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TQpLinSolverDens.cxx
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1// @(#)root/quadp:$Id$
2// Author: Eddy Offermann May 2004
3
4/*************************************************************************
5 * Copyright (C) 1995-2000, Rene Brun and Fons Rademakers. *
6 * All rights reserved. *
7 * *
8 * For the licensing terms see $ROOTSYS/LICENSE. *
9 * For the list of contributors see $ROOTSYS/README/CREDITS. *
10 *************************************************************************/
11
12/*************************************************************************
13 * Parts of this file are copied from the OOQP distribution and *
14 * are subject to the following license: *
15 * *
16 * COPYRIGHT 2001 UNIVERSITY OF CHICAGO *
17 * *
18 * The copyright holder hereby grants you royalty-free rights to use, *
19 * reproduce, prepare derivative works, and to redistribute this software*
20 * to others, provided that any changes are clearly documented. This *
21 * software was authored by: *
22 * *
23 * E. MICHAEL GERTZ gertz@mcs.anl.gov *
24 * Mathematics and Computer Science Division *
25 * Argonne National Laboratory *
26 * 9700 S. Cass Avenue *
27 * Argonne, IL 60439-4844 *
28 * *
29 * STEPHEN J. WRIGHT swright@cs.wisc.edu *
30 * Computer Sciences Department *
31 * University of Wisconsin *
32 * 1210 West Dayton Street *
33 * Madison, WI 53706 FAX: (608)262-9777 *
34 * *
35 * Any questions or comments may be directed to one of the authors. *
36 * *
37 * ARGONNE NATIONAL LABORATORY (ANL), WITH FACILITIES IN THE STATES OF *
38 * ILLINOIS AND IDAHO, IS OWNED BY THE UNITED STATES GOVERNMENT, AND *
39 * OPERATED BY THE UNIVERSITY OF CHICAGO UNDER PROVISION OF A CONTRACT *
40 * WITH THE DEPARTMENT OF ENERGY. *
41 *************************************************************************/
42
43//////////////////////////////////////////////////////////////////////////
44// //
45// TQpLinSolverDens //
46// //
47// Implements the aspects of the solvers for dense general QP //
48// formulation that are specific to the dense case. //
49// //
50//////////////////////////////////////////////////////////////////////////
51
52#include "Riostream.h"
53#include "TQpLinSolverDens.h"
54
56
57////////////////////////////////////////////////////////////////////////////////
58/// Constructor
59
62{
63 const Int_t n = factory->fNx+factory->fMy+factory->fMz;
65
66 data->PutQIntoAt(fKkt,0, 0);
67 if (fMy > 0) data->PutAIntoAt(fKkt,fNx, 0);
68 if (fMz > 0) data->PutCIntoAt(fKkt,fNx+fMy,0);
69 for (Int_t ix = fNx; ix < fNx+fMy+fMz; ix++) {
70 for (Int_t iy = fNx; iy < fNx+fMy+fMz; iy++)
71 fKkt(ix,iy) = 0.0;
72 }
73
75}
76
77
78////////////////////////////////////////////////////////////////////////////////
79/// Copy constructor
80
82{
83 *this = another;
84}
85
86
87////////////////////////////////////////////////////////////////////////////////
88/// Sets up the matrix for the main linear system in "augmented system" form.
89
91{
92 TQpLinSolverBase::Factor(prob,vars);
94}
95
96
97////////////////////////////////////////////////////////////////////////////////
98/// Places the diagonal resulting from the bounds on x into the augmented system matrix
99
101{
102 TMatrixDDiag diag(fKkt);
103 for (Int_t i = 0; i < xdiag.GetNrows(); i++)
104 diag[i] = xdiag[i];
105}
106
107
108////////////////////////////////////////////////////////////////////////////////
109/// Places the diagonal resulting from the bounds on Cx into the augmented system matrix
110
112{
113 TMatrixDDiag diag(fKkt);
114 for (Int_t i = 0; i < zdiag.GetNrows(); i++)
115 diag[i+fNx+fMy] = zdiag[i];
116}
117
118
119////////////////////////////////////////////////////////////////////////////////
120/// Perform the actual solve using the factors produced in factor.
121/// rhs on input contains the aggregated right-hand side of the augmented system;
122/// on output contains the solution in aggregated form .
123
125{
126 fSolveLU.Solve(compressedRhs);
127}
128
129
130////////////////////////////////////////////////////////////////////////////////
131/// Assignment operator
132
134{
135 if (this != &source) {
137 fKkt.ResizeTo(source.fKkt); fKkt = source.fKkt;
138 fSolveLU = source.fSolveLU;
139 }
140 return *this;
141}
int Int_t
Definition: RtypesCore.h:41
#define ClassImp(name)
Definition: Rtypes.h:363
LU Decomposition class.
Definition: TDecompLU.h:24
virtual Bool_t Solve(TVectorD &b)
Solve Ax=b assuming the LU form of A is stored in fLU, but assume b has not been transformed.
Definition: TDecompLU.cxx:233
virtual void SetMatrix(const TMatrixD &a)
Set matrix to be decomposed.
Definition: TDecompLU.cxx:202
virtual TMatrixTBase< Element > & ResizeTo(Int_t nrows, Int_t ncols, Int_t=-1)
Set size of the matrix to nrows x ncols New dynamic elements are created, the overlapping part of the...
TQpLinSolverBase & operator=(const TQpLinSolverBase &source)
Assignment opeartor.
virtual void Factor(TQpDataBase *prob, TQpVar *vars)
Sets up the matrix for the main linear system in "augmented system" form.
virtual void PutXDiagonal(TVectorD &xdiag)
Places the diagonal resulting from the bounds on x into the augmented system matrix.
TQpLinSolverDens & operator=(const TQpLinSolverDens &source)
Assignment operator.
virtual void PutZDiagonal(TVectorD &zdiag)
Places the diagonal resulting from the bounds on Cx into the augmented system matrix.
virtual void Factor(TQpDataBase *prob, TQpVar *vars)
Sets up the matrix for the main linear system in "augmented system" form.
virtual void SolveCompressed(TVectorD &rhs)
Perform the actual solve using the factors produced in factor.
Definition: TQpVar.h:60
Int_t GetNrows() const
Definition: TVectorT.h:75
const Int_t n
Definition: legend1.C:16