Source code for kappa_sdk.measure_enum
from enum import Enum
[docs]
class MeasureEnum(Enum):
"""
Measure enumeration.
An enumeration of the measures that are supported by the :class:'Plot'.
"""
time = "Time"
large_time = "LargeTime"
pressure = "Pressure"
pressure_difference = "DeltaPressure"
total_rate_downhole = "TotalRateDownhole"
gas_rate_downhole = "GasRateDownhole"
liquid_rate_downhole = "LiquidRateDownhole"
inverse_rate_downhole = "InverseRateDownhole"
inverse_rate_surface = "InverseRateSurface"
total_rate = "TotalRateSurface"
liquid_rate = "LiquidRateSurface"
gas_rate = "GasRateSurface"
no_unit = "NoUnit"
length = "Length"
large_distance = "LargeDistance"
compressibility = "Compressibility"
viscosity = "Viscosity"
permeability = "Permeability"
perm_thickness_product = "PermeabilityThicknessProduct"
storage = "Storage"
temperature = "Temperature"
temperature_difference = "DeltaTemperature"
logical = "Logical"
file_size = "FileSize"
volume_downhole = "VolumeDownhole"
gas_volume_downhole = "GasVolumeDownhole"
liquid_volume_downhole = "LiquidVolumeDownhole"
volume = "VolumeSurface"
gas_volume = "GasVolumeSurface"
liquid_volume = "LiquidVolumeSurface"
large_gas_volume = "LargeGasVolumeSurface"
large_gas_volume_downhole = "LargeGasVolumeDownhole"
large_liquid_volume = "LargeLiquidVolumeSurface"
large_liquid_volume_downhole = "LargeLiquidVolumeDownhole"
large_volume = "LargeVolumeSurface"
large_volume_downhole = "LargeVolumeDownhole"
ratio = "PercentOrFraction"
gas_liquid_ratio = "GasLiquidRatio"
gas_liquid_ratio_2 = "GasLiquidRatio2"
internal_diameter = "InternalDiameter"
liquid_gas_ratio = "LiquidGasRatio"
depth = "Depth"
area = "Area"
angle = "Angle"
liquid_gravity = "LiquidGravity"
heat_capacity = "HeatCapacity"
thermal_conductivity = "ThermalConductivity"
density = "Density"
reservoir_to_s_c_liquid_volume_ratio = "ReservoirToScLiquid"
reservoir_to_s_c_gas_volume_ratio = "ReservoirToScGas"
salinity = "Salinity"
capture_cross_section = "CaptureCrossSection"
specific_enthalpy = "SpecificEnthalpy"
noise = "Noise"
mobility = "Mobility"
voltage = "Voltage"
resistivity = "Resistivity"
current = "Current"
resistance = "Resistance"
frequency = "Frequency"
mass_rate = "MassRate"
gas_mass_rate = "MassRateGas"
liquid_mass_rate = "MassRateLiquid"
power = "Power"
capacitance = "Capacitance"
velocity = "Velocity"
critical_volume = "CriticalVolume"
temperature_gradient = "TemperatureGradient"
gamma_ray = "GammaRay"
gas_potential = "GasPotential"
heat_transfer_coefficient = "HeatTransfertCoef"
permeability_hydro = "PermeabilityHydro"
transmissivity_hydro = "TransmissivityHydro"
transmissibility = "Transmissibility"
productivity_index = "ProductivityIndex"
roughness = "Roughness"
spinner = "Spinner"
margins = "Margins"
mass = "Mass"
force = "Force"
interfacial_tension = "InterfacialTension"
gas_productivity_index = "GasProductivityIndex"
inverse_gas_productivity_index = "InverseGasProductivityIndex"
liquid_productivity_index = "LiquidProductivityIndex"
inverse_liquid_productivity_index = "InverseLiquidProductivityIndex"
inverse_time = "InverseTime"
square_root_of_time = "SquareRootTime"
inverse_pressure = "InversePressure"
inverse_length = "InverseLength"
pressure_gradient = "PressureGradient"
motor_speed = "MotorSpeed"
molar_weight = "MolarWeight"
longitude = "Longitude"
latitude = "Latitude"
pressure_time = "Pressure/Time"
pressure_area = "Pressure/Area"
angle_time = "Angle/Time"
pressure_depth = "Pressure/Depth"
angle_time__2 = "Angle/Time²"
density_time = "Density/Time"
pressure_current = "Pressure/Current"
pressure_density = "Pressure/Density"
angle_depth = "Angle/Depth"
pressure_time__2 = "Pressure/Time²"
pressure_time__3 = "Pressure/Time³"
pressure__2_temperature__4 = "Pressure².Temperature**4"
_pressure__4_temperature__8_time = "[Pressure**4.Temperature**8]/Time"
pressure__3_temperature__5 = "Pressure³.Temperature**5"
pressure_temperature = "Pressure.Temperature"
@classmethod
def has_value(cls, value: str) -> bool:
return value in cls._value2member_map_
