def filter_queryset(self, request, queryset, view):
qs = queryset
trek = request.GET.get('near_trek', None)
if trek is not None:
contents_intersecting = intersecting(qs.model,
Trek.objects.get(pk=trek))
# qs = qs.intersecting(contents_intersecting) #FIXME: cannot intersect MultilingualQuerySet
qs = contents_intersecting.order_by('id')
return qs
def cities(self):
return uniquify(intersecting(City, self.zoning_property, distance=0))
def districts(self):
return uniquify(intersecting(District, self.zoning_property, distance=0))
return self.published
@property
def pretty_period(self):
return self.species.pretty_period()
pretty_period_verbose_name = _("Period")
@property
def pretty_practices(self):
return self.species.pretty_practices()
pretty_practices_verbose_name = _("Practices")
if 'geotrek.core' in settings.INSTALLED_APPS:
from geotrek.core.models import Topology
Topology.add_property('sensitive_areas', lambda self: intersecting(SensitiveArea, self, settings.SENSITIVE_AREA_INTERSECTION_MARGIN, False), _("Sensitive areas"))
Topology.add_property('published_sensitive_areas', lambda self: intersecting(SensitiveArea, self, settings.SENSITIVE_AREA_INTERSECTION_MARGIN, False).filter(published=True), _("Published sensitive areas"))
if 'geotrek.trekking' in settings.INSTALLED_APPS:
from geotrek.trekking import models as trekking_models
SensitiveArea.add_property('pois', lambda self: intersecting(trekking_models.POI, self, 0), _("POIs"))
SensitiveArea.add_property('treks', lambda self: intersecting(trekking_models.Trek, self, 0), _("Treks"))
SensitiveArea.add_property('services', lambda self: intersecting(trekking_models.Service, self, 0), _("Services"))
if 'geotrek.diving' in settings.INSTALLED_APPS:
from geotrek.diving.models import Dive
Dive.add_property('sensitive_areas', lambda self: intersecting(SensitiveArea, self, settings.SENSITIVE_AREA_INTERSECTION_MARGIN, False), _("Sensitive areas"))
Dive.add_property('published_sensitive_areas', lambda self: intersecting(SensitiveArea, self, settings.SENSITIVE_AREA_INTERSECTION_MARGIN, False).filter(published=True), _("Published sensitive areas"))
SensitiveArea.add_property('dives', lambda self: intersecting(Dive, self, 0), _("Dives"))
SensitiveArea.add_property('published_dives',
lambda self: intersecting(Dive, self, 0).filter(published=True),
@property
def type(self):
"""Fake type to simulate POI for mobile app v1"""
return self.category
@property
def min_elevation(self):
return 0
@property
def max_elevation(self):
return 0
Topology.add_property('touristic_contents',
lambda self: intersecting(TouristicContent, self),
_(u"Touristic contents"))
Topology.add_property(
'published_touristic_contents',
lambda self: intersecting(TouristicContent, self).filter(published=True),
_(u"Published touristic contents"))
TouristicContent.add_property(
'touristic_contents', lambda self: intersecting(TouristicContent, self),
_(u"Touristic contents"))
TouristicContent.add_property(
'published_touristic_contents',
lambda self: intersecting(TouristicContent, self).filter(published=True),
_(u"Published touristic contents"))
class TouristicEventType(OptionalPictogramMixin):
def type2_label(self):
return self.category.type2_label
@property
def types1_display(self):
return ', '.join([unicode(n) for n in self.type1.all()])
@property
def types2_display(self):
return ', '.join([unicode(n) for n in self.type2.all()])
@property
def prefixed_category_id(self):
return self.category.prefixed_id
Topology.add_property('touristic_contents', lambda self: intersecting(TouristicContent, self, distance=settings.TOURISM_INTERSECTION_MARGIN), _(u"Touristic contents"))
Topology.add_property('published_touristic_contents', lambda self: intersecting(TouristicContent, self, distance=settings.TOURISM_INTERSECTION_MARGIN).filter(published=True), _(u"Published touristic contents"))
TouristicContent.add_property('touristic_contents', lambda self: intersecting(TouristicContent, self, distance=settings.TOURISM_INTERSECTION_MARGIN), _(u"Touristic contents"))
TouristicContent.add_property('published_touristic_contents', lambda self: intersecting(TouristicContent, self, distance=settings.TOURISM_INTERSECTION_MARGIN).filter(published=True), _(u"Published touristic contents"))
class TouristicEventType(OptionalPictogramMixin):
type = models.CharField(verbose_name=_(u"Type"), max_length=128, db_column='type')
class Meta:
db_table = 't_b_evenement_touristique_type'
verbose_name = _(u"Touristic event type")
verbose_name_plural = _(u"Touristic event types")
ordering = ['type']
.filter(aggregations__path=path).distinct('pk')
@classmethod
def topology_area_edges(cls, topology):
return cls.overlapping(topology)\
.select_related('restricted_area')\
.select_related('restricted_area__area_type')
if settings.TREKKING_TOPOLOGY_ENABLED:
Path.add_property('area_edges', RestrictedAreaEdge.path_area_edges, _(u"Restricted area edges"))
Path.add_property('areas', lambda self: uniquify(map(attrgetter('restricted_area'), self.area_edges)),
_(u"Restricted areas"))
Topology.add_property('area_edges', RestrictedAreaEdge.topology_area_edges, _(u"Restricted area edges"))
Topology.add_property('areas', lambda self: uniquify(
intersecting(RestrictedArea, self)) if self.ispoint() else uniquify(
map(attrgetter('restricted_area'), self.area_edges)), _(u"Restricted areas"))
Intervention.add_property('area_edges', lambda self: self.topology.area_edges if self.topology else [],
_(u"Restricted area edges"))
Intervention.add_property('areas', lambda self: self.topology.areas if self.topology else [],
_(u"Restricted areas"))
Project.add_property('area_edges', lambda self: self.edges_by_attr('area_edges'), _(u"Restricted area edges"))
Project.add_property('areas', lambda self: uniquify(map(attrgetter('restricted_area'), self.area_edges)),
_(u"Restricted areas"))
else:
Topology.add_property('areas', lambda self: uniquify(intersecting(RestrictedArea, self, distance=0)),
_(u"Restricted areas"))
TouristicContent.add_property('areas', lambda self: intersecting(RestrictedArea, self, distance=0),
_(u"Restricted areas"))
TouristicEvent.add_property('areas', lambda self: intersecting(RestrictedArea, self, distance=0),
else:
return Practice.id_prefix
def get_map_image_url(self):
return reverse('diving:dive_map_image', args=[str(self.pk), get_language()])
@classmethod
def get_create_label(cls):
return _("Add a new dive")
@property
def levels_display(self):
return ", ".join([str(level) for level in self.levels.all()])
Topology.add_property('dives', lambda self: intersecting(Dive, self), _("Dives"))
Topology.add_property('published_dives', lambda self: intersecting(Dive, self).filter(published=True), _("Published dives"))
Dive.add_property('dives', lambda self: intersecting(Dive, self), _("Dives"))
Dive.add_property('published_dives', lambda self: intersecting(Dive, self).filter(published=True), _("Published dives"))
Dive.add_property('treks', lambda self: intersecting(Trek, self), _("Treks"))
Dive.add_property('published_treks', lambda self: intersecting(Trek, self).filter(published=True), _("Published treks"))
Dive.add_property('pois', lambda self: intersecting(POI, self), _("POIs"))
Dive.add_property('published_pois', lambda self: intersecting(POI, self).filter(published=True), _("Published POIs"))
Dive.add_property('services', lambda self: intersecting(Service, self), _("Services"))
Dive.add_property('published_services', lambda self: intersecting(Service, self).filter(published=True), _("Published Services"))
if 'geotrek.tourism' in settings.INSTALLED_APPS:
from geotrek.tourism import models as tourism_models
tourism_models.TouristicContent.add_property('dives', lambda self: intersecting(Dive, self), _("Dives"))
blank=True)
type2 = models.ManyToManyField(TouristicContentType, related_name='contents2',
verbose_name=_(u"Type 2"), db_table="t_r_contenu_touristique_type2",
blank=True)
objects = NoDeleteMixin.get_manager_cls(models.GeoManager)()
class Meta:
db_table = 't_t_contenu_touristique'
verbose_name = _(u"Touristic content")
verbose_name_plural = _(u"Touristic contents")
def __unicode__(self):
return self.name
Topology.add_property('touristic_contents', lambda self: intersecting(TouristicContent, self, distance=settings.TOURISM_INTERSECTION_MARGIN))
TouristicContent.add_property('touristic_contents', lambda self: intersecting(TouristicContent, self, distance=settings.TOURISM_INTERSECTION_MARGIN))
class TouristicEventType(models.Model):
type = models.CharField(verbose_name=_(u"Type"), max_length=128, db_column='type')
class Meta:
db_table = 't_b_evenement_touristique_type'
verbose_name = _(u"Touristic event type")
verbose_name_plural = _(u"Touristic event types")
ordering = ['type']
def __unicode__(self):
return self.type
@classmethod
def get_create_label(cls):
return _("Add a new outdoor site")
@property
def published_children(self):
if not settings.PUBLISHED_BY_LANG:
return self.children.filter(published=True)
q = Q()
for lang in settings.MODELTRANSLATION_LANGUAGES:
q |= Q(**{'published_{}'.format(lang): True})
return self.children.filter(q)
Path.add_property('sites', lambda self: intersecting(Site, self), _("Sites"))
Topology.add_property('sites', lambda self: intersecting(Site, self),
_("Sites"))
TouristicContent.add_property('sites', lambda self: intersecting(Site, self),
_("Sites"))
TouristicEvent.add_property('sites', lambda self: intersecting(Site, self),
_("Sites"))
Site.add_property('sites', lambda self: intersecting(Site, self), _("Sites"))
Site.add_property('treks', lambda self: intersecting(Trek, self), _("Treks"))
Site.add_property('pois', lambda self: intersecting(POI, self), _("POIs"))
Site.add_property('trails', lambda self: intersecting(Trail, self),
_("Trails"))
Site.add_property('infrastructures',
lambda self: intersecting(Infrastructure, self),
_("Infrastructures"))
return settings.TOURISM_INTERSECTION_MARGIN
@property
def type(self):
"""Fake type to simulate POI for mobile app v1"""
return self.category
@property
def min_elevation(self):
return 0
@property
def max_elevation(self):
return 0
Topology.add_property('touristic_contents', lambda self: intersecting(TouristicContent, self), _(u"Touristic contents"))
Topology.add_property('published_touristic_contents', lambda self: intersecting(TouristicContent, self).filter(published=True), _(u"Published touristic contents"))
TouristicContent.add_property('touristic_contents', lambda self: intersecting(TouristicContent, self), _(u"Touristic contents"))
TouristicContent.add_property('published_touristic_contents', lambda self: intersecting(TouristicContent, self).filter(published=True), _(u"Published touristic contents"))
class TouristicEventType(OptionalPictogramMixin):
type = models.CharField(verbose_name=_(u"Type"), max_length=128, db_column='type')
class Meta:
db_table = 't_b_evenement_touristique_type'
verbose_name = _(u"Touristic event type")
verbose_name_plural = _(u"Touristic event types")
ordering = ['type']
return treks.order_by('topo_object').distinct('topo_object')
@classmethod
def topology_treks(cls, topology):
if settings.TREKKING_TOPOLOGY_ENABLED:
qs = cls.overlapping(topology)
else:
area = topology.geom.buffer(settings.TREK_POI_INTERSECTION_MARGIN)
qs = cls.objects.filter(geom__intersects=area)
return qs
Path.add_property('treks', Trek.path_treks)
Topology.add_property('treks', Trek.topology_treks)
Intervention.add_property('treks', lambda self: self.topology.treks if self.topology else [])
Project.add_property('treks', lambda self: self.edges_by_attr('treks'))
tourism_models.TouristicContent.add_property('treks', lambda self: intersecting(Trek, self, distance=settings.TOURISM_INTERSECTION_MARGIN))
tourism_models.TouristicEvent.add_property('treks', lambda self: intersecting(Trek, self, distance=settings.TOURISM_INTERSECTION_MARGIN))
class TrekRelationshipManager(models.Manager):
use_for_related_fields = True
def get_queryset(self):
# Select treks foreign keys by default
qs = super(TrekRelationshipManager, self).get_queryset().select_related('trek_a', 'trek_b')
# Exclude deleted treks
return qs.exclude(trek_a__deleted=True).exclude(trek_b__deleted=True)
class TrekRelationship(models.Model):
"""
if settings.TREKKING_TOPOLOGY_ENABLED:
Path.add_property('area_edges', RestrictedAreaEdge.path_area_edges,
_("Restricted area edges"))
Path.add_property(
'areas', lambda self: uniquify(
map(attrgetter('restricted_area'), self.area_edges)),
_("Restricted areas"))
Path.add_property(
'published_areas',
lambda self: [area for area in self.areas if area.published],
_("Published areas"))
Topology.add_property('area_edges', RestrictedAreaEdge.topology_area_edges,
_("Restricted area edges"))
Topology.add_property(
'areas', lambda self: uniquify(intersecting(RestrictedArea, self))
if self.ispoint() else uniquify(
map(attrgetter('restricted_area'), self.area_edges)),
_("Restricted areas"))
Intervention.add_property(
'area_edges', lambda self: self.target.area_edges
if self.target and self.target else [], _("Restricted area edges"))
Intervention.add_property(
'areas', lambda self: self.target.areas
if self.target and self.target else [], _("Restricted areas"))
Project.add_property('area_edges',
lambda self: self.edges_by_attr('area_edges'),
_("Restricted area edges"))
Project.add_property(
'areas', lambda self: uniquify(
map(attrgetter('restricted_area'), self.area_edges)),
return [o for o, _o in self.ORIENTATION_CHOICES
if o in orientation] # Sorting
@property
def super_wind(self):
"Return wind of itself and its descendants"
wind = set(
sum(
self.get_descendants(include_self=True).values_list('wind',
flat=True),
[]))
return [o for o, _o in self.ORIENTATION_CHOICES
if o in wind] # Sorting
Path.add_property('sites', lambda self: intersecting(Site, self), _("Sites"))
Topology.add_property('sites', lambda self: intersecting(Site, self),
_("Sites"))
TouristicContent.add_property('sites', lambda self: intersecting(Site, self),
_("Sites"))
TouristicEvent.add_property('sites', lambda self: intersecting(Site, self),
_("Sites"))
Site.add_property('sites', lambda self: intersecting(Site, self), _("Sites"))
Site.add_property('treks', lambda self: intersecting(Trek, self), _("Treks"))
Site.add_property('pois', lambda self: intersecting(POI, self), _("POIs"))
Site.add_property('trails', lambda self: intersecting(Trail, self),
_("Trails"))
Site.add_property('infrastructures',
lambda self: intersecting(Infrastructure, self),
_("Infrastructures"))
def extent(self):
return self.geom.buffer(10).transform(settings.API_SRID,
clone=True).extent
@property
def rando_url(self):
category_slug = _('touristic-content')
return '{}/{}/'.format(category_slug, self.slug)
@property
def meta_description(self):
return plain_text(self.description_teaser or self.description)[:500]
Topology.add_property(
'touristic_contents', lambda self: intersecting(TouristicContent, self).
order_by(*settings.TOURISTIC_CONTENTS_API_ORDER), _("Touristic contents"))
Topology.add_property(
'published_touristic_contents',
lambda self: intersecting(TouristicContent, self).filter(
published=True).order_by(*settings.TOURISTIC_CONTENTS_API_ORDER),
_("Published touristic contents"))
TouristicContent.add_property(
'touristic_contents', lambda self: intersecting(TouristicContent, self).
order_by(*settings.TOURISTIC_CONTENTS_API_ORDER), _("Touristic contents"))
TouristicContent.add_property(
'published_touristic_contents',
lambda self: intersecting(TouristicContent, self).filter(
published=True).order_by(*settings.TOURISTIC_CONTENTS_API_ORDER),
_("Published touristic contents"))
kml = simplekml.Kml()
geom = self.geom
if geom.geom_type == 'Point':
geom = geom.buffer(self.species.radius or settings.SENSITIVITY_DEFAULT_RADIUS, 4)
geom = geom.transform(4326, clone=True) # KML uses WGS84
line = kml.newpolygon(name=self.species.name,
description=plain_text(self.description),
outerboundaryis=geom.coords[0])
line.style.linestyle.color = simplekml.Color.red # Red
line.style.linestyle.width = 4 # pixels
return kml.kml()
def is_public(self):
return self.published
@property
def pretty_period(self):
return self.species.pretty_period()
pretty_period_verbose_name = _("Period")
@property
def pretty_practices(self):
return self.species.pretty_practices()
pretty_practices_verbose_name = _("Practices")
if 'geotrek.core' in settings.INSTALLED_APPS:
from geotrek.core.models import Topology
Topology.add_property('sensitive_areas', lambda self: intersecting(SensitiveArea, self, settings.SENSITIVE_AREA_INTERSECTION_MARGIN), _(u"Sensitive areas"))
Topology.add_property('published_sensitive_areas', lambda self: intersecting(SensitiveArea, self, settings.SENSITIVE_AREA_INTERSECTION_MARGIN).filter(published=True), _(u"Published sensitive areas"))
.filter(aggregations__path=path).distinct('pk')
@classmethod
def topology_area_edges(cls, topology):
return cls.overlapping(topology)\
.select_related('restricted_area')\
.select_related('restricted_area__area_type')
if settings.TREKKING_TOPOLOGY_ENABLED:
Path.add_property('area_edges', RestrictedAreaEdge.path_area_edges, _("Restricted area edges"))
Path.add_property('areas', lambda self: uniquify(map(attrgetter('restricted_area'), self.area_edges)),
_("Restricted areas"))
Topology.add_property('area_edges', RestrictedAreaEdge.topology_area_edges, _("Restricted area edges"))
Topology.add_property('areas', lambda self: uniquify(
intersecting(RestrictedArea, self)) if self.ispoint() else uniquify(
map(attrgetter('restricted_area'), self.area_edges)), _("Restricted areas"))
Intervention.add_property('area_edges', lambda self: self.topology.area_edges if self.topology else [],
_("Restricted area edges"))
Intervention.add_property('areas', lambda self: self.topology.areas if self.topology else [],
_("Restricted areas"))
Project.add_property('area_edges', lambda self: self.edges_by_attr('area_edges'), _("Restricted area edges"))
Project.add_property('areas', lambda self: uniquify(map(attrgetter('restricted_area'), self.area_edges)),
_("Restricted areas"))
else:
Topology.add_property('areas', lambda self: uniquify(intersecting(RestrictedArea, self, distance=0)),
_("Restricted areas"))
Project.add_property('areas', lambda self: uniquify(intersecting(RestrictedArea, self, distance=0)),
_("Restricted areas"))
Intervention.add_property('areas', lambda self: uniquify(intersecting(RestrictedArea, self, distance=0)),
_("Restricted areas"))
@property
def extent(self):
return self.geom.transform(
settings.API_SRID, clone=True).extent if self.geom.extent else None
Path.add_property('treks', Trek.path_treks, _(u"Treks"))
Topology.add_property('treks', Trek.topology_treks, _(u"Treks"))
if settings.HIDE_PUBLISHED_TREKS_IN_TOPOLOGIES:
Topology.add_property('published_treks', lambda self: [],
_(u"Published treks"))
else:
Topology.add_property(
'published_treks',
lambda self: intersecting(Trek, self).filter(published=True),
_(u"Published treks"))
Intervention.add_property(
'treks', lambda self: self.topology.treks if self.topology else [],
_(u"Treks"))
Project.add_property('treks', lambda self: self.edges_by_attr('treks'),
_(u"Treks"))
tourism_models.TouristicContent.add_property(
'treks', lambda self: intersecting(Trek, self), _(u"Treks"))
tourism_models.TouristicContent.add_property(
'published_treks',
lambda self: intersecting(Trek, self).filter(published=True),
_(u"Published treks"))
tourism_models.TouristicEvent.add_property(
'treks', lambda self: intersecting(Trek, self), _(u"Treks"))
tourism_models.TouristicEvent.add_property(
return 0
@property
def max_elevation(self):
return 0
@property
def portal_display(self):
return ', '.join([unicode(portal) for portal in self.portal.all()])
@property
def source_display(self):
return ','.join([unicode(source) for source in self.source.all()])
Topology.add_property('touristic_contents', lambda self: intersecting(TouristicContent, self), _(u"Touristic contents"))
Topology.add_property('published_touristic_contents', lambda self: intersecting(TouristicContent, self).filter(published=True), _(u"Published touristic contents"))
TouristicContent.add_property('touristic_contents', lambda self: intersecting(TouristicContent, self), _(u"Touristic contents"))
TouristicContent.add_property('published_touristic_contents', lambda self: intersecting(TouristicContent, self).filter(published=True), _(u"Published touristic contents"))
class TouristicEventType(OptionalPictogramMixin):
type = models.CharField(verbose_name=_(u"Type"), max_length=128, db_column='type')
class Meta:
db_table = 't_b_evenement_touristique_type'
verbose_name = _(u"Touristic event type")
verbose_name_plural = _(u"Touristic event types")
ordering = ['type']
if not field.primary_key and not hasattr(field, 'through'):
field_names.add(field.attname)
old_trek = Trek.objects.get(pk=self.pk)
if self.geom is not None and old_trek.geom.equals_exact(self.geom, tolerance=0.00001):
field_names.remove('geom')
if self.geom_3d is not None and old_trek.geom_3d.equals_exact(self.geom_3d, tolerance=0.00001):
field_names.remove('geom_3d')
return super(Trek, self).save(update_fields=field_names, *args, **kwargs)
super(Trek, self).save(*args, **kwargs)
Path.add_property('treks', Trek.path_treks, _(u"Treks"))
Topology.add_property('treks', Trek.topology_treks, _(u"Treks"))
if settings.HIDE_PUBLISHED_TREKS_IN_TOPOLOGIES:
Topology.add_property('published_treks', lambda self: [], _(u"Published treks"))
else:
Topology.add_property('published_treks', lambda self: intersecting(Trek, self).filter(published=True), _(u"Published treks"))
Intervention.add_property('treks', lambda self: self.topology.treks if self.topology else [], _(u"Treks"))
Project.add_property('treks', lambda self: self.edges_by_attr('treks'), _(u"Treks"))
tourism_models.TouristicContent.add_property('treks', lambda self: intersecting(Trek, self), _(u"Treks"))
tourism_models.TouristicContent.add_property('published_treks', lambda self: intersecting(Trek, self).filter(published=True), _(u"Published treks"))
tourism_models.TouristicEvent.add_property('treks', lambda self: intersecting(Trek, self), _(u"Treks"))
tourism_models.TouristicEvent.add_property('published_treks', lambda self: intersecting(Trek, self).filter(published=True), _(u"Published treks"))
class TrekRelationshipManager(models.Manager):
use_for_related_fields = True
def get_queryset(self):
# Select treks foreign keys by default
qs = super(TrekRelationshipManager, self).get_queryset().select_related('trek_a', 'trek_b')
# Exclude deleted treks
return self.species.pretty_period()
pretty_period_verbose_name = _("Period")
@property
def pretty_practices(self):
return self.species.pretty_practices()
pretty_practices_verbose_name = _("Practices")
if 'geotrek.core' in settings.INSTALLED_APPS:
from geotrek.core.models import Topology
Topology.add_property(
'sensitive_areas',
lambda self: intersecting(SensitiveArea, self, settings.
SENSITIVE_AREA_INTERSECTION_MARGIN, False),
_("Sensitive areas"))
Topology.add_property(
'published_sensitive_areas', lambda self: intersecting(
SensitiveArea, self, settings.SENSITIVE_AREA_INTERSECTION_MARGIN,
False).filter(published=True), _("Published sensitive areas"))
if 'geotrek.trekking' in settings.INSTALLED_APPS:
from geotrek.trekking import models as trekking_models
SensitiveArea.add_property(
'pois', lambda self: intersecting(trekking_models.POI, self, 0),
_("POIs"))
SensitiveArea.add_property(
'treks', lambda self: intersecting(trekking_models.Trek, self, 0),
_("Treks"))
SensitiveArea.add_property(
return cls.overlapping(topology)\
.select_related('restricted_area')\
.select_related('restricted_area__area_type')
if settings.TREKKING_TOPOLOGY_ENABLED:
Path.add_property('area_edges', RestrictedAreaEdge.path_area_edges)
Path.add_property('areas', lambda self: uniquify(map(attrgetter('restricted_area'), self.area_edges)))
Topology.add_property('area_edges', RestrictedAreaEdge.topology_area_edges)
Topology.add_property('areas', lambda self: uniquify(map(attrgetter('restricted_area'), self.area_edges)))
Intervention.add_property('area_edges', lambda self: self.topology.area_edges if self.topology else [])
Intervention.add_property('areas', lambda self: self.topology.areas if self.topology else [])
Project.add_property('area_edges', lambda self: self.edges_by_attr('area_edges'))
Project.add_property('areas', lambda self: uniquify(map(attrgetter('restricted_area'), self.area_edges)))
else:
Topology.add_property('areas', lambda self: intersecting(RestrictedArea, self))
TouristicContent.add_property('areas', lambda self: intersecting(RestrictedArea, self))
TouristicEvent.add_property('areas', lambda self: intersecting(RestrictedArea, self))
class City(models.Model):
code = models.CharField(primary_key=True, max_length=6, db_column='insee')
name = models.CharField(max_length=128, db_column='commune', verbose_name=_(u"Name"))
geom = models.MultiPolygonField(srid=settings.SRID, spatial_index=False)
# Override default manager
objects = models.GeoManager()
class Meta:
db_table = 'l_commune'
def areas(self):
return uniquify(intersecting(RestrictedArea, self.zoning_property, distance=0))
maplayers.append(ugettext(u"POIs"))
if settings.SHOW_SERVICES_ON_MAP_SCREENSHOT:
maplayers.append(ugettext(u"Services"))
if settings.SHOW_SIGNAGES_ON_MAP_SCREENSHOT:
maplayers.append(ugettext(u"Signages"))
if settings.SHOW_INFRASTRUCTURES_ON_MAP_SCREENSHOT:
maplayers.append(ugettext(u"Infrastructures"))
return {"maplayers": maplayers}
Path.add_property('treks', Trek.path_treks, _(u"Treks"))
Topology.add_property('treks', Trek.topology_treks, _(u"Treks"))
if settings.HIDE_PUBLISHED_TREKS_IN_TOPOLOGIES:
Topology.add_property('published_treks', lambda self: [], _(u"Published treks"))
else:
Topology.add_property('published_treks', lambda self: intersecting(Trek, self).filter(published=True), _(u"Published treks"))
Intervention.add_property('treks', lambda self: self.topology.treks if self.topology else [], _(u"Treks"))
Project.add_property('treks', lambda self: self.edges_by_attr('treks'), _(u"Treks"))
tourism_models.TouristicContent.add_property('treks', lambda self: intersecting(Trek, self), _(u"Treks"))
tourism_models.TouristicContent.add_property('published_treks', lambda self: intersecting(Trek, self).filter(published=True), _(u"Published treks"))
tourism_models.TouristicEvent.add_property('treks', lambda self: intersecting(Trek, self), _(u"Treks"))
tourism_models.TouristicEvent.add_property('published_treks', lambda self: intersecting(Trek, self).filter(published=True), _(u"Published treks"))
class TrekRelationshipManager(models.Manager):
use_for_related_fields = True
def get_queryset(self):
# Select treks foreign keys by default
qs = super(TrekRelationshipManager, self).get_queryset().select_related('trek_a', 'trek_b')
# Exclude deleted treks
coords += (self.species.radius, )
geometry += (coords, )
geom = GEOSGeometry(Polygon(geometry), srid=settings.SRID)
geom = geom.transform(4326, clone=True) # KML uses WGS84
line = kml.newpolygon(name=self.species.name,
description=plain_text(self.description),
altitudemode=simplekml.AltitudeMode.relativetoground,
outerboundaryis=geom.coords[0])
line.style.linestyle.color = simplekml.Color.red # Red
line.style.linestyle.width = 4 # pixels
return kml.kml()
def is_public(self):
return self.published
@property
def pretty_period(self):
return self.species.pretty_period()
pretty_period_verbose_name = _("Period")
@property
def pretty_practices(self):
return self.species.pretty_practices()
pretty_practices_verbose_name = _("Practices")
if 'geotrek.core' in settings.INSTALLED_APPS:
from geotrek.core.models import Topology
Topology.add_property('sensitive_areas', lambda self: intersecting(SensitiveArea, self, settings.SENSITIVE_AREA_INTERSECTION_MARGIN), _(u"Sensitive areas"))
Topology.add_property('published_sensitive_areas', lambda self: intersecting(SensitiveArea, self, settings.SENSITIVE_AREA_INTERSECTION_MARGIN).filter(published=True), _(u"Published sensitive areas"))
