search
HomeBackend DevelopmentPHP Tutorial深入理解PHP内核(六)函数的定义、传参及返回值,深入理解内核_PHP教程
深入理解PHP内核(六)函数的定义、传参及返回值,深入理解内核_PHP教程
WBOYWBOYWBOYWBOYWBOYWBOYWBOYWBOYWBOYWBOYWBOYWBOYWB
WBOYWBOYWBOYWBOYWBOYWBOYWBOYWBOYWBOYWBOYWBOYWBOYWB
Jul 12, 2016 am 08:59 AM
messagebox

深入理解PHP内核(六)函数的定义、传参及返回值,深入理解内核

一、函数的定义

  用户函数的定义从function 关键字开始,如下

<span>function</span> foo(<span>$var</span><span>) {
    </span><span>echo</span> <span>$var</span><span>;
}</span>

  1、词法分析

  在Zend/zend_language_scanner.l中我们找到如下所示的代码:

<ST_IN_SCRIPTING><span>"</span><span>function</span><span>"</span><span> {
    </span><span>return</span><span> T_FUNCTION;
}</span>

  它所表示的含义是function将会生成T_FUNCTION标记。在获取这个标记后,我们开始语法分析。

  2、语法分析

  在Zend/zend_language_parser.y文件中找到函数的声明过程标记如下:

<span>function:
    T_FUNCTION { $$.u.opline_num </span>=<span> CG(zend_lineno); }
;
 
is_reference:
        </span><span>/*</span><span> empty </span><span>*/</span> { $$.op_type =<span> ZEND_RETURN_VAL; }
    </span>|   <span>'</span><span>&</span><span>'</span>         { $$.op_type =<span> ZEND_RETURN_REF; }
;
 
unticked_function_declaration_statement:
        function is_reference T_STRING {
zend_do_begin_function_declaration(</span>&$<span>1</span>, &$<span>3</span>, <span>0</span>, $<span>2</span><span>.op_type, NULL TSRMLS_CC); }
            </span><span>'</span><span>(</span><span>'</span> parameter_list <span>'</span><span>)</span><span>'</span> <span>'</span><span>{</span><span>'</span> inner_statement_list <span>'</span><span>}</span><span>'</span><span> {
                zend_do_end_function_declaration(</span>&$<span>1</span><span> TSRMLS_CC); }
;</span>

    关注点在function is_reference T_STRING,表示function关键字,是否引用,函数名

  T_FUNCTION标记只是用来定位函数的声明,表示这是一个函数,而更多的工作是与这个函数相关的东西,包括参数,返回值。

  3、生成中间代码

  语法解析后,我们看到所执行编译函数为zend_do_begin_function_declaration。在Zend/zend_complie.c文件找到其实现如下:

<span>void</span> zend_do_begin_function_declaration(znode *<span>function_token, znode 
</span>*<span>function_name,
 </span><span>int</span> is_method, <span>int</span> return_reference, znode *fn_flags_znode TSRMLS_DC) <span>/*</span><span> {{{ 
</span><span>*/</span><span>
{
    ...</span><span>//</span><span>省略</span>
    function_token->u.op_array =<span> CG(active_op_array);
    lcname </span>=<span> zend_str_tolower_dup(name, name_len);
 
    orig_interactive </span>=<span> CG(interactive);
    CG(interactive) </span>= <span>0</span><span>;
    init_op_array(</span>&<span>op_array, ZEND_USER_FUNCTION, INITIAL_OP_ARRAY_SIZE 
TSRMLS_CC);
    CG(interactive) </span>=<span> orig_interactive;
 
     ...</span><span>//</span><span>省略</span>
 
    <span>if</span><span> (is_method) {
        ...</span><span>//</span><span>省略,类方法 在后面的章节介绍</span>
„!<span>ǶGH
    } </span><span>else</span><span> {
        zend_op </span>*opline =<span> get_next_op(CG(active_op_array) TSRMLS_CC);
 
 
        opline</span>->opcode =<span> ZEND_DECLARE_FUNCTION;
        opline</span>->op1.op_type =<span> IS_CONST;
        build_runtime_defined_function_key(</span>&opline-><span>op1.u.constant, lcname,
            name_len TSRMLS_CC);
        opline</span>->op2.op_type =<span> IS_CONST;
        opline</span>->op2.u.constant.type =<span> IS_STRING;
        opline</span>->op2.u.constant.value.str.val =<span> lcname;
        opline</span>->op2.u.constant.value.str.len =<span> name_len;
        Z_SET_REFCOUNT(opline</span>->op2.u.constant, <span>1</span><span>);
        opline</span>->extended_value =<span> ZEND_DECLARE_FUNCTION;
        zend_hash_update(CG(function_table), opline</span>-
><span>op1.u.constant.value.str.val,
            opline</span>->op1.u.constant.value.str.len, &<span>op_array, 
</span><span>sizeof</span><span>(zend_op_array),
             (</span><span>void</span> **) &<span>CG(active_op_array));
    }
 
}
</span><span>/*</span><span> }}} </span><span>*/</span><span><br /></span>

  生成的代码为ZEND_DECLARE_FUNCTION,根据这个中间的代码及操作数对应的op_type。我们可以找到中间代码的执行函数为ZEND_DECLARE_FUNCTION_SPEC_HANDLER。

    在生成中间代码的时候,可以看到已经统一了函数名全部为小写,表示函数的名称不是区  分大小写的。

  为验证这个实现,我们看一段代码

<span>function T() {
    echo </span><span>1</span><span>;
}
 
function t() {
    echo </span><span>2</span><span>;
}</span>

  执行代码会报错Fatal error: Cannot redeclare t() (previously declared in ...)

  表示对于PHP来说T和t是同一个函数名,校验函数名是否重复,这个过程是在哪进行的呢?

  4、执行中间代码

  在Zend/zend_vm_execute.h文件中找到ZEND_DECLARE_FUNCTION中间代码对应的执行函数:ZEND_DECLARE_FUNCTION_SPEC_HANDLER。此函数只调用了函数do_bind_function。其调用代码为:

do_bind_function(EX(opline), EG(function_table), <span>0</span>);

  在这个函数中将EX(opline)所指向的函数添加到EG(function_table)中,并判断是否已经存在相同名字的函数,如果存在则报错,EG(function_table)用来存放执行过程中全部的函数信息,相当于函数的注册表。它的结构是一个HashTable,所以在do_bind_function函数中添加新的函数使用的是HashTable的操作函数zend_hash_add

 

二、函数的参数

  函数的定义只是一个将函数名注册到函数列表的过程。

  1、用户自定义函数的参数

  我们知道对于函数的参数检查是通过zend_do_receive_arg函数来实现的,在此函数中对于参数的关键代码如下:

CG(active_op_array)->arg_info = erealloc(CG(active_op_array)-><span>arg_info,
        </span><span>sizeof</span>(zend_arg_info)*(CG(active_op_array)-><span>num_args));
cur_arg_info </span>= &CG(active_op_array)->arg_info[CG(active_op_array)->num_args-<span>1</span><span>];
cur_arg_info</span>->name = estrndup(varname-><span>u.constant.value.str.val,
        varname</span>-><span>u.constant.value.str.len);
cur_arg_info</span>->name_len = varname-><span>u.constant.value.str.len;
cur_arg_info</span>->array_type_hint = <span>0</span><span>;
cur_arg_info</span>->allow_null = <span>1</span><span>;
cur_arg_info</span>->pass_by_reference =<span> pass_by_reference;
cur_arg_info</span>->class_name =<span> NULL;
cur_arg_info</span>->class_name_len = <span>0</span>;

  整个参数的传递是通过给中间代码的arg_info字段执行赋值操作完成。关键点是在arg_info字段,arg_info字段的结构如下:

typedef <span>struct</span><span> _zend_arg_info {
    </span><span>const</span> <span>char</span> *name;   <span>/*</span><span>参数的名称</span><span>*/</span><span>
    zend_uint name_len;     </span><span>/*</span><span>参数名称的长度</span><span>*/</span>
    <span>const</span> <span>char</span> *class_name; <span>/*</span><span> 类名</span><span>*/</span><span>
     zend_uint class_name_len;   </span><span>/*</span><span>类名长度</span><span>*/</span><span>
    zend_bool array_type_hint;  </span><span>/*</span><span>数组类型提示</span><span>*/</span><span>
    zend_bool allow_null;   </span><span>/*</span><span>是否允许为NULLͺ</span><span>*/</span><span>
    zend_bool pass_by_reference;    </span><span>/*</span><span>是否引用传递</span><span>*/</span><span>
    zend_bool return_reference; 
    </span><span>int</span><span> required_num_args;  
} zend_arg_info;</span>

  参数的值传递和参数传递的区别是通过pass_by_reference参数在生成中间代码时实现的。

  对于参数的个数,中间代码中包含的arg_nums字段在每次执行**zend_do_receive_argxx时都会加1.如下代码:

CG(active_op_array)->num_args++;

  并且当前参数的索引为ŒCG(active_op_array)->num_args-1.如下代码:

cur_arg_info = &CG(active_op_array)->arg_info[CG(active_op_array)->num_args-<span>1</span>];

  以上的分析是针对函数定义时的参数设置,这些参数是固定的。而在实际编写程序时可能我们会用到可变参数。此时我们会用到函数func_num_args和func_get_args。它们是以内部函数存在。于是在Zend\zend_builtin_functions.c文件中找到这两个函数的实现。我们首先来看func_num_args函数的实现,其代码如下:

<span>/*</span><span> {{{ proto int func_num_args(void)
   Get the number of arguments that were passed to the function </span><span>*/</span><span>
ZEND_FUNCTION(func_num_args)
{
    zend_execute_data </span>*ex = EG(current_execute_data)-><span>prev_execute_data;
 
    </span><span>if</span> (ex && ex-><span>function_state.arguments) {
        RETURN_LONG((</span><span>long</span>)(zend_uintptr_t)*(ex-><span>function_state.arguments));
    } </span><span>else</span><span> {
        zend_error(E_WARNING,
</span><span>"</span><span>func_num_args():  Called from the global scope - no function context</span><span>"</span><span>);
        RETURN_LONG(</span>-<span>1</span><span>);
    }
}
</span><span>/*</span><span> }}} </span><span>*/</span>

  在存在ex->function_state.arguments的情况下,及函数调用时,返回ex->function_state.arguments转化后的值,否则显示错误并返回-1。这里最关键的一点是EG(current_execute_data)。这个变量存放的是当前执行程序或函数的数据,此时我们需要取前一个执行程序的数据,为什么呢?因为这个函数的调用是在进入函数后执行的。函数的相关数据等都在之前执行过程中,于是调用的是:

zend_execute_data *ex = EG(current_execute_data)->prev_execute_data;

 

  2、内部函数的参数

  以常见的count函数为例,其参数处理部分的代码如下:

<span>/*</span><span> {{{ proto int count(mixed var [, int mode])
   Count the number of elements in a variable (usually an array) </span><span>*/</span><span>
PHP_FUNCTION(count)
{
    zval </span>*<span>array;
    </span><span>long</span> mode =<span> COUNT_NORMAL;
 
    </span><span>if</span> (zend_parse_parameters(ZEND_NUM_ARGS() TSRMLS_CC, <span>"</span><span>z|l</span><span>"</span><span>,
         </span>&array, &mode) ==<span> FAILURE) {
        </span><span>return</span><span>;
    }
    ... </span><span>//</span><span>省略</span>
}

  这里包括了两个操作:一个是取参数的个数,一个是解析参数列表。

  (1)取参数的个数

  取参数的个数是通过ZEND_NUM_ARGS()宏来实现的,其定义如下:

<span>#define</span> ZEND_NUM_ARGS()     (ht)

  ht是在Zend/zend.h文件中定义的宏INTERNAL_FUNCTION_PARAMETERS中的ht,如下

<span>#define</span> INTERNAL_FUNCTION_PARAMETERS int ht, zval *return_value,<span>
zval </span>**return_value_ptr, zval *this_ptr, <span>int</span> return_value_used TSRMLS_DC

  (2)解析参数列表

  PHP内部函数在解析参数时使用的是zend_parse_parameters。它可以大大简化参数的接收处理工作,虽然它在处理可变参数时还有点弱。

  其声明如下:

ZEND_API <span>int</span> zend_parse_parameters(<span>int</span> num_args TSRMLS_DC, <span>char</span> *<span>type_spec, 
...)</span>
  • 第一个参数num_args表明表示想要接收的参数个数,我们经常使用ZEND_NUM_ARGS()来表示对传入的参数“有多少要多少”
  • 第二个参数应该是宏TSRMLS_CC。
  • 第三个参数type_spec是一个字符串,用来指定我们所期待接收的各个参数的类型,有点类似于printf中指定输出格式的那个格式化字符串。
  • 剩下的参数就是我们用来接收PHP参数值的变量的指针。

  zend_parse_parameters()在解析参数的同时户尽可能的转换参数类型,这样就可以确保我们总是能得到所期望的类型的变量

 

  3、函数的返回值

  PHP中函数都有返回值,没return返回null

  (1)return语句

  从Zend/zend_language_parser.y文件中可以确认其生成中间代码调用的是zend_do_return函数。

<span>void</span> zend_do_return(znode *expr, <span>int</span> do_end_vparse TSRMLS_DC) <span>/*</span><span> {{{ </span><span>*/</span><span>
{
    zend_op </span>*<span>opline;
    </span><span>int</span><span> start_op_number, end_op_number;
 </span><span>if</span><span> (do_end_vparse) {
        </span><span>if</span> (CG(active_op_array)-><span>return_reference
                </span>&& !<span>zend_is_function_or_method_call(expr)) {
            zend_do_end_variable_parse(expr, BP_VAR_W, </span><span>0</span> TSRMLS_CC);<span>/*</span><span> 处理返回引用 </span><span>*/</span><span>
        } </span><span>else</span><span> {
            zend_do_end_variable_parse(expr, BP_VAR_R, </span><span>0</span> TSRMLS_CC);<span>/*</span><span> 处理常规变量返回 </span><span>*/</span><span>
        }
    }
 
   ...</span><span>//</span><span> 省略,取其他中间代码操作</span>
<span> 
    opline</span>->opcode =<span> ZEND_RETURN;
 
    </span><span>if</span><span> (expr) {
        opline</span>->op1 = *<span>expr;
 
        </span><span>if</span> (do_end_vparse &&<span> zend_is_function_or_method_call(expr)) {
            opline</span>->extended_value =<span> ZEND_RETURNS_FUNCTION;
        }
    } </span><span>else</span><span> {
        opline</span>->op1.op_type =<span> IS_CONST;
        INIT_ZVAL(opline</span>-><span>op1.u.constant);
    }
 
    SET_UNUSED(opline</span>-><span>op2);
}
</span><span>/*</span><span> }}} </span><span>*/</span>

  生成中间代码为ZEND_RETURN。第一个操作数的类型在返回值为可用的表达式时,其类型为表达式的操作类型,否则类型为IS_CONST。这在后续计算执行中间代码函数时有用到。根据操作数的不同,ZEND_RETURN中间代码会执行ZEND_RETURN_SPEC_CONST_HANDLER,ZEND_RETURN_SPEC_TMP_HANDLER或ZEND_RETURN_SPEC_TMP_HANDLER。这三个函数的执行流程基本类似,包括对一些错误的处理。这里我们以ZEND_RETURN_SPEC_CONST_HANDLER为例说明函数返回值的执行过程:

<span>static</span> <span>int</span><span> ZEND_FASTCALL  
ZEND_RETURN_SPEC_CONST_HANDLER(ZEND_OPCODE_HANDLER_ARGS)
{
    zend_op </span>*opline =<span> EX(opline);
    zval </span>*<span>retval_ptr;
    zval </span>**<span>retval_ptr_ptr;
 
 
    </span><span>if</span> (EG(active_op_array)->return_reference ==<span> ZEND_RETURN_REF) {
 
        </span><span>//</span><span>  Ǔǔŷs&Aacute;\ɁƶMļ@ɗ&Aacute;Ļļ</span>
        <span>if</span> (IS_CONST == IS_CONST || IS_CONST ==<span> IS_TMP_VAR) {   
            </span><span>/*</span><span> Not supposed to happen, but we'll allow it </span><span>*/</span><span>
            zend_error(E_NOTICE, </span><span>"</span><span>Only variable references \</span>
                should be returned by reference<span>"</span><span>);</span>
            <span>goto</span><span> return_by_value;
        }
 
        retval_ptr_ptr </span>= NULL;  <span>//</span><span>  ǓǔŔ</span>
 
        <span>if</span> (IS_CONST == IS_VAR && !<span>retval_ptr_ptr) {
            zend_error_noreturn(E_ERROR, </span><span>"</span><span>Cannot return string offsets by </span>
reference<span>"</span><span>);</span>
<span>        }
 </span><span>if</span> (IS_CONST == IS_VAR && !<span>Z_ISREF_PP(retval_ptr_ptr)) {
            </span><span>if</span> (opline->extended_value == ZEND_RETURNS_FUNCTION &&<span>
                EX_T(opline</span>->op1.u.<span>var</span>).<span>var</span><span>.fcall_returned_reference) {
            } </span><span>else</span> <span>if</span> (EX_T(opline->op1.u.<span>var</span>).<span>var</span>.ptr_ptr ==
                    &EX_T(opline->op1.u.<span>var</span>).<span>var</span><span>.ptr) {
                </span><span>if</span> (IS_CONST == IS_VAR && !<span>0</span><span>) {
                      </span><span>/*</span><span> undo the effect of get_zval_ptr_ptr() </span><span>*/</span><span>
                    PZVAL_LOCK(</span>*<span>retval_ptr_ptr);
                }
                zend_error(E_NOTICE, </span><span>"</span><span>Only variable references \</span>
                 should be returned by reference<span>"</span><span>);</span>
                <span>goto</span><span> return_by_value;
            }
        }
 
        </span><span>if</span> (EG(return_value_ptr_ptr)) { <span>//</span><span>  Ǔǔŷs</span>
            SEPARATE_ZVAL_TO_MAKE_IS_REF(retval_ptr_ptr);   <span>//</span><span>  is_ref__gcőęŒ</span>
<span>1</span><span>
            Z_ADDREF_PP(retval_ptr_ptr);    </span><span>//</span><span>  refcount__gc&OElig;ď&times;1</span>
<span> 
            (</span>*EG(return_value_ptr_ptr)) = (*<span>retval_ptr_ptr);
        }
    } </span><span>else</span><span> {
return_by_value:
 
        retval_ptr </span>= &opline-><span>op1.u.constant;
 
        </span><span>if</span> (!<span>EG(return_value_ptr_ptr)) {
            </span><span>if</span> (IS_CONST ==<span> IS_TMP_VAR) {
 
            }
        } </span><span>else</span> <span>if</span> (!<span>0</span>) { <span>/*</span><span> Not a temp var </span><span>*/</span>
            <span>if</span> (IS_CONST == IS_CONST ||<span>
                EG(active_op_array)</span>->return_reference == ZEND_RETURN_REF ||<span>
                (PZVAL_IS_REF(retval_ptr) </span>&& Z_REFCOUNT_P(retval_ptr) > <span>0</span><span>)) {
                zval </span>*<span>ret;
 
                ALLOC_ZVAL(ret);
                INIT_PZVAL_COPY(ret, retval_ptr);   </span><span>//</span><span>  Ł™ͿʍǓǔŔ </span>
<span>                zval_copy_ctor(ret);
                </span>*EG(return_value_ptr_ptr) =<span> ret;
            } </span><span>else</span><span> {
                </span>*EG(return_value_ptr_ptr) = retval_ptr; <span>//</span><span>  ħ6ɶŔ</span>
<span>                Z_ADDREF_P(retval_ptr);
            }
        } </span><span>else</span><span> {
            zval </span>*<span>ret;
 
            ALLOC_ZVAL(ret);
            INIT_PZVAL_COPY(ret, retval_ptr);    </span><span>//</span><span>  Ł™ͿʍǓǔŔ </span>
            *EG(return_value_ptr_ptr) =<span> ret;    
        }
    }
 
    </span><span>return</span> zend_leave_helper_SPEC(ZEND_OPCODE_HANDLER_ARGS_PASSTHRU);   <span>//</span><span>  Ǔ</span>
<span>ǔĉˆșʒ
}</span>

  函数的返回值在程序执行时存储在*EG(return_value_ptr_ptr)。ZEND内核对值返回和引用返回作了区别,并且在此基础上对常量,临时变量和其他类型的变量在返回时作了不同的处理。在return执行完之后,ZEND内核通过调用zend_leave_helper_SPEC函数,清除函数内部使用的变量等。这也是ZEND内核自动给函数加上NULL返回的原因之一。

www.bkjia.comtruehttp://www.bkjia.com/PHPjc/1100151.htmlTechArticle深入理解PHP内核(六)函数的定义、传参及返回值,深入理解内核 一、函数的定义 用户函数的定义从function 关键字开始,如下 function foo( $v...
Statement
The content of this article is voluntarily contributed by netizens, and the copyright belongs to the original author. This site does not assume corresponding legal responsibility. If you find any content suspected of plagiarism or infringement, please contact admin@php.cn
Related Article
Working with Flash Session Data in LaravelWorking with Flash Session Data in LaravelMar 12, 2025 pm 05:08 PM

Laravel simplifies handling temporary session data using its intuitive flash methods. This is perfect for displaying brief messages, alerts, or notifications within your application. Data persists only for the subsequent request by default: $request-

cURL in PHP: How to Use the PHP cURL Extension in REST APIscURL in PHP: How to Use the PHP cURL Extension in REST APIsMar 14, 2025 am 11:42 AM

The PHP Client URL (cURL) extension is a powerful tool for developers, enabling seamless interaction with remote servers and REST APIs. By leveraging libcurl, a well-respected multi-protocol file transfer library, PHP cURL facilitates efficient execution of various network protocols, including HTTP, HTTPS, and FTP. This extension offers granular control over HTTP requests, supports multiple concurrent operations, and provides built-in security features.

Simplified HTTP Response Mocking in Laravel TestsSimplified HTTP Response Mocking in Laravel TestsMar 12, 2025 pm 05:09 PM

Laravel provides concise HTTP response simulation syntax, simplifying HTTP interaction testing. This approach significantly reduces code redundancy while making your test simulation more intuitive. The basic implementation provides a variety of response type shortcuts: use Illuminate\Support\Facades\Http; Http::fake([ 'google.com' => 'Hello World', 'github.com' => ['foo' => 'bar'], 'forge.laravel.com' =>

12 Best PHP Chat Scripts on CodeCanyon12 Best PHP Chat Scripts on CodeCanyonMar 13, 2025 pm 12:08 PM

Do you want to provide real-time, instant solutions to your customers' most pressing problems? Live chat lets you have real-time conversations with customers and resolve their problems instantly. It allows you to provide faster service to your custom

Explain the concept of late static binding in PHP.Explain the concept of late static binding in PHP.Mar 21, 2025 pm 01:33 PM

Article discusses late static binding (LSB) in PHP, introduced in PHP 5.3, allowing runtime resolution of static method calls for more flexible inheritance.Main issue: LSB vs. traditional polymorphism; LSB's practical applications and potential perfo

PHP Logging: Best Practices for PHP Log AnalysisPHP Logging: Best Practices for PHP Log AnalysisMar 10, 2025 pm 02:32 PM

PHP logging is essential for monitoring and debugging web applications, as well as capturing critical events, errors, and runtime behavior. It provides valuable insights into system performance, helps identify issues, and supports faster troubleshoot

Discover File Downloads in Laravel with Storage::downloadDiscover File Downloads in Laravel with Storage::downloadMar 06, 2025 am 02:22 AM

The Storage::download method of the Laravel framework provides a concise API for safely handling file downloads while managing abstractions of file storage. Here is an example of using Storage::download() in the example controller:

HTTP Method Verification in LaravelHTTP Method Verification in LaravelMar 05, 2025 pm 04:14 PM

Laravel simplifies HTTP verb handling in incoming requests, streamlining diverse operation management within your applications. The method() and isMethod() methods efficiently identify and validate request types. This feature is crucial for building

See all articles

Hot AI Tools

Undresser.AI Undress

Undresser.AI Undress

AI-powered app for creating realistic nude photos

AI Clothes Remover

AI Clothes Remover

Online AI tool for removing clothes from photos.

Undress AI Tool

Undress AI Tool

Undress images for free

Clothoff.io

Clothoff.io

AI clothes remover

AI Hentai Generator

AI Hentai Generator

Generate AI Hentai for free.

Show More

Hot Article

R.E.P.O. Energy Crystals Explained and What They Do (Yellow Crystal)
2 weeks agoBy尊渡假赌尊渡假赌尊渡假赌
Hello Kitty Island Adventure: How To Get Giant Seeds
1 months agoBy尊渡假赌尊渡假赌尊渡假赌
How Long Does It Take To Beat Split Fiction?
4 weeks agoByDDD
R.E.P.O. Save File Location: Where Is It & How to Protect It?
4 weeks agoByDDD
Two Point Museum: All Exhibits And Where To Find Them
1 months agoBy尊渡假赌尊渡假赌尊渡假赌
Show More

Hot Tools

EditPlus Chinese cracked version

EditPlus Chinese cracked version

Small size, syntax highlighting, does not support code prompt function

Safe Exam Browser

Safe Exam Browser

Safe Exam Browser is a secure browser environment for taking online exams securely. This software turns any computer into a secure workstation. It controls access to any utility and prevents students from using unauthorized resources.

SAP NetWeaver Server Adapter for Eclipse

SAP NetWeaver Server Adapter for Eclipse

Integrate Eclipse with SAP NetWeaver application server.

ZendStudio 13.5.1 Mac

ZendStudio 13.5.1 Mac

Powerful PHP integrated development environment

VSCode Windows 64-bit Download

VSCode Windows 64-bit Download

A free and powerful IDE editor launched by Microsoft

Show More

Hot Topics

Where is the login entrance for gmail email?
7375
15
Java Tutorial
1628
14
CakePHP Tutorial
1355
52
Laravel Tutorial
1267
25
PHP Tutorial
1216
29
Show More