Ejemplo n.º 1
0
    def test__eq__(self):
        a = np.linspace(0, 1, 11)
        x = fields.Domain(a)
        y = fields.Domain(a)
        f0 = fields.Field1D('q0', x)
        f1 = fields.Field1D('q1', x)
        f2 = fields.Field1D('q2', y)

        assert (f0 == f0)
        assert (f0 != 0)
        assert (f0 == f1)
        assert (f0 != f2)

        data = np.asarray(range(len(x.xp)))
        f0.set_field(data)
        assert (f0 != f1)
        f1.set_field(data)
        assert (f0 == f1)

        bcp = fields.BoundaryCondition(name='periodic')
        f0.add_boundary_condition(bcp)
        assert (f0 != f1)
        f1.add_boundary_condition(bcp)
        assert (f0 == f1)

        return
Ejemplo n.º 2
0
    def test__sub__(self):
        x = np.linspace(0, 1, 11)
        x = fields.Domain(x)
        f1 = fields.Field1D('q1', x)
        f4 = fields.Field1D('q4', x)
        f3 = fields.Field1D('q3', x)

        data = np.asarray(range(len(x.xp)))
        f1.set_field(data)
        f4.set_field(4 * data)
        f3.set_field(3 * data)

        assert (f4 - f1 == f3)
        return
Ejemplo n.º 3
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    def test__add__(self):
        x = np.linspace(0, 1, 11)
        x = fields.Domain(x)
        f1 = fields.Field1D('q1', x)
        f2 = fields.Field1D('q2', x)
        f3 = fields.Field1D('q3', x)

        data = np.asarray(range(len(x.xp)))
        f1.set_field(data)
        f2.set_field(2 * data)
        f3.set_field(3 * data)

        assert (f1 + f2 == f3)
        return
Ejemplo n.º 4
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    def test__div__(self):
        x = np.linspace(0, 1, 11)
        x = fields.Domain(x)
        f2 = fields.Field1D('q2', x)
        f3 = fields.Field1D('q6', x)
        f6 = fields.Field1D('q3', x)

        three = 3 * np.ones(len(x.xp))

        data = np.asarray(range(len(x.xp)))
        f2.set_field(2 * data)
        f3.set_field(three)
        f6.set_field(6 * data)

        assert (f6 / f3 == f2)
        return
Ejemplo n.º 5
0
    def test_set_field(self):
        mesh = np.linspace(-1.0, 1.0, 11)
        mesh = fields.Domain(xh=mesh)
        mesh.set_expansion(order=3)
        y = np.asarray(range(len(mesh.xp)))

        f = fields.Field1D('q', mesh)
        f.set_field(y)

        assert np.all(f.val == y)
        return
Ejemplo n.º 6
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    def test__getitem__(self):
        x = np.linspace(0, 1, 11)
        x = fields.Domain(x)
        f = fields.Field1D('q', x)

        data = np.asarray(range(len(x.xp)))
        f.set_field(data)

        assert (np.all(f[:] == data))

        return
Ejemplo n.º 7
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    def test_set_field(self):
        x = np.linspace(0, 1, 11)
        x = fields.Domain(x)
        f = fields.Field1D('q', x)

        data = np.asarray(range(len(x.xp)))
        f.set_field(data)

        assert np.all(f.val == data)
        assert f.val is not data

        return
Ejemplo n.º 8
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    def test_init(self):
        x = np.linspace(0, 1, 11)
        x = fields.Domain(x)
        f = fields.Field1D('q', x)

        assert f.mesh is x
        assert f.name == 'q'
        assert f.bconds == []
        assert len(f.val) == len(f.mesh.xp)
        assert np.all(f.val == 0)

        return
Ejemplo n.º 9
0
    def test_update(self):
        x = np.linspace(0, 1, 11)
        x = fields.Domain(x)
        f = fields.Field1D('q', x)

        data = np.asarray(range(len(x.xp)))
        f.set_field(data)
        f.update(data)

        assert np.all(f.val == 2 * data)

        return
Ejemplo n.º 10
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    def test_init(self):
        mesh = np.linspace(-1.0, 1.0, 11)
        mesh = fields.Domain(xh=mesh)
        mesh.set_expansion(order=3)

        f = fields.Field1D('q', mesh)

        assert f.name == 'q'
        assert f.mesh == mesh
        assert len(f.val) == len(f.mesh.xp)
        assert np.all(f.val == 0)
        assert f.bconds == []

        return
Ejemplo n.º 11
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    def test_set_boundary_condition(self):
        mesh = np.linspace(-0.05, 1.05, 12)
        d = fields.Domain(mesh)
        f = fields.Field1D('x', d)

        f.set_boundary_condition('periodic')

        assert type(f.bconds[0]) == fields.BoundaryCondition
        assert f.bconds[0].name == 'periodic'
        assert f.bconds[0].indx == None
        assert f.bconds[0].val == None

        f.set_boundary_condition(name='neumann', indx=0, val=1)

        assert f.bconds[0].name == 'neumann'
        assert f.bconds[0].indx == 0
        assert f.bconds[0].val == 1

        return
Ejemplo n.º 12
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    def test_add_boundary_condition(self):
        mesh = np.linspace(-0.05, 1.05, 12)
        d = fields.Domain(mesh)
        f = fields.Field1D('x', d)

        bcp = fields.BoundaryCondition(name='periodic')
        bcd = fields.BoundaryCondition(name='dirichlet', indx=0, val=0)
        bcn = fields.BoundaryCondition(name='neumann', indx=-1, val=1)

        f.add_boundary_condition(bcp)
        assert bcp in f.bconds
        assert len(f.bconds) == 1

        f.add_boundary_condition(bcd)
        assert bcp not in f.bconds
        assert bcd in f.bconds
        assert len(f.bconds) == 1

        f.add_boundary_condition(bcn)
        assert bcn, bcd in f.bconds
        assert len(f.bconds) == 2

        bcn2 = fields.BoundaryCondition(name='neumann', indx=0, val=1)
        f.add_boundary_condition(bcn2)
        assert bcd not in f.bconds
        assert bcn2 in f.bconds

        f.add_boundary_condition(bcp)
        assert bcn, bcn2 not in f.bconds
        assert bcp in f.bconds

        bcn.indx = None
        f.add_boundary_condition(bcn)
        assert bcn not in f.bconds
        assert bcp in f.bconds

        bcn.indx = 3
        f.add_boundary_condition(bcn)
        assert bcn not in f.bconds
        assert bcp in f.bconds

        return
Ejemplo n.º 13
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    def test_copy(self):
        mesh = np.linspace(-0.05, 1.05, 12)
        d = fields.Domain(mesh)
        f = fields.Field1D('x', d)

        data = np.asarray(range(len(f.val)))
        f.set_field(data)

        bcp = fields.BoundaryCondition(name='periodic')
        f.add_boundary_condition(bcp)

        g = f.copy()

        assert g is not f
        assert g.name == f.name
        assert g.mesh == f.mesh
        assert np.all(g.val == f.val)
        assert np.all(g.bconds == f.bconds)

        return