trisurf-ng.git - Gitblit

			@@ -1,3 +1,4 @@
			/* vim: set ts=4 sts=4 sw=4 noet : */
			#include<stdlib.h>
			#include<math.h>
			#include "general.h"
			@@ -11,6 +12,8 @@
			#include "bondflip.h"
			//#include "io.h"
			#include<stdio.h>
			#include<string.h>
			#include "constvol.h"

			ts_bool single_bondflip_timestep(ts_vesicle vesicle, ts_bond bond, ts_double *rn){
			/*c Vertex and triangle (lm and lp) indexing for bond flip:
			@@ -28,11 +31,15 @@
			ts_vertex *it=bond->vtx1;
			ts_vertex *k=bond->vtx2;
			ts_uint nei,neip,neim;
			ts_uint i; //j;
			ts_double oldenergy, delta_energy;
			// ts_triangle lm=NULL,lp=NULL, lp1=NULL, lp2=NULL, lm1=NULL, lm2=NULL;
			ts_uint i,j;
			ts_double oldenergy, delta_energy, dvol=0.0, darea=0.0;
			ts_triangle lm=NULL,lp=NULL, lp1=NULL, lm2=NULL;

			ts_vertex kp,km;

			ts_double delta_energy_cv;
			ts_vertex constvol_vtx_moved, constvol_vtx_backup;
			ts_bool retval;

			if(it->neigh_no< 3) return TS_FAIL;
			if(k->neigh_no< 3) return TS_FAIL;
			@@ -73,112 +80,7 @@
			// fprintf(stderr,"Bond will not be too long.. Continue.\n");

			/* we make a bond flip. this is different than in original fortran */
			// 0. step. Get memory prior the flip
			oldenergy=0;
			oldenergy+=k->xk* k->energy;
			oldenergy+=kp->xk* kp->energy;
			oldenergy+=km->xk* km->energy;
			oldenergy+=it->xk* it->energy;
			// for(i=0;i<k->neigh_no;i++) oldenergy+=k->neigh[i]->xk*k->neigh[i]->energy;
			// for(i=0;i<kp->neigh_no;i++) oldenergy+=kp->neigh[i]->xk*kp->neigh[i]->energy;
			// for(i=0;i<km->neigh_no;i++) oldenergy+=km->neigh[i]->xk*km->neigh[i]->energy;
			// for(i=0;i<it->neigh_no;i++) oldenergy+=it->neigh[i]->xk*it->neigh[i]->energy;

			fprintf(stderr,"*** Naslov k=%ld\n",(long)k);
			fprintf(stderr,"*** Naslov it=%ld\n",(long)it);
			fprintf(stderr,"*** Naslov km=%ld\n",(long)km);
			fprintf(stderr,"*** Naslov kp=%ld\n",(long)kp);

			for(i=0;i<k->neigh_no;i++)
			fprintf(stderr,"k sosed=%ld\n",(long)k->neigh[i]);
			for(i=0;i<it->neigh_no;i++)
			fprintf(stderr,"it sosed=%ld\n",(long)it->neigh[i]);

			for(i=0;i<km->neigh_no;i++)
			fprintf(stderr,"km sosed=%ld\n",(long)km->neigh[i]);
			for(i=0;i<kp->neigh_no;i++)
			fprintf(stderr,"kp sosed=%ld\n",(long)kp->neigh[i]);



			fprintf(stderr,"I WAS HERE! Before bondflip!\n");
			ts_flip_bond(k,it,km,kp, bond);
			fprintf(stderr,"I WAS HERE! Bondflip successful!\n");

			/* Calculating the new energy */
			delta_energy=0;
			for(i=0;i<k->neigh_no;i++) energy_vertex(k->neigh[i]);
			for(i=0;i<kp->neigh_no;i++) energy_vertex(kp->neigh[i]);
			for(i=0;i<km->neigh_no;i++) energy_vertex(km->neigh[i]);
			for(i=0;i<it->neigh_no;i++) energy_vertex(it->neigh[i]);
			delta_energy+=k->xk* k->energy;
			delta_energy+=kp->xk* kp->energy;
			delta_energy+=km->xk* km->energy;
			delta_energy+=it->xk* it->energy;
			// for(i=0;i<k->neigh_no;i++) delta_energy+=k->neigh[i]->xk*k->neigh[i]->energy;
			// for(i=0;i<kp->neigh_no;i++) delta_energy+=kp->neigh[i]->xk*kp->neigh[i]->energy;
			// for(i=0;i<km->neigh_no;i++) delta_energy+=km->neigh[i]->xk*km->neigh[i]->energy;
			// for(i=0;i<it->neigh_no;i++) delta_energy+=it->neigh[i]->xk*it->neigh[i]->energy;
			delta_energy-=oldenergy;
			// fprintf(stderr,"I WAS HERE! Got energy!\n");
			/* MONTE CARLO */
			if(delta_energy>=0){
			#ifdef TS_DOUBLE_DOUBLE
			if(exp(-delta_energy)< drand48() )
			#endif
			#ifdef TS_DOUBLE_FLOAT
			if(expf(-delta_energy)< (ts_float)drand48())
			#endif
			#ifdef TS_DOUBLE_LONGDOUBLE
			if(expl(-delta_energy)< (ts_ldouble)drand48())
			#endif
			{
			//not accepted, reverting changes
			// fprintf(stderr,"Failed to move, due to MC\n");

			// ts_flip_bond(km,kp,it,k, bond);
			ts_flip_bond(kp,km,k,it, bond);


			/*
			fprintf(stderr,"*** Naslov k=%d\n",k);
			fprintf(stderr,"*** Naslov it=%d\n",it);
			fprintf(stderr,"*** Naslov km=%d\n",km);
			fprintf(stderr,"*** Naslov kp=%d\n",kp);
			for(i=0;i<k->neigh_no;i++)
			fprintf(stderr,"k sosed=%d\n",k->neigh[i]);
			for(i=0;i<it->neigh_no;i++)
			fprintf(stderr,"it sosed=%d\n",it->neigh[i]);


			for(i=0;i<km->neigh_no;i++)
			fprintf(stderr,"km sosed=%d\n",km->neigh[i]);
			for(i=0;i<kp->neigh_no;i++)
			fprintf(stderr,"kp sosed=%d\n",kp->neigh[i]);
			*/



			// fprintf(stderr,"Reverted condition!\n");
			return TS_FAIL;
			}
			}
			// fprintf(stderr,"Success\n");


			/* IF BONDFLIP ACCEPTED, THEN RETURN SUCCESS! */
			return TS_SUCCESS;
			}


			ts_bool ts_flip_bond(ts_vertex k,ts_vertex it,ts_vertex km, ts_vertex kp,
			ts_bond *bond){

			ts_triangle lm=NULL,lp=NULL, lp1=NULL, lm2=NULL;
			ts_uint i,j; //lmidx, lpidx;
			if(k==NULL \|\| it==NULL \|\| km==NULL \|\| kp==NULL){
			fatal("ts_flip_bond: You called me with invalid pointers to vertices",999);
			}
			// find lm, lp
			// 1. step. We find lm and lp from k->tristar !
			for(i=0;i<it->tristar_no;i++){
			for(j=0;j<k->tristar_no;j++){
			@@ -216,79 +118,296 @@
			}
			}
			}
			/*
			// DEBUG TESTING!
			fprintf(stderr,"*** Naslov k=%d\n",k);
			fprintf(stderr,"*** Naslov it=%d\n",it);
			fprintf(stderr,"*** Naslov km=%d\n",km);
			fprintf(stderr,"*** Naslov kp=%d\n",kp);

			for(i=0;i<k->neigh_no;i++)
			fprintf(stderr,"k sosed=%d\n",k->neigh[i]);
			for(i=0;i<it->neigh_no;i++)
			fprintf(stderr,"it sosed=%d\n",it->neigh[i]);


			// END DEBUG TESTING!
			*/
			if(lm2==NULL \|\| lp1==NULL) fatal("ts_flip_bond: Cannot find triangles lm2 and lp1!",999);


			//DEBUG TESTING
			fprintf(stderr,"1. step: lm, lm2, lp1 and lp found!\n");
			fprintf(stderr,"--- Naslov lm=%ld",(long)lm);
			/* backup old structure */
			/* need to backup:
			* vertices k, kp, km, it
			* triangles lm, lp, lm2, lp1
			* bond
			*/
			ts_vertex *bck_vtx[4];
			ts_triangle *bck_tria[4];
			ts_bond *bck_bond;
			ts_vertex *orig_vtx[]={k,it,kp,km};
			ts_triangle *orig_tria[]={lm,lp,lm2,lp1};


			fprintf(stderr," vtxs(%ld, %ld, %ld)\n",(long)lm->vertex[0],(long)lm->vertex[1], (long)lm->vertex[2]);
			fprintf(stderr,"--- Naslov lp=%ld",(long)lp);
			fprintf(stderr," vtxs(%ld, %ld, %ld)\n",(long)lp->vertex[0],(long)lp->vertex[1], (long)lp->vertex[2]);
			fprintf(stderr,"--- Naslov lm2=%ld",(long)lm2);
			fprintf(stderr," vtxs(%ld, %ld, %ld)\n",(long)lm2->vertex[0],(long)lm2->vertex[1], (long)lm2->vertex[2]);
			fprintf(stderr,"--- Naslov lp1=%ld",(long)lp1);
			fprintf(stderr," vtxs(%ld, %ld, %ld)\n",(long)lp1->vertex[0],(long)lp1->vertex[1], (long)lp1->vertex[2]);

			for(i=0;i<lm->neigh_no;i++)
			fprintf(stderr,"lm sosed=%ld\n",(long)lm->neigh[i]);
			for(i=0;i<lp->neigh_no;i++)
			fprintf(stderr,"lp sosed=%ld\n",(long)lp->neigh[i]);
			// END DEBUG TESTING

			/*
			// DEBUG TESTING!

			for(i=0;i<3;i++){

			if(lp1->neigh[i]==lp) fprintf(stderr,"Nasel sem par lp1->lp\n");
			if(lp->neigh[i]==lp1) fprintf(stderr,"Nasel sem par lp->lp1\n");
			if(lm2->neigh[i]==lm) fprintf(stderr,"Nasel sem par lm2->lm\n");
			if(lm->neigh[i]==lm2) fprintf(stderr,"Nasel sem par lm->lm2\n");
			}
			// END DEBUG TESTING!
			//fprintf(stderr,"Backuping!!!\n");
			bck_bond=(ts_bond *)malloc(sizeof(ts_bond));
			for(i=0;i<4;i++){
			/* fprintf(stderr,"vtx neigh[%d]=",i);
			for(j=0;j<orig_vtx[i]->neigh_no;j++) fprintf(stderr," %d", orig_vtx[i]->neigh[j]->idx);
			fprintf(stderr,"\n");
			*/
			bck_vtx[i]=(ts_vertex *)malloc(sizeof(ts_vertex));
			bck_tria[i]=(ts_triangle *)malloc(sizeof(ts_triangle));
			memcpy((void )bck_vtx[i],(void )orig_vtx[i],sizeof(ts_vertex));
			memcpy((void )bck_tria[i],(void )orig_tria[i],sizeof(ts_triangle));
			/* level 2 pointers */

			bck_vtx[i]->neigh=(ts_vertex *)malloc(orig_vtx[i]->neigh_nosizeof(ts_vertex *));
			bck_vtx[i]->tristar=(ts_triangle *)malloc(orig_vtx[i]->tristar_nosizeof(ts_triangle *));
			bck_vtx[i]->bond=(ts_bond *)malloc(orig_vtx[i]->bond_nosizeof(ts_bond *));
			bck_tria[i]->neigh=(ts_triangle *)malloc(orig_tria[i]->neigh_nosizeof(ts_triangle *));

			memcpy((void )bck_vtx[i]->neigh,(void )orig_vtx[i]->neigh,orig_vtx[i]->neigh_nosizeof(ts_vertex ));
			memcpy((void )bck_vtx[i]->tristar,(void )orig_vtx[i]->tristar,orig_vtx[i]->tristar_nosizeof(ts_triangle ));
			memcpy((void )bck_vtx[i]->bond,(void )orig_vtx[i]->bond,orig_vtx[i]->bond_nosizeof(ts_bond ));

			memcpy((void )bck_tria[i]->neigh,(void )orig_tria[i]->neigh,orig_tria[i]->neigh_nosizeof(ts_triangle ));
			}
			memcpy(bck_bond,bond,sizeof(ts_bond));
			//fprintf(stderr,"Backup complete!!!\n");
			/* end backup vertex */

			/* Save old energy */
			oldenergy=0;
			oldenergy+=k->xk* k->energy;
			oldenergy+=kp->xk* kp->energy;
			oldenergy+=km->xk* km->energy;
			oldenergy+=it->xk* it->energy;
			oldenergy+=bond->energy; /* attraction with neighboring vertices, that have spontaneous curvature */
			//Neigbours of k, it, km, kp don't change its energy.

			if(vesicle->pswitch == 1 \|\| vesicle->tape->constvolswitch>0){dvol = -lm->volume - lp->volume;}
			if(vesicle->tape->constareaswitch==2){darea=-lm->area-lp->area;}
			/* vesicle_volume(vesicle);
			fprintf(stderr,"Volume in the beginning=%1.16e\n", vesicle->volume);
			*/
			/* fix data structure for flipped bond */
			ts_flip_bond(k,it,km,kp, bond,lm, lp, lm2, lp1, vesicle->tape->w);


			/* Calculating the new energy */
			delta_energy=0;
			delta_energy+=k->xk* k->energy;
			delta_energy+=kp->xk* kp->energy;
			delta_energy+=km->xk* km->energy;
			delta_energy+=it->xk* it->energy;
			delta_energy+=bond->energy; /* attraction with neighboring vertices, that have spontaneous curvature */
			//Neigbours of k, it, km, kp don't change its energy.
			if(vesicle->tape->stretchswitch==1){
			oldenergy+=lm->energy+lp->energy;
			stretchenergy(vesicle,lm);
			stretchenergy(vesicle,lp);
			delta_energy+=lm->energy+lp->energy;
			}

			delta_energy-=oldenergy;
			if(vesicle->pswitch == 1 \|\| vesicle->tape->constvolswitch>0){
			dvol = dvol + lm->volume + lp->volume;
			if(vesicle->pswitch==1) delta_energy-= vesicle->pressure*dvol;
			}
			if(vesicle->tape->constareaswitch==2){
			darea=darea+lm->area+lp->area;
			/check whether the dvol is gt than epsvol /
			if(fabs(vesicle->area+darea-A0)>epsarea){
			//restore old state.
			/* restoration procedure copied from few lines below */
			for(i=0;i<4;i++){
			// fprintf(stderr,"Restoring vtx neigh[%d] with neighbours %d\n",i, orig_vtx[i]->neigh_no );
			free(orig_vtx[i]->neigh);
			free(orig_vtx[i]->tristar);
			free(orig_vtx[i]->bond);
			free(orig_tria[i]->neigh);
			memcpy((void )orig_vtx[i],(void )bck_vtx[i],sizeof(ts_vertex));
			memcpy((void )orig_tria[i],(void )bck_tria[i],sizeof(ts_triangle));
			// fprintf(stderr,"Restored vtx neigh[%d] with neighbours %d\n",i, orig_vtx[i]->neigh_no );
			/* level 2 pointers are redirected*/
			}
			memcpy(bond,bck_bond,sizeof(ts_bond));
			for(i=0;i<4;i++){
			free(bck_vtx[i]);
			free(bck_tria[i]);
			/* fprintf(stderr,"Restoring vtx neigh[%d] with neighbours %d =",i, orig_vtx[i]->neigh_no );
			for(j=0;j<orig_vtx[i]->neigh_no;j++) fprintf(stderr," %d", orig_vtx[i]->neigh[j]->idx);
			fprintf(stderr,"\n"); */
			}
			free(bck_bond);
			return TS_FAIL;

			}
			}




			if(vesicle->tape->constvolswitch == 2){
			/check whether the dvol is gt than epsvol /
			if(fabs(vesicle->volume+dvol-V0)>epsvol){
			//restore old state.
			/* restoration procedure copied from few lines below */
			for(i=0;i<4;i++){
			// fprintf(stderr,"Restoring vtx neigh[%d] with neighbours %d\n",i, orig_vtx[i]->neigh_no );
			free(orig_vtx[i]->neigh);
			free(orig_vtx[i]->tristar);
			free(orig_vtx[i]->bond);
			free(orig_tria[i]->neigh);
			memcpy((void )orig_vtx[i],(void )bck_vtx[i],sizeof(ts_vertex));
			memcpy((void )orig_tria[i],(void )bck_tria[i],sizeof(ts_triangle));
			// fprintf(stderr,"Restored vtx neigh[%d] with neighbours %d\n",i, orig_vtx[i]->neigh_no );
			/* level 2 pointers are redirected*/
			}
			memcpy(bond,bck_bond,sizeof(ts_bond));
			for(i=0;i<4;i++){
			free(bck_vtx[i]);
			free(bck_tria[i]);
			/* fprintf(stderr,"Restoring vtx neigh[%d] with neighbours %d =",i, orig_vtx[i]->neigh_no );
			for(j=0;j<orig_vtx[i]->neigh_no;j++) fprintf(stderr," %d", orig_vtx[i]->neigh[j]->idx);
			fprintf(stderr,"\n"); */
			}
			free(bck_bond);
			return TS_FAIL;

			}

			} else
			if(vesicle->tape->constvolswitch == 1){
			retval=constvolume(vesicle, it, -dvol, &delta_energy_cv, &constvol_vtx_moved,&constvol_vtx_backup);
			if(retval==TS_FAIL){
			/* restoration procedure copied from few lines below */
			for(i=0;i<4;i++){
			// fprintf(stderr,"Restoring vtx neigh[%d] with neighbours %d\n",i, orig_vtx[i]->neigh_no );
			free(orig_vtx[i]->neigh);
			free(orig_vtx[i]->tristar);
			free(orig_vtx[i]->bond);
			free(orig_tria[i]->neigh);
			memcpy((void )orig_vtx[i],(void )bck_vtx[i],sizeof(ts_vertex));
			memcpy((void )orig_tria[i],(void )bck_tria[i],sizeof(ts_triangle));
			// fprintf(stderr,"Restored vtx neigh[%d] with neighbours %d\n",i, orig_vtx[i]->neigh_no );
			/* level 2 pointers are redirected*/
			}
			memcpy(bond,bck_bond,sizeof(ts_bond));
			for(i=0;i<4;i++){
			free(bck_vtx[i]);
			free(bck_tria[i]);
			/* fprintf(stderr,"Restoring vtx neigh[%d] with neighbours %d =",i, orig_vtx[i]->neigh_no );
			for(j=0;j<orig_vtx[i]->neigh_no;j++) fprintf(stderr," %d", orig_vtx[i]->neigh[j]->idx);
			fprintf(stderr,"\n"); */
			}
			free(bck_bond);
			return TS_FAIL;
			}
			delta_energy+=delta_energy_cv;
			}


			/* MONTE CARLO */
			if(delta_energy>=0){
			#ifdef TS_DOUBLE_DOUBLE
			if(exp(-delta_energy)< drand48())
			#endif
			#ifdef TS_DOUBLE_FLOAT
			if(expf(-delta_energy)< (ts_float)drand48())
			#endif
			#ifdef TS_DOUBLE_LONGDOUBLE
			if(expl(-delta_energy)< (ts_ldouble)drand48())
			#endif
			{
			//not accepted, reverting changes
			//restore all backups
			// fprintf(stderr,"Restoring!!!\n");
			if(vesicle->tape->constvolswitch == 1){
			constvolumerestore(constvol_vtx_moved,constvol_vtx_backup);
			}

			for(i=0;i<4;i++){
			// fprintf(stderr,"Restoring vtx neigh[%d] with neighbours %d\n",i, orig_vtx[i]->neigh_no );
			free(orig_vtx[i]->neigh);
			free(orig_vtx[i]->tristar);
			free(orig_vtx[i]->bond);
			free(orig_tria[i]->neigh);
			memcpy((void )orig_vtx[i],(void )bck_vtx[i],sizeof(ts_vertex));
			memcpy((void )orig_tria[i],(void )bck_tria[i],sizeof(ts_triangle));
			// fprintf(stderr,"Restored vtx neigh[%d] with neighbours %d\n",i, orig_vtx[i]->neigh_no );
			/* level 2 pointers are redirected*/
			}
			memcpy(bond,bck_bond,sizeof(ts_bond));

			for(i=0;i<4;i++){
			free(bck_vtx[i]);
			free(bck_tria[i]);
			/* fprintf(stderr,"Restoring vtx neigh[%d] with neighbours %d =",i, orig_vtx[i]->neigh_no );
			for(j=0;j<orig_vtx[i]->neigh_no;j++) fprintf(stderr," %d", orig_vtx[i]->neigh[j]->idx);
			fprintf(stderr,"\n"); */
			}

			free(bck_bond);

			// fprintf(stderr,"Restoration complete!!!\n");
			// vesicle_volume(vesicle);
			// fprintf(stderr,"Volume after fail=%1.16e\n", vesicle->volume);
			if(vesicle->tape->stretchswitch==1){
			stretchenergy(vesicle,lm);
			stretchenergy(vesicle,lp);
			}

			return TS_FAIL;
			}
			}
			/* IF BONDFLIP ACCEPTED, THEN RETURN SUCCESS! */
			// fprintf(stderr,"SUCCESS!!!\n");

			if(vesicle->tape->constvolswitch == 2){
			vesicle->volume+=dvol;
			} else if(vesicle->tape->constvolswitch == 1){
			constvolumeaccept(vesicle,constvol_vtx_moved,constvol_vtx_backup);
			}
			if(vesicle->tape->constareaswitch==2){
			vesicle->area+=darea;
			}
			// delete all backups
			for(i=0;i<4;i++){
			free(bck_vtx[i]->neigh);
			free(bck_vtx[i]->bond);
			free(bck_vtx[i]->tristar);
			free(bck_vtx[i]);
			free(bck_tria[i]->neigh);
			free(bck_tria[i]);
			/* fprintf(stderr,"Afret backup deletion vtx neigh[%d]=",i);
			for(j=0;j<orig_vtx[i]->neigh_no;j++) fprintf(stderr," %d", orig_vtx[i]->neigh[j]->idx);
			fprintf(stderr,"\n");
			*/
			}
			free(bck_bond);

			// vesicle_volume(vesicle);
			// fprintf(stderr,"Volume after success=%1.16e\n", vesicle->volume);
			return TS_SUCCESS;
			}


			ts_bool ts_flip_bond(ts_vertex k,ts_vertex it,ts_vertex km, ts_vertex kp,
			ts_bond bond, ts_triangle lm, ts_triangle lp, ts_triangle lm2, ts_triangle *lp1, ts_double w_energy){

			ts_uint i; //lmidx, lpidx;
			if(k==NULL \|\| it==NULL \|\| km==NULL \|\| kp==NULL){
			fatal("ts_flip_bond: You called me with invalid pointers to vertices",999);
			}
			// 2. step. We change the triangle vertices... (actual bond flip)
			for(i=0;i<3;i++) if(lm->vertex[i]== it) lm->vertex[i]= kp;
			for(i=0;i<3;i++) if(lp->vertex[i]== k) lp->vertex[i]= km;
			fprintf(stderr,"2. step: actual bondflip made\n");
			//fprintf(stderr,"2. step: actual bondflip made\n");
			// 2a. step. If any changes in triangle calculations must be done, do it here!
			// * normals are recalculated here
			triangle_normal_vector(lp);
			triangle_normal_vector(lm);
			fprintf(stderr,"2a. step: triangle normals recalculated\n");
			//fprintf(stderr,"2a. step: triangle normals recalculated\n");
			// 3. step. Correct neighbours in vertex_list


			vtx_remove_neighbour(k,it);
			// vtx_remove_neighbour(it,k);
			fprintf(stderr,"3. step (PROGRESS): removed k and it neighbours\n");
			//fprintf(stderr,"3. step (PROGRESS): removed k and it neighbours\n");

			//Tukaj pa nastopi tezava... Kam dodati soseda?
			vtx_insert_neighbour(km,kp,k);
			vtx_insert_neighbour(kp,km,it);
			// vertex_add_neighbour(km,kp); //pazi na vrstni red.
			// vertex_add_neighbour(kp,km);
			fprintf(stderr,"3. step: vertex neighbours corrected\n");
			//fprintf(stderr,"3. step: vertex neighbours corrected\n");

			// 3a. step. If any changes to ts_vertex, do it here!
			// bond_length calculatons not required for it is done in energy.c
			@@ -302,7 +421,7 @@
			// 5. step. Correct neighbouring triangles

			triangle_remove_neighbour(lp,lp1);
			// fprintf(stderr,".\n");
			// fprintf(stderr,".\n");
			triangle_remove_neighbour(lp1,lp);
			// fprintf(stderr,".\n");
			triangle_remove_neighbour(lm,lm2);
			@@ -323,34 +442,11 @@
			vtx_remove_tristar(it,lm);
			vtx_remove_tristar(k,lp);
			//fprintf(stderr,"6. step: tristar corrected\n");

			/*
			//DEBUG TESTING
			fprintf(stderr,"--- Naslov lm=%d",lm);


			fprintf(stderr," vtxs(%d, %d, %d)\n",lm->vertex[0],lm->vertex[1], lm->vertex[2]);
			fprintf(stderr,"--- Naslov lp=%d",lp);
			fprintf(stderr," vtxs(%d, %d, %d)\n",lp->vertex[0],lp->vertex[1], lp->vertex[2]);
			fprintf(stderr,"--- Naslov lm2=%d",lm2);
			fprintf(stderr," vtxs(%d, %d, %d)\n",lm2->vertex[0],lm2->vertex[1], lm2->vertex[2]);
			fprintf(stderr,"--- Naslov lp1=%d",lp1);
			fprintf(stderr," vtxs(%d, %d, %d)\n",lp1->vertex[0],lp1->vertex[1], lp1->vertex[2]);

			for(i=0;i<lm->neigh_no;i++)
			fprintf(stderr,"lm sosed=%d\n",lm->neigh[i]);
			for(i=0;i<lp->neigh_no;i++)
			fprintf(stderr,"lp sosed=%d\n",lp->neigh[i]);
			// END DEBUG TESTING
			*/
			energy_vertex(k);
			energy_vertex(kp);
			energy_vertex(km);
			energy_vertex(it);


			attraction_bond_energy(bond, w_energy);
			// END modifications to data structure!


			return TS_SUCCESS;
			}