&SCons; has built-in scanners that know how to look in
C, Fortran and IDL source files for information about
other files that targets built from those files depend on--for example,
in the case of files that use the C preprocessor,
the .h files that are specified
using #include lines in the source.
You can use the same mechanisms that &SCons; uses to create
its built-in scanners to write scanners of your own for file types
that &SCons; does not know how to scan "out of the box."
A Simple Scanner Example
Suppose, for example, that we want to create a simple scanner
for .foo files.
A .foo file contains some text that
will be processed,
and can include other files on lines that begin
with include
followed by a file name:
include filename.foo
Scanning a file will be handled by a Python function
that you must supply.
Here is a function that will use the Python
re module
to scan for the include lines in our example:
import re
include_re = re.compile(r'^include\s+(\S+)$', re.M)
def kfile_scan(node, env, path, arg):
contents = node.get_contents()
return include_re.findall(contents)
The scanner function must
accept the four specified arguments
and return a list of implicit dependencies.
Presumably, these would be dependencies found
from examining the contents of the file,
although the function can perform any
manipulation at all to generate the list of
dependencies.
node
An &SCons; node object representing the file being scanned.
The path name to the file can be
used by converting the node to a string
using the str() function,
or an internal &SCons; get_contents()
object method can be used to fetch the contents.
env
The construction environment in effect for this scan.
The scanner function may choose to use construction
variables from this environment to affect its behavior.
path
A list of directories that form the search path for included files
for this scanner.
This is how &SCons; handles the &cv-link-CPPPATH; and &cv-link-LIBPATH;
variables.
arg
An optional argument that you can choose to
have passed to this scanner function by
various scanner instances.
A Scanner object is created using the &Scanner; function,
which typically takes an skeys argument
to associate the type of file suffix with this scanner.
The Scanner object must then be associated with the
&cv-link-SCANNERS; construction variable of a construction environment,
typically by using the &Append; method:
kscan = Scanner(function = kfile_scan,
skeys = ['.k'])
env.Append(SCANNERS = kscan)
When we put it all together, it looks like:
import re
include_re = re.compile(r'^include\s+(\S+)$', re.M)
def kfile_scan(node, env, path):
contents = node.get_contents()
includes = include_re.findall(contents)
return includes
kscan = Scanner(function = kfile_scan,
skeys = ['.k'])
env = Environment(ENV = {'PATH' : '__ROOT__/usr/local/bin'})
env.Append(SCANNERS = kscan)
env.Command('foo', 'foo.k', 'kprocess < $SOURCES > $TARGET')
include other_file
other_file
cat