Пример #1
0
Файл: ccdc.py Проект: klh5/CCDC
def loadAll(products, key, bands):

    ds = []

    for product in products:

        dc = datacube.Datacube()

        gw = GridWorkflow(dc.index, product=product)

        # Get the list of tiles (one for each time point) for this product
        tile_list = gw.list_tiles(product=product,
                                  cell_index=key,
                                  group_by='solar_day')

        dc.close()

        # Load all tiles
        for tile_index, tile in tile_list.items():
            dataset = gw.load(tile, measurements=bands)

            if (dataset.variables):
                ds.append(dataset)

    return ds
Пример #2
0
Файл: ccdc.py Проект: klh5/CCDC
def loadByTile(products, key, min_y, max_y, min_x, max_x, bands):

    ds = []

    for product in products:

        dc = datacube.Datacube()

        # Create the GridWorkflow object for this product
        curr_gw = GridWorkflow(dc.index, product=product)

        # Get the list of tiles (one for each time point) for this product
        tile_list = curr_gw.list_tiles(product=product,
                                       cell_index=key,
                                       group_by='solar_day')

        dc.close()

        # Retrieve the specified pixel for each tile in the list
        for tile_index, tile in tile_list.items():
            dataset = curr_gw.load(tile[0:1, min_y:max_y, min_x:max_x],
                                   measurements=bands)

            if (dataset.variables):
                ds.append(dataset)

    return ds
Пример #3
0
    # Create GridWorkflow object so we can work with tiles
    gw = GridWorkflow(dc.index, product=sref_products[-1])

    # List to store the three datasets (LS5, LS7, LS8)
    sref_ds = []

    # The key represents which tile we are using
    key = (5, -28)

    # Need to fetch the tiles for each product seperately
    for product in sref_products:

        gw = GridWorkflow(dc.index, product=product)

        # Get the list of tiles (one for each time point) for this product
        tile_list = gw.list_tiles(product=product, cell_index=key)

        # Load all tiles
        for tile_index, tile in tile_list.items():
            dataset = gw.load(tile[0:1, 400:401, 0:1],
                              measurements=['red', 'nir', 'blue',
                                            'green'])  # 200ish/400ish

            if (dataset.variables):
                sref_ds.append(dataset)

    # Close datacube connection to database
    dc.close()

    # Concatenate the three datasets
    sref = xr.concat(sref_ds, dim='time')