Exemplo n.º 1
0
def bbox_clip(geojson: Feature, bbox: list) -> Feature:
    """
    Takes a Feature or geometry and a bbox and clips the feature to the bbox
    :param geojson: Geojson data
    :param bbox: Bounding Box which is used to clip the geojson
    :return: Clipped geojson

    Example:

    >>> from turfpy.transformation import bbox_clip
    >>> from geojson import Feature
    >>> f = Feature(geometry={"coordinates": [[[2, 2], [8, 4],
    >>> [12, 8], [3, 7], [2, 2]]], "type": "Polygon"})
    >>> bbox = [0, 0, 10, 10]
    >>> clip = bbox_clip(f, bbox)
    """
    bb_polygon = bbox_polygon(bbox)

    bb_clip = intersect([geojson, bb_polygon])

    if not bb_clip:
        return bb_clip

    if "properties" in geojson:
        bb_clip.properties = geojson["properties"]

    return bb_clip
Exemplo n.º 2
0
def test_bbox_polygon_feature():
    p = Polygon([[(2.38, 57.322), (23.194, -20.28), (-120.43, 19.15),
                  (2.38, 57.322)]])
    bbox_poly = bbox_polygon(bbox(p))
    assert bbox_poly["geometry"]["coordinates"] == [[
        [-120.43, -20.28],
        [23.194, -20.28],
        [23.194, 57.322],
        [-120.43, 57.322],
        [-120.43, -20.28],
    ]]
Exemplo n.º 3
0
def divide_bbox(
    feature: dict,
    cell_width: Optional[float] = None,
    units: Optional[str] = "m",
):
    """
    Divides the given feature into grid
    boxes as per given cell width

    :param feature: Feature to be divide in grid
    :param cell_width: Width of each grid boxs
    :param units: Units for the width of grid boxs
    :return: List of features in which
        the input feature is divided
    """
    bb = bbox(feature)
    bbox_polygon_feature = bbox_polygon(bb)

    if not cell_width:
        gr = grid(
            bb,
            length(bbox_polygon_feature, units=units) / 4,
            length(bbox_polygon_feature, units=units) / 4,
            units,
        )
    else:
        gr = grid(bb, cell_width, cell_width, units)

    final = []
    for f in gr["features"]:
        try:
            inter = intersect([f, feature])
            if inter:
                final.append(inter)
        except Exception:
            logger.debug("The intersection geometry is incorrect")
    return final