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glibc/math/libm-test.c
Ulrich Drepper 9a0a462ceb Update. 
1997-09-11 04:36  Ulrich Drepper  <drepper@cygnus.com>

	* db2/db_int.h: Define __set_errno if not yet available.
	* db2/btree/bt_rec.c: Use __set_errno to set errno value.
	* db2/clib/getlong.c: Likewise.
	* db2/db185/db185.c: Likewise.
	* db2/db185/db185_int.h: Likewise.
	* db2/dbm/dbm.c: Likewise.
	* db2/lock/lock_deadlock.c: Likewise.
	* db2/log/log_archive.c: Likewise.

	* elf/dl-profile.c: Implement mcount function.

	* gmon/gmon.c: Use __profil not profil because of namespace pollution.
	* gmon/mcount.c: Remove BSD kernel code.
	Use compare&swap instruction if possible to change state variable.
	Optimize frompc folding.
	* gmon/sys/gmon.h (struct gmonparam): Change state field to long int.
	* sysdeps/i386/i486/atomicity.h: New file.
	* sysdeps/stub/atomicity.h: New file.
	* sysdeps/mach/hurd/profil.c: Define function as __profil and make
	profil weak alias.
	* sysdeps/posix/profil.c: Likewise.

	* string/bits/string2.h: New file.
	* include/bits/string2.h: New file.
	* string/Makefile (routines): Add mempcpy.
	(tests): Add inl-tester.
	Remove _D__NO_STRING_INLINES from CFLAGS-* variables.
	* sysdeps/generic/mempcpy.c: New file.
	* sysdeps/generic/memccpy.c: Undef function name to enable definition
	as macro.
	* sysdeps/generic/memchr.c: Likewise.
	* sysdeps/generic/memcmp.c: Likewise.
	* sysdeps/generic/memmem.c: Likewise.
	* sysdeps/generic/memmove.c: Likewise.
	* sysdeps/generic/strcat.c: Likewise.
	* sysdeps/generic/strchr.c: Likewise.
	* sysdeps/generic/strcmp.c: Likewise.
	* sysdeps/generic/strcpy.c: Likewise.
	* sysdeps/generic/strcspn.c: Likewise.
	* sysdeps/generic/strlen.c: Likewise.
	* sysdeps/generic/strncat.c: Likewise.
	* sysdeps/generic/strncmp.c: Likewise.
	* sysdeps/generic/strncpy.c: Likewise.
	* sysdeps/generic/strpbrk.c: Likewise.
	* sysdeps/generic/strrchr.c: Likewise.
	* sysdeps/generic/strsep.c: Likewise.
	* sysdeps/generic/strspn.c: Likewise.
	* sysdeps/generic/strstr.c: Likewise.
	* sysdeps/generic/strtok.c: Likewise.
	* sysdeps/generic/strtok_r.c: Likewise.
	* sysdeps/i386/memset.c: Likewise.
	* sysdeps/i386/bits/string.h: Correct a few types and constraints.
	* sysdeps/i386/i486/bits/string.h: Heavy rewrites and optimizations.
	* string/stratcliff.c: Undefine __USE_STRING_INLINES.
	* string/tst-strlen.c: Likewise.
	* string/string.h: Add prototype for mempcpy.  Include bits/string2.h
	header always if optimizing.
	* intl/dcgettext.c: Don't unconditionally define stpcpy, only if not
	yet defined.
	* intl/l10nflist.c: Likewise.

	* string/tester.c: Add copyright and make little cleanups.

	* inet/test_ifindex.c: Change type of ni variable to unsigned int.

	* locale/programs/ld-ctype.c (struct locale_ctype_t): Change type
	of fields map_collection_max and map_collection_act to size_t.

	* nss/libnss_files.map: Group entries.

	* posix/unistd.h: Add prototype for __setpgid and __profil.

	* sysdeps/generic/crypt.h: Declare __crypt_r.

	* sysdeps/i386/bits/select.h: Fix fatal bugs, use correct casts now.

	* sysdeps/i386/fpu/bits/mathinline.h (isgreater, isgreaterequal,
	isless, islessequal, islessgreater, isunordered): Optimize a bit.

	* sysdeps/stub/ftruncate.c: Include missing header for prototype.
	* sysdeps/stub/getdents.c: Likewise.
	* sysdeps/stub/reboot.c: Likewise.
	* sysdeps/stub/swapon.c: Likewise.
	* sysdeps/stub/syscall.c: Likewise.
	* sysdeps/stub/ualarm.c: Likewise.
	* sysdeps/stub/usleep.c: Likewise.

	* sysdeps/unix/sysv/linux/if_index.c: Don't compile or use opensock
	if SIOGIFINDEX and SIOGIFNAME are not defined.

	* sysdeps/unix/sysv/linux/net/if.h: Add IFF_PORTSEL and IFF_AUTOMEDIA
	according to recent kernel changes.

1997-09-10 21:32  Klaus Espenlaub  <kespenla@student.informatik.uni-ulm.de>

	* Makeconfig: Use $(have-initfini) instead of $(elf) to figure out
	the installed name of the startup code.
	(common-generated): Add version.mk.
	* Makefile (distclean-1): Add glibcbug.
	* Makerules: Replace -lgcc by $(gnulib).
	* catgets/Makefile (generated): Add xmalloc.o.
	* csu/Makefile (generated): Replace align.h and end.h by defs.h to
	match the generated file.
	* manual/Makefile (mostlyclean): Add stub-manual and stamp.o.
	(realclean): Changed to remove chapters-incl[12].
	* po/Makefile (realclean): New rule to remove the generated .mo files.
	* time/Makefile: Only include zonefile dependencies if $(no_deps) is
	not true to avoid make clean failure when directory time doesn't exist
	yet.
	(generated): Add tzselect.

	* stdio/fgets.c (fgets): Add casts to reduce gcc warning noise.
	* stdio/internals.c (flushbuf): Likewise.
	* stdio/linewrap.c (lwupdate): Likewise.
	* stdio/memstream.c (enlarge_buffer): Likewise.
	* stdio-common/vfscanf.c (_IO_vfscanf): Likewise.
	* time/tzset.c (compute_change): Likewise.
	* misc/init-misc.c (__init_misc): Only declare static if HAVE_GNU_LD
	is defined.
	* sysdeps/posix/pipestream.c (FUNC): Change to generate ANSI C style
	functions.
	* sysdeps/stub/init-posix.c: Likewise.
	* sysdeps/stub/profil.c: Likewise.
	* munch-tmpl.c (__libc_init): Convert to ANSI C style declaration to
	reduce gcc warning noise.
	* stdio/glue.c (_filbuf, _flsbuf): Likewise.
	* stdio/obstream.c (grow, seek, input, init_obstream): Likewise.
	* stdio/vasprintf.c (enlarge_buffer): Likewise.
	* sysdeps/generic/sysd-stdio.c (__stdio_read, __stdio_write,
	__stdio_seek, __stdio_close, __stdio_fileno, __stdio_open,
	__stdio_reopen): Likewise.
	* sysdeps/posix/defs.c (_cleanup): Likewise.
	* time/offtime.c (__offtime): Add cast.

	* posix/getopt.c: Don't use text_set_element if not defined.

	* configure.in: Provide a check for underscores before user labels
	that works even when the compiler used for building doesn't work
	(like when there is no C library).  Use the old way if the compiler
	works.

1997-09-10 05:08  David S. Miller  <davem@caip.rutgers.edu>

	* sysdeps/unix/sysv/linux/sparc/bits/ioctls.h: The TC* ioctls use
	'T' not 't' on SparcLinux.
	* sysdeps/unix/sysv/linux/sparc/bits/termios.h: tcflag_t is 32 bits.

	* sysdeps/unix/sysv/linux/sparc/sparc64/longjmp.S: Add aliases for
	_longjmp and siglongjmp.

1997-09-09  Andreas Schwab  <schwab@issan.informatik.uni-dortmund.de>

	* libio/stdio.h: Add format attributes to the extra printf and
	scanf like functions.
	* stdio/stdio.h: Likewise.

1997-09-09  Andreas Schwab  <schwab@issan.informatik.uni-dortmund.de>

	* nis/nss_nisplus/nisplus-network.c (_nss_nisplus_getnetbyaddr_r):
	Print tablename_val, not tablename_len.

	* nis/nss_nisplus/nisplus-ethers.c (_nss_nisplus_getntohost_r):
	Use sprintf instead of sprintf, the string always fits.
	* nis/nss_nisplus/nisplus-hosts.c (_nss_nisplus_gethostbyaddr_r):
	Likewise.
	* nis/nss_nisplus/nisplus-network.c (_nss_nisplus_getnetbyaddr_r):
	Likewise.
	* nis/nss_nisplus/nisplus-proto.c
	(_nss_nisplus_getprotobynumber_r): Likewise.
	* nis/nss_nisplus/nisplus-rpc.c (_nss_nisplus_getrpcbynumber_r):
	Likewise.
	* nis/nss_nisplus/nisplus-service.c
	(_nss_nisplus_getservbynumber_r): Likewise.

	* nis/nss_nisplus/nisplus-alias.c (_nss_create_tablename): Use
	__stpcpy, __stpncpy and __strdup instead of public names.
	* nis/nss_nisplus/nisplus-ethers.c (_nss_create_tablename):
	Likewise.
	* nis/nss_nisplus/nisplus-grp.c (_nss_create_tablename): Likewise.
	* nis/nss_nisplus/nisplus-hosts.c (_nss_create_tablename):
	Likewise.
	* nis/nss_nisplus/nisplus-netgrp.c (_nss_nisplus_parse_netgroup):
	Likewise.
	* nis/nss_nisplus/nisplus-network.c (_nss_nisplus_parse_netent):
	Likewise.
	(_nss_create_tablename): Likewise.
	* nis/nss_nisplus/nisplus-proto.c (_nss_nisplus_parse_protoent):
	Likewise.
	(_nss_create_tablename): Likewise.
	* nis/nss_nisplus/nisplus-pwd.c (_nss_create_tablename):
	Likewise.
	* nis/nss_nisplus/nisplus-rpc.c (_nss_nisplus_parse_rpcent):
	Likewise.
	(_nss_create_tablename): Likewise.
	* nis/nss_nisplus/nisplus-service.c (_nss_nisplus_parse_servent):
	Likewise.
	(_nss_create_tablename): Likewise.
	* nis/nss_nisplus/nisplus-spwd.c (_nss_create_tablename):
	Likewise.

	* libc.map: Export __stpcpy and __strdup.

1997-09-09  Andreas Schwab  <schwab@issan.informatik.uni-dortmund.de>

	* math/Makefile (CFLAGS-test-float.c, CFLAGS-test-double.c,
	CFLAGS-test-ldouble.c): Pass -ffloat-store to avoid excessive
	precision.

1997-09-09  Andreas Schwab  <schwab@issan.informatik.uni-dortmund.de>

	* include/rpc/auth_des.h: New file.

1997-09-09  Paul Eggert  <eggert@twinsun.com>

	* time/mktime.c (__mktime_internal): Declare sec_requested even if
	!LEAP_SECONDS_POSSIBLE, since it's needed at the end when checking
	for time_t overflow.

1997-09-09 22:11  Ulrich Drepper  <drepper@cygnus.com>

	* sysdeps/posix/getcwd.c: Correct test for too small buffer.
	Reported by Erik Troan <ewt@redhat.com>.

	* elf/dl-close.c: Include <bits/libc-lock.h>, not <libc-lock.h>.
	* elf/dl-open.c: Likewise.

1997-09-07 17:09  Richard Henderson  <rth@cygnus.com>

	* sysdeps/alpha/Makefile: Kill setjmp_aux.
	* sysdeps/alpha/bits/setjmp.h: Rewrite in terms of an array.
	* sysdeps/alpha/__longjmp.c: Remove.
	* sysdeps/alpha/setjmp_aux.c: Remove.
	* sysdeps/alpha/__longjmp.S: New file.
	* sysdeps/alpha/bsd-_setjmp.S: Stub out.
	* sysdeps/alpha/bsd-setjmp.S: Likewise.
	* sysdeps/alpha/setjmp.S: Do the work; don't call __setjmp_aux.
	Move _setjmp and setjmp from bsd-*.S.

1997-09-06  20:20  Ulrich Drepper  <drepper@cygnus.com>

	* include/rpc/auth.h: New file.
	* include/rpc/auth_unix.h: New file.

1997-09-06  Paul Eggert  <eggert@twinsun.com>

	Fix gmtime so that it reports leap seconds when TZ
	indicates that leap seconds are desired.

	* time/gmtime.c (<stddef.h>): Remove unnecessary include.
	(gmtime): Put after gmtime_r, to help the compiler inline.
	(__tz_convert): New decl.
	(gmtime_r): Use __tz_convert instead of __offtime,
	so that leap seconds are handled correctly.

	* time/localtime.c (<errno.h>, <libc-lock.h>): Remove includes that
	are now unnecessary.
	(__tzset_internal, __tz_compute, __tzfile_compute, __use_tzfile,
	__tzset_lock): Remove extern decls that are now unnecessary.
	(localtime_internal): Moved to __tz_convert in tzset.c.
	so that localtime and gmtime can both use it easily.
	(localtime): Put after localtime_r, to help the compiler inline.
	(localtime_r): Use __tz_convert instead of localtime_internal.

	* time/strftime.c (__tz_compute): Remove unused (and now incorrect)
	decl.

	* time/tzfile.c (__tzfile_compute): New arg USE_LOCALTIME.

	* time/tzset.c (<errno.h>): Include.
	(_tmbuf): New decl.
	(__tzfile_compute): New function.
	(tz_compute): Renamed from __tz_compute.  No longer extern.
	Remove redundant call to tzset_internal.
	(tzset_internal): Renamed from __tzset_internal.  No longer extern.
	(tzset_lock): Renamed from __tzset_lock.  No longer extern.
	(__tz_convert): New function, containing functionality of old
	localtime_internal function, plus locking and optional UTC.

1997-09-06  Paul Eggert  <eggert@twinsun.com>

	* time/tzfile.c (__tzfile_read): Don't read a file if TZ is the empty
	string, just use UTC without leap seconds.  This is for compatibility
	with the Olson code.

1997-09-06  Paul Eggert  <eggert@twinsun.com>

	* time/tzset.c (__tzname_max): Lock tz data structures before
	invoking tzset_internal.

	* time/tzfile.c: Define compute_tzname_max statically.

1997-09-07 10:57  Thorsten Kukuk  <kukuk@vt.uni-paderborn.de>

	* nis/nis_call.c: Remove not longer necessary HAVE_SECURE_RPC ifdefs.
	* nis/nis_intern.h: Likewise.
	* nis/nss_nis/nis-publickey.c: Likewise.
	* nis/nss_nisplus/nisplus-publickey.c: Likewise.
	* nis/ypclnt.c: Likewise.

	* sunrpc/auth_des.c: Don't dereference NULL pointer,
	initialize ad->ad_timediff.

	* sunrpc/auth_none.c: Don't define our own prototypes, use the one
	from the header files.
	* sunrpc/auth_unix.c: Likewise.
	* sunrpc/clnt_raw.c: Likewise.
	* sunrpc/clnt_tcp.c: Likewise.
	* sunrpc/rpc_cmsg.c: Likewise.

	* sunrpc/key_call.c: Fix signal handling.

	* sunrpc/openchild.c: Don't use /bin/sh to start /usr/etc/keyenvoy,
	or we will get a deadlock with NIS+.

	* sunrpc/rpc/auth.h: Add prototype for xdr_opaque_auth, don't define
	HAVE_SECURE_RPC.

1997-09-07 15:51  Ulrich Drepper  <drepper@cygnus.com>

	* sysdeps/i386/bits/select.h [__GNUC__] (__FD_ZERO, __FD_SET, __FD_CLR,
	__FD_ISSET): Use correct casts to address array correctly.
	Reported by urbanw@cs.umu.se.

1997-09-07 05:07  Ulrich Drepper  <drepper@cygnus.com>

	* elf/dl-close.c: Include <bits/libc-lock.h>, not <libc-lock.h>.
	* elf/dl-open.c: Likewise.
	* sysdeps/i386/memset.c: Undefine memset in case the header with the
	optimized functions is included.
	Patches by NIIBE Yutaka <gniibe@mri.co.jp>.

	* sysdeps/i386/bits/string.h [__PIC__] (strcspn, strspn, strpbrk,
	strsep): Use register for second parameter.
	* sysdeps/i386/i486/bits/string.h: Likewise.
	Reported by NIIBE Yutaka <gniibe@mri.co.jp>.

1997-09-03 09:48  Geoff Keating  <geoffk@ozemail.com.au>

	* math/libm-test.c: Change various tolerances to match what the
	tested routines can actually provide.

	* math/Makefile: Add new tests.
	* math/atest-sincos.c: New file.
	* math/atest-exp.c: New file.

	* csu/Makefile: Give initfini.s and initfiniS.s their own
	CFLAGS-* macros so they can be overridden.
	* sysdeps/powerpc/Makefile [subdir=csu]: Override flags for
	initfiniS.s to use -fpic instead of -fPIC, because the sed script
	breaks otherwise.

	* sysdeps/powerpc/Makefile [build-shared]: Use -fpic not -fPIC for
	efficiency.

	* sysdeps/powerpc/dl-machine.h (ELF_MACHINE_RUNTIME_TRAMPOLINE):
	Don't use register 0, to let _mcount be in a shared object.

	* sysdeps/powerpc/dl-machine.h: Use full sentences in comments.
	Generally clean up.  Suppress some code we don't need when relocating
	ld.so.
	* sysdeps/powerpc/test-arith.c: Change loop indices to size_t when
	appropriate to suppress gcc warning.
	* resolv/res_send.c: Suppress warning.
	* sunrpc/xdr_sizeof.c: Suppress warning.

	* FAQ: Add ppc-linux.
	* manual/maint.texi: Add ppc-linux.  Explain that gcc can't build it
	yet.

	* sysdeps/unix/sysv/linux/powerpc/profil-counter.h: Correct for
	current kernels.

1997-08-15 07:45  Geoff Keating  <geoffk@ozemail.com.au>

	* stdlib/fmtmsg.c: Use two parameters for __libc_once_define.
	* sysdeps/i386/machine-gmon.h: Correct typo.

	* sysdeps/unix/sysv/linux/powerpc/bits/mman.h: Change to match
	kernel.

	* sysdeps/generic/dl-sysdep.c: Add hook for bizzare PPC argument hack.
	* sysdeps/unix/sysv/linux/powerpc/dl-sysdep.c: Rewrite to use
	sysdeps/linux/dl-sysdep.c.

	* sysdeps/powerpc/Makefile [subdir=gmon]: Compile ppc-mcount.
	* sysdeps/powerpc/machine-gmon.h: Use ppc-mcount.
	* sysdeps/powerpc/ppc-mcount: New file.

	The following are mostly changes to allow profiling:
	* sysdeps/powerpc/add_n.S: Added.
	* sysdeps/powerpc/add_n.s: Removed.
	* sysdeps/powerpc/addmul_1.S: Added.
	* sysdeps/powerpc/addmul_1.s: Removed.
	* sysdeps/powerpc/bsd-_setjmp.S: Use JUMPTARGET macro.
	* sysdeps/powerpc/bsd-setjmp.S: Use JUMPTARGET macro.
	* sysdeps/powerpc/lshift.S: Added.
	* sysdeps/powerpc/lshift.s: Removed.
	* sysdeps/powerpc/memset.S: Added.
	* sysdeps/powerpc/memset.s: Removed.
	* sysdeps/powerpc/mul_1.S: Added.
	* sysdeps/powerpc/mul_1.s: Removed.
	* sysdeps/powerpc/rshift.S: Added.
	* sysdeps/powerpc/rshift.s: Removed.
	* sysdeps/powerpc/s_copysign.S: Use ENTRY, END, weak_alias macros.
	* sysdeps/powerpc/s_fabs.S: Use ENTRY, END, weak_alias macros.
	* sysdeps/powerpc/setjmp.S: Use JUMPTARGET macro.
	* sysdeps/powerpc/strchr.S: Added.
	* sysdeps/powerpc/strchr.s: Removed.
	* sysdeps/powerpc/strcmp.S: Added.
	* sysdeps/powerpc/strcmp.s: Removed.
	* sysdeps/powerpc/strlen.S: Added.
	* sysdeps/powerpc/strlen.s: Removed.
	* sysdeps/powerpc/sub_n.S: Added.
	* sysdeps/powerpc/sub_n.s: Removed.
	* sysdeps/powerpc/submul_1.S: Added.
	* sysdeps/powerpc/submul_1.s: Removed.
	* sysdeps/unix/sysv/linux/powerpc/_exit.S: Removed.
	* sysdeps/unix/sysv/linux/powerpc/brk.S: Added.
	* sysdeps/unix/sysv/linux/powerpc/brk.c: Removed.
	* sysdeps/unix/sysv/linux/powerpc/clone.S: Use new macros. Fix
	various bugs. Document that it isn't tested.
	* sysdeps/unix/sysv/linux/powerpc/sigreturn.S: Make look like
	sysdeps/unix/_exit.S.
	* sysdeps/unix/sysv/linux/powerpc/socket.S: Use new macros.
	* sysdeps/unix/sysv/linux/powerpc/syscall.S: Use new macros.
	* sysdeps/unix/sysv/linux/powerpc/sysdep.h: Define some new macros
	to make assembler (possibly) more portable, allow profiling, etc.
1997-09-11 12:09:10 +00:00

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/* Copyright (C) 1997 Free Software Foundation, Inc.
This file is part of the GNU C Library.
Contributed by Andreas Jaeger <aj@arthur.rhein-neckar.de>, 1997.
The GNU C Library is free software; you can redistribute it and/or
modify it under the terms of the GNU Library General Public License as
published by the Free Software Foundation; either version 2 of the
License, or (at your option) any later version.
The GNU C Library is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
Library General Public License for more details.
You should have received a copy of the GNU Library General Public
License along with the GNU C Library; see the file COPYING.LIB. If not,
write to the Free Software Foundation, Inc., 59 Temple Place - Suite 330,
Boston, MA 02111-1307, USA. */
/*
Part of testsuite for libm.
This file has to be included by a master file that defines:
Makros:
FUNC(function): converts general function name (like cos) to
name with correct suffix (e.g. cosl or cosf)
MATHCONST(x): like FUNC but for constants (e.g convert 0.0 to 0.0L)
MATHTYPE: floating point type to test
TEST_MSG: informal message to be displayed
CHOOSE(Clongdouble,Cdouble,Cfloat):
chooses one of the parameters as epsilon for testing
equality
PRINTF_EXPR Floating point conversion specification to print a variable
of type MATHTYPE with printf. PRINTF_EXPR just contains
the specifier, not the percent and width arguments,
e.g. "f"
*/
/* This program isn't finished yet.
It has tests for:
acos, acosh, asin, asinh, atan, atan2, atanh,
cbrt, ceil, copysign, cos, cosh, erf, erfc, exp, exp2, expm1,
fabs, fdim, floor, fmin, fmax, fmod, fpclassify,
frexp, gamma, hypot,
ilogb, isfinite, isinf, isnan, isnormal,
ldexp, lgamma, log, log10, log1p, log2, logb,
modf, nearbyint, nextafter,
pow, remainder, remquo, rint, lrint, llrint,
round, lround, llround,
scalb, scalbn, signbit, sin, sincos, sinh, sqrt, tan, tanh, trunc
and for the following complex math functions:
cacos, cacosh, casin, casinh, catan, catanh,
ccos, ccosh, cexp, clog, cpow, csin, csinh, csqrt, ctanh.
At the moment the following functions aren't tested:
cabs, carg, conj, cproj, cimag, creal, ctan, drem,
j0, j1, jn, y0, y1, yn,
significand,
nan, comparison macros (isless,isgreater,...).
The routines using random variables are still under construction. I don't
like it the way it's working now and will change it.
Parameter handling is primitive in the moment:
--verbose=[0..4] for different levels of output:
0: only error count
1: basic report on failed tests (default)
2: full report on failed tests
3: full report on failed and passed tests
4: additional report on exceptions
-v for full output (equals --verbose=4)
-s,--silent outputs only the error count (equals --verbose=0)
*/
/* "Philosophy":
This suite tests the correct implementation of mathematical
functions in libm. Some simple, specific parameters are tested for
correctness. Handling of specific inputs (e.g. infinity,
not-a-number) is also tested. Correct handling of exceptions is
checked against. These implemented tests should check all cases
that are specified in ISO C 9X.
Exception testing: At the moment only divide-by-zero and invalid
exceptions are tested. Overflow/underflow and inexact exceptions
aren't checked at the moment.
NaN values: There exist signalling and quiet NaNs. This implementation
only uses signalling NaN as parameter but does not differenciate
between the two kinds of NaNs as result.
Inline functions: Inlining functions should give an improvement in
speed - but not in precission. The inlined functions return
reasonable values for a reasonable range of input values. The
result is not necessarily correct for all values and exceptions are
not correctly raised in all cases. Problematic input and return
values are infinity, not-a-number and minus zero. This suite
therefore does not check these specific inputs and the exception
handling for inlined mathematical functions - just the "reasonable"
values are checked.
Beware: The tests might fail for any of the following reasons:
- Tests are wrong
- Functions are wrong
- Floating Point Unit not working properly
- Compiler has errors
With e.g. gcc 2.7.2.2 the test for cexp fails because of a compiler error.
*/
#ifndef _GNU_SOURCE
# define _GNU_SOURCE
#endif
#include <complex.h>
#include <math.h>
#include <float.h>
#include <fenv.h>
#include <errno.h>
#include <stdlib.h>
#include <stdio.h>
#include <getopt.h>
/* Possible exceptions */
#define NO_EXCEPTION 0x0
#define INVALID_EXCEPTION 0x1
#define DIVIDE_BY_ZERO_EXCEPTION 0x2
#define PRINT 1
#define NO_PRINT 0
/* Various constants (we must supply them precalculated for accuracy). */
#define M_PI_6 .52359877559829887308L
static int noErrors;
static int verbose = 3;
static MATHTYPE minus_zero, plus_zero;
static MATHTYPE plus_infty, minus_infty, nan_value;
typedef MATHTYPE (*mathfunc) (MATHTYPE);
#define BUILD_COMPLEX(real, imag) \
({ __complex__ MATHTYPE __retval; \
__real__ __retval = (real); \
__imag__ __retval = (imag); \
__retval; })
#define ISINF(x) \
(sizeof (x) == sizeof (float) ? \
isinff (x) \
: sizeof (x) == sizeof (double) ? \
isinf (x) : isinfl (x))
/*
Test if Floating-Point stack hasn't changed
*/
static void
fpstack_test (const char *test_name)
{
#ifdef i386
static int old_stack;
int sw;
asm ("fnstsw":"=a" (sw));
sw >>= 11;
sw &= 7;
if (sw != old_stack)
{
printf ("FP-Stack wrong after test %s\n", test_name);
if (verbose > 2)
printf ("=======> stack = %d\n", sw);
++noErrors;
old_stack = sw;
}
#endif
}
/*
Get a random value x with min_value < x < max_value
and min_value, max_value finite,
max_value and min_value shouldn't be too close together
*/
static MATHTYPE
random_value (MATHTYPE min_value, MATHTYPE max_value)
{
int r;
MATHTYPE x;
r = rand ();
x = (max_value - min_value) / RAND_MAX * (MATHTYPE) r + min_value;
if ((x <= min_value) || (x >= max_value) || !isfinite (x))
x = (max_value - min_value) / 2 + min_value;
/* Make sure the RNG has no influence on the exceptions. */
feclearexcept (FE_ALL_EXCEPT);
return x;
}
/* Get a random value x with x > min_value. */
static MATHTYPE
random_greater (MATHTYPE min_value)
{
return random_value (min_value, 1e6); /* CHOOSE (LDBL_MAX, DBL_MAX, FLT_MAX) */
}
/* Get a random value x with x < max_value. */
static MATHTYPE
random_less (MATHTYPE max_value)
{
return random_value (-1e6, max_value);
}
static void
output_new_test (const char *test_name)
{
if (verbose > 2)
printf ("\nTesting: %s\n", test_name);
}
static void
output_pass_value (void)
{
if (verbose > 2)
printf ("Pass: Value Ok.\n");
}
static void
output_fail_value (const char * test_name)
{
if (verbose > 0 && verbose < 3)
printf ("Fail: %s\n", test_name);
if (verbose >= 3)
printf ("Fail:\n");
}
/* Test whether a given exception was raised. */
static void
test_single_exception (const char *test_name,
short int exception,
short int exc_flag,
int fe_flag,
const char *flag_name)
{
#ifndef TEST_INLINE
if (exception & exc_flag)
{
if (fetestexcept (fe_flag))
{
if (verbose > 3)
printf ("Pass: Exception \"%s\" set\n", flag_name);
}
else
{
if (verbose && verbose < 3)
printf ("Fail: %s: Exception \"%s\" not set\n",
test_name, flag_name);
if (verbose >= 3)
printf ("Fail: Exception \"%s\" not set\n",
flag_name);
++noErrors;
}
}
else
{
if (fetestexcept (fe_flag))
{
if (verbose && verbose < 3)
printf ("Fail: %s: Exception \"%s\" set\n",
test_name, flag_name);
if (verbose >= 3)
printf ("Fail: Exception \"%s\" set\n",
flag_name);
++noErrors;
}
else
{
if (verbose > 3)
printf ("Pass: Exception \"%s\" not set\n",
flag_name);
}
}
#endif
}
/* Test whether exception given by EXCEPTION are raised. */
static void
test_not_exception (const char *test_name, short int exception)
{
#ifdef FE_DIVBYZERO
if ((exception & DIVIDE_BY_ZERO_EXCEPTION) == 0)
test_single_exception (test_name, exception,
DIVIDE_BY_ZERO_EXCEPTION, FE_DIVBYZERO,
"Divide by zero");
#endif
#ifdef FE_INVALID
if ((exception & INVALID_EXCEPTION) == 0)
test_single_exception (test_name, exception, INVALID_EXCEPTION, FE_INVALID,
"Invalid operation");
#endif
feclearexcept (FE_ALL_EXCEPT);
}
/* Test whether exceptions given by EXCEPTION are raised. */
static void
test_exceptions (const char *test_name, short int exception)
{
#ifdef FE_DIVBYZERO
test_single_exception (test_name, exception,
DIVIDE_BY_ZERO_EXCEPTION, FE_DIVBYZERO,
"Divide by zero");
#endif
#ifdef FE_INVALID
test_single_exception (test_name, exception, INVALID_EXCEPTION, FE_INVALID,
"Invalid operation");
#endif
feclearexcept (FE_ALL_EXCEPT);
}
/* Test if two floating point numbers are equal. */
static int
check_equal (MATHTYPE computed, MATHTYPE supplied, MATHTYPE eps, MATHTYPE * diff)
{
int ret_value;
/* Both plus Infinity or both minus infinity. */
if (ISINF (computed) && (ISINF (computed) == ISINF (supplied)))
return 1;
if (isnan (computed) && isnan (supplied)) /* isnan works for all types */
return 1;
*diff = FUNC(fabs) (computed - supplied);
ret_value = (*diff <= eps &&
(signbit (computed) == signbit (supplied) || eps != 0.0));
/* Make sure the subtraction/comparsion have no influence on the exceptions. */
feclearexcept (FE_ALL_EXCEPT);
return ret_value;
}
static void
output_result_bool (const char *test_name, int result)
{
if (result)
{
output_pass_value ();
}
else
{
output_fail_value (test_name);
if (verbose > 1)
printf (" Value: %d\n", result);
++noErrors;
}
fpstack_test (test_name);
}
static void
output_isvalue (const char *test_name, int result,
MATHTYPE value)
{
if (result)
{
output_pass_value ();
}
else
{
output_fail_value (test_name);
if (verbose > 1)
printf (" Value: %.20" PRINTF_EXPR "\n", value);
noErrors++;
}
fpstack_test (test_name);
}
static void
output_isvalue_ext (const char *test_name, int result,
MATHTYPE value, MATHTYPE parameter)
{
if (result)
{
output_pass_value ();
}
else
{
output_fail_value (test_name);
if (verbose > 1)
{
printf (" Value: %.20" PRINTF_EXPR "\n", value);
printf (" Parameter: %.20" PRINTF_EXPR "\n", parameter);
}
noErrors++;
}
fpstack_test (test_name);
}
static void
output_result (const char *test_name, int result,
MATHTYPE computed, MATHTYPE expected,
MATHTYPE difference,
int print_values, int print_diff)
{
if (result)
{
output_pass_value ();
}
else
{
output_fail_value (test_name);
if (verbose > 1 && print_values)
{
printf ("Result:\n");
printf (" is: %.20" PRINTF_EXPR "\n", computed);
printf (" should be: %.20" PRINTF_EXPR "\n", expected);
if (print_diff)
printf (" difference: %.20" PRINTF_EXPR "\n", difference);
}
noErrors++;
}
fpstack_test (test_name);
}
static void
output_result_ext (const char *test_name, int result,
MATHTYPE computed, MATHTYPE expected,
MATHTYPE difference,
MATHTYPE parameter,
int print_values, int print_diff)
{
if (result)
{
output_pass_value ();
}
else
{
output_fail_value (test_name);
if (verbose > 1 && print_values)
{
printf ("Result:\n");
printf (" is: %.20" PRINTF_EXPR "\n", computed);
printf (" should be: %.20" PRINTF_EXPR "\n", expected);
if (print_diff)
printf (" difference: %.20" PRINTF_EXPR "\n", difference);
printf ("Parameter: %.20" PRINTF_EXPR "\n", parameter);
}
noErrors++;
}
fpstack_test (test_name);
}
/*
check that computed and expected values are the same
*/
static void
check (const char *test_name, MATHTYPE computed, MATHTYPE expected)
{
MATHTYPE diff;
int result;
output_new_test (test_name);
test_exceptions (test_name, NO_EXCEPTION);
result = check_equal (computed, expected, 0, &diff);
output_result (test_name, result,
computed, expected, diff, PRINT, PRINT);
}
/*
check that computed and expected values are the same,
outputs the parameter to the function
*/
static void
check_ext (const char *test_name, MATHTYPE computed, MATHTYPE expected,
MATHTYPE parameter)
{
MATHTYPE diff;
int result;
output_new_test (test_name);
test_exceptions (test_name, NO_EXCEPTION);
result = check_equal (computed, expected, 0, &diff);
output_result_ext (test_name, result,
computed, expected, diff, parameter, PRINT, PRINT);
}
/*
check that computed and expected values are the same and
checks also for exception flags
*/
static void
check_exc (const char *test_name, MATHTYPE computed, MATHTYPE expected,
short exception)
{
MATHTYPE diff;
int result;
output_new_test (test_name);
test_exceptions (test_name, exception);
result = check_equal (computed, expected, 0, &diff);
output_result (test_name, result,
computed, expected, diff, PRINT, PRINT);
}
/*
check that computed and expected values are close enough
*/
static void
check_eps (const char *test_name, MATHTYPE computed, MATHTYPE expected,
MATHTYPE epsilon)
{
MATHTYPE diff;
int result;
output_new_test (test_name);
test_exceptions (test_name, NO_EXCEPTION);
result = check_equal (computed, expected, epsilon, &diff);
output_result (test_name, result,
computed, expected, diff, PRINT, PRINT);
}
/*
check a boolean condition
*/
static void
check_bool (const char *test_name, int computed)
{
output_new_test (test_name);
test_exceptions (test_name, NO_EXCEPTION);
output_result_bool (test_name, computed);
}
/*
check that computed and expected values are equal (int values)
*/
static void
check_int (const char *test_name, int computed, int expected)
{
int diff = computed - expected;
int result = diff == 0;
output_new_test (test_name);
test_exceptions (test_name, NO_EXCEPTION);
if (result)
{
output_pass_value ();
}
else
{
output_fail_value (test_name);
if (verbose > 1)
{
printf ("Result:\n");
printf (" is: %d\n", computed);
printf (" should be: %d\n", expected);
}
noErrors++;
}
fpstack_test (test_name);
}
/*
check that computed and expected values are equal (long int values)
*/
static void
check_long (const char *test_name, long int computed, long int expected)
{
long int diff = computed - expected;
int result = diff == 0;
output_new_test (test_name);
test_exceptions (test_name, NO_EXCEPTION);
if (result)
{
output_pass_value ();
}
else
{
output_fail_value (test_name);
if (verbose > 1)
{
printf ("Result:\n");
printf (" is: %ld\n", computed);
printf (" should be: %ld\n", expected);
}
noErrors++;
}
fpstack_test (test_name);
}
/*
check that computed and expected values are equal (long long int values)
*/
static void
check_longlong (const char *test_name, long long int computed,
long long int expected)
{
long long int diff = computed - expected;
int result = diff == 0;
output_new_test (test_name);
test_exceptions (test_name, NO_EXCEPTION);
if (result)
{
output_pass_value ();
}
else
{
output_fail_value (test_name);
if (verbose > 1)
{
printf ("Result:\n");
printf (" is: %lld\n", computed);
printf (" should be: %lld\n", expected);
}
noErrors++;
}
fpstack_test (test_name);
}
/*
check that computed value is not-a-number
*/
static void
check_isnan (const char *test_name, MATHTYPE computed)
{
output_new_test (test_name);
test_exceptions (test_name, NO_EXCEPTION);
output_isvalue (test_name, isnan (computed), computed);
}
/*
check that computed value is not-a-number and test for exceptions
*/
static void
check_isnan_exc (const char *test_name, MATHTYPE computed,
short exception)
{
output_new_test (test_name);
test_exceptions (test_name, exception);
output_isvalue (test_name, isnan (computed), computed);
}
/*
check that computed value is not-a-number and test for exceptions
*/
static void
check_isnan_maybe_exc (const char *test_name, MATHTYPE computed,
short exception)
{
output_new_test (test_name);
test_not_exception (test_name, exception);
output_isvalue (test_name, isnan (computed), computed);
}
/*
check that computed value is not-a-number and supply parameter
*/
#ifndef TEST_INLINE
static void
check_isnan_ext (const char *test_name, MATHTYPE computed,
MATHTYPE parameter)
{
output_new_test (test_name);
test_exceptions (test_name, NO_EXCEPTION);
output_isvalue_ext (test_name, isnan (computed), computed, parameter);
}
#endif
/*
check that computed value is not-a-number, test for exceptions
and supply parameter
*/
static void
check_isnan_exc_ext (const char *test_name, MATHTYPE computed,
short exception, MATHTYPE parameter)
{
output_new_test (test_name);
test_exceptions (test_name,exception);
output_isvalue_ext (test_name, isnan (computed), computed, parameter);
}
/* Tests if computed is +Inf */
static void
check_isinfp (const char *test_name, MATHTYPE computed)
{
output_new_test (test_name);
test_exceptions (test_name, NO_EXCEPTION);
output_isvalue (test_name, (ISINF (computed) == +1), computed);
}
static void
check_isinfp_ext (const char *test_name, MATHTYPE computed,
MATHTYPE parameter)
{
output_new_test (test_name);
test_exceptions (test_name, NO_EXCEPTION);
output_isvalue_ext (test_name, (ISINF (computed) == +1), computed, parameter);
}
/* Tests if computed is +Inf */
static void
check_isinfp_exc (const char *test_name, MATHTYPE computed,
int exception)
{
output_new_test (test_name);
test_exceptions (test_name, exception);
output_isvalue (test_name, (ISINF (computed) == +1), computed);
}
/* Tests if computed is -Inf */
static void
check_isinfn (const char *test_name, MATHTYPE computed)
{
output_new_test (test_name);
test_exceptions (test_name, NO_EXCEPTION);
output_isvalue (test_name, (ISINF (computed) == -1), computed);
}
#ifndef TEST_INLINE
static void
check_isinfn_ext (const char *test_name, MATHTYPE computed,
MATHTYPE parameter)
{
output_new_test (test_name);
test_exceptions (test_name, NO_EXCEPTION);
output_isvalue_ext (test_name, (ISINF (computed) == -1), computed, parameter);
}
#endif
/* Tests if computed is -Inf */
static void
check_isinfn_exc (const char *test_name, MATHTYPE computed,
int exception)
{
output_new_test (test_name);
test_exceptions (test_name, exception);
output_isvalue (test_name, (ISINF (computed) == -1), computed);
}
/* This is to prevent messages from the SVID libm emulation. */
int
matherr (struct exception *x __attribute__ ((unused)))
{
return 1;
}
/****************************************************************************
Test for single functions of libm
****************************************************************************/
static void
acos_test (void)
{
#ifndef TEST_INLINE
MATHTYPE x;
x = random_greater (1);
check_isnan_exc ("acos (x) == NaN plus invalid exception for |x| > 1",
FUNC(acos) (x),
INVALID_EXCEPTION);
x = random_less (1);
check_isnan_exc ("acos (x) == NaN plus invalid exception for |x| > 1",
FUNC(acos) (x),
INVALID_EXCEPTION);
#endif
check ("acos (1) == 0", FUNC(acos) (1), 0);
check ("acos (-1) == pi", FUNC(acos) (-1), M_PI);
}
static void
acosh_test (void)
{
#ifndef TEST_INLINE
MATHTYPE x;
check_isinfp ("acosh(+inf) == +inf", FUNC(acosh) (plus_infty));
x = random_less (1);
check_isnan_exc ("acosh(x) == NaN plus invalid exception if x < 1",
FUNC(acosh) (x), INVALID_EXCEPTION);
#endif
check ("acosh(1) == 0", FUNC(acosh) (1), 0);
}
static void
asin_test (void)
{
#ifndef TEST_INLINE
MATHTYPE x;
x = random_greater (1);
check_isnan_exc ("asin x == NaN plus invalid exception for |x| > 1",
FUNC(asin) (x),
INVALID_EXCEPTION);
x = random_less (1);
check_isnan_exc ("asin x == NaN plus invalid exception for |x| > 1",
FUNC(asin) (x),
INVALID_EXCEPTION);
#endif
check ("asin (0) == 0", FUNC(asin) (0), 0);
}
static void
asinh_test (void)
{
check ("asinh(+0) == +0", FUNC(asinh) (0), 0);
#ifndef TEST_INLINE
check ("asinh(-0) == -0", FUNC(asinh) (minus_zero), minus_zero);
check_isinfp ("asinh(+inf) == +inf", FUNC(asinh) (plus_infty));
check_isinfn ("asinh(-inf) == -inf", FUNC(asinh) (minus_infty));
#endif
}
static void
atan_test (void)
{
check ("atan (0) == 0", FUNC(atan) (0), 0);
check ("atan (-0) == -0", FUNC(atan) (minus_zero), minus_zero);
check ("atan (+inf) == pi/2", FUNC(atan) (plus_infty), M_PI_2);
check ("atan (-inf) == -pi/2", FUNC(atan) (minus_infty), -M_PI_2);
}
static void
atan2_test (void)
{
MATHTYPE x;
x = random_greater (0);
check ("atan2 (0,x) == 0 for x > 0",
FUNC(atan2) (0, x), 0);
x = random_greater (0);
check ("atan2 (-0,x) == -0 for x > 0",
FUNC(atan2) (minus_zero, x), minus_zero);
check ("atan2 (+0,+0) == +0", FUNC(atan2) (0, 0), 0);
check ("atan2 (-0,+0) == -0", FUNC(atan2) (minus_zero, 0), minus_zero);
x = -random_greater (0);
check ("atan2 (+0,x) == +pi for x < 0", FUNC(atan2) (0, x), M_PI);
x = -random_greater (0);
check ("atan2 (-0,x) == -pi for x < 0", FUNC(atan2) (minus_zero, x), -M_PI);
check ("atan2 (+0,-0) == +pi", FUNC(atan2) (0, minus_zero), M_PI);
check ("atan2 (-0,-0) == -pi", FUNC(atan2) (minus_zero, minus_zero), -M_PI);
x = random_greater (0);
check ("atan2 (y,+0) == pi/2 for y > 0", FUNC(atan2) (x, 0), M_PI_2);
x = random_greater (0);
check ("atan2 (y,-0) == pi/2 for y > 0", FUNC(atan2) (x, minus_zero), M_PI_2);
x = random_less (0);
check ("atan2 (y,+0) == -pi/2 for y < 0", FUNC(atan2) (x, 0), -M_PI_2);
x = random_less (0);
check ("atan2 (y,-0) == -pi/2 for y < 0", FUNC(atan2) (x, minus_zero), -M_PI_2);
x = random_greater (0);
check ("atan2 (y,inf) == +0 for finite y > 0",
FUNC(atan2) (x, plus_infty), 0);
x = -random_greater (0);
check ("atan2 (y,inf) == -0 for finite y < 0",
FUNC(atan2) (x, plus_infty), minus_zero);
x = random_value (-1e4, 1e4);
check ("atan2(+inf, x) == pi/2 for finite x",
FUNC(atan2) (plus_infty, x), M_PI_2);
x = random_value (-1e4, 1e4);
check ("atan2(-inf, x) == -pi/2 for finite x",
FUNC(atan2) (minus_infty, x), -M_PI_2);
x = random_greater (0);
check ("atan2 (y,-inf) == +pi for finite y > 0",
FUNC(atan2) (x, minus_infty), M_PI);
x = -random_greater (0);
check ("atan2 (y,-inf) == -pi for finite y < 0",
FUNC(atan2) (x, minus_infty), -M_PI);
check ("atan2 (+inf,+inf) == +pi/4",
FUNC(atan2) (plus_infty, plus_infty), M_PI_4);
check ("atan2 (-inf,+inf) == -pi/4",
FUNC(atan2) (minus_infty, plus_infty), -M_PI_4);
check ("atan2 (+inf,-inf) == +3*pi/4",
FUNC(atan2) (plus_infty, minus_infty), 3 * M_PI_4);
check ("atan2 (-inf,-inf) == -3*pi/4",
FUNC(atan2) (minus_infty, minus_infty), -3 * M_PI_4);
/* FIXME: Add some specific tests */
}
static void
atanh_test (void)
{
#ifndef TEST_INLINE
MATHTYPE x;
#endif
check ("atanh(+0) == +0", FUNC(atanh) (0), 0);
#ifndef TEST_INLINE
check ("atanh(-0) == -0", FUNC(atanh) (minus_zero), minus_zero);
check_isinfp_exc ("atanh(+1) == +inf plus divide-by-zero exception",
FUNC(atanh) (1), DIVIDE_BY_ZERO_EXCEPTION);
check_isinfn_exc ("atanh(-1) == -inf plus divide-by-zero exception",
FUNC(atanh) (-1), DIVIDE_BY_ZERO_EXCEPTION);
x = random_greater (1.0);
check_isnan_exc_ext ("atanh (x) == NaN plus invalid exception if |x| > 1",
FUNC(atanh) (x), INVALID_EXCEPTION, x);
x = random_less (1.0);
check_isnan_exc_ext ("atanh (x) == NaN plus invalid exception if |x| > 1",
FUNC(atanh) (x), INVALID_EXCEPTION, x);
#endif
}
static void
cbrt_test (void)
{
check ("cbrt (+0) == +0", FUNC(cbrt) (0.0), 0.0);
check ("cbrt (-0) == -0", FUNC(cbrt) (minus_zero), minus_zero);
#ifndef TEST_INLINE
check_isinfp ("cbrt (+inf) == +inf", FUNC(cbrt) (plus_infty));
check_isinfn ("cbrt (-inf) == -inf", FUNC(cbrt) (minus_infty));
check_isnan ("cbrt (NaN) == NaN", FUNC(cbrt) (nan_value));
#endif
check_eps ("cbrt (-0.001) == -0.1", FUNC(cbrt) (-0.001), -0.1,
CHOOSE (5e-18L, 0, 0));
check_eps ("cbrt (8) == 2", FUNC(cbrt) (8), 2, CHOOSE (5e-17L, 0, 0));
check_eps ("cbrt (-27) == -3", FUNC(cbrt) (-27.0), -3.0,
CHOOSE (3e-16L, 5e-16, 0));
}
static void
ceil_test (void)
{
check ("ceil (+0) == +0", FUNC(ceil) (0.0), 0.0);
check ("ceil (-0) == -0", FUNC(ceil) (minus_zero), minus_zero);
check_isinfp ("ceil (+inf) == +inf", FUNC(ceil) (plus_infty));
check_isinfn ("ceil (-inf) == -inf", FUNC(ceil) (minus_infty));
check ("ceil (pi) == 4", FUNC(ceil) (M_PI), 4.0);
check ("ceil (-pi) == -3", FUNC(ceil) (-M_PI), -3.0);
}
static void
cos_test (void)
{
check ("cos (+0) == 1", FUNC(cos) (0), 1);
check ("cos (-0) == 1", FUNC(cos) (minus_zero), 1);
check_isnan_exc ("cos (+inf) == NaN plus invalid exception",
FUNC(cos) (plus_infty),
INVALID_EXCEPTION);
check_isnan_exc ("cos (-inf) == NaN plus invalid exception",
FUNC(cos) (minus_infty),
INVALID_EXCEPTION);
check_eps ("cos (pi/3) == 0.5", FUNC(cos) (M_PI_6 * 2.0),
0.5, CHOOSE (4e-18L, 1e-15L, 1e-7L));
check_eps ("cos (pi/2) == 0", FUNC(cos) (M_PI_2),
0, CHOOSE (1e-19L, 1e-16L, 1e-7L));
}
static void
cosh_test (void)
{
check ("cosh (+0) == 1", FUNC(cosh) (0), 1);
check ("cosh (-0) == 1", FUNC(cosh) (minus_zero), 1);
#ifndef TEST_INLINE
check_isinfp ("cosh (+inf) == +inf", FUNC(cosh) (plus_infty));
check_isinfp ("cosh (-inf) == +inf", FUNC(cosh) (minus_infty));
#endif
}
static void
erf_test (void)
{
errno = 0;
FUNC(erf) (0);
if (errno == ENOSYS)
/* Function not implemented. */
return;
check ("erf (+0) == +0", FUNC(erf) (0), 0);
check ("erf (-0) == -0", FUNC(erf) (minus_zero), minus_zero);
check ("erf (+inf) == +1", FUNC(erf) (plus_infty), 1);
check ("erf (-inf) == -1", FUNC(erf) (minus_infty), -1);
}
static void
erfc_test (void)
{
errno = 0;
FUNC(erfc) (0);
if (errno == ENOSYS)
/* Function not implemented. */
return;
check ("erfc (+inf) == 0", FUNC(erfc) (plus_infty), 0.0);
check ("erfc (-inf) == 2", FUNC(erfc) (minus_infty), 2.0);
check ("erfc (+0) == 1", FUNC(erfc) (0.0), 1.0);
check ("erfc (-0) == 1", FUNC(erfc) (minus_zero), 1.0);
}
static void
exp_test (void)
{
check ("exp (+0) == 1", FUNC(exp) (0), 1);
check ("exp (-0) == 1", FUNC(exp) (minus_zero), 1);
#ifndef TEST_INLINE
check_isinfp ("exp (+inf) == +inf", FUNC(exp) (plus_infty));
check ("exp (-inf) == 0", FUNC(exp) (minus_infty), 0);
#endif
check_eps ("exp (1) == e", FUNC(exp) (1), M_E, CHOOSE (4e-18L, 5e-16, 0));
}
static void
exp2_test (void)
{
errno = 0;
FUNC(exp2) (0);
if (errno == ENOSYS)
/* Function not implemented. */
return;
check ("exp2 (+0) == 1", FUNC(exp2) (0), 1);
check ("exp2 (-0) == 1", FUNC(exp2) (minus_zero), 1);
check_isinfp ("exp2 (+inf) == +inf", FUNC(exp2) (plus_infty));
check ("exp2 (-inf) == 0", FUNC(exp2) (minus_infty), 0);
check ("exp2 (10) == 1024", FUNC(exp2) (10), 1024);
}
static void
expm1_test (void)
{
check ("expm1 (+0) == 0", FUNC(expm1) (0), 0);
#ifndef TEST_INLINE
check ("expm1 (-0) == -0", FUNC(expm1) (minus_zero), minus_zero);
check_isinfp ("expm1 (+inf) == +inf", FUNC(expm1) (plus_infty));
check ("expm1 (-inf) == -1", FUNC(expm1) (minus_infty), -1);
#endif
check_eps ("expm1 (1) == e-1", FUNC(expm1) (1), M_E - 1.0,
CHOOSE (4e-18L, 0, 2e-7));
}
static void
check_frexp (const char *test_name, MATHTYPE computed, MATHTYPE expected,
int comp_int, int exp_int)
{
MATHTYPE diff;
int result;
result = (check_equal (computed, expected, 0, &diff)
&& (comp_int == exp_int));
if (result)
{
if (verbose > 2)
printf ("Pass: %s\n", test_name);
}
else
{
if (verbose)
printf ("Fail: %s\n", test_name);
if (verbose > 1)
{
printf ("Result:\n");
printf (" is: %.20" PRINTF_EXPR " *2^%d\n", computed, comp_int);
printf (" should be: %.20" PRINTF_EXPR " *2^%d\n", expected, exp_int);
printf (" difference: %.20" PRINTF_EXPR "\n", diff);
}
noErrors++;
}
fpstack_test (test_name);
output_result (test_name, result,
computed, expected, diff, PRINT, PRINT);
}
static void
frexp_test (void)
{
int x_int;
MATHTYPE result;
result = FUNC(frexp) (plus_infty, &x_int);
check_isinfp ("frexp (+inf, expr) == +inf", result);
result = FUNC(frexp) (minus_infty, &x_int);
check_isinfn ("frexp (-inf, expr) == -inf", result);
result = FUNC(frexp) (nan_value, &x_int);
check_isnan ("frexp (Nan, expr) == NaN", result);
result = FUNC(frexp) (0, &x_int);
check_frexp ("frexp: +0 == 0 * 2^0", result, 0, x_int, 0);
result = FUNC(frexp) (minus_zero, &x_int);
check_frexp ("frexp: -0 == -0 * 2^0", result, minus_zero, x_int, 0);
result = FUNC(frexp) (12.8L, &x_int);
check_frexp ("frexp: 12.8 == 0.8 * 2^4", result, 0.8L, x_int, 4);
result = FUNC(frexp) (-27.34L, &x_int);
check_frexp ("frexp: -27.34 == -0.854375 * 2^5", result, -0.854375L, x_int, 5);
}
#if __GLIBC__ < 2 || (__GLIBC__ == 2 && __GLIBC_MINOR__ < 1)
/* All floating-point numbers can be put in one of these categories. */
enum
{
FP_NAN,
#define FP_NAN FP_NAN
FP_INFINITE,
#define FP_INFINITE FP_INFINITE
FP_ZERO,
#define FP_ZERO FP_ZERO
FP_SUBNORMAL,
#define FP_SUBNORMAL FP_SUBNORMAL
FP_NORMAL
#define FP_NORMAL FP_NORMAL
};
#endif
static void
fpclassify_test (void)
{
MATHTYPE x;
/* fpclassify is a macro, don't give it constants as parameter */
check_bool ("fpclassify (NaN) == FP_NAN", fpclassify (nan_value) == FP_NAN);
check_bool ("fpclassify (+inf) == FP_INFINITE",
fpclassify (plus_infty) == FP_INFINITE);
check_bool ("fpclassify (-inf) == FP_INFINITE",
fpclassify (minus_infty) == FP_INFINITE);
check_bool ("fpclassify (+0) == FP_ZERO",
fpclassify (plus_zero) == FP_ZERO);
check_bool ("fpclassify (-0) == FP_ZERO",
fpclassify (minus_zero) == FP_ZERO);
x = 1000.0;
check_bool ("fpclassify (1000) == FP_NORMAL",
fpclassify (x) == FP_NORMAL);
}
static void
isfinite_test (void)
{
check_bool ("isfinite (0) != 0", isfinite (0));
check_bool ("isfinite (-0) != 0", isfinite (minus_zero));
check_bool ("isfinite (10) != 0", isfinite (10));
check_bool ("isfinite (+inf) == 0", isfinite (plus_infty) == 0);
check_bool ("isfinite (-inf) == 0", isfinite (minus_infty) == 0);
check_bool ("isfinite (NaN) == 0", isfinite (nan_value) == 0);
}
static void
isnormal_test (void)
{
check_bool ("isnormal (0) == 0", isnormal (0) == 0);
check_bool ("isnormal (-0) == 0", isnormal (minus_zero) == 0);
check_bool ("isnormal (10) != 0", isnormal (10));
check_bool ("isnormal (+inf) == 0", isnormal (plus_infty) == 0);
check_bool ("isnormal (-inf) == 0", isnormal (minus_infty) == 0);
check_bool ("isnormal (NaN) == 0", isnormal (nan_value) == 0);
}
static void
signbit_test (void)
{
MATHTYPE x;
check_bool ("signbit (+0) == 0", signbit (0) == 0);
check_bool ("signbit (-0) != 0", signbit (minus_zero));
check_bool ("signbit (+inf) == 0", signbit (plus_infty) == 0);
check_bool ("signbit (-inf) != 0", signbit (minus_infty));
x = random_less (0);
check_bool ("signbit (x) != 0 for x < 0", signbit (x));
x = random_greater (0);
check_bool ("signbit (x) == 0 for x > 0", signbit (x) == 0);
}
/*
gamma has different semantics depending on _LIB_VERSION:
if _LIB_VERSION is _SVID, gamma is just an alias for lgamma,
otherwise gamma is the real gamma function as definied in ISO C 9X.
*/
static void
gamma_test (void)
{
int save_lib_version = _LIB_VERSION;
errno = 0;
FUNC(gamma) (1);
if (errno == ENOSYS)
/* Function not implemented. */
return;
feclearexcept (FE_ALL_EXCEPT);
_LIB_VERSION = _SVID_;
check_isinfp ("gamma (+inf) == +inf", FUNC(gamma) (plus_infty));
check_isinfp_exc ("gamma (0) == +inf plus divide by zero exception",
FUNC(gamma) (0), DIVIDE_BY_ZERO_EXCEPTION);
check_isinfp_exc ("gamma (x) == +inf plus divide by zero exception for integer x <= 0",
FUNC(gamma) (-3), DIVIDE_BY_ZERO_EXCEPTION);
check_isnan_exc ("gamma (-inf) == NaN plus invalid exception",
FUNC(gamma) (minus_infty), INVALID_EXCEPTION);
signgam = 0;
check ("gamma (1) == 0", FUNC(gamma) (1), 0);
check_int ("gamma (0) sets signgam to 1", signgam, 1);
signgam = 0;
check ("gamma (3) == M_LN2", FUNC(gamma) (3), M_LN2);
check_int ("gamma (3) sets signgam to 1", signgam, 1);
signgam = 0;
check_eps ("gamma (0.5) == log(sqrt(pi))", FUNC(gamma) (0.5),
FUNC(log) (FUNC(sqrt) (M_PI)), CHOOSE (0, 1e-15, 1e-7));
check_int ("gamma (0.5) sets signgam to 1", signgam, 1);
signgam = 0;
check_eps ("gamma (-0.5) == log(2*sqrt(pi))", FUNC(gamma) (-0.5),
FUNC(log) (2*FUNC(sqrt) (M_PI)), CHOOSE (0, 1e-15, 0));
check_int ("gamma (-0.5) sets signgam to -1", signgam, -1);
_LIB_VERSION = _IEEE_;
check_isinfp ("gamma (+inf) == +inf", FUNC(gamma) (plus_infty));
check_isnan_exc ("gamma (0) == NaN plus invalid exception",
FUNC(gamma) (0), INVALID_EXCEPTION);
check_isnan_exc_ext ("gamma (x) == NaN plus invalid exception for integer x <= 0",
FUNC(gamma) (-2), INVALID_EXCEPTION, -2);
check_isnan_exc ("gamma (-inf) == NaN plus invalid exception",
FUNC(gamma) (minus_infty), INVALID_EXCEPTION);
check_eps ("gamma (0.5) == sqrt(pi)", FUNC(gamma) (0.5), FUNC(sqrt) (M_PI),
CHOOSE (0, 5e-16, 2e-7));
check_eps ("gamma (-0.5) == -2*sqrt(pi)", FUNC(gamma) (-0.5),
-2*FUNC(sqrt) (M_PI), CHOOSE (0, 5e-16, 3e-7));
check ("gamma (1) == 1", FUNC(gamma) (1), 1);
check ("gamma (4) == 6", FUNC(gamma) (4), 6);
_LIB_VERSION = save_lib_version;
}
static void
lgamma_test (void)
{
errno = 0;
FUNC(lgamma) (0);
if (errno == ENOSYS)
/* Function not implemented. */
return;
feclearexcept (FE_ALL_EXCEPT);
check_isinfp ("lgamma (+inf) == +inf", FUNC(lgamma) (plus_infty));
check_isinfp_exc ("lgamma (0) == +inf plus divide by zero exception",
FUNC(lgamma) (0), DIVIDE_BY_ZERO_EXCEPTION);
check_isinfp_exc ("lgamma (x) == +inf plus divide by zero exception for integer x <= 0",
FUNC(lgamma) (-3), DIVIDE_BY_ZERO_EXCEPTION);
check_isnan_exc ("lgamma (-inf) == NaN plus invalid exception",
FUNC(lgamma) (minus_infty), INVALID_EXCEPTION);
signgam = 0;
check ("lgamma (1) == 0", FUNC(lgamma) (1), 0);
check_int ("lgamma (0) sets signgam to 1", signgam, 1);
signgam = 0;
check ("lgamma (3) == M_LN2", FUNC(lgamma) (3), M_LN2);
check_int ("lgamma (3) sets signgam to 1", signgam, 1);
signgam = 0;
check_eps ("lgamma (0.5) == log(sqrt(pi))", FUNC(lgamma) (0.5),
FUNC(log) (FUNC(sqrt) (M_PI)), CHOOSE (0, 1e-15, 1e-7));
check_int ("lgamma (0.5) sets signgam to 1", signgam, 1);
signgam = 0;
check_eps ("lgamma (-0.5) == log(2*sqrt(pi))", FUNC(lgamma) (-0.5),
FUNC(log) (2*FUNC(sqrt) (M_PI)), CHOOSE (0, 1e-15, 0));
check_int ("lgamma (-0.5) sets signgam to -1", signgam, -1);
}
static void
ilogb_test (void)
{
int i;
check_int ("ilogb (1) == 0", FUNC(ilogb) (1), 0);
check_int ("ilogb (e) == 1", FUNC(ilogb) (M_E), 1);
check_int ("ilogb (1024) == 10", FUNC(ilogb) (1024), 10);
check_int ("ilogb (-2000) == 10", FUNC(ilogb) (-2000), 10);
/* XXX We have a problem here: the standard does not tell us whether
exceptions are allowed/required. ignore them for now. */
i = FUNC (ilogb) (0.0);
feclearexcept (FE_ALL_EXCEPT);
check_int ("ilogb (0) == FP_ILOGB0", i, FP_ILOGB0);
i = FUNC(ilogb) (nan_value);
feclearexcept (FE_ALL_EXCEPT);
check_int ("ilogb (NaN) == FP_ILOGBNAN", i, FP_ILOGBNAN);
}
static void
ldexp_test (void)
{
MATHTYPE x;
check ("ldexp (0, 0) == 0", FUNC(ldexp) (0, 0), 0);
check_isinfp ("ldexp (+inf, 1) == +inf", FUNC(ldexp) (plus_infty, 1));
check_isinfn ("ldexp (-inf, 1) == -inf", FUNC(ldexp) (minus_infty, 1));
check_isnan ("ldexp (NaN, 1) == NaN", FUNC(ldexp) (nan_value, 1));
check ("ldexp (0.8, 4) == 12.8", FUNC(ldexp) (0.8L, 4), 12.8L);
check ("ldexp (-0.854375, 5) == -27.34", FUNC(ldexp) (-0.854375L, 5), -27.34L);
x = random_greater (0.0);
check_ext ("ldexp (x, 0) == x", FUNC(ldexp) (x, 0L), x, x);
}
static void
log_test (void)
{
check_isinfn_exc ("log (+0) == -inf plus divide-by-zero exception",
FUNC(log) (0), DIVIDE_BY_ZERO_EXCEPTION);
check_isinfn_exc ("log (-0) == -inf plus divide-by-zero exception",
FUNC(log) (minus_zero), DIVIDE_BY_ZERO_EXCEPTION);
check ("log (1) == 0", FUNC(log) (1), 0);
check_isnan_exc ("log (x) == NaN plus invalid exception if x < 0",
FUNC(log) (-1), INVALID_EXCEPTION);
check_isinfp ("log (+inf) == +inf", FUNC(log) (plus_infty));
check_eps ("log (e) == 1", FUNC(log) (M_E), 1, CHOOSE (1e-18L, 0, 9e-8L));
check_eps ("log (1/e) == -1", FUNC(log) (1.0 / M_E), -1,
CHOOSE (2e-18L, 0, 0));
check ("log (2) == M_LN2", FUNC(log) (2), M_LN2);
check_eps ("log (10) == M_LN10", FUNC(log) (10), M_LN10,
CHOOSE (1e-18L, 0, 0));
}
static void
log10_test (void)
{
check_isinfn_exc ("log10 (+0) == -inf plus divide-by-zero exception",
FUNC(log10) (0), DIVIDE_BY_ZERO_EXCEPTION);
check_isinfn_exc ("log10 (-0) == -inf plus divide-by-zero exception",
FUNC(log10) (minus_zero), DIVIDE_BY_ZERO_EXCEPTION);
check ("log10 (1) == +0", FUNC(log10) (1), 0);
check_isnan_exc ("log10 (x) == NaN plus invalid exception if x < 0",
FUNC(log10) (-1), INVALID_EXCEPTION);
check_isinfp ("log10 (+inf) == +inf", FUNC(log10) (plus_infty));
check_eps ("log10 (0.1) == -1", FUNC(log10) (0.1L), -1,
CHOOSE (1e-18L, 0, 0));
check_eps ("log10 (10) == 1", FUNC(log10) (10.0), 1,
CHOOSE (1e-18L, 0, 0));
check_eps ("log10 (100) == 2", FUNC(log10) (100.0), 2,
CHOOSE (1e-18L, 0, 0));
check ("log10 (10000) == 4", FUNC(log10) (10000.0), 4);
check_eps ("log10 (e) == M_LOG10E", FUNC(log10) (M_E), M_LOG10E,
CHOOSE (1e-18, 0, 9e-8));
}
static void
log1p_test (void)
{
check ("log1p (+0) == +0", FUNC(log1p) (0), 0);
check ("log1p (-0) == -0", FUNC(log1p) (minus_zero), minus_zero);
check_isinfn_exc ("log1p (-1) == -inf plus divide-by-zero exception",
FUNC(log1p) (-1), DIVIDE_BY_ZERO_EXCEPTION);
check_isnan_exc ("log1p (x) == NaN plus invalid exception if x < -1",
FUNC(log1p) (-2), INVALID_EXCEPTION);
check_isinfp ("log1p (+inf) == +inf", FUNC(log1p) (plus_infty));
check_eps ("log1p (e-1) == 1", FUNC(log1p) (M_E - 1.0), 1,
CHOOSE (1e-18L, 0, 0));
}
static void
log2_test (void)
{
check_isinfn_exc ("log2 (+0) == -inf plus divide-by-zero exception",
FUNC(log2) (0), DIVIDE_BY_ZERO_EXCEPTION);
check_isinfn_exc ("log2 (-0) == -inf plus divide-by-zero exception",
FUNC(log2) (minus_zero), DIVIDE_BY_ZERO_EXCEPTION);
check ("log2 (1) == +0", FUNC(log2) (1), 0);
check_isnan_exc ("log2 (x) == NaN plus invalid exception if x < 0",
FUNC(log2) (-1), INVALID_EXCEPTION);
check_isinfp ("log2 (+inf) == +inf", FUNC(log2) (plus_infty));
check_eps ("log2 (e) == M_LOG2E", FUNC(log2) (M_E), M_LOG2E,
CHOOSE (1e-18L, 0, 0));
check ("log2 (2) == 1", FUNC(log2) (2.0), 1);
check_eps ("log2 (16) == 4", FUNC(log2) (16.0), 4, CHOOSE (1e-18L, 0, 0));
check ("log2 (256) == 8", FUNC(log2) (256.0), 8);
}
static void
logb_test (void)
{
check_isinfp ("logb (+inf) == +inf", FUNC(logb) (plus_infty));
check_isinfp ("logb (-inf) == +inf", FUNC(logb) (minus_infty));
check_isinfn_exc ("logb (+0) == -inf plus divide-by-zero exception",
FUNC(logb) (0), DIVIDE_BY_ZERO_EXCEPTION);
check_isinfn_exc ("logb (-0) == -inf plus divide-by-zero exception",
FUNC(logb) (minus_zero), DIVIDE_BY_ZERO_EXCEPTION);
check ("logb (1) == 0", FUNC(logb) (1), 0);
check ("logb (e) == 1", FUNC(logb) (M_E), 1);
check ("logb (1024) == 10", FUNC(logb) (1024), 10);
check ("logb (-2000) == 10", FUNC(logb) (-2000), 10);
}
static void
modf_test (void)
{
MATHTYPE result, intpart;
result = FUNC(modf) (plus_infty, &intpart);
check ("modf (+inf, &x) returns +0", result, 0);
check_isinfp ("modf (+inf, &x) set x to +inf", intpart);
result = FUNC(modf) (minus_infty, &intpart);
check ("modf (-inf, &x) returns -0", result, minus_zero);
check_isinfn ("modf (-inf, &x) sets x to -inf", intpart);
result = FUNC(modf) (nan_value, &intpart);
check_isnan ("modf (NaN, &x) returns NaN", result);
check_isnan ("modf (NaN, &x) sets x to NaN", intpart);
result = FUNC(modf) (0, &intpart);
check ("modf (0, &x) returns 0", result, 0);
check ("modf (0, &x) sets x to 0", intpart, 0);
result = FUNC(modf) (minus_zero, &intpart);
check ("modf (-0, &x) returns -0", result, minus_zero);
check ("modf (-0, &x) sets x to -0", intpart, minus_zero);
result = FUNC(modf) (2.5, &intpart);
check ("modf (2.5, &x) returns 0.5", result, 0.5);
check ("modf (2.5, &x) sets x to 2", intpart, 2);
result = FUNC(modf) (-2.5, &intpart);
check ("modf (-2.5, &x) returns -0.5", result, -0.5);
check ("modf (-2.5, &x) sets x to -2", intpart, -2);
}
static void
scalb_test (void)
{
MATHTYPE x;
check_isnan ("scalb (2, 0.5) == NaN", FUNC(scalb) (2, 0.5));
check_isnan ("scalb (3, -2.5) == NaN", FUNC(scalb) (3, -2.5));
check_isnan ("scalb (0, NaN) == NaN", FUNC(scalb) (0, nan_value));
check_isnan ("scalb (1, NaN) == NaN", FUNC(scalb) (1, nan_value));
x = random_greater (0.0);
check ("scalb (x, 0) == 0", FUNC(scalb) (x, 0), x);
x = random_greater (0.0);
check ("scalb (-x, 0) == 0", FUNC(scalb) (-x, 0), -x);
check_isnan_exc ("scalb (+0, +inf) == NaN plus invalid exception",
FUNC(scalb) (0, plus_infty), INVALID_EXCEPTION);
check_isnan_exc ("scalb (-0, +inf) == NaN plus invalid exception",
FUNC(scalb) (minus_zero, plus_infty), INVALID_EXCEPTION);
check ("scalb (+0, 2) == +0", FUNC(scalb) (0, 2), 0);
check ("scalb (-0, 4) == -0", FUNC(scalb) (minus_zero, -4), minus_zero);
check ("scalb (+0, 0) == +0", FUNC(scalb) (0, 0), 0);
check ("scalb (-0, 0) == -0", FUNC(scalb) (minus_zero, 0), minus_zero);
check ("scalb (+0, -1) == +0", FUNC(scalb) (0, -1), 0);
check ("scalb (-0, -10) == -0", FUNC(scalb) (minus_zero, -10), minus_zero);
check ("scalb (+0, -inf) == +0", FUNC(scalb) (0, minus_infty), 0);
check ("scalb (-0, -inf) == -0", FUNC(scalb) (minus_zero, minus_infty),
minus_zero);
check_isinfp ("scalb (+inf, -1) == +inf", FUNC(scalb) (plus_infty, -1));
check_isinfn ("scalb (-inf, -10) == -inf", FUNC(scalb) (minus_infty, -10));
check_isinfp ("scalb (+inf, 0) == +inf", FUNC(scalb) (plus_infty, 0));
check_isinfn ("scalb (-inf, 0) == -inf", FUNC(scalb) (minus_infty, 0));
check_isinfp ("scalb (+inf, 2) == +inf", FUNC(scalb) (plus_infty, 2));
check_isinfn ("scalb (-inf, 100) == -inf", FUNC(scalb) (minus_infty, 100));
x = random_greater (0.0);
check ("scalb (x, -inf) == 0", FUNC(scalb) (x, minus_infty), 0.0);
check ("scalb (-x, -inf) == -0", FUNC(scalb) (-x, minus_infty), minus_zero);
x = random_greater (0.0);
check_isinfp ("scalb (x, +inf) == +inf", FUNC(scalb) (x, plus_infty));
x = random_greater (0.0);
check_isinfn ("scalb (-x, +inf) == -inf", FUNC(scalb) (-x, plus_infty));
check_isinfp ("scalb (+inf, +inf) == +inf",
FUNC(scalb) (plus_infty, plus_infty));
check_isinfn ("scalb (-inf, +inf) == -inf",
FUNC(scalb) (minus_infty, plus_infty));
check_isnan ("scalb (+inf, -inf) == NaN",
FUNC(scalb) (plus_infty, minus_infty));
check_isnan ("scalb (-inf, -inf) == NaN",
FUNC(scalb) (minus_infty, minus_infty));
check_isnan ("scalb (NaN, 1) == NaN", FUNC(scalb) (nan_value, 1));
check_isnan ("scalb (1, NaN) == NaN", FUNC(scalb) (1, nan_value));
check_isnan ("scalb (NaN, 0) == NaN", FUNC(scalb) (nan_value, 0));
check_isnan ("scalb (0, NaN) == NaN", FUNC(scalb) (0, nan_value));
check_isnan ("scalb (NaN, +inf) == NaN",
FUNC(scalb) (nan_value, plus_infty));
check_isnan ("scalb (+inf, NaN) == NaN",
FUNC(scalb) (plus_infty, nan_value));
check_isnan ("scalb (NaN, NaN) == NaN", FUNC(scalb) (nan_value, nan_value));
check ("scalb (0.8, 4) == 12.8", FUNC(scalb) (0.8L, 4), 12.8L);
check ("scalb (-0.854375, 5) == -27.34", FUNC(scalb) (-0.854375L, 5), -27.34L);
}
static void
scalbn_test (void)
{
MATHTYPE x;
check ("scalbn (0, 0) == 0", FUNC(scalbn) (0, 0), 0);
check_isinfp ("scalbn (+inf, 1) == +inf", FUNC(scalbn) (plus_infty, 1));
check_isinfn ("scalbn (-inf, 1) == -inf", FUNC(scalbn) (minus_infty, 1));
check_isnan ("scalbn (NaN, 1) == NaN", FUNC(scalbn) (nan_value, 1));
check ("scalbn (0.8, 4) == 12.8", FUNC(scalbn) (0.8L, 4), 12.8L);
check ("scalbn (-0.854375, 5) == -27.34", FUNC(scalbn) (-0.854375L, 5), -27.34L);
x = random_greater (0.0);
check_ext ("scalbn (x, 0) == x", FUNC(scalbn) (x, 0L), x, x);
}
static void
sin_test (void)
{
check ("sin (+0) == +0", FUNC(sin) (0), 0);
check ("sin (-0) == -0", FUNC(sin) (minus_zero), minus_zero);
check_isnan_exc ("sin (+inf) == NaN plus invalid exception",
FUNC(sin) (plus_infty),
INVALID_EXCEPTION);
check_isnan_exc ("sin (-inf) == NaN plus invalid exception",
FUNC(sin) (minus_infty),
INVALID_EXCEPTION);
check_eps ("sin (pi/6) == 0.5", FUNC(sin) (M_PI_6),
0.5,CHOOSE (4e-18L, 0, 0));
check ("sin (pi/2) == 1", FUNC(sin) (M_PI_2), 1);
}
static void
sinh_test (void)
{
check ("sinh (+0) == +0", FUNC(sinh) (0), 0);
#ifndef TEST_INLINE
check ("sinh (-0) == -0", FUNC(sinh) (minus_zero), minus_zero);
check_isinfp ("sinh (+inf) == +inf", FUNC(sinh) (plus_infty));
check_isinfn ("sinh (-inf) == -inf", FUNC(sinh) (minus_infty));
#endif
}
static void
sincos_test (void)
{
MATHTYPE sin_res, cos_res;
fenv_t fenv;
FUNC(sincos) (0, &sin_res, &cos_res);
fegetenv (&fenv);
check ("sincos (+0, &sin, &cos) puts +0 in sin", sin_res, 0);
fesetenv (&fenv);
check ("sincos (+0, &sin, &cos) puts 1 in cos", cos_res, 1);
FUNC(sincos) (minus_zero, &sin_res, &cos_res);
fegetenv (&fenv);
check ("sincos (-0, &sin, &cos) puts -0 in sin", sin_res, minus_zero);
fesetenv (&fenv);
check ("sincos (-0, &sin, &cos) puts 1 in cos", cos_res, 1);
FUNC(sincos) (plus_infty, &sin_res, &cos_res);
fegetenv (&fenv);
check_isnan_exc ("sincos (+inf, &sin, &cos) puts NaN in sin plus invalid exception",
sin_res, INVALID_EXCEPTION);
fesetenv (&fenv);
check_isnan_exc ("sincos (+inf, &sin, &cos) puts NaN in cos plus invalid exception",
cos_res, INVALID_EXCEPTION);
FUNC(sincos) (minus_infty, &sin_res, &cos_res);
fegetenv (&fenv);
check_isnan_exc ("sincos (-inf,&sin, &cos) puts NaN in sin plus invalid exception",
sin_res, INVALID_EXCEPTION);
fesetenv (&fenv);
check_isnan_exc ("sincos (-inf,&sin, &cos) puts NaN in cos plus invalid exception",
cos_res, INVALID_EXCEPTION);
FUNC(sincos) (M_PI_2, &sin_res, &cos_res);
fegetenv (&fenv);
check ("sincos (pi/2, &sin, &cos) puts 1 in sin", sin_res, 1);
fesetenv (&fenv);
check_eps ("sincos (pi/2, &sin, &cos) puts 0 in cos", cos_res, 0,
CHOOSE (1e-18L, 1e-16, 1e-7));
FUNC(sincos) (M_PI_6, &sin_res, &cos_res);
check_eps ("sincos (pi/6, &sin, &cos) puts 0.5 in sin", sin_res, 0.5,
CHOOSE (5e-18L, 0, 0));
FUNC(sincos) (M_PI_6*2.0, &sin_res, &cos_res);
check_eps ("sincos (pi/3, &sin, &cos) puts 0.5 in cos", cos_res, 0.5,
CHOOSE (5e-18L, 1e-15, 1e-7));
}
static void
tan_test (void)
{
check ("tan (+0) == +0", FUNC(tan) (0), 0);
check ("tan (-0) == -0", FUNC(tan) (minus_zero), minus_zero);
check_isnan_exc ("tan (+inf) == NaN plus invalid exception",
FUNC(tan) (plus_infty), INVALID_EXCEPTION);
check_isnan_exc ("tan (-inf) == NaN plus invalid exception",
FUNC(tan) (minus_infty), INVALID_EXCEPTION);
check_eps ("tan (pi/4) == 1", FUNC(tan) (M_PI_4), 1,
CHOOSE (2e-18L, 1e-15L, 0));
}
static void
tanh_test (void)
{
check ("tanh (+0) == +0", FUNC(tanh) (0), 0);
#ifndef TEST_INLINE
check ("tanh (-0) == -0", FUNC(tanh) (minus_zero), minus_zero);
check ("tanh (+inf) == +1", FUNC(tanh) (plus_infty), 1);
check ("tanh (-inf) == -1", FUNC(tanh) (minus_infty), -1);
#endif
}
static void
fabs_test (void)
{
check ("fabs (+0) == +0", FUNC(fabs) (0), 0);
check ("fabs (-0) == +0", FUNC(fabs) (minus_zero), 0);
check_isinfp ("fabs (+inf) == +inf", FUNC(fabs) (plus_infty));
check_isinfp ("fabs (-inf) == +inf", FUNC(fabs) (minus_infty));
check ("fabs (+38) == 38", FUNC(fabs) (38.0), 38.0);
check ("fabs (-e) == e", FUNC(fabs) (-M_E), M_E);
}
static void
floor_test (void)
{
check ("floor (+0) == +0", FUNC(floor) (0.0), 0.0);
check ("floor (-0) == -0", FUNC(floor) (minus_zero), minus_zero);
check_isinfp ("floor (+inf) == +inf", FUNC(floor) (plus_infty));
check_isinfn ("floor (-inf) == -inf", FUNC(floor) (minus_infty));
check ("floor (pi) == 3", FUNC(floor) (M_PI), 3.0);
check ("floor (-pi) == -4", FUNC(floor) (-M_PI), -4.0);
}
static void
hypot_test (void)
{
MATHTYPE a;
a = random_greater (0);
check_isinfp_ext ("hypot (+inf, x) == +inf", FUNC(hypot) (plus_infty, a), a);
check_isinfp_ext ("hypot (-inf, x) == +inf", FUNC(hypot) (minus_infty, a), a);
#ifndef TEST_INLINE
check_isinfp ("hypot (+inf, NaN) == +inf", FUNC(hypot) (minus_infty, nan_value));
check_isinfp ("hypot (-inf, NaN) == +inf", FUNC(hypot) (minus_infty, nan_value));
#endif
check_isnan ("hypot (NaN, NaN) == NaN", FUNC(hypot) (nan_value, nan_value));
a = FUNC(hypot) (12.4L, 0.7L);
check ("hypot (x,y) == hypot (y,x)", FUNC(hypot) (0.7L, 12.4L), a);
check ("hypot (x,y) == hypot (-x,y)", FUNC(hypot) (-12.4L, 0.7L), a);
check ("hypot (x,y) == hypot (-y,x)", FUNC(hypot) (-0.7L, 12.4L), a);
check ("hypot (x,y) == hypot (-x,-y)", FUNC(hypot) (-12.4L, -0.7L), a);
check ("hypot (x,y) == hypot (-y,-x)", FUNC(hypot) (-0.7L, -12.4L), a);
check ("hypot (x,0) == fabs (x)", FUNC(hypot) (-0.7L, 0), 0.7L);
check ("hypot (x,0) == fabs (x)", FUNC(hypot) (0.7L, 0), 0.7L);
check ("hypot (x,0) == fabs (x)", FUNC(hypot) (-1.0L, 0), 1.0L);
check ("hypot (x,0) == fabs (x)", FUNC(hypot) (1.0L, 0), 1.0L);
check ("hypot (x,0) == fabs (x)", FUNC(hypot) (-5.7e7L, 0), 5.7e7L);
check ("hypot (x,0) == fabs (x)", FUNC(hypot) (5.7e7L, 0), 5.7e7L);
}
static void
pow_test (void)
{
MATHTYPE x;
check ("pow (+0, +0) == 1", FUNC(pow) (0, 0), 1);
check ("pow (+0, -0) == 1", FUNC(pow) (0, minus_zero), 1);
check ("pow (-0, +0) == 1", FUNC(pow) (minus_zero, 0), 1);
check ("pow (-0, -0) == 1", FUNC(pow) (minus_zero, minus_zero), 1);
check ("pow (+10, +0) == 1", FUNC(pow) (10, 0), 1);
check ("pow (+10, -0) == 1", FUNC(pow) (10, minus_zero), 1);
check ("pow (-10, +0) == 1", FUNC(pow) (-10, 0), 1);
check ("pow (-10, -0) == 1", FUNC(pow) (-10, minus_zero), 1);
check ("pow (NaN, +0) == 1", FUNC(pow) (nan_value, 0), 1);
check ("pow (NaN, -0) == 1", FUNC(pow) (nan_value, minus_zero), 1);
#ifndef TEST_INLINE
check_isinfp ("pow (+1.1, +inf) == +inf", FUNC(pow) (1.1, plus_infty));
check_isinfp ("pow (+inf, +inf) == +inf", FUNC(pow) (plus_infty, plus_infty));
check_isinfp ("pow (-1.1, +inf) == +inf", FUNC(pow) (-1.1, plus_infty));
check_isinfp ("pow (-inf, +inf) == +inf", FUNC(pow) (minus_infty, plus_infty));
check ("pow (0.9, +inf) == +0", FUNC(pow) (0.9L, plus_infty), 0);
check ("pow (1e-7, +inf) == +0", FUNC(pow) (1e-7L, plus_infty), 0);
check ("pow (-0.9, +inf) == +0", FUNC(pow) (-0.9L, plus_infty), 0);
check ("pow (-1e-7, +inf) == +0", FUNC(pow) (-1e-7L, plus_infty), 0);
check ("pow (+1.1, -inf) == 0", FUNC(pow) (1.1, minus_infty), 0);
check ("pow (+inf, -inf) == 0", FUNC(pow) (plus_infty, minus_infty), 0);
check ("pow (-1.1, -inf) == 0", FUNC(pow) (-1.1, minus_infty), 0);
check ("pow (-inf, -inf) == 0", FUNC(pow) (minus_infty, minus_infty), 0);
check_isinfp ("pow (0.9, -inf) == +inf", FUNC(pow) (0.9L, minus_infty));
check_isinfp ("pow (1e-7, -inf) == +inf", FUNC(pow) (1e-7L, minus_infty));
check_isinfp ("pow (-0.9, -inf) == +inf", FUNC(pow) (-0.9L, minus_infty));
check_isinfp ("pow (-1e-7, -inf) == +inf", FUNC(pow) (-1e-7L, minus_infty));
check_isinfp ("pow (+inf, 1e-7) == +inf", FUNC(pow) (plus_infty, 1e-7L));
check_isinfp ("pow (+inf, 1) == +inf", FUNC(pow) (plus_infty, 1));
check_isinfp ("pow (+inf, 1e7) == +inf", FUNC(pow) (plus_infty, 1e7L));
check ("pow (+inf, -1e-7) == 0", FUNC(pow) (plus_infty, -1e-7L), 0);
check ("pow (+inf, -1) == 0", FUNC(pow) (plus_infty, -1), 0);
check ("pow (+inf, -1e7) == 0", FUNC(pow) (plus_infty, -1e7L), 0);
check_isinfn ("pow (-inf, 1) == -inf", FUNC(pow) (minus_infty, 1));
check_isinfn ("pow (-inf, 11) == -inf", FUNC(pow) (minus_infty, 11));
check_isinfn ("pow (-inf, 1001) == -inf", FUNC(pow) (minus_infty, 1001));
check_isinfp ("pow (-inf, 2) == +inf", FUNC(pow) (minus_infty, 2));
check_isinfp ("pow (-inf, 12) == +inf", FUNC(pow) (minus_infty, 12));
check_isinfp ("pow (-inf, 1002) == +inf", FUNC(pow) (minus_infty, 1002));
check_isinfp ("pow (-inf, 0.1) == +inf", FUNC(pow) (minus_infty, 0.1));
check_isinfp ("pow (-inf, 1.1) == +inf", FUNC(pow) (minus_infty, 1.1));
check_isinfp ("pow (-inf, 11.1) == +inf", FUNC(pow) (minus_infty, 11.1));
check_isinfp ("pow (-inf, 1001.1) == +inf", FUNC(pow) (minus_infty, 1001.1));
check ("pow (-inf, -1) == -0", FUNC(pow) (minus_infty, -1), minus_zero);
check ("pow (-inf, -11) == -0", FUNC(pow) (minus_infty, -11), minus_zero);
check ("pow (-inf, -1001) == -0", FUNC(pow) (minus_infty, -1001), minus_zero);
check ("pow (-inf, -2) == +0", FUNC(pow) (minus_infty, -2), 0);
check ("pow (-inf, -12) == +0", FUNC(pow) (minus_infty, -12), 0);
check ("pow (-inf, -1002) == +0", FUNC(pow) (minus_infty, -1002), 0);
check ("pow (-inf, -0.1) == +0", FUNC(pow) (minus_infty, -0.1), 0);
check ("pow (-inf, -1.1) == +0", FUNC(pow) (minus_infty, -1.1), 0);
check ("pow (-inf, -11.1) == +0", FUNC(pow) (minus_infty, -11.1), 0);
check ("pow (-inf, -1001.1) == +0", FUNC(pow) (minus_infty, -1001.1), 0);
check_isnan ("pow (NaN, NaN) == NaN", FUNC(pow) (nan_value, nan_value));
check_isnan ("pow (0, NaN) == NaN", FUNC(pow) (0, nan_value));
check_isnan ("pow (1, NaN) == NaN", FUNC(pow) (1, nan_value));
check_isnan ("pow (-1, NaN) == NaN", FUNC(pow) (-1, nan_value));
check_isnan ("pow (NaN, 1) == NaN", FUNC(pow) (nan_value, 1));
check_isnan ("pow (NaN, -1) == NaN", FUNC(pow) (nan_value, -1));
x = random_greater (0.0);
check_isnan_ext ("pow (x, NaN) == NaN", FUNC(pow) (x, nan_value), x);
check_isnan_exc ("pow (+1, +inf) == NaN plus invalid exception",
FUNC(pow) (1, plus_infty), INVALID_EXCEPTION);
check_isnan_exc ("pow (-1, +inf) == NaN plus invalid exception",
FUNC(pow) (-1, plus_infty), INVALID_EXCEPTION);
check_isnan_exc ("pow (+1, -inf) == NaN plus invalid exception",
FUNC(pow) (1, minus_infty), INVALID_EXCEPTION);
check_isnan_exc ("pow (-1, -inf) == NaN plus invalid exception",
FUNC(pow) (-1, minus_infty), INVALID_EXCEPTION);
check_isnan_exc ("pow (-0.1, 1.1) == NaN plus invalid exception",
FUNC(pow) (-0.1, 1.1), INVALID_EXCEPTION);
check_isnan_exc ("pow (-0.1, -1.1) == NaN plus invalid exception",
FUNC(pow) (-0.1, -1.1), INVALID_EXCEPTION);
check_isnan_exc ("pow (-10.1, 1.1) == NaN plus invalid exception",
FUNC(pow) (-10.1, 1.1), INVALID_EXCEPTION);
check_isnan_exc ("pow (-10.1, -1.1) == NaN plus invalid exception",
FUNC(pow) (-10.1, -1.1), INVALID_EXCEPTION);
check_isinfp_exc ("pow (+0, -1) == +inf plus divide-by-zero exception",
FUNC(pow) (0, -1), DIVIDE_BY_ZERO_EXCEPTION);
check_isinfp_exc ("pow (+0, -11) == +inf plus divide-by-zero exception",
FUNC(pow) (0, -11), DIVIDE_BY_ZERO_EXCEPTION);
check_isinfn_exc ("pow (-0, -1) == -inf plus divide-by-zero exception",
FUNC(pow) (minus_zero, -1), DIVIDE_BY_ZERO_EXCEPTION);
check_isinfn_exc ("pow (-0, -11) == -inf plus divide-by-zero exception",
FUNC(pow) (minus_zero, -11), DIVIDE_BY_ZERO_EXCEPTION);
check_isinfp_exc ("pow (+0, -2) == +inf plus divide-by-zero exception",
FUNC(pow) (0, -2), DIVIDE_BY_ZERO_EXCEPTION);
check_isinfp_exc ("pow (+0, -11.1) == +inf plus divide-by-zero exception",
FUNC(pow) (0, -11.1), DIVIDE_BY_ZERO_EXCEPTION);
check_isinfp_exc ("pow (-0, -2) == +inf plus divide-by-zero exception",
FUNC(pow) (minus_zero, -2), DIVIDE_BY_ZERO_EXCEPTION);
check_isinfp_exc ("pow (-0, -11.1) == +inf plus divide-by-zero exception",
FUNC(pow) (minus_zero, -11.1), DIVIDE_BY_ZERO_EXCEPTION);
#endif
check ("pow (+0, 1) == +0", FUNC(pow) (0, 1), 0);
check ("pow (+0, 11) == +0", FUNC(pow) (0, 11), 0);
#ifndef TEST_INLINE
check ("pow (-0, 1) == -0", FUNC(pow) (minus_zero, 1), minus_zero);
check ("pow (-0, 11) == -0", FUNC(pow) (minus_zero, 11), minus_zero);
#endif
check ("pow (+0, 2) == +0", FUNC(pow) (0, 2), 0);
check ("pow (+0, 11.1) == +0", FUNC(pow) (0, 11.1), 0);
#ifndef TEST_INLINE
check ("pow (-0, 2) == +0", FUNC(pow) (minus_zero, 2), 0);
check ("pow (-0, 11.1) == +0", FUNC(pow) (minus_zero, 11.1), 0);
x = random_greater (1.0);
check_isinfp_ext ("pow (x, +inf) == +inf for |x| > 1",
FUNC(pow) (x, plus_infty), x);
x = random_value (-1.0, 1.0);
check_ext ("pow (x, +inf) == +0 for |x| < 1",
FUNC(pow) (x, plus_infty), 0.0, x);
x = random_greater (1.0);
check_ext ("pow (x, -inf) == +0 for |x| > 1",
FUNC(pow) (x, minus_infty), 0.0, x);
x = random_value (-1.0, 1.0);
check_isinfp_ext ("pow (x, -inf) == +inf for |x| < 1",
FUNC(pow) (x, minus_infty), x);
x = random_greater (0.0);
check_isinfp_ext ("pow (+inf, y) == +inf for y > 0",
FUNC(pow) (plus_infty, x), x);
x = random_less (0.0);
check_ext ("pow (+inf, y) == +0 for y < 0",
FUNC(pow) (plus_infty, x), 0.0, x);
x = (rand () % 1000000) * 2.0 + 1; /* Get random odd integer > 0 */
check_isinfn_ext ("pow (-inf, y) == -inf for y an odd integer > 0",
FUNC(pow) (minus_infty, x), x);
x = ((rand () % 1000000) + 1) * 2.0; /* Get random even integer > 1 */
check_isinfp_ext ("pow (-inf, y) == +inf for y > 0 and not an odd integer",
FUNC(pow) (minus_infty, x), x);
x = -((rand () % 1000000) * 2.0 + 1); /* Get random odd integer < 0 */
check_ext ("pow (-inf, y) == -0 for y an odd integer < 0",
FUNC(pow) (minus_infty, x), minus_zero, x);
x = ((rand () % 1000000) + 1) * -2.0; /* Get random even integer < 0 */
check_ext ("pow (-inf, y) == +0 for y < 0 and not an odd integer",
FUNC(pow) (minus_infty, x), 0.0, x);
#endif
x = (rand () % 1000000) * 2.0 + 1; /* Get random odd integer > 0 */
check_ext ("pow (+0, y) == +0 for y an odd integer > 0",
FUNC(pow) (0.0, x), 0.0, x);
#ifndef TEST_INLINE
x = (rand () % 1000000) * 2.0 + 1; /* Get random odd integer > 0 */
check_ext ("pow (-0, y) == -0 for y an odd integer > 0",
FUNC(pow) (minus_zero, x), minus_zero, x);
#endif
x = ((rand () % 1000000) + 1) * 2.0; /* Get random even integer > 1 */
check_ext ("pow (+0, y) == +0 for y > 0 and not an odd integer",
FUNC(pow) (0.0, x), 0.0, x);
x = ((rand () % 1000000) + 1) * 2.0; /* Get random even integer > 1 */
check_ext ("pow (-0, y) == +0 for y > 0 and not an odd integer",
FUNC(pow) (minus_zero, x), 0.0, x);
}
static void
fdim_test (void)
{
check ("fdim (+0, +0) = +0", FUNC(fdim) (0, 0), 0);
check ("fdim (9, 0) = 9", FUNC(fdim) (9, 0), 9);
check ("fdim (0, 9) = 0", FUNC(fdim) (0, 9), 0);
check ("fdim (-9, 0) = 9", FUNC(fdim) (-9, 0), 0);
check ("fdim (0, -9) = 9", FUNC(fdim) (0, -9), 9);
check_isinfp ("fdim (+inf, 9) = +inf", FUNC(fdim) (plus_infty, 9));
check_isinfp ("fdim (+inf, -9) = +inf", FUNC(fdim) (plus_infty, -9));
check ("fdim (-inf, 9) = 0", FUNC(fdim) (minus_infty, 9), 0);
check ("fdim (-inf, -9) = 0", FUNC(fdim) (minus_infty, -9), 0);
check_isinfp ("fdim (+9, -inf) = +inf", FUNC(fdim) (9, minus_infty));
check_isinfp ("fdim (-9, -inf) = +inf", FUNC(fdim) (-9, minus_infty));
check ("fdim (9, inf) = 0", FUNC(fdim) (9, plus_infty), 0);
check ("fdim (-9, inf) = 0", FUNC(fdim) (-9, plus_infty), 0);
check_isnan ("fdim (0, NaN) = NaN", FUNC(fdim) (0, nan_value));
check_isnan ("fdim (9, NaN) = NaN", FUNC(fdim) (9, nan_value));
check_isnan ("fdim (-9, NaN) = NaN", FUNC(fdim) (-9, nan_value));
check_isnan ("fdim (NaN, 9) = NaN", FUNC(fdim) (nan_value, 9));
check_isnan ("fdim (NaN, -9) = NaN", FUNC(fdim) (nan_value, -9));
check_isnan ("fdim (+inf, NaN) = NaN", FUNC(fdim) (plus_infty, nan_value));
check_isnan ("fdim (-inf, NaN) = NaN", FUNC(fdim) (minus_infty, nan_value));
check_isnan ("fdim (NaN, +inf) = NaN", FUNC(fdim) (nan_value, plus_infty));
check_isnan ("fdim (NaN, -inf) = NaN", FUNC(fdim) (nan_value, minus_infty));
check_isnan ("fdim (NaN, NaN) = NaN", FUNC(fdim) (nan_value, nan_value));
}
static void
fmin_test (void)
{
check ("fmin (+0, +0) = +0", FUNC(fmin) (0, 0), 0);
check ("fmin (9, 0) = 0", FUNC(fmin) (9, 0), 0);
check ("fmin (0, 9) = 0", FUNC(fmin) (0, 9), 0);
check ("fmin (-9, 0) = -9", FUNC(fmin) (-9, 0), -9);
check ("fmin (0, -9) = -9", FUNC(fmin) (0, -9), -9);
check ("fmin (+inf, 9) = 9", FUNC(fmin) (plus_infty, 9), 9);
check ("fmin (9, +inf) = 9", FUNC(fmin) (9, plus_infty), 9);
check ("fmin (+inf, -9) = -9", FUNC(fmin) (plus_infty, -9), -9);
check ("fmin (-9, +inf) = -9", FUNC(fmin) (-9, plus_infty), -9);
check_isinfn ("fmin (-inf, 9) = -inf", FUNC(fmin) (minus_infty, 9));
check_isinfn ("fmin (-inf, -9) = -inf", FUNC(fmin) (minus_infty, -9));
check_isinfn ("fmin (+9, -inf) = -inf", FUNC(fmin) (9, minus_infty));
check_isinfn ("fmin (-9, -inf) = -inf", FUNC(fmin) (-9, minus_infty));
check ("fmin (0, NaN) = 0", FUNC(fmin) (0, nan_value), 0);
check ("fmin (9, NaN) = 9", FUNC(fmin) (9, nan_value), 9);
check ("fmin (-9, NaN) = 9", FUNC(fmin) (-9, nan_value), -9);
check ("fmin (NaN, 0) = 0", FUNC(fmin) (nan_value, 0), 0);
check ("fmin (NaN, 9) = NaN", FUNC(fmin) (nan_value, 9), 9);
check ("fmin (NaN, -9) = NaN", FUNC(fmin) (nan_value, -9), -9);
check_isinfp ("fmin (+inf, NaN) = +inf", FUNC(fmin) (plus_infty, nan_value));
check_isinfn ("fmin (-inf, NaN) = -inf", FUNC(fmin) (minus_infty, nan_value));
check_isinfp ("fmin (NaN, +inf) = +inf", FUNC(fmin) (nan_value, plus_infty));
check_isinfn ("fmin (NaN, -inf) = -inf", FUNC(fmin) (nan_value, minus_infty));
check_isnan ("fmin (NaN, NaN) = NaN", FUNC(fmin) (nan_value, nan_value));
}
static void
fmax_test (void)
{
check ("fmax (+0, +0) = +0", FUNC(fmax) (0, 0), 0);
check ("fmax (9, 0) = 9", FUNC(fmax) (9, 0), 9);
check ("fmax (0, 9) = 9", FUNC(fmax) (0, 9), 9);
check ("fmax (-9, 0) = 0", FUNC(fmax) (-9, 0), 0);
check ("fmax (0, -9) = 0", FUNC(fmax) (0, -9), 0);
check_isinfp ("fmax (+inf, 9) = +inf", FUNC(fmax) (plus_infty, 9));
check_isinfp ("fmax (9, +inf) = +inf", FUNC(fmax) (0, plus_infty));
check_isinfp ("fmax (-9, +inf) = +inf", FUNC(fmax) (-9, plus_infty));
check_isinfp ("fmax (+inf, -9) = +inf", FUNC(fmax) (plus_infty, -9));
check ("fmax (-inf, 9) = 9", FUNC(fmax) (minus_infty, 9), 9);
check ("fmax (-inf, -9) = -9", FUNC(fmax) (minus_infty, -9), -9);
check ("fmax (+9, -inf) = 9", FUNC(fmax) (9, minus_infty), 9);
check ("fmax (-9, -inf) = -9", FUNC(fmax) (-9, minus_infty), -9);
check ("fmax (0, NaN) = 0", FUNC(fmax) (0, nan_value), 0);
check ("fmax (9, NaN) = 9", FUNC(fmax) (9, nan_value), 9);
check ("fmax (-9, NaN) = 9", FUNC(fmax) (-9, nan_value), -9);
check ("fmax (NaN, 0) = 0", FUNC(fmax) (nan_value, 0), 0);
check ("fmax (NaN, 9) = NaN", FUNC(fmax) (nan_value, 9), 9);
check ("fmax (NaN, -9) = NaN", FUNC(fmax) (nan_value, -9), -9);
check_isinfp ("fmax (+inf, NaN) = +inf", FUNC(fmax) (plus_infty, nan_value));
check_isinfn ("fmax (-inf, NaN) = -inf", FUNC(fmax) (minus_infty, nan_value));
check_isinfp ("fmax (NaN, +inf) = +inf", FUNC(fmax) (nan_value, plus_infty));
check_isinfn ("fmax (NaN, -inf) = -inf", FUNC(fmax) (nan_value, minus_infty));
check_isnan ("fmax (NaN, NaN) = NaN", FUNC(fmax) (nan_value, nan_value));
}
static void
fmod_test (void)
{
MATHTYPE x;
x = random_greater (0);
check_ext ("fmod (+0, y) == +0 for y != 0", FUNC(fmod) (0, x), 0, x);
x = random_greater (0);
check_ext ("fmod (-0, y) == -0 for y != 0", FUNC(fmod) (minus_zero, x),
minus_zero, x);
check_isnan_exc_ext ("fmod (+inf, y) == NaN plus invalid exception",
FUNC(fmod) (plus_infty, x), INVALID_EXCEPTION, x);
check_isnan_exc_ext ("fmod (-inf, y) == NaN plus invalid exception",
FUNC(fmod) (minus_infty, x), INVALID_EXCEPTION, x);
check_isnan_exc_ext ("fmod (x, +0) == NaN plus invalid exception",
FUNC(fmod) (x, 0), INVALID_EXCEPTION, x);
check_isnan_exc_ext ("fmod (x, -0) == NaN plus invalid exception",
FUNC(fmod) (x, minus_zero), INVALID_EXCEPTION, x);
x = random_greater (0);
check_ext ("fmod (x, +inf) == x for x not infinite",
FUNC(fmod) (x, plus_infty), x, x);
x = random_greater (0);
check_ext ("fmod (x, -inf) == x for x not infinite",
FUNC(fmod) (x, minus_infty), x, x);
check_eps ("fmod (6.5, 2.3) == 1.9", FUNC(fmod) (6.5, 2.3), 1.9,
CHOOSE(5e-16, 1e-15, 2e-7));
check_eps ("fmod (-6.5, 2.3) == -1.9", FUNC(fmod) (-6.5, 2.3), -1.9,
CHOOSE(5e-16, 1e-15, 2e-7));
check_eps ("fmod (6.5, -2.3) == 1.9", FUNC(fmod) (6.5, -2.3), 1.9,
CHOOSE(5e-16, 1e-15, 2e-7));
check_eps ("fmod (-6.5, -2.3) == -1.9", FUNC(fmod) (-6.5, -2.3), -1.9,
CHOOSE(5e-16, 1e-15, 2e-7));
}
static void
nextafter_test (void)
{
MATHTYPE x;
check ("nextafter (+0, +0) = +0", FUNC(nextafter) (0, 0), 0);
check ("nextafter (-0, +0) = +0", FUNC(nextafter) (minus_zero, 0), 0);
check ("nextafter (+0, -0) = -0", FUNC(nextafter) (0, minus_zero),
minus_zero);
check ("nextafter (-0, -0) = -0", FUNC(nextafter) (minus_zero, minus_zero),
minus_zero);
check ("nextafter (9, 9) = 9", FUNC(nextafter) (9, 9), 9);
check ("nextafter (-9, -9) = -9", FUNC(nextafter) (-9, -9), -9);
check_isinfp ("nextafter (+inf, +inf) = +inf",
FUNC(nextafter) (plus_infty, plus_infty));
check_isinfn ("nextafter (-inf, -inf) = -inf",
FUNC(nextafter) (minus_infty, minus_infty));
x = rand () * 1.1;
check_isnan ("nextafter (NaN, x) = NaN", FUNC(nextafter) (nan_value, x));
check_isnan ("nextafter (x, NaN) = NaN", FUNC(nextafter) (x, nan_value));
check_isnan ("nextafter (NaN, NaN) = NaN", FUNC(nextafter) (nan_value,
nan_value));
/* XXX We need the hexadecimal FP number representation here for further
tests. */
}
static void
copysign_test (void)
{
check ("copysign (0, 4) = 0", FUNC(copysign) (0, 4), 0);
check ("copysign (0, -4) = -0", FUNC(copysign) (0, -4), minus_zero);
check ("copysign (-0, 4) = 0", FUNC(copysign) (minus_zero, 4), 0);
check ("copysign (-0, -4) = -0", FUNC(copysign) (minus_zero, -4),
minus_zero);
check_isinfp ("copysign (+inf, 0) = +inf", FUNC(copysign) (plus_infty, 0));
check_isinfn ("copysign (+inf, -0) = -inf", FUNC(copysign) (plus_infty,
minus_zero));
check_isinfp ("copysign (-inf, 0) = +inf", FUNC(copysign) (minus_infty, 0));
check_isinfn ("copysign (-inf, -0) = -inf", FUNC(copysign) (minus_infty,
minus_zero));
check ("copysign (0, +inf) = 0", FUNC(copysign) (0, plus_infty), 0);
check ("copysign (0, -inf) = -0", FUNC(copysign) (0, minus_zero),
minus_zero);
check ("copysign (-0, +inf) = 0", FUNC(copysign) (minus_zero, plus_infty),
0);
check ("copysign (-0, -inf) = -0", FUNC(copysign) (minus_zero, minus_zero),
minus_zero);
/* XXX More correctly we would have to check the sign of the NaN. */
check_isnan ("copysign (+NaN, 0) = +NaN", FUNC(copysign) (nan_value, 0));
check_isnan ("copysign (+NaN, -0) = -NaN", FUNC(copysign) (nan_value,
minus_zero));
check_isnan ("copysign (-NaN, 0) = +NaN", FUNC(copysign) (-nan_value, 0));
check_isnan ("copysign (-NaN, -0) = -NaN", FUNC(copysign) (-nan_value,
minus_zero));
}
static void
trunc_test (void)
{
check ("trunc(0) = 0", FUNC(trunc) (0), 0);
check ("trunc(-0) = -0", FUNC(trunc) (minus_zero), minus_zero);
check ("trunc(0.625) = 0", FUNC(trunc) (0.625), 0);
check ("trunc(-0.625) = -0", FUNC(trunc) (-0.625), minus_zero);
check ("trunc(1) = 1", FUNC(trunc) (1), 1);
check ("trunc(-1) = -1", FUNC(trunc) (-1), -1);
check ("trunc(1.625) = 1", FUNC(trunc) (1.625), 1);
check ("trunc(-1.625) = -1", FUNC(trunc) (-1.625), -1);
check ("trunc(1048580.625) = 1048580", FUNC(trunc) (1048580.625L),
1048580L);
check ("trunc(-1048580.625) = -1048580", FUNC(trunc) (-1048580.625L),
-1048580L);
check ("trunc(8388610.125) = 8388610", FUNC(trunc) (8388610.125L),
8388610.0L);
check ("trunc(-8388610.125) = -8388610", FUNC(trunc) (-8388610.125L),
-8388610.0L);
check ("trunc(4294967296.625) = 4294967296", FUNC(trunc) (4294967296.625L),
4294967296.0L);
check ("trunc(-4294967296.625) = -4294967296",
FUNC(trunc) (-4294967296.625L), -4294967296.0L);
check_isinfp ("trunc(+inf) = +inf", FUNC(trunc) (plus_infty));
check_isinfn ("trunc(-inf) = -inf", FUNC(trunc) (minus_infty));
check_isnan ("trunc(NaN) = NaN", FUNC(trunc) (nan_value));
}
static void
sqrt_test (void)
{
MATHTYPE x;
/* XXX Tests fuer negative x are missing */
check ("sqrt (0) == 0", FUNC(sqrt) (0), 0);
check_isnan ("sqrt (NaN) == NaN", FUNC(sqrt) (nan_value));
check_isinfp ("sqrt (+inf) == +inf", FUNC(sqrt) (plus_infty));
check ("sqrt (-0) == -0", FUNC(sqrt) (0), 0);
x = random_less (0.0);
check_isnan_exc_ext ("sqrt (x) == NaN plus invalid exception for x < 0",
FUNC(sqrt) (x), INVALID_EXCEPTION, x);
x = random_value (0, 10000);
check_ext ("sqrt (x*x) == x", FUNC(sqrt) (x*x), x, x);
check ("sqrt (4) == 2", FUNC(sqrt) (4), 2);
}
static void
remainder_test (void)
{
MATHTYPE result;
result = FUNC(remainder) (1, 0);
check_isnan_exc ("remainder(1, +0) == NaN plus invalid exception",
result, INVALID_EXCEPTION);
result = FUNC(remainder) (1, minus_zero);
check_isnan_exc ("remainder(1, -0) == NaN plus invalid exception",
result, INVALID_EXCEPTION);
result = FUNC(remainder) (plus_infty, 1);
check_isnan_exc ("remainder(+inf, 1) == NaN plus invalid exception",
result, INVALID_EXCEPTION);
result = FUNC(remainder) (minus_infty, 1);
check_isnan_exc ("remainder(-inf, 1) == NaN plus invalid exception",
result, INVALID_EXCEPTION);
result = FUNC(remainder) (1.625, 1.0);
check ("remainder(1.625, 1.0) == -0.375", result, -0.375);
result = FUNC(remainder) (-1.625, 1.0);
check ("remainder(-1.625, 1.0) == 0.375", result, 0.375);
result = FUNC(remainder) (1.625, -1.0);
check ("remainder(1.625, -1.0) == -0.375", result, -0.375);
result = FUNC(remainder) (-1.625, -1.0);
check ("remainder(-1.625, -1.0) == 0.375", result, 0.375);
result = FUNC(remainder) (5.0, 2.0);
check ("remainder(5.0, 2.0) == 1.0", result, 1.0);
result = FUNC(remainder) (3.0, 2.0);
check ("remainder(3.0, 2.0) == -1.0", result, -1.0);
}
static void
remquo_test (void)
{
int quo;
MATHTYPE result;
result = FUNC(remquo) (1, 0, &quo);
check_isnan_exc ("remquo(1, +0, &x) == NaN plus invalid exception",
result, INVALID_EXCEPTION);
result = FUNC(remquo) (1, minus_zero, &quo);
check_isnan_exc ("remquo(1, -0, &x) == NaN plus invalid exception",
result, INVALID_EXCEPTION);
result = FUNC(remquo) (plus_infty, 1, &quo);
check_isnan_exc ("remquo(+inf, 1, &x) == NaN plus invalid exception",
result, INVALID_EXCEPTION);
result = FUNC(remquo) (minus_infty, 1, &quo);
check_isnan_exc ("remquo(-inf, 1, &x) == NaN plus invalid exception",
result, INVALID_EXCEPTION);
result = FUNC(remquo) (1.625, 1.0, &quo);
check ("remquo(1.625, 1.0, &x) == -0.375", result, -0.375);
check_long ("remquo(1.625, 1.0, &x) puts 2 in x", quo, 2);
result = FUNC(remquo) (-1.625, 1.0, &quo);
check ("remquo(-1.625, 1.0, &x) == 0.375", result, 0.375);
check_long ("remquo(-1.625, 1.0, &x) puts -2 in x", quo, -2);
result = FUNC(remquo) (1.625, -1.0, &quo);
check ("remquo(1.625, -1.0, &x) == -0.375", result, -0.375);
check_long ("remquo(1.625, -1.0, &x) puts -2 in x", quo, -2);
result = FUNC(remquo) (-1.625, -1.0, &quo);
check ("remquo(-1.625, -1.0, &x) == 0.375", result, 0.375);
check_long ("remquo(-1.625, -1.0, &x) puts 2 in x", quo, 2);
result = FUNC(remquo) (5.0, 2.0, &quo);
check ("remquo(5.0, 2.0, &x) == 1.0", result, 1.0);
check_long ("remquo (5.0, 2.0, &x) puts 2 in x", quo, 2);
result = FUNC(remquo) (3.0, 2.0, &quo);
check ("remquo(3.0, 2.0, &x) == -1.0", result, -1.0);
check_long ("remquo (3.0, 2.0, &x) puts 2 in x", quo, 2);
}
static void
cexp_test (void)
{
__complex__ MATHTYPE result;
result = FUNC(cexp) (BUILD_COMPLEX (plus_zero, plus_zero));
check ("real(cexp(0 + 0i)) = 1", __real__ result, 1);
check ("imag(cexp(0 + 0i)) = 0", __imag__ result, 0);
result = FUNC(cexp) (BUILD_COMPLEX (minus_zero, plus_zero));
check ("real(cexp(-0 + 0i)) = 1", __real__ result, 1);
check ("imag(cexp(-0 + 0i)) = 0", __imag__ result, 0);
result = FUNC(cexp) (BUILD_COMPLEX (plus_zero, minus_zero));
check ("real(cexp(0 - 0i)) = 1", __real__ result, 1);
check ("imag(cexp(0 - 0i)) = -0", __imag__ result, minus_zero);
result = FUNC(cexp) (BUILD_COMPLEX (minus_zero, minus_zero));
check ("real(cexp(-0 - 0i)) = 1", __real__ result, 1);
check ("imag(cexp(-0 - 0i)) = -0", __imag__ result, minus_zero);
result = FUNC(cexp) (BUILD_COMPLEX (plus_infty, plus_zero));
check_isinfp ("real(cexp(+inf + 0i)) = +inf", __real__ result);
check ("imag(cexp(+inf + 0i)) = 0", __imag__ result, 0);
result = FUNC(cexp) (BUILD_COMPLEX (plus_infty, minus_zero));
check_isinfp ("real(cexp(+inf - 0i)) = +inf", __real__ result);
check ("imag(cexp(+inf - 0i)) = -0", __imag__ result, minus_zero);
result = FUNC(cexp) (BUILD_COMPLEX (minus_infty, plus_zero));
check ("real(cexp(-inf + 0i)) = 0", __real__ result, 0);
check ("imag(cexp(-inf + 0i)) = 0", __imag__ result, 0);
result = FUNC(cexp) (BUILD_COMPLEX (minus_infty, minus_zero));
check ("real(cexp(-inf - 0i)) = 0", __real__ result, 0);
check ("imag(cexp(-inf - 0i)) = -0", __imag__ result, minus_zero);
result = FUNC(cexp) (BUILD_COMPLEX (0.0, plus_infty));
check_isnan_exc ("real(cexp(0 + i inf)) = NaN plus invalid exception",
__real__ result, INVALID_EXCEPTION);
check_isnan ("imag(cexp(0 + i inf)) = NaN plus invalid exception",
__imag__ result);
#if defined __GNUC__ && __GNUC__ <= 2 && __GNUC_MINOR <= 7
if (verbose)
printf ("The following test for cexp might fail due to a gcc compiler error!\n");
#endif
result = FUNC(cexp) (BUILD_COMPLEX (minus_zero, plus_infty));
check_isnan_exc ("real(cexp(-0 + i inf)) = NaN plus invalid exception",
__real__ result, INVALID_EXCEPTION);
check_isnan ("imag(cexp(-0 + i inf)) = NaN plus invalid exception",
__imag__ result);
result = FUNC(cexp) (BUILD_COMPLEX (0.0, minus_infty));
check_isnan_exc ("real(cexp(0 - i inf)) = NaN plus invalid exception",
__real__ result, INVALID_EXCEPTION);
check_isnan ("imag(cexp(0 - i inf)) = NaN plus invalid exception",
__imag__ result);
result = FUNC(cexp) (BUILD_COMPLEX (minus_zero, minus_infty));
check_isnan_exc ("real(cexp(-0 - i inf)) = NaN plus invalid exception",
__real__ result, INVALID_EXCEPTION);
check_isnan ("imag(cexp(-0 - i inf)) = NaN plus invalid exception",
__imag__ result);
result = FUNC(cexp) (BUILD_COMPLEX (100.0, plus_infty));
check_isnan_exc ("real(cexp(100.0 + i inf)) = NaN plus invalid exception",
__real__ result, INVALID_EXCEPTION);
check_isnan ("imag(cexp(100.0 + i inf)) = NaN plus invalid exception",
__imag__ result);
result = FUNC(cexp) (BUILD_COMPLEX (-100.0, plus_infty));
check_isnan_exc ("real(cexp(-100.0 + i inf)) = NaN plus invalid exception",
__real__ result, INVALID_EXCEPTION);
check_isnan ("imag(cexp(-100.0 + i inf)) = NaN plus invalid exception",
__imag__ result);
result = FUNC(cexp) (BUILD_COMPLEX (100.0, minus_infty));
check_isnan_exc ("real(cexp(100.0 - i inf)) = NaN plus invalid exception",
__real__ result, INVALID_EXCEPTION);
check_isnan ("imag(cexp(100.0 - i inf)) = NaN plus invalid exception",
__imag__ result);
result = FUNC(cexp) (BUILD_COMPLEX (-100.0, minus_infty));
check_isnan_exc ("real(cexp(-100.0 - i inf)) = NaN plus invalid exception",
__real__ result, INVALID_EXCEPTION);
check_isnan ("imag(cexp(-100.0 - i inf)) = NaN", __imag__ result);
result = FUNC(cexp) (BUILD_COMPLEX (minus_infty, 2.0));
check ("real(cexp(-inf + 2.0i)) = -0", __real__ result, minus_zero);
check ("imag(cexp(-inf + 2.0i)) = 0", __imag__ result, 0);
result = FUNC(cexp) (BUILD_COMPLEX (minus_infty, 4.0));
check ("real(cexp(-inf + 4.0i)) = -0", __real__ result, minus_zero);
check ("imag(cexp(-inf + 4.0i)) = -0", __imag__ result, minus_zero);
result = FUNC(cexp) (BUILD_COMPLEX (plus_infty, 2.0));
check_isinfn ("real(cexp(+inf + 2.0i)) = -inf", __real__ result);
check_isinfp ("imag(cexp(+inf + 2.0i)) = +inf", __imag__ result);
result = FUNC(cexp) (BUILD_COMPLEX (plus_infty, 4.0));
check_isinfn ("real(cexp(+inf + 4.0i)) = -inf", __real__ result);
check_isinfn ("imag(cexp(+inf + 4.0i)) = -inf", __imag__ result);
result = FUNC(cexp) (BUILD_COMPLEX (plus_infty, plus_infty));
check_isinfp_exc ("real(cexp(+inf + i inf)) = +inf plus invalid exception",
__real__ result, INVALID_EXCEPTION);
check_isnan ("imag(cexp(+inf + i inf)) = NaN plus invalid exception",
__imag__ result);
result = FUNC(cexp) (BUILD_COMPLEX (plus_infty, minus_infty));
check_isinfp_exc ("real(cexp(+inf - i inf)) = +inf plus invalid exception",
__real__ result, INVALID_EXCEPTION);
check_isnan ("imag(cexp(+inf - i inf)) = NaN plus invalid exception",
__imag__ result);
result = FUNC(cexp) (BUILD_COMPLEX (minus_infty, plus_infty));
check ("real(cexp(-inf + i inf)) = 0", __real__ result, 0);
check ("imag(cexp(-inf + i inf)) = 0", __imag__ result, 0);
result = FUNC(cexp) (BUILD_COMPLEX (minus_infty, minus_infty));
check ("real(cexp(-inf - i inf)) = 0", __real__ result, 0);
check ("imag(cexp(-inf - i inf)) = -0", __imag__ result, minus_zero);
result = FUNC(cexp) (BUILD_COMPLEX (minus_infty, nan_value));
check ("real(cexp(-inf + i NaN)) = 0", __real__ result, 0);
check ("imag(cexp(-inf + i NaN)) = 0", fabs (__imag__ result), 0);
result = FUNC(cexp) (BUILD_COMPLEX (plus_infty, nan_value));
check_isinfp ("real(cexp(+inf + i NaN)) = +inf", __real__ result);
check_isnan ("imag(cexp(+inf + i NaN)) = NaN", __imag__ result);
result = FUNC(cexp) (BUILD_COMPLEX (nan_value, 0.0));
check_isnan_maybe_exc ("real(cexp(NaN + i0)) = NaN plus maybe invalid exception",
__real__ result, INVALID_EXCEPTION);
check_isnan ("imag(cexp(NaN + i0)) = NaN plus maybe invalid exception",
__imag__ result);
result = FUNC(cexp) (BUILD_COMPLEX (nan_value, 1.0));
check_isnan_maybe_exc ("real(cexp(NaN + 1i)) = NaN plus maybe invalid exception",
__real__ result, INVALID_EXCEPTION);
check_isnan ("imag(cexp(NaN + 1i)) = NaN plus maybe invalid exception",
__imag__ result);
result = FUNC(cexp) (BUILD_COMPLEX (nan_value, plus_infty));
check_isnan_maybe_exc ("real(cexp(NaN + i inf)) = NaN plus maybe invalid exception",
__real__ result, INVALID_EXCEPTION);
check_isnan ("imag(cexp(NaN + i inf)) = NaN plus maybe invalid exception",
__imag__ result);
result = FUNC(cexp) (BUILD_COMPLEX (0, nan_value));
check_isnan_maybe_exc ("real(cexp(0 + i NaN)) = NaN plus maybe invalid exception",
__real__ result, INVALID_EXCEPTION);
check_isnan ("imag(cexp(0 + i NaN)) = NaN plus maybe invalid exception",
__imag__ result);
result = FUNC(cexp) (BUILD_COMPLEX (1, nan_value));
check_isnan_maybe_exc ("real(cexp(1 + i NaN)) = NaN plus maybe invalid exception",
__real__ result, INVALID_EXCEPTION);
check_isnan ("imag(cexp(1 + i NaN)) = NaN plus maybe invalid exception",
__imag__ result);
result = FUNC(cexp) (BUILD_COMPLEX (nan_value, nan_value));
check_isnan ("real(cexp(NaN + i NaN)) = NaN", __real__ result);
check_isnan ("imag(cexp(NaN + i NaN)) = NaN", __imag__ result);
}
static void
csin_test (void)
{
__complex__ MATHTYPE result;
result = FUNC(csin) (BUILD_COMPLEX (0.0, 0.0));
check ("real(csin(0 + 0i)) = 0", __real__ result, 0);
check ("imag(csin(0 + 0i)) = 0", __imag__ result, 0);
result = FUNC(csin) (BUILD_COMPLEX (minus_zero, 0.0));
check ("real(csin(-0 + 0i)) = -0", __real__ result, minus_zero);
check ("imag(csin(-0 + 0i)) = 0", __imag__ result, 0);
result = FUNC(csin) (BUILD_COMPLEX (0.0, minus_zero));
check ("real(csin(0 - 0i)) = 0", __real__ result, 0);
check ("imag(csin(0 - 0i)) = -0", __imag__ result, minus_zero);
result = FUNC(csin) (BUILD_COMPLEX (minus_zero, minus_zero));
check ("real(csin(-0 - 0i)) = -0", __real__ result, minus_zero);
check ("imag(csin(-0 - 0i)) = -0", __imag__ result, minus_zero);
result = FUNC(csin) (BUILD_COMPLEX (0.0, plus_infty));
check ("real(csin(0 + i Inf)) = 0", __real__ result, 0);
check_isinfp ("imag(csin(0 + i Inf)) = +Inf", __imag__ result);
result = FUNC(csin) (BUILD_COMPLEX (minus_zero, plus_infty));
check ("real(csin(-0 + i Inf)) = -0", __real__ result, minus_zero);
check_isinfp ("imag(csin(-0 + i Inf)) = +Inf", __imag__ result);
result = FUNC(csin) (BUILD_COMPLEX (0.0, minus_infty));
check ("real(csin(0 - i Inf)) = 0", __real__ result, 0);
check_isinfn ("imag(csin(0 - i Inf)) = -Inf", __imag__ result);
result = FUNC(csin) (BUILD_COMPLEX (minus_zero, minus_infty));
check ("real(csin(-0 - i Inf)) = -0", __real__ result, minus_zero);
check_isinfn("imag(csin(-0 - i Inf)) = -Inf", __imag__ result);
result = FUNC(csin) (BUILD_COMPLEX (plus_infty, 0.0));
check_isnan_exc ("real(csin(+Inf + 0i)) = NaN plus invalid exception",
__real__ result, INVALID_EXCEPTION);
check ("imag(csin(+Inf + 0i)) = +-0 plus invalid exception",
FUNC(fabs) (__imag__ result), 0);
result = FUNC(csin) (BUILD_COMPLEX (minus_infty, 0.0));
check_isnan_exc ("real(csin(-Inf + 0i)) = NaN plus invalid exception",
__real__ result, INVALID_EXCEPTION);
check ("imag(csin(-Inf + 0i)) = +-0 plus invalid exception",
FUNC(fabs) (__imag__ result), 0);
result = FUNC(csin) (BUILD_COMPLEX (plus_infty, minus_zero));
check_isnan_exc ("real(csin(+Inf - 0i)) = NaN plus invalid exception",
__real__ result, INVALID_EXCEPTION);
check ("imag(csin(+Inf - 0i)) = +-0 plus invalid exception",
FUNC(fabs) (__imag__ result), 0.0);
result = FUNC(csin) (BUILD_COMPLEX (minus_infty, minus_zero));
check_isnan_exc ("real(csin(-Inf - 0i)) = NaN plus invalid exception",
__real__ result, INVALID_EXCEPTION);
check ("imag(csin(-Inf - 0i)) = +-0 plus invalid exception",
FUNC(fabs) (__imag__ result), 0.0);
result = FUNC(csin) (BUILD_COMPLEX (plus_infty, plus_infty));
check_isnan_exc ("real(csin(+Inf + i Inf)) = NaN plus invalid exception",
__real__ result, INVALID_EXCEPTION);
check_isinfp ("imag(csin(+Inf + i Inf)) = +-Inf plus invalid exception",
FUNC(fabs) (__imag__ result));
result = FUNC(csin) (BUILD_COMPLEX (minus_infty, plus_infty));
check_isnan_exc ("real(csin(-Inf + i Inf)) = NaN plus invalid exception",
__real__ result, INVALID_EXCEPTION);
check_isinfp ("imag(csin(-Inf + i Inf)) = +-Inf plus invalid exception",
FUNC(fabs) (__imag__ result));
result = FUNC(csin) (BUILD_COMPLEX (plus_infty, minus_infty));
check_isnan_exc ("real(csin(Inf - i Inf)) = NaN plus invalid exception",
__real__ result, INVALID_EXCEPTION);
check_isinfp ("imag(csin(Inf - i Inf)) = +-Inf plus invalid exception",
FUNC(fabs) (__imag__ result));
result = FUNC(csin) (BUILD_COMPLEX (minus_infty, minus_infty));
check_isnan_exc ("real(csin(-Inf - i Inf)) = NaN plus invalid exception",
__real__ result, INVALID_EXCEPTION);
check_isinfp ("imag(csin(-Inf - i Inf)) = +-Inf plus invalid exception",
FUNC(fabs) (__imag__ result));
result = FUNC(csin) (BUILD_COMPLEX (plus_infty, 6.75));
check_isnan_exc ("real(csin(+Inf + i 6.75)) = NaN plus invalid exception",
__real__ result, INVALID_EXCEPTION);
check_isnan ("imag(csin(+Inf + i6.75)) = NaN plus invalid exception",
__imag__ result);
result = FUNC(csin) (BUILD_COMPLEX (plus_infty, -6.75));
check_isnan_exc ("real(csin(+Inf - i 6.75)) = NaN plus invalid exception",
__real__ result, INVALID_EXCEPTION);
check_isnan ("imag(csin(+Inf - i6.75)) = NaN plus invalid exception",
__imag__ result);
result = FUNC(csin) (BUILD_COMPLEX (minus_infty, 6.75));
check_isnan_exc ("real(csin(-Inf + i6.75)) = NaN plus invalid exception",
__real__ result, INVALID_EXCEPTION);
check_isnan ("imag(csin(-Inf + i6.75)) = NaN plus invalid exception",
__imag__ result);
result = FUNC(csin) (BUILD_COMPLEX (minus_infty, -6.75));
check_isnan_exc ("real(csin(-Inf - i6.75)) = NaN plus invalid exception",
__real__ result, INVALID_EXCEPTION);
check_isnan ("imag(csin(-Inf - i6.75)) = NaN plus invalid exception",
__imag__ result);
result = FUNC(csin) (BUILD_COMPLEX (4.625, plus_infty));
check_isinfn ("real(csin(4.625 + i Inf)) = -Inf", __real__ result);
check_isinfn ("imag(csin(4.625 + i Inf)) = -Inf", __imag__ result);
result = FUNC(csin) (BUILD_COMPLEX (4.625, minus_infty));
check_isinfn ("real(csin(4.625 - i Inf)) = -Inf", __real__ result);
check_isinfp ("imag(csin(4.625 - i Inf)) = +Inf", __imag__ result);
result = FUNC(csin) (BUILD_COMPLEX (-4.625, plus_infty));
check_isinfp ("real(csin(-4.625 + i Inf)) = +Inf", __real__ result);
check_isinfn ("imag(csin(-4.625 + i Inf)) = -Inf", __imag__ result);
result = FUNC(csin) (BUILD_COMPLEX (-4.625, minus_infty));
check_isinfp ("real(csin(-4.625 - i Inf)) = +Inf", __real__ result);
check_isinfp ("imag(csin(-4.625 - i Inf)) = +Inf", __imag__ result);
result = FUNC(csin) (BUILD_COMPLEX (nan_value, 0.0));
check_isnan ("real(csin(NaN + i0)) = NaN", __real__ result);
check ("imag(csin(NaN + i0)) = +-0", FUNC(fabs) (__imag__ result), 0);
result = FUNC(csin) (BUILD_COMPLEX (nan_value, minus_zero));
check_isnan ("real(csin(NaN - i0)) = NaN", __real__ result);
check ("imag(csin(NaN - i0)) = +-0", FUNC(fabs) (__imag__ result), 0);
result = FUNC(csin) (BUILD_COMPLEX (nan_value, plus_infty));
check_isnan ("real(csin(NaN + i Inf)) = NaN", __real__ result);
check_isinfp ("imag(csin(NaN + i Inf)) = +-Inf",
FUNC(fabs) (__imag__ result));
result = FUNC(csin) (BUILD_COMPLEX (nan_value, minus_infty));
check_isnan ("real(csin(NaN - i Inf)) = NaN", __real__ result);
check_isinfp ("real(csin(NaN - i Inf)) = +-Inf",
FUNC(fabs) (__imag__ result));
result = FUNC(csin) (BUILD_COMPLEX (nan_value, 9.0));
check_isnan_maybe_exc ("real(csin(NaN + i9.0)) = NaN plus maybe invalid exception",
__real__ result, INVALID_EXCEPTION);
check_isnan ("imag(csin(NaN + i9.0)) = NaN plus maybe invalid exception",
__imag__ result);
result = FUNC(csin) (BUILD_COMPLEX (nan_value, -9.0));
check_isnan_maybe_exc ("real(csin(NaN - i9.0)) = NaN plus maybe invalid exception",
__real__ result, INVALID_EXCEPTION);
check_isnan ("imag(csin(NaN - i9.0)) = NaN plus maybe invalid exception",
__imag__ result);
result = FUNC(csin) (BUILD_COMPLEX (0.0, nan_value));
check ("real(csin(0 + i NaN))", __real__ result, 0.0);
check_isnan ("imag(csin(0 + i NaN)) = NaN", __imag__ result);
result = FUNC(csin) (BUILD_COMPLEX (minus_zero, nan_value));
check ("real(csin(-0 + i NaN)) = -0", __real__ result, minus_zero);
check_isnan ("imag(csin(-0 + NaN)) = NaN", __imag__ result);
result = FUNC(csin) (BUILD_COMPLEX (10.0, nan_value));
check_isnan_maybe_exc ("real(csin(10 + i NaN)) = NaN plus maybe invalid exception",
__real__ result, INVALID_EXCEPTION);
check_isnan ("imag(csin(10 + i NaN)) = NaN plus maybe invalid exception",
__imag__ result);
result = FUNC(csin) (BUILD_COMPLEX (nan_value, -10.0));
check_isnan_maybe_exc ("real(csin(-10 + i NaN)) = NaN plus maybe invalid exception",
__real__ result, INVALID_EXCEPTION);
check_isnan ("imag(csin(-10 + i NaN)) = NaN plus maybe invalid exception",
__imag__ result);
result = FUNC(csin) (BUILD_COMPLEX (plus_infty, nan_value));
check_isnan_maybe_exc ("real(csin(+Inf + i NaN)) = NaN plus maybe invalid exception",
__real__ result, INVALID_EXCEPTION);
check_isnan ("imag(csin(+Inf + i NaN)) = NaN plus maybe invalid exception",
__imag__ result);
result = FUNC(csin) (BUILD_COMPLEX (minus_infty, nan_value));
check_isnan_maybe_exc ("real(csin(-Inf + i NaN)) = NaN plus maybe invalid exception",
__real__ result, INVALID_EXCEPTION);
check_isnan ("imag(csin(-Inf + i NaN)) = NaN plus maybe invalid exception",
__imag__ result);
result = FUNC(csin) (BUILD_COMPLEX (nan_value, nan_value));
check_isnan ("real(csin(NaN + i NaN)) = NaN", __real__ result);
check_isnan ("imag(csin(NaN + i NaN)) = NaN", __imag__ result);
}
static void
csinh_test (void)
{
__complex__ MATHTYPE result;
result = FUNC(csinh) (BUILD_COMPLEX (0.0, 0.0));
check ("real(csinh(0 + 0i)) = 0", __real__ result, 0);
check ("imag(csinh(0 + 0i)) = 0", __imag__ result, 0);
result = FUNC(csinh) (BUILD_COMPLEX (minus_zero, 0.0));
check ("real(csinh(-0 + 0i)) = -0", __real__ result, minus_zero);
check ("imag(csinh(-0 + 0i)) = 0", __imag__ result, 0);
result = FUNC(csinh) (BUILD_COMPLEX (0.0, minus_zero));
check ("real(csinh(0 - 0i)) = 0", __real__ result, 0);
check ("imag(csinh(0 - 0i)) = -0", __imag__ result, minus_zero);
result = FUNC(csinh) (BUILD_COMPLEX (minus_zero, minus_zero));
check ("real(csinh(-0 - 0i)) = -0", __real__ result, minus_zero);
check ("imag(csinh(-0 - 0i)) = -0", __imag__ result, minus_zero);
result = FUNC(csinh) (BUILD_COMPLEX (0.0, plus_infty));
check_exc ("real(csinh(0 + i Inf)) = +-0 plus invalid exception",
FUNC(fabs) (__real__ result), 0, INVALID_EXCEPTION);
check_isnan ("imag(csinh(0 + i Inf)) = NaN plus invalid exception",
__imag__ result);
result = FUNC(csinh) (BUILD_COMPLEX (minus_zero, plus_infty));
check_exc ("real(csinh(-0 + i Inf)) = +-0 plus invalid exception",
FUNC(fabs) (__real__ result), 0, INVALID_EXCEPTION);
check_isnan ("imag(csinh(-0 + i Inf)) = NaN plus invalid exception",
__imag__ result);
result = FUNC(csinh) (BUILD_COMPLEX (0.0, minus_infty));
check_exc ("real(csinh(0 - i Inf)) = +-0 plus invalid exception",
FUNC(fabs) (__real__ result), 0, INVALID_EXCEPTION);
check_isnan ("imag(csinh(0 - i Inf)) = NaN plus invalid exception",
__imag__ result);
result = FUNC(csinh) (BUILD_COMPLEX (minus_zero, minus_infty));
check_exc ("real(csinh(-0 - i Inf)) = +-0 plus invalid exception",
FUNC(fabs) (__real__ result), 0, INVALID_EXCEPTION);
check_isnan ("imag(csinh(-0 - i Inf)) = NaN plus invalid exception",
__imag__ result);
result = FUNC(csinh) (BUILD_COMPLEX (plus_infty, 0.0));
check_isinfp ("real(csinh(+Inf + 0i)) = +Inf", __real__ result);
check ("imag(csinh(+Inf + 0i)) = 0", __imag__ result, 0);
result = FUNC(csinh) (BUILD_COMPLEX (minus_infty, 0.0));
check_isinfn ("real(csinh(-Inf + 0i)) = -Inf", __real__ result);
check ("imag(csinh(-Inf + 0i)) = 0", __imag__ result, 0);
result = FUNC(csinh) (BUILD_COMPLEX (plus_infty, minus_zero));
check_isinfp ("real(csinh(+Inf - 0i)) = +Inf", __real__ result);
check ("imag(csinh(+Inf - 0i)) = -0", __imag__ result, minus_zero);
result = FUNC(csinh) (BUILD_COMPLEX (minus_infty, minus_zero));
check_isinfn ("real(csinh(-Inf - 0i)) = -Inf", __real__ result);
check ("imag(csinh(-Inf - 0i)) = -0", __imag__ result, minus_zero);
result = FUNC(csinh) (BUILD_COMPLEX (plus_infty, plus_infty));
check_isinfp_exc ("real(csinh(+Inf + i Inf)) = +-Inf plus invalid exception",
FUNC(fabs) (__real__ result), INVALID_EXCEPTION);
check_isnan ("imag(csinh(+Inf + i Inf)) = NaN plus invalid exception",
__imag__ result);
result = FUNC(csinh) (BUILD_COMPLEX (minus_infty, plus_infty));
check_isinfp_exc ("real(csinh(-Inf + i Inf)) = +-Inf plus invalid exception",
FUNC(fabs) (__real__ result), INVALID_EXCEPTION);
check_isnan ("imag(csinh(-Inf + i Inf)) = NaN plus invalid exception",
__imag__ result);
result = FUNC(csinh) (BUILD_COMPLEX (plus_infty, minus_infty));
check_isinfp_exc ("real(csinh(Inf - i Inf)) = +-Inf plus invalid exception",
FUNC(fabs) (__real__ result), INVALID_EXCEPTION);
check_isnan ("imag(csinh(Inf - i Inf)) = NaN plus invalid exception",
__imag__ result);
result = FUNC(csinh) (BUILD_COMPLEX (minus_infty, minus_infty));
check_isinfp_exc ("real(csinh(-Inf - i Inf)) = +-Inf plus invalid exception",
FUNC(fabs) (__real__ result), INVALID_EXCEPTION);
check_isnan ("imag(csinh(-Inf - i Inf)) = NaN plus invalid exception",
__imag__ result);
result = FUNC(csinh) (BUILD_COMPLEX (plus_infty, 4.625));
check_isinfn ("real(csinh(+Inf + i4.625)) = -Inf", __real__ result);
check_isinfn ("imag(csinh(+Inf + i4.625)) = -Inf", __imag__ result);
result = FUNC(csinh) (BUILD_COMPLEX (minus_infty, 4.625));
check_isinfp ("real(csinh(-Inf + i4.625)) = +Inf", __real__ result);
check_isinfn ("imag(csinh(-Inf + i4.625)) = -Inf", __imag__ result);
result = FUNC(csinh) (BUILD_COMPLEX (plus_infty, -4.625));
check_isinfn ("real(csinh(+Inf - i4.625)) = -Inf", __real__ result);
check_isinfp ("imag(csinh(+Inf - i4.625)) = +Inf", __imag__ result);
result = FUNC(csinh) (BUILD_COMPLEX (minus_infty, -4.625));
check_isinfp ("real(csinh(-Inf - i4.625)) = +Inf", __real__ result);
check_isinfp ("imag(csinh(-Inf - i4.625)) = +Inf", __imag__ result);
result = FUNC(csinh) (BUILD_COMPLEX (6.75, plus_infty));
check_isnan_exc ("real(csinh(6.75 + i Inf)) = NaN plus invalid exception",
__real__ result, INVALID_EXCEPTION);
check_isnan ("imag(csinh(6.75 + i Inf)) = NaN plus invalid exception",
__imag__ result);
result = FUNC(csinh) (BUILD_COMPLEX (-6.75, plus_infty));
check_isnan_exc ("real(csinh(-6.75 + i Inf)) = NaN plus invalid exception",
__real__ result, INVALID_EXCEPTION);
check_isnan ("imag(csinh(-6.75 + i Inf)) = NaN plus invalid exception",
__imag__ result);
result = FUNC(csinh) (BUILD_COMPLEX (6.75, minus_infty));
check_isnan_exc ("real(csinh(6.75 - i Inf)) = NaN plus invalid exception",
__real__ result, INVALID_EXCEPTION);
check_isnan ("imag(csinh(6.75 - i Inf)) = NaN plus invalid exception",
__imag__ result);
result = FUNC(csinh) (BUILD_COMPLEX (-6.75, minus_infty));
check_isnan_exc ("real(csinh(-6.75 - i Inf)) = NaN plus invalid exception",
__real__ result, INVALID_EXCEPTION);
check_isnan ("imag(csinh(-6.75 - i Inf)) = NaN plus invalid exception",
__imag__ result);
result = FUNC(csinh) (BUILD_COMPLEX (0.0, nan_value));
check ("real(csinh(0 + i NaN)) = +-0", FUNC(fabs) (__real__ result), 0);
check_isnan ("imag(csinh(0 + i NaN)) = NaN", __imag__ result);
result = FUNC(csinh) (BUILD_COMPLEX (minus_zero, nan_value));
check ("real(csinh(-0 + i NaN)) = +-0", FUNC(fabs) (__real__ result), 0);
check_isnan ("imag(csinh(-0 + i NaN)) = NaN", __imag__ result);
result = FUNC(csinh) (BUILD_COMPLEX (plus_infty, nan_value));
check_isinfp ("real(csinh(+Inf + i NaN)) = +-Inf",
FUNC(fabs) (__real__ result));
check_isnan ("imag(csinh(+Inf + i NaN)) = NaN", __imag__ result);
result = FUNC(csinh) (BUILD_COMPLEX (minus_infty, nan_value));
check_isinfp ("real(csinh(-Inf + i NaN)) = +-Inf",
FUNC(fabs) (__real__ result));
check_isnan ("imag(csinh(-Inf + i NaN)) = NaN", __imag__ result);
result = FUNC(csinh) (BUILD_COMPLEX (9.0, nan_value));
check_isnan_maybe_exc ("real(csinh(9.0 + i NaN)) = NaN plus maybe invalid exception",
__real__ result, INVALID_EXCEPTION);
check_isnan ("imag(csinh(9.0 + i NaN)) = NaN plus maybe invalid exception",
__imag__ result);
result = FUNC(csinh) (BUILD_COMPLEX (-9.0, nan_value));
check_isnan_maybe_exc ("real(csinh(-9.0 + i NaN)) = NaN plus maybe invalid exception",
__real__ result, INVALID_EXCEPTION);
check_isnan ("imag(csinh(-9.0 + i NaN)) = NaN plus maybe invalid exception",
__imag__ result);
result = FUNC(csinh) (BUILD_COMPLEX (nan_value, 0.0));
check_isnan ("real(csinh(NaN + i0)) = NaN", __real__ result);
check ("imag(csinh(NaN + i0)) = 0", __imag__ result, 0.0);
result = FUNC(csinh) (BUILD_COMPLEX (nan_value, minus_zero));
check_isnan ("real(csinh(NaN - i0)) = NaN", __real__ result);
check ("imag(csinh(NaN - i0)) = -0", __imag__ result, minus_zero);
result = FUNC(csinh) (BUILD_COMPLEX (nan_value, 10.0));
check_isnan_maybe_exc ("real(csinh(NaN + i10)) = NaN plus maybe invalid exception",
__real__ result, INVALID_EXCEPTION);
check_isnan ("imag(csinh(NaN + i10)) = NaN plus maybe invalid exception",
__imag__ result);
result = FUNC(csinh) (BUILD_COMPLEX (nan_value, -10.0));
check_isnan_maybe_exc ("real(csinh(NaN - i10)) = NaN plus maybe invalid exception",
__real__ result, INVALID_EXCEPTION);
check_isnan ("imag(csinh(NaN - i10)) = NaN plus maybe invalid exception",
__imag__ result);
result = FUNC(csinh) (BUILD_COMPLEX (nan_value, plus_infty));
check_isnan_maybe_exc ("real(csinh(NaN + i Inf)) = NaN plus maybe invalid exception",
__real__ result, INVALID_EXCEPTION);
check_isnan ("imag(csinh(NaN + i Inf)) = NaN plus maybe invalid exception",
__imag__ result);
result = FUNC(csinh) (BUILD_COMPLEX (nan_value, minus_infty));
check_isnan_maybe_exc ("real(csinh(NaN - i Inf)) = NaN plus maybe invalid exception",
__real__ result, INVALID_EXCEPTION);
check_isnan ("imag(csinh(NaN - i Inf)) = NaN plus maybe invalid exception",
__imag__ result);
result = FUNC(csinh) (BUILD_COMPLEX (nan_value, nan_value));
check_isnan ("real(csinh(NaN + i NaN)) = NaN", __real__ result);
check_isnan ("imag(csinh(NaN + i NaN)) = NaN", __imag__ result);
}
static void
ccos_test (void)
{
__complex__ MATHTYPE result;
result = FUNC(ccos) (BUILD_COMPLEX (0.0, 0.0));
check ("real(ccos(0 + 0i)) = 1.0", __real__ result, 1.0);
check ("imag(ccos(0 + 0i)) = -0", __imag__ result, minus_zero);
result = FUNC(ccos) (BUILD_COMPLEX (minus_zero, 0.0));
check ("real(ccos(-0 + 0i)) = 1.0", __real__ result, 1.0);
check ("imag(ccos(-0 + 0i)) = 0", __imag__ result, 0.0);
result = FUNC(ccos) (BUILD_COMPLEX (0.0, minus_zero));
check ("real(ccos(0 - 0i)) = 1.0", __real__ result, 1.0);
check ("imag(ccos(0 - 0i)) = 0", __imag__ result, 0.0);
result = FUNC(ccos) (BUILD_COMPLEX (minus_zero, minus_zero));
check ("real(ccos(-0 - 0i)) = 1.0", __real__ result, 1.0);
check ("imag(ccos(-0 - 0i)) = -0", __imag__ result, minus_zero);
result = FUNC(ccos) (BUILD_COMPLEX (plus_infty, 0.0));
check_isnan_exc ("real(ccos(+Inf + i0)) = NaN plus invalid exception",
__real__ result, INVALID_EXCEPTION);
check ("imag(ccos(Inf + i0)) = +-0 plus invalid exception",
FUNC(fabs) (__imag__ result), 0);
result = FUNC(ccos) (BUILD_COMPLEX (plus_infty, minus_zero));
check_isnan_exc ("real(ccos(Inf - i0)) = NaN plus invalid exception",
__real__ result, INVALID_EXCEPTION);
check ("imag(ccos(Inf - i0)) = +-0 plus invalid exception",
FUNC(fabs) (__imag__ result), 0);
result = FUNC(ccos) (BUILD_COMPLEX (minus_infty, 0.0));
check_isnan_exc ("real(ccos(-Inf + i0)) = NaN plus invalid exception",
__real__ result, INVALID_EXCEPTION);
check ("imag(ccos(-Inf + i0)) = +-0 plus invalid exception",
FUNC(fabs) (__imag__ result), 0);
result = FUNC(ccos) (BUILD_COMPLEX (minus_infty, minus_zero));
check_isnan_exc ("real(ccos(-Inf - i0)) = NaN plus invalid exception",
__real__ result, INVALID_EXCEPTION);
check ("imag(ccos(-Inf - i0)) = +-0 plus invalid exception",
FUNC(fabs) (__imag__ result), 0);
result = FUNC(ccos) (BUILD_COMPLEX (0.0, plus_infty));
check_isinfp ("real(ccos(0 + i Inf)) = +Inf", __real__ result);
check ("imag(ccos(0 + i Inf)) = -0", __imag__ result, minus_zero);
result = FUNC(ccos) (BUILD_COMPLEX (0.0, minus_infty));
check_isinfp ("real(ccos(0 - i Inf)) = +Inf", __real__ result);
check ("imag(ccos(0 - i Inf)) = 0", __imag__ result, 0);
result = FUNC(ccos) (BUILD_COMPLEX (minus_zero, plus_infty));
check_isinfp ("real(ccos(-0 + i Inf)) = +Inf", __real__ result);
check ("imag(ccos(-0 + i Inf)) = 0", __imag__ result, 0.0);
result = FUNC(ccos) (BUILD_COMPLEX (minus_zero, minus_infty));
check_isinfp ("real(ccos(-0 - i Inf)) = +Inf", __real__ result);
check ("imag(ccos(-0 - i Inf)) = -0", __imag__ result, minus_zero);
result = FUNC(ccos) (BUILD_COMPLEX (plus_infty, plus_infty));
check_isinfp_exc ("real(ccos(+Inf + i Inf)) = +Inf plus invalid exception",
__real__ result, INVALID_EXCEPTION);
check_isnan ("imag(ccos(+Inf + i Inf)) = NaN plus invalid exception",
__imag__ result);
result = FUNC(ccos) (BUILD_COMPLEX (minus_infty, plus_infty));
check_isinfp_exc ("real(ccos(-Inf + i Inf)) = +Inf plus invalid exception",
__real__ result, INVALID_EXCEPTION);
check_isnan ("imag(ccos(-Inf + i Inf)) = NaN plus invalid exception",
__imag__ result);
result = FUNC(ccos) (BUILD_COMPLEX (plus_infty, minus_infty));
check_isinfp_exc ("real(ccos(Inf - i Inf)) = +Inf plus invalid exception",
__real__ result, INVALID_EXCEPTION);
check_isnan ("imag(ccos(Inf - i Inf)) = NaN plus invalid exception",
__imag__ result);
result = FUNC(ccos) (BUILD_COMPLEX (minus_infty, minus_infty));
check_isinfp_exc ("real(ccos(-Inf - i Inf)) = +Inf plus invalid exception",
__real__ result, INVALID_EXCEPTION);
check_isnan ("imag(ccos(-Inf - i Inf)) = NaN plus invalid exception",
__imag__ result);
result = FUNC(ccos) (BUILD_COMPLEX (4.625, plus_infty));
check_isinfn ("real(ccos(4.625 + i Inf)) = -Inf", __real__ result);
check_isinfp ("imag(ccos(4.625 + i Inf)) = +Inf", __imag__ result);
result = FUNC(ccos) (BUILD_COMPLEX (4.625, minus_infty));
check_isinfn ("real(ccos(4.625 - i Inf)) = -Inf", __real__ result);
check_isinfn ("imag(ccos(4.625 - i Inf)) = -Inf", __imag__ result);
result = FUNC(ccos) (BUILD_COMPLEX (-4.625, plus_infty));
check_isinfn ("real(ccos(-4.625 + i Inf)) = -Inf", __real__ result);
check_isinfn ("imag(ccos(-4.625 + i Inf)) = -Inf", __imag__ result);
result = FUNC(ccos) (BUILD_COMPLEX (-4.625, minus_infty));
check_isinfn ("real(ccos(-4.625 - i Inf)) = -Inf", __real__ result);
check_isinfp ("imag(ccos(-4.625 - i Inf)) = +Inf", __imag__ result);
result = FUNC(ccos) (BUILD_COMPLEX (plus_infty, 6.75));
check_isnan_exc ("real(ccos(+Inf + i6.75)) = NaN plus invalid exception",
__real__ result, INVALID_EXCEPTION);
check_isnan ("imag(ccos(+Inf + i6.75)) = NaN plus invalid exception",
__imag__ result);
result = FUNC(ccos) (BUILD_COMPLEX (plus_infty, -6.75));
check_isnan_exc ("real(ccos(+Inf - i6.75)) = NaN plus invalid exception",
__real__ result, INVALID_EXCEPTION);
check_isnan ("imag(ccos(+Inf - i6.75)) = NaN plus invalid exception",
__imag__ result);
result = FUNC(ccos) (BUILD_COMPLEX (minus_infty, 6.75));
check_isnan_exc ("real(ccos(-Inf + i6.75)) = NaN plus invalid exception",
__real__ result, INVALID_EXCEPTION);
check_isnan ("imag(ccos(-Inf + i6.75)) = NaN plus invalid exception",
__imag__ result);
result = FUNC(ccos) (BUILD_COMPLEX (minus_infty, -6.75));
check_isnan_exc ("real(ccos(-Inf - i6.75)) = NaN plus invalid exception",
__real__ result, INVALID_EXCEPTION);
check_isnan ("imag(ccos(-Inf - i6.75)) = NaN plus invalid exception",
__imag__ result);
result = FUNC(ccos) (BUILD_COMPLEX (nan_value, 0.0));
check_isnan ("real(ccos(NaN + i0)) = NaN", __real__ result);
check ("imag(ccos(NaN + i0)) = +-0", FUNC(fabs) (__imag__ result), 0);
result = FUNC(ccos) (BUILD_COMPLEX (nan_value, minus_zero));
check_isnan ("real(ccos(NaN - i0)) = NaN", __real__ result);
check ("imag(ccos(NaN - i0)) = +-0", FUNC(fabs) (__imag__ result), 0);
result = FUNC(ccos) (BUILD_COMPLEX (nan_value, plus_infty));
check_isinfp ("real(ccos(NaN + i Inf)) = +Inf", __real__ result);
check_isnan ("imag(ccos(NaN + i Inf)) = NaN", __imag__ result);
result = FUNC(ccos) (BUILD_COMPLEX (nan_value, minus_infty));
check_isinfp ("real(ccos(NaN - i Inf)) = +Inf", __real__ result);
check_isnan ("imag(ccos(NaN - i Inf)) = NaN", __imag__ result);
result = FUNC(ccos) (BUILD_COMPLEX (nan_value, 9.0));
check_isnan_maybe_exc ("real(ccos(NaN + i9.0)) = NaN plus maybe invalid exception",
__real__ result, INVALID_EXCEPTION);
check_isnan ("imag(ccos(NaN + i9.0)) = NaN plus maybe invalid exception",
__imag__ result);
result = FUNC(ccos) (BUILD_COMPLEX (nan_value, -9.0));
check_isnan_maybe_exc ("real(ccos(NaN - i9.0)) = NaN plus maybe invalid exception",
__real__ result, INVALID_EXCEPTION);
check_isnan ("imag(ccos(NaN - i9.0)) = NaN plus maybe invalid exception",
__imag__ result);
result = FUNC(ccos) (BUILD_COMPLEX (0.0, nan_value));
check_isnan ("real(ccos(0 + i NaN)) = NaN", __real__ result);
check ("imag(ccos(0 + i NaN)) = +-0", FUNC(fabs) (__imag__ result), 0.0);
result = FUNC(ccos) (BUILD_COMPLEX (minus_zero, nan_value));
check_isnan ("real(ccos(-0 + i NaN)) = NaN", __real__ result);
check ("imag(ccos(-0 + i NaN)) = +-0", FUNC(fabs) (__imag__ result), 0.0);
result = FUNC(ccos) (BUILD_COMPLEX (10.0, nan_value));
check_isnan_maybe_exc ("real(ccos(10 + i NaN)) = NaN plus maybe invalid exception",
__real__ result, INVALID_EXCEPTION);
check_isnan ("imag(ccos(10 + i NaN)) = NaN plus maybe invalid exception",
__imag__ result);
result = FUNC(ccos) (BUILD_COMPLEX (-10.0, nan_value));
check_isnan_maybe_exc ("real(ccos(-10 + i NaN)) = NaN plus maybe invalid exception",
__real__ result, INVALID_EXCEPTION);
check_isnan ("imag(ccos(-10 + i NaN)) = NaN plus maybe invalid exception",
__imag__ result);
result = FUNC(ccos) (BUILD_COMPLEX (plus_infty, nan_value));
check_isnan_maybe_exc ("real(ccos(+Inf + i NaN)) = NaN plus maybe invalid exception",
__real__ result, INVALID_EXCEPTION);
check_isnan ("imag(ccos(+Inf + i NaN)) = NaN plus maybe invalid exception",
__imag__ result);
result = FUNC(ccos) (BUILD_COMPLEX (minus_infty, nan_value));
check_isnan_maybe_exc ("real(ccos(-Inf + i NaN)) = NaN plus maybe invalid exception",
__real__ result, INVALID_EXCEPTION);
check_isnan ("imag(ccos(-Inf + i NaN)) = NaN plus maybe invalid exception",
__imag__ result);
result = FUNC(ccos) (BUILD_COMPLEX (nan_value, nan_value));
check_isnan ("real(ccos(NaN + i NaN)) = NaN", __real__ result);
check_isnan ("imag(ccos(NaN + i NaN)) = NaN", __imag__ result);
}
static void
ccosh_test (void)
{
__complex__ MATHTYPE result;
result = FUNC(ccosh) (BUILD_COMPLEX (0.0, 0.0));
check ("real(ccosh(0 + 0i)) = 1.0", __real__ result, 1.0);
check ("imag(ccosh(0 + 0i)) = 0", __imag__ result, 0);
result = FUNC(ccosh) (BUILD_COMPLEX (minus_zero, 0.0));
check ("real(ccosh(-0 + 0i)) = 1.0", __real__ result, 1.0);
check ("imag(ccosh(-0 + 0i)) = -0", __imag__ result, minus_zero);
result = FUNC(ccosh) (BUILD_COMPLEX (0.0, minus_zero));
check ("real(ccosh(0 - 0i)) = 1.0", __real__ result, 1.0);
check ("imag(ccosh(0 - 0i)) = -0", __imag__ result, minus_zero);
result = FUNC(ccosh) (BUILD_COMPLEX (minus_zero, minus_zero));
check ("real(ccosh(-0 - 0i)) = 1.0", __real__ result, 1.0);
check ("imag(ccosh(-0 - 0i)) = 0", __imag__ result, 0.0);
result = FUNC(ccosh) (BUILD_COMPLEX (0.0, plus_infty));
check_isnan_exc ("real(ccosh(0 + i Inf)) = NaN plus invalid exception",
__real__ result, INVALID_EXCEPTION);
check ("imag(ccosh(0 + i Inf)) = +-0 plus invalid exception",
FUNC(fabs) (__imag__ result), 0);
result = FUNC(ccosh) (BUILD_COMPLEX (minus_zero, plus_infty));
check_isnan_exc ("real(ccosh(-0 + i Inf)) = NaN plus invalid exception",
__real__ result, INVALID_EXCEPTION);
check ("imag(ccosh(-0 + i Inf)) = +-0 plus invalid exception",
FUNC(fabs) (__imag__ result), 0);
result = FUNC(ccosh) (BUILD_COMPLEX (0.0, minus_infty));
check_isnan_exc ("real(ccosh(0 - i Inf)) = NaN plus invalid exception",
__real__ result, INVALID_EXCEPTION);
check ("imag(ccosh(0 - i Inf)) = +-0 plus invalid exception",
FUNC(fabs) (__imag__ result), 0);
result = FUNC(ccosh) (BUILD_COMPLEX (minus_zero, minus_infty));
check_isnan_exc ("real(ccosh(-0 - i Inf)) = NaN plus invalid exception",
__real__ result, INVALID_EXCEPTION);
check ("imag(ccosh(-0 - i Inf)) = +-0 plus invalid exception",
FUNC(fabs) (__imag__ result), 0);
result = FUNC(ccosh) (BUILD_COMPLEX (plus_infty, 0.0));
check_isinfp ("real(ccosh(+Inf + 0i)) = +Inf", __real__ result);
check ("imag(ccosh(+Inf + 0i)) = 0", __imag__ result, 0);
result = FUNC(ccosh) (BUILD_COMPLEX (minus_infty, 0.0));
check_isinfp ("real(ccosh(-Inf + 0i)) = +Inf", __real__ result);
check ("imag(ccosh(-Inf + 0i)) = -0", __imag__ result, minus_zero);
result = FUNC(ccosh) (BUILD_COMPLEX (plus_infty, minus_zero));
check_isinfp ("real(ccosh(+Inf - 0i)) = +Inf", __real__ result);
check ("imag(ccosh(+Inf - 0i)) = -0", __imag__ result, minus_zero);
result = FUNC(ccosh) (BUILD_COMPLEX (minus_infty, minus_zero));
check_isinfp ("real(ccosh(-Inf - 0i)) = +Inf", __real__ result);
check ("imag(ccosh(-Inf - 0i)) = 0", __imag__ result, 0.0);
result = FUNC(ccosh) (BUILD_COMPLEX (plus_infty, plus_infty));
check_isinfp_exc ("real(ccosh(+Inf + i Inf)) = +Inf plus invalid exception",
__real__ result, INVALID_EXCEPTION);
check_isnan ("imag(ccosh(+Inf + i Inf)) = NaN plus invalid exception",
__imag__ result);
result = FUNC(ccosh) (BUILD_COMPLEX (minus_infty, plus_infty));
check_isinfp_exc ("real(ccosh(-Inf + i Inf)) = +Inf plus invalid exception",
__real__ result, INVALID_EXCEPTION);
check_isnan ("imag(ccosh(-Inf + i Inf)) = NaN plus invalid exception",
__imag__ result);
result = FUNC(ccosh) (BUILD_COMPLEX (plus_infty, minus_infty));
check_isinfp_exc ("real(ccosh(Inf - i Inf)) = +Inf plus invalid exception",
__real__ result, INVALID_EXCEPTION);
check_isnan ("imag(ccosh(Inf - i Inf)) = NaN plus invalid exception",
__imag__ result);
result = FUNC(ccosh) (BUILD_COMPLEX (minus_infty, minus_infty));
check_isinfp_exc ("real(ccosh(-Inf - i Inf)) = +Inf plus invalid exception",
__real__ result, INVALID_EXCEPTION);
check_isnan ("imag(ccosh(-Inf - i Inf)) = NaN plus invalid exception",
__imag__ result);
result = FUNC(ccosh) (BUILD_COMPLEX (plus_infty, 4.625));
check_isinfn ("real(ccosh(+Inf + i4.625)) = -Inf", __real__ result);
check_isinfn ("imag(ccosh(+Inf + i4.625)) = -Inf", __imag__ result);
result = FUNC(ccosh) (BUILD_COMPLEX (minus_infty, 4.625));
check_isinfn ("real(ccosh(-Inf + i4.625)) = -Inf", __real__ result);
check_isinfp ("imag(ccosh(-Inf + i4.625)) = Inf", __imag__ result);
result = FUNC(ccosh) (BUILD_COMPLEX (plus_infty, -4.625));
check_isinfn ("real(ccosh(+Inf - i4.625)) = -Inf", __real__ result);
check_isinfp ("imag(ccosh(+Inf - i4.625)) = +Inf", __imag__ result);
result = FUNC(ccosh) (BUILD_COMPLEX (minus_infty, -4.625));
check_isinfn ("real(ccosh(-Inf - i4.625)) = -Inf", __real__ result);
check_isinfn ("imag(ccosh(-Inf - i4.625)) = -Inf", __imag__ result);
result = FUNC(ccosh) (BUILD_COMPLEX (6.75, plus_infty));
check_isnan_exc ("real(ccosh(6.75 + i Inf)) = NaN plus invalid exception",
__real__ result, INVALID_EXCEPTION);
check_isnan ("imag(ccosh(6.75 + i Inf)) = NaN plus invalid exception",
__imag__ result);
result = FUNC(ccosh) (BUILD_COMPLEX (-6.75, plus_infty));
check_isnan_exc ("real(ccosh(-6.75 + i Inf)) = NaN plus invalid exception",
__real__ result, INVALID_EXCEPTION);
check_isnan ("imag(ccosh(-6.75 + i Inf)) = NaN plus invalid exception",
__imag__ result);
result = FUNC(ccosh) (BUILD_COMPLEX (6.75, minus_infty));
check_isnan_exc ("real(ccosh(6.75 - i Inf)) = NaN plus invalid exception",
__real__ result, INVALID_EXCEPTION);
check_isnan ("imag(ccosh(6.75 - i Inf)) = NaN plus invalid exception",
__imag__ result);
result = FUNC(ccosh) (BUILD_COMPLEX (-6.75, minus_infty));
check_isnan_exc ("real(ccosh(-6.75 - i Inf)) = NaN plus invalid exception",
__real__ result, INVALID_EXCEPTION);
check_isnan ("imag(ccosh(-6.75 - i Inf)) = NaN plus invalid exception",
__imag__ result);
result = FUNC(ccosh) (BUILD_COMPLEX (0.0, nan_value));
check_isnan ("real(ccosh(0 + i NaN)) = NaN", __real__ result);
check ("imag(ccosh(0 + i NaN)) = +-0", FUNC(fabs) (__imag__ result), 0);
result = FUNC(ccosh) (BUILD_COMPLEX (minus_zero, nan_value));
check_isnan ("real(ccosh(-0 + i NaN)) = NaN", __real__ result);
check ("imag(ccosh(-0 + i NaN)) = +-0", FUNC(fabs) (__imag__ result), 0);
result = FUNC(ccosh) (BUILD_COMPLEX (plus_infty, nan_value));
check_isinfp ("real(ccosh(+Inf + i NaN)) = +Inf", __real__ result);
check_isnan ("imag(ccosh(+Inf + i NaN)) = NaN", __imag__ result);
result = FUNC(ccosh) (BUILD_COMPLEX (minus_infty, nan_value));
check_isinfp ("real(ccosh(-Inf + i NaN)) = +Inf", __real__ result);
check_isnan ("imag(ccosh(-Inf + i NaN)) = NaN", __imag__ result);
result = FUNC(ccosh) (BUILD_COMPLEX (9.0, nan_value));
check_isnan_maybe_exc ("real(ccosh(9.0 + i NaN)) = NaN plus maybe invalid exception",
__real__ result, INVALID_EXCEPTION);
check_isnan ("imag(ccosh(9.0 + i NaN)) = NaN plus maybe invalid exception",
__imag__ result);
result = FUNC(ccosh) (BUILD_COMPLEX (-9.0, nan_value));
check_isnan_maybe_exc ("real(ccosh(-9.0 + i NaN)) = NaN plus maybe invalid exception",
__real__ result, INVALID_EXCEPTION);
check_isnan ("imag(ccosh(-9.0 + i NaN)) = NaN plus maybe invalid exception",
__imag__ result);
result = FUNC(ccosh) (BUILD_COMPLEX (nan_value, 0.0));
check_isnan ("real(ccosh(NaN + i0)) = NaN", __real__ result);
check ("imag(ccosh(NaN + i0)) = +-0", FUNC(fabs) (__imag__ result), 0.0);
result = FUNC(ccosh) (BUILD_COMPLEX (nan_value, minus_zero));
check_isnan ("real(ccosh(NaN - i0)) = NaN", __real__ result);
check ("imag(ccosh(NaN - i0)) = +-0", FUNC(fabs) (__imag__ result), 0.0);
result = FUNC(ccosh) (BUILD_COMPLEX (nan_value, 10.0));
check_isnan_maybe_exc ("real(ccosh(NaN + i10)) = NaN plus maybe invalid exception",
__real__ result, INVALID_EXCEPTION);
check_isnan ("imag(ccosh(NaN + i10)) = NaN plus maybe invalid exception",
__imag__ result);
result = FUNC(ccosh) (BUILD_COMPLEX (nan_value, -10.0));
check_isnan_maybe_exc ("real(ccosh(NaN - i10)) = NaN plus maybe invalid exception",
__real__ result, INVALID_EXCEPTION);
check_isnan ("imag(ccosh(NaN - i10)) = NaN plus maybe invalid exception",
__imag__ result);
result = FUNC(ccosh) (BUILD_COMPLEX (nan_value, plus_infty));
check_isnan_maybe_exc ("real(ccosh(NaN + i Inf)) = NaN plus maybe invalid exception",
__real__ result, INVALID_EXCEPTION);
check_isnan ("imag(ccosh(NaN + i Inf)) = NaN plus maybe invalid exception",
__imag__ result);
result = FUNC(ccosh) (BUILD_COMPLEX (nan_value, minus_infty));
check_isnan_maybe_exc ("real(ccosh(NaN - i Inf)) = NaN plus maybe invalid exception",
__real__ result, INVALID_EXCEPTION);
check_isnan ("imag(ccosh(NaN - i Inf)) = NaN plus maybe invalid exception",
__imag__ result);
result = FUNC(ccosh) (BUILD_COMPLEX (nan_value, nan_value));
check_isnan ("real(ccosh(NaN + i NaN)) = NaN", __real__ result);
check_isnan ("imag(ccosh(NaN + i NaN)) = NaN", __imag__ result);
}
static void
cacos_test (void)
{
__complex__ MATHTYPE result;
result = FUNC(cacos) (BUILD_COMPLEX (0, 0));
check ("real(cacos(0 + i0)) = pi/2", __real__ result, M_PI_2);
check ("imag(cacos(0 + i0)) = -0", __imag__ result, minus_zero);
result = FUNC(cacos) (BUILD_COMPLEX (minus_zero, 0));
check ("real(cacos(-0 + i0)) = pi/2", __real__ result, M_PI_2);
check ("imag(cacos(-0 + i0)) = -0", __imag__ result, minus_zero);
result = FUNC(cacos) (BUILD_COMPLEX (0, minus_zero));
check ("real(cacos(0 - i0)) = pi/2", __real__ result, M_PI_2);
check ("imag(cacos(0 - i0)) = 0", __imag__ result, 0);
result = FUNC(cacos) (BUILD_COMPLEX (minus_zero, minus_zero));
check ("real(cacos(-0 - i0)) = pi/2", __real__ result, M_PI_2);
check ("imag(cacos(-0 - i0)) = 0", __imag__ result, 0);
result = FUNC(cacos) (BUILD_COMPLEX (minus_infty, plus_infty));
check ("real(cacos(-Inf + i Inf)) = 3*pi/4", __real__ result, M_PI - M_PI_4);
check_isinfn ("imag(cacos(-Inf + i Inf)) = -Inf", __imag__ result);
result = FUNC(cacos) (BUILD_COMPLEX (minus_infty, minus_infty));
check ("real(cacos(-Inf - i Inf)) = 3*pi/4", __real__ result, M_PI - M_PI_4);
check_isinfp ("imag(cacos(-Inf - i Inf)) = +Inf", __imag__ result);
result = FUNC(cacos) (BUILD_COMPLEX (plus_infty, plus_infty));
check ("real(cacos(+Inf + i Inf)) = pi/4", __real__ result, M_PI_4);
check_isinfn ("imag(cacos(+Inf + i Inf)) = -Inf", __imag__ result);
result = FUNC(cacos) (BUILD_COMPLEX (plus_infty, minus_infty));
check ("real(cacos(+Inf - i Inf)) = pi/4", __real__ result, M_PI_4);
check_isinfp ("imag(cacos(+Inf - i Inf)) = +Inf", __imag__ result);
result = FUNC(cacos) (BUILD_COMPLEX (-10.0, plus_infty));
check ("real(cacos(-10.0 + i Inf)) = pi/2", __real__ result, M_PI_2);
check_isinfn ("imag(cacos(-10.0 + i Inf)) = -Inf", __imag__ result);
result = FUNC(cacos) (BUILD_COMPLEX (-10.0, minus_infty));
check ("real(cacos(-10.0 - i Inf)) = pi/2", __real__ result, M_PI_2);
check_isinfp ("imag(cacos(-10.0 - i Inf)) = +Inf", __imag__ result);
result = FUNC(cacos) (BUILD_COMPLEX (0, plus_infty));
check ("real(cacos(0 + i Inf)) = pi/2", __real__ result, M_PI_2);
check_isinfn ("imag(cacos(0 + i Inf)) = -Inf", __imag__ result);
result = FUNC(cacos) (BUILD_COMPLEX (0, minus_infty));
check ("real(cacos(0 - i Inf)) = pi/2", __real__ result, M_PI_2);
check_isinfp ("imag(cacos(0 - i Inf)) = +Inf", __imag__ result);
result = FUNC(cacos) (BUILD_COMPLEX (0.1, plus_infty));
check ("real(cacos(0.1 + i Inf)) = pi/2", __real__ result, M_PI_2);
check_isinfn ("imag(cacos(0.1 + i Inf)) = -Inf", __imag__ result);
result = FUNC(cacos) (BUILD_COMPLEX (0.1, minus_infty));
check ("real(cacos(0.1 - i Inf)) = pi/2", __real__ result, M_PI_2);
check_isinfp ("imag(cacos(0.1 - i Inf)) = +Inf", __imag__ result);
result = FUNC(cacos) (BUILD_COMPLEX (minus_infty, 0));
check ("real(cacos(-Inf + i0)) = pi", __real__ result, M_PI);
check_isinfn ("imag(cacos(-Inf + i0)) = -Inf", __imag__ result);
result = FUNC(cacos) (BUILD_COMPLEX (minus_infty, minus_zero));
check ("real(cacos(-Inf - i0)) = pi", __real__ result, M_PI);
check_isinfp ("imag(cacos(-Inf - i0)) = +Inf", __imag__ result);
result = FUNC(cacos) (BUILD_COMPLEX (minus_infty, 100));
check ("real(cacos(-Inf + i100)) = pi", __real__ result, M_PI);
check_isinfn ("imag(cacos(-Inf + i100)) = -Inf", __imag__ result);
result = FUNC(cacos) (BUILD_COMPLEX (minus_infty, -100));
check ("real(cacos(-Inf - i100)) = pi", __real__ result, M_PI);
check_isinfp ("imag(cacos(-Inf - i100)) = +Inf", __imag__ result);
result = FUNC(cacos) (BUILD_COMPLEX (plus_infty, 0));
check ("real(cacos(+Inf + i0)) = 0", __real__ result, 0);
check_isinfn ("imag(cacos(+Inf + i0)) = -Inf", __imag__ result);
result = FUNC(cacos) (BUILD_COMPLEX (plus_infty, minus_zero));
check ("real(cacos(+Inf - i0)) = 0", __real__ result, 0);
check_isinfp ("imag(cacos(+Inf - i0)) = +Inf", __imag__ result);
result = FUNC(cacos) (BUILD_COMPLEX (plus_infty, 0.5));
check ("real(cacos(+Inf + i0.5)) = 0", __real__ result, 0);
check_isinfn ("imag(cacos(+Inf + i0.5)) = -Inf", __imag__ result);
result = FUNC(cacos) (BUILD_COMPLEX (plus_infty, -0.5));
check ("real(cacos(+Inf - i0.5)) = 0", __real__ result, 0);
check_isinfp ("imag(cacos(+Inf - i0.5)) = +Inf", __imag__ result);
result = FUNC(cacos) (BUILD_COMPLEX (plus_infty, nan_value));
check_isnan ("real(cacos(+Inf + i NaN)) = NaN", __real__ result);
check_isinfp ("imag(cacos(+Inf + i NaN)) = +-Inf",
FUNC(fabs) (__imag__ result));
result = FUNC(cacos) (BUILD_COMPLEX (minus_infty, nan_value));
check_isnan ("real(cacos(-Inf + i NaN)) = NaN", __real__ result);
check_isinfp ("imag(cacos(-Inf + i NaN)) = +-Inf",
FUNC(fabs) (__imag__ result));
result = FUNC(cacos) (BUILD_COMPLEX (0, nan_value));
check ("real(cacos(0 + i NaN)) = pi/2", __real__ result, M_PI_2);
check_isnan ("imag(cacos(0 + i NaN)) = NaN", __imag__ result);
result = FUNC(cacos) (BUILD_COMPLEX (minus_zero, nan_value));
check ("real(cacos(-0 + i NaN)) = pi/2", __real__ result, M_PI_2);
check_isnan ("imag(cacos(-0 + i NaN)) = NaN", __imag__ result);
result = FUNC(cacos) (BUILD_COMPLEX (nan_value, plus_infty));
check_isnan ("real(cacos(NaN + i Inf)) = NaN", __real__ result);
check_isinfn ("imag(cacos(NaN + i Inf)) = -Inf", __imag__ result);
result = FUNC(cacos) (BUILD_COMPLEX (nan_value, minus_infty));
check_isnan ("real(cacos(NaN - i Inf)) = NaN", __real__ result);
check_isinfp ("imag(cacos(NaN - i Inf)) = +Inf", __imag__ result);
result = FUNC(cacos) (BUILD_COMPLEX (10.5, nan_value));
check_isnan_maybe_exc ("real(cacos(10.5 + i NaN)) = NaN plus maybe invalid exception",
__real__ result, INVALID_EXCEPTION);
check_isnan ("imag(cacos(10.5 + i NaN)) = NaN plus maybe invalid exception",
__imag__ result);
result = FUNC(cacos) (BUILD_COMPLEX (-10.5, nan_value));
check_isnan_maybe_exc ("real(cacos(-10.5 + i NaN)) = NaN plus maybe invalid exception",
__real__ result, INVALID_EXCEPTION);
check_isnan ("imag(cacos(-10.5 + i NaN)) = NaN plus maybe invalid exception",
__imag__ result);
result = FUNC(cacos) (BUILD_COMPLEX (nan_value, 0.75));
check_isnan_maybe_exc ("real(cacos(NaN + i0.75)) = NaN plus maybe invalid exception",
__real__ result, INVALID_EXCEPTION);
check_isnan ("imag(cacos(NaN + i0.75)) = NaN plus maybe invalid exception",
__imag__ result);
result = FUNC(cacos) (BUILD_COMPLEX (-10.5, nan_value));
check_isnan_maybe_exc ("real(cacos(NaN - i0.75)) = NaN plus maybe invalid exception",
__real__ result, INVALID_EXCEPTION);
check_isnan ("imag(cacos(NaN - i0.75)) = NaN plus maybe invalid exception",
__imag__ result);
result = FUNC(cacos) (BUILD_COMPLEX (nan_value, nan_value));
check_isnan ("real(cacos(NaN + i NaN)) = NaN", __real__ result);
check_isnan ("imag(cacos(NaN + i NaN)) = NaN", __imag__ result);
}
static void
cacosh_test (void)
{
__complex__ MATHTYPE result;
result = FUNC(cacosh) (BUILD_COMPLEX (0, 0));
check ("real(cacosh(0 + i0)) = 0", __real__ result, 0);
check ("imag(cacosh(0 + i0)) = pi/2", __imag__ result, M_PI_2);
result = FUNC(cacosh) (BUILD_COMPLEX (minus_zero, 0));
check ("real(cacosh(-0 + i0)) = 0", __real__ result, 0);
check ("imag(cacosh(-0 + i0)) = pi/2", __imag__ result, M_PI_2);
result = FUNC(cacosh) (BUILD_COMPLEX (0, minus_zero));
check ("real(cacosh(0 - i0)) = 0", __real__ result, 0);
check ("imag(cacosh(0 - i0)) = -pi/2", __imag__ result, -M_PI_2);
result = FUNC(cacosh) (BUILD_COMPLEX (minus_zero, minus_zero));
check ("real(cacosh(-0 - i0)) = 0", __real__ result, 0);
check ("imag(cacosh(-0 - i0)) = -pi/2", __imag__ result, -M_PI_2);
result = FUNC(cacosh) (BUILD_COMPLEX (minus_infty, plus_infty));
check_isinfp ("real(cacosh(-Inf + i Inf)) = +Inf", __real__ result);
check ("imag(cacosh(-Inf + i Inf)) = 3*pi/4", __imag__ result,
M_PI - M_PI_4);
result = FUNC(cacosh) (BUILD_COMPLEX (minus_infty, minus_infty));
check_isinfp ("real(cacosh(-Inf - i Inf)) = +Inf", __real__ result);
check ("imag(cacosh(-Inf - i Inf)) = -3*pi/4", __imag__ result,
M_PI_4 - M_PI);
result = FUNC(cacosh) (BUILD_COMPLEX (plus_infty, plus_infty));
check_isinfp ("real(cacosh(+Inf + i Inf)) = +Inf", __real__ result);
check ("imag(cacosh(+Inf + i Inf)) = pi/4", __imag__ result, M_PI_4);
result = FUNC(cacosh) (BUILD_COMPLEX (plus_infty, minus_infty));
check_isinfp ("real(cacosh(+Inf - i Inf)) = +Inf", __real__ result);
check ("imag(cacosh(+Inf - i Inf)) = -pi/4", __imag__ result, -M_PI_4);
result = FUNC(cacosh) (BUILD_COMPLEX (-10.0, plus_infty));
check_isinfp ("real(cacosh(-10.0 + i Inf)) = +Inf", __real__ result);
check ("imag(cacosh(-10.0 + i Inf)) = pi/2", __imag__ result, M_PI_2);
result = FUNC(cacosh) (BUILD_COMPLEX (-10.0, minus_infty));
check_isinfp ("real(cacosh(-10.0 - i Inf)) = +Inf", __real__ result);
check ("imag(cacosh(-10.0 - i Inf)) = -pi/2", __imag__ result, -M_PI_2);
result = FUNC(cacosh) (BUILD_COMPLEX (0, plus_infty));
check_isinfp ("real(cacosh(0 + i Inf)) = +Inf", __real__ result);
check ("imag(cacosh(0 + i Inf)) = pi/2", __imag__ result, M_PI_2);
result = FUNC(cacosh) (BUILD_COMPLEX (0, minus_infty));
check_isinfp ("real(cacosh(0 - i Inf)) = +Inf", __real__ result);
check ("imag(cacosh(0 - i Inf)) = -pi/2", __imag__ result, -M_PI_2);
result = FUNC(cacosh) (BUILD_COMPLEX (0.1, plus_infty));
check_isinfp ("real(cacosh(0.1 + i Inf)) = +Inf", __real__ result);
check ("imag(cacosh(0.1 + i Inf)) = pi/2", __imag__ result, M_PI_2);
result = FUNC(cacosh) (BUILD_COMPLEX (0.1, minus_infty));
check_isinfp ("real(cacosh(0.1 - i Inf)) = +Inf", __real__ result);
check ("imag(cacosh(0.1 - i Inf)) = -pi/2", __imag__ result, -M_PI_2);
result = FUNC(cacosh) (BUILD_COMPLEX (minus_infty, 0));
check_isinfp ("real(cacosh(-Inf + i0)) = +Inf", __real__ result);
check ("imag(cacosh(-Inf + i0)) = pi", __imag__ result, M_PI);
result = FUNC(cacosh) (BUILD_COMPLEX (minus_infty, minus_zero));
check_isinfp ("real(cacosh(-Inf - i0)) = +Inf", __real__ result);
check ("imag(cacosh(-Inf - i0)) = -pi", __imag__ result, -M_PI);
result = FUNC(cacosh) (BUILD_COMPLEX (minus_infty, 100));
check_isinfp ("real(cacosh(-Inf + i100)) = +Inf", __real__ result);
check ("imag(cacosh(-Inf + i100)) = pi", __imag__ result, M_PI);
result = FUNC(cacosh) (BUILD_COMPLEX (minus_infty, -100));
check_isinfp ("real(cacosh(-Inf - i100)) = +Inf", __real__ result);
check ("imag(cacosh(-Inf - i100)) = -pi", __imag__ result, -M_PI);
result = FUNC(cacosh) (BUILD_COMPLEX (plus_infty, 0));
check_isinfp ("real(cacosh(+Inf + i0)) = +Inf", __real__ result);
check ("imag(cacosh(+Inf + i0)) = 0", __imag__ result, 0);
result = FUNC(cacosh) (BUILD_COMPLEX (plus_infty, minus_zero));
check_isinfp ("real(cacosh(+Inf - i0)) = +Inf", __real__ result);
check ("imag(cacosh(+Inf - i0)) = -0", __imag__ result, minus_zero);
result = FUNC(cacosh) (BUILD_COMPLEX (plus_infty, 0.5));
check_isinfp ("real(cacosh(+Inf + i0.5)) = +Inf", __real__ result);
check ("imag(cacosh(+Inf + i0.5)) = 0", __imag__ result, 0);
result = FUNC(cacosh) (BUILD_COMPLEX (plus_infty, -0.5));
check_isinfp ("real(cacosh(+Inf - i0.5)) = +Inf", __real__ result);
check ("imag(cacosh(+Inf - i0.5)) = -0", __imag__ result, minus_zero);
result = FUNC(cacosh) (BUILD_COMPLEX (plus_infty, nan_value));
check_isinfp ("real(cacosh(+Inf + i NaN)) = +Inf", __real__ result);
check_isnan ("imag(cacosh(+Inf + i NaN)) = NaN", __imag__ result);
result = FUNC(cacosh) (BUILD_COMPLEX (minus_infty, nan_value));
check_isinfp ("real(cacosh(-Inf + i NaN)) = +Inf", __real__ result);
check_isnan ("imag(cacosh(-Inf + i NaN)) = NaN", __imag__ result);
result = FUNC(cacosh) (BUILD_COMPLEX (0, nan_value));
check_isnan ("real(cacosh(0 + i NaN)) = NaN", __real__ result);
check_isnan ("imag(cacosh(0 + i NaN)) = NaN", __imag__ result);
result = FUNC(cacosh) (BUILD_COMPLEX (minus_zero, nan_value));
check_isnan ("real(cacosh(-0 + i NaN)) = NaN", __real__ result);
check_isnan ("imag(cacosh(-0 + i NaN)) = NaN", __imag__ result);
result = FUNC(cacosh) (BUILD_COMPLEX (nan_value, plus_infty));
check_isinfp ("real(cacosh(NaN + i Inf)) = +Inf", __real__ result);
check_isnan ("imag(cacosh(NaN + i Inf)) = NaN", __imag__ result);
result = FUNC(cacosh) (BUILD_COMPLEX (nan_value, minus_infty));
check_isinfp ("real(cacosh(NaN - i Inf)) = +Inf", __real__ result);
check_isnan ("imag(cacosh(NaN - i Inf)) = NaN", __imag__ result);
result = FUNC(cacosh) (BUILD_COMPLEX (10.5, nan_value));
check_isnan_maybe_exc ("real(cacosh(10.5 + i NaN)) = NaN plus maybe invalid exception",
__real__ result, INVALID_EXCEPTION);
check_isnan ("imag(cacosh(10.5 + i NaN)) = NaN plus maybe invalid exception",
__imag__ result);
result = FUNC(cacosh) (BUILD_COMPLEX (-10.5, nan_value));
check_isnan_maybe_exc ("real(cacosh(-10.5 + i NaN)) = NaN plus maybe invalid exception",
__real__ result, INVALID_EXCEPTION);
check_isnan ("imag(cacosh(-10.5 + i NaN)) = NaN plus maybe invalid exception",
__imag__ result);
result = FUNC(cacosh) (BUILD_COMPLEX (nan_value, 0.75));
check_isnan_maybe_exc ("real(cacosh(NaN + i0.75)) = NaN plus maybe invalid exception",
__real__ result, INVALID_EXCEPTION);
check_isnan ("imag(cacosh(NaN + i0.75)) = NaN plus maybe invalid exception",
__imag__ result);
result = FUNC(cacosh) (BUILD_COMPLEX (-10.5, nan_value));
check_isnan_maybe_exc ("real(cacosh(NaN - i0.75)) = NaN plus maybe invalid exception",
__real__ result, INVALID_EXCEPTION);
check_isnan ("imag(cacosh(NaN - i0.75)) = NaN plus maybe invalid exception",
__imag__ result);
result = FUNC(cacosh) (BUILD_COMPLEX (nan_value, nan_value));
check_isnan ("real(cacosh(NaN + i NaN)) = NaN", __real__ result);
check_isnan ("imag(cacosh(NaN + i NaN)) = NaN", __imag__ result);
}
static void
casin_test (void)
{
__complex__ MATHTYPE result;
result = FUNC(casin) (BUILD_COMPLEX (0, 0));
check ("real(casin(0 + i0)) = 0", __real__ result, 0);
check ("imag(casin(0 + i0)) = 0", __imag__ result, 0);
result = FUNC(casin) (BUILD_COMPLEX (minus_zero, 0));
check ("real(casin(-0 + i0)) = -0", __real__ result, minus_zero);
check ("imag(casin(-0 + i0)) = 0", __imag__ result, 0);
result = FUNC(casin) (BUILD_COMPLEX (0, minus_zero));
check ("real(casin(0 - i0)) = 0", __real__ result, 0);
check ("imag(casin(0 - i0)) = -0", __imag__ result, minus_zero);
result = FUNC(casin) (BUILD_COMPLEX (minus_zero, minus_zero));
check ("real(casin(-0 - i0)) = -0", __real__ result, minus_zero);
check ("imag(casin(-0 - i0)) = -0", __imag__ result, minus_zero);
result = FUNC(casin) (BUILD_COMPLEX (plus_infty, plus_infty));
check ("real(casin(+Inf + i Inf)) = pi/4", __real__ result, M_PI_4);
check_isinfp ("imag(casin(+Inf + i Inf)) = +Inf", __imag__ result);
result = FUNC(casin) (BUILD_COMPLEX (plus_infty, minus_infty));
check ("real(casin(+Inf - i Inf)) = pi/4", __real__ result, M_PI_4);
check_isinfn ("imag(casin(+Inf - i Inf)) = -Inf", __imag__ result);
result = FUNC(casin) (BUILD_COMPLEX (minus_infty, plus_infty));
check ("real(casin(-Inf + i Inf)) = -pi/4", __real__ result, -M_PI_4);
check_isinfp ("imag(casin(-Inf + i Inf)) = +Inf", __imag__ result);
result = FUNC(casin) (BUILD_COMPLEX (minus_infty, minus_infty));
check ("real(casin(-Inf - i Inf)) = -pi/4", __real__ result, -M_PI_4);
check_isinfn ("imag(casin(-Inf - i Inf)) = -Inf", __imag__ result);
result = FUNC(casin) (BUILD_COMPLEX (-10.0, plus_infty));
check ("real(casin(-10.0 + i Inf)) = -0", __real__ result, minus_zero);
check_isinfp ("imag(casin(-10.0 + i Inf)) = +Inf", __imag__ result);
result = FUNC(casin) (BUILD_COMPLEX (-10.0, minus_infty));
check ("real(casin(-10.0 - i Inf)) = -0", __real__ result, minus_zero);
check_isinfn ("imag(casin(-10.0 - i Inf)) = -Inf", __imag__ result);
result = FUNC(casin) (BUILD_COMPLEX (0, plus_infty));
check ("real(casin(0 + i Inf)) = 0", __real__ result, 0.0);
check_isinfp ("imag(casin(0 + i Inf)) = +Inf", __imag__ result);
result = FUNC(casin) (BUILD_COMPLEX (0, minus_infty));
check ("real(casin(0 - i Inf)) = 0", __real__ result, 0.0);
check_isinfn ("imag(casin(0 - i Inf)) = -Inf", __imag__ result);
result = FUNC(casin) (BUILD_COMPLEX (minus_zero, plus_infty));
check ("real(casin(-0 + i Inf)) = -0", __real__ result, minus_zero);
check_isinfp ("imag(casin(-0 + i Inf)) = +Inf", __imag__ result);
result = FUNC(casin) (BUILD_COMPLEX (minus_zero, minus_infty));
check ("real(casin(-0 - i Inf)) = -0", __real__ result, minus_zero);
check_isinfn ("imag(casin(-0 - i Inf)) = -Inf", __imag__ result);
result = FUNC(casin) (BUILD_COMPLEX (0.1, plus_infty));
check ("real(casin(0.1 + i Inf)) = 0", __real__ result, 0);
check_isinfp ("imag(casin(0.1 + i Inf)) = +Inf", __imag__ result);
result = FUNC(casin) (BUILD_COMPLEX (0.1, minus_infty));
check ("real(casin(0.1 - i Inf)) = 0", __real__ result, 0);
check_isinfn ("imag(casin(0.1 - i Inf)) = -Inf", __imag__ result);
result = FUNC(casin) (BUILD_COMPLEX (minus_infty, 0));
check ("real(casin(-Inf + i0)) = -pi/2", __real__ result, -M_PI_2);
check_isinfp ("imag(casin(-Inf + i0)) = +Inf", __imag__ result);
result = FUNC(casin) (BUILD_COMPLEX (minus_infty, minus_zero));
check ("real(casin(-Inf - i0)) = -pi/2", __real__ result, -M_PI_2);
check_isinfn ("imag(casin(-Inf - i0)) = -Inf", __imag__ result);
result = FUNC(casin) (BUILD_COMPLEX (minus_infty, 100));
check ("real(casin(-Inf + i100)) = -pi/2", __real__ result, -M_PI_2);
check_isinfp ("imag(casin(-Inf + i100)) = +Inf", __imag__ result);
result = FUNC(casin) (BUILD_COMPLEX (minus_infty, -100));
check ("real(casin(-Inf - i100)) = -pi/2", __real__ result, -M_PI_2);
check_isinfn ("imag(casin(-Inf - i100)) = -Inf", __imag__ result);
result = FUNC(casin) (BUILD_COMPLEX (plus_infty, 0));
check ("real(casin(+Inf + i0)) = pi/2", __real__ result, M_PI_2);
check_isinfp ("imag(casin(+Inf + i0)) = +Inf", __imag__ result);
result = FUNC(casin) (BUILD_COMPLEX (plus_infty, minus_zero));
check ("real(casin(+Inf - i0)) = pi/2", __real__ result, M_PI_2);
check_isinfn ("imag(casin(+Inf - i0)) = -Inf", __imag__ result);
result = FUNC(casin) (BUILD_COMPLEX (plus_infty, 0.5));
check ("real(casin(+Inf + i0.5)) = pi/2", __real__ result, M_PI_2);
check_isinfp ("imag(casin(+Inf + i0.5)) = +Inf", __imag__ result);
result = FUNC(casin) (BUILD_COMPLEX (plus_infty, -0.5));
check ("real(casin(+Inf - i0.5)) = pi/2", __real__ result, M_PI_2);
check_isinfn ("imag(casin(+Inf - i0.5)) = -Inf", __imag__ result);
result = FUNC(casin) (BUILD_COMPLEX (nan_value, plus_infty));
check_isnan ("real(casin(NaN + i Inf)) = NaN", __real__ result);
check_isinfp ("imag(casin(NaN + i Inf)) = +Inf", __imag__ result);
result = FUNC(casin) (BUILD_COMPLEX (nan_value, minus_infty));
check_isnan ("real(casin(NaN - i Inf)) = NaN", __real__ result);
check_isinfn ("imag(casin(NaN - i Inf)) = -Inf", __imag__ result);
result = FUNC(casin) (BUILD_COMPLEX (0.0, nan_value));
check ("real(casin(0 + i NaN)) = 0", __real__ result, 0.0);
check_isnan ("imag(casin(0 + i NaN)) = NaN", __imag__ result);
result = FUNC(casin) (BUILD_COMPLEX (minus_zero, nan_value));
check ("real(casin(-0 + i NaN)) = -0", __real__ result, minus_zero);
check_isnan ("imag(casin(-0 + i NaN)) = NaN", __imag__ result);
result = FUNC(casin) (BUILD_COMPLEX (plus_infty, nan_value));
check_isnan ("real(casin(+Inf + i NaN)) = NaN", __real__ result);
check_isinfp ("imag(casin(+Inf + i NaN)) = +-Inf",
FUNC(fabs) (__imag__ result));
result = FUNC(casin) (BUILD_COMPLEX (minus_infty, nan_value));
check_isnan ("real(casin(-Inf + i NaN)) = NaN", __real__ result);
check_isinfp ("imag(casin(-Inf + NaN)) = +-Inf",
FUNC(fabs) (__imag__ result));
result = FUNC(casin) (BUILD_COMPLEX (nan_value, 10.5));
check_isnan_maybe_exc ("real(casin(NaN + i10.5)) = NaN plus maybe invalid exception",
__real__ result, INVALID_EXCEPTION);
check_isnan ("imag(casin(NaN + i10.5)) = NaN plus maybe invalid exception",
__imag__ result);
result = FUNC(casin) (BUILD_COMPLEX (nan_value, -10.5));
check_isnan_maybe_exc ("real(casin(NaN - i10.5)) = NaN plus maybe invalid exception",
__real__ result, INVALID_EXCEPTION);
check_isnan ("imag(casin(NaN - i10.5)) = NaN plus maybe invalid exception",
__imag__ result);
result = FUNC(casin) (BUILD_COMPLEX (0.75, nan_value));
check_isnan_maybe_exc ("real(casin(0.75 + i NaN)) = NaN plus maybe invalid exception",
__real__ result, INVALID_EXCEPTION);
check_isnan ("imag(casin(0.75 + i NaN)) = NaN plus maybe invalid exception",
__imag__ result);
result = FUNC(casin) (BUILD_COMPLEX (-0.75, nan_value));
check_isnan_maybe_exc ("real(casin(-0.75 + i NaN)) = NaN plus maybe invalid exception",
__real__ result, INVALID_EXCEPTION);
check_isnan ("imag(casin(-0.75 + i NaN)) = NaN plus maybe invalid exception",
__imag__ result);
result = FUNC(casin) (BUILD_COMPLEX (nan_value, nan_value));
check_isnan ("real(casin(NaN + i NaN)) = NaN", __real__ result);
check_isnan ("imag(casin(NaN + i NaN)) = NaN", __imag__ result);
}
static void
casinh_test (void)
{
__complex__ MATHTYPE result;
result = FUNC(casinh) (BUILD_COMPLEX (0, 0));
check ("real(casinh(0 + i0)) = 0", __real__ result, 0);
check ("imag(casinh(0 + i0)) = 0", __imag__ result, 0);
result = FUNC(casinh) (BUILD_COMPLEX (minus_zero, 0));
check ("real(casinh(-0 + i0)) = -0", __real__ result, minus_zero);
check ("imag(casinh(-0 + i0)) = 0", __imag__ result, 0);
result = FUNC(casinh) (BUILD_COMPLEX (0, minus_zero));
check ("real(casinh(0 - i0)) = 0", __real__ result, 0);
check ("imag(casinh(0 - i0)) = -0", __imag__ result, minus_zero);
result = FUNC(casinh) (BUILD_COMPLEX (minus_zero, minus_zero));
check ("real(casinh(-0 - i0)) = -0", __real__ result, minus_zero);
check ("imag(casinh(-0 - i0)) = -0", __imag__ result, minus_zero);
result = FUNC(casinh) (BUILD_COMPLEX (plus_infty, plus_infty));
check_isinfp ("real(casinh(+Inf + i Inf)) = +Inf", __real__ result);
check ("imag(casinh(+Inf + i Inf)) = pi/4", __imag__ result, M_PI_4);
result = FUNC(casinh) (BUILD_COMPLEX (plus_infty, minus_infty));
check_isinfp ("real(casinh(+Inf - i Inf)) = +Inf", __real__ result);
check ("imag(casinh(+Inf - i Inf)) = -pi/4", __imag__ result, -M_PI_4);
result = FUNC(casinh) (BUILD_COMPLEX (minus_infty, plus_infty));
check_isinfn ("real(casinh(-Inf + i Inf)) = -Inf", __real__ result);
check ("imag(casinh(-Inf + i Inf)) = pi/4", __imag__ result, M_PI_4);
result = FUNC(casinh) (BUILD_COMPLEX (minus_infty, minus_infty));
check_isinfn ("real(casinh(-Inf - i Inf)) = -Inf", __real__ result);
check ("imag(casinh(-Inf - i Inf)) = -pi/4", __imag__ result, -M_PI_4);
result = FUNC(casinh) (BUILD_COMPLEX (-10.0, plus_infty));
check_isinfn ("real(casinh(-10.0 + i Inf)) = -Inf", __real__ result);
check ("imag(casinh(-10.0 + i Inf)) = pi/2", __imag__ result, M_PI_2);
result = FUNC(casinh) (BUILD_COMPLEX (-10.0, minus_infty));
check_isinfn ("real(casinh(-10.0 - i Inf)) = -Inf", __real__ result);
check ("imag(casinh(-10.0 - i Inf)) = -pi/2", __imag__ result, -M_PI_2);
result = FUNC(casinh) (BUILD_COMPLEX (0, plus_infty));
check_isinfp ("real(casinh(0 + i Inf)) = +Inf", __real__ result);
check ("imag(casinh(0 + i Inf)) = pi/2", __imag__ result, M_PI_2);
result = FUNC(casinh) (BUILD_COMPLEX (0, minus_infty));
check_isinfp ("real(casinh(0 - i Inf)) = +Inf", __real__ result);
check ("imag(casinh(0 - i Inf)) = -pi/2", __imag__ result, -M_PI_2);
result = FUNC(casinh) (BUILD_COMPLEX (minus_zero, plus_infty));
check_isinfn ("real(casinh(-0 + i Inf)) = -Inf", __real__ result);
check ("imag(casinh(-0 + i Inf)) = pi/2", __imag__ result, M_PI_2);
result = FUNC(casinh) (BUILD_COMPLEX (minus_zero, minus_infty));
check_isinfn ("real(casinh(-0 - i Inf)) = -Inf", __real__ result);
check ("imag(casinh(-0 - i Inf)) = -pi/2", __imag__ result, -M_PI_2);
result = FUNC(casinh) (BUILD_COMPLEX (0.1, plus_infty));
check_isinfp ("real(casinh(0.1 + i Inf)) = +Inf", __real__ result);
check ("imag(casinh(0.1 + i Inf)) = pi/2", __imag__ result, M_PI_2);
result = FUNC(casinh) (BUILD_COMPLEX (0.1, minus_infty));
check_isinfp ("real(casinh(0.1 - i Inf)) = +Inf", __real__ result);
check ("imag(casinh(0.1 - i Inf)) = -pi/2", __imag__ result, -M_PI_2);
result = FUNC(casinh) (BUILD_COMPLEX (minus_infty, 0));
check_isinfn ("real(casinh(-Inf + i0)) = -Inf", __real__ result);
check ("imag(casinh(-Inf + i0)) = 0", __imag__ result, 0);
result = FUNC(casinh) (BUILD_COMPLEX (minus_infty, minus_zero));
check_isinfn ("real(casinh(-Inf - i0)) = -Inf", __real__ result);
check ("imag(casinh(-Inf - i0)) = -0", __imag__ result, minus_zero);
result = FUNC(casinh) (BUILD_COMPLEX (minus_infty, 100));
check_isinfn ("real(casinh(-Inf + i100)) = -Inf", __real__ result);
check ("imag(casinh(-Inf + i100)) = 0", __imag__ result, 0);
result = FUNC(casinh) (BUILD_COMPLEX (minus_infty, -100));
check_isinfn ("real(casinh(-Inf - i100)) = -Inf", __real__ result);
check ("imag(casinh(-Inf - i100)) = -0", __imag__ result, minus_zero);
result = FUNC(casinh) (BUILD_COMPLEX (plus_infty, 0));
check_isinfp ("real(casinh(+Inf + i0)) = +Inf", __real__ result);
check ("imag(casinh(+Inf + i0)) = 0", __imag__ result, 0);
result = FUNC(casinh) (BUILD_COMPLEX (plus_infty, minus_zero));
check_isinfp ("real(casinh(+Inf - i0)) = +Inf", __real__ result);
check ("imag(casinh(+Inf - i0)) = -0", __imag__ result, minus_zero);
result = FUNC(casinh) (BUILD_COMPLEX (plus_infty, 0.5));
check_isinfp ("real(casinh(+Inf + i0.5)) = +Inf", __real__ result);
check ("imag(casinh(+Inf + i0.5)) = 0", __imag__ result, 0);
result = FUNC(casinh) (BUILD_COMPLEX (plus_infty, -0.5));
check_isinfp ("real(casinh(+Inf - i0.5)) = +Inf", __real__ result);
check ("imag(casinh(+Inf - i0.5)) = -0", __imag__ result, minus_zero);
result = FUNC(casinh) (BUILD_COMPLEX (plus_infty, nan_value));
check_isinfp ("real(casinh(+Inf + i NaN)) = +Inf", __real__ result);
check_isnan ("imag(casinh(+Inf + i NaN)) = NaN", __imag__ result);
result = FUNC(casinh) (BUILD_COMPLEX (minus_infty, nan_value));
check_isinfn ("real(casinh(-Inf + i NaN)) = -Inf", __real__ result);
check_isnan ("imag(casinh(-Inf + i NaN)) = NaN", __imag__ result);
result = FUNC(casinh) (BUILD_COMPLEX (nan_value, 0));
check_isnan ("real(casinh(NaN + i0)) = NaN", __real__ result);
check ("imag(casinh(NaN + i0)) = 0", __imag__ result, 0);
result = FUNC(casinh) (BUILD_COMPLEX (nan_value, minus_zero));
check_isnan ("real(casinh(NaN - i0)) = NaN", __real__ result);
check ("imag(casinh(NaN - i0)) = -0", __imag__ result, minus_zero);
result = FUNC(casinh) (BUILD_COMPLEX (nan_value, plus_infty));
check_isinfp ("real(casinh(NaN + i Inf)) = +-Inf",
FUNC(fabs) (__real__ result));
check_isnan ("imag(casinh(NaN + i Inf)) = NaN", __imag__ result);
result = FUNC(casinh) (BUILD_COMPLEX (nan_value, minus_infty));
check_isinfp ("real(casinh(NaN - i Inf)) = +-Inf",
FUNC(fabs) (__real__ result));
check_isnan ("imag(casinh(NaN - i Inf)) = NaN", __imag__ result);
result = FUNC(casinh) (BUILD_COMPLEX (10.5, nan_value));
check_isnan_maybe_exc ("real(casinh(10.5 + i NaN)) = NaN plus maybe invalid exception",
__real__ result, INVALID_EXCEPTION);
check_isnan ("imag(casinh(10.5 + i NaN)) = NaN plus maybe invalid exception",
__imag__ result);
result = FUNC(casinh) (BUILD_COMPLEX (-10.5, nan_value));
check_isnan_maybe_exc ("real(casinh(-10.5 + i NaN)) = NaN plus maybe invalid exception",
__real__ result, INVALID_EXCEPTION);
check_isnan ("imag(casinh(-10.5 + i NaN)) = NaN plus maybe invalid exception",
__imag__ result);
result = FUNC(casinh) (BUILD_COMPLEX (nan_value, 0.75));
check_isnan_maybe_exc ("real(casinh(NaN + i0.75)) = NaN plus maybe invalid exception",
__real__ result, INVALID_EXCEPTION);
check_isnan ("imag(casinh(NaN + i0.75)) = NaN plus maybe invalid exception",
__imag__ result);
result = FUNC(casinh) (BUILD_COMPLEX (-0.75, nan_value));
check_isnan_maybe_exc ("real(casinh(NaN - i0.75)) = NaN plus maybe invalid exception",
__real__ result, INVALID_EXCEPTION);
check_isnan ("imag(casinh(NaN - i0.75)) = NaN plus maybe invalid exception",
__imag__ result);
result = FUNC(casinh) (BUILD_COMPLEX (nan_value, nan_value));
check_isnan ("real(casinh(NaN + i NaN)) = NaN", __real__ result);
check_isnan ("imag(casinh(NaN + i NaN)) = NaN", __imag__ result);
}
static void
catan_test (void)
{
__complex__ MATHTYPE result;
result = FUNC(catan) (BUILD_COMPLEX (0, 0));
check ("real(catan(0 + i0)) = 0", __real__ result, 0);
check ("imag(catan(0 + i0)) = 0", __imag__ result, 0);
result = FUNC(catan) (BUILD_COMPLEX (minus_zero, 0));
check ("real(catan(-0 + i0)) = -0", __real__ result, minus_zero);
check ("imag(catan(-0 + i0)) = 0", __imag__ result, 0);
result = FUNC(catan) (BUILD_COMPLEX (0, minus_zero));
check ("real(catan(0 - i0)) = 0", __real__ result, 0);
check ("imag(catan(0 - i0)) = -0", __imag__ result, minus_zero);
result = FUNC(catan) (BUILD_COMPLEX (minus_zero, minus_zero));
check ("real(catan(-0 - i0)) = -0", __real__ result, minus_zero);
check ("imag(catan(-0 - i0)) = -0", __imag__ result, minus_zero);
result = FUNC(catan) (BUILD_COMPLEX (plus_infty, plus_infty));
check ("real(catan(+Inf + i Inf)) = pi/2", __real__ result, M_PI_2);
check ("imag(catan(+Inf + i Inf)) = 0", __imag__ result, 0);
result = FUNC(catan) (BUILD_COMPLEX (plus_infty, minus_infty));
check ("real(catan(+Inf - i Inf)) = pi/2", __real__ result, M_PI_2);
check ("imag(catan(+Inf - i Inf)) = -0", __imag__ result, minus_zero);
result = FUNC(catan) (BUILD_COMPLEX (minus_infty, plus_infty));
check ("real(catan(-Inf + i Inf)) = -pi/2", __real__ result, -M_PI_2);
check ("imag(catan(-Inf + i Inf)) = 0", __imag__ result, 0.0);
result = FUNC(catan) (BUILD_COMPLEX (minus_infty, minus_infty));
check ("real(catan(-Inf - i Inf)) = -pi/2", __real__ result, -M_PI_2);
check ("imag(catan(-Inf - i Inf)) = -0", __imag__ result, minus_zero);
result = FUNC(catan) (BUILD_COMPLEX (plus_infty, -10.0));
check ("real(catan(+Inf - i10.0)) = pi/2", __real__ result, M_PI_2);
check ("imag(catan(+Inf - i10.0)) = -0", __imag__ result, minus_zero);
result = FUNC(catan) (BUILD_COMPLEX (minus_infty, -10.0));
check ("real(catan(-Inf - i10.0)) = -pi/2", __real__ result, -M_PI_2);
check ("imag(catan(-Inf - i10.0)) = -0", __imag__ result, minus_zero);
result = FUNC(catan) (BUILD_COMPLEX (plus_infty, minus_zero));
check ("real(catan(Inf - i0)) = pi/2", __real__ result, M_PI_2);
check ("imag(catan(Inf - i0)) = -0", __imag__ result, minus_zero);
result = FUNC(catan) (BUILD_COMPLEX (minus_infty, minus_zero));
check ("real(catan(-Inf - i0)) = -pi/2", __real__ result, -M_PI_2);
check ("imag(catan(-Inf - i0)) = -0", __imag__ result, minus_zero);
result = FUNC(catan) (BUILD_COMPLEX (plus_infty, 0.0));
check ("real(catan(Inf + i0)) = pi/2", __real__ result, M_PI_2);
check ("imag(catan(Inf + i0)) = 0", __imag__ result, 0.0);
result = FUNC(catan) (BUILD_COMPLEX (minus_infty, 0.0));
check ("real(catan(-Inf + i0)) = -pi/2", __real__ result, -M_PI_2);
check ("imag(catan(-Inf + i0)) = 0", __imag__ result, 0.0);
result = FUNC(catan) (BUILD_COMPLEX (plus_infty, 0.1));
check ("real(catan(+Inf + i0.1)) = pi/2", __real__ result, M_PI_2);
check ("imag(catan(+Inf + i0.1)) = 0", __imag__ result, 0);
result = FUNC(catan) (BUILD_COMPLEX (minus_infty, 0.1));
check ("real(catan(-Inf + i0.1)) = -pi/2", __real__ result, -M_PI_2);
check ("imag(catan(-Inf + i0.1)) = 0", __imag__ result, 0);
result = FUNC(catan) (BUILD_COMPLEX (0.0, minus_infty));
check ("real(catan(0 - i Inf)) = pi/2", __real__ result, M_PI_2);
check ("imag(catan(0 - i Inf)) = -0", __imag__ result, minus_zero);
result = FUNC(catan) (BUILD_COMPLEX (minus_zero, minus_infty));
check ("real(catan(-0 - i Inf)) = -pi/2", __real__ result, -M_PI_2);
check ("imag(catan(-0 - i Inf)) = -0", __imag__ result, minus_zero);
result = FUNC(catan) (BUILD_COMPLEX (100.0, minus_infty));
check ("real(catan(100 - i Inf)) = pi/2", __real__ result, M_PI_2);
check ("imag(catan(100 - i Inf)) = -0", __imag__ result, minus_zero);
result = FUNC(catan) (BUILD_COMPLEX (-100.0, minus_infty));
check ("real(catan(-100 - i Inf)) = -pi/2", __real__ result, -M_PI_2);
check ("imag(catan(-100 - i Inf)) = -0", __imag__ result, minus_zero);
result = FUNC(catan) (BUILD_COMPLEX (0.0, plus_infty));
check ("real(catan(0 + i Inf)) = pi/2", __real__ result, M_PI_2);
check ("imag(catan(0 + i Inf)) = 0", __imag__ result, 0);
result = FUNC(catan) (BUILD_COMPLEX (minus_zero, plus_infty));
check ("real(catan(-0 + i Inf)) = -pi/2", __real__ result, -M_PI_2);
check ("imag(catan(-0 + i Inf)) = 0", __imag__ result, 0);
result = FUNC(catan) (BUILD_COMPLEX (0.5, plus_infty));
check ("real(catan(0.5 + i Inf)) = pi/2", __real__ result, M_PI_2);
check ("imag(catan(0.5 + i Inf)) = 0", __imag__ result, 0);
result = FUNC(catan) (BUILD_COMPLEX (-0.5, plus_infty));
check ("real(catan(-0.5 + i Inf)) = -pi/2", __real__ result, -M_PI_2);
check ("imag(catan(-0.5 + i Inf)) = 0", __imag__ result, 0);
result = FUNC(catan) (BUILD_COMPLEX (nan_value, 0.0));
check_isnan ("real(catan(NaN + i0)) = NaN", __real__ result);
check ("imag(catan(NaN + i0)) = 0", __imag__ result, 0.0);
result = FUNC(catan) (BUILD_COMPLEX (nan_value, minus_zero));
check_isnan ("real(catan(NaN - i0)) = NaN", __real__ result);
check ("imag(catan(NaN - i0)) = -0", __imag__ result, minus_zero);
result = FUNC(catan) (BUILD_COMPLEX (nan_value, plus_infty));
check_isnan ("real(catan(NaN + i Inf)) = NaN", __real__ result);
check ("imag(catan(NaN + i Inf)) = 0", __imag__ result, 0);
result = FUNC(catan) (BUILD_COMPLEX (nan_value, minus_infty));
check_isnan ("real(catan(NaN - i Inf)) = NaN", __real__ result);
check ("imag(catan(NaN - i Inf)) = -0", __imag__ result, minus_zero);
result = FUNC(catan) (BUILD_COMPLEX (0.0, nan_value));
check_isnan ("real(catan(0 + i NaN)) = NaN", __real__ result);
check_isnan ("imag(catan(0 + i NaN)) = NaN", __imag__ result);
result = FUNC(catan) (BUILD_COMPLEX (minus_zero, nan_value));
check_isnan ("real(catan(-0 + i NaN)) = NaN", __real__ result);
check_isnan ("imag(catan(-0 + i NaN)) = NaN", __imag__ result);
result = FUNC(catan) (BUILD_COMPLEX (plus_infty, nan_value));
check ("real(catan(+Inf + i NaN)) = pi/2", __real__ result, M_PI_2);
check ("imag(catan(+Inf + i NaN)) = +-0", FUNC(fabs) (__imag__ result), 0);
result = FUNC(catan) (BUILD_COMPLEX (minus_infty, nan_value));
check ("real(catan(-Inf + i NaN)) = -pi/2", __real__ result, -M_PI_2);
check ("imag(catan(-Inf + i NaN)) = +-0", FUNC(fabs) (__imag__ result), 0);
result = FUNC(catan) (BUILD_COMPLEX (nan_value, 10.5));
check_isnan_maybe_exc ("real(catan(NaN + i10.5)) = NaN plus maybe invalid exception",
__real__ result, INVALID_EXCEPTION);
check_isnan ("imag(catan(NaN + i10.5)) = NaN plus maybe invalid exception",
__imag__ result);
result = FUNC(catan) (BUILD_COMPLEX (nan_value, -10.5));
check_isnan_maybe_exc ("real(catan(NaN - i10.5)) = NaN plus maybe invalid exception",
__real__ result, INVALID_EXCEPTION);
check_isnan ("imag(catan(NaN - i10.5)) = NaN plus maybe invalid exception",
__imag__ result);
result = FUNC(catan) (BUILD_COMPLEX (0.75, nan_value));
check_isnan_maybe_exc ("real(catan(0.75 + i NaN)) = NaN plus maybe invalid exception",
__real__ result, INVALID_EXCEPTION);
check_isnan ("imag(catan(0.75 + i NaN)) = NaN plus maybe invalid exception",
__imag__ result);
result = FUNC(catan) (BUILD_COMPLEX (-0.75, nan_value));
check_isnan_maybe_exc ("real(catan(-0.75 + i NaN)) = NaN plus maybe invalid exception",
__real__ result, INVALID_EXCEPTION);
check_isnan ("imag(catan(-0.75 + i NaN)) = NaN plus maybe invalid exception",
__imag__ result);
result = FUNC(catan) (BUILD_COMPLEX (nan_value, nan_value));
check_isnan ("real(catan(NaN + i NaN)) = NaN", __real__ result);
check_isnan ("imag(catan(NaN + i NaN)) = NaN", __imag__ result);
}
static void
catanh_test (void)
{
__complex__ MATHTYPE result;
result = FUNC(catanh) (BUILD_COMPLEX (0, 0));
check ("real(catanh(0 + i0)) = 0", __real__ result, 0);
check ("imag(catanh(0 + i0)) = 0", __imag__ result, 0);
result = FUNC(catanh) (BUILD_COMPLEX (minus_zero, 0));
check ("real(catanh(-0 + i0)) = -0", __real__ result, minus_zero);
check ("imag(catanh(-0 + i0)) = 0", __imag__ result, 0);
result = FUNC(catanh) (BUILD_COMPLEX (0, minus_zero));
check ("real(catanh(0 - i0)) = 0", __real__ result, 0);
check ("imag(catanh(0 - i0)) = -0", __imag__ result, minus_zero);
result = FUNC(catanh) (BUILD_COMPLEX (minus_zero, minus_zero));
check ("real(catanh(-0 - i0)) = -0", __real__ result, minus_zero);
check ("imag(catanh(-0 - i0)) = -0", __imag__ result, minus_zero);
result = FUNC(catanh) (BUILD_COMPLEX (plus_infty, plus_infty));
check ("real(catanh(+Inf + i Inf)) = 0", __real__ result, 0);
check ("imag(catanh(+Inf + i Inf)) = pi/2", __imag__ result, M_PI_2);
result = FUNC(catanh) (BUILD_COMPLEX (plus_infty, minus_infty));
check ("real(catanh(+Inf - i Inf)) = 0", __real__ result, 0);
check ("imag(catanh(+Inf - i Inf)) = -pi/2", __imag__ result, -M_PI_2);
result = FUNC(catanh) (BUILD_COMPLEX (minus_infty, plus_infty));
check ("real(catanh(-Inf + i Inf)) = -0", __real__ result, minus_zero);
check ("imag(catanh(-Inf + i Inf)) = pi/2", __imag__ result, M_PI_2);
result = FUNC(catanh) (BUILD_COMPLEX (minus_infty, minus_infty));
check ("real(catanh(-Inf - i Inf)) = -0", __real__ result, minus_zero);
check ("imag(catanh(-Inf - i Inf)) = -pi/2", __imag__ result, -M_PI_2);
result = FUNC(catanh) (BUILD_COMPLEX (-10.0, plus_infty));
check ("real(catanh(-10.0 + i Inf)) = -0", __real__ result, minus_zero);
check ("imag(catanh(-10.0 + i Inf)) = pi/2", __imag__ result, M_PI_2);
result = FUNC(catanh) (BUILD_COMPLEX (-10.0, minus_infty));
check ("real(catanh(-10.0 - i Inf)) = -0", __real__ result, minus_zero);
check ("imag(catanh(-10.0 - i Inf)) = -pi/2", __imag__ result, -M_PI_2);
result = FUNC(catanh) (BUILD_COMPLEX (minus_zero, plus_infty));
check ("real(catanh(-0 + i Inf)) = -0", __real__ result, minus_zero);
check ("imag(catanh(-0 + i Inf)) = pi/2", __imag__ result, M_PI_2);
result = FUNC(catanh) (BUILD_COMPLEX (minus_zero, minus_infty));
check ("real(catanh(-0 - i Inf)) = -0", __real__ result, minus_zero);
check ("imag(catanh(-0 - i Inf)) = -pi/2", __imag__ result, -M_PI_2);
result = FUNC(catanh) (BUILD_COMPLEX (0, plus_infty));
check ("real(catanh(0 + i Inf)) = 0", __real__ result, 0);
check ("imag(catanh(0 + i Inf)) = pi/2", __imag__ result, M_PI_2);
result = FUNC(catanh) (BUILD_COMPLEX (0, minus_infty));
check ("real(catanh(0 - i Inf)) = 0", __real__ result, 0);
check ("imag(catanh(0 - i Inf)) = -pi/2", __imag__ result, -M_PI_2);
result = FUNC(catanh) (BUILD_COMPLEX (0.1, plus_infty));
check ("real(catanh(0.1 + i Inf)) = 0", __real__ result, 0);
check ("imag(catanh(0.1 + i Inf)) = pi/2", __imag__ result, M_PI_2);
result = FUNC(catanh) (BUILD_COMPLEX (0.1, minus_infty));
check ("real(catanh(0.1 - i Inf)) = 0", __real__ result, 0);
check ("imag(catanh(0.1 - i Inf)) = -pi/2", __imag__ result, -M_PI_2);
result = FUNC(catanh) (BUILD_COMPLEX (minus_infty, 0));
check ("real(catanh(-Inf + i0)) = -0", __real__ result, minus_zero);
check ("imag(catanh(-Inf + i0)) = pi/2", __imag__ result, M_PI_2);
result = FUNC(catanh) (BUILD_COMPLEX (minus_infty, minus_zero));
check ("real(catanh(-Inf - i0)) = -0", __real__ result, minus_zero);
check ("imag(catanh(-Inf - i0)) = -pi/2", __imag__ result, -M_PI_2);
result = FUNC(catanh) (BUILD_COMPLEX (minus_infty, 100));
check ("real(catanh(-Inf + i100)) = -0", __real__ result, minus_zero);
check ("imag(catanh(-Inf + i100)) = pi/2", __imag__ result, M_PI_2);
result = FUNC(catanh) (BUILD_COMPLEX (minus_infty, -100));
check ("real(catanh(-Inf - i100)) = -0", __real__ result, minus_zero);
check ("imag(catanh(-Inf - i100)) = -pi/2", __imag__ result, -M_PI_2);
result = FUNC(catanh) (BUILD_COMPLEX (plus_infty, 0));
check ("real(catanh(+Inf + i0)) = 0", __real__ result, 0);
check ("imag(catanh(+Inf + i0)) = pi/2", __imag__ result, M_PI_2);
result = FUNC(catanh) (BUILD_COMPLEX (plus_infty, minus_zero));
check ("real(catanh(+Inf - i0)) = 0", __real__ result, 0);
check ("imag(catanh(+Inf - i0)) = -pi/2", __imag__ result, -M_PI_2);
result = FUNC(catanh) (BUILD_COMPLEX (plus_infty, 0.5));
check ("real(catanh(+Inf + i0.5)) = 0", __real__ result, 0);
check ("imag(catanh(+Inf + i0.5)) = pi/2", __imag__ result, M_PI_2);
result = FUNC(catanh) (BUILD_COMPLEX (plus_infty, -0.5));
check ("real(catanh(+Inf - i0.5)) = 0", __real__ result, 0);
check ("imag(catanh(+Inf - i0.5)) = -pi/2", __imag__ result, -M_PI_2);
result = FUNC(catanh) (BUILD_COMPLEX (0, nan_value));
check ("real(catanh(0 + i NaN)) = 0", __real__ result, 0);
check_isnan ("imag(catanh(0 + i NaN)) = NaN", __imag__ result);
result = FUNC(catanh) (BUILD_COMPLEX (minus_zero, nan_value));
check ("real(catanh(-0 + i NaN)) = -0", __real__ result, minus_zero);
check_isnan ("imag(catanh(-0 + i NaN)) = NaN", __imag__ result);
result = FUNC(catanh) (BUILD_COMPLEX (plus_infty, nan_value));
check ("real(catanh(+Inf + i NaN)) = 0", __real__ result, 0);
check_isnan ("imag(catanh(+Inf + i NaN)) = NaN", __imag__ result);
result = FUNC(catanh) (BUILD_COMPLEX (minus_infty, nan_value));
check ("real(catanh(-Inf + i NaN)) = -0", __real__ result, minus_zero);
check_isnan ("imag(catanh(-Inf + i NaN)) = NaN", __imag__ result);
result = FUNC(catanh) (BUILD_COMPLEX (nan_value, 0));
check_isnan ("real(catanh(NaN + i0)) = NaN", __real__ result);
check_isnan ("imag(catanh(NaN + i0)) = NaN", __imag__ result);
result = FUNC(catanh) (BUILD_COMPLEX (nan_value, minus_zero));
check_isnan ("real(catanh(NaN - i0)) = NaN", __real__ result);
check_isnan ("imag(catanh(NaN - i0)) = NaN", __imag__ result);
result = FUNC(catanh) (BUILD_COMPLEX (nan_value, plus_infty));
check ("real(catanh(NaN + i Inf)) = +-0", FUNC(fabs) (__real__ result), 0);
check ("imag(catanh(NaN + i Inf)) = pi/2", __imag__ result, M_PI_2);
result = FUNC(catanh) (BUILD_COMPLEX (nan_value, minus_infty));
check ("real(catanh(NaN - i Inf)) = +-0", FUNC(fabs) (__real__ result), 0);
check ("imag(catanh(NaN - i Inf)) = -pi/2", __imag__ result, -M_PI_2);
result = FUNC(catanh) (BUILD_COMPLEX (10.5, nan_value));
check_isnan_maybe_exc ("real(catanh(10.5 + i NaN)) = NaN plus maybe invalid exception",
__real__ result, INVALID_EXCEPTION);
check_isnan ("imag(catanh(10.5 + i NaN)) = NaN plus maybe invalid exception",
__imag__ result);
result = FUNC(catanh) (BUILD_COMPLEX (-10.5, nan_value));
check_isnan_maybe_exc ("real(catanh(-10.5 + i NaN)) = NaN plus maybe invalid exception",
__real__ result, INVALID_EXCEPTION);
check_isnan ("imag(catanh(-10.5 + i NaN)) = NaN plus maybe invalid exception",
__imag__ result);
result = FUNC(catanh) (BUILD_COMPLEX (nan_value, 0.75));
check_isnan_maybe_exc ("real(catanh(NaN + i0.75)) = NaN plus maybe invalid exception",
__real__ result, INVALID_EXCEPTION);
check_isnan ("imag(catanh(NaN + i0.75)) = NaN plus maybe invalid exception",
__imag__ result);
result = FUNC(catanh) (BUILD_COMPLEX (nan_value, -0.75));
check_isnan_maybe_exc ("real(catanh(NaN - i0.75)) = NaN plus maybe invalid exception",
__real__ result, INVALID_EXCEPTION);
check_isnan ("imag(catanh(NaN - i0.75)) = NaN plus maybe invalid exception",
__imag__ result);
result = FUNC(catanh) (BUILD_COMPLEX (nan_value, nan_value));
check_isnan ("real(catanh(NaN + i NaN)) = NaN", __real__ result);
check_isnan ("imag(catanh(NaN + i NaN)) = NaN", __imag__ result);
}
static void
ctanh_test (void)
{
__complex__ MATHTYPE result;
result = FUNC(ctanh) (BUILD_COMPLEX (0, 0));
check ("real(ctanh(0 + i0)) = 0", __real__ result, 0);
check ("imag(ctanh(0 + i0)) = 0", __imag__ result, 0);
result = FUNC(ctanh) (BUILD_COMPLEX (0, minus_zero));
check ("real(ctanh(0 - i0)) = 0", __real__ result, 0);
check ("imag(ctanh(0 - i0)) = -0", __imag__ result, minus_zero);
result = FUNC(ctanh) (BUILD_COMPLEX (minus_zero, 0));
check ("real(ctanh(-0 + i0)) = -0", __real__ result, minus_zero);
check ("imag(ctanh(-0 + i0)) = 0", __imag__ result, 0);
result = FUNC(ctanh) (BUILD_COMPLEX (minus_zero, minus_zero));
check ("real(ctanh(-0 - i0)) = -0", __real__ result, minus_zero);
check ("imag(ctanh(-0 - i0)) = -0", __imag__ result, minus_zero);
result = FUNC(ctanh) (BUILD_COMPLEX (plus_infty, 0));
check ("real(ctanh(+Inf + i0)) = 1", __real__ result, 1);
check ("imag(ctanh(+Inf + i0)) = 0", __imag__ result, 0);
result = FUNC(ctanh) (BUILD_COMPLEX (plus_infty, 1));
check ("real(ctanh(+Inf + i1)) = 1", __real__ result, 1);
check ("imag(ctanh(+Inf + i1)) = 0", __imag__ result, 0);
result = FUNC(ctanh) (BUILD_COMPLEX (plus_infty, minus_zero));
check ("real(ctanh(+Inf - i0)) = 1", __real__ result, 1);
check ("imag(ctanh(+Inf - i0)) = -0", __imag__ result, minus_zero);
result = FUNC(ctanh) (BUILD_COMPLEX (plus_infty, -1));
check ("real(ctanh(+Inf - i1)) = 1", __real__ result, 1);
check ("imag(ctanh(+Inf - i1)) = -0", __imag__ result, minus_zero);
result = FUNC(ctanh) (BUILD_COMPLEX (minus_infty, 0));
check ("real(ctanh(-Inf + i0)) = -1", __real__ result, -1);
check ("imag(ctanh(-Inf + i0)) = 0", __imag__ result, 0);
result = FUNC(ctanh) (BUILD_COMPLEX (minus_infty, 1));
check ("real(ctanh(-Inf + i1)) = -1", __real__ result, -1);
check ("imag(ctanh(-Inf + i1)) = 0", __imag__ result, 0);
result = FUNC(ctanh) (BUILD_COMPLEX (minus_infty, minus_zero));
check ("real(ctanh(-Inf - i0)) = -1", __real__ result, -1);
check ("imag(ctanh(-Inf - i0)) = -0", __imag__ result, minus_zero);
result = FUNC(ctanh) (BUILD_COMPLEX (minus_infty, -1));
check ("real(ctanh(-Inf - i1)) = -1", __real__ result, -1);
check ("imag(ctanh(-Inf - i1)) = -0", __imag__ result, minus_zero);
result = FUNC(ctanh) (BUILD_COMPLEX (0, plus_infty));
check_isnan_exc ("real(ctanh(0 + i Inf)) = NaN plus invalid exception",
__real__ result, INVALID_EXCEPTION);
check_isnan ("imag(ctanh(0 + i Inf)) = NaN plus invalid exception",
__imag__ result);
result = FUNC(ctanh) (BUILD_COMPLEX (2, plus_infty));
check_isnan_exc ("real(ctanh(2 + i Inf)) = NaN plus invalid exception",
__real__ result, INVALID_EXCEPTION);
check_isnan ("imag(ctanh(2 + i Inf)) = NaN plus invalid exception",
__imag__ result);
result = FUNC(ctanh) (BUILD_COMPLEX (0, minus_infty));
check_isnan_exc ("real(ctanh(0 - i Inf)) = NaN plus invalid exception",
__real__ result, INVALID_EXCEPTION);
check_isnan ("imag(ctanh(0 - i Inf)) = NaN plus invalid exception",
__imag__ result);
result = FUNC(ctanh) (BUILD_COMPLEX (2, minus_infty));
check_isnan_exc ("real(ctanh(2 - i Inf)) = NaN plus invalid exception",
__real__ result, INVALID_EXCEPTION);
check_isnan ("imag(ctanh(2 - i Inf)) = NaN plus invalid exception",
__imag__ result);
result = FUNC(ctanh) (BUILD_COMPLEX (minus_zero, plus_infty));
check_isnan_exc ("real(ctanh(-0 + i Inf)) = NaN plus invalid exception",
__real__ result, INVALID_EXCEPTION);
check_isnan ("imag(ctanh(-0 + i Inf)) = NaN plus invalid exception",
__imag__ result);
result = FUNC(ctanh) (BUILD_COMPLEX (-2, plus_infty));
check_isnan_exc ("real(ctanh(-2 + i Inf)) = NaN plus invalid exception",
__real__ result, INVALID_EXCEPTION);
check_isnan ("imag(ctanh(-2 + i Inf)) = NaN plus invalid exception",
__imag__ result);
result = FUNC(ctanh) (BUILD_COMPLEX (minus_zero, minus_infty));
check_isnan_exc ("real(ctanh(-0 - i Inf)) = NaN plus invalid exception",
__real__ result, INVALID_EXCEPTION);
check_isnan ("imag(ctanh(-0 - i Inf)) = NaN plus invalid exception",
__imag__ result);
result = FUNC(ctanh) (BUILD_COMPLEX (-2, minus_infty));
check_isnan_exc ("real(ctanh(-2 - i Inf)) = NaN plus invalid exception",
__real__ result, INVALID_EXCEPTION);
check_isnan ("imag(ctanh(-2 - i Inf)) = NaN plus invalid exception",
__imag__ result);
result = FUNC(ctanh) (BUILD_COMPLEX (plus_infty, nan_value));
check ("real(ctanh(+Inf + i NaN)) = 1", __real__ result, 1);
check ("imag(ctanh(+Inf + i NaN)) = +-0", FUNC(fabs) (__imag__ result), 0);
result = FUNC(ctanh) (BUILD_COMPLEX (minus_infty, nan_value));
check ("real(ctanh(-Inf + i NaN)) = -1", __real__ result, -1);
check ("imag(ctanh(-Inf + i NaN)) = +-0", FUNC(fabs) (__imag__ result), 0);
result = FUNC(ctanh) (BUILD_COMPLEX (nan_value, 0));
check_isnan ("real(ctanh(NaN + i0)) = NaN", __real__ result);
check ("imag(ctanh(NaN + i0)) = 0", __imag__ result, 0);
result = FUNC(ctanh) (BUILD_COMPLEX (nan_value, minus_zero));
check_isnan ("real(ctanh(NaN - i0)) = NaN", __real__ result);
check ("imag(ctanh(NaN - i0)) = -0", __imag__ result, minus_zero);
result = FUNC(ctanh) (BUILD_COMPLEX (nan_value, 0.5));
check_isnan_maybe_exc ("real(ctanh(NaN + i0.5)) = NaN plus maybe invalid exception",
__real__ result, INVALID_EXCEPTION);
check_isnan ("imag(ctanh(NaN + i0.5)) = NaN plus maybe invalid exception",
__imag__ result);
result = FUNC(ctanh) (BUILD_COMPLEX (nan_value, -4.5));
check_isnan_maybe_exc ("real(ctanh(NaN - i4.5)) = NaN plus maybe invalid exception",
__real__ result, INVALID_EXCEPTION);
check_isnan ("imag(ctanh(NaN - i4.5)) = NaN plus maybe invalid exception",
__imag__ result);
result = FUNC(ctanh) (BUILD_COMPLEX (0, nan_value));
check_isnan_maybe_exc ("real(ctanh(0 + i NaN)) = NaN plus maybe invalid exception",
__real__ result, INVALID_EXCEPTION);
check_isnan ("imag(ctanh(0 + i NaN)) = NaN plus maybe invalid exception",
__imag__ result);
result = FUNC(ctanh) (BUILD_COMPLEX (5, nan_value));
check_isnan_maybe_exc ("real(ctanh(5 + i NaN)) = NaN plus maybe invalid exception",
__real__ result, INVALID_EXCEPTION);
check_isnan ("imag(ctanh(5 + i NaN)) = NaN plus maybe invalid exception",
__imag__ result);
result = FUNC(ctanh) (BUILD_COMPLEX (minus_zero, nan_value));
check_isnan_maybe_exc ("real(ctanh(-0 + i NaN)) = NaN plus maybe invalid exception",
__real__ result, INVALID_EXCEPTION);
check_isnan ("imag(ctanh(-0 + i NaN)) = NaN plus maybe invalid exception",
__imag__ result);
result = FUNC(ctanh) (BUILD_COMPLEX (-0.25, nan_value));
check_isnan_maybe_exc ("real(ctanh(-0.25 + i NaN)) = NaN plus maybe invalid exception",
__real__ result, INVALID_EXCEPTION);
check_isnan ("imag(ctanh(-0.25 + i NaN)) = NaN plus maybe invalid exception",
__imag__ result);
result = FUNC(ctanh) (BUILD_COMPLEX (nan_value, nan_value));
check_isnan ("real(ctanh(NaN + i NaN)) = NaN", __real__ result);
check_isnan ("imag(ctanh(NaN + i NaN)) = NaN", __imag__ result);
}
static void
clog_test (void)
{
__complex__ MATHTYPE result;
result = FUNC(clog) (BUILD_COMPLEX (minus_zero, 0));
check_isinfn_exc ("real(clog(-0 + i0)) = -Inf plus divide-by-zero exception",
__real__ result, DIVIDE_BY_ZERO_EXCEPTION);
check ("imag(clog(-0 + i0)) = pi plus divide-by-zero exception",
__imag__ result, M_PI);
result = FUNC(clog) (BUILD_COMPLEX (minus_zero, minus_zero));
check_isinfn_exc ("real(clog(-0 - i0)) = -Inf plus divide-by-zero exception",
__real__ result, DIVIDE_BY_ZERO_EXCEPTION);
check ("imag(clog(-0 - i0)) = -pi plus divide-by-zero exception",
__imag__ result, -M_PI);
result = FUNC(clog) (BUILD_COMPLEX (0, 0));
check_isinfn_exc ("real(clog(0 + i0)) = -Inf plus divide-by-zero exception",
__real__ result, DIVIDE_BY_ZERO_EXCEPTION);
check ("imag(clog(0 + i0)) = 0 plus divide-by-zero exception",
__imag__ result, 0);
result = FUNC(clog) (BUILD_COMPLEX (0, minus_zero));
check_isinfn_exc ("real(clog(0 - i0)) = -Inf plus divide-by-zero exception",
__real__ result, DIVIDE_BY_ZERO_EXCEPTION);
check ("imag(clog(0 - i0)) = -0 plus divide-by-zero exception",
__imag__ result, minus_zero);
result = FUNC(clog) (BUILD_COMPLEX (minus_infty, plus_infty));
check_isinfp ("real(clog(-Inf + i Inf)) = +Inf", __real__ result);
check ("imag(clog(-Inf + i Inf)) = 3*pi/4", __imag__ result, M_PI - M_PI_4);
result = FUNC(clog) (BUILD_COMPLEX (minus_infty, minus_infty));
check_isinfp ("real(clog(-Inf - i Inf)) = +Inf", __real__ result);
check ("imag(clog(-Inf - i Inf)) = -3*pi/4", __imag__ result, M_PI_4 - M_PI);
result = FUNC(clog) (BUILD_COMPLEX (plus_infty, plus_infty));
check_isinfp ("real(clog(+Inf + i Inf)) = +Inf", __real__ result);
check ("imag(clog(+Inf + i Inf)) = pi/4", __imag__ result, M_PI_4);
result = FUNC(clog) (BUILD_COMPLEX (plus_infty, minus_infty));
check_isinfp ("real(clog(+Inf - i Inf)) = +Inf", __real__ result);
check ("imag(clog(+Inf - i Inf)) = -pi/4", __imag__ result, -M_PI_4);
result = FUNC(clog) (BUILD_COMPLEX (0, plus_infty));
check_isinfp ("real(clog(0 + i Inf)) = +Inf", __real__ result);
check ("imag(clog(0 + i Inf)) = pi/2", __imag__ result, M_PI_2);
result = FUNC(clog) (BUILD_COMPLEX (3, plus_infty));
check_isinfp ("real(clog(3 + i Inf)) = +Inf", __real__ result);
check ("imag(clog(3 + i Inf)) = pi/2", __imag__ result, M_PI_2);
result = FUNC(clog) (BUILD_COMPLEX (minus_zero, plus_infty));
check_isinfp ("real(clog(-0 + i Inf)) = +Inf", __real__ result);
check ("imag(clog(-0 + i Inf)) = pi/2", __imag__ result, M_PI_2);
result = FUNC(clog) (BUILD_COMPLEX (-3, plus_infty));
check_isinfp ("real(clog(-3 + i Inf)) = +Inf", __real__ result);
check ("imag(clog(-3 + i Inf)) = pi/2", __imag__ result, M_PI_2);
result = FUNC(clog) (BUILD_COMPLEX (0, minus_infty));
check_isinfp ("real(clog(0 - i Inf)) = +Inf", __real__ result);
check ("imag(clog(0 - i Inf)) = -pi/2", __imag__ result, -M_PI_2);
result = FUNC(clog) (BUILD_COMPLEX (3, minus_infty));
check_isinfp ("real(clog(3 - i Inf)) = +Inf", __real__ result);
check ("imag(clog(3 - i Inf)) = -pi/2", __imag__ result, -M_PI_2);
result = FUNC(clog) (BUILD_COMPLEX (minus_zero, minus_infty));
check_isinfp ("real(clog(-0 - i Inf)) = +Inf", __real__ result);
check ("imag(clog(-0 - i Inf)) = -pi/2", __imag__ result, -M_PI_2);
result = FUNC(clog) (BUILD_COMPLEX (-3, minus_infty));
check_isinfp ("real(clog(-3 - i Inf)) = +Inf", __real__ result);
check ("imag(clog(-3 - i Inf)) = -pi/2", __imag__ result, -M_PI_2);
result = FUNC(clog) (BUILD_COMPLEX (minus_infty, 0));
check_isinfp ("real(clog(-Inf + i0)) = +Inf", __real__ result);
check ("imag(clog(-Inf + i0)) = pi", __imag__ result, M_PI);
result = FUNC(clog) (BUILD_COMPLEX (minus_infty, 1));
check_isinfp ("real(clog(-Inf + i1)) = +Inf", __real__ result);
check ("imag(clog(-Inf + i1)) = pi", __imag__ result, M_PI);
result = FUNC(clog) (BUILD_COMPLEX (minus_infty, minus_zero));
check_isinfp ("real(clog(-Inf - i0)) = +Inf", __real__ result);
check ("imag(clog(-Inf - i0)) = -pi", __imag__ result, -M_PI);
result = FUNC(clog) (BUILD_COMPLEX (minus_infty, -1));
check_isinfp ("real(clog(-Inf - i1)) = +Inf", __real__ result);
check ("imag(clog(-Inf - i1)) = -pi", __imag__ result, -M_PI);
result = FUNC(clog) (BUILD_COMPLEX (plus_infty, 0));
check_isinfp ("real(clog(+Inf + i0)) = +Inf", __real__ result);
check ("imag(clog(+Inf + i0)) = 0", __imag__ result, 0);
result = FUNC(clog) (BUILD_COMPLEX (plus_infty, 1));
check_isinfp ("real(clog(+Inf + i1)) = +Inf", __real__ result);
check ("imag(clog(+Inf + i1)) = 0", __imag__ result, 0);
result = FUNC(clog) (BUILD_COMPLEX (plus_infty, minus_zero));
check_isinfp ("real(clog(+Inf - i0)) = +Inf", __real__ result);
check ("imag(clog(+Inf - i0)) = -0", __imag__ result, minus_zero);
result = FUNC(clog) (BUILD_COMPLEX (plus_infty, -1));
check_isinfp ("real(clog(+Inf - i1)) = +Inf", __real__ result);
check ("imag(clog(+Inf - i1)) = -0", __imag__ result, minus_zero);
result = FUNC(clog) (BUILD_COMPLEX (plus_infty, nan_value));
check_isinfp ("real(clog(+Inf + i NaN)) = +Inf", __real__ result);
check_isnan ("imag(clog(+Inf + i NaN)) = NaN", __imag__ result);
result = FUNC(clog) (BUILD_COMPLEX (minus_infty, nan_value));
check_isinfp ("real(clog(-Inf + i NaN)) = +Inf", __real__ result);
check_isnan ("imag(clog(-Inf + i NaN)) = NaN", __imag__ result);
result = FUNC(clog) (BUILD_COMPLEX (nan_value, plus_infty));
check_isinfp ("real(clog(NaN + i Inf)) = +Inf", __real__ result);
check_isnan ("imag(clog(NaN + i Inf)) = NaN", __imag__ result);
result = FUNC(clog) (BUILD_COMPLEX (nan_value, minus_infty));
check_isinfp ("real(clog(NaN - i Inf)) = +Inf", __real__ result);
check_isnan ("imag(clog(NaN - i Inf)) = NaN", __imag__ result);
result = FUNC(clog) (BUILD_COMPLEX (0, nan_value));
check_isnan_maybe_exc ("real(clog(0 + i NaN)) = NaN plus maybe invalid exception",
__real__ result, INVALID_EXCEPTION);
check_isnan ("imag(clog(0 + i NaN)) = NaN plus maybe invalid exception",
__imag__ result);
result = FUNC(clog) (BUILD_COMPLEX (3, nan_value));
check_isnan_maybe_exc ("real(clog(3 + i NaN)) = NaN plus maybe invalid exception",
__real__ result, INVALID_EXCEPTION);
check_isnan ("imag(clog(3 + i NaN)) = NaN plus maybe invalid exception",
__imag__ result);
result = FUNC(clog) (BUILD_COMPLEX (minus_zero, nan_value));
check_isnan_maybe_exc ("real(clog(-0 + i NaN)) = NaN plus maybe invalid exception",
__real__ result, INVALID_EXCEPTION);
check_isnan ("imag(clog(-0 + i NaN)) = NaN plus maybe invalid exception",
__imag__ result);
result = FUNC(clog) (BUILD_COMPLEX (-3, nan_value));
check_isnan_maybe_exc ("real(clog(-3 + i NaN)) = NaN plus maybe invalid exception",
__real__ result, INVALID_EXCEPTION);
check_isnan ("imag(clog(-3 + i NaN)) = NaN plus maybe invalid exception",
__imag__ result);
result = FUNC(clog) (BUILD_COMPLEX (nan_value, 0));
check_isnan_maybe_exc ("real(clog(NaN + i0)) = NaN plus maybe invalid exception",
__real__ result, INVALID_EXCEPTION);
check_isnan ("imag(clog(NaN + i0)) = NaN plus maybe invalid exception",
__imag__ result);
result = FUNC(clog) (BUILD_COMPLEX (nan_value, 5));
check_isnan_maybe_exc ("real(clog(NaN + i5)) = NaN plus maybe invalid exception",
__real__ result, INVALID_EXCEPTION);
check_isnan ("imag(clog(NaN + i5)) = NaN plus maybe invalid exception",
__imag__ result);
result = FUNC(clog) (BUILD_COMPLEX (nan_value, minus_zero));
check_isnan_maybe_exc ("real(clog(NaN - i0)) = NaN plus maybe invalid exception",
__real__ result, INVALID_EXCEPTION);
check_isnan ("imag(clog(NaN - i0)) = NaN plus maybe invalid exception",
__imag__ result);
result = FUNC(clog) (BUILD_COMPLEX (nan_value, -5));
check_isnan_maybe_exc ("real(clog(NaN - i5)) = NaN plus maybe invalid exception",
__real__ result, INVALID_EXCEPTION);
check_isnan ("imag(clog(NaN - i5)) = NaN plus maybe invalid exception",
__imag__ result);
result = FUNC(clog) (BUILD_COMPLEX (nan_value, nan_value));
check_isnan ("real(clog(NaN + i NaN)) = NaN", __real__ result);
check_isnan ("imag(clog(NaN + i NaN)) = NaN", __imag__ result);
}
static void
csqrt_test (void)
{
__complex__ MATHTYPE result;
result = FUNC(csqrt) (BUILD_COMPLEX (0, 0));
check ("real(csqrt(0 + i0)) = 0", __real__ result, 0);
check ("imag(csqrt(0 + i0)) = 0", __imag__ result, 0);
result = FUNC(csqrt) (BUILD_COMPLEX (0, minus_zero));
check ("real(csqrt(0 - i0)) = 0", __real__ result, 0);
check ("imag(csqrt(0 - i0)) = -0", __imag__ result, minus_zero);
result = FUNC(csqrt) (BUILD_COMPLEX (minus_zero, 0));
check ("real(csqrt(-0 + i0)) = 0", __real__ result, 0);
check ("imag(csqrt(-0 + i0)) = 0", __imag__ result, 0);
result = FUNC(csqrt) (BUILD_COMPLEX (minus_zero, minus_zero));
check ("real(csqrt(-0 - i0)) = 0", __real__ result, 0);
check ("imag(csqrt(-0 - i0)) = -0", __imag__ result, minus_zero);
result = FUNC(csqrt) (BUILD_COMPLEX (minus_infty, 0));
check ("real(csqrt(-Inf + i0)) = 0", __real__ result, 0);
check_isinfp ("imag(csqrt(-Inf + i0)) = +Inf", __imag__ result);
result = FUNC(csqrt) (BUILD_COMPLEX (minus_infty, 6));
check ("real(csqrt(-Inf + i6)) = 0", __real__ result, 0);
check_isinfp ("imag(csqrt(-Inf + i6)) = +Inf", __imag__ result);
result = FUNC(csqrt) (BUILD_COMPLEX (minus_infty, minus_zero));
check ("real(csqrt(-Inf - i0)) = 0", __real__ result, 0);
check_isinfn ("imag(csqrt(-Inf - i0)) = -Inf", __imag__ result);
result = FUNC(csqrt) (BUILD_COMPLEX (minus_infty, -6));
check ("real(csqrt(-Inf - i6)) = 0", __real__ result, 0);
check_isinfn ("imag(csqrt(-Inf - i6)) = -Inf", __imag__ result);
result = FUNC(csqrt) (BUILD_COMPLEX (plus_infty, 0));
check_isinfp ("real(csqrt(+Inf + i0)) = +Inf", __real__ result);
check ("imag(csqrt(+Inf + i0)) = 0", __imag__ result, 0);
result = FUNC(csqrt) (BUILD_COMPLEX (plus_infty, 6));
check_isinfp ("real(csqrt(+Inf + i6)) = +Inf", __real__ result);
check ("imag(csqrt(+Inf + i6)) = 0", __imag__ result, 0);
result = FUNC(csqrt) (BUILD_COMPLEX (plus_infty, minus_zero));
check_isinfp ("real(csqrt(+Inf - i0)) = +Inf", __real__ result);
check ("imag(csqrt(+Inf - i0)) = -0", __imag__ result, minus_zero);
result = FUNC(csqrt) (BUILD_COMPLEX (plus_infty, -6));
check_isinfp ("real(csqrt(+Inf - i6)) = +Inf", __real__ result);
check ("imag(csqrt(+Inf - i6)) = -0", __imag__ result, minus_zero);
result = FUNC(csqrt) (BUILD_COMPLEX (0, plus_infty));
check_isinfp ("real(csqrt(0 + i Inf)) = +Inf", __real__ result);
check_isinfp ("imag(csqrt(0 + i Inf)) = +Inf", __imag__ result);
result = FUNC(csqrt) (BUILD_COMPLEX (4, plus_infty));
check_isinfp ("real(csqrt(4 + i Inf)) = +Inf", __real__ result);
check_isinfp ("imag(csqrt(4 + i Inf)) = +Inf", __imag__ result);
result = FUNC(csqrt) (BUILD_COMPLEX (plus_infty, plus_infty));
check_isinfp ("real(csqrt(+Inf + i Inf)) = +Inf", __real__ result);
check_isinfp ("imag(csqrt(+Inf + i Inf)) = +Inf", __imag__ result);
result = FUNC(csqrt) (BUILD_COMPLEX (minus_zero, plus_infty));
check_isinfp ("real(csqrt(-0 + i Inf)) = +Inf", __real__ result);
check_isinfp ("imag(csqrt(-0 + i Inf)) = +Inf", __imag__ result);
result = FUNC(csqrt) (BUILD_COMPLEX (-4, plus_infty));
check_isinfp ("real(csqrt(-4 + i Inf)) = +Inf", __real__ result);
check_isinfp ("imag(csqrt(-4 + i Inf)) = +Inf", __imag__ result);
result = FUNC(csqrt) (BUILD_COMPLEX (minus_infty, plus_infty));
check_isinfp ("real(csqrt(-Inf + i Inf)) = +Inf", __real__ result);
check_isinfp ("imag(csqrt(-Inf + i Inf)) = +Inf", __imag__ result);
result = FUNC(csqrt) (BUILD_COMPLEX (0, minus_infty));
check_isinfp ("real(csqrt(0 - i Inf)) = +Inf", __real__ result);
check_isinfn ("imag(csqrt(0 - i Inf)) = -Inf", __imag__ result);
result = FUNC(csqrt) (BUILD_COMPLEX (4, minus_infty));
check_isinfp ("real(csqrt(4 - i Inf)) = +Inf", __real__ result);
check_isinfn ("imag(csqrt(4 - i Inf)) = -Inf", __imag__ result);
result = FUNC(csqrt) (BUILD_COMPLEX (plus_infty, minus_infty));
check_isinfp ("real(csqrt(+Inf - i Inf)) = +Inf", __real__ result);
check_isinfn ("imag(csqrt(+Inf - i Inf)) = -Inf", __imag__ result);
result = FUNC(csqrt) (BUILD_COMPLEX (minus_zero, minus_infty));
check_isinfp ("real(csqrt(-0 - i Inf)) = +Inf", __real__ result);
check_isinfn ("imag(csqrt(-0 - i Inf)) = -Inf", __imag__ result);
result = FUNC(csqrt) (BUILD_COMPLEX (-4, minus_infty));
check_isinfp ("real(csqrt(-4 - i Inf)) = +Inf", __real__ result);
check_isinfn ("imag(csqrt(-4 - i Inf)) = -Inf", __imag__ result);
result = FUNC(csqrt) (BUILD_COMPLEX (minus_infty, minus_infty));
check_isinfp ("real(csqrt(-Inf - i Inf)) = +Inf", __real__ result);
check_isinfn ("imag(csqrt(-Inf - i Inf)) = -Inf", __imag__ result);
result = FUNC(csqrt) (BUILD_COMPLEX (minus_infty, nan_value));
check_isnan ("real(csqrt(-Inf + i NaN)) = NaN", __real__ result);
check_isinfp ("imag(csqrt(-Inf + i NaN)) = +-Inf",
FUNC(fabs) (__imag__ result));
result = FUNC(csqrt) (BUILD_COMPLEX (plus_infty, nan_value));
check_isinfp ("real(csqrt(+Inf + i NaN)) = +Inf", __real__ result);
check_isnan ("imag(csqrt(+Inf + i NaN)) = NaN", __imag__ result);
result = FUNC(csqrt) (BUILD_COMPLEX (0, nan_value));
check_isnan_maybe_exc ("real(csqrt(0 + i NaN)) = NaN plus maybe invalid exception",
__real__ result, INVALID_EXCEPTION);
check_isnan ("imag(csqrt(0 + i NaN)) = NaN plus maybe invalid exception",
__imag__ result);
result = FUNC(csqrt) (BUILD_COMPLEX (1, nan_value));
check_isnan_maybe_exc ("real(csqrt(1 + i NaN)) = NaN plus maybe invalid exception",
__real__ result, INVALID_EXCEPTION);
check_isnan ("imag(csqrt(1 + i NaN)) = NaN plus maybe invalid exception",
__imag__ result);
result = FUNC(csqrt) (BUILD_COMPLEX (minus_zero, nan_value));
check_isnan_maybe_exc ("real(csqrt(-0 + i NaN)) = NaN plus maybe invalid exception",
__real__ result, INVALID_EXCEPTION);
check_isnan ("imag(csqrt(-0 + i NaN)) = NaN plus maybe invalid exception",
__imag__ result);
result = FUNC(csqrt) (BUILD_COMPLEX (-1, nan_value));
check_isnan_maybe_exc ("real(csqrt(-1 + i NaN)) = NaN plus maybe invalid exception",
__real__ result, INVALID_EXCEPTION);
check_isnan ("imag(csqrt(-1 + i NaN)) = NaN plus maybe invalid exception",
__imag__ result);
result = FUNC(csqrt) (BUILD_COMPLEX (nan_value, 0));
check_isnan_maybe_exc ("real(csqrt(NaN + i0)) = NaN plus maybe invalid exception",
__real__ result, INVALID_EXCEPTION);
check_isnan ("imag(csqrt(NaN + i0)) = NaN plus maybe invalid exception",
__imag__ result);
result = FUNC(csqrt) (BUILD_COMPLEX (nan_value, 8));
check_isnan_maybe_exc ("real(csqrt(NaN + i8)) = NaN plus maybe invalid exception",
__real__ result, INVALID_EXCEPTION);
check_isnan ("imag(csqrt(NaN + i8)) = NaN plus maybe invalid exception",
__imag__ result);
result = FUNC(csqrt) (BUILD_COMPLEX (nan_value, minus_zero));
check_isnan_maybe_exc ("real(csqrt(NaN - i0)) = NaN plus maybe invalid exception",
__real__ result, INVALID_EXCEPTION);
check_isnan ("imag(csqrt(NaN - i0)) = NaN plus maybe invalid exception",
__imag__ result);
result = FUNC(csqrt) (BUILD_COMPLEX (nan_value, -8));
check_isnan_maybe_exc ("real(csqrt(NaN - i8)) = NaN plus maybe invalid exception",
__real__ result, INVALID_EXCEPTION);
check_isnan ("imag(csqrt(NaN - i8)) = NaN plus maybe invalid exception",
__imag__ result);
result = FUNC(csqrt) (BUILD_COMPLEX (nan_value, nan_value));
check_isnan ("real(csqrt(NaN + i NaN)) = NaN", __real__ result);
check_isnan ("imag(csqrt(NaN + i NaN)) = NaN", __imag__ result);
}
static void
cpow_test (void)
{
__complex__ MATHTYPE result;
result = FUNC (cpow) (BUILD_COMPLEX (1, 0), BUILD_COMPLEX (0, 0));
check ("real(cpow (1 + i0), (0 + i0)) = 0", __real__ result, 1);
check ("imag(cpow (1 + i0), (0 + i0)) = 0", __imag__ result, 0);
result = FUNC (cpow) (BUILD_COMPLEX (2, 0), BUILD_COMPLEX (10, 0));
check_eps ("real(cpow (2 + i0), (10 + i0)) = 1024", __real__ result, 1024,
CHOOSE (2e-16L, 0, 0));
check ("imag(cpow (2 + i0), (10 + i0)) = 0", __imag__ result, 0);
}
static void
nearbyint_test (void)
{
check ("nearbyint(+0) = 0", FUNC(nearbyint) (0.0), 0.0);
check ("nearbyint(-0) = -0", FUNC(nearbyint) (minus_zero), minus_zero);
check_isinfp ("nearbyint(+Inf) = +Inf", FUNC(nearbyint) (plus_infty));
check_isinfn ("nearbyint(-Inf) = -Inf", FUNC(nearbyint) (minus_infty));
}
static void
rint_test (void)
{
check ("rint(0) = 0", FUNC(rint) (0.0), 0.0);
check ("rint(-0) = -0", FUNC(rint) (minus_zero), minus_zero);
check_isinfp ("rint(+Inf) = +Inf", FUNC(rint) (plus_infty));
check_isinfn ("rint(-Inf) = -Inf", FUNC(rint) (minus_infty));
}
static void
lrint_test (void)
{
/* XXX this test is incomplete. We need to have a way to specifiy
the rounding method and test the critical cases. So far, only
unproblematic numbers are tested. */
check_long ("lrint(0) = 0", lrint (0.0), 0);
check_long ("lrint(-0) = 0", lrint (minus_zero), 0);
check_long ("lrint(0.2) = 0", lrint (0.2), 0);
check_long ("lrint(-0.2) = 0", lrint (-0.2), 0);
check_long ("lrint(1.4) = 1", lrint (1.4), 1);
check_long ("lrint(-1.4) = -1", lrint (-1.4), -1);
check_long ("lrint(8388600.3) = 8388600", lrint (8388600.3), 8388600);
check_long ("lrint(-8388600.3) = -8388600", lrint (-8388600.3),
-8388600);
}
static void
llrint_test (void)
{
/* XXX this test is incomplete. We need to have a way to specifiy
the rounding method and test the critical cases. So far, only
unproblematic numbers are tested. */
check_longlong ("llrint(0) = 0", llrint (0.0), 0);
check_longlong ("llrint(-0) = 0", llrint (minus_zero), 0);
check_longlong ("llrint(0.2) = 0", llrint (0.2), 0);
check_longlong ("llrint(-0.2) = 0", llrint (-0.2), 0);
check_longlong ("llrint(1.4) = 1", llrint (1.4), 1);
check_longlong ("llrint(-1.4) = -1", llrint (-1.4), -1);
check_longlong ("llrint(8388600.3) = 8388600", llrint (8388600.3),
8388600);
check_longlong ("llrint(-8388600.3) = -8388600", llrint (-8388600.3),
-8388600);
}
static void
round_test (void)
{
check ("round(0) = 0", FUNC(round) (0), 0);
check ("round(-0) = -0", FUNC(round) (minus_zero), minus_zero);
check ("round(0.2) = 0", FUNC(round) (0.2), 0.0);
check ("round(-0.2) = -0", FUNC(round) (-0.2), minus_zero);
check ("round(0.5) = 1", FUNC(round) (0.5), 1.0);
check ("round(-0.5) = -1", FUNC(round) (-0.5), -1.0);
check ("round(0.8) = 1", FUNC(round) (0.8), 1.0);
check ("round(-0.8) = -1", FUNC(round) (-0.8), -1.0);
check ("round(1.5) = 2", FUNC(round) (1.5), 2.0);
check ("round(-1.5) = -2", FUNC(round) (-1.5), -2.0);
check ("round(2097152.5) = 2097153", FUNC(round) (2097152.5), 2097153);
check ("round(-2097152.5) = -2097153", FUNC(round) (-2097152.5), -2097153);
}
static void
lround_test (void)
{
check_long ("lround(0) = 0", lround (0), 0);
check_long ("lround(-0) = 0", lround (minus_zero), 0);
check_long ("lround(0.2) = 0", lround (0.2), 0.0);
check_long ("lround(-0.2) = 0", lround (-0.2), 0);
check_long ("lround(0.5) = 1", lround (0.5), 1);
check_long ("lround(-0.5) = -1", lround (-0.5), -1);
check_long ("lround(0.8) = 1", lround (0.8), 1);
check_long ("lround(-0.8) = -1", lround (-0.8), -1);
check_long ("lround(1.5) = 2", lround (1.5), 2);
check_long ("lround(-1.5) = -2", lround (-1.5), -2);
check_long ("lround(2097152.5) = 2097153", lround (2097152.5), 2097153);
check_long ("lround(-2097152.5) = -2097153", lround (-2097152.5),
-2097153);
}
static void
llround_test (void)
{
check_longlong ("llround(0) = 0", llround (0), 0);
check_longlong ("llround(-0) = 0", llround (minus_zero), 0);
check_longlong ("llround(0.2) = 0", llround (0.2), 0.0);
check_longlong ("llround(-0.2) = 0", llround (-0.2), 0);
check_longlong ("llround(0.5) = 1", llround (0.5), 1);
check_longlong ("llround(-0.5) = -1", llround (-0.5), -1);
check_longlong ("llround(0.8) = 1", llround (0.8), 1);
check_longlong ("llround(-0.8) = -1", llround (-0.8), -1);
check_longlong ("llround(1.5) = 2", llround (1.5), 2);
check_longlong ("llround(-1.5) = -2", llround (-1.5), -2);
check_longlong ("llround(2097152.5) = 2097153",
llround (2097152.5), 2097153);
check_longlong ("llround(-2097152.5) = -2097153",
llround (-2097152.5), -2097153);
check_longlong ("llround(34359738368.5) = 34359738369",
llround (34359738368.5), 34359738369ll);
check_longlong ("llround(-34359738368.5) = -34359738369",
llround (-34359738368.5), -34359738369ll);
}
static void
inverse_func_pair_test (const char *test_name,
mathfunc f1, mathfunc inverse,
MATHTYPE x, MATHTYPE epsilon)
{
MATHTYPE a, b, difference;
int result;
a = f1 (x);
(void) &a;
b = inverse (a);
(void) &b;
output_new_test (test_name);
result = check_equal (b, x, epsilon, &difference);
output_result (test_name, result,
b, x, difference, PRINT, PRINT);
}
static void
inverse_functions (void)
{
inverse_func_pair_test ("asin(sin(x)) == x",
FUNC(sin), FUNC(asin), 1.0, CHOOSE (2e-18L, 0, 3e-7L));
inverse_func_pair_test ("sin(asin(x)) == x",
FUNC(asin), FUNC(sin), 1.0, 0.0);
inverse_func_pair_test ("acos(cos(x)) == x",
FUNC(cos), FUNC(acos), 1.0, CHOOSE (4e-18L, 1e-15L, 0));
inverse_func_pair_test ("cos(acos(x)) == x",
FUNC(acos), FUNC(cos), 1.0, 0.0);
inverse_func_pair_test ("atan(tan(x)) == x",
FUNC(tan), FUNC(atan), 1.0, CHOOSE (2e-18L, 0, 0));
inverse_func_pair_test ("tan(atan(x)) == x",
FUNC(atan), FUNC(tan), 1.0, CHOOSE (2e-18L, 1e-15L, 0));
inverse_func_pair_test ("asinh(sinh(x)) == x",
FUNC(sinh), FUNC(asinh), 1.0, CHOOSE (1e-18L, 0, 1e-7));
inverse_func_pair_test ("sinh(asinh(x)) == x",
FUNC(asinh), FUNC(sinh), 1.0, CHOOSE (2e-18L, 0, 0));
inverse_func_pair_test ("acosh(cosh(x)) == x",
FUNC(cosh), FUNC(acosh), 1.0, CHOOSE (1e-18L, 1e-15L, 0));
inverse_func_pair_test ("cosh(acosh(x)) == x",
FUNC(acosh), FUNC(cosh), 1.0, 0.0);
inverse_func_pair_test ("atanh(tanh(x)) == x",
FUNC(tanh), FUNC(atanh), 1.0, CHOOSE (1e-18L, 1e-15L, 0));
inverse_func_pair_test ("tanh(atanh(x)) == x",
FUNC(atanh), FUNC(tanh), 1.0, 0.0);
}
/* Test sin and cos with the identity: sin(x)^2 + cos(x)^2 = 1. */
static void
identities1_test (MATHTYPE x, MATHTYPE epsilon)
{
MATHTYPE res1, res2, res3, diff;
int result;
res1 = FUNC(sin) (x);
(void) &res1;
res2 = FUNC(cos) (x);
(void) &res2;
res3 = res1 * res1 + res2 * res2;
(void) &res3;
output_new_test ("sin^2 + cos^2 == 1");
result = check_equal (res3, 1.0, epsilon, &diff);
output_result_ext ("sin^2 + cos^2 == 1", result,
res3, 1.0, diff, x, PRINT, PRINT);
}
/* Test sin, cos, tan with the following relation: tan = sin/cos. */
static void
identities2_test (MATHTYPE x, MATHTYPE epsilon)
{
#ifndef TEST_INLINE
MATHTYPE res1, res2, res3, res4, diff;
int result;
res1 = FUNC(sin) (x);
(void) &res1;
res2 = FUNC(cos) (x);
(void) &res2;
res3 = FUNC(tan) (x);
(void) &res3;
res4 = res1 / res2;
(void) &res4;
output_new_test ("sin/cos == tan");
result = check_equal (res4, res3, epsilon, &diff);
output_result_ext ("sin/cos == tan", result,
res4, res3, diff, x, PRINT, PRINT);
#endif
}
/* Test cosh and sinh with the identity cosh^2 - sinh^2 = 1. */
static void
identities3_test (MATHTYPE x, MATHTYPE epsilon)
{
MATHTYPE res1, res2, res3, diff;
int result;
res1 = FUNC(sinh) (x);
(void) &res1;
res2 = FUNC(cosh) (x);
(void) &res2;
res3 = res2 * res2 - res1 * res1;
(void) &res3;
output_new_test ("cosh^2 - sinh^2 == 1");
result = check_equal (res3, 1.0, epsilon, &diff);
output_result_ext ("cosh^2 - sinh^2 == 1", result,
res3, 1.0, diff, x, PRINT, PRINT);
}
static void
identities (void)
{
identities1_test (0.2L, CHOOSE (1e-18L, 0, 2e-7));
identities1_test (0.9L, CHOOSE (1e-18L, 0, 1e-7));
identities1_test (0, 0);
identities1_test (-1, CHOOSE (1e-18L, 0, 1e-7));
identities2_test (0.2L, CHOOSE (1e-19L, 1e-16, 0));
identities2_test (0.9L, CHOOSE (0, 1e-15, 2e-7));
identities2_test (0, 0);
identities2_test (-1, CHOOSE (1e-18L, 1e-15, 2e-7));
identities3_test (0.2L, CHOOSE (1e-18L, 0, 1e-7));
identities3_test (0.9L, CHOOSE (1e-18L, 1e-15, 1e-6));
identities3_test (0, CHOOSE (0, 0, 1e-6));
identities3_test (-1, CHOOSE (1e-18L, 7e-16, 1e-6));
}
/*
Let's test that basic arithmetic is working
tests: Infinity and NaN
*/
static void
basic_tests (void)
{
/* variables are declared volatile to forbid some compiler
optimizations */
volatile MATHTYPE Inf_var, NaN_var, zero_var, one_var;
MATHTYPE x1, x2;
zero_var = 0.0;
one_var = 1.0;
NaN_var = nan_value;
Inf_var = one_var / zero_var;
(void) &zero_var;
(void) &one_var;
(void) &NaN_var;
(void) &Inf_var;
/* Clear all exceptions. The previous computations raised exceptions. */
feclearexcept (FE_ALL_EXCEPT);
check_isinfp ("isinf (inf) == +1", Inf_var);
check_isinfn ("isinf (-inf) == -1", -Inf_var);
check_bool ("!isinf (1)", !(FUNC(isinf) (one_var)));
check_bool ("!isinf (NaN)", !(FUNC(isinf) (NaN_var)));
check_isnan ("isnan (NaN)", NaN_var);
check_isnan ("isnan (-NaN)", -NaN_var);
check_bool ("!isnan (1)", !(FUNC(isnan) (one_var)));
check_bool ("!isnan (inf)", !(FUNC(isnan) (Inf_var)));
check_bool ("inf == inf", Inf_var == Inf_var);
check_bool ("-inf == -inf", -Inf_var == -Inf_var);
check_bool ("inf != -inf", Inf_var != -Inf_var);
check_bool ("NaN != NaN", NaN_var != NaN_var);
/*
the same tests but this time with NAN from <bits/nan.h>
NAN is a double const
*/
check_bool ("isnan (NAN)", isnan (NAN));
check_bool ("isnan (-NAN)", isnan (-NAN));
check_bool ("!isinf (NAN)", !(isinf (NAN)));
check_bool ("!isinf (-NAN)", !(isinf (-NAN)));
check_bool ("NAN != NAN", NAN != NAN);
/*
And again with the value returned by the `nan' function.
*/
check_bool ("isnan (NAN)", FUNC(isnan) (FUNC(nan) ("")));
check_bool ("isnan (-NAN)", FUNC(isnan) (-FUNC(nan) ("")));
check_bool ("!isinf (NAN)", !(FUNC(isinf) (FUNC(nan) (""))));
check_bool ("!isinf (-NAN)", !(FUNC(isinf) (-FUNC(nan) (""))));
check_bool ("NAN != NAN", FUNC(nan) ("") != FUNC(nan) (""));
/* test if EPSILON is ok */
x1 = MATHCONST (1.0);
x2 = x1 + CHOOSE (LDBL_EPSILON, DBL_EPSILON, FLT_EPSILON);
check_bool ("1 != 1+EPSILON", x1 != x2);
x1 = MATHCONST (1.0);
x2 = x1 - CHOOSE (LDBL_EPSILON, DBL_EPSILON, FLT_EPSILON);
check_bool ("1 != 1-EPSILON", x1 != x2);
/* test if HUGE_VALx is ok */
x1 = CHOOSE (HUGE_VALL, HUGE_VAL, HUGE_VALF);
check_bool ("isinf (HUGE_VALx) == +1", ISINF (x1) == +1);
x1 = -CHOOSE (HUGE_VALL, HUGE_VAL, HUGE_VALF);
check_bool ("isinf (-HUGE_VALx) == -1", ISINF (x1) == -1);
}
static void
initialize (void)
{
fpstack_test ("start *init*");
plus_zero = 0.0;
nan_value = plus_zero / plus_zero; /* Suppress GCC warning */
minus_zero = FUNC (copysign) (0.0, -1.0);
plus_infty = CHOOSE (HUGE_VALL, HUGE_VAL, HUGE_VALF);
minus_infty = -CHOOSE (HUGE_VALL, HUGE_VAL, HUGE_VALF);
(void) &plus_zero;
(void) &nan_value;
(void) &minus_zero;
(void) &plus_infty;
(void) &minus_infty;
/* Clear all exceptions. From now on we must not get random exceptions. */
feclearexcept (FE_ALL_EXCEPT);
/* Test to make sure we start correctly. */
fpstack_test ("end *init*");
}
static struct option long_options[] =
{
{"verbose", optional_argument, NULL, 'v'},
{"silent", no_argument, NULL, 's'},
{0, 0, 0, 0}
};
static void
parse_options (int argc, char *argv[])
{
int c;
int option_index;
verbose = 1;
while (1)
{
c = getopt_long (argc, argv, "v::s",
long_options, &option_index);
/* Detect the end of the options. */
if (c == -1)
break;
switch (c)
{
case 'v':
if (optarg)
verbose = (unsigned int) strtoul (optarg, NULL, 0);
else
verbose = 4;
break;
case 's':
verbose = 0;
default:
break;
}
}
}
int
main (int argc, char *argv[])
{
parse_options (argc, argv);
initialize ();
printf (TEST_MSG);
basic_tests ();
/* keep the tests a wee bit ordered (according to ISO 9X) */
/* classification functions */
fpclassify_test ();
isfinite_test ();
isnormal_test ();
signbit_test ();
/* trigonometric functions */
acos_test ();
asin_test ();
atan_test ();
atan2_test ();
cos_test ();
sin_test ();
sincos_test ();
tan_test ();
/* hyperbolic functions */
acosh_test ();
asinh_test ();
atanh_test ();
cosh_test ();
sinh_test ();
tanh_test ();
/* exponential and logarithmic functions */
exp_test ();
exp2_test ();
expm1_test ();
frexp_test ();
ldexp_test ();
log_test ();
log10_test ();
log1p_test ();
log2_test ();
logb_test ();
modf_test ();
ilogb_test ();
scalb_test ();
scalbn_test ();
/* power and absolute value functions */
cbrt_test ();
fabs_test ();
hypot_test ();
pow_test ();
sqrt_test ();
/* error and gamma functions */
erf_test ();
erfc_test ();
gamma_test ();
lgamma_test ();
/* nearest integer functions */
ceil_test ();
floor_test ();
nearbyint_test ();
rint_test ();
lrint_test ();
llrint_test ();
round_test ();
lround_test ();
llround_test ();
trunc_test ();
/* remainder functions */
fmod_test ();
remainder_test ();
remquo_test ();
/* manipulation functions */
copysign_test ();
nextafter_test ();
/* maximum, minimum and positive difference functions */
fdim_test ();
fmin_test ();
fmax_test ();
/* complex functions */
cexp_test ();
csin_test ();
csinh_test ();
ccos_test ();
ccosh_test ();
clog_test ();
cacos_test ();
cacosh_test ();
casin_test ();
casinh_test ();
catan_test ();
catanh_test ();
ctanh_test ();
csqrt_test ();
cpow_test ();
/* special tests */
identities ();
inverse_functions ();
if (noErrors)
{
printf ("\n%d errors occured.\n", noErrors);
exit (1);
}
printf ("\n All tests passed successfully.\n");
exit (0);
}
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