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Summary
| Description |
English: A maze, generated by modified version of en:Prim's algorithm. |
| Date | |
| Source | Generated by the attached program, which was originally written by en:User:Cyp, who attached it to the image description page for an image generated by it on en.wikipedia. The image was licensed under CC-BY-SA-3.0/GFDL. |
| Author | Nandhp |
| Other versions |
Derivative works of this file: Prim Maze 3D.svg SVG version of en:File:Maze.png. |
Licensing
I, the copyright holder of this work, hereby publish it under the following licenses:
|
Permission is granted to copy, distribute and/or modify this document under the terms of the GNU Free Documentation License, Version 1.2 or any later version published by the Free Software Foundation; with no Invariant Sections, no Front-Cover Texts, and no Back-Cover Texts. A copy of the license is included in the section entitled GNU Free Documentation License. |
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- to remix – to adapt the work
- Under the following conditions:
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You may select the license of your choice.
Generating Program
Java
/*
* 3 June 2003, [[:en:User:Cyp]]:
* Maze, generated by my algorithm
* 24 October 2006, [[:en:User:quin]]:
* Source edited for clarity
* 25 January 2009, [[:en:User:DebateG]]:
* Source edited again for clarity and reusability
* 1 June 2009, [[:en:User:Nandhp]]:
* Source edited to produce SVG file when run from the command-line
*
* This program was originally written by [[:en:User:Cyp]], who
* attached it to the image description page for an image generated by
* it on en.wikipedia. The image was licensed under CC-BY-SA-3.0/GFDL.
*/
import java.awt.*;
import java.applet.*;
import java.util.Random;
/* Define the bit masks */
class Constants {
public static final int WALL_ABOVE = 1;
public static final int WALL_BELOW = 2;
public static final int WALL_LEFT = 4;
public static final int WALL_RIGHT = 8;
public static final int QUEUED = 16;
public static final int IN_MAZE = 32;
}
public class Maze extends java.applet.Applet {
/* The width and height (in cells) of the maze */
private int width;
private int height;
private int maze[][];
private static final Random rnd = new Random();
/* The width in pixels of each cell */
private int cell_width;
/* Construct a Maze with the default width, height, and cell_width */
public Maze() {
this(20,20,10);
}
/* Construct a Maze with specified width, height, and cell_width */
public Maze(int width, int height, int cell_width) {
this.width = width;
this.height = height;
this.cell_width = cell_width;
}
/* Initialization method that will be called when the program is
* run from the command-line. Maze will be written as SVG file. */
public static void main(String[] args) {
Maze m = new Maze();
m.createMaze();
m.printSVG();
}
/* Initialization method that will be called when the program is
* run as an applet. Maze will be displayed on-screen. */
public void init() {
createMaze();
}
/* The maze generation algorithm. */
private void createMaze(){
int x, y, n, d;
int dx[] = { 0, 0, -1, 1 };
int dy[] = { -1, 1, 0, 0 };
int todo[] = new int[height * width], todonum = 0;
/* We want to create a maze on a grid. */
maze = new int[width][height];
/* We start with a grid full of walls. */
for (x = 0; x < width; ++x) {
for (y = 0; y < height; ++y) {
if (x == 0 || x == width - 1 || y == 0 || y == height - 1) {
maze[x][y] = Constants.IN_MAZE;
} else {
maze[x][y] = 63;
}
}
}
/* Select any square of the grid, to start with. */
x = 1 + rnd.nextInt (width - 2);
y = 1 + rnd.nextInt (height - 2);
/* Mark this square as connected to the maze. */
maze[x][y] &= ~48;
/* Remember the surrounding squares, as we will */
for (d = 0; d < 4; ++d) {
if ((maze[x + dx[d]][y + dy[d]] & Constants.QUEUED) != 0) {
/* want to connect them to the maze. */
todo[todonum++] = ((x + dx[d]) << Constants.QUEUED) | (y + dy[d]);
maze[x + dx[d]][y + dy[d]] &= ~Constants.QUEUED;
}
}
/* We won't be finished until all is connected. */
while (todonum > 0) {
/* We select one of the squares next to the maze. */
n = rnd.nextInt (todonum);
x = todo[n] >> 16; /* the top 2 bytes of the data */
y = todo[n] & 65535; /* the bottom 2 bytes of the data */
/* We will connect it, so remove it from the queue. */
todo[n] = todo[--todonum];
/* Select a direction, which leads to the maze. */
do {
d = rnd.nextInt (4);
}
while ((maze[x + dx[d]][y + dy[d]] & Constants.IN_MAZE) != 0);
/* Connect this square to the maze. */
maze[x][y] &= ~((1 << d) | Constants.IN_MAZE);
maze[x + dx[d]][y + dy[d]] &= ~(1 << (d ^ 1));
/* Remember the surrounding squares, which aren't */
for (d = 0; d < 4; ++d) {
if ((maze[x + dx[d]][y + dy[d]] & Constants.QUEUED) != 0) {
/* connected to the maze, and aren't yet queued to be. */
todo[todonum++] = ((x + dx[d]) << Constants.QUEUED) | (y + dy[d]);
maze[x + dx[d]][y + dy[d]] &= ~Constants.QUEUED;
}
}
/* Repeat until finished. */
}
/* Add an entrance and exit. */
maze[1][1] &= ~Constants.WALL_ABOVE;
maze[width - 2][height - 2] &= ~Constants.WALL_BELOW;
}
/* Called by the applet infrastructure to display the maze on-screen. */
public void paint(Graphics g) {
drawMaze(g);
}
/* Called to write the maze to an SVG file. */
public void printSVG() {
System.out.format("<svg width=\"%d\" height=\"%d\" version=\"1.1\""
+ " xmlns=\"http://www.w3.org/2000/svg\">\n",
width*cell_width, height*cell_width);
System.out.println(" <g stroke=\"black\" stroke-width=\"1\""
+ " stroke-linecap=\"round\">");
drawMaze(null);
System.out.println(" </g>\n</svg>");
}
/* Main maze-drawing loop. */
public void drawMaze(Graphics g) {
int x, y;
for (x = 1; x < width - 1; ++x) {
for (y = 1; y < height - 1; ++y) {
if ((maze[x][y] & Constants.WALL_ABOVE) != 0)
drawLine( x * cell_width, y * cell_width,
(x + 1) * cell_width, y * cell_width, g);
if ((maze[x][y] & Constants.WALL_BELOW) != 0)
drawLine( x * cell_width, (y + 1) * cell_width,
(x + 1) * cell_width, (y + 1) * cell_width, g);
if ((maze[x][y] & Constants.WALL_LEFT) != 0)
drawLine( x * cell_width, y * cell_width,
x * cell_width, (y + 1) * cell_width, g);
if ((maze[x][y] & Constants.WALL_RIGHT) != 0)
drawLine((x + 1) * cell_width, y * cell_width,
(x + 1) * cell_width, (y + 1) * cell_width, g);
}
}
}
/* Draw a line, either in the SVG file or on the screen. */
public void drawLine(int x1, int y1, int x2, int y2, Graphics g) {
if ( g != null ) g.drawLine(x1, y1, x2, y2);
else System.out.format(" <line x1=\"%d\" y1=\"%d\""
+ " x2=\"%d\" y2=\"%d\" />\n", x1, y1, x2, y2);
}
}
JavaScript
/*
* 3 June 2003, [[:en:User:Cyp]]:
* Maze, generated by my algorithm
* 24 October 2006, [[:en:User:quin]]:
* Source edited for clarity
* 25 January 2009, [[:en:User:DebateG]]:
* Source edited again for clarity and reusability
* 1 June 2009, [[:en:User:Nandhp]]:
* Source edited to produce SVG file when run from the command-line
* 7 January, 2011 [[:en:User:SharkD]]:
* Source converted to JavaScript
*
* This program was originally written by [[:en:User:Cyp]], who
* attached it to the image description page for an image generated by
* it on en.wikipedia. The image was licensed under CC-BY-SA-3.0/GFDL.
*/
/* Recreate a math function that exists in Java but not JavaScript. */
Math.nextInt = function (number) {
return Math.floor(Math.random() * number)
}
/* Recreate a system function that exists in Java but not JavaScript.
* Uncomment either WScript.Echo() or alert() depending on whether you are
* running the script from the Windows command-line or a Web page.
*/
function println(string)
{
// if inside Windows Scripting Host
// WScript.Echo(string)
// if inside a Web page
alert(string)
// if inside a Web page <body> tag (might work better than alert)
// document.body.appendChild(document.createTextNode(string))
}
/* Define the bit masks */
var Constants =
{
WALL_ABOVE : 1,
WALL_BELOW : 2,
WALL_LEFT : 4,
WALL_RIGHT : 8,
QUEUED : 16,
IN_MAZE : 32
}
/* Construct a Maze with specified width, height, and cell_width */
function Maze(width, height, cell_width) {
if (width)
this.width = width;
else
this.width = 20;
if (height)
this.height = height;
else
this.height = 20;
if (cell_width)
this.cell_width = cell_width;
else
this.cell_width = 10;
this.maze = []
/* The maze generation algorithm. */
this.createMaze = function() {
var width = this.width
var height = this.height
var maze = this.maze
var x, y, n, d;
var dx = [ 0, 0, -1, 1 ];
var dy = [ -1, 1, 0, 0 ];
var todo = new Array(height * width);
var todonum = 0;
/* We want to create a maze on a grid. */
/* We start with a grid full of walls. */
for (x = 0; x < width; ++x) {
maze[x] = []
for (y = 0; y < height; ++y) {
if (x == 0 || x == width - 1 || y == 0 || y == height - 1) {
maze[x][y] = Constants.IN_MAZE;
}
else {
maze[x][y] = 63;
}
}
}
/* Select any square of the grid, to start with. */
x = 1 + Math.nextInt(width - 2);
y = 1 + Math.nextInt(height - 2);
/* Mark this square as connected to the maze. */
maze[x][y] &= ~48;
/* Remember the surrounding squares, as we will */
for (d = 0; d < 4; ++d) {
if ((maze[x + dx[d]][y + dy[d]] & Constants.QUEUED) != 0) {
/* want to connect them to the maze. */
todo[todonum++] = ((x + dx[d]) << Constants.QUEUED) | (y + dy[d]);
maze[x + dx[d]][y + dy[d]] &= ~Constants.QUEUED;
}
}
/* We won't be finished until all is connected. */
while (todonum > 0) {
/* We select one of the squares next to the maze. */
n = Math.nextInt(todonum);
x = todo[n] >> 16; /* the top 2 bytes of the data */
y = todo[n] & 65535; /* the bottom 2 bytes of the data */
/* We will connect it, so remove it from the queue. */
todo[n] = todo[--todonum];
/* Select a direction, which leads to the maze. */
do {
d = Math.nextInt(4);
}
while ((maze[x + dx[d]][y + dy[d]] & Constants.IN_MAZE) != 0);
/* Connect this square to the maze. */
maze[x][y] &= ~((1 << d) | Constants.IN_MAZE);
maze[x + dx[d]][y + dy[d]] &= ~(1 << (d ^ 1));
/* Remember the surrounding squares, which aren't */
for (d = 0; d < 4; ++d) {
if ((maze[x + dx[d]][y + dy[d]] & Constants.QUEUED) != 0) {
/* connected to the maze, and aren't yet queued to be. */
todo[todonum++] = ((x + dx[d]) << Constants.QUEUED) | (y + dy[d]);
maze[x + dx[d]][y + dy[d]] &= ~Constants.QUEUED;
}
}
/* Repeat until finished. */
}
/* Add an entrance and exit. */
maze[1][1] &= ~Constants.WALL_ABOVE;
maze[width - 2][height - 2] &= ~Constants.WALL_BELOW;
}
/* Called to write the maze to an SVG file. */
this.printSVG = function () {
var outstring = "<svg width=\"" + (this.width * this.cell_width) + "\" height=\"" + (this.height*this.cell_width) + "\" version=\"1.1\" xmlns=\"http://www.w3.org/2000/svg\">\n"
+ " <g stroke=\"black\" stroke-width=\"1\" stroke-linecap=\"round\">\n"
+ this.drawMaze()
+ " </g>\n</svg>\n";
println(outstring)
}
/* Main maze-drawing loop. */
this.drawMaze = function () {
var x, y;
var width = this.width;
var height = this.height;
var cell_width = this.cell_width
var outstring = ""
for (x = 1; x < width - 1; ++x) {
for (y = 1; y < height - 1; ++y) {
if ((this.maze[x][y] & Constants.WALL_ABOVE) != 0)
outstring += this.drawLine( x * cell_width, y * cell_width, (x + 1) * cell_width, y * cell_width);
if ((this.maze[x][y] & Constants.WALL_BELOW) != 0)
outstring += this.drawLine( x * cell_width, (y + 1) * cell_width, (x + 1) * cell_width, (y + 1) * cell_width);
if ((this.maze[x][y] & Constants.WALL_LEFT) != 0)
outstring += this.drawLine( x * cell_width, y * cell_width, x * cell_width, (y + 1) * cell_width);
if ((this.maze[x][y] & Constants.WALL_RIGHT) != 0)
outstring += this.drawLine((x + 1) * cell_width, y * cell_width, (x + 1) * cell_width, (y + 1) * cell_width);
}
}
return outstring
}
/* Draw a line, either in the SVG file or on the screen. */
this.drawLine = function (x1, y1, x2, y2) {
return " <line x1=\"" + x1 + "\" y1=\"" + y1 + "\" x2=\"" + x2 + "\" y2=\"" + y2 + "\" />\n";
}
}
/* Initialization method that will be called when the program is
* run from the command-line. Maze will be written as SVG file. */
function main(args) {
var m = new Maze();
m.createMaze();
m.printSVG();
}
/* execute the program */
main()
File history
Click on a date/time to view the file as it appeared at that time.
| Date/Time | Thumbnail | Dimensions | User | Comment | |
|---|---|---|---|---|---|
| current | 13:14, 1 June 2009 | | 200 × 200 (30 KB) | Nandhp | {{Information |Description={{en|1=A maze, generated by modified version of en:Prim's algorithm.}} |Source=Generated by the attached program, which was originally written by en:User:Cyp, who attached it to the image description page for an image |
File usage
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- Usage on uk.wikipedia.org
