def test_get_ground_spec_ts(self):
def _encode_error(accepting, final):
f_error = FALSE()
for f in accepting:
f_error = Or(f, f_error)
f_error = And(f_error, final)
return f_error
spec_list = Spec.get_specs_from_string(
"SPEC [CB] [ENTRY] [l] void m1() |- [CI] [ENTRY] [l] void m2()")
assert spec_list is not None
ctrace = CTrace()
cb = CCallback(1, 1, "", "void m1()",
[TestGrounding._get_obj("1", "string")], None,
[TestGrounding._get_fmwkov("", "void m1()", False)])
ctrace.add_msg(cb)
ci = CCallin(1, 1, "", "void m2()",
[TestGrounding._get_obj("1", "string")], None)
cb.add_msg(ci)
ground_s = Spec.get_specs_from_string(
"SPEC [CB] [ENTRY] [1] void m1() |- [CI] [ENTRY] [1] void m2()")[0]
ts_enc = TSEncoder(ctrace, [])
ts_var = ts_enc._encode_vars()
accepting = []
gs_ts = ts_enc._get_ground_spec_ts(ground_s, 0, accepting)
gs_ts.product(ts_var)
error = _encode_error(accepting, TRUE())
self.assertTrue(
self._accept_word(ts_enc, gs_ts, ["[CB]_[ENTRY]_void m1()(1)"],
error))
self.assertFalse(
self._accept_word(ts_enc, gs_ts, ["[CI]_[ENTRY]_void m2()(1)"],
error))
# check the disable
error = _encode_error(
accepting, TSEncoder._get_state_var("[CI]_[ENTRY]_void m2()(1)"))
self.assertFalse(
self._accept_word(ts_enc, gs_ts, ["[CB]_[ENTRY]_void m1()(1)"],
error))
self.assertFalse(
self._accept_word(ts_enc, gs_ts, ["[CI]_[ENTRY]_void m2()(1)"],
error))
def test_encode_vars(self):
fmwk_over = TestGrounding._get_fmwkov("", "cb", False)
trace = CTrace()
fmwk_over_cb = TestGrounding._get_fmwkov("", "cb", False)
fmwk_over_cb1 = TestGrounding._get_fmwkov("", "cb1", False)
cb = CCallback(1, 1, "", "cb", [], None, [fmwk_over_cb])
cb1 = CCallback(1, 1, "", "cb1", [], None, [fmwk_over_cb1])
ci = CCallin(1, 1, "", "ci", [], None)
cb.add_msg(cb1)
cb1.add_msg(ci)
trace.add_msg(cb)
cb = CCallback(1, 1, "", "cb", [], None, [fmwk_over_cb])
cb1 = CCallback(1, 1, "", "cb1", [], None, [fmwk_over_cb1])
ci = CCallin(1, 1, "", "ci", [], None)
cb.add_msg(cb1)
cb1.add_msg(ci)
trace.add_msg(cb)
ts_enc = TSEncoder(trace, [])
ts_var = ts_enc._encode_vars()
self.assertTrue(len(ts_var.state_vars) == 6)
trans = TRUE()
l = [cb, cb1, ci]
for m in l:
for entry in [TSEncoder.ENTRY, TSEncoder.EXIT]:
var = TSEncoder._get_state_var(
TSEncoder.get_key_from_msg(m, entry))
ivar = ts_enc.r2a.get_msg_eq(
TSEncoder.get_key_from_msg(m, entry))
trans = And(trans, Implies(ivar, var))
self.assertTrue(is_valid(Iff(ts_var.init, TRUE())))
self.assertTrue(is_valid(Iff(ts_var.trans, trans)))
def test_encode_cbs(self):
def cb(name):
fmwk_over = TestGrounding._get_fmwkov("", name, False)
cb = CCallback(1, 1, "", name, [], None, [fmwk_over])
return cb
def ci(name):
ci = CCallin(1, 1, "", name, [], None)
return ci
def new_trace(tree_trace_list):
def add_rec(parent, children):
for (child, lchildren) in children:
parent.add_msg(child)
add_rec(child, lchildren)
ctrace = CTrace()
add_rec(ctrace, tree_trace_list)
return ctrace
trace_tree = [(cb("cb1"), [(ci("ci1"), [])]),
(cb("cb2"), [(ci("ci2"), [])])]
ctrace = new_trace(trace_tree)
ctrace.print_trace(sys.stdout)
# ctrace.print_trace(sys.stdout)
ts_enc = TSEncoder(ctrace, [])
vars_ts = ts_enc._encode_vars()
(ts, errors) = ts_enc._encode_cbs(set())
ts.product(vars_ts)
self.assertTrue(len(errors) == 0)
cb_1_seq = [
"[CB]_[ENTRY]_cb1()", "[CI]_[ENTRY]_ci1()", "[CI]_[EXIT]_ci1()",
"[CB]_[EXIT]_cb1()"
]
cb_2_seq = [
"[CB]_[ENTRY]_cb2()", "[CI]_[ENTRY]_ci2()", "[CI]_[EXIT]_ci2()",
"[CB]_[EXIT]_cb2()"
]
cb_11 = [
"[CB]_[ENTRY]_cb1()", "[CI]_[ENTRY]_ci1()", "[CI]_[EXIT]_ci1()",
"[CB]_[EXIT]_cb1()", "[CB]_[ENTRY]_cb1()", "[CI]_[ENTRY]_ci1()",
"[CI]_[EXIT]_ci1()", "[CB]_[EXIT]_cb1()"
]
cb_12 = [
"[CB]_[ENTRY]_cb1()", "[CI]_[ENTRY]_ci1()", "[CI]_[EXIT]_ci1()",
"[CB]_[EXIT]_cb1()", "[CB]_[ENTRY]_cb2()", "[CI]_[ENTRY]_ci2()",
"[CI]_[EXIT]_ci2()", "[CB]_[EXIT]_cb2()"
]
cb_22 = [
"[CB]_[ENTRY]_cb2()", "[CI]_[ENTRY]_ci2()", "[CI]_[EXIT]_ci2()",
"[CB]_[EXIT]_cb2()", "[CB]_[ENTRY]_cb2()", "[CI]_[ENTRY]_ci2()",
"[CI]_[EXIT]_ci2()", "[CB]_[EXIT]_cb2()"
]
accepting_traces = [cb_1_seq, cb_2_seq, cb_11, cb_12, cb_22]
for seq in accepting_traces:
self.assertTrue(self._accept_word(ts_enc, ts, seq, TRUE()))
deadlock_traces = [["[CI]_[ENTRY]_ci1()"], ["[CI]_[ENTRY]_ci2()"],
[
"[CB]_[ENTRY]_cb1()", "[CI]_[ENTRY]_ci1()",
"[CI]_[EXIT]_ci1()", "[CB]_[EXIT]_cb1()",
"[CI]_[ENTRY]_ci2()", "[CI]_[EXIT]_ci2()"
],
[
"[CB]_[ENTRY]_cb2()", "[CI]_[ENTRY]_ci1()",
"[CB]_[EXIT]_cb1()"
]]
for seq in deadlock_traces:
self.assertFalse(self._accept_word(ts_enc, ts, seq, TRUE()))
ts_enc = TSEncoder(ctrace, [])
vars_ts = ts_enc._encode_vars()
(ts, errors) = ts_enc._encode_cbs(set(["[CI]_[ENTRY]_ci1()"]))
ts.product(vars_ts)
self.assertTrue(len(errors) == 1)
self.assertTrue(
is_sat(
And(errors[0],
Not(TSEncoder._get_state_var("[CI]_[ENTRY_]ci1()")))))
ts_enc = TSEncoder(ctrace, [])
vars_ts = ts_enc._encode_vars()
(ts, errors) = ts_enc._encode_cbs(set(["[CB]_[EXIT]_cb1()"]))
ts.product(vars_ts)
self.assertTrue(len(errors) == 1)
self.assertTrue(
is_sat(
And(errors[0],
Not(TSEncoder._get_state_var("[CB]_[EXIT]_cb1()")))))
ts_enc = TSEncoder(ctrace, [])
vars_ts = ts_enc._encode_vars()
(ts, errors) = ts_enc._encode_cbs(
set(["[CI]_[ENTRY]_ci1()", "[CI]_[ENTRY]_ci2()"]))
ts.product(vars_ts)
self.assertTrue(len(errors) == 1)
self.assertTrue(
is_sat(
And([
errors[0],
Not(TSEncoder._get_state_var("[CI]_[ENTRY]_ci1()")),
Not(TSEncoder._get_state_var("[CI]_[ENTRY]_ci2()"))
])))
