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

ensure a fallback exists, so use local std{in,out,err}...

ensure a fallback exists, so use local std{in,out,err} Since IOStream instances require a valid fallback stream, use the locally defined std{in,out,err} instead of sys.std{in,out,err} in IOTerm's __init__ method. Note that the local std{in,out,err} are IOStream instances as well, that fall back to os.devnull

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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)