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Update copyrights
[modules/med.git]
/
src
/
MEDCouplingCorba_Swig
/
MEDCouplingCorbaSwigTest.py
diff --git
a/src/MEDCouplingCorba_Swig/MEDCouplingCorbaSwigTest.py
b/src/MEDCouplingCorba_Swig/MEDCouplingCorbaSwigTest.py
index 1b45eb98ed6f54ea9a509dd610b2abe874d6b42f..bf73c60f72bebcf3bfa6db80627e895a9be1ee10 100644
(file)
--- a/
src/MEDCouplingCorba_Swig/MEDCouplingCorbaSwigTest.py
+++ b/
src/MEDCouplingCorba_Swig/MEDCouplingCorbaSwigTest.py
@@
-1,4
+1,4
@@
-# Copyright (C) 2007-201
4
CEA/DEN, EDF R&D
+# Copyright (C) 2007-201
9
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
#
# This library is free software; you can redistribute it and/or
# modify it under the terms of the GNU Lesser General Public
@@
-18,7
+18,7
@@
#
# Author : Anthony Geay (CEA/DEN)
#
# Author : Anthony Geay (CEA/DEN)
-from
MEDC
oupling import *
+from
medc
oupling import *
import math
import os
import math
import os
@@
-78,7
+78,7
@@
class MEDCouplingCorbaServBasicsTest:
targetMesh.setName("MyMesh3D");
targetMesh.setDescription("build3DMesh");
targetMesh.allocateCells(12);
targetMesh.setName("MyMesh3D");
targetMesh.setDescription("build3DMesh");
targetMesh.allocateCells(12);
- for i in
x
range(8):
+ for i in range(8):
targetMesh.insertNextCell(NORM_HEXA8,8,targetConn[8*i:8*(i+1)]);
pass
targetMesh.finishInsertingCells();
targetMesh.insertNextCell(NORM_HEXA8,8,targetConn[8*i:8*(i+1)]);
pass
targetMesh.finishInsertingCells();
@@
-115,7
+115,7
@@
class MEDCouplingCorbaServBasicsTest:
targetMesh=MEDCouplingUMesh.New();
targetMesh.setMeshDimension(0);
targetMesh.allocateCells(8);
targetMesh=MEDCouplingUMesh.New();
targetMesh.setMeshDimension(0);
targetMesh.allocateCells(8);
- targetMesh.setName("Wonderful
l
0D mesh");
+ targetMesh.setName("Wonderful 0D mesh");
targetMesh.setDescription("build0DMesh");
targetConn=[]
targetMesh.insertNextCell(NORM_POINT1,1,[0]);
targetMesh.setDescription("build0DMesh");
targetConn=[]
targetMesh.insertNextCell(NORM_POINT1,1,[0]);
@@
-133,13
+133,13
@@
class MEDCouplingCorbaServBasicsTest:
myCoords.setInfoOnComponent(0,"X [m]");
myCoords.setInfoOnComponent(1,"YY [Pm]");
myCoords.setInfoOnComponent(2,"ZZZ [m]");
myCoords.setInfoOnComponent(0,"X [m]");
myCoords.setInfoOnComponent(1,"YY [Pm]");
myCoords.setInfoOnComponent(2,"ZZZ [m]");
- targetMesh.checkCo
herency
();
+ targetMesh.checkCo
nsistencyLight
();
return targetMesh;
def buildM1DMesh(self):
return targetMesh;
def buildM1DMesh(self):
- meshM1D=MEDCouplingUMesh.New("wonderful
l
-1 D mesh",-1);
+ meshM1D=MEDCouplingUMesh.New("wonderful -1 D mesh",-1);
meshM1D.setDescription("buildM1DMesh");
meshM1D.setDescription("buildM1DMesh");
- meshM1D.checkCo
herency
();
+ meshM1D.checkCo
nsistencyLight
();
return meshM1D;
def buildExtrudedMesh(self):
return meshM1D;
def buildExtrudedMesh(self):
@@
-147,7
+147,7
@@
class MEDCouplingCorbaServBasicsTest:
m2D.changeSpaceDimension(3);
m1D=self.build1DMesh();
retu=m2D.buildExtrudedMesh(m1D,0);
m2D.changeSpaceDimension(3);
m1D=self.build1DMesh();
retu=m2D.buildExtrudedMesh(m1D,0);
- ret=MEDCouplingExtrudedMesh.New(retu,m2D,2);
+ ret=MEDCoupling
Mapped
ExtrudedMesh.New(retu,m2D,2);
ret.setName("ExtrudedTestForCorbaTest");
ret.setDescription("buildExtrudedMesh");
return ret;
ret.setName("ExtrudedTestForCorbaTest");
ret.setDescription("buildExtrudedMesh");
return ret;
@@
-171,7
+171,7
@@
class MEDCouplingCorbaServBasicsTest:
targetMesh.setCoordsAt(1,a2);
#
#
targetMesh.setCoordsAt(1,a2);
#
#
- targetMesh.checkCo
herency
();
+ targetMesh.checkCo
nsistencyLight
();
#
return targetMesh;
#
return targetMesh;
@@
-201,7
+201,7
@@
class MEDCouplingCorbaServBasicsTest:
targetMesh.setCoords(a1);
targetMesh.setNodeGridStructure([4,5]);
#
targetMesh.setCoords(a1);
targetMesh.setNodeGridStructure([4,5]);
#
- targetMesh.checkCo
herency
();
+ targetMesh.checkCo
nsistencyLight
();
#
return targetMesh;
#
return targetMesh;
@@
-216,7
+216,7
@@
class MEDCouplingCorbaServBasicsTest:
a2=DataArrayInt([6,0,3,5,3,0,1,4,1,2,7,4,8,7,2,9],4*4,1)
targetMesh.setNodalConnectivity(a2)
#
a2=DataArrayInt([6,0,3,5,3,0,1,4,1,2,7,4,8,7,2,9],4*4,1)
targetMesh.setNodalConnectivity(a2)
#
- targetMesh.checkCo
herency
();
+ targetMesh.checkCo
nsistencyLight
();
#
return targetMesh;
#
return targetMesh;
@@
-232,7
+232,7
@@
class MEDCouplingCorbaServBasicsTest:
a3=DataArrayInt([0,4,8,12,15],5,1)
targetMesh.setNodalConnectivity(a2,a3)
#
a3=DataArrayInt([0,4,8,12,15],5,1)
targetMesh.setNodalConnectivity(a2,a3)
#
- targetMesh.checkCo
herency
();
+ targetMesh.checkCo
nsistencyLight
();
#
return targetMesh;
#
return targetMesh;
@@
-246,7
+246,7
@@
class MEDCouplingCorbaServBasicsTest:
tmp=mesh.getNumberOfCells()*6*[7.]
array.setValues(tmp,mesh.getNumberOfCells(),6);
fieldOnCells.setArray(array)
tmp=mesh.getNumberOfCells()*6*[7.]
array.setValues(tmp,mesh.getNumberOfCells(),6);
fieldOnCells.setArray(array)
- fieldOnCells.checkCo
herency
();
+ fieldOnCells.checkCo
nsistencyLight
();
return fieldOnCells;
def buildFieldNodeScalarOn2DNT(self):
return fieldOnCells;
def buildFieldNodeScalarOn2DNT(self):
@@
-260,13
+260,13
@@
class MEDCouplingCorbaServBasicsTest:
tmp=mesh.getNumberOfNodes()*5*[7.1234]
array.setValues(tmp,mesh.getNumberOfNodes(),5);
fieldOnNodes.setArray(array);
tmp=mesh.getNumberOfNodes()*5*[7.1234]
array.setValues(tmp,mesh.getNumberOfNodes(),5);
fieldOnNodes.setArray(array);
- fieldOnNodes.checkCo
herency
();
+ fieldOnNodes.checkCo
nsistencyLight
();
return fieldOnNodes;
def buildFieldScalarOn3DNT(self):
mesh=self.build3DMesh();
fieldOnCells=MEDCouplingFieldDouble.New(ON_CELLS,NO_TIME);
return fieldOnNodes;
def buildFieldScalarOn3DNT(self):
mesh=self.build3DMesh();
fieldOnCells=MEDCouplingFieldDouble.New(ON_CELLS,NO_TIME);
- fieldOnCells.setNature(
ConservativeVolumic
);
+ fieldOnCells.setNature(
IntensiveMaximum
);
fieldOnCells.setName("toto");
fieldOnCells.setDescription("my wonderful 3D field toto2");
fieldOnCells.setMesh(mesh);
fieldOnCells.setName("toto");
fieldOnCells.setDescription("my wonderful 3D field toto2");
fieldOnCells.setMesh(mesh);
@@
-274,7
+274,7
@@
class MEDCouplingCorbaServBasicsTest:
tmp=mesh.getNumberOfCells()*6*[7.]
array.setValues(tmp,mesh.getNumberOfCells(),6);
fieldOnCells.setArray(array);
tmp=mesh.getNumberOfCells()*6*[7.]
array.setValues(tmp,mesh.getNumberOfCells(),6);
fieldOnCells.setArray(array);
- fieldOnCells.checkCo
herency
();
+ fieldOnCells.checkCo
nsistencyLight
();
return fieldOnCells;
def buildFieldScalarOn3DSurfWT(self):
return fieldOnCells;
def buildFieldScalarOn3DSurfWT(self):
@@
-290,7
+290,7
@@
class MEDCouplingCorbaServBasicsTest:
array.setInfoOnComponents(["aaa","bbbb","ccccc"])
fieldOnCells.setArray(array);
fieldOnCells.setTime(6.7,1,4);
array.setInfoOnComponents(["aaa","bbbb","ccccc"])
fieldOnCells.setArray(array);
fieldOnCells.setTime(6.7,1,4);
- fieldOnCells.checkCo
herency
();
+ fieldOnCells.checkCo
nsistencyLight
();
return fieldOnCells;
def buildFieldScalarOn3DSurfCOTI(self):
return fieldOnCells;
def buildFieldScalarOn3DSurfCOTI(self):
@@
-306,7
+306,7
@@
class MEDCouplingCorbaServBasicsTest:
fieldOnCells.setArray(array);
fieldOnCells.setStartTime(6.7,1,4);
fieldOnCells.setEndTime(7.2,2,8);
fieldOnCells.setArray(array);
fieldOnCells.setStartTime(6.7,1,4);
fieldOnCells.setEndTime(7.2,2,8);
- fieldOnCells.checkCo
herency
();
+ fieldOnCells.checkCo
nsistencyLight
();
return fieldOnCells;
def buildFieldScalarOn2DLT(self):
return fieldOnCells;
def buildFieldScalarOn2DLT(self):
@@
-326,7
+326,7
@@
class MEDCouplingCorbaServBasicsTest:
fieldOnCells.setEndArray(array)
fieldOnCells.setStartTime(6.7,25,26);
fieldOnCells.setEndTime(17.2,125,126);
fieldOnCells.setEndArray(array)
fieldOnCells.setStartTime(6.7,25,26);
fieldOnCells.setEndTime(17.2,125,126);
- fieldOnCells.checkCo
herency
();
+ fieldOnCells.checkCo
nsistencyLight
();
return fieldOnCells;
def buildFieldGaussPt2DWT(self):
return fieldOnCells;
def buildFieldGaussPt2DWT(self):
@@
-353,7
+353,7
@@
class MEDCouplingCorbaServBasicsTest:
f.setGaussLocalizationOnType(NORM_QUAD4,_refCoo2,_gsCoo1,_wg1);
array=DataArrayDouble.New();
ptr=18*2*[None]
f.setGaussLocalizationOnType(NORM_QUAD4,_refCoo2,_gsCoo1,_wg1);
array=DataArrayDouble.New();
ptr=18*2*[None]
- for i in
x
range(18*2):
+ for i in range(18*2):
ptr[i]=float(i+1);
pass
array.setValues(ptr,18,2);
ptr[i]=float(i+1);
pass
array.setValues(ptr,18,2);
@@
-363,7
+363,7
@@
class MEDCouplingCorbaServBasicsTest:
f.setName("MyFirstFieldOnGaussPoint");
f.setTimeUnit("ms");
f.setDescription("mmmmmmmmmmmm");
f.setName("MyFirstFieldOnGaussPoint");
f.setTimeUnit("ms");
f.setDescription("mmmmmmmmmmmm");
- f.checkCo
herency
();
+ f.checkCo
nsistencyLight
();
return f;
def buildFieldGaussPtNE2DWT(self):
return f;
def buildFieldGaussPtNE2DWT(self):
@@
-376,14
+376,14
@@
class MEDCouplingCorbaServBasicsTest:
f.setDescription("MyDescriptionNE");
array=DataArrayDouble.New();
ptr=18*2*[None]
f.setDescription("MyDescriptionNE");
array=DataArrayDouble.New();
ptr=18*2*[None]
- for i in
x
range(18*2):
+ for i in range(18*2):
ptr[i]=float(i+7)
array.setValues(ptr,18,2);
array.setInfoOnComponent(0,"Power [MW]");
array.setInfoOnComponent(1,"Density [kg/m^3]");
f.setArray(array);
#
ptr[i]=float(i+7)
array.setValues(ptr,18,2);
array.setInfoOnComponent(0,"Power [MW]");
array.setInfoOnComponent(1,"Density [kg/m^3]");
f.setArray(array);
#
- f.checkCo
herency
();
+ f.checkCo
nsistencyLight
();
return f;
def buildFieldVectorOnExtrudedWT(self):
return f;
def buildFieldVectorOnExtrudedWT(self):
@@
-405,7
+405,7
@@
class MEDCouplingCorbaServBasicsTest:
array.setInfoOnComponent(1,"Density [kg/m^3]");
f.setArray(array);
#
array.setInfoOnComponent(1,"Density [kg/m^3]");
f.setArray(array);
#
- f.checkCo
herency
();
+ f.checkCo
nsistencyLight
();
return f
def buildFieldVectorOnCMeshWT(self):
return f
def buildFieldVectorOnCMeshWT(self):
@@
-427,7
+427,7
@@
class MEDCouplingCorbaServBasicsTest:
array.setInfoOnComponent(1,"Density [kg/m^3]");
f.setArray(array);
#
array.setInfoOnComponent(1,"Density [kg/m^3]");
f.setArray(array);
#
- f.checkCo
herency
();
+ f.checkCo
nsistencyLight
();
return f
def buildFieldTemplateCellOn2D(self):
return f
def buildFieldTemplateCellOn2D(self):
@@
-439,19
+439,19
@@
class MEDCouplingCorbaServBasicsTest:
def buildFieldTemplateNodeOn2D(self):
f1=self.buildFieldNodeScalarOn2DNT();
f2=MEDCouplingFieldTemplate.New(f1);
def buildFieldTemplateNodeOn2D(self):
f1=self.buildFieldNodeScalarOn2DNT();
f2=MEDCouplingFieldTemplate.New(f1);
- f2.setNature(
ConservativeVolumic
);
+ f2.setNature(
IntensiveMaximum
);
return f2
def buildFieldTemplateGaussPtOn2D(self):
f1=self.buildFieldGaussPt2DWT();
f2=MEDCouplingFieldTemplate.New(f1);
return f2
def buildFieldTemplateGaussPtOn2D(self):
f1=self.buildFieldGaussPt2DWT();
f2=MEDCouplingFieldTemplate.New(f1);
- f2.setNature(
Integral
);
+ f2.setNature(
ExtensiveMaximum
);
return f2
def buildFieldTemplateGaussNEOn2D(self):
f1=self.buildFieldGaussPtNE2DWT();
f2=MEDCouplingFieldTemplate.New(f1);
return f2
def buildFieldTemplateGaussNEOn2D(self):
f1=self.buildFieldGaussPtNE2DWT();
f2=MEDCouplingFieldTemplate.New(f1);
- f2.setNature(
IntegralGlobConstraint
);
+ f2.setNature(
ExtensiveConservation
);
return f2
def buildMultiFields1(self):
return f2
def buildMultiFields1(self):
@@
-611,7
+611,7
@@
class MEDCouplingCorbaServBasicsTest:
f4.setName("f4");
f4.setTime(2.7,25,26);
ret=MEDCouplingFieldOverTime.New([f0,f1,f2,f3,f4]);
f4.setName("f4");
f4.setTime(2.7,25,26);
ret=MEDCouplingFieldOverTime.New([f0,f1,f2,f3,f4]);
- ret.checkCo
herency
();
+ ret.checkCo
nsistencyLight
();
return ret;
def buildFileNameForIOR(self):
return ret;
def buildFileNameForIOR(self):
@@
-648,7
+648,7
@@
def testMesh():
myCoords=DataArrayDouble.New()
myCoords.setValues(coords,nbOfNodes,3);
mesh.setCoords(myCoords);
myCoords=DataArrayDouble.New()
myCoords.setValues(coords,nbOfNodes,3);
mesh.setCoords(myCoords);
- mesh.checkCo
herency
();
+ mesh.checkCo
nsistencyLight
();
myFalseConn=DataArrayInt.New()
myFalseConn.setValues(tab4,6,4)
return mesh
myFalseConn=DataArrayInt.New()
myFalseConn.setValues(tab4,6,4)
return mesh
@@
-659,7
+659,7
@@
def testField():
nbOfCells=mesh.getNumberOfCells()
field=MEDCouplingFieldDouble.New(ON_CELLS)
field.setMesh(mesh)
nbOfCells=mesh.getNumberOfCells()
field=MEDCouplingFieldDouble.New(ON_CELLS)
field.setMesh(mesh)
- field.setNature(
Integral
)
+ field.setNature(
ExtensiveMaximum
)
myCoords=DataArrayDouble.New()
sampleTab=[]
for i in range(nbOfCells*9):
myCoords=DataArrayDouble.New()
sampleTab=[]
for i in range(nbOfCells*9):