Rheolef  7.1
an efficient C++ finite element environment
cosinus_vector.h

The cosinus vector function

struct u_exact {
point operator() (const point& x) const {
return point(cos(w*(x[0]+2*x[1])),sin(w*(x[0]-2*x[1]))); }
u_exact(size_t d) : w(1) {}
};
struct div_u_exact {
Float operator() (const point& x) const {
return -w*(sin(w*(x[0]+2*x[1])) + 2*cos(w*(-x[0]+2*x[1]))); }
div_u_exact(size_t d) : w(1) {}
};
div_u_exact::div_u_exact
div_u_exact(size_t d)
Definition: cosinus_vector.h:34
u_exact::d
size_t d
Definition: interpolate_RTk_polynom.icc:145
div_u_exact
Definition: cosinus_vector.h:31
mkgeo_ball.d
int d
Definition: mkgeo_ball.sh:154
u_exact::w
Float w
Definition: interpolate_RTk_polynom.icc:145
u_exact::operator()
point operator()(const point &x) const
Definition: interpolate_RTk_polynom.icc:126
div_u_exact::operator()
Float operator()(const point &x) const
Definition: cosinus_vector.h:32
div_u_exact::w
Float w
Definition: cosinus_vector.h:35
u_exact::u_exact
u_exact(size_t d1, Float w1=acos(Float(-1)))
Definition: interpolate_RTk_polynom.icc:144
Float
see the Float page for the full documentation
u_exact
Definition: interpolate_RTk_polynom.icc:125
point
see the point page for the full documentation