import django from optparse import OptionParser import os import sys # For backwards compatibility: get_version() used to be in this module. get_version = django.get_version def load_command_class(name): """ Given a command name, returns the Command class instance. Raises ImportError if it doesn't exist. """ # Let the ImportError propogate. return getattr(__import__('django.core.management.commands.%s' % name, {}, {}, ['Command']), 'Command')() def call_command(name, *args, **options): """ Calls the given command, with the given options and args/kwargs. This is the primary API you should use for calling specific commands. Some examples: call_command('syncdb') call_command('shell', plain=True) call_command('sqlall', 'myapp') """ klass = load_command_class(name) return klass.execute(*args, **options) class ManagementUtility(object): """ Encapsulates the logic of the django-admin.py and manage.py utilities. A ManagementUtility has a number of commands, which can be manipulated by editing the self.commands dictionary. """ def __init__(self, argv=None): self.argv = argv or sys.argv[:] self.prog_name = os.path.basename(self.argv[0]) self.commands = self.default_commands() def default_commands(self): """ Returns a dictionary of instances of all available Command classes. This works by looking for and loading all Python modules in the django.core.management.commands package. The dictionary is in the format {name: command_instance}. """ command_dir = os.path.join(__path__[0], 'commands') names = [f[:-3] for f in os.listdir(command_dir) if not f.startswith('_') and f.endswith('.py')] return dict([(name, load_command_class(name)) for name in names]) def main_help_text(self): """ Returns the script's main help text, as a string. """ usage = ['%s [options] [args]' % self.prog_name] usage.append('Django command line tool, version %s' % django.get_version()) usage.append("Type '%s help ' for help on a specific subcommand." % self.prog_name) usage.append('Available subcommands:') commands = self.commands.keys() commands.sort() for cmd in commands: usage.append(' %s' % cmd) return '\n'.join(usage) def fetch_command(self, subcommand): """ Tries to fetch the given subcommand, printing a message with the appropriate command called from the command line (usually django-admin.py or manage.py) if it can't be found. """ try: return self.commands[subcommand] except KeyError: sys.stderr.write("Unknown command: %r\nType '%s help' for usage.\n" % (subcommand, self.prog_name)) sys.exit(1) def execute(self): """ Given the command-line arguments, this figures out which subcommand is being run, creates a parser appropriate to that command, and runs it. """ try: subcommand = self.argv[1] except IndexError: sys.stderr.write("Type '%s help' for usage.\n" % self.prog_name) sys.exit(1) if subcommand == 'help': if len(self.argv) > 2: self.fetch_command(self.argv[2]).print_help(self.prog_name, self.argv[2]) else: sys.stderr.write(self.main_help_text() + '\n') sys.exit(1) # Special-cases: We want 'django-admin.py --version' and # 'django-admin.py --help' to work, for backwards compatibility. elif self.argv[1:] == ['--version']: print django.get_version() elif self.argv[1:] == ['--help']: self.main_help_text() else: self.fetch_command(subcommand).run_from_argv(self.argv) class ProjectManagementUtility(ManagementUtility): """ A ManagementUtility that is specific to a particular Django project. As such, its commands are slightly different than those of its parent class. In practice, this class represents manage.py, whereas ManagementUtility represents django-admin.py. """ def __init__(self, argv, project_directory): super(ProjectManagementUtility, self).__init__(argv) # Remove the "startproject" command from self.commands, because # that's a django-admin.py command, not a manage.py command. del self.commands['startproject'] # Override the startapp command so that it always uses the # project_directory, not the current working directory (which is default). from django.core.management.commands.startapp import ProjectCommand self.commands['startapp'] = ProjectCommand(project_directory) def setup_environ(settings_mod): """ Configure the runtime environment. This can also be used by external scripts wanting to set up a similar environment to manage.py. """ # Add this project to sys.path so that it's importable in the conventional # way. For example, if this file (manage.py) lives in a directory # "myproject", this code would add "/path/to/myproject" to sys.path. project_directory, settings_filename = os.path.split(settings_mod.__file__) project_name = os.path.basename(project_directory) settings_name = os.path.splitext(settings_filename)[0] sys.path.append(os.path.join(project_directory, '..')) project_module = __import__(project_name, {}, {}, ['']) sys.path.pop() # Set DJANGO_SETTINGS_MODULE appropriately. os.environ['DJANGO_SETTINGS_MODULE'] = '%s.%s' % (project_name, settings_name) return project_directory def execute_from_command_line(argv=None): """ A simple method that runs a ManagementUtility. """ utility = ManagementUtility(argv) utility.execute() def execute_manager(settings_mod, argv=None): """ Like execute_from_command_line(), but for use by manage.py, a project-specific django-admin.py utility. """ project_directory = setup_environ(settings_mod) utility = ProjectManagementUtility(argv, project_directory) utility.execute()