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Ifpack_HIPS.h
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42 
43 #ifndef IFPACK_HIPS_H
44 #define IFPACK_HIPS_H
45 
46 #if defined(Ifpack_SHOW_DEPRECATED_WARNINGS)
47 #ifdef __GNUC__
48 #warning "The Ifpack package is deprecated"
49 #endif
50 #endif
51 
52 #include "Ifpack_ConfigDefs.h"
53 #ifdef HAVE_IFPACK_HIPS
54 
55 
56 #include "Ifpack_Preconditioner.h"
57 #include "Ifpack_Condest.h"
58 #include "Ifpack_ScalingType.h"
59 #include "Epetra_CompObject.h"
60 #include "Epetra_MultiVector.h"
61 #include "Epetra_Vector.h"
62 #include "Epetra_CrsGraph.h"
63 #include "Epetra_CrsMatrix.h"
64 #include "Epetra_BlockMap.h"
65 #include "Epetra_Map.h"
66 #include "Epetra_Object.h"
67 #include "Epetra_Comm.h"
68 #include "Epetra_CrsMatrix.h"
69 #include "Epetra_Time.h"
70 #include "Teuchos_RefCountPtr.hpp"
71 
72 
73 namespace Teuchos {
74  class ParameterList;
75 }
76 
78 
86 class Ifpack_HIPS: public Ifpack_Preconditioner {
87 
88 public:
89  // @{ Constructors and destructors.
91  Ifpack_HIPS(Epetra_RowMatrix* A);
92 
94  ~Ifpack_HIPS()
95  {
96  Destroy();
97  }
98 
99  // @}
100  // @{ Construction methods
101 
103  int Initialize();
104 
106  bool IsInitialized() const
107  {
108  return(IsInitialized_);
109  }
110 
112 
114  int Compute();
115 
117  bool IsComputed() const
118  {
119  return(IsComputed_);
120  }
121 
123  /* This method is only available if the Teuchos package is enabled.
124  This method recognizes four parameter names: relax_value,
125  absolute_threshold, relative_threshold and overlap_mode. These names are
126  case insensitive, and in each case except overlap_mode, the ParameterEntry
127  must have type double. For overlap_mode, the ParameterEntry must have
128  type Epetra_CombineMode.
129  */
130  int SetParameters(Teuchos::ParameterList& parameterlist);
131 
133 
142  int SetUseTranspose(bool UseTranspose_in) {UseTranspose_ = UseTranspose_in; return(0);};
143  // @}
144 
145  // @{ Mathematical functions.
146  // Applies the matrix to X, returns the result in Y.
147  int Apply(const Epetra_MultiVector& X,
148  Epetra_MultiVector& Y) const
149  {
150  return(Multiply(false,X,Y));
151  }
152 
153  int Multiply(bool Trans, const Epetra_MultiVector& X,
154  Epetra_MultiVector& Y) const{return A_->Multiply(Trans,X,Y);}
155 
157 
170  int ApplyInverse(const Epetra_MultiVector& X, Epetra_MultiVector& Y) const;
171 
173  double Condest(const Ifpack_CondestType CT = Ifpack_Cheap,
174  const int MaxIters = 1550,
175  const double Tol = 1e-9,
176  Epetra_RowMatrix* Matrix_in = 0);
177 
179  double Condest() const
180  {
181  return(Condest_);
182  }
183 
184  // @}
185  // @{ Query methods
186 
188  const char* Label() const {return(Label_);}
189 
191  int SetLabel(const char* Label_in)
192  {
193  strcpy(Label_,Label_in);
194  return(0);
195  }
196 
197 
199  double NormInf() const {return(0.0);};
200 
202  bool HasNormInf() const {return(false);};
203 
205  bool UseTranspose() const {return(UseTranspose_);};
206 
208  const Epetra_Map & OperatorDomainMap() const {return(A_->OperatorDomainMap());};
209 
211  const Epetra_Map & OperatorRangeMap() const{return(A_->OperatorRangeMap());};
212 
214  const Epetra_Comm & Comm() const{return(A_->Comm());};
215 
217  const Epetra_RowMatrix& Matrix() const
218  {
219  return(*A_);
220  }
221 
223  virtual std::ostream& Print(std::ostream& os) const;
224 
226  virtual int NumInitialize() const
227  {
228  return(NumInitialize_);
229  }
230 
232  virtual int NumCompute() const
233  {
234  return(NumCompute_);
235  }
236 
238  virtual int NumApplyInverse() const
239  {
240  return(NumApplyInverse_);
241  }
242 
244  virtual double InitializeTime() const
245  {
246  return(InitializeTime_);
247  }
248 
250  virtual double ComputeTime() const
251  {
252  return(ComputeTime_);
253  }
254 
256  virtual double ApplyInverseTime() const
257  {
258  return(ApplyInverseTime_);
259  }
260 
262  virtual double InitializeFlops() const
263  {
264  return(0.0);
265  }
266 
267  virtual double ComputeFlops() const
268  {
269  return(ComputeFlops_);
270  }
271 
272  virtual double ApplyInverseFlops() const
273  {
274  return(ApplyInverseFlops_);
275  }
276 
277 private:
278 
279  // @}
280  // @{ Private methods
281 
283  Ifpack_HIPS(const Ifpack_HIPS& RHS) :
284  Time_(RHS.Comm())
285  {}
286 
288  Ifpack_HIPS& operator=(const Ifpack_HIPS& RHS)
289  {
290  return(*this);
291  }
292 
294  void Destroy();
295 
297 
307  int Solve(bool Trans, const Epetra_MultiVector& X, Epetra_MultiVector& Y) const;
308 
309 
311  int NumGlobalRows() const {return(A_->NumGlobalRows());};
312 
314  int NumGlobalCols() const {return(A_->NumGlobalCols());};
315 
317  int NumMyRows() const {return(A_->NumMyRows());};
318 
320  int NumMyCols() const {return(A_->NumMyCols());};
321 
323  /* Epetra_RowMatrix& Matrix()
324  {
325  return(*A_);
326  }*/
327 
328  // @}
329  // @{ Internal data
330 
332  Teuchos::RefCountPtr<Epetra_RowMatrix> A_;
333  Teuchos::ParameterList List_;
334  Teuchos::RefCountPtr<Epetra_Map> RowMap0_;
335  Teuchos::RefCountPtr<Epetra_Map> ColMap0_;
336 
337 
338  int HIPS_id;
339 
340  bool UseTranspose_;
341  bool Allocated_;
342  bool ValuesInitialized_;
343  bool Factored_;
344 
345  double Condest_;
346 
347  bool IsParallel_;
349  bool IsInitialized_;
351  bool IsComputed_;
353  char Label_[160];
355  int NumInitialize_;
357  int NumCompute_;
358 
360  mutable int NumApplyInverse_;
362  double InitializeTime_;
364  double ComputeTime_;
366  mutable double ApplyInverseTime_;
368  double ComputeFlops_;
370  mutable double ApplyInverseFlops_;
372  mutable Epetra_Time Time_;
373 
374 };
375 
376 #endif
377 #endif /* IFPACK_HIPS_H */
virtual int NumInitialize() const =0
Returns the number of calls to Initialize().
virtual int SetUseTranspose(bool UseTranspose)=0
virtual double ComputeTime() const =0
Returns the time spent in Compute().
virtual double ComputeFlops() const =0
Returns the number of flops in the computation phase.
virtual double ApplyInverseTime() const =0
Returns the time spent in ApplyInverse().
virtual double ApplyInverseFlops() const =0
Returns the number of flops in the application of the preconditioner.
virtual const Epetra_RowMatrix & Matrix() const =0
Returns a pointer to the matrix to be preconditioned.
virtual bool IsInitialized() const =0
Returns true if the preconditioner has been successfully initialized, false otherwise.
virtual std::ostream & Print(std::ostream &os) const =0
Prints basic information on iostream. This function is used by operator&lt;&lt;.
virtual const Epetra_Map & OperatorDomainMap() const =0
virtual const char * Label() const =0
virtual int Initialize()=0
Computes all it is necessary to initialize the preconditioner.
virtual double InitializeTime() const =0
Returns the time spent in Initialize().
virtual int Apply(const Epetra_MultiVector &X, Epetra_MultiVector &Y) const =0
virtual const Epetra_Map & OperatorRangeMap() const =0
virtual const Epetra_Comm & Comm() const =0
virtual int SetParameters(Teuchos::ParameterList &List)=0
Sets all parameters for the preconditioner.
virtual double Condest() const =0
Returns the computed condition number estimate, or -1.0 if not computed.
virtual bool UseTranspose() const =0
Ifpack_ScalingType enumerable type.
Ifpack_Preconditioner: basic class for preconditioning in Ifpack.
virtual int ApplyInverse(const Epetra_MultiVector &X, Epetra_MultiVector &Y) const =0
Applies the preconditioner to vector X, returns the result in Y.
virtual double InitializeFlops() const =0
Returns the number of flops in the initialization phase.
virtual bool HasNormInf() const =0
virtual int NumCompute() const =0
Returns the number of calls to Compute().
virtual double NormInf() const =0
virtual bool IsComputed() const =0
Returns true if the preconditioner has been successfully computed, false otherwise.
virtual int Compute()=0
Computes all it is necessary to apply the preconditioner.
virtual int NumApplyInverse() const =0
Returns the number of calls to ApplyInverse().