printinfo.h 9.42 KB
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void printFiletype(int streamID, int vlistID)
{
  int filetype;

  filetype = streamInqFiletype(streamID);

  switch ( filetype )
    {
    case FILETYPE_GRB:
      printf("GRIB");
      break;
    case FILETYPE_GRB2:
      printf("GRIB2");
      break;
    case FILETYPE_NC:
      printf("netCDF");
      break;
    case FILETYPE_NC2:
      printf("netCDF2");
      break;
    case FILETYPE_NC4:
      printf("netCDF4");
      break;
    case FILETYPE_SRV:
      printf("SERVICE");
      break;
    case FILETYPE_EXT:
      printf("EXTRA");
      break;
    case FILETYPE_IEG:
      printf("IEG");
      break;
    default:
      printf("  File format: unsupported filetype %d" , filetype);
    }

  if ( filetype == FILETYPE_SRV || filetype == FILETYPE_EXT || filetype == FILETYPE_IEG )
    {
      switch ( streamInqByteorder(streamID) )
	{
	case CDI_BIGENDIAN:
	  printf("  BIGENDIAN"); break;
	case CDI_LITTLEENDIAN:
	  printf("  LITTLEENDIAN"); break;
	default:
	  printf("  byteorder: %d undefined", streamInqByteorder(streamID)); break;
	}
    }

  if ( filetype == FILETYPE_GRB || filetype == FILETYPE_NC4 )
    {
      int nvars, varID;
      int ztype;

      nvars = vlistNvars(vlistID);

      for ( varID = 0; varID < nvars; varID++ )
	{
	  ztype = vlistInqVarZtype(vlistID, varID);
	  if ( ztype )
	    {
	      if ( ztype == COMPRESS_SZIP )
		printf(" SZIP");
	      else if ( ztype == COMPRESS_ZIP )
		printf(" ZIP");

	      break;
	    }
	}
    }

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  if ( filetype == FILETYPE_GRB2 )
    {
      int nvars, varID;
      int ztype;

      nvars = vlistNvars(vlistID);

      for ( varID = 0; varID < nvars; varID++ )
	{
	  ztype = vlistInqVarZtype(vlistID, varID);
	  if ( ztype )
	    {
	      if ( ztype == COMPRESS_JPEG )
		printf(" JPEG");

	      break;
	    }
	}
    }

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  printf("\n");
}


static void printGridInfo(int vlistID)
{
  static char func[] = "printGridInfo";
  int ngrids, index;
  int gridID, gridtype, trunc, gridsize, xsize, ysize;
  int nbyte0;
  char xname[128], yname[128], xunits[128], yunits[128];

  ngrids = vlistNgrids(vlistID);
  for ( index = 0; index < ngrids; index++ )
    {
      gridID   = vlistGrid(vlistID, index);
      gridtype = gridInqType(gridID);
      trunc    = gridInqTrunc(gridID);
      gridsize = gridInqSize(gridID);
      xsize    = gridInqXsize(gridID);
      ysize    = gridInqYsize(gridID);
      gridInqXname(gridID, xname);
      gridInqYname(gridID, yname);
      gridInqXunits(gridID, xunits);
      gridInqYunits(gridID, yunits);

      /*	  nbyte0   = fprintf(stdout, "  %4d : %-23s : ",*/
      nbyte0   = fprintf(stdout, "  %4d : %-12s > ",
			 gridID+1, gridNamePtr(gridtype));

      if ( gridtype == GRID_LONLAT   ||
	   gridtype == GRID_LCC2 ||
	   gridtype == GRID_LAEA ||
	   gridtype == GRID_SINUSOIDAL ||
	   gridtype == GRID_GAUSSIAN ||
	   gridtype == GRID_GAUSSIAN_REDUCED )
	{
	  double xfirst = 0.0, xlast = 0.0;
	  double yfirst = 0.0, ylast = 0.0;
	  double xinc = 0.0, yinc = 0.0;
	  
	  yfirst = gridInqYval(gridID, 0);
	  ylast  = gridInqYval(gridID, ysize-1);
	  yinc   = gridInqYinc(gridID);
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	  if ( gridtype == GRID_GAUSSIAN_REDUCED )
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	    fprintf(stdout, "size : dim = %d  nlat = %d\n", gridsize, ysize);
	  else
	    fprintf(stdout, "size      : dim = %d  nlon = %d  nlat = %d\n", gridsize, xsize, ysize);

	  if ( xsize > 0 )
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	    {
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	      if ( gridtype == GRID_GAUSSIAN_REDUCED )
		{
		  fprintf(stdout, "size : dim = %d  nlat = %d\n", gridsize, ysize);
		  fprintf(stdout, "%*s", nbyte0, "");
		  fprintf(stdout, "longitude : reduced\n");
		}
	      else
		{
		  xfirst = gridInqXval(gridID, 0);
		  xlast  = gridInqXval(gridID, xsize-1);
		  xinc   = gridInqXinc(gridID);
		  fprintf(stdout, "%*s", nbyte0, "");
		  fprintf(stdout, "%-9s : first = %.9g", xname, xfirst);
		  if ( xsize > 1 ) fprintf(stdout, "  last = %.9g", xlast);
		  if ( IS_NOT_EQUAL(xinc, 0) )
		    fprintf(stdout, "  inc = %.9g", xinc);
		  fprintf(stdout, "  %s", xunits);
		  if ( gridIsCircular(gridID) )
		    fprintf(stdout, "  circular");
		  fprintf(stdout, "\n");
		}
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	    }
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	  if ( ysize > 0 )
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	    {
	      fprintf(stdout, "%*s", nbyte0, "");
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	      fprintf(stdout, "%-9s : first = %.9g", yname, yfirst);
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	      if ( ysize > 1 ) fprintf(stdout, "  last = %.9g", ylast);
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	      if ( IS_NOT_EQUAL(yinc, 0) && 
		   (gridtype == GRID_LONLAT || gridtype == GRID_SINUSOIDAL || 
		    gridtype == GRID_LCC2 || gridtype == GRID_LAEA) )
		fprintf(stdout, "  inc = %.9g", yinc);
	      fprintf(stdout, "  %s", yunits);
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	      fprintf(stdout, "\n");
	    }
	  
	  if ( gridIsRotated(gridID) )
	    {
	      double lonpole, latpole, angle;
	      lonpole = gridInqXpole(gridID);
	      latpole = gridInqYpole(gridID);
	      angle   = gridInqAngle(gridID);
	      fprintf(stdout, "%*s", nbyte0, "");
	      fprintf(stdout, "northpole : lon = %.9g  lat = %.9g", lonpole, latpole);
	      if ( angle > 0 ) fprintf(stdout, "  angle = %.9g", angle);
	      fprintf(stdout, "\n");
	    }
		
	  if ( gridInqXbounds(gridID, NULL) || gridInqYbounds(gridID, NULL) )
	    {
	      fprintf(stdout, "%*s", nbyte0, "");
	      fprintf(stdout, "available :");
	      if ( gridInqXbounds(gridID, NULL) ) fprintf(stdout, " xbounds");
	      if ( gridInqYbounds(gridID, NULL) ) fprintf(stdout, " ybounds");
	      fprintf(stdout, "\n");
	    }
	  
	  if ( gridtype == GRID_LAEA )
	    {
	      double a, lon_0, lat_0;
	      gridInqLaea(gridID, &a, &lon_0, &lat_0);
	      fprintf(stdout, "%*s", nbyte0, "");
	      fprintf(stdout, "projpar   : a = %g  lon_0 = %g  lat_0 = %g\n", a, lon_0, lat_0);
	    }
	  
	  if ( gridtype == GRID_LCC2 )
	    {
	      double a, lon_0, lat_0, lat_1, lat_2;
	      gridInqLcc2(gridID, &a, &lon_0, &lat_0, &lat_1, &lat_2);
	      fprintf(stdout, "%*s", nbyte0, "");
	      fprintf(stdout, "projpar   : a = %7.0f  lon_0 = %g  lat_0 = %g  lat_1 = %g  lat_2 = %g\n",
		      a, lon_0, lat_0, lat_1, lat_2);
	    }
	}
      else if ( gridtype == GRID_SPECTRAL )
	{
	  fprintf(stdout, "size      : dim = %d  truncation = %d  spc = %d\n",
		  gridsize, trunc, gridsize/2);
	}
      else if ( gridtype == GRID_GME )
	{
	  int ni, nd;
	  ni = gridInqGMEni(gridID);
	  nd = gridInqGMEnd(gridID);
	  fprintf(stdout, "size      : dim = %d  nd = %d  ni = %d\n", gridsize, nd, ni);
	}
      else if ( gridtype == GRID_CURVILINEAR || gridtype == GRID_CELL )
	{
	  if ( gridtype == GRID_CURVILINEAR )
	    fprintf(stdout, "size      : dim = %d  nx = %d  ny = %d\n", gridsize, xsize, ysize);
	  else
	    fprintf(stdout, "size      : dim = %d  nvertex = %d\n", gridsize, gridInqNvertex(gridID));

	  if ( gridInqXvals(gridID, NULL) && gridInqYvals(gridID, NULL) )
	    {
	      int i;
	      double *xvals, *yvals;
	      double xfirst, xlast, yfirst, ylast;
	      xvals = (double *) malloc(gridsize*sizeof(double));
	      yvals = (double *) malloc(gridsize*sizeof(double));

	      gridInqXvals(gridID, xvals);
	      gridInqYvals(gridID, yvals);

	      xfirst = xvals[0];
	      xlast  = xvals[0];
	      yfirst = yvals[0];
	      ylast  = yvals[0];
	      for ( i = 1; i < gridsize; i++ )
		{
		  if ( xvals[i] < xfirst ) xfirst = xvals[i];
		  if ( xvals[i] > xlast )  xlast  = xvals[i];
		  if ( yvals[i] < yfirst ) yfirst = yvals[i];
		  if ( yvals[i] > ylast )  ylast  = yvals[i];
		}

	      fprintf(stdout, "%*s", nbyte0, "");
	      fprintf(stdout, "%-9s : min = %.9g  max = %.9g  %s", xname, xfirst, xlast, xunits);
	      if ( gridIsCircular(gridID) )
		fprintf(stdout, "  circular");
	      fprintf(stdout, "\n");
	      fprintf(stdout, "%*s", nbyte0, "");
	      fprintf(stdout, "%-9s : min = %.9g  max = %.9g  %s\n", yname, yfirst, ylast, yunits);
	      
	      free(xvals);
	      free(yvals);
	    }
	}
      else if ( gridtype == GRID_LCC )
	{
	  double originLon, originLat, lonParY, lat1, lat2, xincm, yincm;
	  int projflag, scanflag;

	  gridInqLCC(gridID, &originLon, &originLat, &lonParY, &lat1, &lat2, &xincm, &yincm,
		     &projflag, &scanflag);

	  fprintf(stdout, "size      : dim = %d  nx = %d  ny = %d  ", gridsize, xsize, ysize);
	  if ( (projflag&128) == 0 )
	    fprintf(stdout, "North Pole\n");
	  else
	    fprintf(stdout, "South Pole\n");
	  fprintf(stdout, "%*s", nbyte0, "");	  
	  fprintf(stdout, "            originLon = %g  originLat = %g  lonParY = %g\n",
		  originLon, originLat, lonParY);
	  fprintf(stdout, "%*s", nbyte0, "");	  
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	  fprintf(stdout, "            lat1 = %g  lat2 = %g  xinc = %g m  yinc = %g m\n", 
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		  lat1, lat2, xincm, yincm);
	}
      else /* if ( gridtype == GRID_GENERIC ) */
	{
	  if ( ysize == 0 )
	    fprintf(stdout, "size      : dim = %d\n", gridsize);
	  else
	    {
	      fprintf(stdout, "size      : dim = %d  nx = %d  ny = %d\n", gridsize, xsize, ysize);
	      if ( gridIsCircular(gridID) )
		{
		  fprintf(stdout, "%*s", nbyte0, "");	  
		  fprintf(stdout, "longitude :  circular\n");
		}
	    }
	}

      if ( gridtype == GRID_CURVILINEAR || gridtype == GRID_CELL ||
	   gridtype == GRID_GENERIC || gridtype == GRID_LCC )
	{
	  if ( gridInqXvals(gridID, NULL) || gridInqYvals(gridID, NULL) || gridHasArea(gridID) ||
	       gridInqXbounds(gridID, NULL) || gridInqYbounds(gridID, NULL) )
	    {
	      fprintf(stdout, "%*s", nbyte0, "");
	      fprintf(stdout, "available :");
	      if ( gridInqXvals(gridID, NULL) )   fprintf(stdout, " xvals");
	      if ( gridInqYvals(gridID, NULL) )   fprintf(stdout, " yvals");
	      if ( gridInqXbounds(gridID, NULL) ) fprintf(stdout, " xbounds");
	      if ( gridInqYbounds(gridID, NULL) ) fprintf(stdout, " ybounds");
	      if ( gridHasArea(gridID) )          fprintf(stdout, " area");
	      fprintf(stdout, "\n");
	    }
	}
    }
}