#DEFINITIONS:  -*-sh-*-
#This file was generated by arts_file_from_command_list 
#in the PyARTS python module

Main{

output_file_formatSetAscii{
}

IndexSet(nelem){
value=1
}

VectorSet(f_grid){
value=230000000000.0
}

IndexSet(f_index){
value=0
}

IndexSet(stokes_dim){
value=4
}

AtmosphereSet3D{
}

ReadXML(p_grid){
filename="data/p_grid.xml"
}

ReadXML(lat_grid){
filename="data/lat_grid.xml"
}

ReadXML(lon_grid){
filename="data/lon_grid.xml"
}

gas_speciesSet{
species=["O2","N2","H2O"]
}

AtmRawRead{
basename="data/tropical"
}

AtmFieldsCalcExpand1D{
}

r_geoidSpherical{
r=-1
}

nrowsGet(r_geoid){
}

ncolsGet(r_geoid){
}

MatrixSet(z_surface){
value=500.0
}

AgendaSet(iy_surface_agenda){
  InterpAtmFieldToRteGps( surface_skin_t, t_field ){}
  surfaceBlackbody{
  }
  surfaceCalc{
  }
}

gas_abs_lookupInit{
}

ReadXML(gas_abs_lookup){
filename="data/gas_abs_lookup.xml"
}

gas_abs_lookupAdapt{
}

AgendaSet(scalar_gas_absorption_agenda){
  abs_scalar_gasExtractFromLookup{
}

}

AgendaSet(opt_prop_gas_agenda){
  ext_matInit{
  }
  abs_vecInit{
  }
  ext_matAddGas{
  }
  abs_vecAddGas{
  }
}

cloudboxSetManually{
p1=21617.7922264
p2=17111.6808705
lat1=-1.8
lat2=1.8
lon1=-1.8
lon2=1.8
}

ParticleTypeInit{
}

ParticleTypeAdd{
filename_scat_data="data/p30f229-231T214-225r100NP-1ar1_5ice.xml"
filename_pnd_field=""
}

ReadXML(pnd_field_raw){
filename="data/pnd_field.xml"
}

pnd_fieldCalc{
}

AgendaSet(spt_calc_agenda){
  opt_prop_sptFromMonoData{
  }
}

scat_data_monoCalc{
}

AgendaSet(iy_space_agenda){
  MatrixCBR(iy,f_grid){
  }
}

AgendaSet(ppath_step_agenda){
  ppath_stepGeometric{
    lmax=-1
  }
}

AgendaSet(rte_agenda){
  RteEmissionStd{
  }
}


ReadXML(mc_incoming){
filename="data/mc_incoming.xml"
}

AgendaSet( iy_cloudbox_agenda ){
  ScatteringMonteCarlo{
    std_err=0.5
    max_time=20
    max_iter=-1
    rng_seed=-1
    incoming_lookup=1
    z_field_is_1D=1
  }
}


rte_losSet{
za=99.7841941981
aa=180
}

rte_posSet{
r_or_z=95000.1
lat=7.61968838781
lon=0
}

rte_posAddRgeoid{
}

Matrix1RowFromVector(sensor_pos,rte_pos){
}

Matrix1RowFromVector(sensor_los,rte_los){
}

AntennaSet1D{
}

VectorSet(mblock_za_grid){
value=0
}

sensorOff{
}

RteCalc{
}

VectorToTbByRJ(y,y){
}

Print(y){
level=1
}

VectorToTbByRJ(mc_error,mc_error){
}

Print(mc_error){
level=1
}


Print(mc_iteration_count){
level=1
}


}