"""Package Install Manager for Python. This is currently a MacOSX-only strawman implementation. Despite other rumours the name stands for "Packman IMPlementation". Tools to allow easy installation of packages. The idea is that there is an online XML database per (platform, python-version) containing packages known to work with that combination. This module contains tools for getting and parsing the database, testing whether packages are installed, computing dependencies and installing packages. There is a minimal main program that works as a command line tool, but the intention is that the end user will use this through a GUI. """ import sys import os import popen2 import urllib import urllib2 import urlparse import plistlib import distutils.util import distutils.sysconfig import md5 import tarfile import tempfile import shutil __all__ = ["PimpPreferences", "PimpDatabase", "PimpPackage", "main", "PIMP_VERSION", "main"] _scriptExc_NotInstalled = "pimp._scriptExc_NotInstalled" _scriptExc_OldInstalled = "pimp._scriptExc_OldInstalled" _scriptExc_BadInstalled = "pimp._scriptExc_BadInstalled" NO_EXECUTE=0 PIMP_VERSION="0.3" # Flavors: # source: setup-based package # binary: tar (or other) archive created with setup.py bdist. DEFAULT_FLAVORORDER=['source', 'binary'] DEFAULT_DOWNLOADDIR='/tmp' DEFAULT_BUILDDIR='/tmp' DEFAULT_INSTALLDIR=distutils.sysconfig.get_python_lib() DEFAULT_PIMPDATABASE="http://www.python.org/packman/version-0.3/24a0-%s.plist" % distutils.util.get_platform() def _cmd(output, dir, *cmditems): """Internal routine to run a shell command in a given directory.""" cmd = ("cd \"%s\"; " % dir) + " ".join(cmditems) if output: output.write("+ %s\n" % cmd) if NO_EXECUTE: return 0 child = popen2.Popen4(cmd) child.tochild.close() while 1: line = child.fromchild.readline() if not line: break if output: output.write(line) return child.wait() class PimpUnpacker: """Abstract base class - Unpacker for archives""" _can_rename = False def __init__(self, argument, dir="", renames=[]): self.argument = argument if renames and not self._can_rename: raise RuntimeError, "This unpacker cannot rename files" self._dir = dir self._renames = renames def unpack(self, archive, output=None, package=None): return None class PimpCommandUnpacker(PimpUnpacker): """Unpack archives by calling a Unix utility""" _can_rename = False def unpack(self, archive, output=None, package=None): cmd = self.argument % archive if _cmd(output, self._dir, cmd): return "unpack command failed" class PimpTarUnpacker(PimpUnpacker): """Unpack tarfiles using the builtin tarfile module""" _can_rename = True def unpack(self, archive, output=None, package=None): tf = tarfile.open(archive, "r") members = tf.getmembers() skip = [] if self._renames: for member in members: for oldprefix, newprefix in self._renames: if oldprefix[:len(self._dir)] == self._dir: oldprefix2 = oldprefix[len(self._dir):] else: oldprefix2 = None if member.name[:len(oldprefix)] == oldprefix: if newprefix is None: skip.append(member) #print 'SKIP', member.name else: member.name = newprefix + member.name[len(oldprefix):] print ' ', member.name break elif oldprefix2 and member.name[:len(oldprefix2)] == oldprefix2: if newprefix is None: skip.append(member) #print 'SKIP', member.name else: member.name = newprefix + member.name[len(oldprefix2):] #print ' ', member.name break else: skip.append(member) #print '????', member.name for member in members: if member in skip: continue tf.extract(member, self._dir) if skip: names = [member.name for member in skip if member.name[-1] != '/'] if package: names = package.filterExpectedSkips(names) if names: return "Not all files were unpacked: %s" % " ".join(names) ARCHIVE_FORMATS = [ (".tar.Z", PimpTarUnpacker, None), (".taz", PimpTarUnpacker, None), (".tar.gz", PimpTarUnpacker, None), (".tgz", PimpTarUnpacker, None), (".tar.bz", PimpTarUnpacker, None), (".zip", PimpCommandUnpacker, "unzip \"%s\""), ] class PimpPreferences: """Container for per-user preferences, such as the database to use and where to install packages.""" def __init__(self, flavorOrder=None, downloadDir=None, buildDir=None, installDir=None, pimpDatabase=None): if not flavorOrder: flavorOrder = DEFAULT_FLAVORORDER if not downloadDir: downloadDir = DEFAULT_DOWNLOADDIR if not buildDir: buildDir = DEFAULT_BUILDDIR if not pimpDatabase: pimpDatabase = DEFAULT_PIMPDATABASE self.setInstallDir(installDir) self.flavorOrder = flavorOrder self.downloadDir = downloadDir self.buildDir = buildDir self.pimpDatabase = pimpDatabase def setInstallDir(self, installDir=None): if installDir: # Installing to non-standard location. self.installLocations = [ ('--install-lib', installDir), ('--install-headers', None), ('--install-scripts', None), ('--install-data', None)] else: installDir = DEFAULT_INSTALLDIR self.installLocations = [] self.installDir = installDir def isUserInstall(self): return self.installDir != DEFAULT_INSTALLDIR def check(self): """Check that the preferences make sense: directories exist and are writable, the install directory is on sys.path, etc.""" rv = "" RWX_OK = os.R_OK|os.W_OK|os.X_OK if not os.path.exists(self.downloadDir): rv += "Warning: Download directory \"%s\" does not exist\n" % self.downloadDir elif not os.access(self.downloadDir, RWX_OK): rv += "Warning: Download directory \"%s\" is not writable or not readable\n" % self.downloadDir if not os.path.exists(self.buildDir): rv += "Warning: Build directory \"%s\" does not exist\n" % self.buildDir elif not os.access(self.buildDir, RWX_OK): rv += "Warning: Build directory \"%s\" is not writable or not readable\n" % self.buildDir if not os.path.exists(self.installDir): rv += "Warning: Install directory \"%s\" does not exist\n" % self.installDir elif not os.access(self.installDir, RWX_OK): rv += "Warning: Install directory \"%s\" is not writable or not readable\n" % self.installDir else: installDir = os.path.realpath(self.installDir) for p in sys.path: try: realpath = os.path.realpath(p) except: pass if installDir == realpath: break else: rv += "Warning: Install directory \"%s\" is not on sys.path\n" % self.installDir return rv def compareFlavors(self, left, right): """Compare two flavor strings. This is part of your preferences because whether the user prefers installing from source or binary is.""" if left in self.flavorOrder: if right in self.flavorOrder: return cmp(self.flavorOrder.index(left), self.flavorOrder.index(right)) return -1 if right in self.flavorOrder: return 1 return cmp(left, right) class PimpDatabase: """Class representing a pimp database. It can actually contain information from multiple databases through inclusion, but the toplevel database is considered the master, as its maintainer is "responsible" for the contents.""" def __init__(self, prefs): self._packages = [] self.preferences = prefs self._urllist = [] self._version = "" self._maintainer = "" self._description = "" def close(self): """Clean up""" self._packages = [] self.preferences = None def appendURL(self, url, included=0): """Append packages from the database with the given URL. Only the first database should specify included=0, so the global information (maintainer, description) get stored.""" if url in self._urllist: return self._urllist.append(url) fp = urllib2.urlopen(url).fp dict = plistlib.Plist.fromFile(fp) # Test here for Pimp version, etc if included: version = dict.get('Version') if version and version > self._version: sys.stderr.write("Warning: included database %s is for pimp version %s\n" % (url, version)) else: self._version = dict.get('Version') if not self._version: sys.stderr.write("Warning: database has no Version information\n") elif self._version > PIMP_VERSION: sys.stderr.write("Warning: database version %s newer than pimp version %s\n" % (self._version, PIMP_VERSION)) self._maintainer = dict.get('Maintainer', '') self._description = dict.get('Description', '').strip() self._appendPackages(dict['Packages']) others = dict.get('Include', []) for url in others: self.appendURL(url, included=1) def _appendPackages(self, packages): """Given a list of dictionaries containing package descriptions create the PimpPackage objects and append them to our internal storage.""" for p in packages: p = dict(p) flavor = p.get('Flavor') if flavor == 'source': pkg = PimpPackage_source(self, p) elif flavor == 'binary': pkg = PimpPackage_binary(self, p) else: pkg = PimpPackage(self, dict(p)) self._packages.append(pkg) def list(self): """Return a list of all PimpPackage objects in the database.""" return self._packages def listnames(self): """Return a list of names of all packages in the database.""" rv = [] for pkg in self._packages: rv.append(pkg.fullname()) rv.sort() return rv def dump(self, pathOrFile): """Dump the contents of the database to an XML .plist file. The file can be passed as either a file object or a pathname. All data, including included databases, is dumped.""" packages = [] for pkg in self._packages: packages.append(pkg.dump()) dict = { 'Version': self._version, 'Maintainer': self._maintainer, 'Description': self._description, 'Packages': packages } plist = plistlib.Plist(**dict) plist.write(pathOrFile) def find(self, ident): """Find a package. The package can be specified by name or as a dictionary with name, version and flavor entries. Only name is obligatory. If there are multiple matches the best one (higher version number, flavors ordered according to users' preference) is returned.""" if type(ident) == str: # Remove ( and ) for pseudo-packages if ident[0] == '(' and ident[-1] == ')': ident = ident[1:-1] # Split into name-version-flavor fields = ident.split('-') if len(fields) < 1 or len(fields) > 3: return None name = fields[0] if len(fields) > 1: version = fields[1] else: version = None if len(fields) > 2: flavor = fields[2] else: flavor = None else: name = ident['Name'] version = ident.get('Version') flavor = ident.get('Flavor') found = None for p in self._packages: if name == p.name() and \ (not version or version == p.version()) and \ (not flavor or flavor == p.flavor()): if not found or found < p: found = p return found ALLOWED_KEYS = [ "Name", "Version", "Flavor", "Description", "Home-page", "Download-URL", "Install-test", "Install-command", "Pre-install-command", "Post-install-command", "Prerequisites", "MD5Sum", "User-install-skips", "Systemwide-only", ] class PimpPackage: """Class representing a single package.""" def __init__(self, db, dict): self._db = db name = dict["Name"] for k in dict.keys(): if not k in ALLOWED_KEYS: sys.stderr.write("Warning: %s: unknown key %s\n" % (name, k)) self._dict = dict def __getitem__(self, key): return self._dict[key] def name(self): return self._dict['Name'] def version(self): return self._dict.get('Version') def flavor(self): return self._dict.get('Flavor') def description(self): return self._dict['Description'].strip() def shortdescription(self): return self.description().splitlines()[0] def homepage(self): return self._dict.get('Home-page') def downloadURL(self): return self._dict.get('Download-URL') def systemwideOnly(self): return self._dict.get('Systemwide-only') def fullname(self): """Return the full name "name-version-flavor" of a package. If the package is a pseudo-package, something that cannot be installed through pimp, return the name in (parentheses).""" rv = self._dict['Name'] if self._dict.has_key('Version'): rv = rv + '-%s' % self._dict['Version'] if self._dict.has_key('Flavor'): rv = rv + '-%s' % self._dict['Flavor'] if not self._dict.get('Download-URL'): # Pseudo-package, show in parentheses rv = '(%s)' % rv return rv def dump(self): """Return a dict object containing the information on the package.""" return self._dict def __cmp__(self, other): """Compare two packages, where the "better" package sorts lower.""" if not isinstance(other, PimpPackage): return cmp(id(self), id(other)) if self.name() != other.name(): return cmp(self.name(), other.name()) if self.version() != other.version(): return -cmp(self.version(), other.version()) return self._db.preferences.compareFlavors(self.flavor(), other.flavor()) def installed(self): """Test wheter the package is installed. Returns two values: a status indicator which is one of "yes", "no", "old" (an older version is installed) or "bad" (something went wrong during the install test) and a human readable string which may contain more details.""" namespace = { "NotInstalled": _scriptExc_NotInstalled, "OldInstalled": _scriptExc_OldInstalled, "BadInstalled": _scriptExc_BadInstalled, "os": os, "sys": sys, } installTest = self._dict['Install-test'].strip() + '\n' try: exec installTest in namespace except ImportError, arg: return "no", str(arg) except _scriptExc_NotInstalled, arg: return "no", str(arg) except _scriptExc_OldInstalled, arg: return "old", str(arg) except _scriptExc_BadInstalled, arg: return "bad", str(arg) except: sys.stderr.write("-------------------------------------\n") sys.stderr.write("---- %s: install test got exception\n" % self.fullname()) sys.stderr.write("---- source:\n") sys.stderr.write(installTest) sys.stderr.write("---- exception:\n") import traceback traceback.print_exc(file=sys.stderr) if self._db._maintainer: sys.stderr.write("---- Please copy this and mail to %s\n" % self._db._maintainer) sys.stderr.write("-------------------------------------\n") return "bad", "Package install test got exception" return "yes", "" def prerequisites(self): """Return a list of prerequisites for this package. The list contains 2-tuples, of which the first item is either a PimpPackage object or None, and the second is a descriptive string. The first item can be None if this package depends on something that isn't pimp-installable, in which case the descriptive string should tell the user what to do.""" rv = [] if not self._dict.get('Download-URL'): # For pseudo-packages that are already installed we don't # return an error message status, _ = self.installed() if status == "yes": return [] return [(None, "%s: This package cannot be installed automatically (no Download-URL field)" % self.fullname())] if self.systemwideOnly() and self._db.preferences.isUserInstall(): return [(None, "%s: This package can only be installed system-wide" % self.fullname())] if not self._dict.get('Prerequisites'): return [] for item in self._dict['Prerequisites']: if type(item) == str: pkg = None descr = str(item) else: name = item['Name'] if item.has_key('Version'): name = name + '-' + item['Version'] if item.has_key('Flavor'): name = name + '-' + item['Flavor'] pkg = self._db.find(name) if not pkg: descr = "Requires unknown %s"%name else: descr = pkg.shortdescription() rv.append((pkg, descr)) return rv def downloadPackageOnly(self, output=None): """Download a single package, if needed. An MD5 signature is used to determine whether download is needed, and to test that we actually downloaded what we expected. If output is given it is a file-like object that will receive a log of what happens. If anything unforeseen happened the method returns an error message string. """ scheme, loc, path, query, frag = urlparse.urlsplit(self._dict['Download-URL']) path = urllib.url2pathname(path) filename = os.path.split(path)[1] self.archiveFilename = os.path.join(self._db.preferences.downloadDir, filename) if not self._archiveOK(): if scheme == 'manual': return "Please download package manually and save as %s" % self.archiveFilename if _cmd(output, self._db.preferences.downloadDir, "curl", "--output", self.archiveFilename, self._dict['Download-URL']): return "download command failed" if not os.path.exists(self.archiveFilename) and not NO_EXECUTE: return "archive not found after download" if not self._archiveOK(): return "archive does not have correct MD5 checksum" def _archiveOK(self): """Test an archive. It should exist and the MD5 checksum should be correct.""" if not os.path.exists(self.archiveFilename): return 0 if not self._dict.get('MD5Sum'): sys.stderr.write("Warning: no MD5Sum for %s\n" % self.fullname()) return 1 data = open(self.archiveFilename, 'rb').read() checksum = md5.new(data).hexdigest() return checksum == self._dict['MD5Sum'] def unpackPackageOnly(self, output=None): """Unpack a downloaded package archive.""" filename = os.path.split(self.archiveFilename)[1] for ext, unpackerClass, arg in ARCHIVE_FORMATS: if filename[-len(ext):] == ext: break else: return "unknown extension for archive file: %s" % filename self.basename = filename[:-len(ext)] unpacker = unpackerClass(arg, dir=self._db.preferences.buildDir) rv = unpacker.unpack(self.archiveFilename, output=output) if rv: return rv def installPackageOnly(self, output=None): """Default install method, to be overridden by subclasses""" return "%s: This package needs to be installed manually (no support for flavor=\"%s\")" \ % (self.fullname(), self._dict.get(flavor, "")) def installSinglePackage(self, output=None): """Download, unpack and install a single package. If output is given it should be a file-like object and it will receive a log of what happened.""" if not self._dict.get('Download-URL'): return "%s: This package needs to be installed manually (no Download-URL field)" % self.fullname() msg = self.downloadPackageOnly(output) if msg: return "%s: download: %s" % (self.fullname(), msg) msg = self.unpackPackageOnly(output) if msg: return "%s: unpack: %s" % (self.fullname(), msg) return self.installPackageOnly(output) def beforeInstall(self): """Bookkeeping before installation: remember what we have in site-packages""" self._old_contents = os.listdir(self._db.preferences.installDir) def afterInstall(self): """Bookkeeping after installation: interpret any new .pth files that have appeared""" new_contents = os.listdir(self._db.preferences.installDir) for fn in new_contents: if fn in self._old_contents: continue if fn[-4:] != '.pth': continue fullname = os.path.join(self._db.preferences.installDir, fn) f = open(fullname) for line in f.readlines(): if not line: continue if line[0] == '#': continue if line[:6] == 'import': exec line continue if line[-1] == '\n': line = line[:-1] if not os.path.isabs(line): line = os.path.join(self._db.preferences.installDir, line) line = os.path.realpath(line) if not line in sys.path: sys.path.append(line) def filterExpectedSkips(self, names): """Return a list that contains only unpexpected skips""" if not self._db.preferences.isUserInstall(): return names expected_skips = self._dict.get('User-install-skips') if not expected_skips: return names newnames = [] for name in names: for skip in expected_skips: if name[:len(skip)] == skip: break else: newnames.append(name) return newnames class PimpPackage_binary(PimpPackage): def unpackPackageOnly(self, output=None): """We don't unpack binary packages until installing""" pass def installPackageOnly(self, output=None): """Install a single source package. If output is given it should be a file-like object and it will receive a log of what happened.""" if self._dict.has_key('Install-command'): return "%s: Binary package cannot have Install-command" % self.fullname() if self._dict.has_key('Pre-install-command'): if _cmd(output, self._buildDirname, self._dict['Pre-install-command']): return "pre-install %s: running \"%s\" failed" % \ (self.fullname(), self._dict['Pre-install-command']) self.beforeInstall() # Install by unpacking filename = os.path.split(self.archiveFilename)[1] for ext, unpackerClass, arg in ARCHIVE_FORMATS: if filename[-len(ext):] == ext: break else: return "%s: unknown extension for archive file: %s" % (self.fullname(), filename) self.basename = filename[:-len(ext)] install_renames = [] for k, newloc in self._db.preferences.installLocations: if not newloc: continue if k == "--install-lib": oldloc = DEFAULT_INSTALLDIR else: return "%s: Don't know installLocation %s" % (self.fullname(), k) install_renames.append((oldloc, newloc)) unpacker = unpackerClass(arg, dir="/", renames=install_renames) rv = unpacker.unpack(self.archiveFilename, output=output, package=self) if rv: return rv self.afterInstall() if self._dict.has_key('Post-install-command'): if _cmd(output, self._buildDirname, self._dict['Post-install-command']): return "%s: post-install: running \"%s\" failed" % \ (self.fullname(), self._dict['Post-install-command']) return None class PimpPackage_source(PimpPackage): def unpackPackageOnly(self, output=None): """Unpack a source package and check that setup.py exists""" PimpPackage.unpackPackageOnly(self, output) # Test that a setup script has been create self._buildDirname = os.path.join(self._db.preferences.buildDir, self.basename) setupname = os.path.join(self._buildDirname, "setup.py") if not os.path.exists(setupname) and not NO_EXECUTE: return "no setup.py found after unpack of archive" def installPackageOnly(self, output=None): """Install a single source package. If output is given it should be a file-like object and it will receive a log of what happened.""" if self._dict.has_key('Pre-install-command'): if _cmd(output, self._buildDirname, self._dict['Pre-install-command']): return "pre-install %s: running \"%s\" failed" % \ (self.fullname(), self._dict['Pre-install-command']) self.beforeInstall() installcmd = self._dict.get('Install-command') if installcmd and self._install_renames: return "Package has install-command and can only be installed to standard location" # This is the "bit-bucket" for installations: everything we don't # want. After installation we check that it is actually empty unwanted_install_dir = None if not installcmd: extra_args = "" for k, v in self._db.preferences.installLocations: if not v: # We don't want these files installed. Send them # to the bit-bucket. if not unwanted_install_dir: unwanted_install_dir = tempfile.mkdtemp() v = unwanted_install_dir extra_args = extra_args + " %s \"%s\"" % (k, v) installcmd = '"%s" setup.py install %s' % (sys.executable, extra_args) if _cmd(output, self._buildDirname, installcmd): return "install %s: running \"%s\" failed" % \ (self.fullname(), installcmd) if unwanted_install_dir and os.path.exists(unwanted_install_dir): unwanted_files = os.listdir(unwanted_install_dir) if unwanted_files: rv = "Warning: some files were not installed: %s" % " ".join(unwanted_files) else: rv = None shutil.rmtree(unwanted_install_dir) return rv self.afterInstall() if self._dict.has_key('Post-install-command'): if _cmd(output, self._buildDirname, self._dict['Post-install-command']): return "post-install %s: running \"%s\" failed" % \ (self.fullname(), self._dict['Post-install-command']) return None class PimpInstaller: """Installer engine: computes dependencies and installs packages in the right order.""" def __init__(self, db): self._todo = [] self._db = db self._curtodo = [] self._curmessages = [] def __contains__(self, package): return package in self._todo def _addPackages(self, packages): for package in packages: if not package in self._todo: self._todo.insert(0, package) def _prepareInstall(self, package, force=0, recursive=1): """Internal routine, recursive engine for prepareInstall. Test whether the package is installed and (if not installed or if force==1) prepend it to the temporary todo list and call ourselves recursively on all prerequisites.""" if not force: status, message = package.installed() if status == "yes": return if package in self._todo or package in self._curtodo: return self._curtodo.insert(0, package) if not recursive: return prereqs = package.prerequisites() for pkg, descr in prereqs: if pkg: self._prepareInstall(pkg, force, recursive) else: self._curmessages.append("Problem with dependency: %s" % descr) def prepareInstall(self, package, force=0, recursive=1): """Prepare installation of a package. If the package is already installed and force is false nothing is done. If recursive is true prerequisites are installed first. Returns a list of packages (to be passed to install) and a list of messages of any problems encountered. """ self._curtodo = [] self._curmessages = [] self._prepareInstall(package, force, recursive) rv = self._curtodo, self._curmessages self._curtodo = [] self._curmessages = [] return rv def install(self, packages, output): """Install a list of packages.""" self._addPackages(packages) status = [] for pkg in self._todo: msg = pkg.installSinglePackage(output) if msg: status.append(msg) return status def _run(mode, verbose, force, args, prefargs): """Engine for the main program""" prefs = PimpPreferences(**prefargs) rv = prefs.check() if rv: sys.stdout.write(rv) db = PimpDatabase(prefs) db.appendURL(prefs.pimpDatabase) if mode == 'dump': db.dump(sys.stdout) elif mode =='list': if not args: args = db.listnames() print "%-20.20s\t%s" % ("Package", "Description") print for pkgname in args: pkg = db.find(pkgname) if pkg: description = pkg.shortdescription() pkgname = pkg.fullname() else: description = 'Error: no such package' print "%-20.20s\t%s" % (pkgname, description) if verbose: print "\tHome page:\t", pkg.homepage() try: print "\tDownload URL:\t", pkg.downloadURL() except KeyError: pass description = pkg.description() description = '\n\t\t\t\t\t'.join(description.splitlines()) print "\tDescription:\t%s" % description elif mode =='status': if not args: args = db.listnames() print "%-20.20s\t%s\t%s" % ("Package", "Installed", "Message") print for pkgname in args: pkg = db.find(pkgname) if pkg: status, msg = pkg.installed() pkgname = pkg.fullname() else: status = 'error' msg = 'No such package' print "%-20.20s\t%-9.9s\t%s" % (pkgname, status, msg) if verbose and status == "no": prereq = pkg.prerequisites() for pkg, msg in prereq: if not pkg: pkg = '' else: pkg = pkg.fullname() print "%-20.20s\tRequirement: %s %s" % ("", pkg, msg) elif mode == 'install': if not args: print 'Please specify packages to install' sys.exit(1) inst = PimpInstaller(db) for pkgname in args: pkg = db.find(pkgname) if not pkg: print '%s: No such package' % pkgname continue list, messages = inst.prepareInstall(pkg, force) if messages and not force: print "%s: Not installed:" % pkgname for m in messages: print "\t", m else: if verbose: output = sys.stdout else: output = None messages = inst.install(list, output) if messages: print "%s: Not installed:" % pkgname for m in messages: print "\t", m def main(): """Minimal commandline tool to drive pimp.""" import getopt def _help(): print "Usage: pimp [options] -s [package ...] List installed status" print " pimp [options] -l [package ...] Show package information" print " pimp [options] -i package ... Install packages" print " pimp -d Dump database to stdout" print " pimp -V Print version number" print "Options:" print " -v Verbose" print " -f Force installation" print " -D dir Set destination directory" print " (default: %s)" % DEFAULT_INSTALLDIR print " -u url URL for database" print " (default: %s)" % DEFAULT_PIMPDATABASE sys.exit(1) try: opts, args = getopt.getopt(sys.argv[1:], "slifvdD:Vu:") except getopt.GetoptError: _help() if not opts and not args: _help() mode = None force = 0 verbose = 0 prefargs = {} for o, a in opts: if o == '-s': if mode: _help() mode = 'status' if o == '-l': if mode: _help() mode = 'list' if o == '-d': if mode: _help() mode = 'dump' if o == '-V': if mode: _help() mode = 'version' if o == '-i': mode = 'install' if o == '-f': force = 1 if o == '-v': verbose = 1 if o == '-D': prefargs['installDir'] = a if o == '-u': prefargs['pimpDatabase'] = a if not mode: _help() if mode == 'version': print 'Pimp version %s; module name is %s' % (PIMP_VERSION, __name__) else: _run(mode, verbose, force, args, prefargs) # Finally, try to update ourselves to a newer version. # If the end-user updates pimp through pimp the new version # will be called pimp_update and live in site-packages # or somewhere similar if __name__ != 'pimp_update': try: import pimp_update except ImportError: pass else: if pimp_update.PIMP_VERSION <= PIMP_VERSION: import warnings warnings.warn("pimp_update is version %s, not newer than pimp version %s" % (pimp_update.PIMP_VERSION, PIMP_VERSION)) else: from pimp_update import * if __name__ == '__main__': main()