// @(#)root/matrix:$Id$ // Authors: Fons Rademakers, Eddy Offermann Dec 2003 /************************************************************************* * Copyright (C) 1995-2000, Rene Brun and Fons Rademakers. * * All rights reserved. * * * * For the licensing terms see $ROOTSYS/LICENSE. * * For the list of contributors see $ROOTSYS/README/CREDITS. * *************************************************************************/ #ifndef ROOT_TDecompSVD #define ROOT_TDecompSVD /////////////////////////////////////////////////////////////////////////// // // // Single Value Decomposition class // // // /////////////////////////////////////////////////////////////////////////// #include "TDecompBase.h" class TDecompSVD : public TDecompBase { protected : // A = fU fSig fV^T TMatrixD fU; // orthogonal matrix TMatrixD fV; // orthogonal matrix TVectorD fSig; // diagonal of diagonal matrix static Bool_t Bidiagonalize(TMatrixD &v,TMatrixD &u,TVectorD &sDiag,TVectorD &oDiag); static Bool_t Diagonalize (TMatrixD &v,TMatrixD &u,TVectorD &sDiag,TVectorD &oDiag); static void Diag_1 (TMatrixD &v,TVectorD &sDiag,TVectorD &oDiag,Int_t k); static void Diag_2 (TVectorD &sDiag,TVectorD &oDiag,Int_t k,Int_t l); static void Diag_3 (TMatrixD &v,TMatrixD &u,TVectorD &sDiag,TVectorD &oDiag,Int_t k,Int_t l); static void SortSingular (TMatrixD &v,TMatrixD &u,TVectorD &sDiag); virtual const TMatrixDBase &GetDecompMatrix() const { return fU; } public : enum {kWorkMax = 100}; // size of work array TDecompSVD(): fU(), fV(), fSig() {} TDecompSVD(Int_t nrows,Int_t ncols); TDecompSVD(Int_t row_lwb,Int_t row_upb,Int_t col_lwb,Int_t col_upb); TDecompSVD(const TMatrixD &m,Double_t tol = 0.0); TDecompSVD(const TDecompSVD &another); virtual ~TDecompSVD() {} const TMatrixD GetMatrix (); virtual Int_t GetNrows () const; virtual Int_t GetNcols () const; const TMatrixD &GetU () { if ( !TestBit(kDecomposed) ) Decompose(); return fU; } const TMatrixD &GetV () { if ( !TestBit(kDecomposed) ) Decompose(); return fV; } const TVectorD &GetSig () { if ( !TestBit(kDecomposed) ) Decompose(); return fSig; } virtual void SetMatrix (const TMatrixD &a); virtual Bool_t Decompose (); virtual Bool_t Solve ( TVectorD &b); virtual TVectorD Solve (const TVectorD& b,Bool_t &ok) { TVectorD x = b; ok = Solve(x); const Int_t rowLwb = GetRowLwb(); x.ResizeTo(rowLwb,rowLwb+GetNcols()-1); return x; } virtual Bool_t Solve ( TMatrixDColumn &b); virtual Bool_t TransSolve ( TVectorD &b); virtual TVectorD TransSolve (const TVectorD& b,Bool_t &ok) { TVectorD x = b; ok = TransSolve(x); const Int_t rowLwb = GetRowLwb(); x.ResizeTo(rowLwb,rowLwb+GetNcols()-1); return x; } virtual Bool_t TransSolve ( TMatrixDColumn &b); virtual Double_t Condition (); virtual void Det (Double_t &d1,Double_t &d2); Bool_t Invert (TMatrixD &inv); TMatrixD Invert (Bool_t &status); TMatrixD Invert () {Bool_t status; return Invert(status); } void Print(Option_t *opt ="") const; // *MENU* TDecompSVD &operator= (const TDecompSVD &source); ClassDef(TDecompSVD,1) // Matrix Decompositition SVD }; #endif