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| QueryObject (Teuchos::RCP< const ::Tpetra::CrsGraph< int, int, Node > > graph, Teuchos::RCP< const Isorropia::Tpetra::CostDescriber< Node > > costs, int inputType) |
| Constructor. More...
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| QueryObject (Teuchos::RCP< const ::Tpetra::RowMatrix< double, int, int, Node > > matrix, Teuchos::RCP< const Isorropia::Tpetra::CostDescriber< Node > > costs, int inputType) |
| Constructor. More...
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| QueryObject (Teuchos::RCP< const ::Tpetra::MultiVector< double, int, int, Node > > coords, Teuchos::RCP< const ::Tpetra::MultiVector< double, int, int, Node > > weights) |
| Constructor. More...
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| QueryObject (Teuchos::RCP< const ::Tpetra::CrsGraph< int, int, Node > > graph, Teuchos::RCP< const Isorropia::Tpetra::CostDescriber< Node > > costs, Teuchos::RCP< const ::Tpetra::MultiVector< double, int, int, Node > > coords, Teuchos::RCP< const ::Tpetra::MultiVector< double, int, int, Node > > weights, int inputType) |
| Constructor. More...
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| QueryObject (Teuchos::RCP< const ::Tpetra::RowMatrix< double, int, int, Node > > matrix, Teuchos::RCP< const Isorropia::Tpetra::CostDescriber< Node > > costs, Teuchos::RCP< const ::Tpetra::MultiVector< double, int, int, Node > > coords, Teuchos::RCP< const ::Tpetra::MultiVector< double, int, int, Node > > weights, int inputType) |
| Constructor. More...
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| QueryObject (Teuchos::RCP< const ::Tpetra::Map< int, int, Node > > inputMap, int inputType) |
| Constructor. More...
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virtual | ~QueryObject () |
| Destructor. More...
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const ::Tpetra::Map< int, int, Node > & | RowMap (void) |
| Return the map associated with the object to be partitioned. More...
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bool | haveVertexWeights () |
| Return true if any of the processes in the application have defined vertex weights. More...
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bool | haveGraphEdgeWeights () |
| Return true if any of the processes in the application have defined graph edge weights. More...
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bool | haveHypergraphEdgeWeights () |
| Return true if any of the processes in the application have defined hypergraph edge weights. More...
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static int | Number_Objects (void *data, int *ierr) |
| The interface to a particular QueryObject's My_Number_Objects query function. More...
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static void | Object_List (void *data, int num_gid_entries, int num_lid_entries, ZOLTAN_ID_PTR global_ids, ZOLTAN_ID_PTR local_ids, int weight_dim, float *object_weights, int *ierr) |
| The interface to a particular QueryObject's My_Object_List query function. More...
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static void | Number_Edges_Multi (void *data, int num_gid_entries, int num_lid_entries, int num_obj, ZOLTAN_ID_PTR global_ids, ZOLTAN_ID_PTR local_ids, int *num_edges, int *ierr) |
| The interface to a particular QueryObject's My_Number_Edges_Multi query function. More...
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static void | Edge_List_Multi (void *data, int num_gid_entries, int num_lid_entries, int num_obj, ZOLTAN_ID_PTR global_ids, ZOLTAN_ID_PTR local_ids, int *num_edges, ZOLTAN_ID_PTR neighbor_global_ids, int *neighbor_procs, int weight_dim, float *edge_weights, int *ierr) |
| The interface to a particular QueryObject's My_Edges_Multi query function. More...
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static void | HG_Size_CS (void *data, int *num_lists, int *num_pins, int *format, int *ierr) |
| The interface to a particular QueryObject's My_HG_Size_CS query function. More...
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static void | HG_CS (void *data, int num_gid_entries, int num_row_or_col, int num_pins, int format, ZOLTAN_ID_PTR vtxedge_GID, int *vtxedge_ptr, ZOLTAN_ID_PTR pin_GID, int *ierr) |
| The interface to a particular QueryObject's My_HG_CS query function. More...
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static void | HG_Size_Edge_Weights (void *data, int *num_edges, int *ierr) |
| The interface to a particular QueryObject's My_HG_Size_Edge_Weights query function. More...
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static void | HG_Edge_Weights (void *data, int num_gid_entries, int num_lid_entries, int num_edges, int edge_weight_dim, ZOLTAN_ID_PTR edge_GID, ZOLTAN_ID_PTR edge_LID, float *edge_weights, int *ierr) |
| The interface to a particular QueryObject's My_HG_Edge_Weights query function. More...
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static int | Number_Geom (void *data, int *ierr) |
| The interface to a particular QueryObject's My_Number_Geom query function. More...
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static void | Geom_Multi (void *data, int num_gid_entries, int num_lid_entries, int num_obj, ZOLTAN_ID_PTR gids, ZOLTAN_ID_PTR lids, int num_dim, double *geom_vec, int *ierr) |
| The interface to a particular QueryObject's My_Geom_Multi query function. More...
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static const int | hgraph_input_ = 1 |
| input_type_ == hgraph_input_. More...
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static const int | hgraph2d_finegrain_input_ = 2 |
| input_type_ == hgraph2d_finegrain_input_. More...
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static const int | graph_input_ = 3 |
| input_type_ == graph_input_. More...
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static const int | geometric_input_ = 4 |
| input_type_ == geometric_input_. More...
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static const int | hgraph_graph_input_ = 5 |
| input_type_ == hgraph_graph_input_ This indicates that the Tpetra::MultiVector represents a hypergraph and graph (see above). More...
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static const int | hgraph_geometric_input_ = 6 |
| input_type_ == hgraph_geometric_input_ This indicates that the Tpetra::MultiVector represents a hypergraph and graph (see above). More...
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static const int | graph_geometric_input_ = 7 |
| input_type_ == graph_geometric_input_ This indicates that the Tpetra::MultiVector represents graph and has geometric coordinates (see above). More...
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static const int | hgraph_graph_geometric_input_ = 8 |
| input_type_ == hgraph_graph_geometric_input_ This indicates that the Tpetra::MultiVector represents a hypergraph and graph and has geometric coordinates(see above). More...
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static const int | simple_input_ = 9 |
| input_type_ == simple_input_ This indicates that a simple method (block, cyclic, or random) will be used. More...
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static const int | unspecified_input_ = 10 |
| input_type_ == unspecified_input_. More...
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void | fill_procmap () |
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int | My_Number_Objects (int *ierr) |
| My_Number_Objects() returns the number of objects currently assigned to this process. More...
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void | My_Object_List (int num_gid_entries, int num_lid_entries, ZOLTAN_ID_PTR global_ids, ZOLTAN_ID_PTR local_ids, int weight_dim, float *object_weights, int *ierr) |
| My_ObjectList() returns to Zoltan the global ID and weight of the objects currently assigned to this process. More...
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void | My_Number_Edges_Multi (int num_gid_entries, int num_lid_entries, int num_obj, ZOLTAN_ID_PTR global_ids, ZOLTAN_ID_PTR local_ids, int *num_edges, int *ierr) |
| My_Number_Edges_Multi() is a query function used for graph partitioning only. More...
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void | My_Edge_List_Multi (int num_gid_entries, int num_lid_entries, int num_obj, ZOLTAN_ID_PTR global_ids, ZOLTAN_ID_PTR local_ids, int *num_edges, ZOLTAN_ID_PTR neighbor_global_ids, int *neighbor_procs, int weight_dim, float *edge_weights, int *ierr) |
| My_Edge_List_Multi() is a query function used for graph partitioning only. More...
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void | My_HG_Size_CS (int *num_lists, int *num_pins, int *format, int *ierr) |
| My_HG_Size_CS() is a query function used for hypergraph partitioning only. More...
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void | My_HG_CS (int num_gid_entries, int num_row_or_col, int num_pins, int format, ZOLTAN_ID_PTR vtxedge_GID, int *vtxedge_ptr, ZOLTAN_ID_PTR pin_GID, int *ierr) |
| My_HG_CS() is a query function used for hypergraph partitioning only. More...
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void | My_FGHG_CS (int num_gid_entries, int num_row_or_col, int num_pins, int format, ZOLTAN_ID_PTR vtxedge_GID, int *vtxedge_ptr, ZOLTAN_ID_PTR pin_GID, int *ierr) |
| My_FGHG_CS() is a query function used for fine-grain hypergraph partitioning only. More...
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void | My_HG_Size_Edge_Weights (int *num_edges, int *ierr) |
| My_HG_Size_Edge_Weights() is a query function used for hypergraph partitioning only. More...
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void | My_HG_Edge_Weights (int num_gid_entries, int num_lid_entries, int num_edges, int edge_weight_dim, ZOLTAN_ID_PTR edge_GID, ZOLTAN_ID_PTR edge_LID, float *edge_weights, int *ierr) |
| My_HG_Edge_Weights() is a query function used for hypergraph partitioning only. More...
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int | My_Number_Geom (int *ierr) |
| My_Number_Geom() is a query function used for geometric partitioning only. More...
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void | My_Geom_Multi (int num_gid_entries, int num_lid_entries, int num_obj, ZOLTAN_ID_PTR gids, ZOLTAN_ID_PTR lids, int num_dim, double *geom_vec, int *ierr) |
| My_Geom_Multi() is a query function used for geometric partitioning only. More...
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const bool | haveGraph_ |
| haveGraph is true if we have CrsGraph, and not a CrsMatrix or a MultiVector. More...
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Teuchos::RCP< const ::Tpetra::CrsGraph< int, int, Node > > | graph_ |
| The CrsGraph. More...
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Teuchos::RCP< const ::Tpetra::RowMatrix< double, int, int, Node > > | matrix_ |
| The CrsMatrix. More...
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Teuchos::RCP< const ::Tpetra::MultiVector< double, int, int, Node > > | coords_ |
| The MultiVector containing 1, 2 or 3 dimensional coordinates. More...
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const ::Tpetra::Map< int, int, Node > * | rowMap_ |
| The graph or matrix row map, or the MultiVector map. More...
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const ::Tpetra::Map< int, int, Node > * | colMap_ |
| The graph or matrix column map. More...
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Teuchos::RCP< const Isorropia::Tpetra::CostDescriber< Node > > | costs_ |
| The CostDescriber contains optional vertex and/or edge weights for graph and hypergraph partitioning. More...
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Teuchos::RCP< const ::Tpetra::MultiVector< double, int, int, Node > > | weights_ |
| The MultiVector contains optional object (point) weights for geometric partitioning. More...
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std::map< int, int > | procmap_ |
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std::set< int > | graph_self_edges_ |
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int | myProc_ |
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int | base_ |
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template<typename Node = ::Tpetra::Map<int,int>::node_type>
class Isorropia::Tpetra::ZoltanLib::QueryObject< Node >
QueryObject is a class that contains the query functions required by the Zoltan library.
These methods are not part of the Isorropia API (except to Zoltan). They are called by Isorropia itself and by Zoltan.
For a better understanding of Zoltan's query functions, see the Zoltan User's Guide at http://www.cs.sandia.gov/zoltan
template<typename Node = ::Tpetra::Map<int,int>::node_type>
The MultiVector containing 1, 2 or 3 dimensional coordinates.
If supplied, we will perform geometric partitioning. The QueryObject must be constructed with one of an ::Tpetra::CrsGraph, an ::Tpetra::RowMatrix<double,int,int,Node> or an Tpetra::MultiVector.
template<typename Node = ::Tpetra::Map<int,int>::node_type>
input_type_ == geometric_input_.
This indicates that the Tpetra::MultiVector represents geometric coordinates. The MultiVector should have 1, 2 or 3 vectors, representing 1, 2 or 3 dimensional coordinates. The coordinates are to be partitioned.