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# Authors:
# Jason Gerard DeRose <jderose@redhat.com>
#
# Copyright (C) 2008 Red Hat
# see file 'COPYING' for use and warranty information
#
# 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; version 2 only
#
# 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, write to the Free Software
# Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
"""
Base classes for plug-in architecture and generative API.
"""
import inspect
import exceptions
class Named(object):
prefix = None
def __init__(self):
clsname = self.__class__.__name__
assert type(self.prefix) is str
prefix = self.prefix + '_'
if not clsname.startswith(prefix):
raise exceptions.PrefixError(clsname, prefix)
self.__name = clsname[len(prefix):]
self.__name_cli = self.__name.replace('_', '-')
def __get_name(self):
return self.__name
name = property(__get_name)
def __get_name_cli(self):
return self.__name_cli
name_cli = property(__get_name_cli)
class Command(Named):
prefix = 'cmd'
def normalize(self, kw):
raise NotImplementedError
def validate(self, kw):
raise NotImplementedError
def execute(self, kw):
raise NotImplementedError
def __call__(self, **kw):
normalized = self.normalize(kw)
invalid = self.validate(normalized)
if invalid:
return invalid
return self.execute(normalize)
class Argument(object):
pass
class NameSpace(object):
"""
A read-only namespace of (key, value) pairs that can be accessed
both as instance attributes and as dictionary items. For example:
>>> ns = NameSpace(dict(my_message='Hello world!'))
>>> ns.my_message
'Hello world!'
>>> ns['my_message']
'Hello world!'
Keep in mind that Python doesn't offer true ready-only attributes. A
NameSpace is read-only in that it prevents programmers from
*accidentally* setting its attributes, but a motivated programmer can
still set them.
For example, setting an attribute the normal way will raise an exception:
>>> ns.my_message = 'some new value'
(raises exceptions.SetError)
But a programmer could still set the attribute like this:
>>> ns.__dict__['my_message'] = 'some new value'
You should especially not implement a security feature that relies upon
NameSpace being strictly read-only.
"""
__locked = False # Whether __setattr__ has been locked
def __init__(self, kw):
"""
The single constructor argument `kw` is a dict of the (key, value)
pairs to be in this NameSpace instance.
"""
assert isinstance(kw, dict)
self.__kw = dict(kw)
for (key, value) in self.__kw.items():
assert not key.startswith('_')
setattr(self, key, value)
self.__keys = sorted(self.__kw)
self.__locked = True
def __setattr__(self, name, value):
"""
Raises an exception if trying to set an attribute after the
NameSpace has been locked; otherwise calls object.__setattr__().
"""
if self.__locked:
raise exceptions.SetError(name)
super(NameSpace, self).__setattr__(name, value)
def __getitem__(self, key):
"""
Returns item from namespace named `key`.
"""
return self.__kw[key]
def __hasitem__(self, key):
"""
Returns True if namespace has an item named `key`.
"""
return key in self.__kw
def __iter__(self):
"""
Yields the names in this NameSpace in ascending order.
For example:
>>> ns = NameSpace(dict(attr_b='world', attr_a='hello'))
>>> list(ns)
['attr_a', 'attr_b']
>>> [ns[k] for k in ns]
['hello', 'world']
"""
for key in self.__keys:
yield key
def __len__(self):
"""
Returns number of items in this NameSpace.
"""
return len(self.__keys)
class API(object):
__commands = None
__objects = None
__locked = False
def __init__(self):
self.__classes = set()
self.__names = set()
self.__stage = {}
def __get_objects(self):
return self.__objects
objects = property(__get_objects)
def __get_commands(self):
return self.__commands
commands = property(__get_commands)
def __merge(self, base, cls, override):
assert issubclass(base, Named)
assert type(override) is bool
if not (inspect.isclass(cls) and issubclass(cls, base)):
raise exceptions.RegistrationError(cls, base.__name__)
if cls in self.__classes:
raise exceptions.DuplicateError(cls.__name__, id(cls))
if cls.__name__ in self.__names and not override:
raise exceptions.OverrideError(cls.__name__)
self.__classes.add(cls)
self.__names.add(cls.__name__)
if base not in self.__stage:
self.__stage[base.prefix] = {}
self.__stage[base.prefix][cls.__name__] = cls
def register_command(self, cls, override=False):
self.__merge(Command, cls, override)
def finalize(self):
pass
#i = cls()
#assert cls.__name__ == (base.prefix + '_' + i.name)
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