# -*- coding: utf-8 -*-
-# Copyright (C) 2007-2015 CEA/DEN, EDF R&D
+# Copyright (C) 2007-2016 CEA/DEN, EDF R&D
#
# This library is free software; you can redistribute it and/or
# modify it under the terms of the GNU Lesser General Public
from datetime import datetime
from MEDCouplingDataForTest import MEDCouplingDataForTest
import rlcompleter,readline # this line has to be here, to ensure a usability of MEDCoupling/MEDLoader. B4 removing it please notify to anthony.geay@cea.fr
+from sys import platform
+
+def checkFreeMemory(size):
+ """
+ Get node total memory and memory usage
+ """
+ ret = True
+ dic = {}
+ if platform not in ["win32"]:
+ with open('/proc/meminfo', 'r') as mem:
+ tmp = 0
+ for i in mem:
+ sline = i.split()
+ if str(sline[0]) == 'MemTotal:':
+ dic['total'] = int(sline[1])
+ elif str(sline[0]) in ('MemFree:', 'Buffers:', 'Cached:'):
+ tmp += int(sline[1])
+ dic['free'] = tmp
+ dic['used'] = int(dic['total']) - int(dic['free'])
+ ret = dic['free'] > size
+ #TODO: extend this method for Windows OS
+ return ret
+
class MEDCouplingBasicsTest4(unittest.TestCase):
def testSwigDADOp4(self):
mesh2D.finishInsertingCells();
myCoords=DataArrayDouble.New(mesh2DCoords,9,3);
mesh2D.setCoords(myCoords);
- mesh2D.checkCoherency();
+ mesh2D.checkConsistencyLight();
#
mesh3DCoords=[-0.3,-0.3,0., -0.3,0.2,0., 0.2,0.2,0., 0.2,-0.3,0., -0.3,-0.3,1., -0.3,0.2,1., 0.2,0.2,1., 0.2,-0.3,1. ]
mesh3DConn=[0,1,2,3,4,5,6,7]
mesh3D.finishInsertingCells();
myCoords3D=DataArrayDouble.New(mesh3DCoords,8,3);
mesh3D.setCoords(myCoords3D);
- mesh3D.checkCoherency();
+ mesh3D.checkConsistencyLight();
#
- mesh3D_2=mesh3D.deepCpy();
- mesh2D_2=mesh2D.deepCpy();
- mesh3D_4=mesh3D.deepCpy();
- mesh2D_4=mesh2D.deepCpy();
+ mesh3D_2=mesh3D.deepCopy();
+ mesh2D_2=mesh2D.deepCopy();
+ mesh3D_4=mesh3D.deepCopy();
+ mesh2D_4=mesh2D.deepCopy();
oldNbOf3DNodes=mesh3D.getNumberOfNodes();
renumNodes=DataArrayInt.New();
renumNodes.alloc(mesh2D.getNumberOfNodes(),1);
coo=DataArrayDouble.Aggregate(mesh3D.getCoords(),mesh2D.getCoords());
mesh3D.setCoords(coo);
mesh2D.setCoords(coo);
- mesh2DCpy=mesh2D.deepCpy()
- mesh2D_3=mesh2D.deepCpy();
+ mesh2DCpy=mesh2D.deepCopy()
+ mesh2D_3=mesh2D.deepCopy();
mesh2D_3.shiftNodeNumbersInConn(oldNbOf3DNodes);
mesh2D.renumberNodesInConn(renumNodes);
mesh2DCpy.renumberNodesInConn(renumNodes.getValues());
self.assertEqual(8+i,da2.getIJ(i,0));
pass
#
- mesh2D_5=mesh2D_4.deepCpy();
+ mesh2D_5=mesh2D_4.deepCopy();
mesh2D_5.translate([1.,0.,0.]);
meshes=[mesh3D_4,mesh2D_4,mesh2D_5];
MEDCouplingUMesh.PutUMeshesOnSameAggregatedCoords(meshes);
self.assertTrue(mesh3D_4.getCoords().getHiddenCppPointer()==mesh2D_4.getCoords().getHiddenCppPointer());
self.assertTrue(mesh2D_4.getCoords().getHiddenCppPointer()==mesh2D_5.getCoords().getHiddenCppPointer());
- mesh3D_4.checkCoherency(); mesh2D_4.checkCoherency(); mesh2D_5.checkCoherency();
+ mesh3D_4.checkConsistencyLight(); mesh2D_4.checkConsistencyLight(); mesh2D_5.checkConsistencyLight();
self.assertEqual(26,mesh3D_4.getNumberOfNodes());
self.assertEqual(3,mesh3D_4.getSpaceDimension());
self.assertEqual(9,mesh3D_4.getNodalConnectivity().getNumberOfTuples());
pass
#
MEDCouplingUMesh.MergeNodesOnUMeshesSharingSameCoords(meshes,1e-12);
- mesh3D_4.checkCoherency(); mesh2D_4.checkCoherency(); mesh2D_5.checkCoherency();
+ mesh3D_4.checkConsistencyLight(); mesh2D_4.checkConsistencyLight(); mesh2D_5.checkConsistencyLight();
self.assertTrue(mesh3D_4.getCoords().getHiddenCppPointer()==mesh2D_4.getCoords().getHiddenCppPointer());
self.assertTrue(mesh2D_4.getCoords().getHiddenCppPointer()==mesh2D_5.getCoords().getHiddenCppPointer());
self.assertEqual(19,mesh3D_4.getNumberOfNodes());
mesh2D.finishInsertingCells();
myCoords=DataArrayDouble.New(mesh2DCoords,5,2);
mesh2D.setCoords(myCoords);
- mesh2D.checkCoherency();
+ mesh2D.checkConsistencyLight();
#
v=mesh2D.checkButterflyCells();
self.assertTrue(v.empty());
def testSwigDADISub1(self):
mesh3D,mesh2D=MEDCouplingDataForTest.build3DExtrudedUMesh_1();
- bary=mesh3D.getBarycenterAndOwner()
+ bary=mesh3D.computeCellCenterOfMass()
bary=bary[:,:2]
pts=bary.getDifferentValues(1e-12)
expected=[[0,6,12],[1,7,13],[2,8,14],[3,9,15],[4,10,16],[5,11,17]]
bary2=bary[:,:2]
bary2[:]-=pt
norm=bary2.magnitude()
- self.assertEqual(expected[pos],norm.getIdsInRange(-1.,1e-5).getValues())
+ self.assertEqual(expected[pos],norm.findIdsInRange(-1.,1e-5).getValues())
pass
expected2=[[3.,54.],[-141.,180.],[21.,54.],[39.,72.],[-15.,90.],[21.,90.]]
for pos,pt in enumerate(pts):
m.finishInsertingCells();
coordsDa=DataArrayDouble.New(coords,331,2);
m.setCoords(coordsDa);
- m.checkCoherency();
+ m.checkConsistencyLight();
#
da=m.convexEnvelop2D();
- m.checkCoherency()
+ m.checkConsistencyLight()
self.assertEqual(coordsDa.getHiddenCppPointer(),m.getCoords().getHiddenCppPointer())
daC=da.buildComplement(m.getNumberOfCells());
expected2=DataArrayInt.New([271,272,273,274,275,276,277,278,279,280,281,282,283,284,285,286,287,288,289,290,291,292,293,294,295,296,297,298,299,300,302,303,304,305,306,307,308,309,310,312,313,314,315,316,317,318,319,320,321,322,323,324,325,326,327,328,329,330]);
ref=271*[184.69493088478035]+3*[-61.564976961404426,-92.34746544254946,-92.34746544259811,-92.34746544253488,-92.3474654425349,-92.34746544180479,-92.34746544253493,-92.3474654419026,-92.34746544190256,-92.34746544253491]+2*[61.564976961404426,-92.34746544254946,-92.34746544259811,-92.34746544253488,-92.3474654425349,-92.34746544180479,-92.34746544253493,-92.3474654419026,-92.34746544190256,-92.34746544253491]+[-61.564976961404426,-92.34746544254946,-92.34746544259811,-92.34746544253488,-92.3474654425349,-92.34746544180479,-92.34746544253493,-92.3474654419026,-92.34746544190256,-92.34746544253491]
vals-=DataArrayDouble.New(ref)
vals.abs()
- theTest=vals.getIdsInRange(-1.,1e-7)
- self.assertTrue(theTest.isIdentity())
- self.assertEqual(331,len(theTest))
+ theTest=vals.findIdsInRange(-1.,1e-7)
+ self.assertTrue(theTest.isIota(331))
pass
def testSwigDAIOp8(self):
self.assertEqual(0,da.index(7))
self.assertEqual(10,da.index(47))
self.assertTrue(14 not in da)
- self.assertEqual(5,da.search([9,9]))
- self.assertEqual(-1,da.search([5,8]))
+ self.assertEqual(5,da.findIdSequence([9,9]))
+ self.assertEqual(-1,da.findIdSequence([5,8]))
da.rearrange(2)
self.assertTrue([47,16] not in da)
self.assertTrue([5,6] not in da)
self.assertRaises(InterpKernelException,arr.sort,False)
arr.rearrange(1);
arr.setValues(values,6,1)
- arr1=arr.deepCpy();
- arr2=arr.deepCpy();
+ arr1=arr.deepCopy();
+ arr2=arr.deepCopy();
arr1.sort(True);
expected1=[1,2,4,5,6,7]
self.assertEqual(6,arr1.getNumberOfTuples());
self.assertRaises(InterpKernelException,ard.sort,False)
ard.rearrange(1);
ard.setValues(valuesD,6,1)
- ard1=ard.deepCpy();
- ard2=ard.deepCpy();
+ ard1=ard.deepCopy();
+ ard2=ard.deepCopy();
ard1.sort(True);
expected3=[1.,2.,4.,5.,6.,7.]
self.assertEqual(6,ard1.getNumberOfTuples());
vecs=DataArrayDouble.New([2.,3.,4.,5.,6.,7.],3,2)
expected1=[[2.,3.,3.,3.,3.,4.,2.,4.0],[4.,5.,5.,5.,5.,6.,4.,6.0],[6.,7.,7.,7.,7.,8.,6.,8.0]]
for pos,vec in enumerate(vecs):
- m2=m.deepCpy()
+ m2=m.deepCopy()
m2.translate(vec)
self.assertTrue(m2.getCoords().isEqual(DataArrayDouble.New(expected1[pos],4,2),1e-12))
pass
for pos,vec in enumerate(vecs):
- m2=m.deepCpy()
+ m2=m.deepCopy()
m2.translate(vec.buildDADouble())
self.assertTrue(m2.getCoords().isEqual(DataArrayDouble.New(expected1[pos],4,2),1e-12))
pass
dad[:,1]=angles
#
dad2=dad.fromPolarToCart()
- dads=[dad2.deepCpy() for elt in 7*[None]]
+ dads=[dad2.deepCopy() for elt in 7*[None]]
#
translationToPerform=[[0.01,0.02],[3./2.*radius,-radius*sqrt(3.)/2],[3./2.*radius,radius*sqrt(3.)/2],[0.,radius*sqrt(3.)],[-3./2.*radius,radius*sqrt(3.)/2],[-3./2.*radius,-radius*sqrt(3.)/2],[0.,-radius*sqrt(3.)]]
for d,t in zip(dads,translationToPerform):
arr=DataArrayDouble(mesh3D.getNumberOfCells(),2)
arr.rearrange(1) ; arr.iota(2.) ; arr.rearrange(2)
f.setArray(arr)
- f.checkCoherency()
+ f.checkConsistencyLight()
expected1=DataArrayInt([1,3,4,7,9,10,13,15,16])
self.assertTrue(expected1.isEqual(ids))
arr2=arr[expected1]
f.setArray(arr)
#
f2=f.buildSubPart([1,5,9])
- f2.checkCoherency()
+ f2.checkConsistencyLight()
cI=m.computeNbOfNodesPerCell()
- cI.computeOffsets2()
+ cI.computeOffsetsFull()
sel=DataArrayInt([1,5,9])
res=sel.buildExplicitArrByRanges(cI)
arr2=arr[res]
m.finishInsertingCells();
coords=DataArrayDouble(coord,6,3);
m.setCoords(coords);
- m.checkCoherency();
+ m.checkConsistencyLight();
#
vol=m.getMeasureField(ON_CELLS);
self.assertEqual(1,vol.getArray().getNumberOfTuples());
f.setMesh(umesh);
srcVals=DataArrayDouble.New(srcFieldValsOnPoints,nbOfInputPoints,1);
f.setArray(srcVals);
- f.checkCoherency();
+ f.checkConsistencyLight();
#
res0=f.getValueOn(targetPointCoordsX[:1]);
self.assertAlmostEqual(targetFieldValsExpected[0],res0[0],10)
if 1 in cells:
baseMesh.insertNextCell(NORM_QPOLYG, connec3)
baseMesh.finishInsertingCells()
- baseMesh.checkCoherency()
+ baseMesh.checkConsistencyLight()
return baseMesh
eps = 1.0e-7
m3.mergeNodes(eps)
m3.convertDegeneratedCells()
m3.zipCoords()
- m4 = m3.deepCpy()
+ m4 = m3.deepCopy()
m5, _, _ = MEDCouplingUMesh.Intersect2DMeshes(m3, m4, eps)
m5.mergeNodes(eps)
# Check coordinates:
tr=[[0.,0.],[2.,0.], [0.,2.],[2.,2.],[4.,2.],[6.,2.],[8.,2.],[10.,2.],[12.,2.],[0.,4.],[2.,4.],[4.,4.],[6.,4.],[8.,4.],[10.,4.],[12.,4.],[14.,4.],[16.,4.],[18.,4.],[20.,4.],[22.,4.]]
ms=2*[mQ4]+7*[mQ8]+11*[mT3]
- ms[:]=(elt.deepCpy() for elt in ms)
+ ms[:]=(elt.deepCopy() for elt in ms)
for m,t in zip(ms,tr):
d=m.getCoords() ; d+= t
pass
self.assertEqual(46,f.getNumberOfTuplesExpected())
vals=DataArrayDouble.New(46*3,1) ; vals.iota(7.7) ; vals.rearrange(3)
f.setArray(vals)
- f.checkCoherency()
+ f.checkConsistencyLight()
#f.getLocalizationOfDiscr()
self.assertRaises(InterpKernelException,f.getGaussLocalizationIdOfOneType,NORM_QUAD8) #throw because several loc
self.assertEqual([1,2],f.getGaussLocalizationIdsOfOneType(NORM_QUAD8))
self.assertEqual([0,0,1,1,2,1,2,2,2,3,3,3,3,3,4,4,4,4,4,4],f.getDiscretization().getArrayOfDiscIds().getValues())
fc=f[[1,2,3,8]]
- fc.checkCoherency()
+ fc.checkConsistencyLight()
self.assertTrue(DataArrayDouble([13.7,14.7,15.7,16.7,17.7,18.7,19.7,20.7,21.7,22.7,23.7,24.7,25.7,26.7,27.7,28.7,29.7,30.7,31.7,32.7,33.7,34.7,35.7,36.7,82.7,83.7,84.7,85.7,86.7,87.7,88.7,89.7,90.7,91.7,92.7,93.7],12,3).isEqual(fc.getArray(),1e-10))
fc.renumberCells([3,2,0,1])
self.assertTrue(DataArrayDouble([28.7, 29.7, 30.7, 31.7, 32.7, 33.7, 34.7, 35.7, 36.7, 82.7, 83.7, 84.7, 85.7, 86.7, 87.7, 88.7, 89.7, 90.7, 91.7, 92.7, 93.7, 19.7, 20.7, 21.7, 22.7, 23.7, 24.7, 25.7, 26.7, 27.7, 13.7, 14.7, 15.7, 16.7, 17.7, 18.7],12,3).isEqual(fc.getArray(),1e-10))
self.assertEqual(d.getNumberOfTuples(),9)
self.assertEqual(d.getNbOfElemAllocated(),16)
self.assertTrue(d.isEqual(DataArrayDouble([0.,1.,2.,3.,4.,5.,6.,7.,4.44]),1e-12))
- e=d.deepCpy()
+ e=d.deepCopy()
self.assertEqual(e.getNumberOfTuples(),9)
self.assertEqual(e.getNbOfElemAllocated(),9)
self.assertTrue(e.isEqual(DataArrayDouble([0.,1.,2.,3.,4.,5.,6.,7.,4.44]),1e-12))
self.assertEqual(d.getNumberOfTuples(),9)
self.assertEqual(d.getNbOfElemAllocated(),16)
self.assertTrue(d.isEqual(DataArrayInt([0,1,2,3,4,5,6,7,444])))
- e=d.deepCpy()
+ e=d.deepCopy()
self.assertEqual(e.getNumberOfTuples(),9)
self.assertEqual(e.getNbOfElemAllocated(),9)
self.assertTrue(e.isEqual(DataArrayInt([0,1,2,3,4,5,6,7,444])))
expected1=DataArrayDouble([0.16666666666666666,0.3333333333333333,0.5,1.,1.])
for v in vects:
for i in xrange(nbOfDisc):
- mm=m.deepCpy()
+ mm=m.deepCopy()
mm.rotate([0.,0.,0.],[0.3,0.7,0.2],float(i)/float(nbOfDisc)*2*pi)
- mm2=mm.deepCpy()
+ mm2=mm.deepCopy()
self.assertTrue(mm.getMeasureField(False).getArray().isEqual(expected1,1e-14))
self.assertTrue(mm.findAndCorrectBadOriented3DCells().empty())
self.assertTrue(mm.isEqual(mm2,1e-14))
pass
pass
#
- mOK=m.deepCpy()
+ mOK=m.deepCopy()
m0=MEDCouplingUMesh("m",3) ; m0.allocateCells(0); m0.insertNextCell(NORM_TETRA4,[0,2,1,3]); #Not well oriented
m1=MEDCouplingUMesh("m",3) ; m1.allocateCells(0); m1.insertNextCell(NORM_PYRA5,[0,1,2,3,4]); #Well oriented
m2=MEDCouplingUMesh("m",3) ; m2.allocateCells(0); m2.insertNextCell(NORM_PENTA6,[0,1,2,3,4,5]); #Well oriented
expected2=DataArrayDouble([-0.16666666666666666,0.3333333333333333,0.5,-1.,-1.])
for v in vects:
for i in xrange(nbOfDisc):
- mm=m.deepCpy()
+ mm=m.deepCopy()
mm.rotate([0.,0.,0.],[0.3,0.7,0.2],float(i)/float(nbOfDisc)*2*pi)
- mm2=mm.deepCpy() ; mm3=mm.deepCpy() ; mm3.convertAllToPoly()
+ mm2=mm.deepCopy() ; mm3=mm.deepCopy() ; mm3.convertAllToPoly()
self.assertTrue(mm3.getMeasureField(False).getArray().isEqual(expected2,1e-14))
self.assertTrue(mm.getMeasureField(False).getArray().isEqual(expected2,1e-14))
self.assertTrue(mm.findAndCorrectBadOriented3DCells().isEqual(DataArrayInt([0,3,4])))
mOK.setCoords(mm.getCoords())
self.assertTrue(mm.isEqual(mOK,1e-14))
self.assertTrue(mm.getMeasureField(False).getArray().isEqual(expected1,1e-14))
- mmm=mm.deepCpy()
+ mmm=mm.deepCopy()
self.assertTrue(mmm.findAndCorrectBadOriented3DCells().empty())
mm.convertAllToPoly()
self.assertTrue(mm.getMeasureField(False).getArray().isEqual(expected1,1e-14))
expected3=DataArrayDouble([0.16666666666666666,-0.3333333333333333,-0.5,1.,1.])
for v in vects:
for i in xrange(nbOfDisc):
- mm=m.deepCpy()
+ mm=m.deepCopy()
mm.rotate([0.,0.,0.],[0.3,0.7,0.2],float(i)/float(nbOfDisc)*2*pi)
- mm2=mm.deepCpy() ; mm3=mm.deepCpy() ; mm3.convertAllToPoly()
+ mm2=mm.deepCopy() ; mm3=mm.deepCopy() ; mm3.convertAllToPoly()
self.assertTrue(mm3.getMeasureField(False).getArray().isEqual(expected3,1e-14))
self.assertTrue(mm.getMeasureField(False).getArray().isEqual(expected3,1e-14))
self.assertTrue(mm.findAndCorrectBadOriented3DCells().isEqual(DataArrayInt([1,2])))
mOK.setCoords(mm.getCoords())
self.assertTrue(mm.isEqual(mOK,1e-14))
self.assertTrue(mm.getMeasureField(False).getArray().isEqual(expected1,1e-14))
- mmm=mm.deepCpy()
+ mmm=mm.deepCopy()
self.assertTrue(mmm.findAndCorrectBadOriented3DCells().empty())
mm.convertAllToPoly()
self.assertTrue(mm.getMeasureField(False).getArray().isEqual(expected1,1e-14))
mesh.insertNextCell(NORM_POLYHED,conn3)
mesh.setCoords(coords)
mesh.orientCorrectlyPolyhedrons()
- self.assertTrue(mesh.getBarycenterAndOwner().isEqual(DataArrayDouble([-0.10803,0.,0.3385],1,3),1e-12))
+ self.assertTrue(mesh.computeCellCenterOfMass().isEqual(DataArrayDouble([-0.10803,0.,0.3385],1,3),1e-12))
pass
pass
m.setCoords(coords)
m.allocateCells(0)
m.insertNextCell(NORM_QUAD4,[0,1,2,3])
- m.checkCoherency2()
+ m.checkConsistency()
self.assertEqual([4,0,1,2,3],m.getNodalConnectivity().getValues())
a,b=m.distanceToPoint([5.,2.,0.1])
self.assertAlmostEqual(0.1,a,14) ; self.assertEqual(0,b)
self.assertAlmostEqual(sqrt(2*2+4*4),a,14) ; self.assertEqual(0,b)
m.allocateCells(0)
m.insertNextCell(NORM_POLYGON,[0,1,2,3])
- m.checkCoherency2()
+ m.checkConsistency()
self.assertEqual([5,0,1,2,3],m.getNodalConnectivity().getValues())
a,b=m.distanceToPoint([11.,3.,4.])
self.assertAlmostEqual(sqrt(3*3+4*4),a,14) ; self.assertEqual(0,b)
#
n,ni=m.computeNeighborsOfCells()
a,b=MEDCouplingUMesh.ComputeSpreadZoneGraduallyFromSeed(0,n,ni)
- self.assertEqual(13,b) ; self.assertEqual(125,len(a)) ; self.assertTrue(a.isIdentity())
+ self.assertEqual(13,b) ; self.assertTrue(a.isIota(125))
a,b=MEDCouplingUMesh.ComputeSpreadZoneGraduallyFromSeed([1],n,ni)
- self.assertEqual(12,b) ; self.assertEqual(125,len(a)) ; self.assertTrue(a.isIdentity())
+ self.assertEqual(12,b) ; self.assertTrue(a.isIota(125))
a,b=MEDCouplingUMesh.ComputeSpreadZoneGraduallyFromSeed((2,),n,ni)
- self.assertEqual(11,b) ; self.assertEqual(125,len(a)) ; self.assertTrue(a.isIdentity())
+ self.assertEqual(11,b) ; self.assertTrue(a.isIota(125))
a,b=MEDCouplingUMesh.ComputeSpreadZoneGraduallyFromSeed(DataArrayInt([3]),n,ni)
- self.assertEqual(12,b) ; self.assertEqual(125,len(a)) ; self.assertTrue(a.isIdentity())
+ self.assertEqual(12,b) ; self.assertTrue(a.isIota(125))
pass
def testSwigUMeshInsertNextCell1(self):
m.setNodeGridStructure([2,3])
coords=DataArrayDouble([0.,0., 2.,0., 0.,1., 1.9,1.1, 0.3,1.9, 2.2,2.1],6,2)
m.setCoords(coords)
- m.checkCoherency()
- m0=m.deepCpy()
+ m.checkConsistencyLight()
+ m0=m.deepCopy()
self.assertTrue(m0.isEqual(m,1e-12))
m.getCoords().setInfoOnComponents(["X [m]","Y [m]"])
self.assertTrue(not m0.isEqual(m,1e-12))
- m0=m.deepCpy()
+ m0=m.deepCopy()
self.assertTrue(m0.isEqual(m,1e-12))
self.assertEqual(m.getNodeGridStructure(),(2,3))
pass
c4=c1+[6.,0.,0.]
c=DataArrayDouble.Aggregate([c1,c2,c3,c4])
m.setCoords(c)
- m.checkCoherency2()
+ m.checkConsistency()
#
- m1=m.deepCpy()
+ m1=m.deepCopy()
d1=m1.simplexize(PLANAR_FACE_5)
- m1.checkCoherency2()
+ m1.checkConsistency()
vol1=m1.getMeasureField(ON_CELLS).getArray()
self.assertTrue(vol1.isEqual(DataArrayDouble([1./6, 1./6, 1./6,1./6, 1./6, 1./3,1./6, 1./6, 1./6, 1./6, 1./3, 1./6]),1e-12))
self.assertEqual(m1.getNodalConnectivity().getValues(),[14,0,1,2,3,14,4,9,5,6,14,4,8,9,11,14,4,7,11,6,14,9,11,10,6,14,4,9,6,11,14,12,17,13,14,14,12,16,17,19,14,12,15,19,14,14,17,19,18,14,14,12,17,14,19,14,20,21,22,23])
self.assertEqual(m1.getNodalConnectivityIndex().getValues(),[0,5,10,15,20,25,30,35,40,45,50,55,60])
self.assertTrue(d1.isEqual(DataArrayInt([0,1,1,1,1,1,2,2,2,2,2,3])))
#
- m2=m.deepCpy()
+ m2=m.deepCopy()
d2=m2.simplexize(PLANAR_FACE_6)
- m2.checkCoherency2()
+ m2.checkConsistency()
vol2=m2.getMeasureField(ON_CELLS).getArray()
self.assertTrue(vol2.isEqual(DataArrayDouble([1./6, 1./6, 1./6,1./6, 1./6, 1./6,1./6,1./6, 1./6, 1./6, 1./6, 1./6,1./6,1./6]),1e-12))
self.assertEqual(m2.getNodalConnectivity().getValues(),[14,0,1,2,3,14,4,9,5,10,14,4,5,6,10,14,4,8,9,10,14,4,11,8,10,14,4,6,7,10,14,4,7,11,10,14,12,17,13,18,14,12,13,14,18,14,12,16,17,18,14,12,19,16,18,14,12,14,15,18,14,12,15,19,18,14,20,21,22,23])
cl=MEDCouplingCurveLinearMesh()
cl.setCoords(coo)
cl.setNodeGridStructure([4,3])
- cl.checkCoherency2()
+ cl.checkConsistency()
li1=[1.,2.,4.,0.5,1.,2.]
self.assertTrue(cl.getMeasureField(False).getArray().isEqual(DataArrayDouble(li1),1e-14))
self.assertTrue(u.getMeasureField(False).getArray().isEqual(DataArrayDouble(li1),1e-14))
li1_1=[0.5,0.5,2.,0.5,5.,0.5,0.5,1.25,2.,1.25,5.,1.25]
- self.assertTrue(cl.getBarycenterAndOwner().isEqual(DataArrayDouble(li1_1,6,2),1e-14))
- self.assertTrue(u.getBarycenterAndOwner().isEqual(DataArrayDouble(li1_1,6,2),1e-14))
+ self.assertTrue(cl.computeCellCenterOfMass().isEqual(DataArrayDouble(li1_1,6,2),1e-14))
+ self.assertTrue(u.computeCellCenterOfMass().isEqual(DataArrayDouble(li1_1,6,2),1e-14))
#3D
c.setCoords(arr1,arr2,arr2)
u=c.buildUnstructured()
cl=MEDCouplingCurveLinearMesh()
cl.setCoords(coo)
cl.setNodeGridStructure([4,3,3])
- cl.checkCoherency2()
+ cl.checkConsistency()
li2=[1.,2.,4.,0.5, 1.,2.,0.5,1.,2.,0.25,0.5,1.]
li2_1=[0.5,0.5,0.5,2.,0.5,0.5,5.,0.5,0.5,0.5,1.25,0.5,2.,1.25,0.5,5.,1.25,0.5,0.5,0.5,1.25,2.,0.5,1.25,5.,0.5,1.25,0.5,1.25,1.25,2.,1.25,1.25,5.,1.25,1.25]
self.assertTrue(cl.getMeasureField(False).getArray().isEqual(DataArrayDouble(li2),1e-14))
self.assertTrue(u.getMeasureField(False).getArray().isEqual(DataArrayDouble(li2),1e-14))
- self.assertTrue(cl.getBarycenterAndOwner().isEqual(DataArrayDouble(li2_1,12,3),1e-14))
- self.assertTrue(u.getBarycenterAndOwner().isEqual(DataArrayDouble(li2_1,12,3),1e-14))
+ self.assertTrue(cl.computeCellCenterOfMass().isEqual(DataArrayDouble(li2_1,12,3),1e-14))
+ self.assertTrue(u.computeCellCenterOfMass().isEqual(DataArrayDouble(li2_1,12,3),1e-14))
#1D spaceDim 1
coo=DataArrayDouble(5) ; coo.iota(0.)
coo=coo*coo
cl.setCoords(coo)
cl.setNodeGridStructure([5])
- cl.checkCoherency2()
+ cl.checkConsistency()
li3=[1.,3.,5.,7.]
li3_1=[0.5,2.5,6.5,12.5]
self.assertTrue(cl.getMeasureField(False).getArray().isEqual(DataArrayDouble(li3),1e-14))
self.assertTrue(cl.buildUnstructured().getMeasureField(False).getArray().isEqual(DataArrayDouble(li3),1e-14))
- self.assertTrue(cl.getBarycenterAndOwner().isEqual(DataArrayDouble(li3_1),1e-14))
- self.assertTrue(cl.buildUnstructured().getBarycenterAndOwner().isEqual(DataArrayDouble(li3_1),1e-14))
+ self.assertTrue(cl.computeCellCenterOfMass().isEqual(DataArrayDouble(li3_1),1e-14))
+ self.assertTrue(cl.buildUnstructured().computeCellCenterOfMass().isEqual(DataArrayDouble(li3_1),1e-14))
#1D spaceDim 2
coo=DataArrayDouble.Meld(coo,coo)
cl.setCoords(coo)
- cl.checkCoherency2()
+ cl.checkConsistency()
li4=[sqrt(2.)*elt for elt in [1.,3.,5.,7.]]
li4_1=[0.5,0.5,2.5,2.5,6.5,6.5,12.5,12.5]
self.assertEqual(2,cl.getSpaceDimension())
self.assertEqual(5,cl.getNumberOfNodes())
self.assertTrue(cl.getMeasureField(False).getArray().isEqual(DataArrayDouble(li4),1e-14))
self.assertTrue(cl.buildUnstructured().getMeasureField(False).getArray().isEqual(DataArrayDouble(li4),1e-14))
- self.assertTrue(cl.getBarycenterAndOwner().isEqual(DataArrayDouble(li4_1,4,2),1e-14))
- self.assertTrue(cl.buildUnstructured().getBarycenterAndOwner().isEqual(DataArrayDouble(li4_1,4,2),1e-14))
+ self.assertTrue(cl.computeCellCenterOfMass().isEqual(DataArrayDouble(li4_1,4,2),1e-14))
+ self.assertTrue(cl.buildUnstructured().computeCellCenterOfMass().isEqual(DataArrayDouble(li4_1,4,2),1e-14))
pass
def testSwig2CurveLinearMeshNonRegression1(self):
self.assertTrue(vol.isEqual(DataArrayDouble([0.11450000709295281, 0.10583334351579375,0.11149999939029423,0.08866666863113633, 0.1404166805123294,0.1250000135352219,0.1270833433481557,0.13258334288001067]),1e-12))
self.assertTrue(vol.isEqual(m.buildUnstructured().getMeasureField(False).getArray(),1e-12))
#
- self.assertTrue(m.getBarycenterAndOwner().isEqual(m.buildUnstructured().getBarycenterAndOwner(),1e-12))
+ self.assertTrue(m.computeCellCenterOfMass().isEqual(m.buildUnstructured().computeCellCenterOfMass(),1e-12))
pass
def testSwig2NonRegressionDASetSelectedComponents1(self):
# 2D
m2D=MEDCouplingDataForTest.build2DTargetMesh_1()
m2D.convertLinearCellsToQuadratic(0)
- m2D.checkCoherency1()
+ m2D.checkConsistency()
self.assertEqual(m2D.getNodalConnectivity().getValues(),[8,0,3,4,1,9,10,11,12,6,1,4,2,11,13,14,6,4,5,2,15,16,13,8,6,7,4,3,17,18,10,19,8,7,8,5,4,20,21,15,18])
self.assertEqual(m2D.getNodalConnectivityIndex().getValues(),[0,9,16,23,32,41])
self.assertTrue(m2D.getCoords().isEqual(coordsExp,1e-14))
# 1D
m1D=MEDCouplingDataForTest.build2DTargetMesh_1().buildDescendingConnectivity()[0]
m1D.convertLinearCellsToQuadratic(0)
- m1D.checkCoherency1()
+ m1D.checkConsistency()
self.assertEqual(m1D.getNodalConnectivity().getValues(),[2,0,3,9,2,3,4,10,2,4,1,11,2,1,0,12,2,4,2,13,2,2,1,14,2,4,5,15,2,5,2,16,2,6,7,17,2,7,4,18,2,3,6,19,2,7,8,20,2,8,5,21])
self.assertEqual(m1D.getNodalConnectivityIndex().getValues(),[0,4,8,12,16,20,24,28,32,36,40,44,48,52])
self.assertTrue(m1D.getCoords().isEqual(coordsExp,1e-14))
cooTmp=m2D.getCoords()[:]
m3D=m2D.buildExtrudedMesh(m1D,0)
m3D.convertLinearCellsToQuadratic(0)
- m3D.checkCoherency1()
+ m3D.checkConsistency()
# check of new m3D content
coordsExp2=[coordsExp.changeNbOfComponents(3,i) for i in xrange(4)]
coordsExp3=[DataArrayDouble.Meld(cooTmp[:,[0,1]],cooTmp[:,2]+(0.5+float(i))) for i in xrange(3)]
self.assertEqual(len(m3D.getCoords()),115)
a,b=c.findCommonTuples(1e-14)
self.assertEqual(len(b),len(coordsExp4)+1)
- e,f=DataArrayInt.BuildOld2NewArrayFromSurjectiveFormat2(2*115,a,b)
+ e,f=DataArrayInt.ConvertIndexArrayToO2N(2*115,a,b)
self.assertEqual(f,115)
self.assertTrue(e.isEqual(DataArrayInt([0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63,64,65,66,67,68,69,70,71,72,73,74,75,76,77,78,79,80,81,82,83,84,85,86,87,88,89,90,91,92,93,94,95,96,97,98,99,100,101,102,103,104,105,106,107,108,109,110,111,112,113,114,0,1,2,3,4,5,6,7,8,36,37,38,39,48,49,53,54,58,59,60,66,67,44,47,52,45,46,57,64,65,70,9,10,11,12,13,14,15,16,17,40,41,42,43,50,51,55,56,61,62,63,68,69,75,78,81,76,77,84,88,89,92,18,19,20,21,22,23,24,25,26,71,72,73,74,79,80,82,83,85,86,87,90,91,97,100,103,98,99,106,110,111,114,27,28,29,30,31,32,33,34,35,93,94,95,96,101,102,104,105,107,108,109,112,113])))
self.assertTrue(DataArrayInt([30,0,3,4,1,9,12,13,10,36,37,38,39,40,41,42,43,44,45,46,47,25,1,4,2,10,13,11,38,48,49,42,50,51,47,46,52,25,4,5,2,13,14,11,53,54,48,55,56,50,46,57,52,30,6,7,4,3,15,16,13,12,58,59,37,60,61,62,41,63,64,65,46,45,30,7,8,5,4,16,17,14,13,66,67,53,59,68,69,55,62,65,70,57,46,30,9,12,13,10,18,21,22,19,40,41,42,43,71,72,73,74,75,76,77,78,25,10,13,11,19,22,20,42,50,51,73,79,80,78,77,81,25,13,14,11,22,23,20,55,56,50,82,83,79,77,84,81,30,15,16,13,12,24,25,22,21,61,62,41,63,85,86,72,87,88,89,77,76,30,16,17,14,13,25,26,23,22,68,69,55,62,90,91,82,86,89,92,84,77,30,18,21,22,19,27,30,31,28,71,72,73,74,93,94,95,96,97,98,99,100,25,19,22,20,28,31,29,73,79,80,95,101,102,100,99,103,25,22,23,20,31,32,29,82,83,79,104,105,101,99,106,103,30,24,25,22,21,33,34,31,30,85,86,72,87,107,108,94,109,110,111,99,98,30,25,26,23,22,34,35,32,31,90,91,82,86,112,113,104,108,111,114,106,99]).isEqual(m3D.getNodalConnectivity()))
def testSwig2ConvertLinearCellsToQuadratic2(self):
m2D=MEDCouplingDataForTest.build2DTargetMesh_1()
ret=m2D.convertLinearCellsToQuadratic(1)
- self.assertTrue(ret.isIdentity())
- self.assertEqual(5,len(ret))
- m2D.checkCoherency1()
+ self.assertTrue(ret.isIota(5))
+ m2D.checkConsistency()
coordsExp=DataArrayDouble([-0.3,-0.3,0.2,-0.3,0.7,-0.3,-0.3,0.2,0.2,0.2,0.7,0.2,-0.3,0.7,0.2,0.7,0.7,0.7,-0.3,-0.05,-0.05,0.2,0.2,-0.05,-0.05,-0.3,0.45,-0.05,0.45,-0.3,0.45,0.2,0.7,-0.05,-0.05,0.7,0.2,0.45,-0.3,0.45,0.45,0.7,0.7,0.45,-0.05,-0.05,0.3666666666666667,-0.1333333333333333,0.5333333333333332,0.03333333333333334,-0.05,0.45,0.45,0.45],27,2)
self.assertTrue(m2D.getCoords().isEqual(coordsExp,1e-14))
self.assertTrue(m2D.getNodalConnectivity().isEqual(DataArrayInt([9,0,3,4,1,9,10,11,12,22,7,1,4,2,11,13,14,23,7,4,5,2,15,16,13,24,9,6,7,4,3,17,18,10,19,25,9,7,8,5,4,20,21,15,18,26])))
cooTmp=m2D.getCoords()[:]
m3D=m2D.buildExtrudedMesh(m1D,0)
ret=m3D.convertLinearCellsToQuadratic(1)
- self.assertTrue(ret.isIdentity())
- self.assertEqual(4,len(ret))
- m3D.checkCoherency1()
+ self.assertTrue(ret.isIota(4))
+ m3D.checkConsistency()
coordsExp2=DataArrayDouble([-0.3,-0.3,0.0,0.2,-0.3,0.0,-0.3,0.2,0.0,0.2,0.2,0.0,-0.3,0.7,0.0,0.2,0.7,0.0,-0.3,-0.3,1.0,0.2,-0.3,1.0,-0.3,0.2,1.0,0.2,0.2,1.0,-0.3,0.7,1.0,0.2,0.7,1.0,-0.3,-0.3,2.0,0.2,-0.3,2.0,-0.3,0.2,2.0,0.2,0.2,2.0,-0.3,0.7,2.0,0.2,0.7,2.0,-0.3,-0.05,0.0,-0.05,0.2,0.0,0.2,-0.05,0.0,-0.05,-0.3,0.0,-0.3,-0.05,1.0,-0.05,0.2,1.0,0.2,-0.05,1.0,-0.05,-0.3,1.0,-0.3,-0.3,0.5,-0.3,0.2,0.5,0.2,0.2,0.5,0.2,-0.3,0.5,-0.05,0.7,0.0,0.2,0.45,0.0,-0.3,0.45,0.0,-0.05,0.7,1.0,0.2,0.45,1.0,-0.3,0.45,1.0,-0.3,0.7,0.5,0.2,0.7,0.5,-0.3,-0.05,2.0,-0.05,0.2,2.0,0.2,-0.05,2.0,-0.05,-0.3,2.0,-0.3,-0.3,1.5,-0.3,0.2,1.5,0.2,0.2,1.5,0.2,-0.3,1.5,-0.05,0.7,2.0,0.2,0.45,2.0,-0.3,0.45,2.0,-0.3,0.7,1.5,0.2,0.7,1.5,-0.05,-0.05,0.0,-0.3,-0.05,0.5,-0.05,0.2,0.5,0.2,-0.05,0.5,-0.05,-0.3,0.5,-0.05,-0.05,1.0,-0.05,0.45,0.0,-0.05,0.7,0.5,0.2,0.45,0.5,-0.3,0.45,0.5,-0.05,0.45,1.0,-0.3,-0.05,1.5,-0.05,0.2,1.5,0.2,-0.05,1.5,-0.05,-0.3,1.5,-0.05,-0.05,2.0,-0.05,0.7,1.5,0.2,0.45,1.5,-0.3,0.45,1.5,-0.05,0.45,2.0,-0.05,-0.05,0.5,-0.05,0.45,0.5,-0.05,-0.05,1.5,-0.05,0.45,1.5],75,3)
self.assertTrue(m3D.getCoords().isEqual(coordsExp2,1e-14))
self.assertTrue(m3D.getNodalConnectivity().isEqual(DataArrayInt([27,0,2,3,1,6,8,9,7,18,19,20,21,22,23,24,25,26,27,28,29,51,52,53,54,55,56,71,27,4,5,3,2,10,11,9,8,30,31,19,32,33,34,23,35,36,37,28,27,57,58,59,53,60,61,72,27,6,8,9,7,12,14,15,13,22,23,24,25,38,39,40,41,42,43,44,45,56,62,63,64,65,66,73,27,10,11,9,8,16,17,15,14,33,34,23,35,46,47,39,48,49,50,44,43,61,67,68,63,69,70,74])))
arr2=DataArrayDouble(len(arr),2)
arr2[:,0]=arr ; arr2[:,1]=arr+100
f.setArray(arr2)
- f.checkCoherency()
+ f.checkConsistencyLight()
res=f.integral(False)
# a=25./81 ; b=40./81 ; c=64./81
# p1=0.11169079483905 ; p2=0.0549758718227661
for elt in l: elt.reverse()
d2i=DataArrayDouble.Meld(l)
ids1=pts.findClosestTupleId(d2i)
- idsExpectedI=idsExpected.deepCpy() ; idsExpectedI.reverse()
+ idsExpectedI=idsExpected.deepCopy() ; idsExpectedI.reverse()
self.assertTrue(idsExpectedI.isEqual(ids1))
#
l=[pts[:,i] for i in [0,1]]
self.assertTrue(idsExpected2.isEqual(ids2))
#
ids3=ptsi.findClosestTupleId(d2i)
- idsExpected3=idsExpected2.deepCpy() ; idsExpected3.reverse()
+ idsExpected3=idsExpected2.deepCopy() ; idsExpected3.reverse()
self.assertTrue(idsExpected3.isEqual(ids3))
pass
self.assertEqual(2,d.getNumberOfTuples())
self.assertEqual(26,d.getNbOfElems())
self.assertEqual(13,d.getNumberOfComponents())
- dd=d.deepCpy()
+ dd=d.deepCopy()
self.assertTrue(d.isEqual(dd))
dd.setIJ(0,3,'d')
self.assertTrue(not d.isEqual(dd))
d.rearrange(2)
#
dd.rearrange(2)
- dd2=dd.deepCpy()
+ dd2=dd.deepCopy()
dd.renumberInPlace([3,1,2,4,0,11,10,9,8,7,5,12,6])
self.assertEqual(dd.toStrList(),['IJ','Cd','EF','AB','GH','UV','YZ','ST','QR','OP','MN','KL','WX'])
dd.renumberInPlaceR([3,1,2,4,0,11,10,9,8,7,5,12,6])
e=dd.renumberAndReduce([1,1,1,1,1,1,1,2,0,0,0,0,0],3)
self.assertEqual(['YZ','MN','OP'],e.toStrList())
self.assertEqual(['GH','IJ'],dd.selectByTupleIdSafe([3,4]).toStrList())
- self.assertEqual(['AB','GH','MN','ST','YZ'],dd.selectByTupleId2(0,13,3).toStrList())
+ self.assertEqual(['AB','GH','MN','ST','YZ'],dd.selectByTupleIdSafeSlice(0,13,3).toStrList())
dd3=dd.changeNbOfComponents(3,"G")
self.assertEqual(['ABG','CdG','EFG','GHG','IJG','KLG','MNG','OPG','QRG','STG','UVG','WXG','YZG'],dd3.toStrList())
dd3.rearrange(1) ; self.assertEqual("G",dd3.back()) ; dd3.rearrange(3)
self.assertRaises(InterpKernelException,dd3.getIJSafe,0,6)
self.assertEqual("d",dd3.getIJSafe(1,1))
dd3.rearrange(1)
- e=dd3.getIdsEqual("Y")
+ e=dd3.findIdsEqual("Y")
self.assertTrue(e.isEqual(DataArrayInt([3,4,8,9,13,14,18,19,23,24,28,29,33,34,38,39,43,44,48,49,53,54,58,59,60,63,64])))
- e=dd3.getIdsNotEqual("Y")
+ e=dd3.findIdsNotEqual("Y")
self.assertTrue(e.isEqual(DataArrayInt([0,1,2,5,6,7,10,11,12,15,16,17,20,21,22,25,26,27,30,31,32,35,36,37,40,41,42,45,46,47,50,51,52,55,56,57,61,62])))
self.assertEqual(("d",6),dd3.getMaxValue())
self.assertEqual(("A",0),dd3.getMinValue())
- self.assertEqual(26,dd3.search("LGYYM"))
- self.assertEqual(-1,dd3.search("LGYYN"))
+ self.assertEqual(26,dd3.findIdSequence("LGYYM"))
+ self.assertEqual(-1,dd3.findIdSequence("LGYYN"))
dd3.rearrange(5)
- self.assertEqual(7,dd3.locateTuple("OPGYY"))
+ self.assertEqual(7,dd3.findIdFirstEqualTuple("OPGYY"))
self.assertTrue("OPGYY" in dd3)
self.assertEqual(7,dd3.index("OPGYY"))
- self.assertEqual(-1,dd3.locateTuple("OPGYP"))
+ self.assertEqual(-1,dd3.findIdFirstEqualTuple("OPGYP"))
dd3.rearrange(1)
- self.assertEqual(2,dd3.locateValue("OPGYY"))
+ self.assertEqual(2,dd3.findIdFirstEqual("OPGYY"))
self.assertTrue(dd3.presenceOfValue("OPGYY"))
self.assertTrue("O" in dd3)
self.assertTrue(not dd3.presenceOfValue("z"))
def testSwig2GaussMeasureAndIntegral(self):
ft=MEDCouplingDataForTest.buildFieldOnGauss_1()
mea=ft.buildMeasureField(False)
- mea.checkCoherency()
+ mea.checkConsistencyLight()
self.assertTrue(mea.getArray().isEqual(DataArrayDouble([-0.08504076274779823,-0.06378057206084897,-0.08504076274779869,-0.10630095343474463,-0.12756114412169625,-0.10630095343474734,-0.0637805720608491,-0.0850407627477968,-0.1063009534347449,-0.0850407627477994,-0.10630095343474809,-0.1275611441216954,-0.037205333702161475,-0.037205333702161475,-0.037205333702161475,-0.037205333702161475,-0.047835429045636084,-0.047835429045636084,-0.047835429045636084,-0.047835429045636084,-0.05846552438911087,-0.05846552438911087,-0.05846552438911087,-0.05846552438911087,-0.037205333702161725,-0.037205333702161725,-0.037205333702161725,-0.037205333702161725,-0.047835429045635834,-0.047835429045635834,-0.047835429045635834,-0.047835429045635834,-0.05846552438911058,-0.05846552438911058,-0.05846552438911058,-0.05846552438911058,-0.03879154890291829,-0.03879154890291829,-0.03879154890291829,-0.04120270848015563,-0.04120270848015563,-0.04120270848015563,-0.03393028948486933,-0.03393028948486933,-0.03393028948486933,-0.03151955746491709,-0.03151955746491709,-0.03151955746491709,-0.02424752187358276,-0.02424752187358276,-0.02424752187358276,-0.026657914642918758,-0.026657914642918758,-0.026657914642918758,-0.04120270848015456,-0.04120270848015456,-0.04120270848015456,-0.03879154890291757,-0.03879154890291757,-0.03879154890291757,-0.031519557464916595,-0.031519557464916595,-0.031519557464916595,-0.03393028948487046,-0.03393028948487046,-0.03393028948487046,-0.0266579146429191,-0.0266579146429191,-0.0266579146429191,-0.024247521873582645,-0.024247521873582645,-0.024247521873582645,-0.01851718920904466,-0.01851718920904466,-0.01851718920904466,-0.01851718920904466,-0.029627502734471456,-0.029627502734471456,-0.029627502734471456,-0.029627502734471456,-0.04740400437515433,-0.015150427534672922,-0.015150427534672922,-0.015150427534672922,-0.015150427534672922,-0.024240684055476674,-0.024240684055476674,-0.024240684055476674,-0.024240684055476674,-0.038785094488762675,-0.011783665860301345,-0.011783665860301345,-0.011783665860301345,-0.011783665860301345,-0.018853865376482152,-0.018853865376482152,-0.018853865376482152,-0.018853865376482152,-0.030166184602371443,-0.018517189209044892,-0.018517189209044892,-0.018517189209044892,-0.018517189209044892,-0.029627502734471827,-0.029627502734471827,-0.029627502734471827,-0.029627502734471827,-0.04740400437515492,-0.015150427534672776,-0.015150427534672776,-0.015150427534672776,-0.015150427534672776,-0.02424068405547644,-0.02424068405547644,-0.02424068405547644,-0.02424068405547644,-0.03878509448876231,-0.011783665860301277,-0.011783665860301277,-0.011783665860301277,-0.011783665860301277,-0.01885386537648204,-0.01885386537648204,-0.01885386537648204,-0.01885386537648204,-0.030166184602371266]),1e-14))
f=MEDCouplingFieldDouble(ft)
arr=DataArrayDouble(126,2)
arr[:,1]=range(126)
arr[:,1]+=1000
f.setArray(arr)
- f.checkCoherency()
+ f.checkConsistencyLight()
self.assertTrue(DataArrayDouble(f.integral(False)).isEqual(DataArrayDouble([-211.66121638700983,-4863.9563007698835]),1e-11))
self.assertTrue(DataArrayDouble(f.getWeightedAverageValue()).isEqual(DataArrayDouble([45.4960858131136,1045.496085813114]),1e-11))
self.assertTrue(DataArrayDouble(f.normL1()).isEqual(DataArrayDouble([45.49608581311362,1045.496085813114]),1e-11))
#
d=DataArrayInt([0,3,7,9,15,18])
e=DataArrayInt([0,1,2,3,7,8,15,16,17])
- a,b=d.searchRangesInListOfIds(e)
+ a,b=d.findIdsRangesInListOfIds(e)
self.assertTrue(a.isEqual(DataArrayInt([0,2,4])))
self.assertTrue(b.isEqual(DataArrayInt([0,1,2,7,8,15,16,17])))
pass
-
+
+ @unittest.skipUnless(checkFreeMemory((223456789*16)/(1024)), "Not enough memory")
def testSwig2BigMem(self):
if MEDCouplingSizeOfVoidStar()==64:
d=DataArrayAsciiChar(223456789,16)
def testSwigDAPow1(self):
d=DataArrayInt(10)
d.iota(0)
- d1=d.deepCpy()
+ d1=d.deepCopy()
d.setIJ(2,0,-2)
self.assertTrue((d**2).isEqual(DataArrayInt([0,1,4,9,16,25,36,49,64,81])))
self.assertTrue((d**3).isEqual(DataArrayInt([0,1,-8,27,64,125,216,343,512,729])))
#
d=DataArrayDouble(10)
d.iota(0)
- d1=d.deepCpy()
+ d1=d.deepCopy()
d.setIJ(2,0,-2.)
self.assertTrue((d**2).isEqual(DataArrayDouble([0,1,4,9,16,25,36,49,64,81]),1e-12))
self.assertTrue((d**3).isEqual(DataArrayDouble([0,1,-8,27,64,125,216,343,512,729]),1e-12))
self.assertTrue(d2.isEqual(DataArrayDouble([1,1,1./2,1./sqrt(27.)]),1e-14))
d3=-1./d1[1:5]
self.assertTrue((3**d3).isEqual(DataArrayDouble([0.3333333333333333,0.5773502691896257,0.6933612743506348,0.7598356856515925]),1e-14))
- d4=d3.deepCpy() ; d4.abs()
+ d4=d3.deepCopy() ; d4.abs()
self.assertTrue((d4**d3).isEqual(DataArrayDouble([1.,sqrt(2.),1.4422495703074083,sqrt(2.)]),1e-14))
d4**=d3
self.assertTrue(d4.isEqual(DataArrayDouble([1.,sqrt(2.),1.4422495703074083,sqrt(2.)]),1e-14))
m2.allocateCells(0)
m2.insertNextCell(NORM_POLYGON,[0,1,2])
m2.setCoords(coo)
- m2.checkCoherency1()
+ m2.checkConsistency()
#
coo2=DataArrayDouble([0.,0.,0.,0.,0.,0.,0.,0.,2.],3,3)
m1=MEDCouplingUMesh("mesh",1)
m1.insertNextCell(NORM_SEG2,[0,1])
m1.insertNextCell(NORM_SEG2,[1,2])
m1.setCoords(coo2)
- m1.checkCoherency1()
+ m1.checkConsistency()
#
m3=m2.buildExtrudedMesh(m1,0)
m3.insertNextCell(NORM_POLYHED,[3,4,5,-1,8,7,6,-1,4,3,6,7,-1,5,4,7,8,-1,5,4,-1,3,5,8,6])# addition of face #4 with null surface
- self.assertTrue(m3.getBarycenterAndOwner().isEqual(DataArrayDouble([0.3333333333333333,0.3333333333333333,0.,0.3333333333333333,0.3333333333333333,1.,0.3333333333333333,0.3333333333333333,1.],3,3),1e-13))
+ self.assertTrue(m3.computeCellCenterOfMass().isEqual(DataArrayDouble([0.3333333333333333,0.3333333333333333,0.,0.3333333333333333,0.3333333333333333,1.,0.3333333333333333,0.3333333333333333,1.],3,3),1e-13))
m4,a,b,c,d=m3.buildDescendingConnectivity()
- self.assertTrue(m4.getBarycenterAndOwner().isEqual(DataArrayDouble([0.3333333333333333,0.3333333333333333,0.,0.3333333333333333,0.3333333333333333,0.,0.5,0.,0.,0.5,0.5,0.,0.,0.5,0.,0.3333333333333333,0.3333333333333333,2.,0.5,0.,1.,0.5,0.5,1.,0.,0.5,1.,0.5,0.5,0.],10,3),1e-13))
+ self.assertTrue(m4.computeCellCenterOfMass().isEqual(DataArrayDouble([0.3333333333333333,0.3333333333333333,0.,0.3333333333333333,0.3333333333333333,0.,0.5,0.,0.,0.5,0.5,0.,0.,0.5,0.,0.3333333333333333,0.3333333333333333,2.,0.5,0.,1.,0.5,0.5,1.,0.,0.5,1.,0.5,0.5,0.],10,3),1e-13))
pass
def testSwigRepr1(self):
m.insertNextCell(NORM_POLYHED,[4,5,0,1,6,7,-1,19,18,13,12,17,16,-1,5,4,16,17,-1,0,5,17,12,-1,1,0,12,13,-1,6,1,13,18,-1,7,6,18,19,-1,4,7,19,16])
m.insertNextCell(NORM_POLYHED,[9,10,11,3,2,8,-1,20,14,15,23,22,21,-1,10,9,21,22,-1,11,10,22,23,-1,3,11,23,15,-1,2,3,15,14,-1,8,2,14,20,-1,9,8,20,21])
m.setCoords(coo)
- m.checkCoherency1()
+ m.checkConsistency()
#
dReference=DataArrayDouble([(34.900130952189848,0.,200),(17.450065476094931,30.2244,200.)])
self.assertTrue(m.computeIsoBarycenterOfNodesPerCell().isEqual(dReference,1e-12))
m.allocateCells(0)
m.insertNextCell(NORM_HEXA20,[0,3,5,1,12,18,16,14,7,4,6,2,19,17,15,13,8,11,10,9])
m.setCoords(coo)
- m.checkCoherency1()
+ m.checkConsistency()
#
a,b,c,d,e=m.buildDescendingConnectivity()
m2=MEDCouplingUMesh('mesh',2)
#
NodeField_read=MEDCouplingFieldDouble.MergeFields([NodeField0,NodeField1])
NodeField_read.mergeNodes(1e-10)
- NodeFieldCpy=NodeField.deepCpy()
+ NodeFieldCpy=NodeField.deepCopy()
NodeFieldCpy.mergeNodes(1e-10)
- NodeField.checkCoherency()
+ NodeField.checkConsistencyLight()
self.assertTrue(not NodeField.getArray().isUniform(0.,1e-12))
NodeField.substractInPlaceDM(NodeField_read,10,1e-12)
self.assertTrue(NodeField.getArray().isUniform(0.,1e-12))
f.getArray().alloc(5,2)
f.getArray()[:,0]=range(5) ; f.getArray()[:,1]=f.getArray()[:,0]+7
ff=f+2
- ff.checkCoherency()
+ ff.checkConsistencyLight()
self.assertTrue(ff.getArray().isEqual(DataArrayDouble([(2,9),(3,10),(4,11),(5,12),(6,13)]),1e-12))
ff=f+arr
- ff.checkCoherency()
+ ff.checkConsistencyLight()
self.assertTrue(ff.getArray().isEqual(DataArrayDouble([(0,7),(2,10),(4,13),(6,16),(8,19)]),1e-12))
self.assertRaises(InterpKernelException,f.__add__,f2)
f2.setArray(arr)
ff=f+f2
- ff.checkCoherency()
+ ff.checkConsistencyLight()
self.assertTrue(ff.getArray().isEqual(DataArrayDouble([(0,7),(2,10),(4,13),(6,16),(8,19)]),1e-12))
ff=f+[5,8]
self.assertTrue(ff.getArray().isEqual(DataArrayDouble([(5,15),(6,16),(7,17),(8,18),(9,19)]),1e-12))
f.getArray().alloc(5,2)
f.getArray()[:,0]=range(5) ; f.getArray()[:,1]=f.getArray()[:,0]+7
ff=f-2
- ff.checkCoherency()
+ ff.checkConsistencyLight()
self.assertTrue(ff.getArray().isEqual(DataArrayDouble([(-2,5),(-1,6),(0,7),(1,8),(2,9)]),1e-12))
ff=f-arr
- ff.checkCoherency()
+ ff.checkConsistencyLight()
self.assertTrue(ff.getArray().isEqual(DataArrayDouble([(0,7),(0,6),(0,5),(0,4),(0,3)]),1e-12))
self.assertRaises(InterpKernelException,f.__sub__,f2)
f2.setArray(arr)
ff=f-f2
- ff.checkCoherency()
+ ff.checkConsistencyLight()
self.assertTrue(ff.getArray().isEqual(DataArrayDouble([(0,7),(0,6),(0,5),(0,4),(0,3)]),1e-12))
ff=f-[5,8]
self.assertTrue(ff.getArray().isEqual(DataArrayDouble([(-5,-1),(-4,0),(-3,1),(-2,2),(-1,3)]),1e-12))
f.getArray().alloc(5,2)
f.getArray()[:,0]=range(5) ; f.getArray()[:,1]=f.getArray()[:,0]+7
ff=f*2
- ff.checkCoherency()
+ ff.checkConsistencyLight()
self.assertTrue(ff.getArray().isEqual(DataArrayDouble([(0,14),(2,16),(4,18),(6,20),(8,22)]),1e-12))
ff=f*arr
- ff.checkCoherency()
+ ff.checkConsistencyLight()
self.assertTrue(ff.getArray().isEqual(DataArrayDouble([(0,0),(1,16),(4,36),(9,60),(16,88)]),1e-12))
self.assertRaises(InterpKernelException,f.__mul__,f2)
f2.setArray(arr)
ff=f*f2
- ff.checkCoherency()
+ ff.checkConsistencyLight()
self.assertTrue(ff.getArray().isEqual(DataArrayDouble([(0,0),(1,16),(4,36),(9,60),(16,88)]),1e-12))
ff=f*[5,8]
self.assertTrue(ff.getArray().isEqual(DataArrayDouble([(0,56),(5,64),(10,72),(15,80),(20,88)]),1e-12))
f.getArray()[:,0]=range(5) ; f.getArray()[:,1]=f.getArray()[:,0]+7
self.assertRaises(InterpKernelException,f.__div__,0)
ff=f/2
- ff.checkCoherency()
+ ff.checkConsistencyLight()
self.assertTrue(ff.getArray().isEqual(DataArrayDouble([(0,3.5),(0.5,4),(1,4.5),(1.5,5),(2,5.5)]),1e-12))
ff=f/arr
- ff.checkCoherency()
+ ff.checkConsistencyLight()
self.assertTrue(ff.getArray().isEqual(DataArrayDouble([(0,3.5),(0.5,2),(0.6666666666666666,1.5),(0.75,1.25),(0.8,1.1)]),1e-12))
self.assertRaises(InterpKernelException,f.__div__,f2)
f2.setArray(arr)
ff=f/f2
- ff.checkCoherency()
+ ff.checkConsistencyLight()
self.assertTrue(ff.getArray().isEqual(DataArrayDouble([(0,3.5),(0.5,2),(0.6666666666666666,1.5),(0.75,1.25),(0.8,1.1)]),1e-12))
ff=f/[5,8]
self.assertTrue(ff.getArray().isEqual(DataArrayDouble([(0,0.875),(0.2,1),(0.4,1.125),(0.6,1.25),(0.8,1.375)]),1e-12))
f.getArray().alloc(5,1)
f.getArray()[:]=range(2,7)
ff=f**2
- ff.checkCoherency()
+ ff.checkConsistencyLight()
self.assertTrue(ff.getArray().isEqual(DataArrayDouble([4,9,16,25,36]),1e-12))
ff=f**arr
- ff.checkCoherency()
+ ff.checkConsistencyLight()
self.assertTrue(ff.getArray().isEqual(DataArrayDouble([2,3,64,25,1]),1e-12))
f2.setArray(arr)
ff=f**f2
- ff.checkCoherency()
+ ff.checkConsistencyLight()
self.assertTrue(ff.getArray().isEqual(DataArrayDouble([2,3,64,25,1]),1e-12))
## MEDCouplingFieldDouble.__iadd__
m=MEDCouplingDataForTest.build2DTargetMesh_1()
self.assertRaises(InterpKernelException,f.__iadd__,f2)
f.getArray().alloc(5,2)
f.getArray()[:,0]=range(5) ; f.getArray()[:,1]=f.getArray()[:,0]+7
- f.checkCoherency()
+ f.checkConsistencyLight()
f+=2
- f.checkCoherency()
+ f.checkConsistencyLight()
self.assertTrue(f.getArray().isEqual(DataArrayDouble([(2,9),(3,10),(4,11),(5,12),(6,13)]),1e-12))
f+=arr
- f.checkCoherency()
+ f.checkConsistencyLight()
self.assertTrue(f.getArray().isEqual(DataArrayDouble([(2,9),(4,12),(6,15),(8,18),(10,21)]),1e-12))
f2.setArray(arr)
f+=f2
- f.checkCoherency()
+ f.checkConsistencyLight()
self.assertTrue(f.getArray().isEqual(DataArrayDouble([(2,9),(5,14),(8,19),(11,24),(14,29)]),1e-12))
f+=[0.1,0.2]
- f.checkCoherency()
+ f.checkConsistencyLight()
self.assertTrue(f.getArray().isEqual(DataArrayDouble([(2.1,9.2),(5.1,14.2),(8.1,19.2),(11.1,24.2),(14.1,29.2)]),1e-12))
## MEDCouplingFieldDouble.__isub__
m=MEDCouplingDataForTest.build2DTargetMesh_1()
self.assertRaises(InterpKernelException,f.__isub__,f2)
f.getArray().alloc(5,2)
f.getArray()[:,0]=range(5) ; f.getArray()[:,1]=f.getArray()[:,0]+7
- f.checkCoherency()
+ f.checkConsistencyLight()
f-=2
- f.checkCoherency()
+ f.checkConsistencyLight()
self.assertTrue(f.getArray().isEqual(DataArrayDouble([(-2,5),(-1,6),(0,7),(1,8),(2,9)]),1e-12))
f-=arr
- f.checkCoherency()
+ f.checkConsistencyLight()
self.assertTrue(f.getArray().isEqual(DataArrayDouble([(-2,5),(-2,4),(-2,3),(-2,2),(-2,1)]),1e-12))
f2.setArray(arr)
f-=f2
- f.checkCoherency()
+ f.checkConsistencyLight()
self.assertTrue(f.getArray().isEqual(DataArrayDouble([(-2,5),(-3,2),(-4,-1),(-5,-4),(-6,-7)]),1e-12))
f-=[0.1,0.2]
- f.checkCoherency()
+ f.checkConsistencyLight()
self.assertTrue(f.getArray().isEqual(DataArrayDouble([(-2.1,4.8),(-3.1,1.8),(-4.1,-1.2),(-5.1,-4.2),(-6.1,-7.2)]),1e-12))
## MEDCouplingFieldDouble.__imul__
m=MEDCouplingDataForTest.build2DTargetMesh_1()
self.assertRaises(InterpKernelException,f.__imul__,f2)
f.getArray().alloc(5,2)
f.getArray()[:,0]=range(5) ; f.getArray()[:,1]=f.getArray()[:,0]+7
- f.checkCoherency()
+ f.checkConsistencyLight()
f*=2
- f.checkCoherency()
+ f.checkConsistencyLight()
self.assertTrue(f.getArray().isEqual(DataArrayDouble([(0,14),(2,16),(4,18),(6,20),(8,22)]),1e-12))
f*=arr
- f.checkCoherency()
+ f.checkConsistencyLight()
self.assertTrue(f.getArray().isEqual(DataArrayDouble([(0,0),(2,32),(8,72),(18,120),(32,176)]),1e-12))
f2.setArray(arr)
f*=f2
- f.checkCoherency()
+ f.checkConsistencyLight()
self.assertTrue(f.getArray().isEqual(DataArrayDouble([(0,0),(2,64),(16,288),(54,720),(128,1408)]),1e-12))
f*=[0.1,0.2]
- f.checkCoherency()
+ f.checkConsistencyLight()
self.assertTrue(f.getArray().isEqual(DataArrayDouble([(0,0),(0.2,12.8),(1.6,57.6),(5.4,144),(12.8,281.6)]),1e-12))
## MEDCouplingFieldDouble.__idiv__
m=MEDCouplingDataForTest.build2DTargetMesh_1()
self.assertRaises(InterpKernelException,f.__idiv__,f2)
f.getArray().alloc(5,2)
f.getArray()[:,0]=range(5) ; f.getArray()[:,1]=f.getArray()[:,0]+7
- f.checkCoherency()
+ f.checkConsistencyLight()
f/=2
- f.checkCoherency()
+ f.checkConsistencyLight()
self.assertTrue(f.getArray().isEqual(DataArrayDouble([(0,3.5),(0.5,4),(1,4.5),(1.5,5),(2,5.5)]),1e-12))
f/=arr
- f.checkCoherency()
+ f.checkConsistencyLight()
self.assertTrue(f.getArray().isEqual(DataArrayDouble([(0,1.75),(0.25,1),(0.3333333333333333,0.75),(0.375,0.625),(0.4,0.55)]),1e-12))
f2.setArray(arr)
f/=f2
- f.checkCoherency()
+ f.checkConsistencyLight()
self.assertTrue(f.getArray().isEqual(DataArrayDouble([(0,0.875),(0.125,0.25),(0.1111111111111111,0.125),(0.09375,0.078125),(0.08,0.055)]),1e-12))
f/=[0.1,0.2]
- f.checkCoherency()
+ f.checkConsistencyLight()
self.assertTrue(f.getArray().isEqual(DataArrayDouble([(0,4.375),(1.25,1.25),(1.1111111111111111,0.625),(0.9375,0.390625),(0.8,0.275)]),1e-12))
## MEDCouplingFieldDouble.__ipow__
m=MEDCouplingDataForTest.build2DTargetMesh_1()
self.assertRaises(InterpKernelException,f.__ipow__,f2)
f.getArray().alloc(5,2)
f.getArray()[:,0]=range(5) ; f.getArray()[:,1]=f.getArray()[:,0]+7
- f.checkCoherency()
+ f.checkConsistencyLight()
f**=2
- f.checkCoherency()
+ f.checkConsistencyLight()
self.assertTrue(f.getArray().isEqual(DataArrayDouble([(0,49),(1,64),(4,81),(9,100),(16,121)]),1e-12))
## MEDCouplingFieldDouble.__radd__
m=MEDCouplingDataForTest.build2DTargetMesh_1()
f.getArray().alloc(5,2)
f.getArray()[:,0]=range(5) ; f.getArray()[:,1]=f.getArray()[:,0]+7
ff=2+f
- ff.checkCoherency()
+ ff.checkConsistencyLight()
self.assertTrue(ff.getArray().isEqual(DataArrayDouble([(2,9),(3,10),(4,11),(5,12),(6,13)]),1e-12))
ff=arr+f
- ff.checkCoherency()
+ ff.checkConsistencyLight()
self.assertTrue(ff.getArray().isEqual(DataArrayDouble([(0,7),(2,10),(4,13),(6,16),(8,19)]),1e-12))
self.assertRaises(InterpKernelException,f.__radd__,f2)
ff=[5,8]+f
f.getArray().alloc(5,2)
f.getArray()[:,0]=range(5) ; f.getArray()[:,1]=f.getArray()[:,0]+7
ff=2-f
- ff.checkCoherency()
+ ff.checkConsistencyLight()
self.assertTrue(ff.getArray().isEqual(DataArrayDouble([(2,-5),(1,-6),(0,-7),(-1,-8),(-2,-9)]),1e-12))
ff=arr-f
- ff.checkCoherency()
+ ff.checkConsistencyLight()
self.assertTrue(ff.getArray().isEqual(DataArrayDouble([(0,-7),(0,-6),(0,-5),(0,-4),(0,-3)]),1e-12))
self.assertRaises(InterpKernelException,f.__rsub__,f2)
### MEDCouplingFieldDouble.__rmul__
f.getArray().alloc(5,2)
f.getArray()[:,0]=range(5) ; f.getArray()[:,1]=f.getArray()[:,0]+7
ff=2*f
- ff.checkCoherency()
+ ff.checkConsistencyLight()
self.assertTrue(ff.getArray().isEqual(DataArrayDouble([(0,14),(2,16),(4,18),(6,20),(8,22)]),1e-12))
ff=arr*f
- ff.checkCoherency()
+ ff.checkConsistencyLight()
self.assertTrue(ff.getArray().isEqual(DataArrayDouble([(0,0),(1,16),(4,36),(9,60),(16,88)]),1e-12))
self.assertRaises(InterpKernelException,f.__rmul__,f2)
ff=f*[5,8]
f.getArray().alloc(5,2)
f.getArray()[:,0]=range(1,6) ; f.getArray()[:,1]=f.getArray()[:,0]+7
ff=2/f
- ff.checkCoherency()
+ ff.checkConsistencyLight()
self.assertTrue(ff.getArray().isEqual(DataArrayDouble([(2,0.25),(1,0.22222222222222221),(0.66666666666666663,0.20000000000000001),(0.5,0.18181818181818182),(0.40000000000000002,0.16666666666666666)]),1e-12))
ff=arr/f
- ff.checkCoherency()
+ ff.checkConsistencyLight()
self.assertTrue(ff.getArray().isEqual(DataArrayDouble([(1,0.25),(1,0.44444444444444442),(1,0.59999999999999998),(1,0.72727272727272729),(1,0.83333333333333337)]),1e-12))
self.assertRaises(InterpKernelException,f.__rdiv__,f2)
pass
if __name__ == '__main__':
unittest.main()
-
\ No newline at end of file
+