trisurf-ng.git - Gitblit

Samo Penic

2020-04-13 2a1e3d528265c3d366dab9ad4b0c4d3d65e1c4ed

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7f6076	1	/* vim: set ts=4 sts=4 sw=4 noet : */
7958e9	2	#include<stdlib.h>
SP	3	#include<math.h>
	4	#include<stdio.h>
	5	#include "general.h"
	6	#include "vertex.h"
	7	#include "bond.h"
	8	#include "vesicle.h"
	9	#include "vertex.h"
	10	#include "triangle.h"
	11	#include "initial_distribution.h"
f74313	12	#include "energy.h"
1ab449	13	#include "poly.h"
8a6614	14	#include "io.h"
dc77e8	15	#include "sh.h"
459ff9	16	#include "shcomplex.h"
7958e9	17
SP	18	ts_vesicle *initial_distribution_dipyramid(ts_uint nshell, ts_uint ncmax1, ts_uint ncmax2, ts_uint ncmax3, ts_double stepsize){
1ab449	19	ts_fprintf(stdout,"Starting initial_distribution on vesicle with %u shells!...\n",nshell);
7958e9	20	ts_bool retval;
1ab449	21	ts_uint no_vertices=5nshellnshell+2;
SP	22	ts_vesicle *vesicle=init_vesicle(no_vertices,ncmax1,ncmax2,ncmax3,stepsize);
	23	vesicle->nshell=nshell;
	24	//retval = vtx_set_global_values(vesicle);
	25	retval = pentagonal_dipyramid_vertex_distribution(vesicle->vlist);
	26	retval = init_vertex_neighbours(vesicle->vlist);
	27	vesicle->vlist = init_sort_neighbours(vesicle->blist,vesicle->vlist);
b01cc1	28	// retval = init_vesicle_bonds(vesicle); // bonds are created in sort_neigh
1ab449	29	retval = init_triangles(vesicle);
SP	30	retval = init_triangle_neighbours(vesicle);
	31	retval = init_common_vertex_triangle_neighbours(vesicle);
	32	retval = init_normal_vectors(vesicle->tlist);
	33	retval = mean_curvature_and_energy(vesicle);
	34	ts_fprintf(stdout,"initial_distribution finished!\n");
41a035	35	if(retval);
7958e9	36	return vesicle;
SP	37	}
	38
	39
1ab449	40
SP	41	ts_vesicle create_vesicle_from_tape(ts_tape tape){
	42	ts_vesicle *vesicle;
bcf455	43
1ab449	44	vesicle=initial_distribution_dipyramid(tape->nshell,tape->ncxmax,tape->ncymax,tape->nczmax,tape->stepsize);
698ae1	45	vesicle->tape=tape;
d43116	46	vesicle->clist->dmin_interspecies = tape->dmin_interspecies*tape->dmin_interspecies;
SP	47	vesicle->poly_list=init_poly_list(tape->npoly,tape->nmono, vesicle->vlist, vesicle);
698ae1	48	set_vesicle_values_from_tape(vesicle);
def8b5	49	initial_population_with_c0(vesicle,tape);
698ae1	50	return vesicle;
SP	51	}
	52
	53	ts_bool set_vesicle_values_from_tape(ts_vesicle *vesicle){
58230a	54	// Nucleus:
698ae1	55	ts_vertex *vtx;
SP	56	ts_tape *tape=vesicle->tape;
fe24d2	57	vesicle->R_nucleus=tape->R_nucleus*tape->R_nucleus;
37791b	58	vesicle->R_nucleusX=tape->R_nucleusX*tape->R_nucleusX;
SP	59	vesicle->R_nucleusY=tape->R_nucleusY*tape->R_nucleusY;
	60	vesicle->R_nucleusZ=tape->R_nucleusZ*tape->R_nucleusZ;
fe24d2	61	vesicle->clist->dmin_interspecies = tape->dmin_interspecies*tape->dmin_interspecies;
bcf455	62
58230a	63	//Initialize grafted polymers (brush):
d43116	64	//vesicle->poly_list=init_poly_list(tape->npoly,tape->nmono, vesicle->vlist, vesicle);
1ab449	65	vesicle->spring_constant=tape->kspring;
SP	66	poly_assign_spring_const(vesicle);
bcf455	67
58230a	68	//Initialize filaments (polymers inside the vesicle):
M	69	vesicle->filament_list=init_poly_list(tape->nfil,tape->nfono, NULL, vesicle);
bcf455	70	poly_assign_filament_xi(vesicle,tape);
58230a	71
bcf455	72	ts_uint i,j;
M	73	for(i=0;i<vesicle->filament_list->n;i++){
	74	for(j=0;j<vesicle->filament_list->poly[i]->blist->n;j++){
	75	bond_vector(vesicle->filament_list->poly[i]->blist->bond[j]);
	76	vesicle->filament_list->poly[i]->blist->bond[j]->bond_length = sqrt(vtx_distance_sq(vesicle->filament_list->poly[i]->blist->bond[j]->vtx1,vesicle->filament_list->poly[i]->blist->bond[j]->vtx2));
	77	}
58230a	78	}
bcf455	79
M	80	for(i=0;i<vesicle->filament_list->n;i++){
	81	for(j=0;j<vesicle->filament_list->poly[i]->vlist->n;j++){
	82	vtx = vesicle->filament_list->poly[i]->vlist->vtx[j];
	83	if(vtx->bond_no == 2){
	84	vtx->energy = -(vtx->bond[0]->xvtx->bond[1]->x + vtx->bond[0]->yvtx->bond[1]->y + vtx->bond[0]->z*vtx->bond[1]->z)/vtx->bond[0]->bond_length/vtx->bond[1]->bond_length;
	85	}
	86	}
58230a	87	}
bcf455	88
ea1cce	89	for(i=0;i<vesicle->filament_list->n;i++){
M	90	vertex_list_assign_id(vesicle->filament_list->poly[i]->vlist,TS_ID_FILAMENT);
	91	}
bcf455	92
58230a	93	// vesicle->spring_constant=tape->kspring;
M	94	// poly_assign_spring_const(vesicle);
	95
1ab449	96
SP	97	vesicle->nshell=tape->nshell;
	98	vesicle->dmax=tape->dmaxtape->dmax; / dmax^2 in the vesicle dmax variable */
	99	vesicle->bending_rigidity=tape->xk0;
	100	vtx_set_global_values(vesicle); /* make xk0 default value for every vertex */
f4d6ca	101	// ts_fprintf(stdout, "Tape setting: xk0=%e\n",tape->xk0);
1ab449	102	vesicle->stepsize=tape->stepsize;
SP	103	vesicle->clist->ncmax[0]=tape->ncxmax;
	104	vesicle->clist->ncmax[1]=tape->ncymax;
	105	vesicle->clist->ncmax[2]=tape->nczmax;
2a1e3d	106	//THIS IS NOW HARDCODED IN CELL.C
SP	107	// vesicle->clist->max_occupancy=16; /* hard coded max occupancy? */
1ab449	108
SP	109	vesicle->pressure= tape->pressure;
	110	vesicle->pswitch=tape->pswitch;
632960	111	if(tape->shc>0){
459ff9	112	vesicle->sphHarmonics=complex_sph_init(vesicle->vlist,tape->shc);
632960	113	}
SP	114	else {
	115	vesicle->sphHarmonics=NULL;
	116	}
e5858f	117
699ac4	118	vesicle->tlist->a0=sqrt(3)/4*pow((vesicle->tape->dmax+1.0)/2.0,2);
698ae1	119	return TS_SUCCESS;
1ab449	120
SP	121	}
	122
	123
def8b5	124	ts_bool initial_population_with_c0(ts_vesicle vesicle, ts_tape tape){
SP	125	int rndvtx,i,j;
e5858f	126	if(tape->number_of_vertices_with_c0>0){
073d28	127	// ts_fprintf(stderr,"Setting values for spontaneous curvature as defined in tape\n");
eb9583	128	j=0;
e5858f	129	for(i=0;i<tape->number_of_vertices_with_c0;i++){
SP	130	rndvtx=rand() % vesicle->vlist->n;
eb9583	131	if(fabs(vesicle->vlist->vtx[rndvtx]->c-tape->c0)<1e-15){
SP	132	j++;
	133	i--;
	134	if(j>10*vesicle->vlist->n){
	135	fatal("cannot populate vesicle with vertices with spontaneous curvature. Too many spontaneous curvature vertices?",100);
	136	}
	137	continue;
	138	}
e5858f	139	vesicle->vlist->vtx[rndvtx]->c=tape->c0;
SP	140	}
	141	mean_curvature_and_energy(vesicle);
	142	if(fabs(tape->w)>1e-16){ //if nonzero energy
073d28	143	// ts_fprintf(stderr,"Setting attraction between vertices with spontaneous curvature\n");
e5858f	144	sweep_attraction_bond_energy(vesicle);
SP	145	}
	146	}
def8b5	147	return TS_SUCCESS;
1ab449	148	}
SP	149
	150
7958e9	151	ts_bool pentagonal_dipyramid_vertex_distribution(ts_vertex_list *vlist){
SP	152	/* Some often used relations */
	153	const ts_double s1= sin(2.0*M_PI/5.0);
	154	const ts_double s2= sin(4.0*M_PI/5.0);
	155	const ts_double c1= cos(2.0*M_PI/5.0);
	156	const ts_double c2= cos(4.0*M_PI/5.0);
	157
	158	/* Calculates projection lenght of an edge bond to pentagram plane */
fab2ad	159	const ts_double xl0=DEF_A0/(2.0*sin(M_PI/5.0));
7958e9	160	#ifdef TS_DOUBLE_DOUBLE
fab2ad	161	const ts_double z0=sqrt(pow(DEF_A0,2)-pow(xl0,2));
7958e9	162	#endif
SP	163	#ifdef TS_DOUBLE_FLOAT
fab2ad	164	const ts_double z0=sqrtf(powf(DEF_A0,2)-powf(xl0,2));
7958e9	165	#endif
SP	166	#ifdef TS_DOUBLE_LONGDOUBLE
fab2ad	167	const ts_double z0=sqrtl(powl(DEF_A0,2)-powl(xl0,2));
7958e9	168	#endif
SP	169	// const z0=sqrt(A0A0 -xl0xl0); /* I could use pow function but if pow is used make a check on the float type. If float then powf, if long double use powl */
	170
	171	/placeholder for the pointer to vertex datastructure list... DIRTY: actual pointer points towards invalid address, one position before actual beginning of the list... This is to solve the difference between 1 based indexing in original program in fortran and 0 based indexing in C. All algorithms remain unchanged because of this!/
	172	ts_vertex **vtx=vlist->vtx -1 ;
	173
	174
	175	ts_uint nshell=(ts_uint)( sqrt((ts_double)(vlist->n-2)/5));
	176	// printf("nshell=%u\n",nshell);
	177	ts_uint i,n0; // some for loop prereq
	178	ts_int j,k;
	179	ts_double dx,dy; // end loop prereq
	180
	181	/* topmost vertex */
8f6a69	182	vtx[1]->x=0.0;
SP	183	vtx[1]->y=0.0;
	184	vtx[1]->z=z0*(ts_double)nshell;
7958e9	185
SP	186	/* starting from to in circular order on pentagrams */
	187	for(i=1;i<=nshell;i++){
	188	n0=2+5i(i-1)/2; //-1 would be for the reason that C index starts from 0
8f6a69	189	vtx[n0]->x=0.0;
SP	190	vtx[n0]->y=(ts_double)i*xl0;
	191	vtx[n0+i]->x=vtx[n0]->y*s1;
	192	vtx[n0+i]->y=vtx[n0]->y*c1;
	193	vtx[n0+2i]->x=vtx[n0]->ys2;
	194	vtx[n0+2i]->y=vtx[n0]->yc2;
	195	vtx[n0+3i]->x=-vtx[n0+2i]->x;
	196	vtx[n0+3i]->y=vtx[n0+2i]->y;
	197	vtx[n0+4*i]->x=-vtx[n0+i]->x;
	198	vtx[n0+4*i]->y=vtx[n0+i]->y;
7958e9	199	}
SP	200
	201	/* vertexes on the faces of the dipyramid */
	202	for(i=1;i<=nshell;i++){
	203	n0=2+5i(i-1)/2; // -1 would be because of C!
	204	for(j=1;j<=i-1;j++){
8f6a69	205	dx=(vtx[n0]->x-vtx[n0+4*i]->x)/(ts_double)i;
SP	206	dy=(vtx[n0]->y-vtx[n0+4*i]->y)/(ts_double)i;
	207	vtx[n0+4i+j]->x=(ts_double)jdx+vtx[n0+4*i]->x;
	208	vtx[n0+4i+j]->y=(ts_double)jdy+vtx[n0+4*i]->y;
7958e9	209	}
SP	210	for(k=0;k<=3;k++){ // I would be worried about zero starting of for
8f6a69	211	dx=(vtx[n0+(k+1)i]->x - vtx[n0+ki]->x)/(ts_double) i;
SP	212	dy=(vtx[n0+(k+1)i]->y - vtx[n0+ki]->y)/(ts_double) i;
7958e9	213	for(j=1; j<=i-1;j++){
8f6a69	214	vtx[n0+ki+j]->x= (ts_double)jdx+vtx[n0+k*i]->x;
SP	215	vtx[n0+ki+j]->y= (ts_double)jdy+vtx[n0+k*i]->y;
7958e9	216	}
SP	217	}
	218	}
	219
	220	for(i=1;i<=nshell;i++){
	221	n0= 2+ 5i(i-1)/2;
	222	for(j=0;j<=5*i-1;j++){
8f6a69	223	vtx[n0+j]->z= z0*(ts_double)(nshell-i); // I would be worried about zero starting of for
7958e9	224	}
SP	225	}
	226
	227	/* for botom part of dipyramide we calculate the positions of vertices */
	228	for(i=2+5nshell(nshell+1)/2;i<=vlist->n;i++){
8f6a69	229	vtx[i]->x=vtx[vlist->n - i +1]->x;
SP	230	vtx[i]->y=vtx[vlist->n - i +1]->y;
	231	vtx[i]->z=-vtx[vlist->n - i +1]->z;
7958e9	232	}
SP	233
	234	for(i=1;i<=vlist->n;i++){
	235	for(j=1;j<=vlist->n;j++){
	236	if(i!=j && vtx_distance_sq(vtx[i],vtx[j])<0.001){
	237	printf("Vertices %u and %u are the same!\n",i,j);
	238	}
	239	}
	240	}
	241	return TS_SUCCESS;
	242	}
	243
	244
	245
	246	ts_bool init_vertex_neighbours(ts_vertex_list *vlist){
	247	ts_vertex **vtx=vlist->vtx -1; // take a look at dipyramid function for comment.
	248	const ts_double eps=0.001; //TODO: find out if you can use EPS from math.h
	249	ts_uint i,j;
	250	ts_double dist2; // Square of distance of neighbours
	251	/this is not required if we zero all data in vertex structure at initialization /
	252	/if we force zeroing at initialization this for loop can safely be deleted /
	253	//for(i=1;i<=vlist->n;i++){
	254	// vtx[i].neigh_no=0;
	255	//}
	256	for(i=1;i<=vlist->n;i++){
	257	for(j=1;j<=vlist->n;j++){
	258	dist2=vtx_distance_sq(vtx[i],vtx[j]);
fab2ad	259	if( (dist2>eps) && (dist2<(DEF_A0*DEF_A0+eps))){
7958e9	260	//if it is close enough, but not too much close (solves problem of comparing when i==j)
SP	261	vtx_add_neighbour(vtx[i],vtx[j]);
	262	}
	263	}
	264	// printf ("vertex %u ima %u sosedov!\n",i,vtx[i]->data->neigh_no);
	265	}
	266
	267	return TS_SUCCESS;
	268	}
	269
b01cc1	270	// TODO: with new datastructure can be rewritten. Partially it is done, but it is complicated.
SP	271	ts_vertex_list init_sort_neighbours(ts_bond_list blist,ts_vertex_list *vlist){
7958e9	272	ts_vertex **vtx=vlist->vtx -1; // take a look at dipyramid function for comment.
SP	273	ts_uint i,l,j,jj,jjj,k=0;
	274	ts_double eps=0.001; // Take a look if EPS from math.h can be used
	275
	276	/lets initialize memory for temporary vertex_list. Should we write a function instead /
b01cc1	277	ts_vertex_list *tvlist=vertex_list_copy(vlist);
7958e9	278	ts_vertex *tvtx=tvlist->vtx -1; / again to compensate for 0-indexing */
SP	279
	280	ts_double dist2; // Square of distance of neighbours
	281	ts_double direct; // Something, dont know what, but could be normal of some kind
	282	for(i=1;i<=vlist->n;i++){
	283	k++; // WHY i IS NOT GOOD??
8f6a69	284	vtx_add_cneighbour(blist,tvtx[k], tvtx[vtx[i]->neigh[0]->idx+1]); //always add 1st
7958e9	285	jjj=1;
SP	286	jj=1;
8f6a69	287	for(l=2;l<=vtx[i]->neigh_no;l++){
SP	288	for(j=2;j<=vtx[i]->neigh_no;j++){
	289	dist2=vtx_distance_sq(vtx[i]->neigh[j-1],vtx[i]->neigh[jj-1]);
	290	direct=vtx_direct(vtx[i],vtx[i]->neigh[j-1],vtx[i]->neigh[jj-1]);
	291	// TODO: check if fabs can be used with all floating point types!!
fab2ad	292	if( (fabs(dist2-DEF_A0*DEF_A0)<=eps) && (direct>0.0) && (j!=jjj) ){
8f6a69	293	vtx_add_cneighbour(blist,tvtx[k],tvtx[vtx[i]->neigh[j-1]->idx+1]);
7958e9	294	jjj=jj;
SP	295	jj=j;
	296	break;
	297	}
	298	}
	299	}
	300	}
b01cc1	301	/* We use the temporary vertex for our main vertices and we abandon main
SP	302	* vertices, because their neighbours are not correctly ordered */
	303	// tvtx=vlist->vtx;
	304	// vlist->vtx=tvtx;
	305	// tvlist->vtx=vtx;
	306	vtx_list_free(vlist);
	307	/* Let's make a check if the number of bonds is correct */
	308	if((blist->n)!=3*(tvlist->n-2)){
	309	ts_fprintf(stderr,"Number of bonds is %u should be %u!\n", blist->n, 3*(tvlist->n-2));
	310	fatal("Number of bonds is not 3*(no_vertex-2).",4);
7958e9	311	}
SP	312
b01cc1	313	return tvlist;
7958e9	314	}
SP	315
	316
	317	ts_bool init_vesicle_bonds(ts_vesicle *vesicle){
	318	ts_vertex_list *vlist=vesicle->vlist;
	319	ts_bond_list *blist=vesicle->blist;
	320	ts_vertex **vtx=vesicle->vlist->vtx - 1; // Because of 0 indexing
	321	/* lets make correct clockwise ordering of in nearest neighbour list */
	322	ts_uint i,j,k;
	323	for(i=1;i<=vlist->n;i++){
	324	for(j=i+1;j<=vlist->n;j++){
8f6a69	325	for(k=0;k<vtx[i]->neigh_no;k++){ // has changed 0 to < instead of 1 and <=
SP	326	if(vtx[i]->neigh[k]==vtx[j]){ //if addresses matches it is the same
7958e9	327	bond_add(blist,vtx[i],vtx[j]);
SP	328	break;
	329	}
	330	}
	331	}
	332	}
	333	/* Let's make a check if the number of bonds is correct */
	334	if((blist->n)!=3*(vlist->n-2)){
	335	ts_fprintf(stderr,"Number of bonds is %u should be %u!\n", blist->n, 3*(vlist->n-2));
	336	fatal("Number of bonds is not 3*(no_vertex-2).",4);
	337	}
	338	return TS_SUCCESS;
	339	}
	340
	341
	342
	343	ts_bool init_triangles(ts_vesicle *vesicle){
	344	ts_uint i,j,jj,k;
	345	ts_vertex **vtx=vesicle->vlist->vtx -1; // difference between 0 indexing and 1 indexing
	346	ts_triangle_list *tlist=vesicle->tlist;
	347	ts_double dist, direct;
	348	ts_double eps=0.001; // can we use EPS from math.h?
	349	k=0;
	350	for(i=1;i<=vesicle->vlist->n;i++){
8f6a69	351	for(j=1;j<=vtx[i]->neigh_no;j++){
SP	352	for(jj=1;jj<=vtx[i]->neigh_no;jj++){
7958e9	353	// ts_fprintf(stderr,"%u: (%u,%u) neigh_no=%u ",i,j,jj,vtx[i].neigh_no);
SP	354	// ts_fprintf(stderr,"%e, %e",vtx[i].neigh[j-1]->x,vtx[i].neigh[jj-1]->x);
8f6a69	355	dist=vtx_distance_sq(vtx[i]->neigh[j-1],vtx[i]->neigh[jj-1]);
SP	356	direct=vtx_direct(vtx[i],vtx[i]->neigh[j-1],vtx[i]->neigh[jj-1]);
	357	// TODO: same as above
fab2ad	358	if(fabs(dist-DEF_A0*DEF_A0)<=eps && direct < 0.0 && vtx[i]->neigh[j-1]->idx+1 > i && vtx[i]->neigh[jj-1]->idx+1 >i){
8f6a69	359	triangle_add(tlist,vtx[i],vtx[i]->neigh[j-1],vtx[i]->neigh[jj-1]);
7958e9	360	}
SP	361	}
	362	}
	363	}
	364	/* We check if all triangles have 3 vertices and if the number of triangles
	365	* matches the theoretical value.
	366	*/
	367	for(i=0;i<tlist->n;i++){
	368	k=0;
	369	for(j=0;j<3;j++){
41a035	370	if(tlist->tria[i]->vertex[j]!=NULL)
7958e9	371	k++;
SP	372	}
	373	if(k!=3){
8f6a69	374	fatal("Some triangles have less than 3 vertices..",4);
7958e9	375	}
SP	376	}
	377	if(tlist->n!=2*(vesicle->vlist->n -2)){
	378	ts_fprintf(stderr,"The number of triangles is %u but should be %u!\n",tlist->n,2*(vesicle->vlist->n -2));
	379	fatal("The number of triangles doesn't match 2*(no_vertex -2).",4);
	380	}
	381	return TS_SUCCESS;
	382	}
	383
	384
	385
	386	ts_bool init_triangle_neighbours(ts_vesicle *vesicle){
	387	ts_uint i,j,nobo;
	388	ts_vertex i1,i2,i3,j1,j2,j3;
	389	// ts_vertex **vtx=vesicle->vlist->vtx -1; // difference between 0 indexing and 1 indexing
	390	ts_triangle_list *tlist=vesicle->tlist;
	391	ts_triangle **tria=tlist->tria -1;
	392	nobo=0;
	393	for(i=1;i<=tlist->n;i++){
41a035	394	i1=tria[i]->vertex[0];
SP	395	i2=tria[i]->vertex[1];
	396	i3=tria[i]->vertex[2];
7958e9	397	for(j=1;j<=tlist->n;j++){
SP	398	if(j==i) continue;
41a035	399	j1=tria[j]->vertex[0];
SP	400	j2=tria[j]->vertex[1];
	401	j3=tria[j]->vertex[2];
7958e9	402	if((i1==j1 && i3==j2) \|\| (i1==j2 && i3==j3) \|\| (i1==j3 && i3==j1)){
SP	403	triangle_add_neighbour(tria[i],tria[j]);
	404	nobo++;
	405	}
	406	}
	407	}
	408	for(i=1;i<=tlist->n;i++){
41a035	409	i1=tria[i]->vertex[0];
SP	410	i2=tria[i]->vertex[1];
	411	i3=tria[i]->vertex[2];
7958e9	412	for(j=1;j<=tlist->n;j++){
SP	413	if(j==i) continue;
41a035	414	j1=tria[j]->vertex[0];
SP	415	j2=tria[j]->vertex[1];
	416	j3=tria[j]->vertex[2];
7958e9	417	if((i1==j1 && i2==j3) \|\| (i1==j3 && i2==j2) \|\| (i1==j2 && i2==j1)){
SP	418	triangle_add_neighbour(tria[i],tria[j]);
	419	nobo++;
	420	}
	421	}
	422	}
	423	for(i=1;i<=tlist->n;i++){
41a035	424	i1=tria[i]->vertex[0];
SP	425	i2=tria[i]->vertex[1];
	426	i3=tria[i]->vertex[2];
7958e9	427	for(j=1;j<=tlist->n;j++){
SP	428	if(j==i) continue;
41a035	429	j1=tria[j]->vertex[0];
SP	430	j2=tria[j]->vertex[1];
	431	j3=tria[j]->vertex[2];
7958e9	432	if((i2==j1 && i3==j3) \|\| (i2==j3 && i3==j2) \|\| (i2==j2 && i3==j1)){
SP	433	triangle_add_neighbour(tria[i],tria[j]);
	434	nobo++;
	435	}
	436	}
	437	}
	438	if(nobo != vesicle->blist->n*2) {
	439	ts_fprintf(stderr,"Number of triangles= %u, number of bonds= %u\n",nobo/2, vesicle->blist->n);
	440	fatal("Number of triangle neighbour pairs differs from double the number of bonds!",4);
	441	}
	442	return TS_SUCCESS;
	443	}
	444
	445
	446	ts_bool init_common_vertex_triangle_neighbours(ts_vesicle *vesicle){
	447	ts_uint i,j,jp,k;
	448	ts_vertex k1,k2,k3,k4,*k5;
	449	ts_vertex **vtx=vesicle->vlist->vtx -1; // difference between 0 indexing and 1 indexing
	450	ts_triangle_list *tlist=vesicle->tlist;
	451	ts_triangle **tria=tlist->tria -1;
	452
	453	for(i=1;i<=vesicle->vlist->n;i++){
8f6a69	454	for(j=1;j<=vtx[i]->neigh_no;j++){
SP	455	k1=vtx[i]->neigh[j-1];
7958e9	456	jp=j+1;
8f6a69	457	if(j == vtx[i]->neigh_no) jp=1;
SP	458	k2=vtx[i]->neigh[jp-1];
7958e9	459	for(k=1;k<=tlist->n;k++){ // VERY NON-OPTIMAL!!! too many loops (vlist.n * vtx.neigh * tlist.n )!
41a035	460	k3=tria[k]->vertex[0];
SP	461	k4=tria[k]->vertex[1];
	462	k5=tria[k]->vertex[2];
7958e9	463	// ts_fprintf(stderr,"%u %u: k=(%u %u %u)\n",k1,k2,k3,k4,k5);
SP	464	if((vtx[i]==k3 && k1==k4 && k2==k5) \|\|
	465	(vtx[i]==k4 && k1==k5 && k2==k3) \|\|
	466	(vtx[i]==k5 && k1==k3 && k2==k4)){
b01cc1	467
SP	468	//TODO: probably something wrong with neighbour distribution.
	469	// if(vtx[i]==k3 \|\| vtx[i]==k4 \|\| vtx[i]==k5){
dac2e5	470	// if(i==6) ts_fprintf(stdout, "Vtx[%u] > Added to tristar!\n",i);
7958e9	471	vertex_add_tristar(vtx[i],tria[k]);
SP	472	}
	473	}
	474	}
	475	/* ts_fprintf(stderr,"TRISTAR for %u (%u):",i-1,vtx[i].tristar_no);
	476	for(j=0;j<vtx[i].tristar_no;j++){
	477	ts_fprintf(stderr," %u,",vtx[i].tristar[j]->idx);
	478	}
	479	ts_fprintf(stderr,"\n"); */
	480	}
	481	return TS_SUCCESS;
	482	}
	483
	484
	485	ts_bool init_normal_vectors(ts_triangle_list *tlist){
	486	/* Normals point INSIDE vesicle */
	487	ts_uint k;
	488	ts_triangle **tria=tlist->tria -1; //for 0 indexing
	489	for(k=1;k<=tlist->n;k++){
	490	triangle_normal_vector(tria[k]);
	491	}
	492	return TS_SUCCESS;
	493	}