNU General Public
* License. This exception does not however invalidate any other
* reasons why the executable file might be covered by the GNU Library
* General Public License.
*
* 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
* Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public
* License along with this library; if not, write to the Free Software
* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
*/
#ifndef CXXTOOLS_CONVERT_H
#define CXXTOOLS_CONVERT_H
#include <cxxtools/api.h>
#include <cxxtools/config.h>
#include <cxxtools/string.h>
#include <cxxtools/stringstream.h>
#include <cxxtools/conversionerror.h>
#include <cxxtools/typetraits.h>
#include <sstream>
#include <string>
#include <typeinfo>
#include <limits>
#include <iterator>
#include <cctype>
#include <cmath>
#include <cxxtools/config.h>
namespace cxxtools
{
//
// Conversions to cxxtools::String
//
inline void convert(String& s, const String& str)
{
s = str;
}
CXXTOOLS_API void convert(String& s, const std::string& value);
CXXTOOLS_API void convert(String& s, bool value);
CXXTOOLS_API void convert(String& s, char value);
CXXTOOLS_API void convert(String& s, wchar_t value);
CXXTOOLS_API void convert(String& s, Char value);
CXXTOOLS_API void convert(String& s, unsigned char value);
CXXTOOLS_API void convert(String& s, signed char value);
CXXTOOLS_API void convert(String& s, short value);
CXXTOOLS_API void convert(String& s, unsigned short value);
CXXTOOLS_API void convert(String& s, int value);
CXXTOOLS_API void convert(String& s, unsigned int value);
CXXTOOLS_API void convert(String& s, long value);
CXXTOOLS_API void convert(String& s, unsigned long value);
CXXTOOLS_API void convert(String& s, float value);
CXXTOOLS_API void convert(String& s, double value);
CXXTOOLS_API void convert(String& s, long double value);
template <typename T>
inline void convert(String& s, const T& value)
{
OStringStream os;
os << value;
s = os.str();
}
//
// Conversions from cxxtools::String
//
CXXTOOLS_API void convert(bool& n, const String& str);
CXXTOOLS_API void convert(char& n, const String& str);
CXXTOOLS_API void convert(wchar_t& n, const String& str);
CXXTOOLS_API void convert(Char& n, const String& str);
CXXTOOLS_API void convert(unsigned char& n, const String& str);
CXXTOOLS_API void convert(signed char& n, const String& str);
CXXTOOLS_API void convert(short& n, const String& str);
CXXTOOLS_API void convert(unsigned short& n, const String& str);
CXXTOOLS_API void convert(int& n, const String& str);
CXXTOOLS_API void convert(unsigned int& n, const String& str);
CXXTOOLS_API void convert(long& n, const String& str);
CXXTOOLS_API void convert(unsigned long& n, const String& str);
#ifdef HAVE_LONG_LONG
CXXTOOLS_API void convert(long long& n, const String& str);
#endif
#ifdef HAVE_UNSIGNED_LONG_LONG
CXXTOOLS_API void convert(unsigned long long& n, const String& str);
#endif
CXXTOOLS_API void convert(float& n, const String& str);
CXXTOOLS_API void convert(double& n, const String& str);
CXXTOOLS_API void convert(long double& n, const String& str);
template <typename T>
inline void convert(T& t, const String& str)
{
IStringStream is(str);
Char ch;
is >> t;
if (is.fail() || !(is >> ch).eof())
ConversionError::doThrow(typeid(T).name(), "String");
}
//
// Conversions to std::string
//
inline void convert(std::string& s, const std::string& str)
{
s = str;
}
CXXTOOLS_API void convert(std::string& s, const String& str);
CXXTOOLS_API void convert(std::string& s, bool value);
CXXTOOLS_API void convert(std::string& s, char value);
CXXTOOLS_API void convert(std::string& s, signed char value);
CXXTOOLS_API void convert(std::string& s, unsigned char value);
CXXTOOLS_API void convert(std::string& s, short value);
CXXTOOLS_API void convert(std::string& s, unsigned short value);
CXXTOOLS_API void convert(std::string& s, int value);
CXXTOOLS_API void convert(std::string& s, unsigned int value);
CXXTOOLS_API void convert(std::string& s, long value);
CXXTOOLS_API void convert(std::string& s, unsigned long value);
CXXTOOLS_API void convert(std::string& s, float value);
CXXTOOLS_API void convert(std::string& s, double value);
CXXTOOLS_API void convert(std::string& s, long double value);
template <typename T>
inline void convert(std::string& s, const T& value)
{
std::ostringstream os;
os << value;
s = os.str();
}
//
// Conversions from std::string
//
CXXTOOLS_API void convert(bool& n, const std::string& str);
CXXTOOLS_API void convert(char& n, const std::string& str);
CXXTOOLS_API void convert(signed char& n, const std::string& str);
CXXTOOLS_API void convert(unsigned char& n, const std::string& str);
CXXTOOLS_API void convert(short& n, const std::string& str);
CXXTOOLS_API void convert(unsigned short& n, const std::string& str);
CXXTOOLS_API void convert(int& n, const std::string& str);
CXXTOOLS_API void convert(unsigned int& n, const std::string& str);
CXXTOOLS_API void convert(long& n, const std::string& str);
CXXTOOLS_API void convert(unsigned long& n, const std::string& str);
#ifdef HAVE_LONG_LONG
CXXTOOLS_API void convert(long long& n, const std::string& str);
#endif
#ifdef HAVE_UNSIGNED_LONG_LONG
CXXTOOLS_API void convert(unsigned long long& n, const std::string& str);
#endif
CXXTOOLS_API void convert(float& n, const std::string& str);
CXXTOOLS_API void convert(double& n, const std::string& str);
CXXTOOLS_API void convert(long double& n, const std::string& str);
template <typename T>
inline void convert(T& t, const std::string& str)
{
std::istringstream is(str);
char ch;
is >> t;
if (is.fail() || !(is >> ch).eof())
ConversionError::doThrow(typeid(T).name(), "string");
}
//
// Conversions from const char* (null-terminated)
//
CXXTOOLS_API void convert(bool& n, const char* str);
CXXTOOLS_API void convert(char& n, const char* str);
CXXTOOLS_API void convert(signed char& n, const char* str);
CXXTOOLS_API void convert(unsigned char& n, const char* str);
CXXTOOLS_API void convert(short& n, const char* str);
CXXTOOLS_API void convert(unsigned short& n, const char* str);
CXXTOOLS_API void convert(int& n, const char* str);
CXXTOOLS_API void convert(unsigned int& n, const char* str);
CXXTOOLS_API void convert(long& n, const char* str);
CXXTOOLS_API void convert(unsigned long& n, const char* str);
#ifdef HAVE_LONG_LONG
CXXTOOLS_API void convert(long long& n, const char* str);
#endif
#ifdef HAVE_UNSIGNED_LONG_LONG
CXXTOOLS_API void convert(unsigned long long& n, const char* str);
#endif
CXXTOOLS_API void convert(float& n, const char* str);
CXXTOOLS_API void convert(double& n, const char* str);
CXXTOOLS_API void convert(long double& n, const char* str);
//
// Generic stream-based conversions
//
template<typename T, typename S>
void convert(T& to, const S& from)
{
StringStream ss;
if( !(ss << from && ss >> to) )
throw ConversionError("conversion between streamable types failed");
}
template<typename T, typename S>
struct Convert
{
T operator()(const S& from) const
{
T value = T();
convert(value, from);
return value;
}
};
template<typename T, typename S>
T convert(const S& from)
{
T value = T();
convert(value, from);
return value;
}
//
// number formatting
//
/** @brief Formats an integer in a given format format.
*/
template <typename OutIterT, typename T, typename FormatT>
inline OutIterT putInt(OutIterT it, T i, const FormatT& fmt);
/** @brief Formats an integer in a decimal format.
*/
template <typename OutIterT, typename T>
inline OutIterT putInt(OutIterT it, T i);
/** @brief Formats a floating point value in a given format.
*/
template <typename OutIterT, typename T, typename FormatT>
OutIterT putFloat(OutIterT it, T d, const FormatT& fmt, int precision);
/** @brief Formats a floating point value in default format.
*/
template <typename OutIterT, typename T>
OutIterT putFloat(OutIterT it, T d);
//
// number parsing
//
/** @brief Parses an integer value in a given format.
*/
template <typename InIterT, typename T, typename FormatT>
InIterT getInt(InIterT it, InIterT end, bool& ok, T& n, const FormatT& fmt);
/** @brief Parses an integer value in decimal format.
*/
template <typename InIterT, typename T>
InIterT getInt(InIterT it, InIterT end, bool& ok, T& n);
/** @brief Parses a floating point value in a given format.
*/
template <typename InIterT, typename T, typename FormatT>
InIterT getFloat(InIterT it, InIterT end, bool& ok, T& n, const FormatT& fmt);
/** @brief Parses a floating point value.
*/
template <typename InIterT, typename T>
InIterT getFloat(InIterT it, InIterT end, bool& ok, T& n);
template <typename CharType>
struct NumberFormat
{
typedef CharType CharT;
static CharT plus()
{ return CharT('+'); }
static CharT minus()
{ return CharT('-'); }
};
template <typename CharType>
struct DecimalFormat : public NumberFormat<CharType>
{
typedef CharType CharT;
static const unsigned base = 10;
static CharT toChar(unsigned char n)
{
return CharT(static_cast<char>('0' + n));
}
/** @brief Converts a character to a digit.
Returns a number equal or less than the base on success or a number
greater than base on failure.
*/
static unsigned char toDigit(CharT ch)
{
int cc = std::char_traits<CharT>::to_int_type(ch) - 48;
// let negatives overrun
return static_cast<unsigned>(cc);
}
};
template <typename CharType>
struct OctalFormat : public NumberFormat<CharType>
{
typedef CharType CharT;
static const unsigned base = 8;
static CharT toChar(unsigned char n)
{
return CharT(static_cast<char>('0' + n));
}
/** @brief Converts a character to a digit.
Returns a number equal or less than the base on success or a number
greater than base on failure.
*/
static unsigned char toDigit(CharT ch)
{
int cc = std::char_traits<CharT>::to_int_type(ch) - 48;
// let negatives overrun
return static_cast<unsigned>(cc);
}
};
template <typename CharType>
struct HexFormat : public NumberFormat<CharType>
{
typedef CharType CharT;
static const unsigned base = 16;
static CharT toChar(unsigned char n)
{
n &= 0x1F; // prevent overrun
static const char* digtab = "0123456789abcdef";
return digtab[n];
}
/** @brief Converts a character to a digit.
Returns a number equal or less than the base on success or a number
greater than base on failure.
*/
static unsigned char toDigit(CharT ch)
{
static const unsigned char chartab[64] =
{
0, 1, 2, 3, 4, 5, 6, 7, 8, 9,0xFF,0xFF,0xFF,0xFF,0xFF,0xFF,
0xFF,10,11,12,13,14,15,0xFF,0xFF,0xFF,0xFF,0xFF,0xFF,0xFF,0xFF,0xFF,
0xFF,0xFF,0xFF,0xFF,0xFF,0xFF,0xFF,0xFF,0xFF,0xFF,0xFF,0xFF,0xFF,0xFF,0xFF,0xFF,
0xFF,10,11,12,13,14,15,0xFF,0xFF,0xFF,0xFF,0xFF,0xFF,0xFF,0xFF,0xFF,
};
int cc = ch - 48;
// let negatives overrun
unsigned uc = static_cast<unsigned>(cc);
if(uc > 64)
return 0xFF;
unsigned char idx = static_cast<unsigned char>(uc);
return chartab[ idx ];
}
};
template <typename CharType>
struct BinaryFormat : public NumberFormat<CharType>
{
typedef CharType CharT;
static const unsigned base = 2;
static CharT toChar(unsigned char n)
{
return CharT(static_cast<char>('0' + n));
}
/** @brief Converts a character to a digit.
Returns a number equal or less than the base on success or a number
greater than base on failure.
*/
static unsigned char toDigit(CharT ch)
{
int cc = std::char_traits<CharT>::to_int_type(ch) - 48;
// let negatives overrun
return static_cast<unsigned>(cc);
}
};
template <typename CharType>
struct FloatFormat : public DecimalFormat<CharType>
{
typedef CharType CharT;
static CharT point()
{ return CharT('.'); }
static CharT e()
{ return CharT('e'); }
static CharT E()
{ return CharT('E'); }
static const CharT* nan()
{
static const CharT nanstr[] = { CharT('n'), CharT('a'), CharT('n'), 0 };
return nanstr;
}
static const CharT* inf()
{
static const CharT nanstr[] = { CharT('i'), CharT('n'), CharT('f'), 0 };
return nanstr;
}
};
//! @internal @brief Returns the absolute value of \a i
inline unsigned char formatAbs(char i, bool& isNeg)
{
isNeg = i < 0;
unsigned char u = isNeg ? -i : static_cast<unsigned char>(i);
return u;
}
//! @internal @brief Returns the absolute value of \a i
inline unsigned char formatAbs(unsigned char i, bool& isNeg)
{
isNeg = false;
return i;
}
//! @internal @brief Returns the absolute value of \a i
inline unsigned short formatAbs(short i, bool& isNeg)
{
isNeg = i < 0;
unsigned short u = isNeg ? -i : static_cast<unsigned short>(i);
return u;
}
//! @internal @brief Returns the absolute value of \a i
inline unsigned short formatAbs(unsigned short i, bool& isNeg)
{
isNeg = false;
return i;
}
//! @internal @brief Returns the absolute value of \a i
inline unsigned int formatAbs(int i, bool& isNeg)
{
isNeg = i < 0;
unsigned int u = isNeg ? -i : static_cast<unsigned int>(i);
return u;
}
//! @internal @brief Returns the absolute value of \a i
inline unsigned int formatAbs(unsigned int i, bool& isNeg)
{
isNeg = false;
return i;
}
//! @internal @brief Returns the absolute value of \a i
inline unsigned long formatAbs(long i, bool& isNeg)
{
isNeg = i < 0;
unsigned long u = isNeg ? -i : static_cast<unsigned long>(i);
return u;
}
//! @internal @brief Returns the absolute value of \a i
inline unsigned long formatAbs(unsigned long i, bool& isNeg)
{
isNeg = false;
return i;
}
#ifdef HAVE_LONG_LONG
//! @internal @brief Returns the absolute value of \a i
inline unsigned long long formatAbs(long long i, bool& isNeg)
{
isNeg = i < 0;
unsigned long long u = isNeg ? -i : static_cast<unsigned long long>(i);
return u;
}
#endif
#ifdef HAVE_UNSIGNEDLONG_LONG
//! @internal @brief Returns the absolute value of \a i
inline unsigned long long formatAbs(unsigned long long i, bool& isNeg)
{
isNeg = false;
return i;
}
#endif
/** @brief Formats an integer in a given format.
*/
template <typename CharT, typename T, typename FormatT>
inline CharT* formatInt(CharT* buf, std::size_t buflen, T si, const FormatT& fmt)
{
typedef typename IntTraits<T>::Unsigned UnsignedInt;
CharT* end = buf + buflen;
CharT* cur = end;
const unsigned base = fmt.base;
bool isNeg = false;
UnsignedInt u = formatAbs(si, isNeg);
do
{
T lsd = u % base;
u /= base;
--cur;
*cur = fmt.toChar( unsigned(lsd) );
}
while(u != 0 && cur != buf);
if(cur == buf)
return buf;
if(isNeg)
{
--cur;
*cur = fmt.minus();
}
return cur;
}
/** @brief Formats an integer in binary format.
*/
template <typename CharT, typename T>
inline CharT* formatInt(CharT* buf, std::size_t buflen, T i, const BinaryFormat<CharT>& fmt)
{
CharT* end = buf + buflen;
CharT* cur = end;
T mask = 1;
do
{
--cur;
*cur = fmt.toChar( unsigned(i & mask));
i = i >> 1;
}
while(i != 0 && cur != buf);
if(cur == buf)
return buf;
return cur;
}
template <typename OutIterT, typename T, typename FormatT>
inline OutIterT putInt(OutIterT it, T i, const FormatT& fmt)
{
// large enough even for binary and a sign
const std::size_t buflen = (sizeof(T) * 8) + 1;
typename FormatT::CharT buf[buflen];
typename FormatT::CharT* p = formatInt(buf, buflen, i, fmt);
typename FormatT::CharT* end = buf + buflen;
for(; p != end; ++p)
*it++ = *p;
return it;
}
template <typename OutIterT, typename T>
inline OutIterT putInt(OutIterT it, T i)
{
DecimalFormat<char> fmt;
return putInt(it, i, fmt);
}
template <typename OutIterT, typename T, typename FormatT>
inline OutIterT putFloat(OutIterT it, T d, const FormatT& fmt, int precision)
{
typedef typename FormatT::CharT CharT;
// 1. Test for not-a-number with d != d
if( d != d )
{
for(const CharT* nanstr = fmt.nan(); *nanstr != 0; ++nanstr)
{
*it = *nanstr;
++it;
}
return it;
}
// 2. check sign
if(d < 0.0)
{
*it = fmt.minus();
++it;
}
T num = std::fabs(d);
// 3. Test for infinity
if( num == std::numeric_limits<T>::infinity() )
{
for(const CharT* infstr = fmt.inf(); *infstr != 0; ++infstr)
{
*it = *infstr;
++it;
}
return it;
}
const int bufsize = std::numeric_limits<T>::digits10 + 1;
if (precision > bufsize)
precision = bufsize;
CharT fract[bufsize + 1];
fract[bufsize] = CharT('\0');
int exp = static_cast<int>(std::floor(std::log10(num))) + 1;
num *= std::pow(T(10.0), static_cast<int>(precision) - exp);
num += .5;
bool notZero = false;
for (unsigned short d = precision; d > 0; --d)
{
T n = num / 10.0;
T fl = std::floor(n) * 10.0;
unsigned char v = static_cast<unsigned char>(num - fl);
notZero |= (v != 0);
fract[d - 1] = notZero ? fmt.toChar(v) : CharT('\0');
num = n;
}
if (fract[0] == CharT('\0'))
{
*it = '0'; ++it;
return it;
}
if (exp <= 0)
{
*it = '0'; ++it;
*it = '.'; ++it;
while (exp < 0)
{
*it = '0'; ++it;
++exp;
}
for (int d = 0; fract[d]; ++d)
{
*it = fract[d]; ++it;
}
}
else
{
for (int d = 0; fract[d]; ++d)
{
if (exp-- == 0)
{
*it = '.';
++it;
}
*it = fract[d]; ++it;
}
while (exp-- > 0)
{
*it = '0'; ++it;
}
}
return it;
}
template <typename OutIterT, typename T>
inline OutIterT putFloat(OutIterT it, T d)
{
const int precision = std::numeric_limits<T>::digits10 + 1;
FloatFormat<char> fmt;
return putFloat(it, d, fmt, precision);
}
template <typename InIterT, typename FormatT>
InIterT getSign(InIterT it, InIterT end, bool& pos, const FormatT& fmt)
{
pos = true;
// strip leading whitespace, parse sign
while (it != end && isspace(*it))
++it;
if(*it == fmt.minus())
{
pos = false;
++it;
}
else if( *it == fmt.plus() )
{
++it;
}
return it;
}
template <typename InIterT, typename T, typename FormatT>
InIterT getInt(InIterT it, InIterT end, bool& ok, T& n, const FormatT& fmt)
{
typedef typename IntTraits<T>::Unsigned UnsignedInt;
typedef typename IntTraits<T>::Signed SignedInt;
n = 0;
ok = false;
UnsignedInt max = std::numeric_limits<T>::max();
bool pos = false;
it = getSign(it, end, pos, fmt);
if (it == end)
return it;
bool isNeg = ! pos;
if( isNeg )
{
// return if minus sign was parsed for unsigned type
if( isNeg != std::numeric_limits<T>::is_signed)
return it;
// abs(min) is max for negative signed types
SignedInt smin = std::numeric_limits<T>::min();
max = static_cast<UnsignedInt>(-smin);
}
// parse number
UnsignedInt u = 0;
const UnsignedInt base = fmt.base;
unsigned char d = 0;
while(it != end)
{
d = fmt.toDigit(*it);
if(d >= base)
break;
if ( u != 0u && base > (max/u) )
return it;
u *= base;
if(d > max - u)
return it;
u += d;
++it;
}
if( isNeg )
n = static_cast<T>(u * -1);
else
n = static_cast<T>(u);
ok = true;
return it;
}
template <typename InIterT, typename T>
InIterT getInt(InIterT it, InIterT end, bool& ok, T& n)
{
return getInt(it, end, ok, n, DecimalFormat<char>() );
}
template <typename InIterT, typename T, typename FormatT>
InIterT getFloat(InIterT it, InIterT end, bool& ok, T& n, const FormatT& fmt)
{
typedef typename FormatT::CharT CharT;
CharT zero = fmt.toChar(0);
n = 0.0;
ok = false;
bool pos = false;
it = getSign(it, end, pos, fmt);
if (it == end)
return it;
// NaN, -inf, +inf
bool done = false;
while(it != end)
{
switch(std::char_traits<CharT>::to_int_type(*it))
{
case 'n':
case 'N':
if(++it == end)
return it;
if(*it != CharT('a') && *it != CharT('A'))
return it;
if(++it == end)
return it;
if(*it != CharT('n') && *it != CharT('N'))
return it;
// NaNQ, NaNS (seen on AIX/xlC)
{
InIterT nit = it;
++nit;
if (*nit == CharT('q') || *nit == CharT('Q'))
{
n = std::numeric_limits<T>::quiet_NaN();
++it;
}
else if (*nit == CharT('s') || *nit == CharT('S'))
{
n = std::numeric_limits<T>::signaling_NaN();
++it;
}
else
{
n = std::numeric_limits<T>::quiet_NaN();
}
}
ok = true;
return ++it;
break;
case 'i':
case 'I':
if(++it == end)
return it;
if(*it != CharT('n') && *it != CharT('N'))
return it;
if(++it == end)
return it;
if(*it != CharT('f') && *it != CharT('F'))
return it;
if( ++it != end )
{
if(*it != CharT('i') && *it != CharT('I'))
return it;
if(++it == end)
return it;
if(*it != CharT('n') && *it != CharT('N'))
return it;
if(++it == end)
return it;
if(*it != CharT('i') && *it != CharT('I'))
return it;
if(++it == end)
return it;
if(*it != CharT('t') && *it != CharT('T'))
return it;
if(++it == end)
return it;
if(*it != CharT('y') && *it != CharT('Y'))
return it;
++it;
}
n = std::numeric_limits<T>::infinity();
if(!pos)
n *= -1;
ok = true;
return it;
break;
default:
done = true;
break;
}
if(done)
break;
++it;
}
// integral part
bool withFractional = false;
for( ; it != end; ++it)
{
if( *it == fmt.point() || *it == fmt.e() || *it == fmt.E() )
{
if( *it == fmt.point())
{
withFractional = true;
++it;
}
break;
}
unsigned digit = fmt.toDigit(*it);
if(digit >= fmt.base)
return it;
n *= 10;
n += digit;
}
// it is ok, if fraction is missing
if(it == end)
{
if( ! pos )
n *= -1;
ok = true;
return it;
}
T base = 10.0;
if( withFractional)
{
// fractional part, ignore 0 digits after dot
unsigned short fractDigits = 0;
size_t maxDigits = std::numeric_limits<unsigned short>::max() - std::numeric_limits<T>::digits10;
while(it != end && *it == zero)
{
if( fractDigits > maxDigits )
return it;
++fractDigits;
++it;
}
// fractional part, parse like integer, skip insignificant digits
unsigned short significants = 0;
T fraction = 0.0;
for( ; it != end; ++it)
{
unsigned digit = fmt.toDigit(*it);
if(digit >= fmt.base)
break;
if( significants <= std::numeric_limits<T>::digits10 )
{
fraction *= 10;
fraction += digit;
++fractDigits;
++significants;
}
}
// fractional part, scale down
fraction /= std::pow(base, T(fractDigits));
n += fraction;
}
// exponent [e|E][+|-][0-9]*
if(it != end && (*it == fmt.e() || *it == fmt.E()) )
{
if(++it == end)
return it;
long exp = 0;
it = getInt(it, end, ok, exp, fmt);
if( ! ok )
return it;
n *= std::pow(base, T(exp));
}
if( ! pos )
n *= -1;
ok = true;
return it;
}
template <typename InIterT, typename T>
InIterT getFloat(InIterT it, InIterT end, bool& ok, T& n)
{
return getFloat( it, end, ok, n, FloatFormat<char>() );
}
} // namespace cxxtools
#endif
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