/*
* 03/16/2013
*
* VisibleWhitespaceTokenPainter - Renders tokens in an instance of
* RSyntaxTextArea, with special glyphs to denote spaces and tabs.
*
* This library is distributed under a modified BSD license. See the included
* RSyntaxTextArea.License.txt file for details.
*/
package org.fife.ui.rsyntaxtextarea;
import java.awt.Color;
import java.awt.FontMetrics;
import java.awt.Graphics2D;
import javax.swing.text.TabExpander;
/**
* A token painter that visibly renders whitespace (spaces and tabs).<p>
*
* The current implementation paints as follows:
* <ul>
* <li>The first tab or space, if any, is found in the token.</li>
* <li>If a tab was found, all characters up to it are painted as a
* group.</li>
* <li>If a space was found, all characters up to and including it are
* painted (it is painted with a special symbol to denote it as
* a space).</li>
* <li>If neither a tab nor a whitespace was found, all characters in the
* token are painted.</li>
* <li>Repeat until all characters are painted.</li>
* </ul>
* This means that rendering hints are applied to all groups of characters
* within a token, excluding whitespace and tabs.<p>
*
* A problem with this implementation is that FontMetrics.charsWidth() is still
* used to calculate the width of a group of chars painted. Thus, the group of
* characters will be painted with the rendering hints specified, but the
* following tab (or group of characters if the current group was the end of a
* token) will not necessarily be painted at the proper x-coordinate (as
* FontMetrics.charsWidth() returns an <code>int</code> and not a
* <code>float</code>). The way around this would be to calculate the token's
* width in such a way that a float is returned (Font.getStringBounds()?).
*
* @author Robert Futrell
* @version 1.0
*/
class VisibleWhitespaceTokenPainter extends DefaultTokenPainter {
/**
* {@inheritDoc}
*/
@Override
protected float paintImpl(Token token, Graphics2D g, float x, float y,
RSyntaxTextArea host, TabExpander e, float clipStart,
boolean selected) {
int origX = (int)x;
int textOffs = token.getTextOffset();
char[] text = token.getTextArray();
int end = textOffs + token.length();
float nextX = x;
int flushLen = 0;
int flushIndex = textOffs;
Color fg, bg;
if (selected) {
fg = host.getSelectedTextColor();
bg = null;
}
else {
fg = host.getForegroundForToken(token);
bg = host.getBackgroundForToken(token);
}
g.setFont(host.getFontForTokenType(token.getType()));
FontMetrics fm = host.getFontMetricsForTokenType(token.getType());
int ascent = fm.getAscent();
int height = fm.getHeight();
for (int i=textOffs; i<end; i++) {
switch (text[i]) {
case '\t':
// Fill in background.
nextX = x+fm.charsWidth(text, flushIndex,flushLen);
float nextNextX = e.nextTabStop(nextX, 0);
if (bg!=null) {
paintBackground(x,y, nextNextX-x,height, g,
ascent, host, bg, !selected);
}
g.setColor(fg);
// Paint chars cached before the tab.
if (flushLen > 0) {
g.drawChars(text, flushIndex, flushLen, (int)x,(int)y);
flushLen = 0;
}
flushIndex = i + 1;
// Draw an arrow representing the tab.
int halfHeight = height / 2;
int quarterHeight = halfHeight / 2;
int ymid = (int)y - ascent + halfHeight;
g.drawLine((int)nextX,ymid, (int)nextNextX,ymid);
g.drawLine((int)nextNextX,ymid, (int)nextNextX-4,ymid-quarterHeight);
g.drawLine((int)nextNextX,ymid, (int)nextNextX-4,ymid+quarterHeight);
x = nextNextX;
break;
case ' ':
// NOTE: There is a little bit of a "fudge factor"
// here when "smooth text" is enabled, as "width"
// below may well not be the width given to the space
// by fm.charsWidth() (it depends on how it places the
// space with respect to the preceding character).
// But, we assume the approximation is close enough for
// our drawing a dot for the space.
// "flushLen+1" ensures text is aligned correctly (or,
// aligned the same as in getWidth()).
nextX = x+fm.charsWidth(text, flushIndex,flushLen+1);
int width = fm.charWidth(' ');
// Paint background.
if (bg!=null) {
paintBackground(x,y, nextX-x,height, g,
ascent, host, bg, !selected);
}
g.setColor(fg);
// Paint chars before space.
if (flushLen>0) {
g.drawChars(text, flushIndex, flushLen, (int)x,(int)y);
flushLen = 0;
}
// Paint a dot representing the space.
int dotX = (int)(nextX - width/2f); // "2.0f" for FindBugs
int dotY = (int)(y - ascent + height/2f); // Ditto
g.drawLine(dotX, dotY, dotX, dotY);
flushIndex = i + 1;
x = nextX;
break;
case '\f':
// ???
// fall-through for now.
default:
flushLen += 1;
break;
}
}
nextX = x+fm.charsWidth(text, flushIndex,flushLen);
if (flushLen>0 && nextX>=clipStart) {
if (bg!=null) {
paintBackground(x,y, nextX-x,height, g,
ascent, host, bg, !selected);
}
g.setColor(fg);
g.drawChars(text, flushIndex, flushLen, (int)x,(int)y);
}
if (host.getUnderlineForToken(token)) {
g.setColor(fg);
int y2 = (int)(y+1);
g.drawLine(origX,y2, (int)nextX,y2);
}
// Don't check if it's whitespace - some TokenMakers may return types
// other than Token.WHITESPACE for spaces (such as Token.IDENTIFIER).
// This also allows us to paint tab lines for MLC's.
if (host.getPaintTabLines() && origX==host.getMargin().left) {// && isWhitespace()) {
paintTabLines(token, origX, (int)y, (int)nextX, g, e, host);
}
return nextX;
}
}