def test_unit_restore(): unit = Unit(get_conf( UNIT_INPUT_HEIGHT=2, UNIT_INPUT_WIDTH=4, UNIT_OUTPUT_WIDTH=4 )) messages = [ ( from_plain_signal(i % 4, 4), from_plain_signal((i + 1) % 4, 4), ) for i in range(100) ] for message in messages: unit.activate(message) message = ( from_plain_signal(0, 4), None ) expected_message = ( from_plain_signal(0, 4), from_plain_signal(1, 4), ) restored_message = unit.restore(message) assert restored_message[0] == expected_message[0], 'first signal should be exactly the same' assert to_plain_signal(restored_message[1]) == to_plain_signal(expected_message[1])
def test_time_unit_prediction(): unit = TimeUnit( get_conf(UNIT_INPUT_HEIGHT=2, UNIT_INPUT_WIDTH=4, UNIT_OUTPUT_WIDTH=4, TIME_UNIT_BUFFER_SIZE=1)) # learning signals_to_learn = [from_plain_signal(i % 4, 4) for i in range(100)] for signal in signals_to_learn: unit.activate(signal) # set base signals for prediction signals = [ from_plain_signal(0, 4), ] unit.reset() for signal in signals: unit.activate(signal) # predict expected_prediction = from_plain_signal(1, 4) prediction = unit.get_prediction() assert to_plain_signal( prediction[0]) == to_plain_signal(expected_prediction)
def test_time_unit_prediction(): unit = TimeUnit(get_conf(UNIT_INPUT_HEIGHT=2, UNIT_INPUT_WIDTH=4, UNIT_OUTPUT_WIDTH=4, TIME_UNIT_BUFFER_SIZE=1)) # learning signals_to_learn = [from_plain_signal(i % 4, 4) for i in range(100)] for signal in signals_to_learn: unit.activate(signal) # set base signals for prediction signals = [from_plain_signal(0, 4)] unit.reset() for signal in signals: unit.activate(signal) # predict expected_prediction = from_plain_signal(1, 4) prediction = unit.get_prediction() assert to_plain_signal(prediction[0]) == to_plain_signal(expected_prediction)
def test_unit_restore(): unit = Unit( get_conf(UNIT_INPUT_HEIGHT=2, UNIT_INPUT_WIDTH=4, UNIT_OUTPUT_WIDTH=4)) messages = [( from_plain_signal(i % 4, 4), from_plain_signal((i + 1) % 4, 4), ) for i in range(100)] for message in messages: unit.activate(message) message = (from_plain_signal(0, 4), None) expected_message = ( from_plain_signal(0, 4), from_plain_signal(1, 4), ) restored_message = unit.restore(message) assert restored_message[0] == expected_message[ 0], 'first signal should be exactly the same' assert to_plain_signal(restored_message[1]) == to_plain_signal( expected_message[1])