#include /*I "petscdmplex.h" I*/ PetscClassId PETSCPARTITIONER_CLASSID = 0; PetscFunctionList PetscPartitionerList = NULL; PetscBool PetscPartitionerRegisterAllCalled = PETSC_FALSE; PetscBool ChacoPartitionercite = PETSC_FALSE; const char ChacoPartitionerCitation[] = "@inproceedings{Chaco95,\n" " author = {Bruce Hendrickson and Robert Leland},\n" " title = {A multilevel algorithm for partitioning graphs},\n" " booktitle = {Supercomputing '95: Proceedings of the 1995 ACM/IEEE Conference on Supercomputing (CDROM)}," " isbn = {0-89791-816-9},\n" " pages = {28},\n" " doi = {http://doi.acm.org/10.1145/224170.224228},\n" " publisher = {ACM Press},\n" " address = {New York},\n" " year = {1995}\n}\n"; PetscBool ParMetisPartitionercite = PETSC_FALSE; const char ParMetisPartitionerCitation[] = "@article{KarypisKumar98,\n" " author = {George Karypis and Vipin Kumar},\n" " title = {A Parallel Algorithm for Multilevel Graph Partitioning and Sparse Matrix Ordering},\n" " journal = {Journal of Parallel and Distributed Computing},\n" " volume = {48},\n" " pages = {71--85},\n" " year = {1998}\n}\n"; #undef __FUNCT__ #define __FUNCT__ "DMPlexCreatePartitionerGraph" /*@C DMPlexCreatePartitionerGraph - Create a CSR graph of point connections for the partitioner Input Parameters: + dm - The mesh DM dm - height - Height of the strata from which to construct the graph Output Parameter: + numVertices - Number of vertices in the graph - offsets - Point offsets in the graph - adjacency - Point connectivity in the graph The user can control the definition of adjacency for the mesh using DMPlexGetAdjacencyUseCone() and DMPlexSetAdjacencyUseClosure(). They should choose the combination appropriate for the function representation on the mesh. Level: developer .seealso: PetscPartitionerGetType(), PetscPartitionerCreate(), DMPlexSetAdjacencyUseCone(), DMPlexSetAdjacencyUseClosure() @*/ PetscErrorCode DMPlexCreatePartitionerGraph(DM dm, PetscInt height, PetscInt *numVertices, PetscInt **offsets, PetscInt **adjacency) { PetscInt p, pStart, pEnd, a, adjSize, idx, size, nroots; PetscInt *adj = NULL, *vOffsets = NULL, *graph = NULL; IS cellNumbering; const PetscInt *cellNum; PetscBool useCone, useClosure; PetscSection section; PetscSegBuffer adjBuffer; PetscSF sfPoint; PetscMPIInt rank; PetscErrorCode ierr; PetscFunctionBegin; ierr = MPI_Comm_rank(PetscObjectComm((PetscObject) dm), &rank);CHKERRQ(ierr); ierr = DMPlexGetHeightStratum(dm, height, &pStart, &pEnd);CHKERRQ(ierr); ierr = DMGetPointSF(dm, &sfPoint);CHKERRQ(ierr); ierr = PetscSFGetGraph(sfPoint, &nroots, NULL, NULL, NULL);CHKERRQ(ierr); /* Build adjacency graph via a section/segbuffer */ ierr = PetscSectionCreate(PetscObjectComm((PetscObject) dm), §ion);CHKERRQ(ierr); ierr = PetscSectionSetChart(section, pStart, pEnd);CHKERRQ(ierr); ierr = PetscSegBufferCreate(sizeof(PetscInt),1000,&adjBuffer);CHKERRQ(ierr); /* Always use FVM adjacency to create partitioner graph */ ierr = DMPlexGetAdjacencyUseCone(dm, &useCone);CHKERRQ(ierr); ierr = DMPlexGetAdjacencyUseClosure(dm, &useClosure);CHKERRQ(ierr); ierr = DMPlexSetAdjacencyUseCone(dm, PETSC_TRUE);CHKERRQ(ierr); ierr = DMPlexSetAdjacencyUseClosure(dm, PETSC_FALSE);CHKERRQ(ierr); if (nroots > 0) { ierr = DMPlexGetCellNumbering(dm, &cellNumbering);CHKERRQ(ierr); ierr = ISGetIndices(cellNumbering, &cellNum);CHKERRQ(ierr); } for (*numVertices = 0, p = pStart; p < pEnd; p++) { /* Skip non-owned cells in parallel (ParMetis expects no overlap) */ if (nroots > 0) {if (cellNum[p] < 0) continue;} adjSize = PETSC_DETERMINE; ierr = DMPlexGetAdjacency(dm, p, &adjSize, &adj);CHKERRQ(ierr); for (a = 0; a < adjSize; ++a) { const PetscInt point = adj[a]; if (point != p && pStart <= point && point < pEnd) { PetscInt *PETSC_RESTRICT pBuf; ierr = PetscSectionAddDof(section, p, 1);CHKERRQ(ierr); ierr = PetscSegBufferGetInts(adjBuffer, 1, &pBuf);CHKERRQ(ierr); *pBuf = point; } } (*numVertices)++; } ierr = DMPlexSetAdjacencyUseCone(dm, useCone);CHKERRQ(ierr); ierr = DMPlexSetAdjacencyUseClosure(dm, useClosure);CHKERRQ(ierr); /* Derive CSR graph from section/segbuffer */ ierr = PetscSectionSetUp(section);CHKERRQ(ierr); ierr = PetscSectionGetStorageSize(section, &size);CHKERRQ(ierr); ierr = PetscMalloc1(*numVertices+1, &vOffsets);CHKERRQ(ierr); for (idx = 0, p = pStart; p < pEnd; p++) { if (nroots > 0) {if (cellNum[p] < 0) continue;} ierr = PetscSectionGetOffset(section, p, &(vOffsets[idx++]));CHKERRQ(ierr); } vOffsets[*numVertices] = size; if (offsets) *offsets = vOffsets; ierr = PetscSegBufferExtractAlloc(adjBuffer, &graph);CHKERRQ(ierr); if (nroots > 0) { ISLocalToGlobalMapping ltogCells; PetscInt n, size, *cells_arr; /* In parallel, apply a global cell numbering to the graph */ ierr = ISRestoreIndices(cellNumbering, &cellNum);CHKERRQ(ierr); ierr = ISLocalToGlobalMappingCreateIS(cellNumbering, <ogCells);CHKERRQ(ierr); ierr = ISLocalToGlobalMappingGetSize(ltogCells, &size);CHKERRQ(ierr); ierr = ISLocalToGlobalMappingGetIndices(ltogCells, (const PetscInt**)&cells_arr);CHKERRQ(ierr); /* Convert to positive global cell numbers */ for (n=0; n= maxFaceCases) SETERRQ(PetscObjectComm((PetscObject)dm), PETSC_ERR_PLIB, "Exceeded maximum number of face recognition cases"); cornersSeen[corners] = 1; ierr = DMPlexGetNumFaceVertices(dm, cellDim, corners, &nFV);CHKERRQ(ierr); numFaceVertices[numFaceCases++] = nFV; } } } ierr = PetscCalloc1(numCells+1, &off);CHKERRQ(ierr); /* Count neighboring cells */ for (cell = cStart; cell < cEnd; ++cell) { PetscInt numNeighbors = PETSC_DETERMINE, n; ierr = DMPlexGetAdjacency_Internal(dm, cell, PETSC_TRUE, PETSC_FALSE, PETSC_FALSE, &numNeighbors, &neighborCells);CHKERRQ(ierr); /* Get meet with each cell, and check with recognizer (could optimize to check each pair only once) */ for (n = 0; n < numNeighbors; ++n) { PetscInt cellPair[2]; PetscBool found = faceDepth > 1 ? PETSC_TRUE : PETSC_FALSE; PetscInt meetSize = 0; const PetscInt *meet = NULL; cellPair[0] = cell; cellPair[1] = neighborCells[n]; if (cellPair[0] == cellPair[1]) continue; if (!found) { ierr = DMPlexGetMeet(dm, 2, cellPair, &meetSize, &meet);CHKERRQ(ierr); if (meetSize) { PetscInt f; for (f = 0; f < numFaceCases; ++f) { if (numFaceVertices[f] == meetSize) { found = PETSC_TRUE; break; } } } ierr = DMPlexRestoreMeet(dm, 2, cellPair, &meetSize, &meet);CHKERRQ(ierr); } if (found) ++off[cell-cStart+1]; } } /* Prefix sum */ for (cell = 1; cell <= numCells; ++cell) off[cell] += off[cell-1]; if (adjacency) { ierr = PetscMalloc1(off[numCells], &adj);CHKERRQ(ierr); /* Get neighboring cells */ for (cell = cStart; cell < cEnd; ++cell) { PetscInt numNeighbors = PETSC_DETERMINE, n; PetscInt cellOffset = 0; ierr = DMPlexGetAdjacency_Internal(dm, cell, PETSC_TRUE, PETSC_FALSE, PETSC_FALSE, &numNeighbors, &neighborCells);CHKERRQ(ierr); /* Get meet with each cell, and check with recognizer (could optimize to check each pair only once) */ for (n = 0; n < numNeighbors; ++n) { PetscInt cellPair[2]; PetscBool found = faceDepth > 1 ? PETSC_TRUE : PETSC_FALSE; PetscInt meetSize = 0; const PetscInt *meet = NULL; cellPair[0] = cell; cellPair[1] = neighborCells[n]; if (cellPair[0] == cellPair[1]) continue; if (!found) { ierr = DMPlexGetMeet(dm, 2, cellPair, &meetSize, &meet);CHKERRQ(ierr); if (meetSize) { PetscInt f; for (f = 0; f < numFaceCases; ++f) { if (numFaceVertices[f] == meetSize) { found = PETSC_TRUE; break; } } } ierr = DMPlexRestoreMeet(dm, 2, cellPair, &meetSize, &meet);CHKERRQ(ierr); } if (found) { adj[off[cell-cStart]+cellOffset] = neighborCells[n]; ++cellOffset; } } } } ierr = PetscFree(neighborCells);CHKERRQ(ierr); if (numVertices) *numVertices = numCells; if (offsets) *offsets = off; if (adjacency) *adjacency = adj; PetscFunctionReturn(0); } #undef __FUNCT__ #define __FUNCT__ "PetscPartitionerRegister" /*@C PetscPartitionerRegister - Adds a new PetscPartitioner implementation Not Collective Input Parameters: + name - The name of a new user-defined creation routine - create_func - The creation routine itself Notes: PetscPartitionerRegister() may be called multiple times to add several user-defined PetscPartitioners Sample usage: .vb PetscPartitionerRegister("my_part", MyPetscPartitionerCreate); .ve Then, your PetscPartitioner type can be chosen with the procedural interface via .vb PetscPartitionerCreate(MPI_Comm, PetscPartitioner *); PetscPartitionerSetType(PetscPartitioner, "my_part"); .ve or at runtime via the option .vb -petscpartitioner_type my_part .ve Level: advanced .keywords: PetscPartitioner, register .seealso: PetscPartitionerRegisterAll(), PetscPartitionerRegisterDestroy() @*/ PetscErrorCode PetscPartitionerRegister(const char sname[], PetscErrorCode (*function)(PetscPartitioner)) { PetscErrorCode ierr; PetscFunctionBegin; ierr = PetscFunctionListAdd(&PetscPartitionerList, sname, function);CHKERRQ(ierr); PetscFunctionReturn(0); } #undef __FUNCT__ #define __FUNCT__ "PetscPartitionerSetType" /*@C PetscPartitionerSetType - Builds a particular PetscPartitioner Collective on PetscPartitioner Input Parameters: + part - The PetscPartitioner object - name - The kind of partitioner Options Database Key: . -petscpartitioner_type - Sets the PetscPartitioner type; use -help for a list of available types Level: intermediate .keywords: PetscPartitioner, set, type .seealso: PetscPartitionerGetType(), PetscPartitionerCreate() @*/ PetscErrorCode PetscPartitionerSetType(PetscPartitioner part, PetscPartitionerType name) { PetscErrorCode (*r)(PetscPartitioner); PetscBool match; PetscErrorCode ierr; PetscFunctionBegin; PetscValidHeaderSpecific(part, PETSCPARTITIONER_CLASSID, 1); ierr = PetscObjectTypeCompare((PetscObject) part, name, &match);CHKERRQ(ierr); if (match) PetscFunctionReturn(0); ierr = PetscPartitionerRegisterAll();CHKERRQ(ierr); ierr = PetscFunctionListFind(PetscPartitionerList, name, &r);CHKERRQ(ierr); if (!r) SETERRQ1(PetscObjectComm((PetscObject) part), PETSC_ERR_ARG_UNKNOWN_TYPE, "Unknown PetscPartitioner type: %s", name); if (part->ops->destroy) { ierr = (*part->ops->destroy)(part);CHKERRQ(ierr); part->ops->destroy = NULL; } ierr = (*r)(part);CHKERRQ(ierr); ierr = PetscObjectChangeTypeName((PetscObject) part, name);CHKERRQ(ierr); PetscFunctionReturn(0); } #undef __FUNCT__ #define __FUNCT__ "PetscPartitionerGetType" /*@C PetscPartitionerGetType - Gets the PetscPartitioner type name (as a string) from the object. Not Collective Input Parameter: . part - The PetscPartitioner Output Parameter: . name - The PetscPartitioner type name Level: intermediate .keywords: PetscPartitioner, get, type, name .seealso: PetscPartitionerSetType(), PetscPartitionerCreate() @*/ PetscErrorCode PetscPartitionerGetType(PetscPartitioner part, PetscPartitionerType *name) { PetscErrorCode ierr; PetscFunctionBegin; PetscValidHeaderSpecific(part, PETSCPARTITIONER_CLASSID, 1); PetscValidPointer(name, 2); ierr = PetscPartitionerRegisterAll();CHKERRQ(ierr); *name = ((PetscObject) part)->type_name; PetscFunctionReturn(0); } #undef __FUNCT__ #define __FUNCT__ "PetscPartitionerView" /*@C PetscPartitionerView - Views a PetscPartitioner Collective on PetscPartitioner Input Parameter: + part - the PetscPartitioner object to view - v - the viewer Level: developer .seealso: PetscPartitionerDestroy() @*/ PetscErrorCode PetscPartitionerView(PetscPartitioner part, PetscViewer v) { PetscErrorCode ierr; PetscFunctionBegin; PetscValidHeaderSpecific(part, PETSCPARTITIONER_CLASSID, 1); if (!v) {ierr = PetscViewerASCIIGetStdout(PetscObjectComm((PetscObject) part), &v);CHKERRQ(ierr);} if (part->ops->view) {ierr = (*part->ops->view)(part, v);CHKERRQ(ierr);} PetscFunctionReturn(0); } #undef __FUNCT__ #define __FUNCT__ "PetscPartitionerSetTypeFromOptions_Internal" PetscErrorCode PetscPartitionerSetTypeFromOptions_Internal(PetscPartitioner part) { const char *defaultType; char name[256]; PetscBool flg; PetscErrorCode ierr; PetscFunctionBegin; PetscValidHeaderSpecific(part, PETSCPARTITIONER_CLASSID, 1); if (!((PetscObject) part)->type_name) defaultType = PETSCPARTITIONERCHACO; else defaultType = ((PetscObject) part)->type_name; ierr = PetscPartitionerRegisterAll();CHKERRQ(ierr); ierr = PetscObjectOptionsBegin((PetscObject) part);CHKERRQ(ierr); ierr = PetscOptionsFList("-petscpartitioner_type", "Graph partitioner", "PetscPartitionerSetType", PetscPartitionerList, defaultType, name, 256, &flg);CHKERRQ(ierr); if (flg) { ierr = PetscPartitionerSetType(part, name);CHKERRQ(ierr); } else if (!((PetscObject) part)->type_name) { ierr = PetscPartitionerSetType(part, defaultType);CHKERRQ(ierr); } ierr = PetscOptionsEnd();CHKERRQ(ierr); PetscFunctionReturn(0); } #undef __FUNCT__ #define __FUNCT__ "PetscPartitionerSetFromOptions" /*@ PetscPartitionerSetFromOptions - sets parameters in a PetscPartitioner from the options database Collective on PetscPartitioner Input Parameter: . part - the PetscPartitioner object to set options for Level: developer .seealso: PetscPartitionerView() @*/ PetscErrorCode PetscPartitionerSetFromOptions(PetscPartitioner part) { PetscErrorCode ierr; PetscFunctionBegin; PetscValidHeaderSpecific(part, PETSCPARTITIONER_CLASSID, 1); ierr = PetscPartitionerSetTypeFromOptions_Internal(part);CHKERRQ(ierr); ierr = PetscObjectOptionsBegin((PetscObject) part);CHKERRQ(ierr); if (part->ops->setfromoptions) {ierr = (*part->ops->setfromoptions)(part);CHKERRQ(ierr);} /* process any options handlers added with PetscObjectAddOptionsHandler() */ ierr = PetscObjectProcessOptionsHandlers((PetscObject) part);CHKERRQ(ierr); ierr = PetscOptionsEnd();CHKERRQ(ierr); ierr = PetscPartitionerViewFromOptions(part, NULL, "-petscpartitioner_view");CHKERRQ(ierr); PetscFunctionReturn(0); } #undef __FUNCT__ #define __FUNCT__ "PetscPartitionerSetUp" /*@C PetscPartitionerSetUp - Construct data structures for the PetscPartitioner Collective on PetscPartitioner Input Parameter: . part - the PetscPartitioner object to setup Level: developer .seealso: PetscPartitionerView(), PetscPartitionerDestroy() @*/ PetscErrorCode PetscPartitionerSetUp(PetscPartitioner part) { PetscErrorCode ierr; PetscFunctionBegin; PetscValidHeaderSpecific(part, PETSCPARTITIONER_CLASSID, 1); if (part->ops->setup) {ierr = (*part->ops->setup)(part);CHKERRQ(ierr);} PetscFunctionReturn(0); } #undef __FUNCT__ #define __FUNCT__ "PetscPartitionerDestroy" /*@ PetscPartitionerDestroy - Destroys a PetscPartitioner object Collective on PetscPartitioner Input Parameter: . part - the PetscPartitioner object to destroy Level: developer .seealso: PetscPartitionerView() @*/ PetscErrorCode PetscPartitionerDestroy(PetscPartitioner *part) { PetscErrorCode ierr; PetscFunctionBegin; if (!*part) PetscFunctionReturn(0); PetscValidHeaderSpecific((*part), PETSCPARTITIONER_CLASSID, 1); if (--((PetscObject)(*part))->refct > 0) {*part = 0; PetscFunctionReturn(0);} ((PetscObject) (*part))->refct = 0; if ((*part)->ops->destroy) {ierr = (*(*part)->ops->destroy)(*part);CHKERRQ(ierr);} ierr = PetscHeaderDestroy(part);CHKERRQ(ierr); PetscFunctionReturn(0); } #undef __FUNCT__ #define __FUNCT__ "PetscPartitionerCreate" /*@ PetscPartitionerCreate - Creates an empty PetscPartitioner object. The type can then be set with PetscPartitionerSetType(). Collective on MPI_Comm Input Parameter: . comm - The communicator for the PetscPartitioner object Output Parameter: . part - The PetscPartitioner object Level: beginner .seealso: PetscPartitionerSetType(), PETSCPARTITIONERCHACO, PETSCPARTITIONERPARMETIS, PETSCPARTITIONERSHELL, PETSCPARTITIONERSIMPLE @*/ PetscErrorCode PetscPartitionerCreate(MPI_Comm comm, PetscPartitioner *part) { PetscPartitioner p; PetscErrorCode ierr; PetscFunctionBegin; PetscValidPointer(part, 2); *part = NULL; ierr = PetscFVInitializePackage();CHKERRQ(ierr); ierr = PetscHeaderCreate(p, PETSCPARTITIONER_CLASSID, "PetscPartitioner", "Graph Partitioner", "PetscPartitioner", comm, PetscPartitionerDestroy, PetscPartitionerView);CHKERRQ(ierr); *part = p; PetscFunctionReturn(0); } #undef __FUNCT__ #define __FUNCT__ "PetscPartitionerPartition" /*@ PetscPartitionerPartition - Create a non-overlapping partition of the cells in the mesh Collective on DM Input Parameters: + part - The PetscPartitioner - dm - The mesh DM Output Parameters: + partSection - The PetscSection giving the division of points by partition - partition - The list of points by partition Note: Instead of cells, points at a given height can be partitioned by calling PetscPartitionerSetPointHeight() Level: developer .seealso DMPlexDistribute(), PetscPartitionerSetPointHeight(), PetscPartitionerCreate() @*/ PetscErrorCode PetscPartitionerPartition(PetscPartitioner part, DM dm, PetscSection partSection, IS *partition) { PetscMPIInt size; PetscErrorCode ierr; PetscFunctionBegin; PetscValidHeaderSpecific(part, PETSCPARTITIONER_CLASSID, 1); PetscValidHeaderSpecific(dm, DM_CLASSID, 2); PetscValidHeaderSpecific(partSection, PETSC_SECTION_CLASSID, 4); PetscValidPointer(partition, 5); ierr = MPI_Comm_size(PetscObjectComm((PetscObject) part), &size);CHKERRQ(ierr); if (size == 1) { PetscInt *points; PetscInt cStart, cEnd, c; ierr = DMPlexGetHeightStratum(dm, part->height, &cStart, &cEnd);CHKERRQ(ierr); ierr = PetscSectionSetChart(partSection, 0, size);CHKERRQ(ierr); ierr = PetscSectionSetDof(partSection, 0, cEnd-cStart);CHKERRQ(ierr); ierr = PetscSectionSetUp(partSection);CHKERRQ(ierr); ierr = PetscMalloc1(cEnd-cStart, &points);CHKERRQ(ierr); for (c = cStart; c < cEnd; ++c) points[c] = c; ierr = ISCreateGeneral(PetscObjectComm((PetscObject) part), cEnd-cStart, points, PETSC_OWN_POINTER, partition);CHKERRQ(ierr); PetscFunctionReturn(0); } if (part->height == 0) { PetscInt numVertices; PetscInt *start = NULL; PetscInt *adjacency = NULL; ierr = DMPlexCreatePartitionerGraph(dm, 0, &numVertices, &start, &adjacency);CHKERRQ(ierr); if (!part->ops->partition) SETERRQ(PetscObjectComm((PetscObject) part), PETSC_ERR_ARG_WRONGSTATE, "PetscPartitioner has no type"); ierr = (*part->ops->partition)(part, dm, size, numVertices, start, adjacency, partSection, partition);CHKERRQ(ierr); ierr = PetscFree(start);CHKERRQ(ierr); ierr = PetscFree(adjacency);CHKERRQ(ierr); } else SETERRQ1(PetscObjectComm((PetscObject) part), PETSC_ERR_ARG_OUTOFRANGE, "Invalid height %D for points to partition", part->height); PetscFunctionReturn(0); } #undef __FUNCT__ #define __FUNCT__ "PetscPartitionerDestroy_Shell" PetscErrorCode PetscPartitionerDestroy_Shell(PetscPartitioner part) { PetscPartitioner_Shell *p = (PetscPartitioner_Shell *) part->data; PetscErrorCode ierr; PetscFunctionBegin; ierr = PetscSectionDestroy(&p->section);CHKERRQ(ierr); ierr = ISDestroy(&p->partition);CHKERRQ(ierr); ierr = PetscFree(p);CHKERRQ(ierr); PetscFunctionReturn(0); } #undef __FUNCT__ #define __FUNCT__ "PetscPartitionerView_Shell_Ascii" PetscErrorCode PetscPartitionerView_Shell_Ascii(PetscPartitioner part, PetscViewer viewer) { PetscViewerFormat format; PetscErrorCode ierr; PetscFunctionBegin; ierr = PetscViewerGetFormat(viewer, &format);CHKERRQ(ierr); ierr = PetscViewerASCIIPrintf(viewer, "Shell Graph Partitioner:\n");CHKERRQ(ierr); PetscFunctionReturn(0); } #undef __FUNCT__ #define __FUNCT__ "PetscPartitionerView_Shell" PetscErrorCode PetscPartitionerView_Shell(PetscPartitioner part, PetscViewer viewer) { PetscBool iascii; PetscErrorCode ierr; PetscFunctionBegin; PetscValidHeaderSpecific(part, PETSCPARTITIONER_CLASSID, 1); PetscValidHeaderSpecific(viewer, PETSC_VIEWER_CLASSID, 2); ierr = PetscObjectTypeCompare((PetscObject) viewer, PETSCVIEWERASCII, &iascii);CHKERRQ(ierr); if (iascii) {ierr = PetscPartitionerView_Shell_Ascii(part, viewer);CHKERRQ(ierr);} PetscFunctionReturn(0); } #undef __FUNCT__ #define __FUNCT__ "PetscPartitionerPartition_Shell" PetscErrorCode PetscPartitionerPartition_Shell(PetscPartitioner part, DM dm, PetscInt nparts, PetscInt numVertices, PetscInt start[], PetscInt adjacency[], PetscSection partSection, IS *partition) { PetscPartitioner_Shell *p = (PetscPartitioner_Shell *) part->data; PetscInt np; PetscErrorCode ierr; PetscFunctionBegin; ierr = PetscSectionGetChart(p->section, NULL, &np);CHKERRQ(ierr); if (nparts != np) SETERRQ2(PETSC_COMM_SELF, PETSC_ERR_ARG_OUTOFRANGE, "Number of requested partitions %d != configured partitions %d", nparts, np); ierr = ISGetLocalSize(p->partition, &np);CHKERRQ(ierr); if (numVertices != np) SETERRQ2(PETSC_COMM_SELF, PETSC_ERR_ARG_OUTOFRANGE, "Number of input vertices %d != configured vertices %d", numVertices, np); ierr = PetscSectionCopy(p->section, partSection);CHKERRQ(ierr); *partition = p->partition; ierr = PetscObjectReference((PetscObject) p->partition);CHKERRQ(ierr); PetscFunctionReturn(0); } #undef __FUNCT__ #define __FUNCT__ "PetscPartitionerInitialize_Shell" PetscErrorCode PetscPartitionerInitialize_Shell(PetscPartitioner part) { PetscFunctionBegin; part->ops->view = PetscPartitionerView_Shell; part->ops->destroy = PetscPartitionerDestroy_Shell; part->ops->partition = PetscPartitionerPartition_Shell; PetscFunctionReturn(0); } /*MC PETSCPARTITIONERSHELL = "shell" - A PetscPartitioner object Level: intermediate .seealso: PetscPartitionerType, PetscPartitionerCreate(), PetscPartitionerSetType() M*/ #undef __FUNCT__ #define __FUNCT__ "PetscPartitionerCreate_Shell" PETSC_EXTERN PetscErrorCode PetscPartitionerCreate_Shell(PetscPartitioner part) { PetscPartitioner_Shell *p; PetscErrorCode ierr; PetscFunctionBegin; PetscValidHeaderSpecific(part, PETSCPARTITIONER_CLASSID, 1); ierr = PetscNewLog(part, &p);CHKERRQ(ierr); part->data = p; ierr = PetscPartitionerInitialize_Shell(part);CHKERRQ(ierr); PetscFunctionReturn(0); } #undef __FUNCT__ #define __FUNCT__ "PetscPartitionerShellSetPartition" /*@C PetscPartitionerShellSetPartition - Set an artifical partition for a mesh Collective on PART Input Parameters: + part - The PetscPartitioner . numProcs - The number of partitions . sizes - array of size numProcs (or NULL) providing the number of points in each partition - points - array of size sum(sizes) (may be NULL iff sizes is NULL) providing the partition each point belongs to Level: developer Notes: It is safe to free the sizes and points arrays after use in this routine. .seealso DMPlexDistribute(), PetscPartitionerCreate() @*/ PetscErrorCode PetscPartitionerShellSetPartition(PetscPartitioner part, PetscInt numProcs, const PetscInt sizes[], const PetscInt points[]) { PetscPartitioner_Shell *p = (PetscPartitioner_Shell *) part->data; PetscInt proc, numPoints; PetscErrorCode ierr; PetscFunctionBegin; PetscValidHeaderSpecific(part, PETSCPARTITIONER_CLASSID, 1); if (sizes) {PetscValidPointer(sizes, 3);} if (sizes) {PetscValidPointer(points, 4);} ierr = PetscSectionDestroy(&p->section);CHKERRQ(ierr); ierr = ISDestroy(&p->partition);CHKERRQ(ierr); ierr = PetscSectionCreate(PetscObjectComm((PetscObject) part), &p->section);CHKERRQ(ierr); ierr = PetscSectionSetChart(p->section, 0, numProcs);CHKERRQ(ierr); if (sizes) { for (proc = 0; proc < numProcs; ++proc) { ierr = PetscSectionSetDof(p->section, proc, sizes[proc]);CHKERRQ(ierr); } } ierr = PetscSectionSetUp(p->section);CHKERRQ(ierr); ierr = PetscSectionGetStorageSize(p->section, &numPoints);CHKERRQ(ierr); ierr = ISCreateGeneral(PetscObjectComm((PetscObject) part), numPoints, points, PETSC_COPY_VALUES, &p->partition);CHKERRQ(ierr); PetscFunctionReturn(0); } #undef __FUNCT__ #define __FUNCT__ "PetscPartitionerDestroy_Simple" PetscErrorCode PetscPartitionerDestroy_Simple(PetscPartitioner part) { PetscPartitioner_Simple *p = (PetscPartitioner_Simple *) part->data; PetscErrorCode ierr; PetscFunctionBegin; ierr = PetscFree(p);CHKERRQ(ierr); PetscFunctionReturn(0); } #undef __FUNCT__ #define __FUNCT__ "PetscPartitionerView_Simple_Ascii" PetscErrorCode PetscPartitionerView_Simple_Ascii(PetscPartitioner part, PetscViewer viewer) { PetscViewerFormat format; PetscErrorCode ierr; PetscFunctionBegin; ierr = PetscViewerGetFormat(viewer, &format);CHKERRQ(ierr); ierr = PetscViewerASCIIPrintf(viewer, "Simple Graph Partitioner:\n");CHKERRQ(ierr); PetscFunctionReturn(0); } #undef __FUNCT__ #define __FUNCT__ "PetscPartitionerView_Simple" PetscErrorCode PetscPartitionerView_Simple(PetscPartitioner part, PetscViewer viewer) { PetscBool iascii; PetscErrorCode ierr; PetscFunctionBegin; PetscValidHeaderSpecific(part, PETSCPARTITIONER_CLASSID, 1); PetscValidHeaderSpecific(viewer, PETSC_VIEWER_CLASSID, 2); ierr = PetscObjectTypeCompare((PetscObject) viewer, PETSCVIEWERASCII, &iascii);CHKERRQ(ierr); if (iascii) {ierr = PetscPartitionerView_Simple_Ascii(part, viewer);CHKERRQ(ierr);} PetscFunctionReturn(0); } #undef __FUNCT__ #define __FUNCT__ "PetscPartitionerPartition_Simple" PetscErrorCode PetscPartitionerPartition_Simple(PetscPartitioner part, DM dm, PetscInt nparts, PetscInt numVertices, PetscInt start[], PetscInt adjacency[], PetscSection partSection, IS *partition) { PetscInt np; PetscErrorCode ierr; PetscFunctionBegin; ierr = PetscSectionSetChart(partSection, 0, nparts);CHKERRQ(ierr); for (np = 0; np < nparts; ++np) {ierr = PetscSectionSetDof(partSection, np, numVertices/nparts + ((numVertices % nparts) > np));CHKERRQ(ierr);} ierr = PetscSectionSetUp(partSection);CHKERRQ(ierr); ierr = ISCreateStride(PETSC_COMM_SELF, numVertices, 0, 1, partition);CHKERRQ(ierr); PetscFunctionReturn(0); } #undef __FUNCT__ #define __FUNCT__ "PetscPartitionerInitialize_Simple" PetscErrorCode PetscPartitionerInitialize_Simple(PetscPartitioner part) { PetscFunctionBegin; part->ops->view = PetscPartitionerView_Simple; part->ops->destroy = PetscPartitionerDestroy_Simple; part->ops->partition = PetscPartitionerPartition_Simple; PetscFunctionReturn(0); } /*MC PETSCPARTITIONERSIMPLE = "simple" - A PetscPartitioner object Level: intermediate .seealso: PetscPartitionerType, PetscPartitionerCreate(), PetscPartitionerSetType() M*/ #undef __FUNCT__ #define __FUNCT__ "PetscPartitionerCreate_Simple" PETSC_EXTERN PetscErrorCode PetscPartitionerCreate_Simple(PetscPartitioner part) { PetscPartitioner_Simple *p; PetscErrorCode ierr; PetscFunctionBegin; PetscValidHeaderSpecific(part, PETSCPARTITIONER_CLASSID, 1); ierr = PetscNewLog(part, &p);CHKERRQ(ierr); part->data = p; ierr = PetscPartitionerInitialize_Simple(part);CHKERRQ(ierr); PetscFunctionReturn(0); } #undef __FUNCT__ #define __FUNCT__ "PetscPartitionerDestroy_Chaco" PetscErrorCode PetscPartitionerDestroy_Chaco(PetscPartitioner part) { PetscPartitioner_Chaco *p = (PetscPartitioner_Chaco *) part->data; PetscErrorCode ierr; PetscFunctionBegin; ierr = PetscFree(p);CHKERRQ(ierr); PetscFunctionReturn(0); } #undef __FUNCT__ #define __FUNCT__ "PetscPartitionerView_Chaco_Ascii" PetscErrorCode PetscPartitionerView_Chaco_Ascii(PetscPartitioner part, PetscViewer viewer) { PetscViewerFormat format; PetscErrorCode ierr; PetscFunctionBegin; ierr = PetscViewerGetFormat(viewer, &format);CHKERRQ(ierr); ierr = PetscViewerASCIIPrintf(viewer, "Chaco Graph Partitioner:\n");CHKERRQ(ierr); PetscFunctionReturn(0); } #undef __FUNCT__ #define __FUNCT__ "PetscPartitionerView_Chaco" PetscErrorCode PetscPartitionerView_Chaco(PetscPartitioner part, PetscViewer viewer) { PetscBool iascii; PetscErrorCode ierr; PetscFunctionBegin; PetscValidHeaderSpecific(part, PETSCPARTITIONER_CLASSID, 1); PetscValidHeaderSpecific(viewer, PETSC_VIEWER_CLASSID, 2); ierr = PetscObjectTypeCompare((PetscObject) viewer, PETSCVIEWERASCII, &iascii);CHKERRQ(ierr); if (iascii) {ierr = PetscPartitionerView_Chaco_Ascii(part, viewer);CHKERRQ(ierr);} PetscFunctionReturn(0); } #if defined(PETSC_HAVE_CHACO) #if defined(PETSC_HAVE_UNISTD_H) #include #endif /* Chaco does not have an include file */ PETSC_EXTERN int interface(int nvtxs, int *start, int *adjacency, int *vwgts, float *ewgts, float *x, float *y, float *z, char *outassignname, char *outfilename, short *assignment, int architecture, int ndims_tot, int mesh_dims[3], double *goal, int global_method, int local_method, int rqi_flag, int vmax, int ndims, double eigtol, long seed); extern int FREE_GRAPH; #endif #undef __FUNCT__ #define __FUNCT__ "PetscPartitionerPartition_Chaco" PetscErrorCode PetscPartitionerPartition_Chaco(PetscPartitioner part, DM dm, PetscInt nparts, PetscInt numVertices, PetscInt start[], PetscInt adjacency[], PetscSection partSection, IS *partition) { #if defined(PETSC_HAVE_CHACO) enum {DEFAULT_METHOD = 1, INERTIAL_METHOD = 3}; MPI_Comm comm; int nvtxs = numVertices; /* number of vertices in full graph */ int *vwgts = NULL; /* weights for all vertices */ float *ewgts = NULL; /* weights for all edges */ float *x = NULL, *y = NULL, *z = NULL; /* coordinates for inertial method */ char *outassignname = NULL; /* name of assignment output file */ char *outfilename = NULL; /* output file name */ int architecture = 1; /* 0 => hypercube, d => d-dimensional mesh */ int ndims_tot = 0; /* total number of cube dimensions to divide */ int mesh_dims[3]; /* dimensions of mesh of processors */ double *goal = NULL; /* desired set sizes for each set */ int global_method = 1; /* global partitioning algorithm */ int local_method = 1; /* local partitioning algorithm */ int rqi_flag = 0; /* should I use RQI/Symmlq eigensolver? */ int vmax = 200; /* how many vertices to coarsen down to? */ int ndims = 1; /* number of eigenvectors (2^d sets) */ double eigtol = 0.001; /* tolerance on eigenvectors */ long seed = 123636512; /* for random graph mutations */ short int *assignment; /* Output partition */ int fd_stdout, fd_pipe[2]; PetscInt *points; int i, v, p; PetscErrorCode ierr; PetscFunctionBegin; ierr = PetscObjectGetComm((PetscObject)dm,&comm);CHKERRQ(ierr); if (!numVertices) { ierr = PetscSectionSetChart(partSection, 0, nparts);CHKERRQ(ierr); ierr = PetscSectionSetUp(partSection);CHKERRQ(ierr); ierr = ISCreateGeneral(comm, 0, NULL, PETSC_OWN_POINTER, partition);CHKERRQ(ierr); PetscFunctionReturn(0); } FREE_GRAPH = 0; /* Do not let Chaco free my memory */ for (i = 0; i < start[numVertices]; ++i) ++adjacency[i]; if (global_method == INERTIAL_METHOD) { /* manager.createCellCoordinates(nvtxs, &x, &y, &z); */ SETERRQ(comm, PETSC_ERR_SUP, "Inertial partitioning not yet supported"); } mesh_dims[0] = nparts; mesh_dims[1] = 1; mesh_dims[2] = 1; ierr = PetscMalloc1(nvtxs, &assignment);CHKERRQ(ierr); /* Chaco outputs to stdout. We redirect this to a buffer. */ /* TODO: check error codes for UNIX calls */ #if defined(PETSC_HAVE_UNISTD_H) { int piperet; piperet = pipe(fd_pipe); if (piperet) SETERRQ(comm,PETSC_ERR_SYS,"Could not create pipe"); fd_stdout = dup(1); close(1); dup2(fd_pipe[1], 1); } #endif ierr = interface(nvtxs, (int*) start, (int*) adjacency, vwgts, ewgts, x, y, z, outassignname, outfilename, assignment, architecture, ndims_tot, mesh_dims, goal, global_method, local_method, rqi_flag, vmax, ndims, eigtol, seed); #if defined(PETSC_HAVE_UNISTD_H) { char msgLog[10000]; int count; fflush(stdout); count = read(fd_pipe[0], msgLog, (10000-1)*sizeof(char)); if (count < 0) count = 0; msgLog[count] = 0; close(1); dup2(fd_stdout, 1); close(fd_stdout); close(fd_pipe[0]); close(fd_pipe[1]); if (ierr) SETERRQ1(comm, PETSC_ERR_LIB, "Error in Chaco library: %s", msgLog); } #endif /* Convert to PetscSection+IS */ ierr = PetscSectionSetChart(partSection, 0, nparts);CHKERRQ(ierr); for (v = 0; v < nvtxs; ++v) { ierr = PetscSectionAddDof(partSection, assignment[v], 1);CHKERRQ(ierr); } ierr = PetscSectionSetUp(partSection);CHKERRQ(ierr); ierr = PetscMalloc1(nvtxs, &points);CHKERRQ(ierr); for (p = 0, i = 0; p < nparts; ++p) { for (v = 0; v < nvtxs; ++v) { if (assignment[v] == p) points[i++] = v; } } if (i != nvtxs) SETERRQ2(comm, PETSC_ERR_PLIB, "Number of points %D should be %D", i, nvtxs); ierr = ISCreateGeneral(comm, nvtxs, points, PETSC_OWN_POINTER, partition);CHKERRQ(ierr); if (global_method == INERTIAL_METHOD) { /* manager.destroyCellCoordinates(nvtxs, &x, &y, &z); */ } ierr = PetscFree(assignment);CHKERRQ(ierr); for (i = 0; i < start[numVertices]; ++i) --adjacency[i]; PetscFunctionReturn(0); #else SETERRQ(PetscObjectComm((PetscObject) part), PETSC_ERR_SUP, "Mesh partitioning needs external package support.\nPlease reconfigure with --download-chaco."); #endif } #undef __FUNCT__ #define __FUNCT__ "PetscPartitionerInitialize_Chaco" PetscErrorCode PetscPartitionerInitialize_Chaco(PetscPartitioner part) { PetscFunctionBegin; part->ops->view = PetscPartitionerView_Chaco; part->ops->destroy = PetscPartitionerDestroy_Chaco; part->ops->partition = PetscPartitionerPartition_Chaco; PetscFunctionReturn(0); } /*MC PETSCPARTITIONERCHACO = "chaco" - A PetscPartitioner object using the Chaco library Level: intermediate .seealso: PetscPartitionerType, PetscPartitionerCreate(), PetscPartitionerSetType() M*/ #undef __FUNCT__ #define __FUNCT__ "PetscPartitionerCreate_Chaco" PETSC_EXTERN PetscErrorCode PetscPartitionerCreate_Chaco(PetscPartitioner part) { PetscPartitioner_Chaco *p; PetscErrorCode ierr; PetscFunctionBegin; PetscValidHeaderSpecific(part, PETSCPARTITIONER_CLASSID, 1); ierr = PetscNewLog(part, &p);CHKERRQ(ierr); part->data = p; ierr = PetscPartitionerInitialize_Chaco(part);CHKERRQ(ierr); ierr = PetscCitationsRegister(ChacoPartitionerCitation, &ChacoPartitionercite);CHKERRQ(ierr); PetscFunctionReturn(0); } #undef __FUNCT__ #define __FUNCT__ "PetscPartitionerDestroy_ParMetis" PetscErrorCode PetscPartitionerDestroy_ParMetis(PetscPartitioner part) { PetscPartitioner_ParMetis *p = (PetscPartitioner_ParMetis *) part->data; PetscErrorCode ierr; PetscFunctionBegin; ierr = PetscFree(p);CHKERRQ(ierr); PetscFunctionReturn(0); } #undef __FUNCT__ #define __FUNCT__ "PetscPartitionerView_ParMetis_Ascii" PetscErrorCode PetscPartitionerView_ParMetis_Ascii(PetscPartitioner part, PetscViewer viewer) { PetscViewerFormat format; PetscErrorCode ierr; PetscFunctionBegin; ierr = PetscViewerGetFormat(viewer, &format);CHKERRQ(ierr); ierr = PetscViewerASCIIPrintf(viewer, "ParMetis Graph Partitioner:\n");CHKERRQ(ierr); PetscFunctionReturn(0); } #undef __FUNCT__ #define __FUNCT__ "PetscPartitionerView_ParMetis" PetscErrorCode PetscPartitionerView_ParMetis(PetscPartitioner part, PetscViewer viewer) { PetscBool iascii; PetscErrorCode ierr; PetscFunctionBegin; PetscValidHeaderSpecific(part, PETSCPARTITIONER_CLASSID, 1); PetscValidHeaderSpecific(viewer, PETSC_VIEWER_CLASSID, 2); ierr = PetscObjectTypeCompare((PetscObject) viewer, PETSCVIEWERASCII, &iascii);CHKERRQ(ierr); if (iascii) {ierr = PetscPartitionerView_ParMetis_Ascii(part, viewer);CHKERRQ(ierr);} PetscFunctionReturn(0); } #if defined(PETSC_HAVE_PARMETIS) #include #endif #undef __FUNCT__ #define __FUNCT__ "PetscPartitionerPartition_ParMetis" PetscErrorCode PetscPartitionerPartition_ParMetis(PetscPartitioner part, DM dm, PetscInt nparts, PetscInt numVertices, PetscInt start[], PetscInt adjacency[], PetscSection partSection, IS *partition) { #if defined(PETSC_HAVE_PARMETIS) MPI_Comm comm; PetscInt nvtxs = numVertices; /* The number of vertices in full graph */ PetscInt *vtxdist; /* Distribution of vertices across processes */ PetscInt *xadj = start; /* Start of edge list for each vertex */ PetscInt *adjncy = adjacency; /* Edge lists for all vertices */ PetscInt *vwgt = NULL; /* Vertex weights */ PetscInt *adjwgt = NULL; /* Edge weights */ PetscInt wgtflag = 0; /* Indicates which weights are present */ PetscInt numflag = 0; /* Indicates initial offset (0 or 1) */ PetscInt ncon = 1; /* The number of weights per vertex */ PetscReal *tpwgts; /* The fraction of vertex weights assigned to each partition */ PetscReal *ubvec; /* The balance intolerance for vertex weights */ PetscInt options[5]; /* Options */ /* Outputs */ PetscInt edgeCut; /* The number of edges cut by the partition */ PetscInt *assignment, *points; PetscMPIInt rank, p, v, i; PetscErrorCode ierr; PetscFunctionBegin; ierr = PetscObjectGetComm((PetscObject) part, &comm);CHKERRQ(ierr); ierr = MPI_Comm_rank(comm, &rank);CHKERRQ(ierr); options[0] = 0; /* Use all defaults */ /* Calculate vertex distribution */ ierr = PetscMalloc4(nparts+1,&vtxdist,nparts*ncon,&tpwgts,ncon,&ubvec,nvtxs,&assignment);CHKERRQ(ierr); vtxdist[0] = 0; ierr = MPI_Allgather(&nvtxs, 1, MPIU_INT, &vtxdist[1], 1, MPIU_INT, comm);CHKERRQ(ierr); for (p = 2; p <= nparts; ++p) { vtxdist[p] += vtxdist[p-1]; } /* Calculate weights */ for (p = 0; p < nparts; ++p) { tpwgts[p] = 1.0/nparts; } ubvec[0] = 1.05; if (nparts == 1) { ierr = PetscMemzero(assignment, nvtxs * sizeof(PetscInt)); } else { if (vtxdist[1] == vtxdist[nparts]) { if (!rank) { PetscStackPush("METIS_PartGraphKway"); ierr = METIS_PartGraphKway(&nvtxs, &ncon, xadj, adjncy, vwgt, NULL, adjwgt, &nparts, tpwgts, ubvec, NULL, &edgeCut, assignment); PetscStackPop; if (ierr != METIS_OK) SETERRQ(PETSC_COMM_SELF, PETSC_ERR_LIB, "Error in METIS_PartGraphKway()"); } } else { PetscStackPush("ParMETIS_V3_PartKway"); ierr = ParMETIS_V3_PartKway(vtxdist, xadj, adjncy, vwgt, adjwgt, &wgtflag, &numflag, &ncon, &nparts, tpwgts, ubvec, options, &edgeCut, assignment, &comm); PetscStackPop; if (ierr != METIS_OK) SETERRQ(PETSC_COMM_SELF, PETSC_ERR_LIB, "Error in ParMETIS_V3_PartKway()"); } } /* Convert to PetscSection+IS */ ierr = PetscSectionSetChart(partSection, 0, nparts);CHKERRQ(ierr); for (v = 0; v < nvtxs; ++v) {ierr = PetscSectionAddDof(partSection, assignment[v], 1);CHKERRQ(ierr);} ierr = PetscSectionSetUp(partSection);CHKERRQ(ierr); ierr = PetscMalloc1(nvtxs, &points);CHKERRQ(ierr); for (p = 0, i = 0; p < nparts; ++p) { for (v = 0; v < nvtxs; ++v) { if (assignment[v] == p) points[i++] = v; } } if (i != nvtxs) SETERRQ2(comm, PETSC_ERR_PLIB, "Number of points %D should be %D", i, nvtxs); ierr = ISCreateGeneral(comm, nvtxs, points, PETSC_OWN_POINTER, partition);CHKERRQ(ierr); ierr = PetscFree4(vtxdist,tpwgts,ubvec,assignment);CHKERRQ(ierr); PetscFunctionReturn(0); #else SETERRQ(PetscObjectComm((PetscObject) part), PETSC_ERR_SUP, "Mesh partitioning needs external package support.\nPlease reconfigure with --download-parmetis."); #endif } #undef __FUNCT__ #define __FUNCT__ "PetscPartitionerInitialize_ParMetis" PetscErrorCode PetscPartitionerInitialize_ParMetis(PetscPartitioner part) { PetscFunctionBegin; part->ops->view = PetscPartitionerView_ParMetis; part->ops->destroy = PetscPartitionerDestroy_ParMetis; part->ops->partition = PetscPartitionerPartition_ParMetis; PetscFunctionReturn(0); } /*MC PETSCPARTITIONERPARMETIS = "parmetis" - A PetscPartitioner object using the ParMetis library Level: intermediate .seealso: PetscPartitionerType, PetscPartitionerCreate(), PetscPartitionerSetType() M*/ #undef __FUNCT__ #define __FUNCT__ "PetscPartitionerCreate_ParMetis" PETSC_EXTERN PetscErrorCode PetscPartitionerCreate_ParMetis(PetscPartitioner part) { PetscPartitioner_ParMetis *p; PetscErrorCode ierr; PetscFunctionBegin; PetscValidHeaderSpecific(part, PETSCPARTITIONER_CLASSID, 1); ierr = PetscNewLog(part, &p);CHKERRQ(ierr); part->data = p; ierr = PetscPartitionerInitialize_ParMetis(part);CHKERRQ(ierr); ierr = PetscCitationsRegister(ParMetisPartitionerCitation, &ParMetisPartitionercite);CHKERRQ(ierr); PetscFunctionReturn(0); } #undef __FUNCT__ #define __FUNCT__ "DMPlexGetPartitioner" /*@ DMPlexGetPartitioner - Get the mesh partitioner Not collective Input Parameter: . dm - The DM Output Parameter: . part - The PetscPartitioner Level: developer Note: This gets a borrowed reference, so the user should not destroy this PetscPartitioner. .seealso DMPlexDistribute(), DMPlexSetPartitioner(), PetscPartitionerCreate() @*/ PetscErrorCode DMPlexGetPartitioner(DM dm, PetscPartitioner *part) { DM_Plex *mesh = (DM_Plex *) dm->data; PetscFunctionBegin; PetscValidHeaderSpecific(dm, DM_CLASSID, 1); PetscValidPointer(part, 2); *part = mesh->partitioner; PetscFunctionReturn(0); } #undef __FUNCT__ #define __FUNCT__ "DMPlexSetPartitioner" /*@ DMPlexSetPartitioner - Set the mesh partitioner logically collective on dm and part Input Parameters: + dm - The DM - part - The partitioner Level: developer Note: Any existing PetscPartitioner will be destroyed. .seealso DMPlexDistribute(), DMPlexGetPartitioner(), PetscPartitionerCreate() @*/ PetscErrorCode DMPlexSetPartitioner(DM dm, PetscPartitioner part) { DM_Plex *mesh = (DM_Plex *) dm->data; PetscErrorCode ierr; PetscFunctionBegin; PetscValidHeaderSpecific(dm, DM_CLASSID, 1); PetscValidHeaderSpecific(part, PETSCPARTITIONER_CLASSID, 2); ierr = PetscObjectReference((PetscObject)part);CHKERRQ(ierr); ierr = PetscPartitionerDestroy(&mesh->partitioner);CHKERRQ(ierr); mesh->partitioner = part; PetscFunctionReturn(0); } #undef __FUNCT__ #define __FUNCT__ "DMPlexPartitionLabelClosure_Tree" static PetscErrorCode DMPlexPartitionLabelClosure_Tree(DM dm, DMLabel label, PetscInt rank, PetscInt point) { PetscInt parent, closureSize, *closure = NULL, i, pStart, pEnd; PetscErrorCode ierr; PetscFunctionBegin; ierr = DMPlexGetTreeParent(dm,point,&parent,NULL);CHKERRQ(ierr); if (parent == point) PetscFunctionReturn(0); ierr = DMPlexGetChart(dm,&pStart,&pEnd);CHKERRQ(ierr); ierr = DMPlexGetTransitiveClosure(dm,parent,PETSC_TRUE,&closureSize,&closure);CHKERRQ(ierr); for (i = 0; i < closureSize; i++) { PetscInt cpoint = closure[2*i]; ierr = DMLabelSetValue(label,cpoint,rank);CHKERRQ(ierr); ierr = DMPlexPartitionLabelClosure_Tree(dm,label,rank,cpoint);CHKERRQ(ierr); } ierr = DMPlexRestoreTransitiveClosure(dm,parent,PETSC_TRUE,&closureSize,&closure);CHKERRQ(ierr); PetscFunctionReturn(0); } #undef __FUNCT__ #define __FUNCT__ "DMPlexPartitionLabelClosure" /*@ DMPlexPartitionLabelClosure - Add the closure of all points to the partition label Input Parameters: + dm - The DM - label - DMLabel assinging ranks to remote roots Level: developer .seealso: DMPlexPartitionLabelCreateSF, DMPlexDistribute(), DMPlexCreateOverlap @*/ PetscErrorCode DMPlexPartitionLabelClosure(DM dm, DMLabel label) { IS rankIS, pointIS; const PetscInt *ranks, *points; PetscInt numRanks, numPoints, r, p, c, closureSize; PetscInt *closure = NULL; PetscErrorCode ierr; PetscFunctionBegin; ierr = DMLabelGetValueIS(label, &rankIS);CHKERRQ(ierr); ierr = ISGetLocalSize(rankIS, &numRanks);CHKERRQ(ierr); ierr = ISGetIndices(rankIS, &ranks);CHKERRQ(ierr); for (r = 0; r < numRanks; ++r) { const PetscInt rank = ranks[r]; ierr = DMLabelGetStratumIS(label, rank, &pointIS);CHKERRQ(ierr); ierr = ISGetLocalSize(pointIS, &numPoints);CHKERRQ(ierr); ierr = ISGetIndices(pointIS, &points);CHKERRQ(ierr); for (p = 0; p < numPoints; ++p) { ierr = DMPlexGetTransitiveClosure(dm, points[p], PETSC_TRUE, &closureSize, &closure);CHKERRQ(ierr); for (c = 0; c < closureSize*2; c += 2) { ierr = DMLabelSetValue(label, closure[c], rank);CHKERRQ(ierr); ierr = DMPlexPartitionLabelClosure_Tree(dm,label,rank,closure[c]);CHKERRQ(ierr); } } ierr = ISRestoreIndices(pointIS, &points);CHKERRQ(ierr); ierr = ISDestroy(&pointIS);CHKERRQ(ierr); } if (closure) {ierr = DMPlexRestoreTransitiveClosure(dm, 0, PETSC_TRUE, &closureSize, &closure);CHKERRQ(ierr);} ierr = ISRestoreIndices(rankIS, &ranks);CHKERRQ(ierr); ierr = ISDestroy(&rankIS);CHKERRQ(ierr); PetscFunctionReturn(0); } #undef __FUNCT__ #define __FUNCT__ "DMPlexPartitionLabelAdjacency" /*@ DMPlexPartitionLabelAdjacency - Add one level of adjacent points to the partition label Input Parameters: + dm - The DM - label - DMLabel assinging ranks to remote roots Level: developer .seealso: DMPlexPartitionLabelCreateSF, DMPlexDistribute(), DMPlexCreateOverlap @*/ PetscErrorCode DMPlexPartitionLabelAdjacency(DM dm, DMLabel label) { IS rankIS, pointIS; const PetscInt *ranks, *points; PetscInt numRanks, numPoints, r, p, a, adjSize; PetscInt *adj = NULL; PetscErrorCode ierr; PetscFunctionBegin; ierr = DMLabelGetValueIS(label, &rankIS);CHKERRQ(ierr); ierr = ISGetLocalSize(rankIS, &numRanks);CHKERRQ(ierr); ierr = ISGetIndices(rankIS, &ranks);CHKERRQ(ierr); for (r = 0; r < numRanks; ++r) { const PetscInt rank = ranks[r]; ierr = DMLabelGetStratumIS(label, rank, &pointIS);CHKERRQ(ierr); ierr = ISGetLocalSize(pointIS, &numPoints);CHKERRQ(ierr); ierr = ISGetIndices(pointIS, &points);CHKERRQ(ierr); for (p = 0; p < numPoints; ++p) { adjSize = PETSC_DETERMINE; ierr = DMPlexGetAdjacency(dm, points[p], &adjSize, &adj);CHKERRQ(ierr); for (a = 0; a < adjSize; ++a) {ierr = DMLabelSetValue(label, adj[a], rank);CHKERRQ(ierr);} } ierr = ISRestoreIndices(pointIS, &points);CHKERRQ(ierr); ierr = ISDestroy(&pointIS);CHKERRQ(ierr); } ierr = ISRestoreIndices(rankIS, &ranks);CHKERRQ(ierr); ierr = ISDestroy(&rankIS);CHKERRQ(ierr); ierr = PetscFree(adj);CHKERRQ(ierr); PetscFunctionReturn(0); } #undef __FUNCT__ #define __FUNCT__ "DMPlexPartitionLabelInvert" /*@ DMPlexPartitionLabelInvert - Create a partition label of remote roots from a local root label Input Parameters: + dm - The DM . rootLabel - DMLabel assinging ranks to local roots . processSF - A star forest mapping into the local index on each remote rank Output Parameter: - leafLabel - DMLabel assinging ranks to remote roots Note: The rootLabel defines a send pattern by mapping local points to remote target ranks. The resulting leafLabel is a receiver mapping of remote roots to their parent rank. Level: developer .seealso: DMPlexPartitionLabelCreateSF, DMPlexDistribute(), DMPlexCreateOverlap @*/ PetscErrorCode DMPlexPartitionLabelInvert(DM dm, DMLabel rootLabel, PetscSF processSF, DMLabel leafLabel) { MPI_Comm comm; PetscMPIInt rank, numProcs; PetscInt p, n, numNeighbors, size, l, nleaves; PetscSF sfPoint; PetscSFNode *rootPoints, *leafPoints; PetscSection rootSection, leafSection; const PetscSFNode *remote; const PetscInt *local, *neighbors; IS valueIS; PetscErrorCode ierr; PetscFunctionBegin; ierr = PetscObjectGetComm((PetscObject) dm, &comm);CHKERRQ(ierr); ierr = MPI_Comm_rank(comm, &rank);CHKERRQ(ierr); ierr = MPI_Comm_size(comm, &numProcs);CHKERRQ(ierr); ierr = DMGetPointSF(dm, &sfPoint);CHKERRQ(ierr); /* Convert to (point, rank) and use actual owners */ ierr = PetscSectionCreate(comm, &rootSection);CHKERRQ(ierr); ierr = PetscSectionSetChart(rootSection, 0, numProcs);CHKERRQ(ierr); ierr = DMLabelGetValueIS(rootLabel, &valueIS);CHKERRQ(ierr); ierr = ISGetLocalSize(valueIS, &numNeighbors);CHKERRQ(ierr); ierr = ISGetIndices(valueIS, &neighbors);CHKERRQ(ierr); for (n = 0; n < numNeighbors; ++n) { PetscInt numPoints; ierr = DMLabelGetStratumSize(rootLabel, neighbors[n], &numPoints);CHKERRQ(ierr); ierr = PetscSectionAddDof(rootSection, neighbors[n], numPoints);CHKERRQ(ierr); } ierr = PetscSectionSetUp(rootSection);CHKERRQ(ierr); ierr = PetscSectionGetStorageSize(rootSection, &size);CHKERRQ(ierr); ierr = PetscMalloc1(size, &rootPoints);CHKERRQ(ierr); ierr = PetscSFGetGraph(sfPoint, NULL, &nleaves, &local, &remote);CHKERRQ(ierr); for (n = 0; n < numNeighbors; ++n) { IS pointIS; const PetscInt *points; PetscInt off, numPoints, p; ierr = PetscSectionGetOffset(rootSection, neighbors[n], &off);CHKERRQ(ierr); ierr = DMLabelGetStratumIS(rootLabel, neighbors[n], &pointIS);CHKERRQ(ierr); ierr = ISGetLocalSize(pointIS, &numPoints);CHKERRQ(ierr); ierr = ISGetIndices(pointIS, &points);CHKERRQ(ierr); for (p = 0; p < numPoints; ++p) { if (local) {ierr = PetscFindInt(points[p], nleaves, local, &l);CHKERRQ(ierr);} else {l = -1;} if (l >= 0) {rootPoints[off+p] = remote[l];} else {rootPoints[off+p].index = points[p]; rootPoints[off+p].rank = rank;} } ierr = ISRestoreIndices(pointIS, &points);CHKERRQ(ierr); ierr = ISDestroy(&pointIS);CHKERRQ(ierr); } ierr = ISRestoreIndices(valueIS, &neighbors);CHKERRQ(ierr); ierr = ISDestroy(&valueIS);CHKERRQ(ierr); /* Communicate overlap */ ierr = PetscSectionCreate(comm, &leafSection);CHKERRQ(ierr); ierr = DMPlexDistributeData(dm, processSF, rootSection, MPIU_2INT, rootPoints, leafSection, (void**) &leafPoints);CHKERRQ(ierr); /* Filter remote contributions (ovLeafPoints) into the overlapSF */ ierr = PetscSectionGetStorageSize(leafSection, &size);CHKERRQ(ierr); for (p = 0; p < size; p++) { ierr = DMLabelSetValue(leafLabel, leafPoints[p].index, leafPoints[p].rank);CHKERRQ(ierr); } ierr = PetscFree(rootPoints);CHKERRQ(ierr); ierr = PetscSectionDestroy(&rootSection);CHKERRQ(ierr); ierr = PetscFree(leafPoints);CHKERRQ(ierr); ierr = PetscSectionDestroy(&leafSection);CHKERRQ(ierr); PetscFunctionReturn(0); } #undef __FUNCT__ #define __FUNCT__ "DMPlexPartitionLabelCreateSF" /*@ DMPlexPartitionLabelCreateSF - Create a star forest from a label that assigns ranks to points Input Parameters: + dm - The DM . label - DMLabel assinging ranks to remote roots Output Parameter: - sf - The star forest communication context encapsulating the defined mapping Note: The incoming label is a receiver mapping of remote points to their parent rank. Level: developer .seealso: DMPlexDistribute(), DMPlexCreateOverlap @*/ PetscErrorCode DMPlexPartitionLabelCreateSF(DM dm, DMLabel label, PetscSF *sf) { PetscMPIInt rank, numProcs; PetscInt n, numRemote, p, numPoints, pStart, pEnd, idx = 0; PetscSFNode *remotePoints; IS remoteRootIS; const PetscInt *remoteRoots; PetscErrorCode ierr; PetscFunctionBegin; ierr = MPI_Comm_rank(PetscObjectComm((PetscObject) dm), &rank);CHKERRQ(ierr); ierr = MPI_Comm_size(PetscObjectComm((PetscObject) dm), &numProcs);CHKERRQ(ierr); for (numRemote = 0, n = 0; n < numProcs; ++n) { ierr = DMLabelGetStratumSize(label, n, &numPoints);CHKERRQ(ierr); numRemote += numPoints; } ierr = PetscMalloc1(numRemote, &remotePoints);CHKERRQ(ierr); /* Put owned points first */ ierr = DMLabelGetStratumSize(label, rank, &numPoints);CHKERRQ(ierr); if (numPoints > 0) { ierr = DMLabelGetStratumIS(label, rank, &remoteRootIS);CHKERRQ(ierr); ierr = ISGetIndices(remoteRootIS, &remoteRoots);CHKERRQ(ierr); for (p = 0; p < numPoints; p++) { remotePoints[idx].index = remoteRoots[p]; remotePoints[idx].rank = rank; idx++; } ierr = ISRestoreIndices(remoteRootIS, &remoteRoots);CHKERRQ(ierr); ierr = ISDestroy(&remoteRootIS);CHKERRQ(ierr); } /* Now add remote points */ for (n = 0; n < numProcs; ++n) { ierr = DMLabelGetStratumSize(label, n, &numPoints);CHKERRQ(ierr); if (numPoints <= 0 || n == rank) continue; ierr = DMLabelGetStratumIS(label, n, &remoteRootIS);CHKERRQ(ierr); ierr = ISGetIndices(remoteRootIS, &remoteRoots);CHKERRQ(ierr); for (p = 0; p < numPoints; p++) { remotePoints[idx].index = remoteRoots[p]; remotePoints[idx].rank = n; idx++; } ierr = ISRestoreIndices(remoteRootIS, &remoteRoots);CHKERRQ(ierr); ierr = ISDestroy(&remoteRootIS);CHKERRQ(ierr); } ierr = PetscSFCreate(PetscObjectComm((PetscObject) dm), sf);CHKERRQ(ierr); ierr = DMPlexGetChart(dm, &pStart, &pEnd);CHKERRQ(ierr); ierr = PetscSFSetGraph(*sf, pEnd-pStart, numRemote, NULL, PETSC_OWN_POINTER, remotePoints, PETSC_OWN_POINTER);CHKERRQ(ierr); PetscFunctionReturn(0); }