public void testTypingDoesNotInterfereWithDuplicates() throws Exception {
    SliceTreeStructure treeStructure = configureTree("DupSlice");
    SliceNode root = (SliceNode) treeStructure.getRootElement();
    List<SliceNode> nodes = new ArrayList<SliceNode>();
    expandNodesTo(root, nodes);

    for (int i = 0; i < nodes.size() - 1; i++) {
      SliceNode node = nodes.get(i);
      assertNull(node.getDuplicate());
    }
    SliceNode last = nodes.get(nodes.size() - 1);
    assertNotNull(last.getDuplicate());

    type("   xx");
    PsiDocumentManager.getInstance(getProject()).commitAllDocuments();
    backspace();
    backspace();
    PsiDocumentManager.getInstance(getProject()).commitAllDocuments();

    nodes.clear();
    expandNodesTo(root, nodes);
    for (int i = 0; i < nodes.size() - 1; i++) {
      SliceNode node = nodes.get(i);
      assertNull(node.getDuplicate());
    }
    assertNotNull(last.getDuplicate());
  }
 private static String buildAllMethodNamesString(
     String allMethodNames, List<MethodEntry> parents) {
   StringBuffer allMN = new StringBuffer(120);
   allMN.append(allMethodNames);
   if (allMN.length() > 0) {
     allMN.append(".");
   }
   if (parents.size() > 1) {
     allMN.append("[");
   }
   {
     boolean first = true;
     for (MethodEntry entry : parents) {
       if (!first) {
         allMN.append(",");
       }
       first = false;
       allMN.append(((PsiMethod) entry.myEnd).getName());
     }
   }
   if (parents.size() > 1) {
     allMN.append("]");
   }
   return allMN.toString();
 }
  @Override
  public UsageView showUsages(
      UsageInfo[] usages,
      UsageViewPresentation presentation,
      UsageViewManager manager,
      PsiElement[] elements) {
    final List<PsiElement> overridingMethods = new ArrayList<>();
    final List<UsageInfo> others = new ArrayList<>();
    for (UsageInfo usage : usages) {
      if (usage instanceof SafeDeleteOverridingMethodUsageInfo) {
        overridingMethods.add(((SafeDeleteOverridingMethodUsageInfo) usage).getOverridingMethod());
      } else {
        others.add(usage);
      }
    }

    UsageTarget[] targets = new UsageTarget[elements.length + overridingMethods.size()];
    for (int i = 0; i < targets.length; i++) {
      if (i < elements.length) {
        targets[i] = new PsiElement2UsageTargetAdapter(elements[i]);
      } else {
        targets[i] = new PsiElement2UsageTargetAdapter(overridingMethods.get(i - elements.length));
      }
    }

    return manager.showUsages(
        targets,
        UsageInfoToUsageConverter.convert(elements, others.toArray(new UsageInfo[others.size()])),
        presentation);
  }
Beispiel #4
0
  @NotNull
  public List<String> createConversions(@NotNull PsiCallExpression expression) {
    PsiExpressionList argumentList = expression.getArgumentList();
    PsiExpression[] arguments =
        argumentList != null ? argumentList.getExpressions() : new PsiExpression[] {};
    List<String> conversions = new LinkedList<String>();
    //noinspection UnusedDeclaration
    for (PsiExpression a : arguments) {
      conversions.add("");
    }

    PsiMethod resolve = expression.resolveMethod();
    if (resolve != null) {
      List<PsiType> expectedTypes = new LinkedList<PsiType>();
      List<PsiType> actualTypes = new LinkedList<PsiType>();

      for (PsiParameter p : resolve.getParameterList().getParameters())
        expectedTypes.add(p.getType());

      for (PsiExpression e : arguments) actualTypes.add(e.getType());

      if (conversions.size() == actualTypes.size() && actualTypes.size() == expectedTypes.size()) {
        for (int i = 0; i < actualTypes.size(); i++)
          conversions.set(i, createConversionForExpression(arguments[i], expectedTypes.get(i)));
      }
    }
    return conversions;
  }
  private <T> boolean findListToRemoveFrom(
      @NotNull String name,
      @NotNull final List<T> elements,
      final Convertor<T, AbstractUrl> convertor) {
    Collection<TreeItem<Pair<AbstractUrl, String>>> list = getFavoritesListRootUrls(name);
    if (elements.size() > 1) {
      final List<T> sublist = elements.subList(0, elements.size() - 1);
      for (T obj : sublist) {
        AbstractUrl objUrl = convertor.convert(obj);
        final TreeItem<Pair<AbstractUrl, String>> item = findNextItem(objUrl, list);
        if (item == null || item.getChildren() == null) return false;
        list = item.getChildren();
      }
    }

    TreeItem<Pair<AbstractUrl, String>> found = null;
    AbstractUrl url = convertor.convert(elements.get(elements.size() - 1));
    if (url == null) return false;
    for (TreeItem<Pair<AbstractUrl, String>> pair : list) {
      if (url.equals(pair.getData().getFirst())) {
        found = pair;
        break;
      }
    }

    if (found != null) {
      list.remove(found);
      fireListeners.rootsChanged(name);
      return true;
    }
    return false;
  }
 @Override
 public void visitListOrMap(GrListOrMap listOrMap) {
   if (listOrMap.isMap()) return;
   final TypeConstraint[] constraints = calculateTypeConstraints(listOrMap);
   List<PsiType> result = new ArrayList<PsiType>(constraints.length);
   for (TypeConstraint constraint : constraints) {
     if (constraint instanceof SubtypeConstraint) {
       final PsiType type = constraint.getType();
       final PsiType iterable =
           com.intellij.psi.util.PsiUtil.extractIterableTypeParameter(type, true);
       if (iterable != null) {
         result.add(iterable);
       }
     }
   }
   if (result.size() == 0) {
     myResult = TypeConstraint.EMPTY_ARRAY;
   } else {
     myResult = new TypeConstraint[result.size()];
     for (int i = 0; i < result.size(); i++) {
       final PsiType type = result.get(i);
       if (type != null) {
         myResult[i] = SubtypeConstraint.create(type);
       }
     }
   }
 }
  @Override
  public boolean equals(Object o) {
    if (this == o) {
      return true;
    }
    if (o == null || getClass() != o.getClass()) {
      return false;
    }

    DocumentFoldingInfo info = (DocumentFoldingInfo) o;

    if (myFile != null ? !myFile.equals(info.myFile) : info.myFile != null) {
      return false;
    }
    if (!myProject.equals(info.myProject)
        || !myPsiElements.equals(info.myPsiElements)
        || !mySerializedElements.equals(info.mySerializedElements)) {
      return false;
    }

    if (myRangeMarkers.size() != info.myRangeMarkers.size()) return false;
    for (int i = 0; i < myRangeMarkers.size(); i++) {
      RangeMarker marker = myRangeMarkers.get(i);
      RangeMarker other = info.myRangeMarkers.get(i);
      if (marker == other || !marker.isValid() || !other.isValid()) {
        continue;
      }
      if (!TextRange.areSegmentsEqual(marker, other)) return false;

      FoldingInfo fi = marker.getUserData(FOLDING_INFO_KEY);
      FoldingInfo ofi = other.getUserData(FOLDING_INFO_KEY);
      if (!Comparing.equal(fi, ofi)) return false;
    }
    return true;
  }
Beispiel #8
0
  @Nullable
  private PsiDirectory chooseDirectory(final Project project, final PsiFile file) {
    PsiDirectory preferredDirectory =
        myWritableDirectoryList.isEmpty() ? null : myWritableDirectoryList.get(0);
    final ProjectFileIndex fileIndex = ProjectRootManager.getInstance(project).getFileIndex();
    final VirtualFile virtualFile = file.getVirtualFile();
    assert virtualFile != null;
    final Module moduleForFile = fileIndex.getModuleForFile(virtualFile);
    if (myWritableDirectoryList.size() > 1
        && !ApplicationManager.getApplication().isUnitTestMode()) {
      if (moduleForFile != null) {
        for (PsiDirectory directory : myWritableDirectoryList) {
          if (fileIndex.getModuleForFile(directory.getVirtualFile()) == moduleForFile) {
            preferredDirectory = directory;
            break;
          }
        }
      }

      return DirectoryChooserUtil.chooseDirectory(
          myWritableDirectoryList.toArray(new PsiDirectory[myWritableDirectoryList.size()]),
          preferredDirectory,
          project,
          new HashMap<PsiDirectory, String>());
    }
    return preferredDirectory;
  }
  @Override
  public void addEntryPoint(@NotNull RefElement newEntryPoint, boolean isPersistent) {
    if (!newEntryPoint.isValid()) return;
    if (isPersistent) {
      if (newEntryPoint instanceof RefMethod && ((RefMethod) newEntryPoint).isConstructor()
          || newEntryPoint instanceof RefClass) {
        final ClassPattern classPattern = new ClassPattern();
        classPattern.pattern = new SmartRefElementPointerImpl(newEntryPoint, true).getFQName();
        getPatterns().add(classPattern);

        final EntryPointsManager entryPointsManager =
            getInstance(newEntryPoint.getElement().getProject());
        if (this != entryPointsManager) {
          entryPointsManager.addEntryPoint(newEntryPoint, true);
        }

        return;
      }
    }

    if (newEntryPoint instanceof RefClass) {
      RefClass refClass = (RefClass) newEntryPoint;

      if (refClass.isAnonymous()) {
        // Anonymous class cannot be an entry point.
        return;
      }

      List<RefMethod> refConstructors = refClass.getConstructors();
      if (refConstructors.size() == 1) {
        addEntryPoint(refConstructors.get(0), isPersistent);
      } else if (refConstructors.size() > 1) {
        // Many constructors here. Need to ask user which ones are used
        for (RefMethod refConstructor : refConstructors) {
          addEntryPoint(refConstructor, isPersistent);
        }
      }
    }

    if (!isPersistent) {
      myTemporaryEntryPoints.add(newEntryPoint);
      ((RefElementImpl) newEntryPoint).setEntry(true);
    } else {
      if (myPersistentEntryPoints.get(newEntryPoint.getExternalName()) == null) {
        final SmartRefElementPointerImpl entry =
            new SmartRefElementPointerImpl(newEntryPoint, true);
        myPersistentEntryPoints.put(entry.getFQName(), entry);
        ((RefElementImpl) newEntryPoint).setEntry(true);
        ((RefElementImpl) newEntryPoint).setPermanentEntry(true);
        if (entry.isPersistent()) { // do save entry points
          final EntryPointsManager entryPointsManager =
              getInstance(newEntryPoint.getElement().getProject());
          if (this != entryPointsManager) {
            entryPointsManager.addEntryPoint(newEntryPoint, true);
          }
        }
      }
    }
  }
 /** a = S & a = T imply S = T */
 private void eqEq(List<PsiType> eqBounds) {
   for (int i = 0; i < eqBounds.size(); i++) {
     PsiType sBound = eqBounds.get(i);
     for (int j = i + 1; j < eqBounds.size(); j++) {
       final PsiType tBound = eqBounds.get(j);
       addConstraint(new TypeEqualityConstraint(tBound, sBound));
     }
   }
 }
 public String toString() {
   return "MethodEntry "
       + myEnd.toString()
       + "; calls "
       + myCalledMethods.size()
       + ", called by "
       + myCalledByMethods.size()
       + ", nParameters="
       + nParameters;
 }
Beispiel #12
0
  public static ClassFilter[] readFilters(List<Element> children) throws InvalidDataException {
    if (ContainerUtil.isEmpty(children)) {
      return ClassFilter.EMPTY_ARRAY;
    }

    ClassFilter[] filters = new ClassFilter[children.size()];
    for (int i = 0, size = children.size(); i < size; i++) {
      filters[i] = create(children.get(i));
    }
    return filters;
  }
 @Override
 public void generatePlaces() {
   final PatternCompiler<PsiElement> compiler = getCompiler();
   List<String> patternString = getPatternString(this);
   InjectionPlace[] places = InjectionPlace.ARRAY_FACTORY.create(patternString.size());
   for (int i = 0, patternStringSize = patternString.size(); i < patternStringSize; i++) {
     String text = patternString.get(i);
     places[i] = new InjectionPlace(compiler.createElementPattern(text, getDisplayName()), true);
   }
   setInjectionPlaces(places);
 }
 public static ClassFilter[] readFilters(List children) throws InvalidDataException {
   if (children == null || children.size() == 0) {
     return ClassFilter.EMPTY_ARRAY;
   }
   List<ClassFilter> classFiltersList = new ArrayList<ClassFilter>(children.size());
   for (Iterator i = children.iterator(); i.hasNext(); ) {
     final ClassFilter classFilter = new ClassFilter();
     classFilter.readExternal((Element) i.next());
     classFiltersList.add(classFilter);
   }
   return classFiltersList.toArray(new ClassFilter[classFiltersList.size()]);
 }
 public void removeRootByIndexes(String name, List<Integer> elementsIndexes) {
   List<TreeItem<Pair<AbstractUrl, String>>> list = getFavoritesListRootUrls(name);
   assert list != null;
   for (Integer index : elementsIndexes.subList(0, elementsIndexes.size() - 1)) {
     assert index >= 0 && index < list.size();
     final TreeItem<Pair<AbstractUrl, String>> item = list.get(index);
     list = item.getChildren();
   }
   assert list != null && !list.isEmpty();
   list.remove(elementsIndexes.get(elementsIndexes.size() - 1).intValue());
   fireListeners.rootsChanged(name);
 }
Beispiel #16
0
  /** Return class names form jet sources in given scope which should be visible as Java classes. */
  @NotNull
  @Override
  public PsiClass[] getClassesByName(
      @NotNull @NonNls String name, @NotNull GlobalSearchScope scope) {
    List<PsiClass> result = new ArrayList<PsiClass>();

    IDELightClassGenerationSupport lightClassGenerationSupport =
        IDELightClassGenerationSupport.getInstanceForIDE(project);
    MultiMap<String, FqName> packageClasses =
        lightClassGenerationSupport.getAllPackageClasses(scope);

    // .namespace classes can not be indexed, since they have no explicit declarations
    Collection<FqName> fqNames = packageClasses.get(name);
    if (!fqNames.isEmpty()) {
      for (FqName fqName : fqNames) {
        PsiClass psiClass =
            JavaElementFinder.getInstance(project).findClass(fqName.getFqName(), scope);
        if (psiClass != null) {
          result.add(psiClass);
        }
      }
    }

    // Quick check for classes from getAllClassNames()
    Collection<JetClassOrObject> classOrObjects =
        JetShortClassNameIndex.getInstance().get(name, project, scope);
    if (classOrObjects.isEmpty()) {
      return result.toArray(new PsiClass[result.size()]);
    }

    for (JetClassOrObject classOrObject : classOrObjects) {
      FqName fqName = JetPsiUtil.getFQName(classOrObject);
      if (fqName != null) {
        assert fqName.shortName().getName().equals(name)
            : "A declaration obtained from index has non-matching name:\n"
                + "in index: "
                + name
                + "\n"
                + "declared: "
                + fqName.shortName()
                + "("
                + fqName
                + ")";
        PsiClass psiClass =
            JavaElementFinder.getInstance(project).findClass(fqName.getFqName(), scope);
        if (psiClass != null) {
          result.add(psiClass);
        }
      }
    }

    return result.toArray(new PsiClass[result.size()]);
  }
  private static void processCallerMethod(
      JavaChangeInfo changeInfo,
      PsiMethod caller,
      PsiMethod baseMethod,
      boolean toInsertParams,
      boolean toInsertThrows)
      throws IncorrectOperationException {
    LOG.assertTrue(toInsertParams || toInsertThrows);
    if (toInsertParams) {
      List<PsiParameter> newParameters = new ArrayList<PsiParameter>();
      ContainerUtil.addAll(newParameters, caller.getParameterList().getParameters());
      final JavaParameterInfo[] primaryNewParms = changeInfo.getNewParameters();
      PsiSubstitutor substitutor =
          baseMethod == null
              ? PsiSubstitutor.EMPTY
              : ChangeSignatureProcessor.calculateSubstitutor(caller, baseMethod);
      for (JavaParameterInfo info : primaryNewParms) {
        if (info.getOldIndex() < 0)
          newParameters.add(createNewParameter(changeInfo, info, substitutor));
      }
      PsiParameter[] arrayed = newParameters.toArray(new PsiParameter[newParameters.size()]);
      boolean[] toRemoveParm = new boolean[arrayed.length];
      Arrays.fill(toRemoveParm, false);
      resolveParameterVsFieldsConflicts(arrayed, caller, caller.getParameterList(), toRemoveParm);
    }

    if (toInsertThrows) {
      List<PsiJavaCodeReferenceElement> newThrowns = new ArrayList<PsiJavaCodeReferenceElement>();
      final PsiReferenceList throwsList = caller.getThrowsList();
      ContainerUtil.addAll(newThrowns, throwsList.getReferenceElements());
      final ThrownExceptionInfo[] primaryNewExns = changeInfo.getNewExceptions();
      for (ThrownExceptionInfo thrownExceptionInfo : primaryNewExns) {
        if (thrownExceptionInfo.getOldIndex() < 0) {
          final PsiClassType type =
              (PsiClassType) thrownExceptionInfo.createType(caller, caller.getManager());
          final PsiJavaCodeReferenceElement ref =
              JavaPsiFacade.getInstance(caller.getProject())
                  .getElementFactory()
                  .createReferenceElementByType(type);
          newThrowns.add(ref);
        }
      }
      PsiJavaCodeReferenceElement[] arrayed =
          newThrowns.toArray(new PsiJavaCodeReferenceElement[newThrowns.size()]);
      boolean[] toRemoveParm = new boolean[arrayed.length];
      Arrays.fill(toRemoveParm, false);
      ChangeSignatureUtil.synchronizeList(
          throwsList, Arrays.asList(arrayed), ThrowsList.INSTANCE, toRemoveParm);
    }
  }
Beispiel #18
0
  private static boolean elementListsEqual(List<Element> l1, List<Element> l2) {
    if (l1 == null) return l2 == null;
    if (l2 == null) return false;

    if (l1.size() != l2.size()) return false;

    Iterator<Element> i1 = l1.iterator();

    for (Element aL2 : l2) {
      Element elem1 = i1.next();

      if (!elementsEqual(elem1, aL2)) return false;
    }
    return true;
  }
  private static PsiAnnotationMemberValue[] readFromClass(
      @NonNls String attributeName, @NotNull PsiAnnotation magic, PsiType type) {
    PsiAnnotationMemberValue fromClassAttr = magic.findAttributeValue(attributeName);
    PsiType fromClassType =
        fromClassAttr instanceof PsiClassObjectAccessExpression
            ? ((PsiClassObjectAccessExpression) fromClassAttr).getOperand().getType()
            : null;
    PsiClass fromClass =
        fromClassType instanceof PsiClassType ? ((PsiClassType) fromClassType).resolve() : null;
    if (fromClass == null) return null;
    String fqn = fromClass.getQualifiedName();
    if (fqn == null) return null;
    List<PsiAnnotationMemberValue> constants = new ArrayList<PsiAnnotationMemberValue>();
    for (PsiField field : fromClass.getFields()) {
      if (!field.hasModifierProperty(PsiModifier.PUBLIC)
          || !field.hasModifierProperty(PsiModifier.STATIC)
          || !field.hasModifierProperty(PsiModifier.FINAL)) continue;
      PsiType fieldType = field.getType();
      if (!Comparing.equal(fieldType, type)) continue;
      PsiAssignmentExpression e =
          (PsiAssignmentExpression)
              JavaPsiFacade.getElementFactory(field.getProject())
                  .createExpressionFromText("x=" + fqn + "." + field.getName(), field);
      PsiReferenceExpression refToField = (PsiReferenceExpression) e.getRExpression();
      constants.add(refToField);
    }
    if (constants.isEmpty()) return null;

    return constants.toArray(new PsiAnnotationMemberValue[constants.size()]);
  }
  private static void logStats(Collection<PsiFile> otherFiles, long start) {
    long time = System.currentTimeMillis() - start;

    final Multiset<String> stats = HashMultiset.create();
    for (PsiFile file : otherFiles) {
      stats.add(
          StringUtil.notNullize(file.getViewProvider().getVirtualFile().getExtension())
              .toLowerCase());
    }

    List<String> extensions = ContainerUtil.newArrayList(stats.elementSet());
    Collections.sort(
        extensions,
        new Comparator<String>() {
          @Override
          public int compare(String o1, String o2) {
            return stats.count(o2) - stats.count(o1);
          }
        });

    String message =
        "Search in "
            + otherFiles.size()
            + " files with unknown types took "
            + time
            + "ms.\n"
            + "Mapping their extensions to an existing file type (e.g. Plain Text) might speed up the search.\n"
            + "Most frequent non-indexed file extensions: ";
    for (int i = 0; i < Math.min(10, extensions.size()); i++) {
      String extension = extensions.get(i);
      message += extension + "(" + stats.count(extension) + ") ";
    }
    LOG.info(message);
  }
  @NotNull
  public UsageInfo[] findUsages() {
    myRenamers.clear();
    ArrayList<UsageInfo> result = new ArrayList<UsageInfo>();

    List<PsiElement> elements = new ArrayList<PsiElement>(myAllRenames.keySet());
    //noinspection ForLoopReplaceableByForEach
    for (int i = 0; i < elements.size(); i++) {
      PsiElement element = elements.get(i);
      final String newName = myAllRenames.get(element);
      final UsageInfo[] usages =
          RenameUtil.findUsages(
              element, newName, mySearchInComments, mySearchTextOccurrences, myAllRenames);
      final List<UsageInfo> usagesList = Arrays.asList(usages);
      result.addAll(usagesList);

      for (AutomaticRenamerFactory factory : myRenamerFactories) {
        if (factory.isApplicable(element)) {
          myRenamers.add(factory.createRenamer(element, newName, usagesList));
        }
      }

      for (AutomaticRenamerFactory factory :
          Extensions.getExtensions(AutomaticRenamerFactory.EP_NAME)) {
        if (factory.getOptionName() == null && factory.isApplicable(element)) {
          myRenamers.add(factory.createRenamer(element, newName, usagesList));
        }
      }
    }
    UsageInfo[] usageInfos = result.toArray(new UsageInfo[result.size()]);
    usageInfos = UsageViewUtil.removeDuplicatedUsages(usageInfos);
    return usageInfos;
  }
Beispiel #22
0
    @NotNull
    @Override
    public GroovyResolveResult[] getCandidates() {
      if (!hasCandidates()) return GroovyResolveResult.EMPTY_ARRAY;
      final GroovyResolveResult[] results =
          ResolveUtil.filterSameSignatureCandidates(getCandidatesInternal());
      List<GroovyResolveResult> list = new ArrayList<GroovyResolveResult>(results.length);
      myPropertyNames.removeAll(myPreferredFieldNames);

      Set<String> usedFields = ContainerUtil.newHashSet();
      for (GroovyResolveResult result : results) {
        final PsiElement element = result.getElement();
        if (element instanceof PsiField) {
          final String name = ((PsiField) element).getName();
          if (myPropertyNames.contains(name)
              || myLocalVars.contains(name)
              || usedFields.contains(name)) {
            continue;
          } else {
            usedFields.add(name);
          }
        }

        list.add(result);
      }
      return list.toArray(new GroovyResolveResult[list.size()]);
    }
 @Override
 @Nullable
 public PsiClass[] getUnThrownExceptions() {
   if (getRefManager().isOfflineView()) {
     LOG.debug("Should not traverse graph offline");
   }
   if (myUnThrownExceptions == null) return null;
   JavaPsiFacade facade = JavaPsiFacade.getInstance(myManager.getProject());
   List<PsiClass> result = new ArrayList<PsiClass>(myUnThrownExceptions.size());
   for (String exception : myUnThrownExceptions) {
     PsiClass element =
         facade.findClass(exception, GlobalSearchScope.allScope(myManager.getProject()));
     if (element != null) result.add(element);
   }
   return result.toArray(new PsiClass[result.size()]);
 }
  public void updateThrowsList(PsiClassType exceptionType) {
    if (!getSuperMethods().isEmpty()) {
      for (RefMethod refSuper : getSuperMethods()) {
        ((RefMethodImpl) refSuper).updateThrowsList(exceptionType);
      }
    } else if (myUnThrownExceptions != null) {
      if (exceptionType == null) {
        myUnThrownExceptions = null;
        return;
      }
      PsiClass exceptionClass = exceptionType.resolve();
      JavaPsiFacade facade = JavaPsiFacade.getInstance(myManager.getProject());
      for (int i = myUnThrownExceptions.size() - 1; i >= 0; i--) {
        String exceptionFqn = myUnThrownExceptions.get(i);
        PsiClass classType =
            facade.findClass(
                exceptionFqn, GlobalSearchScope.allScope(getRefManager().getProject()));
        if (InheritanceUtil.isInheritorOrSelf(exceptionClass, classType, true)
            || InheritanceUtil.isInheritorOrSelf(classType, exceptionClass, true)) {
          myUnThrownExceptions.remove(i);
        }
      }

      if (myUnThrownExceptions.isEmpty()) myUnThrownExceptions = null;
    }
  }
  private void processUsagesPerFile(UsageInfo[] usages) {
    Map<PsiFile, List<EncapsulateFieldUsageInfo>> usagesInFiles =
        new HashMap<PsiFile, List<EncapsulateFieldUsageInfo>>();
    for (UsageInfo usage : usages) {
      PsiElement element = usage.getElement();
      if (element == null) continue;
      final PsiFile file = element.getContainingFile();
      List<EncapsulateFieldUsageInfo> usagesInFile = usagesInFiles.get(file);
      if (usagesInFile == null) {
        usagesInFile = new ArrayList<EncapsulateFieldUsageInfo>();
        usagesInFiles.put(file, usagesInFile);
      }
      usagesInFile.add(((EncapsulateFieldUsageInfo) usage));
    }

    for (List<EncapsulateFieldUsageInfo> usageInfos : usagesInFiles.values()) {
      // this is to avoid elements to become invalid as a result of processUsage
      final EncapsulateFieldUsageInfo[] infos =
          usageInfos.toArray(new EncapsulateFieldUsageInfo[usageInfos.size()]);
      CommonRefactoringUtil.sortDepthFirstRightLeftOrder(infos);

      for (EncapsulateFieldUsageInfo info : infos) {
        EncapsulateFieldHelper helper =
            EncapsulateFieldHelper.getHelper(info.getElement().getLanguage());
        helper.processUsage(
            info,
            myDescriptor,
            myNameToSetter.get(info.getFieldDescriptor().getSetterName()),
            myNameToGetter.get(info.getFieldDescriptor().getGetterName()));
      }
    }
  }
 private static PsiClassType[] filterCheckedExceptions(PsiClassType[] exceptions) {
   List<PsiClassType> result = new ArrayList<PsiClassType>();
   for (PsiClassType exceptionType : exceptions) {
     if (!ExceptionUtil.isUncheckedException(exceptionType)) result.add(exceptionType);
   }
   return result.toArray(new PsiClassType[result.size()]);
 }
  @NotNull
  private static PsiSubstitutor replaceVariables(Collection<InferenceVariable> inferenceVariables) {
    final List<InferenceVariable> targetVars = new ArrayList<InferenceVariable>();
    PsiSubstitutor substitutor = PsiSubstitutor.EMPTY;
    final InferenceVariable[] oldVars =
        inferenceVariables.toArray(new InferenceVariable[inferenceVariables.size()]);
    for (InferenceVariable variable : oldVars) {
      final InferenceVariable newVariable =
          new InferenceVariable(
              variable.getCallContext(), variable.getParameter(), variable.getName());
      substitutor =
          substitutor.put(
              variable,
              JavaPsiFacade.getElementFactory(variable.getProject()).createType(newVariable));
      targetVars.add(newVariable);
      if (variable.isThrownBound()) {
        newVariable.setThrownBound();
      }
    }

    for (int i = 0; i < targetVars.size(); i++) {
      InferenceVariable var = targetVars.get(i);
      for (InferenceBound boundType : InferenceBound.values()) {
        for (PsiType bound : oldVars[i].getBounds(boundType)) {
          var.addBound(substitutor.substitute(bound), boundType, null);
        }
      }
    }
    return substitutor;
  }
  @NotNull
  public static String buildStringToFindForIndicesFromRegExp(
      @NotNull String stringToFind, @NotNull Project project) {
    if (!Registry.is("idea.regexp.search.uses.indices")) return "";

    final AccessToken accessToken = ReadAction.start();
    try {
      final List<PsiElement> topLevelRegExpChars = getTopLevelRegExpChars("a", project);
      if (topLevelRegExpChars.size() != 1) return "";

      // leave only top level regExpChars
      return StringUtil.join(
          getTopLevelRegExpChars(stringToFind, project),
          new Function<PsiElement, String>() {
            final Class regExpCharPsiClass = topLevelRegExpChars.get(0).getClass();

            @Override
            public String fun(PsiElement element) {
              return regExpCharPsiClass.isInstance(element) ? element.getText() : " ";
            }
          },
          "");
    } finally {
      accessToken.finish();
    }
  }
 @NotNull
 public static PsiClassType[] getImplementsListTypes(GrTypeDefinition grType) {
   Set<PsiClass> visited = new HashSet<PsiClass>();
   List<PsiClassType> result = new ArrayList<PsiClassType>();
   getImplementListsInner(grType, result, visited);
   return result.toArray(new PsiClassType[result.size()]);
 }
Beispiel #30
0
 @NotNull
 public static PsiElement[] findSuperElements(@NotNull PsiElement element) {
   if (element instanceof PsiClass) {
     PsiClass aClass = (PsiClass) element;
     List<PsiClass> allSupers = new ArrayList<>(Arrays.asList(aClass.getSupers()));
     for (Iterator<PsiClass> iterator = allSupers.iterator(); iterator.hasNext(); ) {
       PsiClass superClass = iterator.next();
       if (CommonClassNames.JAVA_LANG_OBJECT.equals(superClass.getQualifiedName()))
         iterator.remove();
     }
     return allSupers.toArray(new PsiClass[allSupers.size()]);
   }
   if (element instanceof PsiMethod) {
     PsiMethod method = (PsiMethod) element;
     if (method.isConstructor()) {
       PsiMethod constructorInSuper = PsiSuperMethodUtil.findConstructorInSuper(method);
       if (constructorInSuper != null) {
         return new PsiMethod[] {constructorInSuper};
       }
     } else {
       PsiMethod[] superMethods = method.findSuperMethods(false);
       if (superMethods.length == 0) {
         PsiMethod superMethod = getSiblingInheritedViaSubClass(method);
         if (superMethod != null) {
           superMethods = new PsiMethod[] {superMethod};
         }
       }
       return superMethods;
     }
   }
   return PsiElement.EMPTY_ARRAY;
 }