Heim > Backend-Entwicklung > PHP-Tutorial > PHP实现经典算法上 php程序设计经典300例 php递归算法经典实例 php经典面试

PHP实现经典算法上 php程序设计经典300例 php递归算法经典实例 php经典面试

WBOY
Freigeben: 2016-07-29 08:54:24
Original
1018 Leute haben es durchsucht

前言

下面的是通过PHP实现经典算法,并计算了耗时,可以通过耗时对比这几种算法的复杂度。

  • 插入排序
  • 冒泡排序
  • 选择排序
  • 并归排序
  • 快速排序

CODE

<code><span>$arr</span> = [];

<span>for</span> (<span>$i</span> = <span>0</span>; <span>$i</span> 5000; <span>$i</span>++) {
    <span>$arr</span>[] = rand(<span>1</span>, <span>10000</span>);
}


<span>//1 插入排序</span><span><span>function</span><span>insertionSort</span><span>(<span>$arr</span>)</span>
{</span><span>for</span> (<span>$i</span> = <span>1</span>; <span>$i</span> $arr); <span>$i</span>++) {
        <span>$tmp</span> = <span>$arr</span>[<span>$i</span>]; <span>//设置监视哨</span><span>$key</span> = <span>$i</span> - <span>1</span>; <span>//设置开始查找的位置</span><span>while</span> (<span>$key</span> >= <span>0</span> && <span>$tmp</span> $arr[<span>$key</span>]) { <span>// 监视哨的值比查找的值小 并且 没有到此次查询的第一个</span><span>$arr</span>[<span>$key</span> + <span>1</span>] = <span>$arr</span>[<span>$key</span>];  <span>//数组的值进行后移</span><span>$key</span>--;  <span>//要查找的位置后移</span>
        }
        <span>if</span> ((<span>$key</span> + <span>1</span>) != <span>$i</span>) <span>//放置监视哨</span><span>$arr</span>[<span>$key</span> + <span>1</span>] = <span>$tmp</span>;
    }
    <span>return</span><span>$arr</span>;

}

<span>$insertion_start_time</span> = microtime(<span>true</span>);

<span>$insertion_sort</span> = insertionSort(<span>$arr</span>);

<span>$insertion_end_time</span> = microtime(<span>true</span>);

<span>$insertion_need_time</span> = <span>$insertion_end_time</span> - <span>$insertion_start_time</span>;

print_r(<span>"插入排序耗时:"</span> . <span>$insertion_need_time</span> . <span>"<br>"</span>);


<span>//2 冒泡排序</span><span><span>function</span><span>bubbleSort</span><span>(<span>$arr</span>)</span>
{</span><span>for</span> (<span>$i</span> = <span>0</span>; <span>$i</span> $arr); <span>$i</span>++) {
        <span>for</span> (<span>$j</span> = <span>0</span>; <span>$j</span> $i + <span>1</span>; <span>$j</span>++) {
            <span>if</span> (<span>$arr</span>[<span>$j</span>] $arr[<span>$j</span> - <span>1</span>]) {
                <span>$temp</span> = <span>$arr</span>[<span>$j</span> - <span>1</span>];
                <span>$arr</span>[<span>$j</span> - <span>1</span>] = <span>$arr</span>[<span>$j</span>];
                <span>$arr</span>[<span>$j</span>] = <span>$temp</span>;

            }
        }
    }
    <span>return</span><span>$arr</span>;
}

<span>$bubble_start_time</span> = microtime(<span>true</span>);

<span>$bubble_sort</span> = bubbleSort(<span>$arr</span>);

<span>$bubble_end_time</span> = microtime(<span>true</span>);

<span>$bubble_need_time</span> = <span>$bubble_end_time</span> - <span>$bubble_start_time</span>;

print_r(<span>"冒泡排序耗时:"</span> . <span>$bubble_need_time</span> . <span>"<br>"</span>);

<span>//3 选择排序</span><span><span>function</span><span>selectionSort</span><span>(<span>$arr</span>)</span>
{</span><span>$count</span> = count(<span>$arr</span>);
    <span>for</span> (<span>$i</span> = <span>0</span>; <span>$i</span> $count - <span>1</span>; <span>$i</span>++) {
        <span>//找到最小的值</span><span>$min</span> = <span>$i</span>;
        <span>for</span> (<span>$j</span> = <span>$i</span> + <span>1</span>; <span>$j</span> $count; <span>$j</span>++) {
            <span>//由小到大排列</span><span>if</span> (<span>$arr</span>[<span>$min</span>] > <span>$arr</span>[<span>$j</span>]) {
                <span>//表明当前最小的还比当前的元素大</span><span>$min</span> = <span>$j</span>;
                <span>//赋值新的最小的</span>
            }
        }
        <span>/*swap$array[$i]and$array[$min]即将当前内循环的最小元素放在$i位置上*/</span><span>if</span> (<span>$min</span> != <span>$i</span>) {
            <span>$temp</span> = <span>$arr</span>[<span>$min</span>];
            <span>$arr</span>[<span>$min</span>] = <span>$arr</span>[<span>$i</span>];
            <span>$arr</span>[<span>$i</span>] = <span>$temp</span>;
        }
    }
    <span>return</span><span>$arr</span>;

}

<span>$selection_start_time</span> = microtime(<span>true</span>);

<span>$selection_sort</span> = selectionSort(<span>$arr</span>);

<span>$selection_end_time</span> = microtime(<span>true</span>);

<span>$selection_need_time</span> = <span>$selection_end_time</span> - <span>$selection_start_time</span>;

print_r(<span>"选择排序耗时:"</span> . <span>$selection_need_time</span> . <span>"<br>"</span>);

<span>//4 并归排序</span><span>//merge函数将指定的两个有序数组(arr1arr2,)合并并且排序</span><span>//我们可以找到第三个数组,然后依次从两个数组的开始取数据哪个数据小就先取哪个的,然后删除掉刚刚取过///的数据</span><span><span>function</span><span>al_merge</span><span>(<span>$arrA</span>, <span>$arrB</span>)</span>
{</span><span>$arrC</span> = <span>array</span>();
    <span>while</span> (count(<span>$arrA</span>) && count(<span>$arrB</span>)) {
        <span>//这里不断的判断哪个值小,就将小的值给到arrC,但是到最后肯定要剩下几个值,</span><span>//不是剩下arrA里面的就是剩下arrB里面的而且这几个有序的值,肯定比arrC里面所有的值都大所以使用</span><span>$arrC</span>[] = <span>$arrA</span>[<span>'0'</span>] $arrB[<span>'0'</span>] ? array_shift(<span>$arrA</span>) : array_shift(<span>$arrB</span>);
    }
    <span>return</span> array_merge(<span>$arrC</span>, <span>$arrA</span>, <span>$arrB</span>);
}

<span>//归并排序主程序</span><span><span>function</span><span>al_merge_sort</span><span>(<span>$arr</span>)</span>
{</span><span>$len</span> = count(<span>$arr</span>);
    <span>if</span> (<span>$len</span> 1)
        <span>return</span><span>$arr</span>;<span>//递归结束条件,到达这步的时候,数组就只剩下一个元素了,也就是分离了数组</span><span>$mid</span> = intval(<span>$len</span> / <span>2</span>);<span>//取数组中间</span><span>$left_arr</span> = array_slice(<span>$arr</span>, <span>0</span>, <span>$mid</span>);<span>//拆分数组0-mid这部分给左边left_arr</span><span>$right_arr</span> = array_slice(<span>$arr</span>, <span>$mid</span>);<span>//拆分数组mid-末尾这部分给右边right_arr</span><span>$left_arr</span> = al_merge_sort(<span>$left_arr</span>);<span>//左边拆分完后开始递归合并往上走</span><span>$right_arr</span> = al_merge_sort(<span>$right_arr</span>);<span>//右边拆分完毕开始递归往上走</span><span>$arr</span> = al_merge(<span>$left_arr</span>, <span>$right_arr</span>);<span>//合并两个数组,继续递归</span><span>return</span><span>$arr</span>;
}

<span>$merge_start_time</span> = microtime(<span>true</span>);

<span>$merge_sort</span> = al_merge_sort(<span>$arr</span>);

<span>$merge_end_time</span> = microtime(<span>true</span>);

<span>$merge_need_time</span> = <span>$merge_end_time</span> - <span>$merge_start_time</span>;

print_r(<span>"并归排序耗时:"</span> . <span>$merge_need_time</span> . <span>"<br>"</span>);

<span>//5 快速排序</span><span><span>function</span><span>quickSort</span><span>(&<span>$arr</span>)</span>{</span><span>if</span>(count(<span>$arr</span>)><span>1</span>){
        <span>$k</span>=<span>$arr</span>[<span>0</span>];
        <span>$x</span>=<span>array</span>();
        <span>$y</span>=<span>array</span>();
        <span>$_size</span>=count(<span>$arr</span>);
        <span>for</span>(<span>$i</span>=<span>1</span>;<span>$i</span>$_size;<span>$i</span>++){
            <span>if</span>(<span>$arr</span>[<span>$i</span>]$k){
                <span>$x</span>[]=<span>$arr</span>[<span>$i</span>];
            }<span>elseif</span>(<span>$arr</span>[<span>$i</span>]><span>$k</span>){
                <span>$y</span>[]=<span>$arr</span>[<span>$i</span>];
            }
        }
        <span>$x</span>=quickSort(<span>$x</span>);
        <span>$y</span>=quickSort(<span>$y</span>);
        <span>return</span> array_merge(<span>$x</span>,<span>array</span>(<span>$k</span>),<span>$y</span>);
    }<span>else</span>{
        <span>return</span><span>$arr</span>;
    }
}

<span>$quick_start_time</span> = microtime(<span>true</span>);

<span>$quick_sort</span> = al_merge_sort(<span>$arr</span>);

<span>$quick_end_time</span> = microtime(<span>true</span>);

<span>$quick_need_time</span> = <span>$quick_end_time</span> - <span>$quick_start_time</span>;

print_r(<span>"快速排序耗时:"</span> . <span>$quick_need_time</span> . <span>"<br>"</span>);

</code>
Nach dem Login kopieren

耗时对比

插入排序耗时:1.2335460186005
冒泡排序耗时:2.6180219650269
选择排序耗时:1.4159741401672
并归排序耗时:0.17212891578674
快速排序耗时:0.16736888885498

参考资料

  • 算法导论
').addClass('pre-numbering').hide(); $(this).addClass('has-numbering').parent().append($numbering); for (i = 1; i ').text(i)); }; $numbering.fadeIn(1700); }); });

以上就介绍了PHP实现经典算法上,包括了php,经典方面的内容,希望对PHP教程有兴趣的朋友有所帮助。

Verwandte Etiketten:
Quelle:php.cn
Erklärung dieser Website
Der Inhalt dieses Artikels wird freiwillig von Internetnutzern beigesteuert und das Urheberrecht liegt beim ursprünglichen Autor. Diese Website übernimmt keine entsprechende rechtliche Verantwortung. Wenn Sie Inhalte finden, bei denen der Verdacht eines Plagiats oder einer Rechtsverletzung besteht, wenden Sie sich bitte an admin@php.cn
Beliebte Tutorials
Mehr>
Neueste Downloads
Mehr>
Web-Effekte
Quellcode der Website
Website-Materialien
Frontend-Vorlage