Class diagram can be rendered as object diagram textual syntax, and parsed back, without information loss
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14 changed files with 505 additions and 249 deletions
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@ -13,19 +13,18 @@ from services.primitives.integer_type import Integer
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def process_rule(state, lhs: UUID, rhs: UUID):
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bottom = Bottom(state)
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# : bottom.read_outgoing_elements(rhs, name)[0]
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to_delete = { name for name in bottom.read_keys(lhs) if name not in bottom.read_keys(rhs) }
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to_create = { name for name in bottom.read_keys(rhs) if name not in bottom.read_keys(lhs) }
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common = { name for name in bottom.read_keys(lhs) if name in bottom.read_keys(rhs) }
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print("to_delete:", to_delete)
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print("to_create:", to_create)
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# print("to_delete:", to_delete)
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# print("to_create:", to_create)
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return to_delete, to_create, common
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# Rewrite is performed in-place
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# Also updates the mapping in-place, to become RHS -> host
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def rewrite(state, lhs: UUID, rhs: UUID, rhs_mm: UUID, match_mapping: dict, m_to_transform: UUID, mm: UUID):
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# Rewrite is performed in-place (modifying `host_m`)
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# Also updates the `mapping` in-place, to become RHS -> host
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def rewrite(state, lhs_m: UUID, rhs_m: UUID, pattern_mm: UUID, name_mapping: dict, host_m: UUID, mm: UUID):
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bottom = Bottom(state)
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scd_metamodel_id = state.read_dict(state.read_root(), "SCD")
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@ -36,125 +35,124 @@ def rewrite(state, lhs: UUID, rhs: UUID, rhs_mm: UUID, match_mapping: dict, m_to
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assoc_type = od.get_scd_mm_assoc_node(bottom)
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modelref_type = od.get_scd_mm_modelref_node(bottom)
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m_od = od.OD(mm, m_to_transform, bottom.state)
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rhs_od = od.OD(rhs_mm, rhs, bottom.state)
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m_od = od.OD(mm, host_m, bottom.state)
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rhs_od = od.OD(pattern_mm, rhs_m, bottom.state)
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print('rhs type:', od.get_type(bottom, rhs))
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to_delete, to_create, common = process_rule(state, lhs, rhs)
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to_delete, to_create, common = process_rule(state, lhs_m, rhs_m)
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# Perform deletions
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for pattern_name_to_delete in to_delete:
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# For every name in `to_delete`, look up the name of the matched element in the host graph
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model_element_name_to_delete = match_mapping[pattern_name_to_delete]
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print('deleting', model_element_name_to_delete)
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model_el_name_to_delete = name_mapping[pattern_name_to_delete]
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# print('deleting', model_el_name_to_delete)
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# Look up the matched element in the host graph
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element_to_delete, = bottom.read_outgoing_elements(m_to_transform, model_element_name_to_delete)
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el_to_delete, = bottom.read_outgoing_elements(host_m, model_el_name_to_delete)
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# Delete
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bottom.delete_element(element_to_delete)
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bottom.delete_element(el_to_delete)
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# Remove from mapping
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del match_mapping[pattern_name_to_delete]
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del name_mapping[pattern_name_to_delete]
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# extended_mapping = dict(match_mapping) # will be extended with created elements
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# extended_mapping = dict(name_mapping) # will be extended with created elements
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edges_to_create = [] # postpone creation of edges after creation of nodes
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# Perform creations
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for pattern_name_to_create in to_create:
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print('creating', pattern_name_to_create)
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# print('creating', pattern_name_to_create)
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# We have to come up with a name for the element-to-create in the host graph
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i = 0
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while True:
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model_element_name_to_create = pattern_name_to_create + str(i) # use the label of the element in the RHS as a basis
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if len(bottom.read_outgoing_elements(m_to_transform, model_element_name_to_create)) == 0:
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model_el_name_to_create = pattern_name_to_create + str(i) # use the label of the element in the RHS as a basis
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if len(bottom.read_outgoing_elements(host_m, model_el_name_to_create)) == 0:
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break # found an available name
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# Determine the type of the thing to create
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rhs_element_to_create, = bottom.read_outgoing_elements(rhs, pattern_name_to_create)
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rhs_type = od.get_type(bottom, rhs_element_to_create)
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rhs_el_to_create, = bottom.read_outgoing_elements(rhs_m, pattern_name_to_create)
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rhs_type = od.get_type(bottom, rhs_el_to_create)
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original_type = ramify.get_original_type(bottom, rhs_type)
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if original_type != None:
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# Now get the type of the type
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if od.is_typed_by(bottom, original_type, class_type):
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# It's type is typed by Class -> it's an object
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print(' -> creating object')
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o = m_od._create_object(model_element_name_to_create, original_type)
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match_mapping[pattern_name_to_create] = model_element_name_to_create
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# print(' -> creating object')
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o = m_od._create_object(model_el_name_to_create, original_type)
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name_mapping[pattern_name_to_create] = model_el_name_to_create
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elif od.is_typed_by(bottom, original_type, attr_link_type):
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print(' -> postpone (is attribute link)')
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edges_to_create.append((pattern_name_to_create, rhs_element_to_create, original_type, 'attribute link', rhs_type, model_element_name_to_create))
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# print(' -> postpone (is attribute link)')
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edges_to_create.append((pattern_name_to_create, rhs_el_to_create, original_type, 'attribute link', model_el_name_to_create))
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elif od.is_typed_by(bottom, original_type, assoc_type):
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print(' -> postpone (is link)')
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edges_to_create.append((pattern_name_to_create, rhs_element_to_create, original_type, 'link', rhs_type, model_element_name_to_create))
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# print(' -> postpone (is link)')
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edges_to_create.append((pattern_name_to_create, rhs_el_to_create, original_type, 'link', model_el_name_to_create))
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else:
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original_type_name = od.get_object_name(bottom, mm, original_type)
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print(" -> warning: don't know about", original_type_name)
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else:
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print(" -> no original (un-RAMified) type")
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# print(" -> no original (un-RAMified) type")
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# assume the type of the object is already the original type
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# this is because primitive types (e.g., Integer) are not RAMified
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type_name = od.get_object_name(bottom, rhs_mm, rhs_type)
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type_name = od.get_object_name(bottom, pattern_mm, rhs_type)
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if type_name == "String":
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s_model = UUID(bottom.read_value(rhs_element_to_create))
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python_expr = String(s_model, bottom.state).read()
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# Assume the string is a Python expression to evaluate
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python_expr = String(UUID(bottom.read_value(rhs_el_to_create)), bottom.state).read()
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result = eval(python_expr, {}, {})
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print('result:', result)
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# Write the result into the host model.
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# This will be the *value* of an attribute. The attribute-link (connecting an object to the attribute) will be created as an edge later.
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if isinstance(result, int):
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m_od.create_integer_value(model_element_name_to_create, result)
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m_od.create_integer_value(model_el_name_to_create, result)
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elif isinstance(result, str):
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m_od.create_string_value(model_element_name_to_create, result)
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match_mapping[pattern_name_to_create] = model_element_name_to_create
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m_od.create_string_value(model_el_name_to_create, result)
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name_mapping[pattern_name_to_create] = model_el_name_to_create
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else:
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raise Exception(f"RHS element '{pattern_name_to_create}' needs to be created in host, but has no un-RAMified type, and I don't know what to do with it. It's type is", type_name)
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print('match_mapping:', match_mapping)
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print("create edges....")
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for pattern_name_to_create, rhs_element_to_create, original_type, original_type_name, rhs_type, model_element_name_to_create in edges_to_create:
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print('creating', pattern_name_to_create)
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# print("create edges....")
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for pattern_name_to_create, rhs_el_to_create, original_type, original_type_name, model_el_name_to_create in edges_to_create:
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# print('creating', pattern_name_to_create)
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if original_type_name == 'attribute link':
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print(' -> creating attribute link')
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src = bottom.read_edge_source(rhs_element_to_create)
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src_name = od.get_object_name(bottom, rhs, src)
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tgt = bottom.read_edge_target(rhs_element_to_create)
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tgt_name = od.get_object_name(bottom, rhs, tgt)
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obj_name = match_mapping[src_name] # name of object in host graph to create slot for
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attr_name = od.get_object_name(bottom, mm, original_type)
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class_name = m_od.get_class_of_object(obj_name)
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# Just when you thought the code couldn't get any dirtier:
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attribute_name = attr_name[len(class_name)+1:]
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# print(attribute_name, obj_name, match_mapping[tgt_name])
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m_od.create_slot(attribute_name, obj_name, match_mapping[tgt_name])
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# print(' -> creating attribute link')
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src = bottom.read_edge_source(rhs_el_to_create)
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src_name = od.get_object_name(bottom, rhs_m, src)
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tgt = bottom.read_edge_target(rhs_el_to_create)
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tgt_name = od.get_object_name(bottom, rhs_m, tgt)
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obj_name = name_mapping[src_name] # name of object in host graph to create slot for
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orig_attr_name = od.get_attr_name(bottom, original_type)
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m_od.create_slot(orig_attr_name, obj_name, name_mapping[tgt_name])
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elif original_type_name == 'link':
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print(' -> creating link')
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src = bottom.read_edge_source(rhs_element_to_create)
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src_name = od.get_object_name(bottom, rhs, src)
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tgt = bottom.read_edge_target(rhs_element_to_create)
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tgt_name = od.get_object_name(bottom, rhs, tgt)
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obj_name = match_mapping[src_name] # name of object in host graph to create slot for
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# print(' -> creating link')
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src = bottom.read_edge_source(rhs_el_to_create)
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src_name = od.get_object_name(bottom, rhs_m, src)
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tgt = bottom.read_edge_target(rhs_el_to_create)
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tgt_name = od.get_object_name(bottom, rhs_m, tgt)
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obj_name = name_mapping[src_name] # name of object in host graph to create slot for
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attr_name = od.get_object_name(bottom, mm, original_type)
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class_name = m_od.get_class_of_object(obj_name)
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# print(attr_name, obj_name, match_mapping[tgt_name])
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m_od.create_link(model_element_name_to_create, attr_name, obj_name, match_mapping[tgt_name])
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m_od.create_link(model_el_name_to_create, attr_name, obj_name, name_mapping[tgt_name])
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# Perform updates
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for pattern_element_name in common:
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model_element_name = match_mapping[pattern_element_name]
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print('updating', model_element_name)
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model_element, = bottom.read_outgoing_elements(m_to_transform, model_element_name)
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host_type = od.get_type(bottom, model_element)
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# Perform updates (only on values)
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for pattern_el_name in common:
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model_el_name = name_mapping[pattern_el_name]
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# print('updating', model_el_name)
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model_el, = bottom.read_outgoing_elements(host_m, model_el_name)
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host_type = od.get_type(bottom, model_el)
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if od.is_typed_by(bottom, host_type, class_type):
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print(' -> is classs')
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# print(' -> is classs')
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# nothing to do
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pass
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elif od.is_typed_by(bottom, host_type, attr_link_type):
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print(' -> is attr link')
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# print(' -> is attr link')
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# nothing to do
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pass
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elif od.is_typed_by(bottom, host_type, modelref_type):
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print(' -> is modelref')
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old_value = od.read_primitive_value(bottom, model_element, mm)
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rhs_element, = bottom.read_outgoing_elements(rhs, pattern_element_name)
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expr = od.read_primitive_value(bottom, rhs_element, rhs_mm)
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# print(' -> is modelref')
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old_value = od.read_primitive_value(bottom, model_el, mm)
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rhs_el, = bottom.read_outgoing_elements(rhs_m, pattern_el_name)
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expr = od.read_primitive_value(bottom, rhs_el, pattern_mm)
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result = eval(expr, {}, {'v': old_value})
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# print('eval result=', result)
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if isinstance(result, int):
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# overwrite the old value, in-place
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referred_model_id = UUID(bottom.read_value(model_element))
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referred_model_id = UUID(bottom.read_value(model_el))
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Integer(referred_model_id, state).create(result)
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else:
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raise Exception("Unimplemented type. Value:", result)
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else:
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raise Exception("Don't know what to do with element of type", host_type)
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