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

Make heartmonitor.Heart monitorable...

Make heartmonitor.Heart monitorable If a mon_addr is given, send any ping to this zmq socket. This can be used to monitor the heartbeat on the engine side to check if the cluster controller is still active. Also correct the code on __main__ to work (for testing purpose). Signed-off-by: Jan Schulz <jasc@gmx.net>

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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_equal(f(A()), 'foo')

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

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

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

          f(BadPretty())

          f.pprint = False

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

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

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

      def test_deferred():

          f = PlainTextFormatter()

      def test_precision():

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

          f = PlainTextFormatter()

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

          f.float_precision = 0

          if numpy:

              po = numpy.get_printoptions()

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

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

          f.float_precision = 2

          if numpy:

              po = numpy.get_printoptions()

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

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

          f.float_precision = '%g'

          if numpy:

              po = numpy.get_printoptions()

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

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

          f.float_precision = '%e'

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

          f.float_precision = ''

          if numpy:

              po = numpy.get_printoptions()

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

          nt.assert_equal(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_equal(f(A()), 'foo')
				nt.assert_equal(f(B()), 'foo')
				nt.assert_equal(f(GoodPretty()), 'foo')
				# Just don't raise an exception for the following:
				f(BadPretty())

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


				def test_deferred():
				f = PlainTextFormatter()

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