#include <deal.II/base/time_stepping.h>
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| ExplicitRungeKutta ()=default |
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| ExplicitRungeKutta (const runge_kutta_method method) |
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void | initialize (const runge_kutta_method method) override |
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double | evolve_one_time_step (const std::function< VectorType(const double, const VectorType &)> &f, const std::function< VectorType(const double, const double, const VectorType &)> &id_minus_tau_J_inverse, double t, double delta_t, VectorType &y) override |
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double | evolve_one_time_step (const std::function< VectorType(const double, const VectorType &)> &f, double t, double delta_t, VectorType &y) |
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const Status & | get_status () const override |
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double | evolve_one_time_step (std::vector< std::function< VectorType(const double, const VectorType &)> > &F, std::vector< std::function< VectorType(const double, const double, const VectorType &)> > &J_inverse, double t, double delta_t, VectorType &y) override |
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unsigned int | n_stages |
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std::vector< double > | b |
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std::vector< double > | c |
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std::vector< std::vector< double > > | a |
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void | compute_stages (const std::function< VectorType(const double, const VectorType &)> &f, const double t, const double delta_t, const VectorType &y, std::vector< VectorType > &f_stages) const |
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template<typename VectorType>
class TimeStepping::ExplicitRungeKutta< VectorType >
ExplicitRungeKutta is derived from RungeKutta and implement the explicit methods.
Definition at line 307 of file time_stepping.h.
◆ ExplicitRungeKutta() [1/2]
template<typename VectorType >
◆ ExplicitRungeKutta() [2/2]
template<typename VectorType >
◆ initialize()
template<typename VectorType >
◆ evolve_one_time_step() [1/3]
template<typename VectorType >
double TimeStepping::ExplicitRungeKutta< VectorType >::evolve_one_time_step |
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const std::function< VectorType(const double, const VectorType &)> & |
f, |
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const std::function< VectorType(const double, const double, const VectorType &)> & |
id_minus_tau_J_inverse, |
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double |
t, |
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double |
delta_t, |
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VectorType & |
y |
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overridevirtual |
This function is used to advance from time t
to t+ delta_t
. f
is the function \( f(t,y) \) that should be integrated, the input parameters are the time t and the vector y and the output is value of f at this point. id_minus_tau_J_inverse
is a function that computes \(
inv(I-\tau J)\) where \( I \) is the identity matrix, \( \tau \) is given, and \( J \) is the Jacobian \( \frac{\partial f}{\partial y} \). The input parameter are the time, \( \tau \), and a vector. The output is the value of function at this point. evolve_one_time_step returns the time at the end of the time step.
- Note
id_minus_tau_J_inverse
is ignored since the method is explicit.
Implements TimeStepping::RungeKutta< VectorType >.
◆ evolve_one_time_step() [2/3]
template<typename VectorType >
double TimeStepping::ExplicitRungeKutta< VectorType >::evolve_one_time_step |
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const std::function< VectorType(const double, const VectorType &)> & |
f, |
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double |
t, |
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double |
delta_t, |
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VectorType & |
y |
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This function is used to advance from time t
to t+ delta_t
. This function is similar to the one derived from RungeKutta, but does not required id_minus_tau_J_inverse because it is not used for explicit methods. evolve_one_time_step returns the time at the end of the time step.
◆ get_status()
template<typename VectorType >
◆ compute_stages()
template<typename VectorType >
void TimeStepping::ExplicitRungeKutta< VectorType >::compute_stages |
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const std::function< VectorType(const double, const VectorType &)> & |
f, |
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const double |
t, |
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const double |
delta_t, |
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const VectorType & |
y, |
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std::vector< VectorType > & |
f_stages |
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private |
Compute the different stages needed.
◆ evolve_one_time_step() [3/3]
template<typename VectorType >
double TimeStepping::RungeKutta< VectorType >::evolve_one_time_step |
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std::vector< std::function< VectorType(const double, const VectorType &)> > & |
F, |
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std::vector< std::function< VectorType(const double, const double, const VectorType &)> > & |
J_inverse, |
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double |
t, |
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double |
delta_t, |
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VectorType & |
y |
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overridevirtualinherited |
This function is used to advance from time t
to t+ delta_t
. F
is a vector of functions \( f(t,y) \) that should be integrated, the input parameters are the time t and the vector y and the output is value of f at this point. J_inverse
is a vector functions that compute the inverse of the Jacobians associated to the implicit problems. The input parameters are the time, \( \tau \), and a vector. The output is the value of function at this point. This function returns the time at the end of the time step. When using Runge-Kutta methods, F
and J_inverse
can only contain one element.
Implements TimeStepping::TimeStepping< VectorType >.
◆ status
template<typename VectorType >
◆ n_stages
template<typename VectorType >
Number of stages of the Runge-Kutta method.
Definition at line 282 of file time_stepping.h.
template<typename VectorType >
template<typename VectorType >
template<typename VectorType >
The documentation for this class was generated from the following file: