diff options
-rw-r--r-- | ChangeLog | 24 | ||||
-rw-r--r-- | FAQ.in | 10 | ||||
-rw-r--r-- | math/libm-test.c | 1810 | ||||
-rw-r--r-- | nis/rpcsvc/nis.h | 20 | ||||
-rw-r--r-- | nis/rpcsvc/nis.x | 91 | ||||
-rw-r--r-- | nis/rpcsvc/nis_object.x | 68 | ||||
-rw-r--r-- | string/envz.h | 6 | ||||
-rw-r--r-- | sunrpc/auth_des.c | 81 | ||||
-rw-r--r-- | sunrpc/rpc/xdr.h | 37 | ||||
-rw-r--r-- | sunrpc/rpc_hout.c | 15 | ||||
-rw-r--r-- | sunrpc/rpc_main.c | 13 | ||||
-rw-r--r-- | sunrpc/rpc_svcout.c | 14 | ||||
-rw-r--r-- | sysdeps/unix/sysv/linux/alpha/setfpucw.c | 4 |
13 files changed, 1073 insertions, 1120 deletions
diff --git a/ChangeLog b/ChangeLog index 2149287e4b..de646fff72 100644 --- a/ChangeLog +++ b/ChangeLog @@ -1,3 +1,27 @@ +1998-12-01 Thorsten Kukuk <kukuk@vt.uni-paderborn.de> + + * sunrpc/auth_des.c: Use new XDR int32 functions for integers. + * sunrpc/rpc/xdr.h: Add IXDR INT32 functions. + * sunrpc/rpc_hout.c: Remove (u_long) casts in defines to avoid + conflicts with new solaris version. + * sunrpc/rpc_main.c: Fix bug in generating Makefile name (malloc + doesn't zero allocated memory). + * sunrpc/rpc_svcout.c: Local variables now starts with a _ to avoid + conflicts with xdr functions. Solves PR libc/877. + * nis/rpcsvc/nis.x: Use always uint32_t. + * nis/rpcsvc/nis.h: Likewise. + * nis/rpcsvc/nis_object.x: Likewise. + +1998-12-01 Ulrich Drepper <drepper@cygnus.com> + + * math/libm-test.c: Various cleanups. Patch by Zack Weinberg. + + * sysdeps/unix/sysv/linux/alpha/setfpucw.c: Use correct type for + parameter. Patch by Christian Gafton. + + * string/envz.h: Add prototype for envz_remove. + Reported by Andreas Jaeger. + 1998-11-30 Mark Kettenis <kettenis@phys.uva.nl> * mach/Versions [libc, GLIBC_2.0]: Add __spin_lock, diff --git a/FAQ.in b/FAQ.in index 452d76ab09..b1bd299e3f 100644 --- a/FAQ.in +++ b/FAQ.in @@ -1140,6 +1140,16 @@ taken care in user programs using the firewall structures and therefore those programs (ipfw is AFAIK the only one) should deal with this problem themselves. +?? I get floods of warnings when I use -Wconversion and include + <string.h> or <math.h>. + +{ZW} <string.h> and <math.h> intentionally use prototypes to override +argument promotion. -Wconversion warns about all these. You can safely +ignore the warnings. + +-Wconversion isn't really intended for production use, only for shakedown +compiles after converting an old program to standard C. + ? Miscellaneous diff --git a/math/libm-test.c b/math/libm-test.c index 86616a4404..2f57ef21bd 100644 --- a/math/libm-test.c +++ b/math/libm-test.c @@ -17,9 +17,7 @@ write to the Free Software Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. */ - -/* - Part of testsuite for libm. +/* Part of testsuite for libm. This file has to be included by a master file that defines: @@ -27,16 +25,16 @@ 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 + 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 + 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". - PRINTF_XEXPR Like PRINTF_EXPR, but print in hexadecimal format. + PRINTF_XEXPR Like PRINTF_EXPR, but print in hexadecimal format. */ /* This program isn't finished yet. @@ -58,12 +56,12 @@ ccos, ccosh, cexp, clog, cpow, csin, csinh, csqrt, ctan, ctanh. At the moment the following functions aren't tested: -OB conj, cproj, cimag, creal, drem, + conj, cproj, cimag, creal, drem, j0, j1, jn, y0, y1, yn, significand, nan - The routines using random variables are still under construction. I don't + 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: @@ -82,25 +80,25 @@ OB conj, cproj, cimag, creal, drem, This suite tests some aspects of the correct implementation of mathematical functions in libm. Some simple, specific parameters are tested for correctness but there's no exhaustive - testing. 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 + testing. 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 + exceptions are tested. Overflow/underflow and inexact exceptions aren't checked at the moment. - NaN values: There exist signalling and quiet NaNs. This implementation + 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 + 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 + 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. @@ -112,8 +110,7 @@ OB conj, cproj, cimag, creal, drem, - 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 @@ -130,21 +127,21 @@ OB conj, cproj, cimag, creal, drem, #include <getopt.h> /* Possible exceptions */ -#define NO_EXCEPTION 0x0 -#define INVALID_EXCEPTION 0x1 +#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_6l .52359877559829887308L +#define M_PI_6l .52359877559829887308L #define M_E2l 7.389056098930650227230L #define M_E3l 20.08553692318766774093L -static int noErrors; /* number of errors */ -static int noTests; /* number of tests (without testing exceptions) */ -static int noExcTests; /* number of tests for exception flags */ +static int noErrors; /* number of errors */ +static int noTests; /* number of tests (without testing exceptions) */ +static int noExcTests; /* number of tests for exception flags */ static int verbose = 3; static MATHTYPE minus_zero, plus_zero; @@ -166,23 +163,22 @@ typedef MATHTYPE (*mathfunc) (MATHTYPE); isinf (x) : isinfl (x)) - /* - Test if Floating-Point stack hasn't changed - */ +/* 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)); + + 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); + printf ("FP-Stack wrong after test %s (%d, should be %d)\n", + test_name, sw, old_stack); ++noErrors; old_stack = sw; } @@ -190,11 +186,9 @@ asm ("fnstsw":"=a" (sw)); } -/* - Get a random value x with min_value < x < max_value +/* 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 - */ + max_value and min_value shouldn't be too close together */ static MATHTYPE random_value (MATHTYPE min_value, MATHTYPE max_value) { @@ -214,13 +208,15 @@ random_value (MATHTYPE min_value, MATHTYPE max_value) 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) */ + 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) @@ -246,7 +242,7 @@ output_pass_value (void) static void -output_fail_value (const char * test_name) +output_fail_value (const char *test_name) { if (verbose > 0 && verbose < 3) printf ("Fail: %s\n", test_name); @@ -258,48 +254,48 @@ output_fail_value (const char * test_name) /* 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) + 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); - } + { + if (verbose > 3) + printf ("Pass: Exception \"%s\" set\n", flag_name); + } else - { - if (verbose && verbose < 3) - printf ("Fail: %s: Exception \"%s\" not set\n", + { + 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; - } + 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", + { + 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; - } + if (verbose >= 3) + printf ("Fail: Exception \"%s\" set\n", + flag_name); + ++noErrors; + } else - { - if (verbose > 3) - printf ("Pass: Exception \"%s\" not set\n", + { + if (verbose > 3) + printf ("Pass: Exception \"%s\" not set\n", flag_name); - } + } } #endif } @@ -332,12 +328,12 @@ test_exceptions (const char *test_name, short int exception) ++noExcTests; #ifdef FE_DIVBYZERO test_single_exception (test_name, exception, - DIVIDE_BY_ZERO_EXCEPTION, FE_DIVBYZERO, - "Divide by zero"); + 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"); + "Invalid operation"); #endif feclearexcept (FE_ALL_EXCEPT); } @@ -360,16 +356,16 @@ check_equal (MATHTYPE computed, MATHTYPE supplied, MATHTYPE eps, MATHTYPE * diff ret_value = (*diff <= eps && - (signbit (computed) == signbit (supplied) || eps != 0.0)); + (signbit (computed) == signbit (supplied) || eps != 0.0)); - /* Make sure the subtraction/comparison have no influence on the exceptions. */ + /* Make sure the subtraction/comparison + have no influence on the exceptions. */ feclearexcept (FE_ALL_EXCEPT); return ret_value; } - static void output_result_bool (const char *test_name, int result) { @@ -382,7 +378,7 @@ output_result_bool (const char *test_name, int result) { output_fail_value (test_name); if (verbose > 1) - printf (" Value: %d\n", result); + printf (" Value: %d\n", result); ++noErrors; } @@ -455,12 +451,12 @@ output_result (const char *test_name, int result, if (verbose > 1 && print_values) { printf ("Result:\n"); - printf (" is: % .20" PRINTF_EXPR " % .20" PRINTF_XEXPR "\n", + printf (" is: % .20" PRINTF_EXPR " % .20" PRINTF_XEXPR "\n", computed, computed); - printf (" should be: % .20" PRINTF_EXPR " % .20" PRINTF_XEXPR "\n", + printf (" should be: % .20" PRINTF_EXPR " % .20" PRINTF_XEXPR "\n", expected, expected); if (print_diff) - printf (" difference: % .20" PRINTF_EXPR " % .20" PRINTF_XEXPR + printf (" difference: % .20" PRINTF_EXPR " % .20" PRINTF_XEXPR "\n", difference, difference); } ++noErrors; @@ -488,14 +484,14 @@ output_result_ext (const char *test_name, int result, if (verbose > 1 && print_values) { printf ("Result:\n"); - printf (" is: % .20" PRINTF_EXPR " % .20" PRINTF_XEXPR "\n", + printf (" is: % .20" PRINTF_EXPR " % .20" PRINTF_XEXPR "\n", computed, computed); - printf (" should be: % .20" PRINTF_EXPR " % .20" PRINTF_XEXPR "\n", + printf (" should be: % .20" PRINTF_EXPR " % .20" PRINTF_XEXPR "\n", expected, expected); if (print_diff) - printf (" difference: % .20" PRINTF_EXPR " % .20" PRINTF_XEXPR + printf (" difference: % .20" PRINTF_EXPR " % .20" PRINTF_XEXPR "\n", difference, difference); - printf ("Parameter: % .20" PRINTF_EXPR " % .20" PRINTF_XEXPR "\n", + printf ("Parameter: % .20" PRINTF_EXPR " % .20" PRINTF_XEXPR "\n", parameter, parameter); } ++noErrors; @@ -504,9 +500,8 @@ output_result_ext (const char *test_name, int result, fpstack_test (test_name); } -/* - check that computed and expected values are the same - */ + +/* check that computed and expected values are the same */ static void check (const char *test_name, MATHTYPE computed, MATHTYPE expected) { @@ -521,10 +516,8 @@ check (const char *test_name, MATHTYPE computed, MATHTYPE expected) } -/* - check that computed and expected values are the same, - outputs the parameter to the function - */ +/* 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) @@ -540,10 +533,8 @@ check_ext (const char *test_name, MATHTYPE computed, MATHTYPE expected, } -/* - check that computed and expected values are the same and - checks also for exception flags - */ +/* 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) @@ -558,9 +549,8 @@ check_exc (const char *test_name, MATHTYPE computed, MATHTYPE expected, computed, expected, diff, PRINT, PRINT); } -/* - check that computed and expected values are close enough - */ + +/* check that computed and expected values are close enough */ static void check_eps (const char *test_name, MATHTYPE computed, MATHTYPE expected, MATHTYPE epsilon) @@ -575,9 +565,8 @@ check_eps (const char *test_name, MATHTYPE computed, MATHTYPE expected, computed, expected, diff, PRINT, PRINT); } -/* - check a boolean condition - */ + +/* check a boolean condition */ static void check_bool (const char *test_name, int computed) { @@ -587,10 +576,7 @@ check_bool (const char *test_name, int computed) } - -/* - check that computed and expected values are equal (int values) - */ +/* check that computed and expected values are equal (int values) */ static void check_int (const char *test_name, int computed, int expected) { @@ -610,8 +596,8 @@ check_int (const char *test_name, int computed, int expected) if (verbose > 1) { printf ("Result:\n"); - printf (" is: %d\n", computed); - printf (" should be: %d\n", expected); + printf (" is: %d\n", computed); + printf (" should be: %d\n", expected); } noErrors++; } @@ -620,9 +606,7 @@ check_int (const char *test_name, int computed, int expected) } -/* - check that computed and expected values are equal (long int values) - */ +/* 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) { @@ -643,8 +627,8 @@ check_long (const char *test_name, long int computed, long int expected) if (verbose > 1) { printf ("Result:\n"); - printf (" is: %ld\n", computed); - printf (" should be: %ld\n", expected); + printf (" is: %ld\n", computed); + printf (" should be: %ld\n", expected); } noErrors++; } @@ -652,9 +636,8 @@ check_long (const char *test_name, long int computed, long int expected) fpstack_test (test_name); } -/* - check that computed and expected values are equal (long long int values) - */ + +/* 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) @@ -676,8 +659,8 @@ check_longlong (const char *test_name, long long int computed, if (verbose > 1) { printf ("Result:\n"); - printf (" is: %lld\n", computed); - printf (" should be: %lld\n", expected); + printf (" is: %lld\n", computed); + printf (" should be: %lld\n", expected); } noErrors++; } @@ -685,9 +668,8 @@ check_longlong (const char *test_name, long long int computed, fpstack_test (test_name); } -/* - check that computed value is not-a-number - */ + +/* check that computed value is not-a-number */ static void check_isnan (const char *test_name, MATHTYPE computed) { @@ -697,9 +679,7 @@ check_isnan (const char *test_name, MATHTYPE computed) } -/* - check that computed value is not-a-number and test for exceptions - */ +/* 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) @@ -710,9 +690,7 @@ check_isnan_exc (const char *test_name, MATHTYPE computed, } -/* - check that computed value is not-a-number and test for exceptions - */ +/* 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) @@ -722,9 +700,8 @@ check_isnan_maybe_exc (const char *test_name, MATHTYPE computed, output_isvalue (test_name, isnan (computed), computed); } -/* - check that computed value is not-a-number and supply parameter - */ + +/* 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, @@ -736,16 +713,14 @@ check_isnan_ext (const char *test_name, MATHTYPE computed, } #endif -/* - check that computed value is not-a-number, test for exceptions - and supply parameter - */ +/* 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) + short exception, MATHTYPE parameter) { output_new_test (test_name); - test_exceptions (test_name,exception); + test_exceptions (test_name, exception); output_isvalue_ext (test_name, isnan (computed), computed, parameter); } @@ -760,6 +735,7 @@ check_isinfp (const char *test_name, MATHTYPE computed) } +/* Tests if computed is +Inf and supply parameter */ static void check_isinfp_ext (const char *test_name, MATHTYPE computed, MATHTYPE parameter) @@ -770,7 +746,7 @@ check_isinfp_ext (const char *test_name, MATHTYPE computed, } -/* Tests if computed is +Inf */ +/* Tests if computed is +Inf and check exceptions */ static void check_isinfp_exc (const char *test_name, MATHTYPE computed, int exception) @@ -780,6 +756,7 @@ check_isinfp_exc (const char *test_name, MATHTYPE computed, output_isvalue (test_name, (ISINF (computed) == +1), computed); } + /* Tests if computed is -Inf */ static void check_isinfn (const char *test_name, MATHTYPE computed) @@ -790,6 +767,7 @@ check_isinfn (const char *test_name, MATHTYPE computed) } +/* Tests if computed is -Inf and supply parameter */ #ifndef TEST_INLINE static void check_isinfn_ext (const char *test_name, MATHTYPE computed, @@ -801,8 +779,7 @@ check_isinfn_ext (const char *test_name, MATHTYPE computed, } #endif - -/* Tests if computed is -Inf */ +/* Tests if computed is -Inf and check exceptions */ static void check_isinfn_exc (const char *test_name, MATHTYPE computed, int exception) @@ -848,13 +825,12 @@ acos_test (void) check ("acos (-1) == pi", FUNC(acos) (-1), M_PIl); check_eps ("acos (0.5) == pi/3", FUNC(acos) (0.5), M_PI_6l * 2.0, - CHOOSE (1e-18, 0, 0)); + CHOOSE(1e-18, 0, 0)); check_eps ("acos (-0.5) == 2*pi/3", FUNC(acos) (-0.5), M_PI_6l * 4.0, - CHOOSE (1e-17, 0, 0)); + CHOOSE(1e-17, 0, 0)); check_eps ("acos (0.7) == 0.795398830...", FUNC(acos) (0.7), 0.7953988301841435554L, CHOOSE(7e-17L, 0, 0)); - } @@ -873,7 +849,7 @@ acosh_test (void) check ("acosh(1) == 0", FUNC(acosh) (1), 0); check_eps ("acosh(7) == 2.633915793...", FUNC(acosh) (7), - 2.6339157938496334172L, CHOOSE (3e-19, 0, 0)); + 2.6339157938496334172L, CHOOSE(3e-19, 0, 0)); } @@ -900,7 +876,7 @@ asin_test (void) CHOOSE(3.5e-18, 0, 2e-7)); check_eps ("asin (-0.5) == -pi/6", FUNC(asin) (-0.5), -M_PI_6l, CHOOSE(3.5e-18, 0, 2e-7)); - check ("asin (1.0) == pi/2", FUNC(asin) (1.0), M_PI_2l); + check ("asin (1.0) == pi/2", FUNC(asin) (1.0), M_PI_2l); check ("asin (-1.0) == -pi/2", FUNC(asin) (-1.0), -M_PI_2l); check_eps ("asin (0.7) == 0.775397496...", FUNC(asin) (0.7), 0.7753974966107530637L, CHOOSE(7e-17L, 2e-16, 2e-7)); @@ -910,7 +886,6 @@ asin_test (void) 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); @@ -919,7 +894,6 @@ asinh_test (void) #endif check_eps ("asinh(0.7) == 0.652666566...", FUNC(asinh) (0.7), 0.652666566082355786L, CHOOSE(4e-17L, 0, 6e-8)); - } @@ -933,9 +907,9 @@ atan_test (void) check ("atan (-inf) == -pi/2", FUNC(atan) (minus_infty), -M_PI_2l); check_eps ("atan (1) == pi/4", FUNC(atan) (1), M_PI_4l, - CHOOSE (1e-18, 0, 0)); + CHOOSE(1e-18, 0, 0)); check_eps ("atan (-1) == -pi/4", FUNC(atan) (1), M_PI_4l, - CHOOSE (1e-18, 0, 0)); + CHOOSE(1e-18, 0, 0)); check_eps ("atan (0.7) == 0.610725964...", FUNC(atan) (0.7), 0.6107259643892086165L, CHOOSE(3e-17L, 0, 0)); @@ -990,11 +964,11 @@ atan2_test (void) x = random_value (-1e4, 1e4); check ("atan2(+inf, x) == pi/2 for finite x", - FUNC(atan2) (plus_infty, x), M_PI_2l); + FUNC(atan2) (plus_infty, x), M_PI_2l); x = random_value (-1e4, 1e4); check ("atan2(-inf, x) == -pi/2 for finite x", - FUNC(atan2) (minus_infty, x), -M_PI_2l); + FUNC(atan2) (minus_infty, x), -M_PI_2l); x = random_greater (0); check ("atan2 (y,-inf) == +pi for finite y > 0", @@ -1017,11 +991,10 @@ atan2_test (void) FUNC(atan2) (minus_infty, minus_infty), -3 * M_PI_4l); /* FIXME: Add some specific tests */ - check_eps ("atan2 (0.7,1) == 0.61072...", FUNC(atan2) (0.7,1), + check_eps ("atan2 (0.7,1) == 0.61072...", FUNC(atan2) (0.7, 1), 0.6107259643892086165L, CHOOSE(3e-17L, 0, 0)); check_eps ("atan2 (0.4,0.0003) == 1.57004...", FUNC(atan2) (0.4, 0.0003), 1.5700463269355215718L, CHOOSE(2e-19L, 0, 1.2e-7)); - } @@ -1043,11 +1016,11 @@ atanh_test (void) x = random_greater (1.0); check_isnan_exc_ext ("atanh (x) == NaN plus invalid exception if |x| > 1", - FUNC(atanh) (x), INVALID_EXCEPTION, x); + 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); + FUNC(atanh) (x), INVALID_EXCEPTION, x); #endif check_eps ("atanh(0.7) == 0.867300527...", FUNC(atanh) (0.7), @@ -1067,15 +1040,14 @@ cbrt_test (void) 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)); + 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)); + CHOOSE(3e-16L, 5e-16, 0)); check_eps ("cbrt (0.970299) == 0.99", FUNC(cbrt) (0.970299), 0.99, - CHOOSE (2e-17L, 2e-16, 0)); + CHOOSE(2e-17L, 2e-16, 0)); check_eps ("cbrt (0.7) == .8879040017...", FUNC(cbrt) (0.7), 0.8879040017426007084L, CHOOSE(2e-17L, 6e-16, 0)); - } @@ -1095,7 +1067,6 @@ ceil_test (void) 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", @@ -1106,16 +1077,17 @@ cos_test (void) INVALID_EXCEPTION); check_eps ("cos (pi/3) == 0.5", FUNC(cos) (M_PI_6l * 2.0), - 0.5, CHOOSE (4e-18L, 1e-15L, 1e-7L)); + 0.5, CHOOSE(4e-18L, 1e-15L, 1e-7L)); check_eps ("cos (2*pi/3) == -0.5", FUNC(cos) (M_PI_6l * 4.0), - -0.5, CHOOSE (4e-18L, 1e-15L, 1e-7L)); + -0.5, CHOOSE(4e-18L, 1e-15L, 1e-7L)); check_eps ("cos (pi/2) == 0", FUNC(cos) (M_PI_2l), - 0, CHOOSE (1e-19L, 1e-16L, 1e-7L)); + 0, CHOOSE(1e-19L, 1e-16L, 1e-7L)); check_eps ("cos (0.7) == 0.7648421872...", FUNC(cos) (0.7), 0.7648421872844884262L, CHOOSE(3e-17, 2e-16, 6e-8)); } + static void cosh_test (void) { @@ -1180,12 +1152,12 @@ exp_test (void) 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_El, CHOOSE (4e-18L, 0, 0)); + check_eps ("exp (1) == e", FUNC(exp) (1), M_El, CHOOSE(4e-18L, 0, 0)); check_eps ("exp (2) == e^2", FUNC(exp) (2), M_E2l, - CHOOSE (1e-18, 0, 0)); + CHOOSE(1e-18, 0, 0)); check_eps ("exp (3) == e^3", FUNC(exp) (3), M_E3l, - CHOOSE (1.5e-17, 0, 0)); + CHOOSE(1.5e-17, 0, 0)); check_eps ("exp (0.7) == 2.0137527074...", FUNC(exp) (0.7), 2.0137527074704765216L, CHOOSE(9e-17L, 0, 0)); } @@ -1251,15 +1223,13 @@ expm1_test (void) #endif check_eps ("expm1 (1) == e-1", FUNC(expm1) (1), M_El - 1.0, - CHOOSE (4e-18L, 0, 2e-7)); + CHOOSE(4e-18L, 0, 2e-7)); check_eps ("expm1 (0.7) == 1.01375...", FUNC(expm1) (0.7), 1.0137527074704765216L, CHOOSE(9e-17L, 0, 0)); } - - static void check_frexp (const char *test_name, MATHTYPE computed, MATHTYPE expected, int comp_int, int exp_int) @@ -1282,10 +1252,10 @@ check_frexp (const char *test_name, MATHTYPE computed, MATHTYPE expected, if (verbose > 1) { printf ("Result:\n"); - printf (" is: %.20" PRINTF_EXPR " *2^%d %.20" + printf (" is: %.20" PRINTF_EXPR " *2^%d %.20" PRINTF_XEXPR "*2^%d\n", computed, comp_int, computed, comp_int); - printf (" should be: %.20" PRINTF_EXPR " *2^%d %.20" + printf (" should be: %.20" PRINTF_EXPR " *2^%d %.20" PRINTF_XEXPR "*2^%d\n", expected, exp_int, expected, exp_int); printf (" difference: %.20" PRINTF_EXPR " %.20" PRINTF_XEXPR "\n", @@ -1324,29 +1294,11 @@ frexp_test (void) 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); - + 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) { @@ -1390,7 +1342,6 @@ isnormal_test (void) 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); - } @@ -1409,7 +1360,6 @@ signbit_test (void) x = random_greater (0); check_bool ("signbit (x) == 0 for x > 0", signbit (x) == 0); - } @@ -1431,7 +1381,7 @@ gamma_test (void) 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); + FUNC(gamma) (minus_infty), INVALID_EXCEPTION); signgam = 0; check ("gamma (1) == 0", FUNC(gamma) (1), 0); @@ -1443,12 +1393,12 @@ gamma_test (void) signgam = 0; check_eps ("gamma (0.5) == log(sqrt(pi))", FUNC(gamma) (0.5), - FUNC(log) (FUNC(sqrt) (M_PIl)), CHOOSE (0, 1e-15, 1e-7)); + FUNC(log) (FUNC(sqrt) (M_PIl)), 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_PIl)), CHOOSE (0, 1e-15, 0)); + FUNC(log) (2*FUNC(sqrt) (M_PIl)), CHOOSE(0, 1e-15, 0)); check_int ("gamma (-0.5) sets signgam to -1", signgam, -1); } @@ -1464,22 +1414,19 @@ tgamma_test (void) return; feclearexcept (FE_ALL_EXCEPT); - check_isinfp ("tgamma (+inf) == +inf", FUNC(tgamma) (plus_infty)); check_isnan_exc ("tgamma (0) == NaN plus invalid exception", - FUNC(tgamma) (0), INVALID_EXCEPTION); + FUNC(tgamma) (0), INVALID_EXCEPTION); check_isnan_exc_ext ("tgamma (x) == NaN plus invalid exception for integer x <= 0", - FUNC(tgamma) (-2), INVALID_EXCEPTION, -2); + FUNC(tgamma) (-2), INVALID_EXCEPTION, -2); check_isnan_exc ("tgamma (-inf) == NaN plus invalid exception", - FUNC(tgamma) (minus_infty), INVALID_EXCEPTION); + FUNC(tgamma) (minus_infty), INVALID_EXCEPTION); -#ifdef TODO check_eps ("tgamma (0.5) == sqrt(pi)", FUNC(tgamma) (0.5), - FUNC(sqrt) (M_PIl), CHOOSE (0, 5e-16, 2e-7)); -#endif + FUNC(sqrt) (M_PIl), CHOOSE(0, 5e-16, 2e-7)); check_eps ("tgamma (-0.5) == -2*sqrt(pi)", FUNC(tgamma) (-0.5), - -2*FUNC(sqrt) (M_PIl), CHOOSE (0, 5e-16, 3e-7)); + -2*FUNC(sqrt) (M_PIl), CHOOSE(0, 5e-16, 3e-7)); check ("tgamma (1) == 1", FUNC(tgamma) (1), 1); check ("tgamma (4) == 6", FUNC(tgamma) (4), 6); @@ -1508,7 +1455,7 @@ lgamma_test (void) 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); + FUNC(lgamma) (minus_infty), INVALID_EXCEPTION); signgam = 0; check ("lgamma (1) == 0", FUNC(lgamma) (1), 0); @@ -1520,12 +1467,12 @@ lgamma_test (void) signgam = 0; check_eps ("lgamma (0.5) == log(sqrt(pi))", FUNC(lgamma) (0.5), - FUNC(log) (FUNC(sqrt) (M_PIl)), CHOOSE (0, 1e-15, 1e-7)); + FUNC(log) (FUNC(sqrt) (M_PIl)), 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_PIl)), CHOOSE (0, 1e-15, 0)); + FUNC(log) (2*FUNC(sqrt) (M_PIl)), CHOOSE(0, 1e-15, 0)); check_int ("lgamma (-0.5) sets signgam to -1", signgam, -1); @@ -1538,7 +1485,6 @@ lgamma_test (void) check_eps ("lgamma (1.2) == -0.08537...", FUNC(lgamma) (1.2), -0.853740900033158497197e-1L, CHOOSE(0, 2e-17, 2e-8)); check_int ("lgamma (1.2) sets signgam to 1", signgam, 1); - } @@ -1554,13 +1500,12 @@ ilogb_test (void) /* 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); + 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); - } @@ -1580,7 +1525,6 @@ ldexp_test (void) x = random_greater (0.0); check_ext ("ldexp (x, 0) == x", FUNC(ldexp) (x, 0L), x, x); - } @@ -1598,13 +1542,13 @@ log_test (void) FUNC(log) (-1), INVALID_EXCEPTION); check_isinfp ("log (+inf) == +inf", FUNC(log) (plus_infty)); - check_eps ("log (e) == 1", FUNC(log) (M_El), 1, CHOOSE (1e-18L, 0, 9e-8L)); + check_eps ("log (e) == 1", FUNC(log) (M_El), 1, CHOOSE(1e-18L, 0, 9e-8L)); check_eps ("log (1/e) == -1", FUNC(log) (1.0 / M_El), -1, - CHOOSE (2e-18L, 0, 0)); + CHOOSE(2e-18L, 0, 0)); check_eps ("log (2) == M_LN2", FUNC(log) (2), M_LN2l, - CHOOSE (6e-20L, 0, 0)); + CHOOSE(6e-20L, 0, 0)); check_eps ("log (10) == M_LN10", FUNC(log) (10), M_LN10l, - CHOOSE (1e-18L, 0, 0)); + CHOOSE(1e-18L, 0, 0)); check_eps ("log (0.7) == -0.3566749439...", FUNC(log) (0.7), -0.35667494393873237891L, CHOOSE(7e-17L, 6e-17, 3e-8)); } @@ -1626,14 +1570,14 @@ log10_test (void) 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)); + CHOOSE(1e-18L, 0, 0)); check_eps ("log10 (10) == 1", FUNC(log10) (10.0), 1, - CHOOSE (1e-18L, 0, 0)); + CHOOSE(1e-18L, 0, 0)); check_eps ("log10 (100) == 2", FUNC(log10) (100.0), 2, - CHOOSE (1e-18L, 0, 0)); + CHOOSE(1e-18L, 0, 0)); check ("log10 (10000) == 4", FUNC(log10) (10000.0), 4); check_eps ("log10 (e) == M_LOG10E", FUNC(log10) (M_El), M_LOG10El, - CHOOSE (1e-18, 0, 9e-8)); + CHOOSE(1e-18, 0, 9e-8)); check_eps ("log10 (0.7) == -0.1549019599...", FUNC(log10) (0.7), -0.15490195998574316929L, CHOOSE(3e-17L, 3e-17, 2e-8)); } @@ -1653,7 +1597,7 @@ log1p_test (void) check_isinfp ("log1p (+inf) == +inf", FUNC(log1p) (plus_infty)); check_eps ("log1p (e-1) == 1", FUNC(log1p) (M_El - 1.0), 1, - CHOOSE (1e-18L, 0, 6e-8)); + CHOOSE(1e-18L, 0, 6e-8)); check_eps ("log1p (-0.3) == -0.35667...", FUNC(log1p) (-0.3), -0.35667494393873237891L, CHOOSE(2e-17L, 6e-17, 3e-8)); @@ -1676,13 +1620,12 @@ log2_test (void) check_isinfp ("log2 (+inf) == +inf", FUNC(log2) (plus_infty)); check_eps ("log2 (e) == M_LOG2E", FUNC(log2) (M_El), M_LOG2El, - CHOOSE (1e-18L, 0, 0)); + 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_eps ("log2 (16) == 4", FUNC(log2) (16.0), 4, CHOOSE(1e-18L, 0, 0)); check ("log2 (256) == 8", FUNC(log2) (256.0), 8); check_eps ("log2 (0.7) == -0.5145731728...", FUNC(log2) (0.7), -0.51457317282975824043L, CHOOSE(1e-16L, 2e-16, 6e-8)); - } @@ -1702,7 +1645,6 @@ logb_test (void) check ("logb (e) == 1", FUNC(logb) (M_El), 1); check ("logb (1024) == 10", FUNC(logb) (1024), 10); check ("logb (-2000) == 10", FUNC(logb) (-2000), 10); - } @@ -1861,9 +1803,9 @@ sin_test (void) INVALID_EXCEPTION); check_eps ("sin (pi/6) == 0.5", FUNC(sin) (M_PI_6l), - 0.5, CHOOSE (4e-18L, 0, 0)); + 0.5, CHOOSE(4e-18L, 0, 0)); check_eps ("sin (-pi/6) == -0.5", FUNC(sin) (-M_PI_6l), - -0.5, CHOOSE (4e-18L, 0, 0)); + -0.5, CHOOSE(4e-18L, 0, 0)); check ("sin (pi/2) == 1", FUNC(sin) (M_PI_2l), 1); check ("sin (-pi/2) == -1", FUNC(sin) (-M_PI_2l), -1); check_eps ("sin (0.7) == 0.6442176872...", FUNC(sin) (0.7), @@ -1909,10 +1851,10 @@ sincos_test (void) 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); + sin_res, INVALID_EXCEPTION); fesetenv (&fenv); check_isnan_exc ("sincos (+inf, &sin, &cos) puts NaN in cos plus invalid exception", - cos_res, INVALID_EXCEPTION); + cos_res, INVALID_EXCEPTION); FUNC(sincos) (minus_infty, &sin_res, &cos_res); fegetenv (&fenv); @@ -1927,15 +1869,15 @@ sincos_test (void) 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)); + CHOOSE(1e-18L, 1e-16, 1e-7)); FUNC(sincos) (M_PI_6l, &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)); + CHOOSE(5e-18L, 0, 0)); FUNC(sincos) (M_PI_6l*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)); + CHOOSE(5e-18L, 1e-15, 1e-7)); FUNC(sincos) (0.7, &sin_res, &cos_res); check_eps ("sincos (0.7, &sin, &cos) puts 0.6442176872... in sin", sin_res, @@ -1956,7 +1898,7 @@ tan_test (void) FUNC(tan) (minus_infty), INVALID_EXCEPTION); check_eps ("tan (pi/4) == 1", FUNC(tan) (M_PI_4l), 1, - CHOOSE (2e-18L, 1e-15L, 2e-7)); + CHOOSE(2e-18L, 1e-15L, 2e-7)); check_eps ("tan (0.7) == 0.8422883804...", FUNC(tan) (0.7), 0.84228838046307944813L, CHOOSE(8e-17L, 0, 0)); } @@ -2176,11 +2118,11 @@ pow_test (void) x = random_value (-1.0, 1.0); check_ext ("pow (x, +inf) == +0 for |x| < 1", - FUNC(pow) (x, plus_infty), 0.0, x); + 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); + 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", @@ -2343,34 +2285,32 @@ fmod_test (void) x = random_greater (0); check_ext ("fmod (-0, y) == -0 for y != 0", FUNC(fmod) (minus_zero, x), - 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); + 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); + 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); + 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); + 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); + 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); + 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)); + 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)); + 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)); + 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)); - - + CHOOSE(5e-16, 1e-15, 2e-7)); } @@ -2386,8 +2326,8 @@ nextafter_test (void) 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 ("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", @@ -2486,7 +2426,7 @@ sqrt_test (void) x = random_less (0.0); check_isnan_exc_ext ("sqrt (x) == NaN plus invalid exception for x < 0", - FUNC(sqrt) (x), INVALID_EXCEPTION, x); + FUNC(sqrt) (x), INVALID_EXCEPTION, x); x = random_value (0, 10000); check_ext ("sqrt (x*x) == x", FUNC(sqrt) (x*x), x, x); @@ -2495,11 +2435,12 @@ sqrt_test (void) check ("sqrt (0.25) == 0.5", FUNC(sqrt) (0.25), 0.5); check ("sqrt (6642.25) == 81.5", FUNC(sqrt) (6642.25), 81.5); check_eps ("sqrt (15239.903) == 123.45", FUNC(sqrt) (15239.903), 123.45, - CHOOSE (3e-6L, 3e-6, 8e-6)); + CHOOSE(3e-6L, 3e-6, 8e-6)); check_eps ("sqrt (0.7) == 0.8366600265", FUNC(sqrt) (0.7), 0.83666002653407554798L, CHOOSE(3e-17L, 0, 0)); } + static void remainder_test (void) { @@ -2507,19 +2448,19 @@ remainder_test (void) result = FUNC(remainder) (1, 0); check_isnan_exc ("remainder(1, +0) == NaN plus invalid exception", - result, 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, INVALID_EXCEPTION); result = FUNC(remainder) (plus_infty, 1); check_isnan_exc ("remainder(+inf, 1) == NaN plus invalid exception", - result, 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, INVALID_EXCEPTION); result = FUNC(remainder) (1.625, 1.0); check ("remainder(1.625, 1.0) == -0.375", result, -0.375); @@ -2549,19 +2490,19 @@ remquo_test (void) result = FUNC(remquo) (1, 0, &quo); check_isnan_exc ("remquo(1, +0, &x) == NaN plus invalid exception", - result, 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, INVALID_EXCEPTION); result = FUNC(remquo) (plus_infty, 1, &quo); check_isnan_exc ("remquo(+inf, 1, &x) == NaN plus invalid exception", - result, 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, INVALID_EXCEPTION); result = FUNC(remquo) (1.625, 1.0, &quo); check ("remquo(1.625, 1.0, &x) == -0.375", result, -0.375); @@ -2594,159 +2535,154 @@ cexp_test (void) { __complex__ MATHTYPE result; - result = FUNC(cexp) (BUILD_COMPLEX (plus_zero, plus_zero)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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); - result = FUNC(cexp) (BUILD_COMPLEX (0.7, 1.2)); + result = FUNC(cexp) (BUILD_COMPLEX(0.7, 1.2)); check_eps ("real(cexp(0.7 + i 1.2)) == 0.72969...", __real__ result, 0.7296989091503236012L, CHOOSE(6e-17L, 2e-16, 2e-7)); check_eps ("imag(cexp(0.7 + i 1.2)) == 1.87689...", __imag__ result, 1.8768962328348102821L, CHOOSE(2e-16L, 2.5e-16, 3e-7)); - result = FUNC(cexp) (BUILD_COMPLEX (-2, -3)); + result = FUNC(cexp) (BUILD_COMPLEX(-2, -3)); check_eps ("real(cexp(-2 - i 3)) == -0.13398...", __real__ result, -0.1339809149295426134L, CHOOSE(6.8e-20L, 0, 2e-8)); check_eps ("imag(cexp(-2 - i 3)) == -0.01909...", __imag__ result, @@ -2759,175 +2695,175 @@ csin_test (void) { __complex__ MATHTYPE result; - result = FUNC(csin) (BUILD_COMPLEX (0.0, 0.0)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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); + check_isinfn ("imag(csin(-0 - i Inf)) = -Inf", __imag__ result); - result = FUNC(csin) (BUILD_COMPLEX (plus_infty, 0.0)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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); - result = FUNC(csin) (BUILD_COMPLEX (0.7, 1.2)); + result = FUNC(csin) (BUILD_COMPLEX(0.7, 1.2)); check_eps ("real(csin(0.7 + i 1.2)) = 1.166456341...", __real__ result, 1.1664563419657581376L, CHOOSE(2e-16L, 0, 0)); check_eps ("imag(csin(0.7 + i 1.2)) = 1.154499724...", __imag__ result, 1.1544997246948547371L, CHOOSE(2e-17L, 0, 2e-7)); - result = FUNC(csin) (BUILD_COMPLEX (-2, -3)); + result = FUNC(csin) (BUILD_COMPLEX(-2, -3)); check_eps ("real(csin(-2 - i 3)) == -9.15449...", __real__ result, -9.1544991469114295734L, CHOOSE(4e-18L, 0, 1e-6)); check_eps ("imag(csin(-2 - i 3)) == -4.16890...", __imag__ result, @@ -2940,175 +2876,175 @@ csinh_test (void) { __complex__ MATHTYPE result; - result = FUNC(csinh) (BUILD_COMPLEX (0.0, 0.0)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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); - result = FUNC(csinh) (BUILD_COMPLEX (0.7, 1.2)); + result = FUNC(csinh) (BUILD_COMPLEX(0.7, 1.2)); check_eps ("real(csinh(0.7 + i 1.2)) = 0.274878686...", __real__ result, 0.27487868678117583582L, CHOOSE(2e-17L, 6e-17, 3e-8)); check_eps ("imag(csinh(0.7 + i 1.2)) = 1.169866572...", __imag__ result, 1.1698665727426565139L, CHOOSE(6e-17L, 0, 2e-7)); - result = FUNC(csinh) (BUILD_COMPLEX (-2, -3)); + result = FUNC(csinh) (BUILD_COMPLEX(-2, -3)); check_eps ("real(csinh(-2 - i 3)) == -3.59056...", __real__ result, 3.5905645899857799520L, CHOOSE(7e-19L, 5e-16, 3e-7)); check_eps ("imag(csinh(-2 - i 3)) == -0.53092...", __imag__ result, @@ -3121,173 +3057,173 @@ ccos_test (void) { __complex__ MATHTYPE result; - result = FUNC(ccos) (BUILD_COMPLEX (0.0, 0.0)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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); - result = FUNC(ccos) (BUILD_COMPLEX (0.7, 1.2)); + result = FUNC(ccos) (BUILD_COMPLEX(0.7, 1.2)); check_eps ("real(ccos(0.7 + i 1.2)) = 1.384865764...", __real__ result, 1.3848657645312111080L, CHOOSE(4e-18L, 3e-16, 2e-7)); check_eps ("imag(ccos(0.7 + i 1.2)) = -0.972421703...", __imag__ result, -0.97242170335830028619L, CHOOSE(2e-16L, 2e-16, 0)); - result = FUNC(ccos) (BUILD_COMPLEX (-2, -3)); + result = FUNC(ccos) (BUILD_COMPLEX(-2, -3)); check_eps ("real(ccos(-2 - i 3)) == -4.18962...", __real__ result, -4.1896256909688072301L, CHOOSE(2e-17L, 0, 5e-7)); check_eps ("imag(ccos(-2 - i 3)) == -9.10922...", __imag__ result, @@ -3300,174 +3236,174 @@ ccosh_test (void) { __complex__ MATHTYPE result; - result = FUNC(ccosh) (BUILD_COMPLEX (0.0, 0.0)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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); - result = FUNC(ccosh) (BUILD_COMPLEX (0.7, 1.2)); + result = FUNC(ccosh) (BUILD_COMPLEX(0.7, 1.2)); check_eps ("real(ccosh(0.7 + i 1.2)) == 0.45482...", __real__ result, 0.4548202223691477654L, CHOOSE(5e-17L, 6e-17, 9e-8)); check_eps ("imag(ccosh(0.7 + i 1.2)) == 0.70702...", __imag__ result, 0.7070296600921537682L, CHOOSE(7e-17L, 2e-16, 0)); - result = FUNC(ccosh) (BUILD_COMPLEX (-2, -3)); - check_eps ("real(ccosh(-2 - i 3)) == -3.72454...", __real__ result, + result = FUNC(ccosh) (BUILD_COMPLEX(-2, -3)); + check_eps ("real(ccosh(-2 - i 3)) == -3.72454...", __real__ result, -3.7245455049153225654L, CHOOSE(7e-19L, 0, 3e-7)); check_eps ("imag(ccosh(-2 - i 3)) == -0.51182...", __imag__ result, 0.5118225699873846088L, CHOOSE(3e-19L, 2e-16, 6e-8)); @@ -3479,136 +3415,136 @@ cacos_test (void) { __complex__ MATHTYPE result; - result = FUNC(cacos) (BUILD_COMPLEX (0, 0)); + result = FUNC(cacos) (BUILD_COMPLEX(0, 0)); check ("real(cacos(0 + i0)) = pi/2", __real__ result, M_PI_2l); check ("imag(cacos(0 + i0)) = -0", __imag__ result, minus_zero); - result = FUNC(cacos) (BUILD_COMPLEX (minus_zero, 0)); + result = FUNC(cacos) (BUILD_COMPLEX(minus_zero, 0)); check ("real(cacos(-0 + i0)) = pi/2", __real__ result, M_PI_2l); check ("imag(cacos(-0 + i0)) = -0", __imag__ result, minus_zero); - result = FUNC(cacos) (BUILD_COMPLEX (0, minus_zero)); + result = FUNC(cacos) (BUILD_COMPLEX(0, minus_zero)); check ("real(cacos(0 - i0)) = pi/2", __real__ result, M_PI_2l); check ("imag(cacos(0 - i0)) = 0", __imag__ result, 0); - result = FUNC(cacos) (BUILD_COMPLEX (minus_zero, minus_zero)); + result = FUNC(cacos) (BUILD_COMPLEX(minus_zero, minus_zero)); check ("real(cacos(-0 - i0)) = pi/2", __real__ result, M_PI_2l); check ("imag(cacos(-0 - i0)) = 0", __imag__ result, 0); - result = FUNC(cacos) (BUILD_COMPLEX (minus_infty, plus_infty)); + result = FUNC(cacos) (BUILD_COMPLEX(minus_infty, plus_infty)); check ("real(cacos(-Inf + i Inf)) = 3*pi/4", __real__ result, M_PIl - M_PI_4l); check_isinfn ("imag(cacos(-Inf + i Inf)) = -Inf", __imag__ result); - result = FUNC(cacos) (BUILD_COMPLEX (minus_infty, minus_infty)); + result = FUNC(cacos) (BUILD_COMPLEX(minus_infty, minus_infty)); check ("real(cacos(-Inf - i Inf)) = 3*pi/4", __real__ result, - M_PIl - M_PI_4l); + M_PIl - M_PI_4l); check_isinfp ("imag(cacos(-Inf - i Inf)) = +Inf", __imag__ result); - result = FUNC(cacos) (BUILD_COMPLEX (plus_infty, plus_infty)); + result = FUNC(cacos) (BUILD_COMPLEX(plus_infty, plus_infty)); check ("real(cacos(+Inf + i Inf)) = pi/4", __real__ result, M_PI_4l); check_isinfn ("imag(cacos(+Inf + i Inf)) = -Inf", __imag__ result); - result = FUNC(cacos) (BUILD_COMPLEX (plus_infty, minus_infty)); + result = FUNC(cacos) (BUILD_COMPLEX(plus_infty, minus_infty)); check ("real(cacos(+Inf - i Inf)) = pi/4", __real__ result, M_PI_4l); check_isinfp ("imag(cacos(+Inf - i Inf)) = +Inf", __imag__ result); - result = FUNC(cacos) (BUILD_COMPLEX (-10.0, plus_infty)); + result = FUNC(cacos) (BUILD_COMPLEX(-10.0, plus_infty)); check ("real(cacos(-10.0 + i Inf)) = pi/2", __real__ result, M_PI_2l); check_isinfn ("imag(cacos(-10.0 + i Inf)) = -Inf", __imag__ result); - result = FUNC(cacos) (BUILD_COMPLEX (-10.0, minus_infty)); + result = FUNC(cacos) (BUILD_COMPLEX(-10.0, minus_infty)); check ("real(cacos(-10.0 - i Inf)) = pi/2", __real__ result, M_PI_2l); check_isinfp ("imag(cacos(-10.0 - i Inf)) = +Inf", __imag__ result); - result = FUNC(cacos) (BUILD_COMPLEX (0, plus_infty)); + result = FUNC(cacos) (BUILD_COMPLEX(0, plus_infty)); check ("real(cacos(0 + i Inf)) = pi/2", __real__ result, M_PI_2l); check_isinfn ("imag(cacos(0 + i Inf)) = -Inf", __imag__ result); - result = FUNC(cacos) (BUILD_COMPLEX (0, minus_infty)); + result = FUNC(cacos) (BUILD_COMPLEX(0, minus_infty)); check ("real(cacos(0 - i Inf)) = pi/2", __real__ result, M_PI_2l); check_isinfp ("imag(cacos(0 - i Inf)) = +Inf", __imag__ result); - result = FUNC(cacos) (BUILD_COMPLEX (0.1, plus_infty)); + result = FUNC(cacos) (BUILD_COMPLEX(0.1, plus_infty)); check ("real(cacos(0.1 + i Inf)) = pi/2", __real__ result, M_PI_2l); check_isinfn ("imag(cacos(0.1 + i Inf)) = -Inf", __imag__ result); - result = FUNC(cacos) (BUILD_COMPLEX (0.1, minus_infty)); + result = FUNC(cacos) (BUILD_COMPLEX(0.1, minus_infty)); check ("real(cacos(0.1 - i Inf)) = pi/2", __real__ result, M_PI_2l); check_isinfp ("imag(cacos(0.1 - i Inf)) = +Inf", __imag__ result); - result = FUNC(cacos) (BUILD_COMPLEX (minus_infty, 0)); + result = FUNC(cacos) (BUILD_COMPLEX(minus_infty, 0)); check ("real(cacos(-Inf + i0)) = pi", __real__ result, M_PIl); check_isinfn ("imag(cacos(-Inf + i0)) = -Inf", __imag__ result); - result = FUNC(cacos) (BUILD_COMPLEX (minus_infty, minus_zero)); + result = FUNC(cacos) (BUILD_COMPLEX(minus_infty, minus_zero)); check ("real(cacos(-Inf - i0)) = pi", __real__ result, M_PIl); check_isinfp ("imag(cacos(-Inf - i0)) = +Inf", __imag__ result); - result = FUNC(cacos) (BUILD_COMPLEX (minus_infty, 100)); + result = FUNC(cacos) (BUILD_COMPLEX(minus_infty, 100)); check ("real(cacos(-Inf + i100)) = pi", __real__ result, M_PIl); check_isinfn ("imag(cacos(-Inf + i100)) = -Inf", __imag__ result); - result = FUNC(cacos) (BUILD_COMPLEX (minus_infty, -100)); + result = FUNC(cacos) (BUILD_COMPLEX(minus_infty, -100)); check ("real(cacos(-Inf - i100)) = pi", __real__ result, M_PIl); check_isinfp ("imag(cacos(-Inf - i100)) = +Inf", __imag__ result); - result = FUNC(cacos) (BUILD_COMPLEX (plus_infty, 0)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + result = FUNC(cacos) (BUILD_COMPLEX(0, nan_value)); check ("real(cacos(0 + i NaN)) = pi/2", __real__ result, M_PI_2l); check_isnan ("imag(cacos(0 + i NaN)) = NaN", __imag__ result); - result = FUNC(cacos) (BUILD_COMPLEX (minus_zero, nan_value)); + result = FUNC(cacos) (BUILD_COMPLEX(minus_zero, nan_value)); check ("real(cacos(-0 + i NaN)) = pi/2", __real__ result, M_PI_2l); check_isnan ("imag(cacos(-0 + i NaN)) = NaN", __imag__ result); - result = FUNC(cacos) (BUILD_COMPLEX (nan_value, plus_infty)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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); - result = FUNC(cacos) (BUILD_COMPLEX (0.7, 1.2)); + result = FUNC(cacos) (BUILD_COMPLEX(0.7, 1.2)); check_eps ("real(cacos(0.7 + i 1.2)) == 1.13518...", __real__ result, 1.1351827477151551089L, CHOOSE(2e-17L, 3e-16, 2e-7)); check_eps ("imag(cacos(0.7 + i 1.2)) == -1.09276...", __imag__ result, -1.0927647857577371459L, CHOOSE(4e-17L, 3e-16, 3e-7)); - result = FUNC(cacos) (BUILD_COMPLEX (-2, -3)); + result = FUNC(cacos) (BUILD_COMPLEX(-2, -3)); check_eps ("real(cacos(-2 - i 3)) == 2.14144...", __real__ result, 2.1414491111159960199L, CHOOSE(3e-19L, 0, 0)); check_eps ("imag(cacos(-2 - i 3)) == -1.98338...", __imag__ result, @@ -3621,138 +3557,138 @@ cacosh_test (void) { __complex__ MATHTYPE result; - result = FUNC(cacosh) (BUILD_COMPLEX (0, 0)); + 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_2l); - result = FUNC(cacosh) (BUILD_COMPLEX (minus_zero, 0)); + 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_2l); - result = FUNC(cacosh) (BUILD_COMPLEX (0, minus_zero)); + 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_2l); - result = FUNC(cacosh) (BUILD_COMPLEX (minus_zero, minus_zero)); + 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_2l); - result = FUNC(cacosh) (BUILD_COMPLEX (minus_infty, plus_infty)); + 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_PIl - M_PI_4l); - result = FUNC(cacosh) (BUILD_COMPLEX (minus_infty, minus_infty)); + 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_4l - M_PIl); - result = FUNC(cacosh) (BUILD_COMPLEX (plus_infty, plus_infty)); + 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_4l); - result = FUNC(cacosh) (BUILD_COMPLEX (plus_infty, minus_infty)); + 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_4l); - result = FUNC(cacosh) (BUILD_COMPLEX (-10.0, plus_infty)); + 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_2l); - result = FUNC(cacosh) (BUILD_COMPLEX (-10.0, minus_infty)); + 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_2l); - result = FUNC(cacosh) (BUILD_COMPLEX (0, plus_infty)); + 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_2l); - result = FUNC(cacosh) (BUILD_COMPLEX (0, minus_infty)); + 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_2l); - result = FUNC(cacosh) (BUILD_COMPLEX (0.1, plus_infty)); + 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_2l); - result = FUNC(cacosh) (BUILD_COMPLEX (0.1, minus_infty)); + 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_2l); - result = FUNC(cacosh) (BUILD_COMPLEX (minus_infty, 0)); + 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_PIl); - result = FUNC(cacosh) (BUILD_COMPLEX (minus_infty, minus_zero)); + 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_PIl); - result = FUNC(cacosh) (BUILD_COMPLEX (minus_infty, 100)); + 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_PIl); - result = FUNC(cacosh) (BUILD_COMPLEX (minus_infty, -100)); + 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_PIl); - result = FUNC(cacosh) (BUILD_COMPLEX (plus_infty, 0)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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); - result = FUNC(cacosh) (BUILD_COMPLEX (0.7, 1.2)); + result = FUNC(cacosh) (BUILD_COMPLEX(0.7, 1.2)); check_eps ("real(cacosh(0.7 + i 1.2)) == 1.09276...", __real__ result, 1.0927647857577371459L, CHOOSE(4e-17L, 3e-16, 2e-7)); check_eps ("imag(cacosh(0.7 + i 1.2)) == 1.13518...", __imag__ result, - 1.1351827477151551089L, CHOOSE(2e-17L, 0, 1.2e-7)); + 1.1351827477151551089L, CHOOSE(2e-17L, 0, 1.2e-7)); - result = FUNC(cacosh) (BUILD_COMPLEX (-2, -3)); + result = FUNC(cacosh) (BUILD_COMPLEX(-2, -3)); check_eps ("real(cacosh(-2 - i 3)) == -1.98338...", __real__ result, - -1.9833870299165354323L, CHOOSE (2e-18L, 3e-16, 9e-7)); + -1.9833870299165354323L, CHOOSE(2e-18L, 3e-16, 9e-7)); check_eps ("imag(cacosh(-2 - i 3)) == 2.14144...", __imag__ result, - 2.1414491111159960199L, CHOOSE (4.5e-19, 5e-16, 1e-6)); + 2.1414491111159960199L, CHOOSE(4.5e-19, 5e-16, 1e-6)); } @@ -3761,139 +3697,139 @@ casin_test (void) { __complex__ MATHTYPE result; - result = FUNC(casin) (BUILD_COMPLEX (0, 0)); + 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)); + 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)); + 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)); + 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)); + result = FUNC(casin) (BUILD_COMPLEX(plus_infty, plus_infty)); check ("real(casin(+Inf + i Inf)) = pi/4", __real__ result, M_PI_4l); check_isinfp ("imag(casin(+Inf + i Inf)) = +Inf", __imag__ result); - result = FUNC(casin) (BUILD_COMPLEX (plus_infty, minus_infty)); + result = FUNC(casin) (BUILD_COMPLEX(plus_infty, minus_infty)); check ("real(casin(+Inf - i Inf)) = pi/4", __real__ result, M_PI_4l); check_isinfn ("imag(casin(+Inf - i Inf)) = -Inf", __imag__ result); - result = FUNC(casin) (BUILD_COMPLEX (minus_infty, plus_infty)); + result = FUNC(casin) (BUILD_COMPLEX(minus_infty, plus_infty)); check ("real(casin(-Inf + i Inf)) = -pi/4", __real__ result, -M_PI_4l); check_isinfp ("imag(casin(-Inf + i Inf)) = +Inf", __imag__ result); - result = FUNC(casin) (BUILD_COMPLEX (minus_infty, minus_infty)); + result = FUNC(casin) (BUILD_COMPLEX(minus_infty, minus_infty)); check ("real(casin(-Inf - i Inf)) = -pi/4", __real__ result, -M_PI_4l); check_isinfn ("imag(casin(-Inf - i Inf)) = -Inf", __imag__ result); - result = FUNC(casin) (BUILD_COMPLEX (-10.0, plus_infty)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + result = FUNC(casin) (BUILD_COMPLEX(minus_infty, 0)); check ("real(casin(-Inf + i0)) = -pi/2", __real__ result, -M_PI_2l); check_isinfp ("imag(casin(-Inf + i0)) = +Inf", __imag__ result); - result = FUNC(casin) (BUILD_COMPLEX (minus_infty, minus_zero)); + result = FUNC(casin) (BUILD_COMPLEX(minus_infty, minus_zero)); check ("real(casin(-Inf - i0)) = -pi/2", __real__ result, -M_PI_2l); check_isinfn ("imag(casin(-Inf - i0)) = -Inf", __imag__ result); - result = FUNC(casin) (BUILD_COMPLEX (minus_infty, 100)); + result = FUNC(casin) (BUILD_COMPLEX(minus_infty, 100)); check ("real(casin(-Inf + i100)) = -pi/2", __real__ result, -M_PI_2l); check_isinfp ("imag(casin(-Inf + i100)) = +Inf", __imag__ result); - result = FUNC(casin) (BUILD_COMPLEX (minus_infty, -100)); + result = FUNC(casin) (BUILD_COMPLEX(minus_infty, -100)); check ("real(casin(-Inf - i100)) = -pi/2", __real__ result, -M_PI_2l); check_isinfn ("imag(casin(-Inf - i100)) = -Inf", __imag__ result); - result = FUNC(casin) (BUILD_COMPLEX (plus_infty, 0)); + result = FUNC(casin) (BUILD_COMPLEX(plus_infty, 0)); check ("real(casin(+Inf + i0)) = pi/2", __real__ result, M_PI_2l); check_isinfp ("imag(casin(+Inf + i0)) = +Inf", __imag__ result); - result = FUNC(casin) (BUILD_COMPLEX (plus_infty, minus_zero)); + result = FUNC(casin) (BUILD_COMPLEX(plus_infty, minus_zero)); check ("real(casin(+Inf - i0)) = pi/2", __real__ result, M_PI_2l); check_isinfn ("imag(casin(+Inf - i0)) = -Inf", __imag__ result); - result = FUNC(casin) (BUILD_COMPLEX (plus_infty, 0.5)); + result = FUNC(casin) (BUILD_COMPLEX(plus_infty, 0.5)); check ("real(casin(+Inf + i0.5)) = pi/2", __real__ result, M_PI_2l); check_isinfp ("imag(casin(+Inf + i0.5)) = +Inf", __imag__ result); - result = FUNC(casin) (BUILD_COMPLEX (plus_infty, -0.5)); + result = FUNC(casin) (BUILD_COMPLEX(plus_infty, -0.5)); check ("real(casin(+Inf - i0.5)) = pi/2", __real__ result, M_PI_2l); check_isinfn ("imag(casin(+Inf - i0.5)) = -Inf", __imag__ result); - result = FUNC(casin) (BUILD_COMPLEX (nan_value, plus_infty)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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); - result = FUNC(casin) (BUILD_COMPLEX (0.7, 1.2)); + result = FUNC(casin) (BUILD_COMPLEX(0.7, 1.2)); check_eps ("real(casin(0.7 + i 1.2)) == 0.43561...", __real__ result, 0.4356135790797415103L, CHOOSE(2e-17L, 2e-16, 2e-7)); check_eps ("imag(casin(0.7 + i 1.2)) == 1.09276...", __imag__ result, 1.0927647857577371459L, CHOOSE(4e-17L, 3e-16, 3e-7)); - result = FUNC(casin) (BUILD_COMPLEX (-2, -3)); + result = FUNC(casin) (BUILD_COMPLEX(-2, -3)); check_eps ("real(casin(-2 - i 3)) == -0.57065...", __real__ result, -0.5706527843210994007L, CHOOSE(4e-19L, 0, 0)); check_eps ("imag(casin(-2 - i 3)) == -1.98338...", __imag__ result, @@ -3906,139 +3842,139 @@ casinh_test (void) { __complex__ MATHTYPE result; - result = FUNC(casinh) (BUILD_COMPLEX (0, 0)); + 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)); + 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)); + 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)); + 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)); + 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_4l); - result = FUNC(casinh) (BUILD_COMPLEX (plus_infty, minus_infty)); + 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_4l); - result = FUNC(casinh) (BUILD_COMPLEX (minus_infty, plus_infty)); + 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_4l); - result = FUNC(casinh) (BUILD_COMPLEX (minus_infty, minus_infty)); + 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_4l); - result = FUNC(casinh) (BUILD_COMPLEX (-10.0, plus_infty)); + 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_2l); - result = FUNC(casinh) (BUILD_COMPLEX (-10.0, minus_infty)); + 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_2l); - result = FUNC(casinh) (BUILD_COMPLEX (0, plus_infty)); + 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_2l); - result = FUNC(casinh) (BUILD_COMPLEX (0, minus_infty)); + 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_2l); - result = FUNC(casinh) (BUILD_COMPLEX (minus_zero, plus_infty)); + 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_2l); - result = FUNC(casinh) (BUILD_COMPLEX (minus_zero, minus_infty)); + 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_2l); - result = FUNC(casinh) (BUILD_COMPLEX (0.1, plus_infty)); + 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_2l); - result = FUNC(casinh) (BUILD_COMPLEX (0.1, minus_infty)); + 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_2l); - result = FUNC(casinh) (BUILD_COMPLEX (minus_infty, 0)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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); - result = FUNC(casinh) (BUILD_COMPLEX (0.7, 1.2)); + result = FUNC(casinh) (BUILD_COMPLEX(0.7, 1.2)); check_eps ("real(casinh(0.7 + i 1.2)) == 0.97865...", __real__ result, 0.9786545955936738768L, CHOOSE(5e-17L, 2e-16, 0)); check_eps ("imag(casinh(0.7 + i 1.2)) == 0.91135...", __imag__ result, 0.9113541895315601156L, CHOOSE(7e-19L, 2e-16, 2e-7)); - result = FUNC(casinh) (BUILD_COMPLEX (-2, -3)); + result = FUNC(casinh) (BUILD_COMPLEX(-2, -3)); check_eps ("real(casinh(-2 - i 3)) == -1.96863...", __real__ result, -1.9686379257930962917L, CHOOSE(7e-19L, 2e-15, 3e-6)); check_eps ("imag(casinh(-2 - i 3)) == -0.96465...", __imag__ result, @@ -4051,144 +3987,144 @@ catan_test (void) { __complex__ MATHTYPE result; - result = FUNC(catan) (BUILD_COMPLEX (0, 0)); + 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)); + 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)); + 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)); + 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)); + result = FUNC(catan) (BUILD_COMPLEX(plus_infty, plus_infty)); check ("real(catan(+Inf + i Inf)) = pi/2", __real__ result, M_PI_2l); check ("imag(catan(+Inf + i Inf)) = 0", __imag__ result, 0); - result = FUNC(catan) (BUILD_COMPLEX (plus_infty, minus_infty)); + result = FUNC(catan) (BUILD_COMPLEX(plus_infty, minus_infty)); check ("real(catan(+Inf - i Inf)) = pi/2", __real__ result, M_PI_2l); check ("imag(catan(+Inf - i Inf)) = -0", __imag__ result, minus_zero); - result = FUNC(catan) (BUILD_COMPLEX (minus_infty, plus_infty)); + result = FUNC(catan) (BUILD_COMPLEX(minus_infty, plus_infty)); check ("real(catan(-Inf + i Inf)) = -pi/2", __real__ result, -M_PI_2l); check ("imag(catan(-Inf + i Inf)) = 0", __imag__ result, 0.0); - result = FUNC(catan) (BUILD_COMPLEX (minus_infty, minus_infty)); + result = FUNC(catan) (BUILD_COMPLEX(minus_infty, minus_infty)); check ("real(catan(-Inf - i Inf)) = -pi/2", __real__ result, -M_PI_2l); check ("imag(catan(-Inf - i Inf)) = -0", __imag__ result, minus_zero); - result = FUNC(catan) (BUILD_COMPLEX (plus_infty, -10.0)); + result = FUNC(catan) (BUILD_COMPLEX(plus_infty, -10.0)); check ("real(catan(+Inf - i10.0)) = pi/2", __real__ result, M_PI_2l); check ("imag(catan(+Inf - i10.0)) = -0", __imag__ result, minus_zero); - result = FUNC(catan) (BUILD_COMPLEX (minus_infty, -10.0)); + result = FUNC(catan) (BUILD_COMPLEX(minus_infty, -10.0)); check ("real(catan(-Inf - i10.0)) = -pi/2", __real__ result, -M_PI_2l); check ("imag(catan(-Inf - i10.0)) = -0", __imag__ result, minus_zero); - result = FUNC(catan) (BUILD_COMPLEX (plus_infty, minus_zero)); + result = FUNC(catan) (BUILD_COMPLEX(plus_infty, minus_zero)); check ("real(catan(Inf - i0)) = pi/2", __real__ result, M_PI_2l); check ("imag(catan(Inf - i0)) = -0", __imag__ result, minus_zero); - result = FUNC(catan) (BUILD_COMPLEX (minus_infty, minus_zero)); + result = FUNC(catan) (BUILD_COMPLEX(minus_infty, minus_zero)); check ("real(catan(-Inf - i0)) = -pi/2", __real__ result, -M_PI_2l); check ("imag(catan(-Inf - i0)) = -0", __imag__ result, minus_zero); - result = FUNC(catan) (BUILD_COMPLEX (plus_infty, 0.0)); + result = FUNC(catan) (BUILD_COMPLEX(plus_infty, 0.0)); check ("real(catan(Inf + i0)) = pi/2", __real__ result, M_PI_2l); check ("imag(catan(Inf + i0)) = 0", __imag__ result, 0.0); - result = FUNC(catan) (BUILD_COMPLEX (minus_infty, 0.0)); + result = FUNC(catan) (BUILD_COMPLEX(minus_infty, 0.0)); check ("real(catan(-Inf + i0)) = -pi/2", __real__ result, -M_PI_2l); check ("imag(catan(-Inf + i0)) = 0", __imag__ result, 0.0); - result = FUNC(catan) (BUILD_COMPLEX (plus_infty, 0.1)); + result = FUNC(catan) (BUILD_COMPLEX(plus_infty, 0.1)); check ("real(catan(+Inf + i0.1)) = pi/2", __real__ result, M_PI_2l); check ("imag(catan(+Inf + i0.1)) = 0", __imag__ result, 0); - result = FUNC(catan) (BUILD_COMPLEX (minus_infty, 0.1)); + result = FUNC(catan) (BUILD_COMPLEX(minus_infty, 0.1)); check ("real(catan(-Inf + i0.1)) = -pi/2", __real__ result, -M_PI_2l); check ("imag(catan(-Inf + i0.1)) = 0", __imag__ result, 0); - result = FUNC(catan) (BUILD_COMPLEX (0.0, minus_infty)); + result = FUNC(catan) (BUILD_COMPLEX(0.0, minus_infty)); check ("real(catan(0 - i Inf)) = pi/2", __real__ result, M_PI_2l); check ("imag(catan(0 - i Inf)) = -0", __imag__ result, minus_zero); - result = FUNC(catan) (BUILD_COMPLEX (minus_zero, minus_infty)); + result = FUNC(catan) (BUILD_COMPLEX(minus_zero, minus_infty)); check ("real(catan(-0 - i Inf)) = -pi/2", __real__ result, -M_PI_2l); check ("imag(catan(-0 - i Inf)) = -0", __imag__ result, minus_zero); - result = FUNC(catan) (BUILD_COMPLEX (100.0, minus_infty)); + result = FUNC(catan) (BUILD_COMPLEX(100.0, minus_infty)); check ("real(catan(100 - i Inf)) = pi/2", __real__ result, M_PI_2l); check ("imag(catan(100 - i Inf)) = -0", __imag__ result, minus_zero); - result = FUNC(catan) (BUILD_COMPLEX (-100.0, minus_infty)); + result = FUNC(catan) (BUILD_COMPLEX(-100.0, minus_infty)); check ("real(catan(-100 - i Inf)) = -pi/2", __real__ result, -M_PI_2l); check ("imag(catan(-100 - i Inf)) = -0", __imag__ result, minus_zero); - result = FUNC(catan) (BUILD_COMPLEX (0.0, plus_infty)); + result = FUNC(catan) (BUILD_COMPLEX(0.0, plus_infty)); check ("real(catan(0 + i Inf)) = pi/2", __real__ result, M_PI_2l); check ("imag(catan(0 + i Inf)) = 0", __imag__ result, 0); - result = FUNC(catan) (BUILD_COMPLEX (minus_zero, plus_infty)); + result = FUNC(catan) (BUILD_COMPLEX(minus_zero, plus_infty)); check ("real(catan(-0 + i Inf)) = -pi/2", __real__ result, -M_PI_2l); check ("imag(catan(-0 + i Inf)) = 0", __imag__ result, 0); - result = FUNC(catan) (BUILD_COMPLEX (0.5, plus_infty)); + result = FUNC(catan) (BUILD_COMPLEX(0.5, plus_infty)); check ("real(catan(0.5 + i Inf)) = pi/2", __real__ result, M_PI_2l); check ("imag(catan(0.5 + i Inf)) = 0", __imag__ result, 0); - result = FUNC(catan) (BUILD_COMPLEX (-0.5, plus_infty)); + result = FUNC(catan) (BUILD_COMPLEX(-0.5, plus_infty)); check ("real(catan(-0.5 + i Inf)) = -pi/2", __real__ result, -M_PI_2l); check ("imag(catan(-0.5 + i Inf)) = 0", __imag__ result, 0); - result = FUNC(catan) (BUILD_COMPLEX (nan_value, 0.0)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + result = FUNC(catan) (BUILD_COMPLEX(plus_infty, nan_value)); check ("real(catan(+Inf + i NaN)) = pi/2", __real__ result, M_PI_2l); check ("imag(catan(+Inf + i NaN)) = +-0", FUNC(fabs) (__imag__ result), 0); - result = FUNC(catan) (BUILD_COMPLEX (minus_infty, nan_value)); + result = FUNC(catan) (BUILD_COMPLEX(minus_infty, nan_value)); check ("real(catan(-Inf + i NaN)) = -pi/2", __real__ result, -M_PI_2l); check ("imag(catan(-Inf + i NaN)) = +-0", FUNC(fabs) (__imag__ result), 0); - result = FUNC(catan) (BUILD_COMPLEX (nan_value, 10.5)); + 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)); + 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)); + 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)); + 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)); + 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); - result = FUNC(catan) (BUILD_COMPLEX (0.7, 1.2)); + result = FUNC(catan) (BUILD_COMPLEX(0.7, 1.2)); check_eps ("real(catan(0.7 + i 1.2)) == 1.07857...", __real__ result, - 1.0785743834118921877L, CHOOSE (3e-17, 0, 5e-7)); + 1.0785743834118921877L, CHOOSE(3e-17, 0, 5e-7)); check_eps ("imag(catan(0.7 + i 1.2)) == 0.57705...", __imag__ result, 0.5770573776534306764L, CHOOSE(3e-17L, 2e-16, 6e-8)); - result = FUNC(catan) (BUILD_COMPLEX (-2, -3)); + result = FUNC(catan) (BUILD_COMPLEX(-2, -3)); check_eps ("real(catan(-2 - i 3)) == -1.40992...", __real__ result, -1.4099210495965755225L, CHOOSE(0, 0, 4e-7)); check_eps ("imag(catan(-2 - i 3)) == -0.22907...", __imag__ result, @@ -4201,148 +4137,148 @@ catanh_test (void) { __complex__ MATHTYPE result; - result = FUNC(catanh) (BUILD_COMPLEX (0, 0)); + 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)); + 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)); + 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)); + 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)); + 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_2l); - result = FUNC(catanh) (BUILD_COMPLEX (plus_infty, minus_infty)); + 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_2l); - result = FUNC(catanh) (BUILD_COMPLEX (minus_infty, plus_infty)); + 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_2l); - result = FUNC(catanh) (BUILD_COMPLEX (minus_infty, minus_infty)); + 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_2l); - result = FUNC(catanh) (BUILD_COMPLEX (-10.0, plus_infty)); + 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_2l); - result = FUNC(catanh) (BUILD_COMPLEX (-10.0, minus_infty)); + 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_2l); - result = FUNC(catanh) (BUILD_COMPLEX (minus_zero, plus_infty)); + 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_2l); - result = FUNC(catanh) (BUILD_COMPLEX (minus_zero, minus_infty)); + 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_2l); - result = FUNC(catanh) (BUILD_COMPLEX (0, plus_infty)); + 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_2l); - result = FUNC(catanh) (BUILD_COMPLEX (0, minus_infty)); + 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_2l); - result = FUNC(catanh) (BUILD_COMPLEX (0.1, plus_infty)); + 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_2l); - result = FUNC(catanh) (BUILD_COMPLEX (0.1, minus_infty)); + 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_2l); - result = FUNC(catanh) (BUILD_COMPLEX (minus_infty, 0)); + 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_2l); - result = FUNC(catanh) (BUILD_COMPLEX (minus_infty, minus_zero)); + 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_2l); - result = FUNC(catanh) (BUILD_COMPLEX (minus_infty, 100)); + 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_2l); - result = FUNC(catanh) (BUILD_COMPLEX (minus_infty, -100)); + 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_2l); - result = FUNC(catanh) (BUILD_COMPLEX (plus_infty, 0)); + 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_2l); - result = FUNC(catanh) (BUILD_COMPLEX (plus_infty, minus_zero)); + 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_2l); - result = FUNC(catanh) (BUILD_COMPLEX (plus_infty, 0.5)); + 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_2l); - result = FUNC(catanh) (BUILD_COMPLEX (plus_infty, -0.5)); + 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_2l); - result = FUNC(catanh) (BUILD_COMPLEX (0, nan_value)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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_2l); - result = FUNC(catanh) (BUILD_COMPLEX (nan_value, minus_infty)); + 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_2l); - result = FUNC(catanh) (BUILD_COMPLEX (10.5, nan_value)); + 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)); + 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)); + 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)); + 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)); + 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); - result = FUNC(catanh) (BUILD_COMPLEX (0.7, 1.2)); + result = FUNC(catanh) (BUILD_COMPLEX(0.7, 1.2)); check_eps ("real(catanh(0.7 + i 1.2)) == 0.26007...", __real__ result, - 0.2600749516525135959L, CHOOSE (2e-18, 6e-17, 3e-8)); + 0.2600749516525135959L, CHOOSE(2e-18, 6e-17, 3e-8)); check_eps ("imag(catanh(0.7 + i 1.2)) == 0.97024...", __imag__ result, - 0.9702403077950989849L, CHOOSE (3e-17, 2e-16, 4e-7)); + 0.9702403077950989849L, CHOOSE(3e-17, 2e-16, 4e-7)); - result = FUNC(catanh) (BUILD_COMPLEX (-2, -3)); + result = FUNC(catanh) (BUILD_COMPLEX(-2, -3)); check_eps ("real(catanh(-2 - i 3)) == -0.14694...", __real__ result, - -0.1469466662255297520L, CHOOSE (9e-20L, 2e-16, 2e-8)); + -0.1469466662255297520L, CHOOSE(9e-20L, 2e-16, 2e-8)); check_eps ("imag(catanh(-2 - i 3)) == -1.33897...", __imag__ result, - -1.3389725222944935611L, CHOOSE (7e-19L, 0, 5e-7)); + -1.3389725222944935611L, CHOOSE(7e-19L, 0, 5e-7)); } @@ -4351,144 +4287,144 @@ ctan_test (void) { __complex__ MATHTYPE result; - result = FUNC(ctan) (BUILD_COMPLEX (0, 0)); + result = FUNC(ctan) (BUILD_COMPLEX(0, 0)); check ("real(ctan(0 + i0)) = 0", __real__ result, 0); check ("imag(ctan(0 + i0)) = 0", __imag__ result, 0); - result = FUNC(ctan) (BUILD_COMPLEX (0, minus_zero)); + result = FUNC(ctan) (BUILD_COMPLEX(0, minus_zero)); check ("real(ctan(0 - i0)) = 0", __real__ result, 0); check ("imag(ctan(0 - i0)) = -0", __imag__ result, minus_zero); - result = FUNC(ctan) (BUILD_COMPLEX (minus_zero, 0)); + result = FUNC(ctan) (BUILD_COMPLEX(minus_zero, 0)); check ("real(ctan(-0 + i0)) = -0", __real__ result, minus_zero); check ("imag(ctan(-0 + i0)) = 0", __imag__ result, 0); - result = FUNC(ctan) (BUILD_COMPLEX (minus_zero, minus_zero)); + result = FUNC(ctan) (BUILD_COMPLEX(minus_zero, minus_zero)); check ("real(ctan(-0 - i0)) = -0", __real__ result, minus_zero); check ("imag(ctan(-0 - i0)) = -0", __imag__ result, minus_zero); - result = FUNC(ctan) (BUILD_COMPLEX (0, plus_infty)); + result = FUNC(ctan) (BUILD_COMPLEX(0, plus_infty)); check ("real(ctan(0 + i Inf)) = 0", __real__ result, 0); check ("imag(ctan(0 + i Inf)) = 1", __imag__ result, 1); - result = FUNC(ctan) (BUILD_COMPLEX (1, plus_infty)); + result = FUNC(ctan) (BUILD_COMPLEX(1, plus_infty)); check ("real(ctan(1 + i Inf)) = 0", __real__ result, 0); check ("imag(ctan(1 + i Inf)) = 1", __imag__ result, 1); - result = FUNC(ctan) (BUILD_COMPLEX (minus_zero, plus_infty)); + result = FUNC(ctan) (BUILD_COMPLEX(minus_zero, plus_infty)); check ("real(ctan(-0 + i Inf)) = -0", __real__ result, minus_zero); check ("imag(ctan(-0 + i Inf)) = 1", __imag__ result, 1); - result = FUNC(ctan) (BUILD_COMPLEX (-1, plus_infty)); + result = FUNC(ctan) (BUILD_COMPLEX(-1, plus_infty)); check ("real(ctan(-1 + i Inf)) = -0", __real__ result, minus_zero); check ("imag(ctan(-1 + i Inf)) = 1", __imag__ result, 1); - result = FUNC(ctan) (BUILD_COMPLEX (0, minus_infty)); + result = FUNC(ctan) (BUILD_COMPLEX(0, minus_infty)); check ("real(ctan(0 - i Inf)) = 0", __real__ result, 0); check ("imag(ctan(0 - i Inf)) = -1", __imag__ result, -1); - result = FUNC(ctan) (BUILD_COMPLEX (1, minus_infty)); + result = FUNC(ctan) (BUILD_COMPLEX(1, minus_infty)); check ("real(ctan(1 - i Inf)) = 0", __real__ result, 0); check ("imag(ctan(1 - i Inf)) = -1", __imag__ result, -1); - result = FUNC(ctan) (BUILD_COMPLEX (minus_zero, minus_infty)); + result = FUNC(ctan) (BUILD_COMPLEX(minus_zero, minus_infty)); check ("real(ctan(-0 - i Inf)) = -0", __real__ result, minus_zero); check ("imag(ctan(-0 - i Inf)) = -1", __imag__ result, -1); - result = FUNC(ctan) (BUILD_COMPLEX (-1, minus_infty)); + result = FUNC(ctan) (BUILD_COMPLEX(-1, minus_infty)); check ("real(ctan(-1 - i Inf)) = -0", __real__ result, minus_zero); check ("imag(ctan(-1 - i Inf)) = -1", __imag__ result, -1); - result = FUNC(ctan) (BUILD_COMPLEX (plus_infty, 0)); + result = FUNC(ctan) (BUILD_COMPLEX(plus_infty, 0)); check_isnan_exc ("real(ctan(Inf + i 0)) = NaN plus invalid exception", __real__ result, INVALID_EXCEPTION); check_isnan ("imag(ctan(Inf + i 0)) = NaN plus invalid exception", __imag__ result); - result = FUNC(ctan) (BUILD_COMPLEX (plus_infty, 2)); + result = FUNC(ctan) (BUILD_COMPLEX(plus_infty, 2)); check_isnan_exc ("real(ctan(Inf + i 2)) = NaN plus invalid exception", __real__ result, INVALID_EXCEPTION); check_isnan ("imag(ctan(Inf + i 2)) = NaN plus invalid exception", __imag__ result); - result = FUNC(ctan) (BUILD_COMPLEX (minus_infty, 0)); + result = FUNC(ctan) (BUILD_COMPLEX(minus_infty, 0)); check_isnan_exc ("real(ctan(-Inf + i 0)) = NaN plus invalid exception", __real__ result, INVALID_EXCEPTION); check_isnan ("imag(ctan(-Inf + i 0)) = NaN plus invalid exception", __imag__ result); - result = FUNC(ctan) (BUILD_COMPLEX (minus_infty, 2)); + result = FUNC(ctan) (BUILD_COMPLEX(minus_infty, 2)); check_isnan_exc ("real(ctan(- Inf + i 2)) = NaN plus invalid exception", __real__ result, INVALID_EXCEPTION); check_isnan ("imag(ctan(- Inf + i 2)) = NaN plus invalid exception", __imag__ result); - result = FUNC(ctan) (BUILD_COMPLEX (plus_infty, minus_zero)); + result = FUNC(ctan) (BUILD_COMPLEX(plus_infty, minus_zero)); check_isnan_exc ("real(ctan(Inf - i 0)) = NaN plus invalid exception", __real__ result, INVALID_EXCEPTION); check_isnan ("imag(ctan(Inf - i 0)) = NaN plus invalid exception", __imag__ result); - result = FUNC(ctan) (BUILD_COMPLEX (plus_infty, -2)); + result = FUNC(ctan) (BUILD_COMPLEX(plus_infty, -2)); check_isnan_exc ("real(ctan(Inf - i 2)) = NaN plus invalid exception", __real__ result, INVALID_EXCEPTION); check_isnan ("imag(ctan(Inf - i 2)) = NaN plus invalid exception", __imag__ result); - result = FUNC(ctan) (BUILD_COMPLEX (minus_infty, minus_zero)); + result = FUNC(ctan) (BUILD_COMPLEX(minus_infty, minus_zero)); check_isnan_exc ("real(ctan(-Inf - i 0)) = NaN plus invalid exception", __real__ result, INVALID_EXCEPTION); check_isnan ("imag(ctan(-Inf - i 0)) = NaN plus invalid exception", __imag__ result); - result = FUNC(ctan) (BUILD_COMPLEX (minus_infty, -2)); + result = FUNC(ctan) (BUILD_COMPLEX(minus_infty, -2)); check_isnan_exc ("real(ctan(-Inf - i 2)) = NaN plus invalid exception", __real__ result, INVALID_EXCEPTION); check_isnan ("imag(ctan(-Inf - i 2)) = NaN plus invalid exception", __imag__ result); - result = FUNC(ctan) (BUILD_COMPLEX (nan_value, plus_infty)); + result = FUNC(ctan) (BUILD_COMPLEX(nan_value, plus_infty)); check ("real(ctan(NaN + i Inf)) = +-0", FUNC(fabs) (__real__ result), 0); check ("imag(ctan(NaN + i Inf)) = 1", __imag__ result, 1); - result = FUNC(ctan) (BUILD_COMPLEX (nan_value, minus_infty)); + result = FUNC(ctan) (BUILD_COMPLEX(nan_value, minus_infty)); check ("real(ctan(NaN - i Inf)) = +-0", FUNC(fabs) (__real__ result), 0); check ("imag(ctan(NaN - i Inf)) = -1", __imag__ result, -1); - result = FUNC(ctan) (BUILD_COMPLEX (0, nan_value)); + result = FUNC(ctan) (BUILD_COMPLEX(0, nan_value)); check ("real(ctan(0 + i NaN)) = 0", __real__ result, 0); check_isnan ("imag(ctan(0 + i NaN)) = NaN", __imag__ result); - result = FUNC(ctan) (BUILD_COMPLEX (minus_zero, nan_value)); + result = FUNC(ctan) (BUILD_COMPLEX(minus_zero, nan_value)); check ("real(ctan(-0 + i NaN)) = -0", __real__ result, minus_zero); check_isnan ("imag(ctan(-0 + i NaN)) = NaN", __imag__ result); - result = FUNC(ctan) (BUILD_COMPLEX (0.5, nan_value)); + result = FUNC(ctan) (BUILD_COMPLEX(0.5, nan_value)); check_isnan_maybe_exc ("real(ctan(0.5 + i NaN)) = NaN plus maybe invalid exception", __real__ result, INVALID_EXCEPTION); check_isnan ("imag(ctan(0.5 + i NaN)) = NaN plus maybe invalid exception", __imag__ result); - result = FUNC(ctan) (BUILD_COMPLEX (-4.5, nan_value)); + result = FUNC(ctan) (BUILD_COMPLEX(-4.5, nan_value)); check_isnan_maybe_exc ("real(ctan(-4.5 + i NaN)) = NaN plus maybe invalid exception", __real__ result, INVALID_EXCEPTION); check_isnan ("imag(ctan(-4.5 + i NaN)) = NaN plus maybe invalid exception", __imag__ result); - result = FUNC(ctan) (BUILD_COMPLEX (nan_value, 0)); + result = FUNC(ctan) (BUILD_COMPLEX(nan_value, 0)); check_isnan_maybe_exc ("real(ctan(NaN + i 0)) = NaN plus maybe invalid exception", __real__ result, INVALID_EXCEPTION); check_isnan ("imag(ctan(NaN + i 0)) = NaN plus maybe invalid exception", __imag__ result); - result = FUNC(ctan) (BUILD_COMPLEX (nan_value, 5)); + result = FUNC(ctan) (BUILD_COMPLEX(nan_value, 5)); check_isnan_maybe_exc ("real(ctan(NaN + i 5)) = NaN plus maybe invalid exception", __real__ result, INVALID_EXCEPTION); check_isnan ("imag(ctan(NaN + i 5)) = NaN plus maybe invalid exception", __imag__ result); - result = FUNC(ctan) (BUILD_COMPLEX (nan_value, minus_zero)); + result = FUNC(ctan) (BUILD_COMPLEX(nan_value, minus_zero)); check_isnan_maybe_exc ("real(ctan(NaN - i 0)) = NaN plus maybe invalid exception", __real__ result, INVALID_EXCEPTION); check_isnan ("imag(ctan(NaN - i 0)) = NaN plus maybe invalid exception", __imag__ result); - result = FUNC(ctan) (BUILD_COMPLEX (nan_value, -0.25)); + result = FUNC(ctan) (BUILD_COMPLEX(nan_value, -0.25)); check_isnan_maybe_exc ("real(ctan(NaN -i 0.25)) = NaN plus maybe invalid exception", __real__ result, INVALID_EXCEPTION); check_isnan ("imag(ctan(NaN -i 0.25)) = NaN plus maybe invalid exception", __imag__ result); - result = FUNC(ctan) (BUILD_COMPLEX (nan_value, nan_value)); + result = FUNC(ctan) (BUILD_COMPLEX(nan_value, nan_value)); check_isnan ("real(ctan(NaN + i NaN)) = NaN", __real__ result); check_isnan ("imag(ctan(NaN + i NaN)) = NaN", __imag__ result); - result = FUNC(ctan) (BUILD_COMPLEX (0.7, 1.2)); + result = FUNC(ctan) (BUILD_COMPLEX(0.7, 1.2)); check_eps ("real(ctan(0.7 + i 1.2)) == 0.17207...", __real__ result, 0.1720734197630349001L, CHOOSE(1e-17L, 3e-17, 2e-8)); check_eps ("imag(ctan(0.7 + i 1.2)) == 0.95448...", __imag__ result, 0.9544807059989405538L, CHOOSE(2e-17L, 2e-16, 6e-8)); - result = FUNC(ctan) (BUILD_COMPLEX (-2, -3)); + result = FUNC(ctan) (BUILD_COMPLEX(-2, -3)); check_eps ("real(ctan(-2 - i 3)) == -0.00376...", __real__ result, 0.0037640256415042482L, CHOOSE(1e-19L, 5e-19, 0)); check_eps ("imag(ctan(-2 - i 3)) == -1.00323...", __imag__ result, @@ -4501,147 +4437,147 @@ ctanh_test (void) { __complex__ MATHTYPE result; - result = FUNC(ctanh) (BUILD_COMPLEX (0, 0)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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); - result = FUNC(ctanh) (BUILD_COMPLEX (0, M_PI_4l)); + result = FUNC(ctanh) (BUILD_COMPLEX(0, M_PI_4l)); check ("real(ctanh (0 + i pi/4)) == 0", __real__ result, 0); check_eps ("imag(ctanh (0 + i pi/4)) == 1", __imag__ result, 1, - CHOOSE (0, 2e-16, 2e-7)); + CHOOSE(0, 2e-16, 2e-7)); - result = FUNC(ctanh) (BUILD_COMPLEX (0.7, 1.2)); + result = FUNC(ctanh) (BUILD_COMPLEX(0.7, 1.2)); check_eps ("real(ctanh(0.7 + i 1.2)) == 1.34721...", __real__ result, 1.3472197399061191630L, CHOOSE(4e-17L, 5e-16, 2e-7)); check_eps ("imag(ctanh(0.7 + i 1.2)) == -0.47786...", __imag__ result, 0.4778641038326365540L, CHOOSE(9e-17L, 2e-16, 9e-8)); - result = FUNC(ctanh) (BUILD_COMPLEX (-2, -3)); + result = FUNC(ctanh) (BUILD_COMPLEX(-2, -3)); check_eps ("real(ctanh(-2 - i 3)) == -0.96538...", __real__ result, -0.9653858790221331242L, CHOOSE(2e-19L, 2e-16, 2e-7)); check_eps ("imag(ctanh(-2 - i 3)) == 0.00988...", __imag__ result, @@ -4654,162 +4590,162 @@ clog_test (void) { __complex__ MATHTYPE result; - result = FUNC(clog) (BUILD_COMPLEX (minus_zero, 0)); + 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_PIl); - result = FUNC(clog) (BUILD_COMPLEX (minus_zero, minus_zero)); + 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_PIl); - result = FUNC(clog) (BUILD_COMPLEX (0, 0)); + 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)); + 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)); + 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_PIl - M_PI_4l); - result = FUNC(clog) (BUILD_COMPLEX (minus_infty, minus_infty)); + 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_4l - M_PIl); - result = FUNC(clog) (BUILD_COMPLEX (plus_infty, plus_infty)); + 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_4l); - result = FUNC(clog) (BUILD_COMPLEX (plus_infty, minus_infty)); + 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_4l); - result = FUNC(clog) (BUILD_COMPLEX (0, plus_infty)); + 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_2l); - result = FUNC(clog) (BUILD_COMPLEX (3, plus_infty)); + 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_2l); - result = FUNC(clog) (BUILD_COMPLEX (minus_zero, plus_infty)); + 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_2l); - result = FUNC(clog) (BUILD_COMPLEX (-3, plus_infty)); + 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_2l); - result = FUNC(clog) (BUILD_COMPLEX (0, minus_infty)); + 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_2l); - result = FUNC(clog) (BUILD_COMPLEX (3, minus_infty)); + 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_2l); - result = FUNC(clog) (BUILD_COMPLEX (minus_zero, minus_infty)); + 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_2l); - result = FUNC(clog) (BUILD_COMPLEX (-3, minus_infty)); + 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_2l); - result = FUNC(clog) (BUILD_COMPLEX (minus_infty, 0)); + 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_PIl); - result = FUNC(clog) (BUILD_COMPLEX (minus_infty, 1)); + 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_PIl); - result = FUNC(clog) (BUILD_COMPLEX (minus_infty, minus_zero)); + 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_PIl); - result = FUNC(clog) (BUILD_COMPLEX (minus_infty, -1)); + 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_PIl); - result = FUNC(clog) (BUILD_COMPLEX (plus_infty, 0)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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); - result = FUNC(clog) (BUILD_COMPLEX (0.7, 1.2)); + result = FUNC(clog) (BUILD_COMPLEX(0.7, 1.2)); check_eps ("real(clog(0.7 + i 1.2)) == 0.32876...", __real__ result, 0.3287600014583970919L, CHOOSE(5e-17L, 6e-17, 3e-8)); check_eps ("imag(clog(0.7 + i 1.2)) == 1.04272...", __imag__ result, 1.0427218783685369524L, CHOOSE(2e-17L, 2.5e-16, 1.2e-7)); - result = FUNC(clog) (BUILD_COMPLEX (-2, -3)); + result = FUNC(clog) (BUILD_COMPLEX(-2, -3)); check_eps ("real(clog(-2 - i 3)) == 1.28247...", __real__ result, 1.2824746787307683680L, CHOOSE(3e-19L, 0, 0)); check_eps ("imag(clog(-2 - i 3)) == -2.15879...", __imag__ result, @@ -4822,180 +4758,180 @@ clog10_test (void) { __complex__ MATHTYPE result; - result = FUNC(clog10) (BUILD_COMPLEX (minus_zero, 0)); + result = FUNC(clog10) (BUILD_COMPLEX(minus_zero, 0)); check_isinfn_exc ("real(clog10(-0 + i0)) = -Inf plus divide-by-zero exception", __real__ result, DIVIDE_BY_ZERO_EXCEPTION); check ("imag(clog10(-0 + i0)) = pi plus divide-by-zero exception", __imag__ result, M_PIl); - result = FUNC(clog10) (BUILD_COMPLEX (minus_zero, minus_zero)); + result = FUNC(clog10) (BUILD_COMPLEX(minus_zero, minus_zero)); check_isinfn_exc ("real(clog10(-0 - i0)) = -Inf plus divide-by-zero exception", __real__ result, DIVIDE_BY_ZERO_EXCEPTION); check ("imag(clog10(-0 - i0)) = -pi plus divide-by-zero exception", __imag__ result, -M_PIl); - result = FUNC(clog10) (BUILD_COMPLEX (0, 0)); + result = FUNC(clog10) (BUILD_COMPLEX(0, 0)); check_isinfn_exc ("real(clog10(0 + i0)) = -Inf plus divide-by-zero exception", __real__ result, DIVIDE_BY_ZERO_EXCEPTION); check ("imag(clog10(0 + i0)) = 0 plus divide-by-zero exception", __imag__ result, 0); - result = FUNC(clog10) (BUILD_COMPLEX (0, minus_zero)); + result = FUNC(clog10) (BUILD_COMPLEX(0, minus_zero)); check_isinfn_exc ("real(clog10(0 - i0)) = -Inf plus divide-by-zero exception", __real__ result, DIVIDE_BY_ZERO_EXCEPTION); check ("imag(clog10(0 - i0)) = -0 plus divide-by-zero exception", __imag__ result, minus_zero); - result = FUNC(clog10) (BUILD_COMPLEX (minus_infty, plus_infty)); + result = FUNC(clog10) (BUILD_COMPLEX(minus_infty, plus_infty)); check_isinfp ("real(clog10(-Inf + i Inf)) = +Inf", __real__ result); check_eps ("imag(clog10(-Inf + i Inf)) = 3*pi/4*M_LOG10E", __imag__ result, - (M_PIl - M_PI_4l) * M_LOG10El, CHOOSE (0, 3e-16, 0)); - result = FUNC(clog10) (BUILD_COMPLEX (minus_infty, minus_infty)); + (M_PIl - M_PI_4l) * M_LOG10El, CHOOSE(0, 3e-16, 0)); + result = FUNC(clog10) (BUILD_COMPLEX(minus_infty, minus_infty)); check_isinfp ("real(clog10(-Inf - i Inf)) = +Inf", __real__ result); check_eps ("imag(clog10(-Inf - i Inf)) = -3*pi/4*M_LOG10E", __imag__ result, - (M_PI_4l - M_PIl) * M_LOG10El, CHOOSE (0, 3e-16, 0)); + (M_PI_4l - M_PIl) * M_LOG10El, CHOOSE(0, 3e-16, 0)); - result = FUNC(clog10) (BUILD_COMPLEX (plus_infty, plus_infty)); + result = FUNC(clog10) (BUILD_COMPLEX(plus_infty, plus_infty)); check_isinfp ("real(clog10(+Inf + i Inf)) = +Inf", __real__ result); check_eps ("imag(clog10(+Inf + i Inf)) = pi/4*M_LOG10E", __imag__ result, - M_PI_4l * M_LOG10El, CHOOSE (0, 6e-17, 3e-8)); - result = FUNC(clog10) (BUILD_COMPLEX (plus_infty, minus_infty)); + M_PI_4l * M_LOG10El, CHOOSE(0, 6e-17, 3e-8)); + result = FUNC(clog10) (BUILD_COMPLEX(plus_infty, minus_infty)); check_isinfp ("real(clog10(+Inf - i Inf)) = +Inf", __real__ result); check_eps ("imag(clog10(+Inf - i Inf)) = -pi/4*M_LOG10E", __imag__ result, - -M_PI_4l * M_LOG10El, CHOOSE (0, 6e-17, 3e-8)); + -M_PI_4l * M_LOG10El, CHOOSE(0, 6e-17, 3e-8)); - result = FUNC(clog10) (BUILD_COMPLEX (0, plus_infty)); + result = FUNC(clog10) (BUILD_COMPLEX(0, plus_infty)); check_isinfp ("real(clog10(0 + i Inf)) = +Inf", __real__ result); check_eps ("imag(clog10(0 + i Inf)) = pi/2*M_LOG10E", __imag__ result, - M_PI_2l * M_LOG10El, CHOOSE (0, 2e-16, 6e-8)); - result = FUNC(clog10) (BUILD_COMPLEX (3, plus_infty)); + M_PI_2l * M_LOG10El, CHOOSE(0, 2e-16, 6e-8)); + result = FUNC(clog10) (BUILD_COMPLEX(3, plus_infty)); check_isinfp ("real(clog10(3 + i Inf)) = +Inf", __real__ result); check_eps ("imag(clog10(3 + i Inf)) = pi/2*M_LOG10E", __imag__ result, - M_PI_2l * M_LOG10El, CHOOSE (0, 2e-16, 6e-8)); - result = FUNC(clog10) (BUILD_COMPLEX (minus_zero, plus_infty)); + M_PI_2l * M_LOG10El, CHOOSE(0, 2e-16, 6e-8)); + result = FUNC(clog10) (BUILD_COMPLEX(minus_zero, plus_infty)); check_isinfp ("real(clog10(-0 + i Inf)) = +Inf", __real__ result); check_eps ("imag(clog10(-0 + i Inf)) = pi/2*M_LOG10E", __imag__ result, - M_PI_2l * M_LOG10El, CHOOSE (0, 2e-16, 6e-8)); - result = FUNC(clog10) (BUILD_COMPLEX (-3, plus_infty)); + M_PI_2l * M_LOG10El, CHOOSE(0, 2e-16, 6e-8)); + result = FUNC(clog10) (BUILD_COMPLEX(-3, plus_infty)); check_isinfp ("real(clog10(-3 + i Inf)) = +Inf", __real__ result); check_eps ("imag(clog10(-3 + i Inf)) = pi/2*M_LOG10E", __imag__ result, - M_PI_2l * M_LOG10El, CHOOSE (0, 2e-16, 6e-8)); - result = FUNC(clog10) (BUILD_COMPLEX (0, minus_infty)); + M_PI_2l * M_LOG10El, CHOOSE(0, 2e-16, 6e-8)); + result = FUNC(clog10) (BUILD_COMPLEX(0, minus_infty)); check_isinfp ("real(clog10(0 - i Inf)) = +Inf", __real__ result); check_eps ("imag(clog10(0 - i Inf)) = -pi/2*M_LOG10E", __imag__ result, - -M_PI_2l * M_LOG10El, CHOOSE (0, 2e-16, 6e-8)); - result = FUNC(clog10) (BUILD_COMPLEX (3, minus_infty)); + -M_PI_2l * M_LOG10El, CHOOSE(0, 2e-16, 6e-8)); + result = FUNC(clog10) (BUILD_COMPLEX(3, minus_infty)); check_isinfp ("real(clog10(3 - i Inf)) = +Inf", __real__ result); check_eps ("imag(clog10(3 - i Inf)) = -pi/2*M_LOG10E", __imag__ result, - -M_PI_2l * M_LOG10El, CHOOSE (0, 2e-16, 6e-8)); - result = FUNC(clog10) (BUILD_COMPLEX (minus_zero, minus_infty)); + -M_PI_2l * M_LOG10El, CHOOSE(0, 2e-16, 6e-8)); + result = FUNC(clog10) (BUILD_COMPLEX(minus_zero, minus_infty)); check_isinfp ("real(clog10(-0 - i Inf)) = +Inf", __real__ result); check_eps ("imag(clog10(-0 - i Inf)) = -pi/2*M_LOG10E", __imag__ result, - -M_PI_2l * M_LOG10El, CHOOSE (0, 2e-16, 6e-8)); - result = FUNC(clog10) (BUILD_COMPLEX (-3, minus_infty)); + -M_PI_2l * M_LOG10El, CHOOSE(0, 2e-16, 6e-8)); + result = FUNC(clog10) (BUILD_COMPLEX(-3, minus_infty)); check_isinfp ("real(clog10(-3 - i Inf)) = +Inf", __real__ result); check_eps ("imag(clog10(-3 - i Inf)) = -pi/2*M_LOG10E", __imag__ result, - -M_PI_2l * M_LOG10El, CHOOSE (0, 2e-16, 6e-8)); + -M_PI_2l * M_LOG10El, CHOOSE(0, 2e-16, 6e-8)); - result = FUNC(clog10) (BUILD_COMPLEX (minus_infty, 0)); + result = FUNC(clog10) (BUILD_COMPLEX(minus_infty, 0)); check_isinfp ("real(clog10(-Inf + i0)) = +Inf", __real__ result); check_eps ("imag(clog10(-Inf + i0)) = pi*M_LOG10E", __imag__ result, - M_PIl * M_LOG10El, CHOOSE (0, 3e-16, 2e-7)); - result = FUNC(clog10) (BUILD_COMPLEX (minus_infty, 1)); + M_PIl * M_LOG10El, CHOOSE(0, 3e-16, 2e-7)); + result = FUNC(clog10) (BUILD_COMPLEX(minus_infty, 1)); check_isinfp ("real(clog10(-Inf + i1)) = +Inf", __real__ result); check_eps ("imag(clog10(-Inf + i1)) = pi*M_LOG10E", __imag__ result, - M_PIl * M_LOG10El, CHOOSE (0, 3e-16, 2e-7)); - result = FUNC(clog10) (BUILD_COMPLEX (minus_infty, minus_zero)); + M_PIl * M_LOG10El, CHOOSE(0, 3e-16, 2e-7)); + result = FUNC(clog10) (BUILD_COMPLEX(minus_infty, minus_zero)); check_isinfp ("real(clog10(-Inf - i0)) = +Inf", __real__ result); check_eps ("imag(clog10(-Inf - i0)) = -pi*M_LOG10E", __imag__ result, - -M_PIl * M_LOG10El, CHOOSE (0, 3e-16, 2e-7)); - result = FUNC(clog10) (BUILD_COMPLEX (minus_infty, -1)); + -M_PIl * M_LOG10El, CHOOSE(0, 3e-16, 2e-7)); + result = FUNC(clog10) (BUILD_COMPLEX(minus_infty, -1)); check_isinfp ("real(clog10(-Inf - i1)) = +Inf", __real__ result); check_eps ("imag(clog10(-Inf - i1)) = -pi*M_LOG10E", __imag__ result, - -M_PIl * M_LOG10El, CHOOSE (0, 3e-16, 2e-7)); + -M_PIl * M_LOG10El, CHOOSE(0, 3e-16, 2e-7)); - result = FUNC(clog10) (BUILD_COMPLEX (plus_infty, 0)); + result = FUNC(clog10) (BUILD_COMPLEX(plus_infty, 0)); check_isinfp ("real(clog10(+Inf + i0)) = +Inf", __real__ result); check ("imag(clog10(+Inf + i0)) = 0", __imag__ result, 0); - result = FUNC(clog10) (BUILD_COMPLEX (plus_infty, 1)); + result = FUNC(clog10) (BUILD_COMPLEX(plus_infty, 1)); check_isinfp ("real(clog10(+Inf + i1)) = +Inf", __real__ result); check ("imag(clog10(+Inf + i1)) = 0", __imag__ result, 0); - result = FUNC(clog10) (BUILD_COMPLEX (plus_infty, minus_zero)); + result = FUNC(clog10) (BUILD_COMPLEX(plus_infty, minus_zero)); check_isinfp ("real(clog10(+Inf - i0)) = +Inf", __real__ result); check ("imag(clog10(+Inf - i0)) = -0", __imag__ result, minus_zero); - result = FUNC(clog10) (BUILD_COMPLEX (plus_infty, -1)); + result = FUNC(clog10) (BUILD_COMPLEX(plus_infty, -1)); check_isinfp ("real(clog10(+Inf - i1)) = +Inf", __real__ result); check ("imag(clog10(+Inf - i1)) = -0", __imag__ result, minus_zero); - result = FUNC(clog10) (BUILD_COMPLEX (plus_infty, nan_value)); + result = FUNC(clog10) (BUILD_COMPLEX(plus_infty, nan_value)); check_isinfp ("real(clog10(+Inf + i NaN)) = +Inf", __real__ result); check_isnan ("imag(clog10(+Inf + i NaN)) = NaN", __imag__ result); - result = FUNC(clog10) (BUILD_COMPLEX (minus_infty, nan_value)); + result = FUNC(clog10) (BUILD_COMPLEX(minus_infty, nan_value)); check_isinfp ("real(clog10(-Inf + i NaN)) = +Inf", __real__ result); check_isnan ("imag(clog10(-Inf + i NaN)) = NaN", __imag__ result); - result = FUNC(clog10) (BUILD_COMPLEX (nan_value, plus_infty)); + result = FUNC(clog10) (BUILD_COMPLEX(nan_value, plus_infty)); check_isinfp ("real(clog10(NaN + i Inf)) = +Inf", __real__ result); check_isnan ("imag(clog10(NaN + i Inf)) = NaN", __imag__ result); - result = FUNC(clog10) (BUILD_COMPLEX (nan_value, minus_infty)); + result = FUNC(clog10) (BUILD_COMPLEX(nan_value, minus_infty)); check_isinfp ("real(clog10(NaN - i Inf)) = +Inf", __real__ result); check_isnan ("imag(clog10(NaN - i Inf)) = NaN", __imag__ result); - result = FUNC(clog10) (BUILD_COMPLEX (0, nan_value)); + result = FUNC(clog10) (BUILD_COMPLEX(0, nan_value)); check_isnan_maybe_exc ("real(clog10(0 + i NaN)) = NaN plus maybe invalid exception", __real__ result, INVALID_EXCEPTION); check_isnan ("imag(clog10(0 + i NaN)) = NaN plus maybe invalid exception", __imag__ result); - result = FUNC(clog10) (BUILD_COMPLEX (3, nan_value)); + result = FUNC(clog10) (BUILD_COMPLEX(3, nan_value)); check_isnan_maybe_exc ("real(clog10(3 + i NaN)) = NaN plus maybe invalid exception", __real__ result, INVALID_EXCEPTION); check_isnan ("imag(clog10(3 + i NaN)) = NaN plus maybe invalid exception", __imag__ result); - result = FUNC(clog10) (BUILD_COMPLEX (minus_zero, nan_value)); + result = FUNC(clog10) (BUILD_COMPLEX(minus_zero, nan_value)); check_isnan_maybe_exc ("real(clog10(-0 + i NaN)) = NaN plus maybe invalid exception", __real__ result, INVALID_EXCEPTION); check_isnan ("imag(clog10(-0 + i NaN)) = NaN plus maybe invalid exception", __imag__ result); - result = FUNC(clog10) (BUILD_COMPLEX (-3, nan_value)); + result = FUNC(clog10) (BUILD_COMPLEX(-3, nan_value)); check_isnan_maybe_exc ("real(clog10(-3 + i NaN)) = NaN plus maybe invalid exception", __real__ result, INVALID_EXCEPTION); check_isnan ("imag(clog10(-3 + i NaN)) = NaN plus maybe invalid exception", __imag__ result); - result = FUNC(clog10) (BUILD_COMPLEX (nan_value, 0)); + result = FUNC(clog10) (BUILD_COMPLEX(nan_value, 0)); check_isnan_maybe_exc ("real(clog10(NaN + i0)) = NaN plus maybe invalid exception", __real__ result, INVALID_EXCEPTION); check_isnan ("imag(clog10(NaN + i0)) = NaN plus maybe invalid exception", __imag__ result); - result = FUNC(clog10) (BUILD_COMPLEX (nan_value, 5)); + result = FUNC(clog10) (BUILD_COMPLEX(nan_value, 5)); check_isnan_maybe_exc ("real(clog10(NaN + i5)) = NaN plus maybe invalid exception", __real__ result, INVALID_EXCEPTION); check_isnan ("imag(clog10(NaN + i5)) = NaN plus maybe invalid exception", __imag__ result); - result = FUNC(clog10) (BUILD_COMPLEX (nan_value, minus_zero)); + result = FUNC(clog10) (BUILD_COMPLEX(nan_value, minus_zero)); check_isnan_maybe_exc ("real(clog10(NaN - i0)) = NaN plus maybe invalid exception", __real__ result, INVALID_EXCEPTION); check_isnan ("imag(clog10(NaN - i0)) = NaN plus maybe invalid exception", __imag__ result); - result = FUNC(clog10) (BUILD_COMPLEX (nan_value, -5)); + result = FUNC(clog10) (BUILD_COMPLEX(nan_value, -5)); check_isnan_maybe_exc ("real(clog10(NaN - i5)) = NaN plus maybe invalid exception", __real__ result, INVALID_EXCEPTION); check_isnan ("imag(clog10(NaN - i5)) = NaN plus maybe invalid exception", __imag__ result); - result = FUNC(clog10) (BUILD_COMPLEX (nan_value, nan_value)); + result = FUNC(clog10) (BUILD_COMPLEX(nan_value, nan_value)); check_isnan ("real(clog10(NaN + i NaN)) = NaN", __real__ result); check_isnan ("imag(clog10(NaN + i NaN)) = NaN", __imag__ result); - result = FUNC(clog10) (BUILD_COMPLEX (0.7, 1.2)); + result = FUNC(clog10) (BUILD_COMPLEX(0.7, 1.2)); check_eps ("real(clog10(0.7 + i 1.2)) == 0.14277...", __real__ result, 0.1427786545038868803L, CHOOSE(2e-17L, 6e-17, 2e-8)); check_eps ("imag(clog10(0.7 + i 1.2)) == 0.45284...", __imag__ result, 0.4528483579352493248L, CHOOSE(6e-18, 6e-17, 6e-8)); - result = FUNC(clog10) (BUILD_COMPLEX (-2, -3)); + result = FUNC(clog10) (BUILD_COMPLEX(-2, -3)); check_eps ("real(clog10(-2 - i 3)) == 0.55697...", __real__ result, 0.5569716761534183846L, CHOOSE(6e-20L, 0, 0)); check_eps ("imag(clog10(-2 - i 3)) == -0.93755...", __imag__ result, - -0.9375544629863747085L, CHOOSE (7e-19L, 2e-16, 3e-7)); + -0.9375544629863747085L, CHOOSE(7e-19L, 2e-16, 3e-7)); } @@ -5004,166 +4940,166 @@ csqrt_test (void) { __complex__ MATHTYPE result; - result = FUNC(csqrt) (BUILD_COMPLEX (0, 0)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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)); + 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); - result = FUNC(csqrt) (BUILD_COMPLEX (16.0, -30.0)); + result = FUNC(csqrt) (BUILD_COMPLEX(16.0, -30.0)); check ("real(csqrt(16 - 30i)) = 5", __real__ result, 5.0); check ("imag(csqrt(16 - 30i)) = -3", __imag__ result, -3.0); - result = FUNC(csqrt) (BUILD_COMPLEX (-1, 0)); + result = FUNC(csqrt) (BUILD_COMPLEX(-1, 0)); check ("real(csqrt(1 + i0) = 0", __real__ result, 0); check ("imag(csqrt(1 + i0) = 1", __imag__ result, 1); - result = FUNC(csqrt) (BUILD_COMPLEX (0, 2)); + result = FUNC(csqrt) (BUILD_COMPLEX(0, 2)); check ("real(csqrt(0 + i 2) = 1", __real__ result, 1); check ("imag(csqrt(0 + i 2) = 1", __imag__ result, 1); - result = FUNC(csqrt) (BUILD_COMPLEX (119, 120)); + result = FUNC(csqrt) (BUILD_COMPLEX(119, 120)); check ("real(csqrt(119 + i 120) = 12", __real__ result, 12); check ("imag(csqrt(119 + i 120) = 5", __imag__ result, 5); - result = FUNC(csqrt) (BUILD_COMPLEX (0.7, 1.2)); + result = FUNC(csqrt) (BUILD_COMPLEX(0.7, 1.2)); check_eps ("real(csqrt(0.7 + i 1.2)) == 1.02206...", __real__ result, 1.0220676100300264507L, CHOOSE(3e-17L, 3e-16, 2e-7)); check_eps ("imag(csqrt(0.7 + i 1.2)) == 0.58704...", __imag__ result, 0.5870453129635652115L, CHOOSE(7e-18L, 0, 6e-8)); - result = FUNC(csqrt) (BUILD_COMPLEX (-2, -3)); + result = FUNC(csqrt) (BUILD_COMPLEX(-2, -3)); check_eps ("real(csqrt(-2 - i 3)) == 0.89597...", __real__ result, 0.8959774761298381247L, CHOOSE(6e-16L, 4e-16, 6e-8)); check_eps ("imag(csqrt(-2 - i 3)) == -1.67414...", __imag__ result, -1.6741492280355400404L, CHOOSE(0, 5e-16, 0)); - result = FUNC(csqrt) (BUILD_COMPLEX (-2, 3)); + result = FUNC(csqrt) (BUILD_COMPLEX(-2, 3)); check_eps ("real(csqrt(-2 + i 3)) == 0.89597...", __real__ result, 0.8959774761298381247L, CHOOSE(6e-20L, 4e-16, 6e-8)); check_eps ("imag(csqrt(-2 + i 3)) == 1.67414...", __imag__ result, @@ -5176,26 +5112,26 @@ cpow_test (void) { __complex__ MATHTYPE result; - result = FUNC (cpow) (BUILD_COMPLEX (1, 0), BUILD_COMPLEX (0, 0)); + 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)); + result = FUNC(cpow) (BUILD_COMPLEX(2, 0), BUILD_COMPLEX(10, 0)); check_eps ("real(cpow (2 + i0), (10 + i0)) == 1024", __real__ result, 1024, - CHOOSE (6e-16L, 0, 0)); + CHOOSE(6e-16L, 0, 0)); check ("imag(cpow (2 + i0), (10 + i0)) == 0", __imag__ result, 0); - result = FUNC (cpow) (BUILD_COMPLEX (M_El, 0), BUILD_COMPLEX (0, 2 * M_PIl)); + result = FUNC(cpow) (BUILD_COMPLEX(M_El, 0), BUILD_COMPLEX(0, 2 * M_PIl)); check_eps ("real(cpow (e + i0), (0 + i 2*PI)) == 1", __real__ result, 1, - CHOOSE (0, 0, 6e-8)); + CHOOSE(0, 0, 6e-8)); check_eps ("imag(cpow (e + i0), (0 + i 2*PI)) == 0", __imag__ result, 0, - CHOOSE (3e-18L, 3e-16, 4e-7)); + CHOOSE(3e-18L, 3e-16, 4e-7)); - result = FUNC (cpow) (BUILD_COMPLEX (2, 3), BUILD_COMPLEX (4, 0)); + result = FUNC(cpow) (BUILD_COMPLEX(2, 3), BUILD_COMPLEX(4, 0)); check_eps ("real(cpow (2 + i3), (4 + i0)) == -119", __real__ result, -119, - CHOOSE (9e-16L, 2e-14, 4e-5)); + CHOOSE(9e-16L, 2e-14, 4e-5)); check_eps ("imag(cpow (2 + i3), (4 + i0)) == -120", __imag__ result, -120, - CHOOSE (1e-15L, 0, 5e-5)); + CHOOSE(1e-15L, 0, 5e-5)); } @@ -5206,9 +5142,9 @@ cabs_test (void) MATHTYPE a; a = random_greater (0); check_isinfp_ext ("cabs (+inf + i x) == +inf", - FUNC(cabs) (BUILD_COMPLEX (plus_infty, a)), a); + FUNC(cabs) (BUILD_COMPLEX(plus_infty, a)), a); check_isinfp_ext ("cabs (-inf + i x) == +inf", - FUNC(cabs) (BUILD_COMPLEX (minus_infty, a)), a); + FUNC(cabs) (BUILD_COMPLEX(minus_infty, a)), a); check_isinfp ("cabs (+inf+ iNaN) == +inf", FUNC(cabs) (BUILD_COMPLEX(minus_infty, nan_value))); @@ -5218,7 +5154,7 @@ cabs_test (void) check_isnan ("cabs (NaN+ iNaN) == NaN", FUNC(cabs) (BUILD_COMPLEX(nan_value, nan_value))); - a = FUNC(cabs) (BUILD_COMPLEX (12.4L, 0.7L)); + a = FUNC(cabs) (BUILD_COMPLEX(12.4L, 0.7L)); check ("cabs (x,y) == cabs (y,x)", FUNC(cabs) (BUILD_COMPLEX(0.7L, 12.4L)), a); check ("cabs (x,y) == cabs (-x,y)", @@ -5299,11 +5235,11 @@ carg_test (void) x = random_value (-1e4, 1e4); check ("carg(x + i inf) == pi/2 for finite x", - FUNC(carg) (BUILD_COMPLEX(x, plus_infty)), M_PI_2l); + FUNC(carg) (BUILD_COMPLEX(x, plus_infty)), M_PI_2l); x = random_value (-1e4, 1e4); check ("carg(x - i inf) == -pi/2 for finite x", - FUNC(carg) (BUILD_COMPLEX(x, minus_infty)), -M_PI_2l); + FUNC(carg) (BUILD_COMPLEX(x, minus_infty)), -M_PI_2l); x = random_greater (0); check ("carg (-inf + i y) == +pi for finite y > 0", @@ -5324,7 +5260,6 @@ carg_test (void) check ("carg (-inf -i inf) == -3*pi/4", FUNC(carg) (BUILD_COMPLEX(minus_infty, minus_infty)), -3 * M_PI_4l); - } @@ -5570,10 +5505,8 @@ fma_test (void) } -/* - Tests for the comparison macros - */ -typedef enum {is_less, is_equal, is_greater, is_unordered} comp_result; +/* Tests for the comparison macros */ +typedef enum { is_less, is_equal, is_greater, is_unordered } comp_result; static void @@ -5618,7 +5551,6 @@ comparison2_test (MATHTYPE x, MATHTYPE y, comp_result comp) expected); result = (isunordered (x, y) == expected); check_bool (buf, result); - } @@ -5684,40 +5616,43 @@ inverse_functions (void) { inverse_func_pair_test ("asin(sin(x)) == x", FUNC(sin), FUNC(asin), 1.0, - CHOOSE (2e-18L, 0, 3e-7L)); + 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)); + 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)); + 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, 2e-7)); + CHOOSE(2e-18L, 1e-15L, 2e-7)); inverse_func_pair_test ("asinh(sinh(x)) == x", - FUNC(sinh), FUNC(asinh), 1.0, CHOOSE (1e-18L, 0, 1e-7)); + 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, 2e-16L, 2e-7)); + CHOOSE(2e-18L, 2e-16L, 2e-7)); inverse_func_pair_test ("acosh(cosh(x)) == x", FUNC(cosh), FUNC(acosh), 1.0, - CHOOSE (1e-18L, 1e-15L, 6e-8)); + CHOOSE(1e-18L, 1e-15L, 6e-8)); 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)); + 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) @@ -5788,20 +5723,20 @@ identities3_test (MATHTYPE x, MATHTYPE epsilon) static void identities (void) { - identities1_test (0.2L, CHOOSE (1e-18L, 0, 2e-7)); - identities1_test (0.9L, CHOOSE (1e-18L, 2e-16, 2e-7)); + identities1_test (0.2L, CHOOSE(1e-18L, 0, 2e-7)); + identities1_test (0.9L, CHOOSE(1e-18L, 2e-16, 2e-7)); identities1_test (0, 0); - identities1_test (-1, CHOOSE (1e-18L, 0, 1e-7)); + identities1_test (-1, CHOOSE(1e-18L, 0, 1e-7)); - identities2_test (0.2L, CHOOSE (1e-19L, 1e-16, 0)); - identities2_test (0.9L, CHOOSE (3e-19L, 1e-15, 2e-7)); + identities2_test (0.2L, CHOOSE(1e-19L, 1e-16, 0)); + identities2_test (0.9L, CHOOSE(3e-19L, 1e-15, 2e-7)); identities2_test (0, 0); - identities2_test (-1, CHOOSE (1e-18L, 1e-15, 2e-7)); + 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)); + 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)); } @@ -5866,19 +5801,18 @@ basic_tests (void) /* test if EPSILON is ok */ x1 = MATHCONST (1.0); - x2 = x1 + CHOOSE (LDBL_EPSILON, DBL_EPSILON, FLT_EPSILON); + 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); + 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); + 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); + x1 = -CHOOSE(HUGE_VALL, HUGE_VAL, HUGE_VALF); check_bool ("isinf (-HUGE_VALx) == -1", ISINF (x1) == -1); - } @@ -5889,9 +5823,9 @@ initialize (void) 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); + 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; @@ -5928,7 +5862,7 @@ parse_options (int argc, char *argv[]) c = getopt_long (argc, argv, "v::s", long_options, &option_index); - /* Detect the end of the options. */ + /* Detect the end of the options. */ if (c == -1) break; @@ -6077,7 +6011,7 @@ main (int argc, char *argv[]) noTests, noExcTests); if (noErrors) { - printf (" %d errors occured.\n", noErrors); + printf (" %d errors occured.\n", noErrors); exit (1); } printf (" All tests passed successfully.\n"); diff --git a/nis/rpcsvc/nis.h b/nis/rpcsvc/nis.h index 151b4394bf..20fa114ecb 100644 --- a/nis/rpcsvc/nis.h +++ b/nis/rpcsvc/nis.h @@ -119,8 +119,8 @@ enum nstype { typedef enum nstype nstype; struct oar_mask { - u_int oa_rights; - zotypes oa_otype; + uint32_t oa_rights; + zotypes oa_otype; }; typedef struct oar_mask oar_mask; @@ -137,7 +137,7 @@ struct nis_server { u_int ep_len; endpoint *ep_val; } ep; - u_int key_type; + uint32_t key_type; netobj pkey; }; typedef struct nis_server nis_server; @@ -164,7 +164,7 @@ typedef struct directory_obj directory_obj; #define EN_ASN1 64 struct entry_col { - u_int ec_flags; + uint32_t ec_flags; struct { u_int ec_value_len; char *ec_value_val; @@ -182,7 +182,7 @@ struct entry_obj { typedef struct entry_obj entry_obj; struct group_obj { - u_int gr_flags; + uint32_t gr_flags; struct { u_int gr_members_len; nis_name *gr_members_val; @@ -210,8 +210,8 @@ typedef struct link_obj link_obj; struct table_col { char *tc_name; - u_int tc_flags; - u_int tc_rights; + uint32_t tc_flags; + uint32_t tc_rights; }; typedef struct table_col table_col; @@ -255,7 +255,7 @@ struct nis_object { nis_name zo_owner; nis_name zo_group; nis_name zo_domain; - u_int zo_access; + uint32_t zo_access; uint32_t zo_ttl; objdata zo_data; }; @@ -344,7 +344,7 @@ struct ib_request { u_int ibr_srch_len; nis_attr *ibr_srch_val; } ibr_srch; - u_int ibr_flags; + uint32_t ibr_flags; struct { u_int ibr_obj_len; nis_object *ibr_obj_val; @@ -408,7 +408,7 @@ struct cp_result { typedef struct cp_result cp_result; struct nis_tag { - u_int tag_type; + uint32_t tag_type; char *tag_val; }; typedef struct nis_tag nis_tag; diff --git a/nis/rpcsvc/nis.x b/nis/rpcsvc/nis.x index 93aa09f625..54ddb05ecb 100644 --- a/nis/rpcsvc/nis.x +++ b/nis/rpcsvc/nis.x @@ -37,9 +37,9 @@ % * structures used by the NIS service. It includes the file nis_tags.h % * which defines the tag values. This allows the tags to change without % * having to change the nis.x file. -% * +% * % * NOTE : DO NOT EDIT THIS FILE! It is automatically generated when -% * rpcgen is run on the nis.x file. Note that there is a +% * rpcgen is run on the nis.x file. Note that there is a % * simple sed script to remove some unneeded lines. (See the % * Makefile target nis.h) % * @@ -51,9 +51,6 @@ #if RPC_HDR %#include <rpc/xdr.h> #endif -#if RPC_SVC -%#include "nis_svc.h" -#endif /* Include the RPC Language description of NIS objects */ #include "nis_object.x" @@ -111,11 +108,11 @@ enum nis_error { }; -/* +/* * Structure definitions for the parameters and results of the actual * NIS RPC calls. * - * This is the standard result (in the protocol) of most of the nis + * This is the standard result (in the protocol) of most of the nis * requests. */ @@ -129,11 +126,11 @@ struct nis_result { uint32_t cticks; /* Client ticks */ }; -/* - * A Name Service request - * This request is used to access the name space, ns_name is the name +/* + * A Name Service request + * This request is used to access the name space, ns_name is the name * of the object within the namespace and the object is it's value, for - * add/modify, a copy of the original for remove. + * add/modify, a copy of the original for remove. */ struct ns_request { @@ -141,7 +138,7 @@ struct ns_request { nis_object ns_object<1>; /* Optional Object (add/remove) */ }; -/* +/* * An information base request * This request includes the NIS name of the table we wish to search, the * search criteria in the form of attribute/value pairs and an optional @@ -153,7 +150,7 @@ struct ns_request { struct ib_request { nis_name ibr_name; /* The name of the Table */ nis_attr ibr_srch<>; /* The search critereia */ - u_int ibr_flags; /* Optional flags */ + uint32_t ibr_flags; /* Optional flags */ nis_object ibr_obj<1>; /* optional object (add/modify) */ nis_server ibr_cbhost<1>; /* Optional callback info */ u_int ibr_bufsize; /* Optional first/next bufsize */ @@ -161,7 +158,7 @@ struct ib_request { }; /* - * This argument to the PING call notifies the replicas that something in + * This argument to the PING call notifies the replicas that something in * a directory has changed and this is it's timestamp. The replica will use * the timestamp to determine if its resync operation was successful. */ @@ -170,8 +167,8 @@ struct ping_args { uint32_t stamp; /* timestamp of the transaction */ }; -/* - * These are the type of entries that are stored in the transaction log, +/* + * These are the type of entries that are stored in the transaction log, * note that modifications will appear as two entries, for names, they have * a "OLD" entry followed by a "NEW" entry. For entries in tables, there * is a remove followed by an add. It is done this way so that we can read @@ -189,13 +186,13 @@ enum log_entry_t { MOD_IBASE = 7, /* Entry was modified in information base */ UPD_STAMP = 8 /* Update timestamp (used as fenceposts) */ }; - + /* - * This result is returned from the name service when it is requested to + * This result is returned from the name service when it is requested to * dump logged entries from its transaction log. Information base updates * will have the name of the information base in the le_name field and * a canonical set of attribute/value pairs to fully specify the entry's - * 'name'. + * 'name'. */ struct log_entry { uint32_t le_time; /* Time in seconds */ @@ -211,7 +208,7 @@ struct log_result { netobj lr_cookie; /* Used by the dump callback */ log_entry lr_entries<>; /* zero or more entries */ }; - + struct cp_result { nis_error cp_status; /* Status of the checkpoint */ uint32_t cp_zticks; /* Service 'ticks' */ @@ -220,17 +217,17 @@ struct cp_result { /* * This structure defines a generic NIS tag list. The taglist contains - * zero or tags, each of which is a type and a value. (u_int). + * zero or tags, each of which is a type and a value. (u_int). * These are used to report statistics (see tag definitions below) * and to set or reset state variables. */ struct nis_tag { - u_int tag_type; /* Statistic tag (may vary) */ - string tag_val<>; /* Statistic value may also vary */ + uint32_t tag_type; /* Statistic tag (may vary) */ + string tag_val<>; /* Statistic value may also vary */ }; struct nis_taglist { - nis_tag tags<>; /* List of tags */ + nis_tag tags<>; /* List of tags */ }; struct dump_args { @@ -247,7 +244,7 @@ struct fd_args { struct fd_result { nis_error status; /* Status returned by function */ nis_name source; /* Source of this answer */ - opaque dir_data<>; /* Directory Data (XDR'ed) */ + opaque dir_data<>; /* Directory Data (XDR'ed) */ opaque signature<>; /* Signature of the source */ }; @@ -258,14 +255,14 @@ struct nis_bound_endpoint { endpoint ep; int generation; int rank; - u_int flags; + uint32_t flags; int hostnum; int epnum; nis_name uaddr; endpoint cbep; }; typedef struct nis_bound_endpoint nis_bound_endpoint; - + struct nis_bound_directory { int generation; int min_rank; /* minimum rank of bound endpoints */ @@ -276,7 +273,7 @@ struct nis_bound_directory { typedef struct nis_bound_directory nis_bound_directory; %#define bep_len BEP.BEP_len %#define bep_val BEP.BEP_val - + struct nis_active_endpoint { endpoint ep; nis_name hostname; @@ -287,27 +284,11 @@ struct nis_active_endpoint { endpoint cbep; }; typedef struct nis_active_endpoint nis_active_endpoint; - + %/* defines for nis_bound_endpoint.flags */ %#define NIS_BOUND 0x1 %#define NIS_TRANSIENT_ERRORS 0x2 - - -/* - * What's going on here? Well, it's like this. When the service - * is being compiled it wants to have the service definition specific - * info included, and when the client is being compiled it wants that - * info. This includes the appropriate file which was generated by - * make in the protocols directory (probably /usr/include/rpcsvc). - */ -#ifdef RPC_SVC -%#include "nis_svc.h" -#endif -#ifdef RPC_CLNT -%#include "nis_clnt.h" -#endif - program NIS_PROG { /* RPC Language description of the NIS+ protocol */ @@ -331,10 +312,10 @@ program NIS_PROG { /* If fetch and optionally reset statistics */ nis_taglist NIS_STATUS(nis_taglist) = 14; - + /* Dump changes to directory since time in da_time */ log_result NIS_DUMPLOG(dump_args) = 15; - + /* Dump contents of directory named */ log_result NIS_DUMP(dump_args) = 16; @@ -349,16 +330,16 @@ program NIS_PROG { /* Send 'status changed' ping to replicates */ void NIS_PING(ping_args) = 20; - + /* Modify server behaviour (such as debugging) */ nis_taglist NIS_SERVSTATE(nis_taglist) = 21; - + /* Create a Directory */ nis_error NIS_MKDIR(nis_name) = 22; - + /* Remove a Directory */ nis_error NIS_RMDIR(nis_name) = 23; - + /* Update public keys of a directory object */ nis_error NIS_UPDKEYS(nis_name) = 24; } = 3; @@ -411,8 +392,8 @@ program NIS_PROG { %#define NIS_GROUP(a, m) (((a) & ((m) << 8)) != 0) %#define NIS_OWNER(a, m) (((a) & ((m) << 16)) != 0) %#define NIS_NOBODY(a, m) (((a) & ((m) << 24)) != 0) -%/* -% * EOL Alert - The following non-prefixed test macros are +%/* +% * EOL Alert - The following non-prefixed test macros are % * here for backward compatability, and will be not be present % * in future releases - use the NIS_*() macros above. % */ @@ -475,12 +456,12 @@ program NIS_PROG { % %/* % * nis_3.h -% * +% * % * This file contains definitions that are only of interest to the actual % * service daemon and client stubs. Normal users of NIS will not include % * this file. % * -% * NOTE : This include file is automatically created by a combination +% * NOTE : This include file is automatically created by a combination % * of rpcgen and sed. DO NOT EDIT IT, change the nis.x file instead % * and then remake this file. % */ diff --git a/nis/rpcsvc/nis_object.x b/nis/rpcsvc/nis_object.x index ecd9f48a77..43e7688bcc 100644 --- a/nis/rpcsvc/nis_object.x +++ b/nis/rpcsvc/nis_object.x @@ -13,12 +13,12 @@ %#define __nis_object_h % #endif -/* +/* * This file defines the format for a NIS object in RPC language. * It is included by the main .x file and the database access protocol * file. It is common because both of them need to deal with the same * type of object. Generating the actual code though is a bit messy because - * the nis.x file and the nis_dba.x file will generate xdr routines to + * the nis.x file and the nis_dba.x file will generate xdr routines to * encode/decode objects when only one set is needed. Such is life when * one is using rpcgen. * @@ -50,7 +50,7 @@ const NIS_PK_DHEXT = 4; /* Extended Diffie-Hellman for RPC-GSS */ /* * The fundamental name type of NIS. The name may consist of two parts, - * the first being the fully qualified name, and the second being an + * the first being the fully qualified name, and the second being an * optional set of attribute/value pairs. */ struct nis_attr { @@ -73,7 +73,7 @@ typedef string nis_name<>; /* The NIS name itself. */ */ enum zotypes { - + BOGUS_OBJ = 0, /* Uninitialized object structure */ NO_OBJ = 1, /* NULL object (no data) */ DIRECTORY_OBJ = 2, /* Directory object describing domain */ @@ -82,7 +82,7 @@ enum zotypes { ENTRY_OBJ = 5, /* Entry object (a database record) */ LINK_OBJ = 6, /* A name link. */ PRIVATE_OBJ = 7, /* Private object (all opaque data) */ - + NIS_BOGUS_OBJ = 0, /* Uninitialized object structure */ NIS_NO_OBJ = 1, /* NULL object (no data) */ NIS_DIRECTORY_OBJ = 2, /* Directory object describing domain */ @@ -114,18 +114,18 @@ enum nstype { * DIRECTORY - The name service object. These objects identify other name * servers that are serving some portion of the name space. Each has a * type associated with it. The resolver library will note whether or not - * is has the needed routines to access that type of service. - * The oarmask structure defines an access rights mask on a per object - * type basis for the name spaces. The only bits currently used are + * is has the needed routines to access that type of service. + * The oarmask structure defines an access rights mask on a per object + * type basis for the name spaces. The only bits currently used are * create and destroy. By enabling or disabling these access rights for * a specific object type for a one of the accessor entities (owner, - * group, world) the administrator can control what types of objects - * may be freely added to the name space and which require the + * group, world) the administrator can control what types of objects + * may be freely added to the name space and which require the * administrator's approval. */ struct oar_mask { - u_int oa_rights; /* Access rights mask */ - zotypes oa_otype; /* Object type */ + uint32_t oa_rights; /* Access rights mask */ + zotypes oa_otype; /* Object type */ }; struct endpoint { @@ -142,7 +142,7 @@ struct endpoint { struct nis_server { nis_name name; /* Principal name of the server */ endpoint ep<>; /* Universal addr(s) for server */ - u_int key_type; /* Public key type */ + uint32_t key_type; /* Public key type */ netobj pkey; /* server's public key */ }; @@ -154,11 +154,11 @@ struct directory_obj { oar_mask do_armask<>; /* Create/Destroy rights by object type */ }; -/* - * ENTRY - This is one row of data from an information base. - * The type value is used by the client library to convert the entry to +/* + * ENTRY - This is one row of data from an information base. + * The type value is used by the client library to convert the entry to * it's internal structure representation. The Table name is a back pointer - * to the table where the entry is stored. This allows the client library + * to the table where the entry is stored. This allows the client library * to determine where to send a request if the client wishes to change this * entry but got to it through a LINK rather than directly. * If the entry is a "standalone" entry then this field is void. @@ -170,8 +170,8 @@ const EN_MODIFIED = 8; /* Indicates entry is modified. */ const EN_ASN1 = 64; /* Means contents use ASN.1 encoding */ struct entry_col { - u_int ec_flags; /* Flags for this value */ - opaque ec_value<>; /* It's textual value */ + uint32_t ec_flags; /* Flags for this value */ + opaque ec_value<>; /* It's textual value */ }; struct entry_obj { @@ -182,11 +182,11 @@ struct entry_obj { /* * GROUP - The group object contains a list of NIS principal names. Groups * are used to authorize principals. Each object has a set of access rights - * for members of its group. Principal names in groups are in the form + * for members of its group. Principal names in groups are in the form * name.directory and recursive groups are expressed as @groupname.directory */ struct group_obj { - u_int gr_flags; /* Flags controlling group */ + uint32_t gr_flags; /* Flags controlling group */ nis_name gr_members<>; /* List of names in group */ }; @@ -204,8 +204,8 @@ struct link_obj { }; /* - * TABLE - This is the table object. It implements a simple - * data base that applications and use for configuration or + * TABLE - This is the table object. It implements a simple + * data base that applications and use for configuration or * administration purposes. The role of the table is to group together * a set of related entries. Tables are the simple database component * of NIS. Like many databases, tables are logically divided into columns @@ -216,7 +216,7 @@ struct link_obj { * Within the definition of each column there is a flags variable, this * variable contains flags which determine whether or not the column is * searchable, contains binary data, and access rights for the entry objects - * column value. + * column value. */ const TA_BINARY = 1; /* Means table data is binary */ @@ -228,9 +228,9 @@ const TA_MODIFIED = 32; /* Means this columns attrs are modified*/ const TA_ASN1 = 64; /* Means contents use ASN.1 encoding */ struct table_col { - string tc_name<64>; /* Column Name */ - u_int tc_flags; /* control flags */ - u_int tc_rights; /* Access rights mask */ + string tc_name<64>; /* Column Name */ + uint32_t tc_flags; /* control flags */ + uint32_t tc_rights; /* Access rights mask */ }; struct table_obj { @@ -242,7 +242,7 @@ struct table_obj { }; /* - * This union joins together all of the currently known objects. + * This union joins together all of the currently known objects. */ union objdata switch (zotypes zo_type) { case NIS_DIRECTORY_OBJ : @@ -269,16 +269,16 @@ union objdata switch (zotypes zo_type) { * This is the basic NIS object data type. It consists of a generic part * which all objects contain, and a specialized part which varies depending * on the type of the object. All of the specialized sections have been - * described above. You might have wondered why they all start with an - * integer size, followed by the useful data. The answer is, when the - * server doesn't recognize the type returned it treats it as opaque data. + * described above. You might have wondered why they all start with an + * integer size, followed by the useful data. The answer is, when the + * server doesn't recognize the type returned it treats it as opaque data. * And the definition for opaque data is {int size; char *data;}. In this * way, servers and utility routines that do not understand a given type * may still pass it around. One has to be careful in setting * this variable accurately, it must take into account such things as * XDR padding of structures etc. The best way to set it is to note one's * position in the XDR encoding stream, encode the structure, look at the - * new position and calculate the size. + * new position and calculate the size. */ struct nis_oid { uint32_t ctime; /* Time of objects creation */ @@ -286,12 +286,12 @@ struct nis_oid { }; struct nis_object { - nis_oid zo_oid; /* object identity verifier. */ + nis_oid zo_oid; /* object identity verifier. */ nis_name zo_name; /* The NIS name for this object */ nis_name zo_owner; /* NIS name of object owner. */ nis_name zo_group; /* NIS name of access group. */ nis_name zo_domain; /* The administrator for the object */ - u_int zo_access; /* Access rights (owner, group, world) */ + uint32_t zo_access; /* Access rights (owner, group, world) */ uint32_t zo_ttl; /* Object's time to live in seconds. */ objdata zo_data; /* Data structure for this type */ }; diff --git a/string/envz.h b/string/envz.h index dc6f55725d..adb8c0af40 100644 --- a/string/envz.h +++ b/string/envz.h @@ -1,5 +1,5 @@ /* Routines for dealing with '\0' separated environment vectors - Copyright (C) 1995, 1996 Free Software Foundation, Inc. + Copyright (C) 1995, 1996, 1998 Free Software Foundation, Inc. Written by Miles Bader <miles@gnu.ai.mit.edu> The GNU C Library is free software; you can redistribute it and/or @@ -55,6 +55,10 @@ extern error_t envz_merge __P ((char **__envz, size_t *__envz_len, __const char *__envz2, size_t __envz2_len, int __override)); +/* Remove the entry for NAME from ENVZ & ENVZ_LEN, if any. */ +extern void envz_remove __P ((char **__envz, size_t *__envz_len, + __const char *__name)); + /* Remove null entries. */ extern void envz_strip __P ((char **__envz, size_t *__envz_len)); diff --git a/sunrpc/auth_des.c b/sunrpc/auth_des.c index cd68c22ee9..d8659a9b6c 100644 --- a/sunrpc/auth_des.c +++ b/sunrpc/auth_des.c @@ -70,8 +70,7 @@ static void authdes_destroy (AUTH *); static bool_t synchronize (struct sockaddr *, struct timeval *) internal_function; -static struct auth_ops authdes_ops = -{ +static struct auth_ops authdes_ops = { authdes_nextverf, authdes_marshal, authdes_validate, @@ -83,23 +82,22 @@ static struct auth_ops authdes_ops = /* * This struct is pointed to by the ah_private field of an "AUTH *" */ -struct ad_private - { - char *ad_fullname; /* client's full name */ - u_int ad_fullnamelen; /* length of name, rounded up */ - char *ad_servername; /* server's full name */ - u_int ad_servernamelen; /* length of name, rounded up */ - u_int ad_window; /* client specified window */ - bool_t ad_dosync; /* synchronize? */ - struct sockaddr ad_syncaddr; /* remote host to synch with */ - struct timeval ad_timediff; /* server's time - client's time */ - u_long ad_nickname; /* server's nickname for client */ - struct authdes_cred ad_cred; /* storage for credential */ - struct authdes_verf ad_verf; /* storage for verifier */ - struct timeval ad_timestamp; /* timestamp sent */ - des_block ad_xkey; /* encrypted conversation key */ - u_char ad_pkey[1024]; /* Servers actual public key */ - }; +struct ad_private { + char *ad_fullname; /* client's full name */ + u_int ad_fullnamelen; /* length of name, rounded up */ + char *ad_servername; /* server's full name */ + u_int ad_servernamelen; /* length of name, rounded up */ + uint32_t ad_window; /* client specified window */ + bool_t ad_dosync; /* synchronize? */ + struct sockaddr ad_syncaddr; /* remote host to synch with */ + struct timeval ad_timediff; /* server's time - client's time */ + u_long ad_nickname; /* server's nickname for client */ + struct authdes_cred ad_cred; /* storage for credential */ + struct authdes_verf ad_verf; /* storage for verifier */ + struct timeval ad_timestamp; /* timestamp sent */ + des_block ad_xkey; /* encrypted conversation key */ + u_char ad_pkey[1024]; /* Servers actual public key */ +}; /* @@ -236,7 +234,7 @@ authdes_marshal (AUTH * auth, XDR * xdrs) des_block cryptbuf[2]; des_block ivec; int status; - int len; + unsigned int len; register long *ixdr; /* @@ -255,14 +253,15 @@ authdes_marshal (AUTH * auth, XDR * xdrs) /* * XDR the timestamp and possibly some other things, then * encrypt them. + * XXX We have a real Year 2038 problem here. */ ixdr = (long *) cryptbuf; IXDR_PUT_LONG (ixdr, ad->ad_timestamp.tv_sec); IXDR_PUT_LONG (ixdr, ad->ad_timestamp.tv_usec); if (ad->ad_cred.adc_namekind == ADN_FULLNAME) { - IXDR_PUT_U_LONG (ixdr, ad->ad_window); - IXDR_PUT_U_LONG (ixdr, ad->ad_window - 1); + IXDR_PUT_U_INT32 (ixdr, ad->ad_window); + IXDR_PUT_U_INT32 (ixdr, ad->ad_window - 1); ivec.key.high = ivec.key.low = 0; status = cbc_crypt ((char *) &auth->ah_key, (char *) cryptbuf, 2 * sizeof (des_block), DES_ENCRYPT | DES_HW, (char *) &ivec); @@ -304,29 +303,29 @@ authdes_marshal (AUTH * auth, XDR * xdrs) if ((ixdr = xdr_inline (xdrs, 2 * BYTES_PER_XDR_UNIT)) != NULL) { - IXDR_PUT_LONG (ixdr, AUTH_DES); - IXDR_PUT_LONG (ixdr, len); + IXDR_PUT_INT32 (ixdr, AUTH_DES); + IXDR_PUT_U_INT32 (ixdr, len); } else { - ATTEMPT (xdr_putlong (xdrs, (long *)&auth->ah_cred.oa_flavor)); - ATTEMPT (xdr_putlong (xdrs, (long *)&len)); + ATTEMPT (xdr_putint32 (xdrs, &auth->ah_cred.oa_flavor)); + ATTEMPT (xdr_putint32 (xdrs, &len)); } ATTEMPT (xdr_authdes_cred (xdrs, cred)); len = (2 + 1) * BYTES_PER_XDR_UNIT; if ((ixdr = xdr_inline (xdrs, 2 * BYTES_PER_XDR_UNIT)) != NULL) { - IXDR_PUT_LONG (ixdr, AUTH_DES); - IXDR_PUT_LONG (ixdr, len); + IXDR_PUT_INT32 (ixdr, AUTH_DES); + IXDR_PUT_U_INT32 (ixdr, len); } else { - ATTEMPT (xdr_putlong (xdrs, (long *)&auth->ah_verf.oa_flavor)); - ATTEMPT (xdr_putlong (xdrs, (long *)&len)); + ATTEMPT (xdr_putint32 (xdrs, &auth->ah_verf.oa_flavor)); + ATTEMPT (xdr_putint32 (xdrs, &len)); } ATTEMPT (xdr_authdes_verf (xdrs, verf)); - return (TRUE); + return TRUE; } @@ -334,7 +333,7 @@ authdes_marshal (AUTH * auth, XDR * xdrs) * 3. Validate */ static bool_t -authdes_validate (AUTH * auth, struct opaque_auth *rverf) +authdes_validate (AUTH *auth, struct opaque_auth *rverf) { struct ad_private *ad = AUTH_PRIVATE (auth); struct authdes_verf verf; @@ -358,7 +357,7 @@ authdes_validate (AUTH * auth, struct opaque_auth *rverf) if (DES_FAILED (status)) { debug ("authdes_validate: DES decryption failure"); - return (FALSE); + return FALSE; } /* @@ -375,7 +374,7 @@ authdes_validate (AUTH * auth, struct opaque_auth *rverf) sizeof (struct timeval)) != 0) { debug ("authdes_validate: verifier mismatch\n"); - return (FALSE); + return FALSE; } /* @@ -383,14 +382,14 @@ authdes_validate (AUTH * auth, struct opaque_auth *rverf) */ ad->ad_nickname = verf.adv_nickname; ad->ad_cred.adc_namekind = ADN_NICKNAME; - return (TRUE); + return TRUE; } /* * 4. Refresh */ static bool_t -authdes_refresh (AUTH * auth) +authdes_refresh (AUTH *auth) { netobj pkey; struct ad_private *ad = AUTH_PRIVATE (auth); @@ -411,19 +410,19 @@ authdes_refresh (AUTH * auth) if (key_encryptsession_pk (ad->ad_servername, &pkey, &ad->ad_xkey) < 0) { debug ("authdes_create: unable to encrypt conversation key"); - return (FALSE); + return FALSE; } cred->adc_fullname.key = ad->ad_xkey; cred->adc_namekind = ADN_FULLNAME; cred->adc_fullname.name = ad->ad_fullname; - return (TRUE); + return TRUE; } /* * 5. Destroy */ static void -authdes_destroy (AUTH * auth) +authdes_destroy (AUTH *auth) { struct ad_private *ad = AUTH_PRIVATE (auth); @@ -447,7 +446,7 @@ synchronize (struct sockaddr *syncaddr, struct timeval *timep) timeout.tv_sec = RTIME_TIMEOUT; timeout.tv_usec = 0; if (rtime ((struct sockaddr_in *) syncaddr, timep, &timeout) < 0) - return (FALSE); + return FALSE; __gettimeofday (&mytime, (struct timezone *) NULL); timep->tv_sec -= mytime.tv_sec; @@ -457,5 +456,5 @@ synchronize (struct sockaddr *syncaddr, struct timeval *timep) timep->tv_usec += MILLION; } timep->tv_usec -= mytime.tv_usec; - return (TRUE); + return TRUE; } diff --git a/sunrpc/rpc/xdr.h b/sunrpc/rpc/xdr.h index dd9959aa5e..cd28717221 100644 --- a/sunrpc/rpc/xdr.h +++ b/sunrpc/rpc/xdr.h @@ -154,6 +154,7 @@ struct XDR */ typedef bool_t (*xdrproc_t) __PMT ((XDR *, void *,...)); + /* * Operations defined on a XDR handle * @@ -247,20 +248,28 @@ struct xdr_discrim * N.B. and frozen for all time: each data type here uses 4 bytes * of external representation. */ -#define IXDR_GET_LONG(buf) ((long)ntohl((u_long)*((u_int32_t*)buf)++)) -#define IXDR_PUT_LONG(buf, v) (*((u_int32_t*)(buf))++ = (long)htonl((u_long)v)) - -#define IXDR_GET_BOOL(buf) ((bool_t)IXDR_GET_LONG(buf)) -#define IXDR_GET_ENUM(buf, t) ((t)IXDR_GET_LONG(buf)) -#define IXDR_GET_U_LONG(buf) ((u_long)IXDR_GET_LONG(buf)) -#define IXDR_GET_SHORT(buf) ((short)IXDR_GET_LONG(buf)) -#define IXDR_GET_U_SHORT(buf) ((u_short)IXDR_GET_LONG(buf)) - -#define IXDR_PUT_BOOL(buf, v) IXDR_PUT_LONG((buf), ((long)(v))) -#define IXDR_PUT_ENUM(buf, v) IXDR_PUT_LONG((buf), ((long)(v))) -#define IXDR_PUT_U_LONG(buf, v) IXDR_PUT_LONG((buf), ((long)(v))) -#define IXDR_PUT_SHORT(buf, v) IXDR_PUT_LONG((buf), ((long)(v))) -#define IXDR_PUT_U_SHORT(buf, v) IXDR_PUT_LONG((buf), ((long)(v))) + +#define IXDR_GET_INT32(buf) ((int32_t)ntohl((uint32_t)*(buf)++)) +#define IXDR_PUT_INT32(buf, v) (*(buf)++ = (int32_t)htonl((uint32_t)v)) +#define IXDR_GET_U_INT32(buf) ((uint32_t)IXDR_GET_INT32(buf)) +#define IXDR_PUT_U_INT32(buf, v) IXDR_PUT_INT32((buf), ((int32_t)(v))) + +#define IXDR_GET_BOOL(buf) ((bool_t)IXDR_GET_INT32(buf)) +#define IXDR_GET_ENUM(buf, t) ((t)IXDR_GET_INT32(buf)) +#define IXDR_GET_SHORT(buf) ((short)IXDR_GET_INT32(buf)) +#define IXDR_GET_U_SHORT(buf) ((u_short)IXDR_GET_INT32(buf)) + +#define IXDR_PUT_BOOL(buf, v) IXDR_PUT_INT32((buf), ((int)(v))) +#define IXDR_PUT_ENUM(buf, v) IXDR_PUT_INT32((buf), ((int)(v))) +#define IXDR_PUT_SHORT(buf, v) IXDR_PUT_INT32((buf), ((int)(v))) +#define IXDR_PUT_U_SHORT(buf, v) IXDR_PUT_INT32((buf), ((int)(v))) + +/* This defines are removed from Sun for new platforms and shouldn't + be used any longer. */ +#define IXDR_GET_LONG(buf) ((long)ntohl((u_long)*((u_int32_t*)buf)++)) +#define IXDR_PUT_LONG(buf, v) (*((u_int32_t*)(buf))++ = (long)htonl((u_long)v)) +#define IXDR_GET_U_LONG(buf) ((u_long)IXDR_GET_LONG(buf)) +#define IXDR_PUT_U_LONG(buf, v) IXDR_PUT_LONG((buf), ((long)(v))) /* * These are the "generic" xdr routines. diff --git a/sunrpc/rpc_hout.c b/sunrpc/rpc_hout.c index 4c49d10bbe..a41a7e7c91 100644 --- a/sunrpc/rpc_hout.c +++ b/sunrpc/rpc_hout.c @@ -48,7 +48,6 @@ static void pargdef (definition * def); static void pstructdef (definition * def); static void puniondef (definition * def); static void pdefine (const char *name, const char *num); -static void puldefine (const char *name, const char *num); static int define_printed (proc_list * stop, version_list * start); static void pprogramdef (definition * def); static void parglist (proc_list * proc, const char *addargtype); @@ -251,12 +250,6 @@ pdefine (const char *name, const char *num) f_print (fout, "#define %s %s\n", name, num); } -static void -puldefine (const char *name, const char *num) -{ - f_print (fout, "#define %s ((u_long)%s)\n", name, num); -} - static int define_printed (proc_list *stop, version_list *start) { @@ -302,7 +295,7 @@ pprogramdef (definition *def) pargdef (def); - puldefine (def->def_name, def->def.pr.prog_num); + pdefine (def->def_name, def->def.pr.prog_num); for (vers = def->def.pr.versions; vers != NULL; vers = vers->next) { if (tblflag) @@ -312,7 +305,7 @@ pprogramdef (definition *def) f_print (fout, "extern %s_%s_nproc;\n", locase (def->def_name), vers->vers_num); } - puldefine (vers->vers_name, vers->vers_num); + pdefine (vers->vers_name, vers->vers_num); /* * Print out 2 definitions, one for ANSI-C, another for @@ -327,7 +320,7 @@ pprogramdef (definition *def) { if (!define_printed(proc, def->def.pr.versions)) { - puldefine (proc->proc_name, proc->proc_num); + pdefine (proc->proc_name, proc->proc_num); } f_print (fout, "%s", ext); pprocdef (proc, vers, NULL, 0, 2); @@ -359,7 +352,7 @@ pprogramdef (definition *def) { if (!define_printed(proc, def->def.pr.versions)) { - puldefine(proc->proc_name, proc->proc_num); + pdefine(proc->proc_name, proc->proc_num); } f_print (fout, "%s", ext); pprocdef (proc, vers, "CLIENT *", 0, i); diff --git a/sunrpc/rpc_main.c b/sunrpc/rpc_main.c index 6cdef73d79..8302f810c4 100644 --- a/sunrpc/rpc_main.c +++ b/sunrpc/rpc_main.c @@ -968,7 +968,6 @@ mkfile_output (struct commandline *cmd) char *mkfilename; const char *clientname, *clntname, *xdrname, *hdrname; const char *servername, *svcname, *servprogname, *clntprogname; - char *temp; svcname = file_name (cmd->infile, "_svc.c"); clntname = file_name (cmd->infile, "_clnt.c"); @@ -990,12 +989,12 @@ mkfile_output (struct commandline *cmd) if (allfiles) { - mkfilename = alloc (strlen ("Makefile.") + - strlen (cmd->infile) + 1); - temp = (char *) rindex (cmd->infile, '.'); - strcat (mkfilename, "Makefile."); - strncat (mkfilename, cmd->infile, - (temp - cmd->infile)); + char *cp, *temp; + + mkfilename = alloc (strlen ("Makefile.") + strlen (cmd->infile) + 1); + temp = rindex (cmd->infile, '.'); + cp = stpcpy (mkfilename, "Makefile."); + strncpy (cp, cmd->infile, (temp - cmd->infile)); } else mkfilename = (char *) cmd->outfile; diff --git a/sunrpc/rpc_svcout.c b/sunrpc/rpc_svcout.c index 2869d3d844..aad9412884 100644 --- a/sunrpc/rpc_svcout.c +++ b/sunrpc/rpc_svcout.c @@ -72,10 +72,10 @@ static void p_xdrfunc (const char *rname, const char *typename) { if (Cflag) - f_print (fout, "\t\txdr_%s = (xdrproc_t) xdr_%s;\n", rname, + f_print (fout, "\t\t_xdr_%s = (xdrproc_t) xdr_%s;\n", rname, stringfix (typename)); else - f_print (fout, "\t\txdr_%s = xdr_%s;\n", rname, stringfix (typename)); + f_print (fout, "\t\t_xdr_%s = xdr_%s;\n", rname, stringfix (typename)); } void @@ -503,7 +503,7 @@ write_program (const definition * def, const char *storage) if (Cflag) { - f_print (fout, "\txdrproc_t xdr_%s, xdr_%s;\n", ARG, RESULT); + f_print (fout, "\txdrproc_t _xdr_%s, _xdr_%s;\n", ARG, RESULT); if (mtflag) f_print(fout, "\tbool_t (*%s)(char *, void *, struct svc_req *);\n", @@ -619,11 +619,11 @@ write_program (const definition * def, const char *storage) RETVAL, ROUTINE, ARG, RESULT, RQSTP); if (mtflag) f_print(fout, - "\tif (%s > 0 && !svc_sendreply(%s, xdr_%s, (char *)&%s)) {\n", + "\tif (%s > 0 && !svc_sendreply(%s, _xdr_%s, (char *)&%s)) {\n", RETVAL, TRANSP, RESULT, RESULT); else f_print(fout, - "\tif (%s != NULL && !svc_sendreply(%s, xdr_%s, %s)) {\n", + "\tif (%s != NULL && !svc_sendreply(%s, _xdr_%s, %s)) {\n", RESULT, TRANSP, RESULT, RESULT); printerr ("systemerr", TRANSP); @@ -643,7 +643,7 @@ write_program (const definition * def, const char *storage) { f_print(fout,"\tif (!"); pvname(def->def_name, vp->vers_num); - f_print(fout,"_freeresult (%s, xdr_%s, (caddr_t) &%s))\n", + f_print(fout,"_freeresult (%s, _xdr_%s, (caddr_t) &%s))\n", TRANSP, RESULT, RESULT); (void) sprintf(_errbuf, "unable to free results"); print_err_message("\t\t"); @@ -664,7 +664,7 @@ static void printif (const char *proc, const char *transp, const char *prefix, const char *arg) { - f_print (fout, "\tif (!svc_%s (%s, xdr_%s, %s%s)) {\n", + f_print (fout, "\tif (!svc_%s (%s, _xdr_%s, %s%s)) {\n", proc, transp, arg, prefix, arg); } diff --git a/sysdeps/unix/sysv/linux/alpha/setfpucw.c b/sysdeps/unix/sysv/linux/alpha/setfpucw.c index 9133c81110..5e74c35d88 100644 --- a/sysdeps/unix/sysv/linux/alpha/setfpucw.c +++ b/sysdeps/unix/sysv/linux/alpha/setfpucw.c @@ -1,5 +1,5 @@ /* Set FP exception mask and rounding mode. - Copyright (C) 1996, 1997 Free Software Foundation, Inc. + Copyright (C) 1996, 1997, 1998 Free Software Foundation, Inc. This file is part of the GNU C Library. The GNU C Library is free software; you can redistribute it and/or @@ -41,7 +41,7 @@ wrfpcr (unsigned long fpcr) void -__setfpucw (unsigned short fpu_control) +__setfpucw (fpu_control_t fpu_control) { unsigned long fpcr = 0, fpcw = 0; |