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[/] [openrisc/] [trunk/] [gnu-old/] [gcc-4.2.2/] [gcc/] [testsuite/] [gcc.dg/] [torture/] [builtin-explog-1.c] - Rev 827
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/* Copyright (C) 2003, 2004 Free Software Foundation. Verify that built-in math function constant folding of log & exp is correctly performed by the compiler. Written by Kaveh Ghazi, 2003-09-05. */ /* { dg-do link } */ /* { dg-options "-ffast-math" } */ /* Define "e" with as many bits as found in builtins.c:dconste. */ #define M_E 2.7182818284590452353602874713526624977572470936999595749669676277241 #define M_EF 2.7182818284590452353602874713526624977572470936999595749669676277241F #define M_EL 2.7182818284590452353602874713526624977572470936999595749669676277241L /* Precision for comparison tests. */ #define PREC (sizeof (float) < sizeof (double) ? 0.0000001 : PRECF) #define PRECF 0.0001F #define PRECL (sizeof (float) < sizeof (long double) \ ? 0.0000000000001L : PRECF) #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(exp) PROTOTYPE(exp2) PROTOTYPE(exp10) PROTOTYPE(log) PROTOTYPE(log2) PROTOTYPE(log10) PROTOTYPE(pow10) PROTOTYPE(sqrt) PROTOTYPE(cbrt) PROTOTYPE2(pow) void test(double d1, double d2, float f1, float f2, long double ld1, long double ld2) { /* Test logN(1) -> 0. */ #define LOG_1(LOG) \ extern void link_failure_##LOG##_1(void); \ if (LOG(1.0) != 0.0 || LOG##f(1.0F) != 0.0F || LOG##l(1.0L) != 0.0L) \ link_failure_##LOG##_1() LOG_1(log); LOG_1(log2); LOG_1(log10); /* Test logN(N) -> 1. */ #define LOG_N(LOG, BASE) \ extern void link_failure_##LOG##_N(void); \ if (LOG(BASE) != 1.0 || LOG##f(BASE##F) != 1.0F || LOG##l(BASE##L) != 1.0L) \ link_failure_##LOG##_N() LOG_N(log, M_E); LOG_N(log2, 2.0); LOG_N(log10, 10.0); /* Test logN(expN(x)) -> x. */ #define LOGEXP_SAME(LOG, EXP) \ extern void link_failure_##LOG##_##EXP##_same(void); \ if (LOG(EXP(d1)) != d1 || LOG##f(EXP##f(f1)) != f1 \ || LOG##l(EXP##l(ld1)) != ld1) link_failure_##LOG##_##EXP##_same() LOGEXP_SAME(log,exp); LOGEXP_SAME(log2,exp2); LOGEXP_SAME(log10,exp10); LOGEXP_SAME(log10,pow10); /* Test logN(expM(x)) -> x*logN(M). */ #define LOGEXP(LOG, EXP, BASE) \ extern void link_failure_##LOG##_##EXP(void); \ if (LOG(EXP(d1)) != d1*LOG(BASE) || LOG##f(EXP##f(f1)) != f1*LOG##f(BASE##F) \ || LOG##l(EXP##l(ld1)) != ld1*LOG##l(BASE##L)) link_failure_##LOG##_##EXP() LOGEXP(log,exp,M_E); LOGEXP(log,exp2,2.0); LOGEXP(log,exp10,10.0); LOGEXP(log,pow10,10.0); LOGEXP(log2,exp,M_E); LOGEXP(log2,exp2,2.0); LOGEXP(log2,exp10,10.0); LOGEXP(log2,pow10,10.0); LOGEXP(log10,exp,M_E); LOGEXP(log10,exp2,2.0); LOGEXP(log10,exp10,10.0); LOGEXP(log10,pow10,10.0); /* Test logN(sqrt(x)) -> 0.5*logN(x). */ #define LOG_SQRT(LOG) \ extern void link_failure_##LOG##_sqrt(void); \ if (LOG(sqrt(d1)) != 0.5*LOG(d1) || LOG##f(sqrtf(f1)) != 0.5F*LOG##f(f1) \ || LOG##l(sqrtl(ld1)) != 0.5L*LOG##l(ld1)) link_failure_##LOG##_sqrt() LOG_SQRT(log); LOG_SQRT(log2); LOG_SQRT(log10); /* Test sqrt(expN(x)) -> expN(x*0.5). */ #define SQRT_EXP(EXP) \ extern void link_failure_sqrt_##EXP(void); \ if (sqrt(EXP(d1)) != EXP(d1*0.5) || sqrtf(EXP##f(f1)) != EXP##f(f1*0.5F) \ || sqrtl(EXP##l(ld1)) != EXP##l(ld1*0.5L)) link_failure_sqrt_##EXP() SQRT_EXP(exp); SQRT_EXP(exp2); SQRT_EXP(exp10); SQRT_EXP(pow10); /* Test logN(cbrt(x)) -> (1/3)*logN(x). */ #define LOG_CBRT(LOG) \ extern void link_failure_##LOG##_cbrt(void); \ if (LOG(cbrt(d1)) != (1.0/3)*LOG(d1) \ || LOG##f(cbrtf(f1)) != (1.0F/3)*LOG##f(f1) \ || LOG##l(cbrtl(ld1)) != (1.0L/3)*LOG##l(ld1)) link_failure_##LOG##_cbrt() LOG_CBRT(log); LOG_CBRT(log2); LOG_CBRT(log10); /* Test cbrt(expN(x)) -> expN(x/3). */ #define CBRT_EXP(EXP) \ extern void link_failure_cbrt_##EXP(void); \ if (cbrt(EXP(d1)) != EXP(d1/3.0) || cbrtf(EXP##f(f1)) != EXP##f(f1/3.0F) \ || cbrtl(EXP##l(ld1)) != EXP##l(ld1/3.0L)) link_failure_cbrt_##EXP() CBRT_EXP(exp); CBRT_EXP(exp2); CBRT_EXP(exp10); CBRT_EXP(pow10); /* Test logN(pow(x,y)) -> y*logN(x). */ #define LOG_POW(LOG, POW) \ extern void link_failure_##LOG##_##POW(void); \ if (LOG(POW(d1,d2)) != d2*LOG(d1) || LOG##f(POW##f(f1,f2)) != f2*LOG##f(f1) \ || LOG##l(POW##l(ld1,ld2)) != ld2*LOG##l(ld1)) link_failure_##LOG##_##POW() LOG_POW(log,pow); LOG_POW(log2,pow); LOG_POW(log10,pow); /* Test pow(expN(x),y)) -> expN(x*y). */ #define POW_EXP(POW, EXP) \ extern void link_failure_##POW##_##EXP(void); \ if (POW(EXP(d1),d2) != EXP(d1*d2) || POW##f(EXP##f(f1),f2) != EXP##f(f1*f2) \ || POW##l(EXP##l(ld1),ld2) != EXP##l(ld1*ld2)) link_failure_##POW##_##EXP() POW_EXP(pow, exp); POW_EXP(pow, exp2); POW_EXP(pow, exp10); POW_EXP(pow, pow10); /* Test expN(0) -> 1. */ #define EXP_0(EXP) \ extern void link_failure_##EXP##_0(void); \ if (EXP(0.0) != 1.0 || EXP##f(0.0F) != 1.0F || EXP##l(0.0L) != 1.0L) \ link_failure_##EXP##_0() EXP_0(exp); EXP_0(exp2); EXP_0(exp10); EXP_0(pow10); /* Test expN(1) -> N. */ #define EXP_N(EXP, BASE) \ extern void link_failure_##EXP##_N(void); \ if (EXP(1.0) != BASE || EXP##f(1.0F) != BASE##F || EXP##l(1.0L) != BASE##L) \ link_failure_##EXP##_N() EXP_N(exp, M_E); EXP_N(exp2, 2.0); EXP_N(exp10, 10.0); EXP_N(pow10, 10.0); /* Test expN(integer) -> N*N*N*... */ #define EXP_INT(EXP, BASE) \ extern void link_failure_##EXP##_INT(void); \ if (EXP(5.0) < (BASE)*(BASE)*(BASE)*(BASE)*(BASE) - PREC \ || EXP(5.0) > (BASE)*(BASE)*(BASE)*(BASE)*(BASE) + PREC \ || EXP##f(5.0F) < (BASE##F)*(BASE##F)*(BASE##F)*(BASE##F)*(BASE##F) -PRECF \ || EXP##f(5.0F) > (BASE##F)*(BASE##F)*(BASE##F)*(BASE##F)*(BASE##F) +PRECF \ || EXP##l(5.0L) < (BASE##L)*(BASE##L)*(BASE##L)*(BASE##L)*(BASE##L) -PRECL \ || EXP##l(5.0L) > (BASE##L)*(BASE##L)*(BASE##L)*(BASE##L)*(BASE##L) +PRECL) \ link_failure_##EXP##_INT() EXP_INT(exp, M_E); EXP_INT(exp2, 2.0); EXP_INT(exp10, 10.0); EXP_INT(pow10, 10.0); /* Test expN(logN(x)) -> x. */ #define EXPLOG_SAME(EXP, LOG) \ extern void link_failure_##EXP##_##LOG##_same(void); \ if (EXP(LOG(d1)) != d1 || EXP##f(LOG##f(f1)) != f1 \ || EXP##l(LOG##l(ld1)) != ld1) link_failure_##EXP##_##LOG##_same() EXPLOG_SAME(exp, log); EXPLOG_SAME(exp2, log2); EXPLOG_SAME(exp10, log10); EXPLOG_SAME(pow10, log10); /* Test expN(x)*expN(y)) -> expN(x+y). */ #define EXPXEXP(EXP) \ extern void link_failure_##EXP##X##EXP(void); \ if (EXP(d1)*EXP(d2) != EXP(d1+d2) || EXP##f(f1)*EXP##f(f2) != EXP##f(f1+f2) \ || EXP##l(ld1)*EXP##l(ld2) != EXP##l(ld1+ld2)) link_failure_##EXP##X##EXP() EXPXEXP(exp); EXPXEXP(exp2); EXPXEXP(exp10); EXPXEXP(pow10); /* Test x/expN(y) -> x*expN(-y). */ /* Test expN(x)/expN(y) -> expN(x-y). */ #define DIVEXP(EXP) \ extern void link_failure_div1_##EXP(void); \ if (d1/EXP(d2) != d1*EXP(-d2) || f1/EXP##f(f2) != f1*EXP##f(-f2) \ || ld1/EXP##l(ld2) != ld1*EXP##l(-ld2)) link_failure_div1_##EXP(); \ extern void link_failure_div2_##EXP(void); \ if (EXP(d1)/EXP(d2) != EXP(d1-d2) || EXP##f(f1)/EXP##f(f2) != EXP##f(f1-f2) \ || EXP##l(ld1)/EXP##l(ld2) != EXP##l(ld1-ld2)) link_failure_div2_##EXP() DIVEXP(exp); DIVEXP(exp2); DIVEXP(exp10); DIVEXP(pow10); } int main (void) { return 0; }
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