#include <theta.hh>

Inheritance diagram for timestepping::Theta:

Public Member Functions
	Theta (concepts::SolverFabric< Real > &fabric, concepts::Operator< Real > &D1, concepts::Operator< Real > &D0, timestepping::TimeVector &trhs, const concepts::Vector< Real > &Y0, Real dt, Real theta=0.5)

Protected Member Functions
virtual std::ostream &	info (std::ostream &os) const
	Returns information in an output stream.

virtual void	next ()

Protected Attributes
std::unique_ptr< concepts::Operator< Real > >	solver_
	Solver for the linear system.

concepts::Operator< Real > *	liCo_

concepts::Vector< Real >	sol_

concepts::Vector< Real >	rhs_

Real	dt_
	Time step size.

Real	t_
	Time of the actual solution.

Detailed Description

Timestep strategy for the Theta-Scheme algorithm for first order problems in time.

$[ D_1 \partial_t + D_0 ] y(x,t) = f(x,t)$

The scheme has one parameter theta. The scheme is implicit if theta!=0 and it has convergence order 2 if theta = 1/2. The algorithm is absolutely stable with the predefined parameters.

See also: C. Schwab Einführung in die Numerik Partieller Differentialgleichungen: Zeitabhängige Probleme, lecture notes 2001.

Author: Manuel Walser, 2002

Definition at line 40 of file theta.hh.

Constructor & Destructor Documentation

◆ Theta()

timestepping::Theta::Theta	(	concepts::SolverFabric< Real > &	fabric,
		concepts::Operator< Real > &	D1,
		concepts::Operator< Real > &	D0,
		timestepping::TimeVector &	trhs,
		const concepts::Vector< Real > &	Y0,
		Real	dt,
		Real	theta = `0.5`
	)

Constructor

Parameters

fabric	Solver fabric to solve the occuring systems
D1	Space operator D₁
D0	Space operator D₀
trhs	Timedependent external driver f(x,t)
Y0	Initial condition y(x,0)
dt	Time step size
theta	Parameter of the Theta scheme

Member Function Documentation

◆ info()

virtual std::ostream & timestepping::Theta::info ( std::ostream & os ) const

protectedvirtual

Returns information in an output stream.

Reimplemented from concepts::OutputOperator.

◆ next()

virtual void timestepping::Theta::next ( )

protectedvirtual

The overloaded member function next() has to calculate the new right hand side and to release the solution vector. Then the Timestepping solver can set the new solution.

Implements timestepping::TimeStepStrategy.

Member Data Documentation

◆ dt_

Real timestepping::TimeStepStrategy::dt_

protectedinherited

Time step size.

Definition at line 77 of file strategy.hh.

◆ liCo_

concepts::Operator<Real>* timestepping::TimeStepStrategy::liCo_

protectedinherited

Operator of the linear equation system which is solved by the friend class TimeStepping. It can be stored as a linear combination of two operators. The exact form depends on the specific scheme.

See also: TimeStepping

Definition at line 65 of file strategy.hh.

◆ rhs_

concepts::Vector<Real> timestepping::TimeStepStrategy::rhs_

protectedinherited

The right hand side vector of the linear equation system which is solved by the friend class TimeStepping.

See also: TimeStepping

Definition at line 75 of file strategy.hh.

◆ sol_

concepts::Vector<Real> timestepping::TimeStepStrategy::sol_

protectedinherited

The solution vector of the linear equation system which is solved by the friend class TimeStepping.

See also: TimeStepping

Definition at line 70 of file strategy.hh.

◆ solver_

std::unique_ptr<concepts::Operator<Real> > timestepping::TimeStepStrategy::solver_

protectedinherited

Solver for the linear system.

Definition at line 59 of file strategy.hh.

◆ t_

Real timestepping::TimeStepStrategy::t_

protectedinherited

Time of the actual solution.

Definition at line 79 of file strategy.hh.

The documentation for this class was generated from the following file:

timestepping/theta.hh

Class documentation of Concepts

Public Member Functions

Protected Member Functions

Protected Attributes

Detailed Description

Constructor & Destructor Documentation

◆ Theta()

Member Function Documentation

◆ info()

◆ next()

Member Data Documentation

◆ dt_

◆ liCo_

◆ rhs_

◆ sol_

◆ solver_

◆ t_