def test_simpleIntersectionTest(env: Env):
log.info("intersection test")
an = 2
bn = 4
a = Automaton()
b = Automaton()
a.addTransition(0, 1, 0)
a.addTransition(1, 0, 1)
curr = 0
for i in range(bn - 1):
b.addTransition(i, i + 1, curr)
curr = 1 - curr
b.addTransition(3, 0, 1)
a.setAccepting(0)
b.setAccepting(1)
c = env.automatonService.intersect(a, b, MyIntersector())
path = c.findPath()
ref = []
curr = 0
for i in range(len(path)):
ref.append(curr)
curr = 1 - curr
assert path == ref
def test_loop_path():
a = Automaton()
a.addTransition(0, 0, ord('a'))
assert not a.findPath()
a.setAccepting(0)
assert [ord('a')] == a.findPath()
def createFromLtl_str(self, ltl: str) -> Automaton:
states = self.createStateListFromLtl(ltl)
ids = itertools.count()
idMap = defaultdict(lambda: next(ids))
automaton = Automaton()
for state in states:
nodeId = idMap[state.name]
if self.isAcceptance(state.name):
automaton.setAccepting(nodeId)
if self.isInit(state.name):
automaton.initialState = nodeId
for transition in state.transitions:
nextId = idMap[transition.stateName]
formula = transition.expression
automaton.addTransition(nodeId, nextId, formula)
if self.isAcceptance(transition.stateName):
automaton.setAccepting(nextId)
if self.isInit(transition.stateName):
automaton.initialState = nextId
for nodeId in automaton.nodes:
if len(automaton.get(nodeId)) == 0:
automaton.addTransition(nodeId, nodeId, LTL.t())
return automaton
def intersect(self, a: Automaton, b: Automaton, intersector) -> Automaton:
c = Automaton()
tr = dict()
# Build all transitions
for i, iState in a.automaton.items():
for j, jState in b.automaton.items():
for iSymbol in iState.keys():
for jSymbol in jState.keys():
t = intersector.intersect(iSymbol, jSymbol)
if t is None:
continue
for is_ in iState.get(iSymbol):
for js in jState.get(jSymbol):
c.addTransition(
self.convert(i, j, 0, tr),
self.convert(is_, js,
1 if a.isAccepting(i) else 0,
tr), t)
c.addTransition(
self.convert(i, j, 1, tr),
self.convert(is_, js,
0 if a.isAccepting(j) else 1,
tr), t)
# Accepting set of the new automaton
for accB in b.acceptingSet:
for i in a.automaton.keys():
c.setAccepting(self.convert(i, accB, 1, tr))
c.initialState = self.convert(a.initialState, b.initialState, 0, tr)
return c
def test_createFromLtlFormula(env: Env):
ltl = LTL.not_(LTL.globally(LTL.future(LTL.var("p"))))
automaton = env.automatonService.createFromLtl_formula(ltl)
reference = Automaton()
reference.addTransition(0, 0, LTL.t())
notP = LTL.not_(LTL.var("p"))
reference.addTransition(0, 1, notP)
reference.addTransition(1, 1, notP)
reference.setAccepting(1)
reference.initialState = 0
assert reference == automaton
def map_(self, input_: Automaton, mapper: types.FunctionType) -> Automaton:
output_ = Automaton()
for nodeId, successors in input_.automaton.items():
for a, v in successors.items():
b = mapper(a)
for nextId in v:
output_.addTransition(nodeId, nextId, b)
for nodeId in input_.acceptingSet:
output_.setAccepting(nodeId)
output_.initialState = input_.initialState
return output_
def test_tailed_path():
log.info('lasso test')
n = 10
a = Automaton()
for i in range(n - 1):
a.addTransition(i, i + 1, i)
a.addTransition(n - 1, n / 2, n - 1)
a.setAccepting(n / 2 - 1)
assert not a.findPath()
a.setAccepting(n / 2 + 1)
act = a.findPath()
assert list(range(n)) == act
def createFromDiagram(self, diagram) -> Automaton:
widgetMap = {w['id']: w for w in diagram.widget}
successors = dict()
for widget in diagram.widget:
if widget['type'] == L.L_WIDGET_STATE:
if not hasattr(widget.attributes, 'incoming'):
continue
for incoming in widget.attributes.incoming:
prev = widgetMap.get(incoming['id'])
if prev['type'] == L.L_WIDGET_TRANSITION:
successors.update({incoming['id']: widget['id']})
else:
raise IllegalStateException('IllegalStateException')
automaton = Automaton()
ids = itertools.count(10000)
initId = None
for widget in diagram.widget:
if widget['type'] == L.L_WIDGET_STATE:
stateNode = int(widget['id'])
if State.INITIAL == int(widget.attributes.type.cdata):
if initId is None:
initId = next(ids)
automaton.initialState = initId
stateEdge = self.createFormulaFromState(widget)
automaton.addTransition(initId, stateNode, stateEdge)
if not hasattr(widget.attributes, 'outgoing'):
continue
for outgoing in widget.attributes.outgoing:
next_ = widgetMap.get(outgoing['id'])
if next_['type'] == L.L_WIDGET_TRANSITION:
# event
eventEdge = self.createFormulaFromEvent(
next_.attributes.event)
eventNodeId = next(ids)
automaton.addTransition(stateNode, eventNodeId,
eventEdge)
lastNodeId = eventNodeId
# actions
if hasattr(next_.attributes, 'action'):
for action in next_.attributes.action:
actionEdge = self.createFormulaFromActions_action(
action)
actionNodeId = next(ids)
automaton.addTransition(
lastNodeId, actionNodeId, actionEdge)
lastNodeId = actionNodeId
# next state
successorId = successors.get(outgoing['id'])
nextState = widgetMap.get(successorId)
nextNode = int(nextState['id'])
nextEdge = self.createFormulaFromState(nextState)
automaton.addTransition(lastNodeId, nextNode, nextEdge)
else:
raise IllegalStateException('IllegalStateException2')
for nodeId in automaton.nodes:
automaton.setAccepting(nodeId)
if len(automaton.get(nodeId)) == 0:
automaton.addTransition(nodeId, nodeId, LTL.t())
return automaton