from uuid import UUID from state.base import State from services.bottom.V0 import Bottom from services.primitives.integer_type import Integer from services.primitives.string_type import String # Object Diagrams service class OD: def __init__(self, type_model: UUID, model: UUID, state: State): """ Implements services for the object diagrams LTM. Implementation is done in terms of services provided by LTM-bottom. Args: type_model: The SCD-conforming class diagram that contains the types of this object diagram model: UUID of the (OD) model to manipulate """ self.type_model = type_model self.model = model self.bottom = Bottom(state) def create_object(self, name: str, class_name: str): class_node, = self.bottom.read_outgoing_elements(self.type_model, class_name) abstract_nodes = self.bottom.read_outgoing_elements(self.type_model, f"{class_name}.abstract") if len(abstract_nodes) == 1: is_abstract = self.bottom.read_value(abstract_node) else: # 'abstract' is optional attribute, default is False is_abstract = False print("class", name, "is abstract?", is_abstract) if is_abstract: raise Exception("Cannot instantiate abstract class!") object_node = self.bottom.create_node() self.bottom.create_edge(self.model, object_node, name) # attach to model self.bottom.create_edge(object_node, class_node, "Morphism") # typed-by link return object_node def get_class_of_object(self, object_name: str): object_node, = self.bottom.read_outgoing_elements(self.model, object_name) # get the object type_el, = self.bottom.read_outgoing_elements(object_node, "Morphism") for key in self.bottom.read_keys(self.type_model): type_el2, = self.bottom.read_outgoing_elements(self.type_model, key) if type_el == type_el2: return key def create_slot(self, attr_name: str, object_name: str, target_name: str): class_name = self.get_class_of_object(object_name) attr_link_name = f"{class_name}_{attr_name}" # An attribute-link is indistinguishable from an ordinary link: return self.create_link(attr_link_name, object_name, target_name) def create_integer_value(self, value: int): from services.primitives.integer_type import Integer int_node = self.bottom.create_node() integer_t = Integer(int_node, self.bottom.state) integer_t.create(value) name = 'int'+str(value) # name of the ref to the created integer # By convention, the type model must have a ModelRef named "Integer" self.create_model_ref(name, "Integer", int_node) return name # Identical to the same SCD method: def create_model_ref(self, name: str, type_name: str, model: UUID): # create element + morphism links element_node = self.bottom.create_node(str(model)) # create element node self.bottom.create_edge(self.model, element_node, name) # attach to model scd_node, = self.bottom.read_outgoing_elements(self.type_model, type_name) # retrieve type self.bottom.create_edge(element_node, scd_node, "Morphism") # create morphism link def create_link(self, assoc_name: str, src_obj_name: str, tgt_obj_name: str): src_obj_node, = self.bottom.read_outgoing_elements(self.model, src_obj_name) tgt_obj_node, = self.bottom.read_outgoing_elements(self.model, tgt_obj_name) link_edge = self.bottom.create_edge(src_obj_node, tgt_obj_node); # generate a unique name for the link i = 0; while True: link_name = f"{assoc_name}{i}" if len(self.bottom.read_outgoing_elements(self.model, link_name)) == 0: break i += 1 self.bottom.create_edge(self.model, link_edge, link_name) type_edge, = self.bottom.read_outgoing_elements(self.type_model, assoc_name) self.bottom.create_edge(link_edge, type_edge, "Morphism")