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250 lines
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250 lines
12 KiB
Plaintext
[book Standardized Floating-Point typedefs for C and C++
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[quickbook 1.7]
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[copyright 2014 Christopher Kormanyos, John Maddock, Paul A. Bristow]
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[license
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Distributed under the Boost Software License, Version 1.0.
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(See accompanying file LICENSE_1_0.txt or copy at
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[@http://www.boost.org/LICENSE_1_0.txt])
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]
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[authors [Kormanyos, Christopher], [Maddock, John], [Bristow, Paul A.] ]
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[last-revision $Date$]
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[/version 1.8.3]
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]
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[template tr1[] [@http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2005/n1836.pdf Technical Report on C++ Library Extensions]]
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[template C99[] [@http://www.open-std.org/JTC1/SC22/WG14/www/docs/n1256.pdf C99 Standard ISO/IEC 9899:1999]]
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[def __gsl [@http://www.gnu.org/software/gsl/ GSL-1.9]]
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[def __glibc [@http://www.gnu.org/software/libc/ GNU C Lib]]
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[def __hpc [@http://docs.hp.com/en/B9106-90010/index.html HP-UX C Library]]
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[def __cephes [@http://www.netlib.org/cephes/ Cephes]]
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[def __NTL [@http://www.shoup.net/ntl/ NTL A Library for doing Number Theory]]
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[def __NTL_RR [@http://shoup.net/ntl/doc/RR.txt NTL::RR]]
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[def __NTL_quad_float [@http://shoup.net/ntl/doc/quad_float.txt NTL::quad_float]]
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[def __MPFR [@http://www.mpfr.org/ GNU MPFR library]]
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[def __GMP [@http://gmplib.org/ GNU Multiple Precision Arithmetic Library]]
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[def __multiprecision [@http://www.boost.org/doc/libs/1_53_0_beta1/libs/multiprecision/doc/html/index.html Boost.Multiprecision]]
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[def __cpp_dec_float [@http://www.boost.org/doc/libs/1_53_0_beta1/libs/multiprecision/doc/html/boost_multiprecision/tut/floats/cpp_dec_float.html cpp_dec_float]]
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[def __R [@http://www.r-project.org/ The R Project for Statistical Computing]]
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[def __godfrey [link godfrey Godfrey]]
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[def __pugh [link pugh Pugh]]
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[def __NaN [@http://en.wikipedia.org/wiki/NaN NaN]]
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[def __errno [@http://en.wikipedia.org/wiki/Errno `::errno`]]
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[def __Mathworld [@http://mathworld.wolfram.com Wolfram MathWorld]]
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[def __Mathematica [@http://www.wolfram.com/products/mathematica/index.html Wolfram Mathematica]]
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[def __WolframAlpha [@http://www.wolframalpha.com/ Wolfram Alpha]]
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[def __TOMS748 [@http://portal.acm.org/citation.cfm?id=210111 TOMS Algorithm 748: enclosing zeros of continuous functions]]
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[def __TOMS910 [@http://portal.acm.org/citation.cfm?id=1916469 TOMS Algorithm 910: A Portable C++ Multiple-Precision System for Special-Function Calculations]]
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[def __why_complements [link why_complements why complements?]]
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[def __complements [link math_toolkit.stat_tut.overview.complements complements]]
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[def __performance [link perf performance]]
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[def __building [link math_toolkit.building building libraries]]
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[def __e_float [@http://calgo.acm.org/910.zip e_float (TOMS Algorithm 910)]]
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[def __Abramowitz_Stegun M. Abramowitz and I. A. Stegun, Handbook of Mathematical Functions, NBS (1964)]
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[def __DMLF [@http://dlmf.nist.gov/ NIST Digital Library of Mathematical Functions]]
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[def __IEEE754 [@http://en.wikipedia.org/wiki/IEEE_floating_point IEEE_floating_point]]
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[def __N3626 [@http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2013/n3626.pdf N3626]]
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[def __N1703 [@http://www.open-std.org/jtc1/sc22/wg14/www/docs/n1703.pdf N1703]]
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[/ Some composite templates]
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[template super[x]'''<superscript>'''[x]'''</superscript>''']
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[template sub[x]'''<subscript>'''[x]'''</subscript>''']
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[template floor[x]'''⌊'''[x]'''⌋''']
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[template floorlr[x][lfloor][x][rfloor]]
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[template ceil[x] '''⌈'''[x]'''⌉''']
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[/template header_file[file] [@../../../../[file] [file]]]
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[note A printer-friendly PDF version of this manual is also available.]
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[section:overview Overview]
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The header `<boost/cstdfloat.hpp>` provides optional standardized
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floating-point `typedef`s having specified widths.
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These are useful for writing portable code because they
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should behave identically on all platforms.
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All `typedef`s are in `namespace boost`.
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The `typedef`s include `float16_t, float32_t, float64_t, float128_t`,
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their corresponding least and fast types,
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and the corresponding maximum-width type.
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The `typedef`s are based on underlying built-in types
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such as `float`, `double`, or `long double`, or based on other compiler-specific
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non-standardized types such as `__float128`.
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The underlying types of these typedef's must conform with
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the corresponding specifications of binary16, binary32, binary64,
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and binary128 in __IEEE754 floating-point format
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[@http://en.wikipedia.org/wiki/IEEE_floating_point].
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The typedef's are based on __N3626
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proposed for a new C++14 standard header `<cstdfloat>` and
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__N1703 proposed for a new C language standard header `<stdfloat.h>`.
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The 128-bit floating-point type, of great interest in scientific and
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numeric programming, is not required in the boost header,
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and may not be supplied for all platforms/compilers, because compiler
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support for a 128-bit floating-point type is not mandated by either
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the C standard or the C++ standard.
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The following code uses `<boost/cstdfloat.hpp>` in combination with
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`<boost/math/special_functions.hpp>` to compute a simplified
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version of the Jahnke-Emden-Lambda function. Here, we use
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a floating-point type with exactly 64 bits (i.e., `float64_t`).
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If we were to use, for instance, built-in `double`,
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then there would be no guarantee that the code would
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behave identically on all platforms. With `float64_t` from
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`<boost/cstdfloat.hpp>`, however, this is very likely.
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Using `float64_t`, we know that
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this code is portable and uses a floating-point type
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with approximately 15 decimal digits of precision.
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#include <cmath>
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#include <boost/cstdfloat.hpp>
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#include <boost/math/special_functions.hpp>
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boost::float64_t jahnke_emden_lambda(boost::float64_t v, boost::float64_t x)
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{
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const boost::float64_t gamma_v_plus_one = boost::math::tgamma(v + 1);
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const boost::float64_t x_half_pow_v = std::pow(x / 2, v);
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return gamma_v_plus_one * boost::math::cyl_bessel_j(x, v) / x_half_pow_v;
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}
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See `cstdfloat_test.cpp` for a more detailed test program.
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[endsect] [/section:overview Overview]
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[section:rationale Rationale]
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The implementation of `<boost/cstdfloat.hpp>` is designed to utilize `<float.h>`,
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defined in the 1989 C standard. The preprocessor is used to query certain
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preprocessor definitions in `<float.h>` such as FLT_MAX, DBL_MAX, etc.
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Based on the results of these queries, an attempt is made to automatically
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detect the presence of built-in floating-point types having specified widths.
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An unequivocal test regarding conformance with __IEEE754 (IEC599) based on
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[@ http://en.cppreference.com/w/cpp/types/numeric_limits/is_iec559 `std::numeric_limits<>::is_iec559`]
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is performed with `BOOST_STATIC_ASSERT`.
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The header `<boost/cstdfloat.hpp>` makes the standardized floating-point
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`typedef`s safely available in `namespace boost` without placing any names
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in `namespace std`. The intention is to complement rather than compete
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with a potential future C++ Standard Library that may contain these `typedef`s.
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Should some future C++ standard include `<stdfloat.h>` and `<cstdfloat>`,
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then `<boost/cstdfloat.hpp>` will continue to function, but will become redundant
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and may be safely deprecated.
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Because `<boost/cstdfloat.hpp>` is a boost header, its name conforms to the
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boost header naming conventions, not the C++ Standard Library header
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naming conventions.
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[note
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<boost/cstdfloat.hpp> [*cannot synthesize or create
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a `typedef` if the underlying type is not provided by the compiler].
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For example, if a compiler does not have an underlying floating-point
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type with 128 bits (highly sought-after in scientific and numeric programming),
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then `float128_t` and its corresponding least and fast types are not
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provided by `<boost/cstdfloat.hpp`>.]
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[warning
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As an implementation artifact, certain C macro names from `<float.h>`
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may possibly be visible to users of `<boost/cstdfloat.hpp>`.
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Don't rely on using these macros; they are not part of any Boost-specified interface.
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Use `std::numeric_limits<>` for floating-point ranges, etc. instead.]
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[endsect] [/section:rationale Rationale]
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[section:exact_typdefs Exact-Width Floating-Point `typedef`s]
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The `typedef float#_t`, with # replaced by the width, designates a
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floating-point type of exactly # bits. For example `float32_t` denotes
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a single-precision floating-point type with approximately
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7 decimal digits of precision (equivalent to binary32 in __IEEE754).
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Floating-point types specified in C and C++ are allowed to have
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implementation-specific widths and formats.
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However, if a platform supports underlying floating-point types
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(conformant with __IEEE754) with widths of 16, 32, 64, 128 bits,
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or any combination thereof,
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then `<boost/cstdfloat.hpp>` does provide the corresponding `typedef`s
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`float16_t, float32_t, float64_t, float128_t,`
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their corresponding least and fast types,
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and the corresponding maximum-width type
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The absence of `float128_t` is indicated by the macro `BOOST_NO_FLOAT128_T`.
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[endsect] [/section:exact_typdefs Exact-Width Floating-Point `typedef`s]
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[section:fastest_typdefs Fastest minimum-width floating-point `typedef`s]
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The `typedef float_least#_t`, with # replaced by the width, designates a
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floating-point type with a [*width of at least # bits], such that no
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floating-point type with lesser size has at least the specified width.
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Thus, `float_least32_t` denotes the smallest floating-point type with
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a width of at least 32 bits.
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Minimum-width floating-point types are provided for all existing
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exact-width floating-point types on a given platform.
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For example, if a platfrom supports `float32_t` and `float64_t`,
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then `float_least32_t` and `float_least64_t` will also be supported, etc.
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[endsect] [/section:fastest_typdefs Fastest minimum-width floating-point `typedef`s]
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[section:fastest_typdefs Fastest minimum-width floating-point `typedef`s]
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The typedef `float_fast#_t`, with # replaced by the width, designates
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the [*fastest] floating-point type with a width of at least # bits.
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There is no absolute guarantee that these types are the fastest for all purposes.
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In any case, however, they satisfy the precision and width requirements.
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Fastest minimum-width floating-point types are provided for all existing
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exact-width floating-point types on a given platform.
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For example, if a platform supports `float32_t` and `float64_t`,
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then `float_fast32_t` and `float_fast64_t` will also be supported, etc.
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[endsect] [/section:fastest_typdefs Fastest minimum-width floating-point `typedef`s]
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[section:greatest_typdefs Greatest-width floating-point typedef]
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The `typedef floatmax_t` designates a floating-point type capable of representing
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any value of any floating-point type in a given platform.
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The greatest-width typedef is provided for all platforms.
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[endsect] [/section:greatest_typdefs Greatest-width floating-point typedef]
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[section:macros Floating-Point Constant Macros]
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All macros of the type `BOOST_FLOAT16_C, BOOST_FLOAT32_C, BOOST_FLOAT64_C,
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BOOST_FLOAT128_C, BOOST_FLOATMAX_C` are always defined after inclusion of
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`<boost/cstdfloat.hpp>`. These allow floating-point constants of at
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least the specified width to be declared.
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For example:
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#include <boost/cstdfloat.hpp>
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// Declare Pythagoras' constant with approximately 7 decimal digits of precision.
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static const boost::float32_t pi = BOOST_FLOAT32_C(3.1415926536);
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// Declare the Euler-gamma constant with approximately 34 decimal digits of precision.
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static const boost::float128_t euler = BOOST_FLOAT128_C(0.57721566490153286060651209008240243104216);
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[endsect] [/section:macros Floating-Point Constant Macros]
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[/ cstdfloat.qbk
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Copyright 2014 Christopher Kormanyos, John Maddock and Paul A. Bristow.
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Distributed under the Boost Software License, Version 1.0.
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(See accompanying file LICENSE_1_0.txt or copy at
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http://www.boost.org/LICENSE_1_0.txt).
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]
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