public void restore(BreakpointTree tree) {
final List<TreePath> pathsToExpand = getPaths(tree, myExpandedUserObjects);
if (!pathsToExpand.isEmpty()) {
TreeUtil.restoreExpandedPaths(tree, pathsToExpand);
}
final List<TreePath> pathsToSelect = getPaths(tree, mySelectedUserObjects);
if (!pathsToSelect.isEmpty()) {
tree.getSelectionModel().clearSelection();
tree.setSelectionPaths(pathsToSelect.toArray(new TreePath[pathsToSelect.size()]));
}
}
protected void download() {
List<AppUpdate> updates = getUpdatesList();
updates.addAll(_installs);
if (!updates.isEmpty()) {
_downloads = getDownloadList(updates);
_deletions = getDeletionList(updates);
if (!_downloads.isEmpty()) {
getProgressPanel().setText("Downloading files...");
download(updates); // download & verify updated/new files
} else if (!_deletions.isEmpty()) {
setState(State.StopEngine); // skip download & verify
}
} else setState(State.Finalise);
}
@Nullable
public static TextRange findNext(
@NotNull Editor editor,
@NotNull String pattern,
final int offset,
boolean ignoreCase,
final boolean forwards) {
final List<TextRange> results =
findAll(editor, pattern, 0, -1, shouldIgnoreCase(pattern, ignoreCase));
if (results.isEmpty()) {
return null;
}
final int size = EditorHelper.getFileSize(editor);
final TextRange max =
Collections.max(
results,
new Comparator<TextRange>() {
@Override
public int compare(TextRange r1, TextRange r2) {
final int d1 = distance(r1, offset, forwards, size);
final int d2 = distance(r2, offset, forwards, size);
if (d1 < 0 && d2 >= 0) {
return Integer.MAX_VALUE;
}
return d2 - d1;
}
});
if (!Options.getInstance().isSet("wrapscan")) {
final int start = max.getStartOffset();
if (forwards && start < offset || start >= offset) {
return null;
}
}
return max;
}
@NotNull
private XmlAttribute[] calculateAttributes(final Map<String, String> attributesValueMap) {
final List<XmlAttribute> result = new ArrayList<XmlAttribute>(10);
processChildren(
new PsiElementProcessor() {
public boolean execute(@NotNull PsiElement element) {
if (element instanceof XmlAttribute) {
XmlAttribute attribute = (XmlAttribute) element;
result.add(attribute);
cacheOneAttributeValue(attribute.getName(), attribute.getValue(), attributesValueMap);
myHaveNamespaceDeclarations =
myHaveNamespaceDeclarations || attribute.isNamespaceDeclaration();
} else if (element instanceof XmlToken
&& ((XmlToken) element).getTokenType() == XmlTokenType.XML_TAG_END) {
return false;
}
return true;
}
});
if (result.isEmpty()) {
return XmlAttribute.EMPTY_ARRAY;
} else {
return ContainerUtil.toArray(result, new XmlAttribute[result.size()]);
}
}
@Nullable
private ProblemDescriptor[] checkMember(
final PsiDocCommentOwner docCommentOwner,
final InspectionManager manager,
final boolean isOnTheFly) {
final ArrayList<ProblemDescriptor> problems = new ArrayList<ProblemDescriptor>();
final PsiDocComment docComment = docCommentOwner.getDocComment();
if (docComment == null) return null;
final Set<PsiJavaCodeReferenceElement> references = new HashSet<PsiJavaCodeReferenceElement>();
docComment.accept(getVisitor(references, docCommentOwner, problems, manager, isOnTheFly));
for (PsiJavaCodeReferenceElement reference : references) {
final List<PsiClass> classesToImport = new ImportClassFix(reference).getClassesToImport();
final PsiElement referenceNameElement = reference.getReferenceNameElement();
problems.add(
manager.createProblemDescriptor(
referenceNameElement != null ? referenceNameElement : reference,
cannotResolveSymbolMessage("<code>" + reference.getText() + "</code>"),
!isOnTheFly || classesToImport.isEmpty() ? null : new AddImportFix(classesToImport),
ProblemHighlightType.LIKE_UNKNOWN_SYMBOL,
isOnTheFly));
}
return problems.isEmpty() ? null : problems.toArray(new ProblemDescriptor[problems.size()]);
}
public String getAttributeValue(String _name, String namespace) {
if (namespace == null) {
return getAttributeValue(_name);
}
XmlTagImpl current = this;
PsiElement parent = getParent();
while (current != null) {
BidirectionalMap<String, String> map = current.initNamespaceMaps(parent);
if (map != null) {
List<String> keysByValue = map.getKeysByValue(namespace);
if (keysByValue != null && !keysByValue.isEmpty()) {
for (String prefix : keysByValue) {
if (prefix != null && prefix.length() > 0) {
final String value = getAttributeValue(prefix + ":" + _name);
if (value != null) return value;
}
}
}
}
current = parent instanceof XmlTag ? (XmlTagImpl) parent : null;
parent = parent.getParent();
}
if (namespace.length() == 0 || getNamespace().equals(namespace)) {
return getAttributeValue(_name);
}
return null;
}
@Override
public void compileAndRun(
@NotNull final Runnable startRunnable,
@NotNull final ExecutionEnvironment environment,
@Nullable final RunProfileState state,
@Nullable final Runnable onCancelRunnable) {
long id = environment.getExecutionId();
if (id == 0) {
id = environment.assignNewExecutionId();
}
RunProfile profile = environment.getRunProfile();
if (!(profile instanceof RunConfiguration)) {
startRunnable.run();
return;
}
final RunConfiguration runConfiguration = (RunConfiguration) profile;
final List<BeforeRunTask> beforeRunTasks =
RunManagerEx.getInstanceEx(myProject).getBeforeRunTasks(runConfiguration);
if (beforeRunTasks.isEmpty()) {
startRunnable.run();
} else {
DataContext context = environment.getDataContext();
final DataContext projectContext =
context != null ? context : SimpleDataContext.getProjectContext(myProject);
final long finalId = id;
final Long executionSessionId = new Long(id);
ApplicationManager.getApplication()
.executeOnPooledThread(
() -> {
for (BeforeRunTask task : beforeRunTasks) {
if (myProject.isDisposed()) {
return;
}
@SuppressWarnings("unchecked")
BeforeRunTaskProvider<BeforeRunTask> provider =
BeforeRunTaskProvider.getProvider(myProject, task.getProviderId());
if (provider == null) {
LOG.warn(
"Cannot find BeforeRunTaskProvider for id='" + task.getProviderId() + "'");
continue;
}
ExecutionEnvironment taskEnvironment =
new ExecutionEnvironmentBuilder(environment).contentToReuse(null).build();
taskEnvironment.setExecutionId(finalId);
EXECUTION_SESSION_ID_KEY.set(taskEnvironment, executionSessionId);
if (!provider.executeTask(
projectContext, runConfiguration, taskEnvironment, task)) {
if (onCancelRunnable != null) {
SwingUtilities.invokeLater(onCancelRunnable);
}
return;
}
}
doRun(environment, startRunnable);
});
}
}
@NotNull
public static String toKeyNotation(@NotNull List<KeyStroke> keys) {
if (keys.isEmpty()) {
return "<Nop>";
}
final StringBuilder builder = new StringBuilder();
for (KeyStroke key : keys) {
builder.append(toKeyNotation(key));
}
return builder.toString();
}
private void setupExternals() {
List<String> externalFiles =
Globals.prefs.getStringList(JabRefPreferences.EXTERNAL_JOURNAL_LISTS);
if (externalFiles.isEmpty()) {
ExternalFileEntry efe = new ExternalFileEntry();
externals.add(efe);
} else {
for (String externalFile : externalFiles) {
ExternalFileEntry efe = new ExternalFileEntry(externalFile);
externals.add(efe);
}
}
}
@Nullable
private static SearchScope getSelectedFilesScope(
final Project project, @Nullable DataContext dataContext) {
final VirtualFile[] filesOrDirs =
dataContext == null ? null : CommonDataKeys.VIRTUAL_FILE_ARRAY.getData(dataContext);
if (filesOrDirs != null) {
final List<VirtualFile> selectedFiles =
ContainerUtil.filter(filesOrDirs, file -> !file.isDirectory());
if (!selectedFiles.isEmpty()) {
return GlobalSearchScope.filesScope(project, selectedFiles, "Selected Files");
}
}
return null;
}
public String getPrefixByNamespace(String namespace) {
final PsiElement parent = getParent();
BidirectionalMap<String, String> map = initNamespaceMaps(parent);
if (map != null) {
List<String> keysByValue = map.getKeysByValue(namespace);
final String ns = keysByValue == null || keysByValue.isEmpty() ? null : keysByValue.get(0);
if (ns != null) return ns;
}
if (parent instanceof XmlTag) return ((XmlTag) parent).getPrefixByNamespace(namespace);
// The prefix 'xml' is by definition bound to the namespace name
// http://www.w3.org/XML/1998/namespace. It MAY, but need not, be declared
if (XmlUtil.XML_NAMESPACE_URI.equals(namespace)) return XML_NS_PREFIX;
return null;
}
public void enableBreakpoints(final DebugProcessImpl debugProcess) {
final List<Breakpoint> breakpoints = getBreakpoints();
if (!breakpoints.isEmpty()) {
for (Breakpoint breakpoint : breakpoints) {
breakpoint.markVerified(false); // clean cached state
breakpoint.createRequest(debugProcess);
}
SwingUtilities.invokeLater(
new Runnable() {
@Override
public void run() {
updateBreakpointsUI();
}
});
}
}
// interaction with RequestManagerImpl
public void disableBreakpoints(@NotNull final DebugProcessImpl debugProcess) {
final List<Breakpoint> breakpoints = getBreakpoints();
if (!breakpoints.isEmpty()) {
final RequestManagerImpl requestManager = debugProcess.getRequestsManager();
for (Breakpoint breakpoint : breakpoints) {
breakpoint.markVerified(requestManager.isVerified(breakpoint));
requestManager.deleteRequest(breakpoint);
}
SwingUtilities.invokeLater(
new Runnable() {
@Override
public void run() {
updateBreakpointsUI();
}
});
}
}
private static int getItemToSelect(
LookupImpl lookup,
List<LookupElement> items,
boolean onExplicitAction,
@Nullable LookupElement mostRelevant) {
if (items.isEmpty() || lookup.getFocusDegree() == LookupImpl.FocusDegree.UNFOCUSED) {
return 0;
}
if (lookup.isSelectionTouched() || !onExplicitAction) {
final LookupElement lastSelection = lookup.getCurrentItem();
int old = ContainerUtil.indexOfIdentity(items, lastSelection);
if (old >= 0) {
return old;
}
Object selectedValue = ((LookupImpl) lookup).getList().getSelectedValue();
if (selectedValue instanceof EmptyLookupItem
&& ((EmptyLookupItem) selectedValue).isLoading()) {
int index = ((LookupImpl) lookup).getList().getSelectedIndex();
if (index >= 0 && index < items.size()) {
return index;
}
}
for (int i = 0; i < items.size(); i++) {
String invariant = PRESENTATION_INVARIANT.get(items.get(i));
if (invariant != null && invariant.equals(PRESENTATION_INVARIANT.get(lastSelection))) {
return i;
}
}
}
String selectedText = lookup.getEditor().getSelectionModel().getSelectedText();
for (int i = 0; i < items.size(); i++) {
LookupElement item = items.get(i);
if (isPrefixItem(lookup, item, true) && !isLiveTemplate(item)
|| item.getLookupString().equals(selectedText)) {
return i;
}
}
return Math.max(0, ContainerUtil.indexOfIdentity(items, mostRelevant));
}
/** This is called when rebase is pressed: executes rebase in background. */
private void rebase() {
final List<VcsException> exceptions = new ArrayList<VcsException>();
final RebaseInfo rebaseInfo = collectRebaseInfo();
ProgressManager.getInstance()
.runProcessWithProgressSynchronously(
new Runnable() {
public void run() {
executeRebase(exceptions, rebaseInfo);
}
},
GitBundle.getString("push.active.rebasing"),
true,
myProject);
if (!exceptions.isEmpty()) {
GitUIUtil.showOperationErrors(myProject, exceptions, "git rebase");
}
refreshTree(false, rebaseInfo.uncheckedCommits);
VcsFileUtil.refreshFiles(myProject, rebaseInfo.roots);
}
/**
* Add all the menu currently available to the menu. This may be called any time BlueJ feels that
* the menu needs to be updated.
*
* @param onThisProject a specific project to look for, or null for all projects.
*/
public void addExtensionMenu(Project onThisProject) {
// Get all menus that can be possibly be generated now.
List<JMenuItem> menuItems = extMgr.getMenuItems(menuGenerator, onThisProject);
// Retrieve all the items from the current menu
MenuElement[] elements = popupMenu.getSubElements();
for (int index = 0; index < elements.length; index++) {
JComponent aComponent = (JComponent) elements[index].getComponent();
if (aComponent == null) {
continue;
}
if (!(aComponent instanceof JMenuItem)) {
continue;
}
ExtensionWrapper aWrapper =
(ExtensionWrapper) aComponent.getClientProperty("bluej.extmgr.ExtensionWrapper");
if (aWrapper == null) {
continue;
}
popupMenu.remove(aComponent);
}
popupMenu.remove(menuSeparator);
// If the provided menu is empty we are done here.
if (menuItems.isEmpty()) {
return;
}
popupMenu.add(menuSeparator);
for (JMenuItem menuItem : menuItems) {
popupMenu.add(menuItem);
}
}
/** Get iterator over one image */
public LineIterator getLineIterator(
ProgressHandle progh,
EvStack stack,
EvImage im,
final String channel,
final EvDecimal frame,
final double z) {
List<ROI> subRoi = getSubRoi();
if (imageInRange(channel, frame, z) && !subRoi.isEmpty()) {
LineIterator li = subRoi.get(0).getLineIterator(progh, stack, im, channel, frame, z);
for (int i = 1; i < subRoi.size(); i++)
li =
new ThisLineIterator(
im,
subRoi.get(i).getLineIterator(progh, stack, im, channel, frame, z),
li,
channel,
frame,
z);
return li;
} else return new EmptyLineIterator();
}
@Nullable
private LocalQuickFix[] createNPEFixes(
PsiExpression qualifier, PsiExpression expression, boolean onTheFly) {
if (qualifier == null || expression == null) return null;
if (qualifier instanceof PsiMethodCallExpression) return null;
try {
final List<LocalQuickFix> fixes = new SmartList<LocalQuickFix>();
if (!(qualifier instanceof PsiLiteralExpression
&& ((PsiLiteralExpression) qualifier).getValue() == null)) {
if (PsiUtil.getLanguageLevel(qualifier).isAtLeast(LanguageLevel.JDK_1_4)) {
final Project project = qualifier.getProject();
final PsiElementFactory elementFactory =
JavaPsiFacade.getInstance(project).getElementFactory();
final PsiBinaryExpression binary =
(PsiBinaryExpression) elementFactory.createExpressionFromText("a != null", null);
binary.getLOperand().replace(qualifier);
ContainerUtil.addIfNotNull(fixes, createAssertFix(binary, expression));
}
addSurroundWithIfFix(qualifier, fixes, onTheFly);
if (ReplaceWithTernaryOperatorFix.isAvailable(qualifier, expression)) {
fixes.add(new ReplaceWithTernaryOperatorFix(qualifier));
}
}
ContainerUtil.addIfNotNull(
fixes, DfaOptionalSupport.registerReplaceOptionalOfWithOfNullableFix(qualifier));
return fixes.isEmpty() ? null : fixes.toArray(new LocalQuickFix[fixes.size()]);
} catch (IncorrectOperationException e) {
LOG.error(e);
return null;
}
}
@NotNull
@Override
public List<SearchScope> getPredefinedScopes(
@NotNull final Project project,
@Nullable final DataContext dataContext,
boolean suggestSearchInLibs,
boolean prevSearchFiles,
boolean currentSelection,
boolean usageView,
boolean showEmptyScopes) {
Collection<SearchScope> result = ContainerUtil.newLinkedHashSet();
result.add(GlobalSearchScope.projectScope(project));
if (suggestSearchInLibs) {
result.add(GlobalSearchScope.allScope(project));
}
if (ModuleUtil.isSupportedRootType(project, JavaSourceRootType.TEST_SOURCE)) {
result.add(GlobalSearchScopesCore.projectProductionScope(project));
result.add(GlobalSearchScopesCore.projectTestScope(project));
}
final GlobalSearchScope openFilesScope = GlobalSearchScopes.openFilesScope(project);
if (openFilesScope != GlobalSearchScope.EMPTY_SCOPE) {
result.add(openFilesScope);
} else if (showEmptyScopes) {
result.add(
new LocalSearchScope(PsiElement.EMPTY_ARRAY, IdeBundle.message("scope.open.files")));
}
final Editor selectedTextEditor =
ApplicationManager.getApplication().isDispatchThread()
? FileEditorManager.getInstance(project).getSelectedTextEditor()
: null;
final PsiFile psiFile =
(selectedTextEditor != null)
? PsiDocumentManager.getInstance(project).getPsiFile(selectedTextEditor.getDocument())
: null;
PsiFile currentFile = psiFile;
if (dataContext != null) {
PsiElement dataContextElement = CommonDataKeys.PSI_FILE.getData(dataContext);
if (dataContextElement == null) {
dataContextElement = CommonDataKeys.PSI_ELEMENT.getData(dataContext);
}
if (dataContextElement == null && psiFile != null) {
dataContextElement = psiFile;
}
if (dataContextElement != null) {
if (!PlatformUtils.isCidr()) { // TODO: have an API to disable module scopes.
Module module = ModuleUtilCore.findModuleForPsiElement(dataContextElement);
if (module == null) {
module = LangDataKeys.MODULE.getData(dataContext);
}
if (module != null && !(ModuleType.get(module) instanceof InternalModuleType)) {
result.add(module.getModuleScope());
}
}
if (currentFile == null) {
currentFile = dataContextElement.getContainingFile();
}
}
}
if (currentFile != null || showEmptyScopes) {
PsiElement[] scope =
currentFile != null ? new PsiElement[] {currentFile} : PsiElement.EMPTY_ARRAY;
result.add(new LocalSearchScope(scope, IdeBundle.message("scope.current.file")));
}
if (currentSelection && selectedTextEditor != null && psiFile != null) {
SelectionModel selectionModel = selectedTextEditor.getSelectionModel();
if (selectionModel.hasSelection()) {
int start = selectionModel.getSelectionStart();
final PsiElement startElement = psiFile.findElementAt(start);
if (startElement != null) {
int end = selectionModel.getSelectionEnd();
final PsiElement endElement = psiFile.findElementAt(end);
if (endElement != null) {
final PsiElement parent = PsiTreeUtil.findCommonParent(startElement, endElement);
if (parent != null) {
final List<PsiElement> elements = new ArrayList<PsiElement>();
final PsiElement[] children = parent.getChildren();
TextRange selection = new TextRange(start, end);
for (PsiElement child : children) {
if (!(child instanceof PsiWhiteSpace)
&& child.getContainingFile() != null
&& selection.contains(child.getTextOffset())) {
elements.add(child);
}
}
if (!elements.isEmpty()) {
SearchScope local =
new LocalSearchScope(
PsiUtilCore.toPsiElementArray(elements),
IdeBundle.message("scope.selection"));
result.add(local);
}
}
}
}
}
}
if (usageView) {
addHierarchyScope(project, result);
UsageView selectedUsageView = UsageViewManager.getInstance(project).getSelectedUsageView();
if (selectedUsageView != null && !selectedUsageView.isSearchInProgress()) {
final Set<Usage> usages = ContainerUtil.newTroveSet(selectedUsageView.getUsages());
usages.removeAll(selectedUsageView.getExcludedUsages());
final List<PsiElement> results = new ArrayList<PsiElement>(usages.size());
if (prevSearchFiles) {
final Set<VirtualFile> files = collectFiles(usages, true);
if (!files.isEmpty()) {
GlobalSearchScope prev =
new GlobalSearchScope(project) {
private Set<VirtualFile> myFiles = null;
@NotNull
@Override
public String getDisplayName() {
return IdeBundle.message("scope.files.in.previous.search.result");
}
@Override
public synchronized boolean contains(@NotNull VirtualFile file) {
if (myFiles == null) {
myFiles = collectFiles(usages, false);
}
return myFiles.contains(file);
}
@Override
public int compare(@NotNull VirtualFile file1, @NotNull VirtualFile file2) {
return 0;
}
@Override
public boolean isSearchInModuleContent(@NotNull Module aModule) {
return true;
}
@Override
public boolean isSearchInLibraries() {
return true;
}
};
result.add(prev);
}
} else {
for (Usage usage : usages) {
if (usage instanceof PsiElementUsage) {
final PsiElement element = ((PsiElementUsage) usage).getElement();
if (element != null && element.isValid() && element.getContainingFile() != null) {
results.add(element);
}
}
}
if (!results.isEmpty()) {
result.add(
new LocalSearchScope(
PsiUtilCore.toPsiElementArray(results),
IdeBundle.message("scope.previous.search.results")));
}
}
}
}
final FavoritesManager favoritesManager = FavoritesManager.getInstance(project);
if (favoritesManager != null) {
for (final String favorite : favoritesManager.getAvailableFavoritesListNames()) {
final Collection<TreeItem<Pair<AbstractUrl, String>>> rootUrls =
favoritesManager.getFavoritesListRootUrls(favorite);
if (rootUrls.isEmpty()) continue; // ignore unused root
result.add(
new GlobalSearchScope(project) {
@NotNull
@Override
public String getDisplayName() {
return "Favorite \'" + favorite + "\'";
}
@Override
public boolean contains(@NotNull final VirtualFile file) {
return ApplicationManager.getApplication()
.runReadAction(
(Computable<Boolean>) () -> favoritesManager.contains(favorite, file));
}
@Override
public int compare(
@NotNull final VirtualFile file1, @NotNull final VirtualFile file2) {
return 0;
}
@Override
public boolean isSearchInModuleContent(@NotNull final Module aModule) {
return true;
}
@Override
public boolean isSearchInLibraries() {
return true;
}
});
}
}
ContainerUtil.addIfNotNull(result, getSelectedFilesScope(project, dataContext));
return ContainerUtil.newArrayList(result);
}
public boolean setProjectRoot(@NotNull final VirtualFile projectRoot) {
if (projectRoot.equals(myProjectRoot)) {
return true;
}
boolean unitTestMode = ApplicationManager.getApplication().isUnitTestMode();
myProjectRoot = projectRoot;
if (!unitTestMode && projectRoot instanceof VirtualDirectoryImpl) {
((VirtualDirectoryImpl) projectRoot).refreshAndFindChild("deps");
}
ProgressManager.getInstance()
.run(
new Task.Modal(getCurrentProject(), "Scanning Rebar projects", true) {
public void run(@NotNull final ProgressIndicator indicator) {
List<VirtualFile> rebarConfigFiles = findRebarConfigs(myProjectRoot, indicator);
final LinkedHashSet<ImportedOtpApp> importedOtpApps =
new LinkedHashSet<ImportedOtpApp>(rebarConfigFiles.size());
VfsUtilCore.visitChildrenRecursively(
projectRoot,
new VirtualFileVisitor() {
@Override
public boolean visitFile(@NotNull VirtualFile file) {
indicator.checkCanceled();
if (file.isDirectory()) {
indicator.setText2(file.getPath());
if (isExamplesDirectory(file)
|| isRelDirectory(projectRoot.getPath(), file.getPath()))
return false;
}
ContainerUtil.addAllNotNull(importedOtpApps, createImportedOtpApp(file));
return true;
}
});
myFoundOtpApps = ContainerUtil.newArrayList(importedOtpApps);
}
});
Collections.sort(
myFoundOtpApps,
new Comparator<ImportedOtpApp>() {
@Override
public int compare(ImportedOtpApp o1, ImportedOtpApp o2) {
int nameCompareResult =
String.CASE_INSENSITIVE_ORDER.compare(o1.getName(), o2.getName());
if (nameCompareResult == 0) {
return String.CASE_INSENSITIVE_ORDER.compare(
o1.getRoot().getPath(), o2.getRoot().getPath());
}
return nameCompareResult;
}
});
mySelectedOtpApps = myFoundOtpApps;
return !myFoundOtpApps.isEmpty();
}
@Nullable
public static PsiMethod findMethodBySignature(
@NotNull PsiClass aClass, @NotNull PsiMethod patternMethod, final boolean checkBases) {
final List<PsiMethod> result = findMethodsBySignature(aClass, patternMethod, checkBases, true);
return result.isEmpty() ? null : result.get(0);
}
@Nullable
public static PsiField findFieldByName(
@NotNull PsiClass aClass, String name, boolean checkBases) {
List<PsiMember> byMap = findByMap(aClass, name, checkBases, MemberType.FIELD);
return byMap.isEmpty() ? null : (PsiField) byMap.get(0);
}
@Override
public void restartRunProfile(@NotNull final ExecutionEnvironment environment) {
RunnerAndConfigurationSettings configuration = environment.getRunnerAndConfigurationSettings();
List<RunContentDescriptor> runningIncompatible;
if (configuration == null) {
runningIncompatible = Collections.emptyList();
} else {
runningIncompatible = getIncompatibleRunningDescriptors(configuration);
}
RunContentDescriptor contentToReuse = environment.getContentToReuse();
final List<RunContentDescriptor> runningOfTheSameType = new SmartList<>();
if (configuration != null && configuration.isSingleton()) {
runningOfTheSameType.addAll(getRunningDescriptorsOfTheSameConfigType(configuration));
} else if (isProcessRunning(contentToReuse)) {
runningOfTheSameType.add(contentToReuse);
}
List<RunContentDescriptor> runningToStop =
ContainerUtil.concat(runningOfTheSameType, runningIncompatible);
if (!runningToStop.isEmpty()) {
if (configuration != null) {
if (!runningOfTheSameType.isEmpty()
&& (runningOfTheSameType.size() > 1
|| contentToReuse == null
|| runningOfTheSameType.get(0) != contentToReuse)
&& !userApprovesStopForSameTypeConfigurations(
environment.getProject(), configuration.getName(), runningOfTheSameType.size())) {
return;
}
if (!runningIncompatible.isEmpty()
&& !userApprovesStopForIncompatibleConfigurations(
myProject, configuration.getName(), runningIncompatible)) {
return;
}
}
for (RunContentDescriptor descriptor : runningToStop) {
stop(descriptor);
}
}
if (myAwaitingRunProfiles.get(environment.getRunProfile()) == environment) {
// defense from rerunning exactly the same ExecutionEnvironment
return;
}
myAwaitingRunProfiles.put(environment.getRunProfile(), environment);
awaitTermination(
new Runnable() {
@Override
public void run() {
if (myAwaitingRunProfiles.get(environment.getRunProfile()) != environment) {
// a new rerun has been requested before starting this one, ignore this rerun
return;
}
if ((DumbService.getInstance(myProject).isDumb()
&& !Registry.is("dumb.aware.run.configurations"))
|| ExecutorRegistry.getInstance().isStarting(environment)) {
awaitTermination(this, 100);
return;
}
for (RunContentDescriptor descriptor : runningOfTheSameType) {
ProcessHandler processHandler = descriptor.getProcessHandler();
if (processHandler != null && !processHandler.isProcessTerminated()) {
awaitTermination(this, 100);
return;
}
}
myAwaitingRunProfiles.remove(environment.getRunProfile());
start(environment);
}
},
50);
}
/**
* Returns the default <tt>ContactDetail</tt> to use for any operations depending to the given
* <tt>OperationSet</tt> class.
*
* @param opSetClass the <tt>OperationSet</tt> class we're interested in
* @return the default <tt>ContactDetail</tt> to use for any operations depending to the given
* <tt>OperationSet</tt> class
*/
public UIContactDetail getDefaultContactDetail(Class<? extends OperationSet> opSetClass) {
List<UIContactDetail> details = getContactDetailsForOperationSet(opSetClass);
return (details != null && !details.isEmpty()) ? details.get(0) : null;
}