def test_basic(): # create two output neurons (they won't receive any external inputs) n1 = CTNeuron('OUTPUT', 1, -2.75, 1.0, 'sigmoid', 0.5) n1.set_integration_step(0.04) repr(n1) str(n1) n2 = CTNeuron('OUTPUT', 2, -1.75, 1.0, 'sigmoid', 0.5) n2.set_integration_step(0.04) repr(n2) str(n2) n1.set_init_state(-0.084000643) n2.set_init_state(-0.408035109) neurons_list = [n1, n2] # create some synapses conn_list = [(1, 1, 4.5), (1, 2, -1.0), (2, 1, 1.0), (2, 2, 4.5)] # create the network net = Network(neurons_list, conn_list, 0) net.set_integration_step(0.03) repr(net) str(net) # activates the network print("{0:.7f} {1:.7f}".format(n1.output, n2.output)) outputs = [] for i in range(1000): output = net.parallel_activate() outputs.append(output) print("{0:.7f} {1:.7f}".format(output[0], output[1])) for s in net.synapses: repr(s) str(s)