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authorUlrich Drepper <drepper@redhat.com>2007-07-12 18:17:11 +0000
committerUlrich Drepper <drepper@redhat.com>2007-07-12 18:17:11 +0000
commit1c298d08873e72a2339161517da660bdaff0e3f8 (patch)
tree8dc2c8b8521576cc303468e3203db0eb4d262b0a /math
parentf98c2d06bb4e04e59bb067b301bacf880fb72a9f (diff)
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[BZ #4775, BZ #4776]
2007-07-12  Jakub Jelinek  <jakub@redhat.com>
	[BZ #4775]
	* math/tgmath.h (__tgmath_real_type_sub): Formatting.
	(__tgmath_real_type): Fix if expr is const int or other const
	qualified integral type.
	(__TGMATH_UNARY_REAL_ONLY): Rewritten to avoid using statement
	expressions and handle const qualified arguments.
	(__TGMATH_BINARY_FIRST_REAL_ONLY, __TGMATH_UNARY_REAL_IMAG,
	__TGMATH_UNARY_REAL_IMAG_RET_REAL): Likewise.
	(__TGMATH_UNARY_REAL_RET_ONLY): Rewritten to avoid using
	statement expressions.
	(__TGMATH_BINARY_REAL_ONLY, __TGMATH_TERNARY_FIRST_SECOND_REAL_ONLY,
	__TGMATH_TERNARY_REAL_ONLY, __TGMATH_BINARY_REAL_IMAG): Likewise.
	(__TGMATH_UNARY_IMAG): Define.
	(conj, cproj): Use __TGMATH_UNARY_IMAG macro.
	* math/Makefile (tests): Add test-tgmath2.
	(CFLAGS-test-tgmath2.c): Add.
	* math/test-tgmath.c (fy, dy, ly, fz, dz, lz, count_cdouble,
	count_cfloat, count_cldouble): New variables.
	(NCCALLS): Define.
	(main): Check number of complex calls as well.
	(F(compile_test)): Add complex tests and tests with const qualified
	arguments.
	(y, z, ccount): Define.
	(F(cacos), F(casin), F(catan), F(ccos), F(csin), F(ctan), F(cacosh),
	F(casinh), F(catanh), F(ccosh), F(csinh), F(ctanh), F(cexp), F(clog),
	F(csqrt), F(cpow), F(cabs), F(carg), F(creal), F(cimag), F(conj),
	F(cproj)): New functions.
	* math/test-tgmath2.c: New test.

2007-07-11  Jakub Jelinek  <jakub@redhat.com>

	[BZ #4776]
	* elf/dl-load.c (_dl_rtld_di_serinfo): Output / in LD_LIBRARY_PATH,
	RPATH etc. as "/" rather than "", don't segfault on empty paths,
	instead output ".".
	* dlfcn/Makefile (distribute): Add glreflib3.c.
	(module-names): Add glreflib3.
	($(objpfx)tst-dlinfo.out): Depend on glreflib3.so rather than
	glreflib1.so.
	(LDFLAGS_glreflib3.so): New.
	* dlfcn/tst-dlinfo.c (do_test): Load glreflib3.so instead of
	glreflib1.so.
	* dlfcn/glreflib3.c: New file.

	* intl/finddomain.c (_nl_find_domain): If _nl_explode_name
	returned -1, return NULL.
	* intl/explodename.c (_nl_explode_name): Return -1 if
	_nl_normalize_codeset failed.
Diffstat (limited to 'math')
-rw-r--r--math/Makefile3
-rw-r--r--math/test-tgmath.c494
-rw-r--r--math/test-tgmath2.c488
-rw-r--r--math/tgmath.h321
4 files changed, 1070 insertions, 236 deletions
diff --git a/math/Makefile b/math/Makefile
index 1ab1b13b07..7e3a626c63 100644
--- a/math/Makefile
+++ b/math/Makefile
@@ -90,7 +90,7 @@ distribute += $(filter-out $(generated),$(long-m-yes:=.c) $(long-c-yes:=.c))
 # Rules for the test suite.
 tests = test-matherr test-fenv atest-exp atest-sincos atest-exp2 basic-test \
 	test-misc test-fpucw tst-definitions test-tgmath test-tgmath-ret \
-	bug-nextafter bug-nexttoward bug-tgmath1 test-tgmath-int
+	bug-nextafter bug-nexttoward bug-tgmath1 test-tgmath-int test-tgmath2
 # We do the `long double' tests only if this data type is available and
 # distinct from `double'.
 test-longdouble-yes = test-ldouble test-ildoubl
@@ -129,6 +129,7 @@ CFLAGS-test-float.c = -fno-inline -ffloat-store -fno-builtin
 CFLAGS-test-double.c = -fno-inline -ffloat-store -fno-builtin
 CFLAGS-test-ldouble.c = -fno-inline -ffloat-store -fno-builtin
 CFLAGS-test-tgmath.c = -fno-builtin
+CFLAGS-test-tgmath2.c = -fno-builtin
 CFLAGS-test-tgmath-ret.c = -fno-builtin
 CPPFLAGS-test-ifloat.c = -U__LIBC_INTERNAL_MATH_INLINES -D__FAST_MATH__ \
 			 -DTEST_FAST_MATH -fno-builtin
diff --git a/math/test-tgmath.c b/math/test-tgmath.c
index f8453d0835..8ec7fc45d0 100644
--- a/math/test-tgmath.c
+++ b/math/test-tgmath.c
@@ -1,5 +1,5 @@
 /* Test compilation of tgmath macros.
-   Copyright (C) 2001, 2003, 2004 Free Software Foundation, Inc.
+   Copyright (C) 2001, 2003, 2004, 2007 Free Software Foundation, Inc.
    This file is part of the GNU C Library.
    Contributed by Jakub Jelinek <jakub@redhat.com> and
    Ulrich Drepper <drepper@redhat.com>, 2001.
@@ -37,13 +37,23 @@ static void compile_testl (void);
 float fx;
 double dx;
 long double lx;
+const float fy = 1.25;
+const double dy = 1.25;
+const long double ly = 1.25;
+complex float fz;
+complex double dz;
+complex long double lz;
 
 int count_double;
 int count_float;
 int count_ldouble;
+int count_cdouble;
+int count_cfloat;
+int count_cldouble;
 
 #define NCALLS     115
 #define NCALLS_INT 4
+#define NCCALLS    47
 
 int
 main (void)
@@ -51,13 +61,14 @@ main (void)
   int result = 0;
 
   count_float = count_double = count_ldouble = 0;
+  count_cfloat = count_cdouble = count_cldouble = 0;
   compile_test ();
-  if (count_float != 0)
+  if (count_float != 0 || count_cfloat != 0)
     {
       puts ("float function called for double test");
       result = 1;
     }
-  if (count_ldouble != 0)
+  if (count_ldouble != 0 || count_cldouble != 0)
     {
       puts ("long double function called for double test");
       result = 1;
@@ -74,15 +85,28 @@ main (void)
 	      count_double);
       result = 1;
     }
+  if (count_cdouble < NCCALLS)
+    {
+      printf ("double complex functions not called often enough (%d)\n",
+	      count_cdouble);
+      result = 1;
+    }
+  else if (count_cdouble > NCCALLS)
+    {
+      printf ("double complex functions called too often (%d)\n",
+	      count_cdouble);
+      result = 1;
+    }
 
   count_float = count_double = count_ldouble = 0;
+  count_cfloat = count_cdouble = count_cldouble = 0;
   compile_testf ();
-  if (count_double != 0)
+  if (count_double != 0 || count_cdouble != 0)
     {
       puts ("double function called for float test");
       result = 1;
     }
-  if (count_ldouble != 0)
+  if (count_ldouble != 0 || count_cldouble != 0)
     {
       puts ("long double function called for float test");
       result = 1;
@@ -98,16 +122,29 @@ main (void)
 	      count_double);
       result = 1;
     }
+  if (count_cfloat < NCCALLS)
+    {
+      printf ("float complex functions not called often enough (%d)\n",
+	      count_cfloat);
+      result = 1;
+    }
+  else if (count_cfloat > NCCALLS)
+    {
+      printf ("float complex functions called too often (%d)\n",
+	      count_cfloat);
+      result = 1;
+    }
 
 #ifndef NO_LONG_DOUBLE
   count_float = count_double = count_ldouble = 0;
+  count_cfloat = count_cdouble = count_cldouble = 0;
   compile_testl ();
-  if (count_float != 0)
+  if (count_float != 0 || count_cfloat != 0)
     {
       puts ("float function called for long double test");
       result = 1;
     }
-  if (count_double != 0)
+  if (count_double != 0 || count_cdouble != 0)
     {
       puts ("double function called for long double test");
       result = 1;
@@ -124,6 +161,18 @@ main (void)
 	      count_double);
       result = 1;
     }
+  if (count_cldouble < NCCALLS)
+    {
+      printf ("long double complex functions not called often enough (%d)\n",
+	      count_cldouble);
+      result = 1;
+    }
+  else if (count_cldouble > NCCALLS)
+    {
+      printf ("long double complex functions called too often (%d)\n",
+	      count_cldouble);
+      result = 1;
+    }
 #endif
 
   return result;
@@ -136,20 +185,29 @@ main (void)
 #define TYPE double
 #define TEST_INT 1
 #define x dx
+#define y dy
+#define z dz
 #define count count_double
+#define ccount count_cdouble
 #include "test-tgmath.c"
 
 #define F(name) name##f
 #define TYPE float
 #define x fx
+#define y fy
+#define z fz
 #define count count_float
+#define ccount count_cfloat
 #include "test-tgmath.c"
 
 #ifndef NO_LONG_DOUBLE
 #define F(name) name##l
 #define TYPE long double
 #define x lx
+#define y ly
+#define z lz
 #define count count_ldouble
+#define ccount count_cldouble
 #include "test-tgmath.c"
 #endif
 
@@ -165,7 +223,9 @@ static void
 F(compile_test) (void)
 {
   TYPE a, b, c = 1.0;
+  complex TYPE d;
   int i;
+  int saved_count;
   long int j;
   long long int k;
 
@@ -228,14 +288,137 @@ F(compile_test) (void)
   c = fma (i, b, i);
   a = pow (i, c);
 #endif
+  x = a + b + c + i + j + k;
+
+  saved_count = count;
+  if (ccount != 0)
+    ccount = -10000;
+
+  d = cos (cos (z));
+  z = acos (acos (d));
+  d = sin (sin (z));
+  z = asin (asin (d));
+  d = tan (tan (z));
+  z = atan (atan (d));
+  d = cosh (cosh (z));
+  z = acosh (acosh (d));
+  d = sinh (sinh (z));
+  z = asinh (asinh (d));
+  d = tanh (tanh (z));
+  z = atanh (atanh (d));
+  d = exp (exp (z));
+  z = log (log (d));
+  d = sqrt (sqrt (z));
+  z = conj (conj (d));
+  d = fabs (conj (a));
+  z = pow (pow (a, d), pow (b, z));
+  d = cproj (cproj (z));
+  z += fabs (cproj (a));
+  a = carg (carg (z));
+  b = creal (creal (d));
+  c = cimag (cimag (z));
+  x += a + b + c + i + j + k;
+  z += d;
+
+  if (saved_count != count)
+    count = -10000;
+
+  if (0)
+    {
+      a = cos (y);
+      a = acos (y);
+      a = sin (y);
+      a = asin (y);
+      a = tan (y);
+      a = atan (y);
+      a = atan2 (y, y);
+      a = cosh (y);
+      a = acosh (y);
+      a = sinh (y);
+      a = asinh (y);
+      a = tanh (y);
+      a = atanh (y);
+      a = exp (y);
+      a = log (y);
+      a = log10 (y);
+      a = ldexp (y, 5);
+      a = frexp (y, &i);
+      a = expm1 (y);
+      a = log1p (y);
+      a = logb (y);
+      a = exp2 (y);
+      a = log2 (y);
+      a = pow (y, y);
+      a = sqrt (y);
+      a = hypot (y, y);
+      a = cbrt (y);
+      a = ceil (y);
+      a = fabs (y);
+      a = floor (y);
+      a = fmod (y, y);
+      a = nearbyint (y);
+      a = round (y);
+      a = trunc (y);
+      a = remquo (y, y, &i);
+      j = lrint (y) + lround (y);
+      k = llrint (y) + llround (y);
+      a = erf (y);
+      a = erfc (y);
+      a = tgamma (y);
+      a = lgamma (y);
+      a = rint (y);
+      a = nextafter (y, y);
+      a = nexttoward (y, y);
+      a = remainder (y, y);
+      a = scalb (y, (const TYPE) (6));
+      k = scalbn (y, 7) + scalbln (y, 10l);
+      i = ilogb (y);
+      a = fdim (y, y);
+      a = fmax (y, y);
+      a = fmin (y, y);
+      a = fma (y, y, y);
+
+#ifdef TEST_INT
+      a = atan2 (i, y);
+      a = remquo (i, y, &i);
+      a = fma (i, y, i);
+      a = pow (i, y);
+#endif
+
+      d = cos ((const complex TYPE) z);
+      d = acos ((const complex TYPE) z);
+      d = sin ((const complex TYPE) z);
+      d = asin ((const complex TYPE) z);
+      d = tan ((const complex TYPE) z);
+      d = atan ((const complex TYPE) z);
+      d = cosh ((const complex TYPE) z);
+      d = acosh ((const complex TYPE) z);
+      d = sinh ((const complex TYPE) z);
+      d = asinh ((const complex TYPE) z);
+      d = tanh ((const complex TYPE) z);
+      d = atanh ((const complex TYPE) z);
+      d = exp ((const complex TYPE) z);
+      d = log ((const complex TYPE) z);
+      d = sqrt ((const complex TYPE) z);
+      d = pow ((const complex TYPE) z, (const complex TYPE) z);
+      d = fabs ((const complex TYPE) z);
+      d = carg ((const complex TYPE) z);
+      d = creal ((const complex TYPE) z);
+      d = cimag ((const complex TYPE) z);
+      d = conj ((const complex TYPE) z);
+      d = cproj ((const complex TYPE) z);
+    }
 }
 #undef x
+#undef y
+#undef z
 
 
 TYPE
 (F(cos)) (TYPE x)
 {
   ++count;
+  P ();
   return x;
 }
 
@@ -243,7 +426,7 @@ TYPE
 (F(acos)) (TYPE x)
 {
   ++count;
-  P();
+  P ();
   return x;
 }
 
@@ -251,7 +434,7 @@ TYPE
 (F(sin)) (TYPE x)
 {
   ++count;
-  P();
+  P ();
   return x;
 }
 
@@ -259,7 +442,7 @@ TYPE
 (F(asin)) (TYPE x)
 {
   ++count;
-  P();
+  P ();
   return x;
 }
 
@@ -267,7 +450,7 @@ TYPE
 (F(tan)) (TYPE x)
 {
   ++count;
-  P();
+  P ();
   return x;
 }
 
@@ -275,7 +458,7 @@ TYPE
 (F(atan)) (TYPE x)
 {
   ++count;
-  P();
+  P ();
   return x;
 }
 
@@ -283,7 +466,7 @@ TYPE
 (F(atan2)) (TYPE x, TYPE y)
 {
   ++count;
-  P();
+  P ();
   return x + y;
 }
 
@@ -291,7 +474,7 @@ TYPE
 (F(cosh)) (TYPE x)
 {
   ++count;
-  P();
+  P ();
   return x;
 }
 
@@ -299,7 +482,7 @@ TYPE
 (F(acosh)) (TYPE x)
 {
   ++count;
-  P();
+  P ();
   return x;
 }
 
@@ -307,7 +490,7 @@ TYPE
 (F(sinh)) (TYPE x)
 {
   ++count;
-  P();
+  P ();
   return x;
 }
 
@@ -315,7 +498,7 @@ TYPE
 (F(asinh)) (TYPE x)
 {
   ++count;
-  P();
+  P ();
   return x;
 }
 
@@ -323,7 +506,7 @@ TYPE
 (F(tanh)) (TYPE x)
 {
   ++count;
-  P();
+  P ();
   return x;
 }
 
@@ -331,7 +514,7 @@ TYPE
 (F(atanh)) (TYPE x)
 {
   ++count;
-  P();
+  P ();
   return x;
 }
 
@@ -339,7 +522,7 @@ TYPE
 (F(exp)) (TYPE x)
 {
   ++count;
-  P();
+  P ();
   return x;
 }
 
@@ -347,7 +530,7 @@ TYPE
 (F(log)) (TYPE x)
 {
   ++count;
-  P();
+  P ();
   return x;
 }
 
@@ -355,7 +538,7 @@ TYPE
 (F(log10)) (TYPE x)
 {
   ++count;
-  P();
+  P ();
   return x;
 }
 
@@ -363,23 +546,23 @@ TYPE
 (F(ldexp)) (TYPE x, int y)
 {
   ++count;
-  P();
-  return x;
+  P ();
+  return x + y;
 }
 
 TYPE
 (F(frexp)) (TYPE x, int *y)
 {
   ++count;
-  P();
-  return x;
+  P ();
+  return x + *y;
 }
 
 TYPE
 (F(expm1)) (TYPE x)
 {
   ++count;
-  P();
+  P ();
   return x;
 }
 
@@ -387,7 +570,7 @@ TYPE
 (F(log1p)) (TYPE x)
 {
   ++count;
-  P();
+  P ();
   return x;
 }
 
@@ -395,7 +578,7 @@ TYPE
 (F(logb)) (TYPE x)
 {
   ++count;
-  P();
+  P ();
   return x;
 }
 
@@ -403,7 +586,7 @@ TYPE
 (F(exp2)) (TYPE x)
 {
   ++count;
-  P();
+  P ();
   return x;
 }
 
@@ -411,7 +594,7 @@ TYPE
 (F(log2)) (TYPE x)
 {
   ++count;
-  P();
+  P ();
   return x;
 }
 
@@ -419,7 +602,7 @@ TYPE
 (F(pow)) (TYPE x, TYPE y)
 {
   ++count;
-  P();
+  P ();
   return x + y;
 }
 
@@ -427,7 +610,7 @@ TYPE
 (F(sqrt)) (TYPE x)
 {
   ++count;
-  P();
+  P ();
   return x;
 }
 
@@ -435,7 +618,7 @@ TYPE
 (F(hypot)) (TYPE x, TYPE y)
 {
   ++count;
-  P();
+  P ();
   return x + y;
 }
 
@@ -443,7 +626,7 @@ TYPE
 (F(cbrt)) (TYPE x)
 {
   ++count;
-  P();
+  P ();
   return x;
 }
 
@@ -451,7 +634,7 @@ TYPE
 (F(ceil)) (TYPE x)
 {
   ++count;
-  P();
+  P ();
   return x;
 }
 
@@ -459,7 +642,7 @@ TYPE
 (F(fabs)) (TYPE x)
 {
   ++count;
-  P();
+  P ();
   return x;
 }
 
@@ -467,7 +650,7 @@ TYPE
 (F(floor)) (TYPE x)
 {
   ++count;
-  P();
+  P ();
   return x;
 }
 
@@ -475,7 +658,7 @@ TYPE
 (F(fmod)) (TYPE x, TYPE y)
 {
   ++count;
-  P();
+  P ();
   return x + y;
 }
 
@@ -483,7 +666,7 @@ TYPE
 (F(nearbyint)) (TYPE x)
 {
   ++count;
-  P();
+  P ();
   return x;
 }
 
@@ -491,7 +674,7 @@ TYPE
 (F(round)) (TYPE x)
 {
   ++count;
-  P();
+  P ();
   return x;
 }
 
@@ -499,7 +682,7 @@ TYPE
 (F(trunc)) (TYPE x)
 {
   ++count;
-  P();
+  P ();
   return x;
 }
 
@@ -507,15 +690,15 @@ TYPE
 (F(remquo)) (TYPE x, TYPE y, int *i)
 {
   ++count;
-  P();
-  return x + y;
+  P ();
+  return x + y + *i;
 }
 
 long int
 (F(lrint)) (TYPE x)
 {
   ++count;
-  P();
+  P ();
   return x;
 }
 
@@ -523,7 +706,7 @@ long int
 (F(lround)) (TYPE x)
 {
   ++count;
-  P();
+  P ();
   return x;
 }
 
@@ -531,7 +714,7 @@ long long int
 (F(llrint)) (TYPE x)
 {
   ++count;
-  P();
+  P ();
   return x;
 }
 
@@ -539,7 +722,7 @@ long long int
 (F(llround)) (TYPE x)
 {
   ++count;
-  P();
+  P ();
   return x;
 }
 
@@ -547,7 +730,7 @@ TYPE
 (F(erf)) (TYPE x)
 {
   ++count;
-  P();
+  P ();
   return x;
 }
 
@@ -555,7 +738,7 @@ TYPE
 (F(erfc)) (TYPE x)
 {
   ++count;
-  P();
+  P ();
   return x;
 }
 
@@ -563,7 +746,7 @@ TYPE
 (F(tgamma)) (TYPE x)
 {
   ++count;
-  P();
+  P ();
   return x;
 }
 
@@ -571,7 +754,7 @@ TYPE
 (F(lgamma)) (TYPE x)
 {
   ++count;
-  P();
+  P ();
   return x;
 }
 
@@ -579,7 +762,7 @@ TYPE
 (F(rint)) (TYPE x)
 {
   ++count;
-  P();
+  P ();
   return x;
 }
 
@@ -587,7 +770,7 @@ TYPE
 (F(nextafter)) (TYPE x, TYPE y)
 {
   ++count;
-  P();
+  P ();
   return x + y;
 }
 
@@ -595,15 +778,15 @@ TYPE
 (F(nexttoward)) (TYPE x, long double y)
 {
   ++count;
-  P();
-  return x;
+  P ();
+  return x + y;
 }
 
 TYPE
 (F(remainder)) (TYPE x, TYPE y)
 {
   ++count;
-  P();
+  P ();
   return x + y;
 }
 
@@ -611,7 +794,7 @@ TYPE
 (F(scalb)) (TYPE x, TYPE y)
 {
   ++count;
-  P();
+  P ();
   return x + y;
 }
 
@@ -619,23 +802,23 @@ TYPE
 (F(scalbn)) (TYPE x, int y)
 {
   ++count;
-  P();
-  return x;
+  P ();
+  return x + y;
 }
 
 TYPE
 (F(scalbln)) (TYPE x, long int y)
 {
   ++count;
-  P();
-  return x;
+  P ();
+  return x + y;
 }
 
 int
 (F(ilogb)) (TYPE x)
 {
   ++count;
-  P();
+  P ();
   return x;
 }
 
@@ -643,7 +826,7 @@ TYPE
 (F(fdim)) (TYPE x, TYPE y)
 {
   ++count;
-  P();
+  P ();
   return x + y;
 }
 
@@ -651,7 +834,7 @@ TYPE
 (F(fmin)) (TYPE x, TYPE y)
 {
   ++count;
-  P();
+  P ();
   return x + y;
 }
 
@@ -659,7 +842,7 @@ TYPE
 (F(fmax)) (TYPE x, TYPE y)
 {
   ++count;
-  P();
+  P ();
   return x + y;
 }
 
@@ -667,12 +850,189 @@ TYPE
 (F(fma)) (TYPE x, TYPE y, TYPE z)
 {
   ++count;
-  P();
+  P ();
   return x + y + z;
 }
 
+complex TYPE
+(F(cacos)) (complex TYPE x)
+{
+  ++ccount;
+  P ();
+  return x;
+}
+
+complex TYPE
+(F(casin)) (complex TYPE x)
+{
+  ++ccount;
+  P ();
+  return x;
+}
+
+complex TYPE
+(F(catan)) (complex TYPE x)
+{
+  ++ccount;
+  P ();
+  return x;
+}
+
+complex TYPE
+(F(ccos)) (complex TYPE x)
+{
+  ++ccount;
+  P ();
+  return x;
+}
+
+complex TYPE
+(F(csin)) (complex TYPE x)
+{
+  ++ccount;
+  P ();
+  return x;
+}
+
+complex TYPE
+(F(ctan)) (complex TYPE x)
+{
+  ++ccount;
+  P ();
+  return x;
+}
+
+complex TYPE
+(F(cacosh)) (complex TYPE x)
+{
+  ++ccount;
+  P ();
+  return x;
+}
+
+complex TYPE
+(F(casinh)) (complex TYPE x)
+{
+  ++ccount;
+  P ();
+  return x;
+}
+
+complex TYPE
+(F(catanh)) (complex TYPE x)
+{
+  ++ccount;
+  P ();
+  return x;
+}
+
+complex TYPE
+(F(ccosh)) (complex TYPE x)
+{
+  ++ccount;
+  P ();
+  return x;
+}
+
+complex TYPE
+(F(csinh)) (complex TYPE x)
+{
+  ++ccount;
+  P ();
+  return x;
+}
+
+complex TYPE
+(F(ctanh)) (complex TYPE x)
+{
+  ++ccount;
+  P ();
+  return x;
+}
+
+complex TYPE
+(F(cexp)) (complex TYPE x)
+{
+  ++ccount;
+  P ();
+  return x;
+}
+
+complex TYPE
+(F(clog)) (complex TYPE x)
+{
+  ++ccount;
+  P ();
+  return x;
+}
+
+complex TYPE
+(F(csqrt)) (complex TYPE x)
+{
+  ++ccount;
+  P ();
+  return x;
+}
+
+complex TYPE
+(F(cpow)) (complex TYPE x, complex TYPE y)
+{
+  ++ccount;
+  P ();
+  return x + y;
+}
+
+TYPE
+(F(cabs)) (complex TYPE x)
+{
+  ++ccount;
+  P ();
+  return x;
+}
+
+TYPE
+(F(carg)) (complex TYPE x)
+{
+  ++ccount;
+  P ();
+  return x;
+}
+
+TYPE
+(F(creal)) (complex TYPE x)
+{
+  ++ccount;
+  P ();
+  return __real__ x;
+}
+
+TYPE
+(F(cimag)) (complex TYPE x)
+{
+  ++ccount;
+  P ();
+  return __imag__ x;
+}
+
+complex TYPE
+(F(conj)) (complex TYPE x)
+{
+  ++ccount;
+  P ();
+  return x;
+}
+
+complex TYPE
+(F(cproj)) (complex TYPE x)
+{
+  ++ccount;
+  P ();
+  return x;
+}
+
 #undef F
 #undef TYPE
 #undef count
+#undef ccount
 #undef TEST_INT
 #endif
diff --git a/math/test-tgmath2.c b/math/test-tgmath2.c
new file mode 100644
index 0000000000..edb723c95e
--- /dev/null
+++ b/math/test-tgmath2.c
@@ -0,0 +1,488 @@
+/* Test compilation of tgmath macros.
+   Copyright (C) 2007 Free Software Foundation, Inc.
+   This file is part of the GNU C Library.
+   Contributed by Jakub Jelinek <jakub@redhat.com>, 2007.
+
+   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, write to the Free
+   Software Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA
+   02111-1307 USA.  */
+
+#ifndef HAVE_MAIN
+#undef __NO_MATH_INLINES
+#define __NO_MATH_INLINES 1
+#include <math.h>
+#include <complex.h>
+#include <stdio.h>
+#include <string.h>
+#include <tgmath.h>
+
+//#define DEBUG
+
+typedef complex float cfloat;
+typedef complex double cdouble;
+#ifndef NO_LONG_DOUBLE
+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,
+#ifndef NO_LONG_DOUBLE
+    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];
+
+int
+test (const int Vint4, const long long int Vllong4)
+{
+  int result = 0;
+  int quo = 0;
+
+#define FAIL(str) \
+  do								\
+    {								\
+      printf ("%s failure on line %d\n", (str), __LINE__);	\
+      result = 1;						\
+    }								\
+  while (0)
+#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");			\
+	  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)
+
+  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);
+
+  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 (Vldouble1), 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);
+
+  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);
+
+  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);
+
+  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);
+
+  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);
+
+#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);
+
+  BINARY_TEST (atan2, atan2);
+
+#define my_remquo(x, y) remquo (x, y, &quo)
+  BINARY_TEST (my_remquo, remquo);
+#undef my_remquo
+
+  BINARY_CTEST (pow, pow);
+
+  /* Testing all arguments of fma would be just too expensive,
+     so test just some.  */
+#define my_fma(x, y) fma (x, y, vfloat3)
+  BINARY_TEST (my_fma, fma);
+#undef my_fma
+#define my_fma(x, y) fma (x, vfloat3, y)
+  BINARY_TEST (my_fma, fma);
+#undef my_fma
+#define my_fma(x, y) fma (Vfloat3, x, y)
+  BINARY_TEST (my_fma, fma);
+#undef my_fma
+  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;
+}
+
+int
+main (void)
+{
+  return test (vint1, vllong1);
+}
+
+/* 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"
+
+#ifndef NO_LONG_DOUBLE
+#define F(name) name##l
+#define TYPE ldouble
+#define CTYPE cldouble
+#define T Tldouble
+#define C Tcldouble
+#include "test-tgmath2.c"
+#endif
+
+#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
diff --git a/math/tgmath.h b/math/tgmath.h
index f3d23f6e52..4f45aaa0f2 100644
--- a/math/tgmath.h
+++ b/math/tgmath.h
@@ -1,4 +1,4 @@
-/* Copyright (C) 1997, 1998, 1999, 2000, 2001, 2003, 2004, 2005
+/* Copyright (C) 1997, 1998, 1999, 2000, 2001, 2003, 2004, 2005, 2007
    Free Software Foundation, Inc.
    This file is part of the GNU C Library.
 
@@ -53,202 +53,187 @@
 /* The tgmath real type for T, where E is 0 if T is an integer type and
    1 for a floating type.  */
 # define __tgmath_real_type_sub(T, E) \
-  __typeof__(*(0 ? (__typeof__ (0 ? (double *) 0 : (void *) (E))) 0	      \
-		 : (__typeof__ (0 ? (T *) 0 : (void *) (!(E)))) 0))
+  __typeof__ (*(0 ? (__typeof__ (0 ? (double *) 0 : (void *) (E))) 0	      \
+		  : (__typeof__ (0 ? (T *) 0 : (void *) (!(E)))) 0))
 
 /* The tgmath real type of EXPR.  */
 # define __tgmath_real_type(expr) \
-  __tgmath_real_type_sub(__typeof__(expr), __floating_type(__typeof__(expr)))
+  __tgmath_real_type_sub (__typeof__ ((__typeof__ (expr)) 0),		      \
+			  __floating_type (__typeof__ (expr)))
 
 
 /* We have two kinds of generic macros: to support functions which are
    only defined on real valued parameters and those which are defined
    for complex functions as well.  */
 # define __TGMATH_UNARY_REAL_ONLY(Val, Fct) \
-     (__extension__ ({ __tgmath_real_type (Val) __tgmres;		      \
-		       if (sizeof (Val) == sizeof (double)		      \
-			   || __builtin_classify_type (Val) != 8)	      \
-			 __tgmres = Fct (Val);				      \
-		       else if (sizeof (Val) == sizeof (float))		      \
-			 __tgmres = Fct##f (Val);			      \
-		       else						      \
-			 __tgmres = __tgml(Fct) (Val);			      \
-		       __tgmres; }))
+     (__extension__ ((sizeof (Val) == sizeof (double)			      \
+		      || __builtin_classify_type (Val) != 8)		      \
+		     ? (__tgmath_real_type (Val)) Fct (Val)		      \
+		     : (sizeof (Val) == sizeof (float))			      \
+		     ? (__tgmath_real_type (Val)) Fct##f (Val)		      \
+		     : (__tgmath_real_type (Val)) __tgml(Fct) (Val)))
 
 # define __TGMATH_UNARY_REAL_RET_ONLY(Val, RetType, Fct) \
-     (__extension__ ({ RetType __tgmres;				      \
-		       if (sizeof (Val) == sizeof (double)		      \
-			   || __builtin_classify_type (Val) != 8)	      \
-			 __tgmres = Fct (Val);				      \
-		       else if (sizeof (Val) == sizeof (float))		      \
-			 __tgmres = Fct##f (Val);			      \
-		       else						      \
-			 __tgmres = __tgml(Fct) (Val);			      \
-		       __tgmres; }))
+     (__extension__ ((sizeof (Val) == sizeof (double)			      \
+		      || __builtin_classify_type (Val) != 8)		      \
+		     ? (RetType) Fct (Val)				      \
+		     : (sizeof (Val) == sizeof (float))			      \
+		     ? (RetType) Fct##f (Val)				      \
+		     : (RetType) __tgml(Fct) (Val)))
 
 # define __TGMATH_BINARY_FIRST_REAL_ONLY(Val1, Val2, Fct) \
-     (__extension__ ({ __tgmath_real_type (Val1) __tgmres;		      \
-		       if (sizeof (Val1) == sizeof (double)		      \
-			   || __builtin_classify_type (Val1) != 8)	      \
-			 __tgmres = Fct (Val1, Val2);			      \
-		       else if (sizeof (Val1) == sizeof (float))	      \
-			 __tgmres = Fct##f (Val1, Val2);		      \
-		       else						      \
-			 __tgmres = __tgml(Fct) (Val1, Val2);		      \
-		       __tgmres; }))
+     (__extension__ ((sizeof (Val1) == sizeof (double)			      \
+		      || __builtin_classify_type (Val1) != 8)		      \
+		     ? (__tgmath_real_type (Val1)) Fct (Val1, Val2)	      \
+		     : (sizeof (Val1) == sizeof (float))		      \
+		     ? (__tgmath_real_type (Val1)) Fct##f (Val1, Val2)	      \
+		     : (__tgmath_real_type (Val1)) __tgml(Fct) (Val1, Val2)))
 
 # define __TGMATH_BINARY_REAL_ONLY(Val1, Val2, Fct) \
-     (__extension__ ({ __typeof((__tgmath_real_type (Val1)) 0		      \
-				+ (__tgmath_real_type (Val2)) 0) __tgmres;    \
-		       if ((sizeof (Val1) > sizeof (double)		      \
-			    || sizeof (Val2) > sizeof (double))		      \
-			   && __builtin_classify_type ((Val1) + (Val2)) == 8) \
-			 __tgmres = __tgml(Fct) (Val1, Val2);		      \
-		       else if (sizeof (Val1) == sizeof (double)	      \
-				|| sizeof (Val2) == sizeof (double)	      \
-				|| __builtin_classify_type (Val1) != 8	      \
-				|| __builtin_classify_type (Val2) != 8)	      \
-			 __tgmres = Fct (Val1, Val2);			      \
-		       else						      \
-			 __tgmres = Fct##f (Val1, Val2);		      \
-		       __tgmres; }))
+     (__extension__ (((sizeof (Val1) > sizeof (double)			      \
+		       || sizeof (Val2) > sizeof (double))		      \
+		      && __builtin_classify_type ((Val1) + (Val2)) == 8)      \
+		     ? (__typeof ((__tgmath_real_type (Val1)) 0		      \
+				   + (__tgmath_real_type (Val2)) 0))	      \
+		       __tgml(Fct) (Val1, Val2)				      \
+		     : (sizeof (Val1) == sizeof (double)		      \
+			|| sizeof (Val2) == sizeof (double)		      \
+			|| __builtin_classify_type (Val1) != 8		      \
+			|| __builtin_classify_type (Val2) != 8)		      \
+		     ? (__typeof ((__tgmath_real_type (Val1)) 0		      \
+				   + (__tgmath_real_type (Val2)) 0))	      \
+		       Fct (Val1, Val2)					      \
+		     : (__typeof ((__tgmath_real_type (Val1)) 0		      \
+				   + (__tgmath_real_type (Val2)) 0))	      \
+		       Fct##f (Val1, Val2)))
 
 # define __TGMATH_TERNARY_FIRST_SECOND_REAL_ONLY(Val1, Val2, Val3, Fct) \
-     (__extension__ ({ __typeof((__tgmath_real_type (Val1)) 0		      \
-				+ (__tgmath_real_type (Val2)) 0) __tgmres;    \
-		       if ((sizeof (Val1) > sizeof (double)		      \
-			    || sizeof (Val2) > sizeof (double))		      \
-			   && __builtin_classify_type ((Val1) + (Val2)) == 8) \
-			 __tgmres = __tgml(Fct) (Val1, Val2, Val3);	      \
-		       else if (sizeof (Val1) == sizeof (double)	      \
-				|| sizeof (Val2) == sizeof (double)	      \
-				|| __builtin_classify_type (Val1) != 8	      \
-				|| __builtin_classify_type (Val2) != 8)	      \
-			 __tgmres = Fct (Val1, Val2, Val3);		      \
-		       else						      \
-			 __tgmres = Fct##f (Val1, Val2, Val3);		      \
-		       __tgmres; }))
+     (__extension__ (((sizeof (Val1) > sizeof (double)			      \
+		       || sizeof (Val2) > sizeof (double))		      \
+		      && __builtin_classify_type ((Val1) + (Val2)) == 8)      \
+		     ? (__typeof ((__tgmath_real_type (Val1)) 0		      \
+				   + (__tgmath_real_type (Val2)) 0))	      \
+		       __tgml(Fct) (Val1, Val2, Val3)			      \
+		     : (sizeof (Val1) == sizeof (double)		      \
+			|| sizeof (Val2) == sizeof (double)		      \
+			|| __builtin_classify_type (Val1) != 8		      \
+			|| __builtin_classify_type (Val2) != 8)		      \
+		     ? (__typeof ((__tgmath_real_type (Val1)) 0		      \
+				   + (__tgmath_real_type (Val2)) 0))	      \
+		       Fct (Val1, Val2, Val3)				      \
+		     : (__typeof ((__tgmath_real_type (Val1)) 0		      \
+				   + (__tgmath_real_type (Val2)) 0))	      \
+		       Fct##f (Val1, Val2, Val3)))
 
 # define __TGMATH_TERNARY_REAL_ONLY(Val1, Val2, Val3, Fct) \
-     (__extension__ ({ __typeof((__tgmath_real_type (Val1)) 0		      \
-				+ (__tgmath_real_type (Val2)) 0		      \
-				+ (__tgmath_real_type (Val3)) 0) __tgmres;    \
-		       if ((sizeof (Val1) > sizeof (double)		      \
-			    || sizeof (Val2) > sizeof (double)		      \
-			    || sizeof (Val3) > sizeof (double))		      \
-			   && __builtin_classify_type ((Val1) + (Val2)	      \
-						       + (Val3)) == 8)	      \
-			 __tgmres = __tgml(Fct) (Val1, Val2, Val3);	      \
-		       else if (sizeof (Val1) == sizeof (double)	      \
-				|| sizeof (Val2) == sizeof (double)	      \
-				|| sizeof (Val3) == sizeof (double)	      \
-				|| __builtin_classify_type (Val1) != 8	      \
-				|| __builtin_classify_type (Val2) != 8	      \
-				|| __builtin_classify_type (Val3) != 8)	      \
-			 __tgmres = Fct (Val1, Val2, Val3);		      \
-		       else						      \
-			 __tgmres = Fct##f (Val1, Val2, Val3);		      \
-		       __tgmres; }))
+     (__extension__ (((sizeof (Val1) > sizeof (double)			      \
+		       || sizeof (Val2) > sizeof (double)		      \
+		       || sizeof (Val3) > sizeof (double))		      \
+		      && __builtin_classify_type ((Val1) + (Val2) + (Val3))   \
+			 == 8)						      \
+		     ? (__typeof ((__tgmath_real_type (Val1)) 0		      \
+				   + (__tgmath_real_type (Val2)) 0	      \
+				   + (__tgmath_real_type (Val3)) 0))	      \
+		       __tgml(Fct) (Val1, Val2, Val3)			      \
+		     : (sizeof (Val1) == sizeof (double)		      \
+			|| sizeof (Val2) == sizeof (double)		      \
+			|| sizeof (Val3) == sizeof (double)		      \
+			|| __builtin_classify_type (Val1) != 8		      \
+			|| __builtin_classify_type (Val2) != 8		      \
+			|| __builtin_classify_type (Val3) != 8)		      \
+		     ? (__typeof ((__tgmath_real_type (Val1)) 0		      \
+				   + (__tgmath_real_type (Val2)) 0	      \
+				   + (__tgmath_real_type (Val3)) 0))	      \
+		       Fct (Val1, Val2, Val3)				      \
+		     : (__typeof ((__tgmath_real_type (Val1)) 0		      \
+				   + (__tgmath_real_type (Val2)) 0	      \
+				   + (__tgmath_real_type (Val3)) 0))	      \
+		       Fct##f (Val1, Val2, Val3)))
 
 /* XXX This definition has to be changed as soon as the compiler understands
    the imaginary keyword.  */
 # define __TGMATH_UNARY_REAL_IMAG(Val, Fct, Cfct) \
-     (__extension__ ({ __tgmath_real_type (Val) __tgmres;		      \
-		       if (sizeof (__real__ (Val)) > sizeof (double)	      \
-			   && __builtin_classify_type (__real__ (Val)) == 8)  \
-			 {						      \
-			   if (sizeof (__real__ (Val)) == sizeof (Val))	      \
-			     __tgmres = __tgml(Fct) (Val);		      \
-			   else						      \
-			     __tgmres = __tgml(Cfct) (Val);		      \
-			 }						      \
-		       else if (sizeof (__real__ (Val)) == sizeof (double)    \
-				|| __builtin_classify_type (__real__ (Val))   \
-				   != 8)				      \
-			 {						      \
-			   if (sizeof (__real__ (Val)) == sizeof (Val))	      \
-			     __tgmres = Fct (Val);			      \
-			   else						      \
-			     __tgmres = Cfct (Val);			      \
-			 }						      \
-		       else						      \
-			 {						      \
-			   if (sizeof (__real__ (Val)) == sizeof (Val))	      \
-			     __tgmres = Fct##f (Val);			      \
-			   else						      \
-			     __tgmres = Cfct##f (Val);			      \
-			 }						      \
-		       __tgmres; }))
+     (__extension__ ((sizeof (__real__ (Val)) == sizeof (double)	      \
+		      || __builtin_classify_type (__real__ (Val)) != 8)	      \
+		     ? ((sizeof (__real__ (Val)) == sizeof (Val))	      \
+			? (__tgmath_real_type (Val)) Fct (Val)		      \
+			: (__tgmath_real_type (Val)) Cfct (Val))	      \
+		     : (sizeof (__real__ (Val)) == sizeof (float))	      \
+		     ? ((sizeof (__real__ (Val)) == sizeof (Val))	      \
+			? (__tgmath_real_type (Val)) Fct##f (Val)	      \
+			: (__tgmath_real_type (Val)) Cfct##f (Val))	      \
+		     : ((sizeof (__real__ (Val)) == sizeof (Val))	      \
+			? (__tgmath_real_type (Val)) __tgml(Fct) (Val)	      \
+			: (__tgmath_real_type (Val)) __tgml(Cfct) (Val))))
+
+# define __TGMATH_UNARY_IMAG(Val, Cfct) \
+     (__extension__ ((sizeof (__real__ (Val)) == sizeof (double)	      \
+		      || __builtin_classify_type (__real__ (Val)) != 8)	      \
+		     ? (__typeof__ ((__tgmath_real_type (Val)) 0	      \
+				    + _Complex_I)) Cfct (Val)		      \
+		     : (sizeof (__real__ (Val)) == sizeof (float))	      \
+		     ? (__typeof__ ((__tgmath_real_type (Val)) 0	      \
+				    + _Complex_I)) Cfct##f (Val)	      \
+		     : (__typeof__ ((__tgmath_real_type (Val)) 0	      \
+				    + _Complex_I)) __tgml(Cfct) (Val)))
 
 /* XXX This definition has to be changed as soon as the compiler understands
    the imaginary keyword.  */
 # define __TGMATH_UNARY_REAL_IMAG_RET_REAL(Val, Fct, Cfct) \
-     (__extension__ ({ __tgmath_real_type (Val) __tgmres;		      \
-		       if (sizeof (__real__ (Val)) > sizeof (double)	      \
-			   && __builtin_classify_type (__real__ (Val)) == 8)  \
-			 {						      \
-			   if (sizeof (__real__ (Val)) == sizeof (Val))	      \
-			     __tgmres = __tgml(Fct) (Val);		      \
-			   else						      \
-			     __tgmres = __tgml(Cfct) (Val);		      \
-			 }						      \
-		       else if (sizeof (__real__ (Val)) == sizeof (double)    \
-				|| __builtin_classify_type (__real__ (Val))   \
-				   != 8)				      \
-			 {						      \
-			   if (sizeof (__real__ (Val)) == sizeof (Val))	      \
-			     __tgmres = Fct (Val);			      \
-			   else						      \
-			     __tgmres = Cfct (Val);			      \
-			 }						      \
-		       else						      \
-			 {						      \
-			   if (sizeof (__real__ (Val)) == sizeof (Val))	      \
-			     __tgmres = Fct##f (Val);			      \
-			   else						      \
-			     __tgmres = Cfct##f (Val);			      \
-			 }						      \
-		       __real__ __tgmres; }))
+     (__extension__ ((sizeof (__real__ (Val)) == sizeof (double)	      \
+		      || __builtin_classify_type (__real__ (Val)) != 8)	      \
+		     ? ((sizeof (__real__ (Val)) == sizeof (Val))	      \
+			? (__typeof__ (__real__ (__tgmath_real_type (Val)) 0))\
+			  Fct (Val)					      \
+			: (__typeof__ (__real__ (__tgmath_real_type (Val)) 0))\
+			  Cfct (Val))					      \
+		     : (sizeof (__real__ (Val)) == sizeof (float))	      \
+		     ? ((sizeof (__real__ (Val)) == sizeof (Val))	      \
+			? (__typeof__ (__real__ (__tgmath_real_type (Val)) 0))\
+			  Fct##f (Val)					      \
+			: (__typeof__ (__real__ (__tgmath_real_type (Val)) 0))\
+			  Cfct##f (Val))				      \
+		     : ((sizeof (__real__ (Val)) == sizeof (Val))	      \
+			? (__typeof__ (__real__ (__tgmath_real_type (Val)) 0))\
+			  __tgml(Fct) (Val)				      \
+			: (__typeof__ (__real__ (__tgmath_real_type (Val)) 0))\
+			  __tgml(Cfct) (Val))))
 
 /* XXX This definition has to be changed as soon as the compiler understands
    the imaginary keyword.  */
 # define __TGMATH_BINARY_REAL_IMAG(Val1, Val2, Fct, Cfct) \
-     (__extension__ ({ __typeof((__tgmath_real_type (Val1)) 0		      \
-				+ (__tgmath_real_type (Val2)) 0) __tgmres;    \
-		       if ((sizeof (__real__ (Val1)) > sizeof (double)	      \
-			    || sizeof (__real__ (Val2)) > sizeof (double))    \
-			   && __builtin_classify_type (__real__ (Val1)	      \
-						       + __real__ (Val2))     \
-			      == 8)					      \
-			 {						      \
-			   if (sizeof (__real__ (Val1)) == sizeof (Val1)      \
-			       && sizeof (__real__ (Val2)) == sizeof (Val2))  \
-			     __tgmres = __tgml(Fct) (Val1, Val2);	      \
-			   else						      \
-			     __tgmres = __tgml(Cfct) (Val1, Val2);	      \
-			 }						      \
-		       else if (sizeof (__real__ (Val1)) == sizeof (double)   \
-				|| sizeof (__real__ (Val2)) == sizeof(double) \
-				|| (__builtin_classify_type (__real__ (Val1)) \
-				    != 8)				      \
-				|| (__builtin_classify_type (__real__ (Val2)) \
-				    != 8))				      \
-			 {						      \
-			   if (sizeof (__real__ (Val1)) == sizeof (Val1)      \
-			       && sizeof (__real__ (Val2)) == sizeof (Val2))  \
-			     __tgmres = Fct (Val1, Val2);		      \
-			   else						      \
-			     __tgmres = Cfct (Val1, Val2);		      \
-			 }						      \
-		       else						      \
-			 {						      \
-			   if (sizeof (__real__ (Val1)) == sizeof (Val1)      \
-			       && sizeof (__real__ (Val2)) == sizeof (Val2))  \
-			     __tgmres = Fct##f (Val1, Val2);		      \
-			   else						      \
-			     __tgmres = Cfct##f (Val1, Val2);		      \
-			 }						      \
-		       __tgmres; }))
+     (__extension__ (((sizeof (__real__ (Val1)) > sizeof (double)	      \
+		       || sizeof (__real__ (Val2)) > sizeof (double))	      \
+		      && __builtin_classify_type (__real__ (Val1)	      \
+						  + __real__ (Val2)) == 8)    \
+		     ? ((sizeof (__real__ (Val1)) == sizeof (Val1)	      \
+			 && sizeof (__real__ (Val2)) == sizeof (Val2))	      \
+			? (__typeof ((__tgmath_real_type (Val1)) 0	      \
+				   + (__tgmath_real_type (Val2)) 0))	      \
+			  __tgml(Fct) (Val1, Val2)			      \
+			: (__typeof ((__tgmath_real_type (Val1)) 0	      \
+				   + (__tgmath_real_type (Val2)) 0))	      \
+			  __tgml(Cfct) (Val1, Val2))			      \
+		     : (sizeof (__real__ (Val1)) == sizeof (double)	      \
+			|| sizeof (__real__ (Val2)) == sizeof (double)	      \
+			|| __builtin_classify_type (__real__ (Val1)) != 8     \
+			|| __builtin_classify_type (__real__ (Val2)) != 8)    \
+		     ? ((sizeof (__real__ (Val1)) == sizeof (Val1)	      \
+			 && sizeof (__real__ (Val2)) == sizeof (Val2))	      \
+			? (__typeof ((__tgmath_real_type (Val1)) 0	      \
+				   + (__tgmath_real_type (Val2)) 0))	      \
+			  Fct (Val1, Val2)				      \
+			: (__typeof ((__tgmath_real_type (Val1)) 0	      \
+				   + (__tgmath_real_type (Val2)) 0))	      \
+			  Cfct (Val1, Val2))				      \
+		     : ((sizeof (__real__ (Val1)) == sizeof (Val1)	      \
+			 && sizeof (__real__ (Val2)) == sizeof (Val2))	      \
+			? (__typeof ((__tgmath_real_type (Val1)) 0	      \
+				   + (__tgmath_real_type (Val2)) 0))	      \
+			  Fct##f (Val1, Val2)				      \
+			: (__typeof ((__tgmath_real_type (Val1)) 0	      \
+				   + (__tgmath_real_type (Val2)) 0))	      \
+			  Cfct##f (Val1, Val2))))
 #else
 # error "Unsupported compiler; you cannot use <tgmath.h>"
 #endif
@@ -447,10 +432,10 @@
 #define carg(Val) __TGMATH_UNARY_REAL_IMAG_RET_REAL (Val, carg, carg)
 
 /* Complex conjugate of Z.  */
-#define conj(Val) __TGMATH_UNARY_REAL_IMAG (Val, conj, conj)
+#define conj(Val) __TGMATH_UNARY_IMAG (Val, conj)
 
 /* Projection of Z onto the Riemann sphere.  */
-#define cproj(Val) __TGMATH_UNARY_REAL_IMAG (Val, cproj, cproj)
+#define cproj(Val) __TGMATH_UNARY_IMAG (Val, cproj)
 
 
 /* Decomposing complex values.  */