MFEM
v4.3.0
Finite element discretization library
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#include <ode.hpp>
Public Member Functions | |
ExplicitRKSolver (int s_, const double *a_, const double *b_, const double *c_) | |
void | Init (TimeDependentOperator &f_) override |
Associate a TimeDependentOperator with the ODE solver. More... | |
void | Step (Vector &x, double &t, double &dt) override |
Perform a time step from time t [in] to time t [out] based on the requested step size dt [in]. More... | |
virtual | ~ExplicitRKSolver () |
Public Member Functions inherited from mfem::ODESolver | |
ODESolver () | |
virtual void | Run (Vector &x, double &t, double &dt, double tf) |
Perform time integration from time t [in] to time tf [in]. More... | |
virtual int | GetMaxStateSize () |
Function for getting and setting the state vectors. More... | |
virtual int | GetStateSize () |
virtual const Vector & | GetStateVector (int i) |
virtual void | GetStateVector (int i, Vector &state) |
virtual void | SetStateVector (int i, Vector &state) |
virtual | ~ODESolver () |
Additional Inherited Members | |
Protected Attributes inherited from mfem::ODESolver | |
TimeDependentOperator * | f |
Pointer to the associated TimeDependentOperator. More... | |
MemoryType | mem_type |
An explicit Runge-Kutta method corresponding to a general Butcher tableau +-----—+-------------------—+ | c[0] | a[0] | | c[1] | a[1] a[2] | | ... | ... | | c[s-2] | ... a[s(s-1)/2-1] | +-----—+-------------------—+ | | b[0] b[1] ... b[s-1] | +-----—+-------------------—+
mfem::ExplicitRKSolver::ExplicitRKSolver | ( | int | s_, |
const double * | a_, | ||
const double * | b_, | ||
const double * | c_ | ||
) |
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overridevirtual |
Associate a TimeDependentOperator with the ODE solver.
This method has to be called:
Reimplemented from mfem::ODESolver.
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overridevirtual |
Perform a time step from time t [in] to time t [out] based on the requested step size dt [in].
[in,out] | x | Approximate solution. |
[in,out] | t | Time associated with the approximate solution x. |
[in,out] | dt | Time step size. |
The following rules describe the common behavior of the method:
Implements mfem::ODESolver.