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EpetraExt_BlockJacobi_LinearProblem.cpp
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41 
42 #include <EpetraExt_BlockJacobi_LinearProblem.h>
43 
44 #include <Epetra_VbrMatrix.h>
45 #include <Epetra_CrsGraph.h>
46 #include <Epetra_Map.h>
47 #include <Epetra_BlockMap.h>
48 #include <Epetra_MultiVector.h>
49 #include <Epetra_LinearProblem.h>
50 
51 #include <Epetra_SerialDenseMatrix.h>
52 #include <Epetra_SerialDenseVector.h>
53 #include <Epetra_SerialDenseSVD.h>
54 
55 #include <set>
56 
57 using std::vector;
58 
59 namespace EpetraExt {
60 
61 LinearProblem_BlockJacobi::
62 ~LinearProblem_BlockJacobi()
63 {
64  for( int i = 0; i < NumBlocks_; ++i )
65  {
66  if( SVDs_[i] ) delete SVDs_[i];
67  else if( Inverses_[i] ) delete Inverses_[i];
68 
69  if( RHSBlocks_[i] ) delete RHSBlocks_[i];
70  }
71 
72  if( NewProblem_ ) delete NewProblem_;
73  if( NewMatrix_ ) delete NewMatrix_;
74 }
75 
76 LinearProblem_BlockJacobi::NewTypeRef
77 LinearProblem_BlockJacobi::
78 operator()( OriginalTypeRef orig )
79 {
80  origObj_ = &orig;
81 
82  Epetra_VbrMatrix * OrigMatrix = dynamic_cast<Epetra_VbrMatrix*>( orig.GetMatrix() );
83 
84  if( OrigMatrix->RowMap().DistributedGlobal() )
85  { std::cout << "FAIL for Global!\n"; abort(); }
86  if( OrigMatrix->IndicesAreGlobal() )
87  { std::cout << "FAIL for Global Indices!\n"; abort(); }
88 
89  NumBlocks_ = OrigMatrix->NumMyBlockRows();
90 
91  //extract serial dense matrices from vbr matrix
92  VbrBlocks_.resize(NumBlocks_);
93  VbrBlockCnt_.resize(NumBlocks_);
94  VbrBlockDim_.resize(NumBlocks_);
95  VbrBlockIndices_.resize(NumBlocks_);
96  for( int i = 0; i < NumBlocks_; ++i )
97  {
98  OrigMatrix->ExtractMyBlockRowView( i, VbrBlockDim_[i], VbrBlockCnt_[i], VbrBlockIndices_[i], VbrBlocks_[i] );
99  }
100 
101  SVDs_.resize(NumBlocks_);
102  Inverses_.resize(NumBlocks_);
103  for( int i = 0; i < NumBlocks_; ++i )
104  {
105  if( VbrBlockDim_[i] > 1 )
106  {
107  SVDs_[i] = new Epetra_SerialDenseSVD();
108  SVDs_[i]->SetMatrix( *(VbrBlocks_[i][ VbrBlockCnt_[i]-1 ]) );
109  SVDs_[i]->Factor();
110  SVDs_[i]->Invert( rthresh_, athresh_ );
111  Inverses_[i] = SVDs_[i]->InvertedMatrix();
112  }
113  else
114  {
115  SVDs_[i] = 0;
116  double inv = 1. / (*(VbrBlocks_[i][ VbrBlockCnt_[i]-1 ]))(0,0);
117  Inverses_[i] = new Epetra_SerialDenseMatrix( Copy, &inv, 1, 1, 1 );
118  }
119  }
120 
121  if( verbose_ > 2 )
122  {
123  std::cout << "SVDs and Inverses!\n";
124  for( int i = 0; i < NumBlocks_; ++i )
125  {
126  std::cout << "Block: " << i << " Size: " << VbrBlockDim_[i] << std::endl;
127  if( SVDs_[i] ) SVDs_[i]->Print(std::cout);
128  std::cout << *(Inverses_[i]) << std::endl;
129  }
130  }
131 
132  Epetra_MultiVector * RHS = orig.GetRHS();
133  double * A;
134  int LDA;
135  RHS->ExtractView( &A, &LDA );
136  double * currLoc = A;
137  RHSBlocks_.resize(NumBlocks_);
138  for( int i = 0; i < NumBlocks_; ++i )
139  {
140  RHSBlocks_[i] = new Epetra_SerialDenseVector( View, currLoc, VbrBlockDim_[i] );
141  currLoc += VbrBlockDim_[i];
142  }
143 
144  newObj_ = &orig;
145 
146  return *newObj_;
147 }
148 
149 bool
150 LinearProblem_BlockJacobi::
151 fwd()
152 {
153  if( verbose_ > 2 )
154  {
155  std::cout << "-------------------\n";
156  std::cout << "BlockJacobi\n";
157  std::cout << "-------------------\n";
158  }
159 
160  double MinSV = 1e15;
161  double MaxSV = 0.0;
162 
163  std::multiset<double> SVs;
164 
165  for( int i = 0; i < NumBlocks_; ++i )
166  {
167  if( VbrBlockDim_[i] > 1 )
168  {
169  SVDs_[i]->Factor();
170  if( SVDs_[i]->S()[0] > MaxSV ) MaxSV = SVDs_[i]->S()[0];
171  if( SVDs_[i]->S()[VbrBlockDim_[i]-1] < MinSV ) MinSV = SVDs_[i]->S()[VbrBlockDim_[i]-1];
172  for( int j = 0; j < VbrBlockDim_[i]; ++j ) SVs.insert( SVDs_[i]->S()[j] );
173  }
174  else
175  {
176  SVs.insert(1.0);
177  MaxSV = std::max( MaxSV, 1.0 );
178  }
179  }
180 
181  std::multiset<double>::iterator iterSI = SVs.begin();
182  std::multiset<double>::iterator endSI = SVs.end();
183  int i = 0;
184  if( verbose_ > 2 )
185  {
186  std::cout << std::endl;
187  std::cout << "Singular Values\n";
188  for( ; iterSI != endSI; ++iterSI, i++ ) std::cout << i << "\t" << *iterSI << std::endl;
189  std::cout << std::endl;
190  }
191 
192  Epetra_VbrMatrix * OrigMatrix = dynamic_cast<Epetra_VbrMatrix*>( origObj_->GetMatrix() );
193 
194  double abs_thresh = athresh_;
195  double rel_thresh = rthresh_;
196  if( thresholding_ == 1 )
197  {
198  abs_thresh = MaxSV * rel_thresh;
199  rel_thresh = 0.0;
200  }
201 
202  for( int i = 0; i < NumBlocks_; ++i )
203  {
204  if( VbrBlockDim_[i] > 1 )
205  SVDs_[i]->Invert( rel_thresh, abs_thresh );
206  else
207  (*Inverses_[i])(0,0) = 1./(*(VbrBlocks_[i][ VbrBlockCnt_[i]-1 ]))(0,0);
208  }
209 
210  for( int i = 0; i < NumBlocks_; ++i )
211  {
212  for( int j = 0; j < (VbrBlockCnt_[i]-1); ++j )
213  {
214  Epetra_SerialDenseMatrix tempMat( *(VbrBlocks_[i][j]) );
215  VbrBlocks_[i][j]->Multiply( false, false, 1.0, *(Inverses_[i]), tempMat, 0.0 );
216  }
217 
218  Epetra_SerialDenseMatrix tempMat2( *(RHSBlocks_[i]) );
219  RHSBlocks_[i]->Multiply( false, false, 1.0, *(Inverses_[i]), tempMat2, 0.0 );
220 
221  if( verbose_ > 2 )
222  {
223  std::cout << "DiagBlock: " << i << std::endl;
224  std::cout << *(VbrBlocks_[i][VbrBlockCnt_[i]-1]);
225  std::cout << "RHSBlock: " << i << std::endl;
226  std::cout << *(RHSBlocks_[i]);
227  }
228  }
229 
230  if( verbose_ > 2 )
231  {
232  std::cout << "Block Jacobi'd Matrix!\n";
233  if( removeDiag_ ) std::cout << *NewMatrix_ << std::endl;
234  else std::cout << *(dynamic_cast<Epetra_VbrMatrix*>(origObj_->GetMatrix())) << std::endl;
235  std::cout << "Block Jacobi'd RHS!\n";
236  std::cout << *(origObj_->GetRHS());
237  std::cout << std::endl;
238  }
239 
240  if( verbose_ > 0 )
241  {
242  std::cout << "Min Singular Value: " << MinSV << std::endl;
243  std::cout << "Max Singular Value: " << MaxSV << std::endl;
244  std::cout << "--------------------\n";
245  }
246 
247  return true;
248 }
249 
250 bool
251 LinearProblem_BlockJacobi::
252 rvs()
253 {
254  return true;
255 }
256 
257 } //namespace EpetraExt
Epetra_MultiVector
EpetraExt::LinearProblem_BlockJacobi::verbose_
const int verbose_
Definition: EpetraExt_BlockJacobi_LinearProblem.h:106
Epetra_SerialDenseVector.h
Epetra_LinearProblem.h
Epetra_BlockMap.h
EpetraExt::LinearProblem_BlockJacobi::fwd
bool fwd()
Forward transfer of data from orig object input in the operator() method call to the new object creat...
Definition: EpetraExt_BlockJacobi_LinearProblem.cpp:151
EpetraExt::LinearProblem_BlockJacobi::athresh_
double athresh_
Definition: EpetraExt_BlockJacobi_LinearProblem.h:89
EpetraExt::LinearProblem_BlockJacobi::rvs
bool rvs()
Reverse transfer of data from new object created in the operator() method call to the orig object inp...
Definition: EpetraExt_BlockJacobi_LinearProblem.cpp:252
Epetra_CrsGraph.h
Epetra_VbrMatrix
Epetra_SerialDenseSVD
Epetra_VbrMatrix.h
Epetra_SerialDenseMatrix
EpetraExt::LinearProblem_BlockJacobi::NewProblem_
Epetra_LinearProblem * NewProblem_
Definition: EpetraExt_BlockJacobi_LinearProblem.h:94
Epetra_SerialDenseVector
EpetraExt::LinearProblem_BlockJacobi::VbrBlockDim_
std::vector< int > VbrBlockDim_
Definition: EpetraExt_BlockJacobi_LinearProblem.h:99
EpetraExt::LinearProblem_BlockJacobi::NumBlocks_
int NumBlocks_
Definition: EpetraExt_BlockJacobi_LinearProblem.h:86
Epetra_SerialDenseMatrix.h
EpetraExt::LinearProblem_BlockJacobi::rthresh_
double rthresh_
Definition: EpetraExt_BlockJacobi_LinearProblem.h:88
EpetraExt_BlockJacobi_LinearProblem.h
EpetraExt::LinearProblem_BlockJacobi::~LinearProblem_BlockJacobi
~LinearProblem_BlockJacobi()
Definition: EpetraExt_BlockJacobi_LinearProblem.cpp:62
EpetraExt::LinearProblem_BlockJacobi::thresholding_
const int thresholding_
Definition: EpetraExt_BlockJacobi_LinearProblem.h:90
EpetraExt::LinearProblem_BlockJacobi::removeDiag_
const bool removeDiag_
Definition: EpetraExt_BlockJacobi_LinearProblem.h:92
EpetraExt::LinearProblem_BlockJacobi::VbrBlockCnt_
std::vector< int > VbrBlockCnt_
Definition: EpetraExt_BlockJacobi_LinearProblem.h:98
EpetraExt::LinearProblem_BlockJacobi::operator()
NewTypeRef operator()(OriginalTypeRef orig)
Analysis of transform operation on original object and construction of new object.
Definition: EpetraExt_BlockJacobi_LinearProblem.cpp:78
EpetraExt::LinearProblem_BlockJacobi::RHSBlocks_
std::vector< Epetra_SerialDenseMatrix * > RHSBlocks_
Definition: EpetraExt_BlockJacobi_LinearProblem.h:104
EpetraExt::LinearProblem_BlockJacobi::NewMatrix_
Epetra_VbrMatrix * NewMatrix_
Definition: EpetraExt_BlockJacobi_LinearProblem.h:95
Epetra_Map.h
Epetra_MultiVector.h
Epetra_SerialDenseSVD.h
EpetraExt::LinearProblem_BlockJacobi::VbrBlockIndices_
std::vector< int * > VbrBlockIndices_
Definition: EpetraExt_BlockJacobi_LinearProblem.h:100
EpetraExt::LinearProblem_BlockJacobi::VbrBlocks_
std::vector< Epetra_SerialDenseMatrix ** > VbrBlocks_
Definition: EpetraExt_BlockJacobi_LinearProblem.h:97
EpetraExt::LinearProblem_BlockJacobi::Inverses_
std::vector< Epetra_SerialDenseMatrix * > Inverses_
Definition: EpetraExt_BlockJacobi_LinearProblem.h:103
EpetraExt::LinearProblem_BlockJacobi::SVDs_
std::vector< Epetra_SerialDenseSVD * > SVDs_
Definition: EpetraExt_BlockJacobi_LinearProblem.h:102
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