fix workflow consistency: check state/transition name uniqness in the wf when state/transition name is modified ; use the new msg argument of rql constraints to have a nicer error message on failure
"""Base class for entity objects manipulated in clients
:organization: Logilab
:copyright: 2001-2009 LOGILAB S.A. (Paris, FRANCE), license is LGPL v2.
:contact: http://www.logilab.fr/ -- mailto:contact@logilab.fr
:license: GNU Lesser General Public License, v2.1 - http://www.gnu.org/licenses
"""
__docformat__ = "restructuredtext en"
from warnings import warn
from logilab.common import interface
from logilab.common.compat import all
from logilab.common.decorators import cached
from logilab.common.deprecation import deprecated
from logilab.mtconverter import TransformData, TransformError, xml_escape
from rql import parse
from rql.utils import rqlvar_maker
from cubicweb import Unauthorized, typed_eid
from cubicweb.rset import ResultSet
from cubicweb.selectors import yes
from cubicweb.appobject import AppObject
from cubicweb.rqlrewrite import RQLRewriter
from cubicweb.schema import RQLVocabularyConstraint, RQLConstraint, bw_normalize_etype
from cubicweb.common.uilib import printable_value, soup2xhtml
from cubicweb.common.mixins import MI_REL_TRIGGERS
from cubicweb.common.mttransforms import ENGINE
_marker = object()
def greater_card(rschema, subjtypes, objtypes, index):
for subjtype in subjtypes:
for objtype in objtypes:
card = rschema.rproperty(subjtype, objtype, 'cardinality')[index]
if card in '+*':
return card
return '1'
_MODE_TAGS = set(('link', 'create'))
_CATEGORY_TAGS = set(('primary', 'secondary', 'generic', 'generated')) # , 'metadata'))
try:
from cubicweb.web import formwidgets, uicfg
def _dispatch_rtags(tags, rtype, role, stype, otype):
for tag in tags:
if tag in _MODE_TAGS:
uicfg.actionbox_appearsin_addmenu.tag_relation(
(stype, rtype, otype, role), tag == 'create')
elif tag in _CATEGORY_TAGS:
uicfg.autoform_section.tag_relation((stype, rtype, otype, role),
tag)
elif tag == 'inlineview':
uicfg.autoform_is_inlined.tag_relation((stype, rtype, otype, role), True)
else:
raise ValueError(tag)
except ImportError:
_dispatch_rtags = None
def _get_etype(bases, classdict):
try:
return classdict['id']
except KeyError:
for base in bases:
etype = getattr(base, 'id', None)
if etype and etype != 'Any':
return etype
def _get_defs(attr, name, bases, classdict):
try:
yield name, classdict.pop(attr)
except KeyError:
for base in bases:
try:
value = getattr(base, attr)
delattr(base, attr)
yield base.__name__, value
except AttributeError:
continue
class _metaentity(type):
"""this metaclass sets the relation tags on the entity class
and deals with the `widgets` attribute
"""
def __new__(mcs, name, bases, classdict):
# collect baseclass' rtags
etype = _get_etype(bases, classdict)
if etype and _dispatch_rtags is not None:
for name, rtags in _get_defs('__rtags__', name, bases, classdict):
warn('%s: __rtags__ is deprecated' % name, DeprecationWarning)
for relation, tags in rtags.iteritems():
# tags must become an iterable
if isinstance(tags, basestring):
tags = (tags,)
# relation must become a 3-uple (rtype, targettype, role)
if isinstance(relation, basestring):
_dispatch_rtags(tags, relation, 'subject', etype, '*')
_dispatch_rtags(tags, relation, 'object', '*', etype)
elif len(relation) == 1: # useful ?
_dispatch_rtags(tags, relation[0], 'subject', etype, '*')
_dispatch_rtags(tags, relation[0], 'object', '*', etype)
elif len(relation) == 2:
rtype, ttype = relation
ttype = bw_normalize_etype(ttype) # XXX bw compat
_dispatch_rtags(tags, rtype, 'subject', etype, ttype)
_dispatch_rtags(tags, rtype, 'object', ttype, etype)
elif len(relation) == 3:
rtype, ttype, role = relation
ttype = bw_normalize_etype(ttype)
if role == 'subject':
_dispatch_rtags(tags, rtype, 'subject', etype, ttype)
else:
_dispatch_rtags(tags, rtype, 'object', ttype, etype)
else:
raise ValueError('bad rtag definition (%r)' % (relation,))
for name, widgets in _get_defs('widgets', name, bases, classdict):
warn('%s: widgets is deprecated' % name, DeprecationWarning)
for rtype, wdgname in widgets.iteritems():
if wdgname in ('URLWidget', 'EmbededURLWidget', 'RawDynamicComboBoxWidget'):
warn('%s widget is deprecated' % wdgname, DeprecationWarning)
continue
if wdgname == 'StringWidget':
wdgname = 'TextInput'
widget = getattr(formwidgets, wdgname)
assert hasattr(widget, 'render')
uicfg.autoform_field_kwargs.tag_subject_of(
(etype, rtype, '*'), {'widget': widget})
return super(_metaentity, mcs).__new__(mcs, name, bases, classdict)
class Entity(AppObject, dict):
"""an entity instance has e_schema automagically set on
the class and instances has access to their issuing cursor.
A property is set for each attribute and relation on each entity's type
class. Becare that among attributes, 'eid' is *NEITHER* stored in the
dict containment (which acts as a cache for other attributes dynamically
fetched)
:type e_schema: `cubicweb.schema.EntitySchema`
:ivar e_schema: the entity's schema
:type rest_var: str
:cvar rest_var: indicates which attribute should be used to build REST urls
If None is specified, the first non-meta attribute will
be used
:type skip_copy_for: list
:cvar skip_copy_for: a list of relations that should be skipped when copying
this kind of entity. Note that some relations such
as composite relations or relations that have '?1' as object
cardinality are always skipped.
"""
__metaclass__ = _metaentity
__registry__ = 'etypes'
__select__ = yes()
# class attributes that must be set in class definition
id = None
rest_attr = None
fetch_attrs = None
skip_copy_for = ('in_state',)
# class attributes set automatically at registration time
e_schema = None
MODE_TAGS = set(('link', 'create'))
CATEGORY_TAGS = set(('primary', 'secondary', 'generic', 'generated')) # , 'metadata'))
@classmethod
def __initialize__(cls):
"""initialize a specific entity class by adding descriptors to access
entity type's attributes and relations
"""
etype = cls.id
assert etype != 'Any', etype
cls.e_schema = eschema = cls.schema.eschema(etype)
for rschema, _ in eschema.attribute_definitions():
if rschema.type == 'eid':
continue
setattr(cls, rschema.type, Attribute(rschema.type))
mixins = []
for rschema, _, role in eschema.relation_definitions():
if (rschema, role) in MI_REL_TRIGGERS:
mixin = MI_REL_TRIGGERS[(rschema, role)]
if not (issubclass(cls, mixin) or mixin in mixins): # already mixed ?
mixins.append(mixin)
for iface in getattr(mixin, '__implements__', ()):
if not interface.implements(cls, iface):
interface.extend(cls, iface)
if role == 'subject':
setattr(cls, rschema.type, SubjectRelation(rschema))
else:
attr = 'reverse_%s' % rschema.type
setattr(cls, attr, ObjectRelation(rschema))
if mixins:
# see etype class instantation in cwvreg.ETypeRegistry.etype_class method:
# due to class dumping, cls is the generated top level class with actual
# user class as (only) parent. Since we want to be able to override mixins
# method from this user class, we have to take care to insert mixins after that
# class
#
# note that we don't plug mixins as user class parent since it causes pb
# with some cases of entity classes inheritance.
mixins.insert(0, cls.__bases__[0])
mixins += cls.__bases__[1:]
cls.__bases__ = tuple(mixins)
cls.info('plugged %s mixins on %s', mixins, cls)
@classmethod
def fetch_rql(cls, user, restriction=None, fetchattrs=None, mainvar='X',
settype=True, ordermethod='fetch_order'):
"""return a rql to fetch all entities of the class type"""
restrictions = restriction or []
if settype:
restrictions.append('%s is %s' % (mainvar, cls.id))
if fetchattrs is None:
fetchattrs = cls.fetch_attrs
selection = [mainvar]
orderby = []
# start from 26 to avoid possible conflicts with X
varmaker = rqlvar_maker(index=26)
cls._fetch_restrictions(mainvar, varmaker, fetchattrs, selection,
orderby, restrictions, user, ordermethod)
rql = 'Any %s' % ','.join(selection)
if orderby:
rql += ' ORDERBY %s' % ','.join(orderby)
rql += ' WHERE %s' % ', '.join(restrictions)
return rql
@classmethod
def _fetch_restrictions(cls, mainvar, varmaker, fetchattrs,
selection, orderby, restrictions, user,
ordermethod='fetch_order', visited=None):
eschema = cls.e_schema
if visited is None:
visited = set((eschema.type,))
elif eschema.type in visited:
# avoid infinite recursion
return
else:
visited.add(eschema.type)
_fetchattrs = []
for attr in fetchattrs:
try:
rschema = eschema.subjrels[attr]
except KeyError:
cls.warning('skipping fetch_attr %s defined in %s (not found in schema)',
attr, cls.id)
continue
if not user.matching_groups(rschema.get_groups('read')):
continue
var = varmaker.next()
selection.append(var)
restriction = '%s %s %s' % (mainvar, attr, var)
restrictions.append(restriction)
if not rschema.final:
# XXX this does not handle several destination types
desttype = rschema.objects(eschema.type)[0]
card = rschema.rproperty(eschema, desttype, 'cardinality')[0]
if card not in '?1':
cls.warning('bad relation %s specified in fetch attrs for %s',
attr, cls)
selection.pop()
restrictions.pop()
continue
# XXX we need outer join in case the relation is not mandatory
# (card == '?') *or if the entity is being added*, since in
# that case the relation may still be missing. As we miss this
# later information here, systematically add it.
restrictions[-1] += '?'
destcls = cls.vreg['etypes'].etype_class(desttype)
destcls._fetch_restrictions(var, varmaker, destcls.fetch_attrs,
selection, orderby, restrictions,
user, ordermethod, visited=visited)
orderterm = getattr(cls, ordermethod)(attr, var)
if orderterm:
orderby.append(orderterm)
return selection, orderby, restrictions
@classmethod
@cached
def parent_classes(cls):
parents = [cls.vreg['etypes'].etype_class(e.type)
for e in cls.e_schema.ancestors()]
parents.append(cls.vreg['etypes'].etype_class('Any'))
return parents
@classmethod
@cached
def _rest_attr_info(cls):
mainattr, needcheck = 'eid', True
if cls.rest_attr:
mainattr = cls.rest_attr
needcheck = not cls.e_schema.has_unique_values(mainattr)
else:
for rschema in cls.e_schema.subject_relations():
if rschema.final and rschema != 'eid' and cls.e_schema.has_unique_values(rschema):
mainattr = str(rschema)
needcheck = False
break
if mainattr == 'eid':
needcheck = False
return mainattr, needcheck
def __init__(self, req, rset=None, row=None, col=0):
AppObject.__init__(self, req, rset, row, col)
dict.__init__(self)
self._related_cache = {}
if rset is not None:
self.eid = rset[row][col]
else:
self.eid = None
self._is_saved = True
def __repr__(self):
return '<Entity %s %s %s at %s>' % (
self.e_schema, self.eid, self.keys(), id(self))
def __nonzero__(self):
return True
def __hash__(self):
return id(self)
def __cmp__(self, other):
raise NotImplementedError('comparison not implemented for %s' % self.__class__)
def pre_add_hook(self):
"""hook called by the repository before doing anything to add the entity
(before_add entity hooks have not been called yet). This give the
occasion to do weird stuff such as autocast (File -> Image for instance).
This method must return the actual entity to be added.
"""
return self
def set_eid(self, eid):
self.eid = self['eid'] = eid
def has_eid(self):
"""return True if the entity has an attributed eid (False
meaning that the entity has to be created
"""
try:
typed_eid(self.eid)
return True
except (ValueError, TypeError):
return False
def is_saved(self):
"""during entity creation, there is some time during which the entity
has an eid attributed though it's not saved (eg during before_add_entity
hooks). You can use this method to ensure the entity has an eid *and* is
saved in its source.
"""
return self.has_eid() and self._is_saved
@cached
def metainformation(self):
res = dict(zip(('type', 'source', 'extid'), self.req.describe(self.eid)))
res['source'] = self.req.source_defs()[res['source']]
return res
def clear_local_perm_cache(self, action):
for rqlexpr in self.e_schema.get_rqlexprs(action):
self.req.local_perm_cache.pop((rqlexpr.eid, (('x', self.eid),)), None)
def check_perm(self, action):
self.e_schema.check_perm(self.req, action, self.eid)
def has_perm(self, action):
return self.e_schema.has_perm(self.req, action, self.eid)
def view(self, vid, __registry='views', **kwargs):
"""shortcut to apply a view on this entity"""
return self.vreg[__registry].render(vid, self.req, rset=self.rset,
row=self.row, col=self.col, **kwargs)
def absolute_url(self, *args, **kwargs):
"""return an absolute url to view this entity"""
# use *args since we don't want first argument to be "anonymous" to
# avoid potential clash with kwargs
if args:
assert len(args) == 1, 'only 0 or 1 non-named-argument expected'
method = args[0]
else:
method = None
# in linksearch mode, we don't want external urls else selecting
# the object for use in the relation is tricky
# XXX search_state is web specific
if getattr(self.req, 'search_state', ('normal',))[0] == 'normal':
kwargs['base_url'] = self.metainformation()['source'].get('base-url')
if method in (None, 'view'):
try:
kwargs['_restpath'] = self.rest_path(kwargs.get('base_url'))
except TypeError:
warn('%s: rest_path() now take use_ext_eid argument, '
'please update' % self.id, DeprecationWarning)
kwargs['_restpath'] = self.rest_path()
else:
kwargs['rql'] = 'Any X WHERE X eid %s' % self.eid
return self.build_url(method, **kwargs)
def rest_path(self, use_ext_eid=False):
"""returns a REST-like (relative) path for this entity"""
mainattr, needcheck = self._rest_attr_info()
etype = str(self.e_schema)
path = etype.lower()
if mainattr != 'eid':
value = getattr(self, mainattr)
if value is None or unicode(value) == u'':
mainattr = 'eid'
path += '/eid'
elif needcheck:
# make sure url is not ambiguous
rql = 'Any COUNT(X) WHERE X is %s, X %s %%(value)s' % (
etype, mainattr)
nbresults = self.req.execute(rql, {'value' : value})[0][0]
if nbresults != 1: # ambiguity?
mainattr = 'eid'
path += '/eid'
if mainattr == 'eid':
if use_ext_eid:
value = self.metainformation()['extid']
else:
value = self.eid
return '%s/%s' % (path, self.req.url_quote(value))
def attr_metadata(self, attr, metadata):
"""return a metadata for an attribute (None if unspecified)"""
value = getattr(self, '%s_%s' % (attr, metadata), None)
if value is None and metadata == 'encoding':
value = self.vreg.property_value('ui.encoding')
return value
def printable_value(self, attr, value=_marker, attrtype=None,
format='text/html', displaytime=True):
"""return a displayable value (i.e. unicode string) which may contains
html tags
"""
attr = str(attr)
if value is _marker:
value = getattr(self, attr)
if isinstance(value, basestring):
value = value.strip()
if value is None or value == '': # don't use "not", 0 is an acceptable value
return u''
if attrtype is None:
attrtype = self.e_schema.destination(attr)
props = self.e_schema.rproperties(attr)
if attrtype == 'String':
# internalinalized *and* formatted string such as schema
# description...
if props.get('internationalizable'):
value = self.req._(value)
attrformat = self.attr_metadata(attr, 'format')
if attrformat:
return self.mtc_transform(value, attrformat, format,
self.req.encoding)
elif attrtype == 'Bytes':
attrformat = self.attr_metadata(attr, 'format')
if attrformat:
encoding = self.attr_metadata(attr, 'encoding')
return self.mtc_transform(value.getvalue(), attrformat, format,
encoding)
return u''
value = printable_value(self.req, attrtype, value, props,
displaytime=displaytime)
if format == 'text/html':
value = xml_escape(value)
return value
def mtc_transform(self, data, format, target_format, encoding,
_engine=ENGINE):
trdata = TransformData(data, format, encoding, appobject=self)
data = _engine.convert(trdata, target_format).decode()
if format == 'text/html':
data = soup2xhtml(data, self.req.encoding)
return data
# entity cloning ##########################################################
def copy_relations(self, ceid):
"""copy relations of the object with the given eid on this
object (this method is called on the newly created copy, and
ceid designates the original entity).
By default meta and composite relations are skipped.
Overrides this if you want another behaviour
"""
assert self.has_eid()
execute = self.req.execute
for rschema in self.e_schema.subject_relations():
if rschema.final or rschema.meta:
continue
# skip already defined relations
if getattr(self, rschema.type):
continue
if rschema.type in self.skip_copy_for:
continue
# skip composite relation
if self.e_schema.subjrproperty(rschema, 'composite'):
continue
# skip relation with card in ?1 else we either change the copied
# object (inlined relation) or inserting some inconsistency
if self.e_schema.subjrproperty(rschema, 'cardinality')[1] in '?1':
continue
rql = 'SET X %s V WHERE X eid %%(x)s, Y eid %%(y)s, Y %s V' % (
rschema.type, rschema.type)
execute(rql, {'x': self.eid, 'y': ceid}, ('x', 'y'))
self.clear_related_cache(rschema.type, 'subject')
for rschema in self.e_schema.object_relations():
if rschema.meta:
continue
# skip already defined relations
if getattr(self, 'reverse_%s' % rschema.type):
continue
# skip composite relation
if self.e_schema.objrproperty(rschema, 'composite'):
continue
# skip relation with card in ?1 else we either change the copied
# object (inlined relation) or inserting some inconsistency
if self.e_schema.objrproperty(rschema, 'cardinality')[0] in '?1':
continue
rql = 'SET V %s X WHERE X eid %%(x)s, Y eid %%(y)s, V %s Y' % (
rschema.type, rschema.type)
execute(rql, {'x': self.eid, 'y': ceid}, ('x', 'y'))
self.clear_related_cache(rschema.type, 'object')
# data fetching methods ###################################################
@cached
def as_rset(self):
"""returns a resultset containing `self` information"""
rset = ResultSet([(self.eid,)], 'Any X WHERE X eid %(x)s',
{'x': self.eid}, [(self.id,)])
return self.req.decorate_rset(rset)
def to_complete_relations(self):
"""by default complete final relations to when calling .complete()"""
for rschema in self.e_schema.subject_relations():
if rschema.final:
continue
if len(rschema.objects(self.e_schema)) > 1:
# ambigous relations, the querier doesn't handle
# outer join correctly in this case
continue
if rschema.inlined:
matching_groups = self.req.user.matching_groups
if matching_groups(rschema.get_groups('read')) and \
all(matching_groups(es.get_groups('read'))
for es in rschema.objects(self.e_schema)):
yield rschema, 'subject'
def to_complete_attributes(self, skip_bytes=True):
for rschema, attrschema in self.e_schema.attribute_definitions():
# skip binary data by default
if skip_bytes and attrschema.type == 'Bytes':
continue
attr = rschema.type
if attr == 'eid':
continue
# password retreival is blocked at the repository server level
if not self.req.user.matching_groups(rschema.get_groups('read')) \
or attrschema.type == 'Password':
self[attr] = None
continue
yield attr
def complete(self, attributes=None, skip_bytes=True):
"""complete this entity by adding missing attributes (i.e. query the
repository to fill the entity)
:type skip_bytes: bool
:param skip_bytes:
if true, attribute of type Bytes won't be considered
"""
assert self.has_eid()
varmaker = rqlvar_maker()
V = varmaker.next()
rql = ['WHERE %s eid %%(x)s' % V]
selected = []
for attr in (attributes or self.to_complete_attributes(skip_bytes)):
# if attribute already in entity, nothing to do
if self.has_key(attr):
continue
# case where attribute must be completed, but is not yet in entity
var = varmaker.next()
rql.append('%s %s %s' % (V, attr, var))
selected.append((attr, var))
# +1 since this doen't include the main variable
lastattr = len(selected) + 1
if attributes is None:
# fetch additional relations (restricted to 0..1 relations)
for rschema, role in self.to_complete_relations():
rtype = rschema.type
if self.relation_cached(rtype, role):
continue
var = varmaker.next()
if role == 'subject':
targettype = rschema.objects(self.e_schema)[0]
card = rschema.rproperty(self.e_schema, targettype,
'cardinality')[0]
if card == '1':
rql.append('%s %s %s' % (V, rtype, var))
else: # '?"
rql.append('%s %s %s?' % (V, rtype, var))
else:
targettype = rschema.subjects(self.e_schema)[1]
card = rschema.rproperty(self.e_schema, targettype,
'cardinality')[1]
if card == '1':
rql.append('%s %s %s' % (var, rtype, V))
else: # '?"
rql.append('%s? %s %s' % (var, rtype, V))
assert card in '1?', '%s %s %s %s' % (self.e_schema, rtype,
role, card)
selected.append(((rtype, role), var))
if selected:
# select V, we need it as the left most selected variable
# if some outer join are included to fetch inlined relations
rql = 'Any %s,%s %s' % (V, ','.join(var for attr, var in selected),
','.join(rql))
execute = getattr(self.req, 'unsafe_execute', self.req.execute)
rset = execute(rql, {'x': self.eid}, 'x', build_descr=False)[0]
# handle attributes
for i in xrange(1, lastattr):
self[str(selected[i-1][0])] = rset[i]
# handle relations
for i in xrange(lastattr, len(rset)):
rtype, role = selected[i-1][0]
value = rset[i]
if value is None:
rrset = ResultSet([], rql, {'x': self.eid})
self.req.decorate_rset(rrset)
else:
rrset = self.req.eid_rset(value)
self.set_related_cache(rtype, role, rrset)
def get_value(self, name):
"""get value for the attribute relation <name>, query the repository
to get the value if necessary.
:type name: str
:param name: name of the attribute to get
"""
try:
value = self[name]
except KeyError:
if not self.is_saved():
return None
rql = "Any A WHERE X eid %%(x)s, X %s A" % name
# XXX should we really use unsafe_execute here? I think so (syt),
# see #344874
execute = getattr(self.req, 'unsafe_execute', self.req.execute)
try:
rset = execute(rql, {'x': self.eid}, 'x')
except Unauthorized:
self[name] = value = None
else:
assert rset.rowcount <= 1, (self, rql, rset.rowcount)
try:
self[name] = value = rset.rows[0][0]
except IndexError:
# probably a multisource error
self.critical("can't get value for attribute %s of entity with eid %s",
name, self.eid)
if self.e_schema.destination(name) == 'String':
# XXX (syt) imo emtpy string is better
self[name] = value = self.req._('unaccessible')
else:
self[name] = value = None
return value
def related(self, rtype, role='subject', limit=None, entities=False):
"""returns a resultset of related entities
:param role: is the role played by 'self' in the relation ('subject' or 'object')
:param limit: resultset's maximum size
:param entities: if True, the entites are returned; if False, a result set is returned
"""
try:
return self.related_cache(rtype, role, entities, limit)
except KeyError:
pass
assert self.has_eid()
rql = self.related_rql(rtype, role)
# XXX should we really use unsafe_execute here? I think so (syt),
# see #344874
execute = getattr(self.req, 'unsafe_execute', self.req.execute)
rset = execute(rql, {'x': self.eid}, 'x')
self.set_related_cache(rtype, role, rset)
return self.related(rtype, role, limit, entities)
def related_rql(self, rtype, role='subject', targettypes=None):
rschema = self.schema[rtype]
if role == 'subject':
restriction = 'E eid %%(x)s, E %s X' % rtype
if targettypes is None:
targettypes = rschema.objects(self.e_schema)
else:
restriction += ', X is IN (%s)' % ','.join(targettypes)
card = greater_card(rschema, (self.e_schema,), targettypes, 0)
else:
restriction = 'E eid %%(x)s, X %s E' % rtype
if targettypes is None:
targettypes = rschema.subjects(self.e_schema)
else:
restriction += ', X is IN (%s)' % ','.join(targettypes)
card = greater_card(rschema, targettypes, (self.e_schema,), 1)
if len(targettypes) > 1:
fetchattrs_list = []
for ttype in targettypes:
etypecls = self.vreg['etypes'].etype_class(ttype)
fetchattrs_list.append(set(etypecls.fetch_attrs))
fetchattrs = reduce(set.intersection, fetchattrs_list)
rql = etypecls.fetch_rql(self.req.user, [restriction], fetchattrs,
settype=False)
else:
etypecls = self.vreg['etypes'].etype_class(targettypes[0])
rql = etypecls.fetch_rql(self.req.user, [restriction], settype=False)
# optimisation: remove ORDERBY if cardinality is 1 or ? (though
# greater_card return 1 for those both cases)
if card == '1':
if ' ORDERBY ' in rql:
rql = '%s WHERE %s' % (rql.split(' ORDERBY ', 1)[0],
rql.split(' WHERE ', 1)[1])
elif not ' ORDERBY ' in rql:
args = tuple(rql.split(' WHERE ', 1))
rql = '%s ORDERBY Z DESC WHERE X modification_date Z, %s' % args
return rql
# generic vocabulary methods ##############################################
def unrelated_rql(self, rtype, targettype, role, ordermethod=None,
vocabconstraints=True):
"""build a rql to fetch `targettype` entities unrelated to this entity
using (rtype, role) relation.
Consider relation permissions so that returned entities may be actually
linked by `rtype`.
"""
ordermethod = ordermethod or 'fetch_unrelated_order'
if isinstance(rtype, basestring):
rtype = self.schema.rschema(rtype)
if role == 'subject':
evar, searchedvar = 'S', 'O'
subjtype, objtype = self.e_schema, targettype
else:
searchedvar, evar = 'S', 'O'
objtype, subjtype = self.e_schema, targettype
if self.has_eid():
restriction = ['NOT S %s O' % rtype, '%s eid %%(x)s' % evar]
args = {'x': self.eid}
if role == 'subject':
securitycheck_args = {'fromeid': self.eid}
else:
securitycheck_args = {'toeid': self.eid}
else:
restriction = []
args = {}
securitycheck_args = {}
insertsecurity = (rtype.has_local_role('add') and not
rtype.has_perm(self.req, 'add', **securitycheck_args))
constraints = rtype.rproperty(subjtype, objtype, 'constraints')
# XXX consider constraint.mainvars to check if constraint apply
if vocabconstraints:
# RQLConstraint is a subclass for RQLVocabularyConstraint, so they
# will be included as well
restriction += [cstr.restriction for cstr in constraints
if isinstance(cstr, RQLVocabularyConstraint)]
else:
restriction += [cstr.restriction for cstr in constraints
if isinstance(cstr, RQLConstraint)]
etypecls = self.vreg['etypes'].etype_class(targettype)
rql = etypecls.fetch_rql(self.req.user, restriction,
mainvar=searchedvar, ordermethod=ordermethod)
# ensure we have an order defined
if not ' ORDERBY ' in rql:
before, after = rql.split(' WHERE ', 1)
rql = '%s ORDERBY %s WHERE %s' % (before, searchedvar, after)
if insertsecurity:
rqlexprs = rtype.get_rqlexprs('add')
rewriter = RQLRewriter(self.req)
rqlst = self.req.vreg.parse(self.req, rql, args)
if not self.has_eid():
existant = searchedvar
else:
existant = None # instead of 'SO', improve perfs
for select in rqlst.children:
rewriter.rewrite(select, [((searchedvar, searchedvar), rqlexprs)],
select.solutions, args, existant)
rql = rqlst.as_string()
return rql, args
def unrelated(self, rtype, targettype, role='subject', limit=None,
ordermethod=None):
"""return a result set of target type objects that may be related
by a given relation, with self as subject or object
"""
try:
rql, args = self.unrelated_rql(rtype, targettype, role, ordermethod)
except Unauthorized:
return self.req.empty_rset()
if limit is not None:
before, after = rql.split(' WHERE ', 1)
rql = '%s LIMIT %s WHERE %s' % (before, limit, after)
return self.req.execute(rql, args, tuple(args))
# relations cache handling ################################################
def relation_cached(self, rtype, role):
"""return true if the given relation is already cached on the instance
"""
return self._related_cache.get('%s_%s' % (rtype, role))
def related_cache(self, rtype, role, entities=True, limit=None):
"""return values for the given relation if it's cached on the instance,
else raise `KeyError`
"""
res = self._related_cache['%s_%s' % (rtype, role)][entities]
if limit is not None and limit < len(res):
if entities:
res = res[:limit]
else:
res = res.limit(limit)
return res
def set_related_cache(self, rtype, role, rset, col=0):
"""set cached values for the given relation"""
if rset:
related = tuple(rset.entities(col))
rschema = self.schema.rschema(rtype)
if role == 'subject':
rcard = rschema.rproperty(self.e_schema, related[0].e_schema,
'cardinality')[1]
target = 'object'
else:
rcard = rschema.rproperty(related[0].e_schema, self.e_schema,
'cardinality')[0]
target = 'subject'
if rcard in '?1':
for rentity in related:
rentity._related_cache['%s_%s' % (rtype, target)] = (
self.as_rset(), (self,))
else:
related = ()
self._related_cache['%s_%s' % (rtype, role)] = (rset, related)
def clear_related_cache(self, rtype=None, role=None):
"""clear cached values for the given relation or the entire cache if
no relation is given
"""
if rtype is None:
self._related_cache = {}
else:
assert role
self._related_cache.pop('%s_%s' % (rtype, role), None)
def clear_all_caches(self):
haseid = 'eid' in self
self.clear()
for rschema, _, role in self.e_schema.relation_definitions():
self.clear_related_cache(rschema.type, role)
# set eid if it was in, else we may get nasty error while editing this
# entity if it's bound to a repo session
if haseid:
self['eid'] = self.eid
# raw edition utilities ###################################################
def set_attributes(self, _cw_unsafe=False, **kwargs):
assert kwargs
relations = []
for key in kwargs:
relations.append('X %s %%(%s)s' % (key, key))
# update current local object
self.update(kwargs)
# and now update the database
kwargs['x'] = self.eid
if _cw_unsafe:
self.req.unsafe_execute(
'SET %s WHERE X eid %%(x)s' % ','.join(relations), kwargs, 'x')
else:
self.req.execute('SET %s WHERE X eid %%(x)s' % ','.join(relations),
kwargs, 'x')
def set_relations(self, _cw_unsafe=False, **kwargs):
"""add relations to the given object. To set a relation where this entity
is the object of the relation, use 'reverse_'<relation> as argument name.
Values may be an entity, a list of entity, or None (meaning that all
relations of the given type from or to this object should be deleted).
"""
if _cw_unsafe:
execute = self.req.unsafe_execute
else:
execute = self.req.execute
# XXX update cache
for attr, values in kwargs.iteritems():
if attr.startswith('reverse_'):
restr = 'Y %s X' % attr[len('reverse_'):]
else:
restr = 'X %s Y' % attr
if values is None:
execute('DELETE %s WHERE X eid %%(x)s' % restr,
{'x': self.eid}, 'x')
continue
if not isinstance(values, (tuple, list, set, frozenset)):
values = (values,)
execute('SET %s WHERE X eid %%(x)s, Y eid IN (%s)' % (
restr, ','.join(str(r.eid) for r in values)),
{'x': self.eid}, 'x')
def delete(self):
assert self.has_eid(), self.eid
self.req.execute('DELETE %s X WHERE X eid %%(x)s' % self.e_schema,
{'x': self.eid})
# server side utilities ###################################################
def set_defaults(self):
"""set default values according to the schema"""
self._default_set = set()
for attr, value in self.e_schema.defaults():
if not self.has_key(attr):
self[str(attr)] = value
self._default_set.add(attr)
def check(self, creation=False):
"""check this entity against its schema. Only final relation
are checked here, constraint on actual relations are checked in hooks
"""
# necessary since eid is handled specifically and yams require it to be
# in the dictionary
if self.req is None:
_ = unicode
else:
_ = self.req._
self.e_schema.check(self, creation=creation, _=_)
def fti_containers(self, _done=None):
if _done is None:
_done = set()
_done.add(self.eid)
containers = tuple(self.e_schema.fulltext_containers())
if containers:
yielded = False
for rschema, target in containers:
if target == 'object':
targets = getattr(self, rschema.type)
else:
targets = getattr(self, 'reverse_%s' % rschema)
for entity in targets:
if entity.eid in _done:
continue
for container in entity.fti_containers(_done):
yield container
yielded = True
if not yielded:
yield self
else:
yield self
def get_words(self):
"""used by the full text indexer to get words to index
this method should only be used on the repository side since it depends
on the indexer package
:rtype: list
:return: the list of indexable word of this entity
"""
from indexer.query_objects import tokenize
# take care to cases where we're modyfying the schema
pending = self.req.transaction_data.setdefault('pendingrdefs', set())
words = []
for rschema in self.e_schema.indexable_attributes():
if (self.e_schema, rschema) in pending:
continue
try:
value = self.printable_value(rschema, format='text/plain')
except TransformError:
continue
except:
self.exception("can't add value of %s to text index for entity %s",
rschema, self.eid)
continue
if value:
words += tokenize(value)
for rschema, role in self.e_schema.fulltext_relations():
if role == 'subject':
for entity in getattr(self, rschema.type):
words += entity.get_words()
else: # if role == 'object':
for entity in getattr(self, 'reverse_%s' % rschema.type):
words += entity.get_words()
return words
@deprecated('[3.2] see new form api')
def vocabulary(self, rtype, role='subject', limit=None):
"""vocabulary functions must return a list of couples
(label, eid) that will typically be used to fill the
edition view's combobox.
If `eid` is None in one of these couples, it should be
interpreted as a separator in case vocabulary results are grouped
"""
from logilab.common.testlib import mock_object
form = self.vreg.select('forms', 'edition', self.req, entity=self)
field = mock_object(name=rtype, role=role)
return form.form_field_vocabulary(field, limit)
# attribute and relation descriptors ##########################################
class Attribute(object):
"""descriptor that controls schema attribute access"""
def __init__(self, attrname):
assert attrname != 'eid'
self._attrname = attrname
def __get__(self, eobj, eclass):
if eobj is None:
return self
return eobj.get_value(self._attrname)
def __set__(self, eobj, value):
eobj[self._attrname] = value
if hasattr(eobj, 'edited_attributes'):
eobj.edited_attributes.add(self._attrname)
class Relation(object):
"""descriptor that controls schema relation access"""
_role = None # for pylint
def __init__(self, rschema):
self._rschema = rschema
self._rtype = rschema.type
def __get__(self, eobj, eclass):
if eobj is None:
raise AttributeError('%s cannot be only be accessed from instances'
% self._rtype)
return eobj.related(self._rtype, self._role, entities=True)
def __set__(self, eobj, value):
raise NotImplementedError
class SubjectRelation(Relation):
"""descriptor that controls schema relation access"""
_role = 'subject'
class ObjectRelation(Relation):
"""descriptor that controls schema relation access"""
_role = 'object'
from logging import getLogger
from cubicweb import set_log_methods
set_log_methods(Entity, getLogger('cubicweb.entity'))