Uses of Class
net.sf.cpsolver.ifs.model.Model

Packages that use Model
net.sf.cpsolver.coursett.constraint University Course Timetabling: Constraints. 
net.sf.cpsolver.exam.model Examination Timetabling: Model. 
net.sf.cpsolver.ifs.constant Extension of the model with constant variables. 
net.sf.cpsolver.ifs.criteria IFS Criteria. 
net.sf.cpsolver.ifs.example.csp Random Binary CSP with uniform distribution. 
net.sf.cpsolver.ifs.example.jobshop JobShop Problem. 
net.sf.cpsolver.ifs.example.rpp Random Placement Problem. 
net.sf.cpsolver.ifs.example.tt Simple Timetabling Problem. 
net.sf.cpsolver.ifs.extension IFS Extensions (conflict-based statistics, maintenance of arc consistency) 
net.sf.cpsolver.ifs.model IFS Model (description of a problem) 
net.sf.cpsolver.ifs.perturbations Minimal Perturbation Problem: counting of perturbations 
net.sf.cpsolver.ifs.solution IFS Solution (also contains solution comparator) 
net.sf.cpsolver.ifs.solver IFS Solver 
net.sf.cpsolver.studentsct Student Sectioning Solver. 
 

Uses of Model in net.sf.cpsolver.coursett.constraint
 

Methods in net.sf.cpsolver.coursett.constraint with parameters of type Model
 void GroupConstraint.setModel(Model<Lecture,Placement> model)
           
 

Uses of Model in net.sf.cpsolver.exam.model
 

Subclasses of Model in net.sf.cpsolver.exam.model
 class ExamModel
          Examination timetabling model.
 

Constructors in net.sf.cpsolver.exam.model with parameters of type Model
ExamRoomSharing(Model<Exam,ExamPlacement> model, DataProperties config)
           
PredefinedExamRoomSharing(Model<Exam,ExamPlacement> model, DataProperties config)
           
SimpleExamRoomSharing(Model<Exam,ExamPlacement> model, DataProperties config)
           
 

Uses of Model in net.sf.cpsolver.ifs.constant
 

Subclasses of Model in net.sf.cpsolver.ifs.constant
 class ConstantModel<V extends Variable<V,T>,T extends Value<V,T>>
          Extension of the model with constant variables.
 

Uses of Model in net.sf.cpsolver.ifs.criteria
 

Methods in net.sf.cpsolver.ifs.criteria that return Model
 Model<V,T> AbstractCriterion.getModel()
          Returns current model
 

Uses of Model in net.sf.cpsolver.ifs.example.csp
 

Subclasses of Model in net.sf.cpsolver.ifs.example.csp
 class CSPModel
          Random Binary CSP with uniform distribution.
 class StructuredCSPModel
          Random Binary CSP with kernels.
 

Uses of Model in net.sf.cpsolver.ifs.example.jobshop
 

Subclasses of Model in net.sf.cpsolver.ifs.example.jobshop
 class JobShopModel
          Job Shop model.
 

Uses of Model in net.sf.cpsolver.ifs.example.rpp
 

Subclasses of Model in net.sf.cpsolver.ifs.example.rpp
 class RPPModel
          RPP model.
 

Uses of Model in net.sf.cpsolver.ifs.example.tt
 

Subclasses of Model in net.sf.cpsolver.ifs.example.tt
 class TimetableModel
          Simple Timetabling Problem.
 

Methods in net.sf.cpsolver.ifs.example.tt with parameters of type Model
 void Resource.setModel(Model<Activity,Location> model)
           
 

Uses of Model in net.sf.cpsolver.ifs.extension
 

Methods in net.sf.cpsolver.ifs.extension that return Model
 Model<V,T> Extension.getModel()
          Returns the model
 

Methods in net.sf.cpsolver.ifs.extension with parameters of type Model
 void SearchIntensification.register(Model<V,T> model)
           
 void Extension.register(Model<V,T> model)
          Registration of a model.
 void ConflictStatistics.register(Model<V,T> model)
           
 void SearchIntensification.unregister(Model<V,T> model)
           
 void Extension.unregister(Model<V,T> model)
          Unregistration of a model.
 void ConflictStatistics.unregister(Model<V,T> model)
           
 

Uses of Model in net.sf.cpsolver.ifs.model
 

Methods in net.sf.cpsolver.ifs.model that return Model
 Model<V,T> Variable.getModel()
          Model, the variable belong to
 Model<V,T> LazySwap.getModel()
          Return problem model
abstract  Model<V,T> LazyNeighbour.getModel()
          Return problem model (it is needed in order to be able to get overall solution value before and after the assignment of this neighbour)
 Model<V,T> Constraint.getModel()
          The model which the constraint belongs to
 

Methods in net.sf.cpsolver.ifs.model with parameters of type Model
 void Variable.setModel(Model<V,T> model)
          Set the model to which the variable belongs to
 void Constraint.setModel(Model<V,T> model)
          Sets the model which the constraint belongs to
 

Uses of Model in net.sf.cpsolver.ifs.perturbations
 

Methods in net.sf.cpsolver.ifs.perturbations with parameters of type Model
 void PerturbationsCounter.getInfo(Map<String,String> info, Model<V,T> model)
          Some (perturbation) information about the solution might be returned here.
 void DefaultPerturbationsCounter.getInfo(Map<String,String> info, Model<V,T> model)
           
 void PerturbationsCounter.getInfo(Map<String,String> info, Model<V,T> model, Collection<V> variables)
          Some (perturbation) information about the solution might be returned here (only include variables from the given set).
 void DefaultPerturbationsCounter.getInfo(Map<String,String> info, Model<V,T> model, Collection<V> variables)
           
 double PerturbationsCounter.getPerturbationPenalty(Model<V,T> model)
          Returns perturbation penalty, i.e., the distance between current solution and the solution of the initial problem (see Variable.getInitialAssignment()).
 double DefaultPerturbationsCounter.getPerturbationPenalty(Model<V,T> model)
           
 double PerturbationsCounter.getPerturbationPenalty(Model<V,T> model, Collection<V> variables)
          Returns perturbation penalty, i.e., the distance between current solution and the solution of the initial (only include variables from the given set) problem (see Variable.getInitialAssignment()).
 double DefaultPerturbationsCounter.getPerturbationPenalty(Model<V,T> model, Collection<V> variables)
           
 double PerturbationsCounter.getPerturbationPenalty(Model<V,T> model, T selectedValue, Collection<T> conflicts)
          Returns perturbation penalty of the solution which become from the current solution when given conflicting values are unassigned and the selected value is assigned.
 double DefaultPerturbationsCounter.getPerturbationPenalty(Model<V,T> model, T selectedValue, Collection<T> conflicts)
           
 

Uses of Model in net.sf.cpsolver.ifs.solution
 

Methods in net.sf.cpsolver.ifs.solution that return Model
 Model<V,T> Solution.getModel()
          The model associated with the solution
 

Constructors in net.sf.cpsolver.ifs.solution with parameters of type Model
Solution(Model<V,T> model)
          Constructor
Solution(Model<V,T> model, long iteration, double time)
          Constructor
 

Uses of Model in net.sf.cpsolver.ifs.solver
 

Methods in net.sf.cpsolver.ifs.solver with parameters of type Model
 void Solver.setInitalSolution(Model<V,T> model)
          Sets initial solution
 

Uses of Model in net.sf.cpsolver.studentsct
 

Subclasses of Model in net.sf.cpsolver.studentsct
 class StudentSctBBTest
          Online student sectioning test (using BranchBoundSelection selection).
 class StudentSectioningModel
          Student sectioning model.
 



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