PRO dustem_init_parinfo,pd,iv, $ fixed=fixed,tied=tied, $ up_limited=up_limited,lo_limited=lo_limited,up_limits=up_limits,lo_limits=lo_limits, $ relstep=relstep,step=step (*!dustem_fit).param_descs=ptr_new(pd) (*!dustem_fit).param_init_values=ptr_new(iv) ;stop dustem_set_func_ind,pd,iv one_parinfo={value:0.D0, fixed:0, limited:[0,0], limits:[0.D0,0], parname:'', relstep:0., step:0., mpside:0, tied:''} Npar=n_elements(pd) dustem_parinfo=replicate(one_parinfo,Npar) FOR i=0L,Npar-1 DO BEGIN ; dustem_parinfo[i].value=iv(i)/(*!init_value)(i) dustem_parinfo[i].value=iv(i)/(*(*!dustem_fit).param_init_values)(i) IF keyword_set(fixed) THEN dustem_parinfo[i].fixed=fixed[i] dustem_parinfo[i].limited[0]=0 dustem_parinfo[i].limited[1]=0 dustem_parinfo[i].limits[0]=0. dustem_parinfo[i].limits[1]=0. dustem_parinfo[i].parname=pd[i] IF keyword_set(relstep) THEN dustem_parinfo[i].relstep=relstep[i] IF keyword_set(step) THEN dustem_parinfo[i].step=step[i] dustem_parinfo[i].mpside=0 IF keyword_set(tied) THEN dustem_parinfo[i].tied=tied[i] ENDFOR IF keyword_set(up_limited) THEN BEGIN ind=where(up_limited EQ 1,countup) IF countup EQ 0 THEN goto,suite1 IF NOT keyword_set(up_limits) THEN BEGIN print,'up_limits must be set with up_limited' stop ENDIF IF countup NE 0 THEN BEGIN FOR i=0L,countup-1 DO BEGIN dustem_parinfo[ind(i)].limited[1]=1 dustem_parinfo[ind(i)].limits[1]=up_limits[ind(i)]/(*(*!dustem_fit).param_init_values)(ind(i)) ENDFOR ENDIF ENDIF suite1: IF keyword_set(lo_limited) THEN BEGIN ind=where(lo_limited EQ 1,countlo) IF countlo EQ 0 THEN goto,suite2 IF NOT keyword_set(lo_limits) THEN BEGIN print,'lo_limits must be set with lo_limited' stop ENDIF IF countlo NE 0 THEN BEGIN FOR i=0L,countlo-1 DO BEGIN dustem_parinfo[ind(i)].limited[0]=1 dustem_parinfo[ind(i)].limits[0]=lo_limits[ind(i)]/(*(*!dustem_fit).param_init_values)(ind(i)) ENDFOR ENDIF ENDIF suite2: defsysv,'!dustem_parinfo',ptr_new(dustem_parinfo) END