6#if PETSC_VERSION_GE(3, 6, 0)
7#include <petsc/private/dmimpl.h>
10#include <petsc-private/dmimpl.h>
11#include <petsc-private/vecimpl.h>
19 : mField_ptr(PETSC_NULL), isProblemBuild(PETSC_FALSE),
20 isPartitioned(PETSC_FALSE), isSquareMatrix(PETSC_TRUE),
21 isSubDM(PETSC_FALSE), isCompDM(PETSC_FALSE), destroyProblem(PETSC_FALSE),
22 verbosity(
VERBOSE), referenceNumber(0) {
25 auto core_log = logging::core::get();
43 *iface =
const_cast<DMCtx *
>(
this);
54 PetscValidHeaderSpecific(dm, DM_CLASSID, 1);
70 CHKERR DMSetMatType(dm, MATMPIAIJ);
76 PetscValidHeaderSpecific(dm, DM_CLASSID, 1);
78 dm->data =
new DMCtx();
84 PetscValidHeaderSpecific(dm, DM_CLASSID, 1);
85 DMCtx *dm_field =
static_cast<DMCtx *
>(dm->data);
89 CHKERR PetscObjectGetComm((PetscObject)dm, &comm);
92 MPI_Comm_compare(comm, PETSC_COMM_SELF, &result);
93 if (result == MPI_IDENT)
95 <<
"MoFEM DM destroy for problem " << dm_field->
problemName
99 <<
"MoFEM DM destroy for problem " << dm_field->
problemName
110 delete static_cast<DMCtx *
>(dm->data);
119 const char problem_name[],
124 DMCtx *dm_field =
static_cast<DMCtx *
>(dm->data);
127 "data structure for MoFEM not yet created");
131 "DM function not implemented into MoFEM");
149 boost::shared_ptr<KspCtx>(
new KspCtx(*m_field_ptr, problem_name));
151 boost::shared_ptr<SnesCtx>(
new SnesCtx(*m_field_ptr, problem_name));
153 boost::shared_ptr<TsCtx>(
new TsCtx(*m_field_ptr, problem_name));
156 CHKERR PetscObjectGetComm((PetscObject)dm, &comm);
158 MPI_Comm_compare(comm, m_field_ptr->
get_comm(), &result);
159 if (result > MPI_CONGRUENT) {
161 "MoFEM and DM using different communicators");
163 MPI_Comm_size(comm, &dm_field->
sIze);
164 MPI_Comm_rank(comm, &dm_field->
rAnk);
170 MPI_Comm_compare(comm, PETSC_COMM_SELF, &result);
171 if (result == MPI_IDENT) {
173 <<
"MoFEM DM created for problem " << dm_field->
problemName;
177 <<
"MoFEM DM created for problem " << dm_field->
problemName;
187 auto *dm_field =
static_cast<DMCtx *
>(dm->data);
190 "data structure for MoFEM not yet created");
193 delete static_cast<DMCtx *
>(dm_duplicate->data);
195 dm_duplicate->data = dm->data;
196 ++(
static_cast<DMCtx *
>(dm_duplicate->data)->referenceNumber);
204 DMCtx *dm_field =
static_cast<DMCtx *
>(dm->data);
207 "data structure for MoFEM not yet created");
214 subdm_field->
isSubDM = PETSC_TRUE;
225 PetscValidHeaderSpecific(dm, DM_CLASSID, 1);
227 DMCtx *dm_field =
static_cast<DMCtx *
>(dm->data);
230 "data structure for MoFEM not yet created");
236 if (lo_type != MBVERTEX || hi_type != MBMAXTYPE) {
239 std::map<std::string, std::pair<EntityType, EntityType>>>();
241 std::pair<EntityType, EntityType>(lo_type, hi_type);
248 PetscValidHeaderSpecific(dm, DM_CLASSID, 1);
250 DMCtx *dm_field =
static_cast<DMCtx *
>(dm->data);
253 "data structure for MoFEM not yet created");
259 if (lo_type != MBVERTEX || hi_type != MBMAXTYPE) {
262 std::map<std::string, std::pair<EntityType, EntityType>>>();
264 std::pair<EntityType, EntityType>(lo_type, hi_type);
271 PetscValidHeaderSpecific(dm, DM_CLASSID, 1);
273 DMCtx *dm_field =
static_cast<DMCtx *
>(dm->data);
274 *is_sub_dm = dm_field->
isSubDM;
280 PetscValidHeaderSpecific(dm, DM_CLASSID, 1);
282 DMCtx *dm_field =
static_cast<DMCtx *
>(dm->data);
283 if (dm_field->
isSubDM != PETSC_TRUE) {
285 "This DM is not created as a SubDM");
290 boost::shared_ptr<Problem::SubProblemData> sub_data =
292 CHKERR sub_data->getRowIs(is);
298 PetscValidHeaderSpecific(dm, DM_CLASSID, 1);
300 DMCtx *dm_field =
static_cast<DMCtx *
>(dm->data);
301 if (dm_field->
isSubDM != PETSC_TRUE) {
303 "This DM is not created as a SubDM");
308 boost::shared_ptr<Problem::SubProblemData> sub_data =
310 CHKERR sub_data->getColIs(is);
315 PetscValidHeaderSpecific(dm, DM_CLASSID, 1);
317 DMCtx *dm_field =
static_cast<DMCtx *
>(dm->data);
320 "data structure for MoFEM not yet created");
333 PetscValidHeaderSpecific(dm, DM_CLASSID, 1);
335 DMCtx *dm_field =
static_cast<DMCtx *
>(dm->data);
338 "data structure for MoFEM not yet created");
345 "No need to add problem on column when problem block structurally "
354 PetscValidHeaderSpecific(dm, DM_CLASSID, 1);
356 DMCtx *dm_field =
static_cast<DMCtx *
>(dm->data);
362 PetscValidHeaderSpecific(dm, DM_CLASSID, 1);
364 DMCtx *dm_field =
static_cast<DMCtx *
>(dm->data);
367 "data structure for MoFEM not yet created");
374 PetscValidHeaderSpecific(dm, DM_CLASSID, 1);
376 DMCtx *dm_field =
static_cast<DMCtx *
>(dm->data);
379 "data structure for MoFEM not yet created");
387 PetscValidHeaderSpecific(dm, DM_CLASSID, 1);
389 DMCtx *dm_field =
static_cast<DMCtx *
>(dm->data);
396 PetscValidHeaderSpecific(dm, DM_CLASSID, 1);
398 DMCtx *dm_field =
static_cast<DMCtx *
>(dm->data);
405 PetscValidHeaderSpecific(dm, DM_CLASSID, 1);
407 DMCtx *dm_field =
static_cast<DMCtx *
>(dm->data);
414 PetscValidHeaderSpecific(dm, DM_CLASSID, 1);
416 DMCtx *dm_field =
static_cast<DMCtx *
>(dm->data);
418 ->resolveSharedFiniteElements(dm_field->
problemPtr, fe_name);
427 PetscLayout *layout) {
429 PetscValidHeaderSpecific(dm, DM_CLASSID, 1);
431 DMCtx *dm_field =
static_cast<DMCtx *
>(dm->data);
434 CHKERR PetscObjectGetComm((PetscObject)dm, &comm);
443 PetscValidHeaderSpecific(dm, DM_CLASSID, 1);
445 DMCtx *dm_field =
static_cast<DMCtx *
>(dm->data);
451 PetscValidHeaderSpecific(dm, DM_CLASSID, 1);
453 DMCtx *dm_field =
static_cast<DMCtx *
>(dm->data);
461 PetscValidHeaderSpecific(dm, DM_CLASSID, 1);
463 DMCtx *dm_field =
static_cast<DMCtx *
>(dm->data);
471 ScatterMode scatter_mode) {
473 PetscValidHeaderSpecific(dm, DM_CLASSID, 1);
475 DMCtx *dm_field =
static_cast<DMCtx *
>(dm->data);
483 ScatterMode scatter_mode) {
484 PetscValidHeaderSpecific(dm, DM_CLASSID, 1);
486 DMCtx *dm_field =
static_cast<DMCtx *
>(dm->data);
494 PetscValidHeaderSpecific(dm, DM_CLASSID, 1);
496 DMCtx *dm_field =
static_cast<DMCtx *
>(dm->data);
504 PetscValidHeaderSpecific(dm, DM_CLASSID, 1);
506 DMCtx *dm_field =
static_cast<DMCtx *
>(dm->data);
518 DMCtx *dm_field =
static_cast<DMCtx *
>(dm->data);
520 dm_field->
problemPtr, fe_name, *method, low_rank, up_rank,
nullptr,
527 DM dm,
const std::string fe_name, boost::shared_ptr<MoFEM::FEMethod> method,
530 low_rank, up_rank, cache_ptr);
536 PetscValidHeaderSpecific(dm, DM_CLASSID, 1);
538 DMCtx *dm_field =
static_cast<DMCtx *
>(dm->data);
540 dm, fe_name, method, dm_field->
rAnk, dm_field->
rAnk, cache_ptr);
547 boost::shared_ptr<MoFEM::FEMethod> method,
554 PetscValidHeaderSpecific(dm, DM_CLASSID, 1);
556 DMCtx *dm_field =
static_cast<DMCtx *
>(dm->data);
559 *method, dm_field->
rAnk, dm_field->
rAnk);
564template <
class S,
class T0,
class T1,
class T2>
566 T1 pre_only, T2 post_only) {
567 PetscValidHeaderSpecific(dm, DM_CLASSID, 1);
569 DMCtx *dm_field =
static_cast<DMCtx *
>(dm->data);
571 dm_field->
kspCtx->get_preProcess_to_do_Rhs().push_back(pre_only);
574 dm_field->
kspCtx->get_loops_to_do_Rhs().push_back(
578 dm_field->
kspCtx->get_postProcess_to_do_Rhs().push_back(post_only);
590 dm, fe_name, method, pre_only, post_only);
595 boost::shared_ptr<MoFEM::FEMethod> method,
596 boost::shared_ptr<MoFEM::BasicMethod> pre_only,
597 boost::shared_ptr<MoFEM::BasicMethod> post_only) {
599 boost::shared_ptr<MoFEM::FEMethod>,
600 boost::shared_ptr<MoFEM::BasicMethod>,
601 boost::shared_ptr<MoFEM::BasicMethod>>(
602 dm, fe_name, method, pre_only, post_only);
605template <
class S,
class T0,
class T1,
class T2>
607 T1 pre_only, T2 post_only) {
608 PetscValidHeaderSpecific(dm, DM_CLASSID, 1);
610 DMCtx *dm_field =
static_cast<DMCtx *
>(dm->data);
612 dm_field->
kspCtx->get_preProcess_to_do_Mat().push_back(pre_only);
615 dm_field->
kspCtx->get_loops_to_do_Mat().push_back(
619 dm_field->
kspCtx->get_postProcess_to_do_Mat().push_back(post_only);
632 dm, fe_name, method, pre_only, post_only);
637 boost::shared_ptr<MoFEM::FEMethod> method,
638 boost::shared_ptr<MoFEM::BasicMethod> pre_only,
639 boost::shared_ptr<MoFEM::BasicMethod> post_only) {
641 boost::shared_ptr<MoFEM::FEMethod>>(
642 dm, fe_name, method, pre_only, post_only);
645template <
class S,
class T0,
class T1,
class T2>
647 T1 pre_only, T2 post_only) {
648 PetscValidHeaderSpecific(dm, DM_CLASSID, 1);
650 DMCtx *dm_field =
static_cast<DMCtx *
>(dm->data);
652 dm_field->
snesCtx->get_preProcess_to_do_Rhs().push_back(pre_only);
655 dm_field->
snesCtx->get_loops_to_do_Rhs().push_back(
659 dm_field->
snesCtx->get_postProcess_to_do_Rhs().push_back(post_only);
671 dm, fe_name, method, pre_only, post_only);
676 boost::shared_ptr<MoFEM::FEMethod> method,
677 boost::shared_ptr<MoFEM::BasicMethod> pre_only,
678 boost::shared_ptr<MoFEM::BasicMethod> post_only) {
680 boost::shared_ptr<MoFEM::FEMethod>,
681 boost::shared_ptr<MoFEM::BasicMethod>,
682 boost::shared_ptr<MoFEM::BasicMethod>>(
683 dm, fe_name, method, pre_only, post_only);
686template <
class S,
class T0,
class T1,
class T2>
688 T1 pre_only, T2 post_only) {
689 PetscValidHeaderSpecific(dm, DM_CLASSID, 1);
691 DMCtx *dm_field =
static_cast<DMCtx *
>(dm->data);
693 dm_field->
snesCtx->get_preProcess_to_do_Mat().push_back(pre_only);
696 dm_field->
snesCtx->get_loops_to_do_Mat().push_back(
700 dm_field->
snesCtx->get_postProcess_to_do_Mat().push_back(post_only);
712 dm, fe_name, method, pre_only, post_only);
717 boost::shared_ptr<MoFEM::FEMethod> method,
718 boost::shared_ptr<MoFEM::BasicMethod> pre_only,
719 boost::shared_ptr<MoFEM::BasicMethod> post_only) {
721 boost::shared_ptr<MoFEM::FEMethod>,
722 boost::shared_ptr<MoFEM::BasicMethod>,
723 boost::shared_ptr<MoFEM::BasicMethod>>(
724 dm, fe_name, method, pre_only, post_only);
727template <
class S,
class T0,
class T1,
class T2>
729 T1 pre_only, T2 post_only) {
730 PetscValidHeaderSpecific(dm, DM_CLASSID, 1);
732 DMCtx *dm_field =
static_cast<DMCtx *
>(dm->data);
734 dm_field->
tsCtx->getPreProcessIFunction().push_back(pre_only);
737 dm_field->
tsCtx->getLoopsIFunction().push_back(
741 dm_field->
tsCtx->getPostProcessIFunction().push_back(post_only);
753 dm, fe_name, method, pre_only, post_only);
759 boost::shared_ptr<MoFEM::FEMethod> method,
760 boost::shared_ptr<MoFEM::BasicMethod> pre_only,
761 boost::shared_ptr<MoFEM::BasicMethod> post_only) {
763 boost::shared_ptr<MoFEM::FEMethod>,
764 boost::shared_ptr<MoFEM::BasicMethod>,
765 boost::shared_ptr<MoFEM::BasicMethod>>(
766 dm, fe_name, method, pre_only, post_only);
770template <
class S,
class T0,
class T1,
class T2>
772 T1 pre_only, T2 post_only) {
773 PetscValidHeaderSpecific(dm, DM_CLASSID, 1);
775 DMCtx *dm_field =
static_cast<DMCtx *
>(dm->data);
777 dm_field->
tsCtx->getPreProcessIJacobian().push_back(pre_only);
780 dm_field->
tsCtx->getLoopsIJacobian().push_back(
784 dm_field->
tsCtx->getPostProcessIJacobian().push_back(post_only);
796 pre_only, post_only);
801 boost::shared_ptr<MoFEM::FEMethod> method,
802 boost::shared_ptr<MoFEM::BasicMethod> pre_only,
803 boost::shared_ptr<MoFEM::BasicMethod> post_only) {
805 boost::shared_ptr<MoFEM::FEMethod>,
806 boost::shared_ptr<MoFEM::BasicMethod>,
807 boost::shared_ptr<MoFEM::BasicMethod>>(
808 dm, fe_name, method, pre_only, post_only);
811template <
class S,
class T0,
class T1,
class T2>
813 T1 pre_only, T2 post_only) {
814 PetscValidHeaderSpecific(dm, DM_CLASSID, 1);
816 DMCtx *dm_field =
static_cast<DMCtx *
>(dm->data);
818 dm_field->
tsCtx->getPreProcessRHSFunction().push_back(pre_only);
820 dm_field->
tsCtx->getLoopsRHSFunction().push_back(
823 dm_field->
tsCtx->getPostProcessRHSFunction().push_back(post_only);
830 boost::shared_ptr<MoFEM::FEMethod> method,
831 boost::shared_ptr<MoFEM::BasicMethod> pre_only,
832 boost::shared_ptr<MoFEM::BasicMethod> post_only) {
834 boost::shared_ptr<MoFEM::FEMethod>,
835 boost::shared_ptr<MoFEM::BasicMethod>,
836 boost::shared_ptr<MoFEM::BasicMethod>>(
837 dm, fe_name, method, pre_only, post_only);
847 dm, fe_name, method, pre_only, post_only);
851template <
class S,
class T0,
class T1,
class T2>
853 T1 pre_only, T2 post_only) {
854 PetscValidHeaderSpecific(dm, DM_CLASSID, 1);
856 DMCtx *dm_field =
static_cast<DMCtx *
>(dm->data);
858 dm_field->
tsCtx->getPreProcessRHSFunction().push_back(pre_only);
860 dm_field->
tsCtx->getLoopsRHSFunction().push_back(
863 dm_field->
tsCtx->getPostProcessRHSFunction().push_back(post_only);
870 boost::shared_ptr<MoFEM::FEMethod> method,
871 boost::shared_ptr<MoFEM::BasicMethod> pre_only,
872 boost::shared_ptr<MoFEM::BasicMethod> post_only) {
874 boost::shared_ptr<MoFEM::FEMethod>,
875 boost::shared_ptr<MoFEM::BasicMethod>,
876 boost::shared_ptr<MoFEM::BasicMethod>>(
877 dm, fe_name, method, pre_only, post_only);
887 dm, fe_name, method, pre_only, post_only);
891template <
class S,
class T0,
class T1,
class T2>
893 T1 pre_only, T2 post_only) {
894 PetscValidHeaderSpecific(dm, DM_CLASSID, 1);
896 DMCtx *dm_field =
static_cast<DMCtx *
>(dm->data);
898 dm_field->
tsCtx->getPreProcessIFunction().push_back(pre_only);
901 dm_field->
tsCtx->getLoopsIFunction().push_back(
905 dm_field->
tsCtx->getPostProcessIFunction().push_back(post_only);
917 dm, fe_name, method, pre_only, post_only);
923 boost::shared_ptr<MoFEM::FEMethod> method,
924 boost::shared_ptr<MoFEM::BasicMethod> pre_only,
925 boost::shared_ptr<MoFEM::BasicMethod> post_only) {
927 boost::shared_ptr<MoFEM::FEMethod>,
928 boost::shared_ptr<MoFEM::BasicMethod>,
929 boost::shared_ptr<MoFEM::BasicMethod>>(
930 dm, fe_name, method, pre_only, post_only);
934template <
class S,
class T0,
class T1,
class T2>
936 T1 pre_only, T2 post_only) {
937 PetscValidHeaderSpecific(dm, DM_CLASSID, 1);
939 DMCtx *dm_field =
static_cast<DMCtx *
>(dm->data);
941 dm_field->
tsCtx->getPreProcessIJacobian().push_back(pre_only);
944 dm_field->
tsCtx->getLoopsIJacobian().push_back(
948 dm_field->
tsCtx->getPostProcessIJacobian().push_back(post_only);
960 pre_only, post_only);
965 boost::shared_ptr<MoFEM::FEMethod> method,
966 boost::shared_ptr<MoFEM::BasicMethod> pre_only,
967 boost::shared_ptr<MoFEM::BasicMethod> post_only) {
969 boost::shared_ptr<MoFEM::FEMethod>,
970 boost::shared_ptr<MoFEM::BasicMethod>,
971 boost::shared_ptr<MoFEM::BasicMethod>>(
972 dm, fe_name, method, pre_only, post_only);
975template <
class S,
class T0,
class T1,
class T2>
977 T1 pre_only, T2 post_only) {
978 PetscValidHeaderSpecific(dm, DM_CLASSID, 1);
980 DMCtx *dm_field =
static_cast<DMCtx *
>(dm->data);
982 dm_field->
tsCtx->getPreProcessMonitor().push_back(pre_only);
984 dm_field->
tsCtx->getLoopsMonitor().push_back(
987 dm_field->
tsCtx->getPostProcessMonitor().push_back(post_only);
998 dm, ts, fe_name, method, pre_only, post_only);
1004 boost::shared_ptr<MoFEM::FEMethod> method,
1005 boost::shared_ptr<MoFEM::BasicMethod> pre_only,
1006 boost::shared_ptr<MoFEM::BasicMethod> post_only) {
1008 boost::shared_ptr<MoFEM::FEMethod>,
1009 boost::shared_ptr<MoFEM::BasicMethod>,
1010 boost::shared_ptr<MoFEM::BasicMethod>>(
1011 dm, ts, fe_name, method, pre_only, post_only);
1016 PetscValidHeaderSpecific(dm, DM_CLASSID, 1);
1018 DMCtx *dm_field =
static_cast<DMCtx *
>(dm->data);
1019 *ksp_ctx = dm_field->
kspCtx.get();
1025 PetscValidHeaderSpecific(dm, DM_CLASSID, 1);
1027 DMCtx *dm_field =
static_cast<DMCtx *
>(dm->data);
1028 const_cast<boost::shared_ptr<MoFEM::KspCtx> &
>(ksp_ctx) = dm_field->
kspCtx;
1033 boost::shared_ptr<MoFEM::KspCtx> ksp_ctx) {
1034 PetscValidHeaderSpecific(dm, DM_CLASSID, 1);
1036 DMCtx *dm_field =
static_cast<DMCtx *
>(dm->data);
1037 dm_field->
kspCtx = ksp_ctx;
1042 PetscValidHeaderSpecific(dm, DM_CLASSID, 1);
1045 *snes_ctx = dm_field->
snesCtx.get();
1051 PetscValidHeaderSpecific(dm, DM_CLASSID, 1);
1053 DMCtx *dm_field =
static_cast<DMCtx *
>(dm->data);
1054 const_cast<boost::shared_ptr<MoFEM::SnesCtx> &
>(snes_ctx) = dm_field->
snesCtx;
1059 boost::shared_ptr<MoFEM::SnesCtx> snes_ctx) {
1060 PetscValidHeaderSpecific(dm, DM_CLASSID, 1);
1062 DMCtx *dm_field =
static_cast<DMCtx *
>(dm->data);
1071 PetscValidHeaderSpecific(dm, DM_CLASSID, 1);
1073 DMCtx *dm_field =
static_cast<DMCtx *
>(dm->data);
1082 PetscValidHeaderSpecific(dm, DM_CLASSID, 1);
1084 DMCtx *dm_field =
static_cast<DMCtx *
>(dm->data);
1090 PetscValidHeaderSpecific(dm, DM_CLASSID, 1);
1092 DMCtx *dm_field =
static_cast<DMCtx *
>(dm->data);
1093 *ts_ctx = dm_field->
tsCtx.get();
1098 const boost::shared_ptr<MoFEM::TsCtx> &ts_ctx) {
1099 PetscValidHeaderSpecific(dm, DM_CLASSID, 1);
1101 DMCtx *dm_field =
static_cast<DMCtx *
>(dm->data);
1102 const_cast<boost::shared_ptr<MoFEM::TsCtx> &
>(ts_ctx) = dm_field->
tsCtx;
1107 PetscValidHeaderSpecific(dm, DM_CLASSID, 1);
1109 DMCtx *dm_field =
static_cast<DMCtx *
>(dm->data);
1110 dm_field->
tsCtx = ts_ctx;
1115 PetscValidHeaderSpecific(dm, DM_CLASSID, 1);
1117 DMCtx *dm_field =
static_cast<DMCtx *
>(dm->data);
1125 PetscValidHeaderSpecific(dm, DM_CLASSID, 1);
1127 DMCtx *dm_field =
static_cast<DMCtx *
>(dm->data);
1130 CHKERR VecSetDM(g_ptr, dm);
1135 PetscValidHeaderSpecific(dm, DM_CLASSID, 1);
1137 DMCtx *dm_field =
static_cast<DMCtx *
>(dm->data);
1145 PetscValidHeaderSpecific(dm, DM_CLASSID, 1);
1147 DMCtx *dm_field =
static_cast<DMCtx *
>(dm->data);
1148 if (strcmp(dm->mattype, MATMPIAIJ) == 0) {
1150 ->createMPIAIJWithArrays<PetscGlobalIdx_mi_tag>(dm_field->
problemName,
1152 }
else if (strcmp(dm->mattype, MATAIJ) == 0) {
1154 ->createSeqAIJWithArrays<PetscLocalIdx_mi_tag>(dm_field->
problemName,
1156 }
else if (strcmp(dm->mattype, MATAIJCUSPARSE) == 0) {
1158 ->createMPIAIJCUSPARSEWithArrays<PetscGlobalIdx_mi_tag>(
1160 }
else if (strcmp(dm->mattype, MATSEQAIJCUSPARSE) == 0) {
1162 ->createSeqAIJCUSPARSEWithArrays<PetscLocalIdx_mi_tag>(
1166 "Matrix type not implemented");
1173 PetscValidHeaderSpecific(dm, DM_CLASSID, 1);
1175 DMCtx *dm_field =
static_cast<DMCtx *
>(dm->data);
1176 if (strcmp(dm->mattype, MATMPIAIJ) == 0) {
1178 ->createMPIAIJWithArrays<PetscGlobalIdx_mi_tag>(dm_field->
problemName,
1180 }
else if (strcmp(dm->mattype, MATAIJ) == 0) {
1182 ->createSeqAIJWithArrays<PetscLocalIdx_mi_tag>(dm_field->
problemName,
1184 }
else if (strcmp(dm->mattype, MATAIJCUSPARSE) == 0) {
1186 ->createMPIAIJCUSPARSEWithArrays<PetscGlobalIdx_mi_tag>(
1188 }
else if (strcmp(dm->mattype, MATSEQAIJCUSPARSE) == 0) {
1190 ->createSeqAIJCUSPARSEWithArrays<PetscLocalIdx_mi_tag>(
1194 "Matrix type not implemented");
1200#if PETSC_VERSION_GE(3, 7, 0)
1203#elif PETSC_VERSION_GE(3, 5, 3)
1209 PetscValidHeaderSpecific(dm, DM_CLASSID, 1);
1211 DMCtx *dm_field =
static_cast<DMCtx *
>(dm->data);
1212#if PETSC_VERSION_GE(3, 5, 3)
1213 ierr = PetscOptionsHead(PetscOptionsObject,
"DMMoFEM Options");
1216 ierr = PetscOptionsHead(
"DMMoFEM Options");
1219 ierr = PetscOptionsBool(
"-dm_is_partitioned",
1220 "set if mesh is partitioned (works which native MOAB "
1221 "file format, i.e. h5m",
1229 PetscValidHeaderSpecific(dm, DM_CLASSID, 1);
1232 DMCtx *dm_field =
static_cast<DMCtx *
>(dm->data);
1276 PetscValidHeaderSpecific(subdm, DM_CLASSID, 1);
1280 DMCtx *subdm_field =
static_cast<DMCtx *
>(subdm->data);
1285 map<std::string, std::pair<EntityType, EntityType>> *entity_map_row =
nullptr;
1286 map<std::string, std::pair<EntityType, EntityType>> *entity_map_col =
nullptr;
1289 entity_map_row = subdm_field->
mapTypeRow.get();
1291 entity_map_row = subdm_field->
mapTypeCol.get();
1296 subdm_field->
isSquareMatrix == PETSC_TRUE, entity_map_row, entity_map_col,
1303 0, subdm_field->
sIze,
1324 PetscValidHeaderSpecific(dm, DM_CLASSID, 1);
1326 CHKERR VecGhostUpdateBegin(
g, INSERT_VALUES, SCATTER_FORWARD);
1332 PetscValidHeaderSpecific(dm, DM_CLASSID, 1);
1335 CHKERR VecGhostUpdateEnd(
g, INSERT_VALUES, SCATTER_FORWARD);
1337 DMCtx *dm_field =
static_cast<DMCtx *
>(dm->data);
1341 double *array_loc, *array_glob;
1342 CHKERR VecGetArray(
l, &array_loc);
1343 CHKERR VecGetArray(
g, &array_glob);
1346 cblas_dcopy(nb_dofs + nb_ghost, array_glob, 1, array_loc, 1);
1349 cblas_daxpy(nb_dofs + nb_ghost, 1, array_glob, 1, array_loc, 1);
1354 CHKERR VecRestoreArray(
l, &array_loc);
1355 CHKERR VecRestoreArray(
g, &array_glob);
1362 PetscValidHeaderSpecific(dm, DM_CLASSID, 1);
1365 DMCtx *dm_field =
static_cast<DMCtx *
>(dm->data);
1369 double *array_loc, *array_glob;
1370 CHKERR VecGetArray(
l, &array_loc);
1371 CHKERR VecGetArray(
g, &array_glob);
1374 cblas_dcopy(nb_dofs + nb_ghost, array_loc, 1, array_glob, 1);
1377 cblas_daxpy(nb_dofs + nb_ghost, 1, array_loc, 1, array_glob, 1);
1382 CHKERR VecRestoreArray(
l, &array_loc);
1383 CHKERR VecRestoreArray(
g, &array_glob);
1395 char ***fieldNames, IS **fields) {
1396 PetscValidHeaderSpecific(dm, DM_CLASSID, 1);
1409 DMCtx *dm_field =
static_cast<DMCtx *
>(dm->data);
1411 Field_multiIndex::iterator fit, hi_fit;
1412 fit = fields_ptr->begin();
1413 hi_fit = fields_ptr->end();
1414 *numFields = std::distance(fit, hi_fit);
1417 CHKERR PetscMalloc1(*numFields, fieldNames);
1420 CHKERR PetscMalloc1(*numFields, fields);
1423 for (
int f = 0; fit != hi_fit; fit++, f++) {
1425 CHKERR PetscStrallocpy(fit->get()->getName().c_str(),
1426 (
char **)&(*fieldNames)[f]);
1430 ->isCreateProblemFieldAndRank(
1432 fit->get()->getNbOfCoeffs(), &(*fields)[f]);
1441 PetscValidHeaderSpecific(dm, DM_CLASSID, 1);
1443 DMCtx *dm_field =
static_cast<DMCtx *
>(dm->data);
1451 PetscValidHeaderSpecific(dm, DM_CLASSID, 1);
1453 DMCtx *dm_field =
static_cast<DMCtx *
>(dm->data);
Discrete manager interface for MoFEM.
#define MoFEMFunctionReturnHot(a)
Last executable line of each PETSc function used for error handling. Replaces return()
#define MoFEMFunctionBegin
First executable line of each MoFEM function, used for error handling. Final line of MoFEM functions ...
#define CHKERRG(n)
Check error code of MoFEM/MOAB/PETSc function.
@ MOFEM_DATA_INCONSISTENCY
#define MoFEMFunctionReturn(a)
Last executable line of each PETSc function used for error handling. Replaces return()
#define CHKERR
Inline error check.
#define MoFEMFunctionBeginHot
First executable line of each MoFEM function, used for error handling. Final line of MoFEM functions ...
PetscErrorCode DMGlobalToLocalBegin_MoFEM(DM dm, Vec, InsertMode, Vec)
PetscErrorCode DMGlobalToLocalEnd_MoFEM(DM dm, Vec, InsertMode, Vec)
PetscErrorCode DMMoFEMResolveSharedFiniteElements(DM dm, const char fe_name[])
Resolve shared entities.
PetscErrorCode DMMoFEMSetIsPartitioned(DM dm, PetscBool is_partitioned)
PetscErrorCode DMMoFEMCreateSubDM(DM subdm, DM dm, const char problem_name[])
Must be called by user to set Sub DM MoFEM data structures.
PetscErrorCode DMMoFEMGetIsPartitioned(DM dm, PetscBool *is_partitioned)
PetscErrorCode DMMoFEMGetProblemFiniteElementLayout(DM dm, const char fe_name[], PetscLayout *layout)
Get finite elements layout in the problem.
PetscErrorCode DMMoFEMSNESSetFunction(DM dm, const char fe_name[], MoFEM::FEMethod *method, MoFEM::BasicMethod *pre_only, MoFEM::BasicMethod *post_only)
set SNES residual evaluation function
PetscErrorCode DMCreateLocalVector_MoFEM(DM dm, Vec *l)
DMShellSetCreateLocalVector.
PetscErrorCode DMMoFEMSetSquareProblem(DM dm, PetscBool square_problem)
set squared problem
PetscErrorCode DMMoFEMTSSetIFunction(DM dm, const char fe_name[], MoFEM::FEMethod *method, MoFEM::BasicMethod *pre_only, MoFEM::BasicMethod *post_only)
set TS implicit function evaluation function
PetscErrorCode DMMoFEMAddSubFieldRow(DM dm, const char field_name[], EntityType lo_type=MBVERTEX, EntityType hi_type=MBMAXTYPE)
PetscErrorCode DMDestroy_MoFEM(DM dm)
Destroys dm with MoFEM data structure.
PetscErrorCode DMMoFEMCreateMoFEM(DM dm, MoFEM::Interface *m_field_ptr, const char problem_name[], const MoFEM::BitRefLevel bit_level, const MoFEM::BitRefLevel bit_mask=MoFEM::BitRefLevel().set())
Must be called by user to set MoFEM data structures.
PetscErrorCode DMMoFEMAddElement(DM dm, const char fe_name[])
add element to dm
PetscErrorCode DMoFEMPostProcessFiniteElements(DM dm, MoFEM::FEMethod *method)
execute finite element method for each element in dm (problem)
PetscErrorCode DMoFEMMeshToLocalVector(DM dm, Vec l, InsertMode mode, ScatterMode scatter_mode)
set local (or ghosted) vector values on mesh for partition only
PetscErrorCode DMMoFEMAddColCompositeProblem(DM dm, const char prb_name[])
Add problem to composite DM on col.
PetscErrorCode DMLocalToGlobalBegin_MoFEM(DM, Vec, InsertMode, Vec)
PetscErrorCode DMMoFEMGetProblemPtr(DM dm, const MoFEM::Problem **problem_ptr)
Get pointer to problem data structure.
PetscErrorCode DMCreate_MoFEM(DM dm)
Create dm data structure with MoFEM data structure.
PetscErrorCode DMMoFEMSetSnesCtx(DM dm, boost::shared_ptr< MoFEM::SnesCtx > snes_ctx)
Set MoFEM::SnesCtx data structure.
PetscErrorCode DMMoFEMSetKspCtx(DM dm, boost::shared_ptr< MoFEM::KspCtx > ksp_ctx)
set MoFEM::KspCtx data structure
PetscErrorCode DMMoFEMGetIsSubDM(DM dm, PetscBool *is_sub_dm)
PetscErrorCode DMMoFEMAddRowCompositeProblem(DM dm, const char prb_name[])
Add problem to composite DM on row.
PetscErrorCode DMMoFEMSNESSetJacobian(DM dm, const char fe_name[], MoFEM::FEMethod *method, MoFEM::BasicMethod *pre_only, MoFEM::BasicMethod *post_only)
set SNES Jacobian evaluation function
PetscErrorCode DMCreateMatrix_MoFEM(DM dm, Mat *M)
PetscErrorCode DMSetFromOptions_MoFEM(DM dm)
PetscErrorCode DMMoFEMGetTsCtx(DM dm, MoFEM::TsCtx **ts_ctx)
get MoFEM::TsCtx data structure
PetscErrorCode DMMoFEMAddSubFieldCol(DM dm, const char field_name[], EntityType lo_type=MBVERTEX, EntityType hi_type=MBMAXTYPE)
PetscErrorCode DMRegister_MoFEM(const char sname[])
Register MoFEM problem.
PetscErrorCode DMMoFEMUnSetElement(DM dm, const char fe_name[])
unset element from dm
PetscErrorCode DMMoFEMGetKspCtx(DM dm, MoFEM::KspCtx **ksp_ctx)
get MoFEM::KspCtx data structure
PetscErrorCode DMMoFEMGetSquareProblem(DM dm, PetscBool *square_problem)
get squared problem
PetscErrorCode DMoFEMLoopDofs(DM dm, const char field_name[], MoFEM::DofMethod *method)
execute method for dofs on field in problem
PetscErrorCode DMMoFEMKSPSetComputeRHS(DM dm, const char fe_name[], MoFEM::FEMethod *method, MoFEM::BasicMethod *pre_only, MoFEM::BasicMethod *post_only)
set KSP right hand side evaluation function
PetscErrorCode DMMoFEMSetTsCtx(DM dm, boost::shared_ptr< MoFEM::TsCtx > ts_ctx)
Set MoFEM::TsCtx data structure.
PetscErrorCode DMoFEMLoopFiniteElements(DM dm, const char fe_name[], MoFEM::FEMethod *method, CacheTupleWeakPtr cache_ptr=CacheTupleSharedPtr())
Executes FEMethod for finite elements in DM.
PetscErrorCode DMMoFEMGetFieldIS(DM dm, RowColData rc, const char field_name[], IS *is)
get field is in the problem
PetscErrorCode DMMoFEMTSSetIJacobian(DM dm, const std::string fe_name, boost::shared_ptr< MoFEM::FEMethod > method, boost::shared_ptr< MoFEM::BasicMethod > pre_only, boost::shared_ptr< MoFEM::BasicMethod > post_only)
set TS Jacobian evaluation function
PetscErrorCode DMoFEMGetInterfacePtr(DM dm, MoFEM::Interface **m_field_ptr)
Get pointer to MoFEM::Interface.
PetscErrorCode DMMoFEMTSSetI2Jacobian(DM dm, const std::string fe_name, boost::shared_ptr< MoFEM::FEMethod > method, boost::shared_ptr< MoFEM::BasicMethod > pre_only, boost::shared_ptr< MoFEM::BasicMethod > post_only)
set TS Jacobian evaluation function
PetscErrorCode DMMoFEMTSSetI2Function(DM dm, const std::string fe_name, boost::shared_ptr< MoFEM::FEMethod > method, boost::shared_ptr< MoFEM::BasicMethod > pre_only, boost::shared_ptr< MoFEM::BasicMethod > post_only)
set TS implicit function evaluation function
PetscErrorCode DMCreateGlobalVector_MoFEM(DM dm, Vec *g)
DMShellSetCreateGlobalVector.
PetscErrorCode DMMoFEMGetSnesCtx(DM dm, MoFEM::SnesCtx **snes_ctx)
get MoFEM::SnesCtx data structure
PetscErrorCode DMoFEMMeshToGlobalVector(DM dm, Vec g, InsertMode mode, ScatterMode scatter_mode)
set ghosted vector values on all existing mesh entities
PetscErrorCode DMMoFEMGetIsCompDM(DM dm, PetscBool *is_comp_dm)
Get if this DM is composite DM.
PetscErrorCode DMSubDMSetUp_MoFEM(DM subdm)
PetscErrorCode DMMoFEMKSPSetComputeOperators(DM dm, const char fe_name[], MoFEM::FEMethod *method, MoFEM::BasicMethod *pre_only, MoFEM::BasicMethod *post_only)
Set KSP operators and push mofem finite element methods.
PetscErrorCode DMCreateFieldIS_MoFEM(DM dm, PetscInt *numFields, char ***fieldNames, IS **fields)
PetscErrorCode DMSetUp_MoFEM(DM dm)
PetscErrorCode DMLocalToGlobalEnd_MoFEM(DM, Vec, InsertMode, Vec)
PetscErrorCode DMoFEMLoopFiniteElementsUpAndLowRank(DM dm, const char fe_name[], MoFEM::FEMethod *method, int low_rank, int up_rank, CacheTupleWeakPtr cache_ptr=CacheTupleSharedPtr())
Executes FEMethod for finite elements in DM.
PetscErrorCode DMoFEMPreProcessFiniteElements(DM dm, MoFEM::FEMethod *method)
execute finite element method for each element in dm (problem)
PetscErrorCode DMSetOperators_MoFEM(DM dm)
Set operators for MoFEM dm.
virtual const Problem * get_problem(const std::string problem_name) const =0
Get the problem object.
virtual const Field_multiIndex * get_fields() const =0
Get the fields object.
static LoggerType & setLog(const std::string channel)
Set ans resset chanel logger.
#define MOFEM_LOG(channel, severity)
Log.
#define MOFEM_LOG_TAG(channel, tag)
Tag channel.
virtual MoFEMErrorCode loop_dofs(const Problem *problem_ptr, const std::string &field_name, RowColData rc, DofMethod &method, int lower_rank, int upper_rank, int verb=DEFAULT_VERBOSITY)=0
Make a loop over dofs.
virtual MoFEMErrorCode problem_basic_method_postProcess(const Problem *problem_ptr, BasicMethod &method, int verb=DEFAULT_VERBOSITY)=0
Set data for BasicMethod.
virtual MoFEMErrorCode loop_finite_elements(const std::string &problem_name, const std::string &fe_name, FEMethod &method, boost::shared_ptr< NumeredEntFiniteElement_multiIndex > fe_ptr=nullptr, MoFEMTypes bh=MF_EXIST, CacheTupleWeakPtr cache_ptr=CacheTupleSharedPtr(), int verb=DEFAULT_VERBOSITY)=0
Make a loop over finite elements.
MoFEMErrorCode buildProblemOnDistributedMesh(const std::string name, const bool square_matrix, int verb=VERBOSE)
build problem data structures, assuming that mesh is distributed (collective)
MoFEMErrorCode partitionGhostDofs(const std::string name, int verb=VERBOSE)
determine ghost nodes
MoFEMErrorCode buildComposedProblem(const std::string out_name, const std::vector< std::string > add_row_problems, const std::vector< std::string > add_col_problems, const bool square_matrix=true, int verb=1)
build composite problem
MoFEMErrorCode buildSubProblem(const std::string out_name, const std::vector< std::string > &fields_row, const std::vector< std::string > &fields_col, const std::string main_problem, const bool square_matrix=true, const map< std::string, std::pair< EntityType, EntityType > > *entityMapRow=nullptr, const map< std::string, std::pair< EntityType, EntityType > > *entityMapCol=nullptr, int verb=VERBOSE)
build sub problem
MoFEMErrorCode buildProblem(const std::string name, const bool square_matrix, int verb=VERBOSE)
build problem data structures
MoFEMErrorCode partitionProblem(const std::string name, int verb=VERBOSE)
partition problem dofs (collective)
MoFEMErrorCode partitionGhostDofsOnDistributedMesh(const std::string name, int verb=VERBOSE)
determine ghost nodes on distributed meshes
MoFEMErrorCode partitionFiniteElements(const std::string name, bool part_from_moab=false, int low_proc=-1, int hi_proc=-1, int verb=VERBOSE)
partition finite elements
virtual MoFEMErrorCode modify_problem_unset_finite_element(const std::string &name_problem, const std::string &fe_name)=0
unset finite element from problem, this remove entities assigned to finite element to a particular pr...
virtual MoFEMErrorCode modify_problem_add_finite_element(const std::string &name_problem, const std::string &fe_name)=0
add finite element to problem, this add entities assigned to finite element to a particular problem
virtual MoFEMErrorCode add_problem(const std::string &name, enum MoFEMTypes bh=MF_EXCL, int verb=DEFAULT_VERBOSITY)=0
Add problem.
virtual MoFEMErrorCode delete_problem(const std::string name)=0
Delete problem.
virtual MoFEMErrorCode modify_problem_ref_level_add_bit(const std::string &name_problem, const BitRefLevel &bit)=0
add ref level to problem
virtual bool check_problem(const std::string name)=0
check if problem exist
virtual MoFEMErrorCode modify_problem_mask_ref_level_add_bit(const std::string &name_problem, const BitRefLevel &bit)=0
set dof mask ref level for problem
FTensor::Index< 'l', 3 > l
static MoFEMErrorCodeGeneric< PetscErrorCode > ierr
PetscErrorCode MoFEMErrorCode
MoFEM/PETSc error code.
std::bitset< BITREFLEVEL_SIZE > BitRefLevel
Bit structure attached to each entity identifying to what mesh entity is attached.
implementation of Data Operators for Forces and Sources
PetscErrorCode DMMoFEMTSSetMonitor(DM dm, TS ts, const std::string fe_name, boost::shared_ptr< MoFEM::FEMethod > method, boost::shared_ptr< MoFEM::BasicMethod > pre_only, boost::shared_ptr< MoFEM::BasicMethod > post_only)
Set Monitor To TS solver.
PetscErrorCode TsSetIJacobian(TS ts, PetscReal t, Vec u, Vec u_t, PetscReal a, Mat A, Mat B, void *ctx)
Set function evaluating jacobina in TS solver.
PetscErrorCode TsMonitorSet(TS ts, PetscInt step, PetscReal t, Vec u, void *ctx)
Set monitor for TS solver.
PetscErrorCode DMMoFEMTSSetRHSFunction(DM dm, const std::string fe_name, boost::shared_ptr< MoFEM::FEMethod > method, boost::shared_ptr< MoFEM::BasicMethod > pre_only, boost::shared_ptr< MoFEM::BasicMethod > post_only)
set TS the right hand side function
PetscErrorCode SnesMat(SNES snes, Vec x, Mat A, Mat B, void *ctx)
This is MoFEM implementation for the left hand side (tangent matrix) evaluation in SNES solver.
PetscErrorCode DMMoFEMSetDestroyProblem(DM dm, PetscBool destroy_problem)
PetscErrorCode DMMoFEMGetDestroyProblem(DM dm, PetscBool *destroy_problem)
PetscErrorCode TsSetI2Function(TS ts, PetscReal t, Vec u, Vec u_t, Vec u_tt, Vec F, void *ctx)
Calculation the right hand side for second order PDE in time.
PetscErrorCode TsSetRHSFunction(TS ts, PetscReal t, Vec u, Vec F, void *ctx)
TS solver function.
PetscErrorCode SnesRhs(SNES snes, Vec x, Vec f, void *ctx)
This is MoFEM implementation for the right hand side (residual vector) evaluation in SNES solver.
PetscErrorCode DMMoFEMGetSubRowIS(DM dm, IS *is)
get sub problem is
PetscErrorCode TsSetIFunction(TS ts, PetscReal t, Vec u, Vec u_t, Vec F, void *ctx)
Set IFunction for TS solver.
PetscErrorCode DMMoFEMGetSubColIS(DM dm, IS *is)
get sub problem is
PetscErrorCode KspRhs(KSP ksp, Vec f, void *ctx)
Run over elements in the lists.
PetscErrorCode TsSetI2Jacobian(TS ts, PetscReal t, Vec u, Vec u_t, Vec u_tt, PetscReal a, PetscReal aa, Mat A, Mat B, void *ctx)
Calculation Jaconian for second order PDE in time.
PetscErrorCode KspMat(KSP ksp, Mat A, Mat B, void *ctx)
Run over elenents in the list.
PetscErrorCode TsSetRHSJacobian(TS ts, PetscReal t, Vec u, Mat A, Mat B, void *ctx)
TS solver function.
PetscErrorCode DMMoFEMTSSetRHSJacobian(DM dm, const std::string fe_name, boost::shared_ptr< MoFEM::FEMethod > method, boost::shared_ptr< MoFEM::BasicMethod > pre_only, boost::shared_ptr< MoFEM::BasicMethod > post_only)
set TS the right hand side jacobian
PetscErrorCode DMMoFEMSetVerbosity(DM dm, const int verb)
Set verbosity level.
PetscErrorCode DMMoFEMDuplicateDMCtx(DM dm, DM dm_duplicate)
Duplicate internal data struture.
DEPRECATED PetscErrorCode DMMoFEMResolveSharedEntities(DM dm, const char fe_name[])
boost::weak_ptr< CacheTuple > CacheTupleWeakPtr
constexpr auto field_name
Data structure to exchange data between mofem and User Loop Methods.
virtual MoFEMErrorCode problem_basic_method_preProcess(const Problem *problem_ptr, BasicMethod &method, int verb=DEFAULT_VERBOSITY)=0
Set data for BasicMethod.
virtual MPI_Comm & get_comm() const =0
PETSc Discrete Manager data structure.
std::string problemName
Problem name.
const Problem * problemPtr
pinter to problem data structure
std::vector< std::string > rowCompPrb
boost::shared_ptr< SnesCtx > snesCtx
data structure SNES
boost::shared_ptr< TsCtx > tsCtx
data structure for TS solver
PetscBool isSquareMatrix
true if rows equals to cols
PetscBool isPartitioned
true if read mesh is on parts
PetscBool isProblemBuild
True if problem is build.
Interface * mField_ptr
MoFEM interface.
boost::shared_ptr< KspCtx > kspCtx
data structure KSP
boost::shared_ptr< std::map< std::string, std::pair< EntityType, EntityType > > > mapTypeRow
std::vector< std::string > colCompPrb
MoFEMErrorCode query_interface(boost::typeindex::type_index type_index, UnknownInterface **iface) const
std::vector< std::string > colFields
PetscBool destroyProblem
If true destroy problem with DM.
std::vector< std::string > rowFields
const Problem * problemMainOfSubPtr
pinter to main problem to sub-problem
boost::shared_ptr< std::map< std::string, std::pair< EntityType, EntityType > > > mapTypeCol
Deprecated interface functions.
Data structure to exchange data between mofem and User Loop Methods on entities.
structure for User Loop Methods on finite elements
Section manager is used to create indexes and sections.
Interface for linear (KSP) solver.
static boost::shared_ptr< SinkType > createSink(boost::shared_ptr< std::ostream > stream_ptr, std::string comm_filter)
Create a sink object.
static boost::shared_ptr< std::ostream > getStrmWorld()
Get the strm world object.
static boost::shared_ptr< std::ostream > getStrmSync()
Get the strm sync object.
static bool checkIfChannelExist(const std::string channel)
Check if channel exist.
static boost::shared_ptr< std::ostream > getStrmSelf()
Get the strm self object.
Matrix manager is used to build and partition problems.
keeps basic data about problem
DofIdx getNbLocalDofsRow() const
MoFEMErrorCode getNumberOfElementsByNameAndPart(MPI_Comm comm, const std::string name, PetscLayout *layout) const
Get number of finite elements by name on processors.
BitRefLevel getBitRefLevel() const
BitRefLevel getBitRefLevelMask() const
boost::shared_ptr< SubProblemData > & getSubData() const
Get main problem of sub-problem is.
DofIdx getNbGhostDofsRow() const
Problem manager is used to build and partition problems.
intrusive_ptr for managing petsc objects
Interface for nonlinear (SNES) solver.
Interface for Time Stepping (TS) solver.
base class for all interface classes
MoFEMErrorCode getInterface(IFACE *&iface) const
Get interface refernce to pointer of interface.
Vector manager is used to create vectors \mofem_vectors.
