Recursive algorithm implementation and iterative algorithm implementation for PHP quick sorting problem-PHP Tutorial-php.cn

Recursive algorithm implementation and iterative algorithm implementation for PHP quick sorting problem

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Release： 2023-03-24 08:04:01

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The content of this article is about the implementation of recursive algorithm and iterative algorithm for quick sorting problem in PHP. It has certain reference value. Now I share it with you. Friends in need can refer to it

implementation Code

Code address: https://github.com/ParrySMS/Exp/tree/master/ProLang/quickSort

Recursive method`quickSortRec .php`

<?php/**
 * Created by PhpStorm.
 * User: L
 * Date: 2018-4-13
 * Time: 23:27
 *//** 递归法快排序
 * @param array $ar
 * @return array
 */function quickSortR(array $ar){
    //判断数组长度
    $size = sizeof($ar);    if($size<=1){        return $ar;
    }    //用两个数组分别接受比游标key小和比key大的数据
    $left = array();    $right = array();    $key = $ar[0];    for($i =1;$i<$size;$i++){        if($ar[$i]<=$key){            $left[] = $ar[$i];
        }else{            $right[] = $ar[$i];
        }
    }    //内部再进行排序
    $left = quickSortR($left);    $right = quickSortR($right);    //最后合并
    return array_merge($left,array($key),$right);

}

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Iteration method`quickSortIter.php`

<?php/**
 * Created by PhpStorm.
 * User: L
 * Date: 2018-4-14
 * Time: 14:51
 *//** 迭代法
 * @param array $ar
 * @return array
 */function quickSortI(array $ar){
    $stack = array($ar);    $sort = array();    //判断数组长度
    $size = sizeof($ar);    if ($size <= 1) {        return $ar;
    }    //栈空即跳出循环
    while ($stack) {        $arr = array_pop($stack);        if (count($arr) <= 1) {            if (count($arr) == 1) {                $sort[] = &$arr[0];
            }            continue;
        }        $key = $arr[0];        $high = array();        $low = array();        //用两个数组分别接受比游标key小和比key大的数据
        $_size = count($arr);        for ($i = 1; $i < $_size; $i++) {            if ($arr[$i] <= $key) {                $high[] = &$arr[$i];
            } else {                $low[] = &$arr[$i];
            }
        }        if (!empty($low)) {//数据入站
            array_push($stack, $low);
        }

        array_push($stack, array($arr[0]));        if (!empty($high)) {
            array_push($stack, $high);
        }
    }    return $sort;
}

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Execution time test script`test.php`

<?php/**
 * Created by PhpStorm.
 * User: L
 * Date: 2018-4-17
 * Time: 23:45
 */require "quickSortIter.php";require "quickSortRec.php";

define(&#39;SORT_TIMES&#39;, 100);
define(&#39;SIZE&#39;, 1000);function rowTable(){
    unset($row);    $row = array();    for ($i = 0; $i < SORT_TIMES; $i++) {        $row = getSortRow($row);
    }    foreach ($row as $r) {        print <<< TR
 <tr>
       <td>$r->iter</td>
       <td>$r->rec</td>
    </tr>
TR;
    }
}function getSortRow(array $row){
    unset($ar);    $ar = array();    for ($i = 0; $i < SIZE; $i++) {        $ar[] = rand(0, SIZE*2);
    }    $stime = microtime(true);    $recAr = quickSortR($ar);    $etime = microtime(true);    $recTime = 1000 * ($etime - $stime);//    echo"<br/>";

    $stime = microtime(true);    $iterAr = quickSortI($ar);    $etime = microtime(true);    $iterTime = 1000 * ($etime - $stime);//   print_r($recAr);//   echo "<br/>";//    print_r($iterAr);
    $row[] = (object)["iter" => $iterTime, "rec" => $recTime];    return $row;
}?><table border="1">
    <tr>
        <th>迭代 Iter/ms</th>
        <th>递归 Rec/ms</th>
    </tr>    <?php rowTable(); ?></table>

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5000 execution time efficiency comparison

Mode/Execution ms time	Average (array length 1000)	Variance ( Array length 1000)
Iterate Iter /ms	2.840572476	0.03862993
RecursiveRec /ms	3.071363568	0.06567554

#ModeAverage (array length 400) Variance (array length 400) IterateIter /ms0.9876660350.015847294Recursive Rec /ms0.9879476070.036398175

ModeMean (array length 50)Variance (array length 50)IterativeIter /ms0.0814548970.000522679RecursiveRec /ms0.0665463920.000362922

Implementation code

Code address: https://github.com/ParrySMS/Exp/tree/master/ProLang/quickSort

Recursive method

quickSortRec.php

<?php/**
 * Created by PhpStorm.
 * User: L
 * Date: 2018-4-13
 * Time: 23:27
 *//** 递归法快排序
 * @param array $ar
 * @return array
 */function quickSortR(array $ar){
    //判断数组长度
    $size = sizeof($ar);    if($size<=1){        return $ar;
    }    //用两个数组分别接受比游标key小和比key大的数据
    $left = array();    $right = array();    $key = $ar[0];    for($i =1;$i<$size;$i++){        if($ar[$i]<=$key){            $left[] = $ar[$i];
        }else{            $right[] = $ar[$i];
        }
    }    //内部再进行排序
    $left = quickSortR($left);    $right = quickSortR($right);    //最后合并
    return array_merge($left,array($key),$right);

}

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Iterative method

quickSortIter.php

<?php/**
 * Created by PhpStorm.
 * User: L
 * Date: 2018-4-14
 * Time: 14:51
 *//** 迭代法
 * @param array $ar
 * @return array
 */function quickSortI(array $ar){
    $stack = array($ar);    $sort = array();    //判断数组长度
    $size = sizeof($ar);    if ($size <= 1) {        return $ar;
    }    //栈空即跳出循环
    while ($stack) {        $arr = array_pop($stack);        if (count($arr) <= 1) {            if (count($arr) == 1) {                $sort[] = &$arr[0];
            }            continue;
        }        $key = $arr[0];        $high = array();        $low = array();        //用两个数组分别接受比游标key小和比key大的数据
        $_size = count($arr);        for ($i = 1; $i < $_size; $i++) {            if ($arr[$i] <= $key) {                $high[] = &$arr[$i];
            } else {                $low[] = &$arr[$i];
            }
        }        if (!empty($low)) {//数据入站
            array_push($stack, $low);
        }

        array_push($stack, array($arr[0]));        if (!empty($high)) {
            array_push($stack, $high);
        }
    }    return $sort;
}

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Execution time test script

test .php

<?php/**
 * Created by PhpStorm.
 * User: L
 * Date: 2018-4-17
 * Time: 23:45
 */require "quickSortIter.php";require "quickSortRec.php";

define(&#39;SORT_TIMES&#39;, 100);
define(&#39;SIZE&#39;, 1000);function rowTable(){
    unset($row);    $row = array();    for ($i = 0; $i < SORT_TIMES; $i++) {        $row = getSortRow($row);
    }    foreach ($row as $r) {        print <<< TR
 <tr>
       <td>$r->iter</td>
       <td>$r->rec</td>
    </tr>
TR;
    }
}function getSortRow(array $row){
    unset($ar);    $ar = array();    for ($i = 0; $i < SIZE; $i++) {        $ar[] = rand(0, SIZE*2);
    }    $stime = microtime(true);    $recAr = quickSortR($ar);    $etime = microtime(true);    $recTime = 1000 * ($etime - $stime);//    echo"<br/>";

    $stime = microtime(true);    $iterAr = quickSortI($ar);    $etime = microtime(true);    $iterTime = 1000 * ($etime - $stime);//   print_r($recAr);//   echo "<br/>";//    print_r($iterAr);
    $row[] = (object)["iter" => $iterTime, "rec" => $recTime];    return $row;
}?><table border="1">
    <tr>
        <th>迭代 Iter/ms</th>
        <th>递归 Rec/ms</th>
    </tr>    <?php rowTable(); ?></table>

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5000 execution time efficiency comparison

Mode/Execution ms timeAverage (array length 1000 )Variance (array length 1000)IterateIter /ms2.8405724760.03862993Recursive Rec /ms3.0713635680.06567554

ModeAverage (array length 400) Variance (array length 400) ##Iterate Iter / msRecursive Rec /ms


0.987666035	0.015847294
0.987947607	0.036398175

ModeIterativeIter /msRecursiveRec /ms ##Related recommendations:

Average (array length 50)	Variance (array length 50)
0.081454897	0.000522679
0.066546392	0.000362922

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