[9e531f2] | 1 | /* winFuncs.c |
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| 2 | Adding functions missing from windows math library |
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| 3 | Andrew Jackson, October 2007 |
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| 4 | */ |
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| 5 | |
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| 6 | #include <stdio.h> |
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| 7 | #include <math.h> |
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| 8 | |
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| 9 | #include "winFuncs.h" |
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| 10 | |
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| 11 | |
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| 12 | double fmax(double x, double y){ |
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| 13 | //Doesn't exactly match BSD as if one or other value is NaN behaviour is undefined |
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| 14 | //BSD returns the other value if one is NaN and NaN if both are NaN |
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| 15 | //probably wouldn't want to rely on that in any case. |
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| 16 | if (x > y) { |
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| 17 | //x is greater than y |
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| 18 | return x; |
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| 19 | } else if (y > x) { |
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| 20 | //y is greater than x |
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| 21 | return y; |
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| 22 | } else { |
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| 23 | //equal |
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| 24 | return x; |
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| 25 | } |
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| 26 | } |
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| 27 | |
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| 28 | double fmin(double x, double y){ |
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| 29 | //Doesn't exactly match BSD as if one or other value is NaN behaviour is undefined |
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| 30 | //BSD returns the other value if one is NaN and NaN if both are NaN |
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| 31 | //probably wouldn't want to rely on that in any case. |
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| 32 | if (x < y) { |
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| 33 | //x is less than y |
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| 34 | return x; |
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| 35 | } else if (y < x) { |
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| 36 | //y is less than x |
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| 37 | return y; |
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| 38 | } else { |
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| 39 | //equal |
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| 40 | return x; |
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| 41 | } |
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| 42 | } |
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| 43 | |
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| 44 | double trunc(double x){ |
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| 45 | //This is probably slow as hell |
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| 46 | if (x > 0){ |
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| 47 | //positive - need floor |
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| 48 | return floor(x); |
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| 49 | } else if (x < 0) { |
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| 50 | //negative - need ceiling |
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| 51 | return ceil(x); |
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| 52 | } else { |
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| 53 | //x is zero or infinity, return x |
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| 54 | return x; |
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| 55 | } |
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| 56 | |
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| 57 | } |
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| 58 | |
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| 59 | |
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| 60 | /* erf.c - public domain implementation of error function erf(3m) |
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| 61 | |
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| 62 | reference - Haruhiko Okumura: C-gengo niyoru saishin algorithm jiten |
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| 63 | (New Algorithm handbook in C language) (Gijyutsu hyouron |
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| 64 | sha, Tokyo, 1991) p.227 [in Japanese] */ |
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| 65 | |
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| 66 | |
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| 67 | #ifdef _WIN32 |
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| 68 | # include <float.h> |
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| 69 | # if !defined __MINGW32__ || defined __NO_ISOCEXT |
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| 70 | # ifndef isnan |
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| 71 | # define isnan(x) _isnan(x) |
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| 72 | # endif |
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| 73 | # ifndef isinf |
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| 74 | # define isinf(x) (!_finite(x) && !_isnan(x)) |
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| 75 | # endif |
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| 76 | # ifndef finite |
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| 77 | # define finite(x) _finite(x) |
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| 78 | # endif |
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| 79 | # endif |
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| 80 | #endif |
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| 81 | |
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| 82 | static double q_gamma(double, double, double); |
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| 83 | |
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| 84 | /* Incomplete gamma function |
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| 85 | 1 / Gamma(a) * Int_0^x exp(-t) t^(a-1) dt */ |
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| 86 | static double p_gamma(double a, double x, double loggamma_a) |
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| 87 | { |
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| 88 | int k; |
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| 89 | double result, term, previous; |
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| 90 | |
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| 91 | if (x >= 1 + a) return 1 - q_gamma(a, x, loggamma_a); |
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| 92 | if (x == 0) return 0; |
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| 93 | result = term = exp(a * log(x) - x - loggamma_a) / a; |
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| 94 | for (k = 1; k < 1000; k++) { |
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| 95 | term *= x / (a + k); |
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| 96 | previous = result; result += term; |
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| 97 | if (result == previous) return result; |
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| 98 | } |
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| 99 | fprintf(stderr, "erf.c:%d:p_gamma() could not converge.", __LINE__); |
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| 100 | return result; |
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| 101 | } |
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| 102 | |
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| 103 | /* Incomplete gamma function |
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| 104 | 1 / Gamma(a) * Int_x^inf exp(-t) t^(a-1) dt */ |
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| 105 | static double q_gamma(double a, double x, double loggamma_a) |
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| 106 | { |
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| 107 | int k; |
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| 108 | double result, w, temp, previous; |
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| 109 | double la = 1, lb = 1 + x - a; /* Laguerre polynomial */ |
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| 110 | |
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| 111 | if (x < 1 + a) return 1 - p_gamma(a, x, loggamma_a); |
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| 112 | w = exp(a * log(x) - x - loggamma_a); |
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| 113 | result = w / lb; |
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| 114 | for (k = 2; k < 1000; k++) { |
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| 115 | temp = ((k - 1 - a) * (lb - la) + (k + x) * lb) / k; |
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| 116 | la = lb; lb = temp; |
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| 117 | w *= (k - 1 - a) / k; |
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| 118 | temp = w / (la * lb); |
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| 119 | previous = result; result += temp; |
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| 120 | if (result == previous) return result; |
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| 121 | } |
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| 122 | fprintf(stderr, "erf.c:%d:q_gamma() could not converge.", __LINE__); |
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| 123 | return result; |
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| 124 | } |
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| 125 | |
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| 126 | #define LOG_PI_OVER_2 0.572364942924700087071713675675 /* log_e(PI)/2 */ |
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| 127 | |
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| 128 | double erf(double x) |
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| 129 | { |
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| 130 | if (!finite(x)) { |
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| 131 | if (isnan(x)) return x; /* erf(NaN) = NaN */ |
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| 132 | return (x>0 ? 1.0 : -1.0); /* erf(+-inf) = +-1.0 */ |
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| 133 | } |
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| 134 | if (x >= 0) return p_gamma(0.5, x * x, LOG_PI_OVER_2); |
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| 135 | else return - p_gamma(0.5, x * x, LOG_PI_OVER_2); |
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| 136 | } |
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| 137 | |
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| 138 | double erfc(double x) |
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| 139 | { |
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| 140 | if (!finite(x)) { |
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| 141 | if (isnan(x)) return x; /* erfc(NaN) = NaN */ |
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| 142 | return (x>0 ? 0.0 : 2.0); /* erfc(+-inf) = 0.0, 2.0 */ |
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| 143 | } |
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| 144 | if (x >= 0) return q_gamma(0.5, x * x, LOG_PI_OVER_2); |
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| 145 | else return 1 + p_gamma(0.5, x * x, LOG_PI_OVER_2); |
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| 146 | } |
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