# -*- coding: utf-8 -*- from __future__ import absolute_import import os import re import sys import types import warnings from gettext import gettext as _ import argparse from flask import Flask from ._compat import iteritems from .commands import Group, Option, Command, Server, Shell from .cli import prompt, prompt_pass, prompt_bool, prompt_choices __all__ = ["Command", "Shell", "Server", "Manager", "Group", "Option", "prompt", "prompt_pass", "prompt_bool", "prompt_choices"] safe_actions = (argparse._StoreAction, argparse._StoreConstAction, argparse._StoreTrueAction, argparse._StoreFalseAction, argparse._AppendAction, argparse._AppendConstAction, argparse._CountAction) try: import argcomplete ARGCOMPLETE_IMPORTED = True except ImportError: ARGCOMPLETE_IMPORTED = False def add_help(parser, help_args): if not help_args: return parser.add_argument(*help_args, action='help', default=argparse.SUPPRESS, help=_('show this help message and exit')) class Manager(object): """ Controller class for handling a set of commands. Typical usage:: class Print(Command): def run(self): print "hello" app = Flask(__name__) manager = Manager(app) manager.add_command("print", Print()) if __name__ == "__main__": manager.run() On command line:: python manage.py print > hello :param app: Flask instance, or callable returning a Flask instance. :param with_default_commands: load commands **runserver** and **shell** by default. :param disable_argcomplete: disable automatic loading of argcomplete. """ help_args = ('-?','--help') def __init__(self, app=None, with_default_commands=None, usage=None, help=None, description=None, disable_argcomplete=False): self.app = app self._commands = dict() self._options = list() self.usage = usage self.help = help if help is not None else usage self.description = description if description is not None else usage self.disable_argcomplete = disable_argcomplete self.with_default_commands = with_default_commands self.parent = None def add_default_commands(self): """ Adds the shell and runserver default commands. To override these, simply add your own equivalents using add_command or decorators. """ if "shell" not in self._commands: self.add_command("shell", Shell()) if "runserver" not in self._commands: self.add_command("runserver", Server()) def add_option(self, *args, **kwargs): """ Adds a global option. This is useful if you want to set variables applying to the application setup, rather than individual commands. For this to work, the manager must be initialized with a factory function rather than a Flask instance. Otherwise any options you set will be ignored. The arguments are then passed to your function, e.g.:: def create_my_app(config=None): app = Flask(__name__) if config: app.config.from_pyfile(config) return app manager = Manager(create_my_app) manager.add_option("-c", "--config", dest="config", required=False) @manager.command def mycommand(app): app.do_something() and are invoked like this:: > python manage.py -c dev.cfg mycommand Any manager options passed on the command line will not be passed to the command. Arguments for this function are the same as for the Option class. """ self._options.append(Option(*args, **kwargs)) def __call__(self, app=None, **kwargs): """ This procedure is called with the App instance (if this is a sub-Manager) and any options. If your sub-Manager does not override this, any values for options will get lost. """ if app is None: app = self.app if app is None: raise Exception("There is no app here. This is unlikely to work.") if isinstance(app, Flask): if kwargs: import warnings warnings.warn("Options will be ignored.") return app app = app(**kwargs) self.app = app return app def create_app(self, *args, **kwargs): warnings.warn("create_app() is deprecated; use __call__().", warnings.DeprecationWarning) return self(*args,**kwargs) def create_parser(self, prog, func_stack=(), parent=None): """ Creates an ArgumentParser instance from options returned by get_options(), and subparser for the given commands. """ prog = os.path.basename(prog) func_stack=func_stack+(self,) options_parser = argparse.ArgumentParser(add_help=False) for option in self.get_options(): options_parser.add_argument(*option.args, **option.kwargs) parser = argparse.ArgumentParser(prog=prog, usage=self.usage, description=self.description, parents=[options_parser], add_help=False) add_help(parser, self.help_args) self._patch_argparser(parser) subparsers = parser.add_subparsers() for name, command in self._commands.items(): usage = getattr(command, 'usage', None) help = getattr(command, 'help', None) if help is None: help = command.__doc__ description = getattr(command, 'description', None) if description is None: description = command.__doc__ command_parser = command.create_parser(name, func_stack=func_stack, parent=self) subparser = subparsers.add_parser(name, usage=usage, help=help, description=description, parents=[command_parser], add_help=False) if isinstance(command, Manager): self._patch_argparser(subparser) ## enable autocomplete only for parent parser when argcomplete is ## imported and it is NOT disabled in constructor if parent is None and ARGCOMPLETE_IMPORTED \ and not self.disable_argcomplete: argcomplete.autocomplete(parser, always_complete_options=True) self.parser = parser return parser # def foo(self, app, *args, **kwargs): # print(args) def _patch_argparser(self, parser): """ Patches the parser to print the full help if no arguments are supplied """ def _parse_known_args(self, arg_strings, *args, **kw): if not arg_strings: self.print_help() self.exit(2) return self._parse_known_args2(arg_strings, *args, **kw) parser._parse_known_args2 = parser._parse_known_args parser._parse_known_args = types.MethodType(_parse_known_args, parser) def get_options(self): return self._options def add_command(self, *args, **kwargs): """ Adds command to registry. :param command: Command instance :param name: Name of the command (optional) :param namespace: Namespace of the command (optional; pass as kwarg) """ if len(args) == 1: command = args[0] name = None else: name, command = args if name is None: if hasattr(command, 'name'): name = command.name else: name = type(command).__name__.lower() name = re.sub(r'command$', '', name) if isinstance(command, Manager): command.parent = self if isinstance(command, type): command = command() namespace = kwargs.get('namespace') if not namespace: namespace = getattr(command, 'namespace', None) if namespace: if namespace not in self._commands: self.add_command(namespace, Manager()) self._commands[namespace]._commands[name] = command else: self._commands[name] = command def command(self, func): """ Decorator to add a command function to the registry. :param func: command function.Arguments depend on the options. """ command = Command(func) self.add_command(func.__name__, command) return func def option(self, *args, **kwargs): """ Decorator to add an option to a function. Automatically registers the function - do not use together with ``@command``. You can add as many ``@option`` calls as you like, for example:: @option('-n', '--name', dest='name') @option('-u', '--url', dest='url') def hello(name, url): print "hello", name, url Takes the same arguments as the ``Option`` constructor. """ option = Option(*args, **kwargs) def decorate(func): name = func.__name__ if name not in self._commands: command = Command() command.run = func command.__doc__ = func.__doc__ command.option_list = [] self.add_command(name, command) self._commands[name].option_list.append(option) return func return decorate def shell(self, func): """ Decorator that wraps function in shell command. This is equivalent to:: def _make_context(app): return dict(app=app) manager.add_command("shell", Shell(make_context=_make_context)) The decorated function should take a single "app" argument, and return a dict. For more sophisticated usage use the Shell class. """ self.add_command('shell', Shell(make_context=func)) return func def set_defaults(self): if self.with_default_commands is None: self.with_default_commands = self.parent is None if self.with_default_commands: self.add_default_commands() self.with_default_commands = False def handle(self, prog, args=None): self.set_defaults() app_parser = self.create_parser(prog) args = list(args or []) app_namespace, remaining_args = app_parser.parse_known_args(args) # get the handle function and remove it from parsed options kwargs = app_namespace.__dict__ func_stack = kwargs.pop('func_stack', None) if not func_stack: app_parser.error('too few arguments') last_func = func_stack[-1] if remaining_args and not getattr(last_func, 'capture_all_args', False): app_parser.error('too many arguments') args = [] for handle in func_stack: # get only safe config options config_keys = [action.dest for action in handle.parser._actions if handle is last_func or action.__class__ in safe_actions] # pass only safe app config keys config = dict((k, v) for k, v in iteritems(kwargs) if k in config_keys) # remove application config keys from handle kwargs kwargs = dict((k, v) for k, v in iteritems(kwargs) if k not in config_keys) if handle is last_func and getattr(last_func, 'capture_all_args', False): args.append(remaining_args) try: res = handle(*args, **config) except TypeError as err: err.args = ("{}: {}".format(handle,str(err)),) raise args = [res] assert not kwargs return res def run(self, commands=None, default_command=None): """ Prepares manager to receive command line input. Usually run inside "if __name__ == "__main__" block in a Python script. :param commands: optional dict of commands. Appended to any commands added using add_command(). :param default_command: name of default command to run if no arguments passed. """ if commands: self._commands.update(commands) if default_command is not None and len(sys.argv) == 1: sys.argv.append(default_command) try: result = self.handle(sys.argv[0], sys.argv[1:]) except SystemExit as e: result = e.code sys.exit(result or 0)