def __init__(self):
super(AarhusTrafficWrapper, self).__init__()
metadatafile = AbstractComposedWrapper.getFileObject(__file__, "aarhus-traffic-points.json", "rU")
metadata = JOb(metadatafile)
basesensordescription = SensorDescription()
basesensordescription.source = "http://www.odaa.dk/api/action/datastore_search?resource_id=b3eeb0ff-c8a8-4824-99d6-e0a3747c8b0d"
basesensordescription.namespace = "http://ict-citypulse.eu/"
basesensordescription.author = "cityofaarhus" #or id of user profile
basesensordescription.sensorType = "Aarhus_Road_Traffic" #serviceCategory
basesensordescription.graphName = "aarhus_road_traffic#"
basesensordescription.sourceType = "pull_http"
basesensordescription.sourceFormat = "application/json" #MIMEs
basesensordescription.information = "Road traffic for the City of Aarhus"
# basesensordescription.cityName = "Aarhus"
# basesensordescription.countryName = "Denmark"
basesensordescription.movementBuffer = 3 # in meter, 0 means stationary
basesensordescription.maxLatency = 2
basesensordescription.updateInterval = 60 * 5 # with push an interval to send a keep alive message
basesensordescription.fields = "TIMESTAMP, avgSpeed, vehicleCount, avgMeasuredTime".split(", ")
basesensordescription.field.avgSpeed.propertyName = "AverageSpeed"
basesensordescription.field.avgSpeed.propertyURI = basesensordescription.namespace + "city#AverageSpeed"
basesensordescription.field.avgSpeed.unit = basesensordescription.namespace + "unit:km-per-hour"
basesensordescription.field.avgSpeed.min = 0
basesensordescription.field.avgSpeed.max = 250
basesensordescription.field.avgSpeed.dataType = "float"
basesensordescription.field.avgSpeed.showOnCityDashboard = True
basesensordescription.field.avgSpeed.aggregationMethod = "sax"
basesensordescription.field.avgSpeed.aggregationConfiguration = {"alphabet_size": 5, "word_length": 3,
"unit_of_window": "hours", "window_duration": 4}
basesensordescription.field.vehicleCount.propertyName = "StreetVehicleCount"
basesensordescription.field.vehicleCount.propertyURI = basesensordescription.namespace + "city#StreetVehicleCount"
basesensordescription.field.vehicleCount.unit = basesensordescription.namespace + "unit:number-of-vehicle-per-5min"
basesensordescription.field.vehicleCount.min = 0
basesensordescription.field.vehicleCount.max = 1000
basesensordescription.field.vehicleCount.dataType = "int"
basesensordescription.field.vehicleCount.showOnCityDashboard = True
basesensordescription.field.vehicleCount.aggregationMethod = "sax"
basesensordescription.field.vehicleCount.aggregationConfiguration = {"alphabet_size": 5, "word_length": 3,
"unit_of_window": "hours", "window_duration": 4}
basesensordescription.field.avgMeasuredTime.propertyName = "MeasuredTime"
# basesensordescription.field.avgMeasuredTime.propertyName = "Property"
# basesensordescription.field.avgMeasuredTime.propertyPrefix = "ssn"
basesensordescription.field.avgMeasuredTime.propertyURI = basesensordescription.namespace + "city#AvgMeasuredTime"
basesensordescription.field.avgMeasuredTime.unit = "http://purl.oclc.org/NET/muo/ucum/unit/time/minute" # basesensordescription.namespace + "unit:minutes"
basesensordescription.field.avgMeasuredTime.min = 0
basesensordescription.field.avgMeasuredTime.max = 1000
basesensordescription.field.avgMeasuredTime.dataType = "int"
basesensordescription.field.TIMESTAMP.propertyName = "MeasuredTime"
basesensordescription.field.TIMESTAMP.propertyURI = basesensordescription.namespace + "city#MeasuredTime"
basesensordescription.field.TIMESTAMP.unit = "http://purl.oclc.org/NET/muo/ucum/unit/time/minute" # basesensordescription.namespace + "unit:time#minutes"
basesensordescription.field.TIMESTAMP.min = "2012-01-01T00:00:00"
basesensordescription.field.TIMESTAMP.max = "2099-12-31T23:59:59"
basesensordescription.field.TIMESTAMP.dataType = "datetime.datetime"
basesensordescription.field.TIMESTAMP.format = "%Y-%m-%dT%H:%M:%S"
basesensordescription.field.TIMESTAMP.skip_annotation = True
basesensordescription.timestamp.inField = "TIMESTAMP"
basesensordescription.timestamp.format = "%Y-%m-%dT%H:%M:%S"
for point in metadata.result.records:
sensordescription = basesensordescription.deepcopy()
sensordescription.sensorName = "aarhus_road_traffic_" + str(point.REPORT_ID)
sensordescription.sensorID = point.REPORT_ID
sensordescription.fullSensorID = basesensordescription.namespace + "sensor/" + str(point.REPORT_ID)
sensordescription.location = "LINESTRING(%s %s, %s %s)" % (point.POINT_1_LNG, point.POINT_1_LAT, point.POINT_2_LNG, point.POINT_2_LAT)
sensordescription.cityName = [self.__getattr(point, "POINT_1_CITY", "n/a"), self.__getattr(point, "POINT_1_CITY", "n/a")]
sensordescription.countryName = [self.__getattr(point, "POINT_1_COUNTRY", "n/a"), self.__getattr(point, "POINT_2_COUNTRY", "n/a")]
sensordescription.streetName = [self.__getattr(point, "POINT_1_STREET", "n/a"), self.__getattr(point, "POINT_2_STREET", "n/a")]
sensordescription.postalCode = [self.__getattr(point, "POINT_1_POSTAL_CODE", "n/a"), self.__getattr(point, "POINT_2_POSTAL_CODE", "n/a")]
sensordescription.messagebus.routingKey = "Aarhus.Road.Traffic." + str(point.REPORT_ID)
self.addWrapper(InternalWrapper(sensordescription))
self.splitter = AarhusTrafficSplitter(self)
self.connection = AarhusTrafficConnection(self)
def __init__(self):
super(ComposedAarhusPollutionWrapper, self).__init__()
metadatafile = AbstractComposedWrapper.getFileObject(__file__, "metadata.json", "rU")
metadata = JOb(metadatafile)
basesensordescription = SensorDescription()
basesensordescription.source = "???" # TODO
basesensordescription.namespace = "http://ict-citypulse.eu/"
basesensordescription.author = "cityofaarhus"
basesensordescription.sensorType = "Aarhus_Pollution"
basesensordescription.graphName = "aarhus_pollution#"
basesensordescription.sourceType = "pull_http"
basesensordescription.sourceFormat = "application/json"
basesensordescription.information = "Pollution data for the City of Aarhus"
basesensordescription.cityName = "Aarhus"
basesensordescription.countryName = "Denmark"
basesensordescription.movementBuffer = 3
basesensordescription.maxLatency = 2
basesensordescription.updateInterval = 5 * 60
basesensordescription.fields = ["ozone", "particullate_matter", "carbon_monoxide", "sulfure_dioxide",
"nitrogen_dioxide", "longitude", "latitude", "timestamp"]
basesensordescription.field.ozone.propertyName = "Property"
basesensordescription.field.ozone.propertyPrefix = "ssn"
basesensordescription.field.ozone.propertyURI = basesensordescription.namespace + "city#Ozone"
basesensordescription.field.ozone.unit = basesensordescription.namespace + "unit:km-per-hour"
basesensordescription.field.ozone.min = 0
basesensordescription.field.ozone.max = 150
basesensordescription.field.ozone.dataType = "int"
basesensordescription.field.ozone.showOnCityDashboard = True
basesensordescription.field.vehicleCount.aggregationMethod = "sax"
basesensordescription.field.vehicleCount.aggregationConfiguration = {"alphabet_size": 5, "word_length": 3,
"unit_of_window": "hours", "window_duration": 1}
basesensordescription.field.particullate_matter.propertyName = "Property"
basesensordescription.field.particullate_matter.propertyPrefix = "ssn"
basesensordescription.field.particullate_matter.propertyURI = basesensordescription.namespace + "city#ParticleMatter"
basesensordescription.field.particullate_matter.unit = basesensordescription.namespace + "unit:number-of-vehicle-per-5min"
basesensordescription.field.particullate_matter.min = 0
basesensordescription.field.particullate_matter.max = 10000
basesensordescription.field.particullate_matter.dataType = "int"
basesensordescription.field.particullate_matter.showOnCityDashboard = True
basesensordescription.field.vehicleCount.aggregationMethod = "sax"
basesensordescription.field.vehicleCount.aggregationConfiguration = {"alphabet_size": 5, "word_length": 3,
"unit_of_window": "hours", "window_duration": 1}
basesensordescription.field.carbon_monoxide.propertyName = "Property"
basesensordescription.field.carbon_monoxide.propertyPrefix = "ssn"
basesensordescription.field.carbon_monoxide.propertyURI = basesensordescription.namespace + "city#CarbonMonoxide"
basesensordescription.field.carbon_monoxide.unit = basesensordescription.namespace + "unit:minutes"
basesensordescription.field.carbon_monoxide.min = 0
basesensordescription.field.carbon_monoxide.max = 1000
basesensordescription.field.carbon_monoxide.dataType = "int"
basesensordescription.field.vehicleCount.aggregationMethod = "sax"
basesensordescription.field.vehicleCount.aggregationConfiguration = {"alphabet_size": 5, "word_length": 3,
"unit_of_window": "hours", "window_duration": 1}
basesensordescription.field.sulfure_dioxide.propertyName = "Property"
basesensordescription.field.sulfure_dioxide.propertyPrefix = "ssn"
basesensordescription.field.sulfure_dioxide.propertyURI = basesensordescription.namespace + "city#SulfureDioxide"
basesensordescription.field.sulfure_dioxide.unit = basesensordescription.namespace + "unit:minutes"
basesensordescription.field.sulfure_dioxide.min = 0
basesensordescription.field.sulfure_dioxide.max = 1000
basesensordescription.field.sulfure_dioxide.dataType = "int"
basesensordescription.field.vehicleCount.aggregationMethod = "sax"
basesensordescription.field.vehicleCount.aggregationConfiguration = {"alphabet_size": 5, "word_length": 3,
"unit_of_window": "hours", "window_duration": 1}
basesensordescription.field.nitrogen_dioxide.propertyName = "Property"
basesensordescription.field.nitrogen_dioxide.propertyPrefix = "ssn"
basesensordescription.field.nitrogen_dioxide.propertyURI = basesensordescription.namespace + "city#NitrogenDioxide"
basesensordescription.field.nitrogen_dioxide.unit = basesensordescription.namespace + "unit:minutes"
basesensordescription.field.nitrogen_dioxide.min = 0
basesensordescription.field.nitrogen_dioxide.max = 1000
basesensordescription.field.nitrogen_dioxide.dataType = "int"
basesensordescription.field.vehicleCount.aggregationMethod = "sax"
basesensordescription.field.vehicleCount.aggregationConfiguration = {"alphabet_size": 5, "word_length": 3,
"unit_of_window": "hours", "window_duration": 1}
basesensordescription.field.longitude.propertyName = "Property"
basesensordescription.field.longitude.propertyPrefix = "ssn"
basesensordescription.field.longitude.propertyURI = basesensordescription.namespace + "city#Longitude"
basesensordescription.field.longitude.unit = basesensordescription.namespace + "unit:degrees"
basesensordescription.field.longitude.min = 0
basesensordescription.field.longitude.max = 180
basesensordescription.field.longitude.dataType = "float"
basesensordescription.field.vehicleCount.aggregationMethod = None
basesensordescription.field.latitude.propertyName = "Property"
basesensordescription.field.latitude.propertyPrefix = "ssn"
basesensordescription.field.latitude.propertyURI = basesensordescription.namespace + "city#Latitude"
basesensordescription.field.latitude.unit = basesensordescription.namespace + "unit:degrees"
basesensordescription.field.latitude.min = 0
basesensordescription.field.latitude.max = 180
basesensordescription.field.latitude.dataType = "float"
basesensordescription.field.vehicleCount.aggregationMethod = None
basesensordescription.field.timestamp.propertyName = "MeasuredTime"
basesensordescription.field.timestamp.propertyURI = basesensordescription.namespace + "city#MeasuredTime"
basesensordescription.field.timestamp.unit = basesensordescription.namespace + "unit:time"
basesensordescription.field.timestamp.min = "2012-01-01T00:00:00"
basesensordescription.field.timestamp.max = "2099-12-31T23:59:59"
basesensordescription.field.timestamp.dataType = "datetime.datetime"
basesensordescription.field.timestamp.format = "%Y-%m-%d %H:%M:%S"
basesensordescription.field.timestamp.skip_annotation = True
basesensordescription.timestamp.inField = "timestamp"
basesensordescription.timestamp.format = "%Y-%m-%d %H:%M:%S"
for point in metadata:
sensordescription = basesensordescription.deepcopy()
sensordescription.sensorName = "aarhus_pollution_" + point["id"]
sensordescription.sensorID = str(point["id"])
sensordescription.fullSensorID = basesensordescription.namespace + "sensor/Aarhus-Pollution-" + sensordescription.sensorID
sensordescription.location = "POINT(%(long)s %(lat)s)" % point
sensordescription.messagebus.routingKey = "Aarhus.Pollution." + sensordescription.sensorID
self.addWrapper(AarhusPollutionWrapper(sensordescription))
def __init__(self):
super(AarhusParkingWrapper, self).__init__()
metadatafile = AbstractComposedWrapper.getFileObject(__file__, "aarhus_parking-address.csv", "rU")
basesensordescription = SensorDescription()
basesensordescription.source = "http://www.odaa.dk/api/action/datastore_search?resource_id=2a82a145-0195-4081-a13c-b0e587e9b89c"
basesensordescription.namespace = "http://ict-citypulse.eu/"
basesensordescription.author = "cityofaarhus"
basesensordescription.sensorType = "Aarhus_Road_Parking"
basesensordescription.graphName = "aarhus_road_parking#"
basesensordescription.sourceType = "pull_http"
basesensordescription.sourceFormat = "application/xml"
basesensordescription.information = "Parking data for the City of Aarhus"
basesensordescription.cityName = "Aarhus"
basesensordescription.countryName = "Denmark"
basesensordescription.movementBuffer = 3
basesensordescription.maxLatency = 2
basesensordescription.updateInterval = 60
# basesensordescription.fields = ["vehicleCount", "totalSpaces", "garageCode"]
basesensordescription.fields = ["vehicleCount", "totalSpaces"]
# basesensordescription.field.garageCode.propertyName = "Property"
# basesensordescription.field.garageCode.propertyPrefix = "ssn"
# basesensordescription.field.garageCode.propertyURI = basesensordescription.namespace + "city#Garagecode"
# basesensordescription.field.garageCode.min = ""
# basesensordescription.field.garageCode.max = ""
# basesensordescription.field.garageCode.dataType = "str"
basesensordescription.field.totalSpaces.propertyName = "ParkingCapacity"
basesensordescription.field.totalSpaces.propertyURI = basesensordescription.namespace + "city#TotalSpaces"
# basesensordescription.field.totalSpaces.unit = "http://muo.net/Number"
basesensordescription.field.totalSpaces.min = 0
basesensordescription.field.totalSpaces.max = 10000
basesensordescription.field.totalSpaces.dataType = "int"
basesensordescription.field.totalSpaces.showOnCityDashboard = True
basesensordescription.field.totalSpaces.aggregationMethod = None
basesensordescription.field.vehicleCount.propertyName = "ParkingVehicleCount"
basesensordescription.field.vehicleCount.propertyURI = basesensordescription.namespace + "city#ParkingVehicleCount"
basesensordescription.field.vehicleCount.unit = basesensordescription.namespace + "unit:number-of-vehicle-per-1min"
basesensordescription.field.vehicleCount.min = 0
basesensordescription.field.vehicleCount.max = "@totalSpaces"
basesensordescription.field.vehicleCount.dataType = "int"
basesensordescription.field.vehicleCount.showOnCityDashboard = True
basesensordescription.field.vehicleCount.aggregationMethod = "sax"
basesensordescription.field.vehicleCount.aggregationConfiguration = {"alphabet_size": 5, "word_length": 3,
"unit_of_window": "hours", "window_duration": 1}
# basesensordescription.timestamp.inField = "updatetime"
basesensordescription.timestamp.format = "%Y-%m-%d %H:%M:%S"
metadata = csv.DictReader(metadatafile)
for row in metadata:
sensordescription = basesensordescription.deepcopy()
sensordescription.sensorName = "aarhus_road_parking_" + nicename(row['garagecode'])
sensordescription.sensorID = nicename(row['garagecode'])
sensordescription.fullSensorID = basesensordescription.namespace + "sensor/" + sensordescription.sensorID
sensordescription.location = "POINT(%s %s)" % (row['longitude'], row['latitude'])
sensordescription.messagebus.routingKey = "Aarhus.Road.Parking." + sensordescription.sensorID
sensordescription.streetName = self.__getattr(row, "street", "n/a")
sensordescription.postalCode = self.__getattr(row, "postalcode", "n/a")
# garage code only as sensorID embedded in an URI. Possibilities to read it unknown at this point.
# sensordescription.staticproperties.garageCode.propertyName = "Property"
# sensordescription.staticproperties.garageCode.propertyPrefix = "ssn"
# sensordescription.staticproperties.garageCode.propertyURI = basesensordescription.namespace + "city#Garagecode"
# sensordescription.staticproperties.garageCode.dataType = "str"
# sensordescription.staticproperties.garageCode.value = sensordescription.sensorID
self.addWrapper(InternalWrapper(sensordescription))
self.connection = HttpPullConnection(self, basesensordescription.source)
self.splitter = AarhusParkingSplitterJson(self)
