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| | | //#include "io.h" |
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| | | #include<stdio.h> |
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| | | #include "vertexmove.h" |
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| | | #include <string.h> |
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| | | |
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| | | ts_bool single_verticle_timestep(ts_vesicle *vesicle,ts_vertex *vtx,ts_double |
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| | | *rn){ |
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| | | ts_uint i; |
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| | | ts_double dist; |
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| | | ts_vertex *tvtx=(ts_vertex *)calloc(1,sizeof(ts_vertex)); |
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| | | // tvtx->data=init_vertex_data(); |
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| | | ts_bool retval; |
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| | | ts_uint cellidx; |
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| | | ts_double xold,yold,zold; |
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| | | ts_double delta_energy,oenergy; |
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| | | ts_vertex *ovtx; |
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| | | //This will hold all the information of vtx and its neighbours |
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| | | ts_vertex backupvtx[20]; |
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| | | memcpy((void *)&backupvtx[0],(void *)vtx,sizeof(ts_vertex)); |
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| | | |
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| | | //randomly we move the temporary vertex |
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| | | tvtx->x=vtx->x+vesicle->stepsize*(2.0*rn[0]-1.0); |
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| | | tvtx->y=vtx->y+vesicle->stepsize*(2.0*rn[1]-1.0); |
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| | | tvtx->z=vtx->z+vesicle->stepsize*(2.0*rn[2]-1.0); |
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| | | //check we if some length to neighbours are too much |
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| | | //Some stupid tests for debugging cell occupation! |
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| | | /* cellidx=vertex_self_avoidance(vesicle, vtx); |
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| | | if(vesicle->clist->cell[cellidx]==vtx->cell){ |
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| | | fprintf(stderr,"Idx match!\n"); |
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| | | } else { |
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| | | fprintf(stderr,"***** Idx don't match!\n"); |
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| | | fatal("ENding.",1); |
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| | | } |
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| | | */ |
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| | | |
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| | | //temporarly moving the vertex |
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| | | vtx->x=vtx->x+vesicle->stepsize*(2.0*rn[0]-1.0); |
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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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| | | //distance with neighbours check |
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| | | for(i=0;i<vtx->neigh_no;i++){ |
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| | | dist=vtx_distance_sq(tvtx,vtx->neigh[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_free(tvtx); |
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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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| | | //fprintf(stderr,"Was here!\n"); |
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| | | //self avoidance check with distant vertices |
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| | | cellidx=vertex_self_avoidance(vesicle, tvtx); |
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| | | cellidx=vertex_self_avoidance(vesicle, vtx); |
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| | | //check occupation number |
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| | | retval=cell_occupation_number_and_internal_proximity(vesicle->clist,cellidx,vtx,tvtx); |
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| | | retval=cell_occupation_number_and_internal_proximity(vesicle->clist,cellidx,vtx); |
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| | | |
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| | | if(retval==TS_FAIL){ |
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| | | vtx_free(tvtx); |
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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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| | | //if all the tests are successful, then we update the vertex position |
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| | | xold=vtx->x; |
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| | | yold=vtx->y; |
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| | | zold=vtx->z; |
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| | | ovtx=malloc(sizeof(ts_vertex)); |
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| | | vtx_copy(ovtx,vtx); |
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| | | vtx->x=tvtx->x; |
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| | | vtx->y=tvtx->y; |
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| | | vtx->z=tvtx->z; |
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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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| | | 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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| | | |
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| | | |
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| | | delta_energy=0; |
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| | | //update the normals of triangles that share bead i. |
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| | | for(i=0;i<vtx->tristar_no;i++) triangle_normal_vector(vtx->tristar[i]); |
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| | | //energy and curvature |
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| | | oenergy=vtx->energy; |
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| | | energy_vertex(vtx); |
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| | | delta_energy=vtx->xk*(vtx->energy - ovtx->energy); |
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| | | delta_energy=vtx->xk*(vtx->energy - oenergy); |
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| | | //the same is done for neighbouring vertices |
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| | | for(i=0;i<vtx->neigh_no;i++){ |
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| | | oenergy=vtx->neigh[i]->energy; |
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| | | energy_vertex(vtx->neigh[i]); |
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| | | delta_energy+=vtx->neigh[i]->xk*(vtx->neigh[i]->energy-oenergy); |
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| | | } |
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| | | // fprintf(stderr, "DE=%f\n",delta_energy); |
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| | | // fprintf(stderr, "DE=%f\n",delta_energy); |
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| | | //MONTE CARLOOOOOOOO |
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| | | if(delta_energy>=0){ |
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| | | #ifdef TS_DOUBLE_DOUBLE |
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| | |
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| | | #endif |
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| | | { |
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| | | //not accepted, reverting changes |
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| | | vtx->x=xold; |
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| | | vtx->y=yold; |
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| | | vtx->z=zold; |
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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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| | | |
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| | | //update the normals of triangles that share bead i. |
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| | | for(i=0;i<vtx->tristar_no;i++) triangle_normal_vector(vtx->tristar[i]); |
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| | | //energy and curvature |
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| | | energy_vertex(vtx); |
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| | | //the same is done for neighbouring vertices |
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| | | for(i=0;i<vtx->neigh_no;i++) energy_vertex(vtx->neigh[i]); |
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| | | free(ovtx->bond_length); |
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| | | free(ovtx->bond_length_dual); |
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| | | free(ovtx); |
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| | | vtx_free(tvtx); |
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| | | for(i=0;i<vtx->tristar_no;i++) triangle_normal_vector(vtx->tristar[i]); |
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| | | |
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| | | return TS_FAIL; |
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| | | } |
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| | | } |
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| | | |
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| | | // oldcellidx=vertex_self_avoidance(vesicle, &backupvtx[0]); |
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| | | if(vtx->cell!=vesicle->clist->cell[cellidx]){ |
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| | | retval=cell_add_vertex(vesicle->clist->cell[cellidx],vtx); |
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| | | // if(retval==TS_SUCCESS) cell_remove_vertex(vesicle->clist->cell[oldcellidx],vtx); |
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| | | if(retval==TS_SUCCESS) cell_remove_vertex(backupvtx[0].cell,vtx); |
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| | | |
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| | | } |
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| | | // if(oldcellidx); |
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| | | //END MONTE CARLOOOOOOO |
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| | | |
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| | | //TODO: change cell occupation if necessary! |
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| | | |
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| | | free(ovtx->bond_length); |
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| | | free(ovtx->bond_length_dual); |
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| | | free(ovtx); |
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| | | vtx_free(tvtx); |
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| | | return TS_SUCCESS; |
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| | | } |
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