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// ============================================================================
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// Copyright Jean-Charles LAMBERT - 2007-2015
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//           Centre de donneeS Astrophysiques de Marseille (CeSAM)              
// e-mail:   Jean-Charles.Lambert@lam.fr                                      
// address:  Aix Marseille Universite, CNRS, LAM 
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//           Laboratoire d'Astrophysique de Marseille                          
//           Pole de l'Etoile, site de Chateau-Gombert                         
//           38, rue Frederic Joliot-Curie                                     
//           13388 Marseille cedex 13 France                                   
//           CNRS U.M.R 7326                                                   
// ============================================================================

#include <cstdlib>
#include <cstring>
#include <sstream>
#include <iomanip>
#include <cmath>
#include "camr.h"
#include "cfortio.h"
#include "snapshotramses.h"
namespace ramses {
const double CAmr::XH = 0.76;
const double CAmr::mH = 1.6600000e-24;
const double CAmr::kB = 1.3806200e-16;

// ============================================================================
//
CAmr::CAmr(const std::string _indir, const bool _v)
{
  nbody=0;
  //pos = mass = vel = NULL;
  verbose=_v;
  indir = _indir;
  infile="";
  
  // keep filename untill last /
  int found=indir.find_last_of("/");
  if (found != (int) std::string::npos && (int) indir.rfind("output_")<found) {
    indir.erase(found,indir.length()-found);
  }
  if (verbose)
    std::cerr << "indir =[" << indir <<"]\n";
  
  found=(int) indir.rfind("output_"); 
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  if (found!=(int) std::string::npos) {
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    s_run_index= indir.substr(found+7,indir.length()-1); // output_ = 7 characters
    
    while ((found=s_run_index.find_last_of("/"))>0) { // remove trailing "/"
      s_run_index.erase(found,found);
    }
    infile = indir + "/amr_" + s_run_index + ".out00001";
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    testhydrofile = indir + "/hydro_" + s_run_index + ".out00001";
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    if (verbose)
      std::cerr << "Run index = " << s_run_index <<  "  infile=[" << infile << "]\n";
  }
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  // readHeader
  if (amr.open(infile)) {
    readHeader();
    amr.close();
  }

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  //computeNbody();
  //loadData();
}
// ============================================================================
//
CAmr::~CAmr()
{
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   amr.close();
   hydro.close();
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}
// ----------------------------------------------------------------------------
//
bool CAmr::isValid()
{    
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  if (amr.open(infile) && hydro.open(testhydrofile)) {
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    valid=true;
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    //readHeader();
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    amr.close();
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    hydro.close();
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    if (verbose)
      std::cerr << "ncpu="<<ncpu<<"  ndim="<<ndim<< "\n";// "npart=" << npart << "\n";
    xbound[0] = nx/2;
    xbound[1] = ny/2;
    xbound[2] = nz/2;
    twotondim = pow(2,ndim);  
    ordering = "hilbert";
    scale_nH =  XH/mH * 0.276090728884102e-29;
  }
  else
    valid=false;
  amr.close();
  return valid;
}
// ============================================================================
// readHeader
int CAmr::readHeader()
{
  int len1,len2;
  amr.readDataBlock((char *) &ncpu);

  amr.readDataBlock((char *) &ndim);

  len1=amr.readFRecord();
  amr.readData((char *) &nx,sizeof(int),1);
  amr.readData((char *) &ny,sizeof(int),1);
  amr.readData((char *) &nz,sizeof(int),1);
  len2=amr.readFRecord();
  assert(amr.good() && len1==len2);

  amr.readDataBlock((char *) &nlevelmax);
  if (verbose)
    std::cerr << "AMR Nlevel max="<<nlevelmax<<"\n";
  amr.readDataBlock((char *) &ngridmax);

  amr.readDataBlock((char *) &nboundary);
  
  amr.readDataBlock((char *) &ngrid_current);
  
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  amr.readDataBlock((char *) &header.boxlen);
  std::cerr << "BOX LEN ="<<header.boxlen<<"\n";
  amr.skipBlock(3); // noutput,iout,ifout
                    // tout
                    // aout
  amr.readDataBlock((char *) &header.time);
  std::cerr << "TIME  ="<<header.time<<"\n";
  amr.skipBlock(4); // dtold
                    // dtnew
                    // nstep,nstep_coarse
                    // const,mass_tot_0,rho_tot
  len1=amr.readFRecord();
  amr.readData((char *) &header.omega_m   ,sizeof(double),1);
  amr.readData((char *) &header.omega_l   ,sizeof(double),1);
  amr.readData((char *) &header.omega_k   ,sizeof(double),1);
  amr.readData((char *) &header.omega_b   ,sizeof(double),1);
  amr.readData((char *) &header.h0        ,sizeof(double),1);
  amr.readData((char *) &header.aexp_ini  ,sizeof(double),1);
  amr.readData((char *) &header.boxlen_ini,sizeof(double),1);
  len2=amr.readFRecord();
  assert(amr.good() && len1==len2);

  len1=amr.readFRecord();
  amr.readData((char *) &header.aexp,sizeof(double),1);
  amr.readData((char *) &header.hexp,sizeof(double),1);
  amr.readData((char *) &header.aexp_old,sizeof(double),1);
  amr.readData((char *) &header.epot_tot_int,sizeof(double),1);
  amr.readData((char *) &header.epot_tot_old,sizeof(double),1);
  len2=amr.readFRecord();
  assert(amr.good() && len1==len2);

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  if (len2==len1) ; // remove warning....
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  return 1;
}
// ============================================================================
// loadData
int CAmr::loadData(uns::CParticles * particles,
                   const unsigned int req_bits)
{
  int ngridfile  [nlevelmax][ncpu+nboundary];
  int ngridlevel [nlevelmax][ncpu          ];
  int ngridbound [nlevelmax][     nboundary];
  double xc[3][8];
  int ngrida;
  std::string infile;
  
  nbody = 0;
  bool count_only=false;
  //if (index==NULL)  count_only=true;

  // loop on all cpus/files
  for (int icpu=0; icpu<ncpu; icpu++) {
    std::ostringstream osf;
    osf << std::fixed << std::setw(5) << std::setfill('0') <<icpu+1;
    infile = indir + "/amr_" + s_run_index + ".out" + osf.str();
    if (verbose) std::cerr << "CAmr::loadData infile-> ["<<infile << "]\n";
    amr.open(infile);
    amr.skipBlock(21);
    
    amr.readDataBlock((char *) &ngridlevel);
    memcpy(ngridfile,ngridlevel,sizeof(int)*nlevelmax*ncpu);
    
    amr.skipBlock();    
    
    if (nboundary>0) {
      amr.skipBlock(2);
      
      amr.readDataBlock((char *) &ngridbound);
      // must convert the following line
      //ngridfile(ncpu+1:ncpu+nboundary,1:nlevelmax)=ngridbound
      for (int i=0;i<nlevelmax;i++) {
        // copy grid level
        memcpy(&ngridfile [i][0],
               &ngridlevel[i][0],sizeof(int)*ncpu);
        // copy gridbound
        memcpy(&ngridfile [i][ncpu],
               &ngridbound[i][0],sizeof(int)*nboundary);
      }
    }
    amr.skipBlock();    
    // ROM: comment the single following line for old stuff
    amr.skipBlock();    
    if (ordering=="bisection") 
      amr.skipBlock(5);
    else 
      amr.skipBlock();
    amr.skipBlock(3);
    // Open HYDRO file and skip header
    std::string hydrofile = indir + "/hydro_" + s_run_index + ".out" + osf.str();
    //if (verbose) std::cerr << "CAmr::loadData hydrofile-> ["<<hydrofile << "]\n";
    hydro.open(hydrofile,count_only);
    hydro.skipBlock();
    hydro.readDataBlock((char *) &nvarh);
    //std::cerr << "nvarh = " << nvarh << "\n" ;
    hydro.skipBlock(4);
    // loop over levels
    for (int ilevel=0; ilevel<lmax; ilevel++) {
      
      // Geometry
      double dx=pow(0.5,ilevel+1);
      double dx2=0.5*dx;
      for (int ind=0; ind<twotondim; ind++) {
        int iz=ind/4;
        int iy=(ind-4*iz)/2;
        int ix=(ind-2*iy-4*iz);
        xc[0][ind]=(ix-0.5)*dx;
        xc[1][ind]=(iy-0.5)*dx;
        xc[2][ind]=(iz-0.5)*dx;
      }
      // allocate work arrays
      ngrida=ngridfile[ilevel][icpu];
      
      double * xg=NULL, *var=NULL;
      int * son=NULL;
      if (ngrida>0) {
        xg = new double[ngrida*ndim];
        son= new int   [ngrida*twotondim];
        if (!count_only) 
          var= new double[ngrida*twotondim*nvarh];
      }
      // Loop over domains
      for (int j=0; j<(nboundary+ncpu); j++) {
        if (ngridfile[ilevel][j]>0) {
          amr.skipBlock(); // Skip grid index
          amr.skipBlock(); // Skip next index
          amr.skipBlock(); // Skip prev index
          //
          // Read grid center
          //
          for (int idim=0;idim<ndim;idim++) {
            if (j==icpu) {
              amr.readDataBlock((char *) &xg[idim*ngrida]);
            } 
            else amr.skipBlock();
          }
          amr.skipBlock();       // Skip father index
          amr.skipBlock(2*ndim); // Skip nbor index
          //
          // Read son index
          //
          for (int ind=0;ind<twotondim;ind++) {
            if (j==icpu) {
              amr.readDataBlock((char *) &son[ind*ngrida]);
            }
            else amr.skipBlock();
          }          
          amr.skipBlock(twotondim); // Skip cpu map          
          amr.skipBlock(twotondim); // Skip refinement map
        }
        //
        // Read HYDRO data
        //
        hydro.skipBlock(2);
        if (!count_only && ngridfile[ilevel][j]>0) {
          // Read hydro variables
          for (int ind=0;ind<twotondim;ind++) {
            for (int ivar=0; ivar<nvarh; ivar++) {
              if (j==icpu) {
                hydro.readDataBlock((char *) &var[ivar*ngrida*twotondim+ind*ngrida]);
              }
              else hydro.skipBlock();
            }
          }
        }
      }      
      if (ngrida>0) {
        //  Loop over cells
        for (int ind=0;ind<twotondim;ind++) {
          // Store data cube
          for (int i=0;i<ngrida;i++) {
            // compute cell center
            double px=xg[0*ngrida+i]+xc[0][ind]-xbound[0]; // x
            double py=xg[1*ngrida+i]+xc[1][ind]-xbound[1]; // y
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            double pz=0.0;
            if (ndim > 2) {
              pz=xg[2*ngrida+i]+xc[2][ind]-xbound[2]; // z
            }
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            bool ok_cell =       (
                !(son[ind*ngrida+i]>0 && ilevel<lmax) && // cells is NOT refined
                (ilevel>=lmin)                        &&
                ((px+dx2)>=xmin)                      &&
                ((py+dx2)>=ymin)                      &&
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                ((ndim<3) || ((pz+dx2)>=zmin))        &&
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                ((px-dx2)<=xmax)                      &&
                ((py-dx2)<=ymax)                      &&
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                ((ndim<3) || ((pz-dx2)<=zmax)));
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            if (ok_cell) {
              if (!count_only) {
                bool take=false;
                if (req_bits&POS_BIT) {
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                  particles->pos.push_back(px*header.boxlen);  // x
                  particles->pos.push_back(py*header.boxlen);  // y
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                  if (ndim>2)
                    particles->pos.push_back(pz*header.boxlen);  // z
                  else
                    particles->pos.push_back(0.0);  // z
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                  particles->load_bits |= POS_BIT;
                  take=true;
                }
                if (req_bits&VEL_BIT) {
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                  particles->vel.push_back(var[1*ngrida*twotondim+ind*ngrida+i]); // vx
                  particles->vel.push_back(var[2*ngrida*twotondim+ind*ngrida+i]); // vy
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                  if (ndim>2)
                    particles->vel.push_back(var[3*ngrida*twotondim+ind*ngrida+i]); // vz
                  else
                    particles->vel.push_back(0.0); // vz
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                  particles->load_bits |= VEL_BIT;
                  take=true;
                }
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                // gas density
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                float rho = var[0*ngrida*twotondim+ind*ngrida+i];                
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                if (req_bits&MASS_BIT) {                
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                  particles->mass.push_back(rho*dx*header.boxlen*dx*header.boxlen*dx*header.boxlen);
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                  particles->load_bits |= MASS_BIT;
                  take=true;
                }
                if (req_bits&HSML_BIT) {
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                  particles->hsml.push_back(dx*header.boxlen); // hsml
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                  particles->load_bits |= HSML_BIT;
                }
                if (req_bits&RHO_BIT) {                  
                  particles->rho.push_back(rho); // rho var(i,ind,1) * scale_nH
                  particles->load_bits |= RHO_BIT;
                }
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                // with RAMSES 2D simulations, variables from var[] array are shifted to the left
                int offset_2d=-1;
                if (ndim>2) offset_2d=0;

                if (req_bits&TEMP_BIT && nvarh>(4+offset_2d)) {
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                  float temp=0.0;
                  if (rho!=0.0) {
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                    temp=std::max(0.0,var[(4+offset_2d)*ngrida*twotondim+ind*ngrida+i]/rho);
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                  }
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                  particles->temp.push_back(temp);
                  particles->load_bits |= TEMP_BIT;
                }
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                if (req_bits&METAL_BIT && nvarh>(5+offset_2d)) {
                  float metal= var[(5+offset_2d)*ngrida*twotondim+ind*ngrida+i];
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                  particles->metal.push_back(metal);
                  particles->load_bits |= METAL_BIT;
                }
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                if (req_bits&METAL_BIT && nvarh<=5) {
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                  float metal= -1.0; // we put -1.0 when no metellicity
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                  particles->metal.push_back(metal);
                  particles->load_bits |= METAL_BIT;
                }
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                if (req_bits&ID_BIT) {
                  particles->id.push_back(-1.); // no id for gas, use "-1"
                  particles->load_bits |= ID_BIT;
                }
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                if (take|| !req_bits) { // !req_bits for uns_info and siplay=f
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                  particles->indexes.push_back(0); // GAS particles
                  particles->ngas++; // One more gas particles
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                }
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                particles->ntot++; // one more total particles
                                   // this variable count all particles
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              }
              nbody++;
            }
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            else {
//              if (ilevel>=lmin) {
//              std::cerr << "Not ok lmin="<<lmin<<" ilevel="<<ilevel<<" xmin="<<xmin<<" xmax="<<xmax
//                           <<" ymin="<<ymin<<" ymax="<<ymax
//                          <<" zmin="<<zmin<<" zmax="<<zmax<<"\n";
//              }
            }
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          }
        }
        // garbage collecting
        delete [] xg;
        //delete [] x;
        delete [] son;
        if (!count_only) 
          delete [] var;
      }
    } // ilevel
    amr.close();    
    hydro.close();    
  } //for (int icpu=0 .... 
  return nbody;
}
} // end of namespace ramses