Classes | Namespaces | Functions
UmfPackSupport.h File Reference

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Classes

struct  Eigen::internal::solve_retval< UmfPackLU< _MatrixType >, Rhs >
struct  Eigen::internal::sparse_solve_retval< UmfPackLU< _MatrixType >, Rhs >
class  Eigen::UmfPackLU< _MatrixType >
 A sparse LU factorization and solver based on UmfPack. More...

Namespaces

namespace  Eigen
 

iterative scaling algorithm to equilibrate rows and column norms in matrices


namespace  Eigen::internal

Functions

void Eigen::umfpack_free_numeric (void **Numeric, double)
void Eigen::umfpack_free_numeric (void **Numeric, std::complex< double >)
void Eigen::umfpack_free_symbolic (void **Symbolic, double)
void Eigen::umfpack_free_symbolic (void **Symbolic, std::complex< double >)
int Eigen::umfpack_get_determinant (double *Mx, double *Ex, void *NumericHandle, double User_Info[UMFPACK_INFO])
int Eigen::umfpack_get_determinant (std::complex< double > *Mx, double *Ex, void *NumericHandle, double User_Info[UMFPACK_INFO])
int Eigen::umfpack_get_lunz (int *lnz, int *unz, int *n_row, int *n_col, int *nz_udiag, void *Numeric, double)
int Eigen::umfpack_get_lunz (int *lnz, int *unz, int *n_row, int *n_col, int *nz_udiag, void *Numeric, std::complex< double >)
int Eigen::umfpack_get_numeric (int Lp[], int Lj[], double Lx[], int Up[], int Ui[], double Ux[], int P[], int Q[], double Dx[], int *do_recip, double Rs[], void *Numeric)
int Eigen::umfpack_get_numeric (int Lp[], int Lj[], std::complex< double > Lx[], int Up[], int Ui[], std::complex< double > Ux[], int P[], int Q[], std::complex< double > Dx[], int *do_recip, double Rs[], void *Numeric)
int Eigen::umfpack_numeric (const int Ap[], const int Ai[], const double Ax[], void *Symbolic, void **Numeric, const double Control[UMFPACK_CONTROL], double Info[UMFPACK_INFO])
int Eigen::umfpack_numeric (const int Ap[], const int Ai[], const std::complex< double > Ax[], void *Symbolic, void **Numeric, const double Control[UMFPACK_CONTROL], double Info[UMFPACK_INFO])
int Eigen::umfpack_solve (int sys, const int Ap[], const int Ai[], const double Ax[], double X[], const double B[], void *Numeric, const double Control[UMFPACK_CONTROL], double Info[UMFPACK_INFO])
int Eigen::umfpack_solve (int sys, const int Ap[], const int Ai[], const std::complex< double > Ax[], std::complex< double > X[], const std::complex< double > B[], void *Numeric, const double Control[UMFPACK_CONTROL], double Info[UMFPACK_INFO])
int Eigen::umfpack_symbolic (int n_row, int n_col, const int Ap[], const int Ai[], const double Ax[], void **Symbolic, const double Control[UMFPACK_CONTROL], double Info[UMFPACK_INFO])
int Eigen::umfpack_symbolic (int n_row, int n_col, const int Ap[], const int Ai[], const std::complex< double > Ax[], void **Symbolic, const double Control[UMFPACK_CONTROL], double Info[UMFPACK_INFO])


acado
Author(s): Milan Vukov, Rien Quirynen
autogenerated on Thu Aug 27 2015 12:01:37