cwvreg.py
author Rémi Cardona <remi.cardona@logilab.fr>
Wed, 28 Jan 2015 11:51:16 +0100
changeset 10164 2094262d6553
parent 9984 793377697c81
child 10496 e95b559a06a2
permissions -rw-r--r--
[web/data] Fix userCallbackThenUpdateUI to completely replace old DOM elements Without the 'swap' parameter, userCallbackThenUpdateUI() would replace the _children_ of the component with a new version of the componenent, thus creating nested divs/spans/buttons/etc. Closes #4881299

# copyright 2003-2014 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/>.
""".. RegistryStore:

The `RegistryStore`
-------------------

The `RegistryStore` can be seen as a two-level dictionary. It contains
all dynamically loaded objects (subclasses of :ref:`appobject`) to
build a |cubicweb| application. Basically:

* the first level key returns a *registry*. This key corresponds to the
  `__registry__` attribute of application object classes

* the second level key returns a list of application objects which
  share the same identifier. This key corresponds to the `__regid__`
  attribute of application object classes.

A *registry* holds a specific kind of application objects. There is
for instance a registry for entity classes, another for views, etc...

The `RegistryStore` has two main responsibilities:

- being the access point to all registries

- handling the registration process at startup time, and during automatic
  reloading in debug mode.

.. _AppObjectRecording:

Details of the recording process
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~

.. index::
   vregistry: registration_callback

On startup, |cubicweb| loads application objects defined in its library
and in cubes used by the instance. Application objects from the
library are loaded first, then those provided by cubes are loaded in
dependency order (e.g. if your cube depends on an other, objects from
the dependency will be loaded first). The layout of the modules or packages
in a cube  is explained in :ref:`cubelayout`.

For each module:

* by default all objects are registered automatically

* if some objects have to replace other objects, or have to be
  included only if some condition is met, you'll have to define a
  `registration_callback(vreg)` function in your module and explicitly
  register **all objects** in this module, using the api defined
  below.

.. Note::
    Once the function `registration_callback(vreg)` is implemented in a module,
    all the objects from this module have to be explicitly registered as it
    disables the automatic objects registration.


API for objects registration
~~~~~~~~~~~~~~~~~~~~~~~~~~~~

Here are the registration methods that you can use in the `registration_callback`
to register your objects to the `RegistryStore` instance given as argument (usually
named `vreg`):

.. automethod:: cubicweb.cwvreg.CWRegistryStore.register_all
.. automethod:: cubicweb.cwvreg.CWRegistryStore.register_and_replace
.. automethod:: cubicweb.cwvreg.CWRegistryStore.register
.. automethod:: cubicweb.cwvreg.CWRegistryStore.unregister

Examples:

.. sourcecode:: python

   # web/views/basecomponents.py
   def registration_callback(vreg):
      # register everything in the module except SeeAlsoComponent
      vreg.register_all(globals().itervalues(), __name__, (SeeAlsoVComponent,))
      # conditionally register SeeAlsoVComponent
      if 'see_also' in vreg.schema:
          vreg.register(SeeAlsoVComponent)

In this example, we register all application object classes defined in the module
except `SeeAlsoVComponent`. This class is then registered only if the 'see_also'
relation type is defined in the instance'schema.

.. sourcecode:: python

   # goa/appobjects/sessions.py
   def registration_callback(vreg):
      vreg.register(SessionsCleaner)
      # replace AuthenticationManager by GAEAuthenticationManager
      vreg.register_and_replace(GAEAuthenticationManager, AuthenticationManager)
      # replace PersistentSessionManager by GAEPersistentSessionManager
      vreg.register_and_replace(GAEPersistentSessionManager, PersistentSessionManager)

In this example, we explicitly register classes one by one:

* the `SessionCleaner` class
* the `GAEAuthenticationManager` to replace the `AuthenticationManager`
* the `GAEPersistentSessionManager` to replace the `PersistentSessionManager`

If at some point we register a new appobject class in this module, it won't be
registered at all without modification to the `registration_callback`
implementation. The previous example will register it though, thanks to the call
to the `register_all` method.


.. _Selection:

Runtime objects selection
~~~~~~~~~~~~~~~~~~~~~~~~~

Now that we have all application objects loaded, the question is : when
I want some specific object, for instance the primary view for a given
entity, how do I get the proper object ? This is what we call the
**selection mechanism**.

As explained in the :ref:`Concepts` section:

* each application object has a **selector**, defined by its
  `__select__` class attribute

* this selector is responsible to return a **score** for a given context

  - 0 score means the object doesn't apply to this context

  - else, the higher the score, the better the object suits the context

* the object with the highest score is selected.

.. Note::

  When no single object has the highest score, an exception is raised in development
  mode to let you know that the engine was not able to identify the view to
  apply. This error is silenced in production mode and one of the objects with
  the highest score is picked.

  In such cases you would need to review your design and make sure
  your selectors or appobjects are properly defined. Such an error is
  typically caused by either forgetting to change the __regid__ in a
  derived class, or by having copy-pasted some code.

For instance, if you are selecting the primary (`__regid__ =
'primary'`) view (`__registry__ = 'views'`) for a result set
containing a `Card` entity, two objects will probably be selectable:

* the default primary view (`__select__ = is_instance('Any')`), meaning
  that the object is selectable for any kind of entity type

* the specific `Card` primary view (`__select__ = is_instance('Card')`,
  meaning that the object is selectable for Card entities

Other primary views specific to other entity types won't be selectable in this
case. Among selectable objects, the `is_instance('Card')` selector will return a higher
score since it's more specific, so the correct view will be selected as expected.

.. _SelectionAPI:

API for objects selections
~~~~~~~~~~~~~~~~~~~~~~~~~~

Here is the selection API you'll get on every registry. Some of them, as the
'etypes' registry, containing entity classes, extend it. In those methods,
`*args, **kwargs` is what we call the **context**. Those arguments are given to
selectors that will inspect their content and return a score accordingly.

.. automethod:: cubicweb.vregistry.Registry.select

.. automethod:: cubicweb.vregistry.Registry.select_or_none

.. automethod:: cubicweb.vregistry.Registry.possible_objects

.. automethod:: cubicweb.vregistry.Registry.object_by_id
"""

__docformat__ = "restructuredtext en"
_ = unicode

import sys
from os.path import join, dirname, realpath
from warnings import warn
from datetime import datetime, date, time, timedelta
from functools import reduce

from logilab.common.decorators import cached, clear_cache
from logilab.common.deprecation import deprecated, class_deprecated
from logilab.common.modutils import cleanup_sys_modules
from logilab.common.registry import (
    RegistryStore, Registry, obj_registries,
    ObjectNotFound, RegistryNotFound)

from rql import RQLHelper
from yams.constraints import BASE_CONVERTERS

from cubicweb import (CW_SOFTWARE_ROOT, ETYPE_NAME_MAP, CW_EVENT_MANAGER,
                      onevent, Binary, UnknownProperty, UnknownEid)
from cubicweb.predicates import appobject_selectable, _reset_is_instance_cache


@onevent('before-registry-reload')
def cleanup_uicfg_compat():
    """ backward compat: those modules are now refering to app objects in
    cw.web.views.uicfg and import * from backward compat. On registry reload, we
    should pop those modules from the cache so references are properly updated on
    subsequent reload
    """
    if 'cubicweb.web' in sys.modules:
        if getattr(sys.modules['cubicweb.web'], 'uicfg', None):
            del sys.modules['cubicweb.web'].uicfg
        if getattr(sys.modules['cubicweb.web'], 'uihelper', None):
            del sys.modules['cubicweb.web'].uihelper
    sys.modules.pop('cubicweb.web.uicfg', None)
    sys.modules.pop('cubicweb.web.uihelper', None)

def require_appobject(obj):
    """return appobjects required by the given object by searching for
    `appobject_selectable` predicate
    """
    impl = obj.__select__.search_selector(appobject_selectable)
    if impl:
        return (impl.registry, impl.regids)
    return None


class CWRegistry(Registry):
    def __init__(self, vreg):
        super(CWRegistry, self).__init__(True)
        self.vreg = vreg

    @property
    def schema(self):
        return self.vreg.schema

    def poss_visible_objects(self, *args, **kwargs):
        """return an ordered list of possible app objects in a given registry,
        supposing they support the 'visible' and 'order' properties (as most
        visualizable objects)
        """
        return sorted([x for x in self.possible_objects(*args, **kwargs)
                       if x.cw_propval('visible')],
                      key=lambda x: x.cw_propval('order'))


def related_appobject(obj, appobjectattr='__appobject__'):
    """ adapts any object to a potential appobject bound to it
    through the __appobject__ attribute
    """
    return getattr(obj, appobjectattr, obj)


class InstancesRegistry(CWRegistry):

    def selected(self, winner, args, kwargs):
        """overriden to avoid the default 'instanciation' behaviour, ie
        winner(*args, **kwargs)
        """
        return winner


class ETypeRegistry(CWRegistry):

    def clear_caches(self):
        clear_cache(self, 'etype_class')
        clear_cache(self, 'parent_classes')
        _reset_is_instance_cache(self.vreg)

    def initialization_completed(self):
        """on registration completed, clear etype_class internal cache
        """
        super(ETypeRegistry, self).initialization_completed()
        # clear etype cache if you don't want to run into deep weirdness
        self.clear_caches()
        # rebuild all classes to avoid potential memory fragmentation
        # (see #2719113)
        for eschema in self.vreg.schema.entities():
            self.etype_class(eschema)

    def register(self, obj, **kwargs):
        obj = related_appobject(obj)
        oid = kwargs.get('oid') or obj.__regid__
        if oid != 'Any' and not oid in self.schema:
            self.error('don\'t register %s, %s type not defined in the '
                       'schema', obj, oid)
            return
        kwargs['clear'] = True
        super(ETypeRegistry, self).register(obj, **kwargs)

    def iter_classes(self):
        for etype in self.vreg.schema.entities():
            yield self.etype_class(etype)

    @cached
    def parent_classes(self, etype):
        if etype == 'Any':
            return (), self.etype_class('Any')
        parents = tuple(self.etype_class(e.type)
                        for e in self.schema.eschema(etype).ancestors())
        return parents, self.etype_class('Any')

    @cached
    def etype_class(self, etype):
        """return an entity class for the given entity type.

        Try to find out a specific class for this kind of entity or default to a
        dump of the nearest parent class (in yams inheritance) registered.

        Fall back to 'Any' if not yams parent class found.
        """
        etype = str(etype)
        if etype == 'Any':
            objects = self['Any']
            assert len(objects) == 1, objects
            return objects[0]
        eschema = self.schema.eschema(etype)
        baseschemas = [eschema] + eschema.ancestors()
        # browse ancestors from most specific to most generic and try to find an
        # associated custom entity class
        for baseschema in baseschemas:
            try:
                btype = ETYPE_NAME_MAP[baseschema]
            except KeyError:
                btype = str(baseschema)
            try:
                objects = self[btype]
                assert len(objects) == 1, objects
                if btype == etype:
                    cls = objects[0]
                else:
                    # recurse to ensure issubclass(etype_class('Child'),
                    #                              etype_class('Parent'))
                    cls = self.etype_class(btype)
                break
            except ObjectNotFound:
                pass
        else:
            # no entity class for any of the ancestors, fallback to the default
            # one
            objects = self['Any']
            assert len(objects) == 1, objects
            cls = objects[0]
        # make a copy event if cls.__regid__ == etype, else we may have pb for
        # client application using multiple connections to different
        # repositories (eg shingouz)
        # __autogenerated__ attribute is just a marker
        cls = type(str(etype), (cls,), {'__autogenerated__': True,
                                        '__doc__': cls.__doc__,
                                        '__module__': cls.__module__})
        cls.__regid__ = etype
        cls.__initialize__(self.schema)
        return cls

    def fetch_attrs(self, targettypes):
        """return intersection of fetch_attrs of each entity type in
        `targettypes`
        """
        fetchattrs_list = []
        for ttype in targettypes:
            etypecls = self.etype_class(ttype)
            fetchattrs_list.append(set(etypecls.fetch_attrs))
        return reduce(set.intersection, fetchattrs_list)


class ViewsRegistry(CWRegistry):

    def main_template(self, req, oid='main-template', rset=None, **kwargs):
        """display query by calling the given template (default to main),
        and returning the output as a string instead of requiring the [w]rite
        method as argument
        """
        obj = self.select(oid, req, rset=rset, **kwargs)
        res = obj.render(**kwargs)
        if isinstance(res, unicode):
            return res.encode(req.encoding)
        assert isinstance(res, str)
        return res

    def possible_views(self, req, rset=None, **kwargs):
        """return an iterator on possible views for this result set

        views returned are classes, not instances
        """
        for vid, views in self.items():
            if vid[0] == '_':
                continue
            views = [view for view in views
                     if not isinstance(view, class_deprecated)]
            try:
                view = self._select_best(views, req, rset=rset, **kwargs)
                if view is not None and view.linkable():
                    yield view
            except Exception:
                self.exception('error while trying to select %s view for %s',
                               vid, rset)


class ActionsRegistry(CWRegistry):
    def poss_visible_objects(self, *args, **kwargs):
        """return an ordered list of possible actions"""
        return sorted(self.possible_objects(*args, **kwargs),
                      key=lambda x: x.order)

    def possible_actions(self, req, rset=None, **kwargs):
        if rset is None:
            actions = self.poss_visible_objects(req, rset=rset, **kwargs)
        else:
            actions = rset.possible_actions(**kwargs) # cached implementation
        result = {}
        for action in actions:
            result.setdefault(action.category, []).append(action)
        return result


class CtxComponentsRegistry(CWRegistry):
    def poss_visible_objects(self, *args, **kwargs):
        """return an ordered list of possible components"""
        context = kwargs.pop('context')
        if '__cache' in kwargs:
            cache = kwargs.pop('__cache')
        elif kwargs.get('rset') is None:
            cache = args[0]
        else:
            cache = kwargs['rset']
        try:
            cached = cache.__components_cache
        except AttributeError:
            ctxcomps = super(CtxComponentsRegistry, self).poss_visible_objects(
                *args, **kwargs)
            if cache is None:
                components = []
                for component in ctxcomps:
                    cctx = component.cw_propval('context')
                    if cctx == context:
                        component.cw_extra_kwargs['context'] = cctx
                        components.append(component)
                return components
            cached = cache.__components_cache = {}
            for component in ctxcomps:
                cctx = component.cw_propval('context')
                component.cw_extra_kwargs['context'] = cctx
                cached.setdefault(cctx, []).append(component)
        thisctxcomps = cached.get(context, ())
        # XXX set context for bw compat (should now be taken by comp.render())
        for component in thisctxcomps:
            component.cw_extra_kwargs['context'] = context
        return thisctxcomps


class BwCompatCWRegistry(object):
    def __init__(self, vreg, oldreg, redirecttoreg):
        self.vreg = vreg
        self.oldreg = oldreg
        self.redirecto = redirecttoreg

    def __getattr__(self, attr):
        warn('[3.10] you should now use the %s registry instead of the %s registry'
             % (self.redirecto, self.oldreg), DeprecationWarning, stacklevel=2)
        return getattr(self.vreg[self.redirecto], attr)

    def clear(self): pass
    def initialization_completed(self): pass


class CWRegistryStore(RegistryStore):
    """Central registry for the cubicweb instance, extending the generic
    RegistryStore with some cubicweb specific stuff.

    This is one of the central object in cubicweb instance, coupling
    dynamically loaded objects with the schema and the configuration objects.

    It specializes the RegistryStore by adding some convenience methods to access to
    stored objects. Currently we have the following registries of objects known
    by the web instance (library may use some others additional registries):

    * 'etypes', entity type classes

    * 'views', views and templates (e.g. layout views)

    * 'components', non contextual components, like magic search, url evaluators

    * 'ctxcomponents', contextual components like boxes and dynamic section

    * 'actions', contextual actions, eg links to display in predefined places in
      the ui

    * 'forms', describing logic of HTML form

    * 'formrenderers', rendering forms to html

    * 'controllers', primary objects to handle request publishing, directly
      plugged into the application
    """

    REGISTRY_FACTORY = {None: CWRegistry,
                        'etypes': ETypeRegistry,
                        'views': ViewsRegistry,
                        'actions': ActionsRegistry,
                        'ctxcomponents': CtxComponentsRegistry,
                        'uicfg': InstancesRegistry,
                        }

    def __init__(self, config, initlog=True):
        if initlog:
            # first init log service
            config.init_log()
        super(CWRegistryStore, self).__init__(config.debugmode)
        self.config = config
        # need to clean sys.path this to avoid import confusion pb (i.e.  having
        # the same module loaded as 'cubicweb.web.views' subpackage and as
        # views' or 'web.views' subpackage. This is mainly for testing purpose,
        # we should'nt need this in production environment
        for webdir in (join(dirname(realpath(__file__)), 'web'),
                       join(dirname(__file__), 'web')):
            if webdir in sys.path:
                sys.path.remove(webdir)
        if CW_SOFTWARE_ROOT in sys.path:
            sys.path.remove(CW_SOFTWARE_ROOT)
        self.schema = None
        self.initialized = False
        self['boxes'] = BwCompatCWRegistry(self, 'boxes', 'ctxcomponents')
        self['contentnavigation'] = BwCompatCWRegistry(self, 'contentnavigation', 'ctxcomponents')

    def setdefault(self, regid):
        try:
            return self[regid]
        except RegistryNotFound:
            self[regid] = self.registry_class(regid)(self)
            return self[regid]

    def items(self):
        return [item for item in super(CWRegistryStore, self).items()
                if not item[0] in ('propertydefs', 'propertyvalues')]
    def iteritems(self):
        return (item for item in super(CWRegistryStore, self).iteritems()
                if not item[0] in ('propertydefs', 'propertyvalues'))

    def values(self):
        return [value for key, value in self.items()]
    def itervalues(self):
        return (value for key, value in self.items())

    def reset(self):
        CW_EVENT_MANAGER.emit('before-registry-reset', self)
        super(CWRegistryStore, self).reset()
        self._needs_appobject = {}
        # two special registries, propertydefs which care all the property
        # definitions, and propertyvals which contains values for those
        # properties
        if not self.initialized:
            self['propertydefs'] = {}
            self['propertyvalues'] = self.eprop_values = {}
            for key, propdef in self.config.cwproperty_definitions():
                self.register_property(key, **propdef)
        CW_EVENT_MANAGER.emit('after-registry-reset', self)

    def register_all(self, objects, modname, butclasses=()):
        butclasses = set(related_appobject(obj)
                         for obj in butclasses)
        objects = [related_appobject(obj) for obj in objects]
        super(CWRegistryStore, self).register_all(objects, modname, butclasses)

    def register_and_replace(self, obj, replaced):
        obj = related_appobject(obj)
        replaced = related_appobject(replaced)
        super(CWRegistryStore, self).register_and_replace(obj, replaced)

    def set_schema(self, schema):
        """set instance'schema and load application objects"""
        self._set_schema(schema)
        # now we can load application's web objects
        self.reload(self.config.appobjects_path(), force_reload=False)
        # map lowered entity type names to their actual name
        self.case_insensitive_etypes = {}
        for eschema in self.schema.entities():
            etype = str(eschema)
            self.case_insensitive_etypes[etype.lower()] = etype
            clear_cache(eschema, 'ordered_relations')
            clear_cache(eschema, 'meta_attributes')

    def reload_if_needed(self):
        path = self.config.appobjects_path()
        if self.is_reload_needed(path):
            self.reload(path)

    def _cleanup_sys_modules(self, path):
        """Remove submodules of `directories` from `sys.modules` and cleanup
        CW_EVENT_MANAGER accordingly.

        We take care to properly remove obsolete registry callbacks.

        """
        caches = {}
        callbackdata = CW_EVENT_MANAGER.callbacks.values()
        for callbacklist in callbackdata:
            for callback in callbacklist:
                func = callback[0]
                # for non-function callable, we do nothing interesting
                module = getattr(func, '__module__', None)
                caches[id(callback)] = module
        deleted_modules = set(cleanup_sys_modules(path))
        for callbacklist in callbackdata:
            for callback in callbacklist[:]:
                module = caches[id(callback)]
                if module and module in deleted_modules:
                    callbacklist.remove(callback)

    def reload(self, path, force_reload=True):
        """modification detected, reset and reload the vreg"""
        CW_EVENT_MANAGER.emit('before-registry-reload')
        if force_reload:
            self._cleanup_sys_modules(path)
            cubes = self.config.cubes()
            # if the fs code use some cubes not yet registered into the instance
            # we should cleanup sys.modules for those as well to avoid potential
            # bad class reference pb after reloading
            cfg = self.config
            for cube in cfg.expand_cubes(cubes, with_recommends=True):
                if not cube in cubes:
                    cpath = cfg.build_appobjects_cube_path([cfg.cube_dir(cube)])
                    self._cleanup_sys_modules(cpath)
        self.register_objects(path)
        CW_EVENT_MANAGER.emit('after-registry-reload')

    def load_file(self, filepath, modname):
        # override to allow some instrumentation (eg localperms)
        modpath = modname.split('.')
        try:
            self.currently_loading_cube = modpath[modpath.index('cubes') + 1]
        except ValueError:
            self.currently_loading_cube = 'cubicweb'
        return super(CWRegistryStore, self).load_file(filepath, modname)

    def _set_schema(self, schema):
        """set instance'schema"""
        self.schema = schema
        clear_cache(self, 'rqlhelper')

    def update_schema(self, schema):
        """update .schema attribute on registered objects, necessary for some
        tests
        """
        self.schema = schema
        for registry, regcontent in self.items():
            for objects in regcontent.itervalues():
                for obj in objects:
                    obj.schema = schema

    def register(self, obj, *args, **kwargs):
        """register `obj` application object into `registryname` or
        `obj.__registry__` if not specified, with identifier `oid` or
        `obj.__regid__` if not specified.

        If `clear` is true, all objects with the same identifier will be
        previously unregistered.
        """
        obj = related_appobject(obj)
        super(CWRegistryStore, self).register(obj, *args, **kwargs)
        depends_on = require_appobject(obj)
        if depends_on is not None:
            self._needs_appobject[obj] = depends_on

    def register_objects(self, path):
        """overriden to give cubicweb's extrapath (eg cubes package's __path__)
        """
        super(CWRegistryStore, self).register_objects(
            path, self.config.extrapath)

    def initialization_completed(self):
        """cw specific code once vreg initialization is completed:

        * remove objects requiring a missing appobject, unless
          config.cleanup_unused_appobjects is false
        * init rtags
        """
        # we may want to keep interface dependent objects (e.g.for i18n
        # catalog generation)
        if self.config.cleanup_unused_appobjects:
            # remove appobjects which depend on other, unexistant appobjects
            for obj, (regname, regids) in self._needs_appobject.items():
                try:
                    registry = self[regname]
                except RegistryNotFound:
                    self.debug('unregister %s (no registry %s)', obj, regname)
                    self.unregister(obj)
                    continue
                for regid in regids:
                    if registry.get(regid):
                        break
                else:
                    self.debug('unregister %s (no %s object in registry %s)',
                               registry.objid(obj), ' or '.join(regids), regname)
                    self.unregister(obj)
        super(CWRegistryStore, self).initialization_completed()
        if 'uicfg' in self: # 'uicfg' is not loaded in a pure repository mode
            for rtags in self['uicfg'].itervalues():
                for rtag in rtags:
                    # don't check rtags if we don't want to cleanup_unused_appobjects
                    rtag.init(self.schema, check=self.config.cleanup_unused_appobjects)

    # rql parsing utilities ####################################################

    @property
    @cached
    def rqlhelper(self):
        return RQLHelper(self.schema,
                         special_relations={'eid': 'uid', 'has_text': 'fti'})

    def solutions(self, req, rqlst, args):
        def type_from_eid(eid, req=req):
            return req.entity_metas(eid)['type']
        return self.rqlhelper.compute_solutions(rqlst, {'eid': type_from_eid}, args)

    def parse(self, req, rql, args=None):
        rqlst = self.rqlhelper.parse(rql)
        try:
            self.solutions(req, rqlst, args)
        except UnknownEid:
            for select in rqlst.children:
                select.solutions = []
        return rqlst

    # properties handling #####################################################

    def user_property_keys(self, withsitewide=False):
        if withsitewide:
            return sorted(k for k in self['propertydefs']
                          if not k.startswith('sources.'))
        return sorted(k for k, kd in self['propertydefs'].iteritems()
                      if not kd['sitewide'] and not k.startswith('sources.'))

    def register_property(self, key, type, help, default=None, vocabulary=None,
                          sitewide=False):
        """register a given property"""
        properties = self['propertydefs']
        assert type in YAMS_TO_PY, 'unknown type %s' % type
        properties[key] = {'type': type, 'vocabulary': vocabulary,
                           'default': default, 'help': help,
                           'sitewide': sitewide}

    def property_info(self, key):
        """return dictionary containing description associated to the given
        property key (including type, defaut value, help and a site wide
        boolean)
        """
        try:
            return self['propertydefs'][key]
        except KeyError:
            if key.startswith('system.version.'):
                soft = key.split('.')[-1]
                return {'type': 'String', 'sitewide': True,
                        'default': None, 'vocabulary': None,
                        'help': _('%s software version of the database') % soft}
            raise UnknownProperty('unregistered property %r' % key)

    def property_value(self, key):
        try:
            return self['propertyvalues'][key]
        except KeyError:
            return self.property_info(key)['default']

    def typed_value(self, key, value):
        """value is a unicode string, return it correctly typed. Let potential
        type error propagates.
        """
        pdef = self.property_info(key)
        try:
            value = YAMS_TO_PY[pdef['type']](value)
        except (TypeError, ValueError):
            raise ValueError(_('bad value'))
        vocab = pdef['vocabulary']
        if vocab is not None:
            if callable(vocab):
                vocab = vocab(None) # XXX need a req object
            if not value in vocab:
                raise ValueError(_('unauthorized value'))
        return value

    def init_properties(self, propvalues):
        """init the property values registry using the given set of couple (key, value)
        """
        self.initialized = True
        values = self['propertyvalues']
        for key, val in propvalues:
            try:
                values[key] = self.typed_value(key, val)
            except ValueError as ex:
                self.warning('%s (you should probably delete that property '
                             'from the database)', ex)
            except UnknownProperty as ex:
                self.warning('%s (you should probably delete that property '
                             'from the database)', ex)


# XXX unify with yams.constraints.BASE_CONVERTERS?
YAMS_TO_PY = BASE_CONVERTERS.copy()
YAMS_TO_PY.update({
    'Bytes':      Binary,
    'Date':       date,
    'Datetime':   datetime,
    'TZDatetime': datetime,
    'Time':       time,
    'TZTime':     time,
    'Interval':   timedelta,
    })