h5PartDcToVtk.cc 18.7 KB
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/* h5ToVtk.cc
   Andreas Adelmann

*/

#include <hdf5.h>
#include "H5hut.h"

#include <cmath>
#include <stdio.h>
#include <stdlib.h>
#include <cctype>
#include <string.h>
#include <set>
#include <iostream>
#include <fstream>
#include <string>
#include <vector>
#include <sstream>
#include <iomanip>
#include <cassert>
//#include <string>
//#include <cstdlib>
using namespace std;

#define MAX_LEN 100

/* Function headers */
int get_option(int argc, const char **argv, const char *opts, const struct long_options *l_opts);
static void print_help();
static void variable_assign(int argc, const char *argv[]);

/* Global variables */
static char* input_name      = NULL;
static char* output_name      = NULL;
static bool flg_alive = false;
static double z_pos = 0.0; 
static int print_all = 0;

/* `get_option' variables */
int         opt_err = 1;    /*get_option prints errors if this is on */
int         opt_ind = 1;    /*token pointer                          */
const char *opt_arg = NULL;        /*flag argument (or value)               */

/* indication whether the flag (option) requires an argument or not */
enum {
  no_arg = 0,         /* doesn't take an argument     */
  require_arg,        /* requires an argument	        */
};

/* struct for flags (options) */
typedef struct long_options
{
  const char  *name;          /* name of the long option              */
  int          has_arg;       /* whether we should look for an arg    */
  char         shortval;      /* the shortname equivalent of long arg
			       * this gets returned from get_option   */
} long_options;

/* List of options in single characters */
static const char *s_opts = "h1:2:i:o:a:";

/* List of options in full words */
static struct long_options l_opts[] =
  {
    { "help", no_arg, 'h' },         // Print help page
    { "input", require_arg, 'i' },        // Takes input file name
    { "output", require_arg, 'o' },   // Takes output file name (without this flag, the program will print to stdout)
    { "alive ", no_arg , 'a' }, // also generate the alive dark current to display the dark current source
    { NULL, 0, '\0' }
  };



/************************************************************************************
 ***********************************  FUNCTIONS  *************************************
 *************************************************************************************/


string convert2Int(int number) {
  stringstream ss;
  ss <<   setw(5) << setfill('0') <<  number; 
  return ss.str(); 
}


/* get_option is the parsing function that was majorly ported from h5dump utility */
int get_option(int argc, const char **argv, const char *opts, const struct long_options *l_opts) {
  static int sp = 1;    /* character index in current token */
  int opt_opt = '?';    /* option character passed back to user */

  if (sp == 1) 
    {
      /* check for more flag-like tokens */
      if (opt_ind >= argc || argv[opt_ind][0] != '-' || argv[opt_ind][1] == '\0') 
	{
	  return EOF;
	}
      else if (strcmp(argv[opt_ind], "--") == 0)
	{
	  opt_ind++;
	  return EOF;
	}
    }

  if (sp == 1 && argv[opt_ind][0] == '-' && argv[opt_ind][1] == '-') 
    {
      /* long command line option */
      const char *arg = &argv[opt_ind][2];
      int i;

      for (i = 0; l_opts && l_opts[i].name; i++)
	{
	  size_t len = strlen(l_opts[i].name);

	  if (strncmp(arg, l_opts[i].name, len) == 0)
	    {
	      /* we've found a matching long command line flag */
	      opt_opt = l_opts[i].shortval;

	      if (l_opts[i].has_arg != no_arg)
		{
		  if (arg[len] == '=')
		    {
		      opt_arg = &arg[len + 1];
		    }
		  else if (opt_ind < (argc - 1) && argv[opt_ind + 1][0] != '-')
		    {
		      opt_arg = argv[++opt_ind];
		    }
		  else if (l_opts[i].has_arg == require_arg)
		    {
		      if (opt_err)
			fprintf(stderr, "%s: option required for \"--%s\" flag\n", argv[0], arg);

		      opt_opt = '?';
		    }
		}
	      else
		{
		  if (arg[len] == '=')
		    {
		      if (opt_err)
			fprintf(stderr, "%s: no option required for \"%s\" flag\n", argv[0], arg);

		      opt_opt = '?';
		    }

		  opt_arg = NULL;
		}

	      break;
	    }
	}

      if (l_opts[i].name == NULL)
	{
	  /* exhausted all of the l_opts we have and still didn't match */
	  if (opt_err)
	    fprintf(stderr, "%s: unknown option \"%s\"\n", argv[0], arg);

	  opt_opt = '?';
	}

      opt_ind++;
      sp = 1;
    }
  else
    {
      register const char *cp;    /* pointer into current token */

      /* short command line option */
      opt_opt = argv[opt_ind][sp];

      cp = (char *)strchr( opts , opt_opt  ); //TODO it was an error!!!
      // strchr implementation changed so it needs a conversion...
      if (opt_opt == ':' || cp == 0)
	{

	  if (opt_err)
	    fprintf(stderr, "%s: unknown option \"%c\"\n", argv[0], opt_opt);
	  /* if no chars left in this token, move to next token */
	  if (argv[opt_ind][++sp] == '\0')
	    {
	      opt_ind++;
	      sp = 1;
	    }

	  return '?';
	}

      if (*++cp == ':')
	{

	  /* if a value is expected, get it */
	  if (argv[opt_ind][sp + 1] != '\0')
	    {
	      /* flag value is rest of current token */
	      opt_arg = &argv[opt_ind++][sp + 1];
	    }
	  else if (++opt_ind >= argc)
	    {
	      if (opt_err)
		{
		  fprintf(stderr, "%s: value expected for option \"%c\"\n", argv[0], opt_opt);
		}
	      opt_opt = '?';
	    }
	  else
	    {
	      /* flag value is next token */
	      opt_arg = argv[opt_ind++];
	    }

	  sp = 1;
	}
      else 
	{
	  /* set up to look at next char in token, next time */
	  if (argv[opt_ind][++sp] == '\0')
	    {
	      /* no more in current token, so setup next token */
	      opt_ind++;
	      sp = 1;
	    }

	  opt_arg = NULL;
	}
    }

  /* return the current flag character found */
  return opt_opt;
}

/* Assigns functions according to the parsed result */
static void variable_assign(int argc, const char *argv[])
{
  int option;

  /* set options according to the command line */
  while ((option = get_option(argc, argv, s_opts, l_opts)) != EOF)
    {
      switch ((char)option)
	{
	case 'h': // Print help page
	  print_help();
	  exit(1);
	case 'o': // Print number of steps
	  output_name = strdup(opt_arg);
	  break;
	case 'i': // Print shorter version without the values
	  input_name = strdup(opt_arg);
	  break;
	case 'a': // 
	  { flg_alive = true;
	    z_pos = atof(strdup(opt_arg));
	  }
	  break;  
	default:
	  print_help();
	  exit(1);
	}
    }
}

/* For printing help page */
static void print_help()
{
  fflush(stdout);
  fprintf(stdout, "\nusage: h5ToVtk  -i INPUTFILE -o OUTPUTFILE [OPTIONAL_FLAGS] -a ZVALUE\n");
  fprintf(stdout, "\n");
  fprintf(stdout, "  FLAGS\n");
  fprintf(stdout, "   -h, --help                 Print help page\n");
  fprintf(stdout, "   -i file, --input file      (REQUIRED) Takes input base file name to \"file\" (extension h5 is assumed \n");
  fprintf(stdout, "   -o file, --output file     (REQUIRED) Takes output base file name to \"file\" (extension vtk is added)\n");
  fprintf(stdout, "   -a zvalue                  Only display particles which have servived and reached z value  \n");

  fprintf(stdout, "\n");
  fprintf(stdout, "  Examples:\n");
  fprintf(stdout, "\n");
  fprintf(stdout, "        /h5ToVtk -i ctf3-injector-darkcurrent-1 -o ctf3-injector-darkcurrent-1- \n");
  fprintf(stdout, "\n");
  fprintf(stdout, "        /h5ToVtk -i ctf3-injector-darkcurrent-1 -o ctf3-injector-darkcurrent-1- -a 0.19 \n");
  fprintf(stdout, "\n");
}


int main(int argc, const char *argv[])
{

  h5_file_t *h5file = NULL;

  std::ofstream of, ofalive, ofenergy, ofpnum;
   
  int j;

  int num_dataset;

  int ntime_step = 0;

  variable_assign(argc, argv);

  if(input_name == NULL)  {
    fprintf(stdout, "missing input file name\n");
    print_help();
    exit(1);
  }
   
  if(output_name == NULL) {
    fprintf(stdout, "missing output file name\n");
    print_help();
    exit(1);
  }
   
  string ifn = string(input_name) + string(".h5");

  h5file = H5OpenFile(ifn.c_str(), H5_O_WRONLY, 0);
   
  if( h5file == NULL ) {
    fprintf(stdout, "unable to open file %s\n", input_name);
    print_help();
    exit(1);
  }
   
  ntime_step = H5GetNumSteps(h5file);

  string ffenergy = string(output_name) + string("energy") + string(".dat");//new
  ofenergy.open(ffenergy.c_str());//new
  assert(ofenergy.is_open());//new
  ofenergy  << setprecision(10)//new
	    << "# Energy" << endl;//new
  string ffpnum = string(output_name) + string("pnum") + string(".dat");//new
  ofpnum.open(ffpnum.c_str());//new
  assert(ofpnum.is_open());//new
  ofpnum  << setprecision(10)//new
	  << "# time" <<" partNum"<< endl;//new

  if (flg_alive) {
       
    set<h5_int64_t> idSet;
      

    H5SetStep(h5file, ntime_step-1);
    num_dataset = H5PartGetNumDatasets(h5file);
    h5_int64_t nparticles = H5PartGetNumParticles(h5file);
     
    h5_int64_t* larray = (h5_int64_t*)malloc(sizeof(h5_int64_t)*nparticles);
    H5PartReadDataInt64(h5file, "id", larray);

    h5_float64_t* z = (h5_float64_t*)malloc(sizeof(h5_float64_t)*nparticles);
    H5PartReadDataFloat64(h5file, "z", z);

    for(unsigned long int n = 0; n < nparticles; ++n) {
      if (z[n] >= z_pos)
	idSet.insert(larray[n]);
    }
       
    cout << "Last timestep contains " << nparticles << " particles" << endl;
       
    for (size_t j = 0; j<ntime_step ; j ++) {

      H5SetStep(h5file,j);
      // char s_name[64]="ENERGY";//new
      //h5_float64_t Etmp=0.0;//new
      //int var_readE=H5PartReadStepAttrib(h5file,s_name,&Etmp);//new 	
      //num_dataset = H5PartGetNumDatasets(h5file);//new 
      //Etmp = (Etmp -  0.51099906)*1000000.0;//new eV
      h5_int64_t nparticles = H5PartGetNumParticles(h5file);
      //ofenergy<<Etmp<<" "<<nparticles<<endl;//new
      //cout<<"Read mean energy in step: "<<j<<" Energy: "<<Etmp<<endl;//new
            
      h5_int64_t* larray = (h5_int64_t*)malloc(sizeof(h5_int64_t)*nparticles);
      H5PartReadDataInt64(h5file, "id", larray);
	   
      h5_float64_t* x = (h5_float64_t*)malloc(sizeof(h5_float64_t)*nparticles);
      H5PartReadDataFloat64(h5file, "x", x);
      vector<h5_float64_t> x_alive;

      h5_float64_t* y = (h5_float64_t*)malloc(sizeof(h5_float64_t)*nparticles);
      H5PartReadDataFloat64(h5file, "y", y);
      vector<h5_float64_t> y_alive;

      h5_float64_t* z = (h5_float64_t*)malloc(sizeof(h5_float64_t)*nparticles);
      H5PartReadDataFloat64(h5file, "z", z);
      vector<h5_float64_t> z_alive;

      h5_int64_t* ptype = (h5_int64_t*)malloc(sizeof(h5_int64_t)*nparticles);
      H5PartReadDataInt64(h5file, "ptype", ptype);
      vector<h5_int64_t> ptype_alive;

      for (size_t i = 0; i < nparticles ; i ++) {
	if ( idSet.find(larray[i]) != idSet.end() ) {
	  x_alive.push_back(x[i]);
	  y_alive.push_back(y[i]);
	  z_alive.push_back(z[i]);
	  ptype_alive.push_back(ptype[i]);
	}
      }
      cout<<" ptype_alive size = "<< ptype_alive.size()<<endl;
      string ffnlive = string("vtk/") + string(output_name) + string("-alive-") + convert2Int(j) + string(".vtk");
      ofalive.open(ffnlive.c_str());
      assert(ofalive.is_open());
      ofalive.precision(6);

      size_t alive_num =  x_alive.size();           

      ofalive  << setprecision(5)
	       << "# vtk DataFile Version 2.0" << endl
	       << "unstructured grid and vector field on the nodes" << endl
	       << "ASCII" << endl
	       << "DATASET UNSTRUCTURED_GRID" << endl
	       << "POINTS " <<  alive_num << " float" << endl;
           
      // Particle positions


      for(size_t i = 0; i < alive_num; i++)
	ofalive << x_alive[i] << "  " << y_alive[i] << "  " << z_alive[i] << endl;
           
      ofalive << endl;            // defining VTK_poly_vertex
           
      ofalive << "CELLS " << alive_num << " " << 2 * alive_num << endl;
           
      for(size_t i = 0; i < alive_num; i++)
	ofalive << "1 " << i << endl;
      ofalive << endl;
           
      // defining Cell_types
      ofalive << "CELL_TYPES " << alive_num << endl;
      for(size_t i = 0; i < alive_num; i++)
	ofalive << "2" << endl;
           
      // defining Cell_types
      ofalive << "POINT_DATA " << alive_num << endl;
      ofalive << "SCALARS " << "Pointtype" << " float " << "1" << endl;
      ofalive << "LOOKUP_TABLE " << "mytable" << endl ;
      for(size_t i = 0; i < alive_num ; i ++) {
	if (ptype_alive[i] == 0) {
	  ofalive << 0.0 << endl;
	}
	else if (ptype_alive[i] == 1) {
	  ofalive << 0.5 << endl;
	}
	else if (ptype_alive[i] == 2) {
	  ofalive << 1.0 << endl;
	}
	else  {
	  ofalive << ptype_alive[i] << endl;
	}

      }
           
      ofalive << "LOOKUP_TABLE " << "mytable " << 3 << endl ;
      ofalive << 1.0 <<" "<< 0.0 <<" "<< 0.0 <<" "<< 1.0 << endl;
      ofalive << 0.0 <<" "<< 1.0 <<" "<< 0.0 <<" "<< 1.0 << endl;
      ofalive << 0.0 <<" "<< 0.0 <<" "<< 1.0 <<" "<< 1.0 << endl;
      ofalive << endl;
      ofalive.close();

      free(x);
      free(y);
      free(z);
      free(ptype);

      x_alive.clear();
      y_alive.clear();
      z_alive.clear();
      ptype_alive.clear();

      cout <<"Done time step "<< j << endl;
    }
  }

       
  else {
    vector<double>Esmall;//smaller than 28eV
    vector<double>Emultip;//Energy zone of SEY>1.
    vector<double>Elarge;//larger than 2100eV
    double sey_num;//sey total number
    int remained_num;//
    for (size_t j=0; j<ntime_step; j++) {
      set<h5_int64_t> idSet;
      H5SetStep(h5file,j);
      // char s_name[64]="ENERGY";//new
      //h5_float64_t Etmp=0.0;//new
      //int var_readE=H5PartReadStepAttrib(h5file,s_name,&Etmp);//new 	
      //num_dataset = H5PartGetNumDatasets(h5file);//new 
      num_dataset = H5PartGetNumDatasets(h5file);
      h5_int64_t nparticles = H5PartGetNumParticles(h5file);
      //Etmp = (Etmp -  0.51099906)*1000000.0;//new eV
      //ofenergy<<Etmp<<" "<<nparticles<<endl;//new          
      //cout<<"Read mean energy in step: "<<j<<" Energy: "<<Etmp<<endl;//new
          
      cout << "Working on timestep " << j << " expecting " << nparticles << " particles " << endl;
      ofpnum  << j <<" "<<nparticles<<endl;//new
            
	   
      h5_float64_t* x = (h5_float64_t*)malloc(sizeof(h5_float64_t)*nparticles);
      H5PartReadDataFloat64(h5file, "x", x);

      h5_float64_t* y = (h5_float64_t*)malloc(sizeof(h5_float64_t)*nparticles);
      H5PartReadDataFloat64(h5file, "y", y);

      h5_float64_t* z = (h5_float64_t*)malloc(sizeof(h5_float64_t)*nparticles);
      H5PartReadDataFloat64(h5file, "z", z);

      h5_int64_t* ptype = (h5_int64_t*)malloc(sizeof(h5_int64_t)*nparticles);
      H5PartReadDataInt64(h5file, "ptype", ptype);

      string ffn = string("vtk/") + string(output_name)  + convert2Int(j) + string(".vtk");
      
      of.open(ffn.c_str());
      assert(of.is_open());
      of.precision(6);
       
      of  << setprecision(5)
	  << "# vtk DataFile Version 2.0" << endl
	  << "unstructured grid and vector field on the nodes" << endl
	  << "ASCII" << endl
	  << "DATASET UNSTRUCTURED_GRID" << endl
	  << "POINTS " << nparticles << " float" << endl;
       
      // Particle positions
      for(size_t i = 0; i < nparticles; i++)
	of << x[i] << "  " << y[i] << "  " << z[i] << endl;

      of << endl;            // defining VTK_poly_vertex
       
      of << "CELLS " << nparticles << " " << 2 * nparticles << endl;

      for(size_t i = 0; i < nparticles; i++)
	of << "1 " << i << endl;
      of << endl;
       
      // defining Cell_types
      of << "CELL_TYPES " << nparticles << endl;
      for(size_t i = 0; i < nparticles; i++)
	of << "2" << endl;

      // defining Cell_types
      of << "POINT_DATA " << nparticles << endl;
      of << "SCALARS " << "Pointtype" << " float " << "1" << endl;
      of << "LOOKUP_TABLE " << "mytable" << endl ;
      for(size_t i = 0; i < nparticles ; i ++) {
	if (ptype[i] == 0) {
	  of << 0.0 << endl;
	}
	else if (ptype[i] == 1) {
	  of << 0.5 << endl;
	}
	else if (ptype[i] >= 2) {
	  of << 1.0 << endl;
	}
	else  {
	  cout<< "Step " <<j<<" error occurs while determine particle type integer ptype should be >=0 "<< endl;
	}
      }

      of << "LOOKUP_TABLE " << "mytable " << 3 << endl ;
      of << 1.0 <<" "<< 0.0 <<" "<< 0.0 <<" "<< 1.0 << endl;
      of << 0.0 <<" "<< 1.0 <<" "<< 0.0 <<" "<< 1.0 << endl;
      of << 0.0 <<" "<< 0.0 <<" "<< 1.0 <<" "<< 1.0 << endl;
      of << endl;
      of.close();

      h5_int64_t* larray = (h5_int64_t*)malloc(sizeof(h5_int64_t)*nparticles);
      H5PartReadDataInt64(h5file, "id", larray);

      h5_float64_t* larrayPx = (h5_float64_t*)malloc(sizeof(h5_float64_t)*nparticles);
      H5PartReadDataFloat64(h5file, "px", larrayPx);
            
      h5_float64_t* larrayPy = (h5_float64_t*)malloc(sizeof(h5_float64_t)*nparticles);
      H5PartReadDataFloat64(h5file, "py", larrayPy);

      h5_float64_t* larrayPz = (h5_float64_t*)malloc(sizeof(h5_float64_t)*nparticles);
      H5PartReadDataFloat64(h5file, "pz", larrayPz);
      if(j!=(ntime_step-1)) {
	H5SetStep(h5file,j+1);
	int num_dataset_temp = H5PartGetNumDatasets(h5file);
	h5_int64_t nparticles_temp = H5PartGetNumParticles(h5file);

	h5_int64_t* larray_temp = (h5_int64_t*)malloc(sizeof(h5_int64_t)*nparticles_temp);
	H5PartReadDataInt64(h5file, "id", larray_temp);

               
                                
	for (size_t i = 0; i < nparticles_temp ; i ++) {
	  idSet.insert(larray_temp[i]);
	}
	for (size_t i = 0; i < nparticles ; i ++) {

	  if(idSet.find(larray[i])==idSet.end()) {
	    double Etemp=0.51099906*1000000.0*(sqrt(1.0+larrayPx[i]*larrayPx[i]+larrayPy[i]*larrayPy[i]+larrayPz[i]*larrayPz[i])-1);

	    double sey_temp=2.469*exp(-0.0004644*Etemp)-1.9*exp(-0.01054*Etemp);
	    sey_num+=sey_temp;
	    if ( std::isinf(Etemp)){

	      cout<<"Etemp in time step: "<<j<<" is infinity "<<Etemp<<endl;
	      if ( std::isinf(larrayPx[i])){

		cout<<"Px in time step: "<<j<<" is infinity "<<Etemp<<endl;
	      }else  if ( std::isinf(larrayPy[i])){

		cout<<"Py in time step: "<<j<<" is infinity "<<Etemp<<endl;
	      }else  if ( std::isinf(larrayPz[i])){

		cout<<"Pz in time step: "<<j<<" is infinity "<<Etemp<<endl;
	      }else {
		cout<<"Px,Py,Pz in time step: "<<j<<" are "<<larrayPx[i]<<" "<<larrayPy[i]<<" "<<larrayPz[i]<<endl;
	      }
	    }
	    ofenergy<<Etemp<<endl;
	    if(Etemp<28.0) {
	      Esmall.push_back(Etemp);
	    }else if (Etemp<2100) {
	      Emultip.push_back(Etemp);
	    }else {
	      Elarge.push_back(Etemp);
	    }
                       

	  }

	}
	free(larray_temp);
      }

    
      //cout <<"ptype size = "<< sizeof(ptype) << endl;
      free(x);
      free(y);
      free(z);
      free(ptype);
      free(larrayPx);
      free(larrayPy);
      free(larrayPz);
      free(larray);
      if(j==(ntime_step-1)) {
	remained_num = nparticles;
      }
    }
    ofenergy<<Esmall.size()<<endl;//new
    ofenergy<<Emultip.size()<<endl;//new   
    ofenergy<<Elarge.size()<<endl;//new
    ofenergy<<sey_num<<endl;
    ofenergy<<sey_num-int(Esmall.size()+Emultip.size()+Elarge.size())+1000<<endl;
    ofenergy<<remained_num<<endl;
    ofpnum.close();
  }


  H5CloseFile(h5file);   
  return 0;
}