pro sweepv_new_tslut, sweepv, $
defv1, $
defv2, $
spv, $
fsindex, $
tsindex, $
nen = nen, $
edpeak = edpeak, $
plot = plot, $
spfac = spfac
message,'obsolete'
;;----------------------------------------
;; Number of energies in fine sweep table
;; (full table has 4x as many)
if not keyword_set(nen) then nen = 32
if not keyword_set(edpeak) then edpeak = 0
;; Get the full sweep table and index
sweepv_new_fslut,sweepv,$
defv1,$
defv2,$
spv,$
fsindex, $
nen = nen, $
plot = plot, $
spfac = spfac
;; Get center index of each sub-stepping
edindex = fsindex[indgen(256)*4+2]
;; Interval for each E-D step in full sweep
;; This is the peak index into the
;; master 4096-element S-LUT.
pindex = fix(edindex[edpeak])
if keyword_set(plot) then begin
;print,pindex
plots,sweepv[pindex],$
defv1[pindex]-defv2[pindex],$
psym = 7, color = 250, thick=2
endif
;; Number of angles in fine sweep table
;; (full table has 4x as many).
nang = 256/nen
;; Lots of '*4' to take into account
;; size of full table.
eindex = floor(pindex/(nang*4))
dindex = pindex mod (nang*4)
if keyword_set(plot) then print,eindex,dindex
eindmin = eindex-nen/2
;;-------------------------------------------
;; All of this complication is to make sure
;; that we don't go off the edge of the table
;; if the peak is near the edge.
if eindmin lt 0 then begin
eindmin = 0
eindmax = nen-1
endif else begin
eindmax = eindmin+nen-1
if eindmax gt (4*nen-1) then begin
eindmax = 4*nen-1
eindmin = 3*nen
endif
endelse
dindmin = dindex-nang/2
if dindmin lt 0 then begin
dindmin = 0
dindmax = nang-1
endif else begin
dindmax = dindmin+nang-1
if dindmax gt (4*nang-1) then begin
dindmax = 4*nang-1
dindmin = 3*nang
endif
endelse
if keyword_set(plot) then print,eindmin, eindmax, dindmin, dindmax
if (eindex mod 2) then odd = 1 else odd = 0
tsindex = 0
for i = 0,nen-1 do begin
sodd = (eindmin+i) mod 2
;; Does the necessary flipping of
;; every other step to take.
if odd eq sodd then begin
;; Into account the up/down
;; even/odd deflector sweeps
di1 = dindmin
endif else begin
di1 = 4*nang-1-dindmax
endelse
tsindex = [tsindex,(eindmin+i)*nang*4+di1+indgen(nang)]
endfor
tsindex = tsindex[1:256]
if keyword_set(plot) then begin
window,3
!p.multi = [0,1,3]
plot,sweepv[tsindex],$
psym=10,$
xtitle = 'Time Step',$
ytitle = 'Sweep Voltage',$
yrange = [0,4000],$
charsize = 2
oplot,defv1[tsindex]*sweepv[tsindex],color = 50,psym = 10
oplot,defv2[tsindex]*sweepv[tsindex],color = 250,psym = 10
plot,sweepv[tsindex],$
psym=10,$
xtitle = 'Time Step',$
ytitle = 'Sweep Voltage (Log)',$
yrange = [0.1,4000],$
/ylog,$
charsize = 2,$
/ystyle
oplot,defv1[tsindex]*sweepv[tsindex],color = 50,psym = 10
oplot,defv2[tsindex]*sweepv[tsindex],color = 250,psym = 10
oplot,spv[tsindex]*sweepv[tsindex],color = 150,psym = 10
plot,defv1[tsindex],$
psym = 10, $
xtitle = 'Time Step',$
ytitle = 'Sweep Voltage Ratio',$
charsize = 2,$
yrange = [0,12]
oplot,defv1[tsindex],psym=10,color = 50
oplot,defv2[tsindex],color = 250,psym = 10
oplot,spv[tsindex],color = 150,psym = 10
!p.multi = 0
window,5
plot,sweepv,defv1-defv2,$
psym = 7,$
/xlog, $
xtitle = 'V_SWEEP (Volts)',$
ytitle = 'V_DEF/V_SWEEP (D1+, D2-)',$
charsize = 2,$
/xstyle,$
/ystyle
plots,sweepv[tsindex],defv1[tsindex]-defv2[tsindex], $
psym = 7,color = 150
plots,sweepv[pindex],defv1[pindex]-defv2[pindex],$
psym = 7,color = 250,thick=2
endif
end