Geografic-Information-System/lib/python/temporal/space_time_datasets.py

"""!@package grass.script.tgis_space_time_dataset

@brief GRASS Python scripting module (temporal GIS functions)

Temporal GIS related functions to be used in Python scripts.

Usage:

@code
from grass.script import tgis_space_time_dataset as grass

strds = grass.space_time_raster_dataset("soils_1950_2010")

...
@endcode

(C) 2008-2011 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.

@author Soeren Gebbert
"""
import getpass
import grass.script.raster as raster
import grass.script.vector as vector
import grass.script.raster3d as raster3d
from abstract_datasets import *


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

class raster_dataset(abstract_map_dataset):
    """Raster dataset class

       This class provides functions to select, update, insert or delete raster
       map informations and valid time stamps into the SQL temporal database.
    """
    def __init__(self, ident):
	self.reset(ident)

    def get_type(self):
        return "raster"

    def get_new_instance(self, ident):
        """Return a new instance with the type of this class"""
        return raster_dataset(ident)

    def get_new_stds_instance(self, ident):
        """Return a new space time dataset instance in which maps are stored with the type of this class"""
        return space_time_raster_dataset(ident)

    def get_stds_register(self):
        """Return the space time dataset register table name in which stds are listed in which this map is registered"""
        return self.metadata.get_strds_register()

    def set_stds_register(self, name):
        """Set the space time dataset register table name in which stds are listed in which this map is registered"""
        self.metadata.set_strds_register(name)

    def reset(self, ident):
	"""Reset the internal structure and set the identifier"""
	self.ident = ident

	self.base = raster_base(ident=ident)
	self.absolute_time = raster_absolute_time(ident=ident)
	self.relative_time = raster_relative_time(ident=ident)
	self.spatial_extent = raster_spatial_extent(ident=ident)
	self.metadata = raster_metadata(ident=ident)

    def load(self):
        """Load all info from an existing raster map into the internal structure"""

        # Get the data from an existing raster map
        kvp = raster.raster_info(self.ident)

        # Fill base information

        self.base.set_name(self.ident.split("@")[0])
        self.base.set_mapset(self.ident.split("@")[1])
        self.base.set_creator(str(getpass.getuser()))

        # Fill spatial extent

        self.set_spatial_extent(north=kvp["north"], south=kvp["south"], \
                                east=kvp["east"],   west=kvp["west"])

        # Fill metadata

        self.metadata.set_nsres(kvp["nsres"])
        self.metadata.set_ewres(kvp["ewres"])
        self.metadata.set_datatype(kvp["datatype"])
        self.metadata.set_min(kvp["min"])
        self.metadata.set_max(kvp["max"])

        rows = int((kvp["north"] - kvp["south"])/kvp["nsres"] + 0.5)
        cols = int((kvp["east"] - kvp["west"])/kvp["ewres"] + 0.5)

        ncells = cols * rows

        self.metadata.set_cols(cols)
        self.metadata.set_rows(rows)
        self.metadata.set_number_of_cells(ncells)

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

class raster3d_dataset(abstract_map_dataset):
    """Raster3d dataset class

       This class provides functions to select, update, insert or delete raster3d
       map informations and valid time stamps into the SQL temporal database.
    """
    def __init__(self, ident):
	self.reset(ident)

    def get_type(self):
        return "raster3d"

    def get_new_instance(self, ident):
        """Return a new instance with the type of this class"""
        return raster3d_dataset(ident)

    def get_new_stds_instance(self, ident):
        """Return a new space time dataset instance in which maps are stored with the type of this class"""
        return space_time_raster3d_dataset(ident)

    def get_stds_register(self):
        """Return the space time dataset register table name in which stds are listed in which this map is registered"""
        return self.metadata.get_str3ds_register()

    def set_stds_register(self, name):
        """Set the space time dataset register table name in which stds are listed in which this map is registered"""
        self.metadata.set_str3ds_register(name)

    def reset(self, ident):
	"""Reset the internal structure and set the identifier"""
	self.ident = ident

	self.base = raster3d_base(ident=ident)
	self.absolute_time = raster3d_absolute_time(ident=ident)
	self.relative_time = raster3d_relative_time(ident=ident)
	self.spatial_extent = raster3d_spatial_extent(ident=ident)
	self.metadata = raster3d_metadata(ident=ident)

    def load(self):
        """Load all info from an existing raster3d map into the internal structure"""

        # Get the data from an existing raster map
        kvp = raster3d.raster3d_info(self.ident)

        # Fill base information

        self.base.set_name(self.ident.split("@")[0])
        self.base.set_mapset(self.ident.split("@")[1])
        self.base.set_creator(str(getpass.getuser()))

        # Fill spatial extent

        self.set_spatial_extent(north=kvp["north"], south=kvp["south"], \
                                east=kvp["east"],   west=kvp["west"],\
                                top=kvp["top"], bottom=kvp["bottom"])

        # Fill metadata

        self.metadata.set_nsres(kvp["nsres"])
        self.metadata.set_ewres(kvp["ewres"])
        self.metadata.set_tbres(kvp["tbres"])
        self.metadata.set_datatype(kvp["datatype"])
        self.metadata.set_min(kvp["min"])
        self.metadata.set_max(kvp["max"])

        rows = int((kvp["north"] - kvp["south"])/kvp["nsres"] + 0.5)
        cols = int((kvp["east"] - kvp["west"])/kvp["ewres"] + 0.5)
        depths = int((kvp["top"] - kvp["bottom"])/kvp["tbres"] + 0.5)

        ncells = cols * rows * depths

        self.metadata.set_cols(cols)
        self.metadata.set_rows(rows)
        self.metadata.set_depths(depths)
        self.metadata.set_number_of_cells(ncells)

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

class vector_dataset(abstract_map_dataset):
    """Vector dataset class

       This class provides functions to select, update, insert or delete vector
       map informations and valid time stamps into the SQL temporal database.
    """
    def __init__(self, ident):
	self.reset(ident)

    def get_type(self):
        return "vector"

    def get_new_instance(self, ident):
        """Return a new instance with the type of this class"""
        return vector_dataset(ident)

    def get_new_stds_instance(self, ident):
        """Return a new space time dataset instance in which maps are stored with the type of this class"""
        return space_time_vector_dataset(ident)

    def get_stds_register(self):
        """Return the space time dataset register table name in which stds are listed in which this map is registered"""
        return self.metadata.get_stvds_register()

    def set_stds_register(self, name):
        """Set the space time dataset register table name in which stds are listed in which this map is registered"""
        self.metadata.set_stvds_register(name)

    def reset(self, ident):
	"""Reset the internal structure and set the identifier"""
	self.ident = ident

	self.base = vector_base(ident=ident)
	self.absolute_time = vector_absolute_time(ident=ident)
	self.relative_time = vector_relative_time(ident=ident)
	self.spatial_extent = vector_spatial_extent(ident=ident)
	self.metadata = vector_metadata(ident=ident)

    def load(self):
        """Load all info from an existing vector map into the internal structure"""

        # Get the data from an existing raster map
        kvp = vector.vector_info(self.ident)

        # Fill base information

        self.base.set_name(self.ident.split("@")[0])
        self.base.set_mapset(self.ident.split("@")[1])
        self.base.set_creator(str(getpass.getuser()))

        # Fill spatial extent

        self.set_spatial_extent(north=kvp["north"], south=kvp["south"], \
                                east=kvp["east"],   west=kvp["west"],\
                                top=kvp["top"], bottom=kvp["bottom"])

        # Fill metadata .. no metadata yet

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

class space_time_raster_dataset(abstract_space_time_dataset):
    """Space time raster dataset class
    """
    def __init__(self, ident):
        abstract_space_time_dataset.__init__(self, ident)

    def get_type(self):
        return "strds"

    def get_new_instance(self, ident):
        """Return a new instance with the type of this class"""
        return space_time_raster_dataset(ident)

    def get_new_map_instance(self, ident):
        """Return a new instance of a map dataset which is associated with the type of this class"""
        return raster_dataset(ident)

    def get_map_register(self):
        """Return the name of the map register table"""
        return self.metadata.get_raster_register()

    def set_map_register(self, name):
        """Set the name of the map register table"""
        self.metadata.set_raster_register(name)

    def reset(self, ident):

	"""Reset the internal structure and set the identifier"""
	self.ident = ident

	self.base = strds_base(ident=ident)

        if ident != None:
            self.base.set_name(self.ident.split("@")[0])
            self.base.set_mapset(self.ident.split("@")[1])
        self.base.set_creator(str(getpass.getuser()))
        self.absolute_time = strds_absolute_time(ident=ident)
        self.relative_time = strds_relative_time(ident=ident)
	self.spatial_extent = strds_spatial_extent(ident=ident)
	self.metadata = strds_metadata(ident=ident)

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

class space_time_raster3d_dataset(abstract_space_time_dataset):
    """Space time raster3d dataset class
    """

    def __init__(self, ident):
        abstract_space_time_dataset.__init__(self, ident)

    def get_type(self):
        return "str3ds"

    def get_new_instance(self, ident):
        """Return a new instance with the type of this class"""
        return space_time_raster3d_dataset(ident)

    def get_new_map_instance(self, ident):
        """Return a new instance of a map dataset which is associated with the type of this class"""
        return raster3d_dataset(ident)

    def get_map_register(self):
        """Return the name of the map register table"""
        return self.metadata.get_raster3d_register()

    def set_map_register(self, name):
        """Set the name of the map register table"""
        self.metadata.set_raster3d_register(name)

    def reset(self, ident):

	"""Reset the internal structure and set the identifier"""
	self.ident = ident

	self.base = str3ds_base(ident=ident)

        if ident != None:
            self.base.set_name(self.ident.split("@")[0])
            self.base.set_mapset(self.ident.split("@")[1])
        self.base.set_creator(str(getpass.getuser()))
        self.absolute_time = str3ds_absolute_time(ident=ident)
        self.relative_time = str3ds_relative_time(ident=ident)
	self.spatial_extent = str3ds_spatial_extent(ident=ident)
	self.metadata = str3ds_metadata(ident=ident)

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

class space_time_vector_dataset(abstract_space_time_dataset):
    """Space time vector dataset class
    """

    def __init__(self, ident):
        abstract_space_time_dataset.__init__(self, ident)

    def get_type(self):
        return "stvds"

    def get_new_instance(self, ident):
        """Return a new instance with the type of this class"""
        return space_time_vector_dataset(ident)

    def get_new_map_instance(self, ident):
        """Return a new instance of a map dataset which is associated with the type of this class"""
        return vector_dataset(ident)

    def get_map_register(self):
        """Return the name of the map register table"""
        return self.metadata.get_vector_register()

    def set_map_register(self, name):
        """Set the name of the map register table"""
        self.metadata.set_vector_register(name)

    def reset(self, ident):

	"""Reset the internal structure and set the identifier"""
	self.ident = ident

	self.base = stvds_base(ident=ident)

        if ident != None:
            self.base.set_name(self.ident.split("@")[0])
            self.base.set_mapset(self.ident.split("@")[1])
        self.base.set_creator(str(getpass.getuser()))
        self.absolute_time = stvds_absolute_time(ident=ident)
        self.relative_time = stvds_relative_time(ident=ident)
	self.spatial_extent = stvds_spatial_extent(ident=ident)
	self.metadata = stvds_metadata(ident=ident)

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

def register_maps_in_space_time_dataset(type, name, maps, start=None, increment=None, dbif = None, interval=False):
    """Use this method to register maps in space time datasets. This function is generic and
       can handle raster, vector and raster3d maps as well as there space time datasets.

       Additionally a start time string and an increment string can be specified
       to assign a time interval automatically to the maps.

       It takes care of the correct update of the space time datasets from all
       registered maps.

       @type The type of the maps raster, raster3d or vector
       @name The name of the space time dataset
       @maps A comma separated list of map names
       @start The start date and time of the first raster map, in case the map has no date (format absolute: "yyyy-mm-dd HH:MM:SS" or "yyyy-mm-dd", format relative 5.0)
       @increment Time increment between maps for time stamp creation (format absolute: NNN seconds, minutes, hours, days, weeks, months, years; format relative: 1.0)
       @dbif The database interface to use for sql queries
       @interval If True, time intervals are created in case the start time and an increment is provided
    """

    # We may need the mapset
    mapset =  core.gisenv()["MAPSET"]

    # Check if the dataset name contains the mapset as well
    if name.find("@") < 0:
        id = name + "@" + mapset
    else:
        id = name

    if type == "raster":
        sp = space_time_raster_dataset(id)
    if type == "raster3d":
        sp = space_time_raster3d_dataset(id)
    if type == "vector":
        sp = space_time_vector_dataset(id)

    connect = False

    if dbif == None:
        dbif = sql_database_interface()
        dbif.connect()
        connect = True

    # Read content from temporal database
    sp.select(dbif)

    if sp.is_in_db(dbif) == False:
        core.fatal("Space time " + sp.get_new_map_instance(None).get_type() + " dataset <" + name + "> not found")

    if maps.find(",") == -1:
        maplist = (maps,)
    else:
        maplist = tuple(maps.split(","))

    count = 0
    for mapname in maplist:
        mapname = mapname.strip()
        # Check if the map name contains the mapset as well
        if mapname.find("@") < 0:
            mapid = mapname + "@" + mapset
        else:
            mapid = mapname
        # Get a new instance of the space time dataset map type
        map = sp.get_new_map_instance(mapid)

        # In case the map is already registered print a message and continue to the next map

        # Put the map into the database
        if map.is_in_db(dbif) == False:
            # Break in case no valid time is provided
            if start == "" or start == None:
                core.fatal("Unable to register " + map.get_type() + " map <" + map.get_id() + ">. The map has no valid time and the start time is not set.")
            # Load the data from the grass file database
            map.load()

            if sp.get_temporal_type() == "absolute":
                map.set_time_to_absolute()
            else:
                map.set_time_to_relative()
            #  Put it into the temporal database
            map.insert(dbif)
        else:
            map.select(dbif)
            if map.get_temporal_type() != sp.get_temporal_type():
                core.fatal("Unable to register " + map.get_type() + " map <" + map.get_id() + ">. The temporal types are different.")

        # Set the valid time
        if start:
            assign_valid_time_to_map(ttype=sp.get_temporal_type(), map=map, start=start, end=None, increment=increment, mult=count, dbif=dbif, interval=interval)

        # Finally Register map in the space time dataset
        sp.register_map(map, dbif)
        count += 1

    # Update the space time tables
    sp.update_from_registered_maps(dbif)

    if connect == True:
        dbif.close()
        
###############################################################################

def unregister_maps_from_space_time_datasets(type, name, maps, dbif = None):
    """Unregister maps from a single space time dataset or, in case no dataset name is provided,
       unregister from all datasets within the maps are registered.

       @type The type of the maps raster, vector or raster3d
       @name Name of an existing space time raster dataset. If no name is provided the raster map(s) are unregistered from all space time datasets in which they are registered.
       @maps Name(s) of existing map(s) to unregister
    """
    mapset =  core.gisenv()["MAPSET"]

    if dbif == None:
        dbif = sql_database_interface()
        dbif.connect()
        connect = True

    # In case a space time dataset is specified
    if name:
        # Check if the dataset name contains the mapset as well
        if name.find("@") < 0:
            id = name + "@" + mapset
        else:
            id = name

        if type == "raster":
            sp = space_time_raster_dataset(id)
        if type == "raster3d":
            sp = space_time_raster3d_dataset(id)
        if type == "vector":
            sp = space_time_vector_dataset(id)

        if sp.is_in_db(dbif) == False:
            core.fatal("Space time " + sp.get_new_map_instance(None).get_type() + " dataset <" + name + "> not found")

    # Build the list of maps
    if maps.find(",") == -1:
        maplist = (maps,)
    else:
        maplist = tuple(maps.split(","))

    for mapname in maplist:
        mapname = mapname.strip()
        # Check if the map name contains the mapset as well
        if mapname.find("@") < 0:
            mapid = mapname + "@" + mapset
        else:
            mapid = mapname
            
        # Create a new instance with the map type
        if type == "raster":
            map = raster_dataset(mapid)
        if type == "raster3d":
            map = raster3d_dataset(mapid)
        if type == "vector":
            map = vector_dataset(mapid)

        # Unregister map if in database
        if map.is_in_db(dbif) == True:
            if name:
                sp.select(dbif)
                sp.unregister_map(map, dbif)
            else:
                map.select(dbif)
                map.unregister(dbif)

    if name:
        sp.update_from_registered_maps(dbif)

    if connect == True:
        dbif.close()

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

def assign_valid_time_to_maps(type, maps, ttype, start, end=None, increment=None, dbif = None, interval=False):
    """Use this method to assign valid time (absolute or relative) to raster,
       raster3d and vector datasets.

       It takes care of the correct update of the space time datasets from all
       registered maps.

       Valid end time and increment are mutual exclusive.

       @type The type of the maps raster, raster3d or vector
       @maps A comma separated list of map names
       @start The start date and time of the first raster map (format absolute: "yyyy-mm-dd HH:MM:SS" or "yyyy-mm-dd", format relative 5.0)
       @end The end date and time of the first raster map (format absolute: "yyyy-mm-dd HH:MM:SS" or "yyyy-mm-dd", format relative 5.0)
       @increment Time increment between maps for time stamp creation (format absolute: NNN seconds, minutes, hours, days, weeks, months, years; format relative: 1.0)
       @dbif The database interface to use for sql queries
       @interval If True, time intervals are created in case the start time and an increment is provided
    """

    if end and increment:
        core.fatal(_("Valid end time and increment are mutual exclusive"))

    # List of space time datasets to be updated
    splist = {}

    # We may need the mapset
    mapset =  core.gisenv()["MAPSET"]

    if dbif == None:
        dbif = sql_database_interface()
        dbif.connect()
        connect = True

    if maps.find(",") == -1:
        maplist = (maps,)
    else:
        maplist = tuple(maps.split(","))

    count = 0
    for mapname in maplist:
        mapname = mapname.strip()
        # Check if the map name contains the mapset as well
        if mapname.find("@") < 0:
            mapid = mapname + "@" + mapset
        else:
            mapid = mapname
            
        if type == "raster":
            map = raster_dataset(mapid)
        if type == "raster3d":
            map = raster3d_dataset(mapid)
        if type == "vector":
            map = vector_dataset(mapid)

        if map.is_in_db(dbif) == False:
            # Load the data from the grass file database
            map.load()
            if ttype == "absolute":
                map.set_time_to_absolute()
            else:
                map.set_time_to_relative()
            #  Put it into the temporal database
            map.insert(dbif)
        else:
            map.select(dbif)
            sprows = map.get_registered_datasets(dbif)
            # Make an entry in the dataset list, using a dict make sure that
            # each dataset is listed only once
            if sprows != None:
                for dataset in sprows:
                    splist[dataset["id"]] = True
            
        # Set the valid time
        assign_valid_time_to_map(ttype=ttype, map=map, start=start, end=end, increment=increment, mult=count, dbif=dbif, interval=interval)

        count += 1

    # Update all the space time datasets in which registered maps are changed there valid time
    for name in splist.keys():
        sp = map.get_new_stds_instance(name)
        sp.select(dbif)
        sp.update_from_registered_maps(dbif)

    if connect == True:
        dbif.close()


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

def assign_valid_time_to_map(ttype, map, start, end, increment=None, mult=1, dbif = None, interval=False):
    """Assign the valid time to a map dataset

       @ttype The temporal type which should be assigned and which the time format is of
       @map A map dataset object derived from abstract_map_dataset
       @start The start date and time of the first raster map (format absolute: "yyyy-mm-dd HH:MM:SS" or "yyyy-mm-dd", format relative 5.0)
       @end The end date and time of the first raster map (format absolute: "yyyy-mm-dd HH:MM:SS" or "yyyy-mm-dd", format relative 5.0)
       @increment Time increment between maps for time stamp creation (format absolute: NNN seconds, minutes, hours, days, weeks, months, years; format relative: 1.0)
       @multi A multiplier for the increment
       @dbif The database interface to use for sql queries
       @interval If True, time intervals are created in case the start time and an increment is provided
    """
    
    connect = False

    if dbif == None:
        dbif = sql_database_interface()
        dbif.connect()
        connect = True

    if ttype == "absolute":
        # Create the start time object
        if start.find(":") > 0:
            time_format = "%Y-%m-%d %H:%M:%S"
        else:
            time_format = "%Y-%m-%d"

        start_time = datetime.strptime(start, time_format)
        end_time = None
        
        if end:
            end_time = datetime.strptime(end, time_format)

        # Add the increment
        if increment:
            start_time = increment_datetime_by_string(start_time, increment, mult)
            if interval:
                end_time = increment_datetime_by_string(start_time, increment, 1)

        core.verbose(_("Set absolute valid time for map <%s> to %s - %s") % (map.get_id(), str(start_time), str(end_time)))
        map.update_absolute_time(start_time, end_time, None, dbif)
    else:
        start_time = float(start)
        end_time = None

        if end:
            end_time = float(end)

        if increment:
            start_time = start_time + mult * float(increment)
            if interval:
                end_time = start_time + float(increment)

        core.verbose(_("Set relative valid time for map <%s> to %f - %s") % (map.get_id(), start_time,  str(end_time)))
        map.update_relative_time(start_time, end_time, dbif)

    if connect == True:
        dbif.close()