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

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go to appropriate line when coming from another cell Sets the cursor on the last line of the cell when moved up from the top of the cell below, and sets the cursors to the first line when moving down from the bottom of a last line. Here, we retain the character that the cursor was on, so that users wishing to have up-down functionality like one document can still use this shortcut handler and simple adjust the at_top and at_bottom methods

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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")