REPOS_ERICCA/acismesh/eval_dis_no_tri.cpp

/*****************************************************************
                                                                 
                 eval_dis_no_tri.cpp            Type:Func                          
                                                                 
                 Calcul de la distance entre un noeud et un triangle                                              
                                                                 
                 Date de creation :  30-7-1999 9 :28 :28                           
                 Derniere version :  30-7-1999 9 :28 :28                           
                                                                 
                 Vincent FRANCOIS                                
                                                                 
*****************************************************************/


/**************************/
/* include */ 
#include <stdio.h>
#include <string.h>
#include <stdlib.h>
#include <math.h>
#include "const.h"
#include "memoire.h"
#include "struct.h"
#include "struct3d.h"
#include "prototype.h"


/**************************/
/* variables globales */
extern struct environnment env;
extern struct s_mesh *mesh;


/**************************/
/* programme principal */

float eval_dis_no_tri(float x,float y,float z,struct s_triangle *tri)
{
struct s_noeud *no1,*no2,*no3;
float n1n2[4],n1n3[4],n1n4[4],nn1[4],nn2[4],nn3[4],n1n[4];
float det,xsi,eta,psi;
float xproj,yproj,zproj,vec[4],dis,eps;

eps=0.0001;
no1=ADRESSE(tri->n1,noeud,mesh->);
no2=ADRESSE(tri->n2,noeud,mesh->);
no3=ADRESSE(tri->n3,noeud,mesh->);


VEC(n1n2,no1,no2);
VEC(n1n3,no1,no3);
n1n4[0]=x-no1->x;
n1n4[1]=y-no1->y;
n1n4[2]=z-no1->z;
PVEC(n1n,n1n2,n1n3);

det=n1n2[0]*n1n3[1]*n1n[2]+n1n2[1]*n1n3[2]*n1n[0]+n1n2[2]*n1n3[0]*n1n[1]
   -n1n2[2]*n1n3[1]*n1n[0]-n1n2[0]*n1n3[2]*n1n[1]-n1n2[1]*n1n3[0]*n1n[2];
xsi=n1n4[0]*n1n3[1]*n1n[2]+n1n4[1]*n1n3[2]*n1n[0]+n1n4[2]*n1n3[0]*n1n[1]
   -n1n4[2]*n1n3[1]*n1n[0]-n1n4[0]*n1n3[2]*n1n[1]-n1n4[1]*n1n3[0]*n1n[2];
eta=n1n2[0]*n1n4[1]*n1n[2]+n1n2[1]*n1n4[2]*n1n[0]+n1n2[2]*n1n4[0]*n1n[1]
   -n1n2[2]*n1n4[1]*n1n[0]-n1n2[0]*n1n4[2]*n1n[1]-n1n2[1]*n1n4[0]*n1n[2];
psi=n1n2[0]*n1n3[1]*n1n4[2]+n1n2[1]*n1n3[2]*n1n4[0]+n1n2[2]*n1n3[0]*n1n4[1]
   -n1n2[2]*n1n3[1]*n1n4[0]-n1n2[0]*n1n3[2]*n1n4[1]-n1n2[1]*n1n3[0]*n1n4[2];
xsi=xsi/det;
eta=eta/det;
psi=psi/det;


if((eta > -eps) && (xsi > -eps) && ((eta+xsi) < 1.0+eps))
        {
        xproj=(1-xsi-eta)*no1->x+xsi*no2->x+eta*no3->x;
        yproj=(1-xsi-eta)*no1->y+xsi*no2->y+eta*no3->y;
        zproj=(1-xsi-eta)*no1->z+xsi*no2->z+eta*no3->z;
        vec[0]=x-xproj;
        vec[1]=y-yproj;
        vec[2]=z-zproj;
        NORME(vec);
        dis=vec[3];
        }
else
        {
        nn1[0]=no1->x-x;
        nn1[1]=no1->y-y;
        nn1[2]=no1->z-z;
        nn2[0]=no2->x-x;
        nn2[1]=no2->y-y;
        nn2[2]=no2->z-z;
        nn3[0]=no3->x-x;
        nn3[1]=no3->y-y;
        nn3[2]=no3->z-z;
        NORME(nn1);
        NORME(nn2);
        NORME(nn3);
        dis=0.33333333333*(nn1[3]+nn2[3]+nn3[3]);
        }
return(dis);
}
Revision:	1
Committed:	Mon Jun 11 22:53:07 2007 UTC (17 years, 11 months ago)
File size:	3222 byte(s)
Log Message:
#	Content
1	/*****************************************************************
2
3	eval_dis_no_tri.cpp Type:Func
4
5	Calcul de la distance entre un noeud et un triangle
6
7	Date de creation : 30-7-1999 9 :28 :28
8	Derniere version : 30-7-1999 9 :28 :28
9
10	Vincent FRANCOIS
11
12	*****************************************************************/
13
14
15
16
17
18	/**************************/
19	/* include */
20	#include <stdio.h>
21	#include <string.h>
22	#include <stdlib.h>
23	#include <math.h>
24	#include "const.h"
25	#include "memoire.h"
26	#include "struct.h"
27	#include "struct3d.h"
28	#include "prototype.h"
29
30
31	/**************************/
32	/* variables globales */
33	extern struct environnment env;
34	extern struct s_mesh *mesh;
35
36
37
38	/**************************/
39	/* programme principal */
40
41	float eval_dis_no_tri(float x,float y,float z,struct s_triangle *tri)
42	{
43	struct s_noeud no1,no2,*no3;
44	float n1n2[4],n1n3[4],n1n4[4],nn1[4],nn2[4],nn3[4],n1n[4];
45	float det,xsi,eta,psi;
46	float xproj,yproj,zproj,vec[4],dis,eps;
47
48	eps=0.0001;
49	no1=ADRESSE(tri->n1,noeud,mesh->);
50	no2=ADRESSE(tri->n2,noeud,mesh->);
51	no3=ADRESSE(tri->n3,noeud,mesh->);
52
53
54	VEC(n1n2,no1,no2);
55	VEC(n1n3,no1,no3);
56	n1n4[0]=x-no1->x;
57	n1n4[1]=y-no1->y;
58	n1n4[2]=z-no1->z;
59	PVEC(n1n,n1n2,n1n3);
60
61	det=n1n2[0]n1n3[1]n1n[2]+n1n2[1]n1n3[2]n1n[0]+n1n2[2]n1n3[0]n1n[1]
62	-n1n2[2]n1n3[1]n1n[0]-n1n2[0]n1n3[2]n1n[1]-n1n2[1]n1n3[0]n1n[2];
63	xsi=n1n4[0]n1n3[1]n1n[2]+n1n4[1]n1n3[2]n1n[0]+n1n4[2]n1n3[0]n1n[1]
64	-n1n4[2]n1n3[1]n1n[0]-n1n4[0]n1n3[2]n1n[1]-n1n4[1]n1n3[0]n1n[2];
65	eta=n1n2[0]n1n4[1]n1n[2]+n1n2[1]n1n4[2]n1n[0]+n1n2[2]n1n4[0]n1n[1]
66	-n1n2[2]n1n4[1]n1n[0]-n1n2[0]n1n4[2]n1n[1]-n1n2[1]n1n4[0]n1n[2];
67	psi=n1n2[0]n1n3[1]n1n4[2]+n1n2[1]n1n3[2]n1n4[0]+n1n2[2]n1n3[0]n1n4[1]
68	-n1n2[2]n1n3[1]n1n4[0]-n1n2[0]n1n3[2]n1n4[1]-n1n2[1]n1n3[0]n1n4[2];
69	xsi=xsi/det;
70	eta=eta/det;
71	psi=psi/det;
72
73
74	if((eta > -eps) && (xsi > -eps) && ((eta+xsi) < 1.0+eps))
75	{
76	xproj=(1-xsi-eta)no1->x+xsino2->x+eta*no3->x;
77	yproj=(1-xsi-eta)no1->y+xsino2->y+eta*no3->y;
78	zproj=(1-xsi-eta)no1->z+xsino2->z+eta*no3->z;
79	vec[0]=x-xproj;
80	vec[1]=y-yproj;
81	vec[2]=z-zproj;
82	NORME(vec);
83	dis=vec[3];
84	}
85	else
86	{
87	nn1[0]=no1->x-x;
88	nn1[1]=no1->y-y;
89	nn1[2]=no1->z-z;
90	nn2[0]=no2->x-x;
91	nn2[1]=no2->y-y;
92	nn2[2]=no2->z-z;
93	nn3[0]=no3->x-x;
94	nn3[1]=no3->y-y;
95	nn3[2]=no3->z-z;
96	NORME(nn1);
97	NORME(nn2);
98	NORME(nn3);
99	dis=0.33333333333*(nn1[3]+nn2[3]+nn3[3]);
100	}
101	return(dis);
102	}