Mercurial > repos > public > sbplib_julia
comparison test/SbpOperators/boundaryops/boundary_restriction_test.jl @ 1049:3bb94ce74697 feature/variable_derivatives
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| author | Jonatan Werpers <jonatan@werpers.com> |
|---|---|
| date | Wed, 23 Mar 2022 12:54:45 +0100 |
| parents | 7fc8df5157a7 |
| children | 1cc45207817e |
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| 1048:86aa69ad3304 | 1049:3bb94ce74697 |
|---|---|
| 2 | 2 |
| 3 using Sbplib.SbpOperators | 3 using Sbplib.SbpOperators |
| 4 using Sbplib.Grids | 4 using Sbplib.Grids |
| 5 using Sbplib.LazyTensors | 5 using Sbplib.LazyTensors |
| 6 using Sbplib.RegionIndices | 6 using Sbplib.RegionIndices |
| 7 import Sbplib.SbpOperators.BoundaryOperator | 7 using Sbplib.SbpOperators: BoundaryOperator, Stencil |
| 8 | 8 |
| 9 @testset "boundary_restriction" begin | 9 @testset "boundary_restriction" begin |
| 10 stencil_set = read_stencil_set(sbp_operators_path()*"standard_diagonal.toml"; order = 4) | 10 stencil_set = read_stencil_set(sbp_operators_path()*"standard_diagonal.toml"; order = 4) |
| 11 e_closure = parse_stencil(stencil_set["e"]["closure"]) | 11 e_closure = parse_stencil(stencil_set["e"]["closure"]) |
| 12 g_1D = EquidistantGrid(11, 0.0, 1.0) | 12 g_1D = EquidistantGrid(11, 0.0, 1.0) |
| 16 @testset "1D" begin | 16 @testset "1D" begin |
| 17 e_l = boundary_restriction(g_1D,e_closure,CartesianBoundary{1,Lower}()) | 17 e_l = boundary_restriction(g_1D,e_closure,CartesianBoundary{1,Lower}()) |
| 18 @test e_l == boundary_restriction(g_1D,stencil_set,CartesianBoundary{1,Lower}()) | 18 @test e_l == boundary_restriction(g_1D,stencil_set,CartesianBoundary{1,Lower}()) |
| 19 @test e_l == BoundaryOperator(g_1D,Stencil{Float64}(e_closure),Lower()) | 19 @test e_l == BoundaryOperator(g_1D,Stencil{Float64}(e_closure),Lower()) |
| 20 @test e_l isa BoundaryOperator{T,Lower} where T | 20 @test e_l isa BoundaryOperator{T,Lower} where T |
| 21 @test e_l isa TensorMapping{T,0,1} where T | 21 @test e_l isa LazyTensor{T,0,1} where T |
| 22 | 22 |
| 23 e_r = boundary_restriction(g_1D,e_closure,CartesianBoundary{1,Upper}()) | 23 e_r = boundary_restriction(g_1D,e_closure,CartesianBoundary{1,Upper}()) |
| 24 @test e_r == boundary_restriction(g_1D,stencil_set,CartesianBoundary{1,Upper}()) | 24 @test e_r == boundary_restriction(g_1D,stencil_set,CartesianBoundary{1,Upper}()) |
| 25 @test e_r == BoundaryOperator(g_1D,Stencil{Float64}(e_closure),Upper()) | 25 @test e_r == BoundaryOperator(g_1D,Stencil{Float64}(e_closure),Upper()) |
| 26 @test e_r isa BoundaryOperator{T,Upper} where T | 26 @test e_r isa BoundaryOperator{T,Upper} where T |
| 27 @test e_r isa TensorMapping{T,0,1} where T | 27 @test e_r isa LazyTensor{T,0,1} where T |
| 28 end | 28 end |
| 29 | 29 |
| 30 @testset "2D" begin | 30 @testset "2D" begin |
| 31 e_w = boundary_restriction(g_2D,e_closure,CartesianBoundary{1,Upper}()) | 31 e_w = boundary_restriction(g_2D,e_closure,CartesianBoundary{1,Upper}()) |
| 32 @test e_w == boundary_restriction(g_2D,stencil_set,CartesianBoundary{1,Upper}()) | 32 @test e_w == boundary_restriction(g_2D,stencil_set,CartesianBoundary{1,Upper}()) |
| 33 @test e_w isa InflatedTensorMapping | 33 @test e_w isa InflatedTensor |
| 34 @test e_w isa TensorMapping{T,1,2} where T | 34 @test e_w isa LazyTensor{T,1,2} where T |
| 35 end | 35 end |
| 36 end | 36 end |
| 37 | 37 |
| 38 @testset "Application" begin | 38 @testset "Application" begin |
| 39 @testset "1D" begin | 39 @testset "1D" begin |