Exemple #1
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def test_from_multipoles_quad():
    c1 = [[0.0, 0.0, 0.0], [1.0, 0.0, 0.0]]
    q1 = [[1.0], [2.0]]
    mu1 = [[1.0, 2.0, 3.0], [-1.0, -2.0, -3.0]]
    theta1 = [[1.0, 2.0, 3.0, 4.0, 5.0, 6.0],
              [-1.0, 2.0, -3.0, 4.0, -5.0, 6.0]]
    p1 = Potential.from_multipoles(c1, [q1, mu1, theta1], max_k=2)
    p1.save("quad_test.pot")

    p2 = Potential.from_file("tests/quad_test.pot")
    assert p1 == p2
def test_commutative_addition():
    m2p2 = Potential.from_file('tests/m2p2.pot')
    m0 = Potential.from_file('tests/m0.pot')

    # check we can add both ways
    p2 = m0 + m2p2
    assert p2.nsites == 15
    assert len(p2.polarizabilities) == 15
    assert max(p2.multipoles.keys()) == 2

    p1 = m2p2 + m0
    assert p1.nsites == 15
    assert len(p1.polarizabilities) == 15
    assert max(p1.multipoles.keys()) == 2
Exemple #3
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def test_addition():
    """ Tests various kinds of potential addition """

    # first test addition of empty potentials
    p0 = Potential()
    p = p0 + p0
    assert p.nsites == 2 * p0.nsites
    assert p.npols == 2 * p0.npols

    # do simple potentials and make sure they add both a + b and b + a
    c1 = [[0.0, 0.0, 0.0]]
    q1 = [[1.0]]
    p1 = Potential.from_multipoles(c1, q1)

    c2 = [[5.4, 0.0, 0.0]]
    d2 = [[1.0, 1.0, 0.0]]
    p2 = Potential.from_multipoles(c2, d2)

    p = p1 + p2
    assert p.nsites == p1.nsites + p2.nsites
    assert p.npols == p1.npols + p2.npols

    p = p2 + p1
    assert p.nsites == p1.nsites + p2.nsites
    assert p.npols == p1.npols + p2.npols

    # now add polarizabilities to one
    p1.polarizabilities = [[1.0, 0.0, 0.0, 1.0, 0.0, 1.0]]
    assert p1.npols == 1
    p = p1 + p2
    assert p.nsites == p1.nsites + p2.nsites
    assert p.npols == p1.npols + p2.npols
    p = p2 + p1
    assert p.nsites == p1.nsites + p2.nsites
    assert p.npols == p1.npols + p2.npols

    p2.polarizabilities = [[0.0, 2.0, 2.0, 0.0, 0.0, 2.0]]
    assert p2.npols == 1
    p = p1 + p2
    assert p.nsites == p1.nsites + p2.nsites
    assert p.npols == p1.npols + p2.npols

    # finally add two potentials with only polarization
    p3 = Potential.from_file('tests/nomul.pot')
    print(p3)
    assert p3.npols == 1
    p = p3 + p3
    assert p.npols == 2
Exemple #4
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def test_from_multipoles():
    c1 = [[0.0, 0.0, 0.0]]
    q1 = [[1.0]]
    p1 = Potential.from_multipoles(c1, q1)

    assert p1.nsites == 1
    assert p1.multipoles[0] == [[1.0]]
    assert p1.npols == 0

    c2 = [[5.4, 0.0, 0.0]]
    d2 = [[1.0, 1.0, 0.0]]
    p2 = Potential.from_multipoles(c2, d2)
    assert p2.nsites == 1
    assert p2.multipoles[0] == [[0.0]]
    assert p2.multipoles[1] == [[1.0, 1.0, 0.0]]
    assert p2.npols == 0
Exemple #5
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    def make_potentials(self):
        """
        Creates pepytools.Potential objects for every state

        """
        if len(self.multipoles_per_state) != self.n_states:
            raise Exception(
                "Invalid number of multipole moments to create potential.",
                self.n_states, len(self.multipoles_per_state))
        self.potentials_per_state = []
        for state in range(self.n_states):
            max_k = self.multipoles_per_state[state].max_k
            m0 = [list(x) for x in self.multipoles_per_state[state].M0]
            if max_k == 0:
                m1 = None
                m2 = None
            elif max_k == 1:
                m1 = [list(x) for x in self.multipoles_per_state[state].M1]
                m2 = None
            elif max_k == 2:
                m1 = [list(x) for x in self.multipoles_per_state[state].M1]
                m2 = [list(x) for x in self.multipoles_per_state[state].M2]
            else:
                m1 = None
                m2 = None
            moment_list = [x for x in [m0, m1, m2] if x is not None]
            # pepytools wants coordinates in AU
            p = Potential.from_multipoles(1.889725989 * self.coords,
                                          moment_list,
                                          max_k=max_k)
            self.potentials_per_state.append(p)
def test_addition_nomul_info():
    p1 = Potential()
    p1.setCoordinates(numpy.asarray([[0.0, 0.0, 0.0]]))
    p1.setLabels(['He'])

    p2 = Potential()
    p2.setCoordinates(numpy.asarray([[1.0, 0.0, 0.0]]))
    p2.setLabels(['He'])

    p = p1 + p2
Exemple #7
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def test_m0_from_file():
    p = Potential.from_file('tests/m0.pot')
    assert p.nsites == 9  # 3 water molecules
    assert p.npols == 0
    print(p)
Exemple #8
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def test_equality():
    p1 = Potential.from_file('tests/m0.pot')
    p2 = Potential.from_file('tests/m0.pot')
    print(p1, p2)
    assert p1 == p2
Exemple #9
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def test_m2p2_from_file():
    p = Potential.from_file('tests/m2p2.pot')
    assert p.nsites == 6
    assert p.npols == 6