# ---------------------------------------------------------------------------
#
from __future__ import unicode_literals
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'
# ---------------------------------------------------------------------------
# pyCGNS - Python package for CFD General Notation System -
# See license.txt file in the root directory of this Python module source
# ---------------------------------------------------------------------------
#
from __future__ import unicode_literals
import CGNS.PAT.cgnslib as C
import CGNS.PAT.cgnserrors as E
import CGNS.PAT.cgnskeywords as K
import numpy as N
#
data = C.newDiscreteData(None, '{DiscreteData}')
C.newRind(data, N.array([0, 0, 0, 0, 1, 1]))
C.newGridLocation(data)
C.newDataClass(data)
C.newDimensionalUnits(data)
C.newUserDefinedData(data, '{UserDefinedData}')
C.newDescriptor(data, '{Descriptor}')
#
status = '12.4'
comment = 'Full SIDS with all optionals'
pattern = [data, status, comment]
#
d = CGL.newDataClass(a, CGK.NondimensionalParameter_s)
n = CGL.newZoneBC(z)
d = CGL.newDataClass(n, CGK.NondimensionalParameter_s)
q = CGL.newBC(n, '{BC}', family='{Family}')
d = CGL.newDataClass(q, CGK.NondimensionalParameter_s)
s = CGL.newBCDataSet(q, '{Set#01}')
d = CGL.newDataClass(s, CGK.NondimensionalParameter_s)
c = CGL.newBCData(s, CGK.Dirichlet_s)
d = CGL.newDataClass(c, CGK.NondimensionalParameter_s)
r = CGL.newReferenceState(b)
d = CGL.newDataClass(r, CGK.NondimensionalParameter_s)
a = CGL.newAxisymmetry(b)
d = CGL.newDataClass(a, CGK.NondimensionalParameter_s)
a = CGL.newRotatingCoordinates(b)
d = CGL.newDataClass(a, CGK.NondimensionalParameter_s)
a = CGL.newDiscreteData(z, '{DiscreteData}')
d = CGL.newDataClass(a, CGK.NondimensionalParameter_s)
i = CGL.newBaseIterativeData(b, '{BaseIterativeData}')
d = CGL.newDataClass(i, CGK.NondimensionalParameter_s)
i = CGL.newZoneIterativeData(z, '{ZoneIterativeData}')
d = CGL.newDataClass(i, CGK.NondimensionalParameter_s)
m = CGL.newRigidGridMotion(z,
'{RigidGridMotion}',
vector=NPY.array([[0.0, 0.0], [0.0, 0.0],
[0.0, 0.0]]))
d = CGL.newDataClass(m, CGK.NondimensionalParameter_s)
m = CGL.newArbitraryGridMotion(z, '{ArbitraryGridMotion}')
d = CGL.newDataClass(m, CGK.NondimensionalParameter_s)
x = CGL.newZoneGridConnectivity(z)
x = CGL.newGridConnectivity(x, '{GridConnectivity}', z[0])
CGL.newPointRange(x,