Dotted path to the views in URL patterns is changed to a params parameter.
This change makes the URL mapping from URL to View method in patterns generic
where the base package path is taken from the params['module_package'] value
to support module system of Melange where inherited View classes override the
params['module_package'] value to specify their own View methods.
from django.http import HttpResponse, Http404
from django.template import loader
from django.contrib.gis.db.backend import SpatialBackend
from django.contrib.sites.models import Site
from django.core import urlresolvers
from django.core.paginator import EmptyPage, PageNotAnInteger
from django.db.models import get_model
from django.contrib.gis.db.models.fields import GeometryField
from django.utils.encoding import smart_str
from django.contrib.gis.shortcuts import render_to_kml, render_to_kmz
def index(request, sitemaps):
"""
This view generates a sitemap index that uses the proper view
for resolving geographic section sitemap URLs.
"""
current_site = Site.objects.get_current()
sites = []
protocol = request.is_secure() and 'https' or 'http'
for section, site in sitemaps.items():
if callable(site):
pages = site().paginator.num_pages
else:
pages = site.paginator.num_pages
sitemap_url = urlresolvers.reverse('django.contrib.gis.sitemaps.views.sitemap', kwargs={'section': section})
sites.append('%s://%s%s' % (protocol, current_site.domain, sitemap_url))
if pages > 1:
for page in range(2, pages+1):
sites.append('%s://%s%s?p=%s' % (protocol, current_site.domain, sitemap_url, page))
xml = loader.render_to_string('sitemap_index.xml', {'sitemaps': sites})
return HttpResponse(xml, mimetype='application/xml')
def sitemap(request, sitemaps, section=None):
"""
This view generates a sitemap with additional geographic
elements defined by Google.
"""
maps, urls = [], []
if section is not None:
if section not in sitemaps:
raise Http404("No sitemap available for section: %r" % section)
maps.append(sitemaps[section])
else:
maps = sitemaps.values()
page = request.GET.get("p", 1)
for site in maps:
try:
if callable(site):
urls.extend(site().get_urls(page))
else:
urls.extend(site.get_urls(page))
except EmptyPage:
raise Http404("Page %s empty" % page)
except PageNotAnInteger:
raise Http404("No page '%s'" % page)
xml = smart_str(loader.render_to_string('gis/sitemaps/geo_sitemap.xml', {'urlset': urls}))
return HttpResponse(xml, mimetype='application/xml')
def kml(request, label, model, field_name=None, compress=False):
"""
This view generates KML for the given app label, model, and field name.
The model's default manager must be GeoManager, and the field name
must be that of a geographic field.
"""
placemarks = []
klass = get_model(label, model)
if not klass:
raise Http404('You must supply a valid app label and module name. Got "%s.%s"' % (label, model))
if field_name:
try:
info = klass._meta.get_field_by_name(field_name)
if not isinstance(info[0], GeometryField):
raise Exception
except:
raise Http404('Invalid geometry field.')
if SpatialBackend.postgis:
# PostGIS will take care of transformation.
placemarks = klass._default_manager.kml(field_name=field_name)
else:
# There's no KML method on Oracle or MySQL, so we use the `kml`
# attribute of the lazy geometry instead.
placemarks = []
if SpatialBackend.oracle:
qs = klass._default_manager.transform(4326, field_name=field_name)
else:
qs = klass._default_manager.all()
for mod in qs:
setattr(mod, 'kml', getattr(mod, field_name).kml)
placemarks.append(mod)
# Getting the render function and rendering to the correct.
if compress:
render = render_to_kmz
else:
render = render_to_kml
return render('gis/kml/placemarks.kml', {'places' : placemarks})
def kmz(request, label, model, field_name=None):
"""
This view returns KMZ for the given app label, model, and field name.
"""
return kml(request, label, model, field_name, True)