Commits

Rhys ! committed 84c4511

now using setuptools

  • Participants
  • Parent commits 09a8f80

Comments (0)

Files changed (12)

__init__.py

Empty file removed.

codeutils.py

-# -*- coding: UTF-8 -*-
-#--------------------------------------------------------------------------------
-# The Oort BSD-style License
-#
-# Copyright (c) 2006, 2007 Niklas Lindström <lindstream@gmail.com>.
-#
-# All rights reserved.
-#
-# Redistribution and use in source and binary forms, with or without
-# modification, are permitted provided that the following conditions are met:
-#
-#     * Redistributions of source code must retain the above copyright notice,
-#       this list of conditions and the following disclaimer.
-#     * Redistributions in binary form must reproduce the above copyright notice,
-#       this list of conditions and the following disclaimer in the documentation
-#       and/or other materials provided with the distribution.
-#     * Neither the name of Oort nor the names of its contributors
-#       may be used to endorse or promote products derived from this software
-#       without specific prior written permission.
-#
-# THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND
-# ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
-# WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
-# DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE LIABLE FOR
-# ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
-# (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES;
-# LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON
-# ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
-# (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
-# SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
-#--------------------------------------------------------------------------------
-#=======================================================================
-
-
-class autosuper(type):
-    """
-    Use this as a metaclass for types to set the magic attribute '__super' on
-    them. When this is accessed through self the result is an object
-    constructed as if super(ThisType, self) had been called. (Makes it a little
-    bit more like in Python 3, where super() will work like this attribute.)
-    """
-    def __init__(cls, name, bases, members):
-        super(autosuper, cls).__init__(name, bases, members)
-        setattr(cls, "_%s__super" % name, super(cls))
-
-
-#=======================================================================
-
-
-def init_slots(obj, *args, **kwargs):
-    data = dict(zip(obj.__slots__, args))
-    data.update(kwargs)
-    for a in obj.__slots__:
-        setattr(obj, a, data.get(a, None))
-
-class SlotStruct(object):
-    """
-    Base class for making "struct" types with members defined by their
-    __slots__ value. Example:
-
-        >>> class Item(SlotStruct):
-        ...     __slots__ = 'first', 'last'
-
-        >>> item1 = Item(first='a', last='b')
-        >>> item1.first, item1.last
-        ('a', 'b')
-
-        >>> item1.middle = '-'
-        Traceback (most recent call last):
-        ...
-        AttributeError: 'Item' object has no attribute 'middle'
-
-        >>> item2 = Item('a', 'b')
-        >>> assert (item1.first, item1.last) == (item2.first, item2.last)
-
-        >>> assert item1.make_dict() == {'first': 'a', 'last': 'b'}
-
-    """
-    __slots__ = ()
-    def __init__(self, *args, **kwargs):
-        init_slots(self, *args, **kwargs)
-    def __str__(self):
-        return "%s instance with %s" % (type(self).__name__, str(self.make_dict()))
-    def make_dict(self):
-        return dict([(a, getattr(self, a)) for a in self.__slots__])
-
-
-#=======================================================================
-
-
-def property_with_setter(fset):
-    attr = '_%s' % fset.func_name
-    return property(lambda self: getattr(self, attr),
-            fset, doc=fset.__doc__)
-
-
-#=======================================================================
-
-
-def call(caller, *args):
-    def decorator(decorated):
-        callArgs = [(arg, decorated)[arg is call] for arg in args]
-        caller(*callArgs)
-        return call
-    return decorator
-
-
-#=======================================================================
-
-
-class BooleanDecorator(object):
-    """
-    A documentation helper. Usage:
-
-        >>> contract = BooleanDecorator('interface')
-        >>> class T:
-        ...     @contract.interface
-        ...     def action(self): raise NotImplementedError
-        ...
-        >>> assert T.action.interface == True
-    """
-
-    __slots__ = ('attributes')
-
-    def __init__(self, *args):
-        self.attributes = args
-
-    def __getattr__(self, name):
-        if name not in self.attributes:
-            raise Exception("Unknown attribute: %s" % name)
-        def decorator(func):
-            setattr(func, name, True)
-            return func
-        return decorator
-
-contract = BooleanDecorator('template_method', 'default_method', 'helper', 'state_change')
-
-
-def attrs(**kwargs):
-    """
-    Generic decorator for setting attributes. Usage:
-
-        >>> @attrs(value="A value", thing=None, other=True)
-        ... def f(): pass
-        ...
-        >>> assert f.value == "A value"
-        >>> assert f.thing is None
-        >>> assert f.other is True
-    """
-    def decorator(func):
-        # TODO: or just func.__dict__.update(kwargs)
-        for key, value in kwargs.items():
-            setattr(func, key, value)
-        return func
-    return decorator
-
-

core.py

-#    Opik RDF object mapper
-#    Copyright (C) 2011 Rhys !
-#
-#    This program is free software: you can redistribute it and/or modify
-#    it under the terms of the GNU General Public License as published by
-#    the Free Software Foundation, either version 3 of the License, or
-#    (at your option) any later version.
-#
-#    This program is distributed in the hope that it will be useful,
-#    but WITHOUT ANY WARRANTY; without even the implied warranty of
-#    MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
-#    GNU General Public License for more details.
-#
-#    You should have received a copy of the GNU General Public License
-#    along with this program.  If not, see <http://www.gnu.org/licenses/>.
-
-from itertools import chain
-import simplejson as json
-
-from rdflib import URIRef, BNode, Literal
-from rdflib import Graph as _Graph
-
-from rdfview import RdfQuery, one, each
-from namespaces import RDF, DCTERMS, prefixes
-
-class Term(URIRef):
-    namespace = None
-    prefix = None
-
-def curie(uri, terms, prefixes, value=None):
-    for prefix, u in prefixes.iteritems():
-        if uri.startswith(u):
-            term = uri[len(u):]
-            if term in terms:
-                if 'from' in terms[term]:
-                    if terms[term]['from'] != prefix:
-                        raise ValueError('Term collision: new term %s from %s collides with term %s from %s.' % (term, prefix, term, terms[term]['from']))
-                else:
-                    raise ValueError('Cannot determine where term %s is from.' % term)
-            elif value:
-                many = isinstance(value, list)
-                if many:
-                    value = value[0]
-                if isinstance(value, Term):
-                    terms[term] = {'from': prefix, 'symbol': True, 'many': many}
-                elif isinstance(value, URIRef):
-                    terms[term] = {'from': prefix, 'reference': True, 'many': many}
-                else:
-                    terms[term] = {'from': prefix, 'many': many}
-            else:
-                terms[term] = {'from': prefix}
-            to = Term(term)
-            to.namespace = u
-            to.prefix = prefix
-            return to, terms
-    return uri, terms
-            
-class Graph(_Graph):
-    def absorb(self, graph):
-        for ns in graph.namespaces():
-            self.bind(*ns)
-        self.addN((s[0], s[1], s[2], self) for s in graph)
-
-class RDFDoc(object):
-    def __init__(self, resources=[], uri=None, isPartOf=None):
-        self.defined = {}
-        self.nss = {}
-        self.prefixes = {}
-        self.resources = resources
-        self.uri = uri
-        self.isPartOf = isPartOf
-        super(RDFDoc, self).__init__()
-
-    def __iter__(self):
-        for r in self.resources:
-            yield r
-
-    def add(self, resource):
-        self.resources.append(resource)
-
-    def extend(self, resources):
-        self.resources.extend(resources)
-
-    def to_graph(self):
-        g = Graph()
-        map(g.absorb, map(lambda r: r.to_graph(), self.resources))
-        return g
-
-    def serialize(self, format='pretty-xml', uri=None, isPartOf=None, **kwargs):
-        if format == 'json':
-            return self.to_json(**kwargs)
-        else:
-            if format == 'pretty-xml' and 'max_depth' not in kwargs:
-                kwargs['max_depth'] = 1
-            g = self.to_graph()
-            uri, isPartOf = uri or self.uri, isPartOf or self.isPartOf
-            if uri and isPartOf:
-                data = Data(uri)
-                data.isPartOf = isPartOf
-                g.absorb(data.to_graph())
-            return g.serialize(format=format, **kwargs)
-
-    def _upd(self, t, value=None):
-        if isinstance(t, URIRef):
-            t, self.defined = curie(t, self.defined, self.prefixes, value=value)
-            if isinstance(t, Term):
-                if t.prefix not in self.nss:
-                    self.nss[t.prefix] = t.namespace
-        return t
-
-    to_dictables = __iter__
-
-    def to_tree(self):
-        for r in chain(*map(lambda r: r.to_dictables(), self.resources)):
-            self.prefixes.update(r.prefixes)
-        self.defined, self.nss, linked = {}, {}, {}
-        for r in chain(*map(lambda r: r.to_dictables(), self.resources)):
-            d = r.to_dict_untyped()
-            uri = r.uri
-            linked[uri] = {}
-            for p, ol in d.iteritems():
-                if isinstance(ol, list):
-                    for n, o in enumerate(ol):
-                        ol[n] = self._upd(o)
-                else:
-                    ol = self._upd(ol)
-                p = self._upd(p, value=ol)
-                linked[uri][p] = ol
-        return {
-            'profile': {
-                'prefix': self.nss,
-                'define': self.defined
-            },
-            'linked': linked
-        }
-
-    def _json_conv(self, d):
-        n = {}
-        for k, v in d.iteritems():
-            if isinstance(k, Literal) and k.language:
-                k = {'@' + k.language: k}
-            if isinstance(v, Literal) and v.language:
-                v = {'@' + v.language: v}
-            elif isinstance(v, dict):
-                v = self._json_conv(v)
-            n[k] = v
-        return n
-
-    def to_json(self, ensure_ascii=False, indent=None, separators=(',', ':'), **kwargs):
-        return json.dumps(self._json_conv(self.to_tree()), ensure_ascii=ensure_ascii, indent=indent, separators=separators, **kwargs)
-
-class one_uri(one):
-    def type_raw_value(self, value, lang):
-        if isinstance(value, URIRef) or not value:
-            return value
-        else:
-            return URIRef(value)
-
-class each_uri(each):
-    def __get__(self, rdfQueryInstance, rdfQueryOwnerClass=None):
-        if not rdfQueryInstance:
-            return self
-        prep = rdfQueryInstance._preparedSelects[self._name]
-        if not prep.hasRun:
-            result = self.retreive_result(rdfQueryInstance, prep.selectArgs)
-            for fltr in self.filters:
-                result = fltr(result)
-            prep.hasRun = True
-            prep.result = result
-        lang = rdfQueryInstance._lang
-        result = prep.result
-        if result:
-            return [self.type_raw_value(value, lang) for value in prep.result]
-        else:
-            return result
-
-    def type_raw_value(self, value, lang):
-        if isinstance(value, URIRef) or not value:
-            return value
-        else:
-            return URIRef(value)
-
-class Typed(RdfQuery):
-    RDF_TYPE = None
-    a = one_uri(RDF.type)
-
-    def __init__(self, subject, *args, **kwargs):
-        super(Typed, self).__init__(_Graph(), '', subject if isinstance(subject, URIRef) else URIRef(subject), *args, **kwargs)
-        if self.RDF_TYPE:
-            self.a = self.RDF_TYPE
-        self.prefixes = prefixes
-
-    def __iter__(self):
-        for selector in self._selectors.values():
-            yield selector.predicate, selector.__get__(self)
-
-    def to_dictables(self):
-        return [self]
-
-    def to_graph(self, *args, **kwargs):
-        if args:
-            g, args = args[0], args[1:]
-        else:
-            g = kwargs.pop('lgraph', _Graph())
-        for prefix, uri in self.prefixes.iteritems():
-            g.bind(prefix, uri)
-        return super(Typed, self).to_graph(lgraph=g, *args, **kwargs)
-
-    def to_dict_untyped(self, keepSubject=False):
-        d = {}
-        if keepSubject:
-            # TODO: sync with new property 'uri'
-            subjectKey = isinstance(keepSubject, str) and keepSubject or 'resource'
-            subj = self._subject
-            if subj and not isinstance(subj, BNode):
-                d[subjectKey] = self._subject
-
-        for selector in self._selectors.values():
-            name = selector.predicate
-            value = selector.__get__(self)
-            if not value:
-                continue
-            else:
-                d[name] = self.__dict_untyped_convert(value, keepSubject)
-            # TODO: handle xml literals
-        return d
-
-    def __dict_untyped_convert(self, value, keepSubject):
-        if isinstance(value, RdfQuery):
-            return value.to_dict(keepSubject)
-        else:
-            return value # TODO: simple type conversions?
-
-class Data(Typed):
-    isPartOf = one_uri(DCTERMS.isPartOf)
 #    You should have received a copy of the GNU General Public License
 #    along with this program.  If not, see <http://www.gnu.org/licenses/>.
 
-from core import Typed, one, one_uri, each_uri, RDFDoc
-from namespaces import *
+from opik.core import Typed, one, one_uri, each_uri, RDFDoc
+from opik.namespaces import *
 
 class Artist(Typed):
     RDF_TYPE = MO.MusicArtist

namespaces.py

-#    Opik RDF object mapper
-#    Copyright (C) 2011 Rhys !
-#
-#    This program is free software: you can redistribute it and/or modify
-#    it under the terms of the GNU General Public License as published by
-#    the Free Software Foundation, either version 3 of the License, or
-#    (at your option) any later version.
-#
-#    This program is distributed in the hope that it will be useful,
-#    but WITHOUT ANY WARRANTY; without even the implied warranty of
-#    MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
-#    GNU General Public License for more details.
-#
-#    You should have received a copy of the GNU General Public License
-#    along with this program.  If not, see <http://www.gnu.org/licenses/>.
-
-from rdflib.namespace import Namespace as _NS
-
-prefixes = {
-    'dcterms': 'http://purl.org/dc/terms/',
-    'foaf': 'http://xmlns.com/foaf/0.1/',
-    'mo': 'http://purl.org/ontology/mo/',
-    'owl': 'http://www.w3.org/2002/07/owl#',
-    'rdf': 'http://www.w3.org/1999/02/22-rdf-syntax-ns#',
-    'rdfs': 'http://www.w3.org/2000/01/rdf-schema#'
-}
-
-class Namespace(_NS):
-    def __new__(self, uri, prefix=None):
-        return super(Namespace, self).__new__(self, uri)
-
-    def __init__(self, uri, prefix=None):
-        self.prefix = prefix
-
-locals().update((prefix.upper(), Namespace(uri, prefix=prefix)) for prefix, uri in prefixes.iteritems())

opik/__init__.py

Empty file added.

opik/codeutils.py

+# -*- coding: UTF-8 -*-
+#--------------------------------------------------------------------------------
+# The Oort BSD-style License
+#
+# Copyright (c) 2006, 2007 Niklas Lindström <lindstream@gmail.com>.
+#
+# All rights reserved.
+#
+# Redistribution and use in source and binary forms, with or without
+# modification, are permitted provided that the following conditions are met:
+#
+#     * Redistributions of source code must retain the above copyright notice,
+#       this list of conditions and the following disclaimer.
+#     * Redistributions in binary form must reproduce the above copyright notice,
+#       this list of conditions and the following disclaimer in the documentation
+#       and/or other materials provided with the distribution.
+#     * Neither the name of Oort nor the names of its contributors
+#       may be used to endorse or promote products derived from this software
+#       without specific prior written permission.
+#
+# THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND
+# ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
+# WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
+# DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE LIABLE FOR
+# ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
+# (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES;
+# LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON
+# ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
+# (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
+# SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
+#--------------------------------------------------------------------------------
+#=======================================================================
+
+
+class autosuper(type):
+    """
+    Use this as a metaclass for types to set the magic attribute '__super' on
+    them. When this is accessed through self the result is an object
+    constructed as if super(ThisType, self) had been called. (Makes it a little
+    bit more like in Python 3, where super() will work like this attribute.)
+    """
+    def __init__(cls, name, bases, members):
+        super(autosuper, cls).__init__(name, bases, members)
+        setattr(cls, "_%s__super" % name, super(cls))
+
+
+#=======================================================================
+
+
+def init_slots(obj, *args, **kwargs):
+    data = dict(zip(obj.__slots__, args))
+    data.update(kwargs)
+    for a in obj.__slots__:
+        setattr(obj, a, data.get(a, None))
+
+class SlotStruct(object):
+    """
+    Base class for making "struct" types with members defined by their
+    __slots__ value. Example:
+
+        >>> class Item(SlotStruct):
+        ...     __slots__ = 'first', 'last'
+
+        >>> item1 = Item(first='a', last='b')
+        >>> item1.first, item1.last
+        ('a', 'b')
+
+        >>> item1.middle = '-'
+        Traceback (most recent call last):
+        ...
+        AttributeError: 'Item' object has no attribute 'middle'
+
+        >>> item2 = Item('a', 'b')
+        >>> assert (item1.first, item1.last) == (item2.first, item2.last)
+
+        >>> assert item1.make_dict() == {'first': 'a', 'last': 'b'}
+
+    """
+    __slots__ = ()
+    def __init__(self, *args, **kwargs):
+        init_slots(self, *args, **kwargs)
+    def __str__(self):
+        return "%s instance with %s" % (type(self).__name__, str(self.make_dict()))
+    def make_dict(self):
+        return dict([(a, getattr(self, a)) for a in self.__slots__])
+
+
+#=======================================================================
+
+
+def property_with_setter(fset):
+    attr = '_%s' % fset.func_name
+    return property(lambda self: getattr(self, attr),
+            fset, doc=fset.__doc__)
+
+
+#=======================================================================
+
+
+def call(caller, *args):
+    def decorator(decorated):
+        callArgs = [(arg, decorated)[arg is call] for arg in args]
+        caller(*callArgs)
+        return call
+    return decorator
+
+
+#=======================================================================
+
+
+class BooleanDecorator(object):
+    """
+    A documentation helper. Usage:
+
+        >>> contract = BooleanDecorator('interface')
+        >>> class T:
+        ...     @contract.interface
+        ...     def action(self): raise NotImplementedError
+        ...
+        >>> assert T.action.interface == True
+    """
+
+    __slots__ = ('attributes')
+
+    def __init__(self, *args):
+        self.attributes = args
+
+    def __getattr__(self, name):
+        if name not in self.attributes:
+            raise Exception("Unknown attribute: %s" % name)
+        def decorator(func):
+            setattr(func, name, True)
+            return func
+        return decorator
+
+contract = BooleanDecorator('template_method', 'default_method', 'helper', 'state_change')
+
+
+def attrs(**kwargs):
+    """
+    Generic decorator for setting attributes. Usage:
+
+        >>> @attrs(value="A value", thing=None, other=True)
+        ... def f(): pass
+        ...
+        >>> assert f.value == "A value"
+        >>> assert f.thing is None
+        >>> assert f.other is True
+    """
+    def decorator(func):
+        # TODO: or just func.__dict__.update(kwargs)
+        for key, value in kwargs.items():
+            setattr(func, key, value)
+        return func
+    return decorator
+
+
+#    Opik RDF object mapper
+#    Copyright (C) 2011 Rhys !
+#
+#    This program is free software: you can redistribute it and/or modify
+#    it under the terms of the GNU General Public License as published by
+#    the Free Software Foundation, either version 3 of the License, or
+#    (at your option) any later version.
+#
+#    This program is distributed in the hope that it will be useful,
+#    but WITHOUT ANY WARRANTY; without even the implied warranty of
+#    MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
+#    GNU General Public License for more details.
+#
+#    You should have received a copy of the GNU General Public License
+#    along with this program.  If not, see <http://www.gnu.org/licenses/>.
+
+from itertools import chain
+import simplejson as json
+
+from rdflib import URIRef, BNode, Literal
+from rdflib import Graph as _Graph
+
+from rdfview import RdfQuery, one, each
+from namespaces import RDF, DCTERMS, prefixes
+
+class Term(URIRef):
+    namespace = None
+    prefix = None
+
+def curie(uri, terms, prefixes, value=None):
+    for prefix, u in prefixes.iteritems():
+        if uri.startswith(u):
+            term = uri[len(u):]
+            if term in terms:
+                if 'from' in terms[term]:
+                    if terms[term]['from'] != prefix:
+                        raise ValueError('Term collision: new term %s from %s collides with term %s from %s.' % (term, prefix, term, terms[term]['from']))
+                else:
+                    raise ValueError('Cannot determine where term %s is from.' % term)
+            elif value:
+                many = isinstance(value, list)
+                if many:
+                    value = value[0]
+                if isinstance(value, Term):
+                    terms[term] = {'from': prefix, 'symbol': True, 'many': many}
+                elif isinstance(value, URIRef):
+                    terms[term] = {'from': prefix, 'reference': True, 'many': many}
+                else:
+                    terms[term] = {'from': prefix, 'many': many}
+            else:
+                terms[term] = {'from': prefix}
+            to = Term(term)
+            to.namespace = u
+            to.prefix = prefix
+            return to, terms
+    return uri, terms
+            
+class Graph(_Graph):
+    def absorb(self, graph):
+        for ns in graph.namespaces():
+            self.bind(*ns)
+        self.addN((s[0], s[1], s[2], self) for s in graph)
+
+class RDFDoc(object):
+    def __init__(self, resources=[], uri=None, isPartOf=None):
+        self.defined = {}
+        self.nss = {}
+        self.prefixes = {}
+        self.resources = resources
+        self.uri = uri
+        self.isPartOf = isPartOf
+        super(RDFDoc, self).__init__()
+
+    def __iter__(self):
+        for r in self.resources:
+            yield r
+
+    def add(self, resource):
+        self.resources.append(resource)
+
+    def extend(self, resources):
+        self.resources.extend(resources)
+
+    def to_graph(self):
+        g = Graph()
+        map(g.absorb, map(lambda r: r.to_graph(), self.resources))
+        return g
+
+    def serialize(self, format='pretty-xml', uri=None, isPartOf=None, **kwargs):
+        if format == 'json':
+            return self.to_json(**kwargs)
+        else:
+            if format == 'pretty-xml' and 'max_depth' not in kwargs:
+                kwargs['max_depth'] = 1
+            g = self.to_graph()
+            uri, isPartOf = uri or self.uri, isPartOf or self.isPartOf
+            if uri and isPartOf:
+                data = Data(uri)
+                data.isPartOf = isPartOf
+                g.absorb(data.to_graph())
+            return g.serialize(format=format, **kwargs)
+
+    def _upd(self, t, value=None):
+        if isinstance(t, URIRef):
+            t, self.defined = curie(t, self.defined, self.prefixes, value=value)
+            if isinstance(t, Term):
+                if t.prefix not in self.nss:
+                    self.nss[t.prefix] = t.namespace
+        return t
+
+    to_dictables = __iter__
+
+    def to_tree(self):
+        for r in chain(*map(lambda r: r.to_dictables(), self.resources)):
+            self.prefixes.update(r.prefixes)
+        self.defined, self.nss, linked = {}, {}, {}
+        for r in chain(*map(lambda r: r.to_dictables(), self.resources)):
+            d = r.to_dict_untyped()
+            uri = r.uri
+            linked[uri] = {}
+            for p, ol in d.iteritems():
+                if isinstance(ol, list):
+                    for n, o in enumerate(ol):
+                        ol[n] = self._upd(o)
+                else:
+                    ol = self._upd(ol)
+                p = self._upd(p, value=ol)
+                linked[uri][p] = ol
+        return {
+            'profile': {
+                'prefix': self.nss,
+                'define': self.defined
+            },
+            'linked': linked
+        }
+
+    def _json_conv(self, d):
+        n = {}
+        for k, v in d.iteritems():
+            if isinstance(k, Literal) and k.language:
+                k = {'@' + k.language: k}
+            if isinstance(v, Literal) and v.language:
+                v = {'@' + v.language: v}
+            elif isinstance(v, dict):
+                v = self._json_conv(v)
+            n[k] = v
+        return n
+
+    def to_json(self, ensure_ascii=False, indent=None, separators=(',', ':'), **kwargs):
+        return json.dumps(self._json_conv(self.to_tree()), ensure_ascii=ensure_ascii, indent=indent, separators=separators, **kwargs)
+
+class one_uri(one):
+    def type_raw_value(self, value, lang):
+        if isinstance(value, URIRef) or not value:
+            return value
+        else:
+            return URIRef(value)
+
+class each_uri(each):
+    def __get__(self, rdfQueryInstance, rdfQueryOwnerClass=None):
+        if not rdfQueryInstance:
+            return self
+        prep = rdfQueryInstance._preparedSelects[self._name]
+        if not prep.hasRun:
+            result = self.retreive_result(rdfQueryInstance, prep.selectArgs)
+            for fltr in self.filters:
+                result = fltr(result)
+            prep.hasRun = True
+            prep.result = result
+        lang = rdfQueryInstance._lang
+        result = prep.result
+        if result:
+            return [self.type_raw_value(value, lang) for value in prep.result]
+        else:
+            return result
+
+    def type_raw_value(self, value, lang):
+        if isinstance(value, URIRef) or not value:
+            return value
+        else:
+            return URIRef(value)
+
+class Typed(RdfQuery):
+    RDF_TYPE = None
+    a = one_uri(RDF.type)
+
+    def __init__(self, subject, *args, **kwargs):
+        super(Typed, self).__init__(_Graph(), '', subject if isinstance(subject, URIRef) else URIRef(subject), *args, **kwargs)
+        if self.RDF_TYPE:
+            self.a = self.RDF_TYPE
+        self.prefixes = prefixes
+
+    def __iter__(self):
+        for selector in self._selectors.values():
+            yield selector.predicate, selector.__get__(self)
+
+    def to_dictables(self):
+        return [self]
+
+    def to_graph(self, *args, **kwargs):
+        if args:
+            g, args = args[0], args[1:]
+        else:
+            g = kwargs.pop('lgraph', _Graph())
+        for prefix, uri in self.prefixes.iteritems():
+            g.bind(prefix, uri)
+        return super(Typed, self).to_graph(lgraph=g, *args, **kwargs)
+
+    def to_dict_untyped(self, keepSubject=False):
+        d = {}
+        if keepSubject:
+            # TODO: sync with new property 'uri'
+            subjectKey = isinstance(keepSubject, str) and keepSubject or 'resource'
+            subj = self._subject
+            if subj and not isinstance(subj, BNode):
+                d[subjectKey] = self._subject
+
+        for selector in self._selectors.values():
+            name = selector.predicate
+            value = selector.__get__(self)
+            if not value:
+                continue
+            else:
+                d[name] = self.__dict_untyped_convert(value, keepSubject)
+            # TODO: handle xml literals
+        return d
+
+    def __dict_untyped_convert(self, value, keepSubject):
+        if isinstance(value, RdfQuery):
+            return value.to_dict(keepSubject)
+        else:
+            return value # TODO: simple type conversions?
+
+class Data(Typed):
+    isPartOf = one_uri(DCTERMS.isPartOf)

opik/namespaces.py

+#    Opik RDF object mapper
+#    Copyright (C) 2011 Rhys !
+#
+#    This program is free software: you can redistribute it and/or modify
+#    it under the terms of the GNU General Public License as published by
+#    the Free Software Foundation, either version 3 of the License, or
+#    (at your option) any later version.
+#
+#    This program is distributed in the hope that it will be useful,
+#    but WITHOUT ANY WARRANTY; without even the implied warranty of
+#    MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
+#    GNU General Public License for more details.
+#
+#    You should have received a copy of the GNU General Public License
+#    along with this program.  If not, see <http://www.gnu.org/licenses/>.
+
+from rdflib.namespace import Namespace as _NS
+
+prefixes = {
+    'dcterms': 'http://purl.org/dc/terms/',
+    'foaf': 'http://xmlns.com/foaf/0.1/',
+    'mo': 'http://purl.org/ontology/mo/',
+    'owl': 'http://www.w3.org/2002/07/owl#',
+    'rdf': 'http://www.w3.org/1999/02/22-rdf-syntax-ns#',
+    'rdfs': 'http://www.w3.org/2000/01/rdf-schema#'
+}
+
+class Namespace(_NS):
+    def __new__(self, uri, prefix=None):
+        return super(Namespace, self).__new__(self, uri)
+
+    def __init__(self, uri, prefix=None):
+        self.prefix = prefix
+
+locals().update((prefix.upper(), Namespace(uri, prefix=prefix)) for prefix, uri in prefixes.iteritems())
+# -*- coding: UTF-8 -*-
+#--------------------------------------------------------------------------------
+# The Oort BSD-style License
+#
+# Copyright (c) 2006, 2007 Niklas Lindström <lindstream@gmail.com>.
+#
+# All rights reserved.
+#
+# Redistribution and use in source and binary forms, with or without
+# modification, are permitted provided that the following conditions are met:
+#
+#     * Redistributions of source code must retain the above copyright notice,
+#       this list of conditions and the following disclaimer.
+#     * Redistributions in binary form must reproduce the above copyright notice,
+#       this list of conditions and the following disclaimer in the documentation
+#       and/or other materials provided with the distribution.
+#     * Neither the name of Oort nor the names of its contributors
+#       may be used to endorse or promote products derived from this software
+#       without specific prior written permission.
+#
+# THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND
+# ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
+# WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
+# DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE LIABLE FOR
+# ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
+# (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES;
+# LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON
+# ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
+# (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
+# SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
+#--------------------------------------------------------------------------------
+
+"""This module contains a system for creating rdf query classes in a mainly 
+declarative manner. These are built by subclassing ``RdfQuery`` and creating 
+class attributes by using ``Selector``:s. There are several selectors provided 
+in this module to cover all regular cases of data acquisition.
+"""
+#=======================================================================
+from itertools import chain
+from types import ModuleType
+import warnings
+from rdflib import RDF, RDFS, Namespace, URIRef, BNode, Literal
+from rdflib import ConjunctiveGraph
+from rdflib.term import Identifier
+try: import simplejson
+except ImportError: simplejson = None
+#from oort.util.code import contract
+from codeutils import contract
+#=======================================================================
+
+
+# TODO: deprecate THIS_QUERY and then remove this?
+THIS_QUERY = object()
+
+MODULE_SEP = ':'
+
+
+#-----------------------------------------------------------------------
+
+
+class Selector(object):
+    __slots__ = ('predicate', '_namespace', 'filters',
+                 '_subQueryMarker', '_finalSubQuery',
+                 '_name', '_queryClass')
+
+    def __init__(self, predBase=None, subQuery=None):
+        self.predicate = None
+        self._namespace = None
+        if isinstance(predBase, Namespace) or isinstance(predBase, ModuleType):
+            self._namespace = predBase
+        elif isinstance(predBase, URIRef):
+            self.predicate = predBase
+        self._subQueryMarker = subQuery
+        self._finalSubQuery = False
+        self.filters = []
+
+    @contract.state_change
+    def hook_into_rdf_query(self, name, queryClass):
+        self._name = name
+        self._queryClass = queryClass
+        if not self._namespace:
+            self._namespace = queryClass._namespace
+        if not self.predicate and self._namespace:
+            if isinstance(self._namespace, ModuleType):
+                self.predicate = getattr(self._namespace, name)
+            else:
+                self.predicate = self._namespace[name]
+        # TODO: not used since e.g. the selector decorator uses no predicate
+        #if not self.predicate:
+        #    raise ValueError(
+        #            "Could not determine predicate for Selector %s" % self)
+
+    def get_sub_query(self):
+        final = self._finalSubQuery
+        if final is False:
+            marker = self._subQueryMarker
+            final = marker
+            if isinstance(marker, basestring):
+                if MODULE_SEP in marker:
+                    module, marker = marker.split(MODULE_SEP)
+                else:
+                    module = self._queryClass.__module__
+                final = __import__(module, fromlist=['']).__dict__[marker]
+            elif marker is THIS_QUERY:
+                final = self._queryClass
+            self._finalSubQuery = final
+        return final
+
+    def __get__(self, rdfQueryInstance, rdfQueryOwnerClass=None):
+        if not rdfQueryInstance:
+            return self
+        prep = rdfQueryInstance._preparedSelects[self._name]
+        if not prep.hasRun:
+            result = self.retreive_result(rdfQueryInstance, prep.selectArgs)
+            for fltr in self.filters:
+                result = fltr(result)
+            prep.hasRun = True
+            prep.result = result
+        return prep.result
+
+    @contract.default_method
+    def retreive_result(self, rdfQueryInstance, selectArgs):
+        result = self._process_for_subqueries(
+                rdfQueryInstance,
+                self.select(*selectArgs),
+                *selectArgs[:2]
+            )
+        return result
+
+    def _process_for_subqueries(self, rdfQueryInstance,
+            rawresults, graph, lang):
+        returnList = isinstance(rawresults, list)
+        if not rawresults:
+            if returnList: return []
+            else: return None
+
+        subQuery = self.get_sub_query()
+        if not subQuery:
+            return rawresults
+        else:
+            # TODO: using THIS_QUERY (and no execCache?) may currently cause
+            # infinite loops..? But things are more lazy now; perhaps not..
+            run_query = query_or_cached(subQuery, rdfQueryInstance._execCache)
+            if returnList:
+                return [run_query(graph, lang, uri) for uri in rawresults]
+            else:
+                return run_query(graph, lang, rawresults)
+
+    @contract.template_method
+    def select(self, graph, lang, subject):
+        raise NotImplementedError
+        return None or []
+
+    @contract.default_method
+    def back_to_graph(self, graph, subject, value):
+        pass
+
+    def viewed_as(self, subQuery):
+        self._subQueryMarker = subQuery
+        return self
+
+    def __rshift__(self, subQuery):
+        return self.viewed_as(subQuery)
+
+    def add_filter(self, fltr):
+        self.filters.append(fltr)
+
+    def __or__(self, fltr):
+        self.add_filter(fltr)
+        return self
+
+    def __set__(self, rdfQueryInstance, value):
+        prep = rdfQueryInstance._preparedSelects[self._name]
+        lang = rdfQueryInstance._lang
+        sub = self.get_sub_query()
+        if isinstance(value, list):
+            value = [self.type_raw_value(val, lang) for val in value]
+        else:
+            value = self.type_raw_value(value, lang)
+        if sub:
+            if isinstance(value, list):
+                prep.result = [sub.from_dict(val, lang, BNode())
+                                for val in value]
+            else:
+                prep.result = sub.from_dict(value, lang, BNode())
+        else:
+            prep.result = value
+            prep.hasRun = True
+
+    @contract.default_method
+    def type_raw_value(self, value, lang):
+        # TODO: need more clever type mapping. also, allow {'_uri': ".." } to be resource?
+        if isinstance(value, basestring) and not isinstance(value, Identifier):
+            value = Literal(value)
+        return value
+
+
+class PreparedSelect(object):
+    __slots__ = ('selectArgs', 'result', 'hasRun')
+    def __init__(self, graph, lang, subject):
+        self.selectArgs = (graph, lang, subject)
+        self.result = None
+        self.hasRun = False # TODO: make configurable?
+
+
+class _rdf_query_meta(type):
+    def __init__(cls, clsName, bases, clsDict):
+        super(_rdf_query_meta, cls).__init__(clsName, bases, clsDict)
+
+        cls._selectors = selectors = {}
+        for base in bases:
+            if hasattr(base, '_selectors'):
+                selectors.update(base._selectors)
+
+        rdfBase = clsDict.get('_rdfbase_')
+        if not rdfBase:
+            for base in bases:
+                if hasattr(base, '_rdfbase_'):
+                    rdfBase = base._rdfbase_
+                    break
+        if isinstance(rdfBase, Namespace):
+            cls._namespace = rdfBase
+            if not clsDict.get('RDF_TYPE'):
+                cls.RDF_TYPE = rdfBase[clsName]
+        else:
+            cls._namespace = None # TODO: pick from type?
+
+        for key, value in clsDict.items():
+            if isinstance(value, Selector):
+                value.hook_into_rdf_query(key, cls)
+                selectors[key] = value
+
+
+class RdfQuery(object):
+    __metaclass__ = _rdf_query_meta
+
+    RDF_TYPE = RDFS.Resource
+
+    # TODO: test use of execCache propertly (it seems to work though)
+
+    def __init__(self, graph, lang, subject, execCache=None):
+        self._graph = graph
+        self._subject = subject
+        self._lang = lang
+        self._preparedSelects = self._make_prepare_selects()
+        self._execCache = execCache
+
+    def _make_prepare_selects(self):
+        prepareds = {}
+        graph, lang, subject = self._graph, self._lang, self._subject
+        for name, selector in self._selectors.items():
+            if not subject:
+                # FIXME: happens when subject is a string/Literal - wrong in 
+                # itself! Remove or signal error? As it is, it leads to 
+                # illegible errors further down!
+                # Also, why not: if subject == u'':
+                #setattr(self, name, None) # TODO:removed; see this fixme
+                continue
+            prep = PreparedSelect(graph, lang, subject)
+            prepareds[name] = prep
+        return prepareds
+
+    def __str__(self):
+        return str(self._subject)
+
+    def __eq__(self, other):
+        if isinstance(other, RdfQuery):
+            return self._subject == other._subject
+        else:
+            return self._subject == other
+
+    @classmethod
+    def bound_with(cls, subject, lang=None):
+        def bound_query(graph, _lang, _subject):
+            return cls(graph, lang or _lang, subject)
+        bound_query.query = cls
+        bound_query.__name__ = cls.__name__
+        return bound_query
+
+    @classmethod
+    def from_dict(cls, data, lang, subject):
+        graph = ConjunctiveGraph()
+        query = cls(graph, lang, subject)
+        for k, v in data.items():
+            setattr(query, k, v)
+        return query
+
+    @classmethod
+    def find_by(cls, graph, lang, execCache=None, **kwargs):
+        assert len(kwargs) == 1
+        name, value = kwargs.items()[0]
+        predicate = cls._selectors[name].predicate
+        for subject in graph.subjects(predicate, value):
+            yield query_or_cached(cls, execCache)(graph, lang, subject)
+
+    @property
+    def uri(self):
+        return self._subject
+
+    def get_selected_value(self, name):
+        return self._preparedSelects[name].result
+
+    def to_graph(self, lgraph=None):
+        subject = self._subject or BNode() # FIXME: is this ok?
+        if not subject: return # FIXME, see fixme in __init__
+
+        lgraph = ConjunctiveGraph() if lgraph is None else lgraph
+
+        for t in self._graph.objects(subject, RDF.type):
+            lgraph.add((subject, RDF.type, t))
+
+        for selector in self._selectors.values():
+            value = selector.__get__(self)
+            if not value:
+                continue
+            selector.back_to_graph(lgraph, subject, value)
+
+        # FIXME: why is this happening; how can we prevent it?
+        for t in lgraph:
+            if None in t: lgraph.remove(t)
+        return lgraph
+
+    def to_rdf(self):
+        return self.to_graph().serialize(format='pretty-xml')
+
+    def to_dict(self, keepSubject=False):
+        d = {}
+        if keepSubject:
+            # TODO: sync with new property 'uri'
+            subjectKey = isinstance(keepSubject, str) and keepSubject or 'resource'
+            subj = self._subject
+            if subj and not isinstance(subj, BNode):
+                d[subjectKey] = self._subject
+
+        for selector in self._selectors.values():
+            name = selector._name
+            value = selector.__get__(self)
+            if not value:
+                continue
+            if isinstance(value, dict):
+                d[name] = dict([(key, self.__dict_convert(val, keepSubject))
+                            for key, val in value.items()])
+            elif hasattr(value, '__iter__'):
+                d[name] = [self.__dict_convert(val, keepSubject)
+                            for val in value]
+            else:
+                d[name] = self.__dict_convert(value, keepSubject)
+            # TODO: handle xml literals
+        return d
+
+    def __dict_convert(self, value, keepSubject):
+        if isinstance(value, RdfQuery):
+            return value.to_dict(keepSubject)
+        else:
+            return unicode(value) # TODO: simple type conversions?
+
+    def to_json(self, keepSubject=False):
+        if simplejson:
+            return simplejson.dumps(self.to_dict(keepSubject))
+        else:
+            raise NotImplementedError
+
+
+#-----------------------------------------------------------------------
+
+
+# Is the use of weakref fine enough (reasonably needed to avoid cyclic
+# references and hence possible memory leaks)?
+# See: <http://docs.python.org/lib/module-weakref.html>
+from weakref import WeakValueDictionary
+
+class ExecCache(object):
+    """
+    This is a query execution cache which reuses results for the same query,
+    subject and language, avoiding multiple instances of the same query when
+    given the same subject and lang.
+    """
+    def __init__(self):
+        self.cache = WeakValueDictionary()
+    def __call__(self, query, graph, lang, subject):
+        cache = self.cache
+        key = (id(query), unicode(subject), lang)
+        #key = (query, subject, lang)
+        result = cache.get(key)
+        if not result:
+            result = query(graph, lang, subject, self)
+            cache[key] = result
+        return result
+
+
+def query_or_cached(rdfQuery, execCache):
+    if execCache:
+        def run_query(graph, lang, uri):
+            return execCache(rdfQuery, graph, lang, uri)
+        return run_query
+    else:
+        return rdfQuery
+
+
+def run_queries(queries, graph, lang, subject):
+    execCache = ExecCache()
+    for query in queries:
+        yield execCache(query, graph, lang, subject)
+
+
+#-----------------------------------------------------------------------
+
+
+class Filter(object):
+    def __init__(self, func):
+        self.func = func
+    def __call__(self, items):
+        return filter(self.func, items)
+
+
+class Sorter(object):
+    def __init__(self, obj=None, reverse=False, ignoreCase=False):
+        if callable(obj):
+            self.attr = None
+            self.func = obj
+        else:
+            self.attr = obj
+            self.func = None
+        self.reverse = reverse
+        self.ignoreCase = ignoreCase
+    def __call__(self, items):
+        copy = items[:]
+        copy.sort(self.sort)
+        if self.reverse:
+            copy.reverse()
+        return copy
+    def sort(self, r1, r2):
+        attr = self.attr
+        func = self.func
+        if attr:
+            v1, v2 = getattr(r1, attr, r1), getattr(r2, attr, r2)
+        elif func:
+            v1, v2 = func(r1), func(r2)
+        else:
+            v1, v2 = r1, r2
+        if self.ignoreCase:
+            v1, v2 = v1.lower(), v2.lower()
+        return cmp(v1, v2)
+
+
+#-----------------------------------------------------------------------
+
+
+# TODO: totally untested!
+#   - use: TypeSwitch(persons=Person, values=Literal)
+#   - a subclass of RdfQuery? Or affect selector..? Reasonably yes..
+#   - should adapt to if stuff is a list or one thing (one or each)
+#       - how about localized?
+#   - also should be used as list *or*:
+#       - obj.switchedstuff.persons
+#def type_switch(typeSelectors, default):
+#    rdfType = graph.value(resource, RDF.type, None, any=True)
+#    def select(graph, lang, resource, **kwargs):
+#        query = typeSelectors.get(rdfType, default)
+#        return query(graph, lang, resource, **kwargs)
+#    return select
+
+
+
+def back_from_value(graph, subject, predicate, value):
+        if isinstance(value, RdfQuery):
+            graph.add((subject, predicate, value._subject))
+            value.to_graph(graph)
+        else:
+            if not isinstance(value, list): # TODO: fix this
+                graph.add((subject, predicate, value))
+
+
+class UnarySelector(Selector):
+    def back_to_graph(self, graph, subject, value):
+        back_from_value(graph, subject, self.predicate, value)
+
+class EachSelector(Selector):
+    def back_to_graph(self, graph, subject, values):
+        for value in values:
+            back_from_value(graph, subject, self.predicate, value)
+
+
+class one(UnarySelector):
+    def select(self, graph, lang, subject):
+        return graph.value(subject, self.predicate, None, any=True)
+
+
+class each(EachSelector):
+    def select(self, graph, lang, subject):
+        return list(graph.objects(subject, self.predicate))
+
+
+class one_where_self_is(Selector):
+    def select(self, graph, lang, subject):
+        return graph.value(None, self.predicate, subject, any=True)
+
+    def back_to_graph(self, graph, subject, value):
+        back_from_value(graph, value._subject, self.predicate, subject)
+
+
+class each_where_self_is(Selector):
+    def select(self, graph, lang, subject):
+        return list(graph.subjects(self.predicate, subject))
+
+    def back_to_graph(self, graph, subject, values):
+        for value in values:
+            back_from_value(graph, value._subject, self.predicate, subject)
+
+
+class collection(Selector):
+    def __init__(self, predBase=None, subQuery=None, multiple=False):
+        Selector.__init__(self, predBase, subQuery)
+        self.multiple = multiple
+
+    def select(self, graph, lang, subject):
+        if self.multiple:
+            allItems = [graph.items(res)
+                        for res in graph.objects(subject, self.predicate)]
+            return list(chain(*allItems))
+        else:
+            return list(graph.items(
+                    graph.value(subject, self.predicate, None, any=True)
+                ))
+
+    def back_to_graph(self, graph, subject, values):
+        if not values:
+            graph.add((subject, self.predicate, RDF.nil))
+            return
+        bnode = BNode()
+        graph.add((subject, self.predicate, bnode))
+        for value in values:
+            back_from_value(graph, bnode, RDF.first, value)
+            newBnode = BNode()
+            graph.add((bnode, RDF.rest, newBnode))
+            bnode = newBnode
+        graph.add((bnode, RDF.rest, RDF.nil))
+
+
+class TypeLocalized(Selector):
+    def type_raw_value(self, value, lang):
+        if isinstance(value, basestring):
+            value = Literal(value, lang)
+        return value
+
+class localized(TypeLocalized, UnarySelector):
+    def select(self, graph, lang, subject):
+        first = None
+        for value in graph.objects(subject, self.predicate):
+            if not first: first = value
+            if getattr(value, 'language', None) == lang:
+                return value
+        return first
+
+
+# TODO: This is a hackish solution; see also below (transparently using datatype).
+#       It also reduces the literal, making it irreversible (should store original value!).
+#try:
+#    from oort.util._genshifilters import language_filtered_xml
+#except ImportError, e:
+#    warnings.warn("Could not import _genshifilters. Error was: %r. The selector 'localized_xml' will not be available." % e)
+#else:
+#    class localized_xml(UnarySelector):
+#        """This selector removes any elements with an xml:lang other than the 
+#        current language. It also supports the never standardized 'rdf-wrapper' in 
+#        XML Literals, who are removed from the output.
+
+#        Important! This is currently tied to the Genshi Templating System, and may 
+#        not work as expected in all cases."""
+
+#        def select(self, graph, lang, subject):
+#            return language_filtered_xml(
+#                    graph.objects(subject, self.predicate), lang)
+
+#        def type_raw_value(self, value, lang):
+#            if isinstance(value, basestring):
+#                value = Literal(value, datatype=RDF.XMLLiteral)
+#            return value
+
+class i18n_dict(Selector):
+    def select(self, graph, lang, subject):
+        valueDict = {}
+        for value in graph.objects(subject, self.predicate):
+            valueDict[value.language] = value
+        return valueDict
+
+    def back_to_graph(self, graph, subject, value):
+        for lang, text in value.items():
+            graph.add((subject, self.predicate, Literal(text, lang=lang)))
+
+
+class each_localized(TypeLocalized, EachSelector):
+    def select(self, graph, lang, subject):
+        return [ value for value in graph.objects(subject, self.predicate)
+                 if value.language == lang ]
+
+
+#-----------------------------------------------------------------------
+
+
+# TODO: Though "widely used" (by me), I think this was a little premature.
+# There seems little use for this that a regular property can't do (getting the
+# graph, lang and subject from self -- where needed). Perhaps I should include
+# a memoized codeutil so it's easy to create lazily calculated bigger things.
+#
+# Even worse, this "utility" bypasses _process_for_subqueries, which is
+# intricate and very close to the implementation. And this is the only reason
+# retreive_result is marked as a "default_method"; it should reasonably be
+# private.
+#
+class selector(Selector):
+    "Use as decorator for methods of an RdfQuery subclass to convert them to selectors."
+    def __init__(self, func):
+        super(selector, self).__init__(None)
+        self.func = func
+    def retreive_result(self, rdfQueryInstance, selectArgs):
+        return self.func(rdfQueryInstance, *selectArgs)
+    @classmethod
+    def filtered_by(cls, *filters):
+        def decorator(func):
+            sel = cls(func)
+            for fltr in filters:
+                sel.add_filter(fltr)
+            return sel
+        return decorator
+
+
+#-----------------------------------------------------------------------
+# TODO: consider returning ElementTree data for XML Literals. And if so, also
+# filtered on u'{http://www.w3.org/XML/1998/namespace}lang' (keep if none) for localized.
+
+# TODO: also consider checking datatype and coercing (at least) these:
+# Use: rdflib.Literal.castPythonToLiteral
+# See: rdflib.sparql.sparqlOperators.getLiteralValue(v)
+# See: <http://en.wikipedia.org/wiki/RDFLib#RDF_Literal_Support>
+# - NOTE: Isn't this done automatically by rdflib now? I believe so.
+
+
+#-----------------------------------------------------------------------
+
+
+class QueryContext(object):
+    """
+    A query context, used to provide a managed context for query execution.
+
+    Initalized with:
+
+    -   graph
+    -   language or getter for language
+    -   a set of queries or a modules containing queries
+        Accessible as attributes on the context or via view_for using RDF_TYPE
+
+    """
+
+    def __init__(self, graph, langobj, queries=None, query_modules=None):
+        self._graph = graph
+        self._execCache = ExecCache()
+
+        if callable(langobj):
+            get_lang = langobj
+        else:
+            def get_lang(): return langobj
+        self._get_lang = get_lang
+
+        self._querydict = querydict = {}
+        if queries:
+            for query in queries:
+                querydict[query.__name__] = query
+        if query_modules:
+            for module in query_modules:
+                for name, obj in module.__dict__.items():
+                    if isinstance(obj, type) and issubclass(obj, RdfQuery):
+                        querydict[name] = obj
+
+        self._queryTypeMap = {}
+        for query in querydict.values():
+            self._queryTypeMap[query.RDF_TYPE] = query
+
+    def __getattr__(self, name):
+        try:
+            query = self._querydict[name]
+            return self._prepared_query(query)
+        except KeyError:
+            raise AttributeError("%s has no attribute '%s'" % (self, name))
+
+    def view_for(self, uriref):
+        for typeref in self._graph.objects(uriref, RDF.type):
+            query = self._queryTypeMap.get(typeref)
+            if query:
+                return self._prepared_query(query)(uriref)
+        raise KeyError("%s has no query for type '%s'" % (self, uriref))
+
+    def _prepared_query(self, query):
+        return self.PreparedQuery(self, query)
+
+    class PreparedQuery(object):
+        __slots__ = ('query', 'context')
+
+        def __init__(self, context, query):
+            self.context = context
+            self.query = query
+
+        def __call__(self, subject):
+            cx = self.context
+            return cx._execCache(self.query, cx._graph, cx._get_lang(), subject)
+
+        def find_all(self):
+            cx = self.context
+            for subject in cx._graph.subjects(RDF.type, self.query.RDF_TYPE):
+                yield cx.view_for(subject)
+
+        def find_by(self, **kwargs):
+            cx = self.context
+            return self.query.find_by(cx._graph, cx._get_lang(),
+                    execCache=cx._execCache, **kwargs)
+
+

rdfview.py

-# -*- coding: UTF-8 -*-
-#--------------------------------------------------------------------------------
-# The Oort BSD-style License
-#
-# Copyright (c) 2006, 2007 Niklas Lindström <lindstream@gmail.com>.
-#
-# All rights reserved.
-#
-# Redistribution and use in source and binary forms, with or without
-# modification, are permitted provided that the following conditions are met:
-#
-#     * Redistributions of source code must retain the above copyright notice,
-#       this list of conditions and the following disclaimer.
-#     * Redistributions in binary form must reproduce the above copyright notice,
-#       this list of conditions and the following disclaimer in the documentation
-#       and/or other materials provided with the distribution.
-#     * Neither the name of Oort nor the names of its contributors
-#       may be used to endorse or promote products derived from this software
-#       without specific prior written permission.
-#
-# THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND
-# ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
-# WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
-# DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE LIABLE FOR
-# ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
-# (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES;
-# LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON
-# ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
-# (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
-# SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
-#--------------------------------------------------------------------------------
-
-"""This module contains a system for creating rdf query classes in a mainly 
-declarative manner. These are built by subclassing ``RdfQuery`` and creating 
-class attributes by using ``Selector``:s. There are several selectors provided 
-in this module to cover all regular cases of data acquisition.
-"""
-#=======================================================================
-from itertools import chain
-from types import ModuleType
-import warnings
-from rdflib import RDF, RDFS, Namespace, URIRef, BNode, Literal
-from rdflib import ConjunctiveGraph
-from rdflib.term import Identifier
-try: import simplejson
-except ImportError: simplejson = None
-#from oort.util.code import contract
-from codeutils import contract
-#=======================================================================
-
-
-# TODO: deprecate THIS_QUERY and then remove this?
-THIS_QUERY = object()
-
-MODULE_SEP = ':'
-
-
-#-----------------------------------------------------------------------
-
-
-class Selector(object):
-    __slots__ = ('predicate', '_namespace', 'filters',
-                 '_subQueryMarker', '_finalSubQuery',
-                 '_name', '_queryClass')
-
-    def __init__(self, predBase=None, subQuery=None):
-        self.predicate = None
-        self._namespace = None
-        if isinstance(predBase, Namespace) or isinstance(predBase, ModuleType):
-            self._namespace = predBase
-        elif isinstance(predBase, URIRef):
-            self.predicate = predBase
-        self._subQueryMarker = subQuery
-        self._finalSubQuery = False
-        self.filters = []
-
-    @contract.state_change
-    def hook_into_rdf_query(self, name, queryClass):
-        self._name = name
-        self._queryClass = queryClass
-        if not self._namespace:
-            self._namespace = queryClass._namespace
-        if not self.predicate and self._namespace:
-            if isinstance(self._namespace, ModuleType):
-                self.predicate = getattr(self._namespace, name)
-            else:
-                self.predicate = self._namespace[name]
-        # TODO: not used since e.g. the selector decorator uses no predicate
-        #if not self.predicate:
-        #    raise ValueError(
-        #            "Could not determine predicate for Selector %s" % self)
-
-    def get_sub_query(self):
-        final = self._finalSubQuery
-        if final is False:
-            marker = self._subQueryMarker
-            final = marker
-            if isinstance(marker, basestring):
-                if MODULE_SEP in marker:
-                    module, marker = marker.split(MODULE_SEP)
-                else:
-                    module = self._queryClass.__module__
-                final = __import__(module, fromlist=['']).__dict__[marker]
-            elif marker is THIS_QUERY:
-                final = self._queryClass
-            self._finalSubQuery = final
-        return final
-
-    def __get__(self, rdfQueryInstance, rdfQueryOwnerClass=None):
-        if not rdfQueryInstance:
-            return self
-        prep = rdfQueryInstance._preparedSelects[self._name]
-        if not prep.hasRun:
-            result = self.retreive_result(rdfQueryInstance, prep.selectArgs)
-            for fltr in self.filters:
-                result = fltr(result)
-            prep.hasRun = True
-            prep.result = result
-        return prep.result
-
-    @contract.default_method
-    def retreive_result(self, rdfQueryInstance, selectArgs):
-        result = self._process_for_subqueries(
-                rdfQueryInstance,
-                self.select(*selectArgs),
-                *selectArgs[:2]
-            )
-        return result
-
-    def _process_for_subqueries(self, rdfQueryInstance,
-            rawresults, graph, lang):
-        returnList = isinstance(rawresults, list)
-        if not rawresults:
-            if returnList: return []
-            else: return None
-
-        subQuery = self.get_sub_query()
-        if not subQuery:
-            return rawresults
-        else:
-            # TODO: using THIS_QUERY (and no execCache?) may currently cause
-            # infinite loops..? But things are more lazy now; perhaps not..
-            run_query = query_or_cached(subQuery, rdfQueryInstance._execCache)
-            if returnList:
-                return [run_query(graph, lang, uri) for uri in rawresults]
-            else:
-                return run_query(graph, lang, rawresults)
-
-    @contract.template_method
-    def select(self, graph, lang, subject):
-        raise NotImplementedError
-        return None or []
-
-    @contract.default_method
-    def back_to_graph(self, graph, subject, value):
-        pass
-
-    def viewed_as(self, subQuery):
-        self._subQueryMarker = subQuery
-        return self
-
-    def __rshift__(self, subQuery):
-        return self.viewed_as(subQuery)
-
-    def add_filter(self, fltr):
-        self.filters.append(fltr)
-
-    def __or__(self, fltr):
-        self.add_filter(fltr)
-        return self
-
-    def __set__(self, rdfQueryInstance, value):
-        prep = rdfQueryInstance._preparedSelects[self._name]
-        lang = rdfQueryInstance._lang
-        sub = self.get_sub_query()
-        if isinstance(value, list):
-            value = [self.type_raw_value(val, lang) for val in value]
-        else:
-            value = self.type_raw_value(value, lang)
-        if sub:
-            if isinstance(value, list):
-                prep.result = [sub.from_dict(val, lang, BNode())
-                                for val in value]
-            else:
-                prep.result = sub.from_dict(value, lang, BNode())
-        else:
-            prep.result = value
-            prep.hasRun = True
-
-    @contract.default_method
-    def type_raw_value(self, value, lang):
-        # TODO: need more clever type mapping. also, allow {'_uri': ".." } to be resource?
-        if isinstance(value, basestring) and not isinstance(value, Identifier):
-            value = Literal(value)
-        return value
-
-
-class PreparedSelect(object):
-    __slots__ = ('selectArgs', 'result', 'hasRun')
-    def __init__(self, graph, lang, subject):
-        self.selectArgs = (graph, lang, subject)
-        self.result = None
-        self.hasRun = False # TODO: make configurable?
-
-
-class _rdf_query_meta(type):
-    def __init__(cls, clsName, bases, clsDict):
-        super(_rdf_query_meta, cls).__init__(clsName, bases, clsDict)
-
-        cls._selectors = selectors = {}
-        for base in bases:
-            if hasattr(base, '_selectors'):
-                selectors.update(base._selectors)
-
-        rdfBase = clsDict.get('_rdfbase_')
-        if not rdfBase:
-            for base in bases:
-                if hasattr(base, '_rdfbase_'):
-                    rdfBase = base._rdfbase_
-                    break
-        if isinstance(rdfBase, Namespace):
-            cls._namespace = rdfBase
-            if not clsDict.get('RDF_TYPE'):
-                cls.RDF_TYPE = rdfBase[clsName]
-        else:
-            cls._namespace = None # TODO: pick from type?
-
-        for key, value in clsDict.items():
-            if isinstance(value, Selector):
-                value.hook_into_rdf_query(key, cls)
-                selectors[key] = value
-
-
-class RdfQuery(object):
-    __metaclass__ = _rdf_query_meta
-
-    RDF_TYPE = RDFS.Resource
-
-    # TODO: test use of execCache propertly (it seems to work though)
-
-    def __init__(self, graph, lang, subject, execCache=None):
-        self._graph = graph
-        self._subject = subject
-        self._lang = lang
-        self._preparedSelects = self._make_prepare_selects()
-        self._execCache = execCache
-
-    def _make_prepare_selects(self):
-        prepareds = {}
-        graph, lang, subject = self._graph, self._lang, self._subject
-        for name, selector in self._selectors.items():
-            if not subject:
-                # FIXME: happens when subject is a string/Literal - wrong in 
-                # itself! Remove or signal error? As it is, it leads to 
-                # illegible errors further down!
-                # Also, why not: if subject == u'':
-                #setattr(self, name, None) # TODO:removed; see this fixme
-                continue
-            prep = PreparedSelect(graph, lang, subject)
-            prepareds[name] = prep
-        return prepareds
-
-    def __str__(self):
-        return str(self._subject)
-
-    def __eq__(self, other):
-        if isinstance(other, RdfQuery):
-            return self._subject == other._subject
-        else:
-            return self._subject == other
-
-    @classmethod
-    def bound_with(cls, subject, lang=None):
-        def bound_query(graph, _lang, _subject):
-            return cls(graph, lang or _lang, subject)
-        bound_query.query = cls
-        bound_query.__name__ = cls.__name__
-        return bound_query
-
-    @classmethod
-    def from_dict(cls, data, lang, subject):
-        graph = ConjunctiveGraph()
-        query = cls(graph, lang, subject)
-        for k, v in data.items():
-            setattr(query, k, v)
-        return query
-
-    @classmethod
-    def find_by(cls, graph, lang, execCache=None, **kwargs):
-        assert len(kwargs) == 1
-        name, value = kwargs.items()[0]
-        predicate = cls._selectors[name].predicate
-        for subject in graph.subjects(predicate, value):
-            yield query_or_cached(cls, execCache)(graph, lang, subject)
-
-    @property
-    def uri(self):
-        return self._subject
-
-    def get_selected_value(self, name):
-        return self._preparedSelects[name].result
-
-    def to_graph(self, lgraph=None):
-        subject = self._subject or BNode() # FIXME: is this ok?
-        if not subject: return # FIXME, see fixme in __init__
-
-        lgraph = ConjunctiveGraph() if lgraph is None else lgraph
-
-        for t in self._graph.objects(subject, RDF.type):
-            lgraph.add((subject, RDF.type, t))
-
-        for selector in self._selectors.values():
-            value = selector.__get__(self)
-            if not value:
-                continue
-            selector.back_to_graph(lgraph, subject, value)
-
-        # FIXME: why is this happening; how can we prevent it?
-        for t in lgraph:
-            if None in t: lgraph.remove(t)
-        return lgraph
-
-    def to_rdf(self):
-        return self.to_graph().serialize(format='pretty-xml')
-
-    def to_dict(self, keepSubject=False):
-        d = {}
-        if keepSubject:
-            # TODO: sync with new property 'uri'
-            subjectKey = isinstance(keepSubject, str) and keepSubject or 'resource'
-            subj = self._subject
-            if subj and not isinstance(subj, BNode):
-                d[subjectKey] = self._subject
-
-        for selector in self._selectors.values():
-            name = selector._name
-            value = selector.__get__(self)
-            if not value:
-                continue
-            if isinstance(value, dict):
-                d[name] = dict([(key, self.__dict_convert(val, keepSubject))
-                            for key, val in value.items()])
-            elif hasattr(value, '__iter__'):
-                d[name] = [self.__dict_convert(val, keepSubject)
-                            for val in value]
-            else:
-                d[name] = self.__dict_convert(value, keepSubject)
-            # TODO: handle xml literals
-        return d
-
-    def __dict_convert(self, value, keepSubject):
-        if isinstance(value, RdfQuery):
-            return value.to_dict(keepSubject)
-        else:
-            return unicode(value) # TODO: simple type conversions?
-
-    def to_json(self, keepSubject=False):
-        if simplejson:
-            return simplejson.dumps(self.to_dict(keepSubject))
-        else:
-            raise NotImplementedError
-
-
-#-----------------------------------------------------------------------
-
-
-# Is the use of weakref fine enough (reasonably needed to avoid cyclic
-# references and hence possible memory leaks)?
-# See: <http://docs.python.org/lib/module-weakref.html>
-from weakref import WeakValueDictionary
-
-class ExecCache(object):
-    """
-    This is a query execution cache which reuses results for the same query,
-    subject and language, avoiding multiple instances of the same query when
-    given the same subject and lang.
-    """
-    def __init__(self):
-        self.cache = WeakValueDictionary()
-    def __call__(self, query, graph, lang, subject):
-        cache = self.cache
-        key = (id(query), unicode(subject), lang)
-        #key = (query, subject, lang)
-        result = cache.get(key)
-        if not result:
-            result = query(graph, lang, subject, self)
-            cache[key] = result
-        return result
-
-
-def query_or_cached(rdfQuery, execCache):
-    if execCache:
-        def run_query(graph, lang, uri):
-            return execCache(rdfQuery, graph, lang, uri)
-        return run_query
-    else:
-        return rdfQuery
-
-
-def run_queries(queries, graph, lang, subject):
-    execCache = ExecCache()
-    for query in queries:
-        yield execCache(query, graph, lang, subject)
-
-
-#-----------------------------------------------------------------------
-
-
-class Filter(object):
-    def __init__(self, func):
-        self.func = func
-    def __call__(self, items):
-        return filter(self.func, items)
-
-
-class Sorter(object):
-    def __init__(self, obj=None, reverse=False, ignoreCase=False):
-        if callable(obj):
-            self.attr = None
-            self.func = obj
-        else:
-            self.attr = obj
-            self.func = None
-        self.reverse = reverse
-        self.ignoreCase = ignoreCase
-    def __call__(self, items):
-        copy = items[:]
-        copy.sort(self.sort)
-        if self.reverse:
-            copy.reverse()
-        return copy
-    def sort(self, r1, r2):
-        attr = self.attr
-        func = self.func
-        if attr:
-            v1, v2 = getattr(r1, attr, r1), getattr(r2, attr, r2)
-        elif func:
-            v1, v2 = func(r1), func(r2)
-        else:
-            v1, v2 = r1, r2
-        if self.ignoreCase:
-            v1, v2 = v1.lower(), v2.lower()
-        return cmp(v1, v2)
-
-
-#-----------------------------------------------------------------------
-
-
-# TODO: totally untested!
-#   - use: TypeSwitch(persons=Person, values=Literal)
-#   - a subclass of RdfQuery? Or affect selector..? Reasonably yes..
-#   - should adapt to if stuff is a list or one thing (one or each)
-#       - how about localized?
-#   - also should be used as list *or*:
-#       - obj.switchedstuff.persons
-#def type_switch(typeSelectors, default):
-#    rdfType = graph.value(resource, RDF.type, None, any=True)
-#    def select(graph, lang, resource, **kwargs):
-#        query = typeSelectors.get(rdfType, default)
-#        return query(graph, lang, resource, **kwargs)
-#    return select
-
-
-
-def back_from_value(graph, subject, predicate, value):
-        if isinstance(value, RdfQuery):
-            graph.add((subject, predicate, value._subject))
-            value.to_graph(graph)
-        else:
-            if not isinstance(value, list): # TODO: fix this
-                graph.add((subject, predicate, value))
-
-
-class UnarySelector(Selector):
-    def back_to_graph(self, graph, subject, value):
-        back_from_value(graph, subject, self.predicate, value)
-
-class EachSelector(Selector):
-    def back_to_graph(self, graph, subject, values):
-        for value in values:
-            back_from_value(graph, subject, self.predicate, value)
-
-
-class one(UnarySelector):
-    def select(self, graph, lang, subject):
-        return graph.value(subject, self.predicate, None, any=True)
-
-
-class each(EachSelector):
-    def select(self, graph, lang, subject):
-        return list(graph.objects(subject, self.predicate))
-
-
-class one_where_self_is(Selector):
-    def select(self, graph, lang, subject):
-        return graph.value(None, self.predicate, subject, any=True)
-
-    def back_to_graph(self, graph, subject, value):
-        back_from_value(graph, value._subject, self.predicate, subject)
-
-
-class each_where_self_is(Selector):
-    def select(self, graph, lang, subject):
-        return list(graph.subjects(self.predicate, subject))
-
-    def back_to_graph(self, graph, subject, values):
-        for value in values:
-            back_from_value(graph, value._subject, self.predicate, subject)
-
-
-class collection(Selector):
-    def __init__(self, predBase=None, subQuery=None, multiple=False):
-        Selector.__init__(self, predBase, subQuery)
-        self.multiple = multiple
-
-    def select(self, graph, lang, subject):
-        if self.multiple:
-            allItems = [graph.items(res)
-                        for res in graph.objects(subject, self.predicate)]
-            return list(chain(*allItems))
-        else:
-            return list(graph.items(
-                    graph.value(subject, self.predicate, None, any=True)
-                ))
-
-    def back_to_graph(self, graph, subject, values):
-        if not values:
-            graph.add((subject, self.predicate, RDF.nil))
-            return
-        bnode = BNode()
-        graph.add((subject, self.predicate, bnode))
-        for value in values:
-            back_from_value(graph, bnode, RDF.first, value)
-            newBnode = BNode()
-            graph.add((bnode, RDF.rest, newBnode))
-            bnode = newBnode
-        graph.add((bnode, RDF.rest, RDF.nil))
-
-
-class TypeLocalized(Selector):
-    def type_raw_value(self, value, lang):
-        if isinstance(value, basestring):
-            value = Literal(value, lang)
-        return value
-
-class localized(TypeLocalized, UnarySelector):
-    def select(self, graph, lang, subject):
-        first = None
-        for value in graph.objects(subject, self.predicate):
-            if not first: first = value
-            if getattr(value, 'language', None) == lang:
-                return value
-        return first
-
-
-# TODO: This is a hackish solution; see also below (transparently using datatype).
-#       It also reduces the literal, making it irreversible (should store original value!).
-#try:
-#    from oort.util._genshifilters import language_filtered_xml
-#except ImportError, e:
-#    warnings.warn("Could not import _genshifilters. Error was: %r. The selector 'localized_xml' will not be available." % e)
-#else:
-#    class localized_xml(UnarySelector):
-#        """This selector removes any elements with an xml:lang other than the 
-#        current language. It also supports the never standardized 'rdf-wrapper' in 
-#        XML Literals, who are removed from the output.
-
-#        Important! This is currently tied to the Genshi Templating System, and may 
-#        not work as expected in all cases."""
-
-#        def select(self, graph, lang, subject):
-#            return language_filtered_xml(
-#                    graph.objects(subject, self.predicate), lang)
-
-#        def type_raw_value(self, value, lang):
-#            if isinstance(value, basestring):
-#                value = Literal(value, datatype=RDF.XMLLiteral)
-#            return value
-
-class i18n_dict(Selector):
-    def select(self, graph, lang, subject):
-        valueDict = {}
-        for value in graph.objects(subject, self.predicate):
-            valueDict[value.language] = value
-        return valueDict
-
-    def back_to_graph(self, graph, subject, value):
-        for lang, text in value.items():
-            graph.add((subject, self.predicate, Literal(text, lang=lang)))
-
-
-class each_localized(TypeLocalized, EachSelector):
-    def select(self, graph, lang, subject):
-        return [ value for value in graph.objects(subject, self.predicate)
-                 if value.language == lang ]
-
-
-#-----------------------------------------------------------------------
-
-
-# TODO: Though "widely used" (by me), I think this was a little premature.
-# There seems little use for this that a regular property can't do (getting the
-# graph, lang and subject from self -- where needed). Perhaps I should include
-# a memoized codeutil so it's easy to create lazily calculated bigger things.
-#
-# Even worse, this "utility" bypasses _process_for_subqueries, which is
-# intricate and very close to the implementation. And this is the only reason
-# retreive_result is marked as a "default_method"; it should reasonably be
-# private.
-#