REPOS_ERICCA/acismesh/r3d_m3d.cpp

/*****************************************************************

                 r3d_m3d.cpp            Type:Func

                 Remaillage tetraedrique

                 Date de creation :  4-9-1997 10 :52 :10
                 Derniere version :  4-9-1997 10 :52 :10

                 Vincent FRANCOIS

*****************************************************************/


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


/**************************/
/* variables globales */
extern struct s_acis *acis;
extern struct environnement env;
extern struct s_mesh *mesh;
extern struct s_maillage *maillage;
extern struct s_param *para;


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

void r3d_m3d(struct s_octree **liste)
{
char mess[255];
char string[255],string2[255];
int i,j,num;
struct s_mnoeud *mno1,*mno2,*mno3,*mno4;
struct s_mbodyette *mbo;
struct s_mtetra *mtet;
struct s_noeud *no;
struct s_facette *fa;
struct s_triangle *tri,*front,*fr;
struct s_tetra *tet;
int nb_front,nb_place,nb_liste=0;
int *tab_noeud1;
int *tab_noeud2;
int *tab_ele2;
int nb_noeud,nb_noeud2,mesh_nb_noeud,nb_triangle,nb_tetra;
FILE *fic;
int n1,n2,n3,n4;
float x,y,z;

/* insertion des bodyette */
for (i=0;i<maillage->nb_mbodyette;i++)
        {
    mbo=ADRESSE(i,mbodyette,maillage->);
    mtet=mbo->mtetra[0];
    mno1=ADRESSE(mtet->n1,mnoeud,maillage->);
        mno2=ADRESSE(mtet->n2,mnoeud,maillage->);
        mno3=ADRESSE(mtet->n3,mnoeud,maillage->);
        mno4=ADRESSE(mtet->n4,mnoeud,maillage->);
    x=0.25*(mno1->x+mno2->x+mno3->x+mno4->x);
        y=0.25*(mno1->y+mno2->y+mno3->y+mno4->y);
        z=0.25*(mno1->z+mno2->z+mno3->z+mno4->z);
        if (geo_app_point_body(x,y,z)==1)
        {
        for (j=0;j<mbo->nb_mtetra;j++)
                {
            mtet=mbo->mtetra[j];
            NEW_ENTITE(tet,tetra,mesh->);
            tet->num=mesh->nb_tetra-1;
            tet->etat=ACTIF;
            tet->n1=r3d_gene_noeud(ADRESSE(mtet->n1,mnoeud,maillage->),liste,nb_liste);
            tet->n2=r3d_gene_noeud(ADRESSE(mtet->n2,mnoeud,maillage->),liste,nb_liste);
            tet->n3=r3d_gene_noeud(ADRESSE(mtet->n3,mnoeud,maillage->),liste,nb_liste);
            tet->n4=r3d_gene_noeud(ADRESSE(mtet->n4,mnoeud,maillage->),liste,nb_liste);
            no=ADRESSE(tet->n1,noeud,mesh->);
            no->etat=ACTIF;
            no=ADRESSE(tet->n2,noeud,mesh->);
            no->etat=ACTIF;
            no=ADRESSE(tet->n3,noeud,mesh->);
            no->etat=ACTIF;
            no=ADRESSE(tet->n4,noeud,mesh->);
            no->etat=ACTIF;

            }
        mesh->nb_bodyette_attache++;
        }
    }
sprintf(mess,R3D_M3D_BODY,maillage->nb_mbodyette,mesh->nb_bodyette_attache);
aff_text(mess);
m3d_enreg(1);
/* creations des faces triangulaires */
for (i=0;i<mesh->nb_triangle;i++)
        {
    tri=ADRESSE(i,triangle,mesh->);
    tri->front=1;
    }
for (i=0;i<mesh->nb_tetra;i++)
        {
    tet=ADRESSE(i,tetra,mesh->);
    r3d_ins_face(tet->n1,tet->n3,tet->n2);
    r3d_ins_face(tet->n1,tet->n2,tet->n4);
    r3d_ins_face(tet->n2,tet->n3,tet->n4);
    r3d_ins_face(tet->n1,tet->n4,tet->n3);
    }
/* creation du front */
front=NULL;
nb_front=0;
for (i=0;i<mesh->nb_triangle;i++)
        {
    tri=ADRESSE(i,triangle,mesh->);
    if (tri->front==1)
        {
        nb_front++;
        tri->suivant=front;
        front=tri;
        }
    }
/* separation du front */
NEW_ALLOC(facette,mesh->);
nb_place=0;
while (nb_place!=nb_front)
        {
    fr=front;
    while (fr->front!=1) fr=fr->suivant;
    NEW_ENTITE(fa,facette,mesh->);
    fa->num=mesh->nb_facette-1;
    NEW_POINTEUR(num,triangle,fa->);
    fa->triangle[num]=fr;
    fr->front=0;
    nb_place++;
    for (i=0;i<fa->nb_triangle;i++)
        {
        fr=fa->triangle[i];
        no=ADRESSE(fr->n1,noeud,mesh->);
                for (j=0;j<no->nb_triangle;j++)
                {
            tri=no->triangle[j];
            if (tri->front==1)
                {
                NEW_POINTEUR(num,triangle,fa->);
                fa->triangle[num]=tri;
                tri->front=0;
                nb_place++;
                }
            }
        no=ADRESSE(fr->n2,noeud,mesh->);
                for (j=0;j<no->nb_triangle;j++)
                {
            tri=no->triangle[j];
            if (tri->front==1)
                {
                NEW_POINTEUR(num,triangle,fa->);
                fa->triangle[num]=tri;
                tri->front=0;
                nb_place++;
                }
            }
        no=ADRESSE(fr->n3,noeud,mesh->);
                for (j=0;j<no->nb_triangle;j++)
                {
            tri=no->triangle[j];
            if (tri->front==1)
                {
                NEW_POINTEUR(num,triangle,fa->);
                fa->triangle[num]=tri;
                tri->front=0;
                nb_place++;
                }
            }
        }
        }
sprintf(mess,R3D_M3D_RES,mesh->nb_facette);
aff_text(mess);
/* compression des donnees pour le front */
if (mesh->nb_facette>0)
        {
    tab_noeud1=(int *)calloc(mesh->nb_noeud+1,sizeof(int));
        ERREUR_ALLOC(tab_noeud1);
        tab_noeud2=(int *)calloc(mesh->nb_noeud+1,sizeof(int));
        ERREUR_ALLOC(tab_noeud2);
        tab_ele2=(int *)calloc(mesh->nb_triangle+1,sizeof(int));
        ERREUR_ALLOC(tab_ele2);
        nb_noeud=0;
        nb_triangle=0;
        for (i=0;i<mesh->nb_facette;i++)
                {
        fa=ADRESSE(i,facette,mesh->);
        for (j=0;j<fa->nb_triangle;j++)
                {
                tri=fa->triangle[j];
                tab_ele2[nb_triangle]=tri->num;
                nb_triangle++;
                        if (tab_noeud1[tri->n1]==0)
                        {
                nb_noeud++;
                tab_noeud1[tri->n1]=nb_noeud;
                tab_noeud2[nb_noeud]=tri->n1;
                }
                if (tab_noeud1[tri->n2]==0)
                        {
                nb_noeud++;
                tab_noeud1[tri->n2]=nb_noeud;
                tab_noeud2[nb_noeud]=tri->n2;
                }
                        if (tab_noeud1[tri->n3]==0)
                        {
                    nb_noeud++;
                tab_noeud1[tri->n3]=nb_noeud;
                tab_noeud2[nb_noeud]=tri->n3;
                }

                }
        }
        /* enregistrement des donnees */
        strcpy(string,env.fich);
        string[strlen(string)-4]=0;
        strcat(string,"r_2D.mai");
        fic=fopen(string,"wt");
        fprintf(fic,"%d %d \n",nb_noeud,nb_triangle);
        for (i=0;i<nb_noeud;i++)
                {
        no=ADRESSE(tab_noeud2[i+1],noeud,mesh->);
        if (no->type==VERTEX) strcpy(string2,"vertex");
                if (no->type==EDGE) strcpy(string2,"edge");
                if (no->type==FACE) strcpy(string2,"face");
                fprintf(fic,"%d %f %f %f %s %d\n",i+1,no->x,no->y,no->z,string2,no->num_ent);
                }
        for (i=0;i<nb_triangle;i++)
                {
        tri=ADRESSE(tab_ele2[i],triangle,mesh->);
        n1=tab_noeud1[tri->n1];
        n2=tab_noeud1[tri->n2];
        n3=tab_noeud1[tri->n3];
        fprintf(fic,"3 %d %d %d face %d\n",n1,n2,n3,tri->num_ent);
        }
        fclose(fic);
    minimize();
        spawnl(P_WAIT,"Diamesh","Diamesh","-file",string,"-remesh",NULL);
        restore();
    /* recuperation du resultat */
        string[strlen(string)-6]='3';
        fic=fopen(string,"rt");
        fgets(mess,255,fic);
        sscanf(mess,"%d %d",&nb_noeud2,&nb_tetra);
        mesh_nb_noeud=mesh->nb_noeud;
        for (i=0;i<nb_noeud2;i++)
                {
        fgets(mess,255,fic);
        if (i>=nb_noeud)
                {
                NEW_ENTITE(no,noeud,mesh->);
                sscanf(mess,"%d %f %f %f",&num,&(no->x),&(no->y),&(no->z));
                no->num=mesh->nb_noeud-1;
                no->etat=ACTIF;
                }
        }
        for (i=0;i<nb_tetra;i++)
                {
        fgets(mess,255,fic);
        NEW_ENTITE(tet,tetra,mesh->);
        sscanf(mess,"%d %d %d %d %d",&num,&n1,&n2,&n3,&n4);
        tet->num=mesh->nb_tetra-1;
        tet->etat=ACTIF;
        if (n1<=nb_noeud) tet->n1=tab_noeud2[n1];
        else tet->n1=mesh_nb_noeud+n1-nb_noeud-1;
        if (n2<=nb_noeud) tet->n2=tab_noeud2[n2];
        else tet->n2=mesh_nb_noeud+n2-nb_noeud-1;
        if (n3<=nb_noeud) tet->n3=tab_noeud2[n3];
        else tet->n3=mesh_nb_noeud+n3-nb_noeud-1;
        if (n4<=nb_noeud) tet->n4=tab_noeud2[n4];
        else tet->n4=mesh_nb_noeud+n4-nb_noeud-1;
        no=ADRESSE(tet->n1,noeud,mesh->);
        no->etat=ACTIF;
        no=ADRESSE(tet->n2,noeud,mesh->);
        no->etat=ACTIF;
        no=ADRESSE(tet->n3,noeud,mesh->);
        no->etat=ACTIF;
        no=ADRESSE(tet->n4,noeud,mesh->);
        no->etat=ACTIF;
        }
        fclose(fic);
        free(tab_noeud1);
        free(tab_noeud2);
        free(tab_ele2);
        }
m3d_fin();
m2d_resultat(5);
}
Revision:	1
Committed:	Mon Jun 11 22:53:07 2007 UTC (17 years, 11 months ago)
File size:	8628 byte(s)
Log Message:
#	Content
1	/*****************************************************************
2
3	r3d_m3d.cpp Type:Func
4
5	Remaillage tetraedrique
6
7	Date de creation : 4-9-1997 10 :52 :10
8	Derniere version : 4-9-1997 10 :52 :10
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 <process.h>
24	#include <math.h>
25	#include "const.h"
26	#include "memoire.h"
27	#include "struct.h"
28	#include "struct3d.h"
29	#include "prototype.h"
30
31
32	/**************************/
33	/* variables globales */
34	extern struct s_acis *acis;
35	extern struct environnement env;
36	extern struct s_mesh *mesh;
37	extern struct s_maillage *maillage;
38	extern struct s_param *para;
39
40
41
42	/**************************/
43	/* programme principal */
44
45	void r3d_m3d(struct s_octree **liste)
46	{
47	char mess[255];
48	char string[255],string2[255];
49	int i,j,num;
50	struct s_mnoeud mno1,mno2,mno3,mno4;
51	struct s_mbodyette *mbo;
52	struct s_mtetra *mtet;
53	struct s_noeud *no;
54	struct s_facette *fa;
55	struct s_triangle tri,front,*fr;
56	struct s_tetra *tet;
57	int nb_front,nb_place,nb_liste=0;
58	int *tab_noeud1;
59	int *tab_noeud2;
60	int *tab_ele2;
61	int nb_noeud,nb_noeud2,mesh_nb_noeud,nb_triangle,nb_tetra;
62	FILE *fic;
63	int n1,n2,n3,n4;
64	float x,y,z;
65
66	/* insertion des bodyette */
67	for (i=0;i<maillage->nb_mbodyette;i++)
68	{
69	mbo=ADRESSE(i,mbodyette,maillage->);
70	mtet=mbo->mtetra[0];
71	mno1=ADRESSE(mtet->n1,mnoeud,maillage->);
72	mno2=ADRESSE(mtet->n2,mnoeud,maillage->);
73	mno3=ADRESSE(mtet->n3,mnoeud,maillage->);
74	mno4=ADRESSE(mtet->n4,mnoeud,maillage->);
75	x=0.25*(mno1->x+mno2->x+mno3->x+mno4->x);
76	y=0.25*(mno1->y+mno2->y+mno3->y+mno4->y);
77	z=0.25*(mno1->z+mno2->z+mno3->z+mno4->z);
78	if (geo_app_point_body(x,y,z)==1)
79	{
80	for (j=0;j<mbo->nb_mtetra;j++)
81	{
82	mtet=mbo->mtetra[j];
83	NEW_ENTITE(tet,tetra,mesh->);
84	tet->num=mesh->nb_tetra-1;
85	tet->etat=ACTIF;
86	tet->n1=r3d_gene_noeud(ADRESSE(mtet->n1,mnoeud,maillage->),liste,nb_liste);
87	tet->n2=r3d_gene_noeud(ADRESSE(mtet->n2,mnoeud,maillage->),liste,nb_liste);
88	tet->n3=r3d_gene_noeud(ADRESSE(mtet->n3,mnoeud,maillage->),liste,nb_liste);
89	tet->n4=r3d_gene_noeud(ADRESSE(mtet->n4,mnoeud,maillage->),liste,nb_liste);
90	no=ADRESSE(tet->n1,noeud,mesh->);
91	no->etat=ACTIF;
92	no=ADRESSE(tet->n2,noeud,mesh->);
93	no->etat=ACTIF;
94	no=ADRESSE(tet->n3,noeud,mesh->);
95	no->etat=ACTIF;
96	no=ADRESSE(tet->n4,noeud,mesh->);
97	no->etat=ACTIF;
98
99	}
100	mesh->nb_bodyette_attache++;
101	}
102	}
103	sprintf(mess,R3D_M3D_BODY,maillage->nb_mbodyette,mesh->nb_bodyette_attache);
104	aff_text(mess);
105	m3d_enreg(1);
106	/* creations des faces triangulaires */
107	for (i=0;i<mesh->nb_triangle;i++)
108	{
109	tri=ADRESSE(i,triangle,mesh->);
110	tri->front=1;
111	}
112	for (i=0;i<mesh->nb_tetra;i++)
113	{
114	tet=ADRESSE(i,tetra,mesh->);
115	r3d_ins_face(tet->n1,tet->n3,tet->n2);
116	r3d_ins_face(tet->n1,tet->n2,tet->n4);
117	r3d_ins_face(tet->n2,tet->n3,tet->n4);
118	r3d_ins_face(tet->n1,tet->n4,tet->n3);
119	}
120	/* creation du front */
121	front=NULL;
122	nb_front=0;
123	for (i=0;i<mesh->nb_triangle;i++)
124	{
125	tri=ADRESSE(i,triangle,mesh->);
126	if (tri->front==1)
127	{
128	nb_front++;
129	tri->suivant=front;
130	front=tri;
131	}
132	}
133	/* separation du front */
134	NEW_ALLOC(facette,mesh->);
135	nb_place=0;
136	while (nb_place!=nb_front)
137	{
138	fr=front;
139	while (fr->front!=1) fr=fr->suivant;
140	NEW_ENTITE(fa,facette,mesh->);
141	fa->num=mesh->nb_facette-1;
142	NEW_POINTEUR(num,triangle,fa->);
143	fa->triangle[num]=fr;
144	fr->front=0;
145	nb_place++;
146	for (i=0;i<fa->nb_triangle;i++)
147	{
148	fr=fa->triangle[i];
149	no=ADRESSE(fr->n1,noeud,mesh->);
150	for (j=0;j<no->nb_triangle;j++)
151	{
152	tri=no->triangle[j];
153	if (tri->front==1)
154	{
155	NEW_POINTEUR(num,triangle,fa->);
156	fa->triangle[num]=tri;
157	tri->front=0;
158	nb_place++;
159	}
160	}
161	no=ADRESSE(fr->n2,noeud,mesh->);
162	for (j=0;j<no->nb_triangle;j++)
163	{
164	tri=no->triangle[j];
165	if (tri->front==1)
166	{
167	NEW_POINTEUR(num,triangle,fa->);
168	fa->triangle[num]=tri;
169	tri->front=0;
170	nb_place++;
171	}
172	}
173	no=ADRESSE(fr->n3,noeud,mesh->);
174	for (j=0;j<no->nb_triangle;j++)
175	{
176	tri=no->triangle[j];
177	if (tri->front==1)
178	{
179	NEW_POINTEUR(num,triangle,fa->);
180	fa->triangle[num]=tri;
181	tri->front=0;
182	nb_place++;
183	}
184	}
185	}
186	}
187	sprintf(mess,R3D_M3D_RES,mesh->nb_facette);
188	aff_text(mess);
189	/* compression des donnees pour le front */
190	if (mesh->nb_facette>0)
191	{
192	tab_noeud1=(int *)calloc(mesh->nb_noeud+1,sizeof(int));
193	ERREUR_ALLOC(tab_noeud1);
194	tab_noeud2=(int *)calloc(mesh->nb_noeud+1,sizeof(int));
195	ERREUR_ALLOC(tab_noeud2);
196	tab_ele2=(int *)calloc(mesh->nb_triangle+1,sizeof(int));
197	ERREUR_ALLOC(tab_ele2);
198	nb_noeud=0;
199	nb_triangle=0;
200	for (i=0;i<mesh->nb_facette;i++)
201	{
202	fa=ADRESSE(i,facette,mesh->);
203	for (j=0;j<fa->nb_triangle;j++)
204	{
205	tri=fa->triangle[j];
206	tab_ele2[nb_triangle]=tri->num;
207	nb_triangle++;
208	if (tab_noeud1[tri->n1]==0)
209	{
210	nb_noeud++;
211	tab_noeud1[tri->n1]=nb_noeud;
212	tab_noeud2[nb_noeud]=tri->n1;
213	}
214	if (tab_noeud1[tri->n2]==0)
215	{
216	nb_noeud++;
217	tab_noeud1[tri->n2]=nb_noeud;
218	tab_noeud2[nb_noeud]=tri->n2;
219	}
220	if (tab_noeud1[tri->n3]==0)
221	{
222	nb_noeud++;
223	tab_noeud1[tri->n3]=nb_noeud;
224	tab_noeud2[nb_noeud]=tri->n3;
225	}
226
227	}
228	}
229	/* enregistrement des donnees */
230	strcpy(string,env.fich);
231	string[strlen(string)-4]=0;
232	strcat(string,"r_2D.mai");
233	fic=fopen(string,"wt");
234	fprintf(fic,"%d %d \n",nb_noeud,nb_triangle);
235	for (i=0;i<nb_noeud;i++)
236	{
237	no=ADRESSE(tab_noeud2[i+1],noeud,mesh->);
238	if (no->type==VERTEX) strcpy(string2,"vertex");
239	if (no->type==EDGE) strcpy(string2,"edge");
240	if (no->type==FACE) strcpy(string2,"face");
241	fprintf(fic,"%d %f %f %f %s %d\n",i+1,no->x,no->y,no->z,string2,no->num_ent);
242	}
243	for (i=0;i<nb_triangle;i++)
244	{
245	tri=ADRESSE(tab_ele2[i],triangle,mesh->);
246	n1=tab_noeud1[tri->n1];
247	n2=tab_noeud1[tri->n2];
248	n3=tab_noeud1[tri->n3];
249	fprintf(fic,"3 %d %d %d face %d\n",n1,n2,n3,tri->num_ent);
250	}
251	fclose(fic);
252	minimize();
253	spawnl(P_WAIT,"Diamesh","Diamesh","-file",string,"-remesh",NULL);
254	restore();
255	/* recuperation du resultat */
256	string[strlen(string)-6]='3';
257	fic=fopen(string,"rt");
258	fgets(mess,255,fic);
259	sscanf(mess,"%d %d",&nb_noeud2,&nb_tetra);
260	mesh_nb_noeud=mesh->nb_noeud;
261	for (i=0;i<nb_noeud2;i++)
262	{
263	fgets(mess,255,fic);
264	if (i>=nb_noeud)
265	{
266	NEW_ENTITE(no,noeud,mesh->);
267	sscanf(mess,"%d %f %f %f",&num,&(no->x),&(no->y),&(no->z));
268	no->num=mesh->nb_noeud-1;
269	no->etat=ACTIF;
270	}
271	}
272	for (i=0;i<nb_tetra;i++)
273	{
274	fgets(mess,255,fic);
275	NEW_ENTITE(tet,tetra,mesh->);
276	sscanf(mess,"%d %d %d %d %d",&num,&n1,&n2,&n3,&n4);
277	tet->num=mesh->nb_tetra-1;
278	tet->etat=ACTIF;
279	if (n1<=nb_noeud) tet->n1=tab_noeud2[n1];
280	else tet->n1=mesh_nb_noeud+n1-nb_noeud-1;
281	if (n2<=nb_noeud) tet->n2=tab_noeud2[n2];
282	else tet->n2=mesh_nb_noeud+n2-nb_noeud-1;
283	if (n3<=nb_noeud) tet->n3=tab_noeud2[n3];
284	else tet->n3=mesh_nb_noeud+n3-nb_noeud-1;
285	if (n4<=nb_noeud) tet->n4=tab_noeud2[n4];
286	else tet->n4=mesh_nb_noeud+n4-nb_noeud-1;
287	no=ADRESSE(tet->n1,noeud,mesh->);
288	no->etat=ACTIF;
289	no=ADRESSE(tet->n2,noeud,mesh->);
290	no->etat=ACTIF;
291	no=ADRESSE(tet->n3,noeud,mesh->);
292	no->etat=ACTIF;
293	no=ADRESSE(tet->n4,noeud,mesh->);
294	no->etat=ACTIF;
295	}
296	fclose(fic);
297	free(tab_noeud1);
298	free(tab_noeud2);
299	free(tab_ele2);
300	}
301	m3d_fin();
302	m2d_resultat(5);
303	}