Merge branch 'master' of git://git.gromacs.org/gromacs
[gromacs/adressmacs.git] / include / maths.h
blob782e7688f10b6c7c03b5a8191840aea99f710365
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37 #ifndef _maths_h
38 #define _maths_h
40 #include <math.h>
41 #include "types/simple.h"
42 #include "typedefs.h"
44 #ifdef __cplusplus
45 extern "C" {
46 #endif
48 #ifndef M_PI
49 #define M_PI 3.14159265358979323846
50 #endif
52 #ifndef M_PI_2
53 #define M_PI_2 1.57079632679489661923
54 #endif
56 #ifndef M_2PI
57 #define M_2PI 6.28318530717958647692
58 #endif
60 #ifndef M_SQRT2
61 #define M_SQRT2 sqrt(2.0)
62 #endif
64 /* Suzuki-Yoshida Constants, for n=3 and n=5, for symplectic integration */
65 /* for n=1, w0 = 1 */
66 /* for n=3, w0 = w2 = 1/(2-2^-(1/3)), w1 = 1-2*w0 */
67 /* for n=5, w0 = w1 = w3 = w4 = 1/(4-4^-(1/3)), w1 = 1-4*w0 */
69 #define MAX_SUZUKI_YOSHIDA_NUM 5
70 #define SUZUKI_YOSHIDA_NUM 5
72 static const double sy_const_1[] = { 1. };
73 static const double sy_const_3[] = { 0.828981543588751,-0.657963087177502,0.828981543588751 };
74 static const double sy_const_5[] = { 0.2967324292201065,0.2967324292201065,-0.186929716880426,0.2967324292201065,0.2967324292201065 };
76 static const double* sy_const[] = {
77 NULL,
78 sy_const_1,
79 NULL,
80 sy_const_3,
81 NULL,
82 sy_const_5
86 static const double sy_const[MAX_SUZUKI_YOSHIDA_NUM+1][MAX_SUZUKI_YOSHIDA_NUM+1] = {
87 {},
88 {1},
89 {},
90 {0.828981543588751,-0.657963087177502,0.828981543588751},
91 {},
92 {0.2967324292201065,0.2967324292201065,-0.186929716880426,0.2967324292201065,0.2967324292201065}
93 };*/
95 int gmx_nint(real a);
96 real sign(real x,real y);
98 int gmx_nint(real a);
99 real sign(real x,real y);
100 real cuberoot (real a);
101 real gmx_erf(real x);
102 real gmx_erfc(real x);
104 /*! \brief Check if two numbers are within a tolerance
106 * This routine checks if the relative difference between two numbers is
107 * approximately within the given tolerance, defined as
108 * fabs(f1-f2)<=tolerance*fabs(f1+f2).
110 * To check if two floating-point numbers are almost identical, use this routine
111 * with the tolerance GMX_REAL_EPS, or GMX_DOUBLE_EPS if the check should be
112 * done in double regardless of Gromacs precision.
114 * To check if two algorithms produce similar results you will normally need
115 * to relax the tolerance significantly since many operations (e.g. summation)
116 * accumulate floating point errors.
118 * \param f1 First number to compare
119 * \param f2 Second number to compare
120 * \param tol Tolerance to use
122 * \return 1 if the relative difference is within tolerance, 0 if not.
124 static int
125 gmx_within_tol(double f1,
126 double f2,
127 double tol)
129 /* The or-equal is important - otherwise we return false if f1==f2==0 */
130 if( fabs(f1-f2) <= tol*0.5*(fabs(f1)+fabs(f2)) )
132 return 1;
134 else
136 return 0;
142 /**
143 * Check if a number is smaller than some preset safe minimum
144 * value, currently defined as GMX_REAL_MIN/GMX_REAL_EPS.
146 * If a number is smaller than this value we risk numerical overflow
147 * if any number larger than 1.0/GMX_REAL_EPS is divided by it.
149 * \return 1 if 'almost' numerically zero, 0 otherwise.
151 static int
152 gmx_numzero(double a)
154 return gmx_within_tol(a,0.0,GMX_REAL_MIN/GMX_REAL_EPS);
158 static real
159 gmx_log2(real x)
161 const real iclog2 = 1.0/log( 2.0 );
163 return log( x ) * iclog2;
167 #ifdef __cplusplus
169 #endif
171 #endif /* _maths_h */