public void buildPopulationBox() {
rebuilding = true;
populationBox.removeAll();
peopleList = new ArrayList<Object>();
famList = new ArrayList<Family>();
peopleList.addAll(ctxt.individualCensus);
String plur = (peopleList.size() == 1 ? "" : "s");
populationBox.setLayout(new BoxLayout(populationBox, BoxLayout.PAGE_AXIS));
populationBox.setBorder(
BorderFactory.createTitledBorder(
BorderFactory.createLineBorder(Color.blue), "Current Population"));
populationBox.setAlignmentX(0.5f);
populationBox.add(Box.createRigidArea(new Dimension(8, 0)));
indivLabel = new JLabel("Contains " + peopleList.size() + " Individual" + plur);
indivLabel.setAlignmentX(0.5f);
populationBox.add(indivLabel);
if (peopleList.size() > 0) {
JPanel indivBtnBox = new JPanel();
indivBtnBox.setLayout(new BoxLayout(indivBtnBox, BoxLayout.LINE_AXIS));
Dimension sizer2 = new Dimension(350, 50);
String[] indMenu = genIndMenu(peopleList);
indPick = new JComboBox(indMenu);
indPick.addActionListener(listener);
indPick.setActionCommand("view/edit person");
indPick.setMinimumSize(sizer2);
indPick.setMaximumSize(sizer2);
indPick.setBorder(
BorderFactory.createTitledBorder(
BorderFactory.createLineBorder(Color.blue), "View/Edit Person"));
indivBtnBox.add(indPick);
populationBox.add(indivBtnBox);
} // end of if-any-people-exist
famList.addAll(ctxt.familyCensus); // end of filtering deleted records
plur = (famList.size() == 1 ? "y" : "ies");
famLabel = new JLabel("Contains " + famList.size() + " Famil" + plur);
famLabel.setAlignmentX(0.5f);
populationBox.add(Box.createRigidArea(new Dimension(0, 4)));
populationBox.add(famLabel);
if (famList.size() > 0) {
JPanel famBtnBox = new JPanel();
famBtnBox.setLayout(new BoxLayout(famBtnBox, BoxLayout.LINE_AXIS));
Dimension sizer2 = new Dimension(350, 50);
String[] famMenu = genFamMenu(famList);
famPick = new JComboBox(famMenu);
famPick.addActionListener(listener);
famPick.setActionCommand("view/edit family");
famPick.setMinimumSize(sizer2);
famPick.setMaximumSize(sizer2);
famPick.setBorder(
BorderFactory.createTitledBorder(
BorderFactory.createLineBorder(Color.blue), "View/Edit Family"));
famBtnBox.add(famPick);
populationBox.add(famBtnBox);
} // end of if-any-families-exist
rebuilding = false;
} // end of method buildPopulationBox
/**
* getEquippedEnchantedCreatures.
*
* @param cards a {@link java.util.ArrayList} object.
* @return a {@link java.util.ArrayList} object.
*/
public static ArrayList<Card> getEquippedEnchantedCreatures(ArrayList<Card> cards) {
ArrayList<Card> ret = new ArrayList<Card>();
for (Card c : cards) {
if (c.isCreature() && (c.isEquipped() || c.isEnchanted())) {
if (c.isEquipped()) ret.addAll(c.getEquippedBy());
if (c.isEnchanted()) ret.addAll(c.getEnchantedBy());
ret.add(c);
}
}
return ret;
}
public static List<TreePath> collectExpandedPaths(final JTree tree, TreePath path) {
final ArrayList<TreePath> result = new ArrayList<TreePath>();
if (!tree.isExpanded(path)) return result;
final Object lastPathComponent = path.getLastPathComponent();
final TreeModel model = tree.getModel();
if (model.isLeaf(lastPathComponent)) {
result.add(path);
} else {
boolean pathWasAdded = false;
for (int i = model.getChildCount(lastPathComponent) - 1; i >= 0; i--) {
final TreePath childPath = path.pathByAddingChild(model.getChild(lastPathComponent, i));
if (model.isLeaf(lastPathComponent)) {
if (!pathWasAdded) {
result.add(path);
pathWasAdded = true;
}
} else if (tree.isExpanded(childPath)) {
result.addAll(collectExpandedPaths(tree, childPath));
} else {
if (!pathWasAdded) {
result.add(path);
pathWasAdded = true;
}
}
}
}
return result;
}
public static List<TreePath> collectExpandedPaths(@NotNull final JTree tree) {
final ArrayList<TreePath> result = new ArrayList<TreePath>();
final Object root = tree.getModel().getRoot();
final TreePath rootPath = new TreePath(root);
result.addAll(collectExpandedPaths(tree, rootPath));
return result;
}
private static List<XmlElementDescriptor> computeRequiredSubTags(XmlElementsGroup group) {
if (group.getMinOccurs() < 1) return Collections.emptyList();
switch (group.getGroupType()) {
case LEAF:
XmlElementDescriptor descriptor = group.getLeafDescriptor();
return descriptor == null
? Collections.<XmlElementDescriptor>emptyList()
: Collections.singletonList(descriptor);
case CHOICE:
LinkedHashSet<XmlElementDescriptor> set = null;
for (XmlElementsGroup subGroup : group.getSubGroups()) {
List<XmlElementDescriptor> descriptors = computeRequiredSubTags(subGroup);
if (set == null) {
set = new LinkedHashSet<XmlElementDescriptor>(descriptors);
} else {
set.retainAll(descriptors);
}
}
if (set == null || set.isEmpty()) {
return Collections.singletonList(null); // placeholder for smart completion
}
return new ArrayList<XmlElementDescriptor>(set);
default:
ArrayList<XmlElementDescriptor> list = new ArrayList<XmlElementDescriptor>();
for (XmlElementsGroup subGroup : group.getSubGroups()) {
list.addAll(computeRequiredSubTags(subGroup));
}
return list;
}
}
public List<SwitchTarget> getTargets(boolean onlyVisible) {
Collection<GridCellImpl> cells = myPlaceInGrid2Cell.values();
ArrayList<SwitchTarget> result = new ArrayList<SwitchTarget>();
for (GridCellImpl each : cells) {
result.addAll(each.getTargets(onlyVisible));
}
return result;
}
/**
* 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);
}
private Collection getLayersWithModifiedFeatureCollections() {
ArrayList layersWithModifiedFeatureCollections = new ArrayList();
for (Iterator i = getLayerManagers().iterator(); i.hasNext(); ) {
LayerManager layerManager = (LayerManager) i.next();
layersWithModifiedFeatureCollections.addAll(
layerManager.getLayersWithModifiedFeatureCollections());
}
return layersWithModifiedFeatureCollections;
}
/**
* getEnchantedLands.
*
* @param cards a {@link java.util.ArrayList} object.
* @return a {@link java.util.ArrayList} object.
*/
public static ArrayList<Card> getEnchantedLands(ArrayList<Card> cards) {
ArrayList<Card> ret = new ArrayList<Card>();
for (Card c : cards) {
if (c.isLand() && c.isEnchanted()) {
ret.addAll(c.getEnchantedBy());
ret.add(c);
}
}
return ret;
}
private VirtualFile[] getVirtualFileArray() {
ArrayList<VirtualFile> result = new ArrayList<VirtualFile>();
TreePath[] selectionPaths = myTree.getSelectionPaths();
if (selectionPaths != null) {
for (TreePath selectionPath : selectionPaths) {
AbstractTreeNode treeNode = (AbstractTreeNode) selectionPath.getLastPathComponent();
result.addAll(treeNode.getVirtualFiles());
}
}
return VfsUtil.toVirtualFileArray(result);
}
/**
* Executes 'git push' for the given roots to push. Returns the list of errors if there were any.
*/
private List<VcsException> executePushCommand(final Collection<Root> rootsToPush) {
final ArrayList<VcsException> errors = new ArrayList<VcsException>();
for (Root r : rootsToPush) {
GitLineHandler h = new GitLineHandler(myProject, r.root, GitCommand.PUSH);
String src = r.commitToPush != null ? r.commitToPush : r.currentBranch;
h.addParameters("-v", r.remoteName, src + ":" + r.remoteBranch);
GitPushUtils.trackPushRejectedAsError(
h, "Rejected push (" + r.root.getPresentableUrl() + "): ");
errors.addAll(GitHandlerUtil.doSynchronouslyWithExceptions(h));
}
return errors;
}
public Explorer() {
super(new DynamicNode(ROOT));
PropertiesSet preferences = PropertiesManager.getPreferencePropertiesSet();
if (preferences != null) {
preferences.addPrefixPropertyChangeListener(
DisplayToolTipsOptionGroup.class,
DisplayToolTipsOptionGroup.TOOLTIPS_FIELD_VISIBILITY_PREFIX,
new PreferencesListener());
Db.addDbListener(dbslistener);
tooltipsFields.addAll(Arrays.asList(DisplayToolTipsOptionGroup.getAvailableMetaFields()));
}
}
private static List<LookupElement> sortByPresentation(
Iterable<LookupElement> source, Lookup lookup) {
ArrayList<LookupElement> startMatches = ContainerUtil.newArrayList();
ArrayList<LookupElement> middleMatches = ContainerUtil.newArrayList();
for (LookupElement element : source) {
(CompletionServiceImpl.isStartMatch(element, lookup) ? startMatches : middleMatches)
.add(element);
}
ContainerUtil.sort(startMatches, BY_PRESENTATION_COMPARATOR);
ContainerUtil.sort(middleMatches, BY_PRESENTATION_COMPARATOR);
startMatches.addAll(middleMatches);
return startMatches;
}
@Nullable
private File[] getFileArray() {
ArrayList<File> result = new ArrayList<File>();
TreePath[] selectionPaths = myTree.getSelectionPaths();
if (selectionPaths != null) {
for (TreePath selectionPath : selectionPaths) {
AbstractTreeNode treeNode = (AbstractTreeNode) selectionPath.getLastPathComponent();
result.addAll(treeNode.getFiles());
}
}
if (result.isEmpty()) return null;
return result.toArray(new File[result.size()]);
}
protected void configureComboBoxModel() {
ArrayList modelValues = new ArrayList();
if (null == _value) {
modelValues.add(NULL_STRING);
} else {
modelValues.add(_value);
}
if (_value != null) {
modelValues.add(EDIT);
modelValues.add(REMOVE);
}
modelValues.addAll(getPossibleChoices());
_model.setContents(modelValues);
}
/**
* Returns the <code>Format.Field</code> constants associated with the text at <code>offset</code>
* . If <code>offset</code> is not a valid location into the current text, this will return an
* empty array.
*
* @param offset offset into text to be examined
* @return Format.Field constants associated with the text at the given position.
*/
public Format.Field[] getFields(int offset) {
if (getAllowsInvalid()) {
// This will work if the currently edited value is valid.
updateMask();
}
Map attrs = getAttributes(offset);
if (attrs != null && attrs.size() > 0) {
ArrayList al = new ArrayList();
al.addAll(attrs.keySet());
return (Format.Field[]) al.toArray(EMPTY_FIELD_ARRAY);
}
return EMPTY_FIELD_ARRAY;
}
@NotNull
protected ArrayList<AnAction> createActions(final boolean fromPopup) {
final ArrayList<AnAction> result = new ArrayList<AnAction>();
AbstractAddGroup addAction = createAddAction();
if (addAction != null) {
result.add(addAction);
}
result.add(new MyRemoveAction());
final List<? extends AnAction> copyActions = createCopyActions(fromPopup);
result.addAll(copyActions);
result.add(Separator.getInstance());
result.add(new MyFindUsagesAction(myTree));
return result;
}
public List<IdeaPluginDescriptor> getAllPlugins() {
final ArrayList<IdeaPluginDescriptor> list = new ArrayList<IdeaPluginDescriptor>();
list.addAll(view);
list.addAll(filtered);
return list;
}
private void createDescription(
StandardDataFlowRunner runner, ProblemsHolder holder, DataFlowInstructionVisitor visitor) {
Pair<Set<Instruction>, Set<Instruction>> constConditions =
runner.getConstConditionalExpressions();
Set<Instruction> trueSet = constConditions.getFirst();
Set<Instruction> falseSet = constConditions.getSecond();
ArrayList<Instruction> allProblems = new ArrayList<Instruction>();
allProblems.addAll(trueSet);
allProblems.addAll(falseSet);
allProblems.addAll(runner.getCCEInstructions());
allProblems.addAll(StandardDataFlowRunner.getRedundantInstanceofs(runner, visitor));
HashSet<PsiElement> reportedAnchors = new HashSet<PsiElement>();
for (PsiElement element : visitor.getProblems(NullabilityProblem.callNPE)) {
if (reportedAnchors.add(element)) {
reportCallMayProduceNpe(holder, (PsiMethodCallExpression) element, holder.isOnTheFly());
}
}
for (PsiElement element : visitor.getProblems(NullabilityProblem.fieldAccessNPE)) {
if (reportedAnchors.add(element)) {
PsiElement parent = element.getParent();
PsiElement fieldAccess =
parent instanceof PsiArrayAccessExpression || parent instanceof PsiReferenceExpression
? parent
: element;
reportFieldAccessMayProduceNpe(holder, element, (PsiExpression) fieldAccess);
}
}
for (Instruction instruction : allProblems) {
if (instruction instanceof TypeCastInstruction
&& reportedAnchors.add(
((TypeCastInstruction) instruction).getCastExpression().getCastType())) {
reportCastMayFail(holder, (TypeCastInstruction) instruction);
} else if (instruction instanceof BranchingInstruction) {
handleBranchingInstruction(
holder,
visitor,
trueSet,
falseSet,
reportedAnchors,
(BranchingInstruction) instruction);
}
}
reportNullableArguments(visitor, holder, reportedAnchors);
reportNullableAssignments(visitor, holder, reportedAnchors);
reportUnboxedNullables(visitor, holder, reportedAnchors);
if (!runner.isInNullableMethod()
&& runner.isInMethod()
&& (runner.isInNotNullMethod() || SUGGEST_NULLABLE_ANNOTATIONS)) {
reportNullableReturns(runner, visitor, holder, reportedAnchors);
}
if (SUGGEST_NULLABLE_ANNOTATIONS) {
reportNullableArgumentsPassedToNonAnnotated(visitor, holder, reportedAnchors);
}
if (REPORT_CONSTANT_REFERENCE_VALUES) {
reportConstantReferenceValues(holder, visitor, reportedAnchors);
}
}
/** Add the UI components for the given file sequence to the panel. */
private void addFileSeqPanel(FileSeq fseq) {
boolean isPresentInWorking = false;
if ((pStatus != null) && pStatus.hasLightDetails()) {
NodeDetailsLight details = pStatus.getLightDetails();
NodeMod mod = details.getWorkingVersion();
if (mod != null) {
if (mod.getPrimarySequence().equals(fseq)) isPresentInWorking = true;
else {
for (FileSeq sfseq : mod.getSecondarySequences()) {
if (sfseq.equals(fseq)) {
isPresentInWorking = true;
break;
}
}
}
}
}
/* collate the row information */
ArrayList<VersionID> vids = new ArrayList<VersionID>();
ArrayList<FileSeq> singles = new ArrayList<FileSeq>();
TreeSet<FileSeq> enabled = new TreeSet<FileSeq>();
TreeMap<FileSeq, FileState> fstates = new TreeMap<FileSeq, FileState>();
TreeMap<FileSeq, NativeFileInfo> finfos = new TreeMap<FileSeq, NativeFileInfo>();
TreeMap<FileSeq, QueueState> qstates = new TreeMap<FileSeq, QueueState>();
TreeMap<FileSeq, Boolean[]> novel = new TreeMap<FileSeq, Boolean[]>();
{
TreeMap<FileSeq, Integer> wsingles = new TreeMap<FileSeq, Integer>();
if ((pStatus != null) && pStatus.hasLightDetails()) {
if (isPresentInWorking) {
if (pStatus.hasHeavyDetails()) {
NodeDetailsHeavy details = pStatus.getHeavyDetails();
FileState[] fs = details.getFileStates(fseq);
QueueState[] qs = details.getQueueStates();
NativeFileInfo[] infos = details.getFileInfos(fseq);
if ((fs != null) && (qs != null) && (infos != null)) {
int wk;
for (wk = 0; wk < fs.length; wk++) {
FileSeq sfseq = new FileSeq(fseq, wk);
wsingles.put(sfseq, wk);
fstates.put(sfseq, fs[wk]);
finfos.put(sfseq, infos[wk]);
qstates.put(sfseq, qs[wk]);
if (fs[wk] != FileState.CheckedIn) enabled.add(sfseq);
}
}
} else {
NodeDetailsLight details = pStatus.getLightDetails();
int wk;
for (wk = 0; wk < fseq.numFrames(); wk++) {
FileSeq sfseq = new FileSeq(fseq, wk);
wsingles.put(sfseq, wk);
if (details.getVersionState() == VersionState.CheckedIn) {
fstates.put(sfseq, FileState.CheckedIn);
qstates.put(sfseq, QueueState.Undefined);
} else {
enabled.add(sfseq);
}
}
}
}
{
vids.addAll(pNovelty.keySet());
Collections.reverse(vids);
int idx = 0;
for (VersionID vid : vids) {
TreeMap<FileSeq, boolean[]> table = pNovelty.get(vid);
for (FileSeq nfseq : table.keySet()) {
if (fseq.similarTo(nfseq)) {
boolean[] flags = table.get(nfseq);
int wk;
for (wk = 0; wk < flags.length; wk++) {
FileSeq sfseq = new FileSeq(nfseq, wk);
if (!wsingles.containsKey(sfseq)) wsingles.put(sfseq, null);
Boolean[] rflags = novel.get(sfseq);
if (rflags == null) {
rflags = new Boolean[pNovelty.size()];
novel.put(sfseq, rflags);
}
rflags[idx] = new Boolean(flags[wk]);
}
break;
}
}
idx++;
}
}
}
TreeMap<Integer, FileSeq> order = new TreeMap<Integer, FileSeq>();
for (FileSeq sfseq : wsingles.keySet()) {
int frame = -1;
if (sfseq.hasFrameNumbers()) frame = sfseq.getFrameRange().getStart();
order.put(frame, sfseq);
}
singles.addAll(order.values());
}
/* add the panel */
{
JFileSeqPanel panel =
new JFileSeqPanel(
this,
pManagerPanel,
pStatus,
pPrivilegeDetails,
fseq,
vids,
pOffline,
singles,
fstates,
finfos,
qstates,
enabled,
novel,
pIsListLayout);
if (pIsListLayout) pFileSeqsBox.add(panel);
else pFileSeqsTab.addTab(fseq.getFilePattern().toString(), sTabIcon, panel);
pFileSeqPanels.put(fseq, panel);
}
}
public boolean avrdude(Collection p1, Collection p2) throws RunnerException {
ArrayList p = new ArrayList(p1);
p.addAll(p2);
return avrdude(p);
}
/* 연결선 추가 */
public void addLinks(ArrayList<Line> subLinks) {
links.addAll(subLinks);
}
private static ArrayList<CardDownloadData> getNeededCards(List<CardInfo> allCards) {
ArrayList<CardDownloadData> cardsToDownload = new ArrayList<>();
/** read all card names and urls */
ArrayList<CardDownloadData> allCardsUrls = new ArrayList<>();
HashSet<String> ignoreUrls = SettingsManager.getIntance().getIgnoreUrls();
/** get filter for Standard Type 2 cards */
Set<String> type2SetsFilter = new HashSet<String>();
type2SetsFilter.addAll(ConstructedFormats.getSetsByFormat(ConstructedFormats.STANDARD));
try {
offlineMode = true;
for (CardInfo card : allCards) {
if (card.getCardNumber() > 0
&& !card.getSetCode().isEmpty()
&& !ignoreUrls.contains(card.getSetCode())) {
String cardName = card.getName();
CardDownloadData url =
new CardDownloadData(
cardName,
card.getSetCode(),
card.getCardNumber(),
card.usesVariousArt(),
0,
"",
false,
card.isDoubleFaced(),
card.isNightCard());
if (url.getUsesVariousArt()) {
url.setDownloadName(createDownloadName(card));
}
url.setFlipCard(card.isFlipCard());
url.setSplitCard(card.isSplitCard());
if (type2SetsFilter.contains(card.getSetCode())) {
url.setType2(true);
}
allCardsUrls.add(url);
if (card.isDoubleFaced()) {
if (card.getSecondSideName() == null || card.getSecondSideName().trim().isEmpty()) {
throw new IllegalStateException("Second side card can't have empty name.");
}
url =
new CardDownloadData(
card.getSecondSideName(),
card.getSetCode(),
card.getCardNumber(),
card.usesVariousArt(),
0,
"",
false,
card.isDoubleFaced(),
true);
allCardsUrls.add(url);
}
if (card.isFlipCard()) {
if (card.getFlipCardName() == null || card.getFlipCardName().trim().isEmpty()) {
throw new IllegalStateException("Flipped card can't have empty name.");
}
url =
new CardDownloadData(
card.getFlipCardName(),
card.getSetCode(),
card.getCardNumber(),
card.usesVariousArt(),
0,
"",
false,
card.isDoubleFaced(),
card.isNightCard());
url.setFlipCard(true);
url.setFlippedSide(true);
allCardsUrls.add(url);
}
} else {
if (card.getCardNumber() < 1) {
System.err.println("There was a critical error!");
log.error("Card has no collector ID and won't be sent to client: " + card);
} else if (card.getSetCode().isEmpty()) {
System.err.println("There was a critical error!");
log.error("Card has no set name and won't be sent to client:" + card);
}
}
}
allCardsUrls.addAll(getTokenCardUrls());
} catch (Exception e) {
log.error(e);
}
TFile file;
/** check to see which cards we already have */
for (CardDownloadData card : allCardsUrls) {
file = new TFile(CardImageUtils.generateImagePath(card));
if (!file.exists()) {
cardsToDownload.add(card);
}
}
for (CardDownloadData card : cardsToDownload) {
if (card.isToken()) {
log.info("Card to download: " + card.getName() + " (Token) ");
} else {
try {
log.info("Card to download: " + card.getName() + " (" + card.getSet() + ")");
} catch (Exception e) {
log.error(e);
}
}
}
return cardsToDownload;
}
/**
* setupPanel.
*
* @param p a {@link javax.swing.JPanel} object.
* @param list a {@link java.util.ArrayList} object.
* @param stack a boolean.
*/
private static void setupPanel(JPanel p, ArrayList<Card> list, boolean stack) {
int maxY = 0;
int maxX = 0;
// remove all local enchantments
Card c;
/*
for(int i = 0; i < list.size(); i++)
{
c = (Card)list.get(i);
if(c.isLocalEnchantment())
list.remove(i);
}
//add local enchantments to the permanents
//put local enchantments "next to" the permanent they are enchanting
//the inner for loop is backward so permanents with more than one local enchantments are in the right order
Card ca[];
for(int i = 0; i < list.size(); i++)
{
c = (Card)list.get(i);
if(c.hasAttachedCards())
{
ca = c.getAttachedCards();
for(int inner = ca.length - 1; 0 <= inner; inner--)
list.add(i + 1, ca[inner]);
}
}
*/
if (stack) {
// add all Cards in list to the GUI, add arrows to Local Enchantments
ArrayList<Card> manaPools = getManaPools(list);
ArrayList<Card> enchantedLands = getEnchantedLands(list);
ArrayList<Card> basicBlues = getBasics(list, Constant.Color.Blue);
ArrayList<Card> basicReds = getBasics(list, Constant.Color.Red);
ArrayList<Card> basicBlacks = getBasics(list, Constant.Color.Black);
ArrayList<Card> basicGreens = getBasics(list, Constant.Color.Green);
ArrayList<Card> basicWhites = getBasics(list, Constant.Color.White);
ArrayList<Card> badlands = getNonBasicLand(list, "Badlands");
ArrayList<Card> bayou = getNonBasicLand(list, "Bayou");
ArrayList<Card> plateau = getNonBasicLand(list, "Plateau");
ArrayList<Card> scrubland = getNonBasicLand(list, "Scrubland");
ArrayList<Card> savannah = getNonBasicLand(list, "Savannah");
ArrayList<Card> taiga = getNonBasicLand(list, "Taiga");
ArrayList<Card> tropicalIsland = getNonBasicLand(list, "Tropical Island");
ArrayList<Card> tundra = getNonBasicLand(list, "Tundra");
ArrayList<Card> undergroundSea = getNonBasicLand(list, "Underground Sea");
ArrayList<Card> volcanicIsland = getNonBasicLand(list, "Volcanic Island");
ArrayList<Card> nonBasics = getNonBasics(list);
ArrayList<Card> moxEmerald = getMoxen(list, "Mox Emerald");
ArrayList<Card> moxJet = getMoxen(list, "Mox Jet");
ArrayList<Card> moxPearl = getMoxen(list, "Mox Pearl");
ArrayList<Card> moxRuby = getMoxen(list, "Mox Ruby");
ArrayList<Card> moxSapphire = getMoxen(list, "Mox Sapphire");
// ArrayList<Card> moxDiamond = getMoxen(list, "Mox Diamond");
list = new ArrayList<Card>();
list.addAll(manaPools);
list.addAll(enchantedLands);
list.addAll(basicBlues);
list.addAll(basicReds);
list.addAll(basicBlacks);
list.addAll(basicGreens);
list.addAll(basicWhites);
list.addAll(badlands);
list.addAll(bayou);
list.addAll(plateau);
list.addAll(scrubland);
list.addAll(savannah);
list.addAll(taiga);
list.addAll(tropicalIsland);
list.addAll(tundra);
list.addAll(undergroundSea);
list.addAll(volcanicIsland);
list.addAll(nonBasics);
list.addAll(moxEmerald);
list.addAll(moxJet);
list.addAll(moxPearl);
list.addAll(moxRuby);
list.addAll(moxSapphire);
// list.addAll(moxDiamond);
int atInStack = 0;
int marginX = 5;
int marginY = 5;
int x = marginX;
int cardOffset = Constant.Runtime.stackOffset[0];
String color = "";
ArrayList<JPanel> cards = new ArrayList<JPanel>();
ArrayList<CardPanel> connectedCards = new ArrayList<CardPanel>();
boolean nextEnchanted = false;
Card prevCard = null;
int nextXIfNotStacked = 0;
for (int i = 0; i < list.size(); i++) {
JPanel addPanel;
c = list.get(i);
addPanel = new CardPanel(c);
boolean startANewStack = false;
if (!isStackable(c)) {
startANewStack = true;
} else {
String newColor = c.getName(); // CardUtil.getColor(c);
if (!newColor.equals(color)) {
startANewStack = true;
color = newColor;
}
}
if (i == 0) {
startANewStack = false;
}
if (!startANewStack && atInStack == Constant.Runtime.stackSize[0]) {
startANewStack = true;
}
if (c.isAura() && c.isEnchanting() && !nextEnchanted) startANewStack = false;
else if (c.isAura() && c.isEnchanting()) {
startANewStack = true;
nextEnchanted = false;
}
if (c.isLand() && c.isEnchanted()) {
startANewStack = false;
nextEnchanted = true;
}
// very hacky, but this is to ensure enchantment stacking occurs correctly when a land is
// enchanted, and there are more lands of that same name
else if ((prevCard != null
&& c.isLand()
&& prevCard.isLand()
&& prevCard.isEnchanted()
&& prevCard.getName().equals(c.getName()))) startANewStack = true;
else if (prevCard != null
&& c.isLand()
&& prevCard.isLand()
&& !prevCard.getName().equals(c.getName())) startANewStack = true;
/*
if (c.getName().equals("Squirrel Nest")) {
startANewStack = true;
System.out.println("startANewStack: " + startANewStack);
}
*/
if (c.isAura() && c.isEnchanting() && prevCard != null && prevCard instanceof ManaPool)
startANewStack = true;
if (c instanceof ManaPool && prevCard instanceof ManaPool && prevCard.isSnow())
startANewStack = false;
if (startANewStack) {
setupConnectedCards(connectedCards);
connectedCards.clear();
// Fixed distance if last was a stack, looks a bit nicer
if (atInStack > 1) {
x +=
Math.max(addPanel.getPreferredSize().width, addPanel.getPreferredSize().height)
+ marginX;
} else {
x = nextXIfNotStacked;
}
atInStack = 0;
} else {
if (i != 0) {
x += cardOffset;
}
}
nextXIfNotStacked = x + marginX + addPanel.getPreferredSize().width;
int xLoc = x;
int yLoc = marginY;
yLoc += atInStack * cardOffset;
addPanel.setLocation(new Point(xLoc, yLoc));
addPanel.setSize(addPanel.getPreferredSize());
cards.add(addPanel);
connectedCards.add((CardPanel) addPanel);
atInStack++;
prevCard = c;
}
setupConnectedCards(connectedCards);
connectedCards.clear();
for (int i = cards.size() - 1; i >= 0; i--) {
JPanel card = cards.get(i);
// maxX = Math.max(maxX, card.getLocation().x + card.getSize().width + marginX);
maxY = Math.max(maxY, card.getLocation().y + card.getSize().height + marginY);
p.add(card);
}
maxX = nextXIfNotStacked;
// System.out.println("x:" + maxX + ", y:" + maxY);
if (maxX > 0 && maxY > 0) { // p.getSize().width || maxY > p.getSize().height) {
// p.setSize(new Dimension(maxX, maxY));
p.setPreferredSize(new Dimension(maxX, maxY));
}
} else {
// add all Cards in list to the GUI, add arrows to Local Enchantments
JPanel addPanel;
for (int i = 0; i < list.size(); i++) {
c = list.get(i);
/*if(c.isLocalEnchantment())
addPanel = getCardPanel(c, "<< " +c.getName());
else
addPanel = getCardPanel(c);
*/
addPanel = new CardPanel(c);
p.add(addPanel);
}
}
} // setupPanel()
/**
* setupNoLandPermPanel.
*
* @param p a {@link javax.swing.JPanel} object.
* @param list a {@link java.util.ArrayList} object.
* @param stack a boolean.
*/
private static void setupNoLandPermPanel(JPanel p, ArrayList<Card> list, boolean stack) {
int maxY = 0;
int maxX = 0;
Card c;
if (stack) {
// add all Cards in list to the GUI, add arrows to Local Enchantments
ArrayList<Card> planeswalkers = getPlaneswalkers(list);
ArrayList<Card> equippedEnchantedCreatures =
getEquippedEnchantedCreatures(
list); // this will also fetch the equipment and/or enchantment
ArrayList<Card> nonTokenCreatures = getNonTokenCreatures(list);
ArrayList<Card> tokenCreatures = getTokenCreatures(list);
// sort tokenCreatures by name (TODO: fix the warning message somehow)
Collections.sort(
tokenCreatures,
new Comparator<Card>() {
public int compare(Card c1, Card c2) {
return c1.getName().compareTo(c2.getName());
}
});
ArrayList<Card> artifacts = getNonCreatureArtifacts(list);
ArrayList<Card> enchantments = getGlobalEnchantments(list);
// ArrayList<Card> nonBasics = getNonBasics(list);
list = new ArrayList<Card>();
list.addAll(planeswalkers);
list.addAll(equippedEnchantedCreatures);
list.addAll(nonTokenCreatures);
list.addAll(tokenCreatures);
list.addAll(artifacts);
list.addAll(enchantments);
int atInStack = 0;
int marginX = 5;
int marginY = 5;
int x = marginX;
int cardOffset = Constant.Runtime.stackOffset[0];
String color = "";
ArrayList<JPanel> cards = new ArrayList<JPanel>();
ArrayList<CardPanel> connectedCards = new ArrayList<CardPanel>();
boolean nextEquippedEnchanted = false;
int nextXIfNotStacked = 0;
Card prevCard = null;
for (int i = 0; i < list.size(); i++) {
JPanel addPanel;
c = list.get(i);
addPanel = new CardPanel(c);
boolean startANewStack = false;
if (!isStackable(c)) {
startANewStack = true;
} else {
String newColor = c.getName(); // CardUtil.getColor(c);
if (!newColor.equals(color)) {
startANewStack = true;
color = newColor;
}
}
if (i == 0) {
startANewStack = false;
}
if (!startANewStack && atInStack == Constant.Runtime.stackSize[0]) {
startANewStack = true;
}
if ((c.isEquipment() || c.isAura())
&& (c.isEquipping() || c.isEnchanting())
&& !nextEquippedEnchanted) startANewStack = false;
else if ((c.isEquipment() || c.isAura()) && (c.isEquipping() || c.isEnchanting())) {
startANewStack = true;
nextEquippedEnchanted = false;
}
if (c.isCreature() && (c.isEquipped() || c.isEnchanted())) {
startANewStack = false;
nextEquippedEnchanted = true;
}
// very hacky, but this is to ensure equipment stacking occurs correctly when a token is
// equipped/enchanted, and there are more tokens of that same name
else if ((prevCard != null
&& c.isCreature()
&& prevCard.isCreature()
&& (prevCard.isEquipped() || prevCard.isEnchanted())
&& prevCard.getName().equals(c.getName()))) startANewStack = true;
else if (prevCard != null
&& c.isCreature()
&& prevCard.isCreature()
&& !prevCard.getName().equals(c.getName())) startANewStack = true;
if (((c.isAura() && c.isEnchanting()) || (c.isEquipment() && c.isEquipping()))
&& prevCard != null
&& prevCard.isPlaneswalker()) startANewStack = true;
if (startANewStack) {
setupConnectedCards(connectedCards);
connectedCards.clear();
// Fixed distance if last was a stack, looks a bit nicer
if (atInStack > 1) {
x +=
Math.max(addPanel.getPreferredSize().width, addPanel.getPreferredSize().height)
+ marginX;
} else {
x = nextXIfNotStacked;
}
atInStack = 0;
} else {
if (i != 0) {
x += cardOffset;
}
}
nextXIfNotStacked = x + marginX + addPanel.getPreferredSize().width;
int xLoc = x;
int yLoc = marginY;
yLoc += atInStack * cardOffset;
addPanel.setLocation(new Point(xLoc, yLoc));
addPanel.setSize(addPanel.getPreferredSize());
cards.add(addPanel);
connectedCards.add((CardPanel) addPanel);
atInStack++;
prevCard = c;
}
setupConnectedCards(connectedCards);
connectedCards.clear();
for (int i = cards.size() - 1; i >= 0; i--) {
JPanel card = cards.get(i);
// maxX = Math.max(maxX, card.getLocation().x + card.getSize().width + marginX);
maxY = Math.max(maxY, card.getLocation().y + card.getSize().height + marginY);
p.add(card);
}
maxX = nextXIfNotStacked;
if (maxX > 0 && maxY > 0) { // p.getSize().width || maxY > p.getSize().height) {
p.setPreferredSize(new Dimension(maxX, maxY));
}
} else {
JPanel addPanel;
for (int i = 0; i < list.size(); i++) {
c = list.get(i);
addPanel = new CardPanel(c);
p.add(addPanel);
}
}
} // setupPanel()
public LabFrame() throws HeadlessException {
super(title);
JPanel pnl, pnl1;
data = new LabData();
alRootEntities.addAll(data.findRootEntities());
JMenuBar mb = new JMenuBar();
for (MenuElement e : menus) {
mb.add(e.getItem());
}
setJMenuBar(mb);
splMain = new JSplitPane();
getContentPane().add(splMain);
desktop = new JDesktopPane();
desktop.setPreferredSize(new Dimension(400, 200));
splMain.setRightComponent(desktop);
lmEntities = new EntityListModel();
lstEntities = new JList(lmEntities);
lstEntities.getSelectionModel().addListSelectionListener(lmEntities);
lstEntities.addMouseListener(dblClickListener);
JScrollPane scpList = new JScrollPane(lstEntities);
pnl = new JPanel(new BorderLayout(4, 4));
pnl.add(scpList, BorderLayout.CENTER);
pnl1 = new JPanel(null);
pnl1.setLayout(new BoxLayout(pnl1, BoxLayout.X_AXIS));
pnl1.add(Box.createHorizontalGlue());
pnl1.add(new JButton(actNewEntity));
pnl1.add(Box.createHorizontalGlue());
pnl1.add(new JButton(actDelEntity));
pnl1.add(Box.createHorizontalGlue());
pnl.add(pnl1, BorderLayout.SOUTH);
splMain.setLeftComponent(pnl);
il =
new InternalFrameAdapter() {
@Override
public void internalFrameClosed(InternalFrameEvent e) {
Object sel = ((EntityFrame) e.getInternalFrame()).content;
mapEntityFrames.remove(sel);
}
@Override
public void internalFrameActivated(InternalFrameEvent e) {
setTitle(title + " - " + e.getInternalFrame().getTitle());
Object sel = ((EntityFrame) e.getInternalFrame()).content;
lstEntities.setSelectedValue(sel, true);
}
};
pack();
setDefaultCloseOperation(JFrame.EXIT_ON_CLOSE);
setVisible(true);
updateState();
}
