/*+++++++++++++++++++++++++
.IDENTifer SCIA_LV2_WR_ASCII_SQADS
.PURPOSE dump -- in ASCII Format -- the SQADS
.INPUT/OUTPUT
call as SCIA_LV2_WR_ASCII_SQADS( param, num_dsr, sqads );
input:
struct param_record param : struct holding user-defined settings
unsigned int num_dsr : number of data sets
struct sqads2_scia *sqads : pointer to SQADS records
.RETURNS Nothing, error status passed by global variable ``nadc_stat''
.COMMENTS None
-------------------------*/
void SCIA_LV2_WR_ASCII_SQADS( struct param_record param, unsigned int num_dsr,
const struct sqads2_scia *sqads )
{
register unsigned int nd, nr;
char date_str[UTC_STRING_LENGTH];
unsigned int count[2];
FILE *outfl = CRE_ASCII_File( param.outfile, "sqads" );
if ( outfl == NULL || IS_ERR_STAT_FATAL )
NADC_RETURN_ERROR( NADC_ERR_FILE_CRE, param.outfile );
/*
* write ASCII dump of SQADS record
*/
nadc_write_header( outfl, 0, param.infile,
"Summary of Quality Flags per State" );
for ( nd = 0; nd < num_dsr; nd++ ) {
nr = 1;
(void) MJD_2_ASCII( sqads[nd].mjd.days, sqads[nd].mjd.secnd,
sqads[nd].mjd.musec, date_str );
nadc_write_text( outfl, nr++, "Date", date_str );
nadc_write_uchar( outfl, nr++, "MDS DSR attached",
sqads[nd].flag_mds );
count[0] = NL2_SQADS_PQF_FLAGS;
nadc_write_arr_uchar( outfl, nr++, "summary of quality (PQF)",
1, count, sqads[nd].flag_pqf );
}
(void) fclose( outfl );
}
/*+++++++++++++++++++++++++ Main Program or Function +++++++++++++++*/
void ENVI_WR_ASCII_MPH( struct param_record param,
const struct mph_envi *mph )
{
register unsigned int nr = 0;
FILE *outfl = CRE_ASCII_File( param.outfile, "mph" );
if ( outfl == NULL || IS_ERR_STAT_FATAL )
NADC_RETURN_ERROR( NADC_ERR_FILE_CRE, param.outfile );
/*
* write ASCII dump of MPH record
*/
nadc_write_header( outfl, nr, param.infile, "Main Product Header" );
nadc_write_text( outfl, ++nr, "PRODUCT", mph->product );
nadc_write_text( outfl, ++nr, "PROC_STAGE", mph->proc_stage );
nadc_write_text( outfl, ++nr, "REF_DOC", mph->ref_doc );
nr++; /* spare_1 */
nadc_write_text( outfl, ++nr, "ACQUISITION_STATION", mph->acquis );
nadc_write_text( outfl, ++nr, "PROC_CENTER", mph->proc_center );
nadc_write_text( outfl, ++nr, "PROC_TIME", mph->proc_time );
nadc_write_text( outfl, ++nr, "SOFTWARE_VER", mph->soft_version );
nr++; /* spare_2 */
nadc_write_text( outfl, ++nr, "SENSING_START", mph->sensing_start );
nadc_write_text( outfl, ++nr, "SENSING_STOP", mph->sensing_stop );
nr++; /* spare_3 */
nadc_write_text( outfl, ++nr, "PHASE", mph->phase );
nadc_write_short( outfl, ++nr, "CYCLE", mph->cycle );
nadc_write_int( outfl, ++nr, "REL_ORBIT", mph->rel_orbit );
nadc_write_int( outfl, ++nr, "ABS_ORBIT", mph->abs_orbit );
nadc_write_text( outfl, ++nr, "STATE_VECTOR_TIME", mph->state_vector );
nadc_write_double( outfl, ++nr, "DELTA_UT1", 3, mph->delta_ut );
nadc_write_double( outfl, ++nr, "X_POSITION", 3, mph->x_position );
nadc_write_double( outfl, ++nr, "Y_POSITION", 3, mph->y_position );
nadc_write_double( outfl, ++nr, "Z_POSITION", 3, mph->z_position );
nadc_write_double( outfl, ++nr, "X_VELOCITY", 6, mph->x_velocity );
nadc_write_double( outfl, ++nr, "Y_VELOCITY", 6, mph->y_velocity );
nadc_write_double( outfl, ++nr, "Z_VELOCITY", 6, mph->z_velocity );
nr++; /* spare_4 */
nadc_write_text( outfl, ++nr, "VECTOR_SOURCE", mph->vector_source );
nadc_write_text( outfl, ++nr, "UTC_SBT_TIME", mph->utc_sbt_time );
nadc_write_uint( outfl, ++nr, "SAT_BINARY_TIME", mph->sat_binary_time );
nadc_write_uint( outfl, ++nr, "CLOCK_STEP", mph->clock_step );
nr++; /* spare_5 */
nadc_write_text( outfl, ++nr, "LEAP_UTC", mph->leap_utc );
nadc_write_short( outfl, ++nr, "LEAP_SIGN", mph->leap_sign );
nadc_write_text( outfl, ++nr, "LEAP_ERR", mph->leap_err );
nr++; /* spare_6 */
nadc_write_text( outfl, ++nr, "PRODUCT_ERR", mph->product_err );
nadc_write_uint( outfl, ++nr, "TOT_SIZE", mph->tot_size );
nadc_write_uint( outfl, ++nr, "SPH_SIZE", mph->sph_size );
nadc_write_uint( outfl, ++nr, "NUM_DSD", mph->num_dsd );
nadc_write_uint( outfl, ++nr, "DSD_SIZE", mph->dsd_size );
nadc_write_uint( outfl, ++nr, "NUM_DATA_SETS", mph->num_data_sets );
nr++; /* spare_7 */
(void) fclose( outfl );
}
/*+++++++++++++++++++++++++
.IDENTifer SCIA_LV2_WR_ASCII_GEO
.PURPOSE dump -- in ASCII Format -- the records
.INPUT/OUTPUT
call as SCIA_LV2_WR_ASCII_GEO( param, num_dsr, geo );
input:
struct param_record param : struct holding user-defined settings
unsigned int num_dsr : number of data sets
struct geo_scia *geo : pointer to Geolocation records
.RETURNS Nothing, error status passed by global variable ``nadc_stat''
.COMMENTS None
-------------------------*/
void SCIA_LV2_WR_ASCII_GEO( struct param_record param, unsigned int num_dsr,
const struct geo_scia *geo )
{
register unsigned int nd, ni, nr, ny;
char date_str[UTC_STRING_LENGTH];
double rbuff[2 * 4];
unsigned int count[2];
FILE *outfl = CRE_ASCII_File( param.outfile, "geo" );
if ( outfl == NULL || IS_ERR_STAT_FATAL )
NADC_RETURN_ERROR( NADC_ERR_FILE_CRE, param.outfile );
/*
* write ASCII dump of GEO record
*/
nadc_write_header( outfl, 0, param.infile,
"Geolocation Data set(s)" );
for ( nd = 0; nd < num_dsr; nd++ ) {
nr = 0;
(void) MJD_2_ASCII( geo[nd].mjd.days, geo[nd].mjd.secnd,
geo[nd].mjd.musec, date_str );
nadc_write_text( outfl, ++nr, "Date", date_str );
nadc_write_uchar( outfl, ++nr, "MDS DSR attached",
geo[nd].flag_mds );
nadc_write_ushort( outfl, ++nr, "Integration time",
geo[nd].intg_time );
count[0] = 3;
nadc_write_arr_float( outfl, ++nr, "Solar zenith angles",
1, count, 5, geo[nd].sun_zen_ang );
nadc_write_arr_float( outfl, ++nr, "Line-of-Sight zenith angles",
1, count, 5, geo[nd].los_zen_ang );
nadc_write_arr_float( outfl, ++nr, "Relative Azimuth angles",
1, count, 5, geo[nd].rel_azi_ang );
nadc_write_float( outfl, ++nr, "Satellite geodetic height",
5, geo[nd].sat_h );
nadc_write_float( outfl, ++nr, "Earth radius",
5, geo[nd].earth_rad );
count[0] = 2;
count[1] = 4;
for ( ni = ny = 0; ny < count[1]; ny++ ) {
rbuff[ni++] = geo[nd].corner[ny].lat / 1e6;
rbuff[ni++] = geo[nd].corner[ny].lon / 1e6;
}
nadc_write_arr_double( outfl, ++nr, "Corner coordinates",
2, count, 6, rbuff );
rbuff[0] = geo[nd].center.lat / 1e6;
rbuff[1] = geo[nd].center.lon / 1e6;
nadc_write_arr_double( outfl, ++nr, "Center coordinates",
1, count, 6, rbuff );
}
(void) fclose( outfl );
}
/*+++++++++++++++++++++++++
.IDENTifer SCIA_LV2_WR_ASCII_STATE
.PURPOSE dump -- in ASCII Format -- the STATE records
.INPUT/OUTPUT
call as SCIA_LV2_WR_ASCII_STATE( param, num_dsr, state );
input:
struct param_record param : struct holding user-defined settings
unsigned int num_dsr : number of data sets
struct state2_scia *state : pointer to STATE records
.RETURNS Nothing, error status passed by global variable ``nadc_stat''
.COMMENTS None
-------------------------*/
void SCIA_LV2_WR_ASCII_STATE( struct param_record param, unsigned int num_dsr,
const struct state2_scia *state )
{
register unsigned int nd, nr;
char date_str[UTC_STRING_LENGTH];
FILE *outfl = CRE_ASCII_File( param.outfile, "state" );
if ( outfl == NULL || IS_ERR_STAT_FATAL )
NADC_RETURN_ERROR( NADC_ERR_FILE_CRE, param.outfile );
/*
* write ASCII dump of STATE record
*/
nadc_write_header( outfl, 0, param.infile, "States of the Product" );
for ( nd = 0; nd < num_dsr; nd++ ) {
nr = 1;
(void) MJD_2_ASCII( state[nd].mjd.days, state[nd].mjd.secnd,
state[nd].mjd.musec, date_str );
nadc_write_text( outfl, nr, "MJD (Date Time)", date_str );
nadc_write_double( outfl, nr++, "MJD (Julian Day)", 16,
(double) state[nd].mjd.days +
((state[nd].mjd.secnd + state[nd].mjd.musec / 1e6)
/ (24. * 60 * 60)) );
nadc_write_uchar( outfl, nr++, "MDS DSR attached",
state[nd].flag_mds );
nadc_write_ushort( outfl, nr++, "State ID",
state[nd].state_id );
nadc_write_ushort( outfl, nr++, "Duration of scan phase",
state[nd].duration );
nadc_write_ushort( outfl, nr++, "Longest integration time",
state[nd].longest_intg_time );
nadc_write_ushort( outfl, nr++, "Shortest integration time",
state[nd].shortest_intg_time );
nadc_write_ushort( outfl, nr++, "Number of Observations",
state[nd].num_obs_state );
}
(void) fclose( outfl );
}
/*+++++++++++++++++++++++++ Main Program or Function +++++++++++++++*/
void SCIA_OL2_WR_ASCII_SPH( struct param_record param,
const struct sph_sci_ol *sph )
{
register unsigned int nr = 0;
FILE *outfl = CRE_ASCII_File( param.outfile, "sph" );
if ( outfl == NULL || IS_ERR_STAT_FATAL )
NADC_RETURN_ERROR( NADC_ERR_FILE_CRE, param.outfile );
/*
* write ASCII dump of SPH record
*/
nadc_write_header( outfl, nr, param.infile,
"Specific Product Header of Level 2 Product" );
nadc_write_text( outfl, ++nr, "SPH_DESCRIPTOR", sph->descriptor );
nadc_write_short( outfl, ++nr, "STRIPLINE_CONTINUITY_INDICATOR",
sph->stripline );
nadc_write_short( outfl, ++nr, "SLICE_POSITION", sph->slice_pos );
nadc_write_ushort( outfl, ++nr, "NUM_SLICES", sph->no_slice );
nadc_write_text( outfl, ++nr, "START_TIME", sph->start_time );
nadc_write_text( outfl, ++nr, "STOP_TIME", sph->stop_time );
nadc_write_double( outfl, ++nr, "START_LAT", 6, sph->start_lat );
nadc_write_double( outfl, ++nr, "START_LON", 6, sph->start_lon );
nadc_write_double( outfl, ++nr, "STOP_LAT", 6, sph->stop_lat );
nadc_write_double( outfl, ++nr, "STOP_LON", 6, sph->stop_lon );
if ( strlen( sph->decont ) == 0 )
nadc_write_text( outfl, ++nr, "DECONT", sph->decont );
else
++nr; /* spare_1 */
nadc_write_text( outfl, ++nr, "DB_SERVER_VER", sph->dbserver );
nadc_write_text( outfl, ++nr, "FITTING_ERROR_SUM", sph->errorsum );
/*
* Nadir
*/
nadc_write_ushort( outfl, ++nr, "NO_OF_NADIR_FITTING_WINDOWS",
sph->no_nadir_win );
nadc_write_text( outfl, ++nr, "NAD_FIT_WINDOW_UV0", sph->nadir_win_uv0 );
nadc_write_text( outfl, ++nr, "NAD_FIT_WINDOW_UV1", sph->nadir_win_uv1 );
nadc_write_text( outfl, ++nr, "NAD_FIT_WINDOW_UV2", sph->nadir_win_uv2 );
nadc_write_text( outfl, ++nr, "NAD_FIT_WINDOW_UV3", sph->nadir_win_uv3 );
nadc_write_text( outfl, ++nr, "NAD_FIT_WINDOW_UV4", sph->nadir_win_uv4 );
nadc_write_text( outfl, ++nr, "NAD_FIT_WINDOW_UV5", sph->nadir_win_uv5 );
nadc_write_text( outfl, ++nr, "NAD_FIT_WINDOW_UV6", sph->nadir_win_uv6 );
nadc_write_text( outfl, ++nr, "NAD_FIT_WINDOW_UV7", sph->nadir_win_uv7 );
nadc_write_text( outfl, ++nr, "NAD_FIT_WINDOW_UV8", sph->nadir_win_uv8 );
nadc_write_text( outfl, ++nr, "NAD_FIT_WINDOW_UV9", sph->nadir_win_uv9 );
nadc_write_text( outfl, ++nr, "NAD_FIT_WINDOW_IR0", sph->nadir_win_ir0 );
nadc_write_text( outfl, ++nr, "NAD_FIT_WINDOW_IR1", sph->nadir_win_ir1 );
nadc_write_text( outfl, ++nr, "NAD_FIT_WINDOW_IR2", sph->nadir_win_ir2 );
nadc_write_text( outfl, ++nr, "NAD_FIT_WINDOW_IR3", sph->nadir_win_ir3 );
nadc_write_text( outfl, ++nr, "NAD_FIT_WINDOW_IR4", sph->nadir_win_ir4 );
nadc_write_text( outfl, ++nr, "NAD_FIT_WINDOW_IR5", sph->nadir_win_ir5 );
/*
* Limb
*/
nadc_write_ushort( outfl, ++nr, "NO_OF_LIMB_FITTING_WINDOWS",
sph->no_limb_win );
nadc_write_text( outfl, ++nr, "LIM_FIT_WINDOW_PTH", sph->limb_win_pth );
nadc_write_text( outfl, ++nr, "LIM_FIT_WINDOW_UV0", sph->limb_win_uv0 );
nadc_write_text( outfl, ++nr, "LIM_FIT_WINDOW_UV1", sph->limb_win_uv1 );
nadc_write_text( outfl, ++nr, "LIM_FIT_WINDOW_UV2", sph->limb_win_uv2 );
nadc_write_text( outfl, ++nr, "LIM_FIT_WINDOW_UV3", sph->limb_win_uv3 );
nadc_write_text( outfl, ++nr, "LIM_FIT_WINDOW_UV4", sph->limb_win_uv4 );
nadc_write_text( outfl, ++nr, "LIM_FIT_WINDOW_UV5", sph->limb_win_uv5 );
nadc_write_text( outfl, ++nr, "LIM_FIT_WINDOW_UV6", sph->limb_win_uv6 );
nadc_write_text( outfl, ++nr, "LIM_FIT_WINDOW_UV7", sph->limb_win_uv7 );
nadc_write_text( outfl, ++nr, "LIM_FIT_WINDOW_IR0", sph->limb_win_ir0 );
nadc_write_text( outfl, ++nr, "LIM_FIT_WINDOW_IR1", sph->limb_win_ir1 );
nadc_write_text( outfl, ++nr, "LIM_FIT_WINDOW_IR2", sph->limb_win_ir2 );
nadc_write_text( outfl, ++nr, "LIM_FIT_WINDOW_IR3", sph->limb_win_ir3 );
nadc_write_text( outfl, ++nr, "LIM_FIT_WINDOW_IR4", sph->limb_win_ir4 );
/*
* Occultation
*/
nadc_write_ushort( outfl, ++nr, "NO_OF_OCCL_FITTING_WINDOWS",
sph->no_occl_win );
nadc_write_text( outfl, ++nr, "OCC_FIT_WINDOW_PTH", sph->occl_win_pth );
nadc_write_text( outfl, ++nr, "OCC_FIT_WINDOW_UV0", sph->occl_win_uv0 );
nadc_write_text( outfl, ++nr, "OCC_FIT_WINDOW_UV1", sph->occl_win_uv1 );
nadc_write_text( outfl, ++nr, "OCC_FIT_WINDOW_UV2", sph->occl_win_uv2 );
nadc_write_text( outfl, ++nr, "OCC_FIT_WINDOW_UV3", sph->occl_win_uv3 );
nadc_write_text( outfl, ++nr, "OCC_FIT_WINDOW_UV4", sph->occl_win_uv4 );
nadc_write_text( outfl, ++nr, "OCC_FIT_WINDOW_UV5", sph->occl_win_uv5 );
nadc_write_text( outfl, ++nr, "OCC_FIT_WINDOW_UV6", sph->occl_win_uv6 );
nadc_write_text( outfl, ++nr, "OCC_FIT_WINDOW_UV7", sph->occl_win_uv7 );
nadc_write_text( outfl, ++nr, "OCC_FIT_WINDOW_IR0", sph->occl_win_ir0 );
nadc_write_text( outfl, ++nr, "OCC_FIT_WINDOW_IR1", sph->occl_win_ir1 );
nadc_write_text( outfl, ++nr, "OCC_FIT_WINDOW_IR2", sph->occl_win_ir2 );
nadc_write_text( outfl, ++nr, "OCC_FIT_WINDOW_IR3", sph->occl_win_ir3 );
nadc_write_text( outfl, ++nr, "OCC_FIT_WINDOW_IR4", sph->occl_win_ir4 );
(void) fclose( outfl );
}
/*+++++++++++++++++++++++++ Main Program or Function +++++++++++++++*/
void MERIS_WR_ASCII_SPH( struct param_record param,
const struct sph_meris *sph )
{
register unsigned int nr = 0;
FILE *outfl = CRE_ASCII_File( param.outfile, "sph" );
if ( outfl == NULL || IS_ERR_STAT_FATAL )
NADC_RETURN_ERROR( NADC_ERR_FILE_CRE, param.outfile );
/*
* write ASCII dump of SPH record
*/
nadc_write_header( outfl, nr, param.infile,
"Specific Product Header of Level 1b Product" );
nadc_write_text( outfl, ++nr, "SPH_DESCRIPTOR", sph->descriptor );
nadc_write_short( outfl, ++nr, "STRIPLINE_CONTINUITY_INDICATOR",
sph->stripline );
nadc_write_short( outfl, ++nr, "SLICE_POSITION", sph->slice_pos );
nadc_write_ushort( outfl, ++nr, "NUM_SLICES", sph->num_slices );
nadc_write_text( outfl, ++nr, "FIRST_LINE_TIME", sph->start_time );
nadc_write_text( outfl, ++nr, "LAST_LINE_TIME", sph->stop_time );
nadc_write_double( outfl, ++nr, "FIRST_FIRST_LAT",
6, sph->first_first_lat );
nadc_write_double( outfl, ++nr, "FIRST_FIRST_LONG",
6, sph->first_first_lon );
nadc_write_double( outfl, ++nr, "FIRST_MID_LAT", 6, sph->first_mid_lat );
nadc_write_double( outfl, ++nr, "FIRST_MID_LONG", 6, sph->first_mid_lon );
nadc_write_double( outfl, ++nr, "FIRST_LAST_LAT",
6, sph->first_last_lat );
nadc_write_double( outfl, ++nr, "FIRST_LAST_LONG",
6, sph->first_last_lon );
nadc_write_double( outfl, ++nr, "LAST_FIRST_LAT",
6, sph->last_first_lat );
nadc_write_double( outfl, ++nr, "LAST_FIRST_LONG",
6, sph->last_first_lon );
nadc_write_double( outfl, ++nr, "LAST_MID_LAT", 6, sph->last_mid_lat );
nadc_write_double( outfl, ++nr, "LAST_MID_LONG", 6, sph->last_mid_lon );
nadc_write_double( outfl, ++nr, "LAST_LAST_LAT", 6, sph->last_last_lat );
nadc_write_double( outfl, ++nr, "LAST_LAST_LONG", 6, sph->last_last_lon );
nr++; /* spare_1 */
nadc_write_bool( outfl, ++nr, "TRANS_ERR_FLAG", sph->trans_err );
nadc_write_bool( outfl, ++nr, "FORMAT_ERR_FLAG", sph->format_err );
nadc_write_bool( outfl, ++nr, "DATABASE_FLAG", sph->database );
nadc_write_bool( outfl, ++nr, "COARSE_ERR_FLAG", sph->coarse_err );
nadc_write_bool( outfl, ++nr, "ECMWF_TYPE", sph->ecmwf_type );
nadc_write_ushort( outfl, ++nr, "NUM_TRANS_ERR", sph->num_trans_err );
nadc_write_ushort( outfl, ++nr, "NUM_FORMAT_ERR", sph->num_format_err );
nadc_write_float( outfl, ++nr, "TRANS_ERR_THRESH",
6, sph->thres_trans_err );
nadc_write_float( outfl, ++nr, "FORMAT_ERR_THRESH",
6, sph->thres_format_err );
nr++; /* spare_2 */
nadc_write_ushort( outfl, ++nr, "NUM_BANDS", sph->num_bands );
nadc_write_text( outfl, ++nr, "BAND_WAVELEN", sph->band_wavelen );
nadc_write_text( outfl, ++nr, "BANDWIDTH", sph->bandwidth );
nadc_write_double( outfl, ++nr, "INST_FOV", 6, sph->inst_fov );
nadc_write_bool( outfl, ++nr, "PROC_MODE", sph->proc_mode );
nadc_write_bool( outfl, ++nr, "OFFSET_COMP", sph->offset_comp );
nadc_write_double( outfl, ++nr, "LINE_TIME_INTERVAL",
6, sph->line_time_interval );
nadc_write_ushort( outfl, ++nr, "LINE_LENGTH", sph->line_length );
nadc_write_ushort( outfl, ++nr, "LINES_PER_TIE_PT", sph->lines_per_tie );
nadc_write_ushort( outfl, ++nr, "SAMPLES_PER_TIE_PT",
sph->samples_per_tie );
nadc_write_float( outfl, ++nr, "COLUMN_SPACING", 6, sph->column_spacing );
nr++; /* spare_3 */
(void) fclose( outfl );
}
/*+++++++++++++++++++++++++ Main Program or Function +++++++++++++++*/
void SCIA_LV2_WR_ASCII_SPH( struct param_record param,
const struct sph2_scia *sph )
{
register unsigned int ni, nr = 0;
char cbuff[MX_SZ_CBUFF];
unsigned short ubuff[8];
unsigned int ndim;
unsigned int dims[2];
FILE *outfl = CRE_ASCII_File( param.outfile, "sph" );
if ( outfl == NULL || IS_ERR_STAT_FATAL )
NADC_RETURN_ERROR( NADC_ERR_FILE_CRE, param.outfile );
/*
* write ASCII dump of SPH record
*/
nadc_write_header( outfl, nr, param.infile,
"Specific Product Header of Level 2 Product" );
nadc_write_text( outfl, ++nr, "SPH_DESCRIPTOR", sph->descriptor );
nadc_write_short( outfl, ++nr, "STRIPLINE_CONTINUITY_INDICATOR",
sph->stripline );
nadc_write_short( outfl, ++nr, "SLICE_POSITION", sph->slice_pos );
nadc_write_ushort( outfl, ++nr, "NUM_SLICES", sph->no_slice );
nadc_write_text( outfl, ++nr, "START_TIME", sph->start_time );
nadc_write_text( outfl, ++nr, "STOP_TIME", sph->stop_time );
nadc_write_double( outfl, ++nr, "START_LAT", 6, sph->start_lat );
nadc_write_double( outfl, ++nr, "START_LON", 6, sph->start_lon );
nadc_write_double( outfl, ++nr, "STOP_LAT", 6, sph->stop_lat );
nadc_write_double( outfl, ++nr, "STOP_LON", 6, sph->stop_lon );
++nr; /* spare_1 */
nadc_write_text( outfl, ++nr, "FITTING_ERROR_SUM", sph->fit_error );
nadc_write_ushort( outfl, ++nr, "NO_OF_DOAS_FITTING_WIN",
sph->no_doas_win );
ndim = 2;
for ( ni = 0; ni < sph->no_doas_win; ni++ ) {
(void) snprintf(cbuff, MX_SZ_CBUFF, "DOAS_FITTING_WINDOW_%02u", ni);
ubuff[0] = sph->doas_win[ni].wv_min;
ubuff[1] = sph->doas_win[ni].wv_max;
nadc_write_arr_ushort( outfl, ++nr, cbuff, 1, &ndim, ubuff );
}
nr += (MAX_DOAS_FITTING_WIN - sph->no_doas_win);
nadc_write_ushort( outfl, ++nr, "NO_OF_BIAS_FITTING_WIN",
sph->no_bias_win );
for ( ni = 0; ni < sph->no_bias_win; ni++ ) {
(void) snprintf(cbuff, MX_SZ_CBUFF, "BIAS_FITTING_WINDOW_%02u", ni);
ubuff[0] = sph->bias_win[ni].wv_min;
ubuff[1] = sph->bias_win[ni].wv_max;
if ( sph->bias_win[ni].nr_micro == 0 )
nadc_write_arr_ushort( outfl, ++nr, cbuff, 1, &ndim, ubuff );
else {
register unsigned int nm, nb;
dims[0] = 2;
dims[1] = sph->bias_win[ni].nr_micro+1;
for ( nb = 2, nm = 0; nm < sph->bias_win[ni].nr_micro; nm++ ) {
ubuff[nb++] = sph->bias_win[ni].micro_min[nm];
ubuff[nb++] = sph->bias_win[ni].micro_max[nm];
}
nadc_write_arr_ushort( outfl, ++nr, cbuff, 2, dims, ubuff );
}
}
nadc_write_ushort( outfl, ++nr, "NO_OF_DOAS_MOL", sph->no_doas_mol );
for ( ni = 0; ni < MAX_DOAS_SPECIES; ni++ ) {
(void) snprintf( cbuff, MX_SZ_CBUFF, "DOAS_MOLECULE_%02u", ni );
nadc_write_text( outfl, ++nr, cbuff, sph->doas_mol[ni] );
}
nadc_write_ushort( outfl, ++nr, "NO_OF_BIAS_MOL", sph->no_bias_mol );
for ( ni = 0; ni < sph->no_bias_mol; ni++ ) {
(void) snprintf( cbuff, MX_SZ_CBUFF, "BIAS_MOLECULE_%02u", ni );
nadc_write_text( outfl, ++nr, cbuff, sph->bias_mol[ni] );
}
(void) fclose( outfl );
}
/*+++++++++++++++++++++++++ Main Program or Function +++++++++++++++*/
void SCIA_LV1C_WR_ASCII_CALOPT( const struct param_record param,
const struct cal_options *calopt )
{
register unsigned int nr = 0;
char date_str[UTC_STRING_LENGTH];
unsigned int count[1];
FILE *outfl = CRE_ASCII_File( param.outfile, "calopt" );
if ( outfl == NULL || IS_ERR_STAT_FATAL )
NADC_RETURN_ERROR( NADC_ERR_FILE_CRE, param.outfile );
/*
* write ASCII dump of CAL_OPTIONS record
*/
nadc_write_header( outfl, nr, param.infile,
"Calibration Options GADS to SciaL1C" );
nadc_write_text( outfl,++nr, "l1b_product_name", calopt->l1b_prod_name );
if ( calopt->geo_filter != SCHAR_ZERO ) {
nadc_write_double( outfl, ++nr, "start_lat", 6,
calopt->start_lat/1e6 );
nadc_write_double( outfl, ++nr, "start_lon", 6,
calopt->start_lon/1e6 );
nadc_write_double( outfl, ++nr, "end_lat", 6, calopt->end_lat/1e6 );
nadc_write_double( outfl, ++nr, "end_lon", 6, calopt->end_lon/1e6 );
} else
nr += 4;
if ( calopt->time_filter != SCHAR_ZERO ) {
(void) MJD_2_ASCII( calopt->start_time.days,
calopt->start_time.secnd,
calopt->start_time.musec, date_str );
nadc_write_text( outfl, ++nr, "start_time", date_str );
(void) MJD_2_ASCII( calopt->stop_time.days,
calopt->stop_time.secnd,
calopt->stop_time.musec, date_str );
nadc_write_text( outfl, ++nr, "stop_time", date_str );
} else
nr += 2;
if ( calopt->category_filter != SCHAR_ZERO ) {
count[0] = 5;
nadc_write_arr_ushort( outfl, ++nr, "category",
1, count, calopt->category );
} else
nr += 1;
if ( calopt->nadir_mds != SCHAR_ZERO )
nadc_write_text( outfl, ++nr, "nadir_mds_flag", "TRUE" );
else
nadc_write_text( outfl, ++nr, "nadir_mds_flag", "FALSE" );
if ( calopt->limb_mds != SCHAR_ZERO )
nadc_write_text( outfl, ++nr, "limb_mds_flag", "TRUE" );
else
nadc_write_text( outfl, ++nr, "limb_mds_flag", "FALSE" );
if ( calopt->occ_mds != SCHAR_ZERO )
nadc_write_text( outfl, ++nr, "occ_mds_flag", "TRUE" );
else
nadc_write_text( outfl, ++nr, "occ_mds_flag", "FALSE" );
if ( calopt->moni_mds != SCHAR_ZERO )
nadc_write_text( outfl, ++nr, "moni_mds_flag", "TRUE" );
else
nadc_write_text( outfl, ++nr, "moni_mds_flag", "FALSE" );
if ( calopt->pmd_mds != SCHAR_ZERO )
nadc_write_text( outfl, ++nr, "pmd_mds_flag", "TRUE" );
else
nadc_write_text( outfl, ++nr, "pmd_mds_flag", "FALSE" );
if ( calopt->frac_pol_mds != SCHAR_ZERO )
nadc_write_text( outfl, ++nr, "frac_pol_mds_flag", "TRUE" );
else
nadc_write_text( outfl, ++nr, "frac_pol_mds_flag", "FALSE" );
if ( calopt->slit_function != SCHAR_ZERO )
nadc_write_text( outfl, ++nr, "slit_function_gads_flag", "TRUE" );
else
nadc_write_text( outfl, ++nr, "slit_function_gads_flag", "FALSE" );
if ( calopt->sun_mean_ref != SCHAR_ZERO )
nadc_write_text( outfl, ++nr, "sun_mean_ref_gads_flag", "TRUE" );
else
nadc_write_text( outfl, ++nr, "sun_mean_ref_gads_flag", "FALSE" );
if ( calopt->leakage_current != SCHAR_ZERO )
nadc_write_text( outfl, ++nr, "leakage_current_gads_flag", "TRUE" );
else
nadc_write_text( outfl, ++nr, "leakage_current_gads_flag", "FALSE");
if ( calopt->spectral_cal != SCHAR_ZERO )
nadc_write_text( outfl, ++nr, "spectral_cal_gads_flag", "TRUE" );
else
nadc_write_text( outfl, ++nr, "spectral_cal_gads_flag", "FALSE" );
if ( calopt->pol_sens != SCHAR_ZERO )
nadc_write_text( outfl, ++nr, "pol_sens_gads_flag", "TRUE" );
else
nadc_write_text( outfl, ++nr, "pol_sens_gads_flag", "FALSE" );
if ( calopt->rad_sens != SCHAR_ZERO )
nadc_write_text( outfl, ++nr, "rad_sens_gads_flag", "TRUE" );
else
nadc_write_text( outfl, ++nr, "rad_sens_gads_flag", "FALSE" );
if ( calopt->ppg_etalon != SCHAR_ZERO )
nadc_write_text( outfl, ++nr, "ppg_etalon_gads_flag", "TRUE" );
else
nadc_write_text( outfl, ++nr, "ppg_etalon_gads_flag", "FALSE" );
nadc_write_ushort( outfl,++nr, "num_nadir_clusters", calopt->num_nadir );
nadc_write_ushort( outfl,++nr, "num_limb_clusters", calopt->num_limb );
nadc_write_ushort( outfl,++nr, "num_occ_clusters", calopt->num_occ );
nadc_write_ushort( outfl,++nr, "num_moni_clusters", calopt->num_moni );
count[0] = MAX_CLUSTER;
nadc_write_arr_schar( outfl, ++nr, "nadir_cluster_flag",
1, count, calopt->nadir_cluster );
nadc_write_arr_schar( outfl, ++nr, "limb_cluster_flag",
1, count, calopt->limb_cluster );
nadc_write_arr_schar( outfl, ++nr, "occ_cluster_flag",
1, count, calopt->occ_cluster );
nadc_write_arr_schar( outfl, ++nr, "moni_cluster_flag",
1, count, calopt->moni_cluster );
if ( calopt->mem_effect_cal != SCHAR_ZERO )
nadc_write_text( outfl, ++nr, "mem_effect_cal_flag", "TRUE" );
else
nadc_write_text( outfl, ++nr, "mem_effect_cal_flag", "FALSE" );
if ( calopt->leakage_cal != SCHAR_ZERO )
nadc_write_text( outfl, ++nr, "leakage_cal_flag", "TRUE" );
else
nadc_write_text( outfl, ++nr, "leakage_cal_flag", "FALSE" );
if ( calopt->straylight_cal != SCHAR_ZERO )
nadc_write_text( outfl, ++nr, "straylight_cal_flag", "TRUE" );
else
nadc_write_text( outfl, ++nr, "straylight_cal_flag", "FALSE" );
if ( calopt->ppg_cal != SCHAR_ZERO )
nadc_write_text( outfl, ++nr, "ppg_cal_flag", "TRUE" );
else
nadc_write_text( outfl, ++nr, "ppg_cal_flag", "FALSE" );
if ( calopt->etalon_cal != SCHAR_ZERO )
nadc_write_text( outfl, ++nr, "etalon_cal_flag", "TRUE" );
else
nadc_write_text( outfl, ++nr, "etalon_cal_flag", "FALSE" );
if ( calopt->wave_cal != SCHAR_ZERO )
nadc_write_text( outfl, ++nr, "spectal_cal_flag", "TRUE" );
else
nadc_write_text( outfl, ++nr, "spectral_cal_flag", "FALSE" );
if ( calopt->polarisation_cal != SCHAR_ZERO )
nadc_write_text( outfl, ++nr, "polarisation_cal_flag", "TRUE" );
else
nadc_write_text( outfl, ++nr, "polarisation_cal_flag", "FALSE" );
if ( calopt->radiance_cal != SCHAR_ZERO )
nadc_write_text( outfl, ++nr, "radiance_cal_flag", "TRUE" );
else
nadc_write_text( outfl, ++nr, "radiance_cal_flag", "FALSE" );
(void) fclose( outfl );
}