PRO dustem_read_fits_table,filename=filename,dustem_st=dustem_st,help=help ;+ ; NAME: ; dustem_read_fits_table ; ; PURPOSE: ; Reads a Dustem fits table into current DustEMWrap system variables ; ; CATEGORY: ; DustEMWrap, High-Level, Distributed, User convenience ; ; CALLING SEQUENCE: ; dustem_read_fits_table[,filename=][,/help] ; ; INPUTS: ; ; OPTIONAL INPUT PARAMETERS: ; filename = File name to be read (default='./dustemwrap_results.fits') ; ; OUTPUTS: ; None ; ; OPTIONAL OUTPUT PARAMETERS: ; dustem_st = emission and extinction dustem output structure (total and for each grain type) ; ; ACCEPTED KEY-WORDS: ; help = If set, print this help ; ; COMMON BLOCKS: ; None ; ; SIDE EFFECTS: ; DustEMWrap system variables are set ; ; 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_read_fits_table' goto,the_end ENDIF ;write final file IF keyword_set(filename) THEN BEGIN file=filename ENDIF ELSE BEGIN file='./dustemwrap_results.fits' ENDELSE message,'Reading '+file,/info toto=mrdfits(file,0,main_header) ;get extention numbers from main header current_ext=1 ext_names=[''] exts=[-1] finished=0 WHILE not finished DO BEGIN ext_name=sxpar(main_header,'EXT'+strtrim(current_ext,2),count=count) IF count NE 0 THEN BEGIN ext_names=[ext_names,ext_name] exts=[exts,current_ext] current_ext=current_ext+1 ENDIF ELSE BEGIN finished=1 ENDELSE ENDWHILE ext_names=ext_names[1:*] exts=exts[1:*] Nextensions=n_elements(exts) message,'================================================',/info message,'Reading '+file,/info message,'File extensions detected are: ',/info FOR i=0L,Nextensions-1 DO BEGIN message,'extension '+strtrim(exts[i],2)+' : '+strtrim(ext_names[i],2),/info ENDFOR message,'================================================',/info ;extensions_strs=['INPUT_EMISSION_SED','DUSTEM_PREDICTED_SED', $ ; 'INPUT_EXTINCTION_SED','DUSTEM_PREDICTED_EXTINCTION_SED', $ ; 'DUSTEM_PREDICTED_EMISSION_SPECTRA','DUSTEM_PREDICTED_EXTINCTION_SPECTRA', $ ; 'DUSTEM_PREDICTED_EMISSION_SPECTRA_POL','DUSTEM_PREDICTED_EXTINCTION_SPECTRA_POL'] ind=where(ext_names EQ 'INPUT_EMISSION_SED',count) IF count NE 0 THEN BEGIN unit_input_emission_sed=exts[ind[0]] ;print,unit_input_emission_sed ENDIF ELSE BEGIN unit_input_emission_sed=-1 ENDELSE ind=where(ext_names EQ 'DUSTEM_PREDICTED_SED',count) IF count NE 0 THEN BEGIN unit_dustem_predicted_sed=exts[ind[0]] ;print,unit_dustem_predicted_sed ENDIF ELSE BEGIN unit_dustem_predicted_sed=-1 ENDELSE ind=where(ext_names EQ 'INPUT_EXTINCTION_SED',count) IF count NE 0 THEN BEGIN unit_input_extinction_sed=exts[ind[0]] ;print,unit_input_extinction_sed ENDIF ELSE BEGIN unit_input_extinction_sed=-1 ENDELSE ind=where(ext_names EQ 'DUSTEM_PREDICTED_EXTINCTION_SED',count) IF count NE 0 THEN BEGIN unit_dustem_predicted_extinction_sed=exts[ind[0]] ;print,unit_dustem_predicted_extinction_sed ENDIF ELSE BEGIN unit_dustem_predicted_extinction_sed=-1 ;That would be abnormal ENDELSE ind=where(ext_names EQ 'DUSTEM_PREDICTED_EMISSION_SPECTRA',count) IF count NE 0 THEN BEGIN unit_dustem_predicted_emission_spectra=exts[ind[0]] ;print,unit_dustem_predicted_emission_spectra ENDIF ELSE BEGIN unit_dustem_predicted_emission_spectra=-1 ;That would be abnormal ENDELSE ind=where(ext_names EQ 'DUSTEM_PREDICTED_EXTINCTION_SPECTRA',count) IF count NE 0 THEN BEGIN unit_dustem_predicted_extinction_spectra=exts[ind[0]] ;print,unit_dustem_predicted_extinction_spectra ENDIF ELSE BEGIN unit_dustem_predicted_extinction_spectra=-1 ;That would be abnormal ENDELSE ind=where(ext_names EQ 'DUSTEM_PREDICTED_EMISSION_SPECTRA_POL',count) IF count NE 0 THEN BEGIN unit_dustem_predicted_emission_spectra_pol=exts[ind[0]] ;print,unit_dustem_predicted_emission_spectra_pol ENDIF ELSE BEGIN unit_dustem_predicted_emission_spectra_pol=-1 ENDELSE ind=where(ext_names EQ 'DUSTEM_PREDICTED_EXTINCTION_SPECTRA_POL',count) IF count NE 0 THEN BEGIN unit_dustem_predicted_extinction_spectra_pol=exts[ind[0]] ;print,unit_dustem_predicted_extinction_spectra_pol ENDIF ELSE BEGIN unit_dustem_predicted_extinction_spectra_pol=-1 ENDELSE ;stop ; unit_input_sed=sxpar(main_header,'INPUT_EMISSION_SED') ; unit_predicted_sed=sxpar(main_header,'DUSTEM_PREDICTED_SED') ; unit_predicted_spectra=sxpar(main_header,'DUSTEM_PREDICTED_EMISSION') ; unit_predicted_extinctions=sxpar(main_header,'DUSTEM_PREDICTED_EXTINCTION') ; unit_predicted_spectra_pol=sxpar(main_header,'DUSTEM_PREDICTED_EMISSION_POL') ; unit_predicted_extinctions_pol=sxpar(main_header,'DUSTEM_PREDICTED_EXTINCTION_POL') ;==== read the observed SED (if any) IF unit_input_emission_sed NE -1 THEN BEGIN str_input_SED=mrdfits(file,unit_input_emission_sed,header_input_sed) ENDIF ELSE BEGIN ENDELSE ;==== read the predicted SED (if any) IF unit_dustem_predicted_sed NE -1 THEN BEGIN str_predicted_SED=mrdfits(file,unit_dustem_predicted_sed,header_predicted_SED) ENDIF ELSE BEGIN ENDELSE IF unit_input_extinction_sed NE -1 THEN BEGIN str_input_EXT=mrdfits(file,unit_input_extinction_sed,header_input_ext) ENDIF ELSE BEGIN ENDELSE IF unit_dustem_predicted_extinction_sed NE -1 THEN BEGIN str_predicted_EXT=mrdfits(file,unit_input_extinction_sed,header_input_ext) ENDIF ELSE BEGIN ENDELSE used_model=strtrim(sxpar(main_header,'MODEL'),2) used_pol=long(strtrim(sxpar(main_header,'POL'),2)) used_version=strtrim(sxpar(main_header,'WRAP_V'),2) IF used_model NE 'DEFAULT' THEN BEGIN dustem_init,model=used_model,pol=used_pol ENDIF ELSE BEGIN dustem_init,model=0 ENDELSE !dustem_model=used_model IF !dustem_version.version NE used_version THEN BEGIN message,'Caution: fits file was not created with the same Dustemwrap version as your current version',/continue message,'Fits dustemwrap version is :'+used_version,/continue message,'current dustemwrap version is :'+!dustem_version.version,/continue stop ENDIF best_fit_chi2=sxpar(main_header,'CHI2') best_fit_rchi2=sxpar(main_header,'RCHI2') ;==== get parameter values Nparams=sxpar(main_header,'NPARAMS') parameters_desc=strarr(Nparams) best_parameters=dblarr(Nparams) best_parameters_init_values=dblarr(Nparams) best_parameters_uncertainties=dblarr(Nparams) parameters_func_values=dblarr(Nparams) FOR i=0L,Nparams-1 DO BEGIN parameters_desc[i]=sxpar(main_header,'PARN'+strtrim(i+1,2)) best_parameters[i]=sxpar(main_header,'PARV'+strtrim(i+1,2)) best_parameters_uncertainties[i]=sxpar(main_header,'PARU'+strtrim(i+1,2)) best_parameters_init_values[i]=sxpar(main_header,'PARI'+strtrim(i+1,2)) parameters_func_values[i]=sxpar(main_header,'PARI'+strtrim(i+1,2)) ENDFOR (*!dustem_fit).PARAM_DESCS=ptr_new(parameters_desc) (*!dustem_fit).PARAM_INIT_VALUES=ptr_new(best_parameters_init_values) (*!dustem_fit).CURRENT_PARAM_VALUES=ptr_new(best_parameters) (*!dustem_fit).CURRENT_PARAM_ERRORS=ptr_new(best_parameters_uncertainties) (*!dustem_fit).CHI2=best_fit_chi2 (*!dustem_fit).RCHI2=best_fit_rchi2 (*!dustem_fit).PARAM_FUNC=ptr_new(parameters_func_values) ;stop ;==== This is to create (*!dustem_data).sed in case it does not exist already IF unit_input_emission_sed NE -1 THEN BEGIN Nsed=n_elements(str_input_SED) sed=dustem_initialize_internal_sed(Nsed) (*!dustem_data).sed=ptr_new(sed) (*(*!dustem_data).sed).instru_names=dustem_filter2instru(str_input_SED.filter) (*(*!dustem_data).sed).filt_names=str_input_SED.filter (*(*!dustem_data).sed).wav=str_input_SED.wavelength (*(*!dustem_data).sed).values=str_input_SED.I (*(*!dustem_data).sed).sigma=str_input_SED.varianceII IF used_pol THEN BEGIN ;stop (*!dustem_data).qsed=ptr_new(sed) (*!dustem_data).used=ptr_new(sed) (*(*!dustem_data).qsed).instru_names=dustem_filter2instru(str_input_SED.filter) (*(*!dustem_data).qsed).filt_names=str_input_SED.filter (*(*!dustem_data).qsed).wav=str_input_SED.wavelength (*(*!dustem_data).qsed).values=str_input_SED.Q (*(*!dustem_data).qsed).sigma=str_input_SED.varianceQQ (*(*!dustem_data).used).instru_names=dustem_filter2instru(str_input_SED.filter) (*(*!dustem_data).used).filt_names=str_input_SED.filter (*(*!dustem_data).used).wav=str_input_SED.wavelength (*(*!dustem_data).used).values=str_input_SED.U (*(*!dustem_data).used).sigma=str_input_SED.varianceUU ENDIF ENDIF IF unit_input_extinction_sed NE -1 THEN BEGIN Next=n_elements(str_input_EXT) ext=dustem_initialize_internal_sed(Next) (*!dustem_data).ext=ptr_new(ext) (*(*!dustem_data).ext).instru_names=dustem_filter2instru(str_input_EXT.filter) (*(*!dustem_data).ext).filt_names=str_input_EXT.filter (*(*!dustem_data).ext).wav=str_input_EXT.wavelength (*(*!dustem_data).ext).values=str_input_EXT.I (*(*!dustem_data).ext).sigma=str_input_EXT.varianceII IF used_pol THEN BEGIN ;stop (*!dustem_data).qext=ptr_new(ext) (*!dustem_data).uext=ptr_new(ext) (*(*!dustem_data).qext).instru_names=dustem_filter2instru(str_input_EXT.filter) (*(*!dustem_data).qext).filt_names=str_input_EXT.filter (*(*!dustem_data).qext).wav=str_input_EXT.wavelength (*(*!dustem_data).qext).values=str_input_EXT.Q (*(*!dustem_data).qext).sigma=str_input_EXT.varianceQQ (*(*!dustem_data).uext).instru_names=dustem_filter2instru(str_input_EXT.filter) (*(*!dustem_data).uext).filt_names=str_input_EXT.filter (*(*!dustem_data).uext).wav=str_input_EXT.wavelength (*(*!dustem_data).uext).values=str_input_EXT.U (*(*!dustem_data).uext).sigma=str_input_EXT.varianceUU ENDIF ENDIF ;=== Below is only to get the same output form as dustem_compute_sed ;Note: If the same model is used, the outputs should be the same as what is in the fits file .... IF unit_input_emission_sed NE -1 THEN BEGIN recomputed_dustem_predicted_emission_sed=dustem_compute_sed(*(*!dustem_fit).current_param_values,st=dustem_st) ENDIF ELSE BEGIN recomputed_dustem_predicted_ext_sed=dustem_compute_ext(*(*!dustem_fit).current_param_values,st=dustem_st) ENDELSE dustem_predicted_em=mrdfits(file,unit_dustem_predicted_emission_spectra,header_predicted_emission) dustem_predicted_ext= mrdfits(file,unit_dustem_predicted_extinction_spectra,header_predicted_extinction) dustem_st.sed=dustem_predicted_em dustem_st.ext=dustem_predicted_ext IF used_pol THEN BEGIN toto=mrdfits(file,unit_dustem_predicted_emission_spectra_pol,header_predicted_spectra_pol) ;help,dustem_st.polsed,toto,/str dustem_st.polsed=toto toto=mrdfits(file,unit_dustem_predicted_extinction_spectra_pol,header_predicted_extinctions_pol) dustem_st.polext=toto ENDIF ;stop the_end: END