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ryujin 2.1.1 revision 3913ebe5e1d74c8fef21bcd286906a244031ce08
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#include <source/euler/initial_state_smooth_wave.h>
Public Types | |
using | HyperbolicSystem = typename Description::HyperbolicSystem |
using | View = typename Description::template HyperbolicSystemView< dim, Number > |
using | state_type = typename View::state_type |
using | ScalarNumber = typename View::ScalarNumber |
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using | View = typename Description::template HyperbolicSystemView< dim, Number > |
using | state_type = typename View::state_type |
using | initial_precomputed_type = typename View::initial_precomputed_type |
Public Member Functions | |
SmoothWave (const HyperbolicSystem &hyperbolic_system, const std::string subsection) | |
state_type | compute (const dealii::Point< dim > &point, Number t) final |
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InitialState (const std::string &name, const std::string &subsection) | |
virtual state_type | compute (const dealii::Point< dim > &point, Number t)=0 |
virtual initial_precomputed_type | initial_precomputations (const dealii::Point< dim > &) |
const auto & | name () const |
This is a generalization of the "Smooth traveling wave" problem first proposed in Section 5.2 of [10] for ideal gas EOS. The details for extending to arbitrary equations of state are seen in Section 5.3.1 of [3].
t
and position x
. Definition at line 29 of file initial_state_smooth_wave.h.
using ryujin::EulerInitialStates::SmoothWave< Description, dim, Number >::HyperbolicSystem = typename Description::HyperbolicSystem |
Definition at line 32 of file initial_state_smooth_wave.h.
using ryujin::EulerInitialStates::SmoothWave< Description, dim, Number >::View = typename Description::template HyperbolicSystemView<dim, Number> |
Definition at line 33 of file initial_state_smooth_wave.h.
using ryujin::EulerInitialStates::SmoothWave< Description, dim, Number >::state_type = typename View::state_type |
Definition at line 35 of file initial_state_smooth_wave.h.
using ryujin::EulerInitialStates::SmoothWave< Description, dim, Number >::ScalarNumber = typename View::ScalarNumber |
Definition at line 37 of file initial_state_smooth_wave.h.
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inline |
Definition at line 39 of file initial_state_smooth_wave.h.
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inlinefinalvirtual |
Given a position point
returns the corresponding (conserved) initial state. The function is used to interpolate initial values and enforce Dirichlet boundary conditions. For the latter, the function signature has an additional parameter t
denoting the current time to allow for time-dependent (in-flow) Dirichlet data.
Implements ryujin::InitialState< Description, dim, Number >.
Definition at line 64 of file initial_state_smooth_wave.h.