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- package holeg.algorithm.binary;
- import holeg.api.AddOn;
- import holeg.model.AbstractCanvasObject;
- import holeg.model.GroupNode;
- import holeg.model.HolonElement;
- import holeg.model.HolonObject;
- import holeg.model.HolonSwitch;
- import holeg.model.HolonSwitch.SwitchMode;
- import holeg.model.HolonSwitch.SwitchState;
- import holeg.model.Model;
- import holeg.ui.controller.Control;
- import java.awt.BorderLayout;
- import java.awt.Component;
- import java.awt.Dimension;
- import java.awt.FlowLayout;
- import java.awt.image.BufferedImage;
- import java.util.ArrayList;
- import java.util.HashMap;
- import java.util.List;
- import java.util.Optional;
- import java.util.stream.Stream;
- import javax.swing.BorderFactory;
- import javax.swing.ImageIcon;
- import javax.swing.JButton;
- import javax.swing.JCheckBox;
- import javax.swing.JFrame;
- import javax.swing.JLabel;
- import javax.swing.JOptionPane;
- import javax.swing.JPanel;
- import javax.swing.JScrollPane;
- import javax.swing.JSplitPane;
- import javax.swing.JTextArea;
- public class BaseLine implements AddOn {
- //Parameter for Algo with default Values:
- private boolean closeSwitches = true;
- //Settings For GroupNode using and cancel
- private boolean useGroupNode = false;
- private Optional<GroupNode> groupNode = Optional.empty();
- private boolean cancel = false;
- //Parameter defined by Algo
- private HashMap<Integer, AccessWrapper> access;
- private List<Boolean> initialState;
- private List<HolonSwitch> switchList;
- private List<HolonObject> objectList;
- //Gui Part:
- private Control control;
- private JTextArea textArea;
- private JPanel content = new JPanel();
- //ProgressBar
- private long startTime;
- private Thread runThread;
- public BaseLine() {
- content.setLayout(new BorderLayout());
- textArea = new JTextArea();
- textArea.setEditable(false);
- JScrollPane scrollPane = new JScrollPane(textArea);
- JSplitPane splitPane = new JSplitPane(JSplitPane.VERTICAL_SPLIT,
- createOptionPanel(), scrollPane);
- splitPane.setResizeWeight(0.0);
- content.add(splitPane, BorderLayout.CENTER);
- content.setPreferredSize(new Dimension(800, 800));
- }
- public static void main(String[] args) {
- JFrame newFrame = new JFrame("exampleWindow");
- BaseLine instance = new BaseLine();
- newFrame.setContentPane(instance.getPanel());
- newFrame.pack();
- newFrame.setVisible(true);
- newFrame.setDefaultCloseOperation(JFrame.EXIT_ON_CLOSE);
- }
- public JPanel createOptionPanel() {
- JPanel optionPanel = new JPanel(new BorderLayout());
- JScrollPane scrollPane = new JScrollPane(createParameterPanel());
- scrollPane.setBorder(BorderFactory.createTitledBorder("Parameter"));
- optionPanel.add(scrollPane, BorderLayout.CENTER);
- optionPanel.add(createButtonPanel(), BorderLayout.PAGE_END);
- return optionPanel;
- }
- private Component createParameterPanel() {
- JPanel parameterPanel = new JPanel(null);
- parameterPanel.setPreferredSize(new Dimension(510, 300));
- JLabel showDiagnosticsLabel = new JLabel("Set all switches closed:");
- showDiagnosticsLabel.setBounds(200, 60, 170, 20);
- parameterPanel.add(showDiagnosticsLabel);
- JPanel borderPanel = new JPanel(null);
- borderPanel.setBounds(200, 85, 185, 50);
- borderPanel.setBorder(BorderFactory.createTitledBorder(""));
- parameterPanel.add(borderPanel);
- JLabel showGroupNodeLabel = new JLabel("Use Group Node:");
- showGroupNodeLabel.setBounds(10, 1, 170, 20);
- borderPanel.add(showGroupNodeLabel);
- JButton selectGroupNodeButton = new JButton("Select GroupNode");
- selectGroupNodeButton.setEnabled(false);
- selectGroupNodeButton.setBounds(10, 25, 165, 20);
- selectGroupNodeButton.addActionListener(actionEvent -> selectGroupNode());
- borderPanel.add(selectGroupNodeButton);
- JCheckBox useGroupNodeCheckBox = new JCheckBox();
- useGroupNodeCheckBox.setSelected(false);
- useGroupNodeCheckBox.setBounds(155, 1, 25, 20);
- useGroupNodeCheckBox.addActionListener(actionEvent -> {
- useGroupNode = useGroupNodeCheckBox.isSelected();
- selectGroupNodeButton.setEnabled(useGroupNode);
- });
- borderPanel.add(useGroupNodeCheckBox);
- JCheckBox switchesCheckBox = new JCheckBox();
- switchesCheckBox.setSelected(closeSwitches);
- switchesCheckBox.setBounds(370, 60, 25, 20);
- switchesCheckBox.addActionListener(
- actionEvent -> closeSwitches = switchesCheckBox.isSelected());
- parameterPanel.add(switchesCheckBox);
- return parameterPanel;
- }
- public JPanel createButtonPanel() {
- JPanel buttonPanel = new JPanel(new FlowLayout(FlowLayout.RIGHT));
- JButton cancelButton = new JButton("Cancel Run");
- cancelButton.addActionListener(actionEvent -> cancel());
- buttonPanel.add(cancelButton);
- JButton clearButton = new JButton("Clear Console");
- clearButton.addActionListener(actionEvent -> clear());
- buttonPanel.add(clearButton);
- JButton resetButton = new JButton("Reset");
- resetButton.setToolTipText("Resets the State to before the Algorithm has runed.");
- resetButton.addActionListener(actionEvent -> reset());
- buttonPanel.add(resetButton);
- JButton runButton = new JButton("Run");
- runButton.addActionListener(actionEvent -> {
- Runnable task = () -> run();
- runThread = new Thread(task);
- runThread.start();
- });
- buttonPanel.add(runButton);
- return buttonPanel;
- }
- private void cancel() {
- if (runThread.isAlive()) {
- println("");
- println("Cancel run.");
- cancel = true;
- } else {
- println("Nothing to cancel.");
- }
- }
- private void run() {
- cancel = false;
- disableGuiInput(true);
- startTimer();
- executeBaseLine();
- if (cancel) {
- reset();
- disableGuiInput(false);
- return;
- }
- printElapsedTime();
- disableGuiInput(false);
- }
- private void reset() {
- if (initialState != null) {
- println("Resetting..");
- resetState();
- updateVisual();
- } else {
- println("No run inistialized.");
- }
- }
- private void disableGuiInput(boolean bool) {
- control.guiSetEnabled(bool);
- }
- @Override
- public JPanel getPanel() {
- return content;
- }
- @Override
- public void setController(Control control) {
- this.control = control;
- }
- private void clear() {
- textArea.setText("");
- }
- private void println(String message) {
- textArea.append(message + "\n");
- }
- private void selectGroupNode() {
- Object[] possibilities = control.getModel().getCanvas().getAllGroupNodeObjectsRecursive()
- .toArray();
- GroupNode selected = (GroupNode) JOptionPane.showInputDialog(content, "Select GroupNode:",
- "GroupNode?", JOptionPane.OK_OPTION,
- new ImageIcon(new BufferedImage(1, 1, BufferedImage.TYPE_INT_ARGB)), possibilities, "");
- if (selected != null) {
- println("Selected: " + selected);
- groupNode = Optional.of(selected);
- }
- }
- private void startTimer() {
- startTime = System.currentTimeMillis();
- }
- private void printElapsedTime() {
- long elapsedMilliSeconds = System.currentTimeMillis() - startTime;
- println("Execution Time of Algo in Milliseconds:" + elapsedMilliSeconds);
- }
- //Algo Part:
- /**
- * The Execution of the BaseLine Algo.
- * <p>
- * <p>
- * Begin set HolonElements aktiv; for(All Networks) do if(not (production < consumption))
- * continue; inAktiveCount = 0; while(inAktiveCount <= consumerWihtMaxNumberElements) do conList =
- * createListWithConsumerThatHaveInActiveElementsAmountOf(inAktiveCount);
- * sortByBiggestElement(conList); for(con : conList) do for(element :
- * con.getAllActiveElementsSortByConsumption) do if(element <= production) do set element inAktiv;
- * continue; end do end do end do inAktiveCount += 1; end while end for End
- */
- private void executeBaseLine() {
- extractPositionAndAccess();
- if (closeSwitches) {
- setAllSwitchesClosed();
- }
- setHolonElemntsAktiv();
- control.calculateStateForCurrentIteration();
- // DecoratedState actualstate = control.getSimManager().getActualDecorState().get();
- // for(DecoratedNetwork net : actualstate.getNetworkList()) {
- // float production = net.getSupplierList().stream().map(supplier -> supplier.getEnergyToSupplyNetwork()).reduce(0.0f, (a, b) -> a + b);
- // float consumption = net.getConsumerList().stream().map(con -> con.getEnergyNeededFromNetwork()).reduce(0.0f, (a, b) -> a + b);
- // float difference = Math.abs(production - consumption);
- // println("production:" + production + " consumption:" + consumption);
- // if(!(production < consumption))continue;
- // if(net.getConsumerList().isEmpty() && net.getConsumerSelfSuppliedList().isEmpty())continue;
- // //Stream.concat(net.getConsumerList().stream(), net.getConsumerSelfSuppliedList().stream());
- // int consumerWihtMaxNumberElements = Stream.concat(net.getConsumerList().stream(), net.getConsumerSelfSuppliedList().stream()).map(con -> con.getModel().getNumberOfElements()).max((lhs,rhs) ->Integer.compare(lhs, rhs)).orElse(0);
- // println("consumerWihtMaxNumberElements:" + consumerWihtMaxNumberElements);
- // for(int inAktiveCount = 0;inAktiveCount <= consumerWihtMaxNumberElements; inAktiveCount++) {
- // println("inAktiveCount:" + inAktiveCount);
- // final int inAktiveCountFinal = inAktiveCount;
- // List<HolonObject> conList = Stream.concat(net.getConsumerList().stream(), net.getConsumerSelfSuppliedList().stream()).map(con -> con.getModel()).filter(object -> objectList.contains(object)).filter(object -> (object.getNumberOfInActiveElements() == inAktiveCountFinal)).collect(Collectors.toList());
- // conList.sort((a,b) -> Float.compare(a.getMaximumConsumingElementEnergy(), b.getMaximumConsumingElementEnergy()));
- // consumer:
- // for(HolonObject con: conList) {
- // //println("Consumer" + con);
- // List<HolonElement> sortedElementList = con.getElements().filter(ele -> ele.active && ele.isConsumer()).sorted((a,b) -> -Float.compare(-a.getActualEnergy(), -b.getActualEnergy())).collect(Collectors.toList());
- // for(HolonElement element: sortedElementList) {
- // float elementConsumption = -element.getActualEnergy();
- // if(elementConsumption <= difference) {
- // println("elementConsumption:" + elementConsumption);
- // difference -= elementConsumption;
- // element.active = false;
- // continue consumer;
- // }
- // }
- // }
- // }
- // }
- updateVisual();
- }
- private void setHolonElemntsAktiv() {
- for (int i = 0; i < access.size(); i++) {
- AccessWrapper aw = access.get(i);
- if (aw.getType() == AccessWrapper.HOLONELEMENT) {
- aw.setState(true);
- }
- }
- }
- private void setAllSwitchesClosed() {
- for (HolonSwitch hSwitch : switchList) {
- hSwitch.setMode(SwitchMode.Manual);
- hSwitch.setManualState(SwitchState.Closed);
- }
- }
- /**
- * Method to get the current Position alias a ListOf Booleans for aktive settings on the Objects
- * on the Canvas. Also initialize the Access Hashmap to swap faster positions.
- *
- * @return
- */
- private List<Boolean> extractPositionAndAccess() {
- Model model = control.getModel();
- switchList = new ArrayList<HolonSwitch>();
- objectList = new ArrayList<HolonObject>();
- initialState = new ArrayList<Boolean>();
- access = new HashMap<Integer, AccessWrapper>();
- rollOutNodes((useGroupNode && groupNode.isPresent()) ? groupNode.get().getObjectsInThisLayer()
- : model.getCanvas().getObjectsInThisLayer(), initialState, model.getCurrentIteration());
- return initialState;
- }
- /**
- * Method to extract the Informations recursively out of the Model.
- *
- * @param nodes
- * @param positionToInit
- * @param timeStep
- */
- private void rollOutNodes(Stream<AbstractCanvasObject> nodes, List<Boolean> positionToInit,
- int timeStep) {
- nodes.forEach(aCps -> {
- if (aCps instanceof HolonObject hO) {
- hO.elementsStream().forEach(hE -> {
- positionToInit.add(hE.active);
- access.put(positionToInit.size() - 1, new AccessWrapper(hE));
- });
- objectList.add(hO);
- } else if (aCps instanceof HolonSwitch sw) {
- positionToInit.add(sw.getState().isClosed());
- switchList.add(sw);
- access.put(positionToInit.size() - 1, new AccessWrapper(sw));
- } else if (aCps instanceof GroupNode groupnode) {
- rollOutGroupNode(groupnode, positionToInit, timeStep);
- }
- });
- }
- private void rollOutGroupNode(GroupNode groupNode, List<Boolean> positionToInit, int timeStep) {
- groupNode.getAllHolonObjectsRecursive().forEach(hObject -> {
- hObject.elementsStream().forEach(hE -> {
- positionToInit.add(hE.active);
- access.put(positionToInit.size() - 1, new AccessWrapper(hE));
- });
- objectList.add(hObject);
- });
- groupNode.getAllSwitchObjectsRecursive().forEach(sw -> {
- positionToInit.add(sw.getState().isClosed());
- switchList.add(sw);
- access.put(positionToInit.size() - 1, new AccessWrapper(sw));
- });
- }
- /**
- * To let the User See the current state without touching the Canvas.
- */
- private void updateVisual() {
- control.calculateStateForCurrentIteration();
- }
- /**
- * Sets the Model back to its original State before the LAST run.
- */
- private void resetState() {
- setState(initialState);
- }
- /**
- * Sets the State out of the given position for calculation or to show the user.
- *
- * @param position
- */
- private void setState(List<Boolean> position) {
- for (int i = 0; i < position.size(); i++) {
- access.get(i).setState(position.get(i));
- }
- }
- /**
- * A Wrapper Class for Access HolonElement and HolonSwitch in one Element and not have to split
- * the List.
- */
- private class AccessWrapper {
- public static final int HOLONELEMENT = 0;
- public static final int SWITCH = 1;
- private int type;
- private HolonSwitch hSwitch;
- private HolonElement hElement;
- public AccessWrapper(HolonSwitch hSwitch) {
- type = SWITCH;
- this.hSwitch = hSwitch;
- }
- public AccessWrapper(HolonElement hElement) {
- type = HOLONELEMENT;
- this.hElement = hElement;
- }
- public void setState(boolean state) {
- if (type == HOLONELEMENT) {
- hElement.active = state;
- } else {//is switch
- hSwitch.setMode(SwitchMode.Manual);
- hSwitch.setManualState(state ? SwitchState.Closed : SwitchState.Open);
- }
- }
- public int getType() {
- return type;
- }
- }
- }
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