/* * @(#)CLSFractal.java 1.15 10/03/23 * * Copyright (c) 2006, Oracle and/or its affiliates. All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions are met: * * -Redistribution of source code must retain the above copyright notice, this * list of conditions and the following disclaimer. * * -Redistribution in binary form must reproduce the above copyright notice, * this list of conditions and the following disclaimer in the documentation * and/or other materials provided with the distribution. * * Neither the name of Oracle or the names of contributors may * be used to endorse or promote products derived from this software without * specific prior written permission. * * This software is provided "AS IS," without a warranty of any kind. ALL * EXPRESS OR IMPLIED CONDITIONS, REPRESENTATIONS AND WARRANTIES, INCLUDING * ANY IMPLIED WARRANTY OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE * OR NON-INFRINGEMENT, ARE HEREBY EXCLUDED. SUN MICROSYSTEMS, INC. ("SUN") * AND ITS LICENSORS SHALL NOT BE LIABLE FOR ANY DAMAGES SUFFERED BY LICENSEE * AS A RESULT OF USING, MODIFYING OR DISTRIBUTING THIS SOFTWARE OR ITS * DERIVATIVES. IN NO EVENT WILL SUN OR ITS LICENSORS BE LIABLE FOR ANY LOST * REVENUE, PROFIT OR DATA, OR FOR DIRECT, INDIRECT, SPECIAL, CONSEQUENTIAL, * INCIDENTAL OR PUNITIVE DAMAGES, HOWEVER CAUSED AND REGARDLESS OF THE THEORY * OF LIABILITY, ARISING OUT OF THE USE OF OR INABILITY TO USE THIS SOFTWARE, * EVEN IF SUN HAS BEEN ADVISED OF THE POSSIBILITY OF SUCH DAMAGES. * * You acknowledge that this software is not designed, licensed or intended * for use in the design, construction, operation or maintenance of any * nuclear facility. */ /* * @(#)CLSFractal.java 1.15 10/03/23 */ import java.awt.Graphics; import java.util.Stack; import java.util.Vector; import java.awt.event.*; /** * A (not-yet) Context sensitive L-System Fractal applet class. * * The rules for the Context L-system are read from the java.applet.Applet's * attributes and then the system is iteratively applied for the * given number of levels, possibly drawing each generation as it * is generated. Note that the ContextLSystem class does not yet * handle the lContext and rContext attributes, although this * class is already designed to parse the '[' and ']' characters * typically used in Context sensitive L-Systems. * * @author Jim Graham * @version 1.1f, 27 Mar 1995 */ public class CLSFractal extends java.applet.Applet implements Runnable, MouseListener { Thread kicker; ContextLSystem cls; int fractLevel = 1; int repaintDelay = 50; boolean incrementalUpdates; float startAngle = 0; float rotAngle = 45; float Xmin; float Xmax; float Ymin; float Ymax; int border; boolean normalizescaling; public void init() { String s; cls = new ContextLSystem(this); s = getParameter("level"); if (s != null) fractLevel = Integer.parseInt(s); s = getParameter("incremental"); if (s != null) incrementalUpdates = s.equalsIgnoreCase("true"); s = getParameter("delay"); if (s != null) repaintDelay = Integer.parseInt(s); s = getParameter("startAngle"); if (s != null) startAngle = Float.valueOf(s).floatValue(); s = getParameter("rotAngle"); if (s != null) rotAngle = Float.valueOf(s).floatValue(); rotAngle = rotAngle / 360 * 2 * 3.14159265358f; s = getParameter("border"); if (s != null) border = Integer.parseInt(s); s = getParameter("normalizescale"); if (s != null) normalizescaling = s.equalsIgnoreCase("true"); addMouseListener(this); } public void destroy() { removeMouseListener(this); } public void run() { Thread me = Thread.currentThread(); boolean needsRepaint = false; while (kicker == me && cls.getLevel() < fractLevel) { cls.generate(); if (kicker == me && incrementalUpdates) { repaint(); try {Thread.sleep(repaintDelay);} catch (InterruptedException e){} } else { needsRepaint = true; } } if (kicker == me) { kicker = null; if (needsRepaint) { repaint(); } } } public void start() { kicker = new Thread(this); kicker.start(); } public void stop() { kicker = null; } /*1.1 event handling */ public void mouseClicked(MouseEvent e) { } public void mousePressed(MouseEvent e) { } public void mouseReleased(MouseEvent e) { cls = new ContextLSystem(this); savedPath = null; start(); e.consume(); } public void mouseEntered(MouseEvent e) { } public void mouseExited(MouseEvent e) { } String savedPath; public void paint(Graphics g) { String fractalPath = cls.getPath(); if (fractalPath == null) { super.paint(g); return; } if (savedPath == null || !savedPath.equals(fractalPath)) { savedPath = fractalPath; render(null, fractalPath); } for (int i = 0; i < border; i++) { g.draw3DRect(i, i, getSize().width - i * 2, getSize().height - i * 2,false); } render(g, fractalPath); } void render(Graphics g, String path) { Stack turtleStack = new Stack(); CLSTurtle turtle; if (g == null) { Xmin = 1E20f; Ymin = 1E20f; Xmax = -1E20f; Ymax = -1E20f; turtle = new CLSTurtle(startAngle, 0, 0, 0, 0, 1, 1); } else { float frwidth = Xmax - Xmin; if (frwidth == 0) frwidth = 1; float frheight = Ymax - Ymin; if (frheight == 0) frheight = 1; float xscale = (getSize().width - border * 2 - 1) / frwidth; float yscale = (getSize().height - border * 2 - 1) / frheight; int xoff = border; int yoff = border; if (normalizescaling) { if (xscale < yscale) { yoff += ((getSize().height - border * 2) - ((Ymax - Ymin) * xscale)) / 2; yscale = xscale; } else if (yscale < xscale) { xoff += ((getSize().width - border * 2) - ((Xmax - Xmin) * yscale)) / 2; xscale = yscale; } } turtle = new CLSTurtle(startAngle, 0 - Xmin, 0 - Ymin, xoff, yoff, xscale, yscale); } for (int pos = 0; pos < path.length(); pos++) { switch (path.charAt(pos)) { case '+': turtle.rotate(rotAngle); break; case '-': turtle.rotate(-rotAngle); break; case '[': turtleStack.push(turtle); turtle = new CLSTurtle(turtle); break; case ']': turtle = (CLSTurtle) turtleStack.pop(); break; case 'f': turtle.jump(); break; case 'F': if (g == null) { includePt(turtle.X, turtle.Y); turtle.jump(); includePt(turtle.X, turtle.Y); } else { turtle.draw(g); } break; default: break; } } } void includePt(float x, float y) { if (x < Xmin) Xmin = x; if (x > Xmax) Xmax = x; if (y < Ymin) Ymin = y; if (y > Ymax) Ymax = y; } public String getAppletInfo() { return "Title: CLSFractal 1.1f, 27 Mar 1995 \nAuthor: Jim Graham \nA (not yet) Context Sensitive L-System production rule. \nThis class encapsulates a production rule for a Context Sensitive\n L-System \n(pred, succ, lContext, rContext). The matches() method, however, does not \n(yet) verify the lContext and rContext parts of the rule."; } public String[][] getParameterInfo() { String[][] info = { {"level", "int", "Maximum number of recursions. Default is 1."}, {"incremental","boolean","Whether or not to repaint between recursions. Default is true."}, {"delay","integer","Sets delay between repaints. Default is 50."}, {"startAngle","float","Sets the starting angle. Default is 0."}, {"rotAngle","float","Sets the rotation angle. Default is 45."}, {"border","integer","Width of border. Default is 2."}, {"normalizeScale","boolean","Whether or not to normalize the scaling. Default is true."}, {"pred","String","Initializes the rules for Context Sensitive L-Systems."}, {"succ","String","Initializes the rules for Context Sensitive L-Systems."}, {"lContext","String","Initializes the rules for Context Sensitive L-Systems."}, {"rContext","String","Initializes the rules for Context Sensitive L-Systems."} }; return info; } } /** * A Logo turtle class designed to support Context sensitive L-Systems. * * This turtle performs a few basic maneuvers needed to support the * set of characters used in Context sensitive L-Systems "+-fF[]". * * @author Jim Graham * @version 1.1f, 27 Mar 1995 */ class CLSTurtle { float angle; float X; float Y; float scaleX; float scaleY; int xoff; int yoff; public CLSTurtle(float ang, float x, float y, int xorg, int yorg, float sx, float sy) { angle = ang; scaleX = sx; scaleY = sy; X = x * sx; Y = y * sy; xoff = xorg; yoff = yorg; } public CLSTurtle(CLSTurtle turtle) { angle = turtle.angle; X = turtle.X; Y = turtle.Y; scaleX = turtle.scaleX; scaleY = turtle.scaleY; xoff = turtle.xoff; yoff = turtle.yoff; } public void rotate(float theta) { angle += theta; } public void jump() { X += (float) Math.cos(angle) * scaleX; Y += (float) Math.sin(angle) * scaleY; } public void draw(Graphics g) { float x = X + (float) Math.cos(angle) * scaleX; float y = Y + (float) Math.sin(angle) * scaleY; g.drawLine((int) X + xoff, (int) Y + yoff, (int) x + xoff, (int) y + yoff); X = x; Y = y; } } /** * A (non-)Context sensitive L-System class. * * This class initializes the rules for Context sensitive L-Systems * (pred, succ, lContext, rContext) from the given java.applet.Applet's attributes. * The generate() method, however, does not (yet) apply the lContext * and rContext parts of the rules. * * @author Jim Graham * @version 1.1f, 27 Mar 1995 */ class ContextLSystem { String axiom; Vector rules = new Vector(); int level; public ContextLSystem(java.applet.Applet app) { axiom = app.getParameter("axiom"); int num = 1; while (true) { String pred = app.getParameter("pred"+num); String succ = app.getParameter("succ"+num); if (pred == null || succ == null) { break; } rules.addElement(new CLSRule(pred, succ, app.getParameter("lContext"+num), app.getParameter("rContext"+num))); num++; } currentPath = new StringBuffer(axiom); level = 0; } public int getLevel() { return level; } StringBuffer currentPath; public synchronized String getPath() { return ((currentPath == null) ? null : currentPath.toString()); } private synchronized void setPath(StringBuffer path) { currentPath = path; level++; } public void generate() { StringBuffer newPath = new StringBuffer(); int pos = 0; while (pos < currentPath.length()) { CLSRule rule = findRule(pos); if (rule == null) { newPath.append(currentPath.charAt(pos)); pos++; } else { newPath.append(rule.succ); pos += rule.pred.length(); } } setPath(newPath); } public CLSRule findRule(int pos) { for (int i = 0; i < rules.size(); i++) { CLSRule rule = (CLSRule) rules.elementAt(i); if (rule.matches(currentPath, pos)) { return rule; } } return null; } } /** * A Context sensitive L-System production rule. * * This class encapsulates a production rule for a Context sensitive * L-System (pred, succ, lContext, rContext). * The matches() method, however, does not (yet) verify the lContext * and rContext parts of the rule. * * @author Jim Graham * @version 1.1f, 27 Mar 1995 */ class CLSRule { String pred; String succ; String lContext; String rContext; public CLSRule(String p, String d, String l, String r) { pred = p; succ = d; lContext = l; rContext = r; } public boolean matches(StringBuffer sb, int pos) { if (pos + pred.length() > sb.length()) { return false; } char cb[] = new char[pred.length()]; sb.getChars(pos, pos + pred.length(), cb, 0); return pred.equals(new String(cb)); } }