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[/] [openrisc/] [trunk/] [gnu-old/] [gcc-4.2.2/] [gcc/] [testsuite/] [gcc.dg/] [torture/] [builtin-power-1.c] - Rev 823
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/* Copyright (C) 2004 Free Software Foundation. Verify that built-in folding of various math "power" functions is correctly performed by the compiler. Written by Kaveh Ghazi, 2004-03-11. */ /* { dg-do link } */ /* { dg-options "-ffast-math" } */ /* { dg-options "-ffast-math -mmacosx-version-min=10.3" { target powerpc-*-darwin* } } */ /* { dg-options "-ffast-math -std=c99" { target *-*-solaris2* } } */ #include "../builtins-config.h" #ifdef HAVE_C99_RUNTIME #define C99CODE(CODE) CODE #else #define C99CODE(CODE) 0 #endif #define PROTOTYPE(FN) extern double FN(double); extern float FN##f(float); \ extern long double FN##l(long double); #define PROTOTYPE2(FN) extern double FN(double, double); \ extern float FN##f(float, float); \ extern long double FN##l(long double, long double); PROTOTYPE(fabs) PROTOTYPE(sqrt) PROTOTYPE(cbrt) PROTOTYPE2(pow) void test(double d1, double d2, double d3, float f1, float f2, float f3, long double ld1, long double ld2, long double ld3) { /* Test N1root(N2root(x)) -> pow(x,1/(N1*N2)). */ /* E.g. sqrt(cbrt(x)) -> pow(x,1/6). */ /* The `ABS' argument is `fabs' when the transformation only works for nonnegative arguments. Otherwise it's blank. */ #define ROOT_ROOT(FN1,N1,FN2,N2,ABS) \ extern void link_failure_##FN1##_##FN2(void); \ if (FN1(FN2(ABS(d1))) != pow(ABS(d1),1.0/(N1*N2)) \ || C99CODE (FN1##f(FN2##f(ABS(f1))) != powf(ABS(f1),1.0F/(N1*N2))) \ || C99CODE (FN1##l(FN2##l(ABS(ld1))) != powl(ABS(ld1),1.0L/(N1*N2)))) \ link_failure_##FN1##_##FN2() ROOT_ROOT(sqrt,2,sqrt,2,); ROOT_ROOT(sqrt,2,cbrt,3,); ROOT_ROOT(cbrt,3,sqrt,2,); ROOT_ROOT(cbrt,3,cbrt,3,fabs); /* Test pow(Nroot(x),y) -> pow(x,y/N). */ /* The `ABS' argument is `fabs' when the transformation only works for nonnegative arguments. Otherwise it's blank. */ #define POW_ROOT(FN,N,ABS) \ extern void link_failure_pow_##FN(void); \ if (pow(FN(ABS(d1)), d2) != pow(ABS(d1),d2/N) \ || powf(FN##f(ABS(f1)),f2) != powf(ABS(f1),f2/N) \ || powl(FN##l(ABS(ld1)),ld2) != powl(ABS(ld1),ld2/N)) \ link_failure_pow_##FN() POW_ROOT(sqrt,2,); POW_ROOT(cbrt,3,fabs); /* Test Nroot(pow(x,y)) -> pow(x,y/N). */ /* The `ABS' argument is `fabs' when the transformation only works for nonnegative arguments. Otherwise it's blank. */ #define ROOT_POW(FN,N,ABS) \ extern void link_failure_##FN##_pow(void); \ if (FN(pow(ABS(d1), d2)) != pow(ABS(d1),d2/N) \ || FN##f(powf(ABS(f1),f2)) != powf(ABS(f1),f2/N) \ || FN##l(powl(ABS(ld1),ld2)) != powl(ABS(ld1),ld2/N)) \ link_failure_##FN##_pow() ROOT_POW(sqrt,2,fabs); ROOT_POW(cbrt,3,fabs); /* Test pow(pow(x,y),z) -> pow(x,y*z). */ #define POW_POW \ extern void link_failure_pow_pow(void); \ if (pow(pow(d1, d2), d3) != pow(d1,d2*d3) \ || powf(powf(f1,f2),f3) != powf(f1,f2*f3) \ || powl(powl(ld1,ld2),ld3) != powl(ld1,ld2*ld3)) \ link_failure_pow_pow() POW_POW; /* Test Nroot(x)*Nroot(y) -> Nroot(x*y). */ #define ROOT_X_ROOT(FN) \ extern void link_failure_root_x_root(void); \ if (FN(d1)*FN(d2) != FN(d1*d2) \ || FN##f(f1)*FN##f(f2) != FN##f(f1*f2) \ || FN##l(ld1)*FN##l(ld2) != FN##l(ld1*ld2)) \ link_failure_root_x_root() ROOT_X_ROOT(sqrt); ROOT_X_ROOT(cbrt); /* Test pow(x,y)*pow(x,z) -> pow(x,y+z). */ #define POW_X_POW \ extern void link_failure_pow_x_pow(void); \ if (pow(d1,d2)*pow(d1,d3) != pow(d1,d2+d3) \ || powf(f1,f2)*powf(f1,f3) != powf(f1,f2+f3) \ || powl(ld1,ld2)*powl(ld1,ld3) != powl(ld1,ld2+ld3)) \ link_failure_pow_x_pow() POW_X_POW; } int main (void) { return 0; }
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