public void paintComponent(Graphics g) { super.paintComponent(g); Graphics2D g2 = (Graphics2D) g; currentX = leftMargin; currentY = topMargin; // Draw the links for (int i = 0; i < linkLines.length; i++) { if (weights[i].isActive()) { g2.setPaint(weights[i].getColor()); g2.draw(linkLines[i]); } } g2.setPaint(Color.black); // Draw the input neurons g2.drawString("Inputs", (float) currentX, (float) currentY); currentY += titleSpace; for (int i = 0; i < genome.getInputs(); i++) { g2.drawImage(inputNeuron, (int) currentX, (int) currentY, null); currentY += space; } // Draw the hidden Neurons currentX += space; currentY = topMargin; g2.drawString("Hidden Layers", (float) currentX, (float) currentY); for (int i = 0; i < genome.getHiddenLayers(); i++) { currentY = topMargin + titleSpace; for (int j = 0; j < genome.getNeuronsInHiddenLayer(); j++) { g2.drawImage(hiddenNeuron, (int) currentX, (int) currentY, null); currentY += space; } currentX += space; } // Draw the output neurons currentY = topMargin; g2.drawString("Outputs", (float) currentX, (float) currentY); currentY += titleSpace; for (int i = 0; i < genome.getOutputs(); i++) { g2.drawImage(outputNeuron, (int) currentX, (int) currentY, null); currentY += space; } // Draw the links for (int i = 0; i < linkLines.length; i++) { if (weights[i].isActive()) { g2.setPaint(weights[i].getColor()); g2.draw(linkLines[i]); } } }
/** * Creates a new NetworkFrame * * @param _t The title of the diagram * @param _g The genome of the network * @param _w The weights of the network */ public NetworkFrame(String _t, Genome _g, Link[] _w) { setTitle(_t); int width = 175 + _g.getHiddenLayers() * 82; int height = 100 + _g.getNeuronsInHiddenLayer() * 78; setSize(width, height); setDefaultCloseOperation(JFrame.EXIT_ON_CLOSE); NetworkPanel panel = new NetworkPanel(_g, _w); Container contentPane = getContentPane(); contentPane.add(panel); }
/** * Creates a new NetworkPanel * * @param _g The genome of the network * @param _w The weights of the network */ public NetworkPanel(Genome _g, Link[] _w) { setBackground(Color.white); genome = _g; weights = _w; // Tracker for the images tracker.addImage(inputNeuron, 0); tracker.addImage(hiddenNeuron, 1); tracker.addImage(outputNeuron, 2); try { tracker.waitForAll(); } catch (InterruptedException e) { } // Create the lines for the links between the layers // The array of lines is actually complete (as for a fully connected network) // The loop in paintComponent decideds whether to draw the line or not. linkLines = new Line2D.Double[weights.length]; int counter = 0; double fromX = leftMargin + inW; double fromY = topMargin + titleSpace + iconHeight / 2.0; double toX = leftMargin + space; double toY = fromY; // Create the lines for the links between the first hidden layer and the input layer for (int i = 0; i < genome.getNeuronsInHiddenLayer(); i++) // Loop through the neurons in 1st hidden layer { fromY = topMargin + titleSpace + iconHeight / 2.0; for (int j = 0; j < genome.getInputs(); j++) // Loop through the neurons in the input layer { linkLines[counter] = new Line2D.Double(fromX, fromY, toX, toY); fromY += space; counter++; } toY += space; } // Create the lines for the links between the hidden layers fromX += space; fromY = topMargin + titleSpace + iconHeight / 2.0; toX = fromX + space - hW; toY = fromY; for (int i = 0; i < genome.getHiddenLayers() - 1; i++) // Loop across the hidden layers { fromY = topMargin + titleSpace + iconHeight / 2.0; toY = fromY; for (int j = 0; j < genome.getNeuronsInHiddenLayer(); j++) // Loop down the 'to' hidden layer { fromY = topMargin + titleSpace + iconHeight / 2.0; for (int k = 0; k < genome.getNeuronsInHiddenLayer(); k++) // Loop down the 'from' hidden layer { linkLines[counter] = new Line2D.Double(fromX, fromY, toX, toY); fromY += space; counter++; } toY += space; } fromX += space; toX = fromX + space - hW; } // Create the lines for the links between the output layer and the final hidden layer fromX = leftMargin + space * genome.getHiddenLayers() + hW; fromY = topMargin + titleSpace + iconHeight / 2.0; toX = leftMargin + space * (genome.getHiddenLayers() + 1); toY = fromY; for (int i = 0; i < genome.getOutputs(); i++) // Loop through the outputs { fromY = topMargin + titleSpace + 14.0; for (int j = 0; j < genome.getNeuronsInHiddenLayer(); j++) // Loop through the neurons in the final hidden layer { linkLines[counter] = new Line2D.Double(fromX, fromY, toX, toY); fromY += space; counter++; } toY += space; } }