Ejemplo n.º 1
1
  // tokenizes a string for PBM and PGM headers and plain PBM and PGM data.  If oneChar is true,
  // then
  // rather than parsing a whole string, a single character is read (not including whitespace or
  // comments)
  static String tokenizeString(InputStream stream, boolean oneChar) throws IOException {
    final int EOF = -1;

    StringBuilder b = new StringBuilder();
    int c;
    boolean inComment = false;

    while (true) {
      c = stream.read();
      if (c == EOF)
        throw new IOException(
            "Stream ended prematurely, before table reading was completed."); // no more tokens
      else if (inComment) {
        if (c == '\r' || c == '\n') // escape the comment
        inComment = false;
        else {
        } // do nothing
      } else if (Character.isWhitespace((char) c)) {
      } // do nothing
      else if (c == '#') // start of a comment
      {
        inComment = true;
      } else // start of a string
      {
        b.append((char) c);
        break;
      }
    }

    if (oneChar) return b.toString();

    // at this point we have a valid string.  We read until whitespace or a #
    while (true) {
      c = stream.read();
      if (c == EOF) break;
      else if (c == '#') // start of comment, read until a '\n'
      {
        while (true) {
          c = stream.read(); // could hit EOF, which is fine
          if (c == EOF) break;
          else if (c == '\r' || c == '\n') break;
        }
        // break;   // comments are not delimiters
      } else if (Character.isWhitespace((char) c)) break;
      else b.append((char) c);
    }
    return b.toString();
  }
Ejemplo n.º 2
0
 public void mouseMoved(MouseEvent e) {
   int k = html.viewToModel(e.getPoint());
   if (html.hasFocus() && html.getSelectionStart() <= k && k < html.getSelectionEnd()) {
     setMessage("(on selection)", MOVE);
     return;
   }
   String s = text.getText(); // "";
   int m = s.length(); // html.getDocument().getLength();
   /*try {
          s = html.getText(0, m);
      } catch (BadLocationException x) {
   setMessage("BadLocation "+m, TEXT); return;
      } */
   if (!Character.isLetter(s.charAt(k))) {
     setMessage("(not a letter)", TEXT);
     return;
   }
   selB = k;
   selE = k + 1;
   while (!Character.isWhitespace(s.charAt(selB - 1))) selB--;
   while (!Character.isWhitespace(s.charAt(selE))) selE++;
   setMessage(selB + "-" + selE, HAND);
   word = "";
   for (int i = selB; i < selE; i++) if (Character.isLetter(s.charAt(i))) word += s.charAt(i);
   html.setToolTipText(word);
 }
Ejemplo n.º 3
0
  private boolean isToStopAt(char toCheck, char former) {
    if (isInStopAtArray(former) || isInStopAtArray(toCheck)) {
      return true;
    } else if (false == Character.isWhitespace(former) && Character.isWhitespace(toCheck)
        || Character.isWhitespace(former) && false == Character.isWhitespace(toCheck))
    //     else if(Character.isWhitespace(former) && false == Character.isWhitespace(toCheck))
    {
      return true;
    }

    return false;
  }
Ejemplo n.º 4
0
  String cleanupSource(String source) {
    if (source.isEmpty()) {
      return source.concat("\n");
    }

    int lastChIdx = source.length() - 1;
    if (source.charAt(lastChIdx) != '\n') {
      // Append a newline at the end
      source = source.concat("\n");
    } else {
      // Remove all newlines at the end but one
      while (lastChIdx >= 1) {
        Character ch1 = source.charAt(lastChIdx);
        if (ch1 == '\n' || Character.isWhitespace(ch1)) {
          source = source.substring(0, lastChIdx--);
        } else {
          break;
        }
      }

      source = source.concat("\n");
    }

    return source;
  }
Ejemplo n.º 5
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)*/;
 }
Ejemplo n.º 6
0
 public static int[] findspaces(String text) {
   java.util.List<Integer> l = new ArrayList<Integer>();
   for (int i = 0; i < text.length(); i++) {
     char c = text.charAt(i);
     if (Character.isWhitespace(c)) l.add(i);
   }
   int[] ret = new int[l.size()];
   for (int i = 0; i < ret.length; i++) ret[i] = l.get(i);
   return (ret);
 }
Ejemplo n.º 7
0
  /**
   * This is the write() method of the stream. All Writer subclasses implement this. All other
   * versions of write() are variants of this one
   */
  public void write(char[] buffer, int index, int len) {
    synchronized (this.lock) {
      // Loop through all the characters passed to us
      for (int i = index; i < index + len; i++) {
        // If we haven't begun a page (or a new page), do that now.
        if (page == null) newpage();

        // If the character is a line terminator, then begin new line,
        // unless it is a \n immediately after a \r.
        if (buffer[i] == '\n') {
          if (!last_char_was_return) newline();
          continue;
        }
        if (buffer[i] == '\r') {
          newline();
          last_char_was_return = true;
          continue;
        } else last_char_was_return = false;

        // If it some other non-printing character, ignore it.
        if (Character.isWhitespace(buffer[i])
            && !Character.isSpaceChar(buffer[i])
            && (buffer[i] != '\t')) continue;

        // If no more characters will fit on the line, start a new line.
        if (charnum >= chars_per_line) {
          newline();
          if (page == null) newpage(); // and start a new page, if necessary
        }

        // Now print the character:
        // If it is a space, skip one space, without output.
        // If it is a tab, skip the necessary number of spaces.
        // Otherwise, print the character.
        // It is inefficient to draw only one character at a time, but
        // because our FontMetrics don't match up exactly to what the
        // printer uses we need to position each character individually.
        if (Character.isSpaceChar(buffer[i])) charnum++;
        else if (buffer[i] == '\t') charnum += 8 - (charnum % 8);
        else {
          page.drawChars(
              buffer, i, 1, x0 + charnum * charwidth, y0 + (linenum * lineheight) + lineascent);
          charnum++;
        }
      }
    }
  }
Ejemplo n.º 8
0
 public String ucWords(String wordsToConvert) {
   wordsToConvert = wordsToConvert.toLowerCase();
   Boolean ucChar = false;
   String convertedString = "";
   for (int i = 0; i < wordsToConvert.length(); i++) {
     if (i == 0 | ucChar) {
       convertedString += Character.toUpperCase(wordsToConvert.charAt(i));
     } else {
       convertedString += Character.toString(wordsToConvert.charAt(i));
     }
     if (Character.isWhitespace(wordsToConvert.charAt(i))) {
       ucChar = true;
     } else {
       ucChar = false;
     }
   }
   return convertedString;
 }
Ejemplo n.º 9
0
  protected static String parsePhrase(final String lineText) {

    boolean overloading = false;

    { // Check if we can provide suggestions for this phrase ending
      String trimmedLineText = lineText.trim();
      if (trimmedLineText.length() == 0) return null;

      char lastChar = trimmedLineText.charAt(trimmedLineText.length() - 1);
      if (lastChar == '.') {
        trimmedLineText = trimmedLineText.substring(0, trimmedLineText.length() - 1).trim();
        if (trimmedLineText.length() == 0) return null;
        lastChar = trimmedLineText.charAt(trimmedLineText.length() - 1);
        switch (lastChar) {
          case ')':
          case ']':
          case '"':
            break; // We can suggest for these
          default:
            if (!Character.isJavaIdentifierPart(lastChar)) {
              return null; // Not something we can suggest
            }
            break;
        }
      } else if (lastChar == '(') {
        overloading = true; // We can suggest overloaded methods
      } else if (!Character.isJavaIdentifierPart(lastChar)) {
        return null; // Not something we can suggest
      }
    }

    final int currentCharIndex = lineText.length() - 1;

    { // Check if the caret is in the comment
      int commentStart = lineText.indexOf("//", 0);
      if (commentStart >= 0 && currentCharIndex > commentStart) {
        return null;
      }
    }

    // Index the line
    BitSet isInLiteral = new BitSet(lineText.length());
    BitSet isInBrackets = new BitSet(lineText.length());

    { // Mark parts in literals
      boolean inString = false;
      boolean inChar = false;
      boolean inEscaped = false;

      for (int i = 0; i < lineText.length(); i++) {
        if (!inEscaped) {
          switch (lineText.charAt(i)) {
            case '\"':
              if (!inChar) inString = !inString;
              break;
            case '\'':
              if (!inString) inChar = !inChar;
              break;
            case '\\':
              if (inString || inChar) {
                inEscaped = true;
              }
              break;
          }
        } else {
          inEscaped = false;
        }
        isInLiteral.set(i, inString || inChar);
      }
    }

    if (isInLiteral.get(currentCharIndex)) return null;

    { // Mark parts in top level brackets
      int depth = overloading ? 1 : 0;
      int bracketStart = overloading ? lineText.length() : 0;
      int squareDepth = 0;
      int squareBracketStart = 0;

      bracketLoop:
      for (int i = lineText.length() - 1; i >= 0; i--) {
        if (!isInLiteral.get(i)) {
          switch (lineText.charAt(i)) {
            case ')':
              if (depth == 0) bracketStart = i;
              depth++;
              break;
            case '(':
              depth--;
              if (depth == 0) {
                isInBrackets.set(i, bracketStart);
              } else if (depth < 0) {
                break bracketLoop;
              }
              break;
            case ']':
              if (squareDepth == 0) squareBracketStart = i;
              squareDepth++;
              break;
            case '[':
              squareDepth--;
              if (squareDepth == 0) {
                isInBrackets.set(i, squareBracketStart);
              } else if (squareDepth < 0) {
                break bracketLoop;
              }
              break;
          }
        }
      }

      if (depth > 0) isInBrackets.set(0, bracketStart);
      if (squareDepth > 0) isInBrackets.set(0, squareBracketStart);
    }

    // Walk the line from the end while it makes sense
    int position = currentCharIndex;
    parseLoop:
    while (position >= 0) {
      int currChar = lineText.charAt(position);
      switch (currChar) {
        case '.': // Grab it
          position--;
          break;
        case '[':
          break parseLoop; // End of scope
        case ']': // Grab the whole region in square brackets
          position = isInBrackets.previousClearBit(position - 1);
          break;
        case '(':
          if (isInBrackets.get(position)) {
            position--; // This checks for first bracket while overloading
            break;
          }
          break parseLoop; // End of scope
        case ')': // Grab the whole region in brackets
          position = isInBrackets.previousClearBit(position - 1);
          break;
        case '"': // Grab the whole literal and quit
          position = isInLiteral.previousClearBit(position - 1);
          break parseLoop;
        default:
          if (Character.isJavaIdentifierPart(currChar)) {
            position--; // Grab the identifier
          } else if (Character.isWhitespace(currChar)) {
            position--; // Grab whitespace too
          } else {
            break parseLoop; // Got a char ending the phrase
          }
          break;
      }
    }

    position++;

    // Extract phrase
    String phrase = lineText.substring(position, lineText.length()).trim();
    Messages.log(phrase);

    if (phrase.length() == 0 || Character.isDigit(phrase.charAt(0))) {
      return null; // Can't suggest for numbers or empty phrases
    }

    return phrase;
  }
  public void keyTyped(KeyEvent e) {
    if (debug) {
      System.out.println(
          "--- RecordingModule: key typed = "
              + e
              + "\n  > Key char->int = "
              + (int) e.getKeyChar());
      System.out.println(" -- isActionKey() = " + e.isActionKey());
      System.out.println(" -- isISOControl() = " + Character.isISOControl(e.getKeyChar()));
      System.out.println(" -- isWhitespace() = " + Character.isWhitespace(e.getKeyChar()));
    }

    if (isKeyReserved(e)) {
      return;
    }

    if (enabled && !readOnly && lastKeyPressEvent != null) {

      if (enableKeyboard) {
        boolean replace = false;
        String text = "";
        if (isControl(e)) {
          if (lastKeyPressEvent.getKeyCode() == KeyEvent.VK_ENTER) {

            // Change the Type cmd prior to Typeline if the delay from the last type key is less
            // than 1 sec
            if (useTypeline && e.getModifiers() == 0 && lastElement != null) {
              String s = DocumentUtils.getElementText(lastElement);
              if (s.startsWith("Type ")
                  && (System.currentTimeMillis() - lastInsertTime) < typelineDelay) {
                replace = true;
                text = s.replaceFirst("Type", "Typeline");
              }
            }
          }

          if ("".equals(text)) {
            int count = 1;
            KeyEvent e2;

            long lastEventTime = e.getWhen();

            // We go through the vector of events and check whether there are events corresponding
            // to a typed text.
            for (int i = 0; i < events.size() && events.get(i) instanceof KeyEvent; i++) {
              e2 = (KeyEvent) events.get(i);
              if (e.getID() == e2.getID()
                  && e.getKeyChar() == e2.getKeyChar()
                  && e.getKeyCode() == e2.getKeyCode()
                  && e.getModifiers() == e2.getModifiers()
                  && (lastEventTime - e2.getWhen() < keyMutiDelay)) {
                count++;
                replace = true;
                lastEventTime = e2.getWhen();
              } else {
                break;
              }
            }

            text = "Press ";
            //                    String modifiers = KeyEvent.getKeyModifiersText(e.getModifiers());
            String modifiers = parser.modifiersToString(e.getModifiers());
            if (!"".equals(modifiers)) {
              text += modifiers + "+";
            }
            String charText = KeyEvent.getKeyText(lastKeyPressEvent.getKeyCode());
            if (charText == null) {
              charText = "<unknown>";
            }
            text += charText;
            if (count > 1) {
              text += " " + PressCommand.PARAM_COUNT + "=" + count;
            }

            if (debug) {
              System.out.println("--- RecordingModule: Inserting '" + text + "'");
            }
          }

        } else {
          text = "" + e.getKeyChar();
          KeyEvent e2;

          // We go through the vector of events and check whether there are events corresponding to
          // a typed text.
          for (int i = 0; i < events.size() && events.get(i) instanceof KeyEvent; i++) {
            e2 = (KeyEvent) events.get(i);
            if (!isControl(e2) && !e2.isActionKey()) {
              text = e2.getKeyChar() + text;
              replace = true;
            } else {
              break;
            }
          }

          text = "Type \"" + Utils.escapeUnescapedDoubleQuotes(text) + "\"";
        }

        // Insert the command to the current editor
        insertLine(text, replace, true, false);
      }
      insertEvent(e);
    }
  }
Ejemplo n.º 11
0
  @Override
  protected void initChildren(Element eThis) throws OmException {
    Node nPrevious = eThis.getPreviousSibling();
    if (nPrevious != null && nPrevious instanceof Text) {
      String sText = ((Text) nPrevious).getData();
      if (sText.length() > 0 && Character.isWhitespace(sText.charAt(sText.length() - 1)))
        bSpaceBefore = true;
    }
    Node nAfter = eThis.getNextSibling();
    if (nAfter != null && nAfter instanceof Text) {
      String sText = ((Text) nAfter).getData();
      if (sText.length() > 0 && Character.isWhitespace(sText.charAt(0))) bSpaceAfter = true;
    }

    List<Place> lPlaces = new LinkedList<Place>();
    int iPlace = 0;
    StringBuffer sbText = new StringBuffer();
    for (Node n = eThis.getFirstChild(); n != null; n = n.getNextSibling()) {
      if (n instanceof Element) {
        Element eplace = (Element) n;
        if (!eplace.getTagName().equals("eplace"))
          throw new OmFormatException("<equation> may only contain text and <eplace> tags");
        Element[] aeChildren = XML.getChildren(eplace);
        QComponent qcChild;
        boolean bImplicit = false;
        if (aeChildren.length != 1) // Treats more than one child as inside <t>
        {
          qcChild = getQDocument().build(this, eplace, "t");
          bImplicit = true;
        } else // Treats single child as specific component (auto-sizing works)
        qcChild = getQDocument().build(this, aeChildren[0], null);
        addChild(qcChild); // Must be stored in standard child array so it
        // can be found etc.

        // See if width/height is specified
        int iWidth, iHeight;
        if (eplace.hasAttribute("width") && eplace.hasAttribute("height")) {
          try {
            iWidth = Integer.parseInt(eplace.getAttribute("width"));
            iHeight = Integer.parseInt(eplace.getAttribute("height"));
          } catch (NumberFormatException nfe) {
            throw new OmFormatException("<equation> <eplace>: width= and height= must be integers");
          }
        } else {
          Dimension d = qcChild.getApproximatePixelSize();
          if (d == null)
            throw new OmFormatException(
                "<equation> <eplace>: Except for components that support automatic "
                    + "size estimation and fixing, <eplace> must include width= and height=");
          iWidth = d.width;
          iHeight = d.height;
        }

        Place p = new Place();
        p.sID = "p" + (iPlace++);
        p.qc = qcChild;
        p.iWidth = iWidth;
        p.iHeight = iHeight;
        p.bImplicit = bImplicit;
        if (!eplace.hasAttribute("label"))
          throw new OmFormatException("<equation> <eplace>: Must include label=");
        if (eplace.hasAttribute("label")) p.sLabel = eplace.getAttribute("label");
        else p.sLabel = null;
        if (eplace.hasAttribute("for")) p.sLabelFor = eplace.getAttribute("for");
        else if (qcChild instanceof Labelable) p.sLabelFor = qcChild.getID();
        lPlaces.add(p);

        // Add in the equation format text representing the placeholder
        sbText.append("\\placeholder{" + p.sID + "}{" + p.iWidth + "," + p.iHeight + "}");
      } else if (n instanceof Text) {
        sbText.append(n.getNodeValue());
      }
    }
    sEquation = sbText.toString();
    apPlaces = lPlaces.toArray(new Place[0]);
  }
Ejemplo n.º 12
0
 /**
  * Checks whether the character is a delimiter.
  *
  * @param character the character to check
  * @return true if a delimiter
  */
 public boolean isDelimiter(String character) {
   return Character.isWhitespace(character.charAt(0))
       || (m_Delimiters.indexOf(character.charAt(0)) > -1);
 }