FUNCTION dustem_mpfit_data,tol=tol,Nitermax=Nitermax,gtol=gtol,function_name=function_name,xtol=xtol ;+ ; NAME: ; dustem_mpfit_data ; PURPOSE: ; call MPFIT to fit observational datas using ponderated reduced chi2 ; between extinction, emission, and polarisation as defined in !fit_rchi2_weight ; CATEGORY: ; Dustem ; CALLING SEQUENCE: ; res=dustem_mpfit_data(tol=tol,Nitermax=Nitermax,gtol=gtol) ; INPUTS: ; None ; OPTIONAL INPUT PARAMETERS: ; OUTPUTS: ; None ; OPTIONAL OUTPUT PARAMETERS: ; ACCEPTED KEY-WORDS: ; help = If set, print this help ; COMMON BLOCKS: ; None ; SIDE EFFECTS: ; None ; RESTRICTIONS: ; The dustem idl wrapper must be installed ; PROCEDURE: ; None ; EXAMPLES ; ; MODIFICATION HISTORY: ; Written by V. Guillet (2012) ; see evolution details on the dustem cvs maintained at CESR ; Contact J.-Ph. Bernard (Jean-Philippe.Bernard@cesr.fr) in case of problems. ;- IF keyword_set(mode) THEN BEGIN use_mode=strupcase(mode) ENDIF ELSE BEGIN use_mode='COMPIEGNE_ETAL2010' ;Default is last dustem model ENDELSE disp_str='=====================================================' IF not keyword_set(function_name) THEN BEGIN func_name='dustem_mpfit_run' ENDIF ELSE BEGIN func_name=function_name ENDELSE functargs={plot_it:1} use_tol=1.e-14 ;Default tolerance value use_Nitermax=3 ;Default maximum number of iterations IF keyword_set(tol) THEN use_tol=tol IF keyword_set(Nitermax) THEN use_Nitermax=Nitermax ; Build array concatenating observational datas ; Order : that of !dustem_data (sed, ext, polext, polsed) ind_data_tag=dustem_data_tag(count=count_data_tag) fields=['wav','values','sigma'] for j=0,n_elements(fields)-1 do begin instruc = fields(j)+' = ([0' ; we add 0 first to allow for ',' after it for i=0, count_data_tag-1 do begin $ ; Add each data set ; Adapt sigma to the reduced chi2 ponderation defined in !fit_rchi2_weight between sed, ext, polext and polsed ; Total_reduced_chi2_driving_mpfit = sum_i ( chi2_i * (weight_i/n_i) ) ; n : the total number of observational variables in the data ; n_i : the number of obs. variable in data i ; w_i : the weight for data i from !fit_rchi2_weight for the ponderation of reduced chi2 ; ex : w_sed = 0.8, w_ext = 0.2 , i.e. rchi2_sed counts 4 times as much as rchi2_ext ; sed : 314 pts, ext : 52 pts, i.e. 6 times much more constraints in sed than in ext ; sigma_sed *= sqrt(314./366/0.8) = 1.03 ; sigma_ext *= sqrt(52./366./0.2) = 0.84 ; By increasing sigma by a factor w, we diminish the weight of the corresponding point by a factor w^2 if count_data_tag gt 1 and j eq 2 then begin ; sigma ponderation = sqrt(ni/wi) if !fit_rchi2_weight.(i) gt 0 then begin weight = sqrt(1./!fit_rchi2_weight.(i) ) endif else begin weight = 1.d99 endelse endif else begin weight = 1. endelse ;print,"WEIGHT",i,j,weight,n_elements((*!dustem_data.(i)).sigma),"/",n_elements(wav) instruc += ', (*!dustem_data.(' + strtrim(ind_data_tag(i),2) + ')).'+fields(j)+'*'+strtrim(weight,2) ;print,"INSTRUC",instruc endfor instruc += '])(1:*)' ; from 1 to exclude first 0 ;print,'-> INSTRUC: ',instruc toto=execute(instruc) ; Variables wav, values & sigma are created endfor ;stop p_min = dustem_mpfitfun(func_name,wav,values,sigma, $ parinfo=(*!dustem_parinfo), perror=perror, yfit=yfit, $ bestnorm=bestnorm, dof=dof,quiet=quiet, status=status, xtol=xtol, niter=niter_completed, ftol=use_tol, $ functargs=functargs,maxiter=use_Nitermax,gtol=gtol,errmsg=errmsg) message,errmsg,/info message,'mpfitfun Status='+strtrim(status,2),/info p_dim=p_min*(*(*!dustem_fit).param_init_values) p_er_dim=perror*(*(*!dustem_fit).param_init_values) ;PRINT RESULTS ;print,'<°)))>< <°)))>< <°)))>< <°)))>< <°)))>< <°)))>< <°)))>< <°)))><' print, 'Final parameters : ', p_dim ;=== store best fit values in syst variables (*!dustem_fit).chi2=bestnorm (*!dustem_fit).rchi2=bestnorm/dof (*!dustem_fit).current_param_values=ptr_new(p_dim) ;The above was removed because it seems it was not used anywhere. ;!dustem_fit_sed=ptr_new(dustem_compute_sed(p_dim,st,cont=cont,_extra=extra)) (*!dustem_fit).current_param_errors=ptr_new(p_er_dim) RETURN, p_dim END