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| author | Joseph Myers <joseph@codesourcery.com> | 2021-09-28 23:31:35 +0000 |
|---|---|---|
| committer | Joseph Myers <joseph@codesourcery.com> | 2021-09-28 23:31:35 +0000 |
| commit | 90f0ac10a74b2d43b5a65aab4be40565e359be43 (patch) | |
| tree | ab0e73d7c60a7255fa5e7c9cbe58e80c3eb8d9cd /manual/arith.texi | |
| parent | 5bf07e1b3a74232bfb8332275110be1a5da50f83 (diff) | |
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Add fmaximum, fminimum functions
C2X adds new <math.h> functions for floating-point maximum and
minimum, corresponding to the new operations that were added in IEEE
754-2019 because of concerns about the old operations not being
associative in the presence of signaling NaNs. fmaximum and fminimum
handle NaNs like most <math.h> functions (any NaN argument means the
result is a quiet NaN). fmaximum_num and fminimum_num handle both
quiet and signaling NaNs the way fmax and fmin handle quiet NaNs (if
one argument is a number and the other is a NaN, return the number),
but still raise "invalid" for a signaling NaN argument, making them
exceptions to the normal rule that a function with a floating-point
result raising "invalid" also returns a quiet NaN. fmaximum_mag,
fminimum_mag, fmaximum_mag_num and fminimum_mag_num are corresponding
functions returning the argument with greatest or least absolute
value. All these functions also treat +0 as greater than -0. There
are also corresponding <tgmath.h> type-generic macros.
Add these functions to glibc. The implementations use type-generic
templates based on those for fmax, fmin, fmaxmag and fminmag, and test
inputs are based on those for those functions with appropriate
adjustments to the expected results. The RISC-V maintainers might
wish to add optimized versions of fmaximum_num and fminimum_num (for
float and double), since RISC-V (F extension version 2.2 and later)
provides instructions corresponding to those functions - though it
might be at least as useful to add architecture-independent built-in
functions to GCC and teach the RISC-V back end to expand those
functions inline, which is what you generally want for functions that
can be implemented with a single instruction.
Tested for x86_64 and x86, and with build-many-glibcs.py.
Diffstat (limited to 'manual/arith.texi')
| -rw-r--r-- | manual/arith.texi | 110 |
1 files changed, 106 insertions, 4 deletions
diff --git a/manual/arith.texi b/manual/arith.texi index 6a158e624d..edb9cfdafb 100644 --- a/manual/arith.texi +++ b/manual/arith.texi @@ -2097,8 +2097,8 @@ and @var{y}. It is similar to the expression @end smallexample except that @var{x} and @var{y} are only evaluated once. -If an argument is NaN, the other argument is returned. If both arguments -are NaN, NaN is returned. +If an argument is a quiet NaN, the other argument is returned. If both arguments +are NaN, or either is a signaling NaN, NaN is returned. @end deftypefun @deftypefun double fmax (double @var{x}, double @var{y}) @@ -2113,8 +2113,58 @@ are NaN, NaN is returned. The @code{fmax} function returns the greater of the two values @var{x} and @var{y}. -If an argument is NaN, the other argument is returned. If both arguments -are NaN, NaN is returned. +If an argument is a quiet NaN, the other argument is returned. If both arguments +are NaN, or either is a signaling NaN, NaN is returned. +@end deftypefun + +@deftypefun double fminimum (double @var{x}, double @var{y}) +@deftypefunx float fminimumf (float @var{x}, float @var{y}) +@deftypefunx {long double} fminimuml (long double @var{x}, long double @var{y}) +@deftypefunx _FloatN fminimumfN (_Float@var{N} @var{x}, _Float@var{N} @var{y}) +@deftypefunx _FloatNx fminimumfNx (_Float@var{N}x @var{x}, _Float@var{N}x @var{y}) +@standards{C2X, math.h} +@safety{@prelim{}@mtsafe{}@assafe{}@acsafe{}} +The @code{fminimum} function returns the lesser of the two values @var{x} +and @var{y}. Unlike @code{fmin}, if either argument is a NaN, NaN is returned. +Positive zero is treated as greater than negative zero. +@end deftypefun + +@deftypefun double fmaximum (double @var{x}, double @var{y}) +@deftypefunx float fmaximumf (float @var{x}, float @var{y}) +@deftypefunx {long double} fmaximuml (long double @var{x}, long double @var{y}) +@deftypefunx _FloatN fmaximumfN (_Float@var{N} @var{x}, _Float@var{N} @var{y}) +@deftypefunx _FloatNx fmaximumfNx (_Float@var{N}x @var{x}, _Float@var{N}x @var{y}) +@standards{C2X, math.h} +@safety{@prelim{}@mtsafe{}@assafe{}@acsafe{}} +The @code{fmaximum} function returns the greater of the two values @var{x} +and @var{y}. Unlike @code{fmax}, if either argument is a NaN, NaN is returned. +Positive zero is treated as greater than negative zero. +@end deftypefun + +@deftypefun double fminimum_num (double @var{x}, double @var{y}) +@deftypefunx float fminimum_numf (float @var{x}, float @var{y}) +@deftypefunx {long double} fminimum_numl (long double @var{x}, long double @var{y}) +@deftypefunx _FloatN fminimum_numfN (_Float@var{N} @var{x}, _Float@var{N} @var{y}) +@deftypefunx _FloatNx fminimum_numfNx (_Float@var{N}x @var{x}, _Float@var{N}x @var{y}) +@standards{C2X, math.h} +@safety{@prelim{}@mtsafe{}@assafe{}@acsafe{}} +The @code{fminimum_num} function returns the lesser of the two values +@var{x} and @var{y}. If one argument is a number and the other is a +NaN, even a signaling NaN, the number is returned. Positive zero is +treated as greater than negative zero. +@end deftypefun + +@deftypefun double fmaximum_num (double @var{x}, double @var{y}) +@deftypefunx float fmaximum_numf (float @var{x}, float @var{y}) +@deftypefunx {long double} fmaximum_numl (long double @var{x}, long double @var{y}) +@deftypefunx _FloatN fmaximum_numfN (_Float@var{N} @var{x}, _Float@var{N} @var{y}) +@deftypefunx _FloatNx fmaximum_numfNx (_Float@var{N}x @var{x}, _Float@var{N}x @var{y}) +@standards{C2X, math.h} +@safety{@prelim{}@mtsafe{}@assafe{}@acsafe{}} +The @code{fmaximum_num} function returns the greater of the two values +@var{x} and @var{y}. If one argument is a number and the other is a +NaN, even a signaling NaN, the number is returned. Positive zero is +treated as greater than negative zero. @end deftypefun @deftypefun double fminmag (double @var{x}, double @var{y}) @@ -2147,6 +2197,58 @@ have the same absolute value, or either is NaN, they behave the same as the @code{fmax} functions. @end deftypefun +@deftypefun double fminimum_mag (double @var{x}, double @var{y}) +@deftypefunx float fminimum_magf (float @var{x}, float @var{y}) +@deftypefunx {long double} fminimum_magl (long double @var{x}, long double @var{y}) +@deftypefunx _FloatN fminimum_magfN (_Float@var{N} @var{x}, _Float@var{N} @var{y}) +@deftypefunx _FloatNx fminimum_magfNx (_Float@var{N}x @var{x}, _Float@var{N}x @var{y}) +@standards{C2X, math.h} +@safety{@prelim{}@mtsafe{}@assafe{}@acsafe{}} +These functions return whichever of the two values @var{x} and @var{y} +has the smaller absolute value. If both have the same absolute value, +or either is NaN, they behave the same as the @code{fminimum} +functions. +@end deftypefun + +@deftypefun double fmaximum_mag (double @var{x}, double @var{y}) +@deftypefunx float fmaximum_magf (float @var{x}, float @var{y}) +@deftypefunx {long double} fmaximum_magl (long double @var{x}, long double @var{y}) +@deftypefunx _FloatN fmaximum_magfN (_Float@var{N} @var{x}, _Float@var{N} @var{y}) +@deftypefunx _FloatNx fmaximum_magfNx (_Float@var{N}x @var{x}, _Float@var{N}x @var{y}) +@standards{C2X, math.h} +@safety{@prelim{}@mtsafe{}@assafe{}@acsafe{}} +These functions return whichever of the two values @var{x} and @var{y} +has the greater absolute value. If both have the same absolute value, +or either is NaN, they behave the same as the @code{fmaximum} +functions. +@end deftypefun + +@deftypefun double fminimum_mag_num (double @var{x}, double @var{y}) +@deftypefunx float fminimum_mag_numf (float @var{x}, float @var{y}) +@deftypefunx {long double} fminimum_mag_numl (long double @var{x}, long double @var{y}) +@deftypefunx _FloatN fminimum_mag_numfN (_Float@var{N} @var{x}, _Float@var{N} @var{y}) +@deftypefunx _FloatNx fminimum_mag_numfNx (_Float@var{N}x @var{x}, _Float@var{N}x @var{y}) +@standards{C2X, math.h} +@safety{@prelim{}@mtsafe{}@assafe{}@acsafe{}} +These functions return whichever of the two values @var{x} and @var{y} +has the smaller absolute value. If both have the same absolute value, +or either is NaN, they behave the same as the @code{fminimum_num} +functions. +@end deftypefun + +@deftypefun double fmaximum_mag_num (double @var{x}, double @var{y}) +@deftypefunx float fmaximum_mag_numf (float @var{x}, float @var{y}) +@deftypefunx {long double} fmaximum_mag_numl (long double @var{x}, long double @var{y}) +@deftypefunx _FloatN fmaximum_mag_numfN (_Float@var{N} @var{x}, _Float@var{N} @var{y}) +@deftypefunx _FloatNx fmaximum_mag_numfNx (_Float@var{N}x @var{x}, _Float@var{N}x @var{y}) +@standards{C2X, math.h} +@safety{@prelim{}@mtsafe{}@assafe{}@acsafe{}} +These functions return whichever of the two values @var{x} and @var{y} +has the greater absolute value. If both have the same absolute value, +or either is NaN, they behave the same as the @code{fmaximum_num} +functions. +@end deftypefun + @deftypefun double fdim (double @var{x}, double @var{y}) @deftypefunx float fdimf (float @var{x}, float @var{y}) @deftypefunx {long double} fdiml (long double @var{x}, long double @var{y}) |