1*7c922b88SBarry Smith /* $Id: ts.c,v 1.16 1999/11/10 03:21:40 bsmith Exp bsmith $ */ 2d763cef2SBarry Smith #include "src/ts/tsimpl.h" /*I "ts.h" I*/ 3d763cef2SBarry Smith 4d763cef2SBarry Smith #undef __FUNC__ 5d763cef2SBarry Smith #define __FUNC__ "TSComputeRHSFunction" 6d763cef2SBarry Smith /* 7d763cef2SBarry Smith TSComputeRHSFunction - Evaluates the right-hand-side function. 8d763cef2SBarry Smith 9d763cef2SBarry Smith Note: If the user did not provide a function but merely a matrix, 10d763cef2SBarry Smith this routine applies the matrix. 11d763cef2SBarry Smith */ 12d763cef2SBarry Smith int TSComputeRHSFunction(TS ts,double t,Vec x, Vec y) 13d763cef2SBarry Smith { 14d763cef2SBarry Smith int ierr; 15d763cef2SBarry Smith 16d763cef2SBarry Smith PetscFunctionBegin; 17d763cef2SBarry Smith PetscValidHeaderSpecific(ts,TS_COOKIE); 18*7c922b88SBarry Smith PetscValidHeader(x); 19*7c922b88SBarry Smith PetscValidHeader(y); 20d763cef2SBarry Smith 21*7c922b88SBarry Smith PLogEventBegin(TS_FunctionEval,ts,x,y,0); 22d763cef2SBarry Smith if (ts->rhsfunction) { 23d763cef2SBarry Smith PetscStackPush("TS user right-hand-side function"); 24d763cef2SBarry Smith ierr = (*ts->rhsfunction)(ts,t,x,y,ts->funP);CHKERRQ(ierr); 25d763cef2SBarry Smith PetscStackPop; 26*7c922b88SBarry Smith } else { 27d763cef2SBarry Smith if (ts->rhsmatrix) { /* assemble matrix for this timestep */ 28d763cef2SBarry Smith MatStructure flg; 29d763cef2SBarry Smith PetscStackPush("TS user right-hand-side matrix function"); 30d763cef2SBarry Smith ierr = (*ts->rhsmatrix)(ts,t,&ts->A,&ts->B,&flg,ts->jacP);CHKERRQ(ierr); 31d763cef2SBarry Smith PetscStackPop; 32d763cef2SBarry Smith } 33d763cef2SBarry Smith ierr = MatMult(ts->A,x,y);CHKERRQ(ierr); 34*7c922b88SBarry Smith } 35d763cef2SBarry Smith 36d763cef2SBarry Smith /* apply user-provided boundary conditions (only needed if these are time dependent) */ 37d763cef2SBarry Smith ierr = TSComputeRHSBoundaryConditions(ts,t,y);CHKERRQ(ierr); 38*7c922b88SBarry Smith PLogEventEnd(TS_FunctionEval,ts,x,y,0); 39d763cef2SBarry Smith 40d763cef2SBarry Smith PetscFunctionReturn(0); 41d763cef2SBarry Smith } 42d763cef2SBarry Smith 43d763cef2SBarry Smith #undef __FUNC__ 44d763cef2SBarry Smith #define __FUNC__ "TSSetRHSFunction" 45d763cef2SBarry Smith /*@C 46d763cef2SBarry Smith TSSetRHSFunction - Sets the routine for evaluating the function, 47d763cef2SBarry Smith F(t,u), where U_t = F(t,u). 48d763cef2SBarry Smith 49d763cef2SBarry Smith Collective on TS 50d763cef2SBarry Smith 51d763cef2SBarry Smith Input Parameters: 52d763cef2SBarry Smith + ts - the TS context obtained from TSCreate() 53d763cef2SBarry Smith . f - routine for evaluating the right-hand-side function 54d763cef2SBarry Smith - ctx - [optional] user-defined context for private data for the 55d763cef2SBarry Smith function evaluation routine (may be PETSC_NULL) 56d763cef2SBarry Smith 57d763cef2SBarry Smith Calling sequence of func: 58d763cef2SBarry Smith $ func (TS ts,double t,Vec u,Vec F,void *ctx); 59d763cef2SBarry Smith 60d763cef2SBarry Smith + t - current timestep 61d763cef2SBarry Smith . u - input vector 62d763cef2SBarry Smith . F - function vector 63d763cef2SBarry Smith - ctx - [optional] user-defined function context 64d763cef2SBarry Smith 65d763cef2SBarry Smith Important: 66d763cef2SBarry Smith The user MUST call either this routine or TSSetRHSMatrix(). 67d763cef2SBarry Smith 68d763cef2SBarry Smith Level: beginner 69d763cef2SBarry Smith 70d763cef2SBarry Smith .keywords: TS, timestep, set, right-hand-side, function 71d763cef2SBarry Smith 72d763cef2SBarry Smith .seealso: TSSetRHSMatrix() 73d763cef2SBarry Smith @*/ 74d763cef2SBarry Smith int TSSetRHSFunction(TS ts,int (*f)(TS,double,Vec,Vec,void*),void *ctx) 75d763cef2SBarry Smith { 76d763cef2SBarry Smith PetscFunctionBegin; 77d763cef2SBarry Smith 78d763cef2SBarry Smith PetscValidHeaderSpecific(ts,TS_COOKIE); 79d763cef2SBarry Smith if (ts->problem_type == TS_LINEAR) { 80d763cef2SBarry Smith SETERRQ(PETSC_ERR_ARG_WRONG,0,"Cannot set function for linear problem"); 81d763cef2SBarry Smith } 82d763cef2SBarry Smith ts->rhsfunction = f; 83d763cef2SBarry Smith ts->funP = ctx; 84d763cef2SBarry Smith PetscFunctionReturn(0); 85d763cef2SBarry Smith } 86d763cef2SBarry Smith 87d763cef2SBarry Smith #undef __FUNC__ 88d763cef2SBarry Smith #define __FUNC__ "TSSetRHSMatrix" 89d763cef2SBarry Smith /*@C 90d763cef2SBarry Smith TSSetRHSMatrix - Sets the function to compute the matrix A, where U_t = A(t) U. 91d763cef2SBarry Smith Also sets the location to store A. 92d763cef2SBarry Smith 93d763cef2SBarry Smith Collective on TS 94d763cef2SBarry Smith 95d763cef2SBarry Smith Input Parameters: 96d763cef2SBarry Smith + ts - the TS context obtained from TSCreate() 97d763cef2SBarry Smith . A - matrix 98d763cef2SBarry Smith . B - preconditioner matrix (usually same as A) 99d763cef2SBarry Smith . f - the matrix evaluation routine; use PETSC_NULL (PETSC_NULL_FUNCTION in fortran) 100d763cef2SBarry Smith if A is not a function of t. 101d763cef2SBarry Smith - ctx - [optional] user-defined context for private data for the 102d763cef2SBarry Smith matrix evaluation routine (may be PETSC_NULL) 103d763cef2SBarry Smith 104d763cef2SBarry Smith Calling sequence of func: 105d763cef2SBarry Smith $ func (TS ts,double t,Mat *A,Mat *B,int *flag,void *ctx); 106d763cef2SBarry Smith 107d763cef2SBarry Smith + t - current timestep 108d763cef2SBarry Smith . A - matrix A, where U_t = A(t) U 109d763cef2SBarry Smith . B - preconditioner matrix, usually the same as A 110d763cef2SBarry Smith . flag - flag indicating information about the preconditioner matrix 111d763cef2SBarry Smith structure (same as flag in SLESSetOperators()) 112d763cef2SBarry Smith - ctx - [optional] user-defined context for matrix evaluation routine 113d763cef2SBarry Smith 114d763cef2SBarry Smith Notes: 115d763cef2SBarry Smith See SLESSetOperators() for important information about setting the flag 116d763cef2SBarry Smith output parameter in the routine func(). Be sure to read this information! 117d763cef2SBarry Smith 118d763cef2SBarry Smith The routine func() takes Mat * as the matrix arguments rather than Mat. 119d763cef2SBarry Smith This allows the matrix evaluation routine to replace A and/or B with a 120d763cef2SBarry Smith completely new new matrix structure (not just different matrix elements) 121d763cef2SBarry Smith when appropriate, for instance, if the nonzero structure is changing 122d763cef2SBarry Smith throughout the global iterations. 123d763cef2SBarry Smith 124d763cef2SBarry Smith Important: 125d763cef2SBarry Smith The user MUST call either this routine or TSSetRHSFunction(). 126d763cef2SBarry Smith 127d763cef2SBarry Smith Level: beginner 128d763cef2SBarry Smith 129d763cef2SBarry Smith .keywords: TS, timestep, set, right-hand-side, matrix 130d763cef2SBarry Smith 131d763cef2SBarry Smith .seealso: TSSetRHSFunction() 132d763cef2SBarry Smith @*/ 133d763cef2SBarry Smith int TSSetRHSMatrix(TS ts,Mat A, Mat B,int (*f)(TS,double,Mat*,Mat*,MatStructure*,void*),void *ctx) 134d763cef2SBarry Smith { 135d763cef2SBarry Smith PetscFunctionBegin; 136d763cef2SBarry Smith PetscValidHeaderSpecific(ts,TS_COOKIE); 137184914b5SBarry Smith PetscValidHeaderSpecific(A,MAT_COOKIE); 138184914b5SBarry Smith PetscValidHeaderSpecific(B,MAT_COOKIE); 139184914b5SBarry Smith PetscCheckSameComm(ts,A); 140184914b5SBarry Smith PetscCheckSameComm(ts,B); 141d763cef2SBarry Smith if (ts->problem_type == TS_NONLINEAR) { 142d763cef2SBarry Smith SETERRQ(PETSC_ERR_ARG_WRONG,0,"Not for nonlinear problems; use TSSetRHSJacobian()"); 143d763cef2SBarry Smith } 144d763cef2SBarry Smith 145d763cef2SBarry Smith ts->rhsmatrix = f; 146d763cef2SBarry Smith ts->jacP = ctx; 147d763cef2SBarry Smith ts->A = A; 148d763cef2SBarry Smith ts->B = B; 149d763cef2SBarry Smith 150d763cef2SBarry Smith PetscFunctionReturn(0); 151d763cef2SBarry Smith } 152d763cef2SBarry Smith 153d763cef2SBarry Smith #undef __FUNC__ 154d763cef2SBarry Smith #define __FUNC__ "TSSetRHSJacobian" 155d763cef2SBarry Smith /*@C 156d763cef2SBarry Smith TSSetRHSJacobian - Sets the function to compute the Jacobian of F, 157d763cef2SBarry Smith where U_t = F(U,t), as well as the location to store the matrix. 158d763cef2SBarry Smith 159d763cef2SBarry Smith Collective on TS 160d763cef2SBarry Smith 161d763cef2SBarry Smith Input Parameters: 162d763cef2SBarry Smith + ts - the TS context obtained from TSCreate() 163d763cef2SBarry Smith . A - Jacobian matrix 164d763cef2SBarry Smith . B - preconditioner matrix (usually same as A) 165d763cef2SBarry Smith . f - the Jacobian evaluation routine 166d763cef2SBarry Smith - ctx - [optional] user-defined context for private data for the 167d763cef2SBarry Smith Jacobian evaluation routine (may be PETSC_NULL) 168d763cef2SBarry Smith 169d763cef2SBarry Smith Calling sequence of func: 170d763cef2SBarry Smith $ func (TS ts,double t,Vec u,Mat *A,Mat *B,int *flag,void *ctx); 171d763cef2SBarry Smith 172d763cef2SBarry Smith + t - current timestep 173d763cef2SBarry Smith . u - input vector 174d763cef2SBarry Smith . A - matrix A, where U_t = A(t)u 175d763cef2SBarry Smith . B - preconditioner matrix, usually the same as A 176d763cef2SBarry Smith . flag - flag indicating information about the preconditioner matrix 177d763cef2SBarry Smith structure (same as flag in SLESSetOperators()) 178d763cef2SBarry Smith - ctx - [optional] user-defined context for matrix evaluation routine 179d763cef2SBarry Smith 180d763cef2SBarry Smith Notes: 181d763cef2SBarry Smith See SLESSetOperators() for important information about setting the flag 182d763cef2SBarry Smith output parameter in the routine func(). Be sure to read this information! 183d763cef2SBarry Smith 184d763cef2SBarry Smith The routine func() takes Mat * as the matrix arguments rather than Mat. 185d763cef2SBarry Smith This allows the matrix evaluation routine to replace A and/or B with a 186d763cef2SBarry Smith completely new new matrix structure (not just different matrix elements) 187d763cef2SBarry Smith when appropriate, for instance, if the nonzero structure is changing 188d763cef2SBarry Smith throughout the global iterations. 189d763cef2SBarry Smith 190d763cef2SBarry Smith Level: beginner 191d763cef2SBarry Smith 192d763cef2SBarry Smith .keywords: TS, timestep, set, right-hand-side, Jacobian 193d763cef2SBarry Smith 194d763cef2SBarry Smith .seealso: TSDefaultComputeJacobianColor(), 195d763cef2SBarry Smith SNESDefaultComputeJacobianColor() 196d763cef2SBarry Smith 197d763cef2SBarry Smith @*/ 198d763cef2SBarry Smith int TSSetRHSJacobian(TS ts,Mat A, Mat B,int (*f)(TS,double,Vec,Mat*,Mat*, 199d763cef2SBarry Smith MatStructure*,void*),void *ctx) 200d763cef2SBarry Smith { 201d763cef2SBarry Smith PetscFunctionBegin; 202d763cef2SBarry Smith PetscValidHeaderSpecific(ts,TS_COOKIE); 203184914b5SBarry Smith PetscValidHeaderSpecific(A,MAT_COOKIE); 204184914b5SBarry Smith PetscValidHeaderSpecific(B,MAT_COOKIE); 205184914b5SBarry Smith PetscCheckSameComm(ts,A); 206184914b5SBarry Smith PetscCheckSameComm(ts,B); 207d763cef2SBarry Smith if (ts->problem_type != TS_NONLINEAR) { 208d763cef2SBarry Smith SETERRQ(PETSC_ERR_ARG_WRONG,0,"Not for linear problems; use TSSetRHSMatrix()"); 209d763cef2SBarry Smith } 210d763cef2SBarry Smith 211d763cef2SBarry Smith ts->rhsjacobian = f; 212d763cef2SBarry Smith ts->jacP = ctx; 213d763cef2SBarry Smith ts->A = A; 214d763cef2SBarry Smith ts->B = B; 215d763cef2SBarry Smith PetscFunctionReturn(0); 216d763cef2SBarry Smith } 217d763cef2SBarry Smith 218d763cef2SBarry Smith #undef __FUNC__ 219d763cef2SBarry Smith #define __FUNC__ "TSComputeRHSBoundaryConditions" 220d763cef2SBarry Smith /* 221d763cef2SBarry Smith TSComputeRHSBoundaryConditions - Evaluates the boundary condition function. 222d763cef2SBarry Smith 223d763cef2SBarry Smith Note: If the user did not provide a function but merely a matrix, 224d763cef2SBarry Smith this routine applies the matrix. 225d763cef2SBarry Smith */ 226d763cef2SBarry Smith int TSComputeRHSBoundaryConditions(TS ts,double t,Vec x) 227d763cef2SBarry Smith { 228d763cef2SBarry Smith int ierr; 229d763cef2SBarry Smith 230d763cef2SBarry Smith PetscFunctionBegin; 231d763cef2SBarry Smith PetscValidHeaderSpecific(ts,TS_COOKIE); 232d763cef2SBarry Smith PetscValidHeader(x); 233184914b5SBarry Smith PetscCheckSameComm(ts,x); 234d763cef2SBarry Smith 235d763cef2SBarry Smith if (ts->rhsbc) { 236d763cef2SBarry Smith PetscStackPush("TS user boundary condition function"); 237d763cef2SBarry Smith ierr = (*ts->rhsbc)(ts,t,x,ts->bcP);CHKERRQ(ierr); 238d763cef2SBarry Smith PetscStackPop; 239d763cef2SBarry Smith PetscFunctionReturn(0); 240d763cef2SBarry Smith } 241d763cef2SBarry Smith 242d763cef2SBarry Smith PetscFunctionReturn(0); 243d763cef2SBarry Smith } 244d763cef2SBarry Smith 245d763cef2SBarry Smith #undef __FUNC__ 246d763cef2SBarry Smith #define __FUNC__ "TSSetRHSBoundaryConditions" 247d763cef2SBarry Smith /*@C 248d763cef2SBarry Smith TSSetRHSBoundaryConditions - Sets the routine for evaluating the function, 249d763cef2SBarry Smith boundary conditions for the function F. 250d763cef2SBarry Smith 251d763cef2SBarry Smith Collective on TS 252d763cef2SBarry Smith 253d763cef2SBarry Smith Input Parameters: 254d763cef2SBarry Smith + ts - the TS context obtained from TSCreate() 255d763cef2SBarry Smith . f - routine for evaluating the boundary condition function 256d763cef2SBarry Smith - ctx - [optional] user-defined context for private data for the 257d763cef2SBarry Smith function evaluation routine (may be PETSC_NULL) 258d763cef2SBarry Smith 259d763cef2SBarry Smith Calling sequence of func: 260d763cef2SBarry Smith $ func (TS ts,double t,Vec F,void *ctx); 261d763cef2SBarry Smith 262d763cef2SBarry Smith + t - current timestep 263d763cef2SBarry Smith . F - function vector 264d763cef2SBarry Smith - ctx - [optional] user-defined function context 265d763cef2SBarry Smith 266d763cef2SBarry Smith Level: intermediate 267d763cef2SBarry Smith 268d763cef2SBarry Smith .keywords: TS, timestep, set, boundary conditions, function 269d763cef2SBarry Smith @*/ 270d763cef2SBarry Smith int TSSetRHSBoundaryConditions(TS ts,int (*f)(TS,double,Vec,void*),void *ctx) 271d763cef2SBarry Smith { 272d763cef2SBarry Smith PetscFunctionBegin; 273d763cef2SBarry Smith 274d763cef2SBarry Smith PetscValidHeaderSpecific(ts,TS_COOKIE); 275d763cef2SBarry Smith if (ts->problem_type != TS_LINEAR) { 276d763cef2SBarry Smith SETERRQ(PETSC_ERR_ARG_WRONG,0,"For linear problems only"); 277d763cef2SBarry Smith } 278d763cef2SBarry Smith ts->rhsbc = f; 279d763cef2SBarry Smith ts->bcP = ctx; 280d763cef2SBarry Smith PetscFunctionReturn(0); 281d763cef2SBarry Smith } 282d763cef2SBarry Smith 283d763cef2SBarry Smith #undef __FUNC__ 284d763cef2SBarry Smith #define __FUNC__ "TSView" 285d763cef2SBarry Smith /*@ 286d763cef2SBarry Smith TSView - Prints the TS data structure. 287d763cef2SBarry Smith 288d763cef2SBarry Smith Collective on TS, unless Viewer is VIEWER_STDOUT_SELF 289d763cef2SBarry Smith 290d763cef2SBarry Smith Input Parameters: 291d763cef2SBarry Smith + ts - the TS context obtained from TSCreate() 292d763cef2SBarry Smith - viewer - visualization context 293d763cef2SBarry Smith 294d763cef2SBarry Smith Options Database Key: 295d763cef2SBarry Smith . -ts_view - calls TSView() at end of TSStep() 296d763cef2SBarry Smith 297d763cef2SBarry Smith Notes: 298d763cef2SBarry Smith The available visualization contexts include 299d763cef2SBarry Smith + VIEWER_STDOUT_SELF - standard output (default) 300d763cef2SBarry Smith - VIEWER_STDOUT_WORLD - synchronized standard 301d763cef2SBarry Smith output where only the first processor opens 302d763cef2SBarry Smith the file. All other processors send their 303d763cef2SBarry Smith data to the first processor to print. 304d763cef2SBarry Smith 305d763cef2SBarry Smith The user can open an alternative visualization context with 306d763cef2SBarry Smith ViewerASCIIOpen() - output to a specified file. 307d763cef2SBarry Smith 308d763cef2SBarry Smith Level: beginner 309d763cef2SBarry Smith 310d763cef2SBarry Smith .keywords: TS, timestep, view 311d763cef2SBarry Smith 312d763cef2SBarry Smith .seealso: ViewerASCIIOpen() 313d763cef2SBarry Smith @*/ 314d763cef2SBarry Smith int TSView(TS ts,Viewer viewer) 315d763cef2SBarry Smith { 316d763cef2SBarry Smith int ierr; 317454a90a3SBarry Smith char *type; 3186831982aSBarry Smith PetscTruth isascii,isstring; 319d763cef2SBarry Smith 320d763cef2SBarry Smith PetscFunctionBegin; 321d763cef2SBarry Smith PetscValidHeaderSpecific(ts,TS_COOKIE); 322fd16b177SBarry Smith if (!viewer) viewer = VIEWER_STDOUT_SELF; 3230f5bd95cSBarry Smith PetscValidHeaderSpecific(viewer,VIEWER_COOKIE); 3246831982aSBarry Smith PetscCheckSameComm(ts,viewer); 325fd16b177SBarry Smith 3266831982aSBarry Smith ierr = PetscTypeCompare((PetscObject)viewer,ASCII_VIEWER,&isascii);CHKERRQ(ierr); 3276831982aSBarry Smith ierr = PetscTypeCompare((PetscObject)viewer,STRING_VIEWER,&isstring);CHKERRQ(ierr); 3280f5bd95cSBarry Smith if (isascii) { 329d132466eSBarry Smith ierr = ViewerASCIIPrintf(viewer,"TS Object:\n");CHKERRQ(ierr); 330454a90a3SBarry Smith ierr = TSGetType(ts,(TSType *)&type);CHKERRQ(ierr); 331454a90a3SBarry Smith if (type) { 332454a90a3SBarry Smith ierr = ViewerASCIIPrintf(viewer," type: %s\n",type);CHKERRQ(ierr); 333184914b5SBarry Smith } else { 334454a90a3SBarry Smith ierr = ViewerASCIIPrintf(viewer," type: not yet set\n");CHKERRQ(ierr); 335184914b5SBarry Smith } 336d763cef2SBarry Smith if (ts->view) { 337d763cef2SBarry Smith ierr = ViewerASCIIPushTab(viewer);CHKERRQ(ierr); 338d763cef2SBarry Smith ierr = (*ts->view)(ts,viewer);CHKERRQ(ierr); 339d763cef2SBarry Smith ierr = ViewerASCIIPopTab(viewer);CHKERRQ(ierr); 340d763cef2SBarry Smith } 341d132466eSBarry Smith ierr = ViewerASCIIPrintf(viewer," maximum steps=%d\n",ts->max_steps);CHKERRQ(ierr); 342d132466eSBarry Smith ierr = ViewerASCIIPrintf(viewer," maximum time=%g\n",ts->max_time);CHKERRQ(ierr); 343d763cef2SBarry Smith if (ts->problem_type == TS_NONLINEAR) { 344d132466eSBarry Smith ierr = ViewerASCIIPrintf(viewer," total number of nonlinear solver iterations=%d\n",ts->nonlinear_its);CHKERRQ(ierr); 345d763cef2SBarry Smith } 346d132466eSBarry Smith ierr = ViewerASCIIPrintf(viewer," total number of linear solver iterations=%d\n",ts->linear_its);CHKERRQ(ierr); 3470f5bd95cSBarry Smith } else if (isstring) { 348454a90a3SBarry Smith ierr = TSGetType(ts,(TSType *)&type);CHKERRQ(ierr); 349454a90a3SBarry Smith ierr = ViewerStringSPrintf(viewer," %-7.7s",type);CHKERRQ(ierr); 350d763cef2SBarry Smith } 351d763cef2SBarry Smith ierr = ViewerASCIIPushTab(viewer);CHKERRQ(ierr); 352d763cef2SBarry Smith if (ts->sles) {ierr = SLESView(ts->sles,viewer);CHKERRQ(ierr);} 353d763cef2SBarry Smith if (ts->snes) {ierr = SNESView(ts->snes,viewer);CHKERRQ(ierr);} 354d763cef2SBarry Smith ierr = ViewerASCIIPopTab(viewer);CHKERRQ(ierr); 355d763cef2SBarry Smith PetscFunctionReturn(0); 356d763cef2SBarry Smith } 357d763cef2SBarry Smith 358d763cef2SBarry Smith 359d763cef2SBarry Smith #undef __FUNC__ 360d763cef2SBarry Smith #define __FUNC__ "TSSetApplicationContext" 361d763cef2SBarry Smith /*@C 362d763cef2SBarry Smith TSSetApplicationContext - Sets an optional user-defined context for 363d763cef2SBarry Smith the timesteppers. 364d763cef2SBarry Smith 365d763cef2SBarry Smith Collective on TS 366d763cef2SBarry Smith 367d763cef2SBarry Smith Input Parameters: 368d763cef2SBarry Smith + ts - the TS context obtained from TSCreate() 369d763cef2SBarry Smith - usrP - optional user context 370d763cef2SBarry Smith 371d763cef2SBarry Smith Level: intermediate 372d763cef2SBarry Smith 373d763cef2SBarry Smith .keywords: TS, timestep, set, application, context 374d763cef2SBarry Smith 375d763cef2SBarry Smith .seealso: TSGetApplicationContext() 376d763cef2SBarry Smith @*/ 377d763cef2SBarry Smith int TSSetApplicationContext(TS ts,void *usrP) 378d763cef2SBarry Smith { 379d763cef2SBarry Smith PetscFunctionBegin; 380d763cef2SBarry Smith PetscValidHeaderSpecific(ts,TS_COOKIE); 381d763cef2SBarry Smith ts->user = usrP; 382d763cef2SBarry Smith PetscFunctionReturn(0); 383d763cef2SBarry Smith } 384d763cef2SBarry Smith 385d763cef2SBarry Smith #undef __FUNC__ 386d763cef2SBarry Smith #define __FUNC__ "TSGetApplicationContext" 387d763cef2SBarry Smith /*@C 388d763cef2SBarry Smith TSGetApplicationContext - Gets the user-defined context for the 389d763cef2SBarry Smith timestepper. 390d763cef2SBarry Smith 391d763cef2SBarry Smith Not Collective 392d763cef2SBarry Smith 393d763cef2SBarry Smith Input Parameter: 394d763cef2SBarry Smith . ts - the TS context obtained from TSCreate() 395d763cef2SBarry Smith 396d763cef2SBarry Smith Output Parameter: 397d763cef2SBarry Smith . usrP - user context 398d763cef2SBarry Smith 399d763cef2SBarry Smith Level: intermediate 400d763cef2SBarry Smith 401d763cef2SBarry Smith .keywords: TS, timestep, get, application, context 402d763cef2SBarry Smith 403d763cef2SBarry Smith .seealso: TSSetApplicationContext() 404d763cef2SBarry Smith @*/ 405d763cef2SBarry Smith int TSGetApplicationContext( TS ts, void **usrP ) 406d763cef2SBarry Smith { 407d763cef2SBarry Smith PetscFunctionBegin; 408d763cef2SBarry Smith PetscValidHeaderSpecific(ts,TS_COOKIE); 409d763cef2SBarry Smith *usrP = ts->user; 410d763cef2SBarry Smith PetscFunctionReturn(0); 411d763cef2SBarry Smith } 412d763cef2SBarry Smith 413d763cef2SBarry Smith #undef __FUNC__ 414d763cef2SBarry Smith #define __FUNC__ "TSGetTimeStepNumber" 415d763cef2SBarry Smith /*@ 416d763cef2SBarry Smith TSGetTimeStepNumber - Gets the current number of timesteps. 417d763cef2SBarry Smith 418d763cef2SBarry Smith Not Collective 419d763cef2SBarry Smith 420d763cef2SBarry Smith Input Parameter: 421d763cef2SBarry Smith . ts - the TS context obtained from TSCreate() 422d763cef2SBarry Smith 423d763cef2SBarry Smith Output Parameter: 424d763cef2SBarry Smith . iter - number steps so far 425d763cef2SBarry Smith 426d763cef2SBarry Smith Level: intermediate 427d763cef2SBarry Smith 428d763cef2SBarry Smith .keywords: TS, timestep, get, iteration, number 429d763cef2SBarry Smith @*/ 430d763cef2SBarry Smith int TSGetTimeStepNumber(TS ts,int* iter) 431d763cef2SBarry Smith { 432d763cef2SBarry Smith PetscFunctionBegin; 433d763cef2SBarry Smith PetscValidHeaderSpecific(ts,TS_COOKIE); 434d763cef2SBarry Smith *iter = ts->steps; 435d763cef2SBarry Smith PetscFunctionReturn(0); 436d763cef2SBarry Smith } 437d763cef2SBarry Smith 438d763cef2SBarry Smith #undef __FUNC__ 439d763cef2SBarry Smith #define __FUNC__ "TSSetInitialTimeStep" 440d763cef2SBarry Smith /*@ 441d763cef2SBarry Smith TSSetInitialTimeStep - Sets the initial timestep to be used, 442d763cef2SBarry Smith as well as the initial time. 443d763cef2SBarry Smith 444d763cef2SBarry Smith Collective on TS 445d763cef2SBarry Smith 446d763cef2SBarry Smith Input Parameters: 447d763cef2SBarry Smith + ts - the TS context obtained from TSCreate() 448d763cef2SBarry Smith . initial_time - the initial time 449d763cef2SBarry Smith - time_step - the size of the timestep 450d763cef2SBarry Smith 451d763cef2SBarry Smith Level: intermediate 452d763cef2SBarry Smith 453d763cef2SBarry Smith .seealso: TSSetTimeStep(), TSGetTimeStep() 454d763cef2SBarry Smith 455d763cef2SBarry Smith .keywords: TS, set, initial, timestep 456d763cef2SBarry Smith @*/ 457d763cef2SBarry Smith int TSSetInitialTimeStep(TS ts,double initial_time,double time_step) 458d763cef2SBarry Smith { 459d763cef2SBarry Smith PetscFunctionBegin; 460d763cef2SBarry Smith PetscValidHeaderSpecific(ts,TS_COOKIE); 461d763cef2SBarry Smith ts->time_step = time_step; 462d763cef2SBarry Smith ts->initial_time_step = time_step; 463d763cef2SBarry Smith ts->ptime = initial_time; 464d763cef2SBarry Smith PetscFunctionReturn(0); 465d763cef2SBarry Smith } 466d763cef2SBarry Smith 467d763cef2SBarry Smith #undef __FUNC__ 468d763cef2SBarry Smith #define __FUNC__ "TSSetTimeStep" 469d763cef2SBarry Smith /*@ 470d763cef2SBarry Smith TSSetTimeStep - Allows one to reset the timestep at any time, 471d763cef2SBarry Smith useful for simple pseudo-timestepping codes. 472d763cef2SBarry Smith 473d763cef2SBarry Smith Collective on TS 474d763cef2SBarry Smith 475d763cef2SBarry Smith Input Parameters: 476d763cef2SBarry Smith + ts - the TS context obtained from TSCreate() 477d763cef2SBarry Smith - time_step - the size of the timestep 478d763cef2SBarry Smith 479d763cef2SBarry Smith Level: intermediate 480d763cef2SBarry Smith 481d763cef2SBarry Smith .seealso: TSSetInitialTimeStep(), TSGetTimeStep() 482d763cef2SBarry Smith 483d763cef2SBarry Smith .keywords: TS, set, timestep 484d763cef2SBarry Smith @*/ 485d763cef2SBarry Smith int TSSetTimeStep(TS ts,double time_step) 486d763cef2SBarry Smith { 487d763cef2SBarry Smith PetscFunctionBegin; 488d763cef2SBarry Smith PetscValidHeaderSpecific(ts,TS_COOKIE); 489d763cef2SBarry Smith ts->time_step = time_step; 490d763cef2SBarry Smith PetscFunctionReturn(0); 491d763cef2SBarry Smith } 492d763cef2SBarry Smith 493d763cef2SBarry Smith #undef __FUNC__ 494d763cef2SBarry Smith #define __FUNC__ "TSGetTimeStep" 495d763cef2SBarry Smith /*@ 496d763cef2SBarry Smith TSGetTimeStep - Gets the current timestep size. 497d763cef2SBarry Smith 498d763cef2SBarry Smith Not Collective 499d763cef2SBarry Smith 500d763cef2SBarry Smith Input Parameter: 501d763cef2SBarry Smith . ts - the TS context obtained from TSCreate() 502d763cef2SBarry Smith 503d763cef2SBarry Smith Output Parameter: 504d763cef2SBarry Smith . dt - the current timestep size 505d763cef2SBarry Smith 506d763cef2SBarry Smith Level: intermediate 507d763cef2SBarry Smith 508d763cef2SBarry Smith .seealso: TSSetInitialTimeStep(), TSGetTimeStep() 509d763cef2SBarry Smith 510d763cef2SBarry Smith .keywords: TS, get, timestep 511d763cef2SBarry Smith @*/ 512d763cef2SBarry Smith int TSGetTimeStep(TS ts,double* dt) 513d763cef2SBarry Smith { 514d763cef2SBarry Smith PetscFunctionBegin; 515d763cef2SBarry Smith PetscValidHeaderSpecific(ts,TS_COOKIE); 516d763cef2SBarry Smith *dt = ts->time_step; 517d763cef2SBarry Smith PetscFunctionReturn(0); 518d763cef2SBarry Smith } 519d763cef2SBarry Smith 520d763cef2SBarry Smith #undef __FUNC__ 521d763cef2SBarry Smith #define __FUNC__ "TSGetSolution" 522d763cef2SBarry Smith /*@C 523d763cef2SBarry Smith TSGetSolution - Returns the solution at the present timestep. It 524d763cef2SBarry Smith is valid to call this routine inside the function that you are evaluating 525d763cef2SBarry Smith in order to move to the new timestep. This vector not changed until 526d763cef2SBarry Smith the solution at the next timestep has been calculated. 527d763cef2SBarry Smith 528d763cef2SBarry Smith Not Collective, but Vec returned is parallel if TS is parallel 529d763cef2SBarry Smith 530d763cef2SBarry Smith Input Parameter: 531d763cef2SBarry Smith . ts - the TS context obtained from TSCreate() 532d763cef2SBarry Smith 533d763cef2SBarry Smith Output Parameter: 534d763cef2SBarry Smith . v - the vector containing the solution 535d763cef2SBarry Smith 536d763cef2SBarry Smith Level: intermediate 537d763cef2SBarry Smith 538d763cef2SBarry Smith .seealso: TSGetTimeStep() 539d763cef2SBarry Smith 540d763cef2SBarry Smith .keywords: TS, timestep, get, solution 541d763cef2SBarry Smith @*/ 542d763cef2SBarry Smith int TSGetSolution(TS ts,Vec *v) 543d763cef2SBarry Smith { 544d763cef2SBarry Smith PetscFunctionBegin; 545d763cef2SBarry Smith PetscValidHeaderSpecific(ts,TS_COOKIE); 546d763cef2SBarry Smith *v = ts->vec_sol_always; 547d763cef2SBarry Smith PetscFunctionReturn(0); 548d763cef2SBarry Smith } 549d763cef2SBarry Smith 550d763cef2SBarry Smith #undef __FUNC__ 551d763cef2SBarry Smith #define __FUNC__ "TSPublish_Petsc" 552454a90a3SBarry Smith static int TSPublish_Petsc(PetscObject obj) 553d763cef2SBarry Smith { 554aa482453SBarry Smith #if defined(PETSC_HAVE_AMS) 555454a90a3SBarry Smith TS v = (TS) obj; 556d763cef2SBarry Smith int ierr; 55743d6d2cbSBarry Smith #endif 558d763cef2SBarry Smith 559d763cef2SBarry Smith PetscFunctionBegin; 560d763cef2SBarry Smith 56143d6d2cbSBarry Smith #if defined(PETSC_HAVE_AMS) 562d763cef2SBarry Smith /* if it is already published then return */ 563d763cef2SBarry Smith if (v->amem >=0 ) PetscFunctionReturn(0); 564d763cef2SBarry Smith 565454a90a3SBarry Smith ierr = PetscObjectPublishBaseBegin(obj);CHKERRQ(ierr); 566d763cef2SBarry Smith ierr = AMS_Memory_add_field((AMS_Memory)v->amem,"Step",&v->steps,1,AMS_INT,AMS_READ, 567d763cef2SBarry Smith AMS_COMMON,AMS_REDUCT_UNDEF);CHKERRQ(ierr); 568d763cef2SBarry Smith ierr = AMS_Memory_add_field((AMS_Memory)v->amem,"Time",&v->ptime,1,AMS_DOUBLE,AMS_READ, 569d763cef2SBarry Smith AMS_COMMON,AMS_REDUCT_UNDEF);CHKERRQ(ierr); 570d763cef2SBarry Smith ierr = AMS_Memory_add_field((AMS_Memory)v->amem,"CurrentTimeStep",&v->time_step,1, 571d763cef2SBarry Smith AMS_DOUBLE,AMS_READ,AMS_COMMON,AMS_REDUCT_UNDEF);CHKERRQ(ierr); 572454a90a3SBarry Smith ierr = PetscObjectPublishBaseEnd(obj);CHKERRQ(ierr); 573d763cef2SBarry Smith #endif 574d763cef2SBarry Smith PetscFunctionReturn(0); 575d763cef2SBarry Smith } 576d763cef2SBarry Smith 577d763cef2SBarry Smith /* -----------------------------------------------------------*/ 578d763cef2SBarry Smith 579d763cef2SBarry Smith #undef __FUNC__ 580d763cef2SBarry Smith #define __FUNC__ "TSCreate" 581d763cef2SBarry Smith /*@C 582d763cef2SBarry Smith TSCreate - Creates a timestepper context. 583d763cef2SBarry Smith 584d763cef2SBarry Smith Collective on MPI_Comm 585d763cef2SBarry Smith 586d763cef2SBarry Smith Input Parameter: 587d763cef2SBarry Smith + comm - MPI communicator 588d763cef2SBarry Smith - type - One of TS_LINEAR,TS_NONLINEAR 589d763cef2SBarry Smith where these types refer to problems of the forms 590d763cef2SBarry Smith .vb 591d763cef2SBarry Smith U_t = A U 592d763cef2SBarry Smith U_t = A(t) U 593d763cef2SBarry Smith U_t = F(t,U) 594d763cef2SBarry Smith .ve 595d763cef2SBarry Smith 596d763cef2SBarry Smith Output Parameter: 597d763cef2SBarry Smith . outts - the new TS context 598d763cef2SBarry Smith 599d763cef2SBarry Smith Level: beginner 600d763cef2SBarry Smith 601d763cef2SBarry Smith .keywords: TS, timestep, create, context 602d763cef2SBarry Smith 603d763cef2SBarry Smith .seealso: TSSetUp(), TSStep(), TSDestroy() 604d763cef2SBarry Smith @*/ 605d763cef2SBarry Smith int TSCreate(MPI_Comm comm,TSProblemType problemtype,TS *outts) 606d763cef2SBarry Smith { 607d763cef2SBarry Smith TS ts; 608d763cef2SBarry Smith 609d763cef2SBarry Smith PetscFunctionBegin; 610d763cef2SBarry Smith *outts = 0; 611d763cef2SBarry Smith PetscHeaderCreate(ts,_p_TS,int,TS_COOKIE,-1,"TS",comm,TSDestroy,TSView); 612d763cef2SBarry Smith PLogObjectCreate(ts); 613d763cef2SBarry Smith ts->bops->publish = TSPublish_Petsc; 614d763cef2SBarry Smith ts->max_steps = 5000; 615d763cef2SBarry Smith ts->max_time = 5.0; 616d763cef2SBarry Smith ts->time_step = .1; 617d763cef2SBarry Smith ts->initial_time_step = ts->time_step; 618d763cef2SBarry Smith ts->steps = 0; 619d763cef2SBarry Smith ts->ptime = 0.0; 620d763cef2SBarry Smith ts->data = 0; 621d763cef2SBarry Smith ts->view = 0; 622d763cef2SBarry Smith ts->setupcalled = 0; 623d763cef2SBarry Smith ts->problem_type = problemtype; 624d763cef2SBarry Smith ts->numbermonitors = 0; 625d763cef2SBarry Smith ts->linear_its = 0; 626d763cef2SBarry Smith ts->nonlinear_its = 0; 627d763cef2SBarry Smith 628d763cef2SBarry Smith *outts = ts; 629d763cef2SBarry Smith PetscFunctionReturn(0); 630d763cef2SBarry Smith } 631d763cef2SBarry Smith 632d763cef2SBarry Smith /* ----- Routines to initialize and destroy a timestepper ---- */ 633d763cef2SBarry Smith 634d763cef2SBarry Smith #undef __FUNC__ 635d763cef2SBarry Smith #define __FUNC__ "TSSetUp" 636d763cef2SBarry Smith /*@ 637d763cef2SBarry Smith TSSetUp - Sets up the internal data structures for the later use 638d763cef2SBarry Smith of a timestepper. 639d763cef2SBarry Smith 640d763cef2SBarry Smith Collective on TS 641d763cef2SBarry Smith 642d763cef2SBarry Smith Input Parameter: 643d763cef2SBarry Smith . ts - the TS context obtained from TSCreate() 644d763cef2SBarry Smith 645d763cef2SBarry Smith Notes: 646d763cef2SBarry Smith For basic use of the TS solvers the user need not explicitly call 647d763cef2SBarry Smith TSSetUp(), since these actions will automatically occur during 648d763cef2SBarry Smith the call to TSStep(). However, if one wishes to control this 649d763cef2SBarry Smith phase separately, TSSetUp() should be called after TSCreate() 650d763cef2SBarry Smith and optional routines of the form TSSetXXX(), but before TSStep(). 651d763cef2SBarry Smith 652d763cef2SBarry Smith Level: advanced 653d763cef2SBarry Smith 654d763cef2SBarry Smith .keywords: TS, timestep, setup 655d763cef2SBarry Smith 656d763cef2SBarry Smith .seealso: TSCreate(), TSStep(), TSDestroy() 657d763cef2SBarry Smith @*/ 658d763cef2SBarry Smith int TSSetUp(TS ts) 659d763cef2SBarry Smith { 660d763cef2SBarry Smith int ierr; 661d763cef2SBarry Smith 662d763cef2SBarry Smith PetscFunctionBegin; 663d763cef2SBarry Smith PetscValidHeaderSpecific(ts,TS_COOKIE); 664d763cef2SBarry Smith if (!ts->vec_sol) SETERRQ(PETSC_ERR_ARG_WRONGSTATE,0,"Must call TSSetSolution() first"); 665d763cef2SBarry Smith if (!ts->type_name) { 666d763cef2SBarry Smith ierr = TSSetType(ts,TS_EULER);CHKERRQ(ierr); 667d763cef2SBarry Smith } 668d763cef2SBarry Smith ierr = (*ts->setup)(ts);CHKERRQ(ierr); 669d763cef2SBarry Smith ts->setupcalled = 1; 670d763cef2SBarry Smith PetscFunctionReturn(0); 671d763cef2SBarry Smith } 672d763cef2SBarry Smith 673d763cef2SBarry Smith #undef __FUNC__ 674d763cef2SBarry Smith #define __FUNC__ "TSDestroy" 675d763cef2SBarry Smith /*@C 676d763cef2SBarry Smith TSDestroy - Destroys the timestepper context that was created 677d763cef2SBarry Smith with TSCreate(). 678d763cef2SBarry Smith 679d763cef2SBarry Smith Collective on TS 680d763cef2SBarry Smith 681d763cef2SBarry Smith Input Parameter: 682d763cef2SBarry Smith . ts - the TS context obtained from TSCreate() 683d763cef2SBarry Smith 684d763cef2SBarry Smith Level: beginner 685d763cef2SBarry Smith 686d763cef2SBarry Smith .keywords: TS, timestepper, destroy 687d763cef2SBarry Smith 688d763cef2SBarry Smith .seealso: TSCreate(), TSSetUp(), TSSolve() 689d763cef2SBarry Smith @*/ 690d763cef2SBarry Smith int TSDestroy(TS ts) 691d763cef2SBarry Smith { 692d763cef2SBarry Smith int ierr; 693d763cef2SBarry Smith 694d763cef2SBarry Smith PetscFunctionBegin; 695d763cef2SBarry Smith PetscValidHeaderSpecific(ts,TS_COOKIE); 696d763cef2SBarry Smith if (--ts->refct > 0) PetscFunctionReturn(0); 697d763cef2SBarry Smith 698be0abb6dSBarry Smith /* if memory was published with AMS then destroy it */ 6990f5bd95cSBarry Smith ierr = PetscObjectDepublish(ts);CHKERRQ(ierr); 700be0abb6dSBarry Smith 701d763cef2SBarry Smith if (ts->sles) {ierr = SLESDestroy(ts->sles);CHKERRQ(ierr);} 702d763cef2SBarry Smith if (ts->snes) {ierr = SNESDestroy(ts->snes);CHKERRQ(ierr);} 703d763cef2SBarry Smith ierr = (*(ts)->destroy)(ts);CHKERRQ(ierr); 704d763cef2SBarry Smith PLogObjectDestroy((PetscObject)ts); 705d763cef2SBarry Smith PetscHeaderDestroy((PetscObject)ts); 706d763cef2SBarry Smith PetscFunctionReturn(0); 707d763cef2SBarry Smith } 708d763cef2SBarry Smith 709d763cef2SBarry Smith #undef __FUNC__ 710d763cef2SBarry Smith #define __FUNC__ "TSGetSNES" 711d763cef2SBarry Smith /*@C 712d763cef2SBarry Smith TSGetSNES - Returns the SNES (nonlinear solver) associated with 713d763cef2SBarry Smith a TS (timestepper) context. Valid only for nonlinear problems. 714d763cef2SBarry Smith 715d763cef2SBarry Smith Not Collective, but SNES is parallel if TS is parallel 716d763cef2SBarry Smith 717d763cef2SBarry Smith Input Parameter: 718d763cef2SBarry Smith . ts - the TS context obtained from TSCreate() 719d763cef2SBarry Smith 720d763cef2SBarry Smith Output Parameter: 721d763cef2SBarry Smith . snes - the nonlinear solver context 722d763cef2SBarry Smith 723d763cef2SBarry Smith Notes: 724d763cef2SBarry Smith The user can then directly manipulate the SNES context to set various 725d763cef2SBarry Smith options, etc. Likewise, the user can then extract and manipulate the 726d763cef2SBarry Smith SLES, KSP, and PC contexts as well. 727d763cef2SBarry Smith 728d763cef2SBarry Smith TSGetSNES() does not work for integrators that do not use SNES; in 729d763cef2SBarry Smith this case TSGetSNES() returns PETSC_NULL in snes. 730d763cef2SBarry Smith 731d763cef2SBarry Smith Level: beginner 732d763cef2SBarry Smith 733d763cef2SBarry Smith .keywords: timestep, get, SNES 734d763cef2SBarry Smith @*/ 735d763cef2SBarry Smith int TSGetSNES(TS ts,SNES *snes) 736d763cef2SBarry Smith { 737d763cef2SBarry Smith PetscFunctionBegin; 738d763cef2SBarry Smith PetscValidHeaderSpecific(ts,TS_COOKIE); 739d763cef2SBarry Smith if (ts->problem_type == TS_LINEAR) SETERRQ(PETSC_ERR_ARG_WRONG,0,"Nonlinear only; use TSGetSLES()"); 740d763cef2SBarry Smith *snes = ts->snes; 741d763cef2SBarry Smith PetscFunctionReturn(0); 742d763cef2SBarry Smith } 743d763cef2SBarry Smith 744d763cef2SBarry Smith #undef __FUNC__ 745d763cef2SBarry Smith #define __FUNC__ "TSGetSLES" 746d763cef2SBarry Smith /*@C 747d763cef2SBarry Smith TSGetSLES - Returns the SLES (linear solver) associated with 748d763cef2SBarry Smith a TS (timestepper) context. 749d763cef2SBarry Smith 750d763cef2SBarry Smith Not Collective, but SLES is parallel if TS is parallel 751d763cef2SBarry Smith 752d763cef2SBarry Smith Input Parameter: 753d763cef2SBarry Smith . ts - the TS context obtained from TSCreate() 754d763cef2SBarry Smith 755d763cef2SBarry Smith Output Parameter: 756d763cef2SBarry Smith . sles - the nonlinear solver context 757d763cef2SBarry Smith 758d763cef2SBarry Smith Notes: 759d763cef2SBarry Smith The user can then directly manipulate the SLES context to set various 760d763cef2SBarry Smith options, etc. Likewise, the user can then extract and manipulate the 761d763cef2SBarry Smith KSP and PC contexts as well. 762d763cef2SBarry Smith 763d763cef2SBarry Smith TSGetSLES() does not work for integrators that do not use SLES; 764d763cef2SBarry Smith in this case TSGetSLES() returns PETSC_NULL in sles. 765d763cef2SBarry Smith 766d763cef2SBarry Smith Level: beginner 767d763cef2SBarry Smith 768d763cef2SBarry Smith .keywords: timestep, get, SLES 769d763cef2SBarry Smith @*/ 770d763cef2SBarry Smith int TSGetSLES(TS ts,SLES *sles) 771d763cef2SBarry Smith { 772d763cef2SBarry Smith PetscFunctionBegin; 773d763cef2SBarry Smith PetscValidHeaderSpecific(ts,TS_COOKIE); 774d763cef2SBarry Smith if (ts->problem_type != TS_LINEAR) SETERRQ(PETSC_ERR_ARG_WRONG,0,"Linear only; use TSGetSNES()"); 775d763cef2SBarry Smith *sles = ts->sles; 776d763cef2SBarry Smith PetscFunctionReturn(0); 777d763cef2SBarry Smith } 778d763cef2SBarry Smith 779d763cef2SBarry Smith /* ----------- Routines to set solver parameters ---------- */ 780d763cef2SBarry Smith 781d763cef2SBarry Smith #undef __FUNC__ 782d763cef2SBarry Smith #define __FUNC__ "TSSetDuration" 783d763cef2SBarry Smith /*@ 784d763cef2SBarry Smith TSSetDuration - Sets the maximum number of timesteps to use and 785d763cef2SBarry Smith maximum time for iteration. 786d763cef2SBarry Smith 787d763cef2SBarry Smith Collective on TS 788d763cef2SBarry Smith 789d763cef2SBarry Smith Input Parameters: 790d763cef2SBarry Smith + ts - the TS context obtained from TSCreate() 791d763cef2SBarry Smith . maxsteps - maximum number of iterations to use 792d763cef2SBarry Smith - maxtime - final time to iterate to 793d763cef2SBarry Smith 794d763cef2SBarry Smith Options Database Keys: 795d763cef2SBarry Smith . -ts_max_steps <maxsteps> - Sets maxsteps 796d763cef2SBarry Smith . -ts_max_time <maxtime> - Sets maxtime 797d763cef2SBarry Smith 798d763cef2SBarry Smith Notes: 799d763cef2SBarry Smith The default maximum number of iterations is 5000. Default time is 5.0 800d763cef2SBarry Smith 801d763cef2SBarry Smith Level: intermediate 802d763cef2SBarry Smith 803d763cef2SBarry Smith .keywords: TS, timestep, set, maximum, iterations 804d763cef2SBarry Smith @*/ 805d763cef2SBarry Smith int TSSetDuration(TS ts,int maxsteps,double maxtime) 806d763cef2SBarry Smith { 807d763cef2SBarry Smith PetscFunctionBegin; 808d763cef2SBarry Smith PetscValidHeaderSpecific(ts,TS_COOKIE); 809d763cef2SBarry Smith ts->max_steps = maxsteps; 810d763cef2SBarry Smith ts->max_time = maxtime; 811d763cef2SBarry Smith PetscFunctionReturn(0); 812d763cef2SBarry Smith } 813d763cef2SBarry Smith 814d763cef2SBarry Smith #undef __FUNC__ 815d763cef2SBarry Smith #define __FUNC__ "TSSetSolution" 816d763cef2SBarry Smith /*@ 817d763cef2SBarry Smith TSSetSolution - Sets the initial solution vector 818d763cef2SBarry Smith for use by the TS routines. 819d763cef2SBarry Smith 820d763cef2SBarry Smith Collective on TS and Vec 821d763cef2SBarry Smith 822d763cef2SBarry Smith Input Parameters: 823d763cef2SBarry Smith + ts - the TS context obtained from TSCreate() 824d763cef2SBarry Smith - x - the solution vector 825d763cef2SBarry Smith 826d763cef2SBarry Smith Level: beginner 827d763cef2SBarry Smith 828d763cef2SBarry Smith .keywords: TS, timestep, set, solution, initial conditions 829d763cef2SBarry Smith @*/ 830d763cef2SBarry Smith int TSSetSolution(TS ts,Vec x) 831d763cef2SBarry Smith { 832d763cef2SBarry Smith PetscFunctionBegin; 833d763cef2SBarry Smith PetscValidHeaderSpecific(ts,TS_COOKIE); 834d763cef2SBarry Smith ts->vec_sol = ts->vec_sol_always = x; 835d763cef2SBarry Smith PetscFunctionReturn(0); 836d763cef2SBarry Smith } 837d763cef2SBarry Smith 838d763cef2SBarry Smith /* ------------ Routines to set performance monitoring options ----------- */ 839d763cef2SBarry Smith 840d763cef2SBarry Smith #undef __FUNC__ 841d763cef2SBarry Smith #define __FUNC__ "TSSetMonitor" 842d763cef2SBarry Smith /*@C 843d763cef2SBarry Smith TSSetMonitor - Sets an ADDITIONAL function that is to be used at every 844d763cef2SBarry Smith timestep to display the iteration's progress. 845d763cef2SBarry Smith 846d763cef2SBarry Smith Collective on TS 847d763cef2SBarry Smith 848d763cef2SBarry Smith Input Parameters: 849d763cef2SBarry Smith + ts - the TS context obtained from TSCreate() 850d763cef2SBarry Smith . func - monitoring routine 851d763cef2SBarry Smith - mctx - [optional] user-defined context for private data for the 852d763cef2SBarry Smith monitor routine (may be PETSC_NULL) 853d763cef2SBarry Smith 854d763cef2SBarry Smith Calling sequence of func: 855d763cef2SBarry Smith $ int func(TS ts,int steps,double time,Vec x,void *mctx) 856d763cef2SBarry Smith 857d763cef2SBarry Smith + ts - the TS context 858d763cef2SBarry Smith . steps - iteration number 859d763cef2SBarry Smith . time - current timestep 860d763cef2SBarry Smith . x - current iterate 861d763cef2SBarry Smith - mctx - [optional] monitoring context 862d763cef2SBarry Smith 863d763cef2SBarry Smith Notes: 864d763cef2SBarry Smith This routine adds an additional monitor to the list of monitors that 865d763cef2SBarry Smith already has been loaded. 866d763cef2SBarry Smith 867d763cef2SBarry Smith Level: intermediate 868d763cef2SBarry Smith 869d763cef2SBarry Smith .keywords: TS, timestep, set, monitor 870d763cef2SBarry Smith 871d763cef2SBarry Smith .seealso: TSDefaultMonitor(), TSClearMonitor() 872d763cef2SBarry Smith @*/ 873d763cef2SBarry Smith int TSSetMonitor(TS ts, int (*monitor)(TS,int,double,Vec,void*), void *mctx ) 874d763cef2SBarry Smith { 875d763cef2SBarry Smith PetscFunctionBegin; 876d763cef2SBarry Smith PetscValidHeaderSpecific(ts,TS_COOKIE); 877d763cef2SBarry Smith if (ts->numbermonitors >= MAXTSMONITORS) { 878d763cef2SBarry Smith SETERRQ(PETSC_ERR_ARG_OUTOFRANGE,0,"Too many monitors set"); 879d763cef2SBarry Smith } 880d763cef2SBarry Smith ts->monitor[ts->numbermonitors] = monitor; 881d763cef2SBarry Smith ts->monitorcontext[ts->numbermonitors++] = (void*)mctx; 882d763cef2SBarry Smith PetscFunctionReturn(0); 883d763cef2SBarry Smith } 884d763cef2SBarry Smith 885d763cef2SBarry Smith #undef __FUNC__ 886d763cef2SBarry Smith #define __FUNC__ "TSClearMonitor" 887d763cef2SBarry Smith /*@C 888d763cef2SBarry Smith TSClearMonitor - Clears all the monitors that have been set on a time-step object. 889d763cef2SBarry Smith 890d763cef2SBarry Smith Collective on TS 891d763cef2SBarry Smith 892d763cef2SBarry Smith Input Parameters: 893d763cef2SBarry Smith . ts - the TS context obtained from TSCreate() 894d763cef2SBarry Smith 895d763cef2SBarry Smith Notes: 896d763cef2SBarry Smith There is no way to remove a single, specific monitor. 897d763cef2SBarry Smith 898d763cef2SBarry Smith Level: intermediate 899d763cef2SBarry Smith 900d763cef2SBarry Smith .keywords: TS, timestep, set, monitor 901d763cef2SBarry Smith 902d763cef2SBarry Smith .seealso: TSDefaultMonitor(), TSSetMonitor() 903d763cef2SBarry Smith @*/ 904d763cef2SBarry Smith int TSClearMonitor(TS ts) 905d763cef2SBarry Smith { 906d763cef2SBarry Smith PetscFunctionBegin; 907d763cef2SBarry Smith PetscValidHeaderSpecific(ts,TS_COOKIE); 908d763cef2SBarry Smith ts->numbermonitors = 0; 909d763cef2SBarry Smith PetscFunctionReturn(0); 910d763cef2SBarry Smith } 911d763cef2SBarry Smith 912d763cef2SBarry Smith #undef __FUNC__ 913d763cef2SBarry Smith #define __FUNC__ "TSDefaultMonitor" 914d763cef2SBarry Smith int TSDefaultMonitor(TS ts, int step, double time,Vec v, void *ctx) 915d763cef2SBarry Smith { 916d132466eSBarry Smith int ierr; 917d132466eSBarry Smith 918d763cef2SBarry Smith PetscFunctionBegin; 919d132466eSBarry Smith ierr = PetscPrintf(ts->comm,"timestep %d dt %g time %g\n",step,ts->time_step,time);CHKERRQ(ierr); 920d763cef2SBarry Smith PetscFunctionReturn(0); 921d763cef2SBarry Smith } 922d763cef2SBarry Smith 923d763cef2SBarry Smith #undef __FUNC__ 924d763cef2SBarry Smith #define __FUNC__ "TSStep" 925d763cef2SBarry Smith /*@ 926d763cef2SBarry Smith TSStep - Steps the requested number of timesteps. 927d763cef2SBarry Smith 928d763cef2SBarry Smith Collective on TS 929d763cef2SBarry Smith 930d763cef2SBarry Smith Input Parameter: 931d763cef2SBarry Smith . ts - the TS context obtained from TSCreate() 932d763cef2SBarry Smith 933d763cef2SBarry Smith Output Parameters: 934d763cef2SBarry Smith + steps - number of iterations until termination 935d763cef2SBarry Smith - time - time until termination 936d763cef2SBarry Smith 937d763cef2SBarry Smith Level: beginner 938d763cef2SBarry Smith 939d763cef2SBarry Smith .keywords: TS, timestep, solve 940d763cef2SBarry Smith 941d763cef2SBarry Smith .seealso: TSCreate(), TSSetUp(), TSDestroy() 942d763cef2SBarry Smith @*/ 943d763cef2SBarry Smith int TSStep(TS ts,int *steps,double *time) 944d763cef2SBarry Smith { 945f1af5d2fSBarry Smith int ierr; 946f1af5d2fSBarry Smith PetscTruth flg; 947d763cef2SBarry Smith 948d763cef2SBarry Smith PetscFunctionBegin; 949d763cef2SBarry Smith PetscValidHeaderSpecific(ts,TS_COOKIE); 950d763cef2SBarry Smith if (!ts->setupcalled) {ierr = TSSetUp(ts);CHKERRQ(ierr);} 951d763cef2SBarry Smith PLogEventBegin(TS_Step,ts,0,0,0); 952d763cef2SBarry Smith ierr = (*(ts)->step)(ts,steps,time);CHKERRQ(ierr); 953d763cef2SBarry Smith PLogEventEnd(TS_Step,ts,0,0,0); 9540f5bd95cSBarry Smith ierr = OptionsHasName(ts->prefix,"-ts_view",&flg);CHKERRQ(ierr); 955d763cef2SBarry Smith if (flg) { 956d763cef2SBarry Smith ierr = TSView(ts,VIEWER_STDOUT_WORLD);CHKERRQ(ierr); 957d763cef2SBarry Smith } 958d763cef2SBarry Smith PetscFunctionReturn(0); 959d763cef2SBarry Smith } 960d763cef2SBarry Smith 961d763cef2SBarry Smith #undef __FUNC__ 962d763cef2SBarry Smith #define __FUNC__ "TSMonitor" 963d763cef2SBarry Smith /* 964d763cef2SBarry Smith Runs the user provided monitor routines, if they exists. 965d763cef2SBarry Smith */ 966d763cef2SBarry Smith int TSMonitor(TS ts,int step,double time,Vec x) 967d763cef2SBarry Smith { 968d763cef2SBarry Smith int i,ierr,n = ts->numbermonitors; 969d763cef2SBarry Smith 970d763cef2SBarry Smith PetscFunctionBegin; 971d763cef2SBarry Smith for ( i=0; i<n; i++ ) { 972d763cef2SBarry Smith ierr = (*ts->monitor[i])(ts,step,time,x,ts->monitorcontext[i]);CHKERRQ(ierr); 973d763cef2SBarry Smith } 974d763cef2SBarry Smith PetscFunctionReturn(0); 975d763cef2SBarry Smith } 976d763cef2SBarry Smith 977d763cef2SBarry Smith /* ------------------------------------------------------------------------*/ 978d763cef2SBarry Smith 97943d6d2cbSBarry Smith #undef __FUNC__ 98043d6d2cbSBarry Smith #define __FUNC__ "TSLGMonitorCreate" 981d763cef2SBarry Smith /*@C 982d763cef2SBarry Smith TSLGMonitorCreate - Creates a line graph context for use with 983d763cef2SBarry Smith TS to monitor convergence of preconditioned residual norms. 984d763cef2SBarry Smith 985d763cef2SBarry Smith Collective on TS 986d763cef2SBarry Smith 987d763cef2SBarry Smith Input Parameters: 988d763cef2SBarry Smith + host - the X display to open, or null for the local machine 989d763cef2SBarry Smith . label - the title to put in the title bar 990*7c922b88SBarry Smith . x, y - the screen coordinates of the upper left coordinate of the window 991d763cef2SBarry Smith - m, n - the screen width and height in pixels 992d763cef2SBarry Smith 993d763cef2SBarry Smith Output Parameter: 994d763cef2SBarry Smith . draw - the drawing context 995d763cef2SBarry Smith 996d763cef2SBarry Smith Options Database Key: 997d763cef2SBarry Smith . -ts_xmonitor - automatically sets line graph monitor 998d763cef2SBarry Smith 999d763cef2SBarry Smith Notes: 1000d763cef2SBarry Smith Use TSLGMonitorDestroy() to destroy this line graph, not DrawLGDestroy(). 1001d763cef2SBarry Smith 1002d763cef2SBarry Smith Level: intermediate 1003d763cef2SBarry Smith 1004*7c922b88SBarry Smith .keywords: TS, monitor, line graph, residual, seealso 1005d763cef2SBarry Smith 1006d763cef2SBarry Smith .seealso: TSLGMonitorDestroy(), TSSetMonitor() 1007*7c922b88SBarry Smith 1008d763cef2SBarry Smith @*/ 1009c38d4ed2SBarry Smith int TSLGMonitorCreate(char *host,char *label,int x,int y,int m,int n, DrawLG *draw) 1010d763cef2SBarry Smith { 1011d763cef2SBarry Smith Draw win; 1012d763cef2SBarry Smith int ierr; 1013d763cef2SBarry Smith 1014d763cef2SBarry Smith PetscFunctionBegin; 1015c38d4ed2SBarry Smith ierr = DrawCreate(PETSC_COMM_SELF,host,label,x,y,m,n,&win);CHKERRQ(ierr); 1016c38d4ed2SBarry Smith ierr = DrawSetType(win,DRAW_X);CHKERRQ(ierr); 1017d763cef2SBarry Smith ierr = DrawLGCreate(win,1,draw);CHKERRQ(ierr); 1018d763cef2SBarry Smith ierr = DrawLGIndicateDataPoints(*draw);CHKERRQ(ierr); 1019d763cef2SBarry Smith 1020d763cef2SBarry Smith PLogObjectParent(*draw,win); 1021d763cef2SBarry Smith PetscFunctionReturn(0); 1022d763cef2SBarry Smith } 1023d763cef2SBarry Smith 1024d763cef2SBarry Smith #undef __FUNC__ 1025d763cef2SBarry Smith #define __FUNC__ "TSLGMonitor" 1026d763cef2SBarry Smith int TSLGMonitor(TS ts,int n,double time,Vec v,void *monctx) 1027d763cef2SBarry Smith { 1028d763cef2SBarry Smith DrawLG lg = (DrawLG) monctx; 1029d763cef2SBarry Smith double x,y = time; 1030d763cef2SBarry Smith int ierr; 1031d763cef2SBarry Smith 1032d763cef2SBarry Smith PetscFunctionBegin; 1033*7c922b88SBarry Smith if (!monctx) { 1034*7c922b88SBarry Smith MPI_Comm comm; 1035*7c922b88SBarry Smith Viewer viewer; 1036*7c922b88SBarry Smith 1037*7c922b88SBarry Smith ierr = PetscObjectGetComm((PetscObject)ts,&comm);CHKERRQ(ierr); 1038*7c922b88SBarry Smith viewer = VIEWER_DRAW_(comm); 1039*7c922b88SBarry Smith ierr = ViewerDrawGetDrawLG(viewer,0,&lg);CHKERRQ(ierr); 1040*7c922b88SBarry Smith } 1041*7c922b88SBarry Smith 1042d763cef2SBarry Smith if (!n) {ierr = DrawLGReset(lg);CHKERRQ(ierr);} 1043d763cef2SBarry Smith x = (double) n; 1044d763cef2SBarry Smith ierr = DrawLGAddPoint(lg,&x,&y);CHKERRQ(ierr); 1045d763cef2SBarry Smith if (n < 20 || (n % 5)) { 1046d763cef2SBarry Smith ierr = DrawLGDraw(lg);CHKERRQ(ierr); 1047d763cef2SBarry Smith } 1048d763cef2SBarry Smith PetscFunctionReturn(0); 1049d763cef2SBarry Smith } 1050d763cef2SBarry Smith 1051d763cef2SBarry Smith #undef __FUNC__ 1052d763cef2SBarry Smith #define __FUNC__ "TSLGMonitorDestroy" 1053d763cef2SBarry Smith /*@C 1054d763cef2SBarry Smith TSLGMonitorDestroy - Destroys a line graph context that was created 1055d763cef2SBarry Smith with TSLGMonitorCreate(). 1056d763cef2SBarry Smith 1057d763cef2SBarry Smith Collective on DrawLG 1058d763cef2SBarry Smith 1059d763cef2SBarry Smith Input Parameter: 1060d763cef2SBarry Smith . draw - the drawing context 1061d763cef2SBarry Smith 1062d763cef2SBarry Smith Level: intermediate 1063d763cef2SBarry Smith 1064d763cef2SBarry Smith .keywords: TS, monitor, line graph, destroy 1065d763cef2SBarry Smith 1066d763cef2SBarry Smith .seealso: TSLGMonitorCreate(), TSSetMonitor(), TSLGMonitor(); 1067d763cef2SBarry Smith @*/ 1068d763cef2SBarry Smith int TSLGMonitorDestroy(DrawLG drawlg) 1069d763cef2SBarry Smith { 1070d763cef2SBarry Smith Draw draw; 1071d763cef2SBarry Smith int ierr; 1072d763cef2SBarry Smith 1073d763cef2SBarry Smith PetscFunctionBegin; 1074d763cef2SBarry Smith ierr = DrawLGGetDraw(drawlg,&draw);CHKERRQ(ierr); 1075d763cef2SBarry Smith ierr = DrawDestroy(draw);CHKERRQ(ierr); 1076d763cef2SBarry Smith ierr = DrawLGDestroy(drawlg);CHKERRQ(ierr); 1077d763cef2SBarry Smith PetscFunctionReturn(0); 1078d763cef2SBarry Smith } 1079d763cef2SBarry Smith 1080d763cef2SBarry Smith #undef __FUNC__ 1081d763cef2SBarry Smith #define __FUNC__ "TSGetTime" 1082d763cef2SBarry Smith /*@ 1083d763cef2SBarry Smith TSGetTime - Gets the current time. 1084d763cef2SBarry Smith 1085d763cef2SBarry Smith Not Collective 1086d763cef2SBarry Smith 1087d763cef2SBarry Smith Input Parameter: 1088d763cef2SBarry Smith . ts - the TS context obtained from TSCreate() 1089d763cef2SBarry Smith 1090d763cef2SBarry Smith Output Parameter: 1091d763cef2SBarry Smith . t - the current time 1092d763cef2SBarry Smith 1093d763cef2SBarry Smith Contributed by: Matthew Knepley 1094d763cef2SBarry Smith 1095d763cef2SBarry Smith Level: beginner 1096d763cef2SBarry Smith 1097d763cef2SBarry Smith .seealso: TSSetInitialTimeStep(), TSGetTimeStep() 1098d763cef2SBarry Smith 1099d763cef2SBarry Smith .keywords: TS, get, time 1100d763cef2SBarry Smith @*/ 1101d763cef2SBarry Smith int TSGetTime(TS ts, double* t) 1102d763cef2SBarry Smith { 1103d763cef2SBarry Smith PetscFunctionBegin; 1104d763cef2SBarry Smith PetscValidHeaderSpecific(ts, TS_COOKIE); 1105d763cef2SBarry Smith *t = ts->ptime; 1106d763cef2SBarry Smith PetscFunctionReturn(0); 1107d763cef2SBarry Smith } 1108d763cef2SBarry Smith 1109d763cef2SBarry Smith #undef __FUNC__ 1110d763cef2SBarry Smith #define __FUNC__ "TSGetProblemType" 1111d763cef2SBarry Smith /*@C 1112d763cef2SBarry Smith TSGetProblemType - Returns the problem type of a TS (timestepper) context. 1113d763cef2SBarry Smith 1114d763cef2SBarry Smith Not Collective 1115d763cef2SBarry Smith 1116d763cef2SBarry Smith Input Parameter: 1117d763cef2SBarry Smith . ts - The TS context obtained from TSCreate() 1118d763cef2SBarry Smith 1119d763cef2SBarry Smith Output Parameter: 1120d763cef2SBarry Smith . type - The problem type, TS_LINEAR or TS_NONLINEAR 1121d763cef2SBarry Smith 1122d763cef2SBarry Smith Level: intermediate 1123d763cef2SBarry Smith 1124d763cef2SBarry Smith Contributed by: Matthew Knepley 1125d763cef2SBarry Smith 1126d763cef2SBarry Smith .keywords: ts, get, type 1127d763cef2SBarry Smith 1128d763cef2SBarry Smith @*/ 1129d763cef2SBarry Smith int TSGetProblemType(TS ts, TSProblemType *type) 1130d763cef2SBarry Smith { 1131d763cef2SBarry Smith PetscFunctionBegin; 1132d763cef2SBarry Smith PetscValidHeaderSpecific(ts, TS_COOKIE); 1133d763cef2SBarry Smith *type = ts->problem_type; 1134d763cef2SBarry Smith PetscFunctionReturn(0); 1135d763cef2SBarry Smith } 1136d763cef2SBarry Smith 1137d763cef2SBarry Smith #undef __FUNC__ 1138d763cef2SBarry Smith #define __FUNC__ "TSSetOptionsPrefix" 1139d763cef2SBarry Smith /*@C 1140d763cef2SBarry Smith TSSetOptionsPrefix - Sets the prefix used for searching for all 1141d763cef2SBarry Smith TS options in the database. 1142d763cef2SBarry Smith 1143d763cef2SBarry Smith Collective on TS 1144d763cef2SBarry Smith 1145d763cef2SBarry Smith Input Parameter: 1146d763cef2SBarry Smith + ts - The TS context 1147d763cef2SBarry Smith - prefix - The prefix to prepend to all option names 1148d763cef2SBarry Smith 1149d763cef2SBarry Smith Notes: 1150d763cef2SBarry Smith A hyphen (-) must NOT be given at the beginning of the prefix name. 1151d763cef2SBarry Smith The first character of all runtime options is AUTOMATICALLY the 1152d763cef2SBarry Smith hyphen. 1153d763cef2SBarry Smith 1154d763cef2SBarry Smith Contributed by: Matthew Knepley 1155d763cef2SBarry Smith 1156d763cef2SBarry Smith Level: advanced 1157d763cef2SBarry Smith 1158d763cef2SBarry Smith .keywords: TS, set, options, prefix, database 1159d763cef2SBarry Smith 1160d763cef2SBarry Smith .seealso: TSSetFromOptions() 1161d763cef2SBarry Smith 1162d763cef2SBarry Smith @*/ 1163d763cef2SBarry Smith int TSSetOptionsPrefix(TS ts, char *prefix) 1164d763cef2SBarry Smith { 1165d763cef2SBarry Smith int ierr; 1166d763cef2SBarry Smith 1167d763cef2SBarry Smith PetscFunctionBegin; 1168d763cef2SBarry Smith PetscValidHeaderSpecific(ts, TS_COOKIE); 1169d763cef2SBarry Smith ierr = PetscObjectSetOptionsPrefix((PetscObject) ts, prefix);CHKERRQ(ierr); 1170d763cef2SBarry Smith switch(ts->problem_type) { 1171d763cef2SBarry Smith case TS_NONLINEAR: 1172d763cef2SBarry Smith ierr = SNESSetOptionsPrefix(ts->snes, prefix);CHKERRQ(ierr); 1173d763cef2SBarry Smith break; 1174d763cef2SBarry Smith case TS_LINEAR: 1175d763cef2SBarry Smith ierr = SLESSetOptionsPrefix(ts->sles, prefix);CHKERRQ(ierr); 1176d763cef2SBarry Smith break; 1177d763cef2SBarry Smith } 1178d763cef2SBarry Smith PetscFunctionReturn(0); 1179d763cef2SBarry Smith } 1180d763cef2SBarry Smith 1181d763cef2SBarry Smith 1182d763cef2SBarry Smith #undef __FUNC__ 1183d763cef2SBarry Smith #define __FUNC__ "TSAppendOptionsPrefix" 1184d763cef2SBarry Smith /*@C 1185d763cef2SBarry Smith TSAppendOptionsPrefix - Appends to the prefix used for searching for all 1186d763cef2SBarry Smith TS options in the database. 1187d763cef2SBarry Smith 1188d763cef2SBarry Smith Collective on TS 1189d763cef2SBarry Smith 1190d763cef2SBarry Smith Input Parameter: 1191d763cef2SBarry Smith + ts - The TS context 1192d763cef2SBarry Smith - prefix - The prefix to prepend to all option names 1193d763cef2SBarry Smith 1194d763cef2SBarry Smith Notes: 1195d763cef2SBarry Smith A hyphen (-) must NOT be given at the beginning of the prefix name. 1196d763cef2SBarry Smith The first character of all runtime options is AUTOMATICALLY the 1197d763cef2SBarry Smith hyphen. 1198d763cef2SBarry Smith 1199d763cef2SBarry Smith Contributed by: Matthew Knepley 1200d763cef2SBarry Smith 1201d763cef2SBarry Smith Level: advanced 1202d763cef2SBarry Smith 1203d763cef2SBarry Smith .keywords: TS, append, options, prefix, database 1204d763cef2SBarry Smith 1205d763cef2SBarry Smith .seealso: TSGetOptionsPrefix() 1206d763cef2SBarry Smith 1207d763cef2SBarry Smith @*/ 1208d763cef2SBarry Smith int TSAppendOptionsPrefix(TS ts, char *prefix) 1209d763cef2SBarry Smith { 1210d763cef2SBarry Smith int ierr; 1211d763cef2SBarry Smith 1212d763cef2SBarry Smith PetscFunctionBegin; 1213d763cef2SBarry Smith PetscValidHeaderSpecific(ts, TS_COOKIE); 1214d763cef2SBarry Smith ierr = PetscObjectAppendOptionsPrefix((PetscObject) ts, prefix);CHKERRQ(ierr); 1215d763cef2SBarry Smith switch(ts->problem_type) { 1216d763cef2SBarry Smith case TS_NONLINEAR: 1217d763cef2SBarry Smith ierr = SNESAppendOptionsPrefix(ts->snes, prefix);CHKERRQ(ierr); 1218d763cef2SBarry Smith break; 1219d763cef2SBarry Smith case TS_LINEAR: 1220d763cef2SBarry Smith ierr = SLESAppendOptionsPrefix(ts->sles, prefix);CHKERRQ(ierr); 1221d763cef2SBarry Smith break; 1222d763cef2SBarry Smith } 1223d763cef2SBarry Smith PetscFunctionReturn(0); 1224d763cef2SBarry Smith } 1225d763cef2SBarry Smith 1226d763cef2SBarry Smith #undef __FUNC__ 1227d763cef2SBarry Smith #define __FUNC__ "TSGetOptionsPrefix" 1228d763cef2SBarry Smith /*@C 1229d763cef2SBarry Smith TSGetOptionsPrefix - Sets the prefix used for searching for all 1230d763cef2SBarry Smith TS options in the database. 1231d763cef2SBarry Smith 1232d763cef2SBarry Smith Not Collective 1233d763cef2SBarry Smith 1234d763cef2SBarry Smith Input Parameter: 1235d763cef2SBarry Smith . ts - The TS context 1236d763cef2SBarry Smith 1237d763cef2SBarry Smith Output Parameter: 1238d763cef2SBarry Smith . prefix - A pointer to the prefix string used 1239d763cef2SBarry Smith 1240d763cef2SBarry Smith Contributed by: Matthew Knepley 1241d763cef2SBarry Smith 1242d763cef2SBarry Smith Notes: On the fortran side, the user should pass in a string 'prifix' of 1243d763cef2SBarry Smith sufficient length to hold the prefix. 1244d763cef2SBarry Smith 1245d763cef2SBarry Smith Level: intermediate 1246d763cef2SBarry Smith 1247d763cef2SBarry Smith .keywords: TS, get, options, prefix, database 1248d763cef2SBarry Smith 1249d763cef2SBarry Smith .seealso: TSAppendOptionsPrefix() 1250d763cef2SBarry Smith @*/ 1251d763cef2SBarry Smith int TSGetOptionsPrefix(TS ts, char **prefix) 1252d763cef2SBarry Smith { 1253d763cef2SBarry Smith int ierr; 1254d763cef2SBarry Smith 1255d763cef2SBarry Smith PetscFunctionBegin; 1256d763cef2SBarry Smith PetscValidHeaderSpecific(ts, TS_COOKIE); 1257d763cef2SBarry Smith ierr = PetscObjectGetOptionsPrefix((PetscObject) ts, prefix);CHKERRQ(ierr); 1258d763cef2SBarry Smith PetscFunctionReturn(0); 1259d763cef2SBarry Smith } 1260d763cef2SBarry Smith 1261d763cef2SBarry Smith #undef __FUNC__ 1262d763cef2SBarry Smith #define __FUNC__ "TSGetRHSMatrix" 1263d763cef2SBarry Smith /*@C 1264d763cef2SBarry Smith TSGetRHSMatrix - Returns the matrix A at the present timestep. 1265d763cef2SBarry Smith 1266d763cef2SBarry Smith Not Collective, but parallel objects are returned if TS is parallel 1267d763cef2SBarry Smith 1268d763cef2SBarry Smith Input Parameter: 1269d763cef2SBarry Smith . ts - The TS context obtained from TSCreate() 1270d763cef2SBarry Smith 1271d763cef2SBarry Smith Output Parameters: 1272d763cef2SBarry Smith + A - The matrix A, where U_t = A(t) U 1273d763cef2SBarry Smith . M - The preconditioner matrix, usually the same as A 1274d763cef2SBarry Smith - ctx - User-defined context for matrix evaluation routine 1275d763cef2SBarry Smith 1276d763cef2SBarry Smith Notes: You can pass in PETSC_NULL for any return argument you do not need. 1277d763cef2SBarry Smith 1278d763cef2SBarry Smith Contributed by: Matthew Knepley 1279d763cef2SBarry Smith 1280d763cef2SBarry Smith Level: intermediate 1281d763cef2SBarry Smith 1282d763cef2SBarry Smith .seealso: TSGetTimeStep(), TSGetTime(), TSGetTimeStepNumber(), TSGetRHSJacobian() 1283d763cef2SBarry Smith 1284d763cef2SBarry Smith .keywords: TS, timestep, get, matrix 1285d763cef2SBarry Smith 1286d763cef2SBarry Smith @*/ 1287d763cef2SBarry Smith int TSGetRHSMatrix(TS ts, Mat *A, Mat *M, void **ctx) 1288d763cef2SBarry Smith { 1289d763cef2SBarry Smith PetscFunctionBegin; 1290d763cef2SBarry Smith PetscValidHeaderSpecific(ts, TS_COOKIE); 1291d763cef2SBarry Smith if (A) *A = ts->A; 1292d763cef2SBarry Smith if (M) *M = ts->B; 1293d763cef2SBarry Smith if (ctx) *ctx = ts->jacP; 1294d763cef2SBarry Smith PetscFunctionReturn(0); 1295d763cef2SBarry Smith } 1296d763cef2SBarry Smith 1297d763cef2SBarry Smith #undef __FUNC__ 1298d763cef2SBarry Smith #define __FUNC__ "TSGetRHSJacobian" 1299d763cef2SBarry Smith /*@C 1300d763cef2SBarry Smith TSGetRHSJacobian - Returns the Jacobian J at the present timestep. 1301d763cef2SBarry Smith 1302d763cef2SBarry Smith Not Collective, but parallel objects are returned if TS is parallel 1303d763cef2SBarry Smith 1304d763cef2SBarry Smith Input Parameter: 1305d763cef2SBarry Smith . ts - The TS context obtained from TSCreate() 1306d763cef2SBarry Smith 1307d763cef2SBarry Smith Output Parameters: 1308d763cef2SBarry Smith + J - The Jacobian J of F, where U_t = F(U,t) 1309d763cef2SBarry Smith . M - The preconditioner matrix, usually the same as J 1310d763cef2SBarry Smith - ctx - User-defined context for Jacobian evaluation routine 1311d763cef2SBarry Smith 1312d763cef2SBarry Smith Notes: You can pass in PETSC_NULL for any return argument you do not need. 1313d763cef2SBarry Smith 1314d763cef2SBarry Smith Contributed by: Matthew Knepley 1315d763cef2SBarry Smith 1316d763cef2SBarry Smith Level: intermediate 1317d763cef2SBarry Smith 1318d763cef2SBarry Smith .seealso: TSGetTimeStep(), TSGetRHSMatrix(), TSGetTime(), TSGetTimeStepNumber() 1319d763cef2SBarry Smith 1320d763cef2SBarry Smith .keywords: TS, timestep, get, matrix, Jacobian 1321d763cef2SBarry Smith @*/ 1322d763cef2SBarry Smith int TSGetRHSJacobian(TS ts, Mat *J, Mat *M, void **ctx) 1323d763cef2SBarry Smith { 1324d763cef2SBarry Smith int ierr; 1325d763cef2SBarry Smith 1326d763cef2SBarry Smith PetscFunctionBegin; 1327d763cef2SBarry Smith ierr = TSGetRHSMatrix(ts, J, M, ctx);CHKERRQ(ierr); 1328d763cef2SBarry Smith PetscFunctionReturn(0); 1329d763cef2SBarry Smith } 1330d763cef2SBarry Smith 1331d763cef2SBarry Smith /*MC 1332f1af5d2fSBarry Smith TSRegisterDynamic - Adds a method to the timestepping solver package. 1333d763cef2SBarry Smith 1334d763cef2SBarry Smith Synopsis: 1335d763cef2SBarry Smith 1336f1af5d2fSBarry Smith TSRegisterDynamic(char *name_solver,char *path,char *name_create,int (*routine_create)(TS)) 1337d763cef2SBarry Smith 1338d763cef2SBarry Smith Not collective 1339d763cef2SBarry Smith 1340d763cef2SBarry Smith Input Parameters: 1341d763cef2SBarry Smith + name_solver - name of a new user-defined solver 1342d763cef2SBarry Smith . path - path (either absolute or relative) the library containing this solver 1343d763cef2SBarry Smith . name_create - name of routine to create method context 1344d763cef2SBarry Smith - routine_create - routine to create method context 1345d763cef2SBarry Smith 1346d763cef2SBarry Smith Notes: 1347f1af5d2fSBarry Smith TSRegisterDynamic() may be called multiple times to add several user-defined solvers. 1348d763cef2SBarry Smith 1349d763cef2SBarry Smith If dynamic libraries are used, then the fourth input argument (routine_create) 1350d763cef2SBarry Smith is ignored. 1351d763cef2SBarry Smith 1352d763cef2SBarry Smith Sample usage: 1353d763cef2SBarry Smith .vb 1354f1af5d2fSBarry Smith TSRegisterDynamic("my_solver",/home/username/my_lib/lib/libO/solaris/mylib.a, 1355d763cef2SBarry Smith "MySolverCreate",MySolverCreate); 1356d763cef2SBarry Smith .ve 1357d763cef2SBarry Smith 1358d763cef2SBarry Smith Then, your solver can be chosen with the procedural interface via 1359d763cef2SBarry Smith $ TSSetType(ts,"my_solver") 1360d763cef2SBarry Smith or at runtime via the option 1361d763cef2SBarry Smith $ -ts_type my_solver 1362d763cef2SBarry Smith 1363d763cef2SBarry Smith Level: advanced 1364d763cef2SBarry Smith 136585614651SBarry Smith $PETSC_ARCH, $PETSC_DIR, $PETSC_LDIR, and $BOPT occuring in pathname will be replaced with appropriate values. 1366d763cef2SBarry Smith 1367d763cef2SBarry Smith .keywords: TS, register 1368d763cef2SBarry Smith 1369d763cef2SBarry Smith .seealso: TSRegisterAll(), TSRegisterDestroy() 1370d763cef2SBarry Smith M*/ 1371d763cef2SBarry Smith 1372d763cef2SBarry Smith #undef __FUNC__ 1373f1af5d2fSBarry Smith #define __FUNC__ "TSRegister" 1374f1af5d2fSBarry Smith int TSRegister(char *sname,char *path,char *name,int (*function)(TS)) 1375d763cef2SBarry Smith { 1376d763cef2SBarry Smith char fullname[256]; 1377549d3d68SSatish Balay int ierr; 1378d763cef2SBarry Smith 1379d763cef2SBarry Smith PetscFunctionBegin; 1380f1af5d2fSBarry Smith ierr = FListConcat(path,name,fullname); CHKERRQ(ierr); 1381f1af5d2fSBarry Smith ierr = FListAdd(&TSList,sname,fullname, (int (*)(void*))function);CHKERRQ(ierr); 1382d763cef2SBarry Smith PetscFunctionReturn(0); 1383d763cef2SBarry Smith } 1384