def test_all2one_list(net): vals = [v.node_id for v in net.nodes(ei='i')] conr = connector.create(vals) itr = iterator.create('all_to_one', conr) for v in itr(net.nodes(ei='i'), net.nodes(ei='e'), conr): src_id, trg_id, val = v assert (src_id == val)
def test_one2all_list(): net = network() vals = [v.node_id for v in net.nodes(ei='e')] conr = connector.create(vals) itr = iterator.create('one_to_all', conr) for v in itr(net.nodes(ei='i'), net.nodes(ei='e'), conr): src_id, trg_id, val = v assert(trg_id == val)
def test_one2one_list(): net = network() vals = [s.node_id*t.node_id for s,t in itertools.product(net.nodes(ei='i'), net.nodes(ei='e'))] conr = connector.create(vals) itr = iterator.create('one_to_one', conr) for v in itr(net.nodes(ei='i'), net.nodes(ei='e'), conr): src_id, trg_id, val = v assert(src_id*trg_id == val)
def test_literal(net): conr = connector.create(100) itr = iterator.create('one_to_one', conr) count = 0 for v in itr(net.nodes(ei='i'), net.nodes(ei='e'), conr): src_id, trg_id, val = v assert (src_id < 100) assert (trg_id >= 100) assert (val == 100) count += 1 assert (count == 5000)
def test_dict(net): conr = connector.create({'nsyn': 10, 'target': 'axon'}) itr = iterator.create('one_to_one', conr) count = 0 for v in itr(net.nodes(ei='i'), net.nodes(ei='e'), conr): src_id, trg_id, val = v assert (src_id < 100) assert (trg_id >= 100) assert (val['nsyn'] == 10) assert (val['target'] == 'axon') count += 1 assert (count == 5000)
def test_one2one_fnc(net): def connector_fnc(s, t): assert (s['ei'] == 'i') assert (t['ei'] == 'e') return '100' conr = connector.create(connector_fnc) itr = iterator.create('one_to_one', conr) count = 0 for v in itr(net.nodes(ei='i'), net.nodes(ei='e'), conr): src_id, trg_id, val = v assert (src_id < 100) assert (trg_id >= 100) assert (val == '100') count += 1 assert (count == 100 * 50)
def test_all2one_fnc(net): def connector_fnc(ss, t): assert (isinstance(t, Node)) assert (t['ei'] == 'e') assert (len(ss) == 100) return [100] * 100 conr = connector.create(connector_fnc) itr = iterator.create('all_to_one', conr) count = 0 for v in itr(net.nodes(ei='i'), net.nodes(ei='e'), conr): src_id, trg_id, val = v assert (src_id < 100) assert (trg_id >= 100) assert (val == 100) count += 1 assert (count == 5000)
def test_one2all_fnc(): def connector_fnc(s, ts): assert(isinstance(s, Node)) assert(s['ei'] == 'i') assert(len(ts) == 50) return [100]*50 net = network() conr = connector.create(connector_fnc) itr = iterator.create('one_to_all', conr) count = 0 for v in itr(net.nodes(ei='i'), net.nodes(ei='e'), conr): src_id, trg_id, val = v assert(src_id < 100) assert(trg_id >= 100) assert(val == 100) count += 1 assert(count == 5000)