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From: Jeremy C. <jer...@gm...> - 2005-12-08 15:09:16
|
I wrote this python script to read a file and get data from it to
plot. However, it makes all the plot colors the same fuschia color.=20
That, of course, doesn't help me very much. I have done a similar
script that automatically creates different colors for each plot. I
was wondering if someone could help me discover what is wrong.
I have pasted my script below.
Thanks,
Jeremy
1 #! /usr/local/bin/python2.4
2 import string, re, sys
3 import Gnuplot
4
5 print "Searching... ", sys.argv[1]
6 Output =3D file(sys.argv[1],'r')
7
8 OutLines =3D Output.readlines()
9
10 tallysearch =3D r'\ +(\d\.\d{4,5}E[+-]\d{2})\
+(\d\.\d{4,5}E[+-]\d{2})\ ?(\d\.\d{4})'
11 # \ +(\d\.\d{4}E[+-]\d{2})
12 # \ ?(\d\.\d{4})'''
13 TallySearch =3D re.compile(tallysearch)
14
15 Result =3D []
16 Tallies =3D 0
17 result =3D {}
18 result['Energy'] =3D []
19 result['Flux'] =3D []
20 result['Error'] =3D []
21 Result.append(result)
22
23 print Result[Tallies]
24
25 for line in OutLines:
26 Tally =3D TallySearch.match(line)
27 if Tally:
28 Result[Tallies]['Energy'].append(float(Tally.group(1)))
29 Result[Tallies]['Flux'].append(float(Tally.group(2)))
30 Result[Tallies]['Error'].append(float(Tally.group(3)))
31 # Result[Tallies].append([energy, flux, error])
32
33 if Tally.group(1) =3D=3D '1.0000E+01':
34 Tallies =3D Tallies+1
35 Result.append(result)
36
37 GP =3D Gnuplot.Gnuplot(debug=3D1)
38
39 g0 =3D Gnuplot.Data(Result[0]['Energy'], Result[0]['Flux'],
title=3D'50 cm', with=3D'lines')
40 g2 =3D Gnuplot.Data(Result[2]['Energy'], Result[2]['Flux'],
title=3D'100 cm', with=3D'histeps')
41 g4 =3D Gnuplot.Data(Result[4]['Energy'], Result[4]['Flux'],
title=3D'150 cm', with=3D'histeps')
42 g6 =3D Gnuplot.Data(Result[6]['Energy'], Result[6]['Flux'],
title=3D'200 cm', with=3D'histeps')
43 g1 =3D Gnuplot.Data(Result[1]['Energy'], Result[1]['Flux'],
title=3D'50 cm', with=3D'histeps')
44 g3 =3D Gnuplot.Data(Result[3]['Energy'], Result[3]['Flux'],
title=3D'100 cm', with=3D'histeps')
45 g5 =3D Gnuplot.Data(Result[5]['Energy'], Result[5]['Flux'],
title=3D'150 cm', with=3D'histeps')
46 g7 =3D Gnuplot.Data(Result[7]['Energy'], Result[7]['Flux'],
title=3D'200 cm', with=3D'histeps')
47 GP('set logscale y')
48 GP.xlabel('Energy (MeV)')
49 GP.ylabel('Flux (cm^{-2})')
50 GP.plot(g0,g2,g4,g6)
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