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

Switch correctly to the user's default matplotlib backend after inline....

Switch correctly to the user's default matplotlib backend after inline. If '%matplotlib inline' was called first, we'd incorrectly revert to inline when plain '%matplotlib' was called, instead of loading the user's default GUI. If the user called '%matplotlib' first (without 'inline') it worked correctly, but not in the other order. The fix is to read the backend from the original defaults, not from the runtime data structure.

Thomas Kluyver - - Load All Authors

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      from StringIO import StringIO

      import numpy as np

      from IPython.testing.decorators import skip_without

      from IPython.extensions import rmagic

      from rpy2 import rinterface

      import nose.tools as nt

      ip = get_ipython()

      ip.magic('load_ext rmagic')

      def test_push():

          rm = rmagic.RMagics(ip)

          ip.push({'X':np.arange(5), 'Y':np.array([3,5,4,6,7])})

          ip.run_line_magic('Rpush', 'X Y')

          np.testing.assert_almost_equal(np.asarray(rm.r('X')), ip.user_ns['X'])

          np.testing.assert_almost_equal(np.asarray(rm.r('Y')), ip.user_ns['Y'])

      def test_push_localscope():

          """Test that Rpush looks for variables in the local scope first."""

          ip.run_cell('''

      def rmagic_addone(u):

          %Rpush u

          %R result = u+1

          %Rpull result

          return result[0]

      u = 0

      result = rmagic_addone(12344)

          ''')

          result = ip.user_ns['result']

          np.testing.assert_equal(result, 12345)

      @skip_without('pandas')

      def test_push_dataframe():

          from pandas import DataFrame

          rm = rmagic.RMagics(ip)

          df = DataFrame([{'a': 1, 'b': 'bar'}, {'a': 5, 'b': 'foo', 'c': 20}])

          ip.push({'df':df})

          ip.run_line_magic('Rpush', 'df')

          # This is converted to factors, which are currently converted back to Python

          # as integers, so for now we test its representation in R.

          sio = StringIO()

          rinterface.set_writeconsole(sio.write)

          try:

              rm.r('print(df$b[1])')

              nt.assert_in('[1] bar', sio.getvalue())

          finally:

              rinterface.set_writeconsole(None)

          # Values come packaged in arrays, so we unbox them to test.

          nt.assert_equal(rm.r('df$a[2]')[0], 5)

          missing = rm.r('df$c[1]')[0]

          assert np.isnan(missing), missing

      def test_pull():

          rm = rmagic.RMagics(ip)

          rm.r('Z=c(11:20)')

          ip.run_line_magic('Rpull', 'Z')

          np.testing.assert_almost_equal(np.asarray(rm.r('Z')), ip.user_ns['Z'])

          np.testing.assert_almost_equal(ip.user_ns['Z'], np.arange(11,21))

      def test_Rconverter():

          datapy= np.array([(1, 2.9, 'a'), (2, 3.5, 'b'), (3, 2.1, 'c')], 

                dtype=[('x', '<i4'), ('y', '<f8'), ('z', '|S1')])

          ip.user_ns['datapy'] = datapy

          ip.run_line_magic('Rpush', 'datapy')

          # test to see if a copy is being made

          v = ip.run_line_magic('Rget', '-d datapy')

          w = ip.run_line_magic('Rget', '-d datapy')

          np.testing.assert_almost_equal(w['x'], v['x'])

          np.testing.assert_almost_equal(w['y'], v['y'])

          nt.assert_true(np.all(w['z'] == v['z']))

          np.testing.assert_equal(id(w.data), id(v.data))

          nt.assert_equal(w.dtype, v.dtype)

          ip.run_cell_magic('R', ' -d datar', 'datar=datapy')

          u = ip.run_line_magic('Rget', ' -d datar')

          np.testing.assert_almost_equal(u['x'], v['x'])

          np.testing.assert_almost_equal(u['y'], v['y'])

          nt.assert_true(np.all(u['z'] == v['z']))

          np.testing.assert_equal(id(u.data), id(v.data))

          nt.assert_equal(u.dtype, v.dtype)

      def test_cell_magic():

          ip.push({'x':np.arange(5), 'y':np.array([3,5,4,6,7])})

          snippet = '''

          print(summary(a))

          plot(x, y, pch=23, bg='orange', cex=2)

          plot(x, x)

          print(summary(x))

          r = resid(a)

          xc = coef(a)

          '''

          ip.run_cell_magic('R', '-i x,y -o r,xc -w 150 -u mm a=lm(y~x)', snippet)

          np.testing.assert_almost_equal(ip.user_ns['xc'], [3.2, 0.9])

          np.testing.assert_almost_equal(ip.user_ns['r'], np.array([-0.2,  0.9, -1. ,  0.1,  0.2]))

      def test_rmagic_localscope():

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

          ip.run_line_magic('R', '-i x -o result result <-x+1')

          result = ip.user_ns['result']

          nt.assert_equal(result[0], 1)

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

          %R -i u -o result result <- u+1

          return result[0]''')

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

          result = ip.user_ns['result']

          nt.assert_equal(result, 2)

          nt.assert_raises(

              NameError,

              ip.run_line_magic,

              "R",

              "-i var_not_defined 1+1")

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				from StringIO import StringIO

				import numpy as np
				from IPython.testing.decorators import skip_without
				from IPython.extensions import rmagic
				from rpy2 import rinterface
				import nose.tools as nt

				ip = get_ipython()
				ip.magic('load_ext rmagic')


				def test_push():
				rm = rmagic.RMagics(ip)
				ip.push({'X':np.arange(5), 'Y':np.array([3,5,4,6,7])})
				ip.run_line_magic('Rpush', 'X Y')
				np.testing.assert_almost_equal(np.asarray(rm.r('X')), ip.user_ns['X'])
				np.testing.assert_almost_equal(np.asarray(rm.r('Y')), ip.user_ns['Y'])

				def test_push_localscope():
				"""Test that Rpush looks for variables in the local scope first."""
				ip.run_cell('''
				def rmagic_addone(u):
				%Rpush u
				%R result = u+1
				%Rpull result
				return result[0]
				u = 0
				result = rmagic_addone(12344)
				''')
				result = ip.user_ns['result']
				np.testing.assert_equal(result, 12345)

				@skip_without('pandas')
				def test_push_dataframe():
				from pandas import DataFrame
				rm = rmagic.RMagics(ip)
				df = DataFrame([{'a': 1, 'b': 'bar'}, {'a': 5, 'b': 'foo', 'c': 20}])
				ip.push({'df':df})
				ip.run_line_magic('Rpush', 'df')

				# This is converted to factors, which are currently converted back to Python
				# as integers, so for now we test its representation in R.
				sio = StringIO()
				rinterface.set_writeconsole(sio.write)
				try:
				rm.r('print(df$b[1])')
				nt.assert_in('[1] bar', sio.getvalue())
				finally:
				rinterface.set_writeconsole(None)

				# Values come packaged in arrays, so we unbox them to test.
				nt.assert_equal(rm.r('df$a[2]')[0], 5)
				missing = rm.r('df$c[1]')[0]
				assert np.isnan(missing), missing

				def test_pull():
				rm = rmagic.RMagics(ip)
				rm.r('Z=c(11:20)')
				ip.run_line_magic('Rpull', 'Z')
				np.testing.assert_almost_equal(np.asarray(rm.r('Z')), ip.user_ns['Z'])
				np.testing.assert_almost_equal(ip.user_ns['Z'], np.arange(11,21))

				def test_Rconverter():
				datapy= np.array([(1, 2.9, 'a'), (2, 3.5, 'b'), (3, 2.1, 'c')],
				dtype=[('x', '<i4'), ('y', '<f8'), ('z', '\|S1')])
				ip.user_ns['datapy'] = datapy
				ip.run_line_magic('Rpush', 'datapy')

				# test to see if a copy is being made
				v = ip.run_line_magic('Rget', '-d datapy')
				w = ip.run_line_magic('Rget', '-d datapy')
				np.testing.assert_almost_equal(w['x'], v['x'])
				np.testing.assert_almost_equal(w['y'], v['y'])
				nt.assert_true(np.all(w['z'] == v['z']))
				np.testing.assert_equal(id(w.data), id(v.data))
				nt.assert_equal(w.dtype, v.dtype)

				ip.run_cell_magic('R', ' -d datar', 'datar=datapy')

				u = ip.run_line_magic('Rget', ' -d datar')
				np.testing.assert_almost_equal(u['x'], v['x'])
				np.testing.assert_almost_equal(u['y'], v['y'])
				nt.assert_true(np.all(u['z'] == v['z']))
				np.testing.assert_equal(id(u.data), id(v.data))
				nt.assert_equal(u.dtype, v.dtype)


				def test_cell_magic():

				ip.push({'x':np.arange(5), 'y':np.array([3,5,4,6,7])})
				snippet = '''
				print(summary(a))
				plot(x, y, pch=23, bg='orange', cex=2)
				plot(x, x)
				print(summary(x))
				r = resid(a)
				xc = coef(a)
				'''
				ip.run_cell_magic('R', '-i x,y -o r,xc -w 150 -u mm a=lm(y~x)', snippet)
				np.testing.assert_almost_equal(ip.user_ns['xc'], [3.2, 0.9])
				np.testing.assert_almost_equal(ip.user_ns['r'], np.array([-0.2, 0.9, -1. , 0.1, 0.2]))


				def test_rmagic_localscope():
				ip.push({'x':0})
				ip.run_line_magic('R', '-i x -o result result <-x+1')
				result = ip.user_ns['result']
				nt.assert_equal(result[0], 1)

				ip.run_cell('''def rmagic_addone(u):
				%R -i u -o result result <- u+1
				return result[0]''')
				ip.run_cell('result = rmagic_addone(1)')
				result = ip.user_ns['result']
				nt.assert_equal(result, 2)

				nt.assert_raises(
				NameError,
				ip.run_line_magic,
				"R",
				"-i var_not_defined 1+1")