# Copyright (C) 2009-2010 Alexander Cherniuk # # This program is free software: you can redistribute it and/or modify # it under the terms of the GNU General Public License as published by # the Free Software Foundation, either version 3 of the License, or # (at your option) any later version. # # This program is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the # GNU General Public License for more details. # # You should have received a copy of the GNU General Public License # along with this program. If not, see . """ Provides a tiny framework with simple, yet powerful and extensible architecture to implement commands in a straight and flexible, declarative way. """ from types import FunctionType from inspect import getargspec, getdoc from gajim.command_system.dispatcher import Host, Container from gajim.command_system.dispatcher import get_command, list_commands from gajim.command_system.mapping import parse_arguments, adapt_arguments from gajim.command_system.errors import DefinitionError, CommandError, NoCommandError class CommandHost(metaclass=Host): """ Command host is a hub between numerous command processors and command containers. Aimed to participate in a dispatching process in order to provide clean and transparent architecture. The AUTOMATIC class variable, which must be defined by a command host, specifies whether the command host should be automatically dispatched and enabled by the dispatcher or not. """ __metaclass__ = Host class CommandContainer(metaclass=Container): """ Command container is an entity which holds defined commands, allowing them to be dispatched and proccessed correctly. Each command container may be bound to a one or more command hosts. The AUTOMATIC class variable, which must be defined by a command processor, specifies whether the command processor should be automatically dispatched and enabled by the dispatcher or not. Bounding is controlled by the HOSTS class variable, which must be defined by the command container. This variable should contain a sequence of hosts to bound to, as a tuple or list. """ __metaclass__ = Container class CommandProcessor(object): """ Command processor is an immediate command emitter. It does not participate in the dispatching process directly, but must define a host to bound to. Bounding is controlled by the COMMAND_HOST variable, which must be defined in the body of the command processor. This variable should be set to a specific command host. """ # This defines a command prefix (or an initializer), which should # precede a text in order for it to be processed as a command. COMMAND_PREFIX = '/' def process_as_command(self, text): """ Try to process text as a command. Returns True if it has been processed as a command and False otherwise. """ prefix = text.startswith(self.COMMAND_PREFIX) length = len(text) > len(self.COMMAND_PREFIX) if not (prefix and length): return False body = text[len(self.COMMAND_PREFIX):] body = body.strip() parts = body.split(None, 1) name, arguments = parts if len(parts) > 1 else (parts[0], None) flag = self.looks_like_command(text, body, name, arguments) if flag is not None: return flag self.execute_command(name, arguments) return True def execute_command(self, name, arguments): command = self.get_command(name) args, opts = parse_arguments(arguments) if arguments else ([], []) args, kwargs = adapt_arguments(command, arguments, args, opts) if self.command_preprocessor(command, name, arguments, args, kwargs): return value = command(self, *args, **kwargs) self.command_postprocessor(command, name, arguments, args, kwargs, value) def command_preprocessor(self, command, name, arguments, args, kwargs): """ Redefine this method in the subclass to execute custom code before command gets executed. If returns True then command execution will be interrupted and command will not be executed. """ pass def command_postprocessor(self, command, name, arguments, args, kwargs, value): """ Redefine this method in the subclass to execute custom code after command gets executed. """ pass def looks_like_command(self, text, body, name, arguments): """ This hook is being called before any processing, but after it was determined that text looks like a command. If returns value other then None - then further processing will be interrupted and that value will be used to return from process_as_command. """ pass def get_command(self, name): command = get_command(self.COMMAND_HOST, name) if not command: raise NoCommandError("Command does not exist", name=name) return command def list_commands(self): commands = list_commands(self.COMMAND_HOST) commands = dict(commands) return sorted(set(commands.values()), key=lambda k: k.__repr__()) class Command(object): def __init__(self, handler, *names, **properties): self.handler = handler self.names = names # Automatically set all the properties passed to a constructor # by the command decorator. for key, value in properties.items(): setattr(self, key, value) def __call__(self, *args, **kwargs): try: return self.handler(*args, **kwargs) # This allows to use a shortcuted way of raising an exception # inside a handler. That is to raise a CommandError without # command or name attributes set. They will be set to a # corresponding values right here in case if they was not set by # the one who raised an exception. except CommandError as error: if not error.command and not error.name: raise CommandError(error.message, self) raise # This one is a little bit too wide, but as Python does not have # anything more constrained - there is no other choice. Take a # look here if command complains about invalid arguments while # they are ok. except TypeError: raise CommandError("Command received invalid arguments", self) def __repr__(self): return "" % ', '.join(self.names) def __cmp__(self, other): if self.first_name > other.first_name: return 1 if self.first_name < other.first_name: return -1 return 0 @property def first_name(self): return self.names[0] @property def native_name(self): return self.handler.__name__ def extract_documentation(self): """ Extract handler's documentation which is a doc-string and transform it to a usable format. """ return getdoc(self.handler) def extract_description(self): """ Extract handler's description (which is a first line of the documentation). Try to keep them simple yet meaningful. """ documentation = self.extract_documentation() return documentation.split('\n', 1)[0] if documentation else None def extract_specification(self): """ Extract handler's arguments specification, as it was defined preserving their order. """ names, var_args, var_kwargs, defaults = getargspec(self.handler) # Behavior of this code need to be checked. Might yield # incorrect results on some rare occasions. spec_args = names[:-len(defaults) if defaults else len(names)] spec_kwargs = list(zip(names[-len(defaults):], defaults)) if defaults else {} # Removing self from arguments specification. Command handler # should receive the processors as a first argument, which # should be self by the canonical means. if spec_args.pop(0) != 'self': raise DefinitionError("First argument must be self", self) return spec_args, spec_kwargs, var_args, var_kwargs def command(*names, **properties): """ A decorator for defining commands in a declarative way. Provides facilities for setting command's names and properties. Names should contain a set of names (aliases) by which the command can be reached. If no names are given - the the native name (the one extracted from the command handler) will be used. If native=True is given (default) and names is non-empty - then the native name of the command will be prepended in addition to the given names. If usage=True is given (default) - then command help will be appended with autogenerated usage info, based of the command handler arguments introspection. If source=True is given - then the first argument of the command will receive the source arguments, as a raw, unprocessed string. The further mapping of arguments and options will not be affected. If raw=True is given - then command considered to be raw and should define positional arguments only. If it defines only one positional argument - this argument will receive all the raw and unprocessed arguments. If the command defines more then one positional argument - then all the arguments except the last one will be processed normally; the last argument will get what is left after the processing as raw and unprocessed string. If empty=True is given - this will allow to call a raw command without arguments. If extra=True is given - then all the extra arguments passed to a command will be collected into a sequence and given to the last positional argument. If overlap=True is given - then all the extra arguments will be mapped as if they were values for the keyword arguments. If expand=True is given (default) - then short, one-letter options will be expanded to a verbose ones, based of the comparison of the first letter. If more then one option with the same first letter is given - then only first one will be used in the expansion. """ names = list(names) native = properties.get('native', True) usage = properties.get('usage', True) source = properties.get('source', False) raw = properties.get('raw', False) empty = properties.get('empty', False) extra = properties.get('extra', False) overlap = properties.get('overlap', False) expand = properties.get('expand', True) if empty and not raw: raise DefinitionError("Empty option can be used only with raw commands") if extra and overlap: raise DefinitionError("Extra and overlap options can not be used together") properties = { 'usage': usage, 'source': source, 'raw': raw, 'extra': extra, 'overlap': overlap, 'empty': empty, 'expand': expand } def decorator(handler): """ Decorator which receives handler as a first argument and then wraps it in the command which then returns back. """ command = Command(handler, *names, **properties) # Extract and inject a native name if either no other names are # specified or native property is enabled, while making # sure it is going to be the first one in the list. if not names or native: names.insert(0, command.native_name) command.names = tuple(names) return command # Workaround if we are getting called without parameters. Keep in # mind that in that case - first item in the names will be the # handler. if names and isinstance(names[0], FunctionType): return decorator(names.pop(0)) return decorator def doc(text): """ This decorator is used to bind a documentation (a help) to a command. """ def decorator(target): if isinstance(target, Command): target.handler.__doc__ = text else: target.__doc__ = text return target return decorator