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author | pk33 <pk33@pk33.space> | 2024-11-01 23:51:15 +0100 |
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committer | pk33 <pk33@pk33.space> | 2024-11-01 23:51:15 +0100 |
commit | 294b585994da4427ac98a8353ff41aed5f301d54 (patch) | |
tree | aafcd885c1fe28819ef1a511da5e6344411b5597 /include/musl/tgmath.h | |
parent | f0958551b43959174d28b2056f584d2081494e6c (diff) | |
download | engine33-294b585994da4427ac98a8353ff41aed5f301d54.tar.gz |
Import and fix old code
Diffstat (limited to 'include/musl/tgmath.h')
-rw-r--r-- | include/musl/tgmath.h | 270 |
1 files changed, 270 insertions, 0 deletions
diff --git a/include/musl/tgmath.h b/include/musl/tgmath.h new file mode 100644 index 0000000..e41ccac --- /dev/null +++ b/include/musl/tgmath.h @@ -0,0 +1,270 @@ +#ifndef _TGMATH_H +#define _TGMATH_H + +/* +the return types are only correct with gcc (__GNUC__) +otherwise they are long double or long double complex + +the long double version of a function is never chosen when +sizeof(double) == sizeof(long double) +(but the return type is set correctly with gcc) +*/ + +#include <math.h> +#include <complex.h> + +#define __IS_FP(x) (sizeof((x)+1ULL) == sizeof((x)+1.0f)) +#define __IS_CX(x) (__IS_FP(x) && sizeof(x) == sizeof((x)+I)) +#define __IS_REAL(x) (__IS_FP(x) && 2*sizeof(x) == sizeof((x)+I)) + +#define __FLT(x) (__IS_REAL(x) && sizeof(x) == sizeof(float)) +#define __LDBL(x) (__IS_REAL(x) && sizeof(x) == sizeof(long double) && sizeof(long double) != sizeof(double)) + +#define __FLTCX(x) (__IS_CX(x) && sizeof(x) == sizeof(float complex)) +#define __DBLCX(x) (__IS_CX(x) && sizeof(x) == sizeof(double complex)) +#define __LDBLCX(x) (__IS_CX(x) && sizeof(x) == sizeof(long double complex) && sizeof(long double) != sizeof(double)) + +/* return type */ + +#ifdef __GNUC__ +/* +the result must be casted to the right type +(otherwise the result type is determined by the conversion +rules applied to all the function return types so it is long +double or long double complex except for integral functions) + +this cannot be done in c99, so the typeof gcc extension is +used and that the type of ?: depends on wether an operand is +a null pointer constant or not +(in c11 _Generic can be used) + +the c arguments below must be integer constant expressions +so they can be in null pointer constants +(__IS_FP above was carefully chosen this way) +*/ +/* if c then t else void */ +#define __type1(c,t) __typeof__(*(0?(t*)0:(void*)!(c))) +/* if c then t1 else t2 */ +#define __type2(c,t1,t2) __typeof__(*(0?(__type1(c,t1)*)0:(__type1(!(c),t2)*)0)) +/* cast to double when x is integral, otherwise use typeof(x) */ +#define __RETCAST(x) ( \ + __type2(__IS_FP(x), __typeof__(x), double)) +/* 2 args case, should work for complex types (cpow) */ +#define __RETCAST_2(x, y) ( \ + __type2(__IS_FP(x) && __IS_FP(y), \ + __typeof__((x)+(y)), \ + __typeof__((x)+(y)+1.0))) +/* 3 args case (fma only) */ +#define __RETCAST_3(x, y, z) ( \ + __type2(__IS_FP(x) && __IS_FP(y) && __IS_FP(z), \ + __typeof__((x)+(y)+(z)), \ + __typeof__((x)+(y)+(z)+1.0))) +/* drop complex from the type of x */ +/* TODO: wrong when sizeof(long double)==sizeof(double) */ +#define __RETCAST_REAL(x) ( \ + __type2(__IS_FP(x) && sizeof((x)+I) == sizeof(float complex), float, \ + __type2(sizeof((x)+1.0+I) == sizeof(double complex), double, \ + long double))) +/* add complex to the type of x */ +#define __RETCAST_CX(x) (__typeof__(__RETCAST(x)0+I)) +#else +#define __RETCAST(x) +#define __RETCAST_2(x, y) +#define __RETCAST_3(x, y, z) +#define __RETCAST_REAL(x) +#define __RETCAST_CX(x) +#endif + +/* function selection */ + +#define __tg_real_nocast(fun, x) ( \ + __FLT(x) ? fun ## f (x) : \ + __LDBL(x) ? fun ## l (x) : \ + fun(x) ) + +#define __tg_real(fun, x) (__RETCAST(x)__tg_real_nocast(fun, x)) + +#define __tg_real_2_1(fun, x, y) (__RETCAST(x)( \ + __FLT(x) ? fun ## f (x, y) : \ + __LDBL(x) ? fun ## l (x, y) : \ + fun(x, y) )) + +#define __tg_real_2(fun, x, y) (__RETCAST_2(x, y)( \ + __FLT(x) && __FLT(y) ? fun ## f (x, y) : \ + __LDBL((x)+(y)) ? fun ## l (x, y) : \ + fun(x, y) )) + +#define __tg_complex(fun, x) (__RETCAST_CX(x)( \ + __FLTCX((x)+I) && __IS_FP(x) ? fun ## f (x) : \ + __LDBLCX((x)+I) ? fun ## l (x) : \ + fun(x) )) + +#define __tg_complex_retreal(fun, x) (__RETCAST_REAL(x)( \ + __FLTCX((x)+I) && __IS_FP(x) ? fun ## f (x) : \ + __LDBLCX((x)+I) ? fun ## l (x) : \ + fun(x) )) + +#define __tg_real_complex(fun, x) (__RETCAST(x)( \ + __FLTCX(x) ? c ## fun ## f (x) : \ + __DBLCX(x) ? c ## fun (x) : \ + __LDBLCX(x) ? c ## fun ## l (x) : \ + __FLT(x) ? fun ## f (x) : \ + __LDBL(x) ? fun ## l (x) : \ + fun(x) )) + +/* special cases */ + +#define __tg_real_remquo(x, y, z) (__RETCAST_2(x, y)( \ + __FLT(x) && __FLT(y) ? remquof(x, y, z) : \ + __LDBL((x)+(y)) ? remquol(x, y, z) : \ + remquo(x, y, z) )) + +#define __tg_real_fma(x, y, z) (__RETCAST_3(x, y, z)( \ + __FLT(x) && __FLT(y) && __FLT(z) ? fmaf(x, y, z) : \ + __LDBL((x)+(y)+(z)) ? fmal(x, y, z) : \ + fma(x, y, z) )) + +#define __tg_real_complex_pow(x, y) (__RETCAST_2(x, y)( \ + __FLTCX((x)+(y)) && __IS_FP(x) && __IS_FP(y) ? cpowf(x, y) : \ + __FLTCX((x)+(y)) ? cpow(x, y) : \ + __DBLCX((x)+(y)) ? cpow(x, y) : \ + __LDBLCX((x)+(y)) ? cpowl(x, y) : \ + __FLT(x) && __FLT(y) ? powf(x, y) : \ + __LDBL((x)+(y)) ? powl(x, y) : \ + pow(x, y) )) + +#define __tg_real_complex_fabs(x) (__RETCAST_REAL(x)( \ + __FLTCX(x) ? cabsf(x) : \ + __DBLCX(x) ? cabs(x) : \ + __LDBLCX(x) ? cabsl(x) : \ + __FLT(x) ? fabsf(x) : \ + __LDBL(x) ? fabsl(x) : \ + fabs(x) )) + +/* suppress any macros in math.h or complex.h */ + +#undef acos +#undef acosh +#undef asin +#undef asinh +#undef atan +#undef atan2 +#undef atanh +#undef carg +#undef cbrt +#undef ceil +#undef cimag +#undef conj +#undef copysign +#undef cos +#undef cosh +#undef cproj +#undef creal +#undef erf +#undef erfc +#undef exp +#undef exp2 +#undef expm1 +#undef fabs +#undef fdim +#undef floor +#undef fma +#undef fmax +#undef fmin +#undef fmod +#undef frexp +#undef hypot +#undef ilogb +#undef ldexp +#undef lgamma +#undef llrint +#undef llround +#undef log +#undef log10 +#undef log1p +#undef log2 +#undef logb +#undef lrint +#undef lround +#undef nearbyint +#undef nextafter +#undef nexttoward +#undef pow +#undef remainder +#undef remquo +#undef rint +#undef round +#undef scalbln +#undef scalbn +#undef sin +#undef sinh +#undef sqrt +#undef tan +#undef tanh +#undef tgamma +#undef trunc + +/* tg functions */ + +#define acos(x) __tg_real_complex(acos, (x)) +#define acosh(x) __tg_real_complex(acosh, (x)) +#define asin(x) __tg_real_complex(asin, (x)) +#define asinh(x) __tg_real_complex(asinh, (x)) +#define atan(x) __tg_real_complex(atan, (x)) +#define atan2(x,y) __tg_real_2(atan2, (x), (y)) +#define atanh(x) __tg_real_complex(atanh, (x)) +#define carg(x) __tg_complex_retreal(carg, (x)) +#define cbrt(x) __tg_real(cbrt, (x)) +#define ceil(x) __tg_real(ceil, (x)) +#define cimag(x) __tg_complex_retreal(cimag, (x)) +#define conj(x) __tg_complex(conj, (x)) +#define copysign(x,y) __tg_real_2(copysign, (x), (y)) +#define cos(x) __tg_real_complex(cos, (x)) +#define cosh(x) __tg_real_complex(cosh, (x)) +#define cproj(x) __tg_complex(cproj, (x)) +#define creal(x) __tg_complex_retreal(creal, (x)) +#define erf(x) __tg_real(erf, (x)) +#define erfc(x) __tg_real(erfc, (x)) +#define exp(x) __tg_real_complex(exp, (x)) +#define exp2(x) __tg_real(exp2, (x)) +#define expm1(x) __tg_real(expm1, (x)) +#define fabs(x) __tg_real_complex_fabs(x) +#define fdim(x,y) __tg_real_2(fdim, (x), (y)) +#define floor(x) __tg_real(floor, (x)) +#define fma(x,y,z) __tg_real_fma((x), (y), (z)) +#define fmax(x,y) __tg_real_2(fmax, (x), (y)) +#define fmin(x,y) __tg_real_2(fmin, (x), (y)) +#define fmod(x,y) __tg_real_2(fmod, (x), (y)) +#define frexp(x,y) __tg_real_2_1(frexp, (x), (y)) +#define hypot(x,y) __tg_real_2(hypot, (x), (y)) +#define ilogb(x) __tg_real_nocast(ilogb, (x)) +#define ldexp(x,y) __tg_real_2_1(ldexp, (x), (y)) +#define lgamma(x) __tg_real(lgamma, (x)) +#define llrint(x) __tg_real_nocast(llrint, (x)) +#define llround(x) __tg_real_nocast(llround, (x)) +#define log(x) __tg_real_complex(log, (x)) +#define log10(x) __tg_real(log10, (x)) +#define log1p(x) __tg_real(log1p, (x)) +#define log2(x) __tg_real(log2, (x)) +#define logb(x) __tg_real(logb, (x)) +#define lrint(x) __tg_real_nocast(lrint, (x)) +#define lround(x) __tg_real_nocast(lround, (x)) +#define nearbyint(x) __tg_real(nearbyint, (x)) +#define nextafter(x,y) __tg_real_2(nextafter, (x), (y)) +#define nexttoward(x,y) __tg_real_2(nexttoward, (x), (y)) +#define pow(x,y) __tg_real_complex_pow((x), (y)) +#define remainder(x,y) __tg_real_2(remainder, (x), (y)) +#define remquo(x,y,z) __tg_real_remquo((x), (y), (z)) +#define rint(x) __tg_real(rint, (x)) +#define round(x) __tg_real(round, (x)) +#define scalbln(x,y) __tg_real_2_1(scalbln, (x), (y)) +#define scalbn(x,y) __tg_real_2_1(scalbn, (x), (y)) +#define sin(x) __tg_real_complex(sin, (x)) +#define sinh(x) __tg_real_complex(sinh, (x)) +#define sqrt(x) __tg_real_complex(sqrt, (x)) +#define tan(x) __tg_real_complex(tan, (x)) +#define tanh(x) __tg_real_complex(tanh, (x)) +#define tgamma(x) __tg_real(tgamma, (x)) +#define trunc(x) __tg_real(trunc, (x)) + +#endif |