1814e85d6SHong Zhang #include <petsc/private/tsimpl.h> /*I "petscts.h" I*/ 2814e85d6SHong Zhang #include <petscdraw.h> 3814e85d6SHong Zhang 433f72c5dSHong Zhang PetscLogEvent TS_AdjointStep,TS_ForwardStep,TS_JacobianPEval; 5814e85d6SHong Zhang 6814e85d6SHong Zhang /* ------------------------ Sensitivity Context ---------------------------*/ 7814e85d6SHong Zhang 8814e85d6SHong Zhang /*@C 9b5b4017aSHong Zhang TSSetRHSJacobianP - Sets the function that computes the Jacobian of G w.r.t. the parameters P where U_t = G(U,P,t), as well as the location to store the matrix. 10814e85d6SHong Zhang 11814e85d6SHong Zhang Logically Collective on TS 12814e85d6SHong Zhang 13814e85d6SHong Zhang Input Parameters: 14b5b4017aSHong Zhang + ts - TS context obtained from TSCreate() 15b5b4017aSHong Zhang . Amat - JacobianP matrix 16b5b4017aSHong Zhang . func - function 17b5b4017aSHong Zhang - ctx - [optional] user-defined function context 18814e85d6SHong Zhang 19814e85d6SHong Zhang Calling sequence of func: 20814e85d6SHong Zhang $ func (TS ts,PetscReal t,Vec y,Mat A,void *ctx); 21814e85d6SHong Zhang + t - current timestep 22c9ad9de0SHong Zhang . U - input vector (current ODE solution) 23814e85d6SHong Zhang . A - output matrix 24814e85d6SHong Zhang - ctx - [optional] user-defined function context 25814e85d6SHong Zhang 26814e85d6SHong Zhang Level: intermediate 27814e85d6SHong Zhang 28814e85d6SHong Zhang Notes: 29814e85d6SHong Zhang Amat has the same number of rows and the same row parallel layout as u, Amat has the same number of columns and parallel layout as p 30814e85d6SHong Zhang 31814e85d6SHong Zhang .keywords: TS, sensitivity 32cd4cee2dSHong Zhang .seealso: TSGetRHSJacobianP() 33814e85d6SHong Zhang @*/ 34814e85d6SHong Zhang PetscErrorCode TSSetRHSJacobianP(TS ts,Mat Amat,PetscErrorCode (*func)(TS,PetscReal,Vec,Mat,void*),void *ctx) 35814e85d6SHong Zhang { 36814e85d6SHong Zhang PetscErrorCode ierr; 37814e85d6SHong Zhang 38814e85d6SHong Zhang PetscFunctionBegin; 39814e85d6SHong Zhang PetscValidHeaderSpecific(ts, TS_CLASSID,1); 40814e85d6SHong Zhang PetscValidHeaderSpecific(Amat,MAT_CLASSID,2); 41814e85d6SHong Zhang 42814e85d6SHong Zhang ts->rhsjacobianp = func; 43814e85d6SHong Zhang ts->rhsjacobianpctx = ctx; 44814e85d6SHong Zhang if(Amat) { 45814e85d6SHong Zhang ierr = PetscObjectReference((PetscObject)Amat);CHKERRQ(ierr); 4633f72c5dSHong Zhang ierr = MatDestroy(&ts->Jacprhs);CHKERRQ(ierr); 4733f72c5dSHong Zhang ts->Jacprhs = Amat; 48814e85d6SHong Zhang } 49814e85d6SHong Zhang PetscFunctionReturn(0); 50814e85d6SHong Zhang } 51814e85d6SHong Zhang 52814e85d6SHong Zhang /*@C 53cd4cee2dSHong Zhang TSGetRHSJacobianP - Gets the function that computes the Jacobian of G w.r.t. the parameters P where U_t = G(U,P,t), as well as the location to store the matrix. 54cd4cee2dSHong Zhang 55cd4cee2dSHong Zhang Logically Collective on TS 56cd4cee2dSHong Zhang 57cd4cee2dSHong Zhang Input Parameters: 58cd4cee2dSHong Zhang . ts - TS context obtained from TSCreate() 59cd4cee2dSHong Zhang 60cd4cee2dSHong Zhang Output Parameters: 61cd4cee2dSHong Zhang + Amat - JacobianP matrix 62cd4cee2dSHong Zhang . func - function 63cd4cee2dSHong Zhang - ctx - [optional] user-defined function context 64cd4cee2dSHong Zhang 65cd4cee2dSHong Zhang Calling sequence of func: 66cd4cee2dSHong Zhang $ func (TS ts,PetscReal t,Vec y,Mat A,void *ctx); 67cd4cee2dSHong Zhang + t - current timestep 68cd4cee2dSHong Zhang . U - input vector (current ODE solution) 69cd4cee2dSHong Zhang . A - output matrix 70cd4cee2dSHong Zhang - ctx - [optional] user-defined function context 71cd4cee2dSHong Zhang 72cd4cee2dSHong Zhang Level: intermediate 73cd4cee2dSHong Zhang 74cd4cee2dSHong Zhang Notes: 75cd4cee2dSHong Zhang Amat has the same number of rows and the same row parallel layout as u, Amat has the same number of columns and parallel layout as p 76cd4cee2dSHong Zhang 77cd4cee2dSHong Zhang .keywords: TS, sensitivity 78cd4cee2dSHong Zhang .seealso: TSSetRHSJacobianP() 79cd4cee2dSHong Zhang @*/ 80cd4cee2dSHong Zhang PetscErrorCode TSGetRHSJacobianP(TS ts,Mat *Amat,PetscErrorCode (**func)(TS,PetscReal,Vec,Mat,void*),void **ctx) 81cd4cee2dSHong Zhang { 82cd4cee2dSHong Zhang PetscFunctionBegin; 83cd4cee2dSHong Zhang if (func) *func = ts->rhsjacobianp; 84cd4cee2dSHong Zhang if (ctx) *ctx = ts->rhsjacobianpctx; 85cd4cee2dSHong Zhang if (Amat) *Amat = ts->Jacprhs; 86cd4cee2dSHong Zhang PetscFunctionReturn(0); 87cd4cee2dSHong Zhang } 88cd4cee2dSHong Zhang 89cd4cee2dSHong Zhang /*@C 90814e85d6SHong Zhang TSComputeRHSJacobianP - Runs the user-defined JacobianP function. 91814e85d6SHong Zhang 92814e85d6SHong Zhang Collective on TS 93814e85d6SHong Zhang 94814e85d6SHong Zhang Input Parameters: 95814e85d6SHong Zhang . ts - The TS context obtained from TSCreate() 96814e85d6SHong Zhang 97814e85d6SHong Zhang Level: developer 98814e85d6SHong Zhang 99814e85d6SHong Zhang .keywords: TS, sensitivity 100814e85d6SHong Zhang .seealso: TSSetRHSJacobianP() 101814e85d6SHong Zhang @*/ 102c9ad9de0SHong Zhang PetscErrorCode TSComputeRHSJacobianP(TS ts,PetscReal t,Vec U,Mat Amat) 103814e85d6SHong Zhang { 104814e85d6SHong Zhang PetscErrorCode ierr; 105814e85d6SHong Zhang 106814e85d6SHong Zhang PetscFunctionBegin; 10733f72c5dSHong Zhang if (!Amat) PetscFunctionReturn(0); 108814e85d6SHong Zhang PetscValidHeaderSpecific(ts,TS_CLASSID,1); 109c9ad9de0SHong Zhang PetscValidHeaderSpecific(U,VEC_CLASSID,3); 110814e85d6SHong Zhang 111814e85d6SHong Zhang PetscStackPush("TS user JacobianP function for sensitivity analysis"); 112c9ad9de0SHong Zhang ierr = (*ts->rhsjacobianp)(ts,t,U,Amat,ts->rhsjacobianpctx);CHKERRQ(ierr); 113814e85d6SHong Zhang PetscStackPop; 114814e85d6SHong Zhang PetscFunctionReturn(0); 115814e85d6SHong Zhang } 116814e85d6SHong Zhang 117814e85d6SHong Zhang /*@C 11833f72c5dSHong Zhang TSSetIJacobianP - Sets the function that computes the Jacobian of F w.r.t. the parameters P where F(Udot,U,t) = G(U,P,t), as well as the location to store the matrix. 11933f72c5dSHong Zhang 12033f72c5dSHong Zhang Logically Collective on TS 12133f72c5dSHong Zhang 12233f72c5dSHong Zhang Input Parameters: 12333f72c5dSHong Zhang + ts - TS context obtained from TSCreate() 12433f72c5dSHong Zhang . Amat - JacobianP matrix 12533f72c5dSHong Zhang . func - function 12633f72c5dSHong Zhang - ctx - [optional] user-defined function context 12733f72c5dSHong Zhang 12833f72c5dSHong Zhang Calling sequence of func: 12933f72c5dSHong Zhang $ func (TS ts,PetscReal t,Vec y,Mat A,void *ctx); 13033f72c5dSHong Zhang + t - current timestep 13133f72c5dSHong Zhang . U - input vector (current ODE solution) 13233f72c5dSHong Zhang . Udot - time derivative of state vector 13333f72c5dSHong Zhang . shift - shift to apply, see note below 13433f72c5dSHong Zhang . A - output matrix 13533f72c5dSHong Zhang - ctx - [optional] user-defined function context 13633f72c5dSHong Zhang 13733f72c5dSHong Zhang Level: intermediate 13833f72c5dSHong Zhang 13933f72c5dSHong Zhang Notes: 14033f72c5dSHong Zhang Amat has the same number of rows and the same row parallel layout as u, Amat has the same number of columns and parallel layout as p 14133f72c5dSHong Zhang 14233f72c5dSHong Zhang .keywords: TS, sensitivity 14333f72c5dSHong Zhang .seealso: 14433f72c5dSHong Zhang @*/ 14533f72c5dSHong Zhang PetscErrorCode TSSetIJacobianP(TS ts,Mat Amat,PetscErrorCode (*func)(TS,PetscReal,Vec,Vec,PetscReal,Mat,void*),void *ctx) 14633f72c5dSHong Zhang { 14733f72c5dSHong Zhang PetscErrorCode ierr; 14833f72c5dSHong Zhang 14933f72c5dSHong Zhang PetscFunctionBegin; 15033f72c5dSHong Zhang PetscValidHeaderSpecific(ts, TS_CLASSID,1); 15133f72c5dSHong Zhang PetscValidHeaderSpecific(Amat,MAT_CLASSID,2); 15233f72c5dSHong Zhang 15333f72c5dSHong Zhang ts->ijacobianp = func; 15433f72c5dSHong Zhang ts->ijacobianpctx = ctx; 15533f72c5dSHong Zhang if(Amat) { 15633f72c5dSHong Zhang ierr = PetscObjectReference((PetscObject)Amat);CHKERRQ(ierr); 15733f72c5dSHong Zhang ierr = MatDestroy(&ts->Jacp);CHKERRQ(ierr); 15833f72c5dSHong Zhang ts->Jacp = Amat; 15933f72c5dSHong Zhang } 16033f72c5dSHong Zhang PetscFunctionReturn(0); 16133f72c5dSHong Zhang } 16233f72c5dSHong Zhang 16333f72c5dSHong Zhang /*@C 16433f72c5dSHong Zhang TSComputeIJacobianP - Runs the user-defined IJacobianP function. 16533f72c5dSHong Zhang 16633f72c5dSHong Zhang Collective on TS 16733f72c5dSHong Zhang 16833f72c5dSHong Zhang Input Parameters: 16933f72c5dSHong Zhang + ts - the TS context 17033f72c5dSHong Zhang . t - current timestep 17133f72c5dSHong Zhang . U - state vector 17233f72c5dSHong Zhang . Udot - time derivative of state vector 17333f72c5dSHong Zhang . shift - shift to apply, see note below 17433f72c5dSHong Zhang - imex - flag indicates if the method is IMEX so that the RHSJacobian should be kept separate 17533f72c5dSHong Zhang 17633f72c5dSHong Zhang Output Parameters: 17733f72c5dSHong Zhang . A - Jacobian matrix 17833f72c5dSHong Zhang 17933f72c5dSHong Zhang Level: developer 18033f72c5dSHong Zhang 18133f72c5dSHong Zhang .keywords: TS, sensitivity 18233f72c5dSHong Zhang .seealso: TSSetIJacobianP() 18333f72c5dSHong Zhang @*/ 18433f72c5dSHong Zhang PetscErrorCode TSComputeIJacobianP(TS ts,PetscReal t,Vec U,Vec Udot,PetscReal shift,Mat Amat,PetscBool imex) 18533f72c5dSHong Zhang { 18633f72c5dSHong Zhang PetscErrorCode ierr; 18733f72c5dSHong Zhang 18833f72c5dSHong Zhang PetscFunctionBegin; 18933f72c5dSHong Zhang if (!Amat) PetscFunctionReturn(0); 19033f72c5dSHong Zhang PetscValidHeaderSpecific(ts,TS_CLASSID,1); 19133f72c5dSHong Zhang PetscValidHeaderSpecific(U,VEC_CLASSID,3); 19233f72c5dSHong Zhang PetscValidHeaderSpecific(Udot,VEC_CLASSID,4); 19333f72c5dSHong Zhang 19433f72c5dSHong Zhang ierr = PetscLogEventBegin(TS_JacobianPEval,ts,U,Amat,0);CHKERRQ(ierr); 19533f72c5dSHong Zhang if (ts->ijacobianp) { 19633f72c5dSHong Zhang PetscStackPush("TS user JacobianP function for sensitivity analysis"); 19733f72c5dSHong Zhang ierr = (*ts->ijacobianp)(ts,t,U,Udot,shift,Amat,ts->ijacobianpctx);CHKERRQ(ierr); 19833f72c5dSHong Zhang PetscStackPop; 19933f72c5dSHong Zhang } 20033f72c5dSHong Zhang if (imex) { 20133f72c5dSHong Zhang if (!ts->ijacobianp) { /* system was written as Udot = G(t,U) */ 20233f72c5dSHong Zhang PetscBool assembled; 20333f72c5dSHong Zhang ierr = MatZeroEntries(Amat);CHKERRQ(ierr); 20433f72c5dSHong Zhang ierr = MatAssembled(Amat,&assembled);CHKERRQ(ierr); 20533f72c5dSHong Zhang if (!assembled) { 20633f72c5dSHong Zhang ierr = MatAssemblyBegin(Amat,MAT_FINAL_ASSEMBLY);CHKERRQ(ierr); 20733f72c5dSHong Zhang ierr = MatAssemblyEnd(Amat,MAT_FINAL_ASSEMBLY);CHKERRQ(ierr); 20833f72c5dSHong Zhang } 20933f72c5dSHong Zhang } 21033f72c5dSHong Zhang } else { 21133f72c5dSHong Zhang if (ts->rhsjacobianp) { 21233f72c5dSHong Zhang ierr = TSComputeRHSJacobianP(ts,t,U,ts->Jacprhs);CHKERRQ(ierr); 21333f72c5dSHong Zhang } 21433f72c5dSHong Zhang if (ts->Jacprhs == Amat) { /* No IJacobian, so we only have the RHS matrix */ 21533f72c5dSHong Zhang ierr = MatScale(Amat,-1);CHKERRQ(ierr); 21633f72c5dSHong Zhang } else if (ts->Jacprhs) { /* Both IJacobian and RHSJacobian */ 21733f72c5dSHong Zhang MatStructure axpy = DIFFERENT_NONZERO_PATTERN; 21833f72c5dSHong Zhang if (!ts->ijacobianp) { /* No IJacobianp provided, but we have a separate RHS matrix */ 21933f72c5dSHong Zhang ierr = MatZeroEntries(Amat);CHKERRQ(ierr); 22033f72c5dSHong Zhang } 22133f72c5dSHong Zhang ierr = MatAXPY(Amat,-1,ts->Jacprhs,axpy);CHKERRQ(ierr); 22233f72c5dSHong Zhang } 22333f72c5dSHong Zhang } 22433f72c5dSHong Zhang ierr = PetscLogEventEnd(TS_JacobianPEval,ts,U,Amat,0);CHKERRQ(ierr); 22533f72c5dSHong Zhang PetscFunctionReturn(0); 22633f72c5dSHong Zhang } 22733f72c5dSHong Zhang 22833f72c5dSHong Zhang /*@C 229814e85d6SHong Zhang TSSetCostIntegrand - Sets the routine for evaluating the integral term in one or more cost functions 230814e85d6SHong Zhang 231814e85d6SHong Zhang Logically Collective on TS 232814e85d6SHong Zhang 233814e85d6SHong Zhang Input Parameters: 234814e85d6SHong Zhang + ts - the TS context obtained from TSCreate() 235814e85d6SHong Zhang . numcost - number of gradients to be computed, this is the number of cost functions 236814e85d6SHong Zhang . costintegral - vector that stores the integral values 237814e85d6SHong Zhang . rf - routine for evaluating the integrand function 238c9ad9de0SHong Zhang . drduf - function that computes the gradients of the r's with respect to u 239814e85d6SHong Zhang . drdpf - function that computes the gradients of the r's with respect to p, can be NULL if parametric sensitivity is not desired (mu=NULL) 240814e85d6SHong Zhang . fwd - flag indicating whether to evaluate cost integral in the forward run or the adjoint run 241814e85d6SHong Zhang - ctx - [optional] user-defined context for private data for the function evaluation routine (may be NULL) 242814e85d6SHong Zhang 243814e85d6SHong Zhang Calling sequence of rf: 244c9ad9de0SHong Zhang $ PetscErrorCode rf(TS ts,PetscReal t,Vec U,Vec F,void *ctx); 245814e85d6SHong Zhang 246c9ad9de0SHong Zhang Calling sequence of drduf: 247c9ad9de0SHong Zhang $ PetscErroCode drduf(TS ts,PetscReal t,Vec U,Vec *dRdU,void *ctx); 248814e85d6SHong Zhang 249814e85d6SHong Zhang Calling sequence of drdpf: 250c9ad9de0SHong Zhang $ PetscErroCode drdpf(TS ts,PetscReal t,Vec U,Vec *dRdP,void *ctx); 251814e85d6SHong Zhang 252cd4cee2dSHong Zhang Level: deprecated 253814e85d6SHong Zhang 254814e85d6SHong Zhang Notes: 255814e85d6SHong Zhang For optimization there is usually a single cost function (numcost = 1). For sensitivities there may be multiple cost functions 256814e85d6SHong Zhang 257814e85d6SHong Zhang .keywords: TS, sensitivity analysis, timestep, set, quadrature, function 258814e85d6SHong Zhang 259814e85d6SHong Zhang .seealso: TSSetRHSJacobianP(), TSGetCostGradients(), TSSetCostGradients() 260814e85d6SHong Zhang @*/ 261814e85d6SHong Zhang PetscErrorCode TSSetCostIntegrand(TS ts,PetscInt numcost,Vec costintegral,PetscErrorCode (*rf)(TS,PetscReal,Vec,Vec,void*), 262c9ad9de0SHong Zhang PetscErrorCode (*drduf)(TS,PetscReal,Vec,Vec*,void*), 263814e85d6SHong Zhang PetscErrorCode (*drdpf)(TS,PetscReal,Vec,Vec*,void*), 264814e85d6SHong Zhang PetscBool fwd,void *ctx) 265814e85d6SHong Zhang { 266814e85d6SHong Zhang PetscErrorCode ierr; 267814e85d6SHong Zhang 268814e85d6SHong Zhang PetscFunctionBegin; 269814e85d6SHong Zhang PetscValidHeaderSpecific(ts,TS_CLASSID,1); 270814e85d6SHong Zhang if (costintegral) PetscValidHeaderSpecific(costintegral,VEC_CLASSID,3); 271814e85d6SHong Zhang if (ts->numcost && ts->numcost!=numcost) SETERRQ(PetscObjectComm((PetscObject)ts),PETSC_ERR_USER,"The number of cost functions (2rd parameter of TSSetCostIntegrand()) is inconsistent with the one set by TSSetCostGradients() or TSForwardSetIntegralGradients()"); 272814e85d6SHong Zhang if (!ts->numcost) ts->numcost=numcost; 273814e85d6SHong Zhang 274814e85d6SHong Zhang if (costintegral) { 275814e85d6SHong Zhang ierr = PetscObjectReference((PetscObject)costintegral);CHKERRQ(ierr); 276814e85d6SHong Zhang ierr = VecDestroy(&ts->vec_costintegral);CHKERRQ(ierr); 277814e85d6SHong Zhang ts->vec_costintegral = costintegral; 278814e85d6SHong Zhang } else { 279814e85d6SHong Zhang if (!ts->vec_costintegral) { /* Create a seq vec if user does not provide one */ 280814e85d6SHong Zhang ierr = VecCreateSeq(PETSC_COMM_SELF,numcost,&ts->vec_costintegral);CHKERRQ(ierr); 281814e85d6SHong Zhang } else { 282814e85d6SHong Zhang ierr = VecSet(ts->vec_costintegral,0.0);CHKERRQ(ierr); 283814e85d6SHong Zhang } 284814e85d6SHong Zhang } 285814e85d6SHong Zhang if (!ts->vec_costintegrand) { 286814e85d6SHong Zhang ierr = VecDuplicate(ts->vec_costintegral,&ts->vec_costintegrand);CHKERRQ(ierr); 287814e85d6SHong Zhang } else { 288814e85d6SHong Zhang ierr = VecSet(ts->vec_costintegrand,0.0);CHKERRQ(ierr); 289814e85d6SHong Zhang } 290814e85d6SHong Zhang ts->costintegralfwd = fwd; /* Evaluate the cost integral in forward run if fwd is true */ 291814e85d6SHong Zhang ts->costintegrand = rf; 292814e85d6SHong Zhang ts->costintegrandctx = ctx; 293c9ad9de0SHong Zhang ts->drdufunction = drduf; 294814e85d6SHong Zhang ts->drdpfunction = drdpf; 295814e85d6SHong Zhang PetscFunctionReturn(0); 296814e85d6SHong Zhang } 297814e85d6SHong Zhang 298b5b4017aSHong Zhang /*@C 299814e85d6SHong Zhang TSGetCostIntegral - Returns the values of the integral term in the cost functions. 300814e85d6SHong Zhang It is valid to call the routine after a backward run. 301814e85d6SHong Zhang 302814e85d6SHong Zhang Not Collective 303814e85d6SHong Zhang 304814e85d6SHong Zhang Input Parameter: 305814e85d6SHong Zhang . ts - the TS context obtained from TSCreate() 306814e85d6SHong Zhang 307814e85d6SHong Zhang Output Parameter: 308814e85d6SHong Zhang . v - the vector containing the integrals for each cost function 309814e85d6SHong Zhang 310814e85d6SHong Zhang Level: intermediate 311814e85d6SHong Zhang 312814e85d6SHong Zhang .seealso: TSSetCostIntegrand() 313814e85d6SHong Zhang 314814e85d6SHong Zhang .keywords: TS, sensitivity analysis 315814e85d6SHong Zhang @*/ 316814e85d6SHong Zhang PetscErrorCode TSGetCostIntegral(TS ts,Vec *v) 317814e85d6SHong Zhang { 318cd4cee2dSHong Zhang TS quadts; 319cd4cee2dSHong Zhang PetscErrorCode ierr; 320cd4cee2dSHong Zhang 321814e85d6SHong Zhang PetscFunctionBegin; 322814e85d6SHong Zhang PetscValidHeaderSpecific(ts,TS_CLASSID,1); 323814e85d6SHong Zhang PetscValidPointer(v,2); 324cd4cee2dSHong Zhang ierr = TSGetQuadratureTS(ts,NULL,&quadts);CHKERRQ(ierr); 325cd4cee2dSHong Zhang *v = quadts->vec_sol; 326814e85d6SHong Zhang PetscFunctionReturn(0); 327814e85d6SHong Zhang } 328814e85d6SHong Zhang 329b5b4017aSHong Zhang /*@C 330814e85d6SHong Zhang TSComputeCostIntegrand - Evaluates the integral function in the cost functions. 331814e85d6SHong Zhang 332814e85d6SHong Zhang Input Parameters: 333814e85d6SHong Zhang + ts - the TS context 334814e85d6SHong Zhang . t - current time 335c9ad9de0SHong Zhang - U - state vector, i.e. current solution 336814e85d6SHong Zhang 337814e85d6SHong Zhang Output Parameter: 338c9ad9de0SHong Zhang . Q - vector of size numcost to hold the outputs 339814e85d6SHong Zhang 340814e85d6SHong Zhang Note: 341814e85d6SHong Zhang Most users should not need to explicitly call this routine, as it 342814e85d6SHong Zhang is used internally within the sensitivity analysis context. 343814e85d6SHong Zhang 344cd4cee2dSHong Zhang Level: deprecated 345814e85d6SHong Zhang 346814e85d6SHong Zhang .keywords: TS, compute 347814e85d6SHong Zhang 348814e85d6SHong Zhang .seealso: TSSetCostIntegrand() 349814e85d6SHong Zhang @*/ 350c9ad9de0SHong Zhang PetscErrorCode TSComputeCostIntegrand(TS ts,PetscReal t,Vec U,Vec Q) 351814e85d6SHong Zhang { 352814e85d6SHong Zhang PetscErrorCode ierr; 353814e85d6SHong Zhang 354814e85d6SHong Zhang PetscFunctionBegin; 355814e85d6SHong Zhang PetscValidHeaderSpecific(ts,TS_CLASSID,1); 356c9ad9de0SHong Zhang PetscValidHeaderSpecific(U,VEC_CLASSID,3); 357c9ad9de0SHong Zhang PetscValidHeaderSpecific(Q,VEC_CLASSID,4); 358814e85d6SHong Zhang 359c9ad9de0SHong Zhang ierr = PetscLogEventBegin(TS_FunctionEval,ts,U,Q,0);CHKERRQ(ierr); 360814e85d6SHong Zhang if (ts->costintegrand) { 361814e85d6SHong Zhang PetscStackPush("TS user integrand in the cost function"); 362c9ad9de0SHong Zhang ierr = (*ts->costintegrand)(ts,t,U,Q,ts->costintegrandctx);CHKERRQ(ierr); 363814e85d6SHong Zhang PetscStackPop; 364814e85d6SHong Zhang } else { 365c9ad9de0SHong Zhang ierr = VecZeroEntries(Q);CHKERRQ(ierr); 366814e85d6SHong Zhang } 367814e85d6SHong Zhang 368c9ad9de0SHong Zhang ierr = PetscLogEventEnd(TS_FunctionEval,ts,U,Q,0);CHKERRQ(ierr); 369814e85d6SHong Zhang PetscFunctionReturn(0); 370814e85d6SHong Zhang } 371814e85d6SHong Zhang 372b5b4017aSHong Zhang /*@C 373c9ad9de0SHong Zhang TSComputeDRDUFunction - Runs the user-defined DRDU function. 374814e85d6SHong Zhang 375814e85d6SHong Zhang Collective on TS 376814e85d6SHong Zhang 377814e85d6SHong Zhang Input Parameters: 378c9ad9de0SHong Zhang + ts - the TS context obtained from TSCreate() 379c9ad9de0SHong Zhang . t - current time 380c9ad9de0SHong Zhang - U - stata vector 381c9ad9de0SHong Zhang 382c9ad9de0SHong Zhang Output Parameters: 383b5b4017aSHong Zhang . DRDU - vector array to hold the outputs 384814e85d6SHong Zhang 385814e85d6SHong Zhang Notes: 386c9ad9de0SHong Zhang TSComputeDRDUFunction() is typically used for sensitivity implementation, 387814e85d6SHong Zhang so most users would not generally call this routine themselves. 388814e85d6SHong Zhang 389814e85d6SHong Zhang Level: developer 390814e85d6SHong Zhang 391814e85d6SHong Zhang .keywords: TS, sensitivity 392814e85d6SHong Zhang .seealso: TSSetCostIntegrand() 393814e85d6SHong Zhang @*/ 394c9ad9de0SHong Zhang PetscErrorCode TSComputeDRDUFunction(TS ts,PetscReal t,Vec U,Vec *DRDU) 395814e85d6SHong Zhang { 396814e85d6SHong Zhang PetscErrorCode ierr; 397814e85d6SHong Zhang 398814e85d6SHong Zhang PetscFunctionBegin; 39933f72c5dSHong Zhang if (!DRDU) PetscFunctionReturn(0); 400814e85d6SHong Zhang PetscValidHeaderSpecific(ts,TS_CLASSID,1); 401c9ad9de0SHong Zhang PetscValidHeaderSpecific(U,VEC_CLASSID,3); 402814e85d6SHong Zhang 403c9ad9de0SHong Zhang PetscStackPush("TS user DRDU function for sensitivity analysis"); 404c9ad9de0SHong Zhang ierr = (*ts->drdufunction)(ts,t,U,DRDU,ts->costintegrandctx); CHKERRQ(ierr); 405814e85d6SHong Zhang PetscStackPop; 406814e85d6SHong Zhang PetscFunctionReturn(0); 407814e85d6SHong Zhang } 408814e85d6SHong Zhang 409b5b4017aSHong Zhang /*@C 410814e85d6SHong Zhang TSComputeDRDPFunction - Runs the user-defined DRDP function. 411814e85d6SHong Zhang 412814e85d6SHong Zhang Collective on TS 413814e85d6SHong Zhang 414814e85d6SHong Zhang Input Parameters: 415c9ad9de0SHong Zhang + ts - the TS context obtained from TSCreate() 416c9ad9de0SHong Zhang . t - current time 417c9ad9de0SHong Zhang - U - stata vector 418c9ad9de0SHong Zhang 419c9ad9de0SHong Zhang Output Parameters: 420b5b4017aSHong Zhang . DRDP - vector array to hold the outputs 421814e85d6SHong Zhang 422814e85d6SHong Zhang Notes: 423c9ad9de0SHong Zhang TSComputeDRDPFunction() is typically used for sensitivity implementation, 424814e85d6SHong Zhang so most users would not generally call this routine themselves. 425814e85d6SHong Zhang 426814e85d6SHong Zhang Level: developer 427814e85d6SHong Zhang 428814e85d6SHong Zhang .keywords: TS, sensitivity 429814e85d6SHong Zhang .seealso: TSSetCostIntegrand() 430814e85d6SHong Zhang @*/ 431c9ad9de0SHong Zhang PetscErrorCode TSComputeDRDPFunction(TS ts,PetscReal t,Vec U,Vec *DRDP) 432814e85d6SHong Zhang { 433814e85d6SHong Zhang PetscErrorCode ierr; 434814e85d6SHong Zhang 435814e85d6SHong Zhang PetscFunctionBegin; 43633f72c5dSHong Zhang if (!DRDP) PetscFunctionReturn(0); 437814e85d6SHong Zhang PetscValidHeaderSpecific(ts,TS_CLASSID,1); 438c9ad9de0SHong Zhang PetscValidHeaderSpecific(U,VEC_CLASSID,3); 439814e85d6SHong Zhang 440814e85d6SHong Zhang PetscStackPush("TS user DRDP function for sensitivity analysis"); 441c9ad9de0SHong Zhang ierr = (*ts->drdpfunction)(ts,t,U,DRDP,ts->costintegrandctx); CHKERRQ(ierr); 442814e85d6SHong Zhang PetscStackPop; 443814e85d6SHong Zhang PetscFunctionReturn(0); 444814e85d6SHong Zhang } 445814e85d6SHong Zhang 446b5b4017aSHong Zhang /*@C 447b5b4017aSHong Zhang TSSetIHessianProduct - Sets the function that computes the vector-Hessian-vector product. The Hessian is the second-order derivative of F (IFunction) w.r.t. the state variable. 448b5b4017aSHong Zhang 449b5b4017aSHong Zhang Logically Collective on TS 450b5b4017aSHong Zhang 451b5b4017aSHong Zhang Input Parameters: 452b5b4017aSHong Zhang + ts - TS context obtained from TSCreate() 453b5b4017aSHong Zhang . ihp1 - an array of vectors storing the result of vector-Hessian-vector product for F_UU 454b5b4017aSHong Zhang . hessianproductfunc1 - vector-Hessian-vector product function for F_UU 455b5b4017aSHong Zhang . ihp2 - an array of vectors storing the result of vector-Hessian-vector product for F_UP 456b5b4017aSHong Zhang . hessianproductfunc2 - vector-Hessian-vector product function for F_UP 457b5b4017aSHong Zhang . ihp3 - an array of vectors storing the result of vector-Hessian-vector product for F_PU 458b5b4017aSHong Zhang . hessianproductfunc3 - vector-Hessian-vector product function for F_PU 459b5b4017aSHong Zhang . ihp4 - an array of vectors storing the result of vector-Hessian-vector product for F_PP 460b5b4017aSHong Zhang . hessianproductfunc4 - vector-Hessian-vector product function for F_PP 461b5b4017aSHong Zhang 462b5b4017aSHong Zhang Calling sequence of ihessianproductfunc: 463b5b4017aSHong Zhang $ ihessianproductfunc (TS ts,PetscReal t,Vec U,Vec Vl,Vec Vr,Vec VHV,void *ctx); 464b5b4017aSHong Zhang + t - current timestep 465b5b4017aSHong Zhang . U - input vector (current ODE solution) 466b5b4017aSHong Zhang . Vl - input vector to be left-multiplied with the Hessian 467b5b4017aSHong Zhang . Vr - input vector to be right-multiplied with the Hessian 468b5b4017aSHong Zhang . VHV - output vector for vector-Hessian-vector product 469b5b4017aSHong Zhang - ctx - [optional] user-defined function context 470b5b4017aSHong Zhang 471b5b4017aSHong Zhang Level: intermediate 472b5b4017aSHong Zhang 473b5b4017aSHong Zhang Note: The first Hessian function and the working array are required. 474b5b4017aSHong Zhang 475b5b4017aSHong Zhang .keywords: TS, sensitivity 476b5b4017aSHong Zhang 477b5b4017aSHong Zhang .seealso: 478b5b4017aSHong Zhang @*/ 479b5b4017aSHong Zhang PetscErrorCode TSSetIHessianProduct(TS ts,Vec *ihp1,PetscErrorCode (*ihessianproductfunc1)(TS,PetscReal,Vec,Vec*,Vec,Vec*,void*), 480b5b4017aSHong Zhang Vec *ihp2,PetscErrorCode (*ihessianproductfunc2)(TS,PetscReal,Vec,Vec*,Vec,Vec*,void*), 481b5b4017aSHong Zhang Vec *ihp3,PetscErrorCode (*ihessianproductfunc3)(TS,PetscReal,Vec,Vec*,Vec,Vec*,void*), 482b5b4017aSHong Zhang Vec *ihp4,PetscErrorCode (*ihessianproductfunc4)(TS,PetscReal,Vec,Vec*,Vec,Vec*,void*), 483b5b4017aSHong Zhang void *ctx) 484b5b4017aSHong Zhang { 485b5b4017aSHong Zhang PetscFunctionBegin; 486b5b4017aSHong Zhang PetscValidHeaderSpecific(ts,TS_CLASSID,1); 487b5b4017aSHong Zhang PetscValidPointer(ihp1,2); 488b5b4017aSHong Zhang 489b5b4017aSHong Zhang ts->ihessianproductctx = ctx; 490b5b4017aSHong Zhang if (ihp1) ts->vecs_fuu = ihp1; 491b5b4017aSHong Zhang if (ihp2) ts->vecs_fup = ihp2; 492b5b4017aSHong Zhang if (ihp3) ts->vecs_fpu = ihp3; 493b5b4017aSHong Zhang if (ihp4) ts->vecs_fpp = ihp4; 494b5b4017aSHong Zhang ts->ihessianproduct_fuu = ihessianproductfunc1; 495b5b4017aSHong Zhang ts->ihessianproduct_fup = ihessianproductfunc2; 496b5b4017aSHong Zhang ts->ihessianproduct_fpu = ihessianproductfunc3; 497b5b4017aSHong Zhang ts->ihessianproduct_fpp = ihessianproductfunc4; 498b5b4017aSHong Zhang PetscFunctionReturn(0); 499b5b4017aSHong Zhang } 500b5b4017aSHong Zhang 501b5b4017aSHong Zhang /*@C 502b5b4017aSHong Zhang TSComputeIHessianProductFunction1 - Runs the user-defined vector-Hessian-vector product function for Fuu. 503b5b4017aSHong Zhang 504b5b4017aSHong Zhang Collective on TS 505b5b4017aSHong Zhang 506b5b4017aSHong Zhang Input Parameters: 507b5b4017aSHong Zhang . ts - The TS context obtained from TSCreate() 508b5b4017aSHong Zhang 509b5b4017aSHong Zhang Notes: 510b5b4017aSHong Zhang TSComputeIHessianProductFunction1() is typically used for sensitivity implementation, 511b5b4017aSHong Zhang so most users would not generally call this routine themselves. 512b5b4017aSHong Zhang 513b5b4017aSHong Zhang Level: developer 514b5b4017aSHong Zhang 515b5b4017aSHong Zhang .keywords: TS, sensitivity 516b5b4017aSHong Zhang 517b5b4017aSHong Zhang .seealso: TSSetIHessianProduct() 518b5b4017aSHong Zhang @*/ 519b5b4017aSHong Zhang PetscErrorCode TSComputeIHessianProductFunction1(TS ts,PetscReal t,Vec U,Vec *Vl,Vec Vr,Vec *VHV) 520b5b4017aSHong Zhang { 521b5b4017aSHong Zhang PetscErrorCode ierr; 522b5b4017aSHong Zhang 523b5b4017aSHong Zhang PetscFunctionBegin; 52433f72c5dSHong Zhang if (!VHV) PetscFunctionReturn(0); 525b5b4017aSHong Zhang PetscValidHeaderSpecific(ts,TS_CLASSID,1); 526b5b4017aSHong Zhang PetscValidHeaderSpecific(U,VEC_CLASSID,3); 527b5b4017aSHong Zhang 52867633408SHong Zhang if (ts->ihessianproduct_fuu) { 529b5b4017aSHong Zhang PetscStackPush("TS user IHessianProduct function 1 for sensitivity analysis"); 530b5b4017aSHong Zhang ierr = (*ts->ihessianproduct_fuu)(ts,t,U,Vl,Vr,VHV,ts->ihessianproductctx);CHKERRQ(ierr); 531b5b4017aSHong Zhang PetscStackPop; 53267633408SHong Zhang } 53367633408SHong Zhang /* does not consider IMEX for now, so either IHessian or RHSHessian will be calculated, using the same output VHV */ 53467633408SHong Zhang if (ts->rhshessianproduct_guu) { 53567633408SHong Zhang PetscInt nadj; 53667633408SHong Zhang ierr = TSComputeRHSHessianProductFunction1(ts,t,U,Vl,Vr,VHV);CHKERRQ(ierr); 53767633408SHong Zhang for (nadj=0; nadj<ts->numcost; nadj++) { 53867633408SHong Zhang ierr = VecScale(VHV[nadj],-1);CHKERRQ(ierr); 53967633408SHong Zhang } 54067633408SHong Zhang } 541b5b4017aSHong Zhang PetscFunctionReturn(0); 542b5b4017aSHong Zhang } 543b5b4017aSHong Zhang 544b5b4017aSHong Zhang /*@C 545b5b4017aSHong Zhang TSComputeIHessianProductFunction2 - Runs the user-defined vector-Hessian-vector product function for Fup. 546b5b4017aSHong Zhang 547b5b4017aSHong Zhang Collective on TS 548b5b4017aSHong Zhang 549b5b4017aSHong Zhang Input Parameters: 550b5b4017aSHong Zhang . ts - The TS context obtained from TSCreate() 551b5b4017aSHong Zhang 552b5b4017aSHong Zhang Notes: 553b5b4017aSHong Zhang TSComputeIHessianProductFunction2() is typically used for sensitivity implementation, 554b5b4017aSHong Zhang so most users would not generally call this routine themselves. 555b5b4017aSHong Zhang 556b5b4017aSHong Zhang Level: developer 557b5b4017aSHong Zhang 558b5b4017aSHong Zhang .keywords: TS, sensitivity 559b5b4017aSHong Zhang 560b5b4017aSHong Zhang .seealso: TSSetIHessianProduct() 561b5b4017aSHong Zhang @*/ 562b5b4017aSHong Zhang PetscErrorCode TSComputeIHessianProductFunction2(TS ts,PetscReal t,Vec U,Vec *Vl,Vec Vr,Vec *VHV) 563b5b4017aSHong Zhang { 564b5b4017aSHong Zhang PetscErrorCode ierr; 565b5b4017aSHong Zhang 566b5b4017aSHong Zhang PetscFunctionBegin; 56733f72c5dSHong Zhang if (!VHV) PetscFunctionReturn(0); 568b5b4017aSHong Zhang PetscValidHeaderSpecific(ts,TS_CLASSID,1); 569b5b4017aSHong Zhang PetscValidHeaderSpecific(U,VEC_CLASSID,3); 570b5b4017aSHong Zhang 57167633408SHong Zhang if (ts->ihessianproduct_fup) { 572b5b4017aSHong Zhang PetscStackPush("TS user IHessianProduct function 2 for sensitivity analysis"); 573b5b4017aSHong Zhang ierr = (*ts->ihessianproduct_fup)(ts,t,U,Vl,Vr,VHV,ts->ihessianproductctx);CHKERRQ(ierr); 574b5b4017aSHong Zhang PetscStackPop; 57567633408SHong Zhang } 57667633408SHong Zhang /* does not consider IMEX for now, so either IHessian or RHSHessian will be calculated, using the same output VHV */ 57767633408SHong Zhang if (ts->rhshessianproduct_gup) { 57867633408SHong Zhang PetscInt nadj; 57967633408SHong Zhang ierr = TSComputeRHSHessianProductFunction2(ts,t,U,Vl,Vr,VHV);CHKERRQ(ierr); 58067633408SHong Zhang for (nadj=0; nadj<ts->numcost; nadj++) { 58167633408SHong Zhang ierr = VecScale(VHV[nadj],-1);CHKERRQ(ierr); 58267633408SHong Zhang } 58367633408SHong Zhang } 584b5b4017aSHong Zhang PetscFunctionReturn(0); 585b5b4017aSHong Zhang } 586b5b4017aSHong Zhang 587b5b4017aSHong Zhang /*@C 588b5b4017aSHong Zhang TSComputeIHessianProductFunction3 - Runs the user-defined vector-Hessian-vector product function for Fpu. 589b5b4017aSHong Zhang 590b5b4017aSHong Zhang Collective on TS 591b5b4017aSHong Zhang 592b5b4017aSHong Zhang Input Parameters: 593b5b4017aSHong Zhang . ts - The TS context obtained from TSCreate() 594b5b4017aSHong Zhang 595b5b4017aSHong Zhang Notes: 596b5b4017aSHong Zhang TSComputeIHessianProductFunction3() is typically used for sensitivity implementation, 597b5b4017aSHong Zhang so most users would not generally call this routine themselves. 598b5b4017aSHong Zhang 599b5b4017aSHong Zhang Level: developer 600b5b4017aSHong Zhang 601b5b4017aSHong Zhang .keywords: TS, sensitivity 602b5b4017aSHong Zhang 603b5b4017aSHong Zhang .seealso: TSSetIHessianProduct() 604b5b4017aSHong Zhang @*/ 605b5b4017aSHong Zhang PetscErrorCode TSComputeIHessianProductFunction3(TS ts,PetscReal t,Vec U,Vec *Vl,Vec Vr,Vec *VHV) 606b5b4017aSHong Zhang { 607b5b4017aSHong Zhang PetscErrorCode ierr; 608b5b4017aSHong Zhang 609b5b4017aSHong Zhang PetscFunctionBegin; 61033f72c5dSHong Zhang if (!VHV) PetscFunctionReturn(0); 611b5b4017aSHong Zhang PetscValidHeaderSpecific(ts,TS_CLASSID,1); 612b5b4017aSHong Zhang PetscValidHeaderSpecific(U,VEC_CLASSID,3); 613b5b4017aSHong Zhang 61467633408SHong Zhang if (ts->ihessianproduct_fpu) { 615b5b4017aSHong Zhang PetscStackPush("TS user IHessianProduct function 3 for sensitivity analysis"); 616b5b4017aSHong Zhang ierr = (*ts->ihessianproduct_fpu)(ts,t,U,Vl,Vr,VHV,ts->ihessianproductctx);CHKERRQ(ierr); 617b5b4017aSHong Zhang PetscStackPop; 61867633408SHong Zhang } 61967633408SHong Zhang /* does not consider IMEX for now, so either IHessian or RHSHessian will be calculated, using the same output VHV */ 62067633408SHong Zhang if (ts->rhshessianproduct_gpu) { 62167633408SHong Zhang PetscInt nadj; 62267633408SHong Zhang ierr = TSComputeRHSHessianProductFunction3(ts,t,U,Vl,Vr,VHV);CHKERRQ(ierr); 62367633408SHong Zhang for (nadj=0; nadj<ts->numcost; nadj++) { 62467633408SHong Zhang ierr = VecScale(VHV[nadj],-1);CHKERRQ(ierr); 62567633408SHong Zhang } 62667633408SHong Zhang } 627b5b4017aSHong Zhang PetscFunctionReturn(0); 628b5b4017aSHong Zhang } 629b5b4017aSHong Zhang 630b5b4017aSHong Zhang /*@C 631b5b4017aSHong Zhang TSComputeIHessianProductFunction4 - Runs the user-defined vector-Hessian-vector product function for Fpp. 632b5b4017aSHong Zhang 633b5b4017aSHong Zhang Collective on TS 634b5b4017aSHong Zhang 635b5b4017aSHong Zhang Input Parameters: 636b5b4017aSHong Zhang . ts - The TS context obtained from TSCreate() 637b5b4017aSHong Zhang 638b5b4017aSHong Zhang Notes: 639b5b4017aSHong Zhang TSComputeIHessianProductFunction4() is typically used for sensitivity implementation, 640b5b4017aSHong Zhang so most users would not generally call this routine themselves. 641b5b4017aSHong Zhang 642b5b4017aSHong Zhang Level: developer 643b5b4017aSHong Zhang 644b5b4017aSHong Zhang .keywords: TS, sensitivity 645b5b4017aSHong Zhang 646b5b4017aSHong Zhang .seealso: TSSetIHessianProduct() 647b5b4017aSHong Zhang @*/ 648b5b4017aSHong Zhang PetscErrorCode TSComputeIHessianProductFunction4(TS ts,PetscReal t,Vec U,Vec *Vl,Vec Vr,Vec *VHV) 649b5b4017aSHong Zhang { 650b5b4017aSHong Zhang PetscErrorCode ierr; 651b5b4017aSHong Zhang 652b5b4017aSHong Zhang PetscFunctionBegin; 65333f72c5dSHong Zhang if (!VHV) PetscFunctionReturn(0); 654b5b4017aSHong Zhang PetscValidHeaderSpecific(ts,TS_CLASSID,1); 655b5b4017aSHong Zhang PetscValidHeaderSpecific(U,VEC_CLASSID,3); 656b5b4017aSHong Zhang 65767633408SHong Zhang if (ts->ihessianproduct_fpp) { 658b5b4017aSHong Zhang PetscStackPush("TS user IHessianProduct function 3 for sensitivity analysis"); 659b5b4017aSHong Zhang ierr = (*ts->ihessianproduct_fpp)(ts,t,U,Vl,Vr,VHV,ts->ihessianproductctx);CHKERRQ(ierr); 660b5b4017aSHong Zhang PetscStackPop; 66167633408SHong Zhang } 66267633408SHong Zhang /* does not consider IMEX for now, so either IHessian or RHSHessian will be calculated, using the same output VHV */ 66367633408SHong Zhang if (ts->rhshessianproduct_gpp) { 66467633408SHong Zhang PetscInt nadj; 66567633408SHong Zhang ierr = TSComputeRHSHessianProductFunction4(ts,t,U,Vl,Vr,VHV);CHKERRQ(ierr); 66667633408SHong Zhang for (nadj=0; nadj<ts->numcost; nadj++) { 66767633408SHong Zhang ierr = VecScale(VHV[nadj],-1);CHKERRQ(ierr); 66867633408SHong Zhang } 66967633408SHong Zhang } 670b5b4017aSHong Zhang PetscFunctionReturn(0); 671b5b4017aSHong Zhang } 672b5b4017aSHong Zhang 67313af1a74SHong Zhang /*@C 67413af1a74SHong Zhang TSSetRHSHessianProduct - Sets the function that computes the vecotr-Hessian-vector product. The Hessian is the second-order derivative of G (RHSFunction) w.r.t. the state variable. 67513af1a74SHong Zhang 67613af1a74SHong Zhang Logically Collective on TS 67713af1a74SHong Zhang 67813af1a74SHong Zhang Input Parameters: 67913af1a74SHong Zhang + ts - TS context obtained from TSCreate() 68013af1a74SHong Zhang . rhshp1 - an array of vectors storing the result of vector-Hessian-vector product for G_UU 68113af1a74SHong Zhang . hessianproductfunc1 - vector-Hessian-vector product function for G_UU 68213af1a74SHong Zhang . rhshp2 - an array of vectors storing the result of vector-Hessian-vector product for G_UP 68313af1a74SHong Zhang . hessianproductfunc2 - vector-Hessian-vector product function for G_UP 68413af1a74SHong Zhang . rhshp3 - an array of vectors storing the result of vector-Hessian-vector product for G_PU 68513af1a74SHong Zhang . hessianproductfunc3 - vector-Hessian-vector product function for G_PU 68613af1a74SHong Zhang . rhshp4 - an array of vectors storing the result of vector-Hessian-vector product for G_PP 68713af1a74SHong Zhang . hessianproductfunc4 - vector-Hessian-vector product function for G_PP 68813af1a74SHong Zhang 68913af1a74SHong Zhang Calling sequence of ihessianproductfunc: 69013af1a74SHong Zhang $ rhshessianproductfunc (TS ts,PetscReal t,Vec U,Vec Vl,Vec Vr,Vec VHV,void *ctx); 69113af1a74SHong Zhang + t - current timestep 69213af1a74SHong Zhang . U - input vector (current ODE solution) 69313af1a74SHong Zhang . Vl - input vector to be left-multiplied with the Hessian 69413af1a74SHong Zhang . Vr - input vector to be right-multiplied with the Hessian 69513af1a74SHong Zhang . VHV - output vector for vector-Hessian-vector product 69613af1a74SHong Zhang - ctx - [optional] user-defined function context 69713af1a74SHong Zhang 69813af1a74SHong Zhang Level: intermediate 69913af1a74SHong Zhang 70013af1a74SHong Zhang Note: The first Hessian function and the working array are required. 70113af1a74SHong Zhang 70213af1a74SHong Zhang .keywords: TS, sensitivity 70313af1a74SHong Zhang 70413af1a74SHong Zhang .seealso: 70513af1a74SHong Zhang @*/ 70613af1a74SHong Zhang PetscErrorCode TSSetRHSHessianProduct(TS ts,Vec *rhshp1,PetscErrorCode (*rhshessianproductfunc1)(TS,PetscReal,Vec,Vec*,Vec,Vec*,void*), 70713af1a74SHong Zhang Vec *rhshp2,PetscErrorCode (*rhshessianproductfunc2)(TS,PetscReal,Vec,Vec*,Vec,Vec*,void*), 70813af1a74SHong Zhang Vec *rhshp3,PetscErrorCode (*rhshessianproductfunc3)(TS,PetscReal,Vec,Vec*,Vec,Vec*,void*), 70913af1a74SHong Zhang Vec *rhshp4,PetscErrorCode (*rhshessianproductfunc4)(TS,PetscReal,Vec,Vec*,Vec,Vec*,void*), 71013af1a74SHong Zhang void *ctx) 71113af1a74SHong Zhang { 71213af1a74SHong Zhang PetscFunctionBegin; 71313af1a74SHong Zhang PetscValidHeaderSpecific(ts,TS_CLASSID,1); 71413af1a74SHong Zhang PetscValidPointer(rhshp1,2); 71513af1a74SHong Zhang 71613af1a74SHong Zhang ts->rhshessianproductctx = ctx; 71713af1a74SHong Zhang if (rhshp1) ts->vecs_guu = rhshp1; 71813af1a74SHong Zhang if (rhshp2) ts->vecs_gup = rhshp2; 71913af1a74SHong Zhang if (rhshp3) ts->vecs_gpu = rhshp3; 72013af1a74SHong Zhang if (rhshp4) ts->vecs_gpp = rhshp4; 72113af1a74SHong Zhang ts->rhshessianproduct_guu = rhshessianproductfunc1; 72213af1a74SHong Zhang ts->rhshessianproduct_gup = rhshessianproductfunc2; 72313af1a74SHong Zhang ts->rhshessianproduct_gpu = rhshessianproductfunc3; 72413af1a74SHong Zhang ts->rhshessianproduct_gpp = rhshessianproductfunc4; 72513af1a74SHong Zhang PetscFunctionReturn(0); 72613af1a74SHong Zhang } 72713af1a74SHong Zhang 72813af1a74SHong Zhang /*@C 72913af1a74SHong Zhang TSComputeRHSHessianProductFunction1 - Runs the user-defined vector-Hessian-vector product function for Guu. 73013af1a74SHong Zhang 73113af1a74SHong Zhang Collective on TS 73213af1a74SHong Zhang 73313af1a74SHong Zhang Input Parameters: 73413af1a74SHong Zhang . ts - The TS context obtained from TSCreate() 73513af1a74SHong Zhang 73613af1a74SHong Zhang Notes: 73713af1a74SHong Zhang TSComputeRHSHessianProductFunction1() is typically used for sensitivity implementation, 73813af1a74SHong Zhang so most users would not generally call this routine themselves. 73913af1a74SHong Zhang 74013af1a74SHong Zhang Level: developer 74113af1a74SHong Zhang 74213af1a74SHong Zhang .keywords: TS, sensitivity 74313af1a74SHong Zhang 74413af1a74SHong Zhang .seealso: TSSetRHSHessianProduct() 74513af1a74SHong Zhang @*/ 74613af1a74SHong Zhang PetscErrorCode TSComputeRHSHessianProductFunction1(TS ts,PetscReal t,Vec U,Vec *Vl,Vec Vr,Vec *VHV) 74713af1a74SHong Zhang { 74813af1a74SHong Zhang PetscErrorCode ierr; 74913af1a74SHong Zhang 75013af1a74SHong Zhang PetscFunctionBegin; 75113af1a74SHong Zhang if (!VHV) PetscFunctionReturn(0); 75213af1a74SHong Zhang PetscValidHeaderSpecific(ts,TS_CLASSID,1); 75313af1a74SHong Zhang PetscValidHeaderSpecific(U,VEC_CLASSID,3); 75413af1a74SHong Zhang 75513af1a74SHong Zhang PetscStackPush("TS user RHSHessianProduct function 1 for sensitivity analysis"); 75613af1a74SHong Zhang ierr = (*ts->rhshessianproduct_guu)(ts,t,U,Vl,Vr,VHV,ts->rhshessianproductctx);CHKERRQ(ierr); 75713af1a74SHong Zhang PetscStackPop; 75813af1a74SHong Zhang PetscFunctionReturn(0); 75913af1a74SHong Zhang } 76013af1a74SHong Zhang 76113af1a74SHong Zhang /*@C 76213af1a74SHong Zhang TSComputeRHSHessianProductFunction2 - Runs the user-defined vector-Hessian-vector product function for Gup. 76313af1a74SHong Zhang 76413af1a74SHong Zhang Collective on TS 76513af1a74SHong Zhang 76613af1a74SHong Zhang Input Parameters: 76713af1a74SHong Zhang . ts - The TS context obtained from TSCreate() 76813af1a74SHong Zhang 76913af1a74SHong Zhang Notes: 77013af1a74SHong Zhang TSComputeRHSHessianProductFunction2() is typically used for sensitivity implementation, 77113af1a74SHong Zhang so most users would not generally call this routine themselves. 77213af1a74SHong Zhang 77313af1a74SHong Zhang Level: developer 77413af1a74SHong Zhang 77513af1a74SHong Zhang .keywords: TS, sensitivity 77613af1a74SHong Zhang 77713af1a74SHong Zhang .seealso: TSSetRHSHessianProduct() 77813af1a74SHong Zhang @*/ 77913af1a74SHong Zhang PetscErrorCode TSComputeRHSHessianProductFunction2(TS ts,PetscReal t,Vec U,Vec *Vl,Vec Vr,Vec *VHV) 78013af1a74SHong Zhang { 78113af1a74SHong Zhang PetscErrorCode ierr; 78213af1a74SHong Zhang 78313af1a74SHong Zhang PetscFunctionBegin; 78413af1a74SHong Zhang if (!VHV) PetscFunctionReturn(0); 78513af1a74SHong Zhang PetscValidHeaderSpecific(ts,TS_CLASSID,1); 78613af1a74SHong Zhang PetscValidHeaderSpecific(U,VEC_CLASSID,3); 78713af1a74SHong Zhang 78813af1a74SHong Zhang PetscStackPush("TS user RHSHessianProduct function 2 for sensitivity analysis"); 78913af1a74SHong Zhang ierr = (*ts->rhshessianproduct_gup)(ts,t,U,Vl,Vr,VHV,ts->rhshessianproductctx);CHKERRQ(ierr); 79013af1a74SHong Zhang PetscStackPop; 79113af1a74SHong Zhang PetscFunctionReturn(0); 79213af1a74SHong Zhang } 79313af1a74SHong Zhang 79413af1a74SHong Zhang /*@C 79513af1a74SHong Zhang TSComputeRHSHessianProductFunction3 - Runs the user-defined vector-Hessian-vector product function for Gpu. 79613af1a74SHong Zhang 79713af1a74SHong Zhang Collective on TS 79813af1a74SHong Zhang 79913af1a74SHong Zhang Input Parameters: 80013af1a74SHong Zhang . ts - The TS context obtained from TSCreate() 80113af1a74SHong Zhang 80213af1a74SHong Zhang Notes: 80313af1a74SHong Zhang TSComputeRHSHessianProductFunction3() is typically used for sensitivity implementation, 80413af1a74SHong Zhang so most users would not generally call this routine themselves. 80513af1a74SHong Zhang 80613af1a74SHong Zhang Level: developer 80713af1a74SHong Zhang 80813af1a74SHong Zhang .keywords: TS, sensitivity 80913af1a74SHong Zhang 81013af1a74SHong Zhang .seealso: TSSetRHSHessianProduct() 81113af1a74SHong Zhang @*/ 81213af1a74SHong Zhang PetscErrorCode TSComputeRHSHessianProductFunction3(TS ts,PetscReal t,Vec U,Vec *Vl,Vec Vr,Vec *VHV) 81313af1a74SHong Zhang { 81413af1a74SHong Zhang PetscErrorCode ierr; 81513af1a74SHong Zhang 81613af1a74SHong Zhang PetscFunctionBegin; 81713af1a74SHong Zhang if (!VHV) PetscFunctionReturn(0); 81813af1a74SHong Zhang PetscValidHeaderSpecific(ts,TS_CLASSID,1); 81913af1a74SHong Zhang PetscValidHeaderSpecific(U,VEC_CLASSID,3); 82013af1a74SHong Zhang 82113af1a74SHong Zhang PetscStackPush("TS user RHSHessianProduct function 3 for sensitivity analysis"); 82213af1a74SHong Zhang ierr = (*ts->rhshessianproduct_gpu)(ts,t,U,Vl,Vr,VHV,ts->rhshessianproductctx);CHKERRQ(ierr); 82313af1a74SHong Zhang PetscStackPop; 82413af1a74SHong Zhang PetscFunctionReturn(0); 82513af1a74SHong Zhang } 82613af1a74SHong Zhang 82713af1a74SHong Zhang /*@C 82813af1a74SHong Zhang TSComputeRHSHessianProductFunction4 - Runs the user-defined vector-Hessian-vector product function for Gpp. 82913af1a74SHong Zhang 83013af1a74SHong Zhang Collective on TS 83113af1a74SHong Zhang 83213af1a74SHong Zhang Input Parameters: 83313af1a74SHong Zhang . ts - The TS context obtained from TSCreate() 83413af1a74SHong Zhang 83513af1a74SHong Zhang Notes: 83613af1a74SHong Zhang TSComputeRHSHessianProductFunction4() is typically used for sensitivity implementation, 83713af1a74SHong Zhang so most users would not generally call this routine themselves. 83813af1a74SHong Zhang 83913af1a74SHong Zhang Level: developer 84013af1a74SHong Zhang 84113af1a74SHong Zhang .keywords: TS, sensitivity 84213af1a74SHong Zhang 84313af1a74SHong Zhang .seealso: TSSetRHSHessianProduct() 84413af1a74SHong Zhang @*/ 84513af1a74SHong Zhang PetscErrorCode TSComputeRHSHessianProductFunction4(TS ts,PetscReal t,Vec U,Vec *Vl,Vec Vr,Vec *VHV) 84613af1a74SHong Zhang { 84713af1a74SHong Zhang PetscErrorCode ierr; 84813af1a74SHong Zhang 84913af1a74SHong Zhang PetscFunctionBegin; 85013af1a74SHong Zhang if (!VHV) PetscFunctionReturn(0); 85113af1a74SHong Zhang PetscValidHeaderSpecific(ts,TS_CLASSID,1); 85213af1a74SHong Zhang PetscValidHeaderSpecific(U,VEC_CLASSID,3); 85313af1a74SHong Zhang 85413af1a74SHong Zhang PetscStackPush("TS user RHSHessianProduct function 3 for sensitivity analysis"); 85513af1a74SHong Zhang ierr = (*ts->rhshessianproduct_gpp)(ts,t,U,Vl,Vr,VHV,ts->rhshessianproductctx);CHKERRQ(ierr); 85613af1a74SHong Zhang PetscStackPop; 85713af1a74SHong Zhang PetscFunctionReturn(0); 85813af1a74SHong Zhang } 85913af1a74SHong Zhang 860814e85d6SHong Zhang /* --------------------------- Adjoint sensitivity ---------------------------*/ 861814e85d6SHong Zhang 862814e85d6SHong Zhang /*@ 863814e85d6SHong Zhang TSSetCostGradients - Sets the initial value of the gradients of the cost function w.r.t. initial values and w.r.t. the problem parameters 864814e85d6SHong Zhang for use by the TSAdjoint routines. 865814e85d6SHong Zhang 866814e85d6SHong Zhang Logically Collective on TS and Vec 867814e85d6SHong Zhang 868814e85d6SHong Zhang Input Parameters: 869814e85d6SHong Zhang + ts - the TS context obtained from TSCreate() 870814e85d6SHong Zhang . lambda - gradients with respect to the initial condition variables, the dimension and parallel layout of these vectors is the same as the ODE solution vector 871814e85d6SHong Zhang - mu - gradients with respect to the parameters, the number of entries in these vectors is the same as the number of parameters 872814e85d6SHong Zhang 873814e85d6SHong Zhang Level: beginner 874814e85d6SHong Zhang 875814e85d6SHong Zhang Notes: 876814e85d6SHong Zhang the entries in these vectors must be correctly initialized with the values lamda_i = df/dy|finaltime mu_i = df/dp|finaltime 877814e85d6SHong Zhang 878814e85d6SHong Zhang After TSAdjointSolve() is called the lamba and the mu contain the computed sensitivities 879814e85d6SHong Zhang 880814e85d6SHong Zhang .keywords: TS, timestep, set, sensitivity, initial values 881b5b4017aSHong Zhang 882b5b4017aSHong Zhang .seealso TSGetCostGradients() 883814e85d6SHong Zhang @*/ 884814e85d6SHong Zhang PetscErrorCode TSSetCostGradients(TS ts,PetscInt numcost,Vec *lambda,Vec *mu) 885814e85d6SHong Zhang { 886814e85d6SHong Zhang PetscFunctionBegin; 887814e85d6SHong Zhang PetscValidHeaderSpecific(ts,TS_CLASSID,1); 888814e85d6SHong Zhang PetscValidPointer(lambda,2); 889814e85d6SHong Zhang ts->vecs_sensi = lambda; 890814e85d6SHong Zhang ts->vecs_sensip = mu; 891814e85d6SHong Zhang if (ts->numcost && ts->numcost!=numcost) SETERRQ(PetscObjectComm((PetscObject)ts),PETSC_ERR_USER,"The number of cost functions (2rd parameter of TSSetCostIntegrand()) is inconsistent with the one set by TSSetCostIntegrand"); 892814e85d6SHong Zhang ts->numcost = numcost; 893814e85d6SHong Zhang PetscFunctionReturn(0); 894814e85d6SHong Zhang } 895814e85d6SHong Zhang 896814e85d6SHong Zhang /*@ 897814e85d6SHong Zhang TSGetCostGradients - Returns the gradients from the TSAdjointSolve() 898814e85d6SHong Zhang 899814e85d6SHong Zhang Not Collective, but Vec returned is parallel if TS is parallel 900814e85d6SHong Zhang 901814e85d6SHong Zhang Input Parameter: 902814e85d6SHong Zhang . ts - the TS context obtained from TSCreate() 903814e85d6SHong Zhang 904814e85d6SHong Zhang Output Parameter: 905814e85d6SHong Zhang + lambda - vectors containing the gradients of the cost functions with respect to the ODE/DAE solution variables 906814e85d6SHong Zhang - mu - vectors containing the gradients of the cost functions with respect to the problem parameters 907814e85d6SHong Zhang 908814e85d6SHong Zhang Level: intermediate 909814e85d6SHong Zhang 910814e85d6SHong Zhang .keywords: TS, timestep, get, sensitivity 911b5b4017aSHong Zhang 912b5b4017aSHong Zhang .seealso: TSSetCostGradients() 913814e85d6SHong Zhang @*/ 914814e85d6SHong Zhang PetscErrorCode TSGetCostGradients(TS ts,PetscInt *numcost,Vec **lambda,Vec **mu) 915814e85d6SHong Zhang { 916814e85d6SHong Zhang PetscFunctionBegin; 917814e85d6SHong Zhang PetscValidHeaderSpecific(ts,TS_CLASSID,1); 918814e85d6SHong Zhang if (numcost) *numcost = ts->numcost; 919814e85d6SHong Zhang if (lambda) *lambda = ts->vecs_sensi; 920814e85d6SHong Zhang if (mu) *mu = ts->vecs_sensip; 921814e85d6SHong Zhang PetscFunctionReturn(0); 922814e85d6SHong Zhang } 923814e85d6SHong Zhang 924814e85d6SHong Zhang /*@ 925b5b4017aSHong Zhang TSSetCostHessianProducts - Sets the initial value of the Hessian-vector products of the cost function w.r.t. initial values and w.r.t. the problem parameters 926b5b4017aSHong Zhang for use by the TSAdjoint routines. 927b5b4017aSHong Zhang 928b5b4017aSHong Zhang Logically Collective on TS and Vec 929b5b4017aSHong Zhang 930b5b4017aSHong Zhang Input Parameters: 931b5b4017aSHong Zhang + ts - the TS context obtained from TSCreate() 932b5b4017aSHong Zhang . numcost - number of cost functions 933b5b4017aSHong Zhang . lambda2 - Hessian-vector product with respect to the initial condition variables, the dimension and parallel layout of these vectors is the same as the ODE solution vector 934b5b4017aSHong Zhang . mu2 - Hessian-vector product with respect to the parameters, the number of entries in these vectors is the same as the number of parameters 935b5b4017aSHong Zhang - dir - the direction vector that are multiplied with the Hessian of the cost functions 936b5b4017aSHong Zhang 937b5b4017aSHong Zhang Level: beginner 938b5b4017aSHong Zhang 939b5b4017aSHong Zhang Notes: Hessian of the cost function is completely different from Hessian of the ODE/DAE system 940b5b4017aSHong Zhang 941ecf68647SHong Zhang For second-order adjoint, one needs to call this function and then TSAdjointSetForward() before TSSolve(). 942b5b4017aSHong Zhang 943b5b4017aSHong Zhang After TSAdjointSolve() is called, the lamba2 and the mu2 will contain the computed second-order adjoint sensitivities, and can be used to produce Hessian-vector product (not the full Hessian matrix). Users must provide a direction vector; it is usually generated by an optimization solver. 944b5b4017aSHong Zhang 9453fca9621SHong Zhang Passing NULL for lambda2 disables the second-order calculation. 946b5b4017aSHong Zhang .keywords: TS, sensitivity, second-order adjoint 947b5b4017aSHong Zhang 948ecf68647SHong Zhang .seealso: TSAdjointSetForward() 949b5b4017aSHong Zhang @*/ 950b5b4017aSHong Zhang PetscErrorCode TSSetCostHessianProducts(TS ts,PetscInt numcost,Vec *lambda2,Vec *mu2,Vec dir) 951b5b4017aSHong Zhang { 952b5b4017aSHong Zhang PetscFunctionBegin; 953b5b4017aSHong Zhang PetscValidHeaderSpecific(ts,TS_CLASSID,1); 954b5b4017aSHong Zhang if (ts->numcost && ts->numcost!=numcost) SETERRQ(PetscObjectComm((PetscObject)ts),PETSC_ERR_USER,"The number of cost functions (2rd parameter of TSSetCostIntegrand()) is inconsistent with the one set by TSSetCostIntegrand"); 955b5b4017aSHong Zhang ts->numcost = numcost; 956b5b4017aSHong Zhang ts->vecs_sensi2 = lambda2; 95733f72c5dSHong Zhang ts->vecs_sensi2p = mu2; 958b5b4017aSHong Zhang ts->vec_dir = dir; 959b5b4017aSHong Zhang PetscFunctionReturn(0); 960b5b4017aSHong Zhang } 961b5b4017aSHong Zhang 962b5b4017aSHong Zhang /*@ 963b5b4017aSHong Zhang TSGetCostHessianProducts - Returns the gradients from the TSAdjointSolve() 964b5b4017aSHong Zhang 965b5b4017aSHong Zhang Not Collective, but Vec returned is parallel if TS is parallel 966b5b4017aSHong Zhang 967b5b4017aSHong Zhang Input Parameter: 968b5b4017aSHong Zhang . ts - the TS context obtained from TSCreate() 969b5b4017aSHong Zhang 970b5b4017aSHong Zhang Output Parameter: 971b5b4017aSHong Zhang + numcost - number of cost functions 972b5b4017aSHong Zhang . lambda2 - Hessian-vector product with respect to the initial condition variables, the dimension and parallel layout of these vectors is the same as the ODE solution vector 973b5b4017aSHong Zhang . mu2 - Hessian-vector product with respect to the parameters, the number of entries in these vectors is the same as the number of parameters 974b5b4017aSHong Zhang - dir - the direction vector that are multiplied with the Hessian of the cost functions 975b5b4017aSHong Zhang 976b5b4017aSHong Zhang Level: intermediate 977b5b4017aSHong Zhang 978b5b4017aSHong Zhang .keywords: TS, sensitivity, second-order adjoint 979b5b4017aSHong Zhang 980b5b4017aSHong Zhang .seealso: TSSetCostHessianProducts() 981b5b4017aSHong Zhang @*/ 982b5b4017aSHong Zhang PetscErrorCode TSGetCostHessianProducts(TS ts,PetscInt *numcost,Vec **lambda2,Vec **mu2, Vec *dir) 983b5b4017aSHong Zhang { 984b5b4017aSHong Zhang PetscFunctionBegin; 985b5b4017aSHong Zhang PetscValidHeaderSpecific(ts,TS_CLASSID,1); 986b5b4017aSHong Zhang if (numcost) *numcost = ts->numcost; 987b5b4017aSHong Zhang if (lambda2) *lambda2 = ts->vecs_sensi2; 98833f72c5dSHong Zhang if (mu2) *mu2 = ts->vecs_sensi2p; 989b5b4017aSHong Zhang if (dir) *dir = ts->vec_dir; 990b5b4017aSHong Zhang PetscFunctionReturn(0); 991b5b4017aSHong Zhang } 992b5b4017aSHong Zhang 993b5b4017aSHong Zhang /*@ 994ecf68647SHong Zhang TSAdjointSetForward - Trigger the tangent linear solver and initialize the forward sensitivities 995b5b4017aSHong Zhang 996b5b4017aSHong Zhang Logically Collective on TS and Mat 997b5b4017aSHong Zhang 998b5b4017aSHong Zhang Input Parameters: 999b5b4017aSHong Zhang + ts - the TS context obtained from TSCreate() 1000b5b4017aSHong Zhang - didp - the derivative of initial values w.r.t. parameters 1001b5b4017aSHong Zhang 1002b5b4017aSHong Zhang Level: intermediate 1003b5b4017aSHong Zhang 1004ecf68647SHong Zhang Notes: When computing sensitivies w.r.t. initial condition, set didp to NULL so that the solver will take it as an identity matrix mathematically. TSAdjoint does not reset the tangent linear solver automatically, TSAdjointResetForward() should be called to reset the tangent linear solver. 1005b5b4017aSHong Zhang 1006b5b4017aSHong Zhang .keywords: TS, sensitivity, second-order adjoint 1007b5b4017aSHong Zhang 1008ecf68647SHong Zhang .seealso: TSSetCostHessianProducts(), TSAdjointResetForward() 1009b5b4017aSHong Zhang @*/ 1010ecf68647SHong Zhang PetscErrorCode TSAdjointSetForward(TS ts,Mat didp) 1011b5b4017aSHong Zhang { 101233f72c5dSHong Zhang Mat A; 101333f72c5dSHong Zhang Vec sp; 101433f72c5dSHong Zhang PetscScalar *xarr; 101533f72c5dSHong Zhang PetscInt lsize; 1016b5b4017aSHong Zhang PetscErrorCode ierr; 1017b5b4017aSHong Zhang 1018b5b4017aSHong Zhang PetscFunctionBegin; 1019b5b4017aSHong Zhang ts->forward_solve = PETSC_TRUE; /* turn on tangent linear mode */ 1020b5b4017aSHong Zhang if (!ts->vecs_sensi2) SETERRQ(PetscObjectComm((PetscObject)ts),PETSC_ERR_USER,"Must call TSSetCostHessianProducts() first"); 102133f72c5dSHong Zhang if (!ts->vec_dir) SETERRQ(PetscObjectComm((PetscObject)ts),PETSC_ERR_USER,"Directional vector is missing. Call TSSetCostHessianProducts() to set it."); 102233f72c5dSHong Zhang /* create a single-column dense matrix */ 102333f72c5dSHong Zhang ierr = VecGetLocalSize(ts->vec_sol,&lsize);CHKERRQ(ierr); 1024f63bf25fSHong Zhang ierr = MatCreateDense(PetscObjectComm((PetscObject)ts),lsize,PETSC_DECIDE,PETSC_DECIDE,1,NULL,&A);CHKERRQ(ierr); 102533f72c5dSHong Zhang 102633f72c5dSHong Zhang ierr = VecDuplicate(ts->vec_sol,&sp);CHKERRQ(ierr); 102733f72c5dSHong Zhang ierr = MatDenseGetColumn(A,0,&xarr);CHKERRQ(ierr); 102833f72c5dSHong Zhang ierr = VecPlaceArray(sp,xarr);CHKERRQ(ierr); 1029ecf68647SHong Zhang if (ts->vecs_sensi2p) { /* tangent linear variable initialized as 2*dIdP*dir */ 103033f72c5dSHong Zhang if (didp) { 103133f72c5dSHong Zhang ierr = MatMult(didp,ts->vec_dir,sp);CHKERRQ(ierr); 103233f72c5dSHong Zhang ierr = VecScale(sp,2.);CHKERRQ(ierr); 103333f72c5dSHong Zhang } else { 103433f72c5dSHong Zhang ierr = VecZeroEntries(sp);CHKERRQ(ierr); 103533f72c5dSHong Zhang } 1036ecf68647SHong Zhang } else { /* tangent linear variable initialized as dir */ 103733f72c5dSHong Zhang ierr = VecCopy(ts->vec_dir,sp);CHKERRQ(ierr); 103833f72c5dSHong Zhang } 103933f72c5dSHong Zhang ierr = VecResetArray(sp);CHKERRQ(ierr); 104033f72c5dSHong Zhang ierr = MatDenseRestoreColumn(A,&xarr);CHKERRQ(ierr); 104133f72c5dSHong Zhang ierr = VecDestroy(&sp);CHKERRQ(ierr); 104233f72c5dSHong Zhang 104333f72c5dSHong Zhang ierr = TSForwardSetInitialSensitivities(ts,A);CHKERRQ(ierr); /* if didp is NULL, identity matrix is assumed */ 104433f72c5dSHong Zhang 104533f72c5dSHong Zhang ierr = MatDestroy(&A);CHKERRQ(ierr); 1046b5b4017aSHong Zhang PetscFunctionReturn(0); 1047b5b4017aSHong Zhang } 1048b5b4017aSHong Zhang 1049b5b4017aSHong Zhang /*@ 1050ecf68647SHong Zhang TSAdjointResetForward - Reset the tangent linear solver and destroy the tangent linear context 1051ecf68647SHong Zhang 1052ecf68647SHong Zhang Logically Collective on TS and Mat 1053ecf68647SHong Zhang 1054ecf68647SHong Zhang Input Parameters: 1055ecf68647SHong Zhang . ts - the TS context obtained from TSCreate() 1056ecf68647SHong Zhang 1057ecf68647SHong Zhang Level: intermediate 1058ecf68647SHong Zhang 1059ecf68647SHong Zhang .keywords: TS, sensitivity, second-order adjoint 1060ecf68647SHong Zhang 1061ecf68647SHong Zhang .seealso: TSAdjointSetForward() 1062ecf68647SHong Zhang @*/ 1063ecf68647SHong Zhang PetscErrorCode TSAdjointResetForward(TS ts) 1064ecf68647SHong Zhang { 1065ecf68647SHong Zhang PetscErrorCode ierr; 1066ecf68647SHong Zhang 1067ecf68647SHong Zhang PetscFunctionBegin; 1068ecf68647SHong Zhang ts->forward_solve = PETSC_FALSE; /* turn off tangent linear mode */ 1069ecf68647SHong Zhang ierr = TSForwardReset(ts);CHKERRQ(ierr); 1070ecf68647SHong Zhang PetscFunctionReturn(0); 1071ecf68647SHong Zhang } 1072ecf68647SHong Zhang 1073ecf68647SHong Zhang /*@ 1074814e85d6SHong Zhang TSAdjointSetUp - Sets up the internal data structures for the later use 1075814e85d6SHong Zhang of an adjoint solver 1076814e85d6SHong Zhang 1077814e85d6SHong Zhang Collective on TS 1078814e85d6SHong Zhang 1079814e85d6SHong Zhang Input Parameter: 1080814e85d6SHong Zhang . ts - the TS context obtained from TSCreate() 1081814e85d6SHong Zhang 1082814e85d6SHong Zhang Level: advanced 1083814e85d6SHong Zhang 1084814e85d6SHong Zhang .keywords: TS, timestep, setup 1085814e85d6SHong Zhang 1086814e85d6SHong Zhang .seealso: TSCreate(), TSAdjointStep(), TSSetCostGradients() 1087814e85d6SHong Zhang @*/ 1088814e85d6SHong Zhang PetscErrorCode TSAdjointSetUp(TS ts) 1089814e85d6SHong Zhang { 1090*881c1a9bSHong Zhang TSTrajectory tj; 1091*881c1a9bSHong Zhang TSTrajectoryType tjtype; 1092*881c1a9bSHong Zhang PetscBool match; 1093814e85d6SHong Zhang PetscErrorCode ierr; 1094814e85d6SHong Zhang 1095814e85d6SHong Zhang PetscFunctionBegin; 1096814e85d6SHong Zhang PetscValidHeaderSpecific(ts,TS_CLASSID,1); 1097814e85d6SHong Zhang if (ts->adjointsetupcalled) PetscFunctionReturn(0); 1098814e85d6SHong Zhang if (!ts->vecs_sensi) SETERRQ(PetscObjectComm((PetscObject)ts),PETSC_ERR_ARG_WRONGSTATE,"Must call TSSetCostGradients() first"); 109933f72c5dSHong Zhang if (ts->vecs_sensip && !ts->Jacp && !ts->Jacprhs) SETERRQ(PetscObjectComm((PetscObject)ts),PETSC_ERR_ARG_WRONGSTATE,"Must call TSSetRHSJacobianP() or TSSetIJacobianP() first"); 1100*881c1a9bSHong Zhang ierr = TSGetTrajectory(ts,&tj);CHKERRQ(ierr); 1101*881c1a9bSHong Zhang ierr = TSTrajectoryGetType(tj,ts,&tjtype);CHKERRQ(ierr); 1102*881c1a9bSHong Zhang ierr = PetscStrcmp(TSTRAJECTORYBASIC,tjtype,&match);CHKERRQ(ierr); 1103*881c1a9bSHong Zhang if (match) { 1104*881c1a9bSHong Zhang PetscBool solution_only; 1105*881c1a9bSHong Zhang ierr = TSTrajectoryGetSolutionOnly(tj,&solution_only);CHKERRQ(ierr); 1106*881c1a9bSHong Zhang if (solution_only) SETERRQ(PetscObjectComm((PetscObject)ts),PETSC_ERR_USER,"TSAdjoint cannot use the solution-only mode when choosing the Basic TSTrajectory type. Turn it off with -ts_trajectory_solution_only 0"); 1107*881c1a9bSHong Zhang } 110833f72c5dSHong Zhang 110933f72c5dSHong Zhang if (!ts->Jacp && ts->Jacprhs) ts->Jacp = ts->Jacprhs; 1110814e85d6SHong Zhang 1111cd4cee2dSHong Zhang if (ts->quadraturets) { /* if there is integral in the cost function */ 1112cd4cee2dSHong Zhang ierr = VecDuplicate(ts->vecs_sensi[0],&ts->vec_drdu_col);CHKERRQ(ierr); 1113814e85d6SHong Zhang if (ts->vecs_sensip){ 1114cd4cee2dSHong Zhang ierr = VecDuplicate(ts->vecs_sensip[0],&ts->vec_drdp_col);CHKERRQ(ierr); 1115814e85d6SHong Zhang } 1116814e85d6SHong Zhang } 1117814e85d6SHong Zhang 1118814e85d6SHong Zhang if (ts->ops->adjointsetup) { 1119814e85d6SHong Zhang ierr = (*ts->ops->adjointsetup)(ts);CHKERRQ(ierr); 1120814e85d6SHong Zhang } 1121814e85d6SHong Zhang ts->adjointsetupcalled = PETSC_TRUE; 1122814e85d6SHong Zhang PetscFunctionReturn(0); 1123814e85d6SHong Zhang } 1124814e85d6SHong Zhang 1125814e85d6SHong Zhang /*@ 1126ece46509SHong Zhang TSAdjointReset - Resets a TSAdjoint context and removes any allocated Vecs and Mats. 1127ece46509SHong Zhang 1128ece46509SHong Zhang Collective on TS 1129ece46509SHong Zhang 1130ece46509SHong Zhang Input Parameter: 1131ece46509SHong Zhang . ts - the TS context obtained from TSCreate() 1132ece46509SHong Zhang 1133ece46509SHong Zhang Level: beginner 1134ece46509SHong Zhang 1135ece46509SHong Zhang .keywords: TS, timestep, reset 1136ece46509SHong Zhang 1137ece46509SHong Zhang .seealso: TSCreate(), TSAdjointSetup(), TSADestroy() 1138ece46509SHong Zhang @*/ 1139ece46509SHong Zhang PetscErrorCode TSAdjointReset(TS ts) 1140ece46509SHong Zhang { 1141ece46509SHong Zhang PetscErrorCode ierr; 1142ece46509SHong Zhang 1143ece46509SHong Zhang PetscFunctionBegin; 1144ece46509SHong Zhang PetscValidHeaderSpecific(ts,TS_CLASSID,1); 1145ece46509SHong Zhang if (ts->ops->adjointreset) { 1146ece46509SHong Zhang ierr = (*ts->ops->adjointreset)(ts);CHKERRQ(ierr); 1147ece46509SHong Zhang } 11487207e0fdSHong Zhang if (ts->quadraturets) { /* if there is integral in the cost function */ 11497207e0fdSHong Zhang ierr = VecDestroy(&ts->vec_drdu_col);CHKERRQ(ierr); 11507207e0fdSHong Zhang if (ts->vecs_sensip){ 11517207e0fdSHong Zhang ierr = VecDestroy(&ts->vec_drdp_col);CHKERRQ(ierr); 11527207e0fdSHong Zhang } 11537207e0fdSHong Zhang } 1154ece46509SHong Zhang ts->vecs_sensi = NULL; 1155ece46509SHong Zhang ts->vecs_sensip = NULL; 1156ece46509SHong Zhang ts->vecs_sensi2 = NULL; 115733f72c5dSHong Zhang ts->vecs_sensi2p = NULL; 1158ece46509SHong Zhang ts->vec_dir = NULL; 1159ece46509SHong Zhang ts->adjointsetupcalled = PETSC_FALSE; 1160ece46509SHong Zhang PetscFunctionReturn(0); 1161ece46509SHong Zhang } 1162ece46509SHong Zhang 1163ece46509SHong Zhang /*@ 1164814e85d6SHong Zhang TSAdjointSetSteps - Sets the number of steps the adjoint solver should take backward in time 1165814e85d6SHong Zhang 1166814e85d6SHong Zhang Logically Collective on TS 1167814e85d6SHong Zhang 1168814e85d6SHong Zhang Input Parameters: 1169814e85d6SHong Zhang + ts - the TS context obtained from TSCreate() 1170814e85d6SHong Zhang . steps - number of steps to use 1171814e85d6SHong Zhang 1172814e85d6SHong Zhang Level: intermediate 1173814e85d6SHong Zhang 1174814e85d6SHong Zhang Notes: 1175814e85d6SHong Zhang Normally one does not call this and TSAdjointSolve() integrates back to the original timestep. One can call this 1176814e85d6SHong Zhang so as to integrate back to less than the original timestep 1177814e85d6SHong Zhang 1178814e85d6SHong Zhang .keywords: TS, timestep, set, maximum, iterations 1179814e85d6SHong Zhang 1180814e85d6SHong Zhang .seealso: TSSetExactFinalTime() 1181814e85d6SHong Zhang @*/ 1182814e85d6SHong Zhang PetscErrorCode TSAdjointSetSteps(TS ts,PetscInt steps) 1183814e85d6SHong Zhang { 1184814e85d6SHong Zhang PetscFunctionBegin; 1185814e85d6SHong Zhang PetscValidHeaderSpecific(ts,TS_CLASSID,1); 1186814e85d6SHong Zhang PetscValidLogicalCollectiveInt(ts,steps,2); 1187814e85d6SHong Zhang if (steps < 0) SETERRQ(PetscObjectComm((PetscObject)ts),PETSC_ERR_ARG_OUTOFRANGE,"Cannot step back a negative number of steps"); 1188814e85d6SHong Zhang if (steps > ts->steps) SETERRQ(PetscObjectComm((PetscObject)ts),PETSC_ERR_ARG_OUTOFRANGE,"Cannot step back more than the total number of forward steps"); 1189814e85d6SHong Zhang ts->adjoint_max_steps = steps; 1190814e85d6SHong Zhang PetscFunctionReturn(0); 1191814e85d6SHong Zhang } 1192814e85d6SHong Zhang 1193814e85d6SHong Zhang /*@C 1194814e85d6SHong Zhang TSAdjointSetRHSJacobian - Deprecated, use TSSetRHSJacobianP() 1195814e85d6SHong Zhang 1196814e85d6SHong Zhang Level: deprecated 1197814e85d6SHong Zhang 1198814e85d6SHong Zhang @*/ 1199814e85d6SHong Zhang PetscErrorCode TSAdjointSetRHSJacobian(TS ts,Mat Amat,PetscErrorCode (*func)(TS,PetscReal,Vec,Mat,void*),void *ctx) 1200814e85d6SHong Zhang { 1201814e85d6SHong Zhang PetscErrorCode ierr; 1202814e85d6SHong Zhang 1203814e85d6SHong Zhang PetscFunctionBegin; 1204814e85d6SHong Zhang PetscValidHeaderSpecific(ts, TS_CLASSID,1); 1205814e85d6SHong Zhang PetscValidHeaderSpecific(Amat,MAT_CLASSID,2); 1206814e85d6SHong Zhang 1207814e85d6SHong Zhang ts->rhsjacobianp = func; 1208814e85d6SHong Zhang ts->rhsjacobianpctx = ctx; 1209814e85d6SHong Zhang if(Amat) { 1210814e85d6SHong Zhang ierr = PetscObjectReference((PetscObject)Amat);CHKERRQ(ierr); 1211814e85d6SHong Zhang ierr = MatDestroy(&ts->Jacp);CHKERRQ(ierr); 1212814e85d6SHong Zhang ts->Jacp = Amat; 1213814e85d6SHong Zhang } 1214814e85d6SHong Zhang PetscFunctionReturn(0); 1215814e85d6SHong Zhang } 1216814e85d6SHong Zhang 1217814e85d6SHong Zhang /*@C 1218814e85d6SHong Zhang TSAdjointComputeRHSJacobian - Deprecated, use TSComputeRHSJacobianP() 1219814e85d6SHong Zhang 1220814e85d6SHong Zhang Level: deprecated 1221814e85d6SHong Zhang 1222814e85d6SHong Zhang @*/ 1223c9ad9de0SHong Zhang PetscErrorCode TSAdjointComputeRHSJacobian(TS ts,PetscReal t,Vec U,Mat Amat) 1224814e85d6SHong Zhang { 1225814e85d6SHong Zhang PetscErrorCode ierr; 1226814e85d6SHong Zhang 1227814e85d6SHong Zhang PetscFunctionBegin; 1228814e85d6SHong Zhang PetscValidHeaderSpecific(ts,TS_CLASSID,1); 1229c9ad9de0SHong Zhang PetscValidHeaderSpecific(U,VEC_CLASSID,3); 1230814e85d6SHong Zhang PetscValidPointer(Amat,4); 1231814e85d6SHong Zhang 1232814e85d6SHong Zhang PetscStackPush("TS user JacobianP function for sensitivity analysis"); 1233c9ad9de0SHong Zhang ierr = (*ts->rhsjacobianp)(ts,t,U,Amat,ts->rhsjacobianpctx); CHKERRQ(ierr); 1234814e85d6SHong Zhang PetscStackPop; 1235814e85d6SHong Zhang PetscFunctionReturn(0); 1236814e85d6SHong Zhang } 1237814e85d6SHong Zhang 1238814e85d6SHong Zhang /*@ 1239c9ad9de0SHong Zhang TSAdjointComputeDRDYFunction - Deprecated, use TSComputeDRDUFunction() 1240814e85d6SHong Zhang 1241814e85d6SHong Zhang Level: deprecated 1242814e85d6SHong Zhang 1243814e85d6SHong Zhang @*/ 1244c9ad9de0SHong Zhang PetscErrorCode TSAdjointComputeDRDYFunction(TS ts,PetscReal t,Vec U,Vec *DRDU) 1245814e85d6SHong Zhang { 1246814e85d6SHong Zhang PetscErrorCode ierr; 1247814e85d6SHong Zhang 1248814e85d6SHong Zhang PetscFunctionBegin; 1249814e85d6SHong Zhang PetscValidHeaderSpecific(ts,TS_CLASSID,1); 1250c9ad9de0SHong Zhang PetscValidHeaderSpecific(U,VEC_CLASSID,3); 1251814e85d6SHong Zhang 1252814e85d6SHong Zhang PetscStackPush("TS user DRDY function for sensitivity analysis"); 1253c9ad9de0SHong Zhang ierr = (*ts->drdufunction)(ts,t,U,DRDU,ts->costintegrandctx); CHKERRQ(ierr); 1254814e85d6SHong Zhang PetscStackPop; 1255814e85d6SHong Zhang PetscFunctionReturn(0); 1256814e85d6SHong Zhang } 1257814e85d6SHong Zhang 1258814e85d6SHong Zhang /*@ 1259814e85d6SHong Zhang TSAdjointComputeDRDPFunction - Deprecated, use TSComputeDRDPFunction() 1260814e85d6SHong Zhang 1261814e85d6SHong Zhang Level: deprecated 1262814e85d6SHong Zhang 1263814e85d6SHong Zhang @*/ 1264c9ad9de0SHong Zhang PetscErrorCode TSAdjointComputeDRDPFunction(TS ts,PetscReal t,Vec U,Vec *DRDP) 1265814e85d6SHong Zhang { 1266814e85d6SHong Zhang PetscErrorCode ierr; 1267814e85d6SHong Zhang 1268814e85d6SHong Zhang PetscFunctionBegin; 1269814e85d6SHong Zhang PetscValidHeaderSpecific(ts,TS_CLASSID,1); 1270c9ad9de0SHong Zhang PetscValidHeaderSpecific(U,VEC_CLASSID,3); 1271814e85d6SHong Zhang 1272814e85d6SHong Zhang PetscStackPush("TS user DRDP function for sensitivity analysis"); 1273c9ad9de0SHong Zhang ierr = (*ts->drdpfunction)(ts,t,U,DRDP,ts->costintegrandctx); CHKERRQ(ierr); 1274814e85d6SHong Zhang PetscStackPop; 1275814e85d6SHong Zhang PetscFunctionReturn(0); 1276814e85d6SHong Zhang } 1277814e85d6SHong Zhang 1278814e85d6SHong Zhang /*@C 1279814e85d6SHong Zhang TSAdjointMonitorSensi - monitors the first lambda sensitivity 1280814e85d6SHong Zhang 1281814e85d6SHong Zhang Level: intermediate 1282814e85d6SHong Zhang 1283814e85d6SHong Zhang .keywords: TS, set, monitor 1284814e85d6SHong Zhang 1285814e85d6SHong Zhang .seealso: TSAdjointMonitorSet() 1286814e85d6SHong Zhang @*/ 1287814e85d6SHong Zhang PetscErrorCode TSAdjointMonitorSensi(TS ts,PetscInt step,PetscReal ptime,Vec v,PetscInt numcost,Vec *lambda,Vec *mu,PetscViewerAndFormat *vf) 1288814e85d6SHong Zhang { 1289814e85d6SHong Zhang PetscErrorCode ierr; 1290814e85d6SHong Zhang PetscViewer viewer = vf->viewer; 1291814e85d6SHong Zhang 1292814e85d6SHong Zhang PetscFunctionBegin; 1293814e85d6SHong Zhang PetscValidHeaderSpecific(viewer,PETSC_VIEWER_CLASSID,4); 1294814e85d6SHong Zhang ierr = PetscViewerPushFormat(viewer,vf->format);CHKERRQ(ierr); 1295814e85d6SHong Zhang ierr = VecView(lambda[0],viewer);CHKERRQ(ierr); 1296814e85d6SHong Zhang ierr = PetscViewerPopFormat(viewer);CHKERRQ(ierr); 1297814e85d6SHong Zhang PetscFunctionReturn(0); 1298814e85d6SHong Zhang } 1299814e85d6SHong Zhang 1300814e85d6SHong Zhang /*@C 1301814e85d6SHong Zhang TSAdjointMonitorSetFromOptions - Sets a monitor function and viewer appropriate for the type indicated by the user 1302814e85d6SHong Zhang 1303814e85d6SHong Zhang Collective on TS 1304814e85d6SHong Zhang 1305814e85d6SHong Zhang Input Parameters: 1306814e85d6SHong Zhang + ts - TS object you wish to monitor 1307814e85d6SHong Zhang . name - the monitor type one is seeking 1308814e85d6SHong Zhang . help - message indicating what monitoring is done 1309814e85d6SHong Zhang . manual - manual page for the monitor 1310814e85d6SHong Zhang . monitor - the monitor function 1311814e85d6SHong Zhang - monitorsetup - a function that is called once ONLY if the user selected this monitor that may set additional features of the TS or PetscViewer objects 1312814e85d6SHong Zhang 1313814e85d6SHong Zhang Level: developer 1314814e85d6SHong Zhang 1315814e85d6SHong Zhang .seealso: PetscOptionsGetViewer(), PetscOptionsGetReal(), PetscOptionsHasName(), PetscOptionsGetString(), 1316814e85d6SHong Zhang PetscOptionsGetIntArray(), PetscOptionsGetRealArray(), PetscOptionsBool() 1317814e85d6SHong Zhang PetscOptionsInt(), PetscOptionsString(), PetscOptionsReal(), PetscOptionsBool(), 1318814e85d6SHong Zhang PetscOptionsName(), PetscOptionsBegin(), PetscOptionsEnd(), PetscOptionsHead(), 1319814e85d6SHong Zhang PetscOptionsStringArray(),PetscOptionsRealArray(), PetscOptionsScalar(), 1320814e85d6SHong Zhang PetscOptionsBoolGroupBegin(), PetscOptionsBoolGroup(), PetscOptionsBoolGroupEnd(), 1321814e85d6SHong Zhang PetscOptionsFList(), PetscOptionsEList() 1322814e85d6SHong Zhang @*/ 1323814e85d6SHong Zhang PetscErrorCode TSAdjointMonitorSetFromOptions(TS ts,const char name[],const char help[], const char manual[],PetscErrorCode (*monitor)(TS,PetscInt,PetscReal,Vec,PetscInt,Vec*,Vec*,PetscViewerAndFormat*),PetscErrorCode (*monitorsetup)(TS,PetscViewerAndFormat*)) 1324814e85d6SHong Zhang { 1325814e85d6SHong Zhang PetscErrorCode ierr; 1326814e85d6SHong Zhang PetscViewer viewer; 1327814e85d6SHong Zhang PetscViewerFormat format; 1328814e85d6SHong Zhang PetscBool flg; 1329814e85d6SHong Zhang 1330814e85d6SHong Zhang PetscFunctionBegin; 133116413a6aSBarry Smith ierr = PetscOptionsGetViewer(PetscObjectComm((PetscObject)ts),((PetscObject) ts)->options,((PetscObject)ts)->prefix,name,&viewer,&format,&flg);CHKERRQ(ierr); 1332814e85d6SHong Zhang if (flg) { 1333814e85d6SHong Zhang PetscViewerAndFormat *vf; 1334814e85d6SHong Zhang ierr = PetscViewerAndFormatCreate(viewer,format,&vf);CHKERRQ(ierr); 1335814e85d6SHong Zhang ierr = PetscObjectDereference((PetscObject)viewer);CHKERRQ(ierr); 1336814e85d6SHong Zhang if (monitorsetup) { 1337814e85d6SHong Zhang ierr = (*monitorsetup)(ts,vf);CHKERRQ(ierr); 1338814e85d6SHong Zhang } 1339814e85d6SHong Zhang ierr = TSAdjointMonitorSet(ts,(PetscErrorCode (*)(TS,PetscInt,PetscReal,Vec,PetscInt,Vec*,Vec*,void*))monitor,vf,(PetscErrorCode (*)(void**))PetscViewerAndFormatDestroy);CHKERRQ(ierr); 1340814e85d6SHong Zhang } 1341814e85d6SHong Zhang PetscFunctionReturn(0); 1342814e85d6SHong Zhang } 1343814e85d6SHong Zhang 1344814e85d6SHong Zhang /*@C 1345814e85d6SHong Zhang TSAdjointMonitorSet - Sets an ADDITIONAL function that is to be used at every 1346814e85d6SHong Zhang timestep to display the iteration's progress. 1347814e85d6SHong Zhang 1348814e85d6SHong Zhang Logically Collective on TS 1349814e85d6SHong Zhang 1350814e85d6SHong Zhang Input Parameters: 1351814e85d6SHong Zhang + ts - the TS context obtained from TSCreate() 1352814e85d6SHong Zhang . adjointmonitor - monitoring routine 1353814e85d6SHong Zhang . adjointmctx - [optional] user-defined context for private data for the 1354814e85d6SHong Zhang monitor routine (use NULL if no context is desired) 1355814e85d6SHong Zhang - adjointmonitordestroy - [optional] routine that frees monitor context 1356814e85d6SHong Zhang (may be NULL) 1357814e85d6SHong Zhang 1358814e85d6SHong Zhang Calling sequence of monitor: 1359814e85d6SHong Zhang $ int adjointmonitor(TS ts,PetscInt steps,PetscReal time,Vec u,PetscInt numcost,Vec *lambda, Vec *mu,void *adjointmctx) 1360814e85d6SHong Zhang 1361814e85d6SHong Zhang + ts - the TS context 1362814e85d6SHong Zhang . steps - iteration number (after the final time step the monitor routine is called with a step of -1, this is at the final time which may have 1363814e85d6SHong Zhang been interpolated to) 1364814e85d6SHong Zhang . time - current time 1365814e85d6SHong Zhang . u - current iterate 1366814e85d6SHong Zhang . numcost - number of cost functionos 1367814e85d6SHong Zhang . lambda - sensitivities to initial conditions 1368814e85d6SHong Zhang . mu - sensitivities to parameters 1369814e85d6SHong Zhang - adjointmctx - [optional] adjoint monitoring context 1370814e85d6SHong Zhang 1371814e85d6SHong Zhang Notes: 1372814e85d6SHong Zhang This routine adds an additional monitor to the list of monitors that 1373814e85d6SHong Zhang already has been loaded. 1374814e85d6SHong Zhang 1375814e85d6SHong Zhang Fortran Notes: 1376814e85d6SHong Zhang Only a single monitor function can be set for each TS object 1377814e85d6SHong Zhang 1378814e85d6SHong Zhang Level: intermediate 1379814e85d6SHong Zhang 1380814e85d6SHong Zhang .keywords: TS, timestep, set, adjoint, monitor 1381814e85d6SHong Zhang 1382814e85d6SHong Zhang .seealso: TSAdjointMonitorCancel() 1383814e85d6SHong Zhang @*/ 1384814e85d6SHong Zhang PetscErrorCode TSAdjointMonitorSet(TS ts,PetscErrorCode (*adjointmonitor)(TS,PetscInt,PetscReal,Vec,PetscInt,Vec*,Vec*,void*),void *adjointmctx,PetscErrorCode (*adjointmdestroy)(void**)) 1385814e85d6SHong Zhang { 1386814e85d6SHong Zhang PetscErrorCode ierr; 1387814e85d6SHong Zhang PetscInt i; 1388814e85d6SHong Zhang PetscBool identical; 1389814e85d6SHong Zhang 1390814e85d6SHong Zhang PetscFunctionBegin; 1391814e85d6SHong Zhang PetscValidHeaderSpecific(ts,TS_CLASSID,1); 1392814e85d6SHong Zhang for (i=0; i<ts->numbermonitors;i++) { 1393814e85d6SHong Zhang ierr = PetscMonitorCompare((PetscErrorCode (*)(void))adjointmonitor,adjointmctx,adjointmdestroy,(PetscErrorCode (*)(void))ts->adjointmonitor[i],ts->adjointmonitorcontext[i],ts->adjointmonitordestroy[i],&identical);CHKERRQ(ierr); 1394814e85d6SHong Zhang if (identical) PetscFunctionReturn(0); 1395814e85d6SHong Zhang } 1396814e85d6SHong Zhang if (ts->numberadjointmonitors >= MAXTSMONITORS) SETERRQ(PETSC_COMM_SELF,PETSC_ERR_ARG_OUTOFRANGE,"Too many adjoint monitors set"); 1397814e85d6SHong Zhang ts->adjointmonitor[ts->numberadjointmonitors] = adjointmonitor; 1398814e85d6SHong Zhang ts->adjointmonitordestroy[ts->numberadjointmonitors] = adjointmdestroy; 1399814e85d6SHong Zhang ts->adjointmonitorcontext[ts->numberadjointmonitors++] = (void*)adjointmctx; 1400814e85d6SHong Zhang PetscFunctionReturn(0); 1401814e85d6SHong Zhang } 1402814e85d6SHong Zhang 1403814e85d6SHong Zhang /*@C 1404814e85d6SHong Zhang TSAdjointMonitorCancel - Clears all the adjoint monitors that have been set on a time-step object. 1405814e85d6SHong Zhang 1406814e85d6SHong Zhang Logically Collective on TS 1407814e85d6SHong Zhang 1408814e85d6SHong Zhang Input Parameters: 1409814e85d6SHong Zhang . ts - the TS context obtained from TSCreate() 1410814e85d6SHong Zhang 1411814e85d6SHong Zhang Notes: 1412814e85d6SHong Zhang There is no way to remove a single, specific monitor. 1413814e85d6SHong Zhang 1414814e85d6SHong Zhang Level: intermediate 1415814e85d6SHong Zhang 1416814e85d6SHong Zhang .keywords: TS, timestep, set, adjoint, monitor 1417814e85d6SHong Zhang 1418814e85d6SHong Zhang .seealso: TSAdjointMonitorSet() 1419814e85d6SHong Zhang @*/ 1420814e85d6SHong Zhang PetscErrorCode TSAdjointMonitorCancel(TS ts) 1421814e85d6SHong Zhang { 1422814e85d6SHong Zhang PetscErrorCode ierr; 1423814e85d6SHong Zhang PetscInt i; 1424814e85d6SHong Zhang 1425814e85d6SHong Zhang PetscFunctionBegin; 1426814e85d6SHong Zhang PetscValidHeaderSpecific(ts,TS_CLASSID,1); 1427814e85d6SHong Zhang for (i=0; i<ts->numberadjointmonitors; i++) { 1428814e85d6SHong Zhang if (ts->adjointmonitordestroy[i]) { 1429814e85d6SHong Zhang ierr = (*ts->adjointmonitordestroy[i])(&ts->adjointmonitorcontext[i]);CHKERRQ(ierr); 1430814e85d6SHong Zhang } 1431814e85d6SHong Zhang } 1432814e85d6SHong Zhang ts->numberadjointmonitors = 0; 1433814e85d6SHong Zhang PetscFunctionReturn(0); 1434814e85d6SHong Zhang } 1435814e85d6SHong Zhang 1436814e85d6SHong Zhang /*@C 1437814e85d6SHong Zhang TSAdjointMonitorDefault - the default monitor of adjoint computations 1438814e85d6SHong Zhang 1439814e85d6SHong Zhang Level: intermediate 1440814e85d6SHong Zhang 1441814e85d6SHong Zhang .keywords: TS, set, monitor 1442814e85d6SHong Zhang 1443814e85d6SHong Zhang .seealso: TSAdjointMonitorSet() 1444814e85d6SHong Zhang @*/ 1445814e85d6SHong Zhang PetscErrorCode TSAdjointMonitorDefault(TS ts,PetscInt step,PetscReal ptime,Vec v,PetscInt numcost,Vec *lambda,Vec *mu,PetscViewerAndFormat *vf) 1446814e85d6SHong Zhang { 1447814e85d6SHong Zhang PetscErrorCode ierr; 1448814e85d6SHong Zhang PetscViewer viewer = vf->viewer; 1449814e85d6SHong Zhang 1450814e85d6SHong Zhang PetscFunctionBegin; 1451814e85d6SHong Zhang PetscValidHeaderSpecific(viewer,PETSC_VIEWER_CLASSID,4); 1452814e85d6SHong Zhang ierr = PetscViewerPushFormat(viewer,vf->format);CHKERRQ(ierr); 1453814e85d6SHong Zhang ierr = PetscViewerASCIIAddTab(viewer,((PetscObject)ts)->tablevel);CHKERRQ(ierr); 1454814e85d6SHong Zhang ierr = PetscViewerASCIIPrintf(viewer,"%D TS dt %g time %g%s",step,(double)ts->time_step,(double)ptime,ts->steprollback ? " (r)\n" : "\n");CHKERRQ(ierr); 1455814e85d6SHong Zhang ierr = PetscViewerASCIISubtractTab(viewer,((PetscObject)ts)->tablevel);CHKERRQ(ierr); 1456814e85d6SHong Zhang ierr = PetscViewerPopFormat(viewer);CHKERRQ(ierr); 1457814e85d6SHong Zhang PetscFunctionReturn(0); 1458814e85d6SHong Zhang } 1459814e85d6SHong Zhang 1460814e85d6SHong Zhang /*@C 1461814e85d6SHong Zhang TSAdjointMonitorDrawSensi - Monitors progress of the adjoint TS solvers by calling 1462814e85d6SHong Zhang VecView() for the sensitivities to initial states at each timestep 1463814e85d6SHong Zhang 1464814e85d6SHong Zhang Collective on TS 1465814e85d6SHong Zhang 1466814e85d6SHong Zhang Input Parameters: 1467814e85d6SHong Zhang + ts - the TS context 1468814e85d6SHong Zhang . step - current time-step 1469814e85d6SHong Zhang . ptime - current time 1470814e85d6SHong Zhang . u - current state 1471814e85d6SHong Zhang . numcost - number of cost functions 1472814e85d6SHong Zhang . lambda - sensitivities to initial conditions 1473814e85d6SHong Zhang . mu - sensitivities to parameters 1474814e85d6SHong Zhang - dummy - either a viewer or NULL 1475814e85d6SHong Zhang 1476814e85d6SHong Zhang Level: intermediate 1477814e85d6SHong Zhang 1478814e85d6SHong Zhang .keywords: TS, vector, adjoint, monitor, view 1479814e85d6SHong Zhang 1480814e85d6SHong Zhang .seealso: TSAdjointMonitorSet(), TSAdjointMonitorDefault(), VecView() 1481814e85d6SHong Zhang @*/ 1482814e85d6SHong Zhang PetscErrorCode TSAdjointMonitorDrawSensi(TS ts,PetscInt step,PetscReal ptime,Vec u,PetscInt numcost,Vec *lambda,Vec *mu,void *dummy) 1483814e85d6SHong Zhang { 1484814e85d6SHong Zhang PetscErrorCode ierr; 1485814e85d6SHong Zhang TSMonitorDrawCtx ictx = (TSMonitorDrawCtx)dummy; 1486814e85d6SHong Zhang PetscDraw draw; 1487814e85d6SHong Zhang PetscReal xl,yl,xr,yr,h; 1488814e85d6SHong Zhang char time[32]; 1489814e85d6SHong Zhang 1490814e85d6SHong Zhang PetscFunctionBegin; 1491814e85d6SHong Zhang if (!(((ictx->howoften > 0) && (!(step % ictx->howoften))) || ((ictx->howoften == -1) && ts->reason))) PetscFunctionReturn(0); 1492814e85d6SHong Zhang 1493814e85d6SHong Zhang ierr = VecView(lambda[0],ictx->viewer);CHKERRQ(ierr); 1494814e85d6SHong Zhang ierr = PetscViewerDrawGetDraw(ictx->viewer,0,&draw);CHKERRQ(ierr); 1495814e85d6SHong Zhang ierr = PetscSNPrintf(time,32,"Timestep %d Time %g",(int)step,(double)ptime);CHKERRQ(ierr); 1496814e85d6SHong Zhang ierr = PetscDrawGetCoordinates(draw,&xl,&yl,&xr,&yr);CHKERRQ(ierr); 1497814e85d6SHong Zhang h = yl + .95*(yr - yl); 1498814e85d6SHong Zhang ierr = PetscDrawStringCentered(draw,.5*(xl+xr),h,PETSC_DRAW_BLACK,time);CHKERRQ(ierr); 1499814e85d6SHong Zhang ierr = PetscDrawFlush(draw);CHKERRQ(ierr); 1500814e85d6SHong Zhang PetscFunctionReturn(0); 1501814e85d6SHong Zhang } 1502814e85d6SHong Zhang 1503814e85d6SHong Zhang /* 1504814e85d6SHong Zhang TSAdjointSetFromOptions - Sets various TSAdjoint parameters from user options. 1505814e85d6SHong Zhang 1506814e85d6SHong Zhang Collective on TSAdjoint 1507814e85d6SHong Zhang 1508814e85d6SHong Zhang Input Parameter: 1509814e85d6SHong Zhang . ts - the TS context 1510814e85d6SHong Zhang 1511814e85d6SHong Zhang Options Database Keys: 1512814e85d6SHong Zhang + -ts_adjoint_solve <yes,no> After solving the ODE/DAE solve the adjoint problem (requires -ts_save_trajectory) 1513814e85d6SHong Zhang . -ts_adjoint_monitor - print information at each adjoint time step 1514814e85d6SHong Zhang - -ts_adjoint_monitor_draw_sensi - monitor the sensitivity of the first cost function wrt initial conditions (lambda[0]) graphically 1515814e85d6SHong Zhang 1516814e85d6SHong Zhang Level: developer 1517814e85d6SHong Zhang 1518814e85d6SHong Zhang Notes: 1519814e85d6SHong Zhang This is not normally called directly by users 1520814e85d6SHong Zhang 1521814e85d6SHong Zhang .keywords: TS, trajectory, timestep, set, options, database 1522814e85d6SHong Zhang 1523814e85d6SHong Zhang .seealso: TSSetSaveTrajectory(), TSTrajectorySetUp() 1524814e85d6SHong Zhang */ 1525814e85d6SHong Zhang PetscErrorCode TSAdjointSetFromOptions(PetscOptionItems *PetscOptionsObject,TS ts) 1526814e85d6SHong Zhang { 1527814e85d6SHong Zhang PetscBool tflg,opt; 1528814e85d6SHong Zhang PetscErrorCode ierr; 1529814e85d6SHong Zhang 1530814e85d6SHong Zhang PetscFunctionBegin; 1531814e85d6SHong Zhang PetscValidHeaderSpecific(ts,TS_CLASSID,2); 1532814e85d6SHong Zhang ierr = PetscOptionsHead(PetscOptionsObject,"TS Adjoint options");CHKERRQ(ierr); 1533814e85d6SHong Zhang tflg = ts->adjoint_solve ? PETSC_TRUE : PETSC_FALSE; 1534814e85d6SHong Zhang ierr = PetscOptionsBool("-ts_adjoint_solve","Solve the adjoint problem immediately after solving the forward problem","",tflg,&tflg,&opt);CHKERRQ(ierr); 1535814e85d6SHong Zhang if (opt) { 1536814e85d6SHong Zhang ierr = TSSetSaveTrajectory(ts);CHKERRQ(ierr); 1537814e85d6SHong Zhang ts->adjoint_solve = tflg; 1538814e85d6SHong Zhang } 1539814e85d6SHong Zhang ierr = TSAdjointMonitorSetFromOptions(ts,"-ts_adjoint_monitor","Monitor adjoint timestep size","TSAdjointMonitorDefault",TSAdjointMonitorDefault,NULL);CHKERRQ(ierr); 1540814e85d6SHong Zhang ierr = TSAdjointMonitorSetFromOptions(ts,"-ts_adjoint_monitor_sensi","Monitor sensitivity in the adjoint computation","TSAdjointMonitorSensi",TSAdjointMonitorSensi,NULL);CHKERRQ(ierr); 1541814e85d6SHong Zhang opt = PETSC_FALSE; 1542814e85d6SHong Zhang ierr = PetscOptionsName("-ts_adjoint_monitor_draw_sensi","Monitor adjoint sensitivities (lambda only) graphically","TSAdjointMonitorDrawSensi",&opt);CHKERRQ(ierr); 1543814e85d6SHong Zhang if (opt) { 1544814e85d6SHong Zhang TSMonitorDrawCtx ctx; 1545814e85d6SHong Zhang PetscInt howoften = 1; 1546814e85d6SHong Zhang 1547814e85d6SHong Zhang ierr = PetscOptionsInt("-ts_adjoint_monitor_draw_sensi","Monitor adjoint sensitivities (lambda only) graphically","TSAdjointMonitorDrawSensi",howoften,&howoften,NULL);CHKERRQ(ierr); 1548814e85d6SHong Zhang ierr = TSMonitorDrawCtxCreate(PetscObjectComm((PetscObject)ts),0,0,PETSC_DECIDE,PETSC_DECIDE,300,300,howoften,&ctx);CHKERRQ(ierr); 1549814e85d6SHong Zhang ierr = TSAdjointMonitorSet(ts,TSAdjointMonitorDrawSensi,ctx,(PetscErrorCode (*)(void**))TSMonitorDrawCtxDestroy);CHKERRQ(ierr); 1550814e85d6SHong Zhang } 1551814e85d6SHong Zhang PetscFunctionReturn(0); 1552814e85d6SHong Zhang } 1553814e85d6SHong Zhang 1554814e85d6SHong Zhang /*@ 1555814e85d6SHong Zhang TSAdjointStep - Steps one time step backward in the adjoint run 1556814e85d6SHong Zhang 1557814e85d6SHong Zhang Collective on TS 1558814e85d6SHong Zhang 1559814e85d6SHong Zhang Input Parameter: 1560814e85d6SHong Zhang . ts - the TS context obtained from TSCreate() 1561814e85d6SHong Zhang 1562814e85d6SHong Zhang Level: intermediate 1563814e85d6SHong Zhang 1564814e85d6SHong Zhang .keywords: TS, adjoint, step 1565814e85d6SHong Zhang 1566814e85d6SHong Zhang .seealso: TSAdjointSetUp(), TSAdjointSolve() 1567814e85d6SHong Zhang @*/ 1568814e85d6SHong Zhang PetscErrorCode TSAdjointStep(TS ts) 1569814e85d6SHong Zhang { 1570814e85d6SHong Zhang DM dm; 1571814e85d6SHong Zhang PetscErrorCode ierr; 1572814e85d6SHong Zhang 1573814e85d6SHong Zhang PetscFunctionBegin; 1574814e85d6SHong Zhang PetscValidHeaderSpecific(ts,TS_CLASSID,1); 1575814e85d6SHong Zhang ierr = TSGetDM(ts,&dm);CHKERRQ(ierr); 1576814e85d6SHong Zhang ierr = TSAdjointSetUp(ts);CHKERRQ(ierr); 1577814e85d6SHong Zhang 1578814e85d6SHong Zhang ts->reason = TS_CONVERGED_ITERATING; 1579814e85d6SHong Zhang ts->ptime_prev = ts->ptime; 1580814e85d6SHong Zhang if (!ts->ops->adjointstep) SETERRQ1(PetscObjectComm((PetscObject)ts),PETSC_ERR_NOT_CONVERGED,"TSStep has failed because the adjoint of %s has not been implemented, try other time stepping methods for adjoint sensitivity analysis",((PetscObject)ts)->type_name); 1581814e85d6SHong Zhang ierr = PetscLogEventBegin(TS_AdjointStep,ts,0,0,0);CHKERRQ(ierr); 1582814e85d6SHong Zhang ierr = (*ts->ops->adjointstep)(ts);CHKERRQ(ierr); 1583814e85d6SHong Zhang ierr = PetscLogEventEnd(TS_AdjointStep,ts,0,0,0);CHKERRQ(ierr); 1584814e85d6SHong Zhang ts->adjoint_steps++; ts->steps--; 1585814e85d6SHong Zhang 1586814e85d6SHong Zhang if (ts->reason < 0) { 1587814e85d6SHong Zhang if (ts->errorifstepfailed) { 158805c9950eSHong Zhang if (ts->reason == TSADJOINT_DIVERGED_LINEAR_SOLVE) SETERRQ1(PetscObjectComm((PetscObject)ts),PETSC_ERR_NOT_CONVERGED,"TSAdjointStep has failed due to %s",TSConvergedReasons[ts->reason]); 158905c9950eSHong Zhang else SETERRQ1(PetscObjectComm((PetscObject)ts),PETSC_ERR_NOT_CONVERGED,"TSAdjointStep has failed due to %s",TSConvergedReasons[ts->reason]); 1590814e85d6SHong Zhang } 1591814e85d6SHong Zhang } else if (!ts->reason) { 1592814e85d6SHong Zhang if (ts->adjoint_steps >= ts->adjoint_max_steps) ts->reason = TS_CONVERGED_ITS; 1593814e85d6SHong Zhang } 1594814e85d6SHong Zhang PetscFunctionReturn(0); 1595814e85d6SHong Zhang } 1596814e85d6SHong Zhang 1597814e85d6SHong Zhang /*@ 1598814e85d6SHong Zhang TSAdjointSolve - Solves the discrete ajoint problem for an ODE/DAE 1599814e85d6SHong Zhang 1600814e85d6SHong Zhang Collective on TS 1601814e85d6SHong Zhang 1602814e85d6SHong Zhang Input Parameter: 1603814e85d6SHong Zhang . ts - the TS context obtained from TSCreate() 1604814e85d6SHong Zhang 1605814e85d6SHong Zhang Options Database: 1606814e85d6SHong Zhang . -ts_adjoint_view_solution <viewerinfo> - views the first gradient with respect to the initial values 1607814e85d6SHong Zhang 1608814e85d6SHong Zhang Level: intermediate 1609814e85d6SHong Zhang 1610814e85d6SHong Zhang Notes: 1611814e85d6SHong Zhang This must be called after a call to TSSolve() that solves the forward problem 1612814e85d6SHong Zhang 1613814e85d6SHong Zhang By default this will integrate back to the initial time, one can use TSAdjointSetSteps() to step back to a later time 1614814e85d6SHong Zhang 1615814e85d6SHong Zhang .keywords: TS, timestep, solve 1616814e85d6SHong Zhang 1617814e85d6SHong Zhang .seealso: TSCreate(), TSSetCostGradients(), TSSetSolution(), TSAdjointStep() 1618814e85d6SHong Zhang @*/ 1619814e85d6SHong Zhang PetscErrorCode TSAdjointSolve(TS ts) 1620814e85d6SHong Zhang { 1621814e85d6SHong Zhang PetscErrorCode ierr; 1622814e85d6SHong Zhang 1623814e85d6SHong Zhang PetscFunctionBegin; 1624814e85d6SHong Zhang PetscValidHeaderSpecific(ts,TS_CLASSID,1); 1625814e85d6SHong Zhang ierr = TSAdjointSetUp(ts);CHKERRQ(ierr); 1626814e85d6SHong Zhang 1627814e85d6SHong Zhang /* reset time step and iteration counters */ 1628814e85d6SHong Zhang ts->adjoint_steps = 0; 1629814e85d6SHong Zhang ts->ksp_its = 0; 1630814e85d6SHong Zhang ts->snes_its = 0; 1631814e85d6SHong Zhang ts->num_snes_failures = 0; 1632814e85d6SHong Zhang ts->reject = 0; 1633814e85d6SHong Zhang ts->reason = TS_CONVERGED_ITERATING; 1634814e85d6SHong Zhang 1635814e85d6SHong Zhang if (!ts->adjoint_max_steps) ts->adjoint_max_steps = ts->steps; 1636814e85d6SHong Zhang if (ts->adjoint_steps >= ts->adjoint_max_steps) ts->reason = TS_CONVERGED_ITS; 1637814e85d6SHong Zhang 1638814e85d6SHong Zhang while (!ts->reason) { 1639814e85d6SHong Zhang ierr = TSTrajectoryGet(ts->trajectory,ts,ts->steps,&ts->ptime);CHKERRQ(ierr); 1640814e85d6SHong Zhang ierr = TSAdjointMonitor(ts,ts->steps,ts->ptime,ts->vec_sol,ts->numcost,ts->vecs_sensi,ts->vecs_sensip);CHKERRQ(ierr); 1641814e85d6SHong Zhang ierr = TSAdjointEventHandler(ts);CHKERRQ(ierr); 1642814e85d6SHong Zhang ierr = TSAdjointStep(ts);CHKERRQ(ierr); 1643cd4cee2dSHong Zhang if ((ts->vec_costintegral || ts->quadraturets) && !ts->costintegralfwd) { 1644814e85d6SHong Zhang ierr = TSAdjointCostIntegral(ts);CHKERRQ(ierr); 1645814e85d6SHong Zhang } 1646814e85d6SHong Zhang } 1647814e85d6SHong Zhang ierr = TSTrajectoryGet(ts->trajectory,ts,ts->steps,&ts->ptime);CHKERRQ(ierr); 1648814e85d6SHong Zhang ierr = TSAdjointMonitor(ts,ts->steps,ts->ptime,ts->vec_sol,ts->numcost,ts->vecs_sensi,ts->vecs_sensip);CHKERRQ(ierr); 1649814e85d6SHong Zhang ts->solvetime = ts->ptime; 1650814e85d6SHong Zhang ierr = TSTrajectoryViewFromOptions(ts->trajectory,NULL,"-ts_trajectory_view");CHKERRQ(ierr); 1651814e85d6SHong Zhang ierr = VecViewFromOptions(ts->vecs_sensi[0],(PetscObject) ts, "-ts_adjoint_view_solution");CHKERRQ(ierr); 1652814e85d6SHong Zhang ts->adjoint_max_steps = 0; 1653814e85d6SHong Zhang PetscFunctionReturn(0); 1654814e85d6SHong Zhang } 1655814e85d6SHong Zhang 1656814e85d6SHong Zhang /*@C 1657814e85d6SHong Zhang TSAdjointMonitor - Runs all user-provided adjoint monitor routines set using TSAdjointMonitorSet() 1658814e85d6SHong Zhang 1659814e85d6SHong Zhang Collective on TS 1660814e85d6SHong Zhang 1661814e85d6SHong Zhang Input Parameters: 1662814e85d6SHong Zhang + ts - time stepping context obtained from TSCreate() 1663814e85d6SHong Zhang . step - step number that has just completed 1664814e85d6SHong Zhang . ptime - model time of the state 1665814e85d6SHong Zhang . u - state at the current model time 1666814e85d6SHong Zhang . numcost - number of cost functions (dimension of lambda or mu) 1667814e85d6SHong Zhang . lambda - vectors containing the gradients of the cost functions with respect to the ODE/DAE solution variables 1668814e85d6SHong Zhang - mu - vectors containing the gradients of the cost functions with respect to the problem parameters 1669814e85d6SHong Zhang 1670814e85d6SHong Zhang Notes: 1671814e85d6SHong Zhang TSAdjointMonitor() is typically used automatically within the time stepping implementations. 1672814e85d6SHong Zhang Users would almost never call this routine directly. 1673814e85d6SHong Zhang 1674814e85d6SHong Zhang Level: developer 1675814e85d6SHong Zhang 1676814e85d6SHong Zhang .keywords: TS, timestep 1677814e85d6SHong Zhang @*/ 1678814e85d6SHong Zhang PetscErrorCode TSAdjointMonitor(TS ts,PetscInt step,PetscReal ptime,Vec u,PetscInt numcost,Vec *lambda, Vec *mu) 1679814e85d6SHong Zhang { 1680814e85d6SHong Zhang PetscErrorCode ierr; 1681814e85d6SHong Zhang PetscInt i,n = ts->numberadjointmonitors; 1682814e85d6SHong Zhang 1683814e85d6SHong Zhang PetscFunctionBegin; 1684814e85d6SHong Zhang PetscValidHeaderSpecific(ts,TS_CLASSID,1); 1685814e85d6SHong Zhang PetscValidHeaderSpecific(u,VEC_CLASSID,4); 16868860a134SJunchao Zhang ierr = VecLockReadPush(u);CHKERRQ(ierr); 1687814e85d6SHong Zhang for (i=0; i<n; i++) { 1688814e85d6SHong Zhang ierr = (*ts->adjointmonitor[i])(ts,step,ptime,u,numcost,lambda,mu,ts->adjointmonitorcontext[i]);CHKERRQ(ierr); 1689814e85d6SHong Zhang } 16908860a134SJunchao Zhang ierr = VecLockReadPop(u);CHKERRQ(ierr); 1691814e85d6SHong Zhang PetscFunctionReturn(0); 1692814e85d6SHong Zhang } 1693814e85d6SHong Zhang 1694814e85d6SHong Zhang /*@ 1695814e85d6SHong Zhang TSAdjointCostIntegral - Evaluate the cost integral in the adjoint run. 1696814e85d6SHong Zhang 1697814e85d6SHong Zhang Collective on TS 1698814e85d6SHong Zhang 1699814e85d6SHong Zhang Input Arguments: 1700814e85d6SHong Zhang . ts - time stepping context 1701814e85d6SHong Zhang 1702814e85d6SHong Zhang Level: advanced 1703814e85d6SHong Zhang 1704814e85d6SHong Zhang Notes: 1705814e85d6SHong Zhang This function cannot be called until TSAdjointStep() has been completed. 1706814e85d6SHong Zhang 1707814e85d6SHong Zhang .seealso: TSAdjointSolve(), TSAdjointStep 1708814e85d6SHong Zhang @*/ 1709814e85d6SHong Zhang PetscErrorCode TSAdjointCostIntegral(TS ts) 1710814e85d6SHong Zhang { 1711814e85d6SHong Zhang PetscErrorCode ierr; 1712814e85d6SHong Zhang PetscValidHeaderSpecific(ts,TS_CLASSID,1); 1713814e85d6SHong Zhang if (!ts->ops->adjointintegral) SETERRQ1(PetscObjectComm((PetscObject)ts),PETSC_ERR_SUP,"%s does not provide integral evaluation in the adjoint run",((PetscObject)ts)->type_name); 1714814e85d6SHong Zhang ierr = (*ts->ops->adjointintegral)(ts);CHKERRQ(ierr); 1715814e85d6SHong Zhang PetscFunctionReturn(0); 1716814e85d6SHong Zhang } 1717814e85d6SHong Zhang 1718814e85d6SHong Zhang /* ------------------ Forward (tangent linear) sensitivity ------------------*/ 1719814e85d6SHong Zhang 1720814e85d6SHong Zhang /*@ 1721814e85d6SHong Zhang TSForwardSetUp - Sets up the internal data structures for the later use 1722814e85d6SHong Zhang of forward sensitivity analysis 1723814e85d6SHong Zhang 1724814e85d6SHong Zhang Collective on TS 1725814e85d6SHong Zhang 1726814e85d6SHong Zhang Input Parameter: 1727814e85d6SHong Zhang . ts - the TS context obtained from TSCreate() 1728814e85d6SHong Zhang 1729814e85d6SHong Zhang Level: advanced 1730814e85d6SHong Zhang 1731814e85d6SHong Zhang .keywords: TS, forward sensitivity, setup 1732814e85d6SHong Zhang 1733814e85d6SHong Zhang .seealso: TSCreate(), TSDestroy(), TSSetUp() 1734814e85d6SHong Zhang @*/ 1735814e85d6SHong Zhang PetscErrorCode TSForwardSetUp(TS ts) 1736814e85d6SHong Zhang { 1737814e85d6SHong Zhang PetscErrorCode ierr; 1738814e85d6SHong Zhang 1739814e85d6SHong Zhang PetscFunctionBegin; 1740814e85d6SHong Zhang PetscValidHeaderSpecific(ts,TS_CLASSID,1); 1741814e85d6SHong Zhang if (ts->forwardsetupcalled) PetscFunctionReturn(0); 174233f72c5dSHong Zhang if (!ts->Jacp && ts->Jacprhs) ts->Jacp = ts->Jacprhs; 1743814e85d6SHong Zhang 1744814e85d6SHong Zhang if (ts->ops->forwardsetup) { 1745814e85d6SHong Zhang ierr = (*ts->ops->forwardsetup)(ts);CHKERRQ(ierr); 1746814e85d6SHong Zhang } 17477207e0fdSHong Zhang ierr = VecDuplicate(ts->vec_sol,&ts->vec_sensip_col);CHKERRQ(ierr); 1748814e85d6SHong Zhang ts->forwardsetupcalled = PETSC_TRUE; 1749814e85d6SHong Zhang PetscFunctionReturn(0); 1750814e85d6SHong Zhang } 1751814e85d6SHong Zhang 1752814e85d6SHong Zhang /*@ 17537adebddeSHong Zhang TSForwardReset - Reset the internal data structures used by forward sensitivity analysis 17547adebddeSHong Zhang 17557adebddeSHong Zhang Collective on TS 17567adebddeSHong Zhang 17577adebddeSHong Zhang Input Parameter: 17587adebddeSHong Zhang . ts - the TS context obtained from TSCreate() 17597adebddeSHong Zhang 17607adebddeSHong Zhang Level: advanced 17617adebddeSHong Zhang 17627adebddeSHong Zhang .keywords: TS, forward sensitivity, reset 17637adebddeSHong Zhang 17647adebddeSHong Zhang .seealso: TSCreate(), TSDestroy(), TSForwardSetUp() 17657adebddeSHong Zhang @*/ 17667adebddeSHong Zhang PetscErrorCode TSForwardReset(TS ts) 17677adebddeSHong Zhang { 17687207e0fdSHong Zhang TS quadts = ts->quadraturets; 17697adebddeSHong Zhang PetscErrorCode ierr; 17707adebddeSHong Zhang 17717adebddeSHong Zhang PetscFunctionBegin; 17727adebddeSHong Zhang PetscValidHeaderSpecific(ts,TS_CLASSID,1); 17737adebddeSHong Zhang if (ts->ops->forwardreset) { 17747adebddeSHong Zhang ierr = (*ts->ops->forwardreset)(ts);CHKERRQ(ierr); 17757adebddeSHong Zhang } 17767adebddeSHong Zhang ierr = MatDestroy(&ts->mat_sensip);CHKERRQ(ierr); 17777207e0fdSHong Zhang if (quadts) { 17787207e0fdSHong Zhang ierr = MatDestroy(&quadts->mat_sensip);CHKERRQ(ierr); 17797207e0fdSHong Zhang } 17807207e0fdSHong Zhang ierr = VecDestroy(&ts->vec_sensip_col);CHKERRQ(ierr); 17817adebddeSHong Zhang ts->forward_solve = PETSC_FALSE; 17827adebddeSHong Zhang ts->forwardsetupcalled = PETSC_FALSE; 17837adebddeSHong Zhang PetscFunctionReturn(0); 17847adebddeSHong Zhang } 17857adebddeSHong Zhang 17867adebddeSHong Zhang /*@ 1787814e85d6SHong Zhang TSForwardSetIntegralGradients - Set the vectors holding forward sensitivities of the integral term. 1788814e85d6SHong Zhang 1789814e85d6SHong Zhang Input Parameter: 1790814e85d6SHong Zhang . ts- the TS context obtained from TSCreate() 1791814e85d6SHong Zhang . numfwdint- number of integrals 1792814e85d6SHong Zhang . vp = the vectors containing the gradients for each integral w.r.t. parameters 1793814e85d6SHong Zhang 17947207e0fdSHong Zhang Level: deprecated 1795814e85d6SHong Zhang 1796814e85d6SHong Zhang .keywords: TS, forward sensitivity 1797814e85d6SHong Zhang 1798814e85d6SHong Zhang .seealso: TSForwardGetSensitivities(), TSForwardSetIntegralGradients(), TSForwardGetIntegralGradients(), TSForwardStep() 1799814e85d6SHong Zhang @*/ 1800814e85d6SHong Zhang PetscErrorCode TSForwardSetIntegralGradients(TS ts,PetscInt numfwdint,Vec *vp) 1801814e85d6SHong Zhang { 1802814e85d6SHong Zhang PetscFunctionBegin; 1803814e85d6SHong Zhang PetscValidHeaderSpecific(ts,TS_CLASSID,1); 1804814e85d6SHong Zhang if (ts->numcost && ts->numcost!=numfwdint) SETERRQ(PetscObjectComm((PetscObject)ts),PETSC_ERR_USER,"The number of cost functions (2rd parameter of TSSetCostIntegrand()) is inconsistent with the one set by TSSetCostIntegrand()"); 1805814e85d6SHong Zhang if (!ts->numcost) ts->numcost = numfwdint; 1806814e85d6SHong Zhang 1807814e85d6SHong Zhang ts->vecs_integral_sensip = vp; 1808814e85d6SHong Zhang PetscFunctionReturn(0); 1809814e85d6SHong Zhang } 1810814e85d6SHong Zhang 1811814e85d6SHong Zhang /*@ 1812814e85d6SHong Zhang TSForwardGetIntegralGradients - Returns the forward sensitivities ofthe integral term. 1813814e85d6SHong Zhang 1814814e85d6SHong Zhang Input Parameter: 1815814e85d6SHong Zhang . ts- the TS context obtained from TSCreate() 1816814e85d6SHong Zhang 1817814e85d6SHong Zhang Output Parameter: 1818814e85d6SHong Zhang . vp = the vectors containing the gradients for each integral w.r.t. parameters 1819814e85d6SHong Zhang 18207207e0fdSHong Zhang Level: deprecated 1821814e85d6SHong Zhang 1822814e85d6SHong Zhang .keywords: TS, forward sensitivity 1823814e85d6SHong Zhang 1824814e85d6SHong Zhang .seealso: TSForwardSetSensitivities(), TSForwardSetIntegralGradients(), TSForwardGetIntegralGradients(), TSForwardStep() 1825814e85d6SHong Zhang @*/ 1826814e85d6SHong Zhang PetscErrorCode TSForwardGetIntegralGradients(TS ts,PetscInt *numfwdint,Vec **vp) 1827814e85d6SHong Zhang { 1828814e85d6SHong Zhang PetscFunctionBegin; 1829814e85d6SHong Zhang PetscValidHeaderSpecific(ts,TS_CLASSID,1); 1830814e85d6SHong Zhang PetscValidPointer(vp,3); 1831814e85d6SHong Zhang if (numfwdint) *numfwdint = ts->numcost; 1832814e85d6SHong Zhang if (vp) *vp = ts->vecs_integral_sensip; 1833814e85d6SHong Zhang PetscFunctionReturn(0); 1834814e85d6SHong Zhang } 1835814e85d6SHong Zhang 1836814e85d6SHong Zhang /*@ 1837814e85d6SHong Zhang TSForwardStep - Compute the forward sensitivity for one time step. 1838814e85d6SHong Zhang 1839814e85d6SHong Zhang Collective on TS 1840814e85d6SHong Zhang 1841814e85d6SHong Zhang Input Arguments: 1842814e85d6SHong Zhang . ts - time stepping context 1843814e85d6SHong Zhang 1844814e85d6SHong Zhang Level: advanced 1845814e85d6SHong Zhang 1846814e85d6SHong Zhang Notes: 1847814e85d6SHong Zhang This function cannot be called until TSStep() has been completed. 1848814e85d6SHong Zhang 1849814e85d6SHong Zhang .keywords: TS, forward sensitivity 1850814e85d6SHong Zhang 1851814e85d6SHong Zhang .seealso: TSForwardSetSensitivities(), TSForwardGetSensitivities(), TSForwardSetIntegralGradients(), TSForwardGetIntegralGradients(), TSForwardSetUp() 1852814e85d6SHong Zhang @*/ 1853814e85d6SHong Zhang PetscErrorCode TSForwardStep(TS ts) 1854814e85d6SHong Zhang { 1855814e85d6SHong Zhang PetscErrorCode ierr; 1856814e85d6SHong Zhang PetscValidHeaderSpecific(ts,TS_CLASSID,1); 1857814e85d6SHong Zhang if (!ts->ops->forwardstep) SETERRQ1(PetscObjectComm((PetscObject)ts),PETSC_ERR_SUP,"%s does not provide forward sensitivity analysis",((PetscObject)ts)->type_name); 1858814e85d6SHong Zhang ierr = PetscLogEventBegin(TS_ForwardStep,ts,0,0,0);CHKERRQ(ierr); 1859814e85d6SHong Zhang ierr = (*ts->ops->forwardstep)(ts);CHKERRQ(ierr); 1860814e85d6SHong Zhang ierr = PetscLogEventEnd(TS_ForwardStep,ts,0,0,0);CHKERRQ(ierr); 1861814e85d6SHong Zhang PetscFunctionReturn(0); 1862814e85d6SHong Zhang } 1863814e85d6SHong Zhang 1864814e85d6SHong Zhang /*@ 1865814e85d6SHong Zhang TSForwardSetSensitivities - Sets the initial value of the trajectory sensitivities of solution w.r.t. the problem parameters and initial values. 1866814e85d6SHong Zhang 1867814e85d6SHong Zhang Logically Collective on TS and Vec 1868814e85d6SHong Zhang 1869814e85d6SHong Zhang Input Parameters: 1870814e85d6SHong Zhang + ts - the TS context obtained from TSCreate() 1871814e85d6SHong Zhang . nump - number of parameters 1872814e85d6SHong Zhang - Smat - sensitivities with respect to the parameters, the number of entries in these vectors is the same as the number of parameters 1873814e85d6SHong Zhang 1874814e85d6SHong Zhang Level: beginner 1875814e85d6SHong Zhang 1876814e85d6SHong Zhang Notes: 1877814e85d6SHong Zhang Forward sensitivity is also called 'trajectory sensitivity' in some fields such as power systems. 1878814e85d6SHong Zhang This function turns on a flag to trigger TSSolve() to compute forward sensitivities automatically. 1879814e85d6SHong Zhang You must call this function before TSSolve(). 1880814e85d6SHong Zhang The entries in the sensitivity matrix must be correctly initialized with the values S = dy/dp|startingtime. 1881814e85d6SHong Zhang 1882814e85d6SHong Zhang .keywords: TS, timestep, set, forward sensitivity, initial values 1883814e85d6SHong Zhang 1884814e85d6SHong Zhang .seealso: TSForwardGetSensitivities(), TSForwardSetIntegralGradients(), TSForwardGetIntegralGradients(), TSForwardStep() 1885814e85d6SHong Zhang @*/ 1886814e85d6SHong Zhang PetscErrorCode TSForwardSetSensitivities(TS ts,PetscInt nump,Mat Smat) 1887814e85d6SHong Zhang { 1888814e85d6SHong Zhang PetscErrorCode ierr; 1889814e85d6SHong Zhang 1890814e85d6SHong Zhang PetscFunctionBegin; 1891814e85d6SHong Zhang PetscValidHeaderSpecific(ts,TS_CLASSID,1); 1892814e85d6SHong Zhang PetscValidHeaderSpecific(Smat,MAT_CLASSID,3); 1893814e85d6SHong Zhang ts->forward_solve = PETSC_TRUE; 1894b5b4017aSHong Zhang if (nump == PETSC_DEFAULT) { 1895b5b4017aSHong Zhang ierr = MatGetSize(Smat,NULL,&ts->num_parameters);CHKERRQ(ierr); 1896b5b4017aSHong Zhang } else ts->num_parameters = nump; 1897814e85d6SHong Zhang ierr = PetscObjectReference((PetscObject)Smat);CHKERRQ(ierr); 1898814e85d6SHong Zhang ierr = MatDestroy(&ts->mat_sensip);CHKERRQ(ierr); 1899814e85d6SHong Zhang ts->mat_sensip = Smat; 1900814e85d6SHong Zhang PetscFunctionReturn(0); 1901814e85d6SHong Zhang } 1902814e85d6SHong Zhang 1903814e85d6SHong Zhang /*@ 1904814e85d6SHong Zhang TSForwardGetSensitivities - Returns the trajectory sensitivities 1905814e85d6SHong Zhang 1906814e85d6SHong Zhang Not Collective, but Vec returned is parallel if TS is parallel 1907814e85d6SHong Zhang 1908814e85d6SHong Zhang Output Parameter: 1909814e85d6SHong Zhang + ts - the TS context obtained from TSCreate() 1910814e85d6SHong Zhang . nump - number of parameters 1911814e85d6SHong Zhang - Smat - sensitivities with respect to the parameters, the number of entries in these vectors is the same as the number of parameters 1912814e85d6SHong Zhang 1913814e85d6SHong Zhang Level: intermediate 1914814e85d6SHong Zhang 1915814e85d6SHong Zhang .keywords: TS, forward sensitivity 1916814e85d6SHong Zhang 1917814e85d6SHong Zhang .seealso: TSForwardSetSensitivities(), TSForwardSetIntegralGradients(), TSForwardGetIntegralGradients(), TSForwardStep() 1918814e85d6SHong Zhang @*/ 1919814e85d6SHong Zhang PetscErrorCode TSForwardGetSensitivities(TS ts,PetscInt *nump,Mat *Smat) 1920814e85d6SHong Zhang { 1921814e85d6SHong Zhang PetscFunctionBegin; 1922814e85d6SHong Zhang PetscValidHeaderSpecific(ts,TS_CLASSID,1); 1923814e85d6SHong Zhang if (nump) *nump = ts->num_parameters; 1924814e85d6SHong Zhang if (Smat) *Smat = ts->mat_sensip; 1925814e85d6SHong Zhang PetscFunctionReturn(0); 1926814e85d6SHong Zhang } 1927814e85d6SHong Zhang 1928814e85d6SHong Zhang /*@ 1929814e85d6SHong Zhang TSForwardCostIntegral - Evaluate the cost integral in the forward run. 1930814e85d6SHong Zhang 1931814e85d6SHong Zhang Collective on TS 1932814e85d6SHong Zhang 1933814e85d6SHong Zhang Input Arguments: 1934814e85d6SHong Zhang . ts - time stepping context 1935814e85d6SHong Zhang 1936814e85d6SHong Zhang Level: advanced 1937814e85d6SHong Zhang 1938814e85d6SHong Zhang Notes: 1939814e85d6SHong Zhang This function cannot be called until TSStep() has been completed. 1940814e85d6SHong Zhang 1941814e85d6SHong Zhang .seealso: TSSolve(), TSAdjointCostIntegral() 1942814e85d6SHong Zhang @*/ 1943814e85d6SHong Zhang PetscErrorCode TSForwardCostIntegral(TS ts) 1944814e85d6SHong Zhang { 1945814e85d6SHong Zhang PetscErrorCode ierr; 1946814e85d6SHong Zhang PetscValidHeaderSpecific(ts,TS_CLASSID,1); 1947814e85d6SHong Zhang if (!ts->ops->forwardintegral) SETERRQ1(PetscObjectComm((PetscObject)ts),PETSC_ERR_SUP,"%s does not provide integral evaluation in the forward run",((PetscObject)ts)->type_name); 1948814e85d6SHong Zhang ierr = (*ts->ops->forwardintegral)(ts);CHKERRQ(ierr); 1949814e85d6SHong Zhang PetscFunctionReturn(0); 1950814e85d6SHong Zhang } 1951b5b4017aSHong Zhang 1952b5b4017aSHong Zhang /*@ 1953b5b4017aSHong Zhang TSForwardSetInitialSensitivities - Set initial values for tangent linear sensitivities 1954b5b4017aSHong Zhang 1955b5b4017aSHong Zhang Collective on TS and Mat 1956b5b4017aSHong Zhang 1957b5b4017aSHong Zhang Input Parameter 1958b5b4017aSHong Zhang + ts - the TS context obtained from TSCreate() 1959b5b4017aSHong Zhang - didp - parametric sensitivities of the initial condition 1960b5b4017aSHong Zhang 1961b5b4017aSHong Zhang Level: intermediate 1962b5b4017aSHong Zhang 1963b5b4017aSHong Zhang Notes: TSSolve() allows users to pass the initial solution directly to TS. But the tangent linear variables cannot be initialized in this way. This function is used to set initial values for tangent linear variables. 1964b5b4017aSHong Zhang 1965b5b4017aSHong Zhang .seealso: TSForwardSetSensitivities() 1966b5b4017aSHong Zhang @*/ 1967b5b4017aSHong Zhang PetscErrorCode TSForwardSetInitialSensitivities(TS ts,Mat didp) 1968b5b4017aSHong Zhang { 1969b5b4017aSHong Zhang PetscErrorCode ierr; 1970b5b4017aSHong Zhang 1971b5b4017aSHong Zhang PetscValidHeaderSpecific(ts,TS_CLASSID,1); 1972b5b4017aSHong Zhang PetscValidHeaderSpecific(didp,MAT_CLASSID,2); 1973b5b4017aSHong Zhang if (!ts->mat_sensip) { 1974b5b4017aSHong Zhang ierr = TSForwardSetSensitivities(ts,PETSC_DEFAULT,didp);CHKERRQ(ierr); 1975b5b4017aSHong Zhang } 1976b5b4017aSHong Zhang PetscFunctionReturn(0); 1977b5b4017aSHong Zhang } 19786affb6f8SHong Zhang 19796affb6f8SHong Zhang /*@ 19806affb6f8SHong Zhang TSForwardGetStages - Get the number of stages and the tangent linear sensitivities at the intermediate stages 19816affb6f8SHong Zhang 19826affb6f8SHong Zhang Input Parameter: 19836affb6f8SHong Zhang . ts - the TS context obtained from TSCreate() 19846affb6f8SHong Zhang 19856affb6f8SHong Zhang Output Parameters: 1986cd4cee2dSHong Zhang + ns - number of stages 19876affb6f8SHong Zhang - S - tangent linear sensitivities at the intermediate stages 19886affb6f8SHong Zhang 19896affb6f8SHong Zhang Level: advanced 19906affb6f8SHong Zhang 19916affb6f8SHong Zhang .keywords: TS, second-order adjoint, forward sensitivity 19926affb6f8SHong Zhang @*/ 19936affb6f8SHong Zhang PetscErrorCode TSForwardGetStages(TS ts,PetscInt *ns,Mat **S) 19946affb6f8SHong Zhang { 19956affb6f8SHong Zhang PetscErrorCode ierr; 19966affb6f8SHong Zhang 19976affb6f8SHong Zhang PetscFunctionBegin; 19986affb6f8SHong Zhang PetscValidHeaderSpecific(ts, TS_CLASSID,1); 19996affb6f8SHong Zhang 20006affb6f8SHong Zhang if (!ts->ops->getstages) *S=NULL; 20016affb6f8SHong Zhang else { 20026affb6f8SHong Zhang ierr = (*ts->ops->forwardgetstages)(ts,ns,S);CHKERRQ(ierr); 20036affb6f8SHong Zhang } 20046affb6f8SHong Zhang PetscFunctionReturn(0); 20056affb6f8SHong Zhang } 2006cd4cee2dSHong Zhang 2007cd4cee2dSHong Zhang /*@ 2008cd4cee2dSHong Zhang TSCreateQuadratureTS - Create a sub-TS that evaluates integrals over time 2009cd4cee2dSHong Zhang 2010cd4cee2dSHong Zhang Input Parameter: 2011cd4cee2dSHong Zhang + ts - the TS context obtained from TSCreate() 2012cd4cee2dSHong Zhang - fwd - flag indicating whether to evaluate cost integral in the forward run or the adjoint run 2013cd4cee2dSHong Zhang 2014cd4cee2dSHong Zhang Output Parameters: 2015cd4cee2dSHong Zhang . quadts - the child TS context 2016cd4cee2dSHong Zhang 2017cd4cee2dSHong Zhang Level: intermediate 2018cd4cee2dSHong Zhang 2019cd4cee2dSHong Zhang .keywords: TS, quadrature evaluation 2020cd4cee2dSHong Zhang 2021cd4cee2dSHong Zhang .seealso: TSGetQuadratureTS() 2022cd4cee2dSHong Zhang @*/ 2023cd4cee2dSHong Zhang PetscErrorCode TSCreateQuadratureTS(TS ts,PetscBool fwd,TS *quadts) 2024cd4cee2dSHong Zhang { 2025cd4cee2dSHong Zhang char prefix[128]; 2026cd4cee2dSHong Zhang PetscErrorCode ierr; 2027cd4cee2dSHong Zhang 2028cd4cee2dSHong Zhang PetscFunctionBegin; 2029cd4cee2dSHong Zhang PetscValidHeaderSpecific(ts,TS_CLASSID,1); 2030cd4cee2dSHong Zhang PetscValidPointer(quadts,2); 2031cd4cee2dSHong Zhang ierr = TSDestroy(&ts->quadraturets);CHKERRQ(ierr); 2032cd4cee2dSHong Zhang ierr = TSCreate(PetscObjectComm((PetscObject)ts),&ts->quadraturets);CHKERRQ(ierr); 2033cd4cee2dSHong Zhang ierr = PetscObjectIncrementTabLevel((PetscObject)ts->quadraturets,(PetscObject)ts,1);CHKERRQ(ierr); 2034cd4cee2dSHong Zhang ierr = PetscLogObjectParent((PetscObject)ts,(PetscObject)ts->quadraturets);CHKERRQ(ierr); 2035cd4cee2dSHong Zhang ierr = PetscSNPrintf(prefix,sizeof(prefix),"%squad_",((PetscObject)ts)->prefix ? ((PetscObject)ts)->prefix : "");CHKERRQ(ierr); 2036cd4cee2dSHong Zhang ierr = TSSetOptionsPrefix(ts->quadraturets,prefix);CHKERRQ(ierr); 2037cd4cee2dSHong Zhang *quadts = ts->quadraturets; 2038cd4cee2dSHong Zhang 2039cd4cee2dSHong Zhang if (ts->numcost) { 2040cd4cee2dSHong Zhang ierr = VecCreateSeq(PETSC_COMM_SELF,ts->numcost,&(*quadts)->vec_sol);CHKERRQ(ierr); 2041cd4cee2dSHong Zhang } else { 2042cd4cee2dSHong Zhang ierr = VecCreateSeq(PETSC_COMM_SELF,1,&(*quadts)->vec_sol);CHKERRQ(ierr); 2043cd4cee2dSHong Zhang } 2044cd4cee2dSHong Zhang ts->costintegralfwd = fwd; 2045cd4cee2dSHong Zhang PetscFunctionReturn(0); 2046cd4cee2dSHong Zhang } 2047cd4cee2dSHong Zhang 2048cd4cee2dSHong Zhang /*@ 2049cd4cee2dSHong Zhang TSGetQuadratureTS - Return the sub-TS that evaluates integrals over time 2050cd4cee2dSHong Zhang 2051cd4cee2dSHong Zhang Input Parameter: 2052cd4cee2dSHong Zhang . ts - the TS context obtained from TSCreate() 2053cd4cee2dSHong Zhang 2054cd4cee2dSHong Zhang Output Parameters: 2055cd4cee2dSHong Zhang + fwd - flag indicating whether to evaluate cost integral in the forward run or the adjoint run 2056cd4cee2dSHong Zhang - quadts - the child TS context 2057cd4cee2dSHong Zhang 2058cd4cee2dSHong Zhang Level: intermediate 2059cd4cee2dSHong Zhang 2060cd4cee2dSHong Zhang .keywords: TS, quadrature evaluation 2061cd4cee2dSHong Zhang 2062cd4cee2dSHong Zhang .seealso: TSCreateQuadratureTS() 2063cd4cee2dSHong Zhang @*/ 2064cd4cee2dSHong Zhang PetscErrorCode TSGetQuadratureTS(TS ts,PetscBool *fwd,TS *quadts) 2065cd4cee2dSHong Zhang { 2066cd4cee2dSHong Zhang PetscFunctionBegin; 2067cd4cee2dSHong Zhang PetscValidHeaderSpecific(ts,TS_CLASSID,1); 2068cd4cee2dSHong Zhang if (fwd) *fwd = ts->costintegralfwd; 2069cd4cee2dSHong Zhang if (quadts) *quadts = ts->quadraturets; 2070cd4cee2dSHong Zhang PetscFunctionReturn(0); 2071cd4cee2dSHong Zhang } 2072