Actual source code: tsreg.c
1: #include <petsc/private/tsimpl.h>
3: PetscFunctionList TSList = NULL;
4: PetscBool TSRegisterAllCalled = PETSC_FALSE;
6: /*@C
7: TSSetType - Sets the method to be used as the timestepping solver.
9: Collective
11: Input Parameters:
12: + ts - The `TS` context
13: - type - A known method
15: Options Database Key:
16: . -ts_type <type> - Sets the method; use -help for a list of available methods (for instance, euler)
18: Level: intermediate
20: Notes:
21: See "petsc/include/petscts.h" for available methods (for instance)
22: + TSEULER - Euler
23: . TSSUNDIALS - SUNDIALS interface
24: . TSBEULER - Backward Euler
25: - TSPSEUDO - Pseudo-timestepping
27: Normally, it is best to use the `TSSetFromOptions()` command and
28: then set the `TS` type from the options database rather than by using
29: this routine. Using the options database provides the user with
30: maximum flexibility in evaluating the many different solvers.
31: The TSSetType() routine is provided for those situations where it
32: is necessary to set the timestepping solver independently of the
33: command line or options database. This might be the case, for example,
34: when the choice of solver changes during the execution of the
35: program, and the user's application is taking responsibility for
36: choosing the appropriate method. In other words, this routine is
37: not for beginners.
39: .seealso: [](ch_ts), `TS`, `TSSolve()`, `TSCreate()`, `TSSetFromOptions()`, `TSDestroy()`, `TSType`
40: @*/
41: PetscErrorCode TSSetType(TS ts, TSType type)
42: {
43: PetscErrorCode (*r)(TS);
44: PetscBool match;
46: PetscFunctionBegin;
48: PetscAssertPointer(type, 2);
49: PetscCall(PetscObjectTypeCompare((PetscObject)ts, type, &match));
50: if (match) PetscFunctionReturn(PETSC_SUCCESS);
52: PetscCall(PetscFunctionListFind(TSList, type, &r));
53: PetscCheck(r, PetscObjectComm((PetscObject)ts), PETSC_ERR_ARG_UNKNOWN_TYPE, "Unknown TS type: %s", type);
54: PetscTryTypeMethod(ts, destroy);
55: PetscCall(PetscMemzero(ts->ops, sizeof(*ts->ops)));
56: ts->usessnes = PETSC_FALSE;
57: ts->default_adapt_type = TSADAPTNONE;
59: ts->setupcalled = PETSC_FALSE;
61: PetscCall(PetscObjectChangeTypeName((PetscObject)ts, type));
62: PetscCall((*r)(ts));
63: PetscFunctionReturn(PETSC_SUCCESS);
64: }
66: /*@C
67: TSGetType - Gets the `TS` method type (as a string).
69: Not Collective
71: Input Parameter:
72: . ts - The `TS`
74: Output Parameter:
75: . type - The name of `TS` method
77: Level: intermediate
79: .seealso: [](ch_ts), `TS`, `TSType`, `TSSetType()`
80: @*/
81: PetscErrorCode TSGetType(TS ts, TSType *type)
82: {
83: PetscFunctionBegin;
85: PetscAssertPointer(type, 2);
86: *type = ((PetscObject)ts)->type_name;
87: PetscFunctionReturn(PETSC_SUCCESS);
88: }
90: /*--------------------------------------------------------------------------------------------------------------------*/
92: /*@C
93: TSRegister - Adds a creation method to the `TS` package.
95: Not Collective
97: Input Parameters:
98: + sname - The name of a new user-defined creation routine
99: - function - The creation routine itself
101: Level: advanced
103: Notes:
104: `TSRegister()` may be called multiple times to add several user-defined tses.
106: Example Usage:
107: .vb
108: TSRegister("my_ts", MyTSCreate);
109: .ve
111: Then, your ts type can be chosen with the procedural interface via
112: .vb
113: TS ts;
114: TSCreate(MPI_Comm, &ts);
115: TSSetType(ts, "my_ts")
116: .ve
117: or at runtime via the option
118: .vb
119: -ts_type my_ts
120: .ve
122: .seealso: [](ch_ts), `TSSetType()`, `TSType`, `TSRegisterAll()`, `TSRegisterDestroy()`
123: @*/
124: PetscErrorCode TSRegister(const char sname[], PetscErrorCode (*function)(TS))
125: {
126: PetscFunctionBegin;
127: PetscCall(TSInitializePackage());
128: PetscCall(PetscFunctionListAdd(&TSList, sname, function));
129: PetscFunctionReturn(PETSC_SUCCESS);
130: }