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"""distutils.unixccompiler
Contains the UnixCCompiler class, a subclass of CCompiler that handles
the "typical" Unix-style command-line C compiler:
* macros defined with -Dname[=value]
* macros undefined with -Uname
* include search directories specified with -Idir
* libraries specified with -lllib
* library search directories specified with -Ldir
* compile handled by 'cc' (or similar) executable with -c option:
compiles .c to .o
* link static library handled by 'ar' command (possibly with 'ranlib')
* link shared library handled by 'cc -shared'
"""
# created 1999/07/05, Greg Ward
__rcsid__ = "$Id$"
import string, re, os
from types import *
from copy import copy
from sysconfig import \
CC, CCSHARED, CFLAGS, OPT, LDSHARED, LDFLAGS, RANLIB, AR, SO
from ccompiler import CCompiler, gen_preprocess_options, gen_lib_options
from util import move_file, newer_pairwise, newer_group
# XXX Things not currently handled:
# * optimization/debug/warning flags; we just use whatever's in Python's
# Makefile and live with it. Is this adequate? If not, we might
# have to have a bunch of subclasses GNUCCompiler, SGICCompiler,
# SunCCompiler, and I suspect down that road lies madness.
# * even if we don't know a warning flag from an optimization flag,
# we need some way for outsiders to feed preprocessor/compiler/linker
# flags in to us -- eg. a sysadmin might want to mandate certain flags
# via a site config file, or a user might want to set something for
# compiling this module distribution only via the setup.py command
# line, whatever. As long as these options come from something on the
# current system, they can be as system-dependent as they like, and we
# should just happily stuff them into the preprocessor/compiler/linker
# options and carry on.
class UnixCCompiler (CCompiler):
# XXX perhaps there should really be *three* kinds of include
# directories: those built in to the preprocessor, those from Python's
# Makefiles, and those supplied to {add,set}_include_dirs(). Currently
# we make no distinction between the latter two at this point; it's all
# up to the client class to select the include directories to use above
# and beyond the compiler's defaults. That is, both the Python include
# directories and any module- or package-specific include directories
# are specified via {add,set}_include_dirs(), and there's no way to
# distinguish them. This might be a bug.
compiler_type = 'unix'
_obj_ext = '.o'
_exe_ext = ''
_shared_lib_ext = SO
_static_lib_ext = '.a'
def __init__ (self,
verbose=0,
dry_run=0):
CCompiler.__init__ (self, verbose, dry_run)
self.preprocess_options = None
self.compile_options = None
# Munge CC and OPT together in case there are flags stuck in CC.
# Note that using these variables from sysconfig immediately makes
# this module specific to building Python extensions and
# inappropriate as a general-purpose C compiler front-end. So sue
# me. Note also that we use OPT rather than CFLAGS, because CFLAGS
# is the flags used to compile Python itself -- not only are there
# -I options in there, they are the *wrong* -I options. We'll
# leave selection of include directories up to the class using
# UnixCCompiler!
(self.cc, self.ccflags) = \
_split_command (CC + ' ' + OPT)
self.ccflags_shared = string.split (CCSHARED)
(self.ld_shared, self.ldflags_shared) = \
_split_command (LDSHARED)
def compile (self,
sources,
output_dir=None,
macros=None,
includes=None,
extra_preargs=None,
extra_postargs=None):
if output_dir is None:
output_dir = self.output_dir
if macros is None:
macros = []
if includes is None:
includes = []
if type (macros) is not ListType:
raise TypeError, \
"'macros' (if supplied) must be a list of tuples"
if type (includes) is not ListType:
raise TypeError, \
"'includes' (if supplied) must be a list of strings"
pp_opts = gen_preprocess_options (self.macros + macros,
self.include_dirs + includes)
# So we can mangle 'sources' without hurting the caller's data
orig_sources = sources
sources = copy (sources)
# Get the list of expected output (object) files and drop files we
# don't have to recompile. (Simplistic check -- we just compare the
# source and object file, no deep dependency checking involving
# header files. Hmmm.)
objects = self.object_filenames (sources, output_dir)
skipped = newer_pairwise (sources, objects)
for skipped_pair in skipped:
self.announce ("skipping %s (%s up-to-date)" % skipped_pair)
# If anything left to compile, compile it
if sources:
# XXX use of ccflags_shared means we're blithely assuming
# that we're compiling for inclusion in a shared object!
# (will have to fix this when I add the ability to build a
# new Python)
cc_args = ['-c'] + pp_opts + \
self.ccflags + self.ccflags_shared + \
sources
if extra_preargs:
cc_args[:0] = extra_preargs
if extra_postargs:
cc_args.extend (extra_postargs)
self.spawn ([self.cc] + cc_args)
# Note that compiling multiple source files in the same go like
# we've just done drops the .o file in the current directory, which
# may not be what the caller wants (depending on the 'output_dir'
# parameter). So, if necessary, fix that now by moving the .o
# files into the desired output directory. (The alternative, of
# course, is to compile one-at-a-time with a -o option. 6 of one,
# 12/2 of the other...)
if output_dir:
for i in range (len (objects)):
src = os.path.basename (objects[i])
objects[i] = self.move_file (src, output_dir)
# Have to re-fetch list of object filenames, because we want to
# return *all* of them, including those that weren't recompiled on
# this call!
return self.object_filenames (orig_sources, output_dir)
# XXX punting on 'link_static_lib()' for now -- it might be better for
# CCompiler to mandate just 'link_binary()' or some such to build a new
# Python binary; it would then take care of linking in everything
# needed for the new Python without messing with an intermediate static
# library.
def link_shared_lib (self,
objects,
output_libname,
output_dir=None,
libraries=None,
library_dirs=None,
extra_preargs=None,
extra_postargs=None):
# XXX should we sanity check the library name? (eg. no
# slashes)
self.link_shared_object (
objects,
"lib%s%s" % (output_libname, self._shared_lib_ext),
output_dir,
libraries,
library_dirs,
extra_preargs,
extra_postargs)
def link_shared_object (self,
objects,
output_filename,
output_dir=None,
libraries=None,
library_dirs=None,
extra_preargs=None,
extra_postargs=None):
if output_dir is None:
output_dir = self.output_dir
if libraries is None:
libraries = []
if library_dirs is None:
library_dirs = []
lib_opts = gen_lib_options (self.library_dirs + library_dirs,
self.libraries + libraries,
"-L%s", "-l%s")
if output_dir is not None:
output_filename = os.path.join (output_dir, output_filename)
# If any of the input object files are newer than the output shared
# object, relink. Again, this is a simplistic dependency check:
# doesn't look at any of the libraries we might be linking with.
# Note that we have to dance around errors comparing timestamps if
# we're in dry-run mode (yuck).
try:
newer = newer_group (objects, output_filename)
except OSError:
if self.dry_run:
newer = 1
else:
raise
if newer:
ld_args = self.ldflags_shared + lib_opts + \
objects + ['-o', output_filename]
if extra_preargs:
ld_args[:0] = extra_preargs
if extra_postargs:
ld_args.extend (extra_postargs)
self.spawn ([self.ld_shared] + ld_args)
else:
self.announce ("skipping %s (up-to-date)" % output_filename)
def object_filenames (self, source_filenames, output_dir=None):
outnames = []
for inname in source_filenames:
outname = re.sub (r'\.(c|C|cc|cxx|cpp)$', self._obj_ext, inname)
outname = os.path.basename (outname)
if output_dir is not None:
outname = os.path.join (output_dir, outname)
outnames.append (outname)
return outnames
def shared_object_filename (self, source_filename, output_dir=None):
outname = re.sub (r'\.(c|C|cc|cxx|cpp)$', self._shared_lib_ext)
outname = os.path.basename (outname)
if output_dir is not None:
outname = os.path.join (output_dir, outname)
return outname
def library_filename (self, libname):
return "lib%s%s" % (libname, self._static_lib_ext )
def shared_library_filename (self, libname):
return "lib%s%s" % (libname, self._shared_lib_ext )
# class UnixCCompiler
def _split_command (cmd):
"""Split a command string up into the progam to run (a string) and
the list of arguments; return them as (cmd, arglist)."""
args = string.split (cmd)
return (args[0], args[1:])
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