python 安装 easy_install 和 pip 流程
easy_install 打包和发布 python 包
pip 是包管理
详见:
https://pypi.python.org/pypi/setuptools/1.0#windows
主要来说就是下载第二段py 代码,直接运行会报错这是python的一个bug,所以要改动python根目录下Lib文件夹下的mimetypes.py文件.
(参考链接:
http://www.oschina.net/question/1409342_134600
http://bugs.python.org/review/9291/diff/1663/Lib/mimetypes.py)
可以把mimetypes.py改成如下
"""Guess the MIME type of a file. This module defines two useful functions: guess_type(url, strict=1) -- guess the MIME type and encoding of a URL. guess_extension(type, strict=1) -- guess the extension for a given MIME type. It also contains the following, for tuning the behavior: Data: knownfiles -- list of files to parse inited -- flag set when init() has been called suffix_map -- dictionary mapping suffixes to suffixes encodings_map -- dictionary mapping suffixes to encodings types_map -- dictionary mapping suffixes to types Functions: init([files]) -- parse a list of files, default knownfiles (on Windows, the default values are taken from the registry) read_mime_types(file) -- parse one file, return a dictionary or None """ import os import sys import posixpath import urllib from itertools import count try: import _winreg except ImportError: _winreg = None __all__ = [ "guess_type","guess_extension","guess_all_extensions", "add_type","read_mime_types","init" ] knownfiles = [ "/etc/mime.types", "/etc/httpd/mime.types", # Mac OS X "/etc/httpd/conf/mime.types", # Apache "/etc/apache/mime.types", # Apache 1 "/etc/apache2/mime.types", # Apache 2 "/usr/local/etc/httpd/conf/mime.types", "/usr/local/lib/netscape/mime.types", "/usr/local/etc/httpd/conf/mime.types", # Apache 1.2 "/usr/local/etc/mime.types", # Apache 1.3 ] inited = False _db = None class MimeTypes: """MIME-types datastore. This datastore can handle information from mime.types-style files and supports basic determination of MIME type from a filename or URL, and can guess a reasonable extension given a MIME type. """ def __init__(self, filenames=(), strict=True): if not inited: init() self.encodings_map = encodings_map.copy() self.suffix_map = suffix_map.copy() self.types_map = ({}, {}) # dict for (non-strict, strict) self.types_map_inv = ({}, {}) for (ext, type) in types_map.items(): self.add_type(type, ext, True) for (ext, type) in common_types.items(): self.add_type(type, ext, False) for name in filenames: self.read(name, strict) def add_type(self, type, ext, strict=True): """Add a mapping between a type and an extension. When the extension is already known, the new type will replace the old one. When the type is already known the extension will be added to the list of known extensions. If strict is true, information will be added to list of standard types, else to the list of non-standard types. """ self.types_map[strict][ext] = type exts = self.types_map_inv[strict].setdefault(type, []) if ext not in exts: exts.append(ext) def guess_type(self, url, strict=True): """Guess the type of a file based on its URL. Return value is a tuple (type, encoding) where type is None if the type can't be guessed (no or unknown suffix) or a string of the form type/subtype, usable for a MIME Content-type header; and encoding is None for no encoding or the name of the program used to encode (e.g. compress or gzip). The mappings are table driven. Encoding suffixes are case sensitive; type suffixes are first tried case sensitive, then case insensitive. The suffixes .tgz, .taz and .tz (case sensitive!) are all mapped to '.tar.gz'. (This is table-driven too, using the dictionary suffix_map.) Optional `strict' argument when False adds a bunch of commonly found, but non-standard types. """ scheme, url = urllib.splittype(url) if scheme == 'data': # syntax of data URLs: # dataurl := "data:" [ mediatype ] [ ";base64" ] "," data # mediatype := [ type "/" subtype ] *( ";" parameter ) # data := *urlchar # parameter := attribute "=" value # type/subtype defaults to "text/plain" comma = url.find(',') if comma < 0: # bad data URL return None, None semi = url.find(';', 0, comma) if semi >= 0: type = url[:semi] else: type = url[:comma] if '=' in type or '/' not in type: type = 'text/plain' return type, None # never compressed, so encoding is None base, ext = posixpath.splitext(url) while ext in self.suffix_map: base, ext = posixpath.splitext(base + self.suffix_map[ext]) if ext in self.encodings_map: encoding = self.encodings_map[ext] base, ext = posixpath.splitext(base) else: encoding = None types_map = self.types_map[True] if ext in types_map: return types_map[ext], encoding elif ext.lower() in types_map: return types_map[ext.lower()], encoding elif strict: return None, encoding types_map = self.types_map[False] if ext in types_map: return types_map[ext], encoding elif ext.lower() in types_map: return types_map[ext.lower()], encoding else: return None, encoding def guess_all_extensions(self, type, strict=True): """Guess the extensions for a file based on its MIME type. Return value is a list of strings giving the possible filename extensions, including the leading dot ('.'). The extension is not guaranteed to have been associated with any particular data stream, but would be mapped to the MIME type `type' by guess_type(). Optional `strict' argument when false adds a bunch of commonly found, but non-standard types. """ type = type.lower() extensions = self.types_map_inv[True].get(type, []) if not strict: for ext in self.types_map_inv[False].get(type, []): if ext not in extensions: extensions.append(ext) return extensions def guess_extension(self, type, strict=True): """Guess the extension for a file based on its MIME type. Return value is a string giving a filename extension, including the leading dot ('.'). The extension is not guaranteed to have been associated with any particular data stream, but would be mapped to the MIME type `type' by guess_type(). If no extension can be guessed for `type', None is returned. Optional `strict' argument when false adds a bunch of commonly found, but non-standard types. """ extensions = self.guess_all_extensions(type, strict) if not extensions: return None return extensions[0] def read(self, filename, strict=True): """ Read a single mime.types-format file, specified by pathname. If strict is true, information will be added to list of standard types, else to the list of non-standard types. """ with open(filename) as fp: self.readfp(fp, strict) def readfp(self, fp, strict=True): """ Read a single mime.types-format file. If strict is true, information will be added to list of standard types, else to the list of non-standard types. """ while 1: line = fp.readline() if not line: break words = line.split() for i in range(len(words)): if words[i][0] == '#': del words[i:] break if not words: continue type, suffixes = words[0], words[1:] for suff in suffixes: self.add_type(type, '.' + suff, strict) def read_windows_registry(self, strict=True): """ Load the MIME types database from Windows registry. If strict is true, information will be added to list of standard types, else to the list of non-standard types. """ # Windows only if not _winreg: return def enum_types(mimedb): for i in count(): try: yield _winreg.EnumKey(mimedb, i) except EnvironmentError: break default_encoding = sys.getdefaultencoding() with _winreg.OpenKey(_winreg.HKEY_CLASSES_ROOT, '') as hkcr: for subkeyname in enum_types(hkcr): try: with _winreg.OpenKey(hkcr, subkeyname) as subkey: # Only check file extensions if not subkeyname.startswith("."): continue # raises EnvironmentError if no 'Content Type' value mimetype, datatype = _winreg.QueryValueEx( subkey, 'Content Type') if datatype != _winreg.REG_SZ: continue try: mimetype = mimetype.encode(default_encoding) subkeyname = subkeyname.encode(default_encoding) except UnicodeEncodeError: continue self.add_type(mimetype, subkeyname, strict) except EnvironmentError: continue def guess_type(url, strict=True): """Guess the type of a file based on its URL. Return value is a tuple (type, encoding) where type is None if the type can't be guessed (no or unknown suffix) or a string of the form type/subtype, usable for a MIME Content-type header; and encoding is None for no encoding or the name of the program used to encode (e.g. compress or gzip). The mappings are table driven. Encoding suffixes are case sensitive; type suffixes are first tried case sensitive, then case insensitive. The suffixes .tgz, .taz and .tz (case sensitive!) are all mapped to ".tar.gz". (This is table-driven too, using the dictionary suffix_map). Optional `strict' argument when false adds a bunch of commonly found, but non-standard types. """ if _db is None: init() return _db.guess_type(url, strict) def guess_all_extensions(type, strict=True): """Guess the extensions for a file based on its MIME type. Return value is a list of strings giving the possible filename extensions, including the leading dot ('.'). The extension is not guaranteed to have been associated with any particular data stream, but would be mapped to the MIME type `type' by guess_type(). If no extension can be guessed for `type', None is returned. Optional `strict' argument when false adds a bunch of commonly found, but non-standard types. """ if _db is None: init() return _db.guess_all_extensions(type, strict) def guess_extension(type, strict=True): """Guess the extension for a file based on its MIME type. Return value is a string giving a filename extension, including the leading dot ('.'). The extension is not guaranteed to have been associated with any particular data stream, but would be mapped to the MIME type `type' by guess_type(). If no extension can be guessed for `type', None is returned. Optional `strict' argument when false adds a bunch of commonly found, but non-standard types. """ if _db is None: init() return _db.guess_extension(type, strict) def add_type(type, ext, strict=True): """Add a mapping between a type and an extension. When the extension is already known, the new type will replace the old one. When the type is already known the extension will be added to the list of known extensions. If strict is true, information will be added to list of standard types, else to the list of non-standard types. """ if _db is None: init() return _db.add_type(type, ext, strict) def init(files=None): global suffix_map, types_map, encodings_map, common_types global inited, _db inited = True # so that MimeTypes.__init__() doesn't call us again db = MimeTypes() if files is None: if _winreg: db.read_windows_registry() files = knownfiles for file in files: if os.path.isfile(file): db.read(file) encodings_map = db.encodings_map suffix_map = db.suffix_map types_map = db.types_map[True] common_types = db.types_map[False] # Make the DB a global variable now that it is fully initialized _db = db def read_mime_types(file): try: f = open(file) except IOError: return None db = MimeTypes() db.readfp(f, True) return db.types_map[True] def _default_mime_types(): global suffix_map global encodings_map global types_map global common_types suffix_map = { '.tgz': '.tar.gz', '.taz': '.tar.gz', '.tz': '.tar.gz', '.tbz2': '.tar.bz2', '.txz': '.tar.xz', } encodings_map = { '.gz': 'gzip', '.Z': 'compress', '.bz2': 'bzip2', '.xz': 'xz', } # Before adding new types, make sure they are either registered with IANA, # at http://www.isi.edu/in-notes/iana/assignments/media-types # or extensions, i.e. using the x- prefix # If you add to these, please keep them sorted! types_map = { '.a' : 'application/octet-stream', '.ai' : 'application/postscript', '.aif' : 'audio/x-aiff', '.aifc' : 'audio/x-aiff', '.aiff' : 'audio/x-aiff', '.au' : 'audio/basic', '.avi' : 'video/x-msvideo', '.bat' : 'text/plain', '.bcpio' : 'application/x-bcpio', '.bin' : 'application/octet-stream', '.bmp' : 'image/x-ms-bmp', '.c' : 'text/plain', # Duplicates :( '.cdf' : 'application/x-cdf', '.cdf' : 'application/x-netcdf', '.cpio' : 'application/x-cpio', '.csh' : 'application/x-csh', '.css' : 'text/css', '.dll' : 'application/octet-stream', '.doc' : 'application/msword', '.dot' : 'application/msword', '.dvi' : 'application/x-dvi', '.eml' : 'message/rfc822', '.eps' : 'application/postscript', '.etx' : 'text/x-setext', '.exe' : 'application/octet-stream', '.gif' : 'image/gif', '.gtar' : 'application/x-gtar', '.h' : 'text/plain', '.hdf' : 'application/x-hdf', '.htm' : 'text/html', '.html' : 'text/html', '.ico' : 'image/vnd.microsoft.icon', '.ief' : 'image/ief', '.jpe' : 'image/jpeg', '.jpeg' : 'image/jpeg', '.jpg' : 'image/jpeg', '.js' : 'application/javascript', '.ksh' : 'text/plain', '.latex' : 'application/x-latex', '.m1v' : 'video/mpeg', '.man' : 'application/x-troff-man', '.me' : 'application/x-troff-me', '.mht' : 'message/rfc822', '.mhtml' : 'message/rfc822', '.mif' : 'application/x-mif', '.mov' : 'video/quicktime', '.movie' : 'video/x-sgi-movie', '.mp2' : 'audio/mpeg', '.mp3' : 'audio/mpeg', '.mp4' : 'video/mp4', '.mpa' : 'video/mpeg', '.mpe' : 'video/mpeg', '.mpeg' : 'video/mpeg', '.mpg' : 'video/mpeg', '.ms' : 'application/x-troff-ms', '.nc' : 'application/x-netcdf', '.nws' : 'message/rfc822', '.o' : 'application/octet-stream', '.obj' : 'application/octet-stream', '.oda' : 'application/oda', '.p12' : 'application/x-pkcs12', '.p7c' : 'application/pkcs7-mime', '.pbm' : 'image/x-portable-bitmap', '.pdf' : 'application/pdf', '.pfx' : 'application/x-pkcs12', '.pgm' : 'image/x-portable-graymap', '.pl' : 'text/plain', '.png' : 'image/png', '.pnm' : 'image/x-portable-anymap', '.pot' : 'application/vnd.ms-powerpoint', '.ppa' : 'application/vnd.ms-powerpoint', '.ppm' : 'image/x-portable-pixmap', '.pps' : 'application/vnd.ms-powerpoint', '.ppt' : 'application/vnd.ms-powerpoint', '.ps' : 'application/postscript', '.pwz' : 'application/vnd.ms-powerpoint', '.py' : 'text/x-python', '.pyc' : 'application/x-python-code', '.pyo' : 'application/x-python-code', '.qt' : 'video/quicktime', '.ra' : 'audio/x-pn-realaudio', '.ram' : 'application/x-pn-realaudio', '.ras' : 'image/x-cmu-raster', '.rdf' : 'application/xml', '.rgb' : 'image/x-rgb', '.roff' : 'application/x-troff', '.rtx' : 'text/richtext', '.sgm' : 'text/x-sgml', '.sgml' : 'text/x-sgml', '.sh' : 'application/x-sh', '.shar' : 'application/x-shar', '.snd' : 'audio/basic', '.so' : 'application/octet-stream', '.src' : 'application/x-wais-source', '.sv4cpio': 'application/x-sv4cpio', '.sv4crc' : 'application/x-sv4crc', '.swf' : 'application/x-shockwave-flash', '.t' : 'application/x-troff', '.tar' : 'application/x-tar', '.tcl' : 'application/x-tcl', '.tex' : 'application/x-tex', '.texi' : 'application/x-texinfo', '.texinfo': 'application/x-texinfo', '.tif' : 'image/tiff', '.tiff' : 'image/tiff', '.tr' : 'application/x-troff', '.tsv' : 'text/tab-separated-values', '.txt' : 'text/plain', '.ustar' : 'application/x-ustar', '.vcf' : 'text/x-vcard', '.wav' : 'audio/x-wav', '.wiz' : 'application/msword', '.wsdl' : 'application/xml', '.xbm' : 'image/x-xbitmap', '.xlb' : 'application/vnd.ms-excel', # Duplicates :( '.xls' : 'application/excel', '.xls' : 'application/vnd.ms-excel', '.xml' : 'text/xml', '.xpdl' : 'application/xml', '.xpm' : 'image/x-xpixmap', '.xsl' : 'application/xml', '.xwd' : 'image/x-xwindowdump', '.zip' : 'application/zip', } # These are non-standard types, commonly found in the wild. They will # only match if strict=0 flag is given to the API methods. # Please sort these too common_types = { '.jpg' : 'image/jpg', '.mid' : 'audio/midi', '.midi': 'audio/midi', '.pct' : 'image/pict', '.pic' : 'image/pict', '.pict': 'image/pict', '.rtf' : 'application/rtf', '.xul' : 'text/xul' } _default_mime_types() if __name__ == '__main__': import getopt USAGE = """\ Usage: mimetypes.py [options] type Options: --help / -h -- print this message and exit --lenient / -l -- additionally search of some common, but non-standard types. --extension / -e -- guess extension instead of type More than one type argument may be given. """ def usage(code, msg=''): print USAGE if msg: print msg sys.exit(code) try: opts, args = getopt.getopt(sys.argv[1:], 'hle', ['help', 'lenient', 'extension']) except getopt.error, msg: usage(1, msg) strict = 1 extension = 0 for opt, arg in opts: if opt in ('-h', '--help'): usage(0) elif opt in ('-l', '--lenient'): strict = 0 elif opt in ('-e', '--extension'): extension = 1 for gtype in args: if extension: guess = guess_extension(gtype, strict) if not guess: print "I don't know anything about type", gtype else: print guess else: guess, encoding = guess_type(gtype, strict) if not guess: print "I don't know anything about type", gtype else: print 'type:', guess, 'encoding:', encoding
运行下面这段代码成功后把 python 根目录下的Scripts文件夹添加到 Path
然后在命令行运行 easy_install pip 用easy_install 来 装 pip
#!python """Bootstrap setuptools installation If you want to use setuptools in your package's setup.py, just include this file in the same directory with it, and add this to the top of your setup.py:: from ez_setup import use_setuptools use_setuptools() If you want to require a specific version of setuptools, set a download mirror, or use an alternate download directory, you can do so by supplying the appropriate options to ``use_setuptools()``. This file can also be run as a script to install or upgrade setuptools. """ import os import shutil import sys import tempfile import tarfile import optparse import subprocess import platform from distutils import log try: from site import USER_SITE except ImportError: USER_SITE = None DEFAULT_VERSION = "1.0" DEFAULT_URL = "https://pypi.python.org/packages/source/s/setuptools/" def _python_cmd(*args): args = (sys.executable,) + args return subprocess.call(args) == 0 def _check_call_py24(cmd, *args, **kwargs): res = subprocess.call(cmd, *args, **kwargs) class CalledProcessError(Exception): pass if not res == 0: msg = "Command '%s' return non-zero exit status %d" % (cmd, res) raise CalledProcessError(msg) vars(subprocess).setdefault('check_call', _check_call_py24) def _install(tarball, install_args=()): # extracting the tarball tmpdir = tempfile.mkdtemp() log.warn('Extracting in %s', tmpdir) old_wd = os.getcwd() try: os.chdir(tmpdir) tar = tarfile.open(tarball) _extractall(tar) tar.close() # going in the directory subdir = os.path.join(tmpdir, os.listdir(tmpdir)[0]) os.chdir(subdir) log.warn('Now working in %s', subdir) # installing log.warn('Installing Setuptools') if not _python_cmd('setup.py', 'install', *install_args): log.warn('Something went wrong during the installation.') log.warn('See the error message above.') # exitcode will be 2 return 2 finally: os.chdir(old_wd) shutil.rmtree(tmpdir) def _build_egg(egg, tarball, to_dir): # extracting the tarball tmpdir = tempfile.mkdtemp() log.warn('Extracting in %s', tmpdir) old_wd = os.getcwd() try: os.chdir(tmpdir) tar = tarfile.open(tarball) _extractall(tar) tar.close() # going in the directory subdir = os.path.join(tmpdir, os.listdir(tmpdir)[0]) os.chdir(subdir) log.warn('Now working in %s', subdir) # building an egg log.warn('Building a Setuptools egg in %s', to_dir) _python_cmd('setup.py', '-q', 'bdist_egg', '--dist-dir', to_dir) finally: os.chdir(old_wd) shutil.rmtree(tmpdir) # returning the result log.warn(egg) if not os.path.exists(egg): raise IOError('Could not build the egg.') def _do_download(version, download_base, to_dir, download_delay): egg = os.path.join(to_dir, 'setuptools-%s-py%d.%d.egg' % (version, sys.version_info[0], sys.version_info[1])) if not os.path.exists(egg): tarball = download_setuptools(version, download_base, to_dir, download_delay) _build_egg(egg, tarball, to_dir) sys.path.insert(0, egg) # Remove previously-imported pkg_resources if present (see # https://bitbucket.org/pypa/setuptools/pull-request/7/ for details). if 'pkg_resources' in sys.modules: del sys.modules['pkg_resources'] import setuptools setuptools.bootstrap_install_from = egg def use_setuptools(version=DEFAULT_VERSION, download_base=DEFAULT_URL, to_dir=os.curdir, download_delay=15): # making sure we use the absolute path to_dir = os.path.abspath(to_dir) was_imported = 'pkg_resources' in sys.modules or \ 'setuptools' in sys.modules try: import pkg_resources except ImportError: return _do_download(version, download_base, to_dir, download_delay) try: pkg_resources.require("setuptools>=" + version) return except pkg_resources.VersionConflict: e = sys.exc_info()[1] if was_imported: sys.stderr.write( "The required version of setuptools (>=%s) is not available,\n" "and can't be installed while this script is running. Please\n" "install a more recent version first, using\n" "'easy_install -U setuptools'." "\n\n(Currently using %r)\n" % (version, e.args[0])) sys.exit(2) else: del pkg_resources, sys.modules['pkg_resources'] # reload ok return _do_download(version, download_base, to_dir, download_delay) except pkg_resources.DistributionNotFound: return _do_download(version, download_base, to_dir, download_delay) def download_file_powershell(url, target): """ Download the file at url to target using Powershell (which will validate trust). Raise an exception if the command cannot complete. """ target = os.path.abspath(target) cmd = [ 'powershell', '-Command', "(new-object System.Net.WebClient).DownloadFile(%(url)r, %(target)r)" % vars(), ] subprocess.check_call(cmd) download_file_powershell.viable = ( lambda: platform.system() == 'Windows' and platform.win32_ver()[1] >= '6' ) def download_file_curl(url, target): cmd = ['curl', url, '--silent', '--output', target] subprocess.check_call(cmd) def has_curl(): cmd = ['curl', '--version'] devnull = open(os.path.devnull, 'wb') try: subprocess.check_call(cmd, stdout=devnull, stderr=devnull) except: return False finally: devnull.close() return True download_file_curl.viable = has_curl def download_file_wget(url, target): cmd = ['wget', url, '--quiet', '--output-document', target] subprocess.check_call(cmd) def has_wget(): cmd = ['wget', '--version'] devnull = open(os.path.devnull, 'wb') try: subprocess.check_call(cmd, stdout=devnull, stderr=devnull) except: return False finally: devnull.close() return True download_file_wget.viable = has_wget def download_file_insecure(url, target): """ Use Python to download the file, even though it cannot authenticate the connection. """ try: from urllib.request import urlopen except ImportError: from urllib2 import urlopen src = dst = None try: src = urlopen(url) # Read/write all in one block, so we don't create a corrupt file # if the download is interrupted. data = src.read() dst = open(target, "wb") dst.write(data) finally: if src: src.close() if dst: dst.close() download_file_insecure.viable = lambda: True def get_best_downloader(): downloaders = [ download_file_powershell, download_file_curl, download_file_wget, download_file_insecure, ] for dl in downloaders: if dl.viable(): return dl def download_setuptools(version=DEFAULT_VERSION, download_base=DEFAULT_URL, to_dir=os.curdir, delay=15): """Download setuptools from a specified location and return its filename `version` should be a valid setuptools version number that is available as an egg for download under the `download_base` URL (which should end with a '/'). `to_dir` is the directory where the egg will be downloaded. `delay` is the number of seconds to pause before an actual download attempt. """ # making sure we use the absolute path to_dir = os.path.abspath(to_dir) tgz_name = "setuptools-%s.tar.gz" % version url = download_base + tgz_name saveto = os.path.join(to_dir, tgz_name) if not os.path.exists(saveto): # Avoid repeated downloads log.warn("Downloading %s", url) downloader = get_best_downloader() downloader(url, saveto) return os.path.realpath(saveto) def _extractall(self, path=".", members=None): """Extract all members from the archive to the current working directory and set owner, modification time and permissions on directories afterwards. `path' specifies a different directory to extract to. `members' is optional and must be a subset of the list returned by getmembers(). """ import copy import operator from tarfile import ExtractError directories = [] if members is None: members = self for tarinfo in members: if tarinfo.isdir(): # Extract directories with a safe mode. directories.append(tarinfo) tarinfo = copy.copy(tarinfo) tarinfo.mode = 448 # decimal for oct 0700 self.extract(tarinfo, path) # Reverse sort directories. if sys.version_info < (2, 4): def sorter(dir1, dir2): return cmp(dir1.name, dir2.name) directories.sort(sorter) directories.reverse() else: directories.sort(key=operator.attrgetter('name'), reverse=True) # Set correct owner, mtime and filemode on directories. for tarinfo in directories: dirpath = os.path.join(path, tarinfo.name) try: self.chown(tarinfo, dirpath) self.utime(tarinfo, dirpath) self.chmod(tarinfo, dirpath) except ExtractError: e = sys.exc_info()[1] if self.errorlevel > 1: raise else: self._dbg(1, "tarfile: %s" % e) def _build_install_args(options): """ Build the arguments to 'python setup.py install' on the setuptools package """ install_args = [] if options.user_install: if sys.version_info < (2, 6): log.warn("--user requires Python 2.6 or later") raise SystemExit(1) install_args.append('--user') return install_args def _parse_args(): """ Parse the command line for options """ parser = optparse.OptionParser() parser.add_option( '--user', dest='user_install', action='store_true', default=False, help='install in user site package (requires Python 2.6 or later)') parser.add_option( '--download-base', dest='download_base', metavar="URL", default=DEFAULT_URL, help='alternative URL from where to download the setuptools package') options, args = parser.parse_args() # positional arguments are ignored return options def main(version=DEFAULT_VERSION): """Install or upgrade setuptools and EasyInstall""" options = _parse_args() tarball = download_setuptools(download_base=options.download_base) return _install(tarball, _build_install_args(options)) if __name__ == '__main__': sys.exit(main())