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             test_ansi_code_processor.py
        
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      # Standard library imports

      import unittest

      # Local imports

      from IPython.frontend.qt.console.ansi_code_processor import AnsiCodeProcessor

      class TestAnsiCodeProcessor(unittest.TestCase):

          def setUp(self):

              self.processor = AnsiCodeProcessor()

          def test_clear(self):

              """ Do control sequences for clearing the console work?

              """

              string = '\x1b[2J\x1b[K'

              i = -1

              for i, substring in enumerate(self.processor.split_string(string)):

                  if i == 0:

                      self.assertEquals(len(self.processor.actions), 1)

                      action = self.processor.actions[0]

                      self.assertEquals(action.action, 'erase')

                      self.assertEquals(action.area, 'screen')

                      self.assertEquals(action.erase_to, 'all')

                  elif i == 1:

                      self.assertEquals(len(self.processor.actions), 1)

                      action = self.processor.actions[0]

                      self.assertEquals(action.action, 'erase')

                      self.assertEquals(action.area, 'line')

                      self.assertEquals(action.erase_to, 'end')

                  else:

                      self.fail('Too many substrings.')

              self.assertEquals(i, 1, 'Too few substrings.')

          def test_colors(self):

              """ Do basic controls sequences for colors work?

              """

              string = 'first\x1b[34mblue\x1b[0mlast'

              i = -1

              for i, substring in enumerate(self.processor.split_string(string)):

                  if i == 0:

                      self.assertEquals(substring, 'first')

                      self.assertEquals(self.processor.foreground_color, None)

                  elif i == 1:

                      self.assertEquals(substring, 'blue')

                      self.assertEquals(self.processor.foreground_color, 4)

                  elif i == 2:

                      self.assertEquals(substring, 'last')

                      self.assertEquals(self.processor.foreground_color, None)

                  else:

                      self.fail('Too many substrings.')

              self.assertEquals(i, 2, 'Too few substrings.')

          def test_colors_xterm(self):

              """ Do xterm-specific control sequences for colors work?

              """

              string = '\x1b]4;20;rgb:ff/ff/ff\x1b' \

                  '\x1b]4;25;rgbi:1.0/1.0/1.0\x1b'

              substrings = list(self.processor.split_string(string))

              desired = { 20 : (255, 255, 255),

                          25 : (255, 255, 255) }

              self.assertEquals(self.processor.color_map, desired)

              string = '\x1b[38;5;20m\x1b[48;5;25m'

              substrings = list(self.processor.split_string(string))

              self.assertEquals(self.processor.foreground_color, 20)

              self.assertEquals(self.processor.background_color, 25)

          def test_scroll(self):

              """ Do control sequences for scrolling the buffer work?

              """

              string = '\x1b[5S\x1b[T'

              i = -1

              for i, substring in enumerate(self.processor.split_string(string)):

                  if i == 0:

                      self.assertEquals(len(self.processor.actions), 1)

                      action = self.processor.actions[0]

                      self.assertEquals(action.action, 'scroll')

                      self.assertEquals(action.dir, 'up')

                      self.assertEquals(action.unit, 'line')

                      self.assertEquals(action.count, 5)

                  elif i == 1:

                      self.assertEquals(len(self.processor.actions), 1)

                      action = self.processor.actions[0]

                      self.assertEquals(action.action, 'scroll')

                      self.assertEquals(action.dir, 'down')

                      self.assertEquals(action.unit, 'line')

                      self.assertEquals(action.count, 1)

                  else:

                      self.fail('Too many substrings.')

              self.assertEquals(i, 1, 'Too few substrings.')

          def test_formfeed(self):

              """ Are formfeed characters processed correctly?

              """

              string = '\f' # form feed

              self.assertEquals(list(self.processor.split_string(string)), [''])

              self.assertEquals(len(self.processor.actions), 1)

              action = self.processor.actions[0]

              self.assertEquals(action.action, 'scroll')

              self.assertEquals(action.dir, 'down')

              self.assertEquals(action.unit, 'page')

              self.assertEquals(action.count, 1)

          def test_carriage_return(self):

              """ Are carriage return characters processed correctly?

              """

              string = 'foo\rbar' # carriage return

              splits = []

              actions = []

              for split in self.processor.split_string(string):

                  splits.append(split)

                  actions.append([action.action for action in self.processor.actions])

              self.assertEquals(splits, ['foo', None, 'bar'])

              self.assertEquals(actions, [[], ['carriage-return'], []])

          def test_carriage_return_newline(self):

              """transform CRLF to LF"""

              string = 'foo\rbar\r\ncat\r\n\n' # carriage return and newline

              # only one CR action should occur, and '\r\n' should transform to '\n'

              splits = []

              actions = []

              for split in self.processor.split_string(string):

                  splits.append(split)

                  actions.append([action.action for action in self.processor.actions])

              self.assertEquals(splits, ['foo', None, 'bar', '\r\n', 'cat', '\r\n', '\n'])

              self.assertEquals(actions, [[], ['carriage-return'], [], ['newline'], [], ['newline'], ['newline']])

          def test_beep(self):

              """ Are beep characters processed correctly?

              """

              string = 'foo\abar' # bell

              splits = []

              actions = []

              for split in self.processor.split_string(string):

                  splits.append(split)

                  actions.append([action.action for action in self.processor.actions])

              self.assertEquals(splits, ['foo', None, 'bar'])

              self.assertEquals(actions, [[], ['beep'], []])

          def test_backspace(self):

              """ Are backspace characters processed correctly?

              """

              string = 'foo\bbar' # backspace

              splits = []

              actions = []

              for split in self.processor.split_string(string):

                  splits.append(split)

                  actions.append([action.action for action in self.processor.actions])

              self.assertEquals(splits, ['foo', None, 'bar'])

              self.assertEquals(actions, [[], ['backspace'], []])

          def test_combined(self):

              """ Are CR and BS characters processed correctly in combination?

              BS is treated as a change in print position, rather than a

              backwards character deletion.  Therefore a BS at EOL is

              effectively ignored.

              """

              string = 'abc\rdef\b' # CR and backspace

              splits = []

              actions = []

              for split in self.processor.split_string(string):

                  splits.append(split)

                  actions.append([action.action for action in self.processor.actions])

              self.assertEquals(splits, ['abc', None, 'def', None])

              self.assertEquals(actions, [[], ['carriage-return'], [], ['backspace']])

      if __name__ == '__main__':

          unittest.main()

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				# Standard library imports
				import unittest

				# Local imports
				from IPython.frontend.qt.console.ansi_code_processor import AnsiCodeProcessor


				class TestAnsiCodeProcessor(unittest.TestCase):

				def setUp(self):
				self.processor = AnsiCodeProcessor()

				def test_clear(self):
				""" Do control sequences for clearing the console work?
				"""
				string = '\x1b[2J\x1b[K'
				i = -1
				for i, substring in enumerate(self.processor.split_string(string)):
				if i == 0:
				self.assertEquals(len(self.processor.actions), 1)
				action = self.processor.actions[0]
				self.assertEquals(action.action, 'erase')
				self.assertEquals(action.area, 'screen')
				self.assertEquals(action.erase_to, 'all')
				elif i == 1:
				self.assertEquals(len(self.processor.actions), 1)
				action = self.processor.actions[0]
				self.assertEquals(action.action, 'erase')
				self.assertEquals(action.area, 'line')
				self.assertEquals(action.erase_to, 'end')
				else:
				self.fail('Too many substrings.')
				self.assertEquals(i, 1, 'Too few substrings.')

				def test_colors(self):
				""" Do basic controls sequences for colors work?
				"""
				string = 'first\x1b[34mblue\x1b[0mlast'
				i = -1
				for i, substring in enumerate(self.processor.split_string(string)):
				if i == 0:
				self.assertEquals(substring, 'first')
				self.assertEquals(self.processor.foreground_color, None)
				elif i == 1:
				self.assertEquals(substring, 'blue')
				self.assertEquals(self.processor.foreground_color, 4)
				elif i == 2:
				self.assertEquals(substring, 'last')
				self.assertEquals(self.processor.foreground_color, None)
				else:
				self.fail('Too many substrings.')
				self.assertEquals(i, 2, 'Too few substrings.')

				def test_colors_xterm(self):
				""" Do xterm-specific control sequences for colors work?
				"""
				string = '\x1b]4;20;rgb:ff/ff/ff\x1b' \
				'\x1b]4;25;rgbi:1.0/1.0/1.0\x1b'
				substrings = list(self.processor.split_string(string))
				desired = { 20 : (255, 255, 255),
				25 : (255, 255, 255) }
				self.assertEquals(self.processor.color_map, desired)

				string = '\x1b[38;5;20m\x1b[48;5;25m'
				substrings = list(self.processor.split_string(string))
				self.assertEquals(self.processor.foreground_color, 20)
				self.assertEquals(self.processor.background_color, 25)

				def test_scroll(self):
				""" Do control sequences for scrolling the buffer work?
				"""
				string = '\x1b[5S\x1b[T'
				i = -1
				for i, substring in enumerate(self.processor.split_string(string)):
				if i == 0:
				self.assertEquals(len(self.processor.actions), 1)
				action = self.processor.actions[0]
				self.assertEquals(action.action, 'scroll')
				self.assertEquals(action.dir, 'up')
				self.assertEquals(action.unit, 'line')
				self.assertEquals(action.count, 5)
				elif i == 1:
				self.assertEquals(len(self.processor.actions), 1)
				action = self.processor.actions[0]
				self.assertEquals(action.action, 'scroll')
				self.assertEquals(action.dir, 'down')
				self.assertEquals(action.unit, 'line')
				self.assertEquals(action.count, 1)
				else:
				self.fail('Too many substrings.')
				self.assertEquals(i, 1, 'Too few substrings.')

				def test_formfeed(self):
				""" Are formfeed characters processed correctly?
				"""
				string = '\f' # form feed
				self.assertEquals(list(self.processor.split_string(string)), [''])
				self.assertEquals(len(self.processor.actions), 1)
				action = self.processor.actions[0]
				self.assertEquals(action.action, 'scroll')
				self.assertEquals(action.dir, 'down')
				self.assertEquals(action.unit, 'page')
				self.assertEquals(action.count, 1)

				def test_carriage_return(self):
				""" Are carriage return characters processed correctly?
				"""
				string = 'foo\rbar' # carriage return
				splits = []
				actions = []
				for split in self.processor.split_string(string):
				splits.append(split)
				actions.append([action.action for action in self.processor.actions])
				self.assertEquals(splits, ['foo', None, 'bar'])
				self.assertEquals(actions, [[], ['carriage-return'], []])

				def test_carriage_return_newline(self):
				"""transform CRLF to LF"""
				string = 'foo\rbar\r\ncat\r\n\n' # carriage return and newline
				# only one CR action should occur, and '\r\n' should transform to '\n'
				splits = []
				actions = []
				for split in self.processor.split_string(string):
				splits.append(split)
				actions.append([action.action for action in self.processor.actions])
				self.assertEquals(splits, ['foo', None, 'bar', '\r\n', 'cat', '\r\n', '\n'])
				self.assertEquals(actions, [[], ['carriage-return'], [], ['newline'], [], ['newline'], ['newline']])

				def test_beep(self):
				""" Are beep characters processed correctly?
				"""
				string = 'foo\abar' # bell
				splits = []
				actions = []
				for split in self.processor.split_string(string):
				splits.append(split)
				actions.append([action.action for action in self.processor.actions])
				self.assertEquals(splits, ['foo', None, 'bar'])
				self.assertEquals(actions, [[], ['beep'], []])

				def test_backspace(self):
				""" Are backspace characters processed correctly?
				"""
				string = 'foo\bbar' # backspace
				splits = []
				actions = []
				for split in self.processor.split_string(string):
				splits.append(split)
				actions.append([action.action for action in self.processor.actions])
				self.assertEquals(splits, ['foo', None, 'bar'])
				self.assertEquals(actions, [[], ['backspace'], []])

				def test_combined(self):
				""" Are CR and BS characters processed correctly in combination?

				BS is treated as a change in print position, rather than a
				backwards character deletion. Therefore a BS at EOL is
				effectively ignored.
				"""
				string = 'abc\rdef\b' # CR and backspace
				splits = []
				actions = []
				for split in self.processor.split_string(string):
				splits.append(split)
				actions.append([action.action for action in self.processor.actions])
				self.assertEquals(splits, ['abc', None, 'def', None])
				self.assertEquals(actions, [[], ['carriage-return'], [], ['backspace']])


				if __name__ == '__main__':
				unittest.main()