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<para>
It's often useful to organize large software projects
by collecting parts of the software into one or more libraries.
&SCons; makes it easy to create libraries
and to use them in the programs.
</para>
<section>
<title>Building Libraries</title>
<para>
You build your own libraries by specifying &b-link-Library;
instead of &b-link-Program;:
</para>
<programlisting>
Library('foo', ['f1.c', 'f2.c', 'f3.c'])
</programlisting>
<para>
&SCons; uses the appropriate library prefix and suffix for your system.
So on POSIX or Linux systems,
the above example would build as follows
(although &ranlib; may not be called on all systems):
</para>
<screen>
% <userinput>scons -Q</userinput>
cc -o f1.o -c f1.c
cc -o f2.o -c f2.c
cc -o f3.o -c f3.c
ar rc libfoo.a f1.o f2.o f3.o
ranlib libfoo.a
</screen>
<para>
On a Windows system,
a build of the above example would look like:
</para>
<screen>
C:\><userinput>scons -Q</userinput>
cl /Fof1.obj /c f1.c /nologo
cl /Fof2.obj /c f2.c /nologo
cl /Fof3.obj /c f3.c /nologo
lib /nologo /OUT:foo.lib f1.obj f2.obj f3.obj
</screen>
<para>
The rules for the target name of the library
are similar to those for programs:
if you don't explicitly specify a target library name,
&SCons; will deduce one from the
name of the first source file specified,
and &SCons; will add an appropriate
file prefix and suffix if you leave them off.
</para>
<section>
<title>Building Libraries From Source Code or Object Files</title>
<para>
The previous example shows building a library from a
list of source files.
You can, however, also give the &b-link-Library; call
object files,
and it will correctly realize
In fact, you can arbitrarily mix source code files
and object files in the source list:
</para>
<programlisting>
Library('foo', ['f1.c', 'f2.o', 'f3.c', 'f4.o'])
</programlisting>
<para>
And SCons realizes that only the source code files
must be compiled into object files
before creating the final library:
</para>
<screen>
% <userinput>scons -Q</userinput>
cc -o f1.o -c f1.c
cc -o f3.o -c f3.c
ar rc libfoo.a f1.o f2.o f3.o f4.o
ranlib libfoo.a
</screen>
<para>
Of course, in this example, the object files
must already exist for the build to succeed.
See <xref linkend="chap-nodes"></xref>, below,
for information about how you can
build object files explicitly
and include the built files in a library.
</para>
</section>
<section>
<title>Building Static Libraries Explicitly: the &b-StaticLibrary; Builder</title>
<para>
The &b-link-Library; function builds a traditional static library.
If you want to be explicit about the type of library being built,
you can use the synonym &b-link-StaticLibrary; function
instead of &b-Library;:
</para>
<programlisting>
StaticLibrary('foo', ['f1.c', 'f2.c', 'f3.c'])
</programlisting>
<para>
There is no functional difference between the
&b-link-StaticLibrary; and &b-Library; functions.
</para>
</section>
<section>
<title>Building Shared (DLL) Libraries: the &b-SharedLibrary; Builder</title>
<para>
If you want to build a shared library (on POSIX systems)
or a DLL file (on Windows systems),
you use the &b-link-SharedLibrary; function:
</para>
<programlisting>
SharedLibrary('foo', ['f1.c', 'f2.c', 'f3.c'])
</programlisting>
<para>
The output on POSIX:
</para>
<screen>
% <userinput>scons -Q</userinput>
cc -o f1.os -c f1.c
cc -o f2.os -c f2.c
cc -o f3.os -c f3.c
cc -o libfoo.so -shared f1.os f2.os f3.os
</screen>
<para>
And the output on Windows:
</para>
<screen>
C:\><userinput>scons -Q</userinput>
cl /Fof1.obj /c f1.c /nologo
cl /Fof2.obj /c f2.c /nologo
cl /Fof3.obj /c f3.c /nologo
link /nologo /dll /out:foo.dll /implib:foo.lib f1.obj f2.obj f3.obj
RegServerFunc(target, source, env)
embedManifestDllCheck(target, source, env)
</screen>
<para>
Notice again that &SCons; takes care of
building the output file correctly,
adding the <literal>-shared</literal> option
for a POSIX compilation,
and the <literal>/dll</literal> option on Windows.
</para>
</section>
</section>
<section>
<title>Linking with Libraries</title>
<para>
Usually, you build a library
because you want to link it with one or more programs.
You link libraries with a program by specifying
the libraries in the &cv-link-LIBS; construction variable,
and by specifying the directory in which
the library will be found in the
&cv-link-LIBPATH; construction variable:
<!-- In the preceding paragraph, the "$" notation for
LIBS, LIBPATH etc. is used for the first time.
Maybe some words of explanation would be nice. -->
</para>
<programlisting>
Library('foo', ['f1.c', 'f2.c', 'f3.c'])
Program('prog.c', LIBS=['foo', 'bar'], LIBPATH='.')
</programlisting>
<para>
Notice, of course, that you don't need to specify a library
prefix (like <literal>lib</literal>)
or suffix (like <literal>.a</literal> or <literal>.lib</literal>).
&SCons; uses the correct prefix or suffix for the current system.
</para>
<para>
On a POSIX or Linux system,
a build of the above example would look like:
</para>
<screen>
% <userinput>scons -Q</userinput>
cc -o f1.o -c f1.c
cc -o f2.o -c f2.c
cc -o f3.o -c f3.c
ar rc libfoo.a f1.o f2.o f3.o
ranlib libfoo.a
cc -o prog.o -c prog.c
cc -o prog prog.o -L. -lfoo -lbar
</screen>
<para>
On a Windows system,
a build of the above example would look like:
</para>
<screen>
C:\><userinput>scons -Q</userinput>
cl /Fof1.obj /c f1.c /nologo
cl /Fof2.obj /c f2.c /nologo
cl /Fof3.obj /c f3.c /nologo
lib /nologo /OUT:foo.lib f1.obj f2.obj f3.obj
cl /Foprog.obj /c prog.c /nologo
link /nologo /OUT:prog.exe /LIBPATH:. foo.lib bar.lib prog.obj
embedManifestExeCheck(target, source, env)
</screen>
<para>
As usual, notice that &SCons; has taken care
of constructing the correct command lines
to link with the specified library on each system.
</para>
<para>
Note also that,
if you only have a single library to link with,
you can specify the library name in single string,
instead of a Python list,
so that:
</para>
<programlisting>
Program('prog.c', LIBS='foo', LIBPATH='.')
</programlisting>
<para>
is equivalent to:
</para>
<programlisting>
Program('prog.c', LIBS=['foo'], LIBPATH='.')
</programlisting>
<para>
This is similar to the way that &SCons;
handles either a string or a list to
specify a single source file.
</para>
</section>
<section>
<title>Finding Libraries: the &cv-LIBPATH; Construction Variable</title>
<para>
By default, the linker will only look in
certain system-defined directories for libraries.
&SCons; knows how to look for libraries
in directories that you specify with the
&cv-link-LIBPATH; construction variable.
&cv-LIBPATH; consists of a list of
directory names, like so:
</para>
<programlisting>
Program('prog.c', LIBS = 'm',
LIBPATH = ['/usr/lib', '/usr/local/lib'])
</programlisting>
<para>
Using a Python list is preferred because it's portable
across systems. Alternatively, you could put all of
the directory names in a single string, separated by the
system-specific path separator character:
a colon on POSIX systems:
</para>
<programlisting>
LIBPATH = '/usr/lib:/usr/local/lib'
</programlisting>
<para>
or a semi-colon on Windows systems:
</para>
<programlisting>
LIBPATH = 'C:\\lib;D:\\lib'
</programlisting>
<para>
(Note that Python requires that the backslash
separators in a Windows path name
be escaped within strings.)
</para>
<para>
When the linker is executed,
&SCons; will create appropriate flags
so that the linker will look for
libraries in the same directories as &SCons;.
So on a POSIX or Linux system,
a build of the above example would look like:
</para>
<screen>
% <userinput>scons -Q</userinput>
cc -o prog.o -c prog.c
cc -o prog prog.o -L/usr/lib -L/usr/local/lib -lm
</screen>
<para>
On a Windows system,
a build of the above example would look like:
</para>
<screen>
C:\><userinput>scons -Q</userinput>
cl /Foprog.obj /c prog.c /nologo
link /nologo /OUT:prog.exe /LIBPATH:\usr\lib /LIBPATH:\usr\local\lib m.lib prog.obj
embedManifestExeCheck(target, source, env)
</screen>
<!-- The link command is too wide in the PDF version.
There are some other examples of this throughout the document. -->
<para>
Note again that &SCons; has taken care of
the system-specific details of creating
the right command-line options.
</para>
</section>