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class_construct.py
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class_construct.py
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# -*- coding: utf-8 -*-
# Owlready2
# Copyright (C) 2013-2019 Jean-Baptiste LAMY
# LIMICS (Laboratoire d'informatique médicale et d'ingénierie des connaissances en santé), UMR_S 1142
# University Paris 13, Sorbonne paris-Cité, Bobigny, France
# This program 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 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 Lesser General Public License for more details.
# You should have received a copy of the GNU Lesser General Public License
# along with this program. If not, see <http://www.gnu.org/licenses/>.
from itertools import chain
from owlready2.namespace import *
from owlready2.base import _universal_iri_2_abbrev, _universal_abbrev_2_datatype, _universal_datatype_2_abbrev
_non_negative_integer = _universal_iri_2_abbrev["http://www.w3.org/2001/XMLSchema#nonNegativeInteger"]
def _deepcopy_construct(x):
if isinstance(x, Construct): return x.__deepcopy__()
return x
class Construct(object):
def __init__(self, ontology = None, bnode = None):
self.ontology = ontology
self.storid = bnode
if ontology and not LOADING: self._create_triples(ontology)
def _set_ontology_copy_if_needed(self, ontology, l):
try: self._set_ontology(ontology)
except OwlReadySharedBlankNodeError:
new = self.__deepcopy__()
new._set_ontology(ontology)
l.__setitem__(l.index(self), new)
return new
return self
def _set_ontology(self, ontology):
if not LOADING:
if self.ontology and not ontology:
self._destroy_triples(self.ontology)
elif ontology and not self.ontology:
if self.storid is None: self.storid = ontology.world.new_blank_node()
self._create_triples(ontology)
elif ontology and self.ontology:
raise OwlReadySharedBlankNodeError("A Construct cannot be shared by two ontologies, because it correspond to a RDF blank node. Please create a dupplicate.")
self.ontology = self.namespace = ontology
if self.ontology: self.ontology._bnodes[self.storid] = self
def destroy(self): self._destroy_triples()
def _destroy_triples(self, ontology):
ontology._del_obj_triple_spo(self.storid, None, None)
ontology._del_data_triple_spod(self.storid, None, None, None)
def _create_triples (self, ontology): pass
class ClassConstruct(Construct):
def __and__(a, b): return And([a, b])
def __or__ (a, b): return Or ([a, b])
def __invert__(a): return Not(a)
def subclasses(self, only_loaded = False, include_equivalent = True):
if only_loaded:
r = []
for x in self.ontology.world._get_obj_triples_po_s(rdfs_subclassof, self.storid):
if not x < 0:
r.append(self.ontology.world._entities.get(x))
for x in self.ontology.world._get_obj_triples_po_s(owl_equivalentclass, self.storid):
if not x < 0:
r.append(self.ontology.world._entities.get(x))
return r
else:
return [
self.ontology.world._get_by_storid(x, None, ThingClass, self.ontology)
for x in chain(self.ontology.world._get_obj_triples_po_s(rdfs_subclassof, self.storid),
self.ontology.world._get_obj_triples_po_s(owl_equivalentclass, self.storid))
if not x < 0
]
def ancestors(Class, include_self = True, include_constructs = False):
if include_self and include_constructs: return { Class }
return set()
class Not(ClassConstruct):
is_a = ()
def __init__(self, Class, ontology = None, bnode = None):
super().__init__(ontology, bnode)
if not Class is None: self.__dict__["Class"] = Class
def __deepcopy__(self):
return Not(_deepcopy_construct(self.Class))
def __eq__(self, other):
return isinstance(other, Not) and (self.Class == other.Class)
def __hash__(self): return hash(self.Class)
def __repr__(self): return "Not(%s)" % (self.Class)
def __getattr__(self, attr):
if attr == "Class":
self.__dict__["Class"] = C = self.ontology._to_python(self.ontology._get_obj_triple_sp_o(self.storid, owl_complementof), default_to_none = True)
return C
return super().__getattribute__(attr)
def destroy(self):
if isinstance(self.Class, Construct): self.Class.destroy()
ClassConstruct.destory(self)
def _set_ontology(self, ontology):
if isinstance(self.Class, Construct): self.Class._set_ontology(ontology)
super()._set_ontology(ontology)
def __setattr__(self, attr, value):
super().__setattr__(attr, value)
if (attr == "Class") and self.ontology: self._create_triples(self.ontology)
def _create_triples(self, ontology):
ClassConstruct._create_triples(self, ontology)
ontology._set_obj_triple_spo(self.storid, rdf_type, owl_class)
ontology._set_obj_triple_spo(self.storid, owl_complementof, self.Class.storid)
def _satisfied_by(self, x):
return not self.Class._satisfied_by(x)
class Inverse(ClassConstruct):
is_a = ()
def __new__(Class, Property, ontology = None, bnode = None, simplify = True):
if simplify:
if isinstance(Property, Inverse): return Property.property
if Property.inverse_property: return Property.inverse_property
return object.__new__(Class)
def __eq__(self, other):
return isinstance(other, Inverse) and (self.property == other.property)
def __hash__(self): return hash(self.property)
def __init__(self, Property, ontology = None, bnode = None, simplify = True):
super().__init__(ontology, bnode)
self.__dict__["property"] = Property
def __deepcopy__(self):
return Inverse(_deepcopy_construct(self.property))
def __repr__(self): return "Inverse(%s)" % (self.property)
def __setattr__(self, attr, value):
super().__setattr__(attr, value)
if (attr == "property") and self.ontology: self._create_triples(self.ontology)
def _create_triples(self, ontology):
ClassConstruct._create_triples(self, ontology)
ontology._set_obj_triple_spo(self.storid, owl_inverse_property, self.property.storid)
def some (self, value): return Restriction(self, SOME , None, value)
def only (self, value): return Restriction(self, ONLY , None, value)
def value (self, value): return Restriction(self, VALUE , None, value)
def exactly(self, nb, value = None): return Restriction(self, EXACTLY, nb , value)
def min (self, nb, value = None): return Restriction(self, MIN , nb , value)
def max (self, nb, value = None): return Restriction(self, MAX , nb , value)
class LogicalClassConstruct(ClassConstruct):
def __init__(self, Classes, ontology = None, bnode = None):
if isinstance(Classes, int):
self._list_bnode = Classes
else:
self._list_bnode = None
self.Classes = CallbackList(Classes, self, LogicalClassConstruct._callback)
ClassConstruct.__init__(self, ontology, bnode)
def __deepcopy__(self):
return self.__class__([_deepcopy_construct(c) for c in self.Classes])
def __eq__(self, other):
return isinstance(other, self.__class__) and (set(self.Classes) == set(other.Classes))
def __hash__(self): return hash(frozenset(self.Classes))
def __rshift__(Domain, Range):
import owlready2.prop
owlready2.prop._next_domain_range = (Domain, Range)
if isinstance(Range, ThingClass) or isinstance(Range, Construct):
return owlready2.prop.ObjectProperty
else:
return owlready2.prop.DataProperty
def _set_ontology(self, ontology):
if ontology and (self._list_bnode is None):
self._list_bnode = ontology.world.new_blank_node()
for Class in self.Classes:
if isinstance(Class, Construct): Class._set_ontology(ontology)
super()._set_ontology(ontology)
def __getattr__(self, attr):
if attr == "Classes":
self.Classes = CallbackList(self.ontology._parse_list(self._list_bnode), self, LogicalClassConstruct._callback)
return self.Classes
return super().__getattribute__(attr)
def _invalidate_list(self):
try: del self.Classes
except: pass
def _callback(self, old):
if self.ontology:
self._destroy_triples(self.ontology)
for i in self.Classes:
if isinstance(i, Construct) and (i.ontology is None): i._set_ontology(self.ontology)
self._create_triples (self.ontology)
def _destroy_triples(self, ontology):
ClassConstruct._destroy_triples(self, ontology)
ontology._del_list(self._list_bnode)
def _create_triples(self, ontology):
ClassConstruct._create_triples(self, ontology)
if self.Classes and (self.Classes[0] in _universal_datatype_2_abbrev):
ontology._add_obj_triple_spo(self.storid, rdf_type, rdfs_datatype)
else:
ontology._add_obj_triple_spo(self.storid, rdf_type, owl_class)
ontology._add_obj_triple_spo(self.storid, self._owl_op, self._list_bnode)
ontology._set_list(self._list_bnode, self.Classes)
def __repr__(self):
s = []
for x in self.Classes:
if isinstance(x, LogicalClassConstruct): s.append("(%s)" % x)
else: s.append(repr(x))
if (len(s) <= 1): return "%s([%s])" % (self.__class__.__name__, ", ".join(s))
return self._char.join(s)
class Or(LogicalClassConstruct):
_owl_op = owl_unionof
_char = " | "
is_a = ()
def __or__ (self, b):
return Or([*self.Classes, b])
def _satisfied_by(self, x):
for Class in self.Classes:
if Class._satisfied_by(x): return True
return False
class And(LogicalClassConstruct):
_owl_op = owl_intersectionof
_char = " & "
def __and__ (self, b):
return And([*self.Classes, b])
def _satisfied_by(self, x):
for Class in self.Classes:
if not Class._satisfied_by(x): return False
return True
def get_is_a(self): return self.Classes
is_a = property(get_is_a)
_qualified_2_non_qualified = {
EXACTLY : owl_cardinality,
MIN : owl_min_cardinality,
MAX : owl_max_cardinality,
}
_restriction_type_2_label = {
SOME : "some",
ONLY : "only",
VALUE : "value",
HAS_SELF: "has_self",
EXACTLY : "exactly",
MIN : "min",
MAX : "max",
}
class Restriction(ClassConstruct):
is_a = ()
def __init__(self, Property, type, cardinality = None, value = None, ontology = None, bnode = None):
self.__dict__["property"] = Property
self.__dict__["type"] = type
self.__dict__["cardinality"] = cardinality
if (not value is None) or (not bnode):
if value is None: value = Thing
self.__dict__["value"] = value
super().__init__(ontology, bnode)
def __deepcopy__(self):
return Restriction(_deepcopy_construct(self.property), _deepcopy_construct(self.type), self.cardinality, _deepcopy_construct(self.value))
def __eq__(self, other):
return isinstance(other, Restriction) and (self.type == other.type) and (self.property is other.property) and (self.value == other.value) and (self.cardinality == other.cardinality)
def __hash__(self): return hash((self.type, self.property, self.value, self.cardinality))
def __repr__(self):
if (self.type == SOME) or (self.type == ONLY) or (self.type == VALUE) or (self.type == HAS_SELF):
return """%s.%s(%s)""" % (self.property, _restriction_type_2_label[self.type], repr(self.value))
else:
return """%s.%s(%s, %s)""" % (self.property, _restriction_type_2_label[self.type], self.cardinality, repr(self.value))
def _set_ontology(self, ontology):
if isinstance(self.property, Construct): self.property._set_ontology(ontology)
if isinstance(self.value, Construct): self.value ._set_ontology(ontology)
super()._set_ontology(ontology)
def _create_triples(self, ontology):
ClassConstruct._create_triples(self, ontology)
ontology._add_obj_triple_spo(self.storid, rdf_type, owl_restriction)
ontology._add_obj_triple_spo(self.storid, owl_onproperty, self.property.storid)
if (self.type == SOME) or (self.type == ONLY) or (self.type == VALUE) or (self.type == HAS_SELF):
if not self.value is None:
o, d = ontology.world._to_rdf(self.value)
if d is None: ontology._add_obj_triple_spo (self.storid, self.type, o)
else: ontology._add_data_triple_spod(self.storid, self.type, o, d)
else:
if (self.value is None) or (self.value is Thing):
if not self.cardinality is None: ontology._add_data_triple_spod(self.storid, _qualified_2_non_qualified[self.type], self.cardinality, _non_negative_integer)
else:
if not self.cardinality is None: ontology._add_data_triple_spod(self.storid, self.type, self.cardinality, _non_negative_integer)
o, d = ontology.world._to_rdf(self.value)
if self.value in _universal_datatype_2_abbrev:
ontology._add_obj_triple_spo(self.storid, owl_ondatarange, o)
else:
ontology._add_obj_triple_spo(self.storid, owl_onclass, o)
def __getattr__(self, attr):
if attr == "value":
if (self.type == SOME) or (self.type == ONLY) or (self.type == HAS_SELF):
v = self.ontology._get_obj_triple_sp_o(self.storid, self.type)
v = self.__dict__["value"] = self.ontology.world._to_python(v, None, default_to_none = True)
elif self.type == VALUE:
v, d = self.ontology._get_triple_sp_od(self.storid, self.type)
v = self.__dict__["value"] = self.ontology.world._to_python(v, d, default_to_none = True)
else:
v = self.ontology._get_obj_triple_sp_o(self.storid, owl_onclass) or self.ontology._get_obj_triple_sp_o(self.storid, owl_ondatarange)
if v is None:
v = self.__dict__["value"] = Thing
else:
v = self.__dict__["value"] = self.ontology.world._to_python(v, default_to_none = True)
return v
return super().__getattribute__(attr)
def __setattr__(self, attr, v):
super().__setattr__(attr, v)
if ((attr == "property") or (attr == "type") or (attr == "cardinality") or (attr == "value")) and self.ontology:
_loaded_attr_values = self.type, self.cardinality, self.property, self.value # Needed to ensure that the attribute values are available later in _create_triples()
self._destroy_triples(self.ontology)
if (attr == "value") and isinstance(v, Construct) and (not v.ontology): v._set_ontology(self.ontology)
self._create_triples (self.ontology)
def _satisfied_by(self, x):
if isinstance(x, EntityClass): return True # XXX not doable on classes
values = self.property[x]
if self.type == SOME:
for obj in values:
if self.value._satisfied_by(obj): return True
return False
elif self.type == ONLY:
for obj in values:
if not self.value._satisfied_by(obj): return False
return True
elif self.type == VALUE:
for obj in values:
if obj is self.value: return True
return False
elif self.type == HAS_SELF:
return x in values
else:
nb = 0
for obj in values:
if self.value._satisfied_by(obj): nb += 1
if self.type == MIN: return nb >= self.cardinality
elif self.type == MAX: return nb <= self.cardinality
elif self.type == EXACTLY: return nb == self.cardinality
class OneOf(ClassConstruct):
is_a = ()
def __init__(self, instances, ontology = None, bnode = None):
if isinstance(instances, int):
self._list_bnode = instances
else:
self._list_bnode = None
self.instances = CallbackList(instances, self, OneOf._callback)
ClassConstruct.__init__(self, ontology, bnode)
def __deepcopy__(self):
return OneOf(self.instances)
def __eq__(self, other):
return isinstance(other, OneOf) and (set(self.instances) == set(other.instances))
def __hash__(self): return hash(frozenset(self.instances))
def __getattr__(self, attr):
if attr == "instances":
self.instances = CallbackList(self.ontology._parse_list(self._list_bnode), self, OneOf._callback)
return self.instances
return super().__getattribute__(attr)
def _invalidate_list(self):
try: del self.instances
except: pass
def _callback(self, old):
if self.ontology:
self._destroy_triples(self.ontology)
self._create_triples (self.ontology)
def _destroy_triples(self, ontology):
ClassConstruct._destroy_triples(self, ontology)
ontology._del_list(self._list_bnode)
def _create_triples(self, ontology):
if ontology and (self._list_bnode is None): self._list_bnode = ontology.world.new_blank_node()
ClassConstruct._create_triples(self, ontology)
if self.instances and (not hasattr(self.instances[0], "storid")):
ontology._set_obj_triple_spo(self.storid, rdf_type, rdfs_datatype)
else:
ontology._set_obj_triple_spo(self.storid, rdf_type, owl_class)
ontology._set_obj_triple_spo(self.storid, owl_oneof, self._list_bnode)
ontology._set_list(self._list_bnode, self.instances)
def _satisfied_by(self, x): return x in self.instances
def __repr__(self): return "OneOf([%s])" % ", ".join(repr(x) for x in self.instances)
class PropertyChain(Construct):
def __init__(self, Properties, ontology = None):
if isinstance(Properties, int):
Construct.__init__(self, ontology, Properties)
else:
self.properties = CallbackList(Properties, self, PropertyChain._callback)
Construct.__init__(self, ontology, None)
def _set_ontology(self, ontology):
super()._set_ontology(ontology)
for Prop in self.properties:
if hasattr(Prop, "_set_ontology"): Prop._set_ontology(ontology)
def __getattr__(self, attr):
if attr == "properties":
self.properties = CallbackList(self.ontology._parse_list(self.storid), self, PropertyChain._callback)
return self.properties
return super().__getattribute__(attr)
def _invalidate_list(self):
try: del self.properties
except: pass
def _callback(self, old):
if self.ontology:
self._destroy_triples(self.ontology)
self._create_triples (self.ontology)
def _destroy_triples(self, ontology):
ontology._del_list(self.storid)
def _create_triples(self, ontology):
ontology._set_list(self.storid, self.properties)
def __repr__(self):
return "PropertyChain([%s])" % (", ".join(repr(x) for x in self.properties))
_PY_FACETS = {}
_RDFS_FACETS = {}
def _facets(py_name, rdfs_name, value_datatype, value_datatype_abbrev):
_PY_FACETS [py_name ] = (rdfs_name, value_datatype, value_datatype_abbrev)
_RDFS_FACETS[rdfs_name] = (py_name , value_datatype, value_datatype_abbrev)
_facets("length", xmls_length, int, _universal_iri_2_abbrev["http://www.w3.org/2001/XMLSchema#nonNegativeInteger"])
_facets("min_length", xmls_minlength, int, _universal_iri_2_abbrev["http://www.w3.org/2001/XMLSchema#nonNegativeInteger"])
_facets("max_length", xmls_maxlength, int, _universal_iri_2_abbrev["http://www.w3.org/2001/XMLSchema#nonNegativeInteger"])
_facets("pattern", xmls_pattern, str, _universal_iri_2_abbrev["http://www.w3.org/2001/XMLSchema#string"])
_facets("white_space", xmls_whitespace, str, "")
_facets("max_inclusive", xmls_maxinclusive, int, "__datatype__")
_facets("max_exclusive", xmls_maxexclusive, int, "__datatype__")
_facets("min_inclusive", xmls_mininclusive, int, "__datatype__")
_facets("min_exclusive", xmls_minexclusive, int, "__datatype__")
_facets("total_digits", xmls_totaldigits, int, _universal_iri_2_abbrev["http://www.w3.org/2001/XMLSchema#positiveInteger"])
_facets("fraction_digits", xmls_fractiondigits, int, _universal_iri_2_abbrev["http://www.w3.org/2001/XMLSchema#nonNegativeInteger"])
class ConstrainedDatatype(ClassConstruct):
def __init__(self, base_datatype, ontology = None, bnode = None, list_bnode = None, **kargs):
ClassConstruct.__init__(self, ontology, bnode)
self.__dict__["base_datatype"] = base_datatype
self._list_bnode = list_bnode
if list_bnode:
l = ontology._parse_list_as_rdf(list_bnode)
for bn, dropit in l:
for p,o,d in ontology._get_data_triples_s_pod(bn):
if p in _RDFS_FACETS:
py_name, value_datatype, value_datatype_abbrev = _RDFS_FACETS[p]
self.__dict__[py_name] = from_literal(o, d)
else:
for k, v in kargs.items():
if not k in _PY_FACETS: raise ValueError("No facet '%s'!" % k)
self.__dict__[k] = v
def __deepcopy__(self):
facets = { k : v for (k, v) in self.__dict__.items() if k in _PY_FACETS }
return ConstrainedDatatype(_deepcopy_construct(self.base_datatype), **facets)
def __setattr__(self, attr, value):
self.__dict__[attr] = value
if (not LOADING) and self.ontology and ((attr in _PY_FACETS) or (attr == "base_datatype")):
self._destroy_triples(self.ontology)
self._create_triples (self.ontology)
def __repr__(self):
s = []
for k in _PY_FACETS:
v = getattr(self, k, None)
if not v is None:
s.append("%s = %s" % (k, v))
return "ConstrainedDatatype(%s, %s)" % (self.base_datatype.__name__, ", ".join(s))
def _destroy_triples(self, ontology):
ClassConstruct._destroy_triples(self, ontology)
ontology._del_list(self._list_bnode)
def _create_triples (self, ontology):
ClassConstruct._create_triples(self, ontology)
if self._list_bnode is None: self._list_bnode = ontology.world.new_blank_node()
ontology._set_obj_triple_spo(self.storid, rdf_type, rdfs_datatype)
ontology._set_obj_triple_spo(self.storid, owl_ondatatype, _universal_datatype_2_abbrev[self.base_datatype])
ontology._set_obj_triple_spo(self.storid, owl_withrestrictions, self._list_bnode)
l = []
for k, (rdfs_name, value_datatype, value_datatype_abbrev) in _PY_FACETS.items():
v = getattr(self, k, None)
if not v is None:
if value_datatype_abbrev == "__datatype__":
value_datatype_abbrev = _universal_datatype_2_abbrev[self.base_datatype]
bn = ontology.world.new_blank_node()
ontology._set_data_triple_spod(bn, rdfs_name, v, value_datatype_abbrev)
l.append((bn, None))
ontology._set_list_as_rdf(self._list_bnode, l)