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ParallelFunctionSpaceImpl

ndfunctionspace

Struct ParallelFunctionSpaceImpl 

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pub struct ParallelFunctionSpaceImpl<'a, T: RlstScalar, TMesh: RlstScalar, E: Debug + PartialEq + Eq + Clone + Copy + Hash, G: Mesh<EntityDescriptor = E, T = TMesh>, PG: ParallelMesh<LocalMesh = G>, F: MappedFiniteElement<CellType = E, T = T>, S: FunctionSpace<Mesh = G, EntityDescriptor = E, FiniteElement = F>> { /* private fields */ }
Expand description

Parallel function space.

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impl<'a, T: RlstScalar, TMesh: RlstScalar, G: Mesh<EntityDescriptor = ReferenceCellType, T = TMesh>, PG: ParallelMesh<LocalMesh = G>, F: MappedFiniteElement<CellType = ReferenceCellType, T = T>> ParallelFunctionSpaceImpl<'a, T, TMesh, ReferenceCellType, G, PG, F, FunctionSpaceImpl<'a, T, TMesh, ReferenceCellType, G, F>>

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pub fn new<EF: ElementFamily<FiniteElement = F, CellType = ReferenceCellType>>( mesh: &'a PG, family: &EF, ) -> Self

Create a new parallel function space

Examples found in repository?
ndfunctionspace/examples/test_parallel_space.rs (line 28)
16fn test_parallel_function_space<C: Communicator>(comm: &C) {
17    let mesh = unit_cube_distributed::<f64, _>(
18        comm,
19        GraphPartitioner::None,
20        4,
21        4,
22        4,
23        ReferenceCellType::Tetrahedron,
24    );
25
26    let family =
27        LagrangeElementFamily::<f64>::new(2, Continuity::Standard, LagrangeVariant::Equispaced);
28    let space = ParallelFunctionSpaceImpl::new(&mesh, &family);
29    let serial_mesh = unit_cube::<f64>(4, 4, 4, ReferenceCellType::Tetrahedron);
30    let serial_space = FunctionSpaceImpl::new(&serial_mesh, &family);
31
32    assert_eq!(space.global_size(), serial_space.global_size());
33}

Trait Implementations§

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impl<'a, T: RlstScalar, TMesh: RlstScalar, E: Debug + PartialEq + Eq + Clone + Copy + Hash, G: Mesh<EntityDescriptor = E, T = TMesh>, PG: ParallelMesh<LocalMesh = G>, F: MappedFiniteElement<CellType = E, T = T>, S: FunctionSpace<Mesh = G, EntityDescriptor = E, FiniteElement = F>> ParallelFunctionSpace for ParallelFunctionSpaceImpl<'a, T, TMesh, E, G, PG, F, S>

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type ProcessSpace = ProcessFunctionSpace<S>

Process space type
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type C = <PG as ParallelMesh>::C

Communicator
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fn comm(&self) -> &PG::C

MPI communicator
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fn process_space(&self) -> &ProcessFunctionSpace<S>

Space on the current process
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fn global_size(&self) -> usize

Get the number of DOFs on all processes

Auto Trait Implementations§

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impl<'a, T, TMesh, E, G, PG, F, S> Freeze for ParallelFunctionSpaceImpl<'a, T, TMesh, E, G, PG, F, S>
where S: Freeze,

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impl<'a, T, TMesh, E, G, PG, F, S> RefUnwindSafe for ParallelFunctionSpaceImpl<'a, T, TMesh, E, G, PG, F, S>
where PG: RefUnwindSafe, S: RefUnwindSafe,

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impl<'a, T, TMesh, E, G, PG, F, S> Send for ParallelFunctionSpaceImpl<'a, T, TMesh, E, G, PG, F, S>
where PG: Sync, S: Send,

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impl<'a, T, TMesh, E, G, PG, F, S> Sync for ParallelFunctionSpaceImpl<'a, T, TMesh, E, G, PG, F, S>
where PG: Sync, S: Sync,

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impl<'a, T, TMesh, E, G, PG, F, S> Unpin for ParallelFunctionSpaceImpl<'a, T, TMesh, E, G, PG, F, S>
where S: Unpin,

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impl<'a, T, TMesh, E, G, PG, F, S> UnsafeUnpin for ParallelFunctionSpaceImpl<'a, T, TMesh, E, G, PG, F, S>
where S: UnsafeUnpin,

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impl<'a, T, TMesh, E, G, PG, F, S> UnwindSafe for ParallelFunctionSpaceImpl<'a, T, TMesh, E, G, PG, F, S>
where PG: RefUnwindSafe, S: UnwindSafe,

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