Epetra_CrsGraph Class Reference

Epetra_CrsGraph: A class for constructing and using sparse compressed row graphs. More...

#include <Epetra_CrsGraph.h>

Inheritance diagram for Epetra_CrsGraph:

Inheritance graph
[legend]

List of all members.

Public Member Functions

Epetra_CrsGraphoperator= (const Epetra_CrsGraph &Source)
 Assignment operator.

Protected Member Functions

int * All_Indices () const
int * IndexOffset () const
int * NumIndicesPerRow () const
int * NumAllocatedIndicesPerRow () const
int ** Indices () const
int * Indices (int LocalRow) const
bool IndicesAreContiguous () const
bool StaticProfile () const
bool GlobalConstantsComputed () const
bool FindGlobalIndexLoc (int LocalRow, int Index, int Start, int &Loc) const
bool FindGlobalIndexLoc (int NumIndices, const int *Indices, int Index, int Start, int &Loc) const
bool FindMyIndexLoc (int LocalRow, int Index, int Start, int &Loc) const
bool FindMyIndexLoc (int NumIndices, const int *Indices, int Index, int Start, int &Loc) const
int InsertIndices (int Row, int NumIndices, int *Indices)
int MakeIndicesLocal (const Epetra_BlockMap &DomainMap, const Epetra_BlockMap &RangeMap)
void SetIndicesAreLocal (bool Flag)
void SetIndicesAreGlobal (bool Flag)
void SetSorted (bool Flag)
int SortIndices ()
 Sort column indices, row-by-row, in ascending order.
bool Sorted () const
 If SortIndices() has been called, this query returns true, otherwise it returns false.
int RemoveRedundantIndices ()
 Removes any redundant column indices in the rows of the graph.
bool NoRedundancies () const
 If RemoveRedundantIndices() has been called, this query returns true, otherwise it returns false.

Private Member Functions

void SetGlobalConstantsComputed (bool Flag)
void SetIndicesAreContiguous (bool Flag)
void SetNoRedundancies (bool Flag)
void ComputeIndexState ()
int MakeColMap (const Epetra_BlockMap &DomainMap, const Epetra_BlockMap &RangeMap)
int Allocate (const int *NumIndicesPerRow, int Inc, bool StaticProfile)
int ComputeGlobalConstants ()
void SetFilled (bool Flag)
bool Allocated () const
void SetAllocated (bool Flag)
int CheckSizes (const Epetra_SrcDistObject &A)
 Allows the source and target (this) objects to be compared for compatibility, return nonzero if not.
int CopyAndPermute (const Epetra_SrcDistObject &Source, int NumSameIDs, int NumPermuteIDs, int *PermuteToLIDs, int *PermuteFromLIDs, const Epetra_OffsetIndex *Indexor)
 Perform ID copies and permutations that are on processor.
int CopyAndPermuteRowMatrix (const Epetra_RowMatrix &A, int NumSameIDs, int NumPermuteIDs, int *PermuteToLIDs, int *PermuteFromLIDs, const Epetra_OffsetIndex *Indexor)
int CopyAndPermuteCrsGraph (const Epetra_CrsGraph &A, int NumSameIDs, int NumPermuteIDs, int *PermuteToLIDs, int *PermuteFromLIDs, const Epetra_OffsetIndex *Indexor)
int PackAndPrepare (const Epetra_SrcDistObject &Source, int NumExportIDs, int *ExportLIDs, int &LenExports, char *&Exports, int &SizeOfPacket, int *Sizes, bool &VarSizes, Epetra_Distributor &Distor)
 Perform any packing or preparation required for call to DoTransfer().
int PackAndPrepareCrsGraph (const Epetra_CrsGraph &A, int NumExportIDs, int *ExportLIDs, int &LenExports, char *&Exports, int &SizeOfPacket, int *Sizes, bool &VarSizes, Epetra_Distributor &Distor)
int PackAndPrepareRowMatrix (const Epetra_RowMatrix &A, int NumExportIDs, int *ExportLIDs, int &LenExports, char *&Exports, int &SizeOfPacket, int *Sizes, bool &VarSizes, Epetra_Distributor &Distor)
int UnpackAndCombine (const Epetra_SrcDistObject &Source, int NumImportIDs, int *ImportLIDs, int LenImports, char *Imports, int &SizeOfPacket, Epetra_Distributor &Distor, Epetra_CombineMode CombineMode, const Epetra_OffsetIndex *Indexor)
 Perform any unpacking and combining after call to DoTransfer().
void CleanupData ()

Private Attributes

Epetra_CrsGraphDataCrsGraphData_

Friends

class Epetra_CrsMatrix
class Epetra_VbrMatrix
class Epetra_FECrsGraph
class Epetra_FECrsMatrix
class Epetra_FEVbrMatrix
class Epetra_OffsetIndex

Constructors/Destructor

 Epetra_CrsGraph (Epetra_DataAccess CV, const Epetra_BlockMap &RowMap, const int *NumIndicesPerRow, bool StaticProfile=false)
 Epetra_CrsGraph constuctor with variable number of indices per row.
 Epetra_CrsGraph (Epetra_DataAccess CV, const Epetra_BlockMap &RowMap, int NumIndicesPerRow, bool StaticProfile=false)
 Epetra_CrsGraph constuctor with fixed number of indices per row.
 Epetra_CrsGraph (Epetra_DataAccess CV, const Epetra_BlockMap &RowMap, const Epetra_BlockMap &ColMap, const int *NumIndicesPerRow, bool StaticProfile=false)
 Epetra_CrsGraph constuctor with variable number of indices per row.
 Epetra_CrsGraph (Epetra_DataAccess CV, const Epetra_BlockMap &RowMap, const Epetra_BlockMap &ColMap, int NumIndicesPerRow, bool StaticProfile=false)
 Epetra_CrsGraph constuctor with fixed number of indices per row.
 Epetra_CrsGraph (const Epetra_CrsGraph &Graph)
 Copy constructor.
virtual ~Epetra_CrsGraph ()
 Epetra_CrsGraph Destructor.

Insertion/Removal methods

int InsertGlobalIndices (int GlobalRow, int NumIndices, int *Indices)
 Enter a list of elements in a specified global row of the graph.
int RemoveGlobalIndices (int GlobalRow, int NumIndices, int *Indices)
 Remove a list of elements from a specified global row of the graph.
int RemoveGlobalIndices (int Row)
 Remove all indices from a specified global row of the graph.
int InsertMyIndices (int LocalRow, int NumIndices, int *Indices)
 Enter a list of elements in a specified local row of the graph.
int RemoveMyIndices (int LocalRow, int NumIndices, int *Indices)
 Remove a list of elements from a specified local row of the graph.
int RemoveMyIndices (int Row)
 Remove all indices from a specified local row of the graph.

Transformation methods

int FillComplete ()
 Tranform to local index space. Perform other operations to allow optimal matrix operations.
int FillComplete (const Epetra_BlockMap &DomainMap, const Epetra_BlockMap &RangeMap)
 Transform to local index space using specified Domain/Range maps. Perform other operations to allow optimal matrix operations.
int OptimizeStorage ()
 Make consecutive row index sections contiguous, minimize internal storage used for constructing graph.

Extraction methods

int ExtractGlobalRowCopy (int GlobalRow, int LenOfIndices, int &NumIndices, int *Indices) const
 Extract a list of elements in a specified global row of the graph. Put into storage allocated by calling routine.
int ExtractMyRowCopy (int LocalRow, int LenOfIndices, int &NumIndices, int *Indices) const
 Extract a list of elements in a specified local row of the graph. Put into storage allocated by calling routine.
int ExtractGlobalRowView (int GlobalRow, int &NumIndices, int *&Indices) const
 Get a view of the elements in a specified global row of the graph.
int ExtractMyRowView (int LocalRow, int &NumIndices, int *&Indices) const
 Get a view of the elements in a specified local row of the graph.

Graph Properties Query Methods

bool Filled () const
 If FillComplete() has been called, this query returns true, otherwise it returns false.
bool StorageOptimized () const
 If OptimizeStorage() has been called, this query returns true, otherwise it returns false.
bool IndicesAreGlobal () const
 If column indices are in global range, this query returns true, otherwise it returns false.
bool IndicesAreLocal () const
 If column indices are in local range, this query returns true, otherwise it returns false.
bool LowerTriangular () const
 If graph is lower triangular in local index space, this query returns true, otherwise it returns false.
bool UpperTriangular () const
 If graph is upper triangular in local index space, this query returns true, otherwise it returns false.
bool NoDiagonal () const
 If graph has no diagonal entries in global index space, this query returns true, otherwise it returns false.
bool MyGlobalRow (int GID) const
 Returns true of GID is owned by the calling processor, otherwise it returns false.
bool HaveColMap () const
 Returns true if we have a well-defined ColMap, and returns false otherwise.

Atribute access functions

int NumMyRows () const
 Returns the number of matrix rows on this processor.
int NumGlobalRows () const
 Returns the number of matrix rows in global matrix.
int NumMyCols () const
 Returns the number of entries in the set of column-indices that appear on this processor.
int NumGlobalCols () const
 Returns the number of matrix columns in global matrix.
int NumGlobalNonzeros () const
 Returns the number of indices in the global graph.
int NumGlobalDiagonals () const
 Returns the number of diagonal entries in the global graph, based on global row/column index comparisons.
int NumMyDiagonals () const
 Returns the number of diagonal entries in the local graph, based on global row/column index comparisons.
int NumMyBlockRows () const
 Returns the number of block matrix rows on this processor.
int NumGlobalBlockRows () const
 Returns the number of Block matrix rows in global matrix.
int NumMyBlockCols () const
 Returns the number of Block matrix columns on this processor.
int NumGlobalBlockCols () const
 Returns the number of Block matrix columns in global matrix.
int NumMyBlockDiagonals () const
 Returns the number of Block diagonal entries in the local graph, based on global row/column index comparisons.
int NumGlobalBlockDiagonals () const
 Returns the number of Block diagonal entries in the global graph, based on global row/column index comparisons.
int NumGlobalEntries () const
 Returns the number of entries in the global graph.
int NumMyEntries () const
 Returns the number of entries on this processor.
int MaxRowDim () const
 Returns the max row dimension of block entries on the processor.
int GlobalMaxRowDim () const
 Returns the max row dimension of block entries across all processors.
int MaxColDim () const
 Returns the max column dimension of block entries on the processor.
int GlobalMaxColDim () const
 Returns the max column dimension of block entries across all processors.
int NumMyNonzeros () const
 Returns the number of indices in the local graph.
int NumGlobalIndices (int Row) const
 Returns the current number of nonzero entries in specified global row on this processor.
int NumAllocatedGlobalIndices (int Row) const
 Returns the allocated number of nonzero entries in specified global row on this processor.
int MaxNumIndices () const
 Returns the maximum number of nonzero entries across all rows on this processor.
int GlobalMaxNumIndices () const
 Returns the maximun number of nonzero entries across all rows across all processors.
int MaxNumNonzeros () const
 Returns the maximum number of nonzero points across all rows on this processor.
int GlobalMaxNumNonzeros () const
 Returns the maximun number of nonzero points across all rows across all processors.
int NumMyIndices (int Row) const
 Returns the current number of nonzero entries in specified local row on this processor.
int NumAllocatedMyIndices (int Row) const
 Returns the allocated number of nonzero entries in specified local row on this processor.
int IndexBase () const
 Returns the index base for row and column indices for this graph.
const Epetra_BlockMapRowMap () const
 Returns the RowMap associated with this graph.
int ReplaceRowMap (const Epetra_BlockMap &newmap)
 Replaces the current RowMap with the user-specified map object, but only if currentmap->PointSameAs(newmap) is true.
int ReplaceColMap (const Epetra_BlockMap &newmap)
 Replaces the current ColMap with the user-specified map object, but only if currentmap->PointSameAs(newmap) is true.
const Epetra_BlockMapColMap () const
 Returns the Column Map associated with this graph.
const Epetra_BlockMapDomainMap () const
 Returns the DomainMap associated with this graph.
const Epetra_BlockMapRangeMap () const
 Returns the RangeMap associated with this graph.
const Epetra_ImportImporter () const
 Returns the Importer associated with this graph.
const Epetra_ExportExporter () const
 Returns the Exporter associated with this graph.
const Epetra_CommComm () const
 Returns a pointer to the Epetra_Comm communicator associated with this graph.

Local/Global ID methods

int LRID (int GRID) const
 Returns the local row index for given global row index, returns -1 if no local row for this global row.
int GRID (int LRID) const
 Returns the global row index for give local row index, returns IndexBase-1 if we don't have this local row.
int LCID (int GCID) const
 Returns the local column index for given global column index, returns -1 if no local column for this global column.
int GCID (int LCID) const
 Returns the global column index for give local column index, returns IndexBase-1 if we don't have this local column.
bool MyGRID (int GRID) const
 Returns true if the GRID passed in belongs to the calling processor in this map, otherwise returns false.
bool MyLRID (int LRID) const
 Returns true if the LRID passed in belongs to the calling processor in this map, otherwise returns false.
bool MyGCID (int GCID) const
 Returns true if the GCID passed in belongs to the calling processor in this map, otherwise returns false.
bool MyLCID (int LCID) const
 Returns true if the LRID passed in belongs to the calling processor in this map, otherwise returns false.

Inlined Operator Methods

int * operator[] (int Loc)
 Inlined bracket operator for fast access to data. (Const and Non-const versions).
int * operator[] (int Loc) const

I/O Methods

virtual void Print (ostream &os) const
 Print method.
void PrintGraphData (ostream &os) const
void PrintGraphData (ostream &os, int level) const

Deprecated methods: These methods still work, but will be removed in a future version

const Epetra_BlockMapImportMap () const
 Use ColMap() instead.
int TransformToLocal ()
 Use FillComplete() instead.
int TransformToLocal (const Epetra_BlockMap *DomainMap, const Epetra_BlockMap *RangeMap)
 Use FillComplete(const Epetra_BlockMap& DomainMap, const Epetra_BlockMap& RangeMap) instead.

Expert Users and Developers Only

int ReferenceCount () const
 Returns the reference count of CrsGraphData.
const Epetra_CrsGraphDataDataPtr () const
 Returns a pointer to the CrsGraphData instance this CrsGraph uses.


Detailed Description

Epetra_CrsGraph: A class for constructing and using sparse compressed row graphs.

Epetra_CrsGraph enables the piecewise construction and use of sparse matrix graphs (the integer structure without values) where entries are intended for row access.

Epetra_CrsGraph is an attribute of all Epetra row-based matrix classes, defining their nonzero structure and also holding their Epetra_Map attributes.

Constructing Epetra_CrsGraph objects

Constructing Epetra_CrsGraph objects is a multi-step process. The basic steps are as follows:

  1. Create Epetra_CrsGraph instance, including some initial storage, via constructor. In addition to the copy constructor, Epetra_CrsGraph has four different constructors. All four of these constructors have an argument, StaticProfile, which by default is set to false. If it is set to true, then the profile (the number of indices per row as defined by NumIndicesPerRow) will be rigidly enforced. Although this takes away flexibility, it allows a single array to be allocated for all indices. This decreases memory fragmentation and improves performance across many operations. A more detailed discussion of the StaticProfile option is found below.
    1. User-provided row map, variable nonzero profile: This constructor is used to define the row distribution of the graph and specify a varying number of nonzero entries per row. It is best to use this constructor when the user will be inserting entries using global index values and wants every column index to be included in the graph. Note that in this case, the column map will be built for the user when FillComplete() is called. This constructor is also appropriate for when there is a large variation in the number of indices per row. If this is not the case, the next constructor may be more convenient to use.
    2. User-provided row map, fixed nonzero profile: This constructor is used to define the row distribution of the graph and specify a fixed number of nonzero entries per row. It is best to use this constructor when the user will be inserting entries using global index values and wants every column index to be included in the graph. Note that in this case, the column map will be built for the user when FillComplete() is called. This constructor is also appropriate for when there is little or no variation in the number of indices per row.
    3. User-provided row map, user-provided column map and variable nonzero profile: This constructor is used to define the row and column distribution of the graph, and specify a varying number of nonzero entries per row. It is best to use this constructor when the user will be inserting entries and already knows which columns of the matrix should be included on each processor. Note that in this case, the column map will not be built for the user when FillComplete() is called. Also, if the user attempts to insert a column index whose GID is not part of the column map on that process, the index will be discarded. This property can be used to "filter out" column entries that should be ignored. This constructor is also appropriate for when there is a large variation in the number of indices per row. If this is not the case, the next constructor may be more convenient to use.
    4. User-provided row map, user-provided column map and fixed nonzero profile: This constructor is used to define the row and column distribution of the graph, and specify a fixed number of nonzero entries per row. It is best to use this constructor when the user will be inserting entries and already knows which columns of the matrix should be included on each processor. Note that in this case, the column map will not be built for the user when FillComplete() is called. Also, if the user attempts to insert a column index whose GID is not part of the column map on that process, the index will be discarded. This constructor is also appropriate for when there is little or no variation in the number of indices per row.
  2. Enter row and column entry information via calls to the InsertGlobalIndices method.
  3. Complete construction via FillComplete call, which performs the following tasks:
    1. Transforms indices to local index space (after this, IndicesAreLocal()==true)
    2. Sorts column-indices within each row
    3. Compresses out any redundant indices within rows
    4. Computes global data such as num-nonzeros, maximum row-lengths, etc.
  4. (Optional) Optimize the graph storage via a call to OptimizeStorage.

Performance Enhancement Issues

The Epetra_CrsGraph class attempts to address four basic types of situations, depending on the user's primary concern:

  1. Simple, flexible construction over minimal memory use or control of column indices: In this case the user wants to provide only a row distribution of the graph and insert indices without worrying about memory allocation performance. This type of user is best served by the constructor that requires only a row map, and a fixed number of indices per row. In fact, setting NumIndicesPerRow=0 is probably the best option.
  2. Stronger control over memory allocation performance and use over flexibility and simplicity: In this case the user explicitly set StaticProfile to true and will provide values, either a single global int or an array of int's, for NumIndicesPerRow, such that the actual number of indices submitted to the graph will not exceed the estimates. Because we know that NumIndicesPerRow will not be exceeded, we can pre-allocate all of the storage for the graph as a single array. This is typically much more efficient.
  3. Explicit control over column indices: In this case the user prescribes the column map. Given the column map, any index that is submitted for entry into the graph will be included only if they are present in the list of GIDs for the column map on the processor that submits the index. This feature allows the user to define a filter such that only certain columns will be kept. The user also prescribes the local ordering via this technique, since the ordering of GIDs in the column map imposes the local ordering.
  4. Construction using local indices only: In some situations, users may want to build a graph using local index values only. In this case, the user must explicitly assign GIDs. This is done by prescribing the column map, in the same way as the previous situation.

Notes:

Epetra_Map attributes

Epetra_CrsGraph objects have four Epetra_Map attributes.

The Epetra_Map attributes can be obtained via these accessor methods:

It is important to note that while the row-map and the range-map are often the same, the column-map and the domain-map are almost never the same. The set of entries in a distributed column-map almost always form overlapping sets, with entries being associated with more than one processor. A domain-map, on the other hand, must be a 1-to-1 map, with entries being associated with only a single processor.

Global versus Local indices

After creation and before FillComplete() has been called, the column-indices of the graph are in the global space as received from the user. One of the tasks performed by FillComplete() is to transform the indices to a local index space. The query methods IndicesAreGlobal() and IndicesAreLocal() return true or false depending on whether this transformation has been performed or not.

Note the behavior of several graph methods:

Note that even after a graph is constructed, it is possible to add or remove entries. However, FillComplete must then be called again to restore the graph to a consistent state.

Definition at line 200 of file Epetra_CrsGraph.h.


Constructor & Destructor Documentation

Epetra_CrsGraph::Epetra_CrsGraph ( Epetra_DataAccess  CV,
const Epetra_BlockMap RowMap,
const int *  NumIndicesPerRow,
bool  StaticProfile = false 
)

Epetra_CrsGraph constuctor with variable number of indices per row.

Creates a Epetra_CrsGraph object and allocates storage.

Parameters:
CV - (In) A Epetra_DataAccess enumerated type set to Copy or View.
RowMap - (In) An Epetra_BlockMap (or Epetra_Map or Epetra_LocalMap) listing the rows that this processor will contribute to.In
NumIndicesPerRow - (In) An integer array of length NumMyRows such that NumIndicesPerRow[i] indicates the (approximate if StaticProfile=false) number of entries in the ith row.
StaticProfile - (In) Optional argument that indicates whether or not NumIndicesPerRow should be interpreted as an exact count of nonzeros, or should be used as an approximation. By default this value is false, allowing the profile to be determined dynamically. If the user sets it to true, then the memory allocation for the Epetra_CrsGraph object will be done in one large block, saving on memory fragmentation and generally improving the performance of matrix multiplication and solve kernels.

Definition at line 45 of file Epetra_CrsGraph.cpp.

Epetra_CrsGraph::Epetra_CrsGraph ( Epetra_DataAccess  CV,
const Epetra_BlockMap RowMap,
int  NumIndicesPerRow,
bool  StaticProfile = false 
)

Epetra_CrsGraph constuctor with fixed number of indices per row.

Creates a Epetra_CrsGraph object and allocates storage.

Parameters:
CV - (In) A Epetra_DataAccess enumerated type set to Copy or View.
RowMap - (In) An Epetra_BlockMap (or Epetra_Map or Epetra_LocalMap) listing the rows that this processor will contribute to.
NumIndicesPerRow - (In) An integer that indicates the (approximate if StaticProfile=false) number of entries in the each row. Note that it is possible to use 0 for this value and let fill occur during the insertion phase.
StaticProfile - (In) Optional argument that indicates whether or not NumIndicesPerRow should be interpreted as an exact count of nonzeros, or should be used as an approximation. By default this value is false, allowing the profile to be determined dynamically. If the user sets it to true, then the memory allocation for the Epetra_CrsGraph object will be done in one large block, saving on memory fragmentation and generally improving the performance of matrix multiplication and solve kernels.

Definition at line 53 of file Epetra_CrsGraph.cpp.

Epetra_CrsGraph::Epetra_CrsGraph ( Epetra_DataAccess  CV,
const Epetra_BlockMap RowMap,
const Epetra_BlockMap ColMap,
const int *  NumIndicesPerRow,
bool  StaticProfile = false 
)

Epetra_CrsGraph constuctor with variable number of indices per row.

Creates a Epetra_CrsGraph object and allocates storage.

Parameters:
CV - (In) A Epetra_DataAccess enumerated type set to Copy or View.
RowMap - (In) An Epetra_BlockMap (or Epetra_Map or Epetra_LocalMap) listing the rows that this processor will contribute to.
ColMap - (In) An Epetra_BlockMap (or Epetra_Map or Epetra_LocalMap) listing the columns that this processor will contribute to.
NumIndicesPerRow - (In) An integer array of length NumMyRows such that NumIndicesPerRow[i] indicates the (approximate if StaticProfile=false) number of entries in the ith row.
StaticProfile - (In) Optional argument that indicates whether or not NumIndicesPerRow should be interpreted as an exact count of nonzeros, or should be used as an approximation. By default this value is false, allowing the profile to be determined dynamically. If the user sets it to true, then the memory allocation for the Epetra_CrsGraph object will be done in one large block, saving on memory fragmentation and generally improving the performance of matrix multiplication and solve kernels.

Definition at line 61 of file Epetra_CrsGraph.cpp.

Epetra_CrsGraph::Epetra_CrsGraph ( Epetra_DataAccess  CV,
const Epetra_BlockMap RowMap,
const Epetra_BlockMap ColMap,
int  NumIndicesPerRow,
bool  StaticProfile = false 
)

Epetra_CrsGraph constuctor with fixed number of indices per row.

Creates a Epetra_CrsGraph object and allocates storage.

Parameters:
CV - (In) A Epetra_DataAccess enumerated type set to Copy or View.
RowMap - (In) An Epetra_BlockMap (or Epetra_Map or Epetra_LocalMap) listing the rows that this processor will contribute to.
ColMap - (In) An Epetra_BlockMap (or Epetra_Map or Epetra_LocalMap) listing the columns that this processor will contribute to.
In NumIndicesPerRow - An integer that indicates the (approximate if StaticProfile=false) number of entries in the each row. Note that it is possible to use 0 for this value and let fill occur during the insertion phase.
StaticProfile - (In) Optional argument that indicates whether or not NumIndicesPerRow should be interpreted as an exact count of nonzeros, or should be used as an approximation. By default this value is false, allowing the profile to be determined dynamically. If the user sets it to true, then the memory allocation for the Epetra_CrsGraph object will be done in one large block, saving on memory fragmentation and generally improving the performance of matrix multiplication and solve kernels.

Definition at line 72 of file Epetra_CrsGraph.cpp.

Epetra_CrsGraph::Epetra_CrsGraph ( const Epetra_CrsGraph Graph  ) 

Copy constructor.

This will create a Level 1 deep copy. This Graph will share ownership of the CrsGraphData object with the right hand side Graph.

Definition at line 83 of file Epetra_CrsGraph.cpp.

Epetra_CrsGraph::~Epetra_CrsGraph (  )  [virtual]

Epetra_CrsGraph Destructor.

Definition at line 179 of file Epetra_CrsGraph.cpp.


Member Function Documentation

int Epetra_CrsGraph::InsertGlobalIndices ( int  GlobalRow,
int  NumIndices,
int *  Indices 
)

Enter a list of elements in a specified global row of the graph.

Parameters:
Row - (In) Global row number of indices.
NumIndices - (In) Number of Indices.
Indices - (In) Global column indices to insert.
Returns:
Integer error code, set to 0 if successful. If the insertion requires that additional memory be allocated for the row, a positive error code of 1 is returned. If the graph is a 'View' mode graph, then a positive warning code of 2 will be returned if the specified row already exists. Returns 1 if underlying graph data is shared by multiple graph instances.
Precondition:
IndicesAreGlobal()==true, StorageOptimized()==false

Definition at line 196 of file Epetra_CrsGraph.cpp.

int Epetra_CrsGraph::RemoveGlobalIndices ( int  GlobalRow,
int  NumIndices,
int *  Indices 
)

Remove a list of elements from a specified global row of the graph.

Parameters:
Row - (In) Global row number of indices.
NumIndices - (In) Number of Indices.
Indices - (In) Global column indices to remove.
Returns:
Integer error code, set to 0 if successful. Returns 1 if data is shared.
Precondition:
IndicesAreGlobal()==true, StorageOptimized()==false

Definition at line 333 of file Epetra_CrsGraph.cpp.

int Epetra_CrsGraph::RemoveGlobalIndices ( int  Row  ) 

Remove all indices from a specified global row of the graph.

Parameters:
Row - (In) Global row number of indices.
Returns:
Integer error code, set to 0 if successful. Returns 1 if data is shared.
Precondition:
IndicesAreGlobal()==true, StorageOptimized()==false

Definition at line 416 of file Epetra_CrsGraph.cpp.

int Epetra_CrsGraph::InsertMyIndices ( int  LocalRow,
int  NumIndices,
int *  Indices 
)

Enter a list of elements in a specified local row of the graph.

Parameters:
Row - (In) Local row number of indices.
NumIndices - (In) Number of Indices.
Indices - (In) Local column indices to insert.
Returns:
Integer error code, set to 0 if successful. If the insertion requires that additional memory be allocated for the row, a positive error code of 1 is returned. If one or more of the indices is ignored (due to not being contained in the column-map), then a positive warning code of 2 is returned. If the graph is a 'View' mode graph, then a positive warning code of 3 will be returned if the specified row already exists. Returns 1 if underlying graph data is shared by multiple graph instances.
Precondition:
IndicesAreLocal()==true, StorageOptimized()==false

Definition at line 213 of file Epetra_CrsGraph.cpp.

int Epetra_CrsGraph::RemoveMyIndices ( int  LocalRow,
int  NumIndices,
int *  Indices 
)

Remove a list of elements from a specified local row of the graph.

Parameters:
Row - (In) Local row number of indices.
NumIndices - (In) Number of Indices.
Indices - (In) Local column indices to remove.
Returns:
Integer error code, set to 0 if successful. Returns 1 if data is shared.
Precondition:
IndicesAreLocal()==true, StorageOptimized()==false

Definition at line 375 of file Epetra_CrsGraph.cpp.

int Epetra_CrsGraph::RemoveMyIndices ( int  Row  ) 

Remove all indices from a specified local row of the graph.

Parameters:
Row - (In) Local row number of indices.
Returns:
Integer error code, set to 0 if successful. Returns 1 if data is shared.
Precondition:
IndicesAreLocal()==true, StorageOptimized()==false

Definition at line 450 of file Epetra_CrsGraph.cpp.

int Epetra_CrsGraph::FillComplete (  ) 

Tranform to local index space. Perform other operations to allow optimal matrix operations.

This overloading of the FillComplete method assumes that the domain-map and range-map both equal the row-map, and simply calls FillComplete(RowMap(), RowMap()).

Returns:
Integer error code, set to 0 if successful. Returns 1 if data is shared (i.e., if the underlying graph-data object has a reference-count greater than 1).
Postcondition:
IndicesAreLocal()==true, Filled()==true

Definition at line 612 of file Epetra_CrsGraph.cpp.

int Epetra_CrsGraph::FillComplete ( const Epetra_BlockMap DomainMap,
const Epetra_BlockMap RangeMap 
)

Transform to local index space using specified Domain/Range maps. Perform other operations to allow optimal matrix operations.

Performs this sequence of operations:

  1. Transform indices to local index space
  2. Sort column-indices within each row
  3. Compress out any redundant indices within rows
  4. Compute global data such as num-nonzeros, maximum row-lengths, etc.
Returns:
Integer error code, set to 0 if successful. Returns 1 if data is shared (i.e., if the underlying graph-data object has a reference-count greater than 1).
Postcondition:
IndicesAreLocal()==true, Filled()==true

Definition at line 618 of file Epetra_CrsGraph.cpp.

int Epetra_CrsGraph::OptimizeStorage (  ) 

Make consecutive row index sections contiguous, minimize internal storage used for constructing graph.

After construction and during initialization (when indices are being added via InsertGlobalIndices() etc.), the column- indices for each row are held in a separate piece of allocated memory. This method moves the column-indices for all rows into one large contiguous array and eliminates internal storage that is not needed after graph construction. Calling this method can have a significant impact on memory costs and machine performance.

If this object was constructed in View mode then this method can't make non-contiguous indices contiguous and will return a warning code of 1 if the viewed data isn't already contiguous.

Returns:
Integer error code, set to 0 if successful.
Precondition:
Filled()==true.

If CV=View when the graph was constructed, then this method will be effective if the indices of the graph were already contiguous. In this case, the indices are left untouched and internal storage for the graph is minimized.

Postcondition:
StorageOptimized()==true, if successful

Definition at line 1142 of file Epetra_CrsGraph.cpp.

int Epetra_CrsGraph::ExtractGlobalRowCopy ( int  GlobalRow,
int  LenOfIndices,
int &  NumIndices,
int *  Indices 
) const

Extract a list of elements in a specified global row of the graph. Put into storage allocated by calling routine.

Parameters:
Row - (In) Global row number to get indices.
LenOfIndices - (In) Length of Indices array.
NumIndices - (Out) Number of Indices.
Indices - (Out) Global column indices corresponding to values.
Returns:
Integer error code, set to 0 if successful.

Definition at line 1238 of file Epetra_CrsGraph.cpp.

int Epetra_CrsGraph::ExtractMyRowCopy ( int  LocalRow,
int  LenOfIndices,
int &  NumIndices,
int *  Indices 
) const

Extract a list of elements in a specified local row of the graph. Put into storage allocated by calling routine.

Parameters:
Row - (In) Local row number to get indices.
LenOfIndices - (In) Length of Indices array.
NumIndices - (Out) Number of Indices.
Indices - (Out) Local column indices corresponding to values.
Returns:
Integer error code, set to 0 if successful.
Precondition:
IndicesAreLocal()==true

Definition at line 1263 of file Epetra_CrsGraph.cpp.

int Epetra_CrsGraph::ExtractGlobalRowView ( int  GlobalRow,
int &  NumIndices,
int *&  Indices 
) const

Get a view of the elements in a specified global row of the graph.

This function requires that the graph not be completed (FillComplete() was not called).

Parameters:
Row - (In) Local row number to get indices.
NumIndices - (Out) Number of Indices.
Indices - (Out) Column indices corresponding to values.
Returns:
Integer error code, set to 0 if successful. Returns -1 if invalid row. Returns -2 if graph is completed.
Precondition:
IndicesAreLocal()==false

Definition at line 1285 of file Epetra_CrsGraph.cpp.

int Epetra_CrsGraph::ExtractMyRowView ( int  LocalRow,
int &  NumIndices,
int *&  Indices 
) const

Get a view of the elements in a specified local row of the graph.

This function requires that the graph be completed FillComplete() was called).

Parameters:
Row - (In) Local row number to get indices.
NumIndices - (Out) Number of Indices.
Indices - (Out) Column indices corresponding to values.
Returns:
Integer error code, set to 0 if successful. Returns -1 if invalid row. Returns -2 if graph is not completed.
Precondition:
IndicesAreLocal()==true

Definition at line 1303 of file Epetra_CrsGraph.cpp.

bool Epetra_CrsGraph::Filled (  )  const [inline]

If FillComplete() has been called, this query returns true, otherwise it returns false.

Definition at line 472 of file Epetra_CrsGraph.h.

bool Epetra_CrsGraph::StorageOptimized (  )  const [inline]

If OptimizeStorage() has been called, this query returns true, otherwise it returns false.

Definition at line 475 of file Epetra_CrsGraph.h.

bool Epetra_CrsGraph::IndicesAreGlobal (  )  const [inline]

If column indices are in global range, this query returns true, otherwise it returns false.

Definition at line 478 of file Epetra_CrsGraph.h.

bool Epetra_CrsGraph::IndicesAreLocal (  )  const [inline]

If column indices are in local range, this query returns true, otherwise it returns false.

Definition at line 481 of file Epetra_CrsGraph.h.

bool Epetra_CrsGraph::LowerTriangular (  )  const [inline]

If graph is lower triangular in local index space, this query returns true, otherwise it returns false.

Precondition:
Filled()==true

Definition at line 487 of file Epetra_CrsGraph.h.

bool Epetra_CrsGraph::UpperTriangular (  )  const [inline]

If graph is upper triangular in local index space, this query returns true, otherwise it returns false.

Precondition:
Filled()==true

Definition at line 493 of file Epetra_CrsGraph.h.

bool Epetra_CrsGraph::NoDiagonal (  )  const [inline]

If graph has no diagonal entries in global index space, this query returns true, otherwise it returns false.

Precondition:
Filled()==true

Definition at line 499 of file Epetra_CrsGraph.h.

bool Epetra_CrsGraph::MyGlobalRow ( int  GID  )  const [inline]

Returns true of GID is owned by the calling processor, otherwise it returns false.

Definition at line 502 of file Epetra_CrsGraph.h.

bool Epetra_CrsGraph::HaveColMap (  )  const [inline]

Returns true if we have a well-defined ColMap, and returns false otherwise.

Precondition:
We have a well-defined ColMap if a) a ColMap was passed in at construction, or b) the MakeColMap function has been called. (Calling either of the FillComplete functions will result in MakeColMap being called.)

Definition at line 509 of file Epetra_CrsGraph.h.

int Epetra_CrsGraph::NumMyRows (  )  const [inline]

Returns the number of matrix rows on this processor.

Definition at line 516 of file Epetra_CrsGraph.h.

int Epetra_CrsGraph::NumGlobalRows (  )  const [inline]

Returns the number of matrix rows in global matrix.

Definition at line 519 of file Epetra_CrsGraph.h.

int Epetra_CrsGraph::NumMyCols (  )  const [inline]

Returns the number of entries in the set of column-indices that appear on this processor.

The set of column-indices that appear on this processor is the union of column-indices that appear in all local rows. The size of this set isn't available until FillComplete() has been called.

Precondition:
Filled()==true

Definition at line 526 of file Epetra_CrsGraph.h.

int Epetra_CrsGraph::NumGlobalCols (  )  const [inline]

Returns the number of matrix columns in global matrix.

Precondition:
Filled()==true

Definition at line 532 of file Epetra_CrsGraph.h.

int Epetra_CrsGraph::NumGlobalNonzeros (  )  const [inline]

Returns the number of indices in the global graph.

Note that if the graph's maps are defined such that some nonzeros appear on more than one processor, then those nonzeros will be counted more than once. If the user wishes to assemble a graph from overlapping data, they can use Epetra_FECrsGraph.

Precondition:
Filled()==true

Definition at line 541 of file Epetra_CrsGraph.h.

int Epetra_CrsGraph::NumGlobalDiagonals (  )  const [inline]

Returns the number of diagonal entries in the global graph, based on global row/column index comparisons.

Precondition:
Filled()==true

Definition at line 547 of file Epetra_CrsGraph.h.

int Epetra_CrsGraph::NumMyDiagonals (  )  const [inline]

Returns the number of diagonal entries in the local graph, based on global row/column index comparisons.

Precondition:
Filled()==true

Definition at line 553 of file Epetra_CrsGraph.h.

int Epetra_CrsGraph::NumMyBlockRows (  )  const [inline]

Returns the number of block matrix rows on this processor.

Definition at line 556 of file Epetra_CrsGraph.h.

int Epetra_CrsGraph::NumGlobalBlockRows (  )  const [inline]

Returns the number of Block matrix rows in global matrix.

Definition at line 559 of file Epetra_CrsGraph.h.

int Epetra_CrsGraph::NumMyBlockCols (  )  const [inline]

Returns the number of Block matrix columns on this processor.

Precondition:
Filled()==true

Definition at line 565 of file Epetra_CrsGraph.h.

int Epetra_CrsGraph::NumGlobalBlockCols (  )  const [inline]

Returns the number of Block matrix columns in global matrix.

Precondition:
Filled()==true

Definition at line 571 of file Epetra_CrsGraph.h.

int Epetra_CrsGraph::NumMyBlockDiagonals (  )  const [inline]

Returns the number of Block diagonal entries in the local graph, based on global row/column index comparisons.

Precondition:
Filled()==true

Definition at line 577 of file Epetra_CrsGraph.h.

int Epetra_CrsGraph::NumGlobalBlockDiagonals (  )  const [inline]

Returns the number of Block diagonal entries in the global graph, based on global row/column index comparisons.

Precondition:
Filled()==true

Definition at line 583 of file Epetra_CrsGraph.h.

int Epetra_CrsGraph::NumGlobalEntries (  )  const [inline]

Returns the number of entries in the global graph.

Precondition:
Filled()==true

Definition at line 589 of file Epetra_CrsGraph.h.

int Epetra_CrsGraph::NumMyEntries (  )  const [inline]

Returns the number of entries on this processor.

Precondition:
Filled()==true

Definition at line 595 of file Epetra_CrsGraph.h.

int Epetra_CrsGraph::MaxRowDim (  )  const [inline]

Returns the max row dimension of block entries on the processor.

Precondition:
Filled()==true

Definition at line 600 of file Epetra_CrsGraph.h.

int Epetra_CrsGraph::GlobalMaxRowDim (  )  const [inline]

Returns the max row dimension of block entries across all processors.

Precondition:
Filled()==true

Definition at line 606 of file Epetra_CrsGraph.h.

int Epetra_CrsGraph::MaxColDim (  )  const [inline]

Returns the max column dimension of block entries on the processor.

Precondition:
Filled()==true

Definition at line 612 of file Epetra_CrsGraph.h.

int Epetra_CrsGraph::GlobalMaxColDim (  )  const [inline]

Returns the max column dimension of block entries across all processors.

Precondition:
Filled()==true

Definition at line 618 of file Epetra_CrsGraph.h.

int Epetra_CrsGraph::NumMyNonzeros (  )  const [inline]

Returns the number of indices in the local graph.

Precondition:
Filled()==true

Definition at line 624 of file Epetra_CrsGraph.h.

int Epetra_CrsGraph::NumGlobalIndices ( int  Row  )  const

Returns the current number of nonzero entries in specified global row on this processor.

Definition at line 1319 of file Epetra_CrsGraph.cpp.

int Epetra_CrsGraph::NumAllocatedGlobalIndices ( int  Row  )  const

Returns the allocated number of nonzero entries in specified global row on this processor.

Definition at line 1328 of file Epetra_CrsGraph.cpp.

int Epetra_CrsGraph::MaxNumIndices (  )  const [inline]

Returns the maximum number of nonzero entries across all rows on this processor.

Precondition:
Filled()==true

Definition at line 636 of file Epetra_CrsGraph.h.

int Epetra_CrsGraph::GlobalMaxNumIndices (  )  const [inline]

Returns the maximun number of nonzero entries across all rows across all processors.

Precondition:
Filled()==true

Definition at line 642 of file Epetra_CrsGraph.h.

int Epetra_CrsGraph::MaxNumNonzeros (  )  const [inline]

Returns the maximum number of nonzero points across all rows on this processor.

For each entry in the graph, let i = the GRID of the entry and j = the CGID of the entry. Then the entry size is the product of the rowmap elementsize of i and the colmap elementsize of i. Let ki = sum of all entry sizes for the entries in the ith row. For example, if the ith block row had 5 block entries and the element size of each entry was 4-by-4, ki would be 80. Then this function returns the max over all ki for all row on this processor.

Precondition:
Filled()==true

Definition at line 654 of file Epetra_CrsGraph.h.

int Epetra_CrsGraph::GlobalMaxNumNonzeros (  )  const [inline]

Returns the maximun number of nonzero points across all rows across all processors.

This function returns the max over all processor of MaxNumNonzeros().

Precondition:
Filled()==true

Definition at line 661 of file Epetra_CrsGraph.h.

int Epetra_CrsGraph::NumMyIndices ( int  Row  )  const [inline]

Returns the current number of nonzero entries in specified local row on this processor.

Definition at line 664 of file Epetra_CrsGraph.h.

int Epetra_CrsGraph::NumAllocatedMyIndices ( int  Row  )  const [inline]

Returns the allocated number of nonzero entries in specified local row on this processor.

Definition at line 669 of file Epetra_CrsGraph.h.

int Epetra_CrsGraph::IndexBase (  )  const [inline]

Returns the index base for row and column indices for this graph.

Definition at line 674 of file Epetra_CrsGraph.h.

const Epetra_BlockMap& Epetra_CrsGraph::RowMap (  )  const [inline]

Returns the RowMap associated with this graph.

Definition at line 677 of file Epetra_CrsGraph.h.

int Epetra_CrsGraph::ReplaceRowMap ( const Epetra_BlockMap newmap  ) 

Replaces the current RowMap with the user-specified map object, but only if currentmap->PointSameAs(newmap) is true.

This is a collective function. Returns 0 if map is replaced, -1 if not.

Precondition:
RowMap().PointSameAs(newmap)==true

Definition at line 1337 of file Epetra_CrsGraph.cpp.

int Epetra_CrsGraph::ReplaceColMap ( const Epetra_BlockMap newmap  ) 

Replaces the current ColMap with the user-specified map object, but only if currentmap->PointSameAs(newmap) is true.

This is a collective function. Returns 0 if map is replaced, -1 if not.

Precondition:
ColMap().PointSameAs(newmap)==true

Definition at line 1350 of file Epetra_CrsGraph.cpp.

const Epetra_BlockMap& Epetra_CrsGraph::ColMap (  )  const [inline]

Returns the Column Map associated with this graph.

Precondition:
HaveColMap()==true

Definition at line 699 of file Epetra_CrsGraph.h.

const Epetra_BlockMap& Epetra_CrsGraph::DomainMap (  )  const [inline]

Returns the DomainMap associated with this graph.

Precondition:
Filled()==true

Definition at line 705 of file Epetra_CrsGraph.h.

const Epetra_BlockMap& Epetra_CrsGraph::RangeMap (  )  const [inline]

Returns the RangeMap associated with this graph.

Precondition:
Filled()==true

Definition at line 711 of file Epetra_CrsGraph.h.

const Epetra_Import* Epetra_CrsGraph::Importer (  )  const [inline]

Returns the Importer associated with this graph.

Definition at line 714 of file Epetra_CrsGraph.h.

const Epetra_Export* Epetra_CrsGraph::Exporter (  )  const [inline]

Returns the Exporter associated with this graph.

Definition at line 717 of file Epetra_CrsGraph.h.

const Epetra_Comm& Epetra_CrsGraph::Comm (  )  const [inline]

Returns a pointer to the Epetra_Comm communicator associated with this graph.

Reimplemented from Epetra_DistObject.

Definition at line 720 of file Epetra_CrsGraph.h.

int Epetra_CrsGraph::LRID ( int  GRID  )  const [inline]

Returns the local row index for given global row index, returns -1 if no local row for this global row.

Definition at line 727 of file Epetra_CrsGraph.h.

int Epetra_CrsGraph::GRID ( int  LRID  )  const [inline]

Returns the global row index for give local row index, returns IndexBase-1 if we don't have this local row.

Definition at line 730 of file Epetra_CrsGraph.h.

int Epetra_CrsGraph::LCID ( int  GCID  )  const [inline]

Returns the local column index for given global column index, returns -1 if no local column for this global column.

Precondition:
HaveColMap()==true (If HaveColMap()==false, returns -1)

Definition at line 736 of file Epetra_CrsGraph.h.

int Epetra_CrsGraph::GCID ( int  LCID  )  const [inline]

Returns the global column index for give local column index, returns IndexBase-1 if we don't have this local column.

Precondition:
HaveColMap()==true (If HaveColMap()==false, returns -1)

Definition at line 745 of file Epetra_CrsGraph.h.

bool Epetra_CrsGraph::MyGRID ( int  GRID  )  const [inline]

Returns true if the GRID passed in belongs to the calling processor in this map, otherwise returns false.

Definition at line 751 of file Epetra_CrsGraph.h.

bool Epetra_CrsGraph::MyLRID ( int  LRID  )  const [inline]

Returns true if the LRID passed in belongs to the calling processor in this map, otherwise returns false.

Definition at line 754 of file Epetra_CrsGraph.h.

bool Epetra_CrsGraph::MyGCID ( int  GCID  )  const [inline]

Returns true if the GCID passed in belongs to the calling processor in this map, otherwise returns false.

Precondition:
HaveColMap()==true (If HaveColMap()==false, returns -1)

Definition at line 760 of file Epetra_CrsGraph.h.

bool Epetra_CrsGraph::MyLCID ( int  LCID  )  const [inline]

Returns true if the LRID passed in belongs to the calling processor in this map, otherwise returns false.

Precondition:
HaveColMap()==true (If HaveColMap()==false, returns -1)

Definition at line 766 of file Epetra_CrsGraph.h.

int* Epetra_CrsGraph::operator[] ( int  Loc  )  [inline]

Inlined bracket operator for fast access to data. (Const and Non-const versions).

No error checking and dangerous for optimization purposes.

Parameters:
Loc (In) - Local row.
Returns:
reference to pointer to locally indexed Loc row in matrix.

Definition at line 779 of file Epetra_CrsGraph.h.

int* Epetra_CrsGraph::operator[] ( int  Loc  )  const [inline]

Definition at line 783 of file Epetra_CrsGraph.h.

Epetra_CrsGraph & Epetra_CrsGraph::operator= ( const Epetra_CrsGraph Source  ) 

Assignment operator.

This will do a Level 1 deep copy. It will share ownership of the CrsGraphData with the right hand side Graph.

Definition at line 1845 of file Epetra_CrsGraph.cpp.

void Epetra_CrsGraph::Print ( ostream &  os  )  const [virtual]

Print method.

Reimplemented from Epetra_DistObject.

Definition at line 1775 of file Epetra_CrsGraph.cpp.

void Epetra_CrsGraph::PrintGraphData ( ostream &  os  )  const [inline]

Definition at line 801 of file Epetra_CrsGraph.h.

void Epetra_CrsGraph::PrintGraphData ( ostream &  os,
int  level 
) const [inline]

Definition at line 802 of file Epetra_CrsGraph.h.

const Epetra_BlockMap& Epetra_CrsGraph::ImportMap (  )  const [inline]

Use ColMap() instead.

Definition at line 809 of file Epetra_CrsGraph.h.

int Epetra_CrsGraph::TransformToLocal (  ) 

Use FillComplete() instead.

Definition at line 636 of file Epetra_CrsGraph.cpp.

int Epetra_CrsGraph::TransformToLocal ( const Epetra_BlockMap DomainMap,
const Epetra_BlockMap RangeMap 
)

int Epetra_CrsGraph::ReferenceCount (  )  const [inline]

Returns the reference count of CrsGraphData.

(Intended for testing purposes.)

Definition at line 824 of file Epetra_CrsGraph.h.

const Epetra_CrsGraphData* Epetra_CrsGraph::DataPtr (  )  const [inline]

Returns a pointer to the CrsGraphData instance this CrsGraph uses.

(Intended for developer use only for testing purposes.)

Definition at line 828 of file Epetra_CrsGraph.h.

int* Epetra_CrsGraph::All_Indices (  )  const [inline, protected]

Definition at line 843 of file Epetra_CrsGraph.h.

int* Epetra_CrsGraph::IndexOffset (  )  const [inline, protected]

Definition at line 846 of file Epetra_CrsGraph.h.

int* Epetra_CrsGraph::NumIndicesPerRow (  )  const [inline, protected]

Definition at line 849 of file Epetra_CrsGraph.h.

int* Epetra_CrsGraph::NumAllocatedIndicesPerRow (  )  const [inline, protected]

Definition at line 852 of file Epetra_CrsGraph.h.

int** Epetra_CrsGraph::Indices (  )  const [inline, protected]

Definition at line 855 of file Epetra_CrsGraph.h.

int* Epetra_CrsGraph::Indices ( int  LocalRow  )  const [inline, protected]

Definition at line 858 of file Epetra_CrsGraph.h.

bool Epetra_CrsGraph::IndicesAreContiguous (  )  const [inline, protected]

Definition at line 863 of file Epetra_CrsGraph.h.

bool Epetra_CrsGraph::StaticProfile (  )  const [inline, protected]

Definition at line 864 of file Epetra_CrsGraph.h.

bool Epetra_CrsGraph::GlobalConstantsComputed (  )  const [protected]

Definition at line 1748 of file Epetra_CrsGraph.cpp.

bool Epetra_CrsGraph::FindGlobalIndexLoc ( int  LocalRow,
int  Index,
int  Start,
int &  Loc 
) const [protected]

Definition at line 482 of file Epetra_CrsGraph.cpp.

bool Epetra_CrsGraph::FindGlobalIndexLoc ( int  NumIndices,
const int *  Indices,
int  Index,
int  Start,
int &  Loc 
) const [protected]

Definition at line 516 of file Epetra_CrsGraph.cpp.

bool Epetra_CrsGraph::FindMyIndexLoc ( int  LocalRow,
int  Index,
int  Start,
int &  Loc 
) const [protected]

Definition at line 548 of file Epetra_CrsGraph.cpp.

bool Epetra_CrsGraph::FindMyIndexLoc ( int  NumIndices,
const int *  Indices,
int  Index,
int  Start,
int &  Loc 
) const [protected]

Definition at line 581 of file Epetra_CrsGraph.cpp.

int Epetra_CrsGraph::InsertIndices ( int  Row,
int  NumIndices,
int *  Indices 
) [protected]

Definition at line 239 of file Epetra_CrsGraph.cpp.

int Epetra_CrsGraph::MakeIndicesLocal ( const Epetra_BlockMap DomainMap,
const Epetra_BlockMap RangeMap 
) [protected]

Definition at line 1102 of file Epetra_CrsGraph.cpp.

void Epetra_CrsGraph::SetIndicesAreLocal ( bool  Flag  )  [inline, protected]

Definition at line 872 of file Epetra_CrsGraph.h.

void Epetra_CrsGraph::SetIndicesAreGlobal ( bool  Flag  )  [inline, protected]

Definition at line 873 of file Epetra_CrsGraph.h.

void Epetra_CrsGraph::SetSorted ( bool  Flag  )  [inline, protected]

Definition at line 874 of file Epetra_CrsGraph.h.

int Epetra_CrsGraph::SortIndices (  )  [protected]

Sort column indices, row-by-row, in ascending order.

Returns:
Integer error code, set to 0 if successful. Returns 1 if data is shared.

Definition at line 767 of file Epetra_CrsGraph.cpp.

bool Epetra_CrsGraph::Sorted (  )  const [inline, protected]

If SortIndices() has been called, this query returns true, otherwise it returns false.

Definition at line 883 of file Epetra_CrsGraph.h.

int Epetra_CrsGraph::RemoveRedundantIndices (  )  [protected]

Removes any redundant column indices in the rows of the graph.

Returns:
Integer error code, set to 0 if successful. Returns 1 if data is shared.

Definition at line 870 of file Epetra_CrsGraph.cpp.

bool Epetra_CrsGraph::NoRedundancies (  )  const [inline, protected]

If RemoveRedundantIndices() has been called, this query returns true, otherwise it returns false.

Definition at line 892 of file Epetra_CrsGraph.h.

void Epetra_CrsGraph::SetGlobalConstantsComputed ( bool  Flag  )  [inline, private]

Definition at line 895 of file Epetra_CrsGraph.h.

void Epetra_CrsGraph::SetIndicesAreContiguous ( bool  Flag  )  [inline, private]

Definition at line 896 of file Epetra_CrsGraph.h.

void Epetra_CrsGraph::SetNoRedundancies ( bool  Flag  )  [inline, private]

Definition at line 897 of file Epetra_CrsGraph.h.

void Epetra_CrsGraph::ComputeIndexState (  )  [private]

Definition at line 1759 of file Epetra_CrsGraph.cpp.

int Epetra_CrsGraph::MakeColMap ( const Epetra_BlockMap DomainMap,
const Epetra_BlockMap RangeMap 
) [private]

Definition at line 943 of file Epetra_CrsGraph.cpp.

int Epetra_CrsGraph::Allocate ( const int *  NumIndicesPerRow,
int  Inc,
bool  StaticProfile 
) [private]

Definition at line 91 of file Epetra_CrsGraph.cpp.

int Epetra_CrsGraph::ComputeGlobalConstants (  )  [private]

Definition at line 646 of file Epetra_CrsGraph.cpp.

void Epetra_CrsGraph::SetFilled ( bool  Flag  )  [inline, private]

Definition at line 903 of file Epetra_CrsGraph.h.

bool Epetra_CrsGraph::Allocated (  )  const [inline, private]

Definition at line 904 of file Epetra_CrsGraph.h.

void Epetra_CrsGraph::SetAllocated ( bool  Flag  )  [inline, private]

Definition at line 905 of file Epetra_CrsGraph.h.

int Epetra_CrsGraph::CheckSizes ( const Epetra_SrcDistObject Source  )  [private, virtual]

Allows the source and target (this) objects to be compared for compatibility, return nonzero if not.

Implements Epetra_DistObject.

Definition at line 1362 of file Epetra_CrsGraph.cpp.

int Epetra_CrsGraph::CopyAndPermute ( const Epetra_SrcDistObject Source,
int  NumSameIDs,
int  NumPermuteIDs,
int *  PermuteToLIDs,
int *  PermuteFromLIDs,
const Epetra_OffsetIndex Indexor 
) [private, virtual]

Perform ID copies and permutations that are on processor.

Implements Epetra_DistObject.

Definition at line 1375 of file Epetra_CrsGraph.cpp.

int Epetra_CrsGraph::CopyAndPermuteRowMatrix ( const Epetra_RowMatrix A,
int  NumSameIDs,
int  NumPermuteIDs,
int *  PermuteToLIDs,
int *  PermuteFromLIDs,
const Epetra_OffsetIndex Indexor 
) [private]

Definition at line 1402 of file Epetra_CrsGraph.cpp.

int Epetra_CrsGraph::CopyAndPermuteCrsGraph ( const Epetra_CrsGraph A,
int  NumSameIDs,
int  NumPermuteIDs,
int *  PermuteToLIDs,
int *  PermuteFromLIDs,
const Epetra_OffsetIndex Indexor 
) [private]

Definition at line 1453 of file Epetra_CrsGraph.cpp.

int Epetra_CrsGraph::PackAndPrepare ( const Epetra_SrcDistObject Source,
int  NumExportIDs,
int *  ExportLIDs,
int &  LenExports,
char *&  Exports,
int &  SizeOfPacket,
int *  Sizes,
bool &  VarSizes,
Epetra_Distributor Distor 
) [private, virtual]

Perform any packing or preparation required for call to DoTransfer().

Implements Epetra_DistObject.

Definition at line 1524 of file Epetra_CrsGraph.cpp.

int Epetra_CrsGraph::PackAndPrepareCrsGraph ( const Epetra_CrsGraph A,
int  NumExportIDs,
int *  ExportLIDs,
int &  LenExports,
char *&  Exports,
int &  SizeOfPacket,
int *  Sizes,
bool &  VarSizes,
Epetra_Distributor Distor 
) [private]

Definition at line 1586 of file Epetra_CrsGraph.cpp.

int Epetra_CrsGraph::PackAndPrepareRowMatrix ( const Epetra_RowMatrix A,
int  NumExportIDs,
int *  ExportLIDs,
int &  LenExports,
char *&  Exports,
int &  SizeOfPacket,
int *  Sizes,
bool &  VarSizes,
Epetra_Distributor Distor 
) [private]

Definition at line 1632 of file Epetra_CrsGraph.cpp.

int Epetra_CrsGraph::UnpackAndCombine ( const Epetra_SrcDistObject Source,
int  NumImportIDs,
int *  ImportLIDs,
int  LenImports,
char *  Imports,
int &  SizeOfPacket,
Epetra_Distributor Distor,
Epetra_CombineMode  CombineMode,
const Epetra_OffsetIndex Indexor 
) [private, virtual]

Perform any unpacking and combining after call to DoTransfer().

Implements Epetra_DistObject.

Definition at line 1686 of file Epetra_CrsGraph.cpp.

void Epetra_CrsGraph::CleanupData (  )  [private]

Definition at line 185 of file Epetra_CrsGraph.cpp.


Friends And Related Function Documentation

friend class Epetra_CrsMatrix [friend]

Definition at line 835 of file Epetra_CrsGraph.h.

friend class Epetra_VbrMatrix [friend]

Definition at line 836 of file Epetra_CrsGraph.h.

friend class Epetra_FECrsGraph [friend]

Definition at line 837 of file Epetra_CrsGraph.h.

friend class Epetra_FECrsMatrix [friend]

Definition at line 838 of file Epetra_CrsGraph.h.

friend class Epetra_FEVbrMatrix [friend]

Definition at line 839 of file Epetra_CrsGraph.h.

friend class Epetra_OffsetIndex [friend]

Definition at line 840 of file Epetra_CrsGraph.h.


Member Data Documentation

Definition at line 968 of file Epetra_CrsGraph.h.


The documentation for this class was generated from the following files:

Generated on Wed Jul 22 13:21:59 2009 for Epetra Package Browser (Single Doxygen Collection) by doxygen 1.5.8