Introduction
In the previous article"PHP implements functions similar to the Construct library in Python (2) Implementing adapter functions"Introduced how to use PHP to parse binary data The basic idea. There are two tasks to be done next.
1. In the previous article, the parsing function was used, but now it is changed to a parsing class, and the parse method is included in the class.
2. When defining the structure data items, add the adapter function and use the pipe operator | to connect the data items and the adapter to realize data transformation.
Recommended PHP video tutorial: //m.sbmmt.com/course/list/29/type/2.html
Basic Idea
1. Modify the lexical analysis rules so that they can accept pipeline operators|
2. Modify the syntax analysis rules so that they can accept adapter calls
3, use php language to implement the adapter function
Implementation content
Structure definition file to be parsed
struct student { char name[2]; int num|IntOffset(100); int age; char addr[3]; }; struct teacher { char name[2]; int num|Int2str; char addr[3]; };
The biggest difference from the structure definition in the previous article is the following two sentences
int num|IntOffset(100); int num|Int2str; };
Here two adapters are called through pipelines, IntOffset(100)
means based on the original value Offset 100, Int2str means converting the original integer value into a string
Let’s take a look at the specific implementation of these two adapters
<?php //将整数值偏移一个定值 namespace Ados; class IntOffset { public function __construct($offset) { $this->offset = $offset; } function parse($obj){ if(is_array($obj)){ return array_map(function($value) { return $value + $this->offset; },$obj); } return $obj+ $this->offset; } function build($obj){ throw new \Exception("Int2str build method not implements"); } } class Int2str { function parse($obj){ if(is_array($obj)){ return array_map(function($value) { return ''.$value; },$obj); } return ''.$obj; } function build($obj){ throw new \Exception("Int2str build method not implements"); } }
In order to focus on the analysis of binary data , only the parse
method is implemented in the above two classes, and the build
method is not implemented yet.
Correspondingly, the template file must also be adjusted
<?php //用于进行替换的模板文本 /*blockHeader{{*/ class structName{ static function parse($context,$size=0){ $valueArray=[]; $totalSize = 0; /*blockHeader}}*/ /*parseBody{{*/ $expRes = parseByte($context,$filedSize); /*parseBody}}*/ /*pipeBody{{*/ $expRes['value'] = (new Adapter())->parse($expRes['value']); /*pipeBody}}*/ /*checkBody{{*/ if($expRes['error']==0){ $filed = '$filedName'; if($filed){ $valueArray[$filed]=$expRes['value']; }else{ $valueArray[]=$expRes['value']; } $context['pos']+=$expRes['size']; $totalSize+= $expRes['size']; }else{ return ['value'=>False,'size'=>0,'error'=>$expRes['error'],'msg'=>$expRes['msg']]; } /*checkBody}}*/ /*blockTail{{*/ return ['value'=>$valueArray,'size'=>$totalSize,'error'=>0,'msg'=>'ok']; } } /*blockTail}}*/
The lexical rule file has not changed much, just increase the matching of the pipeline operator
['/^\|/','_pipe' ,'|'],
The syntax rule file The changes are relatively large, because it is necessary to be able to analyze this type of statements
int num|IntOffset(100);
The content of the modified grammar rule file is as follows:
<?php /*! * structwkr的语法规则处理器 * 45022300@qq.com * Version 0.9.0 * * Copyright 2019, Zhu Hui * Released under the MIT license */ namespace Ados; require_once 'const.php'; require_once __SCRIPTCORE__.'syntax_rule/base_rules_handler.php'; class StructwkrRulesHandler extends BaseRulesHandler{ //语法分析的起始记号,归约到最后得到就是若干个结构体定义的列表 function startToken(){ return '_structList'; } //求出放在附加信息中的数组长度 function elementSize($extraArray){ if(count($extraArray)>0){ return intval($extraArray[0]); }else{ return 0; } } //语法规则处理函数名由规则右边部分与规则左边部分拼接而成 //语法规则定义的先后决定了归约时匹配的顺序,要根据实际的语法安排 //如果不熟悉语法,随意调整语法规则的先后次序将有可能导致语法错误 // struct list {{{ function _structList_0_structList_struct($stack,$coder){ $coder->pushBlockTail(); return ['#',[]]; } function _structList_0_struct($stack,$coder){ $coder->pushBlockTail(); return ['#',[]]; } // struct list }}} // struct {{{ function _struct_0_structName_blockStatement_semi($stack,$coder){ $t1= $this->topItem($stack,3); $structName = $t1[TokenValueIndex]; $t2= $this->topItem($stack,2); $extraArray=$t2[TokenExtraIndex]; return [$structName,$extraArray]; } // struct }}} // struct name {{{ function _structName_0_strukey_iden($stack,$coder){ $t1= $this->topItem($stack,1); $structName = $t1[TokenValueIndex]; $coder->pushBlockHeader($structName); return $this->pass($stack,1); } // struct name }}} // blockStatement {{{ function _blockStatement_0_lcb_statementList_rcb($stack,$coder){ return $this->pass($stack,2); } // blockStatement }}} // statement list {{{ function _statementList_0_statementList_statement($stack,$coder){ return $this->pass($stack,1); } function _statementList_0_statement($stack,$coder){ //此处0表示statementList是上一级节点,要做特殊处理 return $this->pass($stack,1); } // statement list }}} // statement {{{ function _statement_0_expression_semi($stack,$coder){ $t1= $this->topItem($stack,2); $elementName = $t1[TokenValueIndex]; $coder->pushCheckBody($elementName); return $this->pass($stack,2); } // statement }}} // function expression {{{ //函数表达式 function _term_0_funcTerm($stack,$coder){ $t1= $this->topItem($stack,1); $funcName=$t1[TokenValueIndex]; $paraArray=$t1[TokenExtraIndex]; $paras = implode(",", $paraArray); $exp = $funcName.'('.$paras.')'; return [$exp,[]]; } function _funcTerm_0_funcExpLp_rp($stack,$coder){ return $this->pass($stack,2); } function _funcTerm_0_funcExpLeft_rp($stack,$coder){ return $this->pass($stack,2); } function _funcExpLeft_0_funcExpLeft_comma_expression($stack,$coder){ $t1= $this->topItem($stack,3); $t2= $this->topItem($stack,1); //函数的参数列表存放在附加信息中 $paraArray=$t1[TokenExtraIndex]; array_push($paraArray, $t2[TokenValueIndex]); return [$t1[TokenValueIndex],$paraArray]; } function _funcExpLeft_0_funcExpLp_expression($stack,$coder){ $t1= $this->topItem($stack,2); $t2= $this->topItem($stack,1); //函数的参数列表存放在附加信息中 $paraArray=$t1[TokenExtraIndex]; array_push($paraArray, $t2[TokenValueIndex]); return [$t1[TokenValueIndex],$paraArray]; } function _funcExpLp_0_iden_lp($stack,$coder){ return $this->pass($stack,2); } // function expression }}} // Expression {{{ //表达式可以进行管道运算 function _expression_0_expression_pipe_factor($stack,$coder){ $t1= $this->topItem($stack,1); $handlerName = $t1[TokenValueIndex]; $coder->pushPipeBody($handlerName); return $this->pass($stack,3); } function _expression_0_double_factor($stack,$coder){ $t1= $this->topItem($stack,1); $elementName = $t1[TokenValueIndex]; $parseFuncName = 'parseDouble'; $coder->pushParseBody($parseFuncName,$elementName); return $this->pass($stack,1); } function _expression_0_float_factor($stack,$coder){ $t1= $this->topItem($stack,1); $elementName = $t1[TokenValueIndex]; $parseFuncName = 'parseFloat'; $coder->pushParseBody($parseFuncName,$elementName); return $this->pass($stack,1); } function _expression_0_char_factor($stack,$coder){ $t1= $this->topItem($stack,1); $elementName = $t1[TokenValueIndex]; $size = $this->elementSize($t1[TokenExtraIndex]); $parseFuncName = 'parseFixStr'; $coder->pushParseBody($parseFuncName,$elementName,$size); return $this->pass($stack,1); } function _expression_0_int_factor($stack,$coder){ $t1= $this->topItem($stack,1); $elementName = $t1[TokenValueIndex]; $parseFuncName = 'parseInt'; $coder->pushParseBody($parseFuncName,$elementName,4); return $this->pass($stack,1); } function _expression_0_factor($stack,$coder){ return $this->pass($stack,1); } // Expression }}} // factor {{{ function _factor_0_term($stack,$coder){ return $this->pass($stack,1); } // factor }}} // term {{{ function _term_0_iden($stack,$coder){ $t1= $this->topItem($stack,1); //未指定数据长度时将长度值设为0 $valLen = '0'; $t2= $this->topItem($stack,2); return [$t1[TokenValueIndex],[$valLen]]; } function _term_0_num($stack,$coder){ return $this->pass($stack,1); } function _term_0_array($stack,$coder){ return $this->pass($stack,1); } // term }}} // array {{{ function _array_0_arrayLb_num_rb($stack,$coder){ $t1= $this->topItem($stack,2); $valLen = $t1[TokenValueIndex]; $t2= $this->topItem($stack,3); //将数据长度放入附加信息 return [$t2[TokenValueIndex],[$valLen]]; } function _arrayLb_0_iden_lb($stack,$coder){ return $this->pass($stack,2); } // array }}} }// end of class
The encoder also needs to be adjusted accordingly, and the need for pipeline operations is increased. Processing
<?php /*! * structwkr编码器, * * 45022300@qq.com * Version 0.9.0 * * Copyright 2019, Zhu Hui * Released under the MIT license */ namespace Ados; require_once __SCRIPTCORE__.'coder/base_coder.php'; require_once __STRUCT_PARSE_TEMP__.'templateReplaceFuncs.php'; class StructwkrCoder extends BaseCoder{ public function __construct($engine) { if($engine){ $this->engine = $engine; }else{ exit('the engine is not valid in StructwkrCoder construct.'); } } //编译得到的最终结果 public function codeLines(){ if(count($this->codeLines)<1){ return ''; } $script=''; for ($i=0;$i< count($this->codeLines);$i+=1) { $script.=$this->codeLines[$i]; } return $script; } //输出编译后的结果 public function printCodeLines(){ echo $this->codeLines(); } //添加一个块解析函数头 public function pushBlockHeader($structName){ $structName=ucfirst($structName); $content = makeBlockHeader($structName); array_push($this->codeLines, $content); $lineIndex=$this->lineIndex; $this->lineIndex+=1; return $lineIndex; } //添加一个块解析函数体 public function pushParseBody($parseFuncName,$filedName='',$filedSize=0){ $content = makeParseBody($parseFuncName,$filedName,$filedSize); array_push($this->codeLines, $content); $lineIndex=$this->lineIndex; $this->lineIndex+=1; return $lineIndex; } //添加一个管道处理 public function pushPipeBody($handler){ $content = makePipeBody($handler); array_push($this->codeLines, $content); $lineIndex=$this->lineIndex; $this->lineIndex+=1; return $lineIndex; } //添加一个检查结果值的body public function pushCheckBody($filedName=''){ $content = makeCheckBody($filedName); array_push($this->codeLines, $content); $lineIndex=$this->lineIndex; $this->lineIndex+=1; return $lineIndex; } //添加一个块解析类的tail public function pushBlockTail(){ $content = makeblockTail(); array_push($this->codeLines, $content); $lineIndex=$this->lineIndex; $this->lineIndex+=1; return $lineIndex; } }
Implementation results
The automatically generated test file is as follows
<?php namespace Ados; //加载常量定义文件 require_once 'const.php'; require_once __STRUCT_PARSE_TEMP__.'templateBuidinFuncs.php'; require_once __STRUCT_PARSE_ADAPTER__.'int2str.adapter.php'; require_once __STRUCT_PARSE_ADAPTER__.'intoffset.adapter.php'; $context['pos']=0; $context['data']="\x41\x43\x01\x00\x00\x00\x02\x00\x00\x00\x41\x42\x43\x41\x42\x01\x00\x00\x00\x41\x42\x43"; $expRes = Student::parse($context); $context['pos']+=$expRes['size']; print_r($expRes); $expRes = Teacher::parse($context); $context['pos']+=$expRes['size']; print_r($expRes); class Student{ static function parse($context,$size=0){ $valueArray=[]; $totalSize = 0; $expRes = parseFixStr($context,2); if($expRes['error']==0){ $filed = 'name'; if($filed){ $valueArray[$filed]=$expRes['value']; }else{ $valueArray[]=$expRes['value']; } $context['pos']+=$expRes['size']; $totalSize+= $expRes['size']; }else{ return ['value'=>False,'size'=>0,'error'=>$expRes['error'],'msg'=>$expRes['msg']]; } $expRes = parseInt($context,4); $expRes['value'] = (new IntOffset(100))->parse($expRes['value']); if($expRes['error']==0){ $filed = 'num'; if($filed){ $valueArray[$filed]=$expRes['value']; }else{ $valueArray[]=$expRes['value']; } $context['pos']+=$expRes['size']; $totalSize+= $expRes['size']; }else{ return ['value'=>False,'size'=>0,'error'=>$expRes['error'],'msg'=>$expRes['msg']]; } $expRes = parseInt($context,4); if($expRes['error']==0){ $filed = 'age'; if($filed){ $valueArray[$filed]=$expRes['value']; }else{ $valueArray[]=$expRes['value']; } $context['pos']+=$expRes['size']; $totalSize+= $expRes['size']; }else{ return ['value'=>False,'size'=>0,'error'=>$expRes['error'],'msg'=>$expRes['msg']]; } $expRes = parseFixStr($context,3); if($expRes['error']==0){ $filed = 'addr'; if($filed){ $valueArray[$filed]=$expRes['value']; }else{ $valueArray[]=$expRes['value']; } $context['pos']+=$expRes['size']; $totalSize+= $expRes['size']; }else{ return ['value'=>False,'size'=>0,'error'=>$expRes['error'],'msg'=>$expRes['msg']]; } return ['value'=>$valueArray,'size'=>$totalSize,'error'=>0,'msg'=>'ok']; } } class Teacher{ static function parse($context,$size=0){ $valueArray=[]; $totalSize = 0; $expRes = parseFixStr($context,2); if($expRes['error']==0){ $filed = 'name'; if($filed){ $valueArray[$filed]=$expRes['value']; }else{ $valueArray[]=$expRes['value']; } $context['pos']+=$expRes['size']; $totalSize+= $expRes['size']; }else{ return ['value'=>False,'size'=>0,'error'=>$expRes['error'],'msg'=>$expRes['msg']]; } $expRes = parseInt($context,4); $expRes['value'] = (new Int2str)->parse($expRes['value']); if($expRes['error']==0){ $filed = 'num'; if($filed){ $valueArray[$filed]=$expRes['value']; }else{ $valueArray[]=$expRes['value']; } $context['pos']+=$expRes['size']; $totalSize+= $expRes['size']; }else{ return ['value'=>False,'size'=>0,'error'=>$expRes['error'],'msg'=>$expRes['msg']]; } $expRes = parseFixStr($context,3); if($expRes['error']==0){ $filed = 'addr'; if($filed){ $valueArray[$filed]=$expRes['value']; }else{ $valueArray[]=$expRes['value']; } $context['pos']+=$expRes['size']; $totalSize+= $expRes['size']; }else{ return ['value'=>False,'size'=>0,'error'=>$expRes['error'],'msg'=>$expRes['msg']]; } return ['value'=>$valueArray,'size'=>$totalSize,'error'=>0,'msg'=>'ok']; } }
The results of running the test file
Array ( [value] => Array ( [name] => AC [num] => 101 [age] => 2 [addr] => ABC ) [size] => 13 [error] => 0 [msg] => ok ) Array ( [value] => Array ( [name] => AB [num] => 1 [addr] => ABC ) [size] => 9 [error] => 0 [msg] => ok )
Compare the test data
$context['data']="\x41\x43\x01\x00\x00\x00\x02\x00\x00\x00\x41\x42\x43\x41\x42\x01\x00\x00\x00\x41\x42\x43";
If no adapter is added
The result of the num field of the first structure should be: [num] => 1
Now Added the adapterint num|IntOffset(100);
So the result becomes:
[num] => 101
Adapter Functionality has been implemented and verified.
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