public void parseInput(String file, int threads, int limit) throws FileNotFoundException, InterruptedException { // long startParseTime = System.currentTimeMillis(); m_jgAdapter = new JGraphModelAdapter<Position, DefaultEdge>(graph); jgraph = new JGraph(m_jgAdapter); this.threads = threads; Scanner input = new Scanner(new File(file)); try { for (int r = 0; input.hasNextLine() && r < limit; r++) { Scanner line = new Scanner(input.nextLine()); try { ArrayList<Position> row = new ArrayList<Position>(); grid.add(row); System.out.println("Row " + r); for (int c = 0; line.hasNextInt() && c < limit; c++) { Position position = new Position(r, c, line.nextInt()); row.add(position); graph.addVertex(position); positionVertexAt(position, position.column * 5, position.row * 5); } } finally { line.close(); } } } finally { input.close(); } graphGrid(grid); // ArrayList<ArrayList<Position>> grid2 = transpose(grid); // outputGrid(grid2); }
/** . */ public void testDirectedGraph() { ListenableDirectedGraph<String, DefaultEdge> g = new ListenableDirectedGraph<String, DefaultEdge>(DefaultEdge.class); g.addVertex(V1); g.addVertex(V2); g.addVertex(V3); g.addEdge(V1, V2); ConnectivityInspector<String, DefaultEdge> inspector = new ConnectivityInspector<String, DefaultEdge>(g); g.addGraphListener(inspector); assertEquals(false, inspector.isGraphConnected()); g.addEdge(V1, V3); assertEquals(true, inspector.isGraphConnected()); }
private void findEdges(int startRow, int endRow) { int gridSize = grid.size(); int sizeOfArrays = grid.get(0).size(); for (int i = startRow; i < endRow; i++) { for (int j = 0; j < sizeOfArrays; j++) { Position currentPosition = grid.get(i).get(j); int current = currentPosition.value; int min = current; Position minP = currentPosition; if (i - 1 >= 0) { Position north = grid.get(i - 1).get(j); if (north.value < min) { min = north.value; minP = north; } } if (i - 1 >= 0 && j - 1 >= 0) { Position northWest = grid.get(i - 1).get(j - 1); if (northWest.value < min) { min = northWest.value; minP = northWest; } } if (j - 1 >= 0) { Position west = grid.get(i).get(j - 1); if (west.value < min) { min = west.value; minP = west; } } if (i + 1 < gridSize && j - 1 >= 0) { Position southWest = grid.get(i + 1).get(j - 1); if (southWest.value < min) { min = southWest.value; minP = southWest; } } if (i + 1 < gridSize) { Position south = grid.get(i + 1).get(j); if (south.value < min) { min = south.value; minP = south; } } if (i + 1 < gridSize && j + 1 < sizeOfArrays) { Position southEast = grid.get(i + 1).get(j + 1); if (southEast.value < min) { min = southEast.value; minP = southEast; } } if (j + 1 < sizeOfArrays) { Position east = grid.get(i).get(j + 1); if (east.value < min) { min = east.value; minP = east; } } if (i - 1 >= 0 && j + 1 < sizeOfArrays) { Position northEast = grid.get(i - 1).get(j + 1); if (northEast.value < min) { min = northEast.value; minP = northEast; } } if (currentPosition.equals(minP)) { } else { synchronized (graph) { graph.addEdge(currentPosition, minP); } } } } }