PYTHON void vorticityConfinement(MACGrid& vel, FlagGrid& flags, Real strength) {
Grid<Vec3> velCenter(flags.getParent()), curl(flags.getParent()), force(flags.getParent());
Grid<Real> norm(flags.getParent());
GetCentered(velCenter, vel);
CurlOp(velCenter, curl);
GridNorm(norm, curl);
KnConfForce(force, norm, curl, strength);
KnAddForceField(flags, vel, force);
}
//! add Buoyancy force based on smoke density
PYTHON void print_dt_dx(FlagGrid& flags, Grid<Real>& density, MACGrid& vel) {
// Vec3 f = - gravity * flags.getParent()->getDt() / flags.getParent()->getDx();
std::cout << " flags.getParent()->getDt() " << flags.getParent()->getDt() << std::endl ;
std::cout << " flags.getParent()->getDx() " << flags.getParent()->getDx() << std::endl ;
}
//! add Buoyancy force based on smoke density
PYTHON void addBuoyancy(FlagGrid& flags, Grid<Real>& density, MACGrid& vel, Vec3 gravity) {
Vec3 f = - gravity * flags.getParent()->getDt() / flags.getParent()->getDx();
KnAddBuoyancy(flags,density, vel, f);
}
//! add gravity forces to all fluid cells
PYTHON void addGravity(FlagGrid& flags, MACGrid& vel, Vec3 gravity) {
Vec3 f = gravity * flags.getParent()->getDt() / flags.getDx();
KnAddForce(flags, vel, f);
}
