def _configure_class_restriction(Class, restriction):
if isinstance(restriction, AndRestriction):
for sub_restriction in restriction.Classes:
_configure_class_restriction(Class, sub_restriction)
elif isinstance(restriction, OneOfRestriction):pass
elif isinstance(restriction, PropertyValueRestriction):
if restriction.type == "VALUE":
introsp.description(Class).def_attr(restriction.Prop.python_name, field.LabelField, priority = _get_priority(restriction.Prop))
elif restriction.type == "ONLY":
if not restriction.Prop._is_data_property():
if isinstance(restriction.Class, ThingClass): ranges = [restriction.Class]
else:
if not hasattr(restriction.Class, "Classes"): return
ranges = restriction.Class.Classes
if len(ranges) == 1: one_of = _get_class_one_of(ranges[0])
else: one_of = None
if one_of: RangeInstanceOnly(restriction.Prop, Class, one_of)
else: RangeClassOnly (restriction.Prop, Class, ranges)
elif (restriction.type == "EXACTLY") or (restriction.type == "MAX"):
# These restrictions can make the Property functional for the given Class
# => Force the redefinition of the field type by creating an empty range restriction list
for subprop in restriction.Prop.descendant_subclasses():
prop_children_group = get_prop_children_group(subprop)
prop_children_group.range_restrictions[Class] # Create the list if not already existent
prop_children_group.changed = 1
elif isinstance(restriction, NotRestriction):
if isinstance(restriction.Class, Restriction):
_configure_class_negative_restriction(Class, restriction.Class)
def _configure_class_restriction(Class, restriction):
if isinstance(restriction, And):
for sub_restriction in restriction.Classes:
_configure_class_restriction(Class, sub_restriction)
elif isinstance(restriction, Restriction):
if restriction.type == "VALUE":
introsp.description(Class).def_attr(restriction.Prop.python_name,
field.LabelField,
priority=_get_priority(
restriction.Prop))
elif restriction.type == "ONLY":
if isinstance(restriction.Prop, ObjectPropertyClass):
if isinstance(restriction.Class, ThingClass):
ranges = [restriction.Class]
elif isinstance(restriction.Class, LogicalClassConstruct):
ranges = list(_flattened_or(restriction.Class.Classes))
else:
return
if len(ranges) == 1: one_of = _get_class_one_of(ranges[0])
else: one_of = None
if one_of: RangeInstanceOnly(restriction.Prop, Class, one_of)
else: RangeClassOnly(restriction.Prop, Class, ranges)
elif (restriction.type == "EXACTLY") or (restriction.type == "MAX"):
# These restrictions can make the Property functional for the given Class
# => Force the redefinition of the field type by creating an empty range restriction list
if restriction.cardinality == 1:
for subprop in restriction.Prop.descendants(
include_self=False):
prop_children_group = get_prop_children_group(subprop)
prop_children_group.range_restrictions[
Class] # Create the list if not already existent
prop_children_group.changed = True
elif isinstance(restriction, Not):
for sub_restriction in _flattened_or([restriction.Class]):
if isinstance(sub_restriction, Restriction):
if sub_restriction.type == SOME and isinstance(
sub_restriction.Prop, ObjectPropertyClass):
ranges = list(_flattened_or([sub_restriction.Class]))
if len(ranges) == 1: one_of = _get_class_one_of(ranges[0])
else: one_of = None
if one_of:
RangeInstanceExclusion(sub_restriction.Prop, Class,
one_of)
else:
RangeClassExclusion(sub_restriction.Prop, Class,
ranges)
def values_have_children(self):
for range_restriction in self.range_restrictions:
if isinstance(range_restriction, RangeClassOnly):
for range in range_restriction.ranges:
for subrange in range.descendant_subclasses():
#if introsp.description(subrange).children_getters: return 1
for attribute in introsp.description(subrange).attributes.values():
#if _is_field_subclass(attribute.field_class, FieldInHierarchyPane): return 1
#if is_displayed_in_hierarchy_pane(self.Prop, ): return 1
try: return issubclass(attribute.field_class, FieldInHierarchyPane)
except: return False # attribute.field_class if a func and not a class
def values_have_children(self):
for range_restriction in self.range_restrictions:
if isinstance(range_restriction, RangeClassOnly):
for range in range_restriction.ranges:
for subrange in range.descendants():
for attribute in introsp.description(
subrange).attributes.values():
try:
return issubclass(attribute.field_class,
FieldInHierarchyPane)
except:
return False # attribute.field_class if a func and not a class
def _configure_class_restriction(Class, restriction):
if isinstance(restriction, AndRestriction):
for sub_restriction in restriction.Classes:
_configure_class_restriction(Class, sub_restriction)
elif isinstance(restriction, OneOfRestriction):
pass
elif isinstance(restriction, PropertyValueRestriction):
if restriction.type == "VALUE":
introsp.description(Class).def_attr(restriction.Prop.python_name,
field.LabelField,
priority=_get_priority(
restriction.Prop))
elif restriction.type == "ONLY":
if not restriction.Prop._is_data_property():
if isinstance(restriction.Class, ThingClass):
ranges = [restriction.Class]
else:
if not hasattr(restriction.Class, "Classes"): return
ranges = restriction.Class.Classes
if len(ranges) == 1: one_of = _get_class_one_of(ranges[0])
else: one_of = None
if one_of: RangeInstanceOnly(restriction.Prop, Class, one_of)
else: RangeClassOnly(restriction.Prop, Class, ranges)
elif (restriction.type == "EXACTLY") or (restriction.type == "MAX"):
# These restrictions can make the Property functional for the given Class
# => Force the redefinition of the field type by creating an empty range restriction list
for subprop in restriction.Prop.descendant_subclasses():
prop_children_group = get_prop_children_group(subprop)
prop_children_group.range_restrictions[
Class] # Create the list if not already existent
prop_children_group.changed = 1
elif isinstance(restriction, NotRestriction):
if isinstance(restriction.Class, Restriction):
_configure_class_negative_restriction(Class, restriction.Class)
def values_have_children(self):
for range_restriction in self.range_restrictions:
if isinstance(range_restriction, RangeClassOnly):
for range in range_restriction.ranges:
for subrange in range.descendant_subclasses():
#if introsp.description(subrange).children_getters: return 1
for attribute in introsp.description(
subrange).attributes.values():
#if _is_field_subclass(attribute.field_class, FieldInHierarchyPane): return 1
#if is_displayed_in_hierarchy_pane(self.Prop, ): return 1
try:
return issubclass(attribute.field_class,
FieldInHierarchyPane)
except:
return False # attribute.field_class if a func and not a class
def define_children_groups(self):
self.changed = 0
priority = _get_priority(self.Prop)
for domain in set(self.range_restrictions):
descr = introsp.description(domain)
functional = self.Prop.is_functional_for(domain)
range_restrictions = set()
for superclass in domain.mro():
s = self.range_restrictions.get(superclass)
if s: range_restrictions.update(s)
range_instance_onlys = {
range_restriction
for range_restriction in range_restrictions
if isinstance(range_restriction, RangeInstanceOnly)
}
if range_instance_onlys:
instances = None
for range_restriction in range_instance_onlys:
if instances is None:
instances = set(range_restriction.ranges)
else:
instances.intersection_update(
set(range_restriction.ranges))
d = {instance.name: instance for instance in instances}
if functional:
d["None"] = None
descr.def_attr(self.Prop.python_name,
field.EnumField(d),
priority=priority)
else:
descr.def_attr(self.Prop.python_name,
field.EnumListField(d),
priority=priority)
else:
datatype = None
for range_restriction in range_restrictions:
if isinstance(range_restriction, RangeClassOnly):
for range in range_restriction.ranges:
if range in _PYTHON_2_DATATYPES:
datatype = range
break
if datatype:
if datatype == int:
if functional:
descr.def_attr(self.Prop.python_name,
field.IntField,
priority=priority)
else:
descr.def_attr(self.Prop.python_name,
field.IntListField,
priority=priority)
elif datatype == float:
if functional:
descr.def_attr(self.Prop.python_name,
field.FloatField,
priority=priority)
else:
descr.def_attr(self.Prop.python_name,
field.FloatListField,
priority=priority)
elif datatype == normstr:
if functional:
descr.def_attr(self.Prop.python_name,
field.StringField,
priority=priority)
else:
descr.def_attr(self.Prop.python_name,
field.StringListField,
priority=priority)
elif datatype == str:
if functional:
descr.def_attr(self.Prop.python_name,
field.TextField,
priority=priority)
else:
descr.def_attr(self.Prop.python_name,
field.StringListField,
priority=priority)
elif datatype == bool:
if functional:
descr.def_attr(self.Prop.python_name,
field.BoolField,
priority=priority)
else:
if functional:
descr.def_attr(self.Prop.python_name,
field.EntryField,
priority=priority)
else:
descr.def_attr(self.Prop.python_name,
field.EntryListField,
priority=priority)
else:
values_lister = ValuesLister(self.Prop, domain,
range_restrictions)
if _prop_use_children_group(
self.Prop,
domain) or values_lister.values_have_children():
if self.Prop.inverse_property:
inverse_attr = self.Prop.inverse_property.python_name
else:
inverse_attr = ""
if functional:
field_class = field.HierarchyOrObjectSelectorField
else:
field_class = field.HierarchyOrObjectListField
descr.def_attr(
self.Prop.python_name,
field_class,
addable_values=values_lister.available_values,
inverse_attr=inverse_attr,
priority=priority)
else:
descr.def_attr(
self.Prop.python_name,
field.ObjectSelectorField,
addable_values=values_lister.available_values,
priority=priority)
# 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 collections import defaultdict
import editobj3, editobj3.introsp as introsp, editobj3.field as field, editobj3.editor as editor
import owlready
from owlready import *
from owlready import _PYTHON_2_DATATYPES
IGNORE_DOMAINLESS_PROPERTY = False
introsp.def_attr("topObjectProperty", field.HiddenField)
descr = introsp.description(Ontology)
descr.def_attr("loaded", field.HiddenField)
descr.def_attr("name", field.HiddenField)
descr.def_attr("base_iri", field.StringField)
descr.def_attr("python_module", field.StringField)
descr.def_attr("classes", add_method="add", label="class")
descr.def_attr("imported_ontologies",
add_method="add",
label="imported_ontology")
descr.def_attr("properties", add_method="add", label="property")
descr.def_attr("instances", add_method="add")
descr.def_attr("all_disjoints", add_method="add")
descr.set_icon_filename(
os.path.join(os.path.dirname(__file__), "icons", "owl_instance.svg"))
def __str__(self): return self.name
def details(self): return "%s (%s)" % (self.name, len(self.instances))
def class_and_descendant_classes(self):
return list(set(self.Class.descendant_subclasses()))
def addable_values(self):
# return [introsp.Constructor(Class, lambda subject, Class = Class: Class(ontology = subject.ontology))
# for Class in self.class_and_descendant_classes()
# if (not _get_class_one_of(Class)) and (not _is_abstract_class(Class))]
return [introsp.NewInstanceOf(Class)
for Class in self.class_and_descendant_classes()
if (not _get_class_one_of(Class)) and (not _is_abstract_class(Class))]
descr = introsp.description(EditedInstances)
descr.set_details(EditedInstances.details)
descr.def_attr("instances", label = "", reorder_method = None, addable_values = "addable_values")
descr.def_attr("ontology" , field.HiddenField)
descr.def_attr("Class" , field.HiddenField)
descr.def_attr("name" , field.HiddenField)
class TabPaneRepartitor(editor.PaneRepartitor):
def __init__(self, instance_editor, tab_edited_class):
self.instance_editor = instance_editor
self.tab_edited_class = tab_edited_class
self._cache = {}
def is_displayed_in_other_tab(self, attribute, o_Class):
Prop = PROPS.get(attribute.name)
if Prop:
def __str__(self):
return self.name
def details(self):
return "%s (%s)" % (self.name, len(self.instances))
def addable_values(self):
return [
introsp.NewInstanceOf(Class) for Class in self.Class.descendants()
if (not _get_class_one_of(Class)) and (
not _is_abstract_class(Class))
]
descr = introsp.description(EditedInstances)
descr.set_details(EditedInstances.details)
descr.def_attr("instances",
label="",
reorder_method=None,
addable_values="addable_values")
descr.def_attr("ontology", field.HiddenField)
descr.def_attr("namespace", field.HiddenField)
descr.def_attr("Class", field.HiddenField)
descr.def_attr("name", field.HiddenField)
class TabPaneRepartitor(editor.PaneRepartitor):
def __init__(self, instance_editor, tab_edited_class):
self.instance_editor = instance_editor
self.tab_edited_class = tab_edited_class
#descr.set_icon_filename(os.path.join(os.path.dirname(__file__), "icons", "owl_class.svg"))
#descr = introsp.description_for_type(Property)
##descr.def_attr("ontology" , field.ObjectSelectorField, addable_values = _available_ontologies)
#descr.def_attr("namespace" , field.HiddenField)
#descr.def_attr("name" , field.StringField)
#descr.def_attr("python_name" , field.StringField)
#descr.def_attr("is_a" , field.HierarchyAndObjectListField, addable_values = _available_properties_and_types)
#descr.def_attr("domain" , field.HierarchyAndObjectListField, addable_values = _available_classes , reorder_method = None)
#descr.def_attr("range" , field.HierarchyAndObjectListField, addable_values = _available_classes_and_datatypes, reorder_method = None)
#descr.def_attr("inverse_property", field.ObjectSelectorField , addable_values = lambda o: [None] + _available_properties(o))
#descr.def_attr("equivalent_to" , field.HierarchyAndObjectListField, addable_values = _available_properties_and_types)
#descr.set_label(_get_label)
#descr.set_icon_filename(os.path.join(os.path.dirname(__file__), "icons", "owl_property.svg"))
descr = introsp.description(Thing)
descr.def_attr("iri", field.StringField)
descr.def_attr("namespace", field.HiddenField)
descr.def_attr("is_a", field.HiddenField)
descr.def_attr("is_instance_of", field.HiddenField)
descr.def_attr("name", field.HiddenField)
descr.def_attr("storid", field.HiddenField)
descr.def_attr("equivalent_to", field.HiddenField)
descr.def_attr("properties", field.HiddenField)
descr.def_attr("inverse_properties", field.HiddenField)
descr.set_label(_get_label)
descr.set_icon_filename(
os.path.join(os.path.dirname(__file__), "icons", "owl_instance.svg"))
descr.set_constructor(
introsp.Constructor(
lambda Class, parent: Class(namespace=parent.namespace)))
def define_children_groups(self):
self.changed = 0
priority = _get_priority(self.Prop)
for domain in set(self.range_restrictions):
descr = introsp.description(domain)
functional = self.Prop.is_functional_for(domain)
range_restrictions = set()
for superclass in domain.mro():
s = self.range_restrictions.get(superclass)
if s: range_restrictions.update(s)
range_instance_onlys = { range_restriction for range_restriction in range_restrictions if isinstance(range_restriction, RangeInstanceOnly) }
if range_instance_onlys:
instances = None
for range_restriction in range_instance_onlys:
if instances is None: instances = set(range_restriction.ranges)
else: instances.intersection_update(set(range_restriction.ranges))
d = { instance.name : instance for instance in instances }
if functional:
d["None"] = None
descr.def_attr(self.Prop.python_name, field.EnumField(d), priority = priority)
else:
descr.def_attr(self.Prop.python_name, field.EnumListField(d), priority = priority)
else:
datatype = None
for range_restriction in range_restrictions:
if isinstance(range_restriction, RangeClassOnly):
for range in range_restriction.ranges:
if range in _PYTHON_2_DATATYPES:
datatype = range
break
if datatype:
if datatype == int:
if functional: descr.def_attr(self.Prop.python_name, field.IntField , priority = priority)
else: descr.def_attr(self.Prop.python_name, field.IntListField , priority = priority)
elif datatype == float:
if functional: descr.def_attr(self.Prop.python_name, field.FloatField , priority = priority)
else: descr.def_attr(self.Prop.python_name, field.FloatListField , priority = priority)
elif datatype == normstr:
if functional: descr.def_attr(self.Prop.python_name, field.StringField , priority = priority)
else: descr.def_attr(self.Prop.python_name, field.StringListField, priority = priority)
elif datatype == str:
if functional: descr.def_attr(self.Prop.python_name, field.TextField , priority = priority)
else: descr.def_attr(self.Prop.python_name, field.StringListField, priority = priority)
elif datatype == bool:
if functional: descr.def_attr(self.Prop.python_name, field.BoolField , priority = priority)
else:
if functional: descr.def_attr(self.Prop.python_name, field.EntryField , priority = priority)
else: descr.def_attr(self.Prop.python_name, field.EntryListField , priority = priority)
else:
values_lister = ValuesLister(self.Prop, domain, range_restrictions)
if _prop_use_children_group(self.Prop, domain) or values_lister.values_have_children():
if self.Prop.inverse_property: inverse_attr = self.Prop.inverse_property.python_name
else: inverse_attr = ""
if functional: field_class = field.HierarchyOrObjectSelectorField
else: field_class = field.HierarchyOrObjectListField
descr.def_attr(self.Prop.python_name,
field_class,
addable_values = values_lister.available_values,
inverse_attr = inverse_attr,
priority = priority)
else:
descr.def_attr(self.Prop.python_name,
field.ObjectSelectorField, addable_values = values_lister.available_values,
priority = priority)
# 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 collections import defaultdict
import editobj3, editobj3.introsp as introsp, editobj3.field as field, editobj3.editor as editor
import owlready
from owlready import *
from owlready import _PYTHON_2_DATATYPES
IGNORE_DOMAINLESS_PROPERTY = False
introsp.def_attr("topObjectProperty" , field.HiddenField)
descr = introsp.description(Ontology)
descr.def_attr("loaded" , field.HiddenField)
descr.def_attr("name" , field.HiddenField)
descr.def_attr("base_iri" , field.StringField)
descr.def_attr("python_module" , field.StringField)
descr.def_attr("classes" , add_method = "add", label = "class")
descr.def_attr("imported_ontologies", add_method = "add", label = "imported_ontology")
descr.def_attr("properties" , add_method = "add", label = "property")
descr.def_attr("instances" , add_method = "add")
descr.def_attr("all_disjoints" , add_method = "add")
descr.set_icon_filename(os.path.join(os.path.dirname(__file__), "icons", "owl_instance.svg"))
def _keep_most_generic(s):
r = set()
for i in s:
for parent in i.is_a:
