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chromium /external /github.com /python /cpython /refs/tags/v3.0.1 /. /setup.py

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	# Autodetecting setup.py script for building the Python extensions
	#

	__version__="$Revision$"

	import sys, os, imp, re, optparse
	from globimport glob

	from distutilsimport log
	from distutilsimport sysconfig
	from distutilsimport text_file
	from distutils.errorsimport*
	from distutils.coreimportExtension, setup
	from distutils.command.build_extimport build_ext
	from distutils.command.installimport install
	from distutils.command.install_libimport install_lib

	# This global variable is used to hold the list of modules to be disabled.
	disabled_module_list=[]

	def add_dir_to_list(dirlist, dir):
	"""Add the directory 'dir' to the list 'dirlist' (at the front) if
	1) 'dir' is not already in 'dirlist'
	2) 'dir' actually exists, and is a directory."""
	if dirisnotNoneand os.path.isdir(dir)and dirnotin dirlist:
	dirlist.insert(0, dir)

	def find_file(filename, std_dirs, paths):
	"""Searches for the directory where a given file is located,
	and returns a possibly-empty list of additional directories, or None
	if the file couldn't be found at all.

	'filename' is the name of a file, such as readline.h or libcrypto.a.
	'std_dirs' is the list of standard system directories; if the
	file is found in one of them, no additional directives are needed.
	'paths' is a list of additional locations to check; if the file is
	found in one of them, the resulting list will contain the directory.
	"""

	# Check the standard locations
	for dirin std_dirs:
	f= os.path.join(dir, filename)
	if os.path.exists(f):return[]

	# Check the additional directories
	for dirin paths:
	f= os.path.join(dir, filename)
	if os.path.exists(f):
	return[dir]

	# Not found anywhere
	returnNone

	def find_library_file(compiler, libname, std_dirs, paths):
	result= compiler.find_library_file(std_dirs+ paths, libname)
	if resultisNone:
	returnNone

	# Check whether the found file is in one of the standard directories
	dirname= os.path.dirname(result)
	for pin std_dirs:
	# Ensure path doesn't end with path separator
	p= p.rstrip(os.sep)
	if p== dirname:
	return[]

	# Otherwise, it must have been in one of the additional directories,
	# so we have to figure out which one.
	for pin paths:
	# Ensure path doesn't end with path separator
	p= p.rstrip(os.sep)
	if p== dirname:
	return[p]
	else:
	assertFalse,"Internal error: Path not found in std_dirs or paths"

	def module_enabled(extlist, modname):
	"""Returns whether the module 'modname' is present in the list
	of extensions 'extlist'."""
	extlist=[extfor extin extlistif ext.name== modname]
	return len(extlist)

	def find_module_file(module, dirlist):
	"""Find a module in a set of possible folders. If it is not found
	return the unadorned filename"""
	list= find_file(module,[], dirlist)
	ifnot list:
	return module
	if len(list)>1:
	log.info("WARNING: multiple copies of %s found"%module)
	return os.path.join(list[0], module)

	classPyBuildExt(build_ext):

	def __init__(self, dist):
	build_ext.__init__(self, dist)
	self.failed=[]

	def build_extensions(self):

	# Detect which modules should be compiled
	missing= self.detect_modules()

	# Remove modules that are present on the disabled list
	extensions=[extfor extin self.extensions
	if ext.namenotin disabled_module_list]
	# move ctypes to the end, it depends on other modules
	ext_map= dict((ext.name, i)for i, extin enumerate(extensions))
	if"_ctypes"in ext_map:
	ctypes= extensions.pop(ext_map["_ctypes"])
	extensions.append(ctypes)
	self.extensions= extensions

	# Fix up the autodetected modules, prefixing all the source files
	# with Modules/ and adding Python's include directory to the path.
	(srcdir,)= sysconfig.get_config_vars('srcdir')
	ifnot srcdir:
	# Maybe running on Windows but not using CYGWIN?
	raiseValueError("No source directory; cannot proceed.")

	# Figure out the location of the source code for extension modules
	# (This logic is copied in distutils.test.test_sysconfig,
	# so building in a separate directory does not break test_distutils.)
	moddir= os.path.join(os.getcwd(), srcdir,'Modules')
	moddir= os.path.normpath(moddir)
	srcdir, tail= os.path.split(moddir)
	srcdir= os.path.normpath(srcdir)
	moddir= os.path.normpath(moddir)

	moddirlist=[moddir]
	incdirlist=['./Include']

	# Platform-dependent module source and include directories
	platform= self.get_platform()

	alldirlist= moddirlist+ incdirlist

	# Fix up the paths for scripts, too
	self.distribution.scripts=[os.path.join(srcdir, filename)
	for filenamein self.distribution.scripts]

	# Python header files
	headers= glob("Include/*.h")+["pyconfig.h"]

	for extin self.extensions[:]:
	ext.sources=[ find_module_file(filename, moddirlist)
	for filenamein ext.sources]
	if ext.dependsisnotNone:
	ext.depends=[find_module_file(filename, alldirlist)
	for filenamein ext.depends]
	else:
	ext.depends=[]
	# re-compile extensions if a header file has been changed
	ext.depends.extend(headers)

	ext.include_dirs.append('.')# to get config.h
	for incdirin incdirlist:
	ext.include_dirs.append( os.path.join(srcdir, incdir))

	# If a module has already been built statically,
	# don't build it here
	if ext.namein sys.builtin_module_names:
	self.extensions.remove(ext)

	if platform!='mac':
	# Parse Modules/Setup and Modules/Setup.local to figure out which
	# modules are turned on in the file.
	remove_modules=[]
	for filenamein('Modules/Setup','Modules/Setup.local'):
	input= text_file.TextFile(filename, join_lines=1)
	while1:
	line= input.readline()
	ifnot line:break
	line= line.split()
	remove_modules.append(line[0])
	input.close()

	for extin self.extensions[:]:
	if ext.namein remove_modules:
	self.extensions.remove(ext)

	# When you run "make CC=altcc" or something similar, you really want
	# those environment variables passed into the setup.py phase. Here's
	# a small set of useful ones.
	compiler= os.environ.get('CC')
	args={}
	# unfortunately, distutils doesn't let us provide separate C and C++
	# compilers
	if compilerisnotNone:
	(ccshared,cflags)= sysconfig.get_config_vars('CCSHARED','CFLAGS')
	args['compiler_so']= compiler+' '+ ccshared+' '+ cflags
	self.compiler.set_executables(**args)

	build_ext.build_extensions(self)

	longest= max([len(e.name)for ein self.extensions])
	if self.failed:
	longest= max(longest, max([len(name)for namein self.failed]))

	def print_three_column(lst):
	lst.sort(key=str.lower)
	# guarantee zip() doesn't drop anything
	while len(lst)%3:
	lst.append("")
	for e, f, gin zip(lst[::3], lst[1::3], lst[2::3]):
	print("%-s %-s %-*s"%(longest, e, longest, f,
	longest, g))

	if missing:
	print()
	print("Python build finished, but the necessary bits to build "
	"these modules were not found:")
	print_three_column(missing)
	print("To find the necessary bits, look in setup.py in"
	" detect_modules() for the module's name.")
	print()

	if self.failed:
	failed= self.failed[:]
	print()
	print("Failed to build these modules:")
	print_three_column(failed)
	print()

	def build_extension(self, ext):

	if ext.name=='_ctypes':
	ifnot self.configure_ctypes(ext):
	return

	try:
	build_ext.build_extension(self, ext)
	except(CCompilerError,DistutilsError)as why:
	self.announce('WARNING: building of extension "%s" failed: %s'%
	(ext.name, sys.exc_info()[1]))
	self.failed.append(ext.name)
	return
	# Workaround for Mac OS X: The Carbon-based modules cannot be
	# reliably imported into a command-line Python
	if'Carbon'in ext.extra_link_args:
	self.announce(
	'WARNING: skipping import check for Carbon-based "%s"'%
	ext.name)
	return

	if self.get_platform()=='darwin'and(
	sys.maxsize>2**32and'-arch'in ext.extra_link_args):
	# Don't bother doing an import check when an extension was
	# build with an explicit '-arch' flag on OSX. That's currently
	# only used to build 32-bit only extensions in a 4-way
	# universal build and loading 32-bit code into a 64-bit
	# process will fail.
	self.announce(
	'WARNING: skipping import check for "%s"'%
	ext.name)
	return

	# Workaround for Cygwin: Cygwin currently has fork issues when many
	# modules have been imported
	if self.get_platform()=='cygwin':
	self.announce('WARNING: skipping import check for Cygwin-based "%s"'
	% ext.name)
	return
	ext_filename= os.path.join(
	self.build_lib,
	self.get_ext_filename(self.get_ext_fullname(ext.name)))

	# If the build directory didn't exist when setup.py was
	# started, sys.path_importer_cache has a negative result
	# cached. Clear that cache before trying to import.
	sys.path_importer_cache.clear()

	try:
	imp.load_dynamic(ext.name, ext_filename)
	exceptImportErroras why:
	self.failed.append(ext.name)
	self.announce('*** WARNING: renaming "%s" since importing it'
	' failed: %s'%(ext.name, why), level=3)
	assertnot self.inplace
	basename, tail= os.path.splitext(ext_filename)
	newname= basename+"_failed"+ tail
	if os.path.exists(newname):
	os.remove(newname)
	os.rename(ext_filename, newname)

	# XXX -- This relies on a Vile HACK in
	# distutils.command.build_ext.build_extension(). The
	# _built_objects attribute is stored there strictly for
	# use here.
	# If there is a failure, _built_objects may not be there,
	# so catch the AttributeError and move on.
	try:
	for filenamein self._built_objects:
	os.remove(filename)
	exceptAttributeError:
	self.announce('unable to remove files (ignored)')
	except:
	exc_type, why, tb= sys.exc_info()
	self.announce('*** WARNING: importing extension "%s" '
	'failed with %s: %s'%(ext.name, exc_type, why),
	level=3)
	self.failed.append(ext.name)

	def get_platform(self):
	# Get value of sys.platform
	for platformin['cygwin','darwin','atheos','osf1']:
	if sys.platform.startswith(platform):
	return platform
	return sys.platform

	def detect_modules(self):
	# Ensure that /usr/local is always used
	add_dir_to_list(self.compiler.library_dirs,'/usr/local/lib')
	add_dir_to_list(self.compiler.include_dirs,'/usr/local/include')

	# Add paths specified in the environment variables LDFLAGS and
	# CPPFLAGS for header and library files.
	# We must get the values from the Makefile and not the environment
	# directly since an inconsistently reproducible issue comes up where
	# the environment variable is not set even though the value were passed
	# into configure and stored in the Makefile (issue found on OS X 10.3).
	for env_var, arg_name, dir_listin(
	('LDFLAGS','-R', self.compiler.runtime_library_dirs),
	('LDFLAGS','-L', self.compiler.library_dirs),
	('CPPFLAGS','-I', self.compiler.include_dirs)):
	env_val= sysconfig.get_config_var(env_var)
	if env_val:
	# To prevent optparse from raising an exception about any
	# options in env_val that it doesn't know about we strip out
	# all double dashes and any dashes followed by a character
	# that is not for the option we are dealing with.
	#
	# Please note that order of the regex is important! We must
	# strip out double-dashes first so that we don't end up with
	# substituting "--Long" to "-Long" and thus lead to "ong" being
	# used for a library directory.
	env_val= re.sub(r'(^\|\s+)-(-\|(?!%s))'% arg_name[1],
	' ', env_val)
	parser= optparse.OptionParser()
	# Make sure that allowing args interspersed with options is
	# allowed
	parser.allow_interspersed_args=True
	parser.error=lambda msg:None
	parser.add_option(arg_name, dest="dirs", action="append")
	options= parser.parse_args(env_val.split())[0]
	if options.dirs:
	for directoryin reversed(options.dirs):
	add_dir_to_list(dir_list, directory)

	if os.path.normpath(sys.prefix)!='/usr':
	add_dir_to_list(self.compiler.library_dirs,
	sysconfig.get_config_var("LIBDIR"))
	add_dir_to_list(self.compiler.include_dirs,
	sysconfig.get_config_var("INCLUDEDIR"))

	# lib_dirs and inc_dirs are used to search for files;
	# if a file is found in one of those directories, it can
	# be assumed that no additional -I,-L directives are needed.
	lib_dirs= self.compiler.library_dirs+[
	'/lib64','/usr/lib64',
	'/lib','/usr/lib',
	]
	inc_dirs= self.compiler.include_dirs+['/usr/include']
	exts=[]
	missing=[]

	config_h= sysconfig.get_config_h_filename()
	config_h_vars= sysconfig.parse_config_h(open(config_h))

	platform= self.get_platform()
	(srcdir,)= sysconfig.get_config_vars('srcdir')

	# Check for AtheOS which has libraries in non-standard locations
	if platform=='atheos':
	lib_dirs+=['/system/libs','/atheos/autolnk/lib']
	lib_dirs+= os.getenv('LIBRARY_PATH','').split(os.pathsep)
	inc_dirs+=['/system/include','/atheos/autolnk/include']
	inc_dirs+= os.getenv('C_INCLUDE_PATH','').split(os.pathsep)

	# OSF/1 and Unixware have some stuff in /usr/ccs/lib (like -ldb)
	if platformin['osf1','unixware7','openunix8']:
	lib_dirs+=['/usr/ccs/lib']

	if platform=='darwin':
	# This should work on any unixy platform ;-)
	# If the user has bothered specifying additional -I and -L flags
	# in OPT and LDFLAGS we might as well use them here.
	# NOTE: using shlex.split would technically be more correct, but
	# also gives a bootstrap problem. Let's hope nobody uses directories
	# with whitespace in the name to store libraries.
	cflags, ldflags= sysconfig.get_config_vars(
	'CFLAGS','LDFLAGS')
	for itemin cflags.split():
	if item.startswith('-I'):
	inc_dirs.append(item[2:])

	for itemin ldflags.split():
	if item.startswith('-L'):
	lib_dirs.append(item[2:])

	# Check for MacOS X, which doesn't need libm.a at all
	math_libs=['m']
	if platformin['darwin','mac']:
	math_libs=[]

	# XXX Omitted modules: gl, pure, dl, SGI-specific modules

	#
	# The following modules are all pretty straightforward, and compile
	# on pretty much any POSIXish platform.
	#

	# Some modules that are normally always on:
	exts.append(Extension('_weakref',['_weakref.c']))

	# array objects
	exts.append(Extension('array',['arraymodule.c']))
	# complex math library functions
	exts.append(Extension('cmath',['cmathmodule.c'],
	libraries=math_libs))

	# math library functions, e.g. sin()
	exts.append(Extension('math',['mathmodule.c'],
	libraries=math_libs))
	# time operations and variables
	exts.append(Extension('time',['timemodule.c'],
	libraries=math_libs))
	exts.append(Extension('datetime',['datetimemodule.c','timemodule.c'],
	libraries=math_libs))
	# fast iterator tools implemented in C
	exts.append(Extension("itertools",["itertoolsmodule.c"]))
	# random number generator implemented in C
	exts.append(Extension("_random",["_randommodule.c"]))
	# high-performance collections
	exts.append(Extension("_collections",["_collectionsmodule.c"]))
	# bisect
	exts.append(Extension("_bisect",["_bisectmodule.c"]))
	# heapq
	exts.append(Extension("_heapq",["_heapqmodule.c"]))
	# operator.add() and similar goodies
	exts.append(Extension('operator',['operator.c']))
	# _functools
	exts.append(Extension("_functools",["_functoolsmodule.c"]))
	# C-optimized pickle replacement
	exts.append(Extension("_pickle",["_pickle.c"]))
	# atexit
	exts.append(Extension("atexit",["atexitmodule.c"]))
	# _json speedups
	exts.append(Extension("_json",["_json.c"]))
	# Python C API test module
	exts.append(Extension('_testcapi',['_testcapimodule.c'],
	depends=['testcapi_long.h']))
	# profiler (_lsprof is for cProfile.py)
	exts.append(Extension('_lsprof',['_lsprof.c','rotatingtree.c']))
	# static Unicode character database
	exts.append(Extension('unicodedata',['unicodedata.c']))
	# access to ISO C locale support
	data= open('pyconfig.h').read()
	m= re.search(r"#sdefine\s+WITH_LIBINTL\s+1\s", data)
	if misnotNone:
	locale_libs=['intl']
	else:
	locale_libs=[]
	if platform=='darwin':
	locale_extra_link_args=['-framework','CoreFoundation']
	else:
	locale_extra_link_args=[]


	exts.append(Extension('_locale',['_localemodule.c'],
	libraries=locale_libs,
	extra_link_args=locale_extra_link_args))

	# Modules with some UNIX dependencies -- on by default:
	# (If you have a really backward UNIX, select and socket may not be
	# supported...)

	# fcntl(2) and ioctl(2)
	exts.append(Extension('fcntl',['fcntlmodule.c']))
	if platformnotin['mac']:
	# pwd(3)
	exts.append(Extension('pwd',['pwdmodule.c']))
	# grp(3)
	exts.append(Extension('grp',['grpmodule.c']))
	# spwd, shadow passwords
	if(config_h_vars.get('HAVE_GETSPNAM',False)or
	config_h_vars.get('HAVE_GETSPENT',False)):
	exts.append(Extension('spwd',['spwdmodule.c']))
	else:
	missing.append('spwd')
	else:
	missing.extend(['pwd','grp','spwd'])

	# select(2); not on ancient System V
	exts.append(Extension('select',['selectmodule.c']))

	# Fred Drake's interface to the Python parser
	exts.append(Extension('parser',['parsermodule.c']))

	# Memory-mapped files (also works on Win32).
	if platformnotin['atheos','mac']:
	exts.append(Extension('mmap',['mmapmodule.c']))
	else:
	missing.append('mmap')

	# Lance Ellinghaus's syslog module
	if platformnotin['mac']:
	# syslog daemon interface
	exts.append(Extension('syslog',['syslogmodule.c']))
	else:
	missing.append('syslog')

	#
	# Here ends the simple stuff. From here on, modules need certain
	# libraries, are platform-specific, or present other surprises.
	#

	# Multimedia modules
	# These don't work for 64-bit platforms!!!
	# These represent audio samples or images as strings:

	# Operations on audio samples
	# According to #993173, this one should actually work fine on
	# 64-bit platforms.
	exts.append(Extension('audioop',['audioop.c']))

	# readline
	do_readline= self.compiler.find_library_file(lib_dirs,'readline')
	if platform=='darwin':# and os.uname()[2] < '9.':
	# MacOSX 10.4 has a broken readline. Don't try to build
	# the readline module unless the user has installed a fixed
	# readline package
	# FIXME: The readline emulation on 10.5 is better, but the
	# readline module doesn't compile out of the box.
	if find_file('readline/rlconf.h', inc_dirs,[])isNone:
	do_readline=False
	if do_readline:
	if sys.platform=='darwin':
	# In every directory on the search path search for a dynamic
	# library and then a static library, instead of first looking
	# for dynamic libraries on the entire path.
	# This way a staticly linked custom readline gets picked up
	# before the (broken) dynamic library in /usr/lib.
	readline_extra_link_args=('-Wl,-search_paths_first',)
	else:
	readline_extra_link_args=()

	readline_libs=['readline']
	if self.compiler.find_library_file(lib_dirs,
	'ncursesw'):
	readline_libs.append('ncursesw')
	elif self.compiler.find_library_file(lib_dirs,
	'ncurses'):
	readline_libs.append('ncurses')
	elif self.compiler.find_library_file(lib_dirs,'curses'):
	readline_libs.append('curses')
	elif self.compiler.find_library_file(lib_dirs+
	['/usr/lib/termcap'],
	'termcap'):
	readline_libs.append('termcap')
	exts.append(Extension('readline',['readline.c'],
	library_dirs=['/usr/lib/termcap'],
	extra_link_args=readline_extra_link_args,
	libraries=readline_libs))
	else:
	missing.append('readline')

	if platformnotin['mac']:
	# crypt module.

	if self.compiler.find_library_file(lib_dirs,'crypt'):
	libs=['crypt']
	else:
	libs=[]
	exts.append(Extension('crypt',['cryptmodule.c'], libraries=libs))
	else:
	missing.append('crypt')

	# CSV files
	exts.append(Extension('_csv',['_csv.c']))

	# socket(2)
	exts.append(Extension('_socket',['socketmodule.c'],
	depends=['socketmodule.h']))
	# Detect SSL support for the socket module (via _ssl)
	search_for_ssl_incs_in=[
	'/usr/local/ssl/include',
	'/usr/contrib/ssl/include/'
	]
	ssl_incs= find_file('openssl/ssl.h', inc_dirs,
	search_for_ssl_incs_in
	)
	if ssl_incsisnotNone:
	krb5_h= find_file('krb5.h', inc_dirs,
	['/usr/kerberos/include'])
	if krb5_h:
	ssl_incs+= krb5_h
	ssl_libs= find_library_file(self.compiler,'ssl',lib_dirs,
	['/usr/local/ssl/lib',
	'/usr/contrib/ssl/lib/'
	])

	if(ssl_incsisnotNoneand
	ssl_libsisnotNone):
	exts.append(Extension('_ssl',['_ssl.c'],
	include_dirs= ssl_incs,
	library_dirs= ssl_libs,
	libraries=['ssl','crypto'],
	depends=['socketmodule.h']),)
	else:
	missing.append('_ssl')

	# find out which version of OpenSSL we have
	openssl_ver=0
	openssl_ver_re= re.compile(
	'^\s#\sdefine\s+OPENSSL_VERSION_NUMBER\s+(0x[0-9a-fA-F]+)')
	for ssl_inc_dirin inc_dirs+ search_for_ssl_incs_in:
	name= os.path.join(ssl_inc_dir,'openssl','opensslv.h')
	if os.path.isfile(name):
	try:
	incfile= open(name,'r')
	for linein incfile:
	m= openssl_ver_re.match(line)
	if m:
	openssl_ver= eval(m.group(1))
	break
	exceptIOError:
	pass

	# first version found is what we'll use (as the compiler should)
	if openssl_ver:
	break

	#print('openssl_ver = 0x%08x' % openssl_ver)

	if ssl_incsisnotNoneand ssl_libsisnotNone:
	if openssl_ver>=0x00907000:
	# The _hashlib module wraps optimized implementations
	# of hash functions from the OpenSSL library.
	exts.append(Extension('_hashlib',['_hashopenssl.c'],
	include_dirs= ssl_incs,
	library_dirs= ssl_libs,
	libraries=['ssl','crypto']))
	else:
	print("warning: openssl 0x%08x is too old for _hashlib"%
	openssl_ver)
	missing.append('_hashlib')
	else:
	missing.append('_hashlib')

	if openssl_ver<0x00908000:
	# OpenSSL doesn't do these until 0.9.8 so we'll bring our own hash
	exts.append(Extension('_sha256',['sha256module.c']))
	exts.append(Extension('_sha512',['sha512module.c']))

	if openssl_ver<0x00907000:
	# no openssl at all, use our own md5 and sha1
	exts.append(Extension('_md5',['md5module.c']))
	exts.append(Extension('_sha1',['sha1module.c']))

	# Modules that provide persistent dictionary-like semantics. You will
	# probably want to arrange for at least one of them to be available on
	# your machine, though none are defined by default because of library
	# dependencies. The Python module dbm/__init__.py provides an
	# implementation independent wrapper for these; dbm/dumb.py provides
	# similar functionality (but slower of course) implemented in Python.

	db_inc_paths=[
	'/usr/include/db4',
	'/usr/local/include/db4',
	'/opt/sfw/include/db4',
	'/usr/include/db3',
	'/usr/local/include/db3',
	'/opt/sfw/include/db3',
	# Fink defaults (http://fink.sourceforge.net/)
	'/sw/include/db4',
	'/sw/include/db3',
	]

	db_incs=None

	# The sqlite interface
	sqlite_setup_debug=False# verbose debug prints from this script?

	# We hunt for #define SQLITE_VERSION "n.n.n"
	# We need to find >= sqlite version 3.0.8
	sqlite_incdir= sqlite_libdir=None
	sqlite_inc_paths=['/usr/include',
	'/usr/include/sqlite',
	'/usr/include/sqlite3',
	'/usr/local/include',
	'/usr/local/include/sqlite',
	'/usr/local/include/sqlite3',
	]
	MIN_SQLITE_VERSION_NUMBER=(3,0,8)
	MIN_SQLITE_VERSION=".".join([str(x)
	for xin MIN_SQLITE_VERSION_NUMBER])

	# Scan the default include directories before the SQLite specific
	# ones. This allows one to override the copy of sqlite on OSX,
	# where /usr/include contains an old version of sqlite.
	for din inc_dirs+ sqlite_inc_paths:
	f= os.path.join(d,"sqlite3.h")
	if os.path.exists(f):
	if sqlite_setup_debug:print("sqlite: found %s"%f)
	incf= open(f).read()
	m= re.search(
	r'\s.#\s.define\s.SQLITE_VERSION\W"(.*)"', incf)
	if m:
	sqlite_version= m.group(1)
	sqlite_version_tuple= tuple([int(x)
	for xin sqlite_version.split(".")])
	if sqlite_version_tuple>= MIN_SQLITE_VERSION_NUMBER:
	# we win!
	if sqlite_setup_debug:
	print("%s/sqlite3.h: version %s"%(d, sqlite_version))
	sqlite_incdir= d
	break
	else:
	if sqlite_setup_debug:
	print("%s: version %d is too old, need >= %s"%(d,
	sqlite_version, MIN_SQLITE_VERSION))
	elif sqlite_setup_debug:
	print("sqlite: %s had no SQLITE_VERSION"%(f,))

	if sqlite_incdir:
	sqlite_dirs_to_check=[
	os.path.join(sqlite_incdir,'..','lib64'),
	os.path.join(sqlite_incdir,'..','lib'),
	os.path.join(sqlite_incdir,'..','..','lib64'),
	os.path.join(sqlite_incdir,'..','..','lib'),
	]
	sqlite_libfile= self.compiler.find_library_file(
	sqlite_dirs_to_check+ lib_dirs,'sqlite3')
	if sqlite_libfile:
	sqlite_libdir=[os.path.abspath(os.path.dirname(sqlite_libfile))]

	if sqlite_incdirand sqlite_libdir:
	sqlite_srcs=['_sqlite/cache.c',
	'_sqlite/connection.c',
	'_sqlite/cursor.c',
	'_sqlite/microprotocols.c',
	'_sqlite/module.c',
	'_sqlite/prepare_protocol.c',
	'_sqlite/row.c',
	'_sqlite/statement.c',
	'_sqlite/util.c',]

	sqlite_defines=[]
	if sys.platform!="win32":
	sqlite_defines.append(('MODULE_NAME','"sqlite3"'))
	else:
	sqlite_defines.append(('MODULE_NAME','\\"sqlite3\\"'))


	if sys.platform=='darwin':
	# In every directory on the search path search for a dynamic
	# library and then a static library, instead of first looking
	# for dynamic libraries on the entiry path.
	# This way a staticly linked custom sqlite gets picked up
	# before the dynamic library in /usr/lib.
	sqlite_extra_link_args=('-Wl,-search_paths_first',)
	else:
	sqlite_extra_link_args=()

	exts.append(Extension('_sqlite3', sqlite_srcs,
	define_macros=sqlite_defines,
	include_dirs=["Modules/_sqlite",
	sqlite_incdir],
	library_dirs=sqlite_libdir,
	runtime_library_dirs=sqlite_libdir,
	extra_link_args=sqlite_extra_link_args,
	libraries=["sqlite3",]))
	else:
	missing.append('_sqlite3')

	# The standard Unix dbm module:
	if platformnotin['cygwin']:
	if find_file("ndbm.h", inc_dirs,[])isnotNone:
	# Some systems have -lndbm, others don't
	if self.compiler.find_library_file(lib_dirs,'ndbm'):
	ndbm_libs=['ndbm']
	else:
	ndbm_libs=[]
	exts.append(Extension('_dbm',['_dbmmodule.c'],
	define_macros=[('HAVE_NDBM_H',None)],
	libraries= ndbm_libs))
	elif self.compiler.find_library_file(lib_dirs,'gdbm'):
	gdbm_libs=['gdbm']
	if self.compiler.find_library_file(lib_dirs,'gdbm_compat'):
	gdbm_libs.append('gdbm_compat')
	if find_file("gdbm/ndbm.h", inc_dirs,[])isnotNone:
	exts.append(Extension(
	'_dbm',['_dbmmodule.c'],
	define_macros=[('HAVE_GDBM_NDBM_H',None)],
	libraries= gdbm_libs))
	elif find_file("gdbm-ndbm.h", inc_dirs,[])isnotNone:
	exts.append(Extension(
	'_dbm',['_dbmmodule.c'],
	define_macros=[('HAVE_GDBM_DASH_NDBM_H',None)],
	libraries= gdbm_libs))
	elif db_incsisnotNone:
	exts.append(Extension('_dbm',['_dbmmodule.c'],
	library_dirs=dblib_dir,
	runtime_library_dirs=dblib_dir,
	include_dirs=db_incs,
	define_macros=[('HAVE_BERKDB_H',None),
	('DB_DBM_HSEARCH',None)],
	libraries=dblibs))
	else:
	missing.append('_dbm')

	# Anthony Baxter's gdbm module. GNU dbm(3) will require -lgdbm:
	if(self.compiler.find_library_file(lib_dirs,'gdbm')):
	exts.append(Extension('_gdbm',['_gdbmmodule.c'],
	libraries=['gdbm']))
	else:
	missing.append('_gdbm')

	# Unix-only modules
	if platformnotin['mac','win32']:
	# Steen Lumholt's termios module
	exts.append(Extension('termios',['termios.c']))
	# Jeremy Hylton's rlimit interface
	if platformnotin['atheos']:
	exts.append(Extension('resource',['resource.c']))
	else:
	missing.append('resource')

	# Sun yellow pages. Some systems have the functions in libc.
	if platformnotin['cygwin','atheos','qnx6']:
	if(self.compiler.find_library_file(lib_dirs,'nsl')):
	libs=['nsl']
	else:
	libs=[]
	exts.append(Extension('nis',['nismodule.c'],
	libraries= libs))
	else:
	missing.append('nis')
	else:
	missing.extend(['nis','resource','termios'])

	# Curses support, requiring the System V version of curses, often
	# provided by the ncurses library.
	panel_library='panel'
	if(self.compiler.find_library_file(lib_dirs,'ncursesw')):
	curses_libs=['ncursesw']
	# Bug 1464056: If _curses.so links with ncursesw,
	# _curses_panel.so must link with panelw.
	panel_library='panelw'
	exts.append(Extension('_curses',['_cursesmodule.c'],
	libraries= curses_libs))
	elif(self.compiler.find_library_file(lib_dirs,'ncurses')):
	curses_libs=['ncurses']
	exts.append(Extension('_curses',['_cursesmodule.c'],
	libraries= curses_libs))
	elif(self.compiler.find_library_file(lib_dirs,'curses')
	and platform!='darwin'):
	# OSX has an old Berkeley curses, not good enough for
	# the _curses module.
	if(self.compiler.find_library_file(lib_dirs,'terminfo')):
	curses_libs=['curses','terminfo']
	elif(self.compiler.find_library_file(lib_dirs,'termcap')):
	curses_libs=['curses','termcap']
	else:
	curses_libs=['curses']

	exts.append(Extension('_curses',['_cursesmodule.c'],
	libraries= curses_libs))
	else:
	missing.append('_curses')

	# If the curses module is enabled, check for the panel module
	if(module_enabled(exts,'_curses')and
	self.compiler.find_library_file(lib_dirs, panel_library)):
	exts.append(Extension('_curses_panel',['_curses_panel.c'],
	libraries=[panel_library]+ curses_libs))
	else:
	missing.append('_curses_panel')

	# Andrew Kuchling's zlib module. Note that some versions of zlib
	# 1.1.3 have security problems. See CERT Advisory CA-2002-07:
	# http://www.cert.org/advisories/CA-2002-07.html
	#
	# zlib 1.1.4 is fixed, but at least one vendor (RedHat) has decided to
	# patch its zlib 1.1.3 package instead of upgrading to 1.1.4. For
	# now, we still accept 1.1.3, because we think it's difficult to
	# exploit this in Python, and we'd rather make it RedHat's problem
	# than our problem <wink>.
	#
	# You can upgrade zlib to version 1.1.4 yourself by going to
	# http://www.gzip.org/zlib/
	zlib_inc= find_file('zlib.h',[], inc_dirs)
	have_zlib=False
	if zlib_incisnotNone:
	zlib_h= zlib_inc[0]+'/zlib.h'
	version='"0.0.0"'
	version_req='"1.1.3"'
	fp= open(zlib_h)
	while1:
	line= fp.readline()
	ifnot line:
	break
	if line.startswith('#define ZLIB_VERSION'):
	version= line.split()[2]
	break
	if version>= version_req:
	if(self.compiler.find_library_file(lib_dirs,'z')):
	if sys.platform=="darwin":
	zlib_extra_link_args=('-Wl,-search_paths_first',)
	else:
	zlib_extra_link_args=()
	exts.append(Extension('zlib',['zlibmodule.c'],
	libraries=['z'],
	extra_link_args= zlib_extra_link_args))
	have_zlib=True
	else:
	missing.append('zlib')
	else:
	missing.append('zlib')
	else:
	missing.append('zlib')

	# Helper module for various ascii-encoders. Uses zlib for an optimized
	# crc32 if we have it. Otherwise binascii uses its own.
	if have_zlib:
	extra_compile_args=['-DUSE_ZLIB_CRC32']
	libraries=['z']
	extra_link_args= zlib_extra_link_args
	else:
	extra_compile_args=[]
	libraries=[]
	extra_link_args=[]
	exts.append(Extension('binascii',['binascii.c'],
	extra_compile_args= extra_compile_args,
	libraries= libraries,
	extra_link_args= extra_link_args))

	# Gustavo Niemeyer's bz2 module.
	if(self.compiler.find_library_file(lib_dirs,'bz2')):
	if sys.platform=="darwin":
	bz2_extra_link_args=('-Wl,-search_paths_first',)
	else:
	bz2_extra_link_args=()
	exts.append(Extension('bz2',['bz2module.c'],
	libraries=['bz2'],
	extra_link_args= bz2_extra_link_args))
	else:
	missing.append('bz2')

	# Interface to the Expat XML parser
	#
	# Expat was written by James Clark and is now maintained by a
	# group of developers on SourceForge; see www.libexpat.org for
	# more information. The pyexpat module was written by Paul
	# Prescod after a prototype by Jack Jansen. The Expat source
	# is included in Modules/expat/. Usage of a system
	# shared libexpat.so/expat.dll is not advised.
	#
	# More information on Expat can be found at www.libexpat.org.
	#
	expatinc= os.path.join(os.getcwd(), srcdir,'Modules','expat')
	define_macros=[
	('HAVE_EXPAT_CONFIG_H','1'),
	]

	exts.append(Extension('pyexpat',
	define_macros= define_macros,
	include_dirs=[expatinc],
	sources=['pyexpat.c',
	'expat/xmlparse.c',
	'expat/xmlrole.c',
	'expat/xmltok.c',
	],
	))

	# Fredrik Lundh's cElementTree module. Note that this also
	# uses expat (via the CAPI hook in pyexpat).

	if os.path.isfile(os.path.join(srcdir,'Modules','_elementtree.c')):
	define_macros.append(('USE_PYEXPAT_CAPI',None))
	exts.append(Extension('_elementtree',
	define_macros= define_macros,
	include_dirs=[expatinc],
	sources=['_elementtree.c'],
	))
	else:
	missing.append('_elementtree')

	# Hye-Shik Chang's CJKCodecs modules.
	exts.append(Extension('_multibytecodec',
	['cjkcodecs/multibytecodec.c']))
	for locin('kr','jp','cn','tw','hk','iso2022'):
	exts.append(Extension('_codecs_%s'% loc,
	['cjkcodecs/_codecs_%s.c'% loc]))

	# Thomas Heller's _ctypes module
	self.detect_ctypes(inc_dirs, lib_dirs)

	# _fileio -- supposedly cross platform
	exts.append(Extension('_fileio',['_fileio.c']))
	# Richard Oudkerk's multiprocessing module
	if platform=='win32':# Windows
	macros= dict()
	libraries=['ws2_32']

	elif platform=='darwin':# Mac OSX
	macros= dict(
	HAVE_SEM_OPEN=1,
	HAVE_SEM_TIMEDWAIT=0,
	HAVE_FD_TRANSFER=1,
	HAVE_BROKEN_SEM_GETVALUE=1
	)
	libraries=[]

	elif platform=='cygwin':# Cygwin
	macros= dict(
	HAVE_SEM_OPEN=1,
	HAVE_SEM_TIMEDWAIT=1,
	HAVE_FD_TRANSFER=0,
	HAVE_BROKEN_SEM_UNLINK=1
	)
	libraries=[]

	elif platformin('freebsd4','freebsd5','freebsd6','freebsd7','freebsd8'):
	# FreeBSD's P1003.1b semaphore support is very experimental
	# and has many known problems. (as of June 2008)
	macros= dict(# FreeBSD
	HAVE_SEM_OPEN=0,
	HAVE_SEM_TIMEDWAIT=0,
	HAVE_FD_TRANSFER=1,
	)
	libraries=[]

	elif platform.startswith('openbsd'):
	macros= dict(# OpenBSD
	HAVE_SEM_OPEN=0,# Not implemented
	HAVE_SEM_TIMEDWAIT=0,
	HAVE_FD_TRANSFER=1,
	)
	libraries=[]

	else:# Linux and other unices
	macros= dict(
	HAVE_SEM_OPEN=1,
	HAVE_SEM_TIMEDWAIT=1,
	HAVE_FD_TRANSFER=1
	)
	libraries=['rt']

	if platform=='win32':
	multiprocessing_srcs=['_multiprocessing/multiprocessing.c',
	'_multiprocessing/semaphore.c',
	'_multiprocessing/pipe_connection.c',
	'_multiprocessing/socket_connection.c',
	'_multiprocessing/win32_functions.c'
	]

	else:
	multiprocessing_srcs=['_multiprocessing/multiprocessing.c',
	'_multiprocessing/socket_connection.c'
	]

	if macros.get('HAVE_SEM_OPEN',False):
	multiprocessing_srcs.append('_multiprocessing/semaphore.c')

	exts.append(Extension('_multiprocessing', multiprocessing_srcs,
	define_macros=list(macros.items()),
	include_dirs=["Modules/_multiprocessing"]))
	# End multiprocessing

	# Platform-specific libraries
	if platformin('linux2','freebsd4','freebsd5','freebsd6',
	'freebsd7','freebsd8'):
	exts.append(Extension('ossaudiodev',['ossaudiodev.c']))
	else:
	missing.append('ossaudiodev')

	if sys.platform=='darwin':
	exts.append(
	Extension('_gestalt',['_gestalt.c'],
	extra_link_args=['-framework','Carbon'])
	)

	self.extensions.extend(exts)

	# Call the method for detecting whether _tkinter can be compiled
	self.detect_tkinter(inc_dirs, lib_dirs)

	if'_tkinter'notin[e.namefor ein self.extensions]:
	missing.append('_tkinter')

	return missing

	def detect_tkinter_darwin(self, inc_dirs, lib_dirs):
	# The _tkinter module, using frameworks. Since frameworks are quite
	# different the UNIX search logic is not sharable.
	from os.pathimport join, exists
	framework_dirs=[
	'/System/Library/Frameworks/',
	'/Library/Frameworks',
	join(os.getenv('HOME'),'/Library/Frameworks')
	]

	# Find the directory that contains the Tcl.framework and Tk.framework
	# bundles.
	# XXX distutils should support -F!
	for Fin framework_dirs:
	# both Tcl.framework and Tk.framework should be present
	for fwin'Tcl','Tk':
	ifnot exists(join(F, fw+'.framework')):
	break
	else:
	# ok, F is now directory with both frameworks. Continure
	# building
	break
	else:
	# Tk and Tcl frameworks not found. Normal "unix" tkinter search
	# will now resume.
	return0

	# For 8.4a2, we must add -I options that point inside the Tcl and Tk
	# frameworks. In later release we should hopefully be able to pass
	# the -F option to gcc, which specifies a framework lookup path.
	#
	include_dirs=[
	join(F, fw+'.framework', H)
	for fwin('Tcl','Tk')
	for Hin('Headers','Versions/Current/PrivateHeaders')
	]

	# For 8.4a2, the X11 headers are not included. Rather than include a
	# complicated search, this is a hard-coded path. It could bail out
	# if X11 libs are not found...
	include_dirs.append('/usr/X11R6/include')
	frameworks=['-framework','Tcl','-framework','Tk']

	# All existing framework builds of Tcl/Tk don't support 64-bit
	# architectures.
	cflags= sysconfig.get_config_vars('CFLAGS')[0]
	archs= re.findall('-arch\s+(\w+)', cflags)
	if'x86_64'in archsor'ppc64'in archs:
	try:
	archs.remove('x86_64')
	exceptValueError:
	pass
	try:
	archs.remove('ppc64')
	exceptValueError:
	pass

	for ain archs:
	frameworks.append('-arch')
	frameworks.append(a)

	ext=Extension('_tkinter',['_tkinter.c','tkappinit.c'],
	define_macros=[('WITH_APPINIT',1)],
	include_dirs= include_dirs,
	libraries=[],
	extra_compile_args= frameworks[2:],
	extra_link_args= frameworks,
	)
	self.extensions.append(ext)
	return1


	def detect_tkinter(self, inc_dirs, lib_dirs):
	# The _tkinter module.

	# Rather than complicate the code below, detecting and building
	# AquaTk is a separate method. Only one Tkinter will be built on
	# Darwin - either AquaTk, if it is found, or X11 based Tk.
	platform= self.get_platform()
	if(platform=='darwin'and
	self.detect_tkinter_darwin(inc_dirs, lib_dirs)):
	return

	# Assume we haven't found any of the libraries or include files
	# The versions with dots are used on Unix, and the versions without
	# dots on Windows, for detection by cygwin.
	tcllib= tklib= tcl_includes= tk_includes=None
	for versionin['8.5','85','8.4','84','8.3','83','8.2',
	'82','8.1','81','8.0','80']:
	tklib= self.compiler.find_library_file(lib_dirs,'tk'+ version)
	tcllib= self.compiler.find_library_file(lib_dirs,'tcl'+ version)
	if tkliband tcllib:
	# Exit the loop when we've found the Tcl/Tk libraries
	break

	# Now check for the header files
	if tkliband tcllib:
	# Check for the include files on Debian and {Free,Open}BSD, where
	# they're put in /usr/include/{tcl,tk}X.Y
	dotversion= version
	if'.'notin dotversionand"bsd"in sys.platform.lower():
	# OpenBSD and FreeBSD use Tcl/Tk library names like libtcl83.a,
	# but the include subdirs are named like .../include/tcl8.3.
	dotversion= dotversion[:-1]+'.'+ dotversion[-1]
	tcl_include_sub=[]
	tk_include_sub=[]
	for dirin inc_dirs:
	tcl_include_sub+=[dir+ os.sep+"tcl"+ dotversion]
	tk_include_sub+=[dir+ os.sep+"tk"+ dotversion]
	tk_include_sub+= tcl_include_sub
	tcl_includes= find_file('tcl.h', inc_dirs, tcl_include_sub)
	tk_includes= find_file('tk.h', inc_dirs, tk_include_sub)

	if(tcllibisNoneor tklibisNoneor
	tcl_includesisNoneor tk_includesisNone):
	self.announce("INFO: Can't locate Tcl/Tk libs and/or headers",2)
	return

	# OK... everything seems to be present for Tcl/Tk.

	include_dirs=[]; libs=[]; defs=[]; added_lib_dirs=[]
	for dirin tcl_includes+ tk_includes:
	if dirnotin include_dirs:
	include_dirs.append(dir)

	# Check for various platform-specific directories
	if platform=='sunos5':
	include_dirs.append('/usr/openwin/include')
	added_lib_dirs.append('/usr/openwin/lib')
	elif os.path.exists('/usr/X11R6/include'):
	include_dirs.append('/usr/X11R6/include')
	added_lib_dirs.append('/usr/X11R6/lib64')
	added_lib_dirs.append('/usr/X11R6/lib')
	elif os.path.exists('/usr/X11R5/include'):
	include_dirs.append('/usr/X11R5/include')
	added_lib_dirs.append('/usr/X11R5/lib')
	else:
	# Assume default location for X11
	include_dirs.append('/usr/X11/include')
	added_lib_dirs.append('/usr/X11/lib')

	# If Cygwin, then verify that X is installed before proceeding
	if platform=='cygwin':
	x11_inc= find_file('X11/Xlib.h',[], include_dirs)
	if x11_incisNone:
	return

	# Check for BLT extension
	if self.compiler.find_library_file(lib_dirs+ added_lib_dirs,
	'BLT8.0'):
	defs.append(('WITH_BLT',1))
	libs.append('BLT8.0')
	elif self.compiler.find_library_file(lib_dirs+ added_lib_dirs,
	'BLT'):
	defs.append(('WITH_BLT',1))
	libs.append('BLT')

	# Add the Tcl/Tk libraries
	libs.append('tk'+ version)
	libs.append('tcl'+ version)

	if platformin['aix3','aix4']:
	libs.append('ld')

	# Finally, link with the X11 libraries (not appropriate on cygwin)
	if platform!="cygwin":
	libs.append('X11')

	ext=Extension('_tkinter',['_tkinter.c','tkappinit.c'],
	define_macros=[('WITH_APPINIT',1)]+ defs,
	include_dirs= include_dirs,
	libraries= libs,
	library_dirs= added_lib_dirs,
	)
	self.extensions.append(ext)

	## # Uncomment these lines if you want to play with xxmodule.c
	## ext = Extension('xx', ['xxmodule.c'])
	## self.extensions.append(ext)

	# XXX handle these, but how to detect?
	# *** Uncomment and edit for PIL (TkImaging) extension only:
	# -DWITH_PIL -I../Extensions/Imaging/libImaging tkImaging.c \
	# *** Uncomment and edit for TOGL extension only:
	# -DWITH_TOGL togl.c \
	# *** Uncomment these for TOGL extension only:
	# -lGL -lGLU -lXext -lXmu \

	def configure_ctypes_darwin(self, ext):
	# Darwin (OS X) uses preconfigured files, in
	# the Modules/_ctypes/libffi_osx directory.
	(srcdir,)= sysconfig.get_config_vars('srcdir')
	ffi_srcdir= os.path.abspath(os.path.join(srcdir,'Modules',
	'_ctypes','libffi_osx'))
	sources=[os.path.join(ffi_srcdir, p)
	for pin['ffi.c',
	'x86/darwin64.S',
	'x86/x86-darwin.S',
	'x86/x86-ffi_darwin.c',
	'x86/x86-ffi64.c',
	'powerpc/ppc-darwin.S',
	'powerpc/ppc-darwin_closure.S',
	'powerpc/ppc-ffi_darwin.c',
	'powerpc/ppc64-darwin_closure.S',
	]]

	# Add .S (preprocessed assembly) to C compiler source extensions.
	self.compiler.src_extensions.append('.S')

	include_dirs=[os.path.join(ffi_srcdir,'include'),
	os.path.join(ffi_srcdir,'powerpc')]
	ext.include_dirs.extend(include_dirs)
	ext.sources.extend(sources)
	returnTrue

	def configure_ctypes(self, ext):
	ifnot self.use_system_libffi:
	if sys.platform=='darwin':
	return self.configure_ctypes_darwin(ext)

	(srcdir,)= sysconfig.get_config_vars('srcdir')
	ffi_builddir= os.path.join(self.build_temp,'libffi')
	ffi_srcdir= os.path.abspath(os.path.join(srcdir,'Modules',
	'_ctypes','libffi'))
	ffi_configfile= os.path.join(ffi_builddir,'fficonfig.py')

	from distutils.dep_utilimport newer_group

	config_sources=[os.path.join(ffi_srcdir, fname)
	for fnamein os.listdir(ffi_srcdir)
	if os.path.isfile(os.path.join(ffi_srcdir, fname))]
	if self.forceor newer_group(config_sources,
	ffi_configfile):
	from distutils.dir_utilimport mkpath
	mkpath(ffi_builddir)
	config_args=[]

	# Pass empty CFLAGS because we'll just append the resulting
	# CFLAGS to Python's; -g or -O2 is to be avoided.
	cmd="cd %s && env CFLAGS='' '%s/configure' %s" \
	%(ffi_builddir, ffi_srcdir," ".join(config_args))

	res= os.system(cmd)
	if resornot os.path.exists(ffi_configfile):
	print("Failed to configure _ctypes module")
	returnFalse

	fficonfig={}
	fp= open(ffi_configfile)
	try:
	script= fp.read()
	finally:
	fp.close()
	exec(script, globals(), fficonfig)
	ffi_srcdir= os.path.join(fficonfig['ffi_srcdir'],'src')

	# Add .S (preprocessed assembly) to C compiler source extensions.
	self.compiler.src_extensions.append('.S')

	include_dirs=[os.path.join(ffi_builddir,'include'),
	ffi_builddir, ffi_srcdir]
	extra_compile_args= fficonfig['ffi_cflags'].split()

	ext.sources.extend(fficonfig['ffi_sources'])
	ext.include_dirs.extend(include_dirs)
	ext.extra_compile_args.extend(extra_compile_args)
	returnTrue

	def detect_ctypes(self, inc_dirs, lib_dirs):
	self.use_system_libffi=False
	include_dirs=[]
	extra_compile_args=[]
	extra_link_args=[]
	sources=['_ctypes/_ctypes.c',
	'_ctypes/callbacks.c',
	'_ctypes/callproc.c',
	'_ctypes/stgdict.c',
	'_ctypes/cfield.c',
	'_ctypes/malloc_closure.c']
	depends=['_ctypes/ctypes.h']

	if sys.platform=='darwin':
	sources.append('_ctypes/darwin/dlfcn_simple.c')
	extra_compile_args.append('-DMACOSX')
	include_dirs.append('_ctypes/darwin')
	# XXX Is this still needed?
	## extra_link_args.extend(['-read_only_relocs', 'warning'])

	elif sys.platform=='sunos5':
	# XXX This shouldn't be necessary; it appears that some
	# of the assembler code is non-PIC (i.e. it has relocations
	# when it shouldn't. The proper fix would be to rewrite
	# the assembler code to be PIC.
	# This only works with GCC; the Sun compiler likely refuses
	# this option. If you want to compile ctypes with the Sun
	# compiler, please research a proper solution, instead of
	# finding some -z option for the Sun compiler.
	extra_link_args.append('-mimpure-text')

	elif sys.platform.startswith('hp-ux'):
	extra_link_args.append('-fPIC')

	ext=Extension('_ctypes',
	include_dirs=include_dirs,
	extra_compile_args=extra_compile_args,
	extra_link_args=extra_link_args,
	libraries=[],
	sources=sources,
	depends=depends)
	ext_test=Extension('_ctypes_test',
	sources=['_ctypes/_ctypes_test.c'])
	self.extensions.extend([ext, ext_test])

	ifnot'--with-system-ffi'in sysconfig.get_config_var("CONFIG_ARGS"):
	return

	if sys.platform=='darwin':
	# OS X 10.5 comes with libffi.dylib; the include files are
	# in /usr/include/ffi
	inc_dirs.append('/usr/include/ffi')

	ffi_inc= find_file('ffi.h',[], inc_dirs)
	if ffi_incisnotNone:
	ffi_h= ffi_inc[0]+'/ffi.h'
	fp= open(ffi_h)
	while1:
	line= fp.readline()
	ifnot line:
	ffi_inc=None
	break
	if line.startswith('#define LIBFFI_H'):
	break
	ffi_lib=None
	if ffi_incisnotNone:
	for lib_namein('ffi_convenience','ffi_pic','ffi'):
	if(self.compiler.find_library_file(lib_dirs, lib_name)):
	ffi_lib= lib_name
	break

	if ffi_incand ffi_lib:
	ext.include_dirs.extend(ffi_inc)
	ext.libraries.append(ffi_lib)
	self.use_system_libffi=True


	classPyBuildInstall(install):
	# Suppress the warning about installation into the lib_dynload
	# directory, which is not in sys.path when running Python during
	# installation:
	def initialize_options(self):
	install.initialize_options(self)
	self.warn_dir=0

	classPyBuildInstallLib(install_lib):
	# Do exactly what install_lib does but make sure correct access modes get
	# set on installed directories and files. All installed files with get
	# mode 644 unless they are a shared library in which case they will get
	# mode 755. All installed directories will get mode 755.

	so_ext= sysconfig.get_config_var("SO")

	def install(self):
	outfiles= install_lib.install(self)
	self.set_file_modes(outfiles,0o644,0o755)
	self.set_dir_modes(self.install_dir,0o755)
	return outfiles

	def set_file_modes(self, files, defaultMode, sharedLibMode):
	ifnot self.is_chmod_supported():return
	ifnot files:return

	for filenamein files:
	if os.path.islink(filename):continue
	mode= defaultMode
	if filename.endswith(self.so_ext): mode= sharedLibMode
	log.info("changing mode of %s to %o", filename, mode)
	ifnot self.dry_run: os.chmod(filename, mode)

	def set_dir_modes(self, dirname, mode):
	ifnot self.is_chmod_supported():return
	os.walk(dirname, self.set_dir_modes_visitor, mode)

	def set_dir_modes_visitor(self, mode, dirname, names):
	if os.path.islink(dirname):return
	log.info("changing mode of %s to %o", dirname, mode)
	ifnot self.dry_run: os.chmod(dirname, mode)

	def is_chmod_supported(self):
	return hasattr(os,'chmod')

	SUMMARY="""
	Python is an interpreted, interactive, object-oriented programming
	language. It is often compared to Tcl, Perl, Scheme or Java.

	Python combines remarkable power with very clear syntax. It has
	modules, classes, exceptions, very high level dynamic data types, and
	dynamic typing. There are interfaces to many system calls and
	libraries, as well as to various windowing systems (X11, Motif, Tk,
	Mac, MFC). New built-in modules are easily written in C or C++. Python
	is also usable as an extension language for applications that need a
	programmable interface.

	The Python implementation is portable: it runs on many brands of UNIX,
	on Windows, DOS, OS/2, Mac, Amiga... If your favorite system isn't
	listed here, it may still be supported, if there's a C compiler for
	it. Ask around on comp.lang.python -- or just try compiling Python
	yourself.
	"""

	CLASSIFIERS="""
	Development Status :: 6 - Mature
	License :: OSI Approved :: Python Software Foundation License
	Natural Language :: English
	Programming Language :: C
	Programming Language :: Python
	Topic :: Software Development
	"""

	def main():
	# turn off warnings when deprecated modules are imported
	import warnings
	warnings.filterwarnings("ignore",category=DeprecationWarning)
	setup(#PyPIMetadata(PEP301)
	name="Python",
	version= sys.version.split()[0],
	url="http://www.python.org/%s"% sys.version[:3],
	maintainer="Guido van Rossum and the Python community",
	maintainer_email="python-dev@python.org",
	description="A high-level object-oriented programming language",
	long_description= SUMMARY.strip(),
	license="PSF license",
	classifiers=[xfor xin CLASSIFIERS.split("\n")if x],
	platforms=["Many"],

	# Build info
	cmdclass={'build_ext':PyBuildExt,'install':PyBuildInstall,
	'install_lib':PyBuildInstallLib},
	# The struct module is defined here, because build_ext won't be
	# called unless there's at least one extension module defined.
	ext_modules=[Extension('_struct',['_struct.c'])],

	# Scripts to install
	scripts=['Tools/scripts/pydoc','Tools/scripts/idle',
	'Tools/scripts/2to3',
	'Lib/smtpd.py']
	)

	# --install-platlib
	if __name__=='__main__':
	main()