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author | Rical Jasan <ricaljasan@pacific.net> | 2017-06-16 00:27:09 -0700 |
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committer | Rical Jasan <ricaljasan@pacific.net> | 2017-06-16 01:20:50 -0700 |
commit | 1b009d5ac3e048546920af678ee9e357250957da (patch) | |
tree | c699d6c605ab6e72850f48c18f1f68fcbd030e99 /manual | |
parent | 76b9ffef87fa2328bf491257bc6379add1344f2d (diff) | |
download | glibc-1b009d5ac3e048546920af678ee9e357250957da.tar.gz |
manual: Complete @standards in arith.texi.
* manual/arith.texi (FP_NAN): Add or complete header and
standard annotations.
(FP_INFINITE): Likewise.
(FP_ZERO): Likewise.
(FP_SUBNORMAL): Likewise.
(FP_NORMAL): Likewise.
(SNAN): Likewise.
(SNANL): Likewise.
(totalorderf): Likewise.
(totalorderl): Likewise.
(totalordermagf): Likewise.
(totalordermagl): Likewise.
(_Complex_I): Likewise.
(I): Likewise.
Diffstat (limited to 'manual')
-rw-r--r-- | manual/arith.texi | 17 |
1 files changed, 10 insertions, 7 deletions
diff --git a/manual/arith.texi b/manual/arith.texi index 4554f94495..dd6020cf4f 100644 --- a/manual/arith.texi +++ b/manual/arith.texi @@ -323,22 +323,27 @@ which returns a value of type @code{int}. The possible values are: @vtable @code @item FP_NAN +@standards{C99, math.h} The floating-point number @var{x} is ``Not a Number'' (@pxref{Infinity and NaN}) @item FP_INFINITE +@standards{C99, math.h} The value of @var{x} is either plus or minus infinity (@pxref{Infinity and NaN}) @item FP_ZERO +@standards{C99, math.h} The value of @var{x} is zero. In floating-point formats like @w{IEEE 754}, where zero can be signed, this value is also returned if @var{x} is negative zero. @item FP_SUBNORMAL +@standards{C99, math.h} Numbers whose absolute value is too small to be represented in the normal format are represented in an alternate, @dfn{denormalized} format (@pxref{Floating Point Concepts}). This format is less precise but can represent values closer to zero. @code{fpclassify} returns this value for values of @var{x} in this alternate format. @item FP_NORMAL +@standards{C99, math.h} This value is returned for all other values of @var{x}. It indicates that there is nothing special about the number. @end vtable @@ -681,7 +686,7 @@ such as by defining @code{_GNU_SOURCE}, and then you must include @deftypevr Macro float SNANF @deftypevrx Macro double SNAN @deftypevrx Macro {long double} SNANL -@standardsx{SNANF, ISO, math.h} +@standards{TS 18661-1:2014, math.h} These macros, defined by TS 18661-1:2014, are constant expressions for signaling NaNs. @end deftypevr @@ -1881,9 +1886,7 @@ NaN. @deftypefun int totalorder (double @var{x}, double @var{y}) @deftypefunx int totalorderf (float @var{x}, float @var{y}) @deftypefunx int totalorderl (long double @var{x}, long double @var{y}) -@standards{ISO, math.h} -@standardsx{totalorderf, ISO, ???} -@standardsx{totalorderl, ISO, ???} +@standards{TS 18661-1:2014, math.h} @safety{@prelim{}@mtsafe{}@assafe{}@acsafe{}} These functions determine whether the total order relationship, defined in IEEE 754-2008, is true for @var{x} and @var{y}, returning @@ -1902,9 +1905,7 @@ payload. @deftypefun int totalordermag (double @var{x}, double @var{y}) @deftypefunx int totalordermagf (float @var{x}, float @var{y}) @deftypefunx int totalordermagl (long double @var{x}, long double @var{y}) -@standards{ISO, math.h} -@standardsx{totalordermagf, ISO, ???} -@standardsx{totalordermagl, ISO, ???} +@standards{TS 18661-1:2014, math.h} @safety{@prelim{}@mtsafe{}@assafe{}@acsafe{}} These functions determine whether the total order relationship, defined in IEEE 754-2008, is true for the absolute values of @var{x} @@ -2038,6 +2039,7 @@ floating point constant. Instead, @file{complex.h} defines two macros that can be used to create complex numbers. @deftypevr Macro {const float complex} _Complex_I +@standards{C99, complex.h} This macro is a representation of the complex number ``@math{0+1i}''. Multiplying a real floating-point value by @code{_Complex_I} gives a complex number whose value is purely imaginary. You can use this to @@ -2086,6 +2088,7 @@ imaginary part -4.0. a shorter name for the same constant. @deftypevr Macro {const float complex} I +@standards{C99, complex.h} This macro has exactly the same value as @code{_Complex_I}. Most of the time it is preferable. However, it causes problems if you want to use the identifier @code{I} for something else. You can safely write |