upstream/ipython Files · IPython/extensions/tests/test_octavemagic.py

Added functionality to %R and %octave magics so that -i first looks in local...

Added functionality to %R and %octave magics so that -i first looks in local scope before looking in user_ns. This allows the magics to be called from within functions. Also Modified @needs_local_scope decorator for magic extensions to use a kwarg with the local namespace, so functions now get a separate kward local_ns, e.g. def magic_function(line, cell=None, local_ns=None): ...

Guy Haskin Fernald - - Load All Authors

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      """Tests for Octave magics extension."""

      import nose.tools as nt

      try:

          import oct2py

          import numpy as np

          import numpy.testing as npt

          from IPython.extensions import octavemagic

      except Exception as e:

          __test__ = False

      global octave

      def setup():

          ip = get_ipython()

          global octave

          octave = octavemagic.OctaveMagics(ip)

          ip.register_magics(octave)

          ip.ex('import numpy as np')

      def test_octave_inline():

          ip = get_ipython()

          result = ip.run_line_magic('octave', '[1, 2, 3] + 1;')

          npt.assert_array_equal(result, [[2, 3, 4]])

      def test_octave_roundtrip():

          ip = get_ipython()

          ip.ex('x = np.arange(3); y = 4.5')

          ip.run_line_magic('octave_push', 'x y')

          ip.run_line_magic('octave', 'x = x + 1; y = y + 1;')

          ip.run_line_magic('octave_pull', 'x y')

          npt.assert_array_equal(ip.user_ns['x'], [[1, 2, 3]])

          nt.assert_equal(ip.user_ns['y'], 5.5)

      def test_octave_cell_magic():

          ip = get_ipython()

          ip.ex('x = 3; y = [1, 2]')

          ip.run_cell_magic('octave', '-f png -s 400,400 -i x,y -o z',

                            'z = x + y;')

          npt.assert_array_equal(ip.user_ns['z'], [[4, 5]])

      def verify_publish_data(source, data):

          if 'image/svg+xml' in data:

              svg = data['image/svg+xml']

              assert 'height="500px"' in svg

              assert 'width="400px"' in svg

              test_octave_plot.svgs_generated += 1

      def test_octave_plot():

          octave._publish_display_data = verify_publish_data

          test_octave_plot.svgs_generated = 0

          ip = get_ipython()

          ip.run_cell_magic('octave', '-f svg -s 400,500',

                            'plot([1, 2, 3]); figure; plot([4, 5, 6]);')

          nt.assert_equal(test_octave_plot.svgs_generated, 2)

      def test_octavemagic_localscope():

          ip = get_ipython()

          ip.magic('load_ext octavemagic')

          ip.push({'x':0})

          ip.run_line_magic('octave', '-i x -o result result = x+1')

          result = ip.user_ns['result']

          nt.assert_equal(result, 1)

          ip.run_cell('''def octavemagic_addone(u):

          %octave -i u -o result result = u+1

          return result''')

          ip.run_cell('result = octavemagic_addone(1)')

          result = ip.user_ns['result']

          nt.assert_equal(result, 2)

          nt.assert_raises(

              KeyError,

              ip.run_line_magic,

              "octave",

              "-i var_not_defined 1+1")

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				"""Tests for Octave magics extension."""

				import nose.tools as nt

				try:
				import oct2py
				import numpy as np
				import numpy.testing as npt

				from IPython.extensions import octavemagic
				except Exception as e:
				__test__ = False

				global octave

				def setup():
				ip = get_ipython()
				global octave

				octave = octavemagic.OctaveMagics(ip)
				ip.register_magics(octave)

				ip.ex('import numpy as np')

				def test_octave_inline():
				ip = get_ipython()
				result = ip.run_line_magic('octave', '[1, 2, 3] + 1;')
				npt.assert_array_equal(result, [[2, 3, 4]])

				def test_octave_roundtrip():
				ip = get_ipython()
				ip.ex('x = np.arange(3); y = 4.5')
				ip.run_line_magic('octave_push', 'x y')
				ip.run_line_magic('octave', 'x = x + 1; y = y + 1;')
				ip.run_line_magic('octave_pull', 'x y')

				npt.assert_array_equal(ip.user_ns['x'], [[1, 2, 3]])
				nt.assert_equal(ip.user_ns['y'], 5.5)

				def test_octave_cell_magic():
				ip = get_ipython()
				ip.ex('x = 3; y = [1, 2]')
				ip.run_cell_magic('octave', '-f png -s 400,400 -i x,y -o z',
				'z = x + y;')
				npt.assert_array_equal(ip.user_ns['z'], [[4, 5]])


				def verify_publish_data(source, data):
				if 'image/svg+xml' in data:
				svg = data['image/svg+xml']
				assert 'height="500px"' in svg
				assert 'width="400px"' in svg

				test_octave_plot.svgs_generated += 1

				def test_octave_plot():
				octave._publish_display_data = verify_publish_data
				test_octave_plot.svgs_generated = 0

				ip = get_ipython()
				ip.run_cell_magic('octave', '-f svg -s 400,500',
				'plot([1, 2, 3]); figure; plot([4, 5, 6]);')

				nt.assert_equal(test_octave_plot.svgs_generated, 2)

				def test_octavemagic_localscope():
				ip = get_ipython()
				ip.magic('load_ext octavemagic')
				ip.push({'x':0})
				ip.run_line_magic('octave', '-i x -o result result = x+1')
				result = ip.user_ns['result']
				nt.assert_equal(result, 1)

				ip.run_cell('''def octavemagic_addone(u):
				%octave -i u -o result result = u+1
				return result''')
				ip.run_cell('result = octavemagic_addone(1)')
				result = ip.user_ns['result']
				nt.assert_equal(result, 2)

				nt.assert_raises(
				KeyError,
				ip.run_line_magic,
				"octave",
				"-i var_not_defined 1+1")