This article has multiple issues. Please help improve it or discuss these issues on the talk page. (Learn how and when to remove these messages)
|
The Simplified Wrapper and Interface Generator (SWIG) is an open-source software tool used to connect computer programs or libraries written in C or C++ with scripting languages such as Lua, Perl, PHP, Python, R, Ruby, Tcl, and other language implementations like C#, Java, JavaScript, Go, D, OCaml, Octave, Scilab and Scheme. Output can also be in the form of XML.
Original author(s) | David M. Beazley |
---|---|
Developer(s) | SWIG developers |
Initial release | February 1996[1] |
Stable release | 4.2.1[2]
/ 24 February 2024 |
Repository | |
Written in | C, C++ |
License | GPLv3 |
Website | swig |
Function
editThe aim is to allow the calling of native functions (that were written in C or C++) by other programming languages, passing complex data types to those functions, keeping memory from being inappropriately freed, inheriting object classes across languages, etc. The programmer writes an interface file containing a list of C/C++ functions to be made visible to an interpreter. SWIG will compile the interface file and generate code in regular C/C++ and the target programming language. SWIG will generate conversion code for functions with simple arguments; conversion code for complex types of arguments must be written by the programmer. The SWIG tool creates source code that provides the glue between C/C++ and the target language. Depending on the language, this glue comes in two forms:
- a shared library that an extant interpreter can link to as some form of extension module, or
- a shared library that can be linked to other programs compiled in the target language (for example, using Java Native Interface (JNI) in Java).
- a shared dynamic library source code that should be compiled and dynamically loaded (e.g. Node.js native extensions)
SWIG is not used for calling interpreted functions by native code; this must be done by the programmer manually.
Example
editSWIG wraps simple C declarations by creating an interface that closely matches the way in which the declarations would be used in a C program. For example, consider the following interface file:[3]
%module example
%inline %{
extern double sin(double x);
extern int strcmp(const char *, const char *);
extern int Foo;
%}
#define STATUS 50
#define VERSION "1.1"
In this file, there are two functions sin()
and strcmp()
, a global variable Foo
, and two constants STATUS
and VERSION
. When SWIG creates an extension module, these declarations are accessible as scripting language functions, variables, and constants respectively. In Python:
>>> example.sin(3)
0.141120008
>>> example.strcmp('Dave','Mike')
-1
>>> print(example.cvar.Foo)
42
>>> print(example.STATUS)
50
>>> print(example.VERSION)
1.1
Purpose
editThere are two main reasons to embed a scripting engine in an existing C/C++ program:
- The program can then be customized far faster, via a scripting language instead of C/C++. The scripting engine may even be exposed to the end-user, so that they can automate common tasks by writing scripts.
- Even if the final product is not to contain the scripting engine, it may nevertheless be very useful for writing test scripts.
There are several reasons to create dynamic libraries that can be loaded into extant interpreters, including:
History
editSWIG is written in C and C++ and has been publicly available since February 1996. The initial author and main developer was David M. Beazley who developed SWIG while working as a graduate student at Los Alamos National Laboratory and the University of Utah and while on the faculty at the University of Chicago. Development is currently supported by an active group of volunteers led by William Fulton. SWIG has been released under a GNU General Public License.
Google Summer of Code
editSWIG was a successful participant of Google Summer of Code in 2008, 2009, 2012. In 2008, SWIG got four slots. Haoyu Bai spent his summers on SWIG's Python 3.0 Backend, Jan Jezabek worked on Support for generating COM wrappers, Cheryl Foil spent her time on Comment 'Translator' for SWIG, and Maciej Drwal worked on a C backend. In 2009, SWIG again participated in Google Summer of Code. This time four students participated. Baozeng Ding worked on a Scilab module. Matevz Jekovec spent time on C++0x features. Ashish Sharma spent his summer on an Objective-C module, Miklos Vajna spent his time on PHP directors.
In 2012, SWIG participated in Google Summer of Code. This time four out of five students successfully completed the project. Leif Middelschulte worked on a C target language module. Swati Sharma enhanced the Objective-C module. Neha Narang added the new module on JavaScript. Dmitry Kabak worked on source code documentation and Doxygen comments.
Alternatives
editFor Python, similar functionality is offered by SIP, Pybind11, and Boost's Boost.python library.
Projects Using SWIG
edit- ZXID (Apache License, Version 2.0)
- Symlabs SFIS (commercial)
- LLDB
- GNU Radio up to (including) version 3.8.x.x; later versions use Pybind11[4]
- Xapian
- TensorFlow
- Apache SINGA
- QuantLib
- Babeltrace
See also
edit- Language binding
- Foreign function interface (FFI)
- Calling convention
- Name mangling
- Application programming interface
- Application binary interface
- Comparison of application virtual machines
- Wrapper function
- GIWS for the opposite of SWIG: calling Java from C/C++
References
edit- ^ "SWIG History".
- ^ "Release v4.2.1".
- ^ "SWIG Basics".
- ^ Müller, Marcus. "Changelog for GNU Radio 3.9.0.0". GitHub.
Further reading
edit- Article "Expose Your C/C++ Program's Internal API with a Quick SWIG" by Victor Volkman
- Article "Python Extensions In C++ Using SWIG" by Michael Fötsch
- Presentation "Application overview for openSUSE" by Klaus Kämpf