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#include<stdlib.h> |
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#include "general.h" |
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#include "energy.h" |
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#include "vertex.h" |
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#include<math.h> |
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#include<stdio.h> |
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ts_bool mean_curvature_and_energy(ts_vesicle *vesicle){ |
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ts_uint i; |
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ts_vertex_list *vlist=vesicle->vlist; |
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ts_vertex **vtx=vlist->vtx; |
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for(i=0;i<vlist->n;i++){ |
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energy_vertex(vtx[i]); |
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} |
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return TS_SUCCESS; |
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} |
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inline ts_bool energy_vertex(ts_vertex *vtx){ |
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// ts_vertex *vtx=&vlist->vertex[n]-1; // Caution! 0 Indexed value! |
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// ts_triangle *tristar=vtx->tristar-1; |
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ts_vertex_data *data=vtx->data; |
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ts_uint jj; |
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ts_uint jjp,jjm; |
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ts_vertex *j,*jp, *jm; |
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ts_triangle *jt; |
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ts_double s=0,xh=0,yh=0,zh=0,txn=0,tyn=0,tzn=0; |
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ts_double x1,x2,x3,ctp,ctm,tot,xlen; |
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ts_double h,ht; |
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for(jj=1; jj<=data->neigh_no;jj++){ |
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jjp=jj+1; |
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if(jjp>data->neigh_no) jjp=1; |
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jjm=jj-1; |
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if(jjm<1) jjm=data->neigh_no; |
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j=data->neigh[jj-1]; |
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jp=data->neigh[jjp-1]; |
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jm=data->neigh[jjm-1]; |
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// printf("tristar_no=%u, neigh_no=%u, jj=%u\n",data->tristar_no,data->neigh_no,jj); |
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jt=data->tristar[jj-1]; |
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x1=vtx_distance_sq(vtx,jp); //shouldn't be zero! |
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x2=vtx_distance_sq(j,jp); // shouldn't be zero! |
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x3=(j->data->x-jp->data->x)*(data->x-jp->data->x)+ |
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(j->data->y-jp->data->y)*(data->y-jp->data->y)+ |
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(j->data->z-jp->data->z)*(data->z-jp->data->z); |
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#ifdef TS_DOUBLE_DOUBLE |
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ctp=x3/sqrt(x1*x2-x3*x3); |
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#endif |
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#ifdef TS_DOUBLE_FLOAT |
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ctp=x3/sqrtf(x1*x2-x3*x3); |
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#endif |
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#ifdef TS_DOUBLE_LONGDOUBLE |
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ctp=x3/sqrtl(x1*x2-x3*x3); |
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#endif |
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x1=vtx_distance_sq(vtx,jm); |
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x2=vtx_distance_sq(j,jm); |
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x3=(j->data->x-jm->data->x)*(data->x-jm->data->x)+ |
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(j->data->y-jm->data->y)*(data->y-jm->data->y)+ |
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(j->data->z-jm->data->z)*(data->z-jm->data->z); |
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#ifdef TS_DOUBLE_DOUBLE |
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ctm=x3/sqrt(x1*x2-x3*x3); |
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#endif |
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#ifdef TS_DOUBLE_FLOAT |
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ctm=x3/sqrtf(x1*x2-x3*x3); |
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#endif |
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#ifdef TS_DOUBLE_LONGDOUBLE |
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ctm=x3/sqrtl(x1*x2-x3*x3); |
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#endif |
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tot=ctp+ctm; |
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tot=0.5*tot; |
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xlen=vtx_distance_sq(j,vtx); |
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#ifdef TS_DOUBLE_DOUBLE |
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data->bond[jj-1]->data->bond_length=sqrt(xlen); |
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#endif |
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#ifdef TS_DOUBLE_FLOAT |
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data->bond[jj-1]->data->bond_length=sqrtf(xlen); |
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#endif |
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#ifdef TS_DOUBLE_LONGDOUBLE |
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data->bond[jj-1]->data->bond_length=sqrtl(xlen); |
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#endif |
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data->bond[jj-1]->data->bond_length_dual=tot*data->bond[jj-1]->data->bond_length; |
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s+=tot*xlen; |
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xh+=tot*(j->data->x - data->x); |
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yh+=tot*(j->data->y - data->y); |
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zh+=tot*(j->data->z - data->z); |
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txn+=jt->xnorm; |
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tyn+=jt->ynorm; |
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tzn+=jt->znorm; |
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} |
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h=xh*xh+yh*yh+zh*zh; |
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ht=txn*xh+tyn*yh + tzn*zh; |
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s=s/4.0; |
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#ifdef TS_DOUBLE_DOUBLE |
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if(ht>=0.0) { |
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data->curvature=sqrt(h); |
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} else { |
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data->curvature=-sqrt(h); |
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} |
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#endif |
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#ifdef TS_DOUBLE_FLOAT |
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if(ht>=0.0) { |
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data->curvature=sqrtf(h); |
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} else { |
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data->curvature=-sqrtf(h); |
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} |
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#endif |
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#ifdef TS_DOUBLE_LONGDOUBLE |
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if(ht>=0.0) { |
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data->curvature=sqrtl(h); |
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} else { |
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data->curvature=-sqrtl(h); |
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} |
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#endif |
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// What is vtx->data->c?????????????? Here it is 0! |
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// c is forced curvature energy for each vertex. Should be set to zero for |
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// norman circumstances. |
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data->energy=0.5*s*(data->curvature/s-data->c)*(data->curvature/s-data->c); |
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return TS_SUCCESS; |
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} |