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README.rst

===============
pycparser v2.22
===============


.. image:: https://github.com/eliben/pycparser/workflows/pycparser-tests/badge.svg
:align: center
:target: https://github.com/eliben/pycparser/actions

----

.. contents::
:backlinks: none

.. sectnum::


Introduction
============

What is pycparser?
------------------

**pycparser** is a parser for the C language, written in pure Python. It is a
module designed to be easily integrated into applications that need to parse
C source code.

What is it good for?
--------------------

Anything that needs C code to be parsed. The following are some uses for
**pycparser**, taken from real user reports:

* C code obfuscator
* Front-end for various specialized C compilers
* Static code checker
* Automatic unit-test discovery
* Adding specialized extensions to the C language

One of the most popular uses of **pycparser** is in the `cffi
`_ library, which uses it to parse the
declarations of C functions and types in order to auto-generate FFIs.

**pycparser** is unique in the sense that it's written in pure Python - a very
high level language that's easy to experiment with and tweak. To people familiar
with Lex and Yacc, **pycparser**'s code will be simple to understand. It also
has no external dependencies (except for a Python interpreter), making it very
simple to install and deploy.

Which version of C does pycparser support?
------------------------------------------

**pycparser** aims to support the full C99 language (according to the standard
ISO/IEC 9899). Some features from C11 are also supported, and patches to support
more are welcome.

**pycparser** supports very few GCC extensions, but it's fairly easy to set
things up so that it parses code with a lot of GCC-isms successfully. See the
`FAQ `_ for more details.

What grammar does pycparser follow?
-----------------------------------

**pycparser** very closely follows the C grammar provided in Annex A of the C99
standard (ISO/IEC 9899).

How is pycparser licensed?
--------------------------

`BSD license `_.

Contact details
---------------

For reporting problems with **pycparser** or submitting feature requests, please
open an `issue `_, or submit a
pull request.


Installing
==========

Prerequisites
-------------

* **pycparser** was tested with Python 3.8+ on Linux, macOS and Windows.

* **pycparser** has no external dependencies. The only non-stdlib library it
uses is PLY, which is bundled in ``pycparser/ply``. The current PLY version is
3.10, retrieved from ``_

Note that **pycparser** (and PLY) uses docstrings for grammar specifications.
Python installations that strip docstrings (such as when using the Python
``-OO`` option) will fail to instantiate and use **pycparser**. You can try to
work around this problem by making sure the PLY parsing tables are pre-generated
in normal mode; this isn't an officially supported/tested mode of operation,
though.

Installation process
--------------------

The recommended way to install **pycparser** is with ``pip``::

> pip install pycparser

Using
=====

Interaction with the C preprocessor
-----------------------------------

In order to be compilable, C code must be preprocessed by the C preprocessor -
``cpp``. ``cpp`` handles preprocessing directives like ``#include`` and
``#define``, removes comments, and performs other minor tasks that prepare the C
code for compilation.

For all but the most trivial snippets of C code **pycparser**, like a C
compiler, must receive preprocessed C code in order to function correctly. If
you import the top-level ``parse_file`` function from the **pycparser** package,
it will interact with ``cpp`` for you, as long as it's in your PATH, or you
provide a path to it.

Note also that you can use ``gcc -E`` or ``clang -E`` instead of ``cpp``. See
the ``using_gcc_E_libc.py`` example for more details. Windows users can download
and install a binary build of Clang for Windows `from this website
`_.

What about the standard C library headers?
------------------------------------------

C code almost always ``#include``\s various header files from the standard C
library, like ``stdio.h``. While (with some effort) **pycparser** can be made to
parse the standard headers from any C compiler, it's much simpler to use the
provided "fake" standard includes for C11 in ``utils/fake_libc_include``. These
are standard C header files that contain only the bare necessities to allow
valid parsing of the files that use them. As a bonus, since they're minimal, it
can significantly improve the performance of parsing large C files.

The key point to understand here is that **pycparser** doesn't really care about
the semantics of types. It only needs to know whether some token encountered in
the source is a previously defined type. This is essential in order to be able
to parse C correctly.

See `this blog post
`_
for more details.

Note that the fake headers are not included in the ``pip`` package nor installed
via ``setup.py`` (`#224 `_).

Basic usage
-----------

Take a look at the |examples|_ directory of the distribution for a few examples
of using **pycparser**. These should be enough to get you started. Please note
that most realistic C code samples would require running the C preprocessor
before passing the code to **pycparser**; see the previous sections for more
details.

.. |examples| replace:: ``examples``
.. _examples: examples


Advanced usage
--------------

The public interface of **pycparser** is well documented with comments in
``pycparser/c_parser.py``. For a detailed overview of the various AST nodes
created by the parser, see ``pycparser/_c_ast.cfg``.

There's also a `FAQ available here `_.
In any case, you can always drop me an `email `_ for help.


Modifying
=========

There are a few points to keep in mind when modifying **pycparser**:

* The code for **pycparser**'s AST nodes is automatically generated from a
configuration file - ``_c_ast.cfg``, by ``_ast_gen.py``. If you modify the AST
configuration, make sure to re-generate the code. This can be done by running
the ``_build_tables.py`` script from the ``pycparser`` directory.
* Make sure you understand the optimized mode of **pycparser** - for that you
must read the docstring in the constructor of the ``CParser`` class. For
development you should create the parser without optimizations, so that it
will regenerate the Yacc and Lex tables when you change the grammar.


Package contents
================

Once you unzip the ``pycparser`` package, you'll see the following files and
directories:

README.rst:
This README file.

LICENSE:
The pycparser license

setup.py:
Installation script

examples/:
A directory with some examples of using **pycparser**

pycparser/:
The **pycparser** module source code.

tests/:
Unit tests.

utils/fake_libc_include:
Minimal standard C library include files that should allow to parse any C code.
Note that these headers now include C11 code, so they may not work when the
preprocessor is configured to an earlier C standard (like ``-std=c99``).

utils/internal/:
Internal utilities for my own use. You probably don't need them.


Contributors
============

Some people have contributed to **pycparser** by opening issues on bugs they've
found and/or submitting patches. The list of contributors is in the CONTRIBUTORS
file in the source distribution. After **pycparser** moved to Github I stopped
updating this list because Github does a much better job at tracking
contributions.