/usr/share/ncarg/nclex/ngmath/nm20n.ncl is in libncarg-data 6.3.0-6build1.
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; $Id: nm20n.ncl,v 1.9 2010-03-15 22:49:24 haley Exp $
;
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; ;
; Copyright (C) 2000 ;
; University Corporation for Atmospheric Research ;
; All Rights Reserved ;
; ;
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
;
; File: nm20n.ncl
;
; Author: Fred Clare
; National Center for Atmospheric Research
; PO 3000, Boulder, Colorado
;
; Date: Thu Jun 3 15:16:01 MDT 1999
;
; Description: This program illustrates the use of the triangulation
; and Voronoi diagram capabilities of the cssgrid package.
;
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
load "$NCARG_ROOT/lib/ncarg/nclex/gsun/gsn_code.ncl"
procedure draw_box(wks:graphic, xll[1]:float, yll[1]:float, xur[1]:float,
yur[1]:float, cindex[1]:integer, resources:logical)
;
; Draw a box specified by the first four arguments and fill
; it with the color whose index is given by cindex. The arguments
; are assumed to be in NDC space.
;
local xcoord, ycoord, cr
begin
xcoord = new(5,float)
ycoord = new(5,float)
xcoord(0) = xll
ycoord(0) = yll
xcoord(1) = xur
ycoord(1) = yll
xcoord(2) = xur
ycoord(2) = yur
xcoord(3) = xll
ycoord(3) = yur
xcoord(4) = xll
ycoord(4) = yll
cr = resources@gsFillColor
resources@gsFillColor = cindex
gsn_polygon_ndc(wks, xcoord, ycoord, resources)
resources@gsFillColor = cr
delete(xcoord)
delete(ycoord)
end
;
; Main program
;
begin
;
; Number of points to use for drawing arcs on the globe.
;
NARC = 50
;
; Input dataset on the globe (latitudes and longitudes in degrees).
; These data points do not cover the globe, but rather are confined
; to the nothern hemisphere and are enclosed by a boundary.
;
plat = (/ 70., 70., 70., 85., 60., 60., 65./)
plon = (/-160., -70., 0., 20., 50., 80.,140./)
;
; Determine tha size of the input arrays; create arrays for
; storing the Cartesian coordinate equivalents to the lat/lon input;
; calculate the Cartesian coordinates.
;
fsize = dimsizes(plat)
;
; Create the Delaunay triangulation; "triangles" is returned as
; a two dimensional array dimensioned for fsize x 3.
;
triangles = csstri(plat,plon)
tri_size = dimsizes(triangles)
num_triangles = tri_size(0)
;
; Get the circumcenters for the Delaunay triangles and store
; them in arrays xc, yc, and zc. "nca" is the actual number
; of circles found.
;
rlat = new(2*fsize,float)
rlon = new(2*fsize,float)
rc = new(2*fsize,float)
nca = new(1,integer)
numv = new(1,integer)
nv = new(fsize,integer)
csvoro(plat,plon,0,1,rlat,rlon,rc,nca,numv,nv)
;
; Draw a plot of the triangulation, the circumcircles, and the
; Voronoi polygons.
;
;
; Define a color map.
;
cmap = (/ \
(/ 0., 0., 0. /), \
(/ 1., 1., 1. /), \
(/ 0., 1., 1. /), \
(/ 1., 1., 0. /), \
(/ 1., 0., 0. /), \
(/ 0., 1., 0. /), \
(/ 0., .8, 0. /) \
/)
;
; Create a workstation.
;
wks_type = "ncgm"
wks = gsn_open_wks(wks_type,"nm20n")
gsn_define_colormap(wks,cmap)
;
; Define some resources and draw a globe as a background for
; the plot.
;
map_resources = True
map_resources@gsnFrame = False
map_resources@mpGeophysicalLineColor = 6
map_resources@mpGridLineColor = 0
map_resources@mpLimbLineColor = 6
map_resources@mpCenterLatF = 72.5
map_resources@mpCenterLonF = 127.5
map_resources@mpOutlineBoundarySets = "National"
map_resources@mpNationalLineColor = 6
map_resources@vpXF = 0.175
map_resources@vpYF = 0.825
map_resources@vpWidthF = 0.8
map_resources@vpHeightF = 0.8
map_resources@mpGreatCircleLinesOn = True
map = gsn_map(wks,"Satellite",map_resources)
;
; Plot the circumcircles. Only those circles going through
; original data values are plotted and not those going through
; the pseudo points.
;
arclat = new(NARC, float)
arclon = new(NARC, float)
gsres = True
gsres@gsLineThicknessF = 2.
gsres@gsLineColor = 4
do i=4,9
nggcog(rlat(i), rlon(i), rc(i), arclat, arclon)
gsn_polyline(wks,map,arclon,arclat,gsres)
end do
;
; Draw the Voronoi polygons.
;
gsres@gsLineColor = 3
rlatn = new(2,float)
rlonn = new(2,float)
do i=0,fsize-1
csvoro(plat,plon,i,0,rlat,rlon,rc,nca,numv,nv)
do j=1,numv-1
rlatn(0) = rlat(nv(j-1))
rlonn(0) = rlon(nv(j-1))
rlatn(1) = rlat(nv(j))
rlonn(1) = rlon(nv(j))
gsn_polyline(wks,map,rlonn,rlatn,gsres)
end do
end do
;
; Draw the triangles.
;
qlat = new(4,float)
qlon = new(4,float)
gsres@gsLineColor = 2
do np=0,num_triangles-1
qlat(0) = plat(triangles(np,0))
qlon(0) = plon(triangles(np,0))
qlat(1) = plat(triangles(np,1))
qlon(1) = plon(triangles(np,1))
qlat(2) = plat(triangles(np,2))
qlon(2) = plon(triangles(np,2))
qlat(3) = plat(triangles(np,0))
qlon(3) = plon(triangles(np,0))
gsn_polyline(wks,map,qlon,qlat,gsres)
end do
;
; Mark the original data points with yellow circles.
;
gsres@gsFillColor = 3
do i=0,fsize-1
nggcog(plat(i),plon(i),1.3,arclat,arclon)
gsn_polygon(wks,map,arclon,arclat,gsres)
end do
;
; Mark the circumcircle centers with green dots.
;
gsres@gsFillColor = 5
do i=4,9
nggcog(rlat(i),rlon(i),0.65,arclat,arclon)
gsn_polygon(wks,map,arclon,arclat,gsres)
end do
;
; Legend
;
txres = True
txres@txFontHeightF = 0.025
txres@txFontColor = 1
txres@txJust = "CenterLeft"
draw_box(wks, 0.02, 0.945, 0.12, 0.955, 2, gsres)
gsn_text_ndc(wks, "~F22~Delaunay triangles", 0.14, 0.95, txres)
draw_box(wks, 0.02, 0.895, 0.12, 0.905, 3, gsres)
gsn_text_ndc(wks, "~F22~Voronoi polygons", 0.14, 0.90, txres)
draw_box(wks, 0.02, 0.845, 0.12, 0.855, 4, gsres)
gsn_text_ndc(wks, "~F22~Circumcircles", 0.14, 0.85, txres)
frame(wks)
end
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