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# Create an A* search with PHP

i have a map stored as a multidimensional array (`\$map[row][col]`) and i'd wish to create a path from point A to point B.

since i can have some obstacles with turns, corners etc etc, i'd wish to use the A* search to calculate the fastest path.
so the general function is
`f(x) = g(x) + h(x)`

and i have all of these values. `g(x)` is cost of the move (and it's saved on the map); `h(x)` is the linear distance between A and B.

so i have everything i need, but i have a question: how can i organize everything?
i have no need to test for alternative paths, since a square on the map can be passable or not, so when i reach the target it should be the shortest one.

how can i organize everything?
i tried with multidimensional array, but i get lost.. :(

EDIT
i worked out some code, it's pretty a wall of text :)

``````//\$start = array(28, 19), \$end = array(14, 19)
//\$this->map->map is a multidimensional array, everything has a cost of 1, except for
//blocking squares that cost 99
//blocking square at 23-17, 22-18, 22-19, 22-20, 23-21, 19-17, 20-18,20-19,20-20,19-21
//they are like 2 specular mustache :P
function createPath(\$start, \$end)
{
\$found = false;
\$temp  = \$this->cost(\$start, \$end);

foreach(\$temp as \$t){
if(\$t['cost'] == \$this->map->map[\$end[0]][\$end[1]]) \$found = true;
\$this->costStack[\$t['cost']][] = array('grid' => \$t['grid'], 'dir' => \$t['dir']);
}

ksort(\$this->costStack);

if(!\$found) {
foreach(\$this->costStack as \$k => \$stack){
foreach(\$stack as \$kn => \$node){
\$curNode = \$node['grid'];
unset(\$this->costStack[\$k][\$kn]);
break;
}

if(!count(\$this->costStack[\$k])) unset(\$this->costStack[\$k]);
break;
}
\$this->createPath(\$curNode, \$end);
}
}

function cost(\$current, \$target)
{
\$return = array();

//\$AIM  = array('n' => array(-1,  0),'e' => array( 0,  1),'s' => array( 1,  0),'w' => array( 0, -1));
foreach(\$this->AIM as \$direction => \$offset){
\$position[0] = \$current[0] + \$offset[0];
\$position[1] = \$current[1] + \$offset[1];

//radar is a copy of the map
if ( \$this->radar[\$position[0]][\$position[1]] == 'V') continue;
else \$this->radar[\$position[0]][\$position[1]] =  'V';

\$h = (int) \$this->distance(\$position, \$target);
\$g = \$this->map->map[\$position[0]][\$position[1]];

\$return[] = array('grid' => \$position,
'dir'  => \$direction,
'cost' => \$h + \$g);
}

return \$return;
}
``````

i hope you can understand everything, i tried to be clear as much as possible.
finally i can get to my destination, expanding only cheaper nodes, but now i have a problem.
how can i turn it into directions? i have to store a stack of orders (ie n, n, e etc etc), how can i identify a path inside these values?

-
Try a DFS and an auxiliry array? – Betterdev Oct 25 '11 at 20:13
You indicated that different tiles have different costs of traversal when you mentioned the definition of `g(x)`. If that is the case, the smallest number of tiles to your destination is not necessarily the path with the lowest cost to your destination. – erisco Oct 25 '11 at 20:23
You could check out astar.js (javascript A*) to get an idea of how to tackle your problem. – rodneyrehm Oct 25 '11 at 20:29
Please show your code and highlight the line/area you've got a problem with. – hakre Oct 25 '11 at 21:57
Can you add some of your input data? :) – Yoshi Oct 27 '11 at 8:02

My structure was:

• Have a Grid-class for holding all possible nodes (propably your array goes here)
• Have a Node-class representing the nodes. Nodes will also calculated costs and store predecessor/g-values set by AStar
• Have a AStar class, which will only get two nodes (e.g. startNode, endNode)
• Have a PriorityQueue as your open-list
• when a Node is asked (by AStar) about it's neighbors, delegated that call to Grid

I'll try to collect some code samples from a prior project, could take a while though.

## Update

(found my old project ;))

It's probably not exactly what you're looking for, but maybe it's a start.

So using the files below, and mazes defined like:

``````00000000000000000000000
00000000000000000000000
0000000000W000000000000
0000000000W000000000000
0000000000W000000000000
0000000000W00000WWWWWWW
0000000000W000000000000
S000000000W00000000000E
``````

(test/maze.txt)

You'll get something like this:

``````00000000000000000000000
0000000000X000000000000
000000000XWXX0000000000
00000000X0W00X000000000
000000XX00W000X00000000
00000X0000W0000XWWWWWWW
0000X00000W00000XXX0000
SXXX000000W00000000XXXE
``````

## index.php

``````error_reporting(E_ALL ^ E_STRICT);
ini_set('display_errors', 'on');

\$path = '/lib/' . str_replace('_', '/', \$className) . '.php';
foreach (explode(PATH_SEPARATOR, get_include_path()) as \$prefix) {
if (file_exists(\$prefix . \$path)) {
require_once \$prefix . \$path;
}
}
}

// init maze
\$maze = new Maze_Reader('test/maze.txt');

\$startNode = \$maze->getByValue('S', true);
\$endNode = \$maze->getByValue('E', true);

\$astar = new AStar;
if (\$astar->getPath(\$startNode, \$endNode)) {
do {
if (!in_array(\$endNode->value(), array('S', 'E'))) {
\$endNode->value('X');
}
} while (\$endNode = \$endNode->predecessor());
}

echo \$maze;
``````

## /lib/AStar.php

``````/**
* A simple AStar implementation
*/
class AStar
{
protected \$openList;
protected \$closedList;

/**
* Constructs the astar object
*/
public function __construct() {
\$this->openList = new PriorityQueue;
\$this->closedList = new SplObjectStorage;
}

public function getPath(\$startNode, \$endNode) {
\$this->openList->insert(0, \$startNode);
while (!\$this->openList->isEmpty()) {
\$currentNode = \$this->openList->extract();

if (\$currentNode->equals(\$endNode)) {
return \$currentNode;
}

\$this->expandNode(\$currentNode, \$endNode);
\$this->closedList[\$currentNode] = true;
}

return false;
}

protected function expandNode(\$currentNode, \$endNode) {
foreach (\$currentNode->successors() as \$successor) {
if (isset(\$this->closedList[\$successor])) {
continue;
}

\$tentative_g = \$currentNode->g() + \$currentNode->distance(\$successor);

if (\$this->openList->indexOf(\$successor) > -1 && \$tentative_g >= \$successor->g()) {
continue;
}

\$successor->predecessor(\$currentNode);
\$successor->g(\$tentative_g);

\$f = \$tentative_g + \$successor->distance(\$endNode);

if (\$this->openList->indexOf(\$successor) > -1) {
\$this->openList->changeKey(\$successor, \$f);
continue;
}

\$this->openList->insert(\$f, \$successor);
}
}
}
``````

## /lib/PriorityQueue.php

``````class PriorityQueue
{
protected \$keys = array();
protected \$values = array();

/**
* Helper function to swap two <key>/<value> pairs
*
* @param Integer a
* @param Integer b
* @return Integer b
*/
protected function swap(\$a, \$b) {
// swap keys
\$c = \$this->keys[\$a];
\$this->keys[\$a] = \$this->keys[\$b];
\$this->keys[\$b] = \$c;

// swap values
\$c = \$this->values[\$a];
\$this->values[\$a] = \$this->values[\$b];
\$this->values[\$b] = \$c;

return \$b;
}

/**
* Heapify up
*
* @param Integer pos
* @return void
*/
protected function upHeap(\$pos) {
while (\$pos > 0) {
\$parent = (\$pos - 1) >> 2;
if (\$this->compare(\$this->keys[\$pos], \$this->keys[\$parent]) >= 0) {
break;
}

\$pos = \$this->swap(\$pos, \$parent);
}
}

/**
* Heapify down
*
* @param Integer pos
* @return void
*/
protected function downHeap(\$pos) {
\$len = sizeof(\$this->keys);
\$max = (\$len - 1) / 2;

while (\$pos < \$max) {
\$child = 2 * \$pos + 1;
if (\$child < \$len - 1 && \$this->compare(\$this->keys[\$child], \$this->keys[\$child + 1]) > 0) {
\$child += 1;
}
if (\$this->compare(\$this->keys[\$pos], \$this->keys[\$child]) <= 0) {
break;
}
\$pos = \$this->swap(\$pos, \$child);
}
}

/**
* Insert an <key>/<value> pair into the queue
*
* @param Object key
* @param Object value
* @return this
*/
public function insert(\$key, \$value) {
\$this->keys[] = \$key;
\$this->values[] = \$value;

\$this->upHeap(sizeof(\$this->keys) - 1);
return \$this;
}

/**
* Extract the top <value>
*
* @return Object
*/
public function extract() {
\$resultValue = \$this->values[0];
\$lastValue = array_pop(\$this->values);
\$lastKey = array_pop(\$this->keys);

if (sizeof(\$this->keys) > 0) {
\$this->values[0] = \$lastValue;
\$this->keys[0] = \$lastKey;
\$this->downHeap(0);
}

return \$resultValue;
}

/**
* Changes the <key> of a <value>
*
* @param Object key
* @param Object value
* @return this
*/
public function changeKey(\$key, \$value) {
\$pos = \$this->indexOf(\$value);
if (\$pos !== false) {
\$this->keys[\$pos] = \$key;
\$this->upHeap(\$pos);
}
return \$this;
}

/**
* Returns the index of <value> or false if <value> is not in the queue
*
* @return false|Int
*/
public function indexOf(\$value) {
return array_search(\$value, \$this->values, true);
}

/**
* Used to campare two <key>s.
*
* @param Object a
* @param Object b
* @return Number
*/
protected function compare(\$a, \$b) {
return \$a - \$b;
}

/**
* Returns true if the queue is empty
*
* @return Boolean
*/
public function isEmpty() {
return sizeof(\$this->keys) === 0;
}
}
``````

``````class Maze_Reader implements IteratorAggregate
{
/**
* The initial maze
* @var string
*/
protected \$rawMaze;

/**
* A tow dimensional array holding the parsed maze
* @var array
*/
protected \$map = array();

/**
* A flat array holding all maze nodes
* @var array
*/
protected \$nodes = array();

/**
* A value map for easier access
* @var array
*/
protected \$valueMap = array();

/**
* Constructs a maze reader
*
* @param string \$file A path to a maze file
*/
public function __construct(\$file) {
\$this->rawMaze = file_get_contents(\$file);
\$this->parseMaze(\$this->rawMaze);
}

/**
* Parses the raw maze into usable Maze_Nodes
*
* @param string \$maze
*/
protected function parseMaze(\$maze) {
foreach (explode("\n", \$maze) as \$y => \$row) {
foreach (str_split(trim(\$row)) as \$x => \$cellValue) {
if (!isset(\$this->map[\$x])) {
\$this->map[\$x] = array();
}

if (!isset(\$this->valueMap[\$cellValue])) {
\$this->valueMap[\$cellValue] = array();
}

\$this->nodes[] = new Maze_Node(\$x, \$y, \$cellValue, \$this);;
\$this->map[\$x][\$y] =& \$this->nodes[sizeof(\$this->nodes) - 1];
\$this->valueMap[\$cellValue][] =& \$this->nodes[sizeof(\$this->nodes) - 1];
}
}
}

/**
* Returns the neighobrs of \$node
*
* @return array
*/
public function getNeighbors(Maze_Node \$node) {
\$result = array();

\$top = \$node->y() - 1;
\$right = \$node->x() + 1;
\$bottom = \$node->y() + 1;
\$left = \$node->x() - 1;

// top left
if (isset(\$this->map[\$left], \$this->map[\$left][\$top])) {
\$result[] = \$this->map[\$left][\$top];
}

// top center
if (isset(\$this->map[\$node->x()], \$this->map[\$node->x()][\$top])) {
\$result[] = \$this->map[\$node->x()][\$top];
}

// top right
if (isset(\$this->map[\$right], \$this->map[\$right][\$top])) {
\$result[] = \$this->map[\$right][\$top];
}

// right
if (isset(\$this->map[\$right], \$this->map[\$right][\$node->y()])) {
\$result[] = \$this->map[\$right][\$node->y()];
}

// bottom right
if (isset(\$this->map[\$right], \$this->map[\$right][\$bottom])) {
\$result[] = \$this->map[\$right][\$bottom];
}

// bottom center
if (isset(\$this->map[\$node->x()], \$this->map[\$node->x()][\$bottom])) {
\$result[] = \$this->map[\$node->x()][\$bottom];
}

// bottom left
if (isset(\$this->map[\$left], \$this->map[\$left][\$bottom])) {
\$result[] = \$this->map[\$left][\$bottom];
}

// left
if (isset(\$this->map[\$left], \$this->map[\$left][\$node->y()])) {
\$result[] = \$this->map[\$left][\$node->y()];
}

return \$result;
}

/**
* @IteratorAggregate
*/
public function getIterator() {
return new ArrayIterator(\$this->nodes);
}

/**
* Returns a node by value
*
* @param mixed \$value
* @param boolean \$returnOne
* @param mixed \$fallback
* @return mixed
*/
public function getByValue(\$value, \$returnOne = false, \$fallback = array()) {
\$result = isset(\$this->valueMap[\$value]) ? \$this->valueMap[\$value] : \$fallback;
if (\$returnOne && is_array(\$result)) {
\$result = array_shift(\$result);
}

return \$result;
}

/**
* Simple output
*/
public function __toString() {
\$result = array();

foreach (\$this->map as \$x => \$col) {
foreach (\$col as \$y => \$node) {
\$result[\$y][\$x] = (string)\$node;
}
}

return implode("\n", array_map('implode', \$result));
}
}
``````

## /lib/Maze/Node.php

``````class Maze_Node
{
protected \$x;
protected \$y;
protected \$value;
protected \$maze;

protected \$g;
protected \$predecessor;

/**
* @param Integer \$x
* @param Integer \$y
* @param mixed \$value
* @param Maze_Reader \$maze
*/
public function __construct(\$x, \$y, \$value, \$maze) {
\$this->x = \$x;
\$this->y = \$y;
\$this->value = \$value;
\$this->maze = \$maze;
}

/**
* Getter for x
*
* @return Integer
*/
public function x() {
return \$this->x;
}

/**
* Getter for y
*
* @return Integer
*/
public function y() {
return \$this->y;
}

/**
* Setter/Getter for g
*
* @param mixed \$g
* @return mixed
*/
public function g(\$g = null) {
if (\$g !== null) {
\$this->g = \$g;
}

return \$this->g;
}

/**
* Setter/Getter for value
*
* @param mixed \$value
* @return mixed
*/
public function value(\$value = null) {
if (\$value !== null) {
\$this->value = \$value;
}

return \$this->value;
}

/**
* Setter/Getter for predecessor
*
* @param Maze_Node \$predecessor
* @return Maze_Node|null
*/
public function predecessor(Maze_Node \$predecessor = null) {
if (\$predecessor !== null) {
\$this->predecessor = \$predecessor;
}

return \$this->predecessor;
}

/**
* simple distance getter
*
* @param Maze_Node \$that
* @return Float
*/
public function distance(Maze_Node \$that) {
if (\$that->value() === 'W') {
return PHP_INT_MAX;
}

return sqrt(pow(\$that->x() - \$this->x, 2) + pow(\$that->y() - \$this->y, 2));
}

/**
* Test for equality
*
* @param Maze_Node \$that
* @return boolean
*/
public function equals(Maze_Node \$that) {
return \$this == \$that;
}

/**
* Returns the successors of this node
*
* @return array
*/
public function successors() {
return \$this->maze->getNeighbors(\$this);
}

/**
* For debugging
*
* @return string
*/
public function __toString() {
return (string)\$this->value;
}
}
``````
-
your structure is very interesting, since i almost have everything. i understood the idea in general, but i can't catch the flow.. can you provide any code snippet? it would be great :) – tampe125 Oct 26 '11 at 8:09
@tampe125 unfortunatly I can't find my project code at the moment. Can you explain where you're stuck? – Yoshi Oct 26 '11 at 13:19
don't worry, thanks anyway. i'll try to expand my question ASAP – tampe125 Oct 26 '11 at 14:32
and i guess we have an answer :) – tampe125 Oct 27 '11 at 17:57