# copyright 2003-2011 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/>.
"""
The :mod:`cubicweb.web.facet` module contains a set of abstract classes to use
as bases to build your own facets
All facet classes inherits from the :class:`AbstractFacet` class, though you'll
usually find some more handy class that do what you want.
Let's see available classes.
Classes you'll want to use
--------------------------
.. autoclass:: cubicweb.web.facet.RelationFacet
.. autoclass:: cubicweb.web.facet.RelationAttributeFacet
.. autoclass:: cubicweb.web.facet.HasRelationFacet
.. autoclass:: cubicweb.web.facet.AttributeFacet
.. autoclass:: cubicweb.web.facet.RQLPathFacet
.. autoclass:: cubicweb.web.facet.RangeFacet
.. autoclass:: cubicweb.web.facet.DateRangeFacet
Classes for facets implementor
------------------------------
Unless you didn't find the class that does the job you want above, you may want
to skip those classes...
.. autoclass:: cubicweb.web.facet.AbstractFacet
.. autoclass:: cubicweb.web.facet.VocabularyFacet
.. comment: XXX widgets
"""
__docformat__ = "restructuredtext en"
_ = unicode
from warnings import warn
from copy import deepcopy
from datetime import date, datetime, timedelta
from logilab.mtconverter import xml_escape
from logilab.common.graph import has_path
from logilab.common.decorators import cached
from logilab.common.date import datetime2ticks, ustrftime, ticks2datetime
from logilab.common.compat import all
from logilab.common.deprecation import deprecated
from rql import parse, nodes, utils
from cubicweb import Unauthorized, typed_eid
from cubicweb.schema import display_name
from cubicweb.utils import make_uid
from cubicweb.selectors import match_context_prop, partial_relation_possible, yes
from cubicweb.appobject import AppObject
from cubicweb.web import RequestError, htmlwidgets
def rtype_facet_title(facet):
ptypes = facet.cw_rset.column_types(0)
if len(ptypes) == 1:
return display_name(facet._cw, facet.rtype, form=facet.role,
context=iter(ptypes).next())
return display_name(facet._cw, facet.rtype, form=facet.role)
def get_facet(req, facetid, select, filtered_variable):
return req.vreg['facets'].object_by_id(facetid, req, select=select,
filtered_variable=filtered_variable)
@deprecated('[3.13] filter_hiddens moved to cubicweb.web.views.facets with '
'slightly modified prototype')
def filter_hiddens(w, baserql, **kwargs):
from cubicweb.web.views.facets import filter_hiddens
return filter_hiddens(w, baserql, wdgs=kwargs.pop('facets'), **kwargs)
## rqlst manipulation functions used by facets ################################
def init_facets(rset, select, mainvar=None):
"""Alters in place the <select> for filtering and returns related data.
Calls :func:`prepare_select` to prepare the syntaxtree for selection and
:func:`get_filtered_variable` that selects the variable to be filtered and
drops several parts of the select tree. See each function docstring for
details.
:param rset: ResultSet we init facet for.
:type rset: :class:`~cubicweb.rset.ResultSet`
:param select: Select statement to be *altered* to support filtering.
:type select: :class:`~rql.stmts.Select` from the ``rset`` parameters.
:param mainvar: Name of the variable we want to filter with facets.
:type mainvar: string
:rtype: (filtered_variable, baserql) tuple.
:return filtered_variable: A rql class:`~rql.node.VariableRef`
instance as returned by
:func:`get_filtered_variable`.
:return baserql: A string containing the rql before
:func:`prepare_select` but after
:func:`get_filtered_variable`.
"""
rset.req.vreg.rqlhelper.annotate(select)
filtered_variable = get_filtered_variable(select, mainvar)
baserql = select.as_string(kwargs=rset.args) # before call to prepare_select
prepare_select(select, filtered_variable)
return filtered_variable, baserql
def get_filtered_variable(select, mainvar=None):
"""drop any limit/offset from select (in-place modification) and return the
variable whose name is `mainvar` or the first variable selected in column 0
"""
select.set_limit(None)
select.set_offset(None)
if mainvar is None:
vref = select.selection[0].iget_nodes(nodes.VariableRef).next()
return vref.variable
return select.defined_vars[mainvar]
def prepare_select(select, filtered_variable):
"""prepare a syntax tree to generate facet filters
* remove ORDERBY/GROUPBY clauses
* cleanup selection (remove everything)
* undefine unnecessary variables
* set DISTINCT
Notice unset of LIMIT/OFFSET us expected to be done by a previous call to
:func:`get_filtered_variable`.
"""
# cleanup sort terms / group by
select.remove_sort_terms()
select.remove_groups()
# XXX remove aggregat from having
# selection: only vocabulary entity
for term in select.selection[:]:
select.remove_selected(term)
# remove unbound variables which only have some type restriction
for dvar in select.defined_vars.values():
if not (dvar is filtered_variable or dvar.stinfo['relations']):
select.undefine_variable(dvar)
# global tree config: DISTINCT, LIMIT, OFFSET
select.set_distinct(True)
@deprecated('[3.13] use init_facets instead')
def prepare_facets_rqlst(rqlst, args=None):
assert len(rqlst.children) == 1, 'FIXME: union not yet supported'
select = rqlst.children[0]
filtered_variable = get_filtered_variable(select)
baserql = select.as_string(args)
prepare_select(select, filtered_variable)
return filtered_variable, baserql
def prepare_vocabulary_select(select, filtered_variable, rtype, role,
select_target_entity=True):
"""prepare a syntax tree to generate a filter vocabulary rql using the given
relation:
* create a variable to filter on this relation
* add the relation
* add the new variable to GROUPBY clause if necessary
* add the new variable to the selection
"""
newvar = _add_rtype_relation(select, filtered_variable, rtype, role)[0]
if select_target_entity:
# if select.groupby: XXX we remove groupby now
# select.add_group_var(newvar)
select.add_selected(newvar)
# add is restriction if necessary
if filtered_variable.stinfo['typerel'] is None:
etypes = frozenset(sol[filtered_variable.name] for sol in select.solutions)
select.add_type_restriction(filtered_variable, etypes)
return newvar
def insert_attr_select_relation(select, filtered_variable, rtype, role, attrname,
sortfuncname=None, sortasc=True,
select_target_entity=True):
"""modify a syntax tree to :
* link a new variable to `filtered_variable` through `rtype` (where filtered_variable has `role`)
* retrieve only the newly inserted variable and its `attrname`
Sorting:
* on `attrname` ascendant (`sortasc`=True) or descendant (`sortasc`=False)
* on `sortfuncname`(`attrname`) if `sortfuncname` is specified
* no sort if `sortasc` is None
"""
cleanup_select(select, filtered_variable)
var = prepare_vocabulary_select(select, filtered_variable, rtype, role,
select_target_entity)
attrvar = select.make_variable()
select.add_relation(var, attrname, attrvar)
# if query is grouped, we have to add the attribute variable
#if select.groupby: XXX may not occur anymore
# if not attrvar in select.groupby:
# select.add_group_var(attrvar)
if sortasc is not None:
_set_orderby(select, attrvar, sortasc, sortfuncname)
# add attribute variable to selection
select.add_selected(attrvar)
return var
def cleanup_select(select, filtered_variable):
"""cleanup tree from unnecessary restrictions:
* attribute selection
* optional relations linked to the main variable
* mandatory relations linked to the main variable
"""
if select.where is None:
return
schema = select.root.schema
toremove = set()
vargraph = deepcopy(select.vargraph) # graph representing links between variable
for rel in select.where.get_nodes(nodes.Relation):
ovar = _may_be_removed(rel, schema, filtered_variable)
if ovar is not None:
toremove.add(ovar)
removed = set()
while toremove:
trvar = toremove.pop()
trvarname = trvar.name
# remove paths using this variable from the graph
linkedvars = vargraph.pop(trvarname)
for ovarname in linkedvars:
vargraph[ovarname].remove(trvarname)
# remove relation using this variable
for rel in trvar.stinfo['relations']:
if rel in removed:
# already removed
continue
select.remove_node(rel)
removed.add(rel)
rel = trvar.stinfo['typerel']
if rel is not None and not rel in removed:
select.remove_node(rel)
removed.add(rel)
# cleanup groupby clause
if select.groupby:
for vref in select.groupby[:]:
if vref.name == trvarname:
select.remove_group_var(vref)
# we can also remove all variables which are linked to this variable
# and have no path to the main variable
for ovarname in linkedvars:
if ovarname == filtered_variable.name:
continue
if not has_path(vargraph, ovarname, filtered_variable.name):
toremove.add(select.defined_vars[ovarname])
def _may_be_removed(rel, schema, variable):
"""if the given relation may be removed from the tree, return the variable
on the other side of `variable`, else return None
Conditions:
* the relation is an attribute selection of the main variable
* the relation is optional relation linked to the main variable
* the relation is a mandatory relation linked to the main variable
without any restriction on the other variable
"""
lhs, rhs = rel.get_variable_parts()
rschema = schema.rschema(rel.r_type)
if lhs.variable is variable:
try:
ovar = rhs.variable
except AttributeError:
# constant restriction
# XXX: X title LOWER(T) if it makes sense?
return None
if rschema.final:
if len(ovar.stinfo['relations']) == 1 \
and not ovar.stinfo.get('having'):
# attribute selection
return ovar
return None
opt = 'right'
cardidx = 0
elif getattr(rhs, 'variable', None) is variable:
ovar = lhs.variable
opt = 'left'
cardidx = 1
else:
# not directly linked to the main variable
return None
if rel.optional in (opt, 'both'):
# optional relation
return ovar
if all(rdef.cardinality[cardidx] in '1+'
for rdef in rschema.rdefs.values()):
# mandatory relation without any restriction on the other variable
for orel in ovar.stinfo['relations']:
if rel is orel:
continue
if _may_be_removed(orel, schema, ovar) is None:
return None
return ovar
return None
def _make_relation(select, variable, rtype, role):
newvar = select.make_variable()
if role == 'object':
rel = nodes.make_relation(newvar, rtype, (variable,), nodes.VariableRef)
else:
rel = nodes.make_relation(variable, rtype, (newvar,), nodes.VariableRef)
return newvar, rel
def _add_rtype_relation(select, variable, rtype, role):
"""add a relation relying `variable` to entities linked by the `rtype`
relation (where `variable` has `role`)
return the inserted variable for linked entities.
"""
newvar, newrel = _make_relation(select, variable, rtype, role)
select.add_restriction(newrel)
return newvar, newrel
def _remove_relation(select, rel, var):
"""remove a constraint relation from the syntax tree"""
# remove the relation
select.remove_node(rel)
# remove relations where the filtered variable appears on the
# lhs and rhs is a constant restriction
extra = []
for vrel in var.stinfo['relations']:
if vrel is rel:
continue
if vrel.children[0].variable is var:
if not vrel.children[1].get_nodes(nodes.Constant):
extra.append(vrel)
select.remove_node(vrel)
return extra
def _set_orderby(select, newvar, sortasc, sortfuncname):
if sortfuncname is None:
select.add_sort_var(newvar, sortasc)
else:
vref = nodes.variable_ref(newvar)
vref.register_reference()
sortfunc = nodes.Function(sortfuncname)
sortfunc.append(vref)
term = nodes.SortTerm(sortfunc, sortasc)
select.add_sort_term(term)
def _get_var(select, varname, varmap):
try:
return varmap[varname]
except KeyError:
varmap[varname] = var = select.make_variable()
return var
_prepare_vocabulary_rqlst = deprecated('[3.13] renamed prepare_vocabulary_select')(
prepare_vocabulary_select)
_cleanup_rqlst = deprecated('[3.13] renamed to cleanup_select')(cleanup_select)
## base facet classes ##########################################################
class AbstractFacet(AppObject):
"""Abstract base class for all facets. Facets are stored in their own
'facets' registry. They are similar to contextual components since the use
the following configurable properties:
* `visible`, boolean flag telling if a facet should be displayed or not
* `order`, integer to control facets display order
* `context`, telling if a facet should be displayed in the table form filter
(context = 'tablefilter') or in the facet box (context = 'facetbox') or in
both (context = '')
The following methods define the facet API:
.. automethod:: cubicweb.web.facet.AbstractFacet.get_widget
.. automethod:: cubicweb.web.facet.AbstractFacet.add_rql_restrictions
Facets will have the following attributes set (beside the standard
:class:`~cubicweb.appobject.AppObject` ones):
* `select`, the :class:`rql.stmts.Select` node of the rql syntax tree being
filtered
* `filtered_variable`, the variable node in this rql syntax tree that we're
interested in filtering
Facets implementors may also be interested in the following properties /
methods:
.. autoattribute:: cubicweb.web.facet.AbstractFacet.operator
.. automethod:: cubicweb.web.facet.AbstractFacet.rqlexec
"""
__abstract__ = True
__registry__ = 'facets'
cw_property_defs = {
_('visible'): dict(type='Boolean', default=True,
help=_('display the facet or not')),
_('order'): dict(type='Int', default=99,
help=_('display order of the facet')),
_('context'): dict(type='String', default='',
# None <-> both
vocabulary=(_('tablefilter'), _('facetbox'), ''),
help=_('context where this facet should be displayed, '
'leave empty for both')),
}
visible = True
context = ''
needs_update = False
start_unfolded = True
cw_rset = None # ensure facets have a cw_rset attribute
def __init__(self, req, select=None, filtered_variable=None,
**kwargs):
super(AbstractFacet, self).__init__(req, **kwargs)
assert select is not None
assert filtered_variable
# take care: facet may be retreived using `object_by_id` from an ajax call
# or from `select` using the result set to filter
self.select = select
self.filtered_variable = filtered_variable
def __repr__(self):
return '<%s>' % self.__class__.__name__
def get_widget(self):
"""Return the widget instance to use to display this facet, or None if
the facet can't do anything valuable (only one value in the vocabulary
for instance).
"""
raise NotImplementedError
def add_rql_restrictions(self):
"""When some facet criteria has been updated, this method is called to
add restriction for this facet into the rql syntax tree. It should get
back its value in form parameters, and modify the syntax tree
(`self.select`) accordingly.
"""
raise NotImplementedError
@property
def operator(self):
"""Return the operator (AND or OR) to use for this facet when multiple
values are selected.
"""
# OR between selected values by default
return self._cw.form.get(xml_escape(self.__regid__) + '_andor', 'OR')
def rqlexec(self, rql, args=None):
"""Utility method to execute some rql queries, and simply returning an
empty list if :exc:`Unauthorized` is raised.
"""
try:
return self._cw.execute(rql, args)
except Unauthorized:
return []
@property
def wdgclass(self):
raise NotImplementedError
@property
@deprecated('[3.13] renamed .select')
def rqlst(self):
return self.select
class VocabularyFacet(AbstractFacet):
"""This abstract class extend :class:`AbstractFacet` to use the
:class:`FacetVocabularyWidget` as widget, suitable for facets that may
restrict values according to a (usually computed) vocabulary.
A class which inherits from VocabularyFacet must define at least these methods:
.. automethod:: cubicweb.web.facet.VocabularyFacet.vocabulary
.. automethod:: cubicweb.web.facet.VocabularyFacet.possible_values
"""
needs_update = True
support_and = False
@property
def wdgclass(self):
return FacetVocabularyWidget
def get_widget(self):
"""Return the widget instance to use to display this facet.
This implementation expects a .vocabulary method on the facet and
return a combobox displaying this vocabulary.
"""
vocab = self.vocabulary()
if len(vocab) <= 1:
return None
wdg = self.wdgclass(self)
selected = frozenset(typed_eid(eid) for eid in self._cw.list_form_param(self.__regid__))
for label, value in vocab:
if value is None:
wdg.append(FacetSeparator(label))
else:
wdg.append(FacetItem(self._cw, label, value, value in selected))
return wdg
def vocabulary(self):
"""Return vocabulary for this facet, eg a list of 2-uple (label, value).
"""
raise NotImplementedError
def possible_values(self):
"""Return a list of possible values (as string since it's used to
compare to a form value in javascript) for this facet.
"""
raise NotImplementedError
class RelationFacet(VocabularyFacet):
"""Base facet to filter some entities according to other entities to which
they are related. Create concrete facet by inheriting from this class an then
configuring it by setting class attribute described below.
The relation is defined by the `rtype` and `role` attributes.
The `no_relation` boolean flag tells if a special 'no relation' value should be
added (allowing to filter on entities which *do not* have the relation set).
Default is computed according the relation's cardinality.
The values displayed for related entities will be:
* result of calling their `label_vid` view if specified
* else their `target_attr` attribute value if specified
* else their eid (you usually want something nicer...)
When no `label_vid` is set, you will get translated value if `i18nable` is
set. By default, `i18nable` will be set according to the schema, but you can
force its value by setting it has a class attribute.
You can filter out target entity types by specifying `target_type`.
By default, vocabulary will be displayed sorted on `target_attr` value in an
ascending way. You can control sorting with:
* `sortfunc`: set this to a stored procedure name if you want to sort on the
result of this function's result instead of direct value
* `sortasc`: boolean flag to control ascendant/descendant sorting
To illustrate this facet, let's take for example an *excerpt* of the schema
of an office location search application:
.. sourcecode:: python
class Office(WorkflowableEntityType):
price = Int(description='euros / m2 / HC / HT')
surface = Int(description='m2')
has_address = SubjectRelation('PostalAddress',
cardinality='1?',
composite='subject')
proposed_by = SubjectRelation('Agency')
We can simply define a facet to filter offices according to the agency
proposing it:
.. sourcecode:: python
class AgencyFacet(RelationFacet):
__regid__ = 'agency'
# this facet should only be selected when visualizing offices
__select__ = RelationFacet.__select__ & is_instance('Office')
# this facet is a filter on the 'Agency' entities linked to the office
# through the 'proposed_by' relation, where the office is the subject
# of the relation
rtype = 'has_address'
# 'subject' is the default but setting it explicitly doesn't hurt...
role = 'subject'
# we want to display the agency's name
target_attr = 'name'
"""
__select__ = partial_relation_possible() & match_context_prop()
# class attributes to configure the relation facet
rtype = None
role = 'subject'
target_type = None
target_attr = 'eid'
# for subclasses parametrization, should not change if you want a
# RelationFacet
target_attr_type = 'Int'
restr_attr = 'eid'
restr_attr_type = 'Int'
comparator = '=' # could be '<', '<=', '>', '>='
# set this to a stored procedure name if you want to sort on the result of
# this function's result instead of direct value
sortfunc = None
# ascendant/descendant sorting
sortasc = True
# if you want to call a view on the entity instead of using `target_attr`
label_vid = None
# internal purpose
_select_target_entity = True
title = property(rtype_facet_title)
no_relation_label = _('<no relation>')
def __repr__(self):
return '<%s on (%s-%s)>' % (self.__class__.__name__, self.rtype, self.role)
# facet public API #########################################################
def vocabulary(self):
"""return vocabulary for this facet, eg a list of 2-uple (label, value)
"""
select = self.select
select.save_state()
if self.rql_sort:
sort = self.sortasc
else:
sort = None # will be sorted on label
try:
var = insert_attr_select_relation(
select, self.filtered_variable, self.rtype, self.role,
self.target_attr, self.sortfunc, sort,
self._select_target_entity)
if self.target_type is not None:
select.add_type_restriction(var, self.target_type)
try:
rset = self.rqlexec(select.as_string(), self.cw_rset.args)
except Exception:
self.exception('error while getting vocabulary for %s, rql: %s',
self, select.as_string())
return ()
finally:
select.recover()
# don't call rset_vocabulary on empty result set, it may be an empty
# *list* (see rqlexec implementation)
values = rset and self.rset_vocabulary(rset) or []
if self._include_no_relation():
values.insert(0, (self._cw._(self.no_relation_label), ''))
return values
def possible_values(self):
"""return a list of possible values (as string since it's used to
compare to a form value in javascript) for this facet
"""
select = self.select
select.save_state()
try:
cleanup_select(select, self.filtered_variable)
if self._select_target_entity:
prepare_vocabulary_select(select, self.filtered_variable, self.rtype,
self.role, select_target_entity=True)
else:
insert_attr_select_relation(
select, self.filtered_variable, self.rtype, self.role,
self.target_attr, select_target_entity=False)
values = [unicode(x) for x, in self.rqlexec(select.as_string())]
except Exception:
self.exception('while computing values for %s', self)
return []
finally:
select.recover()
if self._include_no_relation():
values.append('')
return values
def add_rql_restrictions(self):
"""add restriction for this facet into the rql syntax tree"""
value = self._cw.form.get(self.__regid__)
if value is None:
return
filtered_variable = self.filtered_variable
restrvar, rel = _add_rtype_relation(self.select, filtered_variable,
self.rtype, self.role)
self.value_restriction(restrvar, rel, value)
# internal control API #####################################################
@property
def i18nable(self):
"""should label be internationalized"""
if self.target_type:
eschema = self._cw.vreg.schema.eschema(self.target_type)
elif self.role == 'subject':
eschema = self._cw.vreg.schema.rschema(self.rtype).objects()[0]
else:
eschema = self._cw.vreg.schema.rschema(self.rtype).subjects()[0]
return getattr(eschema.rdef(self.target_attr), 'internationalizable', False)
@property
def no_relation(self):
return (not self._cw.vreg.schema.rschema(self.rtype).final
and self._search_card('?*'))
@property
def rql_sort(self):
"""return true if we can handle sorting in the rql query. E.g. if
sortfunc is set or if we have not to transform the returned value (eg no
label_vid and not i18nable)
"""
return self.sortfunc is not None or (self.label_vid is None
and not self.i18nable)
def rset_vocabulary(self, rset):
if self.i18nable:
_ = self._cw._
else:
_ = unicode
if self.rql_sort:
values = [(_(label), eid) for eid, label in rset]
else:
if self.label_vid is None:
values = [(_(label), eid) for eid, label in rset]
else:
values = [(entity.view(self.label_vid), entity.eid)
for entity in rset.entities()]
values = sorted(values)
if not self.sortasc:
values = list(reversed(values))
return values
@property
def support_and(self):
return self._search_card('+*')
# internal utilities #######################################################
def _support_and_compat(self):
support = self.support_and
if callable(support):
warn('[3.13] %s.support_and is now a property' % self.__class__,
DeprecationWarning)
support = support()
return support
def value_restriction(self, restrvar, rel, value):
# XXX handle rel is None case in RQLPathFacet?
if self.restr_attr != 'eid':
self.select.set_distinct(True)
if isinstance(value, basestring):
# only one value selected
if value:
self.select.add_constant_restriction(
restrvar, self.restr_attr, value,
self.restr_attr_type)
else:
rel.parent.replace(rel, nodes.Not(rel))
elif self.operator == 'OR':
# set_distinct only if rtype cardinality is > 1
if self._support_and_compat():
self.select.set_distinct(True)
# multiple ORed values: using IN is fine
if '' in value:
value.remove('')
self._add_not_rel_restr(rel)
self._and_restriction(rel, restrvar, value)
else:
# multiple values with AND operator. We've to generate a query like
# "X relation A, A eid 1, X relation B, B eid 1", hence the new
# relations at each iteration in the while loop below
if '' in value:
raise RequestError("this doesn't make sense")
self._and_restriction(rel, restrvar, value.pop())
while value:
restrvar, rtrel = _make_relation(self.select, self.filtered_variable,
self.rtype, self.role)
if rel is None:
self.select.add_restriction(rtrel)
else:
rel.parent.replace(rel, nodes.And(rel, rtrel))
self._and_restriction(rel, restrvar, value.pop())
def _and_restriction(self, rel, restrvar, value):
if rel is None:
self.select.add_constant_restriction(restrvar, self.restr_attr,
value, self.restr_attr_type)
else:
rrel = nodes.make_constant_restriction(restrvar, self.restr_attr,
value, self.restr_attr_type)
rel.parent.replace(rel, nodes.And(rel, rrel))
@cached
def _search_card(self, cards):
for rdef in self._iter_rdefs():
if rdef.role_cardinality(self.role) in cards:
return True
return False
def _iter_rdefs(self):
rschema = self._cw.vreg.schema.rschema(self.rtype)
# XXX when called via ajax, no rset to compute possible types
possibletypes = self.cw_rset and self.cw_rset.column_types(0)
for rdef in rschema.rdefs.itervalues():
if possibletypes is not None:
if self.role == 'subject':
if rdef.subject not in possibletypes:
continue
elif rdef.object not in possibletypes:
continue
if self.target_type is not None:
if self.role == 'subject':
if rdef.object != self.target_type:
continue
elif rdef.subject != self.target_type:
continue
yield rdef
def _include_no_relation(self):
if not self.no_relation:
return False
if self._cw.vreg.schema.rschema(self.rtype).final:
return False
if self.role == 'object':
subj = utils.rqlvar_maker(defined=self.select.defined_vars,
aliases=self.select.aliases).next()
obj = self.filtered_variable.name
else:
subj = self.filtered_variable.name
obj = utils.rqlvar_maker(defined=self.select.defined_vars,
aliases=self.select.aliases).next()
restrictions = []
if self.select.where:
restrictions.append(self.select.where.as_string())
if self.select.with_:
restrictions.append('WITH ' + ','.join(
term.as_string() for term in self.select.with_))
if restrictions:
restrictions = ',' + ','.join(restrictions)
else:
restrictions = ''
rql = 'Any %s LIMIT 1 WHERE NOT %s %s %s%s' % (
self.filtered_variable.name, subj, self.rtype, obj, restrictions)
try:
return bool(self.rqlexec(rql, self.cw_rset and self.cw_rset.args))
except Exception:
# catch exception on executing rql, work-around #1356884 until a
# proper fix
self.exception('cant handle rql generated by %s', self)
return False
def _add_not_rel_restr(self, rel):
nrrel = nodes.Not(_make_relation(self.select, self.filtered_variable,
self.rtype, self.role)[1])
rel.parent.replace(rel, nodes.Or(nrrel, rel))
class RelationAttributeFacet(RelationFacet):
"""Base facet to filter some entities according to an attribute of other
entities to which they are related. Most things work similarly as
:class:`RelationFacet`, except that:
* `label_vid` doesn't make sense here
* you should specify the attribute type using `target_attr_type` if it's not a
String
* you can specify a comparison operator using `comparator`
Back to our example... if you want to search office by postal code and that
you use a :class:`RelationFacet` for that, you won't get the expected
behaviour: if two offices have the same postal code, they've however two
different addresses. So you'll see in the facet the same postal code twice,
though linked to a different address entity. There is a great chance your
users won't understand that...
That's where this class come in ! It's used to said that you want to filter
according to the *attribute value* of a relatied entity, not to the entity
itself. Now here is the source code for the facet:
.. sourcecode:: python
class PostalCodeFacet(RelationAttributeFacet):
__regid__ = 'postalcode'
# this facet should only be selected when visualizing offices
__select__ = RelationAttributeFacet.__select__ & is_instance('Office')
# this facet is a filter on the PostalAddress entities linked to the
# office through the 'has_address' relation, where the office is the
# subject of the relation
rtype = 'has_address'
role = 'subject'
# we want to search according to address 'postal_code' attribute
target_attr = 'postalcode'
"""
_select_target_entity = False
# attribute type
target_attr_type = 'String'
# type of comparison: default is an exact match on the attribute value
comparator = '=' # could be '<', '<=', '>', '>='
@property
def restr_attr(self):
return self.target_attr
@property
def restr_attr_type(self):
return self.target_attr_type
def rset_vocabulary(self, rset):
if self.i18nable:
_ = self._cw._
else:
_ = unicode
if self.rql_sort:
return [(_(value), value) for value, in rset]
values = [(_(value), value) for value, in rset]
if self.sortasc:
return sorted(values)
return reversed(sorted(values))
class AttributeFacet(RelationAttributeFacet):
"""Base facet to filter some entities according one of their attribute.
Configuration is mostly similarly as :class:`RelationAttributeFacet`, except that:
* `target_attr` doesn't make sense here (you specify the attribute using `rtype`
* `role` neither, it's systematically 'subject'
So, suppose that in our office search example you want to refine search according
to the office's surface. Here is a code snippet achieving this:
.. sourcecode:: python
class SurfaceFacet(AttributeFacet):
__regid__ = 'surface'
__select__ = AttributeFacet.__select__ & is_instance('Office')
# this facet is a filter on the office'surface
rtype = 'surface'
# override the default value of operator since we want to filter
# according to a minimal value, not an exact one
comparator = '>='
def vocabulary(self):
'''override the default vocabulary method since we want to
hard-code our threshold values.
Not overriding would generate a filter containing all existing
surfaces defined in the database.
'''
return [('> 200', '200'), ('> 250', '250'),
('> 275', '275'), ('> 300', '300')]
"""
support_and = False
_select_target_entity = True
@property
def i18nable(self):
"""should label be internationalized"""
for rdef in self._iter_rdefs():
# no 'internationalizable' property for rdef whose object is not a
# String
if not getattr(rdef, 'internationalizable', False):
return False
return True
def vocabulary(self):
"""return vocabulary for this facet, eg a list of 2-uple (label, value)
"""
select = self.select
select.save_state()
try:
filtered_variable = self.filtered_variable
cleanup_select(select, filtered_variable)
newvar = prepare_vocabulary_select(select, filtered_variable, self.rtype, self.role)
_set_orderby(select, newvar, self.sortasc, self.sortfunc)
try:
rset = self.rqlexec(select.as_string(), self.cw_rset.args)
except Exception:
self.exception('error while getting vocabulary for %s, rql: %s',
self, select.as_string())
return ()
finally:
select.recover()
# don't call rset_vocabulary on empty result set, it may be an empty
# *list* (see rqlexec implementation)
return rset and self.rset_vocabulary(rset)
def add_rql_restrictions(self):
"""add restriction for this facet into the rql syntax tree"""
value = self._cw.form.get(self.__regid__)
if not value:
return
filtered_variable = self.filtered_variable
self.select.add_constant_restriction(filtered_variable, self.rtype, value,
self.target_attr_type, self.comparator)
class RQLPathFacet(RelationFacet):
"""Base facet to filter some entities according to an arbitrary rql
path. Path should be specified as a list of 3-uples or triplet string, where
'X' represent the filtered variable. You should specify using
`filter_variable` the snippet variable that will be used to filter out
results. You may also specify a `label_variable`. If you want to filter on
an attribute value, you usually don't want to specify the later since it's
the same as the filter variable, though you may have to specify the attribute
type using `restr_attr_type` if there are some type ambiguity in the schema
for the attribute.
Using this facet, we can rewrite facets we defined previously:
.. sourcecode:: python
class AgencyFacet(RQLPathFacet):
__regid__ = 'agency'
# this facet should only be selected when visualizing offices
__select__ = is_instance('Office')
# this facet is a filter on the 'Agency' entities linked to the office
# through the 'proposed_by' relation, where the office is the subject
# of the relation
path = ['X has_address O', 'O name N']
filter_variable = 'O'
label_variable = 'N'
class PostalCodeFacet(RQLPathFacet):
__regid__ = 'postalcode'
# this facet should only be selected when visualizing offices
__select__ = is_instance('Office')
# this facet is a filter on the PostalAddress entities linked to the
# office through the 'has_address' relation, where the office is the
# subject of the relation
path = ['X has_address O', 'O postal_code PC']
filter_variable = 'PC'
Though some features, such as 'no value' or automatic internationalization,
won't work. This facet class is designed to be used for cases where
:class:`RelationFacet` or :class:`RelationAttributeFacet` can't do the trick
(e.g when you want to filter on entities where are not directly linked to
the filtered entities).
"""
__select__ = yes() # we don't want RelationFacet's selector
# must be specified
path = None
filter_variable = None
# may be specified
label_variable = None
# usually guessed, but may be explicitly specified
restr_attr = None
restr_attr_type = None
# XXX disabled features
i18nable = False
no_relation = False
support_and = False
def __init__(self, *args, **kwargs):
super(RQLPathFacet, self).__init__(*args, **kwargs)
assert self.filter_variable != self.label_variable, \
('filter_variable and label_variable should be different. '
'You may want to let label_variable undefined (ie None).')
assert self.path and isinstance(self.path, (list, tuple)), \
'path should be a list of 3-uples, not %s' % self.path
for part in self.path:
if isinstance(part, basestring):
part = part.split()
assert len(part) == 3, \
'path should be a list of 3-uples, not %s' % part
def __repr__(self):
return '<%s %s>' % (self.__class__.__name__,
','.join(str(p) for p in self.path))
def vocabulary(self):
"""return vocabulary for this facet, eg a list of (label, value)"""
select = self.select
select.save_state()
if self.rql_sort:
sort = self.sortasc
else:
sort = None # will be sorted on label
try:
cleanup_select(select, self.filtered_variable)
varmap, restrvar = self.add_path_to_select()
select.append_selected(nodes.VariableRef(restrvar))
if self.label_variable:
attrvar = varmap[self.label_variable]
else:
attrvar = restrvar
select.append_selected(nodes.VariableRef(attrvar))
if sort is not None:
_set_orderby(select, attrvar, sort, self.sortfunc)
try:
rset = self.rqlexec(select.as_string(), self.cw_rset.args)
except Exception:
self.exception('error while getting vocabulary for %s, rql: %s',
self, select.as_string())
return ()
finally:
select.recover()
# don't call rset_vocabulary on empty result set, it may be an empty
# *list* (see rqlexec implementation)
values = rset and self.rset_vocabulary(rset) or []
if self._include_no_relation():
values.insert(0, (self._cw._(self.no_relation_label), ''))
return values
def possible_values(self):
"""return a list of possible values (as string since it's used to
compare to a form value in javascript) for this facet
"""
select = self.select
select.save_state()
try:
cleanup_select(select, self.filtered_variable)
varmap, restrvar = self.add_path_to_select(skiplabel=True)
select.append_selected(nodes.VariableRef(restrvar))
values = [unicode(x) for x, in self.rqlexec(select.as_string())]
except Exception:
self.exception('while computing values for %s', self)
return []
finally:
select.recover()
if self._include_no_relation():
values.append('')
return values
def add_rql_restrictions(self):
"""add restriction for this facet into the rql syntax tree"""
value = self._cw.form.get(self.__regid__)
if value is None:
return
varmap, restrvar = self.add_path_to_select(
skiplabel=True, skipattrfilter=True)
self.value_restriction(restrvar, None, value)
def add_path_to_select(self, skiplabel=False, skipattrfilter=False):
varmap = {'X': self.filtered_variable}
actual_filter_variable = None
for part in self.path:
if isinstance(part, basestring):
part = part.split()
subject, rtype, object = part
if skiplabel and object == self.label_variable:
continue
if object == self.filter_variable:
rschema = self._cw.vreg.schema.rschema(rtype)
if rschema.final:
# filter variable is an attribute variable
if self.restr_attr is None:
self.restr_attr = rtype
if self.restr_attr_type is None:
attrtypes = set(obj for subj,obj in rschema.rdefs)
if len(attrtypes) > 1:
raise Exception('ambigous attribute %s, specify attrtype on %s'
% (rtype, self.__class__))
self.restr_attr_type = iter(attrtypes).next()
if skipattrfilter:
actual_filter_variable = subject
continue
subjvar = _get_var(self.select, subject, varmap)
objvar = _get_var(self.select, object, varmap)
rel = nodes.make_relation(subjvar, rtype, (objvar,),
nodes.VariableRef)
self.select.add_restriction(rel)
if self.restr_attr is None:
self.restr_attr = 'eid'
if self.restr_attr_type is None:
self.restr_attr_type = 'Int'
if actual_filter_variable:
restrvar = varmap[actual_filter_variable]
else:
restrvar = varmap[self.filter_variable]
return varmap, restrvar
class RangeFacet(AttributeFacet):
"""This class allows to filter entities according to an attribute of
numerical type.
It displays a slider using `jquery`_ to choose a lower bound and an upper
bound.
The example below provides an alternative to the surface facet seen earlier,
in a more powerful way since
* lower/upper boundaries are computed according to entities to filter
* user can specify lower/upper boundaries, not only the lower one
.. sourcecode:: python
class SurfaceFacet(RangeFacet):
__regid__ = 'surface'
__select__ = RangeFacet.__select__ & is_instance('Office')
# this facet is a filter on the office'surface
rtype = 'surface'
All this with even less code!
The image below display the rendering of the slider:
.. image:: ../images/facet_range.png
.. _jquery: http://www.jqueryui.com/
"""
target_attr_type = 'Float' # only numerical types are supported
needs_update = False # not supported actually
@property
def wdgclass(self):
return FacetRangeWidget
def _range_rset(self):
select = self.select
select.save_state()
try:
filtered_variable = self.filtered_variable
cleanup_select(select, filtered_variable)
newvar = _add_rtype_relation(select, filtered_variable, self.rtype, self.role)[0]
minf = nodes.Function('MIN')
minf.append(nodes.VariableRef(newvar))
select.add_selected(minf)
maxf = nodes.Function('MAX')
maxf.append(nodes.VariableRef(newvar))
select.add_selected(maxf)
# add is restriction if necessary
if filtered_variable.stinfo['typerel'] is None:
etypes = frozenset(sol[filtered_variable.name] for sol in select.solutions)
select.add_type_restriction(filtered_variable, etypes)
try:
return self.rqlexec(select.as_string(), self.cw_rset.args)
except Exception:
self.exception('error while getting vocabulary for %s, rql: %s',
self, select.as_string())
return ()
finally:
select.recover()
def vocabulary(self):
"""return vocabulary for this facet, eg a list of 2-uple (label, value)
"""
rset = self._range_rset()
if rset:
minv, maxv = rset[0]
return [(unicode(minv), minv), (unicode(maxv), maxv)]
return []
def possible_values(self):
"""Return a list of possible values (as string since it's used to
compare to a form value in javascript) for this facet.
"""
return [strval for strval, val in self.vocabulary()]
def get_widget(self):
"""return the widget instance to use to display this facet"""
values = set(value for _, value in self.vocabulary() if value is not None)
# Rset with entities (the facet is selected) but without values
if len(values) < 2:
return None
return self.wdgclass(self, min(values), max(values))
def formatvalue(self, value):
"""format `value` before in order to insert it in the RQL query"""
return unicode(value)
def infvalue(self, min=False):
if min:
return self._cw.form.get('min_%s_inf' % self.__regid__)
return self._cw.form.get('%s_inf' % self.__regid__)
def supvalue(self, max=False):
if max:
return self._cw.form.get('max_%s_sup' % self.__regid__)
return self._cw.form.get('%s_sup' % self.__regid__)
def add_rql_restrictions(self):
infvalue = self.infvalue()
supvalue = self.supvalue()
if infvalue is None or supvalue is None: # nothing sent
return
# when a value is equal to one of the limit, don't add the restriction,
# else we filter out NULL values implicitly
if infvalue != self.infvalue(min=True):
self._add_restriction(infvalue, '>=')
if supvalue != self.supvalue(max=True):
self._add_restriction(supvalue, '<=')
def _add_restriction(self, value, operator):
self.select.add_constant_restriction(self.filtered_variable,
self.rtype,
self.formatvalue(value),
self.target_attr_type, operator)
class DateRangeFacet(RangeFacet):
"""This class works similarly as the :class:`RangeFacet` but for attribute
of date type.
The image below display the rendering of the slider for a date range:
.. image:: ../images/facet_date_range.png
"""
target_attr_type = 'Date' # only date types are supported
@property
def wdgclass(self):
return DateFacetRangeWidget
def formatvalue(self, value):
"""format `value` before in order to insert it in the RQL query"""
try:
date_value = ticks2datetime(float(value))
except (ValueError, OverflowError):
return u'"date out-of-range"'
return '"%s"' % ustrftime(date_value, '%Y/%m/%d')
class HasRelationFacet(AbstractFacet):
"""This class simply filter according to the presence of a relation
(whatever the entity at the other end). It display a simple checkbox that
lets you refine your selection in order to get only entities that actually
have this relation. You simply have to define which relation using the
`rtype` and `role` attributes.
Here is an example of the rendering of thos facet to filter book with image
and the corresponding code:
.. image:: ../images/facet_has_image.png
.. sourcecode:: python
class HasImageFacet(HasRelationFacet):
__regid__ = 'hasimage'
__select__ = HasRelationFacet.__select__ & is_instance('Book')
rtype = 'has_image'
role = 'subject'
"""
__select__ = partial_relation_possible() & match_context_prop()
rtype = None # override me in subclass
role = 'subject' # role of filtered entity in the relation
title = property(rtype_facet_title)
needs_update = False # not supported actually
support_and = False
def get_widget(self):
return CheckBoxFacetWidget(self._cw, self,
'%s:%s' % (self.rtype, self),
self._cw.form.get(self.__regid__))
def add_rql_restrictions(self):
"""add restriction for this facet into the rql syntax tree"""
self.select.set_distinct(True) # XXX
value = self._cw.form.get(self.__regid__)
if not value: # no value sent for this facet
return
var = self.select.make_variable()
if self.role == 'subject':
self.select.add_relation(self.filtered_variable, self.rtype, var)
else:
self.select.add_relation(var, self.rtype, self.filtered_variable)
## html widets ################################################################
_DEFAULT_CONSTANT_VOCAB_WIDGET_HEIGHT = 9
@cached
def _css_height_to_line_count(vreg):
cssprop = vreg.config.uiprops['facet_overflowedHeight'].lower().strip()
# let's talk a bit ...
# we try to deduce a number of displayed lines from a css property
# there is a linear (rough empiric coefficient == 0.73) relation between
# css _em_ value and line qty
# if we get another unit we're out of luck and resort to one constant
# hence, it is strongly advised not to specify but ems for this css prop
if cssprop.endswith('em'):
try:
return int(cssprop[:-2]) * .73
except Exception:
vreg.warning('css property facet_overflowedHeight looks malformed (%r)',
cssprop)
return _DEFAULT_CONSTANT_VOCAB_WIDGET_HEIGHT
class FacetVocabularyWidget(htmlwidgets.HTMLWidget):
def __init__(self, facet):
self.facet = facet
self.items = []
@cached
def height(self):
maxheight = _css_height_to_line_count(self.facet._cw.vreg)
return 1 + min(len(self.items), maxheight) + int(self.facet._support_and_compat())
def append(self, item):
self.items.append(item)
def _render(self):
w = self.w
title = xml_escape(self.facet.title)
facetid = make_uid(self.facet.__regid__)
w(u'<div id="%s" class="facet">\n' % facetid)
w(u'<div class="facetTitle" cubicweb:facetName="%s">%s</div>\n' %
(xml_escape(self.facet.__regid__), title))
if self.facet._support_and_compat():
_ = self.facet._cw._
w(u'''<select name="%s" class="radio facetOperator" title="%s">
<option value="OR">%s</option>
<option value="AND">%s</option>
</select>''' % (xml_escape(self.facet.__regid__) + '_andor', _('and/or between different values'),
_('OR'), _('AND')))
cssclass = 'facetBody'
if not self.facet.start_unfolded:
cssclass += ' hidden'
if len(self.items) > 6:
cssclass += ' overflowed'
w(u'<div class="%s">\n' % cssclass)
for item in self.items:
item.render(w=w)
w(u'</div>\n')
w(u'</div>\n')
class FacetStringWidget(htmlwidgets.HTMLWidget):
def __init__(self, facet):
self.facet = facet
self.value = None
def height(self):
return 3
def _render(self):
w = self.w
title = xml_escape(self.facet.title)
facetid = make_uid(self.facet.__regid__)
w(u'<div id="%s" class="facet">\n' % facetid)
w(u'<div class="facetTitle" cubicweb:facetName="%s">%s</div>\n' %
(xml_escape(self.facet.__regid__), title))
w(u'<input name="%s" type="text" value="%s" />\n' % (facetid, self.value or u''))
w(u'</div>\n')
class FacetRangeWidget(htmlwidgets.HTMLWidget):
formatter = 'function (value) {return value;}'
onload = u'''
var _formatter = %(formatter)s;
jQuery("#%(sliderid)s").slider({
range: true,
min: %(minvalue)s,
max: %(maxvalue)s,
values: [%(minvalue)s, %(maxvalue)s],
stop: function(event, ui) { // submit when the user stops sliding
var form = $('#%(sliderid)s').closest('form');
buildRQL.apply(null, cw.evalJSON(form.attr('cubicweb:facetargs')));
},
slide: function(event, ui) {
jQuery('#%(sliderid)s_inf').html(_formatter(ui.values[0]));
jQuery('#%(sliderid)s_sup').html(_formatter(ui.values[1]));
jQuery('input[name="%(facetname)s_inf"]').val(ui.values[0]);
jQuery('input[name="%(facetname)s_sup"]').val(ui.values[1]);
}
});
// use JS formatter to format value on page load
jQuery('#%(sliderid)s_inf').html(_formatter(jQuery('input[name="%(facetname)s_inf"]').val()));
jQuery('#%(sliderid)s_sup').html(_formatter(jQuery('input[name="%(facetname)s_sup"]').val()));
'''
#'# make emacs happier
def __init__(self, facet, minvalue, maxvalue):
self.facet = facet
self.minvalue = minvalue
self.maxvalue = maxvalue
def height(self):
return 3
def _render(self):
w = self.w
facet = self.facet
facet._cw.add_js('jquery.ui.js')
facet._cw.add_css('jquery.ui.css')
sliderid = make_uid('theslider')
facetname = self.facet.__regid__
facetid = make_uid(facetname)
facet._cw.html_headers.add_onload(self.onload % {
'sliderid': sliderid,
'facetid': facetid,
'facetname': facetname,
'minvalue': self.minvalue,
'maxvalue': self.maxvalue,
'formatter': self.formatter,
})
title = xml_escape(self.facet.title)
facetname = xml_escape(facetname)
w(u'<div id="%s" class="facet">\n' % facetid)
w(u'<div class="facetTitle" cubicweb:facetName="%s">%s</div>\n' %
(facetname, title))
cssclass = 'facetBody'
if not self.facet.start_unfolded:
cssclass += ' hidden'
w(u'<div class="%s">\n' % cssclass)
w(u'<span id="%s_inf"></span> - <span id="%s_sup"></span>'
% (sliderid, sliderid))
w(u'<input type="hidden" name="%s_inf" value="%s" />'
% (facetname, self.minvalue))
w(u'<input type="hidden" name="%s_sup" value="%s" />'
% (facetname, self.maxvalue))
w(u'<input type="hidden" name="min_%s_inf" value="%s" />'
% (facetname, self.minvalue))
w(u'<input type="hidden" name="max_%s_sup" value="%s" />'
% (facetname, self.maxvalue))
w(u'<div id="%s"></div>' % sliderid)
w(u'</div>\n')
w(u'</div>\n')
class DateFacetRangeWidget(FacetRangeWidget):
formatter = 'function (value) {return (new Date(parseFloat(value))).strftime(DATE_FMT);}'
def round_max_value(self, d):
'round to upper value to avoid filtering out the max value'
return datetime(d.year, d.month, d.day) + timedelta(days=1)
def __init__(self, facet, minvalue, maxvalue):
maxvalue = self.round_max_value(maxvalue)
super(DateFacetRangeWidget, self).__init__(facet,
datetime2ticks(minvalue),
datetime2ticks(maxvalue))
fmt = facet._cw.property_value('ui.date-format')
facet._cw.html_headers.define_var('DATE_FMT', fmt)
class FacetItem(htmlwidgets.HTMLWidget):
selected_img = "black-check.png"
unselected_img = "no-check-no-border.png"
def __init__(self, req, label, value, selected=False):
self._cw = req
self.label = label
self.value = value
self.selected = selected
def _render(self):
w = self.w
cssclass = 'facetValue facetCheckBox'
if self.selected:
cssclass += ' facetValueSelected'
imgsrc = self._cw.data_url(self.selected_img)
imgalt = self._cw._('selected')
else:
imgsrc = self._cw.data_url(self.unselected_img)
imgalt = self._cw._('not selected')
w(u'<div class="%s" cubicweb:value="%s">\n'
% (cssclass, xml_escape(unicode(self.value))))
w(u'<img src="%s" alt="%s"/> ' % (imgsrc, imgalt))
w(u'<a href="javascript: {}">%s</a>' % xml_escape(self.label))
w(u'</div>')
class CheckBoxFacetWidget(htmlwidgets.HTMLWidget):
selected_img = "black-check.png"
unselected_img = "black-uncheck.png"
def __init__(self, req, facet, value, selected):
self._cw = req
self.facet = facet
self.value = value
self.selected = selected
def height(self):
return 2
def _render(self):
w = self.w
title = xml_escape(self.facet.title)
facetid = make_uid(self.facet.__regid__)
w(u'<div id="%s" class="facet">\n' % facetid)
cssclass = 'facetValue facetCheckBox'
if self.selected:
cssclass += ' facetValueSelected'
imgsrc = self._cw.data_url(self.selected_img)
imgalt = self._cw._('selected')
else:
imgsrc = self._cw.data_url(self.unselected_img)
imgalt = self._cw._('not selected')
w(u'<div class="%s" cubicweb:value="%s">\n'
% (cssclass, xml_escape(unicode(self.value))))
w(u'<div class="facetCheckBoxWidget">')
w(u'<img src="%s" alt="%s" cubicweb:unselimg="true" /> ' % (imgsrc, imgalt))
w(u'<label class="facetTitle" cubicweb:facetName="%s"><a href="javascript: {}">%s</a></label>'
% (xml_escape(self.facet.__regid__), title))
w(u'</div>\n')
w(u'</div>\n')
w(u'</div>\n')
class FacetSeparator(htmlwidgets.HTMLWidget):
def __init__(self, label=None):
self.label = label or u' '
def _render(self):
pass
# other classes ################################################################
class FilterRQLBuilder(object):
"""called by javascript to get a rql string from filter form"""
def __init__(self, req):
self._cw = req
def build_rql(self):
form = self._cw.form
facetids = form['facets'].split(',')
# XXX Union unsupported yet
select = self._cw.vreg.parse(self._cw, form['baserql']).children[0]
filtered_variable = get_filtered_variable(select, form.get('mainvar'))
toupdate = []
for facetid in facetids:
facet = get_facet(self._cw, facetid, select, filtered_variable)
facet.add_rql_restrictions()
if facet.needs_update:
toupdate.append(facetid)
return select.as_string(), toupdate