def test_mesh_to_plotly():
    fsaverage = fetch_surf_fsaverage()
    coord, triangles = surface.load_surf_mesh(fsaverage['pial_left'])
    plotly = js_plotting_utils.mesh_to_plotly(fsaverage['pial_left'])
    for i, key in enumerate(['_x', '_y', '_z']):
        assert np.allclose(
            js_plotting_utils.decode(plotly[key], '<f4'), coord[:, i])
    for i, key in enumerate(['_i', '_j', '_k']):
        assert np.allclose(
            js_plotting_utils.decode(plotly[key], '<i4'), triangles[:, i])
def test_encode():
    for dtype in ['<f4', '<i4', '>f4', '>i4']:
        a = np.arange(10, dtype=dtype)
        encoded = js_plotting_utils.encode(a)
        decoded = base64.b64decode(encoded.encode('utf-8'))
        b = np.frombuffer(decoded, dtype=dtype)
        assert np.allclose(js_plotting_utils.decode(encoded, dtype=dtype), b)
        assert np.allclose(a, b)
def test_get_markers():
    coords = np.arange(12).reshape((4, 3))
    colors = ['r', 'g', 'black', 'white']
    markers = html_connectome._get_markers(coords, colors)
    assert markers["marker_color"] == [
        '#ff0000', '#007f00', '#000000', '#ffffff']
    assert markers['markers_only']
    con_x = decode(markers['_con_x'], '<f4')
    assert np.allclose(con_x, coords[:, 0])
def test_full_brain_info():
    fsaverage = fetch_surf_fsaverage()
    img = _get_img()
    info = html_surface.full_brain_info(img)
    check_colors(info['colorscale'])
    assert {'pial_left', 'pial_right',
            'inflated_left', 'inflated_right',
            'vertexcolor_left', 'vertexcolor_right'}.issubset(info.keys())
    assert info['cmin'] == - info['cmax']
    assert info['full_brain_mesh']
    assert not info['black_bg']
    assert type(info['cmax']) == float
    json.dumps(info)
    for hemi in ['left', 'right']:
        mesh = surface.load_surf_mesh(fsaverage['pial_{}'.format(hemi)])
        assert len(info['vertexcolor_{}'.format(hemi)]) == len(mesh[0])
        assert len(decode(
            info['inflated_{}'.format(hemi)]['_z'], '<f4')) == len(mesh[0])
        assert len(decode(
            info['pial_{}'.format(hemi)]['_j'], '<i4')) == len(mesh[1])
def test_get_connectome():
    adj, coord = _make_connectome()
    connectome = html_connectome._get_connectome(adj, coord)
    con_x = decode(connectome['_con_x'], '<f4')
    expected_x = np.asarray([
        0, 0, 0, 0, 20, 0, 10, 10, 0, 10, 30, 0, 20, 0, 0, 20, 20, 0, 20, 40,
        0, 30, 10, 0, 30, 30, 0, 40, 20, 0, 40, 40, 0
    ],
                            dtype='<f4')
    assert (con_x == expected_x).all()
    assert {'_con_x', '_con_y', '_con_z', '_con_w',
            'colorscale'}.issubset(connectome.keys())
    assert (connectome['cmin'], connectome['cmax']) == (-2.5, 2.5)
def test_one_mesh_info():
    fsaverage = fetch_surf_fsaverage()
    mesh = surface.load_surf_mesh(fsaverage['pial_right'])
    surf_map = mesh[0][:, 0]
    info = html_surface.one_mesh_info(
        surf_map, fsaverage['pial_right'], '90%', black_bg=True,
        bg_map=fsaverage['sulc_right'])
    assert {'_x', '_y', '_z', '_i', '_j', '_k'}.issubset(
        info['inflated_left'].keys())
    assert len(decode(
        info['inflated_left']['_x'], '<f4')) == len(surf_map)
    assert len(info['vertexcolor_left']) == len(surf_map)
    cmax = np.max(np.abs(surf_map))
    assert (info['cmin'], info['cmax']) == (-cmax, cmax)
    assert type(info['cmax']) == float
    json.dumps(info)
    assert info['black_bg']
    assert not info['full_brain_mesh']
    check_colors(info['colorscale'])
Example #7
0
def test_one_mesh_info():
    fsaverage = fetch_surf_fsaverage()
    mesh = surface.load_surf_mesh(fsaverage['pial_right'])
    surf_map = mesh[0][:, 0]
    info = html_surface.one_mesh_info(
        surf_map, fsaverage['pial_right'], '90%', black_bg=True,
        bg_map=fsaverage['sulc_right'])
    assert {'_x', '_y', '_z', '_i', '_j', '_k'}.issubset(
        info['inflated_left'].keys())
    assert len(decode(
        info['inflated_left']['_x'], '<f4')) == len(surf_map)
    assert len(info['vertexcolor_left']) == len(surf_map)
    cmax = np.max(np.abs(surf_map))
    assert (info['cmin'], info['cmax']) == (-cmax, cmax)
    assert type(info['cmax']) == float
    json.dumps(info)
    assert info['black_bg']
    assert not info['full_brain_mesh']
    check_colors(info['colorscale'])
def test_get_connectome():
    adj, coord = _make_connectome()
    connectome = html_connectome._get_connectome(adj, coord)
    con_x = decode(connectome['_con_x'], '<f4')
    expected_x = np.asarray(
        [0, 0, 0,
         0, 20, 0,
         10, 10, 0,
         10, 30, 0,
         20, 0, 0,
         20, 20, 0,
         20, 40, 0,
         30, 10, 0,
         30, 30, 0,
         40, 20, 0,
         40, 40, 0], dtype='<f4')
    assert (con_x == expected_x).all()
    assert {'_con_x', '_con_y', '_con_z', '_con_w', 'colorscale'
            }.issubset(connectome.keys())
    assert (connectome['cmin'], connectome['cmax']) == (-2.5, 2.5)