upstream/ipython Files · IPython/utils/tests/test_text.py

Initial patch with Jedi completion (no function header description)....

Initial patch with Jedi completion (no function header description). Handle case when Jedi is not importable. Fix print statement vs function discrepancy. Add two-column display for function and description, remove sys.path manipulation. cleanup comments, add matcher APi instead of checking every time (#1) * Improve completion a bit to take care of what was previously "greedy" This is a bit hackins because of how IPython decides what is going to be replaced, and because completions need to strart with `text`. Add a few test cases. * require path.py * Add completion tests. * Fix some completion, in particular imports. Also completion after assignments. Add TODO about how to using Completions with Jedi.

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      # encoding: utf-8

      """Tests for IPython.utils.text"""

      from __future__ import print_function

      #-----------------------------------------------------------------------------

      #  Copyright (C) 2011  The IPython Development Team

      #

      #  Distributed under the terms of the BSD License.  The full license is in

      #  the file COPYING, distributed as part of this software.

      #-----------------------------------------------------------------------------

      #-----------------------------------------------------------------------------

      # Imports

      #-----------------------------------------------------------------------------

      import os

      import math

      import random

      import sys

      import nose.tools as nt

      import path

      from IPython.utils import text

      #-----------------------------------------------------------------------------

      # Globals

      #-----------------------------------------------------------------------------

      def test_columnize():

          """Basic columnize tests."""

          size = 5

          items = [l*size for l in 'abcd']

          out = text.columnize(items, displaywidth=80)

          nt.assert_equal(out, 'aaaaa  bbbbb  ccccc  ddddd\n')

          out = text.columnize(items, displaywidth=25)

          nt.assert_equal(out, 'aaaaa  ccccc\nbbbbb  ddddd\n')

          out = text.columnize(items, displaywidth=12)

          nt.assert_equal(out, 'aaaaa  ccccc\nbbbbb  ddddd\n')

          out = text.columnize(items, displaywidth=10)

          nt.assert_equal(out, 'aaaaa\nbbbbb\nccccc\nddddd\n')

          out = text.columnize(items, row_first=True, displaywidth=80)

          nt.assert_equal(out, 'aaaaa  bbbbb  ccccc  ddddd\n')

          out = text.columnize(items, row_first=True, displaywidth=25)

          nt.assert_equal(out, 'aaaaa  bbbbb\nccccc  ddddd\n')

          out = text.columnize(items, row_first=True, displaywidth=12)

          nt.assert_equal(out, 'aaaaa  bbbbb\nccccc  ddddd\n')

          out = text.columnize(items, row_first=True, displaywidth=10)

          nt.assert_equal(out, 'aaaaa\nbbbbb\nccccc\nddddd\n')

          out = text.columnize(items, displaywidth=40, spread=True)

          nt.assert_equal(out, 'aaaaa      bbbbb      ccccc      ddddd\n')

          out = text.columnize(items, displaywidth=20, spread=True)

          nt.assert_equal(out, 'aaaaa          ccccc\nbbbbb          ddddd\n')

          out = text.columnize(items, displaywidth=12, spread=True)

          nt.assert_equal(out, 'aaaaa  ccccc\nbbbbb  ddddd\n')

          out = text.columnize(items, displaywidth=10, spread=True)

          nt.assert_equal(out, 'aaaaa\nbbbbb\nccccc\nddddd\n')

      def test_columnize_random():

          """Test with random input to hopfully catch edge case """

          for row_first in [True, False]:

              for nitems in [random.randint(2,70) for i in range(2,20)]:

                  displaywidth = random.randint(20,200)

                  rand_len = [random.randint(2,displaywidth) for i in range(nitems)]

                  items = ['x'*l for l in rand_len]

                  out = text.columnize(items, row_first=row_first, displaywidth=displaywidth)

                  longer_line = max([len(x) for x in out.split('\n')])

                  longer_element = max(rand_len)

                  if longer_line > displaywidth:

                      print("Columnize displayed something lager than displaywidth : %s " % longer_line)

                      print("longer element : %s " % longer_element)

                      print("displaywidth : %s " % displaywidth)

                      print("number of element : %s " % nitems)

                      print("size of each element :\n %s" % rand_len)

                      assert False, "row_first={0}".format(row_first)

      def test_columnize_medium():

          """Test with inputs than shouldn't be wider than 80"""

          size = 40

          items = [l*size for l in 'abc']

          for row_first in [True, False]:

              out = text.columnize(items, row_first=row_first, displaywidth=80)

              nt.assert_equal(out, '\n'.join(items+['']), "row_first={0}".format(row_first))

      def test_columnize_long():

          """Test columnize with inputs longer than the display window"""

          size = 11

          items = [l*size for l in 'abc']

          for row_first in [True, False]:

              out = text.columnize(items, row_first=row_first, displaywidth=size-1)

              nt.assert_equal(out, '\n'.join(items+['']), "row_first={0}".format(row_first))

      def eval_formatter_check(f):

          ns = dict(n=12, pi=math.pi, stuff='hello there', os=os, u=u"café", b="café")

          s = f.format("{n} {n//4} {stuff.split()[0]}", **ns)

          nt.assert_equal(s, "12 3 hello")

          s = f.format(' '.join(['{n//%i}'%i for i in range(1,8)]), **ns)

          nt.assert_equal(s, "12 6 4 3 2 2 1")

          s = f.format('{[n//i for i in range(1,8)]}', **ns)

          nt.assert_equal(s, "[12, 6, 4, 3, 2, 2, 1]")

          s = f.format("{stuff!s}", **ns)

          nt.assert_equal(s, ns['stuff'])

          s = f.format("{stuff!r}", **ns)

          nt.assert_equal(s, repr(ns['stuff']))

          # Check with unicode:

          s = f.format("{u}", **ns)

          nt.assert_equal(s, ns['u'])

          # This decodes in a platform dependent manner, but it shouldn't error out

          s = f.format("{b}", **ns)

          nt.assert_raises(NameError, f.format, '{dne}', **ns)

      def eval_formatter_slicing_check(f):

          ns = dict(n=12, pi=math.pi, stuff='hello there', os=os)

          s = f.format(" {stuff.split()[:]} ", **ns)

          nt.assert_equal(s, " ['hello', 'there'] ")

          s = f.format(" {stuff.split()[::-1]} ", **ns)

          nt.assert_equal(s, " ['there', 'hello'] ")

          s = f.format("{stuff[::2]}", **ns)

          nt.assert_equal(s, ns['stuff'][::2])

          nt.assert_raises(SyntaxError, f.format, "{n:x}", **ns)

      def eval_formatter_no_slicing_check(f):

          ns = dict(n=12, pi=math.pi, stuff='hello there', os=os)

          s = f.format('{n:x} {pi**2:+f}', **ns)

          nt.assert_equal(s, "c +9.869604")

          s = f.format('{stuff[slice(1,4)]}', **ns)

          nt.assert_equal(s, 'ell')

          if sys.version_info >= (3, 4):

              # String formatting has changed in Python 3.4, so this now works.

              s = f.format("{a[:]}", a=[1, 2])

              nt.assert_equal(s, "[1, 2]")

          else:

              nt.assert_raises(SyntaxError, f.format, "{a[:]}")

      def test_eval_formatter():

          f = text.EvalFormatter()

          eval_formatter_check(f)

          eval_formatter_no_slicing_check(f)

      def test_full_eval_formatter():

          f = text.FullEvalFormatter()

          eval_formatter_check(f)

          eval_formatter_slicing_check(f)

      def test_dollar_formatter():

          f = text.DollarFormatter()

          eval_formatter_check(f)

          eval_formatter_slicing_check(f)

          ns = dict(n=12, pi=math.pi, stuff='hello there', os=os)

          s = f.format("$n", **ns)

          nt.assert_equal(s, "12")

          s = f.format("$n.real", **ns)

          nt.assert_equal(s, "12")

          s = f.format("$n/{stuff[:5]}", **ns)

          nt.assert_equal(s, "12/hello")

          s = f.format("$n $$HOME", **ns)

          nt.assert_equal(s, "12 $HOME")

          s = f.format("${foo}", foo="HOME")

          nt.assert_equal(s, "$HOME")

      def test_long_substr():

          data = ['hi']

          nt.assert_equal(text.long_substr(data), 'hi')

      def test_long_substr2():

          data = ['abc', 'abd', 'abf', 'ab']

          nt.assert_equal(text.long_substr(data), 'ab')

      def test_long_substr_empty():

          data = []

          nt.assert_equal(text.long_substr(data), '')

      def test_strip_email():

          src = """\

              >> >>> def f(x):

              >> ...   return x+1

              >> ... 

              >> >>> zz = f(2.5)"""

          cln = """\

      >>> def f(x):

      ...   return x+1

      ... 

      >>> zz = f(2.5)"""

          nt.assert_equal(text.strip_email_quotes(src), cln)

      def test_strip_email2():

          src = '> > > list()'

          cln = 'list()'

          nt.assert_equal(text.strip_email_quotes(src), cln)

      def test_LSString():

          lss = text.LSString("abc\ndef")

          nt.assert_equal(lss.l, ['abc', 'def'])

          nt.assert_equal(lss.s, 'abc def')

          lss = text.LSString(os.getcwd())

          nt.assert_is_instance(lss.p[0], path.path)

      def test_SList():

          sl = text.SList(['a 11', 'b 1', 'a 2'])

          nt.assert_equal(sl.n, 'a 11\nb 1\na 2')

          nt.assert_equal(sl.s, 'a 11 b 1 a 2')

          nt.assert_equal(sl.grep(lambda x: x.startswith('a')), text.SList(['a 11', 'a 2']))

          nt.assert_equal(sl.fields(0), text.SList(['a', 'b', 'a']))

          nt.assert_equal(sl.sort(field=1, nums=True), text.SList(['b 1', 'a 2', 'a 11']))

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				# encoding: utf-8
				"""Tests for IPython.utils.text"""
				from __future__ import print_function

				#-----------------------------------------------------------------------------
				# Copyright (C) 2011 The IPython Development Team
				#
				# Distributed under the terms of the BSD License. The full license is in
				# the file COPYING, distributed as part of this software.
				#-----------------------------------------------------------------------------

				#-----------------------------------------------------------------------------
				# Imports
				#-----------------------------------------------------------------------------

				import os
				import math
				import random
				import sys

				import nose.tools as nt
				import path

				from IPython.utils import text

				#-----------------------------------------------------------------------------
				# Globals
				#-----------------------------------------------------------------------------

				def test_columnize():
				"""Basic columnize tests."""
				size = 5
				items = [l*size for l in 'abcd']

				out = text.columnize(items, displaywidth=80)
				nt.assert_equal(out, 'aaaaa bbbbb ccccc ddddd\n')
				out = text.columnize(items, displaywidth=25)
				nt.assert_equal(out, 'aaaaa ccccc\nbbbbb ddddd\n')
				out = text.columnize(items, displaywidth=12)
				nt.assert_equal(out, 'aaaaa ccccc\nbbbbb ddddd\n')
				out = text.columnize(items, displaywidth=10)
				nt.assert_equal(out, 'aaaaa\nbbbbb\nccccc\nddddd\n')

				out = text.columnize(items, row_first=True, displaywidth=80)
				nt.assert_equal(out, 'aaaaa bbbbb ccccc ddddd\n')
				out = text.columnize(items, row_first=True, displaywidth=25)
				nt.assert_equal(out, 'aaaaa bbbbb\nccccc ddddd\n')
				out = text.columnize(items, row_first=True, displaywidth=12)
				nt.assert_equal(out, 'aaaaa bbbbb\nccccc ddddd\n')
				out = text.columnize(items, row_first=True, displaywidth=10)
				nt.assert_equal(out, 'aaaaa\nbbbbb\nccccc\nddddd\n')

				out = text.columnize(items, displaywidth=40, spread=True)
				nt.assert_equal(out, 'aaaaa bbbbb ccccc ddddd\n')
				out = text.columnize(items, displaywidth=20, spread=True)
				nt.assert_equal(out, 'aaaaa ccccc\nbbbbb ddddd\n')
				out = text.columnize(items, displaywidth=12, spread=True)
				nt.assert_equal(out, 'aaaaa ccccc\nbbbbb ddddd\n')
				out = text.columnize(items, displaywidth=10, spread=True)
				nt.assert_equal(out, 'aaaaa\nbbbbb\nccccc\nddddd\n')


				def test_columnize_random():
				"""Test with random input to hopfully catch edge case """
				for row_first in [True, False]:
				for nitems in [random.randint(2,70) for i in range(2,20)]:
				displaywidth = random.randint(20,200)
				rand_len = [random.randint(2,displaywidth) for i in range(nitems)]
				items = ['x'*l for l in rand_len]
				out = text.columnize(items, row_first=row_first, displaywidth=displaywidth)
				longer_line = max([len(x) for x in out.split('\n')])
				longer_element = max(rand_len)
				if longer_line > displaywidth:
				print("Columnize displayed something lager than displaywidth : %s " % longer_line)
				print("longer element : %s " % longer_element)
				print("displaywidth : %s " % displaywidth)
				print("number of element : %s " % nitems)
				print("size of each element :\n %s" % rand_len)
				assert False, "row_first={0}".format(row_first)

				def test_columnize_medium():
				"""Test with inputs than shouldn't be wider than 80"""
				size = 40
				items = [l*size for l in 'abc']
				for row_first in [True, False]:
				out = text.columnize(items, row_first=row_first, displaywidth=80)
				nt.assert_equal(out, '\n'.join(items+['']), "row_first={0}".format(row_first))

				def test_columnize_long():
				"""Test columnize with inputs longer than the display window"""
				size = 11
				items = [l*size for l in 'abc']
				for row_first in [True, False]:
				out = text.columnize(items, row_first=row_first, displaywidth=size-1)
				nt.assert_equal(out, '\n'.join(items+['']), "row_first={0}".format(row_first))

				def eval_formatter_check(f):
				ns = dict(n=12, pi=math.pi, stuff='hello there', os=os, u=u"café", b="café")
				s = f.format("{n} {n//4} {stuff.split()[0]}", **ns)
				nt.assert_equal(s, "12 3 hello")
				s = f.format(' '.join(['{n//%i}'%i for i in range(1,8)]), **ns)
				nt.assert_equal(s, "12 6 4 3 2 2 1")
				s = f.format('{[n//i for i in range(1,8)]}', **ns)
				nt.assert_equal(s, "[12, 6, 4, 3, 2, 2, 1]")
				s = f.format("{stuff!s}", **ns)
				nt.assert_equal(s, ns['stuff'])
				s = f.format("{stuff!r}", **ns)
				nt.assert_equal(s, repr(ns['stuff']))

				# Check with unicode:
				s = f.format("{u}", **ns)
				nt.assert_equal(s, ns['u'])
				# This decodes in a platform dependent manner, but it shouldn't error out
				s = f.format("{b}", **ns)

				nt.assert_raises(NameError, f.format, '{dne}', **ns)

				def eval_formatter_slicing_check(f):
				ns = dict(n=12, pi=math.pi, stuff='hello there', os=os)
				s = f.format(" {stuff.split()[:]} ", **ns)
				nt.assert_equal(s, " ['hello', 'there'] ")
				s = f.format(" {stuff.split()[::-1]} ", **ns)
				nt.assert_equal(s, " ['there', 'hello'] ")
				s = f.format("{stuff[::2]}", **ns)
				nt.assert_equal(s, ns['stuff'][::2])

				nt.assert_raises(SyntaxError, f.format, "{n:x}", **ns)

				def eval_formatter_no_slicing_check(f):
				ns = dict(n=12, pi=math.pi, stuff='hello there', os=os)

				s = f.format('{n:x} {pi2:+f}', ns)
				nt.assert_equal(s, "c +9.869604")

				s = f.format('{stuff[slice(1,4)]}', **ns)
				nt.assert_equal(s, 'ell')

				if sys.version_info >= (3, 4):
				# String formatting has changed in Python 3.4, so this now works.
				s = f.format("{a[:]}", a=[1, 2])
				nt.assert_equal(s, "[1, 2]")
				else:
				nt.assert_raises(SyntaxError, f.format, "{a[:]}")

				def test_eval_formatter():
				f = text.EvalFormatter()
				eval_formatter_check(f)
				eval_formatter_no_slicing_check(f)

				def test_full_eval_formatter():
				f = text.FullEvalFormatter()
				eval_formatter_check(f)
				eval_formatter_slicing_check(f)

				def test_dollar_formatter():
				f = text.DollarFormatter()
				eval_formatter_check(f)
				eval_formatter_slicing_check(f)

				ns = dict(n=12, pi=math.pi, stuff='hello there', os=os)
				s = f.format("$n", **ns)
				nt.assert_equal(s, "12")
				s = f.format("$n.real", **ns)
				nt.assert_equal(s, "12")
				s = f.format("$n/{stuff[:5]}", **ns)
				nt.assert_equal(s, "12/hello")
				s = f.format("$n $$HOME", **ns)
				nt.assert_equal(s, "12 $HOME")
				s = f.format("${foo}", foo="HOME")
				nt.assert_equal(s, "$HOME")


				def test_long_substr():
				data = ['hi']
				nt.assert_equal(text.long_substr(data), 'hi')


				def test_long_substr2():
				data = ['abc', 'abd', 'abf', 'ab']
				nt.assert_equal(text.long_substr(data), 'ab')

				def test_long_substr_empty():
				data = []
				nt.assert_equal(text.long_substr(data), '')

				def test_strip_email():
				src = """\
				>> >>> def f(x):
				>> ... return x+1
				>> ...
				>> >>> zz = f(2.5)"""
				cln = """\
				>>> def f(x):
				... return x+1
				...
				>>> zz = f(2.5)"""
				nt.assert_equal(text.strip_email_quotes(src), cln)


				def test_strip_email2():
				src = '> > > list()'
				cln = 'list()'
				nt.assert_equal(text.strip_email_quotes(src), cln)

				def test_LSString():
				lss = text.LSString("abc\ndef")
				nt.assert_equal(lss.l, ['abc', 'def'])
				nt.assert_equal(lss.s, 'abc def')
				lss = text.LSString(os.getcwd())
				nt.assert_is_instance(lss.p[0], path.path)

				def test_SList():
				sl = text.SList(['a 11', 'b 1', 'a 2'])
				nt.assert_equal(sl.n, 'a 11\nb 1\na 2')
				nt.assert_equal(sl.s, 'a 11 b 1 a 2')
				nt.assert_equal(sl.grep(lambda x: x.startswith('a')), text.SList(['a 11', 'a 2']))
				nt.assert_equal(sl.fields(0), text.SList(['a', 'b', 'a']))
				nt.assert_equal(sl.sort(field=1, nums=True), text.SList(['b 1', 'a 2', 'a 11']))