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builtin-math-6.c (link_error): Accept a value number, update all callers and synchronize results for latest MPC. 

* gcc.dg/torture/builtin-math-6.c (link_error): Accept a value
	number, update all callers and synchronize results for latest MPC.

From-SVN: r151065
This commit is contained in:
Kaveh R. Ghazi 2009-08-24 22:54:25 +00:00 committed by Kaveh Ghazi
parent c331341273
commit bf866c2021
2 changed files with 89 additions and 81 deletions
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5
gcc/testsuite/ChangeLog
View File

@ -1,3 +1,8 @@
2009-08-24 Kaveh R. Ghazi <ghazi@caip.rutgers.edu>
* gcc.dg/torture/builtin-math-6.c (link_error): Accept a value
number, update all callers and synchronize results for latest MPC.
2009-08-21 Jason Merrill <jason@redhat.com>
* g++.dg/warn/Wunused-17.C: New.

165
gcc/testsuite/gcc.dg/torture/builtin-math-6.c
View File

@ -8,8 +8,11 @@
/* { dg-do link } */
/* { dg-require-effective-target mpc_pow } */
/* All references to link_error should go away at compile-time. */
extern void link_error(int);
/* All references to link_error should go away at compile-time. The
first number is the line number and the second is the value number
among several tests. These appear in the tree dump file and aid in
debugging. */
extern void link_error(int, int);
#define CONJ(X) __builtin_conjf(X)
@ -32,69 +35,69 @@ extern void link_error(int);
(CKSGN_L(__real__ (X), __real__ (Y)) || CKSGN_L (__imag__ (X), __imag__ (Y)))
/* For complex numbers, test that FUNC(ARG) == (RES). */
#define TESTIT_COMPLEX(FUNC, ARG, RES) do { \
#define TESTIT_COMPLEX(VAL_NUM, FUNC, ARG, RES) do { \
if (__builtin_##FUNC##f(ARG) != (RES) \
|| COMPLEX_CKSGN_F(__builtin_##FUNC##f(ARG), (RES))) \
link_error(__LINE__); \
link_error(__LINE__, VAL_NUM); \
if (__builtin_##FUNC(ARG) != (RES) \
|| COMPLEX_CKSGN(__builtin_##FUNC(ARG), (RES))) \
link_error(__LINE__); \
link_error(__LINE__, VAL_NUM); \
if (__builtin_##FUNC##l(ARG) != (RES) \
|| COMPLEX_CKSGN_L(__builtin_##FUNC##l(ARG), (RES))) \
link_error(__LINE__); \
link_error(__LINE__, VAL_NUM); \
} while (0)
/* For complex numbers, call the TESTIT_COMPLEX macro for all
combinations of neg and conj. */
#define TESTIT_COMPLEX_ALLNEG(FUNC, ARG, RES1, RES2, RES3, RES4) do { \
TESTIT_COMPLEX(FUNC, (_Complex float)(ARG), RES1); \
TESTIT_COMPLEX(FUNC, -CONJ(ARG), RES2); \
TESTIT_COMPLEX(FUNC, CONJ(ARG), RES3); \
TESTIT_COMPLEX(FUNC, -(_Complex float)(ARG), RES4); \
TESTIT_COMPLEX(1, FUNC, (_Complex float)(ARG), RES1); \
TESTIT_COMPLEX(2, FUNC, -CONJ(ARG), RES2); \
TESTIT_COMPLEX(3, FUNC, CONJ(ARG), RES3); \
TESTIT_COMPLEX(4, FUNC, -(_Complex float)(ARG), RES4); \
} while (0)
/* For complex numbers, call the TESTIT_COMPLEX_R macro for all
combinations of neg and conj. */
#define TESTIT_COMPLEX_R_ALLNEG(FUNC, ARG, RES1, RES2, RES3, RES4) do { \
TESTIT_COMPLEX_R(FUNC, (_Complex float)(ARG), RES1); \
TESTIT_COMPLEX_R(FUNC, -CONJ(ARG), RES2); \
TESTIT_COMPLEX_R(FUNC, CONJ(ARG), RES3); \
TESTIT_COMPLEX_R(FUNC, -(_Complex float)(ARG), RES4); \
TESTIT_COMPLEX_R(1, FUNC, (_Complex float)(ARG), RES1); \
TESTIT_COMPLEX_R(2, FUNC, -CONJ(ARG), RES2); \
TESTIT_COMPLEX_R(3, FUNC, CONJ(ARG), RES3); \
TESTIT_COMPLEX_R(4, FUNC, -(_Complex float)(ARG), RES4); \
} while (0)
/* For complex numbers, test that FUNC(ARG0, ARG1) == (RES). */
#define TESTIT_COMPLEX2(FUNC, ARG0, ARG1, RES) do { \
#define TESTIT_COMPLEX2(VAL_NUM, FUNC, ARG0, ARG1, RES) do { \
if (__builtin_##FUNC##f(ARG0, ARG1) != (RES) \
|| COMPLEX_CKSGN_F(__builtin_##FUNC##f(ARG0, ARG1), (RES))) \
link_error(__LINE__); \
link_error(__LINE__, VAL_NUM); \
if (__builtin_##FUNC(ARG0, ARG1) != (RES) \
|| COMPLEX_CKSGN(__builtin_##FUNC(ARG0, ARG1), (RES))) \
link_error(__LINE__); \
link_error(__LINE__, VAL_NUM); \
if (__builtin_##FUNC##l(ARG0, ARG1) != (RES) \
|| COMPLEX_CKSGN_L(__builtin_##FUNC##l(ARG0, ARG1), (RES))) \
link_error(__LINE__); \
link_error(__LINE__, VAL_NUM); \
} while (0)
/* For complex numbers, call the TESTIT_COMPLEX2 macro for all
combinations of neg and conj. */
#define TESTIT_COMPLEX2_ALLNEG(FUNC, ARG0, ARG1, RES1, RES2, RES3, RES4, RES5,\
RES6, RES7, RES8, RES9, RES10, RES11, RES12, RES13, RES14, RES15, RES16) do{ \
TESTIT_COMPLEX2(FUNC, (_Complex float)(ARG0),(_Complex float)(ARG1), RES1);\
TESTIT_COMPLEX2(FUNC, (_Complex float)(ARG0),CONJ(ARG1), RES2); \
TESTIT_COMPLEX2(FUNC, (_Complex float)(ARG0),-(_Complex float)(ARG1), RES3); \
TESTIT_COMPLEX2(FUNC, (_Complex float)(ARG0),-CONJ(ARG1), RES4); \
TESTIT_COMPLEX2(FUNC, -(_Complex float)(ARG0),(_Complex float)(ARG1), RES5); \
TESTIT_COMPLEX2(FUNC, -(_Complex float)(ARG0),CONJ(ARG1), RES6); \
TESTIT_COMPLEX2(FUNC, -(_Complex float)(ARG0),-(_Complex float)(ARG1), RES7); \
TESTIT_COMPLEX2(FUNC, -(_Complex float)(ARG0),-CONJ(ARG1), RES8); \
TESTIT_COMPLEX2(FUNC, CONJ(ARG0),(_Complex float)(ARG1), RES9); \
TESTIT_COMPLEX2(FUNC, CONJ(ARG0),CONJ(ARG1), RES10); \
TESTIT_COMPLEX2(FUNC, CONJ(ARG0),-(_Complex float)(ARG1), RES11); \
TESTIT_COMPLEX2(FUNC, CONJ(ARG0),-CONJ(ARG1), RES12); \
TESTIT_COMPLEX2(FUNC, -CONJ(ARG0),(_Complex float)(ARG1), RES13); \
TESTIT_COMPLEX2(FUNC, -CONJ(ARG0),CONJ(ARG1), RES14); \
TESTIT_COMPLEX2(FUNC, -CONJ(ARG0),-(_Complex float)(ARG1), RES15); \
TESTIT_COMPLEX2(FUNC, -CONJ(ARG0),-CONJ(ARG1), RES16); \
TESTIT_COMPLEX2(1, FUNC, (_Complex float)(ARG0),(_Complex float)(ARG1), RES1);\
TESTIT_COMPLEX2(2, FUNC, (_Complex float)(ARG0),CONJ(ARG1), RES2); \
TESTIT_COMPLEX2(3, FUNC, (_Complex float)(ARG0),-(_Complex float)(ARG1), RES3); \
TESTIT_COMPLEX2(4, FUNC, (_Complex float)(ARG0),-CONJ(ARG1), RES4); \
TESTIT_COMPLEX2(5, FUNC, -(_Complex float)(ARG0),(_Complex float)(ARG1), RES5); \
TESTIT_COMPLEX2(6, FUNC, -(_Complex float)(ARG0),CONJ(ARG1), RES6); \
TESTIT_COMPLEX2(7, FUNC, -(_Complex float)(ARG0),-(_Complex float)(ARG1), RES7); \
TESTIT_COMPLEX2(8, FUNC, -(_Complex float)(ARG0),-CONJ(ARG1), RES8); \
TESTIT_COMPLEX2(9, FUNC, CONJ(ARG0),(_Complex float)(ARG1), RES9); \
TESTIT_COMPLEX2(10, FUNC, CONJ(ARG0),CONJ(ARG1), RES10); \
TESTIT_COMPLEX2(11, FUNC, CONJ(ARG0),-(_Complex float)(ARG1), RES11); \
TESTIT_COMPLEX2(12, FUNC, CONJ(ARG0),-CONJ(ARG1), RES12); \
TESTIT_COMPLEX2(13, FUNC, -CONJ(ARG0),(_Complex float)(ARG1), RES13); \
TESTIT_COMPLEX2(14, FUNC, -CONJ(ARG0),CONJ(ARG1), RES14); \
TESTIT_COMPLEX2(15, FUNC, -CONJ(ARG0),-(_Complex float)(ARG1), RES15); \
TESTIT_COMPLEX2(16, FUNC, -CONJ(ARG0),-CONJ(ARG1), RES16); \
} while (0)
/* Return TRUE if X differs from EXPECTED by more than 1%. If
@ -124,16 +127,16 @@ extern void link_error(int);
merely checking that we get relatively sane results. I.e. the GCC
builtin is hooked up to the correct MPC function call. We first
check the magnitude and then the sign. */
#define TESTIT_COMPLEX_R(FUNC, ARG, RES) do { \
#define TESTIT_COMPLEX_R(VAL_NUM, FUNC, ARG, RES) do { \
if (COMPLEX_DIFF1PCT_F (__builtin_##FUNC##f(ARG), (RES)) \
|| COMPLEX_CKSGN_F(__builtin_##FUNC##f(ARG), (RES))) \
link_error(__LINE__); \
link_error(__LINE__, VAL_NUM); \
if (COMPLEX_DIFF1PCT (__builtin_##FUNC(ARG), (RES)) \
|| COMPLEX_CKSGN(__builtin_##FUNC(ARG), (RES))) \
link_error(__LINE__); \
link_error(__LINE__, VAL_NUM); \
if (COMPLEX_DIFF1PCT (__builtin_##FUNC(ARG), (RES)) \
|| COMPLEX_CKSGN(__builtin_##FUNC(ARG), (RES))) \
link_error(__LINE__); \
link_error(__LINE__, VAL_NUM); \
} while (0)
/* Range test, for complex numbers check that FUNC(ARG0, ARG1) is
@ -141,38 +144,38 @@ extern void link_error(int);
we're merely checking that we get relatively sane results.
I.e. the GCC builtin is hooked up to the correct MPC function call.
We first check the magnitude and then the sign. */
#define TESTIT_COMPLEX_R2(FUNC, ARG0, ARG1, RES) do { \
#define TESTIT_COMPLEX_R2(VAL_NUM, FUNC, ARG0, ARG1, RES) do { \
if (COMPLEX_DIFF1PCT_F (__builtin_##FUNC##f(ARG0, ARG1), (RES)) \
|| COMPLEX_CKSGN_F (__builtin_##FUNC##f(ARG0, ARG1), (RES))) \
link_error(__LINE__); \
link_error(__LINE__, VAL_NUM); \
if (COMPLEX_DIFF1PCT (__builtin_##FUNC(ARG0, ARG1), (RES)) \
|| COMPLEX_CKSGN (__builtin_##FUNC(ARG0, ARG1), (RES))) \
link_error(__LINE__); \
link_error(__LINE__, VAL_NUM); \
if (COMPLEX_DIFF1PCT_L (__builtin_##FUNC##l(ARG0, ARG1), (RES)) \
|| COMPLEX_CKSGN_L (__builtin_##FUNC##l(ARG0, ARG1), (RES))) \
link_error(__LINE__); \
link_error(__LINE__, VAL_NUM); \
} while (0)
/* For complex numbers, call the TESTIT_COMPLEX_R2 macro for all
combinations of neg and conj. */
#define TESTIT_COMPLEX_R2_ALLNEG(FUNC, ARG0, ARG1, RES1, RES2, RES3, RES4, RES5,\
RES6, RES7, RES8, RES9, RES10, RES11, RES12, RES13, RES14, RES15, RES16) do{ \
TESTIT_COMPLEX_R2(FUNC, (_Complex float)(ARG0),(_Complex float)(ARG1), RES1);\
TESTIT_COMPLEX_R2(FUNC, (_Complex float)(ARG0),CONJ(ARG1), RES2); \
TESTIT_COMPLEX_R2(FUNC, (_Complex float)(ARG0),-(_Complex float)(ARG1), RES3); \
TESTIT_COMPLEX_R2(FUNC, (_Complex float)(ARG0),-CONJ(ARG1), RES4); \
TESTIT_COMPLEX_R2(FUNC, -(_Complex float)(ARG0),(_Complex float)(ARG1), RES5); \
TESTIT_COMPLEX_R2(FUNC, -(_Complex float)(ARG0),CONJ(ARG1), RES6); \
TESTIT_COMPLEX_R2(FUNC, -(_Complex float)(ARG0),-(_Complex float)(ARG1), RES7); \
TESTIT_COMPLEX_R2(FUNC, -(_Complex float)(ARG0),-CONJ(ARG1), RES8); \
TESTIT_COMPLEX_R2(FUNC, CONJ(ARG0),(_Complex float)(ARG1), RES9); \
TESTIT_COMPLEX_R2(FUNC, CONJ(ARG0),CONJ(ARG1), RES10); \
TESTIT_COMPLEX_R2(FUNC, CONJ(ARG0),-(_Complex float)(ARG1), RES11); \
TESTIT_COMPLEX_R2(FUNC, CONJ(ARG0),-CONJ(ARG1), RES12); \
TESTIT_COMPLEX_R2(FUNC, -CONJ(ARG0),(_Complex float)(ARG1), RES13); \
TESTIT_COMPLEX_R2(FUNC, -CONJ(ARG0),CONJ(ARG1), RES14); \
TESTIT_COMPLEX_R2(FUNC, -CONJ(ARG0),-(_Complex float)(ARG1), RES15); \
TESTIT_COMPLEX_R2(FUNC, -CONJ(ARG0),-CONJ(ARG1), RES16); \
TESTIT_COMPLEX_R2(1, FUNC, (_Complex float)(ARG0),(_Complex float)(ARG1), RES1);\
TESTIT_COMPLEX_R2(2, FUNC, (_Complex float)(ARG0),CONJ(ARG1), RES2); \
TESTIT_COMPLEX_R2(3, FUNC, (_Complex float)(ARG0),-(_Complex float)(ARG1), RES3); \
TESTIT_COMPLEX_R2(4, FUNC, (_Complex float)(ARG0),-CONJ(ARG1), RES4); \
TESTIT_COMPLEX_R2(5, FUNC, -(_Complex float)(ARG0),(_Complex float)(ARG1), RES5); \
TESTIT_COMPLEX_R2(6, FUNC, -(_Complex float)(ARG0),CONJ(ARG1), RES6); \
TESTIT_COMPLEX_R2(7, FUNC, -(_Complex float)(ARG0),-(_Complex float)(ARG1), RES7); \
TESTIT_COMPLEX_R2(8, FUNC, -(_Complex float)(ARG0),-CONJ(ARG1), RES8); \
TESTIT_COMPLEX_R2(9, FUNC, CONJ(ARG0),(_Complex float)(ARG1), RES9); \
TESTIT_COMPLEX_R2(10, FUNC, CONJ(ARG0),CONJ(ARG1), RES10); \
TESTIT_COMPLEX_R2(11, FUNC, CONJ(ARG0),-(_Complex float)(ARG1), RES11); \
TESTIT_COMPLEX_R2(12, FUNC, CONJ(ARG0),-CONJ(ARG1), RES12); \
TESTIT_COMPLEX_R2(13, FUNC, -CONJ(ARG0),(_Complex float)(ARG1), RES13); \
TESTIT_COMPLEX_R2(14, FUNC, -CONJ(ARG0),CONJ(ARG1), RES14); \
TESTIT_COMPLEX_R2(15, FUNC, -CONJ(ARG0),-(_Complex float)(ARG1), RES15); \
TESTIT_COMPLEX_R2(16, FUNC, -CONJ(ARG0),-CONJ(ARG1), RES16); \
} while (0)
int main (void)
@ -214,10 +217,10 @@ int main (void)
1.000040F - 0.001988FI, -1.000040F - 0.001988FI,
1.000040F + 0.001988FI, -1.000040F + 0.001988FI);
TESTIT_COMPLEX (clog, 1, 0);
TESTIT_COMPLEX_R (clog, -1, 3.141593FI);
TESTIT_COMPLEX (clog, CONJ(1), CONJ(0)); /* Fails with mpc-0.6. */
TESTIT_COMPLEX_R (clog, CONJ(-1), CONJ(3.141593FI)); /* Fails with mpc-0.6. */
TESTIT_COMPLEX (1, clog, 1, 0);
TESTIT_COMPLEX_R (1, clog, -1, 3.141593FI);
TESTIT_COMPLEX (1, clog, CONJ(1), CONJ(0)); /* Fails with mpc-0.6. */
TESTIT_COMPLEX_R (1, clog, CONJ(-1), CONJ(3.141593FI)); /* Fails with mpc-0.6. */
TESTIT_COMPLEX_R_ALLNEG (clog, 3.45678F + 2.34567FI,
1.429713F + 0.596199FI, 1.429713F + 2.545394FI,
1.429713F - 0.596199FI, 1.429713F - 2.545394FI);
@ -229,33 +232,33 @@ int main (void)
1.953750F - 0.600299FI, 0.600299F - 1.953750FI);
TESTIT_COMPLEX2_ALLNEG (cpow, 1, 0,
1, 1, CONJ(1), CONJ(1), 1, CONJ(1), 1, 1,
CONJ(1), CONJ(1), 1, 1, 1, 1, CONJ(1), 1);
1, 1, CONJ(1), CONJ(1), CONJ(1), CONJ(1), 1, 1,
CONJ(1), CONJ(1), 1, 1, 1, 1, CONJ(1), CONJ(1));
TESTIT_COMPLEX2_ALLNEG (cpow, 1.FI, 0,
1, 1, CONJ(1), 1, 1, CONJ(1), 1, 1,
1, CONJ(1), 1, 1, 1, 1, CONJ(1), 1);
1, 1, CONJ(1), CONJ(1), CONJ(1), CONJ(1), 1, 1,
CONJ(1), CONJ(1), 1, 1, 1, 1, CONJ(1), CONJ(1));
TESTIT_COMPLEX_R2_ALLNEG (cpow, 2, 3,
8, 8, CONJ(1/8.F), 1/8.F, CONJ(-8), -8, -1/8.F, -1/8.F,
8, CONJ(8), 1/8.F, 1/8.F, -8, -8, -1/8.F, CONJ(-1/8.F));
8, 8, CONJ(1/8.F), CONJ(1/8.F), CONJ(-8), CONJ(-8), -1/8.F, -1/8.F,
CONJ(8), CONJ(8), 1/8.F, 1/8.F, -8, -8, CONJ(-1/8.F), CONJ(-1/8.F));
TESTIT_COMPLEX_R2_ALLNEG (cpow, 3, 4,
81, 81, CONJ(1/81.F), 1/81.F, 81, 81, CONJ(1/81.F), 1/81.F,
81, CONJ(81), 1/81.F, 1/81.F, 81, CONJ(81), 1/81.F, 1/81.F);
81, 81, CONJ(1/81.F), CONJ(1/81.F), CONJ(81), CONJ(81), 1/81.F, 1/81.F,
CONJ(81), CONJ(81), 1/81.F, 1/81.F, 81, 81, CONJ(1/81.F), CONJ(1/81.F));
TESTIT_COMPLEX_R2_ALLNEG (cpow, 3, 5,
243, 243, CONJ(1/243.F), 1/243.F, CONJ(-243), -243, -1/243.F, -1/243.F,
243, CONJ(243), 1/243.F, 1/243.F, -243, -243, -1/243.F, CONJ(-1/243.F));
243, 243, CONJ(1/243.F), CONJ(1/243.F), CONJ(-243), CONJ(-243), -1/243.F, -1/243.F,
CONJ(243), CONJ(243), 1/243.F, 1/243.F, -243, -243, CONJ(-1/243.F), CONJ(-1/243.F));
TESTIT_COMPLEX_R2_ALLNEG (cpow, 4, 2,
16, 16, CONJ(1/16.F), 1/16.F, 16, 16, CONJ(1/16.F), 1/16.F,
16, CONJ(16), 1/16.F, 1/16.F, 16, CONJ(16), 1/16.F, 1/16.F);
16, 16, CONJ(1/16.F), CONJ(1/16.F), CONJ(16), CONJ(16), 1/16.F, 1/16.F,
CONJ(16), CONJ(16), 1/16.F, 1/16.F, 16, 16, CONJ(1/16.F), CONJ(1/16.F));
TESTIT_COMPLEX_R2_ALLNEG (cpow, 1.5, 3,
3.375F, 3.375F, CONJ(1/3.375F), 1/3.375F, CONJ(-3.375F), -3.375F, -1/3.375F, -1/3.375F,
3.375F, CONJ(3.375F), 1/3.375F, 1/3.375F, -3.375F, -3.375F, -1/3.375F, CONJ(-1/3.375F));
3.375F, 3.375F, CONJ(1/3.375F), CONJ(1/3.375F), CONJ(-3.375F), CONJ(-3.375F), -1/3.375F, -1/3.375F,
CONJ(3.375F), CONJ(3.375F), 1/3.375F, 1/3.375F, -3.375F, -3.375F, CONJ(-1/3.375F), CONJ(-1/3.375F));
TESTIT_COMPLEX2 (cpow, 16, 0.25F, 2);
TESTIT_COMPLEX2 (1, cpow, 16, 0.25F, 2);
TESTIT_COMPLEX_R2 (cpow, 3.45678F + 2.34567FI, 1.23456 + 4.56789FI, 0.212485F + 0.319304FI);
TESTIT_COMPLEX_R2 (cpow, 3.45678F - 2.34567FI, 1.23456 + 4.56789FI, 78.576402F + -41.756208FI);
TESTIT_COMPLEX_R2 (cpow, -1.23456F + 2.34567FI, 2.34567 - 1.23456FI, -110.629847F + -57.021655FI);
TESTIT_COMPLEX_R2 (cpow, -1.23456F - 2.34567FI, 2.34567 - 1.23456FI, 0.752336F + 0.199095FI);
TESTIT_COMPLEX_R2 (1, cpow, 3.45678F + 2.34567FI, 1.23456 + 4.56789FI, 0.212485F + 0.319304FI);
TESTIT_COMPLEX_R2 (1, cpow, 3.45678F - 2.34567FI, 1.23456 + 4.56789FI, 78.576402F + -41.756208FI);
TESTIT_COMPLEX_R2 (1, cpow, -1.23456F + 2.34567FI, 2.34567 - 1.23456FI, -110.629847F + -57.021655FI);
TESTIT_COMPLEX_R2 (1, cpow, -1.23456F - 2.34567FI, 2.34567 - 1.23456FI, 0.752336F + 0.199095FI);
return 0;
}