X-Git-Url: https://hackdaworld.org/gitweb/?a=blobdiff_plain;f=moldyn.c;h=91fead7739a0aeb4d45165ccfd48ea1427e56bc1;hb=a32468230b319b32819f1b20fd28aa9659574d45;hp=edda007d9290ff6cfe1001d4105c3f8a9ab12863;hpb=e1080fc0dd66b0cf5b7715c5e99e7a34ac04a8cf;p=physik%2Fposic.git

diff --git a/moldyn.c b/moldyn.c
index edda007..91fead7 100644
--- a/moldyn.c
+++ b/moldyn.c
@@ -191,15 +191,12 @@ int set_dim(t_moldyn *moldyn,double x,double y,double z,u8 visualize) {
 		moldyn->vis.dim.z=z;
 	}
 
-	moldyn->dv=0.000001*moldyn->volume;
-
 	printf("[moldyn] dimensions in A and A^3 respectively:\n");
 	printf("  x: %f\n",moldyn->dim.x);
 	printf("  y: %f\n",moldyn->dim.y);
 	printf("  z: %f\n",moldyn->dim.z);
 	printf("  volume: %f\n",moldyn->volume);
 	printf("  visualize simulation box: %s\n",visualize?"yes":"no");
-	printf("  delta volume (pressure calc): %f\n",moldyn->dv);
 
 	return 0;
 }
@@ -370,12 +367,25 @@ int moldyn_set_log(t_moldyn *moldyn,u8 type,int timer) {
 			dprintf(moldyn->tfd,"# temperature log file\n");
 			printf("temperature (%d)\n",timer);
 			break;
+		case LOG_VOLUME:
+			moldyn->vwrite=timer;
+			snprintf(filename,127,"%s/volume",moldyn->vlsdir);
+			moldyn->vfd=open(filename,
+			                 O_WRONLY|O_CREAT|O_EXCL,
+			                 S_IRUSR|S_IWUSR);
+			if(moldyn->vfd<0) {
+				perror("[moldyn] volume log file\n");
+				return moldyn->vfd;
+			}
+			dprintf(moldyn->vfd,"# volume log file\n");
+			printf("volume (%d)\n",timer);
+			break;
 		case SAVE_STEP:
 			moldyn->swrite=timer;
 			printf("save file (%d)\n",timer);
 			break;
 		case VISUAL_STEP:
-			moldyn->vwrite=timer;
+			moldyn->awrite=timer;
 			ret=visual_init(moldyn,moldyn->vlsdir);
 			if(ret<0) {
 				printf("[moldyn] visual init failure\n");
@@ -595,7 +605,7 @@ int add_atom(t_moldyn *moldyn,int element,double mass,u8 brand,u8 attr,
 	int count;
 	
 	atom=moldyn->atom;
-	count=(moldyn->count)++;
+	count=(moldyn->count)++;	// asshole style!
 
 	ptr=realloc(atom,(count+1)*sizeof(t_atom));
 	if(!ptr) {
@@ -605,6 +615,9 @@ int add_atom(t_moldyn *moldyn,int element,double mass,u8 brand,u8 attr,
 	moldyn->atom=ptr;
 
 	atom=moldyn->atom;
+
+	/* initialize new atom */
+	memset(&(atom[count]),0,sizeof(t_atom));
 	atom[count].r=*r;
 	atom[count].v=*v;
 	atom[count].element=element;
@@ -913,16 +926,26 @@ double ideal_gas_law_pressure(t_moldyn *moldyn) {
 double virial_sum(t_moldyn *moldyn) {
 
 	int i;
-	double v;
 	t_virial *virial;
 
 	/* virial (sum over atom virials) */
-	v=0.0;
+	moldyn->virial=0.0;
+	moldyn->vir.xx=0.0;
+	moldyn->vir.yy=0.0;
+	moldyn->vir.zz=0.0;
+	moldyn->vir.xy=0.0;
+	moldyn->vir.xz=0.0;
+	moldyn->vir.yz=0.0;
 	for(i=0;i<moldyn->count;i++) {
 		virial=&(moldyn->atom[i].virial);
-		v+=(virial->xx+virial->yy+virial->zz);
+		moldyn->virial+=(virial->xx+virial->yy+virial->zz);
+		moldyn->vir.xx+=virial->xx;
+		moldyn->vir.yy+=virial->yy;
+		moldyn->vir.zz+=virial->zz;
+		moldyn->vir.xy+=virial->xy;
+		moldyn->vir.xz+=virial->xz;
+		moldyn->vir.yz+=virial->yz;
 	}
-	moldyn->virial=v;
 
 	/* global virial (absolute coordinates) */
 	virial=&(moldyn->gvir);
@@ -954,6 +977,36 @@ double pressure_calc(t_moldyn *moldyn) {
 	return moldyn->p;
 }
 
+int average_reset(t_moldyn *moldyn) {
+
+	printf("[moldyn] average reset\n");
+
+	/* update skip value */
+	moldyn->avg_skip=moldyn->total_steps;
+
+	/* kinetic energy */
+	moldyn->k_sum=0.0;
+	moldyn->k2_sum=0.0;
+	
+	/* potential energy */
+	moldyn->v_sum=0.0;
+	moldyn->v2_sum=0.0;
+
+	/* temperature */
+	moldyn->t_sum=0.0;
+
+	/* virial */
+	moldyn->virial_sum=0.0;
+	moldyn->gv_sum=0.0;
+
+	/* pressure */
+	moldyn->p_sum=0.0;
+	moldyn->gp_sum=0.0;
+	moldyn->tp_sum=0.0;
+
+	return 0;
+}
+
 int average_and_fluctuation_calc(t_moldyn *moldyn) {
 
 	int denom;
@@ -994,6 +1047,8 @@ int average_and_fluctuation_calc(t_moldyn *moldyn) {
 	moldyn->p_avg=moldyn->p_sum/denom;
 	moldyn->gp_sum+=moldyn->gp;
 	moldyn->gp_avg=moldyn->gp_sum/denom;
+	moldyn->tp_sum+=moldyn->tp;
+	moldyn->tp_avg=moldyn->tp_sum/denom;
 
 	return 0;
 }
@@ -1035,8 +1090,9 @@ double thermodynamic_pressure_calc(t_moldyn *moldyn) {
 
 	t_3dvec dim;
 	//t_3dvec *tp;
-	double u_up,u_down,dv;
-	double scale,p;
+	double h,dv;
+	double y0,y1;
+	double su,sd;
 	t_atom *store;
 
 	/*
@@ -1046,54 +1102,56 @@ double thermodynamic_pressure_calc(t_moldyn *moldyn) {
 	 *
 	 */
 
-	scale=0.00001;
-	dv=8*scale*scale*scale*moldyn->volume;
-
+	/* store atomic configuration + dimension */
 	store=malloc(moldyn->count*sizeof(t_atom));
 	if(store==NULL) {
 		printf("[moldyn] allocating store mem failed\n");
 		return -1;
 	}
-
-	/* save unscaled potential energy + atom/dim configuration */
 	memcpy(store,moldyn->atom,moldyn->count*sizeof(t_atom));
 	dim=moldyn->dim;
 
+	/* x1, y1 */
+	sd=0.00001;
+	h=(1.0-sd)*(1.0-sd)*(1.0-sd);
+	su=pow(2.0-h,ONE_THIRD)-1.0;
+	dv=(1.0-h)*moldyn->volume;
+
 	/* scale up dimension and atom positions */
-	scale_dim(moldyn,SCALE_UP,scale,TRUE,TRUE,TRUE);
-	scale_atoms(moldyn,SCALE_UP,scale,TRUE,TRUE,TRUE);
+	scale_dim(moldyn,SCALE_UP,su,TRUE,TRUE,TRUE);
+	scale_atoms(moldyn,SCALE_UP,su,TRUE,TRUE,TRUE);
 	link_cell_shutdown(moldyn);
 	link_cell_init(moldyn,QUIET);
 	potential_force_calc(moldyn);
-	u_up=moldyn->energy;
+	y1=moldyn->energy;
 
 	/* restore atomic configuration + dim */
 	memcpy(moldyn->atom,store,moldyn->count*sizeof(t_atom));
 	moldyn->dim=dim;
 
 	/* scale down dimension and atom positions */
-	scale_dim(moldyn,SCALE_DOWN,scale,TRUE,TRUE,TRUE);
-	scale_atoms(moldyn,SCALE_DOWN,scale,TRUE,TRUE,TRUE);
+	scale_dim(moldyn,SCALE_DOWN,sd,TRUE,TRUE,TRUE);
+	scale_atoms(moldyn,SCALE_DOWN,sd,TRUE,TRUE,TRUE);
 	link_cell_shutdown(moldyn);
 	link_cell_init(moldyn,QUIET);
 	potential_force_calc(moldyn);
-	u_down=moldyn->energy;
+	y0=moldyn->energy;
 	
 	/* calculate pressure */
-	p=-(u_up-u_down)/dv;
-printf("-------> %.10f %.10f %f\n",u_up/EV/moldyn->count,u_down/EV/moldyn->count,p/BAR);
+	moldyn->tp=-(y1-y0)/(2.0*dv);
 
-	/* restore atomic configuration + dim */
+	/* restore atomic configuration */
 	memcpy(moldyn->atom,store,moldyn->count*sizeof(t_atom));
 	moldyn->dim=dim;
-
-	/* restore energy */
-	potential_force_calc(moldyn);
-
 	link_cell_shutdown(moldyn);
 	link_cell_init(moldyn,QUIET);
+	//potential_force_calc(moldyn);
 
-	return p;
+	/* free store buffer */
+	if(store)
+		free(store);
+
+	return moldyn->tp;
 }
 
 double get_pressure(t_moldyn *moldyn) {
@@ -1154,13 +1212,12 @@ int scale_volume(t_moldyn *moldyn) {
 
 	/* scaling factor */
 	if(moldyn->pt_scale&P_SCALE_BERENDSEN) {
-		scale=1.0-(moldyn->p_ref-moldyn->p)/moldyn->p_tc;
+		scale=1.0-(moldyn->p_ref-moldyn->p)*moldyn->p_tc;
 		scale=pow(scale,ONE_THIRD);
 	}
 	else {
 		scale=pow(moldyn->p/moldyn->p_ref,ONE_THIRD);
 	}
-moldyn->debug=scale;
 
 	/* scale the atoms and dimensions */
 	scale_atoms(moldyn,SCALE_DIRECT,scale,TRUE,TRUE,TRUE);
@@ -1342,7 +1399,7 @@ int link_cell_update(t_moldyn *moldyn) {
 		i=((atom[count].r.x+(moldyn->dim.x/2))/lc->x);
 		j=((atom[count].r.y+(moldyn->dim.y/2))/lc->y);
 		k=((atom[count].r.z+(moldyn->dim.z/2))/lc->z);
-
+	
 #ifdef STATIC_LISTS
 		p=0;
 		while(lc->subcell[i+j*nx+k*nx*ny][p]!=0)
@@ -1392,6 +1449,10 @@ int link_cell_neighbour_index(t_moldyn *moldyn,int i,int j,int k,
 	count2=27;
 	a=nx*ny;
 
+	if(i>=nx||j>=ny||k>=nz)
+		printf("[moldyn] WARNING: lcni %d/%d %d/%d %d/%d\n",
+		       i,nx,j,ny,k,nz);
+
 	cell[0]=lc->subcell[i+j*nx+k*a];
 	for(ci=-1;ci<=1;ci++) {
 		bx=0;
@@ -1502,7 +1563,7 @@ int moldyn_set_schedule_hook(t_moldyn *moldyn,set_hook hook,void *hook_params) {
 int moldyn_integrate(t_moldyn *moldyn) {
 
 	int i;
-	unsigned int e,m,s,v,p,t;
+	unsigned int e,m,s,v,p,t,a;
 	t_3dvec momentum;
 	t_moldyn_schedule *sched;
 	t_atom *atom;
@@ -1524,6 +1585,7 @@ int moldyn_integrate(t_moldyn *moldyn) {
 	m=moldyn->mwrite;
 	s=moldyn->swrite;
 	v=moldyn->vwrite;
+	a=moldyn->awrite;
 	p=moldyn->pwrite;
 	t=moldyn->twrite;
 
@@ -1542,14 +1604,14 @@ int moldyn_integrate(t_moldyn *moldyn) {
 
 	/* some stupid checks before we actually start calculating bullshit */
 	if(moldyn->cutoff>0.5*moldyn->dim.x)
-		printf("[moldyn] warning: cutoff > 0.5 x dim.x\n");
+		printf("[moldyn] WARNING: cutoff > 0.5 x dim.x\n");
 	if(moldyn->cutoff>0.5*moldyn->dim.y)
-		printf("[moldyn] warning: cutoff > 0.5 x dim.y\n");
+		printf("[moldyn] WARNING: cutoff > 0.5 x dim.y\n");
 	if(moldyn->cutoff>0.5*moldyn->dim.z)
-		printf("[moldyn] warning: cutoff > 0.5 x dim.z\n");
+		printf("[moldyn] WARNING: cutoff > 0.5 x dim.z\n");
 	ds=0.5*atom[0].f.x*moldyn->tau_square/atom[0].mass;
 	if(ds>0.05*moldyn->nnd)
-		printf("[moldyn] warning: forces too high / tau too small!\n");
+		printf("[moldyn] WARNING: forces too high / tau too small!\n");
 
 	/* zero absolute time */
 	moldyn->time=0.0;
@@ -1585,6 +1647,9 @@ int moldyn_integrate(t_moldyn *moldyn) {
 		temperature_calc(moldyn);
 		virial_sum(moldyn);
 		pressure_calc(moldyn);
+		//thermodynamic_pressure_calc(moldyn);
+
+		/* calculate fluctuations + averages */
 		average_and_fluctuation_calc(moldyn);
 
 		/* p/t scaling */
@@ -1614,9 +1679,10 @@ int moldyn_integrate(t_moldyn *moldyn) {
 		if(p) {
 			if(!(moldyn->total_steps%p)) {
 				dprintf(moldyn->pfd,
-				        "%f %f %f %f %f\n",moldyn->time,
+				        "%f %f %f %f %f %f %f\n",moldyn->time,
 				         moldyn->p/BAR,moldyn->p_avg/BAR,
-				         moldyn->gp/BAR,moldyn->gp_avg/BAR);
+				         moldyn->gp/BAR,moldyn->gp_avg/BAR,
+					 moldyn->tp/BAR,moldyn->tp_avg/BAR);
 			}
 		}
 		if(t) {
@@ -1626,6 +1692,12 @@ int moldyn_integrate(t_moldyn *moldyn) {
 				        moldyn->time,moldyn->t,moldyn->t_avg);
 			}
 		}
+		if(v) {
+			if(!(moldyn->total_steps%v)) {
+				dprintf(moldyn->vfd,
+				        "%f %f\n",moldyn->time,moldyn->volume);
+			}
+		}
 		if(s) {
 			if(!(moldyn->total_steps%s)) {
 				snprintf(dir,128,"%s/s-%07.f.save",
@@ -1641,8 +1713,8 @@ int moldyn_integrate(t_moldyn *moldyn) {
 				close(fd);
 			}	
 		}
-		if(v) {
-			if(!(moldyn->total_steps%v)) {
+		if(a) {
+			if(!(moldyn->total_steps%a)) {
 				visual_atoms(moldyn);
 			}
 		}
@@ -1652,10 +1724,10 @@ int moldyn_integrate(t_moldyn *moldyn) {
 			/* get current time */
 			gettimeofday(&t2,NULL);
 
-printf("\rsched:%d, steps:%d/%d, T:%3.1f/%3.1f P:%4.1f/%4.1f V:%6.1f (%d)",
+printf("\rsched:%d, steps:%d/%d, T:%4.1f/%4.1f P:%4.1f/%4.1f V:%6.1f (%d)",
        sched->count,i,moldyn->total_steps,
        moldyn->t,moldyn->t_avg,
-       moldyn->p_avg/BAR,moldyn->gp_avg/BAR,
+       moldyn->p/BAR,moldyn->p_avg/BAR,
        moldyn->volume,
        (int)(t2.tv_sec-t1.tv_sec));
 
@@ -1702,6 +1774,9 @@ int velocity_verlet(t_moldyn *moldyn) {
 	tau_square=moldyn->tau_square;
 
 	for(i=0;i<count;i++) {
+		/* check whether fixed atom */
+		if(atom[i].attr&ATOM_ATTR_FP)
+			continue;
 		/* new positions */
 		h=0.5/atom[i].mass;
 		v3_scale(&delta,&(atom[i].v),tau);
@@ -1715,6 +1790,9 @@ int velocity_verlet(t_moldyn *moldyn) {
 		v3_add(&(atom[i].v),&(atom[i].v),&delta);
 	}
 
+	/* criticial check */
+	moldyn_bc_check(moldyn);
+
 	/* neighbour list update */
 	link_cell_update(moldyn);
 
@@ -1722,6 +1800,9 @@ int velocity_verlet(t_moldyn *moldyn) {
 	potential_force_calc(moldyn);
 
 	for(i=0;i<count;i++) {
+		/* check whether fixed atom */
+		if(atom[i].attr&ATOM_ATTR_FP)
+			continue;
 		/* again velocities [actually v(t+tau)] */
 		v3_scale(&delta,&(atom[i].f),0.5*tau/atom[i].mass);
 		v3_add(&(atom[i].v),&(atom[i].v),&delta);
@@ -2049,20 +2130,27 @@ int potential_force_calc(t_moldyn *moldyn) {
 	//printf("\nATOM 0: %f %f %f\n\n",itom->f.x,itom->f.y,itom->f.z);
 	if(moldyn->time>DSTART&&moldyn->time<DEND) {
 		printf("force:\n");
-		printf("  x: %0.40f\n",moldyn->atom[5832].f.x);
-		printf("  y: %0.40f\n",moldyn->atom[5832].f.y);
-		printf("  z: %0.40f\n",moldyn->atom[5832].f.z);
+		printf("  x: %0.40f\n",moldyn->atom[DATOM].f.x);
+		printf("  y: %0.40f\n",moldyn->atom[DATOM].f.y);
+		printf("  z: %0.40f\n",moldyn->atom[DATOM].f.z);
 	}
 #endif
 
-	/* calculate global virial */
+	/* some postprocessing */
 	for(i=0;i<count;i++) {
-		moldyn->gvir.xx+=moldyn->atom[i].r.x*moldyn->atom[i].f.x;
-		moldyn->gvir.yy+=moldyn->atom[i].r.y*moldyn->atom[i].f.y;
-		moldyn->gvir.zz+=moldyn->atom[i].r.z*moldyn->atom[i].f.z;
-		moldyn->gvir.xy+=moldyn->atom[i].r.y*moldyn->atom[i].f.x;
-		moldyn->gvir.xz+=moldyn->atom[i].r.z*moldyn->atom[i].f.x;
-		moldyn->gvir.yz+=moldyn->atom[i].r.z*moldyn->atom[i].f.y;
+		/* calculate global virial */
+		moldyn->gvir.xx+=itom[i].r.x*itom[i].f.x;
+		moldyn->gvir.yy+=itom[i].r.y*itom[i].f.y;
+		moldyn->gvir.zz+=itom[i].r.z*itom[i].f.z;
+		moldyn->gvir.xy+=itom[i].r.y*itom[i].f.x;
+		moldyn->gvir.xz+=itom[i].r.z*itom[i].f.x;
+		moldyn->gvir.yz+=itom[i].r.z*itom[i].f.y;
+
+		/* check forces regarding the given timestep */
+		if(v3_norm(&(itom[i].f))>\
+		   0.1*moldyn->nnd*itom[i].mass/moldyn->tau_square)
+			printf("[moldyn] WARNING: pfc (high force: atom %d)\n",
+			       i);
 	}
 
 	return 0;
@@ -2177,6 +2265,8 @@ int moldyn_read_save_file(t_moldyn *moldyn,char *file) {
 
 	int fd;
 	int cnt,size;
+	int fsize;
+	int corr;
 
 	fd=open(file,O_RDONLY);
 	if(fd<0) {
@@ -2184,6 +2274,9 @@ int moldyn_read_save_file(t_moldyn *moldyn,char *file) {
 		return fd;
 	}
 
+	fsize=lseek(fd,0,SEEK_END);
+	lseek(fd,0,SEEK_SET);
+
 	size=sizeof(t_moldyn);
 
 	while(size) {
@@ -2197,6 +2290,19 @@ int moldyn_read_save_file(t_moldyn *moldyn,char *file) {
 
 	size=moldyn->count*sizeof(t_atom);
 
+	/* correcting possible atom data offset */
+	corr=0;
+	if(fsize!=sizeof(t_moldyn)+size) {
+		corr=fsize-sizeof(t_moldyn)-size;
+		printf("[moldyn] WARNING: lsf (illegal file size)\n");
+		printf("  moifying offset:\n");
+		printf("  - current pos: %d\n",sizeof(t_moldyn));
+		printf("  - atom size: %d\n",size);
+		printf("  - file size: %d\n",fsize);
+		printf("  => correction: %d\n",corr);
+		lseek(fd,corr,SEEK_CUR);
+	}
+
 	moldyn->atom=(t_atom *)malloc(size);
 	if(moldyn->atom==NULL) {
 		perror("[moldyn] load save file malloc (atoms)");
@@ -2252,6 +2358,47 @@ int pair_correlation_init(t_moldyn *moldyn,double dr) {
 	return 0;
 }
 
+int calculate_diffusion_coefficient(t_moldyn *moldyn,double *dc) {
+
+	int i;
+	t_atom *atom;
+	t_3dvec dist;
+	double d2;
+	int a_cnt;
+	int b_cnt;
+
+	atom=moldyn->atom;
+	dc[0]=0;
+	dc[1]=0;
+	dc[2]=0;
+	a_cnt=0;
+	b_cnt=0;
+
+	for(i=0;i<moldyn->count;i++) {
+
+		v3_sub(&dist,&(atom[i].r),&(atom[i].r_0));
+		check_per_bound(moldyn,&dist);
+		d2=v3_absolute_square(&dist);
+
+		if(atom[i].brand) {
+			b_cnt+=1;
+			dc[1]+=d2;
+		}
+		else {
+			a_cnt+=1;
+			dc[0]+=d2;
+		}
+
+		dc[2]+=d2;
+	}
+
+	dc[0]*=(1.0/(6.0*moldyn->time*a_cnt));
+	dc[1]*=(1.0/(6.0*moldyn->time*b_cnt));
+	dc[2]*=(1.0/(6.0*moldyn->time*moldyn->count));
+		
+	return 0;
+}
+
 int calculate_pair_correlation(t_moldyn *moldyn,double dr,void *ptr) {
 
 	int slots;
@@ -2269,15 +2416,18 @@ int calculate_pair_correlation(t_moldyn *moldyn,double dr,void *ptr) {
 	unsigned char bc;
 	t_3dvec dist;
 	double d;
-	//double norm;
+	double norm;
 	int o,s;
 	unsigned char ibrand;
 
 	lc=&(moldyn->lc);
 
-	slots=moldyn->cutoff/dr;
+	slots=2.0*moldyn->cutoff/dr;
 	o=2*slots;
 
+	if(slots*dr<=moldyn->cutoff)
+		printf("[moldyn] WARNING: pcc (low #slots)\n");
+
 	printf("[moldyn] pair correlation calc info:\n");
 	printf("  time: %f\n",moldyn->time);
 	printf("  count: %d\n",moldyn->count);
@@ -2349,7 +2499,7 @@ int calculate_pair_correlation(t_moldyn *moldyn,double dr,void *ptr) {
 				d=v3_absolute_square(&dist);
 
 				/* ignore if greater or equal cutoff */
-				if(d>=moldyn->cutoff_square)
+				if(d>=4.0*moldyn->cutoff_square)
 					continue;
 
 				/* fill the slots */
@@ -2358,7 +2508,12 @@ int calculate_pair_correlation(t_moldyn *moldyn,double dr,void *ptr) {
 
 				/* should never happen but it does 8) -
 				 * related to -ffloat-store problem! */
-				if(s>=slots) s=slots-1;
+				if(s>=slots) {
+					printf("[moldyn] WARNING: pcc (%d/%d)",
+					       s,slots);
+					printf("\n");
+					s=slots-1;
+				}
 
 				if(ibrand!=jtom->brand) {
 					/* mixed */
@@ -2380,16 +2535,17 @@ int calculate_pair_correlation(t_moldyn *moldyn,double dr,void *ptr) {
 		}
 	}
 
-	/* normalization 
+	/* normalization */
 	for(i=1;i<slots;i++) {
-		 // normalization: 4 pi r r dr
+		 // normalization: 4 pi r^2 dr
 		 // here: not double counting pairs -> 2 pi r r dr
-		norm=2*M_PI*moldyn->count*(i*dr*i*dr)*dr;
+		 // ... and actually it's a constant times r^2
+		norm=i*i*dr*dr;
 		stat[i]/=norm;
 		stat[slots+i]/=norm;
 		stat[o+i]/=norm;
 	}
-	*/
+	/* */
 
 	if(ptr==NULL) {
 		/* todo: store/print pair correlation function */