private void runAfterCommitActions(@NotNull Document document) { ApplicationManager.getApplication().assertIsDispatchThread(); List<Runnable> list; synchronized (ACTION_AFTER_COMMIT) { list = document.getUserData(ACTION_AFTER_COMMIT); if (list != null) { list = new ArrayList<Runnable>(list); document.putUserData(ACTION_AFTER_COMMIT, null); } } if (list != null) { for (final Runnable runnable : list) { runnable.run(); } } if (!hasUncommitedDocuments() && !actionsWhenAllDocumentsAreCommitted.isEmpty()) { List<Object> keys = new ArrayList<Object>(actionsWhenAllDocumentsAreCommitted.keySet()); for (Object key : keys) { try { Runnable action = actionsWhenAllDocumentsAreCommitted.remove(key); myDocumentCommitProcessor.log( "Running after commit runnable: ", null, false, key, action); action.run(); } catch (Throwable e) { LOG.error(e); } } } }
protected boolean finishCommitInWriteAction( @NotNull final Document document, @NotNull final List<Processor<Document>> finishProcessors, final boolean synchronously) { if (myProject.isDisposed()) return false; assert !(document instanceof DocumentWindow); myIsCommitInProgress = true; boolean success = true; try { final FileViewProvider viewProvider = getCachedViewProvider(document); if (viewProvider != null) { for (Processor<Document> finishRunnable : finishProcessors) { success = finishRunnable.process(document); if (synchronously) { assert success : finishRunnable + " in " + finishProcessors; } if (!success) { break; } } if (success) { myLastCommittedTexts.remove(document); viewProvider.contentsSynchronized(); } } else { handleCommitWithoutPsi(document); } } finally { myDocumentCommitProcessor.log( "in PDI.finishDoc: ", null, synchronously, success, myUncommittedDocuments); if (success) { myUncommittedDocuments.remove(document); myDocumentCommitProcessor.log( "in PDI.finishDoc: removed doc", null, synchronously, success, myUncommittedDocuments); } myIsCommitInProgress = false; myDocumentCommitProcessor.log( "in PDI.finishDoc: exit", null, synchronously, success, myUncommittedDocuments); } return success; }
/** * Schedules action to be executed when all documents are committed. * * @return true if action has been run immediately, or false if action was scheduled for execution * later. */ @Override public boolean performWhenAllCommitted(@NotNull final Runnable action) { ApplicationManager.getApplication().assertIsDispatchThread(); assert !myProject.isDisposed() : "Already disposed: " + myProject; if (myUncommittedDocuments.isEmpty()) { action.run(); return true; } CompositeRunnable actions = (CompositeRunnable) actionsWhenAllDocumentsAreCommitted.get(PERFORM_ALWAYS_KEY); if (actions == null) { actions = new CompositeRunnable(); actionsWhenAllDocumentsAreCommitted.put(PERFORM_ALWAYS_KEY, actions); } actions.add(action); myDocumentCommitProcessor.log( "PDI: added performWhenAllCommitted", null, false, action, myUncommittedDocuments); return false; }
@Override public void documentChanged(DocumentEvent event) { if (myStopTrackingDocuments) return; final Document document = event.getDocument(); VirtualFile virtualFile = FileDocumentManager.getInstance().getFile(document); boolean isRelevant = virtualFile != null && isRelevant(virtualFile); final FileViewProvider viewProvider = getCachedViewProvider(document); if (viewProvider == null) { handleCommitWithoutPsi(document); return; } boolean inMyProject = viewProvider.getManager() == myPsiManager; if (!isRelevant || !inMyProject) { myLastCommittedTexts.remove(document); return; } ApplicationManager.getApplication().assertWriteAccessAllowed(); final List<PsiFile> files = viewProvider.getAllFiles(); boolean commitNecessary = true; for (PsiFile file : files) { if (mySynchronizer.isInsideAtomicChange(file)) { commitNecessary = false; continue; } assert file instanceof PsiFileImpl || "mock.file".equals(file.getName()) && ApplicationManager.getApplication().isUnitTestMode() : event + "; file=" + file + "; allFiles=" + files + "; viewProvider=" + viewProvider; } boolean forceCommit = ApplicationManager.getApplication().hasWriteAction(ExternalChangeAction.class) && (SystemProperties.getBooleanProperty("idea.force.commit.on.external.change", false) || ApplicationManager.getApplication().isHeadlessEnvironment() && !ApplicationManager.getApplication().isUnitTestMode()); // Consider that it's worth to perform complete re-parse instead of merge if the whole document // text is replaced and // current document lines number is roughly above 5000. This makes sense in situations when // external change is performed // for the huge file (that causes the whole document to be reloaded and 'merge' way takes a // while to complete). if (event.isWholeTextReplaced() && document.getTextLength() > 100000) { document.putUserData(BlockSupport.DO_NOT_REPARSE_INCREMENTALLY, Boolean.TRUE); } if (commitNecessary) { assert !(document instanceof DocumentWindow); myUncommittedDocuments.add(document); myDocumentCommitProcessor.log( "added uncommitted doc", null, false, myProject, document, ((DocumentEx) document).isInBulkUpdate()); if (forceCommit) { commitDocument(document); } else if (!((DocumentEx) document).isInBulkUpdate() && myPerformBackgroundCommit) { myDocumentCommitProcessor.commitAsynchronously(myProject, document, event); } } else { myLastCommittedTexts.remove(document); } }