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| author | Anas Nashif <anas.nashif@intel.com> | 2012-10-30 12:57:26 -0700 |
|---|---|---|
| committer | Anas Nashif <anas.nashif@intel.com> | 2012-10-30 12:57:26 -0700 |
| commit | 1a78a62555be32868418fe52f8e330c9d0f95d5a (patch) | |
| tree | d3765a80e7d3b9640ec2e930743630cd6b9fce2b /boost/lexical_cast.hpp | |
| download | boost-1a78a62555be32868418fe52f8e330c9d0f95d5a.tar.gz boost-1a78a62555be32868418fe52f8e330c9d0f95d5a.tar.bz2 boost-1a78a62555be32868418fe52f8e330c9d0f95d5a.zip | |
Imported Upstream version 1.49.0upstream/1.49.0
Diffstat (limited to 'boost/lexical_cast.hpp')
| -rw-r--r-- | boost/lexical_cast.hpp | 2195 |
1 files changed, 2195 insertions, 0 deletions
diff --git a/boost/lexical_cast.hpp b/boost/lexical_cast.hpp new file mode 100644 index 0000000000..5a3d4f072a --- /dev/null +++ b/boost/lexical_cast.hpp @@ -0,0 +1,2195 @@ +#ifndef BOOST_LEXICAL_CAST_INCLUDED +#define BOOST_LEXICAL_CAST_INCLUDED + +// MS compatible compilers support #pragma once + +#if defined(_MSC_VER) && (_MSC_VER >= 1020) +# pragma once +#endif + +// Boost lexical_cast.hpp header -------------------------------------------// +// +// See http://www.boost.org/libs/conversion for documentation. +// See end of this header for rights and permissions. +// +// what: lexical_cast custom keyword cast +// who: contributed by Kevlin Henney, +// enhanced with contributions from Terje Slettebo, +// with additional fixes and suggestions from Gennaro Prota, +// Beman Dawes, Dave Abrahams, Daryle Walker, Peter Dimov, +// Alexander Nasonov, Antony Polukhin, Justin Viiret, Michael Hofmann, +// Cheng Yang, Matthew Bradbury, David W. Birdsall and other Boosters +// when: November 2000, March 2003, June 2005, June 2006, March 2011 - 2012 + +#include <boost/config.hpp> +#if defined(BOOST_NO_STRINGSTREAM) || defined(BOOST_NO_STD_WSTRING) +#define BOOST_LCAST_NO_WCHAR_T +#endif + +#if (defined(__MINGW32__) || defined(__MINGW64__)) && (__GNUC__ == 4) \ + && ((__GNUC_MINOR__ == 4) || (__GNUC_MINOR__ == 5)) && defined(__STRICT_ANSI__) \ + && !defined(BOOST_LCAST_NO_WCHAR_T) + +// workaround for a mingw bug +// http://sourceforge.net/tracker/index.php?func=detail&aid=2373234&group_id=2435&atid=102435 +#include <_mingw.h> +#if (__GNUC_MINOR__ == 4) +extern "C" { +_CRTIMP int __cdecl swprintf(wchar_t * __restrict__ , const wchar_t * __restrict__ , ...); +_CRTIMP int __cdecl vswprintf(wchar_t * __restrict__ , const wchar_t * __restrict__ , ...); +} +#endif +#if (__GNUC_MINOR__ == 5) +extern "C" { +_CRTIMP int __cdecl swprintf(wchar_t * __restrict__ , const wchar_t * __restrict__ , ...); +_CRTIMP int __cdecl vswprintf(wchar_t * __restrict__ , const wchar_t * __restrict__ , va_list); +} +#endif +#endif + +#include <climits> +#include <cstddef> +#include <istream> +#include <string> +#include <cstring> +#include <cstdio> +#include <typeinfo> +#include <exception> +#include <cmath> +#include <boost/limits.hpp> +#include <boost/mpl/if.hpp> +#include <boost/throw_exception.hpp> +#include <boost/type_traits/is_pointer.hpp> +#include <boost/type_traits/is_integral.hpp> +#include <boost/type_traits/is_arithmetic.hpp> +#include <boost/type_traits/remove_pointer.hpp> +#include <boost/numeric/conversion/cast.hpp> +#include <boost/type_traits/ice.hpp> +#include <boost/type_traits/make_unsigned.hpp> +#include <boost/type_traits/is_signed.hpp> +#include <boost/math/special_functions/sign.hpp> +#include <boost/math/special_functions/fpclassify.hpp> +#include <boost/static_assert.hpp> +#include <boost/detail/lcast_precision.hpp> +#include <boost/detail/workaround.hpp> +#if !defined(__SUNPRO_CC) +#include <boost/container/container_fwd.hpp> +#endif // !defined(__SUNPRO_CC) +#ifndef BOOST_NO_CWCHAR +# include <cwchar> +#endif + +#ifndef BOOST_NO_STD_LOCALE +# include <locale> +#else +# ifndef BOOST_LEXICAL_CAST_ASSUME_C_LOCALE +# warning "Unable to use <locale> header. boost::lexical_cast will use the 'C' locale." +# define BOOST_LEXICAL_CAST_ASSUME_C_LOCALE +# endif +#endif + +#ifdef BOOST_NO_STRINGSTREAM +#include <strstream> +#else +#include <sstream> +#endif + +#ifdef BOOST_NO_TYPEID +#define BOOST_LCAST_THROW_BAD_CAST(S, T) throw_exception(bad_lexical_cast()) +#else +#define BOOST_LCAST_THROW_BAD_CAST(Source, Target) \ + throw_exception(bad_lexical_cast(typeid(Source), typeid(Target))) +#endif + +namespace boost +{ + // exception used to indicate runtime lexical_cast failure + class bad_lexical_cast : + // workaround MSVC bug with std::bad_cast when _HAS_EXCEPTIONS == 0 +#if defined(BOOST_MSVC) && defined(_HAS_EXCEPTIONS) && !_HAS_EXCEPTIONS + public std::exception +#else + public std::bad_cast +#endif + +#if defined(__BORLANDC__) && BOOST_WORKAROUND( __BORLANDC__, < 0x560 ) + // under bcc32 5.5.1 bad_cast doesn't derive from exception + , public std::exception +#endif + + { + public: + bad_lexical_cast() : +#ifndef BOOST_NO_TYPEID + source(&typeid(void)), target(&typeid(void)) +#else + source(0), target(0) // this breaks getters +#endif + { + } + + bad_lexical_cast( + const std::type_info &source_type_arg, + const std::type_info &target_type_arg) : + source(&source_type_arg), target(&target_type_arg) + { + } + + const std::type_info &source_type() const + { + return *source; + } + const std::type_info &target_type() const + { + return *target; + } + + virtual const char *what() const throw() + { + return "bad lexical cast: " + "source type value could not be interpreted as target"; + } + virtual ~bad_lexical_cast() throw() + { + } + private: + const std::type_info *source; + const std::type_info *target; + }; + + namespace detail // selectors for choosing stream character type + { + template<typename Type> + struct stream_char + { + typedef char type; + }; + +#ifndef BOOST_NO_TEMPLATE_PARTIAL_SPECIALIZATION + template<class CharT, class Traits, class Alloc> + struct stream_char< std::basic_string<CharT,Traits,Alloc> > + { + typedef CharT type; + }; + +#if !defined(__SUNPRO_CC) + template<class CharT, class Traits, class Alloc> + struct stream_char< ::boost::container::basic_string<CharT,Traits,Alloc> > + { + typedef CharT type; + }; +#endif // !defined(__SUNPRO_CC) +#endif + +#ifndef BOOST_LCAST_NO_WCHAR_T +#ifndef BOOST_NO_INTRINSIC_WCHAR_T + template<> + struct stream_char<wchar_t> + { + typedef wchar_t type; + }; +#endif + + template<> + struct stream_char<wchar_t *> + { + typedef wchar_t type; + }; + + template<> + struct stream_char<const wchar_t *> + { + typedef wchar_t type; + }; + +#ifdef BOOST_NO_TEMPLATE_PARTIAL_SPECIALIZATION + template<> + struct stream_char<std::wstring> + { + typedef wchar_t type; + }; +#endif +#endif + + +#ifndef BOOST_NO_CHAR16_T + + template<> + struct stream_char<char16_t> + { + typedef char16_t type; + }; + + template<> + struct stream_char<char16_t *> + { + typedef char16_t type; + }; + + template<> + struct stream_char<const char16_t *> + { + typedef char16_t type; + }; + +#endif + +#ifndef BOOST_NO_CHAR32_T + + template<> + struct stream_char<char32_t> + { + typedef char32_t type; + }; + + template<> + struct stream_char<char32_t *> + { + typedef char32_t type; + }; + + template<> + struct stream_char<const char32_t *> + { + typedef char32_t type; + }; + +#endif + + template<typename TargetChar, typename SourceChar> + struct widest_char + { + typedef BOOST_DEDUCED_TYPENAME boost::mpl::if_c< + (sizeof(TargetChar) > sizeof(SourceChar)) + , TargetChar + , SourceChar >::type type; + }; + } + + namespace detail // deduce_char_traits template + { +#ifndef BOOST_NO_TEMPLATE_PARTIAL_SPECIALIZATION + template<class CharT, class Target, class Source> + struct deduce_char_traits + { + typedef std::char_traits<CharT> type; + }; + + template<class CharT, class Traits, class Alloc, class Source> + struct deduce_char_traits< CharT + , std::basic_string<CharT,Traits,Alloc> + , Source + > + { + typedef Traits type; + }; + + template<class CharT, class Target, class Traits, class Alloc> + struct deduce_char_traits< CharT + , Target + , std::basic_string<CharT,Traits,Alloc> + > + { + typedef Traits type; + }; + +#if !defined(__SUNPRO_CC) + template<class CharT, class Traits, class Alloc, class Source> + struct deduce_char_traits< CharT + , ::boost::container::basic_string<CharT,Traits,Alloc> + , Source + > + { + typedef Traits type; + }; + + template<class CharT, class Target, class Traits, class Alloc> + struct deduce_char_traits< CharT + , Target + , ::boost::container::basic_string<CharT,Traits,Alloc> + > + { + typedef Traits type; + }; + + template<class CharT, class Traits, class Alloc1, class Alloc2> + struct deduce_char_traits< CharT + , std::basic_string<CharT,Traits,Alloc1> + , std::basic_string<CharT,Traits,Alloc2> + > + { + typedef Traits type; + }; + + template<class CharT, class Traits, class Alloc1, class Alloc2> + struct deduce_char_traits< CharT + , ::boost::container::basic_string<CharT,Traits,Alloc1> + , ::boost::container::basic_string<CharT,Traits,Alloc2> + > + { + typedef Traits type; + }; + + template<class CharT, class Traits, class Alloc1, class Alloc2> + struct deduce_char_traits< CharT + , ::boost::container::basic_string<CharT,Traits,Alloc1> + , std::basic_string<CharT,Traits,Alloc2> + > + { + typedef Traits type; + }; + + template<class CharT, class Traits, class Alloc1, class Alloc2> + struct deduce_char_traits< CharT + , std::basic_string<CharT,Traits,Alloc1> + , ::boost::container::basic_string<CharT,Traits,Alloc2> + > + { + typedef Traits type; + }; +#endif // !defined(__SUNPRO_CC) +#endif + } + + namespace detail // lcast_src_length + { + // Return max. length of string representation of Source; + template< class Source // Source type of lexical_cast. + > + struct lcast_src_length + { + BOOST_STATIC_CONSTANT(std::size_t, value = 1); + // To check coverage, build the test with + // bjam --v2 profile optimization=off + static void check_coverage() {} + }; + + // Helper for integral types. + // Notes on length calculation: + // Max length for 32bit int with grouping "\1" and thousands_sep ',': + // "-2,1,4,7,4,8,3,6,4,7" + // ^ - is_signed + // ^ - 1 digit not counted by digits10 + // ^^^^^^^^^^^^^^^^^^ - digits10 * 2 + // + // Constant is_specialized is used instead of constant 1 + // to prevent buffer overflow in a rare case when + // <boost/limits.hpp> doesn't add missing specialization for + // numeric_limits<T> for some integral type T. + // When is_specialized is false, the whole expression is 0. + template<class Source> + struct lcast_src_length_integral + { +#ifndef BOOST_NO_LIMITS_COMPILE_TIME_CONSTANTS + BOOST_STATIC_CONSTANT(std::size_t, value = + std::numeric_limits<Source>::is_signed + + std::numeric_limits<Source>::is_specialized + /* == 1 */ + std::numeric_limits<Source>::digits10 * 2 + ); +#else + BOOST_STATIC_CONSTANT(std::size_t, value = 156); + BOOST_STATIC_ASSERT(sizeof(Source) * CHAR_BIT <= 256); +#endif + }; +// TODO: FIX for char16_t, char32_t, we can ignore CharT +#define BOOST_LCAST_DEF(T) \ + template<> struct lcast_src_length<T> \ + : lcast_src_length_integral<T> \ + { static void check_coverage() {} }; + + BOOST_LCAST_DEF(short) + BOOST_LCAST_DEF(unsigned short) + BOOST_LCAST_DEF(int) + BOOST_LCAST_DEF(unsigned int) + BOOST_LCAST_DEF(long) + BOOST_LCAST_DEF(unsigned long) +#if defined(BOOST_HAS_LONG_LONG) + BOOST_LCAST_DEF(boost::ulong_long_type) + BOOST_LCAST_DEF(boost::long_long_type ) +#elif defined(BOOST_HAS_MS_INT64) + BOOST_LCAST_DEF(unsigned __int64) + BOOST_LCAST_DEF( __int64) +#endif + +#undef BOOST_LCAST_DEF + +#ifndef BOOST_LCAST_NO_COMPILE_TIME_PRECISION + // Helper for floating point types. + // -1.23456789e-123456 + // ^ sign + // ^ leading digit + // ^ decimal point + // ^^^^^^^^ lcast_precision<Source>::value + // ^ "e" + // ^ exponent sign + // ^^^^^^ exponent (assumed 6 or less digits) + // sign + leading digit + decimal point + "e" + exponent sign == 5 + template<class Source> + struct lcast_src_length_floating + { + BOOST_STATIC_ASSERT( + std::numeric_limits<Source>::max_exponent10 <= 999999L && + std::numeric_limits<Source>::min_exponent10 >= -999999L + ); + BOOST_STATIC_CONSTANT(std::size_t, value = + 5 + lcast_precision<Source>::value + 6 + ); + }; + + template<> + struct lcast_src_length<float> + : lcast_src_length_floating<float> + { + static void check_coverage() {} + }; + + template<> + struct lcast_src_length<double> + : lcast_src_length_floating<double> + { + static void check_coverage() {} + }; + + template<> + struct lcast_src_length<long double> + : lcast_src_length_floating<long double> + { + static void check_coverage() {} + }; + +#endif // #ifndef BOOST_LCAST_NO_COMPILE_TIME_PRECISION + } + + namespace detail // '0', '+' and '-' constants + { + template<typename CharT> struct lcast_char_constants; + + template<> + struct lcast_char_constants<char> + { + BOOST_STATIC_CONSTANT(char, zero = '0'); + BOOST_STATIC_CONSTANT(char, minus = '-'); + BOOST_STATIC_CONSTANT(char, plus = '+'); + BOOST_STATIC_CONSTANT(char, lowercase_e = 'e'); + BOOST_STATIC_CONSTANT(char, capital_e = 'E'); + BOOST_STATIC_CONSTANT(char, c_decimal_separator = '.'); + }; + +#ifndef BOOST_LCAST_NO_WCHAR_T + template<> + struct lcast_char_constants<wchar_t> + { + BOOST_STATIC_CONSTANT(wchar_t, zero = L'0'); + BOOST_STATIC_CONSTANT(wchar_t, minus = L'-'); + BOOST_STATIC_CONSTANT(wchar_t, plus = L'+'); + BOOST_STATIC_CONSTANT(wchar_t, lowercase_e = L'e'); + BOOST_STATIC_CONSTANT(wchar_t, capital_e = L'E'); + BOOST_STATIC_CONSTANT(wchar_t, c_decimal_separator = L'.'); + }; +#endif + +#ifndef BOOST_NO_CHAR16_T + template<> + struct lcast_char_constants<char16_t> + { + BOOST_STATIC_CONSTANT(char16_t, zero = u'0'); + BOOST_STATIC_CONSTANT(char16_t, minus = u'-'); + BOOST_STATIC_CONSTANT(char16_t, plus = u'+'); + BOOST_STATIC_CONSTANT(char16_t, lowercase_e = u'e'); + BOOST_STATIC_CONSTANT(char16_t, capital_e = u'E'); + BOOST_STATIC_CONSTANT(char16_t, c_decimal_separator = u'.'); + }; +#endif + +#ifndef BOOST_NO_CHAR32_T + template<> + struct lcast_char_constants<char32_t> + { + BOOST_STATIC_CONSTANT(char32_t, zero = U'0'); + BOOST_STATIC_CONSTANT(char32_t, minus = U'-'); + BOOST_STATIC_CONSTANT(char32_t, plus = U'+'); + BOOST_STATIC_CONSTANT(char32_t, lowercase_e = U'e'); + BOOST_STATIC_CONSTANT(char32_t, capital_e = U'E'); + BOOST_STATIC_CONSTANT(char32_t, c_decimal_separator = U'.'); + }; +#endif + } + + namespace detail // lcast_to_unsigned + { +#if (defined _MSC_VER) +# pragma warning( push ) +// C4146: unary minus operator applied to unsigned type, result still unsigned +# pragma warning( disable : 4146 ) +#elif defined( __BORLANDC__ ) +# pragma option push -w-8041 +#endif + template<class T> + inline + BOOST_DEDUCED_TYPENAME make_unsigned<T>::type lcast_to_unsigned(T value) + { + typedef BOOST_DEDUCED_TYPENAME make_unsigned<T>::type result_type; + result_type uvalue = static_cast<result_type>(value); + return value < 0 ? -uvalue : uvalue; + } +#if (defined _MSC_VER) +# pragma warning( pop ) +#elif defined( __BORLANDC__ ) +# pragma option pop +#endif + } + + namespace detail // lcast_put_unsigned + { + template<class Traits, class T, class CharT> + CharT* lcast_put_unsigned(const T n_param, CharT* finish) + { +#ifndef BOOST_NO_LIMITS_COMPILE_TIME_CONSTANTS + BOOST_STATIC_ASSERT(!std::numeric_limits<T>::is_signed); +#endif + + typedef typename Traits::int_type int_type; + CharT const czero = lcast_char_constants<CharT>::zero; + int_type const zero = Traits::to_int_type(czero); + BOOST_DEDUCED_TYPENAME boost::mpl::if_c< + (sizeof(int_type) > sizeof(T)) + , int_type + , T + >::type n = n_param; + +#ifndef BOOST_LEXICAL_CAST_ASSUME_C_LOCALE + std::locale loc; + if (loc != std::locale::classic()) { + typedef std::numpunct<CharT> numpunct; + numpunct const& np = BOOST_USE_FACET(numpunct, loc); + std::string const grouping = np.grouping(); + std::string::size_type const grouping_size = grouping.size(); + + if ( grouping_size && grouping[0] > 0 ) + { + +#ifndef BOOST_NO_LIMITS_COMPILE_TIME_CONSTANTS + // Check that ulimited group is unreachable: + BOOST_STATIC_ASSERT(std::numeric_limits<T>::digits10 < CHAR_MAX); +#endif + CharT thousands_sep = np.thousands_sep(); + std::string::size_type group = 0; // current group number + char last_grp_size = grouping[0]; + char left = last_grp_size; + + do + { + if(left == 0) + { + ++group; + if(group < grouping_size) + { + char const grp_size = grouping[group]; + last_grp_size = grp_size <= 0 ? CHAR_MAX : grp_size; + } + + left = last_grp_size; + --finish; + Traits::assign(*finish, thousands_sep); + } + + --left; + + --finish; + int_type const digit = static_cast<int_type>(n % 10U); + Traits::assign(*finish, Traits::to_char_type(zero + digit)); + n /= 10; + } while(n); + return finish; + } + } +#endif + { + do + { + --finish; + int_type const digit = static_cast<int_type>(n % 10U); + Traits::assign(*finish, Traits::to_char_type(zero + digit)); + n /= 10; + } while(n); + } + + return finish; + } + } + + namespace detail // lcast_ret_unsigned + { + template<class Traits, class T, class CharT> + inline bool lcast_ret_unsigned(T& value, const CharT* const begin, const CharT* end) + { +#ifndef BOOST_NO_LIMITS_COMPILE_TIME_CONSTANTS + BOOST_STATIC_ASSERT(!std::numeric_limits<T>::is_signed); +#endif + typedef typename Traits::int_type int_type; + CharT const czero = lcast_char_constants<CharT>::zero; + --end; + value = 0; + + if (begin > end || *end < czero || *end >= czero + 10) + return false; + value = *end - czero; + --end; + T multiplier = 1; + bool multiplier_overflowed = false; + +#ifndef BOOST_LEXICAL_CAST_ASSUME_C_LOCALE + std::locale loc; + if (loc != std::locale::classic()) { + typedef std::numpunct<CharT> numpunct; + numpunct const& np = BOOST_USE_FACET(numpunct, loc); + std::string const& grouping = np.grouping(); + std::string::size_type const grouping_size = grouping.size(); + + /* According to Programming languages - C++ + * we MUST check for correct grouping + */ + if (grouping_size && grouping[0] > 0) + { + unsigned char current_grouping = 0; + CharT const thousands_sep = np.thousands_sep(); + char remained = grouping[current_grouping] - 1; + bool shall_we_return = true; + + for(;end>=begin; --end) + { + if (remained) { + T const multiplier_10 = multiplier * 10; + if (multiplier_10 / 10 != multiplier) multiplier_overflowed = true; + + T const dig_value = *end - czero; + T const new_sub_value = multiplier_10 * dig_value; + + if (*end < czero || *end >= czero + 10 + /* detecting overflow */ + || (dig_value && new_sub_value / dig_value != multiplier_10) + || static_cast<T>((std::numeric_limits<T>::max)()-new_sub_value) < value + || (multiplier_overflowed && dig_value) + ) + return false; + + value += new_sub_value; + multiplier *= 10; + --remained; + } else { + if ( !Traits::eq(*end, thousands_sep) ) //|| begin == end ) return false; + { + /* + * According to Programming languages - C++ + * Digit grouping is checked. That is, the positions of discarded + * separators is examined for consistency with + * use_facet<numpunct<charT> >(loc ).grouping() + * + * BUT what if there is no separators at all and grouping() + * is not empty? Well, we have no extraced separators, so we + * won`t check them for consistency. This will allow us to + * work with "C" locale from other locales + */ + shall_we_return = false; + break; + } else { + if ( begin == end ) return false; + if (current_grouping < grouping_size-1 ) ++current_grouping; + remained = grouping[current_grouping]; + } + } + } + + if (shall_we_return) return true; + } + } +#endif + { + while ( begin <= end ) + { + T const multiplier_10 = multiplier * 10; + if (multiplier_10 / 10 != multiplier) multiplier_overflowed = true; + + T const dig_value = *end - czero; + T const new_sub_value = multiplier_10 * dig_value; + + if (*end < czero || *end >= czero + 10 + /* detecting overflow */ + || (dig_value && new_sub_value / dig_value != multiplier_10) + || static_cast<T>((std::numeric_limits<T>::max)()-new_sub_value) < value + || (multiplier_overflowed && dig_value) + ) + return false; + + value += new_sub_value; + multiplier *= 10; + --end; + } + } + return true; + } + } + + namespace detail + { + /* Returns true and sets the correct value if found NaN or Inf. */ + template <class CharT, class T> + inline bool parse_inf_nan_impl(const CharT* begin, const CharT* end, T& value + , const CharT* lc_NAN, const CharT* lc_nan + , const CharT* lc_INFINITY, const CharT* lc_infinity + , const CharT opening_brace, const CharT closing_brace) + { + using namespace std; + if (begin == end) return false; + const CharT minus = lcast_char_constants<CharT>::minus; + const CharT plus = lcast_char_constants<CharT>::plus; + const int inifinity_size = 8; + + bool has_minus = false; + /* Parsing +/- */ + if( *begin == minus) + { + ++ begin; + has_minus = true; + } + else if( *begin == plus ) ++begin; + + if( end-begin < 3 ) return false; + if( !memcmp(begin, lc_nan, 3*sizeof(CharT)) || !memcmp(begin, lc_NAN, 3*sizeof(CharT)) ) + { + begin += 3; + if (end != begin) /* It is 'nan(...)' or some bad input*/ + { + if(end-begin<2) return false; // bad input + -- end; + if( *begin != opening_brace || *end != closing_brace) return false; // bad input + } + + if( !has_minus ) value = std::numeric_limits<T>::quiet_NaN(); + else value = (boost::math::changesign) (std::numeric_limits<T>::quiet_NaN()); + return true; + } else + if (( /* 'INF' or 'inf' */ + end-begin==3 + && + (!memcmp(begin, lc_infinity, 3*sizeof(CharT)) || !memcmp(begin, lc_INFINITY, 3*sizeof(CharT))) + ) + || + ( /* 'INFINITY' or 'infinity' */ + end-begin==inifinity_size + && + (!memcmp(begin, lc_infinity, inifinity_size)|| !memcmp(begin, lc_INFINITY, inifinity_size)) + ) + ) + { + if( !has_minus ) value = std::numeric_limits<T>::infinity(); + else value = (boost::math::changesign) (std::numeric_limits<T>::infinity()); + return true; + } + + return false; + } + +#ifndef BOOST_LCAST_NO_WCHAR_T + template <class T> + bool parse_inf_nan(const wchar_t* begin, const wchar_t* end, T& value) + { + return parse_inf_nan_impl(begin, end, value + , L"NAN", L"nan" + , L"INFINITY", L"infinity" + , L'(', L')'); + } +#endif +#ifndef BOOST_NO_CHAR16_T + template <class T> + bool parse_inf_nan(const char16_t* begin, const char16_t* end, T& value) + { + return parse_inf_nan_impl(begin, end, value + , u"NAN", u"nan" + , u"INFINITY", u"infinity" + , u'(', u')'); + } +#endif +#ifndef BOOST_NO_CHAR32_T + template <class T> + bool parse_inf_nan(const char32_t* begin, const char32_t* end, T& value) + { + return parse_inf_nan_impl(begin, end, value + , U"NAN", U"nan" + , U"INFINITY", U"infinity" + , U'(', U')'); + } +#endif + + template <class CharT, class T> + bool parse_inf_nan(const CharT* begin, const CharT* end, T& value) + { + return parse_inf_nan_impl(begin, end, value + , "NAN", "nan" + , "INFINITY", "infinity" + , '(', ')'); + } +#ifndef BOOST_LCAST_NO_WCHAR_T + template <class T> + bool put_inf_nan(wchar_t* begin, wchar_t*& end, const T& value) + { + using namespace std; + if ( (boost::math::isnan)(value) ) + { + if ( (boost::math::signbit)(value) ) + { + memcpy(begin,L"-nan", sizeof(L"-nan")); + end = begin + 4; + } else + { + memcpy(begin,L"nan", sizeof(L"nan")); + end = begin + 3; + } + return true; + } else if ( (boost::math::isinf)(value) ) + { + if ( (boost::math::signbit)(value) ) + { + memcpy(begin,L"-inf", sizeof(L"-inf")); + end = begin + 4; + } else + { + memcpy(begin,L"inf", sizeof(L"inf")); + end = begin + 3; + } + return true; + } + + return false; + } +#endif + template <class CharT, class T> + bool put_inf_nan(CharT* begin, CharT*& end, const T& value) + { + using namespace std; + if ( (boost::math::isnan)(value) ) + { + if ( (boost::math::signbit)(value) ) + { + memcpy(begin,"-nan", sizeof("-nan")); + end = begin + 4; + } else + { + memcpy(begin,"nan", sizeof("nan")); + end = begin + 3; + } + return true; + } else if ( (boost::math::isinf)(value) ) + { + if ( (boost::math::signbit)(value) ) + { + memcpy(begin,"-inf", sizeof("-inf")); + end = begin + 4; + } else + { + memcpy(begin,"inf", sizeof("inf")); + end = begin + 3; + } + return true; + } + + return false; + } + + } + + + namespace detail // lcast_ret_float + { + template <class T> + struct mantissa_holder_type + { + /* Can not be used with this type */ + }; + + template <> + struct mantissa_holder_type<float> + { + typedef unsigned int type; + }; + + template <> + struct mantissa_holder_type<double> + { +#if defined(BOOST_HAS_LONG_LONG) + typedef boost::ulong_long_type type; +#elif defined(BOOST_HAS_MS_INT64) + typedef unsigned __int64 type; +#endif + }; + + template<class Traits, class T, class CharT> + inline bool lcast_ret_float(T& value, const CharT* begin, const CharT* end) + { + +#ifndef BOOST_LEXICAL_CAST_ASSUME_C_LOCALE + std::locale loc; + typedef std::numpunct<CharT> numpunct; + numpunct const& np = BOOST_USE_FACET(numpunct, loc); + std::string const grouping( + (loc == std::locale::classic()) + ? std::string() + : np.grouping() + ); + std::string::size_type const grouping_size = grouping.size(); + CharT const thousands_sep = grouping_size ? np.thousands_sep() : 0; + CharT const decimal_point = np.decimal_point(); + bool found_grouping = false; + std::string::size_type last_grouping_pos = grouping_size - 1; +#else + CharT const decimal_point = lcast_char_constants<CharT>::c_decimal_separator; +#endif + + CharT const czero = lcast_char_constants<CharT>::zero; + CharT const minus = lcast_char_constants<CharT>::minus; + CharT const plus = lcast_char_constants<CharT>::plus; + CharT const capital_e = lcast_char_constants<CharT>::capital_e; + CharT const lowercase_e = lcast_char_constants<CharT>::lowercase_e; + + value = 0.0; + + if (parse_inf_nan(begin, end, value)) return true; + + typedef typename Traits::int_type int_type; + typedef BOOST_DEDUCED_TYPENAME mantissa_holder_type<T>::type mantissa_type; + int_type const zero = Traits::to_int_type(czero); + if (begin == end) return false; + + /* Getting the plus/minus sign */ + bool has_minus = false; + if ( *begin == minus ) { + ++ begin; + has_minus = true; + if (begin == end) return false; + } else if ( *begin == plus ) { + ++begin; + if (begin == end) return false; + } + + bool found_decimal = false; + bool found_number_before_exp = false; + int pow_of_10 = 0; + mantissa_type mantissa=0; + bool is_mantissa_full = false; + + char length_since_last_delim = 0; + + while ( begin != end ) + { + if (found_decimal) { + /* We allow no thousand_separators after decimal point */ + + mantissa_type tmp_mantissa = mantissa * 10u; + if ( *begin == lowercase_e || *begin == capital_e ) break; + if ( *begin < czero || *begin >= czero + 10 ) return false; + if ( is_mantissa_full + || tmp_mantissa / 10u != mantissa + || (std::numeric_limits<mantissa_type>::max)()-(*begin - zero) < tmp_mantissa + ) { + is_mantissa_full = true; + ++ begin; + continue; + } + + -- pow_of_10; + mantissa = tmp_mantissa; + mantissa += *begin - zero; + + found_number_before_exp = true; + } else { + + if (*begin >= czero && *begin < czero + 10) { + + /* Checking for mantissa overflow. If overflow will + * occur, them we only increase multiplyer + */ + mantissa_type tmp_mantissa = mantissa * 10u; + if( !is_mantissa_full + && tmp_mantissa / 10u == mantissa + && (std::numeric_limits<mantissa_type>::max)()-(*begin - zero) >= tmp_mantissa + ) + { + mantissa = tmp_mantissa; + mantissa += *begin - zero; + } else + { + is_mantissa_full = true; + ++ pow_of_10; + } + + found_number_before_exp = true; + ++ length_since_last_delim; + } else if ( *begin == decimal_point || *begin == lowercase_e || *begin == capital_e) { +#ifndef BOOST_LEXICAL_CAST_ASSUME_C_LOCALE + /* If ( we need to check grouping + * and ( grouping missmatches + * or grouping position is incorrect + * or we are using the grouping position 0 twice + * ) + * ) then return error + */ + if( grouping_size && found_grouping + && ( + length_since_last_delim != grouping[0] + || last_grouping_pos>1 + || (last_grouping_pos==0 && grouping_size>1) + ) + ) return false; +#endif + + if(*begin == decimal_point){ + ++ begin; + found_decimal = true; + continue; + }else { + if (!found_number_before_exp) return false; + break; + } + } +#ifndef BOOST_LEXICAL_CAST_ASSUME_C_LOCALE + else if (grouping_size && *begin == thousands_sep){ + if(found_grouping) + { + /* It is not he first time, when we find thousands separator, + * so we need to chek, is the distance between two groupings + * equal to grouping[last_grouping_pos] */ + + if (length_since_last_delim != grouping[last_grouping_pos] ) + { + if (!last_grouping_pos) return false; + else + { + -- last_grouping_pos; + if (length_since_last_delim != grouping[last_grouping_pos]) return false; + } + } else + /* We are calling the grouping[0] twice, when grouping size is more than 1 */ + if (grouping_size>1u && last_grouping_pos+1<grouping_size) return false; + + } else { + /* Delimiter at the begining ',000' */ + if (!length_since_last_delim) return false; + + found_grouping = true; + if (length_since_last_delim > grouping[last_grouping_pos] ) return false; + } + + length_since_last_delim = 0; + ++ begin; + + /* Delimiter at the end '100,' */ + if (begin == end) return false; + continue; + } +#endif + else return false; + } + + ++begin; + } + + // Exponent found + if ( begin != end && ( *begin == lowercase_e || *begin == capital_e ) ) { + ++ begin; + if ( begin == end ) return false; + + bool exp_has_minus = false; + if( *begin == minus ) { + exp_has_minus = true; + ++ begin; + if ( begin == end ) return false; + } else if (*begin == plus ) { + ++ begin; + if ( begin == end ) return false; + } + + int exp_pow_of_10 = 0; + while ( begin != end ) + { + if ( *begin < czero + || *begin >= czero + 10 + || exp_pow_of_10 * 10 < exp_pow_of_10) /* Overflows are checked lower more precisely*/ + return false; + + exp_pow_of_10 *= 10; + exp_pow_of_10 += *begin - zero; + ++ begin; + }; + + if ( exp_pow_of_10 ) { + /* Overflows are checked lower */ + if ( exp_has_minus ) { + pow_of_10 -= exp_pow_of_10; + } else { + pow_of_10 += exp_pow_of_10; + } + } + } + + /* We need a more accurate algorithm... We can not use current algorithm + * with long doubles (and with doubles if sizeof(double)==sizeof(long double)). + */ + long double result = std::pow(10.0L, pow_of_10) * mantissa; + value = static_cast<T>( has_minus ? (boost::math::changesign)(result) : result); + + if ( (boost::math::isinf)(value) || (boost::math::isnan)(value) ) return false; + + return true; + } + } + + namespace detail // stl_buf_unlocker + { + template< class BufferType, class CharT > + class stl_buf_unlocker: public BufferType{ + public: + typedef BufferType base_class; +#ifndef BOOST_NO_USING_TEMPLATE + using base_class::pptr; + using base_class::pbase; + using base_class::setg; + using base_class::setp; +#else + CharT* pptr() const { return base_class::pptr(); } + CharT* pbase() const { return base_class::pbase(); } + void setg(CharT* gbeg, CharT* gnext, CharT* gend){ return base_class::setg(gbeg, gnext, gend); } + void setp(CharT* pbeg, CharT* pend) { return setp(pbeg, pend); } +#endif + }; + } + + namespace detail + { + struct do_not_construct_stringbuffer_t{}; + } + + namespace detail // optimized stream wrapper + { + // String representation of Source has an upper limit. + template< class CharT // a result of widest_char transformation + , class Traits // usually char_traits<CharT> + , bool RequiresStringbuffer + > + class lexical_stream_limited_src + { + typedef stl_buf_unlocker<std::basic_streambuf<CharT, Traits>, CharT > local_streambuffer_t; + +#if defined(BOOST_NO_STRINGSTREAM) + typedef stl_buf_unlocker<std::strstream, CharT > local_stringbuffer_t; +#elif defined(BOOST_NO_STD_LOCALE) + typedef stl_buf_unlocker<std::stringstream, CharT > local_stringbuffer_t; +#else + typedef stl_buf_unlocker<std::basic_stringbuf<CharT, Traits>, CharT > local_stringbuffer_t; +#endif + typedef BOOST_DEDUCED_TYPENAME ::boost::mpl::if_c< + RequiresStringbuffer, + local_stringbuffer_t, + do_not_construct_stringbuffer_t + >::type deduced_stringbuffer_t; + + // A string representation of Source is written to [start, finish). + CharT* start; + CharT* finish; + deduced_stringbuffer_t stringbuffer; + + public: + lexical_stream_limited_src(CharT* sta, CharT* fin) + : start(sta) + , finish(fin) + {} + + private: + // Undefined: + lexical_stream_limited_src(lexical_stream_limited_src const&); + void operator=(lexical_stream_limited_src const&); + +/************************************ HELPER FUNCTIONS FOR OPERATORS << ( ... ) ********************************/ + bool shl_char(CharT ch) + { + Traits::assign(*start, ch); + finish = start + 1; + return true; + } + +#ifndef BOOST_LCAST_NO_WCHAR_T + template <class T> + bool shl_char(T ch) + { + BOOST_STATIC_ASSERT_MSG(( sizeof(T) <= sizeof(CharT)) , + "boost::lexical_cast does not support conversions from whar_t to char types." + "Use boost::locale instead" ); +#ifndef BOOST_LEXICAL_CAST_ASSUME_C_LOCALE + std::locale loc; + wchar_t w = BOOST_USE_FACET(std::ctype<wchar_t>, loc).widen(ch); +#else + wchar_t w = ch; +#endif + Traits::assign(*start, w); + finish = start + 1; + return true; + } +#endif + + bool shl_char_array(CharT const* str) + { + start = const_cast<CharT*>(str); + finish = start + Traits::length(str); + return true; + } + +#ifndef BOOST_LCAST_NO_WCHAR_T + template <class T> + bool shl_char_array(T const* str) + { + BOOST_STATIC_ASSERT_MSG(( sizeof(T) <= sizeof(CharT)), + "boost::lexical_cast does not support conversions from wchar_t to char types." + "Use boost::locale instead" ); + return shl_input_streamable(str); + } +#endif + + template<typename InputStreamable> + bool shl_input_streamable(InputStreamable& input) + { + std::basic_ostream<CharT> stream(&stringbuffer); + bool const result = !(stream << input).fail(); + start = stringbuffer.pbase(); + finish = stringbuffer.pptr(); + return result; + } + + template <class T> + inline bool shl_signed(T n) + { + start = lcast_put_unsigned<Traits>(lcast_to_unsigned(n), finish); + if(n < 0) + { + --start; + CharT const minus = lcast_char_constants<CharT>::minus; + Traits::assign(*start, minus); + } + return true; + } + +#if (defined _MSC_VER) +# pragma warning( push ) +// C4996: This function or variable may be unsafe. Consider using sprintf_s instead +# pragma warning( disable : 4996 ) +#endif + + template <class T> + bool shl_float(float val,T* out) + { using namespace std; + if (put_inf_nan(start,finish,val)) return true; + finish = start + sprintf(out,"%.*g", static_cast<int>(boost::detail::lcast_get_precision<float >()), val ); + return finish > start; + } + + template <class T> + bool shl_double(double val,T* out) + { using namespace std; + if (put_inf_nan(start,finish,val)) return true; + finish = start + sprintf(out,"%.*lg", static_cast<int>(boost::detail::lcast_get_precision<double >()), val ); + return finish > start; + } +#ifndef __MINGW32__ + template <class T> + bool shl_long_double(long double val,T* out) + { using namespace std; + if (put_inf_nan(start,finish,val)) return true; + finish = start + sprintf(out,"%.*Lg", static_cast<int>(boost::detail::lcast_get_precision<long double >()), val ); + return finish > start; + } +#endif + +#if (defined _MSC_VER) +# pragma warning( pop ) +#endif + + +#ifndef BOOST_LCAST_NO_WCHAR_T + bool shl_float(float val,wchar_t* out) + { using namespace std; + if (put_inf_nan(start,finish,val)) return true; + finish = start + swprintf(out, +#if !defined(__MINGW32__) && !defined(UNDER_CE) + finish-start, +#endif + L"%.*g", static_cast<int>(boost::detail::lcast_get_precision<float >()), val ); + + return finish > start; + } + + + bool shl_double(double val,wchar_t* out) + { using namespace std; + if (put_inf_nan(start,finish,val)) return true; + /* __MINGW32__ is defined for both mingw.org and for mingw-w64. + * For mingw-w64, __MINGW64__ is defined, too, when targetting + * 64 bits. + * + * swprintf realization in MinGW and under WinCE does not conform + * to the ISO C + * Standard. + */ + finish = start + swprintf(out, +#if !defined(__MINGW32__) && !defined(UNDER_CE) + finish-start, +#endif + L"%.*lg", static_cast<int>(boost::detail::lcast_get_precision<double >()), val ); + return finish > start; + } + +#ifndef __MINGW32__ + bool shl_long_double(long double val,wchar_t* out) + { using namespace std; + if (put_inf_nan(start,finish,val)) return true; + finish = start + swprintf(out, +#if !defined(UNDER_CE) + finish-start, +#endif + L"%.*Lg", static_cast<int>(boost::detail::lcast_get_precision<long double >()), val ); + return finish > start; + } +#endif + +#endif + +/************************************ OPERATORS << ( ... ) ********************************/ + public: + template<class Alloc> + bool operator<<(std::basic_string<CharT,Traits,Alloc> const& str) + { + start = const_cast<CharT*>(str.data()); + finish = start + str.length(); + return true; + } + +#if !defined(__SUNPRO_CC) + template<class Alloc> + bool operator<<(::boost::container::basic_string<CharT,Traits,Alloc> const& str) + { + start = const_cast<CharT*>(str.data()); + finish = start + str.length(); + return true; + } +#endif // !defined(__SUNPRO_CC) + bool operator<<(bool value) + { + CharT const czero = lcast_char_constants<CharT>::zero; + Traits::assign(*start, Traits::to_char_type(czero + value)); + finish = start + 1; + return true; + } + + bool operator<<(char ch) { return shl_char(ch); } + bool operator<<(unsigned char ch) { return ((*this) << static_cast<char>(ch)); } + bool operator<<(signed char ch) { return ((*this) << static_cast<char>(ch)); } +#if !defined(BOOST_LCAST_NO_WCHAR_T) + bool operator<<(wchar_t const* str) { return shl_char_array(str); } + bool operator<<(wchar_t * str) { return shl_char_array(str); } +#ifndef BOOST_NO_INTRINSIC_WCHAR_T + bool operator<<(wchar_t ch) { return shl_char(ch); } +#endif +#endif + bool operator<<(unsigned char const* ch) { return ((*this) << reinterpret_cast<char const*>(ch)); } + bool operator<<(unsigned char * ch) { return ((*this) << reinterpret_cast<char *>(ch)); } + bool operator<<(signed char const* ch) { return ((*this) << reinterpret_cast<char const*>(ch)); } + bool operator<<(signed char * ch) { return ((*this) << reinterpret_cast<char *>(ch)); } + bool operator<<(char const* str) { return shl_char_array(str); } + bool operator<<(char* str) { return shl_char_array(str); } + bool operator<<(short n) { return shl_signed(n); } + bool operator<<(int n) { return shl_signed(n); } + bool operator<<(long n) { return shl_signed(n); } + bool operator<<(unsigned short n) { start = lcast_put_unsigned<Traits>(n, finish); return true; } + bool operator<<(unsigned int n) { start = lcast_put_unsigned<Traits>(n, finish); return true; } + bool operator<<(unsigned long n) { start = lcast_put_unsigned<Traits>(n, finish); return true; } + +#if defined(BOOST_HAS_LONG_LONG) + bool operator<<(boost::ulong_long_type n) { start = lcast_put_unsigned<Traits>(n, finish); return true; } + bool operator<<(boost::long_long_type n) { return shl_signed(n); } +#elif defined(BOOST_HAS_MS_INT64) + bool operator<<(unsigned __int64 n) { start = lcast_put_unsigned<Traits>(n, finish); return true; } + bool operator<<( __int64 n) { return shl_signed(n); } +#endif + bool operator<<(float val) { return shl_float(val,start); } + bool operator<<(double val) { return shl_double(val,start); } + bool operator<<(long double val) { +#ifndef __MINGW32__ + return shl_long_double(val,start); +#else + return shl_double(val,start); +#endif + } + + template<class InStreamable> + bool operator<<(const InStreamable& input) { return shl_input_streamable(input); } + +/************************************ HELPER FUNCTIONS FOR OPERATORS >> ( ... ) ********************************/ + private: + + template <typename Type> + bool shr_unsigned(Type& output) + { + if (start == finish) return false; + CharT const minus = lcast_char_constants<CharT>::minus; + CharT const plus = lcast_char_constants<CharT>::plus; + bool has_minus = false; + + /* We won`t use `start' any more, so no need in decrementing it after */ + if ( Traits::eq(minus,*start) ) + { + ++start; + has_minus = true; + } else if ( Traits::eq( plus, *start ) ) + { + ++start; + } + + bool const succeed = lcast_ret_unsigned<Traits>(output, start, finish); +#if (defined _MSC_VER) +# pragma warning( push ) +// C4146: unary minus operator applied to unsigned type, result still unsigned +# pragma warning( disable : 4146 ) +#elif defined( __BORLANDC__ ) +# pragma option push -w-8041 +#endif + if (has_minus) output = static_cast<Type>(-output); +#if (defined _MSC_VER) +# pragma warning( pop ) +#elif defined( __BORLANDC__ ) +# pragma option pop +#endif + return succeed; + } + + template <typename Type> + bool shr_signed(Type& output) + { + if (start == finish) return false; + CharT const minus = lcast_char_constants<CharT>::minus; + CharT const plus = lcast_char_constants<CharT>::plus; + typedef BOOST_DEDUCED_TYPENAME make_unsigned<Type>::type utype; + utype out_tmp =0; + bool has_minus = false; + + /* We won`t use `start' any more, so no need in decrementing it after */ + if ( Traits::eq(minus,*start) ) + { + ++start; + has_minus = true; + } else if ( Traits::eq(plus, *start) ) + { + ++start; + } + + bool succeed = lcast_ret_unsigned<Traits>(out_tmp, start, finish); + if (has_minus) { +#if (defined _MSC_VER) +# pragma warning( push ) +// C4146: unary minus operator applied to unsigned type, result still unsigned +# pragma warning( disable : 4146 ) +#elif defined( __BORLANDC__ ) +# pragma option push -w-8041 +#endif + utype const comp_val = static_cast<utype>(-(std::numeric_limits<Type>::min)()); + succeed = succeed && out_tmp<=comp_val; + output = -out_tmp; +#if (defined _MSC_VER) +# pragma warning( pop ) +#elif defined( __BORLANDC__ ) +# pragma option pop +#endif + } else { + utype const comp_val = static_cast<utype>((std::numeric_limits<Type>::max)()); + succeed = succeed && out_tmp<=comp_val; + output = out_tmp; + } + return succeed; + } + + template<typename InputStreamable> + bool shr_using_base_class(InputStreamable& output) + { +#if (defined _MSC_VER) +# pragma warning( push ) + // conditional expression is constant +# pragma warning( disable : 4127 ) +#endif + if(is_pointer<InputStreamable>::value) + return false; + + local_streambuffer_t bb; + bb.setg(start, start, finish); + std::basic_istream<CharT> stream(&bb); + stream.unsetf(std::ios::skipws); + lcast_set_precision(stream, static_cast<InputStreamable*>(0)); +#if (defined _MSC_VER) +# pragma warning( pop ) +#endif + return stream >> output && + stream.get() == +#if defined(__GNUC__) && (__GNUC__<3) && defined(BOOST_NO_STD_WSTRING) + // GCC 2.9x lacks std::char_traits<>::eof(). + // We use BOOST_NO_STD_WSTRING to filter out STLport and libstdc++-v3 + // configurations, which do provide std::char_traits<>::eof(). + + EOF; +#else + Traits::eof(); +#endif + } + + template<class T> + inline bool shr_xchar(T& output) + { + BOOST_STATIC_ASSERT_MSG(( sizeof(CharT) == sizeof(T) ), + "boost::lexical_cast does not support conversions from whar_t to char types." + "Use boost::locale instead" ); + bool const ok = (finish - start == 1); + if(ok) { + CharT out; + Traits::assign(out, *start); + output = static_cast<T>(out); + } + return ok; + } + +/************************************ OPERATORS >> ( ... ) ********************************/ + public: + bool operator>>(unsigned short& output) { return shr_unsigned(output); } + bool operator>>(unsigned int& output) { return shr_unsigned(output); } + bool operator>>(unsigned long int& output) { return shr_unsigned(output); } + bool operator>>(short& output) { return shr_signed(output); } + bool operator>>(int& output) { return shr_signed(output); } + bool operator>>(long int& output) { return shr_signed(output); } +#if defined(BOOST_HAS_LONG_LONG) + bool operator>>(boost::ulong_long_type& output) { return shr_unsigned(output); } + bool operator>>(boost::long_long_type& output) { return shr_signed(output); } +#elif defined(BOOST_HAS_MS_INT64) + bool operator>>(unsigned __int64& output) { return shr_unsigned(output); } + bool operator>>(__int64& output) { return shr_signed(output); } +#endif + bool operator>>(char& output) { return shr_xchar(output); } + bool operator>>(unsigned char& output) { return shr_xchar(output); } + bool operator>>(signed char& output) { return shr_xchar(output); } +#if !defined(BOOST_LCAST_NO_WCHAR_T) && !defined(BOOST_NO_INTRINSIC_WCHAR_T) + bool operator>>(wchar_t& output) { return shr_xchar(output); } +#endif +#ifndef BOOST_NO_CHAR16_T + bool operator>>(char16_t& output) { return shr_xchar(output); } +#endif +#ifndef BOOST_NO_CHAR32_T + bool operator>>(char32_t& output) { return shr_xchar(output); } +#endif +#ifdef BOOST_NO_TEMPLATE_PARTIAL_SPECIALIZATION + bool operator>>(std::string& str) { str.assign(start, finish); return true; } +# ifndef BOOST_LCAST_NO_WCHAR_T + bool operator>>(std::wstring& str) { str.assign(start, finish); return true; } +# endif +#else + template<class Alloc> + bool operator>>(std::basic_string<CharT,Traits,Alloc>& str) { str.assign(start, finish); return true; } +#if !defined(__SUNPRO_CC) + template<class Alloc> + bool operator>>(::boost::container::basic_string<CharT,Traits,Alloc>& str) { str.assign(start, finish); return true; } +#endif // !defined(__SUNPRO_CC) +#endif + /* + * case "-0" || "0" || "+0" : output = false; return true; + * case "1" || "+1": output = true; return true; + * default: return false; + */ + bool operator>>(bool& output) + { + CharT const zero = lcast_char_constants<CharT>::zero; + CharT const plus = lcast_char_constants<CharT>::plus; + CharT const minus = lcast_char_constants<CharT>::minus; + + switch(finish-start) + { + case 1: + output = Traits::eq(start[0], zero+1); + return output || Traits::eq(start[0], zero ); + case 2: + if ( Traits::eq( plus, *start) ) + { + ++start; + output = Traits::eq(start[0], zero +1); + return output || Traits::eq(start[0], zero ); + } else + { + output = false; + return Traits::eq( minus, *start) + && Traits::eq( zero, start[1]); + } + default: + output = false; // Suppress warning about uninitalized variable + return false; + } + } + + bool operator>>(float& output) { return lcast_ret_float<Traits>(output,start,finish); } + + private: + // Not optimised converter + template <class T> + bool float_types_converter_internal(T& output, int /*tag*/) { + if (parse_inf_nan(start, finish, output)) return true; + bool return_value = shr_using_base_class(output); + + /* Some compilers and libraries successfully + * parse 'inf', 'INFINITY', '1.0E', '1.0E-'... + * We are trying to provide a unified behaviour, + * so we just forbid such conversions (as some + * of the most popular compilers/libraries do) + * */ + CharT const minus = lcast_char_constants<CharT>::minus; + CharT const plus = lcast_char_constants<CharT>::plus; + CharT const capital_e = lcast_char_constants<CharT>::capital_e; + CharT const lowercase_e = lcast_char_constants<CharT>::lowercase_e; + if ( return_value && + ( + *(finish-1) == lowercase_e // 1.0e + || *(finish-1) == capital_e // 1.0E + || *(finish-1) == minus // 1.0e- or 1.0E- + || *(finish-1) == plus // 1.0e+ or 1.0E+ + ) + ) return false; + + return return_value; + } + + // Optimised converter + bool float_types_converter_internal(double& output,char /*tag*/) { + return lcast_ret_float<Traits>(output,start,finish); + } + public: + + bool operator>>(double& output) + { + /* + * Some compilers implement long double as double. In that case these types have + * same size, same precision, same max and min values... And it means, + * that current implementation of lcast_ret_float cannot be used for type + * double, because it will give a big precision loss. + * */ + boost::mpl::if_c< +#if defined(BOOST_HAS_LONG_LONG) || defined(BOOST_HAS_MS_INT64) + ::boost::type_traits::ice_eq< sizeof(double), sizeof(long double) >::value, +#else + 0 +#endif + int, + char + >::type tag = 0; + + return float_types_converter_internal(output, tag); + } + + bool operator>>(long double& output) + { + int tag = 0; + return float_types_converter_internal(output, tag); + } + + // Generic istream-based algorithm. + // lcast_streambuf_for_target<InputStreamable>::value is true. + template<typename InputStreamable> + bool operator>>(InputStreamable& output) { return shr_using_base_class(output); } + }; + } + +#ifndef BOOST_NO_TEMPLATE_PARTIAL_SPECIALIZATION + + // call-by-const reference version + + namespace detail + { + template<class T> + struct array_to_pointer_decay + { + typedef T type; + }; + + template<class T, std::size_t N> + struct array_to_pointer_decay<T[N]> + { + typedef const T * type; + }; + + template<typename T> + struct is_stdstring + { + BOOST_STATIC_CONSTANT(bool, value = false ); + }; + + template<typename CharT, typename Traits, typename Alloc> + struct is_stdstring< std::basic_string<CharT, Traits, Alloc> > + { + BOOST_STATIC_CONSTANT(bool, value = true ); + }; +#if !defined(__SUNPRO_CC) + template<typename CharT, typename Traits, typename Alloc> + struct is_stdstring< ::boost::container::basic_string<CharT, Traits, Alloc> > + { + BOOST_STATIC_CONSTANT(bool, value = true ); + }; +#endif // !defined(__SUNPRO_CC) + template<typename T> + struct is_char_or_wchar + { + private: +#ifndef BOOST_LCAST_NO_WCHAR_T + typedef wchar_t wchar_t_if_supported; +#else + typedef char wchar_t_if_supported; +#endif + +#ifndef BOOST_NO_CHAR16_T + typedef char16_t char16_t_if_supported; +#else + typedef char char16_t_if_supported; +#endif + +#ifndef BOOST_NO_CHAR32_T + typedef char32_t char32_t_if_supported; +#else + typedef char char32_t_if_supported; +#endif + public: + + BOOST_STATIC_CONSTANT(bool, value = + ( + ::boost::type_traits::ice_or< + is_same< T, char >::value, + is_same< T, wchar_t_if_supported >::value, + is_same< T, char16_t_if_supported >::value, + is_same< T, char32_t_if_supported >::value, + is_same< T, unsigned char >::value, + is_same< T, signed char >::value + >::value + ) + ); + }; + + template<typename Target, typename Source> + struct is_arithmetic_and_not_xchars + { + BOOST_STATIC_CONSTANT(bool, value = + ( + ::boost::type_traits::ice_and< + is_arithmetic<Source>::value, + is_arithmetic<Target>::value, + ::boost::type_traits::ice_not< + detail::is_char_or_wchar<Target>::value + >::value, + ::boost::type_traits::ice_not< + detail::is_char_or_wchar<Source>::value + >::value + >::value + ) + ); + }; + + /* + * is_xchar_to_xchar<Target, Source>::value is true, when + * Target and Souce are the same char types, or when + * Target and Souce are char types of the same size. + */ + template<typename Target, typename Source> + struct is_xchar_to_xchar + { + BOOST_STATIC_CONSTANT(bool, value = + ( + ::boost::type_traits::ice_or< + ::boost::type_traits::ice_and< + is_same<Source,Target>::value, + is_char_or_wchar<Target>::value + >::value, + ::boost::type_traits::ice_and< + ::boost::type_traits::ice_eq< sizeof(char),sizeof(Target)>::value, + ::boost::type_traits::ice_eq< sizeof(char),sizeof(Source)>::value, + is_char_or_wchar<Target>::value, + is_char_or_wchar<Source>::value + >::value + >::value + ) + ); + }; + + template<typename Target, typename Source> + struct is_char_array_to_stdstring + { + BOOST_STATIC_CONSTANT(bool, value = false ); + }; + + template<typename CharT, typename Traits, typename Alloc> + struct is_char_array_to_stdstring< std::basic_string<CharT, Traits, Alloc>, CharT* > + { + BOOST_STATIC_CONSTANT(bool, value = true ); + }; + + template<typename CharT, typename Traits, typename Alloc> + struct is_char_array_to_stdstring< std::basic_string<CharT, Traits, Alloc>, const CharT* > + { + BOOST_STATIC_CONSTANT(bool, value = true ); + }; +#if !defined(__SUNPRO_CC) + template<typename CharT, typename Traits, typename Alloc> + struct is_char_array_to_stdstring< ::boost::container::basic_string<CharT, Traits, Alloc>, CharT* > + { + BOOST_STATIC_CONSTANT(bool, value = true ); + }; + + template<typename CharT, typename Traits, typename Alloc> + struct is_char_array_to_stdstring< ::boost::container::basic_string<CharT, Traits, Alloc>, const CharT* > + { + BOOST_STATIC_CONSTANT(bool, value = true ); + }; +#endif // !defined(__SUNPRO_CC) + +#if (defined _MSC_VER) +# pragma warning( push ) +# pragma warning( disable : 4701 ) // possible use of ... before initialization +# pragma warning( disable : 4702 ) // unreachable code +# pragma warning( disable : 4267 ) // conversion from 'size_t' to 'unsigned int' +#endif + template<typename Target, typename Source> + struct lexical_cast_do_cast + { + static inline Target lexical_cast_impl(const Source& arg) + { + typedef BOOST_DEDUCED_TYPENAME detail::array_to_pointer_decay<Source>::type src; + + typedef BOOST_DEDUCED_TYPENAME detail::widest_char< + BOOST_DEDUCED_TYPENAME detail::stream_char<Target>::type + , BOOST_DEDUCED_TYPENAME detail::stream_char<src>::type + >::type char_type; + + typedef detail::lcast_src_length<src> lcast_src_length; + std::size_t const src_len = lcast_src_length::value; + char_type buf[src_len + 1]; + lcast_src_length::check_coverage(); + + typedef BOOST_DEDUCED_TYPENAME + deduce_char_traits<char_type,Target,Source>::type traits; + + typedef BOOST_DEDUCED_TYPENAME remove_pointer<src >::type removed_ptr_t; + + // is_char_types_match variable value can be computed via + // sizeof(char_type) == sizeof(removed_ptr_t). But when + // removed_ptr_t is an incomplete type or void*, compilers + // produce warnings or errors. + const bool is_char_types_match = + (::boost::type_traits::ice_or< + ::boost::type_traits::ice_and< + ::boost::type_traits::ice_eq<sizeof(char_type), sizeof(char) >::value, + ::boost::type_traits::ice_or< + ::boost::is_same<char, removed_ptr_t>::value, + ::boost::is_same<unsigned char, removed_ptr_t>::value, + ::boost::is_same<signed char, removed_ptr_t>::value + >::value + >::value, + is_same<char_type, removed_ptr_t>::value + >::value); + + const bool requires_stringbuf = + !( + ::boost::type_traits::ice_or< + is_stdstring<src >::value, + is_arithmetic<src >::value, + ::boost::type_traits::ice_and< + is_pointer<src >::value, + is_char_or_wchar<removed_ptr_t >::value, + is_char_types_match + >::value + >::value + ); + + detail::lexical_stream_limited_src<char_type,traits, requires_stringbuf > + interpreter(buf, buf + src_len); + + Target result; + // Disabling ADL, by directly specifying operators. + if(!(interpreter.operator <<(arg) && interpreter.operator >>(result))) + BOOST_LCAST_THROW_BAD_CAST(Source, Target); + return result; + } + }; +#if (defined _MSC_VER) +# pragma warning( pop ) +#endif + + template<typename Source> + struct lexical_cast_copy + { + static inline Source lexical_cast_impl(const Source &arg) + { + return arg; + } + }; + + class precision_loss_error : public boost::numeric::bad_numeric_cast + { + public: + virtual const char * what() const throw() + { return "bad numeric conversion: precision loss error"; } + }; + + template<class S > + struct throw_on_precision_loss + { + typedef boost::numeric::Trunc<S> Rounder; + typedef S source_type ; + + typedef typename mpl::if_< is_arithmetic<S>,S,S const&>::type argument_type ; + + static source_type nearbyint ( argument_type s ) + { + source_type orig_div_round = s / Rounder::nearbyint(s); + + if ( (orig_div_round > 1 ? orig_div_round - 1 : 1 - orig_div_round) > std::numeric_limits<source_type>::epsilon() ) + BOOST_THROW_EXCEPTION( precision_loss_error() ); + return s ; + } + + typedef typename Rounder::round_style round_style; + } ; + + template<typename Target, typename Source> + struct lexical_cast_dynamic_num_not_ignoring_minus + { + static inline Target lexical_cast_impl(const Source &arg) + { + try{ + typedef boost::numeric::converter< + Target, + Source, + boost::numeric::conversion_traits<Target,Source>, + boost::numeric::def_overflow_handler, + throw_on_precision_loss<Source> + > Converter ; + + return Converter::convert(arg); + } catch( ::boost::numeric::bad_numeric_cast const& ) { + BOOST_LCAST_THROW_BAD_CAST(Source, Target); + } + BOOST_UNREACHABLE_RETURN(static_cast<Target>(0)); + } + }; + + template<typename Target, typename Source> + struct lexical_cast_dynamic_num_ignoring_minus + { + static inline Target lexical_cast_impl(const Source &arg) + { + try{ + typedef boost::numeric::converter< + Target, + Source, + boost::numeric::conversion_traits<Target,Source>, + boost::numeric::def_overflow_handler, + throw_on_precision_loss<Source> + > Converter ; + + bool has_minus = ( arg < 0); + if ( has_minus ) { + return static_cast<Target>(-Converter::convert(-arg)); + } else { + return Converter::convert(arg); + } + } catch( ::boost::numeric::bad_numeric_cast const& ) { + BOOST_LCAST_THROW_BAD_CAST(Source, Target); + } + BOOST_UNREACHABLE_RETURN(static_cast<Target>(0)); + } + }; + + /* + * lexical_cast_dynamic_num follows the rules: + * 1) If Source can be converted to Target without precision loss and + * without overflows, then assign Source to Target and return + * + * 2) If Source is less than 0 and Target is an unsigned integer, + * then negate Source, check the requirements of rule 1) and if + * successful, assign static_casted Source to Target and return + * + * 3) Otherwise throw a bad_lexical_cast exception + * + * + * Rule 2) required because boost::lexical_cast has the behavior of + * stringstream, which uses the rules of scanf for conversions. And + * in the C99 standard for unsigned input value minus sign is + * optional, so if a negative number is read, no errors will arise + * and the result will be the two's complement. + */ + template<typename Target, typename Source> + struct lexical_cast_dynamic_num + { + static inline Target lexical_cast_impl(const Source &arg) + { + typedef BOOST_DEDUCED_TYPENAME ::boost::mpl::if_c< + ::boost::type_traits::ice_and< + ::boost::type_traits::ice_or< + ::boost::is_signed<Source>::value, + ::boost::is_float<Source>::value + >::value, + ::boost::type_traits::ice_not< + is_same<Source, bool>::value + >::value, + ::boost::type_traits::ice_not< + is_same<Target, bool>::value + >::value, + ::boost::is_unsigned<Target>::value + >::value, + lexical_cast_dynamic_num_ignoring_minus<Target, Source>, + lexical_cast_dynamic_num_not_ignoring_minus<Target, Source> + >::type caster_type; + + return caster_type::lexical_cast_impl(arg); + } + }; + } + + template<typename Target, typename Source> + inline Target lexical_cast(const Source &arg) + { + typedef BOOST_DEDUCED_TYPENAME detail::array_to_pointer_decay<Source>::type src; + + typedef BOOST_DEDUCED_TYPENAME ::boost::type_traits::ice_or< + detail::is_xchar_to_xchar<Target, src>::value, + detail::is_char_array_to_stdstring<Target,src>::value, + ::boost::type_traits::ice_and< + is_same<Target, src>::value, + detail::is_stdstring<Target>::value + >::value + > do_copy_type; + + typedef BOOST_DEDUCED_TYPENAME + detail::is_arithmetic_and_not_xchars<Target, src> do_copy_with_dynamic_check_type; + + typedef BOOST_DEDUCED_TYPENAME ::boost::mpl::if_c< + do_copy_type::value, + detail::lexical_cast_copy<src>, + BOOST_DEDUCED_TYPENAME ::boost::mpl::if_c< + do_copy_with_dynamic_check_type::value, + detail::lexical_cast_dynamic_num<Target, src>, + detail::lexical_cast_do_cast<Target, src> + >::type + >::type caster_type; + + return caster_type::lexical_cast_impl(arg); + } + + #else + + namespace detail // stream wrapper for handling lexical conversions + { + template<typename Target, typename Source, typename Traits> + class lexical_stream + { + private: + typedef typename widest_char< + typename stream_char<Target>::type, + typename stream_char<Source>::type>::type char_type; + + typedef Traits traits_type; + + public: + lexical_stream(char_type* = 0, char_type* = 0) + { + stream.unsetf(std::ios::skipws); + lcast_set_precision(stream, static_cast<Source*>(0), static_cast<Target*>(0) ); + } + ~lexical_stream() + { + #if defined(BOOST_NO_STRINGSTREAM) + stream.freeze(false); + #endif + } + bool operator<<(const Source &input) + { + return !(stream << input).fail(); + } + template<typename InputStreamable> + bool operator>>(InputStreamable &output) + { + return !is_pointer<InputStreamable>::value && + stream >> output && + stream.get() == +#if defined(__GNUC__) && (__GNUC__<3) && defined(BOOST_NO_STD_WSTRING) +// GCC 2.9x lacks std::char_traits<>::eof(). +// We use BOOST_NO_STD_WSTRING to filter out STLport and libstdc++-v3 +// configurations, which do provide std::char_traits<>::eof(). + + EOF; +#else + traits_type::eof(); +#endif + } + + bool operator>>(std::string &output) + { + #if defined(BOOST_NO_STRINGSTREAM) + stream << '\0'; + #endif + stream.str().swap(output); + return true; + } + #ifndef BOOST_LCAST_NO_WCHAR_T + bool operator>>(std::wstring &output) + { + stream.str().swap(output); + return true; + } + #endif + + private: + #if defined(BOOST_NO_STRINGSTREAM) + std::strstream stream; + #elif defined(BOOST_NO_STD_LOCALE) + std::stringstream stream; + #else + std::basic_stringstream<char_type,traits_type> stream; + #endif + }; + } + + // call-by-value fallback version (deprecated) + + template<typename Target, typename Source> + Target lexical_cast(Source arg) + { + typedef typename detail::widest_char< + BOOST_DEDUCED_TYPENAME detail::stream_char<Target>::type + , BOOST_DEDUCED_TYPENAME detail::stream_char<Source>::type + >::type char_type; + + typedef std::char_traits<char_type> traits; + detail::lexical_stream<Target, Source, traits> interpreter; + Target result; + + if(!(interpreter << arg && interpreter >> result)) + BOOST_LCAST_THROW_BAD_CAST(Source, Target); + return result; + } + + #endif +} + +// Copyright Kevlin Henney, 2000-2005. +// Copyright Alexander Nasonov, 2006-2010. +// Copyright Antony Polukhin, 2011-2012. +// +// Distributed under the Boost Software License, Version 1.0. (See +// accompanying file LICENSE_1_0.txt or copy at +// http://www.boost.org/LICENSE_1_0.txt) + +#undef BOOST_LCAST_NO_WCHAR_T +#endif |