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| #ifndef _TGMATH_H |
| #define _TGMATH_H |
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| #include <math.h> |
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| #ifndef __cplusplus |
| #define __tgmath_real(x, F) \ |
| _Generic ((x), float: F##f, long double: F##l, default: F)(x) |
| #define __tgmath_real_2_1(x, y, F) \ |
| _Generic ((x), float: F##f, long double: F##l, default: F)(x, y) |
| #define __tgmath_real_2(x, y, F) \ |
| _Generic ((x)+(y), float: F##f, long double: F##l, default: F)(x, y) |
| #define __tgmath_real_3_2(x, y, z, F) \ |
| _Generic ((x)+(y), float: F##f, long double: F##l, default: F)(x, y, z) |
| #define __tgmath_real_3(x, y, z, F) \ |
| _Generic ((x)+(y)+(z), float: F##f, long double: F##l, default: F)(x, y, z) |
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| #define acos(z) __tgmath_real(z, acos) |
| #define asin(z) __tgmath_real(z, asin) |
| #define atan(z) __tgmath_real(z, atan) |
| #define acosh(z) __tgmath_real(z, acosh) |
| #define asinh(z) __tgmath_real(z, asinh) |
| #define atanh(z) __tgmath_real(z, atanh) |
| #define cos(z) __tgmath_real(z, cos) |
| #define sin(z) __tgmath_real(z, sin) |
| #define tan(z) __tgmath_real(z, tan) |
| #define cosh(z) __tgmath_real(z, cosh) |
| #define sinh(z) __tgmath_real(z, sinh) |
| #define tanh(z) __tgmath_real(z, tanh) |
| #define exp(z) __tgmath_real(z, exp) |
| #define log(z) __tgmath_real(z, log) |
| #define pow(z1,z2) __tgmath_real_2(z1, z2, pow) |
| #define sqrt(z) __tgmath_real(z, sqrt) |
| #define fabs(z) __tgmath_real(z, fabs) |
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| #define atan2(x,y) __tgmath_real_2(x, y, atan2) |
| #define cbrt(x) __tgmath_real(x, cbrt) |
| #define ceil(x) __tgmath_real(x, ceil) |
| #define copysign(x,y) __tgmath_real_2(x, y, copysign) |
| #define erf(x) __tgmath_real(x, erf) |
| #define erfc(x) __tgmath_real(x, erfc) |
| #define exp2(x) __tgmath_real(x, exp2) |
| #define expm1(x) __tgmath_real(x, expm1) |
| #define fdim(x,y) __tgmath_real_2(x, y, fdim) |
| #define floor(x) __tgmath_real(x, floor) |
| #define fma(x,y,z) __tgmath_real_3(x, y, z, fma) |
| #define fmax(x,y) __tgmath_real_2(x, y, fmax) |
| #define fmin(x,y) __tgmath_real_2(x, y, fmin) |
| #define fmod(x,y) __tgmath_real_2(x, y, fmod) |
| #define frexp(x,y) __tgmath_real_2_1(x, y, frexp) |
| #define hypot(x,y) __tgmath_real_2(x, y, hypot) |
| #define ilogb(x) __tgmath_real(x, ilogb) |
| #define ldexp(x,y) __tgmath_real_2_1(x, y, ldexp) |
| #define lgamma(x) __tgmath_real(x, lgamma) |
| #define llrint(x) __tgmath_real(x, llrint) |
| #define llround(x) __tgmath_real(x, llround) |
| #define log10(x) __tgmath_real(x, log10) |
| #define log1p(x) __tgmath_real(x, log1p) |
| #define log2(x) __tgmath_real(x, log2) |
| #define logb(x) __tgmath_real(x, logb) |
| #define lrint(x) __tgmath_real(x, lrint) |
| #define lround(x) __tgmath_real(x, lround) |
| #define nearbyint(x) __tgmath_real(x, nearbyint) |
| #define nextafter(x,y) __tgmath_real_2(x, y, nextafter) |
| #define nexttoward(x,y) __tgmath_real_2(x, y, nexttoward) |
| #define remainder(x,y) __tgmath_real_2(x, y, remainder) |
| #define remquo(x,y,z) __tgmath_real_3_2(x, y, z, remquo) |
| #define rint(x) __tgmath_real(x, rint) |
| #define round(x) __tgmath_real(x, round) |
| #define scalbln(x,y) __tgmath_real_2_1(x, y, scalbln) |
| #define scalbn(x,y) __tgmath_real_2_1(x, y, scalbn) |
| #define tgamma(x) __tgmath_real(x, tgamma) |
| #define trunc(x) __tgmath_real(x, trunc) |
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| #endif |
| #endif |
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