# -*- 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
pass
self.assertEqual([4, 3, 2, 7, 6, 5, 10, 9, 8, 13, 12, 11],li)
# __setitem__ testing
- da3=da.deepCpy()
+ da3=da.deepCopy()
da2=DataArrayInt.New()
da2.alloc(12,1)
da2.iota(2002)
pass
self.assertTrue(da.isEqual(da2))
da=da3
- da3=da.deepCpy()
+ da3=da.deepCopy()
#
for it in da:
it[:]=5
da.rearrange(1)
self.assertTrue(da.isUniform(5))
da=da3
- da3=da.deepCpy()
+ da3=da.deepCopy()
#
for it in da:
it[:]=[8,9,12]
pass
self.assertEqual([8, 9, 12, 8, 9, 12, 8, 9, 12, 8, 9, 12],da.getValues())
da=da3
- da3=da.deepCpy()
+ da3=da.deepCopy()
#
for it in da:
it[2]=[7]
pass
self.assertEqual([4, 3, 2, 7, 6, 5, 10, 9, 8, 13, 12, 11],li)
# __setitem__ testing
- da3=da.deepCpy()
+ da3=da.deepCopy()
da2=DataArrayDouble.New()
da2.alloc(12,1)
da2.iota(2002)
pass
self.assertTrue(da.isEqual(da2,1e-12))
da=da3
- da3=da.deepCpy()
+ da3=da.deepCopy()
#
for it in da:
it[:]=5
da.rearrange(1)
self.assertTrue(da.isUniform(5,1e-12))
da=da3
- da3=da.deepCpy()
+ da3=da.deepCopy()
#
for it in da:
it[:]=[8,9,12]
pass
self.assertEqual([8, 9, 12, 8, 9, 12, 8, 9, 12, 8, 9, 12],da.getValues())
da=da3
- da3=da.deepCpy()
+ da3=da.deepCopy()
#
for it in da:
it[2]=[7]
self.assertRaises(InterpKernelException,MEDCouplingUMesh.MergeUMeshes,ms+[None]);
self.assertRaises(InterpKernelException,MEDCouplingUMesh.MergeUMeshes,ms+[3.4])
m4=MEDCouplingUMesh.MergeUMeshes(ms);
- m4.checkCoherency();
+ m4.checkConsistencyLight();
self.assertEqual(10,m4.getNumberOfCells());
self.assertEqual(20,m4.getNumberOfNodes());
- self.assertEqual(45,m4.getMeshLength());
+ self.assertEqual(45,m4.getNodalConnectivityArrayLen());
m4bis=MEDCouplingMesh.MergeMeshes(ms);
self.assertTrue(m4.isEqual(m4bis,1e-12))
del m4bis
coo.setValues(sourceCoords,4,3);
coo.setName("My0D");
m=MEDCouplingUMesh.Build0DMeshFromCoords(coo);
- m.checkCoherency();
+ m.checkConsistencyLight();
self.assertEqual(4,m.getNumberOfNodes());
self.assertEqual(4,m.getNumberOfCells());
self.assertEqual(3,m.getSpaceDimension());
m=MEDCouplingDataForTest.build2DTargetMesh_1();
m.setDescription(text1);
self.assertEqual(m.getDescription(),text1);
- m2=m.deepCpy();
+ m2=m.deepCopy();
self.assertTrue(m.isEqual(m2,1e-12));
self.assertEqual(m2.getDescription(),text1);
m2.setDescription("ggg");
f=MEDCouplingFieldDouble.New(ON_CELLS,ONE_TIME);
f.setTimeUnit(text1);
self.assertEqual(f.getTimeUnit(),text1);
- f2=f.deepCpy();
+ f2=f.deepCopy();
self.assertEqual(f2.getTimeUnit(),text1);
#
pass
self.assertEqual(2,len(dms));
self.assertEqual(6,len(das));
self.assertEqual(5,len(das2));
- mfs2=mfs.deepCpy();
+ mfs2=mfs.deepCopy();
self.assertTrue(mfs.isEqual(mfs2,1e-12,1e-12))
pass
da.alloc(8,1);
da.iota(0);
da2=da.checkAndPreparePermutation();
- self.assertEqual(8,da2.getNumberOfTuples());
self.assertEqual(1,da2.getNumberOfComponents());
- self.assertTrue(da2.isIdentity());
+ self.assertTrue(da2.isIota(8));
#
da=DataArrayInt.New();
da.alloc(8,1);
def testUMeshFindCellIdsOnBoundary1(self):
m=MEDCouplingDataForTest.build3DSurfTargetMesh_1();
da5=m.findCellIdsOnBoundary();
- self.assertEqual(5,da5.getNumberOfTuples());
- self.assertTrue(da5.isIdentity());
+ self.assertTrue(da5.isIota(5));
pass
def testMeshSetTime1(self):
self.assertTrue(not m1.isEqual(m2,1e-12));
#
m1.setTime(10.34,55,12);
- m3=m1.deepCpy();
+ m3=m1.deepCopy();
self.assertTrue(m1.isEqual(m3,1e-12));
tmp3,tmp1,tmp2=m3.getTime();
self.assertEqual(55,tmp1);
self.assertEqual(8,tmp1);
self.assertEqual(100,tmp2);
self.assertAlmostEqual(5.67,tmp3,12);
- c=b.deepCpy();
+ c=b.deepCopy();
self.assertTrue(c.isEqual(b,1e-12));
tmp3,tmp1,tmp2=c.getTime();
self.assertEqual(8,tmp1);
da.setValues(vals,5,3);
f1.setArray(da);
#
- self.assertRaises(InterpKernelException,da.applyFunc2,1,"y+z");
+ self.assertRaises(InterpKernelException,da.applyFuncCompo,1,"y+z");
da.setInfoOnComponent(0,"x [m]");
da.setInfoOnComponent(1,"y [mm]");
da.setInfoOnComponent(2,"z [km]");
- self.assertRaises(InterpKernelException, da.applyFunc2, 1, "x+y+zz+zzz");
- self.assertRaises(InterpKernelException, da.applyFunc2, 1, "toto(x+y)");
- self.assertRaises(InterpKernelException, da.applyFunc2, 1, "x/0");
+ self.assertRaises(InterpKernelException, da.applyFuncCompo, 1, "x+y+zz+zzz");
+ self.assertRaises(InterpKernelException, da.applyFuncCompo, 1, "toto(x+y)");
+ self.assertRaises(InterpKernelException, da.applyFuncCompo, 1, "x/0");
- da2=da.applyFunc2(1,"y+z");
+ da2=da.applyFuncCompo(1,"y+z");
self.assertEqual(1,da2.getNumberOfComponents());
self.assertEqual(5,da2.getNumberOfTuples());
expected1=[32.,34.,36.,38.,40.]
#
self.assertEqual(3,f1.getNumberOfComponents());
self.assertEqual(5,f1.getNumberOfTuples());
- f1.applyFunc2(1,"y+z");
+ f1.applyFuncCompo(1,"y+z");
self.assertEqual(1,f1.getNumberOfComponents());
self.assertEqual(5,f1.getNumberOfTuples());
for i in xrange(5):
#
vs=3*[None];
vs[0]="x"; vs[1]="Y"; vs[2]="z";
- self.assertRaises(InterpKernelException, da.applyFunc3, 1, vs, "y+z");
- self.assertRaises(InterpKernelException, da.applyFunc3, 1, vs, "x+Y+z+zz+zzz");
- self.assertRaises(InterpKernelException, da.applyFunc3, 1, vs, "x/0");
+ self.assertRaises(InterpKernelException, da.applyFuncNamedCompo, 1, vs, "y+z");
+ self.assertRaises(InterpKernelException, da.applyFuncNamedCompo, 1, vs, "x+Y+z+zz+zzz");
+ self.assertRaises(InterpKernelException, da.applyFuncNamedCompo, 1, vs, "x/0");
vs[1]="y";
- da2=da.applyFunc3(1,vs,"y+z");
+ da2=da.applyFuncNamedCompo(1,vs,"y+z");
expected1=[32.,34.,36.,38.,40.]
for i in xrange(5):
self.assertAlmostEqual(expected1[i],da2.getIJ(0,i),12);
pass
- self.assertRaises(InterpKernelException, da.applyFunc3, 1, ["x","y","z","a"],"x+a")
+ self.assertRaises(InterpKernelException, da.applyFuncNamedCompo, 1, ["x","y","z","a"],"x+a")
f1.setArray(da);
self.assertEqual(3,f1.getNumberOfComponents());
self.assertEqual(5,f1.getNumberOfTuples());
- f1.applyFunc3(1,vs,"y+z");
+ f1.applyFuncNamedCompo(1,vs,"y+z");
self.assertEqual(1,f1.getNumberOfComponents());
self.assertEqual(5,f1.getNumberOfTuples());
for i in xrange(5):
def testFillFromAnalyticTwo1(self):
m1=MEDCouplingDataForTest.build3DSurfTargetMesh_1();
m1.setTime(3.4,5,6); m1.setTimeUnit("us");
- self.assertRaises(InterpKernelException,m1.fillFromAnalytic2,ON_NODES,1,"y+z");
+ self.assertRaises(InterpKernelException,m1.fillFromAnalyticCompo,ON_NODES,1,"y+z");
m1.getCoords().setInfoOnComponent(0,"x [m]");
m1.getCoords().setInfoOnComponent(1,"y");
m1.getCoords().setInfoOnComponent(2,"z");
- f1=m1.fillFromAnalytic2(ON_NODES,1,"y+z");
+ f1=m1.fillFromAnalyticCompo(ON_NODES,1,"y+z");
self.assertAlmostEqual(3.4,f1.getTime()[0],12) ; self.assertEqual(5,f1.getTime()[1]) ; self.assertEqual(6,f1.getTime()[2])
self.assertEqual("us",f1.getTimeUnit())
self.assertEqual(1,f1.getNumberOfComponents());
m1.setTime(3.4,5,6); m1.setTimeUnit("us");
vs=3*[None];
vs[0]="x"; vs[1]="Y"; vs[2]="z";
- self.assertRaises(InterpKernelException,m1.fillFromAnalytic3,ON_NODES,1,vs,"y+z");
+ self.assertRaises(InterpKernelException,m1.fillFromAnalyticNamedCompo,ON_NODES,1,vs,"y+z");
vs[1]="y";
- f1=m1.fillFromAnalytic3(ON_NODES,1,vs,"y+z");
+ f1=m1.fillFromAnalyticNamedCompo(ON_NODES,1,vs,"y+z");
self.assertAlmostEqual(3.4,f1.getTime()[0],12) ; self.assertEqual(5,f1.getTime()[1]) ; self.assertEqual(6,f1.getTime()[2])
self.assertEqual("us",f1.getTimeUnit())
self.assertEqual(1,f1.getNumberOfComponents());
values1=[7.,107.,10007.,8.,108.,10008.,9.,109.,10009.,10.,110.,10010.,11.,111.,10011.]
arr.setValues(values1,nbOfCells,3);
loc=[-0.05,-0.05, 0.55,-0.25, 0.55,0.15, -0.05,0.45, 0.45,0.45]
- f.checkCoherency();
+ f.checkConsistencyLight();
locs=f.getValueOnMulti(loc);
self.assertEqual(5,locs.getNumberOfTuples());
self.assertEqual(3,locs.getNumberOfComponents());
arr.setValues(values2,nbOfNodes,3);
loc2=[0.5432,-0.2432, 0.5478,0.1528, 0.5432,-0.2432, 0.5432,-0.2432]
expected2=[9.0272, 109.0272, 10009.0272, 11.4124,111.4124,10011.4124, 9.0272, 109.0272, 10009.0272, 9.0272, 109.0272, 10009.0272]
- f.checkCoherency();
+ f.checkConsistencyLight();
loc3=DataArrayDouble.New()
loc3.setValues(loc2,4,2);
locs=f.getValueOnMulti(loc3);
d=DataArrayInt.New();
vals1=[2,3,5,6,8,5,5,6,1,-5]
d.setValues(vals1,10,1);
- d2=d.getIdsNotEqual(5);
+ d2=d.findIdsNotEqual(5);
self.assertEqual(7,d2.getNumberOfTuples());
self.assertEqual(1,d2.getNumberOfComponents());
expected1=[0,1,3,4,7,8,9]
self.assertEqual(expected1[i],d2.getIJ(0,i));
pass
d.rearrange(2);
- self.assertRaises(InterpKernelException,d.getIdsNotEqual,5);
+ self.assertRaises(InterpKernelException,d.findIdsNotEqual,5);
vals2=[-4,5,6]
vals3=vals2;
d.rearrange(1);
- d3=d.getIdsNotEqualList(vals3);
+ d3=d.findIdsNotEqualList(vals3);
self.assertEqual(5,d3.getNumberOfTuples());
self.assertEqual(1,d3.getNumberOfComponents());
expected2=[0,1,4,8,9]
mesh.insertNextCell(NORM_HEXGP12,12,conn[0:12])
mesh.finishInsertingCells();
#
- mesh.checkCoherency();
+ mesh.checkConsistencyLight();
vols=mesh.getMeasureField(False);
self.assertEqual(1,vols.getNumberOfTuples());
self.assertEqual(1,vols.getNumberOfComponents());
self.assertAlmostEqual(-5.196152422706632,vols.getIJ(0,0),12);
- bary=mesh.getBarycenterAndOwner();
+ bary=mesh.computeCellCenterOfMass();
self.assertEqual(1,bary.getNumberOfTuples());
self.assertEqual(3,bary.getNumberOfComponents());
expected1=[0.,0.,1.]
self.assertTrue(NORM_POLYHED==mesh.getTypeOfCell(0));
mesh.unPolyze();
self.assertTrue(NORM_HEXGP12==mesh.getTypeOfCell(0));
- self.assertEqual(13,mesh.getMeshLength());
+ self.assertEqual(13,mesh.getNodalConnectivityArrayLen());
#
pass
def testCheckCoherencyDeeper1(self):
m=MEDCouplingDataForTest.build3DSourceMesh_1();
- m.checkCoherency();
- m.checkCoherency1();
+ m.checkConsistencyLight();
+ m.checkConsistency();
m.getNodalConnectivity().setIJ(8,0,-1);
- m.checkCoherency();
- self.assertRaises(InterpKernelException,m.checkCoherency1);
+ m.checkConsistencyLight();
+ self.assertRaises(InterpKernelException,m.checkConsistency);
m.getNodalConnectivity().setIJ(8,0,-6);
- m.checkCoherency();
- self.assertRaises(InterpKernelException,m.checkCoherency1);
+ m.checkConsistencyLight();
+ self.assertRaises(InterpKernelException,m.checkConsistency);
m.getNodalConnectivity().setIJ(8,0,9);#9>=NbOfNodes
- m.checkCoherency();
- self.assertRaises(InterpKernelException,m.checkCoherency1);
+ m.checkConsistencyLight();
+ self.assertRaises(InterpKernelException,m.checkConsistency);
m.getNodalConnectivity().setIJ(8,0,8);#OK
- m.checkCoherency();
- m.checkCoherency1();
+ m.checkConsistencyLight();
+ m.checkConsistency();
elts=[1,5]
m.convertToPolyTypes(elts);
- m.checkCoherency();
- m.checkCoherency1();
+ m.checkConsistencyLight();
+ m.checkConsistency();
m.getNodalConnectivity().setIJ(2,0,9);#9>=NbOfNodes
- m.checkCoherency();
- self.assertRaises(InterpKernelException,m.checkCoherency1);
+ m.checkConsistencyLight();
+ self.assertRaises(InterpKernelException,m.checkConsistency);
m.getNodalConnectivity().setIJ(2,0,-3);
- m.checkCoherency();
- self.assertRaises(InterpKernelException,m.checkCoherency1);
+ m.checkConsistencyLight();
+ self.assertRaises(InterpKernelException,m.checkConsistency);
m.getNodalConnectivity().setIJ(2,0,-1);
- m.checkCoherency();
- self.assertRaises(InterpKernelException,m.checkCoherency1);#Throw because cell#0 is not a polyhedron
+ m.checkConsistencyLight();
+ self.assertRaises(InterpKernelException,m.checkConsistency);#Throw because cell#0 is not a polyhedron
m.getNodalConnectivity().setIJ(2,0,4);
- m.checkCoherency();
- m.checkCoherency1();
+ m.checkConsistencyLight();
+ m.checkConsistency();
m.getNodalConnectivity().setIJ(7,0,-1);
- m.checkCoherency();
- m.checkCoherency1();#OK because we are in polyhedron connec
+ m.checkConsistencyLight();
+ m.checkConsistency();#OK because we are in polyhedron connec
m.getNodalConnectivity().setIJ(36,0,14);
- m.checkCoherency();
- self.assertRaises(InterpKernelException,m.checkCoherency1);#Throw beacause now cell 5 is a TETRA4 (14) so mimatch of number index and static type.
+ m.checkConsistencyLight();
+ self.assertRaises(InterpKernelException,m.checkConsistency);#Throw beacause now cell 5 is a TETRA4 (14) so mimatch of number index and static type.
pass
def testUnPolyze2(self):
m2.convertToPolyTypes([2]);
m2.unPolyze();
self.assertEqual(NORM_TETRA4,m2.getTypeOfCell(2));
- self.assertEqual(40,m2.getMeshLength());
+ self.assertEqual(40,m2.getNodalConnectivityArrayLen());
temp2=m2.getNodeIdsOfCell(2);
self.assertEqual(temp2,[0,1,2,3]);
- m2.checkCoherency1();
- m3=m2.deepCpy();
+ m2.checkConsistency();
+ m3=m2.deepCopy();
m2.unPolyze();
self.assertTrue(m3.isEqual(m2,1e-12));
pass
#
d1=DataArrayDouble.New();
self.assertTrue(not d.isEqual(d1,1e-12));
- d1.cpyFrom(d);
+ d1.deepCopyFrom(d);
self.assertTrue(d.isEqual(d1,1e-12));
- d1.cpyFrom(d);
+ d1.deepCopyFrom(d);
self.assertTrue(d.isEqual(d1,1e-12));
d1.rearrange(2);
self.assertTrue(not d.isEqual(d1,1e-12));
- d1.cpyFrom(d);
+ d1.deepCopyFrom(d);
self.assertTrue(d.isEqual(d1,1e-12));
#
d2=d.convertToIntArr();
d4=DataArrayInt.New();
self.assertTrue(not d2.isEqual(d4));
- d4.cpyFrom(d2);
+ d4.deepCopyFrom(d2);
self.assertTrue(d2.isEqual(d4));
- d4.cpyFrom(d2);
+ d4.deepCopyFrom(d2);
self.assertTrue(d2.isEqual(d4));
d4.rearrange(2);
self.assertTrue(not d2.isEqual(d4));
- d4.cpyFrom(d2);
+ d4.deepCopyFrom(d2);
self.assertTrue(d2.isEqual(d4));
pass
def testSortCellsInMEDFileFrmt1(self):
m,m1=MEDCouplingDataForTest.buildPointe_1();
- m2=m.deepCpy()
+ m2=m.deepCopy()
da=DataArrayInt.New()
da.setValues([0,1,2,14,3,12,4,5,15,6,7,8,9,10,11,13],16,1)
daa=da.invertArrayN2O2O2N(16)
#
d.setIJ(6,0,9);
self.assertRaises(InterpKernelException,d.splitByValueRange,val2);
+ # non regression test in python wrapping
+ rg=DataArrayInt([0,10,29,56,75,102,121,148,167,194,213,240,259,286,305,332,351,378,397,424,443,470,489,516])
+ a,b,c=DataArrayInt([75]).splitByValueRange(rg)
+ assert(a.isEqual(DataArrayInt([4])))
+ assert(b.isEqual(DataArrayInt([0])))
+ assert(c.isEqual(DataArrayInt([4])))
pass
def testUMeshSplitProfilePerType1(self):
vals1=[3,5,1,2,0,8]
expected1=[0,3,8,9,11,11,19]
d.setValues(vals1,6,1);
- d.computeOffsets2();
+ d.computeOffsetsFull();
self.assertEqual(7,d.getNumberOfTuples());
self.assertEqual(1,d.getNumberOfComponents());
for i in xrange(7):
tab=[1.2,1.3,2.2,2.3,3.2,3.3,4.2,4.3,5.2,5.3]
d.setValues(tab,5,2);
f.setArray(d);
- f.checkCoherency();
+ f.checkConsistencyLight();
#
self.assertAlmostEqual(11.209371079592289,f.norm2(),14);
#
tab=[2.3,-1.2,6.3,-7.8,2.9,7.7,2.1,0.,3.6,-7.6]
d.setValues(tab,5,2);
f.setArray(d);
- f.checkCoherency();
+ f.checkConsistencyLight();
#
self.assertAlmostEqual(7.8,f.normMax(),14);
#
expected2=[0,5,14,19,42,49,86,95,108,159]
self.assertEqual(expected1,da.getValues());
self.assertEqual(expected2,dai.getValues());
- m.checkCoherency2()
+ m.checkConsistency()
pass
def testNonRegressionCopyTinyStrings(self):
m=MEDCouplingDataForTest.build2DTargetMesh_1()
f1=m.getMeasureField(True)
f1.getArray().setInfoOnComponent(0,"P [N/m^2]")
- bary=m.getBarycenterAndOwner()
+ bary=m.computeCellCenterOfMass()
f2=f1.buildNewTimeReprFromThis(NO_TIME,False)
f2.setArray(bary)
self.assertRaises(InterpKernelException,f1.copyTinyAttrFrom,f2)
coordsZ.setValues(arrZ,4,1);
mesh.setCoords(coordsX,coordsY,coordsZ);
f=mesh.getMeasureField(True)
- mesh2=mesh.deepCpy()
+ mesh2=mesh.deepCopy()
for myId in [0,1,2,10,11,12,20,21,22]:
f=mesh.getMeasureField(True)
f.changeUnderlyingMesh(mesh2,myId,1e-12);
a.setValues(arr,5,1);
b=DataArrayInt.New();
b.setValues(arrI,3,1);
- ret,newNbTuple=DataArrayInt.BuildOld2NewArrayFromSurjectiveFormat2(10,a,b);
+ ret,newNbTuple=DataArrayInt.ConvertIndexArrayToO2N(10,a,b);
expected=[0,1,2,0,3,4,5,4,6,4]
self.assertEqual(10,ret.getNbOfElems());
self.assertEqual(7,newNbTuple);
self.assertEqual(1,ret.getNumberOfComponents());
self.assertEqual(expected,ret.getValues());
- self.assertRaises(InterpKernelException,DataArrayInt.BuildOld2NewArrayFromSurjectiveFormat2,9,a,b);
+ self.assertRaises(InterpKernelException,DataArrayInt.ConvertIndexArrayToO2N,9,a,b);
pass
def testDADIReverse1(self):
mesh=MEDCouplingDataForTest.build2DTargetMesh_1();
#
mesh2,desc,descIndx,revDesc,revDescIndx=mesh.buildDescendingConnectivity2();
- mesh2.checkCoherency();
+ mesh2.checkConsistencyLight();
self.assertEqual(1,mesh2.getMeshDimension());
self.assertEqual(13,mesh2.getNumberOfCells());
self.assertEqual(14,revDescIndx.getNbOfElems()); self.assertEqual(14,revDescIndx.getNumberOfTuples());
m1c.setCoordsAt(1,coordsY);
m1=m1c.buildUnstructured()
m1bis=m1.buildPartOfMySelf([3,4,5],False)
- m2=m1.deepCpy()
+ m2=m1.deepCopy()
m2=m2.buildPartOfMySelf([0,1,2],False)
m2.translate([0.5,0.5])
#
myCoords1.setValues(m1Coords,25,2);
m1.setCoords(myCoords1);
#
- m11=m1.deepCpy();
+ m11=m1.deepCopy();
m11.tessellate2D(1.);
self.assertTrue(m11.getCoords().isEqual(m11.getCoords(),1e-12));
expected1=[5,0,3,11,1,5,3,4,12,2,1,11,5,5,15,3,0,5,6,16,4,3,15,5,5,5,0,7,19,5,6,5,19,7,8,20,5,0,1,23,7,5,1,2,24,8,7,23]
self.assertEqual(expected1,m11.getNodalConnectivity().getValues());
self.assertEqual(expected2,m11.getNodalConnectivityIndex().getValues());
#
- m12=m1.deepCpy();
+ m12=m1.deepCopy();
m12.tessellate2D(0.5);
self.assertEqual(41,m12.getNumberOfNodes());
expected3=[5,0,3,25,26,1,5,3,4,27,28,2,1,26,25,5,5,29,30,3,0,5,6,31,32,4,3,30,29,5,5,5,0,7,33,34,5,6,5,34,33,7,8,35,36,5,0,1,37,38,7,5,1,2,39,40,8,7,38,37]
myCoords = DataArrayDouble.New(mcoords, 3, 2)
m1.setCoords(myCoords)
- m2 = m1.deepCpy()
- m2.tessellate2DCurve(0.1)
+ m2 = m1.deepCopy()
+ m2.tessellate2D(0.1)
# If the following raises, the test will fail automatically:
- m2.checkCoherency1(0.0) # eps param not used
+ m2.checkConsistency(0.0) # eps param not used
def testIntersect2DMeshesTmp4(self):
m1Coords=[0.,0.,1.,0.,1.5,0.,0.,1.,0.,1.5,-1.,0.,-1.5,0.,0.,-1,0.,-1.5,0.5,0.,1.25,0.,0.70710678118654757,0.70710678118654757,1.0606601717798214,1.0606601717798214,0.,0.5,0.,1.25,-0.70710678118654757,0.70710678118654757,-1.0606601717798214,1.0606601717798214,-0.5,0.,-1.25,0.,-0.70710678118654757,-0.70710678118654757,-1.0606601717798214,-1.0606601717798214,0.,-0.5,0.,-1.25,0.70710678118654757,-0.70710678118654757,1.0606601717798214,-1.0606601717798214];
da2=DataArrayDouble.New();
da2.setValues(data2,5,2);
#
- dac=da.deepCpy();
- dac.setContigPartOfSelectedValues2(1,da2,2,4,1);
+ dac=da.deepCopy();
+ dac.setContigPartOfSelectedValuesSlice(1,da2,2,4,1);
expected3=[1.,11.,0.,30.,11.,41.,4.,14.,5.,15.,6.,16.,7.,17.]
for i in xrange(14):
self.assertAlmostEqual(expected3[i],dac.getIJ(0,i),14);
pass
#
- dac=da.deepCpy();
- self.assertRaises(InterpKernelException,dac.setContigPartOfSelectedValues2,3,da2,0,5,1);
- self.assertRaises(InterpKernelException,dac.setContigPartOfSelectedValues2,0,da2,4,6,1);
- self.assertRaises(InterpKernelException,dac.setContigPartOfSelectedValues2,3,da2,5,0,1);
- dac.setContigPartOfSelectedValues2(3,da2,1,5,1);
+ dac=da.deepCopy();
+ self.assertRaises(InterpKernelException,dac.setContigPartOfSelectedValuesSlice,3,da2,0,5,1);
+ self.assertRaises(InterpKernelException,dac.setContigPartOfSelectedValuesSlice,0,da2,4,6,1);
+ self.assertRaises(InterpKernelException,dac.setContigPartOfSelectedValuesSlice,3,da2,5,0,1);
+ dac.setContigPartOfSelectedValuesSlice(3,da2,1,5,1);
expected4=[1.,11.,2.,12.,3.,13.,9.,39.,0.,30.,11.,41.,12.,42.]
for i in xrange(14):
self.assertAlmostEqual(expected4[i],dac.getIJ(0,i),14);
#
ids=DataArrayInt.New();
ids.alloc(3,1);
- dac=da.deepCpy();
+ dac=da.deepCopy();
ids.setIJ(0,0,2); ids.setIJ(1,0,0); ids.setIJ(2,0,4);
dac.setContigPartOfSelectedValues(2,da2,ids);
expected5=[1.,11.,2.,12.,0.,30.,8.,38.,12.,42.,6.,16.,7.,17.]
self.assertAlmostEqual(expected5[i],dac.getIJ(0,i),14);
pass
#
- dac=da.deepCpy();
+ dac=da.deepCopy();
ids.setIJ(0,0,2); ids.setIJ(1,0,5); ids.setIJ(2,0,4);
self.assertRaises(InterpKernelException,dac.setContigPartOfSelectedValues,1,da2,ids);
ids.setIJ(0,0,2); ids.setIJ(1,0,2); ids.setIJ(2,0,-1);
self.assertRaises(InterpKernelException,dac.setContigPartOfSelectedValues,5,da2,ids);
#
ids.setIJ(0,0,2); ids.setIJ(1,0,2); ids.setIJ(2,0,1);
- dac=da.deepCpy();
+ dac=da.deepCopy();
dac.setContigPartOfSelectedValues(4,da2,ids);
expected6=[1.,11.,2.,12.,3.,13.,4.,14.,0.,30.,0.,30.,9.,39.]
for i in xrange(14):
da2=DataArrayInt.New();
da2.setValues(data2,5,2);
#
- dac=da.deepCpy();
- dac.setContigPartOfSelectedValues2(1,da2,2,4,1);
+ dac=da.deepCopy();
+ dac.setContigPartOfSelectedValuesSlice(1,da2,2,4,1);
expected3=[1,11,0,30,11,41,4,14,5,15,6,16,7,17]
for i in xrange(14):
self.assertEqual(expected3[i],dac.getIJ(0,i));
pass
#
- dac=da.deepCpy();
- self.assertRaises(InterpKernelException,dac.setContigPartOfSelectedValues2,3,da2,0,5,1);
- self.assertRaises(InterpKernelException,dac.setContigPartOfSelectedValues2,0,da2,4,6,1);
- self.assertRaises(InterpKernelException,dac.setContigPartOfSelectedValues2,3,da2,5,0,1);
- dac.setContigPartOfSelectedValues2(3,da2,1,5,1);
+ dac=da.deepCopy();
+ self.assertRaises(InterpKernelException,dac.setContigPartOfSelectedValuesSlice,3,da2,0,5,1);
+ self.assertRaises(InterpKernelException,dac.setContigPartOfSelectedValuesSlice,0,da2,4,6,1);
+ self.assertRaises(InterpKernelException,dac.setContigPartOfSelectedValuesSlice,3,da2,5,0,1);
+ dac.setContigPartOfSelectedValuesSlice(3,da2,1,5,1);
expected4=[1,11,2,12,3,13,9,39,0,30,11,41,12,42]
for i in xrange(14):
self.assertEqual(expected4[i],dac.getIJ(0,i));
#
ids=DataArrayInt.New();
ids.alloc(3,1);
- dac=da.deepCpy();
+ dac=da.deepCopy();
ids.setIJ(0,0,2); ids.setIJ(1,0,0); ids.setIJ(2,0,4);
dac.setContigPartOfSelectedValues(2,da2,ids);
expected5=[1,11,2,12,0,30,8,38,12,42,6,16,7,17]
self.assertEqual(expected5[i],dac.getIJ(0,i));
pass
#
- dac=da.deepCpy();
+ dac=da.deepCopy();
ids.setIJ(0,0,2); ids.setIJ(1,0,5); ids.setIJ(2,0,4);
self.assertRaises(InterpKernelException,dac.setContigPartOfSelectedValues,1,da2,ids);
ids.setIJ(0,0,2); ids.setIJ(1,0,2); ids.setIJ(2,0,-1);
self.assertRaises(InterpKernelException,dac.setContigPartOfSelectedValues,5,da2,ids);
#
ids.setIJ(0,0,2); ids.setIJ(1,0,2); ids.setIJ(2,0,1);
- dac=da.deepCpy();
+ dac=da.deepCopy();
dac.setContigPartOfSelectedValues(4,da2,ids);
expected6=[1,11,2,12,3,13,4,14,0,30,0,30,9,39]
for i in xrange(14):
mesh=MEDCouplingDataForTest.build3DSourceMesh_1();
#
mesh2,desc,descIndx,revDesc,revDescIndx=mesh.buildDescendingConnectivity2();
- mesh2.checkCoherency();
+ mesh2.checkConsistencyLight();
self.assertEqual(2,mesh2.getMeshDimension());
self.assertEqual(30,mesh2.getNumberOfCells());
self.assertEqual(31,revDescIndx.getNbOfElems()); self.assertEqual(31,revDescIndx.getNumberOfTuples());
vec1=[0.,0.,1.]
for i in xrange(18):
vec2=[3.*cos(pi/9.*i),3.*sin(pi/9.*i)];
- m1Cpy=m1.deepCpy();
+ m1Cpy=m1.deepCopy();
m1Cpy.translate(vec2);
self.assertRaises(InterpKernelException,m1Cpy.are2DCellsNotCorrectlyOriented,vec1,False);
m1Cpy.changeSpaceDimension(3);