public void runReadAction(@NotNull final Runnable action) {
    /**
     * if we are inside read action, do not try to acquire read lock again since it will deadlock if
     * there is a pending writeAction see {@link
     * com.intellij.util.concurrency.ReentrantWriterPreferenceReadWriteLock#allowReader()}
     */
    if (isReadAccessAllowed()) {
      action.run();
      return;
    }

    LOG.assertTrue(
        !Thread.holdsLock(PsiLock.LOCK),
        "Thread must not hold PsiLock while performing readAction");
    try {
      myActionsLock.readLock().acquire();
    } catch (InterruptedException e) {
      throw new RuntimeInterruptedException(e);
    }

    try {
      action.run();
    } finally {
      myActionsLock.readLock().release();
    }
  }
  public boolean tryRunReadAction(@NotNull Runnable action) {
    /**
     * if we are inside read action, do not try to acquire read lock again since it will deadlock if
     * there is a pending writeAction see {@link
     * com.intellij.util.concurrency.ReentrantWriterPreferenceReadWriteLock#allowReader()}
     */
    boolean mustAcquire = !isReadAccessAllowed();

    if (mustAcquire) {
      LOG.assertTrue(
          myTestModeFlag || !Thread.holdsLock(PsiLock.LOCK),
          "Thread must not hold PsiLock while performing readAction");
      try {
        if (!myActionsLock.readLock().attempt(0)) return false;
      } catch (InterruptedException e) {
        throw new RuntimeInterruptedException(e);
      }
    }

    try {
      action.run();
    } finally {
      if (mustAcquire) {
        myActionsLock.readLock().release();
      }
    }
    return true;
  }
  public void runWriteAction(@NotNull final Runnable action) {
    assertCanRunWriteAction();

    ActivityTracker.getInstance().inc();
    fireBeforeWriteActionStart(action);
    final AtomicBoolean stopped = new AtomicBoolean(false);

    if (ourDumpThreadsOnLongWriteActionWaiting > 0) {
      executeOnPooledThread(
          new Runnable() {
            @Override
            public void run() {
              while (!stopped.get()) {
                try {
                  Thread.sleep(ourDumpThreadsOnLongWriteActionWaiting);
                  if (!stopped.get()) {
                    PerformanceWatcher.getInstance().dumpThreads(true);
                  }
                } catch (InterruptedException ignored) {
                }
              }
            }
          });
    }

    LOG.assertTrue(
        myActionsLock.isWriteLockAcquired(Thread.currentThread())
            || !Thread.holdsLock(PsiLock.LOCK),
        "Thread must not hold PsiLock while performing writeAction");
    try {
      myActionsLock.writeLock().acquire();
    } catch (InterruptedException e) {
      throw new RuntimeInterruptedException(e);
    }
    stopped.set(true);

    try {
      myWriteActionsStack.push(action);

      fireWriteActionStarted(action);

      action.run();
    } finally {
      try {
        fireWriteActionFinished(action);

        myWriteActionsStack.pop();
      } finally {
        myActionsLock.writeLock().release();
      }
    }
  }
  public boolean closeProject(
      @NotNull final Project project,
      final boolean save,
      final boolean dispose,
      boolean checkCanClose) {
    if (isLight(project)) {
      throw new AssertionError("must not close light project");
    }
    if (!isProjectOpened(project)) return true;
    if (checkCanClose && !canClose(project)) return false;
    final ShutDownTracker shutDownTracker = ShutDownTracker.getInstance();
    shutDownTracker.registerStopperThread(Thread.currentThread());
    try {
      if (save) {
        FileDocumentManager.getInstance().saveAllDocuments();
        project.save();
      }

      if (checkCanClose && !ensureCouldCloseIfUnableToSave(project)) {
        return false;
      }

      fireProjectClosing(project); // somebody can start progress here, do not wrap in write action

      ApplicationManager.getApplication()
          .runWriteAction(
              new Runnable() {
                @Override
                public void run() {
                  synchronized (myOpenProjects) {
                    myOpenProjects.remove(project);
                    cacheOpenProjects();
                    myTestProjects.remove(project);
                  }

                  myChangedProjectFiles.remove(project);

                  fireProjectClosed(project);

                  if (dispose) {
                    Disposer.dispose(project);
                  }
                }
              });
    } finally {
      shutDownTracker.unregisterStopperThread(Thread.currentThread());
    }

    return true;
  }
 public void dispose() {
   LOG.assertTrue(EventQueue.isDispatchThread(), Thread.currentThread().getName());
   myAbstractTreeBuilder = null;
   // this will also dispose wrapped TreeModel
   myTreeModelWrapper.dispose();
   myFileEditor = null;
 }
 public boolean isReadAccessAllowed() {
   Thread currentThread = Thread.currentThread();
   return ourDispatchThread == currentThread
       || isExceptionalThreadWithReadAccess()
       || myActionsLock.isReadLockAcquired()
       || myActionsLock.isWriteLockAcquired()
       || isDispatchThread();
 }
  private static void assertIsDispatchThread(String message) {
    if (ShutDownTracker.isShutdownHookRunning()) return;
    final Thread currentThread = Thread.currentThread();
    if (ourDispatchThread == currentThread) return;

    if (EventQueue.isDispatchThread()) {
      ourDispatchThread = currentThread;
    }
    if (ourDispatchThread == currentThread) return;

    Integer safeCounter = ourEdtSafe.get();
    if (safeCounter != null && safeCounter > 0) return;

    LOG.error(
        message,
        "Current thread: " + describe(Thread.currentThread()),
        "Our dispatch thread:" + describe(ourDispatchThread),
        "SystemEventQueueThread: " + describe(getEventQueueThread()));
  }
 public void assertReadAccessAllowed() {
   if (myHeadlessMode) return;
   if (!isReadAccessAllowed()) {
     LOG.error(
         "Read access is allowed from event dispatch thread or inside read-action only (see com.intellij.openapi.application.Application.runReadAction())",
         "Current thread: " + describe(Thread.currentThread()),
         "Our dispatch thread:" + describe(ourDispatchThread),
         "SystemEventQueueThread: " + describe(getEventQueueThread()));
   }
 }
 ReadAccessToken(boolean explicit) {
   myExplicit = explicit;
   LOG.assertTrue(
       !Thread.holdsLock(PsiLock.LOCK),
       "Thread must not hold PsiLock while performing readAction");
   try {
     myActionsLock.readLock().acquire();
     if (myExplicit) acquired();
   } catch (InterruptedException e) {
     throw new RuntimeInterruptedException(e);
   }
 }
示例#10
0
            public Thread newThread(Runnable r) {
              final Thread thread =
                  new Thread(r, "ApplicationImpl pooled thread " + i++) {
                    public void interrupt() {
                      if (LOG.isDebugEnabled()) {
                        LOG.debug("Interrupted worker, will remove from pool");
                      }
                      super.interrupt();
                    }

                    public void run() {
                      try {
                        super.run();
                      } catch (Throwable t) {
                        if (LOG.isDebugEnabled()) {
                          LOG.debug("Worker exits due to exception", t);
                        }
                      }
                    }
                  };
              thread.setPriority(Thread.NORM_PRIORITY - 1);
              return thread;
            }
示例#11
0
  public void assertIsDispatchThread(@Nullable final JComponent component) {
    if (component == null) return;

    Thread curThread = Thread.currentThread();
    if (ourDispatchThread == curThread) {
      return;
    }

    if (Boolean.TRUE.equals(component.getClientProperty(WAS_EVER_SHOWN))) {
      assertIsDispatchThread();
    } else {
      final JRootPane root = component.getRootPane();
      if (root != null) {
        component.putClientProperty(WAS_EVER_SHOWN, Boolean.TRUE);
        assertIsDispatchThread();
      }
    }
  }
示例#12
0
 @NonNls
 private static String describe(Thread o) {
   if (o == null) return "null";
   return o.toString() + " " + System.identityHashCode(o);
 }
示例#13
0
 public boolean isWriteAccessAllowed() {
   return myActionsLock.isWriteLockAcquired(Thread.currentThread());
 }
  @Override
  public void commitAndRunReadAction(@NotNull final Runnable runnable) {
    final Application application = ApplicationManager.getApplication();
    if (SwingUtilities.isEventDispatchThread()) {
      commitAllDocuments();
      runnable.run();
    } else {
      if (ApplicationManager.getApplication().isReadAccessAllowed()) {
        LOG.error(
            "Don't call commitAndRunReadAction inside ReadAction, it will cause a deadlock otherwise. "
                + Thread.currentThread());
      }

      final Semaphore s1 = new Semaphore();
      final Semaphore s2 = new Semaphore();
      final boolean[] committed = {false};

      application.runReadAction(
          new Runnable() {
            @Override
            public void run() {
              if (myUncommittedDocuments.isEmpty()) {
                runnable.run();
                committed[0] = true;
              } else {
                s1.down();
                s2.down();
                final Runnable commitRunnable =
                    new Runnable() {
                      @Override
                      public void run() {
                        commitAllDocuments();
                        s1.up();
                        s2.waitFor();
                      }
                    };
                final ProgressIndicator progressIndicator =
                    ProgressManager.getInstance().getProgressIndicator();
                if (progressIndicator == null) {
                  ApplicationManager.getApplication().invokeLater(commitRunnable);
                } else {
                  ApplicationManager.getApplication()
                      .invokeLater(commitRunnable, progressIndicator.getModalityState());
                }
              }
            }
          });

      if (!committed[0]) {
        s1.waitFor();
        application.runReadAction(
            new Runnable() {
              @Override
              public void run() {
                s2.up();
                runnable.run();
              }
            });
      }
    }
  }
  public void startRunInjectors(@NotNull final Document hostDocument, final boolean synchronously) {
    if (myProject.isDisposed()) return;
    if (!synchronously && ApplicationManager.getApplication().isWriteAccessAllowed()) return;
    // use cached to avoid recreate PSI in alien project
    final PsiDocumentManager documentManager = PsiDocumentManager.getInstance(myProject);
    final PsiFile hostPsiFile = documentManager.getCachedPsiFile(hostDocument);
    if (hostPsiFile == null) return;

    final CopyOnWriteArrayList<DocumentWindow> injected =
        (CopyOnWriteArrayList<DocumentWindow>)
            InjectedLanguageUtil.getCachedInjectedDocuments(hostPsiFile);
    if (injected.isEmpty()) return;

    if (myProgress.isCanceled()) {
      myProgress = new DaemonProgressIndicator();
    }

    final Processor<DocumentWindow> commitProcessor =
        new Processor<DocumentWindow>() {
          @Override
          public boolean process(DocumentWindow documentWindow) {
            if (myProject.isDisposed()) return false;
            ProgressIndicator indicator = ProgressManager.getInstance().getProgressIndicator();
            if (indicator != null && indicator.isCanceled()) return false;
            if (documentManager.isUncommited(hostDocument) || !hostPsiFile.isValid())
              return false; // will be committed later

            Segment[] ranges = documentWindow.getHostRanges();
            Segment rangeMarker = ranges.length > 0 ? ranges[0] : null;
            PsiElement element =
                rangeMarker == null
                    ? null
                    : hostPsiFile.findElementAt(rangeMarker.getStartOffset());
            if (element == null) {
              synchronized (PsiLock.LOCK) {
                injected.remove(documentWindow);
              }
              return true;
            }
            final DocumentWindow[] stillInjectedDocument = {null};
            // it is here where the reparse happens and old file contents replaced
            InjectedLanguageUtil.enumerate(
                element,
                hostPsiFile,
                true,
                new PsiLanguageInjectionHost.InjectedPsiVisitor() {
                  @Override
                  public void visit(
                      @NotNull PsiFile injectedPsi,
                      @NotNull List<PsiLanguageInjectionHost.Shred> places) {
                    stillInjectedDocument[0] =
                        (DocumentWindow) injectedPsi.getViewProvider().getDocument();
                    PsiDocumentManagerImpl.checkConsistency(injectedPsi, stillInjectedDocument[0]);
                  }
                });
            synchronized (PsiLock.LOCK) {
              if (stillInjectedDocument[0] == null) {
                injected.remove(documentWindow);
              } else if (stillInjectedDocument[0] != documentWindow) {
                injected.remove(documentWindow);
                injected.addIfAbsent(stillInjectedDocument[0]);
              }
            }

            return true;
          }
        };
    final Runnable commitInjectionsRunnable =
        new Runnable() {
          @Override
          public void run() {
            if (myProgress.isCanceled()) return;
            JobLauncher.getInstance()
                .invokeConcurrentlyUnderProgress(
                    new ArrayList<DocumentWindow>(injected),
                    myProgress,
                    !synchronously,
                    commitProcessor);
          }
        };

    if (synchronously) {
      if (Thread.holdsLock(PsiLock.LOCK)) {
        // hack for the case when docCommit was called from within PSI modification, e.g. in
        // formatter.
        // we can't spawn threads to do injections there, otherwise a deadlock is imminent
        ContainerUtil.process(new ArrayList<DocumentWindow>(injected), commitProcessor);
      } else {
        commitInjectionsRunnable.run();
      }
    } else {
      JobLauncher.getInstance()
          .submitToJobThread(
              Job.DEFAULT_PRIORITY,
              new Runnable() {
                @Override
                public void run() {
                  ApplicationManagerEx.getApplicationEx()
                      .tryRunReadAction(commitInjectionsRunnable);
                }
              });
    }
  }