appobject.py
author Sylvain Thénault <sylvain.thenault@logilab.fr>
Wed, 28 Apr 2010 12:24:20 +0200
branchstable
changeset 5426 0d4853a6e5ee
parent 5423 e15abfdcce38
parent 5424 8ecbcbff9777
child 5564 d13830a2adfd
child 5899 11cecbaeb731
permissions -rw-r--r--
backport oldstable changes

# copyright 2003-2010 LOGILAB S.A. (Paris, FRANCE), all rights reserved.
# contact http://www.logilab.fr/ -- mailto:contact@logilab.fr
#
# This file is part of CubicWeb.
#
# CubicWeb is free software: you can redistribute it and/or modify it under the
# terms of the GNU Lesser General Public License as published by the Free
# Software Foundation, either version 2.1 of the License, or (at your option)
# any later version.
#
# CubicWeb 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 Lesser General Public License for more
# details.
#
# You should have received a copy of the GNU Lesser General Public License along
# with CubicWeb.  If not, see <http://www.gnu.org/licenses/>.
"""
.. _appobject:

The `AppObject` class
---------------------

The AppObject class is the base class for all dynamically loaded objects
(application objects) accessible through the vregistry.

We can find a certain number of attributes and methods defined in this class and
common to all the application objects.

.. autoclass:: AppObject
"""
__docformat__ = "restructuredtext en"

import types
from logging import getLogger
from warnings import warn

from logilab.common.deprecation import deprecated
from logilab.common.decorators import classproperty
from logilab.common.logging_ext import set_log_methods


# selector base classes and operations ########################################

def objectify_selector(selector_func):
    """Most of the time, a simple score function is enough to build a selector.
    The :func:`objectify_selector` decorator turn it into a proper selector
    class::

        @objectify_selector
        def one(cls, req, rset=None, **kwargs):
            return 1

        class MyView(View):
            __select__ = View.__select__ & one()

    """
    return type(selector_func.__name__, (Selector,),
                {'__doc__': selector_func.__doc__,
                 '__call__': lambda self, *a, **kw: selector_func(*a, **kw)})


def _instantiate_selector(selector):
    """ensures `selector` is a `Selector` instance

    NOTE: This should only be used locally in build___select__()
    XXX: then, why not do it ??
    """
    if isinstance(selector, types.FunctionType):
        return objectify_selector(selector)()
    if isinstance(selector, type) and issubclass(selector, Selector):
        return selector()
    return selector


class Selector(object):
    """base class for selector classes providing implementation
    for operators ``&``, ``|`` and  ``~``

    This class is only here to give access to binary operators, the
    selector logic itself should be implemented in the __call__ method


    a selector is called to help choosing the correct object for a
    particular context by returning a score (`int`) telling how well
    the class given as first argument apply to the given context.

    0 score means that the class doesn't apply.
    """

    @property
    def func_name(self):
        # backward compatibility
        return self.__class__.__name__

    def search_selector(self, selector):
        """search for the given selector or selector instance in the selectors
        tree. Return it of None if not found
        """
        if self is selector:
            return self
        if isinstance(selector, type) and isinstance(self, selector):
            return self
        return None

    def __str__(self):
        return self.__class__.__name__

    def __and__(self, other):
        return AndSelector(self, other)
    def __rand__(self, other):
        return AndSelector(other, self)
    def __iand__(self, other):
        return AndSelector(self, other)
    def __or__(self, other):
        return OrSelector(self, other)
    def __ror__(self, other):
        return OrSelector(other, self)
    def __ior__(self, other):
        return OrSelector(self, other)

    def __invert__(self):
        return NotSelector(self)

    # XXX (function | function) or (function & function) not managed yet

    def __call__(self, cls, *args, **kwargs):
        return NotImplementedError("selector %s must implement its logic "
                                   "in its __call__ method" % self.__class__)


class MultiSelector(Selector):
    """base class for compound selector classes"""

    def __init__(self, *selectors):
        self.selectors = self.merge_selectors(selectors)

    def __str__(self):
        return '%s(%s)' % (self.__class__.__name__,
                           ','.join(str(s) for s in self.selectors))

    @classmethod
    def merge_selectors(cls, selectors):
        """deal with selector instanciation when necessary and merge
        multi-selectors if possible:

        AndSelector(AndSelector(sel1, sel2), AndSelector(sel3, sel4))
        ==> AndSelector(sel1, sel2, sel3, sel4)
        """
        merged_selectors = []
        for selector in selectors:
            try:
                selector = _instantiate_selector(selector)
            except:
                pass
            #assert isinstance(selector, Selector), selector
            if isinstance(selector, cls):
                merged_selectors += selector.selectors
            else:
                merged_selectors.append(selector)
        return merged_selectors

    def search_selector(self, selector):
        """search for the given selector or selector instance in the selectors
        tree. Return it of None if not found
        """
        for childselector in self.selectors:
            if childselector is selector:
                return childselector
            found = childselector.search_selector(selector)
            if found is not None:
                return found
        return None


class AndSelector(MultiSelector):
    """and-chained selectors (formerly known as chainall)"""
    def __call__(self, cls, *args, **kwargs):
        score = 0
        for selector in self.selectors:
            partscore = selector(cls, *args, **kwargs)
            if not partscore:
                return 0
            score += partscore
        return score


class OrSelector(MultiSelector):
    """or-chained selectors (formerly known as chainfirst)"""
    def __call__(self, cls, *args, **kwargs):
        for selector in self.selectors:
            partscore = selector(cls, *args, **kwargs)
            if partscore:
                return partscore
        return 0

class NotSelector(Selector):
    """negation selector"""
    def __init__(self, selector):
        self.selector = selector

    def __call__(self, cls, *args, **kwargs):
        score = self.selector(cls, *args, **kwargs)
        return int(not score)

    def __str__(self):
        return 'NOT(%s)' % super(NotSelector, self).__str__()


class yes(Selector):
    """Return the score given as parameter, with a default score of 0.5 so any
    other selector take precedence.

    Usually used for appobjects which can be selected whatever the context, or
    also sometimes to add arbitrary points to a score.

    Take care, `yes(0)` could be named 'no'...
    """
    def __init__(self, score=0.5):
        self.score = score

    def __call__(self, *args, **kwargs):
        return self.score


# the base class for all appobjects ############################################

class AppObject(object):
    """This is the base class for CubicWeb application objects which are
    selected according to a context (usually at least a request and a result
    set).

    The following attributes should be set on concret appobject classes:

    :attr:`__registry__`
      name of the registry for this object (string like 'views',
      'templates'...)

    :attr:`__regid__`
      object's identifier in the registry (string like 'main',
      'primary', 'folder_box')

    :attr:`__select__`
      class'selector

    Moreover, the `__abstract__` attribute may be set to True to indicate that a
    class is abstract and should not be registered.

    At selection time, the following attributes are set on the instance:

    :attr:`_cw`
      current request
    :attr:`cw_extra_kwargs`
      other received arguments

    And also the following, only if `rset` is found in arguments (in which case
    rset/row/col will be removed from `cwextra_kwargs`):

    :attr:`cw_rset`
      context result set or None

    :attr:`cw_row`
      if a result set is set and the context is about a particular cell in the
      result set, and not the result set as a whole, specify the row number we
      are interested in, else None

    :attr:`cw_col`
      if a result set is set and the context is about a particular cell in the
      result set, and not the result set as a whole, specify the col number we
      are interested in, else None


    .. Note::

      * do not inherit directly from this class but from a more specific class
        such as `AnyEntity`, `EntityView`, `AnyRsetView`, `Action`...

      * to be recordable, a subclass has to define its registry (attribute
        `__registry__`) and its identifier (attribute `__regid__`). Usually
        you don't have to take care of the registry since it's set by the base
        class, only the identifier `id`

      * application objects are designed to be loaded by the vregistry and
        should be accessed through it, not by direct instantiation, besides
        to use it as base classe.


      * When we inherit from `AppObject` (even not directly), you *always* have
        to use **super()** to get the methods and attributes of the superclasses,
        and not use the class identifier.

        For example, instead of writting::

          class Truc(PrimaryView):
              def f(self, arg1):
                  PrimaryView.f(self, arg1)

        You must write::

          class Truc(PrimaryView):
              def f(self, arg1):
                  super(Truc, self).f(arg1)

    """
    __registry__ = None
    __regid__ = None
    __select__ = yes()

    @classproperty
    def __registries__(cls):
        if cls.__registry__ is None:
            return ()
        return (cls.__registry__,)

    @classmethod
    def __registered__(cls, registry):
        """called by the registry when the appobject has been registered.

        It must return the object that will be actually registered (this may be
        the right hook to create an instance for example). By default the
        appobject is returned without any transformation.
        """
        try: # XXX < 3.6 bw compat
            pdefs = cls.property_defs
        except AttributeError:
            pdefs = getattr(cls, 'cw_property_defs', {})
        else:
            warn('[3.6] property_defs is deprecated, use cw_property_defs in %s'
                 % cls, DeprecationWarning)
        for propid, pdef in pdefs.items():
            pdef = pdef.copy() # may be shared
            pdef['default'] = getattr(cls, propid, pdef['default'])
            pdef['sitewide'] = getattr(cls, 'site_wide', pdef.get('sitewide'))
            registry.vreg.register_property(cls._cwpropkey(propid), **pdef)
        assert callable(cls.__select__), cls
        return cls

    def __init__(self, req, **extra):
        super(AppObject, self).__init__()
        self._cw = req
        try:
            self.cw_rset = extra.pop('rset')
            self.cw_row = extra.pop('row', None)
            self.cw_col = extra.pop('col', None)
        except KeyError:
            pass
        self.cw_extra_kwargs = extra

    # persistent class properties ##############################################
    #
    # optional `cw_property_defs` dict on a class defines available persistent
    # properties for this class:
    #
    # * key: id of the property (the actual CWProperty key is build using
    #        <registry name>.<obj id>.<property id>
    # * value: tuple (property type, vocabfunc, default value, property description)
    #         possible types are those used by `logilab.common.configuration`
    #
    # notice that when it exists multiple objects with the same id (adaptation,
    # overriding) only the first encountered definition is considered, so those
    # objects can't try to have different default values for instance.
    #
    # you can then access to a property value using self.cw_propval, where self
    # is an instance of class

    @classmethod
    def _cwpropkey(cls, propid):
        """return cw property key for the property of the given id for this
        class
        """
        return '%s.%s.%s' % (cls.__registry__, cls.__regid__, propid)

    def cw_propval(self, propid):
        """return cw property value associated to key

        <cls.__registry__>.<cls.id>.<propid>
        """
        return self._cw.property_value(self._cwpropkey(propid))

    # deprecated ###############################################################

    @property
    @deprecated('[3.6] use self.__regid__')
    def id(self):
        return self.__regid__

    @property
    @deprecated('[3.6] use self._cw.vreg')
    def vreg(self):
        return self._cw.vreg

    @property
    @deprecated('[3.6] use self._cw.vreg.schema')
    def schema(self):
        return self._cw.vreg.schema

    @property
    @deprecated('[3.6] use self._cw.vreg.config')
    def config(self):
        return self._cw.vreg.config

    @property
    @deprecated('[3.6] use self._cw')
    def req(self):
        return self._cw

    @deprecated('[3.6] use self.cw_rset')
    def get_rset(self):
        return self.cw_rset
    @deprecated('[3.6] use self.cw_rset')
    def set_rset(self, rset):
        self.cw_rset = rset
    rset = property(get_rset, set_rset)

    @property
    @deprecated('[3.6] use self.cw_row')
    def row(self):
        return self.cw_row

    @property
    @deprecated('[3.6] use self.cw_col')
    def col(self):
        return self.cw_col

    @property
    @deprecated('[3.6] use self.cw_extra_kwargs')
    def extra_kwargs(self):
        return self.cw_extra_kwargs

    @deprecated('[3.6] use self._cw.view')
    def view(self, *args, **kwargs):
        return self._cw.view(*args, **kwargs)

    @property
    @deprecated('[3.6] use self._cw.varmaker')
    def varmaker(self):
        return self._cw.varmaker

    @deprecated('[3.6] use self._cw.get_cache')
    def get_cache(self, cachename):
        return self._cw.get_cache(cachename)

    @deprecated('[3.6] use self._cw.build_url')
    def build_url(self, *args, **kwargs):
        return self._cw.build_url(*args, **kwargs)

    @deprecated('[3.6] use self.cw_rset.limited_rql')
    def limited_rql(self):
        return self.cw_rset.limited_rql()

    @deprecated('[3.6] use self.cw_rset.complete_entity(row,col) instead')
    def complete_entity(self, row, col=0, skip_bytes=True):
        return self.cw_rset.complete_entity(row, col, skip_bytes)

    @deprecated('[3.6] use self.cw_rset.get_entity(row,col) instead')
    def entity(self, row, col=0):
        return self.cw_rset.get_entity(row, col)

    @deprecated('[3.6] use self._cw.user_rql_callback')
    def user_rql_callback(self, args, msg=None):
        return self._cw.user_rql_callback(args, msg)

    @deprecated('[3.6] use self._cw.user_callback')
    def user_callback(self, cb, args, msg=None, nonify=False):
        return self._cw.user_callback(cb, args, msg, nonify)

    @deprecated('[3.6] use self._cw.format_date')
    def format_date(self, date, date_format=None, time=False):
        return self._cw.format_date(date, date_format, time)

    @deprecated('[3.6] use self._cw.format_time')
    def format_time(self, time):
        return self._cw.format_time(time)

    @deprecated('[3.6] use self._cw.format_float')
    def format_float(self, num):
        return self._cw.format_float(num)

    @deprecated('[3.6] use self._cw.parse_datetime')
    def parse_datetime(self, value, etype='Datetime'):
        return self._cw.parse_datetime(value, etype)

    @deprecated('[3.6] use self.cw_propval')
    def propval(self, propid):
        return self._cw.property_value(self._cwpropkey(propid))

set_log_methods(AppObject, getLogger('cubicweb.appobject'))