boost/math/cstdfloat/cstdfloat_types.hpp
/////////////////////////////////////////////////////////////////////////////// // Copyright Christopher Kormanyos 2014. // Copyright John Maddock 2014. // Copyright Paul Bristow 2014. // 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) // // Implement the types for floating-point typedefs having specified widths. #ifndef BOOST_MATH_CSTDFLOAT_TYPES_2014_01_09_HPP_ #define BOOST_MATH_CSTDFLOAT_TYPES_2014_01_09_HPP_ #include <float.h> #include <limits> #include <boost/math/tools/config.hpp> // This is the beginning of the preamble. // In this preamble, the preprocessor is used to query certain // preprocessor definitions from <float.h>. Based on the results // of these queries, an attempt is made to automatically detect // the presence of built-in floating-point types having specified // widths. These are *thought* to be conformant with IEEE-754, // whereby an unequivocal test based on std::numeric_limits<> // follows below. // In addition, various macros that are used for initializing // floating-point literal values having specified widths and // some basic min/max values are defined. // First, we will pre-load certain preprocessor definitions // with a dummy value. #define BOOST_CSTDFLOAT_MAXIMUM_AVAILABLE_WIDTH 0 #define BOOST_CSTDFLOAT_HAS_FLOAT16_NATIVE_TYPE 0 #define BOOST_CSTDFLOAT_HAS_FLOAT32_NATIVE_TYPE 0 #define BOOST_CSTDFLOAT_HAS_FLOAT64_NATIVE_TYPE 0 #define BOOST_CSTDFLOAT_HAS_FLOAT80_NATIVE_TYPE 0 #define BOOST_CSTDFLOAT_HAS_FLOAT128_NATIVE_TYPE 0 // Ensure that the compiler has a radix-2 floating-point representation. #if (!defined(FLT_RADIX) || ((defined(FLT_RADIX) && (FLT_RADIX != 2)))) #error The compiler does not support any radix-2 floating-point types required for <boost/cstdfloat.hpp>. #endif // Check if built-in float is equivalent to float16_t, float32_t, float64_t, float80_t, or float128_t. #if(defined(FLT_MANT_DIG) && defined(FLT_MAX_EXP)) #if ((FLT_MANT_DIG == 11) && (FLT_MAX_EXP == 16) && (BOOST_CSTDFLOAT_HAS_FLOAT16_NATIVE_TYPE == 0)) #define BOOST_CSTDFLOAT_FLOAT16_NATIVE_TYPE float #undef BOOST_CSTDFLOAT_MAXIMUM_AVAILABLE_WIDTH #define BOOST_CSTDFLOAT_MAXIMUM_AVAILABLE_WIDTH 16 #undef BOOST_CSTDFLOAT_HAS_FLOAT16_NATIVE_TYPE #define BOOST_CSTDFLOAT_HAS_FLOAT16_NATIVE_TYPE 1 #define BOOST_FLOAT16_C(x) (x ## F) #define BOOST_CSTDFLOAT_FLOAT_16_MIN FLT_MIN #define BOOST_CSTDFLOAT_FLOAT_16_MAX FLT_MAX #elif((FLT_MANT_DIG == 24) && (FLT_MAX_EXP == 128) && (BOOST_CSTDFLOAT_HAS_FLOAT32_NATIVE_TYPE == 0)) #define BOOST_CSTDFLOAT_FLOAT32_NATIVE_TYPE float #undef BOOST_CSTDFLOAT_MAXIMUM_AVAILABLE_WIDTH #define BOOST_CSTDFLOAT_MAXIMUM_AVAILABLE_WIDTH 32 #undef BOOST_CSTDFLOAT_HAS_FLOAT32_NATIVE_TYPE #define BOOST_CSTDFLOAT_HAS_FLOAT32_NATIVE_TYPE 1 #define BOOST_FLOAT32_C(x) (x ## F) #define BOOST_CSTDFLOAT_FLOAT_32_MIN FLT_MIN #define BOOST_CSTDFLOAT_FLOAT_32_MAX FLT_MAX #elif((FLT_MANT_DIG == 53) && (FLT_MAX_EXP == 1024) && (BOOST_CSTDFLOAT_HAS_FLOAT64_NATIVE_TYPE == 0)) #define BOOST_CSTDFLOAT_FLOAT64_NATIVE_TYPE float #undef BOOST_CSTDFLOAT_MAXIMUM_AVAILABLE_WIDTH #define BOOST_CSTDFLOAT_MAXIMUM_AVAILABLE_WIDTH 64 #undef BOOST_CSTDFLOAT_HAS_FLOAT64_NATIVE_TYPE #define BOOST_CSTDFLOAT_HAS_FLOAT64_NATIVE_TYPE 1 #define BOOST_FLOAT64_C(x) (x ## F) #define BOOST_CSTDFLOAT_FLOAT_64_MIN FLT_MIN #define BOOST_CSTDFLOAT_FLOAT_64_MAX FLT_MAX #elif((FLT_MANT_DIG == 64) && (FLT_MAX_EXP == 16384) && (BOOST_CSTDFLOAT_HAS_FLOAT80_NATIVE_TYPE == 0)) #define BOOST_CSTDFLOAT_FLOAT80_NATIVE_TYPE float #undef BOOST_CSTDFLOAT_MAXIMUM_AVAILABLE_WIDTH #define BOOST_CSTDFLOAT_MAXIMUM_AVAILABLE_WIDTH 80 #undef BOOST_CSTDFLOAT_HAS_FLOAT80_NATIVE_TYPE #define BOOST_CSTDFLOAT_HAS_FLOAT80_NATIVE_TYPE 1 #define BOOST_FLOAT80_C(x) (x ## F) #define BOOST_CSTDFLOAT_FLOAT_80_MIN FLT_MIN #define BOOST_CSTDFLOAT_FLOAT_80_MAX FLT_MAX #elif((FLT_MANT_DIG == 113) && (FLT_MAX_EXP == 16384) && (BOOST_CSTDFLOAT_HAS_FLOAT128_NATIVE_TYPE == 0)) #define BOOST_CSTDFLOAT_FLOAT128_NATIVE_TYPE float #undef BOOST_CSTDFLOAT_MAXIMUM_AVAILABLE_WIDTH #define BOOST_CSTDFLOAT_MAXIMUM_AVAILABLE_WIDTH 128 #undef BOOST_CSTDFLOAT_HAS_FLOAT128_NATIVE_TYPE #define BOOST_CSTDFLOAT_HAS_FLOAT128_NATIVE_TYPE 1 #define BOOST_FLOAT128_C(x) (x ## F) #define BOOST_CSTDFLOAT_FLOAT_128_MIN FLT_MIN #define BOOST_CSTDFLOAT_FLOAT_128_MAX FLT_MAX #endif #endif // Check if built-in double is equivalent to float16_t, float32_t, float64_t, float80_t, or float128_t. #if(defined(DBL_MANT_DIG) && defined(DBL_MAX_EXP)) #if ((DBL_MANT_DIG == 11) && (DBL_MAX_EXP == 16) && (BOOST_CSTDFLOAT_HAS_FLOAT16_NATIVE_TYPE == 0)) #define BOOST_CSTDFLOAT_FLOAT16_NATIVE_TYPE double #undef BOOST_CSTDFLOAT_MAXIMUM_AVAILABLE_WIDTH #define BOOST_CSTDFLOAT_MAXIMUM_AVAILABLE_WIDTH 16 #undef BOOST_CSTDFLOAT_HAS_FLOAT16_NATIVE_TYPE #define BOOST_CSTDFLOAT_HAS_FLOAT16_NATIVE_TYPE 1 #define BOOST_FLOAT16_C(x) (x) #define BOOST_CSTDFLOAT_FLOAT_16_MIN DBL_MIN #define BOOST_CSTDFLOAT_FLOAT_16_MAX DBL_MAX #elif((DBL_MANT_DIG == 24) && (DBL_MAX_EXP == 128) && (BOOST_CSTDFLOAT_HAS_FLOAT32_NATIVE_TYPE == 0)) #define BOOST_CSTDFLOAT_FLOAT32_NATIVE_TYPE double #undef BOOST_CSTDFLOAT_MAXIMUM_AVAILABLE_WIDTH #define BOOST_CSTDFLOAT_MAXIMUM_AVAILABLE_WIDTH 32 #undef BOOST_CSTDFLOAT_HAS_FLOAT32_NATIVE_TYPE #define BOOST_CSTDFLOAT_HAS_FLOAT32_NATIVE_TYPE 1 #define BOOST_FLOAT32_C(x) (x) #define BOOST_CSTDFLOAT_FLOAT_32_MIN DBL_MIN #define BOOST_CSTDFLOAT_FLOAT_32_MAX DBL_MAX #elif((DBL_MANT_DIG == 53) && (DBL_MAX_EXP == 1024) && (BOOST_CSTDFLOAT_HAS_FLOAT64_NATIVE_TYPE == 0)) #define BOOST_CSTDFLOAT_FLOAT64_NATIVE_TYPE double #undef BOOST_CSTDFLOAT_MAXIMUM_AVAILABLE_WIDTH #define BOOST_CSTDFLOAT_MAXIMUM_AVAILABLE_WIDTH 64 #undef BOOST_CSTDFLOAT_HAS_FLOAT64_NATIVE_TYPE #define BOOST_CSTDFLOAT_HAS_FLOAT64_NATIVE_TYPE 1 #define BOOST_FLOAT64_C(x) (x) #define BOOST_CSTDFLOAT_FLOAT_64_MIN DBL_MIN #define BOOST_CSTDFLOAT_FLOAT_64_MAX DBL_MAX #elif((DBL_MANT_DIG == 64) && (DBL_MAX_EXP == 16384) && (BOOST_CSTDFLOAT_HAS_FLOAT80_NATIVE_TYPE == 0)) #define BOOST_CSTDFLOAT_FLOAT80_NATIVE_TYPE double #undef BOOST_CSTDFLOAT_MAXIMUM_AVAILABLE_WIDTH #define BOOST_CSTDFLOAT_MAXIMUM_AVAILABLE_WIDTH 80 #undef BOOST_CSTDFLOAT_HAS_FLOAT80_NATIVE_TYPE #define BOOST_CSTDFLOAT_HAS_FLOAT80_NATIVE_TYPE 1 #define BOOST_FLOAT80_C(x) (x) #define BOOST_CSTDFLOAT_FLOAT_80_MIN DBL_MIN #define BOOST_CSTDFLOAT_FLOAT_80_MAX DBL_MAX #elif((DBL_MANT_DIG == 113) && (DBL_MAX_EXP == 16384) && (BOOST_CSTDFLOAT_HAS_FLOAT128_NATIVE_TYPE == 0)) #define BOOST_CSTDFLOAT_FLOAT128_NATIVE_TYPE double #undef BOOST_CSTDFLOAT_MAXIMUM_AVAILABLE_WIDTH #define BOOST_CSTDFLOAT_MAXIMUM_AVAILABLE_WIDTH 128 #undef BOOST_CSTDFLOAT_HAS_FLOAT128_NATIVE_TYPE #define BOOST_CSTDFLOAT_HAS_FLOAT128_NATIVE_TYPE 1 #define BOOST_FLOAT128_C(x) (x) #define BOOST_CSTDFLOAT_FLOAT_128_MIN DBL_MIN #define BOOST_CSTDFLOAT_FLOAT_128_MAX DBL_MAX #endif #endif // Disable check long double capability even if supported by compiler since some math runtime // implementations are broken for long double. #ifndef BOOST_MATH_NO_LONG_DOUBLE_MATH_FUNCTIONS // Check if built-in long double is equivalent to float16_t, float32_t, float64_t, float80_t, or float128_t. #if(defined(LDBL_MANT_DIG) && defined(LDBL_MAX_EXP)) #if ((LDBL_MANT_DIG == 11) && (LDBL_MAX_EXP == 16) && (BOOST_CSTDFLOAT_HAS_FLOAT16_NATIVE_TYPE == 0)) #define BOOST_CSTDFLOAT_FLOAT16_NATIVE_TYPE long double #undef BOOST_CSTDFLOAT_MAXIMUM_AVAILABLE_WIDTH #define BOOST_CSTDFLOAT_MAXIMUM_AVAILABLE_WIDTH 16 #undef BOOST_CSTDFLOAT_HAS_FLOAT16_NATIVE_TYPE #define BOOST_CSTDFLOAT_HAS_FLOAT16_NATIVE_TYPE 1 #define BOOST_FLOAT16_C(x) (x ## L) #define BOOST_CSTDFLOAT_FLOAT_16_MIN LDBL_MIN #define BOOST_CSTDFLOAT_FLOAT_16_MAX LDBL_MAX #elif((LDBL_MANT_DIG == 24) && (LDBL_MAX_EXP == 128) && (BOOST_CSTDFLOAT_HAS_FLOAT32_NATIVE_TYPE == 0)) #define BOOST_CSTDFLOAT_FLOAT32_NATIVE_TYPE long double #undef BOOST_CSTDFLOAT_MAXIMUM_AVAILABLE_WIDTH #define BOOST_CSTDFLOAT_MAXIMUM_AVAILABLE_WIDTH 32 #undef BOOST_CSTDFLOAT_HAS_FLOAT32_NATIVE_TYPE #define BOOST_CSTDFLOAT_HAS_FLOAT32_NATIVE_TYPE 1 #define BOOST_FLOAT32_C(x) (x ## L) #define BOOST_CSTDFLOAT_FLOAT_32_MIN LDBL_MIN #define BOOST_CSTDFLOAT_FLOAT_32_MAX LDBL_MAX #elif((LDBL_MANT_DIG == 53) && (LDBL_MAX_EXP == 1024) && (BOOST_CSTDFLOAT_HAS_FLOAT64_NATIVE_TYPE == 0)) #define BOOST_CSTDFLOAT_FLOAT64_NATIVE_TYPE long double #undef BOOST_CSTDFLOAT_MAXIMUM_AVAILABLE_WIDTH #define BOOST_CSTDFLOAT_MAXIMUM_AVAILABLE_WIDTH 64 #undef BOOST_CSTDFLOAT_HAS_FLOAT64_NATIVE_TYPE #define BOOST_CSTDFLOAT_HAS_FLOAT64_NATIVE_TYPE 1 #define BOOST_FLOAT64_C(x) (x ## L) #define BOOST_CSTDFLOAT_FLOAT_64_MIN LDBL_MIN #define BOOST_CSTDFLOAT_FLOAT_64_MAX LDBL_MAX #elif((LDBL_MANT_DIG == 64) && (LDBL_MAX_EXP == 16384) && (BOOST_CSTDFLOAT_HAS_FLOAT80_NATIVE_TYPE == 0)) #define BOOST_CSTDFLOAT_FLOAT80_NATIVE_TYPE long double #undef BOOST_CSTDFLOAT_MAXIMUM_AVAILABLE_WIDTH #define BOOST_CSTDFLOAT_MAXIMUM_AVAILABLE_WIDTH 80 #undef BOOST_CSTDFLOAT_HAS_FLOAT80_NATIVE_TYPE #define BOOST_CSTDFLOAT_HAS_FLOAT80_NATIVE_TYPE 1 #define BOOST_FLOAT80_C(x) (x ## L) #define BOOST_CSTDFLOAT_FLOAT_80_MIN LDBL_MIN #define BOOST_CSTDFLOAT_FLOAT_80_MAX LDBL_MAX #elif((LDBL_MANT_DIG == 113) && (LDBL_MAX_EXP == 16384) && (BOOST_CSTDFLOAT_HAS_FLOAT128_NATIVE_TYPE == 0)) #define BOOST_CSTDFLOAT_FLOAT128_NATIVE_TYPE long double #undef BOOST_CSTDFLOAT_MAXIMUM_AVAILABLE_WIDTH #define BOOST_CSTDFLOAT_MAXIMUM_AVAILABLE_WIDTH 128 #undef BOOST_CSTDFLOAT_HAS_FLOAT128_NATIVE_TYPE #define BOOST_CSTDFLOAT_HAS_FLOAT128_NATIVE_TYPE 1 #define BOOST_FLOAT128_C(x) (x ## L) #define BOOST_CSTDFLOAT_FLOAT_128_MIN LDBL_MIN #define BOOST_CSTDFLOAT_FLOAT_128_MAX LDBL_MAX #endif #endif #endif // Check if quadruple-precision is supported. Here, we are checking // for the presence of __float128 from GCC's quadmath.h or _Quad // from ICC's /Qlong-double flag). To query these, we use the // BOOST_MATH_USE_FLOAT128 pre-processor definition from // <boost/math/tools/config.hpp>. #if (BOOST_CSTDFLOAT_HAS_FLOAT128_NATIVE_TYPE == 0) && defined(BOOST_MATH_USE_FLOAT128) && !defined(BOOST_CSTDFLOAT_NO_LIBQUADMATH_SUPPORT) // Specify the underlying name of the internal 128-bit floating-point type definition. namespace boost { namespace math { namespace cstdfloat { namespace detail { #if defined(__GNUC__) typedef __float128 float_internal128_t; #elif defined(__INTEL_COMPILER) typedef _Quad float_internal128_t; #else #error "Sorry, the compiler is neither GCC, nor Intel, I don't know how to configure <boost/cstdfloat.hpp>." #endif } } } } // boost::math::cstdfloat::detail #define BOOST_CSTDFLOAT_FLOAT128_NATIVE_TYPE boost::math::cstdfloat::detail::float_internal128_t #undef BOOST_CSTDFLOAT_MAXIMUM_AVAILABLE_WIDTH #define BOOST_CSTDFLOAT_MAXIMUM_AVAILABLE_WIDTH 128 #undef BOOST_CSTDFLOAT_HAS_FLOAT128_NATIVE_TYPE #define BOOST_CSTDFLOAT_HAS_FLOAT128_NATIVE_TYPE 1 #define BOOST_FLOAT128_C(x) (x ## Q) #define BOOST_CSTDFLOAT_FLOAT128_MIN 3.36210314311209350626267781732175260e-4932Q #define BOOST_CSTDFLOAT_FLOAT128_MAX 1.18973149535723176508575932662800702e+4932Q #define BOOST_CSTDFLOAT_FLOAT128_EPS 1.92592994438723585305597794258492732e-0034Q #define BOOST_CSTDFLOAT_FLOAT128_DENORM_MIN 6.475175119438025110924438958227646552e-4966Q #endif // Not BOOST_CSTDFLOAT_NO_LIBQUADMATH_SUPPORT (i.e., the user would like to have libquadmath support) // This is the end of the preamble, and also the end of the // sections providing support for the C++ standard library // for quadruple-precision. // Now we use the results of the queries that have been obtained // in the preamble (far above) for the final type definitions in // the namespace boost. // Make sure that the compiler has any floating-point type(s) whatsoever. #if ( (BOOST_CSTDFLOAT_HAS_FLOAT16_NATIVE_TYPE == 0) \ && (BOOST_CSTDFLOAT_HAS_FLOAT32_NATIVE_TYPE == 0) \ && (BOOST_CSTDFLOAT_HAS_FLOAT64_NATIVE_TYPE == 0) \ && (BOOST_CSTDFLOAT_HAS_FLOAT80_NATIVE_TYPE == 0) \ && (BOOST_CSTDFLOAT_HAS_FLOAT128_NATIVE_TYPE == 0)) #error The compiler does not support any of the floating-point types required for <boost/cstdfloat.hpp>. #endif // The following section contains the various min/max macros // for the *leastN and *fastN types. #if(BOOST_CSTDFLOAT_HAS_FLOAT16_NATIVE_TYPE == 1) #define BOOST_FLOAT_FAST16_MIN BOOST_CSTDFLOAT_FLOAT_16_MIN #define BOOST_FLOAT_LEAST16_MIN BOOST_CSTDFLOAT_FLOAT_16_MIN #define BOOST_FLOAT_FAST16_MAX BOOST_CSTDFLOAT_FLOAT_16_MAX #define BOOST_FLOAT_LEAST16_MAX BOOST_CSTDFLOAT_FLOAT_16_MAX #endif #if(BOOST_CSTDFLOAT_HAS_FLOAT32_NATIVE_TYPE == 1) #define BOOST_FLOAT_FAST32_MIN BOOST_CSTDFLOAT_FLOAT_32_MIN #define BOOST_FLOAT_LEAST32_MIN BOOST_CSTDFLOAT_FLOAT_32_MIN #define BOOST_FLOAT_FAST32_MAX BOOST_CSTDFLOAT_FLOAT_32_MAX #define BOOST_FLOAT_LEAST32_MAX BOOST_CSTDFLOAT_FLOAT_32_MAX #endif #if(BOOST_CSTDFLOAT_HAS_FLOAT64_NATIVE_TYPE == 1) #define BOOST_FLOAT_FAST64_MIN BOOST_CSTDFLOAT_FLOAT_64_MIN #define BOOST_FLOAT_LEAST64_MIN BOOST_CSTDFLOAT_FLOAT_64_MIN #define BOOST_FLOAT_FAST64_MAX BOOST_CSTDFLOAT_FLOAT_64_MAX #define BOOST_FLOAT_LEAST64_MAX BOOST_CSTDFLOAT_FLOAT_64_MAX #endif #if(BOOST_CSTDFLOAT_HAS_FLOAT80_NATIVE_TYPE == 1) #define BOOST_FLOAT_FAST80_MIN BOOST_CSTDFLOAT_FLOAT_80_MIN #define BOOST_FLOAT_LEAST80_MIN BOOST_CSTDFLOAT_FLOAT_80_MIN #define BOOST_FLOAT_FAST80_MAX BOOST_CSTDFLOAT_FLOAT_80_MAX #define BOOST_FLOAT_LEAST80_MAX BOOST_CSTDFLOAT_FLOAT_80_MAX #endif #if(BOOST_CSTDFLOAT_HAS_FLOAT128_NATIVE_TYPE == 1) #define BOOST_CSTDFLOAT_HAS_INTERNAL_FLOAT128_T #define BOOST_FLOAT_FAST128_MIN BOOST_CSTDFLOAT_FLOAT_128_MIN #define BOOST_FLOAT_LEAST128_MIN BOOST_CSTDFLOAT_FLOAT_128_MIN #define BOOST_FLOAT_FAST128_MAX BOOST_CSTDFLOAT_FLOAT_128_MAX #define BOOST_FLOAT_LEAST128_MAX BOOST_CSTDFLOAT_FLOAT_128_MAX #endif // The following section contains the various min/max macros // for the *floatmax types. #if (BOOST_CSTDFLOAT_MAXIMUM_AVAILABLE_WIDTH == 16) #define BOOST_FLOATMAX_C(x) BOOST_FLOAT16_C(x) #define BOOST_FLOATMAX_MIN BOOST_CSTDFLOAT_FLOAT_16_MIN #define BOOST_FLOATMAX_MAX BOOST_CSTDFLOAT_FLOAT_16_MAX #elif(BOOST_CSTDFLOAT_MAXIMUM_AVAILABLE_WIDTH == 32) #define BOOST_FLOATMAX_C(x) BOOST_FLOAT32_C(x) #define BOOST_FLOATMAX_MIN BOOST_CSTDFLOAT_FLOAT_32_MIN #define BOOST_FLOATMAX_MAX BOOST_CSTDFLOAT_FLOAT_32_MAX #elif(BOOST_CSTDFLOAT_MAXIMUM_AVAILABLE_WIDTH == 64) #define BOOST_FLOATMAX_C(x) BOOST_FLOAT64_C(x) #define BOOST_FLOATMAX_MIN BOOST_CSTDFLOAT_FLOAT_64_MIN #define BOOST_FLOATMAX_MAX BOOST_CSTDFLOAT_FLOAT_64_MAX #elif(BOOST_CSTDFLOAT_MAXIMUM_AVAILABLE_WIDTH == 80) #define BOOST_FLOATMAX_C(x) BOOST_FLOAT80_C(x) #define BOOST_FLOATMAX_MIN BOOST_CSTDFLOAT_FLOAT_80_MIN #define BOOST_FLOATMAX_MAX BOOST_CSTDFLOAT_FLOAT_80_MAX #elif(BOOST_CSTDFLOAT_MAXIMUM_AVAILABLE_WIDTH == 128) #define BOOST_FLOATMAX_C(x) BOOST_FLOAT128_C(x) #define BOOST_FLOATMAX_MIN BOOST_CSTDFLOAT_FLOAT_128_MIN #define BOOST_FLOATMAX_MAX BOOST_CSTDFLOAT_FLOAT_128_MAX #else #error The maximum available floating-point width for <boost/cstdfloat.hpp> is undefined. #endif // And finally..., we define the floating-point typedefs having // specified widths. The types are defined in the namespace boost. // For simplicity, the least and fast types are type defined identically // as the corresponding fixed-width type. This behavior may, however, // be modified when being optimized for a given compiler implementation. // In addition, a clear assessment of IEEE-754 conformance is carried out // using compile-time assertion. namespace boost { #if(BOOST_CSTDFLOAT_HAS_FLOAT16_NATIVE_TYPE == 1) typedef BOOST_CSTDFLOAT_FLOAT16_NATIVE_TYPE float16_t; typedef boost::float16_t float_fast16_t; typedef boost::float16_t float_least16_t; static_assert(std::numeric_limits<boost::float16_t>::is_iec559 == true, "boost::float16_t has been detected in <boost/cstdfloat>, but verification with std::numeric_limits fails"); static_assert(std::numeric_limits<boost::float16_t>::radix == 2, "boost::float16_t has been detected in <boost/cstdfloat>, but verification with std::numeric_limits fails"); static_assert(std::numeric_limits<boost::float16_t>::digits == 11, "boost::float16_t has been detected in <boost/cstdfloat>, but verification with std::numeric_limits fails"); static_assert(std::numeric_limits<boost::float16_t>::max_exponent == 16, "boost::float16_t has been detected in <boost/cstdfloat>, but verification with std::numeric_limits fails"); #undef BOOST_CSTDFLOAT_FLOAT_16_MIN #undef BOOST_CSTDFLOAT_FLOAT_16_MAX #endif #if(BOOST_CSTDFLOAT_HAS_FLOAT32_NATIVE_TYPE == 1) typedef BOOST_CSTDFLOAT_FLOAT32_NATIVE_TYPE float32_t; typedef boost::float32_t float_fast32_t; typedef boost::float32_t float_least32_t; static_assert(std::numeric_limits<boost::float32_t>::is_iec559 == true, "boost::float32_t has been detected in <boost/cstdfloat>, but verification with std::numeric_limits fails"); static_assert(std::numeric_limits<boost::float32_t>::radix == 2, "boost::float32_t has been detected in <boost/cstdfloat>, but verification with std::numeric_limits fails"); static_assert(std::numeric_limits<boost::float32_t>::digits == 24, "boost::float32_t has been detected in <boost/cstdfloat>, but verification with std::numeric_limits fails"); static_assert(std::numeric_limits<boost::float32_t>::max_exponent == 128, "boost::float32_t has been detected in <boost/cstdfloat>, but verification with std::numeric_limits fails"); #undef BOOST_CSTDFLOAT_FLOAT_32_MIN #undef BOOST_CSTDFLOAT_FLOAT_32_MAX #endif #if (defined(__SGI_STL_PORT) || defined(_STLPORT_VERSION)) && defined(__SUNPRO_CC) #undef BOOST_CSTDFLOAT_HAS_FLOAT80_NATIVE_TYPE #define BOOST_CSTDFLOAT_HAS_FLOAT80_NATIVE_TYPE 0 #undef BOOST_CSTDFLOAT_HAS_FLOAT128_NATIVE_TYPE #define BOOST_CSTDFLOAT_HAS_FLOAT128_NATIVE_TYPE 0 #undef BOOST_CSTDFLOAT_MAXIMUM_AVAILABLE_WIDTH #define BOOST_CSTDFLOAT_MAXIMUM_AVAILABLE_WIDTH 64 #endif #if(BOOST_CSTDFLOAT_HAS_FLOAT64_NATIVE_TYPE == 1) typedef BOOST_CSTDFLOAT_FLOAT64_NATIVE_TYPE float64_t; typedef boost::float64_t float_fast64_t; typedef boost::float64_t float_least64_t; static_assert(std::numeric_limits<boost::float64_t>::is_iec559 == true, "boost::float64_t has been detected in <boost/cstdfloat>, but verification with std::numeric_limits fails"); static_assert(std::numeric_limits<boost::float64_t>::radix == 2, "boost::float64_t has been detected in <boost/cstdfloat>, but verification with std::numeric_limits fails"); static_assert(std::numeric_limits<boost::float64_t>::digits == 53, "boost::float64_t has been detected in <boost/cstdfloat>, but verification with std::numeric_limits fails"); static_assert(std::numeric_limits<boost::float64_t>::max_exponent == 1024, "boost::float64_t has been detected in <boost/cstdfloat>, but verification with std::numeric_limits fails"); #undef BOOST_CSTDFLOAT_FLOAT_64_MIN #undef BOOST_CSTDFLOAT_FLOAT_64_MAX #endif #if(BOOST_CSTDFLOAT_HAS_FLOAT80_NATIVE_TYPE == 1) typedef BOOST_CSTDFLOAT_FLOAT80_NATIVE_TYPE float80_t; typedef boost::float80_t float_fast80_t; typedef boost::float80_t float_least80_t; static_assert(std::numeric_limits<boost::float80_t>::is_iec559 == true, "boost::float80_t has been detected in <boost/cstdfloat>, but verification with std::numeric_limits fails"); static_assert(std::numeric_limits<boost::float80_t>::radix == 2, "boost::float80_t has been detected in <boost/cstdfloat>, but verification with std::numeric_limits fails"); static_assert(std::numeric_limits<boost::float80_t>::digits == 64, "boost::float80_t has been detected in <boost/cstdfloat>, but verification with std::numeric_limits fails"); static_assert(std::numeric_limits<boost::float80_t>::max_exponent == 16384, "boost::float80_t has been detected in <boost/cstdfloat>, but verification with std::numeric_limits fails"); #undef BOOST_CSTDFLOAT_FLOAT_80_MIN #undef BOOST_CSTDFLOAT_FLOAT_80_MAX #endif #if(BOOST_CSTDFLOAT_HAS_FLOAT128_NATIVE_TYPE == 1) typedef BOOST_CSTDFLOAT_FLOAT128_NATIVE_TYPE float128_t; typedef boost::float128_t float_fast128_t; typedef boost::float128_t float_least128_t; #if defined(BOOST_CSTDFLOAT_HAS_INTERNAL_FLOAT128_T) && defined(BOOST_MATH_USE_FLOAT128) && !defined(BOOST_CSTDFLOAT_NO_LIBQUADMATH_SUPPORT) // This configuration does not *yet* support std::numeric_limits<boost::float128_t>. // Support for std::numeric_limits<boost::float128_t> is added in the detail // file <boost/math/cstdfloat/cstdfloat_limits.hpp>. #else static_assert(std::numeric_limits<boost::float128_t>::is_iec559 == true, "boost::float128_t has been detected in <boost/cstdfloat>, but verification with std::numeric_limits fails"); static_assert(std::numeric_limits<boost::float128_t>::radix == 2, "boost::float128_t has been detected in <boost/cstdfloat>, but verification with std::numeric_limits fails"); static_assert(std::numeric_limits<boost::float128_t>::digits == 113, "boost::float128_t has been detected in <boost/cstdfloat>, but verification with std::numeric_limits fails"); static_assert(std::numeric_limits<boost::float128_t>::max_exponent == 16384, "boost::float128_t has been detected in <boost/cstdfloat>, but verification with std::numeric_limits fails"); #endif #undef BOOST_CSTDFLOAT_FLOAT_128_MIN #undef BOOST_CSTDFLOAT_FLOAT_128_MAX #endif #if (BOOST_CSTDFLOAT_MAXIMUM_AVAILABLE_WIDTH == 16) typedef boost::float16_t floatmax_t; #elif(BOOST_CSTDFLOAT_MAXIMUM_AVAILABLE_WIDTH == 32) typedef boost::float32_t floatmax_t; #elif(BOOST_CSTDFLOAT_MAXIMUM_AVAILABLE_WIDTH == 64) typedef boost::float64_t floatmax_t; #elif(BOOST_CSTDFLOAT_MAXIMUM_AVAILABLE_WIDTH == 80) typedef boost::float80_t floatmax_t; #elif(BOOST_CSTDFLOAT_MAXIMUM_AVAILABLE_WIDTH == 128) typedef boost::float128_t floatmax_t; #else #error The maximum available floating-point width for <boost/cstdfloat.hpp> is undefined. #endif #undef BOOST_CSTDFLOAT_HAS_FLOAT16_NATIVE_TYPE #undef BOOST_CSTDFLOAT_HAS_FLOAT32_NATIVE_TYPE #undef BOOST_CSTDFLOAT_HAS_FLOAT64_NATIVE_TYPE #undef BOOST_CSTDFLOAT_HAS_FLOAT80_NATIVE_TYPE #undef BOOST_CSTDFLOAT_HAS_FLOAT128_NATIVE_TYPE #undef BOOST_CSTDFLOAT_MAXIMUM_AVAILABLE_WIDTH } // namespace boost #endif // BOOST_MATH_CSTDFLOAT_BASE_TYPES_2014_01_09_HPP_