import logging from django.contrib.gis.gdal import GDALException from django.contrib.gis.geos import GEOSException, GEOSGeometry from django.forms.widgets import Textarea from django.utils import six, translation # Creating a template context that contains Django settings # values needed by admin map templates. geo_context = {'LANGUAGE_BIDI': translation.get_language_bidi()} logger = logging.getLogger('django.contrib.gis') class OpenLayersWidget(Textarea): """ Renders an OpenLayers map using the WKT of the geometry. """ def get_context(self, name, value, attrs=None): # Update the template parameters with any attributes passed in. if attrs: self.params.update(attrs) self.params['editable'] = self.params['modifiable'] else: self.params['editable'] = True # Defaulting the WKT value to a blank string -- this # will be tested in the JavaScript and the appropriate # interface will be constructed. self.params['wkt'] = '' # If a string reaches here (via a validation error on another # field) then just reconstruct the Geometry. if value and isinstance(value, six.string_types): try: value = GEOSGeometry(value) except (GEOSException, ValueError) as err: logger.error("Error creating geometry from value '%s' (%s)", value, err) value = None if (value and value.geom_type.upper() != self.geom_type and self.geom_type != 'GEOMETRY'): value = None # Constructing the dictionary of the map options. self.params['map_options'] = self.map_options() # Constructing the JavaScript module name using the name of # the GeometryField (passed in via the `attrs` keyword). # Use the 'name' attr for the field name (rather than 'field') self.params['name'] = name # note: we must switch out dashes for underscores since js # functions are created using the module variable js_safe_name = self.params['name'].replace('-', '_') self.params['module'] = 'geodjango_%s' % js_safe_name if value: # Transforming the geometry to the projection used on the # OpenLayers map. srid = self.params['srid'] if value.srid != srid: try: ogr = value.ogr ogr.transform(srid) wkt = ogr.wkt except GDALException as err: logger.error( "Error transforming geometry from srid '%s' to srid '%s' (%s)", value.srid, srid, err ) wkt = '' else: wkt = value.wkt # Setting the parameter WKT with that of the transformed # geometry. self.params['wkt'] = wkt self.params.update(geo_context) return self.params def map_options(self): "Builds the map options hash for the OpenLayers template." # JavaScript construction utilities for the Bounds and Projection. def ol_bounds(extent): return 'new OpenLayers.Bounds(%s)' % str(extent) def ol_projection(srid): return 'new OpenLayers.Projection("EPSG:%s")' % srid # An array of the parameter name, the name of their OpenLayers # counterpart, and the type of variable they are. map_types = [('srid', 'projection', 'srid'), ('display_srid', 'displayProjection', 'srid'), ('units', 'units', str), ('max_resolution', 'maxResolution', float), ('max_extent', 'maxExtent', 'bounds'), ('num_zoom', 'numZoomLevels', int), ('max_zoom', 'maxZoomLevels', int), ('min_zoom', 'minZoomLevel', int), ] # Building the map options hash. map_options = {} for param_name, js_name, option_type in map_types: if self.params.get(param_name, False): if option_type == 'srid': value = ol_projection(self.params[param_name]) elif option_type == 'bounds': value = ol_bounds(self.params[param_name]) elif option_type in (float, int): value = self.params[param_name] elif option_type in (str,): value = '"%s"' % self.params[param_name] else: raise TypeError map_options[js_name] = value return map_options