cosmotool/src/dinterpolate.hpp

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#ifndef __COSMO_DINTERPOLATE_HPP
#define __COSMO_DINTERPOLATE_HPP
#include "config.hpp"
#include "mykdtree.hpp"
#include "kdtree_splitters.hpp"
#include <gsl/gsl_eigen.h>
namespace CosmoTool {
template<typename PType, typename IType, int N>
class DelaunayInterpolate {
public:
struct SimplexAccess {
int32_t *simplex_list;
};
typedef KDTree<N, SimplexAccess, PType, KD_homogeneous_cell_splitter<N, SimplexAccess> > QuickTree;
typedef typename QuickTree::Cell QuickCell;
typedef PType CoordType[N];
QuickTree *quickAccess;
QuickCell *cells;
PType *all_preweight;
int32_t *point_to_simplex_list_base;
IType *values;
CoordType *positions;
uint32_t numPoints;
uint32_t numSimplex;
uint32_t *simplex_list;
gsl_eigen_symmv_workspace *eigen_work;
/**
* This construct the interpolator. The construction is time consuming so
* please do it the less possible number of times, especially if you have
* a large number of points.
*
* @param positions list of the positions
* @param values list of the values taken at each position
* @param simplex_list list of points for each simplex. The packing
* is the following:
* [t(0,1),t(0,2),...,t(0,n+1),t(1,0),t(1,1),...,t(1,n+1),..],
* with t(i,j) the i-th simplex and j-th point of the simplex. The indexes
* refer to the previous list of points.
* @param numPoints the number of points
*/
DelaunayInterpolate(CoordType *positions, IType *values, uint32_t *simplex_list,
uint32_t numPoints, uint32_t numSimplex)
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throw (InvalidArgumentException)
{
this->positions = positions;
this->values = values;
this->simplex_list = simplex_list;
this->numPoints = numPoints;
this->numSimplex = numSimplex;
buildPreweight();
buildQuickAccess();
eigen_work = gsl_eigen_symmv_alloc(N);
}
~DelaunayInterpolate()
{
delete[] cells;
delete quickAccess;
delete[] point_to_simplex_list_base;
delete[] all_preweight;
gsl_eigen_symmv_free(eigen_work);
}
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void buildPreweight()
throw (InvalidArgumentException);
void buildQuickAccess();
void buildHyperplane(const PType *v, CoordType& hyper);
bool checkPointInSimplex(const CoordType& pos, uint32_t simplex);
uint32_t findSimplex(const CoordType& pos)
throw (InvalidArgumentException);
IType computeValue(const CoordType& pos)
throw (InvalidArgumentException);
};
};
#include "dinterpolate.tcc"
#endif