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dl_render.py
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dl_render.py
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# -*- coding: utf-8 -*-
import types
from typing import Union, Optional
from owlready2 .disjoint import AllDisjoint
from owlready2.class_construct import LogicalClassConstruct, Or, And, Not, Inverse, \
Construct, Restriction, OneOf, ConstrainedDatatype, PropertyChain
from owlready2.entity import EntityClass, ThingClass
from owlready2.annotation import AnnotationPropertyClass
from owlready2.prop import PropertyClass, ObjectPropertyClass, DataPropertyClass, ReasoningPropertyClass, \
SymmetricProperty, AsymmetricProperty, TransitiveProperty, FunctionalProperty, ReflexiveProperty, \
IrreflexiveProperty
from owlready2.namespace import owl, Ontology
import owlready2.base
_DL_SYNTAX = types.SimpleNamespace(
SUBCLASS="⊑",
EQUIVALENT_TO="≡",
NOT="¬",
DISJOINT_WITH="⊑" + " " + "¬",
EXISTS="∃",
FORALL="∀",
IN="∈",
MIN="≥",
EQUAL="=",
NOT_EQUAL="≠",
MAX="≤",
INVERSE="⁻",
AND="⊓",
TOP="⊤",
BOTTOM="⊥",
OR="⊔",
COMP="∘",
WEDGE="⋀",
IMPLIES="←",
COMMA=",",
SELF="self",
)
_FACETS = {
"length": "length",
"min_length": "minLength",
"max_length": "maxLength",
"pattern": "pattern",
"max_inclusive": "\u2264",
"max_exclusive": "\u003c",
"min_inclusive": "\u2265",
"min_exclusive": "\u003e",
"total_digits": "totalDigits",
"fraction_digits": "fractionDigits",
}
def dl_render_terminology_str(onto: Ontology, show_disjoint: bool = True, show_domain: bool = True, show_range: bool = True, show_inverse: bool = True, show_characteristics: bool = False) -> str:
s = []
if onto.annotation_properties():
s.extend(['',
"##################################",
"# Annotation properties #",
"##################################", ''])
for prop in onto.annotation_properties():
s.extend(["######### %s #########" % dl_render_concept_str(prop).center(14),
dl_render_prop_str(prop), ''])
if onto.data_properties():
s.extend(['',
"##################################",
"# Data properties #",
"##################################", ''])
for prop in onto.data_properties():
s.extend(["######### %s #########" % dl_render_concept_str(prop).center(14),
dl_render_prop_str(prop, show_domain=show_domain, show_range=show_range, show_inverse=show_inverse, show_characteristics=show_characteristics), ''])
if onto.object_properties():
s.extend(['',
"##################################",
"# Object properties #",
"##################################", ''])
for prop in onto.object_properties():
s.extend(["######### %s #########" % dl_render_concept_str(prop).center(14),
dl_render_prop_str(prop, show_domain=show_domain, show_range=show_range, show_inverse=show_inverse, show_characteristics=show_characteristics), ''])
if onto.classes():
s.extend(['',
"##################################",
"# Classes #",
"##################################", ''])
for klass in onto.classes():
s.extend(["######### %s #########" % dl_render_concept_str(klass).center(14),
dl_render_class_str(klass, show_disjoint=show_disjoint), ''])
return "\n".join(s)
def dl_render_class_str(klass: ThingClass, show_disjoint: bool = True) -> str:
s = []
if klass.equivalent_to:
s.extend(
[("%s %s %s" % (dl_render_concept_str(klass), _DL_SYNTAX.EQUIVALENT_TO, dl_render_concept_str(_))) for _ in
klass.equivalent_to])
if klass.is_a:
s.extend([("%s %s %s" % (dl_render_concept_str(klass), _DL_SYNTAX.SUBCLASS, dl_render_concept_str(_))) for _ in
klass.is_a])
if not s:
s.append("%s %s %s" % (dl_render_concept_str(klass), _DL_SYNTAX.SUBCLASS, _DL_SYNTAX.TOP))
if show_disjoint:
for disjoint in klass.disjoints():
s.append(dl_render_disjoint_str(disjoint, klass))
return "\n".join(s)
def dl_render_prop_str(prop: PropertyClass, show_domain: bool = True, show_range: bool = True, show_inverse: bool = True, show_characteristics: bool = False) -> str:
s = []
if prop.is_a:
s.extend([("%s %s %s" % (dl_render_concept_str(prop), _DL_SYNTAX.SUBCLASS, dl_render_concept_str(_))) for _ in
prop.is_a if _.namespace is not owl])
if prop.domain and show_domain:
s.extend([("%s %s .%s %s %s" % (_DL_SYNTAX.EXISTS, prop.name, _DL_SYNTAX.TOP, _DL_SYNTAX.SUBCLASS, dl_render_concept_str(_))) for _ in prop.domain])
if prop.range and show_range:
s.extend([("%s %s %s %s .%s" % (_DL_SYNTAX.TOP, _DL_SYNTAX.SUBCLASS, _DL_SYNTAX.FORALL, prop.name, dl_render_concept_str(_))) for _ in prop.range])
if prop.inverse_property and show_inverse:
s.append("%s %s %s%s" % (prop.name, _DL_SYNTAX.EQUIVALENT_TO, dl_render_concept_str(prop.inverse_property), _DL_SYNTAX.INVERSE))
if show_characteristics:
if SymmetricProperty in prop.is_a:
s.append("%s %s %s%s" % (
prop.name, _DL_SYNTAX.SUBCLASS, prop.name, _DL_SYNTAX.INVERSE))
if AsymmetricProperty in prop.is_a:
s.append("%s %s %s%s%s" % (
prop.name, _DL_SYNTAX.SUBCLASS, _DL_SYNTAX.NOT, prop.name, _DL_SYNTAX.INVERSE))
if TransitiveProperty in prop.is_a:
s.append("%s %s %s" % (dl_render_concept_str(PropertyChain([prop, prop])), _DL_SYNTAX.SUBCLASS, prop.name))
if FunctionalProperty in prop.is_a:
s.append("%s %s %s" % (_DL_SYNTAX.TOP, _DL_SYNTAX.SUBCLASS, dl_render_concept_str(prop.max(1))))
if ReflexiveProperty in prop.is_a:
s.append("%s %s %s" % (_DL_SYNTAX.TOP, _DL_SYNTAX.SUBCLASS, dl_render_concept_str(prop.has_self())))
if IrreflexiveProperty in prop.is_a:
s.append("%s %s %s" % (dl_render_concept_str(prop.has_self()), _DL_SYNTAX.SUBCLASS, _DL_SYNTAX.BOTTOM))
return "\n".join(s)
def dl_render_disjoint_str(disjoint: AllDisjoint, klass: Optional[ThingClass] = None) -> str:
if klass is None:
return "\n".join(dl_render_disjoint_str(disjoint, _) for _ in disjoint.entities)
if klass in disjoint.entities:
return "\n".join("%s %s %s" % (dl_render_concept_str(And([klass, _])), _DL_SYNTAX.SUBCLASS, _DL_SYNTAX.BOTTOM)
for _ in disjoint.entities if _ is not klass)
def dl_render_concept_str(concept: Union[Construct, EntityClass]) -> str:
this = dl_render_concept_str
if concept is None:
return _DL_SYNTAX.BOTTOM
if isinstance(concept, ThingClass):
if concept is owl.Thing:
return _DL_SYNTAX.TOP
if concept is owl.Nothing:
return _DL_SYNTAX.BOTTOM
return concept.name
if isinstance(concept, PropertyClass):
return concept.name
if isinstance(concept, LogicalClassConstruct):
s = []
for x in concept.Classes:
if isinstance(x, LogicalClassConstruct):
s.append("(" + this(x) + ")")
else:
s.append(this(x))
if isinstance(concept, Or):
return (" %s " % _DL_SYNTAX.OR).join(s)
if isinstance(concept, And):
return (" %s " % _DL_SYNTAX.AND).join(s)
if isinstance(concept, Not):
return "%s %s" % (_DL_SYNTAX.NOT, this(concept.Class))
if isinstance(concept, Inverse):
return "%s%s" % (this(concept.property), _DL_SYNTAX.INVERSE)
if isinstance(concept, Restriction):
# type map
# SOME:
# ONLY:
# VALUE:
# HAS_SELF:
# EXACTLY:
# MIN:
# MAX:
if concept.type == owlready2.base.SOME:
return "%s %s .%s" % (_DL_SYNTAX.EXISTS, this(concept.property), this(concept.value))
if concept.type == owlready2.base.ONLY:
return "%s %s .%s" % (_DL_SYNTAX.FORALL, this(concept.property), this(concept.value))
if concept.type == owlready2.base.VALUE:
return "%s %s .{%s}" % (_DL_SYNTAX.EXISTS, this(concept.property), concept.value.name if isinstance(concept.value, owl.Thing) else concept.value)
if concept.type == owlready2.base.HAS_SELF:
return "%s %s .%s" % (_DL_SYNTAX.EXISTS, this(concept.property), _DL_SYNTAX.SELF)
if concept.type == owlready2.base.EXACTLY:
return "%s %s %s .%s" % (_DL_SYNTAX.EQUAL, concept.cardinality, this(concept.property), this(concept.value))
if concept.type == owlready2.base.MIN:
return "%s %s %s .%s" % (_DL_SYNTAX.MIN, concept.cardinality, this(concept.property), this(concept.value))
if concept.type == owlready2.base.MAX:
return "%s %s %s .%s" % (_DL_SYNTAX.MAX, concept.cardinality, this(concept.property), this(concept.value))
if isinstance(concept, OneOf):
return "{%s}" % (" %s " % _DL_SYNTAX.OR).join("%s" % (_.name if isinstance(_, owl.Thing) else _) for _ in concept.instances)
if isinstance(concept, ConstrainedDatatype):
s = []
for k in _FACETS:
v = getattr(concept, k, None)
if not v is None:
s.append("%s %s" % (_FACETS[k], v))
return "%s[%s]" % (concept.base_datatype.__name__, (" %s " % _DL_SYNTAX.COMMA).join(s))
if isinstance(concept, PropertyChain):
return (" %s " % _DL_SYNTAX.COMP).join(this(_) for _ in concept.properties)
if concept in owlready2.base._universal_datatype_2_abbrev:
iri = owlready2.base._universal_abbrev_2_iri.get(owlready2.base._universal_datatype_2_abbrev.get(concept))
if iri.startswith("http://www.w3.org/2001/XMLSchema#"):
return "xsd:" + iri[33:]
hash, slash = iri.rindex('#'), iri.rindex('/')
return iri[max(hash, slash)+1:]
if owlready2.rdfs_datatype in [_.storid for _ in concept.is_a]: # rdfs:Datatype
return concept.name
raise NotImplemented