geometrie/src/fem_hexa8.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_triangle3.cpp
//
//------------------------------------------------------------
//------------------------------------------------------------
//  COPYRIGHT 2000
//  Version du 02/03/2006 � 11H22
//------------------------------------------------------------
//------------------------------------------------------------


#include "gestionversion.h"
#include "fem_hexa8.h"
#include "fem_maillage.h"
#include "fem_noeud.h"
#include "mg_element_maillage.h"
#include "ot_tenseur.h"


FEM_HEXA8::FEM_HEXA8(unsigned long num,class MG_ELEMENT_MAILLAGE* mai,class FEM_NOEUD** tabnoeud):FEM_ELEMENT3(num,mai),FEM_TEMPLATE_ELEMENT<8>(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);
    get_fem_noeudpetitid()->get_lien_petit_element3()->ajouter(this);
}

FEM_HEXA8::FEM_HEXA8(class MG_ELEMENT_MAILLAGE* mai,FEM_NOEUD** tabnoeud):FEM_ELEMENT3(mai),FEM_TEMPLATE_ELEMENT<8>(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);
    get_fem_noeudpetitid()->get_lien_petit_element3()->ajouter(this);
}

FEM_HEXA8::FEM_HEXA8(unsigned long num,class MG_ELEMENT_TOPOLOGIQUE* topo,class FEM_NOEUD** tabnoeud):FEM_ELEMENT3(num,topo),FEM_TEMPLATE_ELEMENT<8>(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);
    get_fem_noeudpetitid()->get_lien_petit_element3()->ajouter(this);
}

FEM_HEXA8::FEM_HEXA8(class MG_ELEMENT_TOPOLOGIQUE* topo,FEM_NOEUD** tabnoeud):FEM_ELEMENT3(topo),FEM_TEMPLATE_ELEMENT<8>(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);
    get_fem_noeudpetitid()->get_lien_petit_element3()->ajouter(this);
}

FEM_HEXA8::FEM_HEXA8(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<8>(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);
    get_fem_noeudpetitid()->get_lien_petit_element3()->ajouter(this);
}

FEM_HEXA8::FEM_HEXA8(class MG_ELEMENT_TOPOLOGIQUE* topo,class MG_ELEMENT_MAILLAGE* mai,FEM_NOEUD** tabnoeud):FEM_ELEMENT3(topo,mai),FEM_TEMPLATE_ELEMENT<8>(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);
    get_fem_noeudpetitid()->get_lien_petit_element3()->ajouter(this);
}


FEM_HEXA8::FEM_HEXA8(FEM_HEXA8& mdd):FEM_ELEMENT3(mdd),FEM_TEMPLATE_ELEMENT<8>(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);
    get_fem_noeudpetitid()->get_lien_petit_element3()->ajouter(this);
}
FEM_HEXA8::~FEM_HEXA8()
{
    if (liaison_topologique!=NULL)
      if (liaison_topologique->get_dimension()==3) 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);
    get_fem_noeudpetitid()->get_lien_petit_element3()->supprimer(this);
}


FEM_ELEMENT_MAILLAGE* FEM_HEXA8::dupliquer(FEM_MAILLAGE *femmai,long decalage)
{
    FEM_NOEUD* tabnoeud[8];
    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);
    FEM_HEXA8* quad=new FEM_HEXA8(get_id()+decalage,maillage,tabnoeud);
    femmai->ajouter_fem_element3(quad);
    return quad;
}


bool FEM_HEXA8::valide_parametre_EF(double* uvw)
{
if (uvw[0]>=-1e-10)
   if (uvw[1]>=-1e-10)
     if (uvw[2]>=-1e-10)
        if (uvw[0]<=1.+1e-10)  
            if (uvw[1]<=1.+1e-10)  
               if (uvw[2]<=1.+1e-10)  
                     return true;
return false;
}


int FEM_HEXA8::get_type_entite(void)
{
    return   IDFEM_HEXA8;
}

int FEM_HEXA8::get_dimension(void)
{
    return 3;
}


int FEM_HEXA8::get_nb_fem_noeud(void)
{
    return FEM_TEMPLATE_ELEMENT<8>::get_nb_fem_noeud();
}

FEM_NOEUD* FEM_HEXA8::get_fem_noeud(int num)
{
    return FEM_TEMPLATE_ELEMENT<8>::get_fem_noeud(num);
}

void FEM_HEXA8::change_noeud(int num,FEM_NOEUD* noeud)
{
    FEM_TEMPLATE_ELEMENT<8>::change_noeud(num,noeud);
}

BOITE_3D& FEM_HEXA8::get_boite_3D(void)
{
    return FEM_TEMPLATE_ELEMENT<8>::get_boite_3D();
}


void FEM_HEXA8::enregistrer(std::ostream& o)
{
    if (maillage!=NULL)
      if (get_lien_topologie()!=NULL) o << "%" << get_id() << "=FEM_HEXA8($"<< get_lien_topologie()->get_id() << ",$" << 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()<<  ");" << std::endl;
      else o << "%" << get_id() << "=FEM_HEXA8(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()<<  ",$" << tab[7]->get_id()<<");" << std::endl;
    else
      if (get_lien_topologie()!=NULL) o << "%" << get_id() << "=FEM_HEXA8($"<< 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()<<  ");" << std::endl;
      else o << "%" << get_id() << "=FEM_HEXA8(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()<<");" << std::endl;
      
}


int FEM_HEXA8::get_nb_pt_gauss(int degre)
{
if (degre<3) return 4;
if (degre<4) return 6;
if (degre<6) return 14;
return 0;  
}

void FEM_HEXA8::get_pt_gauss(int degre,int num,double &w,double *uvw)
{
if (degre<3)  
    {
    if (num==0)  {w=2.;uvw[0]=0.;uvw[1]=0.816496580927726;uvw[2]=-0,577350269189626;}
    if (num==1)  {w=2.;uvw[0]=0.;uvw[1]=-0.816496580927726;uvw[2]=-0,577350269189626;}
    if (num==2)  {w=2.;uvw[0]=-0.816496580927726;uvw[1]=0.;uvw[2]=0,577350269189626;}
    if (num==3)  {w=2.;uvw[0]=0.816496580927726;uvw[1]=0.;uvw[2]=0,577350269189626;}
    return;
    }
if (degre<4)  
    {
    if (num==0)  {w=1.333333333333333;uvw[0]=1.;uvw[1]=0.;uvw[2]=0.;}
    if (num==1)  {w=1.333333333333333;uvw[0]=-1.;uvw[1]=0.;uvw[2]=0.;}
    if (num==2)  {w=1.333333333333333;uvw[0]=0.;uvw[1]=1.;uvw[2]=0.;}
    if (num==3)  {w=1.333333333333333;uvw[0]=0.;uvw[1]=-1.;uvw[2]=0.;}
    if (num==4)  {w=1.333333333333333;uvw[0]=0.;uvw[1]=0.;uvw[2]=1.;}
    if (num==5)  {w=1.333333333333333;uvw[0]=0.;uvw[1]=0.;uvw[2]=-1.;}
    return;
    }
if (degre<6)  
    {
    double a=0.795822425754221;
    double b=0.758786910639328;
    double w1=0.886426592797784;
    double w2=0.335180055401662;
    if (num==0)  {w=w1;uvw[0]=a;uvw[1]=0.;uvw[2]=0.;}
    if (num==1)  {w=w1;uvw[0]=-a;uvw[1]=0.;uvw[2]=0.;}
    if (num==2)  {w=w1;uvw[0]=0.;uvw[1]=a;uvw[2]=0.;}
    if (num==3)  {w=w1;uvw[0]=0.;uvw[1]=-a;uvw[2]=0.;}
    if (num==4)  {w=w1;uvw[0]=0.;uvw[1]=0.;uvw[2]=a;}
    if (num==5)  {w=w1;uvw[0]=0.;uvw[1]=0.;uvw[2]=-a;}
    if (num==6)  {w=w2;uvw[0]=b;uvw[1]=b;uvw[2]=b;}
    if (num==7)  {w=w2;uvw[0]=b;uvw[1]=-b;uvw[2]=-b;}
    if (num==8)  {w=w2;uvw[0]=b;uvw[1]=b;uvw[2]=-b;}
    if (num==9)  {w=w2;uvw[0]=b;uvw[1]=-b;uvw[2]=b;}
    if (num==10)  {w=w2;uvw[0]=-b;uvw[1]=b;uvw[2]=b;}
    if (num==11)  {w=w2;uvw[0]=-b;uvw[1]=-b;uvw[2]=-b;}
    if (num==12)  {w=w2;uvw[0]=-b;uvw[1]=b;uvw[2]=-b;}
    if (num==13)  {w=w2;uvw[0]=-b;uvw[1]=-b;uvw[2]=b;}
    return;
    }
    
}
int FEM_HEXA8::get_nb_fonction_interpolation(void)
{
    return 8;
}

int FEM_HEXA8::get_degremax_fonction_interpolation(void)
{
     return 3;  
}
double FEM_HEXA8::get_fonction_interpolation(int num,double *uv)
{
    double val;
    double a1=1.+uv[0],a2=1.-uv[0];
    double b1=1.+uv[1],b2=1.-uv[1];
    double c1=1.+uv[2],c2=1.-uv[2];
    switch (num)
    {
    case 1:
        val=0.125*a2*b2*c2;
        break;
    case 2:
        val=0.125*a1*b2*c2;
        break;
    case 3:
        val=0.125*a1*b1*c2;
        break;
    case 4:
        val=0.125*a2*b1*c2;
        break;
    case 5:
        val=0.125*a2*b2*c1;
        break;
    case 6:
        val=0.125*a1*b2*c1;
        break;
    case 7:
        val=0.125*a1*b1*c1;
        break;
    case 8:
        val=0.125*a2*b1*c1;
        break;
    }
    return val;
}

double FEM_HEXA8::get_fonction_derive_interpolation(int num,int num_variable,double *uv)
{
    double val;
    double a1=1.+uv[0],a2=1.-uv[0];
    double b1=1.+uv[1],b2=1.-uv[1];
    double c1=1.+uv[2],c2=1.-uv[2];
    switch (num)
    {
    case 1:
        switch (num_variable)
        {
        case 1:
            val=-0.125*b2*c2;
            break;
        case 2:
            val=-0.125*a2*c2;
            break;
        case 3:
            val=-0.125*a2*b2;
            break;
        } break;
    case 2:
        switch (num_variable)
        {
        case 1:
            val=0.125*b2*c2;
            break;
        case 2:
            val=-0.125*a1*c2;
            break;
        case 3:
            val=-0.125*a1*b2;
            break;
        } break;
    case 3:
        switch (num_variable)
        {
        case 1:
            val=0.125*b1*c2;
            break;
        case 2:
            val=0.125*a1*c2;
            break;
        case 3:
            val=-0.125*a1*b1;
            break;
        } break;
    case 4:
        switch (num_variable)
        {
        case 1:
            val=-0.125*b1*c2;
            break;
        case 2:
            val=0.125*a2*c2;
            break;
        case 3:
            val=-0.125*a2*b1;
            break;
        } break;
    case 5:
        switch (num_variable)
        {
        case 1:
            val=-0.125*b2*c1;
            break;
        case 2:
            val=-0.125*a2*c1;
            break;
        case 3:
            val=0.125*a2*b2;
            break;
        } break;
    case 6:
        switch (num_variable)
        {
        case 1:
            val=0.125*b2*c1;
            break;
        case 2:
            val=-0.125*a1*c1;
            break;
        case 3:
            val=0.125*a1*b2;
            break;
        } break;
    case 7:
        switch (num_variable)
        {
        case 1:
            val=0.125*b1*c1;
            break;
        case 2:
            val=0.125*a1*c1;
            break;
        case 3:
            val=0.125*a1*b1;
            break;
        } break;
    case 8:
        switch (num_variable)
        {
        case 1:
            val=-0.125*b1*c1;
            break;
        case 2:
            val=0.125*a2*c1;
            break;
        case 3:
            val=0.125*a2*b1;
            break;
        } break;
    }
    return val;
}

double FEM_HEXA8::get_jacobien(double* jac,double *uv,int& li,int& col,double unite)
{
  li=3;col=3; 
  OT_TENSEUR Ni(3,8),Xi(8,3);
   for (int i=0;i<3;i++)
    for (int j=0;j<8;j++)
      Ni(i,j)=get_fonction_derive_interpolation(j+1,i+1,uv);
   for (int i=0;i<8;i++)
     {
     double *xyz=tab[i]->get_coord();
     Xi(i,0)=xyz[0]*unite;
     Xi(i,1)=xyz[1]*unite;
     Xi(i,2)=xyz[2]*unite;
    }
  OT_TENSEUR jacobi=Ni*Xi;
  jac[0]=jacobi(0,0).get_x();
  jac[1]=jacobi(0,1).get_x();
  jac[2]=jacobi(0,2).get_x();
  jac[3]=jacobi(1,0).get_x();
  jac[4]=jacobi(1,1).get_x();
  jac[5]=jacobi(1,2).get_x();
  jac[6]=jacobi(2,0).get_x();
  jac[7]=jacobi(2,1).get_x();
  jac[8]=jacobi(2,2).get_x();
  double det=jac[0]*jac[4]*jac[8]+jac[3]*jac[7]*jac[2]+jac[6]*jac[1]*jac[5]-jac[2]*jac[4]*jac[6]-jac[5]*jac[7]*jac[0]-jac[8]*jac[1]*jac[3];
  return det;
     
}

void FEM_HEXA8::get_inverse_jacob(double* j,double *uv,double unite)
{
    double jac[9];
    int li,col;
    double detj=get_jacobien(jac,uv,li,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);
  
}


int FEM_HEXA8::verifie_validite_decoupage_xfem(double *vol)
{
  
}
Revision:	663
Committed:	Fri Apr 10 20:13:11 2015 UTC (10 years, 1 month ago) by francois
File size:	16933 byte(s)
Log Message:	resolution de bug de desallocation + resolution du mailleur bloc avec optimisateur de coin active
#	User	Rev	Content
1	francois	310	//------------------------------------------------------------
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			// fem_triangle3.cpp
16			//
17			//------------------------------------------------------------
18			//------------------------------------------------------------
19			// COPYRIGHT 2000
20			// Version du 02/03/2006 � 11H22
21			//------------------------------------------------------------
22			//------------------------------------------------------------
23
24
25			#include "gestionversion.h"
26			#include "fem_hexa8.h"
27			#include "fem_maillage.h"
28			#include "fem_noeud.h"
29			#include "mg_element_maillage.h"
30			#include "ot_tenseur.h"
31
32
33			FEM_HEXA8::FEM_HEXA8(unsigned long num,class MG_ELEMENT_MAILLAGE* mai,class FEM_NOEUD** tabnoeud):FEM_ELEMENT3(num,mai),FEM_TEMPLATE_ELEMENT<8>(tabnoeud)
34			{
35	francois	581	if (liaison_topologique!=NULL) if (liaison_topologique->get_dimension()==3) liaison_topologique->get_lien_fem_maillage()->ajouter(this);
36	francois	310	tab[0]->get_lien_element3()->ajouter(this);
37			tab[1]->get_lien_element3()->ajouter(this);
38			tab[2]->get_lien_element3()->ajouter(this);
39			tab[3]->get_lien_element3()->ajouter(this);
40			tab[4]->get_lien_element3()->ajouter(this);
41			tab[5]->get_lien_element3()->ajouter(this);
42			tab[6]->get_lien_element3()->ajouter(this);
43			tab[7]->get_lien_element3()->ajouter(this);
44			get_fem_noeudpetitid()->get_lien_petit_element3()->ajouter(this);
45			}
46
47			FEM_HEXA8::FEM_HEXA8(class MG_ELEMENT_MAILLAGE* mai,FEM_NOEUD** tabnoeud):FEM_ELEMENT3(mai),FEM_TEMPLATE_ELEMENT<8>(tabnoeud)
48			{
49	francois	581	if (liaison_topologique!=NULL) if (liaison_topologique->get_dimension()==3) liaison_topologique->get_lien_fem_maillage()->ajouter(this);
50	francois	310	tab[0]->get_lien_element3()->ajouter(this);
51			tab[1]->get_lien_element3()->ajouter(this);
52			tab[2]->get_lien_element3()->ajouter(this);
53			tab[3]->get_lien_element3()->ajouter(this);
54			tab[4]->get_lien_element3()->ajouter(this);
55			tab[5]->get_lien_element3()->ajouter(this);
56			tab[6]->get_lien_element3()->ajouter(this);
57			tab[7]->get_lien_element3()->ajouter(this);
58			get_fem_noeudpetitid()->get_lien_petit_element3()->ajouter(this);
59			}
60
61	francois	378	FEM_HEXA8::FEM_HEXA8(unsigned long num,class MG_ELEMENT_TOPOLOGIQUE* topo,class FEM_NOEUD** tabnoeud):FEM_ELEMENT3(num,topo),FEM_TEMPLATE_ELEMENT<8>(tabnoeud)
62			{
63	francois	581	if (liaison_topologique!=NULL) if (liaison_topologique->get_dimension()==3) liaison_topologique->get_lien_fem_maillage()->ajouter(this);
64	francois	378	tab[0]->get_lien_element3()->ajouter(this);
65			tab[1]->get_lien_element3()->ajouter(this);
66			tab[2]->get_lien_element3()->ajouter(this);
67			tab[3]->get_lien_element3()->ajouter(this);
68			tab[4]->get_lien_element3()->ajouter(this);
69			tab[5]->get_lien_element3()->ajouter(this);
70			tab[6]->get_lien_element3()->ajouter(this);
71			tab[7]->get_lien_element3()->ajouter(this);
72			get_fem_noeudpetitid()->get_lien_petit_element3()->ajouter(this);
73			}
74
75			FEM_HEXA8::FEM_HEXA8(class MG_ELEMENT_TOPOLOGIQUE* topo,FEM_NOEUD** tabnoeud):FEM_ELEMENT3(topo),FEM_TEMPLATE_ELEMENT<8>(tabnoeud)
76			{
77	francois	581	if (liaison_topologique!=NULL) if (liaison_topologique->get_dimension()==3) liaison_topologique->get_lien_fem_maillage()->ajouter(this);
78	francois	378	tab[0]->get_lien_element3()->ajouter(this);
79			tab[1]->get_lien_element3()->ajouter(this);
80			tab[2]->get_lien_element3()->ajouter(this);
81			tab[3]->get_lien_element3()->ajouter(this);
82			tab[4]->get_lien_element3()->ajouter(this);
83			tab[5]->get_lien_element3()->ajouter(this);
84			tab[6]->get_lien_element3()->ajouter(this);
85			tab[7]->get_lien_element3()->ajouter(this);
86			get_fem_noeudpetitid()->get_lien_petit_element3()->ajouter(this);
87			}
88
89			FEM_HEXA8::FEM_HEXA8(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<8>(tabnoeud)
90			{
91	francois	581	if (liaison_topologique!=NULL) if (liaison_topologique->get_dimension()==3) liaison_topologique->get_lien_fem_maillage()->ajouter(this);
92	francois	378	tab[0]->get_lien_element3()->ajouter(this);
93			tab[1]->get_lien_element3()->ajouter(this);
94			tab[2]->get_lien_element3()->ajouter(this);
95			tab[3]->get_lien_element3()->ajouter(this);
96			tab[4]->get_lien_element3()->ajouter(this);
97			tab[5]->get_lien_element3()->ajouter(this);
98			tab[6]->get_lien_element3()->ajouter(this);
99			tab[7]->get_lien_element3()->ajouter(this);
100			get_fem_noeudpetitid()->get_lien_petit_element3()->ajouter(this);
101			}
102
103			FEM_HEXA8::FEM_HEXA8(class MG_ELEMENT_TOPOLOGIQUE* topo,class MG_ELEMENT_MAILLAGE* mai,FEM_NOEUD** tabnoeud):FEM_ELEMENT3(topo,mai),FEM_TEMPLATE_ELEMENT<8>(tabnoeud)
104			{
105	francois	581	if (liaison_topologique!=NULL) if (liaison_topologique->get_dimension()==3) liaison_topologique->get_lien_fem_maillage()->ajouter(this);
106	francois	378	tab[0]->get_lien_element3()->ajouter(this);
107			tab[1]->get_lien_element3()->ajouter(this);
108			tab[2]->get_lien_element3()->ajouter(this);
109			tab[3]->get_lien_element3()->ajouter(this);
110			tab[4]->get_lien_element3()->ajouter(this);
111			tab[5]->get_lien_element3()->ajouter(this);
112			tab[6]->get_lien_element3()->ajouter(this);
113			tab[7]->get_lien_element3()->ajouter(this);
114			get_fem_noeudpetitid()->get_lien_petit_element3()->ajouter(this);
115			}
116
117
118
119
120	francois	310	FEM_HEXA8::FEM_HEXA8(FEM_HEXA8& mdd):FEM_ELEMENT3(mdd),FEM_TEMPLATE_ELEMENT<8>(mdd)
121			{
122	francois	581	if (liaison_topologique!=NULL) if (liaison_topologique->get_dimension()==3) liaison_topologique->get_lien_fem_maillage()->ajouter(this);
123	francois	310	tab[0]->get_lien_element3()->ajouter(this);
124			tab[1]->get_lien_element3()->ajouter(this);
125			tab[2]->get_lien_element3()->ajouter(this);
126			tab[3]->get_lien_element3()->ajouter(this);
127			tab[4]->get_lien_element3()->ajouter(this);
128			tab[5]->get_lien_element3()->ajouter(this);
129			tab[6]->get_lien_element3()->ajouter(this);
130			tab[7]->get_lien_element3()->ajouter(this);
131			get_fem_noeudpetitid()->get_lien_petit_element3()->ajouter(this);
132			}
133			FEM_HEXA8::~FEM_HEXA8()
134			{
135	francois	663	if (liaison_topologique!=NULL)
136			if (liaison_topologique->get_dimension()==3) liaison_topologique->get_lien_fem_maillage()->supprimer(this);
137	francois	310	tab[0]->get_lien_element3()->supprimer(this);
138			tab[1]->get_lien_element3()->supprimer(this);
139			tab[2]->get_lien_element3()->supprimer(this);
140			tab[3]->get_lien_element3()->supprimer(this);
141			tab[4]->get_lien_element3()->supprimer(this);
142			tab[5]->get_lien_element3()->supprimer(this);
143			tab[6]->get_lien_element3()->supprimer(this);
144			tab[7]->get_lien_element3()->supprimer(this);
145			get_fem_noeudpetitid()->get_lien_petit_element3()->supprimer(this);
146			}
147
148
149			FEM_ELEMENT_MAILLAGE* FEM_HEXA8::dupliquer(FEM_MAILLAGE *femmai,long decalage)
150			{
151			FEM_NOEUD* tabnoeud[8];
152			tabnoeud[0]=femmai->get_fem_noeudid(tab[0]->get_id()+decalage);
153			tabnoeud[1]=femmai->get_fem_noeudid(tab[1]->get_id()+decalage);
154			tabnoeud[2]=femmai->get_fem_noeudid(tab[2]->get_id()+decalage);
155			tabnoeud[3]=femmai->get_fem_noeudid(tab[3]->get_id()+decalage);
156			tabnoeud[4]=femmai->get_fem_noeudid(tab[4]->get_id()+decalage);
157			tabnoeud[5]=femmai->get_fem_noeudid(tab[5]->get_id()+decalage);
158			tabnoeud[6]=femmai->get_fem_noeudid(tab[6]->get_id()+decalage);
159			tabnoeud[7]=femmai->get_fem_noeudid(tab[7]->get_id()+decalage);
160			FEM_HEXA8* quad=new FEM_HEXA8(get_id()+decalage,maillage,tabnoeud);
161			femmai->ajouter_fem_element3(quad);
162			return quad;
163			}
164
165
166	francois	635	bool FEM_HEXA8::valide_parametre_EF(double* uvw)
167			{
168			if (uvw[0]>=-1e-10)
169			if (uvw[1]>=-1e-10)
170			if (uvw[2]>=-1e-10)
171			if (uvw[0]<=1.+1e-10)
172			if (uvw[1]<=1.+1e-10)
173			if (uvw[2]<=1.+1e-10)
174			return true;
175			return false;
176			}
177	francois	310
178
179
180			int FEM_HEXA8::get_type_entite(void)
181			{
182			return IDFEM_HEXA8;
183			}
184
185			int FEM_HEXA8::get_dimension(void)
186			{
187			return 3;
188			}
189
190
191
192			int FEM_HEXA8::get_nb_fem_noeud(void)
193			{
194			return FEM_TEMPLATE_ELEMENT<8>::get_nb_fem_noeud();
195			}
196
197			FEM_NOEUD* FEM_HEXA8::get_fem_noeud(int num)
198			{
199			return FEM_TEMPLATE_ELEMENT<8>::get_fem_noeud(num);
200			}
201
202			void FEM_HEXA8::change_noeud(int num,FEM_NOEUD* noeud)
203			{
204			FEM_TEMPLATE_ELEMENT<8>::change_noeud(num,noeud);
205			}
206
207			BOITE_3D& FEM_HEXA8::get_boite_3D(void)
208			{
209			return FEM_TEMPLATE_ELEMENT<8>::get_boite_3D();
210			}
211
212
213			void FEM_HEXA8::enregistrer(std::ostream& o)
214			{
215	francois	378	if (maillage!=NULL)
216			if (get_lien_topologie()!=NULL) o << "%" << get_id() << "=FEM_HEXA8($"<< get_lien_topologie()->get_id() << ",$" << 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()<< ");" << std::endl;
217			else o << "%" << get_id() << "=FEM_HEXA8(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()<< ",$" << tab[7]->get_id()<<");" << std::endl;
218			else
219			if (get_lien_topologie()!=NULL) o << "%" << get_id() << "=FEM_HEXA8($"<< 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()<< ");" << std::endl;
220			else o << "%" << get_id() << "=FEM_HEXA8(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()<<");" << std::endl;
221
222	francois	310	}
223	francois	637
224
225			int FEM_HEXA8::get_nb_pt_gauss(int degre)
226			{
227			if (degre<3) return 4;
228			if (degre<4) return 6;
229			if (degre<6) return 14;
230			return 0;
231			}
232
233			void FEM_HEXA8::get_pt_gauss(int degre,int num,double &w,double *uvw)
234			{
235			if (degre<3)
236			{
237			if (num==0) {w=2.;uvw[0]=0.;uvw[1]=0.816496580927726;uvw[2]=-0,577350269189626;}
238			if (num==1) {w=2.;uvw[0]=0.;uvw[1]=-0.816496580927726;uvw[2]=-0,577350269189626;}
239			if (num==2) {w=2.;uvw[0]=-0.816496580927726;uvw[1]=0.;uvw[2]=0,577350269189626;}
240	francois	639	if (num==3) {w=2.;uvw[0]=0.816496580927726;uvw[1]=0.;uvw[2]=0,577350269189626;}
241	francois	637	return;
242			}
243			if (degre<4)
244			{
245			if (num==0) {w=1.333333333333333;uvw[0]=1.;uvw[1]=0.;uvw[2]=0.;}
246			if (num==1) {w=1.333333333333333;uvw[0]=-1.;uvw[1]=0.;uvw[2]=0.;}
247			if (num==2) {w=1.333333333333333;uvw[0]=0.;uvw[1]=1.;uvw[2]=0.;}
248			if (num==3) {w=1.333333333333333;uvw[0]=0.;uvw[1]=-1.;uvw[2]=0.;}
249			if (num==4) {w=1.333333333333333;uvw[0]=0.;uvw[1]=0.;uvw[2]=1.;}
250			if (num==5) {w=1.333333333333333;uvw[0]=0.;uvw[1]=0.;uvw[2]=-1.;}
251			return;
252			}
253			if (degre<6)
254			{
255			double a=0.795822425754221;
256			double b=0.758786910639328;
257			double w1=0.886426592797784;
258			double w2=0.335180055401662;
259			if (num==0) {w=w1;uvw[0]=a;uvw[1]=0.;uvw[2]=0.;}
260			if (num==1) {w=w1;uvw[0]=-a;uvw[1]=0.;uvw[2]=0.;}
261			if (num==2) {w=w1;uvw[0]=0.;uvw[1]=a;uvw[2]=0.;}
262			if (num==3) {w=w1;uvw[0]=0.;uvw[1]=-a;uvw[2]=0.;}
263			if (num==4) {w=w1;uvw[0]=0.;uvw[1]=0.;uvw[2]=a;}
264			if (num==5) {w=w1;uvw[0]=0.;uvw[1]=0.;uvw[2]=-a;}
265			if (num==6) {w=w2;uvw[0]=b;uvw[1]=b;uvw[2]=b;}
266			if (num==7) {w=w2;uvw[0]=b;uvw[1]=-b;uvw[2]=-b;}
267			if (num==8) {w=w2;uvw[0]=b;uvw[1]=b;uvw[2]=-b;}
268			if (num==9) {w=w2;uvw[0]=b;uvw[1]=-b;uvw[2]=b;}
269			if (num==10) {w=w2;uvw[0]=-b;uvw[1]=b;uvw[2]=b;}
270			if (num==11) {w=w2;uvw[0]=-b;uvw[1]=-b;uvw[2]=-b;}
271			if (num==12) {w=w2;uvw[0]=-b;uvw[1]=b;uvw[2]=-b;}
272			if (num==13) {w=w2;uvw[0]=-b;uvw[1]=-b;uvw[2]=b;}
273			return;
274			}
275
276			}
277	francois	638	int FEM_HEXA8::get_nb_fonction_interpolation(void)
278	francois	310	{
279			return 8;
280			}
281
282	francois	638	int FEM_HEXA8::get_degremax_fonction_interpolation(void)
283			{
284			return 3;
285			}
286	francois	310	double FEM_HEXA8::get_fonction_interpolation(int num,double *uv)
287			{
288			double val;
289			double a1=1.+uv[0],a2=1.-uv[0];
290			double b1=1.+uv[1],b2=1.-uv[1];
291			double c1=1.+uv[2],c2=1.-uv[2];
292			switch (num)
293			{
294			case 1:
295			val=0.125a2b2*c2;
296			break;
297			case 2:
298			val=0.125a1b2*c2;
299			break;
300			case 3:
301			val=0.125a1b1*c2;
302			break;
303			case 4:
304			val=0.125a2b1*c2;
305			break;
306			case 5:
307			val=0.125a2b2*c1;
308			break;
309			case 6:
310			val=0.125a1b2*c1;
311			break;
312			case 7:
313			val=0.125a1b1*c1;
314			break;
315			case 8:
316			val=0.125a2b1*c1;
317			break;
318			}
319			return val;
320			}
321
322			double FEM_HEXA8::get_fonction_derive_interpolation(int num,int num_variable,double *uv)
323			{
324			double val;
325			double a1=1.+uv[0],a2=1.-uv[0];
326			double b1=1.+uv[1],b2=1.-uv[1];
327			double c1=1.+uv[2],c2=1.-uv[2];
328			switch (num)
329			{
330			case 1:
331			switch (num_variable)
332			{
333			case 1:
334			val=-0.125b2c2;
335			break;
336			case 2:
337			val=-0.125a2c2;
338			break;
339			case 3:
340			val=-0.125a2b2;
341			break;
342			} break;
343			case 2:
344			switch (num_variable)
345			{
346			case 1:
347			val=0.125b2c2;
348			break;
349			case 2:
350			val=-0.125a1c2;
351			break;
352			case 3:
353			val=-0.125a1b2;
354			break;
355			} break;
356			case 3:
357			switch (num_variable)
358			{
359			case 1:
360			val=0.125b1c2;
361			break;
362			case 2:
363			val=0.125a1c2;
364			break;
365			case 3:
366			val=-0.125a1b1;
367			break;
368			} break;
369			case 4:
370			switch (num_variable)
371			{
372			case 1:
373			val=-0.125b1c2;
374			break;
375			case 2:
376			val=0.125a2c2;
377			break;
378			case 3:
379			val=-0.125a2b1;
380			break;
381			} break;
382			case 5:
383			switch (num_variable)
384			{
385			case 1:
386			val=-0.125b2c1;
387			break;
388			case 2:
389			val=-0.125a2c1;
390			break;
391			case 3:
392			val=0.125a2b2;
393			break;
394			} break;
395			case 6:
396			switch (num_variable)
397			{
398			case 1:
399			val=0.125b2c1;
400			break;
401			case 2:
402			val=-0.125a1c1;
403			break;
404			case 3:
405			val=0.125a1b2;
406			break;
407			} break;
408			case 7:
409			switch (num_variable)
410			{
411			case 1:
412			val=0.125b1c1;
413			break;
414			case 2:
415			val=0.125a1c1;
416			break;
417			case 3:
418			val=0.125a1b1;
419			break;
420			} break;
421			case 8:
422			switch (num_variable)
423			{
424			case 1:
425			val=-0.125b1c1;
426			break;
427			case 2:
428			val=0.125a2c1;
429			break;
430			case 3:
431			val=0.125a2b1;
432			break;
433			} break;
434			}
435			return val;
436			}
437
438			double FEM_HEXA8::get_jacobien(double* jac,double *uv,int& li,int& col,double unite)
439			{
440			li=3;col=3;
441			OT_TENSEUR Ni(3,8),Xi(8,3);
442			for (int i=0;i<3;i++)
443			for (int j=0;j<8;j++)
444			Ni(i,j)=get_fonction_derive_interpolation(j+1,i+1,uv);
445			for (int i=0;i<8;i++)
446			{
447			double *xyz=tab[i]->get_coord();
448			Xi(i,0)=xyz[0]*unite;
449			Xi(i,1)=xyz[1]*unite;
450			Xi(i,2)=xyz[2]*unite;
451			}
452			OT_TENSEUR jacobi=Ni*Xi;
453			jac[0]=jacobi(0,0).get_x();
454			jac[1]=jacobi(0,1).get_x();
455			jac[2]=jacobi(0,2).get_x();
456			jac[3]=jacobi(1,0).get_x();
457			jac[4]=jacobi(1,1).get_x();
458			jac[5]=jacobi(1,2).get_x();
459			jac[6]=jacobi(2,0).get_x();
460			jac[7]=jacobi(2,1).get_x();
461			jac[8]=jacobi(2,2).get_x();
462			double det=jac[0]jac[4]jac[8]+jac[3]jac[7]jac[2]+jac[6]jac[1]jac[5]-jac[2]jac[4]jac[6]-jac[5]jac[7]jac[0]-jac[8]jac[1]jac[3];
463			return det;
464
465			}
466
467			void FEM_HEXA8::get_inverse_jacob(double* j,double *uv,double unite)
468			{
469			double jac[9];
470			int li,col;
471			double detj=get_jacobien(jac,uv,li,col,unite);
472			j[03+0] = (jac[13+1]jac[23+2]-jac[13+2]jac[2*3+1])/(detj);
473			j[03+1] = -(jac[03+1]jac[23+2]-jac[03+2]jac[2*3+1])/(detj);
474			j[03+2] =-(-jac[03+1]jac[13+2]+jac[03+2]jac[1*3+1])/(detj);
475
476			j[13+0] = -(jac[13+0]jac[23+2]-jac[13+2]jac[2*3+0])/(detj);
477			j[13+1] = (jac[03+0]jac[23+2]-jac[03+2]jac[2*3+0])/(detj);
478			j[13+2] = -(jac[03+0]jac[13+2]-jac[03+2]jac[1*3+0])/(detj);
479
480			j[23+0] =-(-jac[13+0]jac[23+1]+jac[13+1]jac[2*3+0])/(detj);
481			j[23+1] = -(jac[03+0]jac[23+1]-jac[03+1]jac[2*3+0])/(detj);
482			j[23+2] = (jac[03+0]jac[13+1]-jac[03+1]jac[1*3+0])/(detj);
483
484	francois	405	}
485
486
487
488	francois	406	int FEM_HEXA8::verifie_validite_decoupage_xfem(double *vol)
489	francois	405	{
490
491	francois	310	}