@Override public Object findElement(String s) { List<ObjectWithWeight> elements = new ArrayList<ObjectWithWeight>(); s = s.trim(); final ListIterator<Object> it = getElementIterator(0); while (it.hasNext()) { final ObjectWithWeight o = new ObjectWithWeight(it.next(), s, getComparator()); if (!o.weights.isEmpty()) { elements.add(o); } } ObjectWithWeight cur = null; ArrayList<ObjectWithWeight> current = new ArrayList<ObjectWithWeight>(); for (ObjectWithWeight element : elements) { if (cur == null) { cur = element; current.add(cur); continue; } final int i = element.compareWith(cur); if (i == 0) { current.add(element); } else if (i < 0) { cur = element; current.clear(); current.add(cur); } } return current.isEmpty() ? null : findClosestTo(myInitialPsiElement, current); }
public GElementFAState getState(String name) { ListIterator e = elements.listIterator(); while (e.hasNext()) { GElement element = (GElement) e.next(); if (element.getClass().equals(GElementFAState.class)) { GElementFAState state = (GElementFAState) element; if (state.state.name.equals(name)) return state; } } return null; }
public GLink getTransition(FATransition transition) { ListIterator e = elements.listIterator(); while (e.hasNext()) { GElement element = (GElement) e.next(); if (element.getClass().equals(GLink.class)) { GLink link = (GLink) element; if (getState1(link).state.name.equals(transition.s1) && getState2(link).state.name.equals(transition.s2) && Tool.symbolsInPattern(link.pattern).contains(transition.symbol)) { return link; } } } return null; }
public void removeState(GElementFAState s) { machine.removeState(s.state); removeElement(s); // Remove any other link which is using the state s ListIterator e = elements.listIterator(); while (e.hasNext()) { GElement element = (GElement) e.next(); if (element.getClass().equals(GLink.class)) { GLink link = (GLink) element; if (link.source == s || link.target == s) { removeElement(link); e = elements.listIterator(); } } } }
/** * paintComponent schreibt alle Laendernamen an die entsprechende Stelle der Landkarte * (Hintergrundgrafik) und zeichnet die Laendergrenzen auf der Landkarte nach. * * @param g Zeichenflaeche der Landkarte */ public void paintComponent(Graphics g) { Shape shape; Graphics2D g2d = (Graphics2D) g; g2d.drawImage(img, 0, 0, this.getWidth(), this.getHeight(), this); Font myFont = new Font("Times New Roman", Font.BOLD, 12); g2d.setFont(myFont); g2d.setStroke(new BasicStroke(2.0f)); Territory territory; Color color; ListIterator territories = worldMap.getTerritories().listIterator(); while (territories.hasNext()) { territory = (Territory) territories.next(); if (territory.getOwner() != null) { color = territory.getOwner().getPlayerColor(); } else { color = Color.WHITE; } g2d.setColor(color); g2d.drawString( territory.getName(), (int) territory.getMidpoint().getX() - 15, (int) territory.getMidpoint().getY() - 10); g2d.drawString( new Integer(territory.getArmySize()).toString(), (int) territory.getMidpoint().getX(), (int) territory.getMidpoint().getY()); } if (territoryBattle.size() != 0) { for (int j = 0; j < territoryBattle.size(); j++) { g2d.setColor(territoryBattle.get(j).getOwner().getPlayerColor()); // g2d.fillPolygon(territoryTmp.getFrontiers()); Sieht bei unseren Grenzen nicht huebsch // aus g2d.drawPolygon(territoryBattle.get(j).getFrontiers()); } } repaint(); }
/** * Outputs filled with points listOfPointsToBeConnected. Finds the point with the lowest Y - that * will be the first point of the broken line. If It finds several points with equal Ys - makes a * line from the most left (lowest X) point to the most right point, then connects this point with * next point with the lowest Y from the remaining set. The last point of the broken line will be * the point with the highest Y, or if there will be several points with the highest Y - the point * with the highest X from this set. */ void connectPoints() { ArrayList<MyPoint> pointsInOneRow = new ArrayList<MyPoint>(); // will store points with equal Ys. MyPoint currentPoint, nextPoint; ListIterator<MyPoint> itr; while (randomListOfPoints.size() > 0) { pointsInOneRow.clear(); // clear the pointsInOneRow. itr = randomListOfPoints.listIterator(); // initialize list iterator and place it before the first element in the randomListOfPoints. currentPoint = itr.next(); // the first element from the randomListOfPoints. itr.remove(); // delete the first element from the randomListOfPoints. if (itr.hasNext()) { // if it's not the end of the randomListOfPoints. nextPoint = itr.next(); // the second element from the randomListOfPoints. } else { // the point not from the range of possible Xs and Ys, so we can be sure that its' Y won't // be equal to the currentPoints'. nextPoint = new MyPoint(-1, -1); } pointsInOneRow.add( currentPoint); // add current point to a list of points, that lies on one line. // if the currentPoint and the nextPoint are on the same line, that is parallel to the X axis. while (currentPoint.getY() == nextPoint.getY()) { pointsInOneRow.add( nextPoint); // add the nextPoint to a list of points, that lies on one line. itr.remove(); // delete the second element from the randomListOfPoints . currentPoint = nextPoint; // the currentPoint equals to the nextPoint now. if (itr.hasNext()) { // if it's not the end of the randomListOfPoints. nextPoint = itr.next(); // the second element from the randomListOfPoints. } else { // the point not from the range of possible Xs and Ys, so we can be sure that its' Y won't // be equal to the currentPoints'. nextPoint = new MyPoint(-1, -1); } } Collections.sort( pointsInOneRow, new XcoordSorterComparator()); // sort the pointsInOneRow by X /* add all elements from the pointsInOneRow to the end of the listOfPointsToBeConnected. * If the listOfPointsToBeConnected.size == 0 - the first element from the pointsInOneRow will be the start * of the broken line, if the listOfPointsToBeConnected.size != 0 - the first element from the * pointsInOneRow will be connected with the last element from the listOfPointsToBeConnected*/ listOfPointsToBeConnected.addAll(listOfPointsToBeConnected.size(), pointsInOneRow); } System.out.println("\n\nList of connected points:\n" + listOfPointsToBeConnected); }
public void reconstruct() { elements.clear(); List stateNames = machine.getStateList(); ListIterator iterator = stateNames.listIterator(stateNames.size()); int x = 0; int y = 0; while (iterator.hasPrevious()) { addElement(new GElementFAState((FAState) iterator.previous(), 100 + x * 200, 50 + y * 200)); x++; if (x > 4) { y++; x = 0; } } List transitions = machine.getTransitions().getTransitions(); iterator = transitions.listIterator(); while (iterator.hasNext()) { FATransition transition = (FATransition) iterator.next(); GElementFAState s1 = getState(transition.s1); GElementFAState s2 = s1; if (transition.s1.equals(transition.s2) == false) s2 = getState(transition.s2); GLink link = getLink(s1, s2); if (link == null) addElement( new GLink( s1, GElementFAState.ANCHOR_CENTER, s2, GElementFAState.ANCHOR_CENTER, GLink.SHAPE_ARC, transition.symbol, 20)); else link.pattern = Tool.addSymbolToPattern(link.pattern, transition.symbol); } }
public void paint(Graphics g) { // do normal painting first super.paint(g); // draw polys ListIterator<Polygon> II = poly_draw.listIterator(0); ListIterator<Color> CC = poly_draw_color.listIterator(0); while (II.hasNext()) { Polygon P = II.next(); Color C = CC.next(); g.setColor(C); g.drawPolygon(P); } // fill polys II = poly_fill.listIterator(0); CC = poly_fill_color.listIterator(0); while (II.hasNext()) { Polygon P = II.next(); Color C = CC.next(); g.setColor(C); g.fillPolygon(P); } }
private List<TemplatesGroup> fillTemplatesMap(WizardContext context) { List<ModuleBuilder> builders = ModuleBuilder.getAllBuilders(); if (context.isCreatingNewProject()) { builders.add(new EmptyModuleBuilder()); } Map<String, TemplatesGroup> groupMap = new HashMap<String, TemplatesGroup>(); for (ModuleBuilder builder : builders) { BuilderBasedTemplate template = new BuilderBasedTemplate(builder); if (builder.isTemplate()) { TemplatesGroup group = groupMap.get(builder.getGroupName()); if (group == null) { group = new TemplatesGroup(builder); } myTemplatesMap.putValue(group, template); } else { TemplatesGroup group = new TemplatesGroup(builder); groupMap.put(group.getName(), group); myTemplatesMap.put(group, new ArrayList<ProjectTemplate>()); } } MultiMap<TemplatesGroup, ProjectTemplate> map = CreateFromTemplateMode.getTemplatesMap(context); myTemplatesMap.putAllValues(map); for (ProjectCategory category : ProjectCategory.EXTENSION_POINT_NAME.getExtensions()) { TemplatesGroup group = new TemplatesGroup(category); myTemplatesMap.remove(group); myTemplatesMap.put(group, new ArrayList<ProjectTemplate>()); } if (context.isCreatingNewProject()) { MultiMap<String, ProjectTemplate> localTemplates = loadLocalTemplates(); for (TemplatesGroup group : myTemplatesMap.keySet()) { myTemplatesMap.putValues(group, localTemplates.get(group.getId())); } } // remove Static Web group in IDEA Community if no specific templates found (IDEA-120593) if (PlatformUtils.isIdeaCommunity()) { for (TemplatesGroup group : myTemplatesMap.keySet()) { if (WebModuleTypeBase.WEB_MODULE.equals(group.getId()) && myTemplatesMap.get(group).isEmpty()) { myTemplatesMap.remove(group); break; } } } List<TemplatesGroup> groups = new ArrayList<TemplatesGroup>(myTemplatesMap.keySet()); // sorting by module type popularity final MultiMap<ModuleType, TemplatesGroup> moduleTypes = new MultiMap<ModuleType, TemplatesGroup>(); for (TemplatesGroup group : groups) { ModuleType type = getModuleType(group); moduleTypes.putValue(type, group); } Collections.sort( groups, new Comparator<TemplatesGroup>() { @Override public int compare(TemplatesGroup o1, TemplatesGroup o2) { int i = o2.getWeight() - o1.getWeight(); if (i != 0) return i; int i1 = moduleTypes.get(getModuleType(o2)).size() - moduleTypes.get(getModuleType(o1)).size(); if (i1 != 0) return i1; return o1.compareTo(o2); } }); Set<String> groupNames = ContainerUtil.map2Set( groups, new Function<TemplatesGroup, String>() { @Override public String fun(TemplatesGroup group) { return group.getParentGroup(); } }); // move subgroups MultiMap<String, TemplatesGroup> subGroups = new MultiMap<String, TemplatesGroup>(); for (ListIterator<TemplatesGroup> iterator = groups.listIterator(); iterator.hasNext(); ) { TemplatesGroup group = iterator.next(); String parentGroup = group.getParentGroup(); if (parentGroup != null && groupNames.contains(parentGroup) && !group.getName().equals(parentGroup) && groupMap.containsKey(parentGroup)) { subGroups.putValue(parentGroup, group); iterator.remove(); } } for (ListIterator<TemplatesGroup> iterator = groups.listIterator(); iterator.hasNext(); ) { TemplatesGroup group = iterator.next(); for (TemplatesGroup subGroup : subGroups.get(group.getName())) { iterator.add(subGroup); } } return groups; }
private void calculateValueLists() { sequenceValues = new ArrayList<>(); timelineValues = new ArrayList<>(); final Object selectedSequenceColumn = this.sequenceColumnChooser.getSelectedItem(); if (!(selectedSequenceColumn instanceof ManyValuedAttribute)) { return; } final ManyValuedAttribute sequenceAttribute = (ManyValuedAttribute) selectedSequenceColumn; final ManyValuedAttribute timelineAttribute = (ManyValuedAttribute) timelineColumnChooser.getSelectedItem(); for (final FCAElement object : this.context.getObjects()) { Value value = this.context.getRelationship(object, sequenceAttribute); if (!sequenceValues.contains(value) && value != null) { boolean inserted = false; final ListIterator<Value> seqIt = sequenceValues.listIterator(); while (seqIt.hasNext()) { final Value curValue = seqIt.next(); if (value.isLesserThan(curValue)) { if (seqIt.hasPrevious()) { seqIt.previous(); } seqIt.add(value); inserted = true; break; } } if (!inserted) { seqIt.add(value); } } value = this.context.getRelationship(object, timelineAttribute); if (!timelineValues.contains(value) && value != null) { boolean inserted = false; final ListIterator<Value> tlIt = timelineValues.listIterator(); while (tlIt.hasNext()) { final Value curValue = tlIt.next(); if (curValue != null && value.isLesserThan(curValue)) { if (tlIt.hasPrevious()) { tlIt.previous(); } tlIt.add(value); inserted = true; break; } } if (!inserted) { tlIt.add(value); } } } }