cs_math.c File Reference

#include "cs_defs.h"
#include <assert.h>
#include <errno.h>
#include <stdio.h>
#include <stdarg.h>
#include <string.h>
#include <float.h>
#include <mpi.h>
#include "bft_error.h"
#include "cs_math.h"

Include dependency graph for cs_math.c:

Functions
void	symmetric_matrix_inverse (const cs_real_6_t s, cs_real_6_t sout)
void	symmetric_matrix_product (const cs_real_6_t s1, const cs_real_6_t s2, cs_real_6_t sout)
void	cs_math_set_machine_epsilon (void)
	Compute the value related to the machine precision. More...
double	cs_math_get_machine_epsilon (void)
	Get the value related to the machine precision. More...
void	cs_math_33_eigen (const cs_real_t m[3][3], cs_real_t *eig_ratio, cs_real_t *eig_max)
	Compute the eigenvalues of a 3x3 matrix which is symmetric and real -> Oliver K. Smith "eigenvalues of a symmetric 3x3 matrix", Communication of the ACM (April 1961) -> Wikipedia article entitled "Eigenvalue algorithm". More...
void	cs_math_3_length_unitv (const cs_real_t xa[3], const cs_real_t xb[3], cs_real_t *len, cs_real_3_t unitv)
	Compute the length (euclidien norm) between two points xa and xb in a cartesian coordinate system of dimension 3. More...
double	cs_math_surftri (const cs_real_t xv[3], const cs_real_t xe[3], const cs_real_t xf[3])
	Compute the area of the convex_hull generated by 3 points. This corresponds to the computation of the surface of a triangle. More...
double	cs_math_voltet (const cs_real_t xv[3], const cs_real_t xe[3], const cs_real_t xf[3], const cs_real_t xc[3])
	Compute the volume of the convex_hull generated by 4 points. This is equivalent to the computation of the volume of a tetrahedron. More...

Detailed Description

Mathematical base functions.

Function Documentation

cs_math_33_eigen()

void cs_math_33_eigen	(	const cs_real_t	m[3][3],
		cs_real_t *	eig_ratio,
		cs_real_t *	eig_max
	)

Compute the eigenvalues of a 3x3 matrix which is symmetric and real -> Oliver K. Smith "eigenvalues of a symmetric 3x3 matrix", Communication of the ACM (April 1961) -> Wikipedia article entitled "Eigenvalue algorithm".

Parameters

[in]	m	3x3 matrix
[out]	eig_ratio	max/min
[out]	eig_max	max. eigenvalue

cs_math_3_length_unitv()

void cs_math_3_length_unitv ( const cs_real_t  xa[3], const cs_real_t  xb[3], cs_real_t *  len, cs_real_3_t  unitv  )

inline

Compute the length (euclidien norm) between two points xa and xb in a cartesian coordinate system of dimension 3.

Parameters

[in]	xa	coordinate of the first extremity
[in]	xb	coordinate of the second extremity
[out]	len	pointer to the length of the vector va -> vb
[out]	unitv	unitary vector anlong va -> vb

cs_math_get_machine_epsilon()

double cs_math_get_machine_epsilon

(

void

)

Get the value related to the machine precision.

cs_math_set_machine_epsilon()

void cs_math_set_machine_epsilon

(

void

)

Compute the value related to the machine precision.

cs_math_surftri()

double cs_math_surftri ( const cs_real_t  xv[3], const cs_real_t  xe[3], const cs_real_t  xf[3]  )

inline

Compute the area of the convex_hull generated by 3 points. This corresponds to the computation of the surface of a triangle.

Parameters

[in]	xv	coordinates of the first vertex
[in]	xe	coordinates of the second vertex
[in]	xf	coordinates of the third vertex

Returns

the surface of a triangle

cs_math_voltet()

double cs_math_voltet	(	const cs_real_t	xv[3],
		const cs_real_t	xe[3],
		const cs_real_t	xf[3],
		const cs_real_t	xc[3]
	)

Compute the volume of the convex_hull generated by 4 points. This is equivalent to the computation of the volume of a tetrahedron.

Parameters

[in]	xv	coordinates of the first vertex
[in]	xe	coordinates of the second vertex
[in]	xf	coordinates of the third vertex
[in]	xc	coordinates of the fourth vertex

Returns

the volume of the tetrahedron.

symmetric_matrix_inverse()

void symmetric_matrix_inverse	(	const cs_real_6_t	s,
		cs_real_6_t	sout
	)

symmetric_matrix_product()

void symmetric_matrix_product	(	const cs_real_6_t	s1,
		const cs_real_6_t	s2,
		cs_real_6_t	sout
	)