PHP树的深度编历生成迷宫及A*自动寻路算法实例分析
2015-03-12来源:

这篇文章主要介绍了PHP树的深度编历生成迷宫及A*自动寻路算法,实例分析了php实现A*寻路算法的技巧,具有一定参考借鉴价值,需要的朋友可以参考下

本文实例讲述了PHP树的深度编历生成迷宫及A*自动寻路算法。分享给大家供大家参考。具体分析如下:

有一同事推荐了三思的迷宫算法,看了感觉还不错,就转成php

三思的迷宫算法是采用树的深度遍历原理,这样生成的迷宫相当的细,而且死胡同数量相对较少!

任意两点之间都存在唯一的一条通路。

至于A*寻路算法是最大众化的一全自动寻路算法

废话不多说,贴上带代码

迷宫生成类:

代码如下:

class Maze{

// Maze Create

private $_w;

private $_h;

private $_grids;

private $_walkHistory;

private $_walkHistory2;

private $_targetSteps;

// Construct

public function Maze() {

$this->_w = 6;

$this->_h = 6;

$this->_grids = array();

}

// 设置迷宫大小

public function set($width = 6, $height = 6) {

if ( $width > 0 ) $this->_w = $width;

if ( $height > 0 ) $this->_h = $height;

return $this;

}

// 取到迷宫

public function get() {

return $this->_grids;

}

// 生成迷宫

public function create() {

$this->_init();

return $this->_walk(rand(0, count($this->_grids) -1 ));

}

// 获取死胡同点

public function block($n = 0, $rand = false) {

$l = count($this->_grids);

for( $i = 1; $i < $l; $i++ ) {

$v = $this->_grids[$i];

if ( $v == 1 || $v == 2 || $v == 4 || $v == 8 ) {

$return[] = $i;

}

}

// 随机取点

if ( $rand ) shuffle($return);

if ( $n == 0 ) return $return;

if ( $n == 1 ) {

return array_pop($return);

} else {

return array_slice($return, 0, $n);

}

}

/**

|---------------------------------------------------------------

| 生成迷宫的系列函数

|---------------------------------------------------------------

*/

private function _walk($startPos) {

$this->_walkHistory = array();

$this->_walkHistory2 = array();

$curPos = $startPos;

while ($this->_getNext0() != -1) {

$curPos = $this->_step($curPos);

if ( $curPos === false ) break;

}

return $this;

}

private function _getTargetSteps($curPos) {

$p = 0;

$a = array();

$p = $curPos - $this->_w;

if ($p > 0 && $this->_grids[$p] === 0 && ! $this->_isRepeating($p)) {

array_push($a, $p);

} else {

array_push($a, -1);

}

$p = $curPos + 1;

if ($p % $this->_w != 0 && $this->_grids[$p] === 0 && ! $this->_isRepeating($p)) {

array_push($a, $p);

} else {

array_push($a, -1);

}

$p = $curPos + $this->_w;

if ($p < count($this->_grids) && $this->_grids[$p] === 0 && ! $this->_isRepeating($p)) {

array_push($a, $p);

} else {

array_push($a, -1);

}

$p = $curPos - 1;

if (($curPos % $this->_w) != 0 && $this->_grids[$p] === 0 && ! $this->_isRepeating($p)) {

array_push($a, $p);

} else {

array_push($a, -1);

}

return $a;

}

private function _noStep() {

$l = count($this->_targetSteps);

for ($i = 0; $i < $l; $i ++) {

if ($this->_targetSteps[$i] != -1) return false;

}

return true;

}

private function _step($curPos) {

$this->_targetSteps = $this->_getTargetSteps($curPos);

if ( $this->_noStep() ) {

if ( count($this->_walkHistory) > 0 ) {

$tmp = array_pop($this->_walkHistory);

} else {

return false;

}

array_push($this->_walkHistory2, $tmp);

return $this->_step($tmp);

}

$r = rand(0, 3);

while ( $this->_targetSteps[$r] == -1) {

$r = rand(0, 3);

}

$nextPos = $this->_targetSteps[$r];

$isCross = false;

if ( $this->_grids[$nextPos] != 0)

$isCross = true;

if ($r == 0) {

$this->_grids[$curPos] ^= 1;

$this->_grids[$nextPos] ^= 4;

} elseif ($r == 1) {

$this->_grids[$curPos] ^= 2;

$this->_grids[$nextPos] ^= 8;

} elseif ($r == 2) {

$this->_grids[$curPos] ^= 4;

$this->_grids[$nextPos] ^= 1;

} elseif ($r == 3) {

$this->_grids[$curPos] ^= 8;

$this->_grids[$nextPos] ^= 2;

}

array_push($this->_walkHistory, $curPos);

return $isCross ? false : $nextPos;

}

private function _isRepeating($p) {

$l = count($this->_walkHistory);

for ($i = 0; $i < $l; $i ++) {

if ($this->_walkHistory[$i] == $p) return true;

}

$l = count($this->_walkHistory2);

for ($i = 0; $i < $l; $i ++) {

if ($this->_walkHistory2[$i] == $p) return true;

}

return false;

}

private function _getNext0() {

$l = count($this->_grids);

for ($i = 0; $i <= $l; $i++ ) {

if ( $this->_grids[$i] == 0) return $i;

}

return -1;

}

private function _init() {

$this->_grids = array();

for ($y = 0; $y < $this->_h; $y ++) {

for ($x = 0; $x < $this->_w; $x ++) {

array_push($this->_grids, 0);

}

}

return $this;

}

}

A*寻路算法

代码如下:

class AStar{

// A-star

private $_open;

private $_closed;

private $_start;

private $_end;

private $_grids;

private $_w;

private $_h;

// Construct

public function AStar(){

$this->_w = null;

$this->_h = null;

$this->_grids = null;

}

public function set($width, $height, $grids) {

$this->_w = $width;

$this->_h = $height;

$this->_grids = $grids;

return $this;

}

// 迷宫中寻路

public function search($start = false, $end = false) {

return $this->_search($start, $end);

}

/**

|---------------------------------------------------------------

| 自动寻路 - A-star 算法

|---------------------------------------------------------------

*/

public function _search($start = false, $end = false) {

if ( $start !== false ) $this->_start = $start;

if ( $end !== false ) $this->_end = $end;

$_sh = $this->_getH($start);

$point['i'] = $start;

$point['f'] = $_sh;

$point['g'] = 0;

$point['h'] = $_sh;

$point['p'] = null;

$this->_open[] = $point;

$this->_closed[$start] = $point;

while ( 0 < count($this->_open) ) {

$minf = false;

foreach( $this->_open as $key => $maxNode ) {

if ( $minf === false || $minf > $maxNode['f'] ) {

$minIndex = $key;

}

}

$nowNode = $this->_open[$minIndex];

unset($this->_open[$minIndex]);

if ( $nowNode['i'] == $this->_end ) {

$tp = array();

while( $nowNode['p'] !== null ) {

array_unshift($tp, $nowNode['p']);

$nowNode = $this->_closed[$nowNode['p']];

}

array_push($tp, $this->_end);

break;

}

$this->_setPoint($nowNode['i']);

}

$this->_closed = array();

$this->_open = array();

return $tp;

}

private function _setPoint($me) {

$point = $this->_grids[$me];

// 所有可选方向入队列

if ( $point & 1 ) {

$next = $me - $this->_w;

$this->_checkPoint($me, $next);

}

if ( $point & 2 ) {

$next = $me + 1;

$this->_checkPoint($me, $next);

}

if ( $point & 4 ) {

$next = $me + $this->_w;

$this->_checkPoint($me, $next);

}

if ( $point & 8 ) {

$next = $me - 1;

$this->_checkPoint($me, $next);

}

}

private function _checkPoint($pNode, $next) {

if ( $this->_closed[$next] ) {

$_g = $this->_closed[$pNode]['g'] + $this->_getG($next);

if ( $_g < $check['g'] ) {

$this->_closed[$next]['g'] = $_g;

$this->_closed[$next]['f'] = $this->_closed[$next]['g'] + $this->_closed[$next]['h'];

$this->_closed[$next]['p'] = $pNode;

}

} else {

$point['p'] = $pNode;

$point['h'] = $this->_getH($next);

$point['g'] = $this->_getG($next);

$point['f'] = $point['h'] + $point['g'];

$point['i'] = $next;

$this->_open[] = $point;

$this->_closed[$next] = $point;

}

}

private function _getG($point) {

return abs($this->_start - $point);

}

private function _getH($point) {

return abs($this->_end - $point);

}

}

完整实例代码点击此处本站下载。

有需要大家可以直接下demo,看看效果!

希望本文所述对大家的php程序设计有所帮助。

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