v0.9.0
triangle_felippa_rule.h
Go to the documentation of this file.
1 void comp_next ( int n, int k, int a[], int *more, int *h, int *t );
2 double *monomial_value ( int dim_num, int point_num, int expon[], double x[] );
3 void r8vec_copy ( int n, double a1[], double a2[] );
4 double r8vec_dot_product ( int n, double a1[], double a2[] );
5 void subcomp_next ( int n, int k, int a[], int *more, int *h, int *t );
6 void timestamp ( );
7 double triangle_unit_monomial ( int expon[2] );
8 void triangle_unit_o01 ( double w[], double xy[] );
9 void triangle_unit_o03 ( double w[], double xy[] );
10 void triangle_unit_o03b ( double w[], double xy[] );
11 void triangle_unit_o06 ( double w[], double xy[] );
12 void triangle_unit_o06b ( double w[], double xy[] );
13 void triangle_unit_o07 ( double w[], double xy[] );
14 void triangle_unit_o12 ( double w[], double xy[] );
15 double triangle_unit_volume ( );
16 
void r8vec_copy(int n, double a1[], double a2[])
void triangle_unit_o07(double w[], double xy[])
double triangle_unit_volume()
void triangle_unit_o06b(double w[], double xy[])
void subcomp_next(int n, int k, int a[], int *more, int *h, int *t)
void comp_next(int n, int k, int a[], int *more, int *h, int *t)
Definition: gm_rule.c:10
constexpr double a2
double triangle_unit_monomial(int expon[2])
void timestamp()
Definition: gm_rule.c:1268
void triangle_unit_o03b(double w[], double xy[])
void triangle_unit_o06(double w[], double xy[])
void triangle_unit_o01(double w[], double xy[])
void triangle_unit_o12(double w[], double xy[])
double * monomial_value(int dim_num, int point_num, int expon[], double x[])
constexpr double a1
void triangle_unit_o03(double w[], double xy[])
double r8vec_dot_product(int n, double a1[], double a2[])
Definition: gm_rule.c:776