Ejemplo n.º 1
0
  private String getCaseCorrectedLookupString(LookupElement item) {
    String lookupString = item.getLookupString();
    if (item.isCaseSensitive()) {
      return lookupString;
    }

    final String prefix = itemPattern(item);
    final int length = prefix.length();
    if (length == 0 || !itemMatcher(item).prefixMatches(prefix)) return lookupString;
    boolean isAllLower = true;
    boolean isAllUpper = true;
    boolean sameCase = true;
    for (int i = 0; i < length && (isAllLower || isAllUpper || sameCase); i++) {
      final char c = prefix.charAt(i);
      boolean isLower = Character.isLowerCase(c);
      boolean isUpper = Character.isUpperCase(c);
      // do not take this kind of symbols into account ('_', '@', etc.)
      if (!isLower && !isUpper) continue;
      isAllLower = isAllLower && isLower;
      isAllUpper = isAllUpper && isUpper;
      sameCase = sameCase && isLower == Character.isLowerCase(lookupString.charAt(i));
    }
    if (sameCase) return lookupString;
    if (isAllLower) return lookupString.toLowerCase();
    if (isAllUpper) return StringUtil.toUpperCase(lookupString);
    return lookupString;
  }
Ejemplo n.º 2
0
 private boolean needToShiftWhiteSpaces(final DocumentEvent e) {
   if (!CharArrayUtil.containsOnlyWhiteSpaces(e.getNewFragment())
       || CharArrayUtil.containLineBreaks(e.getNewFragment())) return e.getOldLength() > 0;
   if (e.getOffset() == 0) return false;
   final char charBefore = myEditor.getDocument().getCharsSequence().charAt(e.getOffset() - 1);
   // final char charAfter = myEditor.getDocument().getCharsSequence().charAt(e.getOffset() +
   // e.getNewLength());
   return Character.isWhitespace(charBefore) /* || !Character.isWhitespace(charAfter)*/;
 }
 private boolean isLineEmpty(final int line) {
   final CharSequence chars = myDocument.getCharsSequence();
   int start = myDocument.getLineStartOffset(line);
   int end = Math.min(myDocument.getLineEndOffset(line), myDocument.getTextLength() - 1);
   for (int i = start; i <= end; i++) {
     if (!Character.isWhitespace(chars.charAt(i))) return false;
   }
   return true;
 }
 private static int getArgumentOffset(int caretOffset, String argument, CharSequence text) {
   int argumentOffset = caretOffset - argument.length();
   if (argumentOffset > 0 && text.charAt(argumentOffset - 1) == ' ') {
     if (argumentOffset - 2 >= 0
         && Character.isJavaIdentifierPart(text.charAt(argumentOffset - 2))) {
       argumentOffset--;
     }
   }
   return argumentOffset;
 }
  public static List<TemplateImpl> findMatchingTemplates(
      CharSequence text,
      int caretOffset,
      @Nullable Character shortcutChar,
      TemplateSettings settings,
      boolean hasArgument) {
    List<TemplateImpl> candidates = Collections.emptyList();
    for (int i = settings.getMaxKeyLength(); i >= 1; i--) {
      int wordStart = caretOffset - i;
      if (wordStart < 0) {
        continue;
      }
      String key = text.subSequence(wordStart, caretOffset).toString();
      if (Character.isJavaIdentifierStart(key.charAt(0))) {
        if (wordStart > 0 && Character.isJavaIdentifierPart(text.charAt(wordStart - 1))) {
          continue;
        }
      }

      candidates = settings.collectMatchingCandidates(key, shortcutChar, hasArgument);
      if (!candidates.isEmpty()) break;
    }
    return candidates;
  }
  public Map<TemplateImpl, String> findMatchingTemplates(
      final PsiFile file,
      Editor editor,
      @Nullable Character shortcutChar,
      TemplateSettings templateSettings) {
    final Document document = editor.getDocument();
    CharSequence text = document.getCharsSequence();
    final int caretOffset = editor.getCaretModel().getOffset();

    List<TemplateImpl> candidatesWithoutArgument =
        findMatchingTemplates(text, caretOffset, shortcutChar, templateSettings, false);

    int argumentOffset = passArgumentBack(text, caretOffset);
    String argument = null;
    if (argumentOffset >= 0) {
      argument = text.subSequence(argumentOffset, caretOffset).toString();
      if (argumentOffset > 0 && text.charAt(argumentOffset - 1) == ' ') {
        if (argumentOffset - 2 >= 0
            && Character.isJavaIdentifierPart(text.charAt(argumentOffset - 2))) {
          argumentOffset--;
        }
      }
    }
    List<TemplateImpl> candidatesWithArgument =
        findMatchingTemplates(text, argumentOffset, shortcutChar, templateSettings, true);

    if (candidatesWithArgument.isEmpty() && candidatesWithoutArgument.isEmpty()) {
      return null;
    }

    candidatesWithoutArgument =
        filterApplicableCandidates(file, caretOffset, candidatesWithoutArgument);
    candidatesWithArgument =
        filterApplicableCandidates(file, argumentOffset, candidatesWithArgument);
    Map<TemplateImpl, String> candidate2Argument = new HashMap<TemplateImpl, String>();
    addToMap(candidate2Argument, candidatesWithoutArgument, null);
    addToMap(candidate2Argument, candidatesWithArgument, argument);
    return candidate2Argument;
  }
 private static boolean isDelimiter(char c) {
   return !Character.isJavaIdentifierPart(c);
 }
  private void uncommentLine(int line) {
    Commenter commenter = myCommenters[line - myStartLine];
    if (commenter == null) commenter = findCommenter(line);
    if (commenter == null) return;

    final int startOffset = myStartOffsets[line - myStartLine];

    if (commenter instanceof SelfManagingCommenter) {
      final SelfManagingCommenter selfManagingCommenter = (SelfManagingCommenter) commenter;
      selfManagingCommenter.uncommentLine(
          line, startOffset, myDocument, myCommenterStateMap.get(selfManagingCommenter));
      return;
    }

    final int endOffset = myEndOffsets[line - myStartLine];
    if (startOffset == endOffset) {
      return;
    }
    String prefix = commenter.getLineCommentPrefix();
    if (prefix != null) {
      CharSequence chars = myDocument.getCharsSequence();

      if (commenter instanceof CommenterWithLineSuffix) {
        CommenterWithLineSuffix commenterWithLineSuffix = (CommenterWithLineSuffix) commenter;
        String suffix = commenterWithLineSuffix.getLineCommentSuffix();

        int theEnd = endOffset > 0 ? endOffset : myDocument.getLineEndOffset(line);
        while (theEnd > startOffset && Character.isWhitespace(chars.charAt(theEnd - 1))) {
          theEnd--;
        }

        String lineText = myDocument.getText(new TextRange(startOffset, theEnd));
        if (lineText.indexOf(suffix) != -1) {
          int start = startOffset + lineText.indexOf(suffix);
          myDocument.deleteString(start, start + suffix.length());
        }
      }

      boolean skipNewLine = false;
      boolean commented =
          CharArrayUtil.regionMatches(chars, startOffset, prefix)
              || (skipNewLine =
                  prefix.endsWith(" ")
                      && CharArrayUtil.regionMatches(chars, startOffset, prefix.trim() + "\n"));
      assert commented;

      int charsToDelete = skipNewLine ? prefix.trim().length() : prefix.length();
      int theEnd = endOffset > 0 ? endOffset : chars.length();
      // if there's exactly one space after line comment prefix and before the text that follows in
      // the same line, delete the space too
      if (startOffset + charsToDelete < theEnd - 1
          && chars.charAt(startOffset + charsToDelete) == ' ') {
        if (startOffset + charsToDelete == theEnd - 2
            || chars.charAt(startOffset + charsToDelete + 1) != ' ') {
          charsToDelete++;
        }
      }
      myDocument.deleteString(startOffset, startOffset + charsToDelete);
      return;
    }
    String text = myDocument.getCharsSequence().subSequence(startOffset, endOffset).toString();

    prefix = commenter.getBlockCommentPrefix();
    final String suffix = commenter.getBlockCommentSuffix();
    if (prefix == null || suffix == null) {
      return;
    }

    IntArrayList prefixes = new IntArrayList();
    IntArrayList suffixes = new IntArrayList();
    for (int position = 0; position < text.length(); ) {
      int prefixPos = text.indexOf(prefix, position);
      if (prefixPos == -1) {
        break;
      }
      prefixes.add(prefixPos);
      position = prefixPos + prefix.length();
      int suffixPos = text.indexOf(suffix, position);
      if (suffixPos == -1) {
        suffixPos = text.length() - suffix.length();
      }
      suffixes.add(suffixPos);
      position = suffixPos + suffix.length();
    }

    assert prefixes.size() == suffixes.size();

    for (int i = prefixes.size() - 1; i >= 0; i--) {
      uncommentRange(
          startOffset + prefixes.get(i),
          Math.min(startOffset + suffixes.get(i) + suffix.length(), endOffset),
          commenter);
    }
  }