geometrie/src/fem_tetra10.cpp

//------------------------------------------------------------
//------------------------------------------------------------
//  MAGiC
//  Jean Christophe Cuilli�re et Vincent FRANCOIS
//  D�partement de G�nie M�canique - UQTR
//------------------------------------------------------------
//  Le projet MAGIC est un projet de recherche du d�partement
//  de g�nie m�canique de l'Universit� du Qu�bec �
//  Trois Rivi�res
//  Les librairies ne peuvent �tre utilis�es sans l'accord
//  des auteurs (contact : francois@uqtr.ca)
//------------------------------------------------------------
//------------------------------------------------------------
//
//       fem_element310.cpp
//
//------------------------------------------------------------
//------------------------------------------------------------
//  COPYRIGHT 2000
//  Version du 02/03/2006 � 11H22
//------------------------------------------------------------
//------------------------------------------------------------


#include "gestionversion.h"
#include "fem_tetra10.h"
#include "fem_noeud.h"
#include "mg_element_maillage.h"
#include "fem_maillage.h"


FEM_TETRA10::FEM_TETRA10(unsigned long num,class MG_ELEMENT_MAILLAGE* mai,class FEM_NOEUD** tabnoeud):FEM_ELEMENT3(num,mai),FEM_TEMPLATE_ELEMENT<10>(tabnoeud)
{
    if (liaison_topologique!=NULL) if (liaison_topologique->get_dimension()==3) liaison_topologique->get_lien_fem_maillage()->ajouter(this);
    tab[0]->get_lien_element3()->ajouter(this);
    tab[1]->get_lien_element3()->ajouter(this);
    tab[2]->get_lien_element3()->ajouter(this);
    tab[3]->get_lien_element3()->ajouter(this);
    tab[4]->get_lien_element3()->ajouter(this);
    tab[5]->get_lien_element3()->ajouter(this);
    tab[6]->get_lien_element3()->ajouter(this);
    tab[7]->get_lien_element3()->ajouter(this);
    tab[8]->get_lien_element3()->ajouter(this);
    tab[9]->get_lien_element3()->ajouter(this);
    get_fem_noeudpetitid()->get_lien_petit_element3()->ajouter(this);
}

FEM_TETRA10::FEM_TETRA10(class MG_ELEMENT_MAILLAGE* mai,FEM_NOEUD** tabnoeud):FEM_ELEMENT3(mai),FEM_TEMPLATE_ELEMENT<10>(tabnoeud)
{
    if (liaison_topologique!=NULL) if (liaison_topologique->get_dimension()==3) liaison_topologique->get_lien_fem_maillage()->ajouter(this);
    tab[0]->get_lien_element3()->ajouter(this);
    tab[1]->get_lien_element3()->ajouter(this);
    tab[2]->get_lien_element3()->ajouter(this);
    tab[3]->get_lien_element3()->ajouter(this);
    tab[4]->get_lien_element3()->ajouter(this);
    tab[5]->get_lien_element3()->ajouter(this);
    tab[6]->get_lien_element3()->ajouter(this);
    tab[7]->get_lien_element3()->ajouter(this);
    tab[8]->get_lien_element3()->ajouter(this);
    tab[9]->get_lien_element3()->ajouter(this);
    get_fem_noeudpetitid()->get_lien_petit_element3()->ajouter(this);
}
FEM_TETRA10::FEM_TETRA10(unsigned long num,class MG_ELEMENT_TOPOLOGIQUE* topo,class FEM_NOEUD** tabnoeud):FEM_ELEMENT3(num,topo),FEM_TEMPLATE_ELEMENT<10>(tabnoeud)
{
    if (liaison_topologique!=NULL) if (liaison_topologique->get_dimension()==3) liaison_topologique->get_lien_fem_maillage()->ajouter(this);
    tab[0]->get_lien_element3()->ajouter(this);
    tab[1]->get_lien_element3()->ajouter(this);
    tab[2]->get_lien_element3()->ajouter(this);
    tab[3]->get_lien_element3()->ajouter(this);
    tab[4]->get_lien_element3()->ajouter(this);
    tab[5]->get_lien_element3()->ajouter(this);
    tab[6]->get_lien_element3()->ajouter(this);
    tab[7]->get_lien_element3()->ajouter(this);
    tab[8]->get_lien_element3()->ajouter(this);
    tab[9]->get_lien_element3()->ajouter(this);
    get_fem_noeudpetitid()->get_lien_petit_element3()->ajouter(this);
}

FEM_TETRA10::FEM_TETRA10(class MG_ELEMENT_TOPOLOGIQUE* topo,FEM_NOEUD** tabnoeud):FEM_ELEMENT3(topo),FEM_TEMPLATE_ELEMENT<10>(tabnoeud)
{
    if (liaison_topologique!=NULL) if (liaison_topologique->get_dimension()==3) liaison_topologique->get_lien_fem_maillage()->ajouter(this);
    tab[0]->get_lien_element3()->ajouter(this);
    tab[1]->get_lien_element3()->ajouter(this);
    tab[2]->get_lien_element3()->ajouter(this);
    tab[3]->get_lien_element3()->ajouter(this);
    tab[4]->get_lien_element3()->ajouter(this);
    tab[5]->get_lien_element3()->ajouter(this);
    tab[6]->get_lien_element3()->ajouter(this);
    tab[7]->get_lien_element3()->ajouter(this);
    tab[8]->get_lien_element3()->ajouter(this);
    tab[9]->get_lien_element3()->ajouter(this);
    get_fem_noeudpetitid()->get_lien_petit_element3()->ajouter(this);
}
FEM_TETRA10::FEM_TETRA10(unsigned long num,class MG_ELEMENT_TOPOLOGIQUE* topo,class MG_ELEMENT_MAILLAGE* mai,class FEM_NOEUD** tabnoeud):FEM_ELEMENT3(num,topo,mai),FEM_TEMPLATE_ELEMENT<10>(tabnoeud)
{
    if (liaison_topologique!=NULL) if (liaison_topologique->get_dimension()==3) liaison_topologique->get_lien_fem_maillage()->ajouter(this);
    tab[0]->get_lien_element3()->ajouter(this);
    tab[1]->get_lien_element3()->ajouter(this);
    tab[2]->get_lien_element3()->ajouter(this);
    tab[3]->get_lien_element3()->ajouter(this);
    tab[4]->get_lien_element3()->ajouter(this);
    tab[5]->get_lien_element3()->ajouter(this);
    tab[6]->get_lien_element3()->ajouter(this);
    tab[7]->get_lien_element3()->ajouter(this);
    tab[8]->get_lien_element3()->ajouter(this);
    tab[9]->get_lien_element3()->ajouter(this);
    get_fem_noeudpetitid()->get_lien_petit_element3()->ajouter(this);
}

FEM_TETRA10::FEM_TETRA10(class MG_ELEMENT_TOPOLOGIQUE* topo,class MG_ELEMENT_MAILLAGE* mai,FEM_NOEUD** tabnoeud):FEM_ELEMENT3(topo,mai),FEM_TEMPLATE_ELEMENT<10>(tabnoeud)
{
    if (liaison_topologique!=NULL) if (liaison_topologique->get_dimension()==3) liaison_topologique->get_lien_fem_maillage()->ajouter(this);
    tab[0]->get_lien_element3()->ajouter(this);
    tab[1]->get_lien_element3()->ajouter(this);
    tab[2]->get_lien_element3()->ajouter(this);
    tab[3]->get_lien_element3()->ajouter(this);
    tab[4]->get_lien_element3()->ajouter(this);
    tab[5]->get_lien_element3()->ajouter(this);
    tab[6]->get_lien_element3()->ajouter(this);
    tab[7]->get_lien_element3()->ajouter(this);
    tab[8]->get_lien_element3()->ajouter(this);
    tab[9]->get_lien_element3()->ajouter(this);
    get_fem_noeudpetitid()->get_lien_petit_element3()->ajouter(this);
}


FEM_TETRA10::FEM_TETRA10(FEM_TETRA10& mdd):FEM_ELEMENT3(mdd),FEM_TEMPLATE_ELEMENT<10>(mdd)
{
    if (liaison_topologique!=NULL) if (liaison_topologique->get_dimension()==3) liaison_topologique->get_lien_fem_maillage()->ajouter(this);
    tab[0]->get_lien_element3()->ajouter(this);
    tab[1]->get_lien_element3()->ajouter(this);
    tab[2]->get_lien_element3()->ajouter(this);
    tab[3]->get_lien_element3()->ajouter(this);
    tab[4]->get_lien_element3()->ajouter(this);
    tab[5]->get_lien_element3()->ajouter(this);
    tab[6]->get_lien_element3()->ajouter(this);
    tab[7]->get_lien_element3()->ajouter(this);
    tab[8]->get_lien_element3()->ajouter(this);
    tab[9]->get_lien_element3()->ajouter(this);
    get_fem_noeudpetitid()->get_lien_petit_element3()->ajouter(this);
}
FEM_TETRA10::~FEM_TETRA10()
{
    if (liaison_topologique==NULL) return;
    if (liaison_topologique->get_dimension()==0) liaison_topologique->get_lien_fem_maillage()->supprimer(this);
    tab[0]->get_lien_element3()->supprimer(this);
    tab[1]->get_lien_element3()->supprimer(this);
    tab[2]->get_lien_element3()->supprimer(this);
    tab[3]->get_lien_element3()->supprimer(this);
    tab[4]->get_lien_element3()->supprimer(this);
    tab[5]->get_lien_element3()->supprimer(this);
    tab[6]->get_lien_element3()->supprimer(this);
    tab[7]->get_lien_element3()->supprimer(this);
    tab[8]->get_lien_element3()->supprimer(this);
    tab[9]->get_lien_element3()->supprimer(this);
    get_fem_noeudpetitid()->get_lien_petit_element3()->supprimer(this);
}

FEM_ELEMENT_MAILLAGE* FEM_TETRA10::dupliquer(FEM_MAILLAGE *femmai,long decalage)
{
    FEM_NOEUD* tabnoeud[10];
    tabnoeud[0]=femmai->get_fem_noeudid(tab[0]->get_id()+decalage);
    tabnoeud[1]=femmai->get_fem_noeudid(tab[1]->get_id()+decalage);
    tabnoeud[2]=femmai->get_fem_noeudid(tab[2]->get_id()+decalage);
    tabnoeud[3]=femmai->get_fem_noeudid(tab[3]->get_id()+decalage);
    tabnoeud[4]=femmai->get_fem_noeudid(tab[4]->get_id()+decalage);
    tabnoeud[5]=femmai->get_fem_noeudid(tab[5]->get_id()+decalage);
    tabnoeud[6]=femmai->get_fem_noeudid(tab[6]->get_id()+decalage);
    tabnoeud[7]=femmai->get_fem_noeudid(tab[7]->get_id()+decalage);
    tabnoeud[8]=femmai->get_fem_noeudid(tab[8]->get_id()+decalage);
    tabnoeud[9]=femmai->get_fem_noeudid(tab[9]->get_id()+decalage);
    FEM_TETRA10* tet=new FEM_TETRA10(get_id()+decalage,maillage,tabnoeud);
    femmai->ajouter_fem_element3(tet);
    return tet;
}


int FEM_TETRA10::get_type_entite(void)
{
    return   IDFEM_TETRA10;
}

int FEM_TETRA10::get_dimension(void)
{
    return 3;
}


int FEM_TETRA10::get_nb_fem_noeud(void)
{
    return FEM_TEMPLATE_ELEMENT<10>::get_nb_fem_noeud();
}

FEM_NOEUD* FEM_TETRA10::get_fem_noeud(int num)
{
    return FEM_TEMPLATE_ELEMENT<10>::get_fem_noeud(num);
}

void FEM_TETRA10::change_noeud(int num,FEM_NOEUD* noeud)
{
    FEM_TEMPLATE_ELEMENT<10>::change_noeud(num,noeud);
}

BOITE_3D& FEM_TETRA10::get_boite_3D(void)
{
    return FEM_TEMPLATE_ELEMENT<10>::get_boite_3D();
}


int FEM_TETRA10::get_nb_pt_gauss(int degre)
{
if (degre<2) return 1;
if (degre<3) return 4;
if (degre<4) return 5;
if (degre<5) return 11;
return 0;  
}
void FEM_TETRA10::get_pt_gauss(int degre,int num,double &w,double *uvw)
{
if (degre<2)  
    {
    if (num==0)  {w=0.166666666666667;uvw[0]=0.25;uvw[1]=0.25;uvw[2]=0.25;}
    return;
    }
if (degre<3)  
    {
    if (num==0)  {w=0.041666666666667;uvw[0]=0.138196601125011;uvw[1]=0.138196601125011;uvw[2]=0.138196601125011;}
    if (num==1)  {w=0.041666666666667;uvw[0]=0.138196601125011;uvw[1]=0.138196601125011;uvw[2]=0.585410196624968;}
    if (num==2)  {w=0.041666666666667;uvw[0]=0.138196601125011;uvw[1]=0.585410196624968;uvw[2]=0.138196601125011;}
    if (num==3)  {w=0.041666666666667;uvw[0]=0.585410196624968;uvw[1]=0.138196601125011;uvw[2]=0.138196601125011;}
    return;
    }
if (degre<4)  
    {
    if (num==0)  {w=-0.133333333333333;uvw[0]=0.25;uvw[1]=0.25;uvw[2]=0.25;}
    if (num==1)  {w=0.075;uvw[0]=0.166666666666667;uvw[1]=0.166666666666667;uvw[2]=0.166666666666667;}
    if (num==2)  {w=0.075;uvw[0]=0.166666666666667;uvw[1]=0.166666666666667;uvw[2]=0.5;}
    if (num==3)  {w=0.075;uvw[0]=0.166666666666667;uvw[1]=0.5;uvw[2]=0.166666666666667;}
    if (num==4)  {w=0.075;uvw[0]=0.5;uvw[1]=0.166666666666667;uvw[2]=0.166666666666667;}
    return;
    }
if (degre<6)  
    {
    double a=0.25;
    double b1=0.3197936278;
    double b2=0.0919710781;
    double c2=0.7240867658;
    double c1=0.0406191165;
    double d=0.0563508327;
    double e=0.4436491673;
    double w1=0.0197530864;
    double w3=0.011989514;
    double w2=0.0115113679;
    double w4=0.0088183422;
    if (num==0)  {w=w1;uvw[0]=a;uvw[1]=a;uvw[2]=a;}
    if (num==1)  {w=w2;uvw[0]=b1;uvw[1]=b1;uvw[2]=b1;}
    if (num==2)  {w=w2;uvw[0]=c1;uvw[1]=b1;uvw[2]=b1;}
    if (num==3)  {w=w2;uvw[0]=b1;uvw[1]=c1;uvw[2]=b1;}
    if (num==4)  {w=w2;uvw[0]=b1;uvw[1]=b1;uvw[2]=c1;}
    if (num==5)  {w=w3;uvw[0]=b2;uvw[1]=b2;uvw[2]=b2;}
    if (num==6)  {w=w3;uvw[0]=c2;uvw[1]=b2;uvw[2]=b2;}
    if (num==7)  {w=w3;uvw[0]=b2;uvw[1]=c2;uvw[2]=b2;}
    if (num==8)  {w=w3;uvw[0]=b2;uvw[1]=b2;uvw[2]=c2;}
    if (num==9)  {w=w4;uvw[0]=e;uvw[1]=d;uvw[2]=d;}
    if (num==10)  {w=w4;uvw[0]=d;uvw[1]=e;uvw[2]=d;}
    if (num==11)  {w=w4;uvw[0]=d;uvw[1]=d;uvw[2]=e;}
    if (num==12)  {w=w4;uvw[0]=d;uvw[1]=e;uvw[2]=e;}
    if (num==13)  {w=w4;uvw[0]=e;uvw[1]=d;uvw[2]=e;}
    if (num==14)  {w=w4;uvw[0]=e;uvw[1]=e;uvw[2]=d;}
    return;
    }
}


int FEM_TETRA10::nb_fonction_interpolation(void)
{
    return 10;
}


double FEM_TETRA10::get_fonction_interpolation(int num,double* uv)
{
    double val;
    double landa=1-uv[0]-uv[1]-uv[2];
    switch (num)
    {
    case 1:
        val=-landa*(1-2*landa);
        break;
    case 2:
        val=4*uv[0]*landa;
        break;
    case 3:
        val=-uv[0]*(1-2*uv[0]);
        break;
    case 4:
        val=4*uv[0]*uv[1];
        break;
    case 5:
        val=-uv[1]*(1-2*uv[1]);
        break;
    case 6:
        val=4*uv[1]*landa;
        break;
    case 7:
        val=4*uv[2]*landa;
        break;
    case 8:
        val=4*uv[0]*uv[2];
        break;
    case 9:
        val=4*uv[1]*uv[2];
        break;
    case 10:
        val=-uv[2]*(1-2*uv[2]);
        break;
    }
    return val;
}

double FEM_TETRA10::get_fonction_derive_interpolation(int num,int num_variable,double* uv)
{
    double val;
    double landa=1-uv[0]-uv[1]-uv[2];
    switch (num)
    {
    case 1:
        switch (num_variable)
        {
        case 1:
            val=1-4*landa;
            break;
        case 2:
            val=1-4*landa;
            break;
        case 3:
            val=1-4*landa;
            break;
        } break;
    case 2:
        switch (num_variable)
        {
        case 1:
            val=4*(landa-uv[0]);
            break;
        case 2:
            val=-4*uv[0];
            break;
        case 3:
            val=-4*uv[0];
            break;
        }break;
    case 3:
        switch (num_variable)
        {
        case 1:
            val=-1+4*uv[0];
            break;
        case 2:
            val=0.;
            break;
        case 3:
            val=0.;
            break;
        }break;
    case 4:
        switch (num_variable)
        {
        case 1:
            val=4*uv[1];
            break;
        case 2:
            val=4*uv[0];
            break;
        case 3:
            val=0.;
            break;
        }break;
    case 5:
        switch (num_variable)
        {
        case 1:
            val=0.;
            break;
        case 2:
            val=-1+4*uv[1];
            break;
        case 3:
            val=0.;
            break;
        }break;
    case 6:
        switch (num_variable)
        {
        case 1:
            val=-4*uv[1];
            break;
        case 2:
            val=4*(landa-uv[1]);
            break;
        case 3:
            val=-4*uv[1];
            break;
        }break;
    case 7:
        switch (num_variable)
        {
        case 1:
            val=-4*uv[2];
            break;
        case 2:
            val=-4*uv[2];
            break;
        case 3:
            val=4*(landa-uv[2]);
            break;
        }break;
    case 8:
        switch (num_variable)
        {
        case 1:
            val=4*uv[2];
            break;
        case 2:
            val=0;
            break;
        case 3:
            val=4*uv[0];
            break;
        }break;
    case 9:
        switch (num_variable)
        {
        case 1:
            val=0.;
            break;
        case 2:
            val=4*uv[2];
            break;
        case 3:
            val=4*uv[1];
            break;
        }break;
    case 10:
        switch (num_variable)
        {
        case 1:
            val=0.;
            break;
        case 2:
            val=0.;
            break;
        case 3:
            val=-1+4*uv[2];
            break;
        }break;
    }
    return val;

}

double FEM_TETRA10::get_jacobien(double* jac,double *uv,int& lig,int& col,double unite)
{
    lig=3;
    col=3;


    double nb_fct_int=this->nb_fonction_interpolation();

    double xyz[30];

    int nb_nd=get_nb_fem_noeud();

    for (int i=0;i<nb_nd;i++)
    {
        FEM_NOEUD* fmnd=get_fem_noeud(i);
        double *xyz1=fmnd->get_coord();

        xyz[3*i]=unite*xyz1[0];
        xyz[3*i+1]=unite*xyz1[1];
        xyz[3*i+2]=unite*xyz1[2];

    }

    for (int i=0;i<lig;i++)
    {
        for (int j=0;j<col;j++)
        {
            jac[i*col+j]=0.0;
            for (int k=0;k<nb_fct_int;k++)
            {
                double NDERI=this->get_fonction_derive_interpolation(k+1,i+1,uv);

                jac[i*col+j]+=NDERI*xyz[3*k+j];
            }
        }
    }

    double SIX_V= jac[0]*(jac[4]*jac[8]-jac[7]*jac[5])+jac[1]*(jac[5]*jac[6]-jac[8]*jac[3])+jac[2]*(jac[3]*jac[7]-jac[6]*jac[4]);

    return SIX_V;

}


void FEM_TETRA10::get_inverse_jacob(double* j,double *uv,double unite)
{
    double jac[9];
    int lig,col;
    double detj=this->get_jacobien(jac,uv,lig,col,unite);


    j[0*3+0] =  (jac[1*3+1]*jac[2*3+2]-jac[1*3+2]*jac[2*3+1])/(detj);
    j[0*3+1] = -(jac[0*3+1]*jac[2*3+2]-jac[0*3+2]*jac[2*3+1])/(detj);
    j[0*3+2] =-(-jac[0*3+1]*jac[1*3+2]+jac[0*3+2]*jac[1*3+1])/(detj);

    j[1*3+0] = -(jac[1*3+0]*jac[2*3+2]-jac[1*3+2]*jac[2*3+0])/(detj);
    j[1*3+1] =  (jac[0*3+0]*jac[2*3+2]-jac[0*3+2]*jac[2*3+0])/(detj);
    j[1*3+2] = -(jac[0*3+0]*jac[1*3+2]-jac[0*3+2]*jac[1*3+0])/(detj);

    j[2*3+0] =-(-jac[1*3+0]*jac[2*3+1]+jac[1*3+1]*jac[2*3+0])/(detj);
    j[2*3+1] = -(jac[0*3+0]*jac[2*3+1]-jac[0*3+1]*jac[2*3+0])/(detj);
    j[2*3+2] =  (jac[0*3+0]*jac[1*3+1]-jac[0*3+1]*jac[1*3+0])/(detj);


}

bool FEM_TETRA10::valide_parametre_EF(double* uvw)
{
if (uvw[0]>=-1e-10)
   if (uvw[1]>=-1e-10)
      if (uvw[2]>=-1e-10)
           if (uvw[0]+uvw[1]+uvw[2]<=1.+1e-10)  
          return true;
return false;
}


void FEM_TETRA10::enregistrer(std::ostream& o)
{
    if (maillage!=NULL)
      if (get_lien_topologie()!=NULL) o << "%" << get_id() << "=FEM_TETRA10($"<< get_lien_topologie()->get_id() << ",$" << maillage->get_id() << ",$" << tab[0]->get_id() << ",$" << tab[1]->get_id() << ",$" << tab[2]->get_id() << ",$" << tab[3]->get_id() << ",$" << tab[4]->get_id() << ",$" << tab[5]->get_id() << ",$" << tab[6]->get_id() << ",$" << tab[7]->get_id() << ",$" << tab[8]->get_id() << ",$" << tab[9]->get_id()<<    ");" << std::endl;
      else o << "%" << get_id() << "=FEM_TETRA10(NULL,$" << maillage->get_id() << ",$" << tab[0]->get_id() << ",$" << tab[1]->get_id() << ",$" << tab[2]->get_id() << ",$" << tab[3]->get_id() << ",$" << tab[4]->get_id() << ",$" << tab[5]->get_id() << ",$" << tab[6]->get_id() << ",$" << tab[7]->get_id() << ",$" << tab[8]->get_id() << ",$" << tab[9]->get_id()  << ");" << std::endl;
    else
      if (get_lien_topologie()!=NULL) o << "%" << get_id() << "=FEM_TETRA10($"<< get_lien_topologie()->get_id() << ",NULL,$" << tab[0]->get_id() << ",$" << tab[1]->get_id() << ",$" << tab[2]->get_id() << ",$" << tab[3]->get_id() << ",$" << tab[4]->get_id() << ",$" << tab[5]->get_id() << ",$" << tab[6]->get_id() << ",$" << tab[7]->get_id() << ",$" << tab[8]->get_id() << ",$" << tab[9]->get_id()<<    ");" << std::endl;
      else o << "%" << get_id() << "=FEM_TETRA10(NULL,NULL,$" << tab[0]->get_id() << ",$" << tab[1]->get_id() << ",$" << tab[2]->get_id() << ",$" << tab[3]->get_id() << ",$" << tab[4]->get_id() << ",$" << tab[5]->get_id() << ",$" << tab[6]->get_id() << ",$" << tab[7]->get_id() << ",$" << tab[8]->get_id() << ",$" << tab[9]->get_id()  << ");" << std::endl;
      
}


int FEM_TETRA10::verifie_validite_decoupage_xfem(double *vol)
{
  
}
Revision:	637
Committed:	Mon Jan 26 21:26:37 2015 UTC (10 years, 3 months ago) by francois
File size:	18999 byte(s)
Log Message:	entree des points de gauss pour les différents éléments finis depuis reference JCC
#	User	Rev	Content
1	francois	283	//------------------------------------------------------------
2			//------------------------------------------------------------
3			// MAGiC
4			// Jean Christophe Cuilli�re et Vincent FRANCOIS
5			// D�partement de G�nie M�canique - UQTR
6			//------------------------------------------------------------
7			// Le projet MAGIC est un projet de recherche du d�partement
8			// de g�nie m�canique de l'Universit� du Qu�bec �
9			// Trois Rivi�res
10			// Les librairies ne peuvent �tre utilis�es sans l'accord
11			// des auteurs (contact : francois@uqtr.ca)
12			//------------------------------------------------------------
13			//------------------------------------------------------------
14			//
15	francois	309	// fem_element310.cpp
16	francois	283	//
17			//------------------------------------------------------------
18			//------------------------------------------------------------
19			// COPYRIGHT 2000
20			// Version du 02/03/2006 � 11H22
21			//------------------------------------------------------------
22			//------------------------------------------------------------
23
24
25			#include "gestionversion.h"
26			#include "fem_tetra10.h"
27			#include "fem_noeud.h"
28			#include "mg_element_maillage.h"
29			#include "fem_maillage.h"
30
31
32	francois	309	FEM_TETRA10::FEM_TETRA10(unsigned long num,class MG_ELEMENT_MAILLAGE* mai,class FEM_NOEUD** tabnoeud):FEM_ELEMENT3(num,mai),FEM_TEMPLATE_ELEMENT<10>(tabnoeud)
33	francois	283	{
34			if (liaison_topologique!=NULL) if (liaison_topologique->get_dimension()==3) liaison_topologique->get_lien_fem_maillage()->ajouter(this);
35	francois	309	tab[0]->get_lien_element3()->ajouter(this);
36			tab[1]->get_lien_element3()->ajouter(this);
37			tab[2]->get_lien_element3()->ajouter(this);
38			tab[3]->get_lien_element3()->ajouter(this);
39			tab[4]->get_lien_element3()->ajouter(this);
40			tab[5]->get_lien_element3()->ajouter(this);
41			tab[6]->get_lien_element3()->ajouter(this);
42			tab[7]->get_lien_element3()->ajouter(this);
43			tab[8]->get_lien_element3()->ajouter(this);
44			tab[9]->get_lien_element3()->ajouter(this);
45			get_fem_noeudpetitid()->get_lien_petit_element3()->ajouter(this);
46	francois	283	}
47
48	francois	309	FEM_TETRA10::FEM_TETRA10(class MG_ELEMENT_MAILLAGE* mai,FEM_NOEUD** tabnoeud):FEM_ELEMENT3(mai),FEM_TEMPLATE_ELEMENT<10>(tabnoeud)
49	francois	283	{
50			if (liaison_topologique!=NULL) if (liaison_topologique->get_dimension()==3) liaison_topologique->get_lien_fem_maillage()->ajouter(this);
51	francois	309	tab[0]->get_lien_element3()->ajouter(this);
52			tab[1]->get_lien_element3()->ajouter(this);
53			tab[2]->get_lien_element3()->ajouter(this);
54			tab[3]->get_lien_element3()->ajouter(this);
55			tab[4]->get_lien_element3()->ajouter(this);
56			tab[5]->get_lien_element3()->ajouter(this);
57			tab[6]->get_lien_element3()->ajouter(this);
58			tab[7]->get_lien_element3()->ajouter(this);
59			tab[8]->get_lien_element3()->ajouter(this);
60			tab[9]->get_lien_element3()->ajouter(this);
61			get_fem_noeudpetitid()->get_lien_petit_element3()->ajouter(this);
62	francois	283	}
63	francois	378	FEM_TETRA10::FEM_TETRA10(unsigned long num,class MG_ELEMENT_TOPOLOGIQUE* topo,class FEM_NOEUD** tabnoeud):FEM_ELEMENT3(num,topo),FEM_TEMPLATE_ELEMENT<10>(tabnoeud)
64			{
65			if (liaison_topologique!=NULL) if (liaison_topologique->get_dimension()==3) liaison_topologique->get_lien_fem_maillage()->ajouter(this);
66			tab[0]->get_lien_element3()->ajouter(this);
67			tab[1]->get_lien_element3()->ajouter(this);
68			tab[2]->get_lien_element3()->ajouter(this);
69			tab[3]->get_lien_element3()->ajouter(this);
70			tab[4]->get_lien_element3()->ajouter(this);
71			tab[5]->get_lien_element3()->ajouter(this);
72			tab[6]->get_lien_element3()->ajouter(this);
73			tab[7]->get_lien_element3()->ajouter(this);
74			tab[8]->get_lien_element3()->ajouter(this);
75			tab[9]->get_lien_element3()->ajouter(this);
76			get_fem_noeudpetitid()->get_lien_petit_element3()->ajouter(this);
77			}
78	francois	283
79	francois	378	FEM_TETRA10::FEM_TETRA10(class MG_ELEMENT_TOPOLOGIQUE* topo,FEM_NOEUD** tabnoeud):FEM_ELEMENT3(topo),FEM_TEMPLATE_ELEMENT<10>(tabnoeud)
80			{
81			if (liaison_topologique!=NULL) if (liaison_topologique->get_dimension()==3) liaison_topologique->get_lien_fem_maillage()->ajouter(this);
82			tab[0]->get_lien_element3()->ajouter(this);
83			tab[1]->get_lien_element3()->ajouter(this);
84			tab[2]->get_lien_element3()->ajouter(this);
85			tab[3]->get_lien_element3()->ajouter(this);
86			tab[4]->get_lien_element3()->ajouter(this);
87			tab[5]->get_lien_element3()->ajouter(this);
88			tab[6]->get_lien_element3()->ajouter(this);
89			tab[7]->get_lien_element3()->ajouter(this);
90			tab[8]->get_lien_element3()->ajouter(this);
91			tab[9]->get_lien_element3()->ajouter(this);
92			get_fem_noeudpetitid()->get_lien_petit_element3()->ajouter(this);
93			}
94			FEM_TETRA10::FEM_TETRA10(unsigned long num,class MG_ELEMENT_TOPOLOGIQUE* topo,class MG_ELEMENT_MAILLAGE* mai,class FEM_NOEUD** tabnoeud):FEM_ELEMENT3(num,topo,mai),FEM_TEMPLATE_ELEMENT<10>(tabnoeud)
95			{
96			if (liaison_topologique!=NULL) if (liaison_topologique->get_dimension()==3) liaison_topologique->get_lien_fem_maillage()->ajouter(this);
97			tab[0]->get_lien_element3()->ajouter(this);
98			tab[1]->get_lien_element3()->ajouter(this);
99			tab[2]->get_lien_element3()->ajouter(this);
100			tab[3]->get_lien_element3()->ajouter(this);
101			tab[4]->get_lien_element3()->ajouter(this);
102			tab[5]->get_lien_element3()->ajouter(this);
103			tab[6]->get_lien_element3()->ajouter(this);
104			tab[7]->get_lien_element3()->ajouter(this);
105			tab[8]->get_lien_element3()->ajouter(this);
106			tab[9]->get_lien_element3()->ajouter(this);
107			get_fem_noeudpetitid()->get_lien_petit_element3()->ajouter(this);
108			}
109
110			FEM_TETRA10::FEM_TETRA10(class MG_ELEMENT_TOPOLOGIQUE* topo,class MG_ELEMENT_MAILLAGE* mai,FEM_NOEUD** tabnoeud):FEM_ELEMENT3(topo,mai),FEM_TEMPLATE_ELEMENT<10>(tabnoeud)
111			{
112			if (liaison_topologique!=NULL) if (liaison_topologique->get_dimension()==3) liaison_topologique->get_lien_fem_maillage()->ajouter(this);
113			tab[0]->get_lien_element3()->ajouter(this);
114			tab[1]->get_lien_element3()->ajouter(this);
115			tab[2]->get_lien_element3()->ajouter(this);
116			tab[3]->get_lien_element3()->ajouter(this);
117			tab[4]->get_lien_element3()->ajouter(this);
118			tab[5]->get_lien_element3()->ajouter(this);
119			tab[6]->get_lien_element3()->ajouter(this);
120			tab[7]->get_lien_element3()->ajouter(this);
121			tab[8]->get_lien_element3()->ajouter(this);
122			tab[9]->get_lien_element3()->ajouter(this);
123			get_fem_noeudpetitid()->get_lien_petit_element3()->ajouter(this);
124			}
125
126
127
128
129
130
131
132	francois	309	FEM_TETRA10::FEM_TETRA10(FEM_TETRA10& mdd):FEM_ELEMENT3(mdd),FEM_TEMPLATE_ELEMENT<10>(mdd)
133	francois	283	{
134			if (liaison_topologique!=NULL) if (liaison_topologique->get_dimension()==3) liaison_topologique->get_lien_fem_maillage()->ajouter(this);
135	francois	309	tab[0]->get_lien_element3()->ajouter(this);
136			tab[1]->get_lien_element3()->ajouter(this);
137			tab[2]->get_lien_element3()->ajouter(this);
138			tab[3]->get_lien_element3()->ajouter(this);
139			tab[4]->get_lien_element3()->ajouter(this);
140			tab[5]->get_lien_element3()->ajouter(this);
141			tab[6]->get_lien_element3()->ajouter(this);
142			tab[7]->get_lien_element3()->ajouter(this);
143			tab[8]->get_lien_element3()->ajouter(this);
144			tab[9]->get_lien_element3()->ajouter(this);
145			get_fem_noeudpetitid()->get_lien_petit_element3()->ajouter(this);
146	francois	283	}
147			FEM_TETRA10::~FEM_TETRA10()
148			{
149			if (liaison_topologique==NULL) return;
150			if (liaison_topologique->get_dimension()==0) liaison_topologique->get_lien_fem_maillage()->supprimer(this);
151	francois	309	tab[0]->get_lien_element3()->supprimer(this);
152			tab[1]->get_lien_element3()->supprimer(this);
153			tab[2]->get_lien_element3()->supprimer(this);
154			tab[3]->get_lien_element3()->supprimer(this);
155			tab[4]->get_lien_element3()->supprimer(this);
156			tab[5]->get_lien_element3()->supprimer(this);
157			tab[6]->get_lien_element3()->supprimer(this);
158			tab[7]->get_lien_element3()->supprimer(this);
159			tab[8]->get_lien_element3()->supprimer(this);
160			tab[9]->get_lien_element3()->supprimer(this);
161			get_fem_noeudpetitid()->get_lien_petit_element3()->supprimer(this);
162	francois	283	}
163
164			FEM_ELEMENT_MAILLAGE* FEM_TETRA10::dupliquer(FEM_MAILLAGE *femmai,long decalage)
165			{
166			FEM_NOEUD* tabnoeud[10];
167			tabnoeud[0]=femmai->get_fem_noeudid(tab[0]->get_id()+decalage);
168			tabnoeud[1]=femmai->get_fem_noeudid(tab[1]->get_id()+decalage);
169			tabnoeud[2]=femmai->get_fem_noeudid(tab[2]->get_id()+decalage);
170			tabnoeud[3]=femmai->get_fem_noeudid(tab[3]->get_id()+decalage);
171			tabnoeud[4]=femmai->get_fem_noeudid(tab[4]->get_id()+decalage);
172			tabnoeud[5]=femmai->get_fem_noeudid(tab[5]->get_id()+decalage);
173			tabnoeud[6]=femmai->get_fem_noeudid(tab[6]->get_id()+decalage);
174			tabnoeud[7]=femmai->get_fem_noeudid(tab[7]->get_id()+decalage);
175			tabnoeud[8]=femmai->get_fem_noeudid(tab[8]->get_id()+decalage);
176			tabnoeud[9]=femmai->get_fem_noeudid(tab[9]->get_id()+decalage);
177			FEM_TETRA10* tet=new FEM_TETRA10(get_id()+decalage,maillage,tabnoeud);
178	francois	309	femmai->ajouter_fem_element3(tet);
179	francois	283	return tet;
180			}
181
182
183
184
185
186			int FEM_TETRA10::get_type_entite(void)
187			{
188			return IDFEM_TETRA10;
189			}
190
191			int FEM_TETRA10::get_dimension(void)
192			{
193			return 3;
194			}
195
196
197			int FEM_TETRA10::get_nb_fem_noeud(void)
198			{
199			return FEM_TEMPLATE_ELEMENT<10>::get_nb_fem_noeud();
200			}
201
202			FEM_NOEUD* FEM_TETRA10::get_fem_noeud(int num)
203			{
204			return FEM_TEMPLATE_ELEMENT<10>::get_fem_noeud(num);
205			}
206
207			void FEM_TETRA10::change_noeud(int num,FEM_NOEUD* noeud)
208			{
209			FEM_TEMPLATE_ELEMENT<10>::change_noeud(num,noeud);
210			}
211
212			BOITE_3D& FEM_TETRA10::get_boite_3D(void)
213			{
214			return FEM_TEMPLATE_ELEMENT<10>::get_boite_3D();
215			}
216
217
218	francois	637	int FEM_TETRA10::get_nb_pt_gauss(int degre)
219			{
220			if (degre<2) return 1;
221			if (degre<3) return 4;
222			if (degre<4) return 5;
223			if (degre<5) return 11;
224			return 0;
225			}
226			void FEM_TETRA10::get_pt_gauss(int degre,int num,double &w,double *uvw)
227			{
228			if (degre<2)
229			{
230			if (num==0) {w=0.166666666666667;uvw[0]=0.25;uvw[1]=0.25;uvw[2]=0.25;}
231			return;
232			}
233			if (degre<3)
234			{
235			if (num==0) {w=0.041666666666667;uvw[0]=0.138196601125011;uvw[1]=0.138196601125011;uvw[2]=0.138196601125011;}
236			if (num==1) {w=0.041666666666667;uvw[0]=0.138196601125011;uvw[1]=0.138196601125011;uvw[2]=0.585410196624968;}
237			if (num==2) {w=0.041666666666667;uvw[0]=0.138196601125011;uvw[1]=0.585410196624968;uvw[2]=0.138196601125011;}
238			if (num==3) {w=0.041666666666667;uvw[0]=0.585410196624968;uvw[1]=0.138196601125011;uvw[2]=0.138196601125011;}
239			return;
240			}
241			if (degre<4)
242			{
243			if (num==0) {w=-0.133333333333333;uvw[0]=0.25;uvw[1]=0.25;uvw[2]=0.25;}
244			if (num==1) {w=0.075;uvw[0]=0.166666666666667;uvw[1]=0.166666666666667;uvw[2]=0.166666666666667;}
245			if (num==2) {w=0.075;uvw[0]=0.166666666666667;uvw[1]=0.166666666666667;uvw[2]=0.5;}
246			if (num==3) {w=0.075;uvw[0]=0.166666666666667;uvw[1]=0.5;uvw[2]=0.166666666666667;}
247			if (num==4) {w=0.075;uvw[0]=0.5;uvw[1]=0.166666666666667;uvw[2]=0.166666666666667;}
248			return;
249			}
250			if (degre<6)
251			{
252			double a=0.25;
253			double b1=0.3197936278;
254			double b2=0.0919710781;
255			double c2=0.7240867658;
256			double c1=0.0406191165;
257			double d=0.0563508327;
258			double e=0.4436491673;
259			double w1=0.0197530864;
260			double w3=0.011989514;
261			double w2=0.0115113679;
262			double w4=0.0088183422;
263			if (num==0) {w=w1;uvw[0]=a;uvw[1]=a;uvw[2]=a;}
264			if (num==1) {w=w2;uvw[0]=b1;uvw[1]=b1;uvw[2]=b1;}
265			if (num==2) {w=w2;uvw[0]=c1;uvw[1]=b1;uvw[2]=b1;}
266			if (num==3) {w=w2;uvw[0]=b1;uvw[1]=c1;uvw[2]=b1;}
267			if (num==4) {w=w2;uvw[0]=b1;uvw[1]=b1;uvw[2]=c1;}
268			if (num==5) {w=w3;uvw[0]=b2;uvw[1]=b2;uvw[2]=b2;}
269			if (num==6) {w=w3;uvw[0]=c2;uvw[1]=b2;uvw[2]=b2;}
270			if (num==7) {w=w3;uvw[0]=b2;uvw[1]=c2;uvw[2]=b2;}
271			if (num==8) {w=w3;uvw[0]=b2;uvw[1]=b2;uvw[2]=c2;}
272			if (num==9) {w=w4;uvw[0]=e;uvw[1]=d;uvw[2]=d;}
273			if (num==10) {w=w4;uvw[0]=d;uvw[1]=e;uvw[2]=d;}
274			if (num==11) {w=w4;uvw[0]=d;uvw[1]=d;uvw[2]=e;}
275			if (num==12) {w=w4;uvw[0]=d;uvw[1]=e;uvw[2]=e;}
276			if (num==13) {w=w4;uvw[0]=e;uvw[1]=d;uvw[2]=e;}
277			if (num==14) {w=w4;uvw[0]=e;uvw[1]=e;uvw[2]=d;}
278			return;
279			}
280			}
281	francois	283
282	francois	637
283	francois	283	int FEM_TETRA10::nb_fonction_interpolation(void)
284			{
285			return 10;
286			}
287
288
289			double FEM_TETRA10::get_fonction_interpolation(int num,double* uv)
290			{
291			double val;
292			double landa=1-uv[0]-uv[1]-uv[2];
293			switch (num)
294			{
295			case 1:
296			val=-landa(1-2landa);
297			break;
298			case 2:
299			val=4uv[0]landa;
300			break;
301			case 3:
302			val=-uv[0](1-2uv[0]);
303			break;
304			case 4:
305			val=4uv[0]uv[1];
306			break;
307			case 5:
308			val=-uv[1](1-2uv[1]);
309			break;
310			case 6:
311			val=4uv[1]landa;
312			break;
313			case 7:
314			val=4uv[2]landa;
315			break;
316			case 8:
317			val=4uv[0]uv[2];
318			break;
319			case 9:
320			val=4uv[1]uv[2];
321			break;
322			case 10:
323			val=-uv[2](1-2uv[2]);
324			break;
325			}
326			return val;
327			}
328
329			double FEM_TETRA10::get_fonction_derive_interpolation(int num,int num_variable,double* uv)
330			{
331			double val;
332			double landa=1-uv[0]-uv[1]-uv[2];
333			switch (num)
334			{
335			case 1:
336			switch (num_variable)
337			{
338			case 1:
339			val=1-4*landa;
340			break;
341			case 2:
342			val=1-4*landa;
343			break;
344			case 3:
345			val=1-4*landa;
346			break;
347			} break;
348			case 2:
349			switch (num_variable)
350			{
351			case 1:
352			val=4*(landa-uv[0]);
353			break;
354			case 2:
355			val=-4*uv[0];
356			break;
357			case 3:
358			val=-4*uv[0];
359			break;
360			}break;
361			case 3:
362			switch (num_variable)
363			{
364			case 1:
365			val=-1+4*uv[0];
366			break;
367			case 2:
368			val=0.;
369			break;
370			case 3:
371			val=0.;
372			break;
373			}break;
374			case 4:
375			switch (num_variable)
376			{
377			case 1:
378			val=4*uv[1];
379			break;
380			case 2:
381			val=4*uv[0];
382			break;
383			case 3:
384			val=0.;
385			break;
386			}break;
387			case 5:
388			switch (num_variable)
389			{
390			case 1:
391			val=0.;
392			break;
393			case 2:
394			val=-1+4*uv[1];
395			break;
396			case 3:
397			val=0.;
398			break;
399			}break;
400			case 6:
401			switch (num_variable)
402			{
403			case 1:
404			val=-4*uv[1];
405			break;
406			case 2:
407			val=4*(landa-uv[1]);
408			break;
409			case 3:
410			val=-4*uv[1];
411			break;
412			}break;
413			case 7:
414			switch (num_variable)
415			{
416			case 1:
417			val=-4*uv[2];
418			break;
419			case 2:
420			val=-4*uv[2];
421			break;
422			case 3:
423			val=4*(landa-uv[2]);
424			break;
425			}break;
426			case 8:
427			switch (num_variable)
428			{
429			case 1:
430			val=4*uv[2];
431			break;
432			case 2:
433			val=0;
434			break;
435			case 3:
436			val=4*uv[0];
437			break;
438			}break;
439			case 9:
440			switch (num_variable)
441			{
442			case 1:
443			val=0.;
444			break;
445			case 2:
446			val=4*uv[2];
447			break;
448			case 3:
449			val=4*uv[1];
450			break;
451			}break;
452			case 10:
453			switch (num_variable)
454			{
455			case 1:
456			val=0.;
457			break;
458			case 2:
459			val=0.;
460			break;
461			case 3:
462			val=-1+4*uv[2];
463			break;
464			}break;
465			}
466			return val;
467
468			}
469
470			double FEM_TETRA10::get_jacobien(double* jac,double *uv,int& lig,int& col,double unite)
471			{
472			lig=3;
473			col=3;
474
475
476			double nb_fct_int=this->nb_fonction_interpolation();
477
478			double xyz[30];
479
480			int nb_nd=get_nb_fem_noeud();
481
482			for (int i=0;i<nb_nd;i++)
483			{
484			FEM_NOEUD* fmnd=get_fem_noeud(i);
485			double *xyz1=fmnd->get_coord();
486
487			xyz[3i]=unitexyz1[0];
488			xyz[3i+1]=unitexyz1[1];
489			xyz[3i+2]=unitexyz1[2];
490
491			}
492
493			for (int i=0;i<lig;i++)
494			{
495			for (int j=0;j<col;j++)
496			{
497			jac[i*col+j]=0.0;
498			for (int k=0;k<nb_fct_int;k++)
499			{
500			double NDERI=this->get_fonction_derive_interpolation(k+1,i+1,uv);
501
502			jac[icol+j]+=NDERIxyz[3*k+j];
503			}
504			}
505			}
506
507			double SIX_V= jac[0](jac[4]jac[8]-jac[7]jac[5])+jac[1](jac[5]jac[6]-jac[8]jac[3])+jac[2](jac[3]jac[7]-jac[6]*jac[4]);
508
509			return SIX_V;
510
511			}
512
513
514			void FEM_TETRA10::get_inverse_jacob(double* j,double *uv,double unite)
515			{
516			double jac[9];
517			int lig,col;
518			double detj=this->get_jacobien(jac,uv,lig,col,unite);
519
520
521			j[03+0] = (jac[13+1]jac[23+2]-jac[13+2]jac[2*3+1])/(detj);
522			j[03+1] = -(jac[03+1]jac[23+2]-jac[03+2]jac[2*3+1])/(detj);
523			j[03+2] =-(-jac[03+1]jac[13+2]+jac[03+2]jac[1*3+1])/(detj);
524
525			j[13+0] = -(jac[13+0]jac[23+2]-jac[13+2]jac[2*3+0])/(detj);
526			j[13+1] = (jac[03+0]jac[23+2]-jac[03+2]jac[2*3+0])/(detj);
527			j[13+2] = -(jac[03+0]jac[13+2]-jac[03+2]jac[1*3+0])/(detj);
528
529			j[23+0] =-(-jac[13+0]jac[23+1]+jac[13+1]jac[2*3+0])/(detj);
530			j[23+1] = -(jac[03+0]jac[23+1]-jac[03+1]jac[2*3+0])/(detj);
531			j[23+2] = (jac[03+0]jac[13+1]-jac[03+1]jac[1*3+0])/(detj);
532
533
534			}
535
536	francois	635	bool FEM_TETRA10::valide_parametre_EF(double* uvw)
537			{
538			if (uvw[0]>=-1e-10)
539			if (uvw[1]>=-1e-10)
540			if (uvw[2]>=-1e-10)
541			if (uvw[0]+uvw[1]+uvw[2]<=1.+1e-10)
542			return true;
543			return false;
544			}
545	francois	283
546
547			void FEM_TETRA10::enregistrer(std::ostream& o)
548			{
549	francois	378	if (maillage!=NULL)
550			if (get_lien_topologie()!=NULL) o << "%" << get_id() << "=FEM_TETRA10($"<< get_lien_topologie()->get_id() << ",$" << maillage->get_id() << ",$" << tab[0]->get_id() << ",$" << tab[1]->get_id() << ",$" << tab[2]->get_id() << ",$" << tab[3]->get_id() << ",$" << tab[4]->get_id() << ",$" << tab[5]->get_id() << ",$" << tab[6]->get_id() << ",$" << tab[7]->get_id() << ",$" << tab[8]->get_id() << ",$" << tab[9]->get_id()<< ");" << std::endl;
551			else o << "%" << get_id() << "=FEM_TETRA10(NULL,$" << maillage->get_id() << ",$" << tab[0]->get_id() << ",$" << tab[1]->get_id() << ",$" << tab[2]->get_id() << ",$" << tab[3]->get_id() << ",$" << tab[4]->get_id() << ",$" << tab[5]->get_id() << ",$" << tab[6]->get_id() << ",$" << tab[7]->get_id() << ",$" << tab[8]->get_id() << ",$" << tab[9]->get_id() << ");" << std::endl;
552			else
553			if (get_lien_topologie()!=NULL) o << "%" << get_id() << "=FEM_TETRA10($"<< get_lien_topologie()->get_id() << ",NULL,$" << tab[0]->get_id() << ",$" << tab[1]->get_id() << ",$" << tab[2]->get_id() << ",$" << tab[3]->get_id() << ",$" << tab[4]->get_id() << ",$" << tab[5]->get_id() << ",$" << tab[6]->get_id() << ",$" << tab[7]->get_id() << ",$" << tab[8]->get_id() << ",$" << tab[9]->get_id()<< ");" << std::endl;
554			else o << "%" << get_id() << "=FEM_TETRA10(NULL,NULL,$" << tab[0]->get_id() << ",$" << tab[1]->get_id() << ",$" << tab[2]->get_id() << ",$" << tab[3]->get_id() << ",$" << tab[4]->get_id() << ",$" << tab[5]->get_id() << ",$" << tab[6]->get_id() << ",$" << tab[7]->get_id() << ",$" << tab[8]->get_id() << ",$" << tab[9]->get_id() << ");" << std::endl;
555
556	francois	283	}
557	francois	405
558
559	francois	406	int FEM_TETRA10::verifie_validite_decoupage_xfem(double *vol)
560	francois	405	{
561
562			}