swigweb/tutorial.ht - third_party/swig - Git at Google

 SWIG Tutorial

 <p>
 <img src="images/tutorial.png" alt="Tutorial">

 <p>
 So you want to get going in a hurry?  To illustrate the use of SWIG,
 suppose you have some C functions you want added to Tcl, Perl, Python, Java and C#.
 Specifically, let's say you have them in a file 'example.c'

 <blockquote><pre>
 /* File : example.c */

 #include &lt;time.h&gt;
 double My_variable = 3.0;

 int fact(int n) {
     if (n &lt;= 1) return 1;
     else return n*fact(n-1);
 }

 int my_mod(int x, int y) {
     return (x%y);
 }

 char *get_time()
 {
     time_t ltime;
     time(&amp;ltime);
     return ctime(&amp;ltime);
 }

 </pre></blockquote>

 <h3>Interface file </h3>

 Now, in order to add these files to your favorite language, you need to write an
 "interface file" which is the input to SWIG.  An interface file for these
 C functions might look like this :

 <blockquote><pre>
 /* example.i */
 %module example
 %{
 /* Put header files here or function declarations like below */
 extern double My_variable;
 extern int fact(int n);
 extern int my_mod(int x, int y);
 extern char *get_time();
 %}

 extern double My_variable;
 extern int fact(int n);
 extern int my_mod(int x, int y);
 extern char *get_time();
 </pre></blockquote>

 <h3> Building a Tcl module </h3>

 At the UNIX prompt, type the following (shown for Linux, see the <a href="http://swig.cs.uchicago.edu/cgi-bin/wiki.pl?SwigFaq/SharedLibraries">SWIG Wiki Shared Libraries</a> page for help with other operating systems):

 <blockquote>
 <pre>
 unix % swig -tcl example.i
 unix % gcc -fpic -c example.c example_wrap.c \
        -I/usr/local/include
 unix % gcc -shared example.o example_wrap.o -o example.so
 unix % tclsh
 % load ./example.so example
 % puts $My_variable
 3.0
 % fact 5
 120
 % my_mod 7 3
 1
 % get_time
 Sun Feb 11 23:01:07 1996

 %
 </pre></blockquote>

 The <tt> swig </tt> command produces a file <a href = "tutorial/example_wrap.html">
 <tt> example_wrap.c </tt> </a> that should be compiled and linked with
 the rest of the program.  In this case, we have built a dynamically
 loadable extension that can be loaded into the Tcl interpreter using
 the 'load' command.

 <h3> Building a Python module </h3>

 Turning C code into a Python module is also easy.  Simply do the following (shown for Irix, see the <a href="http://swig.cs.uchicago.edu/cgi-bin/wiki.pl?SwigFaq/SharedLibraries">SWIG Wiki Shared Libraries</a> page for help with other operating systems):

 <blockquote> <pre>

 unix % swig -python example.i
 unix % gcc -c example.c example_wrap.c \
        -I/usr/local/include/python2.1
 unix % ld -shared example.o example_wrap.o -o _example.so
 </pre> </blockquote>

 We can now use the Python module as follows :
 <blockquote> <pre>
 &gt;&gt;&gt; import example
 &gt;&gt;&gt; example.fact(5)
 120
 &gt;&gt;&gt; example.my_mod(7,3)
 1
 &gt;&gt;&gt; example.get_time()
 'Sun Feb 11 23:01:07 1996'
 &gt;&gt;&gt;
 </pre>
 </blockquote>

 <h3> Building a Perl module </h3>
 You can also build a Perl5 module as follows (shown for Solaris, see the <a href="http://swig.cs.uchicago.edu/cgi-bin/wiki.pl?SwigFaq/SharedLibraries">SWIG Wiki Shared Libraries</a> page for help with other operating systems):

 <blockquote><pre>
 unix % swig -perl5 example.i
 unix % gcc -c example.c example_wrap.c \
        -I/usr/lib/perl/solaris/5.003/CORE
 unix % ld -G example.o example_wrap.o -o example.so
 unix % perl
 use example;
 print $example::My_variable,"\n";
 print example::fact(5),"\n";
 print example::get_time(),"\n";
 &lt;ctrl-d&gt;
 3.0
 120
 Sun Feb 11 23:01:07 1996
 unix %
 </pre></blockquote>

 <h3> Building a Java module </h3>
 SWIG will also generate JNI code for accessing C/C++ code from Java. Here is an example building a Java module (shown for Cygwin, see the <a href="http://swig.cs.uchicago.edu/cgi-bin/wiki.pl?SwigFaq/SharedLibraries">SWIG Wiki Shared Libraries</a> page for help with other operating systems):

 <blockquote><pre>
 $ swig -java example.i
 $ gcc -c example.c example_wrap.c -I/c/jdk1.3.1/include -I/c/jdk1.3.1/include/win32
 $ gcc -shared example.o  example_wrap.o -mno-cygwin -Wl,--add-stdcall-alias  -o example.dll
 $ cat main.java
 public class main {
   public static void main(String argv[]) {
     System.loadLibrary("example");
     System.out.println(example.getMy_variable());
     System.out.println(example.fact(5));
     System.out.println(example.get_time());
   }
 }
 $ javac main.java
 $ java main
 3.0
 120
 Mon Mar  4 18:20:31  2002
 $
 </pre></blockquote>

 <h3> Building a C# module </h3>
 SWIG will also generate code for accessing C/C++ code from C# using PInvoke. Here is an example building a C# module (shown for Linux, see the <a href="http://swig.cs.uchicago.edu/cgi-bin/wiki.pl?SwigFaq/SharedLibraries">SWIG Wiki Shared Libraries</a> page for help with other operating systems). It uses the open source <a href="http://www.southern-storm.com.au/portable_net.html">DotGNU Portable.NET</a> C# compiler which runs on most Unix systems, but works equally well using other C# compilers:

 <blockquote><pre>
 $ swig -csharp  example.i
 $ gcc -c -fpic  example.c example_wrap.c
 $ gcc -shared example.o  example_wrap.o   -o libexample.so
 $ cscc -o runme *.cs
 $ cat runme.cs
 using System;
 public class runme {
     static void Main() {
         Console.WriteLine(example.My_variable);
         Console.WriteLine(example.fact(5));
         Console.WriteLine(example.get_time());
     }
 }
 $ ilrun runme
 3
 120
 Tue May 13 10:45:45 2003

 $
 </pre></blockquote>

 <h3> SWIG for the truly lazy </h3>

 As it turns out, it is not always necessary to write a special interface
 file.  If you have a header file, you can often just include it directly in the
 SWIG interface. For example:

 <blockquote>
 <pre>
 %module example
 %{
 /* Includes the header in the wrapper code */
 #include "header.h"
 %}

 /* Parse the header file to generate wrappers */
 %include "header.h"
 </pre>
 </blockquote>

 Alternatively, some people might just include SWIG directives in a header
 file with conditional compilation.  For example:

 <blockquote>
 <pre>
 #ifdef SWIG
 %module example
 %{
 #include "header.h"
 %}
 #endif

 extern int fact(int n);
 ...
 </pre>
 </blockquote>

 <h3> Running SWIG under Microsoft Windows </h3>

 SWIG also works perfectly well under all known 32 bit versions of
 Windows including 95/98/NT/2000/XP.  SWIG is typically invoked from
 the command prompt and can be used with NMAKE.  Modules are typically
 compiled in the form of a DLL that can be dynamically loaded into Tcl,
 Python, or whatever language you are using.  With a little work, SWIG
 can also be used as a custom build option within MS Developer Studio.

 <h3>That's it (well, more or less)</h3>

 That's about everything you need to know to get started. Here's the short checklist :

 <ul>
 <li> Make sure you specify a module name.
 <li> Use ANSI C/C++ syntax
 <li> Figure out how to compile a shared library module / dynamic link library (may require reading a few man
 pages for your compiler).
 <li> Relax.
 </ul>

 <h3>Surely there's more to it...</h3>

 The above example is intentionally simple, but the general idea
 extends to more complicated C/C++ programming tasks.  In fact, it is
 important to know that SWIG is a fairly complete C++ compiler with
 support for nearly every language feature.  This includes
 preprocessing, pointers, classes, inheritance, and even C++ templates.
 SWIG can also be used to package structures and classes into proxy
 classes in the target language---exposing the underlying functionality in a very
 natural manner.

 <p>
 To illustrate, suppose you wanted to wrap the following C++ data structure:

 <blockquote>
 <pre>
 // pair.h.  A pair like the STL
 namespace std {
    template&lt;class T1, class T2&gt; struct pair {
        T1 first;
        T2 second;
        pair() : first(T1()), second(T2()) { };
        pair(const T1 &amp;f, const T2 &amp;s) : first(f), second(s) { }
    };
 }
 </pre>
 </blockquote>

 To wrap with SWIG, you might specify the following interface:

 <blockquote>
 <pre>
 // pair.i - SWIG interface
 %module pair
 %{
 #include "pair.h"
 %}

 // Ignore the default constructor
 %ignore std::pair::pair();

 // Parse the original header file
 %include "pair.h"

 // Instantiate some templates

 %template(pairii) std::pair&lt;int,int&gt;;
 %template(pairdi) std::pair&lt;double,int&gt;;
 </pre>
 </blockquote>

 Now, compiling (Python):

 <blockquote>
 <pre>
 $ swig -python -c++ pair.i
 $ c++ -c pair_wrap.c -I/usr/local/include/python2.1
 $ c++ -shared pair_wrap.o -o _pair.so
 $ python
 Python 2.1 (#3, Aug 20 2001, 15:41:42)
 [GCC 2.95.2 19991024 (release)] on sunos5
 Type "copyright", "credits" or "license" for more information.
 &gt;&gt;&gt; import pair
 &gt;&gt;&gt; a = pair.pairii(3,4)
 &gt;&gt;&gt; a.first
 3
 &gt;&gt;&gt; a.second
 4
 &gt;&gt;&gt; a.second = 16
 &gt;&gt;&gt; a.second
 16
 &gt;&gt;&gt; b = pair.pairdi(3.5,8)
 &gt;&gt;&gt; b.first
 3.5
 &gt;&gt;&gt; b.second
 8
 </pre>
 </blockquote>
	SWIG Tutorial

	<p>
	<img src="images/tutorial.png" alt="Tutorial">

	<p>
	So you want to get going in a hurry? To illustrate the use of SWIG,
	suppose you have some C functions you want added to Tcl, Perl, Python, Java and C#.
	Specifically, let's say you have them in a file 'example.c'

	<blockquote><pre>
	/* File : example.c */

	#include <time.h>
	double My_variable = 3.0;

	int fact(int n) {
	if (n <= 1) return 1;
	else return n*fact(n-1);
	}

	int my_mod(int x, int y) {
	return (x%y);
	}

	char *get_time()
	{
	time_t ltime;
	time(&ltime);
	return ctime(&ltime);
	}

	</pre></blockquote>

	<h3>Interface file </h3>

	Now, in order to add these files to your favorite language, you need to write an
	"interface file" which is the input to SWIG. An interface file for these
	C functions might look like this :

	<blockquote><pre>
	/* example.i */
	%module example
	%{
	/* Put header files here or function declarations like below */
	extern double My_variable;
	extern int fact(int n);
	extern int my_mod(int x, int y);
	extern char *get_time();
	%}

	extern double My_variable;
	extern int fact(int n);
	extern int my_mod(int x, int y);
	extern char *get_time();
	</pre></blockquote>

	<h3> Building a Tcl module </h3>

	At the UNIX prompt, type the following (shown for Linux, see the <a href="http://swig.cs.uchicago.edu/cgi-bin/wiki.pl?SwigFaq/SharedLibraries">SWIG Wiki Shared Libraries</a> page for help with other operating systems):

	<blockquote>
	<pre>
	unix % swig -tcl example.i
	unix % gcc -fpic -c example.c example_wrap.c \
	-I/usr/local/include
	unix % gcc -shared example.o example_wrap.o -o example.so
	unix % tclsh
	% load ./example.so example
	% puts $My_variable
	3.0
	% fact 5
	120
	% my_mod 7 3
	1
	% get_time
	Sun Feb 11 23:01:07 1996

	%
	</pre></blockquote>

	The <tt> swig </tt> command produces a file <a href = "tutorial/example_wrap.html">
	<tt> example_wrap.c </tt> </a> that should be compiled and linked with
	the rest of the program. In this case, we have built a dynamically
	loadable extension that can be loaded into the Tcl interpreter using
	the 'load' command.

	<h3> Building a Python module </h3>

	Turning C code into a Python module is also easy. Simply do the following (shown for Irix, see the <a href="http://swig.cs.uchicago.edu/cgi-bin/wiki.pl?SwigFaq/SharedLibraries">SWIG Wiki Shared Libraries</a> page for help with other operating systems):

	<blockquote> <pre>

	unix % swig -python example.i
	unix % gcc -c example.c example_wrap.c \
	-I/usr/local/include/python2.1
	unix % ld -shared example.o example_wrap.o -o _example.so
	</pre> </blockquote>

	We can now use the Python module as follows :
	<blockquote> <pre>
	>>> import example
	>>> example.fact(5)
	120
	>>> example.my_mod(7,3)
	1
	>>> example.get_time()
	'Sun Feb 11 23:01:07 1996'
	>>>
	</pre>
	</blockquote>

	<h3> Building a Perl module </h3>
	You can also build a Perl5 module as follows (shown for Solaris, see the <a href="http://swig.cs.uchicago.edu/cgi-bin/wiki.pl?SwigFaq/SharedLibraries">SWIG Wiki Shared Libraries</a> page for help with other operating systems):

	<blockquote><pre>
	unix % swig -perl5 example.i
	unix % gcc -c example.c example_wrap.c \
	-I/usr/lib/perl/solaris/5.003/CORE
	unix % ld -G example.o example_wrap.o -o example.so
	unix % perl
	use example;
	print $example::My_variable,"\n";
	print example::fact(5),"\n";
	print example::get_time(),"\n";
	<ctrl-d>
	3.0
	120
	Sun Feb 11 23:01:07 1996
	unix %
	</pre></blockquote>

	<h3> Building a Java module </h3>
	SWIG will also generate JNI code for accessing C/C++ code from Java. Here is an example building a Java module (shown for Cygwin, see the <a href="http://swig.cs.uchicago.edu/cgi-bin/wiki.pl?SwigFaq/SharedLibraries">SWIG Wiki Shared Libraries</a> page for help with other operating systems):

	<blockquote><pre>
	$ swig -java example.i
	$ gcc -c example.c example_wrap.c -I/c/jdk1.3.1/include -I/c/jdk1.3.1/include/win32
	$ gcc -shared example.o example_wrap.o -mno-cygwin -Wl,--add-stdcall-alias -o example.dll
	$ cat main.java
	public class main {
	public static void main(String argv[]) {
	System.loadLibrary("example");
	System.out.println(example.getMy_variable());
	System.out.println(example.fact(5));
	System.out.println(example.get_time());
	}
	}
	$ javac main.java
	$ java main
	3.0
	120
	Mon Mar 4 18:20:31 2002
	$
	</pre></blockquote>

	<h3> Building a C# module </h3>
	SWIG will also generate code for accessing C/C++ code from C# using PInvoke. Here is an example building a C# module (shown for Linux, see the <a href="http://swig.cs.uchicago.edu/cgi-bin/wiki.pl?SwigFaq/SharedLibraries">SWIG Wiki Shared Libraries</a> page for help with other operating systems). It uses the open source <a href="http://www.southern-storm.com.au/portable_net.html">DotGNU Portable.NET</a> C# compiler which runs on most Unix systems, but works equally well using other C# compilers:

	<blockquote><pre>
	$ swig -csharp example.i
	$ gcc -c -fpic example.c example_wrap.c
	$ gcc -shared example.o example_wrap.o -o libexample.so
	$ cscc -o runme *.cs
	$ cat runme.cs
	using System;
	public class runme {
	static void Main() {
	Console.WriteLine(example.My_variable);
	Console.WriteLine(example.fact(5));
	Console.WriteLine(example.get_time());
	}
	}
	$ ilrun runme
	3
	120
	Tue May 13 10:45:45 2003

	$
	</pre></blockquote>

	<h3> SWIG for the truly lazy </h3>

	As it turns out, it is not always necessary to write a special interface
	file. If you have a header file, you can often just include it directly in the
	SWIG interface. For example:

	<blockquote>
	<pre>
	%module example
	%{
	/* Includes the header in the wrapper code */
	#include "header.h"
	%}

	/* Parse the header file to generate wrappers */
	%include "header.h"
	</pre>
	</blockquote>

	Alternatively, some people might just include SWIG directives in a header
	file with conditional compilation. For example:

	<blockquote>
	<pre>
	#ifdef SWIG
	%module example
	%{
	#include "header.h"
	%}
	#endif

	extern int fact(int n);
	...
	</pre>
	</blockquote>

	<h3> Running SWIG under Microsoft Windows </h3>

	SWIG also works perfectly well under all known 32 bit versions of
	Windows including 95/98/NT/2000/XP. SWIG is typically invoked from
	the command prompt and can be used with NMAKE. Modules are typically
	compiled in the form of a DLL that can be dynamically loaded into Tcl,
	Python, or whatever language you are using. With a little work, SWIG
	can also be used as a custom build option within MS Developer Studio.

	<h3>That's it (well, more or less)</h3>

	That's about everything you need to know to get started. Here's the short checklist :

	<ul>
	<li> Make sure you specify a module name.
	<li> Use ANSI C/C++ syntax
	<li> Figure out how to compile a shared library module / dynamic link library (may require reading a few man
	pages for your compiler).
	<li> Relax.
	</ul>

	<h3>Surely there's more to it...</h3>

	The above example is intentionally simple, but the general idea
	extends to more complicated C/C++ programming tasks. In fact, it is
	important to know that SWIG is a fairly complete C++ compiler with
	support for nearly every language feature. This includes
	preprocessing, pointers, classes, inheritance, and even C++ templates.
	SWIG can also be used to package structures and classes into proxy
	classes in the target language---exposing the underlying functionality in a very
	natural manner.

	<p>
	To illustrate, suppose you wanted to wrap the following C++ data structure:

	<blockquote>
	<pre>
	// pair.h. A pair like the STL
	namespace std {
	template<class T1, class T2> struct pair {
	T1 first;
	T2 second;
	pair() : first(T1()), second(T2()) { };
	pair(const T1 &f, const T2 &s) : first(f), second(s) { }
	};
	}
	</pre>
	</blockquote>

	To wrap with SWIG, you might specify the following interface:

	<blockquote>
	<pre>
	// pair.i - SWIG interface
	%module pair
	%{
	#include "pair.h"
	%}

	// Ignore the default constructor
	%ignore std::pair::pair();

	// Parse the original header file
	%include "pair.h"

	// Instantiate some templates

	%template(pairii) std::pair<int,int>;
	%template(pairdi) std::pair<double,int>;
	</pre>
	</blockquote>

	Now, compiling (Python):

	<blockquote>
	<pre>
	$ swig -python -c++ pair.i
	$ c++ -c pair_wrap.c -I/usr/local/include/python2.1
	$ c++ -shared pair_wrap.o -o _pair.so
	$ python
	Python 2.1 (#3, Aug 20 2001, 15:41:42)
	[GCC 2.95.2 19991024 (release)] on sunos5
	Type "copyright", "credits" or "license" for more information.
	>>> import pair
	>>> a = pair.pairii(3,4)
	>>> a.first
	3
	>>> a.second
	4
	>>> a.second = 16
	>>> a.second
	16
	>>> b = pair.pairdi(3.5,8)
	>>> b.first
	3.5
	>>> b.second
	8
	</pre>
	</blockquote>