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//------------------------------------------------------------ |
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//------------------------------------------------------------ |
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// MAGiC |
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// Jean Christophe Cuilli�e et Vincent FRANCOIS |
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// D�artement de G�ie M�anique - UQTR |
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//------------------------------------------------------------ |
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// Le projet MAGIC est un projet de recherche du d�artement |
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// de g�ie m�anique de l'Universit�du Qu�ec � |
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// Trois Rivi�es |
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// Les librairies ne peuvent �re utilis�s sans l'accord |
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// des auteurs (contact : francois@uqtr.ca) |
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//------------------------------------------------------------ |
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//------------------------------------------------------------ |
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// |
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// fem_tetra.cpp |
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// |
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//------------------------------------------------------------ |
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//------------------------------------------------------------ |
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// COPYRIGHT 2000 |
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// Version du 02/03/2006 �11H22 |
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//------------------------------------------------------------ |
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//------------------------------------------------------------ |
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#include "gestionversion.h" |
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#include <math.h> |
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#include "fem_element3.h" |
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#include "xfem_element3.h" |
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#include "fem_noeud.h" |
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#include "fem_maillage.h" |
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#include "mg_element_maillage.h" |
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#include "ot_boite_3d.h" |
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#include "ot_mathematique.h" |
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FEM_ELEMENT3::FEM_ELEMENT3(unsigned long num,class MG_ELEMENT_MAILLAGE* mai):FEM_ELEMENT_MAILLAGE(num,mai) |
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{ |
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} |
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FEM_ELEMENT3::FEM_ELEMENT3(unsigned long num,class MG_ELEMENT_TOPOLOGIQUE* topo):FEM_ELEMENT_MAILLAGE(num,topo) |
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{ |
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} |
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FEM_ELEMENT3::FEM_ELEMENT3(unsigned long num,class MG_ELEMENT_TOPOLOGIQUE* topo,class MG_ELEMENT_MAILLAGE* mai):FEM_ELEMENT_MAILLAGE(num,topo,mai) |
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{ |
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} |
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FEM_ELEMENT3::FEM_ELEMENT3(class MG_ELEMENT_MAILLAGE* mai):FEM_ELEMENT_MAILLAGE(mai) |
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{ |
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} |
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FEM_ELEMENT3::FEM_ELEMENT3(class MG_ELEMENT_TOPOLOGIQUE* topo):FEM_ELEMENT_MAILLAGE(topo) |
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{ |
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} |
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FEM_ELEMENT3::FEM_ELEMENT3(class MG_ELEMENT_TOPOLOGIQUE* topo,class MG_ELEMENT_MAILLAGE* mai):FEM_ELEMENT_MAILLAGE(topo,mai) |
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{ |
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} |
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FEM_ELEMENT3::FEM_ELEMENT3(FEM_ELEMENT3& mdd):FEM_ELEMENT_MAILLAGE(mdd) |
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{ |
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} |
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FEM_ELEMENT3::~FEM_ELEMENT3() |
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{ |
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} |
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void FEM_ELEMENT3::extrapoler_solution_noeud(void) |
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{ |
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int nb=get_nb_fem_noeud(); |
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for (int i=0;i<nb;i++) |
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for (int j=0;j<MAX_TYPE_SOLUTION;j++) |
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get_fem_noeud(i)->change_solution(solution[j],j); |
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} |
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bool FEM_ELEMENT3::get_param_element_fini(double *xyz,double *uvw) |
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{ |
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OT_MATRICE_3D mat; |
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OT_VECTEUR_3D vec; |
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uvw[0]=0.; |
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uvw[1]=0.; |
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uvw[2]=0.; |
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int ok=0; |
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int compteur=0; |
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while (ok==0) |
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{ |
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mat(0,0)=0.;mat(0,1)=0.;mat(0,2)=0.; |
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mat(1,0)=0.;mat(1,1)=0.;mat(1,2)=0.; |
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mat(2,0)=0.;mat(2,1)=0.;mat(2,2)=0.; |
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vec(0)=xyz[0];vec(1)=xyz[1];vec(2)=xyz[2]; |
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for (int i=0;i<get_nb_fem_noeud();i++) |
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{ |
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mat(0,0)=mat(0,0)+get_fonction_derive_interpolation(i+1,1,uvw)*get_fem_noeud(i)->get_x(); |
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mat(0,1)=mat(0,1)+get_fonction_derive_interpolation(i+1,2,uvw)*get_fem_noeud(i)->get_x(); |
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mat(0,2)=mat(0,2)+get_fonction_derive_interpolation(i+1,3,uvw)*get_fem_noeud(i)->get_x(); |
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mat(1,0)=mat(1,0)+get_fonction_derive_interpolation(i+1,1,uvw)*get_fem_noeud(i)->get_y(); |
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mat(1,1)=mat(1,1)+get_fonction_derive_interpolation(i+1,2,uvw)*get_fem_noeud(i)->get_y(); |
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mat(1,2)=mat(1,2)+get_fonction_derive_interpolation(i+1,3,uvw)*get_fem_noeud(i)->get_y(); |
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mat(2,0)=mat(2,0)+get_fonction_derive_interpolation(i+1,1,uvw)*get_fem_noeud(i)->get_z(); |
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mat(2,1)=mat(2,1)+get_fonction_derive_interpolation(i+1,2,uvw)*get_fem_noeud(i)->get_z(); |
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mat(2,2)=mat(2,2)+get_fonction_derive_interpolation(i+1,3,uvw)*get_fem_noeud(i)->get_z(); |
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vec(0)=vec(0)-get_fonction_interpolation(i+1,uvw)*get_fem_noeud(i)->get_x(); |
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vec(1)=vec(1)-get_fonction_interpolation(i+1,uvw)*get_fem_noeud(i)->get_y(); |
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vec(2)=vec(2)-get_fonction_interpolation(i+1,uvw)*get_fem_noeud(i)->get_z(); |
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} |
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double det=mat.get_determinant(); |
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if (det<1e-12) return false; |
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OT_MATRICE_3D mat1(vec,mat.get_vecteur2(),mat.get_vecteur3()); |
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OT_MATRICE_3D mat2(mat.get_vecteur1(),vec,mat.get_vecteur3()); |
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OT_MATRICE_3D mat3(mat.get_vecteur1(),mat.get_vecteur2(),vec); |
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double d1=mat1.get_determinant()/det; |
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double d2=mat2.get_determinant()/det; |
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double d3=mat3.get_determinant()/det; |
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if (compteur>100) return false; |
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compteur++; |
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if ((fabs(d1)<1e-8)&&(fabs(d2)<1e-8)&&(fabs(d3)<1e-8)) ok=1; |
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uvw[0]=uvw[0]+d1; |
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uvw[1]=uvw[1]+d2; |
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uvw[2]=uvw[2]+d3; |
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} |
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return true; |
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} |
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void FEM_ELEMENT3::get_interpolation_xyz(double* uvw, double* xyz) |
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{ |
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xyz[0]=0.;xyz[1]=0.;xyz[2]=0; |
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for (int i=0;i<get_nb_fem_noeud();i++) |
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{ |
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xyz[0]=xyz[0]+get_fonction_interpolation(i+1,uvw)*get_fem_noeud(i)->get_x(); |
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xyz[1]=xyz[1]+get_fonction_interpolation(i+1,uvw)*get_fem_noeud(i)->get_y(); |
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xyz[2]=xyz[2]+get_fonction_interpolation(i+1,uvw)*get_fem_noeud(i)->get_z(); |
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} |
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} |
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