// @(#)root/matrix:$Id: TVectorT.h 30125 2009-09-14 05:03:58Z brun $ // Authors: Fons Rademakers, Eddy Offermann Nov 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_TVectorT #define ROOT_TVectorT ////////////////////////////////////////////////////////////////////////// // // // TVectorT // // // // Template class of Vectors in the linear algebra package // // // ////////////////////////////////////////////////////////////////////////// #ifndef ROOT_TMatrixT #include "TMatrixT.h" #endif #ifndef ROOT_TMatrixTSym #include "TMatrixTSym.h" #endif #ifndef ROOT_TMatrixTSparse #include "TMatrixTSparse.h" #endif template<class Element> class TVectorT : public TObject { protected: Int_t fNrows; // number of rows Int_t fRowLwb; // lower bound of the row index Element *fElements; //[fNrows] elements themselves enum {kSizeMax = 5}; // size data container on stack, see New_m(),Delete_m() enum {kWorkMax = 100}; // size of work array's in several routines Element fDataStack[kSizeMax]; //! data container Bool_t fIsOwner; //!default kTRUE, when Use array kFALSE Element* New_m (Int_t size); void Delete_m(Int_t size,Element*&); Int_t Memcpy_m(Element *newp,const Element *oldp,Int_t copySize, Int_t newSize,Int_t oldSize); void Allocate(Int_t nrows,Int_t row_lwb = 0,Int_t init = 0); enum EVectorStatusBits { kStatus = BIT(14) // set if vector object is valid }; public: TVectorT() : fNrows(0), fRowLwb(0), fElements(0), fIsOwner(kTRUE) { } explicit TVectorT(Int_t n); TVectorT(Int_t lwb,Int_t upb); TVectorT(Int_t n,const Element *elements); TVectorT(Int_t lwb,Int_t upb,const Element *elements); TVectorT(const TVectorT <Element> &another); TVectorT(const TMatrixTRow_const <Element> &mr); TVectorT(const TMatrixTColumn_const<Element> &mc); TVectorT(const TMatrixTDiag_const <Element> &md); template <class Element2> TVectorT(const TVectorT<Element2> &another) { R__ASSERT(another.IsValid()); Allocate(another.GetUpb()-another.GetLwb()+1,another.GetLwb()); *this = another; } #ifndef __CINT__ TVectorT(Int_t lwb,Int_t upb,Element iv1, ...); #endif virtual ~TVectorT() { Clear(); } inline Int_t GetLwb () const { return fRowLwb; } inline Int_t GetUpb () const { return fNrows+fRowLwb-1; } inline Int_t GetNrows () const { return fNrows; } inline Int_t GetNoElements() const { return fNrows; } inline Element *GetMatrixArray () { return fElements; } inline const Element *GetMatrixArray () const { return fElements; } inline void Invalidate () { SetBit(kStatus); } inline void MakeValid () { ResetBit(kStatus); } inline Bool_t IsValid () const { return !TestBit(kStatus); } inline Bool_t IsOwner () const { return fIsOwner; } inline void SetElements(const Element *elements) { R__ASSERT(IsValid()); memcpy(fElements,elements,fNrows*sizeof(Element)); } inline TVectorT<Element> &Shift (Int_t row_shift) { fRowLwb += row_shift; return *this; } TVectorT<Element> &ResizeTo (Int_t lwb,Int_t upb); inline TVectorT<Element> &ResizeTo (Int_t n) { return ResizeTo(0,n-1); } inline TVectorT<Element> &ResizeTo (const TVectorT<Element> &v) { return ResizeTo(v.GetLwb(),v.GetUpb()); } TVectorT<Element> &Use (Int_t lwb,Int_t upb,Element *data); const TVectorT<Element> &Use (Int_t lwb,Int_t upb,const Element *data) const { return (const TVectorT<Element>&)(const_cast<TVectorT<Element> *>(this))->Use(lwb,upb,const_cast<Element *>(data)); } TVectorT<Element> &Use (Int_t n,Element *data); const TVectorT<Element> &Use (Int_t n,const Element *data) const ; TVectorT<Element> &Use (TVectorT<Element> &v); const TVectorT<Element> &Use (const TVectorT<Element> &v) const ; TVectorT<Element> &GetSub (Int_t row_lwb,Int_t row_upb,TVectorT<Element> &target,Option_t *option="S") const; TVectorT<Element> GetSub (Int_t row_lwb,Int_t row_upb,Option_t *option="S") const; TVectorT<Element> &SetSub (Int_t row_lwb,const TVectorT<Element> &source); TVectorT<Element> &Zero(); TVectorT<Element> &Abs (); TVectorT<Element> &Sqr (); TVectorT<Element> &Sqrt(); TVectorT<Element> &Invert(); TVectorT<Element> &SelectNonZeros(const TVectorT<Element> &select); Element Norm1 () const; Element Norm2Sqr() const; Element NormInf () const; Int_t NonZeros() const; Element Sum () const; Element Min () const; Element Max () const; inline const Element &operator()(Int_t index) const; inline Element &operator()(Int_t index); inline const Element &operator[](Int_t index) const { return (*this)(index); } inline Element &operator[](Int_t index) { return (*this)(index); } TVectorT<Element> &operator= (const TVectorT <Element> &source); TVectorT<Element> &operator= (const TMatrixTRow_const <Element> &mr); TVectorT<Element> &operator= (const TMatrixTColumn_const <Element> &mc); TVectorT<Element> &operator= (const TMatrixTDiag_const <Element> &md); TVectorT<Element> &operator= (const TMatrixTSparseRow_const <Element> &md); TVectorT<Element> &operator= (const TMatrixTSparseDiag_const<Element> &md); template <class Element2> TVectorT<Element> &operator= (const TVectorT<Element2> &source) { if (!AreCompatible(*this,source)) { Error("operator=(const TVectorT2 &)","vectors not compatible"); return *this; } TObject::operator=(source); const Element2 * const ps = source.GetMatrixArray(); Element * const pt = GetMatrixArray(); for (Int_t i = 0; i < this->fNrows; i++) pt[i] = ps[i]; return *this; } TVectorT<Element> &operator= (Element val); TVectorT<Element> &operator+=(Element val); TVectorT<Element> &operator-=(Element val); TVectorT<Element> &operator*=(Element val); TVectorT<Element> &operator+=(const TVectorT <Element> &source); TVectorT<Element> &operator-=(const TVectorT <Element> &source); TVectorT<Element> &operator*=(const TMatrixT <Element> &a); TVectorT<Element> &operator*=(const TMatrixTSym <Element> &a); TVectorT<Element> &operator*=(const TMatrixTSparse<Element> &a); Bool_t operator==(Element val) const; Bool_t operator!=(Element val) const; Bool_t operator< (Element val) const; Bool_t operator<=(Element val) const; Bool_t operator> (Element val) const; Bool_t operator>=(Element val) const; Bool_t MatchesNonZeroPattern(const TVectorT<Element> &select); Bool_t SomePositive (const TVectorT<Element> &select); void AddSomeConstant (Element val,const TVectorT<Element> &select); void Randomize (Element alpha,Element beta,Double_t &seed); TVectorT<Element> &Apply(const TElementActionT <Element> &action); TVectorT<Element> &Apply(const TElementPosActionT<Element> &action); void Add(const TVectorT<Element> &v); void Add(const TVectorT<Element> &v1, const TVectorT<Element> &v2); void Clear(Option_t * /*option*/ ="") { if (fIsOwner) Delete_m(fNrows,fElements); else fElements = 0; fNrows = 0; } void Draw (Option_t *option=""); // *MENU* void Print(Option_t *option="") const; // *MENU* ClassDef(TVectorT,4) // Template of Vector class }; template<class Element> inline TVectorT<Element> &TVectorT<Element>::Use (Int_t n,Element *data) { return Use(0,n-1,data); } template<class Element> inline const TVectorT<Element> &TVectorT<Element>::Use (Int_t n,const Element *data) const { return Use(0,n-1,data); } template<class Element> inline TVectorT<Element> &TVectorT<Element>::Use (TVectorT &v) { R__ASSERT(v.IsValid()); return Use(v.GetLwb(),v.GetUpb(),v.GetMatrixArray()); } template<class Element> inline const TVectorT<Element> &TVectorT<Element>::Use (const TVectorT &v) const { R__ASSERT(v.IsValid()); return Use(v.GetLwb(),v.GetUpb(),v.GetMatrixArray()); } template<class Element> inline TVectorT<Element> TVectorT<Element>::GetSub (Int_t row_lwb,Int_t row_upb,Option_t *option) const { TVectorT tmp; this->GetSub(row_lwb,row_upb,tmp,option); return tmp; } template<class Element> inline const Element &TVectorT<Element>::operator()(Int_t ind) const { // Access a vector element. R__ASSERT(IsValid()); const Int_t aind = ind-fRowLwb; if (aind >= fNrows || aind < 0) { Error("operator()","Request index(%d) outside vector range of %d - %d",ind,fRowLwb,fRowLwb+fNrows); return fElements[0]; } return fElements[aind]; } template<class Element> inline Element &TVectorT<Element>::operator()(Int_t ind) { // Access a vector element. R__ASSERT(IsValid()); const Int_t aind = ind-fRowLwb; if (aind >= fNrows || aind < 0) { Error("operator()","Request index(%d) outside vector range of %d - %d",ind,fRowLwb,fRowLwb+fNrows); return fElements[0]; } return fElements[aind]; } template<class Element> Bool_t operator== (const TVectorT <Element> &source1,const TVectorT <Element> &source2); template<class Element> TVectorT<Element> operator+ (const TVectorT <Element> &source1,const TVectorT <Element> &source2); template<class Element> TVectorT<Element> operator- (const TVectorT <Element> &source1,const TVectorT <Element> &source2); template<class Element> Element operator* (const TVectorT <Element> &source1,const TVectorT <Element> &source2); template<class Element> TVectorT<Element> operator* (const TMatrixT <Element> &a, const TVectorT <Element> &source); template<class Element> TVectorT<Element> operator* (const TMatrixTSym <Element> &a, const TVectorT <Element> &source); template<class Element> TVectorT<Element> operator* (const TMatrixTSparse<Element> &a, const TVectorT <Element> &source); template<class Element> TVectorT<Element> operator* ( Element val, const TVectorT <Element> &source); template<class Element> Element Dot (const TVectorT <Element> &source1,const TVectorT <Element> &source2); template <class Element1,class Element2> TMatrixT<Element1> OuterProduct(const TVectorT <Element1> &v1, const TVectorT <Element2> &v2); template <class Element1,class Element2,class Element3> TMatrixT<Element1> &OuterProduct( TMatrixT <Element1> &target, const TVectorT <Element2> &v1, const TVectorT <Element3> &v2); template <class Element1,class Element2,class Element3> Element1 Mult (const TVectorT <Element1> &v1, const TMatrixT <Element2> &m, const TVectorT <Element3> &v2); template<class Element> TVectorT<Element> &Add ( TVectorT <Element> &target, Element scalar, const TVectorT <Element> &source); template<class Element> TVectorT<Element> &Add ( TVectorT <Element> &target, Element scalar, const TMatrixT <Element> &a, const TVectorT<Element> &source); template<class Element> TVectorT<Element> &Add ( TVectorT <Element> &target, Element scalar, const TMatrixTSym <Element> &a, const TVectorT<Element> &source); template<class Element> TVectorT<Element> &Add ( TVectorT <Element> &target, Element scalar, const TMatrixTSparse<Element> &a, const TVectorT<Element> &source); template<class Element> TVectorT<Element> &AddElemMult ( TVectorT <Element> &target, Element scalar, const TVectorT <Element> &source1, const TVectorT <Element> &source2); template<class Element> TVectorT<Element> &AddElemMult ( TVectorT <Element> &target, Element scalar, const TVectorT <Element> &source1, const TVectorT <Element> &source2,const TVectorT <Element> &select); template<class Element> TVectorT<Element> &AddElemDiv ( TVectorT <Element> &target, Element scalar, const TVectorT <Element> &source1, const TVectorT <Element> &source2); template<class Element> TVectorT<Element> &AddElemDiv ( TVectorT <Element> &target, Element scalar, const TVectorT <Element> &source1, const TVectorT <Element> &source2,const TVectorT <Element> &select); template<class Element> TVectorT<Element> &ElementMult ( TVectorT <Element> &target, const TVectorT <Element> &source); template<class Element> TVectorT<Element> &ElementMult ( TVectorT <Element> &target, const TVectorT <Element> &source, const TVectorT <Element> &select); template<class Element> TVectorT<Element> &ElementDiv ( TVectorT <Element> &target, const TVectorT <Element> &source); template<class Element> TVectorT<Element> &ElementDiv ( TVectorT <Element> &target, const TVectorT <Element> &source, const TVectorT <Element> &select); template<class Element1,class Element2> Bool_t AreCompatible(const TVectorT<Element1> &v1,const TVectorT<Element2> &v2,Int_t verbose=0); // Check matrix and vector for compatibility in multiply: M * v and v * M template<class Element1,class Element2> Bool_t AreCompatible(const TMatrixT<Element1> &m, const TVectorT<Element2> &v, Int_t verbose=0); template<class Element1,class Element2> Bool_t AreCompatible(const TVectorT<Element1> &v, const TMatrixT<Element2> &m, Int_t verbose=0); template<class Element> void Compare (const TVectorT <Element> &source1,const TVectorT <Element> &source2); template<class Element> Bool_t VerifyVectorValue (const TVectorT <Element> &m, Element val,Int_t verbose, Element maxDevAllow); template<class Element> Bool_t VerifyVectorValue (const TVectorT <Element> &m, Element val,Int_t verbose) { return VerifyVectorValue(m,val,verbose,Element(0.0)); } template<class Element> Bool_t VerifyVectorValue (const TVectorT <Element> &m, Element val) { return VerifyVectorValue(m,val,1,Element(0.0)); } template<class Element> Bool_t VerifyVectorIdentity (const TVectorT <Element> &m1,const TVectorT <Element> &m2, Int_t verbose, Element maxDevAllow); template<class Element> Bool_t VerifyVectorIdentity (const TVectorT <Element> &m1,const TVectorT <Element> &m2, Int_t verbose) { return VerifyVectorIdentity(m1,m2,verbose,Element(0.0)); } template<class Element> Bool_t VerifyVectorIdentity (const TVectorT <Element> &m1,const TVectorT <Element> &m2) { return VerifyVectorIdentity(m1,m2,1,Element(0.0)); } #endif
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