/* Provides utility routines for manulating any type of PETSc object. */ #include /*I "petscsys.h" I*/ /*@C PetscObjectStateGet - Gets the state of any `PetscObject`, regardless of the type. Not Collective Input Parameter: . obj - any PETSc object, for example a `Vec`, `Mat` or `KSP`. This must be cast with a (`PetscObject`), for example, `PetscObjectStateGet`((`PetscObject`)mat,&state); Output Parameter: . state - the object state Note: Object state is an integer which gets increased every time the object is changed. By saving and later querying the object state one can determine whether information about the object is still current. Currently, state is maintained for `Vec` and `Mat` objects. Level: advanced .seealso: `PetscObjectStateIncrease()`, `PetscObjectStateSet()` @*/ PetscErrorCode PetscObjectStateGet(PetscObject obj, PetscObjectState *state) { PetscFunctionBegin; PetscValidHeader(obj, 1); PetscValidIntPointer(state, 2); *state = obj->state; PetscFunctionReturn(0); } /*@C PetscObjectStateSet - Sets the state of any `PetscObject`, regardless of the type. Logically Collective Input Parameters: + obj - any PETSc object, for example a `Vec`, `Mat` or `KSP`. This must be cast with a (`PetscObject`), for example, `PetscObjectStateSet`((`PetscObject`)mat,state); - state - the object state Note: This function should be used with extreme caution. There is essentially only one use for it: if the user calls Mat(Vec)GetRow(Array), which increases the state, but does not alter the data, then this routine can be used to reset the state. Such a reset must be collective. Level: advanced .seealso: `PetscObjectStateGet()`, `PetscObjectStateIncrease()` @*/ PetscErrorCode PetscObjectStateSet(PetscObject obj, PetscObjectState state) { PetscFunctionBegin; PetscValidHeader(obj, 1); obj->state = state; PetscFunctionReturn(0); } PetscInt PetscObjectComposedDataMax = 10; /*@C PetscObjectComposedDataRegister - Get an available id for composing data with a `PetscObject` Not Collective Output parameter: . id - an identifier under which data can be stored Level: developer Notes: You must keep this value (for example in a global variable) in order to attach the data to an object or access in an object. `PetscObjectCompose()` and `PetscObjectQuery()` provide a way to attach any data to an object .seealso: `PetscObjectComposedDataSetInt()`, `PetscObjectComposedDataSetReal()`, `PetscObjectComposedDataGetReal()`, `PetscObjectComposedDataSetIntstar()`, `PetscObjectComposedDataSetIntstar()`, `PetscObjectComposedDataGetInt()`, `PetscObject`, `PetscObjectCompose()`, `PetscObjectQuery()`, `PetscObjectComposedDataSetRealstar()`, `PetscObjectComposedDataGetScalarstar()`, `PetscObjectComposedDataSetScalarstar()`, `PetscObjectComposedDataSetScalarstar()` @*/ PetscErrorCode PetscObjectComposedDataRegister(PetscInt *id) { static PetscInt globalcurrentstate = 0; PetscFunctionBegin; *id = globalcurrentstate++; if (globalcurrentstate > PetscObjectComposedDataMax) PetscObjectComposedDataMax += 10; PetscFunctionReturn(0); } PetscErrorCode PetscObjectComposedDataIncreaseInt(PetscObject obj) { PetscInt *ar = obj->intcomposeddata, *new_ar, n = obj->int_idmax, new_n; PetscObjectState *ir = obj->intcomposedstate, *new_ir; PetscFunctionBegin; new_n = PetscObjectComposedDataMax; PetscCall(PetscCalloc2(new_n, &new_ar, new_n, &new_ir)); PetscCall(PetscMemcpy(new_ar, ar, n * sizeof(PetscInt))); PetscCall(PetscMemcpy(new_ir, ir, n * sizeof(PetscObjectState))); PetscCall(PetscFree2(ar, ir)); obj->int_idmax = new_n; obj->intcomposeddata = new_ar; obj->intcomposedstate = new_ir; PetscFunctionReturn(0); } PetscErrorCode PetscObjectComposedDataIncreaseIntstar(PetscObject obj) { PetscInt **ar = obj->intstarcomposeddata, **new_ar, n = obj->intstar_idmax, new_n; PetscObjectState *ir = obj->intstarcomposedstate, *new_ir; PetscFunctionBegin; new_n = PetscObjectComposedDataMax; PetscCall(PetscCalloc2(new_n, &new_ar, new_n, &new_ir)); PetscCall(PetscMemcpy(new_ar, ar, n * sizeof(PetscInt *))); PetscCall(PetscMemcpy(new_ir, ir, n * sizeof(PetscObjectState))); PetscCall(PetscFree2(ar, ir)); obj->intstar_idmax = new_n; obj->intstarcomposeddata = new_ar; obj->intstarcomposedstate = new_ir; PetscFunctionReturn(0); } PetscErrorCode PetscObjectComposedDataIncreaseReal(PetscObject obj) { PetscReal *ar = obj->realcomposeddata, *new_ar; PetscObjectState *ir = obj->realcomposedstate, *new_ir; PetscInt n = obj->real_idmax, new_n; PetscFunctionBegin; new_n = PetscObjectComposedDataMax; PetscCall(PetscCalloc2(new_n, &new_ar, new_n, &new_ir)); PetscCall(PetscMemcpy(new_ar, ar, n * sizeof(PetscReal))); PetscCall(PetscMemcpy(new_ir, ir, n * sizeof(PetscObjectState))); PetscCall(PetscFree2(ar, ir)); obj->real_idmax = new_n; obj->realcomposeddata = new_ar; obj->realcomposedstate = new_ir; PetscFunctionReturn(0); } PetscErrorCode PetscObjectComposedDataIncreaseRealstar(PetscObject obj) { PetscReal **ar = obj->realstarcomposeddata, **new_ar; PetscObjectState *ir = obj->realstarcomposedstate, *new_ir; PetscInt n = obj->realstar_idmax, new_n; PetscFunctionBegin; new_n = PetscObjectComposedDataMax; PetscCall(PetscCalloc2(new_n, &new_ar, new_n, &new_ir)); PetscCall(PetscMemcpy(new_ar, ar, n * sizeof(PetscReal *))); PetscCall(PetscMemcpy(new_ir, ir, n * sizeof(PetscObjectState))); PetscCall(PetscFree2(ar, ir)); obj->realstar_idmax = new_n; obj->realstarcomposeddata = new_ar; obj->realstarcomposedstate = new_ir; PetscFunctionReturn(0); } PetscErrorCode PetscObjectComposedDataIncreaseScalar(PetscObject obj) { PetscScalar *ar = obj->scalarcomposeddata, *new_ar; PetscObjectState *ir = obj->scalarcomposedstate, *new_ir; PetscInt n = obj->scalar_idmax, new_n; PetscFunctionBegin; new_n = PetscObjectComposedDataMax; PetscCall(PetscCalloc2(new_n, &new_ar, new_n, &new_ir)); PetscCall(PetscMemcpy(new_ar, ar, n * sizeof(PetscScalar))); PetscCall(PetscMemcpy(new_ir, ir, n * sizeof(PetscObjectState))); PetscCall(PetscFree2(ar, ir)); obj->scalar_idmax = new_n; obj->scalarcomposeddata = new_ar; obj->scalarcomposedstate = new_ir; PetscFunctionReturn(0); } PetscErrorCode PetscObjectComposedDataIncreaseScalarstar(PetscObject obj) { PetscScalar **ar = obj->scalarstarcomposeddata, **new_ar; PetscObjectState *ir = obj->scalarstarcomposedstate, *new_ir; PetscInt n = obj->scalarstar_idmax, new_n; PetscFunctionBegin; new_n = PetscObjectComposedDataMax; PetscCall(PetscCalloc2(new_n, &new_ar, new_n, &new_ir)); PetscCall(PetscMemcpy(new_ar, ar, n * sizeof(PetscScalar *))); PetscCall(PetscMemcpy(new_ir, ir, n * sizeof(PetscObjectState))); PetscCall(PetscFree2(ar, ir)); obj->scalarstar_idmax = new_n; obj->scalarstarcomposeddata = new_ar; obj->scalarstarcomposedstate = new_ir; PetscFunctionReturn(0); } /*@ PetscObjectGetId - get a unique object ID for the `PetscObject` Not Collective Input Parameter: . obj - object Output Parameter: . id - integer ID Level: developer Note: The object ID may be different on different processes, but object IDs are never reused so local equality implies global equality. .seealso: `PetscObjectStateGet()`, `PetscObjectCompareId()` @*/ PetscErrorCode PetscObjectGetId(PetscObject obj, PetscObjectId *id) { PetscFunctionBegin; PetscValidHeader(obj, 1); PetscValidIntPointer(id, 2); *id = obj->id; PetscFunctionReturn(0); } /*@ PetscObjectCompareId - compares the objects ID with a given id Not Collective Input Parameters: + obj - object - id - integer ID Output Parameter; . eq - the ids are equal Level: developer Note: The object ID may be different on different processes, but object IDs are never reused so local equality implies global equality. .seealso: `PetscObjectStateGet()`, `PetscObjectGetId()` @*/ PetscErrorCode PetscObjectCompareId(PetscObject obj, PetscObjectId id, PetscBool *eq) { PetscObjectId oid; PetscFunctionBegin; PetscValidHeader(obj, 1); PetscValidBoolPointer(eq, 3); PetscCall(PetscObjectGetId(obj, &oid)); *eq = (id == oid) ? PETSC_TRUE : PETSC_FALSE; PetscFunctionReturn(0); }