upstream/ipython Files · IPython/core/tests/test_formatters.py

Fixed order of notebook loading and kernel starting....

Fixed order of notebook loading and kernel starting. For security reasons, the kernel should not be started until after the notebook content is completely loaded and on the page. This prevents people from creating notebooks that run nasty code on the users machine at load time. In order to implement this, we had to create a CodeCell.set_kernel method that allows the kernel attribute of a CodeCell to be set at a later time. This also fixes some error messages we were seeing related to the kernel's channels not being setup properly when a send was attempted.

Robert Kern - - Load All Authors

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             test_formatters.py
        
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      """Tests for the Formatters.

      """

      from math import pi

      try:

          import numpy

      except:

          numpy = None

      import nose.tools as nt

      from IPython.core.formatters import FormatterABC, PlainTextFormatter

      from IPython.lib import pretty

      class A(object):

          def __repr__(self):

              return 'A()'

      class B(A):

          def __repr__(self):

              return 'B()'

      class BadPretty(object):

          _repr_pretty_ = None

      class GoodPretty(object):

          def _repr_pretty_(self, pp, cycle):

              pp.text('foo')

          def __repr__(self):

              return 'GoodPretty()'

      def foo_printer(obj, pp, cycle):

          pp.text('foo')

      def test_pretty():

          f = PlainTextFormatter()

          f.for_type(A, foo_printer)

          nt.assert_equals(f(A()), 'foo')

          nt.assert_equals(f(B()), 'foo')

          nt.assert_equals(f(GoodPretty()), 'foo')

          # Just don't raise an exception for the following:

          f(BadPretty())

          f.pprint = False

          nt.assert_equals(f(A()), 'A()')

          nt.assert_equals(f(B()), 'B()')

          nt.assert_equals(f(GoodPretty()), 'GoodPretty()')

      def test_deferred():

          f = PlainTextFormatter()

      def test_precision():

          """test various values for float_precision."""

          f = PlainTextFormatter()

          nt.assert_equals(f(pi), repr(pi))

          f.float_precision = 0

          if numpy:

              po = numpy.get_printoptions()

              nt.assert_equals(po['precision'], 0)

          nt.assert_equals(f(pi), '3')

          f.float_precision = 2

          if numpy:

              po = numpy.get_printoptions()

              nt.assert_equals(po['precision'], 2)

          nt.assert_equals(f(pi), '3.14')

          f.float_precision = '%g'

          if numpy:

              po = numpy.get_printoptions()

              nt.assert_equals(po['precision'], 2)

          nt.assert_equals(f(pi), '3.14159')

          f.float_precision = '%e'

          nt.assert_equals(f(pi), '3.141593e+00')

          f.float_precision = ''

          if numpy:

              po = numpy.get_printoptions()

              nt.assert_equals(po['precision'], 8)

          nt.assert_equals(f(pi), repr(pi))

      def test_bad_precision():

          """test various invalid values for float_precision."""

          f = PlainTextFormatter()

          def set_fp(p):

              f.float_precision=p

          nt.assert_raises(ValueError, set_fp, '%')

          nt.assert_raises(ValueError, set_fp, '%.3f%i')

          nt.assert_raises(ValueError, set_fp, 'foo')

          nt.assert_raises(ValueError, set_fp, -1)

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				"""Tests for the Formatters.
				"""

				from math import pi

				try:
				import numpy
				except:
				numpy = None
				import nose.tools as nt

				from IPython.core.formatters import FormatterABC, PlainTextFormatter
				from IPython.lib import pretty

				class A(object):
				def __repr__(self):
				return 'A()'

				class B(A):
				def __repr__(self):
				return 'B()'

				class BadPretty(object):
				_repr_pretty_ = None

				class GoodPretty(object):
				def _repr_pretty_(self, pp, cycle):
				pp.text('foo')

				def __repr__(self):
				return 'GoodPretty()'

				def foo_printer(obj, pp, cycle):
				pp.text('foo')

				def test_pretty():
				f = PlainTextFormatter()
				f.for_type(A, foo_printer)
				nt.assert_equals(f(A()), 'foo')
				nt.assert_equals(f(B()), 'foo')
				nt.assert_equals(f(GoodPretty()), 'foo')
				# Just don't raise an exception for the following:
				f(BadPretty())

				f.pprint = False
				nt.assert_equals(f(A()), 'A()')
				nt.assert_equals(f(B()), 'B()')
				nt.assert_equals(f(GoodPretty()), 'GoodPretty()')


				def test_deferred():
				f = PlainTextFormatter()

				def test_precision():
				"""test various values for float_precision."""
				f = PlainTextFormatter()
				nt.assert_equals(f(pi), repr(pi))
				f.float_precision = 0
				if numpy:
				po = numpy.get_printoptions()
				nt.assert_equals(po['precision'], 0)
				nt.assert_equals(f(pi), '3')
				f.float_precision = 2
				if numpy:
				po = numpy.get_printoptions()
				nt.assert_equals(po['precision'], 2)
				nt.assert_equals(f(pi), '3.14')
				f.float_precision = '%g'
				if numpy:
				po = numpy.get_printoptions()
				nt.assert_equals(po['precision'], 2)
				nt.assert_equals(f(pi), '3.14159')
				f.float_precision = '%e'
				nt.assert_equals(f(pi), '3.141593e+00')
				f.float_precision = ''
				if numpy:
				po = numpy.get_printoptions()
				nt.assert_equals(po['precision'], 8)
				nt.assert_equals(f(pi), repr(pi))

				def test_bad_precision():
				"""test various invalid values for float_precision."""
				f = PlainTextFormatter()
				def set_fp(p):
				f.float_precision=p
				nt.assert_raises(ValueError, set_fp, '%')
				nt.assert_raises(ValueError, set_fp, '%.3f%i')
				nt.assert_raises(ValueError, set_fp, 'foo')
				nt.assert_raises(ValueError, set_fp, -1)