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48 void matVecMult(
int, CoinDenseVector<double> &,
double *);
50 void matVecMult(
int, CoinDenseVector<double> &, CoinDenseVector<double> &);
52 void matVecMult(
int, CoinDenseVector<double> *, CoinDenseVector<double> *);
56 void getGrad(CoinDenseVector<double> &x, CoinDenseVector<double> &grad);
58 void getHessian(CoinDenseVector<double> &x, CoinDenseVector<double> &H);
60 double getObj(CoinDenseVector<double> &x);
64 void matPrecon(
double, CoinDenseVector<double> &,
double *);
66 void matPrecon(
double, CoinDenseVector<double> &, CoinDenseVector<double> &);
68 void matPrecon(
double, CoinDenseVector<double> *, CoinDenseVector<double> *);
void matPrecon(double, double *, double *)
void matVecMult(int, double *, double *)
void getGrad(CoinDenseVector< double > &x, CoinDenseVector< double > &grad)
int pdco()
Pdco algorithm.
******** DATA to be moved into protected section of ClpInterior
******** DATA to be moved into protected section of ClpInterior
double getObj(CoinDenseVector< double > &x)
int pdco(ClpPdcoBase *stuff, Options &options, Info &info, Outfo &outfo)
void matPrecon(double, CoinDenseVector< double > &, double *)
void getBoundTypes(int *, int *, int *, int **)
This solves problems in Primal Dual Convex Optimization.
******** DATA to be moved into protected section of ClpInterior
void matVecMult(int, CoinDenseVector< double > &, CoinDenseVector< double > &)
void getHessian(CoinDenseVector< double > &x, CoinDenseVector< double > &H)
Abstract base class for tailoring everything for Pcdo.
This solves LPs using interior point methods.
void matPrecon(double, CoinDenseVector< double > &, CoinDenseVector< double > &)
void matVecMult(int, CoinDenseVector< double > &, double *)
void matPrecon(double, CoinDenseVector< double > *, CoinDenseVector< double > *)
void matVecMult(int, CoinDenseVector< double > *, CoinDenseVector< double > *)