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author | Ulrich Drepper <drepper@redhat.com> | 1997-11-13 00:21:19 +0000 |
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committer | Ulrich Drepper <drepper@redhat.com> | 1997-11-13 00:21:19 +0000 |
commit | fe0ec73edb48eff3785f29ddbac75cae5f8b361b (patch) | |
tree | d862765d3e48bfde1ee82de94b4e4f039ee7f205 /manual | |
parent | cc3fa755128c70f8afc2d604936f33e4d7d652d8 (diff) | |
download | glibc-fe0ec73edb48eff3785f29ddbac75cae5f8b361b.zip glibc-fe0ec73edb48eff3785f29ddbac75cae5f8b361b.tar.gz glibc-fe0ec73edb48eff3785f29ddbac75cae5f8b361b.tar.bz2 |
Update.cvs/libc-ud-971112
1997-11-13 01:07 Ulrich Drepper <drepper@cygnus.com>
* manual/arith.texi: Update documentation according to most recent
ISO C 9X draft.
Document fma, fdim, fmin, and fmax.
* manual/math.texi: Allow multiple defitino of mul etc.
* math/complex.h (I): Define using _Complex_U not _Imaginary_I.
* math/libm-test.c: Add tests for fma.
* math/math.h: Describe DECIMAL_DIG macro. Pretty print.
* sysdeps/alpha/fpu/bits/mathdef.h: Define INFINITY as of type float.
Define DECIMAL_DIG.
* sysdeps/generic/bits/mathdef.h: Likewise.
* sysdeps/i386/bits/mathdef.h: Likewise.
* sysdeps/m68k/fpu/bits/mathdef.h: Likewise.
* sysdeps/powerpc/bits/mathdef.h: Likewise.
* sysdeps/sparc/fpu/bits/mathdef.h: Likewise.
* sysdeps/ieee754/bits/nan.h: Define NAN as of type float.
* sysdeps/m68k/bits/nan.h. Likewise. Remove NANF and NANL.
1997-11-12 17:50 Ulrich Drepper <drepper@cygnus.com>
* sunrpc/xcrypt.c: Don't process #ident preprocessor instruction.
Reported by Philip Blundell <pb@nexus.co.uk>.
* string/strndup.c: Use K&R like definition.
* sysdeps/unix/sysv/linux/getcwd.c: New file. Use kernel information
instead of longish search for the name.
* sysdeps/posix/getcwd.c: Add support for use of the code as a
backup solution.
1997-11-12 15:31 Philip Blundell <pb@nexus.co.uk>
* sysdeps/unix/sysv/linux/arm/sysdep.h (SYS_ify): Don't add
SWI_BASE in twice.
* sysdeps/unix/sysv/linux/arm/profil-counter.h (profil_counter):
Use correct name to access PC.
* sysdeps/unix/arm/sysdep.S: Include <bits/errno.h> not <errnos.h>.
* sysdeps/generic/bits/types.h: Add __ino64_t and __off64_t.
* sysdeps/generic/bits/stat.h: Add struct stat64.
1997-11-12 16:08 Ulrich Drepper <drepper@cygnus.com>
* intl/loadmsgcat.c [_LIBC] (fstat): Don't define as __fstat since
now we have a definition as _fxstat.
* libio/fileops.c: Likewise.
* libio/oldfileops.c: Likewise.
Reported by Andreas Jaeger <aj@arthur.rhein-neckar.de>.
1997-11-12 Andreas Jaeger <aj@arthur.rhein-neckar.de>
* sysdeps/wordsize-32/inttypes.h (SIG_ATOMIC_MAX): Correct value.
* sysdeps/wordsize-64/inttypes.h (SIG_ATOMIC_MAX): Likewise.
1997-11-11 Paul Eggert <eggert@twinsun.com>
Add overflow checking for 64-bit time_t and 32-bit int.
* time/time.h (__offtime): Now returns int.
* time/offtime.c (__offtime): Return nonzero if successful;
check for tm_year overflow.
(DIV): New macro.
(LEAPS_THRU_END_OF): Handle negative years correctly.
* time/tzset.c (__tz_convert): Return NULL if offtime cannot convert.
* time/mktime.c (ranged_convert): New function.
(ydhms_tm_diff): Return nonzero if TP is null.
(__mktime_internal): Handle cases correctly even if they are near or
past the limits of time_t values that can be broken down to struct tm.
(print_tm, check_result, main): Diagnose localtime failures.
* manual/time.texi: Document the fact that localtime returns 0
if the time can't be represented.
1997-11-12 06:03 Ulrich Drepper <drepper@cygnus.com>
* time/strftime.c (memset_space, memset_zero): Use MEMPCPY, not
mempcpy. Patch by Ken'ichi Handa <handa@etl.go.jp>.
* manual/time.texi: Document %F and %f format for strftime.
* manual/arith.texi: Document copysign, nextafter and nan.
1997-11-06 Andreas Jaeger <aj@arthur.rhein-neckar.de>
* test-installation.pl: New file. Tests for some installation
problems.
Diffstat (limited to 'manual')
-rw-r--r-- | manual/arith.texi | 248 | ||||
-rw-r--r-- | manual/math.texi | 8 | ||||
-rw-r--r-- | manual/time.texi | 16 |
3 files changed, 239 insertions, 33 deletions
diff --git a/manual/arith.texi b/manual/arith.texi index d0863f9..a5ba31d 100644 --- a/manual/arith.texi +++ b/manual/arith.texi @@ -1,3 +1,19 @@ +@c We need some definitions here. +@ifclear cdor +@ifhtml +@set cdot · +@end ifhtml +@iftex +@set cdot @cdot +@end iftex +@ifclear cdot +@set cdot x +@end ifclear +@macro mul +@value{cdot} +@end macro +@end ifclear + @node Arithmetic, Date and Time, Mathematics, Top @chapter Low-Level Arithmetic Functions @@ -18,6 +34,8 @@ These functions are declared in the header files @file{math.h} and * Normalization Functions:: Hacks for radix-2 representations. * Rounding and Remainders:: Determining the integer and fractional parts of a float. +* Arithmetic on FP Values:: Setting and Modifying Single Bits of FP Values. +* Special arithmetic on FPs:: Special Arithmetic on FPs. * Integer Division:: Functions for performing integer division. * Parsing of Numbers:: Functions for ``reading'' numbers @@ -40,7 +58,7 @@ these situations. There is a special value for infinity. @comment math.h @comment ISO -@deftypevr Macro float_t INFINITY +@deftypevr Macro float INFINITY An expression representing the infinite value. @code{INFINITY} values are produced by mathematical operations like @code{1.0 / 0.0}. It is possible to continue the computations with this value since the basic @@ -85,7 +103,7 @@ a NaN. @comment math.h @comment GNU -@deftypevr Macro double NAN +@deftypevr Macro float NAN An expression representing a value which is ``not a number''. This macro is a GNU extension, available only on machines that support ``not a number'' values---that is to say, on all machines that support IEEE @@ -106,15 +124,39 @@ imaginary part of the numbers. In mathematics one uses the symbol ``i'' to mark a number as imaginary. For convenience the @file{complex.h} header defines two macros which allow to use a similar easy notation. -@deftypevr Macro float_t _Imaginary_I -This macro is a (compiler specific) representation of the value ``1i''. -I.e., it is the value for which +@deftypevr Macro {const float complex} _Complex_I +This macro is a representation of the complex number ``@math{0+1i}''. +Computing + +@smallexample +_Complex_I * _Complex_I = -1 +@end smallexample + +@noindent +leads to a real-valued result. If no @code{imaginary} types are +available it is easiest to use this value to construct complex numbers +from real values: + +@smallexample +3.0 - _Complex_I * 4.0 +@end smallexample + +@noindent +Without an optimizing compiler this is more expensive than the use of +@code{_Imaginary_I} but with is better than nothing. You can avoid all +the hassles if you use the @code{I} macro below if the name is not +problem. + +@deftypevr Macro {const float imaginary} _Imaginary_I +This macro is a representation of the value ``@math{1i}''. I.e., it is +the value for which @smallexample _Imaginary_I * _Imaginary_I = -1 @end smallexample @noindent +The result is not of type @code{float imaginary} but instead @code{float}. One can use it to easily construct complex number like in @smallexample @@ -129,11 +171,16 @@ imaginary part -4.0. @noindent A more intuitive approach is to use the following macro. -@deftypevr Macro float_t I +@deftypevr Macro {const float imaginary} I This macro has exactly the same value as @code{_Imaginary_I}. The problem is that the name @code{I} very easily can clash with macros or variables in programs and so it might be a good idea to avoid this name and stay at the safe side by using @code{_Imaginary_I}. + +If the implementation does not support the @code{imaginary} types +@code{I} is defined as @code{_Complex_I} which is the second best +solution. It still can be used in the same way but requires a most +clever compiler to get the same results. @end deftypevr @@ -379,7 +426,7 @@ whose imaginary part is @var{y}, the absolute value is @w{@code{sqrt @pindex math.h @pindex stdlib.h -Prototypes for @code{abs} and @code{labs} are in @file{stdlib.h}; +Prototypes for @code{abs}, @code{labs} and @code{llabs} are in @file{stdlib.h}; @code{fabs}, @code{fabsf} and @code{fabsl} are declared in @file{math.h}; @code{cabs}, @code{cabsf} and @code{cabsl} are declared in @file{complex.h}. @@ -400,6 +447,15 @@ This is similar to @code{abs}, except that both the argument and result are of type @code{long int} rather than @code{int}. @end deftypefun +@comment stdlib.h +@comment ISO +@deftypefun {long long int} llabs (long long int @var{number}) +This is similar to @code{abs}, except that both the argument and result +are of type @code{long long int} rather than @code{int}. + +This function is defined in @w{ISO C 9X}. +@end deftypefun + @comment math.h @comment ISO @deftypefun double fabs (double @var{number}) @@ -512,29 +568,6 @@ The value returned by @code{logb} is one less than the value that @code{frexp} would store into @code{*@var{exponent}}. @end deftypefun -@comment math.h -@comment ISO -@deftypefun double copysign (double @var{value}, double @var{sign}) -@deftypefunx float copysignf (float @var{value}, float @var{sign}) -@deftypefunx {long double} copysignl (long double @var{value}, long double @var{sign}) -These functions return a value whose absolute value is the -same as that of @var{value}, and whose sign matches that of @var{sign}. -This function appears in BSD and was standardized in @w{ISO C 9X}. -@end deftypefun - -@comment math.h -@comment ISO -@deftypefun int signbit (@emph{float-type} @var{x}) -@code{signbit} is a generic macro which can work on all floating-point -types. It returns a nonzero value if the value of @var{x} has its sign -bit set. - -This is not the same as @code{x < 0.0} since in some floating-point -formats (e.g., @w{IEEE 754}) the zero value is optionally signed. The -comparison @code{-0.0 < 0.0} will not be true while @code{signbit -(-0.0)} will return a nonzero value. -@end deftypefun - @node Rounding and Remainders @section Rounding and Remainder Functions @cindex rounding functions @@ -652,6 +685,161 @@ If @var{denominator} is zero, @code{drem} fails and sets @code{errno} to @end deftypefun +@node Arithmetic on FP Values +@section Setting and modifying Single Bits of FP Values +@cindex FP arithmetic + +In certain situations it is too complicated (or expensive) to modify a +floating-point value by the normal operations. For a few operations +@w{ISO C 9X} defines functions to modify the floating-point value +directly. + +@comment math.h +@comment ISO +@deftypefun double copysign (double @var{x}, double @var{y}) +@deftypefunx float copysignf (float @var{x}, float @var{y}) +@deftypefunx {long double} copysignl (long double @var{x}, long double @var{y}) +The @code{copysign} function allows to specifiy the sign of the +floating-point value given in the parameter @var{x} by discarding the +prior content and replacing it with the sign of the value @var{y}. +The so found value is returned. + +This function also works and throws no exception if the parameter +@var{x} is a @code{NaN}. If the platform supports the signed zero +representation @var{x} might also be zero. + +This function is defined in @w{IEC 559} (and the appendix with +recommended functions in @w{IEEE 754}/@w{IEEE 854}). +@end deftypefun + +@comment math.h +@comment ISO +@deftypefun int signbit (@emph{float-type} @var{x}) +@code{signbit} is a generic macro which can work on all floating-point +types. It returns a nonzero value if the value of @var{x} has its sign +bit set. + +This is not the same as @code{x < 0.0} since in some floating-point +formats (e.g., @w{IEEE 754}) the zero value is optionally signed. The +comparison @code{-0.0 < 0.0} will not be true while @code{signbit +(-0.0)} will return a nonzero value. +@end deftypefun + +@comment math.h +@comment ISO +@deftypefun double nextafter (double @var{x}, double @var{y}) +@deftypefunx float nextafterf (float @var{x}, float @var{y}) +@deftypefunx {long double} nextafterl (long double @var{x}, long double @var{y}) +The @code{nextafter} function returns the next representable neighbor of +@var{x} in the direction towards @var{y}. Depending on the used data +type the steps make have a different size. If @math{@var{x} = @var{y}} +the function simply returns @var{x}. If either value is a @code{NaN} +one the @code{NaN} values is returned. Otherwise a value corresponding +to the value of the least significant bit in the mantissa is +added/subtracted (depending on the direction). If the resulting value +is not finite but @var{x} is, overflow is signaled. Underflow is +signaled if the resulting value is a denormalized number (if the @w{IEEE +754}/@w{IEEE 854} representation is used). + +This function is defined in @w{IEC 559} (and the appendix with +recommended functions in @w{IEEE 754}/@w{IEEE 854}). +@end deftypefun + +@cindex NaN +@comment math.h +@comment ISO +@deftypefun double nan (const char *@var{tagp}) +@deftypefunx float nanf (const char *@var{tagp}) +@deftypefunx {long double} nanl (const char *@var{tagp}) +The @code{nan} function returns a representation of the NaN value. If +quiet NaNs are supported by the platform a call like @code{nan +("@var{n-char-sequence}")} is equivalent to @code{strtod +("NAN(@var{n-char-sequence})")}. The exact implementation is left +unspecified but on systems using IEEE arithmethic the +@var{n-char-sequence} specifies the bits of the mantissa for the NaN +value. +@end deftypefun + + +@node Special arithmetic on FPs +@section Special Arithmetic on FPs +@cindex positive difference +@cindex minimum +@cindex maximum + +A frequent operation of numbers is the determination of mimuma, maxima, +or the difference between numbers. The @w{ISO C 9X} standard introduces +three functions which implement this efficiently while also providing +some useful functions which is not so efficient to implement. Machine +specific implementation might perform this very efficient. + +@comment math.h +@comment ISO +@deftypefun double fmin (double @var{x}, double @var{y}) +@deftypefunx float fminf (float @var{x}, float @var{y}) +@deftypefunx {long double} fminl (long double @var{x}, long double @var{y}) +The @code{fmin} function determine the minimum of the two values @var{x} +and @var{y} and returns it. + +If an argument is NaN it as treated as missing and the other value is +returned. If both values are NaN one of the values is returned. +@end deftypefun + +@comment math.h +@comment ISO +@deftypefun double fmax (double @var{x}, double @var{y}) +@deftypefunx float fmaxf (float @var{x}, float @var{y}) +@deftypefunx {long double} fmaxl (long double @var{x}, long double @var{y}) +The @code{fmax} function determine the maximum of the two values @var{x} +and @var{y} and returns it. + +If an argument is NaN it as treated as missing and the other value is +returned. If both values are NaN one of the values is returned. +@end deftypefun + +@comment math.h +@comment ISO +@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}) +The @code{fdim} function computes the positive difference between +@var{x} and @var{y} and returns this value. @dfn{Positive difference} +means that if @var{x} is greater than @var{y} the value @math{@var{x} - +@var{y}} is returned. Otherwise the return value is @math{+0}. + +If any of the arguments is NaN this value is returned. If both values +are NaN, one of the values is returned. +@end deftypefun + +@comment math.h +@comment ISO +@deftypefun double fma (double @var{x}, double @var{y}, double @var{z}) +@deftypefunx float fmaf (float @var{x}, float @var{y}, float @var{z}) +@deftypefunx {long double} fmal (long double @var{x}, long double @var{y}, long double @var{z}) +@cindex butterfly +The name of the function @code{fma} means floating-point multiply-add. +I.e., the operation performed is @math{(@var{x} @mul{} @var{y}) + +@var{z}}. The speciality of this function is that the intermediate +result is not rounded and the addition is performed with the full +precision of the multiplcation. + +This function was introduced because some processors provide such a +function in their FPU implementation. Since compilers cannot optimize +code which performs the operation in single steps using this opcode +because of rounding differences the operation is available separately so +the programmer can select when the rounding of the intermediate result +is not important. + +@vindex FP_FAST_FMA +If the @file{math.h} header defines the symbol @code{FP_FAST_FMA} (or +@code{FP_FAST_FMAF} and @code{FP_FAST_FMAL} for @code{float} and +@code{long double} respectively) the processor typically defines the +operation in hardware. The symbols might also be defined if the +software implementation is as fast as a multiply and an add but in the +GNU C Library the macros indicate hardware support. +@end deftypefun + + @node Integer Division @section Integer Division @cindex integer division functions diff --git a/manual/math.texi b/manual/math.texi index 478678f..d6206eb 100644 --- a/manual/math.texi +++ b/manual/math.texi @@ -1,4 +1,5 @@ @c We need some definitions here. +@ifclear cdot @ifhtml @set cdot · @end ifhtml @@ -8,15 +9,16 @@ @ifclear cdot @set cdot x @end ifclear +@macro mul +@value{cdot} +@end macro +@end ifclear @iftex @set infty @infty @end iftex @ifclear infty @set infty oo @end ifclear -@macro mul -@value{cdot} -@end macro @macro infinity @value{infty} @end macro diff --git a/manual/time.texi b/manual/time.texi index b67ef63..f38c2eb 100644 --- a/manual/time.texi +++ b/manual/time.texi @@ -531,6 +531,10 @@ might be overwritten by subsequent calls to @code{ctime}, @code{gmtime}, or @code{localtime}. (But no other library function overwrites the contents of this object.) +The return value is the null pointer if @var{time} cannot be represented +as a broken-down time; typically this is because the year cannot fit into +an @code{int}. + Calling @code{localtime} has one other effect: it sets the variable @code{tzname} with information about the current time zone. @xref{Time Zone Functions}. @@ -784,6 +788,18 @@ The day of the month like with @code{%d}, but padded with blank (range This format is a POSIX.2 extension. +@item %f +The day of the week as a decimal number (range @code{1} through +@code{7}), Monday being @code{1}. + +This format is a @w{ISO C 9X} extension. + +@item %F +The date using the format @code{%Y-%m-%d}. This is the form specified +in the @w{ISO 8601} standard and is the preferred form for all uses. + +This format is a @w{ISO C 9X} extension. + @item %g The year corresponding to the ISO week number, but without the century (range @code{00} through @code{99}). This has the same format and value |