[bb82c03] | 1 | // |
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[6e991d6] | 2 | // Cforall Version 1.0.0 Copyright (C) 2016 University of Waterloo |
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| 3 | // |
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| 4 | // The contents of this file are covered under the licence agreement in the |
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| 5 | // file "LICENCE" distributed with Cforall. |
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| 6 | // |
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[bb82c03] | 7 | // math -- |
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| 8 | // |
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[6e991d6] | 9 | // Author : Peter A. Buhr |
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| 10 | // Created On : Mon Apr 18 23:37:04 2016 |
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| 11 | // Last Modified By : Peter A. Buhr |
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[7cfef0d] | 12 | // Last Modified On : Mon Aug 24 08:56:20 2020 |
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| 13 | // Update Count : 126 |
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[bb82c03] | 14 | // |
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[17e5e2b] | 15 | |
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[53a6c2a] | 16 | #pragma once |
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[17e5e2b] | 17 | |
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[dab7ac7] | 18 | #include <math.h> |
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| 19 | #include <complex.h> |
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[6e991d6] | 20 | |
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[7cfef0d] | 21 | //--------------------------------------- |
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[dab7ac7] | 22 | |
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[7cfef0d] | 23 | #include "common.hfa" |
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[6e991d6] | 24 | |
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[7cfef0d] | 25 | //---------------------- General ---------------------- |
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[6e991d6] | 26 | |
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[7cfef0d] | 27 | static inline { |
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| 28 | float ?%?( float x, float y ) { return fmodf( x, y ); } |
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| 29 | float fmod( float x, float y ) { return fmodf( x, y ); } |
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| 30 | double ?%?( double x, double y ) { return fmod( x, y ); } |
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| 31 | // extern "C" { double fmod( double, double ); } |
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| 32 | long double ?%?( long double x, long double y ) { return fmodl( x, y ); } |
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| 33 | long double fmod( long double x, long double y ) { return fmodl( x, y ); } |
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| 34 | |
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| 35 | float remainder( float x, float y ) { return remainderf( x, y ); } |
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| 36 | // extern "C" { double remainder( double, double ); } |
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| 37 | long double remainder( long double x, long double y ) { return remainderl( x, y ); } |
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| 38 | |
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| 39 | float remquo( float x, float y, int * quo ) { return remquof( x, y, quo ); } |
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| 40 | // extern "C" { double remquo( double x, double y, int * quo ); } |
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| 41 | long double remquo( long double x, long double y, int * quo ) { return remquol( x, y, quo ); } |
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| 42 | [ int, float ] remquo( float x, float y ) { int quo; x = remquof( x, y, &quo ); return [ quo, x ]; } |
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| 43 | [ int, double ] remquo( double x, double y ) { int quo; x = remquo( x, y, &quo ); return [ quo, x ]; } |
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| 44 | [ int, long double ] remquo( long double x, long double y ) { int quo; x = remquol( x, y, &quo ); return [ quo, x ]; } |
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| 45 | |
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| 46 | [ float, float ] div( float x, float y ) { y = modff( x / y, &x ); return [ x, y ]; } |
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| 47 | [ double, double ] div( double x, double y ) { y = modf( x / y, &x ); return [ x, y ]; } |
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| 48 | [ long double, long double ] div( long double x, long double y ) { y = modfl( x / y, &x ); return [ x, y ]; } |
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| 49 | |
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| 50 | float fma( float x, float y, float z ) { return fmaf( x, y, z ); } |
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| 51 | // extern "C" { double fma( double, double, double ); } |
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| 52 | long double fma( long double x, long double y, long double z ) { return fmal( x, y, z ); } |
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| 53 | |
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| 54 | float fdim( float x, float y ) { return fdimf( x, y ); } |
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| 55 | // extern "C" { double fdim( double, double ); } |
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| 56 | long double fdim( long double x, long double y ) { return fdiml( x, y ); } |
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| 57 | |
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| 58 | float nan( const char tag[] ) { return nanf( tag ); } |
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| 59 | // extern "C" { double nan( const char [] ); } |
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| 60 | long double nan( const char tag[] ) { return nanl( tag ); } |
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| 61 | } // distribution |
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[6e991d6] | 62 | |
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[dc5376a] | 63 | //---------------------- Exponential ---------------------- |
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[6e991d6] | 64 | |
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[7cfef0d] | 65 | static inline { |
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| 66 | float exp( float x ) { return expf( x ); } |
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| 67 | // extern "C" { double exp( double ); } |
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| 68 | long double exp( long double x ) { return expl( x ); } |
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| 69 | float _Complex exp( float _Complex x ) { return cexpf( x ); } |
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| 70 | double _Complex exp( double _Complex x ) { return cexp( x ); } |
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| 71 | long double _Complex exp( long double _Complex x ) { return cexpl( x ); } |
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| 72 | |
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| 73 | float exp2( float x ) { return exp2f( x ); } |
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| 74 | // extern "C" { double exp2( double ); } |
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| 75 | long double exp2( long double x ) { return exp2l( x ); } |
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| 76 | //float _Complex exp2( float _Complex x ) { return cexp2f( x ); } |
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| 77 | //double _Complex exp2( double _Complex x ) { return cexp2( x ); } |
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| 78 | //long double _Complex exp2( long double _Complex x ) { return cexp2l( x ); } |
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| 79 | |
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| 80 | float expm1( float x ) { return expm1f( x ); } |
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| 81 | // extern "C" { double expm1( double ); } |
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| 82 | long double expm1( long double x ) { return expm1l( x ); } |
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| 83 | |
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| 84 | float pow( float x, float y ) { return powf( x, y ); } |
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| 85 | // extern "C" { double pow( double, double ); } |
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| 86 | long double pow( long double x, long double y ) { return powl( x, y ); } |
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| 87 | float _Complex pow( float _Complex x, float _Complex y ) { return cpowf( x, y ); } |
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| 88 | double _Complex pow( double _Complex x, double _Complex y ) { return cpow( x, y ); } |
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| 89 | long double _Complex pow( long double _Complex x, long double _Complex y ) { return cpowl( x, y ); } |
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| 90 | } // distribution |
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[dab7ac7] | 91 | |
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| 92 | //---------------------- Logarithm ---------------------- |
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| 93 | |
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[7cfef0d] | 94 | static inline { |
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| 95 | float log( float x ) { return logf( x ); } |
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| 96 | // extern "C" { double log( double ); } |
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| 97 | long double log( long double x ) { return logl( x ); } |
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| 98 | float _Complex log( float _Complex x ) { return clogf( x ); } |
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| 99 | double _Complex log( double _Complex x ) { return clog( x ); } |
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| 100 | long double _Complex log( long double _Complex x ) { return clogl( x ); } |
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| 101 | |
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| 102 | float log2( float x ) { return log2f( x ); } |
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| 103 | // extern "C" { double log2( double ); } |
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| 104 | long double log2( long double x ) { return log2l( x ); } |
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| 105 | // float _Complex log2( float _Complex x ) { return clog2f( x ); } |
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| 106 | // double _Complex log2( double _Complex x ) { return clog2( x ); } |
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| 107 | // long double _Complex log2( long double _Complex x ) { return clog2l( x ); } |
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| 108 | |
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| 109 | float log10( float x ) { return log10f( x ); } |
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| 110 | // extern "C" { double log10( double ); } |
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| 111 | long double log10( long double x ) { return log10l( x ); } |
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| 112 | // float _Complex log10( float _Complex x ) { return clog10f( x ); } |
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| 113 | // double _Complex log10( double _Complex x ) { return clog10( x ); } |
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| 114 | // long double _Complex log10( long double _Complex x ) { return clog10l( x ); } |
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| 115 | |
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| 116 | float log1p( float x ) { return log1pf( x ); } |
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| 117 | // extern "C" { double log1p( double ); } |
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| 118 | long double log1p( long double x ) { return log1pl( x ); } |
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| 119 | |
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| 120 | int ilogb( float x ) { return ilogbf( x ); } |
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| 121 | // extern "C" { int ilogb( double ); } |
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| 122 | int ilogb( long double x ) { return ilogbl( x ); } |
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| 123 | |
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| 124 | float logb( float x ) { return logbf( x ); } |
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| 125 | // extern "C" { double logb( double ); } |
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| 126 | long double logb( long double x ) { return logbl( x ); } |
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| 127 | |
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| 128 | float sqrt( float x ) { return sqrtf( x ); } |
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| 129 | // extern "C" { double sqrt( double ); } |
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| 130 | long double sqrt( long double x ) { return sqrtl( x ); } |
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| 131 | float _Complex sqrt( float _Complex x ) { return csqrtf( x ); } |
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| 132 | double _Complex sqrt( double _Complex x ) { return csqrt( x ); } |
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| 133 | long double _Complex sqrt( long double _Complex x ) { return csqrtl( x ); } |
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| 134 | |
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| 135 | float cbrt( float x ) { return cbrtf( x ); } |
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| 136 | // extern "C" { double cbrt( double ); } |
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| 137 | long double cbrt( long double x ) { return cbrtl( x ); } |
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| 138 | |
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| 139 | float hypot( float x, float y ) { return hypotf( x, y ); } |
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| 140 | // extern "C" { double hypot( double, double ); } |
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| 141 | long double hypot( long double x, long double y ) { return hypotl( x, y ); } |
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| 142 | } // distribution |
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[6e991d6] | 143 | |
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[dc5376a] | 144 | //---------------------- Trigonometric ---------------------- |
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[6e991d6] | 145 | |
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[7cfef0d] | 146 | static inline { |
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| 147 | float sin( float x ) { return sinf( x ); } |
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| 148 | // extern "C" { double sin( double ); } |
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| 149 | long double sin( long double x ) { return sinl( x ); } |
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| 150 | float _Complex sin( float _Complex x ) { return csinf( x ); } |
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| 151 | double _Complex sin( double _Complex x ) { return csin( x ); } |
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| 152 | long double _Complex sin( long double _Complex x ) { return csinl( x ); } |
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| 153 | |
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| 154 | float cos( float x ) { return cosf( x ); } |
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| 155 | // extern "C" { double cos( double ); } |
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| 156 | long double cos( long double x ) { return cosl( x ); } |
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| 157 | float _Complex cos( float _Complex x ) { return ccosf( x ); } |
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| 158 | double _Complex cos( double _Complex x ) { return ccos( x ); } |
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| 159 | long double _Complex cos( long double _Complex x ) { return ccosl( x ); } |
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| 160 | |
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| 161 | float tan( float x ) { return tanf( x ); } |
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| 162 | // extern "C" { double tan( double ); } |
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| 163 | long double tan( long double x ) { return tanl( x ); } |
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| 164 | float _Complex tan( float _Complex x ) { return ctanf( x ); } |
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| 165 | double _Complex tan( double _Complex x ) { return ctan( x ); } |
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| 166 | long double _Complex tan( long double _Complex x ) { return ctanl( x ); } |
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| 167 | |
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| 168 | float asin( float x ) { return asinf( x ); } |
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| 169 | // extern "C" { double asin( double ); } |
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| 170 | long double asin( long double x ) { return asinl( x ); } |
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| 171 | float _Complex asin( float _Complex x ) { return casinf( x ); } |
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| 172 | double _Complex asin( double _Complex x ) { return casin( x ); } |
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| 173 | long double _Complex asin( long double _Complex x ) { return casinl( x ); } |
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| 174 | |
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| 175 | float acos( float x ) { return acosf( x ); } |
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| 176 | // extern "C" { double acos( double ); } |
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| 177 | long double acos( long double x ) { return acosl( x ); } |
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| 178 | float _Complex acos( float _Complex x ) { return cacosf( x ); } |
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| 179 | double _Complex acos( double _Complex x ) { return cacos( x ); } |
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| 180 | long double _Complex acos( long double _Complex x ) { return cacosl( x ); } |
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| 181 | |
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| 182 | float atan( float x ) { return atanf( x ); } |
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| 183 | // extern "C" { double atan( double ); } |
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| 184 | long double atan( long double x ) { return atanl( x ); } |
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| 185 | float _Complex atan( float _Complex x ) { return catanf( x ); } |
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| 186 | double _Complex atan( double _Complex x ) { return catan( x ); } |
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| 187 | long double _Complex atan( long double _Complex x ) { return catanl( x ); } |
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| 188 | |
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| 189 | float atan2( float x, float y ) { return atan2f( x, y ); } |
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| 190 | // extern "C" { double atan2( double, double ); } |
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| 191 | long double atan2( long double x, long double y ) { return atan2l( x, y ); } |
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| 192 | |
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| 193 | // alternative name for atan2 |
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| 194 | float atan( float x, float y ) { return atan2f( x, y ); } |
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| 195 | double atan( double x, double y ) { return atan2( x, y ); } |
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| 196 | long double atan( long double x, long double y ) { return atan2l( x, y ); } |
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| 197 | } // distribution |
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[6e991d6] | 198 | |
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[dc5376a] | 199 | //---------------------- Hyperbolic ---------------------- |
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[6e991d6] | 200 | |
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[7cfef0d] | 201 | static inline { |
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| 202 | float sinh( float x ) { return sinhf( x ); } |
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| 203 | // extern "C" { double sinh( double ); } |
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| 204 | long double sinh( long double x ) { return sinhl( x ); } |
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| 205 | float _Complex sinh( float _Complex x ) { return csinhf( x ); } |
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| 206 | double _Complex sinh( double _Complex x ) { return csinh( x ); } |
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| 207 | long double _Complex sinh( long double _Complex x ) { return csinhl( x ); } |
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| 208 | |
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| 209 | float cosh( float x ) { return coshf( x ); } |
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| 210 | // extern "C" { double cosh( double ); } |
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| 211 | long double cosh( long double x ) { return coshl( x ); } |
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| 212 | float _Complex cosh( float _Complex x ) { return ccoshf( x ); } |
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| 213 | double _Complex cosh( double _Complex x ) { return ccosh( x ); } |
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| 214 | long double _Complex cosh( long double _Complex x ) { return ccoshl( x ); } |
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| 215 | |
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| 216 | float tanh( float x ) { return tanhf( x ); } |
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| 217 | // extern "C" { double tanh( double ); } |
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| 218 | long double tanh( long double x ) { return tanhl( x ); } |
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| 219 | float _Complex tanh( float _Complex x ) { return ctanhf( x ); } |
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| 220 | double _Complex tanh( double _Complex x ) { return ctanh( x ); } |
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| 221 | long double _Complex tanh( long double _Complex x ) { return ctanhl( x ); } |
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| 222 | |
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| 223 | float asinh( float x ) { return asinhf( x ); } |
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| 224 | // extern "C" { double asinh( double ); } |
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| 225 | long double asinh( long double x ) { return asinhl( x ); } |
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| 226 | float _Complex asinh( float _Complex x ) { return casinhf( x ); } |
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| 227 | double _Complex asinh( double _Complex x ) { return casinh( x ); } |
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| 228 | long double _Complex asinh( long double _Complex x ) { return casinhl( x ); } |
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| 229 | |
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| 230 | float acosh( float x ) { return acoshf( x ); } |
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| 231 | // extern "C" { double acosh( double ); } |
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| 232 | long double acosh( long double x ) { return acoshl( x ); } |
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| 233 | float _Complex acosh( float _Complex x ) { return cacoshf( x ); } |
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| 234 | double _Complex acosh( double _Complex x ) { return cacosh( x ); } |
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| 235 | long double _Complex acosh( long double _Complex x ) { return cacoshl( x ); } |
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| 236 | |
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| 237 | float atanh( float x ) { return atanhf( x ); } |
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| 238 | // extern "C" { double atanh( double ); } |
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| 239 | long double atanh( long double x ) { return atanhl( x ); } |
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| 240 | float _Complex atanh( float _Complex x ) { return catanhf( x ); } |
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| 241 | double _Complex atanh( double _Complex x ) { return catanh( x ); } |
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| 242 | long double _Complex atanh( long double _Complex x ) { return catanhl( x ); } |
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| 243 | } // distribution |
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[dc5376a] | 244 | |
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| 245 | //---------------------- Error / Gamma ---------------------- |
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| 246 | |
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[7cfef0d] | 247 | static inline { |
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| 248 | float erf( float x ) { return erff( x ); } |
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| 249 | // extern "C" { double erf( double ); } |
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| 250 | long double erf( long double x ) { return erfl( x ); } |
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| 251 | // float _Complex erf( float _Complex ); |
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| 252 | // double _Complex erf( double _Complex ); |
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| 253 | // long double _Complex erf( long double _Complex ); |
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| 254 | |
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| 255 | float erfc( float x ) { return erfcf( x ); } |
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| 256 | // extern "C" { double erfc( double ); } |
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| 257 | long double erfc( long double x ) { return erfcl( x ); } |
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| 258 | // float _Complex erfc( float _Complex ); |
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| 259 | // double _Complex erfc( double _Complex ); |
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| 260 | // long double _Complex erfc( long double _Complex ); |
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| 261 | |
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| 262 | float lgamma( float x ) { return lgammaf( x ); } |
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| 263 | // extern "C" { double lgamma( double ); } |
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| 264 | long double lgamma( long double x ) { return lgammal( x ); } |
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| 265 | float lgamma( float x, int * sign ) { return lgammaf_r( x, sign ); } |
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| 266 | double lgamma( double x, int * sign ) { return lgamma_r( x, sign ); } |
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| 267 | long double lgamma( long double x, int * sign ) { return lgammal_r( x, sign ); } |
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| 268 | |
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| 269 | float tgamma( float x ) { return tgammaf( x ); } |
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| 270 | // extern "C" { double tgamma( double ); } |
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| 271 | long double tgamma( long double x ) { return tgammal( x ); } |
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| 272 | } // distribution |
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[6e991d6] | 273 | |
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[dc5376a] | 274 | //---------------------- Nearest Integer ---------------------- |
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| 275 | |
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[7cfef0d] | 276 | static inline { |
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| 277 | signed char floor( signed char n, signed char align ) { return n / align * align; } |
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| 278 | unsigned char floor( unsigned char n, unsigned char align ) { return n / align * align; } |
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| 279 | short int floor( short int n, short int align ) { return n / align * align; } |
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| 280 | unsigned short int floor( unsigned short int n, unsigned short int align ) { return n / align * align; } |
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| 281 | int floor( int n, int align ) { return n / align * align; } |
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| 282 | unsigned int floor( unsigned int n, unsigned int align ) { return n / align * align; } |
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| 283 | long int floor( long int n, long int align ) { return n / align * align; } |
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| 284 | unsigned long int floor( unsigned long int n, unsigned long int align ) { return n / align * align; } |
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| 285 | long long int floor( long long int n, long long int align ) { return n / align * align; } |
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| 286 | unsigned long long int floor( unsigned long long int n, unsigned long long int align ) { return n / align * align; } |
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| 287 | |
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[fd54fef] | 288 | // forall( T | { T ?/?( T, T ); T ?*?( T, T ); } ) |
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[7cfef0d] | 289 | // T floor( T n, T align ) { return n / align * align; } |
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| 290 | |
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| 291 | signed char ceiling_div( signed char n, char align ) { return (n + (align - 1)) / align; } |
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| 292 | unsigned char ceiling_div( unsigned char n, unsigned char align ) { return (n + (align - 1)) / align; } |
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| 293 | short int ceiling_div( short int n, short int align ) { return (n + (align - 1)) / align; } |
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| 294 | unsigned short int ceiling_div( unsigned short int n, unsigned short int align ) { return (n + (align - 1)) / align; } |
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| 295 | int ceiling_div( int n, int align ) { return (n + (align - 1)) / align; } |
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| 296 | unsigned int ceiling_div( unsigned int n, unsigned int align ) { return (n + (align - 1)) / align; } |
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| 297 | long int ceiling_div( long int n, long int align ) { return (n + (align - 1)) / align; } |
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| 298 | unsigned long int ceiling_div( unsigned long int n, unsigned long int align ) { return (n + (align - 1)) / align; } |
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| 299 | long long int ceiling_div( long long int n, long long int align ) { return (n + (align - 1)) / align; } |
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| 300 | unsigned long long int ceiling_div( unsigned long long int n, unsigned long long int align ) { return (n + (align - 1)) / align; } |
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| 301 | |
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[fd54fef] | 302 | // forall( T | { T ?+?( T, T ); T ?-?( T, T ); T ?%?( T, T ); } ) |
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[7cfef0d] | 303 | // T ceiling_div( T n, T align ) { verify( is_pow2( align ) );return (n + (align - 1)) / align; } |
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| 304 | |
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| 305 | // gcc notices the div/mod pair and saves both so only one div. |
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| 306 | signed char ceiling( signed char n, signed char align ) { return floor( n + (n % align != 0 ? align - 1 : 0), align ); } |
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| 307 | unsigned char ceiling( unsigned char n, unsigned char align ) { return floor( n + (n % align != 0 ? align - 1 : 0), align ); } |
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| 308 | short int ceiling( short int n, short int align ) { return floor( n + (n % align != 0 ? align - 1 : 0), align ); } |
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| 309 | unsigned short int ceiling( unsigned short int n, unsigned short int align ) { return floor( n + (n % align != 0 ? align - 1 : 0), align ); } |
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| 310 | int ceiling( int n, int align ) { return floor( n + (n % align != 0 ? align - 1 : 0), align ); } |
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| 311 | unsigned int ceiling( unsigned int n, unsigned int align ) { return floor( n + (n % align != 0 ? align - 1 : 0), align ); } |
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| 312 | long int ceiling( long int n, long int align ) { return floor( n + (n % align != 0 ? align - 1 : 0), align ); } |
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| 313 | unsigned long int ceiling( unsigned long int n, unsigned long int align ) { return floor( n + (n % align != 0 ? align - 1 : 0) , align); } |
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| 314 | long long int ceiling( long long int n, long long int align ) { return floor( n + (n % align != 0 ? align - 1 : 0), align ); } |
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| 315 | unsigned long long int ceiling( unsigned long long int n, unsigned long long int align ) { return floor( n + (n % align != 0 ? align - 1 : 0), align ); } |
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| 316 | |
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[fd54fef] | 317 | // forall( T | { void ?{}( T &, one_t ); T ?+?( T, T ); T ?-?( T, T ); T ?/?( T, T ); } ) |
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[7cfef0d] | 318 | // T ceiling( T n, T align ) { return return floor( n + (n % align != 0 ? align - 1 : 0), align ); *} |
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| 319 | |
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| 320 | float floor( float x ) { return floorf( x ); } |
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| 321 | // extern "C" { double floor( double ); } |
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| 322 | long double floor( long double x ) { return floorl( x ); } |
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| 323 | |
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| 324 | float ceil( float x ) { return ceilf( x ); } |
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| 325 | // extern "C" { double ceil( double ); } |
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| 326 | long double ceil( long double x ) { return ceill( x ); } |
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| 327 | |
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| 328 | float trunc( float x ) { return truncf( x ); } |
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| 329 | // extern "C" { double trunc( double ); } |
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| 330 | long double trunc( long double x ) { return truncl( x ); } |
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| 331 | |
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| 332 | float rint( float x ) { return rintf( x ); } |
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| 333 | // extern "C" { double rint( double x ); } |
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| 334 | long double rint( long double x ) { return rintl( x ); } |
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| 335 | long int rint( float x ) { return lrintf( x ); } |
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| 336 | long int rint( double x ) { return lrint( x ); } |
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| 337 | long int rint( long double x ) { return lrintl( x ); } |
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| 338 | long long int rint( float x ) { return llrintf( x ); } |
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| 339 | long long int rint( double x ) { return llrint( x ); } |
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| 340 | long long int rint( long double x ) { return llrintl( x ); } |
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| 341 | |
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| 342 | long int lrint( float x ) { return lrintf( x ); } |
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| 343 | // extern "C" { long int lrint( double ); } |
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| 344 | long int lrint( long double x ) { return lrintl( x ); } |
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| 345 | long long int llrint( float x ) { return llrintf( x ); } |
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| 346 | // extern "C" { long long int llrint( double ); } |
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| 347 | long long int llrint( long double x ) { return llrintl( x ); } |
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| 348 | |
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| 349 | float nearbyint( float x ) { return nearbyintf( x ); } |
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| 350 | // extern "C" { double nearbyint( double ); } |
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| 351 | long double nearbyint( long double x ) { return nearbyintl( x ); } |
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| 352 | |
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| 353 | float round( float x ) { return roundf( x ); } |
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| 354 | // extern "C" { double round( double x ); } |
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| 355 | long double round( long double x ) { return roundl( x ); } |
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| 356 | long int round( float x ) { return lroundf( x ); } |
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| 357 | long int round( double x ) { return lround( x ); } |
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| 358 | long int round( long double x ) { return lroundl( x ); } |
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| 359 | long long int round( float x ) { return llroundf( x ); } |
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| 360 | long long int round( double x ) { return llround( x ); } |
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| 361 | long long int round( long double x ) { return llroundl( x ); } |
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| 362 | |
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| 363 | long int lround( float x ) { return lroundf( x ); } |
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| 364 | // extern "C" { long int lround( double ); } |
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| 365 | long int lround( long double x ) { return lroundl( x ); } |
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| 366 | long long int llround( float x ) { return llroundf( x ); } |
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| 367 | // extern "C" { long long int llround( double ); } |
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| 368 | long long int llround( long double x ) { return llroundl( x ); } |
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| 369 | } // distribution |
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[6e991d6] | 370 | |
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[dc5376a] | 371 | //---------------------- Manipulation ---------------------- |
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[6e991d6] | 372 | |
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[7cfef0d] | 373 | static inline { |
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| 374 | float copysign( float x, float y ) { return copysignf( x, y ); } |
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| 375 | // extern "C" { double copysign( double, double ); } |
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| 376 | long double copysign( long double x, long double y ) { return copysignl( x, y ); } |
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| 377 | |
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| 378 | float frexp( float x, int * ip ) { return frexpf( x, ip ); } |
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| 379 | // extern "C" { double frexp( double, int * ); } |
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| 380 | long double frexp( long double x, int * ip ) { return frexpl( x, ip ); } |
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| 381 | |
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| 382 | float ldexp( float x, int exp2 ) { return ldexpf( x, exp2 ); } |
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| 383 | // extern "C" { double ldexp( double, int ); } |
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| 384 | long double ldexp( long double x, int exp2 ) { return ldexpl( x, exp2 ); } |
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| 385 | |
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| 386 | [ float, float ] modf( float x ) { float i; x = modff( x, &i ); return [ i, x ]; } |
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| 387 | float modf( float x, float * i ) { return modff( x, i ); } |
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| 388 | [ double, double ] modf( double x ) { double i; x = modf( x, &i ); return [ i, x ]; } |
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| 389 | // extern "C" { double modf( double, double * ); } |
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| 390 | [ long double, long double ] modf( long double x ) { long double i; x = modfl( x, &i ); return [ i, x ]; } |
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| 391 | long double modf( long double x, long double * i ) { return modfl( x, i ); } |
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| 392 | |
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| 393 | float nextafter( float x, float y ) { return nextafterf( x, y ); } |
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| 394 | // extern "C" { double nextafter( double, double ); } |
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| 395 | long double nextafter( long double x, long double y ) { return nextafterl( x, y ); } |
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| 396 | |
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| 397 | float nexttoward( float x, long double y ) { return nexttowardf( x, y ); } |
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| 398 | // extern "C" { double nexttoward( double, long double ); } |
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| 399 | long double nexttoward( long double x, long double y ) { return nexttowardl( x, y ); } |
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| 400 | |
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| 401 | float scalbn( float x, int exp ) { return scalbnf( x, exp ); } |
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| 402 | // extern "C" { double scalbn( double, int ); } |
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| 403 | long double scalbn( long double x, int exp ) { return scalbnl( x, exp ); } |
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| 404 | float scalbn( float x, long int exp ) { return scalblnf( x, exp ); } |
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| 405 | double scalbn( double x, long int exp ) { return scalbln( x, exp ); } |
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| 406 | long double scalbn( long double x, long int exp ) { return scalblnl( x, exp ); } |
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| 407 | |
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| 408 | float scalbln( float x, long int exp ) { return scalblnf( x, exp ); } |
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| 409 | // extern "C" { double scalbln( double, long int ); } |
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| 410 | long double scalbln( long double x, long int exp ) { return scalblnl( x, exp ); } |
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| 411 | } // distribution |
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[0fc52b6] | 412 | |
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[6b8b767] | 413 | //--------------------------------------- |
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| 414 | |
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[7cfef0d] | 415 | static inline { |
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[fd54fef] | 416 | forall( T | { void ?{}( T &, one_t ); T ?+?( T, T ); T ?-?( T, T );T ?*?( T, T ); } ) |
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[7cfef0d] | 417 | T lerp( T x, T y, T a ) { return x * ((T){1} - a) + y * a; } |
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[6b8b767] | 418 | |
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[fd54fef] | 419 | forall( T | { void ?{}( T &, zero_t ); void ?{}( T &, one_t ); int ?<?( T, T ); } ) |
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[7cfef0d] | 420 | T step( T edge, T x ) { return x < edge ? (T){0} : (T){1}; } |
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[6b8b767] | 421 | |
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[fd54fef] | 422 | forall( T | { void ?{}( T &, int ); T clamp( T, T, T ); T ?-?( T, T ); T ?*?( T, T ); T ?/?( T, T ); } ) |
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[7cfef0d] | 423 | T smoothstep( T edge0, T edge1, T x ) { T t = clamp( (x - edge0) / (edge1 - edge0), (T){0}, (T){1} ); return t * t * ((T){3} - (T){2} * t); } |
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| 424 | } // distribution |
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[6b8b767] | 425 | |
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[6e991d6] | 426 | // Local Variables: // |
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| 427 | // mode: c // |
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| 428 | // tab-width: 4 // |
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| 429 | // End: // |
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