FUNCTION dustem_set_data,help=help,ext=ext,polsed=polsed,polext=polext,sed=sed,polfrac=polfrac,rchi2_weight=rchi2_weight,f_HI=f_HI,qsed=qsed,used=used,qext=qext, uext=uext ;+ ; NAME: ; dustem_set_data ; PURPOSE: ; Initializes the dustem data structure (!dustem_data) ; CATEGORY: ; Dustem ; CALLING SEQUENCE: ; dustem_set_data,spec[,help=] ; INPUTS: ; spec: array of structures containing a SED ; OPTIONAL INPUT PARAMETERS: ; None ; OUTPUTS: ; None ; OPTIONAL OUTPUT PARAMETERS: ; None ; ACCEPTED KEY-WORDS: ; help = If set print this help ; COMMON BLOCKS: ; None ; SIDE EFFECTS: ; initializes !dustem_data ; wavelengths are forced to be the central filter wavelength for ; photometric data ; RESTRICTIONS: ; The dustem idl wrapper must be installed ; PROCEDURE: ; None ; EXAMPLES ; dustem_init ; dir=getenv('DUSTEM_SOFT_DIR')+'/src/dustem3.8_web/SEDs/' ; file=dir+'Gal_composite_spectrum.xcat' ; spec=read_xcat(file,/silent) ; dustem_set_data,spec ; MODIFICATION HISTORY: ; Written by J.-Ph. Bernard ; see evolution details on the dustem cvs maintained at CESR ; Contact J.-Ph. Bernard (Jean-Philippe.Bernard@cesr.fr) in case of problems. ; ; V. Guillet (2012) : dustem_set_data is turned into a function which can be used ; indifferently for sed, ext, polext ;- IF keyword_set(help) THEN BEGIN doc_library,'dustem_set_data' goto,the_end ENDIF ;=== clean the data structure !dustem_data.sed = ptr_new() !dustem_data.ext = ptr_new() if keyword_set(polext) then !dustem_data.polext = ptr_new() if keyword_set(polsed) then !dustem_data.polsed = ptr_new() if keyword_set(polfrac) then !dustem_data.polfrac = ptr_new() if keyword_set(qsed) then !dustem_data.qsed = ptr_new() if keyword_set(used) then !dustem_data.used = ptr_new() if keyword_set(qext) then !dustem_data.qext = ptr_new() if keyword_set(uext) then !dustem_data.uext = ptr_new() IF keyword_set(sed) THEN BEGIN wavs=sed.wave ;=== Impose central wavelengths for photometric channels ind=where(sed.filter NE 'SPECTRUM',count) IF count NE 0 THEN BEGIN wavs(ind)=dustem_filter2wav(sed(ind).filter) ENDIF ;=== define observations structure obs_st={instru_names:sed.instru,filt_names:sed.filter,wav:wavs, values:sed.spec,sigma:sed.error} ;=== fill !dustem_data !dustem_data.sed = ptr_new(obs_st) ;VGb ; If f_HI is specified, multiply the data by f_HI if keyword_set(f_HI) then begin if f_HI gt 0 then (*!dustem_data.sed).values *= f_HI else f_HI = 1. endif else f_HI = 1. defsysv,'!dustem_f_HI',f_HI ;VGe ENDIF IF keyword_set(polsed) THEN BEGIN wavs=polsed.wave ;=== Impose central wavelengths for photometric channels ind=where(polsed.filter NE 'SPECTRUM',count) IF count NE 0 THEN BEGIN wavs(ind)=dustem_filter2wav(polsed(ind).filter) ENDIF ;=== define observations structure obs_st={instru_names:polsed.instru,filt_names:polsed.filter,wav:wavs, values:polsed.spec,sigma:polsed.error} ;=== fill !dustem_data !dustem_data.polsed = ptr_new(obs_st) ;VGe ; If f_HI is specified, multiply the data by f_HI if keyword_set(f_HI) then if f_HI gt 0 then $ (*!dustem_data.polsed).values *= f_HI ;VGe ENDIF IF keyword_set(qsed) THEN BEGIN wavs=qsed.wave ;=== Impose central wavelengths for photometric channels ind=where(qsed.filter NE 'SPECTRUM',count) IF count NE 0 THEN BEGIN wavs(ind)=dustem_filter2wav(qsed(ind).filter) ENDIF ;=== define observations structure obs_st={instru_names:qsed.instru,filt_names:qsed.filter,wav:wavs, values:qsed.spec,sigma:qsed.error} ;=== fill !dustem_data !dustem_data.qsed = ptr_new(obs_st) ;VGe ; If f_HI is specified, multiply the data by f_HI if keyword_set(f_HI) then if f_HI gt 0 then $ (*!dustem_data.qsed).values *= f_HI ;VGe ENDIF IF keyword_set(used) THEN BEGIN wavs=used.wave ;=== Impose central wavelengths for photometric channels ind=where(used.filter NE 'SPECTRUM',count) IF count NE 0 THEN BEGIN wavs(ind)=dustem_filter2wav(used(ind).filter) ENDIF ;=== define observations structure obs_st={instru_names:used.instru,filt_names:used.filter,wav:wavs, values:used.spec,sigma:used.error} ;=== fill !dustem_data !dustem_data.used = ptr_new(obs_st) ;VGe ; If f_HI is specified, multiply the data by f_HI if keyword_set(f_HI) then if f_HI gt 0 then $ (*!dustem_data.used).values *= f_HI ;VGe ENDIF IF keyword_set(qext) THEN BEGIN wavs=qext.wave ;=== Impose central wavelengths for photometric channels ind=where(qext.filter NE 'SPECTRUM',count) IF count NE 0 THEN BEGIN wavs(ind)=dustem_filter2wav(qext(ind).filter) ENDIF ;=== define observations structure obs_st={instru_names:qext.instru,filt_names:qext.filter,wav:wavs, values:qext.spec,sigma:qext.error} ;=== fill !dustem_data !dustem_data.qext = ptr_new(obs_st) ;VGe ; If f_HI is specified, multiply the data by f_HI if keyword_set(f_HI) then if f_HI gt 0 then $ (*!dustem_data.qext).values *= f_HI ;VGe ENDIF IF keyword_set(uext) THEN BEGIN wavs=uext.wave ;=== Impose central wavelengths for photometric channels ind=where(uext.filter NE 'SPECTRUM',count) IF count NE 0 THEN BEGIN wavs(ind)=dustem_filter2wav(uext(ind).filter) ENDIF ;=== define observations structure obs_st={instru_names:uext.instru,filt_names:uext.filter,wav:wavs, values:uext.spec,sigma:uext.error} ;=== fill !dustem_data !dustem_data.uext = ptr_new(obs_st) ;VGe ; If f_HI is specified, multiply the data by f_HI if keyword_set(f_HI) then if f_HI gt 0 then $ (*!dustem_data.uext).values *= f_HI ;VGe ENDIF IF keyword_set(polfrac) THEN BEGIN wavs=polfrac.wave ;=== Impose central wavelengths for photometric channels ind=where(polfrac.filter NE 'SPECTRUM',count) IF count NE 0 THEN BEGIN wavs(ind)=dustem_filter2wav(polfrac(ind).filter) ENDIF ;=== define observations structure obs_st={instru_names:polfrac.instru,filt_names:polfrac.filter,wav:wavs, values:polfrac.spec,sigma:polfrac.error} ;=== fill !dustem_data !dustem_data.polfrac = ptr_new(obs_st) ENDIF IF keyword_set(polext) THEN BEGIN wavs=polext.wave ;=== Impose central wavelengths for photometric channels ind=where(polext.filter NE 'SPECTRUM',count) IF count NE 0 THEN BEGIN wavs(ind)=dustem_filter2wav(polext(ind).filter) ENDIF ;=== define observations structure obs_st={instru_names:polext.instru,filt_names:polext.filter,wav:wavs, values:polext.spec,sigma:polext.error} ;=== fill !dustem_data !dustem_data.polext = ptr_new(obs_st) ENDIF IF keyword_set(ext) THEN BEGIN wavs=ext.wave ;=== Impose central wavelengths for photometric channels ind=where(ext.filter NE 'SPECTRUM',count) IF count NE 0 THEN BEGIN wavs(ind)=dustem_filter2wav(ext(ind).filter) ENDIF ;=== define observations structure obs_st={instru_names:ext.instru,filt_names:ext.filter,wav:wavs, values:ext.spec,sigma:ext.error} ;=== fill !dustem_data !dustem_data.ext = ptr_new(obs_st) ENDIF !fit_rchi2_weight.sed=1. !fit_rchi2_weight.ext=1. if keyword_set(polext) then !fit_rchi2_weight.polext=1. if keyword_set(polsed) then !fit_rchi2_weight.polsed=1. if keyword_set(polfrac) then !fit_rchi2_weight.polfrac=1. if keyword_set(qsed) then !fit_rchi2_weight.qsed=1. if keyword_set(used) then !fit_rchi2_weight.used=1. if keyword_set(qext) then !fit_rchi2_weight.qext=1. if keyword_set(uext) then !fit_rchi2_weight.uext=1. IF keyword_set(rchi2_weight) THEN begin !fit_rchi2_weight.sed = rchi2_weight.sed !fit_rchi2_weight.ext = rchi2_weight.ext if keyword_set(polext) then !fit_rchi2_weight.polext = rchi2_weight.polext if keyword_set(polsed) then !fit_rchi2_weight.polsed = rchi2_weight.polsed if keyword_set(polfrac) then !fit_rchi2_weight.polfrac = rchi2_weight.polfrac if keyword_set(qsed) then !fit_rchi2_weight.qsed = rchi2_weight.qsed if keyword_set(used) then !fit_rchi2_weight.used = rchi2_weight.used if keyword_set(qext) then !fit_rchi2_weight.qext = rchi2_weight.qext if keyword_set(uext) then !fit_rchi2_weight.uext = rchi2_weight.uext endif return,ptr_new(obs_st) the_end: END