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openwrt-packages/nanonote-files/example-files/data/Examples/lua-plplot-examples/x14.lua

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--[[ $Id: x14.lua 10793 2010-02-06 01:48:39Z hbabcock $
Demo of multiple stream/window capability (requires Tk or Tcl-DP).
Maurice LeBrun
IFS, University of Texas at Austin
Copyright (C) 2009 Werner Smekal
This file is part of PLplot.
PLplot is free software you can redistribute it and/or modify
it under the terms of the GNU General Library Public License as published
by the Free Software Foundation either version 2 of the License, or
(at your option) any later version.
PLplot is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU Library General Public License for more details.
You should have received a copy of the GNU Library General Public License
along with PLplot if not, write to the Free Software
Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
--]]
-- initialise Lua bindings for PLplot examples.
dofile("plplot_examples.lua")
xs = {}
ys = {}
space0 = {}
mark0 = {}
space1 = { 1500 }
mark1 = { 1500 }
function plot1()
x = {}
y = {}
for i = 1, 60 do
x[i] = xoff + xscale*i/60
y[i] = yoff + yscale*x[i]^2
end
xmin = x[1]
xmax = x[60]
ymin = y[1]
ymax = y[60]
for i = 1, 6 do
xs[i] = x[(i-1)*10 + 4]
ys[i] = y[(i-1)*10 + 4]
end
-- Set up the viewport and window using PLENV. The range in X is
-- 0.0 to 6.0, and the range in Y is 0.0 to 30.0. The axes are
-- scaled separately (just = 0), and we just draw a labelled
-- box (axis = 0).
pl.col0(1)
pl.env(xmin, xmax, ymin, ymax, 0, 0)
pl.col0(6)
pl.lab("(x)", "(y)", "#frPLplot Example 1 - y=x#u2")
-- Plot the data points
pl.col0(9)
pl.poin(xs, ys, 9)
-- Draw the line through the data
pl.col0(4)
pl.line(x, y)
pl.flush()
end
function plot2()
x = {}
y = {}
-- Set up the viewport and window using PLENV. The range in X is -2.0 to
-- 10.0, and the range in Y is -0.4 to 2.0. The axes are scaled separately
-- (just = 0), and we draw a box with axes (axis = 1).
pl.col0(1)
pl.env(-2, 10, -0.4, 1.2, 0, 1)
pl.col0(2)
pl.lab("(x)", "sin(x)/x", "#frPLplot Example 1 - Sinc Function")
-- Fill up the arrays
for i = 1, 100 do
x[i] = (i-20)/6
y[i] = 1
if x[i]~=0 then
y[i] = math.sin(x[i])/x[i]
end
end
-- Draw the line
pl.col0(3)
pl.line(x, y)
pl.flush()
end
function plot3()
x = {}
y = {}
-- For the final graph we wish to override the default tick intervals, and
-- so do not use PLENV
pl.adv(0)
-- Use standard viewport, and define X range from 0 to 360 degrees, Y range
-- from -1.2 to 1.2.
pl.vsta()
pl.wind(0, 360, -1.2, 1.2)
-- Draw a box with ticks spaced 60 degrees apart in X, and 0.2 in Y.
pl.col0(1)
pl.box("bcnst", 60, 2, "bcnstv", 0.2, 2)
-- Superimpose a dashed line grid, with 1.5 mm marks and spaces. plstyl
-- expects a pointer!!
pl.styl(mark1, space1)
pl.col0(2)
pl.box("g", 30, 0, "g", 0.2, 0)
pl.styl(mark0, space0)
pl.col0(3)
pl.lab("Angle (degrees)", "sine", "#frPLplot Example 1 - Sine function")
for i = 1, 101 do
x[i] = 3.6 * (i-1)
y[i] = math.sin(x[i]*math.pi/180)
end
pl.col0(4)
pl.line(x, y)
pl.flush()
end
function plot4()
x0 = {}
y0 = {}
x = {}
y = {}
dtr = math.pi/180
for i = 1, 361 do
x0[i] = math.cos(dtr*(i-1))
y0[i] = math.sin(dtr*(i-1))
end
-- Set up viewport and window, but do not draw box
pl.env(-1.3, 1.3, -1.3, 1.3, 1, -2)
for i = 1, 10 do
for j = 1, 361 do
x[j] = 0.1*i*x0[j]
y[j] = 0.1*i*y0[j]
end
-- Draw circles for polar grid
pl.line(x, y)
end
pl.col0(2)
for i = 1, 12 do
theta = 30.0 * (i-1)
dx = math.cos(dtr * theta)
dy = math.sin(dtr * theta)
-- Draw radial spokes for polar grid
pl.join(0, 0, dx, dy)
-- Write labels for angle
-- Slightly off zero to avoid floating point logic flips at 90 and 270 deg.
if dx>=-0.00001 then
pl.ptex(dx, dy, dx, dy, -0.15, tostring(theta))
else
pl.ptex(dx, dy, -dx, -dy, 1.15, tostring(theta))
end
end
x = {}
y = {}
-- Draw the graph
for i = 1, 361 do
r = math.sin(dtr * (5*(i-1)))
x[i] = x0[i] * r
y[i] = y0[i] * r
end
pl.col0(3)
pl.line(x, y)
pl.col0(4)
pl.mtex("t", 2, 0.5, 0.5, "#frPLplot Example 3 - r(#gh)=sin 5#gh")
pl.flush()
end
-- Demonstration of contour plotting
XPTS = 35
YPTS = 46
XSPA = 2/(XPTS-1)
YSPA = 2/(YPTS-1)
tr = { XSPA, 0, -1, 0, YSPA, -1 }
function mypltr(x, y)
tx = tr[1]*x + tr[2]*y + tr[3]
ty = tr[4]*x + tr[5]*y + tr[6]
return tx, ty
end
clevel = { -1, -.8, -.6, -.4, -.2, 0, .2, .4, .6, .8, 1 }
function plot5()
mark = { 1500 }
space = { 1500 }
-- Set up function arrays
z = {}
w = {}
for i = 1, XPTS do
xx = (i-1-math.floor(XPTS/2))/math.floor(XPTS/2)
z[i] = {}
w[i] = {}
for j = 1, YPTS do
yy = (j-1-math.floor(YPTS/2))/math.floor(YPTS/2)-1
z[i][j] = xx * xx - yy * yy
w[i][j] = 2 * xx * yy
end
end
pl.env(-1, 1, -1, 1, 0, 0)
pl.col0(2)
pl.cont(z, 1, XPTS, 1, YPTS, clevel, "mypltr")
pl.styl(mark, space)
pl.col0(3)
pl.cont(w, 1, XPTS, 1, YPTS, clevel, "mypltr")
pl.col0(1)
pl.lab("X Coordinate", "Y Coordinate", "Streamlines of flow")
pl.flush()
end
----------------------------------------------------------------------------
-- main
--
-- Plots several simple functions from other example programs.
--
-- This version sends the output of the first 4 plots (one page) to two
-- independent streams.
----------------------------------------------------------------------------
-- Select either TK or DP driver and use a small window
-- Using DP results in a crash at the end due to some odd cleanup problems
-- The geometry strings MUST be in writable memory
geometry_master = "500x410+100+200"
geometry_slave = "500x410+650+200"
-- plplot initialization
-- Parse and process command line arguments
pl.parseopts(arg, pl.PL_PARSE_FULL)
-- If valid geometry specified on command line, use it for both streams.
xp0, yp0, xleng0, yleng0, xoff0, yoff0 = pl.gpage()
valid_geometry = xleng0>0 and yleng0>0
-- Set up first stream
if valid_geometry==true then
pl.spage(xp0, yp0, xleng0, yleng0, xoff0, yoff0)
else
pl.setopt("geometry", geometry_master)
end
pl.ssub(2, 2)
pl.init()
driver = pl.gdev()
fam, num, bmax = pl.gfam()
print("Demo of multiple output streams via the " .. driver .." driver.")
print("Running with the second stream as slave to the first.\n")
-- Start next stream
pl.sstrm(1)
if valid_geometry==true then
pl.spage(xp0, yp0, xleng0, yleng0, xoff0, yoff0)
else
pl.setopt("geometry", geometry_slave)
end
-- Turn off pause to make this a slave (must follow master)
pl.spause(0)
pl.sdev(driver)
pl.sfam(fam,num,bmax)
-- Currently number of digits in format number can only be
--set via the command line option
pl.setopt("fflen", "2")
pl.init()
-- Set up the data & plot
-- Original case
pl.sstrm(0)
xscale = 6
yscale = 1
xoff = 0
yoff = 0
plot1()
-- Set up the data & plot
xscale = 1
yscale = 1e6
plot1()
-- Set up the data & plot
xscale = 1.
yscale = 1.e-6
digmax = 2
pl.syax(digmax, 0)
plot1()
-- Set up the data & plot
xscale = 1
yscale = 0.0014
yoff = 0.0185
digmax = 5
pl.syax(digmax, 0)
plot1()
-- To slave
-- The pleop() ensures the eop indicator gets lit.
pl.sstrm(1)
plot4()
pl.eop()
-- Back to master
pl.sstrm(0)
plot2()
plot3()
-- To slave
pl.sstrm(1)
plot5()
pl.eop()
-- Back to master to wait for user to advance
pl.sstrm(0)
pl.eop()
-- Call plend to finish off.
pl.plend()