1: #include <petsc/private/dmpleximpl.h>
  2: #include <petsc/private/petscfeimpl.h>

  4: #include <petscdmplextransform.h>
  5: #include <petscsf.h>

  7: /*@
  8:   DMPlexCreateProcessSF - Create an `PetscSF` which just has process connectivity

 10:   Collective

 12:   Input Parameters:
 13: + dm      - The `DM`
 14: - sfPoint - The `PetscSF` which encodes point connectivity

 16:   Output Parameters:
 17: + processRanks - A list of process neighbors, or `NULL`
 18: - sfProcess    - An `PetscSF` encoding the process connectivity, or `NULL`

 20:   Level: developer

 22: .seealso: [](ch_unstructured), `DM`, `DMPLEX`, `PetscSF`, `PetscSFCreate()`, `DMPlexCreateTwoSidedProcessSF()`
 23: @*/
 24: PetscErrorCode DMPlexCreateProcessSF(DM dm, PetscSF sfPoint, IS *processRanks, PetscSF *sfProcess)
 25: {
 26:   PetscInt           numRoots, numLeaves, l;
 27:   const PetscInt    *localPoints;
 28:   const PetscSFNode *remotePoints;
 29:   PetscInt          *localPointsNew;
 30:   PetscSFNode       *remotePointsNew;
 31:   PetscInt          *ranks, *ranksNew;
 32:   PetscMPIInt        size;

 34:   PetscFunctionBegin;
 37:   if (processRanks) PetscAssertPointer(processRanks, 3);
 38:   if (sfProcess) PetscAssertPointer(sfProcess, 4);
 39:   PetscCallMPI(MPI_Comm_size(PetscObjectComm((PetscObject)dm), &size));
 40:   PetscCall(PetscSFGetGraph(sfPoint, &numRoots, &numLeaves, &localPoints, &remotePoints));
 41:   PetscCall(PetscMalloc1(numLeaves, &ranks));
 42:   for (l = 0; l < numLeaves; ++l) ranks[l] = remotePoints[l].rank;
 43:   PetscCall(PetscSortRemoveDupsInt(&numLeaves, ranks));
 44:   PetscCall(PetscMalloc1(numLeaves, &ranksNew));
 45:   PetscCall(PetscMalloc1(numLeaves, &localPointsNew));
 46:   PetscCall(PetscMalloc1(numLeaves, &remotePointsNew));
 47:   for (l = 0; l < numLeaves; ++l) {
 48:     ranksNew[l]              = ranks[l];
 49:     localPointsNew[l]        = l;
 50:     remotePointsNew[l].index = 0;
 51:     remotePointsNew[l].rank  = ranksNew[l];
 52:   }
 53:   PetscCall(PetscFree(ranks));
 54:   if (processRanks) PetscCall(ISCreateGeneral(PetscObjectComm((PetscObject)dm), numLeaves, ranksNew, PETSC_OWN_POINTER, processRanks));
 55:   else PetscCall(PetscFree(ranksNew));
 56:   if (sfProcess) {
 57:     PetscCall(PetscSFCreate(PetscObjectComm((PetscObject)dm), sfProcess));
 58:     PetscCall(PetscObjectSetName((PetscObject)*sfProcess, "Process SF"));
 59:     PetscCall(PetscSFSetFromOptions(*sfProcess));
 60:     PetscCall(PetscSFSetGraph(*sfProcess, size, numLeaves, localPointsNew, PETSC_OWN_POINTER, remotePointsNew, PETSC_OWN_POINTER));
 61:   }
 62:   PetscFunctionReturn(PETSC_SUCCESS);
 63: }

 65: /*@
 66:   DMPlexCreateCoarsePointIS - Creates an `IS` covering the coarse `DM` chart with the fine points as data

 68:   Collective

 70:   Input Parameter:
 71: . dm - The coarse `DM`

 73:   Output Parameter:
 74: . fpointIS - The `IS` of all the fine points which exist in the original coarse mesh

 76:   Level: developer

 78: .seealso: [](ch_unstructured), `DM`, `DMPLEX`, `IS`, `DMRefine()`, `DMPlexSetRefinementUniform()`, `DMPlexGetSubpointIS()`
 79: @*/
 80: PetscErrorCode DMPlexCreateCoarsePointIS(DM dm, IS *fpointIS)
 81: {
 82:   DMPlexTransform tr;
 83:   PetscInt       *fpoints;
 84:   PetscInt        pStart, pEnd, p, vStart, vEnd, v;

 86:   PetscFunctionBegin;
 87:   PetscCall(DMPlexGetChart(dm, &pStart, &pEnd));
 88:   PetscCall(DMPlexGetDepthStratum(dm, 0, &vStart, &vEnd));
 89:   PetscCall(DMPlexTransformCreate(PetscObjectComm((PetscObject)dm), &tr));
 90:   PetscCall(DMPlexTransformSetUp(tr));
 91:   PetscCall(PetscMalloc1(pEnd - pStart, &fpoints));
 92:   for (p = 0; p < pEnd - pStart; ++p) fpoints[p] = -1;
 93:   for (v = vStart; v < vEnd; ++v) {
 94:     PetscInt vNew = -1; /* quiet overzealous may be used uninitialized check */

 96:     PetscCall(DMPlexTransformGetTargetPoint(tr, DM_POLYTOPE_POINT, DM_POLYTOPE_POINT, p, 0, &vNew));
 97:     fpoints[v - pStart] = vNew;
 98:   }
 99:   PetscCall(DMPlexTransformDestroy(&tr));
100:   PetscCall(ISCreateGeneral(PETSC_COMM_SELF, pEnd - pStart, fpoints, PETSC_OWN_POINTER, fpointIS));
101:   PetscFunctionReturn(PETSC_SUCCESS);
102: }

104: /*@C
105:   DMPlexSetTransformType - Set the transform type for uniform refinement

107:   Input Parameters:
108: + dm   - The `DM`
109: - type - The transform type for uniform refinement

111:   Level: developer

113: .seealso: [](ch_unstructured), `DM`, `DMPLEX`, `DMPlexTransformType`, `DMRefine()`, `DMPlexGetTransformType()`, `DMPlexSetRefinementUniform()`
114: @*/
115: PetscErrorCode DMPlexSetTransformType(DM dm, DMPlexTransformType type)
116: {
117:   DM_Plex *mesh = (DM_Plex *)dm->data;

119:   PetscFunctionBegin;
121:   if (type) PetscAssertPointer(type, 2);
122:   PetscCall(PetscFree(mesh->transformType));
123:   PetscCall(PetscStrallocpy(type, &mesh->transformType));
124:   PetscFunctionReturn(PETSC_SUCCESS);
125: }

127: /*@C
128:   DMPlexGetTransformType - Retrieve the transform type for uniform refinement

130:   Input Parameter:
131: . dm - The `DM`

133:   Output Parameter:
134: . type - The transform type for uniform refinement

136:   Level: developer

138: .seealso: [](ch_unstructured), `DM`, `DMPLEX`, `DMPlexTransformType`, `DMRefine()`, `DMPlexSetTransformType()`, `DMPlexGetRefinementUniform()`
139: @*/
140: PetscErrorCode DMPlexGetTransformType(DM dm, DMPlexTransformType *type)
141: {
142:   DM_Plex *mesh = (DM_Plex *)dm->data;

144:   PetscFunctionBegin;
146:   PetscAssertPointer(type, 2);
147:   *type = mesh->transformType;
148:   PetscFunctionReturn(PETSC_SUCCESS);
149: }

151: /*@
152:   DMPlexSetRefinementUniform - Set the flag for uniform refinement

154:   Input Parameters:
155: + dm                - The `DM`
156: - refinementUniform - The flag for uniform refinement

158:   Level: developer

160: .seealso: [](ch_unstructured), `DM`, `DMPLEX`, `DMRefine()`, `DMPlexGetRefinementUniform()`, `DMPlexGetRefinementLimit()`, `DMPlexSetRefinementLimit()`
161: @*/
162: PetscErrorCode DMPlexSetRefinementUniform(DM dm, PetscBool refinementUniform)
163: {
164:   DM_Plex *mesh = (DM_Plex *)dm->data;

166:   PetscFunctionBegin;
168:   mesh->refinementUniform = refinementUniform;
169:   PetscFunctionReturn(PETSC_SUCCESS);
170: }

172: /*@
173:   DMPlexGetRefinementUniform - Retrieve the flag for uniform refinement

175:   Input Parameter:
176: . dm - The `DM`

178:   Output Parameter:
179: . refinementUniform - The flag for uniform refinement

181:   Level: developer

183: .seealso: [](ch_unstructured), `DM`, `DMPLEX`, `DMRefine()`, `DMPlexSetRefinementUniform()`, `DMPlexGetRefinementLimit()`, `DMPlexSetRefinementLimit()`
184: @*/
185: PetscErrorCode DMPlexGetRefinementUniform(DM dm, PetscBool *refinementUniform)
186: {
187:   DM_Plex *mesh = (DM_Plex *)dm->data;

189:   PetscFunctionBegin;
191:   PetscAssertPointer(refinementUniform, 2);
192:   *refinementUniform = mesh->refinementUniform;
193:   PetscFunctionReturn(PETSC_SUCCESS);
194: }

196: /*@
197:   DMPlexSetRefinementLimit - Set the maximum cell volume for refinement

199:   Input Parameters:
200: + dm              - The `DM`
201: - refinementLimit - The maximum cell volume in the refined mesh

203:   Level: developer

205: .seealso: [](ch_unstructured), `DM`, `DMPLEX`, `DMRefine()`, `DMPlexGetRefinementLimit()`, `DMPlexGetRefinementUniform()`, `DMPlexSetRefinementUniform()`
206: @*/
207: PetscErrorCode DMPlexSetRefinementLimit(DM dm, PetscReal refinementLimit)
208: {
209:   DM_Plex *mesh = (DM_Plex *)dm->data;

211:   PetscFunctionBegin;
213:   mesh->refinementLimit = refinementLimit;
214:   PetscFunctionReturn(PETSC_SUCCESS);
215: }

217: /*@
218:   DMPlexGetRefinementLimit - Retrieve the maximum cell volume for refinement

220:   Input Parameter:
221: . dm - The `DM`

223:   Output Parameter:
224: . refinementLimit - The maximum cell volume in the refined mesh

226:   Level: developer

228: .seealso: [](ch_unstructured), `DM`, `DMPLEX`, `DMRefine()`, `DMPlexSetRefinementLimit()`, `DMPlexGetRefinementUniform()`, `DMPlexSetRefinementUniform()`
229: @*/
230: PetscErrorCode DMPlexGetRefinementLimit(DM dm, PetscReal *refinementLimit)
231: {
232:   DM_Plex *mesh = (DM_Plex *)dm->data;

234:   PetscFunctionBegin;
236:   PetscAssertPointer(refinementLimit, 2);
237:   /* if (mesh->refinementLimit < 0) = getMaxVolume()/2.0; */
238:   *refinementLimit = mesh->refinementLimit;
239:   PetscFunctionReturn(PETSC_SUCCESS);
240: }

242: /*@C
243:   DMPlexSetRefinementFunction - Set the function giving the maximum cell volume for refinement

245:   Input Parameters:
246: + dm             - The `DM`
247: - refinementFunc - Function giving the maximum cell volume in the refined mesh

249:   Calling Sequence of `refinementFunc`:
250: + coords - Coordinates of the current point, usually a cell centroid
251: - limit  - The maximum cell volume for a cell containing this point

253:   Level: developer

255: .seealso: [](ch_unstructured), `DM`, `DMPLEX`, `DMRefine()`, `DMPlexGetRefinementFunction()`, `DMPlexGetRefinementUniform()`, `DMPlexSetRefinementUniform()`, `DMPlexGetRefinementLimit()`, `DMPlexSetRefinementLimit()`
256: @*/
257: PetscErrorCode DMPlexSetRefinementFunction(DM dm, PetscErrorCode (*refinementFunc)(const PetscReal coords[], PetscReal *limit))
258: {
259:   DM_Plex *mesh = (DM_Plex *)dm->data;

261:   PetscFunctionBegin;
263:   mesh->refinementFunc = refinementFunc;
264:   PetscFunctionReturn(PETSC_SUCCESS);
265: }

267: /*@C
268:   DMPlexGetRefinementFunction - Get the function giving the maximum cell volume for refinement

270:   Input Parameter:
271: . dm - The `DM`

273:   Output Parameter:
274: . refinementFunc - Function giving the maximum cell volume in the refined mesh

276:   Calling Sequence of `refinementFunc`:
277: + coords - Coordinates of the current point, usually a cell centroid
278: - limit  - The maximum cell volume for a cell containing this point

280:   Level: developer

282: .seealso: [](ch_unstructured), `DM`, `DMPLEX`, `DMRefine()`, `DMPlexSetRefinementFunction()`, `DMPlexGetRefinementUniform()`, `DMPlexSetRefinementUniform()`, `DMPlexGetRefinementLimit()`, `DMPlexSetRefinementLimit()`
283: @*/
284: PetscErrorCode DMPlexGetRefinementFunction(DM dm, PetscErrorCode (**refinementFunc)(const PetscReal coords[], PetscReal *limit))
285: {
286:   DM_Plex *mesh = (DM_Plex *)dm->data;

288:   PetscFunctionBegin;
290:   PetscAssertPointer(refinementFunc, 2);
291:   *refinementFunc = mesh->refinementFunc;
292:   PetscFunctionReturn(PETSC_SUCCESS);
293: }

295: PetscErrorCode DMRefine_Plex(DM dm, MPI_Comm comm, DM *rdm)
296: {
297:   PetscBool isUniform;

299:   PetscFunctionBegin;
300:   PetscCall(DMPlexGetRefinementUniform(dm, &isUniform));
301:   PetscCall(DMViewFromOptions(dm, NULL, "-initref_dm_view"));
302:   if (isUniform) {
303:     DMPlexTransform     tr;
304:     DM                  cdm, rcdm;
305:     DMPlexTransformType trType;
306:     const char         *prefix;
307:     PetscOptions        options;
308:     PetscBool           useCeed;

310:     PetscCall(DMPlexTransformCreate(PetscObjectComm((PetscObject)dm), &tr));
311:     PetscCall(DMPlexTransformSetDM(tr, dm));
312:     PetscCall(DMPlexGetTransformType(dm, &trType));
313:     if (trType) PetscCall(DMPlexTransformSetType(tr, trType));
314:     PetscCall(PetscObjectGetOptionsPrefix((PetscObject)dm, &prefix));
315:     PetscCall(PetscObjectSetOptionsPrefix((PetscObject)tr, prefix));
316:     PetscCall(PetscObjectGetOptions((PetscObject)dm, &options));
317:     PetscCall(PetscObjectSetOptions((PetscObject)tr, options));
318:     PetscCall(DMPlexTransformSetFromOptions(tr));
319:     PetscCall(PetscObjectSetOptions((PetscObject)tr, NULL));
320:     PetscCall(DMPlexTransformSetUp(tr));
321:     PetscCall(PetscObjectViewFromOptions((PetscObject)tr, NULL, "-dm_plex_transform_view"));
322:     PetscCall(DMPlexTransformApply(tr, dm, rdm));
323:     PetscCall(DMPlexSetRegularRefinement(*rdm, PETSC_TRUE));
324:     PetscCall(DMPlexGetUseCeed(dm, &useCeed));
325:     PetscCall(DMPlexSetUseCeed(*rdm, useCeed));
326:     PetscCall(DMSetMatType((*rdm), dm->mattype));
327:     PetscCall(DMCopyDisc(dm, *rdm));
328:     PetscCall(DMGetCoordinateDM(dm, &cdm));
329:     PetscCall(DMGetCoordinateDM(*rdm, &rcdm));
330:     PetscCall(DMCopyDisc(cdm, rcdm));
331:     PetscCall(DMPlexGetUseCeed(cdm, &useCeed));
332:     PetscCall(DMPlexSetUseCeed(rcdm, useCeed));
333:     if (useCeed) {
334:       PetscCall(DMPlexSetUseMatClosurePermutation(rcdm, PETSC_FALSE));
335:       PetscCall(DMUseTensorOrder(rcdm, PETSC_TRUE));
336:     }
337:     PetscCall(DMPlexTransformCreateDiscLabels(tr, *rdm));
338:     PetscCall(DMPlexTransformDestroy(&tr));
339:   } else {
340:     PetscCall(DMPlexRefine_Internal(dm, NULL, NULL, NULL, rdm));
341:   }
342:   if (*rdm) {
343:     ((DM_Plex *)(*rdm)->data)->printFEM = ((DM_Plex *)dm->data)->printFEM;
344:     ((DM_Plex *)(*rdm)->data)->printL2  = ((DM_Plex *)dm->data)->printL2;
345:   }
346:   PetscCall(DMViewFromOptions(dm, NULL, "-postref_dm_view"));
347:   PetscFunctionReturn(PETSC_SUCCESS);
348: }

350: PetscErrorCode DMRefineHierarchy_Plex(DM dm, PetscInt nlevels, DM rdm[])
351: {
352:   DM        cdm = dm;
353:   PetscInt  r;
354:   PetscBool isUniform, localized, useCeed;

356:   PetscFunctionBegin;
357:   PetscCall(DMPlexGetRefinementUniform(dm, &isUniform));
358:   PetscCall(DMGetCoordinatesLocalized(dm, &localized));
359:   if (isUniform) {
360:     for (r = 0; r < nlevels; ++r) {
361:       DMPlexTransform tr;
362:       DM              codm, rcodm;
363:       const char     *prefix;

365:       PetscCall(DMPlexTransformCreate(PetscObjectComm((PetscObject)cdm), &tr));
366:       PetscCall(PetscObjectGetOptionsPrefix((PetscObject)cdm, &prefix));
367:       PetscCall(PetscObjectSetOptionsPrefix((PetscObject)tr, prefix));
368:       PetscCall(DMPlexTransformSetDM(tr, cdm));
369:       PetscCall(DMPlexTransformSetFromOptions(tr));
370:       PetscCall(DMPlexTransformSetUp(tr));
371:       PetscCall(DMPlexTransformApply(tr, cdm, &rdm[r]));
372:       PetscCall(DMSetCoarsenLevel(rdm[r], cdm->leveldown));
373:       PetscCall(DMSetRefineLevel(rdm[r], cdm->levelup + 1));
374:       PetscCall(DMSetMatType(rdm[r], dm->mattype));
375:       PetscCall(DMPlexGetUseCeed(dm, &useCeed));
376:       PetscCall(DMPlexSetUseCeed(rdm[r], useCeed));
377:       PetscCall(DMCopyDisc(cdm, rdm[r]));
378:       PetscCall(DMGetCoordinateDM(dm, &codm));
379:       PetscCall(DMGetCoordinateDM(rdm[r], &rcodm));
380:       PetscCall(DMCopyDisc(codm, rcodm));
381:       PetscCall(DMPlexGetUseCeed(codm, &useCeed));
382:       PetscCall(DMPlexSetUseCeed(rcodm, useCeed));
383:       if (useCeed) {
384:         PetscCall(DMPlexSetUseMatClosurePermutation(rcodm, PETSC_FALSE));
385:         PetscCall(DMUseTensorOrder(rcodm, PETSC_TRUE));
386:       }
387:       PetscCall(DMPlexTransformCreateDiscLabels(tr, rdm[r]));
388:       PetscCall(DMSetCoarseDM(rdm[r], cdm));
389:       PetscCall(DMPlexSetRegularRefinement(rdm[r], PETSC_TRUE));
390:       if (rdm[r]) {
391:         ((DM_Plex *)(rdm[r])->data)->printFEM = ((DM_Plex *)dm->data)->printFEM;
392:         ((DM_Plex *)(rdm[r])->data)->printL2  = ((DM_Plex *)dm->data)->printL2;
393:       }
394:       cdm = rdm[r];
395:       PetscCall(DMPlexTransformDestroy(&tr));
396:     }
397:   } else {
398:     for (r = 0; r < nlevels; ++r) {
399:       PetscCall(DMRefine(cdm, PetscObjectComm((PetscObject)dm), &rdm[r]));
400:       PetscCall(DMPlexGetUseCeed(dm, &useCeed));
401:       PetscCall(DMPlexSetUseCeed(rdm[r], useCeed));
402:       PetscCall(DMCopyDisc(cdm, rdm[r]));
403:       if (localized) PetscCall(DMLocalizeCoordinates(rdm[r]));
404:       PetscCall(DMSetCoarseDM(rdm[r], cdm));
405:       if (rdm[r]) {
406:         ((DM_Plex *)(rdm[r])->data)->printFEM = ((DM_Plex *)dm->data)->printFEM;
407:         ((DM_Plex *)(rdm[r])->data)->printL2  = ((DM_Plex *)dm->data)->printL2;
408:       }
409:       cdm = rdm[r];
410:     }
411:   }
412:   PetscFunctionReturn(PETSC_SUCCESS);
413: }