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Working on conformance

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This commit is contained in:
Andrei Bondarenko 2021-08-23 15:11:25 +02:00
parent 8ddb5ac12b
commit 3c1d1fa002
9 changed files with 386 additions and 9 deletions
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11
bootstrap/primitive.py
View file

@ -1,5 +1,6 @@
from state.base import State, UUID
from services.bottom.V0 import Bottom
from services.primitives.integer_type import Integer
def bootstrap_type(type_name: str, python_type: str, scd_root: UUID, model_root: UUID, state: State):
@ -10,7 +11,9 @@ def bootstrap_type(type_name: str, python_type: str, scd_root: UUID, model_root:
scd_node, = bottom.read_outgoing_elements(scd_root, "Class") # retrieve type
bottom.create_edge(class_node, scd_node, "Morphism") # create morphism link
# set min_cardinality
min_c_node = bottom.create_node(1)
min_c_model = bottom.create_node()
Integer(min_c_model, state).create(1)
min_c_node = bottom.create_node(str(min_c_model))
bottom.create_edge(model_root, min_c_node, f"{type_name}.lower_cardinality")
min_c_link = bottom.create_edge(class_node, min_c_node)
bottom.create_edge(model_root, min_c_link, f"{type_name}.lower_cardinality_link")
@ -19,7 +22,9 @@ def bootstrap_type(type_name: str, python_type: str, scd_root: UUID, model_root:
bottom.create_edge(min_c_node, scd_node, "Morphism")
bottom.create_edge(min_c_link, scd_link, "Morphism")
# set max_cardinality
max_c_node = bottom.create_node(1)
max_c_model = bottom.create_node()
Integer(max_c_model, state).create(1)
max_c_node = bottom.create_node(str(max_c_model))
bottom.create_edge(model_root, max_c_node, f"{type_name}.upper_cardinality")
max_c_link = bottom.create_edge(class_node, max_c_node)
bottom.create_edge(model_root, max_c_link, f"{type_name}.upper_cardinality_link")
@ -28,7 +33,7 @@ def bootstrap_type(type_name: str, python_type: str, scd_root: UUID, model_root:
bottom.create_edge(max_c_node, scd_node, "Morphism")
bottom.create_edge(max_c_link, scd_link, "Morphism")
# set constraint
constraint_node = bottom.create_node(f"isinstance(read_value(x),{python_type})")
constraint_node = bottom.create_node(f"isinstance(read_value(element),{python_type})")
bottom.create_edge(model_root, constraint_node, f"{type_name}.constraint")
constraint_link = bottom.create_edge(class_node, constraint_node)
bottom.create_edge(model_root, constraint_link, f"{type_name}.constraint_link")

11
bootstrap/scd.py
View file

@ -110,9 +110,10 @@ def bootstrap_scd(state: State) -> UUID:
assoc_t_l_c_edge = add_edge_element("Association_target_lower_cardinality", assoc_edge, integer_node)
assoc_t_u_c_edge = add_edge_element("Association_target_upper_cardinality", assoc_edge, integer_node)
# # bootstrap primitive types
# # order is important, integer must be first
bootstrap_integer_type(mcl_root, integer_type_root, state)
bootstrap_boolean_type(mcl_root, boolean_type_root, state)
bootstrap_float_type(mcl_root, float_type_root, state)
bootstrap_integer_type(mcl_root, integer_type_root, state)
bootstrap_string_type(mcl_root, string_type_root, state)
bootstrap_type_type(mcl_root, type_type_root, state)
# # ATTRIBUTE ATTRIBUTES, assign 'name' and 'optional' attributes to all AttributeLinks
@ -156,6 +157,11 @@ def bootstrap_scd(state: State) -> UUID:
m_name, m_opt = add_attribute_attributes("Association_target_upper_cardinality", assoc_t_u_c_edge)
String(m_name, state).create("target_upper_cardinality")
Boolean(m_opt, state).create(True)
# # Make Element abstract
abs_model = bottom.create_node()
abs_node = add_node_element(f"Element.abstract", str(abs_model))
abs_edge = add_edge_element(f"Element.abstract_link", element_node, abs_node)
Boolean(abs_model, state).create(True)
# create phi(SCD,SCD) to type MCL with itself
@ -245,6 +251,9 @@ def bootstrap_scd(state: State) -> UUID:
add_mcl_morphism("Association_source_upper_cardinality.optional", "Boolean")
add_mcl_morphism("Association_target_lower_cardinality.optional", "Boolean")
add_mcl_morphism("Association_target_upper_cardinality.optional", "Boolean")
add_mcl_morphism("Element.abstract", "Boolean")
# Class_abstract
add_mcl_morphism("Element.abstract_link", "Class_abstract")
return mcl_root

0
framework/__init__.py Normal file
View file

358
framework/conformance.py Normal file
View file

@ -0,0 +1,358 @@
from services.bottom.V0 import Bottom
from uuid import UUID
from state.base import State
from typing import Dict, Tuple, Set, Any, List
from pprint import pprint
class Conformance:
def __init__(self, state: State, scd_model: UUID, model: UUID, type_model: UUID):
self.state = state
self.bottom = Bottom(state)
self.scd_model = scd_model
self.model = model
self.type_model = type_model
self.type_mapping: Dict[str, str] = {}
self.model_names = {
# map model elements to their names to prevent iterating too much
self.bottom.read_outgoing_elements(self.model, e)[0]: e
for e in self.bottom.read_keys(self.model)
}
self.type_model_names = {
# map type model elements to their names to prevent iterating too much
self.bottom.read_outgoing_elements(self.type_model, e)[0]: e
for e in self.bottom.read_keys(self.type_model)
}
self.sub_types: Dict[str, Set[str]] = {
k: set() for k in self.bottom.read_keys(self.type_model)
}
self.primitive_values: Dict[UUID, Any] = {}
self.abstract_types: List[str] = []
self.multiplicities: Dict[str, Tuple] = {}
self.source_multiplicities: Dict[str, Tuple] = {}
self.target_multiplicities: Dict[str, Tuple] = {}
def check_nominal(self):
steps = [
self.check_typing,
self.check_link_typing,
self.check_multiplicities,
self.check_constraints
]
for step in steps:
conforms = step()
if not conforms:
return False
return True
def read_attribute(self, m_element: UUID, attr_name: str):
def has_label(_edge: UUID, _label):
elems = self.bottom.read_outgoing_elements(_edge)
for elem in elems:
value = self.primitive_values.get(elem, self.bottom.read_value(elem))
if value is not None and value == _label:
return True
return False
def get_outgoing_edge_by_label(_element: UUID, _label):
edges = self.bottom.read_outgoing_edges(_element)
for e in edges:
if has_label(e, _label):
return e
outgoing = self.bottom.read_outgoing_edges(m_element)
for edge in outgoing:
try:
edge_name = self.model_names[edge]
edge_type_name = self.type_mapping[edge_name]
edge_type, = self.bottom.read_outgoing_elements(self.type_model, edge_type_name)
edge_type_src = self.bottom.read_edge_source(edge_type)
if get_outgoing_edge_by_label(edge_type_src, attr_name) == edge_type:
result = self.bottom.read_edge_target(edge)
return self.primitive_values.get(result, self.bottom.read_value(result))
except KeyError:
pass # non-model edge, e.g. morphism link
def precompute_sub_types(self):
inh_element, = self.bottom.read_outgoing_elements(self.scd_model, "Inheritance")
inh_links = []
for tm_element, tm_name in self.type_model_names.items():
morphisms = self.bottom.read_outgoing_elements(tm_element, "Morphism")
if inh_element in morphisms:
inh_links.append(tm_element)
for link in inh_links:
tm_source = self.bottom.read_edge_source(link)
tm_target = self.bottom.read_edge_target(link)
parent_name = self.type_model_names[tm_target]
child_name = self.type_model_names[tm_source]
self.sub_types[parent_name].add(child_name)
stop = False
while not stop:
stop = True
for child_name, child_children in self.sub_types.items():
for parent_name, parent_children in self.sub_types.items():
if child_name in parent_children:
original_size = len(parent_children)
parent_children.update(child_children)
if len(parent_children) != original_size:
stop = False
def deref_primitive_values(self):
ref_element, = self.bottom.read_outgoing_elements(self.scd_model, "ModelRef")
string_element, = self.bottom.read_outgoing_elements(self.scd_model, "String")
boolean_element, = self.bottom.read_outgoing_elements(self.scd_model, "Boolean")
integer_element, = self.bottom.read_outgoing_elements(self.scd_model, "Integer")
t_deref = []
t_refs = []
for tm_element, tm_name in self.type_model_names.items():
morphisms = self.bottom.read_outgoing_elements(tm_element, "Morphism")
if ref_element in morphisms:
t_refs.append(self.type_model_names[tm_element])
elif string_element in morphisms:
t_deref.append(tm_element)
elif boolean_element in morphisms:
t_deref.append(tm_element)
elif integer_element in morphisms:
t_deref.append(tm_element)
for elem in t_deref:
primitive_model = UUID(self.bottom.read_value(elem))
primitive_value_node, = self.bottom.read_outgoing_elements(primitive_model)
primitive_value = self.bottom.read_value(primitive_value_node)
self.primitive_values[elem] = primitive_value
for m_name, tm_name in self.type_mapping.items():
if tm_name in t_refs:
# dereference
m_element, = self.bottom.read_outgoing_elements(self.model, m_name)
primitive_model = UUID(self.bottom.read_value(m_element))
try:
primitive_value_node, = self.bottom.read_outgoing_elements(primitive_model)
primitive_value = self.bottom.read_value(primitive_value_node)
self.primitive_values[m_element] = primitive_value
except ValueError:
pass # multiple elements in model indicate that we're not dealing with a primitive
def precompute_multiplicities(self):
for tm_element, tm_name in self.type_model_names.items():
# class abstract flags and multiplicities
abstract = self.read_attribute(tm_element, "abstract")
lc = self.read_attribute(tm_element, "lower_cardinality")
uc = self.read_attribute(tm_element, "upper_cardinality")
if abstract:
self.abstract_types.append(tm_name)
if lc or uc:
mult = (
lc if lc is not None else float("-inf"),
uc if uc is not None else float("inf")
)
self.multiplicities[tm_name] = mult
# multiplicities for associations
slc = self.read_attribute(tm_element, "source_lower_cardinality")
suc = self.read_attribute(tm_element, "source_upper_cardinality")
if slc or suc:
mult = (
slc if slc is not None else float("-inf"),
suc if suc is not None else float("inf")
)
self.source_multiplicities[tm_name] = mult
tlc = self.read_attribute(tm_element, "target_lower_cardinality")
tuc = self.read_attribute(tm_element, "target_upper_cardinality")
if tlc or tuc:
mult = (
tlc if tlc is not None else float("-inf"),
tuc if tuc is not None else float("inf")
)
self.target_multiplicities[tm_name] = mult
# optional for attribute links
opt = self.read_attribute(tm_element, "optional")
if opt is not None:
mult = (0 if opt else 1, 1)
self.source_multiplicities[tm_name] = mult
self.target_multiplicities[tm_name] = mult
def get_type(self, element: UUID):
morphisms = self.bottom.read_outgoing_elements(element, "Morphism")
tm_element, = [m for m in morphisms if m in self.type_model_names.keys()]
return tm_element
def check_typing(self):
"""
for each element of model check whether a morphism
link exists to some element of type_model
"""
ref_element, = self.bottom.read_outgoing_elements(self.scd_model, "ModelRef")
model_names = self.bottom.read_keys(self.model)
for m_name in model_names:
m_element, = self.bottom.read_outgoing_elements(self.model, m_name)
try:
tm_element = self.get_type(m_element)
tm_name = self.type_model_names[tm_element]
self.type_mapping[m_name] = tm_name
if ref_element in self.bottom.read_outgoing_elements(tm_element, "Morphism"):
sub_m = UUID(self.bottom.read_value(m_element))
sub_tm = UUID(self.bottom.read_value(tm_element))
if not Conformance(self.state, self.scd_model, sub_m, sub_tm).check_nominal():
return False
except ValueError:
# no or too many morphism links found
print(f"Incorrectly typed element: {m_name}")
return False
return True
def check_link_typing(self):
self.precompute_sub_types()
for m_name, tm_name in self.type_mapping.items():
m_element, = self.bottom.read_outgoing_elements(self.model, m_name)
m_source = self.bottom.read_edge_source(m_element)
m_target = self.bottom.read_edge_target(m_element)
if m_source is None or m_target is None:
# element is not a link
continue
tm_element, = self.bottom.read_outgoing_elements(self.type_model, tm_name)
tm_source = self.bottom.read_edge_source(tm_element)
tm_target = self.bottom.read_edge_target(tm_element)
# check if source is typed correctly
source_name = self.model_names[m_source]
source_type_actual = self.type_mapping[source_name]
source_type_expected = self.type_model_names[tm_source]
if source_type_actual != source_type_expected:
if source_type_actual not in self.sub_types[source_type_expected]:
print(f"Invalid source type {source_type_actual} for element {m_name}")
return False
# check if target is typed correctly
target_name = self.model_names[m_target]
target_type_actual = self.type_mapping[target_name]
target_type_expected = self.type_model_names[tm_target]
if target_type_actual != target_type_expected:
if target_type_actual not in self.sub_types[target_type_expected]:
print(f"Invalid target type {target_type_actual} for element {m_name}")
return False
return True
def check_multiplicities(self):
self.deref_primitive_values()
self.precompute_multiplicities()
for tm_name in self.type_model_names.values():
# abstract classes
if tm_name in self.abstract_types:
type_count = list(self.type_mapping.values()).count(tm_name)
if type_count > 0:
print(f"Invalid instantiation of abstract class: {tm_name}")
return False
# class multiplicities
if tm_name in self.multiplicities:
lc, uc = self.multiplicities[tm_name]
type_count = list(self.type_mapping.values()).count(tm_name)
for sub_type in self.sub_types[tm_name]:
type_count += list(self.type_mapping.values()).count(sub_type)
if type_count < lc or type_count > uc:
print(f"Cardinality of type exceeds valid multiplicity range: {tm_name} ({type_count})")
return False
# association source multiplicities
if tm_name in self.source_multiplicities:
tm_element, = self.bottom.read_outgoing_elements(self.type_model, tm_name)
tm_source_element = self.bottom.read_edge_source(tm_element)
tm_source_name = self.type_model_names[tm_source_element]
lc, uc = self.source_multiplicities[tm_name]
for i, t in self.type_mapping.items():
if t == tm_source_name or t in self.sub_types[tm_source_name]:
count = 0
i_element, = self.bottom.read_outgoing_elements(self.model, i)
outgoing = self.bottom.read_outgoing_edges(i_element)
for o in outgoing:
try:
if self.type_mapping[self.model_names[o]] == tm_name:
count += 1
except KeyError:
pass # for elements not part of model, e.g. morphism links
if count < lc or count > uc:
print(f"Source cardinality of type {tm_name} exceeds valid multiplicity range in {i}.")
return False
# association target multiplicities
if tm_name in self.target_multiplicities:
tm_element, = self.bottom.read_outgoing_elements(self.type_model, tm_name)
tm_target_element = self.bottom.read_edge_source(tm_element)
tm_target_name = self.type_model_names[tm_target_element]
lc, uc = self.target_multiplicities[tm_name]
for i, t in self.type_mapping.items():
if t == tm_target_name or t in self.sub_types[tm_target_name]:
count = 0
i_element, = self.bottom.read_outgoing_elements(self.model, i)
outgoing = self.bottom.read_outgoing_edges(i_element)
for o in outgoing:
try:
if self.type_mapping[self.model_names[o]] == tm_name:
count += 1
except KeyError:
pass # for elements not part of model, e.g. morphism links
if count < lc or count > uc:
print(f"Target cardinality of type {tm_name} exceeds valid multiplicity range in {i}.")
return False
return True
def check_constraints(self):
# local constraints
for m_name, tm_name in self.type_mapping.items():
if tm_name != "GlobalConstraint":
tm_element, = self.bottom.read_outgoing_elements(self.type_model, tm_name)
code = self.read_attribute(tm_element, "constraint")
print(code)
# global constraints
for m_name, tm_name in self.type_mapping.items():
if tm_name == "GlobalConstraint":
tm_element, = self.bottom.read_outgoing_elements(self.type_model, tm_name)
code = self.read_attribute(tm_element, "constraint")
print(code)
return True
def __create_pn(state: State):
from services.scd import SCD
# Retrieve refs to primitive type models
# # integer
int_type_id = state.read_dict(state.read_root(), "Integer")
int_type = UUID(state.read_value(int_type_id))
# # string
str_type_id = state.read_dict(state.read_root(), "String")
str_type = UUID(state.read_value(str_type_id))
# Create LTM_PN
model_uuid = state.create_node()
service = SCD(scd, model_uuid, state)
# Create classes
service.create_class("P")
service.create_class("T")
# Create associations
service.create_association("P2T", "P", "T")
service.create_association("T2P", "T", "P")
# Create model refs
service.create_model_ref("Integer", int_type)
service.create_model_ref("String", int_type)
# Create class attributes
service.create_attribute_link("P", "Integer", "t", False)
service.create_attribute_link("P", "String", "n", False)
service.create_attribute_link("T", "String", "n", False)
# Create association attributes
service.create_attribute_link("P2T", "Integer", "w", False)
service.create_attribute_link("T2P", "Integer", "w", False)
# Create test constraint
service.add_constraint("P", "print(element)\nreturn True")
return model_uuid
if __name__ == '__main__':
from state.devstate import DevState as State
s = State()
from bootstrap.scd import bootstrap_scd
scd = bootstrap_scd(s)
pn = __create_pn(s)
# cf = Conformance(s, scd, scd, scd)
# cf.check_nominal()
cf = Conformance(s, scd, pn, scd)
cf.check_nominal()

3
services/primitives/boolean_type.py
View file

@ -14,6 +14,7 @@ class Boolean:
if "boolean" in self.bottom.read_keys(self.model):
instance, = self.bottom.read_outgoing_elements(self.model, "boolean")
self.bottom.delete_element(instance)
_instance = self.bottom.create_edge(self.model, self.bottom.create_node(value), "boolean")
_instance = self.bottom.create_node(value)
self.bottom.create_edge(self.model, _instance, "boolean")
_type, = self.bottom.read_outgoing_elements(self.type_model, "Boolean")
self.bottom.create_edge(_instance, _type, "Morphism")

3
services/primitives/float_type.py
View file

@ -14,6 +14,7 @@ class Float:
if "float" in self.bottom.read_keys(self.model):
instance, = self.bottom.read_outgoing_elements(self.model, "float")
self.bottom.delete_element(instance)
_instance = self.bottom.create_edge(self.model, self.bottom.create_node(value), "float")
_instance = self.bottom.create_node(value)
self.bottom.create_edge(self.model, _instance, "float")
_type, = self.bottom.read_outgoing_elements(self.type_model, "Float")
self.bottom.create_edge(_instance, _type, "Morphism")

3
services/primitives/integer_type.py
View file

@ -14,6 +14,7 @@ class Integer:
if "string" in self.bottom.read_keys(self.model):
instance, = self.bottom.read_outgoing_elements(self.model, "integer")
self.bottom.delete_element(instance)
_instance = self.bottom.create_edge(self.model, self.bottom.create_node(value), "integer")
_instance = self.bottom.create_node(value)
self.bottom.create_edge(self.model, _instance, "integer")
_type, = self.bottom.read_outgoing_elements(self.type_model, "Integer")
self.bottom.create_edge(_instance, _type, "Morphism")

3
services/primitives/string_type.py
View file

@ -14,6 +14,7 @@ class String:
if "string" in self.bottom.read_keys(self.model):
instance, = self.bottom.read_outgoing_elements(self.model, "string")
self.bottom.delete_element(instance)
_instance = self.bottom.create_edge(self.model, self.bottom.create_node(value), "string")
_instance = self.bottom.create_node(value)
self.bottom.create_edge(self.model, _instance, "string")
_type, = self.bottom.read_outgoing_elements(self.type_model, "String")
self.bottom.create_edge(_instance, _type, "Morphism")

3
services/primitives/type_type.py
View file

@ -14,6 +14,7 @@ class Integer:
if "string" in self.bottom.read_keys(self.model):
instance, = self.bottom.read_outgoing_elements(self.model, "type")
self.bottom.delete_element(instance)
_instance = self.bottom.create_edge(self.model, self.bottom.create_node(value), "type")
_instance = self.bottom.create_node(value)
self.bottom.create_edge(self.model, _instance, "type")
_type, = self.bottom.read_outgoing_elements(self.type_model, "Type")
self.bottom.create_edge(_instance, _type, "Morphism")