def unlink(self):
canvas = self.canvas
c1 = canvas.get_connection(self.head)
c2 = canvas.get_connection(self.tail)
if c1 and c2:
adapter = IConnect(c1.connected, self)
adapter.disconnect(self.head)
super(CommentLineItem, self).unlink()
def disconnect_subject(self, handle):
super().disconnect_subject(handle)
line = self.line
opposite = line.opposite(handle)
otc = self.get_connected(opposite)
if opposite and isinstance(otc, (ForkNodeItem, DecisionNodeItem)):
adapter = IConnect(otc, line)
adapter.decombine_nodes()
def unlink(self):
assert self.canvas
canvas = self.canvas
c1 = canvas.get_connection(self.head)
c2 = canvas.get_connection(self.tail)
if c1 and c2:
adapter = IConnect(c1.connected, self)
adapter.disconnect(self.head)
super().unlink()
def allow(self, line, handle, item, port=None):
"""
Glue line's handle to an item.
If port is not provided, then first port is used.
"""
if port is None and len(item.ports()) > 0:
port = item.ports()[0]
adapter = IConnect(item, line)
return adapter.allow(handle, port)
def __call__(self):
handle = self.handle
item = self.item
canvas = self.item.canvas
cinfo = canvas.get_connection(handle)
if self.disable:
log.debug(f"Not disconnecting {item}.{handle} (disabled)")
else:
log.debug(f"Disconnecting {item}.{handle}")
if cinfo:
adapter = IConnect(cinfo.connected, item)
adapter.disconnect(handle)
def __call__(self):
handle = self.handle
item = self.item
canvas = self.item.canvas
cinfo = canvas.get_connection(handle)
if self.disable:
log.debug("Not disconnecting %s.%s (disabled)" % (item, handle))
else:
log.debug("Disconnecting %s.%s" % (item, handle))
if cinfo:
adapter = IConnect(cinfo.connected, item)
adapter.disconnect(handle)
def connect_subject(self, handle):
line = self.line
# TODO: connect opposite side again (in case it's a join/fork or
# decision/merge node)
c1 = self.get_connected(line.head)
c2 = self.get_connected(line.tail)
if isinstance(c1, ObjectNodeItem) or isinstance(c2, ObjectNodeItem):
relation: UML.ActivityEdge = self.relationship_or_new(
UML.ObjectFlow, UML.ObjectFlow.source, UML.ObjectFlow.target)
else:
relation = self.relationship_or_new(UML.ControlFlow,
UML.ControlFlow.source,
UML.ControlFlow.target)
line.subject = relation
opposite = line.opposite(handle)
otc = self.get_connected(opposite)
if opposite and isinstance(otc, (ForkNodeItem, DecisionNodeItem)):
adapter = IConnect(otc, line)
adapter.combine_nodes()
def connect(self, sink):
"""
Create connection at handle level and at model level.
"""
handle = self.handle
item = self.item
cinfo = item.canvas.get_connection(handle)
try:
callback = DisconnectHandle(self.item, self.handle)
if cinfo and cinfo.connected is sink.item:
# reconnect only constraint - leave model intact
log.debug("performing reconnect constraint")
constraint = sink.port.constraint(item.canvas, item, handle,
sink.item)
item.canvas.reconnect_item(item, handle, constraint=constraint)
elif cinfo:
# first disconnect but disable disconnection handle as
# reconnection is going to happen
adapter = IConnect(sink.item, item)
try:
connect = adapter.reconnect
except AttributeError:
connect = adapter.connect
else:
cinfo.callback.disable = True
self.disconnect()
# new connection
self.connect_handle(sink, callback=callback)
# adapter requires both ends to be connected.
connect(handle, sink.port)
else:
# new connection
adapter = IConnect(sink.item, item)
self.connect_handle(sink, callback=callback)
adapter.connect(handle, sink.port)
except Exception as e:
log.error("Error during connect", exc_info=True)
def test_query(comment):
assert IConnect(comment, commentline)
def allow(self, sink):
adapter = IConnect(sink.item, self.item)
return adapter and adapter.allow(self.handle, sink.port)
otc = self.get_connected(opposite)
if opposite and isinstance(otc, (ForkNodeItem, DecisionNodeItem)):
adapter = IConnect(otc, line)
adapter.combine_nodes()
def disconnect_subject(self, handle):
super().disconnect_subject(handle)
line = self.line
opposite = line.opposite(handle)
otc = self.get_connected(opposite)
if opposite and isinstance(otc, (ForkNodeItem, DecisionNodeItem)):
adapter = IConnect(otc, line)
adapter.decombine_nodes()
IConnect.register(ActionItem, FlowItem)(FlowConnect)
IConnect.register(ActivityNodeItem, FlowItem)(FlowConnect)
IConnect.register(ObjectNodeItem, FlowItem)(FlowConnect)
IConnect.register(SendSignalActionItem, FlowItem)(FlowConnect)
IConnect.register(AcceptEventActionItem, FlowItem)(FlowConnect)
class FlowForkDecisionNodeConnect(FlowConnect):
"""
Abstract class with common behaviour for Fork/Join node and
Decision/Merge node.
"""
element: Union[ForkNodeItem, DecisionNodeItem]
fork_node_cls: Type[UML.ControlNode]
join_node_cls: Type[UML.ControlNode]
def _create_attribute(self, clazz, attr):
static = False
many = False
if "static" in attr.attrtype:
static = True
if "many" in attr.attrtype:
many = True
compositescreated = self.parser.GetCompositeClassesForAttr(
attr.attrname, clazz)
tail_type = None
if compositescreated:
tail_type, tail_type_item = self._find_class_by_name(
compositescreated[0])
if tail_type:
# Create an association:
# print "%s %s <@>----> %s" % (attr.attrname, static, str(compositescreated))
# The property on the tail of the association (tail_end) is owned
# by the class connected on the head_end (head_type)
head_type = clazz.gaphor_class
head_type_item = clazz.gaphor_class_item
# relation = self.element_factory.create(UML.Association)
# head_end = self.element_factory.create(UML.Property)
# head_end.lowerValue = self.element_factory.create(UML.LiteralSpecification)
# tail_end = self.element_factory.create(UML.Property)
# tail_end.name = attr.attrname
# tail_end.visibility = self._visibility(attr.attrname)
# tail_end.aggregation = 'composite'
# tail_end.lowerValue = self.element_factory.create(UML.LiteralSpecification)
# relation.package = self.diagram.namespace
# relation.memberEnd = head_end
# relation.memberEnd = tail_end
# head_end.type = head_type
# tail_end.type = tail_type
# head_type.ownedAttribute = tail_end
# tail_type.ownedAttribute = head_end
# Now the subject
# association.subject = relation
# association.head_end.subject = head_end
# association.tail_end.subject = tail_end
# Create the diagram item:
association = self.diagram.create(AssociationItem)
adapter = IConnect(head_type_item, association)
assert adapter
handle = association.handles()[0]
adapter.connect(handle)
adapter = IConnect(tail_type_item, association)
assert adapter
handle = association.handles()[-1]
adapter.connect(handle)
# Apply attribute information to the association (ends)
association.head_end.navigability = False
tail_prop = association.tail_end.subject
tail_prop.name = attr.attrname
tail_prop.visibility = self._visibility(attr.attrname)
tail_prop.aggregation = "composite"
else:
# Create a simple attribute:
# print "%s %s" % (attr.attrname, static)
prop = self.element_factory.create(UML.Property)
prop.name = attr.attrname
prop.visibility = self._visibility(attr.attrname)
prop.isStatic = static
clazz.gaphor_class.ownedAttribute = prop
# print many
import pprint
pprint.pprint(attr)
def test_query(self):
assert IConnect(self.comment, self.commentline)
