def __init__(self): # Need Metadata subclass for default keys self.metadata = nuclearFileMetadata._Metadata() # 4D data self.xmesh = None self.ymesh = None self.zmesh = None self.iintervals = None self.jintervals = None self.kintervals = None # 5D data self.regionVolumes = None self.bucklings = None self.boundaryConstants = None self.internalBlackBoundaryConstants = None self.zonesWithBlackAbs = None self.zoneClassifications = None self.regionZoneNumber = None # 6d self.coarseMeshRegions = None # 7d self.fineMeshRegions = None
def __init__(self): # Need Metadata subclass for default keys self.metadata = nuclearFileMetadata._Metadata() self.regionLabels = [] self.zoneLabels = [] self.areaLabels = [] self.regionAreaAssignments = [] self.halfHeightsDirection1 = [] self.halfHeightsDirection2 = [] self.extrapolationDistance1 = [] self.extrapolationDistance2 = [] self.nuclideSetLabels = [] self.aliasZoneLabels = []
def __init__(self): cccc.DataContainer.__init__(self) self.intControls = nuclearFileMetadata._Metadata() self.peakPowerDensity = np.array([])
def __init__(self): # Need Metadata subclass for default keys self.metadata = nuclearFileMetadata._Metadata() self.groupFluxes: numpy.ndarray = numpy.array([]) """Maps i,j,k,g indices to total real or adjoint flux in n/cm^2-s"""
def __init__(self): # Need Metadata subclass for default keys self.metadata = nuclearFileMetadata._Metadata() # 2D data self.groupFluxes = None
def __init__(self): cccc.DataContainer.__init__(self) self.intControls = nuclearFileMetadata._Metadata() self.keffData = nuclearFileMetadata._Metadata()
def __init__(self): self.metadata = nuclearFileMetadata._Metadata() self.powerDensity = numpy.array([])