def test_make_subgraph():
sub = Graph()
sub.add_component('Head', Passthru)
sub.add_component('Tail', Passthru)
sub.connect('Head.OUT', 'Tail.IN')
sub.export('Head.IN', 'IN')
sub.export('Tail.OUT', 'OUT')
PassNet = make_subgraph(sub, name='PassNet')
assert len(PassNet.inport_definitions) == 2
assert len(PassNet.outport_definitions) == 2
graph = Graph()
capture = graph.add_component('Capture', Capture)
graph.add_component('Pass', PassNet)
graph.initialize(5, 'Pass.IN')
graph.connect('Pass.OUT', 'Capture.IN')
run_graph(graph)
assert capture.value == 5
def test_network_export():
graph = Graph()
passthru = graph.add_component("Pass", SlowPass, DELAY=0.1)
graph.export('Pass.OUT', 'OUT')
graph.export('Pass.IN', 'IN')
assert len(graph.inports.keys()) == 1
assert len(graph.outports.keys()) == 1
def test_get_spec():
sub = Graph()
sub.add_component('Head', Passthru)
sub.add_component('Tail', Passthru)
sub.connect('Head.OUT', 'Tail.IN')
sub.export('Head.IN', 'IN')
sub.export('Tail.OUT', 'OUT')
PassNet = make_subgraph(sub, name='PassNet')
spec = PassNet.get_spec()
assert spec['name'] == 'abc/PassNet'
assert len(spec['inPorts']) == 2
assert len(spec['outPorts']) == 2
def get_graph(graph_name):
graph = Graph(name=graph_name)
gen = graph.add_component('Generate', GenerateTestData)
gen.metadata['x'] = 5
gen.metadata['y'] = 5
passthru = graph.add_component('Pass', Passthru)
outside = graph.add_component('Outside', Passthru)
graph.connect('Generate.OUT', 'Pass.IN')
graph.connect('Outside.OUT', 'Pass.IN')
graph.initialize(5, 'Generate.COUNT')
graph.export('Pass.OUT', 'OUTPORT')
graph.export('Outside.IN', 'INPORT')
return graph, gen, passthru, outside
def test_network_apply():
graph = Graph()
graph.add_component('Add1', Add)
graph.add_component('Add2', Add)
graph.connect('Add1.OUT', 'Add2.IN1')
graph.export('Add1.IN1', 'IN1')
graph.export('Add1.IN2', 'IN2')
graph.export('Add2.IN2', 'IN3')
graph.export('Add2.OUT', 'OUT')
outputs = run_graph(graph, {
'IN1': 1,
'IN2': 3,
'IN3': 6
}, capture_results=True)
assert outputs['OUT'] == 10
def test_network_apply_with_outputs():
graph = Graph()
graph.add_component('Add1', Add)
graph.add_component('Add2', Add)
graph.add_component('Kick', Kick)
graph.connect('Add1.OUT', 'Add2.IN1')
graph.export('Add1.IN1', 'IN1')
graph.export('Add1.IN2', 'IN2')
graph.export('Add2.IN2', 'IN3')
graph.export('Add2.OUT', 'OUT')
graph.export('Kick.OUT', 'Kick_OUT')
outputs = run_graph(graph, {'IN1': 1, 'IN2': 3, 'IN3': 6}, ['OUT'])
assert outputs == {'OUT': 10}
def test_export_serialization():
graph = Graph()
graph.add_component('Head', SlowPass, DELAY=0.01)
graph.add_component('Tail', SlowPass, DELAY=0.01)
graph.connect('Head.OUT', 'Tail.IN')
graph.export('Head.IN', 'IN')
graph.export('Tail.OUT', 'OUT')
definition = graph.to_dict()
expected = {
'processes': {
'Head': {
'component': 'rill.components.timing/SlowPass',
'metadata': {}
},
'Tail': {
'component': 'rill.components.timing/SlowPass',
'metadata': {}
}
},
'connections': [
{
'src': {'data': 0.01},
'tgt': {
'process': 'Head',
'port': 'DELAY'
}
},
{
'src': {'data': 0.01},
'tgt': {
'process': 'Tail',
'port': 'DELAY'
}
},
{
'src': {
'process': 'Head',
'port': 'OUT'
},
'tgt': {
'process': 'Tail',
'port': 'IN'
}
}
],
'inports': {
'IN': {
'process': 'Head',
'port': 'IN',
'metadata': {}
}
},
'outports': {
'OUT': {
'process': 'Tail',
'port': 'OUT',
'metadata': {}
}
}
}
# Order of connections array shouldn't matter
definition['connections'] = sorted(definition['connections'], key=str)
expected['connections'] = sorted(expected['connections'], key=str)
assert definition == expected
