def __init__(self, name, regions, calculationTimes, gravity, density, viscosity, boundaryConditions, initialConditions=None, zoneConditions=None, source=None, outputs=None, defaultBoundaryCondition=None, defaultInitialCondition=None): """Problem initialisation with : - a name (string) - one or several regions (object Region or list of Region) - one or several boundary conditions (object BoundaryCondition or list of BoundaryCondition) - a gravity (object Gravity) - a density (object Density) - a viscosity (object Viscosity) - OPTIONAL : --> one or several zone conditions (object ZoneCondition or list of ZoneCondition) --> one or several sources (object Source or list of Source) --> one or several outputs (object ExpectedOutput or list of ExpectedOutput) --> a tuple to define default boundary condition. It will be used if boundaryConditions defined in the problem don't cover entire boundaries. First element of tuple contains a string which represent default boundary condition type ('Dirichlet' or 'Neumann' For example) Second Element represent a PhysicalQuantity with default Boundary Condition Value Head(0.) or HeadGradient(0.) for example --> a PhysiqualQuantity to define value of default initial condition """ # regions treatment regions = toList(regions) from datamodel import Permeability, IntrinsicPermeability from datamodel import MatrixCompressibilityFactor, Porosity, LiquidResidualSaturation verifySomeOfPhysicalQuantitiesExists( [Permeability, IntrinsicPermeability], regions, option='exclusive') verifyPhysicalQuantityExists( [MatrixCompressibilityFactor, Porosity, LiquidResidualSaturation], regions) HydraulicProblem.__init__(self, 'unsaturated', name, regions, boundaryConditions, calculationTimes, gravity, density, viscosity, initialConditions, zoneConditions, source, outputs, defaultBoundaryCondition, defaultInitialCondition) # Consistance problem verification if self.density == None: raise Exception, " you have to define a density before launching the problem " return
def __init__(self, name, regions,calculationTimes, gravity, density, viscosity, boundaryConditions, initialConditions = None, zoneConditions = None, source=None, outputs=None, defaultBoundaryCondition=None, defaultInitialCondition=None): """Problem initialisation with : - a name (string) - one or several regions (object Region or list of Region) - one or several boundary conditions (object BoundaryCondition or list of BoundaryCondition) - a gravity (object Gravity) - a density (object Density) - a viscosity (object Viscosity) - OPTIONAL : --> one or several zone conditions (object ZoneCondition or list of ZoneCondition) --> one or several sources (object Source or list of Source) --> one or several outputs (object ExpectedOutput or list of ExpectedOutput) --> a tuple to define default boundary condition. It will be used if boundaryConditions defined in the problem don't cover entire boundaries. First element of tuple contains a string which represent default boundary condition type ('Dirichlet' or 'Neumann' For example) Second Element represent a PhysicalQuantity with default Boundary Condition Value Head(0.) or HeadGradient(0.) for example --> a PhysiqualQuantity to define value of default initial condition """ # regions treatment regions = toList(regions) from datamodel import Permeability, IntrinsicPermeability from datamodel import MatrixCompressibilityFactor,Porosity,LiquidResidualSaturation verifySomeOfPhysicalQuantitiesExists([Permeability, IntrinsicPermeability], regions,option='exclusive') verifyPhysicalQuantityExists([MatrixCompressibilityFactor,Porosity,LiquidResidualSaturation], regions) HydraulicProblem.__init__(self,'unsaturated',name, regions,boundaryConditions,calculationTimes, gravity,density,viscosity, initialConditions,zoneConditions, source,outputs,defaultBoundaryCondition,defaultInitialCondition) # Consistance problem verification if self.density == None: raise Exception, " you have to define a density before launching the problem " return
def __init__(self, name, regions, boundaryConditions, initialConditions = None,\ temperature = None,\ simulationType = None,\ calculationTimes = None,\ gravity = None, density = None, source = None, intrinsicPermeability = None,\ viscosity = None, outputs = None): """Problem initialisation with : - a name (string) - one or several regions (object Region or list of Region) - one or several boundary conditions (object BoundaryCondition or list of BoundaryCondition) - OPTIONAL : --> one or several zone conditions (object ZoneCondition or list of ZoneCondition) --> one or several sources (object Source or list of Source) --> a gravity (object Gravity) --> a density (object Density) --> a viscosity (object Viscosity) --> one or several outputs (object ExpectedOutput or list of ExpectedOutput) """ # regions treatment regions = toList(regions) verifySomeOfPhysicalQuantitiesExists( [Permeability, IntrinsicPermeability], regions, option="inclusive") HydraulicProblem.__init__(self, name = name,\ saturation = "saturated",\ regions = regions, boundaryConditions = boundaryConditions,\ initialConditions = initialConditions,\ temperature = temperature,\ simulationType = simulationType,\ calculationTimes = calculationTimes,\ gravity = gravity,\ density = density,\ intrinsicPermeability =intrinsicPermeability,\ viscosity = viscosity,\ source = source,\ outputs = outputs)