From: Anthony Geay Date: Wed, 22 Sep 2021 07:04:00 +0000 (+0200) Subject: [EDF24091] : Use of area per cell field was missing in computation of Force in Torseu... X-Git-Tag: V9_8_0a1 X-Git-Url: http://git.salome-platform.org/gitweb/?a=commitdiff_plain;h=7be84a0cf3a2c2bfff1fd9df2532e3a967a731d3;p=tools%2Fparavisaddons_common.git [EDF24091] : Use of area per cell field was missing in computation of Force in TorseurCIH filter --- diff --git a/src/TorseurCIH/Test.py b/src/TorseurCIH/Test.py index dfff8c4..efbf7ec 100644 --- a/src/TorseurCIH/Test.py +++ b/src/TorseurCIH/Test.py @@ -40,11 +40,16 @@ def fff(initialVect,normalFace,OM,area_field): for expo in range(5): pos,p,v = fffff(initialVect,normalFace,OM,area_field,[pos+i*(10**-expo) for i in range(-9,10)]) return pos,p,v - -fname = "slice.med" + +""" +EDF24091 : probleme de calcul dans TorseurCIH +""" + +fname = "Case_22_09_21.med" +fieldName = "LIN_____SIEF_NOEU" mm=MEDFileMesh.New(fname) m=mm[0] -f1ts = MEDFileField1TS(fname,"RESUME__SIEF_NOEU") +f1ts = MEDFileField1TS(fname,fieldName) f = f1ts.field(mm) m = f.getMesh() area_field = m.getMeasureField(True) @@ -69,6 +74,7 @@ F_y = matrix[:,3]*eqn[:,0] + matrix[:,1]*eqn[:,1] + matrix[:,5]*eqn[:,2] F_z = matrix[:,4]*eqn[:,0] + matrix[:,5]*eqn[:,1] + matrix[:,2]*eqn[:,2] # F = DataArrayDouble.Meld([F_x,F_y,F_z]) +F[:] *= area_vector # ZeForce = DataArrayDouble(F.accumulate(),1,3) normalFace = DataArrayDouble(eqn.accumulate(),1,3) @@ -120,3 +126,5 @@ f.setArray(new_dist_to_base_X) f.setName("dist") f.writeVTK("distEig.vtu")""" #mat*w[:,0] + +print("{:g}".format(ForceNormale[0,0])) diff --git a/src/TorseurCIH/plugin/TorseurCIHModule/vtkTorseurCIH.cxx b/src/TorseurCIH/plugin/TorseurCIHModule/vtkTorseurCIH.cxx index 9ac9f26..f9f43b9 100644 --- a/src/TorseurCIH/plugin/TorseurCIHModule/vtkTorseurCIH.cxx +++ b/src/TorseurCIH/plugin/TorseurCIHModule/vtkTorseurCIH.cxx @@ -702,7 +702,10 @@ vtkSmartPointer ComputeTorseurCIH(vtkUnstructuredGrid* usgIn) F_y = ForceBuilder({ 3, 1, 5 }, matrix, eqn); F_z = ForceBuilder({ 4, 5, 2 }, matrix, eqn); } + // + // MCAuto F(DataArrayDouble::Meld({ F_x, F_y, F_z })); + F->multiplyEqual(area_vector); double ZeForce[3], normalFace[3]; F->accumulate(ZeForce); eqn->accumulate(normalFace);