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muMLE/experiments/exp_scd.py

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# Simple Class Diagram experiment
from state.devstate import DevState
from bootstrap.scd import bootstrap_scd
from uuid import UUID
from services.scd import SCD
from framework.conformance import Conformance
from services.od import OD
from transformation.ramify import ramify
from transformation import rewriter
from services.bottom.V0 import Bottom
from services.primitives.integer_type import Integer
from pattern_matching import mvs_adapter
from pattern_matching.matcher import MatcherVF2
from concrete_syntax import plantuml
from concrete_syntax.textual_od import parser, renderer
import sys
def create_integer_node(state, i: int):
node = state.create_node()
integer_t = Integer(node, state)
integer_t.create(i)
return node
def main():
state = DevState()
root = state.read_root() # id: 0
scd_mm_id = bootstrap_scd(state)
int_mm_id = UUID(state.read_value(state.read_dict(state.read_root(), "Integer")))
string_mm_id = UUID(state.read_value(state.read_dict(state.read_root(), "String")))
def create_dsl_mm_api():
# Create DSL MM with SCD API
dsl_mm_id = state.create_node()
dsl_mm_scd = SCD(dsl_mm_id, state)
dsl_mm_scd.create_class("Animal", abstract=True)
dsl_mm_scd.create_class("Man", min_c=1, max_c=2)
dsl_mm_scd.create_inheritance("Man", "Animal")
dsl_mm_scd.create_model_ref("Integer", int_mm_id)
dsl_mm_scd.create_attribute_link("Man", "Integer", "weight", optional=False)
dsl_mm_scd.create_class("Bear")
dsl_mm_scd.create_inheritance("Bear", "Animal")
dsl_mm_scd.create_association("afraidOf", "Man", "Animal",
# Every Man afraid of at least one Animal:
src_min_c=0,
src_max_c=None,
tgt_min_c=1,
tgt_max_c=None,
)
return dsl_mm_id
def create_dsl_mm_parser():
# Create DSL MM with parser
dsl_mm_cs = """
# Integer:ModelRef
Bear:Class
Animal:Class
abstract = True
Man:Class
lower_cardinality = 1
upper_cardinality = 2
Man_weight:AttributeLink (Man -> Integer)
name = "weight"
optional = False
afraidOf:Association (Man -> Animal)
source_lower_cardinality = 0
target_lower_cardinality = 1
Man_inh_Animal:Inheritance (Man -> Animal)
Bear_inh_Animal:Inheritance (Bear -> Animal)
"""
dsl_mm_id = parser.parse_od(state, dsl_mm_cs, mm=scd_mm_id)
return dsl_mm_id
def create_dsl_m_api():
# Create DSL M with OD API
dsl_m_id = state.create_node()
dsl_m_od = OD(dsl_mm_id, dsl_m_id, state)
dsl_m_od.create_object("george", "Man")
dsl_m_od.create_slot("weight", "george",
dsl_m_od.create_integer_value("george.weight", 80))
dsl_m_od.create_object("bear1", "Bear")
dsl_m_od.create_object("bear2", "Bear")
dsl_m_od.create_link("georgeAfraidOfBear1", "afraidOf", "george", "bear1")
dsl_m_od.create_link("georgeAfraidOfBear2", "afraidOf", "george", "bear2")
return dsl_m_id
def create_dsl_m_parser():
# Create DSL M with parser
dsl_m_cs = """
george :Man
weight = 80
bear1 :Bear
bear2 :Bear
:afraidOf (george -> bear1)
:afraidOf (george -> bear2)
"""
dsl_m_id = parser.parse_od(state, dsl_m_cs, mm=dsl_mm_id)
return dsl_m_id
# dsl_mm_id = create_dsl_mm_api()
dsl_mm_id = create_dsl_mm_parser()
print("DSL MM:")
print("--------------------------------------")
print(renderer.render_od(state, dsl_mm_id, scd_mm_id, hide_names=False))
print("--------------------------------------")
conf = Conformance(state, dsl_mm_id, scd_mm_id)
print("Conformance DSL_MM -> SCD_MM?", conf.check_nominal(log=True))
# dsl_m_id = create_dsl_m_api()
dsl_m_id = create_dsl_m_parser()
print("DSL M:")
print("--------------------------------------")
print(renderer.render_od(state, dsl_m_id, dsl_mm_id, hide_names=False))
print("--------------------------------------")
conf = Conformance(state, dsl_m_id, dsl_mm_id)
print("Conformance DSL_M -> DSL_MM?", conf.check_nominal(log=True))
# RAMify MM
prefix = "RAM_" # all ramified types can be prefixed to distinguish them a bit more
ramified_mm_id = ramify(state, dsl_mm_id, prefix)
ramified_int_mm_id = ramify(state, int_mm_id, prefix)
# LHS of our rule
lhs_id = state.create_node()
lhs_od = OD(ramified_mm_id, lhs_id, state)
lhs_od.create_object("man", prefix+"Man")
lhs_od.create_slot(prefix+"weight", "man", lhs_od.create_string_value(f"man.{prefix}weight", 'v < 99'))
lhs_od.create_object("scaryAnimal", prefix+"Animal")
lhs_od.create_link("manAfraidOfAnimal", prefix+"afraidOf", "man", "scaryAnimal")
conf = Conformance(state, lhs_id, ramified_mm_id)
print("Conformance LHS_M -> RAM_DSL_MM?", conf.check_nominal(log=True))
# RHS of our rule
rhs_id = state.create_node()
rhs_od = OD(ramified_mm_id, rhs_id, state)
rhs_od.create_object("man", prefix+"Man")
rhs_od.create_slot(prefix+"weight", "man", rhs_od.create_string_value(f"man.{prefix}weight", 'v + 5'))
rhs_od.create_object("bill", prefix+"Man")
rhs_od.create_slot(prefix+"weight", "bill", rhs_od.create_string_value(f"bill.{prefix}weight", '100'))
rhs_od.create_link("billAfraidOfMan", prefix+"afraidOf", "bill", "man")
conf = Conformance(state, rhs_id, ramified_mm_id)
print("Conformance RHS_M -> RAM_DSL_MM?", conf.check_nominal(log=True))
def render_ramification():
uml = (""
# Render original and RAMified meta-models
+ plantuml.render_package("DSL Meta-Model", plantuml.render_class_diagram(state, dsl_mm_id))
+ plantuml.render_package("Int Meta-Model", plantuml.render_class_diagram(state, int_mm_id))
+ plantuml.render_package("RAMified DSL Meta-Model", plantuml.render_class_diagram(state, ramified_mm_id))
+ plantuml.render_package("RAMified Int Meta-Model", plantuml.render_class_diagram(state, ramified_int_mm_id))
# Render RAMification traceability links
+ plantuml.render_trace_ramifies(state, dsl_mm_id, ramified_mm_id)
+ plantuml.render_trace_ramifies(state, int_mm_id, ramified_int_mm_id)
)
# Render pattern
uml += plantuml.render_package("LHS", plantuml.render_object_diagram(state, lhs_id, ramified_mm_id))
uml += plantuml.render_trace_conformance(state, lhs_id, ramified_mm_id)
# Render pattern
uml += plantuml.render_package("RHS", plantuml.render_object_diagram(state, rhs_id, ramified_mm_id))
uml += plantuml.render_trace_conformance(state, rhs_id, ramified_mm_id)
return uml
def render_all_matches():
uml = render_ramification()
# Render host graph (before rewriting)
uml += plantuml.render_package("Model (before rewrite)", plantuml.render_object_diagram(state, dsl_m_id, dsl_mm_id))
# Render conformance
uml += plantuml.render_trace_conformance(state, dsl_m_id, dsl_mm_id)
print("matching...")
generator = mvs_adapter.match_od(state, dsl_m_id, dsl_mm_id, lhs_id, ramified_mm_id)
for name_mapping, color in zip(generator, ["red", "orange"]):
print("\nMATCH:\n", name_mapping)
# Render every match
uml += plantuml.render_trace_match(state, name_mapping, lhs_id, dsl_m_id, color)
print("DONE")
return uml
def render_rewrite():
uml = render_ramification()
generator = mvs_adapter.match_od(state, dsl_m_id, dsl_mm_id, lhs_id, ramified_mm_id)
for name_mapping in generator:
rewriter.rewrite(state, lhs_id, rhs_id, ramified_mm_id, name_mapping, dsl_m_id, dsl_mm_id)
conf = Conformance(state, dsl_m_id, dsl_mm_id)
print("Conformance DSL_M (after rewrite) -> DSL_MM?", conf.check_nominal(log=True))
# Render match
uml_match = plantuml.render_trace_match(state, name_mapping, rhs_id, dsl_m_id, 'orange')
# Stop matching after rewrite
break
# Render host graph (after rewriting)
uml += plantuml.render_package("Model (after rewrite)", plantuml.render_object_diagram(state, dsl_m_id, dsl_mm_id))
# Render conformance
uml += plantuml.render_trace_conformance(state, dsl_m_id, dsl_mm_id)
uml += uml_match
return uml
# plantuml_str = render_all_matches()
# plantuml_str = render_rewrite()
# print()
# print("==============================================")
# print(plantuml_str)
if __name__ == "__main__":
main()
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