def test_scribble_to_learn_nature_of_event_processor(): ao = ActiveObject(name="Testing") ao.start_at(s11_state) time.sleep(0.1) ao.post_fifo(Event(signal=signals.T)) time.sleep(0.5) pp(ao.spy())
def test_scribble_to_learn_nature_of_event_processor(): ao = ActiveObject(name="Testing") ao.start_at(s11_state) time.sleep(0.1) ao.post_fifo(Event(signal=signals.T)) time.sleep(0.5) pp(ao.spy())
def test_graffiti_spy(): ao = ActiveObject(name="scribbled_on") ao.start_at(g1_s22_active_objects_graph) time.sleep(0.2) ao.stop() pp(ao.spy())
def test_to_code():
ts1 = state_method_template('ts1')
tc2_s2 = state_method_template('tc2_s2')
tc2_s3 = state_method_template('tc2_s3')
def trans_to_s1(chart, e):
return chart.trans(ts1)
def trans_to_c2_s3(chart, e):
return chart.trans(tc2_s3)
def trans_to_c2_s2(chart, e):
return chart.trans(tc2_s2)
def handled(chart, e):
return return_status.HANDLED
ao = ActiveObject()
ao.register_signal_callback(ts1, signals.BB, trans_to_s1)
ao.register_signal_callback(ts1, signals.ENTRY_SIGNAL, handled)
ao.register_signal_callback(ts1, signals.EXIT_SIGNAL, handled)
ao.register_signal_callback(ts1, signals.INIT_SIGNAL, trans_to_c2_s2)
ao.register_parent(ts1, ao.top)
# commented out line needed for test to work
ao.register_signal_callback(tc2_s2, signals.A, trans_to_c2_s3)
ao.register_signal_callback(tc2_s2, signals.ENTRY_SIGNAL, handled)
ao.register_signal_callback(tc2_s2, signals.EXIT_SIGNAL, handled)
ao.register_signal_callback(tc2_s2, signals.INIT_SIGNAL, handled)
ao.register_parent(tc2_s2, ts1)
# commented out lines needed for test to work
ao.register_signal_callback(tc2_s3, signals.A, trans_to_c2_s2)
ao.register_signal_callback(tc2_s3, signals.ENTRY_SIGNAL, handled)
ao.register_signal_callback(tc2_s3, signals.EXIT_SIGNAL, handled)
ao.register_signal_callback(tc2_s3, signals.INIT_SIGNAL, handled)
ao.register_parent(tc2_s3, ts1)
expected_ts1_as_flat_code = \
'''
@spy_on
def ts1(chart, e):
status = return_status.UNHANDLED
if(e.signal == signals.ENTRY_SIGNAL):
status = return_status.HANDLED
elif(e.signal == signals.INIT_SIGNAL):
status = trans_to_c2_s2(chart, e)
elif(e.signal == signals.BB):
status = trans_to_s1(chart, e)
elif(e.signal == signals.EXIT_SIGNAL):
status = return_status.HANDLED
else:
status, chart.temp.fun = return_status.SUPER, chart.top
return status
'''
assert (ao.to_code(ts1) == expected_ts1_as_flat_code)
expected_tc2_s2_as_flat_code = \
'''
@spy_on
def tc2_s2(chart, e):
status = return_status.UNHANDLED
if(e.signal == signals.ENTRY_SIGNAL):
status = return_status.HANDLED
elif(e.signal == signals.INIT_SIGNAL):
status = return_status.HANDLED
elif(e.signal == signals.A):
status = trans_to_c2_s3(chart, e)
elif(e.signal == signals.EXIT_SIGNAL):
status = return_status.HANDLED
else:
status, chart.temp.fun = return_status.SUPER, ts1
return status
'''
assert (ao.to_code(tc2_s2) == expected_tc2_s2_as_flat_code)
expected_tc2_s3_as_flat_code = \
'''
@spy_on
def tc2_s3(chart, e):
status = return_status.UNHANDLED
if(e.signal == signals.ENTRY_SIGNAL):
status = return_status.HANDLED
elif(e.signal == signals.INIT_SIGNAL):
status = return_status.HANDLED
elif(e.signal == signals.A):
status = trans_to_c2_s2(chart, e)
elif(e.signal == signals.EXIT_SIGNAL):
status = return_status.HANDLED
else:
status, chart.temp.fun = return_status.SUPER, ts1
return status
'''
assert (ao.to_code(tc2_s3) == expected_tc2_s3_as_flat_code)
ao.start_at(tc2_s2)
ao.post_fifo(Event(signal=signals.A))
ao.post_fifo(Event(signal=signals.A))
ao.post_fifo(Event(signal=signals.BB))
time.sleep(0.1)
assert(ao.spy() == \
['START',
'SEARCH_FOR_SUPER_SIGNAL:tc2_s2',
'SEARCH_FOR_SUPER_SIGNAL:ts1',
'ENTRY_SIGNAL:ts1',
'ENTRY_SIGNAL:tc2_s2',
'INIT_SIGNAL:tc2_s2',
'<- Queued:(0) Deferred:(0)',
'A:tc2_s2',
'SEARCH_FOR_SUPER_SIGNAL:tc2_s3',
'SEARCH_FOR_SUPER_SIGNAL:tc2_s2',
'EXIT_SIGNAL:tc2_s2',
'ENTRY_SIGNAL:tc2_s3',
'INIT_SIGNAL:tc2_s3',
'<- Queued:(2) Deferred:(0)',
'A:tc2_s3',
'SEARCH_FOR_SUPER_SIGNAL:tc2_s2',
'SEARCH_FOR_SUPER_SIGNAL:tc2_s3',
'EXIT_SIGNAL:tc2_s3',
'ENTRY_SIGNAL:tc2_s2',
'INIT_SIGNAL:tc2_s2',
'<- Queued:(1) Deferred:(0)',
'BB:tc2_s2',
'BB:ts1',
'EXIT_SIGNAL:tc2_s2',
'SEARCH_FOR_SUPER_SIGNAL:tc2_s2',
'EXIT_SIGNAL:ts1',
'ENTRY_SIGNAL:ts1',
'INIT_SIGNAL:ts1',
'SEARCH_FOR_SUPER_SIGNAL:tc2_s2',
'ENTRY_SIGNAL:tc2_s2',
'INIT_SIGNAL:tc2_s2',
'<- Queued:(0) Deferred:(0)'])
def test_creating_functions_from_a_template():
ts1 = state_method_template('ts1')
tc2_s2 = state_method_template('tc2_s2')
tc2_s3 = state_method_template('tc2_s3')
def trans_to_s1(chart, e):
return chart.trans(ts1)
def trans_to_c2_s3(chart, e):
return chart.trans(tc2_s3)
def trans_to_c2_s2(chart, e):
return chart.trans(tc2_s2)
def handled(chart, e):
return return_status.HANDLED
ao = ActiveObject()
ao.register_signal_callback(ts1, signals.BB, trans_to_s1)
ao.register_signal_callback(ts1, signals.ENTRY_SIGNAL, handled)
ao.register_signal_callback(ts1, signals.EXIT_SIGNAL, handled)
ao.register_signal_callback(ts1, signals.INIT_SIGNAL, trans_to_c2_s2)
ao.register_parent(ts1, ao.top)
ao.register_signal_callback(tc2_s2, signals.A, trans_to_c2_s3)
ao.register_signal_callback(tc2_s2, signals.ENTRY_SIGNAL, handled)
ao.register_signal_callback(tc2_s2, signals.EXIT_SIGNAL, handled)
ao.register_signal_callback(tc2_s2, signals.INIT_SIGNAL, handled)
ao.register_parent(tc2_s2, ts1)
ao.register_signal_callback(tc2_s3, signals.A, trans_to_c2_s2)
ao.register_signal_callback(tc2_s3, signals.ENTRY_SIGNAL, handled)
ao.register_signal_callback(tc2_s3, signals.EXIT_SIGNAL, handled)
ao.register_signal_callback(tc2_s3, signals.INIT_SIGNAL, handled)
ao.register_parent(tc2_s3, ts1)
ao.start_at(tc2_s2)
ao.post_fifo(Event(signal=signals.A))
ao.post_fifo(Event(signal=signals.A))
ao.post_fifo(Event(signal=signals.BB))
time.sleep(0.1)
assert(ao.spy() == \
['START',
'SEARCH_FOR_SUPER_SIGNAL:tc2_s2',
'SEARCH_FOR_SUPER_SIGNAL:ts1',
'ENTRY_SIGNAL:ts1',
'ENTRY_SIGNAL:tc2_s2',
'INIT_SIGNAL:tc2_s2',
'<- Queued:(0) Deferred:(0)',
'A:tc2_s2',
'SEARCH_FOR_SUPER_SIGNAL:tc2_s3',
'SEARCH_FOR_SUPER_SIGNAL:tc2_s2',
'EXIT_SIGNAL:tc2_s2',
'ENTRY_SIGNAL:tc2_s3',
'INIT_SIGNAL:tc2_s3',
'<- Queued:(2) Deferred:(0)',
'A:tc2_s3',
'SEARCH_FOR_SUPER_SIGNAL:tc2_s2',
'SEARCH_FOR_SUPER_SIGNAL:tc2_s3',
'EXIT_SIGNAL:tc2_s3',
'ENTRY_SIGNAL:tc2_s2',
'INIT_SIGNAL:tc2_s2',
'<- Queued:(1) Deferred:(0)',
'BB:tc2_s2',
'BB:ts1',
'EXIT_SIGNAL:tc2_s2',
'SEARCH_FOR_SUPER_SIGNAL:tc2_s2',
'EXIT_SIGNAL:ts1',
'ENTRY_SIGNAL:ts1',
'INIT_SIGNAL:ts1',
'SEARCH_FOR_SUPER_SIGNAL:tc2_s2',
'ENTRY_SIGNAL:tc2_s2',
'INIT_SIGNAL:tc2_s2',
'<- Queued:(0) Deferred:(0)'])
def test_graffiti_spy(): ao = ActiveObject(name="scribbled_on") ao.start_at(g1_s22_active_objects_graph) time.sleep(0.2) pp(ao.spy())
def test_to_code():
ts1 = state_method_template('ts1')
tc2_s2 = state_method_template('tc2_s2')
tc2_s3 = state_method_template('tc2_s3')
def trans_to_s1(chart, e):
return chart.trans(ts1)
def trans_to_c2_s3(chart, e):
return chart.trans(tc2_s3)
def trans_to_c2_s2(chart, e):
return chart.trans(tc2_s2)
def handled(chart, e):
return return_status.HANDLED
ao = ActiveObject()
ao.register_signal_callback(ts1, signals.BB, trans_to_s1)
ao.register_signal_callback(ts1, signals.ENTRY_SIGNAL, handled)
ao.register_signal_callback(ts1, signals.EXIT_SIGNAL, handled)
ao.register_signal_callback(ts1, signals.INIT_SIGNAL, trans_to_c2_s2)
ao.register_parent(ts1, ao.top)
# commented out line needed for test to work
ao.register_signal_callback(tc2_s2, signals.A, trans_to_c2_s3)
ao.register_signal_callback(tc2_s2, signals.ENTRY_SIGNAL, handled)
ao.register_signal_callback(tc2_s2, signals.EXIT_SIGNAL, handled)
ao.register_signal_callback(tc2_s2, signals.INIT_SIGNAL, handled)
ao.register_parent(tc2_s2, ts1)
# commented out lines needed for test to work
ao.register_signal_callback(tc2_s3, signals.A, trans_to_c2_s2)
ao.register_signal_callback(tc2_s3, signals.ENTRY_SIGNAL, handled)
ao.register_signal_callback(tc2_s3, signals.EXIT_SIGNAL, handled)
ao.register_signal_callback(tc2_s3, signals.INIT_SIGNAL, handled)
ao.register_parent(tc2_s3, ts1)
expected_ts1_as_flat_code = \
'''
@spy_on
def ts1(chart, e):
status = return_status.UNHANDLED
if(e.signal == signals.ENTRY_SIGNAL):
status = return_status.HANDLED
elif(e.signal == signals.INIT_SIGNAL):
status = trans_to_c2_s2(chart, e)
elif(e.signal == signals.BB):
status = trans_to_s1(chart, e)
elif(e.signal == signals.EXIT_SIGNAL):
status = return_status.HANDLED
else:
status, chart.temp.fun = return_status.SUPER, chart.top
return status
'''
assert(ao.to_code(ts1) == expected_ts1_as_flat_code)
expected_tc2_s2_as_flat_code = \
'''
@spy_on
def tc2_s2(chart, e):
status = return_status.UNHANDLED
if(e.signal == signals.ENTRY_SIGNAL):
status = return_status.HANDLED
elif(e.signal == signals.INIT_SIGNAL):
status = return_status.HANDLED
elif(e.signal == signals.A):
status = trans_to_c2_s3(chart, e)
elif(e.signal == signals.EXIT_SIGNAL):
status = return_status.HANDLED
else:
status, chart.temp.fun = return_status.SUPER, ts1
return status
'''
assert(ao.to_code(tc2_s2) == expected_tc2_s2_as_flat_code)
expected_tc2_s3_as_flat_code = \
'''
@spy_on
def tc2_s3(chart, e):
status = return_status.UNHANDLED
if(e.signal == signals.ENTRY_SIGNAL):
status = return_status.HANDLED
elif(e.signal == signals.INIT_SIGNAL):
status = return_status.HANDLED
elif(e.signal == signals.A):
status = trans_to_c2_s2(chart, e)
elif(e.signal == signals.EXIT_SIGNAL):
status = return_status.HANDLED
else:
status, chart.temp.fun = return_status.SUPER, ts1
return status
'''
assert(ao.to_code(tc2_s3) == expected_tc2_s3_as_flat_code)
ao.start_at(tc2_s2)
ao.post_fifo(Event(signal=signals.A))
ao.post_fifo(Event(signal=signals.A))
ao.post_fifo(Event(signal=signals.BB))
time.sleep(0.1)
assert(ao.spy() == \
['START',
'SEARCH_FOR_SUPER_SIGNAL:tc2_s2',
'SEARCH_FOR_SUPER_SIGNAL:ts1',
'ENTRY_SIGNAL:ts1',
'ENTRY_SIGNAL:tc2_s2',
'INIT_SIGNAL:tc2_s2',
'<- Queued:(0) Deferred:(0)',
'A:tc2_s2',
'SEARCH_FOR_SUPER_SIGNAL:tc2_s3',
'SEARCH_FOR_SUPER_SIGNAL:tc2_s2',
'EXIT_SIGNAL:tc2_s2',
'ENTRY_SIGNAL:tc2_s3',
'INIT_SIGNAL:tc2_s3',
'<- Queued:(2) Deferred:(0)',
'A:tc2_s3',
'SEARCH_FOR_SUPER_SIGNAL:tc2_s2',
'SEARCH_FOR_SUPER_SIGNAL:tc2_s3',
'EXIT_SIGNAL:tc2_s3',
'ENTRY_SIGNAL:tc2_s2',
'INIT_SIGNAL:tc2_s2',
'<- Queued:(1) Deferred:(0)',
'BB:tc2_s2',
'BB:ts1',
'EXIT_SIGNAL:tc2_s2',
'SEARCH_FOR_SUPER_SIGNAL:tc2_s2',
'EXIT_SIGNAL:ts1',
'ENTRY_SIGNAL:ts1',
'INIT_SIGNAL:ts1',
'SEARCH_FOR_SUPER_SIGNAL:tc2_s2',
'ENTRY_SIGNAL:tc2_s2',
'INIT_SIGNAL:tc2_s2',
'<- Queued:(0) Deferred:(0)'])
def test_creating_functions_from_a_template():
ts1 = state_method_template('ts1')
tc2_s2 = state_method_template('tc2_s2')
tc2_s3 = state_method_template('tc2_s3')
def trans_to_s1(chart, e):
return chart.trans(ts1)
def trans_to_c2_s3(chart, e):
return chart.trans(tc2_s3)
def trans_to_c2_s2(chart, e):
return chart.trans(tc2_s2)
def handled(chart, e):
return return_status.HANDLED
ao = ActiveObject()
ao.register_signal_callback(ts1, signals.BB, trans_to_s1)
ao.register_signal_callback(ts1, signals.ENTRY_SIGNAL, handled)
ao.register_signal_callback(ts1, signals.EXIT_SIGNAL, handled)
ao.register_signal_callback(ts1, signals.INIT_SIGNAL, trans_to_c2_s2)
ao.register_parent(ts1, ao.top)
ao.register_signal_callback(tc2_s2, signals.A, trans_to_c2_s3)
ao.register_signal_callback(tc2_s2, signals.ENTRY_SIGNAL, handled)
ao.register_signal_callback(tc2_s2, signals.EXIT_SIGNAL, handled)
ao.register_signal_callback(tc2_s2, signals.INIT_SIGNAL, handled)
ao.register_parent(tc2_s2, ts1)
ao.register_signal_callback(tc2_s3, signals.A, trans_to_c2_s2)
ao.register_signal_callback(tc2_s3, signals.ENTRY_SIGNAL, handled)
ao.register_signal_callback(tc2_s3, signals.EXIT_SIGNAL, handled)
ao.register_signal_callback(tc2_s3, signals.INIT_SIGNAL, handled)
ao.register_parent(tc2_s3, ts1)
ao.start_at(tc2_s2)
ao.post_fifo(Event(signal=signals.A))
ao.post_fifo(Event(signal=signals.A))
ao.post_fifo(Event(signal=signals.BB))
time.sleep(0.1)
assert(ao.spy() == \
['START',
'SEARCH_FOR_SUPER_SIGNAL:tc2_s2',
'SEARCH_FOR_SUPER_SIGNAL:ts1',
'ENTRY_SIGNAL:ts1',
'ENTRY_SIGNAL:tc2_s2',
'INIT_SIGNAL:tc2_s2',
'<- Queued:(0) Deferred:(0)',
'A:tc2_s2',
'SEARCH_FOR_SUPER_SIGNAL:tc2_s3',
'SEARCH_FOR_SUPER_SIGNAL:tc2_s2',
'EXIT_SIGNAL:tc2_s2',
'ENTRY_SIGNAL:tc2_s3',
'INIT_SIGNAL:tc2_s3',
'<- Queued:(2) Deferred:(0)',
'A:tc2_s3',
'SEARCH_FOR_SUPER_SIGNAL:tc2_s2',
'SEARCH_FOR_SUPER_SIGNAL:tc2_s3',
'EXIT_SIGNAL:tc2_s3',
'ENTRY_SIGNAL:tc2_s2',
'INIT_SIGNAL:tc2_s2',
'<- Queued:(1) Deferred:(0)',
'BB:tc2_s2',
'BB:ts1',
'EXIT_SIGNAL:tc2_s2',
'SEARCH_FOR_SUPER_SIGNAL:tc2_s2',
'EXIT_SIGNAL:ts1',
'ENTRY_SIGNAL:ts1',
'INIT_SIGNAL:ts1',
'SEARCH_FOR_SUPER_SIGNAL:tc2_s2',
'ENTRY_SIGNAL:tc2_s2',
'INIT_SIGNAL:tc2_s2',
'<- Queued:(0) Deferred:(0)'])
