openwrt-packages/nanonote-files/example-files/data/Examples/lua-plplot-examples/x18.lua

--[[ $Id: x18.lua 9526 2009-02-13 22:06:13Z smekal $

	3-d line and point plot demo.  Adapted from x08c.c.

  Copyright (C) 2008  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")

function test_poly(k)
  draw= { { 1, 1, 1, 1 },
          { 1, 0, 1, 0 },
          { 0, 1, 0, 1 },
          { 1, 1, 0, 0 } }

  x = {}
  y = {}
  z = {}

  pl.adv(0)
  pl.vpor(0, 1, 0, 0.9)
  pl.wind(-1, 1, -0.9, 1.1)
  pl.col0(1)
  pl.w3d(1, 1, 1, -1, 1, -1, 1, -1, 1, alt[k], az[k])
  pl.box3("bnstu", "x axis", 0, 0,
          "bnstu", "y axis", 0, 0,
          "bcdmnstuv", "z axis", 0, 0)

  pl.col0(2)

  -- x = r sin(phi) cos(theta)
  -- y = r sin(phi) sin(theta)
  -- z = r cos(phi)
  -- r = 1 :=)

  for i=0, 19 do
    for j=0, 19 do
	    x[1] = math.sin( math.pi*j/20.1 ) * math.cos( 2*math.pi*i/20 )
	    y[1] = math.sin( math.pi*j/20.1 ) * math.sin( 2*math.pi*i/20 )
	    z[1] = math.cos( math.pi*j/20.1 )
	    
	    x[2] = math.sin( math.pi*(j+1)/20.1 ) * math.cos( 2*math.pi*i/20 )
	    y[2] = math.sin( math.pi*(j+1)/20.1 ) * math.sin( 2*math.pi*i/20 )
	    z[2] = math.cos( math.pi*(j+1)/20.1 )
	    
	    x[3] = math.sin( math.pi*(j+1)/20.1 ) * math.cos( 2*math.pi*(i+1)/20 )
	    y[3] = math.sin( math.pi*(j+1)/20.1 ) * math.sin( 2*math.pi*(i+1)/20 )
	    z[3] = math.cos( math.pi*(j+1)/20.1 )
	    
	    x[4] = math.sin( math.pi*j/20.1 ) * math.cos( 2*math.pi*(i+1)/20 )
	    y[4] = math.sin( math.pi*j/20.1 ) * math.sin( 2*math.pi*(i+1)/20 )
	    z[4] = math.cos( math.pi*j/20.1 )
	    
	    x[5] = math.sin( math.pi*j/20.1 ) * math.cos( 2*math.pi*i/20 )
	    y[5] = math.sin( math.pi*j/20.1 ) * math.sin( 2*math.pi*i/20 )
	    z[5] = math.cos( math.pi*j/20.1 )

	    pl.poly3( x, y, z, draw[k], 1 )
    end
  end

  pl.col0(3)
  pl.mtex("t", 1, 0.5, 0.5, "unit radius sphere" )
end


----------------------------------------------------------------------------
-- main
--
-- Does a series of 3-d plots for a given data set, with different
-- viewing options in each plot.
----------------------------------------------------------------------------

NPTS = 1000
opt = { 1, 0, 1, 0 }
alt = { 20, 35, 50, 65 }
az  = { 30, 40, 50, 60 }


-- Parse and process command line arguments 
pl.parseopts(arg, pl.PL_PARSE_FULL)

-- Initialize plplot 
pl.init()

for k=1, 4 do
	test_poly(k)
end

x = {}
y = {}
z = {}

-- From the mind of a sick and twisted physicist... 
for i=1, NPTS do
  z[i] = -1 + 2*(i-1)/NPTS

  -- Pick one ... 
  --	r  = 1 - (i-1) / NPTS
  r = z[i]

  x[i] = r * math.cos( 12*math.pi*(i-1)/NPTS )
  y[i] = r * math.sin( 12*math.pi*(i-1)/NPTS )
end

for k=1, 4 do
	pl.adv(0)
	pl.vpor(0, 1, 0, 0.9)
	pl.wind(-1, 1, -0.9, 1.1)
	pl.col0(1)
	pl.w3d(1, 1, 1, -1, 1, -1, 1, -1, 1, alt[k], az[k])
	pl.box3("bnstu", "x axis", 0, 0,
	        "bnstu", "y axis", 0, 0,
	        "bcdmnstuv", "z axis", 0, 0)

	pl.col0(2)

	if opt[k]~=0 then 
    pl.line3( x, y, z )
	else
    pl.poin3( x, y, z, 1 )
  end

	pl.col0(3)
	pl.mtex("t", 1.0, 0.5, 0.5, "#frPLplot Example 18 - Alt=" .. alt[k] .. ", Az=" .. az[k])
end

pl.plend()