def getLocationsWithinOneKilometerRadius(json): return Location().query.filter((func.degrees( func.acos( func.sin(func.radians(json['lattitude'])) * func.sin(func.radians(Location.lattitude)) + func.cos(func.radians(json['lattitude'])) * func.cos(func.radians(Location.lattitude)) * func.cos(func.radians(json['longitude']-Location.longitude)) ) ) * 60 * 1.1515 * 1.609344) <= 1).all()
def sort_by_distance_from_user(offers, user_lon, user_lat): return offers.order_by((func.degrees( func.acos( func.sin(func.radians(user_lat)) * func.sin(func.radians(Offer.pickup_latitude)) + func.cos(func.radians(user_lat)) * func.cos(func.radians(Offer.pickup_latitude)) * func.cos(func.radians(user_lon - Offer.pickup_longitude)))) * 60 * 1.1515 * 1.609344))
def get_nearest_obj(self,ra_in,dec_in,size=2): a=self.BC.assets #find a bounding box to speed up search (size depended on search regon) if (ra_in<60) or (ra_in>308.5): if (dec_in+size)<-1: size=abs(dec_in+1) elif (dec_in-size)>1: size=abs(dec_in-1) else: if (dec_in+size)<-3: size=abs(dec_in+3) elif (dec_in-size)>76: size=abs(dec_in-76) box=geo_bounding_box(ra_in,dec_in,size=size) #this distance is correct up to multiplications factors (order is correct) dis=func.asin(func.sqrt(func.power(func.sin(0.5*func.radians(dec_in-a.dec)),2) + func.cos(func.radians(dec_in))*func.cos(func.radians(a.dec))*func.power(func.sin(.5*func.radians(ra_in-a.ra)),2))) if isinstance(box[0],list): #the search wraps around 360 result=self.session.query(a.name,a.id,a.ra,a.dec,a.location).filter(between(a.dec,box[1][0],box[1][1])).filter((between(a.ra,box[0][0][0],box[0][0][1]))|(between(a.ra,box[0][1][0],box[0][1][1]))).order_by(dis.asc()).first() else: result=self.session.query(a.name,a.id,a.ra,a.dec,a.location).filter(between(a.ra,box[0][0],box[0][1])).filter(between(a.dec,box[1][0],box[1][1])).order_by(dis.asc()).first() #result=self.session.query(a.name,a.id,a.ra,a.dec,a.location).order_by(dis.asc()).first() if result is None: result=self.get_nearest_obj(ra_in,dec_in,size=size+20) return result
def get_local_products(): user_id = None try: user_id = session["id"] except: pass lon = request.json.get("lon") lat = request.json.get("lat") rng = request.json.get("range") params = func.acos(func.sin(func.radians(lat)) * func.sin(func.radians(Address.lat)) + func.cos( func.radians(lat)) * func.cos(func.radians(Address.lat)) * func.cos(func.radians(Address.lon) - (func.radians(lon)))) * current_app.config['RADIUS'] products = Product.query.join(Product.address).filter( params <= rng).order_by(params).all() products_dict = [product.to_dict(user_id, lat, lon) for product in products] return {"products": products_dict}, 200
def calc_distance(cls, lon, lat, point): ''' @params: lon, lat, point(lon, lat) ... thing we're comparing to the lon,lat of this object @see: http://stackoverflow.com/questions/574691/mysql-great-circle-distance-haversine-formula/574736#574736 Here's the SQL statement that will find the closest 20 locations that are within a radius of 25 miles to the 45.5, -122.5 coordinate. It calculates the distance based on the latitude/longitude of that row and the target latitude/longitude, and then asks for only rows where the distance value is less than 25, orders the whole query by distance, and limits it to 20 results. To search by kilometers instead of miles, replace 3959 with 6371. Haversine formula SELECT( 3959 * acos( cos( radians(45.5) ) * cos( radians( lat ) ) * cos( radians( lng ) - radians(-122.5) ) + sin( radians(45.5) ) * sin( radians( lat ) ) ) ) AS distance ''' haversine = (3959 * func.acos( func.cos(func.radians(point[1])) * func.cos(func.radians(lat)) * func.cos(func.radians(lon) - func.radians(point[0])) + func.sin(func.radians(point[1])) * func.sin(func.radians(lat)))) return haversine
def calc_distance(cls, lon, lat, point): ''' @params: lon, lat, point(lon, lat) ... thing we're comparing to the lon,lat of this object @see: http://stackoverflow.com/questions/574691/mysql-great-circle-distance-haversine-formula/574736#574736 Here's the SQL statement that will find the closest 20 locations that are within a radius of 25 miles to the 45.5, -122.5 coordinate. It calculates the distance based on the latitude/longitude of that row and the target latitude/longitude, and then asks for only rows where the distance value is less than 25, orders the whole query by distance, and limits it to 20 results. To search by kilometers instead of miles, replace 3959 with 6371. Haversine formula SELECT( 3959 * acos( cos( radians(45.5) ) * cos( radians( lat ) ) * cos( radians( lng ) - radians(-122.5) ) + sin( radians(45.5) ) * sin( radians( lat ) ) ) ) AS distance ''' haversine = ( 3959 * func.acos( func.cos( func.radians(point[1]) ) * func.cos( func.radians(lat) ) * func.cos( func.radians(lon) - func.radians(point[0]) ) + func.sin( func.radians(point[1]) ) * func.sin( func.radians(lat) ) ) ) return haversine
def get_nearest_obj(self,ra_in,dec_in,size=5): a=self.BC.assets #this distance is correct up to multiplications factors (order is correct) dis=func.asin(func.sqrt(func.power(func.sin(0.5*func.radians(dec_in-a.dec)),2) + func.cos(func.radians(dec_in))*func.cos(func.radians(a.dec))*func.power(func.sin(.5*func.radians(ra_in-a.ra)),2))) result=self.session.query(a.name,a.id,a.ra,a.dec,a.location).order_by(dis.asc()).first() return result
def _Word(self, node, fieldname): value = node[0] if fieldname: like = False try: if value.endswith('*'): value = value.replace('*', '%') like = True except TypeError: # Hack around field values containing parens # The node[0] is a non-string if that's the case. node[0] = '(' + value[0] + ')' return self._Word(node, fieldname) if fieldname == 'ftitle': fieldname = 'title' if fieldname == 'fbag': fieldname = 'bag' if fieldname == 'bag': if like: expression = (sTiddler.bag.like(value)) else: expression = (sTiddler.bag == value) elif fieldname == 'title': if like: expression = (sTiddler.title.like(value)) else: expression = (sTiddler.title == value) elif fieldname == 'id': bag, title = value.split(':', 1) expression = and_(sTiddler.bag == bag, sTiddler.title == title) elif fieldname == 'tag': if self.in_and: tag_alias = aliased(sTag) self.query = self.query.join(tag_alias) if like: expression = (tag_alias.tag.like(value)) else: expression = (tag_alias.tag == value) else: if not self.joined_tags: self.query = self.query.join(sTag) if like: expression = (sTag.tag.like(value)) else: expression = (sTag.tag == value) self.joined_tags = True else: if like: expression = (sTag.tag.like(value)) else: expression = (sTag.tag == value) elif fieldname == 'near' and self.geo: # proximity search on geo.long, geo.lat based on # http://cdent.tiddlyspace.com/bags/cdent_public/tiddlers/Proximity%20Search.html try: lat, long, radius = [float(item) for item in value.split(',', 2)] except ValueError, exc: raise StoreError( 'failed to parse search query, malformed near: %s' % exc) field_alias1 = aliased(sField) field_alias2 = aliased(sField) distance = label(u'greatcircle', (6371000 * func.acos( func.cos( func.radians(lat)) * func.cos( func.radians(field_alias2.value)) * func.cos( func.radians(field_alias1.value) - func.radians(long)) + func.sin( func.radians(lat)) * func.sin( func.radians(field_alias2.value))))) self.query = self.query.add_columns(distance) self.query = self.query.join(field_alias1) self.query = self.query.join(field_alias2) self.query = self.query.having( u'greatcircle < %s' % radius).order_by('greatcircle') expression = and_(field_alias1.name == u'geo.long', field_alias2.name == u'geo.lat') self.limit = 20 # XXX: make this passable elif fieldname == '_limit': try: self.limit = int(value) except ValueError: pass self.query = self.query.order_by( sRevision.modified.desc()) expression = None elif fieldname == 'text': if not self.joined_text: self.query = self.query.join(sText) self.joined_text = True if self.fulltext: expression = (text_( 'MATCH(text.text) ' + "AGAINST('%s' in boolean mode)" % value)) else: value = '%' + value + '%' expression = sText.text.like(value) elif fieldname in ['modifier', 'modified', 'type']: if like: expression = (getattr(sRevision, fieldname).like(value)) else: expression = (getattr(sRevision, fieldname) == value) else: if self.in_and: field_alias = aliased(sField) self.query = self.query.join(field_alias) expression = (field_alias.name == fieldname) if like: expression = and_(expression, field_alias.value.like(value)) else: expression = and_(expression, field_alias.value == value) else: if not self.joined_fields: self.query = self.query.join(sField) expression = (sField.name == fieldname) if like: expression = and_(expression, sField.value.like(value)) else: expression = and_(expression, sField.value == value) self.joined_fields = True else: expression = (sField.name == fieldname) if like: expression = and_(expression, sField.value.like(value)) else: expression = and_(expression, sField.value == value)