def __init__(self, name="quadratureapp"): """ Constructor. """ Script.__init__(self, name) # Mesh information self.spaceDim = None self.cellDim = None self.numVertices = None self.numCells = None self.vertices = None self.cells = None # Reference cell information self.numBasis = None self.numQuadPts = None self.verticesRef = None self.quadPtsRef = None self.quadWts = None self.basis = None self.basisDerivRef = None self.basisDeriv = None # Computed quadrature information self.quadPts = None self.jacobian = None self.jacobianDet = None self.jacobianInv = None return
def __init__(self, name="slip_invert"): Application.__init__(self, name) self.dataCoords = None self.dataVals = None self.dataCov = None self.dataNames = [] self.numDataPoints = 0 self.numDesignRows = 0 self.numFaultVerts = 0 self.numFaultCells = 0 self.faultVertCoords = None self.faultCells = None self.numImpulses = 0 self.impulseInds = None self.impulseCoords = None self.summaryHead = 'Penalty-weight\tData-residual\t' + \ 'Weighted-data-residual\tPenalty-residual\t' + \ 'Weighted-penalty-residual\tTotal-residual\t' + \ 'Total-weighted-residual' self.numSummaryCols = 7 self.design = None return
def __init__(self, name="simpledbqueryapp"): """ Constructor. """ Script.__init__(self, name) # Database information self.numLocs = None self.spaceDim = None self.numVals = None self.dataDim = None self.dbCoords = None self.dbData = None self.names = None self.units = None # Query information self.numPts = None self.coords = None self.dist2 = None self.area = None self.areaDir = None self.volume = None return
def __init__(self, name=None): Script.__init__(self, name) DynamicComponentHarness.__init__(self) self.client = '' return
def __init__(self, name=None): Script.__init__(self, name) DynamicComponentHarness.__init__(self) self.client = "" return
def __init__(self, name="unittestapp", petsc_options=[("malloc_dump", "true")]): """ Constructor. """ Script.__init__(self, name) self.petscOptions = petsc_options return
def __init__(self, name=None): if name is None: name = 'sample' Script.__init__(self, name) ComponentHarness.__init__(self) return
def __init__(self): Script.__init__(self, 'derunapp') self.scale = '' self.probability = '' self.mod = '' self.strategy = '' self.solution = None return
def __init__(self, name="transform"): Application.__init__(self, name) self.numPoints = 0 self.numSegs = 0 self.segInfo = None self.pointsUTM = [] self.normals = [] return
def __init__(self, name, asCGI=None): Script.__init__(self, name) self.stream = None if asCGI is None: asCGI = True self.asCGIScript(asCGI) return
def __init__(self, name): Script.__init__(self, name) self.stream = None self.content = "html" # debugging mode self.debug = False return
def __init__(self, name="euler"): Application.__init__(self, name) self.numPoints = 0 self.pointsUTM = [] self.normals = [] self.eulerPole = numpy.array([0.0, 0.0, 0.0], dtype=numpy.float64) # Note that we use a mean radius since we are doing rotations on a # spherical Earth. self.earthRad = 6372795.477598 return
def __init__(self): Script.__init__(self, "fmc") self.out = None self.thermo = "" self.mechanism = "" self.read = "" self.write = "" self.pickler = None return
def __init__(self, name): Script.__init__(self, name) self._connection = None self._marshaller = None import journal journal.info("pyre.ipc.connection").activate() return
def __init__(self, name="generate_slowslip"): Application.__init__(self, name) self.lon = None self.lat = None self.z = None self.grid = None self.faultSlip = None return
def __init__(self, name="make_synthetic_gpsdisp"): Application.__init__(self, name) self.coords = None self.stations = None self.dispRaw = None self.dispNoise = None self.numStations = 0 return
def __init__(self, name="memoryusage"): """ Constructor. """ Application.__init__(self, name) self.memory = {'mesh': 0, 'stratification': 0, 'groups': 0} self.mesh = None self.groups = None self.materials = None return
def __init__(self, name="fill_contours"): Application.__init__(self, name) self.numContours = 0 self.contourValues = [] self.numPointsPerContour = [] self.contoursIn = [] self.contoursOut = [] self.spaceDim = 3 self.minYValue = 0.0 self.maxYValue = 0.0 return
def __init__(self, name="gfgen"): Application.__init__(self, name) self.numFaultVertices = 0 self.numFaultCells = 0 self.spaceDim = 0 self.cellType = "" self.faultVertices = None self.normalDir = None self.strikeDir = None self.dipDir = None return
def __init__(self, name="vtkdiff"): Application.__init__(self, name) self.vtkInputList = [] self.numVtkInputFiles = 0 self.vtkInputTimes = [] self.timeStampWidth = 0 self.numVertsPerCell = 0 self.numCells = 0 self.numVerts = 0 self.spaceDim = 0 self.cellType = None self.readMesh = False return
def __init__(self, name="dem2lines"): Application.__init__(self, name) self.numXIn = 0 self.numYIn = 0 self.numZIn = 0 self.numXOut = 0 self.numYOut = 0 self.numZOut = 0 self.xIn = None self.yIn = None self.zIn = None self.xOut = None self.yOut = None self.zOut = None return
def __init__(self, name="faultinfo"): Application.__init__(self, name) self.numVertsPerCell = 0 self.numCells = 0 self.cellsArray = numpy.array([0]) self.verticesArray = numpy.array([0]) self.normalVec = numpy.array([0]) self.strikeVec = numpy.array([0]) self.dipVec = numpy.array([0]) self.stressVec = numpy.array([0]) self.slipVec = numpy.array([0]) self.numVerts = 0 self.spaceDim = 0 self.cellType = "" self.readMesh = False return
def __init__(self, name="vtkcff"): Application.__init__(self, name) self.vtkInputList = [] self.numVtkInputFiles = 0 self.vtkInputTimes = [] self.timeStampWidth = 0 self.refFileIndex = 0 self.numVertsPerCell = 0 self.numCells = 0 self.cellsArray = numpy.array([0]) self.verticesArray = numpy.array([0]) self.numVerts = 0 self.spaceDim = 0 self.cellType = "" self.readMesh = False self.numStressPoints = 0 return
def __init__(self, name="princaxes"): Application.__init__(self, name) self.cells = None self.vertArray = None self.spaceDim = 0 self.cellType = "" self.numTensorPoints = 0 self.tensorSorted = None self.minPrincAxis = None self.intPrincAxis = None self.maxPrincAxis = None self.minEigenvalue = None self.intEigenvalue = None self.maxEigenvalue = None self.regionalField = numpy.zeros((3, 3), dtype=numpy.float64) return
def __init__(self, name="stressinfo"): Application.__init__(self, name) self.alphaYield = 0.0 self.beta = 0.0 self.cells = None self.vertArray = None self.spaceDim = 0 self.cellType = "" self.numTensorPoints = 0 self.tensorSorted = None self.pressure = None self.devInvariant2 = None self.dpPlasPresTerm = None self.dpPlasStressTerm = None self.dpPlasYieldFunc = None return
def __init__(self, name="elasticmaterialapp"): """ Constructor. """ Script.__init__(self, name) # Material information self.dimension = 0 self.numLocs = 0 self.numProperties = 0 self.numStateVars = 0 self.numDBProperties = 0 self.numDBStateVars = 0 self.numPropsQuadPt = 0 self.numVarsQuadPt = 0 self.numPropertyValues = None self.numStateVarValues = None self.dbPropertyValues = None self.dbStateVarValues = None self.dbProperties = None self.dbStateVars = None self.properties = None self.stateVars = None self.propertiesNondim = None self.stateVarsNondim = None self.lengthScale = 0 self.timeScale = 0 self.pressureScale = 0 self.densityScale = 0 # Elastic material information self.dtStableImplicit = 1.0e+99 self.dtStableExplicit = 1.0e+99 self.density = None self.strain = None self.stress = None self.elasticConsts = None self.initialStress = None self.initialStrain = None self.stateVarsUpdated = None return
def __init__(self, name="integratorapp"): """ Constructor. """ Script.__init__(self, name) # Mesh information self.spaceDim = None self.cellDim = None self.gravityVec = None self.numVertices = None self.numCells = None self.vertices = None self.cells = None self.verticesRef = None # This quadrature information is set by quadrature.calculateBasis() self.numBasis = None self.numQuadPts = None self.quadPts = None self.quadWts = None self.basis = None self.basisDerivRef = None # Material information self.matType = None self.matDBFilename = None self.matId = None self.matLabel = None # Input fields self.dt = None self.fieldTIncr = None self.fieldT = None self.fieldTmdt = None # Calculated values self.valsResidual = None self.valsJacobian = None return
def __init__(self, name="simpledbapp"): """ Constructor. """ Script.__init__(self, name) # Database information self.numLocs = None self.spaceDim = None self.numVals = None self.dataDim = None self.dbData = None self.dbCords = None self.names = None self.units = None # Query information self.numQueries = None self.queryNearest = None self.queryLinear = None self.errFlags = None return
def __init__(self, name): Script.__init__(self, name) self.launcher = None return
def __init__(self): Script.__init__(self, 'testsolverapp') self.mod = '' self.solution = None return
def __init__(self): Script.__init__(self, 'file') self.output = '' return
def __init__(self, name): Script.__init__(self, name) Daemon.__init__(self) return
def __init__(self): Script.__init__(self, "geometry") self.format = "" self.modeller = None return
def __init__(self, name="testapp"): """ Constructor. """ Script.__init__(self, name) return
def __init__(self, name="savpres_ss"): Application.__init__(self, name) return
def __init__(self, name="grabfaces"): Application.__init__(self, name) return
def __init__(self, name="eqinfoapp"): """ Constructor. """ Application.__init__(self, name) return
def __init__(self): Script.__init__(self, 'greet') self.friend = '' return
def __init__(self): Script.__init__(self, 'HelloApp') return