enum {
  XF_RF_DATA_NULL=0,
  XF_RF_DATA_NULL_M1=0,
  XF_RF_DATA_NULL_M2=0,
  XF_RF_DATA_NULL_MEAN=0,
  XF_RF_DATA_NULL_RMS=0,
  XF_RF_DATA_PRESSURE=1,
  XF_RF_DATA_MOMENTUM=2,
  XF_RF_DATA_TEMPERATURE=3,
  XF_RF_DATA_ENTHALPY=4,
  XF_RF_DATA_TKE=5,
  XF_RF_DATA_TED=6,
  XF_RF_DATA_SPECIES=7,
  XF_RF_DATA_G=8,
  XF_RF_DATA_G_M1=0, /* never stored but symbol is required */
  XF_RF_DATA_G_M2=0,
  XF_RF_DATA_WSWIRL=9,
  XF_RF_DATA_DPMS_MASS=10,
  XF_RF_DATA_DPMS_MOM=11,
  XF_RF_DATA_DPMS_ENERGY=12,
  XF_RF_DATA_DPMS_SPECIES=13,
  XF_RF_DATA_DVOLUME_DT=14,
  XF_RF_DATA_BODY_FORCES=15,
  XF_RF_DATA_FMEAN=16,
  XF_RF_DATA_FVAR=17,
  XF_RF_DATA_MASS_FLUX=18,
  XF_RF_DATA_WALL_SHEAR=19,
  XF_RF_DATA_BOUNDARY_HEAT_FLUX=20,
  XF_RF_DATA_BOUNDARY_RAD_HEAT_FLUX=21,
  XF_RF_DATA_OLD_PRESSURE=22,
  XF_RF_DATA_POLLUT=23,
  XF_RF_DATA_DPMS_P1_S=24,
  XF_RF_DATA_DPMS_P1_AP=25,
  XF_RF_DATA_WALL_GAS_TEMPERATURE=26,
  XF_RF_DATA_DPMS_P1_DIFF=27,
  XF_RF_DATA_DR_SURF=28,

  /* conserved variables at n-1 and n-2 time levels (rampant) */
  XF_RF_DATA_W_M1=29,
  XF_RF_DATA_W_M2=30,

  XF_RF_DATA_DPMS_BURNOUT=31,
  XF_RF_DATA_DPMS_CONCENTRATION=32,
  XF_RF_DATA_PDF_MW=33,
  XF_RF_DATA_DPMS_WSWIRL=34,
  XF_RF_DATA_YPLUS=35,
  XF_RF_DATA_YPLUS_UTAU=36,
  XF_RF_DATA_WALL_SHEAR_SWIRL=37,

  XF_RF_DATA_WALL_T_INNER=38,
  XF_RF_DATA_POLLUT0=39,
  XF_RF_DATA_POLLUT1=40,
  XF_RF_DATA_WALL_G_INNER=41,
  XF_RF_DATA_PREMIXC=42,
  XF_RF_DATA_PREMIXC_T=43,
  XF_RF_DATA_PREMIXC_RATE=44,
  XF_RF_DATA_POLLUT2=45,
  XF_RF_DATA_POLLUT3=46,
  
  XF_RF_DATA_MASS_FLUX_M1=47,
  XF_RF_DATA_MASS_FLUX_M2=48,
  XF_RF_DATA_GRID_FLUX=49,

  XF_RF_DATA_DO_I=50,
  XF_RF_DATA_DO_RECON_I=51,
  XF_RF_DATA_DO_ENERGY_SOURCE=52,
  XF_RF_DATA_DO_IRRAD=53,
  XF_RF_DATA_DO_QMINUS=54,
  XF_RF_DATA_DO_IRRAD_OLD=55,
  XF_RF_DATA_DO_IWX=56,
  XF_RF_DATA_DO_IWY=57,
  XF_RF_DATA_DO_IWZ=58,

  XF_RF_DATA_MACH=59,

  XF_RF_DATA_SLIP_U=60,
  XF_RF_DATA_SLIP_V=61,
  XF_RF_DATA_SLIP_W=62,

  XF_RF_DATA_SDR=63,          /* omega in the k-w model */
  XF_RF_DATA_SDR_M1=64, 
  XF_RF_DATA_SDR_M2=65,

  XF_RF_DATA_POLLUT4=66,
  XF_RF_DATA_GRANULAR_TEMPERATURE = 67,
  XF_RF_DATA_GRANULAR_TEMPERATURE_M1 = 68,
  XF_RF_DATA_GRANULAR_TEMPERATURE_M2 = 69,

  XF_RF_DATA_VFLUX=70,     

  XF_RF_DATA_VFLUX_M1=80,

  XF_RF_DATA_VFLUX_M2=90,

  XF_RF_DATA_DO_QTRANS=92,
  XF_RF_DATA_DO_QREFL=93,
  XF_RF_DATA_DO_QABS=94,

  XF_RF_DATA_DENSITY=101,
  XF_RF_DATA_MU_LAM=102,
  XF_RF_DATA_MU_TURB=103,
  XF_RF_DATA_CP=104,
  XF_RF_DATA_KTC=105,
  XF_RF_DATA_VGS_DTRM=106,
  XF_RF_DATA_VGF_DTRM=107,
  XF_RF_DATA_RSTRESS=108,	/* V4 reynolds stress model */
  XF_RF_DATA_THREAD_RAD_FLUX=109,

  /* mass absorption term for absorbing porous media model */
  XF_RF_DATA_SPE_Q=110,

  XF_RF_DATA_X_VELOCITY=111,
  XF_RF_DATA_Y_VELOCITY=112,
  XF_RF_DATA_Z_VELOCITY=113,
  XF_RF_DATA_WALL_VELOCITY=114,

  XF_RF_DATA_PRESSURE_M1=0,    /* never stored but symbol is required */
  XF_RF_DATA_X_VELOCITY_M1=115,
  XF_RF_DATA_Y_VELOCITY_M1=116,
  XF_RF_DATA_Z_VELOCITY_M1=117,
  
  XF_RF_DATA_PHASE_MASS=118,    /* cavitation mass source */
  XF_RF_DATA_TEMPERATURE_M1=0,  /* never stored but symbol is required
*/
  XF_RF_DATA_TKE_M1=119,
  XF_RF_DATA_TED_M1=120,

  XF_RF_DATA_PRESSURE_M2=0,  /* never stored but symbol is required */
  XF_RF_DATA_X_VELOCITY_M2=122,
  XF_RF_DATA_Y_VELOCITY_M2=123,
  XF_RF_DATA_Z_VELOCITY_M2=124,
  XF_RF_DATA_TEMPERATURE_M2=0, /* never stored but symbol is required */
  XF_RF_DATA_TKE_M2=126,
  XF_RF_DATA_TED_M2=127,

  XF_RF_DATA_RUU=128,	/* V5 reynolds stress model */
  XF_RF_DATA_RVV=129,	/* V5 reynolds stress model */
  XF_RF_DATA_RWW=130,	/* V5 reynolds stress model */
  XF_RF_DATA_RUV=131,	/* V5 reynolds stress model */
  XF_RF_DATA_RVW=132,	/* V5 reynolds stress model */
  XF_RF_DATA_RUW=133,	/* V5 reynolds stress model */
  
  XF_RF_DATA_DPMS_EROSION=134,
  XF_RF_DATA_DPMS_ACCRETION=135,

  XF_RF_DATA_FMEAN2=136,
  XF_RF_DATA_FVAR2=137,

  XF_RF_DATA_ENTHALPY_M1=138,
  XF_RF_DATA_ENTHALPY_M2=139,

  XF_RF_DATA_FMEAN_M1=140,
  XF_RF_DATA_FMEAN_M2=141,
  XF_RF_DATA_FVAR_M1=142,
  XF_RF_DATA_FVAR_M2=143,
  XF_RF_DATA_FMEAN2_M1=144,
  XF_RF_DATA_FMEAN2_M2=145,
  XF_RF_DATA_FVAR2_M1=146,
  XF_RF_DATA_FVAR2_M2=147,

  XF_RF_DATA_PREMIXC_M1=148,
  XF_RF_DATA_PREMIXC_M2=149,

  /*vof 1,2,3,4 kept for v5 compatibility */
  XF_RF_DATA_VOF = 150, 
  XF_RF_DATA_VOF_1 = 151, 
  XF_RF_DATA_VOF_2 = 152, 
  XF_RF_DATA_VOF_3 = 153, 
  XF_RF_DATA_VOF_4 = 154, 

  XF_RF_DATA_VOF_M1 = 160 , 
  XF_RF_DATA_VOF_1_M1 = 161 , 
  XF_RF_DATA_VOF_2_M1 = 162 , 
  XF_RF_DATA_VOF_3_M1 = 163 ,
  XF_RF_DATA_VOF_4_M1 = 164 , 

  XF_RF_DATA_VOF_M2 = 170 ,
  XF_RF_DATA_VOF_1_M2 = 171 ,
  XF_RF_DATA_VOF_2_M2 = 172 ,
  XF_RF_DATA_VOF_3_M2 = 173 ,
  XF_RF_DATA_VOF_4_M2 = 174 ,

  /* dynamic mesh */
  XF_RF_DATA_VOLUME_M2 = 180 ,
  XF_RF_DATA_WALL_GRID_VELOCITY = 181 ,


  XF_RF_DATA_SV_T_AUX = 190 ,                /* auxilliary temperature
for particles */
  XF_RF_DATA_SV_T_AP_AUX = 191 ,             /* auxilliary ap
coefficient for particles */
  XF_RF_DATA_TOTAL_PRESSURE=192,
  XF_RF_DATA_TOTAL_TEMPERATURE=193,
  XF_RF_DATA_NRBC_DC=194,                    /* change in char. var for
nrbc*/

  
  EXPAND_50_EQUAL(XF_RF_DATA_Y_,       200), /* species */
  EXPAND_50(XF_RF_DATA_Y_,_M1=,        250), /* species at fist time
level */
  EXPAND_50(XF_RF_DATA_Y_,_M2=,        300), /* species at second time
level */
  EXPAND_50_EQUAL(XF_RF_DATA_DR_SURF_, 350), /* surface deposition rate
*/

  /* Please start next XF_RF_DATA_ subsection ids at 400 or above
   * to allow room for the addition of more species ids if needed */

  XF_RF_DATA_PRESSURE_MEAN=400,
  XF_RF_DATA_PRESSURE_RMS=401,
  XF_RF_DATA_X_VELOCITY_MEAN=402,
  XF_RF_DATA_X_VELOCITY_RMS=403,
  XF_RF_DATA_Y_VELOCITY_MEAN=404,
  XF_RF_DATA_Y_VELOCITY_RMS=405,
  XF_RF_DATA_Z_VELOCITY_MEAN=406,
  XF_RF_DATA_Z_VELOCITY_RMS=407,
  XF_RF_DATA_TEMPERATURE_MEAN=408,
  XF_RF_DATA_TEMPERATURE_RMS=409,
  XF_RF_DATA_VOF_MEAN=410,
  XF_RF_DATA_VOF_RMS=411,
  EXPAND_50_EQUAL(XF_RF_DATA_DPMS_Y_,450),
  
  /* Don't add section ids here unless you need a large contiguous
chunk.
   * Use id's 40-100 first! */
  XF_RF_DATA_NUT=500,
  XF_RF_DATA_NUT_M1=501,
  XF_RF_DATA_NUT_M2=502,
  
  XF_RF_DATA_RUU_M1=503,	
  XF_RF_DATA_RVV_M1=504,	
  XF_RF_DATA_RWW_M1=505,	
  XF_RF_DATA_RUV_M1=506,	
  XF_RF_DATA_RVW_M1=507,	
  XF_RF_DATA_RUW_M1=508,
  
  XF_RF_DATA_RUU_M2=509,	
  XF_RF_DATA_RVV_M2=510,	
  XF_RF_DATA_RWW_M2=511,	
  XF_RF_DATA_RUV_M2=512,	
  XF_RF_DATA_RVW_M2=513,	
  XF_RF_DATA_RUW_M2=514,

  XF_RF_DATA_ENERGY_M1=515,
  XF_RF_DATA_ENERGY_M2=516,

  XF_RF_DATA_DENSITY_M1=517,
  XF_RF_DATA_DENSITY_M2=518,
  
  XF_RF_DATA_DPMS_PDF_1=519,
  XF_RF_DATA_DPMS_PDF_2=520,

  /* shell: using 530->539 */
  XF_RF_DATA_SHELL_CELL_T=530,
  XF_RF_DATA_SHELL_FACE_T=531,

  XF_RF_DATA_DELH=600,                /* obsolete  for >= v6.0*/
  XF_RF_DATA_DPMS_MOM_AP=601,
  XF_RF_DATA_DPMS_WSWIRL_AP=602,
  XF_RF_DATA_X_PULL=603,
  XF_RF_DATA_Y_PULL=604,
  XF_RF_DATA_Z_PULL=605,
  XF_RF_DATA_LIQF=606,

  /* pdf transport */
  XF_RF_DATA_PDFT_QBAR=610,
  XF_RF_DATA_PDFT_PHI=611,
  XF_RF_DATA_PDFT_Q_TA=612,
  XF_RF_DATA_PDFT_SVOL_TA=613,
  XF_RF_DATA_PDFT_MASS_TA=614,

  EXPAND_50_EQUAL(XF_RF_DATA_UDS_,700), /* user defined scalar */
  EXPAND_50(XF_RF_DATA_UDS_,_M1=, 750), /* user defined scalar
				         * at fist time level */
  EXPAND_50(XF_RF_DATA_UDS_,_M2=, 800),  /* user defined scalar
					 * at second time level */
  XF_RF_DATA_GRANULAR_PRESSURE=910,
  XF_RF_DATA_GRANULAR_PRESSURE_M1=0,/* never stored but symbol is
required */
  XF_RF_DATA_GRANULAR_PRESSURE_M2=0,/* never stored but symbol is
required */

  XF_RF_DATA_UDM_I=970,

  /* Don't add section ids here unless you need a large contiguous
chunk.
   * Use id's 40-100 and 128-200 first! */


  EXPAND_50(XF_RF_DATA_Y_,_MEAN=,    1000), /*  time average species */
  EXPAND_50(XF_RF_DATA_Y_,_RMS=,     1050), /*  RMS species  */

  EXPAND_50_EQUAL(XF_RF_DATA_Y_EDC_,  1100), /* EDC species */
  EXPAND_50_EQUAL(XF_RF_DATA_DPMS_SURFACE_SPECIES_,  1150) /* particle
surface species */

};