upstream/ipython Files · docs/examples/kernel/wordfreq.py

Lots of work on exception handling, including tests for traceback printing....

Lots of work on exception handling, including tests for traceback printing. We finally have some tests for various exception mode printing, via doctests that exercise all three modes! Also changed handling of sys.exit(X) to only print the summary message, as SystemExit is most often a 'handled' exception. It can still be 100% silenced via '%run -e', but now it's much less intrusive. Added a new %tb magic to print the last available traceback with the current xmode. One can then re-print the last traceback with more detail if desired, without having to cause it again.

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      """Count the frequencies of words in a string"""

      from __future__ import division

      import cmath as math

      def wordfreq(text):

          """Return a dictionary of words and word counts in a string."""

          freqs = {}

          for word in text.split():

              lword = word.lower()

              freqs[lword] = freqs.get(lword, 0) + 1

          return freqs

      def print_wordfreq(freqs, n=10):

          """Print the n most common words and counts in the freqs dict."""

          words, counts = freqs.keys(), freqs.values()

          items = zip(counts, words)

          items.sort(reverse=True)

          for (count, word) in items[:n]:

              print word, count

      def wordfreq_to_weightsize(worddict, minsize=25, maxsize=50, minalpha=0.5, maxalpha=1.0):

          mincount = min(worddict.itervalues())

          maxcount = max(worddict.itervalues())

          weights = {}

          for k, v in worddict.iteritems():

              w = (v-mincount)/(maxcount-mincount)

              alpha = minalpha + (maxalpha-minalpha)*w

              size = minsize + (maxsize-minsize)*w

              weights[k] = (alpha, size)

          return weights

      def tagcloud(worddict, n=10, minsize=25, maxsize=50, minalpha=0.5, maxalpha=1.0):

          from matplotlib import pyplot as plt

          import random

          worddict = wordfreq_to_weightsize(worddict, minsize, maxsize, minalpha, maxalpha)

          fig = plt.figure()

          ax = fig.add_subplot(111)

          ax.set_position([0.0,0.0,1.0,1.0])

          plt.xticks([])

          plt.yticks([])

          words = worddict.keys()

          alphas = [v[0] for v in worddict.values()]

          sizes = [v[1] for v in worddict.values()]

          items = zip(alphas, sizes, words)

          items.sort(reverse=True)

          for alpha, size, word in items[:n]:

              # xpos = random.normalvariate(0.5, 0.3)

              # ypos = random.normalvariate(0.5, 0.3)

              xpos = random.uniform(0.0,1.0)

              ypos = random.uniform(0.0,1.0)

              ax.text(xpos, ypos, word.lower(), alpha=alpha, fontsize=size)

          ax.autoscale_view()

          return ax

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				"""Count the frequencies of words in a string"""

				from __future__ import division

				import cmath as math


				def wordfreq(text):
				"""Return a dictionary of words and word counts in a string."""

				freqs = {}
				for word in text.split():
				lword = word.lower()
				freqs[lword] = freqs.get(lword, 0) + 1
				return freqs


				def print_wordfreq(freqs, n=10):
				"""Print the n most common words and counts in the freqs dict."""

				words, counts = freqs.keys(), freqs.values()
				items = zip(counts, words)
				items.sort(reverse=True)
				for (count, word) in items[:n]:
				print word, count


				def wordfreq_to_weightsize(worddict, minsize=25, maxsize=50, minalpha=0.5, maxalpha=1.0):
				mincount = min(worddict.itervalues())
				maxcount = max(worddict.itervalues())
				weights = {}
				for k, v in worddict.iteritems():
				w = (v-mincount)/(maxcount-mincount)
				alpha = minalpha + (maxalpha-minalpha)*w
				size = minsize + (maxsize-minsize)*w
				weights[k] = (alpha, size)
				return weights


				def tagcloud(worddict, n=10, minsize=25, maxsize=50, minalpha=0.5, maxalpha=1.0):
				from matplotlib import pyplot as plt
				import random

				worddict = wordfreq_to_weightsize(worddict, minsize, maxsize, minalpha, maxalpha)

				fig = plt.figure()
				ax = fig.add_subplot(111)
				ax.set_position([0.0,0.0,1.0,1.0])
				plt.xticks([])
				plt.yticks([])

				words = worddict.keys()
				alphas = [v[0] for v in worddict.values()]
				sizes = [v[1] for v in worddict.values()]
				items = zip(alphas, sizes, words)
				items.sort(reverse=True)
				for alpha, size, word in items[:n]:
				# xpos = random.normalvariate(0.5, 0.3)
				# ypos = random.normalvariate(0.5, 0.3)
				xpos = random.uniform(0.0,1.0)
				ypos = random.uniform(0.0,1.0)
				ax.text(xpos, ypos, word.lower(), alpha=alpha, fontsize=size)
				ax.autoscale_view()
				return ax