dustem_write_fits_table.pro
18.3 KB
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PRO dustem_write_fits_table,filename=filename,help=help
;+
; NAME:
; dustem_write_fits_table
;
; PURPOSE:
; Write a FITS table with content of current DustEMWrap system variables
;
; CATEGORY:
; DustEMWrap, Distributed, High-Level, User Convenience
;
; CALLING SEQUENCE:
; dustem_write_fits_table,file[,/help]
;
; INPUTS:
; filename = File name to be written (default='./dustemwrap_results.fits')
;
; OPTIONAL INPUT PARAMETERS:
; None
;
; OUTPUTS:
; None
;
; OPTIONAL OUTPUT PARAMETERS:
; None
;
; ACCEPTED KEY-WORDS:
; help = If set, print this help
;
; COMMON BLOCKS:
; None
;
; SIDE EFFECTS:
; Output FITS file is written to disk.
; All dustem system variables are reinitialized
;
; RESTRICTIONS:
; The DustEMWrap IDL code must be installed
;
; PROCEDURE:
; None
;
; EXAMPLES
;
; MODIFICATION HISTORY:
; Written by J.-Ph. Bernard July 2022
; Evolution details on the DustEMWrap gitlab.
; See http://dustemwrap.irap.omp.eu/ for FAQ and help.
;-
IF keyword_set(help) THEN BEGIN
doc_library,'dustem_write_fits_table'
goto,the_end
ENDIF
used_model=!dustem_model
emission_sed_present=ptr_valid((*!dustem_data).sed)
extinction_sed_present=ptr_valid((*!dustem_data).ext)
;dustem_activate_plugins,p_dim/(*(*!dustem_fit).param_init_values),st=st
;fact = 1.e4*(*!dustem_HCD)/(4.*!pi)/(3.e8/1.e-6/st.sed.wav)*1.e20/1.e7 ;this is correct despite the way it is presented (1.e4/1e.7*1e.20=1.e17 which is the factor to convert from ergs to Mega Janskys)
;SED_spec = st.sed.em_tot * fact
;stop
;===== run dustem to get predicted spectrum and sed
IF emission_sed_present THEN BEGIN
dustem_predicted_sed=dustem_compute_sed(*(*!dustem_fit).current_param_values,st=dustem_st)
IF !run_pol THEN BEGIN
;This is needed to compute Q,U of both SED and spectra
dustem_predicted_polsed=dustem_compute_stokes(*(*!dustem_fit).current_param_values, $
Q_spec=dustem_predicted_Q_spec,U_spec=dustem_predicted_U_spec,PSI_spec=dustem_predicted_PSI_spec, $
dustem_psi_em=dustem_psi_em)
dustem_predicted_Qsed=dustem_predicted_polsed[0]
dustem_predicted_Used=dustem_predicted_polsed[1]
ENDIF
str_predicted_SED=dustem_make_fits_predicted_sed(*!dustem_data,dustem_predicted_sed $
,str_input_sed=str_input_sed $
,dustem_predicted_Qsed=dustem_predicted_Qsed $
,dustem_predicted_Used=dustem_predicted_Used)
str_predicted_shown_SED=dustem_make_fits_predicted_sed(*!dustem_show,dustem_predicted_sed $
,str_input_sed=str_shown_sed $
,dustem_predicted_Qsed=dustem_predicted_Qsed $
,dustem_predicted_Used=dustem_predicted_Used)
ENDIF
IF extinction_sed_present THEN BEGIN
;stop
dustem_predicted_ext=dustem_compute_ext(*(*!dustem_fit).current_param_values,st=dustem_st)
IF !run_pol THEN BEGIN
;This is needed to compute Q,U of both SED and spectra
dustem_predicted_polext=dustem_compute_stokext((*!dustem_fit).current_param_values,st=dustem_st)
dustem_predicted_Qext=dustem_predicted_polext[0]
dustem_predicted_Uext=dustem_predicted_polext[1]
ENDIF
str_predicted_EXT=dustem_make_fits_predicted_ext(*!dustem_data,dustem_predicted_ext $
,dustem_predicted_Qext=dustem_predicted_Qext $
,dustem_predicted_Uext=dustem_predicted_Uext $
,str_input_ext=str_input_ext)
str_predicted_shown_EXT=dustem_make_fits_predicted_ext(*!dustem_show,dustem_predicted_ext $
,dustem_predicted_Qext=dustem_predicted_Qext $
,dustem_predicted_Uext=dustem_predicted_Uext $
,str_input_ext=str_shown_ext)
ENDIF
Ngrains=n_tags(dustem_st.sed)-2
;===== Fill in header with parameter values
parameters_desc=*(*!dustem_fit).PARAM_DESCS
parameters_init_values=*(*!dustem_fit).PARAM_INIT_VALUES
best_parameters=*(*!dustem_fit).CURRENT_PARAM_VALUES
best_parameters_uncertainties=best_parameters*0.0 ; in case you are saving output without running a fit
IF ptr_valid((*!dustem_fit).current_param_errors) THEN best_parameters_uncertainties=*(*!dustem_fit).CURRENT_PARAM_ERRORS
best_fit_chi2=(*!dustem_fit).CHI2
best_fit_rchi2=(*!dustem_fit).RCHI2
parameters_func_values=*(*!dustem_fit).PARAM_FUNC
IF ptr_valid((*!dustem_fit).fixed_param_descs) THEN BEGIN
there_are_fixed_params=1
fixed_parameters_desc=*(*!dustem_fit).fixed_param_descs
fixed_parameters_values=*(*!dustem_fit).fixed_param_init_values
Nfixedparams=n_elements(fixed_parameters_desc)
ENDIF ELSE BEGIN
there_are_fixed_params=0
Nfixedparams=0
ENDELSE
Nparams=n_elements(parameters_desc)
file='./dustemwrap_tmp.fits'
;==== Write the observed SED in extension 1
unit=1L
;Yes, toto does not exist. This is just to write a dummy input to allow for a general header
mwrfits,toto,file,/create
IF emission_sed_present THEN BEGIN
;==== add the input emission SED
mwrfits,str_input_SED,file
unit_input_sed=unit
unit=unit+1
;==== add the predicted emission SED
mwrfits,str_predicted_SED,file
unit_predicted_sed=unit
unit=unit+1
;==== add the shown emission SED
mwrfits,str_shown_SED,file
unit_shown_sed=unit
unit=unit+1
ENDIF ELSE BEGIN
unit_input_sed=-1
unit_predicted_sed=-1
unit_shown_sed=-1
ENDELSE
IF extinction_sed_present THEN BEGIN
;stop
mwrfits,str_input_EXT,file
unit_input_ext=unit
unit=unit+1
;==== add the predicted extinction SED
mwrfits,str_predicted_EXT,file
unit_predicted_ext=unit
unit=unit+1
;==== add the shown extinction SED
mwrfits,str_shown_EXT,file
unit_shown_ext=unit
unit=unit+1
ENDIF ELSE BEGIN
unit_input_ext=-1
unit_predicted_ext=-1
unit_shown_ext=-1
ENDELSE
;==== add the predicted per-grain emission spectrum
mwrfits,dustem_st.sed,file
unit_predicted_spectra=unit
unit=unit+1
;==== add the predicted per-grain extinction spectrum
mwrfits,dustem_st.ext,file
unit_predicted_extinctions=unit
unit=unit+1
IF !run_pol EQ 1 THEN BEGIN
mwrfits,dustem_st.polsed,file
unit_predicted_spectra_pol=unit
unit=unit+1
mwrfits,dustem_st.polext,file
unit_predicted_extinctions_pol=unit
unit=unit+1
ENDIF ELSE BEGIN
unit_predicted_spectra_pol=-1
unit_predicted_extinctions_pol=-1
ENDELSE
;==== add the pluggins spectra
plugin_tags=tag_names(*!dustem_plugin)
ind=where(plugin_tags NE 'NONE',Nplugins)
IF Nplugins NE 0 THEN BEGIN
unit_plugins=lonarr(Nplugins)
str_plugins=strarr(Nplugins)
FOR i=0L,Nplugins-1 DO BEGIN
mwrfits,*((*!dustem_plugin).(i).spec),file
unit_plugins[i]=unit
str_plugins[i]=plugin_tags[i]
unit=unit+1
ENDFOR
ENDIF ELSE BEGIN ;This is the case where there are no plugins involved
unit_plugins=[-1]
str_plugins=['']
ENDELSE
extension_numbers=[unit_input_sed,unit_predicted_sed,unit_shown_sed, $
unit_input_ext,unit_predicted_ext,unit_shown_ext, $
unit_predicted_spectra,unit_predicted_extinctions, $
unit_predicted_spectra_pol,unit_predicted_extinctions_pol]
extensions_strs=['INPUT_EMISSION_SED','DUSTEM_PREDICTED_SED','DUSTEM_SHOWN_SED', $
'INPUT_EXTINCTION_SED','DUSTEM_PREDICTED_EXTINCTION_SED','DUSTEM_SHOWN_EXTINCTION_SED', $
'DUSTEM_PREDICTED_EMISSION_SPECTRA','DUSTEM_PREDICTED_EXTINCTION_SPECTRA', $
'DUSTEM_PREDICTED_EMISSION_SPECTRA_POL','DUSTEM_PREDICTED_EXTINCTION_SPECTRA_POL']
extension_numbers=[extension_numbers,unit_plugins]
extensions_strs=[extensions_strs,'PLUGIN_'+str_plugins]
ind=where(extension_numbers NE -1,count)
extension_numbers=extension_numbers[ind]
extensions_strs=extensions_strs[ind]
order=sort(extension_numbers)
extension_numbers=extension_numbers[order]
extensions_strs=extensions_strs[order]
Nextensions=n_elements(extension_numbers)
;===== read back fits file to get proper extension headers
file='./dustemwrap_tmp.fits'
toto=mrdfits(file,0,hdr) ;this would be to get the main header
IF unit_input_sed NE -1 THEN sst_input_sed=mrdfits(file,unit_input_sed,header_input_sed)
IF unit_predicted_sed NE -1 THEN sst_predicted_SED=mrdfits(file,unit_predicted_sed,header_predicted_SED)
IF unit_shown_sed NE -1 THEN sst_shown_SED=mrdfits(file,unit_shown_sed,header_shown_SED)
IF unit_input_ext NE -1 THEN sst_input_ext=mrdfits(file,unit_input_ext,header_input_ext)
IF unit_predicted_ext NE -1 THEN sst_predicted_ext=mrdfits(file,unit_predicted_ext,header_predicted_ext)
IF unit_shown_ext NE -1 THEN sst_shown_ext=mrdfits(file,unit_shown_ext,header_shown_ext)
dustem_st.sed=mrdfits(file,unit_predicted_spectra,header_predicted_spectra)
dustem_st.ext=mrdfits(file,unit_predicted_extinctions,header_predicted_extinctions)
IF !run_pol EQ 1 THEN BEGIN
dustem_st.polsed=mrdfits(file,unit_predicted_spectra_pol,header_predicted_spectra)
dustem_st.polext=mrdfits(file,unit_predicted_extinctions_pol,header_predicted_extinctions)
ENDIF
IF Nplugins NE 0 THEN BEGIN
header_plugins=ptrarr(Nplugins)
FOR i=0L,Nplugins-1 DO BEGIN
a=mrdfits(file,unit_plugins[i],header_plugin)
header_plugins[i]=ptr_new(header_plugin)
ENDFOR
ENDIF
;===== write content of extensions in main header
FOR i=0L,Nextensions-1 DO BEGIN
sxaddpar,hdr,'EXT'+strtrim(i+1,2),extensions_strs[i],'fits file extension'
ENDFOR
;====== write dustem wrap parameter best fit values
sxaddpar,hdr,'COMMENT','======= Dustemwrap dust model used ======',after='COMMENT'
sxaddpar,hdr,'MODEL',used_model,'Dust model used'
sxaddpar,hdr,'WRAP_V',!dustem_version.version,'Dustwrap version used'
sxaddpar,hdr,'COMMENT','===================================================',after='MODEL'
sxaddpar,hdr,'CHI2',best_fit_chi2,'Dustemwrap best fit chi2 [-]'
sxaddpar,hdr,'RCHI2',best_fit_rchi2,'Dustemwrap best fit reduced chi2 [-]'
sxaddpar,hdr,'NGRAINS',Ngrains,'Number of grain species'
sxaddpar,hdr,'COMMENT','======= Dustemwrap plugins names ======',after='NGRAINS'
sxaddpar,hdr,'NPLUG',Nplugins,'Number of plugins involved'
FOR i=0L,Nplugins-1 DO BEGIN
sxaddpar,hdr,'PLUG'+strtrim(i+1,2),str_plugins[i],'PLUGIN name'
ENDFOR
;====== write dustem wrap parameter names
sxaddpar,hdr,'COMMENT','======= Dustemwrap parameter names ======',after='PLUG'+strtrim(i+1,2)
sxaddpar,hdr,'NPARAMS',Nparams,' Number of DustemWrap free parameters'
FOR i=0L,Nparams-1 DO BEGIN
sxaddpar,hdr,'PARN'+strtrim(i+1,2),parameters_desc[i],' DustemWrap parameter name'
ENDFOR
sxaddpar,hdr,'COMMENT','===================================================',after='PARN'+strtrim(i,2)
sxaddpar,hdr,'COMMENT','======= Dustemwrap dust model used in polarisation ? ======',after='COMMENT'
sxaddpar,hdr,'POL',!run_pol,'1 if pol was used, 0 otherwise'
sxaddpar,hdr,'COMMENT','===================================================',after='POL'
;====== write dustem wrap parameter best fit values
sxaddpar,hdr,'COMMENT','======= Dustemwrap parameter best fit values ======',after='COMMENT'
FOR i=0L,Nparams-1 DO BEGIN
sxaddpar,hdr,'PARV'+strtrim(i+1,2),best_parameters[i],'Param. '+parameters_desc[i]
ENDFOR
sxaddpar,hdr,'COMMENT','===================================================',after='PARV'+strtrim(i,2)
;====== write dustem wrap parameter best fit values uncertainties
sxaddpar,hdr,'COMMENT','======= Dustemwrap best fit parameter uncertainties ======',after='COMMENT'
FOR i=0L,Nparams-1 DO BEGIN
sxaddpar,hdr,'PARU'+strtrim(i+1,2),best_parameters_uncertainties[i],'Param. '+parameters_desc[i]
ENDFOR
sxaddpar,hdr,'COMMENT','===================================================',after='PARU'+strtrim(i,2)
;====== write dustem wrap parameter initial fit values
sxaddpar,hdr,'COMMENT','======= Dustemwrap parameter initial fit values ======',after='COMMENT'
FOR i=0L,Nparams-1 DO BEGIN
sxaddpar,hdr,'PARI'+strtrim(i+1,2),parameters_init_values[i],'Param. '+parameters_desc[i]
ENDFOR
sxaddpar,hdr,'COMMENT','===================================================',after='PARI'+strtrim(i,2)
;====== write dustem wrap parameter func values (not sure exactly what this is)
sxaddpar,hdr,'COMMENT','======= Dustemwrap parameter func values ======',after='COMMENT'
FOR i=0L,Nparams-1 DO BEGIN
sxaddpar,hdr,'PARF'+strtrim(i+1,2),parameters_func_values[i],'Param. '+parameters_desc[i]
ENDFOR
sxaddpar,hdr,'COMMENT','===================================================',after='PARF'+strtrim(i,2)
sxaddpar,hdr,'NFPARAMS',Nfixedparams,' Number of DustemWrap fixed parameters'
FOR i=0L,Nfixedparams-1 DO BEGIN
sxaddpar,hdr,'FPARN'+strtrim(i+1,2),fixed_parameters_desc[i],' Fixed DustemWrap parameter name'
ENDFOR
sxaddpar,hdr,'COMMENT','======= Dustemwrap fixed parameter values ======',after='FPARN'+strtrim(i,2)
FOR i=0L,Nfixedparams-1 DO BEGIN
sxaddpar,hdr,'FPARV'+strtrim(i+1,2),fixed_parameters_values[i],'Param. '+fixed_parameters_desc[i]
ENDFOR
sxaddpar,hdr,'COMMENT','===================================================',after='FPARV'+strtrim(i,2)
IF unit_input_sed NE -1 THEN BEGIN
;===== complement extension header for input SED
sxaddpar,header_input_sed,'TITLE','OBSERVED INPUT SED TO DUSTEMWRAP',before='COMMENT'
sxaddpar,header_input_sed,'TTYPE1','FILTER','Dustemwrap Filter name'
sxaddpar,header_input_sed,'TTYPE2','WAVELENGTH','Dustemwrap Filter reference wavelength [microns]'
sxaddpar,header_input_sed,'TTYPE3','STOKESI','Observed Total Stokes I Intensity [??]'
sxaddpar,header_input_sed,'TTYPE4','STOKESQ','Observed Stokes Q Intensity [??]'
sxaddpar,header_input_sed,'TTYPE5','STOKESU','Observed Stokes U Intensity [??]'
sxaddpar,header_input_sed,'TTYPE6','VARIANCEII','Observed Total Stokes I Variance [??]'
sxaddpar,header_input_sed,'TTYPE7','VARIANCEQQ','Observed Stokes Q Variance [??]'
sxaddpar,header_input_sed,'TTYPE8','VARIANCEUU','Observed Stokes U Variance [??]'
sxaddpar,header_input_sed,'NH_SED',*!dustem_hcd,'Column density [H/cm2]'
; sxaddpar,header_input_sed,'NH',*!dustem_hcd,'Column density [H/cm2]'
;===== complement extension header for predicted SED
sxaddpar,header_predicted_SED,'TITLE','OUTPUT BEST FIT SED BY DUSTEMWRAP'
sxaddpar,header_predicted_SED,'TTYPE1','FILTER','Dustemwrap Filter name'
sxaddpar,header_predicted_SED,'TTYPE2','WAVELENGTH','Dustemwrap Filter reference wavelength [microns]'
sxaddpar,header_predicted_SED,'TTYPE3','STOKESI','Observed Total Stokes I Intensity [??]'
sxaddpar,header_predicted_SED,'TTYPE4','STOKESQ','Observed Stokes Q Intensity [??]'
sxaddpar,header_predicted_SED,'TTYPE5','STOKESU','Observed Stokes U Intensity [??]'
;ENDIF ELSE BEGIN;IC: hesitated between this and 'IF unit_input_ext NE -1 THEN BEGIN'. This is under the assumtion that we always fit something.
END
IF unit_input_ext NE -1 THEN BEGIN
;===== complement extension header for input extinction SED
sxaddpar,header_input_ext,'TITLE','OBSERVED INPUT EXTINCTION SED TO DUSTEMWRAP',before='COMMENT'
sxaddpar,header_input_ext,'TTYPE1','FILTER','Dustemwrap Filter name'
sxaddpar,header_input_ext,'TTYPE2','WAVELENGTH','Dustemwrap Filter reference wavelength [microns]'
sxaddpar,header_input_ext,'TTYPE3','STOKESI_EXT','Observed Total Stokes I optical depth []'
sxaddpar,header_input_ext,'TTYPE4','STOKESQ_EXT','Observed Stokes Q optical depth []'
sxaddpar,header_input_ext,'TTYPE5','STOKESU_EXT','Observed Stokes U optical depth []'
sxaddpar,header_input_ext,'TTYPE6','VARIANCEII_EXT','Observed Total Stokes I optical depth Variance [??]'
sxaddpar,header_input_ext,'TTYPE7','VARIANCEQQ_EXT','Observed Stokes Q optical depth Variance [??]'
sxaddpar,header_input_ext,'TTYPE8','VARIANCEUU_EXT','Observed Stokes U optical depth Variance [??]'
sxaddpar,header_input_ext,'NH_EXT',*!dustem_hcd,'Column density [H/cm2]'
; sxaddpar,header_input_ext,'NH',*!dustem_hcd,'Column density [H/cm2]'
;===== complement extension header for predicted extinction SED
sxaddpar,header_predicted_EXT,'TITLE','OUTPUT BEST FIT EXTINCTION SED BY DUSTEMWRAP'
sxaddpar,header_predicted_EXT,'TTYPE1','FILTER','Dustemwrap Filter name'
sxaddpar,header_predicted_EXT,'TTYPE2','WAVELENGTH','Dustemwrap Filter reference wavelength [microns]'
sxaddpar,header_predicted_EXT,'TTYPE3','STOKESI_EXT','Observed Total Stokes I optical depth []'
sxaddpar,header_predicted_EXT,'TTYPE4','STOKESQ_EXT','Observed Stokes Q optical depth []'
sxaddpar,header_predicted_EXT,'TTYPE5','STOKESU_EXT','Observed Stokes U optical depth []'
END
;===== complement extension header for predicted spectrum total
sxaddpar,header_predicted_spectra,'TITLE','OUTPUT BEST FIT PER-GRAIN AND TOTAL EMISSION SPECTRA BY DUSTEMWRAP'
sxaddpar,header_predicted_extinctions,'TITLE','OUTPUT BEST FIT PER-GRAIN AND TOTAL EXTINCTION BY DUSTEMWRAP'
;===== complement plugin headers
FOR i=0L,Nplugins-1 DO BEGIN
header=*header_plugins[i]
sxaddpar,header,'PLUGIN',str_plugins[i],'Plugin name'
sxaddpar,header,'SCOPE',*((*!dustem_plugin).(i).scope),'Plugin scope'
tags=*((*!dustem_plugin).(i).paramtag)
FOR j=0L,n_elements(tags)-1 DO BEGIN
sxaddpar,header,'TAGN'+strtrim(j+1,2),(*((*!dustem_plugin).(i).paramtag))[j],'Plugin parameter tag'
ENDFOR
header_plugins[i]=ptr_new(header)
ENDFOR
;hprint,*header_plugins[0]
;stop
;============== write final fits file
IF keyword_set(filename) THEN BEGIN
file=filename
ENDIF ELSE BEGIN
file='./dustemwrap_results.fits'
ENDELSE
;==== Write the observed SED (if any)
mwrfits,0,file,hdr,create=1
IF unit_input_sed NE -1 THEN BEGIN
mwrfits,str_input_SED,file,header_input_SED
ENDIF
;==== add the predicted SED (if any)
IF unit_predicted_sed NE -1 THEN BEGIN
mwrfits,str_predicted_SED,file,header_predicted_SED
ENDIF
;==== add the shown SED (if any)
IF unit_shown_sed NE -1 THEN BEGIN
mwrfits,str_shown_SED,file,header_shown_SED
ENDIF
;==== Write the observed extinction SED (if any)
IF unit_input_ext NE -1 THEN BEGIN
mwrfits,str_input_EXT,file,header_input_EXT
ENDIF
;==== add the predicted SED (if any)
IF unit_predicted_ext NE -1 THEN BEGIN
mwrfits,str_predicted_EXT,file,header_predicted_EXT
ENDIF
;==== add the show extinction SED (if any)
IF unit_shown_ext NE -1 THEN BEGIN
mwrfits,str_shown_EXT,file,header_shown_EXT
ENDIF
;==== add the predicted per-grain emission spectra
mwrfits,dustem_st.sed,file,header_predicted_spectra
;==== add the predicted per-grain extinction
mwrfits,dustem_st.ext,file,header_predicted_extinctions
IF !run_pol EQ 1 THEN BEGIN
mwrfits,dustem_st.polsed,file
mwrfits,dustem_st.polext,file
ENDIF
FOR i=0L,Nplugins-1 DO BEGIN
mwrfits,*((*!dustem_plugin).(i).spec),file,*header_plugins[i]
ENDFOR
message,'================================================',/info
message,'Wrote '+file,/info
message,'File extensions are: ',/info
FOR i=0L,Nextensions-1 DO BEGIN
message,'extension '+strtrim(extension_numbers[i],2)+' : '+strtrim(extensions_strs[i],2),/info
ENDFOR
message,'================================================',/info
;stop
the_end:
END