Examples of com.barrybecker4.game.twoplayer.common.search.tree.NodeAttributes

Package com.barrybecker4.game.twoplayer.common.search.tree

Examples of com.barrybecker4.game.twoplayer.common.search.tree.NodeAttributes

com.barrybecker4.puzzle.tantrix.model.Tantrix
Represents a move/node in the game tree. Each SearchTreeNode contains a Move as its userObject. When showing the game tree graphically, these variables can take a lot of space since they are in every node in the tree. Still it is better to have them here than in the move structure so that when we are not in debug mode the space is not used. @author Barry Becker

            return BIG + getWinRate();
        }
    }


    public NodeAttributes getAttributes() {
        NodeAttributes attributes = new NodeAttributes();
        attributes.put("visits", Integer.toString(numVisits));
        attributes.put("wins", Float.toString(numWins));
        attributes.put("winRate", FormatUtil.formatNumber(getWinRate()));
        return attributes;
    }

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     * add a move to the visual game tree (if parent not null).
     * @return the node added to the tree.
     */
    protected SearchTreeNode addNodeToTree( SearchTreeNode parent, TwoPlayerMove theMove,
                                            SearchWindow window ) {
        NodeAttributes attributes = null;
        if (hasGameTree()) {
            attributes = NodeAttributes.createInnerNode(theMove, window);
        }
        return addNodeToTree(parent, theMove, attributes);
    }

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        ParameterArray initialGuess = new TantrixPath(board);
        assert(initialGuess.size() > 0) : "The random path should have some tiles!";
        long startTime = System.currentTimeMillis();


        Optimizer optimizer = new Optimizer(this);
        optimizer.setListener(this);


        ParameterArray solution =
            optimizer.doOptimization(strategy, initialGuess, SOLVED_THRESH);


        solution_ =
            new TantrixBoard(((TantrixPath)solution).getTilePlacements(), board.getPrimaryColor());


        TilePlacementList moves;

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     * @return list of moves to a solution.
     */
    @Override
    public TilePlacementList solve()  {


        ParameterArray initialGuess = new TantrixPath(board);
        assert(initialGuess.size() > 0) : "The random path should have some tiles!";
        long startTime = System.currentTimeMillis();


        Optimizer optimizer = new Optimizer(this);
        optimizer.setListener(this);


        ParameterArray solution =
            optimizer.doOptimization(strategy, initialGuess, SOLVED_THRESH);


        solution_ =
            new TantrixBoard(((TantrixPath)solution).getTilePlacements(), board.getPrimaryColor());

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     * Draw one of the tile paths which takes one of three forms.
     */
    public void drawPath(Graphics2D g2, int pathNumber, TilePlacement tilePlacement,
                         Point position, double size) {


        HexTile tile = tilePlacement.getTile();
        int pathStartIndex = getPathStartIndex(tile, pathNumber);


        int i = pathStartIndex + 1;


        PathColor pathColor = tile.getEdgeColor(pathStartIndex);
        while (pathColor != tile.getEdgeColor(i++)) {
            assert(i<6): "Should never exceed 6";
        }


        int pathEndIndex = i-1;
        int diff = pathEndIndex - pathStartIndex;

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        this.numTiles = numTiles;
    }


    public TantrixBoard initialPosition() {
        //MathUtil.RANDOM.setSeed(1);
        return new TantrixBoard(new HexTiles().createRandomList(numTiles));
    }

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    public boolean isGoal(TantrixBoard position) {
        return position.isSolved();
    }


    public TilePlacementList legalMoves(TantrixBoard position) {
        return new MoveGenerator(position).generateMoves();
    }

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        HexTile tile = tilePlacement.getTile();
        int pathStartIndex = getPathStartIndex(tile, pathNumber);


        int i = pathStartIndex + 1;


        PathColor pathColor = tile.getEdgeColor(pathStartIndex);
        while (pathColor != tile.getEdgeColor(i++)) {
            assert(i<6): "Should never exceed 6";
        }


        int pathEndIndex = i-1;

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     */
    private int getPathStartIndex(HexTile tile, int pathNumber) {
        Set<PathColor> set = new HashSet<PathColor>();
        int i = 0;
        do {
            PathColor c = tile.getEdgeColor(i++);
            set.add(c);
        } while (set.size() <= pathNumber);
        return i-1;
    }

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        boolean consistentLoop = isLoop && allFit;
        boolean perfectLoop = false;
        double compactness = determineCompactness(path);


        if (consistentLoop) {
            Tantrix tantrix = new Tantrix(path.getTilePlacements());
            InnerSpaceDetector innerDetector = new InnerSpaceDetector(tantrix);
            perfectLoop = !innerDetector.hasInnerSpaces();
            //System.out.println("perfect loop");
        }

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