trisurf-ng.git - Gitblit

			@@ -1,3 +1,4 @@
			/* vim: set ts=4 sts=4 sw=4 noet : */
			#include<stdlib.h>
			#include<math.h>
			#include<stdio.h>
			@@ -9,31 +10,143 @@
			#include "triangle.h"
			#include "initial_distribution.h"
			#include "energy.h"
			#include "poly.h"
			#include "io.h"
			#include "sh.h"
			#include "shcomplex.h"

			ts_vesicle *initial_distribution_dipyramid(ts_uint nshell, ts_uint ncmax1, ts_uint ncmax2, ts_uint ncmax3, ts_double stepsize){
			ts_fprintf(stderr,"Starting initial_distribution on vesicle with %u shells!...\n",nshell);
			ts_fprintf(stdout,"Starting initial_distribution on vesicle with %u shells!...\n",nshell);
			ts_bool retval;
			ts_uint no_vertices=5nshellnshell+2;



			ts_vesicle *vesicle=init_vesicle(no_vertices,ncmax1,ncmax2,ncmax3,stepsize);

			vesicle->nshell=nshell;
			retval = vtx_set_global_values(vesicle);
			retval = pentagonal_dipyramid_vertex_distribution(vesicle->vlist);
			retval = init_vertex_neighbours(vesicle->vlist);
			vesicle->vlist = init_sort_neighbours(vesicle->blist,vesicle->vlist);
			ts_uint no_vertices=5nshellnshell+2;
			ts_vesicle *vesicle=init_vesicle(no_vertices,ncmax1,ncmax2,ncmax3,stepsize);
			vesicle->nshell=nshell;
			//retval = vtx_set_global_values(vesicle);
			retval = pentagonal_dipyramid_vertex_distribution(vesicle->vlist);
			retval = init_vertex_neighbours(vesicle->vlist);
			vesicle->vlist = init_sort_neighbours(vesicle->blist,vesicle->vlist);
			// retval = init_vesicle_bonds(vesicle); // bonds are created in sort_neigh
			retval = init_triangles(vesicle);
			retval = init_triangle_neighbours(vesicle);
			retval = init_common_vertex_triangle_neighbours(vesicle);
			retval = init_normal_vectors(vesicle->tlist);
			retval = mean_curvature_and_energy(vesicle);
			ts_fprintf(stderr,"initial_distribution finished!\n");
			retval = init_triangles(vesicle);
			retval = init_triangle_neighbours(vesicle);
			retval = init_common_vertex_triangle_neighbours(vesicle);
			retval = init_normal_vectors(vesicle->tlist);
			retval = mean_curvature_and_energy(vesicle);
			ts_fprintf(stdout,"initial_distribution finished!\n");
			if(retval);
			return vesicle;
			}



			ts_vesicle create_vesicle_from_tape(ts_tape tape){
			ts_vesicle *vesicle;

			vesicle=initial_distribution_dipyramid(tape->nshell,tape->ncxmax,tape->ncymax,tape->nczmax,tape->stepsize);
			vesicle->tape=tape;
			vesicle->clist->dmin_interspecies = tape->dmin_interspecies*tape->dmin_interspecies;
			vesicle->poly_list=init_poly_list(tape->npoly,tape->nmono, vesicle->vlist, vesicle);
			set_vesicle_values_from_tape(vesicle);
			initial_population_with_c0(vesicle,tape);
			return vesicle;
			}

			ts_bool set_vesicle_values_from_tape(ts_vesicle *vesicle){
			// Nucleus:
			ts_vertex *vtx;
			ts_tape *tape=vesicle->tape;
			vesicle->R_nucleus=tape->R_nucleus*tape->R_nucleus;
			vesicle->R_nucleusX=tape->R_nucleusX*tape->R_nucleusX;
			vesicle->R_nucleusY=tape->R_nucleusY*tape->R_nucleusY;
			vesicle->R_nucleusZ=tape->R_nucleusZ*tape->R_nucleusZ;
			vesicle->clist->dmin_interspecies = tape->dmin_interspecies*tape->dmin_interspecies;

			//Initialize grafted polymers (brush):
			//vesicle->poly_list=init_poly_list(tape->npoly,tape->nmono, vesicle->vlist, vesicle);
			vesicle->spring_constant=tape->kspring;
			poly_assign_spring_const(vesicle);

			//Initialize filaments (polymers inside the vesicle):
			vesicle->filament_list=init_poly_list(tape->nfil,tape->nfono, NULL, vesicle);
			poly_assign_filament_xi(vesicle,tape);

			ts_uint i,j;
			for(i=0;i<vesicle->filament_list->n;i++){
			for(j=0;j<vesicle->filament_list->poly[i]->blist->n;j++){
			bond_vector(vesicle->filament_list->poly[i]->blist->bond[j]);
			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));
			}
			}

			for(i=0;i<vesicle->filament_list->n;i++){
			for(j=0;j<vesicle->filament_list->poly[i]->vlist->n;j++){
			vtx = vesicle->filament_list->poly[i]->vlist->vtx[j];
			if(vtx->bond_no == 2){
			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;
			}
			}
			}

			for(i=0;i<vesicle->filament_list->n;i++){
			vertex_list_assign_id(vesicle->filament_list->poly[i]->vlist,TS_ID_FILAMENT);
			}

			// vesicle->spring_constant=tape->kspring;
			// poly_assign_spring_const(vesicle);


			vesicle->nshell=tape->nshell;
			vesicle->dmax=tape->dmaxtape->dmax; / dmax^2 in the vesicle dmax variable */
			vesicle->bending_rigidity=tape->xk0;
			vtx_set_global_values(vesicle); /* make xk0 default value for every vertex */
			// ts_fprintf(stdout, "Tape setting: xk0=%e\n",tape->xk0);
			vesicle->stepsize=tape->stepsize;
			vesicle->clist->ncmax[0]=tape->ncxmax;
			vesicle->clist->ncmax[1]=tape->ncymax;
			vesicle->clist->ncmax[2]=tape->nczmax;
			//THIS IS NOW HARDCODED IN CELL.C
			// vesicle->clist->max_occupancy=16; /* hard coded max occupancy? */

			vesicle->pressure= tape->pressure;
			vesicle->pswitch=tape->pswitch;
			if(tape->shc>0){
			vesicle->sphHarmonics=complex_sph_init(vesicle->vlist,tape->shc);
			}
			else {
			vesicle->sphHarmonics=NULL;
			}

			vesicle->tlist->a0=sqrt(3)/4*pow((vesicle->tape->dmax+1.0)/2.0,2);
			return TS_SUCCESS;

			}


			ts_bool initial_population_with_c0(ts_vesicle vesicle, ts_tape tape){
			int rndvtx,i,j;
			if(tape->number_of_vertices_with_c0>0){
			// ts_fprintf(stderr,"Setting values for spontaneous curvature as defined in tape\n");
			j=0;
			for(i=0;i<tape->number_of_vertices_with_c0;i++){
			rndvtx=rand() % vesicle->vlist->n;
			if(fabs(vesicle->vlist->vtx[rndvtx]->c-tape->c0)<1e-15){
			j++;
			i--;
			if(j>10*vesicle->vlist->n){
			fatal("cannot populate vesicle with vertices with spontaneous curvature. Too many spontaneous curvature vertices?",100);
			}
			continue;
			}
			vesicle->vlist->vtx[rndvtx]->c=tape->c0;
			vesicle->vlist->vtx[rndvtx]->direct_interaction_force=tape->F;
			}
			mean_curvature_and_energy(vesicle);
			if(fabs(tape->w)>1e-16){ //if nonzero energy
			// ts_fprintf(stderr,"Setting attraction between vertices with spontaneous curvature\n");
			sweep_attraction_bond_energy(vesicle);
			}
			}
			return TS_SUCCESS;
			}


			ts_bool pentagonal_dipyramid_vertex_distribution(ts_vertex_list *vlist){
			@@ -44,15 +157,15 @@
			const ts_double c2= cos(4.0*M_PI/5.0);

			/* Calculates projection lenght of an edge bond to pentagram plane */
			const ts_double xl0=A0/(2.0*sin(M_PI/5.0));
			const ts_double xl0=DEF_A0/(2.0*sin(M_PI/5.0));
			#ifdef TS_DOUBLE_DOUBLE
			const ts_double z0=sqrt(pow(A0,2)-pow(xl0,2));
			const ts_double z0=sqrt(pow(DEF_A0,2)-pow(xl0,2));
			#endif
			#ifdef TS_DOUBLE_FLOAT
			const ts_double z0=sqrtf(powf(A0,2)-powf(xl0,2));
			const ts_double z0=sqrtf(powf(DEF_A0,2)-powf(xl0,2));
			#endif
			#ifdef TS_DOUBLE_LONGDOUBLE
			const ts_double z0=sqrtl(powl(A0,2)-powl(xl0,2));
			const ts_double z0=sqrtl(powl(DEF_A0,2)-powl(xl0,2));
			#endif
			// 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 */

			@@ -144,7 +257,7 @@
			for(i=1;i<=vlist->n;i++){
			for(j=1;j<=vlist->n;j++){
			dist2=vtx_distance_sq(vtx[i],vtx[j]);
			if( (dist2>eps) && (dist2<(A0*A0+eps))){
			if( (dist2>eps) && (dist2<(DEF_A0*DEF_A0+eps))){
			//if it is close enough, but not too much close (solves problem of comparing when i==j)
			vtx_add_neighbour(vtx[i],vtx[j]);
			}
			@@ -177,7 +290,7 @@
			dist2=vtx_distance_sq(vtx[i]->neigh[j-1],vtx[i]->neigh[jj-1]);
			direct=vtx_direct(vtx[i],vtx[i]->neigh[j-1],vtx[i]->neigh[jj-1]);
			// TODO: check if fabs can be used with all floating point types!!
			if( (fabs(dist2-A0*A0)<=eps) && (direct>0.0) && (j!=jjj) ){
			if( (fabs(dist2-DEF_A0*DEF_A0)<=eps) && (direct>0.0) && (j!=jjj) ){
			vtx_add_cneighbour(blist,tvtx[k],tvtx[vtx[i]->neigh[j-1]->idx+1]);
			jjj=jj;
			jj=j;
			@@ -243,7 +356,7 @@
			dist=vtx_distance_sq(vtx[i]->neigh[j-1],vtx[i]->neigh[jj-1]);
			direct=vtx_direct(vtx[i],vtx[i]->neigh[j-1],vtx[i]->neigh[jj-1]);
			// TODO: same as above
			if(fabs(dist-A0*A0)<=eps && direct < 0.0 && vtx[i]->neigh[j-1]->idx+1 > i && vtx[i]->neigh[jj-1]->idx+1 >i){
			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){
			triangle_add(tlist,vtx[i],vtx[i]->neigh[j-1],vtx[i]->neigh[jj-1]);
			}
			}