示例#1
0
def plot(dataset,
         ax,
         cax=None,
         vmin=None,
         vmax=None,
         cmap="jet",
         label=None,
         mesh_filename="visdump_mesh.h5",
         directory="."):
    """Draws a dataset on an ax."""
    if vmin is None:
        vmin = dataset.min()
    if vmax is None:
        vmax = dataset.max()

    # get the mesh and collapse to 2D
    etype, coords, conn = mesh.meshElemXYZ(filename=mesh_filename,
                                           directory=directory)
    if etype is not 'HEX':
        raise RuntimeError("Only works for Hexs")

    coords2 = np.array([[coords[i][0::2] for i in c if coords[i][1] == 0.0]
                        for c in conn])
    assert coords2.shape[2] == 2
    assert coords2.shape[1] == 4

    polygons = matplotlib.collections.PolyCollection(coords2,
                                                     edgecolor='k',
                                                     cmap=cmap)
    polygons.set_array(dataset)
    polygons.set_clim(vmin, vmax)
    ax.add_collection(polygons)

    xmin = min(c[0] for c in coords.itervalues())
    xmax = max(c[0] for c in coords.itervalues())
    zmin = min(c[2] for c in coords.itervalues())
    zmax = max(c[2] for c in coords.itervalues())

    ax.set_xlim(xmin, xmax)
    ax.set_ylim(zmin, zmax)

    if cax is not None:
        cb = plt.colorbar(polygons, cax=cax)
        if label is not None:
            cb.set_label(label)

    return ((xmin, xmax), (zmin, zmax))
示例#2
0
def plot(dataset,
         ax,
         cax=None,
         vmin=None,
         vmax=None,
         cmap="jet",
         label=None,
         mesh_filename="visdump_mesh.h5",
         directory=".",
         y_coord=0.0,
         linewidths=1):
    """Draws a dataset on an ax."""
    import matplotlib.collections
    from matplotlib import pyplot as plt

    if vmin is None:
        vmin = dataset.min()
    if vmax is None:
        vmax = dataset.max()

    # get the mesh and collapse to 2D
    etype, coords, conn = mesh.meshElemXYZ(filename=mesh_filename,
                                           directory=directory)
    if etype is not 'HEX':
        raise RuntimeError("Only works for Hexs")

    coords2 = np.array([[
        coords[i][0::2] for i in c[1:] if abs(coords[i][1] - y_coord) < 1.e-8
    ] for c in conn])
    try:
        assert coords2.shape[2] == 2
        assert coords2.shape[1] == 4
    except AssertionError:
        print coords2.shape
        for c in conn:
            if len(c) != 9:
                print c
                raise RuntimeError("what is a conn?")
            coords3 = np.array([
                coords[i][:] for i in c[1:]
                if abs(coords[i][1] - y_coord) < 1.e-8
            ])
            if coords3.shape[0] != 4:
                print coords
                raise RuntimeError("Unable to squash to 2D")

    # reorder anti-clockwise
    for i, c in enumerate(coords2):
        centroid = c.mean(axis=0)

        def angle(p1, p2):
            a1 = np.arctan2((p1[1] - centroid[1]), (p1[0] - centroid[0]))
            a2 = np.arctan2((p2[1] - centroid[1]), (p2[0] - centroid[0]))
            if a1 < a2:
                return -1
            elif a2 < a1:
                return 1
            else:
                return 0

        c2 = np.array(sorted(c, angle))
        coords2[i] = c2

    polygons = matplotlib.collections.PolyCollection(coords2,
                                                     edgecolor='k',
                                                     cmap=cmap,
                                                     linewidths=linewidths)
    polygons.set_array(dataset)
    polygons.set_clim(vmin, vmax)
    ax.add_collection(polygons)

    xmin = min(c[0] for c in coords.itervalues())
    xmax = max(c[0] for c in coords.itervalues())
    zmin = min(c[2] for c in coords.itervalues())
    zmax = max(c[2] for c in coords.itervalues())

    ax.set_xlim(xmin, xmax)
    ax.set_ylim(zmin, zmax)

    if cax is not None:
        cb = plt.colorbar(polygons, cax=cax)
        if label is not None:
            cb.set_label(label)

    return ((xmin, xmax), (zmin, zmax))