Actual source code: primme.c

slepc-3.18.1 2022-11-02
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  1: /*
  2:    - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
  3:    SLEPc - Scalable Library for Eigenvalue Problem Computations
  4:    Copyright (c) 2002-, Universitat Politecnica de Valencia, Spain

  6:    This file is part of SLEPc.
  7:    SLEPc is distributed under a 2-clause BSD license (see LICENSE).
  8:    - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
  9: */
 10: /*
 11:    This file implements a wrapper to the PRIMME package
 12: */

 14: #include <slepc/private/epsimpl.h>

 16: #include <primme.h>

 18: #if defined(PETSC_USE_COMPLEX)
 19: #if defined(PETSC_USE_REAL_SINGLE)
 20: #define PRIMME_DRIVER cprimme
 21: #else
 22: #define PRIMME_DRIVER zprimme
 23: #endif
 24: #else
 25: #if defined(PETSC_USE_REAL_SINGLE)
 26: #define PRIMME_DRIVER sprimme
 27: #else
 28: #define PRIMME_DRIVER dprimme
 29: #endif
 30: #endif

 32: #if defined(PRIMME_VERSION_MAJOR) && PRIMME_VERSION_MAJOR*100+PRIMME_VERSION_MINOR >= 202
 33: #define SLEPC_HAVE_PRIMME2p2
 34: #endif

 36: typedef struct {
 37:   primme_params        primme;    /* param struct */
 38:   PetscInt             bs;        /* block size */
 39:   primme_preset_method method;    /* primme method */
 40:   Mat                  A,B;       /* problem matrices */
 41:   KSP                  ksp;       /* linear solver and preconditioner */
 42:   Vec                  x,y;       /* auxiliary vectors */
 43:   double               target;    /* a copy of eps's target */
 44: } EPS_PRIMME;

 46: static void par_GlobalSumReal(void *sendBuf,void *recvBuf,int *count,primme_params *primme,int *ierr)
 47: {
 48:   if (sendBuf == recvBuf) {
 49:     *ierr = MPI_Allreduce(MPI_IN_PLACE,recvBuf,*count,MPIU_REAL,MPIU_SUM,PetscObjectComm((PetscObject)primme->commInfo));
 50:   } else {
 51:     *ierr = MPI_Allreduce(sendBuf,recvBuf,*count,MPIU_REAL,MPIU_SUM,PetscObjectComm((PetscObject)primme->commInfo));
 52:   }
 53: }

 55: #if defined(SLEPC_HAVE_PRIMME3)
 56: static void par_broadcastReal(void *buf,int *count,primme_params *primme,int *ierr)
 57: {
 58:   *ierr = MPI_Bcast(buf,*count,MPIU_REAL,0/*root*/,PetscObjectComm((PetscObject)primme->commInfo));
 59: }
 60: #endif

 62: #if defined(SLEPC_HAVE_PRIMME2p2)
 63: static void convTestFun(double *eval,void *evec,double *resNorm,int *isconv,primme_params *primme,int *err)
 64: {
 66:   EPS            eps = (EPS)primme->commInfo;
 67:   PetscScalar    eigvr = eval?*eval:0.0;
 68:   PetscReal      r = resNorm?*resNorm:HUGE_VAL,errest;

 70:   ierr = (*eps->converged)(eps,eigvr,0.0,r,&errest,eps->convergedctx);
 71:   if (ierr) *err = 1;
 72:   else {
 73:     *isconv = (errest<=eps->tol?1:0);
 74:     *err = 0;
 75:   }
 76: }

 78: static void monitorFun(void *basisEvals,int *basisSize,int *basisFlags,int *iblock,int *blockSize,void *basisNorms,int *numConverged,void *lockedEvals,int *numLocked,int *lockedFlags,void *lockedNorms,int *inner_its,void *LSRes,
 79: #if defined(SLEPC_HAVE_PRIMME3)
 80:                        const char *msg,double *time,
 81: #endif
 82:                        primme_event *event,struct primme_params *primme,int *err)
 83: {
 84:   PetscErrorCode ierr = 0;
 85:   EPS            eps = (EPS)primme->commInfo;
 86:   PetscInt       i,k,nerrest;

 88:   switch (*event) {
 89:     case primme_event_outer_iteration:
 90:       /* Update EPS */
 91:       eps->its = primme->stats.numOuterIterations;
 92:       eps->nconv = primme->initSize;
 93:       k=0;
 94:       if (lockedEvals && numLocked) for (i=0; i<*numLocked && k<eps->ncv; i++) eps->eigr[k++] = ((PetscReal*)lockedEvals)[i];
 95:       nerrest = k;
 96:       if (iblock && blockSize) {
 97:         for (i=0; i<*blockSize && k+iblock[i]<eps->ncv; i++) eps->errest[k+iblock[i]] = ((PetscReal*)basisNorms)[i];
 98:         nerrest = k+(*blockSize>0?1+iblock[*blockSize-1]:0);
 99:       }
100:       if (basisEvals && basisSize) for (i=0; i<*basisSize && k<eps->ncv; i++) eps->eigr[k++] = ((PetscReal*)basisEvals)[i];
101:       /* Show progress */
102:       ierr = EPSMonitor(eps,eps->its,numConverged?*numConverged:0,eps->eigr,eps->eigi,eps->errest,nerrest);
103:       break;
104: #if defined(SLEPC_HAVE_PRIMME3)
105:     case primme_event_message:
106:       /* Print PRIMME information messages */
107:       ierr = PetscInfo(eps,"%s\n",msg);
108:       break;
109: #endif
110:     default:
111:       break;
112:   }
113:   *err = (ierr!=0)? 1: 0;
114: }
115: #endif /* SLEPC_HAVE_PRIMME2p2 */

117: static void matrixMatvec_PRIMME(void *xa,PRIMME_INT *ldx,void *ya,PRIMME_INT *ldy,int *blockSize,struct primme_params *primme,int *ierr)
118: {
119:   PetscInt   i;
120:   EPS_PRIMME *ops = (EPS_PRIMME*)primme->matrix;
121:   Vec        x = ops->x,y = ops->y;
122:   Mat        A = ops->A;

124:   for (i=0;i<*blockSize;i++) {
125:     PetscObjectComm((PetscObject)A),VecPlaceArray(x,(PetscScalar*)xa+(*ldx)*i);
126:     PetscObjectComm((PetscObject)A),VecPlaceArray(y,(PetscScalar*)ya+(*ldy)*i);
127:     PetscObjectComm((PetscObject)A),MatMult(A,x,y);
128:     PetscObjectComm((PetscObject)A),VecResetArray(x);
129:     PetscObjectComm((PetscObject)A),VecResetArray(y);
130:   }
131:   return;
132: }

134: #if defined(SLEPC_HAVE_PRIMME3)
135: static void massMatrixMatvec_PRIMME(void *xa,PRIMME_INT *ldx,void *ya,PRIMME_INT *ldy,int *blockSize,struct primme_params *primme,int *ierr)
136: {
137:   PetscInt   i;
138:   EPS_PRIMME *ops = (EPS_PRIMME*)primme->massMatrix;
139:   Vec        x = ops->x,y = ops->y;
140:   Mat        B = ops->B;

142:   for (i=0;i<*blockSize;i++) {
143:     PetscObjectComm((PetscObject)B),VecPlaceArray(x,(PetscScalar*)xa+(*ldx)*i);
144:     PetscObjectComm((PetscObject)B),VecPlaceArray(y,(PetscScalar*)ya+(*ldy)*i);
145:     PetscObjectComm((PetscObject)B),MatMult(B,x,y);
146:     PetscObjectComm((PetscObject)B),VecResetArray(x);
147:     PetscObjectComm((PetscObject)B),VecResetArray(y);
148:   }
149:   return;
150: }
151: #endif

153: static void applyPreconditioner_PRIMME(void *xa,PRIMME_INT *ldx,void *ya,PRIMME_INT *ldy,int *blockSize,struct primme_params *primme,int *ierr)
154: {
155:   PetscInt   i;
156:   EPS_PRIMME *ops = (EPS_PRIMME*)primme->matrix;
157:   Vec        x = ops->x,y = ops->y;

159:   for (i=0;i<*blockSize;i++) {
160:     PetscObjectComm((PetscObject)ops->ksp),VecPlaceArray(x,(PetscScalar*)xa+(*ldx)*i);
161:     PetscObjectComm((PetscObject)ops->ksp),VecPlaceArray(y,(PetscScalar*)ya+(*ldy)*i);
162:     PetscObjectComm((PetscObject)ops->ksp),KSPSolve(ops->ksp,x,y);
163:     PetscObjectComm((PetscObject)ops->ksp),VecResetArray(x);
164:     PetscObjectComm((PetscObject)ops->ksp),VecResetArray(y);
165:   }
166:   return;
167: }

169: PetscErrorCode EPSSetUp_PRIMME(EPS eps)
170: {
171:   PetscMPIInt    numProcs,procID;
172:   EPS_PRIMME     *ops = (EPS_PRIMME*)eps->data;
173:   primme_params  *primme = &ops->primme;
174:   PetscBool      flg;

176:   EPSCheckHermitianDefinite(eps);
177:   MPI_Comm_size(PetscObjectComm((PetscObject)eps),&numProcs);
178:   MPI_Comm_rank(PetscObjectComm((PetscObject)eps),&procID);

180:   /* Check some constraints and set some default values */
181:   if (eps->max_it==PETSC_DEFAULT) eps->max_it = PETSC_MAX_INT;
182:   STGetMatrix(eps->st,0,&ops->A);
183:   if (eps->isgeneralized) {
184: #if defined(SLEPC_HAVE_PRIMME3)
185:     STGetMatrix(eps->st,1,&ops->B);
186: #else
187:     SETERRQ(PetscObjectComm((PetscObject)eps),PETSC_ERR_SUP,"This version of PRIMME is not available for generalized problems");
188: #endif
189:   }
190:   EPSCheckUnsupported(eps,EPS_FEATURE_ARBITRARY | EPS_FEATURE_REGION | EPS_FEATURE_STOPPING);
191:   EPSCheckIgnored(eps,EPS_FEATURE_BALANCE);
192:   if (!eps->which) eps->which = EPS_LARGEST_REAL;
193: #if !defined(SLEPC_HAVE_PRIMME2p2)
194:   if (eps->converged != EPSConvergedAbsolute) PetscInfo(eps,"Warning: using absolute convergence test\n");
195: #else
196:   EPSCheckIgnored(eps,EPS_FEATURE_CONVERGENCE);
197: #endif

199:   /* Transfer SLEPc options to PRIMME options */
200:   primme_free(primme);
201:   primme_initialize(primme);
202:   primme->n                             = eps->n;
203:   primme->nLocal                        = eps->nloc;
204:   primme->numEvals                      = eps->nev;
205:   primme->matrix                        = ops;
206:   primme->matrixMatvec                  = matrixMatvec_PRIMME;
207: #if defined(SLEPC_HAVE_PRIMME3)
208:   if (eps->isgeneralized) {
209:     primme->massMatrix                  = ops;
210:     primme->massMatrixMatvec            = massMatrixMatvec_PRIMME;
211:   }
212: #endif
213:   primme->commInfo                      = eps;
214:   primme->maxOuterIterations            = eps->max_it;
215: #if !defined(SLEPC_HAVE_PRIMME2p2)
216:   primme->eps                           = SlepcDefaultTol(eps->tol);
217: #endif
218:   primme->numProcs                      = numProcs;
219:   primme->procID                        = procID;
220:   primme->printLevel                    = 1;
221:   primme->correctionParams.precondition = 1;
222:   primme->globalSumReal                 = par_GlobalSumReal;
223: #if defined(SLEPC_HAVE_PRIMME3)
224:   primme->broadcastReal                 = par_broadcastReal;
225: #endif
226: #if defined(SLEPC_HAVE_PRIMME2p2)
227:   primme->convTestFun                   = convTestFun;
228:   primme->monitorFun                    = monitorFun;
229: #endif
230:   if (ops->bs > 0) primme->maxBlockSize = ops->bs;

232:   switch (eps->which) {
233:     case EPS_LARGEST_REAL:
234:       primme->target = primme_largest;
235:       break;
236:     case EPS_SMALLEST_REAL:
237:       primme->target = primme_smallest;
238:       break;
239:     case EPS_LARGEST_MAGNITUDE:
240:       primme->target = primme_largest_abs;
241:       ops->target = 0.0;
242:       primme->numTargetShifts = 1;
243:       primme->targetShifts = &ops->target;
244:       break;
245:     case EPS_SMALLEST_MAGNITUDE:
246:       primme->target = primme_closest_abs;
247:       ops->target = 0.0;
248:       primme->numTargetShifts = 1;
249:       primme->targetShifts = &ops->target;
250:       break;
251:     case EPS_TARGET_MAGNITUDE:
252:     case EPS_TARGET_REAL:
253:       primme->target = primme_closest_abs;
254:       primme->numTargetShifts = 1;
255:       ops->target = PetscRealPart(eps->target);
256:       primme->targetShifts = &ops->target;
257:       break;
258:     default:
259:       SETERRQ(PetscObjectComm((PetscObject)eps),PETSC_ERR_SUP,"'which' value not supported by PRIMME");
260:   }

262:   switch (eps->extraction) {
263:     case EPS_RITZ:
264:       primme->projectionParams.projection = primme_proj_RR;
265:       break;
266:     case EPS_HARMONIC:
267:       primme->projectionParams.projection = primme_proj_harmonic;
268:       break;
269:     case EPS_REFINED:
270:       primme->projectionParams.projection = primme_proj_refined;
271:       break;
272:     default:
273:       SETERRQ(PetscObjectComm((PetscObject)eps),PETSC_ERR_SUP,"'extraction' value not supported by PRIMME");
274:   }

276:   /* If user sets mpd or ncv, maxBasisSize is modified */
277:   if (eps->mpd!=PETSC_DEFAULT) {
278:     primme->maxBasisSize = eps->mpd;
279:     if (eps->ncv!=PETSC_DEFAULT) PetscInfo(eps,"Warning: 'ncv' is ignored by PRIMME\n");
280:   } else if (eps->ncv!=PETSC_DEFAULT) primme->maxBasisSize = eps->ncv;


284:   eps->mpd = primme->maxBasisSize;
285:   eps->ncv = (primme->locking?eps->nev:0)+primme->maxBasisSize;
286:   ops->bs  = primme->maxBlockSize;

288:   /* Set workspace */
289:   EPSAllocateSolution(eps,0);

291:   /* Setup the preconditioner */
292:   if (primme->correctionParams.precondition) {
293:     STGetKSP(eps->st,&ops->ksp);
294:     PetscObjectTypeCompare((PetscObject)ops->ksp,KSPPREONLY,&flg);
295:     if (!flg) PetscInfo(eps,"Warning: ignoring KSP, should use KSPPREONLY\n");
296:     primme->preconditioner = NULL;
297:     primme->applyPreconditioner = applyPreconditioner_PRIMME;
298:   }

300:   /* Prepare auxiliary vectors */
301:   if (!ops->x) MatCreateVecsEmpty(ops->A,&ops->x,&ops->y);
302:   return 0;
303: }

305: PetscErrorCode EPSSolve_PRIMME(EPS eps)
306: {
307:   EPS_PRIMME     *ops = (EPS_PRIMME*)eps->data;
308:   PetscScalar    *a;
309:   PetscInt       i,ierrprimme;
310:   PetscReal      *evals,*rnorms;

312:   /* Reset some parameters left from previous runs */
313: #if defined(SLEPC_HAVE_PRIMME2p2)
314:   ops->primme.aNorm    = 0.0;
315: #else
316:   /* Force PRIMME to stop by absolute error */
317:   ops->primme.aNorm    = 1.0;
318: #endif
319:   ops->primme.initSize = eps->nini;
320:   ops->primme.iseed[0] = -1;
321:   ops->primme.iseed[1] = -1;
322:   ops->primme.iseed[2] = -1;
323:   ops->primme.iseed[3] = -1;

325:   /* Call PRIMME solver */
326:   BVGetArray(eps->V,&a);
327:   PetscMalloc2(eps->ncv,&evals,eps->ncv,&rnorms);
328:   ierrprimme = PRIMME_DRIVER(evals,a,rnorms,&ops->primme);
329:   for (i=0;i<eps->ncv;i++) eps->eigr[i] = evals[i];
330:   for (i=0;i<eps->ncv;i++) eps->errest[i] = rnorms[i];
331:   PetscFree2(evals,rnorms);
332:   BVRestoreArray(eps->V,&a);

334:   eps->nconv  = ops->primme.initSize >= 0 ? ops->primme.initSize : 0;
335:   eps->reason = eps->nconv >= eps->nev ? EPS_CONVERGED_TOL: EPS_DIVERGED_ITS;
336:   eps->its    = ops->primme.stats.numOuterIterations;

338:   /* Process PRIMME error code */
339:   switch (ierrprimme) {
340:     case 0: /* no error */
341:       break;
342:     case -1:
343:       SETERRQ(PetscObjectComm((PetscObject)eps),PETSC_ERR_LIB,"PRIMME library failed with error code=%" PetscInt_FMT ": unexpected error",ierrprimme);
344:     case -2:
345:       SETERRQ(PetscObjectComm((PetscObject)eps),PETSC_ERR_LIB,"PRIMME library failed with error code=%" PetscInt_FMT ": allocation error",ierrprimme);
346:     case -3: /* stop due to maximum number of iterations or matvecs */
347:       break;
348:     default:
351:   }
352:   return 0;
353: }

355: PetscErrorCode EPSReset_PRIMME(EPS eps)
356: {
357:   EPS_PRIMME     *ops = (EPS_PRIMME*)eps->data;

359:   primme_free(&ops->primme);
360:   VecDestroy(&ops->x);
361:   VecDestroy(&ops->y);
362:   return 0;
363: }

365: PetscErrorCode EPSDestroy_PRIMME(EPS eps)
366: {
367:   PetscFree(eps->data);
368:   PetscObjectComposeFunction((PetscObject)eps,"EPSPRIMMESetBlockSize_C",NULL);
369:   PetscObjectComposeFunction((PetscObject)eps,"EPSPRIMMESetMethod_C",NULL);
370:   PetscObjectComposeFunction((PetscObject)eps,"EPSPRIMMEGetBlockSize_C",NULL);
371:   PetscObjectComposeFunction((PetscObject)eps,"EPSPRIMMEGetMethod_C",NULL);
372:   return 0;
373: }

375: PetscErrorCode EPSView_PRIMME(EPS eps,PetscViewer viewer)
376: {
377:   PetscBool      isascii;
378:   EPS_PRIMME     *ctx = (EPS_PRIMME*)eps->data;
379:   PetscMPIInt    rank;

381:   PetscObjectTypeCompare((PetscObject)viewer,PETSCVIEWERASCII,&isascii);
382:   if (isascii) {
383:     PetscViewerASCIIPrintf(viewer,"  block size=%" PetscInt_FMT "\n",ctx->bs);
384:     PetscViewerASCIIPrintf(viewer,"  solver method: %s\n",EPSPRIMMEMethods[(EPSPRIMMEMethod)ctx->method]);

386:     /* Display PRIMME params */
387:     MPI_Comm_rank(PetscObjectComm((PetscObject)eps),&rank);
388:     if (!rank) primme_display_params(ctx->primme);
389:   }
390:   return 0;
391: }

393: PetscErrorCode EPSSetFromOptions_PRIMME(EPS eps,PetscOptionItems *PetscOptionsObject)
394: {
395:   EPS_PRIMME      *ctx = (EPS_PRIMME*)eps->data;
396:   PetscInt        bs;
397:   EPSPRIMMEMethod meth;
398:   PetscBool       flg;

400:   PetscOptionsHeadBegin(PetscOptionsObject,"EPS PRIMME Options");

402:     PetscOptionsInt("-eps_primme_blocksize","Maximum block size","EPSPRIMMESetBlockSize",ctx->bs,&bs,&flg);
403:     if (flg) EPSPRIMMESetBlockSize(eps,bs);

405:     PetscOptionsEnum("-eps_primme_method","Method for solving the eigenproblem","EPSPRIMMESetMethod",EPSPRIMMEMethods,(PetscEnum)ctx->method,(PetscEnum*)&meth,&flg);
406:     if (flg) EPSPRIMMESetMethod(eps,meth);

408:   PetscOptionsHeadEnd();
409:   return 0;
410: }

412: static PetscErrorCode EPSPRIMMESetBlockSize_PRIMME(EPS eps,PetscInt bs)
413: {
414:   EPS_PRIMME *ops = (EPS_PRIMME*)eps->data;

416:   if (bs == PETSC_DEFAULT) ops->bs = 0;
417:   else {
419:     ops->bs = bs;
420:   }
421:   return 0;
422: }

424: /*@
425:    EPSPRIMMESetBlockSize - The maximum block size that PRIMME will try to use.

427:    Logically Collective on eps

429:    Input Parameters:
430: +  eps - the eigenproblem solver context
431: -  bs - block size

433:    Options Database Key:
434: .  -eps_primme_blocksize - Sets the max allowed block size value

436:    Notes:
437:    If the block size is not set, the value established by primme_initialize
438:    is used.

440:    The user should set the block size based on the architecture specifics
441:    of the target computer, as well as any a priori knowledge of multiplicities.
442:    The code does NOT require bs > 1 to find multiple eigenvalues. For some
443:    methods, keeping bs = 1 yields the best overall performance.

445:    Level: advanced

447: .seealso: EPSPRIMMEGetBlockSize()
448: @*/
449: PetscErrorCode EPSPRIMMESetBlockSize(EPS eps,PetscInt bs)
450: {
453:   PetscTryMethod(eps,"EPSPRIMMESetBlockSize_C",(EPS,PetscInt),(eps,bs));
454:   return 0;
455: }

457: static PetscErrorCode EPSPRIMMEGetBlockSize_PRIMME(EPS eps,PetscInt *bs)
458: {
459:   EPS_PRIMME *ops = (EPS_PRIMME*)eps->data;

461:   *bs = ops->bs;
462:   return 0;
463: }

465: /*@
466:    EPSPRIMMEGetBlockSize - Get the maximum block size the code will try to use.

468:    Not Collective

470:    Input Parameter:
471: .  eps - the eigenproblem solver context

473:    Output Parameter:
474: .  bs - returned block size

476:    Level: advanced

478: .seealso: EPSPRIMMESetBlockSize()
479: @*/
480: PetscErrorCode EPSPRIMMEGetBlockSize(EPS eps,PetscInt *bs)
481: {
484:   PetscUseMethod(eps,"EPSPRIMMEGetBlockSize_C",(EPS,PetscInt*),(eps,bs));
485:   return 0;
486: }

488: static PetscErrorCode EPSPRIMMESetMethod_PRIMME(EPS eps,EPSPRIMMEMethod method)
489: {
490:   EPS_PRIMME *ops = (EPS_PRIMME*)eps->data;

492:   ops->method = (primme_preset_method)method;
493:   return 0;
494: }

496: /*@
497:    EPSPRIMMESetMethod - Sets the method for the PRIMME library.

499:    Logically Collective on eps

501:    Input Parameters:
502: +  eps - the eigenproblem solver context
503: -  method - method that will be used by PRIMME

505:    Options Database Key:
506: .  -eps_primme_method - Sets the method for the PRIMME library

508:    Note:
509:    If not set, the method defaults to EPS_PRIMME_DEFAULT_MIN_TIME.

511:    Level: advanced

513: .seealso: EPSPRIMMEGetMethod(), EPSPRIMMEMethod
514: @*/
515: PetscErrorCode EPSPRIMMESetMethod(EPS eps,EPSPRIMMEMethod method)
516: {
519:   PetscTryMethod(eps,"EPSPRIMMESetMethod_C",(EPS,EPSPRIMMEMethod),(eps,method));
520:   return 0;
521: }

523: static PetscErrorCode EPSPRIMMEGetMethod_PRIMME(EPS eps,EPSPRIMMEMethod *method)
524: {
525:   EPS_PRIMME *ops = (EPS_PRIMME*)eps->data;

527:   *method = (EPSPRIMMEMethod)ops->method;
528:   return 0;
529: }

531: /*@
532:    EPSPRIMMEGetMethod - Gets the method for the PRIMME library.

534:    Not Collective

536:    Input Parameter:
537: .  eps - the eigenproblem solver context

539:    Output Parameter:
540: .  method - method that will be used by PRIMME

542:    Level: advanced

544: .seealso: EPSPRIMMESetMethod(), EPSPRIMMEMethod
545: @*/
546: PetscErrorCode EPSPRIMMEGetMethod(EPS eps,EPSPRIMMEMethod *method)
547: {
550:   PetscUseMethod(eps,"EPSPRIMMEGetMethod_C",(EPS,EPSPRIMMEMethod*),(eps,method));
551:   return 0;
552: }

554: SLEPC_EXTERN PetscErrorCode EPSCreate_PRIMME(EPS eps)
555: {
556:   EPS_PRIMME     *primme;

558:   PetscNew(&primme);
559:   eps->data = (void*)primme;

561:   primme_initialize(&primme->primme);
562:   primme->primme.globalSumReal = par_GlobalSumReal;
563: #if defined(SLEPC_HAVE_PRIMME3)
564:   primme->primme.broadcastReal = par_broadcastReal;
565: #endif
566: #if defined(SLEPC_HAVE_PRIMME2p2)
567:   primme->primme.convTestFun = convTestFun;
568:   primme->primme.monitorFun = monitorFun;
569: #endif
570:   primme->method = (primme_preset_method)EPS_PRIMME_DEFAULT_MIN_TIME;

572:   eps->categ = EPS_CATEGORY_PRECOND;

574:   eps->ops->solve          = EPSSolve_PRIMME;
575:   eps->ops->setup          = EPSSetUp_PRIMME;
576:   eps->ops->setupsort      = EPSSetUpSort_Basic;
577:   eps->ops->setfromoptions = EPSSetFromOptions_PRIMME;
578:   eps->ops->destroy        = EPSDestroy_PRIMME;
579:   eps->ops->reset          = EPSReset_PRIMME;
580:   eps->ops->view           = EPSView_PRIMME;
581:   eps->ops->backtransform  = EPSBackTransform_Default;
582:   eps->ops->setdefaultst   = EPSSetDefaultST_GMRES;

584:   PetscObjectComposeFunction((PetscObject)eps,"EPSPRIMMESetBlockSize_C",EPSPRIMMESetBlockSize_PRIMME);
585:   PetscObjectComposeFunction((PetscObject)eps,"EPSPRIMMESetMethod_C",EPSPRIMMESetMethod_PRIMME);
586:   PetscObjectComposeFunction((PetscObject)eps,"EPSPRIMMEGetBlockSize_C",EPSPRIMMEGetBlockSize_PRIMME);
587:   PetscObjectComposeFunction((PetscObject)eps,"EPSPRIMMEGetMethod_C",EPSPRIMMEGetMethod_PRIMME);
588:   return 0;
589: }