12 #ifndef ROOT_TDecompSparse 13 #define ROOT_TDecompSparse 21 #ifndef ROOT_TDecompBase 24 #ifndef ROOT_TMatrixDSparse 159 if (fVerbose) { fIcntl[1] = fIcntl[2] = 1; fIcntl[3] = 2; }
160 else { fIcntl[1] = fIcntl[2] = fIcntl[3] = 0; }
178 {
MayNotUse(
"Det(Double_t&,Double_t&)"); }
void SetTreatAsZero(Double_t tol)
virtual Int_t GetNcols() const
virtual Int_t GetNrows() const
virtual Bool_t TransSolve(TVectorD &b)
virtual void SetMatrix(const TMatrixDSparse &a)
Set matrix to be decomposed .
static void InitPivot_sub5(const Int_t n, Int_t *ipe, Int_t *nv, Int_t *ips, Int_t *ne, Int_t *na, Int_t *nd, Int_t &nsteps, const Int_t nemin)
Help routine for pivoting setup.
static void CopyUpperTriang(const TMatrixDSparse &a, Double_t *b)
Static function, copying the non-zero entries in the upper triangle to array b .
static void InitPivot_sub1(const Int_t n, const Int_t nz, Int_t *irn, Int_t *icn, Int_t *iw, Int_t *ipe, Int_t *iq, Int_t *flag, Int_t &iwfr, Int_t *icntl, Int_t *info)
Help routine for pivoting setup.
const Double_t kThresholdPivotingFactor
virtual Bool_t TransSolve(TMatrixDColumn &)
virtual const TMatrixDBase & GetDecompMatrix() const
void Print(Option_t *opt="") const
Print class members.
TDecompSparse()
Default constructor.
Decomposition Base class.
static void Factor_sub3(Double_t *a, Int_t *iw, Int_t &j1, Int_t &j2, const Int_t itop, const Int_t ireal, Int_t &ncmpbr, Int_t &ncmpbi)
Help routine for factorization.
TDecompSparse & operator=(const TDecompSparse &source)
Assignment operator.
Array of integers (32 bits per element).
virtual Bool_t Decompose()
Decomposition engine .
#define ClassDef(name, id)
static Int_t IDiag(Int_t ix, Int_t iy)
static void Solve(const Int_t n, TArrayD &Aa, TArrayI &Aiw, TArrayD &Aw, const Int_t maxfrt, TVectorD &b, TArrayI &Aiw1, const Int_t nsteps, Int_t *icntl, Int_t *info)
Main routine for solving Ax=b.
static void Solve_sub1(const Int_t n, Double_t *a, Int_t *iw, Double_t *w, Double_t *rhs, Int_t *iw2, const Int_t nblk, Int_t &latop, Int_t *icntl)
Help routine for solving.
virtual void Det(Double_t &, Double_t &)
Matrix determinant det = d1*TMath::Power(2.,d2)
static void Factor(const Int_t n, const Int_t nz, TArrayI &Airn, TArrayI &Aicn, TArrayD &Aa, TArrayI &Aiw, TArrayI &Aikeep, const Int_t nsteps, Int_t &maxfrt, TArrayI &Aiw1, Int_t *icntl, Double_t *cntl, Int_t *info)
Factorization routine, the workhorse for the decomposition step.
void InitParam()
initializing control parameters
void MayNotUse(const char *method) const
Use this method to signal that a method (defined in a base class) may not be called in a derived clas...
static Int_t NonZerosUpperTriang(const TMatrixDSparse &a)
Static function, returning the number of non-zero entries in the upper triangular matrix ...
static void Solve_sub2(const Int_t n, Double_t *a, Int_t *iw, Double_t *w, Double_t *rhs, Int_t *iw2, const Int_t nblk, const Int_t latop, Int_t *icntl)
Help routine for solving.
Double_t GetThresholdPivoting()
Sparse Symmetric Decomposition class.
void SetThresholdPivoting(Double_t piv)
static void Factor_sub2(const Int_t n, const Int_t nz, Double_t *a, const Int_t la, Int_t *iw, const Int_t liw, Int_t *perm, Int_t *nstk, const Int_t nsteps, Int_t &maxfrt, Int_t *nelim, Int_t *iw2, Int_t *icntl, Double_t *cntl, Int_t *info)
Help routine for factorization.
virtual TVectorD TransSolve(const TVectorD &b, Bool_t &ok)
const Double_t kInitPrecision
const Double_t kThresholdPivotingMax
Array of doubles (64 bits per element).
Double_t GetTreatAsZero()
virtual Bool_t Solve(TMatrixDColumn &)
static void InitPivot_sub2(const Int_t n, Int_t *ipe, Int_t *iw, const Int_t lw, Int_t &iwfr, Int_t *nv, Int_t *nxt, Int_t *lst, Int_t *ipd, Int_t *flag, const Int_t iovflo, Int_t &ncmpa, const Double_t fratio)
Help routine for pivoting setup.
static void InitPivot_sub4(const Int_t n, Int_t *ipe, Int_t *iw, const Int_t lw, Int_t &iwfr, Int_t *ips, Int_t *ipv, Int_t *nv, Int_t *flag, Int_t &ncmpa)
Help routine for pivoting setup.
const Double_t kInitTreatAsZero
static void InitPivot_sub2a(const Int_t n, Int_t *ipe, Int_t *iw, const Int_t lw, Int_t &iwfr, Int_t &ncmpa)
Help routine for pivoting setup.
you should not use this method at all Int_t Int_t Double_t Double_t Double_t Int_t Double_t Double_t Double_t Double_t b
const Double_t kInitThresholdPivoting
virtual TVectorD Solve(const TVectorD &b, Bool_t &ok)
static void InitPivot(const Int_t n, const Int_t nz, TArrayI &Airn, TArrayI &Aicn, TArrayI &Aiw, TArrayI &Aikeep, TArrayI &Aiw1, Int_t &nsteps, const Int_t iflag, Int_t *icntl, Double_t *cntl, Int_t *info, Double_t &ops)
Setup Pivoting variables.
static void InitPivot_sub6(const Int_t n, const Int_t nz, Int_t *irn, Int_t *icn, Int_t *perm, Int_t *na, Int_t *ne, Int_t *nd, const Int_t nsteps, Int_t *lstki, Int_t *lstkr, Int_t *iw, Int_t *info, Double_t &ops)
Help routine for pivoting setup.
static void Factor_sub1(const Int_t n, const Int_t nz, Int_t &nz1, Double_t *a, const Int_t la, Int_t *irn, Int_t *icn, Int_t *iw, const Int_t liw, Int_t *perm, Int_t *iw2, Int_t *icntl, Int_t *info)
Help routine for factorization.
static void InitPivot_sub3(const Int_t n, const Int_t nz, Int_t *irn, Int_t *icn, Int_t *perm, Int_t *iw, Int_t *ipe, Int_t *iq, Int_t *flag, Int_t &iwfr, Int_t *icntl, Int_t *info)
Help routine for pivoting setup.