void apply( Out::VecCoord& out, const In::VecCoord& in )
{
out.resize(in.size());
dx.resize(in.size());
for(unsigned int i=0; i<out.size(); i++)
{
double c = cos(in[i]);
double s = sin(in[i]);
out[i] = p0+rx*c+ry*s;
dx[i] = rx*(-s)+ry*c;
}
}
void BarycentricMapperRegularGridTopology<CudaVec3f1Types,CudaVec3f1Types>::apply( Out::VecCoord& out, const In::VecCoord& in )
{
unsigned int gridsize[3] = { (unsigned int)topology->getNx(), (unsigned int)topology->getNy(), (unsigned int)topology->getNz() };
out.fastResize(map.size());
RegularGridMapperCuda3f1_apply(map.size(), gridsize, map.deviceRead(), out.deviceWrite(), in.deviceRead());
}
void BarycentricMapperMeshTopology<CudaVec3f1Types,CudaVec3f1Types>::apply( Out::VecCoord& out, const In::VecCoord& in )
{
out.fastResize(size);
MeshMapperCuda3f1_apply(size, maxNIn, map.deviceRead(), out.deviceWrite(), in.deviceRead());
}
void BarycentricMapperSparseGridTopology<CudaVec3f1Types,CudaVec3f1Types>::apply( Out::VecCoord& out, const In::VecCoord& in )
{
out.fastResize(map.size());
buildHexa();
SparseGridMapperCuda3f1_apply(map.size(), CudaHexa.deviceRead(), map.deviceRead(), out.deviceWrite(), in.deviceRead());
}
void apply( Out::VecCoord& out, const In::VecCoord& in )
{
out.resize(in.size());
for(unsigned int i=0; i<out.size(); i++)
out[i] = p0+dx*in[i];
}
