/* Copyright (C) 2004 Free Software Foundation. Verify that built-in math function conversion to smaller FP types is correctly performed by the compiler. Written by Kaveh Ghazi, 2004-03-17. */ /* { dg-do link } */ /* { dg-options "-ffast-math" } */ /* { dg-add-options c99_runtime } */ #include "../builtins-config.h" /* This check is necessary when converting to a C99 function. */ #ifdef HAVE_C99_RUNTIME #define C99CODE(CODE) (CODE) #define MAYBEC99(CODE, C99) (CODE) #else #define C99CODE(CODE) 0 #define MAYBEC99(CODE, C99) (!(C99) && (CODE)) #endif void test(double d1, float f1, long double ld1) { /* Test converting math builtins to narrower FP types based on a narrowing cast on the outside of the call. MATHFN is the function to test, and C99 is 0/1 depending on whether the `double' version of MATHFN is a C99 function. The optimization is only performed if the replacement function is actually narrower in width, so check that first. */ #define OUTER_CAST1(MATHFN, C99) \ extern void link_failure_outer_##MATHFN##l_##MATHFN##_1(void); \ extern void link_failure_outer_##MATHFN##l_##MATHFN##_2(void); \ extern void link_failure_outer_##MATHFN##l_##MATHFN##f_1(void); \ extern void link_failure_outer_##MATHFN##l_##MATHFN##f_2(void); \ extern void link_failure_outer_##MATHFN##_##MATHFN##f_1(void); \ extern void link_failure_outer_##MATHFN##_##MATHFN##f_2(void); \ if (sizeof (long double) > sizeof (double) \ && MAYBEC99 ((double) __builtin_##MATHFN##l((double)ld1) != __builtin_##MATHFN(ld1), C99)) \ link_failure_outer_##MATHFN##l_##MATHFN##_1(); \ if (sizeof (long double) > sizeof (double) \ && MAYBEC99 ((double) __builtin_##MATHFN##l(d1) != __builtin_##MATHFN(d1), C99)) \ link_failure_outer_##MATHFN##l_##MATHFN##_1(); \ if (sizeof (long double) > sizeof (double) \ && MAYBEC99 ((double) __builtin_##MATHFN##l(f1) != __builtin_##MATHFN(f1), C99)) \ link_failure_outer_##MATHFN##l_##MATHFN##_2(); \ if (sizeof (long double) > sizeof (float) \ && C99CODE ((float) __builtin_##MATHFN##l((float) ld1) != __builtin_##MATHFN##f(ld1))) \ link_failure_outer_##MATHFN##l_##MATHFN##f_1(); \ if (sizeof (long double) > sizeof (float) \ && C99CODE ((float) __builtin_##MATHFN##l((float) d1) != __builtin_##MATHFN##f(d1))) \ link_failure_outer_##MATHFN##l_##MATHFN##f_1(); \ if (sizeof (long double) > sizeof (float) \ && C99CODE ((float) __builtin_##MATHFN##l(f1) != __builtin_##MATHFN##f(f1))) \ link_failure_outer_##MATHFN##l_##MATHFN##f_2(); \ if (sizeof (double) > sizeof (float) \ && C99CODE ((float) __builtin_##MATHFN((float) ld1) != __builtin_##MATHFN##f(ld1))) \ link_failure_outer_##MATHFN##_##MATHFN##f_1(); \ if (sizeof (double) > sizeof (float) \ && C99CODE ((float) __builtin_##MATHFN((float) d1) != __builtin_##MATHFN##f(d1))) \ link_failure_outer_##MATHFN##_##MATHFN##f_1(); \ if (sizeof (double) > sizeof (float) \ && C99CODE ((float) __builtin_##MATHFN(f1) != __builtin_##MATHFN##f(f1))) \ link_failure_outer_##MATHFN##_##MATHFN##f_2() /* Test converting math builtins to narrower FP types based on if the argument is a narrower type (perhaps implicitly) cast to a wider one. */ #define INNER_CAST1(MATHFN, C99) \ extern void link_failure_inner_##MATHFN##l_##MATHFN(void); \ extern void link_failure_inner_##MATHFN##l_##MATHFN##f(void); \ extern void link_failure_inner_##MATHFN##_##MATHFN##f(void); \ if (sizeof (long double) > sizeof (double) \ && MAYBEC99 (__builtin_##MATHFN##l(d1) != (long double) __builtin_##MATHFN(d1), C99)) \ link_failure_inner_##MATHFN##l_##MATHFN(); \ if (sizeof (long double) > sizeof (float) \ && C99CODE (__builtin_##MATHFN##l(f1) != (long double) __builtin_##MATHFN##f(f1))) \ link_failure_inner_##MATHFN##l_##MATHFN##f(); \ if (sizeof (long double) > sizeof (float) \ && C99CODE (__builtin_##MATHFN##l((double)f1) != (long double) __builtin_##MATHFN##f(f1))) \ link_failure_inner_##MATHFN##l_##MATHFN##f(); \ if (sizeof (double) > sizeof (float) \ && C99CODE (__builtin_##MATHFN(f1) != (double) __builtin_##MATHFN##f(f1))) \ link_failure_inner_##MATHFN##_##MATHFN##f() #ifdef __OPTIMIZE__ OUTER_CAST1 (acos, /*C99=*/ 0); OUTER_CAST1 (acosh, /*C99=*/ 1); OUTER_CAST1 (asin, /*C99=*/ 1); OUTER_CAST1 (asinh, /*C99=*/ 1); OUTER_CAST1 (atan, /*C99=*/ 0); OUTER_CAST1 (atanh, /*C99=*/ 1); OUTER_CAST1 (cbrt, /*C99=*/ 1); OUTER_CAST1 (cos, /*C99=*/ 0); OUTER_CAST1 (cosh, /*C99=*/ 0); OUTER_CAST1 (erf, /*C99=*/ 1); OUTER_CAST1 (erfc, /*C99=*/ 1); OUTER_CAST1 (exp, /*C99=*/ 0); OUTER_CAST1 (exp2, /*C99=*/ 1); OUTER_CAST1 (expm1, /*C99=*/ 1); OUTER_CAST1 (fabs, /*C99=*/ 0); OUTER_CAST1 (log, /*C99=*/ 0); OUTER_CAST1 (log10, /*C99=*/ 0); OUTER_CAST1 (log1p, /*C99=*/ 1); OUTER_CAST1 (log2, /*C99=*/ 1); OUTER_CAST1 (logb, /*C99=*/ 1); OUTER_CAST1 (sin, /*C99=*/ 0); OUTER_CAST1 (sinh, /*C99=*/ 0); OUTER_CAST1 (sqrt, /*C99=*/ 0); OUTER_CAST1 (tan, /*C99=*/ 0); OUTER_CAST1 (tanh, /*C99=*/ 0); OUTER_CAST1 (tgamma, /*C99=*/ 1); INNER_CAST1 (ceil, /*C99=*/ 0); OUTER_CAST1 (ceil, /*C99=*/ 0); INNER_CAST1 (floor, /*C99=*/ 0); OUTER_CAST1 (floor, /*C99=*/ 0); INNER_CAST1 (lceil, /*C99=*/ 1); OUTER_CAST1 (lceil, /*C99=*/ 1); INNER_CAST1 (lfloor, /*C99=*/ 1); OUTER_CAST1 (lfloor, /*C99=*/ 1); INNER_CAST1 (lrint, /*C99=*/ 1); OUTER_CAST1 (lrint, /*C99=*/ 1); INNER_CAST1 (lround, /*C99=*/ 1); OUTER_CAST1 (lround, /*C99=*/ 1); INNER_CAST1 (llceil, /*C99=*/ 1); OUTER_CAST1 (llceil, /*C99=*/ 1); INNER_CAST1 (llfloor, /*C99=*/ 1); OUTER_CAST1 (llfloor, /*C99=*/ 1); INNER_CAST1 (llrint, /*C99=*/ 1); OUTER_CAST1 (llrint, /*C99=*/ 1); INNER_CAST1 (llround, /*C99=*/ 1); OUTER_CAST1 (llround, /*C99=*/ 1); INNER_CAST1 (nearbyint, /*C99=*/ 1); OUTER_CAST1 (nearbyint, /*C99=*/ 1); INNER_CAST1 (rint, /*C99=*/ 1); OUTER_CAST1 (rint, /*C99=*/ 1); INNER_CAST1 (round, /*C99=*/ 1); OUTER_CAST1 (round, /*C99=*/ 1); INNER_CAST1 (trunc, /*C99=*/ 1); OUTER_CAST1 (trunc, /*C99=*/ 1); #endif /* __OPTIMIZE__ */ } int main (void) { return 0; }