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lid_interactive.pro
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pro lid_interactive, profnum, windowkeep=windowkeep, br_ref=br_ref
@lid_settings.include
common __lid_interactive, xran, xran_p, xran_a, xran_b, yran, viewtype, $
show, p, slope, usebr;, adiacent
br_ref = keyword_set(br_ref)
openw, lgf, logfln, /get_lun, /append
printf, lgf, 'lid_interactive: starting'
if (n_elements(nprofiles) NE 1 || nprofiles LE 0L) then $
message, 'No data. lid_data_read must be called first.'
if (view EQ _nadir_) then begin
yran0 = [ymin, ceil(max(profinfo.alt)/1000.0D)*1000.0D]
endif else begin
yran0 = [floor(min(profinfo.alt)/1000.0D)*1000.0D, ymax]
endelse
xran0 = [0.0D, 3000.0D]
xran_p0 = [0.0D, 0.2D]
xran_a0 = [-50.0D, 500.0D]
xran_b0 = [0.9D, 2.0D]
show0 = [1, 1]
wnum = 0
wnump = 2
_mol_ = 0
_aer_ = 1
_cld_ = 2
_p_none_ = -1
_p_depol_ = 0
_p_fern_al_ = 1
_p_digi_al_ = 2
_p_fern_br_ = 3
_p_digi_br_ = 4
if (n_elements(yran) NE 2) then yran = yran0
if (n_elements(xran) NE 2) then xran = xran0
if (n_elements(xran_p) NE 2) then xran_p = xran_p0
if (n_elements(xran_a) NE 2) then xran_a = xran_a0
if (n_elements(xran_b) NE 2) then xran_b = xran_b0
if (n_elements(viewtype) NE 1) then viewtype = _mol_
if (n_elements(slope) NE 1) then slope = 0
if (n_elements(adiacent) NE 1) then adiacent = 0
if (n_elements(usebr) NE 1) then usebr = 0
if (n_elements(show) NE 2) then show = show0
if (n_elements(profnum) EQ 1) then p = profnum $
else if (n_elements(p) NE 1) then p = 0
if (p LT 0 || p GE nprofiles) then p = 0
zoomfact = 2.0D
normidx0 = [2*ovl, 1500]
charsize = 1.5
;xsiz = 1024
;ysiz = 768
xsiz = 1200
ysiz = 900
; colors
c_pr2 = [5, 8]
c_pa = [2, 1]
c_mol = [6, 16]
c_ok = [2, 6]
c_ovl = 13
c_lsf = 9
c_osf = 15
c_std = 1
c_err = 2
c_active = [3, 23, 7, 22]
c_guess = 2
c_slope = [8, 5]
; plot axes geometry
xax = [0.07, 0.70]
yax = [0.07, 0.93]
marg = [0.05, 0.05]
xoffs = xax[1] + 0.02
; horizontal button alignment
xtit = xoffs + [0.00, 0.05]
xidx = xoffs + [0.06, 0.16]
xcal = xoffs + [0.17, 0.22]
xzer = xoffs + [0.23, 0.26]
xmid = [0.5*(xtit[0]+xzer[1]-0.01), 0.5*(xtit[0]+xzer[1]+0.01)]
xb1 = xoffs + [0.00, 0.10]
xb2 = xoffs + [0.11, 0.18]
xb3 = xoffs + [0.19, 0.26]
xlay = xoffs + [0.00, 0.13]
xlz = xoffs + [0.135, 0.155]
xct = xoffs + [0.17, 0.24]
xcz = xoffs + [0.245, 0.265]
xguess = [0.45, 0.52, 0.53, 0.60]
; vertical button alignment
y_depth = 0.04
y_sep = 0.012 ; 0.02
y_height = y_depth + y_sep
y_start1 = yax[1] + 0.06
y_start2 = 0.27
yok = y_start1 - [y_depth, 0.0]
ydep = yok - y_height
yfer = yok - y_height*2.0
ydig = yok - y_height*3.0
ylra = yok - y_height*4.0
ysur = yok - y_height*5.0
ybr = yok - y_height*6.0
ychn = y_start2 - [y_depth, 0.0]
yzoo = ychn - y_height
ypik = ychn - y_height*2.0
yqui = ychn - y_height*3.0
yusv = ychn - y_height*4.0
ylay0 = [ybr[0] - y_sep*1.5, y_start2+y_sep*1.5]
maxlay = min([fix((ylay0[0]-ylay0[1]) / y_height) - 1, max([nlayers,nclouds])])
y_start3 = mean(ylay0) + ((maxlay+1) * y_height - y_sep) / 2.0
ylaytit = y_start3 - [y_depth, 0.00]
ylay = fltarr(2,maxlay)
ylay[1,*] = ylaytit[0] - findgen(maxlay) * y_height
ylay[0,*] = ylay[1,*] - y_depth
yguess1 = 0.70 - [y_depth, 0.0]
yguess2 = yguess1 - y_height
yguess3 = yguess1 - y_height*2.0
yguess4 = yguess1 - y_height*3.0
; plot, text, and button boxes
plot_box = [xax[0], yax[0], xax[1], yax[1]]
tit_box = [xax[0], yax[1], xax[1], yax[1]+marg[0]]
err_box = [0.40, 0.62, 0.65, 0.70]
xmin_box = [xax[0], yax[0]-marg[0], xax[0]+marg[1], yax[0]]
xmax_box = [xax[1]-marg[1], yax[0]-marg[0], xax[1], yax[0]]
xran_box = [xmin_box[2], xmin_box[1], xmax_box[0], xmax_box[3]]
ymin_box = [xax[0]-marg[0], yax[0], xax[0], yax[0]+marg[1]]
ymax_box = [xax[0]-marg[0], yax[1]-marg[1], xax[0], yax[1]]
yran_box = [ymin_box[0], ymin_box[3], ymax_box[2], ymax_box[1]]
ok_box = [xmid[1], yok[0], xzer[1], yok[1]]
ptit_box = [xtit[0], ydep[0], xtit[1], ydep[1]]
pidx_box = [xidx[0], ydep[0], xidx[1], ydep[1]]
pcal_box = [xcal[0], ydep[0], xcal[1], ydep[1]]
pzer_box = [xzer[0], ydep[0], xzer[1], ydep[1]]
ftit_box = [xtit[0], yfer[0], xtit[1], yfer[1]]
fidx_box = [xidx[0], yfer[0], xidx[1], yfer[1]]
fcal_box = [xcal[0], yfer[0], xcal[1], yfer[1]]
fzer_box = [xzer[0], yfer[0], xzer[1], yfer[1]]
dtit_box = [xtit[0], ydig[0], xtit[1], ydig[1]]
didx_box = [xidx[0], ydig[0], xidx[1], ydig[1]]
dcal_box = [xcal[0], ydig[0], xcal[1], ydig[1]]
dzer_box = [xzer[0], ydig[0], xzer[1], ydig[1]]
mol_box = [xtit[0], ydig[0], xzer[1], ydep[1]]
lidr_box = [xtit[0], ylra[0], xmid[0], ylra[1]]
surf_box = [xtit[0], ysur[0], xmid[0], ysur[1]]
slopeset_box = [xmid[1], ylra[0], xzer[1], ylra[1]]
slop_box = [xmid[1], ysur[0], xzer[1], ysur[1]]
adia_box = [xtit[0], ybr[0], xmid[0], ybr[1]]
br_box = [xmid[1], ybr[0], xzer[1], ybr[1]]
both_box = [xb1[0], ychn[0], xb1[1], ychn[1]]
chn0_box = [xb2[0], ychn[0], xb2[1], ychn[1]]
chn1_box = [xb3[0], ychn[0], xb3[1], ychn[1]]
def_box = [xb1[0], yzoo[0], xb1[1], yzoo[1]]
zoomout_box = [xb2[0], yzoo[0], xb2[1], yzoo[1]]
zoomin_box = [xb3[0], yzoo[0], xb3[1], yzoo[1]]
pick_box = [xb1[0], ypik[0], xb1[1], ypik[1]]
prev_box = [xb2[0], ypik[0], xb2[1], ypik[1]]
next_box = [xb3[0], ypik[0], xb3[1], ypik[1]]
gues_box = [xb1[0], yqui[0], xb1[1], yqui[1]]
save_box = [xb2[0], yqui[0], xb2[1], yqui[1]]
quit_box = [xb3[0], yqui[0], xb3[1], yqui[1]]
vran_box = [xb1[0]+0.01, yusv[0], xb2[1]-0.01, yusv[1]]
usav_box = [xb3[0], yusv[0], xb3[1], yusv[1]]
;usav_box = [xax[1]-marg[1],yax[0]-1.3*marg[0],xax[1],yax[0]-0.7*marg[0]]
;usav_box = [xb3[0], ychn[0]+1.5*y_depth, xb3[1], ychn[1]+1.5*y_depth]
;slop_box = [xb3[0]-0.01, yusv[0], xb3[1], yusv[1]]
ltit_box = [xlay[0], ylaytit[0], xlay[1], ylaytit[1]]
ctit_box = [xct[0], ylaytit[0], xct[1], ylaytit[1]]
lay_box = fltarr(4, 2, maxlay)
zer_box = fltarr(4, 2, maxlay)
for i=0, maxlay-1 do begin
lay_box[*,0,i] = [xlay[0], ylay[0,i], xlay[1], ylay[1,i]]
lay_box[*,1,i] = [xct[0], ylay[0,i], xct[1], ylay[1,i]]
zer_box[*,0,i] = [xlz[0], ylay[0,i], xlz[1], ylay[1,i]]
zer_box[*,1,i] = [xcz[0], ylay[0,i], xcz[1], ylay[1,i]]
endfor
--i
aer_box = [xlay[0], ylay[0,i], xlz[1], ylaytit[1]]
cld_box = [xct[0], ylay[0,i], xcz[1], ylaytit[1]]
gtit_box = [xguess[0], yguess1[0], xguess[3], yguess1[1]]
gdep_box = [xguess[0], yguess2[0], xguess[1], yguess2[1]]
gfer_box = [xguess[0], yguess3[0], xguess[1], yguess3[1]]
gdig_box = [xguess[0], yguess4[0], xguess[1], yguess4[1]]
gcld_box = [xguess[2], yguess2[0], xguess[3], yguess2[1]]
gok_box = [xguess[2], yguess3[0], xguess[3], yguess3[1]]
gall_box = [xguess[2], yguess4[0], xguess[3], yguess4[1]]
; display settings
if (!version.os_family EQ 'unix') then begin
set_plot, 'x'
arrow = 2
endif else begin
set_plot, 'win'
arrow = 32512
endelse
device, get_screen_size=screen
xsiz0 = min([0.85*screen[0], xsiz])
ysiz0 = min([0.85*screen[1], ysiz])
xpos0 = (screen[0] - xsiz0) / 2
ypos0 = (screen[1] - ysiz0) * 3 / 4
if (~keyword_set(windowkeep)) then $
window, wnum, xsize=xsiz0, ysize=ysiz0, xpos=xpos0, ypos=ypos0, $
title='Lidar Interactive'
; main loop
saved = 1
newfile = 0
oldxran = xran
oldyran = yran
repeat begin
device, window_state=window_open
if (window_open[wnump]) then wdelete, wnump
pstate = _p_none_
p0 = p
normidx = normidx0
newmol = 0
prof = profile[p]
pinfo = profinfo[p]
hgt = prof.height
mol = [[prof.mol_pr2], [prof.mol_pr2]]
lidpr2 = prof.pr2
knorm = mean(lidpr2[normidx[0]:normidx[1],0] $
/ lidpr2[normidx[0]:normidx[1],1], /nan)
if (finite(knorm)) then lidpr2[*,1] *= knorm
tit = string(format='(%"%s (%d)")', pinfo.title, p)
; print, tit
replotviewwin = 1
quit = 0
repeat begin
profinfo[p] = pinfo
device, window_state=window_open
if (replotviewwin) then $
lid_preview_contour, pinfo.time, knorm=knorm, xran=xran, yran=yran
replotviewwin = 0
wset, wnum
wshow, wnum
!p.multi = 0
col27
if (newmol) then begin
for ch=0, 1 do begin
mnorm = mean(lidpr2[normidx[0]:normidx[1],ch] $
/ mol[normidx[0]:normidx[1], ch], /nan)
mol[*,ch] *= mnorm
endfor
newmol = 0
endif
c_dep = c_std
c_fer = c_std
c_dig = c_std
c_aer = [c_std, c_std, c_std, c_std]
c_ct = [c_std, c_std, c_std, c_std]
case viewtype of
_mol_ : begin
c_dep = c_active[0]
c_fer = c_active[1]
c_dig = c_active[2]
end
_aer_ : c_aer = c_active
_cld_ : c_ct = c_active
endcase
c_vran = [c_dep, c_fer, c_dig, c_fer, c_dig]
plot, lidpr2[*,0], hgt, min_value=ymin, /xstyle, /ystyle, $
xrange=xran, yrange=yran, charsize=charsize, $
ytickformat='(i)', position=plot_box, /nodata
oplot, xran, [pinfo.alt, pinfo.alt], color=c_ovl
oplot, xran, [prof.height[ovl], prof.height[ovl]], color=c_ovl
oplot, xran, [pinfo.lsf, pinfo.lsf], color=c_lsf, thick=2
oplot, xran, [pinfo.osf, pinfo.osf], color=c_osf, thick=2
for ch=1, 0, -1 do if (show[ch]) then $
oplot, mol[*,ch], hgt, min_value=ymin, color=c_mol[ch]
for ch=1, 0, -1 do if (show[ch]) then $
oplot, lidpr2[*,ch], hgt, min_value=ymin, color=c_pr2[ch], $
thick=2-ch
p_def = (pinfo.p_idx[1] NE 0L AND pinfo.p_idx[1] GE pinfo.p_idx[0])
f_def = (pinfo.f_idx[1] NE 0L AND pinfo.f_idx[1] GE pinfo.f_idx[0])
d_def = (pinfo.d_idx[1] NE 0L AND pinfo.d_idx[1] GE pinfo.d_idx[0])
l_def = (pinfo.layer_idx[1,*] NE 0L $
AND pinfo.layer_idx[1,*] GE pinfo.layer_idx[0,*])
c_def = (pinfo.ct_idx NE 0)
ch_r = (show[0] ? 0 : 1)
use_alph = (~br_ref)
f_mol = 0.0D
d_mol = 0.0D
f_alph = -1.0D
d_alph = -1.0D
if (f_def) then f_mol = prof.mol_beta[mean([pinfo.f_idx])]
if (d_def) then d_mol = prof.mol_beta[mean([pinfo.d_idx])]
if (pinfo.f_br GT 0.0D) then $
f_alph = 1D6 * (pinfo.f_br-1.0D) * pinfo.f_lidratio * f_mol
if (pinfo.d_br GT 0.0D) then $
d_alph = 1D6 * (pinfo.d_br-1.0D) * pinfo.f_lidratio * d_mol
if (viewtype EQ _mol_ && p_def) then begin
d1 = pinfo.p_idx[0]
d2 = pinfo.p_idx[1]
oplot, lidpr2[d1:d2,ch_r], hgt[d1:d2], color=c_dep, thick=2
endif
if (viewtype EQ _mol_ && f_def) then begin
d1 = pinfo.f_idx[0]
d2 = pinfo.f_idx[1]
oplot, lidpr2[d1:d2,ch_r], hgt[d1:d2], color=c_fer, thick=2
endif
if (viewtype EQ _mol_ && d_def) then begin
d1 = pinfo.d_idx[0]
d2 = pinfo.d_idx[1]
oplot, lidpr2[d1:d2,ch_r], hgt[d1:d2], color=c_dig, thick=2
endif
if (viewtype EQ _aer_) then begin
for i=0, nlayers-1 do if (l_def[i]) then begin
lhgt = prof.height[pinfo.layer_idx[*,i]]
oplot, xran, [lhgt[0], lhgt[0]], color=c_aer[i]
oplot, xran, [lhgt[1], lhgt[1]], color=c_aer[i]
endif
endif else if (viewtype EQ _cld_) then begin
for i=0, nclouds-1 do if (c_def[i]) then begin
chgt = prof.height[pinfo.ct_idx[i]]
oplot, xran, [chgt, chgt], color=c_ct[i]
endif
endif
idx_h = pinfo.pa_idx
for ch=1, 0, -1 do if (show[ch] && idx_h[ch] GT 0) then $
oplot, [lidpr2[idx_h[ch], ch]], [prof.height[idx_h[ch]]], $
psym=1, symsize=2.5, color=c_pa[ch], thick=3
xran_a_s = string(xran_a, format='(%"%0.1f-%0.1f")')
xran_b_s = string(xran_b, format='(%"%0.2f-%0.2f")')
xran_p_s = string(xran_p, format='(%"%0.2f-%0.2f")')
textbox, tit_box, tit, /nobox
textbox, ok_box, (pinfo.aerok ? 'ACCEPTED' : 'REJECTED'), $
color=c_ok[pinfo.aerok], charsize=2
textbox, ptit_box, 'Depol', color=c_dep
textbox, pidx_box, string(format='(%"%d-%d")', $
(p_def ? round(ascending(prof.height[pinfo.p_idx])) : [0,0])), $
color=c_dep
textbox, pcal_box, string(format='(%"%7.5f")', pinfo.p_cal), $
color=c_dep, charsize=1.2
textbox, pzer_box, 'X', color=c_dep
textbox, ftit_box, 'Fern', color=c_fer
textbox, fidx_box, string(format='(%"%d-%d")', $
(f_def ? round(ascending(prof.height[pinfo.f_idx])) : [0,0])), $
color=c_fer
br_txt = (br_ref ? string(format='(%"%5.3f")', pinfo.f_br) $
: string(format='(%"%d")', round(f_alph)))
textbox, fcal_box, br_txt, color=c_fer
textbox, fzer_box, 'X', color=c_fer
textbox, dtit_box, 'Digi', color=c_dig
textbox, didx_box, string(format='(%"%d-%d")', $
(d_def ? round(ascending(prof.height[pinfo.d_idx])) : [0,0])), $
color=c_dig
br_txt = (br_ref ? string(format='(%"%5.3f")', pinfo.d_br) $
: string(format='(%"%d")', round(d_alph)))
textbox, dcal_box, br_txt, color=c_dig
textbox, dzer_box, 'X', color=c_dig
textbox, lidr_box, string(format='(%"LidRatio: %5.1f")', $
pinfo.f_lidratio)
textbox, surf_box, string(format='(%"Surface: %d")', $
pinfo.lsf GE ymin ? round(pinfo.lsf) : -999), color=c_lsf
textbox, slopeset_box, 'Slope-set'
textbox, ltit_box, 'AEROSOL LAYERS', /nobox
textbox, ctit_box, 'CLOUD ' + (view EQ _nadir_ ? 'TOPS' : 'BASES'), $
/nobox
for i=0, maxlay-1 do begin
if (i LT nlayers) then begin
textbox, lay_box[*,0,i], color=c_aer[i], /left, $
string(format='(%"%2d)%5d-%d")', i, (l_def[i] ? $
round(ascending(prof.height[pinfo.layer_idx[*,i]])):[0,0]))
textbox, zer_box[*,0,i], 'X', color=c_aer[i]
endif
if (i LT nclouds) then begin
textbox, lay_box[*,1,i], color=c_ct[i], /left, $
string(format='(%"%2d)%5d")', i, $
(c_def[i] ? round(prof.height[pinfo.ct_idx[i]]) : 0))
textbox, zer_box[*,1,i], 'X', color=c_ct[i]
endif
endfor
textbox, both_box, 'Both Ch'
textbox, chn0_box, 'Ch0', color=c_pr2[0]
textbox, chn1_box, 'Ch1', color=c_pr2[1]
textbox, def_box, 'Deft View'
textbox, zoomout_box, '-'
textbox, zoomin_box, '+'
textbox, pick_box, 'Pick Prof'
textbox, prev_box, 'Prev'
textbox, next_box, 'Next'
textbox, gues_box, 'Guess'
textbox, save_box, 'Save'
textbox, quit_box, 'Quit'
if (~saved) then textbox, usav_box, 'UNSAVED', color=c_err, /nobox
if (pstate NE _p_none_ && window_open[wnump]) then begin
if (pstate EQ _p_depol_) then begin
xranstr = xran_p_s
endif else if (pstate EQ _p_fern_al_ $
|| pstate EQ _p_digi_al_) then begin
xranstr = xran_a_s
endif else begin
xranstr = xran_b_s
endelse
textbox, vran_box, color=c_vran[pstate], xranstr
if (pstate EQ _p_fern_al_ || pstate EQ _p_fern_br_) then $
textbox, adia_box, color=c_slope[adiacent], $
(adiacent ? 'Hide' : 'Show') + ' Adiacent'
if (pstate NE _p_depol_) then begin
textbox, slop_box, color=c_slope[slope], $
'Slope ' + (slope ? 'hide' : 'show')
textbox, br_box, color=c_slope[usebr], $
'Plot ' + (usebr ? 'Ext' : 'BR')
endif
endif
repeat begin
wset, wnum
graphcenter = [mean(xran), mean(yran)]
device, cursor_standard=arrow
repeat begin
cursor, xcur, ycur, /normal, wait=3, /change
datacoord = convert_coord(xcur, ycur, /normal, /to_data)
xdata = datacoord[0]
ydata = datacoord[1]
changecenter = in_box(xcur, ycur, plot_box)
if (changecenter) then graphcenter = datacoord
endrep until (~changecenter)
pressed = 1
xhalfsize = 0.5 * (xran[1] - xran[0]) * [-1.0, 1.0]
yhalfsize = 0.5 * (yran[1] - yran[0]) * [-1.0, 1.0]
oldinfo = pinfo
altbox=[[pidx_box], [fidx_box], [didx_box]]
altran=[[pinfo.p_idx], [pinfo.f_idx], [pinfo.d_idx]]
case 1 of
in_box(xcur, ycur, xmin_box): $
xran[0] = get_input('X-min', xran[0], box=err_box)
in_box(xcur, ycur, xmax_box): $
xran[1] = get_input('X-max', xran[1], box=err_box)
in_box(xcur, ycur, ymin_box): $
yran[0] = get_input('Y-min', yran[0], box=err_box)
in_box(xcur, ycur, ymax_box): $
yran[1] = get_input('Y-max', yran[1], box=err_box)
in_box(xcur, ycur, xran_box): $
if (abs(xdata-xran[0]) LE abs(xdata-xran[1])) $
then xran[0] = xdata else xran[1] = xdata
in_box(xcur, ycur, yran_box): $
if (abs(ydata-yran[0]) LE abs(ydata-yran[1])) $
then yran[0] = ydata else yran[1] = ydata
in_box(xcur, ycur, ok_box): $
pinfo.aerok = ~ pinfo.aerok
in_box(xcur, ycur, lidr_box) : $
pinfo.f_lidratio = get_input('Lidar Ratio', $
pinfo.f_lidratio, box=err_box)
in_box(xcur, ycur, slopeset_box): begin
lid_layers_slopeset, p, lgf, verbose=0
pinfo = profinfo[p]
use_alph = 0
end
in_box(xcur, ycur, surf_box) : $
pinfo.lsf = prof.height[get_range(hgt, lidpr2[*,ch_r], $
'Surface Altitude', chan=ch_r, box=err_box, /one)]
in_box(xcur, ycur, mol_box) : begin
viewtype = _mol_
case 1 of
in_box(xcur, ycur, ptit_box): if (p_def) then begin
normidx = pinfo.p_idx
newmol = 1
lid_preview_processed, p, _totdep_, $
xran=xran_p, yran=yran
pstate = _p_depol_
endif
in_box(xcur, ycur, pidx_box): begin
pinfo.p_idx = get_range(hgt,lidpr2[*,ch_r], $
'Depol', chan=ch_r, box=err_box, $
altbox=altbox, altran=altran)
if (~array_equal(pinfo.p_idx, oldinfo.p_idx) $
&& pinfo.p_cal EQ 0.0D) then $
pinfo.p_cal = default_caldr
end
in_box(xcur, ycur, pcal_box): $
pinfo.p_cal = get_input('Depol ref', $
pinfo.p_cal, box=err_box, format='%8.5f')
in_box(xcur, ycur, pzer_box): begin
pinfo.p_idx = [0L, 0L]
pinfo.p_cal = 0.0D
end
in_box(xcur, ycur, ftit_box): if (f_def) then begin
normidx = pinfo.f_idx
newmol = 1
lid_preview_processed, p, $
(usebr ? _bratio_ : _extinc_), _fern_, $
xran = (usebr ? xran_b : xran_a), $
yran=yran, slope_method=slope, $
show_adiacent=adiacent
pstate = (usebr ? _p_fern_br_ : _p_fern_al_)
endif
in_box(xcur, ycur, fidx_box): begin
pinfo.f_idx=get_range(hgt,lidpr2[*,ch_r], $
'Fernald', chan=ch_r, box=err_box, $
altbox=altbox, altran=altran)
if (~array_equal(pinfo.f_idx, oldinfo.f_idx) $
&& pinfo.f_br EQ 0.0D) then begin
pinfo.f_br = default_f_ref
f_alph = default_f_alph
endif
end
in_box(xcur, ycur, fcal_box): $
if (br_ref) then begin
pinfo.f_br = get_input('Fernald BR ref', $
pinfo.f_br, box=err_box)
endif else begin
f_alph = get_input('Fernald Extinction ' $
+ 'ref (Mm-1)', f_alph, box=err_box)
endelse
in_box(xcur, ycur, fzer_box): begin
pinfo.f_idx = [0L, 0L]
pinfo.f_br = 0.0D
f_alph = -1.0D
end
in_box(xcur, ycur, dtit_box): if (d_def) then begin
normidx = pinfo.d_idx
newmol = 1
lid_preview_processed, p, $
(usebr ? _bratio_ : _extinc_), _digi_, $
xran = (usebr ? xran_b : xran_a), $
yran=yran, slope_method=slope
pstate = (usebr ? _p_digi_br_ : _p_digi_al_)
endif
in_box(xcur, ycur, didx_box): begin
pinfo.d_idx = get_range(hgt, lidpr2[*,ch_r], $
'Digi', chan=ch_r, box=err_box, $
altbox=altbox, altran=altran)
if (~array_equal(pinfo.d_idx, oldinfo.d_idx) $
&& pinfo.d_br EQ 0.0D) then begin
pinfo.d_br = default_d_ref
d_alph = default_d_alph
endif
end
in_box(xcur, ycur, dcal_box): $
if (br_ref) then begin
pinfo.d_br = get_input('Digi BR ref', $
pinfo.d_br, box=err_box)
endif else begin
d_alph = get_input('Digi Extinction ' $
+ 'ref (Mm-1)', d_alph, box=err_box)
endelse
in_box(xcur, ycur, dzer_box): begin
pinfo.d_idx = [0L, 0L]
pinfo.d_br = 0.0D
d_alph = -1.0D
end
else:
endcase
end
in_box(xcur, ycur, aer_box) : begin
viewtype = _aer_
for i=0, min([nlayers,maxlay])-1 do $
if in_box(xcur, ycur, lay_box[*,0,i]) then begin
pinfo.layer_idx[*,i] = get_range(hgt, $
lidpr2[*,ch_r], string(format='(%"Layer %d")', $
i), chan=ch_r, box=err_box)
break
endif else if in_box(xcur, ycur, zer_box[*,0,i]) $
then begin
pinfo.layer_idx[*,i] = 0L
break
endif
end
in_box(xcur, ycur, cld_box) : begin
viewtype = _cld_
for i=0, min([nclouds,maxlay])-1 do $
if in_box(xcur, ycur, lay_box[*,1,i]) then begin
pinfo.ct_idx[i] = get_range(hgt, lidpr2[*,ch_r],$
string(format='(%"Cloud %d level")', i), $
chan=ch_r, box=err_box, /one)
break
endif else if in_box(xcur, ycur, zer_box[*,1,i]) $
then begin
pinfo.ct_idx[i] = 0L
break
endif
end
in_box(xcur, ycur, both_box) : show = [1, 1]
in_box(xcur, ycur, chn0_box) : show = [1, 0]
in_box(xcur, ycur, chn1_box) : show = [0, 1]
in_box(xcur, ycur, def_box) : begin
xran = xran0
yran = yran0
show = show0
end
in_box(xcur, ycur, zoomout_box) : begin
xran = graphcenter[0] + xhalfsize * zoomfact
yran = graphcenter[1] + yhalfsize * zoomfact
; xran = 1.5 * xran - 0.5 * reverse(xran)
; yran = 1.5 * yran - 0.5 * reverse(yran)
end
in_box(xcur, ycur, zoomin_box) : begin
xran = graphcenter[0] + xhalfsize / zoomfact
yran = graphcenter[1] + yhalfsize / zoomfact
; xran = 0.75 * xran + 0.25 * reverse(xran)
; yran = 0.75 * yran + 0.25 * reverse(yran)
end
in_box(xcur, ycur, pick_box): $
p = get_input('Profile number', p, box=err_box, $
time=profinfo.start)
in_box(xcur, ycur, prev_box): --p
in_box(xcur, ycur, next_box): ++p
in_box(xcur, ycur, gues_box): begin
textbox, gtit_box, 'Guess what?', $
/nobox, left=0, color=c_guess
textbox, gdep_box, 'Depol', color=c_guess
textbox, gfer_box, 'Fern', color=c_guess
textbox, gdig_box, 'Digi', color=c_guess
textbox, gcld_box, 'Clouds', color=c_guess
textbox, gok_box, 'Acc/Rej', color=c_guess
textbox, gall_box, 'ALL', color=c_guess
repeat begin
cursor, xcur, ycur, /normal, wait=3, /change
guess_specified = 1
guessdep = 0
guessfer = 0
guessdig = 0
guesscld = 0
guessok = 0
case 1 of
in_box(xcur, ycur, gdep_box): guessdep = 1
in_box(xcur, ycur, gfer_box): guessfer = 1
in_box(xcur, ycur, gdig_box): guessdig = 1
in_box(xcur, ycur, gcld_box): guesscld = 1
in_box(xcur, ycur, gok_box): guessok = 1
in_box(xcur, ycur, gall_box):
else: guess_specified = 0
endcase
endrep until guess_specified
lid_layers_guess, p, lgf, depol=guessdep, fernald=guessfer,$
digi=guessdig, clouds=guesscld, aerok=guessok
pinfo = profinfo[p]
use_alph = 0
end
in_box(xcur, ycur, vran_box): $
if (pstate NE _p_none_ && window_open[wnump]) then begin
if (pstate EQ _p_depol_) then begin
xran_p = get_input('Depol axis', xran_p, /range)
endif else if (pstate EQ _p_fern_al_ $
|| pstate EQ _p_digi_al_) then begin
xran_a = get_input('Ext axis', xran_a, /range)
endif else begin
xran_b = get_input('BR axis', xran_b, /range)
endelse
endif
in_box(xcur, ycur, adia_box): $
if ((pstate EQ _p_fern_al_ || pstate EQ _p_fern_br_) $
&& window_open[wnump]) then adiacent = ~adiacent
in_box(xcur, ycur, slop_box): $
if (pstate NE _p_none_ && pstate NE _p_depol_ $
&& window_open[wnump]) then slope = ~slope
in_box(xcur, ycur, br_box): $
if (pstate NE _p_none_ && pstate NE _p_depol_ $
&& window_open[wnump]) then usebr = ~usebr
in_box(xcur, ycur, save_box): begin
lid_layers_save, lgf, verbose=0
if (~saved) then newfile = 1
saved = 1
end
in_box(xcur, ycur, quit_box): if (saved) then begin
quit = 1
endif else begin
textbox, err_box, 'Save first!', charsize=2, color=c_err
wait, 0.7
endelse
else: pressed = 0
endcase
saved AND= lid_layers_equal(pinfo, oldinfo)
endrep until (pressed)
if (use_alph) then begin
if (pinfo.f_lidratio EQ 0.0D) then pinfo.f_lidratio = default_lr
f_def = (pinfo.f_idx[1] NE 0L AND pinfo.f_idx[1] GE pinfo.f_idx[0])
d_def = (pinfo.d_idx[1] NE 0L AND pinfo.d_idx[1] GE pinfo.d_idx[0])
if (f_def) then f_mol = prof.mol_beta[mean([pinfo.f_idx])]
if (d_def) then d_mol = prof.mol_beta[mean([pinfo.d_idx])]
pinfo.f_br = (f_alph GE 0.0D $
? 1.0D + 1D-6 * f_alph / (pinfo.f_lidratio * f_mol) : 0.0D)
pinfo.d_br = (d_alph GE 0.0D $
? 1.0D + 1D-6 * d_alph / (pinfo.f_lidratio * d_mol) : 0.0D)
endif
saved AND= lid_layers_equal(pinfo, oldinfo)
p = max([p, 0])
p = min([p, nprofiles-1])
replotviewwin = ~(array_equal(xran, oldxran) $
&& array_equal(yran, oldyran))
oldxran = xran
oldyran = yran
flush, lgf
endrep until (quit || p NE p0)
endrep until (quit)
if (newfile) then begin
print, 'REMEMBER TO COPY THE LAYERS FILE TO ' + info_path
textbox, err_box, 'You must copy the file!', charsize=2, color=c_err
endif else begin
textbox, err_box, 'Quit', charsize=2, color=c_err
endelse
printf, lgf, 'lid_interactive: quitting'
free_lun, lgf
end