| | |
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| | | ts_double dist; |
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| | | ts_bool retval; |
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| | | ts_uint cellidx; |
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| | | ts_double delta_energy, delta_energy_cv,oenergy,dvol=0.0; |
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| | | ts_double delta_energy, delta_energy_cv,oenergy,dvol=0.0, darea=0.0; |
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| | | ts_double costheta,sintheta,phi,r; |
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| | | //This will hold all the information of vtx and its neighbours |
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| | | ts_vertex backupvtx[20], *constvol_vtx_moved=NULL, *constvol_vtx_backup=NULL; |
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| | |
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| | | // vtx->y=vtx->y+vesicle->stepsize*(2.0*rn[1]-1.0); |
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| | | // vtx->z=vtx->z+vesicle->stepsize*(2.0*rn[2]-1.0); |
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| | | |
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| | | //random move in a sphere with radius stepsize: |
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| | | //random move in a sphere with radius stepsize: |
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| | | r=vesicle->stepsize*rn[0]; |
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| | | phi=rn[1]*2*M_PI; |
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| | | costheta=2*rn[2]-1; |
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| | |
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| | | vtx->z=vtx->z+r*costheta; |
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| | | |
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| | | |
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| | | //distance with neighbours check |
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| | | //distance with neighbours check |
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| | | for(i=0;i<vtx->neigh_no;i++){ |
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| | | dist=vtx_distance_sq(vtx,vtx->neigh[i]); |
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| | | if(dist<1.0 || dist>vesicle->dmax) { |
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| | | vtx=memcpy((void *)vtx,(void *)&backupvtx[0],sizeof(ts_vertex)); |
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| | | return TS_FAIL; |
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| | | vtx=memcpy((void *)vtx,(void *)&backupvtx[0],sizeof(ts_vertex)); |
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| | | return TS_FAIL; |
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| | | } |
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| | | } |
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| | | |
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| | |
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| | | } |
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| | | |
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| | | |
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| | | //if all the tests are successful, then energy for vtx and neighbours is calculated |
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| | | //if all the tests are successful, then energy for vtx and neighbours is calculated |
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| | | for(i=0;i<vtx->neigh_no;i++){ |
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| | | memcpy((void *)&backupvtx[i+1],(void *)vtx->neigh[i],sizeof(ts_vertex)); |
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| | | } |
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| | | |
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| | | if(vesicle->pswitch == 1 || vesicle->tape->constvolswitch>0){ |
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| | | for(i=0;i<vtx->tristar_no;i++) dvol-=vtx->tristar[i]->volume; |
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| | | }; |
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| | | } |
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| | | |
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| | | if(vesicle->tape->constareaswitch==2){ |
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| | | for(i=0;i<vtx->tristar_no;i++) darea-=vtx->tristar[i]->area; |
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| | | |
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| | | } |
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| | | |
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| | | delta_energy=0; |
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| | | |
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| | |
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| | | if(vesicle->pswitch==1) delta_energy-=vesicle->pressure*dvol; |
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| | | }; |
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| | | |
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| | | if(vesicle->tape->constareaswitch==2){ |
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| | | /* check whether the darea is gt epsarea */ |
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| | | for(i=0;i<vtx->tristar_no;i++) darea+=vtx->tristar[i]->area; |
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| | | if(fabs(vesicle->area+darea-A0)>epsarea){ |
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| | | //restore old state. |
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| | | vtx=memcpy((void *)vtx,(void *)&backupvtx[0],sizeof(ts_vertex)); |
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| | | for(i=0;i<vtx->neigh_no;i++){ |
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| | | vtx->neigh[i]=memcpy((void *)vtx->neigh[i],(void *)&backupvtx[i+1],sizeof(ts_vertex)); |
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| | | } |
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| | | for(i=0;i<vtx->tristar_no;i++) triangle_normal_vector(vtx->tristar[i]); |
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| | | //fprintf(stderr,"fajlam!\n"); |
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| | | return TS_FAIL; |
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| | | } |
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| | | |
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| | | |
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| | | } |
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| | | |
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| | | if(vesicle->tape->constvolswitch==2){ |
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| | | /*check whether the dvol is gt than epsvol */ |
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| | |
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| | | if(vesicle->tape->constvolswitch == 1){ |
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| | | constvolumeaccept(vesicle,constvol_vtx_moved,constvol_vtx_backup); |
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| | | } |
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| | | |
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| | | if(vesicle->tape->constareaswitch==2){ |
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| | | vesicle->area+=darea; |
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| | | } |
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| | | // if(oldcellidx); |
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| | | //END MONTE CARLOOOOOOO |
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| | | // vesicle_volume(vesicle); |
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