def test_python_func(self):
     def myFunction(variable, param1, param2):
         return sum(variable[0]) + 2
     myMech = ProcessingMechanism(function=myFunction, size=4, name='myMech')
     # assert 'param1' in myMech.parameter_ports.names # <- FIX reinstate when problem with function params is fixed
     # assert 'param2' in myMech.parameter_ports.names # <- FIX reinstate when problem with function params is fixed
     val = myMech.execute(input=[-1, 2, 3, 4])
     assert np.allclose(val, [[10]])
 def test_user_def_func(self):
     def myFunction(variable, param1, param2):
         return variable * 2 + 3
     U = UserDefinedFunction(custom_function=myFunction, default_variable=[[0, 0]], param2=0)
     myMech = ProcessingMechanism(function=U, size=2, name='myMech')
     # assert 'param1' in myMech.parameter_ports.names # <- FIX reinstate when problem with function params is fixed
     assert 'param2' in myMech.parameter_ports.names
     val = myMech.execute([1, 3])
     assert np.allclose(val, [[5, 9]])
    def test_udf_with_pnl_func(self):
        L = Logistic(gain=2)

        def myFunction(variable, params, context):
            return L(variable) + 2

        U = UserDefinedFunction(custom_function=myFunction, default_variable=[[0, 0, 0]])
        myMech = ProcessingMechanism(function=myFunction, size=3, name='myMech')
        val1 = myMech.execute(input=[1, 2, 3])
        val2 = U.execute(variable=[[1, 2, 3]])
        assert np.allclose(val1, val2)
        assert np.allclose(val1, L([1, 2, 3]) + 2)
    def mech_with_autogenerated_udf(self):
        def func(input=[[0], [0]], p=0, q=1):
            return (p + q) * input

        m = ProcessingMechanism(default_variable=[[0], [0]], function=func)

        return m
 def test_udf_system_terminal(self):
     def myFunction(variable, params, context):
         return [variable[0][2], variable[0][0]]
     myMech = ProcessingMechanism(function=myFunction, size=3, name='myMech')
     T2 = TransferMechanism(size=3, function=Linear)
     p2 = Process(pathway=[T2, myMech])
     s2 = System(processes=[p2])
     s2.run(inputs = {T2: [[1, 2, 3]]})
     assert(np.allclose(s2.results[0][0], [3, 1]))
 def test_udf_system_origin(self):
     def myFunction(variable, params, context):
         return [variable[0][1], variable[0][0]]
     myMech = ProcessingMechanism(function=myFunction, size=3, name='myMech')
     T = TransferMechanism(size=2, function=Linear)
     p = Process(pathway=[myMech, T])
     s = System(processes=[p])
     s.run(inputs = {myMech: [[1, 3, 5]]})
     assert np.allclose(s.results[0][0], [3, 1])
Exemplo n.º 7
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def test_udf_composition_terminal(comp_mode, benchmark):
    def myFunction(variable, context):
        return [variable[0][2], variable[0][0]]

    myMech = ProcessingMechanism(function=myFunction, size=3, name='myMech')
    T2 = TransferMechanism(size=3, function=Linear)
    c2 = Composition(pathways=[[T2, myMech]])
    benchmark(c2.run, inputs={T2: [[1, 2, 3]]}, execution_mode=comp_mode)
    assert(np.allclose(c2.results[0][0], [3, 1]))
Exemplo n.º 8
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def test_udf_composition_origin(comp_mode, benchmark):
    def myFunction(variable, context):
        return [variable[0][1], variable[0][0]]

    myMech = ProcessingMechanism(function=myFunction, size=3, name='myMech')
    T = TransferMechanism(size=2, function=Linear)
    c = Composition(pathways=[myMech, T])
    benchmark(c.run, inputs={myMech: [[1, 3, 5]]}, execution_mode=comp_mode)
    assert np.allclose(c.results[0][0], [3, 1])
    def test_udf_creates_parameter_ports(self):
        def func(input=[[0], [0]], p=0, q=1):
            return (p + q) * input

        m = ProcessingMechanism(default_variable=[[0], [0]],
                                function=UserDefinedFunction(func))

        assert len(m.parameter_ports) == 2
        assert 'p' in m.parameter_ports.names
        assert 'q' in m.parameter_ports.names
Exemplo n.º 10
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def test_udf_in_mechanism(mech_mode, benchmark):
    def myFunction(variable, param1, param2):
        return sum(variable[0]) + 2

    myMech = ProcessingMechanism(function=myFunction, size=4, name='myMech')
    # assert 'param1' in myMech.parameter_ports.names # <- FIX reinstate when problem with function params is fixed
    # assert 'param2' in myMech.parameter_ports.names # <- FIX reinstate when problem with function params is fixed
    e = pytest.helpers.get_mech_execution(myMech, mech_mode)

    val = benchmark(e, [-1, 2, 3, 4])
    assert np.allclose(val, [[10]])
Exemplo n.º 11
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    def test_udf_in_mechanism(self, bin_execute, benchmark):
        def myFunction(variable, param1, param2):
            return sum(variable[0]) + 2

        myMech = ProcessingMechanism(function=myFunction,
                                     size=4,
                                     name='myMech')
        # assert 'param1' in myMech.parameter_ports.names # <- FIX reinstate when problem with function params is fixed
        # assert 'param2' in myMech.parameter_ports.names # <- FIX reinstate when problem with function params is fixed
        if bin_execute == 'LLVM':
            e = pnlvm.execution.MechExecution(myMech).execute
        elif bin_execute == 'PTX':
            e = pnlvm.execution.MechExecution(myMech).cuda_execute
        else:
            e = myMech.execute
        val = benchmark(e, [-1, 2, 3, 4])
        assert np.allclose(val, [[10]])