event/tests/ex1sin.c

ca4445c7SIlya Fursov#include <petscts.h>
ca4445c7SIlya Fursov#include <stdio.h>
ca4445c7SIlya Fursov
fe4ad979SIlya Fursov#define NEW_VERSION // Applicable for the new features; avoid this for the older PETSc versions (without TSSetPostEventStep())
ca4445c7SIlya Fursov
ca4445c7SIlya Fursovstatic char help[] = "Simple linear problem with events\n"
ca4445c7SIlya Fursov                     "x_dot =  0.2*y\n"
ca4445c7SIlya Fursov                     "y_dot = -0.2*x\n"
ca4445c7SIlya Fursov                     "Using one event function = sin(pi*t), zeros = 1,...,10\n"
ca4445c7SIlya Fursov                     "Options:\n"
ca4445c7SIlya Fursov                     "-dir    d : zero-crossing direction for events\n"
ca4445c7SIlya Fursov                     "-flg      : additional output in Postevent\n"
fe4ad979SIlya Fursov                     "-errtol e : error tolerance, for printing 'pass/fail' for located events (1e-5 by default)\n"
ca4445c7SIlya Fursov                     "-restart  : flag for TSRestartStep() in PostEvent\n"
fe4ad979SIlya Fursov                     "-dtpost x : if x > 0, then on even PostEvent calls 1st-post-event-step = x is set,\n"
fe4ad979SIlya Fursov                     "                            on odd PostEvent calls 1st-post-event-step = PETSC_DECIDE is set,\n"
ca4445c7SIlya Fursov                     "            if x == 0, nothing happens\n";
ca4445c7SIlya Fursov
ca4445c7SIlya Fursov#define MAX_NFUNC 100  // max event functions per rank
ca4445c7SIlya Fursov#define MAX_NEV   5000 // max zero crossings for each rank
ca4445c7SIlya Fursov
ca4445c7SIlya Fursovtypedef struct {
ca4445c7SIlya Fursov  PetscMPIInt rank, size;
ca4445c7SIlya Fursov  PetscReal   pi;
ca4445c7SIlya Fursov  PetscReal   fvals[MAX_NFUNC]; // helper array for reporting the residuals
ca4445c7SIlya Fursov  PetscReal   evres[MAX_NEV];   // times of found zero-crossings
fe4ad979SIlya Fursov  PetscReal   ref[MAX_NEV];     // reference times of zero-crossings, for checking
ca4445c7SIlya Fursov  PetscInt    cnt;              // counter
fe4ad979SIlya Fursov  PetscInt    cntref;           // actual length of 'ref' on the given rank
ca4445c7SIlya Fursov  PetscBool   flg;              // flag for additional print in PostEvent
fe4ad979SIlya Fursov  PetscReal   errtol;           // error tolerance, for printing 'pass/fail' for located events (1e-5 by default)
ca4445c7SIlya Fursov  PetscBool   restart;          // flag for TSRestartStep() in PostEvent
ca4445c7SIlya Fursov  PetscReal   dtpost;           // post-event step
ca4445c7SIlya Fursov  PetscInt    postcnt;          // counter for PostEvent calls
ca4445c7SIlya Fursov} AppCtx;
ca4445c7SIlya Fursov
*2a8381b2SBarry SmithPetscErrorCode EventFunction(TS ts, PetscReal t, Vec U, PetscReal gval[], PetscCtx ctx);
*2a8381b2SBarry SmithPetscErrorCode Postevent(TS ts, PetscInt nev_zero, PetscInt evs_zero[], PetscReal t, Vec U, PetscBool fwd, PetscCtx ctx);
ca4445c7SIlya Fursov
ca4445c7SIlya Fursovint main(int argc, char **argv)
ca4445c7SIlya Fursov{
ca4445c7SIlya Fursov  TS           ts;
ca4445c7SIlya Fursov  Mat          A;
ca4445c7SIlya Fursov  Vec          sol;
ca4445c7SIlya Fursov  PetscInt     n, dir0, m = 0;
ca4445c7SIlya Fursov  PetscInt     dir[MAX_NFUNC], inds[2];
ca4445c7SIlya Fursov  PetscBool    term[MAX_NFUNC];
ca4445c7SIlya Fursov  PetscScalar *x, vals[4];
ca4445c7SIlya Fursov  AppCtx       ctx;
ca4445c7SIlya Fursov
ca4445c7SIlya Fursov  PetscFunctionBeginUser;
c8025a54SPierre Jolivet  PetscCall(PetscInitialize(&argc, &argv, NULL, help));
ca4445c7SIlya Fursov  setbuf(stdout, NULL);
ca4445c7SIlya Fursov  PetscCallMPI(MPI_Comm_rank(PETSC_COMM_WORLD, &ctx.rank));
ca4445c7SIlya Fursov  PetscCallMPI(MPI_Comm_size(PETSC_COMM_WORLD, &ctx.size));
ca4445c7SIlya Fursov  ctx.pi      = PetscAcosReal(-1.0);
ca4445c7SIlya Fursov  ctx.cnt     = 0;
fe4ad979SIlya Fursov  ctx.cntref  = 0;
ca4445c7SIlya Fursov  ctx.flg     = PETSC_FALSE;
fe4ad979SIlya Fursov  ctx.errtol  = 1e-5;
ca4445c7SIlya Fursov  ctx.restart = PETSC_FALSE;
ca4445c7SIlya Fursov  ctx.dtpost  = 0;
ca4445c7SIlya Fursov  ctx.postcnt = 0;
ca4445c7SIlya Fursov
ca4445c7SIlya Fursov  // The linear problem has a 2*2 matrix. The matrix is constant
ca4445c7SIlya Fursov  if (ctx.rank == 0) m = 2;
ca4445c7SIlya Fursov  inds[0] = 0;
ca4445c7SIlya Fursov  inds[1] = 1;
ca4445c7SIlya Fursov  vals[0] = 0;
ca4445c7SIlya Fursov  vals[1] = 0.2;
ca4445c7SIlya Fursov  vals[2] = -0.2;
ca4445c7SIlya Fursov  vals[3] = 0;
ca4445c7SIlya Fursov  PetscCall(MatCreateAIJ(PETSC_COMM_WORLD, m, m, PETSC_DETERMINE, PETSC_DETERMINE, 2, NULL, 0, NULL, &A));
ca4445c7SIlya Fursov  PetscCall(MatSetValues(A, m, inds, m, inds, vals, INSERT_VALUES));
ca4445c7SIlya Fursov  PetscCall(MatAssemblyBegin(A, MAT_FINAL_ASSEMBLY));
ca4445c7SIlya Fursov  PetscCall(MatAssemblyEnd(A, MAT_FINAL_ASSEMBLY));
ca4445c7SIlya Fursov  PetscCall(MatSetOption(A, MAT_NEW_NONZERO_LOCATION_ERR, PETSC_TRUE));
ca4445c7SIlya Fursov
ca4445c7SIlya Fursov  PetscCall(MatCreateVecs(A, &sol, NULL));
ca4445c7SIlya Fursov  PetscCall(VecGetArray(sol, &x));
ca4445c7SIlya Fursov  if (ctx.rank == 0) { // initial conditions
ca4445c7SIlya Fursov    x[0] = 0;          // sin(0)
ca4445c7SIlya Fursov    x[1] = 1;          // cos(0)
ca4445c7SIlya Fursov  }
ca4445c7SIlya Fursov  PetscCall(VecRestoreArray(sol, &x));
ca4445c7SIlya Fursov
ca4445c7SIlya Fursov  PetscCall(TSCreate(PETSC_COMM_WORLD, &ts));
ca4445c7SIlya Fursov  PetscCall(TSSetProblemType(ts, TS_LINEAR));
ca4445c7SIlya Fursov
ca4445c7SIlya Fursov  PetscCall(TSSetRHSFunction(ts, NULL, TSComputeRHSFunctionLinear, NULL));
ca4445c7SIlya Fursov  PetscCall(TSSetRHSJacobian(ts, A, A, TSComputeRHSJacobianConstant, NULL));
ca4445c7SIlya Fursov
ca4445c7SIlya Fursov  PetscCall(TSSetTimeStep(ts, 0.1));
ca4445c7SIlya Fursov  PetscCall(TSSetType(ts, TSBEULER));
ca4445c7SIlya Fursov  PetscCall(TSSetMaxSteps(ts, 10000));
ca4445c7SIlya Fursov  PetscCall(TSSetMaxTime(ts, 10.0));
ca4445c7SIlya Fursov  PetscCall(TSSetExactFinalTime(ts, TS_EXACTFINALTIME_MATCHSTEP));
ca4445c7SIlya Fursov  PetscCall(TSSetFromOptions(ts));
ca4445c7SIlya Fursov
ca4445c7SIlya Fursov  // Set the event handling
ca4445c7SIlya Fursov  dir0 = 0;
ca4445c7SIlya Fursov  PetscCall(PetscOptionsGetInt(NULL, NULL, "-dir", &dir0, NULL));             // desired zero-crossing direction
ca4445c7SIlya Fursov  PetscCall(PetscOptionsHasName(NULL, NULL, "-flg", &ctx.flg));               // flag for additional output
fe4ad979SIlya Fursov  PetscCall(PetscOptionsGetReal(NULL, NULL, "-errtol", &ctx.errtol, NULL));   // error tolerance for located events
ca4445c7SIlya Fursov  PetscCall(PetscOptionsGetBool(NULL, NULL, "-restart", &ctx.restart, NULL)); // flag for TSRestartStep()
ca4445c7SIlya Fursov  PetscCall(PetscOptionsGetReal(NULL, NULL, "-dtpost", &ctx.dtpost, NULL));   // post-event step
ca4445c7SIlya Fursov
ca4445c7SIlya Fursov  n = 0;               // event counter
ca4445c7SIlya Fursov  if (ctx.rank == 0) { // first event -- on rank-0
ca4445c7SIlya Fursov    dir[n]    = dir0;
ca4445c7SIlya Fursov    term[n++] = PETSC_FALSE;
fe4ad979SIlya Fursov
fe4ad979SIlya Fursov    for (PetscInt i = 1; i < MAX_NEV; i++) {
fe4ad979SIlya Fursov      if (i % 2 == 1 && dir0 <= 0) ctx.ref[ctx.cntref++] = i;
fe4ad979SIlya Fursov      if (i % 2 == 0 && dir0 >= 0) ctx.ref[ctx.cntref++] = i;
ca4445c7SIlya Fursov    }
fe4ad979SIlya Fursov  }
fe4ad979SIlya Fursov  if (ctx.cntref > 0) PetscCall(PetscSortReal(ctx.cntref, ctx.ref));
ca4445c7SIlya Fursov  PetscCall(TSSetEventHandler(ts, n, dir, term, EventFunction, Postevent, &ctx));
ca4445c7SIlya Fursov
ca4445c7SIlya Fursov  // Solution
ca4445c7SIlya Fursov  PetscCall(TSSolve(ts, sol));
ca4445c7SIlya Fursov
fe4ad979SIlya Fursov  // The 4 columns printed are: [RANK] [time of event] [error w.r.t. reference] ["pass"/"fail"]
fe4ad979SIlya Fursov  for (PetscInt j = 0; j < ctx.cnt; j++) {
fe4ad979SIlya Fursov    PetscReal err = 10.0;
fe4ad979SIlya Fursov    if (j < ctx.cntref) err = PetscAbsReal(ctx.evres[j] - ctx.ref[j]);
fe4ad979SIlya Fursov    PetscCall(PetscSynchronizedPrintf(PETSC_COMM_WORLD, "%d\t%g\t%g\t%s\n", ctx.rank, (double)ctx.evres[j], (double)err, err < ctx.errtol ? "pass" : "fail"));
fe4ad979SIlya Fursov  }
ca4445c7SIlya Fursov  PetscCall(PetscSynchronizedFlush(PETSC_COMM_WORLD, PETSC_STDOUT));
ca4445c7SIlya Fursov
ca4445c7SIlya Fursov  PetscCall(MatDestroy(&A));
ca4445c7SIlya Fursov  PetscCall(TSDestroy(&ts));
ca4445c7SIlya Fursov  PetscCall(VecDestroy(&sol));
ca4445c7SIlya Fursov
ca4445c7SIlya Fursov  PetscCall(PetscFinalize());
ca4445c7SIlya Fursov  return 0;
ca4445c7SIlya Fursov}
ca4445c7SIlya Fursov
ca4445c7SIlya Fursov/*
ca4445c7SIlya Fursov  User callback for defining the event-functions
ca4445c7SIlya Fursov*/
*2a8381b2SBarry SmithPetscErrorCode EventFunction(TS ts, PetscReal t, Vec U, PetscReal gval[], PetscCtx ctx)
ca4445c7SIlya Fursov{
ca4445c7SIlya Fursov  PetscInt n   = 0;
ca4445c7SIlya Fursov  AppCtx  *Ctx = (AppCtx *)ctx;
ca4445c7SIlya Fursov
ca4445c7SIlya Fursov  PetscFunctionBeginUser;
ca4445c7SIlya Fursov  // for the test purposes, event-functions are defined based on t
ca4445c7SIlya Fursov  // first event -- on rank-0
ac530a7eSPierre Jolivet  if (Ctx->rank == 0) gval[n++] = PetscSinReal(Ctx->pi * t);
ca4445c7SIlya Fursov  PetscFunctionReturn(PETSC_SUCCESS);
ca4445c7SIlya Fursov}
ca4445c7SIlya Fursov
ca4445c7SIlya Fursov/*
ca4445c7SIlya Fursov  User callback for the post-event stuff
ca4445c7SIlya Fursov*/
*2a8381b2SBarry SmithPetscErrorCode Postevent(TS ts, PetscInt nev_zero, PetscInt evs_zero[], PetscReal t, Vec U, PetscBool fwd, PetscCtx ctx)
ca4445c7SIlya Fursov{
ca4445c7SIlya Fursov  AppCtx *Ctx = (AppCtx *)ctx;
ca4445c7SIlya Fursov
ca4445c7SIlya Fursov  PetscFunctionBeginUser;
ca4445c7SIlya Fursov  if (Ctx->flg) {
ca4445c7SIlya Fursov    PetscCallBack("EventFunction", EventFunction(ts, t, U, Ctx->fvals, ctx));
ca4445c7SIlya Fursov    PetscCall(PetscSynchronizedPrintf(PETSC_COMM_WORLD, "[%d] At t = %20.16g : %" PetscInt_FMT " events triggered, fvalues =", Ctx->rank, (double)t, nev_zero));
ca4445c7SIlya Fursov    for (PetscInt j = 0; j < nev_zero; j++) PetscCall(PetscSynchronizedPrintf(PETSC_COMM_WORLD, "\t%g", (double)Ctx->fvals[evs_zero[j]]));
ca4445c7SIlya Fursov    PetscCall(PetscSynchronizedPrintf(PETSC_COMM_WORLD, "\n"));
ca4445c7SIlya Fursov    PetscCall(PetscSynchronizedFlush(PETSC_COMM_WORLD, PETSC_STDOUT));
ca4445c7SIlya Fursov  }
ca4445c7SIlya Fursov
fe4ad979SIlya Fursov  if (Ctx->cnt + nev_zero < MAX_NEV)
fe4ad979SIlya Fursov    for (PetscInt i = 0; i < nev_zero; i++) Ctx->evres[Ctx->cnt++] = t; // save the repeating zeros separately for easier/unified testing
ca4445c7SIlya Fursov
ca4445c7SIlya Fursov#ifdef NEW_VERSION
ca4445c7SIlya Fursov  Ctx->postcnt++; // sync
ca4445c7SIlya Fursov  if (Ctx->dtpost > 0) {
ca4445c7SIlya Fursov    if (Ctx->postcnt % 2 == 0) PetscCall(TSSetPostEventStep(ts, Ctx->dtpost));
fe4ad979SIlya Fursov    else PetscCall(TSSetPostEventStep(ts, PETSC_DECIDE));
ca4445c7SIlya Fursov  }
ca4445c7SIlya Fursov#endif
ca4445c7SIlya Fursov
ca4445c7SIlya Fursov  if (Ctx->restart) PetscCall(TSRestartStep(ts));
ca4445c7SIlya Fursov  PetscFunctionReturn(PETSC_SUCCESS);
ca4445c7SIlya Fursov}
ca4445c7SIlya Fursov/*---------------------------------------------------------------------------------------------*/
fe4ad979SIlya Fursov/*
fe4ad979SIlya Fursov  Note, in the tests below, -ts_event_post_event_step is occasionally set to -1,
fe4ad979SIlya Fursov  which corresponds to PETSC_DECIDE in the API. It is not a very good practice to
fe4ad979SIlya Fursov  explicitly specify -1 in this option. Rather, if PETSC_DECIDE behaviour is needed,
fe4ad979SIlya Fursov  simply remove this option altogether. This will result in using the defaults
fe4ad979SIlya Fursov  (which is PETSC_DECIDE).
fe4ad979SIlya Fursov*/
ca4445c7SIlya Fursov/*TEST
ca4445c7SIlya Fursov  test:
ca4445c7SIlya Fursov    suffix: 0
fe4ad979SIlya Fursov    requires: !single
ca4445c7SIlya Fursov    output_file: output/ex1sin_0.out
ca4445c7SIlya Fursov    args: -dir 0
fe4ad979SIlya Fursov    args: -restart 0
ca4445c7SIlya Fursov    args: -dtpost {{0 0.25}}
fe4ad979SIlya Fursov    args: -ts_event_post_event_step -1
ca4445c7SIlya Fursov    args: -ts_type {{beuler rk}}
ca4445c7SIlya Fursov    args: -ts_adapt_type {{none basic}}
fe4ad979SIlya Fursov    nsize: 1
ca4445c7SIlya Fursov
ca4445c7SIlya Fursov  test:
ca4445c7SIlya Fursov    suffix: p
fe4ad979SIlya Fursov    requires: !single
ca4445c7SIlya Fursov    output_file: output/ex1sin_p.out
ca4445c7SIlya Fursov    args: -dir 1
fe4ad979SIlya Fursov    args: -restart 1
ca4445c7SIlya Fursov    args: -dtpost {{0 0.31}}
fe4ad979SIlya Fursov    args: -ts_event_post_event_step {{-1 0.25}}
fe4ad979SIlya Fursov    args: -ts_type rk
ca4445c7SIlya Fursov    args: -ts_adapt_type {{none basic}}
fe4ad979SIlya Fursov    nsize: 2
ca4445c7SIlya Fursov    filter: sort
ca4445c7SIlya Fursov    filter_output: sort
ca4445c7SIlya Fursov
ca4445c7SIlya Fursov  test:
ca4445c7SIlya Fursov    suffix: n
fe4ad979SIlya Fursov    requires: !single
ca4445c7SIlya Fursov    output_file: output/ex1sin_n.out
ca4445c7SIlya Fursov    args: -dir -1
ca4445c7SIlya Fursov    args: -restart {{0 1}}
ca4445c7SIlya Fursov    args: -dtpost {{0 0.25}}
fe4ad979SIlya Fursov    args: -ts_event_post_event_step 0.31
fe4ad979SIlya Fursov    args: -ts_type {{beuler rk}}
fe4ad979SIlya Fursov    args: -ts_adapt_type basic
fe4ad979SIlya Fursov    nsize: 4
fe4ad979SIlya Fursov    filter: sort
fe4ad979SIlya Fursov    filter_output: sort
fe4ad979SIlya Fursov
fe4ad979SIlya Fursov  test:
fe4ad979SIlya Fursov    suffix: 0single
fe4ad979SIlya Fursov    requires: single
fe4ad979SIlya Fursov    output_file: output/ex1sin_0.out
fe4ad979SIlya Fursov    args: -dir 0 -ts_event_dt_min 1e-6 -errtol 5e-5
fe4ad979SIlya Fursov    args: -restart 1
fe4ad979SIlya Fursov    args: -dtpost {{0 0.25}}
fe4ad979SIlya Fursov    args: -ts_event_post_event_step {{-1 0.31}}
fe4ad979SIlya Fursov    args: -ts_type beuler
fe4ad979SIlya Fursov    args: -ts_adapt_type {{none basic}}
fe4ad979SIlya Fursov    nsize: 4
fe4ad979SIlya Fursov    filter: sort
fe4ad979SIlya Fursov    filter_output: sort
fe4ad979SIlya Fursov
fe4ad979SIlya Fursov  test:
fe4ad979SIlya Fursov    suffix: psingle
fe4ad979SIlya Fursov    requires: single
fe4ad979SIlya Fursov    output_file: output/ex1sin_p.out
fe4ad979SIlya Fursov    args: -dir 1 -ts_event_dt_min 1e-6 -errtol 5e-5
fe4ad979SIlya Fursov    args: -restart 0
fe4ad979SIlya Fursov    args: -dtpost {{0 0.31}}
fe4ad979SIlya Fursov    args: -ts_event_post_event_step 0.25
ca4445c7SIlya Fursov    args: -ts_type {{beuler rk}}
ca4445c7SIlya Fursov    args: -ts_adapt_type {{none basic}}
fe4ad979SIlya Fursov    nsize: 1
fe4ad979SIlya Fursov
fe4ad979SIlya Fursov  test:
fe4ad979SIlya Fursov    suffix: nsingle
fe4ad979SIlya Fursov    requires: single
fe4ad979SIlya Fursov    output_file: output/ex1sin_n.out
fe4ad979SIlya Fursov    args: -dir -1 -ts_event_dt_min 1e-6 -errtol 5e-5
fe4ad979SIlya Fursov    args: -restart 1
fe4ad979SIlya Fursov    args: -dtpost {{0 0.25}}
fe4ad979SIlya Fursov    args: -ts_event_post_event_step -1
fe4ad979SIlya Fursov    args: -ts_type {{beuler rk}}
fe4ad979SIlya Fursov    args: -ts_adapt_type {{none basic}}
fe4ad979SIlya Fursov    nsize: 2
ca4445c7SIlya Fursov    filter: sort
ca4445c7SIlya Fursov    filter_output: sort
ca4445c7SIlya FursovTEST*/