Mercurial > ift6266
view scripts/stat_graph.py @ 551:8f365abf171d
separete the transmo image
author | Frederic Bastien <nouiz@nouiz.org> |
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date | Wed, 02 Jun 2010 17:00:11 -0400 |
parents | 227ebc0be7ae |
children |
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import matplotlib matplotlib.use('Agg') from pylab import * from scipy import stats import numpy from ift6266 import datasets nistp_valid = stats.itemfreq(datasets.PNIST07().valid(10000000).next()[1]) nistp_valid[:,1] /= sum(nistp_valid[:,1]) nist_valid = stats.itemfreq(datasets.nist_all().valid(10000000).next()[1]) nist_valid[:,1] /= sum(nist_valid[:,1]) nist_test = stats.itemfreq(datasets.nist_all().test(10000000).next()[1]) nist_test[:,1] /= sum(nist_test[:,1]) nist_train = stats.itemfreq(datasets.nist_all().train(100000000).next()[1]) nist_train[:,1] /= sum(nist_train[:,1]) xloc = numpy.arange(62)+0.5 labels = map(str, range(10)) + map(chr, range(65,91)) + map(chr, range(97,123)) def makegraph(data, fname, labels=labels, xloc=xloc, width=0.5): figure(figsize=(8,6)) # clf() bar(xloc, data, width=width) xticks([]) for x, l in zip(xloc, labels): text(x+width/2, -0.004, l, horizontalalignment='center', verticalalignment='baseline') # xticks(xloc+width/2, labels, verticalalignment='bottom') xlim(0, xloc[-1]+width*2) ylim(0, 0.1) savefig(fname) makegraph(nistp_valid[:,1], 'nistpvalidstats.png') makegraph(nist_valid[:,1], 'nistvalidstats.png') makegraph(nist_test[:,1], 'nistteststats.png') makegraph(nist_train[:,1], 'nisttrainstats.png')