builtins.c (do_mpc_arg2): New.

* builtins.c (do_mpc_arg2): New.
	(fold_builtin_2): Fold builtin cpow.
	* real.h (HAVE_mpc_pow): New.

testsuite:
	* gcc.dg/torture/builtin-math-5.c: Add more cases.
	* gcc.dg/torture/builtin-math-6.c: Likewise.  Depend on
	effective target "mpc_pow".
	* lib/target-supports.exp (check_effective_target_mpc_pow): New.

From-SVN: r149716

gcc/ChangeLog

@@ -1,3 +1,9 @@
+2009-07-16  Kaveh R. Ghazi  <ghazi@caip.rutgers.edu>
+
+	* builtins.c (do_mpc_arg2): New.
+	(fold_builtin_2): Fold builtin cpow.
+	* real.h (HAVE_mpc_pow): New.
+
 2009-07-16  Bingfeng Mei  <bmei@broadcom.com>
 
 	* modulo-sched.c (sms_schedule): stage_count <= 1 as correct comparison

gcc/builtins.c

@@ -60,6 +60,9 @@ along with GCC; see the file COPYING3.  If not see
 #endif
 #ifdef HAVE_mpc
 static tree do_mpc_arg1 (tree, tree, int (*)(mpc_ptr, mpc_srcptr, mpc_rnd_t));
+#ifdef HAVE_mpc_pow
+static tree do_mpc_arg2 (tree, tree, tree, int (*)(mpc_ptr, mpc_srcptr, mpc_srcptr, mpc_rnd_t));
+#endif
 #endif
 
 /* Define the names of the builtin function types and codes.  */
@@ -10647,6 +10650,16 @@ fold_builtin_2 (tree fndecl, tree arg0, tree arg1, bool ignore)
     CASE_FLT_FN (BUILT_IN_HYPOT):
       return fold_builtin_hypot (fndecl, arg0, arg1, type);
 
+#ifdef HAVE_mpc_pow
+    CASE_FLT_FN (BUILT_IN_CPOW):
+      if (validate_arg (arg0, COMPLEX_TYPE)
+	  && TREE_CODE (TREE_TYPE (TREE_TYPE (arg0))) == REAL_TYPE
+	  && validate_arg (arg1, COMPLEX_TYPE)
+	  && TREE_CODE (TREE_TYPE (TREE_TYPE (arg1))) == REAL_TYPE) 
+	return do_mpc_arg2 (arg0, arg1, type, mpc_pow);
+    break;
+#endif
+
     CASE_FLT_FN (BUILT_IN_LDEXP):
       return fold_builtin_load_exponent (arg0, arg1, type, /*ldexp=*/true);
     CASE_FLT_FN (BUILT_IN_SCALBN):
@@ -13715,6 +13728,64 @@ do_mpc_arg1 (tree arg, tree type, int (*func)(mpc_ptr, mpc_srcptr, mpc_rnd_t))
 
   return result;
 }
+
+/* If arguments ARG0 and ARG1 are a COMPLEX_CST, call the two-argument
+   mpc function FUNC on it and return the resulting value as a tree
+   with type TYPE.  The mpfr precision is set to the precision of
+   TYPE.  We assume that function FUNC returns zero if the result
+   could be calculated exactly within the requested precision.  */
+
+#ifdef HAVE_mpc_pow
+static tree
+do_mpc_arg2 (tree arg0, tree arg1, tree type,
+	     int (*func)(mpc_ptr, mpc_srcptr, mpc_srcptr, mpc_rnd_t))
+{
+  tree result = NULL_TREE;
+  
+  STRIP_NOPS (arg0);
+  STRIP_NOPS (arg1);
+
+  /* To proceed, MPFR must exactly represent the target floating point
+     format, which only happens when the target base equals two.  */
+  if (TREE_CODE (arg0) == COMPLEX_CST && !TREE_OVERFLOW (arg0)
+      && TREE_CODE (TREE_TYPE (TREE_TYPE (arg0))) == REAL_TYPE
+      && TREE_CODE (arg1) == COMPLEX_CST && !TREE_OVERFLOW (arg1)
+      && TREE_CODE (TREE_TYPE (TREE_TYPE (arg1))) == REAL_TYPE
+      && REAL_MODE_FORMAT (TYPE_MODE (TREE_TYPE (TREE_TYPE (arg0))))->b == 2)
+    {
+      const REAL_VALUE_TYPE *const re0 = TREE_REAL_CST_PTR (TREE_REALPART (arg0));
+      const REAL_VALUE_TYPE *const im0 = TREE_REAL_CST_PTR (TREE_IMAGPART (arg0));
+      const REAL_VALUE_TYPE *const re1 = TREE_REAL_CST_PTR (TREE_REALPART (arg1));
+      const REAL_VALUE_TYPE *const im1 = TREE_REAL_CST_PTR (TREE_IMAGPART (arg1));
+
+      if (real_isfinite (re0) && real_isfinite (im0)
+	  && real_isfinite (re1) && real_isfinite (im1))
+        {
+	  const struct real_format *const fmt =
+	    REAL_MODE_FORMAT (TYPE_MODE (TREE_TYPE (type)));
+	  const int prec = fmt->p;
+	  const mp_rnd_t rnd = fmt->round_towards_zero ? GMP_RNDZ : GMP_RNDN;
+	  const mpc_rnd_t crnd = fmt->round_towards_zero ? MPC_RNDZZ : MPC_RNDNN;
+	  int inexact;
+	  mpc_t m0, m1;
+	  
+	  mpc_init2 (m0, prec);
+	  mpc_init2 (m1, prec);
+	  mpfr_from_real (mpc_realref(m0), re0, rnd);
+	  mpfr_from_real (mpc_imagref(m0), im0, rnd);
+	  mpfr_from_real (mpc_realref(m1), re1, rnd);
+	  mpfr_from_real (mpc_imagref(m1), im1, rnd);
+	  mpfr_clear_flags ();
+	  inexact = func (m0, m0, m1, crnd);
+	  result = do_mpc_ckconv (m0, type, inexact);
+	  mpc_clear (m0);
+	  mpc_clear (m1);
+	}
+    }
+
+  return result;
+}
+# endif
 #endif /* HAVE_mpc */
 
 /* FIXME tuples.

gcc/real.h

@@ -26,6 +26,9 @@
 #include <mpfr.h>
 #ifdef HAVE_mpc
 #include <mpc.h>
+# if MPC_VERSION >= MPC_VERSION_NUM(0,6,1)
+#  define HAVE_mpc_pow
+# endif
 #endif
 #endif
 #include "machmode.h"

gcc/testsuite/ChangeLog

@@ -1,3 +1,10 @@
+2009-07-16  Kaveh R. Ghazi  <ghazi@caip.rutgers.edu>
+
+	* gcc.dg/torture/builtin-math-5.c: Add more cases.
+	* gcc.dg/torture/builtin-math-6.c: Likewise.  Depend on
+	effective target "mpc_pow".
+	* lib/target-supports.exp (check_effective_target_mpc_pow): New.
+
 2009-07-16  Richard Henderson  <rth@redhat.com>
 
 	* g++.dg/opt/eh4.C: New test.

gcc/testsuite/gcc.dg/torture/builtin-math-5.c

@@ -18,6 +18,12 @@ extern void fool (_Complex long double);
   fool (__builtin_##FUNC##l (ARG##L)); \
 } while (0)
 
+#define TESTIT2(FUNC, ARG0, ARG1) do { \
+  foof (__builtin_##FUNC##f (ARG0##F, ARG1##F)); \
+  foo (__builtin_##FUNC (ARG0, ARG1)); \
+  fool (__builtin_##FUNC##l (ARG0##L, ARG1##L)); \
+} while (0)
+
 void bar()
 {
   /* An argument of NaN is not evaluated at compile-time.  */
@@ -38,9 +44,80 @@ void bar()
 #endif
   foo (__builtin_csqrt (-__builtin_inf()));
   fool (__builtin_csqrtl (-__builtin_infl()));
+
+  /* Check for overflow/underflow.  */
+  TESTIT (cexp, 1e20);
+  TESTIT (cexp, -1e20);
+  
+  /* An argument of NaN is not evaluated at compile-time.  */
+#ifndef __SPU__
+  foof (__builtin_cpowf (__builtin_nanf(""), 2.5F));
+#endif
+  foo (__builtin_cpow (__builtin_nan(""), 2.5));
+  fool (__builtin_cpowl (__builtin_nanl(""), 2.5L));
+#ifndef __SPU__
+  foof (__builtin_cpowf (2.5F, __builtin_nanf("")));
+#endif
+  foo (__builtin_cpow (2.5, __builtin_nan("")));
+  fool (__builtin_cpowl (2.5L, __builtin_nanl("")));
+
+  /* An argument of Inf/-Inf is not evaluated at compile-time.  */
+#ifndef __SPU__
+  foof (__builtin_cpowf (__builtin_inff(), 2.5F));
+#endif
+  foo (__builtin_cpow (__builtin_inf(), 2.5));
+  fool (__builtin_cpowl (__builtin_infl(), 2.5L));
+#ifndef __SPU__
+  foof (__builtin_cpowf (-__builtin_inff(), 2.5F));
+#endif
+  foo (__builtin_cpow (-__builtin_inf(), 2.5));
+  fool (__builtin_cpowl (-__builtin_infl(), 2.5L));
+#ifndef __SPU__
+  foof (__builtin_cpowf (2.5F, __builtin_inff()));
+#endif
+  foo (__builtin_cpow (2.5, __builtin_inf()));
+  fool (__builtin_cpowl (2.5L, __builtin_infl()));
+#ifndef __SPU__
+  foof (__builtin_cpowf (2.5F, -__builtin_inff()));
+#endif
+  foo (__builtin_cpow (2.5, -__builtin_inf()));
+  fool (__builtin_cpowl (2.5L, -__builtin_infl()));
+
+  /* Check for Inv/NaN return values.  */
+  TESTIT2 (cpow, -0.0, -4.5); /* Returns Inf */
+  TESTIT2 (cpow, 0.0, -4.5); /* Returns Inf */
+
+  /* Check for overflow/underflow.  */
+  foof (__builtin_cpowf (__FLT_MAX__, 3.5F));
+  foof (__builtin_cpowf (__FLT_MAX__ * 1.FI, 3.5F));
+  foo (__builtin_cpow (__DBL_MAX__, 3.5));
+  foo (__builtin_cpow (__DBL_MAX__ * 1.I, 3.5));
+  fool (__builtin_cpowl (__LDBL_MAX__, 3.5L));
+  fool (__builtin_cpowl (__LDBL_MAX__ * 1.LI, 3.5L));
+  TESTIT2 (cpow, 2.0, 0x1p50);
+  TESTIT2 (cpow, 2.0, 0x1p28);
+  TESTIT2 (cpow, 2.0, 0x1p24);
+  foof (__builtin_cpowf (__FLT_MAX__, -3.5F));
+  foof (__builtin_cpowf (__FLT_MAX__ * 1.FI, -3.5F));
+  foo (__builtin_cpow (__DBL_MAX__, -3.5));
+  foo (__builtin_cpow (__DBL_MAX__ * 1.I, -3.5));
+  fool (__builtin_cpowl (__LDBL_MAX__, -3.5L));
+  fool (__builtin_cpowl (__LDBL_MAX__ * 1.LI, -3.5L));
+  TESTIT2 (cpow, 2.0, -0x1p50);
+  TESTIT2 (cpow, 2.0, -0x1p28);
+  TESTIT2 (cpow, 2.0, -0x1p24);
+
 }
 
-/* { dg-final { scan-tree-dump-times "csqrtf" 3 "original" } } */
+/* { dg-final { scan-tree-dump-times "csqrtf" 3 "original" { target { ! { spu*-*-* } } } } } */
+/* { dg-final { scan-tree-dump-times "csqrtf" 0 "original" { target { spu*-*-* } } } } */
 /* { dg-final { scan-tree-dump-times "csqrt " 3 "original" } } */
 /* { dg-final { scan-tree-dump-times "csqrtl" 3 "original" } } */
+/* { dg-final { scan-tree-dump-times "cexpf" 2 "original" } } */
+/* { dg-final { scan-tree-dump-times "cexp " 2 "original" } } */
+/* { dg-final { scan-tree-dump-times "cexpl" 2 "original" } } */
+/* { dg-final { scan-tree-dump-times "cpowf" 18 "original" { target { ! { spu*-*-* } } } } } */
+/* { dg-final { scan-tree-dump-times "cpowf" 12 "original" { target { spu*-*-* } } } } */
+/* { dg-final { scan-tree-dump-times "cpow " 18 "original" } } */
+/* { dg-final { scan-tree-dump-times "cpowl" 18 "original" } } */
 /* { dg-final { cleanup-tree-dump "original" } } */

gcc/testsuite/gcc.dg/torture/builtin-math-6.c

@@ -6,11 +6,13 @@
    Origin: Kaveh R. Ghazi,  January 28, 2009.  */
 
 /* { dg-do link } */
-/* { dg-require-effective-target mpc } */
+/* { dg-require-effective-target mpc_pow } */
 
 /* All references to link_error should go away at compile-time.  */
 extern void link_error(int);
 
+#define CONJ(X) __builtin_conjf(X)
+
 /* Return TRUE if the signs of floating point values X and Y are not
    equal.  This is important when comparing signed zeros.  */
 #define CKSGN_F(X,Y) \
@@ -42,6 +44,59 @@ extern void link_error(int);
       link_error(__LINE__); \
   } 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); \
+} 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); \
+} while (0)
+
+/* For complex numbers, test that FUNC(ARG0, ARG1) == (RES).  */
+#define TESTIT_COMPLEX2(FUNC, ARG0, ARG1, RES) do { \
+  if (__builtin_##FUNC##f(ARG0, ARG1) != (RES) \
+    || COMPLEX_CKSGN_F(__builtin_##FUNC##f(ARG0, ARG1), (RES))) \
+      link_error(__LINE__); \
+  if (__builtin_##FUNC(ARG0, ARG1) != (RES) \
+    || COMPLEX_CKSGN(__builtin_##FUNC(ARG0, ARG1), (RES))) \
+      link_error(__LINE__); \
+  if (__builtin_##FUNC##l(ARG0, ARG1) != (RES) \
+    || COMPLEX_CKSGN_L(__builtin_##FUNC##l(ARG0, ARG1), (RES))) \
+      link_error(__LINE__); \
+  } 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); \
+} while (0)
+
 /* Return TRUE if X differs from EXPECTED by more than 1%.  If
    EXPECTED is zero, then any difference may return TRUE.  We don't
    worry about signed zeros.  */
@@ -81,87 +136,126 @@ extern void link_error(int);
     link_error(__LINE__); \
   } while (0)
 
+/* Range test, for complex numbers check that FUNC(ARG0, ARG1) is
+   within 1% of RES.  This is NOT a test for accuracy to the last-bit,
+   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 { \
+  if (COMPLEX_DIFF1PCT_F (__builtin_##FUNC##f(ARG0, ARG1), (RES)) \
+      || COMPLEX_CKSGN_F (__builtin_##FUNC##f(ARG0, ARG1), (RES))) \
+    link_error(__LINE__); \
+  if (COMPLEX_DIFF1PCT (__builtin_##FUNC(ARG0, ARG1), (RES)) \
+      || COMPLEX_CKSGN (__builtin_##FUNC(ARG0, ARG1), (RES))) \
+    link_error(__LINE__); \
+  if (COMPLEX_DIFF1PCT_L (__builtin_##FUNC##l(ARG0, ARG1), (RES)) \
+      || COMPLEX_CKSGN_L (__builtin_##FUNC##l(ARG0, ARG1), (RES))) \
+    link_error(__LINE__); \
+  } 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); \
+} while (0)
+
 int main (void)
 {
-  TESTIT_COMPLEX (csin, 0.0F, 0.0F);
-  TESTIT_COMPLEX (csin, -0.0F, -0.0F);
-  TESTIT_COMPLEX (csin, __builtin_conjf(0.0F), __builtin_conjf(0.0F));
-  TESTIT_COMPLEX (csin, __builtin_conjf(-0.0F), __builtin_conjf(-0.0F));
+  TESTIT_COMPLEX_ALLNEG (csin, 0,
+			 0, -0.F,
+			 CONJ(0), CONJ(-0.F));
+  TESTIT_COMPLEX_R_ALLNEG (csin, 3.45678F + 2.34567FI,
+			   -1.633059F - 4.917448FI, 1.633059F - 4.917448FI,
+			   -1.633059F + 4.917448FI, 1.633059F + 4.917448FI);
 
-  TESTIT_COMPLEX_R (csin, 3.45678F + 2.34567FI, -1.633059F - 4.917448FI);
-  TESTIT_COMPLEX_R (csin, 3.45678F - 2.34567FI, -1.633059F + 4.917448FI);
-  TESTIT_COMPLEX_R (csin, -3.45678F + 2.34567FI, 1.633059F - 4.917448FI);
-  TESTIT_COMPLEX_R (csin, -3.45678F - 2.34567FI, 1.633059F + 4.917448FI);
+  TESTIT_COMPLEX_ALLNEG (ccos, 0,
+			 CONJ(1), 1, 1, CONJ(1));
+  TESTIT_COMPLEX_R_ALLNEG (ccos, 3.45678F + 2.34567FI,
+			   -5.008512F + 1.603367FI, -5.008512F - 1.603367FI,
+			   -5.008512F - 1.603367FI, -5.008512F + 1.603367FI);
+
+  TESTIT_COMPLEX_ALLNEG (ctan, 0,
+			 0, -0.F, CONJ(0), CONJ(-0.F));
+  TESTIT_COMPLEX_R_ALLNEG (ctan, 3.45678F + 2.34567FI,
+			   0.010657F + 0.985230FI, -0.010657F + 0.985230FI,
+			   0.010657F - 0.985230FI, -0.010657F - 0.985230FI);
   
-  TESTIT_COMPLEX (ccos, 0.0F, __builtin_conjf(1.0F));
-  TESTIT_COMPLEX (ccos, -0.0F, 1.0F);
-  TESTIT_COMPLEX (ccos, __builtin_conjf(0.0F), 1.0F);
-  TESTIT_COMPLEX (ccos, __builtin_conjf(-0.0F), __builtin_conjf(1.0F));
+  TESTIT_COMPLEX_ALLNEG (csinh, 0,
+			 0, -0.F, CONJ(0), CONJ(-0.F));
+  TESTIT_COMPLEX_R_ALLNEG (csinh, 3.45678F + 2.34567FI,
+			   -11.083178F + 11.341487FI, 11.083178F +11.341487FI,
+			   -11.083178F - 11.341487FI, 11.083178F -11.341487FI);
+  
+  TESTIT_COMPLEX_ALLNEG (ccosh, 0,
+			 1, CONJ(1), CONJ(1), 1);
+  TESTIT_COMPLEX_R_ALLNEG (ccosh, 3.45678F + 2.34567FI,
+			   -11.105238F + 11.318958FI,-11.105238F -11.318958FI,
+			   -11.105238F - 11.318958FI,-11.105238F +11.318958FI);
+  
+  TESTIT_COMPLEX_ALLNEG (ctanh, 0,
+			 0, -0.F, CONJ(0), CONJ(-0.F));
+  TESTIT_COMPLEX_R_ALLNEG (ctanh, 3.45678F + 2.34567FI,
+			   1.000040F - 0.001988FI, -1.000040F - 0.001988FI,
+			   1.000040F + 0.001988FI, -1.000040F + 0.001988FI);
 
-  TESTIT_COMPLEX_R (ccos, 3.45678F + 2.34567FI, -5.008512F + 1.603367FI);
-  TESTIT_COMPLEX_R (ccos, 3.45678F - 2.34567FI, -5.008512F - 1.603367FI);
-  TESTIT_COMPLEX_R (ccos, -3.45678F + 2.34567FI, -5.008512F - 1.603367FI);
-  TESTIT_COMPLEX_R (ccos, -3.45678F - 2.34567FI, -5.008512F + 1.603367FI);
+  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_R_ALLNEG (clog, 3.45678F + 2.34567FI,
+			   1.429713F + 0.596199FI, 1.429713F + 2.545394FI,
+			   1.429713F - 0.596199FI, 1.429713F - 2.545394FI);
 
-  TESTIT_COMPLEX (ctan, 0.0F, 0.0F);
-  TESTIT_COMPLEX (ctan, -0.0F, -0.0F);
-  TESTIT_COMPLEX (ctan, __builtin_conjf(0.0F), __builtin_conjf(0.0F));
-  TESTIT_COMPLEX (ctan, __builtin_conjf(-0.0F), __builtin_conjf(-0.0F));
-
-  TESTIT_COMPLEX_R (ctan, 3.45678F + 2.34567FI, 0.010657F + 0.985230FI);
-  TESTIT_COMPLEX_R (ctan, 3.45678F - 2.34567FI, 0.010657F - 0.985230FI);
-  TESTIT_COMPLEX_R (ctan, -3.45678F + 2.34567FI, -0.010657F + 0.985230FI);
-  TESTIT_COMPLEX_R (ctan, -3.45678F - 2.34567FI, -0.010657F - 0.985230FI);
-
-  TESTIT_COMPLEX (csinh, 0.0F, 0.0F);
-  TESTIT_COMPLEX (csinh, -0.0F, -0.0F);
-  TESTIT_COMPLEX (csinh, __builtin_conjf(0.0F), __builtin_conjf(0.0F));
-  TESTIT_COMPLEX (csinh, __builtin_conjf(-0.0F), __builtin_conjf(-0.0F));
-
-  TESTIT_COMPLEX_R (csinh, 3.45678F + 2.34567FI, -11.083178F + 11.341487FI);
-  TESTIT_COMPLEX_R (csinh, 3.45678F - 2.34567FI, -11.083178F - 11.341487FI);
-  TESTIT_COMPLEX_R (csinh, -3.45678F + 2.34567FI, 11.083178F + 11.341487FI);
-  TESTIT_COMPLEX_R (csinh, -3.45678F - 2.34567FI, 11.083178F - 11.341487FI);
-
-  TESTIT_COMPLEX (ccosh, 0.0F, 1.0F);
-  TESTIT_COMPLEX (ccosh, -0.0F, __builtin_conjf(1.0F));
-  TESTIT_COMPLEX (ccosh, __builtin_conjf(0.0F), __builtin_conjf(1.0F));
-  TESTIT_COMPLEX (ccosh, __builtin_conjf(-0.0F), 1.0F);
-
-  TESTIT_COMPLEX_R (ccosh, 3.45678F + 2.34567FI, -11.105238F + 11.318958FI);
-  TESTIT_COMPLEX_R (ccosh, 3.45678F - 2.34567FI, -11.105238F - 11.318958FI);
-  TESTIT_COMPLEX_R (ccosh, -3.45678F + 2.34567FI, -11.105238F - 11.318958FI);
-  TESTIT_COMPLEX_R (ccosh, -3.45678F - 2.34567FI, -11.105238F + 11.318958FI);
-
-  TESTIT_COMPLEX (ctanh, 0.0F, 0.0F);
-  TESTIT_COMPLEX (ctanh, -0.0F, -0.0F);
-  TESTIT_COMPLEX (ctanh, __builtin_conjf(0.0F), __builtin_conjf(0.0F));
-  TESTIT_COMPLEX (ctanh, __builtin_conjf(-0.0F), __builtin_conjf(-0.0F));
-
-  TESTIT_COMPLEX_R (ctanh, 3.45678F + 2.34567FI, 1.000040F - 0.001988FI);
-  TESTIT_COMPLEX_R (ctanh, 3.45678F - 2.34567FI, 1.000040F + 0.001988FI);
-  TESTIT_COMPLEX_R (ctanh, -3.45678F + 2.34567FI, -1.000040F - 0.001988FI);
-  TESTIT_COMPLEX_R (ctanh, -3.45678F - 2.34567FI, -1.000040F + 0.001988FI);
-
-  TESTIT_COMPLEX (clog, 1.0F, 0.0F);
-  TESTIT_COMPLEX_R (clog, -1.0F, 3.141593FI);
-  TESTIT_COMPLEX (clog, __builtin_conjf(1.0F), __builtin_conjf(0.0F)); /* Fails with mpc-0.6.  */
-  TESTIT_COMPLEX_R (clog, __builtin_conjf(-1.0F), __builtin_conjf(3.141593FI)); /* Fails with mpc-0.6.  */
-
-  TESTIT_COMPLEX_R (clog, 3.45678F + 2.34567FI, 1.429713F + 0.596199FI);
-  TESTIT_COMPLEX_R (clog, 3.45678F - 2.34567FI, 1.429713F - 0.596199FI);
-  TESTIT_COMPLEX_R (clog, -3.45678F + 2.34567FI, 1.429713F + 2.545394FI);
-  TESTIT_COMPLEX_R (clog, -3.45678F - 2.34567FI, 1.429713F - 2.545394FI);
-
-  TESTIT_COMPLEX (csqrt, 0.0F, 0.0F);
-  TESTIT_COMPLEX (csqrt, -0.0F, 0.0F);
-  TESTIT_COMPLEX (csqrt, __builtin_conjf(0.0F), __builtin_conjf(0.0F));
-  TESTIT_COMPLEX (csqrt, __builtin_conjf(-0.0F), __builtin_conjf(0.0F));
-
-  TESTIT_COMPLEX_R (csqrt, 3.45678F + 2.34567FI, 1.953750F + 0.600299FI);
-  TESTIT_COMPLEX_R (csqrt, 3.45678F - 2.34567FI, 1.953750F - 0.600299FI);
-  TESTIT_COMPLEX_R (csqrt, -3.45678F + 2.34567FI, 0.600299F + 1.953750FI);
-  TESTIT_COMPLEX_R (csqrt, -3.45678F - 2.34567FI, 0.600299F - 1.953750FI);
+  TESTIT_COMPLEX_ALLNEG (csqrt, 0,
+			 0, 0, CONJ(0), CONJ(0));
+  TESTIT_COMPLEX_R_ALLNEG (csqrt, 3.45678F + 2.34567FI,
+			   1.953750F + 0.600299FI, 0.600299F + 1.953750FI,
+			   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);
+  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);
+  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));
+  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);
+  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));
+  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);
+  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));
+  
+  TESTIT_COMPLEX2 (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);
+  
   return 0;
 }

gcc/testsuite/lib/target-supports.exp

@@ -2998,3 +2998,16 @@ proc check_effective_target_mpc { } {
 	}
     }]
 }
+
+# Return 1 if the MPC library with mpc_pow is integrated with GCC, 0 otherwise.
+
+proc check_effective_target_mpc_pow { } {
+    return [check_no_compiler_messages mpc executable {
+	extern void link_error(void);
+	int main ()
+	{
+	  if (__builtin_cpow(1,1) != 1)
+	    link_error();
+	}
+    }]
+}