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Merge pull request #7556 from abalkin/issue-7548-2...
Matthias Bussonnier -
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1 """Test lexers module"""
2 #-----------------------------------------------------------------------------
3 # Copyright (C) 2014 The IPython Development Team
4 #
5 # Distributed under the terms of the BSD License. The full license is in
6 # the file COPYING, distributed as part of this software.
7 #-----------------------------------------------------------------------------
8
9 #-----------------------------------------------------------------------------
10 # Imports
11 #-----------------------------------------------------------------------------
12 from pygments.token import Token
13
14 from IPython.nbconvert.tests.base import TestsBase
15 from .. import lexers
16
17
18 #-----------------------------------------------------------------------------
19 # Classes and functions
20 #-----------------------------------------------------------------------------
21 class TestLexers(TestsBase):
22 """Collection of lexers tests"""
23 def setUp(self):
24 self.lexer = lexers.IPythonLexer()
25
26 def testIPythonLexer(self):
27 fragment = '!echo $HOME\n'
28 tokens = [
29 (Token.Operator, '!'),
30 (Token.Name.Builtin, 'echo'),
31 (Token.Text, ' '),
32 (Token.Name.Variable, '$HOME'),
33 (Token.Text, '\n'),
34 ]
35 self.assertEqual(tokens, list(self.lexer.get_tokens(fragment)))
36
37 fragment_2 = '!' + fragment
38 tokens_2 = [
39 (Token.Operator, '!!'),
40 ] + tokens[1:]
41 self.assertEqual(tokens_2, list(self.lexer.get_tokens(fragment_2)))
42
43 fragment_2 = '\t %%!\n' + fragment[1:]
44 tokens_2 = [
45 (Token.Text, '\t '),
46 (Token.Operator, '%%!'),
47 (Token.Text, '\n'),
48 ] + tokens[1:]
49 self.assertEqual(tokens_2, list(self.lexer.get_tokens(fragment_2)))
50
51 fragment_2 = 'x = ' + fragment
52 tokens_2 = [
53 (Token.Name, 'x'),
54 (Token.Text, ' '),
55 (Token.Operator, '='),
56 (Token.Text, ' '),
57 ] + tokens
58 self.assertEqual(tokens_2, list(self.lexer.get_tokens(fragment_2)))
59
60 fragment_2 = 'x, = ' + fragment
61 tokens_2 = [
62 (Token.Name, 'x'),
63 (Token.Punctuation, ','),
64 (Token.Text, ' '),
65 (Token.Operator, '='),
66 (Token.Text, ' '),
67 ] + tokens
68 self.assertEqual(tokens_2, list(self.lexer.get_tokens(fragment_2)))
69
70 fragment_2 = 'x, = %sx ' + fragment[1:]
71 tokens_2 = [
72 (Token.Name, 'x'),
73 (Token.Punctuation, ','),
74 (Token.Text, ' '),
75 (Token.Operator, '='),
76 (Token.Text, ' '),
77 (Token.Operator, '%'),
78 (Token.Keyword, 'sx'),
79 (Token.Text, ' '),
80 ] + tokens[1:]
81 self.assertEqual(tokens_2, list(self.lexer.get_tokens(fragment_2)))
82
83 fragment_2 = 'f = %R function () {}\n'
84 tokens_2 = [
85 (Token.Name, 'f'),
86 (Token.Text, ' '),
87 (Token.Operator, '='),
88 (Token.Text, ' '),
89 (Token.Operator, '%'),
90 (Token.Keyword, 'R'),
91 (Token.Text, ' function () {}\n'),
92 ]
93 self.assertEqual(tokens_2, list(self.lexer.get_tokens(fragment_2)))
94
95 fragment_2 = '\t%%xyz\n$foo\n'
96 tokens_2 = [
97 (Token.Text, '\t'),
98 (Token.Operator, '%%'),
99 (Token.Keyword, 'xyz'),
100 (Token.Text, '\n$foo\n'),
101 ]
102 self.assertEqual(tokens_2, list(self.lexer.get_tokens(fragment_2)))
103
104 fragment_2 = '%system?\n'
105 tokens_2 = [
106 (Token.Operator, '%'),
107 (Token.Keyword, 'system'),
108 (Token.Operator, '?'),
109 (Token.Text, '\n'),
110 ]
111 self.assertEqual(tokens_2, list(self.lexer.get_tokens(fragment_2)))
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@@ -1,502 +1,507 b''
1 # -*- coding: utf-8 -*-
1 # -*- coding: utf-8 -*-
2 """
2 """
3 Defines a variety of Pygments lexers for highlighting IPython code.
3 Defines a variety of Pygments lexers for highlighting IPython code.
4
4
5 This includes:
5 This includes:
6
6
7 IPythonLexer, IPython3Lexer
7 IPythonLexer, IPython3Lexer
8 Lexers for pure IPython (python + magic/shell commands)
8 Lexers for pure IPython (python + magic/shell commands)
9
9
10 IPythonPartialTracebackLexer, IPythonTracebackLexer
10 IPythonPartialTracebackLexer, IPythonTracebackLexer
11 Supports 2.x and 3.x via keyword `python3`. The partial traceback
11 Supports 2.x and 3.x via keyword `python3`. The partial traceback
12 lexer reads everything but the Python code appearing in a traceback.
12 lexer reads everything but the Python code appearing in a traceback.
13 The full lexer combines the partial lexer with an IPython lexer.
13 The full lexer combines the partial lexer with an IPython lexer.
14
14
15 IPythonConsoleLexer
15 IPythonConsoleLexer
16 A lexer for IPython console sessions, with support for tracebacks.
16 A lexer for IPython console sessions, with support for tracebacks.
17
17
18 IPyLexer
18 IPyLexer
19 A friendly lexer which examines the first line of text and from it,
19 A friendly lexer which examines the first line of text and from it,
20 decides whether to use an IPython lexer or an IPython console lexer.
20 decides whether to use an IPython lexer or an IPython console lexer.
21 This is probably the only lexer that needs to be explicitly added
21 This is probably the only lexer that needs to be explicitly added
22 to Pygments.
22 to Pygments.
23
23
24 """
24 """
25 #-----------------------------------------------------------------------------
25 #-----------------------------------------------------------------------------
26 # Copyright (c) 2013, the IPython Development Team.
26 # Copyright (c) 2013, the IPython Development Team.
27 #
27 #
28 # Distributed under the terms of the Modified BSD License.
28 # Distributed under the terms of the Modified BSD License.
29 #
29 #
30 # The full license is in the file COPYING.txt, distributed with this software.
30 # The full license is in the file COPYING.txt, distributed with this software.
31 #-----------------------------------------------------------------------------
31 #-----------------------------------------------------------------------------
32
32
33 # Standard library
33 # Standard library
34 import re
34 import re
35
35
36 # Third party
36 # Third party
37 from pygments.lexers import BashLexer, PythonLexer, Python3Lexer
37 from pygments.lexers import BashLexer, PythonLexer, Python3Lexer
38 from pygments.lexer import (
38 from pygments.lexer import (
39 Lexer, DelegatingLexer, RegexLexer, do_insertions, bygroups, using,
39 Lexer, DelegatingLexer, RegexLexer, do_insertions, bygroups, using,
40 )
40 )
41 from pygments.token import (
41 from pygments.token import (
42 Comment, Generic, Keyword, Literal, Name, Operator, Other, Text, Error,
42 Comment, Generic, Keyword, Literal, Name, Operator, Other, Text, Error,
43 )
43 )
44 from pygments.util import get_bool_opt
44 from pygments.util import get_bool_opt
45
45
46 # Local
46 # Local
47 from IPython.testing.skipdoctest import skip_doctest
47 from IPython.testing.skipdoctest import skip_doctest
48
48
49 line_re = re.compile('.*?\n')
49 line_re = re.compile('.*?\n')
50
50
51 ipython_tokens = [
51 ipython_tokens = [
52 (r'(\%+)(\w+)\s+(\.*)(\n)', bygroups(Operator, Keyword,
52 (r"(?s)(\s*)(%%)(\w+)(.*)", bygroups(Text, Operator, Keyword, Text)),
53 (r'(?s)(^\s*)(%%!)([^\n]*\n)(.*)', bygroups(Text, Operator, Text, using(BashLexer))),
54 (r"(%%?)(\w+)(\?\??)$", bygroups(Operator, Keyword, Operator)),
55 (r"\b(\?\??)(\s*)$", bygroups(Operator, Text)),
56 (r'(%)(sx|sc|system)(.*)(\n)', bygroups(Operator, Keyword,
53 using(BashLexer), Text)),
57 using(BashLexer), Text)),
54 (r'(\%+)(\w+)\b', bygroups(Operator, Keyword)),
58 (r'(%)(\w+)(.*\n)', bygroups(Operator, Keyword, Text)),
55 (r'^(!)(.+)(\n)', bygroups(Operator, using(BashLexer), Text)),
59 (r'^(!!)(.+)(\n)', bygroups(Operator, using(BashLexer), Text)),
60 (r'(!)(.+)(\n)', bygroups(Operator, using(BashLexer), Text)),
56 ]
61 ]
57
62
58 def build_ipy_lexer(python3):
63 def build_ipy_lexer(python3):
59 """Builds IPython lexers depending on the value of `python3`.
64 """Builds IPython lexers depending on the value of `python3`.
60
65
61 The lexer inherits from an appropriate Python lexer and then adds
66 The lexer inherits from an appropriate Python lexer and then adds
62 information about IPython specific keywords (i.e. magic commands,
67 information about IPython specific keywords (i.e. magic commands,
63 shell commands, etc.)
68 shell commands, etc.)
64
69
65 Parameters
70 Parameters
66 ----------
71 ----------
67 python3 : bool
72 python3 : bool
68 If `True`, then build an IPython lexer from a Python 3 lexer.
73 If `True`, then build an IPython lexer from a Python 3 lexer.
69
74
70 """
75 """
71 # It would be nice to have a single IPython lexer class which takes
76 # It would be nice to have a single IPython lexer class which takes
72 # a boolean `python3`. But since there are two Python lexer classes,
77 # a boolean `python3`. But since there are two Python lexer classes,
73 # we will also have two IPython lexer classes.
78 # we will also have two IPython lexer classes.
74 if python3:
79 if python3:
75 PyLexer = Python3Lexer
80 PyLexer = Python3Lexer
76 clsname = 'IPython3Lexer'
81 clsname = 'IPython3Lexer'
77 name = 'IPython3'
82 name = 'IPython3'
78 aliases = ['ipython3']
83 aliases = ['ipython3']
79 doc = """IPython3 Lexer"""
84 doc = """IPython3 Lexer"""
80 else:
85 else:
81 PyLexer = PythonLexer
86 PyLexer = PythonLexer
82 clsname = 'IPythonLexer'
87 clsname = 'IPythonLexer'
83 name = 'IPython'
88 name = 'IPython'
84 aliases = ['ipython2', 'ipython']
89 aliases = ['ipython2', 'ipython']
85 doc = """IPython Lexer"""
90 doc = """IPython Lexer"""
86
91
87 tokens = PyLexer.tokens.copy()
92 tokens = PyLexer.tokens.copy()
88 tokens['root'] = ipython_tokens + tokens['root']
93 tokens['root'] = ipython_tokens + tokens['root']
89
94
90 attrs = {'name': name, 'aliases': aliases, 'filenames': [],
95 attrs = {'name': name, 'aliases': aliases, 'filenames': [],
91 '__doc__': doc, 'tokens': tokens}
96 '__doc__': doc, 'tokens': tokens}
92
97
93 return type(name, (PyLexer,), attrs)
98 return type(name, (PyLexer,), attrs)
94
99
95
100
96 IPython3Lexer = build_ipy_lexer(python3=True)
101 IPython3Lexer = build_ipy_lexer(python3=True)
97 IPythonLexer = build_ipy_lexer(python3=False)
102 IPythonLexer = build_ipy_lexer(python3=False)
98
103
99
104
100 class IPythonPartialTracebackLexer(RegexLexer):
105 class IPythonPartialTracebackLexer(RegexLexer):
101 """
106 """
102 Partial lexer for IPython tracebacks.
107 Partial lexer for IPython tracebacks.
103
108
104 Handles all the non-python output. This works for both Python 2.x and 3.x.
109 Handles all the non-python output. This works for both Python 2.x and 3.x.
105
110
106 """
111 """
107 name = 'IPython Partial Traceback'
112 name = 'IPython Partial Traceback'
108
113
109 tokens = {
114 tokens = {
110 'root': [
115 'root': [
111 # Tracebacks for syntax errors have a different style.
116 # Tracebacks for syntax errors have a different style.
112 # For both types of tracebacks, we mark the first line with
117 # For both types of tracebacks, we mark the first line with
113 # Generic.Traceback. For syntax errors, we mark the filename
118 # Generic.Traceback. For syntax errors, we mark the filename
114 # as we mark the filenames for non-syntax tracebacks.
119 # as we mark the filenames for non-syntax tracebacks.
115 #
120 #
116 # These two regexps define how IPythonConsoleLexer finds a
121 # These two regexps define how IPythonConsoleLexer finds a
117 # traceback.
122 # traceback.
118 #
123 #
119 ## Non-syntax traceback
124 ## Non-syntax traceback
120 (r'^(\^C)?(-+\n)', bygroups(Error, Generic.Traceback)),
125 (r'^(\^C)?(-+\n)', bygroups(Error, Generic.Traceback)),
121 ## Syntax traceback
126 ## Syntax traceback
122 (r'^( File)(.*)(, line )(\d+\n)',
127 (r'^( File)(.*)(, line )(\d+\n)',
123 bygroups(Generic.Traceback, Name.Namespace,
128 bygroups(Generic.Traceback, Name.Namespace,
124 Generic.Traceback, Literal.Number.Integer)),
129 Generic.Traceback, Literal.Number.Integer)),
125
130
126 # (Exception Identifier)(Whitespace)(Traceback Message)
131 # (Exception Identifier)(Whitespace)(Traceback Message)
127 (r'(?u)(^[^\d\W]\w*)(\s*)(Traceback.*?\n)',
132 (r'(?u)(^[^\d\W]\w*)(\s*)(Traceback.*?\n)',
128 bygroups(Name.Exception, Generic.Whitespace, Text)),
133 bygroups(Name.Exception, Generic.Whitespace, Text)),
129 # (Module/Filename)(Text)(Callee)(Function Signature)
134 # (Module/Filename)(Text)(Callee)(Function Signature)
130 # Better options for callee and function signature?
135 # Better options for callee and function signature?
131 (r'(.*)( in )(.*)(\(.*\)\n)',
136 (r'(.*)( in )(.*)(\(.*\)\n)',
132 bygroups(Name.Namespace, Text, Name.Entity, Name.Tag)),
137 bygroups(Name.Namespace, Text, Name.Entity, Name.Tag)),
133 # Regular line: (Whitespace)(Line Number)(Python Code)
138 # Regular line: (Whitespace)(Line Number)(Python Code)
134 (r'(\s*?)(\d+)(.*?\n)',
139 (r'(\s*?)(\d+)(.*?\n)',
135 bygroups(Generic.Whitespace, Literal.Number.Integer, Other)),
140 bygroups(Generic.Whitespace, Literal.Number.Integer, Other)),
136 # Emphasized line: (Arrow)(Line Number)(Python Code)
141 # Emphasized line: (Arrow)(Line Number)(Python Code)
137 # Using Exception token so arrow color matches the Exception.
142 # Using Exception token so arrow color matches the Exception.
138 (r'(-*>?\s?)(\d+)(.*?\n)',
143 (r'(-*>?\s?)(\d+)(.*?\n)',
139 bygroups(Name.Exception, Literal.Number.Integer, Other)),
144 bygroups(Name.Exception, Literal.Number.Integer, Other)),
140 # (Exception Identifier)(Message)
145 # (Exception Identifier)(Message)
141 (r'(?u)(^[^\d\W]\w*)(:.*?\n)',
146 (r'(?u)(^[^\d\W]\w*)(:.*?\n)',
142 bygroups(Name.Exception, Text)),
147 bygroups(Name.Exception, Text)),
143 # Tag everything else as Other, will be handled later.
148 # Tag everything else as Other, will be handled later.
144 (r'.*\n', Other),
149 (r'.*\n', Other),
145 ],
150 ],
146 }
151 }
147
152
148
153
149 class IPythonTracebackLexer(DelegatingLexer):
154 class IPythonTracebackLexer(DelegatingLexer):
150 """
155 """
151 IPython traceback lexer.
156 IPython traceback lexer.
152
157
153 For doctests, the tracebacks can be snipped as much as desired with the
158 For doctests, the tracebacks can be snipped as much as desired with the
154 exception to the lines that designate a traceback. For non-syntax error
159 exception to the lines that designate a traceback. For non-syntax error
155 tracebacks, this is the line of hyphens. For syntax error tracebacks,
160 tracebacks, this is the line of hyphens. For syntax error tracebacks,
156 this is the line which lists the File and line number.
161 this is the line which lists the File and line number.
157
162
158 """
163 """
159 # The lexer inherits from DelegatingLexer. The "root" lexer is an
164 # The lexer inherits from DelegatingLexer. The "root" lexer is an
160 # appropriate IPython lexer, which depends on the value of the boolean
165 # appropriate IPython lexer, which depends on the value of the boolean
161 # `python3`. First, we parse with the partial IPython traceback lexer.
166 # `python3`. First, we parse with the partial IPython traceback lexer.
162 # Then, any code marked with the "Other" token is delegated to the root
167 # Then, any code marked with the "Other" token is delegated to the root
163 # lexer.
168 # lexer.
164 #
169 #
165 name = 'IPython Traceback'
170 name = 'IPython Traceback'
166 aliases = ['ipythontb']
171 aliases = ['ipythontb']
167
172
168 def __init__(self, **options):
173 def __init__(self, **options):
169 self.python3 = get_bool_opt(options, 'python3', False)
174 self.python3 = get_bool_opt(options, 'python3', False)
170 if self.python3:
175 if self.python3:
171 self.aliases = ['ipython3tb']
176 self.aliases = ['ipython3tb']
172 else:
177 else:
173 self.aliases = ['ipython2tb', 'ipythontb']
178 self.aliases = ['ipython2tb', 'ipythontb']
174
179
175 if self.python3:
180 if self.python3:
176 IPyLexer = IPython3Lexer
181 IPyLexer = IPython3Lexer
177 else:
182 else:
178 IPyLexer = IPythonLexer
183 IPyLexer = IPythonLexer
179
184
180 DelegatingLexer.__init__(self, IPyLexer,
185 DelegatingLexer.__init__(self, IPyLexer,
181 IPythonPartialTracebackLexer, **options)
186 IPythonPartialTracebackLexer, **options)
182
187
183 @skip_doctest
188 @skip_doctest
184 class IPythonConsoleLexer(Lexer):
189 class IPythonConsoleLexer(Lexer):
185 """
190 """
186 An IPython console lexer for IPython code-blocks and doctests, such as:
191 An IPython console lexer for IPython code-blocks and doctests, such as:
187
192
188 .. code-block:: rst
193 .. code-block:: rst
189
194
190 .. code-block:: ipythonconsole
195 .. code-block:: ipythonconsole
191
196
192 In [1]: a = 'foo'
197 In [1]: a = 'foo'
193
198
194 In [2]: a
199 In [2]: a
195 Out[2]: 'foo'
200 Out[2]: 'foo'
196
201
197 In [3]: print a
202 In [3]: print a
198 foo
203 foo
199
204
200 In [4]: 1 / 0
205 In [4]: 1 / 0
201
206
202
207
203 Support is also provided for IPython exceptions:
208 Support is also provided for IPython exceptions:
204
209
205 .. code-block:: rst
210 .. code-block:: rst
206
211
207 .. code-block:: ipythonconsole
212 .. code-block:: ipythonconsole
208
213
209 In [1]: raise Exception
214 In [1]: raise Exception
210
215
211 ---------------------------------------------------------------------------
216 ---------------------------------------------------------------------------
212 Exception Traceback (most recent call last)
217 Exception Traceback (most recent call last)
213 <ipython-input-1-fca2ab0ca76b> in <module>()
218 <ipython-input-1-fca2ab0ca76b> in <module>()
214 ----> 1 raise Exception
219 ----> 1 raise Exception
215
220
216 Exception:
221 Exception:
217
222
218 """
223 """
219 name = 'IPython console session'
224 name = 'IPython console session'
220 aliases = ['ipythonconsole']
225 aliases = ['ipythonconsole']
221 mimetypes = ['text/x-ipython-console']
226 mimetypes = ['text/x-ipython-console']
222
227
223 # The regexps used to determine what is input and what is output.
228 # The regexps used to determine what is input and what is output.
224 # The default prompts for IPython are:
229 # The default prompts for IPython are:
225 #
230 #
226 # c.PromptManager.in_template = 'In [\#]: '
231 # c.PromptManager.in_template = 'In [\#]: '
227 # c.PromptManager.in2_template = ' .\D.: '
232 # c.PromptManager.in2_template = ' .\D.: '
228 # c.PromptManager.out_template = 'Out[\#]: '
233 # c.PromptManager.out_template = 'Out[\#]: '
229 #
234 #
230 in1_regex = r'In \[[0-9]+\]: '
235 in1_regex = r'In \[[0-9]+\]: '
231 in2_regex = r' \.\.+\.: '
236 in2_regex = r' \.\.+\.: '
232 out_regex = r'Out\[[0-9]+\]: '
237 out_regex = r'Out\[[0-9]+\]: '
233
238
234 #: The regex to determine when a traceback starts.
239 #: The regex to determine when a traceback starts.
235 ipytb_start = re.compile(r'^(\^C)?(-+\n)|^( File)(.*)(, line )(\d+\n)')
240 ipytb_start = re.compile(r'^(\^C)?(-+\n)|^( File)(.*)(, line )(\d+\n)')
236
241
237 def __init__(self, **options):
242 def __init__(self, **options):
238 """Initialize the IPython console lexer.
243 """Initialize the IPython console lexer.
239
244
240 Parameters
245 Parameters
241 ----------
246 ----------
242 python3 : bool
247 python3 : bool
243 If `True`, then the console inputs are parsed using a Python 3
248 If `True`, then the console inputs are parsed using a Python 3
244 lexer. Otherwise, they are parsed using a Python 2 lexer.
249 lexer. Otherwise, they are parsed using a Python 2 lexer.
245 in1_regex : RegexObject
250 in1_regex : RegexObject
246 The compiled regular expression used to detect the start
251 The compiled regular expression used to detect the start
247 of inputs. Although the IPython configuration setting may have a
252 of inputs. Although the IPython configuration setting may have a
248 trailing whitespace, do not include it in the regex. If `None`,
253 trailing whitespace, do not include it in the regex. If `None`,
249 then the default input prompt is assumed.
254 then the default input prompt is assumed.
250 in2_regex : RegexObject
255 in2_regex : RegexObject
251 The compiled regular expression used to detect the continuation
256 The compiled regular expression used to detect the continuation
252 of inputs. Although the IPython configuration setting may have a
257 of inputs. Although the IPython configuration setting may have a
253 trailing whitespace, do not include it in the regex. If `None`,
258 trailing whitespace, do not include it in the regex. If `None`,
254 then the default input prompt is assumed.
259 then the default input prompt is assumed.
255 out_regex : RegexObject
260 out_regex : RegexObject
256 The compiled regular expression used to detect outputs. If `None`,
261 The compiled regular expression used to detect outputs. If `None`,
257 then the default output prompt is assumed.
262 then the default output prompt is assumed.
258
263
259 """
264 """
260 self.python3 = get_bool_opt(options, 'python3', False)
265 self.python3 = get_bool_opt(options, 'python3', False)
261 if self.python3:
266 if self.python3:
262 self.aliases = ['ipython3console']
267 self.aliases = ['ipython3console']
263 else:
268 else:
264 self.aliases = ['ipython2console', 'ipythonconsole']
269 self.aliases = ['ipython2console', 'ipythonconsole']
265
270
266 in1_regex = options.get('in1_regex', self.in1_regex)
271 in1_regex = options.get('in1_regex', self.in1_regex)
267 in2_regex = options.get('in2_regex', self.in2_regex)
272 in2_regex = options.get('in2_regex', self.in2_regex)
268 out_regex = options.get('out_regex', self.out_regex)
273 out_regex = options.get('out_regex', self.out_regex)
269
274
270 # So that we can work with input and output prompts which have been
275 # So that we can work with input and output prompts which have been
271 # rstrip'd (possibly by editors) we also need rstrip'd variants. If
276 # rstrip'd (possibly by editors) we also need rstrip'd variants. If
272 # we do not do this, then such prompts will be tagged as 'output'.
277 # we do not do this, then such prompts will be tagged as 'output'.
273 # The reason can't just use the rstrip'd variants instead is because
278 # The reason can't just use the rstrip'd variants instead is because
274 # we want any whitespace associated with the prompt to be inserted
279 # we want any whitespace associated with the prompt to be inserted
275 # with the token. This allows formatted code to be modified so as hide
280 # with the token. This allows formatted code to be modified so as hide
276 # the appearance of prompts, with the whitespace included. One example
281 # the appearance of prompts, with the whitespace included. One example
277 # use of this is in copybutton.js from the standard lib Python docs.
282 # use of this is in copybutton.js from the standard lib Python docs.
278 in1_regex_rstrip = in1_regex.rstrip() + '\n'
283 in1_regex_rstrip = in1_regex.rstrip() + '\n'
279 in2_regex_rstrip = in2_regex.rstrip() + '\n'
284 in2_regex_rstrip = in2_regex.rstrip() + '\n'
280 out_regex_rstrip = out_regex.rstrip() + '\n'
285 out_regex_rstrip = out_regex.rstrip() + '\n'
281
286
282 # Compile and save them all.
287 # Compile and save them all.
283 attrs = ['in1_regex', 'in2_regex', 'out_regex',
288 attrs = ['in1_regex', 'in2_regex', 'out_regex',
284 'in1_regex_rstrip', 'in2_regex_rstrip', 'out_regex_rstrip']
289 'in1_regex_rstrip', 'in2_regex_rstrip', 'out_regex_rstrip']
285 for attr in attrs:
290 for attr in attrs:
286 self.__setattr__(attr, re.compile(locals()[attr]))
291 self.__setattr__(attr, re.compile(locals()[attr]))
287
292
288 Lexer.__init__(self, **options)
293 Lexer.__init__(self, **options)
289
294
290 if self.python3:
295 if self.python3:
291 pylexer = IPython3Lexer
296 pylexer = IPython3Lexer
292 tblexer = IPythonTracebackLexer
297 tblexer = IPythonTracebackLexer
293 else:
298 else:
294 pylexer = IPythonLexer
299 pylexer = IPythonLexer
295 tblexer = IPythonTracebackLexer
300 tblexer = IPythonTracebackLexer
296
301
297 self.pylexer = pylexer(**options)
302 self.pylexer = pylexer(**options)
298 self.tblexer = tblexer(**options)
303 self.tblexer = tblexer(**options)
299
304
300 self.reset()
305 self.reset()
301
306
302 def reset(self):
307 def reset(self):
303 self.mode = 'output'
308 self.mode = 'output'
304 self.index = 0
309 self.index = 0
305 self.buffer = u''
310 self.buffer = u''
306 self.insertions = []
311 self.insertions = []
307
312
308 def buffered_tokens(self):
313 def buffered_tokens(self):
309 """
314 """
310 Generator of unprocessed tokens after doing insertions and before
315 Generator of unprocessed tokens after doing insertions and before
311 changing to a new state.
316 changing to a new state.
312
317
313 """
318 """
314 if self.mode == 'output':
319 if self.mode == 'output':
315 tokens = [(0, Generic.Output, self.buffer)]
320 tokens = [(0, Generic.Output, self.buffer)]
316 elif self.mode == 'input':
321 elif self.mode == 'input':
317 tokens = self.pylexer.get_tokens_unprocessed(self.buffer)
322 tokens = self.pylexer.get_tokens_unprocessed(self.buffer)
318 else: # traceback
323 else: # traceback
319 tokens = self.tblexer.get_tokens_unprocessed(self.buffer)
324 tokens = self.tblexer.get_tokens_unprocessed(self.buffer)
320
325
321 for i, t, v in do_insertions(self.insertions, tokens):
326 for i, t, v in do_insertions(self.insertions, tokens):
322 # All token indexes are relative to the buffer.
327 # All token indexes are relative to the buffer.
323 yield self.index + i, t, v
328 yield self.index + i, t, v
324
329
325 # Clear it all
330 # Clear it all
326 self.index += len(self.buffer)
331 self.index += len(self.buffer)
327 self.buffer = u''
332 self.buffer = u''
328 self.insertions = []
333 self.insertions = []
329
334
330 def get_mci(self, line):
335 def get_mci(self, line):
331 """
336 """
332 Parses the line and returns a 3-tuple: (mode, code, insertion).
337 Parses the line and returns a 3-tuple: (mode, code, insertion).
333
338
334 `mode` is the next mode (or state) of the lexer, and is always equal
339 `mode` is the next mode (or state) of the lexer, and is always equal
335 to 'input', 'output', or 'tb'.
340 to 'input', 'output', or 'tb'.
336
341
337 `code` is a portion of the line that should be added to the buffer
342 `code` is a portion of the line that should be added to the buffer
338 corresponding to the next mode and eventually lexed by another lexer.
343 corresponding to the next mode and eventually lexed by another lexer.
339 For example, `code` could be Python code if `mode` were 'input'.
344 For example, `code` could be Python code if `mode` were 'input'.
340
345
341 `insertion` is a 3-tuple (index, token, text) representing an
346 `insertion` is a 3-tuple (index, token, text) representing an
342 unprocessed "token" that will be inserted into the stream of tokens
347 unprocessed "token" that will be inserted into the stream of tokens
343 that are created from the buffer once we change modes. This is usually
348 that are created from the buffer once we change modes. This is usually
344 the input or output prompt.
349 the input or output prompt.
345
350
346 In general, the next mode depends on current mode and on the contents
351 In general, the next mode depends on current mode and on the contents
347 of `line`.
352 of `line`.
348
353
349 """
354 """
350 # To reduce the number of regex match checks, we have multiple
355 # To reduce the number of regex match checks, we have multiple
351 # 'if' blocks instead of 'if-elif' blocks.
356 # 'if' blocks instead of 'if-elif' blocks.
352
357
353 # Check for possible end of input
358 # Check for possible end of input
354 in2_match = self.in2_regex.match(line)
359 in2_match = self.in2_regex.match(line)
355 in2_match_rstrip = self.in2_regex_rstrip.match(line)
360 in2_match_rstrip = self.in2_regex_rstrip.match(line)
356 if (in2_match and in2_match.group().rstrip() == line.rstrip()) or \
361 if (in2_match and in2_match.group().rstrip() == line.rstrip()) or \
357 in2_match_rstrip:
362 in2_match_rstrip:
358 end_input = True
363 end_input = True
359 else:
364 else:
360 end_input = False
365 end_input = False
361 if end_input and self.mode != 'tb':
366 if end_input and self.mode != 'tb':
362 # Only look for an end of input when not in tb mode.
367 # Only look for an end of input when not in tb mode.
363 # An ellipsis could appear within the traceback.
368 # An ellipsis could appear within the traceback.
364 mode = 'output'
369 mode = 'output'
365 code = u''
370 code = u''
366 insertion = (0, Generic.Prompt, line)
371 insertion = (0, Generic.Prompt, line)
367 return mode, code, insertion
372 return mode, code, insertion
368
373
369 # Check for output prompt
374 # Check for output prompt
370 out_match = self.out_regex.match(line)
375 out_match = self.out_regex.match(line)
371 out_match_rstrip = self.out_regex_rstrip.match(line)
376 out_match_rstrip = self.out_regex_rstrip.match(line)
372 if out_match or out_match_rstrip:
377 if out_match or out_match_rstrip:
373 mode = 'output'
378 mode = 'output'
374 if out_match:
379 if out_match:
375 idx = out_match.end()
380 idx = out_match.end()
376 else:
381 else:
377 idx = out_match_rstrip.end()
382 idx = out_match_rstrip.end()
378 code = line[idx:]
383 code = line[idx:]
379 # Use the 'heading' token for output. We cannot use Generic.Error
384 # Use the 'heading' token for output. We cannot use Generic.Error
380 # since it would conflict with exceptions.
385 # since it would conflict with exceptions.
381 insertion = (0, Generic.Heading, line[:idx])
386 insertion = (0, Generic.Heading, line[:idx])
382 return mode, code, insertion
387 return mode, code, insertion
383
388
384
389
385 # Check for input or continuation prompt (non stripped version)
390 # Check for input or continuation prompt (non stripped version)
386 in1_match = self.in1_regex.match(line)
391 in1_match = self.in1_regex.match(line)
387 if in1_match or (in2_match and self.mode != 'tb'):
392 if in1_match or (in2_match and self.mode != 'tb'):
388 # New input or when not in tb, continued input.
393 # New input or when not in tb, continued input.
389 # We do not check for continued input when in tb since it is
394 # We do not check for continued input when in tb since it is
390 # allowable to replace a long stack with an ellipsis.
395 # allowable to replace a long stack with an ellipsis.
391 mode = 'input'
396 mode = 'input'
392 if in1_match:
397 if in1_match:
393 idx = in1_match.end()
398 idx = in1_match.end()
394 else: # in2_match
399 else: # in2_match
395 idx = in2_match.end()
400 idx = in2_match.end()
396 code = line[idx:]
401 code = line[idx:]
397 insertion = (0, Generic.Prompt, line[:idx])
402 insertion = (0, Generic.Prompt, line[:idx])
398 return mode, code, insertion
403 return mode, code, insertion
399
404
400 # Check for input or continuation prompt (stripped version)
405 # Check for input or continuation prompt (stripped version)
401 in1_match_rstrip = self.in1_regex_rstrip.match(line)
406 in1_match_rstrip = self.in1_regex_rstrip.match(line)
402 if in1_match_rstrip or (in2_match_rstrip and self.mode != 'tb'):
407 if in1_match_rstrip or (in2_match_rstrip and self.mode != 'tb'):
403 # New input or when not in tb, continued input.
408 # New input or when not in tb, continued input.
404 # We do not check for continued input when in tb since it is
409 # We do not check for continued input when in tb since it is
405 # allowable to replace a long stack with an ellipsis.
410 # allowable to replace a long stack with an ellipsis.
406 mode = 'input'
411 mode = 'input'
407 if in1_match_rstrip:
412 if in1_match_rstrip:
408 idx = in1_match_rstrip.end()
413 idx = in1_match_rstrip.end()
409 else: # in2_match
414 else: # in2_match
410 idx = in2_match_rstrip.end()
415 idx = in2_match_rstrip.end()
411 code = line[idx:]
416 code = line[idx:]
412 insertion = (0, Generic.Prompt, line[:idx])
417 insertion = (0, Generic.Prompt, line[:idx])
413 return mode, code, insertion
418 return mode, code, insertion
414
419
415 # Check for traceback
420 # Check for traceback
416 if self.ipytb_start.match(line):
421 if self.ipytb_start.match(line):
417 mode = 'tb'
422 mode = 'tb'
418 code = line
423 code = line
419 insertion = None
424 insertion = None
420 return mode, code, insertion
425 return mode, code, insertion
421
426
422 # All other stuff...
427 # All other stuff...
423 if self.mode in ('input', 'output'):
428 if self.mode in ('input', 'output'):
424 # We assume all other text is output. Multiline input that
429 # We assume all other text is output. Multiline input that
425 # does not use the continuation marker cannot be detected.
430 # does not use the continuation marker cannot be detected.
426 # For example, the 3 in the following is clearly output:
431 # For example, the 3 in the following is clearly output:
427 #
432 #
428 # In [1]: print 3
433 # In [1]: print 3
429 # 3
434 # 3
430 #
435 #
431 # But the following second line is part of the input:
436 # But the following second line is part of the input:
432 #
437 #
433 # In [2]: while True:
438 # In [2]: while True:
434 # print True
439 # print True
435 #
440 #
436 # In both cases, the 2nd line will be 'output'.
441 # In both cases, the 2nd line will be 'output'.
437 #
442 #
438 mode = 'output'
443 mode = 'output'
439 else:
444 else:
440 mode = 'tb'
445 mode = 'tb'
441
446
442 code = line
447 code = line
443 insertion = None
448 insertion = None
444
449
445 return mode, code, insertion
450 return mode, code, insertion
446
451
447 def get_tokens_unprocessed(self, text):
452 def get_tokens_unprocessed(self, text):
448 self.reset()
453 self.reset()
449 for match in line_re.finditer(text):
454 for match in line_re.finditer(text):
450 line = match.group()
455 line = match.group()
451 mode, code, insertion = self.get_mci(line)
456 mode, code, insertion = self.get_mci(line)
452
457
453 if mode != self.mode:
458 if mode != self.mode:
454 # Yield buffered tokens before transitioning to new mode.
459 # Yield buffered tokens before transitioning to new mode.
455 for token in self.buffered_tokens():
460 for token in self.buffered_tokens():
456 yield token
461 yield token
457 self.mode = mode
462 self.mode = mode
458
463
459 if insertion:
464 if insertion:
460 self.insertions.append((len(self.buffer), [insertion]))
465 self.insertions.append((len(self.buffer), [insertion]))
461 self.buffer += code
466 self.buffer += code
462 else:
467 else:
463 for token in self.buffered_tokens():
468 for token in self.buffered_tokens():
464 yield token
469 yield token
465
470
466 class IPyLexer(Lexer):
471 class IPyLexer(Lexer):
467 """
472 """
468 Primary lexer for all IPython-like code.
473 Primary lexer for all IPython-like code.
469
474
470 This is a simple helper lexer. If the first line of the text begins with
475 This is a simple helper lexer. If the first line of the text begins with
471 "In \[[0-9]+\]:", then the entire text is parsed with an IPython console
476 "In \[[0-9]+\]:", then the entire text is parsed with an IPython console
472 lexer. If not, then the entire text is parsed with an IPython lexer.
477 lexer. If not, then the entire text is parsed with an IPython lexer.
473
478
474 The goal is to reduce the number of lexers that are registered
479 The goal is to reduce the number of lexers that are registered
475 with Pygments.
480 with Pygments.
476
481
477 """
482 """
478 name = 'IPy session'
483 name = 'IPy session'
479 aliases = ['ipy']
484 aliases = ['ipy']
480
485
481 def __init__(self, **options):
486 def __init__(self, **options):
482 self.python3 = get_bool_opt(options, 'python3', False)
487 self.python3 = get_bool_opt(options, 'python3', False)
483 if self.python3:
488 if self.python3:
484 self.aliases = ['ipy3']
489 self.aliases = ['ipy3']
485 else:
490 else:
486 self.aliases = ['ipy2', 'ipy']
491 self.aliases = ['ipy2', 'ipy']
487
492
488 Lexer.__init__(self, **options)
493 Lexer.__init__(self, **options)
489
494
490 self.IPythonLexer = IPythonLexer(**options)
495 self.IPythonLexer = IPythonLexer(**options)
491 self.IPythonConsoleLexer = IPythonConsoleLexer(**options)
496 self.IPythonConsoleLexer = IPythonConsoleLexer(**options)
492
497
493 def get_tokens_unprocessed(self, text):
498 def get_tokens_unprocessed(self, text):
494 # Search for the input prompt anywhere...this allows code blocks to
499 # Search for the input prompt anywhere...this allows code blocks to
495 # begin with comments as well.
500 # begin with comments as well.
496 if re.match(r'.*(In \[[0-9]+\]:)', text.strip(), re.DOTALL):
501 if re.match(r'.*(In \[[0-9]+\]:)', text.strip(), re.DOTALL):
497 lex = self.IPythonConsoleLexer
502 lex = self.IPythonConsoleLexer
498 else:
503 else:
499 lex = self.IPythonLexer
504 lex = self.IPythonLexer
500 for token in lex.get_tokens_unprocessed(text):
505 for token in lex.get_tokens_unprocessed(text):
501 yield token
506 yield token
502
507
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