symplectic/basicsymplectic/basicsymplectic.c

e49d4f37SHong Zhang/*
e49d4f37SHong Zhang  Code for Timestepping with basic symplectic integrators for separable Hamiltonian systems
e49d4f37SHong Zhang*/
e49d4f37SHong Zhang#include <petsc/private/tsimpl.h> /*I   "petscts.h"   I*/
e49d4f37SHong Zhang#include <petscdm.h>
e49d4f37SHong Zhang
e49d4f37SHong Zhangstatic TSBasicSymplecticType TSBasicSymplecticDefault = TSBASICSYMPLECTICSIEULER;
e49d4f37SHong Zhangstatic PetscBool             TSBasicSymplecticRegisterAllCalled;
e49d4f37SHong Zhangstatic PetscBool             TSBasicSymplecticPackageInitialized;
e49d4f37SHong Zhang
e49d4f37SHong Zhangtypedef struct _BasicSymplecticScheme     *BasicSymplecticScheme;
e49d4f37SHong Zhangtypedef struct _BasicSymplecticSchemeLink *BasicSymplecticSchemeLink;
e49d4f37SHong Zhang
e49d4f37SHong Zhangstruct _BasicSymplecticScheme {
e49d4f37SHong Zhang  char      *name;
e49d4f37SHong Zhang  PetscInt   order;
e49d4f37SHong Zhang  PetscInt   s; /* number of stages */
e49d4f37SHong Zhang  PetscReal *c, *d;
e49d4f37SHong Zhang};
e49d4f37SHong Zhangstruct _BasicSymplecticSchemeLink {
e49d4f37SHong Zhang  struct _BasicSymplecticScheme sch;
e49d4f37SHong Zhang  BasicSymplecticSchemeLink     next;
e49d4f37SHong Zhang};
e49d4f37SHong Zhangstatic BasicSymplecticSchemeLink BasicSymplecticSchemeList;
e49d4f37SHong Zhangtypedef struct {
e49d4f37SHong Zhang  TS                    subts_p, subts_q; /* sub TS contexts that holds the RHSFunction pointers */
e49d4f37SHong Zhang  IS                    is_p, is_q;       /* IS sets for position and momentum respectively */
e49d4f37SHong Zhang  Vec                   update;           /* a nest work vector for generalized coordinates */
e49d4f37SHong Zhang  BasicSymplecticScheme scheme;
e49d4f37SHong Zhang} TS_BasicSymplectic;
e49d4f37SHong Zhang
e49d4f37SHong Zhang/*MC
e49d4f37SHong Zhang  TSBASICSYMPLECTICSIEULER - first order semi-implicit Euler method
bcf0153eSBarry Smith
e49d4f37SHong Zhang  Level: intermediate
bcf0153eSBarry Smith
1cc06b55SBarry Smith.seealso: [](ch_ts), `TSBASICSYMPLECTIC`
e49d4f37SHong ZhangM*/
e49d4f37SHong Zhang
e49d4f37SHong Zhang/*MC
aaa8cc7dSPierre Jolivet  TSBASICSYMPLECTICVELVERLET - second order Velocity Verlet method (leapfrog method with starting process and determining velocity and position at the same time)
bcf0153eSBarry Smith
e49d4f37SHong ZhangLevel: intermediate
bcf0153eSBarry Smith
1cc06b55SBarry Smith.seealso: [](ch_ts), `TSBASICSYMPLECTIC`
e49d4f37SHong ZhangM*/
e49d4f37SHong Zhang
e49d4f37SHong Zhang/*@C
bcf0153eSBarry Smith  TSBasicSymplecticRegisterAll - Registers all of the basic symplectic integration methods in `TSBASICSYMPLECTIC`
e49d4f37SHong Zhang
e49d4f37SHong Zhang  Not Collective, but should be called by all processes which will need the schemes to be registered
e49d4f37SHong Zhang
e49d4f37SHong Zhang  Level: advanced
e49d4f37SHong Zhang
1cc06b55SBarry Smith.seealso: [](ch_ts), `TSBASICSYMPLECTIC`, `TSBasicSymplecticRegisterDestroy()`
e49d4f37SHong Zhang@*/
d71ae5a4SJacob FaibussowitschPetscErrorCode TSBasicSymplecticRegisterAll(void)
d71ae5a4SJacob Faibussowitsch{
e49d4f37SHong Zhang  PetscFunctionBegin;
3ba16761SJacob Faibussowitsch  if (TSBasicSymplecticRegisterAllCalled) PetscFunctionReturn(PETSC_SUCCESS);
e49d4f37SHong Zhang  TSBasicSymplecticRegisterAllCalled = PETSC_TRUE;
e49d4f37SHong Zhang  {
e49d4f37SHong Zhang    PetscReal c[1] = {1.0}, d[1] = {1.0};
9566063dSJacob Faibussowitsch    PetscCall(TSBasicSymplecticRegister(TSBASICSYMPLECTICSIEULER, 1, 1, c, d));
e49d4f37SHong Zhang  }
e49d4f37SHong Zhang  {
e49d4f37SHong Zhang    PetscReal c[2] = {0, 1.0}, d[2] = {0.5, 0.5};
9566063dSJacob Faibussowitsch    PetscCall(TSBasicSymplecticRegister(TSBASICSYMPLECTICVELVERLET, 2, 2, c, d));
e49d4f37SHong Zhang  }
e49d4f37SHong Zhang  {
e49d4f37SHong Zhang    PetscReal c[3] = {1, -2.0 / 3.0, 2.0 / 3.0}, d[3] = {-1.0 / 24.0, 3.0 / 4.0, 7.0 / 24.0};
9566063dSJacob Faibussowitsch    PetscCall(TSBasicSymplecticRegister(TSBASICSYMPLECTIC3, 3, 3, c, d));
e49d4f37SHong Zhang  }
e49d4f37SHong Zhang  {
e49d4f37SHong Zhang#define CUBEROOTOFTWO 1.2599210498948731647672106
e49d4f37SHong Zhang    PetscReal c[4] = {1.0 / 2.0 / (2.0 - CUBEROOTOFTWO), (1.0 - CUBEROOTOFTWO) / 2.0 / (2.0 - CUBEROOTOFTWO), (1.0 - CUBEROOTOFTWO) / 2.0 / (2.0 - CUBEROOTOFTWO), 1.0 / 2.0 / (2.0 - CUBEROOTOFTWO)}, d[4] = {1.0 / (2.0 - CUBEROOTOFTWO), -CUBEROOTOFTWO / (2.0 - CUBEROOTOFTWO), 1.0 / (2.0 - CUBEROOTOFTWO), 0};
9566063dSJacob Faibussowitsch    PetscCall(TSBasicSymplecticRegister(TSBASICSYMPLECTIC4, 4, 4, c, d));
e49d4f37SHong Zhang  }
3ba16761SJacob Faibussowitsch  PetscFunctionReturn(PETSC_SUCCESS);
e49d4f37SHong Zhang}
e49d4f37SHong Zhang
e49d4f37SHong Zhang/*@C
bcf0153eSBarry Smith   TSBasicSymplecticRegisterDestroy - Frees the list of schemes that were registered by `TSBasicSymplecticRegister()`.
e49d4f37SHong Zhang
e49d4f37SHong Zhang   Not Collective
e49d4f37SHong Zhang
e49d4f37SHong Zhang   Level: advanced
e49d4f37SHong Zhang
1cc06b55SBarry Smith.seealso: [](ch_ts), `TSBasicSymplecticRegister()`, `TSBasicSymplecticRegisterAll()`, `TSBASICSYMPLECTIC`
e49d4f37SHong Zhang@*/
d71ae5a4SJacob FaibussowitschPetscErrorCode TSBasicSymplecticRegisterDestroy(void)
d71ae5a4SJacob Faibussowitsch{
e49d4f37SHong Zhang  BasicSymplecticSchemeLink link;
e49d4f37SHong Zhang
e49d4f37SHong Zhang  PetscFunctionBegin;
e49d4f37SHong Zhang  while ((link = BasicSymplecticSchemeList)) {
e49d4f37SHong Zhang    BasicSymplecticScheme scheme = &link->sch;
e49d4f37SHong Zhang    BasicSymplecticSchemeList    = link->next;
9566063dSJacob Faibussowitsch    PetscCall(PetscFree2(scheme->c, scheme->d));
9566063dSJacob Faibussowitsch    PetscCall(PetscFree(scheme->name));
9566063dSJacob Faibussowitsch    PetscCall(PetscFree(link));
e49d4f37SHong Zhang  }
e49d4f37SHong Zhang  TSBasicSymplecticRegisterAllCalled = PETSC_FALSE;
3ba16761SJacob Faibussowitsch  PetscFunctionReturn(PETSC_SUCCESS);
e49d4f37SHong Zhang}
e49d4f37SHong Zhang
e49d4f37SHong Zhang/*@C
bcf0153eSBarry Smith  TSBasicSymplecticInitializePackage - This function initializes everything in the `TSBASICSYMPLECTIC` package. It is called
bcf0153eSBarry Smith  from `TSInitializePackage()`.
e49d4f37SHong Zhang
e49d4f37SHong Zhang  Level: developer
e49d4f37SHong Zhang
1cc06b55SBarry Smith.seealso: [](ch_ts), `PetscInitialize()`, `TSBASICSYMPLECTIC`
e49d4f37SHong Zhang@*/
d71ae5a4SJacob FaibussowitschPetscErrorCode TSBasicSymplecticInitializePackage(void)
d71ae5a4SJacob Faibussowitsch{
e49d4f37SHong Zhang  PetscFunctionBegin;
3ba16761SJacob Faibussowitsch  if (TSBasicSymplecticPackageInitialized) PetscFunctionReturn(PETSC_SUCCESS);
e49d4f37SHong Zhang  TSBasicSymplecticPackageInitialized = PETSC_TRUE;
9566063dSJacob Faibussowitsch  PetscCall(TSBasicSymplecticRegisterAll());
9566063dSJacob Faibussowitsch  PetscCall(PetscRegisterFinalize(TSBasicSymplecticFinalizePackage));
3ba16761SJacob Faibussowitsch  PetscFunctionReturn(PETSC_SUCCESS);
e49d4f37SHong Zhang}
e49d4f37SHong Zhang
e49d4f37SHong Zhang/*@C
bcf0153eSBarry Smith  TSBasicSymplecticFinalizePackage - This function destroys everything in the `TSBASICSYMPLECTIC` package. It is
bcf0153eSBarry Smith  called from `PetscFinalize()`.
e49d4f37SHong Zhang
e49d4f37SHong Zhang  Level: developer
e49d4f37SHong Zhang
1cc06b55SBarry Smith.seealso: [](ch_ts), `PetscFinalize()`, `TSBASICSYMPLECTIC`
e49d4f37SHong Zhang@*/
d71ae5a4SJacob FaibussowitschPetscErrorCode TSBasicSymplecticFinalizePackage(void)
d71ae5a4SJacob Faibussowitsch{
e49d4f37SHong Zhang  PetscFunctionBegin;
e49d4f37SHong Zhang  TSBasicSymplecticPackageInitialized = PETSC_FALSE;
9566063dSJacob Faibussowitsch  PetscCall(TSBasicSymplecticRegisterDestroy());
3ba16761SJacob Faibussowitsch  PetscFunctionReturn(PETSC_SUCCESS);
e49d4f37SHong Zhang}
e49d4f37SHong Zhang
e49d4f37SHong Zhang/*@C
e49d4f37SHong Zhang   TSBasicSymplecticRegister - register a basic symplectic integration scheme by providing the coefficients.
e49d4f37SHong Zhang
e49d4f37SHong Zhang   Not Collective, but the same schemes should be registered on all processes on which they will be used
e49d4f37SHong Zhang
e49d4f37SHong Zhang   Input Parameters:
e49d4f37SHong Zhang+  name - identifier for method
e49d4f37SHong Zhang.  order - approximation order of method
e49d4f37SHong Zhang.  s - number of stages, this is the dimension of the matrices below
e49d4f37SHong Zhang.  c - coefficients for updating generalized position (dimension s)
e49d4f37SHong Zhang-  d - coefficients for updating generalized momentum (dimension s)
e49d4f37SHong Zhang
bcf0153eSBarry Smith   Level: advanced
bcf0153eSBarry Smith
e49d4f37SHong Zhang   Notes:
e49d4f37SHong Zhang   Several symplectic methods are provided, this function is only needed to create new methods.
e49d4f37SHong Zhang
1cc06b55SBarry Smith.seealso: [](ch_ts), `TSBASICSYMPLECTIC`
e49d4f37SHong Zhang@*/
d71ae5a4SJacob FaibussowitschPetscErrorCode TSBasicSymplecticRegister(TSRosWType name, PetscInt order, PetscInt s, PetscReal c[], PetscReal d[])
d71ae5a4SJacob Faibussowitsch{
e49d4f37SHong Zhang  BasicSymplecticSchemeLink link;
e49d4f37SHong Zhang  BasicSymplecticScheme     scheme;
e49d4f37SHong Zhang
e49d4f37SHong Zhang  PetscFunctionBegin;
e49d4f37SHong Zhang  PetscValidCharPointer(name, 1);
dadcf809SJacob Faibussowitsch  PetscValidRealPointer(c, 4);
dadcf809SJacob Faibussowitsch  PetscValidRealPointer(d, 5);
e49d4f37SHong Zhang
9566063dSJacob Faibussowitsch  PetscCall(TSBasicSymplecticInitializePackage());
9566063dSJacob Faibussowitsch  PetscCall(PetscNew(&link));
e49d4f37SHong Zhang  scheme = &link->sch;
9566063dSJacob Faibussowitsch  PetscCall(PetscStrallocpy(name, &scheme->name));
e49d4f37SHong Zhang  scheme->order = order;
e49d4f37SHong Zhang  scheme->s     = s;
9566063dSJacob Faibussowitsch  PetscCall(PetscMalloc2(s, &scheme->c, s, &scheme->d));
9566063dSJacob Faibussowitsch  PetscCall(PetscArraycpy(scheme->c, c, s));
9566063dSJacob Faibussowitsch  PetscCall(PetscArraycpy(scheme->d, d, s));
e49d4f37SHong Zhang  link->next                = BasicSymplecticSchemeList;
e49d4f37SHong Zhang  BasicSymplecticSchemeList = link;
3ba16761SJacob Faibussowitsch  PetscFunctionReturn(PETSC_SUCCESS);
e49d4f37SHong Zhang}
e49d4f37SHong Zhang
e49d4f37SHong Zhang/*
e49d4f37SHong ZhangThe simplified form of the equations are:
e49d4f37SHong Zhang
37fdd005SBarry Smith.vb
*25de42d4SHong Zhang q_{i+1} = q_i + c_i*g(p_i)*h
*25de42d4SHong Zhang p_{i+1} = p_i + d_i*f(q_{i+1})*h
37fdd005SBarry Smith.ve
e49d4f37SHong Zhang
e49d4f37SHong ZhangSeveral symplectic integrators are given below. An illustrative way to use them is to consider a particle with position q and velocity p.
e49d4f37SHong Zhang
e49d4f37SHong ZhangTo apply a timestep with values c_{1,2},d_{1,2} to the particle, carry out the following steps:
37fdd005SBarry Smith.vb
*25de42d4SHong Zhang- Update the position of the particle by adding to it its velocity multiplied by c_1
*25de42d4SHong Zhang- Update the velocity of the particle by adding to it its acceleration (at the updated position) multiplied by d_1
*25de42d4SHong Zhang- Update the position of the particle by adding to it its (updated) velocity multiplied by c_2
*25de42d4SHong Zhang- Update the velocity of the particle by adding to it its acceleration (at the updated position) multiplied by d_2
37fdd005SBarry Smith.ve
e49d4f37SHong Zhang
e49d4f37SHong Zhang*/
d71ae5a4SJacob Faibussowitschstatic PetscErrorCode TSStep_BasicSymplectic(TS ts)
d71ae5a4SJacob Faibussowitsch{
e49d4f37SHong Zhang  TS_BasicSymplectic   *bsymp    = (TS_BasicSymplectic *)ts->data;
e49d4f37SHong Zhang  BasicSymplecticScheme scheme   = bsymp->scheme;
e49d4f37SHong Zhang  Vec                   solution = ts->vec_sol, update = bsymp->update, q, p, q_update, p_update;
e49d4f37SHong Zhang  IS                    is_q = bsymp->is_q, is_p = bsymp->is_p;
e49d4f37SHong Zhang  TS                    subts_q = bsymp->subts_q, subts_p = bsymp->subts_p;
f9813ea2SStefano Zampini  PetscBool             stageok = PETSC_TRUE;
f9813ea2SStefano Zampini  PetscReal             ptime = ts->ptime, next_time_step = ts->time_step;
e49d4f37SHong Zhang  PetscInt              iter;
e49d4f37SHong Zhang
e49d4f37SHong Zhang  PetscFunctionBegin;
9566063dSJacob Faibussowitsch  PetscCall(VecGetSubVector(update, is_q, &q_update));
9566063dSJacob Faibussowitsch  PetscCall(VecGetSubVector(update, is_p, &p_update));
e49d4f37SHong Zhang  for (iter = 0; iter < scheme->s; iter++) {
f9813ea2SStefano Zampini    PetscCall(TSPreStage(ts, ptime));
f9813ea2SStefano Zampini    PetscCall(VecGetSubVector(solution, is_q, &q));
f9813ea2SStefano Zampini    PetscCall(VecGetSubVector(solution, is_p, &p));
e49d4f37SHong Zhang    /* update position q */
*25de42d4SHong Zhang    if (scheme->c[iter]) {
f9813ea2SStefano Zampini      PetscCall(TSComputeRHSFunction(subts_q, ptime, p, q_update));
*25de42d4SHong Zhang      PetscCall(VecAXPY(q, scheme->c[iter] * ts->time_step, q_update));
*25de42d4SHong Zhang    }
*25de42d4SHong Zhang    /* update velocity p */
*25de42d4SHong Zhang    if (scheme->d[iter]) {
f9813ea2SStefano Zampini      ptime = ptime + scheme->d[iter] * ts->time_step;
*25de42d4SHong Zhang      PetscCall(TSComputeRHSFunction(subts_p, ptime, q, p_update));
*25de42d4SHong Zhang      PetscCall(VecAXPY(p, scheme->d[iter] * ts->time_step, p_update));
e49d4f37SHong Zhang    }
9566063dSJacob Faibussowitsch    PetscCall(VecRestoreSubVector(solution, is_q, &q));
9566063dSJacob Faibussowitsch    PetscCall(VecRestoreSubVector(solution, is_p, &p));
f9813ea2SStefano Zampini    PetscCall(TSPostStage(ts, ptime, 0, &solution));
f9813ea2SStefano Zampini    PetscCall(TSAdaptCheckStage(ts->adapt, ts, ptime, solution, &stageok));
f9813ea2SStefano Zampini    if (!stageok) goto finally;
f9813ea2SStefano Zampini    PetscCall(TSFunctionDomainError(ts, ptime, solution, &stageok));
f9813ea2SStefano Zampini    if (!stageok) goto finally;
f9813ea2SStefano Zampini  }
f9813ea2SStefano Zampini
f9813ea2SStefano Zampinifinally:
f9813ea2SStefano Zampini  if (!stageok) ts->reason = TS_DIVERGED_STEP_REJECTED;
f9813ea2SStefano Zampini  else ts->ptime += next_time_step;
9566063dSJacob Faibussowitsch  PetscCall(VecRestoreSubVector(update, is_q, &q_update));
9566063dSJacob Faibussowitsch  PetscCall(VecRestoreSubVector(update, is_p, &p_update));
3ba16761SJacob Faibussowitsch  PetscFunctionReturn(PETSC_SUCCESS);
e49d4f37SHong Zhang}
e49d4f37SHong Zhang
d71ae5a4SJacob Faibussowitschstatic PetscErrorCode DMCoarsenHook_BasicSymplectic(DM fine, DM coarse, void *ctx)
d71ae5a4SJacob Faibussowitsch{
e49d4f37SHong Zhang  PetscFunctionBegin;
3ba16761SJacob Faibussowitsch  PetscFunctionReturn(PETSC_SUCCESS);
e49d4f37SHong Zhang}
e49d4f37SHong Zhang
d71ae5a4SJacob Faibussowitschstatic PetscErrorCode DMRestrictHook_BasicSymplectic(DM fine, Mat restrct, Vec rscale, Mat inject, DM coarse, void *ctx)
d71ae5a4SJacob Faibussowitsch{
e49d4f37SHong Zhang  PetscFunctionBegin;
3ba16761SJacob Faibussowitsch  PetscFunctionReturn(PETSC_SUCCESS);
e49d4f37SHong Zhang}
e49d4f37SHong Zhang
d71ae5a4SJacob Faibussowitschstatic PetscErrorCode DMSubDomainHook_BasicSymplectic(DM dm, DM subdm, void *ctx)
d71ae5a4SJacob Faibussowitsch{
e49d4f37SHong Zhang  PetscFunctionBegin;
3ba16761SJacob Faibussowitsch  PetscFunctionReturn(PETSC_SUCCESS);
e49d4f37SHong Zhang}
e49d4f37SHong Zhang
d71ae5a4SJacob Faibussowitschstatic PetscErrorCode DMSubDomainRestrictHook_BasicSymplectic(DM dm, VecScatter gscat, VecScatter lscat, DM subdm, void *ctx)
d71ae5a4SJacob Faibussowitsch{
e49d4f37SHong Zhang  PetscFunctionBegin;
3ba16761SJacob Faibussowitsch  PetscFunctionReturn(PETSC_SUCCESS);
e49d4f37SHong Zhang}
e49d4f37SHong Zhang
d71ae5a4SJacob Faibussowitschstatic PetscErrorCode TSSetUp_BasicSymplectic(TS ts)
d71ae5a4SJacob Faibussowitsch{
e49d4f37SHong Zhang  TS_BasicSymplectic *bsymp = (TS_BasicSymplectic *)ts->data;
e49d4f37SHong Zhang  DM                  dm;
e49d4f37SHong Zhang
e49d4f37SHong Zhang  PetscFunctionBegin;
9566063dSJacob Faibussowitsch  PetscCall(TSRHSSplitGetIS(ts, "position", &bsymp->is_q));
9566063dSJacob Faibussowitsch  PetscCall(TSRHSSplitGetIS(ts, "momentum", &bsymp->is_p));
aaa8cc7dSPierre Jolivet  PetscCheck(bsymp->is_q && bsymp->is_p, PetscObjectComm((PetscObject)ts), PETSC_ERR_USER, "Must set up RHSSplits with TSRHSSplitSetIS() using split names position and momentum respectively in order to use -ts_type basicsymplectic");
9566063dSJacob Faibussowitsch  PetscCall(TSRHSSplitGetSubTS(ts, "position", &bsymp->subts_q));
9566063dSJacob Faibussowitsch  PetscCall(TSRHSSplitGetSubTS(ts, "momentum", &bsymp->subts_p));
3c633725SBarry Smith  PetscCheck(bsymp->subts_q && bsymp->subts_p, PetscObjectComm((PetscObject)ts), PETSC_ERR_USER, "Must set up the RHSFunctions for position and momentum using TSRHSSplitSetRHSFunction() or calling TSSetRHSFunction() for each sub-TS");
e49d4f37SHong Zhang
9566063dSJacob Faibussowitsch  PetscCall(VecDuplicate(ts->vec_sol, &bsymp->update));
e49d4f37SHong Zhang
9566063dSJacob Faibussowitsch  PetscCall(TSGetAdapt(ts, &ts->adapt));
9566063dSJacob Faibussowitsch  PetscCall(TSAdaptCandidatesClear(ts->adapt)); /* make sure to use fixed time stepping */
9566063dSJacob Faibussowitsch  PetscCall(TSGetDM(ts, &dm));
e49d4f37SHong Zhang  if (dm) {
9566063dSJacob Faibussowitsch    PetscCall(DMCoarsenHookAdd(dm, DMCoarsenHook_BasicSymplectic, DMRestrictHook_BasicSymplectic, ts));
9566063dSJacob Faibussowitsch    PetscCall(DMSubDomainHookAdd(dm, DMSubDomainHook_BasicSymplectic, DMSubDomainRestrictHook_BasicSymplectic, ts));
e49d4f37SHong Zhang  }
3ba16761SJacob Faibussowitsch  PetscFunctionReturn(PETSC_SUCCESS);
e49d4f37SHong Zhang}
e49d4f37SHong Zhang
d71ae5a4SJacob Faibussowitschstatic PetscErrorCode TSReset_BasicSymplectic(TS ts)
d71ae5a4SJacob Faibussowitsch{
e49d4f37SHong Zhang  TS_BasicSymplectic *bsymp = (TS_BasicSymplectic *)ts->data;
e49d4f37SHong Zhang
e49d4f37SHong Zhang  PetscFunctionBegin;
9566063dSJacob Faibussowitsch  PetscCall(VecDestroy(&bsymp->update));
3ba16761SJacob Faibussowitsch  PetscFunctionReturn(PETSC_SUCCESS);
e49d4f37SHong Zhang}
e49d4f37SHong Zhang
d71ae5a4SJacob Faibussowitschstatic PetscErrorCode TSDestroy_BasicSymplectic(TS ts)
d71ae5a4SJacob Faibussowitsch{
e49d4f37SHong Zhang  PetscFunctionBegin;
9566063dSJacob Faibussowitsch  PetscCall(TSReset_BasicSymplectic(ts));
2e956fe4SStefano Zampini  PetscCall(PetscObjectComposeFunction((PetscObject)ts, "TSBasicSymplecticSetType_C", NULL));
2e956fe4SStefano Zampini  PetscCall(PetscObjectComposeFunction((PetscObject)ts, "TSBasicSymplecticGetType_C", NULL));
9566063dSJacob Faibussowitsch  PetscCall(PetscFree(ts->data));
3ba16761SJacob Faibussowitsch  PetscFunctionReturn(PETSC_SUCCESS);
e49d4f37SHong Zhang}
e49d4f37SHong Zhang
d71ae5a4SJacob Faibussowitschstatic PetscErrorCode TSSetFromOptions_BasicSymplectic(TS ts, PetscOptionItems *PetscOptionsObject)
d71ae5a4SJacob Faibussowitsch{
e49d4f37SHong Zhang  TS_BasicSymplectic *bsymp = (TS_BasicSymplectic *)ts->data;
e49d4f37SHong Zhang
e49d4f37SHong Zhang  PetscFunctionBegin;
d0609cedSBarry Smith  PetscOptionsHeadBegin(PetscOptionsObject, "Basic symplectic integrator options");
e49d4f37SHong Zhang  {
e49d4f37SHong Zhang    BasicSymplecticSchemeLink link;
e49d4f37SHong Zhang    PetscInt                  count, choice;
e49d4f37SHong Zhang    PetscBool                 flg;
e49d4f37SHong Zhang    const char              **namelist;
e49d4f37SHong Zhang
9371c9d4SSatish Balay    for (link = BasicSymplecticSchemeList, count = 0; link; link = link->next, count++)
9371c9d4SSatish Balay      ;
9566063dSJacob Faibussowitsch    PetscCall(PetscMalloc1(count, (char ***)&namelist));
e49d4f37SHong Zhang    for (link = BasicSymplecticSchemeList, count = 0; link; link = link->next, count++) namelist[count] = link->sch.name;
9566063dSJacob Faibussowitsch    PetscCall(PetscOptionsEList("-ts_basicsymplectic_type", "Family of basic symplectic integration method", "TSBasicSymplecticSetType", (const char *const *)namelist, count, bsymp->scheme->name, &choice, &flg));
9566063dSJacob Faibussowitsch    if (flg) PetscCall(TSBasicSymplecticSetType(ts, namelist[choice]));
9566063dSJacob Faibussowitsch    PetscCall(PetscFree(namelist));
e49d4f37SHong Zhang  }
d0609cedSBarry Smith  PetscOptionsHeadEnd();
3ba16761SJacob Faibussowitsch  PetscFunctionReturn(PETSC_SUCCESS);
e49d4f37SHong Zhang}
e49d4f37SHong Zhang
d71ae5a4SJacob Faibussowitschstatic PetscErrorCode TSView_BasicSymplectic(TS ts, PetscViewer viewer)
d71ae5a4SJacob Faibussowitsch{
e49d4f37SHong Zhang  PetscFunctionBegin;
3ba16761SJacob Faibussowitsch  PetscFunctionReturn(PETSC_SUCCESS);
e49d4f37SHong Zhang}
e49d4f37SHong Zhang
d71ae5a4SJacob Faibussowitschstatic PetscErrorCode TSInterpolate_BasicSymplectic(TS ts, PetscReal t, Vec X)
d71ae5a4SJacob Faibussowitsch{
e49d4f37SHong Zhang  TS_BasicSymplectic *bsymp  = (TS_BasicSymplectic *)ts->data;
e49d4f37SHong Zhang  Vec                 update = bsymp->update;
e49d4f37SHong Zhang  PetscReal           alpha  = (ts->ptime - t) / ts->time_step;
e49d4f37SHong Zhang
e49d4f37SHong Zhang  PetscFunctionBegin;
9566063dSJacob Faibussowitsch  PetscCall(VecWAXPY(X, -ts->time_step, update, ts->vec_sol));
9566063dSJacob Faibussowitsch  PetscCall(VecAXPBY(X, 1.0 - alpha, alpha, ts->vec_sol));
3ba16761SJacob Faibussowitsch  PetscFunctionReturn(PETSC_SUCCESS);
e49d4f37SHong Zhang}
e49d4f37SHong Zhang
d71ae5a4SJacob Faibussowitschstatic PetscErrorCode TSComputeLinearStability_BasicSymplectic(TS ts, PetscReal xr, PetscReal xi, PetscReal *yr, PetscReal *yi)
d71ae5a4SJacob Faibussowitsch{
e49d4f37SHong Zhang  PetscFunctionBegin;
e49d4f37SHong Zhang  *yr = 1.0 + xr;
e49d4f37SHong Zhang  *yi = xi;
3ba16761SJacob Faibussowitsch  PetscFunctionReturn(PETSC_SUCCESS);
e49d4f37SHong Zhang}
e49d4f37SHong Zhang
e49d4f37SHong Zhang/*@C
e49d4f37SHong Zhang  TSBasicSymplecticSetType - Set the type of the basic symplectic method
e49d4f37SHong Zhang
c3339decSBarry Smith  Logically Collective
e49d4f37SHong Zhang
d8d19677SJose E. Roman  Input Parameters:
e49d4f37SHong Zhang+  ts - timestepping context
e49d4f37SHong Zhang-  bsymptype - type of the symplectic scheme
e49d4f37SHong Zhang
bcf0153eSBarry Smith  Options Database Key:
147403d9SBarry Smith.  -ts_basicsymplectic_type <scheme> - select the scheme
e49d4f37SHong Zhang
bcf0153eSBarry Smith  Level: intermediate
bcf0153eSBarry Smith
bcf0153eSBarry Smith  Note:
bcf0153eSBarry Smith    The symplectic solver always expects a two-way splitting with the split names being "position" and "momentum". Each split is associated with an `IS` object and a sub-`TS`
147403d9SBarry Smith    that is intended to store the user-provided RHS function.
e49d4f37SHong Zhang
1cc06b55SBarry Smith.seealso: [](ch_ts), `TSBASICSYMPLECTIC`, `TSBasicSymplecticType`, `TSBasicSymplecticSetType()`
e49d4f37SHong Zhang@*/
d71ae5a4SJacob FaibussowitschPetscErrorCode TSBasicSymplecticSetType(TS ts, TSBasicSymplecticType bsymptype)
d71ae5a4SJacob Faibussowitsch{
e49d4f37SHong Zhang  PetscFunctionBegin;
e49d4f37SHong Zhang  PetscValidHeaderSpecific(ts, TS_CLASSID, 1);
cac4c232SBarry Smith  PetscTryMethod(ts, "TSBasicSymplecticSetType_C", (TS, TSBasicSymplecticType), (ts, bsymptype));
3ba16761SJacob Faibussowitsch  PetscFunctionReturn(PETSC_SUCCESS);
e49d4f37SHong Zhang}
e49d4f37SHong Zhang
e49d4f37SHong Zhang/*@C
e49d4f37SHong Zhang  TSBasicSymplecticGetType - Get the type of the basic symplectic method
e49d4f37SHong Zhang
c3339decSBarry Smith  Logically Collective
e49d4f37SHong Zhang
d8d19677SJose E. Roman  Input Parameters:
e49d4f37SHong Zhang+  ts - timestepping context
e49d4f37SHong Zhang-  bsymptype - type of the basic symplectic scheme
e49d4f37SHong Zhang
e49d4f37SHong Zhang  Level: intermediate
bcf0153eSBarry Smith
1cc06b55SBarry Smith.seealso: [](ch_ts), `TSBASICSYMPLECTIC`, `TSBasicSymplecticType`, `TSBasicSymplecticSetType()`
e49d4f37SHong Zhang@*/
d71ae5a4SJacob FaibussowitschPetscErrorCode TSBasicSymplecticGetType(TS ts, TSBasicSymplecticType *bsymptype)
d71ae5a4SJacob Faibussowitsch{
e49d4f37SHong Zhang  PetscFunctionBegin;
e49d4f37SHong Zhang  PetscValidHeaderSpecific(ts, TS_CLASSID, 1);
cac4c232SBarry Smith  PetscUseMethod(ts, "TSBasicSymplecticGetType_C", (TS, TSBasicSymplecticType *), (ts, bsymptype));
3ba16761SJacob Faibussowitsch  PetscFunctionReturn(PETSC_SUCCESS);
e49d4f37SHong Zhang}
e49d4f37SHong Zhang
d71ae5a4SJacob Faibussowitschstatic PetscErrorCode TSBasicSymplecticSetType_BasicSymplectic(TS ts, TSBasicSymplecticType bsymptype)
d71ae5a4SJacob Faibussowitsch{
e49d4f37SHong Zhang  TS_BasicSymplectic       *bsymp = (TS_BasicSymplectic *)ts->data;
e49d4f37SHong Zhang  BasicSymplecticSchemeLink link;
e49d4f37SHong Zhang  PetscBool                 match;
e49d4f37SHong Zhang
e49d4f37SHong Zhang  PetscFunctionBegin;
e49d4f37SHong Zhang  if (bsymp->scheme) {
9566063dSJacob Faibussowitsch    PetscCall(PetscStrcmp(bsymp->scheme->name, bsymptype, &match));
3ba16761SJacob Faibussowitsch    if (match) PetscFunctionReturn(PETSC_SUCCESS);
e49d4f37SHong Zhang  }
e49d4f37SHong Zhang  for (link = BasicSymplecticSchemeList; link; link = link->next) {
9566063dSJacob Faibussowitsch    PetscCall(PetscStrcmp(link->sch.name, bsymptype, &match));
e49d4f37SHong Zhang    if (match) {
e49d4f37SHong Zhang      bsymp->scheme = &link->sch;
3ba16761SJacob Faibussowitsch      PetscFunctionReturn(PETSC_SUCCESS);
e49d4f37SHong Zhang    }
e49d4f37SHong Zhang  }
98921bdaSJacob Faibussowitsch  SETERRQ(PetscObjectComm((PetscObject)ts), PETSC_ERR_ARG_UNKNOWN_TYPE, "Could not find '%s'", bsymptype);
e49d4f37SHong Zhang}
e49d4f37SHong Zhang
d71ae5a4SJacob Faibussowitschstatic PetscErrorCode TSBasicSymplecticGetType_BasicSymplectic(TS ts, TSBasicSymplecticType *bsymptype)
d71ae5a4SJacob Faibussowitsch{
e49d4f37SHong Zhang  TS_BasicSymplectic *bsymp = (TS_BasicSymplectic *)ts->data;
e49d4f37SHong Zhang
e49d4f37SHong Zhang  PetscFunctionBegin;
e49d4f37SHong Zhang  *bsymptype = bsymp->scheme->name;
3ba16761SJacob Faibussowitsch  PetscFunctionReturn(PETSC_SUCCESS);
e49d4f37SHong Zhang}
e49d4f37SHong Zhang
e49d4f37SHong Zhang/*MC
bcf0153eSBarry Smith  TSBASICSYMPLECTIC - ODE solver using basic symplectic integration schemes
e49d4f37SHong Zhang
bcf0153eSBarry Smith  These methods are intended for separable Hamiltonian systems
bcf0153eSBarry Smith.vb
bcf0153eSBarry Smith  qdot = dH(q,p,t)/dp
bcf0153eSBarry Smith  pdot = -dH(q,p,t)/dq
bcf0153eSBarry Smith.ve
e49d4f37SHong Zhang
e49d4f37SHong Zhang  where the Hamiltonian can be split into the sum of kinetic energy and potential energy
bcf0153eSBarry Smith.vb
bcf0153eSBarry Smith  H(q,p,t) = T(p,t) + V(q,t).
bcf0153eSBarry Smith.ve
e49d4f37SHong Zhang
e49d4f37SHong Zhang  As a result, the system can be genearlly represented by
bcf0153eSBarry Smith.vb
bcf0153eSBarry Smith  qdot = f(p,t) = dT(p,t)/dp
bcf0153eSBarry Smith  pdot = g(q,t) = -dV(q,t)/dq
bcf0153eSBarry Smith.ve
e49d4f37SHong Zhang
e49d4f37SHong Zhang  and solved iteratively with
bcf0153eSBarry Smith.vb
bcf0153eSBarry Smith  q_new = q_old + d_i*h*f(p_old,t_old)
bcf0153eSBarry Smith  t_new = t_old + d_i*h
bcf0153eSBarry Smith  p_new = p_old + c_i*h*g(p_new,t_new)
bcf0153eSBarry Smith  i=0,1,...,n.
bcf0153eSBarry Smith.ve
e49d4f37SHong Zhang
bcf0153eSBarry Smith  The solution vector should contain both q and p, which correspond to (generalized) position and momentum respectively. Note that the momentum component
bcf0153eSBarry Smith  could simply be velocity in some representations. The symplectic solver always expects a two-way splitting with the split names being "position" and "momentum".
bcf0153eSBarry Smith  Each split is associated with an `IS` object and a sub-`TS` that is intended to store the user-provided RHS function.
e49d4f37SHong Zhang
e49d4f37SHong Zhang  Level: beginner
e49d4f37SHong Zhang
bcf0153eSBarry Smith  Reference:
bcf0153eSBarry Smith. * -  wikipedia (https://en.wikipedia.org/wiki/Symplectic_integrator)
e49d4f37SHong Zhang
1cc06b55SBarry Smith.seealso: [](ch_ts), `TSCreate()`, `TSSetType()`, `TSRHSSplitSetIS()`, `TSRHSSplitSetRHSFunction()`, `TSType`
e49d4f37SHong ZhangM*/
d71ae5a4SJacob FaibussowitschPETSC_EXTERN PetscErrorCode TSCreate_BasicSymplectic(TS ts)
d71ae5a4SJacob Faibussowitsch{
e49d4f37SHong Zhang  TS_BasicSymplectic *bsymp;
e49d4f37SHong Zhang
e49d4f37SHong Zhang  PetscFunctionBegin;
9566063dSJacob Faibussowitsch  PetscCall(TSBasicSymplecticInitializePackage());
4dfa11a4SJacob Faibussowitsch  PetscCall(PetscNew(&bsymp));
e49d4f37SHong Zhang  ts->data = (void *)bsymp;
e49d4f37SHong Zhang
e49d4f37SHong Zhang  ts->ops->setup           = TSSetUp_BasicSymplectic;
e49d4f37SHong Zhang  ts->ops->step            = TSStep_BasicSymplectic;
e49d4f37SHong Zhang  ts->ops->reset           = TSReset_BasicSymplectic;
e49d4f37SHong Zhang  ts->ops->destroy         = TSDestroy_BasicSymplectic;
e49d4f37SHong Zhang  ts->ops->setfromoptions  = TSSetFromOptions_BasicSymplectic;
e49d4f37SHong Zhang  ts->ops->view            = TSView_BasicSymplectic;
e49d4f37SHong Zhang  ts->ops->interpolate     = TSInterpolate_BasicSymplectic;
e49d4f37SHong Zhang  ts->ops->linearstability = TSComputeLinearStability_BasicSymplectic;
e49d4f37SHong Zhang
9566063dSJacob Faibussowitsch  PetscCall(PetscObjectComposeFunction((PetscObject)ts, "TSBasicSymplecticSetType_C", TSBasicSymplecticSetType_BasicSymplectic));
9566063dSJacob Faibussowitsch  PetscCall(PetscObjectComposeFunction((PetscObject)ts, "TSBasicSymplecticGetType_C", TSBasicSymplecticGetType_BasicSymplectic));
e49d4f37SHong Zhang
9566063dSJacob Faibussowitsch  PetscCall(TSBasicSymplecticSetType(ts, TSBasicSymplecticDefault));
3ba16761SJacob Faibussowitsch  PetscFunctionReturn(PETSC_SUCCESS);
e49d4f37SHong Zhang}