mofem/html/_ts_ctx_8cpp_source.html

namespace MoFEM {


MoFEMErrorCode TsCtx::clearLoops() {

  MoFEMFunctionBeginHot;

  loopsIJacobian.clear();

  loopsIFunction.clear();

  loopsMonitor.clear();

  loopsRHSJacobian.clear();

  loopsRHSFunction.clear();

  preProcessIJacobian.clear();

  postProcessIJacobian.clear();

  preProcessIFunction.clear();

  postProcessIFunction.clear();

  preProcessMonitor.clear();

  postProcessMonitor.clear();

  preProcessRHSJacobian.clear();

  preProcessRHSFunction.clear();

  postProcessRHSJacobian.clear();

  postProcessRHSFunction.clear();

  MoFEMFunctionReturnHot(0);

}


PetscErrorCode TsSetIFunction(TS ts, PetscReal t, Vec u, Vec u_t, Vec F,

                              void *ctx) {

  MoFEMFunctionBegin;

  TsCtx *ts_ctx = static_cast<TsCtx *>(ctx);

  PetscLogEventBegin(ts_ctx->MOFEM_EVENT_TsCtxIFunction, 0, 0, 0, 0);

  CHKERR VecGhostUpdateBegin(u, INSERT_VALUES, SCATTER_FORWARD);

  CHKERR VecGhostUpdateEnd(u, INSERT_VALUES, SCATTER_FORWARD);

  CHKERR VecGhostUpdateBegin(u_t, INSERT_VALUES, SCATTER_FORWARD);

  CHKERR VecGhostUpdateEnd(u_t, INSERT_VALUES, SCATTER_FORWARD);

  CHKERR ts_ctx->mField.getInterface<VecManager>()->setLocalGhostVector(

      ts_ctx->problemName, COL, u, INSERT_VALUES, SCATTER_REVERSE);


  auto zero_ghost_vec = [](Vec g) {

    MoFEMFunctionBegin;

    Vec l;

    CHKERR VecGhostGetLocalForm(g, &l);

    double *a;

    CHKERR VecGetArray(l, &a);

    int s;

    CHKERR VecGetLocalSize(l, &s);

    for (int i = 0; i != s; ++i)

      a[i] = 0;

    CHKERR VecRestoreArray(l, &a);

    CHKERR VecGhostRestoreLocalForm(g, &l);

    MoFEMFunctionReturn(0);

  };

  CHKERR zero_ghost_vec(F);


  ts_ctx->vecAssembleSwitch = boost::movelib::make_unique<bool>(true);


  int step;

#if PETSC_VERSION_GE(3, 8, 0)

  CHKERR TSGetStepNumber(ts, &step);

#else

  CHKERR TSGetTimeStepNumber(ts, &step);

#endif


  auto set = [&](auto &fe) {

    fe.ts = ts;

    fe.ts_u = u;

    fe.ts_u_t = u_t;

    fe.ts_F = F;

    fe.ts_t = t;

    fe.ts_step = step;

    fe.ts_ctx = TSMethod::CTX_TSSETIFUNCTION;

    fe.snes_ctx = SnesMethod::CTX_SNESSETFUNCTION;

    fe.ksp_ctx = KspMethod::CTX_SETFUNCTION;

    fe.data_ctx = PetscData::CtxSetF | PetscData::CtxSetX |

                  PetscData::CtxSetX_T | PetscData::CtxSetTime;

    CHK_THROW_MESSAGE(TSGetTimeStep(ts, &fe.ts_dt), "get time step failed");

  };


  auto unset = [&](auto &fe) {

    fe.ts_ctx = TSMethod::CTX_TSNONE;

    fe.snes_ctx = SnesMethod::CTX_SNESNONE;

    fe.ksp_ctx = KspMethod::CTX_KSPNONE;

    fe.data_ctx = PetscData::CtxSetNone;

  };


  // preprocess

  for (auto &bit : ts_ctx->preProcessIFunction) {

    bit->vecAssembleSwitch = boost::move(ts_ctx->vecAssembleSwitch);

    set(*bit);

    CHKERR ts_ctx->mField.problem_basic_method_preProcess(ts_ctx->problemName,

                                                          *bit);

    unset(*bit);

    ts_ctx->vecAssembleSwitch = boost::move(bit->vecAssembleSwitch);

  }


  auto cache_ptr = boost::make_shared<CacheTuple>();

  CHKERR ts_ctx->mField.cache_problem_entities(ts_ctx->problemName, cache_ptr);


  // fe loops

  for (auto &lit : ts_ctx->loopsIFunction) {

    lit.second->vecAssembleSwitch = boost::move(ts_ctx->vecAssembleSwitch);

    set(*lit.second);

    CHKERR ts_ctx->mField.loop_finite_elements(ts_ctx->problemName, lit.first,

                                               *(lit.second), nullptr,

                                               ts_ctx->bH, cache_ptr);

    unset(*lit.second);

    ts_ctx->vecAssembleSwitch = boost::move(lit.second->vecAssembleSwitch);

  }


  // post process

  for (auto &bit : ts_ctx->postProcessIFunction) {

    bit->vecAssembleSwitch = boost::move(ts_ctx->vecAssembleSwitch);

    set(*bit);

    CHKERR ts_ctx->mField.problem_basic_method_postProcess(ts_ctx->problemName,

                                                           *bit);

    unset(*bit);

    ts_ctx->vecAssembleSwitch = boost::move(bit->vecAssembleSwitch);

  }


  if (*ts_ctx->vecAssembleSwitch) {

    CHKERR VecGhostUpdateBegin(F, ADD_VALUES, SCATTER_REVERSE);

    CHKERR VecGhostUpdateEnd(F, ADD_VALUES, SCATTER_REVERSE);

    CHKERR VecAssemblyBegin(F);

    CHKERR VecAssemblyEnd(F);

  }


  PetscLogEventEnd(ts_ctx->MOFEM_EVENT_TsCtxIFunction, 0, 0, 0, 0);

  MoFEMFunctionReturn(0);

}


PetscErrorCode TsSetIJacobian(TS ts, PetscReal t, Vec u, Vec u_t, PetscReal a,

                              Mat A, Mat B, void *ctx) {

  MoFEMFunctionBegin;


  TsCtx *ts_ctx = static_cast<TsCtx *>(ctx);

  PetscLogEventBegin(ts_ctx->MOFEM_EVENT_TsCtxIFunction, 0, 0, 0, 0);

  CHKERR VecGhostUpdateBegin(u, INSERT_VALUES, SCATTER_FORWARD);

  CHKERR VecGhostUpdateEnd(u, INSERT_VALUES, SCATTER_FORWARD);

  CHKERR VecGhostUpdateBegin(u_t, INSERT_VALUES, SCATTER_FORWARD);

  CHKERR VecGhostUpdateEnd(u_t, INSERT_VALUES, SCATTER_FORWARD);

  CHKERR ts_ctx->mField.getInterface<VecManager>()->setLocalGhostVector(

      ts_ctx->problemName, COL, u, INSERT_VALUES, SCATTER_REVERSE);

  if (ts_ctx->zeroMatrix) {

    CHKERR MatZeroEntries(B);

  }

  int step;

#if PETSC_VERSION_GE(3, 8, 0)

  CHKERR TSGetStepNumber(ts, &step);

#else

  CHKERR TSGetTimeStepNumber(ts, &step);

#endif


  ts_ctx->matAssembleSwitch =

      boost::movelib::make_unique<bool>(ts_ctx->zeroMatrix);


  auto set = [&](auto &fe) {

    fe.ts = ts;

    fe.ts_u = u;

    fe.ts_u_t = u_t;

    fe.ts_A = A;

    fe.ts_B = B;

    fe.ts_t = t;

    fe.ts_a = a;

    fe.ts_step = step;

    fe.ts_ctx = TSMethod::CTX_TSSETIJACOBIAN;

    fe.snes_ctx = SnesMethod::CTX_SNESSETJACOBIAN;

    fe.ksp_ctx = KspMethod::CTX_OPERATORS;

    fe.data_ctx = PetscData::CtxSetA | PetscData::CtxSetB | PetscData::CtxSetX |

                  PetscData::CtxSetX_T | PetscData::CtxSetTime;

    CHK_THROW_MESSAGE(TSGetTimeStep(ts, &fe.ts_dt), "get time step failed");

  };


  auto unset = [&](auto &fe) {

    fe.ts_ctx = TSMethod::CTX_TSNONE;

    fe.snes_ctx = SnesMethod::CTX_SNESNONE;

    fe.ksp_ctx = KspMethod::CTX_KSPNONE;

    fe.data_ctx = PetscData::CtxSetNone;

  };


  // preproces

  for (auto &bit : ts_ctx->preProcessIJacobian) {

    bit->matAssembleSwitch = boost::move(ts_ctx->matAssembleSwitch);

    set(*bit);

    CHKERR ts_ctx->mField.problem_basic_method_preProcess(ts_ctx->problemName,

                                                          *bit);

    unset(*bit);

    ts_ctx->matAssembleSwitch = boost::move(bit->matAssembleSwitch);

  }


  auto cache_ptr = boost::make_shared<CacheTuple>();

  CHKERR ts_ctx->mField.cache_problem_entities(ts_ctx->problemName, cache_ptr);


  for (auto &lit : ts_ctx->loopsIJacobian) {

    lit.second->matAssembleSwitch = boost::move(ts_ctx->matAssembleSwitch);

    set(*lit.second);

    CHKERR ts_ctx->mField.loop_finite_elements(ts_ctx->problemName, lit.first,

                                               *(lit.second), nullptr,

                                               ts_ctx->bH, cache_ptr);

    unset(*lit.second);

    ts_ctx->matAssembleSwitch = boost::move(lit.second->matAssembleSwitch);

  }


  // post process

  for (auto &bit : ts_ctx->postProcessIJacobian) {

    bit->matAssembleSwitch = boost::move(ts_ctx->matAssembleSwitch);

    set(*bit);

    CHKERR ts_ctx->mField.problem_basic_method_postProcess(ts_ctx->problemName,

                                                           *bit);

    unset(*bit);

    ts_ctx->matAssembleSwitch = boost::move(bit->matAssembleSwitch);

  }


  if (ts_ctx->matAssembleSwitch) {

    CHKERR MatAssemblyBegin(B, MAT_FINAL_ASSEMBLY);

    CHKERR MatAssemblyEnd(B, MAT_FINAL_ASSEMBLY);

  }

  PetscLogEventEnd(ts_ctx->MOFEM_EVENT_TsCtxIFunction, 0, 0, 0, 0);

  MoFEMFunctionReturn(0);

}


PetscErrorCode TsMonitorSet(TS ts, PetscInt step, PetscReal t, Vec u,

                            void *ctx) {

  MoFEMFunctionBegin;

  TsCtx *ts_ctx = static_cast<TsCtx *>(ctx);

  PetscLogEventBegin(ts_ctx->MOFEM_EVENT_TsCtxMonitor, 0, 0, 0, 0);

  CHKERR VecGhostUpdateBegin(u, INSERT_VALUES, SCATTER_FORWARD);

  CHKERR VecGhostUpdateEnd(u, INSERT_VALUES, SCATTER_FORWARD);

  CHKERR ts_ctx->mField.getInterface<VecManager>()->setLocalGhostVector(

      ts_ctx->problemName, COL, u, INSERT_VALUES, SCATTER_REVERSE);


  auto set = [&](auto &fe) {

    fe.ts = ts;

    fe.ts_u = u;

    fe.ts_t = t;

    fe.ts_step = step;

    fe.ts_F = PETSC_NULL;

    fe.ts_ctx = TSMethod::CTX_TSTSMONITORSET;

    fe.snes_ctx = SnesMethod::CTX_SNESNONE;

    fe.ksp_ctx = KspMethod::CTX_KSPNONE;

    fe.data_ctx = PetscData::CtxSetX | PetscData::CtxSetTime;

    CHK_THROW_MESSAGE(TSGetTimeStep(ts, &fe.ts_dt), "get time step failed");

  };


  auto unset = [&](auto &fe) {

    fe.ts_ctx = TSMethod::CTX_TSNONE;

    fe.data_ctx = PetscData::CtxSetNone;

  };


  // preproces

  for (auto &bit : ts_ctx->preProcessMonitor) {

    set(*bit);

    CHKERR ts_ctx->mField.problem_basic_method_preProcess(ts_ctx->problemName,

                                                          *bit);

    unset(*bit);

  }


  auto cache_ptr = boost::make_shared<CacheTuple>();

  CHKERR ts_ctx->mField.cache_problem_entities(ts_ctx->problemName, cache_ptr);


  for (auto &lit : ts_ctx->loopsMonitor) {

    set(*lit.second);

    CHKERR ts_ctx->mField.loop_finite_elements(ts_ctx->problemName, lit.first,

                                               *(lit.second), nullptr,

                                               ts_ctx->bH, cache_ptr);

    unset(*lit.second);

  }


  // post process

  for (auto &bit : ts_ctx->postProcessMonitor) {

    set(*bit);

    CHKERR ts_ctx->mField.problem_basic_method_postProcess(ts_ctx->problemName,

                                                           *bit);

    unset(*bit);

  }


  PetscLogEventEnd(ts_ctx->MOFEM_EVENT_TsCtxMonitor, 0, 0, 0, 0);

  MoFEMFunctionReturn(0);

}


PetscErrorCode TsSetRHSFunction(TS ts, PetscReal t, Vec u, Vec F, void *ctx) {

  MoFEMFunctionBegin;

  TsCtx *ts_ctx = static_cast<TsCtx *>(ctx);

  PetscLogEventBegin(ts_ctx->MOFEM_EVENT_TsCtxRHSFunction, 0, 0, 0, 0);

  CHKERR VecGhostUpdateBegin(u, INSERT_VALUES, SCATTER_FORWARD);

  CHKERR VecGhostUpdateEnd(u, INSERT_VALUES, SCATTER_FORWARD);

  CHKERR ts_ctx->mField.getInterface<VecManager>()->setLocalGhostVector(

      ts_ctx->problemName, COL, u, INSERT_VALUES, SCATTER_REVERSE);


  auto zero_ghost_vec = [](Vec g) {

    MoFEMFunctionBegin;

    Vec l;

    CHKERR VecGhostGetLocalForm(g, &l);

    double *a;

    CHKERR VecGetArray(l, &a);

    int s;

    CHKERR VecGetLocalSize(l, &s);

    for (int i = 0; i != s; ++i)

      a[i] = 0;

    CHKERR VecRestoreArray(l, &a);

    CHKERR VecGhostRestoreLocalForm(g, &l);

    MoFEMFunctionReturn(0);

  };

  CHKERR zero_ghost_vec(F);


  ts_ctx->vecAssembleSwitch = boost::movelib::make_unique<bool>(true);


  int step;

#if PETSC_VERSION_GE(3, 8, 0)

  CHKERR TSGetStepNumber(ts, &step);

#else

  CHKERR TSGetTimeStepNumber(ts, &step);

#endif


  auto set = [&](auto &fe) {

    fe.ts_u = u;

    fe.ts_F = F;

    fe.ts_t = t;

    fe.ts = ts;

    fe.ts_step = step;

    fe.ts_ctx = TSMethod::CTX_TSSETRHSFUNCTION;

    fe.snes_ctx = SnesMethod::CTX_SNESSETFUNCTION;

    fe.ksp_ctx = KspMethod::CTX_SETFUNCTION;

    fe.data_ctx =

        PetscData::CtxSetF | PetscData::CtxSetX | PetscData::CtxSetTime;

    CHK_THROW_MESSAGE(TSGetTimeStep(ts, &fe.ts_dt), "get time step failed");

  };


  auto unset = [&](auto &fe) {

    fe.ts_ctx = TSMethod::CTX_TSNONE;

    fe.snes_ctx = SnesMethod::CTX_SNESNONE;

    fe.ksp_ctx = KspMethod::CTX_KSPNONE;

    fe.data_ctx = PetscData::CtxSetNone;

  };


  for (auto &bit : ts_ctx->preProcessRHSJacobian) {

    bit->vecAssembleSwitch = boost::move(ts_ctx->vecAssembleSwitch);

    set(*bit);

    CHKERR ts_ctx->mField.problem_basic_method_preProcess(ts_ctx->problemName,

                                                          *bit);

    unset(*bit);

    ts_ctx->vecAssembleSwitch = boost::move(bit->vecAssembleSwitch);

  }


  auto cache_ptr = boost::make_shared<CacheTuple>();

  CHKERR ts_ctx->mField.cache_problem_entities(ts_ctx->problemName, cache_ptr);


  // fe loops

  for (auto &lit : ts_ctx->loopsRHSFunction) {

    lit.second->vecAssembleSwitch = boost::move(ts_ctx->vecAssembleSwitch);

    set(*lit.second);

    CHKERR ts_ctx->mField.loop_finite_elements(ts_ctx->problemName, lit.first,

                                               *(lit.second), nullptr,

                                               ts_ctx->bH, cache_ptr);

    unset(*lit.second);

    ts_ctx->vecAssembleSwitch = boost::move(lit.second->vecAssembleSwitch);

  }


  // post process

  for (auto &bit : ts_ctx->postProcessRHSJacobian) {

    bit->vecAssembleSwitch = boost::move(ts_ctx->vecAssembleSwitch);

    set(*bit);

    CHKERR ts_ctx->mField.problem_basic_method_postProcess(ts_ctx->problemName,

                                                           *bit);

    unset(*bit);

    ts_ctx->vecAssembleSwitch = boost::move(bit->vecAssembleSwitch);

  }


  if (*ts_ctx->vecAssembleSwitch) {

    CHKERR VecGhostUpdateBegin(F, ADD_VALUES, SCATTER_REVERSE);

    CHKERR VecGhostUpdateEnd(F, ADD_VALUES, SCATTER_REVERSE);

    CHKERR VecAssemblyBegin(F);

    CHKERR VecAssemblyEnd(F);

  }


  PetscLogEventEnd(ts_ctx->MOFEM_EVENT_TsCtxRHSFunction, 0, 0, 0, 0);

  MoFEMFunctionReturn(0);

}


PetscErrorCode TsSetRHSJacobian(TS ts, PetscReal t, Vec u, Mat A, Mat B,

                                void *ctx) {

  MoFEMFunctionBegin;

  TsCtx *ts_ctx = static_cast<TsCtx *>(ctx);

  PetscLogEventBegin(ts_ctx->MOFEM_EVENT_TsCtxRHSJacobian, 0, 0, 0, 0);

  CHKERR VecGhostUpdateBegin(u, INSERT_VALUES, SCATTER_FORWARD);

  CHKERR VecGhostUpdateEnd(u, INSERT_VALUES, SCATTER_FORWARD);

  CHKERR ts_ctx->mField.getInterface<VecManager>()->setLocalGhostVector(

      ts_ctx->problemName, COL, u, INSERT_VALUES, SCATTER_REVERSE);


  if (ts_ctx->zeroMatrix) {

    CHKERR MatZeroEntries(B);

  }


  ts_ctx->matAssembleSwitch =

      boost::movelib::make_unique<bool>(ts_ctx->zeroMatrix);


  int step;

#if PETSC_VERSION_GE(3, 8, 0)

  CHKERR TSGetStepNumber(ts, &step);

#else

  CHKERR TSGetTimeStepNumber(ts, &step);

#endif


  auto set = [&](auto &fe) {

    fe.ts_u = u;

    fe.ts_A = A;

    fe.ts_B = B;

    fe.ts_t = t;

    fe.ts_step = step;

    fe.ts_ctx = TSMethod::CTX_TSSETRHSJACOBIAN;

    fe.snes_ctx = SnesMethod::CTX_SNESSETJACOBIAN;

    fe.ksp_ctx = KspMethod::CTX_OPERATORS;

    fe.data_ctx = PetscData::CtxSetA | PetscData::CtxSetB | PetscData::CtxSetX |

                  PetscData::CtxSetTime;

    fe.ts = ts;

    CHK_THROW_MESSAGE(TSGetTimeStep(ts, &fe.ts_dt), "get time step failed");

  };


  auto unset = [&](auto &fe) {

    fe.ts_ctx = TSMethod::CTX_TSNONE;

    fe.snes_ctx = SnesMethod::CTX_SNESNONE;

    fe.ksp_ctx = KspMethod::CTX_KSPNONE;

    fe.data_ctx = PetscData::CtxSetNone;

  };


  // preprocess

  for (auto &bit : ts_ctx->preProcessRHSJacobian) {

    bit->matAssembleSwitch = boost::move(ts_ctx->matAssembleSwitch);

    set(*bit);

    CHKERR ts_ctx->mField.problem_basic_method_preProcess(ts_ctx->problemName,

                                                          *bit);

    unset(*bit);

    ts_ctx->matAssembleSwitch = boost::move(bit->matAssembleSwitch);

  }


  auto cache_ptr = boost::make_shared<CacheTuple>();

  CHKERR ts_ctx->mField.cache_problem_entities(ts_ctx->problemName, cache_ptr);


  // fe loops

  for (auto &lit : ts_ctx->loopsRHSJacobian) {

    lit.second->matAssembleSwitch = boost::move(ts_ctx->matAssembleSwitch);

    set(*lit.second);

    CHKERR ts_ctx->mField.loop_finite_elements(ts_ctx->problemName, lit.first,

                                               *(lit.second), nullptr,

                                               ts_ctx->bH, cache_ptr);

    unset(*lit.second);

    ts_ctx->matAssembleSwitch = boost::move(lit.second->matAssembleSwitch);

  }


  // post process

  for (auto &bit : ts_ctx->postProcessRHSJacobian) {

    bit->matAssembleSwitch = boost::move(ts_ctx->matAssembleSwitch);

    set(*bit);

    CHKERR ts_ctx->mField.problem_basic_method_postProcess(ts_ctx->problemName,

                                                           *bit);

    unset(*bit);

    ts_ctx->matAssembleSwitch = boost::move(bit->matAssembleSwitch);

  }


  if (ts_ctx->matAssembleSwitch) {

    CHKERR MatAssemblyBegin(B, MAT_FINAL_ASSEMBLY);

    CHKERR MatAssemblyEnd(B, MAT_FINAL_ASSEMBLY);

  }


  PetscLogEventEnd(ts_ctx->MOFEM_EVENT_TsCtxRHSJacobian, 0, 0, 0, 0);

  MoFEMFunctionReturn(0);

}


PetscErrorCode TsSetI2Jacobian(TS ts, PetscReal t, Vec u, Vec u_t, Vec u_tt,

                               PetscReal a, PetscReal aa, Mat A, Mat B,

                               void *ctx) {

  MoFEMFunctionBegin;


  TsCtx *ts_ctx = static_cast<TsCtx *>(ctx);

  PetscLogEventBegin(ts_ctx->MOFEM_EVENT_TsCtxI2Function, 0, 0, 0, 0);

  CHKERR VecGhostUpdateBegin(u, INSERT_VALUES, SCATTER_FORWARD);

  CHKERR VecGhostUpdateEnd(u, INSERT_VALUES, SCATTER_FORWARD);

  CHKERR VecGhostUpdateBegin(u_t, INSERT_VALUES, SCATTER_FORWARD);

  CHKERR VecGhostUpdateEnd(u_t, INSERT_VALUES, SCATTER_FORWARD);

  CHKERR VecGhostUpdateBegin(u_tt, INSERT_VALUES, SCATTER_FORWARD);

  CHKERR VecGhostUpdateEnd(u_tt, INSERT_VALUES, SCATTER_FORWARD);

  CHKERR ts_ctx->mField.getInterface<VecManager>()->setLocalGhostVector(

      ts_ctx->problemName, COL, u, INSERT_VALUES, SCATTER_REVERSE);

  if (ts_ctx->zeroMatrix) {

    CHKERR MatZeroEntries(B);

  }

  int step;

#if PETSC_VERSION_GE(3, 8, 0)

  CHKERR TSGetStepNumber(ts, &step);

#else

  CHKERR TSGetTimeStepNumber(ts, &step);

#endif


  ts_ctx->matAssembleSwitch =

      boost::movelib::make_unique<bool>(ts_ctx->zeroMatrix);


  auto set = [&](auto &fe) {

    fe.ts_u = u;

    fe.ts_u_t = u_t;

    fe.ts_u_tt = u_tt;

    fe.ts_A = A;

    fe.ts_B = B;

    fe.ts_t = t;

    fe.ts_a = a;

    fe.ts_aa = aa;

    fe.ts_step = step;


    fe.ts_ctx = TSMethod::CTX_TSSETIJACOBIAN;

    fe.snes_ctx = SnesMethod::CTX_SNESSETJACOBIAN;

    fe.ksp_ctx = KspMethod::CTX_OPERATORS;

    fe.data_ctx = PetscData::CtxSetA | PetscData::CtxSetB | PetscData::CtxSetX |

                  PetscData::CtxSetX_T | PetscData::CtxSetX_TT |

                  PetscData::CtxSetTime;

    fe.ts = ts;

    CHK_THROW_MESSAGE(TSGetTimeStep(ts, &fe.ts_dt), "get time step failed");

  };


  auto unset = [&](auto &fe) {

    fe.ts_ctx = TSMethod::CTX_TSNONE;

    fe.snes_ctx = SnesMethod::CTX_SNESNONE;

    fe.ksp_ctx = KspMethod::CTX_KSPNONE;

    fe.data_ctx = PetscData::CtxSetNone;

  };


  // preproces

  for (auto &bit : ts_ctx->preProcessIJacobian) {

    bit->matAssembleSwitch = boost::move(ts_ctx->matAssembleSwitch);

    set(*bit);

    CHKERR ts_ctx->mField.problem_basic_method_preProcess(ts_ctx->problemName,

                                                          *bit);

    unset(*bit);

    ts_ctx->matAssembleSwitch = boost::move(bit->matAssembleSwitch);

  }


  auto cache_ptr = boost::make_shared<CacheTuple>();

  CHKERR ts_ctx->mField.cache_problem_entities(ts_ctx->problemName, cache_ptr);


  for (auto &lit : ts_ctx->loopsIJacobian) {

    lit.second->matAssembleSwitch = boost::move(ts_ctx->matAssembleSwitch);

    set(*lit.second);

    CHKERR ts_ctx->mField.loop_finite_elements(ts_ctx->problemName, lit.first,

                                               *(lit.second), nullptr,

                                               ts_ctx->bH, cache_ptr);

    unset(*lit.second);

    ts_ctx->matAssembleSwitch = boost::move(lit.second->matAssembleSwitch);

  }


  // post process

  for (auto &bit : ts_ctx->postProcessIJacobian) {

    bit->matAssembleSwitch = boost::move(ts_ctx->matAssembleSwitch);

    set(*bit);

    CHKERR ts_ctx->mField.problem_basic_method_postProcess(ts_ctx->problemName,

                                                           *bit);

    unset(*bit);

    ts_ctx->matAssembleSwitch = boost::move(bit->matAssembleSwitch);

  }


  if (ts_ctx->matAssembleSwitch) {

    CHKERR MatAssemblyBegin(B, MAT_FINAL_ASSEMBLY);

    CHKERR MatAssemblyEnd(B, MAT_FINAL_ASSEMBLY);

  }

  PetscLogEventEnd(ts_ctx->MOFEM_EVENT_TsCtxI2Function, 0, 0, 0, 0);

  MoFEMFunctionReturn(0);

}


PetscErrorCode TsSetI2Function(TS ts, PetscReal t, Vec u, Vec u_t, Vec u_tt,

                               Vec F, void *ctx) {

  MoFEMFunctionBegin;

  TsCtx *ts_ctx = static_cast<TsCtx *>(ctx);

  PetscLogEventBegin(ts_ctx->MOFEM_EVENT_TsCtxIFunction, 0, 0, 0, 0);

  CHKERR VecGhostUpdateBegin(u, INSERT_VALUES, SCATTER_FORWARD);

  CHKERR VecGhostUpdateEnd(u, INSERT_VALUES, SCATTER_FORWARD);

  CHKERR VecGhostUpdateBegin(u_t, INSERT_VALUES, SCATTER_FORWARD);

  CHKERR VecGhostUpdateEnd(u_t, INSERT_VALUES, SCATTER_FORWARD);

  CHKERR VecGhostUpdateBegin(u_tt, INSERT_VALUES, SCATTER_FORWARD);

  CHKERR VecGhostUpdateEnd(u_tt, INSERT_VALUES, SCATTER_FORWARD);

  CHKERR ts_ctx->mField.getInterface<VecManager>()->setLocalGhostVector(

      ts_ctx->problemName, COL, u, INSERT_VALUES, SCATTER_REVERSE);


  auto zero_ghost_vec = [](Vec g) {

    MoFEMFunctionBegin;

    Vec l;

    CHKERR VecGhostGetLocalForm(g, &l);

    double *a;

    CHKERR VecGetArray(l, &a);

    int s;

    CHKERR VecGetLocalSize(l, &s);

    for (int i = 0; i != s; ++i)

      a[i] = 0;

    CHKERR VecRestoreArray(l, &a);

    CHKERR VecGhostRestoreLocalForm(g, &l);

    MoFEMFunctionReturn(0);

  };

  CHKERR zero_ghost_vec(F);


  ts_ctx->vecAssembleSwitch = boost::movelib::make_unique<bool>(true);


  int step;

#if PETSC_VERSION_GE(3, 8, 0)

  CHKERR TSGetStepNumber(ts, &step);

#else

  CHKERR TSGetTimeStepNumber(ts, &step);

#endif


  auto set = [&](auto &fe) {

    fe.ts_u = u;

    fe.ts_u_t = u_t;

    fe.ts_u_tt = u_tt;

    fe.ts_F = F;

    fe.ts_t = t;

    fe.ts_step = step;

    fe.ts_ctx = TSMethod::CTX_TSSETIFUNCTION;

    fe.snes_ctx = SnesMethod::CTX_SNESSETFUNCTION;

    fe.ksp_ctx = KspMethod::CTX_SETFUNCTION;

    fe.data_ctx = PetscData::CtxSetF | PetscData::CtxSetX |

                  PetscData::CtxSetX_T | PetscData::CtxSetX_TT |

                  PetscData::CtxSetTime;

    fe.ts = ts;

    CHK_THROW_MESSAGE(TSGetTimeStep(ts, &fe.ts_dt), "get time step failed");

  };


  auto unset = [&](auto &fe) {

    fe.ts_ctx = TSMethod::CTX_TSNONE;

    fe.snes_ctx = SnesMethod::CTX_SNESNONE;

    fe.ksp_ctx = KspMethod::CTX_KSPNONE;

    fe.data_ctx = PetscData::CtxSetNone;

  };


  // preprocess

  for (auto &bit : ts_ctx->preProcessIFunction) {

    bit->vecAssembleSwitch = boost::move(ts_ctx->vecAssembleSwitch);

    set(*bit);

    CHKERR ts_ctx->mField.problem_basic_method_preProcess(ts_ctx->problemName,

                                                          *bit);

    unset(*bit);

    ts_ctx->vecAssembleSwitch = boost::move(bit->vecAssembleSwitch);

  }


  auto cache_ptr = boost::make_shared<CacheTuple>();

  CHKERR ts_ctx->mField.cache_problem_entities(ts_ctx->problemName, cache_ptr);


  // fe loops

  for (auto &lit : ts_ctx->loopsIFunction) {

    lit.second->vecAssembleSwitch = boost::move(ts_ctx->vecAssembleSwitch);

    set(*lit.second);

    CHKERR ts_ctx->mField.loop_finite_elements(ts_ctx->problemName, lit.first,

                                               *(lit.second), nullptr,

                                               ts_ctx->bH, cache_ptr);

    unset(*lit.second);

    ts_ctx->vecAssembleSwitch = boost::move(lit.second->vecAssembleSwitch);

  }


  // post process

  for (auto &bit : ts_ctx->postProcessIFunction) {

    bit->vecAssembleSwitch = boost::move(ts_ctx->vecAssembleSwitch);

    set(*bit);

    CHKERR ts_ctx->mField.problem_basic_method_postProcess(ts_ctx->problemName,

                                                           *bit);

    unset(*bit);

    ts_ctx->vecAssembleSwitch = boost::move(bit->vecAssembleSwitch);

  }


  if (*ts_ctx->vecAssembleSwitch) {

    CHKERR VecGhostUpdateBegin(F, ADD_VALUES, SCATTER_REVERSE);

    CHKERR VecGhostUpdateEnd(F, ADD_VALUES, SCATTER_REVERSE);

    CHKERR VecAssemblyBegin(F);

    CHKERR VecAssemblyEnd(F);

  }


  PetscLogEventEnd(ts_ctx->MOFEM_EVENT_TsCtxIFunction, 0, 0, 0, 0);

  MoFEMFunctionReturn(0);

}


} // namespace MoFEM

a
constexpr double a
Definition: approx_sphere.cpp:30

B

COL
@ COL
Definition: definitions.h:123

CHK_THROW_MESSAGE
#define CHK_THROW_MESSAGE(err, msg)
Check and throw MoFEM exception.
Definition: definitions.h:595

MoFEMFunctionReturnHot
#define MoFEMFunctionReturnHot(a)
Last executable line of each PETSc function used for error handling. Replaces return()
Definition: definitions.h:447

MoFEMFunctionBegin
#define MoFEMFunctionBegin
First executable line of each MoFEM function, used for error handling. Final line of MoFEM functions ...
Definition: definitions.h:346

MoFEMFunctionReturn
#define MoFEMFunctionReturn(a)
Last executable line of each PETSc function used for error handling. Replaces return()
Definition: definitions.h:416

CHKERR
#define CHKERR
Inline error check.
Definition: definitions.h:535

MoFEMFunctionBeginHot
#define MoFEMFunctionBeginHot
First executable line of each MoFEM function, used for error handling. Final line of MoFEM functions ...
Definition: definitions.h:440

MoFEM::CoreInterface::problem_basic_method_postProcess
virtual MoFEMErrorCode problem_basic_method_postProcess(const Problem *problem_ptr, BasicMethod &method, int verb=DEFAULT_VERBOSITY)=0
Set data for BasicMethod.

MoFEM::CoreInterface::loop_finite_elements
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.

bit
auto bit
set bit
Definition: hanging_node_approx.cpp:75

i
FTensor::Index< 'i', SPACE_DIM > i
Definition: hcurl_divergence_operator_2d.cpp:27

ts_ctx
MoFEM::TsCtx * ts_ctx
Definition: level_set.cpp:1876

l
FTensor::Index< 'l', 3 > l
Definition: matrix_function.cpp:21

MoFEM::Exceptions::MoFEMErrorCode
PetscErrorCode MoFEMErrorCode
MoFEM/PETSc error code.
Definition: Exceptions.hpp:56

MoFEM
implementation of Data Operators for Forces and Sources
Definition: Common.hpp:10

MoFEM::TsSetIJacobian
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.
Definition: TsCtx.cpp:129

MoFEM::TsMonitorSet
PetscErrorCode TsMonitorSet(TS ts, PetscInt step, PetscReal t, Vec u, void *ctx)
Set monitor for TS solver.
Definition: TsCtx.cpp:219

MoFEM::TsSetI2Function
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.
Definition: TsCtx.cpp:563

MoFEM::TsSetRHSFunction
PetscErrorCode TsSetRHSFunction(TS ts, PetscReal t, Vec u, Vec F, void *ctx)
TS solver function.
Definition: TsCtx.cpp:278

MoFEM::TsSetIFunction
PetscErrorCode TsSetIFunction(TS ts, PetscReal t, Vec u, Vec u_t, Vec F, void *ctx)
Set IFunction for TS solver.
Definition: TsCtx.cpp:25

MoFEM::TsSetI2Jacobian
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.
Definition: TsCtx.cpp:466

MoFEM::TsSetRHSJacobian
PetscErrorCode TsSetRHSJacobian(TS ts, PetscReal t, Vec u, Mat A, Mat B, void *ctx)
TS solver function.
Definition: TsCtx.cpp:377

A
constexpr AssemblyType A
Definition: operators_tests.cpp:30

t
constexpr double t
plate stiffness
Definition: plate.cpp:59

g
constexpr double g
Definition: shallow_wave.cpp:63

MoFEM::CoreInterface::cache_problem_entities
virtual MoFEMErrorCode cache_problem_entities(const std::string prb_name, CacheTupleWeakPtr cache_ptr)=0
Cache variables.

MoFEM::CoreInterface::problem_basic_method_preProcess
virtual MoFEMErrorCode problem_basic_method_preProcess(const Problem *problem_ptr, BasicMethod &method, int verb=DEFAULT_VERBOSITY)=0
Set data for BasicMethod.

MoFEM::KspMethod::CTX_KSPNONE
@ CTX_KSPNONE
Definition: LoopMethods.hpp:73

MoFEM::KspMethod::CTX_SETFUNCTION
@ CTX_SETFUNCTION
Definition: LoopMethods.hpp:73

MoFEM::KspMethod::CTX_OPERATORS
@ CTX_OPERATORS
Definition: LoopMethods.hpp:73

MoFEM::PetscData::CtxSetA
static constexpr Switches CtxSetA
Definition: LoopMethods.hpp:37

MoFEM::PetscData::CtxSetX
static constexpr Switches CtxSetX
Definition: LoopMethods.hpp:39

MoFEM::PetscData::CtxSetX_TT
static constexpr Switches CtxSetX_TT
Definition: LoopMethods.hpp:41

MoFEM::PetscData::CtxSetNone
static constexpr Switches CtxSetNone
Definition: LoopMethods.hpp:35

MoFEM::PetscData::CtxSetF
static constexpr Switches CtxSetF
Definition: LoopMethods.hpp:36

MoFEM::PetscData::CtxSetX_T
static constexpr Switches CtxSetX_T
Definition: LoopMethods.hpp:40

MoFEM::PetscData::CtxSetB
static constexpr Switches CtxSetB
Definition: LoopMethods.hpp:38

MoFEM::PetscData::CtxSetTime
static constexpr Switches CtxSetTime
Definition: LoopMethods.hpp:42

MoFEM::SnesMethod::CTX_SNESSETJACOBIAN
@ CTX_SNESSETJACOBIAN
Definition: LoopMethods.hpp:107

MoFEM::SnesMethod::CTX_SNESSETFUNCTION
@ CTX_SNESSETFUNCTION
Definition: LoopMethods.hpp:107

MoFEM::SnesMethod::CTX_SNESNONE
@ CTX_SNESNONE
Definition: LoopMethods.hpp:107

MoFEM::TSMethod::CTX_TSSETIFUNCTION
@ CTX_TSSETIFUNCTION
Definition: LoopMethods.hpp:142

MoFEM::TSMethod::CTX_TSSETRHSFUNCTION
@ CTX_TSSETRHSFUNCTION
Definition: LoopMethods.hpp:140

MoFEM::TSMethod::CTX_TSSETRHSJACOBIAN
@ CTX_TSSETRHSJACOBIAN
Definition: LoopMethods.hpp:141

MoFEM::TSMethod::CTX_TSTSMONITORSET
@ CTX_TSTSMONITORSET
Definition: LoopMethods.hpp:144

MoFEM::TSMethod::CTX_TSSETIJACOBIAN
@ CTX_TSSETIJACOBIAN
Definition: LoopMethods.hpp:143

MoFEM::TSMethod::CTX_TSNONE
@ CTX_TSNONE
Definition: LoopMethods.hpp:145

MoFEM::TsCtx
Interface for Time Stepping (TS) solver.
Definition: TsCtx.hpp:15

MoFEM::TsCtx::loopsIJacobian
FEMethodsSequence loopsIJacobian
Definition: TsCtx.hpp:27

MoFEM::TsCtx::zeroMatrix
bool zeroMatrix
Definition: TsCtx.hpp:43

MoFEM::TsCtx::bH
MoFEMTypes bH
If set to MF_EXIST check if element exist.
Definition: TsCtx.hpp:21

MoFEM::TsCtx::MOFEM_EVENT_TsCtxRHSJacobian
PetscLogEvent MOFEM_EVENT_TsCtxRHSJacobian
Definition: TsCtx.hpp:219

MoFEM::TsCtx::loopsRHSFunction
FEMethodsSequence loopsRHSFunction
Definition: TsCtx.hpp:31

MoFEM::TsCtx::MOFEM_EVENT_TsCtxMonitor
PetscLogEvent MOFEM_EVENT_TsCtxMonitor
Definition: TsCtx.hpp:222

MoFEM::TsCtx::postProcessRHSFunction
BasicMethodsSequence postProcessRHSFunction
Definition: TsCtx.hpp:41

MoFEM::TsCtx::preProcessMonitor
BasicMethodsSequence preProcessMonitor
Definition: TsCtx.hpp:36

MoFEM::TsCtx::MOFEM_EVENT_TsCtxRHSFunction
PetscLogEvent MOFEM_EVENT_TsCtxRHSFunction
Definition: TsCtx.hpp:218

MoFEM::TsCtx::preProcessIJacobian
BasicMethodsSequence preProcessIJacobian
Definition: TsCtx.hpp:32

MoFEM::TsCtx::postProcessIFunction
BasicMethodsSequence postProcessIFunction
Definition: TsCtx.hpp:35

MoFEM::TsCtx::loopsIFunction
FEMethodsSequence loopsIFunction
Definition: TsCtx.hpp:28

MoFEM::TsCtx::loopsRHSJacobian
FEMethodsSequence loopsRHSJacobian
Definition: TsCtx.hpp:30

MoFEM::TsCtx::preProcessIFunction
BasicMethodsSequence preProcessIFunction
Definition: TsCtx.hpp:34

MoFEM::TsCtx::loopsMonitor
FEMethodsSequence loopsMonitor
Definition: TsCtx.hpp:29

MoFEM::TsCtx::postProcessMonitor
BasicMethodsSequence postProcessMonitor
Definition: TsCtx.hpp:37

MoFEM::TsCtx::preProcessRHSJacobian
BasicMethodsSequence preProcessRHSJacobian
Definition: TsCtx.hpp:38

MoFEM::TsCtx::vecAssembleSwitch
boost::movelib::unique_ptr< bool > vecAssembleSwitch
Definition: TsCtx.hpp:226

MoFEM::TsCtx::matAssembleSwitch
boost::movelib::unique_ptr< bool > matAssembleSwitch
Definition: TsCtx.hpp:227

MoFEM::TsCtx::clearLoops
MoFEMErrorCode clearLoops()
Clear loops.
Definition: TsCtx.cpp:5

MoFEM::TsCtx::problemName
std::string problemName
Definition: TsCtx.hpp:20

MoFEM::TsCtx::mField
MoFEM::Interface & mField
Definition: TsCtx.hpp:17

MoFEM::TsCtx::preProcessRHSFunction
BasicMethodsSequence preProcessRHSFunction
Definition: TsCtx.hpp:39

MoFEM::TsCtx::postProcessIJacobian
BasicMethodsSequence postProcessIJacobian
Definition: TsCtx.hpp:33

MoFEM::TsCtx::MOFEM_EVENT_TsCtxIFunction
PetscLogEvent MOFEM_EVENT_TsCtxIFunction
Definition: TsCtx.hpp:220

MoFEM::TsCtx::postProcessRHSJacobian
BasicMethodsSequence postProcessRHSJacobian
Definition: TsCtx.hpp:40

MoFEM::TsCtx::MOFEM_EVENT_TsCtxI2Function
PetscLogEvent MOFEM_EVENT_TsCtxI2Function
Definition: TsCtx.hpp:223

MoFEM::UnknownInterface::getInterface
MoFEMErrorCode getInterface(IFACE *&iface) const
Get interface refernce to pointer of interface.
Definition: UnknownInterface.hpp:93

MoFEM::VecManager
Vector manager is used to create vectors \mofem_vectors.
Definition: VecManager.hpp:23