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chenkailing
2021-02-10 00:58:13 +08:00
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13
office-plugin/windows-office/program/python-core-2.7.6/lib/distutils/README Normal file
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This directory contains the Distutils package.
There's a full documentation available at:
http://docs.python.org/distutils/
The Distutils-SIG web page is also a good starting point:
http://www.python.org/sigs/distutils-sig/
WARNING : Distutils must remain compatible with 2.3
$Id$

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office-plugin/windows-office/program/python-core-2.7.6/lib/distutils/__init__.py Normal file
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"""distutils
The main package for the Python Module Distribution Utilities. Normally
used from a setup script as
from distutils.core import setup
setup (...)
"""
__revision__ = "$Id$"
# Distutils version
#
# Updated automatically by the Python release process.
#
#--start constants--
__version__ = "2.7.6"
#--end constants--

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office-plugin/windows-office/program/python-core-2.7.6/lib/distutils/archive_util.py Normal file
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"""distutils.archive_util
Utility functions for creating archive files (tarballs, zip files,
that sort of thing)."""
__revision__ = "$Id$"
import os
from warnings import warn
import sys
from distutils.errors import DistutilsExecError
from distutils.spawn import spawn
from distutils.dir_util import mkpath
from distutils import log
try:
from pwd import getpwnam
except ImportError:
getpwnam = None
try:
from grp import getgrnam
except ImportError:
getgrnam = None
def _get_gid(name):
"""Returns a gid, given a group name."""
if getgrnam is None or name is None:
return None
try:
result = getgrnam(name)
except KeyError:
result = None
if result is not None:
return result[2]
return None
def _get_uid(name):
"""Returns an uid, given a user name."""
if getpwnam is None or name is None:
return None
try:
result = getpwnam(name)
except KeyError:
result = None
if result is not None:
return result[2]
return None
def make_tarball(base_name, base_dir, compress="gzip", verbose=0, dry_run=0,
owner=None, group=None):
"""Create a (possibly compressed) tar file from all the files under
'base_dir'.
'compress' must be "gzip" (the default), "compress", "bzip2", or None.
(compress will be deprecated in Python 3.2)
'owner' and 'group' can be used to define an owner and a group for the
archive that is being built. If not provided, the current owner and group
will be used.
The output tar file will be named 'base_dir' + ".tar", possibly plus
the appropriate compression extension (".gz", ".bz2" or ".Z").
Returns the output filename.
"""
tar_compression = {'gzip': 'gz', 'bzip2': 'bz2', None: '', 'compress': ''}
compress_ext = {'gzip': '.gz', 'bzip2': '.bz2', 'compress': '.Z'}
# flags for compression program, each element of list will be an argument
if compress is not None and compress not in compress_ext.keys():
raise ValueError, \
("bad value for 'compress': must be None, 'gzip', 'bzip2' "
"or 'compress'")
archive_name = base_name + '.tar'
if compress != 'compress':
archive_name += compress_ext.get(compress, '')
mkpath(os.path.dirname(archive_name), dry_run=dry_run)
# creating the tarball
import tarfile # late import so Python build itself doesn't break
log.info('Creating tar archive')
uid = _get_uid(owner)
gid = _get_gid(group)
def _set_uid_gid(tarinfo):
if gid is not None:
tarinfo.gid = gid
tarinfo.gname = group
if uid is not None:
tarinfo.uid = uid
tarinfo.uname = owner
return tarinfo
if not dry_run:
tar = tarfile.open(archive_name, 'w|%s' % tar_compression[compress])
try:
tar.add(base_dir, filter=_set_uid_gid)
finally:
tar.close()
# compression using `compress`
if compress == 'compress':
warn("'compress' will be deprecated.", PendingDeprecationWarning)
# the option varies depending on the platform
compressed_name = archive_name + compress_ext[compress]
if sys.platform == 'win32':
cmd = [compress, archive_name, compressed_name]
else:
cmd = [compress, '-f', archive_name]
spawn(cmd, dry_run=dry_run)
return compressed_name
return archive_name
def make_zipfile(base_name, base_dir, verbose=0, dry_run=0):
"""Create a zip file from all the files under 'base_dir'.
The output zip file will be named 'base_name' + ".zip". Uses either the
"zipfile" Python module (if available) or the InfoZIP "zip" utility
(if installed and found on the default search path). If neither tool is
available, raises DistutilsExecError. Returns the name of the output zip
file.
"""
try:
import zipfile
except ImportError:
zipfile = None
zip_filename = base_name + ".zip"
mkpath(os.path.dirname(zip_filename), dry_run=dry_run)
# If zipfile module is not available, try spawning an external
# 'zip' command.
if zipfile is None:
if verbose:
zipoptions = "-r"
else:
zipoptions = "-rq"
try:
spawn(["zip", zipoptions, zip_filename, base_dir],
dry_run=dry_run)
except DistutilsExecError:
# XXX really should distinguish between "couldn't find
# external 'zip' command" and "zip failed".
raise DistutilsExecError, \
("unable to create zip file '%s': "
"could neither import the 'zipfile' module nor "
"find a standalone zip utility") % zip_filename
else:
log.info("creating '%s' and adding '%s' to it",
zip_filename, base_dir)
if not dry_run:
zip = zipfile.ZipFile(zip_filename, "w",
compression=zipfile.ZIP_DEFLATED)
for dirpath, dirnames, filenames in os.walk(base_dir):
for name in filenames:
path = os.path.normpath(os.path.join(dirpath, name))
if os.path.isfile(path):
zip.write(path, path)
log.info("adding '%s'" % path)
zip.close()
return zip_filename
ARCHIVE_FORMATS = {
'gztar': (make_tarball, [('compress', 'gzip')], "gzip'ed tar-file"),
'bztar': (make_tarball, [('compress', 'bzip2')], "bzip2'ed tar-file"),
'ztar': (make_tarball, [('compress', 'compress')], "compressed tar file"),
'tar': (make_tarball, [('compress', None)], "uncompressed tar file"),
'zip': (make_zipfile, [],"ZIP file")
}
def check_archive_formats(formats):
"""Returns the first format from the 'format' list that is unknown.
If all formats are known, returns None
"""
for format in formats:
if format not in ARCHIVE_FORMATS:
return format
return None
def make_archive(base_name, format, root_dir=None, base_dir=None, verbose=0,
dry_run=0, owner=None, group=None):
"""Create an archive file (eg. zip or tar).
'base_name' is the name of the file to create, minus any format-specific
extension; 'format' is the archive format: one of "zip", "tar", "ztar",
or "gztar".
'root_dir' is a directory that will be the root directory of the
archive; ie. we typically chdir into 'root_dir' before creating the
archive. 'base_dir' is the directory where we start archiving from;
ie. 'base_dir' will be the common prefix of all files and
directories in the archive. 'root_dir' and 'base_dir' both default
to the current directory. Returns the name of the archive file.
'owner' and 'group' are used when creating a tar archive. By default,
uses the current owner and group.
"""
save_cwd = os.getcwd()
if root_dir is not None:
log.debug("changing into '%s'", root_dir)
base_name = os.path.abspath(base_name)
if not dry_run:
os.chdir(root_dir)
if base_dir is None:
base_dir = os.curdir
kwargs = {'dry_run': dry_run}
try:
format_info = ARCHIVE_FORMATS[format]
except KeyError:
raise ValueError, "unknown archive format '%s'" % format
func = format_info[0]
for arg, val in format_info[1]:
kwargs[arg] = val
if format != 'zip':
kwargs['owner'] = owner
kwargs['group'] = group
try:
filename = func(base_name, base_dir, **kwargs)
finally:
if root_dir is not None:
log.debug("changing back to '%s'", save_cwd)
os.chdir(save_cwd)
return filename

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office-plugin/windows-office/program/python-core-2.7.6/lib/distutils/bcppcompiler.py Normal file
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"""distutils.bcppcompiler
Contains BorlandCCompiler, an implementation of the abstract CCompiler class
for the Borland C++ compiler.
"""
# This implementation by Lyle Johnson, based on the original msvccompiler.py
# module and using the directions originally published by Gordon Williams.
# XXX looks like there's a LOT of overlap between these two classes:
# someone should sit down and factor out the common code as
# WindowsCCompiler! --GPW
__revision__ = "$Id$"
import os
from distutils.errors import (DistutilsExecError, CompileError, LibError,
LinkError, UnknownFileError)
from distutils.ccompiler import CCompiler, gen_preprocess_options
from distutils.file_util import write_file
from distutils.dep_util import newer
from distutils import log
class BCPPCompiler(CCompiler) :
"""Concrete class that implements an interface to the Borland C/C++
compiler, as defined by the CCompiler abstract class.
"""
compiler_type = 'bcpp'
# Just set this so CCompiler's constructor doesn't barf. We currently
# don't use the 'set_executables()' bureaucracy provided by CCompiler,
# as it really isn't necessary for this sort of single-compiler class.
# Would be nice to have a consistent interface with UnixCCompiler,
# though, so it's worth thinking about.
executables = {}
# Private class data (need to distinguish C from C++ source for compiler)
_c_extensions = ['.c']
_cpp_extensions = ['.cc', '.cpp', '.cxx']
# Needed for the filename generation methods provided by the
# base class, CCompiler.
src_extensions = _c_extensions + _cpp_extensions
obj_extension = '.obj'
static_lib_extension = '.lib'
shared_lib_extension = '.dll'
static_lib_format = shared_lib_format = '%s%s'
exe_extension = '.exe'
def __init__ (self,
verbose=0,
dry_run=0,
force=0):
CCompiler.__init__ (self, verbose, dry_run, force)
# These executables are assumed to all be in the path.
# Borland doesn't seem to use any special registry settings to
# indicate their installation locations.
self.cc = "bcc32.exe"
self.linker = "ilink32.exe"
self.lib = "tlib.exe"
self.preprocess_options = None
self.compile_options = ['/tWM', '/O2', '/q', '/g0']
self.compile_options_debug = ['/tWM', '/Od', '/q', '/g0']
self.ldflags_shared = ['/Tpd', '/Gn', '/q', '/x']
self.ldflags_shared_debug = ['/Tpd', '/Gn', '/q', '/x']
self.ldflags_static = []
self.ldflags_exe = ['/Gn', '/q', '/x']
self.ldflags_exe_debug = ['/Gn', '/q', '/x','/r']
# -- Worker methods ------------------------------------------------
def compile(self, sources,
output_dir=None, macros=None, include_dirs=None, debug=0,
extra_preargs=None, extra_postargs=None, depends=None):
macros, objects, extra_postargs, pp_opts, build = \
self._setup_compile(output_dir, macros, include_dirs, sources,
depends, extra_postargs)
compile_opts = extra_preargs or []
compile_opts.append ('-c')
if debug:
compile_opts.extend (self.compile_options_debug)
else:
compile_opts.extend (self.compile_options)
for obj in objects:
try:
src, ext = build[obj]
except KeyError:
continue
# XXX why do the normpath here?
src = os.path.normpath(src)
obj = os.path.normpath(obj)
# XXX _setup_compile() did a mkpath() too but before the normpath.
# Is it possible to skip the normpath?
self.mkpath(os.path.dirname(obj))
if ext == '.res':
# This is already a binary file -- skip it.
continue # the 'for' loop
if ext == '.rc':
# This needs to be compiled to a .res file -- do it now.
try:
self.spawn (["brcc32", "-fo", obj, src])
except DistutilsExecError, msg:
raise CompileError, msg
continue # the 'for' loop
# The next two are both for the real compiler.
if ext in self._c_extensions:
input_opt = ""
elif ext in self._cpp_extensions:
input_opt = "-P"
else:
# Unknown file type -- no extra options. The compiler
# will probably fail, but let it just in case this is a
# file the compiler recognizes even if we don't.
input_opt = ""
output_opt = "-o" + obj
# Compiler command line syntax is: "bcc32 [options] file(s)".
# Note that the source file names must appear at the end of
# the command line.
try:
self.spawn ([self.cc] + compile_opts + pp_opts +
[input_opt, output_opt] +
extra_postargs + [src])
except DistutilsExecError, msg:
raise CompileError, msg
return objects
# compile ()
def create_static_lib (self,
objects,
output_libname,
output_dir=None,
debug=0,
target_lang=None):
(objects, output_dir) = self._fix_object_args (objects, output_dir)
output_filename = \
self.library_filename (output_libname, output_dir=output_dir)
if self._need_link (objects, output_filename):
lib_args = [output_filename, '/u'] + objects
if debug:
pass # XXX what goes here?
try:
self.spawn ([self.lib] + lib_args)
except DistutilsExecError, msg:
raise LibError, msg
else:
log.debug("skipping %s (up-to-date)", output_filename)
# create_static_lib ()
def link (self,
target_desc,
objects,
output_filename,
output_dir=None,
libraries=None,
library_dirs=None,
runtime_library_dirs=None,
export_symbols=None,
debug=0,
extra_preargs=None,
extra_postargs=None,
build_temp=None,
target_lang=None):
# XXX this ignores 'build_temp'! should follow the lead of
# msvccompiler.py
(objects, output_dir) = self._fix_object_args (objects, output_dir)
(libraries, library_dirs, runtime_library_dirs) = \
self._fix_lib_args (libraries, library_dirs, runtime_library_dirs)
if runtime_library_dirs:
log.warn("I don't know what to do with 'runtime_library_dirs': %s",
str(runtime_library_dirs))
if output_dir is not None:
output_filename = os.path.join (output_dir, output_filename)
if self._need_link (objects, output_filename):
# Figure out linker args based on type of target.
if target_desc == CCompiler.EXECUTABLE:
startup_obj = 'c0w32'
if debug:
ld_args = self.ldflags_exe_debug[:]
else:
ld_args = self.ldflags_exe[:]
else:
startup_obj = 'c0d32'
if debug:
ld_args = self.ldflags_shared_debug[:]
else:
ld_args = self.ldflags_shared[:]
# Create a temporary exports file for use by the linker
if export_symbols is None:
def_file = ''
else:
head, tail = os.path.split (output_filename)
modname, ext = os.path.splitext (tail)
temp_dir = os.path.dirname(objects[0]) # preserve tree structure
def_file = os.path.join (temp_dir, '%s.def' % modname)
contents = ['EXPORTS']
for sym in (export_symbols or []):
contents.append(' %s=_%s' % (sym, sym))
self.execute(write_file, (def_file, contents),
"writing %s" % def_file)
# Borland C++ has problems with '/' in paths
objects2 = map(os.path.normpath, objects)
# split objects in .obj and .res files
# Borland C++ needs them at different positions in the command line
objects = [startup_obj]
resources = []
for file in objects2:
(base, ext) = os.path.splitext(os.path.normcase(file))
if ext == '.res':
resources.append(file)
else:
objects.append(file)
for l in library_dirs:
ld_args.append("/L%s" % os.path.normpath(l))
ld_args.append("/L.") # we sometimes use relative paths
# list of object files
ld_args.extend(objects)
# XXX the command-line syntax for Borland C++ is a bit wonky;
# certain filenames are jammed together in one big string, but
# comma-delimited. This doesn't mesh too well with the
# Unix-centric attitude (with a DOS/Windows quoting hack) of
# 'spawn()', so constructing the argument list is a bit
# awkward. Note that doing the obvious thing and jamming all
# the filenames and commas into one argument would be wrong,
# because 'spawn()' would quote any filenames with spaces in
# them. Arghghh!. Apparently it works fine as coded...
# name of dll/exe file
ld_args.extend([',',output_filename])
# no map file and start libraries
ld_args.append(',,')
for lib in libraries:
# see if we find it and if there is a bcpp specific lib
# (xxx_bcpp.lib)
libfile = self.find_library_file(library_dirs, lib, debug)
if libfile is None:
ld_args.append(lib)
# probably a BCPP internal library -- don't warn
else:
# full name which prefers bcpp_xxx.lib over xxx.lib
ld_args.append(libfile)
# some default libraries
ld_args.append ('import32')
ld_args.append ('cw32mt')
# def file for export symbols
ld_args.extend([',',def_file])
# add resource files
ld_args.append(',')
ld_args.extend(resources)
if extra_preargs:
ld_args[:0] = extra_preargs
if extra_postargs:
ld_args.extend(extra_postargs)
self.mkpath (os.path.dirname (output_filename))
try:
self.spawn ([self.linker] + ld_args)
except DistutilsExecError, msg:
raise LinkError, msg
else:
log.debug("skipping %s (up-to-date)", output_filename)
# link ()
# -- Miscellaneous methods -----------------------------------------
def find_library_file (self, dirs, lib, debug=0):
# List of effective library names to try, in order of preference:
# xxx_bcpp.lib is better than xxx.lib
# and xxx_d.lib is better than xxx.lib if debug is set
#
# The "_bcpp" suffix is to handle a Python installation for people
# with multiple compilers (primarily Distutils hackers, I suspect
# ;-). The idea is they'd have one static library for each
# compiler they care about, since (almost?) every Windows compiler
# seems to have a different format for static libraries.
if debug:
dlib = (lib + "_d")
try_names = (dlib + "_bcpp", lib + "_bcpp", dlib, lib)
else:
try_names = (lib + "_bcpp", lib)
for dir in dirs:
for name in try_names:
libfile = os.path.join(dir, self.library_filename(name))
if os.path.exists(libfile):
return libfile
else:
# Oops, didn't find it in *any* of 'dirs'
return None
# overwrite the one from CCompiler to support rc and res-files
def object_filenames (self,
source_filenames,
strip_dir=0,
output_dir=''):
if output_dir is None: output_dir = ''
obj_names = []
for src_name in source_filenames:
# use normcase to make sure '.rc' is really '.rc' and not '.RC'
(base, ext) = os.path.splitext (os.path.normcase(src_name))
if ext not in (self.src_extensions + ['.rc','.res']):
raise UnknownFileError, \
"unknown file type '%s' (from '%s')" % \
(ext, src_name)
if strip_dir:
base = os.path.basename (base)
if ext == '.res':
# these can go unchanged
obj_names.append (os.path.join (output_dir, base + ext))
elif ext == '.rc':
# these need to be compiled to .res-files
obj_names.append (os.path.join (output_dir, base + '.res'))
else:
obj_names.append (os.path.join (output_dir,
base + self.obj_extension))
return obj_names
# object_filenames ()
def preprocess (self,
source,
output_file=None,
macros=None,
include_dirs=None,
extra_preargs=None,
extra_postargs=None):
(_, macros, include_dirs) = \
self._fix_compile_args(None, macros, include_dirs)
pp_opts = gen_preprocess_options(macros, include_dirs)
pp_args = ['cpp32.exe'] + pp_opts
if output_file is not None:
pp_args.append('-o' + output_file)
if extra_preargs:
pp_args[:0] = extra_preargs
if extra_postargs:
pp_args.extend(extra_postargs)
pp_args.append(source)
# We need to preprocess: either we're being forced to, or the
# source file is newer than the target (or the target doesn't
# exist).
if self.force or output_file is None or newer(source, output_file):
if output_file:
self.mkpath(os.path.dirname(output_file))
try:
self.spawn(pp_args)
except DistutilsExecError, msg:
print msg
raise CompileError, msg
# preprocess()

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office-plugin/windows-office/program/python-core-2.7.6/lib/distutils/ccompiler.py Normal file
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office-plugin/windows-office/program/python-core-2.7.6/lib/distutils/cmd.py Normal file
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"""distutils.cmd
Provides the Command class, the base class for the command classes
in the distutils.command package.
"""
__revision__ = "$Id$"
import sys, os, re
from distutils.errors import DistutilsOptionError
from distutils import util, dir_util, file_util, archive_util, dep_util
from distutils import log
class Command:
"""Abstract base class for defining command classes, the "worker bees"
of the Distutils. A useful analogy for command classes is to think of
them as subroutines with local variables called "options". The options
are "declared" in 'initialize_options()' and "defined" (given their
final values, aka "finalized") in 'finalize_options()', both of which
must be defined by every command class. The distinction between the
two is necessary because option values might come from the outside
world (command line, config file, ...), and any options dependent on
other options must be computed *after* these outside influences have
been processed -- hence 'finalize_options()'. The "body" of the
subroutine, where it does all its work based on the values of its
options, is the 'run()' method, which must also be implemented by every
command class.
"""
# 'sub_commands' formalizes the notion of a "family" of commands,
# eg. "install" as the parent with sub-commands "install_lib",
# "install_headers", etc. The parent of a family of commands
# defines 'sub_commands' as a class attribute; it's a list of
# (command_name : string, predicate : unbound_method | string | None)
# tuples, where 'predicate' is a method of the parent command that
# determines whether the corresponding command is applicable in the
# current situation. (Eg. we "install_headers" is only applicable if
# we have any C header files to install.) If 'predicate' is None,
# that command is always applicable.
#
# 'sub_commands' is usually defined at the *end* of a class, because
# predicates can be unbound methods, so they must already have been
# defined. The canonical example is the "install" command.
sub_commands = []
# -- Creation/initialization methods -------------------------------
def __init__(self, dist):
"""Create and initialize a new Command object. Most importantly,
invokes the 'initialize_options()' method, which is the real
initializer and depends on the actual command being
instantiated.
"""
# late import because of mutual dependence between these classes
from distutils.dist import Distribution
if not isinstance(dist, Distribution):
raise TypeError, "dist must be a Distribution instance"
if self.__class__ is Command:
raise RuntimeError, "Command is an abstract class"
self.distribution = dist
self.initialize_options()
# Per-command versions of the global flags, so that the user can
# customize Distutils' behaviour command-by-command and let some
# commands fall back on the Distribution's behaviour. None means
# "not defined, check self.distribution's copy", while 0 or 1 mean
# false and true (duh). Note that this means figuring out the real
# value of each flag is a touch complicated -- hence "self._dry_run"
# will be handled by __getattr__, below.
# XXX This needs to be fixed.
self._dry_run = None
# verbose is largely ignored, but needs to be set for
# backwards compatibility (I think)?
self.verbose = dist.verbose
# Some commands define a 'self.force' option to ignore file
# timestamps, but methods defined *here* assume that
# 'self.force' exists for all commands. So define it here
# just to be safe.
self.force = None
# The 'help' flag is just used for command-line parsing, so
# none of that complicated bureaucracy is needed.
self.help = 0
# 'finalized' records whether or not 'finalize_options()' has been
# called. 'finalize_options()' itself should not pay attention to
# this flag: it is the business of 'ensure_finalized()', which
# always calls 'finalize_options()', to respect/update it.
self.finalized = 0
# XXX A more explicit way to customize dry_run would be better.
def __getattr__(self, attr):
if attr == 'dry_run':
myval = getattr(self, "_" + attr)
if myval is None:
return getattr(self.distribution, attr)
else:
return myval
else:
raise AttributeError, attr
def ensure_finalized(self):
if not self.finalized:
self.finalize_options()
self.finalized = 1
# Subclasses must define:
# initialize_options()
# provide default values for all options; may be customized by
# setup script, by options from config file(s), or by command-line
# options
# finalize_options()
# decide on the final values for all options; this is called
# after all possible intervention from the outside world
# (command-line, option file, etc.) has been processed
# run()
# run the command: do whatever it is we're here to do,
# controlled by the command's various option values
def initialize_options(self):
"""Set default values for all the options that this command
supports. Note that these defaults may be overridden by other
commands, by the setup script, by config files, or by the
command-line. Thus, this is not the place to code dependencies
between options; generally, 'initialize_options()' implementations
are just a bunch of "self.foo = None" assignments.
This method must be implemented by all command classes.
"""
raise RuntimeError, \
"abstract method -- subclass %s must override" % self.__class__
def finalize_options(self):
"""Set final values for all the options that this command supports.
This is always called as late as possible, ie. after any option
assignments from the command-line or from other commands have been
done. Thus, this is the place to code option dependencies: if
'foo' depends on 'bar', then it is safe to set 'foo' from 'bar' as
long as 'foo' still has the same value it was assigned in
'initialize_options()'.
This method must be implemented by all command classes.
"""
raise RuntimeError, \
"abstract method -- subclass %s must override" % self.__class__
def dump_options(self, header=None, indent=""):
from distutils.fancy_getopt import longopt_xlate
if header is None:
header = "command options for '%s':" % self.get_command_name()
self.announce(indent + header, level=log.INFO)
indent = indent + " "
for (option, _, _) in self.user_options:
option = option.translate(longopt_xlate)
if option[-1] == "=":
option = option[:-1]
value = getattr(self, option)
self.announce(indent + "%s = %s" % (option, value),
level=log.INFO)
def run(self):
"""A command's raison d'etre: carry out the action it exists to
perform, controlled by the options initialized in
'initialize_options()', customized by other commands, the setup
script, the command-line, and config files, and finalized in
'finalize_options()'. All terminal output and filesystem
interaction should be done by 'run()'.
This method must be implemented by all command classes.
"""
raise RuntimeError, \
"abstract method -- subclass %s must override" % self.__class__
def announce(self, msg, level=1):
"""If the current verbosity level is of greater than or equal to
'level' print 'msg' to stdout.
"""
log.log(level, msg)
def debug_print(self, msg):
"""Print 'msg' to stdout if the global DEBUG (taken from the
DISTUTILS_DEBUG environment variable) flag is true.
"""
from distutils.debug import DEBUG
if DEBUG:
print msg
sys.stdout.flush()
# -- Option validation methods -------------------------------------
# (these are very handy in writing the 'finalize_options()' method)
#
# NB. the general philosophy here is to ensure that a particular option
# value meets certain type and value constraints. If not, we try to
# force it into conformance (eg. if we expect a list but have a string,
# split the string on comma and/or whitespace). If we can't force the
# option into conformance, raise DistutilsOptionError. Thus, command
# classes need do nothing more than (eg.)
# self.ensure_string_list('foo')
# and they can be guaranteed that thereafter, self.foo will be
# a list of strings.
def _ensure_stringlike(self, option, what, default=None):
val = getattr(self, option)
if val is None:
setattr(self, option, default)
return default
elif not isinstance(val, str):
raise DistutilsOptionError, \
"'%s' must be a %s (got `%s`)" % (option, what, val)
return val
def ensure_string(self, option, default=None):
"""Ensure that 'option' is a string; if not defined, set it to
'default'.
"""
self._ensure_stringlike(option, "string", default)
def ensure_string_list(self, option):
"""Ensure that 'option' is a list of strings. If 'option' is
currently a string, we split it either on /,\s*/ or /\s+/, so
"foo bar baz", "foo,bar,baz", and "foo, bar baz" all become
["foo", "bar", "baz"].
"""
val = getattr(self, option)
if val is None:
return
elif isinstance(val, str):
setattr(self, option, re.split(r',\s*|\s+', val))
else:
if isinstance(val, list):
# checks if all elements are str
ok = 1
for element in val:
if not isinstance(element, str):
ok = 0
break
else:
ok = 0
if not ok:
raise DistutilsOptionError, \
"'%s' must be a list of strings (got %r)" % \
(option, val)
def _ensure_tested_string(self, option, tester,
what, error_fmt, default=None):
val = self._ensure_stringlike(option, what, default)
if val is not None and not tester(val):
raise DistutilsOptionError, \
("error in '%s' option: " + error_fmt) % (option, val)
def ensure_filename(self, option):
"""Ensure that 'option' is the name of an existing file."""
self._ensure_tested_string(option, os.path.isfile,
"filename",
"'%s' does not exist or is not a file")
def ensure_dirname(self, option):
self._ensure_tested_string(option, os.path.isdir,
"directory name",
"'%s' does not exist or is not a directory")
# -- Convenience methods for commands ------------------------------
def get_command_name(self):
if hasattr(self, 'command_name'):
return self.command_name
else:
return self.__class__.__name__
def set_undefined_options(self, src_cmd, *option_pairs):
"""Set the values of any "undefined" options from corresponding
option values in some other command object. "Undefined" here means
"is None", which is the convention used to indicate that an option
has not been changed between 'initialize_options()' and
'finalize_options()'. Usually called from 'finalize_options()' for
options that depend on some other command rather than another
option of the same command. 'src_cmd' is the other command from
which option values will be taken (a command object will be created
for it if necessary); the remaining arguments are
'(src_option,dst_option)' tuples which mean "take the value of
'src_option' in the 'src_cmd' command object, and copy it to
'dst_option' in the current command object".
"""
# Option_pairs: list of (src_option, dst_option) tuples
src_cmd_obj = self.distribution.get_command_obj(src_cmd)
src_cmd_obj.ensure_finalized()
for (src_option, dst_option) in option_pairs:
if getattr(self, dst_option) is None:
setattr(self, dst_option,
getattr(src_cmd_obj, src_option))
def get_finalized_command(self, command, create=1):
"""Wrapper around Distribution's 'get_command_obj()' method: find
(create if necessary and 'create' is true) the command object for
'command', call its 'ensure_finalized()' method, and return the
finalized command object.
"""
cmd_obj = self.distribution.get_command_obj(command, create)
cmd_obj.ensure_finalized()
return cmd_obj
# XXX rename to 'get_reinitialized_command()'? (should do the
# same in dist.py, if so)
def reinitialize_command(self, command, reinit_subcommands=0):
return self.distribution.reinitialize_command(
command, reinit_subcommands)
def run_command(self, command):
"""Run some other command: uses the 'run_command()' method of
Distribution, which creates and finalizes the command object if
necessary and then invokes its 'run()' method.
"""
self.distribution.run_command(command)
def get_sub_commands(self):
"""Determine the sub-commands that are relevant in the current
distribution (ie., that need to be run). This is based on the
'sub_commands' class attribute: each tuple in that list may include
a method that we call to determine if the subcommand needs to be
run for the current distribution. Return a list of command names.
"""
commands = []
for (cmd_name, method) in self.sub_commands:
if method is None or method(self):
commands.append(cmd_name)
return commands
# -- External world manipulation -----------------------------------
def warn(self, msg):
log.warn("warning: %s: %s\n" %
(self.get_command_name(), msg))
def execute(self, func, args, msg=None, level=1):
util.execute(func, args, msg, dry_run=self.dry_run)
def mkpath(self, name, mode=0777):
dir_util.mkpath(name, mode, dry_run=self.dry_run)
def copy_file(self, infile, outfile,
preserve_mode=1, preserve_times=1, link=None, level=1):
"""Copy a file respecting verbose, dry-run and force flags. (The
former two default to whatever is in the Distribution object, and
the latter defaults to false for commands that don't define it.)"""
return file_util.copy_file(
infile, outfile,
preserve_mode, preserve_times,
not self.force,
link,
dry_run=self.dry_run)
def copy_tree(self, infile, outfile,
preserve_mode=1, preserve_times=1, preserve_symlinks=0,
level=1):
"""Copy an entire directory tree respecting verbose, dry-run,
and force flags.
"""
return dir_util.copy_tree(
infile, outfile,
preserve_mode,preserve_times,preserve_symlinks,
not self.force,
dry_run=self.dry_run)
def move_file (self, src, dst, level=1):
"""Move a file respecting dry-run flag."""
return file_util.move_file(src, dst, dry_run = self.dry_run)
def spawn (self, cmd, search_path=1, level=1):
"""Spawn an external command respecting dry-run flag."""
from distutils.spawn import spawn
spawn(cmd, search_path, dry_run= self.dry_run)
def make_archive(self, base_name, format, root_dir=None, base_dir=None,
owner=None, group=None):
return archive_util.make_archive(base_name, format, root_dir,
base_dir, dry_run=self.dry_run,
owner=owner, group=group)
def make_file(self, infiles, outfile, func, args,
exec_msg=None, skip_msg=None, level=1):
"""Special case of 'execute()' for operations that process one or
more input files and generate one output file. Works just like
'execute()', except the operation is skipped and a different
message printed if 'outfile' already exists and is newer than all
files listed in 'infiles'. If the command defined 'self.force',
and it is true, then the command is unconditionally run -- does no
timestamp checks.
"""
if skip_msg is None:
skip_msg = "skipping %s (inputs unchanged)" % outfile
# Allow 'infiles' to be a single string
if isinstance(infiles, str):
infiles = (infiles,)
elif not isinstance(infiles, (list, tuple)):
raise TypeError, \
"'infiles' must be a string, or a list or tuple of strings"
if exec_msg is None:
exec_msg = "generating %s from %s" % \
(outfile, ', '.join(infiles))
# If 'outfile' must be regenerated (either because it doesn't
# exist, is out-of-date, or the 'force' flag is true) then
# perform the action that presumably regenerates it
if self.force or dep_util.newer_group(infiles, outfile):
self.execute(func, args, exec_msg, level)
# Otherwise, print the "skip" message
else:
log.debug(skip_msg)
# XXX 'install_misc' class not currently used -- it was the base class for
# both 'install_scripts' and 'install_data', but they outgrew it. It might
# still be useful for 'install_headers', though, so I'm keeping it around
# for the time being.
class install_misc(Command):
"""Common base class for installing some files in a subdirectory.
Currently used by install_data and install_scripts.
"""
user_options = [('install-dir=', 'd', "directory to install the files to")]
def initialize_options (self):
self.install_dir = None
self.outfiles = []
def _install_dir_from(self, dirname):
self.set_undefined_options('install', (dirname, 'install_dir'))
def _copy_files(self, filelist):
self.outfiles = []
if not filelist:
return
self.mkpath(self.install_dir)
for f in filelist:
self.copy_file(f, self.install_dir)
self.outfiles.append(os.path.join(self.install_dir, f))
def get_outputs(self):
return self.outfiles

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"""distutils.command
Package containing implementation of all the standard Distutils
commands."""
__revision__ = "$Id$"
__all__ = ['build',
'build_py',
'build_ext',
'build_clib',
'build_scripts',
'clean',
'install',
'install_lib',
'install_headers',
'install_scripts',
'install_data',
'sdist',
'register',
'bdist',
'bdist_dumb',
'bdist_rpm',
'bdist_wininst',
'upload',
'check',
# These two are reserved for future use:
#'bdist_sdux',
#'bdist_pkgtool',
# Note:
# bdist_packager is not included because it only provides
# an abstract base class
]

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"""distutils.command.bdist
Implements the Distutils 'bdist' command (create a built [binary]
distribution)."""
__revision__ = "$Id$"
import os
from distutils.util import get_platform
from distutils.core import Command
from distutils.errors import DistutilsPlatformError, DistutilsOptionError
def show_formats():
"""Print list of available formats (arguments to "--format" option).
"""
from distutils.fancy_getopt import FancyGetopt
formats = []
for format in bdist.format_commands:
formats.append(("formats=" + format, None,
bdist.format_command[format][1]))
pretty_printer = FancyGetopt(formats)
pretty_printer.print_help("List of available distribution formats:")
class bdist(Command):
description = "create a built (binary) distribution"
user_options = [('bdist-base=', 'b',
"temporary directory for creating built distributions"),
('plat-name=', 'p',
"platform name to embed in generated filenames "
"(default: %s)" % get_platform()),
('formats=', None,
"formats for distribution (comma-separated list)"),
('dist-dir=', 'd',
"directory to put final built distributions in "
"[default: dist]"),
('skip-build', None,
"skip rebuilding everything (for testing/debugging)"),
('owner=', 'u',
"Owner name used when creating a tar file"
" [default: current user]"),
('group=', 'g',
"Group name used when creating a tar file"
" [default: current group]"),
]
boolean_options = ['skip-build']
help_options = [
('help-formats', None,
"lists available distribution formats", show_formats),
]
# The following commands do not take a format option from bdist
no_format_option = ('bdist_rpm',)
# This won't do in reality: will need to distinguish RPM-ish Linux,
# Debian-ish Linux, Solaris, FreeBSD, ..., Windows, Mac OS.
default_format = {'posix': 'gztar',
'nt': 'zip',
'os2': 'zip'}
# Establish the preferred order (for the --help-formats option).
format_commands = ['rpm', 'gztar', 'bztar', 'ztar', 'tar',
'wininst', 'zip', 'msi']
# And the real information.
format_command = {'rpm': ('bdist_rpm', "RPM distribution"),
'gztar': ('bdist_dumb', "gzip'ed tar file"),
'bztar': ('bdist_dumb', "bzip2'ed tar file"),
'ztar': ('bdist_dumb', "compressed tar file"),
'tar': ('bdist_dumb', "tar file"),
'wininst': ('bdist_wininst',
"Windows executable installer"),
'zip': ('bdist_dumb', "ZIP file"),
'msi': ('bdist_msi', "Microsoft Installer")
}
def initialize_options(self):
self.bdist_base = None
self.plat_name = None
self.formats = None
self.dist_dir = None
self.skip_build = 0
self.group = None
self.owner = None
def finalize_options(self):
# have to finalize 'plat_name' before 'bdist_base'
if self.plat_name is None:
if self.skip_build:
self.plat_name = get_platform()
else:
self.plat_name = self.get_finalized_command('build').plat_name
# 'bdist_base' -- parent of per-built-distribution-format
# temporary directories (eg. we'll probably have
# "build/bdist.<plat>/dumb", "build/bdist.<plat>/rpm", etc.)
if self.bdist_base is None:
build_base = self.get_finalized_command('build').build_base
self.bdist_base = os.path.join(build_base,
'bdist.' + self.plat_name)
self.ensure_string_list('formats')
if self.formats is None:
try:
self.formats = [self.default_format[os.name]]
except KeyError:
raise DistutilsPlatformError, \
"don't know how to create built distributions " + \
"on platform %s" % os.name
if self.dist_dir is None:
self.dist_dir = "dist"
def run(self):
# Figure out which sub-commands we need to run.
commands = []
for format in self.formats:
try:
commands.append(self.format_command[format][0])
except KeyError:
raise DistutilsOptionError, "invalid format '%s'" % format
# Reinitialize and run each command.
for i in range(len(self.formats)):
cmd_name = commands[i]
sub_cmd = self.reinitialize_command(cmd_name)
if cmd_name not in self.no_format_option:
sub_cmd.format = self.formats[i]
# passing the owner and group names for tar archiving
if cmd_name == 'bdist_dumb':
sub_cmd.owner = self.owner
sub_cmd.group = self.group
# If we're going to need to run this command again, tell it to
# keep its temporary files around so subsequent runs go faster.
if cmd_name in commands[i+1:]:
sub_cmd.keep_temp = 1
self.run_command(cmd_name)

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"""distutils.command.bdist_dumb
Implements the Distutils 'bdist_dumb' command (create a "dumb" built
distribution -- i.e., just an archive to be unpacked under $prefix or
$exec_prefix)."""
__revision__ = "$Id$"
import os
from sysconfig import get_python_version
from distutils.util import get_platform
from distutils.core import Command
from distutils.dir_util import remove_tree, ensure_relative
from distutils.errors import DistutilsPlatformError
from distutils import log
class bdist_dumb (Command):
description = 'create a "dumb" built distribution'
user_options = [('bdist-dir=', 'd',
"temporary directory for creating the distribution"),
('plat-name=', 'p',
"platform name to embed in generated filenames "
"(default: %s)" % get_platform()),
('format=', 'f',
"archive format to create (tar, ztar, gztar, zip)"),
('keep-temp', 'k',
"keep the pseudo-installation tree around after " +
"creating the distribution archive"),
('dist-dir=', 'd',
"directory to put final built distributions in"),
('skip-build', None,
"skip rebuilding everything (for testing/debugging)"),
('relative', None,
"build the archive using relative paths"
"(default: false)"),
('owner=', 'u',
"Owner name used when creating a tar file"
" [default: current user]"),
('group=', 'g',
"Group name used when creating a tar file"
" [default: current group]"),
]
boolean_options = ['keep-temp', 'skip-build', 'relative']
default_format = { 'posix': 'gztar',
'nt': 'zip',
'os2': 'zip' }
def initialize_options (self):
self.bdist_dir = None
self.plat_name = None
self.format = None
self.keep_temp = 0
self.dist_dir = None
self.skip_build = None
self.relative = 0
self.owner = None
self.group = None
def finalize_options(self):
if self.bdist_dir is None:
bdist_base = self.get_finalized_command('bdist').bdist_base
self.bdist_dir = os.path.join(bdist_base, 'dumb')
if self.format is None:
try:
self.format = self.default_format[os.name]
except KeyError:
raise DistutilsPlatformError, \
("don't know how to create dumb built distributions " +
"on platform %s") % os.name
self.set_undefined_options('bdist',
('dist_dir', 'dist_dir'),
('plat_name', 'plat_name'),
('skip_build', 'skip_build'))
def run(self):
if not self.skip_build:
self.run_command('build')
install = self.reinitialize_command('install', reinit_subcommands=1)
install.root = self.bdist_dir
install.skip_build = self.skip_build
install.warn_dir = 0
log.info("installing to %s" % self.bdist_dir)
self.run_command('install')
# And make an archive relative to the root of the
# pseudo-installation tree.
archive_basename = "%s.%s" % (self.distribution.get_fullname(),
self.plat_name)
# OS/2 objects to any ":" characters in a filename (such as when
# a timestamp is used in a version) so change them to hyphens.
if os.name == "os2":
archive_basename = archive_basename.replace(":", "-")
pseudoinstall_root = os.path.join(self.dist_dir, archive_basename)
if not self.relative:
archive_root = self.bdist_dir
else:
if (self.distribution.has_ext_modules() and
(install.install_base != install.install_platbase)):
raise DistutilsPlatformError, \
("can't make a dumb built distribution where "
"base and platbase are different (%s, %s)"
% (repr(install.install_base),
repr(install.install_platbase)))
else:
archive_root = os.path.join(self.bdist_dir,
ensure_relative(install.install_base))
# Make the archive
filename = self.make_archive(pseudoinstall_root,
self.format, root_dir=archive_root,
owner=self.owner, group=self.group)
if self.distribution.has_ext_modules():
pyversion = get_python_version()
else:
pyversion = 'any'
self.distribution.dist_files.append(('bdist_dumb', pyversion,
filename))
if not self.keep_temp:
remove_tree(self.bdist_dir, dry_run=self.dry_run)

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"""distutils.command.bdist_wininst
Implements the Distutils 'bdist_wininst' command: create a windows installer
exe-program."""
__revision__ = "$Id$"
import sys
import os
import string
from sysconfig import get_python_version
from distutils.core import Command
from distutils.dir_util import remove_tree
from distutils.errors import DistutilsOptionError, DistutilsPlatformError
from distutils import log
from distutils.util import get_platform
class bdist_wininst (Command):
description = "create an executable installer for MS Windows"
user_options = [('bdist-dir=', None,
"temporary directory for creating the distribution"),
('plat-name=', 'p',
"platform name to embed in generated filenames "
"(default: %s)" % get_platform()),
('keep-temp', 'k',
"keep the pseudo-installation tree around after " +
"creating the distribution archive"),
('target-version=', None,
"require a specific python version" +
" on the target system"),
('no-target-compile', 'c',
"do not compile .py to .pyc on the target system"),
('no-target-optimize', 'o',
"do not compile .py to .pyo (optimized)"
"on the target system"),
('dist-dir=', 'd',
"directory to put final built distributions in"),
('bitmap=', 'b',
"bitmap to use for the installer instead of python-powered logo"),
('title=', 't',
"title to display on the installer background instead of default"),
('skip-build', None,
"skip rebuilding everything (for testing/debugging)"),
('install-script=', None,
"basename of installation script to be run after"
"installation or before deinstallation"),
('pre-install-script=', None,
"Fully qualified filename of a script to be run before "
"any files are installed. This script need not be in the "
"distribution"),
('user-access-control=', None,
"specify Vista's UAC handling - 'none'/default=no "
"handling, 'auto'=use UAC if target Python installed for "
"all users, 'force'=always use UAC"),
]
boolean_options = ['keep-temp', 'no-target-compile', 'no-target-optimize',
'skip-build']
def initialize_options (self):
self.bdist_dir = None
self.plat_name = None
self.keep_temp = 0
self.no_target_compile = 0
self.no_target_optimize = 0
self.target_version = None
self.dist_dir = None
self.bitmap = None
self.title = None
self.skip_build = None
self.install_script = None
self.pre_install_script = None
self.user_access_control = None
# initialize_options()
def finalize_options (self):
self.set_undefined_options('bdist', ('skip_build', 'skip_build'))
if self.bdist_dir is None:
if self.skip_build and self.plat_name:
# If build is skipped and plat_name is overridden, bdist will
# not see the correct 'plat_name' - so set that up manually.
bdist = self.distribution.get_command_obj('bdist')
bdist.plat_name = self.plat_name
# next the command will be initialized using that name
bdist_base = self.get_finalized_command('bdist').bdist_base
self.bdist_dir = os.path.join(bdist_base, 'wininst')
if not self.target_version:
self.target_version = ""
if not self.skip_build and self.distribution.has_ext_modules():
short_version = get_python_version()
if self.target_version and self.target_version != short_version:
raise DistutilsOptionError, \
"target version can only be %s, or the '--skip-build'" \
" option must be specified" % (short_version,)
self.target_version = short_version
self.set_undefined_options('bdist',
('dist_dir', 'dist_dir'),
('plat_name', 'plat_name'),
)
if self.install_script:
for script in self.distribution.scripts:
if self.install_script == os.path.basename(script):
break
else:
raise DistutilsOptionError, \
"install_script '%s' not found in scripts" % \
self.install_script
# finalize_options()
def run (self):
if (sys.platform != "win32" and
(self.distribution.has_ext_modules() or
self.distribution.has_c_libraries())):
raise DistutilsPlatformError \
("distribution contains extensions and/or C libraries; "
"must be compiled on a Windows 32 platform")
if not self.skip_build:
self.run_command('build')
install = self.reinitialize_command('install', reinit_subcommands=1)
install.root = self.bdist_dir
install.skip_build = self.skip_build
install.warn_dir = 0
install.plat_name = self.plat_name
install_lib = self.reinitialize_command('install_lib')
# we do not want to include pyc or pyo files
install_lib.compile = 0
install_lib.optimize = 0
if self.distribution.has_ext_modules():
# If we are building an installer for a Python version other
# than the one we are currently running, then we need to ensure
# our build_lib reflects the other Python version rather than ours.
# Note that for target_version!=sys.version, we must have skipped the
# build step, so there is no issue with enforcing the build of this
# version.
target_version = self.target_version
if not target_version:
assert self.skip_build, "Should have already checked this"
target_version = sys.version[0:3]
plat_specifier = ".%s-%s" % (self.plat_name, target_version)
build = self.get_finalized_command('build')
build.build_lib = os.path.join(build.build_base,
'lib' + plat_specifier)
# Use a custom scheme for the zip-file, because we have to decide
# at installation time which scheme to use.
for key in ('purelib', 'platlib', 'headers', 'scripts', 'data'):
value = string.upper(key)
if key == 'headers':
value = value + '/Include/$dist_name'
setattr(install,
'install_' + key,
value)
log.info("installing to %s", self.bdist_dir)
install.ensure_finalized()
# avoid warning of 'install_lib' about installing
# into a directory not in sys.path
sys.path.insert(0, os.path.join(self.bdist_dir, 'PURELIB'))
install.run()
del sys.path[0]
# And make an archive relative to the root of the
# pseudo-installation tree.
from tempfile import mktemp
archive_basename = mktemp()
fullname = self.distribution.get_fullname()
arcname = self.make_archive(archive_basename, "zip",
root_dir=self.bdist_dir)
# create an exe containing the zip-file
self.create_exe(arcname, fullname, self.bitmap)
if self.distribution.has_ext_modules():
pyversion = get_python_version()
else:
pyversion = 'any'
self.distribution.dist_files.append(('bdist_wininst', pyversion,
self.get_installer_filename(fullname)))
# remove the zip-file again
log.debug("removing temporary file '%s'", arcname)
os.remove(arcname)
if not self.keep_temp:
remove_tree(self.bdist_dir, dry_run=self.dry_run)
# run()
def get_inidata (self):
# Return data describing the installation.
lines = []
metadata = self.distribution.metadata
# Write the [metadata] section.
lines.append("[metadata]")
# 'info' will be displayed in the installer's dialog box,
# describing the items to be installed.
info = (metadata.long_description or '') + '\n'
# Escape newline characters
def escape(s):
return string.replace(s, "\n", "\\n")
for name in ["author", "author_email", "description", "maintainer",
"maintainer_email", "name", "url", "version"]:
data = getattr(metadata, name, "")
if data:
info = info + ("\n %s: %s" % \
(string.capitalize(name), escape(data)))
lines.append("%s=%s" % (name, escape(data)))
# The [setup] section contains entries controlling
# the installer runtime.
lines.append("\n[Setup]")
if self.install_script:
lines.append("install_script=%s" % self.install_script)
lines.append("info=%s" % escape(info))
lines.append("target_compile=%d" % (not self.no_target_compile))
lines.append("target_optimize=%d" % (not self.no_target_optimize))
if self.target_version:
lines.append("target_version=%s" % self.target_version)
if self.user_access_control:
lines.append("user_access_control=%s" % self.user_access_control)
title = self.title or self.distribution.get_fullname()
lines.append("title=%s" % escape(title))
import time
import distutils
build_info = "Built %s with distutils-%s" % \
(time.ctime(time.time()), distutils.__version__)
lines.append("build_info=%s" % build_info)
return string.join(lines, "\n")
# get_inidata()
def create_exe (self, arcname, fullname, bitmap=None):
import struct
self.mkpath(self.dist_dir)
cfgdata = self.get_inidata()
installer_name = self.get_installer_filename(fullname)
self.announce("creating %s" % installer_name)
if bitmap:
bitmapdata = open(bitmap, "rb").read()
bitmaplen = len(bitmapdata)
else:
bitmaplen = 0
file = open(installer_name, "wb")
file.write(self.get_exe_bytes())
if bitmap:
file.write(bitmapdata)
# Convert cfgdata from unicode to ascii, mbcs encoded
try:
unicode
except NameError:
pass
else:
if isinstance(cfgdata, unicode):
cfgdata = cfgdata.encode("mbcs")
# Append the pre-install script
cfgdata = cfgdata + "\0"
if self.pre_install_script:
script_data = open(self.pre_install_script, "r").read()
cfgdata = cfgdata + script_data + "\n\0"
else:
# empty pre-install script
cfgdata = cfgdata + "\0"
file.write(cfgdata)
# The 'magic number' 0x1234567B is used to make sure that the
# binary layout of 'cfgdata' is what the wininst.exe binary
# expects. If the layout changes, increment that number, make
# the corresponding changes to the wininst.exe sources, and
# recompile them.
header = struct.pack("<iii",
0x1234567B, # tag
len(cfgdata), # length
bitmaplen, # number of bytes in bitmap
)
file.write(header)
file.write(open(arcname, "rb").read())
# create_exe()
def get_installer_filename(self, fullname):
# Factored out to allow overriding in subclasses
if self.target_version:
# if we create an installer for a specific python version,
# it's better to include this in the name
installer_name = os.path.join(self.dist_dir,
"%s.%s-py%s.exe" %
(fullname, self.plat_name, self.target_version))
else:
installer_name = os.path.join(self.dist_dir,
"%s.%s.exe" % (fullname, self.plat_name))
return installer_name
# get_installer_filename()
def get_exe_bytes (self):
from distutils.msvccompiler import get_build_version
# If a target-version other than the current version has been
# specified, then using the MSVC version from *this* build is no good.
# Without actually finding and executing the target version and parsing
# its sys.version, we just hard-code our knowledge of old versions.
# NOTE: Possible alternative is to allow "--target-version" to
# specify a Python executable rather than a simple version string.
# We can then execute this program to obtain any info we need, such
# as the real sys.version string for the build.
cur_version = get_python_version()
if self.target_version and self.target_version != cur_version:
# If the target version is *later* than us, then we assume they
# use what we use
# string compares seem wrong, but are what sysconfig.py itself uses
if self.target_version > cur_version:
bv = get_build_version()
else:
if self.target_version < "2.4":
bv = 6.0
else:
bv = 7.1
else:
# for current version - use authoritative check.
bv = get_build_version()
# wininst-x.y.exe is in the same directory as this file
directory = os.path.dirname(__file__)
# we must use a wininst-x.y.exe built with the same C compiler
# used for python. XXX What about mingw, borland, and so on?
# if plat_name starts with "win" but is not "win32"
# we want to strip "win" and leave the rest (e.g. -amd64)
# for all other cases, we don't want any suffix
if self.plat_name != 'win32' and self.plat_name[:3] == 'win':
sfix = self.plat_name[3:]
else:
sfix = ''
filename = os.path.join(directory, "wininst-%.1f%s.exe" % (bv, sfix))
f = open(filename, "rb")
try:
return f.read()
finally:
f.close()
# class bdist_wininst

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"""distutils.command.build
Implements the Distutils 'build' command."""
__revision__ = "$Id$"
import sys, os
from distutils.util import get_platform
from distutils.core import Command
from distutils.errors import DistutilsOptionError
def show_compilers():
from distutils.ccompiler import show_compilers
show_compilers()
class build(Command):
description = "build everything needed to install"
user_options = [
('build-base=', 'b',
"base directory for build library"),
('build-purelib=', None,
"build directory for platform-neutral distributions"),
('build-platlib=', None,
"build directory for platform-specific distributions"),
('build-lib=', None,
"build directory for all distribution (defaults to either " +
"build-purelib or build-platlib"),
('build-scripts=', None,
"build directory for scripts"),
('build-temp=', 't',
"temporary build directory"),
('plat-name=', 'p',
"platform name to build for, if supported "
"(default: %s)" % get_platform()),
('compiler=', 'c',
"specify the compiler type"),
('debug', 'g',
"compile extensions and libraries with debugging information"),
('force', 'f',
"forcibly build everything (ignore file timestamps)"),
('executable=', 'e',
"specify final destination interpreter path (build.py)"),
]
boolean_options = ['debug', 'force']
help_options = [
('help-compiler', None,
"list available compilers", show_compilers),
]
def initialize_options(self):
self.build_base = 'build'
# these are decided only after 'build_base' has its final value
# (unless overridden by the user or client)
self.build_purelib = None
self.build_platlib = None
self.build_lib = None
self.build_temp = None
self.build_scripts = None
self.compiler = None
self.plat_name = None
self.debug = None
self.force = 0
self.executable = None
def finalize_options(self):
if self.plat_name is None:
self.plat_name = get_platform()
else:
# plat-name only supported for windows (other platforms are
# supported via ./configure flags, if at all). Avoid misleading
# other platforms.
if os.name != 'nt':
raise DistutilsOptionError(
"--plat-name only supported on Windows (try "
"using './configure --help' on your platform)")
plat_specifier = ".%s-%s" % (self.plat_name, sys.version[0:3])
# Make it so Python 2.x and Python 2.x with --with-pydebug don't
# share the same build directories. Doing so confuses the build
# process for C modules
if hasattr(sys, 'gettotalrefcount'):
plat_specifier += '-pydebug'
# 'build_purelib' and 'build_platlib' just default to 'lib' and
# 'lib.<plat>' under the base build directory. We only use one of
# them for a given distribution, though --
if self.build_purelib is None:
self.build_purelib = os.path.join(self.build_base, 'lib')
if self.build_platlib is None:
self.build_platlib = os.path.join(self.build_base,
'lib' + plat_specifier)
# 'build_lib' is the actual directory that we will use for this
# particular module distribution -- if user didn't supply it, pick
# one of 'build_purelib' or 'build_platlib'.
if self.build_lib is None:
if self.distribution.ext_modules:
self.build_lib = self.build_platlib
else:
self.build_lib = self.build_purelib
# 'build_temp' -- temporary directory for compiler turds,
# "build/temp.<plat>"
if self.build_temp is None:
self.build_temp = os.path.join(self.build_base,
'temp' + plat_specifier)
if self.build_scripts is None:
self.build_scripts = os.path.join(self.build_base,
'scripts-' + sys.version[0:3])
if self.executable is None:
self.executable = os.path.normpath(sys.executable)
def run(self):
# Run all relevant sub-commands. This will be some subset of:
# - build_py - pure Python modules
# - build_clib - standalone C libraries
# - build_ext - Python extensions
# - build_scripts - (Python) scripts
for cmd_name in self.get_sub_commands():
self.run_command(cmd_name)
# -- Predicates for the sub-command list ---------------------------
def has_pure_modules (self):
return self.distribution.has_pure_modules()
def has_c_libraries (self):
return self.distribution.has_c_libraries()
def has_ext_modules (self):
return self.distribution.has_ext_modules()
def has_scripts (self):
return self.distribution.has_scripts()
sub_commands = [('build_py', has_pure_modules),
('build_clib', has_c_libraries),
('build_ext', has_ext_modules),
('build_scripts', has_scripts),
]

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"""distutils.command.build_clib
Implements the Distutils 'build_clib' command, to build a C/C++ library
that is included in the module distribution and needed by an extension
module."""
__revision__ = "$Id$"
# XXX this module has *lots* of code ripped-off quite transparently from
# build_ext.py -- not surprisingly really, as the work required to build
# a static library from a collection of C source files is not really all
# that different from what's required to build a shared object file from
# a collection of C source files. Nevertheless, I haven't done the
# necessary refactoring to account for the overlap in code between the
# two modules, mainly because a number of subtle details changed in the
# cut 'n paste. Sigh.
import os
from distutils.core import Command
from distutils.errors import DistutilsSetupError
from distutils.sysconfig import customize_compiler
from distutils import log
def show_compilers():
from distutils.ccompiler import show_compilers
show_compilers()
class build_clib(Command):
description = "build C/C++ libraries used by Python extensions"
user_options = [
('build-clib=', 'b',
"directory to build C/C++ libraries to"),
('build-temp=', 't',
"directory to put temporary build by-products"),
('debug', 'g',
"compile with debugging information"),
('force', 'f',
"forcibly build everything (ignore file timestamps)"),
('compiler=', 'c',
"specify the compiler type"),
]
boolean_options = ['debug', 'force']
help_options = [
('help-compiler', None,
"list available compilers", show_compilers),
]
def initialize_options(self):
self.build_clib = None
self.build_temp = None
# List of libraries to build
self.libraries = None
# Compilation options for all libraries
self.include_dirs = None
self.define = None
self.undef = None
self.debug = None
self.force = 0
self.compiler = None
def finalize_options(self):
# This might be confusing: both build-clib and build-temp default
# to build-temp as defined by the "build" command. This is because
# I think that C libraries are really just temporary build
# by-products, at least from the point of view of building Python
# extensions -- but I want to keep my options open.
self.set_undefined_options('build',
('build_temp', 'build_clib'),
('build_temp', 'build_temp'),
('compiler', 'compiler'),
('debug', 'debug'),
('force', 'force'))
self.libraries = self.distribution.libraries
if self.libraries:
self.check_library_list(self.libraries)
if self.include_dirs is None:
self.include_dirs = self.distribution.include_dirs or []
if isinstance(self.include_dirs, str):
self.include_dirs = self.include_dirs.split(os.pathsep)
# XXX same as for build_ext -- what about 'self.define' and
# 'self.undef' ?
def run(self):
if not self.libraries:
return
# Yech -- this is cut 'n pasted from build_ext.py!
from distutils.ccompiler import new_compiler
self.compiler = new_compiler(compiler=self.compiler,
dry_run=self.dry_run,
force=self.force)
customize_compiler(self.compiler)
if self.include_dirs is not None:
self.compiler.set_include_dirs(self.include_dirs)
if self.define is not None:
# 'define' option is a list of (name,value) tuples
for (name,value) in self.define:
self.compiler.define_macro(name, value)
if self.undef is not None:
for macro in self.undef:
self.compiler.undefine_macro(macro)
self.build_libraries(self.libraries)
def check_library_list(self, libraries):
"""Ensure that the list of libraries is valid.
`library` is presumably provided as a command option 'libraries'.
This method checks that it is a list of 2-tuples, where the tuples
are (library_name, build_info_dict).
Raise DistutilsSetupError if the structure is invalid anywhere;
just returns otherwise.
"""
if not isinstance(libraries, list):
raise DistutilsSetupError, \
"'libraries' option must be a list of tuples"
for lib in libraries:
if not isinstance(lib, tuple) and len(lib) != 2:
raise DistutilsSetupError, \
"each element of 'libraries' must a 2-tuple"
name, build_info = lib
if not isinstance(name, str):
raise DistutilsSetupError, \
"first element of each tuple in 'libraries' " + \
"must be a string (the library name)"
if '/' in name or (os.sep != '/' and os.sep in name):
raise DistutilsSetupError, \
("bad library name '%s': " +
"may not contain directory separators") % \
lib[0]
if not isinstance(build_info, dict):
raise DistutilsSetupError, \
"second element of each tuple in 'libraries' " + \
"must be a dictionary (build info)"
def get_library_names(self):
# Assume the library list is valid -- 'check_library_list()' is
# called from 'finalize_options()', so it should be!
if not self.libraries:
return None
lib_names = []
for (lib_name, build_info) in self.libraries:
lib_names.append(lib_name)
return lib_names
def get_source_files(self):
self.check_library_list(self.libraries)
filenames = []
for (lib_name, build_info) in self.libraries:
sources = build_info.get('sources')
if sources is None or not isinstance(sources, (list, tuple)):
raise DistutilsSetupError, \
("in 'libraries' option (library '%s'), "
"'sources' must be present and must be "
"a list of source filenames") % lib_name
filenames.extend(sources)
return filenames
def build_libraries(self, libraries):
for (lib_name, build_info) in libraries:
sources = build_info.get('sources')
if sources is None or not isinstance(sources, (list, tuple)):
raise DistutilsSetupError, \
("in 'libraries' option (library '%s'), " +
"'sources' must be present and must be " +
"a list of source filenames") % lib_name
sources = list(sources)
log.info("building '%s' library", lib_name)
# First, compile the source code to object files in the library
# directory. (This should probably change to putting object
# files in a temporary build directory.)
macros = build_info.get('macros')
include_dirs = build_info.get('include_dirs')
objects = self.compiler.compile(sources,
output_dir=self.build_temp,
macros=macros,
include_dirs=include_dirs,
debug=self.debug)
# Now "link" the object files together into a static library.
# (On Unix at least, this isn't really linking -- it just
# builds an archive. Whatever.)
self.compiler.create_static_lib(objects, lib_name,
output_dir=self.build_clib,
debug=self.debug)

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"""distutils.command.build_py
Implements the Distutils 'build_py' command."""
__revision__ = "$Id$"
import os
import sys
from glob import glob
from distutils.core import Command
from distutils.errors import DistutilsOptionError, DistutilsFileError
from distutils.util import convert_path
from distutils import log
class build_py(Command):
description = "\"build\" pure Python modules (copy to build directory)"
user_options = [
('build-lib=', 'd', "directory to \"build\" (copy) to"),
('compile', 'c', "compile .py to .pyc"),
('no-compile', None, "don't compile .py files [default]"),
('optimize=', 'O',
"also compile with optimization: -O1 for \"python -O\", "
"-O2 for \"python -OO\", and -O0 to disable [default: -O0]"),
('force', 'f', "forcibly build everything (ignore file timestamps)"),
]
boolean_options = ['compile', 'force']
negative_opt = {'no-compile' : 'compile'}
def initialize_options(self):
self.build_lib = None
self.py_modules = None
self.package = None
self.package_data = None
self.package_dir = None
self.compile = 0
self.optimize = 0
self.force = None
def finalize_options(self):
self.set_undefined_options('build',
('build_lib', 'build_lib'),
('force', 'force'))
# Get the distribution options that are aliases for build_py
# options -- list of packages and list of modules.
self.packages = self.distribution.packages
self.py_modules = self.distribution.py_modules
self.package_data = self.distribution.package_data
self.package_dir = {}
if self.distribution.package_dir:
for name, path in self.distribution.package_dir.items():
self.package_dir[name] = convert_path(path)
self.data_files = self.get_data_files()
# Ick, copied straight from install_lib.py (fancy_getopt needs a
# type system! Hell, *everything* needs a type system!!!)
if not isinstance(self.optimize, int):
try:
self.optimize = int(self.optimize)
assert 0 <= self.optimize <= 2
except (ValueError, AssertionError):
raise DistutilsOptionError("optimize must be 0, 1, or 2")
def run(self):
# XXX copy_file by default preserves atime and mtime. IMHO this is
# the right thing to do, but perhaps it should be an option -- in
# particular, a site administrator might want installed files to
# reflect the time of installation rather than the last
# modification time before the installed release.
# XXX copy_file by default preserves mode, which appears to be the
# wrong thing to do: if a file is read-only in the working
# directory, we want it to be installed read/write so that the next
# installation of the same module distribution can overwrite it
# without problems. (This might be a Unix-specific issue.) Thus
# we turn off 'preserve_mode' when copying to the build directory,
# since the build directory is supposed to be exactly what the
# installation will look like (ie. we preserve mode when
# installing).
# Two options control which modules will be installed: 'packages'
# and 'py_modules'. The former lets us work with whole packages, not
# specifying individual modules at all; the latter is for
# specifying modules one-at-a-time.
if self.py_modules:
self.build_modules()
if self.packages:
self.build_packages()
self.build_package_data()
self.byte_compile(self.get_outputs(include_bytecode=0))
def get_data_files(self):
"""Generate list of '(package,src_dir,build_dir,filenames)' tuples"""
data = []
if not self.packages:
return data
for package in self.packages:
# Locate package source directory
src_dir = self.get_package_dir(package)
# Compute package build directory
build_dir = os.path.join(*([self.build_lib] + package.split('.')))
# Length of path to strip from found files
plen = 0
if src_dir:
plen = len(src_dir)+1
# Strip directory from globbed filenames
filenames = [
file[plen:] for file in self.find_data_files(package, src_dir)
]
data.append((package, src_dir, build_dir, filenames))
return data
def find_data_files(self, package, src_dir):
"""Return filenames for package's data files in 'src_dir'"""
globs = (self.package_data.get('', [])
+ self.package_data.get(package, []))
files = []
for pattern in globs:
# Each pattern has to be converted to a platform-specific path
filelist = glob(os.path.join(src_dir, convert_path(pattern)))
# Files that match more than one pattern are only added once
files.extend([fn for fn in filelist if fn not in files])
return files
def build_package_data(self):
"""Copy data files into build directory"""
for package, src_dir, build_dir, filenames in self.data_files:
for filename in filenames:
target = os.path.join(build_dir, filename)
self.mkpath(os.path.dirname(target))
self.copy_file(os.path.join(src_dir, filename), target,
preserve_mode=False)
def get_package_dir(self, package):
"""Return the directory, relative to the top of the source
distribution, where package 'package' should be found
(at least according to the 'package_dir' option, if any)."""
path = package.split('.')
if not self.package_dir:
if path:
return os.path.join(*path)
else:
return ''
else:
tail = []
while path:
try:
pdir = self.package_dir['.'.join(path)]
except KeyError:
tail.insert(0, path[-1])
del path[-1]
else:
tail.insert(0, pdir)
return os.path.join(*tail)
else:
# Oops, got all the way through 'path' without finding a
# match in package_dir. If package_dir defines a directory
# for the root (nameless) package, then fallback on it;
# otherwise, we might as well have not consulted
# package_dir at all, as we just use the directory implied
# by 'tail' (which should be the same as the original value
# of 'path' at this point).
pdir = self.package_dir.get('')
if pdir is not None:
tail.insert(0, pdir)
if tail:
return os.path.join(*tail)
else:
return ''
def check_package(self, package, package_dir):
# Empty dir name means current directory, which we can probably
# assume exists. Also, os.path.exists and isdir don't know about
# my "empty string means current dir" convention, so we have to
# circumvent them.
if package_dir != "":
if not os.path.exists(package_dir):
raise DistutilsFileError(
"package directory '%s' does not exist" % package_dir)
if not os.path.isdir(package_dir):
raise DistutilsFileError(
"supposed package directory '%s' exists, "
"but is not a directory" % package_dir)
# Require __init__.py for all but the "root package"
if package:
init_py = os.path.join(package_dir, "__init__.py")
if os.path.isfile(init_py):
return init_py
else:
log.warn(("package init file '%s' not found " +
"(or not a regular file)"), init_py)
# Either not in a package at all (__init__.py not expected), or
# __init__.py doesn't exist -- so don't return the filename.
return None
def check_module(self, module, module_file):
if not os.path.isfile(module_file):
log.warn("file %s (for module %s) not found", module_file, module)
return False
else:
return True
def find_package_modules(self, package, package_dir):
self.check_package(package, package_dir)
module_files = glob(os.path.join(package_dir, "*.py"))
modules = []
setup_script = os.path.abspath(self.distribution.script_name)
for f in module_files:
abs_f = os.path.abspath(f)
if abs_f != setup_script:
module = os.path.splitext(os.path.basename(f))[0]
modules.append((package, module, f))
else:
self.debug_print("excluding %s" % setup_script)
return modules
def find_modules(self):
"""Finds individually-specified Python modules, ie. those listed by
module name in 'self.py_modules'. Returns a list of tuples (package,
module_base, filename): 'package' is a tuple of the path through
package-space to the module; 'module_base' is the bare (no
packages, no dots) module name, and 'filename' is the path to the
".py" file (relative to the distribution root) that implements the
module.
"""
# Map package names to tuples of useful info about the package:
# (package_dir, checked)
# package_dir - the directory where we'll find source files for
# this package
# checked - true if we have checked that the package directory
# is valid (exists, contains __init__.py, ... ?)
packages = {}
# List of (package, module, filename) tuples to return
modules = []
# We treat modules-in-packages almost the same as toplevel modules,
# just the "package" for a toplevel is empty (either an empty
# string or empty list, depending on context). Differences:
# - don't check for __init__.py in directory for empty package
for module in self.py_modules:
path = module.split('.')
package = '.'.join(path[0:-1])
module_base = path[-1]
try:
(package_dir, checked) = packages[package]
except KeyError:
package_dir = self.get_package_dir(package)
checked = 0
if not checked:
init_py = self.check_package(package, package_dir)
packages[package] = (package_dir, 1)
if init_py:
modules.append((package, "__init__", init_py))
# XXX perhaps we should also check for just .pyc files
# (so greedy closed-source bastards can distribute Python
# modules too)
module_file = os.path.join(package_dir, module_base + ".py")
if not self.check_module(module, module_file):
continue
modules.append((package, module_base, module_file))
return modules
def find_all_modules(self):
"""Compute the list of all modules that will be built, whether
they are specified one-module-at-a-time ('self.py_modules') or
by whole packages ('self.packages'). Return a list of tuples
(package, module, module_file), just like 'find_modules()' and
'find_package_modules()' do."""
modules = []
if self.py_modules:
modules.extend(self.find_modules())
if self.packages:
for package in self.packages:
package_dir = self.get_package_dir(package)
m = self.find_package_modules(package, package_dir)
modules.extend(m)
return modules
def get_source_files(self):
return [module[-1] for module in self.find_all_modules()]
def get_module_outfile(self, build_dir, package, module):
outfile_path = [build_dir] + list(package) + [module + ".py"]
return os.path.join(*outfile_path)
def get_outputs(self, include_bytecode=1):
modules = self.find_all_modules()
outputs = []
for (package, module, module_file) in modules:
package = package.split('.')
filename = self.get_module_outfile(self.build_lib, package, module)
outputs.append(filename)
if include_bytecode:
if self.compile:
outputs.append(filename + "c")
if self.optimize > 0:
outputs.append(filename + "o")
outputs += [
os.path.join(build_dir, filename)
for package, src_dir, build_dir, filenames in self.data_files
for filename in filenames
]
return outputs
def build_module(self, module, module_file, package):
if isinstance(package, str):
package = package.split('.')
elif not isinstance(package, (list, tuple)):
raise TypeError(
"'package' must be a string (dot-separated), list, or tuple")
# Now put the module source file into the "build" area -- this is
# easy, we just copy it somewhere under self.build_lib (the build
# directory for Python source).
outfile = self.get_module_outfile(self.build_lib, package, module)
dir = os.path.dirname(outfile)
self.mkpath(dir)
return self.copy_file(module_file, outfile, preserve_mode=0)
def build_modules(self):
modules = self.find_modules()
for (package, module, module_file) in modules:
# Now "build" the module -- ie. copy the source file to
# self.build_lib (the build directory for Python source).
# (Actually, it gets copied to the directory for this package
# under self.build_lib.)
self.build_module(module, module_file, package)
def build_packages(self):
for package in self.packages:
# Get list of (package, module, module_file) tuples based on
# scanning the package directory. 'package' is only included
# in the tuple so that 'find_modules()' and
# 'find_package_tuples()' have a consistent interface; it's
# ignored here (apart from a sanity check). Also, 'module' is
# the *unqualified* module name (ie. no dots, no package -- we
# already know its package!), and 'module_file' is the path to
# the .py file, relative to the current directory
# (ie. including 'package_dir').
package_dir = self.get_package_dir(package)
modules = self.find_package_modules(package, package_dir)
# Now loop over the modules we found, "building" each one (just
# copy it to self.build_lib).
for (package_, module, module_file) in modules:
assert package == package_
self.build_module(module, module_file, package)
def byte_compile(self, files):
if sys.dont_write_bytecode:
self.warn('byte-compiling is disabled, skipping.')
return
from distutils.util import byte_compile
prefix = self.build_lib
if prefix[-1] != os.sep:
prefix = prefix + os.sep
# XXX this code is essentially the same as the 'byte_compile()
# method of the "install_lib" command, except for the determination
# of the 'prefix' string. Hmmm.
if self.compile:
byte_compile(files, optimize=0,
force=self.force, prefix=prefix, dry_run=self.dry_run)
if self.optimize > 0:
byte_compile(files, optimize=self.optimize,
force=self.force, prefix=prefix, dry_run=self.dry_run)

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"""distutils.command.build_scripts
Implements the Distutils 'build_scripts' command."""
__revision__ = "$Id$"
import os, re
from stat import ST_MODE
from distutils.core import Command
from distutils.dep_util import newer
from distutils.util import convert_path
from distutils import log
# check if Python is called on the first line with this expression
first_line_re = re.compile('^#!.*python[0-9.]*([ \t].*)?$')
class build_scripts (Command):
description = "\"build\" scripts (copy and fixup #! line)"
user_options = [
('build-dir=', 'd', "directory to \"build\" (copy) to"),
('force', 'f', "forcibly build everything (ignore file timestamps"),
('executable=', 'e', "specify final destination interpreter path"),
]
boolean_options = ['force']
def initialize_options (self):
self.build_dir = None
self.scripts = None
self.force = None
self.executable = None
self.outfiles = None
def finalize_options (self):
self.set_undefined_options('build',
('build_scripts', 'build_dir'),
('force', 'force'),
('executable', 'executable'))
self.scripts = self.distribution.scripts
def get_source_files(self):
return self.scripts
def run (self):
if not self.scripts:
return
self.copy_scripts()
def copy_scripts (self):
"""Copy each script listed in 'self.scripts'; if it's marked as a
Python script in the Unix way (first line matches 'first_line_re',
ie. starts with "\#!" and contains "python"), then adjust the first
line to refer to the current Python interpreter as we copy.
"""
_sysconfig = __import__('sysconfig')
self.mkpath(self.build_dir)
outfiles = []
for script in self.scripts:
adjust = 0
script = convert_path(script)
outfile = os.path.join(self.build_dir, os.path.basename(script))
outfiles.append(outfile)
if not self.force and not newer(script, outfile):
log.debug("not copying %s (up-to-date)", script)
continue
# Always open the file, but ignore failures in dry-run mode --
# that way, we'll get accurate feedback if we can read the
# script.
try:
f = open(script, "r")
except IOError:
if not self.dry_run:
raise
f = None
else:
first_line = f.readline()
if not first_line:
self.warn("%s is an empty file (skipping)" % script)
continue
match = first_line_re.match(first_line)
if match:
adjust = 1
post_interp = match.group(1) or ''
if adjust:
log.info("copying and adjusting %s -> %s", script,
self.build_dir)
if not self.dry_run:
outf = open(outfile, "w")
if not _sysconfig.is_python_build():
outf.write("#!%s%s\n" %
(self.executable,
post_interp))
else:
outf.write("#!%s%s\n" %
(os.path.join(
_sysconfig.get_config_var("BINDIR"),
"python%s%s" % (_sysconfig.get_config_var("VERSION"),
_sysconfig.get_config_var("EXE"))),
post_interp))
outf.writelines(f.readlines())
outf.close()
if f:
f.close()
else:
if f:
f.close()
self.copy_file(script, outfile)
if os.name == 'posix':
for file in outfiles:
if self.dry_run:
log.info("changing mode of %s", file)
else:
oldmode = os.stat(file)[ST_MODE] & 07777
newmode = (oldmode | 0555) & 07777
if newmode != oldmode:
log.info("changing mode of %s from %o to %o",
file, oldmode, newmode)
os.chmod(file, newmode)
# copy_scripts ()
# class build_scripts

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"""distutils.command.check
Implements the Distutils 'check' command.
"""
__revision__ = "$Id$"
from distutils.core import Command
from distutils.dist import PKG_INFO_ENCODING
from distutils.errors import DistutilsSetupError
try:
# docutils is installed
from docutils.utils import Reporter
from docutils.parsers.rst import Parser
from docutils import frontend
from docutils import nodes
from StringIO import StringIO
class SilentReporter(Reporter):
def __init__(self, source, report_level, halt_level, stream=None,
debug=0, encoding='ascii', error_handler='replace'):
self.messages = []
Reporter.__init__(self, source, report_level, halt_level, stream,
debug, encoding, error_handler)
def system_message(self, level, message, *children, **kwargs):
self.messages.append((level, message, children, kwargs))
return nodes.system_message(message, level=level,
type=self.levels[level],
*children, **kwargs)
HAS_DOCUTILS = True
except ImportError:
# docutils is not installed
HAS_DOCUTILS = False
class check(Command):
"""This command checks the meta-data of the package.
"""
description = ("perform some checks on the package")
user_options = [('metadata', 'm', 'Verify meta-data'),
('restructuredtext', 'r',
('Checks if long string meta-data syntax '
'are reStructuredText-compliant')),
('strict', 's',
'Will exit with an error if a check fails')]
boolean_options = ['metadata', 'restructuredtext', 'strict']
def initialize_options(self):
"""Sets default values for options."""
self.restructuredtext = 0
self.metadata = 1
self.strict = 0
self._warnings = 0
def finalize_options(self):
pass
def warn(self, msg):
"""Counts the number of warnings that occurs."""
self._warnings += 1
return Command.warn(self, msg)
def run(self):
"""Runs the command."""
# perform the various tests
if self.metadata:
self.check_metadata()
if self.restructuredtext:
if HAS_DOCUTILS:
self.check_restructuredtext()
elif self.strict:
raise DistutilsSetupError('The docutils package is needed.')
# let's raise an error in strict mode, if we have at least
# one warning
if self.strict and self._warnings > 0:
raise DistutilsSetupError('Please correct your package.')
def check_metadata(self):
"""Ensures that all required elements of meta-data are supplied.
name, version, URL, (author and author_email) or
(maintainer and maintainer_email)).
Warns if any are missing.
"""
metadata = self.distribution.metadata
missing = []
for attr in ('name', 'version', 'url'):
if not (hasattr(metadata, attr) and getattr(metadata, attr)):
missing.append(attr)
if missing:
self.warn("missing required meta-data: %s" % ', '.join(missing))
if metadata.author:
if not metadata.author_email:
self.warn("missing meta-data: if 'author' supplied, " +
"'author_email' must be supplied too")
elif metadata.maintainer:
if not metadata.maintainer_email:
self.warn("missing meta-data: if 'maintainer' supplied, " +
"'maintainer_email' must be supplied too")
else:
self.warn("missing meta-data: either (author and author_email) " +
"or (maintainer and maintainer_email) " +
"must be supplied")
def check_restructuredtext(self):
"""Checks if the long string fields are reST-compliant."""
data = self.distribution.get_long_description()
if not isinstance(data, unicode):
data = data.decode(PKG_INFO_ENCODING)
for warning in self._check_rst_data(data):
line = warning[-1].get('line')
if line is None:
warning = warning[1]
else:
warning = '%s (line %s)' % (warning[1], line)
self.warn(warning)
def _check_rst_data(self, data):
"""Returns warnings when the provided data doesn't compile."""
source_path = StringIO()
parser = Parser()
settings = frontend.OptionParser().get_default_values()
settings.tab_width = 4
settings.pep_references = None
settings.rfc_references = None
reporter = SilentReporter(source_path,
settings.report_level,
settings.halt_level,
stream=settings.warning_stream,
debug=settings.debug,
encoding=settings.error_encoding,
error_handler=settings.error_encoding_error_handler)
document = nodes.document(settings, reporter, source=source_path)
document.note_source(source_path, -1)
try:
parser.parse(data, document)
except AttributeError:
reporter.messages.append((-1, 'Could not finish the parsing.',
'', {}))
return reporter.messages

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"""distutils.command.clean
Implements the Distutils 'clean' command."""
# contributed by Bastian Kleineidam <calvin@cs.uni-sb.de>, added 2000-03-18
__revision__ = "$Id$"
import os
from distutils.core import Command
from distutils.dir_util import remove_tree
from distutils import log
class clean(Command):
description = "clean up temporary files from 'build' command"
user_options = [
('build-base=', 'b',
"base build directory (default: 'build.build-base')"),
('build-lib=', None,
"build directory for all modules (default: 'build.build-lib')"),
('build-temp=', 't',
"temporary build directory (default: 'build.build-temp')"),
('build-scripts=', None,
"build directory for scripts (default: 'build.build-scripts')"),
('bdist-base=', None,
"temporary directory for built distributions"),
('all', 'a',
"remove all build output, not just temporary by-products")
]
boolean_options = ['all']
def initialize_options(self):
self.build_base = None
self.build_lib = None
self.build_temp = None
self.build_scripts = None
self.bdist_base = None
self.all = None
def finalize_options(self):
self.set_undefined_options('build',
('build_base', 'build_base'),
('build_lib', 'build_lib'),
('build_scripts', 'build_scripts'),
('build_temp', 'build_temp'))
self.set_undefined_options('bdist',
('bdist_base', 'bdist_base'))
def run(self):
# remove the build/temp.<plat> directory (unless it's already
# gone)
if os.path.exists(self.build_temp):
remove_tree(self.build_temp, dry_run=self.dry_run)
else:
log.debug("'%s' does not exist -- can't clean it",
self.build_temp)
if self.all:
# remove build directories
for directory in (self.build_lib,
self.bdist_base,
self.build_scripts):
if os.path.exists(directory):
remove_tree(directory, dry_run=self.dry_run)
else:
log.warn("'%s' does not exist -- can't clean it",
directory)
# just for the heck of it, try to remove the base build directory:
# we might have emptied it right now, but if not we don't care
if not self.dry_run:
try:
os.rmdir(self.build_base)
log.info("removing '%s'", self.build_base)
except OSError:
pass
# class clean

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"""distutils.command.x
Implements the Distutils 'x' command.
"""
# created 2000/mm/dd, John Doe
__revision__ = "$Id$"
from distutils.core import Command
class x (Command):
# Brief (40-50 characters) description of the command
description = ""
# List of option tuples: long name, short name (None if no short
# name), and help string.
user_options = [('', '',
""),
]
def initialize_options (self):
self. = None
self. = None
self. = None
# initialize_options()
def finalize_options (self):
if self.x is None:
self.x =
# finalize_options()
def run (self):
# run()
# class x

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"""distutils.command.config
Implements the Distutils 'config' command, a (mostly) empty command class
that exists mainly to be sub-classed by specific module distributions and
applications. The idea is that while every "config" command is different,
at least they're all named the same, and users always see "config" in the
list of standard commands. Also, this is a good place to put common
configure-like tasks: "try to compile this C code", or "figure out where
this header file lives".
"""
__revision__ = "$Id$"
import os
import re
from distutils.core import Command
from distutils.errors import DistutilsExecError
from distutils.sysconfig import customize_compiler
from distutils import log
LANG_EXT = {'c': '.c', 'c++': '.cxx'}
class config(Command):
description = "prepare to build"
user_options = [
('compiler=', None,
"specify the compiler type"),
('cc=', None,
"specify the compiler executable"),
('include-dirs=', 'I',
"list of directories to search for header files"),
('define=', 'D',
"C preprocessor macros to define"),
('undef=', 'U',
"C preprocessor macros to undefine"),
('libraries=', 'l',
"external C libraries to link with"),
('library-dirs=', 'L',
"directories to search for external C libraries"),
('noisy', None,
"show every action (compile, link, run, ...) taken"),
('dump-source', None,
"dump generated source files before attempting to compile them"),
]
# The three standard command methods: since the "config" command
# does nothing by default, these are empty.
def initialize_options(self):
self.compiler = None
self.cc = None
self.include_dirs = None
self.libraries = None
self.library_dirs = None
# maximal output for now
self.noisy = 1
self.dump_source = 1
# list of temporary files generated along-the-way that we have
# to clean at some point
self.temp_files = []
def finalize_options(self):
if self.include_dirs is None:
self.include_dirs = self.distribution.include_dirs or []
elif isinstance(self.include_dirs, str):
self.include_dirs = self.include_dirs.split(os.pathsep)
if self.libraries is None:
self.libraries = []
elif isinstance(self.libraries, str):
self.libraries = [self.libraries]
if self.library_dirs is None:
self.library_dirs = []
elif isinstance(self.library_dirs, str):
self.library_dirs = self.library_dirs.split(os.pathsep)
def run(self):
pass
# Utility methods for actual "config" commands. The interfaces are
# loosely based on Autoconf macros of similar names. Sub-classes
# may use these freely.
def _check_compiler(self):
"""Check that 'self.compiler' really is a CCompiler object;
if not, make it one.
"""
# We do this late, and only on-demand, because this is an expensive
# import.
from distutils.ccompiler import CCompiler, new_compiler
if not isinstance(self.compiler, CCompiler):
self.compiler = new_compiler(compiler=self.compiler,
dry_run=self.dry_run, force=1)
customize_compiler(self.compiler)
if self.include_dirs:
self.compiler.set_include_dirs(self.include_dirs)
if self.libraries:
self.compiler.set_libraries(self.libraries)
if self.library_dirs:
self.compiler.set_library_dirs(self.library_dirs)
def _gen_temp_sourcefile(self, body, headers, lang):
filename = "_configtest" + LANG_EXT[lang]
file = open(filename, "w")
if headers:
for header in headers:
file.write("#include <%s>\n" % header)
file.write("\n")
file.write(body)
if body[-1] != "\n":
file.write("\n")
file.close()
return filename
def _preprocess(self, body, headers, include_dirs, lang):
src = self._gen_temp_sourcefile(body, headers, lang)
out = "_configtest.i"
self.temp_files.extend([src, out])
self.compiler.preprocess(src, out, include_dirs=include_dirs)
return (src, out)
def _compile(self, body, headers, include_dirs, lang):
src = self._gen_temp_sourcefile(body, headers, lang)
if self.dump_source:
dump_file(src, "compiling '%s':" % src)
(obj,) = self.compiler.object_filenames([src])
self.temp_files.extend([src, obj])
self.compiler.compile([src], include_dirs=include_dirs)
return (src, obj)
def _link(self, body, headers, include_dirs, libraries, library_dirs,
lang):
(src, obj) = self._compile(body, headers, include_dirs, lang)
prog = os.path.splitext(os.path.basename(src))[0]
self.compiler.link_executable([obj], prog,
libraries=libraries,
library_dirs=library_dirs,
target_lang=lang)
if self.compiler.exe_extension is not None:
prog = prog + self.compiler.exe_extension
self.temp_files.append(prog)
return (src, obj, prog)
def _clean(self, *filenames):
if not filenames:
filenames = self.temp_files
self.temp_files = []
log.info("removing: %s", ' '.join(filenames))
for filename in filenames:
try:
os.remove(filename)
except OSError:
pass
# XXX these ignore the dry-run flag: what to do, what to do? even if
# you want a dry-run build, you still need some sort of configuration
# info. My inclination is to make it up to the real config command to
# consult 'dry_run', and assume a default (minimal) configuration if
# true. The problem with trying to do it here is that you'd have to
# return either true or false from all the 'try' methods, neither of
# which is correct.
# XXX need access to the header search path and maybe default macros.
def try_cpp(self, body=None, headers=None, include_dirs=None, lang="c"):
"""Construct a source file from 'body' (a string containing lines
of C/C++ code) and 'headers' (a list of header files to include)
and run it through the preprocessor. Return true if the
preprocessor succeeded, false if there were any errors.
('body' probably isn't of much use, but what the heck.)
"""
from distutils.ccompiler import CompileError
self._check_compiler()
ok = 1
try:
self._preprocess(body, headers, include_dirs, lang)
except CompileError:
ok = 0
self._clean()
return ok
def search_cpp(self, pattern, body=None, headers=None, include_dirs=None,
lang="c"):
"""Construct a source file (just like 'try_cpp()'), run it through
the preprocessor, and return true if any line of the output matches
'pattern'. 'pattern' should either be a compiled regex object or a
string containing a regex. If both 'body' and 'headers' are None,
preprocesses an empty file -- which can be useful to determine the
symbols the preprocessor and compiler set by default.
"""
self._check_compiler()
src, out = self._preprocess(body, headers, include_dirs, lang)
if isinstance(pattern, str):
pattern = re.compile(pattern)
file = open(out)
match = 0
while 1:
line = file.readline()
if line == '':
break
if pattern.search(line):
match = 1
break
file.close()
self._clean()
return match
def try_compile(self, body, headers=None, include_dirs=None, lang="c"):
"""Try to compile a source file built from 'body' and 'headers'.
Return true on success, false otherwise.
"""
from distutils.ccompiler import CompileError
self._check_compiler()
try:
self._compile(body, headers, include_dirs, lang)
ok = 1
except CompileError:
ok = 0
log.info(ok and "success!" or "failure.")
self._clean()
return ok
def try_link(self, body, headers=None, include_dirs=None, libraries=None,
library_dirs=None, lang="c"):
"""Try to compile and link a source file, built from 'body' and
'headers', to executable form. Return true on success, false
otherwise.
"""
from distutils.ccompiler import CompileError, LinkError
self._check_compiler()
try:
self._link(body, headers, include_dirs,
libraries, library_dirs, lang)
ok = 1
except (CompileError, LinkError):
ok = 0
log.info(ok and "success!" or "failure.")
self._clean()
return ok
def try_run(self, body, headers=None, include_dirs=None, libraries=None,
library_dirs=None, lang="c"):
"""Try to compile, link to an executable, and run a program
built from 'body' and 'headers'. Return true on success, false
otherwise.
"""
from distutils.ccompiler import CompileError, LinkError
self._check_compiler()
try:
src, obj, exe = self._link(body, headers, include_dirs,
libraries, library_dirs, lang)
self.spawn([exe])
ok = 1
except (CompileError, LinkError, DistutilsExecError):
ok = 0
log.info(ok and "success!" or "failure.")
self._clean()
return ok
# -- High-level methods --------------------------------------------
# (these are the ones that are actually likely to be useful
# when implementing a real-world config command!)
def check_func(self, func, headers=None, include_dirs=None,
libraries=None, library_dirs=None, decl=0, call=0):
"""Determine if function 'func' is available by constructing a
source file that refers to 'func', and compiles and links it.
If everything succeeds, returns true; otherwise returns false.
The constructed source file starts out by including the header
files listed in 'headers'. If 'decl' is true, it then declares
'func' (as "int func()"); you probably shouldn't supply 'headers'
and set 'decl' true in the same call, or you might get errors about
a conflicting declarations for 'func'. Finally, the constructed
'main()' function either references 'func' or (if 'call' is true)
calls it. 'libraries' and 'library_dirs' are used when
linking.
"""
self._check_compiler()
body = []
if decl:
body.append("int %s ();" % func)
body.append("int main () {")
if call:
body.append(" %s();" % func)
else:
body.append(" %s;" % func)
body.append("}")
body = "\n".join(body) + "\n"
return self.try_link(body, headers, include_dirs,
libraries, library_dirs)
# check_func ()
def check_lib(self, library, library_dirs=None, headers=None,
include_dirs=None, other_libraries=[]):
"""Determine if 'library' is available to be linked against,
without actually checking that any particular symbols are provided
by it. 'headers' will be used in constructing the source file to
be compiled, but the only effect of this is to check if all the
header files listed are available. Any libraries listed in
'other_libraries' will be included in the link, in case 'library'
has symbols that depend on other libraries.
"""
self._check_compiler()
return self.try_link("int main (void) { }",
headers, include_dirs,
[library]+other_libraries, library_dirs)
def check_header(self, header, include_dirs=None, library_dirs=None,
lang="c"):
"""Determine if the system header file named by 'header_file'
exists and can be found by the preprocessor; return true if so,
false otherwise.
"""
return self.try_cpp(body="/* No body */", headers=[header],
include_dirs=include_dirs)
def dump_file(filename, head=None):
"""Dumps a file content into log.info.
If head is not None, will be dumped before the file content.
"""
if head is None:
log.info('%s' % filename)
else:
log.info(head)
file = open(filename)
try:
log.info(file.read())
finally:
file.close()

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"""distutils.command.install_data
Implements the Distutils 'install_data' command, for installing
platform-independent data files."""
# contributed by Bastian Kleineidam
__revision__ = "$Id$"
import os
from distutils.core import Command
from distutils.util import change_root, convert_path
class install_data(Command):
description = "install data files"
user_options = [
('install-dir=', 'd',
"base directory for installing data files "
"(default: installation base dir)"),
('root=', None,
"install everything relative to this alternate root directory"),
('force', 'f', "force installation (overwrite existing files)"),
]
boolean_options = ['force']
def initialize_options(self):
self.install_dir = None
self.outfiles = []
self.root = None
self.force = 0
self.data_files = self.distribution.data_files
self.warn_dir = 1
def finalize_options(self):
self.set_undefined_options('install',
('install_data', 'install_dir'),
('root', 'root'),
('force', 'force'),
)
def run(self):
self.mkpath(self.install_dir)
for f in self.data_files:
if isinstance(f, str):
# it's a simple file, so copy it
f = convert_path(f)
if self.warn_dir:
self.warn("setup script did not provide a directory for "
"'%s' -- installing right in '%s'" %
(f, self.install_dir))
(out, _) = self.copy_file(f, self.install_dir)
self.outfiles.append(out)
else:
# it's a tuple with path to install to and a list of files
dir = convert_path(f[0])
if not os.path.isabs(dir):
dir = os.path.join(self.install_dir, dir)
elif self.root:
dir = change_root(self.root, dir)
self.mkpath(dir)
if f[1] == []:
# If there are no files listed, the user must be
# trying to create an empty directory, so add the
# directory to the list of output files.
self.outfiles.append(dir)
else:
# Copy files, adding them to the list of output files.
for data in f[1]:
data = convert_path(data)
(out, _) = self.copy_file(data, dir)
self.outfiles.append(out)
def get_inputs(self):
return self.data_files or []
def get_outputs(self):
return self.outfiles

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"""distutils.command.install_egg_info
Implements the Distutils 'install_egg_info' command, for installing
a package's PKG-INFO metadata."""
from distutils.cmd import Command
from distutils import log, dir_util
import os, sys, re
class install_egg_info(Command):
"""Install an .egg-info file for the package"""
description = "Install package's PKG-INFO metadata as an .egg-info file"
user_options = [
('install-dir=', 'd', "directory to install to"),
]
def initialize_options(self):
self.install_dir = None
def finalize_options(self):
self.set_undefined_options('install_lib',('install_dir','install_dir'))
basename = "%s-%s-py%s.egg-info" % (
to_filename(safe_name(self.distribution.get_name())),
to_filename(safe_version(self.distribution.get_version())),
sys.version[:3]
)
self.target = os.path.join(self.install_dir, basename)
self.outputs = [self.target]
def run(self):
target = self.target
if os.path.isdir(target) and not os.path.islink(target):
dir_util.remove_tree(target, dry_run=self.dry_run)
elif os.path.exists(target):
self.execute(os.unlink,(self.target,),"Removing "+target)
elif not os.path.isdir(self.install_dir):
self.execute(os.makedirs, (self.install_dir,),
"Creating "+self.install_dir)
log.info("Writing %s", target)
if not self.dry_run:
f = open(target, 'w')
self.distribution.metadata.write_pkg_file(f)
f.close()
def get_outputs(self):
return self.outputs
# The following routines are taken from setuptools' pkg_resources module and
# can be replaced by importing them from pkg_resources once it is included
# in the stdlib.
def safe_name(name):
"""Convert an arbitrary string to a standard distribution name
Any runs of non-alphanumeric/. characters are replaced with a single '-'.
"""
return re.sub('[^A-Za-z0-9.]+', '-', name)
def safe_version(version):
"""Convert an arbitrary string to a standard version string
Spaces become dots, and all other non-alphanumeric characters become
dashes, with runs of multiple dashes condensed to a single dash.
"""
version = version.replace(' ','.')
return re.sub('[^A-Za-z0-9.]+', '-', version)
def to_filename(name):
"""Convert a project or version name to its filename-escaped form
Any '-' characters are currently replaced with '_'.
"""
return name.replace('-','_')

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"""distutils.command.install_headers
Implements the Distutils 'install_headers' command, to install C/C++ header
files to the Python include directory."""
__revision__ = "$Id$"
from distutils.core import Command
# XXX force is never used
class install_headers(Command):
description = "install C/C++ header files"
user_options = [('install-dir=', 'd',
"directory to install header files to"),
('force', 'f',
"force installation (overwrite existing files)"),
]
boolean_options = ['force']
def initialize_options(self):
self.install_dir = None
self.force = 0
self.outfiles = []
def finalize_options(self):
self.set_undefined_options('install',
('install_headers', 'install_dir'),
('force', 'force'))
def run(self):
headers = self.distribution.headers
if not headers:
return
self.mkpath(self.install_dir)
for header in headers:
(out, _) = self.copy_file(header, self.install_dir)
self.outfiles.append(out)
def get_inputs(self):
return self.distribution.headers or []
def get_outputs(self):
return self.outfiles
# class install_headers

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office-plugin/windows-office/program/python-core-2.7.6/lib/distutils/command/install_lib.py Normal file
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"""distutils.command.install_lib
Implements the Distutils 'install_lib' command
(install all Python modules)."""
__revision__ = "$Id$"
import os
import sys
from distutils.core import Command
from distutils.errors import DistutilsOptionError
# Extension for Python source files.
if hasattr(os, 'extsep'):
PYTHON_SOURCE_EXTENSION = os.extsep + "py"
else:
PYTHON_SOURCE_EXTENSION = ".py"
class install_lib(Command):
description = "install all Python modules (extensions and pure Python)"
# The byte-compilation options are a tad confusing. Here are the
# possible scenarios:
# 1) no compilation at all (--no-compile --no-optimize)
# 2) compile .pyc only (--compile --no-optimize; default)
# 3) compile .pyc and "level 1" .pyo (--compile --optimize)
# 4) compile "level 1" .pyo only (--no-compile --optimize)
# 5) compile .pyc and "level 2" .pyo (--compile --optimize-more)
# 6) compile "level 2" .pyo only (--no-compile --optimize-more)
#
# The UI for this is two option, 'compile' and 'optimize'.
# 'compile' is strictly boolean, and only decides whether to
# generate .pyc files. 'optimize' is three-way (0, 1, or 2), and
# decides both whether to generate .pyo files and what level of
# optimization to use.
user_options = [
('install-dir=', 'd', "directory to install to"),
('build-dir=','b', "build directory (where to install from)"),
('force', 'f', "force installation (overwrite existing files)"),
('compile', 'c', "compile .py to .pyc [default]"),
('no-compile', None, "don't compile .py files"),
('optimize=', 'O',
"also compile with optimization: -O1 for \"python -O\", "
"-O2 for \"python -OO\", and -O0 to disable [default: -O0]"),
('skip-build', None, "skip the build steps"),
]
boolean_options = ['force', 'compile', 'skip-build']
negative_opt = {'no-compile' : 'compile'}
def initialize_options(self):
# let the 'install' command dictate our installation directory
self.install_dir = None
self.build_dir = None
self.force = 0
self.compile = None
self.optimize = None
self.skip_build = None
def finalize_options(self):
# Get all the information we need to install pure Python modules
# from the umbrella 'install' command -- build (source) directory,
# install (target) directory, and whether to compile .py files.
self.set_undefined_options('install',
('build_lib', 'build_dir'),
('install_lib', 'install_dir'),
('force', 'force'),
('compile', 'compile'),
('optimize', 'optimize'),
('skip_build', 'skip_build'),
)
if self.compile is None:
self.compile = 1
if self.optimize is None:
self.optimize = 0
if not isinstance(self.optimize, int):
try:
self.optimize = int(self.optimize)
if self.optimize not in (0, 1, 2):
raise AssertionError
except (ValueError, AssertionError):
raise DistutilsOptionError, "optimize must be 0, 1, or 2"
def run(self):
# Make sure we have built everything we need first
self.build()
# Install everything: simply dump the entire contents of the build
# directory to the installation directory (that's the beauty of
# having a build directory!)
outfiles = self.install()
# (Optionally) compile .py to .pyc
if outfiles is not None and self.distribution.has_pure_modules():
self.byte_compile(outfiles)
# -- Top-level worker functions ------------------------------------
# (called from 'run()')
def build(self):
if not self.skip_build:
if self.distribution.has_pure_modules():
self.run_command('build_py')
if self.distribution.has_ext_modules():
self.run_command('build_ext')
def install(self):
if os.path.isdir(self.build_dir):
outfiles = self.copy_tree(self.build_dir, self.install_dir)
else:
self.warn("'%s' does not exist -- no Python modules to install" %
self.build_dir)
return
return outfiles
def byte_compile(self, files):
if sys.dont_write_bytecode:
self.warn('byte-compiling is disabled, skipping.')
return
from distutils.util import byte_compile
# Get the "--root" directory supplied to the "install" command,
# and use it as a prefix to strip off the purported filename
# encoded in bytecode files. This is far from complete, but it
# should at least generate usable bytecode in RPM distributions.
install_root = self.get_finalized_command('install').root
if self.compile:
byte_compile(files, optimize=0,
force=self.force, prefix=install_root,
dry_run=self.dry_run)
if self.optimize > 0:
byte_compile(files, optimize=self.optimize,
force=self.force, prefix=install_root,
verbose=self.verbose, dry_run=self.dry_run)
# -- Utility methods -----------------------------------------------
def _mutate_outputs(self, has_any, build_cmd, cmd_option, output_dir):
if not has_any:
return []
build_cmd = self.get_finalized_command(build_cmd)
build_files = build_cmd.get_outputs()
build_dir = getattr(build_cmd, cmd_option)
prefix_len = len(build_dir) + len(os.sep)
outputs = []
for file in build_files:
outputs.append(os.path.join(output_dir, file[prefix_len:]))
return outputs
def _bytecode_filenames(self, py_filenames):
bytecode_files = []
for py_file in py_filenames:
# Since build_py handles package data installation, the
# list of outputs can contain more than just .py files.
# Make sure we only report bytecode for the .py files.
ext = os.path.splitext(os.path.normcase(py_file))[1]
if ext != PYTHON_SOURCE_EXTENSION:
continue
if self.compile:
bytecode_files.append(py_file + "c")
if self.optimize > 0:
bytecode_files.append(py_file + "o")
return bytecode_files
# -- External interface --------------------------------------------
# (called by outsiders)
def get_outputs(self):
"""Return the list of files that would be installed if this command
were actually run. Not affected by the "dry-run" flag or whether
modules have actually been built yet.
"""
pure_outputs = \
self._mutate_outputs(self.distribution.has_pure_modules(),
'build_py', 'build_lib',
self.install_dir)
if self.compile:
bytecode_outputs = self._bytecode_filenames(pure_outputs)
else:
bytecode_outputs = []
ext_outputs = \
self._mutate_outputs(self.distribution.has_ext_modules(),
'build_ext', 'build_lib',
self.install_dir)
return pure_outputs + bytecode_outputs + ext_outputs
def get_inputs(self):
"""Get the list of files that are input to this command, ie. the
files that get installed as they are named in the build tree.
The files in this list correspond one-to-one to the output
filenames returned by 'get_outputs()'.
"""
inputs = []
if self.distribution.has_pure_modules():
build_py = self.get_finalized_command('build_py')
inputs.extend(build_py.get_outputs())
if self.distribution.has_ext_modules():
build_ext = self.get_finalized_command('build_ext')
inputs.extend(build_ext.get_outputs())
return inputs

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"""distutils.command.install_scripts
Implements the Distutils 'install_scripts' command, for installing
Python scripts."""
# contributed by Bastian Kleineidam
__revision__ = "$Id$"
import os
from distutils.core import Command
from distutils import log
from stat import ST_MODE
class install_scripts (Command):
description = "install scripts (Python or otherwise)"
user_options = [
('install-dir=', 'd', "directory to install scripts to"),
('build-dir=','b', "build directory (where to install from)"),
('force', 'f', "force installation (overwrite existing files)"),
('skip-build', None, "skip the build steps"),
]
boolean_options = ['force', 'skip-build']
def initialize_options (self):
self.install_dir = None
self.force = 0
self.build_dir = None
self.skip_build = None
def finalize_options (self):
self.set_undefined_options('build', ('build_scripts', 'build_dir'))
self.set_undefined_options('install',
('install_scripts', 'install_dir'),
('force', 'force'),
('skip_build', 'skip_build'),
)
def run (self):
if not self.skip_build:
self.run_command('build_scripts')
self.outfiles = self.copy_tree(self.build_dir, self.install_dir)
if os.name == 'posix':
# Set the executable bits (owner, group, and world) on
# all the scripts we just installed.
for file in self.get_outputs():
if self.dry_run:
log.info("changing mode of %s", file)
else:
mode = ((os.stat(file)[ST_MODE]) | 0555) & 07777
log.info("changing mode of %s to %o", file, mode)
os.chmod(file, mode)
def get_inputs (self):
return self.distribution.scripts or []
def get_outputs(self):
return self.outfiles or []
# class install_scripts

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"""distutils.command.register
Implements the Distutils 'register' command (register with the repository).
"""
# created 2002/10/21, Richard Jones
__revision__ = "$Id$"
import urllib2
import getpass
import urlparse
from warnings import warn
from distutils.core import PyPIRCCommand
from distutils import log
class register(PyPIRCCommand):
description = ("register the distribution with the Python package index")
user_options = PyPIRCCommand.user_options + [
('list-classifiers', None,
'list the valid Trove classifiers'),
('strict', None ,
'Will stop the registering if the meta-data are not fully compliant')
]
boolean_options = PyPIRCCommand.boolean_options + [
'verify', 'list-classifiers', 'strict']
sub_commands = [('check', lambda self: True)]
def initialize_options(self):
PyPIRCCommand.initialize_options(self)
self.list_classifiers = 0
self.strict = 0
def finalize_options(self):
PyPIRCCommand.finalize_options(self)
# setting options for the `check` subcommand
check_options = {'strict': ('register', self.strict),
'restructuredtext': ('register', 1)}
self.distribution.command_options['check'] = check_options
def run(self):
self.finalize_options()
self._set_config()
# Run sub commands
for cmd_name in self.get_sub_commands():
self.run_command(cmd_name)
if self.dry_run:
self.verify_metadata()
elif self.list_classifiers:
self.classifiers()
else:
self.send_metadata()
def check_metadata(self):
"""Deprecated API."""
warn("distutils.command.register.check_metadata is deprecated, \
use the check command instead", PendingDeprecationWarning)
check = self.distribution.get_command_obj('check')
check.ensure_finalized()
check.strict = self.strict
check.restructuredtext = 1
check.run()
def _set_config(self):
''' Reads the configuration file and set attributes.
'''
config = self._read_pypirc()
if config != {}:
self.username = config['username']
self.password = config['password']
self.repository = config['repository']
self.realm = config['realm']
self.has_config = True
else:
if self.repository not in ('pypi', self.DEFAULT_REPOSITORY):
raise ValueError('%s not found in .pypirc' % self.repository)
if self.repository == 'pypi':
self.repository = self.DEFAULT_REPOSITORY
self.has_config = False
def classifiers(self):
''' Fetch the list of classifiers from the server.
'''
response = urllib2.urlopen(self.repository+'?:action=list_classifiers')
log.info(response.read())
def verify_metadata(self):
''' Send the metadata to the package index server to be checked.
'''
# send the info to the server and report the result
(code, result) = self.post_to_server(self.build_post_data('verify'))
log.info('Server response (%s): %s' % (code, result))
def send_metadata(self):
''' Send the metadata to the package index server.
Well, do the following:
1. figure who the user is, and then
2. send the data as a Basic auth'ed POST.
First we try to read the username/password from $HOME/.pypirc,
which is a ConfigParser-formatted file with a section
[distutils] containing username and password entries (both
in clear text). Eg:
[distutils]
index-servers =
pypi
[pypi]
username: fred
password: sekrit
Otherwise, to figure who the user is, we offer the user three
choices:
1. use existing login,
2. register as a new user, or
3. set the password to a random string and email the user.
'''
# see if we can short-cut and get the username/password from the
# config
if self.has_config:
choice = '1'
username = self.username
password = self.password
else:
choice = 'x'
username = password = ''
# get the user's login info
choices = '1 2 3 4'.split()
while choice not in choices:
self.announce('''\
We need to know who you are, so please choose either:
1. use your existing login,
2. register as a new user,
3. have the server generate a new password for you (and email it to you), or
4. quit
Your selection [default 1]: ''', log.INFO)
choice = raw_input()
if not choice:
choice = '1'
elif choice not in choices:
print 'Please choose one of the four options!'
if choice == '1':
# get the username and password
while not username:
username = raw_input('Username: ')
while not password:
password = getpass.getpass('Password: ')
# set up the authentication
auth = urllib2.HTTPPasswordMgr()
host = urlparse.urlparse(self.repository)[1]
auth.add_password(self.realm, host, username, password)
# send the info to the server and report the result
code, result = self.post_to_server(self.build_post_data('submit'),
auth)
self.announce('Server response (%s): %s' % (code, result),
log.INFO)
# possibly save the login
if code == 200:
if self.has_config:
# sharing the password in the distribution instance
# so the upload command can reuse it
self.distribution.password = password
else:
self.announce(('I can store your PyPI login so future '
'submissions will be faster.'), log.INFO)
self.announce('(the login will be stored in %s)' % \
self._get_rc_file(), log.INFO)
choice = 'X'
while choice.lower() not in 'yn':
choice = raw_input('Save your login (y/N)?')
if not choice:
choice = 'n'
if choice.lower() == 'y':
self._store_pypirc(username, password)
elif choice == '2':
data = {':action': 'user'}
data['name'] = data['password'] = data['email'] = ''
data['confirm'] = None
while not data['name']:
data['name'] = raw_input('Username: ')
while data['password'] != data['confirm']:
while not data['password']:
data['password'] = getpass.getpass('Password: ')
while not data['confirm']:
data['confirm'] = getpass.getpass(' Confirm: ')
if data['password'] != data['confirm']:
data['password'] = ''
data['confirm'] = None
print "Password and confirm don't match!"
while not data['email']:
data['email'] = raw_input(' EMail: ')
code, result = self.post_to_server(data)
if code != 200:
log.info('Server response (%s): %s' % (code, result))
else:
log.info('You will receive an email shortly.')
log.info(('Follow the instructions in it to '
'complete registration.'))
elif choice == '3':
data = {':action': 'password_reset'}
data['email'] = ''
while not data['email']:
data['email'] = raw_input('Your email address: ')
code, result = self.post_to_server(data)
log.info('Server response (%s): %s' % (code, result))
def build_post_data(self, action):
# figure the data to send - the metadata plus some additional
# information used by the package server
meta = self.distribution.metadata
data = {
':action': action,
'metadata_version' : '1.0',
'name': meta.get_name(),
'version': meta.get_version(),
'summary': meta.get_description(),
'home_page': meta.get_url(),
'author': meta.get_contact(),
'author_email': meta.get_contact_email(),
'license': meta.get_licence(),
'description': meta.get_long_description(),
'keywords': meta.get_keywords(),
'platform': meta.get_platforms(),
'classifiers': meta.get_classifiers(),
'download_url': meta.get_download_url(),
# PEP 314
'provides': meta.get_provides(),
'requires': meta.get_requires(),
'obsoletes': meta.get_obsoletes(),
}
if data['provides'] or data['requires'] or data['obsoletes']:
data['metadata_version'] = '1.1'
return data
def post_to_server(self, data, auth=None):
''' Post a query to the server, and return a string response.
'''
if 'name' in data:
self.announce('Registering %s to %s' % (data['name'],
self.repository),
log.INFO)
# Build up the MIME payload for the urllib2 POST data
boundary = '--------------GHSKFJDLGDS7543FJKLFHRE75642756743254'
sep_boundary = '\n--' + boundary
end_boundary = sep_boundary + '--'
chunks = []
for key, value in data.items():
# handle multiple entries for the same name
if type(value) not in (type([]), type( () )):
value = [value]
for value in value:
chunks.append(sep_boundary)
chunks.append('\nContent-Disposition: form-data; name="%s"'%key)
chunks.append("\n\n")
chunks.append(value)
if value and value[-1] == '\r':
chunks.append('\n') # write an extra newline (lurve Macs)
chunks.append(end_boundary)
chunks.append("\n")
# chunks may be bytes (str) or unicode objects that we need to encode
body = []
for chunk in chunks:
if isinstance(chunk, unicode):
body.append(chunk.encode('utf-8'))
else:
body.append(chunk)
body = ''.join(body)
# build the Request
headers = {
'Content-type': 'multipart/form-data; boundary=%s; charset=utf-8'%boundary,
'Content-length': str(len(body))
}
req = urllib2.Request(self.repository, body, headers)
# handle HTTP and include the Basic Auth handler
opener = urllib2.build_opener(
urllib2.HTTPBasicAuthHandler(password_mgr=auth)
)
data = ''
try:
result = opener.open(req)
except urllib2.HTTPError, e:
if self.show_response:
data = e.fp.read()
result = e.code, e.msg
except urllib2.URLError, e:
result = 500, str(e)
else:
if self.show_response:
data = result.read()
result = 200, 'OK'
if self.show_response:
dashes = '-' * 75
self.announce('%s%s%s' % (dashes, data, dashes))
return result

477
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"""distutils.command.sdist
Implements the Distutils 'sdist' command (create a source distribution)."""
__revision__ = "$Id$"
import os
import string
import sys
from glob import glob
from warnings import warn
from distutils.core import Command
from distutils import dir_util, dep_util, file_util, archive_util
from distutils.text_file import TextFile
from distutils.errors import (DistutilsPlatformError, DistutilsOptionError,
DistutilsTemplateError)
from distutils.filelist import FileList
from distutils import log
from distutils.util import convert_path
def show_formats():
"""Print all possible values for the 'formats' option (used by
the "--help-formats" command-line option).
"""
from distutils.fancy_getopt import FancyGetopt
from distutils.archive_util import ARCHIVE_FORMATS
formats = []
for format in ARCHIVE_FORMATS.keys():
formats.append(("formats=" + format, None,
ARCHIVE_FORMATS[format][2]))
formats.sort()
FancyGetopt(formats).print_help(
"List of available source distribution formats:")
class sdist(Command):
description = "create a source distribution (tarball, zip file, etc.)"
def checking_metadata(self):
"""Callable used for the check sub-command.
Placed here so user_options can view it"""
return self.metadata_check
user_options = [
('template=', 't',
"name of manifest template file [default: MANIFEST.in]"),
('manifest=', 'm',
"name of manifest file [default: MANIFEST]"),
('use-defaults', None,
"include the default file set in the manifest "
"[default; disable with --no-defaults]"),
('no-defaults', None,
"don't include the default file set"),
('prune', None,
"specifically exclude files/directories that should not be "
"distributed (build tree, RCS/CVS dirs, etc.) "
"[default; disable with --no-prune]"),
('no-prune', None,
"don't automatically exclude anything"),
('manifest-only', 'o',
"just regenerate the manifest and then stop "
"(implies --force-manifest)"),
('force-manifest', 'f',
"forcibly regenerate the manifest and carry on as usual. "
"Deprecated: now the manifest is always regenerated."),
('formats=', None,
"formats for source distribution (comma-separated list)"),
('keep-temp', 'k',
"keep the distribution tree around after creating " +
"archive file(s)"),
('dist-dir=', 'd',
"directory to put the source distribution archive(s) in "
"[default: dist]"),
('metadata-check', None,
"Ensure that all required elements of meta-data "
"are supplied. Warn if any missing. [default]"),
('owner=', 'u',
"Owner name used when creating a tar file [default: current user]"),
('group=', 'g',
"Group name used when creating a tar file [default: current group]"),
]
boolean_options = ['use-defaults', 'prune',
'manifest-only', 'force-manifest',
'keep-temp', 'metadata-check']
help_options = [
('help-formats', None,
"list available distribution formats", show_formats),
]
negative_opt = {'no-defaults': 'use-defaults',
'no-prune': 'prune' }
default_format = {'posix': 'gztar',
'nt': 'zip' }
sub_commands = [('check', checking_metadata)]
def initialize_options(self):
# 'template' and 'manifest' are, respectively, the names of
# the manifest template and manifest file.
self.template = None
self.manifest = None
# 'use_defaults': if true, we will include the default file set
# in the manifest
self.use_defaults = 1
self.prune = 1
self.manifest_only = 0
self.force_manifest = 0
self.formats = None
self.keep_temp = 0
self.dist_dir = None
self.archive_files = None
self.metadata_check = 1
self.owner = None
self.group = None
def finalize_options(self):
if self.manifest is None:
self.manifest = "MANIFEST"
if self.template is None:
self.template = "MANIFEST.in"
self.ensure_string_list('formats')
if self.formats is None:
try:
self.formats = [self.default_format[os.name]]
except KeyError:
raise DistutilsPlatformError, \
"don't know how to create source distributions " + \
"on platform %s" % os.name
bad_format = archive_util.check_archive_formats(self.formats)
if bad_format:
raise DistutilsOptionError, \
"unknown archive format '%s'" % bad_format
if self.dist_dir is None:
self.dist_dir = "dist"
def run(self):
# 'filelist' contains the list of files that will make up the
# manifest
self.filelist = FileList()
# Run sub commands
for cmd_name in self.get_sub_commands():
self.run_command(cmd_name)
# Do whatever it takes to get the list of files to process
# (process the manifest template, read an existing manifest,
# whatever). File list is accumulated in 'self.filelist'.
self.get_file_list()
# If user just wanted us to regenerate the manifest, stop now.
if self.manifest_only:
return
# Otherwise, go ahead and create the source distribution tarball,
# or zipfile, or whatever.
self.make_distribution()
def check_metadata(self):
"""Deprecated API."""
warn("distutils.command.sdist.check_metadata is deprecated, \
use the check command instead", PendingDeprecationWarning)
check = self.distribution.get_command_obj('check')
check.ensure_finalized()
check.run()
def get_file_list(self):
"""Figure out the list of files to include in the source
distribution, and put it in 'self.filelist'. This might involve
reading the manifest template (and writing the manifest), or just
reading the manifest, or just using the default file set -- it all
depends on the user's options.
"""
# new behavior when using a template:
# the file list is recalculated every time because
# even if MANIFEST.in or setup.py are not changed
# the user might have added some files in the tree that
# need to be included.
#
# This makes --force the default and only behavior with templates.
template_exists = os.path.isfile(self.template)
if not template_exists and self._manifest_is_not_generated():
self.read_manifest()
self.filelist.sort()
self.filelist.remove_duplicates()
return
if not template_exists:
self.warn(("manifest template '%s' does not exist " +
"(using default file list)") %
self.template)
self.filelist.findall()
if self.use_defaults:
self.add_defaults()
if template_exists:
self.read_template()
if self.prune:
self.prune_file_list()
self.filelist.sort()
self.filelist.remove_duplicates()
self.write_manifest()
def add_defaults(self):
"""Add all the default files to self.filelist:
- README or README.txt
- setup.py
- test/test*.py
- all pure Python modules mentioned in setup script
- all files pointed by package_data (build_py)
- all files defined in data_files.
- all files defined as scripts.
- all C sources listed as part of extensions or C libraries
in the setup script (doesn't catch C headers!)
Warns if (README or README.txt) or setup.py are missing; everything
else is optional.
"""
standards = [('README', 'README.txt'), self.distribution.script_name]
for fn in standards:
if isinstance(fn, tuple):
alts = fn
got_it = 0
for fn in alts:
if os.path.exists(fn):
got_it = 1
self.filelist.append(fn)
break
if not got_it:
self.warn("standard file not found: should have one of " +
string.join(alts, ', '))
else:
if os.path.exists(fn):
self.filelist.append(fn)
else:
self.warn("standard file '%s' not found" % fn)
optional = ['test/test*.py', 'setup.cfg']
for pattern in optional:
files = filter(os.path.isfile, glob(pattern))
if files:
self.filelist.extend(files)
# build_py is used to get:
# - python modules
# - files defined in package_data
build_py = self.get_finalized_command('build_py')
# getting python files
if self.distribution.has_pure_modules():
self.filelist.extend(build_py.get_source_files())
# getting package_data files
# (computed in build_py.data_files by build_py.finalize_options)
for pkg, src_dir, build_dir, filenames in build_py.data_files:
for filename in filenames:
self.filelist.append(os.path.join(src_dir, filename))
# getting distribution.data_files
if self.distribution.has_data_files():
for item in self.distribution.data_files:
if isinstance(item, str): # plain file
item = convert_path(item)
if os.path.isfile(item):
self.filelist.append(item)
else: # a (dirname, filenames) tuple
dirname, filenames = item
for f in filenames:
f = convert_path(f)
if os.path.isfile(f):
self.filelist.append(f)
if self.distribution.has_ext_modules():
build_ext = self.get_finalized_command('build_ext')
self.filelist.extend(build_ext.get_source_files())
if self.distribution.has_c_libraries():
build_clib = self.get_finalized_command('build_clib')
self.filelist.extend(build_clib.get_source_files())
if self.distribution.has_scripts():
build_scripts = self.get_finalized_command('build_scripts')
self.filelist.extend(build_scripts.get_source_files())
def read_template(self):
"""Read and parse manifest template file named by self.template.
(usually "MANIFEST.in") The parsing and processing is done by
'self.filelist', which updates itself accordingly.
"""
log.info("reading manifest template '%s'", self.template)
template = TextFile(self.template,
strip_comments=1,
skip_blanks=1,
join_lines=1,
lstrip_ws=1,
rstrip_ws=1,
collapse_join=1)
try:
while 1:
line = template.readline()
if line is None: # end of file
break
try:
self.filelist.process_template_line(line)
# the call above can raise a DistutilsTemplateError for
# malformed lines, or a ValueError from the lower-level
# convert_path function
except (DistutilsTemplateError, ValueError) as msg:
self.warn("%s, line %d: %s" % (template.filename,
template.current_line,
msg))
finally:
template.close()
def prune_file_list(self):
"""Prune off branches that might slip into the file list as created
by 'read_template()', but really don't belong there:
* the build tree (typically "build")
* the release tree itself (only an issue if we ran "sdist"
previously with --keep-temp, or it aborted)
* any RCS, CVS, .svn, .hg, .git, .bzr, _darcs directories
"""
build = self.get_finalized_command('build')
base_dir = self.distribution.get_fullname()
self.filelist.exclude_pattern(None, prefix=build.build_base)
self.filelist.exclude_pattern(None, prefix=base_dir)
# pruning out vcs directories
# both separators are used under win32
if sys.platform == 'win32':
seps = r'/|\\'
else:
seps = '/'
vcs_dirs = ['RCS', 'CVS', r'\.svn', r'\.hg', r'\.git', r'\.bzr',
'_darcs']
vcs_ptrn = r'(^|%s)(%s)(%s).*' % (seps, '|'.join(vcs_dirs), seps)
self.filelist.exclude_pattern(vcs_ptrn, is_regex=1)
def write_manifest(self):
"""Write the file list in 'self.filelist' (presumably as filled in
by 'add_defaults()' and 'read_template()') to the manifest file
named by 'self.manifest'.
"""
if self._manifest_is_not_generated():
log.info("not writing to manually maintained "
"manifest file '%s'" % self.manifest)
return
content = self.filelist.files[:]
content.insert(0, '# file GENERATED by distutils, do NOT edit')
self.execute(file_util.write_file, (self.manifest, content),
"writing manifest file '%s'" % self.manifest)
def _manifest_is_not_generated(self):
# check for special comment used in 2.7.1 and higher
if not os.path.isfile(self.manifest):
return False
fp = open(self.manifest, 'rU')
try:
first_line = fp.readline()
finally:
fp.close()
return first_line != '# file GENERATED by distutils, do NOT edit\n'
def read_manifest(self):
"""Read the manifest file (named by 'self.manifest') and use it to
fill in 'self.filelist', the list of files to include in the source
distribution.
"""
log.info("reading manifest file '%s'", self.manifest)
manifest = open(self.manifest)
for line in manifest:
# ignore comments and blank lines
line = line.strip()
if line.startswith('#') or not line:
continue
self.filelist.append(line)
manifest.close()
def make_release_tree(self, base_dir, files):
"""Create the directory tree that will become the source
distribution archive. All directories implied by the filenames in
'files' are created under 'base_dir', and then we hard link or copy
(if hard linking is unavailable) those files into place.
Essentially, this duplicates the developer's source tree, but in a
directory named after the distribution, containing only the files
to be distributed.
"""
# Create all the directories under 'base_dir' necessary to
# put 'files' there; the 'mkpath()' is just so we don't die
# if the manifest happens to be empty.
self.mkpath(base_dir)
dir_util.create_tree(base_dir, files, dry_run=self.dry_run)
# And walk over the list of files, either making a hard link (if
# os.link exists) to each one that doesn't already exist in its
# corresponding location under 'base_dir', or copying each file
# that's out-of-date in 'base_dir'. (Usually, all files will be
# out-of-date, because by default we blow away 'base_dir' when
# we're done making the distribution archives.)
if hasattr(os, 'link'): # can make hard links on this system
link = 'hard'
msg = "making hard links in %s..." % base_dir
else: # nope, have to copy
link = None
msg = "copying files to %s..." % base_dir
if not files:
log.warn("no files to distribute -- empty manifest?")
else:
log.info(msg)
for file in files:
if not os.path.isfile(file):
log.warn("'%s' not a regular file -- skipping" % file)
else:
dest = os.path.join(base_dir, file)
self.copy_file(file, dest, link=link)
self.distribution.metadata.write_pkg_info(base_dir)
def make_distribution(self):
"""Create the source distribution(s). First, we create the release
tree with 'make_release_tree()'; then, we create all required
archive files (according to 'self.formats') from the release tree.
Finally, we clean up by blowing away the release tree (unless
'self.keep_temp' is true). The list of archive files created is
stored so it can be retrieved later by 'get_archive_files()'.
"""
# Don't warn about missing meta-data here -- should be (and is!)
# done elsewhere.
base_dir = self.distribution.get_fullname()
base_name = os.path.join(self.dist_dir, base_dir)
self.make_release_tree(base_dir, self.filelist.files)
archive_files = [] # remember names of files we create
# tar archive must be created last to avoid overwrite and remove
if 'tar' in self.formats:
self.formats.append(self.formats.pop(self.formats.index('tar')))
for fmt in self.formats:
file = self.make_archive(base_name, fmt, base_dir=base_dir,
owner=self.owner, group=self.group)
archive_files.append(file)
self.distribution.dist_files.append(('sdist', '', file))
self.archive_files = archive_files
if not self.keep_temp:
dir_util.remove_tree(base_dir, dry_run=self.dry_run)
def get_archive_files(self):
"""Return the list of archive files created when the command
was run, or None if the command hasn't run yet.
"""
return self.archive_files

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"""distutils.command.upload
Implements the Distutils 'upload' subcommand (upload package to PyPI)."""
import os
import socket
import platform
from urllib2 import urlopen, Request, HTTPError
from base64 import standard_b64encode
import urlparse
import cStringIO as StringIO
from hashlib import md5
from distutils.errors import DistutilsOptionError
from distutils.core import PyPIRCCommand
from distutils.spawn import spawn
from distutils import log
class upload(PyPIRCCommand):
description = "upload binary package to PyPI"
user_options = PyPIRCCommand.user_options + [
('sign', 's',
'sign files to upload using gpg'),
('identity=', 'i', 'GPG identity used to sign files'),
]
boolean_options = PyPIRCCommand.boolean_options + ['sign']
def initialize_options(self):
PyPIRCCommand.initialize_options(self)
self.username = ''
self.password = ''
self.show_response = 0
self.sign = False
self.identity = None
def finalize_options(self):
PyPIRCCommand.finalize_options(self)
if self.identity and not self.sign:
raise DistutilsOptionError(
"Must use --sign for --identity to have meaning"
)
config = self._read_pypirc()
if config != {}:
self.username = config['username']
self.password = config['password']
self.repository = config['repository']
self.realm = config['realm']
# getting the password from the distribution
# if previously set by the register command
if not self.password and self.distribution.password:
self.password = self.distribution.password
def run(self):
if not self.distribution.dist_files:
raise DistutilsOptionError("No dist file created in earlier command")
for command, pyversion, filename in self.distribution.dist_files:
self.upload_file(command, pyversion, filename)
def upload_file(self, command, pyversion, filename):
# Makes sure the repository URL is compliant
schema, netloc, url, params, query, fragments = \
urlparse.urlparse(self.repository)
if params or query or fragments:
raise AssertionError("Incompatible url %s" % self.repository)
if schema not in ('http', 'https'):
raise AssertionError("unsupported schema " + schema)
# Sign if requested
if self.sign:
gpg_args = ["gpg", "--detach-sign", "-a", filename]
if self.identity:
gpg_args[2:2] = ["--local-user", self.identity]
spawn(gpg_args,
dry_run=self.dry_run)
# Fill in the data - send all the meta-data in case we need to
# register a new release
f = open(filename,'rb')
try:
content = f.read()
finally:
f.close()
meta = self.distribution.metadata
data = {
# action
':action': 'file_upload',
'protcol_version': '1',
# identify release
'name': meta.get_name(),
'version': meta.get_version(),
# file content
'content': (os.path.basename(filename),content),
'filetype': command,
'pyversion': pyversion,
'md5_digest': md5(content).hexdigest(),
# additional meta-data
'metadata_version' : '1.0',
'summary': meta.get_description(),
'home_page': meta.get_url(),
'author': meta.get_contact(),
'author_email': meta.get_contact_email(),
'license': meta.get_licence(),
'description': meta.get_long_description(),
'keywords': meta.get_keywords(),
'platform': meta.get_platforms(),
'classifiers': meta.get_classifiers(),
'download_url': meta.get_download_url(),
# PEP 314
'provides': meta.get_provides(),
'requires': meta.get_requires(),
'obsoletes': meta.get_obsoletes(),
}
comment = ''
if command == 'bdist_rpm':
dist, version, id = platform.dist()
if dist:
comment = 'built for %s %s' % (dist, version)
elif command == 'bdist_dumb':
comment = 'built for %s' % platform.platform(terse=1)
data['comment'] = comment
if self.sign:
data['gpg_signature'] = (os.path.basename(filename) + ".asc",
open(filename+".asc").read())
# set up the authentication
auth = "Basic " + standard_b64encode(self.username + ":" +
self.password)
# Build up the MIME payload for the POST data
boundary = '--------------GHSKFJDLGDS7543FJKLFHRE75642756743254'
sep_boundary = '\n--' + boundary
end_boundary = sep_boundary + '--'
body = StringIO.StringIO()
for key, value in data.items():
# handle multiple entries for the same name
if not isinstance(value, list):
value = [value]
for value in value:
if isinstance(value, tuple):
fn = ';filename="%s"' % value[0]
value = value[1]
else:
fn = ""
body.write(sep_boundary)
body.write('\nContent-Disposition: form-data; name="%s"'%key)
body.write(fn)
body.write("\n\n")
body.write(value)
if value and value[-1] == '\r':
body.write('\n') # write an extra newline (lurve Macs)
body.write(end_boundary)
body.write("\n")
body = body.getvalue()
self.announce("Submitting %s to %s" % (filename, self.repository), log.INFO)
# build the Request
headers = {'Content-type':
'multipart/form-data; boundary=%s' % boundary,
'Content-length': str(len(body)),
'Authorization': auth}
request = Request(self.repository, data=body,
headers=headers)
# send the data
try:
result = urlopen(request)
status = result.getcode()
reason = result.msg
if self.show_response:
msg = '\n'.join(('-' * 75, r.read(), '-' * 75))
self.announce(msg, log.INFO)
except socket.error, e:
self.announce(str(e), log.ERROR)
return
except HTTPError, e:
status = e.code
reason = e.msg
if status == 200:
self.announce('Server response (%s): %s' % (status, reason),
log.INFO)
else:
self.announce('Upload failed (%s): %s' % (status, reason),
log.ERROR)

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"""distutils.pypirc
Provides the PyPIRCCommand class, the base class for the command classes
that uses .pypirc in the distutils.command package.
"""
import os
from ConfigParser import ConfigParser
from distutils.cmd import Command
DEFAULT_PYPIRC = """\
[distutils]
index-servers =
pypi
[pypi]
username:%s
password:%s
"""
class PyPIRCCommand(Command):
"""Base command that knows how to handle the .pypirc file
"""
DEFAULT_REPOSITORY = 'http://pypi.python.org/pypi'
DEFAULT_REALM = 'pypi'
repository = None
realm = None
user_options = [
('repository=', 'r',
"url of repository [default: %s]" % \
DEFAULT_REPOSITORY),
('show-response', None,
'display full response text from server')]
boolean_options = ['show-response']
def _get_rc_file(self):
"""Returns rc file path."""
return os.path.join(os.path.expanduser('~'), '.pypirc')
def _store_pypirc(self, username, password):
"""Creates a default .pypirc file."""
rc = self._get_rc_file()
f = os.fdopen(os.open(rc, os.O_CREAT | os.O_WRONLY, 0600), 'w')
try:
f.write(DEFAULT_PYPIRC % (username, password))
finally:
f.close()
def _read_pypirc(self):
"""Reads the .pypirc file."""
rc = self._get_rc_file()
if os.path.exists(rc):
self.announce('Using PyPI login from %s' % rc)
repository = self.repository or self.DEFAULT_REPOSITORY
config = ConfigParser()
config.read(rc)
sections = config.sections()
if 'distutils' in sections:
# let's get the list of servers
index_servers = config.get('distutils', 'index-servers')
_servers = [server.strip() for server in
index_servers.split('\n')
if server.strip() != '']
if _servers == []:
# nothing set, let's try to get the default pypi
if 'pypi' in sections:
_servers = ['pypi']
else:
# the file is not properly defined, returning
# an empty dict
return {}
for server in _servers:
current = {'server': server}
current['username'] = config.get(server, 'username')
# optional params
for key, default in (('repository',
self.DEFAULT_REPOSITORY),
('realm', self.DEFAULT_REALM),
('password', None)):
if config.has_option(server, key):
current[key] = config.get(server, key)
else:
current[key] = default
if (current['server'] == repository or
current['repository'] == repository):
return current
elif 'server-login' in sections:
# old format
server = 'server-login'
if config.has_option(server, 'repository'):
repository = config.get(server, 'repository')
else:
repository = self.DEFAULT_REPOSITORY
return {'username': config.get(server, 'username'),
'password': config.get(server, 'password'),
'repository': repository,
'server': server,
'realm': self.DEFAULT_REALM}
return {}
def initialize_options(self):
"""Initialize options."""
self.repository = None
self.realm = None
self.show_response = 0
def finalize_options(self):
"""Finalizes options."""
if self.repository is None:
self.repository = self.DEFAULT_REPOSITORY
if self.realm is None:
self.realm = self.DEFAULT_REALM

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"""distutils.core
The only module that needs to be imported to use the Distutils; provides
the 'setup' function (which is to be called from the setup script). Also
indirectly provides the Distribution and Command classes, although they are
really defined in distutils.dist and distutils.cmd.
"""
__revision__ = "$Id$"
import sys
import os
from distutils.debug import DEBUG
from distutils.errors import (DistutilsSetupError, DistutilsArgError,
DistutilsError, CCompilerError)
from distutils.util import grok_environment_error
# Mainly import these so setup scripts can "from distutils.core import" them.
from distutils.dist import Distribution
from distutils.cmd import Command
from distutils.config import PyPIRCCommand
from distutils.extension import Extension
# This is a barebones help message generated displayed when the user
# runs the setup script with no arguments at all. More useful help
# is generated with various --help options: global help, list commands,
# and per-command help.
USAGE = """\
usage: %(script)s [global_opts] cmd1 [cmd1_opts] [cmd2 [cmd2_opts] ...]
or: %(script)s --help [cmd1 cmd2 ...]
or: %(script)s --help-commands
or: %(script)s cmd --help
"""
def gen_usage(script_name):
script = os.path.basename(script_name)
return USAGE % {'script': script}
# Some mild magic to control the behaviour of 'setup()' from 'run_setup()'.
_setup_stop_after = None
_setup_distribution = None
# Legal keyword arguments for the setup() function
setup_keywords = ('distclass', 'script_name', 'script_args', 'options',
'name', 'version', 'author', 'author_email',
'maintainer', 'maintainer_email', 'url', 'license',
'description', 'long_description', 'keywords',
'platforms', 'classifiers', 'download_url',
'requires', 'provides', 'obsoletes',
)
# Legal keyword arguments for the Extension constructor
extension_keywords = ('name', 'sources', 'include_dirs',
'define_macros', 'undef_macros',
'library_dirs', 'libraries', 'runtime_library_dirs',
'extra_objects', 'extra_compile_args', 'extra_link_args',
'swig_opts', 'export_symbols', 'depends', 'language')
def setup(**attrs):
"""The gateway to the Distutils: do everything your setup script needs
to do, in a highly flexible and user-driven way. Briefly: create a
Distribution instance; find and parse config files; parse the command
line; run each Distutils command found there, customized by the options
supplied to 'setup()' (as keyword arguments), in config files, and on
the command line.
The Distribution instance might be an instance of a class supplied via
the 'distclass' keyword argument to 'setup'; if no such class is
supplied, then the Distribution class (in dist.py) is instantiated.
All other arguments to 'setup' (except for 'cmdclass') are used to set
attributes of the Distribution instance.
The 'cmdclass' argument, if supplied, is a dictionary mapping command
names to command classes. Each command encountered on the command line
will be turned into a command class, which is in turn instantiated; any
class found in 'cmdclass' is used in place of the default, which is
(for command 'foo_bar') class 'foo_bar' in module
'distutils.command.foo_bar'. The command class must provide a
'user_options' attribute which is a list of option specifiers for
'distutils.fancy_getopt'. Any command-line options between the current
and the next command are used to set attributes of the current command
object.
When the entire command-line has been successfully parsed, calls the
'run()' method on each command object in turn. This method will be
driven entirely by the Distribution object (which each command object
has a reference to, thanks to its constructor), and the
command-specific options that became attributes of each command
object.
"""
global _setup_stop_after, _setup_distribution
# Determine the distribution class -- either caller-supplied or
# our Distribution (see below).
klass = attrs.get('distclass')
if klass:
del attrs['distclass']
else:
klass = Distribution
if 'script_name' not in attrs:
attrs['script_name'] = os.path.basename(sys.argv[0])
if 'script_args' not in attrs:
attrs['script_args'] = sys.argv[1:]
# Create the Distribution instance, using the remaining arguments
# (ie. everything except distclass) to initialize it
try:
_setup_distribution = dist = klass(attrs)
except DistutilsSetupError, msg:
if 'name' in attrs:
raise SystemExit, "error in %s setup command: %s" % \
(attrs['name'], msg)
else:
raise SystemExit, "error in setup command: %s" % msg
if _setup_stop_after == "init":
return dist
# Find and parse the config file(s): they will override options from
# the setup script, but be overridden by the command line.
dist.parse_config_files()
if DEBUG:
print "options (after parsing config files):"
dist.dump_option_dicts()
if _setup_stop_after == "config":
return dist
# Parse the command line and override config files; any
# command-line errors are the end user's fault, so turn them into
# SystemExit to suppress tracebacks.
try:
ok = dist.parse_command_line()
except DistutilsArgError, msg:
raise SystemExit, gen_usage(dist.script_name) + "\nerror: %s" % msg
if DEBUG:
print "options (after parsing command line):"
dist.dump_option_dicts()
if _setup_stop_after == "commandline":
return dist
# And finally, run all the commands found on the command line.
if ok:
try:
dist.run_commands()
except KeyboardInterrupt:
raise SystemExit, "interrupted"
except (IOError, os.error), exc:
error = grok_environment_error(exc)
if DEBUG:
sys.stderr.write(error + "\n")
raise
else:
raise SystemExit, error
except (DistutilsError,
CCompilerError), msg:
if DEBUG:
raise
else:
raise SystemExit, "error: " + str(msg)
return dist
def run_setup(script_name, script_args=None, stop_after="run"):
"""Run a setup script in a somewhat controlled environment, and
return the Distribution instance that drives things. This is useful
if you need to find out the distribution meta-data (passed as
keyword args from 'script' to 'setup()', or the contents of the
config files or command-line.
'script_name' is a file that will be run with 'execfile()';
'sys.argv[0]' will be replaced with 'script' for the duration of the
call. 'script_args' is a list of strings; if supplied,
'sys.argv[1:]' will be replaced by 'script_args' for the duration of
the call.
'stop_after' tells 'setup()' when to stop processing; possible
values:
init
stop after the Distribution instance has been created and
populated with the keyword arguments to 'setup()'
config
stop after config files have been parsed (and their data
stored in the Distribution instance)
commandline
stop after the command-line ('sys.argv[1:]' or 'script_args')
have been parsed (and the data stored in the Distribution)
run [default]
stop after all commands have been run (the same as if 'setup()'
had been called in the usual way
Returns the Distribution instance, which provides all information
used to drive the Distutils.
"""
if stop_after not in ('init', 'config', 'commandline', 'run'):
raise ValueError, "invalid value for 'stop_after': %r" % (stop_after,)
global _setup_stop_after, _setup_distribution
_setup_stop_after = stop_after
save_argv = sys.argv
g = {'__file__': script_name}
l = {}
try:
try:
sys.argv[0] = script_name
if script_args is not None:
sys.argv[1:] = script_args
f = open(script_name)
try:
exec f.read() in g, l
finally:
f.close()
finally:
sys.argv = save_argv
_setup_stop_after = None
except SystemExit:
# Hmm, should we do something if exiting with a non-zero code
# (ie. error)?
pass
except:
raise
if _setup_distribution is None:
raise RuntimeError, \
("'distutils.core.setup()' was never called -- "
"perhaps '%s' is not a Distutils setup script?") % \
script_name
# I wonder if the setup script's namespace -- g and l -- would be of
# any interest to callers?
return _setup_distribution

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"""distutils.cygwinccompiler
Provides the CygwinCCompiler class, a subclass of UnixCCompiler that
handles the Cygwin port of the GNU C compiler to Windows. It also contains
the Mingw32CCompiler class which handles the mingw32 port of GCC (same as
cygwin in no-cygwin mode).
"""
# problems:
#
# * if you use a msvc compiled python version (1.5.2)
# 1. you have to insert a __GNUC__ section in its config.h
# 2. you have to generate a import library for its dll
# - create a def-file for python??.dll
# - create a import library using
# dlltool --dllname python15.dll --def python15.def \
# --output-lib libpython15.a
#
# see also http://starship.python.net/crew/kernr/mingw32/Notes.html
#
# * We put export_symbols in a def-file, and don't use
# --export-all-symbols because it doesn't worked reliable in some
# tested configurations. And because other windows compilers also
# need their symbols specified this no serious problem.
#
# tested configurations:
#
# * cygwin gcc 2.91.57/ld 2.9.4/dllwrap 0.2.4 works
# (after patching python's config.h and for C++ some other include files)
# see also http://starship.python.net/crew/kernr/mingw32/Notes.html
# * mingw32 gcc 2.95.2/ld 2.9.4/dllwrap 0.2.4 works
# (ld doesn't support -shared, so we use dllwrap)
# * cygwin gcc 2.95.2/ld 2.10.90/dllwrap 2.10.90 works now
# - its dllwrap doesn't work, there is a bug in binutils 2.10.90
# see also http://sources.redhat.com/ml/cygwin/2000-06/msg01274.html
# - using gcc -mdll instead dllwrap doesn't work without -static because
# it tries to link against dlls instead their import libraries. (If
# it finds the dll first.)
# By specifying -static we force ld to link against the import libraries,
# this is windows standard and there are normally not the necessary symbols
# in the dlls.
# *** only the version of June 2000 shows these problems
# * cygwin gcc 3.2/ld 2.13.90 works
# (ld supports -shared)
# * mingw gcc 3.2/ld 2.13 works
# (ld supports -shared)
# This module should be kept compatible with Python 2.1.
__revision__ = "$Id$"
import os,sys,copy
from distutils.ccompiler import gen_preprocess_options, gen_lib_options
from distutils.unixccompiler import UnixCCompiler
from distutils.file_util import write_file
from distutils.errors import DistutilsExecError, CompileError, UnknownFileError
from distutils import log
def get_msvcr():
"""Include the appropriate MSVC runtime library if Python was built
with MSVC 7.0 or later.
"""
msc_pos = sys.version.find('MSC v.')
if msc_pos != -1:
msc_ver = sys.version[msc_pos+6:msc_pos+10]
if msc_ver == '1300':
# MSVC 7.0
return ['msvcr70']
elif msc_ver == '1310':
# MSVC 7.1
return ['msvcr71']
elif msc_ver == '1400':
# VS2005 / MSVC 8.0
return ['msvcr80']
elif msc_ver == '1500':
# VS2008 / MSVC 9.0
return ['msvcr90']
else:
raise ValueError("Unknown MS Compiler version %s " % msc_ver)
class CygwinCCompiler (UnixCCompiler):
compiler_type = 'cygwin'
obj_extension = ".o"
static_lib_extension = ".a"
shared_lib_extension = ".dll"
static_lib_format = "lib%s%s"
shared_lib_format = "%s%s"
exe_extension = ".exe"
def __init__ (self, verbose=0, dry_run=0, force=0):
UnixCCompiler.__init__ (self, verbose, dry_run, force)
(status, details) = check_config_h()
self.debug_print("Python's GCC status: %s (details: %s)" %
(status, details))
if status is not CONFIG_H_OK:
self.warn(
"Python's pyconfig.h doesn't seem to support your compiler. "
"Reason: %s. "
"Compiling may fail because of undefined preprocessor macros."
% details)
self.gcc_version, self.ld_version, self.dllwrap_version = \
get_versions()
self.debug_print(self.compiler_type + ": gcc %s, ld %s, dllwrap %s\n" %
(self.gcc_version,
self.ld_version,
self.dllwrap_version) )
# ld_version >= "2.10.90" and < "2.13" should also be able to use
# gcc -mdll instead of dllwrap
# Older dllwraps had own version numbers, newer ones use the
# same as the rest of binutils ( also ld )
# dllwrap 2.10.90 is buggy
if self.ld_version >= "2.10.90":
self.linker_dll = "gcc"
else:
self.linker_dll = "dllwrap"
# ld_version >= "2.13" support -shared so use it instead of
# -mdll -static
if self.ld_version >= "2.13":
shared_option = "-shared"
else:
shared_option = "-mdll -static"
# Hard-code GCC because that's what this is all about.
# XXX optimization, warnings etc. should be customizable.
self.set_executables(compiler='gcc -mcygwin -O -Wall',
compiler_so='gcc -mcygwin -mdll -O -Wall',
compiler_cxx='g++ -mcygwin -O -Wall',
linker_exe='gcc -mcygwin',
linker_so=('%s -mcygwin %s' %
(self.linker_dll, shared_option)))
# cygwin and mingw32 need different sets of libraries
if self.gcc_version == "2.91.57":
# cygwin shouldn't need msvcrt, but without the dlls will crash
# (gcc version 2.91.57) -- perhaps something about initialization
self.dll_libraries=["msvcrt"]
self.warn(
"Consider upgrading to a newer version of gcc")
else:
# Include the appropriate MSVC runtime library if Python was built
# with MSVC 7.0 or later.
self.dll_libraries = get_msvcr()
# __init__ ()
def _compile(self, obj, src, ext, cc_args, extra_postargs, pp_opts):
if ext == '.rc' or ext == '.res':
# gcc needs '.res' and '.rc' compiled to object files !!!
try:
self.spawn(["windres", "-i", src, "-o", obj])
except DistutilsExecError, msg:
raise CompileError, msg
else: # for other files use the C-compiler
try:
self.spawn(self.compiler_so + cc_args + [src, '-o', obj] +
extra_postargs)
except DistutilsExecError, msg:
raise CompileError, msg
def link (self,
target_desc,
objects,
output_filename,
output_dir=None,
libraries=None,
library_dirs=None,
runtime_library_dirs=None,
export_symbols=None,
debug=0,
extra_preargs=None,
extra_postargs=None,
build_temp=None,
target_lang=None):
# use separate copies, so we can modify the lists
extra_preargs = copy.copy(extra_preargs or [])
libraries = copy.copy(libraries or [])
objects = copy.copy(objects or [])
# Additional libraries
libraries.extend(self.dll_libraries)
# handle export symbols by creating a def-file
# with executables this only works with gcc/ld as linker
if ((export_symbols is not None) and
(target_desc != self.EXECUTABLE or self.linker_dll == "gcc")):
# (The linker doesn't do anything if output is up-to-date.
# So it would probably better to check if we really need this,
# but for this we had to insert some unchanged parts of
# UnixCCompiler, and this is not what we want.)
# we want to put some files in the same directory as the
# object files are, build_temp doesn't help much
# where are the object files
temp_dir = os.path.dirname(objects[0])
# name of dll to give the helper files the same base name
(dll_name, dll_extension) = os.path.splitext(
os.path.basename(output_filename))
# generate the filenames for these files
def_file = os.path.join(temp_dir, dll_name + ".def")
lib_file = os.path.join(temp_dir, 'lib' + dll_name + ".a")
# Generate .def file
contents = [
"LIBRARY %s" % os.path.basename(output_filename),
"EXPORTS"]
for sym in export_symbols:
contents.append(sym)
self.execute(write_file, (def_file, contents),
"writing %s" % def_file)
# next add options for def-file and to creating import libraries
# dllwrap uses different options than gcc/ld
if self.linker_dll == "dllwrap":
extra_preargs.extend(["--output-lib", lib_file])
# for dllwrap we have to use a special option
extra_preargs.extend(["--def", def_file])
# we use gcc/ld here and can be sure ld is >= 2.9.10
else:
# doesn't work: bfd_close build\...\libfoo.a: Invalid operation
#extra_preargs.extend(["-Wl,--out-implib,%s" % lib_file])
# for gcc/ld the def-file is specified as any object files
objects.append(def_file)
#end: if ((export_symbols is not None) and
# (target_desc != self.EXECUTABLE or self.linker_dll == "gcc")):
# who wants symbols and a many times larger output file
# should explicitly switch the debug mode on
# otherwise we let dllwrap/ld strip the output file
# (On my machine: 10KB < stripped_file < ??100KB
# unstripped_file = stripped_file + XXX KB
# ( XXX=254 for a typical python extension))
if not debug:
extra_preargs.append("-s")
UnixCCompiler.link(self,
target_desc,
objects,
output_filename,
output_dir,
libraries,
library_dirs,
runtime_library_dirs,
None, # export_symbols, we do this in our def-file
debug,
extra_preargs,
extra_postargs,
build_temp,
target_lang)
# link ()
# -- Miscellaneous methods -----------------------------------------
# overwrite the one from CCompiler to support rc and res-files
def object_filenames (self,
source_filenames,
strip_dir=0,
output_dir=''):
if output_dir is None: output_dir = ''
obj_names = []
for src_name in source_filenames:
# use normcase to make sure '.rc' is really '.rc' and not '.RC'
(base, ext) = os.path.splitext (os.path.normcase(src_name))
if ext not in (self.src_extensions + ['.rc','.res']):
raise UnknownFileError, \
"unknown file type '%s' (from '%s')" % \
(ext, src_name)
if strip_dir:
base = os.path.basename (base)
if ext == '.res' or ext == '.rc':
# these need to be compiled to object files
obj_names.append (os.path.join (output_dir,
base + ext + self.obj_extension))
else:
obj_names.append (os.path.join (output_dir,
base + self.obj_extension))
return obj_names
# object_filenames ()
# class CygwinCCompiler
# the same as cygwin plus some additional parameters
class Mingw32CCompiler (CygwinCCompiler):
compiler_type = 'mingw32'
def __init__ (self,
verbose=0,
dry_run=0,
force=0):
CygwinCCompiler.__init__ (self, verbose, dry_run, force)
# ld_version >= "2.13" support -shared so use it instead of
# -mdll -static
if self.ld_version >= "2.13":
shared_option = "-shared"
else:
shared_option = "-mdll -static"
# A real mingw32 doesn't need to specify a different entry point,
# but cygwin 2.91.57 in no-cygwin-mode needs it.
if self.gcc_version <= "2.91.57":
entry_point = '--entry _DllMain@12'
else:
entry_point = ''
if self.gcc_version < '4' or is_cygwingcc():
no_cygwin = ' -mno-cygwin'
else:
no_cygwin = ''
self.set_executables(compiler='gcc%s -O -Wall' % no_cygwin,
compiler_so='gcc%s -mdll -O -Wall' % no_cygwin,
compiler_cxx='g++%s -O -Wall' % no_cygwin,
linker_exe='gcc%s' % no_cygwin,
linker_so='%s%s %s %s'
% (self.linker_dll, no_cygwin,
shared_option, entry_point))
# Maybe we should also append -mthreads, but then the finished
# dlls need another dll (mingwm10.dll see Mingw32 docs)
# (-mthreads: Support thread-safe exception handling on `Mingw32')
# no additional libraries needed
self.dll_libraries=[]
# Include the appropriate MSVC runtime library if Python was built
# with MSVC 7.0 or later.
self.dll_libraries = get_msvcr()
# __init__ ()
# class Mingw32CCompiler
# Because these compilers aren't configured in Python's pyconfig.h file by
# default, we should at least warn the user if he is using a unmodified
# version.
CONFIG_H_OK = "ok"
CONFIG_H_NOTOK = "not ok"
CONFIG_H_UNCERTAIN = "uncertain"
def check_config_h():
"""Check if the current Python installation (specifically, pyconfig.h)
appears amenable to building extensions with GCC. Returns a tuple
(status, details), where 'status' is one of the following constants:
CONFIG_H_OK
all is well, go ahead and compile
CONFIG_H_NOTOK
doesn't look good
CONFIG_H_UNCERTAIN
not sure -- unable to read pyconfig.h
'details' is a human-readable string explaining the situation.
Note there are two ways to conclude "OK": either 'sys.version' contains
the string "GCC" (implying that this Python was built with GCC), or the
installed "pyconfig.h" contains the string "__GNUC__".
"""
# XXX since this function also checks sys.version, it's not strictly a
# "pyconfig.h" check -- should probably be renamed...
from distutils import sysconfig
import string
# if sys.version contains GCC then python was compiled with
# GCC, and the pyconfig.h file should be OK
if string.find(sys.version,"GCC") >= 0:
return (CONFIG_H_OK, "sys.version mentions 'GCC'")
fn = sysconfig.get_config_h_filename()
try:
# It would probably better to read single lines to search.
# But we do this only once, and it is fast enough
f = open(fn)
try:
s = f.read()
finally:
f.close()
except IOError, exc:
# if we can't read this file, we cannot say it is wrong
# the compiler will complain later about this file as missing
return (CONFIG_H_UNCERTAIN,
"couldn't read '%s': %s" % (fn, exc.strerror))
else:
# "pyconfig.h" contains an "#ifdef __GNUC__" or something similar
if string.find(s,"__GNUC__") >= 0:
return (CONFIG_H_OK, "'%s' mentions '__GNUC__'" % fn)
else:
return (CONFIG_H_NOTOK, "'%s' does not mention '__GNUC__'" % fn)
def get_versions():
""" Try to find out the versions of gcc, ld and dllwrap.
If not possible it returns None for it.
"""
from distutils.version import LooseVersion
from distutils.spawn import find_executable
import re
gcc_exe = find_executable('gcc')
if gcc_exe:
out = os.popen(gcc_exe + ' -dumpversion','r')
out_string = out.read()
out.close()
result = re.search('(\d+\.\d+(\.\d+)*)',out_string)
if result:
gcc_version = LooseVersion(result.group(1))
else:
gcc_version = None
else:
gcc_version = None
ld_exe = find_executable('ld')
if ld_exe:
out = os.popen(ld_exe + ' -v','r')
out_string = out.read()
out.close()
result = re.search('(\d+\.\d+(\.\d+)*)',out_string)
if result:
ld_version = LooseVersion(result.group(1))
else:
ld_version = None
else:
ld_version = None
dllwrap_exe = find_executable('dllwrap')
if dllwrap_exe:
out = os.popen(dllwrap_exe + ' --version','r')
out_string = out.read()
out.close()
result = re.search(' (\d+\.\d+(\.\d+)*)',out_string)
if result:
dllwrap_version = LooseVersion(result.group(1))
else:
dllwrap_version = None
else:
dllwrap_version = None
return (gcc_version, ld_version, dllwrap_version)
def is_cygwingcc():
'''Try to determine if the gcc that would be used is from cygwin.'''
out = os.popen('gcc -dumpmachine', 'r')
out_string = out.read()
out.close()
# out_string is the target triplet cpu-vendor-os
# Cygwin's gcc sets the os to 'cygwin'
return out_string.strip().endswith('cygwin')

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import os
__revision__ = "$Id$"
# If DISTUTILS_DEBUG is anything other than the empty string, we run in
# debug mode.
DEBUG = os.environ.get('DISTUTILS_DEBUG')

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"""distutils.dep_util
Utility functions for simple, timestamp-based dependency of files
and groups of files; also, function based entirely on such
timestamp dependency analysis."""
__revision__ = "$Id$"
import os
from stat import ST_MTIME
from distutils.errors import DistutilsFileError
def newer(source, target):
"""Tells if the target is newer than the source.
Return true if 'source' exists and is more recently modified than
'target', or if 'source' exists and 'target' doesn't.
Return false if both exist and 'target' is the same age or younger
than 'source'. Raise DistutilsFileError if 'source' does not exist.
Note that this test is not very accurate: files created in the same second
will have the same "age".
"""
if not os.path.exists(source):
raise DistutilsFileError("file '%s' does not exist" %
os.path.abspath(source))
if not os.path.exists(target):
return True
return os.stat(source)[ST_MTIME] > os.stat(target)[ST_MTIME]
def newer_pairwise(sources, targets):
"""Walk two filename lists in parallel, testing if each source is newer
than its corresponding target. Return a pair of lists (sources,
targets) where source is newer than target, according to the semantics
of 'newer()'.
"""
if len(sources) != len(targets):
raise ValueError, "'sources' and 'targets' must be same length"
# build a pair of lists (sources, targets) where source is newer
n_sources = []
n_targets = []
for source, target in zip(sources, targets):
if newer(source, target):
n_sources.append(source)
n_targets.append(target)
return n_sources, n_targets
def newer_group(sources, target, missing='error'):
"""Return true if 'target' is out-of-date with respect to any file
listed in 'sources'.
In other words, if 'target' exists and is newer
than every file in 'sources', return false; otherwise return true.
'missing' controls what we do when a source file is missing; the
default ("error") is to blow up with an OSError from inside 'stat()';
if it is "ignore", we silently drop any missing source files; if it is
"newer", any missing source files make us assume that 'target' is
out-of-date (this is handy in "dry-run" mode: it'll make you pretend to
carry out commands that wouldn't work because inputs are missing, but
that doesn't matter because you're not actually going to run the
commands).
"""
# If the target doesn't even exist, then it's definitely out-of-date.
if not os.path.exists(target):
return True
# Otherwise we have to find out the hard way: if *any* source file
# is more recent than 'target', then 'target' is out-of-date and
# we can immediately return true. If we fall through to the end
# of the loop, then 'target' is up-to-date and we return false.
target_mtime = os.stat(target)[ST_MTIME]
for source in sources:
if not os.path.exists(source):
if missing == 'error': # blow up when we stat() the file
pass
elif missing == 'ignore': # missing source dropped from
continue # target's dependency list
elif missing == 'newer': # missing source means target is
return True # out-of-date
if os.stat(source)[ST_MTIME] > target_mtime:
return True
return False

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"""distutils.dir_util
Utility functions for manipulating directories and directory trees."""
__revision__ = "$Id$"
import os
import errno
from distutils.errors import DistutilsFileError, DistutilsInternalError
from distutils import log
# cache for by mkpath() -- in addition to cheapening redundant calls,
# eliminates redundant "creating /foo/bar/baz" messages in dry-run mode
_path_created = {}
# I don't use os.makedirs because a) it's new to Python 1.5.2, and
# b) it blows up if the directory already exists (I want to silently
# succeed in that case).
def mkpath(name, mode=0777, verbose=1, dry_run=0):
"""Create a directory and any missing ancestor directories.
If the directory already exists (or if 'name' is the empty string, which
means the current directory, which of course exists), then do nothing.
Raise DistutilsFileError if unable to create some directory along the way
(eg. some sub-path exists, but is a file rather than a directory).
If 'verbose' is true, print a one-line summary of each mkdir to stdout.
Return the list of directories actually created.
"""
global _path_created
# Detect a common bug -- name is None
if not isinstance(name, basestring):
raise DistutilsInternalError, \
"mkpath: 'name' must be a string (got %r)" % (name,)
# XXX what's the better way to handle verbosity? print as we create
# each directory in the path (the current behaviour), or only announce
# the creation of the whole path? (quite easy to do the latter since
# we're not using a recursive algorithm)
name = os.path.normpath(name)
created_dirs = []
if os.path.isdir(name) or name == '':
return created_dirs
if _path_created.get(os.path.abspath(name)):
return created_dirs
(head, tail) = os.path.split(name)
tails = [tail] # stack of lone dirs to create
while head and tail and not os.path.isdir(head):
(head, tail) = os.path.split(head)
tails.insert(0, tail) # push next higher dir onto stack
# now 'head' contains the deepest directory that already exists
# (that is, the child of 'head' in 'name' is the highest directory
# that does *not* exist)
for d in tails:
#print "head = %s, d = %s: " % (head, d),
head = os.path.join(head, d)
abs_head = os.path.abspath(head)
if _path_created.get(abs_head):
continue
if verbose >= 1:
log.info("creating %s", head)
if not dry_run:
try:
os.mkdir(head, mode)
except OSError, exc:
if not (exc.errno == errno.EEXIST and os.path.isdir(head)):
raise DistutilsFileError(
"could not create '%s': %s" % (head, exc.args[-1]))
created_dirs.append(head)
_path_created[abs_head] = 1
return created_dirs
def create_tree(base_dir, files, mode=0777, verbose=1, dry_run=0):
"""Create all the empty directories under 'base_dir' needed to put 'files'
there.
'base_dir' is just the a name of a directory which doesn't necessarily
exist yet; 'files' is a list of filenames to be interpreted relative to
'base_dir'. 'base_dir' + the directory portion of every file in 'files'
will be created if it doesn't already exist. 'mode', 'verbose' and
'dry_run' flags are as for 'mkpath()'.
"""
# First get the list of directories to create
need_dir = {}
for file in files:
need_dir[os.path.join(base_dir, os.path.dirname(file))] = 1
need_dirs = need_dir.keys()
need_dirs.sort()
# Now create them
for dir in need_dirs:
mkpath(dir, mode, verbose=verbose, dry_run=dry_run)
def copy_tree(src, dst, preserve_mode=1, preserve_times=1,
preserve_symlinks=0, update=0, verbose=1, dry_run=0):
"""Copy an entire directory tree 'src' to a new location 'dst'.
Both 'src' and 'dst' must be directory names. If 'src' is not a
directory, raise DistutilsFileError. If 'dst' does not exist, it is
created with 'mkpath()'. The end result of the copy is that every
file in 'src' is copied to 'dst', and directories under 'src' are
recursively copied to 'dst'. Return the list of files that were
copied or might have been copied, using their output name. The
return value is unaffected by 'update' or 'dry_run': it is simply
the list of all files under 'src', with the names changed to be
under 'dst'.
'preserve_mode' and 'preserve_times' are the same as for
'copy_file'; note that they only apply to regular files, not to
directories. If 'preserve_symlinks' is true, symlinks will be
copied as symlinks (on platforms that support them!); otherwise
(the default), the destination of the symlink will be copied.
'update' and 'verbose' are the same as for 'copy_file'.
"""
from distutils.file_util import copy_file
if not dry_run and not os.path.isdir(src):
raise DistutilsFileError, \
"cannot copy tree '%s': not a directory" % src
try:
names = os.listdir(src)
except os.error, (errno, errstr):
if dry_run:
names = []
else:
raise DistutilsFileError, \
"error listing files in '%s': %s" % (src, errstr)
if not dry_run:
mkpath(dst, verbose=verbose)
outputs = []
for n in names:
src_name = os.path.join(src, n)
dst_name = os.path.join(dst, n)
if n.startswith('.nfs'):
# skip NFS rename files
continue
if preserve_symlinks and os.path.islink(src_name):
link_dest = os.readlink(src_name)
if verbose >= 1:
log.info("linking %s -> %s", dst_name, link_dest)
if not dry_run:
os.symlink(link_dest, dst_name)
outputs.append(dst_name)
elif os.path.isdir(src_name):
outputs.extend(
copy_tree(src_name, dst_name, preserve_mode,
preserve_times, preserve_symlinks, update,
verbose=verbose, dry_run=dry_run))
else:
copy_file(src_name, dst_name, preserve_mode,
preserve_times, update, verbose=verbose,
dry_run=dry_run)
outputs.append(dst_name)
return outputs
def _build_cmdtuple(path, cmdtuples):
"""Helper for remove_tree()."""
for f in os.listdir(path):
real_f = os.path.join(path,f)
if os.path.isdir(real_f) and not os.path.islink(real_f):
_build_cmdtuple(real_f, cmdtuples)
else:
cmdtuples.append((os.remove, real_f))
cmdtuples.append((os.rmdir, path))
def remove_tree(directory, verbose=1, dry_run=0):
"""Recursively remove an entire directory tree.
Any errors are ignored (apart from being reported to stdout if 'verbose'
is true).
"""
from distutils.util import grok_environment_error
global _path_created
if verbose >= 1:
log.info("removing '%s' (and everything under it)", directory)
if dry_run:
return
cmdtuples = []
_build_cmdtuple(directory, cmdtuples)
for cmd in cmdtuples:
try:
cmd[0](cmd[1])
# remove dir from cache if it's already there
abspath = os.path.abspath(cmd[1])
if abspath in _path_created:
del _path_created[abspath]
except (IOError, OSError), exc:
log.warn(grok_environment_error(
exc, "error removing %s: " % directory))
def ensure_relative(path):
"""Take the full path 'path', and make it a relative path.
This is useful to make 'path' the second argument to os.path.join().
"""
drive, path = os.path.splitdrive(path)
if path[0:1] == os.sep:
path = drive + path[1:]
return path

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"""distutils.emxccompiler
Provides the EMXCCompiler class, a subclass of UnixCCompiler that
handles the EMX port of the GNU C compiler to OS/2.
"""
# issues:
#
# * OS/2 insists that DLLs can have names no longer than 8 characters
# We put export_symbols in a def-file, as though the DLL can have
# an arbitrary length name, but truncate the output filename.
#
# * only use OMF objects and use LINK386 as the linker (-Zomf)
#
# * always build for multithreading (-Zmt) as the accompanying OS/2 port
# of Python is only distributed with threads enabled.
#
# tested configurations:
#
# * EMX gcc 2.81/EMX 0.9d fix03
__revision__ = "$Id$"
import os,sys,copy
from distutils.ccompiler import gen_preprocess_options, gen_lib_options
from distutils.unixccompiler import UnixCCompiler
from distutils.file_util import write_file
from distutils.errors import DistutilsExecError, CompileError, UnknownFileError
from distutils import log
class EMXCCompiler (UnixCCompiler):
compiler_type = 'emx'
obj_extension = ".obj"
static_lib_extension = ".lib"
shared_lib_extension = ".dll"
static_lib_format = "%s%s"
shared_lib_format = "%s%s"
res_extension = ".res" # compiled resource file
exe_extension = ".exe"
def __init__ (self,
verbose=0,
dry_run=0,
force=0):
UnixCCompiler.__init__ (self, verbose, dry_run, force)
(status, details) = check_config_h()
self.debug_print("Python's GCC status: %s (details: %s)" %
(status, details))
if status is not CONFIG_H_OK:
self.warn(
"Python's pyconfig.h doesn't seem to support your compiler. " +
("Reason: %s." % details) +
"Compiling may fail because of undefined preprocessor macros.")
(self.gcc_version, self.ld_version) = \
get_versions()
self.debug_print(self.compiler_type + ": gcc %s, ld %s\n" %
(self.gcc_version,
self.ld_version) )
# Hard-code GCC because that's what this is all about.
# XXX optimization, warnings etc. should be customizable.
self.set_executables(compiler='gcc -Zomf -Zmt -O3 -fomit-frame-pointer -mprobe -Wall',
compiler_so='gcc -Zomf -Zmt -O3 -fomit-frame-pointer -mprobe -Wall',
linker_exe='gcc -Zomf -Zmt -Zcrtdll',
linker_so='gcc -Zomf -Zmt -Zcrtdll -Zdll')
# want the gcc library statically linked (so that we don't have
# to distribute a version dependent on the compiler we have)
self.dll_libraries=["gcc"]
# __init__ ()
def _compile(self, obj, src, ext, cc_args, extra_postargs, pp_opts):
if ext == '.rc':
# gcc requires '.rc' compiled to binary ('.res') files !!!
try:
self.spawn(["rc", "-r", src])
except DistutilsExecError, msg:
raise CompileError, msg
else: # for other files use the C-compiler
try:
self.spawn(self.compiler_so + cc_args + [src, '-o', obj] +
extra_postargs)
except DistutilsExecError, msg:
raise CompileError, msg
def link (self,
target_desc,
objects,
output_filename,
output_dir=None,
libraries=None,
library_dirs=None,
runtime_library_dirs=None,
export_symbols=None,
debug=0,
extra_preargs=None,
extra_postargs=None,
build_temp=None,
target_lang=None):
# use separate copies, so we can modify the lists
extra_preargs = copy.copy(extra_preargs or [])
libraries = copy.copy(libraries or [])
objects = copy.copy(objects or [])
# Additional libraries
libraries.extend(self.dll_libraries)
# handle export symbols by creating a def-file
# with executables this only works with gcc/ld as linker
if ((export_symbols is not None) and
(target_desc != self.EXECUTABLE)):
# (The linker doesn't do anything if output is up-to-date.
# So it would probably better to check if we really need this,
# but for this we had to insert some unchanged parts of
# UnixCCompiler, and this is not what we want.)
# we want to put some files in the same directory as the
# object files are, build_temp doesn't help much
# where are the object files
temp_dir = os.path.dirname(objects[0])
# name of dll to give the helper files the same base name
(dll_name, dll_extension) = os.path.splitext(
os.path.basename(output_filename))
# generate the filenames for these files
def_file = os.path.join(temp_dir, dll_name + ".def")
# Generate .def file
contents = [
"LIBRARY %s INITINSTANCE TERMINSTANCE" % \
os.path.splitext(os.path.basename(output_filename))[0],
"DATA MULTIPLE NONSHARED",
"EXPORTS"]
for sym in export_symbols:
contents.append(' "%s"' % sym)
self.execute(write_file, (def_file, contents),
"writing %s" % def_file)
# next add options for def-file and to creating import libraries
# for gcc/ld the def-file is specified as any other object files
objects.append(def_file)
#end: if ((export_symbols is not None) and
# (target_desc != self.EXECUTABLE or self.linker_dll == "gcc")):
# who wants symbols and a many times larger output file
# should explicitly switch the debug mode on
# otherwise we let dllwrap/ld strip the output file
# (On my machine: 10KB < stripped_file < ??100KB
# unstripped_file = stripped_file + XXX KB
# ( XXX=254 for a typical python extension))
if not debug:
extra_preargs.append("-s")
UnixCCompiler.link(self,
target_desc,
objects,
output_filename,
output_dir,
libraries,
library_dirs,
runtime_library_dirs,
None, # export_symbols, we do this in our def-file
debug,
extra_preargs,
extra_postargs,
build_temp,
target_lang)
# link ()
# -- Miscellaneous methods -----------------------------------------
# override the object_filenames method from CCompiler to
# support rc and res-files
def object_filenames (self,
source_filenames,
strip_dir=0,
output_dir=''):
if output_dir is None: output_dir = ''
obj_names = []
for src_name in source_filenames:
# use normcase to make sure '.rc' is really '.rc' and not '.RC'
(base, ext) = os.path.splitext (os.path.normcase(src_name))
if ext not in (self.src_extensions + ['.rc']):
raise UnknownFileError, \
"unknown file type '%s' (from '%s')" % \
(ext, src_name)
if strip_dir:
base = os.path.basename (base)
if ext == '.rc':
# these need to be compiled to object files
obj_names.append (os.path.join (output_dir,
base + self.res_extension))
else:
obj_names.append (os.path.join (output_dir,
base + self.obj_extension))
return obj_names
# object_filenames ()
# override the find_library_file method from UnixCCompiler
# to deal with file naming/searching differences
def find_library_file(self, dirs, lib, debug=0):
shortlib = '%s.lib' % lib
longlib = 'lib%s.lib' % lib # this form very rare
# get EMX's default library directory search path
try:
emx_dirs = os.environ['LIBRARY_PATH'].split(';')
except KeyError:
emx_dirs = []
for dir in dirs + emx_dirs:
shortlibp = os.path.join(dir, shortlib)
longlibp = os.path.join(dir, longlib)
if os.path.exists(shortlibp):
return shortlibp
elif os.path.exists(longlibp):
return longlibp
# Oops, didn't find it in *any* of 'dirs'
return None
# class EMXCCompiler
# Because these compilers aren't configured in Python's pyconfig.h file by
# default, we should at least warn the user if he is using a unmodified
# version.
CONFIG_H_OK = "ok"
CONFIG_H_NOTOK = "not ok"
CONFIG_H_UNCERTAIN = "uncertain"
def check_config_h():
"""Check if the current Python installation (specifically, pyconfig.h)
appears amenable to building extensions with GCC. Returns a tuple
(status, details), where 'status' is one of the following constants:
CONFIG_H_OK
all is well, go ahead and compile
CONFIG_H_NOTOK
doesn't look good
CONFIG_H_UNCERTAIN
not sure -- unable to read pyconfig.h
'details' is a human-readable string explaining the situation.
Note there are two ways to conclude "OK": either 'sys.version' contains
the string "GCC" (implying that this Python was built with GCC), or the
installed "pyconfig.h" contains the string "__GNUC__".
"""
# XXX since this function also checks sys.version, it's not strictly a
# "pyconfig.h" check -- should probably be renamed...
from distutils import sysconfig
import string
# if sys.version contains GCC then python was compiled with
# GCC, and the pyconfig.h file should be OK
if string.find(sys.version,"GCC") >= 0:
return (CONFIG_H_OK, "sys.version mentions 'GCC'")
fn = sysconfig.get_config_h_filename()
try:
# It would probably better to read single lines to search.
# But we do this only once, and it is fast enough
f = open(fn)
try:
s = f.read()
finally:
f.close()
except IOError, exc:
# if we can't read this file, we cannot say it is wrong
# the compiler will complain later about this file as missing
return (CONFIG_H_UNCERTAIN,
"couldn't read '%s': %s" % (fn, exc.strerror))
else:
# "pyconfig.h" contains an "#ifdef __GNUC__" or something similar
if string.find(s,"__GNUC__") >= 0:
return (CONFIG_H_OK, "'%s' mentions '__GNUC__'" % fn)
else:
return (CONFIG_H_NOTOK, "'%s' does not mention '__GNUC__'" % fn)
def get_versions():
""" Try to find out the versions of gcc and ld.
If not possible it returns None for it.
"""
from distutils.version import StrictVersion
from distutils.spawn import find_executable
import re
gcc_exe = find_executable('gcc')
if gcc_exe:
out = os.popen(gcc_exe + ' -dumpversion','r')
try:
out_string = out.read()
finally:
out.close()
result = re.search('(\d+\.\d+\.\d+)',out_string)
if result:
gcc_version = StrictVersion(result.group(1))
else:
gcc_version = None
else:
gcc_version = None
# EMX ld has no way of reporting version number, and we use GCC
# anyway - so we can link OMF DLLs
ld_version = None
return (gcc_version, ld_version)

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"""distutils.errors
Provides exceptions used by the Distutils modules. Note that Distutils
modules may raise standard exceptions; in particular, SystemExit is
usually raised for errors that are obviously the end-user's fault
(eg. bad command-line arguments).
This module is safe to use in "from ... import *" mode; it only exports
symbols whose names start with "Distutils" and end with "Error"."""
__revision__ = "$Id$"
class DistutilsError(Exception):
"""The root of all Distutils evil."""
class DistutilsModuleError(DistutilsError):
"""Unable to load an expected module, or to find an expected class
within some module (in particular, command modules and classes)."""
class DistutilsClassError(DistutilsError):
"""Some command class (or possibly distribution class, if anyone
feels a need to subclass Distribution) is found not to be holding
up its end of the bargain, ie. implementing some part of the
"command "interface."""
class DistutilsGetoptError(DistutilsError):
"""The option table provided to 'fancy_getopt()' is bogus."""
class DistutilsArgError(DistutilsError):
"""Raised by fancy_getopt in response to getopt.error -- ie. an
error in the command line usage."""
class DistutilsFileError(DistutilsError):
"""Any problems in the filesystem: expected file not found, etc.
Typically this is for problems that we detect before IOError or
OSError could be raised."""
class DistutilsOptionError(DistutilsError):
"""Syntactic/semantic errors in command options, such as use of
mutually conflicting options, or inconsistent options,
badly-spelled values, etc. No distinction is made between option
values originating in the setup script, the command line, config
files, or what-have-you -- but if we *know* something originated in
the setup script, we'll raise DistutilsSetupError instead."""
class DistutilsSetupError(DistutilsError):
"""For errors that can be definitely blamed on the setup script,
such as invalid keyword arguments to 'setup()'."""
class DistutilsPlatformError(DistutilsError):
"""We don't know how to do something on the current platform (but
we do know how to do it on some platform) -- eg. trying to compile
C files on a platform not supported by a CCompiler subclass."""
class DistutilsExecError(DistutilsError):
"""Any problems executing an external program (such as the C
compiler, when compiling C files)."""
class DistutilsInternalError(DistutilsError):
"""Internal inconsistencies or impossibilities (obviously, this
should never be seen if the code is working!)."""
class DistutilsTemplateError(DistutilsError):
"""Syntax error in a file list template."""
class DistutilsByteCompileError(DistutilsError):
"""Byte compile error."""
# Exception classes used by the CCompiler implementation classes
class CCompilerError(Exception):
"""Some compile/link operation failed."""
class PreprocessError(CCompilerError):
"""Failure to preprocess one or more C/C++ files."""
class CompileError(CCompilerError):
"""Failure to compile one or more C/C++ source files."""
class LibError(CCompilerError):
"""Failure to create a static library from one or more C/C++ object
files."""
class LinkError(CCompilerError):
"""Failure to link one or more C/C++ object files into an executable
or shared library file."""
class UnknownFileError(CCompilerError):
"""Attempt to process an unknown file type."""

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"""distutils.extension
Provides the Extension class, used to describe C/C++ extension
modules in setup scripts."""
__revision__ = "$Id$"
import os, string, sys
from types import *
try:
import warnings
except ImportError:
warnings = None
# This class is really only used by the "build_ext" command, so it might
# make sense to put it in distutils.command.build_ext. However, that
# module is already big enough, and I want to make this class a bit more
# complex to simplify some common cases ("foo" module in "foo.c") and do
# better error-checking ("foo.c" actually exists).
#
# Also, putting this in build_ext.py means every setup script would have to
# import that large-ish module (indirectly, through distutils.core) in
# order to do anything.
class Extension:
"""Just a collection of attributes that describes an extension
module and everything needed to build it (hopefully in a portable
way, but there are hooks that let you be as unportable as you need).
Instance attributes:
name : string
the full name of the extension, including any packages -- ie.
*not* a filename or pathname, but Python dotted name
sources : [string]
list of source filenames, relative to the distribution root
(where the setup script lives), in Unix form (slash-separated)
for portability. Source files may be C, C++, SWIG (.i),
platform-specific resource files, or whatever else is recognized
by the "build_ext" command as source for a Python extension.
include_dirs : [string]
list of directories to search for C/C++ header files (in Unix
form for portability)
define_macros : [(name : string, value : string|None)]
list of macros to define; each macro is defined using a 2-tuple,
where 'value' is either the string to define it to or None to
define it without a particular value (equivalent of "#define
FOO" in source or -DFOO on Unix C compiler command line)
undef_macros : [string]
list of macros to undefine explicitly
library_dirs : [string]
list of directories to search for C/C++ libraries at link time
libraries : [string]
list of library names (not filenames or paths) to link against
runtime_library_dirs : [string]
list of directories to search for C/C++ libraries at run time
(for shared extensions, this is when the extension is loaded)
extra_objects : [string]
list of extra files to link with (eg. object files not implied
by 'sources', static library that must be explicitly specified,
binary resource files, etc.)
extra_compile_args : [string]
any extra platform- and compiler-specific information to use
when compiling the source files in 'sources'. For platforms and
compilers where "command line" makes sense, this is typically a
list of command-line arguments, but for other platforms it could
be anything.
extra_link_args : [string]
any extra platform- and compiler-specific information to use
when linking object files together to create the extension (or
to create a new static Python interpreter). Similar
interpretation as for 'extra_compile_args'.
export_symbols : [string]
list of symbols to be exported from a shared extension. Not
used on all platforms, and not generally necessary for Python
extensions, which typically export exactly one symbol: "init" +
extension_name.
swig_opts : [string]
any extra options to pass to SWIG if a source file has the .i
extension.
depends : [string]
list of files that the extension depends on
language : string
extension language (i.e. "c", "c++", "objc"). Will be detected
from the source extensions if not provided.
"""
# When adding arguments to this constructor, be sure to update
# setup_keywords in core.py.
def __init__ (self, name, sources,
include_dirs=None,
define_macros=None,
undef_macros=None,
library_dirs=None,
libraries=None,
runtime_library_dirs=None,
extra_objects=None,
extra_compile_args=None,
extra_link_args=None,
export_symbols=None,
swig_opts = None,
depends=None,
language=None,
**kw # To catch unknown keywords
):
assert type(name) is StringType, "'name' must be a string"
assert (type(sources) is ListType and
map(type, sources) == [StringType]*len(sources)), \
"'sources' must be a list of strings"
self.name = name
self.sources = sources
self.include_dirs = include_dirs or []
self.define_macros = define_macros or []
self.undef_macros = undef_macros or []
self.library_dirs = library_dirs or []
self.libraries = libraries or []
self.runtime_library_dirs = runtime_library_dirs or []
self.extra_objects = extra_objects or []
self.extra_compile_args = extra_compile_args or []
self.extra_link_args = extra_link_args or []
self.export_symbols = export_symbols or []
self.swig_opts = swig_opts or []
self.depends = depends or []
self.language = language
# If there are unknown keyword options, warn about them
if len(kw):
L = kw.keys() ; L.sort()
L = map(repr, L)
msg = "Unknown Extension options: " + string.join(L, ', ')
if warnings is not None:
warnings.warn(msg)
else:
sys.stderr.write(msg + '\n')
# class Extension
def read_setup_file (filename):
from distutils.sysconfig import \
parse_makefile, expand_makefile_vars, _variable_rx
from distutils.text_file import TextFile
from distutils.util import split_quoted
# First pass over the file to gather "VAR = VALUE" assignments.
vars = parse_makefile(filename)
# Second pass to gobble up the real content: lines of the form
# <module> ... [<sourcefile> ...] [<cpparg> ...] [<library> ...]
file = TextFile(filename,
strip_comments=1, skip_blanks=1, join_lines=1,
lstrip_ws=1, rstrip_ws=1)
try:
extensions = []
while 1:
line = file.readline()
if line is None: # eof
break
if _variable_rx.match(line): # VAR=VALUE, handled in first pass
continue
if line[0] == line[-1] == "*":
file.warn("'%s' lines not handled yet" % line)
continue
#print "original line: " + line
line = expand_makefile_vars(line, vars)
words = split_quoted(line)
#print "expanded line: " + line
# NB. this parses a slightly different syntax than the old
# makesetup script: here, there must be exactly one extension per
# line, and it must be the first word of the line. I have no idea
# why the old syntax supported multiple extensions per line, as
# they all wind up being the same.
module = words[0]
ext = Extension(module, [])
append_next_word = None
for word in words[1:]:
if append_next_word is not None:
append_next_word.append(word)
append_next_word = None
continue
suffix = os.path.splitext(word)[1]
switch = word[0:2] ; value = word[2:]
if suffix in (".c", ".cc", ".cpp", ".cxx", ".c++", ".m", ".mm"):
# hmm, should we do something about C vs. C++ sources?
# or leave it up to the CCompiler implementation to
# worry about?
ext.sources.append(word)
elif switch == "-I":
ext.include_dirs.append(value)
elif switch == "-D":
equals = string.find(value, "=")
if equals == -1: # bare "-DFOO" -- no value
ext.define_macros.append((value, None))
else: # "-DFOO=blah"
ext.define_macros.append((value[0:equals],
value[equals+2:]))
elif switch == "-U":
ext.undef_macros.append(value)
elif switch == "-C": # only here 'cause makesetup has it!
ext.extra_compile_args.append(word)
elif switch == "-l":
ext.libraries.append(value)
elif switch == "-L":
ext.library_dirs.append(value)
elif switch == "-R":
ext.runtime_library_dirs.append(value)
elif word == "-rpath":
append_next_word = ext.runtime_library_dirs
elif word == "-Xlinker":
append_next_word = ext.extra_link_args
elif word == "-Xcompiler":
append_next_word = ext.extra_compile_args
elif switch == "-u":
ext.extra_link_args.append(word)
if not value:
append_next_word = ext.extra_link_args
elif word == "-Xcompiler":
append_next_word = ext.extra_compile_args
elif switch == "-u":
ext.extra_link_args.append(word)
if not value:
append_next_word = ext.extra_link_args
elif suffix in (".a", ".so", ".sl", ".o", ".dylib"):
# NB. a really faithful emulation of makesetup would
# append a .o file to extra_objects only if it
# had a slash in it; otherwise, it would s/.o/.c/
# and append it to sources. Hmmmm.
ext.extra_objects.append(word)
else:
file.warn("unrecognized argument '%s'" % word)
extensions.append(ext)
finally:
file.close()
#print "module:", module
#print "source files:", source_files
#print "cpp args:", cpp_args
#print "lib args:", library_args
#extensions[module] = { 'sources': source_files,
# 'cpp_args': cpp_args,
# 'lib_args': library_args }
return extensions
# read_setup_file ()

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"""distutils.fancy_getopt
Wrapper around the standard getopt module that provides the following
additional features:
* short and long options are tied together
* options have help strings, so fancy_getopt could potentially
create a complete usage summary
* options set attributes of a passed-in object
"""
__revision__ = "$Id$"
import sys
import string
import re
import getopt
from distutils.errors import DistutilsGetoptError, DistutilsArgError
# Much like command_re in distutils.core, this is close to but not quite
# the same as a Python NAME -- except, in the spirit of most GNU
# utilities, we use '-' in place of '_'. (The spirit of LISP lives on!)
# The similarities to NAME are again not a coincidence...
longopt_pat = r'[a-zA-Z](?:[a-zA-Z0-9-]*)'
longopt_re = re.compile(r'^%s$' % longopt_pat)
# For recognizing "negative alias" options, eg. "quiet=!verbose"
neg_alias_re = re.compile("^(%s)=!(%s)$" % (longopt_pat, longopt_pat))
# This is used to translate long options to legitimate Python identifiers
# (for use as attributes of some object).
longopt_xlate = string.maketrans('-', '_')
class FancyGetopt:
"""Wrapper around the standard 'getopt()' module that provides some
handy extra functionality:
* short and long options are tied together
* options have help strings, and help text can be assembled
from them
* options set attributes of a passed-in object
* boolean options can have "negative aliases" -- eg. if
--quiet is the "negative alias" of --verbose, then "--quiet"
on the command line sets 'verbose' to false
"""
def __init__ (self, option_table=None):
# The option table is (currently) a list of tuples. The
# tuples may have 3 or four values:
# (long_option, short_option, help_string [, repeatable])
# if an option takes an argument, its long_option should have '='
# appended; short_option should just be a single character, no ':'
# in any case. If a long_option doesn't have a corresponding
# short_option, short_option should be None. All option tuples
# must have long options.
self.option_table = option_table
# 'option_index' maps long option names to entries in the option
# table (ie. those 3-tuples).
self.option_index = {}
if self.option_table:
self._build_index()
# 'alias' records (duh) alias options; {'foo': 'bar'} means
# --foo is an alias for --bar
self.alias = {}
# 'negative_alias' keeps track of options that are the boolean
# opposite of some other option
self.negative_alias = {}
# These keep track of the information in the option table. We
# don't actually populate these structures until we're ready to
# parse the command-line, since the 'option_table' passed in here
# isn't necessarily the final word.
self.short_opts = []
self.long_opts = []
self.short2long = {}
self.attr_name = {}
self.takes_arg = {}
# And 'option_order' is filled up in 'getopt()'; it records the
# original order of options (and their values) on the command-line,
# but expands short options, converts aliases, etc.
self.option_order = []
# __init__ ()
def _build_index (self):
self.option_index.clear()
for option in self.option_table:
self.option_index[option[0]] = option
def set_option_table (self, option_table):
self.option_table = option_table
self._build_index()
def add_option (self, long_option, short_option=None, help_string=None):
if long_option in self.option_index:
raise DistutilsGetoptError, \
"option conflict: already an option '%s'" % long_option
else:
option = (long_option, short_option, help_string)
self.option_table.append(option)
self.option_index[long_option] = option
def has_option (self, long_option):
"""Return true if the option table for this parser has an
option with long name 'long_option'."""
return long_option in self.option_index
def get_attr_name (self, long_option):
"""Translate long option name 'long_option' to the form it
has as an attribute of some object: ie., translate hyphens
to underscores."""
return string.translate(long_option, longopt_xlate)
def _check_alias_dict (self, aliases, what):
assert isinstance(aliases, dict)
for (alias, opt) in aliases.items():
if alias not in self.option_index:
raise DistutilsGetoptError, \
("invalid %s '%s': "
"option '%s' not defined") % (what, alias, alias)
if opt not in self.option_index:
raise DistutilsGetoptError, \
("invalid %s '%s': "
"aliased option '%s' not defined") % (what, alias, opt)
def set_aliases (self, alias):
"""Set the aliases for this option parser."""
self._check_alias_dict(alias, "alias")
self.alias = alias
def set_negative_aliases (self, negative_alias):
"""Set the negative aliases for this option parser.
'negative_alias' should be a dictionary mapping option names to
option names, both the key and value must already be defined
in the option table."""
self._check_alias_dict(negative_alias, "negative alias")
self.negative_alias = negative_alias
def _grok_option_table (self):
"""Populate the various data structures that keep tabs on the
option table. Called by 'getopt()' before it can do anything
worthwhile.
"""
self.long_opts = []
self.short_opts = []
self.short2long.clear()
self.repeat = {}
for option in self.option_table:
if len(option) == 3:
long, short, help = option
repeat = 0
elif len(option) == 4:
long, short, help, repeat = option
else:
# the option table is part of the code, so simply
# assert that it is correct
raise ValueError, "invalid option tuple: %r" % (option,)
# Type- and value-check the option names
if not isinstance(long, str) or len(long) < 2:
raise DistutilsGetoptError, \
("invalid long option '%s': "
"must be a string of length >= 2") % long
if (not ((short is None) or
(isinstance(short, str) and len(short) == 1))):
raise DistutilsGetoptError, \
("invalid short option '%s': "
"must a single character or None") % short
self.repeat[long] = repeat
self.long_opts.append(long)
if long[-1] == '=': # option takes an argument?
if short: short = short + ':'
long = long[0:-1]
self.takes_arg[long] = 1
else:
# Is option is a "negative alias" for some other option (eg.
# "quiet" == "!verbose")?
alias_to = self.negative_alias.get(long)
if alias_to is not None:
if self.takes_arg[alias_to]:
raise DistutilsGetoptError, \
("invalid negative alias '%s': "
"aliased option '%s' takes a value") % \
(long, alias_to)
self.long_opts[-1] = long # XXX redundant?!
self.takes_arg[long] = 0
else:
self.takes_arg[long] = 0
# If this is an alias option, make sure its "takes arg" flag is
# the same as the option it's aliased to.
alias_to = self.alias.get(long)
if alias_to is not None:
if self.takes_arg[long] != self.takes_arg[alias_to]:
raise DistutilsGetoptError, \
("invalid alias '%s': inconsistent with "
"aliased option '%s' (one of them takes a value, "
"the other doesn't") % (long, alias_to)
# Now enforce some bondage on the long option name, so we can
# later translate it to an attribute name on some object. Have
# to do this a bit late to make sure we've removed any trailing
# '='.
if not longopt_re.match(long):
raise DistutilsGetoptError, \
("invalid long option name '%s' " +
"(must be letters, numbers, hyphens only") % long
self.attr_name[long] = self.get_attr_name(long)
if short:
self.short_opts.append(short)
self.short2long[short[0]] = long
# for option_table
# _grok_option_table()
def getopt (self, args=None, object=None):
"""Parse command-line options in args. Store as attributes on object.
If 'args' is None or not supplied, uses 'sys.argv[1:]'. If
'object' is None or not supplied, creates a new OptionDummy
object, stores option values there, and returns a tuple (args,
object). If 'object' is supplied, it is modified in place and
'getopt()' just returns 'args'; in both cases, the returned
'args' is a modified copy of the passed-in 'args' list, which
is left untouched.
"""
if args is None:
args = sys.argv[1:]
if object is None:
object = OptionDummy()
created_object = 1
else:
created_object = 0
self._grok_option_table()
short_opts = string.join(self.short_opts)
try:
opts, args = getopt.getopt(args, short_opts, self.long_opts)
except getopt.error, msg:
raise DistutilsArgError, msg
for opt, val in opts:
if len(opt) == 2 and opt[0] == '-': # it's a short option
opt = self.short2long[opt[1]]
else:
assert len(opt) > 2 and opt[:2] == '--'
opt = opt[2:]
alias = self.alias.get(opt)
if alias:
opt = alias
if not self.takes_arg[opt]: # boolean option?
assert val == '', "boolean option can't have value"
alias = self.negative_alias.get(opt)
if alias:
opt = alias
val = 0
else:
val = 1
attr = self.attr_name[opt]
# The only repeating option at the moment is 'verbose'.
# It has a negative option -q quiet, which should set verbose = 0.
if val and self.repeat.get(attr) is not None:
val = getattr(object, attr, 0) + 1
setattr(object, attr, val)
self.option_order.append((opt, val))
# for opts
if created_object:
return args, object
else:
return args
# getopt()
def get_option_order (self):
"""Returns the list of (option, value) tuples processed by the
previous run of 'getopt()'. Raises RuntimeError if
'getopt()' hasn't been called yet.
"""
if self.option_order is None:
raise RuntimeError, "'getopt()' hasn't been called yet"
else:
return self.option_order
def generate_help (self, header=None):
"""Generate help text (a list of strings, one per suggested line of
output) from the option table for this FancyGetopt object.
"""
# Blithely assume the option table is good: probably wouldn't call
# 'generate_help()' unless you've already called 'getopt()'.
# First pass: determine maximum length of long option names
max_opt = 0
for option in self.option_table:
long = option[0]
short = option[1]
l = len(long)
if long[-1] == '=':
l = l - 1
if short is not None:
l = l + 5 # " (-x)" where short == 'x'
if l > max_opt:
max_opt = l
opt_width = max_opt + 2 + 2 + 2 # room for indent + dashes + gutter
# Typical help block looks like this:
# --foo controls foonabulation
# Help block for longest option looks like this:
# --flimflam set the flim-flam level
# and with wrapped text:
# --flimflam set the flim-flam level (must be between
# 0 and 100, except on Tuesdays)
# Options with short names will have the short name shown (but
# it doesn't contribute to max_opt):
# --foo (-f) controls foonabulation
# If adding the short option would make the left column too wide,
# we push the explanation off to the next line
# --flimflam (-l)
# set the flim-flam level
# Important parameters:
# - 2 spaces before option block start lines
# - 2 dashes for each long option name
# - min. 2 spaces between option and explanation (gutter)
# - 5 characters (incl. space) for short option name
# Now generate lines of help text. (If 80 columns were good enough
# for Jesus, then 78 columns are good enough for me!)
line_width = 78
text_width = line_width - opt_width
big_indent = ' ' * opt_width
if header:
lines = [header]
else:
lines = ['Option summary:']
for option in self.option_table:
long, short, help = option[:3]
text = wrap_text(help, text_width)
if long[-1] == '=':
long = long[0:-1]
# Case 1: no short option at all (makes life easy)
if short is None:
if text:
lines.append(" --%-*s %s" % (max_opt, long, text[0]))
else:
lines.append(" --%-*s " % (max_opt, long))
# Case 2: we have a short option, so we have to include it
# just after the long option
else:
opt_names = "%s (-%s)" % (long, short)
if text:
lines.append(" --%-*s %s" %
(max_opt, opt_names, text[0]))
else:
lines.append(" --%-*s" % opt_names)
for l in text[1:]:
lines.append(big_indent + l)
# for self.option_table
return lines
# generate_help ()
def print_help (self, header=None, file=None):
if file is None:
file = sys.stdout
for line in self.generate_help(header):
file.write(line + "\n")
# class FancyGetopt
def fancy_getopt (options, negative_opt, object, args):
parser = FancyGetopt(options)
parser.set_negative_aliases(negative_opt)
return parser.getopt(args, object)
WS_TRANS = string.maketrans(string.whitespace, ' ' * len(string.whitespace))
def wrap_text (text, width):
"""wrap_text(text : string, width : int) -> [string]
Split 'text' into multiple lines of no more than 'width' characters
each, and return the list of strings that results.
"""
if text is None:
return []
if len(text) <= width:
return [text]
text = string.expandtabs(text)
text = string.translate(text, WS_TRANS)
chunks = re.split(r'( +|-+)', text)
chunks = filter(None, chunks) # ' - ' results in empty strings
lines = []
while chunks:
cur_line = [] # list of chunks (to-be-joined)
cur_len = 0 # length of current line
while chunks:
l = len(chunks[0])
if cur_len + l <= width: # can squeeze (at least) this chunk in
cur_line.append(chunks[0])
del chunks[0]
cur_len = cur_len + l
else: # this line is full
# drop last chunk if all space
if cur_line and cur_line[-1][0] == ' ':
del cur_line[-1]
break
if chunks: # any chunks left to process?
# if the current line is still empty, then we had a single
# chunk that's too big too fit on a line -- so we break
# down and break it up at the line width
if cur_len == 0:
cur_line.append(chunks[0][0:width])
chunks[0] = chunks[0][width:]
# all-whitespace chunks at the end of a line can be discarded
# (and we know from the re.split above that if a chunk has
# *any* whitespace, it is *all* whitespace)
if chunks[0][0] == ' ':
del chunks[0]
# and store this line in the list-of-all-lines -- as a single
# string, of course!
lines.append(string.join(cur_line, ''))
# while chunks
return lines
def translate_longopt(opt):
"""Convert a long option name to a valid Python identifier by
changing "-" to "_".
"""
return string.translate(opt, longopt_xlate)
class OptionDummy:
"""Dummy class just used as a place to hold command-line option
values as instance attributes."""
def __init__ (self, options=[]):
"""Create a new OptionDummy instance. The attributes listed in
'options' will be initialized to None."""
for opt in options:
setattr(self, opt, None)

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"""distutils.file_util
Utility functions for operating on single files.
"""
__revision__ = "$Id$"
import os
from distutils.errors import DistutilsFileError
from distutils import log
# for generating verbose output in 'copy_file()'
_copy_action = {None: 'copying',
'hard': 'hard linking',
'sym': 'symbolically linking'}
def _copy_file_contents(src, dst, buffer_size=16*1024):
"""Copy the file 'src' to 'dst'.
Both must be filenames. Any error opening either file, reading from
'src', or writing to 'dst', raises DistutilsFileError. Data is
read/written in chunks of 'buffer_size' bytes (default 16k). No attempt
is made to handle anything apart from regular files.
"""
# Stolen from shutil module in the standard library, but with
# custom error-handling added.
fsrc = None
fdst = None
try:
try:
fsrc = open(src, 'rb')
except os.error, (errno, errstr):
raise DistutilsFileError("could not open '%s': %s" % (src, errstr))
if os.path.exists(dst):
try:
os.unlink(dst)
except os.error, (errno, errstr):
raise DistutilsFileError(
"could not delete '%s': %s" % (dst, errstr))
try:
fdst = open(dst, 'wb')
except os.error, (errno, errstr):
raise DistutilsFileError(
"could not create '%s': %s" % (dst, errstr))
while 1:
try:
buf = fsrc.read(buffer_size)
except os.error, (errno, errstr):
raise DistutilsFileError(
"could not read from '%s': %s" % (src, errstr))
if not buf:
break
try:
fdst.write(buf)
except os.error, (errno, errstr):
raise DistutilsFileError(
"could not write to '%s': %s" % (dst, errstr))
finally:
if fdst:
fdst.close()
if fsrc:
fsrc.close()
def copy_file(src, dst, preserve_mode=1, preserve_times=1, update=0,
link=None, verbose=1, dry_run=0):
"""Copy a file 'src' to 'dst'.
If 'dst' is a directory, then 'src' is copied there with the same name;
otherwise, it must be a filename. (If the file exists, it will be
ruthlessly clobbered.) If 'preserve_mode' is true (the default),
the file's mode (type and permission bits, or whatever is analogous on
the current platform) is copied. If 'preserve_times' is true (the
default), the last-modified and last-access times are copied as well.
If 'update' is true, 'src' will only be copied if 'dst' does not exist,
or if 'dst' does exist but is older than 'src'.
'link' allows you to make hard links (os.link) or symbolic links
(os.symlink) instead of copying: set it to "hard" or "sym"; if it is
None (the default), files are copied. Don't set 'link' on systems that
don't support it: 'copy_file()' doesn't check if hard or symbolic
linking is available.
Under Mac OS, uses the native file copy function in macostools; on
other systems, uses '_copy_file_contents()' to copy file contents.
Return a tuple (dest_name, copied): 'dest_name' is the actual name of
the output file, and 'copied' is true if the file was copied (or would
have been copied, if 'dry_run' true).
"""
# XXX if the destination file already exists, we clobber it if
# copying, but blow up if linking. Hmmm. And I don't know what
# macostools.copyfile() does. Should definitely be consistent, and
# should probably blow up if destination exists and we would be
# changing it (ie. it's not already a hard/soft link to src OR
# (not update) and (src newer than dst).
from distutils.dep_util import newer
from stat import ST_ATIME, ST_MTIME, ST_MODE, S_IMODE
if not os.path.isfile(src):
raise DistutilsFileError(
"can't copy '%s': doesn't exist or not a regular file" % src)
if os.path.isdir(dst):
dir = dst
dst = os.path.join(dst, os.path.basename(src))
else:
dir = os.path.dirname(dst)
if update and not newer(src, dst):
if verbose >= 1:
log.debug("not copying %s (output up-to-date)", src)
return dst, 0
try:
action = _copy_action[link]
except KeyError:
raise ValueError("invalid value '%s' for 'link' argument" % link)
if verbose >= 1:
if os.path.basename(dst) == os.path.basename(src):
log.info("%s %s -> %s", action, src, dir)
else:
log.info("%s %s -> %s", action, src, dst)
if dry_run:
return (dst, 1)
# If linking (hard or symbolic), use the appropriate system call
# (Unix only, of course, but that's the caller's responsibility)
if link == 'hard':
if not (os.path.exists(dst) and os.path.samefile(src, dst)):
os.link(src, dst)
elif link == 'sym':
if not (os.path.exists(dst) and os.path.samefile(src, dst)):
os.symlink(src, dst)
# Otherwise (non-Mac, not linking), copy the file contents and
# (optionally) copy the times and mode.
else:
_copy_file_contents(src, dst)
if preserve_mode or preserve_times:
st = os.stat(src)
# According to David Ascher <da@ski.org>, utime() should be done
# before chmod() (at least under NT).
if preserve_times:
os.utime(dst, (st[ST_ATIME], st[ST_MTIME]))
if preserve_mode:
os.chmod(dst, S_IMODE(st[ST_MODE]))
return (dst, 1)
# XXX I suspect this is Unix-specific -- need porting help!
def move_file (src, dst, verbose=1, dry_run=0):
"""Move a file 'src' to 'dst'.
If 'dst' is a directory, the file will be moved into it with the same
name; otherwise, 'src' is just renamed to 'dst'. Return the new
full name of the file.
Handles cross-device moves on Unix using 'copy_file()'. What about
other systems???
"""
from os.path import exists, isfile, isdir, basename, dirname
import errno
if verbose >= 1:
log.info("moving %s -> %s", src, dst)
if dry_run:
return dst
if not isfile(src):
raise DistutilsFileError("can't move '%s': not a regular file" % src)
if isdir(dst):
dst = os.path.join(dst, basename(src))
elif exists(dst):
raise DistutilsFileError(
"can't move '%s': destination '%s' already exists" %
(src, dst))
if not isdir(dirname(dst)):
raise DistutilsFileError(
"can't move '%s': destination '%s' not a valid path" % \
(src, dst))
copy_it = 0
try:
os.rename(src, dst)
except os.error, (num, msg):
if num == errno.EXDEV:
copy_it = 1
else:
raise DistutilsFileError(
"couldn't move '%s' to '%s': %s" % (src, dst, msg))
if copy_it:
copy_file(src, dst, verbose=verbose)
try:
os.unlink(src)
except os.error, (num, msg):
try:
os.unlink(dst)
except os.error:
pass
raise DistutilsFileError(
("couldn't move '%s' to '%s' by copy/delete: " +
"delete '%s' failed: %s") %
(src, dst, src, msg))
return dst
def write_file (filename, contents):
"""Create a file with the specified name and write 'contents' (a
sequence of strings without line terminators) to it.
"""
f = open(filename, "w")
try:
for line in contents:
f.write(line + "\n")
finally:
f.close()

343
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"""distutils.filelist
Provides the FileList class, used for poking about the filesystem
and building lists of files.
"""
__revision__ = "$Id$"
import os, re
import fnmatch
from distutils.util import convert_path
from distutils.errors import DistutilsTemplateError, DistutilsInternalError
from distutils import log
class FileList:
"""A list of files built by on exploring the filesystem and filtered by
applying various patterns to what we find there.
Instance attributes:
dir
directory from which files will be taken -- only used if
'allfiles' not supplied to constructor
files
list of filenames currently being built/filtered/manipulated
allfiles
complete list of files under consideration (ie. without any
filtering applied)
"""
def __init__(self, warn=None, debug_print=None):
# ignore argument to FileList, but keep them for backwards
# compatibility
self.allfiles = None
self.files = []
def set_allfiles(self, allfiles):
self.allfiles = allfiles
def findall(self, dir=os.curdir):
self.allfiles = findall(dir)
def debug_print(self, msg):
"""Print 'msg' to stdout if the global DEBUG (taken from the
DISTUTILS_DEBUG environment variable) flag is true.
"""
from distutils.debug import DEBUG
if DEBUG:
print msg
# -- List-like methods ---------------------------------------------
def append(self, item):
self.files.append(item)
def extend(self, items):
self.files.extend(items)
def sort(self):
# Not a strict lexical sort!
sortable_files = map(os.path.split, self.files)
sortable_files.sort()
self.files = []
for sort_tuple in sortable_files:
self.files.append(os.path.join(*sort_tuple))
# -- Other miscellaneous utility methods ---------------------------
def remove_duplicates(self):
# Assumes list has been sorted!
for i in range(len(self.files) - 1, 0, -1):
if self.files[i] == self.files[i - 1]:
del self.files[i]
# -- "File template" methods ---------------------------------------
def _parse_template_line(self, line):
words = line.split()
action = words[0]
patterns = dir = dir_pattern = None
if action in ('include', 'exclude',
'global-include', 'global-exclude'):
if len(words) < 2:
raise DistutilsTemplateError, \
"'%s' expects <pattern1> <pattern2> ..." % action
patterns = map(convert_path, words[1:])
elif action in ('recursive-include', 'recursive-exclude'):
if len(words) < 3:
raise DistutilsTemplateError, \
"'%s' expects <dir> <pattern1> <pattern2> ..." % action
dir = convert_path(words[1])
patterns = map(convert_path, words[2:])
elif action in ('graft', 'prune'):
if len(words) != 2:
raise DistutilsTemplateError, \
"'%s' expects a single <dir_pattern>" % action
dir_pattern = convert_path(words[1])
else:
raise DistutilsTemplateError, "unknown action '%s'" % action
return (action, patterns, dir, dir_pattern)
def process_template_line(self, line):
# Parse the line: split it up, make sure the right number of words
# is there, and return the relevant words. 'action' is always
# defined: it's the first word of the line. Which of the other
# three are defined depends on the action; it'll be either
# patterns, (dir and patterns), or (dir_pattern).
action, patterns, dir, dir_pattern = self._parse_template_line(line)
# OK, now we know that the action is valid and we have the
# right number of words on the line for that action -- so we
# can proceed with minimal error-checking.
if action == 'include':
self.debug_print("include " + ' '.join(patterns))
for pattern in patterns:
if not self.include_pattern(pattern, anchor=1):
log.warn("warning: no files found matching '%s'",
pattern)
elif action == 'exclude':
self.debug_print("exclude " + ' '.join(patterns))
for pattern in patterns:
if not self.exclude_pattern(pattern, anchor=1):
log.warn(("warning: no previously-included files "
"found matching '%s'"), pattern)
elif action == 'global-include':
self.debug_print("global-include " + ' '.join(patterns))
for pattern in patterns:
if not self.include_pattern(pattern, anchor=0):
log.warn(("warning: no files found matching '%s' " +
"anywhere in distribution"), pattern)
elif action == 'global-exclude':
self.debug_print("global-exclude " + ' '.join(patterns))
for pattern in patterns:
if not self.exclude_pattern(pattern, anchor=0):
log.warn(("warning: no previously-included files matching "
"'%s' found anywhere in distribution"),
pattern)
elif action == 'recursive-include':
self.debug_print("recursive-include %s %s" %
(dir, ' '.join(patterns)))
for pattern in patterns:
if not self.include_pattern(pattern, prefix=dir):
log.warn(("warning: no files found matching '%s' " +
"under directory '%s'"),
pattern, dir)
elif action == 'recursive-exclude':
self.debug_print("recursive-exclude %s %s" %
(dir, ' '.join(patterns)))
for pattern in patterns:
if not self.exclude_pattern(pattern, prefix=dir):
log.warn(("warning: no previously-included files matching "
"'%s' found under directory '%s'"),
pattern, dir)
elif action == 'graft':
self.debug_print("graft " + dir_pattern)
if not self.include_pattern(None, prefix=dir_pattern):
log.warn("warning: no directories found matching '%s'",
dir_pattern)
elif action == 'prune':
self.debug_print("prune " + dir_pattern)
if not self.exclude_pattern(None, prefix=dir_pattern):
log.warn(("no previously-included directories found " +
"matching '%s'"), dir_pattern)
else:
raise DistutilsInternalError, \
"this cannot happen: invalid action '%s'" % action
# -- Filtering/selection methods -----------------------------------
def include_pattern(self, pattern, anchor=1, prefix=None, is_regex=0):
"""Select strings (presumably filenames) from 'self.files' that
match 'pattern', a Unix-style wildcard (glob) pattern.
Patterns are not quite the same as implemented by the 'fnmatch'
module: '*' and '?' match non-special characters, where "special"
is platform-dependent: slash on Unix; colon, slash, and backslash on
DOS/Windows; and colon on Mac OS.
If 'anchor' is true (the default), then the pattern match is more
stringent: "*.py" will match "foo.py" but not "foo/bar.py". If
'anchor' is false, both of these will match.
If 'prefix' is supplied, then only filenames starting with 'prefix'
(itself a pattern) and ending with 'pattern', with anything in between
them, will match. 'anchor' is ignored in this case.
If 'is_regex' is true, 'anchor' and 'prefix' are ignored, and
'pattern' is assumed to be either a string containing a regex or a
regex object -- no translation is done, the regex is just compiled
and used as-is.
Selected strings will be added to self.files.
Return 1 if files are found.
"""
# XXX docstring lying about what the special chars are?
files_found = 0
pattern_re = translate_pattern(pattern, anchor, prefix, is_regex)
self.debug_print("include_pattern: applying regex r'%s'" %
pattern_re.pattern)
# delayed loading of allfiles list
if self.allfiles is None:
self.findall()
for name in self.allfiles:
if pattern_re.search(name):
self.debug_print(" adding " + name)
self.files.append(name)
files_found = 1
return files_found
def exclude_pattern(self, pattern, anchor=1, prefix=None, is_regex=0):
"""Remove strings (presumably filenames) from 'files' that match
'pattern'.
Other parameters are the same as for 'include_pattern()', above.
The list 'self.files' is modified in place. Return 1 if files are
found.
"""
files_found = 0
pattern_re = translate_pattern(pattern, anchor, prefix, is_regex)
self.debug_print("exclude_pattern: applying regex r'%s'" %
pattern_re.pattern)
for i in range(len(self.files)-1, -1, -1):
if pattern_re.search(self.files[i]):
self.debug_print(" removing " + self.files[i])
del self.files[i]
files_found = 1
return files_found
# ----------------------------------------------------------------------
# Utility functions
def findall(dir = os.curdir):
"""Find all files under 'dir' and return the list of full filenames
(relative to 'dir').
"""
from stat import ST_MODE, S_ISREG, S_ISDIR, S_ISLNK
list = []
stack = [dir]
pop = stack.pop
push = stack.append
while stack:
dir = pop()
names = os.listdir(dir)
for name in names:
if dir != os.curdir: # avoid the dreaded "./" syndrome
fullname = os.path.join(dir, name)
else:
fullname = name
# Avoid excess stat calls -- just one will do, thank you!
stat = os.stat(fullname)
mode = stat[ST_MODE]
if S_ISREG(mode):
list.append(fullname)
elif S_ISDIR(mode) and not S_ISLNK(mode):
push(fullname)
return list
def glob_to_re(pattern):
"""Translate a shell-like glob pattern to a regular expression.
Return a string containing the regex. Differs from
'fnmatch.translate()' in that '*' does not match "special characters"
(which are platform-specific).
"""
pattern_re = fnmatch.translate(pattern)
# '?' and '*' in the glob pattern become '.' and '.*' in the RE, which
# IMHO is wrong -- '?' and '*' aren't supposed to match slash in Unix,
# and by extension they shouldn't match such "special characters" under
# any OS. So change all non-escaped dots in the RE to match any
# character except the special characters (currently: just os.sep).
sep = os.sep
if os.sep == '\\':
# we're using a regex to manipulate a regex, so we need
# to escape the backslash twice
sep = r'\\\\'
escaped = r'\1[^%s]' % sep
pattern_re = re.sub(r'((?<!\\)(\\\\)*)\.', escaped, pattern_re)
return pattern_re
def translate_pattern(pattern, anchor=1, prefix=None, is_regex=0):
"""Translate a shell-like wildcard pattern to a compiled regular
expression.
Return the compiled regex. If 'is_regex' true,
then 'pattern' is directly compiled to a regex (if it's a string)
or just returned as-is (assumes it's a regex object).
"""
if is_regex:
if isinstance(pattern, str):
return re.compile(pattern)
else:
return pattern
if pattern:
pattern_re = glob_to_re(pattern)
else:
pattern_re = ''
if prefix is not None:
# ditch end of pattern character
empty_pattern = glob_to_re('')
prefix_re = glob_to_re(prefix)[:-len(empty_pattern)]
sep = os.sep
if os.sep == '\\':
sep = r'\\'
pattern_re = "^" + sep.join((prefix_re, ".*" + pattern_re))
else: # no prefix -- respect anchor flag
if anchor:
pattern_re = "^" + pattern_re
return re.compile(pattern_re)

71
office-plugin/windows-office/program/python-core-2.7.6/lib/distutils/log.py Normal file
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"""A simple log mechanism styled after PEP 282."""
# The class here is styled after PEP 282 so that it could later be
# replaced with a standard Python logging implementation.
DEBUG = 1
INFO = 2
WARN = 3
ERROR = 4
FATAL = 5
import sys
class Log:
def __init__(self, threshold=WARN):
self.threshold = threshold
def _log(self, level, msg, args):
if level not in (DEBUG, INFO, WARN, ERROR, FATAL):
raise ValueError('%s wrong log level' % str(level))
if level >= self.threshold:
if args:
msg = msg % args
if level in (WARN, ERROR, FATAL):
stream = sys.stderr
else:
stream = sys.stdout
stream.write('%s\n' % msg)
stream.flush()
def log(self, level, msg, *args):
self._log(level, msg, args)
def debug(self, msg, *args):
self._log(DEBUG, msg, args)
def info(self, msg, *args):
self._log(INFO, msg, args)
def warn(self, msg, *args):
self._log(WARN, msg, args)
def error(self, msg, *args):
self._log(ERROR, msg, args)
def fatal(self, msg, *args):
self._log(FATAL, msg, args)
_global_log = Log()
log = _global_log.log
debug = _global_log.debug
info = _global_log.info
warn = _global_log.warn
error = _global_log.error
fatal = _global_log.fatal
def set_threshold(level):
# return the old threshold for use from tests
old = _global_log.threshold
_global_log.threshold = level
return old
def set_verbosity(v):
if v <= 0:
set_threshold(WARN)
elif v == 1:
set_threshold(INFO)
elif v >= 2:
set_threshold(DEBUG)

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office-plugin/windows-office/program/python-core-2.7.6/lib/distutils/msvc9compiler.py Normal file
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