TQpDataDens - source file

// @(#)root/quadp:$Id$
// Author: Eddy Offermann   May 2004

/*************************************************************************
 * 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.             *
 *************************************************************************/

/*************************************************************************
 * Parts of this file are copied from the OOQP distribution and          *
 * are subject to the following license:                                 *
 *                                                                       *
 * COPYRIGHT 2001 UNIVERSITY OF CHICAGO                                  *
 *                                                                       *
 * The copyright holder hereby grants you royalty-free rights to use,    *
 * reproduce, prepare derivative works, and to redistribute this software*
 * to others, provided that any changes are clearly documented. This     *
 * software was authored by:                                             *
 *                                                                       *
 *   E. MICHAEL GERTZ      gertz@mcs.anl.gov                             *
 *   Mathematics and Computer Science Division                           *
 *   Argonne National Laboratory                                         *
 *   9700 S. Cass Avenue                                                 *
 *   Argonne, IL 60439-4844                                              *
 *                                                                       *
 *   STEPHEN J. WRIGHT     swright@cs.wisc.edu                           *
 *   Computer Sciences Department                                        *
 *   University of Wisconsin                                             *
 *   1210 West Dayton Street                                             *
 *   Madison, WI 53706   FAX: (608)262-9777                              *
 *                                                                       *
 * Any questions or comments may be directed to one of the authors.      *
 *                                                                       *
 * ARGONNE NATIONAL LABORATORY (ANL), WITH FACILITIES IN THE STATES OF   *
 * ILLINOIS AND IDAHO, IS OWNED BY THE UNITED STATES GOVERNMENT, AND     *
 * OPERATED BY THE UNIVERSITY OF CHICAGO UNDER PROVISION OF A CONTRACT   *
 * WITH THE DEPARTMENT OF ENERGY.                                        *
 *************************************************************************/

#ifndef ROOT_TQpDataDens
#define ROOT_TQpDataDens

#ifndef ROOT_TError
#include "TError.h"
#endif
#ifndef ROOT_TQpDataBase
#include "TQpDataBase.h"
#endif

#ifndef ROOT_TQpVar
#include "TQpVar.h"
#endif

#ifndef ROOT_TMatrixD
#include "TMatrixD.h"
#endif
#ifndef ROOT_TMatrixDSym
#include "TMatrixDSym.h"
#endif

//////////////////////////////////////////////////////////////////////////
//                                                                      //
// TQpDataDens                                                          //
//                                                                      //
// Data for the dense QP formulation                                    //
//                                                                      //
//////////////////////////////////////////////////////////////////////////

class TQpDataDens : public TQpDataBase
{

protected:

   // these variables will be "Used" not copied
   TMatrixDSym fQ;                             // Quadratic part of Objective function
   TMatrixD    fA;                             // Equality constraints
   TMatrixD    fC;                             // Inequality constraints

public:

   TQpDataDens() {}
   // data objects of the specified dimensions
   TQpDataDens(Int_t nx,Int_t my,Int_t mz);

   // sets up pointers to the data objects that are passed as arguments
   TQpDataDens(TVectorD &c,TMatrixDSym &Q,TVectorD &xlow,TVectorD &ixlow,TVectorD &xupp,
               TVectorD &ixupp,TMatrixD &A,TVectorD &bA,TMatrixD &C,TVectorD &clow,
               TVectorD &iclow,TVectorD &cupp,TVectorD &icupp);
   TQpDataDens(const TQpDataDens &another);

   virtual ~TQpDataDens() {}

   virtual void PutQIntoAt(TMatrixDBase &M,Int_t row,Int_t col);
                                               // insert the Hessian Q into the matrix M for the fundamental
                                               // linear system, where M is stored as a TMatrixD
   virtual void PutAIntoAt(TMatrixDBase &M,Int_t row,Int_t col);
                                               // insert the constraint matrix A into the matrix M for the
                                               // fundamental linear system, where M is stored as a TMatrixD
   virtual void PutCIntoAt(TMatrixDBase &M,Int_t row,Int_t col);
                                               // insert the constraint matrix C into the matrix M for the
                                               // fundamental linear system, where M is stored as a TMatrixD

   virtual void Qmult     (Double_t beta,TVectorD& y,Double_t alpha,const TVectorD& x);
                                               // y = beta * y + alpha * Q * x
   virtual void Amult     (Double_t beta,TVectorD& y,Double_t alpha,const TVectorD& x);
                                               // y = beta * y + alpha * A * x
   virtual void Cmult     (Double_t beta,TVectorD& y,Double_t alpha,const TVectorD& x);
                                               // y = beta * y + alpha * C * x
   virtual void ATransmult(Double_t beta,TVectorD& y,Double_t alpha,const TVectorD& x);
                                               // y = beta * y + alpha * A^T * x
   virtual void CTransmult(Double_t beta,TVectorD& y,Double_t alpha,const TVectorD& x);
                                               // y = beta * y + alpha * C^T * x

   virtual void GetDiagonalOfQ(TVectorD &dQ);  // extract the diagonal of Q and put it in the vector dQ

   virtual Double_t DataNorm();
   virtual void DataRandom(TVectorD &x,TVectorD &y,TVectorD &z,TVectorD &s);
                                               // Create a random problem (x,y,z,s)
                                               // the solution to the random problem
   virtual void Print(Option_t *opt="") const;

   virtual Double_t ObjectiveValue(TQpVar *vars);

   TQpDataDens &operator= (const TQpDataDens &source);

   ClassDef(TQpDataDens,1)                     // Qp Data class for Dens formulation
};
#endif

TQpDataDens.h:1

TQpDataDens.h:2

TQpDataDens.h:3

TQpDataDens.h:4

TQpDataDens.h:5

TQpDataDens.h:6

TQpDataDens.h:7

TQpDataDens.h:8

TQpDataDens.h:9

TQpDataDens.h:10

TQpDataDens.h:11

TQpDataDens.h:12

TQpDataDens.h:13

TQpDataDens.h:14

TQpDataDens.h:15

TQpDataDens.h:16

TQpDataDens.h:17

TQpDataDens.h:18

TQpDataDens.h:19

TQpDataDens.h:20

TQpDataDens.h:21

TQpDataDens.h:22

TQpDataDens.h:23

TQpDataDens.h:24

TQpDataDens.h:25

TQpDataDens.h:26

TQpDataDens.h:27

TQpDataDens.h:28

TQpDataDens.h:29

TQpDataDens.h:30

TQpDataDens.h:31

TQpDataDens.h:32

TQpDataDens.h:33

TQpDataDens.h:34

TQpDataDens.h:35

TQpDataDens.h:36

TQpDataDens.h:37

TQpDataDens.h:38

TQpDataDens.h:39

TQpDataDens.h:40

TQpDataDens.h:41

TQpDataDens.h:42

TQpDataDens.h:43

TQpDataDens.h:44

TQpDataDens.h:45

TQpDataDens.h:46

TQpDataDens.h:47

TQpDataDens.h:48

TQpDataDens.h:49

TQpDataDens.h:50

TQpDataDens.h:51

TQpDataDens.h:52

TQpDataDens.h:53

TQpDataDens.h:54

TQpDataDens.h:55

TQpDataDens.h:56

TQpDataDens.h:57

TQpDataDens.h:58

TQpDataDens.h:59

TQpDataDens.h:60

TQpDataDens.h:61

TQpDataDens.h:62

TQpDataDens.h:63

TQpDataDens.h:64

TQpDataDens.h:65

TQpDataDens.h:66

TQpDataDens.h:67

TQpDataDens.h:68

TQpDataDens.h:69

TQpDataDens.h:70

TQpDataDens.h:71

TQpDataDens.h:72

TQpDataDens.h:73

TQpDataDens.h:74

TQpDataDens.h:75

TQpDataDens.h:76

TQpDataDens.h:77

TQpDataDens.h:78

TQpDataDens.h:79

TQpDataDens.h:80

TQpDataDens.h:81

TQpDataDens.h:82

TQpDataDens.h:83

TQpDataDens.h:84

TQpDataDens.h:85

TQpDataDens.h:86

TQpDataDens.h:87

TQpDataDens.h:88

TQpDataDens.h:89

TQpDataDens.h:90

TQpDataDens.h:91

TQpDataDens.h:92

TQpDataDens.h:93

TQpDataDens.h:94

TQpDataDens.h:95

TQpDataDens.h:96

TQpDataDens.h:97

TQpDataDens.h:98

TQpDataDens.h:99

TQpDataDens.h:100

TQpDataDens.h:101

TQpDataDens.h:102

TQpDataDens.h:103

TQpDataDens.h:104

TQpDataDens.h:105

TQpDataDens.h:106

TQpDataDens.h:107

TQpDataDens.h:108

TQpDataDens.h:109

TQpDataDens.h:110

TQpDataDens.h:111

TQpDataDens.h:112

TQpDataDens.h:113

TQpDataDens.h:114

TQpDataDens.h:115

TQpDataDens.h:116

TQpDataDens.h:117

TQpDataDens.h:118

TQpDataDens.h:119

TQpDataDens.h:120

TQpDataDens.h:121

TQpDataDens.h:122

TQpDataDens.h:123

TQpDataDens.h:124

TQpDataDens.h:125

TQpDataDens.h:126

TQpDataDens.h:127

TQpDataDens.h:128

TQpDataDens.h:129

TQpDataDens.h:130

TQpDataDens.h:131