Base class for the object that perform the analysis. More...
#include <Analysis.h>
Inheritance diagram for XC::Analysis:
Public Member Functions | |
| AnalysisAggregation * | getAnalysisAggregationPtr (void) |
| Domain * | getDomainPtr (void) |
| Returns a pointer to the domain. | |
| const Domain * | getDomainPtr (void) const |
| Returns a pointer to the domain. | |
| ConstraintHandler * | getConstraintHandlerPtr (void) |
| Returns a pointer to the constraint handler. | |
| DOF_Numberer * | getDOF_NumbererPtr (void) const |
| Returns a pointer to the DOF numberer. | |
| AnalysisModel * | getAnalysisModelPtr (void) const |
| Returns a pointer to the analysis model. | |
| LinearSOE * | getLinearSOEPtr (void) const |
| Returns a pointer to the linear system of equations. | |
| EigenSOE * | getEigenSOEPtr (void) const |
| Returns a pointer to the system of equations de eigenvalues. | |
| Integrator * | getIntegratorPtr (void) |
| Returns, if possible, a pointer al integrator otherwise it returns nullptr. | |
| const Integrator * | getIntegratorPtr (void) const |
| Returns, if possible, a pointer al integrator otherwise it returns nullptr. | |
| IncrementalIntegrator * | getIncrementalIntegratorPtr (void) |
| Returns, if possible, a pointer al integrator incremental otherwise it returns nullptr. | |
| EigenIntegrator * | getEigenIntegratorPtr (void) |
| Returns, if possible, a pointer al EigenIntegrator otherwise it returns nullptr. | |
| LinearBucklingIntegrator * | getLinearBucklingIntegratorPtr (void) |
| Returns, if possible, a pointer al LinearBucklingIntegrator otherwise it returns nullptr. | |
| TransientIntegrator * | getTransientIntegratorPtr (void) |
| Returns, if possible, a pointer al EigenIntegrator otherwise it returns nullptr. | |
| StaticIntegrator * | getStaticIntegratorPtr (void) |
| Returns, if possible, a pointer al StaticIntegrator otherwise it returns nullptr. | |
| SolutionAlgorithm * | getSolutionAlgorithmPtr (void) |
| EigenAlgorithm * | getEigenSolutionAlgorithmPtr (void) |
| Return a pointer to the eigenproblem solution algorithm (if it's not defined it returns nullptr). More... | |
| EquiSolnAlgo * | getEquiSolutionAlgorithmPtr (void) |
| Return a pointer to the linear SOE solution algorithm (if it's not defined it returns nullptr). More... | |
| DomainDecompAlgo * | getDomainDecompSolutionAlgorithmPtr (void) |
| Return a pointer to the domain decomposition solution algorithm (if it's not defined it returns nullptr). More... | |
| virtual ConvergenceTest * | getConvergenceTestPtr (void) |
| Returns a pointer to the convergence test (only for suitable analysis). | |
| virtual const ConvergenceTest * | getConvergenceTestPtr (void) const |
| Returns a pointer to the convergence test (only for suitable analysis). | |
| virtual const DomainSolver * | getDomainSolver (void) const |
| Returns a pointer to the DomainSolver. | |
| virtual DomainSolver * | getDomainSolver (void) |
| Returns a pointer to the DomainSolver. | |
| virtual const Subdomain * | getSubdomain (void) const |
| Returns a pointer to the subdomain. | |
| virtual Subdomain * | getSubdomain (void) |
| Returns a pointer to the subdomain. | |
| virtual int | domainChanged (void)=0 |
| virtual void | clearAll (void) |
| Deletes all members (Constraint handler, analysis model,...). | |
| virtual int | setNumberer (DOF_Numberer &theNumberer) |
| Sets the renumerador to use in the analysis. | |
| virtual int | setLinearSOE (LinearSOE &theSOE) |
| Sets the linear system of equations to use in the analysis. | |
| virtual int | setEigenSOE (EigenSOE &theSOE) |
| Sets the sistema de eigenvalues to use in the analysis. | |
| virtual int | setIntegrator (Integrator &theNewIntegrator) |
| Sets the integrator to use in the analysis. | |
| virtual int | setAlgorithm (SolutionAlgorithm &theNewAlgorithm) |
| Set the solution algorithm to be used in the analysis. | |
| void | brokeConstraintHandler (const CommParameters &, const ID &) |
| void | brokeNumberer (const CommParameters &, const ID &) |
| void | brokeAnalysisModel (const CommParameters &, const ID &) |
| void | brokeDDLinearSOE (const CommParameters &, const ID &) |
| void | brokeLinearSOE (const CommParameters &, const ID &) |
| void | brokeIncrementalIntegrator (const CommParameters &, const ID &) |
| void | brokeStaticIntegrator (const CommParameters &, const ID &) |
| void | brokeTransientIntegrator (const CommParameters &, const ID &) |
| void | brokeDomainDecompAlgo (const CommParameters &, const ID &) |
| void | brokeEquiSolnAlgo (const CommParameters &, const ID &) |
| int | getAnalysisResult (void) const |
Protected Member Functions | |
| int | newStepDomain (AnalysisModel *theModel, const double &dT=0.0) |
| ProcSolu * | getProcSolu (void) |
| const ProcSolu * | getProcSolu (void) const |
| Analysis (AnalysisAggregation *analysis_aggregation) | |
| Constructor. More... | |
| virtual Analysis * | getCopy (void) const =0 |
| Virtual constructor. | |
Protected Attributes | |
| int | analysis_result |
| Equal to zero if success. | |
| AnalysisAggregation * | solution_method |
| Solution method. | |
Friends | |
| class | ProcSolu |
Detailed Description
Base class for the object that perform the analysis.
The Analysis class is an abstract base class. Each Analysis object will be associated with a solution method. The owner of the analysis object encloses the domain upon which it will perform the analysis operations. The base Analysis class holds a pointer to this Domain and will return this pointer to subclasses.
Constructor & Destructor Documentation
§ Analysis()
|
protected |
Constructor.
All analysis are associated with a single solution method, this constructor sets up the link.
Member Function Documentation
§ getDomainDecompSolutionAlgorithmPtr()
| XC::DomainDecompAlgo * XC::Analysis::getDomainDecompSolutionAlgorithmPtr | ( | void | ) |
Return a pointer to the domain decomposition solution algorithm (if it's not defined it returns nullptr).
§ getEigenSolutionAlgorithmPtr()
| XC::EigenAlgorithm * XC::Analysis::getEigenSolutionAlgorithmPtr | ( | void | ) |
Return a pointer to the eigenproblem solution algorithm (if it's not defined it returns nullptr).
§ getEquiSolutionAlgorithmPtr()
| XC::EquiSolnAlgo * XC::Analysis::getEquiSolutionAlgorithmPtr | ( | void | ) |
Return a pointer to the linear SOE solution algorithm (if it's not defined it returns nullptr).
The documentation for this class was generated from the following files:
- src/solution/analysis/analysis/Analysis.h
- src/solution/analysis/analysis/Analysis.cpp
