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;-------------------------------------------------------------------------------------;
; Trajectory Plot
; Assumes Lagranto lsl-file style output with five
; header lines
;-------------------------------------------------------------------------------------;
;-------------------------------------------------------------------------------------;
; Loading Libraries
;-------------------------------------------------------------------------------------;
load "$NCARG_ROOT/lib/ncarg/nclscripts/csm/gsn_code.ncl"
load "$NCARG_ROOT/lib/ncarg/nclscripts/csm/gsn_csm.ncl"
load "$NCARG_ROOT/lib/ncarg/nclscripts/csm/contributed.ncl"
;-------------------------------------------------------------------------------------;
; Read trajectory file
;-------------------------------------------------------------------------------------;
; --------- Name of trajectory file --------------------------------------------------;
filename="trajectory.lsl"
;---------- Read file ----------------------------------------------------------------;
delim = " " ; Delimiting character
nhead = 5 ; # header lines
head = readAsciiHead(filename,nhead-1) ; Read header lines
ncol = str_fields_count(head(2),delim) ; # columns
data = asciiread(filename,-1,"float") ; Read data in as float
n = dimsizes(data); ; Number of entries in data
ifirst = 4 ; First data element
ifinal = n-1 ; Last data element
timestp = data(ifirst+ncol) - data(ifirst) ; Time step of trajectories
period = data(ifinal-ncol+1) ; Time period of trajectories
ntim = floattoint( period/timestp + 1 ) ; # times
ntra = floattoint( (n-ifirst) / (ntim * ncol ) ) ; # trajectories
traj = onedtond(data(ifirst:ifinal),(/ntra,ntim,ncol/)) ; 3d trajectory array
vars = str_split(head(2),delim) ; Field names (columns)
;-------------- Add meta information --------------------------------------------------;
; Add some attributes to the variable
traj@HOUR = stringtoint( str_get_cols(head(0),22,23) )
traj@DAY = stringtoint( str_get_cols(head(0),19,20) )
traj@MONTH = stringtoint( str_get_cols(head(0),17,18) )
traj@YEAR = stringtoint( str_get_cols(head(0),13,16) )
traj@FIELD_NAMES = vars
traj@MODEL = "Lagranto"
; Set names of dimensions and assign values
traj!0 = "TRA"
traj!1 = "TIME"
traj!2 = "FIELD"
traj&TIME = fspan(0,period,ntim)
;-------------------------------------------------------------------------------------;
; Plot trajectories
;-------------------------------------------------------------------------------------;
; --------------- Open Workstation and Colormap --------------------------------------
wks = gsn_open_wks("png","tra") ; open workstation
gsn_define_colormap(wks,"temp_19lev") ; use the BlueDarkRed18 colormap
cmap = gsn_retrieve_colormap(wks) ; colormap
; --------------- General resources for plot -----------------------------------------
mres = True ; map resource
mres@gsnDraw = False ; don't draw
mres@gsnFrame = False ; don't advance frame
mres@tiMainString = "Trajectories" ; set the main title
mres@tiMainFont = "0_times_roman" ; font of main title
mres@gsnMaximize = True ; Maximize plot
; ----------------- World map --------------------------------------------------------
mres@mpMaxLatF = 70 ; choose subregion
mres@mpMinLatF = 0 ; of world map
mres@mpMaxLonF = 100
mres@mpMinLonF = 0
mres@mpFillOn = False ; color land
mres@mpOutlineOn = True ; outline land/sea boarders
map = gsn_csm_map_ce(wks,mres) ; Draw world map
draw(map)
; ----------------- Polyline (including coloring of trajectories ) --------------------
; --- Specify the coloring field
cnField = "p" ; Coloring according to pressure
cnIndex = 3 ; Column index for coloring field
cnLevels = fspan(200,1000,17) ; Coloring levels
cnLabels = flt2string(cnLevels) ; Labels
; --- Resources for the polylines (except for color)
pres = True ; polyline resource
pres@tfDoNDCOverlay = True
pres@gsLineThicknessF = 3.0 ; line thickness
; --- Resources for the colorbar/labelbar
lres = True
lres@vpWidthF = 0.60 ; Width of Labelbar
lres@vpHeightF = 0.10 ; Height of Labelbar
lres@lbPerimOn = False ; Turn off perimeter.
lres@lbOrientation = "Horizontal" ; Default is "Vertical"
lres@amLabelBarOrthogonalPosF = -1.0
lres@lbLabelAlignment = "InteriorEdges" ; Default is "BoxCenters".
lres@lbFillColors = cmap(2:,:) ; Colors for boxes.
lres@lbMonoFillPattern = True ; Fill them all solid.
lres@lbLabelFontHeightF = 0.015 ; Font Height
lres@lbLabelAutoStride = True ; Auto correct labels
lres@vpYF = 0.15 ; location of left edge
lres@vpXF = 0.22 ; location of top edge
; --- Draw polylines
do i = 0,ntra-1 ; Loop over all trajecories
x = traj(i,0:(ntim-1),1) ; Longitudes for trajectory i
y = traj(i,0:(ntim-1),2) ; Latitudes for trajectory i
do k = 0,ntim-2 ; Loop over all times
pres@gsLineColor = GetFillColor(cnLevels,cmap,traj(i,k,cnIndex)) ; color of polyline
gsn_polyline (wks,map,(/x(k),x(k+1)/),(/y(k),y(k+1)/),pres) ; draw polyline
end do
end do
; --- Draw colorbar/labelbar
gsn_labelbar_ndc(wks,dimsizes(cnLevels)+1,cnLabels,0.2,0.2,lres)
; ----------------- Markers ----------------------------------------------------------------
; --- Resources for the markers
kres = True ; marker resource
kres@gsMarkerSizeF = 5.0 ; marker size
kres@gsMarkerColor = "black" ; marker color
; --- Draw markers
do i = 0,ntra-1 ; Loop over all trajecories
x = traj(i,0:(ntim-1),1) ; Longitudes for trajectory i
y = traj(i,0:(ntim-1),2) ; Latitudes for trajectory i
do k = 0,ntim-2,5 ; Loop over all times
gsn_polymarker(wks,map,x(k),y(k),kres) ; mark position
end do
end do
; ----------------- Advance frame ----------------------------------- --------------------
frame(wks)