Examples of com.barrybecker4.game.twoplayer.common.ui.AbstractTwoPlayerBoardViewer

Package com.barrybecker4.game.twoplayer.common.ui

Examples of com.barrybecker4.game.twoplayer.common.ui.AbstractTwoPlayerBoardViewer

com.barrybecker4.puzzle.tantrix.model.Tantrix
This class contains a TwoPlayerController and displays the current state of the Game. The TwoPlayerController contains a Board which describes the game state. The game specific TwoPlayerController is created upon construction to be used internally. This class delegates to a boardRenderer to render the board and its pieces. There should be no references to swing classes outside this ui subpackage. This class sends a GameChangedEvent after each move in case there are other components (like the GameTreeViewer) that need to updated based on the new board state. Since the computer can take a long time to think about its move before playing it, that computation is handled asynchronously in a separate thread. The way it works is that the TwoPlayerBoardViewer requests the next move from the controller (controller.requestComputerMove(p1)). The controller spawns a new thread to actually do the search for the next best move. When the next best move has been found, the controller calls computerMoved on the viewer (using the TwoPlayerViewerCallbackInterface that it implements) to let it know that the move has been found. The instructions in the computerMoved method are called using SwingUtilities.invokeLater() so that they get executed on the event dispatch thread as soon as the event dispatch thread is not busy doing something else (like refreshing the visible board). A progress bar is used to show how close the computer is to playing its next move. The progressbar updates by polling the controller for its search progress. If you open the GameTreeDialog to see the game tree, there are buttons to pause, step through, and continue processing the search as it is happening. This class displays the game and takes input from the user. It passes the user's input to the TwoPlayerController, which in turn tells the GameViewer things such as whether the user's move was legal or not, and also tells the GameViewer what the computer's move is. @author Barry Becker

95 96 97 98 99 100 101 102 103 104 105 106 107 108 109 110 111 112             if ( m == null )                 return; // no node here             moveList.add( m );         }         AbstractTwoPlayerBoardViewer viewer = (AbstractTwoPlayerBoardViewer)boardViewer_;         if (SHOW_SUCCESSIVE_MOVES) {             // add expected successive moves to show likely outcome.             moveList = addSuccessiveMoves(moveList, lastNode);         }         GameContext.log(3, "chainlen before="+chainLength+" after="+moveList.size());         chainLength = moveList.size();         viewer.showMoveSequence( moveList, oldChainLength_, lastNode.getChildMoves() );         // remember the old chain magnitude so we know how much to back up next time         oldChainLength_ = chainLength;         // we should throw an event instead of have this dependency.

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57 58 59 60 61 62 63 64 65     }     @Override     protected GameTreeDialog createGameTreeDialog() {         AbstractTwoPlayerBoardViewer v =(AbstractTwoPlayerBoardViewer)createBoardViewer();         v.setViewOnly( true ); // we don't want it to receive click events         return new GameTreeDialog( null, v, new GoTreeCellRenderer());     }

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50 51 52 53 54 55 56 57 58 59 60 61 62 63 64         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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46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63      * @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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36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52      * 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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38 39 40 41 42 43 44         this.numTiles = numTiles;     }     public TantrixBoard initialPosition() {         //MathUtil.RANDOM.setSeed(1);         return new TantrixBoard(new HexTiles().createRandomList(numTiles));     }

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50 51 52 53 54 55 56     public boolean isGoal(TantrixBoard position) {         return position.isSolved();     }     public TilePlacementList legalMoves(TantrixBoard position) {         return new MoveGenerator(position).generateMoves();     }

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41 42 43 44 45 46 47 48 49 50 51         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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70 71 72 73 74 75 76 77 78 79      */     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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63 64 65 66 67 68 69 70 71 72 73         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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