/usr/include/libpwiz/pwiz/utility/misc/optimized_lexical_cast.hpp is in libpwiz-dev 3.0.9393-1+b2.
This file is owned by root:root, with mode 0o644.
The actual contents of the file can be viewed below.
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// $Id: optimized_lexical_cast.hpp 3126 2011-11-15 21:14:55Z chambm $
//
//
// Original author: Matt Chambers <matt.chambers .@. vanderbilt.edu>
//
// Copyright 2008 Spielberg Family Center for Applied Proteomics
// Cedars Sinai Medical Center, Los Angeles, California 90048
// Copyright 2008 Vanderbilt University - Nashville, TN 37232
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
//
#ifndef _OPTIMIZED_LEXICAL_CAST_HPP_
#define _OPTIMIZED_LEXICAL_CAST_HPP_
#include <cstdlib>
#include <cerrno>
#include <boost/lexical_cast.hpp>
#include <boost/logic/tribool.hpp>
// HACK: Darwin strtod isn't threadsafe so strtod_l must be used
#ifdef __APPLE__
#include <xlocale.h>
#include "pwiz/utility/misc/Singleton.hpp"
namespace {
class ThreadSafeCLocale : public boost::singleton<ThreadSafeCLocale>
{
public:
ThreadSafeCLocale(boost::restricted) : c_locale(::newlocale(LC_ALL_MASK, "C", 0)) {}
~ThreadSafeCLocale() {::freelocale(c_locale);}
::locale_t c_locale;
};
} // namespace
#define STRTOD(x, y) strtod_l((x), (y), ThreadSafeCLocale::instance->c_locale)
#define ATOF(x) STRTOD(x,NULL)
#else // __APPLE__
#define STRTOD(x, y) strtod((x), (y))
#define ATOF(x) atof(x)
#endif // __APPLE__
// optimized string->numeric conversions
namespace boost
{
template<>
inline float lexical_cast( const std::string& str )
{
errno = 0;
const char* stringToConvert = str.c_str();
const char* endOfConversion = stringToConvert;
float value = (float) STRTOD( stringToConvert, const_cast<char**>(&endOfConversion) );
if( value == 0.0f && stringToConvert == endOfConversion ) // error: conversion could not be performed
throw bad_lexical_cast();//throw bad_lexical_cast( std::type_info( str ), std::type_info( value ) );
return value;
}
template<>
inline double lexical_cast( const std::string& str )
{
errno = 0;
const char* stringToConvert = str.c_str();
const char* endOfConversion = stringToConvert;
double value = STRTOD( stringToConvert, const_cast<char**>(&endOfConversion) );
if( value == 0.0 && stringToConvert == endOfConversion ) // error: conversion could not be performed
throw bad_lexical_cast();//throw bad_lexical_cast( std::type_info( str ), std::type_info( value ) );
return value;
}
template<>
inline int lexical_cast( const std::string& str )
{
errno = 0;
const char* stringToConvert = str.c_str();
const char* endOfConversion = stringToConvert;
int value = (int) strtol( stringToConvert, const_cast<char**>(&endOfConversion), 0 );
if( ( value == 0 && stringToConvert == endOfConversion ) || // error: conversion could not be performed
errno != 0 ) // error: overflow or underflow
throw bad_lexical_cast();//throw bad_lexical_cast( std::type_info( str ), std::type_info( value ) );
return value;
}
template<>
inline long lexical_cast( const std::string& str )
{
errno = 0;
const char* stringToConvert = str.c_str();
const char* endOfConversion = stringToConvert;
long value = strtol( stringToConvert, const_cast<char**>(&endOfConversion), 0 );
if( ( value == 0l && stringToConvert == endOfConversion ) || // error: conversion could not be performed
errno != 0 ) // error: overflow or underflow
throw bad_lexical_cast();//throw bad_lexical_cast( std::type_info( str ), std::type_info( value ) );
return value;
}
template<>
inline unsigned int lexical_cast( const std::string& str )
{
errno = 0;
const char* stringToConvert = str.c_str();
const char* endOfConversion = stringToConvert;
unsigned int value = (unsigned int) strtoul( stringToConvert, const_cast<char**>(&endOfConversion), 0 );
if( ( value == 0u && stringToConvert == endOfConversion ) || // error: conversion could not be performed
errno != 0 ) // error: overflow or underflow
throw bad_lexical_cast();//throw bad_lexical_cast( std::type_info( str ), std::type_info( value ) );
return value;
}
template<>
inline unsigned long lexical_cast( const std::string& str )
{
errno = 0;
const char* stringToConvert = str.c_str();
const char* endOfConversion = stringToConvert;
unsigned long value = strtoul( stringToConvert, const_cast<char**>(&endOfConversion), 0 );
if( ( value == 0ul && stringToConvert == endOfConversion ) || // error: conversion could not be performed
errno != 0 ) // error: overflow or underflow
throw bad_lexical_cast();//throw bad_lexical_cast( std::type_info( str ), std::type_info( value ) );
return value;
}
template<>
inline bool lexical_cast( const std::string& str )
{
if (str == "0" || str == "false")
return false;
return true;
}
template<>
inline boost::logic::tribool lexical_cast( const std::string& str )
{
using namespace boost::logic;
if (str.empty())
return tribool(indeterminate);
if (str == "0" || str == "false")
return false;
return true;
}
/*template<>
inline float lexical_cast( const char*& str )
{
errno = 0;
const char* endOfConversion = str;
float value = (float) STRTOD( str, const_cast<char**>(&endOfConversion) );
if( ( value == 0.0f && str == endOfConversion ) || // error: conversion could not be performed
errno != 0 ) // error: overflow or underflow
throw bad_lexical_cast();//throw bad_lexical_cast( std::type_info( str ), std::type_info( value ) );
return value;
}
template<>
inline double lexical_cast( const char*& str )
{
errno = 0;
const char* endOfConversion = str;
double value = STRTOD( str, const_cast<char**>(&endOfConversion) );
if( ( value == 0.0 && str == endOfConversion ) || // error: conversion could not be performed
errno != 0 ) // error: overflow or underflow
throw bad_lexical_cast();//throw bad_lexical_cast( std::type_info( str ), std::type_info( value ) );
return value;
}
template<>
inline int lexical_cast( const char*& str )
{
errno = 0;
const char* endOfConversion = str;
int value = (int) strtol( str, const_cast<char**>(&endOfConversion), 0 );
if( ( value == 0 && str == endOfConversion ) || // error: conversion could not be performed
errno != 0 ) // error: overflow or underflow
throw bad_lexical_cast();//throw bad_lexical_cast( std::type_info( str ), std::type_info( value ) );
return value;
}
template<>
inline long lexical_cast( const char*& str )
{
errno = 0;
const char* endOfConversion = str;
long value = strtol( str, const_cast<char**>(&endOfConversion), 0 );
if( ( value == 0l && str == endOfConversion ) || // error: conversion could not be performed
errno != 0 ) // error: overflow or underflow
throw bad_lexical_cast();//throw bad_lexical_cast( std::type_info( str ), std::type_info( value ) );
return value;
}
template<>
inline unsigned int lexical_cast( const char*& str )
{
errno = 0;
const char* endOfConversion = str;
unsigned int value = (unsigned int) strtoul( str, const_cast<char**>(&endOfConversion), 0 );
if( ( value == 0u && str == endOfConversion ) || // error: conversion could not be performed
errno != 0 ) // error: overflow or underflow
throw bad_lexical_cast();//throw bad_lexical_cast( std::type_info( str ), std::type_info( value ) );
return value;
}
template<>
inline unsigned long lexical_cast( const char*& str )
{
errno = 0;
const char* endOfConversion = str;
unsigned long value = strtoul( str, const_cast<char**>(&endOfConversion), 0 );
if( ( value == 0ul && stringToConvert == endOfConversion ) || // error: conversion could not be performed
errno != 0 ) // error: overflow or underflow
throw bad_lexical_cast();//throw bad_lexical_cast( std::type_info( str ), std::type_info( value ) );
return value;
}
*/
} // boost
#endif // _OPTIMIZED_LEXICAL_CAST_HPP_
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