Ejemplo n.º 1
0
def compute_ms_panchro_offset(dim_pan, dim_ms):
    """
    Computes the offset, in panchro pixels,  between a panchro image and the
    corresponding 4x zoomed ms image.

    Args:
        dim_pan: path to the xml file DIM_*.XML for the panchro image
        dim_ms:  path to the xml file DIM_*.XML for the ms (ie color) image

    Returns:
        (off_col, off_row): the offset to apply to the ms image before fusion
        with the panchro.
    """
    # column offset
    first_col_ms = int(common.grep_xml(dim_ms, "FIRST_COL"))
    first_col_pan = int(common.grep_xml(dim_pan, "FIRST_COL"))
    off_col = 4 * first_col_ms - first_col_pan

    # row offset
    t_e_pan = float(common.grep_xml(dim_pan, "LINE_PERIOD"))
    t_init_ms  = common.grep_xml(dim_ms, "START")
    t_init_pan = common.grep_xml(dim_pan, "START")
    t_ms =  datetime.datetime.strptime(t_init_ms[:26], "%Y-%m-%dT%H:%M:%S.%f")
    t_pan = datetime.datetime.strptime(t_init_pan[:26], "%Y-%m-%dT%H:%M:%S.%f")

    delta_t = 1000 * (t_ms - t_pan)
    off_row = int(total_seconds(delta_t) / t_e_pan)

    #print("t_e_pan: %f" % t_e_pan)
    #print("t_init_ms:  %s" % t_init_ms)
    #print("t_init_pan: %s" % t_init_pan)
    #print(off_col, off_row)

    return off_col, off_row
Ejemplo n.º 2
0
def compute_ms_panchro_offset(dim_pan, dim_ms):
    """
    Computes the offset, in panchro pixels,  between a panchro image and the
    corresponding 4x zoomed ms image.

    Args:
        dim_pan: path to the xml file DIM_*.XML for the panchro image
        dim_ms:  path to the xml file DIM_*.XML for the ms (ie color) image

    Returns:
        (off_col, off_row): the offset to apply to the ms image before fusion
        with the panchro.
    """
    # column offset
    first_col_ms = int(common.grep_xml(dim_ms, "FIRST_COL"))
    first_col_pan = int(common.grep_xml(dim_pan, "FIRST_COL"))
    off_col = 4 * first_col_ms - first_col_pan

    # row offset
    t_e_pan = float(common.grep_xml(dim_pan, "LINE_PERIOD"))
    t_init_ms = common.grep_xml(dim_ms, "START")
    t_init_pan = common.grep_xml(dim_pan, "START")
    t_ms = datetime.datetime.strptime(t_init_ms[:26], "%Y-%m-%dT%H:%M:%S.%f")
    t_pan = datetime.datetime.strptime(t_init_pan[:26], "%Y-%m-%dT%H:%M:%S.%f")

    delta_t = 1000 * (t_ms - t_pan)
    off_row = int(total_seconds(delta_t) / t_e_pan)

    #print("t_e_pan: %f" % t_e_pan)
    #print("t_init_ms:  %s" % t_init_ms)
    #print("t_init_pan: %s" % t_init_pan)
    #print(off_col, off_row)

    return off_col, off_row