Source code for temporal.c_libraries_interface

"""
Fast and exit-safe interface to GRASS C-library functions
using ctypes and multiprocessing

(C) 2013 by the GRASS Development Team
This program is free software under the GNU General Public
License (>=v2). Read the file COPYING that comes with GRASS
for details.

:authors: Soeren Gebbert
"""

from grass.exceptions import FatalError
import sys
from multiprocessing import Process, Lock, Pipe
import logging
from ctypes import byref, cast, c_int, c_void_p, CFUNCTYPE, POINTER
from datetime import datetime
import grass.lib.gis as libgis
import grass.lib.raster as libraster
import grass.lib.vector as libvector
import grass.lib.date as libdate
import grass.lib.raster3d as libraster3d
import grass.lib.temporal as libtgis
from grass.pygrass.rpc.base import RPCServerBase
from grass.pygrass.raster import RasterRow
from grass.pygrass.vector import VectorTopo
from grass.script.utils import encode
from grass.pygrass.utils import decode

###############################################################################


[docs]class RPCDefs(object): # Function identifier and index STOP = 0 HAS_TIMESTAMP = 1 WRITE_TIMESTAMP = 2 READ_TIMESTAMP = 3 REMOVE_TIMESTAMP = 4 READ_MAP_INFO = 5 MAP_EXISTS = 6 READ_MAP_INFO = 7 AVAILABLE_MAPSETS = 8 GET_DRIVER_NAME = 9 GET_DATABASE_NAME = 10 G_MAPSET = 11 G_LOCATION = 12 G_GISDBASE = 13 READ_MAP_FULL_INFO = 14 WRITE_SEMANTIC_LABEL = 15 READ_SEMANTIC_LABEL = 16 REMOVE_SEMANTIC_LABEL = 17 G_FATAL_ERROR = 49 TYPE_RASTER = 0 TYPE_RASTER3D = 1 TYPE_VECTOR = 2
############################################################################### def _read_map_full_info(lock, conn, data): """Read full map specific metadata from the spatial database using PyGRASS functions. :param lock: A multiprocessing.Lock instance :param conn: A multiprocessing.Pipe instance used to send True or False :param data: The list of data entries [function_id, maptype, name, mapset] """ info = None try: maptype = data[1] name = data[2] mapset = data[3] if maptype == RPCDefs.TYPE_RASTER: info = _read_raster_full_info(name, mapset) elif maptype == RPCDefs.TYPE_VECTOR: info = _read_vector_full_info(name, mapset) except: raise finally: conn.send(info) ############################################################################### def _read_raster_full_info(name, mapset): """Read raster info, history and cats using PyGRASS RasterRow and return a dictionary. Colors should be supported in the future. """ info = {} r = RasterRow(name=name, mapset=mapset) if r.exist() is True: r.open("r") for item in r.info: info[item[0]] = item[1] for item in r.hist: info[item[0]] = item[1] info["full_name"] = r.name_mapset() info["mtype"] = r.mtype if r.cats: info["cats_title"] = r.cats_title info["cats"] = list(r.cats) r.close() ts = libgis.TimeStamp() check = libgis.G_read_raster_timestamp(name, mapset, byref(ts)) if check: dates = _convert_timestamp_from_grass(ts) info["start_time"] = dates[0] info["end_time"] = dates[1] if len(dates) > 2: info["time_unit"] = dates[2] return info ############################################################################### def _read_vector_full_info(name, mapset, layer=None): """Read vector info using PyGRASS VectorTopo and return a dictionary. C """ info = {} v = VectorTopo(name=name, mapset=mapset) if v.exist() is True: v.open("r") # Bounding box for item in v.bbox().items(): info[item[0]] = item[1] info["name"] = v.name info["mapset"] = v.mapset info["comment"] = v.comment info["full_name"] = v.full_name info["is_3d"] = v.is_3D() info["map_date"] = v.map_date info["maptype"] = v.maptype info["organization"] = v.organization info["person"] = v.person info["proj"] = v.proj info["proj_name"] = v.proj_name info["title"] = v.title info["thresh"] = v.thresh info["zone"] = v.zone vtypes = [ "areas", "dblinks", "faces", "holes", "islands", "kernels", "lines", "nodes", "points", "updated_lines", "updated_nodes", "volumes", ] for vtype in vtypes: info[vtype] = v.number_of(vtype) info.update(v.num_primitives()) if v.table is not None: info["columns"] = v.table.columns ts = libgis.TimeStamp() check = libgis.G_read_vector_timestamp(name, layer, mapset, byref(ts)) if check: dates = _convert_timestamp_from_grass(ts) info["start_time"] = dates[0] info["end_time"] = dates[1] if len(dates) > 2: info["time_unit"] = dates[2] return info def _fatal_error(lock, conn, data): """Calls G_fatal_error()""" libgis.G_fatal_error("Fatal Error in C library server") ############################################################################### def _get_mapset(lock, conn, data): """Return the current mapset :param lock: A multiprocessing.Lock instance :param conn: A multiprocessing.Pipe instance used to send True or False :param data: The mapset as list entry 1 [function_id] :returns: Name of the current mapset """ mapset = libgis.G_mapset() conn.send(decode(mapset)) ############################################################################### def _get_location(lock, conn, data): """Return the current location :param lock: A multiprocessing.Lock instance :param conn: A multiprocessing.Pipe instance used to send True or False :param data: The mapset as list entry 1 [function_id] :returns: Name of the location """ location = libgis.G_location() conn.send(decode(location)) ############################################################################### def _get_gisdbase(lock, conn, data): """Return the current gisdatabase :param lock: A multiprocessing.Lock instance :param conn: A multiprocessing.Pipe instance used to send True or False :param data: The mapset as list entry 1 [function_id] :returns: Name of the gisdatabase """ gisdbase = libgis.G_gisdbase() conn.send(decode(gisdbase)) ############################################################################### def _get_driver_name(lock, conn, data): """Return the temporal database driver of a specific mapset :param lock: A multiprocessing.Lock instance :param conn: A multiprocessing.Pipe instance used to send True or False :param data: The mapset as list entry 1 [function_id, mapset] :returns: Name of the driver or None if no temporal database present """ mapset = data[1] if not mapset: mapset = libgis.G_mapset() else: mapset = encode(mapset) drstring = libtgis.tgis_get_mapset_driver_name(mapset) conn.send(decode(drstring.data)) ############################################################################### def _get_database_name(lock, conn, data): """Return the temporal database name of a specific mapset :param lock: A multiprocessing.Lock instance :param conn: A multiprocessing.Pipe instance used to send True or False :param data: The mapset as list entry 1 [function_id, mapset] :returns: Name of the database or None if no temporal database present """ dbstring = None try: mapset = data[1] if not mapset: mapset = libgis.G_mapset() else: mapset = encode(mapset) dbstring = libtgis.tgis_get_mapset_database_name(mapset) dbstring = dbstring.data if dbstring: # We substitute GRASS variables if they are located in the database string # This behavior is in conjunction with db.connect dbstring = dbstring.replace(encode("$GISDBASE"), libgis.G_gisdbase()) dbstring = dbstring.replace(encode("$LOCATION_NAME"), libgis.G_location()) dbstring = dbstring.replace(encode("$MAPSET"), mapset) except: raise finally: conn.send(decode(dbstring)) ############################################################################### def _available_mapsets(lock, conn, data): """Return all available mapsets the user can access as a list of strings :param lock: A multiprocessing.Lock instance :param conn: A multiprocessing.Pipe instance used to send True or False :param data: The list of data entries [function_id] :returns: Names of available mapsets as list of strings """ count = 0 mapset_list = [] try: # Initialize the accessible mapset list, this is bad C design!!! libgis.G_get_mapset_name(0) mapsets = libgis.G_get_available_mapsets() while mapsets[count]: char_list = "" mapset = mapsets[count] permission = libgis.G_mapset_permissions(mapset) in_search_path = libgis.G_is_mapset_in_search_path(mapset) c = 0 while mapset[c] != b"\x00": val = decode(mapset[c]) char_list += val c += 1 if permission >= 0 and in_search_path == 1: mapset_list.append(char_list) libgis.G_debug( 1, "c_library_server._available_mapsets: \n mapset: %s\n" " has permission %i\n in search path: %i" % (char_list, permission, in_search_path), ) count += 1 # We need to sort the mapset list, but the first one should be # the current mapset current_mapset = decode(libgis.G_mapset()) if current_mapset in mapset_list: mapset_list.remove(current_mapset) mapset_list.sort() mapset_list.reverse() mapset_list.append(current_mapset) mapset_list.reverse() except: raise finally: conn.send(mapset_list) ############################################################################### def _has_timestamp(lock, conn, data): """Check if the file based GRASS timestamp is present and send True or False using the provided pipe. :param lock: A multiprocessing.Lock instance :param conn: A multiprocessing.Pipe instance used to send True or False :param data: The list of data entries [function_id, maptype, name, mapset, layer] """ check = False try: maptype = data[1] name = data[2] mapset = data[3] layer = data[4] if maptype == RPCDefs.TYPE_RASTER: if libgis.G_has_raster_timestamp(name, mapset) == 1: check = True elif maptype == RPCDefs.TYPE_VECTOR: if libgis.G_has_vector_timestamp(name, layer, mapset) == 1: check = True elif maptype == RPCDefs.TYPE_RASTER3D: if libgis.G_has_raster3d_timestamp(name, mapset) == 1: check = True except: raise finally: conn.send(check) ############################################################################### def _read_timestamp(lock, conn, data): """Read the file based GRASS timestamp and send the result using the provided pipe. The tuple to be send via pipe: (return value of G_read_*_timestamp, timestamps). Please have a look at the documentation of G_read_raster_timestamp, G_read_vector_timestamp and G_read_raster3d_timestamp for the return values description. The timestamps to be send are tuples of values: - relative time (start, end, unit), start and end are of type integer, unit is of type string. - absolute time (start, end), start and end are of type datetime The end time may be None in case of a time instance. :param lock: A multiprocessing.Lock instance :param conn: A multiprocessing.Pipe instance used to send the result :param data: The list of data entries [function_id, maptype, name, mapset, layer] """ check = False dates = None try: maptype = data[1] name = data[2] mapset = data[3] layer = data[4] ts = libgis.TimeStamp() if maptype == RPCDefs.TYPE_RASTER: check = libgis.G_read_raster_timestamp(name, mapset, byref(ts)) elif maptype == RPCDefs.TYPE_VECTOR: check = libgis.G_read_vector_timestamp(name, layer, mapset, byref(ts)) elif maptype == RPCDefs.TYPE_RASTER3D: check = libgis.G_read_raster3d_timestamp(name, mapset, byref(ts)) dates = _convert_timestamp_from_grass(ts) except: raise finally: conn.send((check, dates)) ############################################################################### def _write_timestamp(lock, conn, data): """Write the file based GRASS timestamp the return values of the called C-functions using the provided pipe. The value to be send via pipe is the return value of G_write_*_timestamp. Please have a look at the documentation of G_write_raster_timestamp, G_write_vector_timestamp and G_write_raster3d_timestamp for the return values description. :param lock: A multiprocessing.Lock instance :param conn: A multiprocessing.Pipe instance used to send True or False :param data: The list of data entries [function_id, maptype, name, mapset, layer, timestring] """ check = -3 try: maptype = data[1] name = data[2] # mapset = data[3] layer = data[4] timestring = data[5] ts = libgis.TimeStamp() check = libgis.G_scan_timestamp(byref(ts), timestring) if check != 1: logging.error("Unable to convert the timestamp: " + timestring) return -2 if maptype == RPCDefs.TYPE_RASTER: check = libgis.G_write_raster_timestamp(name, byref(ts)) elif maptype == RPCDefs.TYPE_VECTOR: check = libgis.G_write_vector_timestamp(name, layer, byref(ts)) elif maptype == RPCDefs.TYPE_RASTER3D: check = libgis.G_write_raster3d_timestamp(name, byref(ts)) except: raise finally: conn.send(check) ############################################################################### def _remove_timestamp(lock, conn, data): """Remove the file based GRASS timestamp the return values of the called C-functions using the provided pipe. The value to be send via pipe is the return value of G_remove_*_timestamp. Please have a look at the documentation of G_remove_raster_timestamp, G_remove_vector_timestamp and G_remove_raster3d_timestamp for the return values description. :param lock: A multiprocessing.Lock instance :param conn: A multiprocessing.Pipe instance used to send True or False :param data: The list of data entries [function_id, maptype, name, mapset, layer] """ check = False try: maptype = data[1] name = data[2] mapset = data[3] layer = data[4] if maptype == RPCDefs.TYPE_RASTER: check = libgis.G_remove_raster_timestamp(name, mapset) elif maptype == RPCDefs.TYPE_VECTOR: check = libgis.G_remove_vector_timestamp(name, layer, mapset) elif maptype == RPCDefs.TYPE_RASTER3D: check = libgis.G_remove_raster3d_timestamp(name, mapset) except: raise finally: conn.send(check) ############################################################################### def _read_semantic_label(lock, conn, data): """Read the file based GRASS band identifier the result using the provided pipe. The result to be sent via pipe is the return value of Rast_read_semantic_label: either a semantic label string or None. :param lock: A multiprocessing.Lock instance :param conn: A multiprocessing.Pipe instance used to send True or False :param data: The list of data entries [function_id, maptype, name, mapset, layer, timestring] """ semantic_label = None try: maptype = data[1] name = data[2] mapset = data[3] # layer = data[4] if maptype == RPCDefs.TYPE_RASTER: # Must use temporary variable to work around # ValueError: ctypes objects containing pointers cannot be pickled ret = libraster.Rast_read_semantic_label(name, mapset) if ret: semantic_label = decode(ret) else: logging.error( "Unable to read semantic label. " "Unsupported map type %s" % maptype ) return -1 except: raise finally: conn.send(semantic_label) ############################################################################### def _write_semantic_label(lock, conn, data): """Write the file based GRASS band identifier. Rises ValueError on invalid semantic label. Always sends back True. :param lock: A multiprocessing.Lock instance :param conn: A multiprocessing.Pipe instance used to send True or False :param data: The list of data entries [function_id, maptype, name, mapset, layer, timestring] """ try: maptype = data[1] name = data[2] # mapset = data[3] # layer = data[4] semantic_label = data[5] if maptype == RPCDefs.TYPE_RASTER: if libraster.Rast_legal_semantic_label(semantic_label) is False: raise ValueError(_("Invalid semantic label")) libraster.Rast_write_semantic_label(name, semantic_label) else: logging.error( "Unable to write semantic label. " "Unsupported map type %s" % maptype ) return -2 except: raise finally: conn.send(True) ############################################################################### def _remove_semantic_label(lock, conn, data): """Remove the file based GRASS band identifier. The value to be send via pipe is the return value of G_remove_misc. :param lock: A multiprocessing.Lock instance :param conn: A multiprocessing.Pipe instance used to send True or False :param data: The list of data entries [function_id, maptype, name, mapset, layer, timestring] """ check = False try: maptype = data[1] name = data[2] # mapset = data[3] # layer = data[4] if maptype == RPCDefs.TYPE_RASTER: check = libgis.G_remove_misc("cell_misc", "semantic_label", name) else: logging.error( "Unable to remove semantic label. " "Unsupported map type %s" % maptype ) return -2 except: raise finally: conn.send(check) ############################################################################### def _map_exists(lock, conn, data): """Check if a map exists in the spatial database The value to be send via pipe is True in case the map exists and False if not. :param lock: A multiprocessing.Lock instance :param conn: A multiprocessing.Pipe instance used to send True or False :param data: The list of data entries [function_id, maptype, name, mapset] """ check = False try: maptype = data[1] name = data[2] mapset = data[3] if maptype == RPCDefs.TYPE_RASTER: mapset = libgis.G_find_raster(name, mapset) elif maptype == RPCDefs.TYPE_VECTOR: mapset = libgis.G_find_vector(name, mapset) elif maptype == RPCDefs.TYPE_RASTER3D: mapset = libgis.G_find_raster3d(name, mapset) if mapset: check = True except: raise finally: conn.send(check) ############################################################################### def _read_map_info(lock, conn, data): """Read map specific metadata from the spatial database using C-library functions :param lock: A multiprocessing.Lock instance :param conn: A multiprocessing.Pipe instance used to send True or False :param data: The list of data entries [function_id, maptype, name, mapset] """ kvp = None try: maptype = data[1] name = data[2] mapset = data[3] if maptype == RPCDefs.TYPE_RASTER: kvp = _read_raster_info(name, mapset) elif maptype == RPCDefs.TYPE_VECTOR: kvp = _read_vector_info(name, mapset) elif maptype == RPCDefs.TYPE_RASTER3D: kvp = _read_raster3d_info(name, mapset) except: raise finally: conn.send(kvp) ############################################################################### def _read_raster_info(name, mapset): """Read the raster map info from the file system and store the content into a dictionary This method uses the ctypes interface to the gis and raster 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_raster(name, mapset): return None # Read the region information region = libraster.struct_Cell_head() libraster.Rast_get_cellhd(name, mapset, byref(region)) kvp["north"] = region.north kvp["south"] = region.south kvp["east"] = region.east kvp["west"] = region.west kvp["nsres"] = region.ns_res kvp["ewres"] = region.ew_res kvp["rows"] = region.cols kvp["cols"] = region.rows maptype = libraster.Rast_map_type(name, mapset) if maptype == libraster.DCELL_TYPE: kvp["datatype"] = "DCELL" elif maptype == libraster.FCELL_TYPE: kvp["datatype"] = "FCELL" elif maptype == libraster.CELL_TYPE: kvp["datatype"] = "CELL" # Read range if libraster.Rast_map_is_fp(name, mapset): range = libraster.FPRange() libraster.Rast_init_fp_range(byref(range)) ret = libraster.Rast_read_fp_range(name, mapset, byref(range)) if ret < 0: logging.error(_("Unable to read range file")) return None if ret == 2: kvp["min"] = None kvp["max"] = None else: min = libgis.DCELL() max = libgis.DCELL() libraster.Rast_get_fp_range_min_max(byref(range), byref(min), byref(max)) kvp["min"] = min.value kvp["max"] = max.value else: range = libraster.Range() libraster.Rast_init_range(byref(range)) ret = libraster.Rast_read_range(name, mapset, byref(range)) if ret < 0: logging.error(_("Unable to read range file")) return None if ret == 2: kvp["min"] = None kvp["max"] = None else: min = libgis.CELL() max = libgis.CELL() libraster.Rast_get_range_min_max(byref(range), byref(min), byref(max)) kvp["min"] = min.value kvp["max"] = max.value return kvp ############################################################################### def _read_raster3d_info(name, mapset): """Read the 3D raster map info from the file system and store the content into a dictionary This method uses the ctypes interface to the gis and raster3d 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_raster3d(name, mapset): return None # Read the region information region = libraster3d.RASTER3D_Region() libraster3d.Rast3d_read_region_map(name, mapset, byref(region)) kvp["north"] = region.north kvp["south"] = region.south kvp["east"] = region.east kvp["west"] = region.west kvp["nsres"] = region.ns_res kvp["ewres"] = region.ew_res kvp["tbres"] = region.tb_res kvp["rows"] = region.cols kvp["cols"] = region.rows kvp["depths"] = region.depths kvp["top"] = region.top kvp["bottom"] = region.bottom # We need to open the map, this function returns a void pointer # but we may need the correct type which is RASTER3D_Map, hence # the casting g3map = cast( libraster3d.Rast3d_open_cell_old( name, mapset, libraster3d.RASTER3D_DEFAULT_WINDOW, libraster3d.RASTER3D_TILE_SAME_AS_FILE, libraster3d.RASTER3D_NO_CACHE, ), POINTER(libraster3d.RASTER3D_Map), ) if not g3map: logging.error(_("Unable to open 3D raster map <%s>" % (name))) return None maptype = libraster3d.Rast3d_file_type_map(g3map) if maptype == libraster.DCELL_TYPE: kvp["datatype"] = "DCELL" elif maptype == libraster.FCELL_TYPE: kvp["datatype"] = "FCELL" # Read range min = libgis.DCELL() max = libgis.DCELL() ret = libraster3d.Rast3d_range_load(g3map) if not ret: logging.error(_("Unable to load range of 3D raster map <%s>" % (name))) return None libraster3d.Rast3d_range_min_max(g3map, byref(min), byref(max)) if min.value != min.value: kvp["min"] = None else: kvp["min"] = float(min.value) if max.value != max.value: kvp["max"] = None else: kvp["max"] = float(max.value) if not libraster3d.Rast3d_close(g3map): logging.error(_("Unable to close 3D raster map <%s>" % (name))) return None return kvp ############################################################################### 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 ############################################################################### def _convert_timestamp_from_grass(ts): """Convert a GRASS file based timestamp into the temporal framework format datetime or integer. A tuple of two datetime objects (start, end) is returned in case of absolute time. In case of relative time a tuple with start time, end time and the relative unit (start, end, unit) will be returned. Note: The end time will be set to None in case of a time instance. :param ts grass.lib.gis.TimeStamp object created by G_read_*_timestamp """ dt1 = libgis.DateTime() dt2 = libgis.DateTime() count = c_int() libgis.G_get_timestamps(byref(ts), byref(dt1), byref(dt2), byref(count)) if dt1.mode == libdate.DATETIME_ABSOLUTE: pdt1 = None pdt2 = None if count.value >= 1: pdt1 = datetime( int(dt1.year), int(dt1.month), int(dt1.day), int(dt1.hour), int(dt1.minute), int(dt1.second), ) if count.value == 2: pdt2 = datetime( int(dt2.year), int(dt2.month), int(dt2.day), int(dt2.hour), int(dt2.minute), int(dt2.second), ) # ATTENTION: We ignore the time zone # TODO: Write time zone support return (pdt1, pdt2) else: unit = None start = None end = None if count.value >= 1: if dt1.year > 0: unit = "years" start = dt1.year elif dt1.month > 0: unit = "months" start = dt1.month elif dt1.day > 0: unit = "days" start = dt1.day elif dt1.hour > 0: unit = "hours" start = dt1.hour elif dt1.minute > 0: unit = "minutes" start = dt1.minute elif dt1.second > 0: unit = "seconds" start = dt1.second if count.value == 2: if dt2.year > 0: end = dt2.year elif dt2.month > 0: end = dt2.month elif dt2.day > 0: end = dt2.day elif dt2.hour > 0: end = dt2.hour elif dt2.minute > 0: end = dt2.minute elif dt2.second > 0: end = dt2.second return (start, end, unit) ############################################################################### def _stop(lock, conn, data): libgis.G_debug(1, "Stop C-interface server") conn.close() lock.release() sys.exit() ###############################################################################
[docs]def c_library_server(lock, conn): """The GRASS C-libraries server function designed to be a target for multiprocessing.Process :param lock: A multiprocessing.Lock :param conn: A multiprocessing.Pipe """ def error_handler(data): """This function will be called in case of a fatal error in libgis""" # sys.stderr.write("Error handler was called\n") # We send an exception that will be handled in # the parent process, then close the pipe # and release any possible lock conn.send(FatalError()) conn.close() lock.release() CALLBACK = CFUNCTYPE(c_void_p, c_void_p) CALLBACK.restype = c_void_p CALLBACK.argtypes = c_void_p cerror_handler = CALLBACK(error_handler) libgis.G_add_error_handler(cerror_handler, None) # Crerate the function array functions = [0] * 50 functions[RPCDefs.STOP] = _stop functions[RPCDefs.HAS_TIMESTAMP] = _has_timestamp functions[RPCDefs.WRITE_TIMESTAMP] = _write_timestamp functions[RPCDefs.READ_TIMESTAMP] = _read_timestamp functions[RPCDefs.REMOVE_TIMESTAMP] = _remove_timestamp functions[RPCDefs.READ_MAP_INFO] = _read_map_info functions[RPCDefs.MAP_EXISTS] = _map_exists functions[RPCDefs.AVAILABLE_MAPSETS] = _available_mapsets functions[RPCDefs.GET_DRIVER_NAME] = _get_driver_name functions[RPCDefs.GET_DATABASE_NAME] = _get_database_name functions[RPCDefs.G_MAPSET] = _get_mapset functions[RPCDefs.G_LOCATION] = _get_location functions[RPCDefs.G_GISDBASE] = _get_gisdbase functions[RPCDefs.READ_MAP_FULL_INFO] = _read_map_full_info functions[RPCDefs.WRITE_SEMANTIC_LABEL] = _write_semantic_label functions[RPCDefs.READ_SEMANTIC_LABEL] = _read_semantic_label functions[RPCDefs.REMOVE_SEMANTIC_LABEL] = _remove_semantic_label functions[RPCDefs.G_FATAL_ERROR] = _fatal_error libgis.G_gisinit("c_library_server") libgis.G_debug(1, "Start C-interface server") while True: # Avoid busy waiting conn.poll(None) data = conn.recv() lock.acquire() functions[data[0]](lock, conn, data) lock.release()
[docs]class CLibrariesInterface(RPCServerBase): """Fast and exit-safe interface to GRASS C-libraries functions This class implements a fast and exit-safe interface to the GRASS gis, raster, 3D raster and vector C-libraries functions. The C-libraries functions are called via ctypes in a subprocess using a pipe (multiprocessing.Pipe) to transfer the text messages. Hence, the process that uses the CLibrariesInterface will not be exited, if a G_fatal_error() was invoked in the subprocess. In this case the CLibrariesInterface object will simply start a new subprocess and restarts the pipeline. Usage: .. code-block:: python >>> import grass.script as gscript >>> import grass.temporal as tgis >>> gscript.use_temp_region() >>> gscript.run_command("g.region", n=80.0, s=0.0, e=120.0, w=0.0, ... t=1.0, b=0.0, res=10.0, res3=10.0) 0 >>> tgis.init() >>> gscript.run_command("r.mapcalc", expression="test = 1", overwrite=True, quiet=True) 0 >>> gscript.run_command("r3.mapcalc", expression="test = 1", overwrite=True, quiet=True) 0 >>> gscript.run_command("v.random", output="test", n=10, overwrite=True, quiet=True) 0 >>> gscript.run_command("r.timestamp", map="test", date='12 Mar 1995 10:34:40', overwrite=True, quiet=True) 0 >>> gscript.run_command("r3.timestamp", map="test", date='12 Mar 1995 10:34:40', overwrite=True, quiet=True) 0 >>> gscript.run_command("v.timestamp", map="test", date='12 Mar 1995 10:34:40', overwrite=True, quiet=True) 0 # Check mapsets >>> ciface = tgis.CLibrariesInterface() >>> mapsets = ciface.available_mapsets() >>> mapsets[0] == tgis.get_current_mapset() True # Raster map >>> ciface = tgis.CLibrariesInterface() >>> check = ciface.raster_map_exists("test", tgis.get_current_mapset()) >>> print check True >>> ciface.read_raster_info("test", tgis.get_current_mapset()) {'rows': 12, 'north': 80.0, 'min': 1, 'datatype': 'CELL', 'max': 1, 'ewres': 10.0, 'cols': 8, 'west': 0.0, 'east': 120.0, 'nsres': 10.0, 'south': 0.0} >>> info = ciface.read_raster_full_info("test", tgis.get_current_mapset()) >>> info # doctest: +ELLIPSIS +NORMALIZE_WHITESPACE {u'tbres': 1.0, ... 'keyword': 'generated by r.mapcalc', u'bottom': 0.0, 'end_time': None, 'title': 'test', u'south': 0.0} >>> info["start_time"] datetime.datetime(1995, 3, 12, 10, 34, 40) >>> info["end_time"] >>> check = ciface.has_raster_timestamp("test", tgis.get_current_mapset()) >>> print check True >>> if check: ... res = ciface.read_raster_timestamp("test", tgis.get_current_mapset()) ... if res[0]: ... print str(res[1][0]), str(res[1][0]) ... ciface.remove_raster_timestamp("test", tgis.get_current_mapset()) 1995-03-12 10:34:40 1995-03-12 10:34:40 1 >>> ciface.has_raster_timestamp("test", tgis.get_current_mapset()) False >>> ciface.write_raster_timestamp("test", tgis.get_current_mapset(), "13 Jan 1999 14:30:05") 1 >>> ciface.has_raster_timestamp("test", tgis.get_current_mapset()) True # 3D raster map >>> check = ciface.raster3d_map_exists("test", tgis.get_current_mapset()) >>> print check True >>> ciface.read_raster3d_info("test", tgis.get_current_mapset()) {'tbres': 1.0, 'rows': 12, 'north': 80.0, 'bottom': 0.0, 'datatype': 'DCELL', 'max': 1.0, 'top': 1.0, 'min': 1.0, 'cols': 8, 'depths': 1, 'west': 0.0, 'ewres': 10.0, 'east': 120.0, 'nsres': 10.0, 'south': 0.0} >>> check = ciface.has_raster3d_timestamp("test", tgis.get_current_mapset()) >>> print check True >>> if check: ... res = ciface.read_raster3d_timestamp("test", tgis.get_current_mapset()) ... if res[0]: ... print str(res[1][0]), str(res[1][0]) ... ciface.remove_raster3d_timestamp("test", tgis.get_current_mapset()) 1995-03-12 10:34:40 1995-03-12 10:34:40 1 >>> ciface.has_raster3d_timestamp("test", tgis.get_current_mapset()) False >>> ciface.write_raster3d_timestamp("test", tgis.get_current_mapset(), "13 Jan 1999 14:30:05") 1 >>> ciface.has_raster3d_timestamp("test", tgis.get_current_mapset()) True # Vector map >>> check = ciface.vector_map_exists("test", tgis.get_current_mapset()) >>> print check True >>> kvp = ciface.read_vector_info("test", tgis.get_current_mapset()) >>> kvp['points'] 10 >>> kvp = ciface.read_vector_full_info("test", tgis.get_current_mapset()) >>> print kvp['points'] 10 >>> kvp['point'] 10 >>> kvp['area'] 0 >>> kvp['lines'] 0 >>> kvp['line'] 0 >>> 'columns' in kvp False >>> kvp["start_time"] datetime.datetime(1995, 3, 12, 10, 34, 40) >>> kvp["end_time"] >>> check = ciface.has_vector_timestamp("test", tgis.get_current_mapset(), None) >>> print check True >>> if check: ... res = ciface.read_vector_timestamp("test", tgis.get_current_mapset()) ... if res[0]: ... print str(res[1][0]), str(res[1][0]) ... ciface.remove_vector_timestamp("test", tgis.get_current_mapset()) 1995-03-12 10:34:40 1995-03-12 10:34:40 1 >>> ciface.has_vector_timestamp("test", tgis.get_current_mapset()) False >>> ciface.write_vector_timestamp("test", tgis.get_current_mapset(), "13 Jan 1999 14:30:05") 1 >>> ciface.has_vector_timestamp("test", tgis.get_current_mapset()) True >>> ciface.get_driver_name() 'sqlite' >>> ciface.get_database_name().split("/")[-1] 'sqlite.db' >>> mapset = ciface.get_mapset() >>> location = ciface.get_location() >>> gisdbase = ciface.get_gisdbase() >>> ciface.fatal_error() # doctest: +ELLIPSIS, +NORMALIZE_WHITESPACE Traceback (most recent call last): raise FatalError("Exception raised: " + str(e) + " Message: " + message) FatalError: Exception raised: ... >>> ciface.fatal_error() # doctest: +ELLIPSIS, +NORMALIZE_WHITESPACE Traceback (most recent call last): raise FatalError("Exception raised: " + str(e) + " Message: " + message) FatalError: Exception raised: ... >>> ciface.fatal_error() # doctest: +ELLIPSIS, +NORMALIZE_WHITESPACE Traceback (most recent call last): raise FatalError("Exception raised: " + str(e) + " Message: " + message) FatalError: Exception raised: ... >>> ciface.fatal_error() # doctest: +ELLIPSIS, +NORMALIZE_WHITESPACE Traceback (most recent call last): raise FatalError("Exception raised: " + str(e) + " Message: " + message) FatalError: Exception raised: ... >>> ciface.stop() >>> gscript.del_temp_region() """ def __init__(self): RPCServerBase.__init__(self)
[docs] def start_server(self): self.client_conn, self.server_conn = Pipe(True) self.lock = Lock() self.server = Process( target=c_library_server, args=(self.lock, self.server_conn) ) self.server.daemon = True self.server.start()
[docs] def raster_map_exists(self, name, mapset): """Check if a raster map exists in the spatial database :param name: The name of the map :param mapset: The mapset of the map :returns: True if exists, False if not """ self.check_server() self.client_conn.send( [RPCDefs.MAP_EXISTS, RPCDefs.TYPE_RASTER, name, mapset, None] ) return self.safe_receive("raster_map_exists")
[docs] def read_raster_info(self, name, mapset): """Read the raster map info from the file system and store the content into a dictionary :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 """ self.check_server() self.client_conn.send( [RPCDefs.READ_MAP_INFO, RPCDefs.TYPE_RASTER, name, mapset, None] ) return self.safe_receive("read_raster_info")
[docs] def read_raster_full_info(self, name, mapset): """Read raster info, history and cats using PyGRASS RasterRow and return a dictionary. Colors should be supported in the future. :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 """ self.check_server() self.client_conn.send( [RPCDefs.READ_MAP_FULL_INFO, RPCDefs.TYPE_RASTER, name, mapset, None] ) return self.safe_receive("read_raster_full_info")
[docs] def has_raster_timestamp(self, name, mapset): """Check if a file based raster timestamp exists :param name: The name of the map :param mapset: The mapset of the map :returns: True if exists, False if not """ self.check_server() self.client_conn.send( [RPCDefs.HAS_TIMESTAMP, RPCDefs.TYPE_RASTER, name, mapset, None] ) return self.safe_receive("has_raster_timestamp")
[docs] def remove_raster_timestamp(self, name, mapset): """Remove a file based raster timestamp Please have a look at the documentation G_remove_raster_timestamp for the return values description. :param name: The name of the map :param mapset: The mapset of the map :returns: The return value of G_remove_raster_timestamp """ self.check_server() self.client_conn.send( [RPCDefs.REMOVE_TIMESTAMP, RPCDefs.TYPE_RASTER, name, mapset, None] ) return self.safe_receive("remove_raster_timestamp")
[docs] def read_raster_timestamp(self, name, mapset): """Read a file based raster timestamp Please have a look at the documentation G_read_raster_timestamp for the return values description. The timestamps to be send are tuples of values: - relative time (start, end, unit), start and end are of type integer, unit is of type string. - absolute time (start, end), start and end are of type datetime The end time may be None in case of a time instance. :param name: The name of the map :param mapset: The mapset of the map :returns: The return value of G_read_raster_timestamp """ self.check_server() self.client_conn.send( [RPCDefs.READ_TIMESTAMP, RPCDefs.TYPE_RASTER, name, mapset, None] ) return self.safe_receive("read_raster_timestamp")
[docs] def write_raster_timestamp(self, name, mapset, timestring): """Write a file based raster timestamp Please have a look at the documentation G_write_raster_timestamp for the return values description. Note: Only timestamps of maps from the current mapset can written. :param name: The name of the map :param mapset: The mapset of the map :param timestring: A GRASS datetime C-library compatible string :returns: The return value of G_write_raster_timestamp """ self.check_server() self.client_conn.send( [ RPCDefs.WRITE_TIMESTAMP, RPCDefs.TYPE_RASTER, name, mapset, None, timestring, ] ) return self.safe_receive("write_raster_timestamp")
[docs] def remove_raster_semantic_label(self, name, mapset): """Remove a file based raster semantic label :param name: The name of the map :param mapset: The mapset of the map :returns: The return value of G_remove_misc """ self.check_server() self.client_conn.send( [RPCDefs.REMOVE_SEMANTIC_LABEL, RPCDefs.TYPE_RASTER, name, mapset, None] ) return self.safe_receive("remove_raster_semantic_label")
[docs] def read_raster_semantic_label(self, name, mapset): """Read a file based raster semantic label Returns semantic label or None :param name: The name of the map :param mapset: The mapset of the map :returns: The return value of Rast_read_semantic_label """ self.check_server() self.client_conn.send( [RPCDefs.READ_SEMANTIC_LABEL, RPCDefs.TYPE_RASTER, name, mapset, None] ) return self.safe_receive("read_raster_semantic_label")
[docs] def write_raster_semantic_label(self, name, mapset, semantic_label): """Write a file based raster semantic label Note: Only semantic labels of maps from the current mapset can be written. :param name: The name of the map :param mapset: The mapset of the map :param semantic_label: semantic label :returns: always True """ self.check_server() self.client_conn.send( [ RPCDefs.WRITE_SEMANTIC_LABEL, RPCDefs.TYPE_RASTER, name, mapset, None, semantic_label, ] ) return self.safe_receive("write_raster_semantic_label")
[docs] def raster3d_map_exists(self, name, mapset): """Check if a 3D raster map exists in the spatial database :param name: The name of the map :param mapset: The mapset of the map :returns: True if exists, False if not """ self.check_server() self.client_conn.send( [RPCDefs.MAP_EXISTS, RPCDefs.TYPE_RASTER3D, name, mapset, None] ) return self.safe_receive("raster3d_map_exists")
[docs] def read_raster3d_info(self, name, mapset): """Read the 3D raster map info from the file system and store the content into a dictionary :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 """ self.check_server() self.client_conn.send( [RPCDefs.READ_MAP_INFO, RPCDefs.TYPE_RASTER3D, name, mapset, None] ) return self.safe_receive("read_raster3d_info")
[docs] def has_raster3d_timestamp(self, name, mapset): """Check if a file based 3D raster timestamp exists :param name: The name of the map :param mapset: The mapset of the map :returns: True if exists, False if not """ self.check_server() self.client_conn.send( [RPCDefs.HAS_TIMESTAMP, RPCDefs.TYPE_RASTER3D, name, mapset, None] ) return self.safe_receive("has_raster3d_timestamp")
[docs] def remove_raster3d_timestamp(self, name, mapset): """Remove a file based 3D raster timestamp Please have a look at the documentation G_remove_raster3d_timestamp for the return values description. :param name: The name of the map :param mapset: The mapset of the map :returns: The return value of G_remove_raster3d_timestamp """ self.check_server() self.client_conn.send( [RPCDefs.REMOVE_TIMESTAMP, RPCDefs.TYPE_RASTER3D, name, mapset, None] ) return self.safe_receive("remove_raster3d_timestamp")
[docs] def read_raster3d_timestamp(self, name, mapset): """Read a file based 3D raster timestamp Please have a look at the documentation G_read_raster3d_timestamp for the return values description. The timestamps to be send are tuples of values: - relative time (start, end, unit), start and end are of type integer, unit is of type string. - absolute time (start, end), start and end are of type datetime The end time may be None in case of a time instance. :param name: The name of the map :param mapset: The mapset of the map :returns: The return value of G_read_raster3d_timestamp """ self.check_server() self.client_conn.send( [RPCDefs.READ_TIMESTAMP, RPCDefs.TYPE_RASTER3D, name, mapset, None] ) return self.safe_receive("read_raster3d_timestamp")
[docs] def write_raster3d_timestamp(self, name, mapset, timestring): """Write a file based 3D raster timestamp Please have a look at the documentation G_write_raster3d_timestamp for the return values description. Note: Only timestamps of maps from the current mapset can written. :param name: The name of the map :param mapset: The mapset of the map :param timestring: A GRASS datetime C-library compatible string :returns: The return value of G_write_raster3d_timestamp """ self.check_server() self.client_conn.send( [ RPCDefs.WRITE_TIMESTAMP, RPCDefs.TYPE_RASTER3D, name, mapset, None, timestring, ] ) return self.safe_receive("write_raster3d_timestamp")
[docs] def vector_map_exists(self, name, mapset): """Check if a vector map exists in the spatial database :param name: The name of the map :param mapset: The mapset of the map :returns: True if exists, False if not """ self.check_server() self.client_conn.send( [RPCDefs.MAP_EXISTS, RPCDefs.TYPE_VECTOR, name, mapset, None] ) return self.safe_receive("vector_map_exists")
[docs] def read_vector_info(self, name, mapset): """Read the vector map info from the file system and store the content into a dictionary :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 """ self.check_server() self.client_conn.send( [RPCDefs.READ_MAP_INFO, RPCDefs.TYPE_VECTOR, name, mapset, None] ) return self.safe_receive("read_vector_info")
[docs] def read_vector_full_info(self, name, mapset): """Read vector info using PyGRASS VectorTopo and return a dictionary. :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 """ self.check_server() self.client_conn.send( [RPCDefs.READ_MAP_FULL_INFO, RPCDefs.TYPE_VECTOR, name, mapset, None] ) return self.safe_receive("read_vector_full_info")
[docs] def has_vector_timestamp(self, name, mapset, layer=None): """Check if a file based vector timestamp exists :param name: The name of the map :param mapset: The mapset of the map :param layer: The layer of the vector map :returns: True if exists, False if not """ self.check_server() self.client_conn.send( [RPCDefs.HAS_TIMESTAMP, RPCDefs.TYPE_VECTOR, name, mapset, layer] ) return self.safe_receive("has_vector_timestamp")
[docs] def remove_vector_timestamp(self, name, mapset, layer=None): """Remove a file based vector timestamp Please have a look at the documentation G_remove_vector_timestamp for the return values description. :param name: The name of the map :param mapset: The mapset of the map :param layer: The layer of the vector map :returns: The return value of G_remove_vector_timestamp """ self.check_server() self.client_conn.send( [RPCDefs.REMOVE_TIMESTAMP, RPCDefs.TYPE_VECTOR, name, mapset, layer] ) return self.safe_receive("remove_vector_timestamp")
[docs] def read_vector_timestamp(self, name, mapset, layer=None): """Read a file based vector timestamp Please have a look at the documentation G_read_vector_timestamp for the return values description. The timestamps to be send are tuples of values: - relative time (start, end, unit), start and end are of type integer, unit is of type string. - absolute time (start, end), start and end are of type datetime The end time may be None in case of a time instance. :param name: The name of the map :param mapset: The mapset of the map :param layer: The layer of the vector map :returns: The return value ofG_read_vector_timestamp and the timestamps """ self.check_server() self.client_conn.send( [RPCDefs.READ_TIMESTAMP, RPCDefs.TYPE_VECTOR, name, mapset, layer] ) return self.safe_receive("read_vector_timestamp")
[docs] def write_vector_timestamp(self, name, mapset, timestring, layer=None): """Write a file based vector timestamp Please have a look at the documentation G_write_vector_timestamp for the return values description. Note: Only timestamps pf maps from the current mapset can written. :param name: The name of the map :param mapset: The mapset of the map :param timestring: A GRASS datetime C-library compatible string :param layer: The layer of the vector map :returns: The return value of G_write_vector_timestamp """ self.check_server() self.client_conn.send( [ RPCDefs.WRITE_TIMESTAMP, RPCDefs.TYPE_VECTOR, name, mapset, layer, timestring, ] ) return self.safe_receive("write_vector_timestamp")
[docs] def available_mapsets(self): """Return all available mapsets the user can access as a list of strings :returns: Names of available mapsets as list of strings """ self.check_server() self.client_conn.send( [ RPCDefs.AVAILABLE_MAPSETS, ] ) return self.safe_receive("available_mapsets")
[docs] def get_driver_name(self, mapset=None): """Return the temporal database driver of a specific mapset :param mapset: Name of the mapset :returns: Name of the driver or None if no temporal database present """ self.check_server() self.client_conn.send([RPCDefs.GET_DRIVER_NAME, mapset]) return self.safe_receive("get_driver_name")
[docs] def get_database_name(self, mapset=None): """Return the temporal database name of a specific mapset :param mapset: Name of the mapset :returns: Name of the database or None if no temporal database present """ self.check_server() self.client_conn.send([RPCDefs.GET_DATABASE_NAME, mapset]) return self.safe_receive("get_database_name")
[docs] def get_mapset(self): """Return the current mapset :returns: Name of the current mapset """ self.check_server() self.client_conn.send( [ RPCDefs.G_MAPSET, ] ) return self.safe_receive("get_mapset")
[docs] def get_location(self): """Return the location :returns: Name of the location """ self.check_server() self.client_conn.send( [ RPCDefs.G_LOCATION, ] ) return self.safe_receive("get_location")
[docs] def get_gisdbase(self): """Return the gisdatabase :returns: Name of the gisdatabase """ self.check_server() self.client_conn.send( [ RPCDefs.G_GISDBASE, ] ) return self.safe_receive("get_gisdbase")
[docs] def fatal_error(self, mapset=None): """Generate a fatal error in libgis. This function is only for testing purpose. """ self.check_server() self.client_conn.send([RPCDefs.G_FATAL_ERROR]) # The pipe should be closed in the checker thread return self.safe_receive("Fatal error")
if __name__ == "__main__": import doctest doctest.testmod()