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test.py
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test.py
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#! /usr/bin/env python
# $Id$
# Copyright (C) 1999-2003 Michael Haggerty <mhagger@alum.mit.edu>
#
# This file is licensed under the GNU Lesser General Public License
# (LGPL). See LICENSE.txt for details.
"""test.py -- Exercise the Gnuplot.py module.
This module is not meant to be a flashy demonstration; rather it is a
thorough test of many combinations of Gnuplot.py features.
"""
import os, time, math, tempfile
import numpy
try:
import Gnuplot, Gnuplot.PlotItems, Gnuplot.funcutils
except ImportError:
# kludge in case Gnuplot hasn't been installed as a module yet:
import __init__
Gnuplot = __init__
import PlotItems
Gnuplot.PlotItems = PlotItems
import funcutils
Gnuplot.funcutils = funcutils
try:
input = raw_input
except NameError:
pass
def wait(str=None, prompt='Press return to show results...\n'):
if str is not None:
print(str)
input(prompt)
def main():
"""Exercise the Gnuplot module."""
print(
'This program exercises many of the features of Gnuplot.py. The\n'
'commands that are actually sent to gnuplot are printed for your\n'
'enjoyment.'
)
wait('Popping up a blank gnuplot window on your screen.')
g = Gnuplot.Gnuplot(debug=1)
g.clear()
# Make two temporary files:
if hasattr(tempfile, 'mkstemp'):
(fd, filename1,) = tempfile.mkstemp(text=1)
f = os.fdopen(fd, 'w')
(fd, filename2,) = tempfile.mkstemp(text=1)
else:
filename1 = tempfile.mktemp()
f = open(filename1, 'w')
filename2 = tempfile.mktemp()
try:
for x in numpy.arange(100.)/5. - 10.:
f.write('%s %s %s\n' % (x, math.cos(x), math.sin(x)))
f.close()
print('############### test Func ###################################')
wait('Plot a gnuplot-generated function')
g.plot(Gnuplot.Func('sin(x)'))
wait('Set title and axis labels and try replot()')
g.title('Title')
g.xlabel('x')
g.ylabel('y')
g.replot()
wait('Style linespoints')
g.plot(Gnuplot.Func('sin(x)', with_='linespoints'))
wait('title=None')
g.plot(Gnuplot.Func('sin(x)', title=None))
wait('title="Sine of x"')
g.plot(Gnuplot.Func('sin(x)', title='Sine of x'))
wait('axes=x2y2')
g.plot(Gnuplot.Func('sin(x)', axes='x2y2', title='Sine of x'))
wait('Custom tics')
g.set_tics(
'x',
[
(-2 * math.pi, '-2pi'),
(-math.pi, '', 2),
(0,),
Gnuplot.Tic(math.pi, level=2),
Gnuplot.Tic(2 * math.pi, '2pi'),
],
)
g.plot(Gnuplot.Func('sin(x)', title='Sine of x'))
wait('Reset to default tics')
g.set_tics('x', 'auto')
g.plot(Gnuplot.Func('sin(x)', title='Sine of x'))
print('Change Func attributes after construction:')
f = Gnuplot.Func('sin(x)')
wait('Original')
g.plot(f)
wait('Style linespoints')
f.set_option(with_='linespoints')
g.plot(f)
wait('title=None')
f.set_option(title=None)
g.plot(f)
wait('title="Sine of x"')
f.set_option(title='Sine of x')
g.plot(f)
wait('axes=x2y2')
f.set_option(axes='x2y2')
g.plot(f)
print('############### test File ###################################')
wait('Generate a File from a filename')
g.plot(Gnuplot.File(filename1))
wait('Style lines')
g.plot(Gnuplot.File(filename1, with_='lines'))
wait('using=1, using=(1,)')
g.plot(Gnuplot.File(filename1, using=1, with_='lines'),
Gnuplot.File(filename1, using=(1,), with_='points'))
wait('using=(1,2), using="1:3"')
g.plot(Gnuplot.File(filename1, using=(1,2)),
Gnuplot.File(filename1, using='1:3'))
wait('every=5, every=(5,)')
g.plot(Gnuplot.File(filename1, every=5, with_='lines'),
Gnuplot.File(filename1, every=(5,), with_='points'))
wait('every=(10,None,0), every="10::5"')
g.plot(Gnuplot.File(filename1, with_='lines'),
Gnuplot.File(filename1, every=(10,None,0)),
Gnuplot.File(filename1, every='10::5'))
wait('title=None')
g.plot(Gnuplot.File(filename1, title=None))
wait('title="title"')
g.plot(Gnuplot.File(filename1, title='title'))
print('Change File attributes after construction:')
f = Gnuplot.File(filename1)
wait('Original')
g.plot(f)
wait('Style linespoints')
f.set_option(with_='linespoints')
g.plot(f)
wait('using=(1,3)')
f.set_option(using=(1,3))
g.plot(f)
wait('title=None')
f.set_option(title=None)
g.plot(f)
print('############### test Data ###################################')
x = numpy.arange(100)/5. - 10.
y1 = numpy.cos(x)
y2 = numpy.sin(x)
d = numpy.transpose((x,y1,y2))
wait('Plot Data against its index')
g.plot(Gnuplot.Data(y2, inline=0))
wait('Plot Data, specified column-by-column')
g.plot(Gnuplot.Data(x,y2, inline=0))
wait('Same thing, saved to a file')
Gnuplot.Data(x,y2, inline=0, filename=filename1)
g.plot(Gnuplot.File(filename1))
wait('Same thing, inline data')
g.plot(Gnuplot.Data(x,y2, inline=1))
wait('Plot Data, specified by an array')
g.plot(Gnuplot.Data(d, inline=0))
wait('Same thing, saved to a file')
Gnuplot.Data(d, inline=0, filename=filename1)
g.plot(Gnuplot.File(filename1))
wait('Same thing, inline data')
g.plot(Gnuplot.Data(d, inline=1))
wait('with_="lp lt 4 pt 4"')
g.plot(Gnuplot.Data(d, with_='lp lt 4 pt 4'))
wait('cols=0')
g.plot(Gnuplot.Data(d, cols=0))
wait('cols=(0,1), cols=(0,2)')
g.plot(Gnuplot.Data(d, cols=(0,1), inline=0),
Gnuplot.Data(d, cols=(0,2), inline=0))
wait('Same thing, saved to files')
Gnuplot.Data(d, cols=(0,1), inline=0, filename=filename1)
Gnuplot.Data(d, cols=(0,2), inline=0, filename=filename2)
g.plot(Gnuplot.File(filename1), Gnuplot.File(filename2))
wait('Same thing, inline data')
g.plot(Gnuplot.Data(d, cols=(0,1), inline=1),
Gnuplot.Data(d, cols=(0,2), inline=1))
wait('Change title and replot()')
g.title('New title')
g.replot()
wait('title=None')
g.plot(Gnuplot.Data(d, title=None))
wait('title="Cosine of x"')
g.plot(Gnuplot.Data(d, title='Cosine of x'))
print('############### test compute_Data ###########################')
x = numpy.arange(100)/5. - 10.
wait('Plot Data, computed by Gnuplot.py')
g.plot(
Gnuplot.funcutils.compute_Data(x, lambda x: math.cos(x), inline=0)
)
wait('Same thing, saved to a file')
Gnuplot.funcutils.compute_Data(
x, lambda x: math.cos(x), inline=0, filename=filename1
)
g.plot(Gnuplot.File(filename1))
wait('Same thing, inline data')
g.plot(Gnuplot.funcutils.compute_Data(x, math.cos, inline=1))
wait('with_="lp lt 4 pt 4"')
g.plot(Gnuplot.funcutils.compute_Data(x, math.cos, with_='lp lt 4 pt 4'))
print('############### test hardcopy ###############################')
print('******** Generating postscript file "gp_test.ps" ********')
wait()
g.plot(Gnuplot.Func('cos(0.5*x*x)', with_='linespoints lt 2 pt 2',
title='cos(0.5*x^2)'))
g.hardcopy('gp_test.ps')
wait('Testing hardcopy options: mode="eps"')
g.hardcopy('gp_test.ps', mode='eps')
wait('Testing hardcopy options: mode="landscape"')
g.hardcopy('gp_test.ps', mode='landscape')
wait('Testing hardcopy options: mode="portrait"')
g.hardcopy('gp_test.ps', mode='portrait')
wait('Testing hardcopy options: eps=1')
g.hardcopy('gp_test.ps', eps=1)
wait('Testing hardcopy options: mode="default"')
g.hardcopy('gp_test.ps', mode='default')
wait('Testing hardcopy options: enhanced=1')
g.hardcopy('gp_test.ps', enhanced=1)
wait('Testing hardcopy options: enhanced=0')
g.hardcopy('gp_test.ps', enhanced=0)
wait('Testing hardcopy options: color=1')
g.hardcopy('gp_test.ps', color=1)
# For some reason,
# g.hardcopy('gp_test.ps', color=0, solid=1)
# doesn't work here (it doesn't activate the solid option), even
# though the command sent to gnuplot looks correct. I'll
# tentatively conclude that it is a gnuplot bug. ###
wait('Testing hardcopy options: color=0')
g.hardcopy('gp_test.ps', color=0)
wait('Testing hardcopy options: solid=1')
g.hardcopy('gp_test.ps', solid=1)
wait('Testing hardcopy options: duplexing="duplex"')
g.hardcopy('gp_test.ps', solid=0, duplexing='duplex')
wait('Testing hardcopy options: duplexing="defaultplex"')
g.hardcopy('gp_test.ps', duplexing='defaultplex')
wait('Testing hardcopy options: fontname="Times-Italic"')
g.hardcopy('gp_test.ps', fontname='Times-Italic')
wait('Testing hardcopy options: fontsize=20')
g.hardcopy('gp_test.ps', fontsize=20)
print('******** Generating svg file "gp_test.svg" ********')
wait()
g.plot(Gnuplot.Func('cos(0.5*x*x)', with_='linespoints lt 2 pt 2',
title='cos(0.5*x^2)'))
g.hardcopy('gp_test.svg', terminal='svg')
wait('Testing hardcopy svg options: enhanced')
g.hardcopy('gp_test.ps', terminal='svg', enhanced='1')
print('############### test shortcuts ##############################')
wait('plot Func and Data using shortcuts')
g.plot('sin(x)', d)
print('############### test splot ##################################')
wait('a 3-d curve')
g.splot(Gnuplot.Data(d, with_='linesp', inline=0))
wait('Same thing, saved to a file')
Gnuplot.Data(d, inline=0, filename=filename1)
g.splot(Gnuplot.File(filename1, with_='linesp'))
wait('Same thing, inline data')
g.splot(Gnuplot.Data(d, with_='linesp', inline=1))
print('############### test GridData and compute_GridData ##########')
# set up x and y values at which the function will be tabulated:
x = numpy.arange(35)/2.0
y = numpy.arange(30)/10.0 - 1.5
# Make a 2-d array containing a function of x and y. First create
# xm and ym which contain the x and y values in a matrix form that
# can be `broadcast' into a matrix of the appropriate shape:
xm = x[:,numpy.newaxis]
ym = y[numpy.newaxis,:]
m = (numpy.sin(xm) + 0.1*xm) - ym**2
wait('a function of two variables from a GridData file')
g('set parametric')
g('set style data lines')
g('set hidden')
g('set contour base')
g.xlabel('x')
g.ylabel('y')
g.splot(Gnuplot.GridData(m,x,y, binary=0, inline=0))
wait('Same thing, saved to a file')
Gnuplot.GridData(m,x,y, binary=0, inline=0, filename=filename1)
g.splot(Gnuplot.File(filename1, binary=0))
wait('Same thing, inline data')
g.splot(Gnuplot.GridData(m,x,y, binary=0, inline=1))
wait('The same thing using binary mode')
g.splot(Gnuplot.GridData(m,x,y, binary=1))
wait('Same thing, using binary mode and an intermediate file')
Gnuplot.GridData(m,x,y, binary=1, filename=filename1)
g.splot(Gnuplot.File(filename1, binary=1))
wait('The same thing using compute_GridData to tabulate function')
g.splot(Gnuplot.funcutils.compute_GridData(
x,y, lambda x,y: math.sin(x) + 0.1*x - y**2,
))
wait('Same thing, with an intermediate file')
Gnuplot.funcutils.compute_GridData(
x,y, lambda x,y: math.sin(x) + 0.1*x - y**2,
filename=filename1)
g.splot(Gnuplot.File(filename1, binary=1))
wait('Use compute_GridData in ufunc and binary mode')
g.splot(Gnuplot.funcutils.compute_GridData(
x,y, lambda x,y: numpy.sin(x) + 0.1*x - y**2,
ufunc=1, binary=1,
))
wait('Same thing, with an intermediate file')
Gnuplot.funcutils.compute_GridData(
x,y, lambda x,y: numpy.sin(x) + 0.1*x - y**2,
ufunc=1, binary=1,
filename=filename1)
g.splot(Gnuplot.File(filename1, binary=1))
wait('And now rotate it a bit')
for view in range(35,70,5):
g('set view 60, %d' % view)
g.replot()
time.sleep(1.0)
wait(prompt='Press return to end the test.\n')
finally:
os.unlink(filename1)
os.unlink(filename2)
# when executed, just run main():
if __name__ == '__main__':
main()