18 KiB
Usage of basic components
This document explains how to use the parser, the pretty printer and the node traverser.
Bootstrapping
To bootstrap the library, include the autoloader generated by composer:
require 'path/to/vendor/autoload.php';
Additionally you may want to set the xdebug.max_nesting_level
ini option to a higher value:
ini_set('xdebug.max_nesting_level', 3000);
This ensures that there will be no errors when traversing highly nested node trees. However, it is preferable to disable Xdebug completely, as it can easily make this library more than five times slower.
Parsing
In order to parse code, you first have to create a parser instance:
use PhpParser\ParserFactory;
$parser = (new ParserFactory)->create(ParserFactory::PREFER_PHP7);
The factory accepts a kind argument, that determines how different PHP versions are treated:
Kind | Behavior |
---|---|
ParserFactory::PREFER_PHP7 |
Try to parse code as PHP 7. If this fails, try to parse it as PHP 5. |
ParserFactory::PREFER_PHP5 |
Try to parse code as PHP 5. If this fails, try to parse it as PHP 7. |
ParserFactory::ONLY_PHP7 |
Parse code as PHP 7. |
ParserFactory::ONLY_PHP5 |
Parse code as PHP 5. |
Unless you have a strong reason to use something else, PREFER_PHP7
is a reasonable default.
The create()
method optionally accepts a Lexer
instance as the second argument. Some use cases
that require customized lexers are discussed in the lexer documentation.
Subsequently you can pass PHP code (including the opening <?php
tag) to the parse
method in order to
create a syntax tree. If a syntax error is encountered, an PhpParser\Error
exception will be thrown:
<?php
use PhpParser\Error;
use PhpParser\ParserFactory;
$code = <<<'CODE'
<?php
function printLine($msg) {
echo $msg, "\n";
}
printLine('Hello World!!!');
CODE;
$parser = (new ParserFactory)->create(ParserFactory::PREFER_PHP7);
try {
$stmts = $parser->parse($code);
// $stmts is an array of statement nodes
} catch (Error $e) {
echo 'Parse Error: ', $e->getMessage();
}
A parser instance can be reused to parse multiple files.
Node dumping
To dump the abstract syntax tree in human readable form, a NodeDumper
can be used:
<?php
use PhpParser\NodeDumper;
$nodeDumper = new NodeDumper;
echo $nodeDumper->dump($stmts), "\n";
For the sample code from the previous section, this will produce the following output:
array(
0: Stmt_Function(
byRef: false
name: Identifier(
name: printLine
)
params: array(
0: Param(
type: null
byRef: false
variadic: false
var: Expr_Variable(
name: msg
)
default: null
)
)
returnType: null
stmts: array(
0: Stmt_Echo(
exprs: array(
0: Expr_Variable(
name: msg
)
1: Scalar_String(
value:
)
)
)
)
)
1: Stmt_Expression(
expr: Expr_FuncCall(
name: Name(
parts: array(
0: printLine
)
)
args: array(
0: Arg(
value: Scalar_String(
value: Hello World!!!
)
byRef: false
unpack: false
)
)
)
)
)
You can also use the php-parse
script to obtain such a node dump by calling it either with a file
name or code string:
vendor/bin/php-parse file.php
vendor/bin/php-parse "<?php foo();"
This can be very helpful if you want to quickly check how certain syntax is represented in the AST.
Node tree structure
Looking at the node dump above, you can see that $stmts
for this example code is an array of two
nodes, a Stmt_Function
and a Stmt_Expression
. The corresponding class names are:
Stmt_Function -> PhpParser\Node\Stmt\Function_
Stmt_Expression -> PhpParser\Node\Stmt\Expression
The additional _
at the end of the first class name is necessary, because Function
is a
reserved keyword. Many node class names in this library have a trailing _
to avoid clashing with
a keyword.
As PHP is a large language there are approximately 140 different nodes. In order to make working with them easier they are grouped into three categories:
PhpParser\Node\Stmt
s are statement nodes, i.e. language constructs that do not return a value and can not occur in an expression. For example a class definition is a statement. It doesn't return a value and you can't write something likefunc(class A {});
.PhpParser\Node\Expr
s are expression nodes, i.e. language constructs that return a value and thus can occur in other expressions. Examples of expressions are$var
(PhpParser\Node\Expr\Variable
) andfunc()
(PhpParser\Node\Expr\FuncCall
).PhpParser\Node\Scalar
s are nodes representing scalar values, like'string'
(PhpParser\Node\Scalar\String_
),0
(PhpParser\Node\Scalar\LNumber
) or magic constants like__FILE__
(PhpParser\Node\Scalar\MagicConst\File
). AllPhpParser\Node\Scalar
s extendPhpParser\Node\Expr
, as scalars are expressions, too.- There are some nodes not in either of these groups, for example names (
PhpParser\Node\Name
) and call arguments (PhpParser\Node\Arg
).
The Node\Stmt\Expression
node is somewhat confusing in that it contains both the terms "statement"
and "expression". This node distinguishes expr
, which is a Node\Expr
, from expr;
, which is
an "expression statement" represented by Node\Stmt\Expression
and containing expr
as a sub-node.
Every node has a (possibly zero) number of subnodes. You can access subnodes by writing
$node->subNodeName
. The Stmt\Echo_
node has only one subnode exprs
. So in order to access it
in the above example you would write $stmts[0]->exprs
. If you wanted to access the name of the function
call, you would write $stmts[0]->exprs[1]->name
.
All nodes also define a getType()
method that returns the node type. The type is the class name
without the PhpParser\Node\
prefix and \
replaced with _
. It also does not contain a trailing
_
for reserved-keyword class names.
It is possible to associate custom metadata with a node using the setAttribute()
method. This data
can then be retrieved using hasAttribute()
, getAttribute()
and getAttributes()
.
By default the lexer adds the startLine
, endLine
and comments
attributes. comments
is an array
of PhpParser\Comment[\Doc]
instances.
The start line can also be accessed using getLine()
/setLine()
(instead of getAttribute('startLine')
).
The last doc comment from the comments
attribute can be obtained using getDocComment()
.
Pretty printer
The pretty printer component compiles the AST back to PHP code. As the parser does not retain formatting
information the formatting is done using a specified scheme. Currently there is only one scheme available,
namely PhpParser\PrettyPrinter\Standard
.
use PhpParser\Error;
use PhpParser\ParserFactory;
use PhpParser\PrettyPrinter;
$code = "<?php echo 'Hi ', hi\\getTarget();";
$parser = (new ParserFactory)->create(ParserFactory::PREFER_PHP7);
$prettyPrinter = new PrettyPrinter\Standard;
try {
// parse
$stmts = $parser->parse($code);
// change
$stmts[0] // the echo statement
->exprs // sub expressions
[0] // the first of them (the string node)
->value // it's value, i.e. 'Hi '
= 'Hello '; // change to 'Hello '
// pretty print
$code = $prettyPrinter->prettyPrint($stmts);
echo $code;
} catch (Error $e) {
echo 'Parse Error: ', $e->getMessage();
}
The above code will output:
echo 'Hello ', hi\getTarget();
As you can see the source code was first parsed using PhpParser\Parser->parse()
, then changed and then
again converted to code using PhpParser\PrettyPrinter\Standard->prettyPrint()
.
The prettyPrint()
method pretty prints a statements array. It is also possible to pretty print only a
single expression using prettyPrintExpr()
.
The prettyPrintFile()
method can be used to print an entire file. This will include the opening <?php
tag
and handle inline HTML as the first/last statement more gracefully.
Read more: Pretty printing documentation
Node traversation
The above pretty printing example used the fact that the source code was known and thus it was easy to write code that accesses a certain part of a node tree and changes it. Normally this is not the case. Usually you want to change / analyze code in a generic way, where you don't know how the node tree is going to look like.
For this purpose the parser provides a component for traversing and visiting the node tree. The basic
structure of a program using this PhpParser\NodeTraverser
looks like this:
use PhpParser\NodeTraverser;
use PhpParser\ParserFactory;
use PhpParser\PrettyPrinter;
$parser = (new ParserFactory)->create(ParserFactory::PREFER_PHP7);
$traverser = new NodeTraverser;
$prettyPrinter = new PrettyPrinter\Standard;
// add your visitor
$traverser->addVisitor(new MyNodeVisitor);
try {
$code = file_get_contents($fileName);
// parse
$stmts = $parser->parse($code);
// traverse
$stmts = $traverser->traverse($stmts);
// pretty print
$code = $prettyPrinter->prettyPrintFile($stmts);
echo $code;
} catch (PhpParser\Error $e) {
echo 'Parse Error: ', $e->getMessage();
}
The corresponding node visitor might look like this:
use PhpParser\Node;
use PhpParser\NodeVisitorAbstract;
class MyNodeVisitor extends NodeVisitorAbstract
{
public function leaveNode(Node $node) {
if ($node instanceof Node\Scalar\String_) {
$node->value = 'foo';
}
}
}
The above node visitor would change all string literals in the program to 'foo'
.
All visitors must implement the PhpParser\NodeVisitor
interface, which defines the following four
methods:
public function beforeTraverse(array $nodes);
public function enterNode(\PhpParser\Node $node);
public function leaveNode(\PhpParser\Node $node);
public function afterTraverse(array $nodes);
The beforeTraverse()
method is called once before the traversal begins and is passed the nodes the
traverser was called with. This method can be used for resetting values before traversation or
preparing the tree for traversal.
The afterTraverse()
method is similar to the beforeTraverse()
method, with the only difference that
it is called once after the traversal.
The enterNode()
and leaveNode()
methods are called on every node, the former when it is entered,
i.e. before its subnodes are traversed, the latter when it is left.
All four methods can either return the changed node or not return at all (i.e. null
) in which
case the current node is not changed.
The enterNode()
method can additionally return the value NodeTraverser::DONT_TRAVERSE_CHILDREN
,
which instructs the traverser to skip all children of the current node. To furthermore prevent subsequent
visitors from visiting the current node, NodeTraverser::DONT_TRAVERSE_CURRENT_AND_CHILDREN
can be used instead.
The leaveNode()
method can additionally return the value NodeTraverser::REMOVE_NODE
, in which
case the current node will be removed from the parent array. Furthermore it is possible to return
an array of nodes, which will be merged into the parent array at the offset of the current node.
I.e. if in array(A, B, C)
the node B
should be replaced with array(X, Y, Z)
the result will
be array(A, X, Y, Z, C)
.
Instead of manually implementing the NodeVisitor
interface you can also extend the NodeVisitorAbstract
class, which will define empty default implementations for all the above methods.
Read more: Walking the AST
The NameResolver node visitor
One visitor that is already bundled with the package is PhpParser\NodeVisitor\NameResolver
. This visitor
helps you work with namespaced code by trying to resolve most names to fully qualified ones.
For example, consider the following code:
use A as B;
new B\C();
In order to know that B\C
really is A\C
you would need to track aliases and namespaces yourself.
The NameResolver
takes care of that and resolves names as far as possible.
After running it, most names will be fully qualified. The only names that will stay unqualified are unqualified function and constant names. These are resolved at runtime and thus the visitor can't know which function they are referring to. In most cases this is a non-issue as the global functions are meant.
Also the NameResolver
adds a namespacedName
subnode to class, function and constant declarations
that contains the namespaced name instead of only the shortname that is available via name
.
Read more: Name resolution documentation
Example: Converting namespaced code to pseudo namespaces
A small example to understand the concept: We want to convert namespaced code to pseudo namespaces
so it works on 5.2, i.e. names like A\\B
should be converted to A_B
. Note that such conversions
are fairly complicated if you take PHP's dynamic features into account, so our conversion will
assume that no dynamic features are used.
We start off with the following base code:
use PhpParser\ParserFactory;
use PhpParser\PrettyPrinter;
use PhpParser\NodeTraverser;
use PhpParser\NodeVisitor\NameResolver;
$inDir = '/some/path';
$outDir = '/some/other/path';
$parser = (new ParserFactory)->create(ParserFactory::PREFER_PHP7);
$traverser = new NodeTraverser;
$prettyPrinter = new PrettyPrinter\Standard;
$traverser->addVisitor(new NameResolver); // we will need resolved names
$traverser->addVisitor(new NamespaceConverter); // our own node visitor
// iterate over all .php files in the directory
$files = new \RecursiveIteratorIterator(new \RecursiveDirectoryIterator($inDir));
$files = new \RegexIterator($files, '/\.php$/');
foreach ($files as $file) {
try {
// read the file that should be converted
$code = file_get_contents($file->getPathName());
// parse
$stmts = $parser->parse($code);
// traverse
$stmts = $traverser->traverse($stmts);
// pretty print
$code = $prettyPrinter->prettyPrintFile($stmts);
// write the converted file to the target directory
file_put_contents(
substr_replace($file->getPathname(), $outDir, 0, strlen($inDir)),
$code
);
} catch (PhpParser\Error $e) {
echo 'Parse Error: ', $e->getMessage();
}
}
Now lets start with the main code, the NodeVisitor\NamespaceConverter
. One thing it needs to do
is convert A\\B
style names to A_B
style ones.
use PhpParser\Node;
class NamespaceConverter extends \PhpParser\NodeVisitorAbstract
{
public function leaveNode(Node $node) {
if ($node instanceof Node\Name) {
return new Node\Name(str_replace('\\', '_', $node->toString()));
}
}
}
The above code profits from the fact that the NameResolver
already resolved all names as far as
possible, so we don't need to do that. We only need to create a string with the name parts separated
by underscores instead of backslashes. This is what str_replace('\\', '_', $node->toString())
does. (If you want to
create a name with backslashes either write $node->toString()
or (string) $node
.) Then we create
a new name from the string and return it. Returning a new node replaces the old node.
Another thing we need to do is change the class/function/const declarations. Currently they contain only the shortname (i.e. the last part of the name), but they need to contain the complete name including the namespace prefix:
use PhpParser\Node;
use PhpParser\Node\Stmt;
class NodeVisitor_NamespaceConverter extends \PhpParser\NodeVisitorAbstract
{
public function leaveNode(Node $node) {
if ($node instanceof Node\Name) {
return new Node\Name(str_replace('\\', '_', $node->toString()));
} elseif ($node instanceof Stmt\Class_
|| $node instanceof Stmt\Interface_
|| $node instanceof Stmt\Function_) {
$node->name = str_replace('\\', '_', $node->namespacedName->toString());
} elseif ($node instanceof Stmt\Const_) {
foreach ($node->consts as $const) {
$const->name = str_replace('\\', '_', $const->namespacedName->toString());
}
}
}
}
There is not much more to it than converting the namespaced name to string with _
as separator.
The last thing we need to do is remove the namespace
and use
statements:
use PhpParser\Node;
use PhpParser\Node\Stmt;
use PhpParser\NodeTraverser;
class NodeVisitor_NamespaceConverter extends \PhpParser\NodeVisitorAbstract
{
public function leaveNode(Node $node) {
if ($node instanceof Node\Name) {
return new Node\Name(str_replace('\\', '_', $node->toString()));
} elseif ($node instanceof Stmt\Class_
|| $node instanceof Stmt\Interface_
|| $node instanceof Stmt\Function_) {
$node->name = str_replace('\\', '_', $node->namespacedName->toString();
} elseif ($node instanceof Stmt\Const_) {
foreach ($node->consts as $const) {
$const->name = str_replace('\\', '_', $const->namespacedName->toString());
}
} elseif ($node instanceof Stmt\Namespace_) {
// returning an array merges is into the parent array
return $node->stmts;
} elseif ($node instanceof Stmt\Use_) {
// remove use nodes altogether
return NodeTraverser::REMOVE_NODE;
}
}
}
That's all.