#include #include #include #include "general.h" #include "vertex.h" #include "bond.h" #include ts_vertex_list *init_vertex_list(ts_uint N){ ts_int i; ts_vertex *tlist; ts_vertex_list *vlist=(ts_vertex_list *)malloc(sizeof(ts_vertex_list)); if(N==0){ err("Initialized vertex list with zero elements. Pointer set to NULL"); vlist->n=0; vlist->vtx=NULL; return vlist; } vlist->vtx=(ts_vertex **)malloc(N*sizeof(ts_vertex *)); tlist=(ts_vertex *)malloc(N*sizeof(ts_vertex)); if(vlist->vtx==NULL || tlist==NULL) fatal("Fatal error reserving memory space for vertex list! Could number of requsted vertices be too large?", 100); for(i=0;ivtx[i]=&tlist[i]; vlist->vtx[i]->data=init_vertex_data(); vlist->vtx[i]->idx=i; } vlist->n=N; return vlist; } ts_vertex_data *init_vertex_data(){ ts_vertex_data *data; data=(ts_vertex_data *)calloc(1,sizeof(ts_vertex_data)); if(data==NULL) fatal("Fatal error reserving memory space for ts_vertex! Memory full?", 100); return data; } ts_bool vtx_add_neighbour(ts_vertex *vtx, ts_vertex *nvtx){ ts_uint i; /* no neighbour can be null! */ if(vtx==NULL || nvtx==NULL) return TS_FAIL; /*if it is already a neighbour don't add it to the list */ for(i=0; idata->neigh_no;i++){ if(vtx->data->neigh[i]==nvtx) return TS_FAIL; } ts_uint nn=++vtx->data->neigh_no; vtx->data->neigh=(ts_vertex **)realloc(vtx->data->neigh, nn*sizeof(ts_vertex *)); vtx->data->neigh[nn-1]=nvtx; /* This was a bug in creating DIPYRAMID (the neighbours were not in right * order). */ /* pa se sosedu dodamo vertex */ /*if it is already a neighbour don't add it to the list */ /* for(i=0; idata->neigh_no;i++){ if(nvtx->data->neigh[i]==vtx) return TS_FAIL; } nn=++nvtx->data->neigh_no; nvtx->data->neigh=(ts_vertex **)realloc(nvtx->data->neigh, nn*sizeof(ts_vertex *)); nvtx->data->neigh[nn-1]=vtx; */ return TS_SUCCESS; } /* TODO: optimize this. test this. */ ts_bool vtx_remove_neighbour(ts_vertex *vtx, ts_vertex *nvtx){ /* find a neighbour */ /* remove it from the list while shifting remaining neighbours up */ ts_uint i,j=0; for(i=0;idata->neigh_no;i++){ if(vtx->data->neigh[i]!=nvtx){ vtx->data->neigh[j]=vtx->data->neigh[i]; j++; } } /* resize memory. potentionally time consuming */ vtx->data->neigh_no--; vtx->data->neigh=(ts_vertex **)realloc(vtx->data->neigh,vtx->data->neigh_no*sizeof(ts_vertex *)); if(vtx->data->neigh == NULL && vtx->data->neigh_no!=0) fatal("Reallocation of memory failed during removal of vertex neighbour in vtx_remove_neighbour",100); /* repeat for the neighbour */ /* find a neighbour */ /* remove it from the list while shifting remaining neighbours up */ for(i=0;idata->neigh_no;i++){ if(nvtx->data->neigh[i]!=vtx){ nvtx->data->neigh[j]=nvtx->data->neigh[i]; j++; } } /* resize memory. potentionally time consuming. */ nvtx->data->neigh_no--; nvtx->data->neigh=(ts_vertex **)realloc(nvtx->data->neigh,nvtx->data->neigh_no*sizeof(ts_vertex *)); if(nvtx->data->neigh == NULL && nvtx->data->neigh_no!=0) fatal("Reallocation of memory failed during removal of vertex neighbour in vtx_remove_neighbour",100); return TS_SUCCESS; } ts_bool vtx_add_bond(ts_bond_list *blist,ts_vertex *vtx1,ts_vertex *vtx2){ ts_bond *bond; bond=bond_add(blist,vtx1,vtx2); if(bond==NULL) return TS_FAIL; vtx1->data->bond_no++; // vtx2->data->bond_no++; vtx1->data->bond=(ts_bond **)realloc(vtx1->data->bond, vtx1->data->bond_no*sizeof(ts_bond *)); // vtx2->data->bond=(ts_bond **)realloc(vtx2->data->bond, vtx2->data->bond_no*sizeof(ts_bond *)); vtx1->data->bond[vtx1->data->bond_no-1]=bond; // vtx2->data->bond[vtx2->data->bond_no-1]=bond; return TS_SUCCESS; } ts_bool vtx_add_cneighbour(ts_bond_list *blist, ts_vertex *vtx1, ts_vertex *vtx2){ ts_bool retval; retval=vtx_add_neighbour(vtx1,vtx2); if(retval==TS_SUCCESS) retval=vtx_add_bond(blist,vtx1,vtx2); return retval; } /*TODO: write and optimize this urgently before use! */ ts_bool vtx_remove_cneighbour(ts_bond_list *blist, ts_vertex *vtx1, ts_vertex *vtx2){ // ts_bool retval; /* remove the bond */ //retval=vtx_remove_bond(blist,vtx1,vtx2); /* remove the vertices */ return TS_SUCCESS; } ts_bool vtx_data_free(ts_vertex_data *data){ if(data->neigh!=NULL) free(data->neigh); if(data->tristar!=NULL) free(data->tristar); if(data->bond!=NULL) free(data->bond); //Cells are freed separately. // if(data->cell!=NULL) free(data->cell); free(data); return TS_SUCCESS; } /*not usable. can be deleted */ ts_bool vtx_free(ts_vertex *vtx){ vtx_data_free(vtx->data); free(vtx); return TS_SUCCESS; } ts_bool vtx_list_free(ts_vertex_list *vlist){ int i; for(i=0;in;i++){ if(vlist->vtx[i]->data!=NULL) vtx_data_free(vlist->vtx[i]->data); } free(*(vlist->vtx)); free(vlist->vtx); free(vlist); return TS_SUCCESS; } inline ts_double vtx_distance_sq(ts_vertex *vtx1, ts_vertex *vtx2){ ts_double dist; ts_vertex_data *vd1=vtx1->data, *vd2=vtx2->data; #ifdef TS_DOUBLE_DOUBLE dist=pow(vd1->x-vd2->x,2) + pow(vd1->y-vd2->y,2) + pow(vd1->z-vd2->z,2); #endif #ifdef TS_DOUBLE_LONGDOUBLE dist=powl(vd1->x-vd2->x,2) + powl(vd1->y-vd2->y,2) + powl(vd1->z-vd2->z,2); #endif #ifdef TS_DOUBLE_FLOAT dist=powf(vd1->x-vd2->x,2) + powf(vd1->y-vd2->y,2) + powf(vd1->z-vd2->z,2); #endif return(dist); } ts_bool vtx_set_global_values(ts_vesicle *vesicle){ ts_double xk=vesicle->bending_rigidity; ts_uint i; for(i=0;ivlist->n;i++){ vesicle->vlist->vtx[i]->data->xk=xk; } return TS_SUCCESS; } inline ts_double vtx_direct(ts_vertex *vtx1, ts_vertex *vtx2, ts_vertex *vtx3){ ts_double dX2=vtx2->data->x-vtx1->data->x; ts_double dY2=vtx2->data->y-vtx1->data->y; ts_double dZ2=vtx2->data->z-vtx1->data->z; ts_double dX3=vtx3->data->x-vtx1->data->x; ts_double dY3=vtx3->data->y-vtx1->data->y; ts_double dZ3=vtx3->data->z-vtx1->data->z; ts_double direct=vtx1->data->x*(dY2*dZ3 -dZ2*dY3)+ vtx1->data->y*(dZ2*dX3-dX2*dZ3)+ vtx1->data->z*(dX2*dY3-dY2*dX3); return(direct); } inline ts_bool vertex_add_tristar(ts_vertex *vtx, ts_triangle *tristarmem){ vtx->data->tristar_no++; vtx->data->tristar=(ts_triangle **)realloc(vtx->data->tristar,vtx->data->tristar_no*sizeof(ts_triangle *)); if(vtx->data->tristar==NULL){ fatal("Reallocation of memory while adding tristar failed.",3); } vtx->data->tristar[vtx->data->tristar_no-1]=tristarmem; return TS_SUCCESS; } /* ****************************************************************** */ /* ***** New vertex copy operations. Inherently they are slow. ***** */ /* ****************************************************************** */ ts_bool vtx_copy(ts_vertex *cvtx, ts_vertex *ovtx){ memcpy((void *)cvtx,(void *)ovtx,sizeof(ts_vertex)); cvtx->data=(ts_vertex_data *)malloc(sizeof(ts_vertex_data)); memcpy((void *)cvtx->data,(void *)ovtx->data,sizeof(ts_vertex_data)); cvtx->data->neigh=NULL; cvtx->data->neigh_no=0; cvtx->data->tristar_no=0; cvtx->data->bond_no=0; cvtx->data->tristar=NULL; cvtx->data->bond=NULL; cvtx->data->cell=NULL; return TS_SUCCESS; } ts_bool vtx_duplicate(ts_vertex *cvtx, ts_vertex *ovtx){ memcpy((void *)cvtx,(void *)ovtx,sizeof(ts_vertex)); cvtx->data=(ts_vertex_data *)malloc(sizeof(ts_vertex_data)); memcpy((void *)cvtx->data,(void *)ovtx->data,sizeof(ts_vertex_data)); return TS_SUCCESS; } //TODO: needs to be done ts_vertex **vtx_neigh_copy(ts_vertex_list *vlist,ts_vertex *ovtx){ return NULL; } ts_vertex_list *vertex_list_copy(ts_vertex_list *ovlist){ ts_uint i; ts_vertex_list *vlist=(ts_vertex_list *)malloc(sizeof(ts_vertex_list)); vlist=memcpy((void *)vlist, (void *)ovlist, sizeof(ts_vertex_list)); ts_vertex **vtx=(ts_vertex **)malloc(vlist->n*sizeof(ts_vertex *)); ts_vertex *tlist=(ts_vertex *)calloc(vlist->n,sizeof(ts_vertex)); vlist->vtx=vtx; if(vlist->vtx==NULL || tlist==NULL) fatal("Fatal error reserving memory space for vertex list! Could number of requsted vertices be too large?", 100); for(i=0;in;i++) { vlist->vtx[i]=&tlist[i]; vlist->vtx[i]->idx=i; vtx_copy(vlist->vtx[i],ovlist->vtx[i]); } return vlist; }