A simple code that creates an Epetra_Map is as follows. First, we need to include `Galeri_Maps.h`

, and the required Epetra and Teuchos header files.

#include "Galeri_Maps.h" #ifdef HAVE_MPI #include "mpi.h" #include "Epetra_MpiComm.h" #else #include "Epetra_SerialComm.h" #endif #include "Epetra_Map.h" #include "Teuchos_ParameterList.hpp"

Then, the basic instructions to create a linear map (that is, a map whose elements are linearly subdivided among the available processes) are:

Epetra_Map* Map = 0; // the map to be created Teuchos::ParameterList List; List.set("n", 100); // global number of elements in the map string MapType = "Linear"; Map = Galeri.CreateMap(MapType, Comm, List);

where `Comm`

is an `Epetra_Comm`

object. The created Epetra_Map must be free'd by the user using `delete`

.

Let us see know how to create a more complex map: a Cartesian 2D map. This map contains `nx`

`ny`

nodes, and corresponds to a Cartesian grid in the (X,Y) plane. The nodes are ordered along the X-axis first. If more than one processor is used, then the grid is partitioned into `mx`

`my`

subdomains. Note that `mx`

`my`

must be the total number of processors in the communicator.

Epetra_Map* Map = 0; // the map to be created Teuchos::ParameterList List; List.set("nx", 10); // 10 nodes along the X-axis List.set("ny", 10); // 10 nodes along the Y-axis List.set("mx", 2); // 2 subdomains along the X-axis List.set("my", 2); // 2 subdomains along the Y-axis string MapType = "Cartesian2D"; Map = Galeri.CreateMap(MapType, Comm, List);

The complete list of choices for `MapType`

are:

`Linear:`

subdivides linearly the elements of the map among the available processes. This is the simplex map.

`Cartesian2D:`

this map contains`nx`

`ny`

nodes, and corresponds to a Cartesian grid in the (X,Y) plane. The nodes are ordered along the X-axis first. If more than one processor is used, then the grid is partitioned into`mx`

`my`

subdomains. Note that`mx`

`my`

must be the total number of processors in the communicator.

`Cartesian3D:`

for maps corresponding to a 3D Cartesian grid. The number of nodes along the Z-axis is specified by parameter`nz`

, and the number of processes along the Z-axis by parameter`mz`

;

`Interlaced:`

Elements are subdivided so that element`i`

is assigned to process`i%NumProcs`

`Random:`

assigns each node to a random processor.

Generated on Tue Oct 20 12:50:35 2009 for Galeri by 1.4.7