def test_input(): S = system_2.sys_2(t_delta_init=datetime.timedelta(seconds=1)) L = S.layers[0] C = L.cluster_spaces[0] I = L.add_input() I.attach(C) I.add( observation_base(val=5,t=datetime.datetime.now() ) ) I.add( observation_base(val=6,t=datetime.datetime.now() ) ) I.add( observation_base(val=7,t=datetime.datetime.now() ) ) t_val = datetime.datetime.now() I.add( observation_base(val=8,t=t_val ) ) I.add( observation_base(val=9,t=datetime.datetime.now() ) ) I.add( observation_base(val=9,t=datetime.datetime.now() ) )
def test_function(): K = svm.kernel(gamma=.05,sigma_q=.25) l = observation_list_base() test_t = datetime.datetime.now() l.append( observation_base(val=5,t=test_t ) ) l.append( observation_base(val=6,t=datetime.datetime.now() ) ) l.append( observation_base(val=7,t=datetime.datetime.now() ) ) l.append( observation_base(val=8,t=datetime.datetime.now() ) ) l.append( observation_base(val=9,t=datetime.datetime.now() ) ) l.append( observation_base(val=9,t=datetime.datetime.now() ) ) F = svm.function_svm(l,K) assert F.equality_check(), F.equality_check() assert abs( F.reg(test_t) - 5) < .001 assert len(F.SV) <= 6
def test_kernel(): K = svm.kernel(gamma=.05,sigma_q=.25) l = observation_list_base() l.append( observation_base(val=5,t=datetime.datetime.now() ) ) l.append( observation_base(val=6,t=datetime.datetime.now() ) ) l.append( observation_base(val=7,t=datetime.datetime.now() ) ) l.append( observation_base(val=8,t=datetime.datetime.now() ) ) l.append( observation_base(val=9,t=datetime.datetime.now() ) ) l.append( observation_base(val=9,t=datetime.datetime.now() ) ) K.load(l) assert K.x assert K.y assert K.xx assert K.yy assert K.intg assert K.l == 6 assert K.xx.size == (K.l,K.l) assert K.yy.size == (K.l,K.l) assert K.intg.size == (K.l,K.l) assert K.xy(1,2)