Exemplo n.º 1
0
    def test_with_nonstorage(self, model):
        """Test usage on non-`Storage` node."""
        # Now test if the parameter is used on a non storage node
        m = model
        s = m.nodes["Storage"]

        l = Link(m, "Link")
        # Connect the link node to the network to create a valid model
        o = m.nodes["Output"]
        s.connect(l)
        l.connect(o)

        cc = ConstantParameter(model, 0.8)
        l.cost = ControlCurveParameter(model, s, cc, [10.0, 0.0])

        @assert_rec(m, l.cost)
        def expected_func(timestep, scenario_index):
            v = s.initial_volume
            if v >= 80.0:
                expected = 10.0
            else:
                expected = 0.0
            return expected

        for initial_volume in (90, 70):
            s.initial_volume = initial_volume
            m.run()
Exemplo n.º 2
0
    def test_with_nonstorage(self, model):
        """ Test usage on non-`Storage` node. """
        # Now test if the parameter is used on a non storage node
        m = model
        m.scenarios.setup()
        s = Storage(m, 'Storage', max_volume=100.0)

        l = Link(m, 'Link')
        cc = ConstantParameter(0.8)
        l.cost = ControlCurveParameter(s, cc, [10.0, 0.0])

        s.setup(m)  # Init memory view on storage (bypasses usual `Model.setup`)
        print(s.volume)
        si = ScenarioIndex(0, np.array([0], dtype=np.int32))
        assert_allclose(l.get_cost(m.timestepper.current, si), 0.0)
        # When storage volume changes, the cost of the link changes.
        s.initial_volume = 90.0
        m.reset()
        print(s.volume)
        assert_allclose(l.get_cost(m.timestepper.current, si), 10.0)
Exemplo n.º 3
0
    def test_with_nonstorage(self, model):
        """ Test usage on non-`Storage` node. """
        # Now test if the parameter is used on a non storage node
        m = model
        s = m.nodes['Storage']

        l = Link(m, 'Link')
        cc = ConstantParameter(model, 0.8)
        l.cost = ControlCurveParameter(model, s, cc, [10.0, 0.0])

        @assert_rec(m, l.cost)
        def expected_func(timestep, scenario_index):
            v = s.initial_volume
            if v >= 80.0:
                expected = 10.0
            else:
                expected = 0.0
            return expected

        for initial_volume in (90, 70):
            s.initial_volume = initial_volume
            m.run()