Uses of Class edu.princeton.repeatedgames.rgsolve.RGIter

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Uses of Class
edu.princeton.repeatedgames.rgsolve.RGIter

Packages that use RGIter
edu.princeton.repeatedgames.rgsolve	Contains the core classes of the rgsolve package, including the solver class `RGSolve`, the solver settings `AlgoParameters`, and data structures like `RGSolution` for storing game solutions and algorithm information.
edu.princeton.repeatedgames.rgsolve.components	WARNING: These classes are undocumented - Contains classes defining the components used in the rgsolve GUI.

Uses of RGIter in edu.princeton.repeatedgames.rgsolve

Fields in edu.princeton.repeatedgames.rgsolve declared as RGIter
`private RGIter`	`RGSolve.RecursiveActionLoop.rg_iter` stores information on this iteration

Fields in edu.princeton.repeatedgames.rgsolve with type parameters of type RGIter
`java.util.ArrayList<RGIter>`	`RGSolution.iterList` A list of `RGIter` objects, each of which stores information on the algorithm's steps within an iteration

Methods in edu.princeton.repeatedgames.rgsolve with parameters of type RGIter
`GameExtremePoint[]`	`RGSolve.AbreuSannikovOperator(GameExtremePoint[] W, Point u, RGIter rg_iter)` This applies the Abreu-Sannikov (or APS) operator to a set.
`private java.util.ArrayList<GameExtremePoint>`	`RGSolve.generateSupportedPayoffs(int startAct, int endAct, GameExtremePoint[] W, Point u, RGIter rg_iter, int xmin_n, int xmin_s, int ymin_e, int ymin_w, int xmax_n, int xmax_s, int ymax_e, int ymax_w, double minXVal, double maxXVal, double minYVal, double maxYVal)` A helper method within the Abreu-Sannikov (or APS) operator for calculating potential extreme points supported by actions in the range `startAct` to `endAct`.

Methods in edu.princeton.repeatedgames.rgsolve with parameters of type RGIter

GameExtremePoint[] RGSolve.AbreuSannikovOperator(GameExtremePoint[] W, Point u, RGIter rg_iter)
This applies the Abreu-Sannikov (or APS) operator to a set.

private java.util.ArrayList<GameExtremePoint> RGSolve.generateSupportedPayoffs(int startAct, int endAct, GameExtremePoint[] W, Point u, RGIter rg_iter, int xmin_n, int xmin_s, int ymin_e, int ymin_w, int xmax_n, int xmax_s, int ymax_e, int ymax_w, double minXVal, double maxXVal, double minYVal, double maxYVal)
A helper method within the Abreu-Sannikov (or APS) operator for calculating potential extreme points supported by actions in the range startAct to endAct.

Constructors in edu.princeton.repeatedgames.rgsolve with parameters of type RGIter
`RGSolve.RecursiveActionLoop(int startAct, int endAct, GameExtremePoint[] W, Point u, RGIter rg_iter, int xmin_n, int xmin_s, int ymin_e, int ymin_w, int xmax_n, int xmax_s, int ymax_e, int ymax_w, double minXVal, double maxXVal, double minYVal, double maxYVal)` A helper method within the Abreu-Sannikov (or APS) operator for calculating potential extreme points supported by actions in the range `startAct` to `endAct`.

Constructors in edu.princeton.repeatedgames.rgsolve with parameters of type RGIter

RGSolve.RecursiveActionLoop(int startAct,
                            int endAct,
                            GameExtremePoint[] W,
                            Point u,
                            RGIter rg_iter,
                            int xmin_n,
                            int xmin_s,
                            int ymin_e,
                            int ymin_w,
                            int xmax_n,
                            int xmax_s,
                            int ymax_e,
                            int ymax_w,
                            double minXVal,
                            double maxXVal,
                            double minYVal,
                            double maxYVal)

A helper method within the Abreu-Sannikov (or APS) operator for calculating potential extreme points supported by actions in the range startAct to endAct.

Constructor parameters in edu.princeton.repeatedgames.rgsolve with type arguments of type RGIter
`RGSolution.RGSolutionUserRule(AlgoParameters.ALGO_TYPE algo_type, Point[] W0, GameExtremePoint[] V_star, Point punishment_star, int[] BR1, int[] BR2, int iters, long time_ms, boolean converged, double error, java.util.ArrayList<RGIter> iterList, int genPtsCount, boolean keptActions, AlgoParameters params, boolean fromInnerApproximation, GameCodeData gmcode)` Straightforward constructor; same as for `GameCodeData`, but it stores a `GameCodeData` object rather than a game.
`RGSolution(AlgoParameters.ALGO_TYPE algo_type, Point[] W0, GameExtremePoint[] V_star, Point punishment_star, Game game, int[] BR1, int[] BR2, int iters, long time_ms, boolean converged, double error, java.util.ArrayList<RGIter> iterList, int genPtsCount, boolean keptActions, boolean fromInnerApproximation, AlgoParameters params)` Default constructor for initializing fields of data structure

Constructor parameters in edu.princeton.repeatedgames.rgsolve with type arguments of type RGIter

RGSolution.RGSolutionUserRule(AlgoParameters.ALGO_TYPE algo_type,
                              Point[] W0,
                              GameExtremePoint[] V_star,
                              Point punishment_star,
                              int[] BR1,
                              int[] BR2,
                              int iters,
                              long time_ms,
                              boolean converged,
                              double error,
                              java.util.ArrayList<RGIter> iterList,
                              int genPtsCount,
                              boolean keptActions,
                              AlgoParameters params,
                              boolean fromInnerApproximation,
                              GameCodeData gmcode)

Straightforward constructor; same as for GameCodeData, but it stores a GameCodeData object rather than a game.

RGSolution(AlgoParameters.ALGO_TYPE algo_type,
           Point[] W0,
           GameExtremePoint[] V_star,
           Point punishment_star,
           Game game,
           int[] BR1,
           int[] BR2,
           int iters,
           long time_ms,
           boolean converged,
           double error,
           java.util.ArrayList<RGIter> iterList,
           int genPtsCount,
           boolean keptActions,
           boolean fromInnerApproximation,
           AlgoParameters params)

Default constructor for initializing fields of data structure

Uses of RGIter in edu.princeton.repeatedgames.rgsolve.components

Fields in edu.princeton.repeatedgames.rgsolve.components with type parameters of type RGIter
`(package private) java.util.ArrayList<RGIter>`	`SolutionGraph.iterList`