void DragDampingForce::addHessVToTotal( const VectorXs& x, const VectorXs& v, const VectorXs& m, MatrixXs& hessE )
{
assert( x.size() == v.size() );
assert( x.size() == m.size() );
assert( x.size() == hessE.rows() );
assert( x.size() == hessE.cols() );
assert( x.size()%2 == 0 );
// Compute the force Jacboian here!
hessE.diagonal().array() += m_b;
}
void VortexForce::addHessXToTotal( const VectorXs& x, const VectorXs& v, const VectorXs& m, MatrixXs& hessE )
{
assert( x.size() == v.size() );
assert( x.size() == m.size() );
assert( x.size() == hessE.rows() );
assert( x.size() == hessE.cols() );
assert( x.size()%2 == 0 );
// scalar m1 = m(2*m_particles.second);
// scalar m2 = m(2*m_particles.first);
//
// Vector2s nhat = x.segment<2>(2*m_particles.second)-x.segment<2>(2*m_particles.first);
// scalar r = nhat.norm();
// assert( r != 0.0 );
// nhat /= r;
//
// Matrix2s entry = Matrix2s::Identity()-3.0*nhat*nhat.transpose();
// entry *= m_G*m1*m2/r*r*r;
//
// hessE.block<2,2>(2*m_particles.first,2*m_particles.first) += entry;
// hessE.block<2,2>(2*m_particles.second,2*m_particles.second) += entry;
// hessE.block<2,2>(2*m_particles.first,2*m_particles.second) -= entry;
// hessE.block<2,2>(2*m_particles.second,2*m_particles.first) -= entry;
std::cerr << outputmod::startred << "ERROR IN VORTEXFORCE: " << outputmod::endred << "No addHessXToTotal defined for VortexForce." << std::endl;
exit(1);
}
void DragDampingForce::addHessXToTotal( const VectorXs& x, const VectorXs& v, const VectorXs& m, MatrixXs& hessE )
{
assert( x.size() == v.size() );
assert( x.size() == m.size() );
assert( x.size() == hessE.rows() );
assert( x.size() == hessE.cols() );
assert( x.size()%3 == 0 );
// Nothing to do.
}
void TwoDScene::accumulateddUdxdv( MatrixXs& A, const VectorXs& dx, const VectorXs& dv )
{
assert( A.rows() == m_x.size() );
assert( A.cols() == m_x.size() );
assert( dx.size() == dv.size() );
assert( dx.size() == 0 || dx.size() == A.rows() );
if( dx.size() == 0 ) for( std::vector<Force*>::size_type i = 0; i < m_forces.size(); ++i ) m_forces[i]->addHessVToTotal( m_x, m_v, m_m, A );
else for( std::vector<Force*>::size_type i = 0; i < m_forces.size(); ++i ) m_forces[i]->addHessVToTotal( m_x+dx, m_v+dv, m_m, A );
}
void VortexForce::addHessVToTotal( const VectorXs& x, const VectorXs& v, const VectorXs& m, MatrixXs& hessE )
{
assert( x.size() == v.size() );
assert( x.size() == m.size() );
assert( x.size() == hessE.rows() );
assert( x.size() == hessE.cols() );
assert( x.size()%2 == 0 );
std::cerr << outputmod::startred << "ERROR IN VORTEXFORCE: " << outputmod::endred << "No addHessXToTotal defined for VortexForce." << std::endl;
exit(1);
}
void DragDampingForce::addHessVToTotal( const VectorXs& x, const VectorXs& v, const VectorXs& m, MatrixXs& hessE )
{
assert( x.size() == v.size() );
assert( x.size() == m.size() );
assert( x.size() == hessE.rows() );
assert( x.size() == hessE.cols() );
assert( x.size()%3 == 0 );
Matrix3s J = -m_b * Matrix3s::Identity();
for (int i=0; i < x.size(); i += 3) {
for (int j=0; j < x.size(); j += 3) {
hessE.block<3, 3>(i, j) += J;
}
}
}
