dustem_set_plot_range.pro
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PRO dustem_set_plot_range ,test_m,test_x, _extra=_extra ,help=help
;+
; NAME:
; dustem_set_plot_range
; PURPOSE:
; Sets the X and Y plotting ranges for the different datasets in emission and extinction when in polarization mode and not (using the _extra structure).
; CATEGORY:
; DustEMWrap
; CALLING SEQUENCE:
; dustem_set_plot_range,test_m,test_x,_extra=_extra
; INPUTS:
; test_m : (Boolean) signaling emission mode
; test_x : (Boolean) signaling extinction mode
; OPTIONAL INPUT PARAMETERS:
; _extra structure containing the plotting keywords
; OUTPUTS:
; NONE
; OPTIONAL OUTPUT PARAMETERS:
;
; ACCEPTED KEY-WORDS:
; help
; COMMON BLOCKS:
; None
; SIDE EFFECTS:
; Changes the default plotting parameters in the !dustem_plot_range pointer.
; The procedure only works with the presence of the _extra structure
; RESTRICTIONS:
; The DustEM fortran code must be installed
; The DustEMWrap IDL code must be installed
; PROCEDURES AND SUBROUTINES USED:
;
; EXAMPLES
; dustem_set_plot_range ,test_m,test_x, _extra=_extra
; MODIFICATION HISTORY:
; Written by Ilyes Choubani
; Evolution details on the DustEMWrap gitlab.
;-
IF keyword_set(help) THEN BEGIN
doc_library,'dustemw_set_plot_range'
goto,the_end
END
IF keyword_set(_extra) THEN BEGIN
tgnms_extra = tag_names(_extra)
; ;Now testing on what is in the _extra structure.
IF test_m and ~test_x THEN BEGIN ;EMISSION ALONE
IF !run_pol THEN BEGIN ;SEVERAL DATA SETS: THE DASHBOARD
;Setting of tHE X-RANGE
;taking into account as many entries as possible
tsxr = strmid(strupcase(tgnms_extra),0,2) EQ 'XR' or $
strupcase(tgnms_extra) EQ 'XRANGE' or $
(strmid(strupcase(tgnms_extra),0,1) EQ 'X' and $
STRUPCASE(strmid(tgnms_extra,1,/reverse_offset)) EQ '_M') or $
(strmid(strupcase(tgnms_extra),0,1) EQ 'X' and $
STRUPCASE(strmid(tgnms_extra,8,/reverse_offset)) EQ '_EMISSION')
idxr = where(tsxr,ctestxr)
;There is no error testing on X ranges because there is only one X range
;THIS WILL ONLY CONCERN THE Y RANGES
tst = STRUPCASE(strmid(tgnms_extra,2,/reverse_offset)) NE 'SED' and $
STRUPCASE(strmid(tgnms_extra,2,/reverse_offset)) NE '_EM' and $
STRUPCASE(strmid(tgnms_extra,2,/reverse_offset)) NE 'RAC'
idyr = where((strmid(strupcase(tgnms_extra),0,2) EQ 'YR'and tst) or $
strupcase(tgnms_extra) EQ 'YRANGE' or $
(strmid(strupcase(tgnms_extra),0,2) EQ 'YR' and tst and $
STRUPCASE(strmid(tgnms_extra,1,/reverse_offset)) NE '_M') or $
(strmid(strupcase(tgnms_extra),0,2) EQ 'YR' and tst and $
STRUPCASE(strmid(tgnms_extra,8,/reverse_offset)) NE '_EMISSION'),ctestyr) ;(strsplit(tgnms_extra,'_')) NE [0],ctestyr)
if ctestyr ne 0 then message, 'You have provided one Y-range when multiple ones may be provided.', /continue
idyr_polsed = where(strmid(strupcase(tgnms_extra),0,1) EQ 'Y' and $
STRUPCASE(strmid(tgnms_extra,5,/reverse_offset)) EQ 'POLSED',ctyr_polsed)
idyr_psi_em = where(strmid(strupcase(tgnms_extra),0,1) EQ 'Y' and $
STRUPCASE(strmid(tgnms_extra,5,/reverse_offset)) EQ 'PSI_EM',ctyr_psi_em)
idyr_used = where(strmid(strupcase(tgnms_extra),0,1) EQ 'Y' and $
STRUPCASE(strmid(tgnms_extra,3,/reverse_offset)) EQ 'USED',ctyr_used)
idyr_sed = where(strmid(strupcase(tgnms_extra),0,1) EQ 'Y' and $
STRUPCASE(strmid(tgnms_extra,5,/reverse_offset)) NE 'POLSED' and $
STRUPCASE(strmid(tgnms_extra,3,/reverse_offset)) NE 'QSED' and $
STRUPCASE(strmid(tgnms_extra,3,/reverse_offset)) NE 'USED' and $
STRUPCASE(strmid(tgnms_extra,2,/reverse_offset)) EQ 'SED',ctyr_sed)
idyr_polfrac = where(strmid(strupcase(tgnms_extra),0,1) EQ 'Y' and $
STRUPCASE(strmid(tgnms_extra,5,/reverse_offset)) EQ 'OLFRAC',ctyr_polfrac)
idyr_qsed = where(strmid(strupcase(tgnms_extra),0,1) EQ 'Y' and $
STRUPCASE(strmid(tgnms_extra,3,/reverse_offset)) EQ 'QSED',ctyr_qsed)
;SETTING THE TITLE
idtit = where(strmid(strupcase(tgnms_extra),0,3) EQ 'TIT' or $
(strmid(strupcase(tgnms_extra),0,1) EQ 'T' and $
STRUPCASE(strmid(tgnms_extra,1,/reverse_offset)) EQ '_M') or $
(strmid(strupcase(tgnms_extra),0,1) EQ 'T' and $
STRUPCASE(strmid(tgnms_extra,8,/reverse_offset)) EQ '_EMISSION') , ctestit)
;FILLING UP X ranges (same xrange)
IF ctestxr ne 0 THEN BEGIN
FOR i=0L,(n_tags(!dustem_plot_range)-3)/2 DO BEGIN ; THIS IS EMISSION , extinction will have to from (n_tags(!dustem_plot_range)-2)/2+1 to (n_tags(!dustem_plot_range)-2)
!dustem_plot_range.(i).xr=_extra.(idxr)
ENDFOR
ENDIF ;else the default xr is kept
;FILLING UP Y RANGES
if ctyr_polsed ne 0 then !dustem_plot_range.(3).yr = _extra.(idyr_polsed)
if ctyr_psi_em ne 0 then !dustem_plot_range.(5).yr = _extra.(idyr_psi_em)
if ctyr_used ne 0 then !dustem_plot_range.(2).yr = _extra.(idyr_used)
if ctyr_sed ne 0 then !dustem_plot_range.(0).yr = _extra.(idyr_sed)
if ctyr_polfrac ne 0 then !dustem_plot_range.(4).yr = _extra.(idyr_polfrac)
if ctyr_qsed ne 0 then !dustem_plot_range.(1).yr = _extra.(idyr_qsed)
if ctestit ne 0 then !dustem_plot_range.(12) = _extra.(idtit)
; stop
ENDIF ELSE BEGIN ;ONE DATA SET : SED - - - -
tsxr = strmid(strupcase(tgnms_extra),0,2) EQ 'XR' or $
strupcase(tgnms_extra) EQ 'XRANGE' or $
(strmid(strupcase(tgnms_extra),0,1) EQ 'X' and $
STRUPCASE(strmid(tgnms_extra,1,/reverse_offset)) EQ '_M') or $
(strmid(strupcase(tgnms_extra),0,1) EQ 'X' and $
STRUPCASE(strmid(tgnms_extra,8,/reverse_offset)) EQ '_EMISSION')
idxr = where(tsxr,ctestxr)
;FILLING UP X ranges (same xrange)
IF ctestxr ne 0 THEN !dustem_plot_range.(0).xr=_extra.(idxr)
idyr = where(strmid(strupcase(tgnms_extra),0,2) EQ 'YR' or $
strupcase(tgnms_extra) EQ 'YRANGE' or $
(strmid(strupcase(tgnms_extra),0,1) EQ 'Y' and $
STRUPCASE(strmid(tgnms_extra,1,/reverse_offset)) EQ '_M') or $
(strmid(strupcase(tgnms_extra),0,1) EQ 'Y' and $
STRUPCASE(strmid(tgnms_extra,8,/reverse_offset)) EQ '_EMISSION'),ctestyr)
;Filling up the Y range
if ctestyr ne 0 then !dustem_plot_range.(0).yr = _extra.(idyr)
;SETTING THE TITLE
idtit = where(strmid(strupcase(tgnms_extra),0,3) EQ 'TIT' or $
(strmid(strupcase(tgnms_extra),0,1) EQ 'T' and $
STRUPCASE(strmid(tgnms_extra,1,/reverse_offset)) EQ '_M') or $
(strmid(strupcase(tgnms_extra),0,1) EQ 'T' and $
STRUPCASE(strmid(tgnms_extra,8,/reverse_offset)) EQ '_EMISSION') , ctestit)
if ctestit ne 0 then !dustem_plot_range.(12) = _extra.(idtit)
ENDELSE
ENDIF
IF test_x and ~test_m THEN BEGIN ;EXTINCTION ALONE
IF !run_pol THEN BEGIN ;SEVERAL DATA SETS: THE DASHBOARD
;Setting of tHE X-RANGE
;taking into account as many entries as possible
tsxr = strmid(strupcase(tgnms_extra),0,2) EQ 'XR' or $
strupcase(tgnms_extra) EQ 'XRANGE' or $
(strmid(strupcase(tgnms_extra),0,1) EQ 'X' and $
STRUPCASE(strmid(tgnms_extra,1,/reverse_offset)) EQ '_X') or $
(strmid(strupcase(tgnms_extra),0,1) EQ 'X' and $
STRUPCASE(strmid(tgnms_extra,10,/reverse_offset)) EQ '_EXTINCTION')
idxr = where(tsxr,ctestxr)
tst = STRUPCASE(strmid(tgnms_extra,2,/reverse_offset)) NE 'EXT'
idyr = where((strmid(strupcase(tgnms_extra),0,2) EQ 'YR'and tst) or $
strupcase(tgnms_extra) EQ 'YRANGE' or $
(strmid(strupcase(tgnms_extra),0,2) EQ 'YR' and tst and $
STRUPCASE(strmid(tgnms_extra,1,/reverse_offset)) NE '_X') or $
(strmid(strupcase(tgnms_extra),0,2) EQ 'YR' and tst and $
STRUPCASE(strmid(tgnms_extra,10,/reverse_offset)) NE '_EXTINCTION'),ctestyr) ;
if ctestyr ne 0 then message, 'You have provided one Y-range when multiple Y-ranges may be provided.',/continue
idyr_polext = where(strmid(strupcase(tgnms_extra),0,1) EQ 'Y' and $
STRUPCASE(strmid(tgnms_extra,6,/reverse_offset)) EQ '_POLEXT',ctyr_polext)
idyr_psi_ext = where(strmid(strupcase(tgnms_extra),0,1) EQ 'Y' and $
STRUPCASE(strmid(tgnms_extra,6,/reverse_offset)) EQ 'PSI_EXT',ctyr_psi_ext)
idyr_uext = where(strmid(strupcase(tgnms_extra),0,1) EQ 'Y' and $
STRUPCASE(strmid(tgnms_extra,3,/reverse_offset)) EQ 'UEXT',ctyr_uext)
idyr_fpolext = where(strmid(strupcase(tgnms_extra),0,1) EQ 'Y' and $
STRUPCASE(strmid(tgnms_extra,6,/reverse_offset)) EQ 'FPLOEXT',ctyr_fpolext)
idyr_qext = where(strmid(strupcase(tgnms_extra),0,1) EQ 'Y' and $
STRUPCASE(strmid(tgnms_extra,3,/reverse_offset)) EQ 'QEXT',ctyr_qext)
testext = strmid(strupcase(tgnms_extra),0,1) EQ 'Y' and $
STRUPCASE(strmid(tgnms_extra,2,/reverse_offset)) EQ 'EXT' and $
STRUPCASE(strmid(tgnms_extra,6,/reverse_offset)) NE '_POLEXT' and $
STRUPCASE(strmid(tgnms_extra,6,/reverse_offset)) NE 'FPOLEXT' and $
STRUPCASE(strmid(tgnms_extra,6,/reverse_offset)) NE 'PSI_EXT' and $
STRUPCASE(strmid(tgnms_extra,3,/reverse_offset)) NE 'UEXT' and $
STRUPCASE(strmid(tgnms_extra,3,/reverse_offset)) NE 'QEXT'
idyr_ext = where(testex,ctyr_ext)
;SETTING THE TITLE
idtit = where(strmid(strupcase(tgnms_extra),0,3) EQ 'TIT' or $
(strmid(strupcase(tgnms_extra),0,1) EQ 'T' and $
STRUPCASE(strmid(tgnms_extra,1,/reverse_offset)) EQ '_X') or $
(strmid(strupcase(tgnms_extra),0,1) EQ 'T' and $
STRUPCASE(strmid(tgnms_extra,10,/reverse_offset)) EQ '_EXTINCTION') , ctestit)
;FILLING UP Xranges (same xrange)
IF ctestxr ne 0 THEN BEGIN
FOR i=(n_tags(!dustem_plot_range)-2)/2+1,(n_tags(!dustem_plot_range)-2) DO BEGIN ; THIS IS EMISSION , extinction will have to from (n_tags(!dustem_plot_range)-2)/2+1 to (n_tags(!dustem_plot_range)-2)
!dustem_plot_range.(i).xr=_extra.(idxr)
ENDFOR
ENDIF ;else the default xr is kept
;FILLING UP Y RANGES
if ctyr_polext ne 0 then !dustem_plot_range.(9).yr = _extra.(idyr_polext)
if ctyr_psi_ext ne 0 then !dustem_plot_range.(11).yr = _extra.(idyr_psi_ext)
if ctyr_uext ne 0 then !dustem_plot_range.(8).yr = _extra.(idyr_uext)
if ctyr_ext ne 0 then !dustem_plot_range.(6).yr = _extra.(idyr_ext)
if ctyr_fpolext ne 0 then !dustem_plot_range.(10).yr = _extra.(idyr_fpolext)
if ctyr_qext ne 0 then !dustem_plot_range.(7).yr = _extra.(idyr_qext)
if ctestit ne 0 then !dustem_plot_range.(13) = _extra.(idtit)
ENDIF ELSE BEGIN ;ONE DATA SET : EXT
tsxr = strmid(strupcase(tgnms_extra),0,2) EQ 'XR' or $
strupcase(tgnms_extra) EQ 'XRANGE' or $
(strmid(strupcase(tgnms_extra),0,1) EQ 'X' and $
STRUPCASE(strmid(tgnms_extra,1,/reverse_offset)) EQ '_X') or $
(strmid(strupcase(tgnms_extra),0,1) EQ 'X' and $
STRUPCASE(strmid(tgnms_extra,10,/reverse_offset)) EQ '_EXTINCTION')
idxr = where(tsxr,ctestxr)
;FILLING UP X ranges (same xrange)
IF ctestxr ne 0 THEN !dustem_plot_range.(6).xr=_extra.(idxr)
;NB: Counters in this loop and in the loop above do not necessarily serve the same function
idyr = where(strmid(strupcase(tgnms_extra),0,2) EQ 'YR' or $
strupcase(tgnms_extra) EQ 'YRANGE' or $
(strmid(strupcase(tgnms_extra),0,1) EQ 'Y' and $
STRUPCASE(strmid(tgnms_extra,1,/reverse_offset)) EQ '_X') or $
(strmid(strupcase(tgnms_extra),0,1) EQ 'Y' and $
STRUPCASE(strmid(tgnms_extra,10,/reverse_offset)) EQ '_EXTINCTION'),ctestyr) ;
if ctestyr ne 0 then !dustem_plot_range.(6).yr = _extra.(idyr)
;SETTING THE TITLE
idtit = where(strmid(strupcase(tgnms_extra),0,3) EQ 'TIT' or $
(strmid(strupcase(tgnms_extra),0,1) EQ 'T' and $
STRUPCASE(strmid(tgnms_extra,1,/reverse_offset)) EQ '_X') or $
(strmid(strupcase(tgnms_extra),0,1) EQ 'T' and $
STRUPCASE(strmid(tgnms_extra,10,/reverse_offset)) EQ '_EXTINCTION') , ctestit)
if ctestit ne 0 then !dustem_plot_range.(13) = _extra.(idtit)
ENDELSE
ENDIF
IF test_m and test_x THEN BEGIN ;EMISSION and EXTINCTION
IF !run_pol THEN BEGIN ;SEVERAL DATA SETS: THE SED DASHBOARD & EXT DASHBOARD
tstxr = strupcase(tgnms_extra) EQ 'XRANGE' or $
strupcase(tgnms_extra) EQ 'XR' or $
(strmid(strupcase(tgnms_extra),0,2) EQ 'XR' and $
STRUPCASE(strmid(tgnms_extra,1,/reverse_offset)) NE '_M') or $
(strmid(strupcase(tgnms_extra),0,2) EQ 'XR' and $
STRUPCASE(strmid(tgnms_extra,1,/reverse_offset)) NE '_X') or $
(strmid(strupcase(tgnms_extra),0,2) EQ 'XR' and $
STRUPCASE(strmid(tgnms_extra,8,/reverse_offset)) NE '_EMISSION') or $
(strmid(strupcase(tgnms_extra),0,2) EQ 'XR' and $
STRUPCASE(strmid(tgnms_extra,10,/reverse_offset)) NE '_EXTINCTION')
idxr = where(tstxr,ctestxr)
if ctestxr ne 0 then message, 'You have provided one X-range when multiple ones may be needed',/continue
t_m = (strmid(strupcase(tgnms_extra),0,1) EQ 'X' and $
STRUPCASE(strmid(tgnms_extra,1,/reverse_offset)) EQ '_M') or $
(strmid(strupcase(tgnms_extra),0,1) EQ 'X' and $
STRUPCASE(strmid(tgnms_extra,8,/reverse_offset)) EQ '_EMISSION')
indxr_m = where(t_m,ctestxr_m)
t_x = (strmid(strupcase(tgnms_extra),0,1) EQ 'X' and $
STRUPCASE(strmid(tgnms_extra,1,/reverse_offset)) EQ '_X') or $
(strmid(strupcase(tgnms_extra),0,1) EQ 'X' and $
STRUPCASE(strmid(tgnms_extra,10,/reverse_offset)) EQ '_EXTINCTION')
idxr_x = where(t_x,ctestxr_x)
;SETTING Y RANGE
tst = STRUPCASE(strmid(tgnms_extra,2,/reverse_offset)) NE 'SED' and $
STRUPCASE(strmid(tgnms_extra,2,/reverse_offset)) NE '_EM' and $
STRUPCASE(strmid(tgnms_extra,2,/reverse_offset)) NE 'RAC'and $
STRUPCASE(strmid(tgnms_extra,2,/reverse_offset)) NE 'EXT'
idyr = where((strmid(strupcase(tgnms_extra),0,2) EQ 'YR'and tst) or $
strupcase(tgnms_extra) EQ 'YR' or $
strupcase(tgnms_extra) EQ 'YRANGE' or $
(strmid(strupcase(tgnms_extra),0,2) EQ 'YR' and tst and $
STRUPCASE(strmid(tgnms_extra,1,/reverse_offset)) NE '_M') or $
(strmid(strupcase(tgnms_extra),0,2) EQ 'YR' and tst and $
STRUPCASE(strmid(tgnms_extra,8,/reverse_offset)) NE '_EMISSION') or $
(strmid(strupcase(tgnms_extra),0,2) EQ 'YR' and tst and $
STRUPCASE(strmid(tgnms_extra,1,/reverse_offset)) NE '_X') or $
(strmid(strupcase(tgnms_extra),0,2) EQ 'YR' and tst and $
STRUPCASE(strmid(tgnms_extra,10,/reverse_offset)) NE '_EXTINCTION'),ctestyr) ;
if ctestyr ne 0 then message, 'You have provided one Y-range when multiple ones are needed.',/continue
;EMISSION
idyr_polsed = where(strmid(strupcase(tgnms_extra),0,1) EQ 'Y' and $
STRUPCASE(strmid(tgnms_extra,5,/reverse_offset)) EQ 'POLSED',ctyr_polsed)
idyr_psi_em = where(strmid(strupcase(tgnms_extra),0,1) EQ 'Y' and $
STRUPCASE(strmid(tgnms_extra,5,/reverse_offset)) EQ 'PSI_EM',ctyr_psi_em)
idyr_used = where(strmid(strupcase(tgnms_extra),0,1) EQ 'YR' and $
STRUPCASE(strmid(tgnms_extra,3,/reverse_offset)) EQ 'USED',ctyr_used)
idyr_sed = where(strmid(strupcase(tgnms_extra),0,1) EQ 'Y' and $
STRUPCASE(strmid(tgnms_extra,5,/reverse_offset)) NE 'POLSED' and $
STRUPCASE(strmid(tgnms_extra,3,/reverse_offset)) NE 'QSED' and $
STRUPCASE(strmid(tgnms_extra,3,/reverse_offset)) NE 'USED' and $
STRUPCASE(strmid(tgnms_extra,2,/reverse_offset)) EQ 'SED',ctyr_sed)
idyr_polfrac = where(strmid(strupcase(tgnms_extra),0,1) EQ 'Y' and $
STRUPCASE(strmid(tgnms_extra,5,/reverse_offset)) EQ 'OLFRAC',ctyr_polfrac)
idyr_qsed = where(strmid(strupcase(tgnms_extra),0,1) EQ 'Y' and $
STRUPCASE(strmid(tgnms_extra,3,/reverse_offset)) EQ 'QSED',ctyr_qsed)
;EXTINCTION
idyr_polext = where(strmid(strupcase(tgnms_extra),0,1) EQ 'Y' and $
STRUPCASE(strmid(tgnms_extra,6,/reverse_offset)) EQ '_POLEXT',ctyr_polext)
idyr_psi_ext = where(strmid(strupcase(tgnms_extra),0,1) EQ 'Y' and $
STRUPCASE(strmid(tgnms_extra,6,/reverse_offset)) EQ 'PSI_EXT',ctyr_psi_ext)
idyr_uext = where(strmid(strupcase(tgnms_extra),0,1) EQ 'Y' and $
STRUPCASE(strmid(tgnms_extra,3,/reverse_offset)) EQ 'UEXT',ctyr_uext)
idyr_fpolext = where(strmid(strupcase(tgnms_extra),0,1) EQ 'Y' and $
STRUPCASE(strmid(tgnms_extra,6,/reverse_offset)) EQ 'FPLOEXT',ctyr_fpolext)
idyr_qext = where(strmid(strupcase(tgnms_extra),0,1) EQ 'Y' and $
STRUPCASE(strmid(tgnms_extra,3,/reverse_offset)) EQ 'QEXT',ctyr_qext)
testext = strmid(strupcase(tgnms_extra),0,1) EQ 'Y' and $
STRUPCASE(strmid(tgnms_extra,2,/reverse_offset)) EQ 'EXT' and $
STRUPCASE(strmid(tgnms_extra,6,/reverse_offset)) NE '_POLEXT' and $
STRUPCASE(strmid(tgnms_extra,6,/reverse_offset)) NE 'FPOLEXT' and $
STRUPCASE(strmid(tgnms_extra,6,/reverse_offset)) NE 'PSI_EXT' and $
STRUPCASE(strmid(tgnms_extra,3,/reverse_offset)) NE 'UEXT' and $
STRUPCASE(strmid(tgnms_extra,3,/reverse_offset)) NE 'QEXT'
idyr_ext = where(testex,ctyr_ext)
testit = strupcase(tgnms_extra) EQ 'TIT' or $
strupcase(tgnms_extra) EQ 'TITLE' or $
(strmid(strupcase(tgnms_extra),0,3) EQ 'TIT' and $
STRUPCASE(strmid(tgnms_extra,1,/reverse_offset)) NE '_M') or $
(strmid(strupcase(tgnms_extra),0,3) EQ 'TIT' and $
STRUPCASE(strmid(tgnms_extra,8,/reverse_offset)) NE '_EMISSION') or $
(strmid(strupcase(tgnms_extra),0,3) EQ 'TIT' and $
STRUPCASE(strmid(tgnms_extra,1,/reverse_offset)) NE '_X') or $
(strmid(strupcase(tgnms_extra),0,3) EQ 'TIT' and $
STRUPCASE(strmid(tgnms_extra,10,/reverse_offset)) NE '_EXTINCTION')
idtit = where(testit, ctit)
if ctit ne 0 then message, 'You have provivded one title when two (emission + extinctino are needed).', /continue
idtit_m = where((strmid(strupcase(tgnms_extra),0,1) EQ 'T' and $
STRUPCASE(strmid(tgnms_extra,1,/reverse_offset)) EQ '_M') or $
(strmid(strupcase(tgnms_extra),0,1) EQ 'T' and $
STRUPCASE(strmid(tgnms_extra,8,/reverse_offset)) EQ '_EMISSION'),ctit_m)
idtit_x = where((strmid(strupcase(tgnms_extra),0,1) EQ 'T' and $
STRUPCASE(strmid(tgnms_extra,1,/reverse_offset)) EQ '_X') or $
(strmid(strupcase(tgnms_extra),0,1) EQ 'T' and $
STRUPCASE(strmid(tgnms_extra,10,/reverse_offset)) EQ '_EXTINCTION'),ctit_x)
;FILLING UP X ranges (same xrange): EMISSION
IF ctestxr_m ne 0 THEN BEGIN
FOR i=0L,(n_tags(!dustem_plot_range)-2)/2 DO BEGIN ; THIS IS EMISSION , extinction will have to from (n_tags(!dustem_plot_range)-2)/2+1 to (n_tags(!dustem_plot_range)-2)
!dustem_plot_range.(i).xr=_extra.(idxr_m)
ENDFOR
ENDIF ;else the default xr is kept
;FILLING UP X ranges (same xrange) - EXTINCTION
IF ctestxr_x ne 0 THEN BEGIN
FOR i=(n_tags(!dustem_plot_range)-2)/2+1,(n_tags(!dustem_plot_range)-2) DO BEGIN ; THIS IS EMISSION , extinction will have to from (n_tags(!dustem_plot_range)-2)/2+1 to (n_tags(!dustem_plot_range)-2)
!dustem_plot_range.(i).xr=_extra.(idxr_x)
ENDFOR
ENDIF ;else the default xr is kept
;FILLING UP Y RANGES - EMISSION
if ctyr_polsed ne 0 then !dustem_plot_range.(3).yr = _extra.(idyr_polsed)
if ctyr_psi_em ne 0 then !dustem_plot_range.(5).yr = _extra.(idyr_psi_em)
if ctyr_used ne 0 then !dustem_plot_range.(2).yr = _extra.(idyr_used)
if ctyr_sed ne 0 then !dustem_plot_range.(0).yr = _extra.(idyr_sed)
if ctyr_polfrac ne 0 then !dustem_plot_range.(4).yr = _extra.(idyr_polfrac)
if ctyr_qsed ne 0 then !dustem_plot_range.(1).yr = _extra.(idyr_qsed)
;FILLING UP Y RANGES - EXTINCTION
if ctyr_polext ne 0 then !dustem_plot_range.(9).yr = _extra.(idyr_polext)
if ctyr_psi_ext ne 0 then !dustem_plot_range.(11).yr = _extra.(idyr_psi_ext)
if ctyr_uext ne 0 then !dustem_plot_range.(8).yr = _extra.(idyr_uext)
if ctyr_ext ne 0 then !dustem_plot_range.(6).yr = _extra.(idyr_ext)
if ctyr_fpolext ne 0 then !dustem_plot_range.(10).yr = _extra.(idyr_fpolext)
if ctyr_qext ne 0 then !dustem_plot_range.(7).yr = _extra.(idyr_qext)
;SETTING THE TITLE
;EXTINCTION
if ctit_x ne 0 then !dustem_plot_range.(13)=_extra.(idtit_x)
;EMISSION
if ctit_m ne 0 then !dustem_plot_range.(12)=_extra.(idtit_m)
ENDIF ELSE BEGIN ;TWO DATA SETS : EXT AND SED
tstxr = strupcase(tgnms_extra) EQ 'XRANGE' or $
strupcase(tgnms_extra) EQ 'XR' or $
(strmid(strupcase(tgnms_extra),0,2) EQ 'XR' and $
STRUPCASE(strmid(tgnms_extra,1,/reverse_offset)) NE '_M') or $
(strmid(strupcase(tgnms_extra),0,2) EQ 'XR' and $
STRUPCASE(strmid(tgnms_extra,1,/reverse_offset)) NE '_X') or $
(strmid(strupcase(tgnms_extra),0,2) EQ 'XR' and $
STRUPCASE(strmid(tgnms_extra,8,/reverse_offset)) NE '_EMISSION') or $
(strmid(strupcase(tgnms_extra),0,2) EQ 'XR' and $
STRUPCASE(strmid(tgnms_extra,10,/reverse_offset)) NE '_EXTINCTION')
idxr = where(tstxr,ctestxr)
if ctestxr ne 0 then message, 'You have provided one X-range when multiple ones are needed',/continue
t_m = (strmid(strupcase(tgnms_extra),0,1) EQ 'X' and $
STRUPCASE(strmid(tgnms_extra,1,/reverse_offset)) EQ '_M') or $
(strmid(strupcase(tgnms_extra),0,1) EQ 'X' and $
STRUPCASE(strmid(tgnms_extra,8,/reverse_offset)) EQ '_EMISSION')
indxr_m = where(t_m,ctestxr_m)
t_x = (strmid(strupcase(tgnms_extra),0,1) EQ 'X' and $
STRUPCASE(strmid(tgnms_extra,1,/reverse_offset)) EQ '_X') or $
(strmid(strupcase(tgnms_extra),0,1) EQ 'X' and $
STRUPCASE(strmid(tgnms_extra,10,/reverse_offset)) EQ '_EXTINCTION')
idxr_x = where(t_x,ctestxr_x)
idyr = where(strupcase(tgnms_extra) EQ 'YR' or $
strupcase(tgnms_extra) EQ 'YRANGE' or $
(strmid(strupcase(tgnms_extra),0,2) EQ 'YR' and $
STRUPCASE(strmid(tgnms_extra,1,/reverse_offset)) NE '_M') or $
(strmid(strupcase(tgnms_extra),0,2) EQ 'YR' and $
STRUPCASE(strmid(tgnms_extra,8,/reverse_offset)) NE '_EMISSION') or $
(strmid(strupcase(tgnms_extra),0,2) EQ 'YR' and $
STRUPCASE(strmid(tgnms_extra,1,/reverse_offset)) NE '_X') or $
(strmid(strupcase(tgnms_extra),0,2) EQ 'YR' and $
STRUPCASE(strmid(tgnms_extra,10,/reverse_offset)) NE '_EXTINCTION'),ctestyr) ;
if ctestyr ne 0 then message, 'You have provided one Y-range when multiple ones are needed.',/continue
t_m = (strmid(strupcase(tgnms_extra),0,1) EQ 'Y' and $
STRUPCASE(strmid(tgnms_extra,1,/reverse_offset)) EQ '_M') or $
(strmid(strupcase(tgnms_extra),0,1) EQ 'Y' and $
STRUPCASE(strmid(tgnms_extra,8,/reverse_offset)) EQ '_EMISSION')
indyr_m = where(t_m,ctestxr_m)
t_x = (strmid(strupcase(tgnms_extra),0,1) EQ 'Y' and $
STRUPCASE(strmid(tgnms_extra,1,/reverse_offset)) EQ '_X') or $
(strmid(strupcase(tgnms_extra),0,1) EQ 'Y' and $
STRUPCASE(strmid(tgnms_extra,10,/reverse_offset)) EQ '_EXTINCTION')
idyr_x = where(t_x,ctestyr_x)
testit = strupcase(tgnms_extra) EQ 'TIT' or $
strupcase(tgnms_extra) EQ 'TITLE' or $
(strmid(strupcase(tgnms_extra),0,3) EQ 'TIT' and $
STRUPCASE(strmid(tgnms_extra,1,/reverse_offset)) NE '_M') or $
(strmid(strupcase(tgnms_extra),0,3) EQ 'TIT' and $
STRUPCASE(strmid(tgnms_extra,8,/reverse_offset)) NE '_EMISSION') or $
(strmid(strupcase(tgnms_extra),0,3) EQ 'TIT' and $
STRUPCASE(strmid(tgnms_extra,1,/reverse_offset)) NE '_X') or $
(strmid(strupcase(tgnms_extra),0,3) EQ 'TIT' and $
STRUPCASE(strmid(tgnms_extra,10,/reverse_offset)) NE '_EXTINCTION')
idtit = where(testit, ctit)
if ctit ne 0 then message, 'You have provivded one title when two (emission + extinctino are needed).', /continue
idtit_m = where((strmid(strupcase(tgnms_extra),0,1) EQ 'T' and $
STRUPCASE(strmid(tgnms_extra,1,/reverse_offset)) EQ '_M') or $
(strmid(strupcase(tgnms_extra),0,1) EQ 'T' and $
STRUPCASE(strmid(tgnms_extra,8,/reverse_offset)) EQ '_EMISSION') ,ctit_m)
idtit_x = where((strmid(strupcase(tgnms_extra),0,1) EQ 'T' and $
STRUPCASE(strmid(tgnms_extra,1,/reverse_offset)) EQ '_X') or $
(strmid(strupcase(tgnms_extra),0,1) EQ 'T' and $
STRUPCASE(strmid(tgnms_extra,10,/reverse_offset)) EQ '_EXTINCTION'),ctit_x)
;FILLING UP X ranges (same xrange): EMISSION
IF ctestxr_m ne 0 THEN !dustem_plot_range.(0).xr=_extra.(idxr_m)
;FILLING UP X ranges (same xrange) - EXTINCTION
IF ctestxr_x ne 0 THEN !dustem_plot_range.(6).xr=_extra.(idxr_x)
;FILLING UP X ranges (same xrange): EMISSION
IF ctestyr_m ne 0 THEN !dustem_plot_range.(0).yr=_extra.(idyr_m)
;FILLING UP X ranges (same xrange) - EXTINCTION
IF ctestxr_x ne 0 THEN !dustem_plot_range.(6).xr=_extra.(idxr_x)
;SETTING THE TITLE
;EXTINCTION
if ctit_x ne 0 then !dustem_plot_range.(13)=_extra.(idtit_x)
;EMISSION
if ctit_m ne 0 then !dustem_plot_range.(12)=_extra.(idtit_m)
ENDELSE
ENDIF
ENDIF
the_end:
END