Esempio n. 1
1
  private void updateTemplateFromEditor(PrintfTemplate template) {
    ArrayList params = new ArrayList();
    String format = null;
    int text_length = editorPane.getDocument().getLength();
    try {
      format = editorPane.getDocument().getText(0, text_length);
    } catch (BadLocationException ex1) {
    }
    Element section_el = editorPane.getDocument().getDefaultRootElement();
    // Get number of paragraphs.
    int num_para = section_el.getElementCount();
    for (int p_count = 0; p_count < num_para; p_count++) {
      Element para_el = section_el.getElement(p_count);
      // Enumerate the content elements
      int num_cont = para_el.getElementCount();
      for (int c_count = 0; c_count < num_cont; c_count++) {
        Element content_el = para_el.getElement(c_count);
        AttributeSet attr = content_el.getAttributes();
        // Get the name of the style applied to this content element; may be null
        String sn = (String) attr.getAttribute(StyleConstants.NameAttribute);
        // Check if style name match
        if (sn != null && sn.startsWith("Parameter")) {
          // we extract the label.
          JLabel l = (JLabel) StyleConstants.getComponent(attr);
          if (l != null) {
            params.add(l.getName());
          }
        }
      }
    }

    template.setFormat(format);
    template.setTokens(params);
  }
Esempio n. 2
1
    // TODO: make this a method of SikuliDocument, no need to pass document as argument
    private void changeIndentation(DefaultStyledDocument doc, int linenum, int columns)
        throws BadLocationException {
      PreferencesUser pref = PreferencesUser.getInstance();
      boolean expandTab = pref.getExpandTab();
      int tabWidth = pref.getTabWidth();

      if (linenum < 0) {
        throw new BadLocationException("Negative line", -1);
      }
      Element map = doc.getDefaultRootElement();
      if (linenum >= map.getElementCount()) {
        throw new BadLocationException("No such line", doc.getLength() + 1);
      }
      if (columns == 0) {
        return;
      }

      Element lineElem = map.getElement(linenum);
      int lineStart = lineElem.getStartOffset();
      int lineLength = lineElem.getEndOffset() - lineStart;
      String line = doc.getText(lineStart, lineLength);

      // determine current indentation and number of whitespace characters
      int wsChars;
      int indentation = 0;
      for (wsChars = 0; wsChars < line.length(); wsChars++) {
        char c = line.charAt(wsChars);
        if (c == ' ') {
          indentation++;
        } else if (c == '\t') {
          indentation += tabWidth;
        } else {
          break;
        }
      }

      int newIndentation = indentation + columns;
      if (newIndentation <= 0) {
        doc.remove(lineStart, wsChars);
        return;
      }

      // build whitespace string for new indentation
      StringBuilder newWs = new StringBuilder(newIndentation / tabWidth + tabWidth - 1);
      int ind = 0;
      if (!expandTab) {
        for (; ind + tabWidth <= newIndentation; ind += tabWidth) {
          newWs.append('\t');
        }
      }
      for (; ind < newIndentation; ind++) {
        newWs.append(' ');
      }
      doc.replace(lineStart, wsChars, newWs.toString(), null);
    }
  /**
   * Provides a mapping from the view coordinate space to the logical coordinate space of the model.
   *
   * @param fx the X coordinate &gt;= 0
   * @param fy the Y coordinate &gt;= 0
   * @param a the allocated region to render into
   * @return the location within the model that best represents the given point in the view &gt;= 0
   */
  @Override
  public int viewToModel(float fx, float fy, Shape a, Position.Bias[] bias) {

    bias[0] = Position.Bias.Forward;

    Rectangle alloc = a.getBounds();
    RSyntaxDocument doc = (RSyntaxDocument) getDocument();
    int x = (int) fx;
    int y = (int) fy;

    // If they're asking about a view position above the area covered by
    // this view, then the position is assumed to be the starting position
    // of this view.
    if (y < alloc.y) {
      return getStartOffset();
    }

    // If they're asking about a position below this view, the position
    // is assumed to be the ending position of this view.
    else if (y > alloc.y + alloc.height) {
      return host.getLastVisibleOffset();
    }

    // They're asking about a position within the coverage of this view
    // vertically.  So, we figure out which line the point corresponds to.
    // If the line is greater than the number of lines contained, then
    // simply use the last line as it represents the last possible place
    // we can position to.
    else {

      Element map = doc.getDefaultRootElement();
      int lineIndex = Math.abs((y - alloc.y) / lineHeight); // metrics.getHeight() );
      FoldManager fm = host.getFoldManager();
      // System.out.print("--- " + lineIndex);
      lineIndex += fm.getHiddenLineCountAbove(lineIndex, true);
      // System.out.println(" => " + lineIndex);
      if (lineIndex >= map.getElementCount()) {
        return host.getLastVisibleOffset();
      }

      Element line = map.getElement(lineIndex);

      // If the point is to the left of the line...
      if (x < alloc.x) {
        return line.getStartOffset();
      } else if (x > alloc.x + alloc.width) {
        return line.getEndOffset() - 1;
      } else {
        // Determine the offset into the text
        int p0 = line.getStartOffset();
        Token tokenList = doc.getTokenListForLine(lineIndex);
        tabBase = alloc.x;
        int offs = tokenList.getListOffset((RSyntaxTextArea) getContainer(), this, tabBase, x);
        return offs != -1 ? offs : p0;
      }
    } // End of else.
  }
 /**
  * Loads all of the children to initialize the view. This is called by the <code>setParent</code>
  * method. Subclasses can re-implement this to initialize their child views in a different manner.
  * The default implementation creates a child view for each child element.
  *
  * @param f the view factory
  */
 protected void loadChildren(ViewFactory f) {
   Element e = getElement();
   int n = e.getElementCount();
   if (n > 0) {
     View[] added = new View[n];
     for (int i = 0; i < n; i++) added[i] = new WrappedLine(e.getElement(i));
     replace(0, 0, added);
   }
 }
Esempio n. 5
0
 public int getLineStartOffset(int line) throws BadLocationException {
   // line starting from 0
   Element map = getDocument().getDefaultRootElement();
   if (line < 0) {
     throw new BadLocationException("Negative line", -1);
   } else if (line >= map.getElementCount()) {
     throw new BadLocationException("No such line", getDocument().getLength() + 1);
   } else {
     Element lineElem = map.getElement(line);
     return lineElem.getStartOffset();
   }
 }
 /**
  * Loads all of the children to initialize the view. This is called by the {@link #setParent}
  * method. Subclasses can reimplement this to initialize their child views in a different manner.
  * The default implementation creates a child view for each child element.
  *
  * @param f the view factory
  * @see #setParent
  */
 protected void loadChildren(ViewFactory f) {
   if (f == null) {
     // No factory. This most likely indicates the parent view
     // has changed out from under us, bail!
     return;
   }
   Element e = getElement();
   int n = e.getElementCount();
   if (n > 0) {
     View[] added = new View[n];
     for (int i = 0; i < n; i++) {
       added[i] = f.create(e.getElement(i));
     }
     replace(0, 0, added);
   }
 }
 /**
  * Iterate over the lines represented by the child elements of the element this view represents,
  * looking for the line that is the longest. The <em>longLine</em> variable is updated to
  * represent the longest line contained. The <em>font</em> variable is updated to indicate the
  * font used to calculate the longest line.
  */
 void calculateLongestLine() {
   Component c = getContainer();
   font = c.getFont();
   metrics = c.getFontMetrics(font);
   tabSize = getTabSize() * metrics.charWidth(' ');
   Element lines = getElement();
   int n = lines.getElementCount();
   for (int i = 0; i < n; i++) {
     Element line = lines.getElement(i);
     float w = getLineWidth(i);
     if (w > longLineWidth) {
       longLineWidth = w;
       longLine = line;
     }
   }
 }
Esempio n. 8
0
 private void parse(Element node) {
   if (!showThumbs) {
     // do not show any thumbnails
     return;
   }
   int count = node.getElementCount();
   for (int i = 0; i < count; i++) {
     Element elm = node.getElement(i);
     Debug.log(8, elm.toString());
     if (elm.isLeaf()) {
       int start = elm.getStartOffset(), end = elm.getEndOffset();
       parseRange(start, end);
     } else {
       parse(elm);
     }
   }
 }
Esempio n. 9
0
  /*
   *  Determine the Y offset for the current row
   */
  private int getOffsetY(int rowStartOffset, FontMetrics fontMetrics) throws BadLocationException {
    //  Get the bounding rectangle of the row

    Rectangle r = component.modelToView(rowStartOffset);
    int lineHeight = fontMetrics.getHeight();
    int y = r.y + r.height;
    int descent = 0;

    //  The text needs to be positioned above the bottom of the bounding
    //  rectangle based on the descent of the font(s) contained on the row.
    if (r.height == lineHeight) {
      // default font is being used
      descent = fontMetrics.getDescent();
    } else {
      // We need to check all the attributes for font changes
      if (fonts == null) {
        fonts = new HashMap<String, FontMetrics>();
      }

      Element root = component.getDocument().getDefaultRootElement();
      int index = root.getElementIndex(rowStartOffset);
      Element line = root.getElement(index);

      for (int i = 0; i < line.getElementCount(); i++) {
        Element child = line.getElement(i);
        AttributeSet as = child.getAttributes();
        String fontFamily = (String) as.getAttribute(StyleConstants.FontFamily);
        Integer fontSize = (Integer) as.getAttribute(StyleConstants.FontSize);
        String key = fontFamily + fontSize;

        FontMetrics fm = fonts.get(key);

        if (fm == null) {
          Font font = new Font(fontFamily, Font.PLAIN, fontSize);
          fm = component.getFontMetrics(font);
          fonts.put(key, fm);
        }

        descent = Math.max(descent, fm.getDescent());
      }
    }

    return y - descent;
  }
Esempio n. 10
0
  /** Calculate the width needed to display the maximum line number */
  private void setPreferredWidth() {
    Element root = component.getDocument().getDefaultRootElement();
    int lines = root.getElementCount();
    int digits = Math.max(String.valueOf(lines).length(), minimumDisplayDigits);

    //  Update sizes when number of digits in the line number changes
    if (lastDigits != digits) {
      lastDigits = digits;
      FontMetrics fontMetrics = getFontMetrics(getFont());
      int width = fontMetrics.charWidth('0') * digits;
      Insets insets = getInsets();
      int preferredWidth = insets.left + insets.right + width;

      Dimension d = getPreferredSize();
      d.setSize(preferredWidth, HEIGHT);
      setPreferredSize(d);
      setSize(d);
    }
  }
Esempio n. 11
0
 public boolean reparseCheckContent() {
   Element e = this.getDocument().getDefaultRootElement();
   String txt;
   if (e.getElementCount() > 2) {
     return false;
   } else if (e.getElement(1).getEndOffset() - e.getElement(1).getStartOffset() > 1) {
     return false;
   } else {
     int is = e.getElement(0).getStartOffset();
     int ie = e.getElement(0).getEndOffset();
     try {
       txt = e.getElement(0).getDocument().getText(is, ie - 1);
       if (txt.endsWith(Settings.TypeCommentToken)) {
         return true;
       }
     } catch (BadLocationException ex) {
       return false;
     }
   }
   return false;
 }
Esempio n. 12
0
 private int getFunctionStartOffset(String func, Element node) throws BadLocationException {
   Document doc = getDocument();
   int count = node.getElementCount();
   Pattern patDef = Pattern.compile("def\\s+" + func + "\\s*\\(");
   for (int i = 0; i < count; i++) {
     Element elm = node.getElement(i);
     if (elm.isLeaf()) {
       int start = elm.getStartOffset(), end = elm.getEndOffset();
       String line = doc.getText(start, end - start);
       Matcher matcher = patDef.matcher(line);
       if (matcher.find()) {
         return start;
       }
     } else {
       int p = getFunctionStartOffset(func, elm);
       if (p >= 0) {
         return p;
       }
     }
   }
   return -1;
 }
Esempio n. 13
0
 /**
  * Returns a token list for the <i>physical</i> line below the physical line containing the
  * specified offset into the document. Note that for this plain (non-wrapped) view, this is simply
  * the token list for the logical line below the line containing <code>offset</code>, since lines
  * are not wrapped.
  *
  * @param offset The offset in question.
  * @return A token list for the physical (and in this view, logical) line after this one. If
  *     <code>offset</code> is in the last physical line in the document, <code>null</code> is
  *     returned.
  */
 public Token getTokenListForPhysicalLineBelow(int offset) {
   RSyntaxDocument document = (RSyntaxDocument) getDocument();
   Element map = document.getDefaultRootElement();
   int lineCount = map.getElementCount();
   int line = map.getElementIndex(offset);
   if (!host.isCodeFoldingEnabled()) {
     if (line < lineCount - 1) {
       return document.getTokenListForLine(line + 1);
     }
   } else {
     FoldManager fm = host.getFoldManager();
     line = fm.getVisibleLineBelow(line);
     if (line >= 0 && line < lineCount) {
       return document.getTokenListForLine(line);
     }
   }
   //		int line = map.getElementIndex(offset);
   //		int lineCount = map.getElementCount();
   //		if (line<lineCount-1)
   //			return document.getTokenListForLine(line+1);
   return null;
 }
  /**
   * Actually paints the text area. Only lines that have been damaged are repainted.
   *
   * @param g The graphics context with which to paint.
   * @param a The allocated region in which to render.
   */
  @Override
  public void paint(Graphics g, Shape a) {

    RSyntaxDocument document = (RSyntaxDocument) getDocument();

    Rectangle alloc = a.getBounds();

    tabBase = alloc.x;
    host = (RSyntaxTextArea) getContainer();

    Rectangle clip = g.getClipBounds();
    // An attempt to speed things up for files with long lines.  Note that
    // this will actually slow things down a bit for the common case of
    // regular-length lines, but it doesn't make a perceivable difference.
    clipStart = clip.x;
    clipEnd = clipStart + clip.width;

    lineHeight = host.getLineHeight();
    ascent = host.getMaxAscent(); // metrics.getAscent();
    int heightAbove = clip.y - alloc.y;
    int linesAbove = Math.max(0, heightAbove / lineHeight);

    FoldManager fm = host.getFoldManager();
    linesAbove += fm.getHiddenLineCountAbove(linesAbove, true);
    Rectangle lineArea = lineToRect(a, linesAbove);
    int y = lineArea.y + ascent;
    int x = lineArea.x;
    Element map = getElement();
    int lineCount = map.getElementCount();

    // Whether token styles should always be painted, even in selections
    int selStart = host.getSelectionStart();
    int selEnd = host.getSelectionEnd();

    RSyntaxTextAreaHighlighter h = (RSyntaxTextAreaHighlighter) host.getHighlighter();

    Graphics2D g2d = (Graphics2D) g;
    Token token;
    // System.err.println("Painting lines: " + linesAbove + " to " + (endLine-1));

    TokenPainter painter = host.getTokenPainter();
    int line = linesAbove;
    // int count = 0;
    while (y < clip.y + clip.height + ascent && line < lineCount) {

      Fold fold = fm.getFoldForLine(line);
      Element lineElement = map.getElement(line);
      int startOffset = lineElement.getStartOffset();
      // int endOffset = (line==lineCount ? lineElement.getEndOffset()-1 :
      //							lineElement.getEndOffset()-1);
      int endOffset = lineElement.getEndOffset() - 1; // Why always "-1"?
      h.paintLayeredHighlights(g2d, startOffset, endOffset, a, host, this);

      // Paint a line of text.
      token = document.getTokenListForLine(line);
      if (selStart == selEnd || startOffset >= selEnd || endOffset < selStart) {
        drawLine(painter, token, g2d, x, y, line);
      } else {
        // System.out.println("Drawing line with selection: " + line);
        drawLineWithSelection(painter, token, g2d, x, y, selStart, selEnd);
      }

      if (fold != null && fold.isCollapsed()) {

        // Visible indicator of collapsed lines
        Color c = RSyntaxUtilities.getFoldedLineBottomColor(host);
        if (c != null) {
          g.setColor(c);
          g.drawLine(x, y + lineHeight - ascent - 1, host.getWidth(), y + lineHeight - ascent - 1);
        }

        // Skip to next line to paint, taking extra care for lines with
        // block ends and begins together, e.g. "} else {"
        do {
          int hiddenLineCount = fold.getLineCount();
          if (hiddenLineCount == 0) {
            // Fold parser identified a zero-line fold region.
            // This is really a bug, but we'll be graceful here
            // and avoid an infinite loop.
            break;
          }
          line += hiddenLineCount;
          fold = fm.getFoldForLine(line);
        } while (fold != null && fold.isCollapsed());
      }

      y += lineHeight;
      line++;
      // count++;

    }

    // System.out.println("SyntaxView: lines painted=" + count);

  }