/*===---- tgmath.h - Standard header for type generic math ----------------===*\ * * Copyright (c) 2009 Howard Hinnant * * Permission is hereby granted, free of charge, to any person obtaining a copy * of this software and associated documentation files (the "Software"), to deal * in the Software without restriction, including without limitation the rights * to use, copy, modify, merge, publish, distribute, sublicense, and/or sell * copies of the Software, and to permit persons to whom the Software is * furnished to do so, subject to the following conditions: * * The above copyright notice and this permission notice shall be included in * all copies or substantial portions of the Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN * THE SOFTWARE. * \*===----------------------------------------------------------------------===*/ #ifndef __CLANG_TGMATH_H #define __CLANG_TGMATH_H /* C99 7.22 Type-generic math <tgmath.h>. */ #include <math.h> /* * Allow additional definitions and implementation-defined values on Apple * platforms. This is done after #include <math.h> to avoid depcycle conflicts * between libcxx and darwin in C++ modules builds. */ #if defined(__APPLE__) && __STDC_HOSTED__ && __has_include_next(<tgmath.h>) # include_next <tgmath.h> #else /* C++ handles type genericity with overloading in math.h. */ #ifndef __cplusplus #include <complex.h> #define _TG_ATTRSp __attribute__((__overloadable__)) #define _TG_ATTRS __attribute__((__overloadable__, __always_inline__)) // promotion typedef void _Argument_type_is_not_arithmetic; static _Argument_type_is_not_arithmetic __tg_promote(...) __attribute__((__unavailable__,__overloadable__)); static double _TG_ATTRSp __tg_promote(int); static double _TG_ATTRSp __tg_promote(unsigned int); static double _TG_ATTRSp __tg_promote(long); static double _TG_ATTRSp __tg_promote(unsigned long); static double _TG_ATTRSp __tg_promote(long long); static double _TG_ATTRSp __tg_promote(unsigned long long); static float _TG_ATTRSp __tg_promote(float); static double _TG_ATTRSp __tg_promote(double); static long double _TG_ATTRSp __tg_promote(long double); static float _Complex _TG_ATTRSp __tg_promote(float _Complex); static double _Complex _TG_ATTRSp __tg_promote(double _Complex); static long double _Complex _TG_ATTRSp __tg_promote(long double _Complex); #define __tg_promote1(__x) (__typeof__(__tg_promote(__x))) #define __tg_promote2(__x, __y) (__typeof__(__tg_promote(__x) + \ __tg_promote(__y))) #define __tg_promote3(__x, __y, __z) (__typeof__(__tg_promote(__x) + \ __tg_promote(__y) + \ __tg_promote(__z))) // acos static float _TG_ATTRS __tg_acos(float __x) {return acosf(__x);} static double _TG_ATTRS __tg_acos(double __x) {return acos(__x);} static long double _TG_ATTRS __tg_acos(long double __x) {return acosl(__x);} static float _Complex _TG_ATTRS __tg_acos(float _Complex __x) {return cacosf(__x);} static double _Complex _TG_ATTRS __tg_acos(double _Complex __x) {return cacos(__x);} static long double _Complex _TG_ATTRS __tg_acos(long double _Complex __x) {return cacosl(__x);} #undef acos #define acos(__x) __tg_acos(__tg_promote1((__x))(__x)) // asin static float _TG_ATTRS __tg_asin(float __x) {return asinf(__x);} static double _TG_ATTRS __tg_asin(double __x) {return asin(__x);} static long double _TG_ATTRS __tg_asin(long double __x) {return asinl(__x);} static float _Complex _TG_ATTRS __tg_asin(float _Complex __x) {return casinf(__x);} static double _Complex _TG_ATTRS __tg_asin(double _Complex __x) {return casin(__x);} static long double _Complex _TG_ATTRS __tg_asin(long double _Complex __x) {return casinl(__x);} #undef asin #define asin(__x) __tg_asin(__tg_promote1((__x))(__x)) // atan static float _TG_ATTRS __tg_atan(float __x) {return atanf(__x);} static double _TG_ATTRS __tg_atan(double __x) {return atan(__x);} static long double _TG_ATTRS __tg_atan(long double __x) {return atanl(__x);} static float _Complex _TG_ATTRS __tg_atan(float _Complex __x) {return catanf(__x);} static double _Complex _TG_ATTRS __tg_atan(double _Complex __x) {return catan(__x);} static long double _Complex _TG_ATTRS __tg_atan(long double _Complex __x) {return catanl(__x);} #undef atan #define atan(__x) __tg_atan(__tg_promote1((__x))(__x)) // acosh static float _TG_ATTRS __tg_acosh(float __x) {return acoshf(__x);} static double _TG_ATTRS __tg_acosh(double __x) {return acosh(__x);} static long double _TG_ATTRS __tg_acosh(long double __x) {return acoshl(__x);} static float _Complex _TG_ATTRS __tg_acosh(float _Complex __x) {return cacoshf(__x);} static double _Complex _TG_ATTRS __tg_acosh(double _Complex __x) {return cacosh(__x);} static long double _Complex _TG_ATTRS __tg_acosh(long double _Complex __x) {return cacoshl(__x);} #undef acosh #define acosh(__x) __tg_acosh(__tg_promote1((__x))(__x)) // asinh static float _TG_ATTRS __tg_asinh(float __x) {return asinhf(__x);} static double _TG_ATTRS __tg_asinh(double __x) {return asinh(__x);} static long double _TG_ATTRS __tg_asinh(long double __x) {return asinhl(__x);} static float _Complex _TG_ATTRS __tg_asinh(float _Complex __x) {return casinhf(__x);} static double _Complex _TG_ATTRS __tg_asinh(double _Complex __x) {return casinh(__x);} static long double _Complex _TG_ATTRS __tg_asinh(long double _Complex __x) {return casinhl(__x);} #undef asinh #define asinh(__x) __tg_asinh(__tg_promote1((__x))(__x)) // atanh static float _TG_ATTRS __tg_atanh(float __x) {return atanhf(__x);} static double _TG_ATTRS __tg_atanh(double __x) {return atanh(__x);} static long double _TG_ATTRS __tg_atanh(long double __x) {return atanhl(__x);} static float _Complex _TG_ATTRS __tg_atanh(float _Complex __x) {return catanhf(__x);} static double _Complex _TG_ATTRS __tg_atanh(double _Complex __x) {return catanh(__x);} static long double _Complex _TG_ATTRS __tg_atanh(long double _Complex __x) {return catanhl(__x);} #undef atanh #define atanh(__x) __tg_atanh(__tg_promote1((__x))(__x)) // cos static float _TG_ATTRS __tg_cos(float __x) {return cosf(__x);} static double _TG_ATTRS __tg_cos(double __x) {return cos(__x);} static long double _TG_ATTRS __tg_cos(long double __x) {return cosl(__x);} static float _Complex _TG_ATTRS __tg_cos(float _Complex __x) {return ccosf(__x);} static double _Complex _TG_ATTRS __tg_cos(double _Complex __x) {return ccos(__x);} static long double _Complex _TG_ATTRS __tg_cos(long double _Complex __x) {return ccosl(__x);} #undef cos #define cos(__x) __tg_cos(__tg_promote1((__x))(__x)) // sin static float _TG_ATTRS __tg_sin(float __x) {return sinf(__x);} static double _TG_ATTRS __tg_sin(double __x) {return sin(__x);} static long double _TG_ATTRS __tg_sin(long double __x) {return sinl(__x);} static float _Complex _TG_ATTRS __tg_sin(float _Complex __x) {return csinf(__x);} static double _Complex _TG_ATTRS __tg_sin(double _Complex __x) {return csin(__x);} static long double _Complex _TG_ATTRS __tg_sin(long double _Complex __x) {return csinl(__x);} #undef sin #define sin(__x) __tg_sin(__tg_promote1((__x))(__x)) // tan static float _TG_ATTRS __tg_tan(float __x) {return tanf(__x);} static double _TG_ATTRS __tg_tan(double __x) {return tan(__x);} static long double _TG_ATTRS __tg_tan(long double __x) {return tanl(__x);} static float _Complex _TG_ATTRS __tg_tan(float _Complex __x) {return ctanf(__x);} static double _Complex _TG_ATTRS __tg_tan(double _Complex __x) {return ctan(__x);} static long double _Complex _TG_ATTRS __tg_tan(long double _Complex __x) {return ctanl(__x);} #undef tan #define tan(__x) __tg_tan(__tg_promote1((__x))(__x)) // cosh static float _TG_ATTRS __tg_cosh(float __x) {return coshf(__x);} static double _TG_ATTRS __tg_cosh(double __x) {return cosh(__x);} static long double _TG_ATTRS __tg_cosh(long double __x) {return coshl(__x);} static float _Complex _TG_ATTRS __tg_cosh(float _Complex __x) {return ccoshf(__x);} static double _Complex _TG_ATTRS __tg_cosh(double _Complex __x) {return ccosh(__x);} static long double _Complex _TG_ATTRS __tg_cosh(long double _Complex __x) {return ccoshl(__x);} #undef cosh #define cosh(__x) __tg_cosh(__tg_promote1((__x))(__x)) // sinh static float _TG_ATTRS __tg_sinh(float __x) {return sinhf(__x);} static double _TG_ATTRS __tg_sinh(double __x) {return sinh(__x);} static long double _TG_ATTRS __tg_sinh(long double __x) {return sinhl(__x);} static float _Complex _TG_ATTRS __tg_sinh(float _Complex __x) {return csinhf(__x);} static double _Complex _TG_ATTRS __tg_sinh(double _Complex __x) {return csinh(__x);} static long double _Complex _TG_ATTRS __tg_sinh(long double _Complex __x) {return csinhl(__x);} #undef sinh #define sinh(__x) __tg_sinh(__tg_promote1((__x))(__x)) // tanh static float _TG_ATTRS __tg_tanh(float __x) {return tanhf(__x);} static double _TG_ATTRS __tg_tanh(double __x) {return tanh(__x);} static long double _TG_ATTRS __tg_tanh(long double __x) {return tanhl(__x);} static float _Complex _TG_ATTRS __tg_tanh(float _Complex __x) {return ctanhf(__x);} static double _Complex _TG_ATTRS __tg_tanh(double _Complex __x) {return ctanh(__x);} static long double _Complex _TG_ATTRS __tg_tanh(long double _Complex __x) {return ctanhl(__x);} #undef tanh #define tanh(__x) __tg_tanh(__tg_promote1((__x))(__x)) // exp static float _TG_ATTRS __tg_exp(float __x) {return expf(__x);} static double _TG_ATTRS __tg_exp(double __x) {return exp(__x);} static long double _TG_ATTRS __tg_exp(long double __x) {return expl(__x);} static float _Complex _TG_ATTRS __tg_exp(float _Complex __x) {return cexpf(__x);} static double _Complex _TG_ATTRS __tg_exp(double _Complex __x) {return cexp(__x);} static long double _Complex _TG_ATTRS __tg_exp(long double _Complex __x) {return cexpl(__x);} #undef exp #define exp(__x) __tg_exp(__tg_promote1((__x))(__x)) // log static float _TG_ATTRS __tg_log(float __x) {return logf(__x);} static double _TG_ATTRS __tg_log(double __x) {return log(__x);} static long double _TG_ATTRS __tg_log(long double __x) {return logl(__x);} static float _Complex _TG_ATTRS __tg_log(float _Complex __x) {return clogf(__x);} static double _Complex _TG_ATTRS __tg_log(double _Complex __x) {return clog(__x);} static long double _Complex _TG_ATTRS __tg_log(long double _Complex __x) {return clogl(__x);} #undef log #define log(__x) __tg_log(__tg_promote1((__x))(__x)) // pow static float _TG_ATTRS __tg_pow(float __x, float __y) {return powf(__x, __y);} static double _TG_ATTRS __tg_pow(double __x, double __y) {return pow(__x, __y);} static long double _TG_ATTRS __tg_pow(long double __x, long double __y) {return powl(__x, __y);} static float _Complex _TG_ATTRS __tg_pow(float _Complex __x, float _Complex __y) {return cpowf(__x, __y);} static double _Complex _TG_ATTRS __tg_pow(double _Complex __x, double _Complex __y) {return cpow(__x, __y);} static long double _Complex _TG_ATTRS __tg_pow(long double _Complex __x, long double _Complex __y) {return cpowl(__x, __y);} #undef pow #define pow(__x, __y) __tg_pow(__tg_promote2((__x), (__y))(__x), \ __tg_promote2((__x), (__y))(__y)) // sqrt static float _TG_ATTRS __tg_sqrt(float __x) {return sqrtf(__x);} static double _TG_ATTRS __tg_sqrt(double __x) {return sqrt(__x);} static long double _TG_ATTRS __tg_sqrt(long double __x) {return sqrtl(__x);} static float _Complex _TG_ATTRS __tg_sqrt(float _Complex __x) {return csqrtf(__x);} static double _Complex _TG_ATTRS __tg_sqrt(double _Complex __x) {return csqrt(__x);} static long double _Complex _TG_ATTRS __tg_sqrt(long double _Complex __x) {return csqrtl(__x);} #undef sqrt #define sqrt(__x) __tg_sqrt(__tg_promote1((__x))(__x)) // fabs static float _TG_ATTRS __tg_fabs(float __x) {return fabsf(__x);} static double _TG_ATTRS __tg_fabs(double __x) {return fabs(__x);} static long double _TG_ATTRS __tg_fabs(long double __x) {return fabsl(__x);} static float _TG_ATTRS __tg_fabs(float _Complex __x) {return cabsf(__x);} static double _TG_ATTRS __tg_fabs(double _Complex __x) {return cabs(__x);} static long double _TG_ATTRS __tg_fabs(long double _Complex __x) {return cabsl(__x);} #undef fabs #define fabs(__x) __tg_fabs(__tg_promote1((__x))(__x)) // atan2 static float _TG_ATTRS __tg_atan2(float __x, float __y) {return atan2f(__x, __y);} static double _TG_ATTRS __tg_atan2(double __x, double __y) {return atan2(__x, __y);} static long double _TG_ATTRS __tg_atan2(long double __x, long double __y) {return atan2l(__x, __y);} #undef atan2 #define atan2(__x, __y) __tg_atan2(__tg_promote2((__x), (__y))(__x), \ __tg_promote2((__x), (__y))(__y)) // cbrt static float _TG_ATTRS __tg_cbrt(float __x) {return cbrtf(__x);} static double _TG_ATTRS __tg_cbrt(double __x) {return cbrt(__x);} static long double _TG_ATTRS __tg_cbrt(long double __x) {return cbrtl(__x);} #undef cbrt #define cbrt(__x) __tg_cbrt(__tg_promote1((__x))(__x)) // ceil static float _TG_ATTRS __tg_ceil(float __x) {return ceilf(__x);} static double _TG_ATTRS __tg_ceil(double __x) {return ceil(__x);} static long double _TG_ATTRS __tg_ceil(long double __x) {return ceill(__x);} #undef ceil #define ceil(__x) __tg_ceil(__tg_promote1((__x))(__x)) // copysign static float _TG_ATTRS __tg_copysign(float __x, float __y) {return copysignf(__x, __y);} static double _TG_ATTRS __tg_copysign(double __x, double __y) {return copysign(__x, __y);} static long double _TG_ATTRS __tg_copysign(long double __x, long double __y) {return copysignl(__x, __y);} #undef copysign #define copysign(__x, __y) __tg_copysign(__tg_promote2((__x), (__y))(__x), \ __tg_promote2((__x), (__y))(__y)) // erf static float _TG_ATTRS __tg_erf(float __x) {return erff(__x);} static double _TG_ATTRS __tg_erf(double __x) {return erf(__x);} static long double _TG_ATTRS __tg_erf(long double __x) {return erfl(__x);} #undef erf #define erf(__x) __tg_erf(__tg_promote1((__x))(__x)) // erfc static float _TG_ATTRS __tg_erfc(float __x) {return erfcf(__x);} static double _TG_ATTRS __tg_erfc(double __x) {return erfc(__x);} static long double _TG_ATTRS __tg_erfc(long double __x) {return erfcl(__x);} #undef erfc #define erfc(__x) __tg_erfc(__tg_promote1((__x))(__x)) // exp2 static float _TG_ATTRS __tg_exp2(float __x) {return exp2f(__x);} static double _TG_ATTRS __tg_exp2(double __x) {return exp2(__x);} static long double _TG_ATTRS __tg_exp2(long double __x) {return exp2l(__x);} #undef exp2 #define exp2(__x) __tg_exp2(__tg_promote1((__x))(__x)) // expm1 static float _TG_ATTRS __tg_expm1(float __x) {return expm1f(__x);} static double _TG_ATTRS __tg_expm1(double __x) {return expm1(__x);} static long double _TG_ATTRS __tg_expm1(long double __x) {return expm1l(__x);} #undef expm1 #define expm1(__x) __tg_expm1(__tg_promote1((__x))(__x)) // fdim static float _TG_ATTRS __tg_fdim(float __x, float __y) {return fdimf(__x, __y);} static double _TG_ATTRS __tg_fdim(double __x, double __y) {return fdim(__x, __y);} static long double _TG_ATTRS __tg_fdim(long double __x, long double __y) {return fdiml(__x, __y);} #undef fdim #define fdim(__x, __y) __tg_fdim(__tg_promote2((__x), (__y))(__x), \ __tg_promote2((__x), (__y))(__y)) // floor static float _TG_ATTRS __tg_floor(float __x) {return floorf(__x);} static double _TG_ATTRS __tg_floor(double __x) {return floor(__x);} static long double _TG_ATTRS __tg_floor(long double __x) {return floorl(__x);} #undef floor #define floor(__x) __tg_floor(__tg_promote1((__x))(__x)) // fma static float _TG_ATTRS __tg_fma(float __x, float __y, float __z) {return fmaf(__x, __y, __z);} static double _TG_ATTRS __tg_fma(double __x, double __y, double __z) {return fma(__x, __y, __z);} static long double _TG_ATTRS __tg_fma(long double __x,long double __y, long double __z) {return fmal(__x, __y, __z);} #undef fma #define fma(__x, __y, __z) \ __tg_fma(__tg_promote3((__x), (__y), (__z))(__x), \ __tg_promote3((__x), (__y), (__z))(__y), \ __tg_promote3((__x), (__y), (__z))(__z)) // fmax static float _TG_ATTRS __tg_fmax(float __x, float __y) {return fmaxf(__x, __y);} static double _TG_ATTRS __tg_fmax(double __x, double __y) {return fmax(__x, __y);} static long double _TG_ATTRS __tg_fmax(long double __x, long double __y) {return fmaxl(__x, __y);} #undef fmax #define fmax(__x, __y) __tg_fmax(__tg_promote2((__x), (__y))(__x), \ __tg_promote2((__x), (__y))(__y)) // fmin static float _TG_ATTRS __tg_fmin(float __x, float __y) {return fminf(__x, __y);} static double _TG_ATTRS __tg_fmin(double __x, double __y) {return fmin(__x, __y);} static long double _TG_ATTRS __tg_fmin(long double __x, long double __y) {return fminl(__x, __y);} #undef fmin #define fmin(__x, __y) __tg_fmin(__tg_promote2((__x), (__y))(__x), \ __tg_promote2((__x), (__y))(__y)) // fmod static float _TG_ATTRS __tg_fmod(float __x, float __y) {return fmodf(__x, __y);} static double _TG_ATTRS __tg_fmod(double __x, double __y) {return fmod(__x, __y);} static long double _TG_ATTRS __tg_fmod(long double __x, long double __y) {return fmodl(__x, __y);} #undef fmod #define fmod(__x, __y) __tg_fmod(__tg_promote2((__x), (__y))(__x), \ __tg_promote2((__x), (__y))(__y)) // frexp static float _TG_ATTRS __tg_frexp(float __x, int* __y) {return frexpf(__x, __y);} static double _TG_ATTRS __tg_frexp(double __x, int* __y) {return frexp(__x, __y);} static long double _TG_ATTRS __tg_frexp(long double __x, int* __y) {return frexpl(__x, __y);} #undef frexp #define frexp(__x, __y) __tg_frexp(__tg_promote1((__x))(__x), __y) // hypot static float _TG_ATTRS __tg_hypot(float __x, float __y) {return hypotf(__x, __y);} static double _TG_ATTRS __tg_hypot(double __x, double __y) {return hypot(__x, __y);} static long double _TG_ATTRS __tg_hypot(long double __x, long double __y) {return hypotl(__x, __y);} #undef hypot #define hypot(__x, __y) __tg_hypot(__tg_promote2((__x), (__y))(__x), \ __tg_promote2((__x), (__y))(__y)) // ilogb static int _TG_ATTRS __tg_ilogb(float __x) {return ilogbf(__x);} static int _TG_ATTRS __tg_ilogb(double __x) {return ilogb(__x);} static int _TG_ATTRS __tg_ilogb(long double __x) {return ilogbl(__x);} #undef ilogb #define ilogb(__x) __tg_ilogb(__tg_promote1((__x))(__x)) // ldexp static float _TG_ATTRS __tg_ldexp(float __x, int __y) {return ldexpf(__x, __y);} static double _TG_ATTRS __tg_ldexp(double __x, int __y) {return ldexp(__x, __y);} static long double _TG_ATTRS __tg_ldexp(long double __x, int __y) {return ldexpl(__x, __y);} #undef ldexp #define ldexp(__x, __y) __tg_ldexp(__tg_promote1((__x))(__x), __y) // lgamma static float _TG_ATTRS __tg_lgamma(float __x) {return lgammaf(__x);} static double _TG_ATTRS __tg_lgamma(double __x) {return lgamma(__x);} static long double _TG_ATTRS __tg_lgamma(long double __x) {return lgammal(__x);} #undef lgamma #define lgamma(__x) __tg_lgamma(__tg_promote1((__x))(__x)) // llrint static long long _TG_ATTRS __tg_llrint(float __x) {return llrintf(__x);} static long long _TG_ATTRS __tg_llrint(double __x) {return llrint(__x);} static long long _TG_ATTRS __tg_llrint(long double __x) {return llrintl(__x);} #undef llrint #define llrint(__x) __tg_llrint(__tg_promote1((__x))(__x)) // llround static long long _TG_ATTRS __tg_llround(float __x) {return llroundf(__x);} static long long _TG_ATTRS __tg_llround(double __x) {return llround(__x);} static long long _TG_ATTRS __tg_llround(long double __x) {return llroundl(__x);} #undef llround #define llround(__x) __tg_llround(__tg_promote1((__x))(__x)) // log10 static float _TG_ATTRS __tg_log10(float __x) {return log10f(__x);} static double _TG_ATTRS __tg_log10(double __x) {return log10(__x);} static long double _TG_ATTRS __tg_log10(long double __x) {return log10l(__x);} #undef log10 #define log10(__x) __tg_log10(__tg_promote1((__x))(__x)) // log1p static float _TG_ATTRS __tg_log1p(float __x) {return log1pf(__x);} static double _TG_ATTRS __tg_log1p(double __x) {return log1p(__x);} static long double _TG_ATTRS __tg_log1p(long double __x) {return log1pl(__x);} #undef log1p #define log1p(__x) __tg_log1p(__tg_promote1((__x))(__x)) // log2 static float _TG_ATTRS __tg_log2(float __x) {return log2f(__x);} static double _TG_ATTRS __tg_log2(double __x) {return log2(__x);} static long double _TG_ATTRS __tg_log2(long double __x) {return log2l(__x);} #undef log2 #define log2(__x) __tg_log2(__tg_promote1((__x))(__x)) // logb static float _TG_ATTRS __tg_logb(float __x) {return logbf(__x);} static double _TG_ATTRS __tg_logb(double __x) {return logb(__x);} static long double _TG_ATTRS __tg_logb(long double __x) {return logbl(__x);} #undef logb #define logb(__x) __tg_logb(__tg_promote1((__x))(__x)) // lrint static long _TG_ATTRS __tg_lrint(float __x) {return lrintf(__x);} static long _TG_ATTRS __tg_lrint(double __x) {return lrint(__x);} static long _TG_ATTRS __tg_lrint(long double __x) {return lrintl(__x);} #undef lrint #define lrint(__x) __tg_lrint(__tg_promote1((__x))(__x)) // lround static long _TG_ATTRS __tg_lround(float __x) {return lroundf(__x);} static long _TG_ATTRS __tg_lround(double __x) {return lround(__x);} static long _TG_ATTRS __tg_lround(long double __x) {return lroundl(__x);} #undef lround #define lround(__x) __tg_lround(__tg_promote1((__x))(__x)) // nearbyint static float _TG_ATTRS __tg_nearbyint(float __x) {return nearbyintf(__x);} static double _TG_ATTRS __tg_nearbyint(double __x) {return nearbyint(__x);} static long double _TG_ATTRS __tg_nearbyint(long double __x) {return nearbyintl(__x);} #undef nearbyint #define nearbyint(__x) __tg_nearbyint(__tg_promote1((__x))(__x)) // nextafter static float _TG_ATTRS __tg_nextafter(float __x, float __y) {return nextafterf(__x, __y);} static double _TG_ATTRS __tg_nextafter(double __x, double __y) {return nextafter(__x, __y);} static long double _TG_ATTRS __tg_nextafter(long double __x, long double __y) {return nextafterl(__x, __y);} #undef nextafter #define nextafter(__x, __y) __tg_nextafter(__tg_promote2((__x), (__y))(__x), \ __tg_promote2((__x), (__y))(__y)) // nexttoward static float _TG_ATTRS __tg_nexttoward(float __x, long double __y) {return nexttowardf(__x, __y);} static double _TG_ATTRS __tg_nexttoward(double __x, long double __y) {return nexttoward(__x, __y);} static long double _TG_ATTRS __tg_nexttoward(long double __x, long double __y) {return nexttowardl(__x, __y);} #undef nexttoward #define nexttoward(__x, __y) __tg_nexttoward(__tg_promote1((__x))(__x), (__y)) // remainder static float _TG_ATTRS __tg_remainder(float __x, float __y) {return remainderf(__x, __y);} static double _TG_ATTRS __tg_remainder(double __x, double __y) {return remainder(__x, __y);} static long double _TG_ATTRS __tg_remainder(long double __x, long double __y) {return remainderl(__x, __y);} #undef remainder #define remainder(__x, __y) __tg_remainder(__tg_promote2((__x), (__y))(__x), \ __tg_promote2((__x), (__y))(__y)) // remquo static float _TG_ATTRS __tg_remquo(float __x, float __y, int* __z) {return remquof(__x, __y, __z);} static double _TG_ATTRS __tg_remquo(double __x, double __y, int* __z) {return remquo(__x, __y, __z);} static long double _TG_ATTRS __tg_remquo(long double __x,long double __y, int* __z) {return remquol(__x, __y, __z);} #undef remquo #define remquo(__x, __y, __z) \ __tg_remquo(__tg_promote2((__x), (__y))(__x), \ __tg_promote2((__x), (__y))(__y), \ (__z)) // rint static float _TG_ATTRS __tg_rint(float __x) {return rintf(__x);} static double _TG_ATTRS __tg_rint(double __x) {return rint(__x);} static long double _TG_ATTRS __tg_rint(long double __x) {return rintl(__x);} #undef rint #define rint(__x) __tg_rint(__tg_promote1((__x))(__x)) // round static float _TG_ATTRS __tg_round(float __x) {return roundf(__x);} static double _TG_ATTRS __tg_round(double __x) {return round(__x);} static long double _TG_ATTRS __tg_round(long double __x) {return roundl(__x);} #undef round #define round(__x) __tg_round(__tg_promote1((__x))(__x)) // scalbn static float _TG_ATTRS __tg_scalbn(float __x, int __y) {return scalbnf(__x, __y);} static double _TG_ATTRS __tg_scalbn(double __x, int __y) {return scalbn(__x, __y);} static long double _TG_ATTRS __tg_scalbn(long double __x, int __y) {return scalbnl(__x, __y);} #undef scalbn #define scalbn(__x, __y) __tg_scalbn(__tg_promote1((__x))(__x), __y) // scalbln static float _TG_ATTRS __tg_scalbln(float __x, long __y) {return scalblnf(__x, __y);} static double _TG_ATTRS __tg_scalbln(double __x, long __y) {return scalbln(__x, __y);} static long double _TG_ATTRS __tg_scalbln(long double __x, long __y) {return scalblnl(__x, __y);} #undef scalbln #define scalbln(__x, __y) __tg_scalbln(__tg_promote1((__x))(__x), __y) // tgamma static float _TG_ATTRS __tg_tgamma(float __x) {return tgammaf(__x);} static double _TG_ATTRS __tg_tgamma(double __x) {return tgamma(__x);} static long double _TG_ATTRS __tg_tgamma(long double __x) {return tgammal(__x);} #undef tgamma #define tgamma(__x) __tg_tgamma(__tg_promote1((__x))(__x)) // trunc static float _TG_ATTRS __tg_trunc(float __x) {return truncf(__x);} static double _TG_ATTRS __tg_trunc(double __x) {return trunc(__x);} static long double _TG_ATTRS __tg_trunc(long double __x) {return truncl(__x);} #undef trunc #define trunc(__x) __tg_trunc(__tg_promote1((__x))(__x)) // carg static float _TG_ATTRS __tg_carg(float __x) {return atan2f(0.F, __x);} static double _TG_ATTRS __tg_carg(double __x) {return atan2(0., __x);} static long double _TG_ATTRS __tg_carg(long double __x) {return atan2l(0.L, __x);} static float _TG_ATTRS __tg_carg(float _Complex __x) {return cargf(__x);} static double _TG_ATTRS __tg_carg(double _Complex __x) {return carg(__x);} static long double _TG_ATTRS __tg_carg(long double _Complex __x) {return cargl(__x);} #undef carg #define carg(__x) __tg_carg(__tg_promote1((__x))(__x)) // cimag static float _TG_ATTRS __tg_cimag(float __x) {return 0;} static double _TG_ATTRS __tg_cimag(double __x) {return 0;} static long double _TG_ATTRS __tg_cimag(long double __x) {return 0;} static float _TG_ATTRS __tg_cimag(float _Complex __x) {return cimagf(__x);} static double _TG_ATTRS __tg_cimag(double _Complex __x) {return cimag(__x);} static long double _TG_ATTRS __tg_cimag(long double _Complex __x) {return cimagl(__x);} #undef cimag #define cimag(__x) __tg_cimag(__tg_promote1((__x))(__x)) // conj static float _Complex _TG_ATTRS __tg_conj(float __x) {return __x;} static double _Complex _TG_ATTRS __tg_conj(double __x) {return __x;} static long double _Complex _TG_ATTRS __tg_conj(long double __x) {return __x;} static float _Complex _TG_ATTRS __tg_conj(float _Complex __x) {return conjf(__x);} static double _Complex _TG_ATTRS __tg_conj(double _Complex __x) {return conj(__x);} static long double _Complex _TG_ATTRS __tg_conj(long double _Complex __x) {return conjl(__x);} #undef conj #define conj(__x) __tg_conj(__tg_promote1((__x))(__x)) // cproj static float _Complex _TG_ATTRS __tg_cproj(float __x) {return cprojf(__x);} static double _Complex _TG_ATTRS __tg_cproj(double __x) {return cproj(__x);} static long double _Complex _TG_ATTRS __tg_cproj(long double __x) {return cprojl(__x);} static float _Complex _TG_ATTRS __tg_cproj(float _Complex __x) {return cprojf(__x);} static double _Complex _TG_ATTRS __tg_cproj(double _Complex __x) {return cproj(__x);} static long double _Complex _TG_ATTRS __tg_cproj(long double _Complex __x) {return cprojl(__x);} #undef cproj #define cproj(__x) __tg_cproj(__tg_promote1((__x))(__x)) // creal static float _TG_ATTRS __tg_creal(float __x) {return __x;} static double _TG_ATTRS __tg_creal(double __x) {return __x;} static long double _TG_ATTRS __tg_creal(long double __x) {return __x;} static float _TG_ATTRS __tg_creal(float _Complex __x) {return crealf(__x);} static double _TG_ATTRS __tg_creal(double _Complex __x) {return creal(__x);} static long double _TG_ATTRS __tg_creal(long double _Complex __x) {return creall(__x);} #undef creal #define creal(__x) __tg_creal(__tg_promote1((__x))(__x)) #undef _TG_ATTRSp #undef _TG_ATTRS #endif /* __cplusplus */ #endif /* __has_include_next */ #endif /* __CLANG_TGMATH_H */