rdflib package¶
Subpackages¶
- rdflib.extras package
- Submodules
- rdflib.extras.cmdlineutils module
- rdflib.extras.describer module
- rdflib.extras.external_graph_libs module
- rdflib.extras.infixowl module
- OWL Constructor DL Syntax Manchester OWL Syntax Example
AllClasses()
AllDifferent()
AllProperties()
AnnotatableTerms
BooleanClass
Callable
CastClass()
Class
Class.__and__()
Class.__eq__()
Class.__hash__()
Class.__iadd__()
Class.__init__()
Class.__invert__()
Class.__isub__()
Class.__module__
Class.__or__()
Class.__repr__()
Class.annotation
Class.complementOf
Class.disjointWith
Class.equivalentClass
Class.extent
Class.extentQuery
Class.isPrimitive()
Class.parents
Class.serialize()
Class.setupNounAnnotations()
Class.subClassOf
Class.subSumpteeIds()
ClassNamespaceFactory
CommonNSBindings()
ComponentTerms()
DeepClassClear()
EnumeratedClass
GetIdentifiedClasses()
Individual
Infix
MalformedClass
MalformedClassError
OWLRDFListProxy
OWLRDFListProxy.__contains__()
OWLRDFListProxy.__delitem__()
OWLRDFListProxy.__dict__
OWLRDFListProxy.__eq__()
OWLRDFListProxy.__getitem__()
OWLRDFListProxy.__hash__
OWLRDFListProxy.__iadd__()
OWLRDFListProxy.__init__()
OWLRDFListProxy.__iter__()
OWLRDFListProxy.__len__()
OWLRDFListProxy.__module__
OWLRDFListProxy.__setitem__()
OWLRDFListProxy.__weakref__
OWLRDFListProxy.append()
OWLRDFListProxy.clear()
OWLRDFListProxy.index()
Ontology
Property
Restriction
Restriction.__eq__()
Restriction.__hash__()
Restriction.__init__()
Restriction.__module__
Restriction.__repr__()
Restriction.allValuesFrom
Restriction.cardinality
Restriction.hasValue
Restriction.isPrimitive()
Restriction.maxCardinality
Restriction.minCardinality
Restriction.onProperty
Restriction.restrictionKind()
Restriction.restrictionKinds
Restriction.serialize()
Restriction.someValuesFrom
classOrIdentifier()
classOrTerm()
generateQName()
manchesterSyntax()
propertyOrIdentifier()
- rdflib.extras.shacl module
- Module contents
- rdflib.namespace package
- Module contents
- Namespace Utilities
BRICK
BRICK.AED
BRICK.AHU
BRICK.Ablutions_Room
BRICK.Absorption_Chiller
BRICK.Acceleration_Time_Setpoint
BRICK.Access_Control_Equipment
BRICK.Access_Reader
BRICK.Active_Chilled_Beam
BRICK.Active_Power_Sensor
BRICK.Adjust_Sensor
BRICK.Air
BRICK.Air_Alarm
BRICK.Air_Differential_Pressure_Sensor
BRICK.Air_Differential_Pressure_Setpoint
BRICK.Air_Diffuser
BRICK.Air_Enthalpy_Sensor
BRICK.Air_Flow_Deadband_Setpoint
BRICK.Air_Flow_Demand_Setpoint
BRICK.Air_Flow_Loss_Alarm
BRICK.Air_Flow_Sensor
BRICK.Air_Flow_Setpoint
BRICK.Air_Flow_Setpoint_Limit
BRICK.Air_Grains_Sensor
BRICK.Air_Handler_Unit
BRICK.Air_Handling_Unit
BRICK.Air_Humidity_Setpoint
BRICK.Air_Loop
BRICK.Air_Plenum
BRICK.Air_Quality_Sensor
BRICK.Air_Static_Pressure_Step_Parameter
BRICK.Air_System
BRICK.Air_Temperature_Alarm
BRICK.Air_Temperature_Integral_Time_Parameter
BRICK.Air_Temperature_Sensor
BRICK.Air_Temperature_Setpoint
BRICK.Air_Temperature_Setpoint_Limit
BRICK.Air_Temperature_Step_Parameter
BRICK.Air_Wet_Bulb_Temperature_Sensor
BRICK.Alarm
BRICK.Alarm_Delay_Parameter
BRICK.Angle_Sensor
BRICK.Auditorium
BRICK.Automated_External_Defibrillator
BRICK.Automatic_Mode_Command
BRICK.Availability_Status
BRICK.Average_Cooling_Demand_Sensor
BRICK.Average_Discharge_Air_Flow_Sensor
BRICK.Average_Exhaust_Air_Static_Pressure_Sensor
BRICK.Average_Heating_Demand_Sensor
BRICK.Average_Supply_Air_Flow_Sensor
BRICK.Average_Zone_Air_Temperature_Sensor
BRICK.Baseboard_Radiator
BRICK.Basement
BRICK.Battery
BRICK.Battery_Energy_Storage_System
BRICK.Battery_Room
BRICK.Battery_Voltage_Sensor
BRICK.Bench_Space
BRICK.Blowdown_Water
BRICK.Boiler
BRICK.Booster_Fan
BRICK.Box_Mode_Command
BRICK.Break_Room
BRICK.Breaker_Panel
BRICK.Breakroom
BRICK.Broadcast_Room
BRICK.Building
BRICK.Building_Air
BRICK.Building_Air_Humidity_Setpoint
BRICK.Building_Air_Static_Pressure_Sensor
BRICK.Building_Air_Static_Pressure_Setpoint
BRICK.Building_Chilled_Water_Meter
BRICK.Building_Electrical_Meter
BRICK.Building_Gas_Meter
BRICK.Building_Hot_Water_Meter
BRICK.Building_Meter
BRICK.Building_Water_Meter
BRICK.Bus_Riser
BRICK.Bypass_Air
BRICK.Bypass_Air_Flow_Sensor
BRICK.Bypass_Air_Humidity_Setpoint
BRICK.Bypass_Command
BRICK.Bypass_Valve
BRICK.Bypass_Water
BRICK.Bypass_Water_Flow_Sensor
BRICK.Bypass_Water_Flow_Setpoint
BRICK.CAV
BRICK.CO
BRICK.CO2
BRICK.CO2_Alarm
BRICK.CO2_Differential_Sensor
BRICK.CO2_Level_Sensor
BRICK.CO2_Sensor
BRICK.CO2_Setpoint
BRICK.CO_Differential_Sensor
BRICK.CO_Level_Sensor
BRICK.CO_Sensor
BRICK.CRAC
BRICK.Cafeteria
BRICK.Camera
BRICK.Capacity_Sensor
BRICK.Ceiling_Fan
BRICK.Centrifugal_Chiller
BRICK.Change_Filter_Alarm
BRICK.Chilled_Beam
BRICK.Chilled_Water
BRICK.Chilled_Water_Coil
BRICK.Chilled_Water_Differential_Pressure_Deadband_Setpoint
BRICK.Chilled_Water_Differential_Pressure_Integral_Time_Parameter
BRICK.Chilled_Water_Differential_Pressure_Load_Shed_Reset_Status
BRICK.Chilled_Water_Differential_Pressure_Load_Shed_Setpoint
BRICK.Chilled_Water_Differential_Pressure_Load_Shed_Status
BRICK.Chilled_Water_Differential_Pressure_Proportional_Band_Parameter
BRICK.Chilled_Water_Differential_Pressure_Sensor
BRICK.Chilled_Water_Differential_Pressure_Setpoint
BRICK.Chilled_Water_Differential_Pressure_Step_Parameter
BRICK.Chilled_Water_Differential_Temperature_Sensor
BRICK.Chilled_Water_Discharge_Flow_Sensor
BRICK.Chilled_Water_Discharge_Flow_Setpoint
BRICK.Chilled_Water_Flow_Sensor
BRICK.Chilled_Water_Flow_Setpoint
BRICK.Chilled_Water_Loop
BRICK.Chilled_Water_Meter
BRICK.Chilled_Water_Pump
BRICK.Chilled_Water_Pump_Differential_Pressure_Deadband_Setpoint
BRICK.Chilled_Water_Return_Flow_Sensor
BRICK.Chilled_Water_Return_Temperature_Sensor
BRICK.Chilled_Water_Static_Pressure_Setpoint
BRICK.Chilled_Water_Supply_Flow_Sensor
BRICK.Chilled_Water_Supply_Flow_Setpoint
BRICK.Chilled_Water_Supply_Temperature_Sensor
BRICK.Chilled_Water_System
BRICK.Chilled_Water_System_Enable_Command
BRICK.Chilled_Water_Temperature_Sensor
BRICK.Chilled_Water_Temperature_Setpoint
BRICK.Chilled_Water_Valve
BRICK.Chiller
BRICK.Class
BRICK.Close_Limit
BRICK.Coil
BRICK.Cold_Box
BRICK.Coldest_Zone_Air_Temperature_Sensor
BRICK.Collection
BRICK.Collection_Basin_Water
BRICK.Collection_Basin_Water_Heater
BRICK.Collection_Basin_Water_Level_Alarm
BRICK.Collection_Basin_Water_Level_Sensor
BRICK.Collection_Basin_Water_Temperature_Sensor
BRICK.Command
BRICK.Common_Space
BRICK.Communication_Loss_Alarm
BRICK.Compressor
BRICK.Computer_Room_Air_Conditioning
BRICK.Concession
BRICK.Condensate_Leak_Alarm
BRICK.Condenser
BRICK.Condenser_Heat_Exchanger
BRICK.Condenser_Water
BRICK.Condenser_Water_Bypass_Valve
BRICK.Condenser_Water_Isolation_Valve
BRICK.Condenser_Water_Pump
BRICK.Condenser_Water_System
BRICK.Condenser_Water_Temperature_Sensor
BRICK.Condenser_Water_Valve
BRICK.Condensing_Natural_Gas_Boiler
BRICK.Conductivity_Sensor
BRICK.Conference_Room
BRICK.Constant_Air_Volume_Box
BRICK.Contact_Sensor
BRICK.Control_Room
BRICK.Cooling_Coil
BRICK.Cooling_Command
BRICK.Cooling_Demand_Sensor
BRICK.Cooling_Demand_Setpoint
BRICK.Cooling_Discharge_Air_Flow_Setpoint
BRICK.Cooling_Discharge_Air_Temperature_Deadband_Setpoint
BRICK.Cooling_Discharge_Air_Temperature_Integral_Time_Parameter
BRICK.Cooling_Discharge_Air_Temperature_Proportional_Band_Parameter
BRICK.Cooling_Start_Stop_Status
BRICK.Cooling_Supply_Air_Flow_Setpoint
BRICK.Cooling_Supply_Air_Temperature_Deadband_Setpoint
BRICK.Cooling_Supply_Air_Temperature_Integral_Time_Parameter
BRICK.Cooling_Supply_Air_Temperature_Proportional_Band_Parameter
BRICK.Cooling_Temperature_Setpoint
BRICK.Cooling_Tower
BRICK.Cooling_Tower_Fan
BRICK.Cooling_Valve
BRICK.Copy_Room
BRICK.Core_Temperature_Sensor
BRICK.Core_Temperature_Setpoint
BRICK.Cubicle
BRICK.Current_Imbalance_Sensor
BRICK.Current_Limit
BRICK.Current_Output_Sensor
BRICK.Current_Sensor
BRICK.Curtailment_Override_Command
BRICK.Cycle_Alarm
BRICK.DC_Bus_Voltage_Sensor
BRICK.DOAS
BRICK.Damper
BRICK.Damper_Command
BRICK.Damper_Position_Command
BRICK.Damper_Position_Sensor
BRICK.Damper_Position_Setpoint
BRICK.Deadband_Setpoint
BRICK.Deceleration_Time_Setpoint
BRICK.Dedicated_Outdoor_Air_System_Unit
BRICK.Dehumidification_Start_Stop_Status
BRICK.Deionised_Water_Conductivity_Sensor
BRICK.Deionised_Water_Level_Sensor
BRICK.Deionized_Water
BRICK.Deionized_Water_Alarm
BRICK.Delay_Parameter
BRICK.Demand_Sensor
BRICK.Demand_Setpoint
BRICK.Derivative_Gain_Parameter
BRICK.Derivative_Time_Parameter
BRICK.Detention_Room
BRICK.Dew_Point_Setpoint
BRICK.Dewpoint_Sensor
BRICK.Differential_Air_Temperature_Setpoint
BRICK.Differential_Pressure_Bypass_Valve
BRICK.Differential_Pressure_Deadband_Setpoint
BRICK.Differential_Pressure_Integral_Time_Parameter
BRICK.Differential_Pressure_Load_Shed_Status
BRICK.Differential_Pressure_Proportional_Band
BRICK.Differential_Pressure_Sensor
BRICK.Differential_Pressure_Setpoint
BRICK.Differential_Pressure_Setpoint_Limit
BRICK.Differential_Pressure_Step_Parameter
BRICK.Differential_Speed_Sensor
BRICK.Differential_Speed_Setpoint
BRICK.Differential_Supply_Return_Water_Temperature_Sensor
BRICK.Dimmer
BRICK.Direct_Expansion_Cooling_Coil
BRICK.Direct_Expansion_Heating_Coil
BRICK.Direction_Command
BRICK.Direction_Sensor
BRICK.Direction_Status
BRICK.Disable_Command
BRICK.Disable_Differential_Enthalpy_Command
BRICK.Disable_Differential_Temperature_Command
BRICK.Disable_Fixed_Enthalpy_Command
BRICK.Disable_Fixed_Temperature_Command
BRICK.Disable_Hot_Water_System_Outside_Air_Temperature_Setpoint
BRICK.Disable_Status
BRICK.Discharge_Air
BRICK.Discharge_Air_Dewpoint_Sensor
BRICK.Discharge_Air_Duct_Pressure_Status
BRICK.Discharge_Air_Flow_Demand_Setpoint
BRICK.Discharge_Air_Flow_High_Reset_Setpoint
BRICK.Discharge_Air_Flow_Low_Reset_Setpoint
BRICK.Discharge_Air_Flow_Reset_Setpoint
BRICK.Discharge_Air_Flow_Sensor
BRICK.Discharge_Air_Flow_Setpoint
BRICK.Discharge_Air_Humidity_Sensor
BRICK.Discharge_Air_Humidity_Setpoint
BRICK.Discharge_Air_Smoke_Detection_Alarm
BRICK.Discharge_Air_Static_Pressure_Deadband_Setpoint
BRICK.Discharge_Air_Static_Pressure_Integral_Time_Parameter
BRICK.Discharge_Air_Static_Pressure_Proportional_Band_Parameter
BRICK.Discharge_Air_Static_Pressure_Sensor
BRICK.Discharge_Air_Static_Pressure_Setpoint
BRICK.Discharge_Air_Static_Pressure_Step_Parameter
BRICK.Discharge_Air_Temperature_Alarm
BRICK.Discharge_Air_Temperature_Cooling_Setpoint
BRICK.Discharge_Air_Temperature_Deadband_Setpoint
BRICK.Discharge_Air_Temperature_Heating_Setpoint
BRICK.Discharge_Air_Temperature_High_Reset_Setpoint
BRICK.Discharge_Air_Temperature_Low_Reset_Setpoint
BRICK.Discharge_Air_Temperature_Proportional_Band_Parameter
BRICK.Discharge_Air_Temperature_Reset_Differential_Setpoint
BRICK.Discharge_Air_Temperature_Sensor
BRICK.Discharge_Air_Temperature_Setpoint
BRICK.Discharge_Air_Temperature_Setpoint_Limit
BRICK.Discharge_Air_Temperature_Step_Parameter
BRICK.Discharge_Air_Velocity_Pressure_Sensor
BRICK.Discharge_Chilled_Water
BRICK.Discharge_Fan
BRICK.Discharge_Hot_Water
BRICK.Discharge_Water
BRICK.Discharge_Water_Differential_Pressure_Deadband_Setpoint
BRICK.Discharge_Water_Differential_Pressure_Integral_Time_Parameter
BRICK.Discharge_Water_Differential_Pressure_Proportional_Band_Parameter
BRICK.Discharge_Water_Flow_Sensor
BRICK.Discharge_Water_Flow_Setpoint
BRICK.Discharge_Water_Temperature_Alarm
BRICK.Discharge_Water_Temperature_Proportional_Band_Parameter
BRICK.Discharge_Water_Temperature_Sensor
BRICK.Discharge_Water_Temperature_Setpoint
BRICK.Disconnect_Switch
BRICK.Displacement_Flow_Air_Diffuser
BRICK.Distribution_Frame
BRICK.Domestic_Hot_Water_Supply_Temperature_Sensor
BRICK.Domestic_Hot_Water_Supply_Temperature_Setpoint
BRICK.Domestic_Hot_Water_System
BRICK.Domestic_Hot_Water_System_Enable_Command
BRICK.Domestic_Hot_Water_Temperature_Setpoint
BRICK.Domestic_Hot_Water_Valve
BRICK.Domestic_Water
BRICK.Domestic_Water_Loop
BRICK.Drench_Hose
BRICK.Drive_Ready_Status
BRICK.Duration_Sensor
BRICK.ESS_Panel
BRICK.EconCycle_Start_Stop_Status
BRICK.Economizer
BRICK.Economizer_Damper
BRICK.Effective_Air_Temperature_Cooling_Setpoint
BRICK.Effective_Air_Temperature_Heating_Setpoint
BRICK.Effective_Air_Temperature_Setpoint
BRICK.Effective_Discharge_Air_Temperature_Setpoint
BRICK.Effective_Return_Air_Temperature_Setpoint
BRICK.Effective_Room_Air_Temperature_Setpoint
BRICK.Effective_Supply_Air_Temperature_Setpoint
BRICK.Effective_Zone_Air_Temperature_Setpoint
BRICK.Electric_Baseboard_Radiator
BRICK.Electric_Boiler
BRICK.Electric_Radiator
BRICK.Electrical_Equipment
BRICK.Electrical_Meter
BRICK.Electrical_Power_Sensor
BRICK.Electrical_Room
BRICK.Electrical_System
BRICK.Elevator
BRICK.Elevator_Shaft
BRICK.Elevator_Space
BRICK.Embedded_Surface_System_Panel
BRICK.Embedded_Temperature_Sensor
BRICK.Embedded_Temperature_Setpoint
BRICK.Emergency_Air_Flow_System
BRICK.Emergency_Air_Flow_System_Status
BRICK.Emergency_Alarm
BRICK.Emergency_Generator_Alarm
BRICK.Emergency_Generator_Status
BRICK.Emergency_Phone
BRICK.Emergency_Power_Off_System
BRICK.Emergency_Power_Off_System_Activated_By_High_Temperature_Status
BRICK.Emergency_Power_Off_System_Activated_By_Leak_Detection_System_Status
BRICK.Emergency_Power_Off_System_Status
BRICK.Emergency_Push_Button_Status
BRICK.Emergency_Wash_Station
BRICK.Employee_Entrance_Lobby
BRICK.Enable_Command
BRICK.Enable_Differential_Enthalpy_Command
BRICK.Enable_Differential_Temperature_Command
BRICK.Enable_Fixed_Enthalpy_Command
BRICK.Enable_Fixed_Temperature_Command
BRICK.Enable_Hot_Water_System_Outside_Air_Temperature_Setpoint
BRICK.Enable_Status
BRICK.Enclosed_Office
BRICK.Energy_Generation_System
BRICK.Energy_Sensor
BRICK.Energy_Storage
BRICK.Energy_Storage_System
BRICK.Energy_System
BRICK.Energy_Usage_Sensor
BRICK.Energy_Zone
BRICK.Entering_Water
BRICK.Entering_Water_Flow_Sensor
BRICK.Entering_Water_Flow_Setpoint
BRICK.Entering_Water_Temperature_Sensor
BRICK.Entering_Water_Temperature_Setpoint
BRICK.Enthalpy_Sensor
BRICK.Enthalpy_Setpoint
BRICK.Entrance
BRICK.Environment_Box
BRICK.Equipment
BRICK.Equipment_Room
BRICK.Evaporative_Heat_Exchanger
BRICK.Even_Month_Status
BRICK.Exercise_Room
BRICK.Exhaust_Air
BRICK.Exhaust_Air_Dewpoint_Sensor
BRICK.Exhaust_Air_Differential_Pressure_Sensor
BRICK.Exhaust_Air_Differential_Pressure_Setpoint
BRICK.Exhaust_Air_Flow_Integral_Time_Parameter
BRICK.Exhaust_Air_Flow_Proportional_Band_Parameter
BRICK.Exhaust_Air_Flow_Sensor
BRICK.Exhaust_Air_Flow_Setpoint
BRICK.Exhaust_Air_Humidity_Sensor
BRICK.Exhaust_Air_Humidity_Setpoint
BRICK.Exhaust_Air_Stack_Flow_Deadband_Setpoint
BRICK.Exhaust_Air_Stack_Flow_Integral_Time_Parameter
BRICK.Exhaust_Air_Stack_Flow_Proportional_Band_Parameter
BRICK.Exhaust_Air_Stack_Flow_Sensor
BRICK.Exhaust_Air_Stack_Flow_Setpoint
BRICK.Exhaust_Air_Static_Pressure_Proportional_Band_Parameter
BRICK.Exhaust_Air_Static_Pressure_Sensor
BRICK.Exhaust_Air_Static_Pressure_Setpoint
BRICK.Exhaust_Air_Temperature_Sensor
BRICK.Exhaust_Air_Velocity_Pressure_Sensor
BRICK.Exhaust_Damper
BRICK.Exhaust_Fan
BRICK.Exhaust_Fan_Disable_Command
BRICK.Exhaust_Fan_Enable_Command
BRICK.Eye_Wash_Station
BRICK.FCU
BRICK.Failure_Alarm
BRICK.Fan
BRICK.Fan_Coil_Unit
BRICK.Fan_On_Off_Status
BRICK.Fan_Status
BRICK.Fan_VFD
BRICK.Fault_Reset_Command
BRICK.Fault_Status
BRICK.Field_Of_Play
BRICK.Filter
BRICK.Filter_Differential_Pressure_Sensor
BRICK.Filter_Reset_Command
BRICK.Filter_Status
BRICK.Final_Filter
BRICK.Fire_Control_Panel
BRICK.Fire_Safety_Equipment
BRICK.Fire_Safety_System
BRICK.Fire_Sensor
BRICK.Fire_Zone
BRICK.First_Aid_Kit
BRICK.First_Aid_Room
BRICK.Floor
BRICK.Flow_Sensor
BRICK.Flow_Setpoint
BRICK.Fluid
BRICK.Food_Service_Room
BRICK.Formaldehyde_Level_Sensor
BRICK.Freeze_Status
BRICK.Freezer
BRICK.Frequency_Command
BRICK.Frequency_Sensor
BRICK.Fresh_Air_Fan
BRICK.Fresh_Air_Setpoint_Limit
BRICK.Frost
BRICK.Frost_Sensor
BRICK.Fuel_Oil
BRICK.Fume_Hood
BRICK.Fume_Hood_Air_Flow_Sensor
BRICK.Furniture
BRICK.Gain_Parameter
BRICK.Gas
BRICK.Gas_Distribution
BRICK.Gas_Meter
BRICK.Gas_Sensor
BRICK.Gas_System
BRICK.Gas_Valve
BRICK.Gasoline
BRICK.Gatehouse
BRICK.Generator_Room
BRICK.Glycol
BRICK.HVAC_Equipment
BRICK.HVAC_System
BRICK.HVAC_Zone
BRICK.HX
BRICK.Hail
BRICK.Hail_Sensor
BRICK.Hallway
BRICK.Hazardous_Materials_Storage
BRICK.Heat_Exchanger
BRICK.Heat_Exchanger_Supply_Water_Temperature_Sensor
BRICK.Heat_Exchanger_System_Enable_Status
BRICK.Heat_Recovery_Hot_Water_System
BRICK.Heat_Sensor
BRICK.Heat_Wheel
BRICK.Heat_Wheel_VFD
BRICK.Heating_Coil
BRICK.Heating_Command
BRICK.Heating_Demand_Sensor
BRICK.Heating_Demand_Setpoint
BRICK.Heating_Discharge_Air_Flow_Setpoint
BRICK.Heating_Discharge_Air_Temperature_Deadband_Setpoint
BRICK.Heating_Discharge_Air_Temperature_Integral_Time_Parameter
BRICK.Heating_Discharge_Air_Temperature_Proportional_Band_Parameter
BRICK.Heating_Start_Stop_Status
BRICK.Heating_Supply_Air_Flow_Setpoint
BRICK.Heating_Supply_Air_Temperature_Deadband_Setpoint
BRICK.Heating_Supply_Air_Temperature_Integral_Time_Parameter
BRICK.Heating_Supply_Air_Temperature_Proportional_Band_Parameter
BRICK.Heating_Temperature_Setpoint
BRICK.Heating_Thermal_Power_Sensor
BRICK.Heating_Valve
BRICK.Heating_Ventilation_Air_Conditioning_System
BRICK.High_CO2_Alarm
BRICK.High_Discharge_Air_Temperature_Alarm
BRICK.High_Head_Pressure_Alarm
BRICK.High_Humidity_Alarm
BRICK.High_Humidity_Alarm_Parameter
BRICK.High_Outside_Air_Lockout_Temperature_Differential_Parameter
BRICK.High_Return_Air_Temperature_Alarm
BRICK.High_Static_Pressure_Cutout_Setpoint_Limit
BRICK.High_Temperature_Alarm
BRICK.High_Temperature_Alarm_Parameter
BRICK.High_Temperature_Hot_Water_Return_Temperature_Sensor
BRICK.High_Temperature_Hot_Water_Supply_Temperature_Sensor
BRICK.Hold_Status
BRICK.Hospitality_Box
BRICK.Hot_Box
BRICK.Hot_Water
BRICK.Hot_Water_Baseboard_Radiator
BRICK.Hot_Water_Coil
BRICK.Hot_Water_Differential_Pressure_Deadband_Setpoint
BRICK.Hot_Water_Differential_Pressure_Integral_Time_Parameter
BRICK.Hot_Water_Differential_Pressure_Load_Shed_Reset_Status
BRICK.Hot_Water_Differential_Pressure_Load_Shed_Status
BRICK.Hot_Water_Differential_Pressure_Proportional_Band_Parameter
BRICK.Hot_Water_Differential_Pressure_Sensor
BRICK.Hot_Water_Differential_Pressure_Setpoint
BRICK.Hot_Water_Differential_Temperature_Sensor
BRICK.Hot_Water_Discharge_Flow_Sensor
BRICK.Hot_Water_Discharge_Flow_Setpoint
BRICK.Hot_Water_Discharge_Temperature_Load_Shed_Status
BRICK.Hot_Water_Flow_Sensor
BRICK.Hot_Water_Flow_Setpoint
BRICK.Hot_Water_Loop
BRICK.Hot_Water_Meter
BRICK.Hot_Water_Pump
BRICK.Hot_Water_Radiator
BRICK.Hot_Water_Return_Flow_Sensor
BRICK.Hot_Water_Return_Temperature_Sensor
BRICK.Hot_Water_Static_Pressure_Setpoint
BRICK.Hot_Water_Supply_Flow_Sensor
BRICK.Hot_Water_Supply_Flow_Setpoint
BRICK.Hot_Water_Supply_Temperature_High_Reset_Setpoint
BRICK.Hot_Water_Supply_Temperature_Load_Shed_Status
BRICK.Hot_Water_Supply_Temperature_Low_Reset_Setpoint
BRICK.Hot_Water_Supply_Temperature_Sensor
BRICK.Hot_Water_System
BRICK.Hot_Water_System_Enable_Command
BRICK.Hot_Water_Temperature_Setpoint
BRICK.Hot_Water_Usage_Sensor
BRICK.Hot_Water_Valve
BRICK.Humidification_Start_Stop_Status
BRICK.Humidifier
BRICK.Humidifier_Fault_Status
BRICK.Humidify_Command
BRICK.Humidity_Alarm
BRICK.Humidity_Parameter
BRICK.Humidity_Sensor
BRICK.Humidity_Setpoint
BRICK.Humidity_Tolerance_Parameter
BRICK.IDF
BRICK.Ice
BRICK.Ice_Tank_Leaving_Water_Temperature_Sensor
BRICK.Illuminance_Sensor
BRICK.Imbalance_Sensor
BRICK.Induction_Unit
BRICK.Information_Area
BRICK.Inside_Face_Surface_Temperature_Sensor
BRICK.Inside_Face_Surface_Temperature_Setpoint
BRICK.Intake_Air_Filter
BRICK.Intake_Air_Temperature_Sensor
BRICK.Integral_Gain_Parameter
BRICK.Integral_Time_Parameter
BRICK.Intercom_Equipment
BRICK.Interface
BRICK.Intrusion_Detection_Equipment
BRICK.Inverter
BRICK.Isolation_Valve
BRICK.Janitor_Room
BRICK.Jet_Nozzle_Air_Diffuser
BRICK.Laboratory
BRICK.Laminar_Flow_Air_Diffuser
BRICK.Last_Fault_Code_Status
BRICK.Lead_Lag_Command
BRICK.Lead_Lag_Status
BRICK.Lead_On_Off_Command
BRICK.Leak_Alarm
BRICK.Leaving_Water
BRICK.Leaving_Water_Flow_Sensor
BRICK.Leaving_Water_Flow_Setpoint
BRICK.Leaving_Water_Temperature_Sensor
BRICK.Leaving_Water_Temperature_Setpoint
BRICK.Library
BRICK.Lighting
BRICK.Lighting_Equipment
BRICK.Lighting_System
BRICK.Lighting_Zone
BRICK.Limit
BRICK.Liquid
BRICK.Liquid_CO2
BRICK.Liquid_Detection_Alarm
BRICK.Load_Current_Sensor
BRICK.Load_Parameter
BRICK.Load_Setpoint
BRICK.Load_Shed_Command
BRICK.Load_Shed_Differential_Pressure_Setpoint
BRICK.Load_Shed_Setpoint
BRICK.Load_Shed_Status
BRICK.Loading_Dock
BRICK.Lobby
BRICK.Locally_On_Off_Status
BRICK.Location
BRICK.Lockout_Status
BRICK.Lockout_Temperature_Differential_Parameter
BRICK.Loop
BRICK.Lounge
BRICK.Louver
BRICK.Low_Freeze_Protect_Temperature_Parameter
BRICK.Low_Humidity_Alarm
BRICK.Low_Humidity_Alarm_Parameter
BRICK.Low_Outside_Air_Lockout_Temperature_Differential_Parameter
BRICK.Low_Outside_Air_Temperature_Enable_Differential_Sensor
BRICK.Low_Outside_Air_Temperature_Enable_Setpoint
BRICK.Low_Return_Air_Temperature_Alarm
BRICK.Low_Suction_Pressure_Alarm
BRICK.Low_Temperature_Alarm
BRICK.Low_Temperature_Alarm_Parameter
BRICK.Lowest_Exhaust_Air_Static_Pressure_Sensor
BRICK.Luminaire
BRICK.Luminaire_Driver
BRICK.Luminance_Alarm
BRICK.Luminance_Command
BRICK.Luminance_Sensor
BRICK.Luminance_Setpoint
BRICK.MAU
BRICK.MDF
BRICK.Mail_Room
BRICK.Maintenance_Mode_Command
BRICK.Maintenance_Required_Alarm
BRICK.Majlis
BRICK.Makeup_Air_Unit
BRICK.Makeup_Water
BRICK.Makeup_Water_Valve
BRICK.Manual_Auto_Status
BRICK.Massage_Room
BRICK.Max_Air_Flow_Setpoint_Limit
BRICK.Max_Air_Temperature_Setpoint
BRICK.Max_Chilled_Water_Differential_Pressure_Setpoint_Limit
BRICK.Max_Cooling_Discharge_Air_Flow_Setpoint_Limit
BRICK.Max_Cooling_Supply_Air_Flow_Setpoint_Limit
BRICK.Max_Discharge_Air_Static_Pressure_Setpoint_Limit
BRICK.Max_Discharge_Air_Temperature_Setpoint_Limit
BRICK.Max_Frequency_Command
BRICK.Max_Heating_Discharge_Air_Flow_Setpoint_Limit
BRICK.Max_Heating_Supply_Air_Flow_Setpoint_Limit
BRICK.Max_Hot_Water_Differential_Pressure_Setpoint_Limit
BRICK.Max_Limit
BRICK.Max_Load_Setpoint
BRICK.Max_Occupied_Cooling_Discharge_Air_Flow_Setpoint_Limit
BRICK.Max_Occupied_Cooling_Supply_Air_Flow_Setpoint_Limit
BRICK.Max_Occupied_Heating_Discharge_Air_Flow_Setpoint_Limit
BRICK.Max_Occupied_Heating_Supply_Air_Flow_Setpoint_Limit
BRICK.Max_Position_Setpoint_Limit
BRICK.Max_Speed_Setpoint_Limit
BRICK.Max_Static_Pressure_Setpoint_Limit
BRICK.Max_Supply_Air_Static_Pressure_Setpoint_Limit
BRICK.Max_Temperature_Setpoint_Limit
BRICK.Max_Unoccupied_Cooling_Discharge_Air_Flow_Setpoint_Limit
BRICK.Max_Unoccupied_Cooling_Supply_Air_Flow_Setpoint_Limit
BRICK.Max_Unoccupied_Heating_Discharge_Air_Flow_Setpoint_Limit
BRICK.Max_Unoccupied_Heating_Supply_Air_Flow_Setpoint_Limit
BRICK.Max_Water_Level_Alarm
BRICK.Max_Water_Temperature_Setpoint
BRICK.Measurable
BRICK.Mechanical_Room
BRICK.Media_Hot_Desk
BRICK.Media_Production_Room
BRICK.Media_Room
BRICK.Medical_Room
BRICK.Medium_Temperature_Hot_Water_Differential_Pressure_Load_Shed_Reset_Status
BRICK.Medium_Temperature_Hot_Water_Differential_Pressure_Load_Shed_Setpoint
BRICK.Medium_Temperature_Hot_Water_Differential_Pressure_Load_Shed_Status
BRICK.Medium_Temperature_Hot_Water_Differential_Pressure_Sensor
BRICK.Medium_Temperature_Hot_Water_Differential_Pressure_Setpoint
BRICK.Medium_Temperature_Hot_Water_Discharge_Temperature_High_Reset_Setpoint
BRICK.Medium_Temperature_Hot_Water_Discharge_Temperature_Low_Reset_Setpoint
BRICK.Medium_Temperature_Hot_Water_Return_Temperature_Sensor
BRICK.Medium_Temperature_Hot_Water_Supply_Temperature_High_Reset_Setpoint
BRICK.Medium_Temperature_Hot_Water_Supply_Temperature_Load_Shed_Setpoint
BRICK.Medium_Temperature_Hot_Water_Supply_Temperature_Load_Shed_Status
BRICK.Medium_Temperature_Hot_Water_Supply_Temperature_Low_Reset_Setpoint
BRICK.Medium_Temperature_Hot_Water_Supply_Temperature_Sensor
BRICK.Meter
BRICK.Methane_Level_Sensor
BRICK.Min_Air_Flow_Setpoint_Limit
BRICK.Min_Air_Temperature_Setpoint
BRICK.Min_Chilled_Water_Differential_Pressure_Setpoint_Limit
BRICK.Min_Cooling_Discharge_Air_Flow_Setpoint_Limit
BRICK.Min_Cooling_Supply_Air_Flow_Setpoint_Limit
BRICK.Min_Discharge_Air_Static_Pressure_Setpoint_Limit
BRICK.Min_Discharge_Air_Temperature_Setpoint_Limit
BRICK.Min_Fresh_Air_Setpoint_Limit
BRICK.Min_Heating_Discharge_Air_Flow_Setpoint_Limit
BRICK.Min_Heating_Supply_Air_Flow_Setpoint_Limit
BRICK.Min_Hot_Water_Differential_Pressure_Setpoint_Limit
BRICK.Min_Limit
BRICK.Min_Occupied_Cooling_Discharge_Air_Flow_Setpoint_Limit
BRICK.Min_Occupied_Cooling_Supply_Air_Flow_Setpoint_Limit
BRICK.Min_Occupied_Heating_Discharge_Air_Flow_Setpoint_Limit
BRICK.Min_Occupied_Heating_Supply_Air_Flow_Setpoint_Limit
BRICK.Min_Outside_Air_Flow_Setpoint_Limit
BRICK.Min_Position_Setpoint_Limit
BRICK.Min_Speed_Setpoint_Limit
BRICK.Min_Static_Pressure_Setpoint_Limit
BRICK.Min_Supply_Air_Static_Pressure_Setpoint_Limit
BRICK.Min_Temperature_Setpoint_Limit
BRICK.Min_Unoccupied_Cooling_Discharge_Air_Flow_Setpoint_Limit
BRICK.Min_Unoccupied_Cooling_Supply_Air_Flow_Setpoint_Limit
BRICK.Min_Unoccupied_Heating_Discharge_Air_Flow_Setpoint_Limit
BRICK.Min_Unoccupied_Heating_Supply_Air_Flow_Setpoint_Limit
BRICK.Min_Water_Level_Alarm
BRICK.Min_Water_Temperature_Setpoint
BRICK.Mixed_Air
BRICK.Mixed_Air_Filter
BRICK.Mixed_Air_Flow_Sensor
BRICK.Mixed_Air_Humidity_Sensor
BRICK.Mixed_Air_Humidity_Setpoint
BRICK.Mixed_Air_Temperature_Sensor
BRICK.Mixed_Air_Temperature_Setpoint
BRICK.Mixed_Damper
BRICK.Mode_Command
BRICK.Mode_Status
BRICK.Motion_Sensor
BRICK.Motor
BRICK.Motor_Control_Center
BRICK.Motor_Current_Sensor
BRICK.Motor_Direction_Status
BRICK.Motor_On_Off_Status
BRICK.Motor_Speed_Sensor
BRICK.Motor_Torque_Sensor
BRICK.NO2_Level_Sensor
BRICK.NVR
BRICK.Natural_Gas
BRICK.Natural_Gas_Boiler
BRICK.Network_Video_Recorder
BRICK.No_Water_Alarm
BRICK.Noncondensing_Natural_Gas_Boiler
BRICK.Occupancy_Command
BRICK.Occupancy_Sensor
BRICK.Occupancy_Status
BRICK.Occupied_Air_Temperature_Setpoint
BRICK.Occupied_Cooling_Discharge_Air_Flow_Setpoint
BRICK.Occupied_Cooling_Supply_Air_Flow_Setpoint
BRICK.Occupied_Cooling_Temperature_Deadband_Setpoint
BRICK.Occupied_Discharge_Air_Flow_Setpoint
BRICK.Occupied_Discharge_Air_Temperature_Setpoint
BRICK.Occupied_Heating_Discharge_Air_Flow_Setpoint
BRICK.Occupied_Heating_Supply_Air_Flow_Setpoint
BRICK.Occupied_Heating_Temperature_Deadband_Setpoint
BRICK.Occupied_Mode_Status
BRICK.Occupied_Return_Air_Temperature_Setpoint
BRICK.Occupied_Room_Air_Temperature_Setpoint
BRICK.Occupied_Supply_Air_Flow_Setpoint
BRICK.Occupied_Supply_Air_Temperature_Setpoint
BRICK.Occupied_Zone_Air_Temperature_Setpoint
BRICK.Off_Command
BRICK.Off_Status
BRICK.Office
BRICK.Office_Kitchen
BRICK.Oil
BRICK.On_Command
BRICK.On_Off_Command
BRICK.On_Off_Status
BRICK.On_Status
BRICK.On_Timer_Sensor
BRICK.Open_Close_Status
BRICK.Open_Heating_Valve_Outside_Air_Temperature_Setpoint
BRICK.Open_Office
BRICK.Operating_Mode_Status
BRICK.Outdoor_Area
BRICK.Output_Frequency_Sensor
BRICK.Output_Voltage_Sensor
BRICK.Outside
BRICK.Outside_Air
BRICK.Outside_Air_CO2_Sensor
BRICK.Outside_Air_CO_Sensor
BRICK.Outside_Air_Dewpoint_Sensor
BRICK.Outside_Air_Enthalpy_Sensor
BRICK.Outside_Air_Flow_Sensor
BRICK.Outside_Air_Flow_Setpoint
BRICK.Outside_Air_Grains_Sensor
BRICK.Outside_Air_Humidity_Sensor
BRICK.Outside_Air_Humidity_Setpoint
BRICK.Outside_Air_Lockout_Temperature_Differential_Parameter
BRICK.Outside_Air_Lockout_Temperature_Setpoint
BRICK.Outside_Air_Temperature_Enable_Differential_Sensor
BRICK.Outside_Air_Temperature_High_Reset_Setpoint
BRICK.Outside_Air_Temperature_Low_Reset_Setpoint
BRICK.Outside_Air_Temperature_Sensor
BRICK.Outside_Air_Temperature_Setpoint
BRICK.Outside_Air_Wet_Bulb_Temperature_Sensor
BRICK.Outside_Damper
BRICK.Outside_Face_Surface_Temperature_Sensor
BRICK.Outside_Face_Surface_Temperature_Setpoint
BRICK.Outside_Illuminance_Sensor
BRICK.Overload_Alarm
BRICK.Overridden_Off_Status
BRICK.Overridden_On_Status
BRICK.Overridden_Status
BRICK.Override_Command
BRICK.Ozone_Level_Sensor
BRICK.PAU
BRICK.PID_Parameter
BRICK.PIR_Sensor
BRICK.PM10_Level_Sensor
BRICK.PM10_Sensor
BRICK.PM1_Level_Sensor
BRICK.PM1_Sensor
BRICK.PVT_Panel
BRICK.PV_Array
BRICK.PV_Current_Output_Sensor
BRICK.PV_Generation_System
BRICK.PV_Panel
BRICK.Parameter
BRICK.Parking_Level
BRICK.Parking_Space
BRICK.Parking_Structure
BRICK.Particulate_Matter_Sensor
BRICK.Passive_Chilled_Beam
BRICK.Peak_Power_Demand_Sensor
BRICK.Photovoltaic_Array
BRICK.Photovoltaic_Current_Output_Sensor
BRICK.Piezoelectric_Sensor
BRICK.PlugStrip
BRICK.Plumbing_Room
BRICK.Point
BRICK.Portfolio
BRICK.Position_Command
BRICK.Position_Limit
BRICK.Position_Sensor
BRICK.Potable_Water
BRICK.Power_Alarm
BRICK.Power_Loss_Alarm
BRICK.Power_Sensor
BRICK.Prayer_Room
BRICK.Pre_Filter
BRICK.Pre_Filter_Status
BRICK.Preheat_Demand_Setpoint
BRICK.Preheat_Discharge_Air_Temperature_Sensor
BRICK.Preheat_Hot_Water_System
BRICK.Preheat_Hot_Water_Valve
BRICK.Preheat_Supply_Air_Temperature_Sensor
BRICK.Pressure_Alarm
BRICK.Pressure_Sensor
BRICK.Pressure_Setpoint
BRICK.Pressure_Status
BRICK.Private_Office
BRICK.Proportional_Band_Parameter
BRICK.Proportional_Gain_Parameter
BRICK.Pump
BRICK.Pump_Command
BRICK.Pump_On_Off_Status
BRICK.Pump_Room
BRICK.Pump_VFD
BRICK.Quantity
BRICK.RC_Panel
BRICK.RTU
BRICK.RVAV
BRICK.Radiant_Ceiling_Panel
BRICK.Radiant_Panel
BRICK.Radiant_Panel_Temperature_Sensor
BRICK.Radiant_Panel_Temperature_Setpoint
BRICK.Radiation_Hot_Water_System
BRICK.Radiator
BRICK.Radioactivity_Concentration_Sensor
BRICK.Radon_Concentration_Sensor
BRICK.Rain_Duration_Sensor
BRICK.Rain_Sensor
BRICK.Rated_Speed_Setpoint
BRICK.Reactive_Power_Sensor
BRICK.Reception
BRICK.Region
BRICK.Reheat_Hot_Water_System
BRICK.Reheat_Valve
BRICK.Relative_Humidity_Sensor
BRICK.Relief_Damper
BRICK.Relief_Fan
BRICK.Remotely_On_Off_Status
BRICK.Reset_Command
BRICK.Reset_Setpoint
BRICK.Rest_Room
BRICK.Restroom
BRICK.Retail_Room
BRICK.Return_Air
BRICK.Return_Air_CO2_Sensor
BRICK.Return_Air_CO2_Setpoint
BRICK.Return_Air_CO_Sensor
BRICK.Return_Air_Dewpoint_Sensor
BRICK.Return_Air_Differential_Pressure_Sensor
BRICK.Return_Air_Differential_Pressure_Setpoint
BRICK.Return_Air_Enthalpy_Sensor
BRICK.Return_Air_Filter
BRICK.Return_Air_Flow_Sensor
BRICK.Return_Air_Grains_Sensor
BRICK.Return_Air_Humidity_Sensor
BRICK.Return_Air_Humidity_Setpoint
BRICK.Return_Air_Plenum
BRICK.Return_Air_Temperature_Alarm
BRICK.Return_Air_Temperature_High_Reset_Setpoint
BRICK.Return_Air_Temperature_Low_Reset_Setpoint
BRICK.Return_Air_Temperature_Sensor
BRICK.Return_Air_Temperature_Setpoint
BRICK.Return_Chilled_Water_Temperature_Setpoint
BRICK.Return_Condenser_Water
BRICK.Return_Condenser_Water_Flow_Sensor
BRICK.Return_Condenser_Water_Temperature_Sensor
BRICK.Return_Condenser_Water_Temperature_Setpoint
BRICK.Return_Damper
BRICK.Return_Fan
BRICK.Return_Heating_Valve
BRICK.Return_Hot_Water
BRICK.Return_Hot_Water_Temperature_Setpoint
BRICK.Return_Water
BRICK.Return_Water_Flow_Sensor
BRICK.Return_Water_Temperature_Sensor
BRICK.Return_Water_Temperature_Setpoint
BRICK.Riser
BRICK.Rooftop
BRICK.Rooftop_Unit
BRICK.Room
BRICK.Room_Air_Temperature_Setpoint
BRICK.Run_Enable_Command
BRICK.Run_Request_Status
BRICK.Run_Status
BRICK.Run_Time_Sensor
BRICK.Safety_Equipment
BRICK.Safety_Shower
BRICK.Safety_System
BRICK.Sash_Position_Sensor
BRICK.Schedule_Temperature_Setpoint
BRICK.Security_Equipment
BRICK.Security_Service_Room
BRICK.Sensor
BRICK.Server_Room
BRICK.Service_Room
BRICK.Setpoint
BRICK.Shading_System
BRICK.Shared_Office
BRICK.Short_Cycle_Alarm
BRICK.Shower
BRICK.Site
BRICK.Smoke_Alarm
BRICK.Smoke_Detection_Alarm
BRICK.Solar_Azimuth_Angle_Sensor
BRICK.Solar_Radiance_Sensor
BRICK.Solar_Thermal_Collector
BRICK.Solar_Zenith_Angle_Sensor
BRICK.Solid
BRICK.Space
BRICK.Space_Heater
BRICK.Speed_Reset_Command
BRICK.Speed_Sensor
BRICK.Speed_Setpoint
BRICK.Speed_Setpoint_Limit
BRICK.Speed_Status
BRICK.Sports_Service_Room
BRICK.Stage_Enable_Command
BRICK.Stage_Riser
BRICK.Stages_Status
BRICK.Staircase
BRICK.Standby_CRAC
BRICK.Standby_Fan
BRICK.Standby_Glycool_Unit_On_Off_Status
BRICK.Standby_Load_Shed_Command
BRICK.Standby_Unit_On_Off_Status
BRICK.Start_Stop_Command
BRICK.Start_Stop_Status
BRICK.Static_Pressure_Deadband_Setpoint
BRICK.Static_Pressure_Integral_Time_Parameter
BRICK.Static_Pressure_Proportional_Band_Parameter
BRICK.Static_Pressure_Sensor
BRICK.Static_Pressure_Setpoint
BRICK.Static_Pressure_Setpoint_Limit
BRICK.Static_Pressure_Step_Parameter
BRICK.Status
BRICK.Steam
BRICK.Steam_Baseboard_Radiator
BRICK.Steam_Distribution
BRICK.Steam_On_Off_Command
BRICK.Steam_Radiator
BRICK.Steam_System
BRICK.Steam_Usage_Sensor
BRICK.Steam_Valve
BRICK.Step_Parameter
BRICK.Storage_Room
BRICK.Storey
BRICK.Studio
BRICK.Substance
BRICK.Supply_Air
BRICK.Supply_Air_Differential_Pressure_Sensor
BRICK.Supply_Air_Differential_Pressure_Setpoint
BRICK.Supply_Air_Duct_Pressure_Status
BRICK.Supply_Air_Flow_Demand_Setpoint
BRICK.Supply_Air_Flow_Sensor
BRICK.Supply_Air_Flow_Setpoint
BRICK.Supply_Air_Humidity_Sensor
BRICK.Supply_Air_Humidity_Setpoint
BRICK.Supply_Air_Integral_Gain_Parameter
BRICK.Supply_Air_Plenum
BRICK.Supply_Air_Proportional_Gain_Parameter
BRICK.Supply_Air_Static_Pressure_Deadband_Setpoint
BRICK.Supply_Air_Static_Pressure_Integral_Time_Parameter
BRICK.Supply_Air_Static_Pressure_Proportional_Band_Parameter
BRICK.Supply_Air_Static_Pressure_Sensor
BRICK.Supply_Air_Static_Pressure_Setpoint
BRICK.Supply_Air_Temperature_Alarm
BRICK.Supply_Air_Temperature_Deadband_Setpoint
BRICK.Supply_Air_Temperature_High_Reset_Setpoint
BRICK.Supply_Air_Temperature_Low_Reset_Setpoint
BRICK.Supply_Air_Temperature_Proportional_Band_Parameter
BRICK.Supply_Air_Temperature_Reset_Differential_Setpoint
BRICK.Supply_Air_Temperature_Sensor
BRICK.Supply_Air_Temperature_Setpoint
BRICK.Supply_Air_Temperature_Step_Parameter
BRICK.Supply_Air_Velocity_Pressure_Sensor
BRICK.Supply_Chilled_Water
BRICK.Supply_Chilled_Water_Temperature_Setpoint
BRICK.Supply_Condenser_Water
BRICK.Supply_Condenser_Water_Flow_Sensor
BRICK.Supply_Condenser_Water_Temperature_Sensor
BRICK.Supply_Condenser_Water_Temperature_Setpoint
BRICK.Supply_Fan
BRICK.Supply_Hot_Water
BRICK.Supply_Hot_Water_Temperature_Setpoint
BRICK.Supply_Water
BRICK.Supply_Water_Differential_Pressure_Deadband_Setpoint
BRICK.Supply_Water_Differential_Pressure_Integral_Time_Parameter
BRICK.Supply_Water_Differential_Pressure_Proportional_Band_Parameter
BRICK.Supply_Water_Flow_Sensor
BRICK.Supply_Water_Flow_Setpoint
BRICK.Supply_Water_Temperature_Alarm
BRICK.Supply_Water_Temperature_Deadband_Setpoint
BRICK.Supply_Water_Temperature_Integral_Time_Parameter
BRICK.Supply_Water_Temperature_Proportional_Band_Parameter
BRICK.Supply_Water_Temperature_Setpoint
BRICK.Surveillance_Camera
BRICK.Switch
BRICK.Switch_Room
BRICK.Switchgear
BRICK.System
BRICK.System_Enable_Command
BRICK.System_Shutdown_Status
BRICK.System_Status
BRICK.TABS_Panel
BRICK.TETRA_Room
BRICK.TVOC_Level_Sensor
BRICK.TVOC_Sensor
BRICK.Team_Room
BRICK.Telecom_Room
BRICK.Temperature_Alarm
BRICK.Temperature_Deadband_Setpoint
BRICK.Temperature_Differential_Reset_Setpoint
BRICK.Temperature_High_Reset_Setpoint
BRICK.Temperature_Low_Reset_Setpoint
BRICK.Temperature_Parameter
BRICK.Temperature_Sensor
BRICK.Temperature_Setpoint
BRICK.Temperature_Step_Parameter
BRICK.Temperature_Tolerance_Parameter
BRICK.Temporary_Occupancy_Status
BRICK.Terminal_Unit
BRICK.Thermal_Power_Meter
BRICK.Thermal_Power_Sensor
BRICK.Thermally_Activated_Building_System_Panel
BRICK.Thermostat
BRICK.Ticketing_Booth
BRICK.Time_Parameter
BRICK.Time_Setpoint
BRICK.Tolerance_Parameter
BRICK.Torque_Sensor
BRICK.Touchpanel
BRICK.Trace_Heat_Sensor
BRICK.Transformer
BRICK.Transformer_Room
BRICK.Tunnel
BRICK.Underfloor_Air_Plenum
BRICK.Underfloor_Air_Plenum_Static_Pressure_Sensor
BRICK.Underfloor_Air_Plenum_Static_Pressure_Setpoint
BRICK.Underfloor_Air_Temperature_Sensor
BRICK.Unit_Failure_Alarm
BRICK.Unoccupied_Air_Temperature_Cooling_Setpoint
BRICK.Unoccupied_Air_Temperature_Heating_Setpoint
BRICK.Unoccupied_Air_Temperature_Setpoint
BRICK.Unoccupied_Cooling_Discharge_Air_Flow_Setpoint
BRICK.Unoccupied_Discharge_Air_Temperature_Setpoint
BRICK.Unoccupied_Load_Shed_Command
BRICK.Unoccupied_Return_Air_Temperature_Setpoint
BRICK.Unoccupied_Room_Air_Temperature_Setpoint
BRICK.Unoccupied_Supply_Air_Temperature_Setpoint
BRICK.Unoccupied_Zone_Air_Temperature_Setpoint
BRICK.Usage_Sensor
BRICK.VAV
BRICK.VFD
BRICK.VFD_Enable_Command
BRICK.Valve
BRICK.Valve_Command
BRICK.Valve_Position_Sensor
BRICK.Variable_Air_Volume_Box
BRICK.Variable_Air_Volume_Box_With_Reheat
BRICK.Variable_Frequency_Drive
BRICK.Velocity_Pressure_Sensor
BRICK.Velocity_Pressure_Setpoint
BRICK.Vent_Operating_Mode_Status
BRICK.Ventilation_Air_Flow_Ratio_Limit
BRICK.Ventilation_Air_System
BRICK.Vertical_Space
BRICK.Video_Intercom
BRICK.Video_Surveillance_Equipment
BRICK.Visitor_Lobby
BRICK.Voltage_Imbalance_Sensor
BRICK.Voltage_Sensor
BRICK.Wardrobe
BRICK.Warm_Cool_Adjust_Sensor
BRICK.Warmest_Zone_Air_Temperature_Sensor
BRICK.Waste_Storage
BRICK.Water
BRICK.Water_Alarm
BRICK.Water_Differential_Pressure_Setpoint
BRICK.Water_Differential_Temperature_Sensor
BRICK.Water_Differential_Temperature_Setpoint
BRICK.Water_Distribution
BRICK.Water_Flow_Sensor
BRICK.Water_Flow_Setpoint
BRICK.Water_Heater
BRICK.Water_Level_Alarm
BRICK.Water_Level_Sensor
BRICK.Water_Loop
BRICK.Water_Loss_Alarm
BRICK.Water_Meter
BRICK.Water_Pump
BRICK.Water_System
BRICK.Water_Tank
BRICK.Water_Temperature_Alarm
BRICK.Water_Temperature_Sensor
BRICK.Water_Temperature_Setpoint
BRICK.Water_Usage_Sensor
BRICK.Water_Valve
BRICK.Weather_Station
BRICK.Wind_Direction_Sensor
BRICK.Wind_Speed_Sensor
BRICK.Wing
BRICK.Workshop
BRICK.Zone
BRICK.Zone_Air
BRICK.Zone_Air_Cooling_Temperature_Setpoint
BRICK.Zone_Air_Dewpoint_Sensor
BRICK.Zone_Air_Heating_Temperature_Setpoint
BRICK.Zone_Air_Humidity_Sensor
BRICK.Zone_Air_Humidity_Setpoint
BRICK.Zone_Air_Temperature_Sensor
BRICK.Zone_Air_Temperature_Setpoint
BRICK.Zone_Standby_Load_Shed_Command
BRICK.Zone_Unoccupied_Load_Shed_Command
BRICK.aggregate
BRICK.area
BRICK.azimuth
BRICK.buildingPrimaryFunction
BRICK.buildingThermalTransmittance
BRICK.conversionEfficiency
BRICK.coolingCapacity
BRICK.coordinates
BRICK.currentFlowType
BRICK.electricalPhaseCount
BRICK.electricalPhases
BRICK.feeds
BRICK.feedsAir
BRICK.grossArea
BRICK.hasAddress
BRICK.hasAssociatedTag
BRICK.hasInputSubstance
BRICK.hasLocation
BRICK.hasOutputSubstance
BRICK.hasPart
BRICK.hasPoint
BRICK.hasQUDTReference
BRICK.hasTag
BRICK.hasTimeseriesId
BRICK.hasUnit
BRICK.isAssociatedWith
BRICK.isFedBy
BRICK.isLocationOf
BRICK.isMeasuredBy
BRICK.isPartOf
BRICK.isPointOf
BRICK.isRegulatedBy
BRICK.isTagOf
BRICK.latitude
BRICK.longitude
BRICK.measuredModuleConversionEfficiency
BRICK.measuredPowerOutput
BRICK.measures
BRICK.netArea
BRICK.operationalStage
BRICK.operationalStageCount
BRICK.panelArea
BRICK.powerComplexity
BRICK.powerFlow
BRICK.ratedModuleConversionEfficiency
BRICK.ratedPowerOutput
BRICK.regulates
BRICK.storedAt
BRICK.temperatureCoefficientofPmax
BRICK.thermalTransmittance
BRICK.tilt
BRICK.timeseries
BRICK.value
BRICK.volume
BRICK.yearBuilt
CSVW
CSVW.Cell
CSVW.Column
CSVW.Datatype
CSVW.Dialect
CSVW.Direction
CSVW.ForeignKey
CSVW.JSON
CSVW.NumericFormat
CSVW.Row
CSVW.Schema
CSVW.Table
CSVW.TableGroup
CSVW.TableReference
CSVW.Transformation
CSVW.aboutUrl
CSVW.auto
CSVW.base
CSVW.column
CSVW.columnReference
CSVW.commentPrefix
CSVW.csvEncodedTabularData
CSVW.datatype
CSVW.decimalChar
CSVW.default
CSVW.delimiter
CSVW.describes
CSVW.dialect
CSVW.doubleQuote
CSVW.encoding
CSVW.foreignKey
CSVW.format
CSVW.groupChar
CSVW.header
CSVW.headerRowCount
CSVW.inherit
CSVW.lang
CSVW.length
CSVW.lineTerminators
CSVW.ltr
CSVW.maxExclusive
CSVW.maxInclusive
CSVW.maxLength
CSVW.minExclusive
CSVW.minInclusive
CSVW.minLength
CSVW.name
CSVW.note
CSVW.null
CSVW.ordered
CSVW.pattern
CSVW.primaryKey
CSVW.propertyUrl
CSVW.quoteChar
CSVW.reference
CSVW.referencedRow
CSVW.required
CSVW.resource
CSVW.row
CSVW.rowTitle
CSVW.rownum
CSVW.rtl
CSVW.schemaReference
CSVW.scriptFormat
CSVW.separator
CSVW.skipBlankRows
CSVW.skipColumns
CSVW.skipInitialSpace
CSVW.skipRows
CSVW.source
CSVW.suppressOutput
CSVW.table
CSVW.tableDirection
CSVW.tableSchema
CSVW.tabularMetadata
CSVW.targetFormat
CSVW.textDirection
CSVW.title
CSVW.transformations
CSVW.trim
CSVW.uriTemplate
CSVW.url
CSVW.valueUrl
CSVW.virtual
ClosedNamespace
DC
DCAM
DCAT
DCAT.Catalog
DCAT.CatalogRecord
DCAT.DataService
DCAT.Dataset
DCAT.Distribution
DCAT.Relationship
DCAT.Resource
DCAT.Role
DCAT.accessService
DCAT.accessURL
DCAT.bbox
DCAT.byteSize
DCAT.catalog
DCAT.centroid
DCAT.compressFormat
DCAT.contactPoint
DCAT.dataset
DCAT.distribution
DCAT.downloadURL
DCAT.endDate
DCAT.endpointDescription
DCAT.endpointURL
DCAT.hadRole
DCAT.keyword
DCAT.landingPage
DCAT.mediaType
DCAT.packageFormat
DCAT.qualifiedRelation
DCAT.record
DCAT.servesDataset
DCAT.service
DCAT.spatialResolutionInMeters
DCAT.startDate
DCAT.temporalResolution
DCAT.theme
DCAT.themeTaxonomy
DCMITYPE
DCTERMS
DCTERMS.Agent
DCTERMS.AgentClass
DCTERMS.BibliographicResource
DCTERMS.Box
DCTERMS.DCMIType
DCTERMS.DDC
DCTERMS.FileFormat
DCTERMS.Frequency
DCTERMS.IMT
DCTERMS.ISO3166
DCTERMS.Jurisdiction
DCTERMS.LCC
DCTERMS.LCSH
DCTERMS.LicenseDocument
DCTERMS.LinguisticSystem
DCTERMS.Location
DCTERMS.LocationPeriodOrJurisdiction
DCTERMS.MESH
DCTERMS.MediaType
DCTERMS.MediaTypeOrExtent
DCTERMS.MethodOfAccrual
DCTERMS.MethodOfInstruction
DCTERMS.NLM
DCTERMS.Period
DCTERMS.PeriodOfTime
DCTERMS.PhysicalMedium
DCTERMS.PhysicalResource
DCTERMS.Point
DCTERMS.Policy
DCTERMS.ProvenanceStatement
DCTERMS.RFC1766
DCTERMS.RFC3066
DCTERMS.RFC4646
DCTERMS.RFC5646
DCTERMS.RightsStatement
DCTERMS.SizeOrDuration
DCTERMS.Standard
DCTERMS.TGN
DCTERMS.UDC
DCTERMS.URI
DCTERMS.W3CDTF
DCTERMS.abstract
DCTERMS.accessRights
DCTERMS.accrualMethod
DCTERMS.accrualPeriodicity
DCTERMS.accrualPolicy
DCTERMS.alternative
DCTERMS.audience
DCTERMS.available
DCTERMS.bibliographicCitation
DCTERMS.conformsTo
DCTERMS.contributor
DCTERMS.coverage
DCTERMS.created
DCTERMS.creator
DCTERMS.date
DCTERMS.dateAccepted
DCTERMS.dateCopyrighted
DCTERMS.dateSubmitted
DCTERMS.description
DCTERMS.educationLevel
DCTERMS.extent
DCTERMS.format
DCTERMS.hasFormat
DCTERMS.hasPart
DCTERMS.hasVersion
DCTERMS.identifier
DCTERMS.instructionalMethod
DCTERMS.isFormatOf
DCTERMS.isPartOf
DCTERMS.isReferencedBy
DCTERMS.isReplacedBy
DCTERMS.isRequiredBy
DCTERMS.isVersionOf
DCTERMS.issued
DCTERMS.language
DCTERMS.license
DCTERMS.mediator
DCTERMS.medium
DCTERMS.modified
DCTERMS.provenance
DCTERMS.publisher
DCTERMS.references
DCTERMS.relation
DCTERMS.replaces
DCTERMS.requires
DCTERMS.rights
DCTERMS.rightsHolder
DCTERMS.source
DCTERMS.spatial
DCTERMS.subject
DCTERMS.tableOfContents
DCTERMS.temporal
DCTERMS.title
DCTERMS.type
DCTERMS.valid
DOAP
DOAP.ArchRepository
DOAP.BKRepository
DOAP.BazaarBranch
DOAP.CVSRepository
DOAP.DarcsRepository
DOAP.GitBranch
DOAP.GitRepository
DOAP.HgRepository
DOAP.Project
DOAP.Repository
DOAP.SVNRepository
DOAP.Specification
DOAP.Version
DOAP.audience
DOAP.blog
DOAP.browse
DOAP.category
DOAP.created
DOAP.description
DOAP.developer
DOAP.documenter
DOAP.helper
DOAP.homepage
DOAP.implements
DOAP.language
DOAP.license
DOAP.location
DOAP.maintainer
DOAP.module
DOAP.name
DOAP.os
DOAP.platform
DOAP.release
DOAP.repository
DOAP.repositoryOf
DOAP.revision
DOAP.screenshots
DOAP.shortdesc
DOAP.tester
DOAP.translator
DOAP.vendor
DOAP.wiki
DefinedNamespace
FOAF
FOAF.Agent
FOAF.Document
FOAF.Group
FOAF.Image
FOAF.LabelProperty
FOAF.OnlineAccount
FOAF.OnlineChatAccount
FOAF.OnlineEcommerceAccount
FOAF.OnlineGamingAccount
FOAF.Organization
FOAF.Person
FOAF.PersonalProfileDocument
FOAF.Project
FOAF.account
FOAF.accountName
FOAF.accountServiceHomepage
FOAF.age
FOAF.aimChatID
FOAF.based_near
FOAF.birthday
FOAF.currentProject
FOAF.depiction
FOAF.depicts
FOAF.dnaChecksum
FOAF.familyName
FOAF.family_name
FOAF.firstName
FOAF.focus
FOAF.fundedBy
FOAF.geekcode
FOAF.gender
FOAF.givenName
FOAF.givenname
FOAF.holdsAccount
FOAF.homepage
FOAF.icqChatID
FOAF.img
FOAF.interest
FOAF.isPrimaryTopicOf
FOAF.jabberID
FOAF.knows
FOAF.lastName
FOAF.logo
FOAF.made
FOAF.maker
FOAF.mbox
FOAF.mbox_sha1sum
FOAF.member
FOAF.membershipClass
FOAF.msnChatID
FOAF.myersBriggs
FOAF.name
FOAF.nick
FOAF.openid
FOAF.page
FOAF.pastProject
FOAF.phone
FOAF.plan
FOAF.primaryTopic
FOAF.publications
FOAF.schoolHomepage
FOAF.sha1
FOAF.skypeID
FOAF.status
FOAF.surname
FOAF.theme
FOAF.thumbnail
FOAF.tipjar
FOAF.title
FOAF.topic
FOAF.topic_interest
FOAF.weblog
FOAF.workInfoHomepage
FOAF.workplaceHomepage
FOAF.yahooChatID
GEO
GEO.Feature
GEO.Geometry
GEO.SpatialObject
GEO.asGML
GEO.asWKT
GEO.coordinateDimension
GEO.defaultGeometry
GEO.dimension
GEO.ehContains
GEO.ehCoveredBy
GEO.ehCovers
GEO.ehDisjoint
GEO.ehEquals
GEO.ehInside
GEO.ehMeet
GEO.ehOverlap
GEO.gmlLiteral
GEO.hasGeometry
GEO.hasSerialization
GEO.isEmpty
GEO.isSimple
GEO.rcc8dc
GEO.rcc8ec
GEO.rcc8eq
GEO.rcc8ntpp
GEO.rcc8ntppi
GEO.rcc8po
GEO.rcc8tpp
GEO.rcc8tppi
GEO.sfContains
GEO.sfCrosses
GEO.sfDisjoint
GEO.sfEquals
GEO.sfIntersects
GEO.sfOverlaps
GEO.sfTouches
GEO.sfWithin
GEO.spatialDimension
GEO.wktLiteral
Namespace
NamespaceManager
NamespaceManager.__contains__()
NamespaceManager.__dict__
NamespaceManager.__init__()
NamespaceManager.__module__
NamespaceManager.__weakref__
NamespaceManager.absolutize()
NamespaceManager.bind()
NamespaceManager.compute_qname()
NamespaceManager.compute_qname_strict()
NamespaceManager.curie()
NamespaceManager.expand_curie()
NamespaceManager.namespaces()
NamespaceManager.normalizeUri()
NamespaceManager.qname()
NamespaceManager.qname_strict()
NamespaceManager.reset()
NamespaceManager.store
ODRL2
ODRL2.Action
ODRL2.Agreement
ODRL2.All
ODRL2.All2ndConnections
ODRL2.AllConnections
ODRL2.AllGroups
ODRL2.Assertion
ODRL2.Asset
ODRL2.AssetCollection
ODRL2.AssetScope
ODRL2.ConflictTerm
ODRL2.Constraint
ODRL2.Duty
ODRL2.Group
ODRL2.Individual
ODRL2.LeftOperand
ODRL2.LogicalConstraint
ODRL2.Offer
ODRL2.Operator
ODRL2.Party
ODRL2.PartyCollection
ODRL2.PartyScope
ODRL2.Permission
ODRL2.Policy
ODRL2.Privacy
ODRL2.Prohibition
ODRL2.Request
ODRL2.RightOperand
ODRL2.Rule
ODRL2.Set
ODRL2.Ticket
ODRL2.UndefinedTerm
ODRL2.absolutePosition
ODRL2.absoluteSize
ODRL2.absoluteSpatialPosition
ODRL2.absoluteTemporalPosition
ODRL2.acceptTracking
ODRL2.action
ODRL2.adHocShare
ODRL2.aggregate
ODRL2.andSequence
ODRL2.annotate
ODRL2.anonymize
ODRL2.append
ODRL2.appendTo
ODRL2.archive
ODRL2.assignee
ODRL2.assigneeOf
ODRL2.assigner
ODRL2.assignerOf
ODRL2.attachPolicy
ODRL2.attachSource
ODRL2.attribute
ODRL2.attributedParty
ODRL2.attributingParty
ODRL2.commercialize
ODRL2.compensate
ODRL2.compensatedParty
ODRL2.compensatingParty
ODRL2.concurrentUse
ODRL2.conflict
ODRL2.consentedParty
ODRL2.consentingParty
ODRL2.consequence
ODRL2.constraint
ODRL2.contractedParty
ODRL2.contractingParty
ODRL2.copy
ODRL2.core
ODRL2.count
ODRL2.dataType
ODRL2.dateTime
ODRL2.delayPeriod
ODRL2.delete
ODRL2.deliveryChannel
ODRL2.derive
ODRL2.device
ODRL2.digitize
ODRL2.display
ODRL2.distribute
ODRL2.duty
ODRL2.elapsedTime
ODRL2.ensureExclusivity
ODRL2.eq
ODRL2.event
ODRL2.execute
ODRL2.export
ODRL2.extract
ODRL2.extractChar
ODRL2.extractPage
ODRL2.extractWord
ODRL2.failure
ODRL2.fileFormat
ODRL2.function
ODRL2.give
ODRL2.grantUse
ODRL2.gt
ODRL2.gteq
ODRL2.hasPart
ODRL2.hasPolicy
ODRL2.ignore
ODRL2.implies
ODRL2.include
ODRL2.includedIn
ODRL2.index
ODRL2.industry
ODRL2.inform
ODRL2.informedParty
ODRL2.informingParty
ODRL2.inheritAllowed
ODRL2.inheritFrom
ODRL2.inheritRelation
ODRL2.install
ODRL2.invalid
ODRL2.isA
ODRL2.isAllOf
ODRL2.isAnyOf
ODRL2.isNoneOf
ODRL2.isPartOf
ODRL2.language
ODRL2.lease
ODRL2.leftOperand
ODRL2.lend
ODRL2.license
ODRL2.lt
ODRL2.lteq
ODRL2.media
ODRL2.meteredTime
ODRL2.modify
ODRL2.move
ODRL2.neq
ODRL2.nextPolicy
ODRL2.obligation
ODRL2.obtainConsent
ODRL2.operand
ODRL2.operator
ODRL2.output
ODRL2.partOf
ODRL2.pay
ODRL2.payAmount
ODRL2.payeeParty
ODRL2.percentage
ODRL2.perm
ODRL2.permission
ODRL2.play
ODRL2.policyUsage
ODRL2.present
ODRL2.preview
ODRL2.print
ODRL2.product
ODRL2.profile
ODRL2.prohibit
ODRL2.prohibition
ODRL2.proximity
ODRL2.purpose
ODRL2.read
ODRL2.recipient
ODRL2.refinement
ODRL2.relation
ODRL2.relativePosition
ODRL2.relativeSize
ODRL2.relativeSpatialPosition
ODRL2.relativeTemporalPosition
ODRL2.remedy
ODRL2.reproduce
ODRL2.resolution
ODRL2.reviewPolicy
ODRL2.rightOperand
ODRL2.rightOperandReference
ODRL2.scope
ODRL2.secondaryUse
ODRL2.sell
ODRL2.share
ODRL2.shareAlike
ODRL2.source
ODRL2.spatial
ODRL2.spatialCoordinates
ODRL2.status
ODRL2.stream
ODRL2.support
ODRL2.synchronize
ODRL2.system
ODRL2.systemDevice
ODRL2.target
ODRL2.textToSpeech
ODRL2.timeInterval
ODRL2.timedCount
ODRL2.trackedParty
ODRL2.trackingParty
ODRL2.transfer
ODRL2.transform
ODRL2.translate
ODRL2.uid
ODRL2.undefined
ODRL2.uninstall
ODRL2.unit
ODRL2.unitOfCount
ODRL2.use
ODRL2.version
ODRL2.virtualLocation
ODRL2.watermark
ODRL2.write
ODRL2.writeTo
ODRL2.xone
ORG
ORG.ChangeEvent
ORG.FormalOrganization
ORG.Head
ORG.Membership
ORG.Organization
ORG.OrganizationalCollaboration
ORG.OrganizationalUnit
ORG.Post
ORG.Role
ORG.Site
ORG.basedAt
ORG.changedBy
ORG.classification
ORG.hasMember
ORG.hasMembership
ORG.hasPost
ORG.hasPrimarySite
ORG.hasRegisteredSite
ORG.hasSite
ORG.hasSubOrganization
ORG.hasUnit
ORG.headOf
ORG.heldBy
ORG.holds
ORG.identifier
ORG.linkedTo
ORG.location
ORG.member
ORG.memberDuring
ORG.memberOf
ORG.organization
ORG.originalOrganization
ORG.postIn
ORG.purpose
ORG.remuneration
ORG.reportsTo
ORG.resultedFrom
ORG.resultingOrganization
ORG.role
ORG.roleProperty
ORG.siteAddress
ORG.siteOf
ORG.subOrganizationOf
ORG.transitiveSubOrganizationOf
ORG.unitOf
OWL
OWL.AllDifferent
OWL.AllDisjointClasses
OWL.AllDisjointProperties
OWL.Annotation
OWL.AnnotationProperty
OWL.AsymmetricProperty
OWL.Axiom
OWL.Class
OWL.DataRange
OWL.DatatypeProperty
OWL.DeprecatedClass
OWL.DeprecatedProperty
OWL.FunctionalProperty
OWL.InverseFunctionalProperty
OWL.IrreflexiveProperty
OWL.NamedIndividual
OWL.NegativePropertyAssertion
OWL.Nothing
OWL.ObjectProperty
OWL.Ontology
OWL.OntologyProperty
OWL.ReflexiveProperty
OWL.Restriction
OWL.SymmetricProperty
OWL.Thing
OWL.TransitiveProperty
OWL.allValuesFrom
OWL.annotatedProperty
OWL.annotatedSource
OWL.annotatedTarget
OWL.assertionProperty
OWL.backwardCompatibleWith
OWL.bottomDataProperty
OWL.bottomObjectProperty
OWL.cardinality
OWL.complementOf
OWL.datatypeComplementOf
OWL.deprecated
OWL.differentFrom
OWL.disjointUnionOf
OWL.disjointWith
OWL.distinctMembers
OWL.equivalentClass
OWL.equivalentProperty
OWL.hasKey
OWL.hasSelf
OWL.hasValue
OWL.imports
OWL.incompatibleWith
OWL.intersectionOf
OWL.inverseOf
OWL.maxCardinality
OWL.maxQualifiedCardinality
OWL.members
OWL.minCardinality
OWL.minQualifiedCardinality
OWL.onClass
OWL.onDataRange
OWL.onDatatype
OWL.onProperties
OWL.onProperty
OWL.oneOf
OWL.priorVersion
OWL.propertyChainAxiom
OWL.propertyDisjointWith
OWL.qualifiedCardinality
OWL.rational
OWL.real
OWL.sameAs
OWL.someValuesFrom
OWL.sourceIndividual
OWL.targetIndividual
OWL.targetValue
OWL.topDataProperty
OWL.topObjectProperty
OWL.unionOf
OWL.versionIRI
OWL.versionInfo
OWL.withRestrictions
PROF
PROV
PROV.Accept
PROV.Activity
PROV.ActivityInfluence
PROV.Agent
PROV.AgentInfluence
PROV.Association
PROV.Attribution
PROV.Bundle
PROV.Collection
PROV.Communication
PROV.Contribute
PROV.Contributor
PROV.Copyright
PROV.Create
PROV.Creator
PROV.Delegation
PROV.Derivation
PROV.Dictionary
PROV.DirectQueryService
PROV.EmptyCollection
PROV.EmptyDictionary
PROV.End
PROV.Entity
PROV.EntityInfluence
PROV.Generation
PROV.Influence
PROV.Insertion
PROV.InstantaneousEvent
PROV.Invalidation
PROV.KeyEntityPair
PROV.Location
PROV.Modify
PROV.Organization
PROV.Person
PROV.Plan
PROV.PrimarySource
PROV.Publish
PROV.Publisher
PROV.Quotation
PROV.Removal
PROV.Replace
PROV.Revision
PROV.RightsAssignment
PROV.RightsHolder
PROV.Role
PROV.ServiceDescription
PROV.SoftwareAgent
PROV.Start
PROV.Submit
PROV.Usage
PROV.actedOnBehalfOf
PROV.activity
PROV.activityOfInfluence
PROV.agent
PROV.agentOfInfluence
PROV.alternateOf
PROV.aq
PROV.asInBundle
PROV.atLocation
PROV.atTime
PROV.category
PROV.component
PROV.constraints
PROV.contributed
PROV.definition
PROV.derivedByInsertionFrom
PROV.derivedByRemovalFrom
PROV.describesService
PROV.dictionary
PROV.dm
PROV.editorialNote
PROV.editorsDefinition
PROV.ended
PROV.endedAtTime
PROV.entity
PROV.entityOfInfluence
PROV.generalizationOf
PROV.generated
PROV.generatedAsDerivation
PROV.generatedAtTime
PROV.hadActivity
PROV.hadDelegate
PROV.hadDerivation
PROV.hadDictionaryMember
PROV.hadGeneration
PROV.hadInfluence
PROV.hadMember
PROV.hadPlan
PROV.hadPrimarySource
PROV.hadRevision
PROV.hadRole
PROV.hadUsage
PROV.has_anchor
PROV.has_provenance
PROV.has_query_service
PROV.influenced
PROV.influencer
PROV.informed
PROV.insertedKeyEntityPair
PROV.invalidated
PROV.invalidatedAtTime
PROV.inverse
PROV.locationOf
PROV.mentionOf
PROV.n
PROV.order
PROV.pairEntity
PROV.pairKey
PROV.pingback
PROV.provenanceUriTemplate
PROV.qualifiedAssociation
PROV.qualifiedAssociationOf
PROV.qualifiedAttribution
PROV.qualifiedAttributionOf
PROV.qualifiedCommunication
PROV.qualifiedCommunicationOf
PROV.qualifiedDelegation
PROV.qualifiedDelegationOf
PROV.qualifiedDerivation
PROV.qualifiedDerivationOf
PROV.qualifiedEnd
PROV.qualifiedEndOf
PROV.qualifiedForm
PROV.qualifiedGeneration
PROV.qualifiedGenerationOf
PROV.qualifiedInfluence
PROV.qualifiedInfluenceOf
PROV.qualifiedInsertion
PROV.qualifiedInvalidation
PROV.qualifiedInvalidationOf
PROV.qualifiedPrimarySource
PROV.qualifiedQuotation
PROV.qualifiedQuotationOf
PROV.qualifiedRemoval
PROV.qualifiedRevision
PROV.qualifiedSourceOf
PROV.qualifiedStart
PROV.qualifiedStartOf
PROV.qualifiedUsage
PROV.qualifiedUsingActivity
PROV.quotedAs
PROV.removedKey
PROV.revisedEntity
PROV.sharesDefinitionWith
PROV.specializationOf
PROV.started
PROV.startedAtTime
PROV.todo
PROV.unqualifiedForm
PROV.used
PROV.value
PROV.wasActivityOfInfluence
PROV.wasAssociateFor
PROV.wasAssociatedWith
PROV.wasAttributedTo
PROV.wasDerivedFrom
PROV.wasEndedBy
PROV.wasGeneratedBy
PROV.wasInfluencedBy
PROV.wasInformedBy
PROV.wasInvalidatedBy
PROV.wasMemberOf
PROV.wasPlanOf
PROV.wasPrimarySourceOf
PROV.wasQuotedFrom
PROV.wasRevisionOf
PROV.wasRoleIn
PROV.wasStartedBy
PROV.wasUsedBy
PROV.wasUsedInDerivation
QB
QB.Attachable
QB.AttributeProperty
QB.CodedProperty
QB.ComponentProperty
QB.ComponentSet
QB.ComponentSpecification
QB.DataSet
QB.DataStructureDefinition
QB.DimensionProperty
QB.HierarchicalCodeList
QB.MeasureProperty
QB.Observation
QB.ObservationGroup
QB.Slice
QB.SliceKey
QB.attribute
QB.codeList
QB.component
QB.componentAttachment
QB.componentProperty
QB.componentRequired
QB.concept
QB.dataSet
QB.dimension
QB.hierarchyRoot
QB.measure
QB.measureDimension
QB.measureType
QB.observation
QB.observationGroup
QB.order
QB.parentChildProperty
QB.slice
QB.sliceKey
QB.sliceStructure
QB.structure
RDF
RDFS
SDO
SDO.AMRadioChannel
SDO.APIReference
SDO.Abdomen
SDO.AboutPage
SDO.AcceptAction
SDO.Accommodation
SDO.AccountingService
SDO.AchieveAction
SDO.Action
SDO.ActionAccessSpecification
SDO.ActionStatusType
SDO.ActivateAction
SDO.ActivationFee
SDO.ActiveActionStatus
SDO.ActiveNotRecruiting
SDO.AddAction
SDO.AdministrativeArea
SDO.AdultEntertainment
SDO.AdvertiserContentArticle
SDO.AerobicActivity
SDO.AggregateOffer
SDO.AggregateRating
SDO.AgreeAction
SDO.Airline
SDO.Airport
SDO.AlbumRelease
SDO.AlignmentObject
SDO.AllWheelDriveConfiguration
SDO.AllergiesHealthAspect
SDO.AllocateAction
SDO.AmpStory
SDO.AmusementPark
SDO.AnaerobicActivity
SDO.AnalysisNewsArticle
SDO.AnatomicalStructure
SDO.AnatomicalSystem
SDO.Anesthesia
SDO.AnimalShelter
SDO.Answer
SDO.Apartment
SDO.ApartmentComplex
SDO.Appearance
SDO.AppendAction
SDO.ApplyAction
SDO.ApprovedIndication
SDO.Aquarium
SDO.ArchiveComponent
SDO.ArchiveOrganization
SDO.ArriveAction
SDO.ArtGallery
SDO.Artery
SDO.Article
SDO.AskAction
SDO.AskPublicNewsArticle
SDO.AssessAction
SDO.AssignAction
SDO.Atlas
SDO.Attorney
SDO.Audience
SDO.AudioObject
SDO.AudioObjectSnapshot
SDO.Audiobook
SDO.AudiobookFormat
SDO.AuthoritativeLegalValue
SDO.AuthorizeAction
SDO.AutoBodyShop
SDO.AutoDealer
SDO.AutoPartsStore
SDO.AutoRental
SDO.AutoRepair
SDO.AutoWash
SDO.AutomatedTeller
SDO.AutomotiveBusiness
SDO.Ayurvedic
SDO.BackOrder
SDO.BackgroundNewsArticle
SDO.Bacteria
SDO.Bakery
SDO.Balance
SDO.BankAccount
SDO.BankOrCreditUnion
SDO.BarOrPub
SDO.Barcode
SDO.BasicIncome
SDO.Beach
SDO.BeautySalon
SDO.BedAndBreakfast
SDO.BedDetails
SDO.BedType
SDO.BefriendAction
SDO.BenefitsHealthAspect
SDO.BikeStore
SDO.BioChemEntity
SDO.Blog
SDO.BlogPosting
SDO.BloodTest
SDO.BoardingPolicyType
SDO.BoatReservation
SDO.BoatTerminal
SDO.BoatTrip
SDO.BodyMeasurementArm
SDO.BodyMeasurementBust
SDO.BodyMeasurementChest
SDO.BodyMeasurementFoot
SDO.BodyMeasurementHand
SDO.BodyMeasurementHead
SDO.BodyMeasurementHeight
SDO.BodyMeasurementHips
SDO.BodyMeasurementInsideLeg
SDO.BodyMeasurementNeck
SDO.BodyMeasurementTypeEnumeration
SDO.BodyMeasurementUnderbust
SDO.BodyMeasurementWaist
SDO.BodyMeasurementWeight
SDO.BodyOfWater
SDO.Bone
SDO.Book
SDO.BookFormatType
SDO.BookSeries
SDO.BookStore
SDO.BookmarkAction
SDO.Boolean
SDO.BorrowAction
SDO.BowlingAlley
SDO.BrainStructure
SDO.Brand
SDO.BreadcrumbList
SDO.Brewery
SDO.Bridge
SDO.BroadcastChannel
SDO.BroadcastEvent
SDO.BroadcastFrequencySpecification
SDO.BroadcastRelease
SDO.BroadcastService
SDO.BrokerageAccount
SDO.BuddhistTemple
SDO.BusOrCoach
SDO.BusReservation
SDO.BusStation
SDO.BusStop
SDO.BusTrip
SDO.BusinessAudience
SDO.BusinessEntityType
SDO.BusinessEvent
SDO.BusinessFunction
SDO.BusinessSupport
SDO.BuyAction
SDO.CDCPMDRecord
SDO.CDFormat
SDO.CT
SDO.CableOrSatelliteService
SDO.CafeOrCoffeeShop
SDO.Campground
SDO.CampingPitch
SDO.Canal
SDO.CancelAction
SDO.Car
SDO.CarUsageType
SDO.Cardiovascular
SDO.CardiovascularExam
SDO.CaseSeries
SDO.Casino
SDO.CassetteFormat
SDO.CategoryCode
SDO.CategoryCodeSet
SDO.CatholicChurch
SDO.CausesHealthAspect
SDO.Cemetery
SDO.Chapter
SDO.CharitableIncorporatedOrganization
SDO.CheckAction
SDO.CheckInAction
SDO.CheckOutAction
SDO.CheckoutPage
SDO.ChemicalSubstance
SDO.ChildCare
SDO.ChildrensEvent
SDO.Chiropractic
SDO.ChooseAction
SDO.Church
SDO.City
SDO.CityHall
SDO.CivicStructure
SDO.Claim
SDO.ClaimReview
SDO.Class
SDO.CleaningFee
SDO.Clinician
SDO.Clip
SDO.ClothingStore
SDO.CoOp
SDO.Code
SDO.CohortStudy
SDO.Collection
SDO.CollectionPage
SDO.CollegeOrUniversity
SDO.ComedyClub
SDO.ComedyEvent
SDO.ComicCoverArt
SDO.ComicIssue
SDO.ComicSeries
SDO.ComicStory
SDO.Comment
SDO.CommentAction
SDO.CommentPermission
SDO.CommunicateAction
SDO.CommunityHealth
SDO.CompilationAlbum
SDO.CompleteDataFeed
SDO.Completed
SDO.CompletedActionStatus
SDO.CompoundPriceSpecification
SDO.ComputerLanguage
SDO.ComputerStore
SDO.ConfirmAction
SDO.Consortium
SDO.ConsumeAction
SDO.ContactPage
SDO.ContactPoint
SDO.ContactPointOption
SDO.ContagiousnessHealthAspect
SDO.Continent
SDO.ControlAction
SDO.ConvenienceStore
SDO.Conversation
SDO.CookAction
SDO.Corporation
SDO.CorrectionComment
SDO.Country
SDO.Course
SDO.CourseInstance
SDO.Courthouse
SDO.CoverArt
SDO.CovidTestingFacility
SDO.CreateAction
SDO.CreativeWork
SDO.CreativeWorkSeason
SDO.CreativeWorkSeries
SDO.CreditCard
SDO.Crematorium
SDO.CriticReview
SDO.CrossSectional
SDO.CssSelectorType
SDO.CurrencyConversionService
SDO.DDxElement
SDO.DJMixAlbum
SDO.DVDFormat
SDO.DamagedCondition
SDO.DanceEvent
SDO.DanceGroup
SDO.DataCatalog
SDO.DataDownload
SDO.DataFeed
SDO.DataFeedItem
SDO.DataType
SDO.Dataset
SDO.Date
SDO.DateTime
SDO.DatedMoneySpecification
SDO.DayOfWeek
SDO.DaySpa
SDO.DeactivateAction
SDO.DecontextualizedContent
SDO.DefenceEstablishment
SDO.DefinedRegion
SDO.DefinedTerm
SDO.DefinedTermSet
SDO.DefinitiveLegalValue
SDO.DeleteAction
SDO.DeliveryChargeSpecification
SDO.DeliveryEvent
SDO.DeliveryMethod
SDO.DeliveryTimeSettings
SDO.Demand
SDO.DemoAlbum
SDO.Dentist
SDO.Dentistry
SDO.DepartAction
SDO.DepartmentStore
SDO.DepositAccount
SDO.Dermatologic
SDO.Dermatology
SDO.DiabeticDiet
SDO.Diagnostic
SDO.DiagnosticLab
SDO.DiagnosticProcedure
SDO.Diet
SDO.DietNutrition
SDO.DietarySupplement
SDO.DigitalAudioTapeFormat
SDO.DigitalDocument
SDO.DigitalDocumentPermission
SDO.DigitalDocumentPermissionType
SDO.DigitalFormat
SDO.DisabilitySupport
SDO.DisagreeAction
SDO.Discontinued
SDO.DiscoverAction
SDO.DiscussionForumPosting
SDO.DislikeAction
SDO.Distance
SDO.DistanceFee
SDO.Distillery
SDO.DonateAction
SDO.DoseSchedule
SDO.DoubleBlindedTrial
SDO.DownloadAction
SDO.Downpayment
SDO.DrawAction
SDO.Drawing
SDO.DrinkAction
SDO.DriveWheelConfigurationValue
SDO.DrivingSchoolVehicleUsage
SDO.Drug
SDO.DrugClass
SDO.DrugCost
SDO.DrugCostCategory
SDO.DrugLegalStatus
SDO.DrugPregnancyCategory
SDO.DrugPrescriptionStatus
SDO.DrugStrength
SDO.DryCleaningOrLaundry
SDO.Duration
SDO.EBook
SDO.EPRelease
SDO.EUEnergyEfficiencyCategoryA
SDO.EUEnergyEfficiencyCategoryA1Plus
SDO.EUEnergyEfficiencyCategoryA2Plus
SDO.EUEnergyEfficiencyCategoryA3Plus
SDO.EUEnergyEfficiencyCategoryB
SDO.EUEnergyEfficiencyCategoryC
SDO.EUEnergyEfficiencyCategoryD
SDO.EUEnergyEfficiencyCategoryE
SDO.EUEnergyEfficiencyCategoryF
SDO.EUEnergyEfficiencyCategoryG
SDO.EUEnergyEfficiencyEnumeration
SDO.Ear
SDO.EatAction
SDO.EditedOrCroppedContent
SDO.EducationEvent
SDO.EducationalAudience
SDO.EducationalOccupationalCredential
SDO.EducationalOccupationalProgram
SDO.EducationalOrganization
SDO.EffectivenessHealthAspect
SDO.Electrician
SDO.ElectronicsStore
SDO.ElementarySchool
SDO.EmailMessage
SDO.Embassy
SDO.Emergency
SDO.EmergencyService
SDO.EmployeeRole
SDO.EmployerAggregateRating
SDO.EmployerReview
SDO.EmploymentAgency
SDO.Endocrine
SDO.EndorseAction
SDO.EndorsementRating
SDO.Energy
SDO.EnergyConsumptionDetails
SDO.EnergyEfficiencyEnumeration
SDO.EnergyStarCertified
SDO.EnergyStarEnergyEfficiencyEnumeration
SDO.EngineSpecification
SDO.EnrollingByInvitation
SDO.EntertainmentBusiness
SDO.EntryPoint
SDO.Enumeration
SDO.Episode
SDO.Event
SDO.EventAttendanceModeEnumeration
SDO.EventCancelled
SDO.EventMovedOnline
SDO.EventPostponed
SDO.EventRescheduled
SDO.EventReservation
SDO.EventScheduled
SDO.EventSeries
SDO.EventStatusType
SDO.EventVenue
SDO.EvidenceLevelA
SDO.EvidenceLevelB
SDO.EvidenceLevelC
SDO.ExchangeRateSpecification
SDO.ExchangeRefund
SDO.ExerciseAction
SDO.ExerciseGym
SDO.ExercisePlan
SDO.ExhibitionEvent
SDO.Eye
SDO.FAQPage
SDO.FDAcategoryA
SDO.FDAcategoryB
SDO.FDAcategoryC
SDO.FDAcategoryD
SDO.FDAcategoryX
SDO.FDAnotEvaluated
SDO.FMRadioChannel
SDO.FailedActionStatus
SDO.FastFoodRestaurant
SDO.Female
SDO.Festival
SDO.FilmAction
SDO.FinancialProduct
SDO.FinancialService
SDO.FindAction
SDO.FireStation
SDO.Flexibility
SDO.Flight
SDO.FlightReservation
SDO.Float
SDO.FloorPlan
SDO.Florist
SDO.FollowAction
SDO.FoodEstablishment
SDO.FoodEstablishmentReservation
SDO.FoodEvent
SDO.FoodService
SDO.FourWheelDriveConfiguration
SDO.FreeReturn
SDO.Friday
SDO.FrontWheelDriveConfiguration
SDO.FullRefund
SDO.FundingAgency
SDO.FundingScheme
SDO.Fungus
SDO.FurnitureStore
SDO.Game
SDO.GamePlayMode
SDO.GameServer
SDO.GameServerStatus
SDO.GardenStore
SDO.GasStation
SDO.Gastroenterologic
SDO.GatedResidenceCommunity
SDO.GenderType
SDO.Gene
SDO.GeneralContractor
SDO.Genetic
SDO.Genitourinary
SDO.GeoCircle
SDO.GeoCoordinates
SDO.GeoShape
SDO.GeospatialGeometry
SDO.Geriatric
SDO.GettingAccessHealthAspect
SDO.GiveAction
SDO.GlutenFreeDiet
SDO.GolfCourse
SDO.GovernmentBenefitsType
SDO.GovernmentBuilding
SDO.GovernmentOffice
SDO.GovernmentOrganization
SDO.GovernmentPermit
SDO.GovernmentService
SDO.Grant
SDO.GraphicNovel
SDO.GroceryStore
SDO.GroupBoardingPolicy
SDO.Guide
SDO.Gynecologic
SDO.HVACBusiness
SDO.Hackathon
SDO.HairSalon
SDO.HalalDiet
SDO.Hardcover
SDO.HardwareStore
SDO.Head
SDO.HealthAndBeautyBusiness
SDO.HealthAspectEnumeration
SDO.HealthCare
SDO.HealthClub
SDO.HealthInsurancePlan
SDO.HealthPlanCostSharingSpecification
SDO.HealthPlanFormulary
SDO.HealthPlanNetwork
SDO.HealthTopicContent
SDO.HearingImpairedSupported
SDO.Hematologic
SDO.HighSchool
SDO.HinduDiet
SDO.HinduTemple
SDO.HobbyShop
SDO.HomeAndConstructionBusiness
SDO.HomeGoodsStore
SDO.Homeopathic
SDO.Hospital
SDO.Hostel
SDO.Hotel
SDO.HotelRoom
SDO.House
SDO.HousePainter
SDO.HowItWorksHealthAspect
SDO.HowOrWhereHealthAspect
SDO.HowTo
SDO.HowToDirection
SDO.HowToItem
SDO.HowToSection
SDO.HowToStep
SDO.HowToSupply
SDO.HowToTip
SDO.HowToTool
SDO.HyperToc
SDO.HyperTocEntry
SDO.IceCreamShop
SDO.IgnoreAction
SDO.ImageGallery
SDO.ImageObject
SDO.ImageObjectSnapshot
SDO.ImagingTest
SDO.InForce
SDO.InStock
SDO.InStoreOnly
SDO.IndividualProduct
SDO.Infectious
SDO.InfectiousAgentClass
SDO.InfectiousDisease
SDO.InformAction
SDO.IngredientsHealthAspect
SDO.InsertAction
SDO.InstallAction
SDO.Installment
SDO.InsuranceAgency
SDO.Intangible
SDO.Integer
SDO.InteractAction
SDO.InteractionCounter
SDO.InternationalTrial
SDO.InternetCafe
SDO.InvestmentFund
SDO.InvestmentOrDeposit
SDO.InviteAction
SDO.Invoice
SDO.InvoicePrice
SDO.ItemAvailability
SDO.ItemList
SDO.ItemListOrderAscending
SDO.ItemListOrderDescending
SDO.ItemListOrderType
SDO.ItemListUnordered
SDO.ItemPage
SDO.JewelryStore
SDO.JobPosting
SDO.JoinAction
SDO.Joint
SDO.KosherDiet
SDO.LaboratoryScience
SDO.LakeBodyOfWater
SDO.Landform
SDO.LandmarksOrHistoricalBuildings
SDO.Language
SDO.LaserDiscFormat
SDO.LearningResource
SDO.LeaveAction
SDO.LeftHandDriving
SDO.LegalForceStatus
SDO.LegalService
SDO.LegalValueLevel
SDO.Legislation
SDO.LegislationObject
SDO.LegislativeBuilding
SDO.LeisureTimeActivity
SDO.LendAction
SDO.Library
SDO.LibrarySystem
SDO.LifestyleModification
SDO.Ligament
SDO.LikeAction
SDO.LimitedAvailability
SDO.LimitedByGuaranteeCharity
SDO.LinkRole
SDO.LiquorStore
SDO.ListItem
SDO.ListPrice
SDO.ListenAction
SDO.LiteraryEvent
SDO.LiveAlbum
SDO.LiveBlogPosting
SDO.LivingWithHealthAspect
SDO.LoanOrCredit
SDO.LocalBusiness
SDO.LocationFeatureSpecification
SDO.LockerDelivery
SDO.Locksmith
SDO.LodgingBusiness
SDO.LodgingReservation
SDO.Longitudinal
SDO.LoseAction
SDO.LowCalorieDiet
SDO.LowFatDiet
SDO.LowLactoseDiet
SDO.LowSaltDiet
SDO.Lung
SDO.LymphaticVessel
SDO.MRI
SDO.MSRP
SDO.Male
SDO.Manuscript
SDO.Map
SDO.MapCategoryType
SDO.MarryAction
SDO.Mass
SDO.MathSolver
SDO.MaximumDoseSchedule
SDO.MayTreatHealthAspect
SDO.MeasurementTypeEnumeration
SDO.MediaGallery
SDO.MediaManipulationRatingEnumeration
SDO.MediaObject
SDO.MediaReview
SDO.MediaReviewItem
SDO.MediaSubscription
SDO.MedicalAudience
SDO.MedicalAudienceType
SDO.MedicalBusiness
SDO.MedicalCause
SDO.MedicalClinic
SDO.MedicalCode
SDO.MedicalCondition
SDO.MedicalConditionStage
SDO.MedicalContraindication
SDO.MedicalDevice
SDO.MedicalDevicePurpose
SDO.MedicalEntity
SDO.MedicalEnumeration
SDO.MedicalEvidenceLevel
SDO.MedicalGuideline
SDO.MedicalGuidelineContraindication
SDO.MedicalGuidelineRecommendation
SDO.MedicalImagingTechnique
SDO.MedicalIndication
SDO.MedicalIntangible
SDO.MedicalObservationalStudy
SDO.MedicalObservationalStudyDesign
SDO.MedicalOrganization
SDO.MedicalProcedure
SDO.MedicalProcedureType
SDO.MedicalResearcher
SDO.MedicalRiskCalculator
SDO.MedicalRiskEstimator
SDO.MedicalRiskFactor
SDO.MedicalRiskScore
SDO.MedicalScholarlyArticle
SDO.MedicalSign
SDO.MedicalSignOrSymptom
SDO.MedicalSpecialty
SDO.MedicalStudy
SDO.MedicalStudyStatus
SDO.MedicalSymptom
SDO.MedicalTest
SDO.MedicalTestPanel
SDO.MedicalTherapy
SDO.MedicalTrial
SDO.MedicalTrialDesign
SDO.MedicalWebPage
SDO.MedicineSystem
SDO.MeetingRoom
SDO.MensClothingStore
SDO.Menu
SDO.MenuItem
SDO.MenuSection
SDO.MerchantReturnEnumeration
SDO.MerchantReturnFiniteReturnWindow
SDO.MerchantReturnNotPermitted
SDO.MerchantReturnPolicy
SDO.MerchantReturnPolicySeasonalOverride
SDO.MerchantReturnUnlimitedWindow
SDO.MerchantReturnUnspecified
SDO.Message
SDO.MiddleSchool
SDO.Midwifery
SDO.MinimumAdvertisedPrice
SDO.MisconceptionsHealthAspect
SDO.MixedEventAttendanceMode
SDO.MixtapeAlbum
SDO.MobileApplication
SDO.MobilePhoneStore
SDO.MolecularEntity
SDO.Monday
SDO.MonetaryAmount
SDO.MonetaryAmountDistribution
SDO.MonetaryGrant
SDO.MoneyTransfer
SDO.MortgageLoan
SDO.Mosque
SDO.Motel
SDO.Motorcycle
SDO.MotorcycleDealer
SDO.MotorcycleRepair
SDO.MotorizedBicycle
SDO.Mountain
SDO.MoveAction
SDO.Movie
SDO.MovieClip
SDO.MovieRentalStore
SDO.MovieSeries
SDO.MovieTheater
SDO.MovingCompany
SDO.MultiCenterTrial
SDO.MultiPlayer
SDO.MulticellularParasite
SDO.Muscle
SDO.Musculoskeletal
SDO.MusculoskeletalExam
SDO.Museum
SDO.MusicAlbum
SDO.MusicAlbumProductionType
SDO.MusicAlbumReleaseType
SDO.MusicComposition
SDO.MusicEvent
SDO.MusicGroup
SDO.MusicPlaylist
SDO.MusicRecording
SDO.MusicRelease
SDO.MusicReleaseFormatType
SDO.MusicStore
SDO.MusicVenue
SDO.MusicVideoObject
SDO.NGO
SDO.NLNonprofitType
SDO.NailSalon
SDO.Neck
SDO.Nerve
SDO.Neuro
SDO.Neurologic
SDO.NewCondition
SDO.NewsArticle
SDO.NewsMediaOrganization
SDO.Newspaper
SDO.NightClub
SDO.NoninvasiveProcedure
SDO.Nonprofit501a
SDO.Nonprofit501c1
SDO.Nonprofit501c10
SDO.Nonprofit501c11
SDO.Nonprofit501c12
SDO.Nonprofit501c13
SDO.Nonprofit501c14
SDO.Nonprofit501c15
SDO.Nonprofit501c16
SDO.Nonprofit501c17
SDO.Nonprofit501c18
SDO.Nonprofit501c19
SDO.Nonprofit501c2
SDO.Nonprofit501c20
SDO.Nonprofit501c21
SDO.Nonprofit501c22
SDO.Nonprofit501c23
SDO.Nonprofit501c24
SDO.Nonprofit501c25
SDO.Nonprofit501c26
SDO.Nonprofit501c27
SDO.Nonprofit501c28
SDO.Nonprofit501c3
SDO.Nonprofit501c4
SDO.Nonprofit501c5
SDO.Nonprofit501c6
SDO.Nonprofit501c7
SDO.Nonprofit501c8
SDO.Nonprofit501c9
SDO.Nonprofit501d
SDO.Nonprofit501e
SDO.Nonprofit501f
SDO.Nonprofit501k
SDO.Nonprofit501n
SDO.Nonprofit501q
SDO.Nonprofit527
SDO.NonprofitANBI
SDO.NonprofitSBBI
SDO.NonprofitType
SDO.Nose
SDO.NotInForce
SDO.NotYetRecruiting
SDO.Notary
SDO.NoteDigitalDocument
SDO.Number
SDO.Nursing
SDO.NutritionInformation
SDO.OTC
SDO.Observation
SDO.Observational
SDO.Obstetric
SDO.Occupation
SDO.OccupationalActivity
SDO.OccupationalExperienceRequirements
SDO.OccupationalTherapy
SDO.OceanBodyOfWater
SDO.Offer
SDO.OfferCatalog
SDO.OfferForLease
SDO.OfferForPurchase
SDO.OfferItemCondition
SDO.OfferShippingDetails
SDO.OfficeEquipmentStore
SDO.OfficialLegalValue
SDO.OfflineEventAttendanceMode
SDO.OfflinePermanently
SDO.OfflineTemporarily
SDO.OnDemandEvent
SDO.OnSitePickup
SDO.Oncologic
SDO.OneTimePayments
SDO.Online
SDO.OnlineEventAttendanceMode
SDO.OnlineFull
SDO.OnlineOnly
SDO.OpenTrial
SDO.OpeningHoursSpecification
SDO.OpinionNewsArticle
SDO.Optician
SDO.Optometric
SDO.Order
SDO.OrderAction
SDO.OrderCancelled
SDO.OrderDelivered
SDO.OrderInTransit
SDO.OrderItem
SDO.OrderPaymentDue
SDO.OrderPickupAvailable
SDO.OrderProblem
SDO.OrderProcessing
SDO.OrderReturned
SDO.OrderStatus
SDO.Organization
SDO.OrganizationRole
SDO.OrganizeAction
SDO.OriginalMediaContent
SDO.OriginalShippingFees
SDO.Osteopathic
SDO.Otolaryngologic
SDO.OutOfStock
SDO.OutletStore
SDO.OverviewHealthAspect
SDO.OwnershipInfo
SDO.PET
SDO.PaidLeave
SDO.PaintAction
SDO.Painting
SDO.PalliativeProcedure
SDO.Paperback
SDO.ParcelDelivery
SDO.ParcelService
SDO.ParentAudience
SDO.ParentalSupport
SDO.Park
SDO.ParkingFacility
SDO.ParkingMap
SDO.PartiallyInForce
SDO.Pathology
SDO.PathologyTest
SDO.Patient
SDO.PatientExperienceHealthAspect
SDO.PawnShop
SDO.PayAction
SDO.PaymentAutomaticallyApplied
SDO.PaymentCard
SDO.PaymentChargeSpecification
SDO.PaymentComplete
SDO.PaymentDeclined
SDO.PaymentDue
SDO.PaymentMethod
SDO.PaymentPastDue
SDO.PaymentService
SDO.PaymentStatusType
SDO.Pediatric
SDO.PeopleAudience
SDO.PercutaneousProcedure
SDO.PerformAction
SDO.PerformanceRole
SDO.PerformingArtsTheater
SDO.PerformingGroup
SDO.Periodical
SDO.Permit
SDO.Person
SDO.PetStore
SDO.Pharmacy
SDO.PharmacySpecialty
SDO.Photograph
SDO.PhotographAction
SDO.PhysicalActivity
SDO.PhysicalActivityCategory
SDO.PhysicalExam
SDO.PhysicalTherapy
SDO.Physician
SDO.Physiotherapy
SDO.Place
SDO.PlaceOfWorship
SDO.PlaceboControlledTrial
SDO.PlanAction
SDO.PlasticSurgery
SDO.Play
SDO.PlayAction
SDO.Playground
SDO.Plumber
SDO.PodcastEpisode
SDO.PodcastSeason
SDO.PodcastSeries
SDO.Podiatric
SDO.PoliceStation
SDO.Pond
SDO.PostOffice
SDO.PostalAddress
SDO.PostalCodeRangeSpecification
SDO.Poster
SDO.PotentialActionStatus
SDO.PreOrder
SDO.PreOrderAction
SDO.PreSale
SDO.PregnancyHealthAspect
SDO.PrependAction
SDO.Preschool
SDO.PrescriptionOnly
SDO.PresentationDigitalDocument
SDO.PreventionHealthAspect
SDO.PreventionIndication
SDO.PriceComponentTypeEnumeration
SDO.PriceSpecification
SDO.PriceTypeEnumeration
SDO.PrimaryCare
SDO.Prion
SDO.Product
SDO.ProductCollection
SDO.ProductGroup
SDO.ProductModel
SDO.ProfessionalService
SDO.ProfilePage
SDO.PrognosisHealthAspect
SDO.ProgramMembership
SDO.Project
SDO.PronounceableText
SDO.Property
SDO.PropertyValue
SDO.PropertyValueSpecification
SDO.Protein
SDO.Protozoa
SDO.Psychiatric
SDO.PsychologicalTreatment
SDO.PublicHealth
SDO.PublicHolidays
SDO.PublicSwimmingPool
SDO.PublicToilet
SDO.PublicationEvent
SDO.PublicationIssue
SDO.PublicationVolume
SDO.Pulmonary
SDO.QAPage
SDO.QualitativeValue
SDO.QuantitativeValue
SDO.QuantitativeValueDistribution
SDO.Quantity
SDO.Question
SDO.Quiz
SDO.Quotation
SDO.QuoteAction
SDO.RVPark
SDO.RadiationTherapy
SDO.RadioBroadcastService
SDO.RadioChannel
SDO.RadioClip
SDO.RadioEpisode
SDO.RadioSeason
SDO.RadioSeries
SDO.RadioStation
SDO.Radiography
SDO.RandomizedTrial
SDO.Rating
SDO.ReactAction
SDO.ReadAction
SDO.ReadPermission
SDO.RealEstateAgent
SDO.RealEstateListing
SDO.RearWheelDriveConfiguration
SDO.ReceiveAction
SDO.Recipe
SDO.Recommendation
SDO.RecommendedDoseSchedule
SDO.Recruiting
SDO.RecyclingCenter
SDO.RefundTypeEnumeration
SDO.RefurbishedCondition
SDO.RegisterAction
SDO.Registry
SDO.ReimbursementCap
SDO.RejectAction
SDO.RelatedTopicsHealthAspect
SDO.RemixAlbum
SDO.Renal
SDO.RentAction
SDO.RentalCarReservation
SDO.RentalVehicleUsage
SDO.RepaymentSpecification
SDO.ReplaceAction
SDO.ReplyAction
SDO.Report
SDO.ReportageNewsArticle
SDO.ReportedDoseSchedule
SDO.ResearchOrganization
SDO.ResearchProject
SDO.Researcher
SDO.Reservation
SDO.ReservationCancelled
SDO.ReservationConfirmed
SDO.ReservationHold
SDO.ReservationPackage
SDO.ReservationPending
SDO.ReservationStatusType
SDO.ReserveAction
SDO.Reservoir
SDO.Residence
SDO.Resort
SDO.RespiratoryTherapy
SDO.Restaurant
SDO.RestockingFees
SDO.RestrictedDiet
SDO.ResultsAvailable
SDO.ResultsNotAvailable
SDO.ResumeAction
SDO.Retail
SDO.ReturnAction
SDO.ReturnAtKiosk
SDO.ReturnByMail
SDO.ReturnFeesCustomerResponsibility
SDO.ReturnFeesEnumeration
SDO.ReturnInStore
SDO.ReturnLabelCustomerResponsibility
SDO.ReturnLabelDownloadAndPrint
SDO.ReturnLabelInBox
SDO.ReturnLabelSourceEnumeration
SDO.ReturnMethodEnumeration
SDO.ReturnShippingFees
SDO.Review
SDO.ReviewAction
SDO.ReviewNewsArticle
SDO.Rheumatologic
SDO.RightHandDriving
SDO.RisksOrComplicationsHealthAspect
SDO.RiverBodyOfWater
SDO.Role
SDO.RoofingContractor
SDO.Room
SDO.RsvpAction
SDO.RsvpResponseMaybe
SDO.RsvpResponseNo
SDO.RsvpResponseType
SDO.RsvpResponseYes
SDO.SRP
SDO.SafetyHealthAspect
SDO.SaleEvent
SDO.SalePrice
SDO.SatireOrParodyContent
SDO.SatiricalArticle
SDO.Saturday
SDO.Schedule
SDO.ScheduleAction
SDO.ScholarlyArticle
SDO.School
SDO.SchoolDistrict
SDO.ScreeningEvent
SDO.ScreeningHealthAspect
SDO.Sculpture
SDO.SeaBodyOfWater
SDO.SearchAction
SDO.SearchResultsPage
SDO.Season
SDO.Seat
SDO.SeatingMap
SDO.SeeDoctorHealthAspect
SDO.SeekToAction
SDO.SelfCareHealthAspect
SDO.SelfStorage
SDO.SellAction
SDO.SendAction
SDO.Series
SDO.Service
SDO.ServiceChannel
SDO.ShareAction
SDO.SheetMusic
SDO.ShippingDeliveryTime
SDO.ShippingRateSettings
SDO.ShoeStore
SDO.ShoppingCenter
SDO.ShortStory
SDO.SideEffectsHealthAspect
SDO.SingleBlindedTrial
SDO.SingleCenterTrial
SDO.SingleFamilyResidence
SDO.SinglePlayer
SDO.SingleRelease
SDO.SiteNavigationElement
SDO.SizeGroupEnumeration
SDO.SizeSpecification
SDO.SizeSystemEnumeration
SDO.SizeSystemImperial
SDO.SizeSystemMetric
SDO.SkiResort
SDO.Skin
SDO.SocialEvent
SDO.SocialMediaPosting
SDO.SoftwareApplication
SDO.SoftwareSourceCode
SDO.SoldOut
SDO.SolveMathAction
SDO.SomeProducts
SDO.SoundtrackAlbum
SDO.SpeakableSpecification
SDO.SpecialAnnouncement
SDO.Specialty
SDO.SpeechPathology
SDO.SpokenWordAlbum
SDO.SportingGoodsStore
SDO.SportsActivityLocation
SDO.SportsClub
SDO.SportsEvent
SDO.SportsOrganization
SDO.SportsTeam
SDO.SpreadsheetDigitalDocument
SDO.StadiumOrArena
SDO.StagedContent
SDO.StagesHealthAspect
SDO.State
SDO.Statement
SDO.StatisticalPopulation
SDO.StatusEnumeration
SDO.SteeringPositionValue
SDO.Store
SDO.StoreCreditRefund
SDO.StrengthTraining
SDO.StructuredValue
SDO.StudioAlbum
SDO.SubscribeAction
SDO.Subscription
SDO.Substance
SDO.SubwayStation
SDO.Suite
SDO.Sunday
SDO.SuperficialAnatomy
SDO.Surgical
SDO.SurgicalProcedure
SDO.SuspendAction
SDO.Suspended
SDO.SymptomsHealthAspect
SDO.Synagogue
SDO.TVClip
SDO.TVEpisode
SDO.TVSeason
SDO.TVSeries
SDO.Table
SDO.TakeAction
SDO.TattooParlor
SDO.Taxi
SDO.TaxiReservation
SDO.TaxiService
SDO.TaxiStand
SDO.TaxiVehicleUsage
SDO.Taxon
SDO.TechArticle
SDO.TelevisionChannel
SDO.TelevisionStation
SDO.TennisComplex
SDO.Terminated
SDO.Text
SDO.TextDigitalDocument
SDO.TheaterEvent
SDO.TheaterGroup
SDO.Therapeutic
SDO.TherapeuticProcedure
SDO.Thesis
SDO.Thing
SDO.Throat
SDO.Thursday
SDO.Ticket
SDO.TieAction
SDO.Time
SDO.TipAction
SDO.TireShop
SDO.TollFree
SDO.TouristAttraction
SDO.TouristDestination
SDO.TouristInformationCenter
SDO.TouristTrip
SDO.Toxicologic
SDO.ToyStore
SDO.TrackAction
SDO.TradeAction
SDO.TraditionalChinese
SDO.TrainReservation
SDO.TrainStation
SDO.TrainTrip
SDO.TransferAction
SDO.TransformedContent
SDO.TransitMap
SDO.TravelAction
SDO.TravelAgency
SDO.TreatmentIndication
SDO.TreatmentsHealthAspect
SDO.Trip
SDO.TripleBlindedTrial
SDO.Tuesday
SDO.TypeAndQuantityNode
SDO.TypesHealthAspect
SDO.UKNonprofitType
SDO.UKTrust
SDO.URL
SDO.USNonprofitType
SDO.Ultrasound
SDO.UnRegisterAction
SDO.UnemploymentSupport
SDO.UnincorporatedAssociationCharity
SDO.UnitPriceSpecification
SDO.UnofficialLegalValue
SDO.UpdateAction
SDO.Urologic
SDO.UsageOrScheduleHealthAspect
SDO.UseAction
SDO.UsedCondition
SDO.UserBlocks
SDO.UserCheckins
SDO.UserComments
SDO.UserDownloads
SDO.UserInteraction
SDO.UserLikes
SDO.UserPageVisits
SDO.UserPlays
SDO.UserPlusOnes
SDO.UserReview
SDO.UserTweets
SDO.VeganDiet
SDO.VegetarianDiet
SDO.Vehicle
SDO.Vein
SDO.VenueMap
SDO.Vessel
SDO.VeterinaryCare
SDO.VideoGallery
SDO.VideoGame
SDO.VideoGameClip
SDO.VideoGameSeries
SDO.VideoObject
SDO.VideoObjectSnapshot
SDO.ViewAction
SDO.VinylFormat
SDO.VirtualLocation
SDO.Virus
SDO.VisualArtsEvent
SDO.VisualArtwork
SDO.VitalSign
SDO.Volcano
SDO.VoteAction
SDO.WPAdBlock
SDO.WPFooter
SDO.WPHeader
SDO.WPSideBar
SDO.WantAction
SDO.WarrantyPromise
SDO.WarrantyScope
SDO.WatchAction
SDO.Waterfall
SDO.WearAction
SDO.WearableMeasurementBack
SDO.WearableMeasurementChestOrBust
SDO.WearableMeasurementCollar
SDO.WearableMeasurementCup
SDO.WearableMeasurementHeight
SDO.WearableMeasurementHips
SDO.WearableMeasurementInseam
SDO.WearableMeasurementLength
SDO.WearableMeasurementOutsideLeg
SDO.WearableMeasurementSleeve
SDO.WearableMeasurementTypeEnumeration
SDO.WearableMeasurementWaist
SDO.WearableMeasurementWidth
SDO.WearableSizeGroupBig
SDO.WearableSizeGroupBoys
SDO.WearableSizeGroupEnumeration
SDO.WearableSizeGroupExtraShort
SDO.WearableSizeGroupExtraTall
SDO.WearableSizeGroupGirls
SDO.WearableSizeGroupHusky
SDO.WearableSizeGroupInfants
SDO.WearableSizeGroupJuniors
SDO.WearableSizeGroupMaternity
SDO.WearableSizeGroupMens
SDO.WearableSizeGroupMisses
SDO.WearableSizeGroupPetite
SDO.WearableSizeGroupPlus
SDO.WearableSizeGroupRegular
SDO.WearableSizeGroupShort
SDO.WearableSizeGroupTall
SDO.WearableSizeGroupWomens
SDO.WearableSizeSystemAU
SDO.WearableSizeSystemBR
SDO.WearableSizeSystemCN
SDO.WearableSizeSystemContinental
SDO.WearableSizeSystemDE
SDO.WearableSizeSystemEN13402
SDO.WearableSizeSystemEnumeration
SDO.WearableSizeSystemEurope
SDO.WearableSizeSystemFR
SDO.WearableSizeSystemGS1
SDO.WearableSizeSystemIT
SDO.WearableSizeSystemJP
SDO.WearableSizeSystemMX
SDO.WearableSizeSystemUK
SDO.WearableSizeSystemUS
SDO.WebAPI
SDO.WebApplication
SDO.WebContent
SDO.WebPage
SDO.WebPageElement
SDO.WebSite
SDO.Wednesday
SDO.WesternConventional
SDO.Wholesale
SDO.WholesaleStore
SDO.WinAction
SDO.Winery
SDO.Withdrawn
SDO.WorkBasedProgram
SDO.WorkersUnion
SDO.WriteAction
SDO.WritePermission
SDO.XPathType
SDO.XRay
SDO.ZoneBoardingPolicy
SDO.Zoo
SDO.about
SDO.abridged
SDO.abstract
SDO.accelerationTime
SDO.acceptedAnswer
SDO.acceptedOffer
SDO.acceptedPaymentMethod
SDO.acceptsReservations
SDO.accessCode
SDO.accessMode
SDO.accessModeSufficient
SDO.accessibilityAPI
SDO.accessibilityControl
SDO.accessibilityFeature
SDO.accessibilityHazard
SDO.accessibilitySummary
SDO.accommodationCategory
SDO.accommodationFloorPlan
SDO.accountId
SDO.accountMinimumInflow
SDO.accountOverdraftLimit
SDO.accountablePerson
SDO.acquireLicensePage
SDO.acquiredFrom
SDO.acrissCode
SDO.actionAccessibilityRequirement
SDO.actionApplication
SDO.actionOption
SDO.actionPlatform
SDO.actionStatus
SDO.actionableFeedbackPolicy
SDO.activeIngredient
SDO.activityDuration
SDO.activityFrequency
SDO.actor
SDO.actors
SDO.addOn
SDO.additionalName
SDO.additionalNumberOfGuests
SDO.additionalProperty
SDO.additionalType
SDO.additionalVariable
SDO.address
SDO.addressCountry
SDO.addressLocality
SDO.addressRegion
SDO.administrationRoute
SDO.advanceBookingRequirement
SDO.adverseOutcome
SDO.affectedBy
SDO.affiliation
SDO.afterMedia
SDO.agent
SDO.aggregateRating
SDO.aircraft
SDO.album
SDO.albumProductionType
SDO.albumRelease
SDO.albumReleaseType
SDO.albums
SDO.alcoholWarning
SDO.algorithm
SDO.alignmentType
SDO.alternateName
SDO.alternativeHeadline
SDO.alternativeOf
SDO.alumni
SDO.alumniOf
SDO.amenityFeature
SDO.amount
SDO.amountOfThisGood
SDO.announcementLocation
SDO.annualPercentageRate
SDO.answerCount
SDO.answerExplanation
SDO.antagonist
SDO.appearance
SDO.applicableLocation
SDO.applicantLocationRequirements
SDO.application
SDO.applicationCategory
SDO.applicationContact
SDO.applicationDeadline
SDO.applicationStartDate
SDO.applicationSubCategory
SDO.applicationSuite
SDO.appliesToDeliveryMethod
SDO.appliesToPaymentMethod
SDO.archiveHeld
SDO.archivedAt
SDO.area
SDO.areaServed
SDO.arrivalAirport
SDO.arrivalBoatTerminal
SDO.arrivalBusStop
SDO.arrivalGate
SDO.arrivalPlatform
SDO.arrivalStation
SDO.arrivalTerminal
SDO.arrivalTime
SDO.artEdition
SDO.artMedium
SDO.arterialBranch
SDO.artform
SDO.articleBody
SDO.articleSection
SDO.artist
SDO.artworkSurface
SDO.aspect
SDO.assembly
SDO.assemblyVersion
SDO.assesses
SDO.associatedAnatomy
SDO.associatedArticle
SDO.associatedClaimReview
SDO.associatedDisease
SDO.associatedMedia
SDO.associatedMediaReview
SDO.associatedPathophysiology
SDO.associatedReview
SDO.athlete
SDO.attendee
SDO.attendees
SDO.audience
SDO.audienceType
SDO.audio
SDO.authenticator
SDO.author
SDO.availability
SDO.availabilityEnds
SDO.availabilityStarts
SDO.availableAtOrFrom
SDO.availableChannel
SDO.availableDeliveryMethod
SDO.availableFrom
SDO.availableIn
SDO.availableLanguage
SDO.availableOnDevice
SDO.availableService
SDO.availableStrength
SDO.availableTest
SDO.availableThrough
SDO.award
SDO.awards
SDO.awayTeam
SDO.backstory
SDO.bankAccountType
SDO.baseSalary
SDO.bccRecipient
SDO.bed
SDO.beforeMedia
SDO.beneficiaryBank
SDO.benefits
SDO.benefitsSummaryUrl
SDO.bestRating
SDO.billingAddress
SDO.billingDuration
SDO.billingIncrement
SDO.billingPeriod
SDO.billingStart
SDO.bioChemInteraction
SDO.bioChemSimilarity
SDO.biologicalRole
SDO.biomechnicalClass
SDO.birthDate
SDO.birthPlace
SDO.bitrate
SDO.blogPost
SDO.blogPosts
SDO.bloodSupply
SDO.boardingGroup
SDO.boardingPolicy
SDO.bodyLocation
SDO.bodyType
SDO.bookEdition
SDO.bookFormat
SDO.bookingAgent
SDO.bookingTime
SDO.borrower
SDO.box
SDO.branch
SDO.branchCode
SDO.branchOf
SDO.brand
SDO.breadcrumb
SDO.breastfeedingWarning
SDO.broadcastAffiliateOf
SDO.broadcastChannelId
SDO.broadcastDisplayName
SDO.broadcastFrequency
SDO.broadcastFrequencyValue
SDO.broadcastOfEvent
SDO.broadcastServiceTier
SDO.broadcastSignalModulation
SDO.broadcastSubChannel
SDO.broadcastTimezone
SDO.broadcaster
SDO.broker
SDO.browserRequirements
SDO.busName
SDO.busNumber
SDO.businessDays
SDO.businessFunction
SDO.buyer
SDO.byArtist
SDO.byDay
SDO.byMonth
SDO.byMonthDay
SDO.byMonthWeek
SDO.callSign
SDO.calories
SDO.candidate
SDO.caption
SDO.carbohydrateContent
SDO.cargoVolume
SDO.carrier
SDO.carrierRequirements
SDO.cashBack
SDO.catalog
SDO.catalogNumber
SDO.category
SDO.causeOf
SDO.ccRecipient
SDO.character
SDO.characterAttribute
SDO.characterName
SDO.cheatCode
SDO.checkinTime
SDO.checkoutTime
SDO.chemicalComposition
SDO.chemicalRole
SDO.childMaxAge
SDO.childMinAge
SDO.childTaxon
SDO.children
SDO.cholesterolContent
SDO.circle
SDO.citation
SDO.claimInterpreter
SDO.claimReviewed
SDO.clincalPharmacology
SDO.clinicalPharmacology
SDO.clipNumber
SDO.closes
SDO.coach
SDO.code
SDO.codeRepository
SDO.codeSampleType
SDO.codeValue
SDO.codingSystem
SDO.colleague
SDO.colleagues
SDO.collection
SDO.collectionSize
SDO.color
SDO.colorist
SDO.comment
SDO.commentCount
SDO.commentText
SDO.commentTime
SDO.competencyRequired
SDO.competitor
SDO.composer
SDO.comprisedOf
SDO.conditionsOfAccess
SDO.confirmationNumber
SDO.connectedTo
SDO.constrainingProperty
SDO.contactOption
SDO.contactPoint
SDO.contactPoints
SDO.contactType
SDO.contactlessPayment
SDO.containedIn
SDO.containedInPlace
SDO.containsPlace
SDO.containsSeason
SDO.contentLocation
SDO.contentRating
SDO.contentReferenceTime
SDO.contentSize
SDO.contentType
SDO.contentUrl
SDO.contraindication
SDO.contributor
SDO.cookTime
SDO.cookingMethod
SDO.copyrightHolder
SDO.copyrightNotice
SDO.copyrightYear
SDO.correction
SDO.correctionsPolicy
SDO.costCategory
SDO.costCurrency
SDO.costOrigin
SDO.costPerUnit
SDO.countriesNotSupported
SDO.countriesSupported
SDO.countryOfAssembly
SDO.countryOfLastProcessing
SDO.countryOfOrigin
SDO.course
SDO.courseCode
SDO.courseMode
SDO.coursePrerequisites
SDO.courseWorkload
SDO.coverageEndTime
SDO.coverageStartTime
SDO.creativeWorkStatus
SDO.creator
SDO.credentialCategory
SDO.creditText
SDO.creditedTo
SDO.cssSelector
SDO.currenciesAccepted
SDO.currency
SDO.currentExchangeRate
SDO.customer
SDO.customerRemorseReturnFees
SDO.customerRemorseReturnLabelSource
SDO.customerRemorseReturnShippingFeesAmount
SDO.cutoffTime
SDO.cvdCollectionDate
SDO.cvdFacilityCounty
SDO.cvdFacilityId
SDO.cvdNumBeds
SDO.cvdNumBedsOcc
SDO.cvdNumC19Died
SDO.cvdNumC19HOPats
SDO.cvdNumC19HospPats
SDO.cvdNumC19MechVentPats
SDO.cvdNumC19OFMechVentPats
SDO.cvdNumC19OverflowPats
SDO.cvdNumICUBeds
SDO.cvdNumICUBedsOcc
SDO.cvdNumTotBeds
SDO.cvdNumVent
SDO.cvdNumVentUse
SDO.dataFeedElement
SDO.dataset
SDO.datasetTimeInterval
SDO.dateCreated
SDO.dateDeleted
SDO.dateIssued
SDO.dateModified
SDO.datePosted
SDO.datePublished
SDO.dateRead
SDO.dateReceived
SDO.dateSent
SDO.dateVehicleFirstRegistered
SDO.dateline
SDO.dayOfWeek
SDO.deathDate
SDO.deathPlace
SDO.defaultValue
SDO.deliveryAddress
SDO.deliveryLeadTime
SDO.deliveryMethod
SDO.deliveryStatus
SDO.deliveryTime
SDO.department
SDO.departureAirport
SDO.departureBoatTerminal
SDO.departureBusStop
SDO.departureGate
SDO.departurePlatform
SDO.departureStation
SDO.departureTerminal
SDO.departureTime
SDO.dependencies
SDO.depth
SDO.description
SDO.device
SDO.diagnosis
SDO.diagram
SDO.diet
SDO.dietFeatures
SDO.differentialDiagnosis
SDO.directApply
SDO.director
SDO.directors
SDO.disambiguatingDescription
SDO.discount
SDO.discountCode
SDO.discountCurrency
SDO.discusses
SDO.discussionUrl
SDO.diseasePreventionInfo
SDO.diseaseSpreadStatistics
SDO.dissolutionDate
SDO.distance
SDO.distinguishingSign
SDO.distribution
SDO.diversityPolicy
SDO.diversityStaffingReport
SDO.documentation
SDO.doesNotShip
SDO.domainIncludes
SDO.domiciledMortgage
SDO.doorTime
SDO.dosageForm
SDO.doseSchedule
SDO.doseUnit
SDO.doseValue
SDO.downPayment
SDO.downloadUrl
SDO.downvoteCount
SDO.drainsTo
SDO.driveWheelConfiguration
SDO.dropoffLocation
SDO.dropoffTime
SDO.drug
SDO.drugClass
SDO.drugUnit
SDO.duns
SDO.duplicateTherapy
SDO.duration
SDO.durationOfWarranty
SDO.duringMedia
SDO.earlyPrepaymentPenalty
SDO.editEIDR
SDO.editor
SDO.eduQuestionType
SDO.educationRequirements
SDO.educationalAlignment
SDO.educationalCredentialAwarded
SDO.educationalFramework
SDO.educationalLevel
SDO.educationalProgramMode
SDO.educationalRole
SDO.educationalUse
SDO.elevation
SDO.eligibilityToWorkRequirement
SDO.eligibleCustomerType
SDO.eligibleDuration
SDO.eligibleQuantity
SDO.eligibleRegion
SDO.eligibleTransactionVolume
SDO.email
SDO.embedUrl
SDO.embeddedTextCaption
SDO.emissionsCO2
SDO.employee
SDO.employees
SDO.employerOverview
SDO.employmentType
SDO.employmentUnit
SDO.encodesBioChemEntity
SDO.encodesCreativeWork
SDO.encoding
SDO.encodingFormat
SDO.encodingType
SDO.encodings
SDO.endDate
SDO.endOffset
SDO.endTime
SDO.endorsee
SDO.endorsers
SDO.energyEfficiencyScaleMax
SDO.energyEfficiencyScaleMin
SDO.engineDisplacement
SDO.enginePower
SDO.engineType
SDO.entertainmentBusiness
SDO.epidemiology
SDO.episode
SDO.episodeNumber
SDO.episodes
SDO.equal
SDO.error
SDO.estimatedCost
SDO.estimatedFlightDuration
SDO.estimatedSalary
SDO.estimatesRiskOf
SDO.ethicsPolicy
SDO.event
SDO.eventAttendanceMode
SDO.eventSchedule
SDO.eventStatus
SDO.events
SDO.evidenceLevel
SDO.evidenceOrigin
SDO.exampleOfWork
SDO.exceptDate
SDO.exchangeRateSpread
SDO.executableLibraryName
SDO.exerciseCourse
SDO.exercisePlan
SDO.exerciseRelatedDiet
SDO.exerciseType
SDO.exifData
SDO.expectedArrivalFrom
SDO.expectedArrivalUntil
SDO.expectedPrognosis
SDO.expectsAcceptanceOf
SDO.experienceInPlaceOfEducation
SDO.experienceRequirements
SDO.expertConsiderations
SDO.expires
SDO.expressedIn
SDO.familyName
SDO.fatContent
SDO.faxNumber
SDO.featureList
SDO.feesAndCommissionsSpecification
SDO.fiberContent
SDO.fileFormat
SDO.fileSize
SDO.financialAidEligible
SDO.firstAppearance
SDO.firstPerformance
SDO.flightDistance
SDO.flightNumber
SDO.floorLevel
SDO.floorLimit
SDO.floorSize
SDO.followee
SDO.follows
SDO.followup
SDO.foodEstablishment
SDO.foodEvent
SDO.foodWarning
SDO.founder
SDO.founders
SDO.foundingDate
SDO.foundingLocation
SDO.free
SDO.freeShippingThreshold
SDO.frequency
SDO.fromLocation
SDO.fuelCapacity
SDO.fuelConsumption
SDO.fuelEfficiency
SDO.fuelType
SDO.functionalClass
SDO.fundedItem
SDO.funder
SDO.game
SDO.gameItem
SDO.gameLocation
SDO.gamePlatform
SDO.gameServer
SDO.gameTip
SDO.gender
SDO.genre
SDO.geo
SDO.geoContains
SDO.geoCoveredBy
SDO.geoCovers
SDO.geoCrosses
SDO.geoDisjoint
SDO.geoEquals
SDO.geoIntersects
SDO.geoMidpoint
SDO.geoOverlaps
SDO.geoRadius
SDO.geoTouches
SDO.geoWithin
SDO.geographicArea
SDO.gettingTestedInfo
SDO.givenName
SDO.globalLocationNumber
SDO.governmentBenefitsInfo
SDO.gracePeriod
SDO.grantee
SDO.greater
SDO.greaterOrEqual
SDO.gtin
SDO.gtin12
SDO.gtin13
SDO.gtin14
SDO.gtin8
SDO.guideline
SDO.guidelineDate
SDO.guidelineSubject
SDO.handlingTime
SDO.hasBioChemEntityPart
SDO.hasBioPolymerSequence
SDO.hasBroadcastChannel
SDO.hasCategoryCode
SDO.hasCourse
SDO.hasCourseInstance
SDO.hasCredential
SDO.hasDefinedTerm
SDO.hasDeliveryMethod
SDO.hasDigitalDocumentPermission
SDO.hasDriveThroughService
SDO.hasEnergyConsumptionDetails
SDO.hasEnergyEfficiencyCategory
SDO.hasHealthAspect
SDO.hasMap
SDO.hasMeasurement
SDO.hasMenu
SDO.hasMenuItem
SDO.hasMenuSection
SDO.hasMerchantReturnPolicy
SDO.hasMolecularFunction
SDO.hasOccupation
SDO.hasOfferCatalog
SDO.hasPOS
SDO.hasPart
SDO.hasRepresentation
SDO.hasVariant
SDO.headline
SDO.healthCondition
SDO.healthPlanCoinsuranceOption
SDO.healthPlanCoinsuranceRate
SDO.healthPlanCopay
SDO.healthPlanCopayOption
SDO.healthPlanCostSharing
SDO.healthPlanDrugOption
SDO.healthPlanDrugTier
SDO.healthPlanId
SDO.healthPlanMarketingUrl
SDO.healthPlanNetworkId
SDO.healthPlanNetworkTier
SDO.healthPlanPharmacyCategory
SDO.healthcareReportingData
SDO.height
SDO.highPrice
SDO.hiringOrganization
SDO.holdingArchive
SDO.homeLocation
SDO.homeTeam
SDO.honorificPrefix
SDO.honorificSuffix
SDO.hospitalAffiliation
SDO.hostingOrganization
SDO.hoursAvailable
SDO.howPerformed
SDO.httpMethod
SDO.iataCode
SDO.icaoCode
SDO.identifier
SDO.identifyingExam
SDO.identifyingTest
SDO.illustrator
SDO.image
SDO.imagingTechnique
SDO.inAlbum
SDO.inBroadcastLineup
SDO.inChI
SDO.inChIKey
SDO.inCodeSet
SDO.inDefinedTermSet
SDO.inLanguage
SDO.inPlaylist
SDO.inProductGroupWithID
SDO.inStoreReturnsOffered
SDO.inSupportOf
SDO.incentiveCompensation
SDO.incentives
SDO.includedComposition
SDO.includedDataCatalog
SDO.includedInDataCatalog
SDO.includedInHealthInsurancePlan
SDO.includedRiskFactor
SDO.includesAttraction
SDO.includesHealthPlanFormulary
SDO.includesHealthPlanNetwork
SDO.includesObject
SDO.increasesRiskOf
SDO.industry
SDO.ineligibleRegion
SDO.infectiousAgent
SDO.infectiousAgentClass
SDO.ingredients
SDO.inker
SDO.insertion
SDO.installUrl
SDO.instructor
SDO.instrument
SDO.intensity
SDO.interactingDrug
SDO.interactionCount
SDO.interactionService
SDO.interactionStatistic
SDO.interactionType
SDO.interactivityType
SDO.interestRate
SDO.interpretedAsClaim
SDO.inventoryLevel
SDO.inverseOf
SDO.isAcceptingNewPatients
SDO.isAccessibleForFree
SDO.isAccessoryOrSparePartFor
SDO.isAvailableGenerically
SDO.isBasedOn
SDO.isBasedOnUrl
SDO.isConsumableFor
SDO.isEncodedByBioChemEntity
SDO.isFamilyFriendly
SDO.isGift
SDO.isInvolvedInBiologicalProcess
SDO.isLiveBroadcast
SDO.isLocatedInSubcellularLocation
SDO.isPartOf
SDO.isPartOfBioChemEntity
SDO.isPlanForApartment
SDO.isProprietary
SDO.isRelatedTo
SDO.isResizable
SDO.isSimilarTo
SDO.isUnlabelledFallback
SDO.isVariantOf
SDO.isbn
SDO.isicV4
SDO.isrcCode
SDO.issn
SDO.issueNumber
SDO.issuedBy
SDO.issuedThrough
SDO.iswcCode
SDO.item
SDO.itemCondition
SDO.itemDefectReturnFees
SDO.itemDefectReturnLabelSource
SDO.itemDefectReturnShippingFeesAmount
SDO.itemListElement
SDO.itemListOrder
SDO.itemLocation
SDO.itemOffered
SDO.itemReviewed
SDO.itemShipped
SDO.itinerary
SDO.iupacName
SDO.jobBenefits
SDO.jobImmediateStart
SDO.jobLocation
SDO.jobLocationType
SDO.jobStartDate
SDO.jobTitle
SDO.jurisdiction
SDO.keywords
SDO.knownVehicleDamages
SDO.knows
SDO.knowsAbout
SDO.knowsLanguage
SDO.labelDetails
SDO.landlord
SDO.language
SDO.lastReviewed
SDO.latitude
SDO.layoutImage
SDO.learningResourceType
SDO.leaseLength
SDO.legalName
SDO.legalStatus
SDO.legislationApplies
SDO.legislationChanges
SDO.legislationConsolidates
SDO.legislationDate
SDO.legislationDateVersion
SDO.legislationIdentifier
SDO.legislationJurisdiction
SDO.legislationLegalForce
SDO.legislationLegalValue
SDO.legislationPassedBy
SDO.legislationResponsible
SDO.legislationTransposes
SDO.legislationType
SDO.leiCode
SDO.lender
SDO.lesser
SDO.lesserOrEqual
SDO.letterer
SDO.license
SDO.line
SDO.linkRelationship
SDO.liveBlogUpdate
SDO.loanMortgageMandateAmount
SDO.loanPaymentAmount
SDO.loanPaymentFrequency
SDO.loanRepaymentForm
SDO.loanTerm
SDO.loanType
SDO.location
SDO.locationCreated
SDO.lodgingUnitDescription
SDO.lodgingUnitType
SDO.logo
SDO.longitude
SDO.loser
SDO.lowPrice
SDO.lyricist
SDO.lyrics
SDO.mainContentOfPage
SDO.mainEntity
SDO.mainEntityOfPage
SDO.maintainer
SDO.makesOffer
SDO.manufacturer
SDO.map
SDO.mapType
SDO.maps
SDO.marginOfError
SDO.masthead
SDO.material
SDO.materialExtent
SDO.mathExpression
SDO.maxPrice
SDO.maxValue
SDO.maximumAttendeeCapacity
SDO.maximumEnrollment
SDO.maximumIntake
SDO.maximumPhysicalAttendeeCapacity
SDO.maximumVirtualAttendeeCapacity
SDO.mealService
SDO.measuredProperty
SDO.measuredValue
SDO.measurementTechnique
SDO.mechanismOfAction
SDO.mediaAuthenticityCategory
SDO.mediaItemAppearance
SDO.median
SDO.medicalAudience
SDO.medicalSpecialty
SDO.medicineSystem
SDO.meetsEmissionStandard
SDO.member
SDO.memberOf
SDO.members
SDO.membershipNumber
SDO.membershipPointsEarned
SDO.memoryRequirements
SDO.mentions
SDO.menu
SDO.menuAddOn
SDO.merchant
SDO.merchantReturnDays
SDO.merchantReturnLink
SDO.messageAttachment
SDO.mileageFromOdometer
SDO.minPrice
SDO.minValue
SDO.minimumPaymentDue
SDO.missionCoveragePrioritiesPolicy
SDO.model
SDO.modelDate
SDO.modifiedTime
SDO.molecularFormula
SDO.molecularWeight
SDO.monoisotopicMolecularWeight
SDO.monthlyMinimumRepaymentAmount
SDO.monthsOfExperience
SDO.mpn
SDO.multipleValues
SDO.muscleAction
SDO.musicArrangement
SDO.musicBy
SDO.musicCompositionForm
SDO.musicGroupMember
SDO.musicReleaseFormat
SDO.musicalKey
SDO.naics
SDO.name
SDO.namedPosition
SDO.nationality
SDO.naturalProgression
SDO.negativeNotes
SDO.nerve
SDO.nerveMotor
SDO.netWorth
SDO.newsUpdatesAndGuidelines
SDO.nextItem
SDO.noBylinesPolicy
SDO.nonEqual
SDO.nonProprietaryName
SDO.nonprofitStatus
SDO.normalRange
SDO.nsn
SDO.numAdults
SDO.numChildren
SDO.numConstraints
SDO.numTracks
SDO.numberOfAccommodationUnits
SDO.numberOfAirbags
SDO.numberOfAvailableAccommodationUnits
SDO.numberOfAxles
SDO.numberOfBathroomsTotal
SDO.numberOfBedrooms
SDO.numberOfBeds
SDO.numberOfCredits
SDO.numberOfDoors
SDO.numberOfEmployees
SDO.numberOfEpisodes
SDO.numberOfForwardGears
SDO.numberOfFullBathrooms
SDO.numberOfItems
SDO.numberOfLoanPayments
SDO.numberOfPages
SDO.numberOfPartialBathrooms
SDO.numberOfPlayers
SDO.numberOfPreviousOwners
SDO.numberOfRooms
SDO.numberOfSeasons
SDO.numberedPosition
SDO.nutrition
SDO.object
SDO.observationDate
SDO.observedNode
SDO.occupancy
SDO.occupationLocation
SDO.occupationalCategory
SDO.occupationalCredentialAwarded
SDO.offerCount
SDO.offeredBy
SDO.offers
SDO.offersPrescriptionByMail
SDO.openingHours
SDO.openingHoursSpecification
SDO.opens
SDO.operatingSystem
SDO.opponent
SDO.option
SDO.orderDate
SDO.orderDelivery
SDO.orderItemNumber
SDO.orderItemStatus
SDO.orderNumber
SDO.orderQuantity
SDO.orderStatus
SDO.orderedItem
SDO.organizer
SDO.originAddress
SDO.originalMediaContextDescription
SDO.originalMediaLink
SDO.originatesFrom
SDO.overdosage
SDO.ownedFrom
SDO.ownedThrough
SDO.ownershipFundingInfo
SDO.owns
SDO.pageEnd
SDO.pageStart
SDO.pagination
SDO.parent
SDO.parentItem
SDO.parentOrganization
SDO.parentService
SDO.parentTaxon
SDO.parents
SDO.partOfEpisode
SDO.partOfInvoice
SDO.partOfOrder
SDO.partOfSeason
SDO.partOfSeries
SDO.partOfSystem
SDO.partOfTVSeries
SDO.partOfTrip
SDO.participant
SDO.partySize
SDO.passengerPriorityStatus
SDO.passengerSequenceNumber
SDO.pathophysiology
SDO.pattern
SDO.payload
SDO.paymentAccepted
SDO.paymentDue
SDO.paymentDueDate
SDO.paymentMethod
SDO.paymentMethodId
SDO.paymentStatus
SDO.paymentUrl
SDO.penciler
SDO.percentile10
SDO.percentile25
SDO.percentile75
SDO.percentile90
SDO.performTime
SDO.performer
SDO.performerIn
SDO.performers
SDO.permissionType
SDO.permissions
SDO.permitAudience
SDO.permittedUsage
SDO.petsAllowed
SDO.phoneticText
SDO.photo
SDO.photos
SDO.physicalRequirement
SDO.physiologicalBenefits
SDO.pickupLocation
SDO.pickupTime
SDO.playMode
SDO.playerType
SDO.playersOnline
SDO.polygon
SDO.populationType
SDO.position
SDO.positiveNotes
SDO.possibleComplication
SDO.possibleTreatment
SDO.postOfficeBoxNumber
SDO.postOp
SDO.postalCode
SDO.postalCodeBegin
SDO.postalCodeEnd
SDO.postalCodePrefix
SDO.postalCodeRange
SDO.potentialAction
SDO.potentialUse
SDO.preOp
SDO.predecessorOf
SDO.pregnancyCategory
SDO.pregnancyWarning
SDO.prepTime
SDO.preparation
SDO.prescribingInfo
SDO.prescriptionStatus
SDO.previousItem
SDO.previousStartDate
SDO.price
SDO.priceComponent
SDO.priceComponentType
SDO.priceCurrency
SDO.priceRange
SDO.priceSpecification
SDO.priceType
SDO.priceValidUntil
SDO.primaryImageOfPage
SDO.primaryPrevention
SDO.printColumn
SDO.printEdition
SDO.printPage
SDO.printSection
SDO.procedure
SDO.procedureType
SDO.processingTime
SDO.processorRequirements
SDO.producer
SDO.produces
SDO.productGroupID
SDO.productID
SDO.productSupported
SDO.productionCompany
SDO.productionDate
SDO.proficiencyLevel
SDO.programMembershipUsed
SDO.programName
SDO.programPrerequisites
SDO.programType
SDO.programmingLanguage
SDO.programmingModel
SDO.propertyID
SDO.proprietaryName
SDO.proteinContent
SDO.provider
SDO.providerMobility
SDO.providesBroadcastService
SDO.providesService
SDO.publicAccess
SDO.publicTransportClosuresInfo
SDO.publication
SDO.publicationType
SDO.publishedBy
SDO.publishedOn
SDO.publisher
SDO.publisherImprint
SDO.publishingPrinciples
SDO.purchaseDate
SDO.qualifications
SDO.quarantineGuidelines
SDO.query
SDO.quest
SDO.question
SDO.rangeIncludes
SDO.ratingCount
SDO.ratingExplanation
SDO.ratingValue
SDO.readBy
SDO.readonlyValue
SDO.realEstateAgent
SDO.recipe
SDO.recipeCategory
SDO.recipeCuisine
SDO.recipeIngredient
SDO.recipeInstructions
SDO.recipeYield
SDO.recipient
SDO.recognizedBy
SDO.recognizingAuthority
SDO.recommendationStrength
SDO.recommendedIntake
SDO.recordLabel
SDO.recordedAs
SDO.recordedAt
SDO.recordedIn
SDO.recordingOf
SDO.recourseLoan
SDO.referenceQuantity
SDO.referencesOrder
SDO.refundType
SDO.regionDrained
SDO.regionsAllowed
SDO.relatedAnatomy
SDO.relatedCondition
SDO.relatedDrug
SDO.relatedLink
SDO.relatedStructure
SDO.relatedTherapy
SDO.relatedTo
SDO.releaseDate
SDO.releaseNotes
SDO.releaseOf
SDO.releasedEvent
SDO.relevantOccupation
SDO.relevantSpecialty
SDO.remainingAttendeeCapacity
SDO.renegotiableLoan
SDO.repeatCount
SDO.repeatFrequency
SDO.repetitions
SDO.replacee
SDO.replacer
SDO.replyToUrl
SDO.reportNumber
SDO.representativeOfPage
SDO.requiredCollateral
SDO.requiredGender
SDO.requiredMaxAge
SDO.requiredMinAge
SDO.requiredQuantity
SDO.requirements
SDO.requiresSubscription
SDO.reservationFor
SDO.reservationId
SDO.reservationStatus
SDO.reservedTicket
SDO.responsibilities
SDO.restPeriods
SDO.restockingFee
SDO.result
SDO.resultComment
SDO.resultReview
SDO.returnFees
SDO.returnLabelSource
SDO.returnMethod
SDO.returnPolicyCategory
SDO.returnPolicyCountry
SDO.returnPolicySeasonalOverride
SDO.returnShippingFeesAmount
SDO.review
SDO.reviewAspect
SDO.reviewBody
SDO.reviewCount
SDO.reviewRating
SDO.reviewedBy
SDO.reviews
SDO.riskFactor
SDO.risks
SDO.roleName
SDO.roofLoad
SDO.rsvpResponse
SDO.runsTo
SDO.runtime
SDO.runtimePlatform
SDO.rxcui
SDO.safetyConsideration
SDO.salaryCurrency
SDO.salaryUponCompletion
SDO.sameAs
SDO.sampleType
SDO.saturatedFatContent
SDO.scheduleTimezone
SDO.scheduledPaymentDate
SDO.scheduledTime
SDO.schemaVersion
SDO.schoolClosuresInfo
SDO.screenCount
SDO.screenshot
SDO.sdDatePublished
SDO.sdLicense
SDO.sdPublisher
SDO.season
SDO.seasonNumber
SDO.seasons
SDO.seatNumber
SDO.seatRow
SDO.seatSection
SDO.seatingCapacity
SDO.seatingType
SDO.secondaryPrevention
SDO.securityClearanceRequirement
SDO.securityScreening
SDO.seeks
SDO.seller
SDO.sender
SDO.sensoryRequirement
SDO.sensoryUnit
SDO.serialNumber
SDO.seriousAdverseOutcome
SDO.serverStatus
SDO.servesCuisine
SDO.serviceArea
SDO.serviceAudience
SDO.serviceLocation
SDO.serviceOperator
SDO.serviceOutput
SDO.servicePhone
SDO.servicePostalAddress
SDO.serviceSmsNumber
SDO.serviceType
SDO.serviceUrl
SDO.servingSize
SDO.sha256
SDO.sharedContent
SDO.shippingDestination
SDO.shippingDetails
SDO.shippingLabel
SDO.shippingRate
SDO.shippingSettingsLink
SDO.sibling
SDO.siblings
SDO.signDetected
SDO.signOrSymptom
SDO.significance
SDO.significantLink
SDO.significantLinks
SDO.size
SDO.sizeGroup
SDO.sizeSystem
SDO.skills
SDO.sku
SDO.slogan
SDO.smiles
SDO.smokingAllowed
SDO.sodiumContent
SDO.softwareAddOn
SDO.softwareHelp
SDO.softwareRequirements
SDO.softwareVersion
SDO.sourceOrganization
SDO.sourcedFrom
SDO.spatial
SDO.spatialCoverage
SDO.speakable
SDO.specialCommitments
SDO.specialOpeningHoursSpecification
SDO.specialty
SDO.speechToTextMarkup
SDO.speed
SDO.spokenByCharacter
SDO.sponsor
SDO.sport
SDO.sportsActivityLocation
SDO.sportsEvent
SDO.sportsTeam
SDO.spouse
SDO.stage
SDO.stageAsNumber
SDO.starRating
SDO.startDate
SDO.startOffset
SDO.startTime
SDO.status
SDO.steeringPosition
SDO.step
SDO.stepValue
SDO.steps
SDO.storageRequirements
SDO.streetAddress
SDO.strengthUnit
SDO.strengthValue
SDO.structuralClass
SDO.study
SDO.studyDesign
SDO.studyLocation
SDO.studySubject
SDO.subEvent
SDO.subEvents
SDO.subOrganization
SDO.subReservation
SDO.subStageSuffix
SDO.subStructure
SDO.subTest
SDO.subTrip
SDO.subjectOf
SDO.subtitleLanguage
SDO.successorOf
SDO.sugarContent
SDO.suggestedAge
SDO.suggestedAnswer
SDO.suggestedGender
SDO.suggestedMaxAge
SDO.suggestedMeasurement
SDO.suggestedMinAge
SDO.suitableForDiet
SDO.superEvent
SDO.supersededBy
SDO.supply
SDO.supplyTo
SDO.supportingData
SDO.surface
SDO.target
SDO.targetCollection
SDO.targetDescription
SDO.targetName
SDO.targetPlatform
SDO.targetPopulation
SDO.targetProduct
SDO.targetUrl
SDO.taxID
SDO.taxonRank
SDO.taxonomicRange
SDO.teaches
SDO.telephone
SDO.temporal
SDO.temporalCoverage
SDO.termCode
SDO.termDuration
SDO.termsOfService
SDO.termsPerYear
SDO.text
SDO.textValue
SDO.thumbnail
SDO.thumbnailUrl
SDO.tickerSymbol
SDO.ticketNumber
SDO.ticketToken
SDO.ticketedSeat
SDO.timeOfDay
SDO.timeRequired
SDO.timeToComplete
SDO.tissueSample
SDO.title
SDO.titleEIDR
SDO.toLocation
SDO.toRecipient
SDO.tocContinuation
SDO.tocEntry
SDO.tongueWeight
SDO.tool
SDO.torque
SDO.totalJobOpenings
SDO.totalPaymentDue
SDO.totalPrice
SDO.totalTime
SDO.tourBookingPage
SDO.touristType
SDO.track
SDO.trackingNumber
SDO.trackingUrl
SDO.tracks
SDO.trailer
SDO.trailerWeight
SDO.trainName
SDO.trainNumber
SDO.trainingSalary
SDO.transFatContent
SDO.transcript
SDO.transitTime
SDO.transitTimeLabel
SDO.translationOfWork
SDO.translator
SDO.transmissionMethod
SDO.travelBans
SDO.trialDesign
SDO.tributary
SDO.typeOfBed
SDO.typeOfGood
SDO.typicalAgeRange
SDO.typicalCreditsPerTerm
SDO.typicalTest
SDO.underName
SDO.unitCode
SDO.unitText
SDO.unnamedSourcesPolicy
SDO.unsaturatedFatContent
SDO.uploadDate
SDO.upvoteCount
SDO.url
SDO.urlTemplate
SDO.usageInfo
SDO.usedToDiagnose
SDO.userInteractionCount
SDO.usesDevice
SDO.usesHealthPlanIdStandard
SDO.utterances
SDO.validFor
SDO.validFrom
SDO.validIn
SDO.validThrough
SDO.validUntil
SDO.value
SDO.valueAddedTaxIncluded
SDO.valueMaxLength
SDO.valueMinLength
SDO.valueName
SDO.valuePattern
SDO.valueReference
SDO.valueRequired
SDO.variableMeasured
SDO.variantCover
SDO.variesBy
SDO.vatID
SDO.vehicleConfiguration
SDO.vehicleEngine
SDO.vehicleIdentificationNumber
SDO.vehicleInteriorColor
SDO.vehicleInteriorType
SDO.vehicleModelDate
SDO.vehicleSeatingCapacity
SDO.vehicleSpecialUsage
SDO.vehicleTransmission
SDO.vendor
SDO.verificationFactCheckingPolicy
SDO.version
SDO.video
SDO.videoFormat
SDO.videoFrameSize
SDO.videoQuality
SDO.volumeNumber
SDO.warning
SDO.warranty
SDO.warrantyPromise
SDO.warrantyScope
SDO.webCheckinTime
SDO.webFeed
SDO.weight
SDO.weightTotal
SDO.wheelbase
SDO.width
SDO.winner
SDO.wordCount
SDO.workExample
SDO.workFeatured
SDO.workHours
SDO.workLocation
SDO.workPerformed
SDO.workPresented
SDO.workTranslation
SDO.workload
SDO.worksFor
SDO.worstRating
SDO.xpath
SDO.yearBuilt
SDO.yearlyRevenue
SDO.yearsInOperation
SH
SH.AbstractResult
SH.AndConstraintComponent
SH.BlankNode
SH.BlankNodeOrIRI
SH.BlankNodeOrLiteral
SH.ClassConstraintComponent
SH.ClosedConstraintComponent
SH.ConstraintComponent
SH.DatatypeConstraintComponent
SH.DisjointConstraintComponent
SH.EqualsConstraintComponent
SH.ExpressionConstraintComponent
SH.Function
SH.HasValueConstraintComponent
SH.IRI
SH.IRIOrLiteral
SH.InConstraintComponent
SH.Info
SH.JSConstraint
SH.JSConstraintComponent
SH.JSExecutable
SH.JSFunction
SH.JSLibrary
SH.JSRule
SH.JSTarget
SH.JSTargetType
SH.JSValidator
SH.LanguageInConstraintComponent
SH.LessThanConstraintComponent
SH.LessThanOrEqualsConstraintComponent
SH.Literal
SH.MaxCountConstraintComponent
SH.MaxExclusiveConstraintComponent
SH.MaxInclusiveConstraintComponent
SH.MaxLengthConstraintComponent
SH.MinCountConstraintComponent
SH.MinExclusiveConstraintComponent
SH.MinInclusiveConstraintComponent
SH.MinLengthConstraintComponent
SH.NodeConstraintComponent
SH.NodeKind
SH.NodeKindConstraintComponent
SH.NodeShape
SH.NotConstraintComponent
SH.OrConstraintComponent
SH.Parameter
SH.Parameterizable
SH.PatternConstraintComponent
SH.PrefixDeclaration
SH.PropertyConstraintComponent
SH.PropertyGroup
SH.PropertyShape
SH.QualifiedMaxCountConstraintComponent
SH.QualifiedMinCountConstraintComponent
SH.ResultAnnotation
SH.Rule
SH.SPARQLAskExecutable
SH.SPARQLAskValidator
SH.SPARQLConstraint
SH.SPARQLConstraintComponent
SH.SPARQLConstructExecutable
SH.SPARQLExecutable
SH.SPARQLFunction
SH.SPARQLRule
SH.SPARQLSelectExecutable
SH.SPARQLSelectValidator
SH.SPARQLTarget
SH.SPARQLTargetType
SH.SPARQLUpdateExecutable
SH.Severity
SH.Shape
SH.Target
SH.TargetType
SH.TripleRule
SH.UniqueLangConstraintComponent
SH.ValidationReport
SH.ValidationResult
SH.Validator
SH.Violation
SH.Warning
SH.XoneConstraintComponent
SH.alternativePath
SH.annotationProperty
SH.annotationValue
SH.annotationVarName
SH.ask
SH.closed
SH.condition
SH.conforms
SH.construct
SH.datatype
SH.deactivated
SH.declare
SH.defaultValue
SH.description
SH.detail
SH.disjoint
SH.entailment
SH.equals
SH.expression
SH.filterShape
SH.flags
SH.focusNode
SH.group
SH.hasValue
SH.ignoredProperties
SH.intersection
SH.inversePath
SH.js
SH.jsFunctionName
SH.jsLibrary
SH.jsLibraryURL
SH.labelTemplate
SH.languageIn
SH.lessThan
SH.lessThanOrEquals
SH.maxCount
SH.maxExclusive
SH.maxInclusive
SH.maxLength
SH.message
SH.minCount
SH.minExclusive
SH.minInclusive
SH.minLength
SH.name
SH.namespace
SH.node
SH.nodeKind
SH.nodeValidator
SH.nodes
SH.object
SH.oneOrMorePath
SH.optional
SH.order
SH.parameter
SH.path
SH.pattern
SH.predicate
SH.prefix
SH.prefixes
SH.property
SH.propertyValidator
SH.qualifiedMaxCount
SH.qualifiedMinCount
SH.qualifiedValueShape
SH.qualifiedValueShapesDisjoint
SH.result
SH.resultAnnotation
SH.resultMessage
SH.resultPath
SH.resultSeverity
SH.returnType
SH.rule
SH.select
SH.severity
SH.shapesGraph
SH.shapesGraphWellFormed
SH.sourceConstraint
SH.sourceConstraintComponent
SH.sourceShape
SH.sparql
SH.subject
SH.suggestedShapesGraph
SH.target
SH.targetClass
SH.targetNode
SH.targetObjectsOf
SH.targetSubjectsOf
SH.this
SH.union
SH.uniqueLang
SH.update
SH.validator
SH.value
SH.xone
SH.zeroOrMorePath
SH.zeroOrOnePath
SKOS
SKOS.Collection
SKOS.Concept
SKOS.ConceptScheme
SKOS.OrderedCollection
SKOS.altLabel
SKOS.broadMatch
SKOS.broader
SKOS.broaderTransitive
SKOS.changeNote
SKOS.closeMatch
SKOS.definition
SKOS.editorialNote
SKOS.exactMatch
SKOS.example
SKOS.hasTopConcept
SKOS.hiddenLabel
SKOS.historyNote
SKOS.inScheme
SKOS.mappingRelation
SKOS.member
SKOS.memberList
SKOS.narrowMatch
SKOS.narrower
SKOS.narrowerTransitive
SKOS.notation
SKOS.note
SKOS.prefLabel
SKOS.related
SKOS.relatedMatch
SKOS.scopeNote
SKOS.semanticRelation
SKOS.topConceptOf
SOSA
SOSA.ActuatableProperty
SOSA.Actuation
SOSA.Actuator
SOSA.FeatureOfInterest
SOSA.ObservableProperty
SOSA.Observation
SOSA.ObservationCollection
SOSA.Platform
SOSA.Procedure
SOSA.Result
SOSA.Sample
SOSA.Sampler
SOSA.Sampling
SOSA.Sensor
SOSA.actsOnProperty
SOSA.hasFeatureOfInterest
SOSA.hasMember
SOSA.hasOriginalSample
SOSA.hasResult
SOSA.hasSample
SOSA.hasSampledFeature
SOSA.hasSimpleResult
SOSA.hasUltimateFeatureOfInterest
SOSA.hosts
SOSA.isActedOnBy
SOSA.isFeatureOfInterestOf
SOSA.isHostedBy
SOSA.isObservedBy
SOSA.isResultOf
SOSA.isSampleOf
SOSA.madeActuation
SOSA.madeByActuator
SOSA.madeBySampler
SOSA.madeBySensor
SOSA.madeObservation
SOSA.madeSampling
SOSA.observedProperty
SOSA.observes
SOSA.phenomenonTime
SOSA.resultTime
SOSA.usedProcedure
SSN
SSN.Deployment
SSN.Input
SSN.Output
SSN.Property
SSN.Stimulus
SSN.System
SSN.deployedOnPlatform
SSN.deployedSystem
SSN.detects
SSN.forProperty
SSN.hasDeployment
SSN.hasInput
SSN.hasOutput
SSN.hasProperty
SSN.hasSubSystem
SSN.implementedBy
SSN.implements
SSN.inDeployment
SSN.isPropertyOf
SSN.isProxyFor
SSN.wasOriginatedBy
TIME
TIME.DateTimeDescription
TIME.DateTimeInterval
TIME.DayOfWeek
TIME.Duration
TIME.DurationDescription
TIME.Friday
TIME.GeneralDateTimeDescription
TIME.GeneralDurationDescription
TIME.Instant
TIME.Interval
TIME.January
TIME.Monday
TIME.MonthOfYear
TIME.ProperInterval
TIME.Saturday
TIME.Sunday
TIME.TRS
TIME.TemporalDuration
TIME.TemporalEntity
TIME.TemporalPosition
TIME.TemporalUnit
TIME.Thursday
TIME.TimePosition
TIME.TimeZone
TIME.Tuesday
TIME.Wednesday
TIME.Year
TIME.after
TIME.before
TIME.day
TIME.dayOfWeek
TIME.dayOfYear
TIME.days
TIME.generalDay
TIME.generalMonth
TIME.generalYear
TIME.hasBeginning
TIME.hasDateTimeDescription
TIME.hasDuration
TIME.hasDurationDescription
TIME.hasEnd
TIME.hasTRS
TIME.hasTemporalDuration
TIME.hasTime
TIME.hasXSDDuration
TIME.hour
TIME.hours
TIME.inDateTime
TIME.inTemporalPosition
TIME.inTimePosition
TIME.inXSDDate
TIME.inXSDDateTime
TIME.inXSDDateTimeStamp
TIME.inXSDgYear
TIME.inXSDgYearMonth
TIME.inside
TIME.intervalAfter
TIME.intervalBefore
TIME.intervalContains
TIME.intervalDisjoint
TIME.intervalDuring
TIME.intervalEquals
TIME.intervalFinishedBy
TIME.intervalFinishes
TIME.intervalIn
TIME.intervalMeets
TIME.intervalMetBy
TIME.intervalOverlappedBy
TIME.intervalOverlaps
TIME.intervalStartedBy
TIME.intervalStarts
TIME.minute
TIME.minutes
TIME.month
TIME.monthOfYear
TIME.months
TIME.nominalPosition
TIME.numericDuration
TIME.numericPosition
TIME.second
TIME.seconds
TIME.timeZone
TIME.unitDay
TIME.unitHour
TIME.unitMinute
TIME.unitMonth
TIME.unitSecond
TIME.unitType
TIME.unitWeek
TIME.unitYear
TIME.week
TIME.weeks
TIME.xsdDateTime
TIME.year
TIME.years
VANN
VOID
VOID.Dataset
VOID.DatasetDescription
VOID.Linkset
VOID.TechnicalFeature
VOID.classPartition
VOID.classes
VOID.dataDump
VOID.distinctObjects
VOID.distinctSubjects
VOID.documents
VOID.entities
VOID.exampleResource
VOID.feature
VOID.inDataset
VOID.linkPredicate
VOID.objectsTarget
VOID.openSearchDescription
VOID.properties
VOID.property
VOID.propertyPartition
VOID.rootResource
VOID.sparqlEndpoint
VOID.subjectsTarget
VOID.subset
VOID.target
VOID.triples
VOID.uriLookupEndpoint
VOID.uriRegexPattern
VOID.uriSpace
VOID.vocabulary
WGS
XSD
XSD.Assertions
XSD.ENTITIES
XSD.ENTITY
XSD.ID
XSD.IDREF
XSD.IDREFS
XSD.NCName
XSD.NMTOKEN
XSD.NMTOKENS
XSD.NOTATION
XSD.Name
XSD.QName
XSD.anyURI
XSD.base64Binary
XSD.boolean
XSD.bounded
XSD.byte
XSD.cardinality
XSD.date
XSD.dateTime
XSD.dateTimeStamp
XSD.day
XSD.dayTimeDuration
XSD.decimal
XSD.double
XSD.duration
XSD.enumeration
XSD.explicitTimezone
XSD.float
XSD.fractionDigits
XSD.gDay
XSD.gMonth
XSD.gMonthDay
XSD.gYear
XSD.gYearMonth
XSD.hexBinary
XSD.hour
XSD.int
XSD.integer
XSD.language
XSD.length
XSD.long
XSD.maxExclusive
XSD.maxInclusive
XSD.maxLength
XSD.minExclusive
XSD.minInclusive
XSD.minLength
XSD.minute
XSD.month
XSD.negativeInteger
XSD.nonNegativeInteger
XSD.nonPositiveInteger
XSD.normalizedString
XSD.numeric
XSD.ordered
XSD.pattern
XSD.positiveInteger
XSD.second
XSD.short
XSD.string
XSD.time
XSD.timezoneOffset
XSD.token
XSD.totalDigits
XSD.unsignedByte
XSD.unsignedInt
XSD.unsignedLong
XSD.unsignedShort
XSD.whiteSpace
XSD.year
XSD.yearMonthDuration
is_ncname()
split_uri()
- Module contents
- rdflib.plugins package
- Subpackages
- rdflib.plugins.parsers package
- Submodules
- rdflib.plugins.parsers.RDFVOC module
- rdflib.plugins.parsers.hext module
- rdflib.plugins.parsers.jsonld module
- rdflib.plugins.parsers.notation3 module
- rdflib.plugins.parsers.nquads module
- rdflib.plugins.parsers.ntriples module
- rdflib.plugins.parsers.rdfxml module
- rdflib.plugins.parsers.trig module
- rdflib.plugins.parsers.trix module
- Module contents
- rdflib.plugins.serializers package
- Submodules
- rdflib.plugins.serializers.hext module
- rdflib.plugins.serializers.jsonld module
- rdflib.plugins.serializers.longturtle module
- rdflib.plugins.serializers.n3 module
- rdflib.plugins.serializers.nquads module
- rdflib.plugins.serializers.nt module
- rdflib.plugins.serializers.rdfxml module
- rdflib.plugins.serializers.trig module
- rdflib.plugins.serializers.trix module
- rdflib.plugins.serializers.turtle module
- rdflib.plugins.serializers.xmlwriter module
- Module contents
- rdflib.plugins.shared package
- rdflib.plugins.sparql package
- Subpackages
- Submodules
- rdflib.plugins.sparql.aggregates module
- rdflib.plugins.sparql.algebra module
- rdflib.plugins.sparql.datatypes module
- rdflib.plugins.sparql.evaluate module
- rdflib.plugins.sparql.evalutils module
- rdflib.plugins.sparql.operators module
- rdflib.plugins.sparql.parser module
- rdflib.plugins.sparql.parserutils module
- rdflib.plugins.sparql.processor module
- rdflib.plugins.sparql.sparql module
- rdflib.plugins.sparql.update module
- Module contents
- rdflib.plugins.stores package
- Submodules
- rdflib.plugins.stores.auditable module
- rdflib.plugins.stores.berkeleydb module
- rdflib.plugins.stores.concurrent module
- rdflib.plugins.stores.memory module
- rdflib.plugins.stores.regexmatching module
- rdflib.plugins.stores.sparqlconnector module
- rdflib.plugins.stores.sparqlstore module
- Module contents
- rdflib.plugins.parsers package
- Module contents
- Subpackages
- rdflib.tools package
- Submodules
- rdflib.tools.chunk_serializer module
- rdflib.tools.csv2rdf module
- rdflib.tools.defined_namespace_creator module
- rdflib.tools.graphisomorphism module
IsomorphicTestableGraph
IsomorphicTestableGraph.__abstractmethods__
IsomorphicTestableGraph.__eq__()
IsomorphicTestableGraph.__hash__
IsomorphicTestableGraph.__init__()
IsomorphicTestableGraph.__module__
IsomorphicTestableGraph.__ne__()
IsomorphicTestableGraph.hashtriples()
IsomorphicTestableGraph.internal_hash()
IsomorphicTestableGraph.vhash()
IsomorphicTestableGraph.vhashtriple()
IsomorphicTestableGraph.vhashtriples()
main()
- rdflib.tools.rdf2dot module
- rdflib.tools.rdfpipe module
- rdflib.tools.rdfs2dot module
- Module contents
Submodules¶
rdflib.collection module¶
- class rdflib.collection.Collection(graph, uri, seq=[])[source]¶
Bases:
object
See “Emulating container types”: https://docs.python.org/reference/datamodel.html#emulating-container-types
>>> from rdflib.term import Literal >>> from rdflib.graph import Graph >>> from pprint import pprint >>> listname = BNode() >>> g = Graph('Memory') >>> listItem1 = BNode() >>> listItem2 = BNode() >>> g.add((listname, RDF.first, Literal(1))) <Graph identifier=... (<class 'rdflib.graph.Graph'>)> >>> g.add((listname, RDF.rest, listItem1)) <Graph identifier=... (<class 'rdflib.graph.Graph'>)> >>> g.add((listItem1, RDF.first, Literal(2))) <Graph identifier=... (<class 'rdflib.graph.Graph'>)> >>> g.add((listItem1, RDF.rest, listItem2)) <Graph identifier=... (<class 'rdflib.graph.Graph'>)> >>> g.add((listItem2, RDF.rest, RDF.nil)) <Graph identifier=... (<class 'rdflib.graph.Graph'>)> >>> g.add((listItem2, RDF.first, Literal(3))) <Graph identifier=... (<class 'rdflib.graph.Graph'>)> >>> c = Collection(g,listname) >>> pprint([term.n3() for term in c]) ['"1"^^<http://www.w3.org/2001/XMLSchema#integer>', '"2"^^<http://www.w3.org/2001/XMLSchema#integer>', '"3"^^<http://www.w3.org/2001/XMLSchema#integer>']
>>> Literal(1) in c True >>> len(c) 3 >>> c._get_container(1) == listItem1 True >>> c.index(Literal(2)) == 1 True
- __delitem__(key)[source]¶
>>> from rdflib.namespace import RDF, RDFS >>> from rdflib import Graph >>> from pprint import pformat >>> g = Graph() >>> a = BNode('foo') >>> b = BNode('bar') >>> c = BNode('baz') >>> g.add((a, RDF.first, RDF.type)) <Graph identifier=... (<class 'rdflib.graph.Graph'>)> >>> g.add((a, RDF.rest, b)) <Graph identifier=... (<class 'rdflib.graph.Graph'>)> >>> g.add((b, RDF.first, RDFS.label)) <Graph identifier=... (<class 'rdflib.graph.Graph'>)> >>> g.add((b, RDF.rest, c)) <Graph identifier=... (<class 'rdflib.graph.Graph'>)> >>> g.add((c, RDF.first, RDFS.comment)) <Graph identifier=... (<class 'rdflib.graph.Graph'>)> >>> g.add((c, RDF.rest, RDF.nil)) <Graph identifier=... (<class 'rdflib.graph.Graph'>)> >>> len(g) 6 >>> def listAncestry(node, graph): ... for i in graph.subjects(RDF.rest, node): ... yield i >>> [str(node.n3()) ... for node in g.transitiveClosure(listAncestry, RDF.nil)] ['_:baz', '_:bar', '_:foo'] >>> lst = Collection(g, a) >>> len(lst) 3 >>> b == lst._get_container(1) True >>> c == lst._get_container(2) True >>> del lst[1] >>> len(lst) 2 >>> len(g) 4
- __dict__ = mappingproxy({'__module__': 'rdflib.collection', '__doc__': '\n See "Emulating container types":\n https://docs.python.org/reference/datamodel.html#emulating-container-types\n\n >>> from rdflib.term import Literal\n >>> from rdflib.graph import Graph\n >>> from pprint import pprint\n >>> listname = BNode()\n >>> g = Graph(\'Memory\')\n >>> listItem1 = BNode()\n >>> listItem2 = BNode()\n >>> g.add((listname, RDF.first, Literal(1))) # doctest: +ELLIPSIS\n <Graph identifier=... (<class \'rdflib.graph.Graph\'>)>\n >>> g.add((listname, RDF.rest, listItem1)) # doctest: +ELLIPSIS\n <Graph identifier=... (<class \'rdflib.graph.Graph\'>)>\n >>> g.add((listItem1, RDF.first, Literal(2))) # doctest: +ELLIPSIS\n <Graph identifier=... (<class \'rdflib.graph.Graph\'>)>\n >>> g.add((listItem1, RDF.rest, listItem2)) # doctest: +ELLIPSIS\n <Graph identifier=... (<class \'rdflib.graph.Graph\'>)>\n >>> g.add((listItem2, RDF.rest, RDF.nil)) # doctest: +ELLIPSIS\n <Graph identifier=... (<class \'rdflib.graph.Graph\'>)>\n >>> g.add((listItem2, RDF.first, Literal(3))) # doctest: +ELLIPSIS\n <Graph identifier=... (<class \'rdflib.graph.Graph\'>)>\n >>> c = Collection(g,listname)\n >>> pprint([term.n3() for term in c])\n [\'"1"^^<http://www.w3.org/2001/XMLSchema#integer>\',\n \'"2"^^<http://www.w3.org/2001/XMLSchema#integer>\',\n \'"3"^^<http://www.w3.org/2001/XMLSchema#integer>\']\n\n >>> Literal(1) in c\n True\n >>> len(c)\n 3\n >>> c._get_container(1) == listItem1\n True\n >>> c.index(Literal(2)) == 1\n True\n ', '__init__': <function Collection.__init__>, 'n3': <function Collection.n3>, '_get_container': <function Collection._get_container>, '__len__': <function Collection.__len__>, 'index': <function Collection.index>, '__getitem__': <function Collection.__getitem__>, '__setitem__': <function Collection.__setitem__>, '__delitem__': <function Collection.__delitem__>, '__iter__': <function Collection.__iter__>, '_end': <function Collection._end>, 'append': <function Collection.append>, '__iadd__': <function Collection.__iadd__>, 'clear': <function Collection.clear>, '__dict__': <attribute '__dict__' of 'Collection' objects>, '__weakref__': <attribute '__weakref__' of 'Collection' objects>, '__annotations__': {}})¶
- __module__ = 'rdflib.collection'¶
- __weakref__¶
list of weak references to the object (if defined)
- append(item)[source]¶
>>> from rdflib.term import Literal >>> from rdflib.graph import Graph >>> listname = BNode() >>> g = Graph() >>> c = Collection(g,listname,[Literal(1),Literal(2)]) >>> links = [ ... list(g.subjects(object=i, predicate=RDF.first))[0] for i in c] >>> len([i for i in links if (i, RDF.rest, RDF.nil) in g]) 1
- Parameters:
item (
Node
) –- Return type:
- n3()[source]¶
>>> from rdflib.term import Literal >>> from rdflib.graph import Graph >>> listname = BNode() >>> g = Graph('Memory') >>> listItem1 = BNode() >>> listItem2 = BNode() >>> g.add((listname, RDF.first, Literal(1))) <Graph identifier=... (<class 'rdflib.graph.Graph'>)> >>> g.add((listname, RDF.rest, listItem1)) <Graph identifier=... (<class 'rdflib.graph.Graph'>)> >>> g.add((listItem1, RDF.first, Literal(2))) <Graph identifier=... (<class 'rdflib.graph.Graph'>)> >>> g.add((listItem1, RDF.rest, listItem2)) <Graph identifier=... (<class 'rdflib.graph.Graph'>)> >>> g.add((listItem2, RDF.rest, RDF.nil)) <Graph identifier=... (<class 'rdflib.graph.Graph'>)> >>> g.add((listItem2, RDF.first, Literal(3))) <Graph identifier=... (<class 'rdflib.graph.Graph'>)> >>> c = Collection(g, listname) >>> print(c.n3()) ( "1"^^<http://www.w3.org/2001/XMLSchema#integer> :rtype: :sphinx_autodoc_typehints_type:`\:py\:class\:\`str\``
rdflib.compare module¶
A collection of utilities for canonicalizing and inspecting graphs.
Among other things, they solve of the problem of deterministic bnode comparisons.
Warning: the time to canonicalize bnodes may increase exponentially on degenerate larger graphs. Use with care!
Example of comparing two graphs:
>>> g1 = Graph().parse(format='n3', data='''
... @prefix : <http://example.org/ns#> .
... <http://example.org> :rel
... <http://example.org/same>,
... [ :label "Same" ],
... <http://example.org/a>,
... [ :label "A" ] .
... ''')
>>> g2 = Graph().parse(format='n3', data='''
... @prefix : <http://example.org/ns#> .
... <http://example.org> :rel
... <http://example.org/same>,
... [ :label "Same" ],
... <http://example.org/b>,
... [ :label "B" ] .
... ''')
>>>
>>> iso1 = to_isomorphic(g1)
>>> iso2 = to_isomorphic(g2)
These are not isomorphic:
>>> iso1 == iso2
False
Diff the two graphs:
>>> in_both, in_first, in_second = graph_diff(iso1, iso2)
Present in both:
>>> def dump_nt_sorted(g):
... for l in sorted(g.serialize(format='nt').splitlines()):
... if l: print(l.decode('ascii'))
>>> dump_nt_sorted(in_both)
<http://example.org>
<http://example.org/ns#rel> <http://example.org/same> .
<http://example.org>
<http://example.org/ns#rel> _:cbcaabaaba17fecbc304a64f8edee4335e .
_:cbcaabaaba17fecbc304a64f8edee4335e
<http://example.org/ns#label> "Same" .
Only in first:
>>> dump_nt_sorted(in_first)
<http://example.org>
<http://example.org/ns#rel> <http://example.org/a> .
<http://example.org>
<http://example.org/ns#rel> _:cb124e4c6da0579f810c0ffe4eff485bd9 .
_:cb124e4c6da0579f810c0ffe4eff485bd9
<http://example.org/ns#label> "A" .
Only in second:
>>> dump_nt_sorted(in_second)
<http://example.org>
<http://example.org/ns#rel> <http://example.org/b> .
<http://example.org>
<http://example.org/ns#rel> _:cb558f30e21ddfc05ca53108348338ade8 .
_:cb558f30e21ddfc05ca53108348338ade8
<http://example.org/ns#label> "B" .
- class rdflib.compare.IsomorphicGraph(**kwargs)[source]¶
Bases:
ConjunctiveGraph
An implementation of the RGDA1 graph digest algorithm.
An implementation of RGDA1 (publication below), a combination of Sayers & Karp’s graph digest algorithm using sum and SHA-256 <http://www.hpl.hp.com/techreports/2003/HPL-2003-235R1.pdf> and traces <http://pallini.di.uniroma1.it>, an average case polynomial time algorithm for graph canonicalization.
McCusker, J. P. (2015). WebSig: A Digital Signature Framework for the Web. Rensselaer Polytechnic Institute, Troy, NY. http://gradworks.umi.com/3727015.pdf
- __abstractmethods__ = frozenset({})¶
- __module__ = 'rdflib.compare'¶
- rdflib.compare.graph_diff(g1, g2)[source]¶
Returns three sets of triples: “in both”, “in first” and “in second”.
- rdflib.compare.isomorphic(graph1, graph2)[source]¶
Compare graph for equality.
Uses an algorithm to compute unique hashes which takes bnodes into account.
Examples:
>>> g1 = Graph().parse(format='n3', data=''' ... @prefix : <http://example.org/ns#> . ... <http://example.org> :rel <http://example.org/a> . ... <http://example.org> :rel <http://example.org/b> . ... <http://example.org> :rel [ :label "A bnode." ] . ... ''') >>> g2 = Graph().parse(format='n3', data=''' ... @prefix ns: <http://example.org/ns#> . ... <http://example.org> ns:rel [ ns:label "A bnode." ] . ... <http://example.org> ns:rel <http://example.org/b>, ... <http://example.org/a> . ... ''') >>> isomorphic(g1, g2) True >>> g3 = Graph().parse(format='n3', data=''' ... @prefix : <http://example.org/ns#> . ... <http://example.org> :rel <http://example.org/a> . ... <http://example.org> :rel <http://example.org/b> . ... <http://example.org> :rel <http://example.org/c> . ... ''') >>> isomorphic(g1, g3) False
- rdflib.compare.similar(g1, g2)[source]¶
Checks if the two graphs are “similar”.
Checks if the two graphs are “similar”, by comparing sorted triples where all bnodes have been replaced by a singular mock bnode (the
_MOCK_BNODE
).This is a much cheaper, but less reliable, alternative to the comparison algorithm in
isomorphic
.
- rdflib.compare.to_canonical_graph(g1, stats=None)[source]¶
Creates a canonical, read-only graph.
Creates a canonical, read-only graph where all bnode id:s are based on deterministical SHA-256 checksums, correlated with the graph contents.
rdflib.compat module¶
Utility functions and objects to ease Python 2/3 compatibility, and different versions of support libraries.
rdflib.container module¶
- class rdflib.container.Alt(graph, uri, seq=[])[source]¶
Bases:
Container
- __init__(graph, uri, seq=[])[source]¶
Creates a Container
- Parameters:
graph – a Graph instance
uri – URI or Blank Node of the Container
seq – the elements of the Container
rtype – the type of Container, one of “Bag”, “Seq” or “Alt”
- __module__ = 'rdflib.container'¶
- class rdflib.container.Bag(graph, uri, seq=[])[source]¶
Bases:
Container
Unordered container (no preference order of elements)
- __init__(graph, uri, seq=[])[source]¶
Creates a Container
- Parameters:
graph – a Graph instance
uri – URI or Blank Node of the Container
seq – the elements of the Container
rtype – the type of Container, one of “Bag”, “Seq” or “Alt”
- __module__ = 'rdflib.container'¶
- class rdflib.container.Container(graph, uri, seq=[], rtype='Bag')[source]¶
Bases:
object
A class for constructing RDF containers, as per https://www.w3.org/TR/rdf11-mt/#rdf-containers
Basic usage, creating a
Bag
and adding to it:>>> from rdflib import Graph, BNode, Literal, Bag >>> g = Graph() >>> b = Bag(g, BNode(), [Literal("One"), Literal("Two"), Literal("Three")]) >>> print(g.serialize(format="turtle")) @prefix rdf: <http://www.w3.org/1999/02/22-rdf-syntax-ns#> . [] a rdf:Bag ; rdf:_1 "One" ; rdf:_2 "Two" ; rdf:_3 "Three" . >>> # print out an item using an index reference >>> print(b[2]) Two >>> # add a new item >>> b.append(Literal("Hello")) <rdflib.container.Bag object at ...> >>> print(g.serialize(format="turtle")) @prefix rdf: <http://www.w3.org/1999/02/22-rdf-syntax-ns#> . [] a rdf:Bag ; rdf:_1 "One" ; rdf:_2 "Two" ; rdf:_3 "Three" ; rdf:_4 "Hello" .
- __dict__ = mappingproxy({'__module__': 'rdflib.container', '__doc__': 'A class for constructing RDF containers, as per https://www.w3.org/TR/rdf11-mt/#rdf-containers\n\n Basic usage, creating a ``Bag`` and adding to it::\n\n >>> from rdflib import Graph, BNode, Literal, Bag\n >>> g = Graph()\n >>> b = Bag(g, BNode(), [Literal("One"), Literal("Two"), Literal("Three")])\n >>> print(g.serialize(format="turtle"))\n @prefix rdf: <http://www.w3.org/1999/02/22-rdf-syntax-ns#> .\n <BLANKLINE>\n [] a rdf:Bag ;\n rdf:_1 "One" ;\n rdf:_2 "Two" ;\n rdf:_3 "Three" .\n <BLANKLINE>\n <BLANKLINE>\n\n >>> # print out an item using an index reference\n >>> print(b[2])\n Two\n\n >>> # add a new item\n >>> b.append(Literal("Hello")) # doctest: +ELLIPSIS\n <rdflib.container.Bag object at ...>\n >>> print(g.serialize(format="turtle"))\n @prefix rdf: <http://www.w3.org/1999/02/22-rdf-syntax-ns#> .\n <BLANKLINE>\n [] a rdf:Bag ;\n rdf:_1 "One" ;\n rdf:_2 "Two" ;\n rdf:_3 "Three" ;\n rdf:_4 "Hello" .\n <BLANKLINE>\n <BLANKLINE>\n\n ', '__init__': <function Container.__init__>, 'n3': <function Container.n3>, '_get_container': <function Container._get_container>, '__len__': <function Container.__len__>, 'type_of_conatiner': <function Container.type_of_conatiner>, 'type_of_container': <function Container.type_of_container>, 'index': <function Container.index>, '__getitem__': <function Container.__getitem__>, '__setitem__': <function Container.__setitem__>, '__delitem__': <function Container.__delitem__>, 'items': <function Container.items>, 'end': <function Container.end>, 'append': <function Container.append>, 'append_multiple': <function Container.append_multiple>, 'clear': <function Container.clear>, '__dict__': <attribute '__dict__' of 'Container' objects>, '__weakref__': <attribute '__weakref__' of 'Container' objects>, '__annotations__': {}})¶
- __init__(graph, uri, seq=[], rtype='Bag')[source]¶
Creates a Container
- Parameters:
graph – a Graph instance
uri – URI or Blank Node of the Container
seq – the elements of the Container
rtype – the type of Container, one of “Bag”, “Seq” or “Alt”
- __module__ = 'rdflib.container'¶
- __setitem__(key, value)[source]¶
Sets the item at index key or predicate rdf:_key of the container to value
- __weakref__¶
list of weak references to the object (if defined)
- exception rdflib.container.NoElementException(message='rdf:Alt Container is empty')[source]¶
Bases:
Exception
- __module__ = 'rdflib.container'¶
- __weakref__¶
list of weak references to the object (if defined)
- class rdflib.container.Seq(graph, uri, seq=[])[source]¶
Bases:
Container
- __init__(graph, uri, seq=[])[source]¶
Creates a Container
- Parameters:
graph – a Graph instance
uri – URI or Blank Node of the Container
seq – the elements of the Container
rtype – the type of Container, one of “Bag”, “Seq” or “Alt”
- __module__ = 'rdflib.container'¶
rdflib.events module¶
Dirt Simple Events
A Dispatcher (or a subclass of Dispatcher) stores event handlers that are ‘fired’ simple event objects when interesting things happen.
Create a dispatcher:
>>> d = Dispatcher()
Now create a handler for the event and subscribe it to the dispatcher to handle Event events. A handler is a simple function or method that accepts the event as an argument:
>>> def handler1(event): print(repr(event))
>>> d.subscribe(Event, handler1)
<rdflib.events.Dispatcher object at ...>
Now dispatch a new event into the dispatcher, and see handler1 get fired:
>>> d.dispatch(Event(foo='bar', data='yours', used_by='the event handlers'))
<rdflib.events.Event ['data', 'foo', 'used_by']>
- class rdflib.events.Dispatcher[source]¶
Bases:
object
An object that can dispatch events to a privately managed group of subscribers.
- __annotations__ = {'_dispatch_map': 'Optional[Dict[Any, Any]]'}¶
- __dict__ = mappingproxy({'__module__': 'rdflib.events', '__annotations__': {'_dispatch_map': 'Optional[Dict[Any, Any]]'}, '__doc__': '\n An object that can dispatch events to a privately managed group of\n subscribers.\n ', '_dispatch_map': None, 'set_map': <function Dispatcher.set_map>, 'get_map': <function Dispatcher.get_map>, 'subscribe': <function Dispatcher.subscribe>, 'dispatch': <function Dispatcher.dispatch>, '__dict__': <attribute '__dict__' of 'Dispatcher' objects>, '__weakref__': <attribute '__weakref__' of 'Dispatcher' objects>})¶
- __module__ = 'rdflib.events'¶
- __weakref__¶
list of weak references to the object (if defined)
- class rdflib.events.Event(**kw)[source]¶
Bases:
object
An event is a container for attributes. The source of an event creates this object, or a subclass, gives it any kind of data that the events handlers need to handle the event, and then calls notify(event).
The target of an event registers a function to handle the event it is interested with subscribe(). When a sources calls notify(event), each subscriber to that event will be called in no particular order.
- __dict__ = mappingproxy({'__module__': 'rdflib.events', '__doc__': '\n An event is a container for attributes. The source of an event\n creates this object, or a subclass, gives it any kind of data that\n the events handlers need to handle the event, and then calls\n notify(event).\n\n The target of an event registers a function to handle the event it\n is interested with subscribe(). When a sources calls\n notify(event), each subscriber to that event will be called in no\n particular order.\n ', '__init__': <function Event.__init__>, '__repr__': <function Event.__repr__>, '__dict__': <attribute '__dict__' of 'Event' objects>, '__weakref__': <attribute '__weakref__' of 'Event' objects>, '__annotations__': {}})¶
- __module__ = 'rdflib.events'¶
- __weakref__¶
list of weak references to the object (if defined)
rdflib.exceptions module¶
TODO:
- exception rdflib.exceptions.Error(msg=None)[source]¶
Bases:
Exception
Base class for rdflib exceptions.
- __module__ = 'rdflib.exceptions'¶
- __weakref__¶
list of weak references to the object (if defined)
rdflib.graph module¶
RDFLib defines the following kinds of Graphs:
Graph¶
An RDF graph is a set of RDF triples. Graphs support the python in
operator, as well as iteration and some operations like union,
difference and intersection.
see Graph
Conjunctive Graph¶
A Conjunctive Graph is the most relevant collection of graphs that are
considered to be the boundary for closed world assumptions. This
boundary is equivalent to that of the store instance (which is itself
uniquely identified and distinct from other instances of
Store
that signify other Conjunctive Graphs). It is
equivalent to all the named graphs within it and associated with a
_default_
graph which is automatically assigned a
BNode
for an identifier - if one isn’t given.
see ConjunctiveGraph
Quoted graph¶
The notion of an RDF graph [14] is extended to include the concept of a formula node. A formula node may occur wherever any other kind of node can appear. Associated with a formula node is an RDF graph that is completely disjoint from all other graphs; i.e. has no nodes in common with any other graph. (It may contain the same labels as other RDF graphs; because this is, by definition, a separate graph, considerations of tidiness do not apply between the graph at a formula node and any other graph.)
This is intended to map the idea of “{ N3-expression }” that is used by N3 into an RDF graph upon which RDF semantics is defined.
see QuotedGraph
Dataset¶
The RDF 1.1 Dataset, a small extension to the Conjunctive Graph. The primary term is “graphs in the datasets” and not “contexts with quads” so there is a separate method to set/retrieve a graph in a dataset and to operate with dataset graphs. As a consequence of this approach, dataset graphs cannot be identified with blank nodes, a name is always required (RDFLib will automatically add a name if one is not provided at creation time). This implementation includes a convenience method to directly add a single quad to a dataset graph.
see Dataset
Working with graphs¶
Instantiating Graphs with default store (Memory) and default identifier (a BNode):
>>> g = Graph()
>>> g.store.__class__
<class 'rdflib.plugins.stores.memory.Memory'>
>>> g.identifier.__class__
<class 'rdflib.term.BNode'>
Instantiating Graphs with a Memory store and an identifier - <https://rdflib.github.io>:
>>> g = Graph('Memory', URIRef("https://rdflib.github.io"))
>>> g.identifier
rdflib.term.URIRef('https://rdflib.github.io')
>>> str(g)
"<https://rdflib.github.io> a rdfg:Graph;rdflib:storage
[a rdflib:Store;rdfs:label 'Memory']."
Creating a ConjunctiveGraph - The top level container for all named Graphs in a “database”:
>>> g = ConjunctiveGraph()
>>> str(g.default_context)
"[a rdfg:Graph;rdflib:storage [a rdflib:Store;rdfs:label 'Memory']]."
Adding / removing reified triples to Graph and iterating over it directly or via triple pattern:
>>> g = Graph()
>>> statementId = BNode()
>>> print(len(g))
0
>>> g.add((statementId, RDF.type, RDF.Statement))
<Graph identifier=... (<class 'rdflib.graph.Graph'>)>
>>> g.add((statementId, RDF.subject,
... URIRef("https://rdflib.github.io/store/ConjunctiveGraph")))
<Graph identifier=... (<class 'rdflib.graph.Graph'>)>
>>> g.add((statementId, RDF.predicate, namespace.RDFS.label))
<Graph identifier=... (<class 'rdflib.graph.Graph'>)>
>>> g.add((statementId, RDF.object, Literal("Conjunctive Graph")))
<Graph identifier=... (<class 'rdflib.graph.Graph'>)>
>>> print(len(g))
4
>>> for s, p, o in g:
... print(type(s))
...
<class 'rdflib.term.BNode'>
<class 'rdflib.term.BNode'>
<class 'rdflib.term.BNode'>
<class 'rdflib.term.BNode'>
>>> for s, p, o in g.triples((None, RDF.object, None)):
... print(o)
...
Conjunctive Graph
>>> g.remove((statementId, RDF.type, RDF.Statement))
<Graph identifier=... (<class 'rdflib.graph.Graph'>)>
>>> print(len(g))
3
None
terms in calls to triples()
can be
thought of as “open variables”.
Graph support set-theoretic operators, you can add/subtract graphs, as well as intersection (with multiplication operator g1*g2) and xor (g1 ^ g2).
Note that BNode IDs are kept when doing set-theoretic operations, this may or may not be what you want. Two named graphs within the same application probably want share BNode IDs, two graphs with data from different sources probably not. If your BNode IDs are all generated by RDFLib they are UUIDs and unique.
>>> g1 = Graph()
>>> g2 = Graph()
>>> u = URIRef("http://example.com/foo")
>>> g1.add([u, namespace.RDFS.label, Literal("foo")])
<Graph identifier=... (<class 'rdflib.graph.Graph'>)>
>>> g1.add([u, namespace.RDFS.label, Literal("bar")])
<Graph identifier=... (<class 'rdflib.graph.Graph'>)>
>>> g2.add([u, namespace.RDFS.label, Literal("foo")])
<Graph identifier=... (<class 'rdflib.graph.Graph'>)>
>>> g2.add([u, namespace.RDFS.label, Literal("bing")])
<Graph identifier=... (<class 'rdflib.graph.Graph'>)>
>>> len(g1 + g2) # adds bing as label
3
>>> len(g1 - g2) # removes foo
1
>>> len(g1 * g2) # only foo
1
>>> g1 += g2 # now g1 contains everything
Graph Aggregation - ConjunctiveGraphs and ReadOnlyGraphAggregate within the same store:
>>> store = plugin.get("Memory", Store)()
>>> g1 = Graph(store)
>>> g2 = Graph(store)
>>> g3 = Graph(store)
>>> stmt1 = BNode()
>>> stmt2 = BNode()
>>> stmt3 = BNode()
>>> g1.add((stmt1, RDF.type, RDF.Statement))
<Graph identifier=... (<class 'rdflib.graph.Graph'>)>
>>> g1.add((stmt1, RDF.subject,
... URIRef('https://rdflib.github.io/store/ConjunctiveGraph')))
<Graph identifier=... (<class 'rdflib.graph.Graph'>)>
>>> g1.add((stmt1, RDF.predicate, namespace.RDFS.label))
<Graph identifier=... (<class 'rdflib.graph.Graph'>)>
>>> g1.add((stmt1, RDF.object, Literal('Conjunctive Graph')))
<Graph identifier=... (<class 'rdflib.graph.Graph'>)>
>>> g2.add((stmt2, RDF.type, RDF.Statement))
<Graph identifier=... (<class 'rdflib.graph.Graph'>)>
>>> g2.add((stmt2, RDF.subject,
... URIRef('https://rdflib.github.io/store/ConjunctiveGraph')))
<Graph identifier=... (<class 'rdflib.graph.Graph'>)>
>>> g2.add((stmt2, RDF.predicate, RDF.type))
<Graph identifier=... (<class 'rdflib.graph.Graph'>)>
>>> g2.add((stmt2, RDF.object, namespace.RDFS.Class))
<Graph identifier=... (<class 'rdflib.graph.Graph'>)>
>>> g3.add((stmt3, RDF.type, RDF.Statement))
<Graph identifier=... (<class 'rdflib.graph.Graph'>)>
>>> g3.add((stmt3, RDF.subject,
... URIRef('https://rdflib.github.io/store/ConjunctiveGraph')))
<Graph identifier=... (<class 'rdflib.graph.Graph'>)>
>>> g3.add((stmt3, RDF.predicate, namespace.RDFS.comment))
<Graph identifier=... (<class 'rdflib.graph.Graph'>)>
>>> g3.add((stmt3, RDF.object, Literal(
... 'The top-level aggregate graph - The sum ' +
... 'of all named graphs within a Store')))
<Graph identifier=... (<class 'rdflib.graph.Graph'>)>
>>> len(list(ConjunctiveGraph(store).subjects(RDF.type, RDF.Statement)))
3
>>> len(list(ReadOnlyGraphAggregate([g1,g2]).subjects(
... RDF.type, RDF.Statement)))
2
ConjunctiveGraphs have a quads()
method
which returns quads instead of triples, where the fourth item is the Graph
(or subclass thereof) instance in which the triple was asserted:
>>> uniqueGraphNames = set(
... [graph.identifier for s, p, o, graph in ConjunctiveGraph(store
... ).quads((None, RDF.predicate, None))])
>>> len(uniqueGraphNames)
3
>>> unionGraph = ReadOnlyGraphAggregate([g1, g2])
>>> uniqueGraphNames = set(
... [graph.identifier for s, p, o, graph in unionGraph.quads(
... (None, RDF.predicate, None))])
>>> len(uniqueGraphNames)
2
Parsing N3 from a string
>>> g2 = Graph()
>>> src = '''
... @prefix rdf: <http://www.w3.org/1999/02/22-rdf-syntax-ns#> .
... @prefix rdfs: <http://www.w3.org/2000/01/rdf-schema#> .
... [ a rdf:Statement ;
... rdf:subject <https://rdflib.github.io/store#ConjunctiveGraph>;
... rdf:predicate rdfs:label;
... rdf:object "Conjunctive Graph" ] .
... '''
>>> g2 = g2.parse(data=src, format="n3")
>>> print(len(g2))
4
Using Namespace class:
>>> RDFLib = Namespace("https://rdflib.github.io/")
>>> RDFLib.ConjunctiveGraph
rdflib.term.URIRef('https://rdflib.github.io/ConjunctiveGraph')
>>> RDFLib["Graph"]
rdflib.term.URIRef('https://rdflib.github.io/Graph')
- class rdflib.graph.BatchAddGraph(graph, batch_size=1000, batch_addn=False)[source]¶
Bases:
object
Wrapper around graph that turns batches of calls to Graph’s add (and optionally, addN) into calls to batched calls to addN`.
- Parameters:
graph: The graph to wrap
batch_size: The maximum number of triples to buffer before passing to Graph’s addN
batch_addn: If True, then even calls to addN will be batched according to batch_size
graph: The wrapped graph count: The number of triples buffered since initialization or the last call to reset batch: The current buffer of triples
- __dict__ = mappingproxy({'__module__': 'rdflib.graph', '__doc__': "\n Wrapper around graph that turns batches of calls to Graph's add\n (and optionally, addN) into calls to batched calls to addN`.\n\n :Parameters:\n\n - graph: The graph to wrap\n - batch_size: The maximum number of triples to buffer before passing to\n Graph's addN\n - batch_addn: If True, then even calls to `addN` will be batched according to\n batch_size\n\n graph: The wrapped graph\n count: The number of triples buffered since initialization or the last call to reset\n batch: The current buffer of triples\n\n ", '__init__': <function BatchAddGraph.__init__>, 'reset': <function BatchAddGraph.reset>, 'add': <function BatchAddGraph.add>, 'addN': <function BatchAddGraph.addN>, '__enter__': <function BatchAddGraph.__enter__>, '__exit__': <function BatchAddGraph.__exit__>, '__dict__': <attribute '__dict__' of 'BatchAddGraph' objects>, '__weakref__': <attribute '__weakref__' of 'BatchAddGraph' objects>, '__annotations__': {}})¶
- __module__ = 'rdflib.graph'¶
- __weakref__¶
list of weak references to the object (if defined)
- class rdflib.graph.ConjunctiveGraph(store='default', identifier=None, default_graph_base=None)[source]¶
Bases:
Graph
A ConjunctiveGraph is an (unnamed) aggregation of all the named graphs in a store.
It has a
default
graph, whose name is associated with the graph throughout its life.__init__()
can take an identifier to use as the name of this default graph or it will assign a BNode.All methods that add triples work against this default graph.
All queries are carried out against the union of all graphs.
- Parameters:
- __abstractmethods__ = frozenset({})¶
- __module__ = 'rdflib.graph'¶
- add(triple_or_quad)[source]¶
Add a triple or quad to the store.
if a triple is given it is added to the default context
- contexts(triple=None)[source]¶
Iterate over all contexts in the graph
If triple is specified, iterate over all contexts the triple is in.
- get_context(identifier, quoted=False, base=None)[source]¶
Return a context graph for the given identifier
identifier must be a URIRef or BNode.
- get_graph(identifier)[source]¶
Returns the graph identified by given identifier
- Parameters:
identifier (
IdentifiedNode
) –- Return type:
- parse(source=None, publicID=None, format=None, location=None, file=None, data=None, **args)[source]¶
Parse source adding the resulting triples to its own context (sub graph of this graph).
See
rdflib.graph.Graph.parse()
for documentation on arguments.If the source is in a format that does not support named graphs it’s triples will be added to the default graph (i.e. Dataset.default_context).
- Returns:
The graph into which the source was parsed. In the case of n3 it returns the root context.
Caution
This method can access directly or indirectly requested network or file resources, for example, when parsing JSON-LD documents with
@context
directives that point to a network location.When processing untrusted or potentially malicious documents, measures should be taken to restrict network and file access.
For information on available security measures, see the RDFLib Security Considerations documentation.
Changed in 7.0: The
publicID
argument is no longer used as the identifier (i.e. name) of the default graph as was the case before version 7.0. In the case of sources that do not support named graphs, thepublicID
parameter will also not be used as the name for the graph that the data is loaded into, and instead the triples from sources that do not support named graphs will be loaded into the default graph (i.e. ConjunctionGraph.default_context).
- remove(triple_or_quad)[source]¶
Removes a triple or quads
if a triple is given it is removed from all contexts
a quad is removed from the given context only
- triples(triple_or_quad, context=None)[source]¶
Iterate over all the triples in the entire conjunctive graph
For legacy reasons, this can take the context to query either as a fourth element of the quad, or as the explicit context keyword parameter. The kw param takes precedence.
- class rdflib.graph.Dataset(store='default', default_union=False, default_graph_base=None)[source]¶
Bases:
ConjunctiveGraph
RDF 1.1 Dataset. Small extension to the Conjunctive Graph: - the primary term is graphs in the datasets and not contexts with quads, so there is a separate method to set/retrieve a graph in a dataset and operate with graphs - graphs cannot be identified with blank nodes - added a method to directly add a single quad
Examples of usage:
>>> # Create a new Dataset >>> ds = Dataset() >>> # simple triples goes to default graph >>> ds.add((URIRef("http://example.org/a"), ... URIRef("http://www.example.org/b"), ... Literal("foo"))) <Graph identifier=... (<class 'rdflib.graph.Dataset'>)> >>> >>> # Create a graph in the dataset, if the graph name has already been >>> # used, the corresponding graph will be returned >>> # (ie, the Dataset keeps track of the constituent graphs) >>> g = ds.graph(URIRef("http://www.example.com/gr")) >>> >>> # add triples to the new graph as usual >>> g.add( ... (URIRef("http://example.org/x"), ... URIRef("http://example.org/y"), ... Literal("bar")) ) <Graph identifier=... (<class 'rdflib.graph.Graph'>)> >>> # alternatively: add a quad to the dataset -> goes to the graph >>> ds.add( ... (URIRef("http://example.org/x"), ... URIRef("http://example.org/z"), ... Literal("foo-bar"),g) ) <Graph identifier=... (<class 'rdflib.graph.Dataset'>)> >>> >>> # querying triples return them all regardless of the graph >>> for t in ds.triples((None,None,None)): ... print(t) (rdflib.term.URIRef("http://example.org/a"), rdflib.term.URIRef("http://www.example.org/b"), rdflib.term.Literal("foo")) (rdflib.term.URIRef("http://example.org/x"), rdflib.term.URIRef("http://example.org/z"), rdflib.term.Literal("foo-bar")) (rdflib.term.URIRef("http://example.org/x"), rdflib.term.URIRef("http://example.org/y"), rdflib.term.Literal("bar")) >>> >>> # querying quads() return quads; the fourth argument can be unrestricted >>> # (None) or restricted to a graph >>> for q in ds.quads((None, None, None, None)): ... print(q) (rdflib.term.URIRef("http://example.org/a"), rdflib.term.URIRef("http://www.example.org/b"), rdflib.term.Literal("foo"), None) (rdflib.term.URIRef("http://example.org/x"), rdflib.term.URIRef("http://example.org/y"), rdflib.term.Literal("bar"), rdflib.term.URIRef("http://www.example.com/gr")) (rdflib.term.URIRef("http://example.org/x"), rdflib.term.URIRef("http://example.org/z"), rdflib.term.Literal("foo-bar"), rdflib.term.URIRef("http://www.example.com/gr")) >>> >>> # unrestricted looping is equivalent to iterating over the entire Dataset >>> for q in ds: ... print(q) (rdflib.term.URIRef("http://example.org/a"), rdflib.term.URIRef("http://www.example.org/b"), rdflib.term.Literal("foo"), None) (rdflib.term.URIRef("http://example.org/x"), rdflib.term.URIRef("http://example.org/y"), rdflib.term.Literal("bar"), rdflib.term.URIRef("http://www.example.com/gr")) (rdflib.term.URIRef("http://example.org/x"), rdflib.term.URIRef("http://example.org/z"), rdflib.term.Literal("foo-bar"), rdflib.term.URIRef("http://www.example.com/gr")) >>> >>> # resticting iteration to a graph: >>> for q in ds.quads((None, None, None, g)): ... print(q) (rdflib.term.URIRef("http://example.org/x"), rdflib.term.URIRef("http://example.org/y"), rdflib.term.Literal("bar"), rdflib.term.URIRef("http://www.example.com/gr")) (rdflib.term.URIRef("http://example.org/x"), rdflib.term.URIRef("http://example.org/z"), rdflib.term.Literal("foo-bar"), rdflib.term.URIRef("http://www.example.com/gr")) >>> # Note that in the call above - >>> # ds.quads((None,None,None,"http://www.example.com/gr")) >>> # would have been accepted, too >>> >>> # graph names in the dataset can be queried: >>> for c in ds.graphs(): ... print(c) # doctest: DEFAULT http://www.example.com/gr >>> # A graph can be created without specifying a name; a skolemized genid >>> # is created on the fly >>> h = ds.graph() >>> for c in ds.graphs(): ... print(c) DEFAULT https://rdflib.github.io/.well-known/genid/rdflib/N... http://www.example.com/gr >>> # Note that the Dataset.graphs() call returns names of empty graphs, >>> # too. This can be restricted: >>> for c in ds.graphs(empty=False): ... print(c) DEFAULT http://www.example.com/gr >>> >>> # a graph can also be removed from a dataset via ds.remove_graph(g)
New in version 4.0.
- __abstractmethods__ = frozenset({})¶
- __module__ = 'rdflib.graph'¶
- contexts(triple=None)[source]¶
Iterate over all contexts in the graph
If triple is specified, iterate over all contexts the triple is in.
- graphs(triple=None)¶
Iterate over all contexts in the graph
If triple is specified, iterate over all contexts the triple is in.
- parse(source=None, publicID=None, format=None, location=None, file=None, data=None, **args)[source]¶
Parse an RDF source adding the resulting triples to the Graph.
See
rdflib.graph.Graph.parse()
for documentation on arguments.The source is specified using one of source, location, file or data.
If the source is in a format that does not support named graphs it’s triples will be added to the default graph (i.e. Dataset.default_context).
Caution
This method can access directly or indirectly requested network or file resources, for example, when parsing JSON-LD documents with
@context
directives that point to a network location.When processing untrusted or potentially malicious documents, measures should be taken to restrict network and file access.
For information on available security measures, see the RDFLib Security Considerations documentation.
Changed in 7.0: The
publicID
argument is no longer used as the identifier (i.e. name) of the default graph as was the case before version 7.0. In the case of sources that do not support named graphs, thepublicID
parameter will also not be used as the name for the graph that the data is loaded into, and instead the triples from sources that do not support named graphs will be loaded into the default graph (i.e. ConjunctionGraph.default_context).
- class rdflib.graph.Graph(store='default', identifier=None, namespace_manager=None, base=None, bind_namespaces='rdflib')[source]¶
Bases:
Node
An RDF Graph
The constructor accepts one argument, the “store” that will be used to store the graph data (see the “store” package for stores currently shipped with rdflib).
Stores can be context-aware or unaware. Unaware stores take up (some) less space but cannot support features that require context, such as true merging/demerging of sub-graphs and provenance.
Even if used with a context-aware store, Graph will only expose the quads which belong to the default graph. To access the rest of the data, ConjunctiveGraph or Dataset classes can be used instead.
The Graph constructor can take an identifier which identifies the Graph by name. If none is given, the graph is assigned a BNode for its identifier.
For more on named graphs, see: http://www.w3.org/2004/03/trix/
- Parameters:
- __abstractmethods__ = frozenset({})¶
- __and__(other)¶
Set-theoretic intersection. BNode IDs are not changed.
- __dict__ = mappingproxy({'__module__': 'rdflib.graph', '__doc__': 'An RDF Graph\n\n The constructor accepts one argument, the "store"\n that will be used to store the graph data (see the "store"\n package for stores currently shipped with rdflib).\n\n Stores can be context-aware or unaware. Unaware stores take up\n (some) less space but cannot support features that require\n context, such as true merging/demerging of sub-graphs and\n provenance.\n\n Even if used with a context-aware store, Graph will only expose the quads which\n belong to the default graph. To access the rest of the data, `ConjunctiveGraph` or\n `Dataset` classes can be used instead.\n\n The Graph constructor can take an identifier which identifies the Graph\n by name. If none is given, the graph is assigned a BNode for its\n identifier.\n\n For more on named graphs, see: http://www.w3.org/2004/03/trix/\n ', '__init__': <function Graph.__init__>, 'store': <property object>, 'identifier': <property object>, 'namespace_manager': <property object>, '__repr__': <function Graph.__repr__>, '__str__': <function Graph.__str__>, 'toPython': <function Graph.toPython>, 'destroy': <function Graph.destroy>, 'commit': <function Graph.commit>, 'rollback': <function Graph.rollback>, 'open': <function Graph.open>, 'close': <function Graph.close>, 'add': <function Graph.add>, 'addN': <function Graph.addN>, 'remove': <function Graph.remove>, 'triples': <function Graph.triples>, '__getitem__': <function Graph.__getitem__>, '__len__': <function Graph.__len__>, '__iter__': <function Graph.__iter__>, '__contains__': <function Graph.__contains__>, '__hash__': <function Graph.__hash__>, '__cmp__': <function Graph.__cmp__>, '__eq__': <function Graph.__eq__>, '__lt__': <function Graph.__lt__>, '__le__': <function Graph.__le__>, '__gt__': <function Graph.__gt__>, '__ge__': <function Graph.__ge__>, '__iadd__': <function Graph.__iadd__>, '__isub__': <function Graph.__isub__>, '__add__': <function Graph.__add__>, '__mul__': <function Graph.__mul__>, '__sub__': <function Graph.__sub__>, '__xor__': <function Graph.__xor__>, '__or__': <function Graph.__add__>, '__and__': <function Graph.__mul__>, 'set': <function Graph.set>, 'subjects': <function Graph.subjects>, 'predicates': <function Graph.predicates>, 'objects': <function Graph.objects>, 'subject_predicates': <function Graph.subject_predicates>, 'subject_objects': <function Graph.subject_objects>, 'predicate_objects': <function Graph.predicate_objects>, 'triples_choices': <function Graph.triples_choices>, 'value': <function Graph.value>, 'items': <function Graph.items>, 'transitiveClosure': <function Graph.transitiveClosure>, 'transitive_objects': <function Graph.transitive_objects>, 'transitive_subjects': <function Graph.transitive_subjects>, 'qname': <function Graph.qname>, 'compute_qname': <function Graph.compute_qname>, 'bind': <function Graph.bind>, 'namespaces': <function Graph.namespaces>, 'absolutize': <function Graph.absolutize>, 'serialize': <function Graph.serialize>, 'print': <function Graph.print>, 'parse': <function Graph.parse>, 'query': <function Graph.query>, 'update': <function Graph.update>, 'n3': <function Graph.n3>, '__reduce__': <function Graph.__reduce__>, 'isomorphic': <function Graph.isomorphic>, 'connected': <function Graph.connected>, 'all_nodes': <function Graph.all_nodes>, 'collection': <function Graph.collection>, 'resource': <function Graph.resource>, '_process_skolem_tuples': <function Graph._process_skolem_tuples>, 'skolemize': <function Graph.skolemize>, 'de_skolemize': <function Graph.de_skolemize>, 'cbd': <function Graph.cbd>, '__dict__': <attribute '__dict__' of 'Graph' objects>, '__weakref__': <attribute '__weakref__' of 'Graph' objects>, '__abstractmethods__': frozenset(), '_abc_impl': <_abc._abc_data object>, '__annotations__': {'__identifier': '_ContextIdentifierType', '__store': 'Store'}})¶
- __getitem__(item)[source]¶
A graph can be “sliced” as a shortcut for the triples method The python slice syntax is (ab)used for specifying triples. A generator over matches is returned, the returned tuples include only the parts not given
>>> import rdflib >>> g = rdflib.Graph() >>> g.add((rdflib.URIRef("urn:bob"), namespace.RDFS.label, rdflib.Literal("Bob"))) <Graph identifier=... (<class 'rdflib.graph.Graph'>)>
>>> list(g[rdflib.URIRef("urn:bob")]) # all triples about bob [(rdflib.term.URIRef('http://www.w3.org/2000/01/rdf-schema#label'), rdflib.term.Literal('Bob'))]
>>> list(g[:namespace.RDFS.label]) # all label triples [(rdflib.term.URIRef('urn:bob'), rdflib.term.Literal('Bob'))]
>>> list(g[::rdflib.Literal("Bob")]) # all triples with bob as object [(rdflib.term.URIRef('urn:bob'), rdflib.term.URIRef('http://www.w3.org/2000/01/rdf-schema#label'))]
Combined with SPARQL paths, more complex queries can be written concisely:
Name of all Bobs friends:
g[bob : FOAF.knows/FOAF.name ]
Some label for Bob:
g[bob : DC.title|FOAF.name|RDFS.label]
All friends and friends of friends of Bob
g[bob : FOAF.knows * “+”]
etc.
New in version 4.0.
- __init__(store='default', identifier=None, namespace_manager=None, base=None, bind_namespaces='rdflib')[source]¶
- __len__()[source]¶
Returns the number of triples in the graph
If context is specified then the number of triples in the context is returned instead.
- Return type:
- __module__ = 'rdflib.graph'¶
- __or__(other)¶
Set-theoretic union BNode IDs are not changed.
- __weakref__¶
list of weak references to the object (if defined)
- bind(prefix, namespace, override=True, replace=False)[source]¶
Bind prefix to namespace
If override is True will bind namespace to given prefix even if namespace was already bound to a different prefix.
if replace, replace any existing prefix with the new namespace
for example: graph.bind(“foaf”, “http://xmlns.com/foaf/0.1/”)
- cbd(resource, *, target_graph=None)[source]¶
Retrieves the Concise Bounded Description of a Resource from a Graph
Concise Bounded Description (CBD) is defined in [1] as:
Given a particular node (the starting node) in a particular RDF graph (the source graph), a subgraph of that particular graph, taken to comprise a concise bounded description of the resource denoted by the starting node, can be identified as follows:
- Include in the subgraph all statements in the source graph where the subject of the statement is the
starting node;
- Recursively, for all statements identified in the subgraph thus far having a blank node object, include
in the subgraph all statements in the source graph where the subject of the statement is the blank node in question and which are not already included in the subgraph.
- Recursively, for all statements included in the subgraph thus far, for all reifications of each statement
in the source graph, include the concise bounded description beginning from the rdf:Statement node of each reification.
This results in a subgraph where the object nodes are either URI references, literals, or blank nodes not serving as the subject of any statement in the graph.
[1] https://www.w3.org/Submission/CBD/
- Parameters:
- Return type:
- Returns:
a Graph, subgraph of self if no graph was provided otherwise the provided graph
- close(commit_pending_transaction=False)[source]¶
Close the graph store
Might be necessary for stores that require closing a connection to a database or releasing some resource.
- collection(identifier)[source]¶
Create a new
Collection
instance.Parameters:
identifier
: a URIRef or BNode instance.
Example:
>>> graph = Graph() >>> uri = URIRef("http://example.org/resource") >>> collection = graph.collection(uri) >>> assert isinstance(collection, Collection) >>> assert collection.uri is uri >>> assert collection.graph is graph >>> collection += [ Literal(1), Literal(2) ]
- Parameters:
identifier (
Node
) –- Return type:
- connected()[source]¶
Check if the Graph is connected
The Graph is considered undirectional.
Performs a search on the Graph, starting from a random node. Then iteratively goes depth-first through the triplets where the node is subject and object. Return True if all nodes have been visited and False if it cannot continue and there are still unvisited nodes left.
- Return type:
- property identifier: IdentifiedNode¶
- isomorphic(other)[source]¶
does a very basic check if these graphs are the same If no BNodes are involved, this is accurate.
See rdflib.compare for a correct implementation of isomorphism checks
- items(list)[source]¶
Generator over all items in the resource specified by list
list is an RDF collection.
- n3(namespace_manager=None)[source]¶
Return an n3 identifier for the Graph
- Parameters:
namespace_manager (
Optional
[NamespaceManager
]) –- Return type:
- property namespace_manager: NamespaceManager¶
this graph’s namespace-manager
- objects(subject=None, predicate=None, unique=False)[source]¶
A generator of (optionally unique) objects with the given subject and predicate
- open(configuration, create=False)[source]¶
Open the graph store
Might be necessary for stores that require opening a connection to a database or acquiring some resource.
- parse(source=None, publicID=None, format=None, location=None, file=None, data=None, **args)[source]¶
Parse an RDF source adding the resulting triples to the Graph.
The source is specified using one of source, location, file or data.
Caution
This method can access directly or indirectly requested network or file resources, for example, when parsing JSON-LD documents with
@context
directives that point to a network location.When processing untrusted or potentially malicious documents, measures should be taken to restrict network and file access.
For information on available security measures, see the RDFLib Security Considerations documentation.
- Parameters:
source (
Union
[IO
[bytes
],TextIO
,InputSource
,str
,bytes
,PurePath
,None
]) – An InputSource, file-like object, Path like object, or string. In the case of a string the string is the location of the source.location (
Optional
[str
]) – A string indicating the relative or absolute URL of the source. Graph’s absolutize method is used if a relative location is specified.data (
Union
[str
,bytes
,None
]) – A string containing the data to be parsed.format (
Optional
[str
]) – Used if format can not be determined from source, e.g. file extension or Media Type. Defaults to text/turtle. Format support can be extended with plugins, but “xml”, “n3” (use for turtle), “nt” & “trix” are built in.publicID (
Optional
[str
]) – the logical URI to use as the document base. If None specified the document location is used (at least in the case where there is a document location). This is used as the base URI when resolving relative URIs in the source document, as defined in IETF RFC 3986, given the source document does not define a base URI.
- Return type:
- Returns:
self
, i.e. theGraph
instance.
Examples:
>>> my_data = ''' ... <rdf:RDF ... xmlns:rdf="http://www.w3.org/1999/02/22-rdf-syntax-ns#" ... xmlns:rdfs="http://www.w3.org/2000/01/rdf-schema#" ... > ... <rdf:Description> ... <rdfs:label>Example</rdfs:label> ... <rdfs:comment>This is really just an example.</rdfs:comment> ... </rdf:Description> ... </rdf:RDF> ... ''' >>> import os, tempfile >>> fd, file_name = tempfile.mkstemp() >>> f = os.fdopen(fd, "w") >>> dummy = f.write(my_data) # Returns num bytes written >>> f.close()
>>> g = Graph() >>> result = g.parse(data=my_data, format="application/rdf+xml") >>> len(g) 2
>>> g = Graph() >>> result = g.parse(location=file_name, format="application/rdf+xml") >>> len(g) 2
>>> g = Graph() >>> with open(file_name, "r") as f: ... result = g.parse(f, format="application/rdf+xml") >>> len(g) 2
>>> os.remove(file_name)
>>> # default turtle parsing >>> result = g.parse(data="<http://example.com/a> <http://example.com/a> <http://example.com/a> .") >>> len(g) 3
- Parameters:
args (
Any
) –
- predicate_objects(subject=None, unique=False)[source]¶
A generator of (optionally unique) (predicate, object) tuples for the given subject
- predicates(subject=None, object=None, unique=False)[source]¶
A generator of (optionally unique) predicates with the given subject and object
- query(query_object, processor='sparql', result='sparql', initNs=None, initBindings=None, use_store_provided=True, **kwargs)[source]¶
Query this graph.
A type of ‘prepared queries’ can be realised by providing initial variable bindings with initBindings
Initial namespaces are used to resolve prefixes used in the query, if none are given, the namespaces from the graph’s namespace manager are used.
Caution
This method can access indirectly requested network endpoints, for example, query processing will attempt to access network endpoints specified in
SERVICE
directives.When processing untrusted or potentially malicious queries, measures should be taken to restrict network and file access.
For information on available security measures, see the RDFLib Security Considerations documentation.
- remove(triple)[source]¶
Remove a triple from the graph
If the triple does not provide a context attribute, removes the triple from all contexts.
- resource(identifier)[source]¶
Create a new
Resource
instance.Parameters:
identifier
: a URIRef or BNode instance.
Example:
>>> graph = Graph() >>> uri = URIRef("http://example.org/resource") >>> resource = graph.resource(uri) >>> assert isinstance(resource, Resource) >>> assert resource.identifier is uri >>> assert resource.graph is graph
- serialize(destination=None, format='turtle', base=None, encoding=None, **args)[source]¶
Serialize the graph.
- Parameters:
destination (
Union
[str
,PurePath
,IO
[bytes
],None
]) – The destination to serialize the graph to. This can be a path as astr
orPurePath
object, or it can be aIO
[bytes]
like object. If this parameter is not supplied the serialized graph will be returned.format (
str
) – The format that the output should be written in. This value references aSerializer
plugin. Format support can be extended with plugins, but"xml"
,"n3"
,"turtle"
,"nt"
,"pretty-xml"
,"trix"
,"trig"
,"nquads"
,"json-ld"
and"hext"
are built in. Defaults to"turtle"
.base (
Optional
[str
]) – The base IRI for formats that support it. For the turtle format this will be used as the@base
directive.args (
Any
) – Additional arguments to pass to theSerializer
that will be used.self (
TypeVar
(_GraphT
, bound= Graph)) –
- Returns:
The serialized graph if
destination
is None. The serialized graph is returned as str if no encoding is specified, and as bytes if an encoding is specified.- Return type:
bytes
ifdestination
is None andencoding
is not None.- Return type:
str
ifdestination
is None andencoding
is None.- Returns:
self
(i.e. theGraph
instance) ifdestination
is not None.- Return type:
Graph
ifdestination
is not None.
- set(triple)[source]¶
Convenience method to update the value of object
Remove any existing triples for subject and predicate before adding (subject, predicate, object).
- subject_objects(predicate=None, unique=False)[source]¶
A generator of (optionally unique) (subject, object) tuples for the given predicate
- subject_predicates(object=None, unique=False)[source]¶
A generator of (optionally unique) (subject, predicate) tuples for the given object
- subjects(predicate=None, object=None, unique=False)[source]¶
A generator of (optionally unique) subjects with the given predicate and object
- transitiveClosure(func, arg, seen=None)[source]¶
Generates transitive closure of a user-defined function against the graph
>>> from rdflib.collection import Collection >>> g=Graph() >>> a=BNode("foo") >>> b=BNode("bar") >>> c=BNode("baz") >>> g.add((a,RDF.first,RDF.type)) <Graph identifier=... (<class 'rdflib.graph.Graph'>)> >>> g.add((a,RDF.rest,b)) <Graph identifier=... (<class 'rdflib.graph.Graph'>)> >>> g.add((b,RDF.first,namespace.RDFS.label)) <Graph identifier=... (<class 'rdflib.graph.Graph'>)> >>> g.add((b,RDF.rest,c)) <Graph identifier=... (<class 'rdflib.graph.Graph'>)> >>> g.add((c,RDF.first,namespace.RDFS.comment)) <Graph identifier=... (<class 'rdflib.graph.Graph'>)> >>> g.add((c,RDF.rest,RDF.nil)) <Graph identifier=... (<class 'rdflib.graph.Graph'>)> >>> def topList(node,g): ... for s in g.subjects(RDF.rest, node): ... yield s >>> def reverseList(node,g): ... for f in g.objects(node, RDF.first): ... print(f) ... for s in g.subjects(RDF.rest, node): ... yield s
>>> [rt for rt in g.transitiveClosure( ... topList,RDF.nil)] [rdflib.term.BNode('baz'), rdflib.term.BNode('bar'), rdflib.term.BNode('foo')]
>>> [rt for rt in g.transitiveClosure( ... reverseList,RDF.nil)] http://www.w3.org/2000/01/rdf-schema#comment http://www.w3.org/2000/01/rdf-schema#label http://www.w3.org/1999/02/22-rdf-syntax-ns#type [rdflib.term.BNode('baz'), rdflib.term.BNode('bar'), rdflib.term.BNode('foo')]
- transitive_objects(subject, predicate, remember=None)[source]¶
Transitively generate objects for the
predicate
relationshipGenerated objects belong to the depth first transitive closure of the
predicate
relationship starting atsubject
.
- transitive_subjects(predicate, object, remember=None)[source]¶
Transitively generate subjects for the
predicate
relationshipGenerated subjects belong to the depth first transitive closure of the
predicate
relationship starting atobject
.
- triples(triple)[source]¶
Generator over the triple store
Returns triples that match the given triple pattern. If triple pattern does not provide a context, all contexts will be searched.
- update(update_object, processor='sparql', initNs=None, initBindings=None, use_store_provided=True, **kwargs)[source]¶
Update this graph with the given update query.
Caution
This method can access indirectly requested network endpoints, for example, query processing will attempt to access network endpoints specified in
SERVICE
directives.When processing untrusted or potentially malicious queries, measures should be taken to restrict network and file access.
For information on available security measures, see the RDFLib Security Considerations documentation.
- value(subject=None, predicate=rdflib.term.URIRef('http://www.w3.org/1999/02/22-rdf-syntax-ns#value'), object=None, default=None, any=True)[source]¶
Get a value for a pair of two criteria
Exactly one of subject, predicate, object must be None. Useful if one knows that there may only be one value.
It is one of those situations that occur a lot, hence this ‘macro’ like utility
Parameters: subject, predicate, object – exactly one must be None default – value to be returned if no values found any – if True, return any value in the case there is more than one, else, raise UniquenessError
- exception rdflib.graph.ModificationException[source]¶
Bases:
Exception
- __module__ = 'rdflib.graph'¶
- __weakref__¶
list of weak references to the object (if defined)
- class rdflib.graph.QuotedGraph(store, identifier)[source]¶
Bases:
Graph
Quoted Graphs are intended to implement Notation 3 formulae. They are associated with a required identifier that the N3 parser must provide in order to maintain consistent formulae identification for scenarios such as implication and other such processing.
- __abstractmethods__ = frozenset({})¶
- __module__ = 'rdflib.graph'¶
- n3(namespace_manager=None)[source]¶
Return an n3 identifier for the Graph
- Parameters:
namespace_manager (
Optional
[NamespaceManager
]) –- Return type:
- class rdflib.graph.ReadOnlyGraphAggregate(graphs, store='default')[source]¶
Bases:
ConjunctiveGraph
Utility class for treating a set of graphs as a single graph
Only read operations are supported (hence the name). Essentially a ConjunctiveGraph over an explicit subset of the entire store.
- __abstractmethods__ = frozenset({})¶
- __module__ = 'rdflib.graph'¶
- add(triple)[source]¶
Add a triple or quad to the store.
if a triple is given it is added to the default context
- bind(prefix, namespace, override=True)[source]¶
Bind prefix to namespace
If override is True will bind namespace to given prefix even if namespace was already bound to a different prefix.
if replace, replace any existing prefix with the new namespace
for example: graph.bind(“foaf”, “http://xmlns.com/foaf/0.1/”)
- close()[source]¶
Close the graph store
Might be necessary for stores that require closing a connection to a database or releasing some resource.
- Return type:
- n3(namespace_manager=None)[source]¶
Return an n3 identifier for the Graph
- Parameters:
namespace_manager (
Optional
[NamespaceManager
]) –- Return type:
- open(configuration, create=False)[source]¶
Open the graph store
Might be necessary for stores that require opening a connection to a database or acquiring some resource.
- parse(source, publicID=None, format=None, **args)[source]¶
Parse source adding the resulting triples to its own context (sub graph of this graph).
See
rdflib.graph.Graph.parse()
for documentation on arguments.If the source is in a format that does not support named graphs it’s triples will be added to the default graph (i.e. Dataset.default_context).
- Returns:
The graph into which the source was parsed. In the case of n3 it returns the root context.
Caution
This method can access directly or indirectly requested network or file resources, for example, when parsing JSON-LD documents with
@context
directives that point to a network location.When processing untrusted or potentially malicious documents, measures should be taken to restrict network and file access.
For information on available security measures, see the RDFLib Security Considerations documentation.
Changed in 7.0: The
publicID
argument is no longer used as the identifier (i.e. name) of the default graph as was the case before version 7.0. In the case of sources that do not support named graphs, thepublicID
parameter will also not be used as the name for the graph that the data is loaded into, and instead the triples from sources that do not support named graphs will be loaded into the default graph (i.e. ConjunctionGraph.default_context).
- remove(triple)[source]¶
Removes a triple or quads
if a triple is given it is removed from all contexts
a quad is removed from the given context only
- triples(triple)[source]¶
Iterate over all the triples in the entire conjunctive graph
For legacy reasons, this can take the context to query either as a fourth element of the quad, or as the explicit context keyword parameter. The kw param takes precedence.
- class rdflib.graph.Seq(graph, subject)[source]¶
Bases:
object
Wrapper around an RDF Seq resource
It implements a container type in Python with the order of the items returned corresponding to the Seq content. It is based on the natural ordering of the predicate names _1, _2, _3, etc, which is the ‘implementation’ of a sequence in RDF terms.
- __dict__ = mappingproxy({'__module__': 'rdflib.graph', '__doc__': "Wrapper around an RDF Seq resource\n\n It implements a container type in Python with the order of the items\n returned corresponding to the Seq content. It is based on the natural\n ordering of the predicate names _1, _2, _3, etc, which is the\n 'implementation' of a sequence in RDF terms.\n ", '__init__': <function Seq.__init__>, 'toPython': <function Seq.toPython>, '__iter__': <function Seq.__iter__>, '__len__': <function Seq.__len__>, '__getitem__': <function Seq.__getitem__>, '__dict__': <attribute '__dict__' of 'Seq' objects>, '__weakref__': <attribute '__weakref__' of 'Seq' objects>, '__annotations__': {'_list': 'List[Tuple[int, _ObjectType]]'}})¶
- __init__(graph, subject)[source]¶
Parameters:
- graph:
the graph containing the Seq
- subject:
the subject of a Seq. Note that the init does not check whether this is a Seq, this is done in whoever creates this instance!
- __module__ = 'rdflib.graph'¶
- __weakref__¶
list of weak references to the object (if defined)
rdflib.parser module¶
Parser plugin interface.
This module defines the parser plugin interface and contains other related parser support code.
The module is mainly useful for those wanting to write a parser that can plugin to rdflib. If you are wanting to invoke a parser you likely want to do so through the Graph class parse method.
- class rdflib.parser.FileInputSource(file)[source]¶
Bases:
InputSource
- Parameters:
file (
Union
[BinaryIO
,TextIO
,TextIOBase
,RawIOBase
,BufferedIOBase
]) –
- __init__(file)[source]¶
- Parameters:
file (
Union
[BinaryIO
,TextIO
,TextIOBase
,RawIOBase
,BufferedIOBase
]) –
- __module__ = 'rdflib.parser'¶
- class rdflib.parser.InputSource(system_id=None)[source]¶
Bases:
InputSource
TODO:
- __module__ = 'rdflib.parser'¶
- class rdflib.parser.Parser[source]¶
Bases:
object
- __module__ = 'rdflib.parser'¶
- __slots__ = ()¶
- parse(source, sink)[source]¶
- Parameters:
source (
InputSource
) –sink (
Graph
) –
- Return type:
- class rdflib.parser.PythonInputSource(data, system_id=None)[source]¶
Bases:
InputSource
Constructs an RDFLib Parser InputSource from a Python data structure, for example, loaded from JSON with json.load or json.loads:
>>> import json >>> as_string = """{ ... "@context" : {"ex" : "http://example.com/ns#"}, ... "@graph": [{"@type": "ex:item", "@id": "#example"}] ... }""" >>> as_python = json.loads(as_string) >>> source = create_input_source(data=as_python) >>> isinstance(source, PythonInputSource) True
- __module__ = 'rdflib.parser'¶
- class rdflib.parser.StringInputSource(value, encoding='utf-8', system_id=None)[source]¶
Bases:
InputSource
Constructs an RDFLib Parser InputSource from a Python String or Bytes
- __module__ = 'rdflib.parser'¶
- class rdflib.parser.URLInputSource(system_id=None, format=None)[source]¶
Bases:
InputSource
Constructs an RDFLib Parser InputSource from a URL to read it from the Web.
- __annotations__ = {'links': 'List[str]'}¶
- __module__ = 'rdflib.parser'¶
rdflib.paths module¶
This module implements the SPARQL 1.1 Property path operators, as defined in:
http://www.w3.org/TR/sparql11-query/#propertypaths
In SPARQL the syntax is as follows:
Syntax |
Matches |
---|---|
iri |
An IRI. A path of length one. |
^elt |
Inverse path (object to subject). |
elt1 / elt2 |
A sequence path of elt1 followed by elt2. |
elt1 | elt2 |
A alternative path of elt1 or elt2 (all possibilities are tried). |
elt* |
A path that connects the subject and object of the path by zero or more matches of elt. |
elt+ |
A path that connects the subject and object of the path by one or more matches of elt. |
elt? |
A path that connects the subject and object of the path by zero or one matches of elt. |
!iri or !(iri1| … |irin) |
Negated property set. An IRI which is not one of iri1…irin. !iri is short for !(iri). |
!^iri or !(^iri1| …|^irin) |
Negated property set where the excluded matches are based on reversed path. That is, not one of iri1…irin as reverse paths. !^iri is short for !(^iri). |
!(iri1| …|irij|^irij+1|… |^irin)| |
A combination of forward and reverse properties in a negated property set. |
(elt) |
A group path elt, brackets control precedence. |
This module is used internally by the SPARQL engine, but the property paths can also be used to query RDFLib Graphs directly.
Where possible the SPARQL syntax is mapped to Python operators, and property path objects can be constructed from existing URIRefs.
>>> from rdflib import Graph, Namespace
>>> from rdflib.namespace import FOAF
>>> ~FOAF.knows
Path(~http://xmlns.com/foaf/0.1/knows)
>>> FOAF.knows/FOAF.name
Path(http://xmlns.com/foaf/0.1/knows / http://xmlns.com/foaf/0.1/name)
>>> FOAF.name|FOAF.givenName
Path(http://xmlns.com/foaf/0.1/name | http://xmlns.com/foaf/0.1/givenName)
Modifiers (?, *, +) are done using * (the multiplication operator) and the strings ‘*’, ‘?’, ‘+’, also defined as constants in this file.
>>> FOAF.knows*OneOrMore
Path(http://xmlns.com/foaf/0.1/knows+)
The path objects can also be used with the normal graph methods.
First some example data:
>>> g=Graph()
>>> g=g.parse(data='''
... @prefix : <ex:> .
...
... :a :p1 :c ; :p2 :f .
... :c :p2 :e ; :p3 :g .
... :g :p3 :h ; :p2 :j .
... :h :p3 :a ; :p2 :g .
...
... :q :px :q .
...
... ''', format='n3')
>>> e = Namespace('ex:')
Graph contains:
>>> (e.a, e.p1/e.p2, e.e) in g
True
Graph generator functions, triples, subjects, objects, etc. :
>>> list(g.objects(e.c, (e.p3*OneOrMore)/e.p2))
[rdflib.term.URIRef('ex:j'), rdflib.term.URIRef('ex:g'),
rdflib.term.URIRef('ex:f')]
A more complete set of tests:
>>> list(eval_path(g, (None, e.p1/e.p2, None)))==[(e.a, e.e)]
True
>>> list(eval_path(g, (e.a, e.p1|e.p2, None)))==[(e.a,e.c), (e.a,e.f)]
True
>>> list(eval_path(g, (e.c, ~e.p1, None))) == [ (e.c, e.a) ]
True
>>> list(eval_path(g, (e.a, e.p1*ZeroOrOne, None))) == [(e.a, e.a), (e.a, e.c)]
True
>>> list(eval_path(g, (e.c, e.p3*OneOrMore, None))) == [
... (e.c, e.g), (e.c, e.h), (e.c, e.a)]
True
>>> list(eval_path(g, (e.c, e.p3*ZeroOrMore, None))) == [(e.c, e.c),
... (e.c, e.g), (e.c, e.h), (e.c, e.a)]
True
>>> list(eval_path(g, (e.a, -e.p1, None))) == [(e.a, e.f)]
True
>>> list(eval_path(g, (e.a, -(e.p1|e.p2), None))) == []
True
>>> list(eval_path(g, (e.g, -~e.p2, None))) == [(e.g, e.j)]
True
>>> list(eval_path(g, (e.e, ~(e.p1/e.p2), None))) == [(e.e, e.a)]
True
>>> list(eval_path(g, (e.a, e.p1/e.p3/e.p3, None))) == [(e.a, e.h)]
True
>>> list(eval_path(g, (e.q, e.px*OneOrMore, None)))
[(rdflib.term.URIRef('ex:q'), rdflib.term.URIRef('ex:q'))]
>>> list(eval_path(g, (None, e.p1|e.p2, e.c)))
[(rdflib.term.URIRef('ex:a'), rdflib.term.URIRef('ex:c'))]
>>> list(eval_path(g, (None, ~e.p1, e.a))) == [ (e.c, e.a) ]
True
>>> list(eval_path(g, (None, e.p1*ZeroOrOne, e.c)))
[(rdflib.term.URIRef('ex:c'), rdflib.term.URIRef('ex:c')),
(rdflib.term.URIRef('ex:a'), rdflib.term.URIRef('ex:c'))]
>>> list(eval_path(g, (None, e.p3*OneOrMore, e.a)))
[(rdflib.term.URIRef('ex:h'), rdflib.term.URIRef('ex:a')),
(rdflib.term.URIRef('ex:g'), rdflib.term.URIRef('ex:a')),
(rdflib.term.URIRef('ex:c'), rdflib.term.URIRef('ex:a'))]
>>> list(eval_path(g, (None, e.p3*ZeroOrMore, e.a)))
[(rdflib.term.URIRef('ex:a'), rdflib.term.URIRef('ex:a')),
(rdflib.term.URIRef('ex:h'), rdflib.term.URIRef('ex:a')),
(rdflib.term.URIRef('ex:g'), rdflib.term.URIRef('ex:a')),
(rdflib.term.URIRef('ex:c'), rdflib.term.URIRef('ex:a'))]
>>> list(eval_path(g, (None, -e.p1, e.f))) == [(e.a, e.f)]
True
>>> list(eval_path(g, (None, -(e.p1|e.p2), e.c))) == []
True
>>> list(eval_path(g, (None, -~e.p2, e.j))) == [(e.g, e.j)]
True
>>> list(eval_path(g, (None, ~(e.p1/e.p2), e.a))) == [(e.e, e.a)]
True
>>> list(eval_path(g, (None, e.p1/e.p3/e.p3, e.h))) == [(e.a, e.h)]
True
>>> list(eval_path(g, (e.q, e.px*OneOrMore, None)))
[(rdflib.term.URIRef('ex:q'), rdflib.term.URIRef('ex:q'))]
>>> list(eval_path(g, (e.c, (e.p2|e.p3)*ZeroOrMore, e.j)))
[(rdflib.term.URIRef('ex:c'), rdflib.term.URIRef('ex:j'))]
No vars specified:
>>> sorted(list(eval_path(g, (None, e.p3*OneOrMore, None))))
[(rdflib.term.URIRef('ex:c'), rdflib.term.URIRef('ex:a')),
(rdflib.term.URIRef('ex:c'), rdflib.term.URIRef('ex:g')),
(rdflib.term.URIRef('ex:c'), rdflib.term.URIRef('ex:h')),
(rdflib.term.URIRef('ex:g'), rdflib.term.URIRef('ex:a')),
(rdflib.term.URIRef('ex:g'), rdflib.term.URIRef('ex:h')),
(rdflib.term.URIRef('ex:h'), rdflib.term.URIRef('ex:a'))]
- class rdflib.paths.AlternativePath(*args)[source]¶
Bases:
Path
- __abstractmethods__ = frozenset({})¶
- __module__ = 'rdflib.paths'¶
- n3(namespace_manager=None)[source]¶
- Parameters:
namespace_manager (
Optional
[NamespaceManager
]) –- Return type:
- class rdflib.paths.InvPath(arg)[source]¶
Bases:
Path
- __abstractmethods__ = frozenset({})¶
- __module__ = 'rdflib.paths'¶
- n3(namespace_manager=None)[source]¶
- Parameters:
namespace_manager (
Optional
[NamespaceManager
]) –- Return type:
- class rdflib.paths.MulPath(path, mod)[source]¶
Bases:
Path
- __abstractmethods__ = frozenset({})¶
- __module__ = 'rdflib.paths'¶
- n3(namespace_manager=None)[source]¶
- Parameters:
namespace_manager (
Optional
[NamespaceManager
]) –- Return type:
- class rdflib.paths.NegatedPath(arg)[source]¶
Bases:
Path
- Parameters:
arg (
Union
[AlternativePath
,InvPath
,URIRef
]) –
- __abstractmethods__ = frozenset({})¶
- __module__ = 'rdflib.paths'¶
- n3(namespace_manager=None)[source]¶
- Parameters:
namespace_manager (
Optional
[NamespaceManager
]) –- Return type:
- class rdflib.paths.Path[source]¶
Bases:
ABC
- __abstractmethods__ = frozenset({'eval', 'n3'})¶
- __annotations__ = {'__invert__': 'Callable[[Path], InvPath]', '__mul__': 'Callable[[Path, str], MulPath]', '__neg__': 'Callable[[Path], NegatedPath]', '__or__': 'Callable[[Path, Union[URIRef, Path]], AlternativePath]', '__truediv__': 'Callable[[Path, Union[URIRef, Path]], SequencePath]'}¶
- __dict__ = mappingproxy({'__module__': 'rdflib.paths', '__annotations__': {'__or__': 'Callable[[Path, Union[URIRef, Path]], AlternativePath]', '__invert__': 'Callable[[Path], InvPath]', '__neg__': 'Callable[[Path], NegatedPath]', '__truediv__': 'Callable[[Path, Union[URIRef, Path]], SequencePath]', '__mul__': 'Callable[[Path, str], MulPath]'}, 'eval': <function Path.eval>, 'n3': <function Path.n3>, '__hash__': <function Path.__hash__>, '__eq__': <function Path.__eq__>, '__lt__': <function Path.__lt__>, '__dict__': <attribute '__dict__' of 'Path' objects>, '__weakref__': <attribute '__weakref__' of 'Path' objects>, '__doc__': None, '__abstractmethods__': frozenset({'n3', 'eval'}), '_abc_impl': <_abc._abc_data object>, '__gt__': <function _gt_from_lt>, '__le__': <function _le_from_lt>, '__ge__': <function _ge_from_lt>, '__invert__': <function inv_path>, '__neg__': <function neg_path>, '__mul__': <function mul_path>, '__or__': <function path_alternative>, '__truediv__': <function path_sequence>})¶
- __ge__(other, NotImplemented=NotImplemented)¶
Return a >= b. Computed by @total_ordering from (not a < b).
- __gt__(other, NotImplemented=NotImplemented)¶
Return a > b. Computed by @total_ordering from (not a < b) and (a != b).
- __le__(other, NotImplemented=NotImplemented)¶
Return a <= b. Computed by @total_ordering from (a < b) or (a == b).
- __module__ = 'rdflib.paths'¶
- __mul__(mul)¶
cardinality path
- __neg__()¶
negated path
- Parameters:
p (
Union
[URIRef
,AlternativePath
,InvPath
]) –- Return type:
- __or__(other)¶
alternative path
- __truediv__(other)¶
sequence path
- __weakref__¶
list of weak references to the object (if defined)
- abstract n3(namespace_manager=None)[source]¶
- Parameters:
namespace_manager (
Optional
[NamespaceManager
]) –- Return type:
- class rdflib.paths.PathList(iterable=(), /)[source]¶
Bases:
list
- __dict__ = mappingproxy({'__module__': 'rdflib.paths', '__dict__': <attribute '__dict__' of 'PathList' objects>, '__weakref__': <attribute '__weakref__' of 'PathList' objects>, '__doc__': None, '__annotations__': {}})¶
- __module__ = 'rdflib.paths'¶
- __weakref__¶
list of weak references to the object (if defined)
- class rdflib.paths.SequencePath(*args)[source]¶
Bases:
Path
- __abstractmethods__ = frozenset({})¶
- __module__ = 'rdflib.paths'¶
- n3(namespace_manager=None)[source]¶
- Parameters:
namespace_manager (
Optional
[NamespaceManager
]) –- Return type:
- rdflib.paths.neg_path(p)[source]¶
negated path
- Parameters:
p (
Union
[URIRef
,AlternativePath
,InvPath
]) –- Return type:
rdflib.plugin module¶
Plugin support for rdf.
There are a number of plugin points for rdf: parser, serializer, store, query processor, and query result. Plugins can be registered either through setuptools entry_points or by calling rdf.plugin.register directly.
If you have a package that uses a setuptools based setup.py you can add the following to your setup:
entry_points = {
'rdf.plugins.parser': [
'nt = rdf.plugins.parsers.ntriples:NTParser',
],
'rdf.plugins.serializer': [
'nt = rdf.plugins.serializers.NTSerializer:NTSerializer',
],
}
See the setuptools dynamic discovery of services and plugins for more information.
- class rdflib.plugin.PKGPlugin(name, kind, ep)[source]¶
-
- __module__ = 'rdflib.plugin'¶
- __orig_bases__ = (rdflib.plugin.Plugin[~PluginT],)¶
- __parameters__ = (~PluginT,)¶
- class rdflib.plugin.Plugin(name, kind, module_path, class_name)[source]¶
-
- __dict__ = mappingproxy({'__module__': 'rdflib.plugin', '__init__': <function Plugin.__init__>, 'getClass': <function Plugin.getClass>, '__orig_bases__': (typing.Generic[~PluginT],), '__dict__': <attribute '__dict__' of 'Plugin' objects>, '__weakref__': <attribute '__weakref__' of 'Plugin' objects>, '__doc__': None, '__parameters__': (~PluginT,), '__annotations__': {'_class': 'Optional[Type[PluginT]]'}})¶
- __module__ = 'rdflib.plugin'¶
- __orig_bases__ = (typing.Generic[~PluginT],)¶
- __parameters__ = (~PluginT,)¶
- __weakref__¶
list of weak references to the object (if defined)
- exception rdflib.plugin.PluginException(msg=None)[source]¶
Bases:
Error
- __module__ = 'rdflib.plugin'¶
- class rdflib.plugin.PluginT¶
A generic type variable for plugins
alias of TypeVar(‘PluginT’)
- __module__ = 'rdflib.plugin'¶
- rdflib.plugin.get(name, kind)[source]¶
Return the class for the specified (name, kind). Raises a PluginException if unable to do so.
rdflib.query module¶
- class rdflib.query.EncodeOnlyUnicode(stream)[source]¶
Bases:
object
This is a crappy work-around for http://bugs.python.org/issue11649
- Parameters:
stream (
BinaryIO
) –
- __dict__ = mappingproxy({'__module__': 'rdflib.query', '__doc__': '\n This is a crappy work-around for\n http://bugs.python.org/issue11649\n\n\n ', '__init__': <function EncodeOnlyUnicode.__init__>, 'write': <function EncodeOnlyUnicode.write>, '__getattr__': <function EncodeOnlyUnicode.__getattr__>, '__dict__': <attribute '__dict__' of 'EncodeOnlyUnicode' objects>, '__weakref__': <attribute '__weakref__' of 'EncodeOnlyUnicode' objects>, '__annotations__': {}})¶
- __module__ = 'rdflib.query'¶
- __weakref__¶
list of weak references to the object (if defined)
- class rdflib.query.Processor(graph)[source]¶
Bases:
object
Query plugin interface.
This module is useful for those wanting to write a query processor that can plugin to rdf. If you are wanting to execute a query you likely want to do so through the Graph class query method.
- Parameters:
graph (
Graph
) –
- __dict__ = mappingproxy({'__module__': 'rdflib.query', '__doc__': '\n Query plugin interface.\n\n This module is useful for those wanting to write a query processor\n that can plugin to rdf. If you are wanting to execute a query you\n likely want to do so through the Graph class query method.\n\n ', '__init__': <function Processor.__init__>, 'query': <function Processor.query>, '__dict__': <attribute '__dict__' of 'Processor' objects>, '__weakref__': <attribute '__weakref__' of 'Processor' objects>, '__annotations__': {}})¶
- __module__ = 'rdflib.query'¶
- __weakref__¶
list of weak references to the object (if defined)
- class rdflib.query.Result(type_)[source]¶
Bases:
object
A common class for representing query result.
There is a bit of magic here that makes this appear like different Python objects, depending on the type of result.
If the type is “SELECT”, iterating will yield lists of ResultRow objects
If the type is “ASK”, iterating will yield a single bool (or bool(result) will return the same bool)
If the type is “CONSTRUCT” or “DESCRIBE” iterating will yield the triples.
len(result) also works.
- Parameters:
type_ (
str
) –
- __dict__ = mappingproxy({'__module__': 'rdflib.query', '__doc__': '\n A common class for representing query result.\n\n There is a bit of magic here that makes this appear like different\n Python objects, depending on the type of result.\n\n If the type is "SELECT", iterating will yield lists of ResultRow objects\n\n If the type is "ASK", iterating will yield a single bool (or\n bool(result) will return the same bool)\n\n If the type is "CONSTRUCT" or "DESCRIBE" iterating will yield the\n triples.\n\n len(result) also works.\n\n ', '__init__': <function Result.__init__>, 'bindings': <property object>, 'parse': <staticmethod object>, 'serialize': <function Result.serialize>, '__len__': <function Result.__len__>, '__bool__': <function Result.__bool__>, '__iter__': <function Result.__iter__>, '__getattr__': <function Result.__getattr__>, '__eq__': <function Result.__eq__>, '__dict__': <attribute '__dict__' of 'Result' objects>, '__weakref__': <attribute '__weakref__' of 'Result' objects>, '__hash__': None, '__annotations__': {'vars': 'Optional[List[Variable]]', '_bindings': 'MutableSequence[Mapping[Variable, Identifier]]', '_genbindings': 'Optional[Iterator[Mapping[Variable, Identifier]]]', 'askAnswer': 'Optional[bool]', 'graph': 'Optional[Graph]'}})¶
- __hash__ = None¶
- __module__ = 'rdflib.query'¶
- __weakref__¶
list of weak references to the object (if defined)
- property bindings: MutableSequence[Mapping[Variable, Identifier]]¶
a list of variable bindings as dicts
- serialize(destination=None, encoding='utf-8', format='xml', **args)[source]¶
Serialize the query result.
The
format
argument determines the Serializer class to use.csv:
CSVResultSerializer
json:
JSONResultSerializer
txt:
TXTResultSerializer
xml:
XMLResultSerializer
- exception rdflib.query.ResultException[source]¶
Bases:
Exception
- __module__ = 'rdflib.query'¶
- __weakref__¶
list of weak references to the object (if defined)
- class rdflib.query.ResultParser[source]¶
Bases:
object
- __dict__ = mappingproxy({'__module__': 'rdflib.query', '__init__': <function ResultParser.__init__>, 'parse': <function ResultParser.parse>, '__dict__': <attribute '__dict__' of 'ResultParser' objects>, '__weakref__': <attribute '__weakref__' of 'ResultParser' objects>, '__doc__': None, '__annotations__': {}})¶
- __module__ = 'rdflib.query'¶
- __weakref__¶
list of weak references to the object (if defined)
- class rdflib.query.ResultRow(values: Mapping[Variable, Identifier], labels: List[Variable])[source]¶
Bases:
Tuple
[Identifier
, …]a single result row allows accessing bindings as attributes or with []
>>> from rdflib import URIRef, Variable >>> rr=ResultRow({ Variable('a'): URIRef('urn:cake') }, [Variable('a')])
>>> rr[0] rdflib.term.URIRef('urn:cake') >>> rr[1] Traceback (most recent call last): ... IndexError: tuple index out of range
>>> rr.a rdflib.term.URIRef('urn:cake') >>> rr.b Traceback (most recent call last): ... AttributeError: b
>>> rr['a'] rdflib.term.URIRef('urn:cake') >>> rr['b'] Traceback (most recent call last): ... KeyError: 'b'
>>> rr[Variable('a')] rdflib.term.URIRef('urn:cake')
New in version 4.0.
- __annotations__ = {'labels': 'Mapping[str, int]'}¶
- __dict__ = mappingproxy({'__module__': 'rdflib.query', '__annotations__': {'labels': 'Mapping[str, int]'}, '__doc__': "\n a single result row\n allows accessing bindings as attributes or with []\n\n >>> from rdflib import URIRef, Variable\n >>> rr=ResultRow({ Variable('a'): URIRef('urn:cake') }, [Variable('a')])\n\n >>> rr[0]\n rdflib.term.URIRef('urn:cake')\n >>> rr[1]\n Traceback (most recent call last):\n ...\n IndexError: tuple index out of range\n\n >>> rr.a\n rdflib.term.URIRef('urn:cake')\n >>> rr.b\n Traceback (most recent call last):\n ...\n AttributeError: b\n\n >>> rr['a']\n rdflib.term.URIRef('urn:cake')\n >>> rr['b']\n Traceback (most recent call last):\n ...\n KeyError: 'b'\n\n >>> rr[Variable('a')]\n rdflib.term.URIRef('urn:cake')\n\n .. versionadded:: 4.0\n\n ", '__new__': <staticmethod object>, '__getattr__': <function ResultRow.__getattr__>, '__getitem__': <function ResultRow.__getitem__>, 'get': <function ResultRow.get>, 'asdict': <function ResultRow.asdict>, '__orig_bases__': (typing.Tuple[rdflib.term.Identifier, ...],), '__dict__': <attribute '__dict__' of 'ResultRow' objects>, '__parameters__': ()})¶
- __module__ = 'rdflib.query'¶
- static __new__(cls, values, labels)[source]¶
- Parameters:
values (
Mapping
[Variable
,Identifier
]) –
- __orig_bases__ = (typing.Tuple[rdflib.term.Identifier, ...],)¶
- __parameters__ = ()¶
- get(name, default=None)[source]¶
- Parameters:
name (
str
) –default (
Optional
[Identifier
]) –
- Return type:
- class rdflib.query.ResultSerializer(result)[source]¶
Bases:
object
- Parameters:
result (
Result
) –
- __dict__ = mappingproxy({'__module__': 'rdflib.query', '__init__': <function ResultSerializer.__init__>, 'serialize': <function ResultSerializer.serialize>, '__dict__': <attribute '__dict__' of 'ResultSerializer' objects>, '__weakref__': <attribute '__weakref__' of 'ResultSerializer' objects>, '__doc__': None, '__annotations__': {}})¶
- __module__ = 'rdflib.query'¶
- __weakref__¶
list of weak references to the object (if defined)
- class rdflib.query.UpdateProcessor(graph)[source]¶
Bases:
object
Update plugin interface.
This module is useful for those wanting to write an update processor that can plugin to rdflib. If you are wanting to execute an update statement you likely want to do so through the Graph class update method.
New in version 4.0.
- Parameters:
graph (
Graph
) –
- __dict__ = mappingproxy({'__module__': 'rdflib.query', '__doc__': '\n Update plugin interface.\n\n This module is useful for those wanting to write an update\n processor that can plugin to rdflib. If you are wanting to execute\n an update statement you likely want to do so through the Graph\n class update method.\n\n .. versionadded:: 4.0\n\n ', '__init__': <function UpdateProcessor.__init__>, 'update': <function UpdateProcessor.update>, '__dict__': <attribute '__dict__' of 'UpdateProcessor' objects>, '__weakref__': <attribute '__weakref__' of 'UpdateProcessor' objects>, '__annotations__': {}})¶
- __module__ = 'rdflib.query'¶
- __weakref__¶
list of weak references to the object (if defined)
rdflib.resource module¶
The Resource
class wraps a
Graph
and a resource reference (i.e. a rdflib.term.URIRef
or
rdflib.term.BNode
) to support a resource-oriented way of
working with a graph.
It contains methods directly corresponding to those methods of the Graph interface that relate to reading and writing data. The difference is that a Resource also binds a resource identifier, making it possible to work without tracking both the graph and a current subject. This makes for a “resource oriented” style, as compared to the triple orientation of the Graph API.
Resulting generators are also wrapped so that any resource reference values
(rdflib.term.URIRef
and rdflib.term.BNode
) are in turn
wrapped as Resources. (Note that this behaviour differs from the corresponding
methods in Graph
, where no such conversion takes place.)
Basic Usage Scenario¶
Start by importing things we need and define some namespaces:
>>> from rdflib import *
>>> FOAF = Namespace("http://xmlns.com/foaf/0.1/")
>>> CV = Namespace("http://purl.org/captsolo/resume-rdf/0.2/cv#")
Load some RDF data:
>>> graph = Graph().parse(format='n3', data='''
... @prefix rdfs: <http://www.w3.org/2000/01/rdf-schema#> .
... @prefix xsd: <http://www.w3.org/2001/XMLSchema#>.
... @prefix foaf: <http://xmlns.com/foaf/0.1/> .
... @prefix cv: <http://purl.org/captsolo/resume-rdf/0.2/cv#> .
...
... @base <http://example.org/> .
...
... </person/some1#self> a foaf:Person;
... rdfs:comment "Just a Python & RDF hacker."@en;
... foaf:depiction </images/person/some1.jpg>;
... foaf:homepage <http://example.net/>;
... foaf:name "Some Body" .
...
... </images/person/some1.jpg> a foaf:Image;
... rdfs:label "some 1"@en;
... rdfs:comment "Just an image"@en;
... foaf:thumbnail </images/person/some1-thumb.jpg> .
...
... </images/person/some1-thumb.jpg> a foaf:Image .
...
... [] a cv:CV;
... cv:aboutPerson </person/some1#self>;
... cv:hasWorkHistory [ cv:employedIn </#company>;
... cv:startDate "2009-09-04"^^xsd:date ] .
... ''')
Create a Resource:
>>> person = Resource(
... graph, URIRef("http://example.org/person/some1#self"))
Retrieve some basic facts:
>>> person.identifier
rdflib.term.URIRef('http://example.org/person/some1#self')
>>> person.value(FOAF.name)
rdflib.term.Literal('Some Body')
>>> person.value(RDFS.comment)
rdflib.term.Literal('Just a Python & RDF hacker.', lang='en')
Resources can be sliced (like graphs, but the subject is fixed):
>>> for name in person[FOAF.name]:
... print(name)
Some Body
>>> person[FOAF.name : Literal("Some Body")]
True
Resources as unicode are represented by their identifiers as unicode:
>>> %(unicode)s(person)
'Resource(http://example.org/person/some1#self'
Resource references are also Resources, so you can easily get e.g. a qname for the type of a resource, like:
>>> person.value(RDF.type).qname()
'foaf:Person'
Or for the predicates of a resource:
>>> sorted(
... p.qname() for p in person.predicates()
... )
['foaf:depiction', 'foaf:homepage',
'foaf:name', 'rdf:type', 'rdfs:comment']
Follow relations and get more data from their Resources as well:
>>> for pic in person.objects(FOAF.depiction):
... print(pic.identifier)
... print(pic.value(RDF.type).qname())
... print(pic.value(FOAF.thumbnail).identifier)
http://example.org/images/person/some1.jpg
foaf:Image
http://example.org/images/person/some1-thumb.jpg
>>> for cv in person.subjects(CV.aboutPerson):
... work = list(cv.objects(CV.hasWorkHistory))[0]
... print(work.value(CV.employedIn).identifier)
... print(work.value(CV.startDate))
http://example.org/#company
2009-09-04
It’s just as easy to work with the predicates of a resource:
>>> for s, p in person.subject_predicates():
... print(s.value(RDF.type).qname())
... print(p.qname())
... for s, o in p.subject_objects():
... print(s.value(RDF.type).qname())
... print(o.value(RDF.type).qname())
cv:CV
cv:aboutPerson
cv:CV
foaf:Person
This is useful for e.g. inspection:
>>> thumb_ref = URIRef("http://example.org/images/person/some1-thumb.jpg")
>>> thumb = Resource(graph, thumb_ref)
>>> for p, o in thumb.predicate_objects():
... print(p.qname())
... print(o.qname())
rdf:type
foaf:Image
Schema Example¶
With this artificial schema data:
>>> graph = Graph().parse(format='n3', data='''
... @prefix rdf: <http://www.w3.org/1999/02/22-rdf-syntax-ns#> .
... @prefix rdfs: <http://www.w3.org/2000/01/rdf-schema#> .
... @prefix owl: <http://www.w3.org/2002/07/owl#> .
... @prefix v: <http://example.org/def/v#> .
...
... v:Artifact a owl:Class .
...
... v:Document a owl:Class;
... rdfs:subClassOf v:Artifact .
...
... v:Paper a owl:Class;
... rdfs:subClassOf v:Document .
...
... v:Choice owl:oneOf (v:One v:Other) .
...
... v:Stuff a rdf:Seq; rdf:_1 v:One; rdf:_2 v:Other .
...
... ''')
From this class:
>>> artifact = Resource(graph, URIRef("http://example.org/def/v#Artifact"))
we can get at subclasses:
>>> subclasses = list(artifact.transitive_subjects(RDFS.subClassOf))
>>> [c.qname() for c in subclasses]
['v:Artifact', 'v:Document', 'v:Paper']
and superclasses from the last subclass:
>>> [c.qname() for c in subclasses[-1].transitive_objects(RDFS.subClassOf)]
['v:Paper', 'v:Document', 'v:Artifact']
Get items from the Choice:
>>> choice = Resource(graph, URIRef("http://example.org/def/v#Choice"))
>>> [it.qname() for it in choice.value(OWL.oneOf).items()]
['v:One', 'v:Other']
- On add, other resources are auto-unboxed:
>>> paper = Resource(graph, URIRef("http://example.org/def/v#Paper")) >>> paper.add(RDFS.subClassOf, artifact) >>> artifact in paper.objects(RDFS.subClassOf) # checks Resource instance True >>> (paper._identifier, RDFS.subClassOf, artifact._identifier) in graph True
Technical Details¶
Comparison is based on graph and identifier:
>>> g1 = Graph()
>>> t1 = Resource(g1, URIRef("http://example.org/thing"))
>>> t2 = Resource(g1, URIRef("http://example.org/thing"))
>>> t3 = Resource(g1, URIRef("http://example.org/other"))
>>> t4 = Resource(Graph(), URIRef("http://example.org/other"))
>>> t1 is t2
False
>>> t1 == t2
True
>>> t1 != t2
False
>>> t1 == t3
False
>>> t1 != t3
True
>>> t3 != t4
True
>>> t3 < t1 and t1 > t3
True
>>> t1 >= t1 and t1 >= t3
True
>>> t1 <= t1 and t3 <= t1
True
>>> t1 < t1 or t1 < t3 or t3 > t1 or t3 > t3
False
Hash is computed from graph and identifier:
>>> g1 = Graph()
>>> t1 = Resource(g1, URIRef("http://example.org/thing"))
>>> hash(t1) == hash(Resource(g1, URIRef("http://example.org/thing")))
True
>>> hash(t1) == hash(Resource(Graph(), t1.identifier))
False
>>> hash(t1) == hash(Resource(Graph(), URIRef("http://example.org/thing")))
False
The Resource class is suitable as a base class for mapper toolkits. For example, consider this utility for accessing RDF properties via qname-like attributes:
>>> class Item(Resource):
...
... def __getattr__(self, p):
... return list(self.objects(self._to_ref(*p.split('_', 1))))
...
... def _to_ref(self, pfx, name):
... return URIRef(self._graph.store.namespace(pfx) + name)
It works as follows:
>>> graph = Graph().parse(format='n3', data='''
... @prefix rdfs: <http://www.w3.org/2000/01/rdf-schema#> .
... @prefix foaf: <http://xmlns.com/foaf/0.1/> .
...
... @base <http://example.org/> .
... </person/some1#self>
... foaf:name "Some Body";
... foaf:depiction </images/person/some1.jpg> .
... </images/person/some1.jpg> rdfs:comment "Just an image"@en .
... ''')
>>> person = Item(graph, URIRef("http://example.org/person/some1#self"))
>>> print(person.foaf_name[0])
Some Body
The mechanism for wrapping references as resources cooperates with subclasses.
Therefore, accessing referenced resources automatically creates new Item
objects:
>>> isinstance(person.foaf_depiction[0], Item)
True
>>> print(person.foaf_depiction[0].rdfs_comment[0])
Just an image
- class rdflib.resource.Resource(graph, subject)[source]¶
Bases:
object
- __dict__ = mappingproxy({'__module__': 'rdflib.resource', '__init__': <function Resource.__init__>, 'graph': <property object>, 'identifier': <property object>, '__hash__': <function Resource.__hash__>, '__eq__': <function Resource.__eq__>, '__ne__': <function Resource.__ne__>, '__lt__': <function Resource.__lt__>, '__gt__': <function Resource.__gt__>, '__le__': <function Resource.__le__>, '__ge__': <function Resource.__ge__>, '__unicode__': <function Resource.__unicode__>, 'add': <function Resource.add>, 'remove': <function Resource.remove>, 'set': <function Resource.set>, 'subjects': <function Resource.subjects>, 'predicates': <function Resource.predicates>, 'objects': <function Resource.objects>, 'subject_predicates': <function Resource.subject_predicates>, 'subject_objects': <function Resource.subject_objects>, 'predicate_objects': <function Resource.predicate_objects>, 'value': <function Resource.value>, 'items': <function Resource.items>, 'transitive_objects': <function Resource.transitive_objects>, 'transitive_subjects': <function Resource.transitive_subjects>, 'qname': <function Resource.qname>, '_resource_pairs': <function Resource._resource_pairs>, '_resource_triples': <function Resource._resource_triples>, '_resources': <function Resource._resources>, '_cast': <function Resource._cast>, '__iter__': <function Resource.__iter__>, '__getitem__': <function Resource.__getitem__>, '__setitem__': <function Resource.__setitem__>, '_new': <function Resource._new>, '__str__': <function Resource.__str__>, '__repr__': <function Resource.__repr__>, '__dict__': <attribute '__dict__' of 'Resource' objects>, '__weakref__': <attribute '__weakref__' of 'Resource' objects>, '__doc__': None, '__annotations__': {}})¶
- __module__ = 'rdflib.resource'¶
- __weakref__¶
list of weak references to the object (if defined)
- property graph¶
- property identifier¶
rdflib.serializer module¶
Serializer plugin interface.
This module is useful for those wanting to write a serializer that can plugin to rdflib. If you are wanting to invoke a serializer you likely want to do so through the Graph class serialize method.
TODO: info for how to write a serializer that can plugin to rdflib. See also rdflib.plugin
- class rdflib.serializer.Serializer(store)[source]¶
Bases:
object
- Parameters:
store (
Graph
) –
- __dict__ = mappingproxy({'__module__': 'rdflib.serializer', '__init__': <function Serializer.__init__>, 'serialize': <function Serializer.serialize>, 'relativize': <function Serializer.relativize>, '__dict__': <attribute '__dict__' of 'Serializer' objects>, '__weakref__': <attribute '__weakref__' of 'Serializer' objects>, '__doc__': None, '__annotations__': {'store': 'Graph', 'encoding': 'str', 'base': 'Optional[str]'}})¶
- __module__ = 'rdflib.serializer'¶
- __weakref__¶
list of weak references to the object (if defined)
rdflib.store module¶
rdflib.store¶
Types of store¶
Context-aware
: An RDF store capable of storing statements within contexts
is considered context-aware. Essentially, such a store is able to partition
the RDF model it represents into individual, named, and addressable
sub-graphs.
Relevant Notation3 reference regarding formulae, quoted statements, and such: http://www.w3.org/DesignIssues/Notation3.html
Formula-aware
: An RDF store capable of distinguishing between statements
that are asserted and statements that are quoted is considered formula-aware.
Transaction-capable
: capable of providing transactional integrity to the
RDF operations performed on it.
Graph-aware
: capable of keeping track of empty graphs.
- class rdflib.store.NodePickler[source]¶
Bases:
object
- __dict__ = mappingproxy({'__module__': 'rdflib.store', '__init__': <function NodePickler.__init__>, '_get_ids': <function NodePickler._get_ids>, 'register': <function NodePickler.register>, 'loads': <function NodePickler.loads>, 'dumps': <function NodePickler.dumps>, '__getstate__': <function NodePickler.__getstate__>, '__setstate__': <function NodePickler.__setstate__>, '__dict__': <attribute '__dict__' of 'NodePickler' objects>, '__weakref__': <attribute '__weakref__' of 'NodePickler' objects>, '__doc__': None, '__annotations__': {'_objects': 'Dict[str, Any]', '_ids': 'Dict[Any, str]'}})¶
- __module__ = 'rdflib.store'¶
- __weakref__¶
list of weak references to the object (if defined)
- class rdflib.store.Store(configuration=None, identifier=None)[source]¶
Bases:
object
- Parameters:
identifier (
Optional
[Identifier
]) –
- __annotations__ = {'context_aware': 'bool', 'formula_aware': 'bool', 'graph_aware': 'bool', 'transaction_aware': 'bool'}¶
- __dict__ = mappingproxy({'__module__': 'rdflib.store', '__annotations__': {'context_aware': 'bool', 'formula_aware': 'bool', 'transaction_aware': 'bool', 'graph_aware': 'bool', '__node_pickler': 'Optional[NodePickler]'}, 'context_aware': False, 'formula_aware': False, 'transaction_aware': False, 'graph_aware': False, '__init__': <function Store.__init__>, 'node_pickler': <property object>, 'create': <function Store.create>, 'open': <function Store.open>, 'close': <function Store.close>, 'destroy': <function Store.destroy>, 'gc': <function Store.gc>, 'add': <function Store.add>, 'addN': <function Store.addN>, 'remove': <function Store.remove>, 'triples_choices': <function Store.triples_choices>, 'triples': <function Store.triples>, '__len__': <function Store.__len__>, 'contexts': <function Store.contexts>, 'query': <function Store.query>, 'update': <function Store.update>, 'bind': <function Store.bind>, 'prefix': <function Store.prefix>, 'namespace': <function Store.namespace>, 'namespaces': <function Store.namespaces>, 'commit': <function Store.commit>, 'rollback': <function Store.rollback>, 'add_graph': <function Store.add_graph>, 'remove_graph': <function Store.remove_graph>, '__dict__': <attribute '__dict__' of 'Store' objects>, '__weakref__': <attribute '__weakref__' of 'Store' objects>, '__doc__': None})¶
- __init__(configuration=None, identifier=None)[source]¶
identifier: URIRef of the Store. Defaults to CWD configuration: string containing information open can use to connect to datastore.
- Parameters:
identifier (
Optional
[Identifier
]) –
- __len__(context=None)[source]¶
Number of statements in the store. This should only account for non- quoted (asserted) statements if the context is not specified, otherwise it should return the number of statements in the formula or context given.
- __module__ = 'rdflib.store'¶
- __weakref__¶
list of weak references to the object (if defined)
- add(triple, context, quoted=False)[source]¶
Adds the given statement to a specific context or to the model. The quoted argument is interpreted by formula-aware stores to indicate this statement is quoted/hypothetical It should be an error to not specify a context and have the quoted argument be True. It should also be an error for the quoted argument to be True when the store is not formula-aware.
- addN(quads)[source]¶
Adds each item in the list of statements to a specific context. The quoted argument is interpreted by formula-aware stores to indicate this statement is quoted/hypothetical. Note that the default implementation is a redirect to add
- add_graph(graph)[source]¶
Add a graph to the store, no effect if the graph already exists. :type graph:
Graph
:param graph: a Graph instance- Return type:
- close(commit_pending_transaction=False)[source]¶
This closes the database connection. The commit_pending_transaction parameter specifies whether to commit all pending transactions before closing (if the store is transactional).
- contexts(triple=None)[source]¶
Generator over all contexts in the graph. If triple is specified, a generator over all contexts the triple is in.
if store is graph_aware, may also return empty contexts
- destroy(configuration)[source]¶
This destroys the instance of the store identified by the configuration string.
- property node_pickler: NodePickler¶
- open(configuration, create=False)[source]¶
Opens the store specified by the configuration string. If create is True a store will be created if it does not already exist. If create is False and a store does not already exist an exception is raised. An exception is also raised if a store exists, but there is insufficient permissions to open the store. This should return one of: VALID_STORE, CORRUPTED_STORE, or NO_STORE
- query(query, initNs, initBindings, queryGraph, **kwargs)[source]¶
If stores provide their own SPARQL implementation, override this.
queryGraph is None, a URIRef or ‘__UNION__’ If None the graph is specified in the query-string/object If URIRef it specifies the graph to query, If ‘__UNION__’ the union of all named graphs should be queried (This is used by ConjunctiveGraphs Values other than None obviously only makes sense for context-aware stores.)
- remove_graph(graph)[source]¶
Remove a graph from the store, this should also remove all triples in the graph
- triples(triple_pattern, context=None)[source]¶
A generator over all the triples matching the pattern. Pattern can include any objects for used for comparing against nodes in the store, for example, REGEXTerm, URIRef, Literal, BNode, Variable, Graph, QuotedGraph, Date? DateRange?
- triples_choices(triple, context=None)[source]¶
A variant of triples that can take a list of terms instead of a single term in any slot. Stores can implement this to optimize the response time from the default ‘fallback’ implementation, which will iterate over each term in the list and dispatch to triples
- update(update, initNs, initBindings, queryGraph, **kwargs)[source]¶
If stores provide their own (SPARQL) Update implementation, override this.
queryGraph is None, a URIRef or ‘__UNION__’ If None the graph is specified in the query-string/object If URIRef it specifies the graph to query, If ‘__UNION__’ the union of all named graphs should be queried (This is used by ConjunctiveGraphs Values other than None obviously only makes sense for context-aware stores.)
- class rdflib.store.StoreCreatedEvent(**kw)[source]¶
Bases:
Event
This event is fired when the Store is created, it has the following attribute:
configuration
: string used to create the store
- __module__ = 'rdflib.store'¶
rdflib.term module¶
This module defines the different types of terms. Terms are the kinds of objects that can appear in a quoted/asserted triple. This includes those that are core to RDF:
Literals
(which consist of a literal value,datatype and language tag)
Those that extend the RDF model into N3:
And those that are primarily for matching against ‘Nodes’ in the underlying Graph:
REGEX Expressions
Date Ranges
Numerical Ranges
- class rdflib.term.BNode(value: str | None = None, _sn_gen: ~typing.Callable[[], str] = <function _serial_number_generator.<locals>._generator>, _prefix: str = 'N')[source]¶
Bases:
IdentifiedNode
RDF 1.1’s Blank Nodes Section: https://www.w3.org/TR/rdf11-concepts/#section-blank-nodes
Blank Nodes are local identifiers for unnamed nodes in RDF graphs that are used in some concrete RDF syntaxes or RDF store implementations. They are always locally scoped to the file or RDF store, and are not persistent or portable identifiers for blank nodes. The identifiers for Blank Nodes are not part of the RDF abstract syntax, but are entirely dependent on particular concrete syntax or implementation (such as Turtle, JSON-LD).
—
RDFLib’s
BNode
class makes unique IDs for all the Blank Nodes in a Graph but you should never expect, or reply on, BNodes’ IDs to match across graphs, or even for multiple copies of the same graph, if they are regenerated from some non-RDFLib source, such as loading from RDF data.- __abstractmethods__ = frozenset({})¶
- __module__ = 'rdflib.term'¶
- static __new__(cls, value=None, _sn_gen=<function _serial_number_generator.<locals>._generator>, _prefix='N')[source]¶
# only store implementations should pass in a value
- __slots__ = ()¶
- n3(namespace_manager=None)[source]¶
- Parameters:
namespace_manager (
Optional
[NamespaceManager
]) –- Return type:
- class rdflib.term.IdentifiedNode(value: str)[source]¶
Bases:
Identifier
An abstract class, primarily defined to identify Nodes that are not Literals.
The name “Identified Node” is not explicitly defined in the RDF specification, but can be drawn from this section: https://www.w3.org/TR/rdf-concepts/#section-URI-Vocabulary
- __abstractmethods__ = frozenset({'n3'})¶
- __dict__ = mappingproxy({'__module__': 'rdflib.term', '__doc__': '\n An abstract class, primarily defined to identify Nodes that are not Literals.\n\n The name "Identified Node" is not explicitly defined in the RDF specification, but can be drawn from this section: https://www.w3.org/TR/rdf-concepts/#section-URI-Vocabulary\n ', '__getnewargs__': <function IdentifiedNode.__getnewargs__>, 'toPython': <function IdentifiedNode.toPython>, '__dict__': <attribute '__dict__' of 'IdentifiedNode' objects>, '__weakref__': <attribute '__weakref__' of 'IdentifiedNode' objects>, '__abstractmethods__': frozenset({'n3'}), '_abc_impl': <_abc._abc_data object>, '__annotations__': {}})¶
- __module__ = 'rdflib.term'¶
- __weakref__¶
list of weak references to the object (if defined)
- class rdflib.term.Identifier(value: str)[source]¶
-
See http://www.w3.org/2002/07/rdf-identifer-terminology/ regarding choice of terminology.
- __abstractmethods__ = frozenset({'n3'})¶
- __eq__(other)[source]¶
Equality for Nodes.
>>> BNode("foo")==None False >>> BNode("foo")==URIRef("foo") False >>> URIRef("foo")==BNode("foo") False >>> BNode("foo")!=URIRef("foo") True >>> URIRef("foo")!=BNode("foo") True >>> Variable('a')!=URIRef('a') True >>> Variable('a')!=Variable('a') False
- __gt__(other)[source]¶
This implements ordering for Nodes,
This tries to implement this: http://www.w3.org/TR/sparql11-query/#modOrderBy
Variables are not included in the SPARQL list, but they are greater than BNodes and smaller than everything else
- __hash__()¶
Return hash(self).
- __module__ = 'rdflib.term'¶
- __slots__ = ()¶
- class rdflib.term.Literal(lexical_or_value: Any, lang: str | None = None, datatype: str | None = None, normalize: bool | None = None)[source]¶
Bases:
Identifier
RDF 1.1’s Literals Section: http://www.w3.org/TR/rdf-concepts/#section-Graph-Literal
Literals are used for values such as strings, numbers, and dates.
A literal in an RDF graph consists of two or three elements:
a lexical form, being a Unicode string, which SHOULD be in Normal Form C
a datatype IRI, being an IRI identifying a datatype that determines how the lexical form maps to a literal value, and
if and only if the datatype IRI is
http://www.w3.org/1999/02/22-rdf-syntax-ns#langString
, a non-empty language tag. The language tag MUST be well-formed according to section 2.2.9 of Tags for identifying languages.
A literal is a language-tagged string if the third element is present. Lexical representations of language tags MAY be converted to lower case. The value space of language tags is always in lower case.
—
For valid XSD datatypes, the lexical form is optionally normalized at construction time. Default behaviour is set by rdflib.NORMALIZE_LITERALS and can be overridden by the normalize parameter to __new__
Equality and hashing of Literals are done based on the lexical form, i.e.:
>>> from rdflib.namespace import XSD
>>> Literal('01') != Literal('1') # clear - strings differ True
but with data-type they get normalized:
>>> Literal('01', datatype=XSD.integer) != Literal('1', datatype=XSD.integer) False
unless disabled:
>>> Literal('01', datatype=XSD.integer, normalize=False) != Literal('1', datatype=XSD.integer) True
Value based comparison is possible:
>>> Literal('01', datatype=XSD.integer).eq(Literal('1', datatype=XSD.float)) True
The eq method also provides limited support for basic python types:
>>> Literal(1).eq(1) # fine - int compatible with xsd:integer True >>> Literal('a').eq('b') # fine - str compatible with plain-lit False >>> Literal('a', datatype=XSD.string).eq('a') # fine - str compatible with xsd:string True >>> Literal('a').eq(1) # not fine, int incompatible with plain-lit NotImplemented
Greater-than/less-than ordering comparisons are also done in value space, when compatible datatypes are used. Incompatible datatypes are ordered by DT, or by lang-tag. For other nodes the ordering is None < BNode < URIRef < Literal
Any comparison with non-rdflib Node are “NotImplemented” In PY3 this is an error.
>>> from rdflib import Literal, XSD >>> lit2006 = Literal('2006-01-01',datatype=XSD.date) >>> lit2006.toPython() datetime.date(2006, 1, 1) >>> lit2006 < Literal('2007-01-01',datatype=XSD.date) True >>> Literal(datetime.utcnow()).datatype rdflib.term.URIRef('http://www.w3.org/2001/XMLSchema#dateTime') >>> Literal(1) > Literal(2) # by value False >>> Literal(1) > Literal(2.0) # by value False >>> Literal('1') > Literal(1) # by DT True >>> Literal('1') < Literal('1') # by lexical form False >>> Literal('a', lang='en') > Literal('a', lang='fr') # by lang-tag False >>> Literal(1) > URIRef('foo') # by node-type True
The > < operators will eat this NotImplemented and throw a TypeError (py3k):
>>> Literal(1).__gt__(2.0) NotImplemented
- __abs__()[source]¶
- Return type:
>>> abs(Literal(-1)) rdflib.term.Literal('1', datatype=rdflib.term.URIRef('http://www.w3.org/2001/XMLSchema#integer'))
>>> from rdflib.namespace import XSD >>> abs( Literal("-1", datatype=XSD.integer)) rdflib.term.Literal('1', datatype=rdflib.term.URIRef('http://www.w3.org/2001/XMLSchema#integer'))
>>> abs(Literal("1")) Traceback (most recent call last): File "<stdin>", line 1, in <module> TypeError: Not a number; rdflib.term.Literal('1')
- __abstractmethods__ = frozenset({})¶
- __add__(val)[source]¶
>>> from rdflib.namespace import XSD >>> Literal(1) + 1 rdflib.term.Literal('2', datatype=rdflib.term.URIRef('http://www.w3.org/2001/XMLSchema#integer')) >>> Literal("1") + "1" rdflib.term.Literal('11')
# Handling dateTime/date/time based operations in Literals >>> a = Literal(‘2006-01-01T20:50:00’, datatype=XSD.dateTime) >>> b = Literal(‘P31D’, datatype=XSD.duration) >>> (a + b) rdflib.term.Literal(‘2006-02-01T20:50:00’, datatype=rdflib.term.URIRef(’http://www.w3.org/2001/XMLSchema#dateTime’)) >>> from rdflib.namespace import XSD >>> a = Literal(‘2006-07-01T20:52:00’, datatype=XSD.dateTime) >>> b = Literal(‘P122DT15H58M’, datatype=XSD.duration) >>> (a + b) rdflib.term.Literal(‘2006-11-01T12:50:00’, datatype=rdflib.term.URIRef(’http://www.w3.org/2001/XMLSchema#dateTime’))
- __annotations__ = {'_datatype': 'Optional[URIRef]', '_ill_typed': 'Optional[bool]', '_language': 'Optional[str]', '_value': 'Any'}¶
- __bool__()[source]¶
Is the Literal “True” This is used for if statements, bool(literal), etc.
- Return type:
- __eq__(other)[source]¶
Literals are only equal to other literals.
“Two literals are equal if and only if all of the following hold: * The strings of the two lexical forms compare equal, character by character. * Either both or neither have language tags. * The language tags, if any, compare equal. * Either both or neither have datatype URIs. * The two datatype URIs, if any, compare equal, character by character.” – 6.5.1 Literal Equality (RDF: Concepts and Abstract Syntax)
>>> Literal("1", datatype=URIRef("foo")) == Literal("1", datatype=URIRef("foo")) True >>> Literal("1", datatype=URIRef("foo")) == Literal("1", datatype=URIRef("foo2")) False
>>> Literal("1", datatype=URIRef("foo")) == Literal("2", datatype=URIRef("foo")) False >>> Literal("1", datatype=URIRef("foo")) == "asdf" False >>> from rdflib import XSD >>> Literal('2007-01-01', datatype=XSD.date) == Literal('2007-01-01', datatype=XSD.date) True >>> Literal('2007-01-01', datatype=XSD.date) == date(2007, 1, 1) False >>> Literal("one", lang="en") == Literal("one", lang="en") True >>> Literal("hast", lang='en') == Literal("hast", lang='de') False >>> Literal("1", datatype=XSD.integer) == Literal(1) True >>> Literal("1", datatype=XSD.integer) == Literal("01", datatype=XSD.integer) True
- __gt__(other)[source]¶
This implements ordering for Literals, the other comparison methods delegate here
This tries to implement this: http://www.w3.org/TR/sparql11-query/#modOrderBy
In short, Literals with compatible data-types are ordered in value space, i.e. >>> from rdflib import XSD
>>> Literal(1) > Literal(2) # int/int False >>> Literal(2.0) > Literal(1) # double/int True >>> from decimal import Decimal >>> Literal(Decimal("3.3")) > Literal(2.0) # decimal/double True >>> Literal(Decimal("3.3")) < Literal(4.0) # decimal/double True >>> Literal('b') > Literal('a') # plain lit/plain lit True >>> Literal('b') > Literal('a', datatype=XSD.string) # plain lit/xsd:str True
Incompatible datatype mismatches ordered by DT
>>> Literal(1) > Literal("2") # int>string False
Langtagged literals by lang tag >>> Literal(“a”, lang=”en”) > Literal(“a”, lang=”fr”) False
- __hash__()[source]¶
>>> from rdflib.namespace import XSD >>> a = {Literal('1', datatype=XSD.integer):'one'} :rtype: :sphinx_autodoc_typehints_type:`\:py\:class\:\`int\``
>>> Literal('1', datatype=XSD.double) in a False
“Called for the key object for dictionary operations, and by the built-in function hash(). Should return a 32-bit integer usable as a hash value for dictionary operations. The only required property is that objects which compare equal have the same hash value; it is advised to somehow mix together (e.g., using exclusive or) the hash values for the components of the object that also play a part in comparison of objects.” – 3.4.1 Basic customization (Python)
“Two literals are equal if and only if all of the following hold: * The strings of the two lexical forms compare equal, character by character. * Either both or neither have language tags. * The language tags, if any, compare equal. * Either both or neither have datatype URIs. * The two datatype URIs, if any, compare equal, character by character.” – 6.5.1 Literal Equality (RDF: Concepts and Abstract Syntax)
- __invert__()[source]¶
- Return type:
>>> ~(Literal(-1)) rdflib.term.Literal('0', datatype=rdflib.term.URIRef('http://www.w3.org/2001/XMLSchema#integer'))
>>> from rdflib.namespace import XSD >>> ~( Literal("-1", datatype=XSD.integer)) rdflib.term.Literal('0', datatype=rdflib.term.URIRef('http://www.w3.org/2001/XMLSchema#integer'))
Not working:
>>> ~(Literal("1")) Traceback (most recent call last): File "<stdin>", line 1, in <module> TypeError: Not a number; rdflib.term.Literal('1')
- __le__(other)[source]¶
>>> from rdflib.namespace import XSD >>> Literal('2007-01-01T10:00:00', datatype=XSD.dateTime ... ) <= Literal('2007-01-01T10:00:00', datatype=XSD.dateTime) True
- __module__ = 'rdflib.term'¶
- __neg__()[source]¶
>>> (- Literal(1)) rdflib.term.Literal('-1', datatype=rdflib.term.URIRef('http://www.w3.org/2001/XMLSchema#integer')) >>> (- Literal(10.5)) rdflib.term.Literal('-10.5', datatype=rdflib.term.URIRef('http://www.w3.org/2001/XMLSchema#double')) >>> from rdflib.namespace import XSD :rtype: :sphinx_autodoc_typehints_type:`\:py\:class\:\`\~rdflib.term.Literal\``
>>> (- Literal("1", datatype=XSD.integer)) rdflib.term.Literal('-1', datatype=rdflib.term.URIRef('http://www.w3.org/2001/XMLSchema#integer'))
>>> (- Literal("1")) Traceback (most recent call last): File "<stdin>", line 1, in <module> TypeError: Not a number; rdflib.term.Literal('1') >>>
- __pos__()[source]¶
>>> (+ Literal(1)) rdflib.term.Literal('1', datatype=rdflib.term.URIRef('http://www.w3.org/2001/XMLSchema#integer')) >>> (+ Literal(-1)) rdflib.term.Literal('-1', datatype=rdflib.term.URIRef('http://www.w3.org/2001/XMLSchema#integer')) >>> from rdflib.namespace import XSD :rtype: :sphinx_autodoc_typehints_type:`\:py\:class\:\`\~rdflib.term.Literal\``
>>> (+ Literal("-1", datatype=XSD.integer)) rdflib.term.Literal('-1', datatype=rdflib.term.URIRef('http://www.w3.org/2001/XMLSchema#integer'))
>>> (+ Literal("1")) Traceback (most recent call last): File "<stdin>", line 1, in <module> TypeError: Not a number; rdflib.term.Literal('1')
- __slots__ = ('_language', '_datatype', '_value', '_ill_typed')¶
- __sub__(val)[source]¶
>>> from rdflib.namespace import XSD >>> Literal(2) - 1 rdflib.term.Literal('1', datatype=rdflib.term.URIRef('http://www.w3.org/2001/XMLSchema#integer')) >>> Literal(1.1) - 1.0 rdflib.term.Literal('0.10000000000000009', datatype=rdflib.term.URIRef('http://www.w3.org/2001/XMLSchema#double')) >>> Literal(1.1) - 1 rdflib.term.Literal('0.1', datatype=rdflib.term.URIRef('http://www.w3.org/2001/XMLSchema#decimal')) >>> Literal(1.1, datatype=XSD.float) - Literal(1.0, datatype=XSD.float) rdflib.term.Literal('0.10000000000000009', datatype=rdflib.term.URIRef('http://www.w3.org/2001/XMLSchema#float')) >>> Literal("1.1") - 1.0 Traceback (most recent call last): ... TypeError: Not a number; rdflib.term.Literal('1.1') >>> Literal(1.1, datatype=XSD.integer) - Literal(1.0, datatype=XSD.integer) rdflib.term.Literal('0.10000000000000009', datatype=rdflib.term.URIRef('http://www.w3.org/2001/XMLSchema#integer'))
# Handling dateTime/date/time based operations in Literals >>> a = Literal(‘2006-01-01T20:50:00’, datatype=XSD.dateTime) >>> b = Literal(‘2006-02-01T20:50:00’, datatype=XSD.dateTime) >>> (b - a) rdflib.term.Literal(‘P31D’, datatype=rdflib.term.URIRef(’http://www.w3.org/2001/XMLSchema#duration’)) >>> from rdflib.namespace import XSD >>> a = Literal(‘2006-07-01T20:52:00’, datatype=XSD.dateTime) >>> b = Literal(‘2006-11-01T12:50:00’, datatype=XSD.dateTime) >>> (a - b) rdflib.term.Literal(‘-P122DT15H58M’, datatype=rdflib.term.URIRef(’http://www.w3.org/2001/XMLSchema#duration’)) >>> (b - a) rdflib.term.Literal(‘P122DT15H58M’, datatype=rdflib.term.URIRef(’http://www.w3.org/2001/XMLSchema#duration’))
- eq(other)[source]¶
Compare the value of this literal with something else
Either, with the value of another literal comparisons are then done in literal “value space”, and according to the rules of XSD subtype-substitution/type-promotion
OR, with a python object:
basestring objects can be compared with plain-literals, or those with datatype xsd:string
bool objects with xsd:boolean
a int, long or float with numeric xsd types
isodate date,time,datetime objects with xsd:date,xsd:time or xsd:datetime
Any other operations returns NotImplemented
- property ill_typed: bool | None¶
For recognized datatype IRIs, this value will be True if the literal is ill formed, otherwise it will be False. Literal.value (i.e. the literal value) should always be defined if this property is False, but should not be considered reliable if this property is True.
If the literal’s datatype is None or not in the set of recognized datatype IRIs this value will be None.
- n3(namespace_manager=None)[source]¶
Returns a representation in the N3 format.
Examples:
>>> Literal("foo").n3() '"foo"'
Strings with newlines or triple-quotes:
>>> Literal("foo\nbar").n3() '"""foo\nbar"""' >>> Literal("''\'").n3() '"\'\'\'"' >>> Literal('"""').n3() '"\\"\\"\\""'
Language:
>>> Literal("hello", lang="en").n3() '"hello"@en'
Datatypes:
>>> Literal(1).n3() '"1"^^<http://www.w3.org/2001/XMLSchema#integer>' >>> Literal(1.0).n3() '"1.0"^^<http://www.w3.org/2001/XMLSchema#double>' >>> Literal(True).n3() '"true"^^<http://www.w3.org/2001/XMLSchema#boolean>'
Datatype and language isn’t allowed (datatype takes precedence):
>>> Literal(1, lang="en").n3() '"1"^^<http://www.w3.org/2001/XMLSchema#integer>'
Custom datatype:
>>> footype = URIRef("http://example.org/ns#foo") >>> Literal("1", datatype=footype).n3() '"1"^^<http://example.org/ns#foo>'
Passing a namespace-manager will use it to abbreviate datatype URIs:
>>> from rdflib import Graph >>> Literal(1).n3(Graph().namespace_manager) '"1"^^xsd:integer'
- Parameters:
namespace_manager (
Optional
[NamespaceManager
]) –- Return type:
- normalize()[source]¶
Returns a new literal with a normalised lexical representation of this literal >>> from rdflib import XSD >>> Literal(“01”, datatype=XSD.integer, normalize=False).normalize() rdflib.term.Literal(‘1’, datatype=rdflib.term.URIRef(’http://www.w3.org/2001/XMLSchema#integer’))
Illegal lexical forms for the datatype given are simply passed on >>> Literal(“a”, datatype=XSD.integer, normalize=False) rdflib.term.Literal(‘a’, datatype=rdflib.term.URIRef(’http://www.w3.org/2001/XMLSchema#integer’))
- Return type:
- class rdflib.term.Node[source]¶
Bases:
ABC
A Node in the Graph.
- __abstractmethods__ = frozenset({'n3'})¶
- __module__ = 'rdflib.term'¶
- __slots__ = ()¶
- abstract n3(namespace_manager=None)[source]¶
- Parameters:
namespace_manager (
Optional
[NamespaceManager
]) –- Return type:
- class rdflib.term.URIRef(value: str, base: str | None = None)[source]¶
Bases:
IdentifiedNode
RDF 1.1’s IRI Section https://www.w3.org/TR/rdf11-concepts/#section-IRIs
Note
Documentation on RDF outside of RDFLib uses the term IRI or URI whereas this class is called URIRef. This is because it was made when the first version of the RDF specification was current, and it used the term URIRef, see RDF 1.0 URIRef
An IRI (Internationalized Resource Identifier) within an RDF graph is a Unicode string that conforms to the syntax defined in RFC 3987.
IRIs in the RDF abstract syntax MUST be absolute, and MAY contain a fragment identifier.
IRIs are a generalization of URIs [RFC3986] that permits a wider range of Unicode characters.
- __abstractmethods__ = frozenset({})¶
- __annotations__ = {'__invert__': 'Callable[[URIRef], InvPath]', '__neg__': 'Callable[[URIRef], NegatedPath]', '__or__': 'Callable[[URIRef, Union[URIRef, Path]], AlternativePath]', '__truediv__': 'Callable[[URIRef, Union[URIRef, Path]], SequencePath]'}¶
- __module__ = 'rdflib.term'¶
- __mul__(mul)¶
cardinality path
- __neg__()¶
negated path
- Parameters:
p (
Union
[URIRef
,AlternativePath
,InvPath
]) –- Return type:
- __or__(other)¶
alternative path
- __slots__ = ()¶
- __truediv__(other)¶
sequence path
- de_skolemize()[source]¶
Create a Blank Node from a skolem URI, in accordance with http://www.w3.org/TR/rdf11-concepts/#section-skolemization. This function accepts only rdflib type skolemization, to provide a round-tripping within the system. :rtype:
BNode
New in version 4.0.
- property fragment: str¶
Return the URL Fragment
>>> URIRef("http://example.com/some/path/#some-fragment").fragment 'some-fragment' >>> URIRef("http://example.com/some/path/").fragment ''
- n3(namespace_manager=None)[source]¶
This will do a limited check for valid URIs, essentially just making sure that the string includes no illegal characters (
<, >, ", {, }, |, \, `, ^
)- Parameters:
namespace_manager (
Optional
[NamespaceManager
]) – if not None, will be used to make up a prefixed name- Return type:
- class rdflib.term.Variable(value: str)[source]¶
Bases:
Identifier
A Variable - this is used for querying, or in Formula aware graphs, where Variables can be stored
- __abstractmethods__ = frozenset({})¶
- __module__ = 'rdflib.term'¶
- __slots__ = ()¶
- n3(namespace_manager=None)[source]¶
- Parameters:
namespace_manager (
Optional
[NamespaceManager
]) –- Return type:
- rdflib.term.bind(datatype, pythontype, constructor=None, lexicalizer=None, datatype_specific=False)[source]¶
register a new datatype<->pythontype binding
- Parameters:
constructor (
Optional
[Callable
[[str
],Any
]]) – an optional function for converting lexical forms into a Python instances, if not given the pythontype is used directlylexicalizer (
Optional
[Callable
[[Any
],Union
[str
,bytes
]]]) – an optional function for converting python objects to lexical form, if not given object.__str__ is useddatatype_specific (
bool
) – makes the lexicalizer function be accessible from the pair (pythontype, datatype) if set to True or from the pythontype otherwise. False by defaultdatatype (
str
) –
- Return type:
rdflib.util module¶
Some utility functions.
Miscellaneous utilities
list2set
first
uniq
more_than
Term characterisation and generation
to_term
from_n3
Date/time utilities
date_time
parse_date_time
- rdflib.util.date_time(t=None, local_time_zone=False)[source]¶
http://www.w3.org/TR/NOTE-datetime ex: 1997-07-16T19:20:30Z
>>> date_time(1126482850) '2005-09-11T23:54:10Z'
@@ this will change depending on where it is run #>>> date_time(1126482850, local_time_zone=True) #’2005-09-11T19:54:10-04:00’
>>> date_time(1) '1970-01-01T00:00:01Z'
>>> date_time(0) '1970-01-01T00:00:00Z'
- rdflib.util.find_roots(graph, prop, roots=None)[source]¶
Find the roots in some sort of transitive hierarchy.
find_roots(graph, rdflib.RDFS.subClassOf) will return a set of all roots of the sub-class hierarchy
Assumes triple of the form (child, prop, parent), i.e. the direction of RDFS.subClassOf or SKOS.broader
- rdflib.util.first(seq)[source]¶
return the first element in a python sequence for graphs, use graph.value instead
- rdflib.util.from_n3(s, default=None, backend=None, nsm=None)[source]¶
Creates the Identifier corresponding to the given n3 string.
>>> from rdflib.term import URIRef, Literal >>> from rdflib.namespace import NamespaceManager >>> from_n3('<http://ex.com/foo>') == URIRef('http://ex.com/foo') True >>> from_n3('"foo"@de') == Literal('foo', lang='de') True >>> from_n3('"""multi\nline\nstring"""@en') == Literal( ... 'multi\nline\nstring', lang='en') True >>> from_n3('42') == Literal(42) True >>> from_n3(Literal(42).n3()) == Literal(42) True >>> from_n3('"42"^^xsd:integer') == Literal(42) True >>> from rdflib import RDFS >>> from_n3('rdfs:label') == RDFS['label'] True >>> nsm = NamespaceManager(rdflib.graph.Graph()) >>> nsm.bind('dbpedia', 'http://dbpedia.org/resource/') >>> berlin = URIRef('http://dbpedia.org/resource/Berlin') >>> from_n3('dbpedia:Berlin', nsm=nsm) == berlin True
- rdflib.util.get_tree(graph, root, prop, mapper=<function <lambda>>, sortkey=None, done=None, dir='down')[source]¶
Return a nested list/tuple structure representing the tree built by the transitive property given, starting from the root given
i.e.
- get_tree(graph,
rdflib.URIRef(”http://xmlns.com/foaf/0.1/Person”), rdflib.RDFS.subClassOf)
will return the structure for the subClassTree below person.
dir=’down’ assumes triple of the form (child, prop, parent), i.e. the direction of RDFS.subClassOf or SKOS.broader Any other dir traverses in the other direction
- rdflib.util.guess_format(fpath, fmap=None)[source]¶
Guess RDF serialization based on file suffix. Uses
SUFFIX_FORMAT_MAP
unlessfmap
is provided. Examples:>>> guess_format('path/to/file.rdf') 'xml' >>> guess_format('path/to/file.owl') 'xml' >>> guess_format('path/to/file.ttl') 'turtle' >>> guess_format('path/to/file.json') 'json-ld' >>> guess_format('path/to/file.xhtml') 'rdfa' >>> guess_format('path/to/file.svg') 'rdfa' >>> guess_format('path/to/file.xhtml', {'xhtml': 'grddl'}) 'grddl'
This also works with just the suffixes, with or without leading dot, and regardless of letter case:
>>> guess_format('.rdf') 'xml' >>> guess_format('rdf') 'xml' >>> guess_format('RDF') 'xml'
- rdflib.util.list2set(seq)[source]¶
Return a new list without duplicates. Preserves the order, unlike set(seq)
- rdflib.util.more_than(sequence, number)[source]¶
Returns 1 if sequence has more items than number and 0 if not.
- rdflib.util.parse_date_time(val)[source]¶
always returns seconds in UTC
# tests are written like this to make any errors easier to understand >>> parse_date_time(‘2005-09-11T23:54:10Z’) - 1126482850.0 0.0
>>> parse_date_time('2005-09-11T16:54:10-07:00') - 1126482850.0 0.0
>>> parse_date_time('1970-01-01T00:00:01Z') - 1.0 0.0
>>> parse_date_time('1970-01-01T00:00:00Z') - 0.0 0.0 >>> parse_date_time("2005-09-05T10:42:00") - 1125916920.0 0.0
- rdflib.util.to_term(s, default=None)[source]¶
Creates and returns an Identifier of type corresponding to the pattern of the given positional argument string
s
:‘’ returns the
default
keyword argument value orNone
‘<s>’ returns
URIRef(s)
(i.e. without angle brackets)‘“s”’ returns
Literal(s)
(i.e. without doublequotes)‘_s’ returns
BNode(s)
(i.e. without leading underscore)- Parameters:
default (
Optional
[Identifier
]) –
- Return type:
rdflib.void module¶
- rdflib.void.generateVoID(g, dataset=None, res=None, distinctForPartitions=True)[source]¶
Returns a new graph with a VoID description of the passed dataset
For more info on Vocabulary of Interlinked Datasets (VoID), see: http://vocab.deri.ie/void
This only makes two passes through the triples (once to detect the types of things)
The tradeoff is that lots of temporary structures are built up in memory meaning lots of memory may be consumed :) I imagine at least a few copies of your original graph.
the distinctForPartitions parameter controls whether distinctSubjects/objects are tracked for each class/propertyPartition this requires more memory again
Module contents¶
A pure Python package providing the core RDF constructs.
The packages is intended to provide the core RDF types and interfaces for working with RDF. The package defines a plugin interface for parsers, stores, and serializers that other packages can use to implement parsers, stores, and serializers that will plug into the rdflib package.
The primary interface rdflib exposes to work with RDF is rdflib.graph.Graph.
A tiny example:
>>> from rdflib import Graph, URIRef, Literal
>>> g = Graph()
>>> result = g.parse("http://www.w3.org/2000/10/swap/test/meet/blue.rdf")
>>> print("graph has %s statements." % len(g))
graph has 4 statements.
>>>
>>> for s, p, o in g:
... if (s, p, o) not in g:
... raise Exception("It better be!")
>>> s = g.serialize(format='nt')
>>>
>>> sorted(g) == [
... (URIRef("http://meetings.example.com/cal#m1"),
... URIRef("http://www.example.org/meeting_organization#homePage"),
... URIRef("http://meetings.example.com/m1/hp")),
... (URIRef("http://www.example.org/people#fred"),
... URIRef("http://www.example.org/meeting_organization#attending"),
... URIRef("http://meetings.example.com/cal#m1")),
... (URIRef("http://www.example.org/people#fred"),
... URIRef("http://www.example.org/personal_details#GivenName"),
... Literal("Fred")),
... (URIRef("http://www.example.org/people#fred"),
... URIRef("http://www.example.org/personal_details#hasEmail"),
... URIRef("mailto:fred@example.com"))
... ]
True
- class rdflib.BNode(value: str | None = None, _sn_gen: ~typing.Callable[[], str] = <function _serial_number_generator.<locals>._generator>, _prefix: str = 'N')[source]¶
Bases:
IdentifiedNode
RDF 1.1’s Blank Nodes Section: https://www.w3.org/TR/rdf11-concepts/#section-blank-nodes
Blank Nodes are local identifiers for unnamed nodes in RDF graphs that are used in some concrete RDF syntaxes or RDF store implementations. They are always locally scoped to the file or RDF store, and are not persistent or portable identifiers for blank nodes. The identifiers for Blank Nodes are not part of the RDF abstract syntax, but are entirely dependent on particular concrete syntax or implementation (such as Turtle, JSON-LD).
—
RDFLib’s
BNode
class makes unique IDs for all the Blank Nodes in a Graph but you should never expect, or reply on, BNodes’ IDs to match across graphs, or even for multiple copies of the same graph, if they are regenerated from some non-RDFLib source, such as loading from RDF data.- __abstractmethods__ = frozenset({})¶
- __annotations__ = {}¶
- __module__ = 'rdflib.term'¶
- static __new__(cls, value=None, _sn_gen=<function _serial_number_generator.<locals>._generator>, _prefix='N')[source]¶
# only store implementations should pass in a value
- __slots__ = ()¶
- n3(namespace_manager=None)[source]¶
- Parameters:
namespace_manager (
Optional
[NamespaceManager
]) –- Return type:
- class rdflib.ConjunctiveGraph(store='default', identifier=None, default_graph_base=None)[source]¶
Bases:
Graph
A ConjunctiveGraph is an (unnamed) aggregation of all the named graphs in a store.
It has a
default
graph, whose name is associated with the graph throughout its life.__init__()
can take an identifier to use as the name of this default graph or it will assign a BNode.All methods that add triples work against this default graph.
All queries are carried out against the union of all graphs.
- Parameters:
- __abstractmethods__ = frozenset({})¶
- __annotations__ = {'__identifier': '_ContextIdentifierType', '__store': 'Store', 'default_context': '_ContextType'}¶
- __module__ = 'rdflib.graph'¶
- add(triple_or_quad)[source]¶
Add a triple or quad to the store.
if a triple is given it is added to the default context
- contexts(triple=None)[source]¶
Iterate over all contexts in the graph
If triple is specified, iterate over all contexts the triple is in.
- get_context(identifier, quoted=False, base=None)[source]¶
Return a context graph for the given identifier
identifier must be a URIRef or BNode.
- get_graph(identifier)[source]¶
Returns the graph identified by given identifier
- Parameters:
identifier (
IdentifiedNode
) –- Return type:
- parse(source=None, publicID=None, format=None, location=None, file=None, data=None, **args)[source]¶
Parse source adding the resulting triples to its own context (sub graph of this graph).
See
rdflib.graph.Graph.parse()
for documentation on arguments.If the source is in a format that does not support named graphs it’s triples will be added to the default graph (i.e. Dataset.default_context).
- Returns:
The graph into which the source was parsed. In the case of n3 it returns the root context.
Caution
This method can access directly or indirectly requested network or file resources, for example, when parsing JSON-LD documents with
@context
directives that point to a network location.When processing untrusted or potentially malicious documents, measures should be taken to restrict network and file access.
For information on available security measures, see the RDFLib Security Considerations documentation.
Changed in 7.0: The
publicID
argument is no longer used as the identifier (i.e. name) of the default graph as was the case before version 7.0. In the case of sources that do not support named graphs, thepublicID
parameter will also not be used as the name for the graph that the data is loaded into, and instead the triples from sources that do not support named graphs will be loaded into the default graph (i.e. ConjunctionGraph.default_context).
- remove(triple_or_quad)[source]¶
Removes a triple or quads
if a triple is given it is removed from all contexts
a quad is removed from the given context only
- triples(triple_or_quad, context=None)[source]¶
Iterate over all the triples in the entire conjunctive graph
For legacy reasons, this can take the context to query either as a fourth element of the quad, or as the explicit context keyword parameter. The kw param takes precedence.
- class rdflib.Dataset(store='default', default_union=False, default_graph_base=None)[source]¶
Bases:
ConjunctiveGraph
RDF 1.1 Dataset. Small extension to the Conjunctive Graph: - the primary term is graphs in the datasets and not contexts with quads, so there is a separate method to set/retrieve a graph in a dataset and operate with graphs - graphs cannot be identified with blank nodes - added a method to directly add a single quad
Examples of usage:
>>> # Create a new Dataset >>> ds = Dataset() >>> # simple triples goes to default graph >>> ds.add((URIRef("http://example.org/a"), ... URIRef("http://www.example.org/b"), ... Literal("foo"))) <Graph identifier=... (<class 'rdflib.graph.Dataset'>)> >>> >>> # Create a graph in the dataset, if the graph name has already been >>> # used, the corresponding graph will be returned >>> # (ie, the Dataset keeps track of the constituent graphs) >>> g = ds.graph(URIRef("http://www.example.com/gr")) >>> >>> # add triples to the new graph as usual >>> g.add( ... (URIRef("http://example.org/x"), ... URIRef("http://example.org/y"), ... Literal("bar")) ) <Graph identifier=... (<class 'rdflib.graph.Graph'>)> >>> # alternatively: add a quad to the dataset -> goes to the graph >>> ds.add( ... (URIRef("http://example.org/x"), ... URIRef("http://example.org/z"), ... Literal("foo-bar"),g) ) <Graph identifier=... (<class 'rdflib.graph.Dataset'>)> >>> >>> # querying triples return them all regardless of the graph >>> for t in ds.triples((None,None,None)): ... print(t) (rdflib.term.URIRef("http://example.org/a"), rdflib.term.URIRef("http://www.example.org/b"), rdflib.term.Literal("foo")) (rdflib.term.URIRef("http://example.org/x"), rdflib.term.URIRef("http://example.org/z"), rdflib.term.Literal("foo-bar")) (rdflib.term.URIRef("http://example.org/x"), rdflib.term.URIRef("http://example.org/y"), rdflib.term.Literal("bar")) >>> >>> # querying quads() return quads; the fourth argument can be unrestricted >>> # (None) or restricted to a graph >>> for q in ds.quads((None, None, None, None)): ... print(q) (rdflib.term.URIRef("http://example.org/a"), rdflib.term.URIRef("http://www.example.org/b"), rdflib.term.Literal("foo"), None) (rdflib.term.URIRef("http://example.org/x"), rdflib.term.URIRef("http://example.org/y"), rdflib.term.Literal("bar"), rdflib.term.URIRef("http://www.example.com/gr")) (rdflib.term.URIRef("http://example.org/x"), rdflib.term.URIRef("http://example.org/z"), rdflib.term.Literal("foo-bar"), rdflib.term.URIRef("http://www.example.com/gr")) >>> >>> # unrestricted looping is equivalent to iterating over the entire Dataset >>> for q in ds: ... print(q) (rdflib.term.URIRef("http://example.org/a"), rdflib.term.URIRef("http://www.example.org/b"), rdflib.term.Literal("foo"), None) (rdflib.term.URIRef("http://example.org/x"), rdflib.term.URIRef("http://example.org/y"), rdflib.term.Literal("bar"), rdflib.term.URIRef("http://www.example.com/gr")) (rdflib.term.URIRef("http://example.org/x"), rdflib.term.URIRef("http://example.org/z"), rdflib.term.Literal("foo-bar"), rdflib.term.URIRef("http://www.example.com/gr")) >>> >>> # resticting iteration to a graph: >>> for q in ds.quads((None, None, None, g)): ... print(q) (rdflib.term.URIRef("http://example.org/x"), rdflib.term.URIRef("http://example.org/y"), rdflib.term.Literal("bar"), rdflib.term.URIRef("http://www.example.com/gr")) (rdflib.term.URIRef("http://example.org/x"), rdflib.term.URIRef("http://example.org/z"), rdflib.term.Literal("foo-bar"), rdflib.term.URIRef("http://www.example.com/gr")) >>> # Note that in the call above - >>> # ds.quads((None,None,None,"http://www.example.com/gr")) >>> # would have been accepted, too >>> >>> # graph names in the dataset can be queried: >>> for c in ds.graphs(): ... print(c) # doctest: DEFAULT http://www.example.com/gr >>> # A graph can be created without specifying a name; a skolemized genid >>> # is created on the fly >>> h = ds.graph() >>> for c in ds.graphs(): ... print(c) DEFAULT https://rdflib.github.io/.well-known/genid/rdflib/N... http://www.example.com/gr >>> # Note that the Dataset.graphs() call returns names of empty graphs, >>> # too. This can be restricted: >>> for c in ds.graphs(empty=False): ... print(c) DEFAULT http://www.example.com/gr >>> >>> # a graph can also be removed from a dataset via ds.remove_graph(g)
New in version 4.0.
- __abstractmethods__ = frozenset({})¶
- __annotations__ = {'__identifier': '_ContextIdentifierType', '__store': 'Store', 'default_context': '_ContextType'}¶
- __module__ = 'rdflib.graph'¶
- contexts(triple=None)[source]¶
Iterate over all contexts in the graph
If triple is specified, iterate over all contexts the triple is in.
- graphs(triple=None)¶
Iterate over all contexts in the graph
If triple is specified, iterate over all contexts the triple is in.
- parse(source=None, publicID=None, format=None, location=None, file=None, data=None, **args)[source]¶
Parse an RDF source adding the resulting triples to the Graph.
See
rdflib.graph.Graph.parse()
for documentation on arguments.The source is specified using one of source, location, file or data.
If the source is in a format that does not support named graphs it’s triples will be added to the default graph (i.e. Dataset.default_context).
Caution
This method can access directly or indirectly requested network or file resources, for example, when parsing JSON-LD documents with
@context
directives that point to a network location.When processing untrusted or potentially malicious documents, measures should be taken to restrict network and file access.
For information on available security measures, see the RDFLib Security Considerations documentation.
Changed in 7.0: The
publicID
argument is no longer used as the identifier (i.e. name) of the default graph as was the case before version 7.0. In the case of sources that do not support named graphs, thepublicID
parameter will also not be used as the name for the graph that the data is loaded into, and instead the triples from sources that do not support named graphs will be loaded into the default graph (i.e. ConjunctionGraph.default_context).
- class rdflib.Graph(store='default', identifier=None, namespace_manager=None, base=None, bind_namespaces='rdflib')[source]¶
Bases:
Node
An RDF Graph
The constructor accepts one argument, the “store” that will be used to store the graph data (see the “store” package for stores currently shipped with rdflib).
Stores can be context-aware or unaware. Unaware stores take up (some) less space but cannot support features that require context, such as true merging/demerging of sub-graphs and provenance.
Even if used with a context-aware store, Graph will only expose the quads which belong to the default graph. To access the rest of the data, ConjunctiveGraph or Dataset classes can be used instead.
The Graph constructor can take an identifier which identifies the Graph by name. If none is given, the graph is assigned a BNode for its identifier.
For more on named graphs, see: http://www.w3.org/2004/03/trix/
- Parameters:
- __abstractmethods__ = frozenset({})¶
- __and__(other)¶
Set-theoretic intersection. BNode IDs are not changed.
- __annotations__ = {'__identifier': '_ContextIdentifierType', '__store': 'Store'}¶
- __dict__ = mappingproxy({'__module__': 'rdflib.graph', '__doc__': 'An RDF Graph\n\n The constructor accepts one argument, the "store"\n that will be used to store the graph data (see the "store"\n package for stores currently shipped with rdflib).\n\n Stores can be context-aware or unaware. Unaware stores take up\n (some) less space but cannot support features that require\n context, such as true merging/demerging of sub-graphs and\n provenance.\n\n Even if used with a context-aware store, Graph will only expose the quads which\n belong to the default graph. To access the rest of the data, `ConjunctiveGraph` or\n `Dataset` classes can be used instead.\n\n The Graph constructor can take an identifier which identifies the Graph\n by name. If none is given, the graph is assigned a BNode for its\n identifier.\n\n For more on named graphs, see: http://www.w3.org/2004/03/trix/\n ', '__init__': <function Graph.__init__>, 'store': <property object>, 'identifier': <property object>, 'namespace_manager': <property object>, '__repr__': <function Graph.__repr__>, '__str__': <function Graph.__str__>, 'toPython': <function Graph.toPython>, 'destroy': <function Graph.destroy>, 'commit': <function Graph.commit>, 'rollback': <function Graph.rollback>, 'open': <function Graph.open>, 'close': <function Graph.close>, 'add': <function Graph.add>, 'addN': <function Graph.addN>, 'remove': <function Graph.remove>, 'triples': <function Graph.triples>, '__getitem__': <function Graph.__getitem__>, '__len__': <function Graph.__len__>, '__iter__': <function Graph.__iter__>, '__contains__': <function Graph.__contains__>, '__hash__': <function Graph.__hash__>, '__cmp__': <function Graph.__cmp__>, '__eq__': <function Graph.__eq__>, '__lt__': <function Graph.__lt__>, '__le__': <function Graph.__le__>, '__gt__': <function Graph.__gt__>, '__ge__': <function Graph.__ge__>, '__iadd__': <function Graph.__iadd__>, '__isub__': <function Graph.__isub__>, '__add__': <function Graph.__add__>, '__mul__': <function Graph.__mul__>, '__sub__': <function Graph.__sub__>, '__xor__': <function Graph.__xor__>, '__or__': <function Graph.__add__>, '__and__': <function Graph.__mul__>, 'set': <function Graph.set>, 'subjects': <function Graph.subjects>, 'predicates': <function Graph.predicates>, 'objects': <function Graph.objects>, 'subject_predicates': <function Graph.subject_predicates>, 'subject_objects': <function Graph.subject_objects>, 'predicate_objects': <function Graph.predicate_objects>, 'triples_choices': <function Graph.triples_choices>, 'value': <function Graph.value>, 'items': <function Graph.items>, 'transitiveClosure': <function Graph.transitiveClosure>, 'transitive_objects': <function Graph.transitive_objects>, 'transitive_subjects': <function Graph.transitive_subjects>, 'qname': <function Graph.qname>, 'compute_qname': <function Graph.compute_qname>, 'bind': <function Graph.bind>, 'namespaces': <function Graph.namespaces>, 'absolutize': <function Graph.absolutize>, 'serialize': <function Graph.serialize>, 'print': <function Graph.print>, 'parse': <function Graph.parse>, 'query': <function Graph.query>, 'update': <function Graph.update>, 'n3': <function Graph.n3>, '__reduce__': <function Graph.__reduce__>, 'isomorphic': <function Graph.isomorphic>, 'connected': <function Graph.connected>, 'all_nodes': <function Graph.all_nodes>, 'collection': <function Graph.collection>, 'resource': <function Graph.resource>, '_process_skolem_tuples': <function Graph._process_skolem_tuples>, 'skolemize': <function Graph.skolemize>, 'de_skolemize': <function Graph.de_skolemize>, 'cbd': <function Graph.cbd>, '__dict__': <attribute '__dict__' of 'Graph' objects>, '__weakref__': <attribute '__weakref__' of 'Graph' objects>, '__abstractmethods__': frozenset(), '_abc_impl': <_abc._abc_data object>, '__annotations__': {'__identifier': '_ContextIdentifierType', '__store': 'Store'}})¶
- __getitem__(item)[source]¶
A graph can be “sliced” as a shortcut for the triples method The python slice syntax is (ab)used for specifying triples. A generator over matches is returned, the returned tuples include only the parts not given
>>> import rdflib >>> g = rdflib.Graph() >>> g.add((rdflib.URIRef("urn:bob"), namespace.RDFS.label, rdflib.Literal("Bob"))) <Graph identifier=... (<class 'rdflib.graph.Graph'>)>
>>> list(g[rdflib.URIRef("urn:bob")]) # all triples about bob [(rdflib.term.URIRef('http://www.w3.org/2000/01/rdf-schema#label'), rdflib.term.Literal('Bob'))]
>>> list(g[:namespace.RDFS.label]) # all label triples [(rdflib.term.URIRef('urn:bob'), rdflib.term.Literal('Bob'))]
>>> list(g[::rdflib.Literal("Bob")]) # all triples with bob as object [(rdflib.term.URIRef('urn:bob'), rdflib.term.URIRef('http://www.w3.org/2000/01/rdf-schema#label'))]
Combined with SPARQL paths, more complex queries can be written concisely:
Name of all Bobs friends:
g[bob : FOAF.knows/FOAF.name ]
Some label for Bob:
g[bob : DC.title|FOAF.name|RDFS.label]
All friends and friends of friends of Bob
g[bob : FOAF.knows * “+”]
etc.
New in version 4.0.
- __init__(store='default', identifier=None, namespace_manager=None, base=None, bind_namespaces='rdflib')[source]¶
- __len__()[source]¶
Returns the number of triples in the graph
If context is specified then the number of triples in the context is returned instead.
- Return type:
- __module__ = 'rdflib.graph'¶
- __or__(other)¶
Set-theoretic union BNode IDs are not changed.
- __weakref__¶
list of weak references to the object (if defined)
- bind(prefix, namespace, override=True, replace=False)[source]¶
Bind prefix to namespace
If override is True will bind namespace to given prefix even if namespace was already bound to a different prefix.
if replace, replace any existing prefix with the new namespace
for example: graph.bind(“foaf”, “http://xmlns.com/foaf/0.1/”)
- cbd(resource, *, target_graph=None)[source]¶
Retrieves the Concise Bounded Description of a Resource from a Graph
Concise Bounded Description (CBD) is defined in [1] as:
Given a particular node (the starting node) in a particular RDF graph (the source graph), a subgraph of that particular graph, taken to comprise a concise bounded description of the resource denoted by the starting node, can be identified as follows:
- Include in the subgraph all statements in the source graph where the subject of the statement is the
starting node;
- Recursively, for all statements identified in the subgraph thus far having a blank node object, include
in the subgraph all statements in the source graph where the subject of the statement is the blank node in question and which are not already included in the subgraph.
- Recursively, for all statements included in the subgraph thus far, for all reifications of each statement
in the source graph, include the concise bounded description beginning from the rdf:Statement node of each reification.
This results in a subgraph where the object nodes are either URI references, literals, or blank nodes not serving as the subject of any statement in the graph.
[1] https://www.w3.org/Submission/CBD/
- Parameters:
- Return type:
- Returns:
a Graph, subgraph of self if no graph was provided otherwise the provided graph
- close(commit_pending_transaction=False)[source]¶
Close the graph store
Might be necessary for stores that require closing a connection to a database or releasing some resource.
- collection(identifier)[source]¶
Create a new
Collection
instance.Parameters:
identifier
: a URIRef or BNode instance.
Example:
>>> graph = Graph() >>> uri = URIRef("http://example.org/resource") >>> collection = graph.collection(uri) >>> assert isinstance(collection, Collection) >>> assert collection.uri is uri >>> assert collection.graph is graph >>> collection += [ Literal(1), Literal(2) ]
- Parameters:
identifier (
Node
) –- Return type:
- connected()[source]¶
Check if the Graph is connected
The Graph is considered undirectional.
Performs a search on the Graph, starting from a random node. Then iteratively goes depth-first through the triplets where the node is subject and object. Return True if all nodes have been visited and False if it cannot continue and there are still unvisited nodes left.
- Return type:
- property identifier: IdentifiedNode¶
- isomorphic(other)[source]¶
does a very basic check if these graphs are the same If no BNodes are involved, this is accurate.
See rdflib.compare for a correct implementation of isomorphism checks
- items(list)[source]¶
Generator over all items in the resource specified by list
list is an RDF collection.
- n3(namespace_manager=None)[source]¶
Return an n3 identifier for the Graph
- Parameters:
namespace_manager (
Optional
[NamespaceManager
]) –- Return type:
- property namespace_manager: NamespaceManager¶
this graph’s namespace-manager
- objects(subject=None, predicate=None, unique=False)[source]¶
A generator of (optionally unique) objects with the given subject and predicate
- open(configuration, create=False)[source]¶
Open the graph store
Might be necessary for stores that require opening a connection to a database or acquiring some resource.
- parse(source=None, publicID=None, format=None, location=None, file=None, data=None, **args)[source]¶
Parse an RDF source adding the resulting triples to the Graph.
The source is specified using one of source, location, file or data.
Caution
This method can access directly or indirectly requested network or file resources, for example, when parsing JSON-LD documents with
@context
directives that point to a network location.When processing untrusted or potentially malicious documents, measures should be taken to restrict network and file access.
For information on available security measures, see the RDFLib Security Considerations documentation.
- Parameters:
source (
Union
[IO
[bytes
],TextIO
,InputSource
,str
,bytes
,PurePath
,None
]) – An InputSource, file-like object, Path like object, or string. In the case of a string the string is the location of the source.location (
Optional
[str
]) – A string indicating the relative or absolute URL of the source. Graph’s absolutize method is used if a relative location is specified.data (
Union
[str
,bytes
,None
]) – A string containing the data to be parsed.format (
Optional
[str
]) – Used if format can not be determined from source, e.g. file extension or Media Type. Defaults to text/turtle. Format support can be extended with plugins, but “xml”, “n3” (use for turtle), “nt” & “trix” are built in.the logical URI to use as the document base. If None specified the document location is used (at least in the case where there is a document location). This is used as the base URI when resolving relative URIs in the source document, as defined in IETF RFC 3986, given the source document does not define a base URI.
- Return type:
- Returns:
self
, i.e. theGraph
instance.
Examples:
>>> my_data = ''' ... <rdf:RDF ... xmlns:rdf="http://www.w3.org/1999/02/22-rdf-syntax-ns#" ... xmlns:rdfs="http://www.w3.org/2000/01/rdf-schema#" ... > ... <rdf:Description> ... <rdfs:label>Example</rdfs:label> ... <rdfs:comment>This is really just an example.</rdfs:comment> ... </rdf:Description> ... </rdf:RDF> ... ''' >>> import os, tempfile >>> fd, file_name = tempfile.mkstemp() >>> f = os.fdopen(fd, "w") >>> dummy = f.write(my_data) # Returns num bytes written >>> f.close()
>>> g = Graph() >>> result = g.parse(data=my_data, format="application/rdf+xml") >>> len(g) 2
>>> g = Graph() >>> result = g.parse(location=file_name, format="application/rdf+xml") >>> len(g) 2
>>> g = Graph() >>> with open(file_name, "r") as f: ... result = g.parse(f, format="application/rdf+xml") >>> len(g) 2
>>> os.remove(file_name)
>>> # default turtle parsing >>> result = g.parse(data="<http://example.com/a> <http://example.com/a> <http://example.com/a> .") >>> len(g) 3
- Parameters:
args (
Any
) –
- predicate_objects(subject=None, unique=False)[source]¶
A generator of (optionally unique) (predicate, object) tuples for the given subject
- predicates(subject=None, object=None, unique=False)[source]¶
A generator of (optionally unique) predicates with the given subject and object
- query(query_object, processor='sparql', result='sparql', initNs=None, initBindings=None, use_store_provided=True, **kwargs)[source]¶
Query this graph.
A type of ‘prepared queries’ can be realised by providing initial variable bindings with initBindings
Initial namespaces are used to resolve prefixes used in the query, if none are given, the namespaces from the graph’s namespace manager are used.
Caution
This method can access indirectly requested network endpoints, for example, query processing will attempt to access network endpoints specified in
SERVICE
directives.When processing untrusted or potentially malicious queries, measures should be taken to restrict network and file access.
For information on available security measures, see the RDFLib Security Considerations documentation.
- remove(triple)[source]¶
Remove a triple from the graph
If the triple does not provide a context attribute, removes the triple from all contexts.
- resource(identifier)[source]¶
Create a new
Resource
instance.Parameters:
identifier
: a URIRef or BNode instance.
Example:
>>> graph = Graph() >>> uri = URIRef("http://example.org/resource") >>> resource = graph.resource(uri) >>> assert isinstance(resource, Resource) >>> assert resource.identifier is uri >>> assert resource.graph is graph
- serialize(destination=None, format='turtle', base=None, encoding=None, **args)[source]¶
Serialize the graph.
- Parameters:
destination (
Union
[str
,PurePath
,IO
[bytes
],None
]) – The destination to serialize the graph to. This can be a path as astr
orPurePath
object, or it can be aIO
[bytes]
like object. If this parameter is not supplied the serialized graph will be returned.format (
str
) – The format that the output should be written in. This value references aSerializer
plugin. Format support can be extended with plugins, but"xml"
,"n3"
,"turtle"
,"nt"
,"pretty-xml"
,"trix"
,"trig"
,"nquads"
,"json-ld"
and"hext"
are built in. Defaults to"turtle"
.base (
Optional
[str
]) – The base IRI for formats that support it. For the turtle format this will be used as the@base
directive.args (
Any
) – Additional arguments to pass to theSerializer
that will be used.self (
TypeVar
(_GraphT
, bound= Graph)) –
- Returns:
The serialized graph if
destination
is None. The serialized graph is returned as str if no encoding is specified, and as bytes if an encoding is specified.- Return type:
bytes
ifdestination
is None andencoding
is not None.- Return type:
str
ifdestination
is None andencoding
is None.- Returns:
self
(i.e. theGraph
instance) ifdestination
is not None.- Return type:
Graph
ifdestination
is not None.
- set(triple)[source]¶
Convenience method to update the value of object
Remove any existing triples for subject and predicate before adding (subject, predicate, object).
- subject_objects(predicate=None, unique=False)[source]¶
A generator of (optionally unique) (subject, object) tuples for the given predicate
- subject_predicates(object=None, unique=False)[source]¶
A generator of (optionally unique) (subject, predicate) tuples for the given object
- subjects(predicate=None, object=None, unique=False)[source]¶
A generator of (optionally unique) subjects with the given predicate and object
- transitiveClosure(func, arg, seen=None)[source]¶
Generates transitive closure of a user-defined function against the graph
>>> from rdflib.collection import Collection >>> g=Graph() >>> a=BNode("foo") >>> b=BNode("bar") >>> c=BNode("baz") >>> g.add((a,RDF.first,RDF.type)) <Graph identifier=... (<class 'rdflib.graph.Graph'>)> >>> g.add((a,RDF.rest,b)) <Graph identifier=... (<class 'rdflib.graph.Graph'>)> >>> g.add((b,RDF.first,namespace.RDFS.label)) <Graph identifier=... (<class 'rdflib.graph.Graph'>)> >>> g.add((b,RDF.rest,c)) <Graph identifier=... (<class 'rdflib.graph.Graph'>)> >>> g.add((c,RDF.first,namespace.RDFS.comment)) <Graph identifier=... (<class 'rdflib.graph.Graph'>)> >>> g.add((c,RDF.rest,RDF.nil)) <Graph identifier=... (<class 'rdflib.graph.Graph'>)> >>> def topList(node,g): ... for s in g.subjects(RDF.rest, node): ... yield s >>> def reverseList(node,g): ... for f in g.objects(node, RDF.first): ... print(f) ... for s in g.subjects(RDF.rest, node): ... yield s
>>> [rt for rt in g.transitiveClosure( ... topList,RDF.nil)] [rdflib.term.BNode('baz'), rdflib.term.BNode('bar'), rdflib.term.BNode('foo')]
>>> [rt for rt in g.transitiveClosure( ... reverseList,RDF.nil)] http://www.w3.org/2000/01/rdf-schema#comment http://www.w3.org/2000/01/rdf-schema#label http://www.w3.org/1999/02/22-rdf-syntax-ns#type [rdflib.term.BNode('baz'), rdflib.term.BNode('bar'), rdflib.term.BNode('foo')]
- transitive_objects(subject, predicate, remember=None)[source]¶
Transitively generate objects for the
predicate
relationshipGenerated objects belong to the depth first transitive closure of the
predicate
relationship starting atsubject
.
- transitive_subjects(predicate, object, remember=None)[source]¶
Transitively generate subjects for the
predicate
relationshipGenerated subjects belong to the depth first transitive closure of the
predicate
relationship starting atobject
.
- triples(triple)[source]¶
Generator over the triple store
Returns triples that match the given triple pattern. If triple pattern does not provide a context, all contexts will be searched.
- update(update_object, processor='sparql', initNs=None, initBindings=None, use_store_provided=True, **kwargs)[source]¶
Update this graph with the given update query.
Caution
This method can access indirectly requested network endpoints, for example, query processing will attempt to access network endpoints specified in
SERVICE
directives.When processing untrusted or potentially malicious queries, measures should be taken to restrict network and file access.
For information on available security measures, see the RDFLib Security Considerations documentation.
- value(subject=None, predicate=rdflib.term.URIRef('http://www.w3.org/1999/02/22-rdf-syntax-ns#value'), object=None, default=None, any=True)[source]¶
Get a value for a pair of two criteria
Exactly one of subject, predicate, object must be None. Useful if one knows that there may only be one value.
It is one of those situations that occur a lot, hence this ‘macro’ like utility
Parameters: subject, predicate, object – exactly one must be None default – value to be returned if no values found any – if True, return any value in the case there is more than one, else, raise UniquenessError
- class rdflib.IdentifiedNode(value: str)[source]¶
Bases:
Identifier
An abstract class, primarily defined to identify Nodes that are not Literals.
The name “Identified Node” is not explicitly defined in the RDF specification, but can be drawn from this section: https://www.w3.org/TR/rdf-concepts/#section-URI-Vocabulary
- __abstractmethods__ = frozenset({'n3'})¶
- __annotations__ = {}¶
- __dict__ = mappingproxy({'__module__': 'rdflib.term', '__doc__': '\n An abstract class, primarily defined to identify Nodes that are not Literals.\n\n The name "Identified Node" is not explicitly defined in the RDF specification, but can be drawn from this section: https://www.w3.org/TR/rdf-concepts/#section-URI-Vocabulary\n ', '__getnewargs__': <function IdentifiedNode.__getnewargs__>, 'toPython': <function IdentifiedNode.toPython>, '__dict__': <attribute '__dict__' of 'IdentifiedNode' objects>, '__weakref__': <attribute '__weakref__' of 'IdentifiedNode' objects>, '__abstractmethods__': frozenset({'n3'}), '_abc_impl': <_abc._abc_data object>, '__annotations__': {}})¶
- __module__ = 'rdflib.term'¶
- __weakref__¶
list of weak references to the object (if defined)
- class rdflib.Literal(lexical_or_value: Any, lang: str | None = None, datatype: str | None = None, normalize: bool | None = None)[source]¶
Bases:
Identifier
RDF 1.1’s Literals Section: http://www.w3.org/TR/rdf-concepts/#section-Graph-Literal
Literals are used for values such as strings, numbers, and dates.
A literal in an RDF graph consists of two or three elements:
a lexical form, being a Unicode string, which SHOULD be in Normal Form C
a datatype IRI, being an IRI identifying a datatype that determines how the lexical form maps to a literal value, and
if and only if the datatype IRI is
http://www.w3.org/1999/02/22-rdf-syntax-ns#langString
, a non-empty language tag. The language tag MUST be well-formed according to section 2.2.9 of Tags for identifying languages.
A literal is a language-tagged string if the third element is present. Lexical representations of language tags MAY be converted to lower case. The value space of language tags is always in lower case.
—
For valid XSD datatypes, the lexical form is optionally normalized at construction time. Default behaviour is set by rdflib.NORMALIZE_LITERALS and can be overridden by the normalize parameter to __new__
Equality and hashing of Literals are done based on the lexical form, i.e.:
>>> from rdflib.namespace import XSD
>>> Literal('01') != Literal('1') # clear - strings differ True
but with data-type they get normalized:
>>> Literal('01', datatype=XSD.integer) != Literal('1', datatype=XSD.integer) False
unless disabled:
>>> Literal('01', datatype=XSD.integer, normalize=False) != Literal('1', datatype=XSD.integer) True
Value based comparison is possible:
>>> Literal('01', datatype=XSD.integer).eq(Literal('1', datatype=XSD.float)) True
The eq method also provides limited support for basic python types:
>>> Literal(1).eq(1) # fine - int compatible with xsd:integer True >>> Literal('a').eq('b') # fine - str compatible with plain-lit False >>> Literal('a', datatype=XSD.string).eq('a') # fine - str compatible with xsd:string True >>> Literal('a').eq(1) # not fine, int incompatible with plain-lit NotImplemented
Greater-than/less-than ordering comparisons are also done in value space, when compatible datatypes are used. Incompatible datatypes are ordered by DT, or by lang-tag. For other nodes the ordering is None < BNode < URIRef < Literal
Any comparison with non-rdflib Node are “NotImplemented” In PY3 this is an error.
>>> from rdflib import Literal, XSD >>> lit2006 = Literal('2006-01-01',datatype=XSD.date) >>> lit2006.toPython() datetime.date(2006, 1, 1) >>> lit2006 < Literal('2007-01-01',datatype=XSD.date) True >>> Literal(datetime.utcnow()).datatype rdflib.term.URIRef('http://www.w3.org/2001/XMLSchema#dateTime') >>> Literal(1) > Literal(2) # by value False >>> Literal(1) > Literal(2.0) # by value False >>> Literal('1') > Literal(1) # by DT True >>> Literal('1') < Literal('1') # by lexical form False >>> Literal('a', lang='en') > Literal('a', lang='fr') # by lang-tag False >>> Literal(1) > URIRef('foo') # by node-type True
The > < operators will eat this NotImplemented and throw a TypeError (py3k):
>>> Literal(1).__gt__(2.0) NotImplemented
- __abs__()[source]¶
- Return type:
>>> abs(Literal(-1)) rdflib.term.Literal('1', datatype=rdflib.term.URIRef('http://www.w3.org/2001/XMLSchema#integer'))
>>> from rdflib.namespace import XSD >>> abs( Literal("-1", datatype=XSD.integer)) rdflib.term.Literal('1', datatype=rdflib.term.URIRef('http://www.w3.org/2001/XMLSchema#integer'))
>>> abs(Literal("1")) Traceback (most recent call last): File "<stdin>", line 1, in <module> TypeError: Not a number; rdflib.term.Literal('1')
- __abstractmethods__ = frozenset({})¶
- __add__(val)[source]¶
>>> from rdflib.namespace import XSD >>> Literal(1) + 1 rdflib.term.Literal('2', datatype=rdflib.term.URIRef('http://www.w3.org/2001/XMLSchema#integer')) >>> Literal("1") + "1" rdflib.term.Literal('11')
# Handling dateTime/date/time based operations in Literals >>> a = Literal(‘2006-01-01T20:50:00’, datatype=XSD.dateTime) >>> b = Literal(‘P31D’, datatype=XSD.duration) >>> (a + b) rdflib.term.Literal(‘2006-02-01T20:50:00’, datatype=rdflib.term.URIRef(’http://www.w3.org/2001/XMLSchema#dateTime’)) >>> from rdflib.namespace import XSD >>> a = Literal(‘2006-07-01T20:52:00’, datatype=XSD.dateTime) >>> b = Literal(‘P122DT15H58M’, datatype=XSD.duration) >>> (a + b) rdflib.term.Literal(‘2006-11-01T12:50:00’, datatype=rdflib.term.URIRef(’http://www.w3.org/2001/XMLSchema#dateTime’))
- __annotations__ = {'_datatype': 'Optional[URIRef]', '_ill_typed': 'Optional[bool]', '_language': 'Optional[str]', '_value': 'Any'}¶
- __bool__()[source]¶
Is the Literal “True” This is used for if statements, bool(literal), etc.
- Return type:
- __eq__(other)[source]¶
Literals are only equal to other literals.
“Two literals are equal if and only if all of the following hold: * The strings of the two lexical forms compare equal, character by character. * Either both or neither have language tags. * The language tags, if any, compare equal. * Either both or neither have datatype URIs. * The two datatype URIs, if any, compare equal, character by character.” – 6.5.1 Literal Equality (RDF: Concepts and Abstract Syntax)
>>> Literal("1", datatype=URIRef("foo")) == Literal("1", datatype=URIRef("foo")) True >>> Literal("1", datatype=URIRef("foo")) == Literal("1", datatype=URIRef("foo2")) False
>>> Literal("1", datatype=URIRef("foo")) == Literal("2", datatype=URIRef("foo")) False >>> Literal("1", datatype=URIRef("foo")) == "asdf" False >>> from rdflib import XSD >>> Literal('2007-01-01', datatype=XSD.date) == Literal('2007-01-01', datatype=XSD.date) True >>> Literal('2007-01-01', datatype=XSD.date) == date(2007, 1, 1) False >>> Literal("one", lang="en") == Literal("one", lang="en") True >>> Literal("hast", lang='en') == Literal("hast", lang='de') False >>> Literal("1", datatype=XSD.integer) == Literal(1) True >>> Literal("1", datatype=XSD.integer) == Literal("01", datatype=XSD.integer) True
- __gt__(other)[source]¶
This implements ordering for Literals, the other comparison methods delegate here
This tries to implement this: http://www.w3.org/TR/sparql11-query/#modOrderBy
In short, Literals with compatible data-types are ordered in value space, i.e. >>> from rdflib import XSD
>>> Literal(1) > Literal(2) # int/int False >>> Literal(2.0) > Literal(1) # double/int True >>> from decimal import Decimal >>> Literal(Decimal("3.3")) > Literal(2.0) # decimal/double True >>> Literal(Decimal("3.3")) < Literal(4.0) # decimal/double True >>> Literal('b') > Literal('a') # plain lit/plain lit True >>> Literal('b') > Literal('a', datatype=XSD.string) # plain lit/xsd:str True
Incompatible datatype mismatches ordered by DT
>>> Literal(1) > Literal("2") # int>string False
Langtagged literals by lang tag >>> Literal(“a”, lang=”en”) > Literal(“a”, lang=”fr”) False
- __hash__()[source]¶
>>> from rdflib.namespace import XSD >>> a = {Literal('1', datatype=XSD.integer):'one'} :rtype: :sphinx_autodoc_typehints_type:`\:py\:class\:\`int\``
>>> Literal('1', datatype=XSD.double) in a False
“Called for the key object for dictionary operations, and by the built-in function hash(). Should return a 32-bit integer usable as a hash value for dictionary operations. The only required property is that objects which compare equal have the same hash value; it is advised to somehow mix together (e.g., using exclusive or) the hash values for the components of the object that also play a part in comparison of objects.” – 3.4.1 Basic customization (Python)
“Two literals are equal if and only if all of the following hold: * The strings of the two lexical forms compare equal, character by character. * Either both or neither have language tags. * The language tags, if any, compare equal. * Either both or neither have datatype URIs. * The two datatype URIs, if any, compare equal, character by character.” – 6.5.1 Literal Equality (RDF: Concepts and Abstract Syntax)
- __invert__()[source]¶
- Return type:
>>> ~(Literal(-1)) rdflib.term.Literal('0', datatype=rdflib.term.URIRef('http://www.w3.org/2001/XMLSchema#integer'))
>>> from rdflib.namespace import XSD >>> ~( Literal("-1", datatype=XSD.integer)) rdflib.term.Literal('0', datatype=rdflib.term.URIRef('http://www.w3.org/2001/XMLSchema#integer'))
Not working:
>>> ~(Literal("1")) Traceback (most recent call last): File "<stdin>", line 1, in <module> TypeError: Not a number; rdflib.term.Literal('1')
- __le__(other)[source]¶
>>> from rdflib.namespace import XSD >>> Literal('2007-01-01T10:00:00', datatype=XSD.dateTime ... ) <= Literal('2007-01-01T10:00:00', datatype=XSD.dateTime) True
- __module__ = 'rdflib.term'¶
- __neg__()[source]¶
>>> (- Literal(1)) rdflib.term.Literal('-1', datatype=rdflib.term.URIRef('http://www.w3.org/2001/XMLSchema#integer')) >>> (- Literal(10.5)) rdflib.term.Literal('-10.5', datatype=rdflib.term.URIRef('http://www.w3.org/2001/XMLSchema#double')) >>> from rdflib.namespace import XSD :rtype: :sphinx_autodoc_typehints_type:`\:py\:class\:\`\~rdflib.term.Literal\``
>>> (- Literal("1", datatype=XSD.integer)) rdflib.term.Literal('-1', datatype=rdflib.term.URIRef('http://www.w3.org/2001/XMLSchema#integer'))
>>> (- Literal("1")) Traceback (most recent call last): File "<stdin>", line 1, in <module> TypeError: Not a number; rdflib.term.Literal('1') >>>
- __pos__()[source]¶
>>> (+ Literal(1)) rdflib.term.Literal('1', datatype=rdflib.term.URIRef('http://www.w3.org/2001/XMLSchema#integer')) >>> (+ Literal(-1)) rdflib.term.Literal('-1', datatype=rdflib.term.URIRef('http://www.w3.org/2001/XMLSchema#integer')) >>> from rdflib.namespace import XSD :rtype: :sphinx_autodoc_typehints_type:`\:py\:class\:\`\~rdflib.term.Literal\``
>>> (+ Literal("-1", datatype=XSD.integer)) rdflib.term.Literal('-1', datatype=rdflib.term.URIRef('http://www.w3.org/2001/XMLSchema#integer'))
>>> (+ Literal("1")) Traceback (most recent call last): File "<stdin>", line 1, in <module> TypeError: Not a number; rdflib.term.Literal('1')
- __slots__ = ('_language', '_datatype', '_value', '_ill_typed')¶
- __sub__(val)[source]¶
>>> from rdflib.namespace import XSD >>> Literal(2) - 1 rdflib.term.Literal('1', datatype=rdflib.term.URIRef('http://www.w3.org/2001/XMLSchema#integer')) >>> Literal(1.1) - 1.0 rdflib.term.Literal('0.10000000000000009', datatype=rdflib.term.URIRef('http://www.w3.org/2001/XMLSchema#double')) >>> Literal(1.1) - 1 rdflib.term.Literal('0.1', datatype=rdflib.term.URIRef('http://www.w3.org/2001/XMLSchema#decimal')) >>> Literal(1.1, datatype=XSD.float) - Literal(1.0, datatype=XSD.float) rdflib.term.Literal('0.10000000000000009', datatype=rdflib.term.URIRef('http://www.w3.org/2001/XMLSchema#float')) >>> Literal("1.1") - 1.0 Traceback (most recent call last): ... TypeError: Not a number; rdflib.term.Literal('1.1') >>> Literal(1.1, datatype=XSD.integer) - Literal(1.0, datatype=XSD.integer) rdflib.term.Literal('0.10000000000000009', datatype=rdflib.term.URIRef('http://www.w3.org/2001/XMLSchema#integer'))
# Handling dateTime/date/time based operations in Literals >>> a = Literal(‘2006-01-01T20:50:00’, datatype=XSD.dateTime) >>> b = Literal(‘2006-02-01T20:50:00’, datatype=XSD.dateTime) >>> (b - a) rdflib.term.Literal(‘P31D’, datatype=rdflib.term.URIRef(’http://www.w3.org/2001/XMLSchema#duration’)) >>> from rdflib.namespace import XSD >>> a = Literal(‘2006-07-01T20:52:00’, datatype=XSD.dateTime) >>> b = Literal(‘2006-11-01T12:50:00’, datatype=XSD.dateTime) >>> (a - b) rdflib.term.Literal(‘-P122DT15H58M’, datatype=rdflib.term.URIRef(’http://www.w3.org/2001/XMLSchema#duration’)) >>> (b - a) rdflib.term.Literal(‘P122DT15H58M’, datatype=rdflib.term.URIRef(’http://www.w3.org/2001/XMLSchema#duration’))
- eq(other)[source]¶
Compare the value of this literal with something else
Either, with the value of another literal comparisons are then done in literal “value space”, and according to the rules of XSD subtype-substitution/type-promotion
OR, with a python object:
basestring objects can be compared with plain-literals, or those with datatype xsd:string
bool objects with xsd:boolean
a int, long or float with numeric xsd types
isodate date,time,datetime objects with xsd:date,xsd:time or xsd:datetime
Any other operations returns NotImplemented
- property ill_typed: bool | None¶
For recognized datatype IRIs, this value will be True if the literal is ill formed, otherwise it will be False. Literal.value (i.e. the literal value) should always be defined if this property is False, but should not be considered reliable if this property is True.
If the literal’s datatype is None or not in the set of recognized datatype IRIs this value will be None.
- n3(namespace_manager=None)[source]¶
Returns a representation in the N3 format.
Examples:
>>> Literal("foo").n3() '"foo"'
Strings with newlines or triple-quotes:
>>> Literal("foo\nbar").n3() '"""foo\nbar"""' >>> Literal("''\'").n3() '"\'\'\'"' >>> Literal('"""').n3() '"\\"\\"\\""'
Language:
>>> Literal("hello", lang="en").n3() '"hello"@en'
Datatypes:
>>> Literal(1).n3() '"1"^^<http://www.w3.org/2001/XMLSchema#integer>' >>> Literal(1.0).n3() '"1.0"^^<http://www.w3.org/2001/XMLSchema#double>' >>> Literal(True).n3() '"true"^^<http://www.w3.org/2001/XMLSchema#boolean>'
Datatype and language isn’t allowed (datatype takes precedence):
>>> Literal(1, lang="en").n3() '"1"^^<http://www.w3.org/2001/XMLSchema#integer>'
Custom datatype:
>>> footype = URIRef("http://example.org/ns#foo") >>> Literal("1", datatype=footype).n3() '"1"^^<http://example.org/ns#foo>'
Passing a namespace-manager will use it to abbreviate datatype URIs:
>>> from rdflib import Graph >>> Literal(1).n3(Graph().namespace_manager) '"1"^^xsd:integer'
- Parameters:
namespace_manager (
Optional
[NamespaceManager
]) –- Return type:
- normalize()[source]¶
Returns a new literal with a normalised lexical representation of this literal >>> from rdflib import XSD >>> Literal(“01”, datatype=XSD.integer, normalize=False).normalize() rdflib.term.Literal(‘1’, datatype=rdflib.term.URIRef(’http://www.w3.org/2001/XMLSchema#integer’))
Illegal lexical forms for the datatype given are simply passed on >>> Literal(“a”, datatype=XSD.integer, normalize=False) rdflib.term.Literal(‘a’, datatype=rdflib.term.URIRef(’http://www.w3.org/2001/XMLSchema#integer’))
- Return type:
- rdflib.NORMALIZE_LITERALS = True¶
If True - Literals lexical forms are normalized when created. I.e. the lexical forms is parsed according to data-type, then the stored lexical form is the re-serialized value that was parsed.
Illegal values for a datatype are simply kept. The normalized keyword for Literal.__new__ can override this.
For example:
>>> from rdflib import Literal,XSD >>> Literal("01", datatype=XSD.int) rdflib.term.Literal("1", datatype=rdflib.term.URIRef("http://www.w3.org/2001/XMLSchema#integer"))
This flag may be changed at any time, but will only affect literals created after that time, previously created literals will remain (un)normalized.
- class rdflib.Namespace(value: str | bytes)[source]¶
Bases:
str
Utility class for quickly generating URIRefs with a common prefix
>>> from rdflib.namespace import Namespace >>> n = Namespace("http://example.org/") >>> n.Person # as attribute rdflib.term.URIRef('http://example.org/Person') >>> n['first-name'] # as item - for things that are not valid python identifiers rdflib.term.URIRef('http://example.org/first-name') >>> n.Person in n True >>> n2 = Namespace("http://example2.org/") >>> n.Person in n2 False
- __contains__(ref)[source]¶
Allows to check if a URI is within (starts with) this Namespace.
>>> from rdflib import URIRef >>> namespace = Namespace('http://example.org/') >>> uri = URIRef('http://example.org/foo') >>> uri in namespace True >>> person_class = namespace['Person'] >>> person_class in namespace True >>> obj = URIRef('http://not.example.org/bar') >>> obj in namespace False
- __dict__ = mappingproxy({'__module__': 'rdflib.namespace', '__doc__': '\n Utility class for quickly generating URIRefs with a common prefix\n\n >>> from rdflib.namespace import Namespace\n >>> n = Namespace("http://example.org/")\n >>> n.Person # as attribute\n rdflib.term.URIRef(\'http://example.org/Person\')\n >>> n[\'first-name\'] # as item - for things that are not valid python identifiers\n rdflib.term.URIRef(\'http://example.org/first-name\')\n >>> n.Person in n\n True\n >>> n2 = Namespace("http://example2.org/")\n >>> n.Person in n2\n False\n ', '__new__': <staticmethod object>, 'title': <property object>, 'term': <function Namespace.term>, '__getitem__': <function Namespace.__getitem__>, '__getattr__': <function Namespace.__getattr__>, '__repr__': <function Namespace.__repr__>, '__contains__': <function Namespace.__contains__>, '__dict__': <attribute '__dict__' of 'Namespace' objects>, '__weakref__': <attribute '__weakref__' of 'Namespace' objects>, '__annotations__': {}})¶
- __module__ = 'rdflib.namespace'¶
- __weakref__¶
list of weak references to the object (if defined)
- class rdflib.URIRef(value: str, base: str | None = None)[source]¶
Bases:
IdentifiedNode
RDF 1.1’s IRI Section https://www.w3.org/TR/rdf11-concepts/#section-IRIs
Note
Documentation on RDF outside of RDFLib uses the term IRI or URI whereas this class is called URIRef. This is because it was made when the first version of the RDF specification was current, and it used the term URIRef, see RDF 1.0 URIRef
An IRI (Internationalized Resource Identifier) within an RDF graph is a Unicode string that conforms to the syntax defined in RFC 3987.
IRIs in the RDF abstract syntax MUST be absolute, and MAY contain a fragment identifier.
IRIs are a generalization of URIs [RFC3986] that permits a wider range of Unicode characters.
- __abstractmethods__ = frozenset({})¶
- __annotations__ = {'__invert__': 'Callable[[URIRef], InvPath]', '__neg__': 'Callable[[URIRef], NegatedPath]', '__or__': 'Callable[[URIRef, Union[URIRef, Path]], AlternativePath]', '__truediv__': 'Callable[[URIRef, Union[URIRef, Path]], SequencePath]'}¶
- __module__ = 'rdflib.term'¶
- __mul__(mul)¶
cardinality path
- __neg__()¶
negated path
- Parameters:
p (
Union
[URIRef
,AlternativePath
,InvPath
]) –- Return type:
- __or__(other)¶
alternative path
- __slots__ = ()¶
- __truediv__(other)¶
sequence path
- de_skolemize()[source]¶
Create a Blank Node from a skolem URI, in accordance with http://www.w3.org/TR/rdf11-concepts/#section-skolemization. This function accepts only rdflib type skolemization, to provide a round-tripping within the system. :rtype:
BNode
New in version 4.0.
- property fragment: str¶
Return the URL Fragment
>>> URIRef("http://example.com/some/path/#some-fragment").fragment 'some-fragment' >>> URIRef("http://example.com/some/path/").fragment ''
- n3(namespace_manager=None)[source]¶
This will do a limited check for valid URIs, essentially just making sure that the string includes no illegal characters (
<, >, ", {, }, |, \, `, ^
)- Parameters:
namespace_manager (
Optional
[NamespaceManager
]) – if not None, will be used to make up a prefixed name- Return type:
- class rdflib.Variable(value: str)[source]¶
Bases:
Identifier
A Variable - this is used for querying, or in Formula aware graphs, where Variables can be stored
- __abstractmethods__ = frozenset({})¶
- __annotations__ = {}¶
- __module__ = 'rdflib.term'¶
- __slots__ = ()¶
- n3(namespace_manager=None)[source]¶
- Parameters:
namespace_manager (
Optional
[NamespaceManager
]) –- Return type: