8つの重要なPHP関数開発_PHPチュートリアル

PHP 開発を行ったプログラマーは、PHP に多くの組み込み関数があることを知っておく必要があります。これらをマスターすると、PHP 開発がより快適になります。そのすべてが非常に便利です。実践的には、すべての PHP 開発者がそれをマスターできることを願っています。 1. 任意の数の関数パラメーターを渡します
2. glob() を使用してファイルを検索します
3. メモリ使用量情報を取得します
4. CPU 使用率情報を取得します
5. システム定数を取得します
6. 一意の ID を生成します
7. 連載
8. 文字列の圧縮
1. 任意の数の関数パラメータを渡す .NET または JAVA プログラミングでは、関数パラメータの数は通常固定されていますが、PHP では任意の数のパラメータを使用できます。次の例は、PHP 関数のデフォルトのパラメーターを示しています。 リーリー

2. glob() を使用してファイルを検索します ほとんどの PHP 関数の関数名は文字通りその目的を理解できますが、glob() を見ても、実際には glob() が何に使われているかがわからない場合があります。 scandir() と同じで、ファイルの検索に使用できます。以下の使用法を参照してください。 リーリー

複数のサフィックスを検索することもできます:

リーリー

パスを追加することもできます:

リーリー

絶対パスを取得したい場合は、realpath() 関数を呼び出すことができます:

リーリー

3、获取内存使用情况信息 PHP的内存回收机制已经非常强大，你也可以使用PHP脚本获取当前内存的使用情况，调用memory_get_usage() 函数获取当期内存使用情况，调用memory_get_peak_usage() 函数获取内存使用的峰值。参考代码如下：

<span  1</span> <span echo</span> "Initial: ".memory_get_usage().<span " bytes \n";  
</span><span  2</span> <span /*</span><span  输出 
</span><span  3</span> <span Initial: 361400 bytes 
</span><span  4</span> <span */</span>  
<span  5</span> <span //</span><span  使用内存  </span>
<span  6</span> <span for</span> (<span $i</span> = 0; <span $i</span> < 100000; <span $i</span>++<span ) {  
</span><span  7</span> <span $array</span> []= <span md5</span>(<span $i</span><span );  
</span><span  8</span> <span }  
</span><span  9</span> <span //</span><span  删除一半的内存  </span>
<span 10</span> <span for</span> (<span $i</span> = 0; <span $i</span> < 100000; <span $i</span>++<span ) {  
</span><span 11</span> <span unset</span>(<span $array</span>[<span $i</span><span ]);  
</span><span 12</span> <span }  
</span><span 13</span> <span echo</span> "<span Final</span>: ".memory_get_usage().<span " bytes \n";  
</span><span 14</span> <span /*</span><span  prints 
</span><span 15</span> <span Final: 885912 bytes 
</span><span 16</span> <span */</span>  
<span 17</span> <span echo</span> "Peak: ".memory_get_peak_usage().<span " bytes \n";  
</span><span 18</span> <span /*</span><span  输出峰值 
</span><span 19</span> <span Peak: 13687072 bytes 
</span><span 20</span> <span */</span>  

 

4、获取CPU使用情况信息 获取了内存使用情况，也可以使用PHP的 getrusage()获取CPU使用情况，该方法在windows下不可用。

<span  1</span> <span print_r</span><span (getrusage());  
</span><span  2</span> <span /*</span><span  输出 
</span><span  3</span> <span Array 
</span><span  4</span> <span ( 
</span><span  5</span> <span [ru_oublock] => 0 
</span><span  6</span> <span [ru_inblock] => 0 
</span><span  7</span> <span [ru_msgsnd] => 2 
</span><span  8</span> <span [ru_msgrcv] => 3 
</span><span  9</span> <span [ru_maxrss] => 12692 
</span><span 10</span> <span [ru_ixrss] => 764 
</span><span 11</span> <span [ru_idrss] => 3864 
</span><span 12</span> <span [ru_minflt] => 94 
</span><span 13</span> <span [ru_majflt] => 0 
</span><span 14</span> <span [ru_nsignals] => 1 
</span><span 15</span> <span [ru_nvcsw] => 67 
</span><span 16</span> <span [ru_nivcsw] => 4 
</span><span 17</span> <span [ru_nswap] => 0 
</span><span 18</span> <span [ru_utime.tv_usec] => 0 
</span><span 19</span> <span [ru_utime.tv_sec] => 0 
</span><span 20</span> <span [ru_stime.tv_usec] => 6269 
</span><span 21</span> <span [ru_stime.tv_sec] => 0 
</span><span 22</span> <span ) 
</span><span 23</span> <span */</span>  

 

这个结构看上出很晦涩，除非你对CPU很了解。下面一些解释： ru_oublock: 块输出操作 ru_inblock: 块输入操作 ru_msgsnd: 发送的message ru_msgrcv: 收到的message ru_maxrss: 最大驻留集大小 ru_ixrss: 全部共享内存大小 ru_idrss:全部非共享内存大小 ru_minflt: 页回收 ru_majflt: 页失效 ru_nsignals: 收到的信号 ru_nvcsw: 主动上下文切换 ru_nivcsw: 被动上下文切换 ru_nswap: 交换区 ru_utime.tv_usec: 用户态时间 (microseconds) ru_utime.tv_sec: 用户态时间(seconds) ru_stime.tv_usec: 系统内核时间 (microseconds) ru_stime.tv_sec: 系统内核时间?(seconds) 要看到你的脚本消耗了多少CPU，我们需要看看"用户态的时间"和"系统内核时间"的值。秒和微秒部分是分别提供的，您可以把微秒值除以100万，并把它添加到秒的值后，可以得到有小数部分的秒数。

<span  1</span> <span //</span><span  sleep for 3 seconds (non-busy)  </span>
<span  2</span> <span sleep</span>(3<span );  
</span><span  3</span> <span $data</span> =<span  getrusage();  
</span><span  4</span> <span echo</span> "User <span time</span>: ".  
<span  5</span> (<span $data</span>['ru_utime.tv_sec'] +  
<span  6</span> <span $data</span>['ru_utime.tv_usec'] / 1000000<span );  
</span><span  7</span> <span echo</span> "<span System</span> <span time</span>: ".  
<span  8</span> (<span $data</span>['ru_stime.tv_sec'] +  
<span  9</span> <span $data</span>['ru_stime.tv_usec'] / 1000000<span );  
</span><span 10</span> <span /*</span><span  输出 
</span><span 11</span> <span User time: 0.011552 
</span><span 12</span> <span System time: 0 
</span><span 13</span> <span */</span>  

 

是不占用系统时间的，我们可以来看下面的一个例子：

<span  1</span> <span //</span><span  loop 10 million times (busy)  </span>
<span  2</span> <span for</span>(<span $i</span>=0;<span $i</span><10000000;<span $i</span>++<span ) {  
</span><span  3</span> <span }  
</span><span  4</span> <span $data</span> =<span  getrusage();  
</span><span  5</span> <span echo</span> "User <span time</span>: ".  
<span  6</span> (<span $data</span>['ru_utime.tv_sec'] +  
<span  7</span> <span $data</span>['ru_utime.tv_usec'] / 1000000<span );  
</span><span  8</span> <span echo</span> "<span System</span> <span time</span>: ".  
<span  9</span> (<span $data</span>['ru_stime.tv_sec'] +  
<span 10</span> <span $data</span>['ru_stime.tv_usec'] / 1000000<span );  
</span><span 11</span> <span /*</span><span  输出 
</span><span 12</span> <span User time: 1.424592 
</span><span 13</span> <span System time: 0.004204 
</span><span 14</span> <span */</span>  

 

这花了大约14秒的CPU时间，几乎所有的都是用户的时间，因为没有系统调用。传统时间是CPU花费在系统调用上的上执行内核指令的时间。下面是一个例子：

<span  1</span> <span $start</span> = <span microtime</span>(<span true</span><span );  
</span><span  2</span> <span //</span><span  keep calling microtime for about 3 seconds  </span>
<span  3</span> <span while</span>(<span microtime</span>(<span true</span>) &ndash; <span $start</span> < 3<span ) {  
</span><span  4</span> <span }  
</span><span  5</span> <span $data</span> =<span  getrusage();  
</span><span  6</span> <span echo</span> "User <span time</span>: ".  
<span  7</span> (<span $data</span>['ru_utime.tv_sec'] +  
<span  8</span> <span $data</span>['ru_utime.tv_usec'] / 1000000<span );  
</span><span  9</span> <span echo</span> "<span System</span> <span time</span>: ".  
<span 10</span> (<span $data</span>['ru_stime.tv_sec'] +  
<span 11</span> <span $data</span>['ru_stime.tv_usec'] / 1000000<span );  
</span><span 12</span> <span /*</span><span  prints 
</span><span 13</span> <span User time: 1.088171 
</span><span 14</span> <span System time: 1.675315 
</span><span 15</span> <span */</span>  

 

我们可以看到上面这个例子更耗CPU。
5、获取系统常量 PHP 提供非常有用的系统常量 可以让你得到当前的行号 (__LINE__)，文件 (__FILE__)，目录 (__DIR__)，函数名  (__FUNCTION__)，类名(__CLASS__)，方法名(__METHOD__) 和名字空间  (__NAMESPACE__)，很像C语言。
我们可以以为这些东西主要是用于调试，当也不一定，比如我们可以在include其它文件的时候使用?__FILE__ (当然，你也可以在 PHP 5.3以后使用 __DIR__ )，下面是一个例子。

<span 1</span> <span //</span><span  this is relative to the loaded script's path  
</span><span 2</span> <span // it may cause problems when running scripts from different directories  </span>
<span 3</span> <span require_once</span>('config/database.<span php');  
</span><span 4</span> <span //</span><span  this is always relative to this file's path  
</span><span 5</span> <span // no matter where it was included from  </span>
<span 6</span> <span require_once</span>(<span dirname</span>(<span __FILE__</span>) . '/config/database.php');  

 

下面是使用 __LINE__ 来输出一些debug的信息，这样有助于你调试程序：

<span  1</span> <span //</span><span  some code  
</span><span  2</span> <span // &hellip;  </span>
<span  3</span> my_debug("some debug message", <span __LINE__</span><span );  
</span><span  4</span> <span /*</span><span  输出 
</span><span  5</span> <span Line 4: some debug message 
</span><span  6</span> <span */</span>  
<span  7</span> <span //</span><span  some more code  
</span><span  8</span> <span // &hellip;  </span>
<span  9</span> my_debug("another debug message", <span __LINE__</span><span );  
</span><span 10</span> <span /*</span><span  输出 
</span><span 11</span> <span Line 11: another debug message 
</span><span 12</span> <span */</span>  
<span 13</span> <span function</span> my_debug(<span $msg</span>, <span $line</span><span ) {  
</span><span 14</span> <span echo</span> "Line <span $line</span>: <span $msg</span><span \n";  
</span><span 15</span> }  

 

6、生成唯一的id 很多朋友都利用md5()来生成唯一的编号，但是md5()有几个缺点：1、无序，导致数据库中排序性能下降。2、太长，需要更多的存储空间。其实PHP中自带一个函数来生成唯一的id，这个函数就是uniqid()。下面是用法：

<span  1</span> <span //</span><span  generate unique string  </span>
<span  2</span> <span echo</span> <span uniqid</span><span ();  
</span><span  3</span> <span /*</span><span  输出 
</span><span  4</span> <span 4bd67c947233e 
</span><span  5</span> <span */</span>  
<span  6</span> <span //</span><span  generate another unique string  </span>
<span  7</span> <span echo</span> <span uniqid</span><span ();  
</span><span  8</span> <span /*</span><span  输出 
</span><span  9</span> <span 4bd67c9472340 
</span><span 10</span> <span */</span>  

 

该算法是根据CPU时间戳来生成的，所以在相近的时间段内，id前几位是一样的，这也方便id的排序，如果你想更好的避免重复，可以在id前加上前缀，如：

<span  1</span> <span //</span><span  前缀  </span>
<span  2</span> <span echo</span> <span uniqid</span><span ('foo_');  
</span><span  3</span> <span /*</span><span  输出 
</span><span  4</span> <span foo_4bd67d6cd8b8f 
</span><span  5</span> <span */</span>  
<span  6</span> <span //</span><span  有更多的熵  </span>
<span  7</span> <span echo</span> <span uniqid</span>(",<span true</span><span );  
</span><span  8</span> <span /*</span><span  输出 
</span><span  9</span> <span 4bd67d6cd8b926.12135106 
</span><span 10</span> <span */</span>  
<span 11</span> <span //</span><span  都有  </span>
<span 12</span> <span echo</span> <span uniqid</span>('bar_',<span true</span><span );  
</span><span 13</span> <span /*</span><span  输出 
</span><span 14</span> <span bar_4bd67da367b650.43684647 
</span><span 15</span> <span */</span>  

 

7、序列化 PHP序列化功能大家可能用的比较多，也比较常见，当你需要把数据存到数据库或者文件中是，你可以利用PHP中的serialize() 和 unserialize()方法来实现序列化和反序列化，代码如下：

<span  1</span> <span //</span><span  一个复杂的数组  </span>
<span  2</span> <span $myvar</span> = <span array</span><span (  
</span><span  3</span> 'hello',  
<span  4</span> 42,  
<span  5</span> <span array</span>(1,'two'),  
<span  6</span> <span 'apple'  
</span><span  7</span> <span );  
</span><span  8</span> <span //</span><span  序列化  </span>
<span  9</span> <span $string</span> = <span serialize</span>(<span $myvar</span><span );  
</span><span 10</span> <span echo</span> <span $string</span><span ;  
</span><span 11</span> <span /*</span><span  输出 
</span><span 12</span> <span a:4:{i:0;s:5:"hello";i:1;i:42;i:2;a:2:{i:0;i:1;i:1;s:3:"two";}i:3;s:5:"apple";} 
</span><span 13</span> <span */</span>  
<span 14</span> <span //</span><span  反序例化  </span>
<span 15</span> <span $newvar</span> = <span unserialize</span>(<span $string</span><span );  
</span><span 16</span> <span print_r</span>(<span $newvar</span><span );  
</span><span 17</span> <span /*</span><span  输出 
</span><span 18</span> <span Array 
</span><span 19</span> <span ( 
</span><span 20</span> <span [0] => hello 
</span><span 21</span> <span [1] => 42 
</span><span 22</span> <span [2] => Array 
</span><span 23</span> <span ( 
</span><span 24</span> <span [0] => 1 
</span><span 25</span> <span [1] => two 
</span><span 26</span> <span ) 
</span><span 27</span> <span [3] => apple 
</span><span 28</span> <span ) 
</span><span 29</span> <span */</span>  

 

如何序列化成json格式呢，放心，php也已经为你做好了，使用php 5.2以上版本的用户可以使用json_encode() 和 json_decode() 函数来实现json格式的序列化，代码如下：

<span  1</span> <span //</span><span  a complex array  </span>
<span  2</span> <span $myvar</span> = <span array</span><span (  
</span><span  3</span> 'hello',  
<span  4</span> 42,  
<span  5</span> <span array</span>(1,'two'),  
<span  6</span> <span 'apple'  
</span><span  7</span> <span );  
</span><span  8</span> <span //</span><span  convert to a string  </span>
<span  9</span> <span $string</span> = json_encode(<span $myvar</span><span );  
</span><span 10</span> <span echo</span> <span $string</span><span ;  
</span><span 11</span> <span /*</span><span  prints 
</span><span 12</span> <span ["hello",42,[1,"two"],"apple"] 
</span><span 13</span> <span */</span>  
<span 14</span> <span //</span><span  you can reproduce the original variable  </span>
<span 15</span> <span $newvar</span> = json_decode(<span $string</span><span );  
</span><span 16</span> <span print_r</span>(<span $newvar</span><span );  
</span><span 17</span> <span /*</span><span  prints 
</span><span 18</span> <span Array 
</span><span 19</span> <span ( 
</span><span 20</span> <span [0] => hello 
</span><span 21</span> <span [1] => 42 
</span><span 22</span> <span [2] => Array 
</span><span 23</span> <span ( 
</span><span 24</span> <span [0] => 1 
</span><span 25</span> <span [1] => two 
</span><span 26</span> <span ) 
</span><span 27</span> <span [3] => apple 
</span><span 28</span> <span ) 
</span><span 29</span> <span */</span>  

 

8、字符串压缩 当我们说到压缩，我们可能会想到文件压缩，其实，字符串也是可以压缩的。PHP提供了 gzcompress() 和gzuncompress() 函数：

<span  1</span> <span $string</span> =  
<span  2</span> "Lorem ipsum dolor sit amet,<span  consectetur  
</span><span  3</span> adipiscing elit.<span  Nunc ut elit id mi ultricies  
</span><span  4</span> adipiscing. Nulla facilisi. Praesent pulvinar,  
<span  5</span> sapien vel feugiat vestibulum, nulla dui pretium orci,  
<span  6</span> non ultricies elit lacus quis ante.<span  Lorem ipsum dolor  
</span><span  7</span> sit amet, consectetur adipiscing elit.<span  Aliquam  
</span><span  8</span> pretium ullamcorper urna quis iaculis.<span  Etiam ac massa  
</span><span  9</span> sed turpis tempor luctus.<span  Curabitur sed nibh eu elit  
</span><span 10</span> mollis congue. Praesent ipsum diam,<span  consectetur vitae  
</span><span 11</span> ornare a, aliquam a nunc.<span  In id magna pellentesque  
</span><span 12</span> tellus posuere adipiscing. Sed non mi metus,<span  at lacinia  
</span><span 13</span> augue. Sed magna nisi, ornare in mollis in,<span  mollis  
</span><span 14</span> sed nunc. Etiam at justo in leo congue mollis.  
<span 15</span> <span Nullam in neque eget metus hendrerit scelerisque  
</span><span 16</span> eu non enim.<span  Ut malesuada lacus eu nulla bibendum  
</span><span 17</span> id euismod urna sodales.<span  ";  
</span><span 18</span> <span $compressed</span> = <span gzcompress</span>(<span $string</span><span );  
</span><span 19</span> <span echo</span> "Original size: ". <span strlen</span>(<span $string</span>).<span "\n";  
</span><span 20</span> <span /*</span><span  输出原始大小 
</span><span 21</span> <span Original size: 800 
</span><span 22</span> <span */</span>  
<span 23</span> <span echo</span> "Compressed size: ". <span strlen</span>(<span $compressed</span>).<span "\n";  
</span><span 24</span> <span /*</span><span  输出压缩后的大小 
</span><span 25</span> <span Compressed size: 418 
</span><span 26</span> <span */</span>  
<span 27</span> <span //</span><span  解压缩  </span>
<span 28</span> <span $original</span> = <span gzuncompress</span>(<span $compressed</span>);  

 

几乎有50% 压缩比率。同时，你还可以使用 gzencode() 和 gzdecode() 函数来压缩，只不用其用了不同的压缩算法。
以上就是8个开发必备的PHP功能，是不是都很实用呢？
原文出处:http://www.codeceo.com/8-php-functions.html

 

http://www.bkjia.com/PHPjc/440256.htmlwww.bkjia.comtruehttp://www.bkjia.com/PHPjc/440256.htmlTechArticle做过PHP开发的程序员应该清楚，PHP中有很多内置的功能，掌握了它们，可以帮助你在做PHP开发时更加得心应手，本文将分享8个开发必备的...