xcfem/xc/LinearBucklingIntegrator_8h_source.html

 // -*-c++-*-
 //----------------------------------------------------------------------------
 //  XC program; finite element analysis code
 //  for structural analysis and design.
 //
 //  Copyright (C)  Luis C. Pérez Tato
 //
 //  This program derives from OpenSees <http://opensees.berkeley.edu>
 //  developed by the  «Pacific earthquake engineering research center».
 //
 //  Except for the restrictions that may arise from the copyright
 //  of the original program (see copyright_opensees.txt)
 //  XC is free software: you can redistribute it and/or modify
 //  it under the terms of the GNU General Public License as published by
 //  the Free Software Foundation, either version 3 of the License, or
 //  (at your option) any later version.
 //
 //  This software is distributed in the hope that it will be useful, but
 //  WITHOUT ANY WARRANTY; without even the implied warranty of
 //  MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
 //  GNU General Public License for more details.
 //
 //
 // You should have received a copy of the GNU General Public License
 // along with this program.
 // If not, see <http://www.gnu.org/licenses/>.
 //----------------------------------------------------------------------------
 //LinearBucklingIntegrator.h
 // Description: This file contains the class definition of LinearBucklingIntegrator.
 // LinearBucklingIntegrator is an algorithmic class for setting up the finite element
 // equations for a eigen problem analysis.
 //
 // This class is inherited from the base class of Integrator which was
 // created by fmk (Frank).


 #ifndef LinearBucklingIntegrator_h
 #define LinearBucklingIntegrator_h

 #include <solution/analysis/integrator/EigenIntegrator.h>

 namespace XC {

 //
 class LinearBucklingIntegrator: public EigenIntegrator
   {
   protected:

     friend class SolutionStrategy;
     LinearBucklingIntegrator(SolutionStrategy *);
     Integrator *getCopy(void) const;
   public:

     // methods to form the K(t) and K(t+Dt) matrices.
     virtual int formKt(void);
     virtual int formKtplusDt(void);
     void Print(std::ostream &,int) const;
   };
 inline Integrator *LinearBucklingIntegrator::getCopy(void) const
   { return new LinearBucklingIntegrator(*this); }
 } // end of XC namespace

 #endif


XC::LinearBucklingIntegrator::formKtplusDt
virtual int formKtplusDt(void)
Assemblies stiffness matrix for the step following formKt() and stores it in the SOE A matrix...
Definition: LinearBucklingIntegrator.cc:43

XC::LinearBucklingIntegrator
LinearBucklingIntegrator is an algorithmic class for setting up the finite element equations for a li...
Definition: LinearBucklingIntegrator.h:49

XC::LinearBucklingIntegrator::LinearBucklingIntegrator
LinearBucklingIntegrator(SolutionStrategy *)
Constructor.
Definition: LinearBucklingIntegrator.cc:38

XC::Integrator
Base class for the objects that performs the integration of physical properties over the domain to fo...
Definition: Integrator.h:100

XC::EigenIntegrator
Base class for eigenproblem integrators.
Definition: EigenIntegrator.h:86

XC::SolutionStrategy
Solution strategy for the finite element problem.
Definition: SolutionStrategy.h:94

XC
Open source finite element program for structural analysis.
Definition: ContinuaReprComponent.h:35

XC::LinearBucklingIntegrator::Print
void Print(std::ostream &, int) const
Print stuff.
Definition: LinearBucklingIntegrator.cc:89

XC::LinearBucklingIntegrator::formKt
virtual int formKt(void)
Assemblies previous step stiffness matrix and stores it in the SOE M matrix.
Definition: LinearBucklingIntegrator.cc:48