base.py :  » Web-Frameworks » Django » django » contrib » gis » db » backends » Python Open Source

Home
Python Open Source
1.3.1.2 Python
2.Ajax
3.Aspect Oriented
4.Blog
5.Build
6.Business Application
7.Chart Report
8.Content Management Systems
9.Cryptographic
10.Database
11.Development
12.Editor
13.Email
14.ERP
15.Game 2D 3D
16.GIS
17.GUI
18.IDE
19.Installer
20.IRC
21.Issue Tracker
22.Language Interface
23.Log
24.Math
25.Media Sound Audio
26.Mobile
27.Network
28.Parser
29.PDF
30.Project Management
31.RSS
32.Search
33.Security
34.Template Engines
35.Test
36.UML
37.USB Serial
38.Web Frameworks
39.Web Server
40.Web Services
41.Web Unit
42.Wiki
43.Windows
44.XML
Python Open Source » Web Frameworks » Django 
Django » django » contrib » gis » db » backends » base.py
"""
Base/mixin classes for the spatial backend database operations and the
`SpatialRefSys` model the backend.
"""
import re
from django.conf import settings
from django.contrib.gis import gdal

class BaseSpatialOperations(object):
    """
    This module holds the base `BaseSpatialBackend` object, which is
    instantiated by each spatial database backend with the features
    it has.
    """
    distance_functions = {}
    geometry_functions = {}
    geometry_operators = {}
    geography_operators = {}
    geography_functions = {}
    gis_terms = {}
    truncate_params = {}

    # Quick booleans for the type of this spatial backend, and
    # an attribute for the spatial database version tuple (if applicable)
    postgis = False
    spatialite = False
    mysql = False
    oracle = False
    spatial_version = None

    # How the geometry column should be selected.
    select = None

    # Does the spatial database have a geography type?
    geography = False

    area = False
    centroid = False
    difference = False
    distance = False
    distance_sphere = False
    distance_spheroid = False
    envelope = False
    force_rhr = False
    mem_size = False
    bounding_circle = False
    num_geom = False
    num_points = False
    perimeter = False
    perimeter3d = False
    point_on_surface = False
    polygonize = False
    reverse = False
    scale = False
    snap_to_grid = False
    sym_difference = False
    transform = False
    translate = False
    union = False

    # Aggregates
    collect = False
    extent = False
    extent3d = False
    make_line = False
    unionagg = False

    # Serialization
    geohash = False
    geojson = False
    gml = False
    kml = False
    svg = False

    # Constructors
    from_text = False
    from_wkb = False

    # Default conversion functions for aggregates; will be overridden if implemented
    # for the spatial backend.
    def convert_extent(self, box):
        raise NotImplementedError('Aggregate extent not implemented for this spatial backend.')

    def convert_extent3d(self, box):
        raise NotImplementedError('Aggregate 3D extent not implemented for this spatial backend.')

    def convert_geom(self, geom_val, geom_field):
        raise NotImplementedError('Aggregate method not implemented for this spatial backend.')

    # For quoting column values, rather than columns.
    def geo_quote_name(self, name):
        if isinstance(name, unicode):
            name = name.encode('ascii')
        return "'%s'" % name

    # GeometryField operations
    def geo_db_type(self, f):
        """
        Returns the database column type for the geometry field on
        the spatial backend.
        """
        raise NotImplementedError

    def get_distance(self, f, value, lookup_type):
        """
        Returns the distance parameters for the given geometry field,
        lookup value, and lookup type.
        """
        raise NotImplementedError('Distance operations not available on this spatial backend.')

    def get_geom_placeholder(self, f, value):
        """
        Returns the placeholder for the given geometry field with the given
        value.  Depending on the spatial backend, the placeholder may contain a
        stored procedure call to the transformation function of the spatial
        backend.
        """
        raise NotImplementedError

    # Spatial SQL Construction
    def spatial_aggregate_sql(self, agg):
        raise NotImplementedError('Aggregate support not implemented for this spatial backend.')

    def spatial_lookup_sql(self, lvalue, lookup_type, value, field):
        raise NotImplmentedError

    # Routines for getting the OGC-compliant models.
    def geometry_columns(self):
        raise NotImplementedError

    def spatial_ref_sys(self):
        raise NotImplementedError

class SpatialRefSysMixin(object):
    """
    The SpatialRefSysMixin is a class used by the database-dependent
    SpatialRefSys objects to reduce redundnant code.
    """
    # For pulling out the spheroid from the spatial reference string. This
    # regular expression is used only if the user does not have GDAL installed.
    # TODO: Flattening not used in all ellipsoids, could also be a minor axis,
    # or 'b' parameter.
    spheroid_regex = re.compile(r'.+SPHEROID\[\"(?P<name>.+)\",(?P<major>\d+(\.\d+)?),(?P<flattening>\d{3}\.\d+),')

    # For pulling out the units on platforms w/o GDAL installed.
    # TODO: Figure out how to pull out angular units of projected coordinate system and
    # fix for LOCAL_CS types.  GDAL should be highly recommended for performing
    # distance queries.
    units_regex = re.compile(r'.+UNIT ?\["(?P<unit_name>[\w \'\(\)]+)", ?(?P<unit>[\d\.]+)(,AUTHORITY\["(?P<unit_auth_name>[\w \'\(\)]+)","(?P<unit_auth_val>\d+)"\])?\]([\w ]+)?(,AUTHORITY\["(?P<auth_name>[\w \'\(\)]+)","(?P<auth_val>\d+)"\])?\]$')

    @property
    def srs(self):
        """
        Returns a GDAL SpatialReference object, if GDAL is installed.
        """
        if gdal.HAS_GDAL:
            # TODO: Is caching really necessary here?  Is complexity worth it?
            if hasattr(self, '_srs'):
                # Returning a clone of the cached SpatialReference object.
                return self._srs.clone()
            else:
                # Attempting to cache a SpatialReference object.

                # Trying to get from WKT first.
                try:
                    self._srs = gdal.SpatialReference(self.wkt)
                    return self.srs
                except Exception, msg:
                    pass

                try:
                    self._srs = gdal.SpatialReference(self.proj4text)
                    return self.srs
                except Exception, msg:
                    pass

                raise Exception('Could not get OSR SpatialReference from WKT: %s\nError:\n%s' % (self.wkt, msg))
        else:
            raise Exception('GDAL is not installed.')

    @property
    def ellipsoid(self):
        """
        Returns a tuple of the ellipsoid parameters:
        (semimajor axis, semiminor axis, and inverse flattening).
        """
        if gdal.HAS_GDAL:
            return self.srs.ellipsoid
        else:
            m = self.spheroid_regex.match(self.wkt)
            if m: return (float(m.group('major')), float(m.group('flattening')))
            else: return None

    @property
    def name(self):
        "Returns the projection name."
        return self.srs.name

    @property
    def spheroid(self):
        "Returns the spheroid name for this spatial reference."
        return self.srs['spheroid']

    @property
    def datum(self):
        "Returns the datum for this spatial reference."
        return self.srs['datum']

    @property
    def projected(self):
        "Is this Spatial Reference projected?"
        if gdal.HAS_GDAL:
            return self.srs.projected
        else:
            return self.wkt.startswith('PROJCS')

    @property
    def local(self):
        "Is this Spatial Reference local?"
        if gdal.HAS_GDAL:
            return self.srs.local
        else:
            return self.wkt.startswith('LOCAL_CS')

    @property
    def geographic(self):
        "Is this Spatial Reference geographic?"
        if gdal.HAS_GDAL:
            return self.srs.geographic
        else:
            return self.wkt.startswith('GEOGCS')

    @property
    def linear_name(self):
        "Returns the linear units name."
        if gdal.HAS_GDAL:
            return self.srs.linear_name
        elif self.geographic:
            return None
        else:
            m = self.units_regex.match(self.wkt)
            return m.group('unit_name')

    @property
    def linear_units(self):
        "Returns the linear units."
        if gdal.HAS_GDAL:
            return self.srs.linear_units
        elif self.geographic:
            return None
        else:
            m = self.units_regex.match(self.wkt)
            return m.group('unit')

    @property
    def angular_name(self):
        "Returns the name of the angular units."
        if gdal.HAS_GDAL:
            return self.srs.angular_name
        elif self.projected:
            return None
        else:
            m = self.units_regex.match(self.wkt)
            return m.group('unit_name')

    @property
    def angular_units(self):
        "Returns the angular units."
        if gdal.HAS_GDAL:
            return self.srs.angular_units
        elif self.projected:
            return None
        else:
            m = self.units_regex.match(self.wkt)
            return m.group('unit')

    @property
    def units(self):
        "Returns a tuple of the units and the name."
        if self.projected or self.local:
            return (self.linear_units, self.linear_name)
        elif self.geographic:
            return (self.angular_units, self.angular_name)
        else:
            return (None, None)

    @classmethod
    def get_units(cls, wkt):
        """
        Class method used by GeometryField on initialization to
        retrive the units on the given WKT, without having to use
        any of the database fields.
        """
        if gdal.HAS_GDAL:
            return gdal.SpatialReference(wkt).units
        else:
            m = cls.units_regex.match(wkt)
            return m.group('unit'), m.group('unit_name')

    @classmethod
    def get_spheroid(cls, wkt, string=True):
        """
        Class method used by GeometryField on initialization to
        retrieve the `SPHEROID[..]` parameters from the given WKT.
        """
        if gdal.HAS_GDAL:
            srs = gdal.SpatialReference(wkt)
            sphere_params = srs.ellipsoid
            sphere_name = srs['spheroid']
        else:
            m = cls.spheroid_regex.match(wkt)
            if m:
                sphere_params = (float(m.group('major')), float(m.group('flattening')))
                sphere_name = m.group('name')
            else:
                return None

        if not string:
            return sphere_name, sphere_params
        else:
            # `string` parameter used to place in format acceptable by PostGIS
            if len(sphere_params) == 3:
                radius, flattening = sphere_params[0], sphere_params[2]
            else:
                radius, flattening = sphere_params
            return 'SPHEROID["%s",%s,%s]' % (sphere_name, radius, flattening)

    def __unicode__(self):
        """
        Returns the string representation.  If GDAL is installed,
        it will be 'pretty' OGC WKT.
        """
        try:
            return unicode(self.srs)
        except:
            return unicode(self.wkt)
www.java2java.com | Contact Us
Copyright 2009 - 12 Demo Source and Support. All rights reserved.
All other trademarks are property of their respective owners.