glibc/math/test-tgmath2.c
Maciej W. Rozycki cf71d2189c support: Add FAIL test failure helper
Add a FAIL test failure helper analogous to FAIL_RET, that does not
cause the current function to return, providing a standardized way to
report a test failure with a message supplied while permitting the
caller to continue executing, for further reporting, cleaning up, etc.

Update existing test cases that provide a conflicting definition of FAIL
by removing the local FAIL definition and then as follows:

- tst-fortify-syslog: provide a meaningful message in addition to the
  file name already added by <support/check.h>; 'support_record_failure'
  is already called by 'support_print_failure_impl' invoked by the new
  FAIL test failure helper.

- tst-ctype: no update to FAIL calls required, with the name of the file
  and the line number within of the failure site additionally included
  by the new FAIL test failure helper, and error counting plus count
  reporting upon test program termination also already provided by
  'support_record_failure' and 'support_report_failure' respectively,
  called by 'support_print_failure_impl' and 'adjust_exit_status' also
  respectively.  However in a number of places 'printf' is called and
  the error count adjusted by hand, so update these places to make use
  of FAIL instead.  And last but not least adjust the final summary just
  to report completion, with any error count following as reported by
  the test driver.

- test-tgmath2: no update to FAIL calls required, with the name of the
  file of the failure site additionally included by the new FAIL test
  failure helper.  Also there is no need to track the return status by
  hand as any call to FAIL will eventually cause the test case to return
  an unsuccesful exit status regardless of the return status from the
  test function, via a call to 'adjust_exit_status' made by the test
  driver.

Reviewed-by: DJ Delorie <dj@redhat.com>
(cherry picked from commit 1b97a9f23b)
(cherry picked from commit 28f358bc42)
2024-08-29 20:34:19 -04:00

595 lines
15 KiB
C

/* Test compilation of tgmath macros.
Copyright (C) 2007-2022 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
modify it under the terms of the GNU Lesser General Public
License as published by the Free Software Foundation; either
version 2.1 of the License, or (at your option) any later version.
The GNU C Library is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
Lesser General Public License for more details.
You should have received a copy of the GNU Lesser General Public
License along with the GNU C Library; if not, see
<https://www.gnu.org/licenses/>. */
#ifndef HAVE_MAIN
#include <float.h>
#include <math.h>
#include <complex.h>
#include <stdio.h>
#include <string.h>
#include <tgmath.h>
#include <support/check.h>
//#define DEBUG
typedef complex float cfloat;
typedef complex double cdouble;
#if LDBL_MANT_DIG > DBL_MANT_DIG
typedef long double ldouble;
typedef complex long double cldouble;
#else
typedef double ldouble;
typedef complex double cldouble;
#endif
float vfloat1, vfloat2, vfloat3;
double vdouble1, vdouble2, vdouble3;
ldouble vldouble1, vldouble2, vldouble3;
cfloat vcfloat1, vcfloat2, vcfloat3;
cdouble vcdouble1, vcdouble2, vcdouble3;
cldouble vcldouble1, vcldouble2, vcldouble4;
int vint1, vint2, vint3;
long int vlong1, vlong2, vlong3;
long long int vllong1, vllong2, vllong3;
const float Vfloat1 = 1, Vfloat2 = 2, Vfloat3 = 3;
const double Vdouble1 = 1, Vdouble2 = 2, Vdouble3 = 3;
const ldouble Vldouble1 = 1, Vldouble2 = 2, Vldouble3 = 3;
const cfloat Vcfloat1 = 1, Vcfloat2 = 2, Vcfloat3 = 3;
const cdouble Vcdouble1 = 1, Vcdouble2 = 2, Vcdouble3 = 3;
const cldouble Vcldouble1 = 1, Vcldouble2 = 2, Vcldouble4 = 3;
const int Vint1 = 1, Vint2 = 2, Vint3 = 3;
const long int Vlong1 = 1, Vlong2 = 2, Vlong3 = 3;
const long long int Vllong1 = 1, Vllong2 = 2, Vllong3 = 3;
enum
{
Tfloat = 0,
Tcfloat,
Tdouble,
Tcdouble,
#if LDBL_MANT_DIG > DBL_MANT_DIG
Tldouble,
Tcldouble,
#else
Tldouble = Tdouble,
Tcldouble = Tcdouble,
#endif
Tlast
};
enum
{
C_cos = 0,
C_fabs,
C_cabs,
C_conj,
C_expm1,
C_lrint,
C_ldexp,
C_atan2,
C_remquo,
C_pow,
C_fma,
C_last
};
int count;
int counts[Tlast][C_last];
#define TEST_TYPE_ONLY(expr, rettype) \
do \
{ \
__typeof__ (expr) texpr = 0; \
__typeof__ (rettype) ttype = 0, *ptype; \
if (sizeof (expr) != sizeof (rettype)) \
FAIL ("type"); \
if (__alignof__ (expr) != __alignof__ (rettype)) \
FAIL ("type"); \
__asm ("" : "=r" (ptype) : "0" (&ttype), "r" (&texpr)); \
if (&texpr == ptype) \
FAIL ("type"); \
} \
while (0)
#define TEST2(expr, type, rettype, fn) \
do \
{ \
__typeof__ (expr) texpr = 0; \
TEST_TYPE_ONLY (expr, rettype); \
if (count != 0) \
FAIL ("internal error"); \
if (counts[T##type][C_##fn] != 0) \
FAIL ("internal error"); \
texpr = expr; \
__asm __volatile ("" : : "r" (&texpr)); \
if (count != 1 || counts[T##type][C_##fn] != 1) \
{ \
FAIL ("wrong function called, "#fn" ("#type")"); \
memset (counts, 0, sizeof (counts)); \
} \
count = 0; \
counts[T##type][C_##fn] = 0; \
} \
while (0)
#define TEST(expr, type, fn) TEST2(expr, type, type, fn)
int
test_cos (const int Vint4, const long long int Vllong4)
{
TEST (cos (vfloat1), float, cos);
TEST (cos (vdouble1), double, cos);
TEST (cos (vldouble1), ldouble, cos);
TEST (cos (vint1), double, cos);
TEST (cos (vllong1), double, cos);
TEST (cos (vcfloat1), cfloat, cos);
TEST (cos (vcdouble1), cdouble, cos);
TEST (cos (vcldouble1), cldouble, cos);
TEST (cos (Vfloat1), float, cos);
TEST (cos (Vdouble1), double, cos);
TEST (cos (Vldouble1), ldouble, cos);
TEST (cos (Vint1), double, cos);
TEST (cos (Vllong1), double, cos);
TEST (cos (Vcfloat1), cfloat, cos);
TEST (cos (Vcdouble1), cdouble, cos);
TEST (cos (Vcldouble1), cldouble, cos);
return 0;
}
int
test_fabs (const int Vint4, const long long int Vllong4)
{
int result = 0;
TEST (fabs (vfloat1), float, fabs);
TEST (fabs (vdouble1), double, fabs);
TEST (fabs (vldouble1), ldouble, fabs);
TEST (fabs (vint1), double, fabs);
TEST (fabs (vllong1), double, fabs);
TEST (fabs (vcfloat1), float, cabs);
TEST (fabs (vcdouble1), double, cabs);
TEST (fabs (vcldouble1), ldouble, cabs);
TEST (fabs (Vfloat1), float, fabs);
TEST (fabs (Vdouble1), double, fabs);
TEST (fabs (Vldouble2), ldouble, fabs);
#ifndef __OPTIMIZE__
/* GCC is too smart to optimize these out. */
TEST (fabs (Vint1), double, fabs);
TEST (fabs (Vllong1), double, fabs);
#else
TEST_TYPE_ONLY (fabs (vllong1), double);
TEST_TYPE_ONLY (fabs (vllong1), double);
#endif
TEST (fabs (Vint4), double, fabs);
TEST (fabs (Vllong4), double, fabs);
TEST (fabs (Vcfloat1), float, cabs);
TEST (fabs (Vcdouble1), double, cabs);
TEST (fabs (Vcldouble1), ldouble, cabs);
return result;
}
int
test_conj (const int Vint4, const long long int Vllong4)
{
int result = 0;
TEST (conj (vfloat1), cfloat, conj);
TEST (conj (vdouble1), cdouble, conj);
TEST (conj (vldouble1), cldouble, conj);
TEST (conj (vint1), cdouble, conj);
TEST (conj (vllong1), cdouble, conj);
TEST (conj (vcfloat1), cfloat, conj);
TEST (conj (vcdouble1), cdouble, conj);
TEST (conj (vcldouble1), cldouble, conj);
TEST (conj (Vfloat1), cfloat, conj);
TEST (conj (Vdouble1), cdouble, conj);
TEST (conj (Vldouble1), cldouble, conj);
TEST (conj (Vint1), cdouble, conj);
TEST (conj (Vllong1), cdouble, conj);
TEST (conj (Vcfloat1), cfloat, conj);
TEST (conj (Vcdouble1), cdouble, conj);
TEST (conj (Vcldouble1), cldouble, conj);
return result;
}
int
test_expm1 (const int Vint4, const long long int Vllong4)
{
int result = 0;
TEST (expm1 (vfloat1), float, expm1);
TEST (expm1 (vdouble1), double, expm1);
TEST (expm1 (vldouble1), ldouble, expm1);
TEST (expm1 (vint1), double, expm1);
TEST (expm1 (vllong1), double, expm1);
TEST (expm1 (Vfloat1), float, expm1);
TEST (expm1 (Vdouble1), double, expm1);
TEST (expm1 (Vldouble1), ldouble, expm1);
TEST (expm1 (Vint1), double, expm1);
TEST (expm1 (Vllong1), double, expm1);
return result;
}
int
test_lrint (const int Vint4, const long long int Vllong4)
{
int result = 0;
TEST2 (lrint (vfloat1), float, long int, lrint);
TEST2 (lrint (vdouble1), double, long int, lrint);
TEST2 (lrint (vldouble1), ldouble, long int, lrint);
TEST2 (lrint (vint1), double, long int, lrint);
TEST2 (lrint (vllong1), double, long int, lrint);
TEST2 (lrint (Vfloat1), float, long int, lrint);
TEST2 (lrint (Vdouble1), double, long int, lrint);
TEST2 (lrint (Vldouble1), ldouble, long int, lrint);
TEST2 (lrint (Vint1), double, long int, lrint);
TEST2 (lrint (Vllong1), double, long int, lrint);
return result;
}
int
test_ldexp (const int Vint4, const long long int Vllong4)
{
int result = 0;
TEST (ldexp (vfloat1, 6), float, ldexp);
TEST (ldexp (vdouble1, 6), double, ldexp);
TEST (ldexp (vldouble1, 6), ldouble, ldexp);
TEST (ldexp (vint1, 6), double, ldexp);
TEST (ldexp (vllong1, 6), double, ldexp);
TEST (ldexp (Vfloat1, 6), float, ldexp);
TEST (ldexp (Vdouble1, 6), double, ldexp);
TEST (ldexp (Vldouble1, 6), ldouble, ldexp);
TEST (ldexp (Vint1, 6), double, ldexp);
TEST (ldexp (Vllong1, 6), double, ldexp);
return result;
}
#define FIRST(x, y) (y, x)
#define SECOND(x, y) (x, y)
#define NON_LDBL_TEST(fn, argm, arg, type, fnt) \
TEST (fn argm (arg, vfloat1), type, fnt); \
TEST (fn argm (arg, vdouble1), type, fnt); \
TEST (fn argm (arg, vint1), type, fnt); \
TEST (fn argm (arg, vllong1), type, fnt); \
TEST (fn argm (arg, Vfloat1), type, fnt); \
TEST (fn argm (arg, Vdouble1), type, fnt); \
TEST (fn argm (arg, Vint1), type, fnt); \
TEST (fn argm (arg, Vllong1), type, fnt);
#define NON_LDBL_CTEST(fn, argm, arg, type, fnt) \
NON_LDBL_TEST(fn, argm, arg, type, fnt); \
TEST (fn argm (arg, vcfloat1), type, fnt); \
TEST (fn argm (arg, vcdouble1), type, fnt); \
TEST (fn argm (arg, Vcfloat1), type, fnt); \
TEST (fn argm (arg, Vcdouble1), type, fnt);
#define BINARY_TEST(fn, fnt) \
TEST (fn (vfloat1, vfloat2), float, fnt); \
TEST (fn (Vfloat1, vfloat2), float, fnt); \
TEST (fn (vfloat1, Vfloat2), float, fnt); \
TEST (fn (Vfloat1, Vfloat2), float, fnt); \
TEST (fn (vldouble1, vldouble2), ldouble, fnt); \
TEST (fn (Vldouble1, vldouble2), ldouble, fnt); \
TEST (fn (vldouble1, Vldouble2), ldouble, fnt); \
TEST (fn (Vldouble1, Vldouble2), ldouble, fnt); \
NON_LDBL_TEST (fn, FIRST, vldouble2, ldouble, fnt); \
NON_LDBL_TEST (fn, SECOND, vldouble2, ldouble, fnt); \
NON_LDBL_TEST (fn, FIRST, Vldouble2, ldouble, fnt); \
NON_LDBL_TEST (fn, SECOND, Vldouble2, ldouble, fnt); \
NON_LDBL_TEST (fn, FIRST, vdouble2, double, fnt); \
NON_LDBL_TEST (fn, SECOND, vdouble2, double, fnt); \
NON_LDBL_TEST (fn, FIRST, Vdouble2, double, fnt); \
NON_LDBL_TEST (fn, SECOND, Vdouble2, double, fnt); \
NON_LDBL_TEST (fn, FIRST, vint2, double, fnt); \
NON_LDBL_TEST (fn, SECOND, vint2, double, fnt); \
NON_LDBL_TEST (fn, FIRST, Vint2, double, fnt); \
NON_LDBL_TEST (fn, SECOND, Vint2, double, fnt); \
NON_LDBL_TEST (fn, FIRST, vllong2, double, fnt); \
NON_LDBL_TEST (fn, SECOND, vllong2, double, fnt); \
NON_LDBL_TEST (fn, FIRST, Vllong2, double, fnt); \
NON_LDBL_TEST (fn, SECOND, Vllong2, double, fnt);
#define BINARY_CTEST(fn, fnt) \
BINARY_TEST (fn, fnt); \
TEST (fn (vcfloat1, vfloat2), cfloat, fnt); \
TEST (fn (Vcfloat1, vfloat2), cfloat, fnt); \
TEST (fn (vcfloat1, Vfloat2), cfloat, fnt); \
TEST (fn (Vcfloat1, Vfloat2), cfloat, fnt); \
TEST (fn (vcldouble1, vldouble2), cldouble, fnt); \
TEST (fn (Vcldouble1, vldouble2), cldouble, fnt); \
TEST (fn (vcldouble1, Vldouble2), cldouble, fnt); \
TEST (fn (Vcldouble1, Vldouble2), cldouble, fnt); \
TEST (fn (vcfloat1, vfloat2), cfloat, fnt); \
TEST (fn (Vcfloat1, vfloat2), cfloat, fnt); \
TEST (fn (vcfloat1, Vfloat2), cfloat, fnt); \
TEST (fn (Vcfloat1, Vfloat2), cfloat, fnt); \
TEST (fn (vcldouble1, vldouble2), cldouble, fnt); \
TEST (fn (Vcldouble1, vldouble2), cldouble, fnt); \
TEST (fn (vcldouble1, Vldouble2), cldouble, fnt); \
TEST (fn (Vcldouble1, Vldouble2), cldouble, fnt); \
TEST (fn (vcfloat1, vcfloat2), cfloat, fnt); \
TEST (fn (Vcfloat1, vcfloat2), cfloat, fnt); \
TEST (fn (vcfloat1, Vcfloat2), cfloat, fnt); \
TEST (fn (Vcfloat1, Vcfloat2), cfloat, fnt); \
TEST (fn (vcldouble1, vcldouble2), cldouble, fnt); \
TEST (fn (Vcldouble1, vcldouble2), cldouble, fnt); \
TEST (fn (vcldouble1, Vcldouble2), cldouble, fnt); \
TEST (fn (Vcldouble1, Vcldouble2), cldouble, fnt); \
NON_LDBL_CTEST (fn, FIRST, vcldouble2, cldouble, fnt); \
NON_LDBL_CTEST (fn, SECOND, vcldouble2, cldouble, fnt); \
NON_LDBL_CTEST (fn, FIRST, Vcldouble2, cldouble, fnt); \
NON_LDBL_CTEST (fn, SECOND, Vcldouble2, cldouble, fnt); \
NON_LDBL_CTEST (fn, FIRST, vcdouble2, cdouble, fnt); \
NON_LDBL_CTEST (fn, SECOND, vcdouble2, cdouble, fnt); \
NON_LDBL_CTEST (fn, FIRST, Vcdouble2, cdouble, fnt); \
NON_LDBL_CTEST (fn, SECOND, Vcdouble2, cdouble, fnt);
int
test_atan2 (const int Vint4, const long long int Vllong4)
{
int result = 0;
BINARY_TEST (atan2, atan2);
return result;
}
int
test_remquo (const int Vint4, const long long int Vllong4)
{
int result = 0;
int quo = 0;
#define my_remquo(x, y) remquo (x, y, &quo)
BINARY_TEST (my_remquo, remquo);
#undef my_remquo
return result;
}
int
test_pow (const int Vint4, const long long int Vllong4)
{
int result = 0;
BINARY_CTEST (pow, pow);
return result;
}
/* Testing all arguments of fma would be just too expensive,
so test just some. */
int
test_fma_1 (const int Vint4, const long long int Vllong4)
{
int result = 0;
#define my_fma(x, y) fma (x, y, vfloat3)
BINARY_TEST (my_fma, fma);
#undef my_fma
return result;
}
int
test_fma_2 (const int Vint4, const long long int Vllong4)
{
int result = 0;
#define my_fma(x, y) fma (x, vfloat3, y)
BINARY_TEST (my_fma, fma);
#undef my_fma
return result;
}
int
test_fma_3 (const int Vint4, const long long int Vllong4)
{
int result = 0;
#define my_fma(x, y) fma (Vfloat3, x, y)
BINARY_TEST (my_fma, fma);
#undef my_fma
return result;
}
int
test_fma_4 (const int Vint4, const long long int Vllong4)
{
int result = 0;
TEST (fma (vdouble1, Vdouble2, vllong3), double, fma);
TEST (fma (vint1, Vint2, vint3), double, fma);
TEST (fma (Vldouble1, vldouble2, Vldouble3), ldouble, fma);
TEST (fma (vldouble1, vint2, Vdouble3), ldouble, fma);
return result;
}
static int
do_test (void)
{
int result;
result = test_cos (vint1, vllong1);
result |= test_fabs (vint1, vllong1);
result |= test_conj (vint1, vllong1);
result |= test_expm1 (vint1, vllong1);
result |= test_lrint (vint1, vllong1);
result |= test_ldexp (vint1, vllong1);
result |= test_atan2 (vint1, vllong1);
result |= test_remquo (vint1, vllong1);
result |= test_pow (vint1, vllong1);
result |= test_fma_1 (vint1, vllong1);
result |= test_fma_2 (vint1, vllong1);
result |= test_fma_3 (vint1, vllong1);
result |= test_fma_4 (vint1, vllong1);
return result;
}
/* Now generate the three functions. */
#define HAVE_MAIN
#define F(name) name
#define TYPE double
#define CTYPE cdouble
#define T Tdouble
#define C Tcdouble
#include "test-tgmath2.c"
#define F(name) name##f
#define TYPE float
#define CTYPE cfloat
#define T Tfloat
#define C Tcfloat
#include "test-tgmath2.c"
#if LDBL_MANT_DIG > DBL_MANT_DIG
#define F(name) name##l
#define TYPE ldouble
#define CTYPE cldouble
#define T Tldouble
#define C Tcldouble
#include "test-tgmath2.c"
#endif
#define TEST_FUNCTION do_test ()
#include "../test-skeleton.c"
#else
#ifdef DEBUG
#define P() puts (__FUNCTION__); count++
#else
#define P() count++;
#endif
TYPE
(F(cos)) (TYPE x)
{
counts[T][C_cos]++;
P ();
return x;
}
CTYPE
(F(ccos)) (CTYPE x)
{
counts[C][C_cos]++;
P ();
return x;
}
TYPE
(F(fabs)) (TYPE x)
{
counts[T][C_fabs]++;
P ();
return x;
}
TYPE
(F(cabs)) (CTYPE x)
{
counts[T][C_cabs]++;
P ();
return x;
}
CTYPE
(F(conj)) (CTYPE x)
{
counts[C][C_conj]++;
P ();
return x;
}
TYPE
(F(expm1)) (TYPE x)
{
counts[T][C_expm1]++;
P ();
return x;
}
long int
(F(lrint)) (TYPE x)
{
counts[T][C_lrint]++;
P ();
return x;
}
TYPE
(F(ldexp)) (TYPE x, int y)
{
counts[T][C_ldexp]++;
P ();
return x + y;
}
TYPE
(F(atan2)) (TYPE x, TYPE y)
{
counts[T][C_atan2]++;
P ();
return x + y;
}
TYPE
(F(remquo)) (TYPE x, TYPE y, int *z)
{
counts[T][C_remquo]++;
P ();
return x + y + *z;
}
TYPE
(F(pow)) (TYPE x, TYPE y)
{
counts[T][C_pow]++;
P ();
return x + y;
}
CTYPE
(F(cpow)) (CTYPE x, CTYPE y)
{
counts[C][C_pow]++;
P ();
return x + y;
}
TYPE
(F(fma)) (TYPE x, TYPE y, TYPE z)
{
counts[T][C_fma]++;
P ();
return x + y + z;
}
#undef F
#undef TYPE
#undef CTYPE
#undef T
#undef C
#undef P
#endif