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- name: Checkout Actions Repository | ||
uses: actions/checkout@v4 | ||
- name: Check spelling | ||
uses: crate-ci/[email protected].15 | ||
uses: crate-ci/[email protected].21 |
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examples/tree_2d_dgsem/elixir_mhd_shockcapturing_subcell.jl
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using OrdinaryDiffEq | ||
using Trixi | ||
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############################################################################### | ||
# semidiscretization of the compressible ideal GLM-MHD equations | ||
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equations = IdealGlmMhdEquations2D(1.4) | ||
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""" | ||
initial_condition_blast_wave(x, t, equations::IdealGlmMhdEquations2D) | ||
An MHD blast wave modified from: | ||
- Dominik Derigs, Gregor J. Gassner, Stefanie Walch & Andrew R. Winters (2018) | ||
Entropy Stable Finite Volume Approximations for Ideal Magnetohydrodynamics | ||
[doi: 10.1365/s13291-018-0178-9](https://doi.org/10.1365/s13291-018-0178-9) | ||
This setup needs a positivity limiter for the density. | ||
""" | ||
function initial_condition_blast_wave(x, t, equations::IdealGlmMhdEquations2D) | ||
# setup taken from Derigs et al. DMV article (2018) | ||
# domain must be [-0.5, 0.5] x [-0.5, 0.5], γ = 1.4 | ||
r = sqrt(x[1]^2 + x[2]^2) | ||
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pmax = 10.0 | ||
pmin = 1.0 | ||
rhomax = 1.0 | ||
rhomin = 0.01 | ||
if r <= 0.09 | ||
p = pmax | ||
rho = rhomax | ||
elseif r >= 0.1 | ||
p = pmin | ||
rho = rhomin | ||
else | ||
p = pmin + (0.1 - r) * (pmax - pmin) / 0.01 | ||
rho = rhomin + (0.1 - r) * (rhomax - rhomin) / 0.01 | ||
end | ||
v1 = 0.0 | ||
v2 = 0.0 | ||
v3 = 0.0 | ||
B1 = 1.0/sqrt(4.0*pi) | ||
B2 = 0.0 | ||
B3 = 0.0 | ||
psi = 0.0 | ||
return prim2cons(SVector(rho, v1, v2, v3, p, B1, B2, B3, psi), equations) | ||
end | ||
initial_condition = initial_condition_blast_wave | ||
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surface_flux = (flux_lax_friedrichs, flux_nonconservative_powell_local_symmetric) | ||
volume_flux = (flux_derigs_etal, flux_nonconservative_powell_local_symmetric) | ||
basis = LobattoLegendreBasis(3) | ||
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limiter_idp = SubcellLimiterIDP(equations, basis; | ||
positivity_variables_cons=[1], | ||
positivity_correction_factor=0.5) | ||
volume_integral = VolumeIntegralSubcellLimiting(limiter_idp; | ||
volume_flux_dg=volume_flux, | ||
volume_flux_fv=surface_flux) | ||
solver = DGSEM(basis, surface_flux, volume_integral) | ||
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coordinates_min = (-0.5, -0.5) | ||
coordinates_max = ( 0.5, 0.5) | ||
mesh = TreeMesh(coordinates_min, coordinates_max, | ||
initial_refinement_level=4, | ||
n_cells_max=10_000) | ||
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semi = SemidiscretizationHyperbolic(mesh, equations, initial_condition, solver) | ||
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############################################################################### | ||
# ODE solvers, callbacks etc. | ||
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tspan = (0.0, 0.1) | ||
ode = semidiscretize(semi, tspan) | ||
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summary_callback = SummaryCallback() | ||
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analysis_interval = 100 | ||
analysis_callback = AnalysisCallback(semi, interval=analysis_interval) | ||
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alive_callback = AliveCallback(analysis_interval=analysis_interval) | ||
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save_solution = SaveSolutionCallback(interval=100, | ||
save_initial_solution=true, | ||
save_final_solution=true, | ||
solution_variables=cons2prim) | ||
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cfl = 0.5 | ||
stepsize_callback = StepsizeCallback(cfl=cfl) | ||
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glm_speed_callback = GlmSpeedCallback(glm_scale=0.5, cfl=cfl) | ||
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callbacks = CallbackSet(summary_callback, | ||
analysis_callback, | ||
alive_callback, | ||
save_solution, | ||
stepsize_callback, | ||
glm_speed_callback) | ||
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############################################################################### | ||
# run the simulation | ||
stage_callbacks = (SubcellLimiterIDPCorrection(), BoundsCheckCallback()) | ||
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sol = Trixi.solve(ode, Trixi.SimpleSSPRK33(stage_callbacks=stage_callbacks); | ||
dt=1.0, # solve needs some value here but it will be overwritten by the stepsize_callback | ||
save_everystep=false, callback=callbacks); | ||
summary_callback() # print the timer summary |
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