Пример #1
0
 private void removeAllContents(Project project, Content notRemove) {
   if (project.isDisposed()) {
     return;
   }
   final MessageView messageView = MessageView.SERVICE.getInstance(project);
   Content[] contents = messageView.getContentManager().getContents();
   for (Content content : contents) {
     if (content.isPinned()) {
       continue;
     }
     if (content == notRemove) {
       continue;
     }
     boolean toRemove = CONTENT_ID_KEY.get(content) == myContentId;
     if (!toRemove) {
       final Object contentSessionId = SESSION_ID_KEY.get(content);
       toRemove =
           contentSessionId != null
               && contentSessionId != mySessionId; // the content was added by previous compilation
     }
     if (toRemove) {
       messageView.getContentManager().removeContent(content, true);
     }
   }
 }
 @Override
 public void chunkBuildFinished(CompileContext context, ModuleChunk chunk) {
   final InstrumentationClassFinder finder = CLASS_FINDER.get(context);
   if (finder != null) {
     CLASS_FINDER.set(context, null);
     finder.releaseResources();
   }
 }
Пример #3
0
 @NotNull
 @Override
 public Navigatable createNavigatable(@NotNull Project project) {
   if (ALTERNATIVE_SOURCE_KEY.get(myFile) != null) {
     return new OpenFileDescriptor(project, getFile(), getLine(), 0);
   }
   return XSourcePositionImpl.doCreateOpenFileDescriptor(project, this);
 }
Пример #4
0
 @NotNull
 @Override
 public VirtualFile getFile() {
   VirtualFile file = ALTERNATIVE_SOURCE_KEY.get(myFile);
   if (file != null) {
     return file;
   }
   return myFile;
 }
  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));
  }
 @NotNull
 public static StatisticsInfo getBaseStatisticsInfo(
     LookupElement item, @Nullable CompletionLocation location) {
   StatisticsInfo info = BASE_STATISTICS_INFO.get(item);
   if (info == null) {
     if (location == null) {
       return StatisticsInfo.EMPTY;
     }
     BASE_STATISTICS_INFO.set(item, info = calcBaseInfo(item, location));
   }
   return info;
 }
Пример #7
0
 public static void deleteTypeAnnotations(@NotNull PsiTypeElement typeElement) {
   PsiElement left =
       PsiTreeUtil.skipSiblingsBackward(
           typeElement, PsiComment.class, PsiWhiteSpace.class, PsiTypeParameterList.class);
   if (left instanceof PsiModifierList) {
     for (PsiAnnotation annotation : ((PsiModifierList) left).getAnnotations()) {
       if (TYPE_ANNO_MARK.get(annotation) == Boolean.TRUE) {
         annotation.delete();
       }
     }
   }
 }
  public ExitCode build(
      final CompileContext context,
      final ModuleChunk chunk,
      DirtyFilesHolder<JavaSourceRootDescriptor, ModuleBuildTarget> dirtyFilesHolder,
      OutputConsumer outputConsumer)
      throws ProjectBuildException {
    if (!IS_ENABLED.get(context, Boolean.TRUE)) {
      return ExitCode.NOTHING_DONE;
    }
    try {
      final Map<File, ModuleBuildTarget> filesToCompile =
          new THashMap<File, ModuleBuildTarget>(FileUtil.FILE_HASHING_STRATEGY);

      dirtyFilesHolder.processDirtyFiles(
          new FileProcessor<JavaSourceRootDescriptor, ModuleBuildTarget>() {
            public boolean apply(
                ModuleBuildTarget target, File file, JavaSourceRootDescriptor descriptor)
                throws IOException {
              if (JAVA_SOURCES_FILTER.accept(file)) {
                filesToCompile.put(file, target);
              }
              return true;
            }
          });

      if (context.isMake()) {
        final ProjectBuilderLogger logger = context.getLoggingManager().getProjectBuilderLogger();
        if (logger.isEnabled()) {
          if (filesToCompile.size() > 0) {
            logger.logCompiledFiles(filesToCompile.keySet(), BUILDER_NAME, "Compiling files:");
          }
        }
      }

      return compile(context, chunk, dirtyFilesHolder, filesToCompile.keySet(), outputConsumer);
    } catch (ProjectBuildException e) {
      throw e;
    } catch (Exception e) {
      String message = e.getMessage();
      if (message == null) {
        final ByteArrayOutputStream out = new ByteArrayOutputStream();
        final PrintStream stream = new PrintStream(out);
        try {
          e.printStackTrace(stream);
        } finally {
          stream.close();
        }
        message = "Internal error: \n" + out.toString();
      }
      context.processMessage(new CompilerMessage(BUILDER_NAME, BuildMessage.Kind.ERROR, message));
      throw new ProjectBuildException(message, e);
    }
  }
Пример #9
0
 public void showCompilerContent() {
   synchronized (myMessageViewLock) {
     if (myErrorTreeView != null) {
       final MessageView messageView = MessageView.SERVICE.getInstance(myProject);
       Content[] contents = messageView.getContentManager().getContents();
       for (Content content : contents) {
         if (CONTENT_ID_KEY.get(content) == myContentId) {
           messageView.getContentManager().setSelectedContent(content);
           return;
         }
       }
     }
   }
 }
Пример #10
0
  private static boolean checkChunkRebuildNeeded(
      CompileContext context, GroovycOutputParser parser) {
    if (JavaBuilderUtil.isForcedRecompilationAllJavaModules(context) || !parser.shouldRetry()) {
      return false;
    }

    if (CHUNK_REBUILD_ORDERED.get(context) != null) {
      CHUNK_REBUILD_ORDERED.set(context, null);
      return false;
    }

    CHUNK_REBUILD_ORDERED.set(context, Boolean.TRUE);
    LOG.info("Order chunk rebuild");
    return true;
  }
 private static int getCompilerSdkVersion(CompileContext context) {
   final Integer cached = JAVA_COMPILER_VERSION_KEY.get(context);
   if (cached != null) {
     return cached;
   }
   int javaVersion = convertToNumber(SystemProperties.getJavaVersion());
   if (!USE_EMBEDDED_JAVAC) {
     // in case of external javac, run compiler from the newest jdk that is used in the project
     for (JpsSdk<?> sdk : context.getProjectDescriptor().getProjectJavaSdks()) {
       final String version = sdk.getVersionString();
       final int ver = convertToNumber(version);
       if (ver > javaVersion) {
         javaVersion = ver;
       }
     }
   }
   JAVA_COMPILER_VERSION_KEY.set(context, javaVersion);
   return javaVersion;
 }
  @Override
  public final ExitCode build(
      CompileContext context,
      ModuleChunk chunk,
      DirtyFilesHolder<JavaSourceRootDescriptor, ModuleBuildTarget> dirtyFilesHolder,
      OutputConsumer outputConsumer)
      throws ProjectBuildException, IOException {
    if (outputConsumer.getCompiledClasses().isEmpty() || !isEnabled(context, chunk)) {
      return ExitCode.NOTHING_DONE;
    }

    final String progress = getProgressMessage();
    final boolean shouldShowProgress = !StringUtil.isEmptyOrSpaces(progress);
    if (shouldShowProgress) {
      context.processMessage(new ProgressMessage(progress + " [" + chunk.getName() + "]"));
    }

    ExitCode exitCode = ExitCode.NOTHING_DONE;
    try {
      InstrumentationClassFinder finder = CLASS_FINDER.get(context); // try using shared finder
      if (finder == null) {
        final Collection<File> platformCp =
            ProjectPaths.getPlatformCompilationClasspath(chunk, false);
        final Collection<File> classpath = new ArrayList<File>();
        classpath.addAll(ProjectPaths.getCompilationClasspath(chunk, false));
        classpath.addAll(ProjectPaths.getSourceRootsWithDependents(chunk).keySet());

        finder = createInstrumentationClassFinder(platformCp, classpath, outputConsumer);
        CLASS_FINDER.set(context, finder);
      }

      exitCode = performBuild(context, chunk, finder, outputConsumer);
    } finally {
      if (shouldShowProgress) {
        context.processMessage(new ProgressMessage("")); // cleanup progress
      }
    }
    return exitCode;
  }
 public static boolean fileProcessed(VirtualFile file) {
   return FILE_PROCESSED_KEY.get(file) != null;
 }
 @Override
 public int compare(LookupElement o1, LookupElement o2) {
   String invariant = PRESENTATION_INVARIANT.get(o1);
   assert invariant != null;
   return invariant.compareToIgnoreCase(PRESENTATION_INVARIANT.get(o2));
 }
Пример #15
0
 private Boolean hasFilesToCompileForNextRound(CompileContext context) {
   return !myForStubs && FILES_MARKED_DIRTY_FOR_NEXT_ROUND.get(context, Boolean.FALSE);
 }
Пример #16
0
  public ModuleLevelBuilder.ExitCode build(final CompileContext context, ModuleChunk chunk)
      throws ProjectBuildException {
    try {
      final List<File> toCompile = collectChangedFiles(context, chunk);
      if (toCompile.isEmpty()) {
        return ExitCode.NOTHING_DONE;
      }

      String moduleOutput = getModuleOutput(context, chunk);
      String compilerOutput = getCompilerOutput(moduleOutput);

      final Set<String> toCompilePaths = new LinkedHashSet<String>();
      for (File file : toCompile) {
        toCompilePaths.add(FileUtil.toSystemIndependentName(file.getPath()));
      }

      Map<String, String> class2Src =
          buildClassToSourceMap(chunk, context, toCompilePaths, moduleOutput);

      String ideCharset = chunk.getProject().getProjectCharset();
      String encoding =
          !Comparing.equal(CharsetToolkit.getDefaultSystemCharset().name(), ideCharset)
              ? ideCharset
              : null;
      List<String> patchers = Collections.emptyList(); // todo patchers
      final File tempFile =
          GroovycOSProcessHandler.fillFileWithGroovycParameters(
              compilerOutput,
              toCompilePaths,
              FileUtil.toSystemDependentName(moduleOutput),
              class2Src,
              encoding,
              patchers);

      // todo different outputs in a chunk
      // todo xmx
      final List<String> cmd =
          ExternalProcessUtil.buildJavaCommandLine(
              getJavaExecutable(chunk),
              "org.jetbrains.groovy.compiler.rt.GroovycRunner",
              Collections.<String>emptyList(),
              new ArrayList<String>(generateClasspath(context, chunk)),
              Arrays.asList(
                  "-Xmx384m",
                  "-Dfile.encoding=" + CharsetToolkit.getDefaultSystemCharset().name() /*,
                      "-Xrunjdwp:transport=dt_socket,server=y,suspend=y,address=5239"*/),
              Arrays.<String>asList(myForStubs ? "stubs" : "groovyc", tempFile.getPath()));

      final Process process = Runtime.getRuntime().exec(ArrayUtil.toStringArray(cmd));
      GroovycOSProcessHandler handler =
          GroovycOSProcessHandler.runGroovyc(
              process,
              new Consumer<String>() {
                public void consume(String s) {
                  context.processMessage(new ProgressMessage(s));
                }
              });

      if (handler.shouldRetry()) {
        if (CHUNK_REBUILD_ORDERED.get(context) != null) {
          CHUNK_REBUILD_ORDERED.set(context, null);
        } else {
          CHUNK_REBUILD_ORDERED.set(context, Boolean.TRUE);
          return ExitCode.CHUNK_REBUILD_REQUIRED;
        }
      }

      if (myForStubs) {
        JavaBuilder.addTempSourcePathRoot(context, new File(compilerOutput));
      }

      for (CompilerMessage message : handler.getCompilerMessages()) {
        context.processMessage(message);
      }
      if (!myForStubs
          && updateDependencies(
              context, chunk, toCompile, moduleOutput, handler.getSuccessfullyCompiled())) {
        return ExitCode.ADDITIONAL_PASS_REQUIRED;
      }
      return ExitCode.OK;
    } catch (Exception e) {
      throw new ProjectBuildException(e);
    }
  }
  @Override
  public ExitCode build(
      final CompileContext context,
      ModuleChunk chunk,
      DirtyFilesHolder<JavaSourceRootDescriptor, ModuleBuildTarget> dirtyFilesHolder,
      OutputConsumer outputConsumer)
      throws ProjectBuildException, IOException {
    if (!useGreclipse(context)) return ModuleLevelBuilder.ExitCode.NOTHING_DONE;

    try {
      final List<File> toCompile =
          GroovyBuilder.collectChangedFiles(
              context, dirtyFilesHolder, false, true, Ref.create(false));
      if (toCompile.isEmpty()) {
        return ExitCode.NOTHING_DONE;
      }

      Map<ModuleBuildTarget, String> outputDirs =
          GroovyBuilder.getCanonicalModuleOutputs(context, chunk, this);
      if (outputDirs == null) {
        return ExitCode.ABORT;
      }

      JpsProject project = context.getProjectDescriptor().getProject();
      GreclipseSettings greclipseSettings = GreclipseJpsCompilerSettings.getSettings(project);
      if (greclipseSettings == null) {
        String message = "Compiler settings component not initialized for " + project;
        LOG.error(message);
        context.processMessage(
            new CompilerMessage(getPresentableName(), BuildMessage.Kind.ERROR, message));
        return ExitCode.ABORT;
      }

      ClassLoader loader = createGreclipseLoader(greclipseSettings.greclipsePath);
      if (loader == null) {
        context.processMessage(
            new CompilerMessage(
                getPresentableName(),
                BuildMessage.Kind.ERROR,
                "Invalid jar path in the compiler settings: '"
                    + greclipseSettings.greclipsePath
                    + "'"));
        return ExitCode.ABORT;
      }

      final JpsJavaExtensionService javaExt = JpsJavaExtensionService.getInstance();
      final JpsJavaCompilerConfiguration compilerConfig = javaExt.getCompilerConfiguration(project);
      assert compilerConfig != null;

      final Set<JpsModule> modules = chunk.getModules();
      ProcessorConfigProfile profile = null;
      if (modules.size() == 1) {
        profile = compilerConfig.getAnnotationProcessingProfile(modules.iterator().next());
      } else {
        String message = JavaBuilder.validateCycle(chunk, javaExt, compilerConfig, modules);
        if (message != null) {
          context.processMessage(
              new CompilerMessage(getPresentableName(), BuildMessage.Kind.ERROR, message));
          return ExitCode.ABORT;
        }
      }

      String mainOutputDir = outputDirs.get(chunk.representativeTarget());
      final List<String> args =
          createCommandLine(context, chunk, toCompile, mainOutputDir, profile, greclipseSettings);

      if (Utils.IS_TEST_MODE || LOG.isDebugEnabled()) {
        LOG.debug("Compiling with args: " + args);
      }

      Boolean notified = COMPILER_VERSION_INFO.get(context);
      if (notified != Boolean.TRUE) {
        context.processMessage(
            new CompilerMessage(
                "",
                BuildMessage.Kind.INFO,
                "Using Groovy-Eclipse to compile Java & Groovy sources"));
        COMPILER_VERSION_INFO.set(context, Boolean.TRUE);
      }

      context.processMessage(
          new ProgressMessage("Compiling java & groovy [" + chunk.getPresentableShortName() + "]"));

      StringWriter out = new StringWriter();
      StringWriter err = new StringWriter();
      HashMap<String, List<String>> outputMap = ContainerUtil.newHashMap();

      boolean success = performCompilation(args, out, err, outputMap, context, chunk);

      List<GroovycOutputParser.OutputItem> items = ContainerUtil.newArrayList();
      for (String src : outputMap.keySet()) {
        //noinspection ConstantConditions
        for (String classFile : outputMap.get(src)) {
          items.add(
              new GroovycOutputParser.OutputItem(
                  FileUtil.toSystemIndependentName(mainOutputDir + classFile),
                  FileUtil.toSystemIndependentName(src)));
        }
      }
      Map<ModuleBuildTarget, Collection<GroovycOutputParser.OutputItem>> successfullyCompiled =
          GroovyBuilder.processCompiledFiles(context, chunk, outputDirs, mainOutputDir, items);

      EclipseOutputParser parser = new EclipseOutputParser(getPresentableName(), chunk);
      List<CompilerMessage> messages =
          ContainerUtil.concat(
              parser.parseMessages(out.toString()), parser.parseMessages(err.toString()));
      boolean hasError = false;
      for (CompilerMessage message : messages) {
        if (message.getKind() == BuildMessage.Kind.ERROR) {
          hasError = true;
        }
        context.processMessage(message);
      }

      if (!success && !hasError) {
        context.processMessage(
            new CompilerMessage(
                getPresentableName(), BuildMessage.Kind.ERROR, "Compilation failed"));
      }

      GroovyBuilder.updateDependencies(
          context, toCompile, successfullyCompiled, outputConsumer, this);
      return ExitCode.OK;

    } catch (Exception e) {
      throw new ProjectBuildException(e);
    }
  }