Implemented RAMification
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8be7d6a450
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7bda71dc1f
3 changed files with 228 additions and 31 deletions
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@ -26,6 +26,13 @@ def main():
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def print_tree(root, max_depth, depth=0):
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print(" "*depth, "root=", root, "value=", state.read_value(root))
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src,tgt = state.read_edge(root)
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if src != None:
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print(" "*depth, "src...")
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print_tree(src, max_depth, depth+1)
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if tgt != None:
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print(" "*depth, "tgt...")
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print_tree(tgt, max_depth, depth+1)
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for edge in state.read_outgoing(root):
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for edge_label in state.read_outgoing(edge):
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[_,tgt] = state.read_edge(edge_label)
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@ -50,19 +57,21 @@ def main():
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print_tree(tgt, max_depth, depth+1)
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print("explore...")
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print_tree(root, 2)
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# print_tree(root, 2)
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int_type_id = state.read_dict(state.read_root(), "Integer")
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int_type = UUID(state.read_value(int_type_id))
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scd2 = SCD(scd_node, state)
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for el in scd2.list_elements():
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print(el)
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# scd2 = SCD(scd_node, state)
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# for el in scd2.list_elements():
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# print(el)
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model_id = state.create_node()
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scd = SCD(model_id, state)
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scd.create_class("A")
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scd.create_class("Abstract", abstract=True)
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scd.create_class("A", min_c=1, max_c=10)
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scd.create_inheritance("A", "Abstract")
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scd.create_model_ref("Integer", int_type)
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scd.create_attribute_link("A", "Integer", "size", False)
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scd.create_class("B")
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@ -73,7 +82,7 @@ def main():
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tgt_max_c=2,
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)
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print_tree(model_id, 2)
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# print_tree(model_id, 3)
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conf = Conformance(state, model_id, scd_node)
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@ -95,9 +104,9 @@ def main():
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print("checking conformance....")
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conf2 = Conformance(state, inst_id, model_id)
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print(conf2.check_nominal(log=True))
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print("conforms?", conf2.check_nominal(log=True))
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# ramify(state, model_id)
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ramify(state, model_id)
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if __name__ == "__main__":
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main()
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@ -90,6 +90,15 @@ class SCD:
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Returns:
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Nothing.
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"""
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src, = self.bottom.read_outgoing_elements(self.model, source)
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tgt, = self.bottom.read_outgoing_elements(self.model, target)
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return self._create_association(name, src, tgt,
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src_min_c, src_max_c,
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tgt_min_c, tgt_max_c)
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def _create_association(self, name: str, source: UUID, target: UUID,
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src_min_c: int = None, src_max_c: int = None,
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tgt_min_c: int = None, tgt_max_c: int = None):
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def set_cardinality(bound: str, value: int):
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# similar to set_cardinality function defined in create_class
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@ -105,10 +114,7 @@ class SCD:
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self.bottom.create_edge(_c_link, _scd_link, "Morphism")
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# create association + attributes + morphism links
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assoc_edge = self.bottom.create_edge(
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*self.bottom.read_outgoing_elements(self.model, source),
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*self.bottom.read_outgoing_elements(self.model, target),
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) # create assoc edge
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assoc_edge = self.bottom.create_edge(source, target) # create assoc edge
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self.bottom.create_edge(self.model, assoc_edge, name) # attach to model
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scd_node, = self.bottom.read_outgoing_elements(self.scd_model, "Association") # retrieve type
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self.bottom.create_edge(assoc_edge, scd_node, "Morphism") # create morphism link
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@ -166,11 +172,13 @@ class SCD:
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Returns:
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Nothing.
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"""
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tgt, = self.bottom.read_outgoing_elements(self.model, target)
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return self._create_attribute_link(source, tgt, name, optional)
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def _create_attribute_link(self, source: str, target: UUID, name: str, optional: bool):
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# create attribute link + morphism links
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assoc_edge = self.bottom.create_edge(
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*self.bottom.read_outgoing_elements(self.model, source),
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*self.bottom.read_outgoing_elements(self.model, target),
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) # create v edge
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src, = self.bottom.read_outgoing_elements(self.model, source)
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assoc_edge = self.bottom.create_edge(src, target) # create v edge
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self.bottom.create_edge(self.model, assoc_edge, f"{source}_{name}") # attach to model
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scd_node, = self.bottom.read_outgoing_elements(self.scd_model, "AttributeLink") # retrieve type
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self.bottom.create_edge(assoc_edge, scd_node, "Morphism") # create morphism link
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@ -215,6 +223,7 @@ class SCD:
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self.bottom.create_edge(self.model, element_node, name) # attach to model
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scd_node, = self.bottom.read_outgoing_elements(self.scd_model, "ModelRef") # retrieve type
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self.bottom.create_edge(element_node, scd_node, "Morphism") # create morphism link
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return element_node
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def create_inheritance(self, child: str, parent: str):
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"""
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@ -227,14 +236,25 @@ class SCD:
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Returns:
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Nothing.
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"""
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c, = self.bottom.read_outgoing_elements(self.model, child)
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p, = self.bottom.read_outgoing_elements(self.model, parent)
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return self._create_inheritance(c, p)
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def _create_inheritance(self, child: UUID, parent: UUID):
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# create inheritance + morphism links
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assoc_edge = self.bottom.create_edge(
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*self.bottom.read_outgoing_elements(self.model, child),
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*self.bottom.read_outgoing_elements(self.model, parent),
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) # create inheritance edge
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self.bottom.create_edge(self.model, assoc_edge, f"{child}_inh_{parent}") # attach to model
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inh_edge = self.bottom.create_edge(child, parent)
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child_name = self.get_class_name(child)
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parent_name = self.get_class_name(parent)
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self.bottom.create_edge(self.model, inh_edge, f"{child_name}_inh_{parent_name}") # attach to model
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scd_node, = self.bottom.read_outgoing_elements(self.scd_model, "Inheritance") # retrieve type
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self.bottom.create_edge(assoc_edge, scd_node, "Morphism") # create morphism link
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self.bottom.create_edge(inh_edge, scd_node, "Morphism") # create morphism link
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def get_class_name(self, cls: UUID):
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for key in self.bottom.read_keys(self.model):
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el, = self.bottom.read_outgoing_elements(self.model, key)
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if el == cls:
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return key
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def add_constraint(self, element: str, code: str):
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"""
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@ -278,6 +298,39 @@ class SCD:
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unsorted.append(f"{key} : {scd_names[element_type_node]}")
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return sorted(unsorted)
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def get_classes(self):
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class_node, = self.bottom.read_outgoing_elements(self.scd_model, "Class")
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return self.get_typed_by(class_node)
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def get_associations(self):
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assoc_node, = self.bottom.read_outgoing_elements(self.scd_model, "Association")
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return self.get_typed_by(assoc_node)
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def get_inheritances(self):
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inh_node, = self.bottom.read_outgoing_elements(self.scd_model, "Inheritance")
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return self.get_typed_by(inh_node)
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def get_typed_by(self, type_node: UUID):
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name_to_instance = {}
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for key in self.bottom.read_keys(self.model):
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element, = self.bottom.read_outgoing_elements(self.model, key)
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element_types = self.bottom.read_outgoing_elements(element, "Morphism")
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if type_node in element_types:
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name_to_instance[key] = element
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# mapping from instance name to UUID
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return name_to_instance
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def get_attributes(self, class_name: str):
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attr_link_node, = self.bottom.read_outgoing_elements(self.scd_model, "AttributeLink")
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class_node, = self.bottom.read_outgoing_elements(self.model, class_name)
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name_to_attr = {}
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for edge in self.bottom.read_outgoing_edges(class_node):
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edge_types = self.bottom.read_outgoing_elements(edge, "Morphism")
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if attr_link_node in edge_types:
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name_to_attr[key] = edge
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return name_to_attr
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def delete_element(self, name: str):
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"""
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Deletes an element from the model.
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@ -2,17 +2,152 @@ from state.base import State
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from uuid import UUID
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from services.bottom.V0 import Bottom
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from services.scd import SCD
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from framework.conformance import Conformance
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def ramify(state: State, model: UUID) -> UUID:
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"""
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Parameters:
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bottom: Bottom-service, wrapping MVS
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model: An SCD-conforming meta-model to ramify
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"""
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def print_tree(root, max_depth, depth=0):
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print(" "*depth, "root=", root, "value=", state.read_value(root))
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src,tgt = state.read_edge(root)
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if src != None:
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print(" "*depth, "src...")
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print_tree(src, max_depth, depth+1)
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if tgt != None:
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print(" "*depth, "tgt...")
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print_tree(tgt, max_depth, depth+1)
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for edge in state.read_outgoing(root):
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for edge_label in state.read_outgoing(edge):
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[_,tgt] = state.read_edge(edge_label)
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label = state.read_value(tgt)
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print(" "*depth, " key:", label)
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[_, tgt] = state.read_edge(edge)
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value = state.read_value(tgt)
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if value != None:
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print(" "*depth, " ->", tgt, " (value:", value, ")")
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else:
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print(" "*depth, " ->", tgt)
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if depth < max_depth:
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if isinstance(value, str) and len(value) == 36:
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i = None
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try:
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i = UUID(value)
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except ValueError as e:
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# print("invalid UUID:", value)
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pass
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if i != None:
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print_tree(i, max_depth, depth+1)
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print_tree(tgt, max_depth, depth+1)
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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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scd_metamodel = UUID(state.read_value(scd_metamodel_id))
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class_upper_card_node, = bottom.read_outgoing_elements(scd_metamodel, "Class_upper_cardinality")
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src_upper_card_node, = bottom.read_outgoing_elements(scd_metamodel, "Association_source_upper_cardinality")
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tgt_upper_card_node, = bottom.read_outgoing_elements(scd_metamodel, "Association_target_upper_cardinality")
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attr_link_node, = bottom.read_outgoing_elements(scd_metamodel, "AttributeLink")
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attr_link_name_node, = bottom.read_outgoing_elements(scd_metamodel, "AttributeLink_name")
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glob_constr_node, = bottom.read_outgoing_elements(scd_metamodel, "GlobalConstraint")
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inheritance_node, = bottom.read_outgoing_elements(scd_metamodel, "Inheritance")
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string_type_id = state.read_dict(state.read_root(), "String")
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string_type = UUID(state.read_value(string_type_id))
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scd = SCD(model, state)
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classes = scd.get_classes()
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print(classes)
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# print_tree(model, 2)
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attrs = scd.get_attributes('A')
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print(attrs)
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# for el in SCD(scd_metamodel, state).list_elements():
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# print(el)
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def find_outgoing_typed_by(src: UUID, type_node: UUID):
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edges = []
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for outgoing_edge in bottom.read_outgoing_edges(src):
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for typedBy in bottom.read_outgoing_elements(outgoing_edge, "Morphism"):
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if typedBy == type_node:
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edges.append(outgoing_edge)
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break
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return edges
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def navigate_modelref(node: UUID):
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uuid = bottom.read_value(node)
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return UUID(uuid)
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def find_upper_cardinality(class_node: UUID, type_node: UUID):
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upper_card_edges = find_outgoing_typed_by(class_node, type_node)
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if len(upper_card_edges) == 1:
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ref = bottom.read_edge_target(upper_card_edges[0])
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integer, = bottom.read_outgoing_elements(
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navigate_modelref(ref),
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"integer")
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# finally, the value we're looking for:
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return bottom.read_value(integer)
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def get_attributes(class_node: UUID):
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attr_edges = find_outgoing_typed_by(class_node, attr_link_node)
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result = []
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for attr_edge in attr_edges:
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name_edge, = find_outgoing_typed_by(attr_edge, attr_link_name_node)
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if name_edge == None:
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raise Exception("Expected attribute to have a name...")
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ref_name = bottom.read_edge_target(name_edge)
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string, = bottom.read_outgoing_elements(
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navigate_modelref(ref_name),
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"string")
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attr_name = bottom.read_value(string)
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ref_type = bottom.read_edge_target(attr_edge)
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typ = navigate_modelref(ref_type)
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result.append((attr_name, typ))
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return result
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ramified = state.create_node()
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ramified_scd = SCD(ramified, state)
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string_modelref = ramified_scd.create_model_ref("String", string_type)
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print()
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classes = scd.get_classes()
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for class_name, class_node in classes.items():
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# For every class in our original model, create a class:
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# - abstract: False
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# - min-card: 0
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# - max-card: same as original
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upper_card = find_upper_cardinality(class_node, class_upper_card_node)
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print('creating class', class_name, "with upper card", upper_card)
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ramified_scd.create_class(class_name, abstract=None, max_c=upper_card)
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for (attr_name, attr_type) in get_attributes(class_node):
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print(' creating attribute', attr_name, "with type String")
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# Every attribute becomes 'string' type
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# The string will be a Python expression
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ramified_scd._create_attribute_link(class_name, string_modelref, attr_name, optional=False)
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associations = scd.get_associations()
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for assoc_name, assoc_node in associations.items():
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# For every association in our original model, create an association:
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# - src-min-card: 0
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# - src-max-card: same as original
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# - tgt-min-card: 0
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# - tgt-max-card: same as original
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src_upper_card = find_upper_cardinality(assoc_node, src_upper_card_node)
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tgt_upper_card = find_upper_cardinality(assoc_node, tgt_upper_card_node)
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print('creating assoc', assoc_name, "with src upper card", src_upper_card, "and tgt upper card", tgt_upper_card)
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ramified_scd._create_association(assoc_name,
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bottom.read_edge_source(assoc_node),
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bottom.read_edge_target(assoc_node),
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src_max_c=src_upper_card,
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tgt_max_c=tgt_upper_card)
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for inh_name, inh_node in scd.get_inheritances().items():
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# Re-create inheritance links like in our original model:
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print('creating inheritance', inh_name)
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ramified_scd._create_inheritance(
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bottom.read_edge_source(inh_node),
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bottom.read_edge_target(inh_node))
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# The RAMified meta-model should also conform to 'SCD':
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conf = Conformance(state, model, scd_metamodel)
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print("conforms?", conf.check_nominal(log=True))
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