Example #1
0
    def test_get_all_epochs(self):
        # test function to extract all dates from sequence of ifgs
        ifgs = small5_mock_ifgs()
        for i in ifgs:
            i.nodata_value = 0
        dates = [date(2006, 8, 28), date(2006, 11, 6), date(2006, 12, 11),
                 date(2007, 1, 15), date(2007, 3, 26), date(2007, 9, 17)]

        self.assertEqual(dates, sorted(set(get_all_epochs(ifgs))))
Example #2
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def get_network_design_matrix(ifgs, degree, offset):
    # pylint: disable=too-many-locals
    """
    Returns larger-format design matrix for network error correction. The
    network design matrix includes rows which relate to those of NaN cells.

    :param list ifgs: List of Ifg class objects
    :param str degree: model to fit (PLANAR / QUADRATIC / PART_CUBIC)
    :param bool offset: True to include offset cols, otherwise False.

    :return: netdm: network design matrix
    :rtype: ndarray
    """

    if degree not in [PLANAR, QUADRATIC, PART_CUBIC]:
        raise OrbitalError("Invalid degree argument")

    nifgs = len(ifgs)
    if nifgs < 1:
        # can feasibly do correction on a single Ifg/2 epochs
        raise OrbitalError("Invalid number of Ifgs: %s" % nifgs)

    # init sparse network design matrix
    nepochs = len(set(get_all_epochs(ifgs)))

    # no offsets: they are made separately below
    ncoef = _get_num_params(degree)
    shape = [ifgs[0].num_cells * nifgs, ncoef * nepochs]

    if offset:
        shape[1] += nifgs  # add extra block for offset cols

    netdm = zeros(shape, dtype=float32)

    # calc location for individual design matrices
    dates = [ifg.master for ifg in ifgs] + [ifg.slave for ifg in ifgs]
    ids = master_slave_ids(dates)
    offset_col = nepochs * ncoef  # base offset for the offset cols
    tmpdm = get_design_matrix(ifgs[0], degree, offset=False)

    # iteratively build up sparse matrix
    for i, ifg in enumerate(ifgs):
        rs = i * ifg.num_cells  # starting row
        m = ids[ifg.master] * ncoef  # start col for master
        s = ids[ifg.slave] * ncoef  # start col for slave
        netdm[rs:rs + ifg.num_cells, m:m + ncoef] = -tmpdm
        netdm[rs:rs + ifg.num_cells, s:s + ncoef] = tmpdm

        # offsets are diagonal cols across the extra array block created above
        if offset:
            netdm[rs:rs + ifg.num_cells,
                  offset_col + i] = 1  # init offset cols

    return netdm
Example #3
0
def network_orbital_correction(ifgs,
                               degree,
                               offset,
                               params,
                               m_ifgs=None,
                               preread_ifgs=None):
    """
    This algorithm implements a network inversion to determine orbital
    corrections for a set of interferograms forming a connected network.

    Warning: This will write orbital error corrected phase_data to the ifgs.

    :param list ifgs: List of Ifg class objects reduced to a minimum spanning
        tree network
    :param str degree: model to fit (PLANAR / QUADRATIC / PART_CUBIC)
    :param bool offset: True to calculate the model using offsets
    :param dict params: dictionary of configuration parameters
    :param list m_ifgs: list of multilooked Ifg class objects
        (sequence must be multilooked versions of 'ifgs' arg)
    :param dict preread_ifgs: Dictionary containing information specifically
        for MPI jobs (optional)

    :return: None - interferogram phase data is updated and saved to disk
    """
    # pylint: disable=too-many-locals, too-many-arguments
    src_ifgs = ifgs if m_ifgs is None else m_ifgs
    src_ifgs = mst.mst_from_ifgs(src_ifgs)[3]  # use networkx mst

    vphase = vstack([i.phase_data.reshape((i.num_cells, 1)) for i in src_ifgs])
    vphase = squeeze(vphase)

    B = get_network_design_matrix(src_ifgs, degree, offset)

    # filter NaNs out before getting model
    B = B[~isnan(vphase)]
    orbparams = dot(pinv(B, 1e-6), vphase[~isnan(vphase)])

    ncoef = _get_num_params(degree)
    if preread_ifgs:
        temp_ifgs = OrderedDict(sorted(preread_ifgs.items())).values()
        ids = master_slave_ids(get_all_epochs(temp_ifgs))
    else:
        ids = master_slave_ids(get_all_epochs(ifgs))
    coefs = [
        orbparams[i:i + ncoef] for i in range(0,
                                              len(set(ids)) * ncoef, ncoef)
    ]

    # create full res DM to expand determined coefficients into full res
    # orbital correction (eg. expand coarser model to full size)

    if preread_ifgs:
        temp_ifg = Ifg(ifgs[0])  # ifgs here are paths
        temp_ifg.open()
        dm = get_design_matrix(temp_ifg, degree, offset=False)
        temp_ifg.close()
    else:
        dm = get_design_matrix(ifgs[0], degree, offset=False)

    for i in ifgs:
        # open if not Ifg instance
        if isinstance(i, str):  # pragma: no cover
            # are paths
            i = Ifg(i)
            i.open(readonly=False)
            shared.nan_and_mm_convert(i, params)
        _remove_network_orb_error(coefs, dm, i, ids, offset)
Example #4
0
def network_correction(ifgs,
                       degree,
                       offset,
                       params,
                       m_ifgs=None,
                       preread_ifgs=None):
    """
    Calculates orbital correction model, removing this from the interferograms.
    .. warn:: This will write orbital error corrected phase_data in the interferograms.

    :param ifgs: Interferograms reduced to a minimum tree from prior
        MST calculations
    :param degree: PLANAR, QUADRATIC or PART_CUBIC
    :param offset: True to calculate the model using offsets
    :param params: Parameter dictionary
    :param m_ifgs: Multi-looked orbfit interferograms (sequence must be mlooked
        versions of 'ifgs' arg)
    :param preread_ifgs: Parameters dict corresponding to config file
    
    :return xxxx
    """
    # pylint: disable=too-many-locals, too-many-arguments
    src_ifgs = ifgs if m_ifgs is None else m_ifgs
    src_ifgs = mst.mst_from_ifgs(src_ifgs)[3]  # use networkx mst

    vphase = vstack([i.phase_data.reshape((i.num_cells, 1)) for i in src_ifgs])
    vphase = squeeze(vphase)

    B = get_network_design_matrix(src_ifgs, degree, offset)

    # filter NaNs out before getting model
    B = B[~isnan(vphase)]
    orbparams = dot(pinv(B, 1e-6), vphase[~isnan(vphase)])

    ncoef = _get_num_params(degree)
    if preread_ifgs:
        temp_ifgs = OrderedDict(sorted(preread_ifgs.items())).values()
        ids = master_slave_ids(get_all_epochs(temp_ifgs))
    else:
        ids = master_slave_ids(get_all_epochs(ifgs))
    coefs = [
        orbparams[i:i + ncoef] for i in range(0,
                                              len(set(ids)) * ncoef, ncoef)
    ]

    # create full res DM to expand determined coefficients into full res
    # orbital correction (eg. expand coarser model to full size)

    if preread_ifgs:
        temp_ifg = Ifg(ifgs[0])  # ifgs here are paths
        temp_ifg.open()
        dm = get_design_matrix(temp_ifg, degree, offset=False)
        temp_ifg.close()
    else:
        dm = get_design_matrix(ifgs[0], degree, offset=False)

    # TODO: remove this import from tests suite
    from tests.common import MockIfg
    for i in ifgs:
        # open if not Ifg instance
        if not (isinstance(i, Ifg)
                or isinstance(i, MockIfg)):  # pragma: no cover
            # are paths
            i = Ifg(i)
            i.open(readonly=False)
            shared.nan_and_mm_convert(i, params)
        _remove_networkx_error(coefs, dm, i, ids, offset)
Example #5
0
 def test_get_epoch_count(self):
     self.assertEqual(6, len(set(get_all_epochs(small5_mock_ifgs()))))