Esempio n. 1
0
  public synchronized void stop() {
    if (myOriginal.isRunning()) {
      myOriginal.stop();
    } else {
      myStartupAlarm.cancelAllRequests();
    }

    // needed only for correct assertion of !progress.isRunning() in
    // ApplicationImpl.runProcessWithProgressSynchroniously
    final Semaphore semaphore = new Semaphore();
    semaphore.down();

    SwingUtilities.invokeLater(
        new Runnable() {
          public void run() {
            semaphore.waitFor();
            if (myDialog != null) {
              // System.out.println("myDialog.destroyProcess()");
              myDialog.close(DialogWrapper.OK_EXIT_CODE);
              myDialog = null;
            }
          }
        });

    super.stop(); // should be last to not leaveModal before closing the dialog
    semaphore.up();
  }
 static void log(
     ProgressIndicator progressIndicator,
     TextEditorHighlightingPass pass,
     @NonNls @NotNull Object... info) {
   if (LOG.isDebugEnabled()) {
     CharSequence docText =
         pass == null || pass.getDocument() == null
             ? ""
             : ": '" + StringUtil.first(pass.getDocument().getCharsSequence(), 10, true) + "'";
     synchronized (PassExecutorService.class) {
       String infos = StringUtil.join(info, Functions.TO_STRING(), " ");
       String message =
           StringUtil.repeatSymbol(' ', getThreadNum() * 4)
               + " "
               + pass
               + " "
               + infos
               + "; progress="
               + (progressIndicator == null ? null : progressIndicator.hashCode())
               + " "
               + (progressIndicator == null ? "?" : progressIndicator.isCanceled() ? "X" : "V")
               + docText;
       LOG.debug(message);
       // System.out.println(message);
     }
   }
 }
 private void updateIndicatorText(@NotNull String upperLabel, @NotNull String downLabel) {
   ProgressIndicator indicator = myCompositeTask.getIndicator();
   if (indicator != null) {
     indicator.setText(upperLabel);
     indicator.setText2(downLabel);
   }
 }
  @Nullable
  public static PsiClass[] getAllTestClasses(final TestClassFilter filter, boolean sync) {
    final PsiClass[][] holder = new PsiClass[1][];
    final Runnable process =
        () -> {
          final ProgressIndicator indicator = ProgressManager.getInstance().getProgressIndicator();

          final Collection<PsiClass> set = new LinkedHashSet<>();
          final PsiManager manager = PsiManager.getInstance(filter.getProject());
          final GlobalSearchScope projectScope =
              GlobalSearchScope.projectScope(manager.getProject());
          final GlobalSearchScope scope = projectScope.intersectWith(filter.getScope());
          for (final PsiClass psiClass : AllClassesSearch.search(scope, manager.getProject())) {
            if (filter.isAccepted(psiClass)) {
              if (indicator != null) {
                indicator.setText2(
                    "Found test class " + ReadAction.compute(psiClass::getQualifiedName));
              }
              set.add(psiClass);
            }
          }
          holder[0] = set.toArray(new PsiClass[set.size()]);
        };
    if (sync) {
      ProgressManager.getInstance()
          .runProcessWithProgressSynchronously(
              process, "Searching For Tests...", true, filter.getProject());
    } else {
      process.run();
    }
    return holder[0];
  }
  private boolean doQueue(
      @NotNull Document document,
      @NotNull Project project,
      CommitStage start,
      @NonNls @NotNull Object reason) {
    synchronized (documentsToCommit) {
      if (!changeCommitStage(document, start, CommitStage.QUEUED_TO_COMMIT, false)) return false;

      Object[] documentTasks = documentsToCommit.toArray();
      for (Object o : documentTasks) {
        assert o != null : "Null element in:" + documentsToCommit;
        CommitTask task = (CommitTask) o;
        if (task.document == document) {
          ProgressIndicator current = document.getUserData(COMMIT_PROGRESS);
          if (current == null) {
            // already queued, not started yet
            return true;
          } else {
            // cancel current commit process to re-queue
            current.cancel();
            removeCommitFromQueue(document);
            break;
          }
        }
      }
      ProgressIndicator indicator = new ProgressIndicatorBase();
      indicator.start();
      documentsToCommit.addLast(new CommitTask(document, project, indicator, reason));
      log("Queued", document, false, reason);
      wakeUpQueue();
      return true;
    }
  }
  public static void writeFileImpl(String folder, @NonNls String fileName, CharSequence buf)
      throws IOException {
    ProgressIndicator indicator = ProgressManager.getInstance().getProgressIndicator();
    final String fullPath = folder + File.separator + fileName;

    if (indicator != null) {
      ProgressManager.checkCanceled();
      indicator.setText(
          InspectionsBundle.message("inspection.export.generating.html.for", fullPath));
    }

    FileWriter writer = null;
    try {
      File folderFile = new File(folder);
      folderFile.mkdirs();
      new File(fullPath).getParentFile().mkdirs();
      writer = new FileWriter(fullPath);
      writer.write(buf.toString().toCharArray());
    } finally {
      if (writer != null) {
        try {
          writer.close();
        } catch (IOException e) {
          // Cannot do anything in case of exception
        }
      }
    }
  }
 @Override
 public synchronized void setText2(String text) {
   super.setText2(text);
   if (myOriginal.isRunning()) {
     myOriginal.setText2(text);
   }
 }
  @CalledInAwt
  @Nullable
  public static <T> T tryComputeFast(
      @NotNull final Function<ProgressIndicator, T> backgroundTask, final int waitMillis) {
    final Ref<T> resultRef = new Ref<T>();
    ProgressIndicator indicator =
        executeAndTryWait(
            new Function<ProgressIndicator, Runnable>() {
              @Override
              public Runnable fun(final ProgressIndicator indicator) {
                final T result = backgroundTask.fun(indicator);
                return new Runnable() {
                  @Override
                  public void run() {
                    resultRef.set(result);
                  }
                };
              }
            },
            null,
            waitMillis,
            false);
    indicator.cancel();

    return resultRef.get();
  }
  private void initProject(@NotNull ProjectImpl project, @Nullable ProjectImpl template)
      throws IOException {
    final ProgressIndicator indicator = myProgressManager.getProgressIndicator();
    if (indicator != null && !project.isDefault()) {
      indicator.setText(ProjectBundle.message("loading.components.for", project.getName()));
      indicator.setIndeterminate(true);
    }

    ApplicationManager.getApplication()
        .getMessageBus()
        .syncPublisher(ProjectLifecycleListener.TOPIC)
        .beforeProjectLoaded(project);

    try {
      if (template != null) {
        project.getStateStore().loadProjectFromTemplate(template);
      } else {
        project.getStateStore().load();
      }
      project.loadProjectComponents();
      project.init();
    } catch (IOException e) {
      scheduleDispose(project);
      throw e;
    } catch (ProcessCanceledException e) {
      scheduleDispose(project);
      throw e;
    }
  }
 @Override
 public synchronized void setFraction(double fraction) {
   super.setFraction(fraction);
   if (myOriginal.isRunning()) {
     myOriginal.setFraction(fraction);
   }
 }
 private void updateProgress(final ProgressIndicator indicator, final String text) {
   LOG.info("PAX output: " + text.replace("\n", ""));
   Matcher matcher = errorMessagePattern.matcher(text.trim());
   // save error message for later..
   if (matcher.matches()) {
     String message = matcher.group(1).trim();
     if (!StringUtil.isEmpty(message)
         && !message.contains("--log=debug")
         && !message.contains("Oops")) {
       myErrorMessage = (myErrorMessage != null ? myErrorMessage : "") + message + "\n";
     }
   }
   if (indicator != null) {
     if (indicator.isCanceled()) {
       if (!myIsCancelled) {
         ApplicationManager.getApplication()
             .invokeLater(
                 new Runnable() {
                   public void run() {
                     cancel();
                   }
                 });
       }
     }
     indicator.setText2(text);
   }
 }
  private void perform(final ProgressIndicator indicator) {
    indicator.setText("Downloading OSGi framework");
    indicator.setIndeterminate(true);

    try {
      myProcessHandler =
          new DefaultJavaProcessHandler(createJavaParameters()) {
            public void notifyTextAvailable(String text, Key outputType) {
              updateProgress(indicator, text);
            }
          };
    } catch (ExecutionException e) {
      myIsSuccessful = false;
      myErrorMessage = "Error when starting pax runner: " + e.getMessage();
      return;
    }

    start();
    readProcessOutput();
    stop();
    int i = myProcessHandler.getProcess().exitValue();
    if (i != 0) {
      myIsSuccessful = false;
    } else {
      myIsSuccessful = true;
    }
  }
  public static void deleteFile(Project project, final VirtualFile file) throws ExecutionException {
    final Ref<IOException> error = new Ref<IOException>();

    final Runnable runnable =
        new Runnable() {
          public void run() {
            ApplicationManager.getApplication()
                .runWriteAction(
                    new Runnable() {
                      public void run() {
                        try {
                          if (file.isValid()) {
                            file.delete(this);
                          }
                        } catch (IOException e) {
                          error.set(e);
                        }
                      }
                    });
          }
        };

    if (ApplicationManager.getApplication().isDispatchThread()) {
      runnable.run();
    } else {
      ProgressIndicator pi = ProgressManager.getInstance().getProgressIndicator();
      ApplicationManager.getApplication()
          .invokeAndWait(runnable, pi != null ? pi.getModalityState() : ModalityState.NON_MODAL);
    }
    if (!error.isNull()) {
      //noinspection ThrowableResultOfMethodCallIgnored
      throw new ExecutionException(error.get().getMessage());
    }
  }
Esempio n. 14
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  public static boolean prepareToInstall(
      List<PluginNode> pluginsToInstall, List<IdeaPluginDescriptor> allPlugins) {
    ProgressIndicator pi = ProgressManager.getInstance().getProgressIndicator();

    final List<PluginId> pluginIds = new ArrayList<PluginId>();
    for (PluginNode pluginNode : pluginsToInstall) {
      pluginIds.add(pluginNode.getPluginId());
    }

    boolean result = false;

    for (final PluginNode pluginNode : pluginsToInstall) {
      if (pi != null) pi.setText(pluginNode.getName());

      try {
        result |= prepareToInstall(pluginNode, pluginIds, allPlugins);
      } catch (final IOException e) {
        SwingUtilities.invokeLater(
            new Runnable() {
              public void run() {
                Messages.showErrorDialog(
                    pluginNode.getName() + ": " + e.getMessage(),
                    CommonBundle.message("title.error"));
              }
            });
      }
    }
    return result;
  }
  public int print(Graphics g, PageFormat pageFormat, int pageIndex) throws PrinterException {
    if (myProgress.isCanceled()) {
      return Printable.NO_SUCH_PAGE;
    }
    while (myFileIndex < myFilesList.size()) {
      if (myTextPainter == null) {
        myTextPainter =
            PrintManager.initTextPainter((PsiFile) myFilesList.get(myFileIndex), myProject);
      }
      if (myTextPainter != null) {
        ((TextPainter) myTextPainter).setProgress(myProgress);
        int ret = 0;
        try {
          ret = myTextPainter.print(g, pageFormat, pageIndex - myStartPageIndex);
        } catch (ProcessCanceledException e) {
        }

        if (myProgress.isCanceled()) {
          return Printable.NO_SUCH_PAGE;
        }
        if (ret == Printable.PAGE_EXISTS) {
          return Printable.PAGE_EXISTS;
        }
        myTextPainter = null;
        myStartPageIndex = pageIndex;
      }
      myFileIndex++;
    }
    return Printable.NO_SUCH_PAGE;
  }
 private void doIndexing(
     @NotNull final VirtualFile virtualFile, @NotNull final ProgressIndicator indicator) {
   final int fileId = FileBasedIndex.getFileId(virtualFile);
   indicator.setText("IntelliJence Advisor plugin indexing...");
   indicator.setText2(virtualFile.getCanonicalPath());
   final Long timestamp = getTimestamp(fileId);
   ProgressManager.checkCanceled();
   final long currentTimeStamp = virtualFile.getModificationStamp();
   if (timestamp == null || timestamp != currentTimeStamp) {
     putTimestamp(fileId, currentTimeStamp);
     final ClassReader reader;
     try {
       reader = new ClassReader(virtualFile.contentsToByteArray());
     } catch (IOException e) {
       removeTimestamp(fileId);
       return;
     }
     try {
       for (final AdvisorBaseIndex index : indexes) {
         index.update(fileId, reader);
       }
     } catch (RuntimeException e) {
       log.error(String.format("can't index file: %s", virtualFile.getCanonicalPath()));
       // TODO delete it
       e.printStackTrace();
       throw e;
     }
   }
 }
  /**
   * Checks if update is possible, saves local changes and updates all roots. In case of error shows
   * notification and returns false. If update completes without errors, returns true.
   *
   * <p>Perform update on all roots. 0. Blocks reloading project on external change, saving/syncing
   * on frame deactivation. 1. Checks if update is possible (rebase/merge in progress, no tracked
   * branches...) and provides merge dialog to solve problems. 2. Finds updaters to use (merge or
   * rebase). 3. Preserves local changes if needed (not needed for merge sometimes). 4. Updates via
   * 'git pull' or equivalent. 5. Restores local changes if update completed or failed with error.
   * If update is incomplete, i.e. some unmerged files remain, local changes are not restored.
   */
  @NotNull
  public GitUpdateResult update(final UpdateMethod updateMethod) {
    LOG.info("update started|" + updateMethod);
    String oldText = myProgressIndicator.getText();
    myProgressIndicator.setText("Updating...");

    for (GitRepository repository : myRepositories) {
      repository.update();
    }

    // check if update is possible
    if (checkRebaseInProgress()
        || isMergeInProgress()
        || areUnmergedFiles()
        || !checkTrackedBranchesConfigured()) {
      return GitUpdateResult.NOT_READY;
    }

    if (!fetchAndNotify()) {
      return GitUpdateResult.NOT_READY;
    }

    AccessToken token = DvcsUtil.workingTreeChangeStarted(myProject);
    GitUpdateResult result;
    try {
      result = updateImpl(updateMethod);
    } finally {
      DvcsUtil.workingTreeChangeFinished(myProject, token);
    }
    myProgressIndicator.setText(oldText);
    return result;
  }
Esempio n. 18
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 public SmoothProgressAdapter(ProgressIndicator original, Project project) {
   myOriginal = original;
   myProject = project;
   if (myOriginal.isModal()) {
     myOriginal.setModalityProgress(this);
     this.setModalityProgress(this);
   }
 }
 private static void runIndeterminateProgress(ProgressIndicator indicator) {
   indicator.setIndeterminate(true);
   indicator.setText("Indeterminate");
   for (int i = 0; i < 200; i++) {
     TimeoutUtil.sleep(10);
     indicator.checkCanceled();
   }
 }
Esempio n. 20
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 public boolean isInModalProgressThread() {
   if (myExceptionalThreadWithReadAccessRunnable == null || !isExceptionalThreadWithReadAccess()) {
     return false;
   }
   ProgressIndicator progressIndicator = ProgressManager.getInstance().getProgressIndicator();
   return progressIndicator.isModal()
       && ((ProgressIndicatorEx) progressIndicator).isModalityEntered();
 }
 public SmoothProgressAdapter(@NotNull ProgressIndicator original, @NotNull Project project) {
   myOriginal = original;
   myProject = project;
   if (myOriginal.isModal()) {
     myOriginal.setModalityProgress(this);
     setModalityProgress(this);
   }
   ProgressManager.assertNotCircular(original);
 }
 private static void runDeterminateProgress(ProgressIndicator indicator) {
   int iterations = 3000;
   for (int i = 0; i < iterations; i++) {
     TimeoutUtil.sleep(1);
     indicator.setFraction(((double) i + 1) / ((double) iterations));
     indicator.setText(String.valueOf(i));
     ProgressManager.checkCanceled();
   }
 }
Esempio n. 23
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 @NotNull
 public ModalityState getDefaultModalityState() {
   if (EventQueue.isDispatchThread()) {
     return getCurrentModalityState();
   } else {
     ProgressIndicator progress = ProgressManager.getInstance().getProgressIndicator();
     return progress == null ? getNoneModalityState() : progress.getModalityState();
   }
 }
 protected void showProgressMessage(final ProgressIndicator progress, final File root) {
   if (SvnConfiguration.getInstance(myVcs.getProject()).MERGE_DRY_RUN) {
     progress.setText(
         SvnBundle.message("progress.text.merging.dry.run.changes", root.getAbsolutePath()));
   } else {
     progress.setText(
         SvnBundle.message("progress.text.merging.changes", root.getAbsolutePath()));
   }
 }
Esempio n. 25
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 void displayProgress() {
   final ProgressIndicator indicator = ProgressManager.getInstance().getProgressIndicator();
   if (indicator != null) {
     indicator.setText(
         MessageFormat.format(
             "{0} {1}",
             myAction != null ? myAction : RunnerBundle.message("maven.running"),
             myParameters.getWorkingDirPath()));
     indicator.setText2(myParameters.getGoals().toString());
   }
 }
Esempio n. 26
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  public void run(@NotNull ProgressIndicator indicator) {
    indicator.setIndeterminate(true);
    indicator.setText2(VcsBundle.message("commit.wait.util.synched.text"));

    if (!myStarted.compareAndSet(false, true)) {
      LOG.error("Waiter running under progress being started again.");
    } else {
      while (!mySemaphore.waitFor(500)) {
        indicator.checkCanceled();
      }
    }
  }
  private void removeCommitFromQueue(@NotNull Document document) {
    synchronized (documentsToCommit) {
      ProgressIndicator indicator = document.getUserData(COMMIT_PROGRESS);

      if (indicator != null && indicator.isRunning()) {
        indicator.stop(); // mark document as removed

        log("Removed from queue", document, false);
      }
      // let our thread know that queue must be polled again
      wakeUpQueue();
    }
  }
 private static void updateIndicator(@NotNull final String text, final double progressFraction) {
   final ProgressIndicator indicator = ProgressManager.getInstance().getProgressIndicator();
   if (indicator != null) {
     final ProgressIndicator progressIndicator = ProgressWrapper.unwrap(indicator);
     progressIndicator.setText(text);
     if (progressFraction == -1) {
       progressIndicator.setIndeterminate(true);
     } else {
       progressIndicator.setIndeterminate(false);
       progressIndicator.setFraction(progressFraction);
     }
   }
 }
Esempio n. 29
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    private void doRun() {
      myIndicator = ProgressManager.getInstance().getProgressIndicator();

      final List<Change> changesToRefresh = new ArrayList<Change>();
      try {
        ChangesUtil.processChangesByVcs(
            myProject,
            myChanges,
            new ChangesUtil.PerVcsProcessor<Change>() {
              public void process(AbstractVcs vcs, List<Change> changes) {
                final RollbackEnvironment environment = vcs.getRollbackEnvironment();
                if (environment != null) {
                  changesToRefresh.addAll(changes);

                  if (myIndicator != null) {
                    myIndicator.setText(vcs.getDisplayName() + ": performing rollback...");
                    myIndicator.setIndeterminate(false);
                    myIndicator.checkCanceled();
                  }
                  environment.rollbackChanges(
                      changes,
                      myExceptions,
                      new RollbackProgressModifier(changes.size(), myIndicator));
                  if (myIndicator != null) {
                    myIndicator.setText2("");
                    myIndicator.checkCanceled();
                  }

                  if (myExceptions.isEmpty() && myDeleteLocallyAddedFiles) {
                    deleteAddedFilesLocally(changes);
                  }
                }
              }
            });
      } catch (ProcessCanceledException e) {
        // still do refresh
      }

      if (myIndicator != null) {
        myIndicator.startNonCancelableSection();
        myIndicator.setIndeterminate(true);
        myIndicator.setText2("");
        myIndicator.setText(VcsBundle.message("progress.text.synchronizing.files"));
      }

      doRefresh(myProject, changesToRefresh);

      AbstractVcsHelper.getInstance(myProject)
          .showErrors(myExceptions, VcsBundle.message("changes.action.rollback.text"));
    }
  public void loadCommittedChanges(
      ChangeBrowserSettings settings,
      RepositoryLocation location,
      int maxCount,
      final AsynchConsumer<CommittedChangeList> consumer)
      throws VcsException {
    try {
      final SvnRepositoryLocation svnLocation = (SvnRepositoryLocation) location;
      final ProgressIndicator progress = ProgressManager.getInstance().getProgressIndicator();
      if (progress != null) {
        progress.setText(SvnBundle.message("progress.text.changes.collecting.changes"));
        progress.setText2(
            SvnBundle.message("progress.text2.changes.establishing.connection", location));
      }

      final String repositoryRoot;
      SVNRepository repository = null;
      try {
        repository = myVcs.createRepository(svnLocation.getURL());
        repositoryRoot = repository.getRepositoryRoot(true).toString();
      } catch (SVNException e) {
        throw new VcsException(e);
      } finally {
        if (repository != null) {
          repository.closeSession();
        }
      }

      final ChangeBrowserSettings.Filter filter = settings.createFilter();

      getCommittedChangesImpl(
          settings,
          svnLocation.getURL(),
          new String[] {""},
          maxCount,
          new Consumer<SVNLogEntry>() {
            public void consume(final SVNLogEntry svnLogEntry) {
              final SvnChangeList cl =
                  new SvnChangeList(myVcs, svnLocation, svnLogEntry, repositoryRoot);
              if (filter.accepts(cl)) {
                consumer.consume(cl);
              }
            }
          },
          false,
          true);
    } finally {
      consumer.finished();
    }
  }