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295 lines
6.5 KiB
Lua
295 lines
6.5 KiB
Lua
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--[[ $Id: x20.lua 9535 2009-02-17 10:14:04Z smekal $
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plimage demo
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--]]
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-- initialise Lua bindings for PLplot examples.
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dofile("plplot_examples.lua")
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XDIM = 260
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YDIM = 220
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dbg = 0
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nosombrero = 0
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nointeractive = 0
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f_name=""
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-- Transformation function
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function mypltr(x, y)
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local x0 = (stretch["xmin"] + stretch["xmax"])*0.5
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local y0 = (stretch["ymin"] + stretch["ymax"])*0.5
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local dy = (stretch["ymax"]-stretch["ymin"])*0.5
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local tx = x0 + (x0-x)*(1 - stretch["stretch"]*math.cos((y-y0)/dy*math.pi*0.5))
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local ty = y
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return tx, ty
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end
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-- read image from file in binary ppm format
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function read_img(fname)
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-- naive grayscale binary ppm reading. If you know how to, improve it
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local fp = io.open(fname, "rb")
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if fp==nil then
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return 1
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end
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-- version
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local ver = fp:read("*line")
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if ver~="P5" then -- I only understand this!
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fp:close()
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return 1
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end
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while fp:read(1)=="#" do
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local com = fp:read("*line")
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if com==nil then
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fp:close()
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return 1
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end
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end
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fp:seek("cur", -1)
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local w, h, num_col = fp:read("*number", "*number", "*number")
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if w==nil or h==nil or num_col==nil then -- width, height, num colors
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fp:close()
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return 1
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end
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-- read the rest of the line (only EOL)
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fp:read("*line")
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local img = fp:read(w*h)
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fp:close()
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if string.len(img)~=(w*h) then
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return 1
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end
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local imf = {}
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for i = 1, w do
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imf[i] = {}
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for j = 1, h do
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imf[i][j] = string.byte(img, (h-j)*w+i) -- flip image up-down
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end
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end
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return 0, imf, w, h, num_col
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end
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-- save plot
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function save_plot(fname)
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local cur_strm = pl.gstrm() -- get current stream
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local new_strm = pl.mkstrm() -- create a new one
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pl.sdev("psc") -- new device type. Use a known existing driver
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pl.sfnam(fname) -- file name
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pl.cpstrm(cur_strm, 0) -- copy old stream parameters to new stream
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pl.replot() -- do the save
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pl.end1() -- close new device
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pl.sstrm(cur_strm) -- and return to previous one
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end
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-- get selection square interactively
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function get_clip(xi, xe, yi, ye)
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return 0, xi, xe, yi, ye
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end
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-- set gray colormap
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function gray_cmap(num_col)
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local r = { 0, 1 }
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local g = { 0, 1 }
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local b = { 0, 1 }
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local pos = { 0, 1 }
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pl.scmap1n(num_col)
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pl.scmap1l(1, pos, r, g, b)
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end
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x = {}
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y = {}
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z = {}
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r = {}
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img_f = {}
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cgrid2 = {}
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-- Bugs in plimage():
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-- + at high magnifications, the left and right edge are ragged, try
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-- ./x20c -dev xwin -wplt 0.3,0.3,0.6,0.6 -ori 0.5
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-- Bugs in x20c.c:
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-- + if the window is resized after a selection is made on "lena", when
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--making a new selection the old one will re-appear.
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-- Parse and process command line arguments
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pl.parseopts(arg, pl.PL_PARSE_FULL)
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-- Initialize plplot
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pl.init()
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z={}
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-- view image border pixels
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if dbg~=0 then
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pl.env(1, XDIM, 1, YDIM, 1, 1) -- no plot box
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-- build a one pixel square border, for diagnostics
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for i = 1, XDIM do
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z[i] = {}
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z[i][1] = 1 -- left
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z[i][YDIM] = 1 -- right
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end
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for i = 1, YDIM do
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z[1][i] = 1 -- top
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z[XDIM][i] = 1 -- botton
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end
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pl.lab("...around a blue square."," ","A red border should appear...")
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pl.image(z, 1, XDIM, 1, YDIM, 0, 0, 1, XDIM, 1, YDIM)
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end
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-- sombrero-like demo
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if nosombrero==0 then
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r = {}
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pl.col0(2) -- draw a yellow plot box, useful for diagnostics! :(
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pl.env(0, 2*math.pi, 0, 3*math.pi, 1, -1)
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for i = 1, XDIM do
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x[i] = (i-1)*2*math.pi/(XDIM-1)
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end
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for i = 1, YDIM do
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y[i] = (i-1)*3*math.pi/(YDIM-1)
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end
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for i = 1, XDIM do
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r[i] = {}
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z[i] = {}
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for j=1, YDIM do
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r[i][j] = math.sqrt(x[i]^2+y[j]^2)+1e-3
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z[i][j] = math.sin(r[i][j])/r[i][j]
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end
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end
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pl.lab("No, an amplitude clipped \"sombrero\"", "", "Saturn?")
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pl.ptex(2, 2, 3, 4, 0, "Transparent image")
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pl.image(z, 0, 2*math.pi, 0, 3*math.pi, 0.05, 1, 0, 2*math.pi, 0, 3*math.pi)
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-- save the plot
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if f_name~="" then
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save_plot(f_name)
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end
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end
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-- read Lena image
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-- Note we try two different locations to cover the case where this
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-- examples is being run from the test_c.sh script
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status, img_f, width, height, num_col = read_img("lena.pgm")
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if status~=0 then
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status, img_f, width, height, num_col = read_img("../lena.pgm")
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if status~=0 then
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pl.abort("No such file")
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pl.plend()
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os.exit()
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end
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end
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-- set gray colormap
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gray_cmap(num_col)
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-- display Lena
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pl.env(1, width, 1, height, 1, -1)
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if nointeractive==0 then
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pl.lab("Set and drag Button 1 to (re)set selection, Button 2 to finish."," ","Lena...")
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else
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pl.lab(""," ","Lena...")
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end
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pl.image(img_f, 1, width, 1, height, 0, 0, 1, width, 1, height)
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-- selection/expansion demo
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if nointeractive==0 then
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xi = 200
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xe = 330
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yi = 280
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ye = 220
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status, xi, xe, yi, ye = get_clip(xi, xe, yi, ye)
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if status~=0 then -- get selection rectangle
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pl.plend()
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os.exit()
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end
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pl.spause(0)
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pl.adv(0)
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-- display selection only
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pl.image(img_f, 1, width, 1, height, 0, 0, xi, xe, ye, yi)
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pl.spause(1)
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-- zoom in selection
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pl.env(xi, xe, ye, yi, 1, -1)
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pl.image(img_f, 1, width, 1, height, 0, 0, xi, xe, ye, yi)
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end
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-- Base the dynamic range on the image contents.
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img_max, img_min = pl.MinMax2dGrid(img_f)
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-- Draw a saturated version of the original image. Only use the middle 50%
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-- of the image's full dynamic range.
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pl.col0(2)
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pl.env(0, width, 0, height, 1, -1)
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pl.lab("", "", "Reduced dynamic range image example")
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pl.imagefr(img_f, 0, width, 0, height, 0, 0, img_min + img_max*0.25, img_max - img_max*0.25)
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-- Draw a distorted version of the original image, showing its full dynamic range.
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pl.env(0, width, 0, height, 1, -1)
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pl.lab("", "", "Distorted image example")
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stretch = {}
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stretch["xmin"] = 0
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stretch["xmax"] = width
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stretch["ymin"] = 0
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stretch["ymax"] = height
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stretch["stretch"] = 0.5
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-- In C / C++ the following would work, with plimagefr directly calling
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-- mypltr. For compatibilty with other language bindings the same effect
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-- can be achieved by generating the transformed grid first and then
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-- using pltr2.
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-- pl.imagefr(img_f, width, height, 0., width, 0., height, 0., 0., img_min, img_max, mypltr, (PLPointer) &stretch)
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cgrid2 = {}
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cgrid2["xg"] = {}
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cgrid2["yg"] = {}
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cgrid2["nx"] = width+1
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cgrid2["ny"] = height+1
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for i = 1, width+1 do
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cgrid2["xg"][i] = {}
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cgrid2["yg"][i] = {}
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for j = 1, height+1 do
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xx, yy = mypltr(i, j)
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cgrid2["xg"][i][j] = xx
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cgrid2["yg"][i][j] = yy
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end
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end
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--pl.imagefr(img_f, 0, width, 0, height, 0, 0, img_min, img_max, "pltr2", cgrid2)
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pl.imagefr(img_f, 0, width, 0, height, 0, 0, img_min, img_max, "mypltr")
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pl.plend()
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