gcc/testsuite/gcc.target/aarch64/pr60697.c - gcc - Git at Google

 /* { dg-do compile } */
 /* { dg-options "-w -O3 -mcpu=cortex-a53" } */
 typedef struct __sFILE __FILE;
 typedef __FILE FILE;
 typedef int atom_id;
 typedef float real;
 typedef real rvec[3];
 typedef real matrix[3][3];
 enum {
   ebCGS,ebMOLS,ebSBLOCKS,ebNR
 };
 enum {
   efepNO, efepYES, efepNR
 };
 enum {
   esolNO, esolMNO, esolWATER, esolWATERWATER, esolNR
 };
 typedef struct {
   int nr;
   atom_id *index;
   atom_id *a;
 } t_block;
 enum {
   F_LJ,
   F_LJLR,
   F_SR,
   F_LR,
   F_DVDL,
 };
 typedef struct {
   t_block excl;
 } t_atoms;
 typedef struct {
   t_atoms atoms;
   t_block blocks[ebNR];
 } t_topology;
 typedef struct {
 } t_nsborder;
 extern FILE *debug;
 typedef struct {
 } t_nrnb;
 typedef struct {
   int nri,maxnri;
   int nrj,maxnrj;
   int maxlen;
   int solvent;
   int *gid;
   int *jindex;
   atom_id *jjnr;
   int *nsatoms;
 } t_nblist;
 typedef struct {
   int nrx,nry,nrz;
 } t_grid;
 typedef struct {
 } t_commrec;
 enum { eNL_VDWQQ, eNL_VDW, eNL_QQ,
        eNL_VDWQQ_FREE, eNL_VDW_FREE, eNL_QQ_FREE,
        eNL_VDWQQ_SOLMNO, eNL_VDW_SOLMNO, eNL_QQ_SOLMNO,
        eNL_VDWQQ_WATER, eNL_QQ_WATER,
        eNL_VDWQQ_WATERWATER, eNL_QQ_WATERWATER,
        eNL_NR };
 typedef struct {
   real rlist,rlistlong;
   real rcoulomb_switch,rcoulomb;
   real rvdw_switch,rvdw;
   int efep;
   int cg0,hcg;
   int *solvent_type;
   int *mno_index;
   rvec *cg_cm;
   t_nblist nlist_sr[eNL_NR];
   t_nblist nlist_lr[eNL_NR];
   int bTwinRange;
   rvec *f_twin;
   int *eg_excl;
 } t_forcerec;
 typedef struct {
   real *chargeA,*chargeB,*chargeT;
   int *bPerturbed;
   int *typeA,*typeB;
   unsigned short *cTC,*cENER,*cACC,*cFREEZE,*cXTC,*cVCM;
 } t_mdatoms;
 enum { egCOUL, egLJ, egBHAM, egLR, egLJLR, egCOUL14, egLJ14, egNR };
 typedef struct {
   real *ee[egNR];
 } t_grp_ener;
 typedef struct {
   t_grp_ener estat;
 } t_groups;
 typedef unsigned long t_excl;
 static void reset_nblist(t_nblist *nl)
 {
   nl->nri = 0;
   nl->nrj = 0;
   nl->maxlen = 0;
   if (nl->maxnri > 0) {
     nl->gid[0] = -1;
     if (nl->maxnrj > 1) {
       nl->jindex[0] = 0;
       nl->jindex[1] = 0;
     }
   }
 }
 static void reset_neighbor_list(t_forcerec *fr,int bLR,int eNL)
 {
     reset_nblist(&(fr->nlist_lr[eNL]));
 }
 static void close_i_nblist(t_nblist *nlist)
 {
   int nri = nlist->nri;
   int len;
   nlist->jindex[nri+1] = nlist->nrj;
   len=nlist->nrj - nlist->jindex[nri];
   if (nlist->solvent==esolMNO)
     len *= nlist->nsatoms[3*nri];
   if(len > nlist->maxlen)
     nlist->maxlen = len;
 }
 static void close_nblist(t_nblist *nlist)
 {
   if (nlist->maxnri > 0) {
     int nri = nlist->nri;
     if ((nlist->jindex[nri+1] > nlist->jindex[nri]) &&
  (nlist->gid[nri] != -1)) {
       nlist->nri++;
       nlist->jindex[nri+2] = nlist->nrj;
     }
   }
 }
 static void close_neighbor_list(t_forcerec *fr,int bLR,int eNL)
 {
     close_nblist(&(fr->nlist_lr[eNL]));
 }
 static void add_j_to_nblist(t_nblist *nlist,atom_id j_atom)
 {
   int nrj=nlist->nrj;
   nlist->jjnr[nrj] = j_atom;
   nlist->nrj ++;
 }
 static void put_in_list(int bHaveLJ[],
           int ngid,t_mdatoms *md,
           int icg,int jgid,int nj,atom_id jjcg[],
           atom_id index[],
           t_excl bExcl[],int shift,
           t_forcerec *fr,int bLR,
           int bVDWOnly,int bCoulOnly)
 {
   t_nblist *vdwc,*vdw,*coul;
   t_nblist *vdwc_ww=((void *)0),*coul_ww=((void *)0);
   t_nblist *vdwc_free=((void *)0),*vdw_free=((void *)0),*coul_free=((void *)0);
   int i,j,jcg,igid,gid,ind_ij;
   atom_id jj,jj0,jj1,i_atom;
   int i0,nicg,len;
   int *type,*typeB;
   unsigned short *cENER;
   real *charge,*chargeB;
   real qi,qiB,qq,rlj;
   int bWater,bMNO,bFree,bFreeJ,bNotEx,*bPert;
   charge = md->chargeA;
   chargeB = md->chargeB;
   type = md->typeA;
   typeB = md->typeB;
   cENER = md->cENER;
   bPert = md->bPerturbed;
   i0 = index[icg];
   nicg = index[icg+1]-i0;
   bMNO = (fr->solvent_type[icg] == esolMNO);
   if (bLR) {
     if (bWater) {
       vdw = &fr->nlist_lr[eNL_VDW];
       coul = &fr->nlist_lr[eNL_QQ_WATER];
       vdwc_ww = &fr->nlist_lr[eNL_VDWQQ_WATERWATER];
     } else if(bMNO) {
       vdwc = &fr->nlist_lr[eNL_VDWQQ_SOLMNO];
     }
     if (fr->efep != efepNO) {
       vdw_free = &fr->nlist_lr[eNL_VDW_FREE];
       coul_free = &fr->nlist_lr[eNL_QQ_FREE];
     }
   }
   else {
     if (bWater) {
     } else if(bMNO) {
       vdwc = &fr->nlist_sr[eNL_VDWQQ_SOLMNO];
     }
     if (fr->efep != efepNO) {
       vdwc_free = &fr->nlist_sr[eNL_VDWQQ_FREE];
     }
   }
   if (fr->efep==efepNO) {
     if (bWater) {
       igid = cENER[i_atom];
       gid = ((igid < jgid) ? (igid*ngid+jgid) : (jgid*ngid+igid));
       if (!bCoulOnly && !bVDWOnly) {
  new_i_nblist(vdwc,bLR ? F_LJLR : F_LJ,i_atom,shift,gid,((void *)0));
  new_i_nblist(vdwc_ww,bLR ? F_LJLR : F_LJ,i_atom,shift,gid,((void *)0));
       }
       if (!bCoulOnly)
  new_i_nblist(vdw,bLR ? F_LJLR : F_LJ,i_atom,shift,gid,((void *)0));
       if (!bVDWOnly) {
  new_i_nblist(coul,bLR ? F_LR : F_SR,i_atom,shift,gid,((void *)0));
  new_i_nblist(coul_ww,bLR ? F_LR : F_SR,i_atom,shift,gid,((void *)0));
       }
       for(j=0; (j<nj); j++) {
  jcg=jjcg[j];
  if (jcg==icg)
  jj0 = index[jcg];
  if (bWater && (fr->solvent_type[jcg] == esolWATER)) {
    if (bVDWOnly)
      add_j_to_nblist(vdw,jj0);
    else {
        add_j_to_nblist(coul_ww,jj0);
        add_j_to_nblist(vdwc_ww,jj0);
    }
  } else {
    jj1 = index[jcg+1];
    if (bCoulOnly) {
      for(jj=jj0; (jj<jj1); jj++) {
        if (fabs(charge[jj]) > 1.2e-38)
   add_j_to_nblist(coul,jj);
      }
    } else if (bVDWOnly) {
      for(jj=jj0; (jj<jj1); jj++)
        if (bHaveLJ[type[jj]])
   add_j_to_nblist(vdw,jj);
    } else {
      for(jj=jj0; (jj<jj1); jj++) {
        if (bHaveLJ[type[jj]]) {
   if (fabs(charge[jj]) > 1.2e-38)
     add_j_to_nblist(vdwc,jj);
     add_j_to_nblist(vdw,jj);
        } else if (fabs(charge[jj]) > 1.2e-38)
   add_j_to_nblist(coul,jj);
      }
    }
  }
       }
       close_i_nblist(vdw);
       close_i_nblist(coul);
       close_i_nblist(vdwc);
       close_i_nblist(coul_ww);
       close_i_nblist(vdwc_ww);
     } else if (bMNO) {
       igid = cENER[i_atom];
       gid = ((igid < jgid) ? (igid*ngid+jgid) : (jgid*ngid+igid));
       if (!bCoulOnly && !bVDWOnly)
  new_i_nblist(vdwc,bLR ? F_LJLR : F_LJ,i_atom,shift,gid,
        &(fr->mno_index[icg*3]));
       if (!bCoulOnly)
  new_i_nblist(vdw,bLR ? F_LR : F_SR,i_atom,shift,gid,
        &(fr->mno_index[icg*3]));
       if (!bVDWOnly)
  new_i_nblist(coul,bLR ? F_LR : F_SR,i_atom,shift,gid,
        &(fr->mno_index[icg*3]));
       for(j=0; (j<nj); j++) {
  jcg=jjcg[j];
  if (jcg == icg)
  jj0 = index[jcg];
  jj1=index[jcg+1];
  for(jj=jj0; (jj<jj1); jj++) {
    if (bCoulOnly) {
      if (fabs(charge[jj]) > 1.2e-38)
        add_j_to_nblist(coul,jj);
    } else if (bVDWOnly) {
      if (bHaveLJ[type[jj]])
        add_j_to_nblist(vdw,jj);
    } else {
      if (bHaveLJ[type[jj]]) {
        if (fabs(charge[jj]) > 1.2e-38)
   add_j_to_nblist(vdwc,jj);
   add_j_to_nblist(vdw,jj);
      } else if (fabs(charge[jj]) > 1.2e-38)
        add_j_to_nblist(coul,jj);
    }
  }
  close_i_nblist(vdw);
  close_i_nblist(coul);
  close_i_nblist(vdwc);
       }
     } else {
       for(i=0; i<nicg; i++) {
  igid = cENER[i_atom];
  gid = ((igid < jgid) ? (igid*ngid+jgid) : (jgid*ngid+igid));
  qi = charge[i_atom];
  if (!bCoulOnly && !bVDWOnly)
    new_i_nblist(vdwc,bLR ? F_LJLR : F_LJ,i_atom,shift,gid,((void *)0));
  if (!bCoulOnly)
    new_i_nblist(vdw,bLR ? F_LR : F_SR,i_atom,shift,gid,((void *)0));
  if (!bVDWOnly)
    new_i_nblist(coul,bLR ? F_LR : F_SR,i_atom,shift,gid,((void *)0));
  if (!(bVDWOnly || fabs(qi)<1.2e-38) || !(bCoulOnly || !bHaveLJ[type[i_atom]])) {
    for(j=0; (j<nj); j++) {
      jcg=jjcg[j];
      if (jcg == icg)
        jj0 = i0 + i + 1;
      else
        jj0 = index[jcg];
      jj1=index[jcg+1];
      for(jj=jj0; jj<jj1; jj++) {
        bNotEx = !((int) ((bExcl)[((atom_id) (jj))] & (1<<((atom_id) (i)))));
        if (bNotEx) {
   if (bCoulOnly) {
                   if (fabs(charge[jj]) > 1.2e-38)
                     add_j_to_nblist(coul,jj);
   } else if (bVDWOnly) {
     if (bHaveLJ[type[jj]])
       add_j_to_nblist(vdw,jj);
   } else {
     if (bHaveLJ[type[jj]]) {
       if (fabs(qi) > 1.2e-38 && (fabs(charge[jj]) > 1.2e-38))
         add_j_to_nblist(vdwc,jj);
         add_j_to_nblist(vdw,jj);
     } else if (fabs(qi) > 1.2e-38 && (fabs(charge[jj]) > 1.2e-38))
       add_j_to_nblist(coul,jj);
   }
        }
      }
    }
  }
  close_i_nblist(vdw);
  close_i_nblist(coul);
  close_i_nblist(vdwc);
       }
     }
   } else {
     for(i=0; i<nicg; i++) {
       igid = cENER[i_atom];
       gid = ((igid < jgid) ? (igid*ngid+jgid) : (jgid*ngid+igid));
       qi = charge[i_atom];
       qiB = chargeB[i_atom];
       if (!bCoulOnly && !bVDWOnly)
  new_i_nblist(vdwc,bLR ? F_LJLR : F_LJ,i_atom,shift,gid,
        bMNO ? &(fr->mno_index[icg*3]) : ((void *)0));
       if (!bCoulOnly)
  new_i_nblist(vdw,bLR ? F_LR : F_SR,i_atom,shift,gid,
        bMNO ? &(fr->mno_index[icg*3]) : ((void *)0));
  new_i_nblist(coul,bLR ? F_LR : F_SR,i_atom,shift,gid,
        bMNO ? &(fr->mno_index[icg*3]) : ((void *)0));
       new_i_nblist(vdw_free,F_DVDL,i_atom,shift,gid,((void *)0));
       new_i_nblist(coul_free,F_DVDL,i_atom,shift,gid,((void *)0));
       new_i_nblist(vdwc_free,F_DVDL,i_atom,shift,gid,((void *)0));
       if (!(bVDWOnly || (fabs(qi)<1.2e-38 && fabs(qiB)<1.2e-38)) ||
    !(bCoulOnly || (!bHaveLJ[type[i_atom]] && !bHaveLJ[typeB[i_atom]]))) {
  for(j=0; (j<nj); j++) {
    jcg=jjcg[j];
    if (jcg == icg)
      jj0 = i0 + i + 1;
    else
      jj0 = index[jcg];
    jj1=index[jcg+1];
    bFree = bPert[i_atom];
    for(jj=jj0; (jj<jj1); jj++) {
      bFreeJ = bFree || bPert[jj];
      if ((!bWater && !bMNO) || i==0 || bFreeJ) {
        bNotEx = !((int) ((bExcl)[((atom_id) (jj))] & (1<<((atom_id) (i)))));
        if (bNotEx) {
                 if (bFreeJ) {
     if (bCoulOnly)
       add_j_to_nblist(coul_free,jj);
     else if (bVDWOnly)
       add_j_to_nblist(vdw_free,jj);
       add_j_to_nblist(vdwc_free,jj);
   } else if (bCoulOnly) {
                     add_j_to_nblist(coul,jj);
                 } else if (bVDWOnly) {
                   if (bHaveLJ[type[jj]])
                     add_j_to_nblist(vdw,jj);
                 } else {
                   if (bHaveLJ[type[jj]]) {
                     if (fabs(qi) > 1.2e-38 && (fabs(charge[jj]) > 1.2e-38))
                       add_j_to_nblist(vdwc,jj);
                       add_j_to_nblist(vdw,jj);
                   } else if (fabs(qi) > 1.2e-38 && (fabs(charge[jj]) > 1.2e-38))
                     add_j_to_nblist(coul,jj);
                 }
        }
      }
    }
  }
       }
       close_i_nblist(vdw);
       close_i_nblist(coul);
       close_i_nblist(vdwc);
       if (bWater && (i==0)) {
  close_i_nblist(coul_ww);
  close_i_nblist(vdwc_ww);
       }
       close_i_nblist(vdw_free);
       close_i_nblist(coul_free);
       close_i_nblist(vdwc_free);
     }
   }
 }
 static void setexcl(atom_id start,atom_id end,t_block *excl,int b,
       t_excl bexcl[])
 {
   atom_id i,k;
   if (b) {
     for(i=start; i<end; i++) {
       for(k=excl->index[i]; k<excl->index[i+1]; k++) {
  (bexcl)[((atom_id) (excl->a[k]))] |= (1<<((atom_id) (i-start)));
       }
     }
   }
 }
 int calc_naaj(int icg,int cgtot)
 {
   int naaj;
   if ((cgtot % 2) == 1) {
     naaj = 1+(cgtot/2);
   }
   else if ((cgtot % 4) == 0) {
     if (icg < cgtot/2) {
       if ((icg % 2) == 0)
  naaj=1+(cgtot/2);
     }
     else {
       if ((icg % 2) == 1)
  naaj=1+(cgtot/2);
     }
   }
   else {
     if ((icg % 2) == 0)
       naaj=1+(cgtot/2);
     else
       naaj=cgtot/2;
   }
   return naaj;
 }
 static void get_dx(int Nx,real gridx,real grid_x,real rc2,real x,
          int *dx0,int *dx1,real *dcx2)
 {
   real dcx,tmp;
   int xgi,xgi0,xgi1,i;
   xgi = (int)(Nx+x*grid_x)-Nx;
   if (xgi < 0) {
     *dx0 = 0;
     *dx1 = -1;
   } else if (xgi >= Nx) {
     *dx0 = Nx;
     *dx1 = Nx-1;
   } else {
     dcx2[xgi] = 0;
     *dx0 = xgi;
     xgi0 = xgi-1;
     *dx1 = xgi;
     xgi1 = xgi+1;
   }
   for(i=xgi0; i>=0; i--) {
      dcx = (i+1)*gridx-x;
      tmp = dcx*dcx;
      if (tmp >= rc2)
      *dx0 = i;
      dcx2[i] = tmp;
   }
   for(i=xgi1; i<Nx; i++) {
      dcx = i*gridx-x;
      tmp = dcx*dcx;
      if (tmp >= rc2)
      *dx1 = i;
      dcx2[i] = tmp;
   }
 }
 static void do_longrange(FILE *log,t_commrec *cr,t_topology *top,t_forcerec *fr,
     int ngid,t_mdatoms *md,int icg,
     int jgid,int nlr,
     atom_id lr[],t_excl bexcl[],int shift,
     rvec x[],rvec box_size,t_nrnb *nrnb,
     real lambda,real *dvdlambda,
     t_groups *grps,int bVDWOnly,int bCoulOnly,
     int bDoForces,int bHaveLJ[])
 {
   int i;
   for(i=0; (i<eNL_NR); i++) {
     if ((fr->nlist_lr[i].nri > fr->nlist_lr[i].maxnri-32) || bDoForces) {
       close_neighbor_list(fr,1,i);
       do_fnbf(log,cr,fr,x,fr->f_twin,md,
        grps->estat.ee[egLJLR],grps->estat.ee[egLR],box_size,
        nrnb,lambda,dvdlambda,1,i);
       reset_neighbor_list(fr,1,i);
     }
   }
   if (!bDoForces) {
     put_in_list(bHaveLJ,ngid,md,icg,jgid,nlr,lr,top->blocks[ebCGS].index,
                               bexcl,shift,fr,
   1,bVDWOnly,bCoulOnly);
   }
 }
 static int ns5_core(FILE *log,t_commrec *cr,t_forcerec *fr,int cg_index[],
       matrix box,rvec box_size,int ngid,
       t_topology *top,t_groups *grps,
       t_grid *grid,rvec x[],t_excl bexcl[],int *bExcludeAlleg,
       t_nrnb *nrnb,t_mdatoms *md,
       real lambda,real *dvdlambda,
       int bHaveLJ[])
 {
   static atom_id **nl_lr_ljc,**nl_lr_one,**nl_sr=((void *)0);
   static int *nlr_ljc,*nlr_one,*nsr;
   static real *dcx2=((void *)0),*dcy2=((void *)0),*dcz2=((void *)0);
   t_block *cgs=&(top->blocks[ebCGS]);
   unsigned short *gid=md->cENER;
   int tx,ty,tz,dx,dy,dz,cj;
   int dx0,dx1,dy0,dy1,dz0,dz1;
   int Nx,Ny,Nz,shift=-1,j,nrj,nns,nn=-1;
   real gridx,gridy,gridz,grid_x,grid_y,grid_z;
   int icg=-1,iicg,cgsnr,i0,nri,naaj,min_icg,icg_naaj,jjcg,cgj0,jgid;
   int bVDWOnly,bCoulOnly;
   rvec xi,*cgcm;
   real r2,rs2,rvdw2,rcoul2,rm2,rl2,XI,YI,ZI,dcx,dcy,dcz,tmp1,tmp2;
   int *i_eg_excl;
   int use_twinrange,use_two_cutoffs;
   cgsnr = cgs->nr;
   rs2 = ((fr->rlist)*(fr->rlist));
   if (fr->bTwinRange) {
     rvdw2 = ((fr->rvdw)*(fr->rvdw));
     rcoul2 = ((fr->rcoulomb)*(fr->rcoulomb));
   } else {
   }
   rm2 = (((rvdw2) < (rcoul2)) ? (rvdw2) : (rcoul2) );
   rl2 = (((rvdw2) > (rcoul2)) ? (rvdw2) : (rcoul2) );
   use_twinrange = (rs2 < rm2);
   use_two_cutoffs = (rm2 < rl2);
   bVDWOnly = (rvdw2 > rcoul2);
   bCoulOnly = !bVDWOnly;
   if (nl_sr == ((void *)0)) {
     (nl_sr)=save_calloc("nl_sr","ns.c",1341, (ngid),sizeof(*(nl_sr)));
     (nsr)=save_calloc("nsr","ns.c",1343, (ngid),sizeof(*(nsr)));
     (nlr_ljc)=save_calloc("nlr_ljc","ns.c",1344, (ngid),sizeof(*(nlr_ljc)));
     (nlr_one)=save_calloc("nlr_one","ns.c",1345, (ngid),sizeof(*(nlr_one)));
     if (use_twinrange)
       (nl_lr_ljc)=save_calloc("nl_lr_ljc","ns.c",1349, (ngid),sizeof(*(nl_lr_ljc)));
     if (use_two_cutoffs)
       (nl_lr_one)=save_calloc("nl_lr_one","ns.c",1353, (ngid),sizeof(*(nl_lr_one)));
     for(j=0; (j<ngid); j++) {
       (nl_sr[j])=save_calloc("nl_sr[j]","ns.c",1356, (1024),sizeof(*(nl_sr[j])));
       if (use_twinrange)
  (nl_lr_ljc[j])=save_calloc("nl_lr_ljc[j]","ns.c",1358, (1024),sizeof(*(nl_lr_ljc[j])));
       if (use_two_cutoffs)
  (nl_lr_one[j])=save_calloc("nl_lr_one[j]","ns.c",1360, (1024),sizeof(*(nl_lr_one[j])));
     }
     if (debug)
       fprintf(debug,"ns5_core: rs2 = %g, rvdw2 = %g, rcoul2 = %g (nm^2)\n",
        rs2,rvdw2,rcoul2);
   }
   cgcm = fr->cg_cm;
   Nx = grid->nrx;
   Ny = grid->nry;
   if (dcx2 == ((void *)0)) {
     (dcx2)=save_calloc("dcx2","ns.c",1379, (Nx*2),sizeof(*(dcx2)));
     (dcy2)=save_calloc("dcy2","ns.c",1380, (Ny*2),sizeof(*(dcy2)));
     (dcz2)=save_calloc("dcz2","ns.c",1381, (Nz*2),sizeof(*(dcz2)));
   }
   gridx = box[0][0]/grid->nrx;
   gridy = box[1][1]/grid->nry;
   gridz = box[2][2]/grid->nrz;
   grid_x = 1/gridx;
   grid_y = 1/gridy;
   grid_z = 1/gridz;
   for(iicg=fr->cg0; (iicg < fr->hcg); iicg++) {
     icg = cg_index[iicg];
     if (icg != iicg)
       fatal_error(0,"icg = %d, iicg = %d, file %s, line %d",icg,iicg,"ns.c",
     1408);
     if(bExcludeAlleg[icg])
     i_eg_excl = fr->eg_excl + ngid*gid[cgs->index[icg]];
     setexcl(cgs->index[icg],cgs->index[icg+1],&top->atoms.excl,1,bexcl);
     naaj = calc_naaj(icg,cgsnr);
     icg_naaj = icg+naaj;
     for (tz=-1; tz<=1; tz++) {
       ZI = cgcm[icg][2]+tz*box[2][2];
       get_dx(Nz,gridz,grid_z,rcoul2,ZI,&dz0,&dz1,dcz2);
       if (dz0 > dz1)
       for (ty=-1; ty<=1; ty++) {
  YI = cgcm[icg][1]+ty*box[1][1]+tz*box[2][1];
  get_dx(Ny,gridy,grid_y,rcoul2,YI,&dy0,&dy1,dcy2);
         for (tx=-1; tx<=1; tx++) {
    get_dx(Nx,gridx,grid_x,rcoul2,XI,&dx0,&dx1,dcx2);
    shift=((2*1 +1)*((2*1 +1)*((tz)+1)+(ty)+1)+(tx)+1);
    for (dx=dx0; (dx<=dx1); dx++) {
      for (dy=dy0; (dy<=dy1); dy++) {
   for (dz=dz0; (dz<=dz1); dz++) {
     if (tmp2 > dcz2[dz]) {
       for (j=0; (j<nrj); j++) {
         if (((jjcg >= icg) && (jjcg < icg_naaj)) ||
      ((jjcg < min_icg))) {
    if (r2 < rl2) {
      if (!i_eg_excl[jgid]) {
        if (r2 < rs2) {
          if (nsr[jgid] >= 1024) {
     put_in_list(bHaveLJ,ngid,md,icg,jgid,
          nsr[jgid],nl_sr[jgid],
          cgs->index, bexcl,
          shift,fr,0,0,0);
          }
        } else if (r2 < rm2) {
        } else if (use_two_cutoffs) {
          if (nlr_one[jgid] >= 1024) {
     do_longrange(log,cr,top,fr,ngid,md,icg,jgid,
           nlr_one[jgid],
           nl_lr_one[jgid],bexcl,shift,x,
           box_size,nrnb,
           lambda,dvdlambda,grps,
           bVDWOnly,bCoulOnly,0,
           bHaveLJ);
          }
        }
      }
    }
         }
       }
     }
   }
      }
    }
  }
       }
     }
   }
 }
 int search_neighbors(FILE *log,t_forcerec *fr,
         rvec x[],matrix box,
         t_topology *top,t_groups *grps,
         t_commrec *cr,t_nsborder *nsb,
         t_nrnb *nrnb,t_mdatoms *md,
         real lambda,real *dvdlambda)
 {
   static t_grid *grid=((void *)0);
   static t_excl *bexcl;
   static int *bHaveLJ;
   static int *cg_index=((void *)0),*slab_index=((void *)0);
   static int *bExcludeAlleg;
   rvec box_size;
   int i,j,m,ngid;
   int nsearch;
     nsearch = ns5_core(log,cr,fr,cg_index,box,box_size,ngid,top,grps,
          grid,x,bexcl,bExcludeAlleg,nrnb,md,lambda,dvdlambda,bHaveLJ);
 }
	/* { dg-do compile } */
	/* { dg-options "-w -O3 -mcpu=cortex-a53" } */
	typedef struct __sFILE __FILE;
	typedef __FILE FILE;
	typedef int atom_id;
	typedef float real;
	typedef real rvec[3];
	typedef real matrix[3][3];
	enum {
	ebCGS,ebMOLS,ebSBLOCKS,ebNR
	};
	enum {
	efepNO, efepYES, efepNR
	};
	enum {
	esolNO, esolMNO, esolWATER, esolWATERWATER, esolNR
	};
	typedef struct {
	int nr;
	atom_id *index;
	atom_id *a;
	} t_block;
	enum {
	F_LJ,
	F_LJLR,
	F_SR,
	F_LR,
	F_DVDL,
	};
	typedef struct {
	t_block excl;
	} t_atoms;
	typedef struct {
	t_atoms atoms;
	t_block blocks[ebNR];
	} t_topology;
	typedef struct {
	} t_nsborder;
	extern FILE *debug;
	typedef struct {
	} t_nrnb;
	typedef struct {
	int nri,maxnri;
	int nrj,maxnrj;
	int maxlen;
	int solvent;
	int *gid;
	int *jindex;
	atom_id *jjnr;
	int *nsatoms;
	} t_nblist;
	typedef struct {
	int nrx,nry,nrz;
	} t_grid;
	typedef struct {
	} t_commrec;
	enum { eNL_VDWQQ, eNL_VDW, eNL_QQ,
	eNL_VDWQQ_FREE, eNL_VDW_FREE, eNL_QQ_FREE,
	eNL_VDWQQ_SOLMNO, eNL_VDW_SOLMNO, eNL_QQ_SOLMNO,
	eNL_VDWQQ_WATER, eNL_QQ_WATER,
	eNL_VDWQQ_WATERWATER, eNL_QQ_WATERWATER,
	eNL_NR };
	typedef struct {
	real rlist,rlistlong;
	real rcoulomb_switch,rcoulomb;
	real rvdw_switch,rvdw;
	int efep;
	int cg0,hcg;
	int *solvent_type;
	int *mno_index;
	rvec *cg_cm;
	t_nblist nlist_sr[eNL_NR];
	t_nblist nlist_lr[eNL_NR];
	int bTwinRange;
	rvec *f_twin;
	int *eg_excl;
	} t_forcerec;
	typedef struct {
	real chargeA,chargeB,*chargeT;
	int *bPerturbed;
	int typeA,typeB;
	unsigned short cTC,cENER,cACC,cFREEZE,cXTC,cVCM;
	} t_mdatoms;
	enum { egCOUL, egLJ, egBHAM, egLR, egLJLR, egCOUL14, egLJ14, egNR };
	typedef struct {
	real *ee[egNR];
	} t_grp_ener;
	typedef struct {
	t_grp_ener estat;
	} t_groups;
	typedef unsigned long t_excl;
	static void reset_nblist(t_nblist *nl)
	{
	nl->nri = 0;
	nl->nrj = 0;
	nl->maxlen = 0;
	if (nl->maxnri > 0) {
	nl->gid[0] = -1;
	if (nl->maxnrj > 1) {
	nl->jindex[0] = 0;
	nl->jindex[1] = 0;
	}
	}
	}
	static void reset_neighbor_list(t_forcerec *fr,int bLR,int eNL)
	{
	reset_nblist(&(fr->nlist_lr[eNL]));
	}
	static void close_i_nblist(t_nblist *nlist)
	{
	int nri = nlist->nri;
	int len;
	nlist->jindex[nri+1] = nlist->nrj;
	len=nlist->nrj - nlist->jindex[nri];
	if (nlist->solvent==esolMNO)
	len = nlist->nsatoms[3nri];
	if(len > nlist->maxlen)
	nlist->maxlen = len;
	}
	static void close_nblist(t_nblist *nlist)
	{
	if (nlist->maxnri > 0) {
	int nri = nlist->nri;
	if ((nlist->jindex[nri+1] > nlist->jindex[nri]) &&
	(nlist->gid[nri] != -1)) {
	nlist->nri++;
	nlist->jindex[nri+2] = nlist->nrj;
	}
	}
	}
	static void close_neighbor_list(t_forcerec *fr,int bLR,int eNL)
	{
	close_nblist(&(fr->nlist_lr[eNL]));
	}
	static void add_j_to_nblist(t_nblist *nlist,atom_id j_atom)
	{
	int nrj=nlist->nrj;
	nlist->jjnr[nrj] = j_atom;
	nlist->nrj ++;
	}
	static void put_in_list(int bHaveLJ[],
	int ngid,t_mdatoms *md,
	int icg,int jgid,int nj,atom_id jjcg[],
	atom_id index[],
	t_excl bExcl[],int shift,
	t_forcerec *fr,int bLR,
	int bVDWOnly,int bCoulOnly)
	{
	t_nblist vdwc,vdw,*coul;
	t_nblist vdwc_ww=((void )0),coul_ww=((void )0);
	t_nblist vdwc_free=((void )0),vdw_free=((void )0),coul_free=((void )0);
	int i,j,jcg,igid,gid,ind_ij;
	atom_id jj,jj0,jj1,i_atom;
	int i0,nicg,len;
	int type,typeB;
	unsigned short *cENER;
	real charge,chargeB;
	real qi,qiB,qq,rlj;
	int bWater,bMNO,bFree,bFreeJ,bNotEx,*bPert;
	charge = md->chargeA;
	chargeB = md->chargeB;
	type = md->typeA;
	typeB = md->typeB;
	cENER = md->cENER;
	bPert = md->bPerturbed;
	i0 = index[icg];
	nicg = index[icg+1]-i0;
	bMNO = (fr->solvent_type[icg] == esolMNO);
	if (bLR) {
	if (bWater) {
	vdw = &fr->nlist_lr[eNL_VDW];
	coul = &fr->nlist_lr[eNL_QQ_WATER];
	vdwc_ww = &fr->nlist_lr[eNL_VDWQQ_WATERWATER];
	} else if(bMNO) {
	vdwc = &fr->nlist_lr[eNL_VDWQQ_SOLMNO];
	}
	if (fr->efep != efepNO) {
	vdw_free = &fr->nlist_lr[eNL_VDW_FREE];
	coul_free = &fr->nlist_lr[eNL_QQ_FREE];
	}
	}
	else {
	if (bWater) {
	} else if(bMNO) {
	vdwc = &fr->nlist_sr[eNL_VDWQQ_SOLMNO];
	}
	if (fr->efep != efepNO) {
	vdwc_free = &fr->nlist_sr[eNL_VDWQQ_FREE];
	}
	}
	if (fr->efep==efepNO) {
	if (bWater) {
	igid = cENER[i_atom];
	gid = ((igid < jgid) ? (igidngid+jgid) : (jgidngid+igid));
	if (!bCoulOnly && !bVDWOnly) {
	new_i_nblist(vdwc,bLR ? F_LJLR : F_LJ,i_atom,shift,gid,((void *)0));
	new_i_nblist(vdwc_ww,bLR ? F_LJLR : F_LJ,i_atom,shift,gid,((void *)0));
	}
	if (!bCoulOnly)
	new_i_nblist(vdw,bLR ? F_LJLR : F_LJ,i_atom,shift,gid,((void *)0));
	if (!bVDWOnly) {
	new_i_nblist(coul,bLR ? F_LR : F_SR,i_atom,shift,gid,((void *)0));
	new_i_nblist(coul_ww,bLR ? F_LR : F_SR,i_atom,shift,gid,((void *)0));
	}
	for(j=0; (j<nj); j++) {
	jcg=jjcg[j];
	if (jcg==icg)
	jj0 = index[jcg];
	if (bWater && (fr->solvent_type[jcg] == esolWATER)) {
	if (bVDWOnly)
	add_j_to_nblist(vdw,jj0);
	else {
	add_j_to_nblist(coul_ww,jj0);
	add_j_to_nblist(vdwc_ww,jj0);
	}
	} else {
	jj1 = index[jcg+1];
	if (bCoulOnly) {
	for(jj=jj0; (jj<jj1); jj++) {
	if (fabs(charge[jj]) > 1.2e-38)
	add_j_to_nblist(coul,jj);
	}
	} else if (bVDWOnly) {
	for(jj=jj0; (jj<jj1); jj++)
	if (bHaveLJ[type[jj]])
	add_j_to_nblist(vdw,jj);
	} else {
	for(jj=jj0; (jj<jj1); jj++) {
	if (bHaveLJ[type[jj]]) {
	if (fabs(charge[jj]) > 1.2e-38)
	add_j_to_nblist(vdwc,jj);
	add_j_to_nblist(vdw,jj);
	} else if (fabs(charge[jj]) > 1.2e-38)
	add_j_to_nblist(coul,jj);
	}
	}
	}
	}
	close_i_nblist(vdw);
	close_i_nblist(coul);
	close_i_nblist(vdwc);
	close_i_nblist(coul_ww);
	close_i_nblist(vdwc_ww);
	} else if (bMNO) {
	igid = cENER[i_atom];
	gid = ((igid < jgid) ? (igidngid+jgid) : (jgidngid+igid));
	if (!bCoulOnly && !bVDWOnly)
	new_i_nblist(vdwc,bLR ? F_LJLR : F_LJ,i_atom,shift,gid,
	&(fr->mno_index[icg*3]));
	if (!bCoulOnly)
	new_i_nblist(vdw,bLR ? F_LR : F_SR,i_atom,shift,gid,
	&(fr->mno_index[icg*3]));
	if (!bVDWOnly)
	new_i_nblist(coul,bLR ? F_LR : F_SR,i_atom,shift,gid,
	&(fr->mno_index[icg*3]));
	for(j=0; (j<nj); j++) {
	jcg=jjcg[j];
	if (jcg == icg)
	jj0 = index[jcg];
	jj1=index[jcg+1];
	for(jj=jj0; (jj<jj1); jj++) {
	if (bCoulOnly) {
	if (fabs(charge[jj]) > 1.2e-38)
	add_j_to_nblist(coul,jj);
	} else if (bVDWOnly) {
	if (bHaveLJ[type[jj]])
	add_j_to_nblist(vdw,jj);
	} else {
	if (bHaveLJ[type[jj]]) {
	if (fabs(charge[jj]) > 1.2e-38)
	add_j_to_nblist(vdwc,jj);
	add_j_to_nblist(vdw,jj);
	} else if (fabs(charge[jj]) > 1.2e-38)
	add_j_to_nblist(coul,jj);
	}
	}
	close_i_nblist(vdw);
	close_i_nblist(coul);
	close_i_nblist(vdwc);
	}
	} else {
	for(i=0; i<nicg; i++) {
	igid = cENER[i_atom];
	gid = ((igid < jgid) ? (igidngid+jgid) : (jgidngid+igid));
	qi = charge[i_atom];
	if (!bCoulOnly && !bVDWOnly)
	new_i_nblist(vdwc,bLR ? F_LJLR : F_LJ,i_atom,shift,gid,((void *)0));
	if (!bCoulOnly)
	new_i_nblist(vdw,bLR ? F_LR : F_SR,i_atom,shift,gid,((void *)0));
	if (!bVDWOnly)
	new_i_nblist(coul,bLR ? F_LR : F_SR,i_atom,shift,gid,((void *)0));
	if (!(bVDWOnly \|\| fabs(qi)<1.2e-38) \|\| !(bCoulOnly \|\| !bHaveLJ[type[i_atom]])) {
	for(j=0; (j<nj); j++) {
	jcg=jjcg[j];
	if (jcg == icg)
	jj0 = i0 + i + 1;
	else
	jj0 = index[jcg];
	jj1=index[jcg+1];
	for(jj=jj0; jj<jj1; jj++) {
	bNotEx = !((int) ((bExcl)[((atom_id) (jj))] & (1<<((atom_id) (i)))));
	if (bNotEx) {
	if (bCoulOnly) {
	if (fabs(charge[jj]) > 1.2e-38)
	add_j_to_nblist(coul,jj);
	} else if (bVDWOnly) {
	if (bHaveLJ[type[jj]])
	add_j_to_nblist(vdw,jj);
	} else {
	if (bHaveLJ[type[jj]]) {
	if (fabs(qi) > 1.2e-38 && (fabs(charge[jj]) > 1.2e-38))
	add_j_to_nblist(vdwc,jj);
	add_j_to_nblist(vdw,jj);
	} else if (fabs(qi) > 1.2e-38 && (fabs(charge[jj]) > 1.2e-38))
	add_j_to_nblist(coul,jj);
	}
	}
	}
	}
	}
	close_i_nblist(vdw);
	close_i_nblist(coul);
	close_i_nblist(vdwc);
	}
	}
	} else {
	for(i=0; i<nicg; i++) {
	igid = cENER[i_atom];
	gid = ((igid < jgid) ? (igidngid+jgid) : (jgidngid+igid));
	qi = charge[i_atom];
	qiB = chargeB[i_atom];
	if (!bCoulOnly && !bVDWOnly)
	new_i_nblist(vdwc,bLR ? F_LJLR : F_LJ,i_atom,shift,gid,
	bMNO ? &(fr->mno_index[icg3]) : ((void )0));
	if (!bCoulOnly)
	new_i_nblist(vdw,bLR ? F_LR : F_SR,i_atom,shift,gid,
	bMNO ? &(fr->mno_index[icg3]) : ((void )0));
	new_i_nblist(coul,bLR ? F_LR : F_SR,i_atom,shift,gid,
	bMNO ? &(fr->mno_index[icg3]) : ((void )0));
	new_i_nblist(vdw_free,F_DVDL,i_atom,shift,gid,((void *)0));
	new_i_nblist(coul_free,F_DVDL,i_atom,shift,gid,((void *)0));
	new_i_nblist(vdwc_free,F_DVDL,i_atom,shift,gid,((void *)0));
	if (!(bVDWOnly \|\| (fabs(qi)<1.2e-38 && fabs(qiB)<1.2e-38)) \|\|
	!(bCoulOnly \|\| (!bHaveLJ[type[i_atom]] && !bHaveLJ[typeB[i_atom]]))) {
	for(j=0; (j<nj); j++) {
	jcg=jjcg[j];
	if (jcg == icg)
	jj0 = i0 + i + 1;
	else
	jj0 = index[jcg];
	jj1=index[jcg+1];
	bFree = bPert[i_atom];
	for(jj=jj0; (jj<jj1); jj++) {
	bFreeJ = bFree \|\| bPert[jj];
	if ((!bWater && !bMNO) \|\| i==0 \|\| bFreeJ) {
	bNotEx = !((int) ((bExcl)[((atom_id) (jj))] & (1<<((atom_id) (i)))));
	if (bNotEx) {
	if (bFreeJ) {
	if (bCoulOnly)
	add_j_to_nblist(coul_free,jj);
	else if (bVDWOnly)
	add_j_to_nblist(vdw_free,jj);
	add_j_to_nblist(vdwc_free,jj);
	} else if (bCoulOnly) {
	add_j_to_nblist(coul,jj);
	} else if (bVDWOnly) {
	if (bHaveLJ[type[jj]])
	add_j_to_nblist(vdw,jj);
	} else {
	if (bHaveLJ[type[jj]]) {
	if (fabs(qi) > 1.2e-38 && (fabs(charge[jj]) > 1.2e-38))
	add_j_to_nblist(vdwc,jj);
	add_j_to_nblist(vdw,jj);
	} else if (fabs(qi) > 1.2e-38 && (fabs(charge[jj]) > 1.2e-38))
	add_j_to_nblist(coul,jj);
	}
	}
	}
	}
	}
	}
	close_i_nblist(vdw);
	close_i_nblist(coul);
	close_i_nblist(vdwc);
	if (bWater && (i==0)) {
	close_i_nblist(coul_ww);
	close_i_nblist(vdwc_ww);
	}
	close_i_nblist(vdw_free);
	close_i_nblist(coul_free);
	close_i_nblist(vdwc_free);
	}
	}
	}
	static void setexcl(atom_id start,atom_id end,t_block *excl,int b,
	t_excl bexcl[])
	{
	atom_id i,k;
	if (b) {
	for(i=start; i<end; i++) {
	for(k=excl->index[i]; k<excl->index[i+1]; k++) {
	(bexcl)[((atom_id) (excl->a[k]))] \|= (1<<((atom_id) (i-start)));
	}
	}
	}
	}
	int calc_naaj(int icg,int cgtot)
	{
	int naaj;
	if ((cgtot % 2) == 1) {
	naaj = 1+(cgtot/2);
	}
	else if ((cgtot % 4) == 0) {
	if (icg < cgtot/2) {
	if ((icg % 2) == 0)
	naaj=1+(cgtot/2);
	}
	else {
	if ((icg % 2) == 1)
	naaj=1+(cgtot/2);
	}
	}
	else {
	if ((icg % 2) == 0)
	naaj=1+(cgtot/2);
	else
	naaj=cgtot/2;
	}
	return naaj;
	}
	static void get_dx(int Nx,real gridx,real grid_x,real rc2,real x,
	int dx0,int dx1,real *dcx2)
	{
	real dcx,tmp;
	int xgi,xgi0,xgi1,i;
	xgi = (int)(Nx+x*grid_x)-Nx;
	if (xgi < 0) {
	*dx0 = 0;
	*dx1 = -1;
	} else if (xgi >= Nx) {
	*dx0 = Nx;
	*dx1 = Nx-1;
	} else {
	dcx2[xgi] = 0;
	*dx0 = xgi;
	xgi0 = xgi-1;
	*dx1 = xgi;
	xgi1 = xgi+1;
	}
	for(i=xgi0; i>=0; i--) {
	dcx = (i+1)*gridx-x;
	tmp = dcx*dcx;
	if (tmp >= rc2)
	*dx0 = i;
	dcx2[i] = tmp;
	}
	for(i=xgi1; i<Nx; i++) {
	dcx = i*gridx-x;
	tmp = dcx*dcx;
	if (tmp >= rc2)
	*dx1 = i;
	dcx2[i] = tmp;
	}
	}
	static void do_longrange(FILE log,t_commrec cr,t_topology top,t_forcerec fr,
	int ngid,t_mdatoms *md,int icg,
	int jgid,int nlr,
	atom_id lr[],t_excl bexcl[],int shift,
	rvec x[],rvec box_size,t_nrnb *nrnb,
	real lambda,real *dvdlambda,
	t_groups *grps,int bVDWOnly,int bCoulOnly,
	int bDoForces,int bHaveLJ[])
	{
	int i;
	for(i=0; (i<eNL_NR); i++) {
	if ((fr->nlist_lr[i].nri > fr->nlist_lr[i].maxnri-32) \|\| bDoForces) {
	close_neighbor_list(fr,1,i);
	do_fnbf(log,cr,fr,x,fr->f_twin,md,
	grps->estat.ee[egLJLR],grps->estat.ee[egLR],box_size,
	nrnb,lambda,dvdlambda,1,i);
	reset_neighbor_list(fr,1,i);
	}
	}
	if (!bDoForces) {
	put_in_list(bHaveLJ,ngid,md,icg,jgid,nlr,lr,top->blocks[ebCGS].index,
	bexcl,shift,fr,
	1,bVDWOnly,bCoulOnly);
	}
	}
	static int ns5_core(FILE log,t_commrec cr,t_forcerec *fr,int cg_index[],
	matrix box,rvec box_size,int ngid,
	t_topology top,t_groups grps,
	t_grid grid,rvec x[],t_excl bexcl[],int bExcludeAlleg,
	t_nrnb nrnb,t_mdatoms md,
	real lambda,real *dvdlambda,
	int bHaveLJ[])
	{
	static atom_id nl_lr_ljc,nl_lr_one,*nl_sr=((void )0);
	static int nlr_ljc,nlr_one,*nsr;
	static real dcx2=((void )0),dcy2=((void )0),dcz2=((void )0);
	t_block *cgs=&(top->blocks[ebCGS]);
	unsigned short *gid=md->cENER;
	int tx,ty,tz,dx,dy,dz,cj;
	int dx0,dx1,dy0,dy1,dz0,dz1;
	int Nx,Ny,Nz,shift=-1,j,nrj,nns,nn=-1;
	real gridx,gridy,gridz,grid_x,grid_y,grid_z;
	int icg=-1,iicg,cgsnr,i0,nri,naaj,min_icg,icg_naaj,jjcg,cgj0,jgid;
	int bVDWOnly,bCoulOnly;
	rvec xi,*cgcm;
	real r2,rs2,rvdw2,rcoul2,rm2,rl2,XI,YI,ZI,dcx,dcy,dcz,tmp1,tmp2;
	int *i_eg_excl;
	int use_twinrange,use_two_cutoffs;
	cgsnr = cgs->nr;
	rs2 = ((fr->rlist)*(fr->rlist));
	if (fr->bTwinRange) {
	rvdw2 = ((fr->rvdw)*(fr->rvdw));
	rcoul2 = ((fr->rcoulomb)*(fr->rcoulomb));
	} else {
	}
	rm2 = (((rvdw2) < (rcoul2)) ? (rvdw2) : (rcoul2) );
	rl2 = (((rvdw2) > (rcoul2)) ? (rvdw2) : (rcoul2) );
	use_twinrange = (rs2 < rm2);
	use_two_cutoffs = (rm2 < rl2);
	bVDWOnly = (rvdw2 > rcoul2);
	bCoulOnly = !bVDWOnly;
	if (nl_sr == ((void *)0)) {
	(nl_sr)=save_calloc("nl_sr","ns.c",1341, (ngid),sizeof(*(nl_sr)));
	(nsr)=save_calloc("nsr","ns.c",1343, (ngid),sizeof(*(nsr)));
	(nlr_ljc)=save_calloc("nlr_ljc","ns.c",1344, (ngid),sizeof(*(nlr_ljc)));
	(nlr_one)=save_calloc("nlr_one","ns.c",1345, (ngid),sizeof(*(nlr_one)));
	if (use_twinrange)
	(nl_lr_ljc)=save_calloc("nl_lr_ljc","ns.c",1349, (ngid),sizeof(*(nl_lr_ljc)));
	if (use_two_cutoffs)
	(nl_lr_one)=save_calloc("nl_lr_one","ns.c",1353, (ngid),sizeof(*(nl_lr_one)));
	for(j=0; (j<ngid); j++) {
	(nl_sr[j])=save_calloc("nl_sr[j]","ns.c",1356, (1024),sizeof(*(nl_sr[j])));
	if (use_twinrange)
	(nl_lr_ljc[j])=save_calloc("nl_lr_ljc[j]","ns.c",1358, (1024),sizeof(*(nl_lr_ljc[j])));
	if (use_two_cutoffs)
	(nl_lr_one[j])=save_calloc("nl_lr_one[j]","ns.c",1360, (1024),sizeof(*(nl_lr_one[j])));
	}
	if (debug)
	fprintf(debug,"ns5_core: rs2 = %g, rvdw2 = %g, rcoul2 = %g (nm^2)\n",
	rs2,rvdw2,rcoul2);
	}
	cgcm = fr->cg_cm;
	Nx = grid->nrx;
	Ny = grid->nry;
	if (dcx2 == ((void *)0)) {
	(dcx2)=save_calloc("dcx2","ns.c",1379, (Nx2),sizeof((dcx2)));
	(dcy2)=save_calloc("dcy2","ns.c",1380, (Ny2),sizeof((dcy2)));
	(dcz2)=save_calloc("dcz2","ns.c",1381, (Nz2),sizeof((dcz2)));
	}
	gridx = box[0][0]/grid->nrx;
	gridy = box[1][1]/grid->nry;
	gridz = box[2][2]/grid->nrz;
	grid_x = 1/gridx;
	grid_y = 1/gridy;
	grid_z = 1/gridz;
	for(iicg=fr->cg0; (iicg < fr->hcg); iicg++) {
	icg = cg_index[iicg];
	if (icg != iicg)
	fatal_error(0,"icg = %d, iicg = %d, file %s, line %d",icg,iicg,"ns.c",
	1408);
	if(bExcludeAlleg[icg])
	i_eg_excl = fr->eg_excl + ngid*gid[cgs->index[icg]];
	setexcl(cgs->index[icg],cgs->index[icg+1],&top->atoms.excl,1,bexcl);
	naaj = calc_naaj(icg,cgsnr);
	icg_naaj = icg+naaj;
	for (tz=-1; tz<=1; tz++) {
	ZI = cgcm[icg][2]+tz*box[2][2];
	get_dx(Nz,gridz,grid_z,rcoul2,ZI,&dz0,&dz1,dcz2);
	if (dz0 > dz1)
	for (ty=-1; ty<=1; ty++) {
	YI = cgcm[icg][1]+tybox[1][1]+tzbox[2][1];
	get_dx(Ny,gridy,grid_y,rcoul2,YI,&dy0,&dy1,dcy2);
	for (tx=-1; tx<=1; tx++) {
	get_dx(Nx,gridx,grid_x,rcoul2,XI,&dx0,&dx1,dcx2);
	shift=((21 +1)((21 +1)((tz)+1)+(ty)+1)+(tx)+1);
	for (dx=dx0; (dx<=dx1); dx++) {
	for (dy=dy0; (dy<=dy1); dy++) {
	for (dz=dz0; (dz<=dz1); dz++) {
	if (tmp2 > dcz2[dz]) {
	for (j=0; (j<nrj); j++) {
	if (((jjcg >= icg) && (jjcg < icg_naaj)) \|\|
	((jjcg < min_icg))) {
	if (r2 < rl2) {
	if (!i_eg_excl[jgid]) {
	if (r2 < rs2) {
	if (nsr[jgid] >= 1024) {
	put_in_list(bHaveLJ,ngid,md,icg,jgid,
	nsr[jgid],nl_sr[jgid],
	cgs->index, bexcl,
	shift,fr,0,0,0);
	}
	} else if (r2 < rm2) {
	} else if (use_two_cutoffs) {
	if (nlr_one[jgid] >= 1024) {
	do_longrange(log,cr,top,fr,ngid,md,icg,jgid,
	nlr_one[jgid],
	nl_lr_one[jgid],bexcl,shift,x,
	box_size,nrnb,
	lambda,dvdlambda,grps,
	bVDWOnly,bCoulOnly,0,
	bHaveLJ);
	}
	}
	}
	}
	}
	}
	}
	}
	}
	}
	}
	}
	}
	}
	}
	int search_neighbors(FILE log,t_forcerec fr,
	rvec x[],matrix box,
	t_topology top,t_groups grps,
	t_commrec cr,t_nsborder nsb,
	t_nrnb nrnb,t_mdatoms md,
	real lambda,real *dvdlambda)
	{
	static t_grid grid=((void )0);
	static t_excl *bexcl;
	static int *bHaveLJ;
	static int cg_index=((void )0),slab_index=((void )0);
	static int *bExcludeAlleg;
	rvec box_size;
	int i,j,m,ngid;
	int nsearch;
	nsearch = ns5_core(log,cr,fr,cg_index,box,box_size,ngid,top,grps,
	grid,x,bexcl,bExcludeAlleg,nrnb,md,lambda,dvdlambda,bHaveLJ);
	}