from state.base import State from uuid import UUID from services.bottom.V0 import Bottom from services.scd import SCD from framework.conformance import Conformance def ramify(state: State, model: UUID) -> UUID: def print_tree(root, max_depth, depth=0): print(" "*depth, "root=", root, "value=", state.read_value(root)) src,tgt = state.read_edge(root) if src != None: print(" "*depth, "src...") print_tree(src, max_depth, depth+1) if tgt != None: print(" "*depth, "tgt...") print_tree(tgt, max_depth, depth+1) for edge in state.read_outgoing(root): for edge_label in state.read_outgoing(edge): [_,tgt] = state.read_edge(edge_label) label = state.read_value(tgt) print(" "*depth, " key:", label) [_, tgt] = state.read_edge(edge) value = state.read_value(tgt) if value != None: print(" "*depth, " ->", tgt, " (value:", value, ")") else: print(" "*depth, " ->", tgt) if depth < max_depth: if isinstance(value, str) and len(value) == 36: i = None try: i = UUID(value) except ValueError as e: # print("invalid UUID:", value) pass if i != None: print_tree(i, max_depth, depth+1) print_tree(tgt, max_depth, depth+1) bottom = Bottom(state) scd_metamodel_id = state.read_dict(state.read_root(), "SCD") scd_metamodel = UUID(state.read_value(scd_metamodel_id)) class_upper_card_node, = bottom.read_outgoing_elements(scd_metamodel, "Class_upper_cardinality") src_upper_card_node, = bottom.read_outgoing_elements(scd_metamodel, "Association_source_upper_cardinality") tgt_upper_card_node, = bottom.read_outgoing_elements(scd_metamodel, "Association_target_upper_cardinality") attr_link_node, = bottom.read_outgoing_elements(scd_metamodel, "AttributeLink") attr_link_name_node, = bottom.read_outgoing_elements(scd_metamodel, "AttributeLink_name") glob_constr_node, = bottom.read_outgoing_elements(scd_metamodel, "GlobalConstraint") inheritance_node, = bottom.read_outgoing_elements(scd_metamodel, "Inheritance") string_type_id = state.read_dict(state.read_root(), "String") string_type = UUID(state.read_value(string_type_id)) scd = SCD(model, state) # print_tree(model, 2) # for el in SCD(scd_metamodel, state).list_elements(): # print(el) def find_outgoing_typed_by(src: UUID, type_node: UUID): edges = [] for outgoing_edge in bottom.read_outgoing_edges(src): for typedBy in bottom.read_outgoing_elements(outgoing_edge, "Morphism"): if typedBy == type_node: edges.append(outgoing_edge) break return edges def navigate_modelref(node: UUID): uuid = bottom.read_value(node) return UUID(uuid) def find_cardinality(class_node: UUID, type_node: UUID): upper_card_edges = find_outgoing_typed_by(class_node, type_node) if len(upper_card_edges) == 1: ref = bottom.read_edge_target(upper_card_edges[0]) integer, = bottom.read_outgoing_elements( navigate_modelref(ref), "integer") # finally, the value we're looking for: return bottom.read_value(integer) def get_attributes(class_node: UUID): attr_edges = find_outgoing_typed_by(class_node, attr_link_node) result = [] for attr_edge in attr_edges: name_edge, = find_outgoing_typed_by(attr_edge, attr_link_name_node) if name_edge == None: raise Exception("Expected attribute to have a name...") ref_name = bottom.read_edge_target(name_edge) string, = bottom.read_outgoing_elements( navigate_modelref(ref_name), "string") attr_name = bottom.read_value(string) ref_type = bottom.read_edge_target(attr_edge) typ = navigate_modelref(ref_type) result.append((attr_name, attr_edge)) return result ramified = state.create_node() ramified_scd = SCD(ramified, state) string_modelref = ramified_scd.create_model_ref("String", string_type) print() classes = scd.get_classes() for class_name, class_node in classes.items(): # For every class in our original model, create a class: # - abstract: False # - min-card: 0 # - max-card: same as original upper_card = find_cardinality(class_node, class_upper_card_node) print('creating class', class_name, "with card 0 ..", upper_card) ramified_class = ramified_scd.create_class(class_name, abstract=None, max_c=upper_card) # traceability link bottom.create_edge(ramified_class, class_node, "RAMifies") for (attr_name, attr_edge) in get_attributes(class_node): print(' creating attribute', attr_name, "with type String") # Every attribute becomes 'string' type # The string will be a Python expression ramified_attr_link = ramified_scd._create_attribute_link(class_name, string_modelref, attr_name, optional=False) # traceability link bottom.create_edge(ramified_attr_link, attr_edge, "RAMifies") associations = scd.get_associations() for assoc_name, assoc_node in associations.items(): # For every association in our original model, create an association: # - src-min-card: 0 # - src-max-card: same as original # - tgt-min-card: 0 # - tgt-max-card: same as original src_upper_card = find_cardinality(assoc_node, src_upper_card_node) tgt_upper_card = find_cardinality(assoc_node, tgt_upper_card_node) src = scd.get_class_name(bottom.read_edge_source(assoc_node)) tgt = scd.get_class_name(bottom.read_edge_target(assoc_node)) print('creating assoc', src, "->", tgt, ", name =", assoc_name, ", src card = 0 ..", src_upper_card, "and tgt card = 0 ..", tgt_upper_card) ramified_assoc = ramified_scd.create_association(assoc_name, src, tgt, src_max_c=src_upper_card, tgt_max_c=tgt_upper_card) # traceability link bottom.create_edge(ramified_assoc, assoc_node, "RAMifies") for inh_name, inh_node in scd.get_inheritances().items(): # Re-create inheritance links like in our original model: src = scd.get_class_name(bottom.read_edge_source(inh_node)) tgt = scd.get_class_name(bottom.read_edge_target(inh_node)) print('creating inheritance link', src, '->', tgt) ramified_inh_link = ramified_scd.create_inheritance(src, tgt) # The RAMified meta-model should also conform to 'SCD': conf = Conformance(state, ramified, scd_metamodel) print("conforms?", conf.check_nominal(log=True)) return ramified