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view test/SbpOperators/boundary_conditions/sat_test.jl @ 1996:d89f7a1a6f37 feature/grids/manifolds
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| author | Jonatan Werpers <jonatan@werpers.com> |
|---|---|
| date | Wed, 23 Apr 2025 09:02:20 +0200 |
| parents | 471a948cd2b2 |
| children |
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using Test using Diffinitive.Grids using Diffinitive.LazyTensors using Diffinitive.SbpOperators stencil_set = read_stencil_set(sbp_operators_path()*"standard_diagonal.toml"; order = 4) struct MockOp end function SbpOperators.sat_tensors(op::MockOp, g::Grid, bc::DirichletCondition; a = 1.) e = boundary_restriction(g, stencil_set, boundary(bc)) L = a*e sat_op = e' return sat_op, L end function SbpOperators.sat_tensors(op::MockOp, g::Grid, bc::NeumannCondition) e = boundary_restriction(g, stencil_set, boundary(bc)) d = normal_derivative(g, stencil_set, boundary(bc)) L = d sat_op = e' return sat_op, L end @testset "sat" begin op = MockOp() @testset "1D" begin grid = equidistant_grid(0., 1., 11) l, r = boundary_identifiers(grid) u = eval_on(grid, x-> 1. + 2x^2) dc = DirichletCondition(1.0, l) g_l = discretize_data(grid, dc) SAT_l = sat(op, grid, dc) @test SAT_l(u, g_l) ≈ zeros((size(grid))) atol = 1e-13 nc = NeumannCondition(4.0, r) g_r = discretize_data(grid, nc) SAT_r = sat(op, grid, nc) @test SAT_r(u, g_r) ≈ zeros((size(grid))) atol = 1e-13 end @testset "2D" begin grid = equidistant_grid((0.,0.), (1.,1.), 11, 13) W, E, S, N = boundary_identifiers(grid) u = eval_on(grid, (x,y) -> x+y^2) dc_W = DirichletCondition(1.0, W) SAT_W = sat(op, grid, dc_W) g_W = discretize_data(grid, dc_W) r_W = zeros(size(grid)) r_W[1,:] .= map(y -> (y^2-1.), range(0., 1., length=13)) @test SAT_W(u, g_W) ≈ r_W atol = 1e-13 dc_E = DirichletCondition(2, E) SAT_E = sat(op, grid, dc_E; a = 2.) g_E = discretize_data(grid, dc_E) r_E = zeros(size(grid)) r_E[end,:] .= map(y -> (2*(1. + y^2)-2.), range(0., 1., length=13)) @test SAT_E(u, g_E) ≈ r_E atol = 1e-13 nc_S = NeumannCondition(.0, S) SAT_S = sat(op, grid, nc_S) g_S = discretize_data(grid, nc_S) @test SAT_S(u, g_S) ≈ zeros(size(grid)) atol = 1e-13 nc_N = NeumannCondition(2.0, N) SAT_N = sat(op, grid, nc_N) g_N = discretize_data(grid, nc_N) @test SAT_N(u, g_N) ≈ zeros(size(grid)) atol = 1e-13 end end