The parser module provides an interface to Python's internal parser and byte-code compiler. The primary purpose for this interface is to allow Python code to edit the parse tree of a Python expression and create executable code from this. This is better than trying to parse and modify an arbitrary Python code fragment as a string because parsing is performed in a manner identical to the code forming the application. It is also faster.
There are a few things to note about this module which are important to making use of the data structures created. This is not a tutorial on editing the parse trees for Python code, but some examples of using the parser module are presented.
Most importantly, a good understanding of the Python grammar processed by the internal parser is required. For full information on the language syntax, refer to the Python Language Reference. The parser itself is created from a grammar specification defined in the file Grammar/Grammar in the standard Python distribution. The parse trees stored in the AST objects created by this module are the actual output from the internal parser when created by the expr() or suite() functions, described below. The AST objects created by sequence2ast() faithfully simulate those structures. Be aware that the values of the sequences which are considered ``correct'' will vary from one version of Python to another as the formal grammar for the language is revised. However, transporting code from one Python version to another as source text will always allow correct parse trees to be created in the target version, with the only restriction being that migrating to an older version of the interpreter will not support more recent language constructs. The parse trees are not typically compatible from one version to another, whereas source code has always been forward-compatible.
Each element of the sequences returned by ast2list() or
ast2tuple() has a simple form. Sequences representing
non-terminal elements in the grammar always have a length greater than
one. The first element is an integer which identifies a production in
the grammar. These integers are given symbolic names in the C header
file Include/graminit.h and the Python module
symbol. Each additional element of the sequence represents
a component of the production as recognized in the input string: these
are always sequences which have the same form as the parent. An
important aspect of this structure which should be noted is that
keywords used to identify the parent node type, such as the keyword
if in an if_stmt, are included in the node tree without
any special treatment. For example, the if keyword is
represented by the tuple
(1, 'if'), where
1 is the
numeric value associated with all NAME tokens, including
variable and function names defined by the user. In an alternate form
returned when line number information is requested, the same token
might be represented as
(1, 'if', 12), where the
represents the line number at which the terminal symbol was found.
Terminal elements are represented in much the same way, but without any child elements and the addition of the source text which was identified. The example of the if keyword above is representative. The various types of terminal symbols are defined in the C header file Include/token.h and the Python module token.
The AST objects are not required to support the functionality of this module, but are provided for three purposes: to allow an application to amortize the cost of processing complex parse trees, to provide a parse tree representation which conserves memory space when compared to the Python list or tuple representation, and to ease the creation of additional modules in C which manipulate parse trees. A simple ``wrapper'' class may be created in Python to hide the use of AST objects.
The parser module defines functions for a few distinct purposes. The most important purposes are to create AST objects and to convert AST objects to other representations such as parse trees and compiled code objects, but there are also functions which serve to query the type of parse tree represented by an AST object.