# --------------------------------------------------------------------------- # pyCGNS - Python package for CFD General Notation System - # See license.txt file in the root directory of this Python module source # --------------------------------------------------------------------------- # import CGNS.PAT.cgnslib as C import CGNS.PAT.cgnserrors as E import CGNS.PAT.cgnskeywords as K import numpy as N # data = C.newFlowEquationSet(None) # status = '10.1' comment = 'Full SIDS with all optionals' pattern = [data, status, comment] #
# See license.txt file in the root directory of this Python module source # ------------------------------------------------------------------------- # import CGNS.PAT.cgnslib as CGL import CGNS.PAT.cgnsutils as CGU import CGNS.PAT.cgnskeywords as CGK import numpy as NPY TESTS = [] # ------------------------------------------------------------------------- tag = 'flow equation set' diag = True T = CGL.newCGNSTree() b = CGL.newBase(T, '{Base#001}', 3, 3) f = CGL.newFlowEquationSet(b) TESTS.append((tag, T, diag)) # ------------------------------------------------------------------------- tag = 'governing equations' diag = True T = CGL.newCGNSTree() b = CGL.newBase(T, '{Base#001}', 3, 3) f = CGL.newFlowEquationSet(b) g = CGL.newGoverningEquations(f) TESTS.append((tag, T, diag)) # ------------------------------------------------------------------------- tag = 'diffusion model' diag = True T = CGL.newCGNSTree()
import CGNS.PAT.cgnslib as C import CGNS.PAT.cgnserrors as E import CGNS.PAT.cgnskeywords as K import numpy as N data = C.newZone(None, '{Zone}', N.array([[5, 4, 0], [7, 7, 0], [9, 8, 0]], order='F')) g1 = C.newGridCoordinates(data, "GridCoordinates") C.newRigidGridMotion(data, "{RigidGridMotion}") C.newArbitraryGridMotion(data, "{ArbitraryGridMotion}") C.newFlowSolution(data, "{FlowSolution}") C.newDiscreteData(data, "{DiscreteData}") C.newIntegralData(data, "{IntegralData}") C.newZoneGridConnectivity(data, "{GridConnectivity}") C.newBoundary(data, "{BC}", N.array([[0, 0, 0], [0, 0, 0]])) C.newZoneIterativeData(data, "{ZoneIterativeData}") C.newReferenceState(data) C.newRotatingCoordinates(data) C.newDataClass(data) C.newDimensionalUnits(data) C.newFlowEquationSet(data) C.newConvergenceHistory(data, K.ZoneConvergenceHistory_s) C.newUserDefinedData(data, '{UserDefinedData}') C.newDescriptor(data, '{Descriptor}') C.newOrdinal(data) status = '6.3' comment = 'Full SIDS with all optionals' pattern = [data, status, comment]