# -*- coding: utf-8 -*-
-# Copyright (C) 2007-2016 CEA/DEN, EDF R&D
+# Copyright (C) 2007-2024 CEA, EDF
#
# This library is free software; you can redistribute it and/or
# modify it under the terms of the GNU Lesser General Public
# See http://www.salome-platform.org/ or email : webmaster.salome@opencascade.com
#
-from MEDCoupling import *
+import sys
+from medcoupling import *
import unittest
from math import pi,e,sqrt,cos,sin
from datetime import datetime
da.iota(7)
da.rearrange(5)
da.setInfoOnComponent(0,"X [m]") ; da.setInfoOnComponent(1,"Y [km]") ; da.setInfoOnComponent(2,"Y [m]")
- da.setInfoOnComponent(3,"Z [W]") ; da.setInfoOnComponent(4,"ZZ [km]") ;
+ da.setInfoOnComponent(3,"Z [W]") ; da.setInfoOnComponent(4,"ZZ [km]") ;
da[:,2]=3
self.assertEqual([7, 8, 3, 10, 11, 12, 13, 3, 15, 16, 17, 18, 3, 20, 21, 22, 23, 3, 25, 26],da.getValues())
da.rearrange(1) ; da.iota(7) ; da.rearrange(5)
da.iota(7)
da.rearrange(5)
da.setInfoOnComponent(0,"X [m]") ; da.setInfoOnComponent(1,"Y [km]") ; da.setInfoOnComponent(2,"Y [m]")
- da.setInfoOnComponent(3,"Z [W]") ; da.setInfoOnComponent(4,"ZZ [km]") ;
+ da.setInfoOnComponent(3,"Z [W]") ; da.setInfoOnComponent(4,"ZZ [km]") ;
da[:,2]=3.
self.assertEqual([7., 8., 3., 10., 11., 12., 13., 3., 15., 16., 17., 18., 3., 20., 21., 22., 23., 3., 25., 26.],da.getValues())
da.rearrange(1) ; da.iota(7) ; da.rearrange(5)
resToTest=f.getLocalizationOfDiscr();
self.assertEqual(3,resToTest.getNumberOfComponents());
self.assertEqual(8,resToTest.getNumberOfTuples());#2+3+4+4 gauss points for resp TRI3,TRI6,QUAD4,QUAD8
- expected3=[1.312,3.15,1.02, 0.56,3.3,0.6, 2.18,1.1,0.2, 1.18,1.54,0.98, 1.56,0.3,3.6, 1.613,0.801,4.374, 2.6,2.4,2.3, 2.31232,2.3933985,1.553255]
+ expected3=[1.312,3.15,1.02, 0.56,3.3,0.6, 2.20,1.0,0.2, 2.44, 2.52,1.4, 1.56,0.3,3.6, 1.613,0.801,4.374, 2.6,2.4,2.3, 2.31232,2.3933985,1.553255]
for i in range(24):
self.assertAlmostEqual(expected3[i],resToTest.getIJ(0,i),14);
pass
vals1=[1.1,2.1,3.1,4.1,5.2,6.2,7.2,8.2,9.2,10.2]
da.setValues(vals1,10,1);
f.setArray(da);
+ f.checkConsistencyLight()
#
loc=[0.64637931739890486, -0.16185896817550552, 0.22678966365273748]
locs=f.getValueOnMulti(loc);
m.checkConsistency();#OK because we are in polyhedron connec
m.getNodalConnectivity().setIJ(36,0,14);
m.checkConsistencyLight();
- self.assertRaises(InterpKernelException,m.checkConsistency);#Throw beacause now cell 5 is a TETRA4 (14) so mimatch of number index and static type.
+ self.assertRaises(InterpKernelException,m.checkConsistency);#Throw because now cell 5 is a TETRA4 (14) so mismatch of number index and static type.
pass
def testUnPolyze2(self):
self.assertTrue(d.isEqual(d1,1e-12));
#
d2=d.convertToIntArr();
- d4=DataArrayInt.New();
+ d4=DataArrayInt32.New();
self.assertTrue(not d2.isEqual(d4));
d4.deepCopyFrom(d2);
self.assertTrue(d2.isEqual(d4));
self.assertTrue(f1.isEqual(f2,1e-12,1e-12));
#
pass
-
+
def testGetDistributionOfTypes1(self):
m=MEDCouplingDataForTest.build2DTargetMesh_1();
tab1=[2,0,1,3,4]
f=MEDCouplingFieldDouble.New(ON_CELLS,ONE_TIME);
f.setMesh(m);
#
- d=DataArrayDouble.New();
+ d=DataArrayDouble.New(); d.alloc(0,2)
+ res = d.normMaxPerComponent()
+ self.assertAlmostEqual(-1.0, res[0],14)
+ self.assertAlmostEqual(-1.0, res[1],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);
+
+ res = d.normMaxPerComponent()
+ self.assertAlmostEqual(6.3, res[0],14)
+ self.assertAlmostEqual(7.8, res[1],14)
+
f.setArray(d);
f.checkConsistencyLight();
#
- self.assertAlmostEqual(7.8,f.normMax(),14);
+ res = f.normMax()
+ self.assertAlmostEqual(6.3,res[0],14);
+ self.assertAlmostEqual(7.8,res[1],14);
#
+ self.assertAlmostEqual(6.3,f.normMax(0),14);
+ self.assertAlmostEqual(7.8,f.normMax(1),14);
+
pass
def testFindAndCorrectBadOriented3DExtrudedCells1(self):
m3.setName(m.getName());
self.assertTrue(m.isEqual(m3,1e-12));
pass
-
+
def testChangeUnderlyingMeshWithCMesh1(self):
mesh=MEDCouplingCMesh.New();
coordsX=DataArrayDouble.New();
self.assertEqual(0,c.getNbOfElems());
self.assertEqual(1,cI.getNbOfElems());
self.assertEqual([0],cI.getValues())
-
+
array12=[0.]*(6*5)
da.setValues(array12,6,5) #bad NumberOfComponents
self.assertRaises(InterpKernelException, da.findCommonTuples, 1e-2);
self.assertAlmostEqual(expected5[i],m3.getCoords().getIJ(0,i),12);
pass
pass
-
+
def testBuildPartOfMySelfSafe1(self):
mesh=MEDCouplingDataForTest.build2DTargetMesh_1()
self.assertRaises(InterpKernelException,mesh.buildPartOfMySelf,[0,-1,4,2],True)
myCoords = DataArrayDouble.New(mcoords, 3, 2)
m1.setCoords(myCoords)
-
+
m2 = m1.deepCopy()
m2.tessellate2D(0.1)
# If the following raises, the test will fail automatically:
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];
- m1Conn=[0,3,1,13,11,9, 3,4,2,1,14,12,10,11, 5,3,0,15,13,17, 6,4,3,5,16,14,15,18, 5,0,7,17,21,19, 6,5,7,8,18,19,22,20, 0,1,7,9,23,21, 1,2,8,7,10,24,22,23];
- m1=MEDCouplingUMesh.New();
- m1.setMeshDimension(2);
- m1.allocateCells(8);
- m1.insertNextCell(NORM_TRI6,6,m1Conn[0:6]);
- m1.insertNextCell(NORM_QUAD8,8,m1Conn[6:14]);
- m1.insertNextCell(NORM_TRI6,6,m1Conn[14:20]);
- m1.insertNextCell(NORM_QUAD8,8,m1Conn[20:28]);
- m1.insertNextCell(NORM_TRI6,6,m1Conn[28:34]);
- m1.insertNextCell(NORM_QUAD8,8,m1Conn[34:42]);
- m1.insertNextCell(NORM_TRI6,6,m1Conn[42:48]);
- m1.insertNextCell(NORM_QUAD8,8,m1Conn[48:56]);
- m1.finishInsertingCells();
- myCoords1=DataArrayDouble.New();
- myCoords1.setValues(m1Coords,25,2);
- m1.setCoords(myCoords1);
- #
- m2Coords=[0.,0.,1.1,0.,1.1,1.,0.,1.,1.7,0.,1.7,1.,-1.1,1.,-1.1,0.,-1.7,0.,-1.7,1.,-1.7,-1,-1.1,-1.,0.,-1.,1.1,-1,1.7,-1.]
- m2Conn=[0,3,2,1, 1,2,5,4, 7,6,3,0, 8,9,6,7, 7,0,12,11, 8,7,11,10, 0,1,13,12, 1,4,14,13]
- m2=MEDCouplingUMesh.New();
- m2.setMeshDimension(2);
- m2.allocateCells(8);
- for i in range(8):
- m2.insertNextCell(NORM_QUAD4,4,m2Conn[4*i:4*(i+1)])
- pass
- m2.finishInsertingCells();
- myCoords2=DataArrayDouble.New();
- myCoords2.setValues(m2Coords,15,2);
- m2.setCoords(myCoords2);
- #
- m3,d1,d2=MEDCouplingUMesh.Intersect2DMeshes(m2,m1,1e-10)
- m3.unPolyze()
- #
- expected1=[0,0,1,1,2,2,3,3,4,4,5,5,6,6,7,7]
- expected2=[0,1,1,-1,2,3,3,-1,4,5,5,-1,6,7,7,-1]
- self.assertEqual(16,d1.getNumberOfTuples());
- self.assertEqual(16,d2.getNumberOfTuples());
- self.assertEqual(16,m3.getNumberOfCells());
- self.assertEqual(104,m3.getNumberOfNodes());
- self.assertEqual(2,m3.getSpaceDimension());
- self.assertEqual(expected1,d1.getValues());
- self.assertEqual(expected2,d2.getValues());
- expected3=[6,16,15,18,44,45,46,8,18,2,1,16,47,48,49,50,8,17,1,2,40,51,52,53,54,8,40,5,4,17,55,56,57,58,6,18,15,20,59,60,61,8,20,7,6,18,62,63,64,65,8,41,6,7,21,66,67,68,69,8,21,8,9,41,70,71,72,73,6,20,15,22,74,75,76,8,22,11,7,20,77,78,79,80,8,21,7,11,42,81,82,83,84,8,42,10,8,21,85,86,87,88,6,22,15,16,89,90,91,8,16,1,13,22,92,93,94,95,8,43,13,1,17,96,97,98,99,8,17,4,14,43,100,101,102,103]
- expected4=[0,7,16,25,34,41,50,59,68,75,84,93,102,109,118,127,136]
- expected5=[0.,0.,1.1, 0.,1.1,1.,0.,1.,1.7,0.,1.7,1.,-1.1,1.,-1.1,0.,-1.7,0.,-1.7,1.,-1.7,-1.,-1.1,-1.,0.,-1.,1.1,-1.,1.7,-1.,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.,0.7071067811865476,0.7071067811865476,1.0606601717798214,1.0606601717798214,0.,0.5,0.,1.25,-0.7071067811865476,0.7071067811865476,-1.0606601717798214,1.0606601717798214,-0.5,0.,-1.25,0.,-0.7071067811865476,-0.7071067811865476,-1.0606601717798214,-1.0606601717798214,0.,-0.5,0.,-1.25,0.7071067811865476,-0.7071067811865476,1.0606601717798214,-1.0606601717798214,1.1180339887498951,1.,-1.1180339887498951,1.,-1.1180339887498951,-1.,1.1180339887498951,-1.,0.5,0.,0.,0.5,0.7071067811865477,0.7071067811865476,0.55,1.,1.1,0.5,1.05,0.,0.7071067811865477,0.7071067811865475,1.3,0.,1.1,0.5,1.1090169943749475,1.,1.4012585384440737,0.535233134659635,1.4090169943749475,1.,1.7,0.5,1.6,0.,1.4012585384440737,0.535233134659635,0.,0.5,-0.5,0.,-0.7071067811865477,0.7071067811865476,-1.05,0.,-1.1,0.5,-0.55,1.,-0.7071067811865478,0.7071067811865475,-1.1090169943749475,1.,-1.1,0.5,-1.3,0.,-1.4012585384440737,0.5352331346596344,-1.6,0.,-1.7,0.5,-1.4090169943749475,1.,-1.4012585384440737,0.5352331346596344,-0.5,0.,0.,-0.5,-0.7071067811865475,-0.7071067811865477,-0.55,-1.,-1.1,-0.5,-1.05,0.,-0.7071067811865475,-0.7071067811865477,-1.3,0.,-1.1,-0.5,-1.1090169943749475,-1.,-1.4012585384440734,-0.5352331346596354,-1.4090169943749475,-1.,-1.7,-0.5,-1.6,0.,-1.4012585384440732,-0.5352331346596354,0.,-0.5,0.5,0.,0.7071067811865475,-0.7071067811865477,1.05,0.,1.1,-0.5,0.55,-1.,0.7071067811865475,-0.7071067811865477,1.1090169943749475,-1.,1.1,-0.5,1.3,0.,1.4012585384440737,-0.535233134659635,1.6,0.,1.7,-0.5,1.4090169943749475,-1.,1.4012585384440737,-0.535233134659635]
- self.assertEqual(136,m3.getNodalConnectivity().getNumberOfTuples());
- self.assertEqual(17,m3.getNodalConnectivityIndex().getNumberOfTuples());
- self.assertEqual(expected3,m3.getNodalConnectivity().getValues());
- self.assertEqual(expected4,m3.getNodalConnectivityIndex().getValues());
- for i in range(208):
- self.assertAlmostEqual(expected5[i],m3.getCoords().getIJ(0,i),12);
- pass
- pass
-
def testGetCellIdsCrossingPlane1(self):
mesh3D,mesh2D=MEDCouplingDataForTest.build3DExtrudedUMesh_1();
vec=[-0.07,1.,0.07]
for i in range(135):
self.assertAlmostEqual(expected11[i],slice1.getCoords().getIJ(0,i),12);
pass
+ ##
+ coo = DataArrayDouble([1.8686305176182501,0.85678785370447097,7.4, 1.8686305176182501,0.85678785370447097,7.5, 1.8663408654534299,0.82910039403216995,7.4, 1.8663408654534299,0.82910039403216995,7.5, 1.8370211426271501,0.83286926189135702,7.4, 1.8370211426271501,0.83286926189135702,7.5, 1.84595839792064,0.86012397150595199,7.4, 1.84595839792064,0.86012397150595199,7.5], 8,3)
+ conn = DataArrayInt([18,0,2,4,6,1,3,5,7])
+ connI = DataArrayInt([0,9])
+
+ mesh3D_2=MEDCouplingUMesh.New();
+ mesh3D_2.setName("3DMesh_2");
+ mesh3D_2.setMeshDimension(3);
+ mesh3D_2.setCoords(coo);
+ mesh3D_2.setConnectivity(conn,connI,True);
+
+ expected12=[0]
+ expected13=[5,5,9,8,4]
+ expected14=[0,5]
+ expected15=[1.8686305176182501,0.85678785370447097,7.4, 1.8686305176182501,0.85678785370447097,7.5, 1.8663408654534299,0.82910039403216995,7.4, 1.8663408654534299,0.82910039403216995,7.5, 1.8370211426271501,0.83286926189135702,7.4, 1.8370211426271501,0.83286926189135702,7.5, 1.84595839792064,0.86012397150595199, 7.4, 1.84595839792064,0.86012397150595199,7.5, 1.8666525378798646,0.83286927118760312,7.4, 1.8666525378798646,0.83286927118760312,7.5]
+
+ y_cut = 0.8328692711876031
+ ori, vec = [0.0, y_cut, 0.0], [0.0,1.0,0.0]
+ slice1, ids = mesh3D_2.buildSlice3D(DataArrayDouble(ori,1,3), DataArrayDouble(vec,1,3), 1.0e-8)
+ self.assertEqual(2,slice1.getMeshDimension());
+ self.assertEqual(3,slice1.getSpaceDimension());
+ self.assertEqual(10,slice1.getNumberOfNodes());
+ self.assertEqual(1,slice1.getNumberOfCells());
+ self.assertEqual(1,ids.getNumberOfTuples());
+ self.assertEqual(5,slice1.getNodalConnectivity().getNumberOfTuples());
+ self.assertEqual(2,slice1.getNodalConnectivityIndex().getNumberOfTuples());
+ self.assertEqual(expected12,ids.getValues());
+ self.assertEqual(expected13,slice1.getNodalConnectivity().getValues());
+ self.assertEqual(expected14,slice1.getNodalConnectivityIndex().getValues());
+ for i in range(27):
+ self.assertAlmostEqual(expected15[i],slice1.getCoords().getIJ(0,i),12);
+ pass
pass
-
def testBuildSlice3DSurf1(self):
mesh3D,mesh2D=MEDCouplingDataForTest.build3DExtrudedUMesh_1();
mesh2D=mesh3D.buildDescendingConnectivity()[0];
self.assertEqual(expected3[i],m1c.getNodeIdsOfCell(i))
pass
pass
-
+
pass
if __name__ == '__main__':