- java.lang.Object
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- org.ojalgo.optimisation.ExpressionsBasedModel.Integration<LinearSolver>
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- org.ojalgo.optimisation.linear.LinearSolver.ModelIntegration
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- All Implemented Interfaces:
Optimisation,Optimisation.Integration<ExpressionsBasedModel,LinearSolver>
- Enclosing class:
- LinearSolver
public static final class LinearSolver.ModelIntegration extends ExpressionsBasedModel.Integration<LinearSolver>
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Nested Class Summary
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Nested classes/interfaces inherited from interface org.ojalgo.optimisation.Optimisation
Optimisation.Constraint, Optimisation.ConstraintType, Optimisation.Integration<M extends Optimisation.Model,S extends Optimisation.Solver>, Optimisation.Model, Optimisation.Objective, Optimisation.Options, Optimisation.ProblemStructure, Optimisation.Result, Optimisation.Sense, Optimisation.Solver, Optimisation.State
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Constructor Summary
Constructors Constructor Description ModelIntegration()
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Method Summary
All Methods Instance Methods Concrete Methods Modifier and Type Method Description LinearSolverbuild(ExpressionsBasedModel model)An integration must be able to instantiate a solver that can handle (any) model instance.protected intgetIndexInSolver(ExpressionsBasedModel model, Variable variable)booleanisCapable(ExpressionsBasedModel model)Optimisation.ResulttoModelState(Optimisation.Result solverState, ExpressionsBasedModel model)Convert solver state to model state.Optimisation.ResulttoSolverState(Optimisation.Result modelState, ExpressionsBasedModel model)Convert model state to solver state.-
Methods inherited from class org.ojalgo.optimisation.ExpressionsBasedModel.Integration
extractSolverState, isSwitch, newValidator, setSwitch, withCapabilityPredicate, withOptionsModifier
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Method Detail
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build
public LinearSolver build(ExpressionsBasedModel model)
Description copied from interface:Optimisation.IntegrationAn integration must be able to instantiate a solver that can handle (any) model instance.
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isCapable
public boolean isCapable(ExpressionsBasedModel model)
- Returns:
- true if this solver (integration) can handle the input model
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toModelState
public Optimisation.Result toModelState(Optimisation.Result solverState, ExpressionsBasedModel model)
Description copied from interface:Optimisation.IntegrationConvert solver state to model state. Transforming the solution (set of variable values) is the main concern. Adjusting the objective function value (if needed) is best handled elsewhere, and is not required here.The required behaviour here depends on how
Optimisation.Integration.build(Optimisation.Model)is implemented, and is the reverse mapping ofOptimisation.Integration.toSolverState(Optimisation.Result, Optimisation.Model).- Specified by:
toModelStatein interfaceOptimisation.Integration<ExpressionsBasedModel,LinearSolver>- Overrides:
toModelStatein classExpressionsBasedModel.Integration<LinearSolver>
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toSolverState
public Optimisation.Result toSolverState(Optimisation.Result modelState, ExpressionsBasedModel model)
Description copied from interface:Optimisation.IntegrationConvert model state to solver state. Transforming the solution (set of variable values) is the main concern. Adjusting the objective function value (if needed) is best handled elsewhere, and is not required here.The required behaviour here depends on how
Optimisation.Integration.build(Optimisation.Model)is implemented, and is the reverse mapping ofOptimisation.Integration.toModelState(Result, Optimisation.Model).- Specified by:
toSolverStatein interfaceOptimisation.Integration<ExpressionsBasedModel,LinearSolver>- Overrides:
toSolverStatein classExpressionsBasedModel.Integration<LinearSolver>
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getIndexInSolver
protected int getIndexInSolver(ExpressionsBasedModel model, Variable variable)
- Overrides:
getIndexInSolverin classExpressionsBasedModel.Integration<LinearSolver>- Returns:
- The index with which one can reference parameters related to this variable in the solver.
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