upstream/ipython Commit - r20105:c947c7c9

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# -*- coding: utf-8 -*-

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# -*- coding: utf-8 -*-

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"""

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"""

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Defines a variety of Pygments lexers for highlighting IPython code.

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Defines a variety of Pygments lexers for highlighting IPython code.

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This includes:

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This includes:

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IPythonLexer, IPython3Lexer

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IPythonLexer, IPython3Lexer

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Lexers for pure IPython (python + magic/shell commands)

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Lexers for pure IPython (python + magic/shell commands)

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IPythonPartialTracebackLexer, IPythonTracebackLexer

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IPythonPartialTracebackLexer, IPythonTracebackLexer

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Supports 2.x and 3.x via keyword `python3`. The partial traceback

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Supports 2.x and 3.x via keyword `python3`. The partial traceback

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lexer reads everything but the Python code appearing in a traceback.

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lexer reads everything but the Python code appearing in a traceback.

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The full lexer combines the partial lexer with an IPython lexer.

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The full lexer combines the partial lexer with an IPython lexer.

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IPythonConsoleLexer

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IPythonConsoleLexer

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A lexer for IPython console sessions, with support for tracebacks.

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A lexer for IPython console sessions, with support for tracebacks.

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IPyLexer

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IPyLexer

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A friendly lexer which examines the first line of text and from it,

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A friendly lexer which examines the first line of text and from it,

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decides whether to use an IPython lexer or an IPython console lexer.

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decides whether to use an IPython lexer or an IPython console lexer.

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This is probably the only lexer that needs to be explicitly added

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This is probably the only lexer that needs to be explicitly added

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to Pygments.

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to Pygments.

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"""

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"""

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#-----------------------------------------------------------------------------

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#-----------------------------------------------------------------------------

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#

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#

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# Distributed under the terms of the Modified BSD License.

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# Distributed under the terms of the Modified BSD License.

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#

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#

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# The full license is in the file COPYING.txt, distributed with this software.

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# The full license is in the file COPYING.txt, distributed with this software.

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#-----------------------------------------------------------------------------

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#-----------------------------------------------------------------------------

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# Standard library

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# Standard library

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import re

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import re

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# Third party

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# Third party

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from pygments.lexers import BashLexer, PythonLexer, Python3Lexer

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from pygments.lexers import BashLexer, PythonLexer, Python3Lexer

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from pygments.lexer import (

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from pygments.lexer import (

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Lexer, DelegatingLexer, RegexLexer, do_insertions, bygroups, using,

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Lexer, DelegatingLexer, RegexLexer, do_insertions, bygroups, using,

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)

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)

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from pygments.token import (

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from pygments.token import (

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Comment, Generic, Keyword, Literal, Name, Operator, Other, Text, Error,

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Comment, Generic, Keyword, Literal, Name, Operator, Other, Text, Error,

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)

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)

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from pygments.util import get_bool_opt

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from pygments.util import get_bool_opt

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# Local

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# Local

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from IPython.testing.skipdoctest import skip_doctest

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from IPython.testing.skipdoctest import skip_doctest

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line_re = re.compile('.*?\n')

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line_re = re.compile('.*?\n')

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ipython_tokens = [

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ipython_tokens = [

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(r'(\%~~+)(\w+)\s+(\~~.*)(\n)', bygroups(Operator, Keyword,

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(r'(%)(sx|sc|system)(.*)(\n)', bygroups(Operator, Keyword,

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using(BashLexer), Text)),

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using(BashLexer), Text)),

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(r'(\~~%+)(~~\~~w+)\b~~', bygroups(Operator, Keyword)),

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(r'(%)(\w+)(.*\n)', bygroups(Operator, Keyword, Text)),

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(r'^(!)(.+)(\n)', bygroups(Operator, using(BashLexer), Text)),

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(r'^(!)(.+)(\n)', bygroups(Operator, using(BashLexer), Text)),

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(r'^(.+)(=)(\s*)(!)(.+)(\n)', bygroups(

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(r'^(.+)(=)(\s*)(!)(.+)(\n)', bygroups(

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# With the limited syntax allowed on the l.h.s. of a shell capture,

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# With the limited syntax allowed on the l.h.s. of a shell capture,

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# we don't need to differentiate between Python 2 and 3.

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# we don't need to differentiate between Python 2 and 3.

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using(Python3Lexer), Operator, Text, Operator, using(BashLexer), Text)),

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using(Python3Lexer), Operator, Text, Operator, using(BashLexer), Text)),

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]

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]

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def build_ipy_lexer(python3):

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def build_ipy_lexer(python3):

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"""Builds IPython lexers depending on the value of `python3`.

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"""Builds IPython lexers depending on the value of `python3`.

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The lexer inherits from an appropriate Python lexer and then adds

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The lexer inherits from an appropriate Python lexer and then adds

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information about IPython specific keywords (i.e. magic commands,

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information about IPython specific keywords (i.e. magic commands,

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shell commands, etc.)

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shell commands, etc.)

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Parameters

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Parameters

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----------

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----------

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python3 : bool

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python3 : bool

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If `True`, then build an IPython lexer from a Python 3 lexer.

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If `True`, then build an IPython lexer from a Python 3 lexer.

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"""

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"""

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# It would be nice to have a single IPython lexer class which takes

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# It would be nice to have a single IPython lexer class which takes

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# a boolean `python3`. But since there are two Python lexer classes,

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# a boolean `python3`. But since there are two Python lexer classes,

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# we will also have two IPython lexer classes.

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# we will also have two IPython lexer classes.

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if python3:

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if python3:

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PyLexer = Python3Lexer

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PyLexer = Python3Lexer

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clsname = 'IPython3Lexer'

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clsname = 'IPython3Lexer'

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name = 'IPython3'

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name = 'IPython3'

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aliases = ['ipython3']

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aliases = ['ipython3']

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doc = """IPython3 Lexer"""

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doc = """IPython3 Lexer"""

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else:

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else:

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PyLexer = PythonLexer

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PyLexer = PythonLexer

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clsname = 'IPythonLexer'

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clsname = 'IPythonLexer'

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name = 'IPython'

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name = 'IPython'

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aliases = ['ipython2', 'ipython']

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aliases = ['ipython2', 'ipython']

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doc = """IPython Lexer"""

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doc = """IPython Lexer"""

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tokens = PyLexer.tokens.copy()

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tokens = PyLexer.tokens.copy()

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tokens['root'] = ipython_tokens + tokens['root']

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tokens['root'] = ipython_tokens + tokens['root']

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attrs = {'name': name, 'aliases': aliases,

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attrs = {'name': name, 'aliases': aliases,

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'__doc__': doc, 'tokens': tokens}

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'__doc__': doc, 'tokens': tokens}

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return type(name, (PyLexer,), attrs)

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return type(name, (PyLexer,), attrs)

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IPython3Lexer = build_ipy_lexer(python3=True)

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IPython3Lexer = build_ipy_lexer(python3=True)

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IPythonLexer = build_ipy_lexer(python3=False)

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IPythonLexer = build_ipy_lexer(python3=False)

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class IPythonPartialTracebackLexer(RegexLexer):

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class IPythonPartialTracebackLexer(RegexLexer):

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"""

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"""

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Partial lexer for IPython tracebacks.

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Partial lexer for IPython tracebacks.

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Handles all the non-python output. This works for both Python 2.x and 3.x.

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Handles all the non-python output. This works for both Python 2.x and 3.x.

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"""

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"""

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name = 'IPython Partial Traceback'

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name = 'IPython Partial Traceback'

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tokens = {

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tokens = {

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'root': [

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'root': [

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# Tracebacks for syntax errors have a different style.

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# Tracebacks for syntax errors have a different style.

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# For both types of tracebacks, we mark the first line with

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# For both types of tracebacks, we mark the first line with

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# Generic.Traceback. For syntax errors, we mark the filename

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# Generic.Traceback. For syntax errors, we mark the filename

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# as we mark the filenames for non-syntax tracebacks.

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# as we mark the filenames for non-syntax tracebacks.

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#

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#

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# These two regexps define how IPythonConsoleLexer finds a

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# These two regexps define how IPythonConsoleLexer finds a

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# traceback.

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# traceback.

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#

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#

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## Non-syntax traceback

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## Non-syntax traceback

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(r'^(\^C)?(-+\n)', bygroups(Error, Generic.Traceback)),

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(r'^(\^C)?(-+\n)', bygroups(Error, Generic.Traceback)),

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## Syntax traceback

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## Syntax traceback

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(r'^( File)(.*)(, line )(\d+\n)',

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(r'^( File)(.*)(, line )(\d+\n)',

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bygroups(Generic.Traceback, Name.Namespace,

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bygroups(Generic.Traceback, Name.Namespace,

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Generic.Traceback, Literal.Number.Integer)),

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Generic.Traceback, Literal.Number.Integer)),

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# (Exception Identifier)(Whitespace)(Traceback Message)

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# (Exception Identifier)(Whitespace)(Traceback Message)

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(r'(?u)(^[^\d\W]\w*)(\s*)(Traceback.*?\n)',

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(r'(?u)(^[^\d\W]\w*)(\s*)(Traceback.*?\n)',

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bygroups(Name.Exception, Generic.Whitespace, Text)),

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bygroups(Name.Exception, Generic.Whitespace, Text)),

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# (Module/Filename)(Text)(Callee)(Function Signature)

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# (Module/Filename)(Text)(Callee)(Function Signature)

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# Better options for callee and function signature?

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# Better options for callee and function signature?

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(r'(.*)( in )(.*)(\(.*\)\n)',

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(r'(.*)( in )(.*)(\(.*\)\n)',

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bygroups(Name.Namespace, Text, Name.Entity, Name.Tag)),

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bygroups(Name.Namespace, Text, Name.Entity, Name.Tag)),

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# Regular line: (Whitespace)(Line Number)(Python Code)

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# Regular line: (Whitespace)(Line Number)(Python Code)

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(r'(\s*?)(\d+)(.*?\n)',

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(r'(\s*?)(\d+)(.*?\n)',

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bygroups(Generic.Whitespace, Literal.Number.Integer, Other)),

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bygroups(Generic.Whitespace, Literal.Number.Integer, Other)),

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# Emphasized line: (Arrow)(Line Number)(Python Code)

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# Emphasized line: (Arrow)(Line Number)(Python Code)

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# Using Exception token so arrow color matches the Exception.

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# Using Exception token so arrow color matches the Exception.

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(r'(-*>?\s?)(\d+)(.*?\n)',

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(r'(-*>?\s?)(\d+)(.*?\n)',

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bygroups(Name.Exception, Literal.Number.Integer, Other)),

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bygroups(Name.Exception, Literal.Number.Integer, Other)),

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# (Exception Identifier)(Message)

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# (Exception Identifier)(Message)

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(r'(?u)(^[^\d\W]\w*)(:.*?\n)',

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(r'(?u)(^[^\d\W]\w*)(:.*?\n)',

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bygroups(Name.Exception, Text)),

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bygroups(Name.Exception, Text)),

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# Tag everything else as Other, will be handled later.

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# Tag everything else as Other, will be handled later.

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(r'.*\n', Other),

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(r'.*\n', Other),

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],

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],

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}

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}

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class IPythonTracebackLexer(DelegatingLexer):

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class IPythonTracebackLexer(DelegatingLexer):

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"""

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"""

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IPython traceback lexer.

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IPython traceback lexer.

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For doctests, the tracebacks can be snipped as much as desired with the

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For doctests, the tracebacks can be snipped as much as desired with the

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exception to the lines that designate a traceback. For non-syntax error

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exception to the lines that designate a traceback. For non-syntax error

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tracebacks, this is the line of hyphens. For syntax error tracebacks,

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tracebacks, this is the line of hyphens. For syntax error tracebacks,

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this is the line which lists the File and line number.

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this is the line which lists the File and line number.

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"""

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"""

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# The lexer inherits from DelegatingLexer. The "root" lexer is an

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# The lexer inherits from DelegatingLexer. The "root" lexer is an

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# appropriate IPython lexer, which depends on the value of the boolean

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# appropriate IPython lexer, which depends on the value of the boolean

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# `python3`. First, we parse with the partial IPython traceback lexer.

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# `python3`. First, we parse with the partial IPython traceback lexer.

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# Then, any code marked with the "Other" token is delegated to the root

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# Then, any code marked with the "Other" token is delegated to the root

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# lexer.

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# lexer.

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#

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#

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name = 'IPython Traceback'

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name = 'IPython Traceback'

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aliases = ['ipythontb']

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aliases = ['ipythontb']

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def __init__(self, **options):

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def __init__(self, **options):

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self.python3 = get_bool_opt(options, 'python3', False)

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self.python3 = get_bool_opt(options, 'python3', False)

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if self.python3:

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if self.python3:

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self.aliases = ['ipython3tb']

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self.aliases = ['ipython3tb']

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else:

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else:

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self.aliases = ['ipython2tb', 'ipythontb']

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self.aliases = ['ipython2tb', 'ipythontb']

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if self.python3:

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if self.python3:

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IPyLexer = IPython3Lexer

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IPyLexer = IPython3Lexer

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else:

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else:

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IPyLexer = IPythonLexer

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IPyLexer = IPythonLexer

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DelegatingLexer.__init__(self, IPyLexer,

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DelegatingLexer.__init__(self, IPyLexer,

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IPythonPartialTracebackLexer, **options)

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IPythonPartialTracebackLexer, **options)

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@skip_doctest

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@skip_doctest

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class IPythonConsoleLexer(Lexer):

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class IPythonConsoleLexer(Lexer):

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"""

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"""

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An IPython console lexer for IPython code-blocks and doctests, such as:

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An IPython console lexer for IPython code-blocks and doctests, such as:

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.. code-block:: rst

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.. code-block:: rst

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.. code-block:: ipythonconsole

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.. code-block:: ipythonconsole

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In [1]: a = 'foo'

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In [1]: a = 'foo'

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In [2]: a

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In [2]: a

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Out[2]: 'foo'

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Out[2]: 'foo'

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In [3]: print a

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In [3]: print a

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foo

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foo

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In [4]: 1 / 0

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In [4]: 1 / 0

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Support is also provided for IPython exceptions:

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Support is also provided for IPython exceptions:

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.. code-block:: rst

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.. code-block:: rst

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.. code-block:: ipythonconsole

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.. code-block:: ipythonconsole

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In [1]: raise Exception

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In [1]: raise Exception

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---------------------------------------------------------------------------

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---------------------------------------------------------------------------

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Exception Traceback (most recent call last)

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Exception Traceback (most recent call last)

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<ipython-input-1-fca2ab0ca76b> in <module>()

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<ipython-input-1-fca2ab0ca76b> in <module>()

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----> 1 raise Exception

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----> 1 raise Exception

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Exception:

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Exception:

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"""

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"""

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name = 'IPython console session'

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name = 'IPython console session'

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aliases = ['ipythonconsole']

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aliases = ['ipythonconsole']

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mimetypes = ['text/x-ipython-console']

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mimetypes = ['text/x-ipython-console']

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# The regexps used to determine what is input and what is output.

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# The regexps used to determine what is input and what is output.

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# The default prompts for IPython are:

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# The default prompts for IPython are:

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#

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#

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# c.PromptManager.in_template = 'In [\#]: '

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# c.PromptManager.in_template = 'In [\#]: '

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# c.PromptManager.in2_template = ' .\D.: '

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# c.PromptManager.in2_template = ' .\D.: '

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# c.PromptManager.out_template = 'Out[\#]: '

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# c.PromptManager.out_template = 'Out[\#]: '

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#

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#

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in1_regex = r'In \[[0-9]+\]: '

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in1_regex = r'In \[[0-9]+\]: '

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in2_regex = r' \.\.+\.: '

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in2_regex = r' \.\.+\.: '

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out_regex = r'Out\[[0-9]+\]: '

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out_regex = r'Out\[[0-9]+\]: '

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#: The regex to determine when a traceback starts.

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#: The regex to determine when a traceback starts.

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ipytb_start = re.compile(r'^(\^C)?(-+\n)|^( File)(.*)(, line )(\d+\n)')

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ipytb_start = re.compile(r'^(\^C)?(-+\n)|^( File)(.*)(, line )(\d+\n)')

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def __init__(self, **options):

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def __init__(self, **options):

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"""Initialize the IPython console lexer.

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"""Initialize the IPython console lexer.

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Parameters

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Parameters

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----------

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----------

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python3 : bool

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python3 : bool

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If `True`, then the console inputs are parsed using a Python 3

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If `True`, then the console inputs are parsed using a Python 3

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lexer. Otherwise, they are parsed using a Python 2 lexer.

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lexer. Otherwise, they are parsed using a Python 2 lexer.

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in1_regex : RegexObject

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in1_regex : RegexObject

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The compiled regular expression used to detect the start

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The compiled regular expression used to detect the start

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of inputs. Although the IPython configuration setting may have a

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of inputs. Although the IPython configuration setting may have a

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trailing whitespace, do not include it in the regex. If `None`,

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trailing whitespace, do not include it in the regex. If `None`,

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then the default input prompt is assumed.

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then the default input prompt is assumed.

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in2_regex : RegexObject

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in2_regex : RegexObject

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The compiled regular expression used to detect the continuation

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The compiled regular expression used to detect the continuation

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of inputs. Although the IPython configuration setting may have a

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of inputs. Although the IPython configuration setting may have a

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trailing whitespace, do not include it in the regex. If `None`,

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trailing whitespace, do not include it in the regex. If `None`,

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then the default input prompt is assumed.

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then the default input prompt is assumed.

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out_regex : RegexObject

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out_regex : RegexObject

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The compiled regular expression used to detect outputs. If `None`,

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The compiled regular expression used to detect outputs. If `None`,

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then the default output prompt is assumed.

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then the default output prompt is assumed.

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"""

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"""

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self.python3 = get_bool_opt(options, 'python3', False)

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self.python3 = get_bool_opt(options, 'python3', False)

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if self.python3:

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if self.python3:

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self.aliases = ['ipython3console']

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self.aliases = ['ipython3console']

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else:

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else:

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self.aliases = ['ipython2console', 'ipythonconsole']

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self.aliases = ['ipython2console', 'ipythonconsole']

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in1_regex = options.get('in1_regex', self.in1_regex)

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in1_regex = options.get('in1_regex', self.in1_regex)

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in2_regex = options.get('in2_regex', self.in2_regex)

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in2_regex = options.get('in2_regex', self.in2_regex)

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out_regex = options.get('out_regex', self.out_regex)

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out_regex = options.get('out_regex', self.out_regex)

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# So that we can work with input and output prompts which have been

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# So that we can work with input and output prompts which have been

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# rstrip'd (possibly by editors) we also need rstrip'd variants. If

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# rstrip'd (possibly by editors) we also need rstrip'd variants. If

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# we do not do this, then such prompts will be tagged as 'output'.

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# we do not do this, then such prompts will be tagged as 'output'.

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# The reason can't just use the rstrip'd variants instead is because

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# The reason can't just use the rstrip'd variants instead is because

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# we want any whitespace associated with the prompt to be inserted

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# we want any whitespace associated with the prompt to be inserted

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# with the token. This allows formatted code to be modified so as hide

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# with the token. This allows formatted code to be modified so as hide

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# the appearance of prompts, with the whitespace included. One example

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# the appearance of prompts, with the whitespace included. One example

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# use of this is in copybutton.js from the standard lib Python docs.

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# use of this is in copybutton.js from the standard lib Python docs.

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in1_regex_rstrip = in1_regex.rstrip() + '\n'

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in1_regex_rstrip = in1_regex.rstrip() + '\n'

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in2_regex_rstrip = in2_regex.rstrip() + '\n'

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in2_regex_rstrip = in2_regex.rstrip() + '\n'

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out_regex_rstrip = out_regex.rstrip() + '\n'

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out_regex_rstrip = out_regex.rstrip() + '\n'

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# Compile and save them all.

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# Compile and save them all.

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attrs = ['in1_regex', 'in2_regex', 'out_regex',

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attrs = ['in1_regex', 'in2_regex', 'out_regex',

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'in1_regex_rstrip', 'in2_regex_rstrip', 'out_regex_rstrip']

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'in1_regex_rstrip', 'in2_regex_rstrip', 'out_regex_rstrip']

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for attr in attrs:

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for attr in attrs:

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self.__setattr__(attr, re.compile(locals()[attr]))

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self.__setattr__(attr, re.compile(locals()[attr]))

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Lexer.__init__(self, **options)

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Lexer.__init__(self, **options)

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if self.python3:

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if self.python3:

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pylexer = IPython3Lexer

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pylexer = IPython3Lexer

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tblexer = IPythonTracebackLexer

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tblexer = IPythonTracebackLexer

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else:

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else:

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pylexer = IPythonLexer

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pylexer = IPythonLexer

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tblexer = IPythonTracebackLexer

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tblexer = IPythonTracebackLexer

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self.pylexer = pylexer(**options)

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self.pylexer = pylexer(**options)

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self.tblexer = tblexer(**options)

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self.tblexer = tblexer(**options)

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self.reset()

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self.reset()

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def reset(self):

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def reset(self):

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self.mode = 'output'

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self.mode = 'output'

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self.index = 0

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self.index = 0

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self.buffer = u''

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self.buffer = u''

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self.insertions = []

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self.insertions = []

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def buffered_tokens(self):

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def buffered_tokens(self):

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"""

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"""

314

Generator of unprocessed tokens after doing insertions and before

314

Generator of unprocessed tokens after doing insertions and before

315

changing to a new state.

315

changing to a new state.

316

317

"""

317

"""

318

if self.mode == 'output':

318

if self.mode == 'output':

319

tokens = [(0, Generic.Output, self.buffer)]

319

tokens = [(0, Generic.Output, self.buffer)]

320

elif self.mode == 'input':

320

elif self.mode == 'input':

321

tokens = self.pylexer.get_tokens_unprocessed(self.buffer)

321

tokens = self.pylexer.get_tokens_unprocessed(self.buffer)

322

else: # traceback

322

else: # traceback

323

tokens = self.tblexer.get_tokens_unprocessed(self.buffer)

323

tokens = self.tblexer.get_tokens_unprocessed(self.buffer)

324

325

for i, t, v in do_insertions(self.insertions, tokens):

325

for i, t, v in do_insertions(self.insertions, tokens):

326

# All token indexes are relative to the buffer.

326

# All token indexes are relative to the buffer.

327

yield self.index + i, t, v

327

yield self.index + i, t, v

328

329

# Clear it all

329

# Clear it all

330

self.index += len(self.buffer)

330

self.index += len(self.buffer)

331

self.buffer = u''

331

self.buffer = u''

332

self.insertions = []

332

self.insertions = []

333

334

def get_mci(self, line):

334

def get_mci(self, line):

335

"""

335

"""

336

Parses the line and returns a 3-tuple: (mode, code, insertion).

336

Parses the line and returns a 3-tuple: (mode, code, insertion).

337

338

`mode` is the next mode (or state) of the lexer, and is always equal

338

`mode` is the next mode (or state) of the lexer, and is always equal

339

to 'input', 'output', or 'tb'.

339

to 'input', 'output', or 'tb'.

340

341

`code` is a portion of the line that should be added to the buffer

341

`code` is a portion of the line that should be added to the buffer

342

corresponding to the next mode and eventually lexed by another lexer.

342

corresponding to the next mode and eventually lexed by another lexer.

343

For example, `code` could be Python code if `mode` were 'input'.

343

For example, `code` could be Python code if `mode` were 'input'.

344

345

`insertion` is a 3-tuple (index, token, text) representing an

345

`insertion` is a 3-tuple (index, token, text) representing an

346

unprocessed "token" that will be inserted into the stream of tokens

346

unprocessed "token" that will be inserted into the stream of tokens

347

that are created from the buffer once we change modes. This is usually

347

that are created from the buffer once we change modes. This is usually

348

the input or output prompt.

348

the input or output prompt.

349

350

In general, the next mode depends on current mode and on the contents

350

In general, the next mode depends on current mode and on the contents

351

of `line`.

351

of `line`.

352

353

"""

353

"""

354

# To reduce the number of regex match checks, we have multiple

354

# To reduce the number of regex match checks, we have multiple

355

# 'if' blocks instead of 'if-elif' blocks.

355

# 'if' blocks instead of 'if-elif' blocks.

356

357

# Check for possible end of input

357

# Check for possible end of input

358

in2_match = self.in2_regex.match(line)

358

in2_match = self.in2_regex.match(line)

359

in2_match_rstrip = self.in2_regex_rstrip.match(line)

359

in2_match_rstrip = self.in2_regex_rstrip.match(line)

360

if (in2_match and in2_match.group().rstrip() == line.rstrip()) or \

360

if (in2_match and in2_match.group().rstrip() == line.rstrip()) or \

361

in2_match_rstrip:

361

in2_match_rstrip:

362

end_input = True

362

end_input = True

363

else:

363

else:

364

end_input = False

364

end_input = False

365

if end_input and self.mode != 'tb':

365

if end_input and self.mode != 'tb':

366

# Only look for an end of input when not in tb mode.

366

# Only look for an end of input when not in tb mode.

367

# An ellipsis could appear within the traceback.

367

# An ellipsis could appear within the traceback.

368

mode = 'output'

368

mode = 'output'

369

code = u''

369

code = u''

370

insertion = (0, Generic.Prompt, line)

370

insertion = (0, Generic.Prompt, line)

371

return mode, code, insertion

371

return mode, code, insertion

372

373

# Check for output prompt

373

# Check for output prompt

374

out_match = self.out_regex.match(line)

374

out_match = self.out_regex.match(line)

375

out_match_rstrip = self.out_regex_rstrip.match(line)

375

out_match_rstrip = self.out_regex_rstrip.match(line)

376

if out_match or out_match_rstrip:

376

if out_match or out_match_rstrip:

377

mode = 'output'

377

mode = 'output'

378

if out_match:

378

if out_match:

379

idx = out_match.end()

379

idx = out_match.end()

380

else:

380

else:

381

idx = out_match_rstrip.end()

381

idx = out_match_rstrip.end()

382

code = line[idx:]

382

code = line[idx:]

383

# Use the 'heading' token for output. We cannot use Generic.Error

383

# Use the 'heading' token for output. We cannot use Generic.Error

384

# since it would conflict with exceptions.

384

# since it would conflict with exceptions.

385

insertion = (0, Generic.Heading, line[:idx])

385

insertion = (0, Generic.Heading, line[:idx])

386

return mode, code, insertion

386

return mode, code, insertion

387

388

389

# Check for input or continuation prompt (non stripped version)

389

# Check for input or continuation prompt (non stripped version)

390

in1_match = self.in1_regex.match(line)

390

in1_match = self.in1_regex.match(line)

391

if in1_match or (in2_match and self.mode != 'tb'):

391

if in1_match or (in2_match and self.mode != 'tb'):

392

# New input or when not in tb, continued input.

392

# New input or when not in tb, continued input.

393

# We do not check for continued input when in tb since it is

393

# We do not check for continued input when in tb since it is

394

# allowable to replace a long stack with an ellipsis.

394

# allowable to replace a long stack with an ellipsis.

395

mode = 'input'

395

mode = 'input'

396

if in1_match:

396

if in1_match:

397

idx = in1_match.end()

397

idx = in1_match.end()

398

else: # in2_match

398

else: # in2_match

399

idx = in2_match.end()

399

idx = in2_match.end()

400

code = line[idx:]

400

code = line[idx:]

401

insertion = (0, Generic.Prompt, line[:idx])

401

insertion = (0, Generic.Prompt, line[:idx])

402

return mode, code, insertion

402

return mode, code, insertion

403

404

# Check for input or continuation prompt (stripped version)

404

# Check for input or continuation prompt (stripped version)

405

in1_match_rstrip = self.in1_regex_rstrip.match(line)

405

in1_match_rstrip = self.in1_regex_rstrip.match(line)

406

if in1_match_rstrip or (in2_match_rstrip and self.mode != 'tb'):

406

if in1_match_rstrip or (in2_match_rstrip and self.mode != 'tb'):

407

# New input or when not in tb, continued input.

407

# New input or when not in tb, continued input.

408

# We do not check for continued input when in tb since it is

408

# We do not check for continued input when in tb since it is

409

# allowable to replace a long stack with an ellipsis.

409

# allowable to replace a long stack with an ellipsis.

410

mode = 'input'

410

mode = 'input'

411

if in1_match_rstrip:

411

if in1_match_rstrip:

412

idx = in1_match_rstrip.end()

412

idx = in1_match_rstrip.end()

413

else: # in2_match

413

else: # in2_match

414

idx = in2_match_rstrip.end()

414

idx = in2_match_rstrip.end()

415

code = line[idx:]

415

code = line[idx:]

416

insertion = (0, Generic.Prompt, line[:idx])

416

insertion = (0, Generic.Prompt, line[:idx])

417

return mode, code, insertion

417

return mode, code, insertion

418

419

# Check for traceback

419

# Check for traceback

420

if self.ipytb_start.match(line):

420

if self.ipytb_start.match(line):

421

mode = 'tb'

421

mode = 'tb'

422

code = line

422

code = line

423

insertion = None

423

insertion = None

424

return mode, code, insertion

424

return mode, code, insertion

425

426

# All other stuff...

426

# All other stuff...

427

if self.mode in ('input', 'output'):

427

if self.mode in ('input', 'output'):

428

# We assume all other text is output. Multiline input that

428

# We assume all other text is output. Multiline input that

429

# does not use the continuation marker cannot be detected.

429

# does not use the continuation marker cannot be detected.

430

# For example, the 3 in the following is clearly output:

430

# For example, the 3 in the following is clearly output:

431

#

431

#

432

# In [1]: print 3

432

# In [1]: print 3

433

# 3

433

# 3

434

#

434

#

435

# But the following second line is part of the input:

435

# But the following second line is part of the input:

436

#

436

#

437

# In [2]: while True:

437

# In [2]: while True:

438

# print True

438

# print True

439

#

439

#

440

# In both cases, the 2nd line will be 'output'.

440

# In both cases, the 2nd line will be 'output'.

441

#

441

#

442

mode = 'output'

442

mode = 'output'

443

else:

443

else:

444

mode = 'tb'

444

mode = 'tb'

445

446

code = line

446

code = line

447

insertion = None

447

insertion = None

448

449

return mode, code, insertion

449

return mode, code, insertion

450

451

def get_tokens_unprocessed(self, text):

451

def get_tokens_unprocessed(self, text):

452

self.reset()

452

self.reset()

453

for match in line_re.finditer(text):

453

for match in line_re.finditer(text):

454

line = match.group()

454

line = match.group()

455

mode, code, insertion = self.get_mci(line)

455

mode, code, insertion = self.get_mci(line)

456

457

if mode != self.mode:

457

if mode != self.mode:

458

# Yield buffered tokens before transitioning to new mode.

458

# Yield buffered tokens before transitioning to new mode.

459

for token in self.buffered_tokens():

459

for token in self.buffered_tokens():

460

yield token

460

yield token

461

self.mode = mode

461

self.mode = mode

462

463

if insertion:

463

if insertion:

464

self.insertions.append((len(self.buffer), [insertion]))

464

self.insertions.append((len(self.buffer), [insertion]))

465

self.buffer += code

465

self.buffer += code

466

else:

466

else:

467

for token in self.buffered_tokens():

467

for token in self.buffered_tokens():

468

yield token

468

yield token

469

470

class IPyLexer(Lexer):

470

class IPyLexer(Lexer):

471

"""

471

"""

472

Primary lexer for all IPython-like code.

472

Primary lexer for all IPython-like code.

473

474

This is a simple helper lexer. If the first line of the text begins with

474

This is a simple helper lexer. If the first line of the text begins with

475

"In \[[0-9]+\]:", then the entire text is parsed with an IPython console

475

"In \[[0-9]+\]:", then the entire text is parsed with an IPython console

476

lexer. If not, then the entire text is parsed with an IPython lexer.

476

lexer. If not, then the entire text is parsed with an IPython lexer.

477

478

The goal is to reduce the number of lexers that are registered

478

The goal is to reduce the number of lexers that are registered

479

with Pygments.

479

with Pygments.

480

481

"""

481

"""

482

name = 'IPy session'

482

name = 'IPy session'

483

aliases = ['ipy']

483

aliases = ['ipy']

484

485

def __init__(self, **options):

485

def __init__(self, **options):

486

self.python3 = get_bool_opt(options, 'python3', False)

486

self.python3 = get_bool_opt(options, 'python3', False)

487

if self.python3:

487

if self.python3:

488

self.aliases = ['ipy3']

488

self.aliases = ['ipy3']

489

else:

489

else:

490

self.aliases = ['ipy2', 'ipy']

490

self.aliases = ['ipy2', 'ipy']

491

492

Lexer.__init__(self, **options)

492

Lexer.__init__(self, **options)

493

494

self.IPythonLexer = IPythonLexer(**options)

494

self.IPythonLexer = IPythonLexer(**options)

495

self.IPythonConsoleLexer = IPythonConsoleLexer(**options)

495

self.IPythonConsoleLexer = IPythonConsoleLexer(**options)

496

497

def get_tokens_unprocessed(self, text):

497

def get_tokens_unprocessed(self, text):

498

# Search for the input prompt anywhere...this allows code blocks to

498

# Search for the input prompt anywhere...this allows code blocks to

499

# begin with comments as well.

499

# begin with comments as well.

500

if re.match(r'.*(In \[[0-9]+\]:)', text.strip(), re.DOTALL):

500

if re.match(r'.*(In \[[0-9]+\]:)', text.strip(), re.DOTALL):

501

lex = self.IPythonConsoleLexer

501

lex = self.IPythonConsoleLexer

502

else:

502

else:

503

lex = self.IPythonLexer

503

lex = self.IPythonLexer

504

for token in lex.get_tokens_unprocessed(text):

504

for token in lex.get_tokens_unprocessed(text):

505

yield token

505

yield token

506

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             # -*- coding: utf-8 -*-
             """
             Defines a variety of Pygments lexers for highlighting IPython code.
             This includes:
                 IPythonLexer, IPython3Lexer
                     Lexers for pure IPython (python + magic/shell commands)
                 IPythonPartialTracebackLexer, IPythonTracebackLexer
                     Supports 2.x and 3.x via keyword `python3`.  The partial traceback
                     lexer reads everything but the Python code appearing in a traceback.
                     The full lexer combines the partial lexer with an IPython lexer.
                 IPythonConsoleLexer
                     A lexer for IPython console sessions, with support for tracebacks.
                 IPyLexer
                     A friendly lexer which examines the first line of text and from it,
                     decides whether to use an IPython lexer or an IPython console lexer.
                     This is probably the only lexer that needs to be explicitly added
                     to Pygments.
             """
             #-----------------------------------------------------------------------------
             # Copyright (c) 2013, the IPython Development Team.
             #
             # Distributed under the terms of the Modified BSD License.
             #
             # The full license is in the file COPYING.txt, distributed with this software.
             #-----------------------------------------------------------------------------
             # Standard library
             import re
             # Third party
             from pygments.lexers import BashLexer, PythonLexer, Python3Lexer
             from pygments.lexer import (
                 Lexer, DelegatingLexer, RegexLexer, do_insertions, bygroups, using,
             )
             from pygments.token import (
                 Comment, Generic, Keyword, Literal, Name, Operator, Other, Text, Error,
             )
             from pygments.util import get_bool_opt
             # Local
             from IPython.testing.skipdoctest import skip_doctest
             line_re = re.compile('.*?\n')
             ipython_tokens = [
-              (r'(\%+)(\w+)\s+(\.*)(\n)', bygroups(Operator, Keyword,
+              (r'(%)(sx|sc|system)(.*)(\n)', bygroups(Operator, Keyword,
                                                    using(BashLexer), Text)),
-              (r'(\%+)(\w+)\b', bygroups(Operator, Keyword)),
+              (r'(%)(\w+)(.*\n)', bygroups(Operator, Keyword, Text)),
               (r'^(!)(.+)(\n)', bygroups(Operator, using(BashLexer), Text)),
               (r'^(.+)(=)(\s*)(!)(.+)(\n)', bygroups(
                   # With the limited syntax allowed on the l.h.s. of a shell capture,
                   # we don't need to differentiate between Python 2 and 3.
                   using(Python3Lexer), Operator, Text, Operator, using(BashLexer), Text)),
             ]
             def build_ipy_lexer(python3):
                 """Builds IPython lexers depending on the value of `python3`.
                 The lexer inherits from an appropriate Python lexer and then adds
                 information about IPython specific keywords (i.e. magic commands,
                 shell commands, etc.)
                 Parameters
                 ----------
                 python3 : bool
                     If `True`, then build an IPython lexer from a Python 3 lexer.
                 """
                 # It would be nice to have a single IPython lexer class which takes
                 # a boolean `python3`.  But since there are two Python lexer classes,
                 # we will also have two IPython lexer classes.
                 if python3:
                     PyLexer = Python3Lexer
                     clsname = 'IPython3Lexer'
                     name = 'IPython3'
                     aliases = ['ipython3']
                     doc = """IPython3 Lexer"""
                 else:
                     PyLexer = PythonLexer
                     clsname = 'IPythonLexer'
                     name = 'IPython'
                     aliases = ['ipython2', 'ipython']
                     doc = """IPython Lexer"""
                 tokens = PyLexer.tokens.copy()
                 tokens['root'] = ipython_tokens + tokens['root']
                 attrs = {'name': name, 'aliases': aliases,
                          '__doc__': doc, 'tokens': tokens}
                 return type(name, (PyLexer,), attrs)
             IPython3Lexer = build_ipy_lexer(python3=True)
             IPythonLexer = build_ipy_lexer(python3=False)
             class IPythonPartialTracebackLexer(RegexLexer):
                 """
                 Partial lexer for IPython tracebacks.
                 Handles all the non-python output. This works for both Python 2.x and 3.x.
                 """
                 name = 'IPython Partial Traceback'
                 tokens = {
                     'root': [
                         # Tracebacks for syntax errors have a different style.
                         # For both types of tracebacks, we mark the first line with
                         # Generic.Traceback.  For syntax errors, we mark the filename
                         # as we mark the filenames for non-syntax tracebacks.
                         #
                         # These two regexps define how IPythonConsoleLexer finds a
                         # traceback.
                         #
                         ## Non-syntax traceback
                         (r'^(\^C)?(-+\n)', bygroups(Error, Generic.Traceback)),
                         ## Syntax traceback
                         (r'^(  File)(.*)(, line )(\d+\n)',
                          bygroups(Generic.Traceback, Name.Namespace,
                                   Generic.Traceback, Literal.Number.Integer)),
                         # (Exception Identifier)(Whitespace)(Traceback Message)
                         (r'(?u)(^[^\d\W]\w*)(\s*)(Traceback.*?\n)',
                          bygroups(Name.Exception, Generic.Whitespace, Text)),
                         # (Module/Filename)(Text)(Callee)(Function Signature)
                         # Better options for callee and function signature?
                         (r'(.*)( in )(.*)(\(.*\)\n)',
                          bygroups(Name.Namespace, Text, Name.Entity, Name.Tag)),
                         # Regular line: (Whitespace)(Line Number)(Python Code)
                         (r'(\s*?)(\d+)(.*?\n)',
                          bygroups(Generic.Whitespace, Literal.Number.Integer, Other)),
                         # Emphasized line: (Arrow)(Line Number)(Python Code)
                         # Using Exception token so arrow color matches the Exception.
                         (r'(-*>?\s?)(\d+)(.*?\n)',
                          bygroups(Name.Exception, Literal.Number.Integer, Other)),
                         # (Exception Identifier)(Message)
                         (r'(?u)(^[^\d\W]\w*)(:.*?\n)',
                          bygroups(Name.Exception, Text)),
                         # Tag everything else as Other, will be handled later.
                         (r'.*\n', Other),
                     ],
                 }
             class IPythonTracebackLexer(DelegatingLexer):
                 """
                 IPython traceback lexer.
                 For doctests, the tracebacks can be snipped as much as desired with the
                 exception to the lines that designate a traceback. For non-syntax error
                 tracebacks, this is the line of hyphens. For syntax error tracebacks,
                 this is the line which lists the File and line number.
                 """
                 # The lexer inherits from DelegatingLexer.  The "root" lexer is an
                 # appropriate IPython lexer, which depends on the value of the boolean
                 # `python3`.  First, we parse with the partial IPython traceback lexer.
                 # Then, any code marked with the "Other" token is delegated to the root
                 # lexer.
                 #
                 name = 'IPython Traceback'
                 aliases = ['ipythontb']
                 def __init__(self, **options):
                     self.python3 = get_bool_opt(options, 'python3', False)
                     if self.python3:
                         self.aliases = ['ipython3tb']
                     else:
                         self.aliases = ['ipython2tb', 'ipythontb']
                     if self.python3:
                         IPyLexer = IPython3Lexer
                     else:
                         IPyLexer = IPythonLexer
                     DelegatingLexer.__init__(self, IPyLexer,
                                              IPythonPartialTracebackLexer, **options)
             @skip_doctest
             class IPythonConsoleLexer(Lexer):
                 """
                 An IPython console lexer for IPython code-blocks and doctests, such as:
                 .. code-block:: rst
                     .. code-block:: ipythonconsole
                         In [1]: a = 'foo'
                         In [2]: a
                         Out[2]: 'foo'
                         In [3]: print a
                         foo
                         In [4]: 1 / 0
                 Support is also provided for IPython exceptions:
                 .. code-block:: rst
                     .. code-block:: ipythonconsole
                         In [1]: raise Exception
                         ---------------------------------------------------------------------------
                         Exception                                 Traceback (most recent call last)
                         <ipython-input-1-fca2ab0ca76b> in <module>()
                         ----> 1 raise Exception
                         Exception:
                 """
                 name = 'IPython console session'
                 aliases = ['ipythonconsole']
                 mimetypes = ['text/x-ipython-console']
                 # The regexps used to determine what is input and what is output.
                 # The default prompts for IPython are:
                 #
                 #     c.PromptManager.in_template  = 'In [\#]: '
                 #     c.PromptManager.in2_template = '   .\D.: '
                 #     c.PromptManager.out_template = 'Out[\#]: '
                 #
                 in1_regex = r'In \[[0-9]+\]: '
                 in2_regex = r'   \.\.+\.: '
                 out_regex = r'Out\[[0-9]+\]: '
                 #: The regex to determine when a traceback starts.
                 ipytb_start = re.compile(r'^(\^C)?(-+\n)|^(  File)(.*)(, line )(\d+\n)')
                 def __init__(self, **options):
                     """Initialize the IPython console lexer.
                     Parameters
                     ----------
                     python3 : bool
                         If `True`, then the console inputs are parsed using a Python 3
                         lexer. Otherwise, they are parsed using a Python 2 lexer.
                     in1_regex : RegexObject
                         The compiled regular expression used to detect the start
                         of inputs. Although the IPython configuration setting may have a
                         trailing whitespace, do not include it in the regex. If `None`,
                         then the default input prompt is assumed.
                     in2_regex : RegexObject
                         The compiled regular expression used to detect the continuation
                         of inputs. Although the IPython configuration setting may have a
                         trailing whitespace, do not include it in the regex. If `None`,
                         then the default input prompt is assumed.
                     out_regex : RegexObject
                         The compiled regular expression used to detect outputs. If `None`,
                         then the default output prompt is assumed.
                     """
                     self.python3 = get_bool_opt(options, 'python3', False)
                     if self.python3:
                         self.aliases = ['ipython3console']
                     else:
                         self.aliases = ['ipython2console', 'ipythonconsole']
                     in1_regex = options.get('in1_regex', self.in1_regex)
                     in2_regex = options.get('in2_regex', self.in2_regex)
                     out_regex = options.get('out_regex', self.out_regex)
                     # So that we can work with input and output prompts which have been
                     # rstrip'd (possibly by editors) we also need rstrip'd variants. If
                     # we do not do this, then such prompts will be tagged as 'output'.
                     # The reason can't just use the rstrip'd variants instead is because
                     # we want any whitespace associated with the prompt to be inserted
                     # with the token. This allows formatted code to be modified so as hide
                     # the appearance of prompts, with the whitespace included. One example
                     # use of this is in copybutton.js from the standard lib Python docs.
                     in1_regex_rstrip = in1_regex.rstrip() + '\n'
                     in2_regex_rstrip = in2_regex.rstrip() + '\n'
                     out_regex_rstrip = out_regex.rstrip() + '\n'
                     # Compile and save them all.
                     attrs = ['in1_regex', 'in2_regex', 'out_regex',
                              'in1_regex_rstrip', 'in2_regex_rstrip', 'out_regex_rstrip']
                     for attr in attrs:
                         self.__setattr__(attr, re.compile(locals()[attr]))
                     Lexer.__init__(self, **options)
                     if self.python3:
                         pylexer = IPython3Lexer
                         tblexer = IPythonTracebackLexer
                     else:
                         pylexer = IPythonLexer
                         tblexer = IPythonTracebackLexer
                     self.pylexer = pylexer(**options)
                     self.tblexer = tblexer(**options)
                     self.reset()
                 def reset(self):
                     self.mode = 'output'
                     self.index = 0
                     self.buffer = u''
                     self.insertions = []
                 def buffered_tokens(self):
                     """
                     Generator of unprocessed tokens after doing insertions and before
                     changing to a new state.
                     """
                     if self.mode == 'output':
                         tokens = [(0, Generic.Output, self.buffer)]
                     elif self.mode == 'input':
                         tokens = self.pylexer.get_tokens_unprocessed(self.buffer)
                     else: # traceback
                         tokens = self.tblexer.get_tokens_unprocessed(self.buffer)
                     for i, t, v in do_insertions(self.insertions, tokens):
                         # All token indexes are relative to the buffer.
                         yield self.index + i, t, v
                     # Clear it all
                     self.index += len(self.buffer)
                     self.buffer = u''
                     self.insertions = []
                 def get_mci(self, line):
                     """
                     Parses the line and returns a 3-tuple: (mode, code, insertion).
                     `mode` is the next mode (or state) of the lexer, and is always equal
                     to 'input', 'output', or 'tb'.
                     `code` is a portion of the line that should be added to the buffer
                     corresponding to the next mode and eventually lexed by another lexer.
                     For example, `code` could be Python code if `mode` were 'input'.
                     `insertion` is a 3-tuple (index, token, text) representing an
                     unprocessed "token" that will be inserted into the stream of tokens
                     that are created from the buffer once we change modes. This is usually
                     the input or output prompt.
                     In general, the next mode depends on current mode and on the contents
                     of `line`.
                     """
                     # To reduce the number of regex match checks, we have multiple
                     # 'if' blocks instead of 'if-elif' blocks.
                     # Check for possible end of input
                     in2_match = self.in2_regex.match(line)
                     in2_match_rstrip = self.in2_regex_rstrip.match(line)
                     if (in2_match and in2_match.group().rstrip() == line.rstrip()) or \
                        in2_match_rstrip:
                         end_input = True
                     else:
                         end_input = False
                     if end_input and self.mode != 'tb':
                         # Only look for an end of input when not in tb mode.
                         # An ellipsis could appear within the traceback.
                         mode = 'output'
                         code = u''
                         insertion = (0, Generic.Prompt, line)
                         return mode, code, insertion
                     # Check for output prompt
                     out_match = self.out_regex.match(line)
                     out_match_rstrip = self.out_regex_rstrip.match(line)
                     if out_match or out_match_rstrip:
                         mode = 'output'
                         if out_match:
                             idx = out_match.end()
                         else:
                             idx = out_match_rstrip.end()
                         code = line[idx:]
                         # Use the 'heading' token for output.  We cannot use Generic.Error
                         # since it would conflict with exceptions.
                         insertion = (0, Generic.Heading, line[:idx])
                         return mode, code, insertion
                     # Check for input or continuation prompt (non stripped version)
                     in1_match = self.in1_regex.match(line)
                     if in1_match or (in2_match and self.mode != 'tb'):
                         # New input or when not in tb, continued input.
                         # We do not check for continued input when in tb since it is
                         # allowable to replace a long stack with an ellipsis.
                         mode = 'input'
                         if in1_match:
                             idx = in1_match.end()
                         else: # in2_match
                             idx = in2_match.end()
                         code = line[idx:]
                         insertion = (0, Generic.Prompt, line[:idx])
                         return mode, code, insertion
                     # Check for input or continuation prompt (stripped version)
                     in1_match_rstrip = self.in1_regex_rstrip.match(line)
                     if in1_match_rstrip or (in2_match_rstrip and self.mode != 'tb'):
                         # New input or when not in tb, continued input.
                         # We do not check for continued input when in tb since it is
                         # allowable to replace a long stack with an ellipsis.
                         mode = 'input'
                         if in1_match_rstrip:
                             idx = in1_match_rstrip.end()
                         else: # in2_match
                             idx = in2_match_rstrip.end()
                         code = line[idx:]
                         insertion = (0, Generic.Prompt, line[:idx])
                         return mode, code, insertion
                     # Check for traceback
                     if self.ipytb_start.match(line):
                         mode = 'tb'
                         code = line
                         insertion = None
                         return mode, code, insertion
                     # All other stuff...
                     if self.mode in ('input', 'output'):
                         # We assume all other text is output. Multiline input that
                         # does not use the continuation marker cannot be detected.
                         # For example, the 3 in the following is clearly output:
                         #
                         #    In [1]: print 3
                         #    3
                         #
                         # But the following second line is part of the input:
                         #
                         #    In [2]: while True:
                         #        print True
                         #
                         # In both cases, the 2nd line will be 'output'.
                         #
                         mode = 'output'
                     else:
                         mode = 'tb'
                     code = line
                     insertion = None
                     return mode, code, insertion
                 def get_tokens_unprocessed(self, text):
                     self.reset()
                     for match in line_re.finditer(text):
                         line = match.group()
                         mode, code, insertion = self.get_mci(line)
                         if mode != self.mode:
                             # Yield buffered tokens before transitioning to new mode.
                             for token in self.buffered_tokens():
                                 yield token
                             self.mode = mode
                         if insertion:
                             self.insertions.append((len(self.buffer), [insertion]))
                         self.buffer += code
                     else:
                         for token in self.buffered_tokens():
                             yield token
             class IPyLexer(Lexer):
                 """
                 Primary lexer for all IPython-like code.
                 This is a simple helper lexer.  If the first line of the text begins with
                 "In \[[0-9]+\]:", then the entire text is parsed with an IPython console
                 lexer. If not, then the entire text is parsed with an IPython lexer.
                 The goal is to reduce the number of lexers that are registered
                 with Pygments.
                 """
                 name = 'IPy session'
                 aliases = ['ipy']
                 def __init__(self, **options):
                     self.python3 = get_bool_opt(options, 'python3', False)
                     if self.python3:
                         self.aliases = ['ipy3']
                     else:
                         self.aliases = ['ipy2', 'ipy']
                     Lexer.__init__(self, **options)
                     self.IPythonLexer = IPythonLexer(**options)
                     self.IPythonConsoleLexer = IPythonConsoleLexer(**options)
                 def get_tokens_unprocessed(self, text):
                     # Search for the input prompt anywhere...this allows code blocks to
                     # begin with comments as well.
                     if re.match(r'.*(In \[[0-9]+\]:)', text.strip(), re.DOTALL):
                         lex = self.IPythonConsoleLexer
                     else:
                         lex = self.IPythonLexer
                     for token in lex.get_tokens_unprocessed(text):
                         yield token

             """Test lexers module"""
             #-----------------------------------------------------------------------------
             #  Copyright (C) 2014 The IPython Development Team
             #
             #  Distributed under the terms of the BSD License.  The full license is in
             #  the file COPYING, distributed as part of this software.
             #-----------------------------------------------------------------------------
             #-----------------------------------------------------------------------------
             # Imports
             #-----------------------------------------------------------------------------
             from pygments.token import Token
             from IPython.nbconvert.tests.base import TestsBase
             from .. import lexers
             #-----------------------------------------------------------------------------
             # Classes and functions
             #-----------------------------------------------------------------------------
             class TestLexers(TestsBase):
                 """Collection of lexers tests"""
                 def setUp(self):
                     self.lexer = lexers.IPythonLexer()
                 def testIPythonLexer(self):
                     fragment = '!echo $HOME\n'
                     tokens = [
                         (Token.Operator, '!'),
                         (Token.Name.Builtin, 'echo'),
                         (Token.Text, ' '),
                         (Token.Name.Variable, '$HOME'),
                         (Token.Text, '\n'),
                     ]
                     self.assertEqual(tokens, list(self.lexer.get_tokens(fragment)))
                     fragment_2 = 'x = ' + fragment
                     tokens_2 = [
                         (Token.Name, 'x'),
                         (Token.Text, ' '),
                         (Token.Operator, '='),
                         (Token.Text, ' '),
                     ] + tokens
                     self.assertEqual(tokens_2, list(self.lexer.get_tokens(fragment_2)))
                     fragment_2 = 'x, = ' + fragment
                     tokens_2 = [
                         (Token.Name, 'x'),
                         (Token.Punctuation, ','),
                         (Token.Text, ' '),
                         (Token.Operator, '='),
                         (Token.Text, ' '),
                     ] + tokens
                     self.assertEqual(tokens_2, list(self.lexer.get_tokens(fragment_2)))
+                    fragment_2 = 'x, = %sx ' + fragment[1:]
+                    tokens_2 = [
+                        (Token.Name, 'x'),
+                        (Token.Punctuation, ','),
+                        (Token.Text, ' '),
+                        (Token.Operator, '='),
+                        (Token.Text, ' '),
+                        (Token.Operator, '%'),
+                        (Token.Keyword, 'sx'),
+                        (Token.Text, ' '),
+                    ] + tokens[1:]
+                    self.assertEqual(tokens_2, list(self.lexer.get_tokens(fragment_2)))
+                    fragment_2 = 'f = %R function () {}\n'
+                    tokens_2 = [
+                        (Token.Name, 'f'),
+                        (Token.Text, ' '),
+                        (Token.Operator, '='),
+                        (Token.Text, ' '),
+                        (Token.Operator, '%'),
+                        (Token.Keyword, 'R'),
+                        (Token.Text, ' function () {}\n'),
+                    ]
+                    self.assertEqual(tokens_2, list(self.lexer.get_tokens(fragment_2)))