The two additional functions introduced in this section can be used to implement all other topology functions. In general they will not be called by the user directly, unless he or she is creating additional virtual topology capability other than that provided by MPI.

MPI_CART_MAP(comm, ndims, dims, periods, newrank) | |

IN comm | input communicator (handle) |

IN ndims | number of dimensions of Cartesian structure (integer) |

IN dims | integer array of size ndims specifying the number of processes in each coordinate direction |

IN periods | logical array of size ndims specifying the periodicity specification in each coordinate direction |

OUT newrank | reordered rank of the calling process; MPI_UNDEFINED if calling process does not belong to grid (integer) |

` int MPI_Cart_map(MPI_Comm comm, int ndims, int *dims, int *periods, int *newrank) `

` MPI_CART_MAP(COMM, NDIMS, DIMS, PERIODS, NEWRANK, IERROR) INTEGER COMM, NDIMS, DIMS(*), NEWRANK, IERROR LOGICAL PERIODS(*) `

* Advice
to implementors.*

The function MPI_CART_CREATE(comm, ndims, dims,
periods, reorder, comm_cart), with ` reorder = true` can be implemented by
calling
MPI_CART_MAP(comm, ndims, dims, periods, newrank), then calling

MPI_COMM_SPLIT(comm, color, key, comm_cart), with
` color = 0` if ` newrank
MPI_UNDEFINED`,

The function MPI_CART_SUB(comm, remain_dims, comm_new) can be
implemented by a call to MPI_COMM_SPLIT(comm, color, key, comm_new),
using a single number encoding of the lost dimensions as ` color` and a
single number encoding of the preserved dimensions as ` key`.

All other Cartesian topology functions can be implemented locally, using
the topology information that is cached with the communicator.
(* End of advice to implementors.*)

The corresponding new function for general graph structures is as follows.

MPI_GRAPH_MAP(comm, nnodes, index, edges, newrank) | |

IN comm | input communicator (handle) |

IN nnodes | number of graph nodes (integer) |

IN index | integer array specifying the graph structure, see MPI_GRAPH_CREATE |

IN edges | integer array specifying the graph structure |

OUT newrank | reordered rank of the calling process; MPI_UNDEFINED if the calling process does not belong to graph (integer) |

` int MPI_Graph_map(MPI_Comm comm, int nnodes, int *index, int *edges, int *newrank) `

` MPI_GRAPH_MAP(COMM, NNODES, INDEX, EDGES, NEWRANK, IERROR) INTEGER COMM, NNODES, INDEX(*), EDGES(*), NEWRANK, IERROR `

The function MPI_GRAPH_CREATE(comm, nnodes, index, edges,
reorder, comm_graph),
with ` reorder = true` can be implemented by calling
MPI_GRAPH_MAP(comm, nnodes, index, edges, newrank),
then calling

MPI_COMM_SPLIT(comm, color, key, comm_graph), with ` color = 0`
if ` newrank
MPI_UNDEFINED`,

All other graph topology functions can be implemented locally, using the
topology information that is cached with the communicator.
(* End of advice to implementors.*)

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