#pragma once /* MANSEC = Vec */ /* SUBMANSEC = PetscSection */ /*S PetscSection - Provides a mapping from integers in a designated domain (defined by bounds `startp` to `endp`) to integers which can then be used for accessing entries in arrays, other `PetscSection`s, `IS`s, `Vec`s, and `Mat`s. One can think of `PetscSection` as a library-based tool for indexing into multi-dimensional jagged arrays which is needed since programming languages do not provide jagged array functionality baked into their syntax. The domain, `startp` to `endp`, is called the chart of the `PetscSection()` and is set with `PetscSectionSetChart()` and accessed `PetscSectionGetChart()`. `startp` does not need to be 0, `endp` must be greater than or equal to `startp` and the bounds may be positive or negative. The range of a `PetscSection` is in the space of contiguous sets of integers. These ranges are frequently interpreted as domains (charts, meaning lower and upper bounds) of other array-like objects, especially other `PetscSection`s, `IS`s, and `Vec`s. For each point in the chart (from `startp` to `endp`) of a `PetscSection`, the output set is represented through an `offset` and a `count`, which can be obtained using `PetscSectionGetOffset()` and `PetscSectionGetDof()` respectively and can be set via `PetscSectionSetOffset()` and `PetscSectionSetDof()`. Lookup is typically using accessors or routines like `VecGetValuesSection()` The indices returned by the `PetscSection` are appropriate for the kind of `Vec` it is associated with. For example, if the vector being indexed is a local vector, we call the section a local section. If the section indexes a global vector, we call it a global section. For parallel vectors, like global vectors, we use negative indices to indicate dofs owned by other processes. Typically `PetscSections` are first constructed via a series of calls to `PetscSectionSetOffset()` and `PetscSectionSetDof()`, finalized via a call to `PetscSectionSetup()` and then used to index into arrays and other PETSc objects. The construction (setup) phase corresponds to providing all the information needed to define the multi-dimensional jagged array structure. `PetscSection` is used heavily by `DMPLEX`. Simplier `DM`, such as `DMDA`, generally do not need `PetscSection` since their array access patterns are simplier and can be fully expressed using standard programming language array syntax, see [DM commonality](ch_dmcommonality). Level: beginner .seealso: [PetscSection](ch_petscsection), `PetscSectionCreate()`, `PetscSectionGetOffset()`, `PetscSectionGetOffset()`, `PetscSectionSetChart()`, `PetscSectionGetChart()`, `PetscSectionDestroy()`, `PetscSectionSym`, `PetscSectionSetup()`, `DM`, `DMDA`, `DMPLEX` S*/ typedef struct _p_PetscSection *PetscSection; /*S PetscSectionSym - Symmetries of the data referenced by a `PetscSection`. Often the order of data index by a `PetscSection` is meaningful, and describes additional structure, such as points on a line, grid, or lattice. If the data is accessed from a different "orientation", then the image of the data under access then undergoes a symmetry transformation. A `PetscSectionSym` specifies these symmetries. The types of symmetries that can be specified are of the form R * P, where R is a diagonal matrix of scalars, and P is a permutation. Level: developer .seealso: [PetscSection](ch_petscsection), `PetscSection`, `PetscSectionSymCreate()`, `PetscSectionSymDestroy()`, `PetscSectionSetSym()`, `PetscSectionGetSym()`, `PetscSectionSetFieldSym()`, `PetscSectionGetFieldSym()`, `PetscSectionGetSymPoints()`, `PetscSectionSymType`, `PetscSectionSymSetType()`, `PetscSectionSymGetType()` S*/ typedef struct _p_PetscSectionSym *PetscSectionSym; /*J PetscSectionSymType - String with the name of a `PetscSectionSym` type. Level: developer Note: `PetscSectionSym` has no default implementation, but is used by `DM` in `PetscSectionSymCreateLabel()`. .seealso: [PetscSection](ch_petscsection), `PetscSectionSymSetType()`, `PetscSectionSymGetType()`, `PetscSectionSym`, `PetscSectionSymCreate()`, `PetscSectionSymRegister()` J*/ typedef const char *PetscSectionSymType;