Exemple #1
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 def __init__(self, north=0, south=0, east=0, west=0, top=0, bottom=0):
     self.c_bbox = ctypes.pointer(libvect.bound_box())
     self.north = north
     self.south = south
     self.east = east
     self.west = west
     self.top = top
     self.bottom = bottom
Exemple #2
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 def __init__(self, north=0, south=0, east=0, west=0, top=0, bottom=0):
     self.c_bbox = ctypes.pointer(libvect.bound_box())
     self.north = north
     self.south = south
     self.east = east
     self.west = west
     self.top = top
     self.bottom = bottom
Exemple #3
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 def setUp(self):
     """Create bbox object"""
     self.c_bbox = ctypes.pointer(libvect.bound_box())
     # x range
     self.c_bbox.contents.E = 220
     self.c_bbox.contents.W = 215
     # y range
     self.c_bbox.contents.N = 135
     self.c_bbox.contents.S = 125
     # z range
     self.c_bbox.contents.T = 340
     self.c_bbox.contents.B = 330
 def setUp(self):
     """Create bbox object"""
     self.c_bbox = ctypes.pointer(libvect.bound_box())
     # x range
     self.c_bbox.contents.E = 220
     self.c_bbox.contents.W = 215
     # y range
     self.c_bbox.contents.N = 135
     self.c_bbox.contents.S = 125
     # z range
     self.c_bbox.contents.T = 340
     self.c_bbox.contents.B = 330
Exemple #5
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def GetNearestNodeCat(e, n, layer, tresh, vectMap):

    if not haveCtypes:
        return -2

    vectMapName, mapSet = ParseMapStr(vectMap)

    openedMap = pointer(vectlib.Map_info())
    ret = vectlib.Vect_open_old(openedMap,
                                c_char_p(encode(vectMapName)),
                                c_char_p(encode(mapSet)))
    if ret == 1:
        vectlib.Vect_close(openedMap)
    if ret != 2:
        return -1

    nodeNum = vectlib.Vect_find_node(openedMap,
                                     c_double(e),
                                     c_double(n),
                                     c_double(0),
                                     c_double(tresh),
                                     vectlib.WITHOUT_Z)

    if nodeNum > 0:
        e = c_double(0)
        n = c_double(0)
        vectlib.Vect_get_node_coor(openedMap,
                                   nodeNum,
                                   byref(e),
                                   byref(n),
                                   None)  # z
        e = e.value
        n = n.value
    else:
        vectlib.Vect_close(openedMap)
        return -1

    box = vectlib.bound_box()
    List = POINTER(vectlib.boxlist)
    List = vectlib.Vect_new_boxlist(c_int(0))

    box.E = box.W = e
    box.N = box.S = n
    box.T = box.B = 0
    vectlib.Vect_select_lines_by_box(
        openedMap, byref(box),
        vectlib.GV_POINT, List)

    found = 0
    dcost = 0

    Cats = POINTER(vectlib.line_cats)
    Cats = vectlib.Vect_new_cats_struct()

    cat = c_int(0)

    for j in range(List.contents.n_values):
        line = List.contents.id[j]
        type = vectlib.Vect_read_line(openedMap, None, Cats, line)
        if type != vectlib.GV_POINT:
            continue

        if vectlib.Vect_cat_get(Cats, c_int(layer), byref(cat)):
            found = 1
            break
    if found:
        return cat.value

    return -1
Exemple #6
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def _read_vector_info(name, mapset):
    """Read the vector map info from the file system and store the content
       into a dictionary

       This method uses the ctypes interface to the vector libraries
       to read the map metadata information

       :param name: The name of the map
       :param mapset: The mapset of the map
       :returns: The key value pairs of the map specific metadata, or None in
                 case of an error
    """

    kvp = {}

    if not libgis.G_find_vector(name, mapset):
        return None

    # The vector map structure
    Map = libvector.Map_info()

    # We open the maps always in topology mode first
    libvector.Vect_set_open_level(2)
    with_topo = True

    # Code lend from v.info main.c
    if libvector.Vect_open_old_head2(byref(Map), name, mapset, "1") < 2:
        # force level 1, open fully
        # NOTE: number of points, lines, boundaries, centroids,
        # faces, kernels is still available
        libvector.Vect_set_open_level(1)  # no topology
        with_topo = False
        if libvector.Vect_open_old2(byref(Map), name, mapset, "1") < 1:
            logging.error(
                _("Unable to open vector map <%s>" %
                  (libvector.Vect_get_full_name(byref(Map)))))
            return None

    # Release the vector spatial index memory when closed
    libvector.Vect_set_release_support(byref(Map))

    # Read the extent information
    bbox = libvector.bound_box()
    libvector.Vect_get_map_box(byref(Map), byref(bbox))

    kvp["north"] = bbox.N
    kvp["south"] = bbox.S
    kvp["east"] = bbox.E
    kvp["west"] = bbox.W
    kvp["top"] = bbox.T
    kvp["bottom"] = bbox.B

    kvp["map3d"] = bool(libvector.Vect_is_3d(byref(Map)))

    # Read number of features
    if with_topo:
        kvp["points"] = libvector.Vect_get_num_primitives(
            byref(Map), libvector.GV_POINT)
        kvp["lines"] = libvector.Vect_get_num_primitives(
            byref(Map), libvector.GV_LINE)
        kvp["boundaries"] = libvector.Vect_get_num_primitives(
            byref(Map), libvector.GV_BOUNDARY)
        kvp["centroids"] = libvector.Vect_get_num_primitives(
            byref(Map), libvector.GV_CENTROID)
        kvp["faces"] = libvector.Vect_get_num_primitives(
            byref(Map), libvector.GV_FACE)
        kvp["kernels"] = libvector.Vect_get_num_primitives(
            byref(Map), libvector.GV_KERNEL)

        # Summarize the primitives
        kvp["primitives"] = kvp["points"] + kvp["lines"] + \
            kvp["boundaries"] + kvp["centroids"]
        if kvp["map3d"]:
            kvp["primitives"] += kvp["faces"] + kvp["kernels"]

        # Read topology information
        kvp["nodes"] = libvector.Vect_get_num_nodes(byref(Map))
        kvp["areas"] = libvector.Vect_get_num_areas(byref(Map))
        kvp["islands"] = libvector.Vect_get_num_islands(byref(Map))
        kvp["holes"] = libvector.Vect_get_num_holes(byref(Map))
        kvp["volumes"] = libvector.Vect_get_num_primitives(
            byref(Map), libvector.GV_VOLUME)
    else:
        kvp["points"] = None
        kvp["lines"] = None
        kvp["boundaries"] = None
        kvp["centroids"] = None
        kvp["faces"] = None
        kvp["kernels"] = None
        kvp["primitives"] = None
        kvp["nodes"] = None
        kvp["areas"] = None
        kvp["islands"] = None
        kvp["holes"] = None
        kvp["volumes"] = None

    libvector.Vect_close(byref(Map))

    return kvp
Exemple #7
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def _read_vector_info(name, mapset):
    """Read the vector map info from the file system and store the content
       into a dictionary

       This method uses the ctypes interface to the vector libraries
       to read the map metadata information

       :param name: The name of the map
       :param mapset: The mapset of the map
       :returns: The key value pairs of the map specific metadata, or None in
                 case of an error
    """

    kvp = {}

    if not libgis.G_find_vector(name, mapset):
        return None

    # The vector map structure
    Map = libvector.Map_info()

    # We open the maps always in topology mode first
    libvector.Vect_set_open_level(2)
    with_topo = True

    # Code lend from v.info main.c
    if libvector.Vect_open_old_head2(byref(Map), name, mapset, "1") < 2:
        # force level 1, open fully
        # NOTE: number of points, lines, boundaries, centroids,
        # faces, kernels is still available
        libvector.Vect_set_open_level(1)  # no topology
        with_topo = False
        if libvector.Vect_open_old2(byref(Map), name, mapset, "1") < 1:
            logging.error(_("Unable to open vector map <%s>" %
                          (libvector.Vect_get_full_name(byref(Map)))))
            return None

    # Release the vector spatial index memory when closed
    libvector.Vect_set_release_support(byref(Map))

    # Read the extent information
    bbox = libvector.bound_box()
    libvector.Vect_get_map_box(byref(Map), byref(bbox))

    kvp["north"] = bbox.N
    kvp["south"] = bbox.S
    kvp["east"] = bbox.E
    kvp["west"] = bbox.W
    kvp["top"] = bbox.T
    kvp["bottom"] = bbox.B

    kvp["map3d"] = bool(libvector.Vect_is_3d(byref(Map)))

    # Read number of features
    if with_topo:
        kvp["points"] = libvector.Vect_get_num_primitives(
            byref(Map), libvector.GV_POINT)
        kvp["lines"] = libvector.Vect_get_num_primitives(
            byref(Map), libvector.GV_LINE)
        kvp["boundaries"] = libvector.Vect_get_num_primitives(
            byref(Map), libvector.GV_BOUNDARY)
        kvp["centroids"] = libvector.Vect_get_num_primitives(
            byref(Map), libvector.GV_CENTROID)
        kvp["faces"] = libvector.Vect_get_num_primitives(
            byref(Map), libvector.GV_FACE)
        kvp["kernels"] = libvector.Vect_get_num_primitives(
            byref(Map), libvector.GV_KERNEL)

        # Summarize the primitives
        kvp["primitives"] = kvp["points"] + kvp["lines"] + \
            kvp["boundaries"] + kvp["centroids"]
        if kvp["map3d"]:
            kvp["primitives"] += kvp["faces"] + kvp["kernels"]

        # Read topology information
        kvp["nodes"] = libvector.Vect_get_num_nodes(byref(Map))
        kvp["areas"] = libvector.Vect_get_num_areas(byref(Map))
        kvp["islands"] = libvector.Vect_get_num_islands(byref(Map))
        kvp["holes"] = libvector.Vect_get_num_holes(byref(Map))
        kvp["volumes"] = libvector.Vect_get_num_primitives(
            byref(Map), libvector.GV_VOLUME)
    else:
        kvp["points"] = None
        kvp["lines"] = None
        kvp["boundaries"] = None
        kvp["centroids"] = None
        kvp["faces"] = None
        kvp["kernels"] = None
        kvp["primitives"] = None
        kvp["nodes"] = None
        kvp["areas"] = None
        kvp["islands"] = None
        kvp["holes"] = None
        kvp["volumes"] = None

    libvector.Vect_close(byref(Map))

    return kvp
Exemple #8
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def GetNearestNodeCat(e, n, layer, tresh, vectMap):

    if  not haveCtypes:
        return -2

    vectMapName, mapSet = ParseMapStr(vectMap)

    openedMap = pointer(vectlib.Map_info())
    ret = vectlib.Vect_open_old(openedMap, 
                                     c_char_p(vectMapName),
                                     c_char_p(mapSet))
    if ret == 1:
        vectlib.Vect_close(openedMap)
    if ret != 2: 
        return -1

    nodeNum = vectlib.Vect_find_node(openedMap,     
                                     c_double(e), 
                                     c_double(n), 
                                     c_double(0), 
                                     c_double(tresh),
                                     vectlib.WITHOUT_Z)

    if nodeNum > 0:
        e = c_double(0)
        n = c_double(0)
        vectlib.Vect_get_node_coor(openedMap, 
                                   nodeNum, 
                                   byref(e), 
                                   byref(n), 
                                   None); # z
        e = e.value
        n = n.value
    else:
        vectlib.Vect_close(openedMap)
        return -1

    box = vectlib.bound_box();
    List = POINTER(vectlib.boxlist);
    List = vectlib.Vect_new_boxlist(c_int(0));

    box.E = box.W = e;
    box.N = box.S = n;
    box.T = box.B = 0;
    vectlib.Vect_select_lines_by_box(openedMap, byref(box), vectlib.GV_POINT, List);

    found = 0;
    dcost = 0;

    Cats = POINTER(vectlib.line_cats)
    Cats = vectlib.Vect_new_cats_struct()
 
    cat = c_int(0)

    for j in range(List.contents.n_values): 
        line = List.contents.id[j]
        type = vectlib.Vect_read_line(openedMap, None, Cats, line)
        if type != vectlib.GV_POINT:
            continue

        if vectlib.Vect_cat_get(Cats, c_int(layer), byref(cat)): 
            found = 1
            break
    if found:
        return cat.value

    return -1