def test_provide_inputs_outputs_already_defined():
inputs = [Input("a"), Input("b")]
outputs = [Output("c")]
graph = Graph(inputs=inputs, outputs=outputs)
with pytest.raises(TypeError) as err:
@graph.register(inputs=["a", "b"], outputs=[Output("c")])
def f_my_function(a, b):
return a + b
msg = "You cannot use Input / Output in a Node if already defined"
assert msg in str(err.value)
def _process_outputs(self, outputs):
for output in outputs:
if isinstance(output, Output):
new_output = output
elif isinstance(output, str):
new_output = Output(output)
self._outputs.append(new_output)
def _process_outputs(self, outputs):
""" converter data passed to Output objects and store them """
for output in outputs:
if isinstance(output, Output):
new_output = output
elif isinstance(output, str):
new_output = Output(output)
self._outputs.append(new_output)
def _process_outputs(self, outputs):
""" converter data passed to Output objects and store them """
if outputs is None:
outputs = get_function_return_names(self._fct)
for output in outputs:
if isinstance(output, Output):
new_output = output
elif isinstance(output, str):
new_output = Output(output)
self._outputs.append(new_output)
def test_provide_inputs_outputs():
inputs = [Input("a"), Input("b")]
outputs = [Output("c")]
graph = Graph(inputs=inputs, outputs=outputs)
@graph.register(inputs=["a", "b"], outputs=["c"])
def f_my_function(a, b):
return a + b
res = graph.calculate(data={"a": 2, "b": 3})
assert res == 5
def test_map():
graph = Graph()
@graph.register(inputs=[Input('a', map='q'),
Input('b', map='w')],
outputs=[Output('c', map='e')])
def f_my_function(a, b):
return a + b
res = graph.calculate(data={'q': 2, 'w': 3})
assert res == 5
assert graph.data['e'] == 5
def test_provide_inputs_outputs():
inputs = [Input('a'), Input('b')]
outputs = [Output('c')]
graph = Graph(inputs=inputs, outputs=outputs)
@graph.register(inputs=['a', 'b'], outputs=['c'])
def f_my_function(a, b):
return a + b
res = graph.calculate(data={'a': 2, 'b': 3})
assert res == 5
def test_map():
graph = Graph()
@graph.register(
inputs=[Input("a", map="q"), Input("b", map="w")],
outputs=[Output("c", map="e")],
)
def f_my_function(a, b):
return a + b
res = graph.calculate(data={"q": 2, "w": 3})
assert res == 5
assert graph.data["e"] == 5
def test_contract_outputs():
from contracts import ContractNotRespected
graph = Graph()
@graph.register(inputs=["a", "b"], outputs=[Output("c", contract="int,>0")])
def f_my_function(a, b):
return a + b
res = graph.calculate(data={"a": 2, "b": 3})
assert res == 5
with pytest.raises(ContractNotRespected) as err:
res = graph.calculate(data={"a": -4, "b": 3})
assert "Condition -1 > 0 not respected" in str(err.value)
def test_contract_outputs():
from contracts import ContractNotRespected
graph = Graph()
@graph.register(inputs=['a', 'b'],
outputs=[Output('c', contract='int,>0')])
def f_my_function(a, b):
return a + b
res = graph.calculate(data={'a': 2, 'b': 3})
assert res == 5
with pytest.raises(ContractNotRespected) as err:
res = graph.calculate(data={'a': -4, 'b': 3})
assert "Condition -1 > 0 not respected" in str(err.value)
def test_Output():
out = Output("a")
assert out.name == "a"
out.value = 2
assert out._value == 2
assert out.value == 2
def test_Output():
out = Output('a')
assert out.name == 'a'
out.value = 2
assert out._value == 2
assert out.value == 2
