Mercurial > repos > public > sbplib_julia
diff src/SbpOperators/boundaryops/boundary_operator.jl @ 1751:f3d7e2d7a43f feature/sbp_operators/laplace_curvilinear
Merge feature/grids/manifolds
| author | Jonatan Werpers <jonatan@werpers.com> |
|---|---|
| date | Wed, 11 Sep 2024 16:26:19 +0200 |
| parents | 3714a391545a |
| children |
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--- a/src/SbpOperators/boundaryops/boundary_operator.jl Mon Sep 09 09:01:57 2024 +0200 +++ b/src/SbpOperators/boundaryops/boundary_operator.jl Wed Sep 11 16:26:19 2024 +0200 @@ -1,27 +1,27 @@ """ - BoundaryOperator{T,R,N} <: LazyTensor{T,0,1} + BoundaryOperator{T,B,N} <: LazyTensor{T,0,1} Implements the boundary operator `op` for 1D as a `LazyTensor` `op` is the restriction of a grid function to the boundary using some closure -`Stencil{T,N}`. The boundary to restrict to is determined by `R`. `op'` is the +`Stencil{T,N}`. The boundary to restrict to is determined by `B`. `op'` is the prolongation of a zero dimensional array to the whole grid using the same closure stencil. """ -struct BoundaryOperator{T,R<:Region,N} <: LazyTensor{T,0,1} +struct BoundaryOperator{T,B<:BoundaryIdentifier,N} <: LazyTensor{T,0,1} stencil::Stencil{T,N} size::Int end """ - BoundaryOperator(grid::EquidistantGrid, closure_stencil, region) + BoundaryOperator(grid::EquidistantGrid, closure_stencil, boundary) Constructs the BoundaryOperator with stencil `closure_stencil` for a `EquidistantGrid` `grid`, restricting to to the boundary specified by -`region`. +`boundary`. """ -function BoundaryOperator(grid::EquidistantGrid, closure_stencil::Stencil{T,N}, region::Region) where {T,N} - return BoundaryOperator{T,typeof(region),N}(closure_stencil,size(grid)[1]) +function BoundaryOperator(grid::EquidistantGrid, closure_stencil::Stencil{T,N}, boundary::BoundaryIdentifier) where {T,N} + return BoundaryOperator{T,typeof(boundary),N}(closure_stencil,size(grid)[1]) end """ @@ -29,24 +29,24 @@ The size of the closure stencil. """ -closure_size(::BoundaryOperator{T,R,N}) where {T,R,N} = N +closure_size(::BoundaryOperator{T,B,N}) where {T,B,N} = N LazyTensors.range_size(op::BoundaryOperator) = () LazyTensors.domain_size(op::BoundaryOperator) = (op.size,) -function LazyTensors.apply(op::BoundaryOperator{<:Any,Lower}, v::AbstractVector) +function LazyTensors.apply(op::BoundaryOperator{<:Any,LowerBoundary}, v::AbstractVector) apply_stencil(op.stencil,v,1) end -function LazyTensors.apply(op::BoundaryOperator{<:Any,Upper}, v::AbstractVector) +function LazyTensors.apply(op::BoundaryOperator{<:Any,UpperBoundary}, v::AbstractVector) apply_stencil_backwards(op.stencil,v,op.size) end -function LazyTensors.apply_transpose(op::BoundaryOperator{<:Any,Lower}, v::AbstractArray{<:Any,0}, i::Index{Lower}) +function LazyTensors.apply_transpose(op::BoundaryOperator{<:Any,LowerBoundary}, v::AbstractArray{<:Any,0}, i::Index{Lower}) return op.stencil[Int(i)-1]*v[] end -function LazyTensors.apply_transpose(op::BoundaryOperator{<:Any,Upper}, v::AbstractArray{<:Any,0}, i::Index{Upper}) +function LazyTensors.apply_transpose(op::BoundaryOperator{<:Any,UpperBoundary}, v::AbstractArray{<:Any,0}, i::Index{Upper}) return op.stencil[op.size[1] - Int(i)]*v[] end