PRO dustem_write_fits_table,filename=filename,help=help ;+ ; NAME: ; dustem_write_fits_table ; PURPOSE: ; Write a fits table with content of current Dustem system variables ; CATEGORY: ; Dustem ; CALLING SEQUENCE: ; dustem_write_fits_table,file[,/help] ; INPUTS: ; file = File name ; OPTIONAL INPUT PARAMETERS: ; None ; OUTPUTS: ; None ; OPTIONAL OUTPUT PARAMETERS: ; None ; ACCEPTED KEY-WORDS: ; help = If set, print this help ; COMMON BLOCKS: ; None ; SIDE EFFECTS: ; File is stored. ; RESTRICTIONS: ; The dustem idl wrapper 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 ;===== run dustem to get predicted spectrum and sed IF not keyword_set(function_name) THEN BEGIN dustem_predicted_sed=dustem_compute_sed(*(*!dustem_fit).current_param_values,out_st=dustem_spectra_st) ENDIF ELSE BEGIN ENDELSE Ngrains=n_tags(dustem_spectra_st.sed)-2 ;===== define structures containing results one_str_input_SED={FILTER:'',Wavelength:0.,I:0.,Q:0.,U:0.,varianceII:0.,varianceQQ:0.,varianceUU:0.} one_str_predicted_SED={FILTER:'',Wavelength:0.,I:0.,Q:0.,U:0.} ;one_str_predicted_spectrum_tot={Wavelength:0.,I:0.,Q:0.,U:0.} ;one_str_predicted_spectrum_grain1={Wavelength:0.,I:0.,Q:0.,U:0.} Nsed=n_elements((*(*!dustem_data).sed).filt_names) str_input_SED=replicate(one_str_input_SED,Nsed) str_input_SED.FILTER=(*(*!dustem_data).sed).filt_names str_input_SED.Wavelength=(*(*!dustem_data).sed).wav str_input_SED.I=(*(*!dustem_data).sed).values str_input_SED.varianceII=(*(*!dustem_data).sed).sigma ;should it be squared ?? N_predicted_sed=n_elements(dustem_predicted_sed) str_predicted_SED=replicate(one_str_predicted_SED,N_predicted_sed) str_predicted_SED.FILTER=(*(*!dustem_data).sed).filt_names ;taken from input SED str_predicted_SED.Wavelength=(*(*!dustem_data).sed).wav ;taken from input SED str_predicted_SED.I=dustem_predicted_sed ;but where is Q,U ?? ;str_predicted_SED.Q= ;str_predicted_SED.U= ;str_predicted_spectrum_grains=ptrarr(Ngrains) ;FOR i=0L,Ngrains-1 DO BEGIN ; str_predicted_spectrum_grains[i]=ptr_new(dustem_spectra_st.sed) ;ENDFOR N_predicted_spectra=n_elements(dustem_spectra_st.sed) ;str_predicted_spectrum_tot=replicate(one_str_predicted_spectrum_tot,N_predicted_spectra) ;str_predicted_spectrum_tot.Wavelength=dustem_spectra_st.SED.wav ;str_predicted_spectrum_tot.I=dustem_spectra_st.SED.em_tot ;str_predicted_spectrum_tot.Q=dustem_spectra_st.polsed ;not exactly, should have Q,U ;str_predicted_spectrum_tot.U=dustem_spectra_st.polsed ;not exactly, should have Q,U ;===== 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=*(*!dustem_fit).CURRENT_PARAM_ERRORS best_fit_chi2=(*!dustem_fit).CHI2 best_fit_rchi2=(*!dustem_fit).RCHI2 Nparams=n_elements(parameters_desc) ;unit_input_sed=1 ;unit_predicted_sed=2 ;unit_predicted_spectra=3 ;unit_predicted_extinctions=4 ;stop file='./dustemwrap_tmp.fits' ;==== Write the observed SED in extension 1 unit=1L mwrfits,str_input_SED,file,/create unit_input_sed=unit unit=unit+1 ;==== add the predicted SED in extension 2 mwrfits,str_predicted_SED,file unit_predicted_sed=unit unit=unit+1 ;==== add the predicted total spectrum in extension 3 ;mwrfits,str_predicted_spectrum_tot,file ;==== add the predicted per-grain spectrum in extension 4 ;stop mwrfits,dustem_spectra_st.sed,file unit_predicted_spectra=unit unit=unit+1 ;==== add the predicted per-grain extinction in extension 5 mwrfits,dustem_spectra_st.ext,file unit_predicted_extinctions=unit ;FOR i=0L,Ngrains-1 DO BEGIN ; mwrfits,*str_predicted_spectrum_grains[i],file ;ENDFOR ;print,unit_input_sed,unit_predicted_sed,unit_predicted_spectra,unit_predicted_extinctions ;stop ;===== read back extensions to get proper extension headers file='./dustemwrap_tmp.fits' sst_input_sed=mrdfits(file,unit_input_sed,header_input_sed) sst_predicted_SED=mrdfits(file,unit_predicted_sed,header_predicted_SED) ;sst_predicted_spectrum_tot=mrdfits(file,3,header_predicted_spectrum_tot) dustem_spectra_st.sed=mrdfits(file,unit_predicted_spectra,header_predicted_spectra) dustem_spectra_st.ext=mrdfits(file,unit_predicted_extinctions,header_predicted_extinctions) ;FOR i=0L,Ngrains-1 DO BEGIN ; str_predicted_spectrum_grains[i]=ptr_new(dustem_spectra_st.sed.(i+1)) ;ENDFOR ;headers_predicted_spectrum_grain=ptrarr(Ngrains) ;FOR i=0L,Ngrains-1 DO BEGIN ; *str_predicted_spectrum_grains[i]=mrdfits(file,3+i+1,hh) ; headers_predicted_spectrum_grain[i]=ptr_new(hh) ;ENDFOR ;===== 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','I','Observed Total Stokes I Intensity [??]' sxaddpar,header_input_sed,'TTYPE4','Q','Observed Stokes Q Intensity [??]' sxaddpar,header_input_sed,'TTYPE5','U','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 [??]' ;===== 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','I','Observed Total Stokes I Intensity [??]' sxaddpar,header_predicted_SED,'TTYPE4','Q','Observed Stokes Q Intensity [??]' sxaddpar,header_predicted_SED,'TTYPE5','U','Observed Stokes U Intensity [??]' sxaddpar,header_predicted_SED,'CHI2',best_fit_chi2,'Dustemwrap best fit chi2 [-]' sxaddpar,header_predicted_SED,'RCHI2',best_fit_rchi2,'Dustemwrap best fit reduced chi2 [-]' sxaddpar,header_predicted_SED,'NGRAINS',Ngrains,'Number of grain species' ;====== write dustem wrap parameter names sxaddpar,header_predicted_SED,'COMMENT','======= Dustemwrap parameter names ======',after='RCHI2' sxaddpar,header_predicted_SED,'NPARAMS',Nparams,' Number of DustemWrap free parameters' FOR i=0L,Nparams-1 DO BEGIN sxaddpar,header_predicted_SED,'PARN'+strtrim(i+1,2),parameters_desc[i],' DustemWrap parameter name' ENDFOR sxaddpar,header_predicted_SED,'COMMENT','===================================================',after='PARN'+strtrim(i,2) ;====== write dustem wrap parameter best fit values sxaddpar,header_predicted_SED,'COMMENT','======= Dustemwrap parameter best fit values ======',after='COMMENT' FOR i=0L,Nparams-1 DO BEGIN sxaddpar,header_predicted_SED,'PARV'+strtrim(i+1,2),best_parameters[i],'Param. '+parameters_desc[i] ENDFOR sxaddpar,header_predicted_SED,'COMMENT','===================================================',after='PARV'+strtrim(i,2) ;====== write dustem wrap parameter best fit values uncertainties sxaddpar,header_predicted_SED,'COMMENT','======= Dustemwrap best fit parameter uncertainties ======',after='COMMENT' FOR i=0L,Nparams-1 DO BEGIN sxaddpar,header_predicted_SED,'PARU'+strtrim(i+1,2),best_parameters_uncertainties[i],'Param. '+parameters_desc[i] ENDFOR sxaddpar,header_predicted_SED,'COMMENT','===================================================',after='PARIU'+strtrim(i,2) ;====== write dustem wrap parameter initial fit values sxaddpar,header_predicted_SED,'COMMENT','======= Dustemwrap parameter initial fit values ======',after='COMMENT' FOR i=0L,Nparams-1 DO BEGIN sxaddpar,header_predicted_SED,'PARI'+strtrim(i+1,2),parameters_init_values[i],'Param. '+parameters_desc[i] ENDFOR sxaddpar,header_predicted_SED,'COMMENT','===================================================',after='PARIV'+strtrim(i,2) ;===== complement extension header for predicted spectrum total sxaddpar,header_predicted_spectrum_tot,'TITLE','OUTPUT BEST FIT TOTAL SPECTRUM BY DUSTEMWRAP' 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' ;FOR i=0L,Ngrains-1 DO BEGIN ; hh=*headers_predicted_spectrum_grain[i] ; sxaddpar,hh,'TITLE','OUTPUT BEST FIT SPECTRUM BY DUSTEMWRAP FOR GRAIN '+strtrim(i+1,2) ; *headers_predicted_spectrum_grain[i]=hh ;ENDFOR ;write final file IF keyword_set(filename) THEN BEGIN file=filename ENDIF ELSE BEGIN file='./dustemwrap_results.fits' ENDELSE ;==== Write the observed SED in extension 1 mwrfits,str_input_SED,file,header_input_sed,/create unit=unit+1 ;==== add the predicted SED in extension 2 mwrfits,str_predicted_SED,file,header_predicted_SED ;==== add the predicted total spectrum in extension 3 ;mwrfits,str_predicted_spectrum_tot,file,header_predicted_spectrum_tot ;==== add the predicted spectrum for each grain type in extension 4 - 4+Ngrains ;FOR i=0L,Ngrains-1 DO BEGIN ; mwrfits,*str_predicted_spectrum_grains[i],file,*headers_predicted_spectrum_grain[i] ;ENDFOR ;==== add the predicted per-grain spectrum in extension 3 ;stop mwrfits,dustem_spectra_st.sed,file,header_predicted_spectra ;==== add the predicted per-grain extinction in extension 4 mwrfits,dustem_spectra_st.ext,file,header_predicted_extinctions message,'Wrote '+file,/info ;stop ;hprint,header_input_sed ;hprint,header_predicted_SED the_end: END