solveur/src/sl_tetra11.cpp

#include "gestionversion.h"
//---------------------------------------------------------------------------

#pragma hdrstop
#include <math.h>
#include <assert.h>
#include "tpl_map_entite.h"
#include "fem_triangle.h"
#include "fem_segment.h"

#include "sl_tetra11.h"
#include "fem_tetra.h"
#include "fem_noeud.h"

//---------------------------------------------------------------------------
#pragma package(smart_init)


SL_TETRA11::SL_TETRA11(FEM_TETRA* mgtet):SL_TETRA(mgtet)
{
}

SL_TETRA11::SL_TETRA11(SL_TETRA11& mdd):SL_TETRA(mdd)
{
}

SL_TETRA11::~SL_TETRA11()
{
}

int SL_TETRA11::nb_point_gauss(void)
{
return 1;
}


int SL_TETRA11::nb_fonction_interpolation(void)
{
return 4;
}

void SL_TETRA11::get_point_gauss(int num,double *xyz,double& poids)
{
xyz[0]=0.25;
xyz[1]=0.25;
xyz[2]=0.25;

poids=0.16666666666666666666666666666667;

}

double SL_TETRA11::get_fonction_interpolation(int num,double *uv)
{
double val;

switch (num)
        {
        case 1:val=1-uv[0]-uv[1]-uv[2];break;
        case 2:val=uv[0];break;
        case 3:val=uv[1];break;
        case 4:val=uv[2];break;

        }
return val;
}

double SL_TETRA11::get_fonction_derive_interpolation(int num,int num_variable,double *uv)
{
double val;

switch (num)
        {
        case 1:switch (num_variable)
                     {
                    case 1:val=-1;break;
                    case 2:val=-1;break;
                    case 3:val=-1;break;
                      } break;
        case 2:switch (num_variable)
                     {
                    case 1:val=1;break;
                    case 2:val=0;break;
                    case 3:val=0;break;
                    }break;
        case 3:switch (num_variable)
                     {
                    case 1:val=0;break;
                    case 2:val=1;break;
                    case 3:val=0;break;
                      }break;
        case 4:switch (num_variable)
                     {
                    case 1:val=0;break;
                    case 2:val=0;break;
                    case 3:val=1;break;
                      }break;

           }
return val;

}

double SL_TETRA11::get_jacobien(double* jac,double *uv,int& li,int& col,double unite)
{


li=3;
col=3;


FEM_NOEUD* noeud1=((FEM_TETRA*) mai)->get_fem_noeud(0);
FEM_NOEUD* noeud2=((FEM_TETRA*) mai)->get_fem_noeud(1);
FEM_NOEUD* noeud3=((FEM_TETRA*) mai)->get_fem_noeud(2);
FEM_NOEUD* noeud4=((FEM_TETRA*) mai)->get_fem_noeud(3);


   double *xyz1=noeud1->get_coord();
   double *xyz2=noeud2->get_coord();
   double *xyz3=noeud3->get_coord();
   double *xyz4=noeud4->get_coord();

    jac[0]=unite*(xyz2[0] - xyz1[0])  ;
    jac[1]=unite*(xyz2[1] - xyz1[1])  ;
    jac[2]=unite*(xyz2[2] - xyz1[2])  ;

    jac[3]=unite*(xyz3[0] - xyz1[0])  ;
    jac[4]=unite*(xyz3[1] - xyz1[1])  ;
    jac[5]=unite*(xyz3[2] - xyz1[2])  ;

    jac[6]=unite*(xyz4[0] - xyz1[0])  ;
    jac[7]=unite*(xyz4[1] - xyz1[1])  ;
    jac[8]=unite*(xyz4[2] - xyz1[2])  ;

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 SL_TETRA11::get_inverse_jacob(double* j,double *uv,double unite)
{

FEM_NOEUD* noeud1=((FEM_TETRA*) mai)->get_fem_noeud(0);
FEM_NOEUD* noeud2=((FEM_TETRA*) mai)->get_fem_noeud(1);
FEM_NOEUD* noeud3=((FEM_TETRA*) mai)->get_fem_noeud(2);
FEM_NOEUD* noeud4=((FEM_TETRA*) mai)->get_fem_noeud(3);

   double *xyz1=noeud1->get_coord();
   double *xyz2=noeud2->get_coord();
   double *xyz3=noeud3->get_coord();
   double *xyz4=noeud4->get_coord();

   double jac[9];

    jac[0*3+0]=  unite*(xyz2[0] - xyz1[0])  ;
    jac[0*3+1]=  unite*(xyz2[1] - xyz1[1])  ;
    jac[0*3+2]=  unite*(xyz2[2] - xyz1[2])  ;

    jac[1*3+0]=  unite*(xyz3[0] - xyz1[0])  ;
    jac[1*3+1]=  unite*(xyz3[1] - xyz1[1])  ;
    jac[1*3+2]=  unite*(xyz3[2] - xyz1[2])  ;

    jac[2*3+0]=  unite*(xyz4[0] - xyz1[0])  ;
    jac[2*3+1]=  unite*(xyz4[1] - xyz1[1])  ;
    jac[2*3+2]=  unite*(xyz4[2] - xyz1[2])  ;
   
    double detj=(jac[0*3+0]*jac[1*3+1]*jac[2*3+2]-jac[0*3+0]*jac[1*3+2]*jac[2*3+1]-jac[1*3+0]*jac[0*3+1]*jac[2*3+2]+jac[1*3+0]*jac[0*3+2]*jac[2*3+1]+jac[2*3+0]*jac[0*3+1]*jac[1*3+2]-jac[2*3+0]*jac[0*3+2]*jac[1*3+1]);

    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 SL_TETRA11::nb_point_extrapolation()
{
return 4;
}


void SL_TETRA11::get_cord_ref_noauds(double* sommet)
{
sommet[0]=0;  sommet[1]=0;  sommet[2]=0;
sommet[3]=1;  sommet[4]=0;  sommet[5]=0;
sommet[6]=0;  sommet[7]=1;  sommet[8]=0;
sommet[9]=0;  sommet[10]=0; sommet[11]=1;

}

Revision:	253
Committed:	Tue Jul 13 19:40:46 2010 UTC (14 years, 10 months ago) by francois
File size:	5328 byte(s)
Log Message:	changement de hiearchie et utilisation de ccmake + mise a jour
#	Rev	Content
1	5	#include "gestionversion.h"
2		//---------------------------------------------------------------------------
3
4		#pragma hdrstop
5		#include <math.h>
6		#include <assert.h>
7		#include "tpl_map_entite.h"
8		#include "fem_triangle.h"
9		#include "fem_segment.h"
10
11		#include "sl_tetra11.h"
12		#include "fem_tetra.h"
13		#include "fem_noeud.h"
14
15		//---------------------------------------------------------------------------
16		#pragma package(smart_init)
17
18
19		SL_TETRA11::SL_TETRA11(FEM_TETRA* mgtet):SL_TETRA(mgtet)
20		{
21		}
22
23		SL_TETRA11::SL_TETRA11(SL_TETRA11& mdd):SL_TETRA(mdd)
24		{
25		}
26
27		SL_TETRA11::~SL_TETRA11()
28		{
29		}
30
31		int SL_TETRA11::nb_point_gauss(void)
32		{
33		return 1;
34		}
35
36
37		int SL_TETRA11::nb_fonction_interpolation(void)
38		{
39		return 4;
40		}
41
42		void SL_TETRA11::get_point_gauss(int num,double *xyz,double& poids)
43		{
44		xyz[0]=0.25;
45		xyz[1]=0.25;
46		xyz[2]=0.25;
47
48		poids=0.16666666666666666666666666666667;
49
50		}
51
52		double SL_TETRA11::get_fonction_interpolation(int num,double *uv)
53		{
54		double val;
55
56		switch (num)
57		{
58		case 1:val=1-uv[0]-uv[1]-uv[2];break;
59		case 2:val=uv[0];break;
60		case 3:val=uv[1];break;
61		case 4:val=uv[2];break;
62
63		}
64		return val;
65		}
66
67		double SL_TETRA11::get_fonction_derive_interpolation(int num,int num_variable,double *uv)
68		{
69		double val;
70
71		switch (num)
72		{
73		case 1:switch (num_variable)
74		{
75		case 1:val=-1;break;
76		case 2:val=-1;break;
77		case 3:val=-1;break;
78		} break;
79		case 2:switch (num_variable)
80		{
81		case 1:val=1;break;
82		case 2:val=0;break;
83		case 3:val=0;break;
84		}break;
85		case 3:switch (num_variable)
86		{
87		case 1:val=0;break;
88		case 2:val=1;break;
89		case 3:val=0;break;
90		}break;
91		case 4:switch (num_variable)
92		{
93		case 1:val=0;break;
94		case 2:val=0;break;
95		case 3:val=1;break;
96		}break;
97
98		}
99		return val;
100
101		}
102
103		double SL_TETRA11::get_jacobien(double* jac,double *uv,int& li,int& col,double unite)
104		{
105
106
107		li=3;
108		col=3;
109
110
111		FEM_NOEUD* noeud1=((FEM_TETRA*) mai)->get_fem_noeud(0);
112		FEM_NOEUD* noeud2=((FEM_TETRA*) mai)->get_fem_noeud(1);
113		FEM_NOEUD* noeud3=((FEM_TETRA*) mai)->get_fem_noeud(2);
114		FEM_NOEUD* noeud4=((FEM_TETRA*) mai)->get_fem_noeud(3);
115
116
117		double *xyz1=noeud1->get_coord();
118		double *xyz2=noeud2->get_coord();
119		double *xyz3=noeud3->get_coord();
120		double *xyz4=noeud4->get_coord();
121
122		jac[0]=unite*(xyz2[0] - xyz1[0]) ;
123		jac[1]=unite*(xyz2[1] - xyz1[1]) ;
124		jac[2]=unite*(xyz2[2] - xyz1[2]) ;
125
126		jac[3]=unite*(xyz3[0] - xyz1[0]) ;
127		jac[4]=unite*(xyz3[1] - xyz1[1]) ;
128		jac[5]=unite*(xyz3[2] - xyz1[2]) ;
129
130		jac[6]=unite*(xyz4[0] - xyz1[0]) ;
131		jac[7]=unite*(xyz4[1] - xyz1[1]) ;
132		jac[8]=unite*(xyz4[2] - xyz1[2]) ;
133
134		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]);
135
136		return SIX_V;
137		}
138
139		void SL_TETRA11::get_inverse_jacob(double* j,double *uv,double unite)
140		{
141
142		FEM_NOEUD* noeud1=((FEM_TETRA*) mai)->get_fem_noeud(0);
143		FEM_NOEUD* noeud2=((FEM_TETRA*) mai)->get_fem_noeud(1);
144		FEM_NOEUD* noeud3=((FEM_TETRA*) mai)->get_fem_noeud(2);
145		FEM_NOEUD* noeud4=((FEM_TETRA*) mai)->get_fem_noeud(3);
146
147		double *xyz1=noeud1->get_coord();
148		double *xyz2=noeud2->get_coord();
149		double *xyz3=noeud3->get_coord();
150		double *xyz4=noeud4->get_coord();
151
152		double jac[9];
153
154		jac[03+0]= unite(xyz2[0] - xyz1[0]) ;
155		jac[03+1]= unite(xyz2[1] - xyz1[1]) ;
156		jac[03+2]= unite(xyz2[2] - xyz1[2]) ;
157
158		jac[13+0]= unite(xyz3[0] - xyz1[0]) ;
159		jac[13+1]= unite(xyz3[1] - xyz1[1]) ;
160		jac[13+2]= unite(xyz3[2] - xyz1[2]) ;
161
162		jac[23+0]= unite(xyz4[0] - xyz1[0]) ;
163		jac[23+1]= unite(xyz4[1] - xyz1[1]) ;
164		jac[23+2]= unite(xyz4[2] - xyz1[2]) ;
165
166		double detj=(jac[03+0]jac[13+1]jac[23+2]-jac[03+0]jac[13+2]jac[23+1]-jac[13+0]jac[03+1]jac[23+2]+jac[13+0]jac[03+2]jac[23+1]+jac[23+0]jac[03+1]jac[13+2]-jac[23+0]jac[03+2]jac[13+1]);
167
168		j[03+0] = (jac[13+1]jac[23+2]-jac[13+2]jac[2*3+1])/(detj);
169		j[03+1] = -(jac[03+1]jac[23+2]-jac[03+2]jac[2*3+1])/(detj);
170		j[03+2] =-(-jac[03+1]jac[13+2]+jac[03+2]jac[1*3+1])/(detj);
171
172		j[13+0] = -(jac[13+0]jac[23+2]-jac[13+2]jac[2*3+0])/(detj);
173		j[13+1] = (jac[03+0]jac[23+2]-jac[03+2]jac[2*3+0])/(detj);
174		j[13+2] = -(jac[03+0]jac[13+2]-jac[03+2]jac[1*3+0])/(detj);
175
176		j[23+0] =-(-jac[13+0]jac[23+1]+jac[13+1]jac[2*3+0])/(detj);
177		j[23+1] = -(jac[03+0]jac[23+1]-jac[03+1]jac[2*3+0])/(detj);
178		j[23+2] = (jac[03+0]jac[13+1]-jac[03+1]jac[1*3+0])/(detj);
179
180
181
182		}
183
184
185
186		int SL_TETRA11::nb_point_extrapolation()
187		{
188		return 4;
189		}
190
191
192		void SL_TETRA11::get_cord_ref_noauds(double* sommet)
193		{
194		sommet[0]=0; sommet[1]=0; sommet[2]=0;
195		sommet[3]=1; sommet[4]=0; sommet[5]=0;
196		sommet[6]=0; sommet[7]=1; sommet[8]=0;
197		sommet[9]=0; sommet[10]=0; sommet[11]=1;
198
199		}
200