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1 """Completion for IPython.
1 """Completion for IPython.
2
2
3 This module started as fork of the rlcompleter module in the Python standard
3 This module started as fork of the rlcompleter module in the Python standard
4 library. The original enhancements made to rlcompleter have been sent
4 library. The original enhancements made to rlcompleter have been sent
5 upstream and were accepted as of Python 2.3,
5 upstream and were accepted as of Python 2.3,
6
6
7 This module now support a wide variety of completion mechanism both available
7 This module now support a wide variety of completion mechanism both available
8 for normal classic Python code, as well as completer for IPython specific
8 for normal classic Python code, as well as completer for IPython specific
9 Syntax like magics.
9 Syntax like magics.
10
10
11 Latex and Unicode completion
11 Latex and Unicode completion
12 ============================
12 ============================
13
13
14 IPython and compatible frontends not only can complete your code, but can help
14 IPython and compatible frontends not only can complete your code, but can help
15 you to input a wide range of characters. In particular we allow you to insert
15 you to input a wide range of characters. In particular we allow you to insert
16 a unicode character using the tab completion mechanism.
16 a unicode character using the tab completion mechanism.
17
17
18 Forward latex/unicode completion
18 Forward latex/unicode completion
19 --------------------------------
19 --------------------------------
20
20
21 Forward completion allows you to easily type a unicode character using its latex
21 Forward completion allows you to easily type a unicode character using its latex
22 name, or unicode long description. To do so type a backslash follow by the
22 name, or unicode long description. To do so type a backslash follow by the
23 relevant name and press tab:
23 relevant name and press tab:
24
24
25
25
26 Using latex completion:
26 Using latex completion:
27
27
28 .. code::
28 .. code::
29
29
30 \\alpha<tab>
30 \\alpha<tab>
31 Ξ±
31 Ξ±
32
32
33 or using unicode completion:
33 or using unicode completion:
34
34
35
35
36 .. code::
36 .. code::
37
37
38 \\GREEK SMALL LETTER ALPHA<tab>
38 \\GREEK SMALL LETTER ALPHA<tab>
39 Ξ±
39 Ξ±
40
40
41
41
42 Only valid Python identifiers will complete. Combining characters (like arrow or
42 Only valid Python identifiers will complete. Combining characters (like arrow or
43 dots) are also available, unlike latex they need to be put after the their
43 dots) are also available, unlike latex they need to be put after the their
44 counterpart that is to say, `F\\\\vec<tab>` is correct, not `\\\\vec<tab>F`.
44 counterpart that is to say, `F\\\\vec<tab>` is correct, not `\\\\vec<tab>F`.
45
45
46 Some browsers are known to display combining characters incorrectly.
46 Some browsers are known to display combining characters incorrectly.
47
47
48 Backward latex completion
48 Backward latex completion
49 -------------------------
49 -------------------------
50
50
51 It is sometime challenging to know how to type a character, if you are using
51 It is sometime challenging to know how to type a character, if you are using
52 IPython, or any compatible frontend you can prepend backslash to the character
52 IPython, or any compatible frontend you can prepend backslash to the character
53 and press `<tab>` to expand it to its latex form.
53 and press `<tab>` to expand it to its latex form.
54
54
55 .. code::
55 .. code::
56
56
57 \\Ξ±<tab>
57 \\Ξ±<tab>
58 \\alpha
58 \\alpha
59
59
60
60
61 Both forward and backward completions can be deactivated by setting the
61 Both forward and backward completions can be deactivated by setting the
62 ``Completer.backslash_combining_completions`` option to ``False``.
62 ``Completer.backslash_combining_completions`` option to ``False``.
63
63
64
64
65 Experimental
65 Experimental
66 ============
66 ============
67
67
68 Starting with IPython 6.0, this module can make use of the Jedi library to
68 Starting with IPython 6.0, this module can make use of the Jedi library to
69 generate completions both using static analysis of the code, and dynamically
69 generate completions both using static analysis of the code, and dynamically
70 inspecting multiple namespaces. Jedi is an autocompletion and static analysis
70 inspecting multiple namespaces. Jedi is an autocompletion and static analysis
71 for Python. The APIs attached to this new mechanism is unstable and will
71 for Python. The APIs attached to this new mechanism is unstable and will
72 raise unless use in an :any:`provisionalcompleter` context manager.
72 raise unless use in an :any:`provisionalcompleter` context manager.
73
73
74 You will find that the following are experimental:
74 You will find that the following are experimental:
75
75
76 - :any:`provisionalcompleter`
76 - :any:`provisionalcompleter`
77 - :any:`IPCompleter.completions`
77 - :any:`IPCompleter.completions`
78 - :any:`Completion`
78 - :any:`Completion`
79 - :any:`rectify_completions`
79 - :any:`rectify_completions`
80
80
81 .. note::
81 .. note::
82
82
83 better name for :any:`rectify_completions` ?
83 better name for :any:`rectify_completions` ?
84
84
85 We welcome any feedback on these new API, and we also encourage you to try this
85 We welcome any feedback on these new API, and we also encourage you to try this
86 module in debug mode (start IPython with ``--Completer.debug=True``) in order
86 module in debug mode (start IPython with ``--Completer.debug=True``) in order
87 to have extra logging information if :any:`jedi` is crashing, or if current
87 to have extra logging information if :any:`jedi` is crashing, or if current
88 IPython completer pending deprecations are returning results not yet handled
88 IPython completer pending deprecations are returning results not yet handled
89 by :any:`jedi`
89 by :any:`jedi`
90
90
91 Using Jedi for tab completion allow snippets like the following to work without
91 Using Jedi for tab completion allow snippets like the following to work without
92 having to execute any code:
92 having to execute any code:
93
93
94 >>> myvar = ['hello', 42]
94 >>> myvar = ['hello', 42]
95 ... myvar[1].bi<tab>
95 ... myvar[1].bi<tab>
96
96
97 Tab completion will be able to infer that ``myvar[1]`` is a real number without
97 Tab completion will be able to infer that ``myvar[1]`` is a real number without
98 executing any code unlike the previously available ``IPCompleter.greedy``
98 executing any code unlike the previously available ``IPCompleter.greedy``
99 option.
99 option.
100
100
101 Be sure to update :any:`jedi` to the latest stable version or to try the
101 Be sure to update :any:`jedi` to the latest stable version or to try the
102 current development version to get better completions.
102 current development version to get better completions.
103 """
103 """
104
104
105
105
106 # Copyright (c) IPython Development Team.
106 # Copyright (c) IPython Development Team.
107 # Distributed under the terms of the Modified BSD License.
107 # Distributed under the terms of the Modified BSD License.
108 #
108 #
109 # Some of this code originated from rlcompleter in the Python standard library
109 # Some of this code originated from rlcompleter in the Python standard library
110 # Copyright (C) 2001 Python Software Foundation, www.python.org
110 # Copyright (C) 2001 Python Software Foundation, www.python.org
111
111
112
112
113 import builtins as builtin_mod
113 import builtins as builtin_mod
114 import glob
114 import glob
115 import inspect
115 import inspect
116 import itertools
116 import itertools
117 import keyword
117 import keyword
118 import os
118 import os
119 import re
119 import re
120 import string
120 import string
121 import sys
121 import sys
122 import time
122 import time
123 import unicodedata
123 import unicodedata
124 import uuid
124 import uuid
125 import warnings
125 import warnings
126 from contextlib import contextmanager
126 from contextlib import contextmanager
127 from importlib import import_module
127 from importlib import import_module
128 from types import SimpleNamespace
128 from types import SimpleNamespace
129 from typing import Iterable, Iterator, List, Tuple, Union, Any, Sequence, Dict, NamedTuple, Pattern, Optional
129 from typing import Iterable, Iterator, List, Tuple, Union, Any, Sequence, Dict, NamedTuple, Pattern, Optional
130
130
131 from IPython.core.error import TryNext
131 from IPython.core.error import TryNext
132 from IPython.core.inputtransformer2 import ESC_MAGIC
132 from IPython.core.inputtransformer2 import ESC_MAGIC
133 from IPython.core.latex_symbols import latex_symbols, reverse_latex_symbol
133 from IPython.core.latex_symbols import latex_symbols, reverse_latex_symbol
134 from IPython.core.oinspect import InspectColors
134 from IPython.core.oinspect import InspectColors
135 from IPython.testing.skipdoctest import skip_doctest
135 from IPython.testing.skipdoctest import skip_doctest
136 from IPython.utils import generics
136 from IPython.utils import generics
137 from IPython.utils.dir2 import dir2, get_real_method
137 from IPython.utils.dir2 import dir2, get_real_method
138 from IPython.utils.path import ensure_dir_exists
138 from IPython.utils.path import ensure_dir_exists
139 from IPython.utils.process import arg_split
139 from IPython.utils.process import arg_split
140 from traitlets import Bool, Enum, Int, List as ListTrait, Unicode, default, observe
140 from traitlets import Bool, Enum, Int, List as ListTrait, Unicode, default, observe
141 from traitlets.config.configurable import Configurable
141 from traitlets.config.configurable import Configurable
142
142
143 import __main__
143 import __main__
144
144
145 # skip module docstests
145 # skip module docstests
146 __skip_doctest__ = True
146 __skip_doctest__ = True
147
147
148 try:
148 try:
149 import jedi
149 import jedi
150 jedi.settings.case_insensitive_completion = False
150 jedi.settings.case_insensitive_completion = False
151 import jedi.api.helpers
151 import jedi.api.helpers
152 import jedi.api.classes
152 import jedi.api.classes
153 JEDI_INSTALLED = True
153 JEDI_INSTALLED = True
154 except ImportError:
154 except ImportError:
155 JEDI_INSTALLED = False
155 JEDI_INSTALLED = False
156 #-----------------------------------------------------------------------------
156 #-----------------------------------------------------------------------------
157 # Globals
157 # Globals
158 #-----------------------------------------------------------------------------
158 #-----------------------------------------------------------------------------
159
159
160 # ranges where we have most of the valid unicode names. We could be more finer
160 # ranges where we have most of the valid unicode names. We could be more finer
161 # grained but is it worth it for performance While unicode have character in the
161 # grained but is it worth it for performance While unicode have character in the
162 # range 0, 0x110000, we seem to have name for about 10% of those. (131808 as I
162 # range 0, 0x110000, we seem to have name for about 10% of those. (131808 as I
163 # write this). With below range we cover them all, with a density of ~67%
163 # write this). With below range we cover them all, with a density of ~67%
164 # biggest next gap we consider only adds up about 1% density and there are 600
164 # biggest next gap we consider only adds up about 1% density and there are 600
165 # gaps that would need hard coding.
165 # gaps that would need hard coding.
166 _UNICODE_RANGES = [(32, 0x3134b), (0xe0001, 0xe01f0)]
166 _UNICODE_RANGES = [(32, 0x3134b), (0xe0001, 0xe01f0)]
167
167
168 # Public API
168 # Public API
169 __all__ = ['Completer','IPCompleter']
169 __all__ = ['Completer','IPCompleter']
170
170
171 if sys.platform == 'win32':
171 if sys.platform == 'win32':
172 PROTECTABLES = ' '
172 PROTECTABLES = ' '
173 else:
173 else:
174 PROTECTABLES = ' ()[]{}?=\\|;:\'#*"^&'
174 PROTECTABLES = ' ()[]{}?=\\|;:\'#*"^&'
175
175
176 # Protect against returning an enormous number of completions which the frontend
176 # Protect against returning an enormous number of completions which the frontend
177 # may have trouble processing.
177 # may have trouble processing.
178 MATCHES_LIMIT = 500
178 MATCHES_LIMIT = 500
179
179
180
180
181 class ProvisionalCompleterWarning(FutureWarning):
181 class ProvisionalCompleterWarning(FutureWarning):
182 """
182 """
183 Exception raise by an experimental feature in this module.
183 Exception raise by an experimental feature in this module.
184
184
185 Wrap code in :any:`provisionalcompleter` context manager if you
185 Wrap code in :any:`provisionalcompleter` context manager if you
186 are certain you want to use an unstable feature.
186 are certain you want to use an unstable feature.
187 """
187 """
188 pass
188 pass
189
189
190 warnings.filterwarnings('error', category=ProvisionalCompleterWarning)
190 warnings.filterwarnings('error', category=ProvisionalCompleterWarning)
191
191
192
192
193 @skip_doctest
193 @skip_doctest
194 @contextmanager
194 @contextmanager
195 def provisionalcompleter(action='ignore'):
195 def provisionalcompleter(action='ignore'):
196 """
196 """
197 This context manager has to be used in any place where unstable completer
197 This context manager has to be used in any place where unstable completer
198 behavior and API may be called.
198 behavior and API may be called.
199
199
200 >>> with provisionalcompleter():
200 >>> with provisionalcompleter():
201 ... completer.do_experimental_things() # works
201 ... completer.do_experimental_things() # works
202
202
203 >>> completer.do_experimental_things() # raises.
203 >>> completer.do_experimental_things() # raises.
204
204
205 .. note::
205 .. note::
206
206
207 Unstable
207 Unstable
208
208
209 By using this context manager you agree that the API in use may change
209 By using this context manager you agree that the API in use may change
210 without warning, and that you won't complain if they do so.
210 without warning, and that you won't complain if they do so.
211
211
212 You also understand that, if the API is not to your liking, you should report
212 You also understand that, if the API is not to your liking, you should report
213 a bug to explain your use case upstream.
213 a bug to explain your use case upstream.
214
214
215 We'll be happy to get your feedback, feature requests, and improvements on
215 We'll be happy to get your feedback, feature requests, and improvements on
216 any of the unstable APIs!
216 any of the unstable APIs!
217 """
217 """
218 with warnings.catch_warnings():
218 with warnings.catch_warnings():
219 warnings.filterwarnings(action, category=ProvisionalCompleterWarning)
219 warnings.filterwarnings(action, category=ProvisionalCompleterWarning)
220 yield
220 yield
221
221
222
222
223 def has_open_quotes(s):
223 def has_open_quotes(s):
224 """Return whether a string has open quotes.
224 """Return whether a string has open quotes.
225
225
226 This simply counts whether the number of quote characters of either type in
226 This simply counts whether the number of quote characters of either type in
227 the string is odd.
227 the string is odd.
228
228
229 Returns
229 Returns
230 -------
230 -------
231 If there is an open quote, the quote character is returned. Else, return
231 If there is an open quote, the quote character is returned. Else, return
232 False.
232 False.
233 """
233 """
234 # We check " first, then ', so complex cases with nested quotes will get
234 # We check " first, then ', so complex cases with nested quotes will get
235 # the " to take precedence.
235 # the " to take precedence.
236 if s.count('"') % 2:
236 if s.count('"') % 2:
237 return '"'
237 return '"'
238 elif s.count("'") % 2:
238 elif s.count("'") % 2:
239 return "'"
239 return "'"
240 else:
240 else:
241 return False
241 return False
242
242
243
243
244 def protect_filename(s, protectables=PROTECTABLES):
244 def protect_filename(s, protectables=PROTECTABLES):
245 """Escape a string to protect certain characters."""
245 """Escape a string to protect certain characters."""
246 if set(s) & set(protectables):
246 if set(s) & set(protectables):
247 if sys.platform == "win32":
247 if sys.platform == "win32":
248 return '"' + s + '"'
248 return '"' + s + '"'
249 else:
249 else:
250 return "".join(("\\" + c if c in protectables else c) for c in s)
250 return "".join(("\\" + c if c in protectables else c) for c in s)
251 else:
251 else:
252 return s
252 return s
253
253
254
254
255 def expand_user(path:str) -> Tuple[str, bool, str]:
255 def expand_user(path:str) -> Tuple[str, bool, str]:
256 """Expand ``~``-style usernames in strings.
256 """Expand ``~``-style usernames in strings.
257
257
258 This is similar to :func:`os.path.expanduser`, but it computes and returns
258 This is similar to :func:`os.path.expanduser`, but it computes and returns
259 extra information that will be useful if the input was being used in
259 extra information that will be useful if the input was being used in
260 computing completions, and you wish to return the completions with the
260 computing completions, and you wish to return the completions with the
261 original '~' instead of its expanded value.
261 original '~' instead of its expanded value.
262
262
263 Parameters
263 Parameters
264 ----------
264 ----------
265 path : str
265 path : str
266 String to be expanded. If no ~ is present, the output is the same as the
266 String to be expanded. If no ~ is present, the output is the same as the
267 input.
267 input.
268
268
269 Returns
269 Returns
270 -------
270 -------
271 newpath : str
271 newpath : str
272 Result of ~ expansion in the input path.
272 Result of ~ expansion in the input path.
273 tilde_expand : bool
273 tilde_expand : bool
274 Whether any expansion was performed or not.
274 Whether any expansion was performed or not.
275 tilde_val : str
275 tilde_val : str
276 The value that ~ was replaced with.
276 The value that ~ was replaced with.
277 """
277 """
278 # Default values
278 # Default values
279 tilde_expand = False
279 tilde_expand = False
280 tilde_val = ''
280 tilde_val = ''
281 newpath = path
281 newpath = path
282
282
283 if path.startswith('~'):
283 if path.startswith('~'):
284 tilde_expand = True
284 tilde_expand = True
285 rest = len(path)-1
285 rest = len(path)-1
286 newpath = os.path.expanduser(path)
286 newpath = os.path.expanduser(path)
287 if rest:
287 if rest:
288 tilde_val = newpath[:-rest]
288 tilde_val = newpath[:-rest]
289 else:
289 else:
290 tilde_val = newpath
290 tilde_val = newpath
291
291
292 return newpath, tilde_expand, tilde_val
292 return newpath, tilde_expand, tilde_val
293
293
294
294
295 def compress_user(path:str, tilde_expand:bool, tilde_val:str) -> str:
295 def compress_user(path:str, tilde_expand:bool, tilde_val:str) -> str:
296 """Does the opposite of expand_user, with its outputs.
296 """Does the opposite of expand_user, with its outputs.
297 """
297 """
298 if tilde_expand:
298 if tilde_expand:
299 return path.replace(tilde_val, '~')
299 return path.replace(tilde_val, '~')
300 else:
300 else:
301 return path
301 return path
302
302
303
303
304 def completions_sorting_key(word):
304 def completions_sorting_key(word):
305 """key for sorting completions
305 """key for sorting completions
306
306
307 This does several things:
307 This does several things:
308
308
309 - Demote any completions starting with underscores to the end
309 - Demote any completions starting with underscores to the end
310 - Insert any %magic and %%cellmagic completions in the alphabetical order
310 - Insert any %magic and %%cellmagic completions in the alphabetical order
311 by their name
311 by their name
312 """
312 """
313 prio1, prio2 = 0, 0
313 prio1, prio2 = 0, 0
314
314
315 if word.startswith('__'):
315 if word.startswith('__'):
316 prio1 = 2
316 prio1 = 2
317 elif word.startswith('_'):
317 elif word.startswith('_'):
318 prio1 = 1
318 prio1 = 1
319
319
320 if word.endswith('='):
320 if word.endswith('='):
321 prio1 = -1
321 prio1 = -1
322
322
323 if word.startswith('%%'):
323 if word.startswith('%%'):
324 # If there's another % in there, this is something else, so leave it alone
324 # If there's another % in there, this is something else, so leave it alone
325 if not "%" in word[2:]:
325 if not "%" in word[2:]:
326 word = word[2:]
326 word = word[2:]
327 prio2 = 2
327 prio2 = 2
328 elif word.startswith('%'):
328 elif word.startswith('%'):
329 if not "%" in word[1:]:
329 if not "%" in word[1:]:
330 word = word[1:]
330 word = word[1:]
331 prio2 = 1
331 prio2 = 1
332
332
333 return prio1, word, prio2
333 return prio1, word, prio2
334
334
335
335
336 class _FakeJediCompletion:
336 class _FakeJediCompletion:
337 """
337 """
338 This is a workaround to communicate to the UI that Jedi has crashed and to
338 This is a workaround to communicate to the UI that Jedi has crashed and to
339 report a bug. Will be used only id :any:`IPCompleter.debug` is set to true.
339 report a bug. Will be used only id :any:`IPCompleter.debug` is set to true.
340
340
341 Added in IPython 6.0 so should likely be removed for 7.0
341 Added in IPython 6.0 so should likely be removed for 7.0
342
342
343 """
343 """
344
344
345 def __init__(self, name):
345 def __init__(self, name):
346
346
347 self.name = name
347 self.name = name
348 self.complete = name
348 self.complete = name
349 self.type = 'crashed'
349 self.type = 'crashed'
350 self.name_with_symbols = name
350 self.name_with_symbols = name
351 self.signature = ''
351 self.signature = ''
352 self._origin = 'fake'
352 self._origin = 'fake'
353
353
354 def __repr__(self):
354 def __repr__(self):
355 return '<Fake completion object jedi has crashed>'
355 return '<Fake completion object jedi has crashed>'
356
356
357
357
358 class Completion:
358 class Completion:
359 """
359 """
360 Completion object used and return by IPython completers.
360 Completion object used and return by IPython completers.
361
361
362 .. warning::
362 .. warning::
363
363
364 Unstable
364 Unstable
365
365
366 This function is unstable, API may change without warning.
366 This function is unstable, API may change without warning.
367 It will also raise unless use in proper context manager.
367 It will also raise unless use in proper context manager.
368
368
369 This act as a middle ground :any:`Completion` object between the
369 This act as a middle ground :any:`Completion` object between the
370 :any:`jedi.api.classes.Completion` object and the Prompt Toolkit completion
370 :any:`jedi.api.classes.Completion` object and the Prompt Toolkit completion
371 object. While Jedi need a lot of information about evaluator and how the
371 object. While Jedi need a lot of information about evaluator and how the
372 code should be ran/inspected, PromptToolkit (and other frontend) mostly
372 code should be ran/inspected, PromptToolkit (and other frontend) mostly
373 need user facing information.
373 need user facing information.
374
374
375 - Which range should be replaced replaced by what.
375 - Which range should be replaced replaced by what.
376 - Some metadata (like completion type), or meta information to displayed to
376 - Some metadata (like completion type), or meta information to displayed to
377 the use user.
377 the use user.
378
378
379 For debugging purpose we can also store the origin of the completion (``jedi``,
379 For debugging purpose we can also store the origin of the completion (``jedi``,
380 ``IPython.python_matches``, ``IPython.magics_matches``...).
380 ``IPython.python_matches``, ``IPython.magics_matches``...).
381 """
381 """
382
382
383 __slots__ = ['start', 'end', 'text', 'type', 'signature', '_origin']
383 __slots__ = ['start', 'end', 'text', 'type', 'signature', '_origin']
384
384
385 def __init__(self, start: int, end: int, text: str, *, type: str=None, _origin='', signature='') -> None:
385 def __init__(self, start: int, end: int, text: str, *, type: str=None, _origin='', signature='') -> None:
386 warnings.warn("``Completion`` is a provisional API (as of IPython 6.0). "
386 warnings.warn("``Completion`` is a provisional API (as of IPython 6.0). "
387 "It may change without warnings. "
387 "It may change without warnings. "
388 "Use in corresponding context manager.",
388 "Use in corresponding context manager.",
389 category=ProvisionalCompleterWarning, stacklevel=2)
389 category=ProvisionalCompleterWarning, stacklevel=2)
390
390
391 self.start = start
391 self.start = start
392 self.end = end
392 self.end = end
393 self.text = text
393 self.text = text
394 self.type = type
394 self.type = type
395 self.signature = signature
395 self.signature = signature
396 self._origin = _origin
396 self._origin = _origin
397
397
398 def __repr__(self):
398 def __repr__(self):
399 return '<Completion start=%s end=%s text=%r type=%r, signature=%r,>' % \
399 return '<Completion start=%s end=%s text=%r type=%r, signature=%r,>' % \
400 (self.start, self.end, self.text, self.type or '?', self.signature or '?')
400 (self.start, self.end, self.text, self.type or '?', self.signature or '?')
401
401
402 def __eq__(self, other)->Bool:
402 def __eq__(self, other)->Bool:
403 """
403 """
404 Equality and hash do not hash the type (as some completer may not be
404 Equality and hash do not hash the type (as some completer may not be
405 able to infer the type), but are use to (partially) de-duplicate
405 able to infer the type), but are use to (partially) de-duplicate
406 completion.
406 completion.
407
407
408 Completely de-duplicating completion is a bit tricker that just
408 Completely de-duplicating completion is a bit tricker that just
409 comparing as it depends on surrounding text, which Completions are not
409 comparing as it depends on surrounding text, which Completions are not
410 aware of.
410 aware of.
411 """
411 """
412 return self.start == other.start and \
412 return self.start == other.start and \
413 self.end == other.end and \
413 self.end == other.end and \
414 self.text == other.text
414 self.text == other.text
415
415
416 def __hash__(self):
416 def __hash__(self):
417 return hash((self.start, self.end, self.text))
417 return hash((self.start, self.end, self.text))
418
418
419
419
420 _IC = Iterable[Completion]
420 _IC = Iterable[Completion]
421
421
422
422
423 def _deduplicate_completions(text: str, completions: _IC)-> _IC:
423 def _deduplicate_completions(text: str, completions: _IC)-> _IC:
424 """
424 """
425 Deduplicate a set of completions.
425 Deduplicate a set of completions.
426
426
427 .. warning::
427 .. warning::
428
428
429 Unstable
429 Unstable
430
430
431 This function is unstable, API may change without warning.
431 This function is unstable, API may change without warning.
432
432
433 Parameters
433 Parameters
434 ----------
434 ----------
435 text : str
435 text : str
436 text that should be completed.
436 text that should be completed.
437 completions : Iterator[Completion]
437 completions : Iterator[Completion]
438 iterator over the completions to deduplicate
438 iterator over the completions to deduplicate
439
439
440 Yields
440 Yields
441 ------
441 ------
442 `Completions` objects
442 `Completions` objects
443 Completions coming from multiple sources, may be different but end up having
443 Completions coming from multiple sources, may be different but end up having
444 the same effect when applied to ``text``. If this is the case, this will
444 the same effect when applied to ``text``. If this is the case, this will
445 consider completions as equal and only emit the first encountered.
445 consider completions as equal and only emit the first encountered.
446 Not folded in `completions()` yet for debugging purpose, and to detect when
446 Not folded in `completions()` yet for debugging purpose, and to detect when
447 the IPython completer does return things that Jedi does not, but should be
447 the IPython completer does return things that Jedi does not, but should be
448 at some point.
448 at some point.
449 """
449 """
450 completions = list(completions)
450 completions = list(completions)
451 if not completions:
451 if not completions:
452 return
452 return
453
453
454 new_start = min(c.start for c in completions)
454 new_start = min(c.start for c in completions)
455 new_end = max(c.end for c in completions)
455 new_end = max(c.end for c in completions)
456
456
457 seen = set()
457 seen = set()
458 for c in completions:
458 for c in completions:
459 new_text = text[new_start:c.start] + c.text + text[c.end:new_end]
459 new_text = text[new_start:c.start] + c.text + text[c.end:new_end]
460 if new_text not in seen:
460 if new_text not in seen:
461 yield c
461 yield c
462 seen.add(new_text)
462 seen.add(new_text)
463
463
464
464
465 def rectify_completions(text: str, completions: _IC, *, _debug: bool = False) -> _IC:
465 def rectify_completions(text: str, completions: _IC, *, _debug: bool = False) -> _IC:
466 """
466 """
467 Rectify a set of completions to all have the same ``start`` and ``end``
467 Rectify a set of completions to all have the same ``start`` and ``end``
468
468
469 .. warning::
469 .. warning::
470
470
471 Unstable
471 Unstable
472
472
473 This function is unstable, API may change without warning.
473 This function is unstable, API may change without warning.
474 It will also raise unless use in proper context manager.
474 It will also raise unless use in proper context manager.
475
475
476 Parameters
476 Parameters
477 ----------
477 ----------
478 text : str
478 text : str
479 text that should be completed.
479 text that should be completed.
480 completions : Iterator[Completion]
480 completions : Iterator[Completion]
481 iterator over the completions to rectify
481 iterator over the completions to rectify
482 _debug : bool
482 _debug : bool
483 Log failed completion
483 Log failed completion
484
484
485 Notes
485 Notes
486 -----
486 -----
487 :any:`jedi.api.classes.Completion` s returned by Jedi may not have the same start and end, though
487 :any:`jedi.api.classes.Completion` s returned by Jedi may not have the same start and end, though
488 the Jupyter Protocol requires them to behave like so. This will readjust
488 the Jupyter Protocol requires them to behave like so. This will readjust
489 the completion to have the same ``start`` and ``end`` by padding both
489 the completion to have the same ``start`` and ``end`` by padding both
490 extremities with surrounding text.
490 extremities with surrounding text.
491
491
492 During stabilisation should support a ``_debug`` option to log which
492 During stabilisation should support a ``_debug`` option to log which
493 completion are return by the IPython completer and not found in Jedi in
493 completion are return by the IPython completer and not found in Jedi in
494 order to make upstream bug report.
494 order to make upstream bug report.
495 """
495 """
496 warnings.warn("`rectify_completions` is a provisional API (as of IPython 6.0). "
496 warnings.warn("`rectify_completions` is a provisional API (as of IPython 6.0). "
497 "It may change without warnings. "
497 "It may change without warnings. "
498 "Use in corresponding context manager.",
498 "Use in corresponding context manager.",
499 category=ProvisionalCompleterWarning, stacklevel=2)
499 category=ProvisionalCompleterWarning, stacklevel=2)
500
500
501 completions = list(completions)
501 completions = list(completions)
502 if not completions:
502 if not completions:
503 return
503 return
504 starts = (c.start for c in completions)
504 starts = (c.start for c in completions)
505 ends = (c.end for c in completions)
505 ends = (c.end for c in completions)
506
506
507 new_start = min(starts)
507 new_start = min(starts)
508 new_end = max(ends)
508 new_end = max(ends)
509
509
510 seen_jedi = set()
510 seen_jedi = set()
511 seen_python_matches = set()
511 seen_python_matches = set()
512 for c in completions:
512 for c in completions:
513 new_text = text[new_start:c.start] + c.text + text[c.end:new_end]
513 new_text = text[new_start:c.start] + c.text + text[c.end:new_end]
514 if c._origin == 'jedi':
514 if c._origin == 'jedi':
515 seen_jedi.add(new_text)
515 seen_jedi.add(new_text)
516 elif c._origin == 'IPCompleter.python_matches':
516 elif c._origin == 'IPCompleter.python_matches':
517 seen_python_matches.add(new_text)
517 seen_python_matches.add(new_text)
518 yield Completion(new_start, new_end, new_text, type=c.type, _origin=c._origin, signature=c.signature)
518 yield Completion(new_start, new_end, new_text, type=c.type, _origin=c._origin, signature=c.signature)
519 diff = seen_python_matches.difference(seen_jedi)
519 diff = seen_python_matches.difference(seen_jedi)
520 if diff and _debug:
520 if diff and _debug:
521 print('IPython.python matches have extras:', diff)
521 print('IPython.python matches have extras:', diff)
522
522
523
523
524 if sys.platform == 'win32':
524 if sys.platform == 'win32':
525 DELIMS = ' \t\n`!@#$^&*()=+[{]}|;\'",<>?'
525 DELIMS = ' \t\n`!@#$^&*()=+[{]}|;\'",<>?'
526 else:
526 else:
527 DELIMS = ' \t\n`!@#$^&*()=+[{]}\\|;:\'",<>?'
527 DELIMS = ' \t\n`!@#$^&*()=+[{]}\\|;:\'",<>?'
528
528
529 GREEDY_DELIMS = ' =\r\n'
529 GREEDY_DELIMS = ' =\r\n'
530
530
531
531
532 class CompletionSplitter(object):
532 class CompletionSplitter(object):
533 """An object to split an input line in a manner similar to readline.
533 """An object to split an input line in a manner similar to readline.
534
534
535 By having our own implementation, we can expose readline-like completion in
535 By having our own implementation, we can expose readline-like completion in
536 a uniform manner to all frontends. This object only needs to be given the
536 a uniform manner to all frontends. This object only needs to be given the
537 line of text to be split and the cursor position on said line, and it
537 line of text to be split and the cursor position on said line, and it
538 returns the 'word' to be completed on at the cursor after splitting the
538 returns the 'word' to be completed on at the cursor after splitting the
539 entire line.
539 entire line.
540
540
541 What characters are used as splitting delimiters can be controlled by
541 What characters are used as splitting delimiters can be controlled by
542 setting the ``delims`` attribute (this is a property that internally
542 setting the ``delims`` attribute (this is a property that internally
543 automatically builds the necessary regular expression)"""
543 automatically builds the necessary regular expression)"""
544
544
545 # Private interface
545 # Private interface
546
546
547 # A string of delimiter characters. The default value makes sense for
547 # A string of delimiter characters. The default value makes sense for
548 # IPython's most typical usage patterns.
548 # IPython's most typical usage patterns.
549 _delims = DELIMS
549 _delims = DELIMS
550
550
551 # The expression (a normal string) to be compiled into a regular expression
551 # The expression (a normal string) to be compiled into a regular expression
552 # for actual splitting. We store it as an attribute mostly for ease of
552 # for actual splitting. We store it as an attribute mostly for ease of
553 # debugging, since this type of code can be so tricky to debug.
553 # debugging, since this type of code can be so tricky to debug.
554 _delim_expr = None
554 _delim_expr = None
555
555
556 # The regular expression that does the actual splitting
556 # The regular expression that does the actual splitting
557 _delim_re = None
557 _delim_re = None
558
558
559 def __init__(self, delims=None):
559 def __init__(self, delims=None):
560 delims = CompletionSplitter._delims if delims is None else delims
560 delims = CompletionSplitter._delims if delims is None else delims
561 self.delims = delims
561 self.delims = delims
562
562
563 @property
563 @property
564 def delims(self):
564 def delims(self):
565 """Return the string of delimiter characters."""
565 """Return the string of delimiter characters."""
566 return self._delims
566 return self._delims
567
567
568 @delims.setter
568 @delims.setter
569 def delims(self, delims):
569 def delims(self, delims):
570 """Set the delimiters for line splitting."""
570 """Set the delimiters for line splitting."""
571 expr = '[' + ''.join('\\'+ c for c in delims) + ']'
571 expr = '[' + ''.join('\\'+ c for c in delims) + ']'
572 self._delim_re = re.compile(expr)
572 self._delim_re = re.compile(expr)
573 self._delims = delims
573 self._delims = delims
574 self._delim_expr = expr
574 self._delim_expr = expr
575
575
576 def split_line(self, line, cursor_pos=None):
576 def split_line(self, line, cursor_pos=None):
577 """Split a line of text with a cursor at the given position.
577 """Split a line of text with a cursor at the given position.
578 """
578 """
579 l = line if cursor_pos is None else line[:cursor_pos]
579 l = line if cursor_pos is None else line[:cursor_pos]
580 return self._delim_re.split(l)[-1]
580 return self._delim_re.split(l)[-1]
581
581
582
582
583
583
584 class Completer(Configurable):
584 class Completer(Configurable):
585
585
586 greedy = Bool(False,
586 greedy = Bool(False,
587 help="""Activate greedy completion
587 help="""Activate greedy completion
588 PENDING DEPRECATION. this is now mostly taken care of with Jedi.
588 PENDING DEPRECATION. this is now mostly taken care of with Jedi.
589
589
590 This will enable completion on elements of lists, results of function calls, etc.,
590 This will enable completion on elements of lists, results of function calls, etc.,
591 but can be unsafe because the code is actually evaluated on TAB.
591 but can be unsafe because the code is actually evaluated on TAB.
592 """
592 """
593 ).tag(config=True)
593 ).tag(config=True)
594
594
595 use_jedi = Bool(default_value=JEDI_INSTALLED,
595 use_jedi = Bool(default_value=JEDI_INSTALLED,
596 help="Experimental: Use Jedi to generate autocompletions. "
596 help="Experimental: Use Jedi to generate autocompletions. "
597 "Default to True if jedi is installed.").tag(config=True)
597 "Default to True if jedi is installed.").tag(config=True)
598
598
599 jedi_compute_type_timeout = Int(default_value=400,
599 jedi_compute_type_timeout = Int(default_value=400,
600 help="""Experimental: restrict time (in milliseconds) during which Jedi can compute types.
600 help="""Experimental: restrict time (in milliseconds) during which Jedi can compute types.
601 Set to 0 to stop computing types. Non-zero value lower than 100ms may hurt
601 Set to 0 to stop computing types. Non-zero value lower than 100ms may hurt
602 performance by preventing jedi to build its cache.
602 performance by preventing jedi to build its cache.
603 """).tag(config=True)
603 """).tag(config=True)
604
604
605 debug = Bool(default_value=False,
605 debug = Bool(default_value=False,
606 help='Enable debug for the Completer. Mostly print extra '
606 help='Enable debug for the Completer. Mostly print extra '
607 'information for experimental jedi integration.')\
607 'information for experimental jedi integration.')\
608 .tag(config=True)
608 .tag(config=True)
609
609
610 backslash_combining_completions = Bool(True,
610 backslash_combining_completions = Bool(True,
611 help="Enable unicode completions, e.g. \\alpha<tab> . "
611 help="Enable unicode completions, e.g. \\alpha<tab> . "
612 "Includes completion of latex commands, unicode names, and expanding "
612 "Includes completion of latex commands, unicode names, and expanding "
613 "unicode characters back to latex commands.").tag(config=True)
613 "unicode characters back to latex commands.").tag(config=True)
614
614
615 def __init__(self, namespace=None, global_namespace=None, **kwargs):
615 def __init__(self, namespace=None, global_namespace=None, **kwargs):
616 """Create a new completer for the command line.
616 """Create a new completer for the command line.
617
617
618 Completer(namespace=ns, global_namespace=ns2) -> completer instance.
618 Completer(namespace=ns, global_namespace=ns2) -> completer instance.
619
619
620 If unspecified, the default namespace where completions are performed
620 If unspecified, the default namespace where completions are performed
621 is __main__ (technically, __main__.__dict__). Namespaces should be
621 is __main__ (technically, __main__.__dict__). Namespaces should be
622 given as dictionaries.
622 given as dictionaries.
623
623
624 An optional second namespace can be given. This allows the completer
624 An optional second namespace can be given. This allows the completer
625 to handle cases where both the local and global scopes need to be
625 to handle cases where both the local and global scopes need to be
626 distinguished.
626 distinguished.
627 """
627 """
628
628
629 # Don't bind to namespace quite yet, but flag whether the user wants a
629 # Don't bind to namespace quite yet, but flag whether the user wants a
630 # specific namespace or to use __main__.__dict__. This will allow us
630 # specific namespace or to use __main__.__dict__. This will allow us
631 # to bind to __main__.__dict__ at completion time, not now.
631 # to bind to __main__.__dict__ at completion time, not now.
632 if namespace is None:
632 if namespace is None:
633 self.use_main_ns = True
633 self.use_main_ns = True
634 else:
634 else:
635 self.use_main_ns = False
635 self.use_main_ns = False
636 self.namespace = namespace
636 self.namespace = namespace
637
637
638 # The global namespace, if given, can be bound directly
638 # The global namespace, if given, can be bound directly
639 if global_namespace is None:
639 if global_namespace is None:
640 self.global_namespace = {}
640 self.global_namespace = {}
641 else:
641 else:
642 self.global_namespace = global_namespace
642 self.global_namespace = global_namespace
643
643
644 self.custom_matchers = []
644 self.custom_matchers = []
645
645
646 super(Completer, self).__init__(**kwargs)
646 super(Completer, self).__init__(**kwargs)
647
647
648 def complete(self, text, state):
648 def complete(self, text, state):
649 """Return the next possible completion for 'text'.
649 """Return the next possible completion for 'text'.
650
650
651 This is called successively with state == 0, 1, 2, ... until it
651 This is called successively with state == 0, 1, 2, ... until it
652 returns None. The completion should begin with 'text'.
652 returns None. The completion should begin with 'text'.
653
653
654 """
654 """
655 if self.use_main_ns:
655 if self.use_main_ns:
656 self.namespace = __main__.__dict__
656 self.namespace = __main__.__dict__
657
657
658 if state == 0:
658 if state == 0:
659 if "." in text:
659 if "." in text:
660 self.matches = self.attr_matches(text)
660 self.matches = self.attr_matches(text)
661 else:
661 else:
662 self.matches = self.global_matches(text)
662 self.matches = self.global_matches(text)
663 try:
663 try:
664 return self.matches[state]
664 return self.matches[state]
665 except IndexError:
665 except IndexError:
666 return None
666 return None
667
667
668 def global_matches(self, text):
668 def global_matches(self, text):
669 """Compute matches when text is a simple name.
669 """Compute matches when text is a simple name.
670
670
671 Return a list of all keywords, built-in functions and names currently
671 Return a list of all keywords, built-in functions and names currently
672 defined in self.namespace or self.global_namespace that match.
672 defined in self.namespace or self.global_namespace that match.
673
673
674 """
674 """
675 matches = []
675 matches = []
676 match_append = matches.append
676 match_append = matches.append
677 n = len(text)
677 n = len(text)
678 for lst in [keyword.kwlist,
678 for lst in [keyword.kwlist,
679 builtin_mod.__dict__.keys(),
679 builtin_mod.__dict__.keys(),
680 self.namespace.keys(),
680 self.namespace.keys(),
681 self.global_namespace.keys()]:
681 self.global_namespace.keys()]:
682 for word in lst:
682 for word in lst:
683 if word[:n] == text and word != "__builtins__":
683 if word[:n] == text and word != "__builtins__":
684 match_append(word)
684 match_append(word)
685
685
686 snake_case_re = re.compile(r"[^_]+(_[^_]+)+?\Z")
686 snake_case_re = re.compile(r"[^_]+(_[^_]+)+?\Z")
687 for lst in [self.namespace.keys(),
687 for lst in [self.namespace.keys(),
688 self.global_namespace.keys()]:
688 self.global_namespace.keys()]:
689 shortened = {"_".join([sub[0] for sub in word.split('_')]) : word
689 shortened = {"_".join([sub[0] for sub in word.split('_')]) : word
690 for word in lst if snake_case_re.match(word)}
690 for word in lst if snake_case_re.match(word)}
691 for word in shortened.keys():
691 for word in shortened.keys():
692 if word[:n] == text and word != "__builtins__":
692 if word[:n] == text and word != "__builtins__":
693 match_append(shortened[word])
693 match_append(shortened[word])
694 return matches
694 return matches
695
695
696 def attr_matches(self, text):
696 def attr_matches(self, text):
697 """Compute matches when text contains a dot.
697 """Compute matches when text contains a dot.
698
698
699 Assuming the text is of the form NAME.NAME....[NAME], and is
699 Assuming the text is of the form NAME.NAME....[NAME], and is
700 evaluatable in self.namespace or self.global_namespace, it will be
700 evaluatable in self.namespace or self.global_namespace, it will be
701 evaluated and its attributes (as revealed by dir()) are used as
701 evaluated and its attributes (as revealed by dir()) are used as
702 possible completions. (For class instances, class members are
702 possible completions. (For class instances, class members are
703 also considered.)
703 also considered.)
704
704
705 WARNING: this can still invoke arbitrary C code, if an object
705 WARNING: this can still invoke arbitrary C code, if an object
706 with a __getattr__ hook is evaluated.
706 with a __getattr__ hook is evaluated.
707
707
708 """
708 """
709
709
710 # Another option, seems to work great. Catches things like ''.<tab>
710 # Another option, seems to work great. Catches things like ''.<tab>
711 m = re.match(r"(\S+(\.\w+)*)\.(\w*)$", text)
711 m = re.match(r"(\S+(\.\w+)*)\.(\w*)$", text)
712
712
713 if m:
713 if m:
714 expr, attr = m.group(1, 3)
714 expr, attr = m.group(1, 3)
715 elif self.greedy:
715 elif self.greedy:
716 m2 = re.match(r"(.+)\.(\w*)$", self.line_buffer)
716 m2 = re.match(r"(.+)\.(\w*)$", self.line_buffer)
717 if not m2:
717 if not m2:
718 return []
718 return []
719 expr, attr = m2.group(1,2)
719 expr, attr = m2.group(1,2)
720 else:
720 else:
721 return []
721 return []
722
722
723 try:
723 try:
724 obj = eval(expr, self.namespace)
724 obj = eval(expr, self.namespace)
725 except:
725 except:
726 try:
726 try:
727 obj = eval(expr, self.global_namespace)
727 obj = eval(expr, self.global_namespace)
728 except:
728 except:
729 return []
729 return []
730
730
731 if self.limit_to__all__ and hasattr(obj, '__all__'):
731 if self.limit_to__all__ and hasattr(obj, '__all__'):
732 words = get__all__entries(obj)
732 words = get__all__entries(obj)
733 else:
733 else:
734 words = dir2(obj)
734 words = dir2(obj)
735
735
736 try:
736 try:
737 words = generics.complete_object(obj, words)
737 words = generics.complete_object(obj, words)
738 except TryNext:
738 except TryNext:
739 pass
739 pass
740 except AssertionError:
740 except AssertionError:
741 raise
741 raise
742 except Exception:
742 except Exception:
743 # Silence errors from completion function
743 # Silence errors from completion function
744 #raise # dbg
744 #raise # dbg
745 pass
745 pass
746 # Build match list to return
746 # Build match list to return
747 n = len(attr)
747 n = len(attr)
748 return [u"%s.%s" % (expr, w) for w in words if w[:n] == attr ]
748 return [u"%s.%s" % (expr, w) for w in words if w[:n] == attr ]
749
749
750
750
751 def get__all__entries(obj):
751 def get__all__entries(obj):
752 """returns the strings in the __all__ attribute"""
752 """returns the strings in the __all__ attribute"""
753 try:
753 try:
754 words = getattr(obj, '__all__')
754 words = getattr(obj, '__all__')
755 except:
755 except:
756 return []
756 return []
757
757
758 return [w for w in words if isinstance(w, str)]
758 return [w for w in words if isinstance(w, str)]
759
759
760
760
761 def match_dict_keys(keys: List[Union[str, bytes, Tuple[Union[str, bytes]]]], prefix: str, delims: str,
761 def match_dict_keys(keys: List[Union[str, bytes, Tuple[Union[str, bytes]]]], prefix: str, delims: str,
762 extra_prefix: Optional[Tuple[str, bytes]]=None) -> Tuple[str, int, List[str]]:
762 extra_prefix: Optional[Tuple[str, bytes]]=None) -> Tuple[str, int, List[str]]:
763 """Used by dict_key_matches, matching the prefix to a list of keys
763 """Used by dict_key_matches, matching the prefix to a list of keys
764
764
765 Parameters
765 Parameters
766 ----------
766 ----------
767 keys
767 keys
768 list of keys in dictionary currently being completed.
768 list of keys in dictionary currently being completed.
769 prefix
769 prefix
770 Part of the text already typed by the user. E.g. `mydict[b'fo`
770 Part of the text already typed by the user. E.g. `mydict[b'fo`
771 delims
771 delims
772 String of delimiters to consider when finding the current key.
772 String of delimiters to consider when finding the current key.
773 extra_prefix : optional
773 extra_prefix : optional
774 Part of the text already typed in multi-key index cases. E.g. for
774 Part of the text already typed in multi-key index cases. E.g. for
775 `mydict['foo', "bar", 'b`, this would be `('foo', 'bar')`.
775 `mydict['foo', "bar", 'b`, this would be `('foo', 'bar')`.
776
776
777 Returns
777 Returns
778 -------
778 -------
779 A tuple of three elements: ``quote``, ``token_start``, ``matched``, with
779 A tuple of three elements: ``quote``, ``token_start``, ``matched``, with
780 ``quote`` being the quote that need to be used to close current string.
780 ``quote`` being the quote that need to be used to close current string.
781 ``token_start`` the position where the replacement should start occurring,
781 ``token_start`` the position where the replacement should start occurring,
782 ``matches`` a list of replacement/completion
782 ``matches`` a list of replacement/completion
783
783
784 """
784 """
785 prefix_tuple = extra_prefix if extra_prefix else ()
785 prefix_tuple = extra_prefix if extra_prefix else ()
786 Nprefix = len(prefix_tuple)
786 Nprefix = len(prefix_tuple)
787 def filter_prefix_tuple(key):
787 def filter_prefix_tuple(key):
788 # Reject too short keys
788 # Reject too short keys
789 if len(key) <= Nprefix:
789 if len(key) <= Nprefix:
790 return False
790 return False
791 # Reject keys with non str/bytes in it
791 # Reject keys with non str/bytes in it
792 for k in key:
792 for k in key:
793 if not isinstance(k, (str, bytes)):
793 if not isinstance(k, (str, bytes)):
794 return False
794 return False
795 # Reject keys that do not match the prefix
795 # Reject keys that do not match the prefix
796 for k, pt in zip(key, prefix_tuple):
796 for k, pt in zip(key, prefix_tuple):
797 if k != pt:
797 if k != pt:
798 return False
798 return False
799 # All checks passed!
799 # All checks passed!
800 return True
800 return True
801
801
802 filtered_keys:List[Union[str,bytes]] = []
802 filtered_keys:List[Union[str,bytes]] = []
803 def _add_to_filtered_keys(key):
803 def _add_to_filtered_keys(key):
804 if isinstance(key, (str, bytes)):
804 if isinstance(key, (str, bytes)):
805 filtered_keys.append(key)
805 filtered_keys.append(key)
806
806
807 for k in keys:
807 for k in keys:
808 if isinstance(k, tuple):
808 if isinstance(k, tuple):
809 if filter_prefix_tuple(k):
809 if filter_prefix_tuple(k):
810 _add_to_filtered_keys(k[Nprefix])
810 _add_to_filtered_keys(k[Nprefix])
811 else:
811 else:
812 _add_to_filtered_keys(k)
812 _add_to_filtered_keys(k)
813
813
814 if not prefix:
814 if not prefix:
815 return '', 0, [repr(k) for k in filtered_keys]
815 return '', 0, [repr(k) for k in filtered_keys]
816 quote_match = re.search('["\']', prefix)
816 quote_match = re.search('["\']', prefix)
817 assert quote_match is not None # silence mypy
817 assert quote_match is not None # silence mypy
818 quote = quote_match.group()
818 quote = quote_match.group()
819 try:
819 try:
820 prefix_str = eval(prefix + quote, {})
820 prefix_str = eval(prefix + quote, {})
821 except Exception:
821 except Exception:
822 return '', 0, []
822 return '', 0, []
823
823
824 pattern = '[^' + ''.join('\\' + c for c in delims) + ']*$'
824 pattern = '[^' + ''.join('\\' + c for c in delims) + ']*$'
825 token_match = re.search(pattern, prefix, re.UNICODE)
825 token_match = re.search(pattern, prefix, re.UNICODE)
826 assert token_match is not None # silence mypy
826 assert token_match is not None # silence mypy
827 token_start = token_match.start()
827 token_start = token_match.start()
828 token_prefix = token_match.group()
828 token_prefix = token_match.group()
829
829
830 matched:List[str] = []
830 matched:List[str] = []
831 for key in filtered_keys:
831 for key in filtered_keys:
832 try:
832 try:
833 if not key.startswith(prefix_str):
833 if not key.startswith(prefix_str):
834 continue
834 continue
835 except (AttributeError, TypeError, UnicodeError):
835 except (AttributeError, TypeError, UnicodeError):
836 # Python 3+ TypeError on b'a'.startswith('a') or vice-versa
836 # Python 3+ TypeError on b'a'.startswith('a') or vice-versa
837 continue
837 continue
838
838
839 # reformat remainder of key to begin with prefix
839 # reformat remainder of key to begin with prefix
840 rem = key[len(prefix_str):]
840 rem = key[len(prefix_str):]
841 # force repr wrapped in '
841 # force repr wrapped in '
842 rem_repr = repr(rem + '"') if isinstance(rem, str) else repr(rem + b'"')
842 rem_repr = repr(rem + '"') if isinstance(rem, str) else repr(rem + b'"')
843 rem_repr = rem_repr[1 + rem_repr.index("'"):-2]
843 rem_repr = rem_repr[1 + rem_repr.index("'"):-2]
844 if quote == '"':
844 if quote == '"':
845 # The entered prefix is quoted with ",
845 # The entered prefix is quoted with ",
846 # but the match is quoted with '.
846 # but the match is quoted with '.
847 # A contained " hence needs escaping for comparison:
847 # A contained " hence needs escaping for comparison:
848 rem_repr = rem_repr.replace('"', '\\"')
848 rem_repr = rem_repr.replace('"', '\\"')
849
849
850 # then reinsert prefix from start of token
850 # then reinsert prefix from start of token
851 matched.append('%s%s' % (token_prefix, rem_repr))
851 matched.append('%s%s' % (token_prefix, rem_repr))
852 return quote, token_start, matched
852 return quote, token_start, matched
853
853
854
854
855 def cursor_to_position(text:str, line:int, column:int)->int:
855 def cursor_to_position(text:str, line:int, column:int)->int:
856 """
856 """
857 Convert the (line,column) position of the cursor in text to an offset in a
857 Convert the (line,column) position of the cursor in text to an offset in a
858 string.
858 string.
859
859
860 Parameters
860 Parameters
861 ----------
861 ----------
862 text : str
862 text : str
863 The text in which to calculate the cursor offset
863 The text in which to calculate the cursor offset
864 line : int
864 line : int
865 Line of the cursor; 0-indexed
865 Line of the cursor; 0-indexed
866 column : int
866 column : int
867 Column of the cursor 0-indexed
867 Column of the cursor 0-indexed
868
868
869 Returns
869 Returns
870 -------
870 -------
871 Position of the cursor in ``text``, 0-indexed.
871 Position of the cursor in ``text``, 0-indexed.
872
872
873 See Also
873 See Also
874 --------
874 --------
875 position_to_cursor : reciprocal of this function
875 position_to_cursor : reciprocal of this function
876
876
877 """
877 """
878 lines = text.split('\n')
878 lines = text.split('\n')
879 assert line <= len(lines), '{} <= {}'.format(str(line), str(len(lines)))
879 assert line <= len(lines), '{} <= {}'.format(str(line), str(len(lines)))
880
880
881 return sum(len(l) + 1 for l in lines[:line]) + column
881 return sum(len(l) + 1 for l in lines[:line]) + column
882
882
883 def position_to_cursor(text:str, offset:int)->Tuple[int, int]:
883 def position_to_cursor(text:str, offset:int)->Tuple[int, int]:
884 """
884 """
885 Convert the position of the cursor in text (0 indexed) to a line
885 Convert the position of the cursor in text (0 indexed) to a line
886 number(0-indexed) and a column number (0-indexed) pair
886 number(0-indexed) and a column number (0-indexed) pair
887
887
888 Position should be a valid position in ``text``.
888 Position should be a valid position in ``text``.
889
889
890 Parameters
890 Parameters
891 ----------
891 ----------
892 text : str
892 text : str
893 The text in which to calculate the cursor offset
893 The text in which to calculate the cursor offset
894 offset : int
894 offset : int
895 Position of the cursor in ``text``, 0-indexed.
895 Position of the cursor in ``text``, 0-indexed.
896
896
897 Returns
897 Returns
898 -------
898 -------
899 (line, column) : (int, int)
899 (line, column) : (int, int)
900 Line of the cursor; 0-indexed, column of the cursor 0-indexed
900 Line of the cursor; 0-indexed, column of the cursor 0-indexed
901
901
902 See Also
902 See Also
903 --------
903 --------
904 cursor_to_position : reciprocal of this function
904 cursor_to_position : reciprocal of this function
905
905
906 """
906 """
907
907
908 assert 0 <= offset <= len(text) , "0 <= %s <= %s" % (offset , len(text))
908 assert 0 <= offset <= len(text) , "0 <= %s <= %s" % (offset , len(text))
909
909
910 before = text[:offset]
910 before = text[:offset]
911 blines = before.split('\n') # ! splitnes trim trailing \n
911 blines = before.split('\n') # ! splitnes trim trailing \n
912 line = before.count('\n')
912 line = before.count('\n')
913 col = len(blines[-1])
913 col = len(blines[-1])
914 return line, col
914 return line, col
915
915
916
916
917 def _safe_isinstance(obj, module, class_name):
917 def _safe_isinstance(obj, module, class_name):
918 """Checks if obj is an instance of module.class_name if loaded
918 """Checks if obj is an instance of module.class_name if loaded
919 """
919 """
920 return (module in sys.modules and
920 return (module in sys.modules and
921 isinstance(obj, getattr(import_module(module), class_name)))
921 isinstance(obj, getattr(import_module(module), class_name)))
922
922
923 def back_unicode_name_matches(text:str) -> Tuple[str, Sequence[str]]:
923 def back_unicode_name_matches(text:str) -> Tuple[str, Sequence[str]]:
924 """Match Unicode characters back to Unicode name
924 """Match Unicode characters back to Unicode name
925
925
926 This does ``β˜ƒ`` -> ``\\snowman``
926 This does ``β˜ƒ`` -> ``\\snowman``
927
927
928 Note that snowman is not a valid python3 combining character but will be expanded.
928 Note that snowman is not a valid python3 combining character but will be expanded.
929 Though it will not recombine back to the snowman character by the completion machinery.
929 Though it will not recombine back to the snowman character by the completion machinery.
930
930
931 This will not either back-complete standard sequences like \\n, \\b ...
931 This will not either back-complete standard sequences like \\n, \\b ...
932
932
933 Returns
933 Returns
934 =======
934 =======
935
935
936 Return a tuple with two elements:
936 Return a tuple with two elements:
937
937
938 - The Unicode character that was matched (preceded with a backslash), or
938 - The Unicode character that was matched (preceded with a backslash), or
939 empty string,
939 empty string,
940 - a sequence (of 1), name for the match Unicode character, preceded by
940 - a sequence (of 1), name for the match Unicode character, preceded by
941 backslash, or empty if no match.
941 backslash, or empty if no match.
942
942
943 """
943 """
944 if len(text)<2:
944 if len(text)<2:
945 return '', ()
945 return '', ()
946 maybe_slash = text[-2]
946 maybe_slash = text[-2]
947 if maybe_slash != '\\':
947 if maybe_slash != '\\':
948 return '', ()
948 return '', ()
949
949
950 char = text[-1]
950 char = text[-1]
951 # no expand on quote for completion in strings.
951 # no expand on quote for completion in strings.
952 # nor backcomplete standard ascii keys
952 # nor backcomplete standard ascii keys
953 if char in string.ascii_letters or char in ('"',"'"):
953 if char in string.ascii_letters or char in ('"',"'"):
954 return '', ()
954 return '', ()
955 try :
955 try :
956 unic = unicodedata.name(char)
956 unic = unicodedata.name(char)
957 return '\\'+char,('\\'+unic,)
957 return '\\'+char,('\\'+unic,)
958 except KeyError:
958 except KeyError:
959 pass
959 pass
960 return '', ()
960 return '', ()
961
961
962 def back_latex_name_matches(text:str) -> Tuple[str, Sequence[str]] :
962 def back_latex_name_matches(text:str) -> Tuple[str, Sequence[str]] :
963 """Match latex characters back to unicode name
963 """Match latex characters back to unicode name
964
964
965 This does ``\\β„΅`` -> ``\\aleph``
965 This does ``\\β„΅`` -> ``\\aleph``
966
966
967 """
967 """
968 if len(text)<2:
968 if len(text)<2:
969 return '', ()
969 return '', ()
970 maybe_slash = text[-2]
970 maybe_slash = text[-2]
971 if maybe_slash != '\\':
971 if maybe_slash != '\\':
972 return '', ()
972 return '', ()
973
973
974
974
975 char = text[-1]
975 char = text[-1]
976 # no expand on quote for completion in strings.
976 # no expand on quote for completion in strings.
977 # nor backcomplete standard ascii keys
977 # nor backcomplete standard ascii keys
978 if char in string.ascii_letters or char in ('"',"'"):
978 if char in string.ascii_letters or char in ('"',"'"):
979 return '', ()
979 return '', ()
980 try :
980 try :
981 latex = reverse_latex_symbol[char]
981 latex = reverse_latex_symbol[char]
982 # '\\' replace the \ as well
982 # '\\' replace the \ as well
983 return '\\'+char,[latex]
983 return '\\'+char,[latex]
984 except KeyError:
984 except KeyError:
985 pass
985 pass
986 return '', ()
986 return '', ()
987
987
988
988
989 def _formatparamchildren(parameter) -> str:
989 def _formatparamchildren(parameter) -> str:
990 """
990 """
991 Get parameter name and value from Jedi Private API
991 Get parameter name and value from Jedi Private API
992
992
993 Jedi does not expose a simple way to get `param=value` from its API.
993 Jedi does not expose a simple way to get `param=value` from its API.
994
994
995 Parameters
995 Parameters
996 ----------
996 ----------
997 parameter
997 parameter
998 Jedi's function `Param`
998 Jedi's function `Param`
999
999
1000 Returns
1000 Returns
1001 -------
1001 -------
1002 A string like 'a', 'b=1', '*args', '**kwargs'
1002 A string like 'a', 'b=1', '*args', '**kwargs'
1003
1003
1004 """
1004 """
1005 description = parameter.description
1005 description = parameter.description
1006 if not description.startswith('param '):
1006 if not description.startswith('param '):
1007 raise ValueError('Jedi function parameter description have change format.'
1007 raise ValueError('Jedi function parameter description have change format.'
1008 'Expected "param ...", found %r".' % description)
1008 'Expected "param ...", found %r".' % description)
1009 return description[6:]
1009 return description[6:]
1010
1010
1011 def _make_signature(completion)-> str:
1011 def _make_signature(completion)-> str:
1012 """
1012 """
1013 Make the signature from a jedi completion
1013 Make the signature from a jedi completion
1014
1014
1015 Parameters
1015 Parameters
1016 ----------
1016 ----------
1017 completion : jedi.Completion
1017 completion : jedi.Completion
1018 object does not complete a function type
1018 object does not complete a function type
1019
1019
1020 Returns
1020 Returns
1021 -------
1021 -------
1022 a string consisting of the function signature, with the parenthesis but
1022 a string consisting of the function signature, with the parenthesis but
1023 without the function name. example:
1023 without the function name. example:
1024 `(a, *args, b=1, **kwargs)`
1024 `(a, *args, b=1, **kwargs)`
1025
1025
1026 """
1026 """
1027
1027
1028 # it looks like this might work on jedi 0.17
1028 # it looks like this might work on jedi 0.17
1029 if hasattr(completion, 'get_signatures'):
1029 if hasattr(completion, 'get_signatures'):
1030 signatures = completion.get_signatures()
1030 signatures = completion.get_signatures()
1031 if not signatures:
1031 if not signatures:
1032 return '(?)'
1032 return '(?)'
1033
1033
1034 c0 = completion.get_signatures()[0]
1034 c0 = completion.get_signatures()[0]
1035 return '('+c0.to_string().split('(', maxsplit=1)[1]
1035 return '('+c0.to_string().split('(', maxsplit=1)[1]
1036
1036
1037 return '(%s)'% ', '.join([f for f in (_formatparamchildren(p) for signature in completion.get_signatures()
1037 return '(%s)'% ', '.join([f for f in (_formatparamchildren(p) for signature in completion.get_signatures()
1038 for p in signature.defined_names()) if f])
1038 for p in signature.defined_names()) if f])
1039
1039
1040
1040
1041 class _CompleteResult(NamedTuple):
1041 class _CompleteResult(NamedTuple):
1042 matched_text : str
1042 matched_text : str
1043 matches: Sequence[str]
1043 matches: Sequence[str]
1044 matches_origin: Sequence[str]
1044 matches_origin: Sequence[str]
1045 jedi_matches: Any
1045 jedi_matches: Any
1046
1046
1047
1047
1048 class IPCompleter(Completer):
1048 class IPCompleter(Completer):
1049 """Extension of the completer class with IPython-specific features"""
1049 """Extension of the completer class with IPython-specific features"""
1050
1050
1051 __dict_key_regexps: Optional[Dict[bool,Pattern]] = None
1051 __dict_key_regexps: Optional[Dict[bool,Pattern]] = None
1052
1052
1053 @observe('greedy')
1053 @observe('greedy')
1054 def _greedy_changed(self, change):
1054 def _greedy_changed(self, change):
1055 """update the splitter and readline delims when greedy is changed"""
1055 """update the splitter and readline delims when greedy is changed"""
1056 if change['new']:
1056 if change['new']:
1057 self.splitter.delims = GREEDY_DELIMS
1057 self.splitter.delims = GREEDY_DELIMS
1058 else:
1058 else:
1059 self.splitter.delims = DELIMS
1059 self.splitter.delims = DELIMS
1060
1060
1061 dict_keys_only = Bool(False,
1061 dict_keys_only = Bool(False,
1062 help="""Whether to show dict key matches only""")
1062 help="""Whether to show dict key matches only""")
1063
1063
1064 merge_completions = Bool(True,
1064 merge_completions = Bool(True,
1065 help="""Whether to merge completion results into a single list
1065 help="""Whether to merge completion results into a single list
1066
1066
1067 If False, only the completion results from the first non-empty
1067 If False, only the completion results from the first non-empty
1068 completer will be returned.
1068 completer will be returned.
1069 """
1069 """
1070 ).tag(config=True)
1070 ).tag(config=True)
1071 omit__names = Enum((0,1,2), default_value=2,
1071 omit__names = Enum((0,1,2), default_value=2,
1072 help="""Instruct the completer to omit private method names
1072 help="""Instruct the completer to omit private method names
1073
1073
1074 Specifically, when completing on ``object.<tab>``.
1074 Specifically, when completing on ``object.<tab>``.
1075
1075
1076 When 2 [default]: all names that start with '_' will be excluded.
1076 When 2 [default]: all names that start with '_' will be excluded.
1077
1077
1078 When 1: all 'magic' names (``__foo__``) will be excluded.
1078 When 1: all 'magic' names (``__foo__``) will be excluded.
1079
1079
1080 When 0: nothing will be excluded.
1080 When 0: nothing will be excluded.
1081 """
1081 """
1082 ).tag(config=True)
1082 ).tag(config=True)
1083 limit_to__all__ = Bool(False,
1083 limit_to__all__ = Bool(False,
1084 help="""
1084 help="""
1085 DEPRECATED as of version 5.0.
1085 DEPRECATED as of version 5.0.
1086
1086
1087 Instruct the completer to use __all__ for the completion
1087 Instruct the completer to use __all__ for the completion
1088
1088
1089 Specifically, when completing on ``object.<tab>``.
1089 Specifically, when completing on ``object.<tab>``.
1090
1090
1091 When True: only those names in obj.__all__ will be included.
1091 When True: only those names in obj.__all__ will be included.
1092
1092
1093 When False [default]: the __all__ attribute is ignored
1093 When False [default]: the __all__ attribute is ignored
1094 """,
1094 """,
1095 ).tag(config=True)
1095 ).tag(config=True)
1096
1096
1097 profile_completions = Bool(
1097 profile_completions = Bool(
1098 default_value=False,
1098 default_value=False,
1099 help="If True, emit profiling data for completion subsystem using cProfile."
1099 help="If True, emit profiling data for completion subsystem using cProfile."
1100 ).tag(config=True)
1100 ).tag(config=True)
1101
1101
1102 profiler_output_dir = Unicode(
1102 profiler_output_dir = Unicode(
1103 default_value=".completion_profiles",
1103 default_value=".completion_profiles",
1104 help="Template for path at which to output profile data for completions."
1104 help="Template for path at which to output profile data for completions."
1105 ).tag(config=True)
1105 ).tag(config=True)
1106
1106
1107 @observe('limit_to__all__')
1107 @observe('limit_to__all__')
1108 def _limit_to_all_changed(self, change):
1108 def _limit_to_all_changed(self, change):
1109 warnings.warn('`IPython.core.IPCompleter.limit_to__all__` configuration '
1109 warnings.warn('`IPython.core.IPCompleter.limit_to__all__` configuration '
1110 'value has been deprecated since IPython 5.0, will be made to have '
1110 'value has been deprecated since IPython 5.0, will be made to have '
1111 'no effects and then removed in future version of IPython.',
1111 'no effects and then removed in future version of IPython.',
1112 UserWarning)
1112 UserWarning)
1113
1113
1114 def __init__(
1114 def __init__(
1115 self, shell=None, namespace=None, global_namespace=None, config=None, **kwargs
1115 self, shell=None, namespace=None, global_namespace=None, config=None, **kwargs
1116 ):
1116 ):
1117 """IPCompleter() -> completer
1117 """IPCompleter() -> completer
1118
1118
1119 Return a completer object.
1119 Return a completer object.
1120
1120
1121 Parameters
1121 Parameters
1122 ----------
1122 ----------
1123 shell
1123 shell
1124 a pointer to the ipython shell itself. This is needed
1124 a pointer to the ipython shell itself. This is needed
1125 because this completer knows about magic functions, and those can
1125 because this completer knows about magic functions, and those can
1126 only be accessed via the ipython instance.
1126 only be accessed via the ipython instance.
1127 namespace : dict, optional
1127 namespace : dict, optional
1128 an optional dict where completions are performed.
1128 an optional dict where completions are performed.
1129 global_namespace : dict, optional
1129 global_namespace : dict, optional
1130 secondary optional dict for completions, to
1130 secondary optional dict for completions, to
1131 handle cases (such as IPython embedded inside functions) where
1131 handle cases (such as IPython embedded inside functions) where
1132 both Python scopes are visible.
1132 both Python scopes are visible.
1133 config : Config
1133 config : Config
1134 traitlet's config object
1134 traitlet's config object
1135 **kwargs
1135 **kwargs
1136 passed to super class unmodified.
1136 passed to super class unmodified.
1137 """
1137 """
1138
1138
1139 self.magic_escape = ESC_MAGIC
1139 self.magic_escape = ESC_MAGIC
1140 self.splitter = CompletionSplitter()
1140 self.splitter = CompletionSplitter()
1141
1141
1142 # _greedy_changed() depends on splitter and readline being defined:
1142 # _greedy_changed() depends on splitter and readline being defined:
1143 super().__init__(
1143 super().__init__(
1144 self,
1145 namespace=namespace,
1144 namespace=namespace,
1146 global_namespace=global_namespace,
1145 global_namespace=global_namespace,
1147 config=config,
1146 config=config,
1148 **kwargs
1147 **kwargs
1149 )
1148 )
1150
1149
1151 # List where completion matches will be stored
1150 # List where completion matches will be stored
1152 self.matches = []
1151 self.matches = []
1153 self.shell = shell
1152 self.shell = shell
1154 # Regexp to split filenames with spaces in them
1153 # Regexp to split filenames with spaces in them
1155 self.space_name_re = re.compile(r'([^\\] )')
1154 self.space_name_re = re.compile(r'([^\\] )')
1156 # Hold a local ref. to glob.glob for speed
1155 # Hold a local ref. to glob.glob for speed
1157 self.glob = glob.glob
1156 self.glob = glob.glob
1158
1157
1159 # Determine if we are running on 'dumb' terminals, like (X)Emacs
1158 # Determine if we are running on 'dumb' terminals, like (X)Emacs
1160 # buffers, to avoid completion problems.
1159 # buffers, to avoid completion problems.
1161 term = os.environ.get('TERM','xterm')
1160 term = os.environ.get('TERM','xterm')
1162 self.dumb_terminal = term in ['dumb','emacs']
1161 self.dumb_terminal = term in ['dumb','emacs']
1163
1162
1164 # Special handling of backslashes needed in win32 platforms
1163 # Special handling of backslashes needed in win32 platforms
1165 if sys.platform == "win32":
1164 if sys.platform == "win32":
1166 self.clean_glob = self._clean_glob_win32
1165 self.clean_glob = self._clean_glob_win32
1167 else:
1166 else:
1168 self.clean_glob = self._clean_glob
1167 self.clean_glob = self._clean_glob
1169
1168
1170 #regexp to parse docstring for function signature
1169 #regexp to parse docstring for function signature
1171 self.docstring_sig_re = re.compile(r'^[\w|\s.]+\(([^)]*)\).*')
1170 self.docstring_sig_re = re.compile(r'^[\w|\s.]+\(([^)]*)\).*')
1172 self.docstring_kwd_re = re.compile(r'[\s|\[]*(\w+)(?:\s*=\s*.*)')
1171 self.docstring_kwd_re = re.compile(r'[\s|\[]*(\w+)(?:\s*=\s*.*)')
1173 #use this if positional argument name is also needed
1172 #use this if positional argument name is also needed
1174 #= re.compile(r'[\s|\[]*(\w+)(?:\s*=?\s*.*)')
1173 #= re.compile(r'[\s|\[]*(\w+)(?:\s*=?\s*.*)')
1175
1174
1176 self.magic_arg_matchers = [
1175 self.magic_arg_matchers = [
1177 self.magic_config_matches,
1176 self.magic_config_matches,
1178 self.magic_color_matches,
1177 self.magic_color_matches,
1179 ]
1178 ]
1180
1179
1181 # This is set externally by InteractiveShell
1180 # This is set externally by InteractiveShell
1182 self.custom_completers = None
1181 self.custom_completers = None
1183
1182
1184 # This is a list of names of unicode characters that can be completed
1183 # This is a list of names of unicode characters that can be completed
1185 # into their corresponding unicode value. The list is large, so we
1184 # into their corresponding unicode value. The list is large, so we
1186 # laziliy initialize it on first use. Consuming code should access this
1185 # laziliy initialize it on first use. Consuming code should access this
1187 # attribute through the `@unicode_names` property.
1186 # attribute through the `@unicode_names` property.
1188 self._unicode_names = None
1187 self._unicode_names = None
1189
1188
1190 @property
1189 @property
1191 def matchers(self) -> List[Any]:
1190 def matchers(self) -> List[Any]:
1192 """All active matcher routines for completion"""
1191 """All active matcher routines for completion"""
1193 if self.dict_keys_only:
1192 if self.dict_keys_only:
1194 return [self.dict_key_matches]
1193 return [self.dict_key_matches]
1195
1194
1196 if self.use_jedi:
1195 if self.use_jedi:
1197 return [
1196 return [
1198 *self.custom_matchers,
1197 *self.custom_matchers,
1199 self.dict_key_matches,
1198 self.dict_key_matches,
1200 self.file_matches,
1199 self.file_matches,
1201 self.magic_matches,
1200 self.magic_matches,
1202 ]
1201 ]
1203 else:
1202 else:
1204 return [
1203 return [
1205 *self.custom_matchers,
1204 *self.custom_matchers,
1206 self.dict_key_matches,
1205 self.dict_key_matches,
1207 self.python_matches,
1206 self.python_matches,
1208 self.file_matches,
1207 self.file_matches,
1209 self.magic_matches,
1208 self.magic_matches,
1210 self.python_func_kw_matches,
1209 self.python_func_kw_matches,
1211 ]
1210 ]
1212
1211
1213 def all_completions(self, text:str) -> List[str]:
1212 def all_completions(self, text:str) -> List[str]:
1214 """
1213 """
1215 Wrapper around the completion methods for the benefit of emacs.
1214 Wrapper around the completion methods for the benefit of emacs.
1216 """
1215 """
1217 prefix = text.rpartition('.')[0]
1216 prefix = text.rpartition('.')[0]
1218 with provisionalcompleter():
1217 with provisionalcompleter():
1219 return ['.'.join([prefix, c.text]) if prefix and self.use_jedi else c.text
1218 return ['.'.join([prefix, c.text]) if prefix and self.use_jedi else c.text
1220 for c in self.completions(text, len(text))]
1219 for c in self.completions(text, len(text))]
1221
1220
1222 return self.complete(text)[1]
1221 return self.complete(text)[1]
1223
1222
1224 def _clean_glob(self, text:str):
1223 def _clean_glob(self, text:str):
1225 return self.glob("%s*" % text)
1224 return self.glob("%s*" % text)
1226
1225
1227 def _clean_glob_win32(self, text:str):
1226 def _clean_glob_win32(self, text:str):
1228 return [f.replace("\\","/")
1227 return [f.replace("\\","/")
1229 for f in self.glob("%s*" % text)]
1228 for f in self.glob("%s*" % text)]
1230
1229
1231 def file_matches(self, text:str)->List[str]:
1230 def file_matches(self, text:str)->List[str]:
1232 """Match filenames, expanding ~USER type strings.
1231 """Match filenames, expanding ~USER type strings.
1233
1232
1234 Most of the seemingly convoluted logic in this completer is an
1233 Most of the seemingly convoluted logic in this completer is an
1235 attempt to handle filenames with spaces in them. And yet it's not
1234 attempt to handle filenames with spaces in them. And yet it's not
1236 quite perfect, because Python's readline doesn't expose all of the
1235 quite perfect, because Python's readline doesn't expose all of the
1237 GNU readline details needed for this to be done correctly.
1236 GNU readline details needed for this to be done correctly.
1238
1237
1239 For a filename with a space in it, the printed completions will be
1238 For a filename with a space in it, the printed completions will be
1240 only the parts after what's already been typed (instead of the
1239 only the parts after what's already been typed (instead of the
1241 full completions, as is normally done). I don't think with the
1240 full completions, as is normally done). I don't think with the
1242 current (as of Python 2.3) Python readline it's possible to do
1241 current (as of Python 2.3) Python readline it's possible to do
1243 better."""
1242 better."""
1244
1243
1245 # chars that require escaping with backslash - i.e. chars
1244 # chars that require escaping with backslash - i.e. chars
1246 # that readline treats incorrectly as delimiters, but we
1245 # that readline treats incorrectly as delimiters, but we
1247 # don't want to treat as delimiters in filename matching
1246 # don't want to treat as delimiters in filename matching
1248 # when escaped with backslash
1247 # when escaped with backslash
1249 if text.startswith('!'):
1248 if text.startswith('!'):
1250 text = text[1:]
1249 text = text[1:]
1251 text_prefix = u'!'
1250 text_prefix = u'!'
1252 else:
1251 else:
1253 text_prefix = u''
1252 text_prefix = u''
1254
1253
1255 text_until_cursor = self.text_until_cursor
1254 text_until_cursor = self.text_until_cursor
1256 # track strings with open quotes
1255 # track strings with open quotes
1257 open_quotes = has_open_quotes(text_until_cursor)
1256 open_quotes = has_open_quotes(text_until_cursor)
1258
1257
1259 if '(' in text_until_cursor or '[' in text_until_cursor:
1258 if '(' in text_until_cursor or '[' in text_until_cursor:
1260 lsplit = text
1259 lsplit = text
1261 else:
1260 else:
1262 try:
1261 try:
1263 # arg_split ~ shlex.split, but with unicode bugs fixed by us
1262 # arg_split ~ shlex.split, but with unicode bugs fixed by us
1264 lsplit = arg_split(text_until_cursor)[-1]
1263 lsplit = arg_split(text_until_cursor)[-1]
1265 except ValueError:
1264 except ValueError:
1266 # typically an unmatched ", or backslash without escaped char.
1265 # typically an unmatched ", or backslash without escaped char.
1267 if open_quotes:
1266 if open_quotes:
1268 lsplit = text_until_cursor.split(open_quotes)[-1]
1267 lsplit = text_until_cursor.split(open_quotes)[-1]
1269 else:
1268 else:
1270 return []
1269 return []
1271 except IndexError:
1270 except IndexError:
1272 # tab pressed on empty line
1271 # tab pressed on empty line
1273 lsplit = ""
1272 lsplit = ""
1274
1273
1275 if not open_quotes and lsplit != protect_filename(lsplit):
1274 if not open_quotes and lsplit != protect_filename(lsplit):
1276 # if protectables are found, do matching on the whole escaped name
1275 # if protectables are found, do matching on the whole escaped name
1277 has_protectables = True
1276 has_protectables = True
1278 text0,text = text,lsplit
1277 text0,text = text,lsplit
1279 else:
1278 else:
1280 has_protectables = False
1279 has_protectables = False
1281 text = os.path.expanduser(text)
1280 text = os.path.expanduser(text)
1282
1281
1283 if text == "":
1282 if text == "":
1284 return [text_prefix + protect_filename(f) for f in self.glob("*")]
1283 return [text_prefix + protect_filename(f) for f in self.glob("*")]
1285
1284
1286 # Compute the matches from the filesystem
1285 # Compute the matches from the filesystem
1287 if sys.platform == 'win32':
1286 if sys.platform == 'win32':
1288 m0 = self.clean_glob(text)
1287 m0 = self.clean_glob(text)
1289 else:
1288 else:
1290 m0 = self.clean_glob(text.replace('\\', ''))
1289 m0 = self.clean_glob(text.replace('\\', ''))
1291
1290
1292 if has_protectables:
1291 if has_protectables:
1293 # If we had protectables, we need to revert our changes to the
1292 # If we had protectables, we need to revert our changes to the
1294 # beginning of filename so that we don't double-write the part
1293 # beginning of filename so that we don't double-write the part
1295 # of the filename we have so far
1294 # of the filename we have so far
1296 len_lsplit = len(lsplit)
1295 len_lsplit = len(lsplit)
1297 matches = [text_prefix + text0 +
1296 matches = [text_prefix + text0 +
1298 protect_filename(f[len_lsplit:]) for f in m0]
1297 protect_filename(f[len_lsplit:]) for f in m0]
1299 else:
1298 else:
1300 if open_quotes:
1299 if open_quotes:
1301 # if we have a string with an open quote, we don't need to
1300 # if we have a string with an open quote, we don't need to
1302 # protect the names beyond the quote (and we _shouldn't_, as
1301 # protect the names beyond the quote (and we _shouldn't_, as
1303 # it would cause bugs when the filesystem call is made).
1302 # it would cause bugs when the filesystem call is made).
1304 matches = m0 if sys.platform == "win32" else\
1303 matches = m0 if sys.platform == "win32" else\
1305 [protect_filename(f, open_quotes) for f in m0]
1304 [protect_filename(f, open_quotes) for f in m0]
1306 else:
1305 else:
1307 matches = [text_prefix +
1306 matches = [text_prefix +
1308 protect_filename(f) for f in m0]
1307 protect_filename(f) for f in m0]
1309
1308
1310 # Mark directories in input list by appending '/' to their names.
1309 # Mark directories in input list by appending '/' to their names.
1311 return [x+'/' if os.path.isdir(x) else x for x in matches]
1310 return [x+'/' if os.path.isdir(x) else x for x in matches]
1312
1311
1313 def magic_matches(self, text:str):
1312 def magic_matches(self, text:str):
1314 """Match magics"""
1313 """Match magics"""
1315 # Get all shell magics now rather than statically, so magics loaded at
1314 # Get all shell magics now rather than statically, so magics loaded at
1316 # runtime show up too.
1315 # runtime show up too.
1317 lsm = self.shell.magics_manager.lsmagic()
1316 lsm = self.shell.magics_manager.lsmagic()
1318 line_magics = lsm['line']
1317 line_magics = lsm['line']
1319 cell_magics = lsm['cell']
1318 cell_magics = lsm['cell']
1320 pre = self.magic_escape
1319 pre = self.magic_escape
1321 pre2 = pre+pre
1320 pre2 = pre+pre
1322
1321
1323 explicit_magic = text.startswith(pre)
1322 explicit_magic = text.startswith(pre)
1324
1323
1325 # Completion logic:
1324 # Completion logic:
1326 # - user gives %%: only do cell magics
1325 # - user gives %%: only do cell magics
1327 # - user gives %: do both line and cell magics
1326 # - user gives %: do both line and cell magics
1328 # - no prefix: do both
1327 # - no prefix: do both
1329 # In other words, line magics are skipped if the user gives %% explicitly
1328 # In other words, line magics are skipped if the user gives %% explicitly
1330 #
1329 #
1331 # We also exclude magics that match any currently visible names:
1330 # We also exclude magics that match any currently visible names:
1332 # https://github.com/ipython/ipython/issues/4877, unless the user has
1331 # https://github.com/ipython/ipython/issues/4877, unless the user has
1333 # typed a %:
1332 # typed a %:
1334 # https://github.com/ipython/ipython/issues/10754
1333 # https://github.com/ipython/ipython/issues/10754
1335 bare_text = text.lstrip(pre)
1334 bare_text = text.lstrip(pre)
1336 global_matches = self.global_matches(bare_text)
1335 global_matches = self.global_matches(bare_text)
1337 if not explicit_magic:
1336 if not explicit_magic:
1338 def matches(magic):
1337 def matches(magic):
1339 """
1338 """
1340 Filter magics, in particular remove magics that match
1339 Filter magics, in particular remove magics that match
1341 a name present in global namespace.
1340 a name present in global namespace.
1342 """
1341 """
1343 return ( magic.startswith(bare_text) and
1342 return ( magic.startswith(bare_text) and
1344 magic not in global_matches )
1343 magic not in global_matches )
1345 else:
1344 else:
1346 def matches(magic):
1345 def matches(magic):
1347 return magic.startswith(bare_text)
1346 return magic.startswith(bare_text)
1348
1347
1349 comp = [ pre2+m for m in cell_magics if matches(m)]
1348 comp = [ pre2+m for m in cell_magics if matches(m)]
1350 if not text.startswith(pre2):
1349 if not text.startswith(pre2):
1351 comp += [ pre+m for m in line_magics if matches(m)]
1350 comp += [ pre+m for m in line_magics if matches(m)]
1352
1351
1353 return comp
1352 return comp
1354
1353
1355 def magic_config_matches(self, text:str) -> List[str]:
1354 def magic_config_matches(self, text:str) -> List[str]:
1356 """ Match class names and attributes for %config magic """
1355 """ Match class names and attributes for %config magic """
1357 texts = text.strip().split()
1356 texts = text.strip().split()
1358
1357
1359 if len(texts) > 0 and (texts[0] == 'config' or texts[0] == '%config'):
1358 if len(texts) > 0 and (texts[0] == 'config' or texts[0] == '%config'):
1360 # get all configuration classes
1359 # get all configuration classes
1361 classes = sorted(set([ c for c in self.shell.configurables
1360 classes = sorted(set([ c for c in self.shell.configurables
1362 if c.__class__.class_traits(config=True)
1361 if c.__class__.class_traits(config=True)
1363 ]), key=lambda x: x.__class__.__name__)
1362 ]), key=lambda x: x.__class__.__name__)
1364 classnames = [ c.__class__.__name__ for c in classes ]
1363 classnames = [ c.__class__.__name__ for c in classes ]
1365
1364
1366 # return all classnames if config or %config is given
1365 # return all classnames if config or %config is given
1367 if len(texts) == 1:
1366 if len(texts) == 1:
1368 return classnames
1367 return classnames
1369
1368
1370 # match classname
1369 # match classname
1371 classname_texts = texts[1].split('.')
1370 classname_texts = texts[1].split('.')
1372 classname = classname_texts[0]
1371 classname = classname_texts[0]
1373 classname_matches = [ c for c in classnames
1372 classname_matches = [ c for c in classnames
1374 if c.startswith(classname) ]
1373 if c.startswith(classname) ]
1375
1374
1376 # return matched classes or the matched class with attributes
1375 # return matched classes or the matched class with attributes
1377 if texts[1].find('.') < 0:
1376 if texts[1].find('.') < 0:
1378 return classname_matches
1377 return classname_matches
1379 elif len(classname_matches) == 1 and \
1378 elif len(classname_matches) == 1 and \
1380 classname_matches[0] == classname:
1379 classname_matches[0] == classname:
1381 cls = classes[classnames.index(classname)].__class__
1380 cls = classes[classnames.index(classname)].__class__
1382 help = cls.class_get_help()
1381 help = cls.class_get_help()
1383 # strip leading '--' from cl-args:
1382 # strip leading '--' from cl-args:
1384 help = re.sub(re.compile(r'^--', re.MULTILINE), '', help)
1383 help = re.sub(re.compile(r'^--', re.MULTILINE), '', help)
1385 return [ attr.split('=')[0]
1384 return [ attr.split('=')[0]
1386 for attr in help.strip().splitlines()
1385 for attr in help.strip().splitlines()
1387 if attr.startswith(texts[1]) ]
1386 if attr.startswith(texts[1]) ]
1388 return []
1387 return []
1389
1388
1390 def magic_color_matches(self, text:str) -> List[str] :
1389 def magic_color_matches(self, text:str) -> List[str] :
1391 """ Match color schemes for %colors magic"""
1390 """ Match color schemes for %colors magic"""
1392 texts = text.split()
1391 texts = text.split()
1393 if text.endswith(' '):
1392 if text.endswith(' '):
1394 # .split() strips off the trailing whitespace. Add '' back
1393 # .split() strips off the trailing whitespace. Add '' back
1395 # so that: '%colors ' -> ['%colors', '']
1394 # so that: '%colors ' -> ['%colors', '']
1396 texts.append('')
1395 texts.append('')
1397
1396
1398 if len(texts) == 2 and (texts[0] == 'colors' or texts[0] == '%colors'):
1397 if len(texts) == 2 and (texts[0] == 'colors' or texts[0] == '%colors'):
1399 prefix = texts[1]
1398 prefix = texts[1]
1400 return [ color for color in InspectColors.keys()
1399 return [ color for color in InspectColors.keys()
1401 if color.startswith(prefix) ]
1400 if color.startswith(prefix) ]
1402 return []
1401 return []
1403
1402
1404 def _jedi_matches(self, cursor_column:int, cursor_line:int, text:str) -> Iterable[Any]:
1403 def _jedi_matches(self, cursor_column:int, cursor_line:int, text:str) -> Iterable[Any]:
1405 """
1404 """
1406 Return a list of :any:`jedi.api.Completions` object from a ``text`` and
1405 Return a list of :any:`jedi.api.Completions` object from a ``text`` and
1407 cursor position.
1406 cursor position.
1408
1407
1409 Parameters
1408 Parameters
1410 ----------
1409 ----------
1411 cursor_column : int
1410 cursor_column : int
1412 column position of the cursor in ``text``, 0-indexed.
1411 column position of the cursor in ``text``, 0-indexed.
1413 cursor_line : int
1412 cursor_line : int
1414 line position of the cursor in ``text``, 0-indexed
1413 line position of the cursor in ``text``, 0-indexed
1415 text : str
1414 text : str
1416 text to complete
1415 text to complete
1417
1416
1418 Notes
1417 Notes
1419 -----
1418 -----
1420 If ``IPCompleter.debug`` is ``True`` may return a :any:`_FakeJediCompletion`
1419 If ``IPCompleter.debug`` is ``True`` may return a :any:`_FakeJediCompletion`
1421 object containing a string with the Jedi debug information attached.
1420 object containing a string with the Jedi debug information attached.
1422 """
1421 """
1423 namespaces = [self.namespace]
1422 namespaces = [self.namespace]
1424 if self.global_namespace is not None:
1423 if self.global_namespace is not None:
1425 namespaces.append(self.global_namespace)
1424 namespaces.append(self.global_namespace)
1426
1425
1427 completion_filter = lambda x:x
1426 completion_filter = lambda x:x
1428 offset = cursor_to_position(text, cursor_line, cursor_column)
1427 offset = cursor_to_position(text, cursor_line, cursor_column)
1429 # filter output if we are completing for object members
1428 # filter output if we are completing for object members
1430 if offset:
1429 if offset:
1431 pre = text[offset-1]
1430 pre = text[offset-1]
1432 if pre == '.':
1431 if pre == '.':
1433 if self.omit__names == 2:
1432 if self.omit__names == 2:
1434 completion_filter = lambda c:not c.name.startswith('_')
1433 completion_filter = lambda c:not c.name.startswith('_')
1435 elif self.omit__names == 1:
1434 elif self.omit__names == 1:
1436 completion_filter = lambda c:not (c.name.startswith('__') and c.name.endswith('__'))
1435 completion_filter = lambda c:not (c.name.startswith('__') and c.name.endswith('__'))
1437 elif self.omit__names == 0:
1436 elif self.omit__names == 0:
1438 completion_filter = lambda x:x
1437 completion_filter = lambda x:x
1439 else:
1438 else:
1440 raise ValueError("Don't understand self.omit__names == {}".format(self.omit__names))
1439 raise ValueError("Don't understand self.omit__names == {}".format(self.omit__names))
1441
1440
1442 interpreter = jedi.Interpreter(text[:offset], namespaces)
1441 interpreter = jedi.Interpreter(text[:offset], namespaces)
1443 try_jedi = True
1442 try_jedi = True
1444
1443
1445 try:
1444 try:
1446 # find the first token in the current tree -- if it is a ' or " then we are in a string
1445 # find the first token in the current tree -- if it is a ' or " then we are in a string
1447 completing_string = False
1446 completing_string = False
1448 try:
1447 try:
1449 first_child = next(c for c in interpreter._get_module().tree_node.children if hasattr(c, 'value'))
1448 first_child = next(c for c in interpreter._get_module().tree_node.children if hasattr(c, 'value'))
1450 except StopIteration:
1449 except StopIteration:
1451 pass
1450 pass
1452 else:
1451 else:
1453 # note the value may be ', ", or it may also be ''' or """, or
1452 # note the value may be ', ", or it may also be ''' or """, or
1454 # in some cases, """what/you/typed..., but all of these are
1453 # in some cases, """what/you/typed..., but all of these are
1455 # strings.
1454 # strings.
1456 completing_string = len(first_child.value) > 0 and first_child.value[0] in {"'", '"'}
1455 completing_string = len(first_child.value) > 0 and first_child.value[0] in {"'", '"'}
1457
1456
1458 # if we are in a string jedi is likely not the right candidate for
1457 # if we are in a string jedi is likely not the right candidate for
1459 # now. Skip it.
1458 # now. Skip it.
1460 try_jedi = not completing_string
1459 try_jedi = not completing_string
1461 except Exception as e:
1460 except Exception as e:
1462 # many of things can go wrong, we are using private API just don't crash.
1461 # many of things can go wrong, we are using private API just don't crash.
1463 if self.debug:
1462 if self.debug:
1464 print("Error detecting if completing a non-finished string :", e, '|')
1463 print("Error detecting if completing a non-finished string :", e, '|')
1465
1464
1466 if not try_jedi:
1465 if not try_jedi:
1467 return []
1466 return []
1468 try:
1467 try:
1469 return filter(completion_filter, interpreter.complete(column=cursor_column, line=cursor_line + 1))
1468 return filter(completion_filter, interpreter.complete(column=cursor_column, line=cursor_line + 1))
1470 except Exception as e:
1469 except Exception as e:
1471 if self.debug:
1470 if self.debug:
1472 return [_FakeJediCompletion('Oops Jedi has crashed, please report a bug with the following:\n"""\n%s\ns"""' % (e))]
1471 return [_FakeJediCompletion('Oops Jedi has crashed, please report a bug with the following:\n"""\n%s\ns"""' % (e))]
1473 else:
1472 else:
1474 return []
1473 return []
1475
1474
1476 def python_matches(self, text:str)->List[str]:
1475 def python_matches(self, text:str)->List[str]:
1477 """Match attributes or global python names"""
1476 """Match attributes or global python names"""
1478 if "." in text:
1477 if "." in text:
1479 try:
1478 try:
1480 matches = self.attr_matches(text)
1479 matches = self.attr_matches(text)
1481 if text.endswith('.') and self.omit__names:
1480 if text.endswith('.') and self.omit__names:
1482 if self.omit__names == 1:
1481 if self.omit__names == 1:
1483 # true if txt is _not_ a __ name, false otherwise:
1482 # true if txt is _not_ a __ name, false otherwise:
1484 no__name = (lambda txt:
1483 no__name = (lambda txt:
1485 re.match(r'.*\.__.*?__',txt) is None)
1484 re.match(r'.*\.__.*?__',txt) is None)
1486 else:
1485 else:
1487 # true if txt is _not_ a _ name, false otherwise:
1486 # true if txt is _not_ a _ name, false otherwise:
1488 no__name = (lambda txt:
1487 no__name = (lambda txt:
1489 re.match(r'\._.*?',txt[txt.rindex('.'):]) is None)
1488 re.match(r'\._.*?',txt[txt.rindex('.'):]) is None)
1490 matches = filter(no__name, matches)
1489 matches = filter(no__name, matches)
1491 except NameError:
1490 except NameError:
1492 # catches <undefined attributes>.<tab>
1491 # catches <undefined attributes>.<tab>
1493 matches = []
1492 matches = []
1494 else:
1493 else:
1495 matches = self.global_matches(text)
1494 matches = self.global_matches(text)
1496 return matches
1495 return matches
1497
1496
1498 def _default_arguments_from_docstring(self, doc):
1497 def _default_arguments_from_docstring(self, doc):
1499 """Parse the first line of docstring for call signature.
1498 """Parse the first line of docstring for call signature.
1500
1499
1501 Docstring should be of the form 'min(iterable[, key=func])\n'.
1500 Docstring should be of the form 'min(iterable[, key=func])\n'.
1502 It can also parse cython docstring of the form
1501 It can also parse cython docstring of the form
1503 'Minuit.migrad(self, int ncall=10000, resume=True, int nsplit=1)'.
1502 'Minuit.migrad(self, int ncall=10000, resume=True, int nsplit=1)'.
1504 """
1503 """
1505 if doc is None:
1504 if doc is None:
1506 return []
1505 return []
1507
1506
1508 #care only the firstline
1507 #care only the firstline
1509 line = doc.lstrip().splitlines()[0]
1508 line = doc.lstrip().splitlines()[0]
1510
1509
1511 #p = re.compile(r'^[\w|\s.]+\(([^)]*)\).*')
1510 #p = re.compile(r'^[\w|\s.]+\(([^)]*)\).*')
1512 #'min(iterable[, key=func])\n' -> 'iterable[, key=func]'
1511 #'min(iterable[, key=func])\n' -> 'iterable[, key=func]'
1513 sig = self.docstring_sig_re.search(line)
1512 sig = self.docstring_sig_re.search(line)
1514 if sig is None:
1513 if sig is None:
1515 return []
1514 return []
1516 # iterable[, key=func]' -> ['iterable[' ,' key=func]']
1515 # iterable[, key=func]' -> ['iterable[' ,' key=func]']
1517 sig = sig.groups()[0].split(',')
1516 sig = sig.groups()[0].split(',')
1518 ret = []
1517 ret = []
1519 for s in sig:
1518 for s in sig:
1520 #re.compile(r'[\s|\[]*(\w+)(?:\s*=\s*.*)')
1519 #re.compile(r'[\s|\[]*(\w+)(?:\s*=\s*.*)')
1521 ret += self.docstring_kwd_re.findall(s)
1520 ret += self.docstring_kwd_re.findall(s)
1522 return ret
1521 return ret
1523
1522
1524 def _default_arguments(self, obj):
1523 def _default_arguments(self, obj):
1525 """Return the list of default arguments of obj if it is callable,
1524 """Return the list of default arguments of obj if it is callable,
1526 or empty list otherwise."""
1525 or empty list otherwise."""
1527 call_obj = obj
1526 call_obj = obj
1528 ret = []
1527 ret = []
1529 if inspect.isbuiltin(obj):
1528 if inspect.isbuiltin(obj):
1530 pass
1529 pass
1531 elif not (inspect.isfunction(obj) or inspect.ismethod(obj)):
1530 elif not (inspect.isfunction(obj) or inspect.ismethod(obj)):
1532 if inspect.isclass(obj):
1531 if inspect.isclass(obj):
1533 #for cython embedsignature=True the constructor docstring
1532 #for cython embedsignature=True the constructor docstring
1534 #belongs to the object itself not __init__
1533 #belongs to the object itself not __init__
1535 ret += self._default_arguments_from_docstring(
1534 ret += self._default_arguments_from_docstring(
1536 getattr(obj, '__doc__', ''))
1535 getattr(obj, '__doc__', ''))
1537 # for classes, check for __init__,__new__
1536 # for classes, check for __init__,__new__
1538 call_obj = (getattr(obj, '__init__', None) or
1537 call_obj = (getattr(obj, '__init__', None) or
1539 getattr(obj, '__new__', None))
1538 getattr(obj, '__new__', None))
1540 # for all others, check if they are __call__able
1539 # for all others, check if they are __call__able
1541 elif hasattr(obj, '__call__'):
1540 elif hasattr(obj, '__call__'):
1542 call_obj = obj.__call__
1541 call_obj = obj.__call__
1543 ret += self._default_arguments_from_docstring(
1542 ret += self._default_arguments_from_docstring(
1544 getattr(call_obj, '__doc__', ''))
1543 getattr(call_obj, '__doc__', ''))
1545
1544
1546 _keeps = (inspect.Parameter.KEYWORD_ONLY,
1545 _keeps = (inspect.Parameter.KEYWORD_ONLY,
1547 inspect.Parameter.POSITIONAL_OR_KEYWORD)
1546 inspect.Parameter.POSITIONAL_OR_KEYWORD)
1548
1547
1549 try:
1548 try:
1550 sig = inspect.signature(obj)
1549 sig = inspect.signature(obj)
1551 ret.extend(k for k, v in sig.parameters.items() if
1550 ret.extend(k for k, v in sig.parameters.items() if
1552 v.kind in _keeps)
1551 v.kind in _keeps)
1553 except ValueError:
1552 except ValueError:
1554 pass
1553 pass
1555
1554
1556 return list(set(ret))
1555 return list(set(ret))
1557
1556
1558 def python_func_kw_matches(self, text):
1557 def python_func_kw_matches(self, text):
1559 """Match named parameters (kwargs) of the last open function"""
1558 """Match named parameters (kwargs) of the last open function"""
1560
1559
1561 if "." in text: # a parameter cannot be dotted
1560 if "." in text: # a parameter cannot be dotted
1562 return []
1561 return []
1563 try: regexp = self.__funcParamsRegex
1562 try: regexp = self.__funcParamsRegex
1564 except AttributeError:
1563 except AttributeError:
1565 regexp = self.__funcParamsRegex = re.compile(r'''
1564 regexp = self.__funcParamsRegex = re.compile(r'''
1566 '.*?(?<!\\)' | # single quoted strings or
1565 '.*?(?<!\\)' | # single quoted strings or
1567 ".*?(?<!\\)" | # double quoted strings or
1566 ".*?(?<!\\)" | # double quoted strings or
1568 \w+ | # identifier
1567 \w+ | # identifier
1569 \S # other characters
1568 \S # other characters
1570 ''', re.VERBOSE | re.DOTALL)
1569 ''', re.VERBOSE | re.DOTALL)
1571 # 1. find the nearest identifier that comes before an unclosed
1570 # 1. find the nearest identifier that comes before an unclosed
1572 # parenthesis before the cursor
1571 # parenthesis before the cursor
1573 # e.g. for "foo (1+bar(x), pa<cursor>,a=1)", the candidate is "foo"
1572 # e.g. for "foo (1+bar(x), pa<cursor>,a=1)", the candidate is "foo"
1574 tokens = regexp.findall(self.text_until_cursor)
1573 tokens = regexp.findall(self.text_until_cursor)
1575 iterTokens = reversed(tokens); openPar = 0
1574 iterTokens = reversed(tokens); openPar = 0
1576
1575
1577 for token in iterTokens:
1576 for token in iterTokens:
1578 if token == ')':
1577 if token == ')':
1579 openPar -= 1
1578 openPar -= 1
1580 elif token == '(':
1579 elif token == '(':
1581 openPar += 1
1580 openPar += 1
1582 if openPar > 0:
1581 if openPar > 0:
1583 # found the last unclosed parenthesis
1582 # found the last unclosed parenthesis
1584 break
1583 break
1585 else:
1584 else:
1586 return []
1585 return []
1587 # 2. Concatenate dotted names ("foo.bar" for "foo.bar(x, pa" )
1586 # 2. Concatenate dotted names ("foo.bar" for "foo.bar(x, pa" )
1588 ids = []
1587 ids = []
1589 isId = re.compile(r'\w+$').match
1588 isId = re.compile(r'\w+$').match
1590
1589
1591 while True:
1590 while True:
1592 try:
1591 try:
1593 ids.append(next(iterTokens))
1592 ids.append(next(iterTokens))
1594 if not isId(ids[-1]):
1593 if not isId(ids[-1]):
1595 ids.pop(); break
1594 ids.pop(); break
1596 if not next(iterTokens) == '.':
1595 if not next(iterTokens) == '.':
1597 break
1596 break
1598 except StopIteration:
1597 except StopIteration:
1599 break
1598 break
1600
1599
1601 # Find all named arguments already assigned to, as to avoid suggesting
1600 # Find all named arguments already assigned to, as to avoid suggesting
1602 # them again
1601 # them again
1603 usedNamedArgs = set()
1602 usedNamedArgs = set()
1604 par_level = -1
1603 par_level = -1
1605 for token, next_token in zip(tokens, tokens[1:]):
1604 for token, next_token in zip(tokens, tokens[1:]):
1606 if token == '(':
1605 if token == '(':
1607 par_level += 1
1606 par_level += 1
1608 elif token == ')':
1607 elif token == ')':
1609 par_level -= 1
1608 par_level -= 1
1610
1609
1611 if par_level != 0:
1610 if par_level != 0:
1612 continue
1611 continue
1613
1612
1614 if next_token != '=':
1613 if next_token != '=':
1615 continue
1614 continue
1616
1615
1617 usedNamedArgs.add(token)
1616 usedNamedArgs.add(token)
1618
1617
1619 argMatches = []
1618 argMatches = []
1620 try:
1619 try:
1621 callableObj = '.'.join(ids[::-1])
1620 callableObj = '.'.join(ids[::-1])
1622 namedArgs = self._default_arguments(eval(callableObj,
1621 namedArgs = self._default_arguments(eval(callableObj,
1623 self.namespace))
1622 self.namespace))
1624
1623
1625 # Remove used named arguments from the list, no need to show twice
1624 # Remove used named arguments from the list, no need to show twice
1626 for namedArg in set(namedArgs) - usedNamedArgs:
1625 for namedArg in set(namedArgs) - usedNamedArgs:
1627 if namedArg.startswith(text):
1626 if namedArg.startswith(text):
1628 argMatches.append("%s=" %namedArg)
1627 argMatches.append("%s=" %namedArg)
1629 except:
1628 except:
1630 pass
1629 pass
1631
1630
1632 return argMatches
1631 return argMatches
1633
1632
1634 @staticmethod
1633 @staticmethod
1635 def _get_keys(obj: Any) -> List[Any]:
1634 def _get_keys(obj: Any) -> List[Any]:
1636 # Objects can define their own completions by defining an
1635 # Objects can define their own completions by defining an
1637 # _ipy_key_completions_() method.
1636 # _ipy_key_completions_() method.
1638 method = get_real_method(obj, '_ipython_key_completions_')
1637 method = get_real_method(obj, '_ipython_key_completions_')
1639 if method is not None:
1638 if method is not None:
1640 return method()
1639 return method()
1641
1640
1642 # Special case some common in-memory dict-like types
1641 # Special case some common in-memory dict-like types
1643 if isinstance(obj, dict) or\
1642 if isinstance(obj, dict) or\
1644 _safe_isinstance(obj, 'pandas', 'DataFrame'):
1643 _safe_isinstance(obj, 'pandas', 'DataFrame'):
1645 try:
1644 try:
1646 return list(obj.keys())
1645 return list(obj.keys())
1647 except Exception:
1646 except Exception:
1648 return []
1647 return []
1649 elif _safe_isinstance(obj, 'numpy', 'ndarray') or\
1648 elif _safe_isinstance(obj, 'numpy', 'ndarray') or\
1650 _safe_isinstance(obj, 'numpy', 'void'):
1649 _safe_isinstance(obj, 'numpy', 'void'):
1651 return obj.dtype.names or []
1650 return obj.dtype.names or []
1652 return []
1651 return []
1653
1652
1654 def dict_key_matches(self, text:str) -> List[str]:
1653 def dict_key_matches(self, text:str) -> List[str]:
1655 "Match string keys in a dictionary, after e.g. 'foo[' "
1654 "Match string keys in a dictionary, after e.g. 'foo[' "
1656
1655
1657
1656
1658 if self.__dict_key_regexps is not None:
1657 if self.__dict_key_regexps is not None:
1659 regexps = self.__dict_key_regexps
1658 regexps = self.__dict_key_regexps
1660 else:
1659 else:
1661 dict_key_re_fmt = r'''(?x)
1660 dict_key_re_fmt = r'''(?x)
1662 ( # match dict-referring expression wrt greedy setting
1661 ( # match dict-referring expression wrt greedy setting
1663 %s
1662 %s
1664 )
1663 )
1665 \[ # open bracket
1664 \[ # open bracket
1666 \s* # and optional whitespace
1665 \s* # and optional whitespace
1667 # Capture any number of str-like objects (e.g. "a", "b", 'c')
1666 # Capture any number of str-like objects (e.g. "a", "b", 'c')
1668 ((?:[uUbB]? # string prefix (r not handled)
1667 ((?:[uUbB]? # string prefix (r not handled)
1669 (?:
1668 (?:
1670 '(?:[^']|(?<!\\)\\')*'
1669 '(?:[^']|(?<!\\)\\')*'
1671 |
1670 |
1672 "(?:[^"]|(?<!\\)\\")*"
1671 "(?:[^"]|(?<!\\)\\")*"
1673 )
1672 )
1674 \s*,\s*
1673 \s*,\s*
1675 )*)
1674 )*)
1676 ([uUbB]? # string prefix (r not handled)
1675 ([uUbB]? # string prefix (r not handled)
1677 (?: # unclosed string
1676 (?: # unclosed string
1678 '(?:[^']|(?<!\\)\\')*
1677 '(?:[^']|(?<!\\)\\')*
1679 |
1678 |
1680 "(?:[^"]|(?<!\\)\\")*
1679 "(?:[^"]|(?<!\\)\\")*
1681 )
1680 )
1682 )?
1681 )?
1683 $
1682 $
1684 '''
1683 '''
1685 regexps = self.__dict_key_regexps = {
1684 regexps = self.__dict_key_regexps = {
1686 False: re.compile(dict_key_re_fmt % r'''
1685 False: re.compile(dict_key_re_fmt % r'''
1687 # identifiers separated by .
1686 # identifiers separated by .
1688 (?!\d)\w+
1687 (?!\d)\w+
1689 (?:\.(?!\d)\w+)*
1688 (?:\.(?!\d)\w+)*
1690 '''),
1689 '''),
1691 True: re.compile(dict_key_re_fmt % '''
1690 True: re.compile(dict_key_re_fmt % '''
1692 .+
1691 .+
1693 ''')
1692 ''')
1694 }
1693 }
1695
1694
1696 match = regexps[self.greedy].search(self.text_until_cursor)
1695 match = regexps[self.greedy].search(self.text_until_cursor)
1697
1696
1698 if match is None:
1697 if match is None:
1699 return []
1698 return []
1700
1699
1701 expr, prefix0, prefix = match.groups()
1700 expr, prefix0, prefix = match.groups()
1702 try:
1701 try:
1703 obj = eval(expr, self.namespace)
1702 obj = eval(expr, self.namespace)
1704 except Exception:
1703 except Exception:
1705 try:
1704 try:
1706 obj = eval(expr, self.global_namespace)
1705 obj = eval(expr, self.global_namespace)
1707 except Exception:
1706 except Exception:
1708 return []
1707 return []
1709
1708
1710 keys = self._get_keys(obj)
1709 keys = self._get_keys(obj)
1711 if not keys:
1710 if not keys:
1712 return keys
1711 return keys
1713
1712
1714 extra_prefix = eval(prefix0) if prefix0 != '' else None
1713 extra_prefix = eval(prefix0) if prefix0 != '' else None
1715
1714
1716 closing_quote, token_offset, matches = match_dict_keys(keys, prefix, self.splitter.delims, extra_prefix=extra_prefix)
1715 closing_quote, token_offset, matches = match_dict_keys(keys, prefix, self.splitter.delims, extra_prefix=extra_prefix)
1717 if not matches:
1716 if not matches:
1718 return matches
1717 return matches
1719
1718
1720 # get the cursor position of
1719 # get the cursor position of
1721 # - the text being completed
1720 # - the text being completed
1722 # - the start of the key text
1721 # - the start of the key text
1723 # - the start of the completion
1722 # - the start of the completion
1724 text_start = len(self.text_until_cursor) - len(text)
1723 text_start = len(self.text_until_cursor) - len(text)
1725 if prefix:
1724 if prefix:
1726 key_start = match.start(3)
1725 key_start = match.start(3)
1727 completion_start = key_start + token_offset
1726 completion_start = key_start + token_offset
1728 else:
1727 else:
1729 key_start = completion_start = match.end()
1728 key_start = completion_start = match.end()
1730
1729
1731 # grab the leading prefix, to make sure all completions start with `text`
1730 # grab the leading prefix, to make sure all completions start with `text`
1732 if text_start > key_start:
1731 if text_start > key_start:
1733 leading = ''
1732 leading = ''
1734 else:
1733 else:
1735 leading = text[text_start:completion_start]
1734 leading = text[text_start:completion_start]
1736
1735
1737 # the index of the `[` character
1736 # the index of the `[` character
1738 bracket_idx = match.end(1)
1737 bracket_idx = match.end(1)
1739
1738
1740 # append closing quote and bracket as appropriate
1739 # append closing quote and bracket as appropriate
1741 # this is *not* appropriate if the opening quote or bracket is outside
1740 # this is *not* appropriate if the opening quote or bracket is outside
1742 # the text given to this method
1741 # the text given to this method
1743 suf = ''
1742 suf = ''
1744 continuation = self.line_buffer[len(self.text_until_cursor):]
1743 continuation = self.line_buffer[len(self.text_until_cursor):]
1745 if key_start > text_start and closing_quote:
1744 if key_start > text_start and closing_quote:
1746 # quotes were opened inside text, maybe close them
1745 # quotes were opened inside text, maybe close them
1747 if continuation.startswith(closing_quote):
1746 if continuation.startswith(closing_quote):
1748 continuation = continuation[len(closing_quote):]
1747 continuation = continuation[len(closing_quote):]
1749 else:
1748 else:
1750 suf += closing_quote
1749 suf += closing_quote
1751 if bracket_idx > text_start:
1750 if bracket_idx > text_start:
1752 # brackets were opened inside text, maybe close them
1751 # brackets were opened inside text, maybe close them
1753 if not continuation.startswith(']'):
1752 if not continuation.startswith(']'):
1754 suf += ']'
1753 suf += ']'
1755
1754
1756 return [leading + k + suf for k in matches]
1755 return [leading + k + suf for k in matches]
1757
1756
1758 @staticmethod
1757 @staticmethod
1759 def unicode_name_matches(text:str) -> Tuple[str, List[str]] :
1758 def unicode_name_matches(text:str) -> Tuple[str, List[str]] :
1760 """Match Latex-like syntax for unicode characters base
1759 """Match Latex-like syntax for unicode characters base
1761 on the name of the character.
1760 on the name of the character.
1762
1761
1763 This does ``\\GREEK SMALL LETTER ETA`` -> ``Ξ·``
1762 This does ``\\GREEK SMALL LETTER ETA`` -> ``Ξ·``
1764
1763
1765 Works only on valid python 3 identifier, or on combining characters that
1764 Works only on valid python 3 identifier, or on combining characters that
1766 will combine to form a valid identifier.
1765 will combine to form a valid identifier.
1767 """
1766 """
1768 slashpos = text.rfind('\\')
1767 slashpos = text.rfind('\\')
1769 if slashpos > -1:
1768 if slashpos > -1:
1770 s = text[slashpos+1:]
1769 s = text[slashpos+1:]
1771 try :
1770 try :
1772 unic = unicodedata.lookup(s)
1771 unic = unicodedata.lookup(s)
1773 # allow combining chars
1772 # allow combining chars
1774 if ('a'+unic).isidentifier():
1773 if ('a'+unic).isidentifier():
1775 return '\\'+s,[unic]
1774 return '\\'+s,[unic]
1776 except KeyError:
1775 except KeyError:
1777 pass
1776 pass
1778 return '', []
1777 return '', []
1779
1778
1780
1779
1781 def latex_matches(self, text:str) -> Tuple[str, Sequence[str]]:
1780 def latex_matches(self, text:str) -> Tuple[str, Sequence[str]]:
1782 """Match Latex syntax for unicode characters.
1781 """Match Latex syntax for unicode characters.
1783
1782
1784 This does both ``\\alp`` -> ``\\alpha`` and ``\\alpha`` -> ``Ξ±``
1783 This does both ``\\alp`` -> ``\\alpha`` and ``\\alpha`` -> ``Ξ±``
1785 """
1784 """
1786 slashpos = text.rfind('\\')
1785 slashpos = text.rfind('\\')
1787 if slashpos > -1:
1786 if slashpos > -1:
1788 s = text[slashpos:]
1787 s = text[slashpos:]
1789 if s in latex_symbols:
1788 if s in latex_symbols:
1790 # Try to complete a full latex symbol to unicode
1789 # Try to complete a full latex symbol to unicode
1791 # \\alpha -> Ξ±
1790 # \\alpha -> Ξ±
1792 return s, [latex_symbols[s]]
1791 return s, [latex_symbols[s]]
1793 else:
1792 else:
1794 # If a user has partially typed a latex symbol, give them
1793 # If a user has partially typed a latex symbol, give them
1795 # a full list of options \al -> [\aleph, \alpha]
1794 # a full list of options \al -> [\aleph, \alpha]
1796 matches = [k for k in latex_symbols if k.startswith(s)]
1795 matches = [k for k in latex_symbols if k.startswith(s)]
1797 if matches:
1796 if matches:
1798 return s, matches
1797 return s, matches
1799 return '', ()
1798 return '', ()
1800
1799
1801 def dispatch_custom_completer(self, text):
1800 def dispatch_custom_completer(self, text):
1802 if not self.custom_completers:
1801 if not self.custom_completers:
1803 return
1802 return
1804
1803
1805 line = self.line_buffer
1804 line = self.line_buffer
1806 if not line.strip():
1805 if not line.strip():
1807 return None
1806 return None
1808
1807
1809 # Create a little structure to pass all the relevant information about
1808 # Create a little structure to pass all the relevant information about
1810 # the current completion to any custom completer.
1809 # the current completion to any custom completer.
1811 event = SimpleNamespace()
1810 event = SimpleNamespace()
1812 event.line = line
1811 event.line = line
1813 event.symbol = text
1812 event.symbol = text
1814 cmd = line.split(None,1)[0]
1813 cmd = line.split(None,1)[0]
1815 event.command = cmd
1814 event.command = cmd
1816 event.text_until_cursor = self.text_until_cursor
1815 event.text_until_cursor = self.text_until_cursor
1817
1816
1818 # for foo etc, try also to find completer for %foo
1817 # for foo etc, try also to find completer for %foo
1819 if not cmd.startswith(self.magic_escape):
1818 if not cmd.startswith(self.magic_escape):
1820 try_magic = self.custom_completers.s_matches(
1819 try_magic = self.custom_completers.s_matches(
1821 self.magic_escape + cmd)
1820 self.magic_escape + cmd)
1822 else:
1821 else:
1823 try_magic = []
1822 try_magic = []
1824
1823
1825 for c in itertools.chain(self.custom_completers.s_matches(cmd),
1824 for c in itertools.chain(self.custom_completers.s_matches(cmd),
1826 try_magic,
1825 try_magic,
1827 self.custom_completers.flat_matches(self.text_until_cursor)):
1826 self.custom_completers.flat_matches(self.text_until_cursor)):
1828 try:
1827 try:
1829 res = c(event)
1828 res = c(event)
1830 if res:
1829 if res:
1831 # first, try case sensitive match
1830 # first, try case sensitive match
1832 withcase = [r for r in res if r.startswith(text)]
1831 withcase = [r for r in res if r.startswith(text)]
1833 if withcase:
1832 if withcase:
1834 return withcase
1833 return withcase
1835 # if none, then case insensitive ones are ok too
1834 # if none, then case insensitive ones are ok too
1836 text_low = text.lower()
1835 text_low = text.lower()
1837 return [r for r in res if r.lower().startswith(text_low)]
1836 return [r for r in res if r.lower().startswith(text_low)]
1838 except TryNext:
1837 except TryNext:
1839 pass
1838 pass
1840 except KeyboardInterrupt:
1839 except KeyboardInterrupt:
1841 """
1840 """
1842 If custom completer take too long,
1841 If custom completer take too long,
1843 let keyboard interrupt abort and return nothing.
1842 let keyboard interrupt abort and return nothing.
1844 """
1843 """
1845 break
1844 break
1846
1845
1847 return None
1846 return None
1848
1847
1849 def completions(self, text: str, offset: int)->Iterator[Completion]:
1848 def completions(self, text: str, offset: int)->Iterator[Completion]:
1850 """
1849 """
1851 Returns an iterator over the possible completions
1850 Returns an iterator over the possible completions
1852
1851
1853 .. warning::
1852 .. warning::
1854
1853
1855 Unstable
1854 Unstable
1856
1855
1857 This function is unstable, API may change without warning.
1856 This function is unstable, API may change without warning.
1858 It will also raise unless use in proper context manager.
1857 It will also raise unless use in proper context manager.
1859
1858
1860 Parameters
1859 Parameters
1861 ----------
1860 ----------
1862 text : str
1861 text : str
1863 Full text of the current input, multi line string.
1862 Full text of the current input, multi line string.
1864 offset : int
1863 offset : int
1865 Integer representing the position of the cursor in ``text``. Offset
1864 Integer representing the position of the cursor in ``text``. Offset
1866 is 0-based indexed.
1865 is 0-based indexed.
1867
1866
1868 Yields
1867 Yields
1869 ------
1868 ------
1870 Completion
1869 Completion
1871
1870
1872 Notes
1871 Notes
1873 -----
1872 -----
1874 The cursor on a text can either be seen as being "in between"
1873 The cursor on a text can either be seen as being "in between"
1875 characters or "On" a character depending on the interface visible to
1874 characters or "On" a character depending on the interface visible to
1876 the user. For consistency the cursor being on "in between" characters X
1875 the user. For consistency the cursor being on "in between" characters X
1877 and Y is equivalent to the cursor being "on" character Y, that is to say
1876 and Y is equivalent to the cursor being "on" character Y, that is to say
1878 the character the cursor is on is considered as being after the cursor.
1877 the character the cursor is on is considered as being after the cursor.
1879
1878
1880 Combining characters may span more that one position in the
1879 Combining characters may span more that one position in the
1881 text.
1880 text.
1882
1881
1883 .. note::
1882 .. note::
1884
1883
1885 If ``IPCompleter.debug`` is :any:`True` will yield a ``--jedi/ipython--``
1884 If ``IPCompleter.debug`` is :any:`True` will yield a ``--jedi/ipython--``
1886 fake Completion token to distinguish completion returned by Jedi
1885 fake Completion token to distinguish completion returned by Jedi
1887 and usual IPython completion.
1886 and usual IPython completion.
1888
1887
1889 .. note::
1888 .. note::
1890
1889
1891 Completions are not completely deduplicated yet. If identical
1890 Completions are not completely deduplicated yet. If identical
1892 completions are coming from different sources this function does not
1891 completions are coming from different sources this function does not
1893 ensure that each completion object will only be present once.
1892 ensure that each completion object will only be present once.
1894 """
1893 """
1895 warnings.warn("_complete is a provisional API (as of IPython 6.0). "
1894 warnings.warn("_complete is a provisional API (as of IPython 6.0). "
1896 "It may change without warnings. "
1895 "It may change without warnings. "
1897 "Use in corresponding context manager.",
1896 "Use in corresponding context manager.",
1898 category=ProvisionalCompleterWarning, stacklevel=2)
1897 category=ProvisionalCompleterWarning, stacklevel=2)
1899
1898
1900 seen = set()
1899 seen = set()
1901 profiler:Optional[cProfile.Profile]
1900 profiler:Optional[cProfile.Profile]
1902 try:
1901 try:
1903 if self.profile_completions:
1902 if self.profile_completions:
1904 import cProfile
1903 import cProfile
1905 profiler = cProfile.Profile()
1904 profiler = cProfile.Profile()
1906 profiler.enable()
1905 profiler.enable()
1907 else:
1906 else:
1908 profiler = None
1907 profiler = None
1909
1908
1910 for c in self._completions(text, offset, _timeout=self.jedi_compute_type_timeout/1000):
1909 for c in self._completions(text, offset, _timeout=self.jedi_compute_type_timeout/1000):
1911 if c and (c in seen):
1910 if c and (c in seen):
1912 continue
1911 continue
1913 yield c
1912 yield c
1914 seen.add(c)
1913 seen.add(c)
1915 except KeyboardInterrupt:
1914 except KeyboardInterrupt:
1916 """if completions take too long and users send keyboard interrupt,
1915 """if completions take too long and users send keyboard interrupt,
1917 do not crash and return ASAP. """
1916 do not crash and return ASAP. """
1918 pass
1917 pass
1919 finally:
1918 finally:
1920 if profiler is not None:
1919 if profiler is not None:
1921 profiler.disable()
1920 profiler.disable()
1922 ensure_dir_exists(self.profiler_output_dir)
1921 ensure_dir_exists(self.profiler_output_dir)
1923 output_path = os.path.join(self.profiler_output_dir, str(uuid.uuid4()))
1922 output_path = os.path.join(self.profiler_output_dir, str(uuid.uuid4()))
1924 print("Writing profiler output to", output_path)
1923 print("Writing profiler output to", output_path)
1925 profiler.dump_stats(output_path)
1924 profiler.dump_stats(output_path)
1926
1925
1927 def _completions(self, full_text: str, offset: int, *, _timeout) -> Iterator[Completion]:
1926 def _completions(self, full_text: str, offset: int, *, _timeout) -> Iterator[Completion]:
1928 """
1927 """
1929 Core completion module.Same signature as :any:`completions`, with the
1928 Core completion module.Same signature as :any:`completions`, with the
1930 extra `timeout` parameter (in seconds).
1929 extra `timeout` parameter (in seconds).
1931
1930
1932 Computing jedi's completion ``.type`` can be quite expensive (it is a
1931 Computing jedi's completion ``.type`` can be quite expensive (it is a
1933 lazy property) and can require some warm-up, more warm up than just
1932 lazy property) and can require some warm-up, more warm up than just
1934 computing the ``name`` of a completion. The warm-up can be :
1933 computing the ``name`` of a completion. The warm-up can be :
1935
1934
1936 - Long warm-up the first time a module is encountered after
1935 - Long warm-up the first time a module is encountered after
1937 install/update: actually build parse/inference tree.
1936 install/update: actually build parse/inference tree.
1938
1937
1939 - first time the module is encountered in a session: load tree from
1938 - first time the module is encountered in a session: load tree from
1940 disk.
1939 disk.
1941
1940
1942 We don't want to block completions for tens of seconds so we give the
1941 We don't want to block completions for tens of seconds so we give the
1943 completer a "budget" of ``_timeout`` seconds per invocation to compute
1942 completer a "budget" of ``_timeout`` seconds per invocation to compute
1944 completions types, the completions that have not yet been computed will
1943 completions types, the completions that have not yet been computed will
1945 be marked as "unknown" an will have a chance to be computed next round
1944 be marked as "unknown" an will have a chance to be computed next round
1946 are things get cached.
1945 are things get cached.
1947
1946
1948 Keep in mind that Jedi is not the only thing treating the completion so
1947 Keep in mind that Jedi is not the only thing treating the completion so
1949 keep the timeout short-ish as if we take more than 0.3 second we still
1948 keep the timeout short-ish as if we take more than 0.3 second we still
1950 have lots of processing to do.
1949 have lots of processing to do.
1951
1950
1952 """
1951 """
1953 deadline = time.monotonic() + _timeout
1952 deadline = time.monotonic() + _timeout
1954
1953
1955
1954
1956 before = full_text[:offset]
1955 before = full_text[:offset]
1957 cursor_line, cursor_column = position_to_cursor(full_text, offset)
1956 cursor_line, cursor_column = position_to_cursor(full_text, offset)
1958
1957
1959 matched_text, matches, matches_origin, jedi_matches = self._complete(
1958 matched_text, matches, matches_origin, jedi_matches = self._complete(
1960 full_text=full_text, cursor_line=cursor_line, cursor_pos=cursor_column)
1959 full_text=full_text, cursor_line=cursor_line, cursor_pos=cursor_column)
1961
1960
1962 iter_jm = iter(jedi_matches)
1961 iter_jm = iter(jedi_matches)
1963 if _timeout:
1962 if _timeout:
1964 for jm in iter_jm:
1963 for jm in iter_jm:
1965 try:
1964 try:
1966 type_ = jm.type
1965 type_ = jm.type
1967 except Exception:
1966 except Exception:
1968 if self.debug:
1967 if self.debug:
1969 print("Error in Jedi getting type of ", jm)
1968 print("Error in Jedi getting type of ", jm)
1970 type_ = None
1969 type_ = None
1971 delta = len(jm.name_with_symbols) - len(jm.complete)
1970 delta = len(jm.name_with_symbols) - len(jm.complete)
1972 if type_ == 'function':
1971 if type_ == 'function':
1973 signature = _make_signature(jm)
1972 signature = _make_signature(jm)
1974 else:
1973 else:
1975 signature = ''
1974 signature = ''
1976 yield Completion(start=offset - delta,
1975 yield Completion(start=offset - delta,
1977 end=offset,
1976 end=offset,
1978 text=jm.name_with_symbols,
1977 text=jm.name_with_symbols,
1979 type=type_,
1978 type=type_,
1980 signature=signature,
1979 signature=signature,
1981 _origin='jedi')
1980 _origin='jedi')
1982
1981
1983 if time.monotonic() > deadline:
1982 if time.monotonic() > deadline:
1984 break
1983 break
1985
1984
1986 for jm in iter_jm:
1985 for jm in iter_jm:
1987 delta = len(jm.name_with_symbols) - len(jm.complete)
1986 delta = len(jm.name_with_symbols) - len(jm.complete)
1988 yield Completion(start=offset - delta,
1987 yield Completion(start=offset - delta,
1989 end=offset,
1988 end=offset,
1990 text=jm.name_with_symbols,
1989 text=jm.name_with_symbols,
1991 type='<unknown>', # don't compute type for speed
1990 type='<unknown>', # don't compute type for speed
1992 _origin='jedi',
1991 _origin='jedi',
1993 signature='')
1992 signature='')
1994
1993
1995
1994
1996 start_offset = before.rfind(matched_text)
1995 start_offset = before.rfind(matched_text)
1997
1996
1998 # TODO:
1997 # TODO:
1999 # Suppress this, right now just for debug.
1998 # Suppress this, right now just for debug.
2000 if jedi_matches and matches and self.debug:
1999 if jedi_matches and matches and self.debug:
2001 yield Completion(start=start_offset, end=offset, text='--jedi/ipython--',
2000 yield Completion(start=start_offset, end=offset, text='--jedi/ipython--',
2002 _origin='debug', type='none', signature='')
2001 _origin='debug', type='none', signature='')
2003
2002
2004 # I'm unsure if this is always true, so let's assert and see if it
2003 # I'm unsure if this is always true, so let's assert and see if it
2005 # crash
2004 # crash
2006 assert before.endswith(matched_text)
2005 assert before.endswith(matched_text)
2007 for m, t in zip(matches, matches_origin):
2006 for m, t in zip(matches, matches_origin):
2008 yield Completion(start=start_offset, end=offset, text=m, _origin=t, signature='', type='<unknown>')
2007 yield Completion(start=start_offset, end=offset, text=m, _origin=t, signature='', type='<unknown>')
2009
2008
2010
2009
2011 def complete(self, text=None, line_buffer=None, cursor_pos=None) -> Tuple[str, Sequence[str]]:
2010 def complete(self, text=None, line_buffer=None, cursor_pos=None) -> Tuple[str, Sequence[str]]:
2012 """Find completions for the given text and line context.
2011 """Find completions for the given text and line context.
2013
2012
2014 Note that both the text and the line_buffer are optional, but at least
2013 Note that both the text and the line_buffer are optional, but at least
2015 one of them must be given.
2014 one of them must be given.
2016
2015
2017 Parameters
2016 Parameters
2018 ----------
2017 ----------
2019 text : string, optional
2018 text : string, optional
2020 Text to perform the completion on. If not given, the line buffer
2019 Text to perform the completion on. If not given, the line buffer
2021 is split using the instance's CompletionSplitter object.
2020 is split using the instance's CompletionSplitter object.
2022 line_buffer : string, optional
2021 line_buffer : string, optional
2023 If not given, the completer attempts to obtain the current line
2022 If not given, the completer attempts to obtain the current line
2024 buffer via readline. This keyword allows clients which are
2023 buffer via readline. This keyword allows clients which are
2025 requesting for text completions in non-readline contexts to inform
2024 requesting for text completions in non-readline contexts to inform
2026 the completer of the entire text.
2025 the completer of the entire text.
2027 cursor_pos : int, optional
2026 cursor_pos : int, optional
2028 Index of the cursor in the full line buffer. Should be provided by
2027 Index of the cursor in the full line buffer. Should be provided by
2029 remote frontends where kernel has no access to frontend state.
2028 remote frontends where kernel has no access to frontend state.
2030
2029
2031 Returns
2030 Returns
2032 -------
2031 -------
2033 Tuple of two items:
2032 Tuple of two items:
2034 text : str
2033 text : str
2035 Text that was actually used in the completion.
2034 Text that was actually used in the completion.
2036 matches : list
2035 matches : list
2037 A list of completion matches.
2036 A list of completion matches.
2038
2037
2039 Notes
2038 Notes
2040 -----
2039 -----
2041 This API is likely to be deprecated and replaced by
2040 This API is likely to be deprecated and replaced by
2042 :any:`IPCompleter.completions` in the future.
2041 :any:`IPCompleter.completions` in the future.
2043
2042
2044 """
2043 """
2045 warnings.warn('`Completer.complete` is pending deprecation since '
2044 warnings.warn('`Completer.complete` is pending deprecation since '
2046 'IPython 6.0 and will be replaced by `Completer.completions`.',
2045 'IPython 6.0 and will be replaced by `Completer.completions`.',
2047 PendingDeprecationWarning)
2046 PendingDeprecationWarning)
2048 # potential todo, FOLD the 3rd throw away argument of _complete
2047 # potential todo, FOLD the 3rd throw away argument of _complete
2049 # into the first 2 one.
2048 # into the first 2 one.
2050 return self._complete(line_buffer=line_buffer, cursor_pos=cursor_pos, text=text, cursor_line=0)[:2]
2049 return self._complete(line_buffer=line_buffer, cursor_pos=cursor_pos, text=text, cursor_line=0)[:2]
2051
2050
2052 def _complete(self, *, cursor_line, cursor_pos, line_buffer=None, text=None,
2051 def _complete(self, *, cursor_line, cursor_pos, line_buffer=None, text=None,
2053 full_text=None) -> _CompleteResult:
2052 full_text=None) -> _CompleteResult:
2054 """
2053 """
2055 Like complete but can also returns raw jedi completions as well as the
2054 Like complete but can also returns raw jedi completions as well as the
2056 origin of the completion text. This could (and should) be made much
2055 origin of the completion text. This could (and should) be made much
2057 cleaner but that will be simpler once we drop the old (and stateful)
2056 cleaner but that will be simpler once we drop the old (and stateful)
2058 :any:`complete` API.
2057 :any:`complete` API.
2059
2058
2060 With current provisional API, cursor_pos act both (depending on the
2059 With current provisional API, cursor_pos act both (depending on the
2061 caller) as the offset in the ``text`` or ``line_buffer``, or as the
2060 caller) as the offset in the ``text`` or ``line_buffer``, or as the
2062 ``column`` when passing multiline strings this could/should be renamed
2061 ``column`` when passing multiline strings this could/should be renamed
2063 but would add extra noise.
2062 but would add extra noise.
2064
2063
2065 Parameters
2064 Parameters
2066 ----------
2065 ----------
2067 cursor_line
2066 cursor_line
2068 Index of the line the cursor is on. 0 indexed.
2067 Index of the line the cursor is on. 0 indexed.
2069 cursor_pos
2068 cursor_pos
2070 Position of the cursor in the current line/line_buffer/text. 0
2069 Position of the cursor in the current line/line_buffer/text. 0
2071 indexed.
2070 indexed.
2072 line_buffer : optional, str
2071 line_buffer : optional, str
2073 The current line the cursor is in, this is mostly due to legacy
2072 The current line the cursor is in, this is mostly due to legacy
2074 reason that readline coudl only give a us the single current line.
2073 reason that readline coudl only give a us the single current line.
2075 Prefer `full_text`.
2074 Prefer `full_text`.
2076 text : str
2075 text : str
2077 The current "token" the cursor is in, mostly also for historical
2076 The current "token" the cursor is in, mostly also for historical
2078 reasons. as the completer would trigger only after the current line
2077 reasons. as the completer would trigger only after the current line
2079 was parsed.
2078 was parsed.
2080 full_text : str
2079 full_text : str
2081 Full text of the current cell.
2080 Full text of the current cell.
2082
2081
2083 Returns
2082 Returns
2084 -------
2083 -------
2085 A tuple of N elements which are (likely):
2084 A tuple of N elements which are (likely):
2086 matched_text: ? the text that the complete matched
2085 matched_text: ? the text that the complete matched
2087 matches: list of completions ?
2086 matches: list of completions ?
2088 matches_origin: ? list same length as matches, and where each completion came from
2087 matches_origin: ? list same length as matches, and where each completion came from
2089 jedi_matches: list of Jedi matches, have it's own structure.
2088 jedi_matches: list of Jedi matches, have it's own structure.
2090 """
2089 """
2091
2090
2092
2091
2093 # if the cursor position isn't given, the only sane assumption we can
2092 # if the cursor position isn't given, the only sane assumption we can
2094 # make is that it's at the end of the line (the common case)
2093 # make is that it's at the end of the line (the common case)
2095 if cursor_pos is None:
2094 if cursor_pos is None:
2096 cursor_pos = len(line_buffer) if text is None else len(text)
2095 cursor_pos = len(line_buffer) if text is None else len(text)
2097
2096
2098 if self.use_main_ns:
2097 if self.use_main_ns:
2099 self.namespace = __main__.__dict__
2098 self.namespace = __main__.__dict__
2100
2099
2101 # if text is either None or an empty string, rely on the line buffer
2100 # if text is either None or an empty string, rely on the line buffer
2102 if (not line_buffer) and full_text:
2101 if (not line_buffer) and full_text:
2103 line_buffer = full_text.split('\n')[cursor_line]
2102 line_buffer = full_text.split('\n')[cursor_line]
2104 if not text: # issue #11508: check line_buffer before calling split_line
2103 if not text: # issue #11508: check line_buffer before calling split_line
2105 text = self.splitter.split_line(line_buffer, cursor_pos) if line_buffer else ''
2104 text = self.splitter.split_line(line_buffer, cursor_pos) if line_buffer else ''
2106
2105
2107 if self.backslash_combining_completions:
2106 if self.backslash_combining_completions:
2108 # allow deactivation of these on windows.
2107 # allow deactivation of these on windows.
2109 base_text = text if not line_buffer else line_buffer[:cursor_pos]
2108 base_text = text if not line_buffer else line_buffer[:cursor_pos]
2110
2109
2111 for meth in (self.latex_matches,
2110 for meth in (self.latex_matches,
2112 self.unicode_name_matches,
2111 self.unicode_name_matches,
2113 back_latex_name_matches,
2112 back_latex_name_matches,
2114 back_unicode_name_matches,
2113 back_unicode_name_matches,
2115 self.fwd_unicode_match):
2114 self.fwd_unicode_match):
2116 name_text, name_matches = meth(base_text)
2115 name_text, name_matches = meth(base_text)
2117 if name_text:
2116 if name_text:
2118 return _CompleteResult(name_text, name_matches[:MATCHES_LIMIT], \
2117 return _CompleteResult(name_text, name_matches[:MATCHES_LIMIT], \
2119 [meth.__qualname__]*min(len(name_matches), MATCHES_LIMIT), ())
2118 [meth.__qualname__]*min(len(name_matches), MATCHES_LIMIT), ())
2120
2119
2121
2120
2122 # If no line buffer is given, assume the input text is all there was
2121 # If no line buffer is given, assume the input text is all there was
2123 if line_buffer is None:
2122 if line_buffer is None:
2124 line_buffer = text
2123 line_buffer = text
2125
2124
2126 self.line_buffer = line_buffer
2125 self.line_buffer = line_buffer
2127 self.text_until_cursor = self.line_buffer[:cursor_pos]
2126 self.text_until_cursor = self.line_buffer[:cursor_pos]
2128
2127
2129 # Do magic arg matches
2128 # Do magic arg matches
2130 for matcher in self.magic_arg_matchers:
2129 for matcher in self.magic_arg_matchers:
2131 matches = list(matcher(line_buffer))[:MATCHES_LIMIT]
2130 matches = list(matcher(line_buffer))[:MATCHES_LIMIT]
2132 if matches:
2131 if matches:
2133 origins = [matcher.__qualname__] * len(matches)
2132 origins = [matcher.__qualname__] * len(matches)
2134 return _CompleteResult(text, matches, origins, ())
2133 return _CompleteResult(text, matches, origins, ())
2135
2134
2136 # Start with a clean slate of completions
2135 # Start with a clean slate of completions
2137 matches = []
2136 matches = []
2138
2137
2139 # FIXME: we should extend our api to return a dict with completions for
2138 # FIXME: we should extend our api to return a dict with completions for
2140 # different types of objects. The rlcomplete() method could then
2139 # different types of objects. The rlcomplete() method could then
2141 # simply collapse the dict into a list for readline, but we'd have
2140 # simply collapse the dict into a list for readline, but we'd have
2142 # richer completion semantics in other environments.
2141 # richer completion semantics in other environments.
2143 completions:Iterable[Any] = []
2142 completions:Iterable[Any] = []
2144 if self.use_jedi:
2143 if self.use_jedi:
2145 if not full_text:
2144 if not full_text:
2146 full_text = line_buffer
2145 full_text = line_buffer
2147 completions = self._jedi_matches(
2146 completions = self._jedi_matches(
2148 cursor_pos, cursor_line, full_text)
2147 cursor_pos, cursor_line, full_text)
2149
2148
2150 if self.merge_completions:
2149 if self.merge_completions:
2151 matches = []
2150 matches = []
2152 for matcher in self.matchers:
2151 for matcher in self.matchers:
2153 try:
2152 try:
2154 matches.extend([(m, matcher.__qualname__)
2153 matches.extend([(m, matcher.__qualname__)
2155 for m in matcher(text)])
2154 for m in matcher(text)])
2156 except:
2155 except:
2157 # Show the ugly traceback if the matcher causes an
2156 # Show the ugly traceback if the matcher causes an
2158 # exception, but do NOT crash the kernel!
2157 # exception, but do NOT crash the kernel!
2159 sys.excepthook(*sys.exc_info())
2158 sys.excepthook(*sys.exc_info())
2160 else:
2159 else:
2161 for matcher in self.matchers:
2160 for matcher in self.matchers:
2162 matches = [(m, matcher.__qualname__)
2161 matches = [(m, matcher.__qualname__)
2163 for m in matcher(text)]
2162 for m in matcher(text)]
2164 if matches:
2163 if matches:
2165 break
2164 break
2166
2165
2167 seen = set()
2166 seen = set()
2168 filtered_matches = set()
2167 filtered_matches = set()
2169 for m in matches:
2168 for m in matches:
2170 t, c = m
2169 t, c = m
2171 if t not in seen:
2170 if t not in seen:
2172 filtered_matches.add(m)
2171 filtered_matches.add(m)
2173 seen.add(t)
2172 seen.add(t)
2174
2173
2175 _filtered_matches = sorted(filtered_matches, key=lambda x: completions_sorting_key(x[0]))
2174 _filtered_matches = sorted(filtered_matches, key=lambda x: completions_sorting_key(x[0]))
2176
2175
2177 custom_res = [(m, 'custom') for m in self.dispatch_custom_completer(text) or []]
2176 custom_res = [(m, 'custom') for m in self.dispatch_custom_completer(text) or []]
2178
2177
2179 _filtered_matches = custom_res or _filtered_matches
2178 _filtered_matches = custom_res or _filtered_matches
2180
2179
2181 _filtered_matches = _filtered_matches[:MATCHES_LIMIT]
2180 _filtered_matches = _filtered_matches[:MATCHES_LIMIT]
2182 _matches = [m[0] for m in _filtered_matches]
2181 _matches = [m[0] for m in _filtered_matches]
2183 origins = [m[1] for m in _filtered_matches]
2182 origins = [m[1] for m in _filtered_matches]
2184
2183
2185 self.matches = _matches
2184 self.matches = _matches
2186
2185
2187 return _CompleteResult(text, _matches, origins, completions)
2186 return _CompleteResult(text, _matches, origins, completions)
2188
2187
2189 def fwd_unicode_match(self, text:str) -> Tuple[str, Sequence[str]]:
2188 def fwd_unicode_match(self, text:str) -> Tuple[str, Sequence[str]]:
2190 """
2189 """
2191 Forward match a string starting with a backslash with a list of
2190 Forward match a string starting with a backslash with a list of
2192 potential Unicode completions.
2191 potential Unicode completions.
2193
2192
2194 Will compute list list of Unicode character names on first call and cache it.
2193 Will compute list list of Unicode character names on first call and cache it.
2195
2194
2196 Returns
2195 Returns
2197 -------
2196 -------
2198 At tuple with:
2197 At tuple with:
2199 - matched text (empty if no matches)
2198 - matched text (empty if no matches)
2200 - list of potential completions, empty tuple otherwise)
2199 - list of potential completions, empty tuple otherwise)
2201 """
2200 """
2202 # TODO: self.unicode_names is here a list we traverse each time with ~100k elements.
2201 # TODO: self.unicode_names is here a list we traverse each time with ~100k elements.
2203 # We could do a faster match using a Trie.
2202 # We could do a faster match using a Trie.
2204
2203
2205 # Using pygtrie the following seem to work:
2204 # Using pygtrie the following seem to work:
2206
2205
2207 # s = PrefixSet()
2206 # s = PrefixSet()
2208
2207
2209 # for c in range(0,0x10FFFF + 1):
2208 # for c in range(0,0x10FFFF + 1):
2210 # try:
2209 # try:
2211 # s.add(unicodedata.name(chr(c)))
2210 # s.add(unicodedata.name(chr(c)))
2212 # except ValueError:
2211 # except ValueError:
2213 # pass
2212 # pass
2214 # [''.join(k) for k in s.iter(prefix)]
2213 # [''.join(k) for k in s.iter(prefix)]
2215
2214
2216 # But need to be timed and adds an extra dependency.
2215 # But need to be timed and adds an extra dependency.
2217
2216
2218 slashpos = text.rfind('\\')
2217 slashpos = text.rfind('\\')
2219 # if text starts with slash
2218 # if text starts with slash
2220 if slashpos > -1:
2219 if slashpos > -1:
2221 # PERF: It's important that we don't access self._unicode_names
2220 # PERF: It's important that we don't access self._unicode_names
2222 # until we're inside this if-block. _unicode_names is lazily
2221 # until we're inside this if-block. _unicode_names is lazily
2223 # initialized, and it takes a user-noticeable amount of time to
2222 # initialized, and it takes a user-noticeable amount of time to
2224 # initialize it, so we don't want to initialize it unless we're
2223 # initialize it, so we don't want to initialize it unless we're
2225 # actually going to use it.
2224 # actually going to use it.
2226 s = text[slashpos+1:]
2225 s = text[slashpos+1:]
2227 candidates = [x for x in self.unicode_names if x.startswith(s)]
2226 candidates = [x for x in self.unicode_names if x.startswith(s)]
2228 if candidates:
2227 if candidates:
2229 return s, candidates
2228 return s, candidates
2230 else:
2229 else:
2231 return '', ()
2230 return '', ()
2232
2231
2233 # if text does not start with slash
2232 # if text does not start with slash
2234 else:
2233 else:
2235 return '', ()
2234 return '', ()
2236
2235
2237 @property
2236 @property
2238 def unicode_names(self) -> List[str]:
2237 def unicode_names(self) -> List[str]:
2239 """List of names of unicode code points that can be completed.
2238 """List of names of unicode code points that can be completed.
2240
2239
2241 The list is lazily initialized on first access.
2240 The list is lazily initialized on first access.
2242 """
2241 """
2243 if self._unicode_names is None:
2242 if self._unicode_names is None:
2244 names = []
2243 names = []
2245 for c in range(0,0x10FFFF + 1):
2244 for c in range(0,0x10FFFF + 1):
2246 try:
2245 try:
2247 names.append(unicodedata.name(chr(c)))
2246 names.append(unicodedata.name(chr(c)))
2248 except ValueError:
2247 except ValueError:
2249 pass
2248 pass
2250 self._unicode_names = _unicode_name_compute(_UNICODE_RANGES)
2249 self._unicode_names = _unicode_name_compute(_UNICODE_RANGES)
2251
2250
2252 return self._unicode_names
2251 return self._unicode_names
2253
2252
2254 def _unicode_name_compute(ranges:List[Tuple[int,int]]) -> List[str]:
2253 def _unicode_name_compute(ranges:List[Tuple[int,int]]) -> List[str]:
2255 names = []
2254 names = []
2256 for start,stop in ranges:
2255 for start,stop in ranges:
2257 for c in range(start, stop) :
2256 for c in range(start, stop) :
2258 try:
2257 try:
2259 names.append(unicodedata.name(chr(c)))
2258 names.append(unicodedata.name(chr(c)))
2260 except ValueError:
2259 except ValueError:
2261 pass
2260 pass
2262 return names
2261 return names
Show file before | Show file after | Hide comments
@@ -1,703 +1,707 b''
1 """Implementation of namespace-related magic functions.
1 """Implementation of namespace-related magic functions.
2 """
2 """
3 #-----------------------------------------------------------------------------
3 #-----------------------------------------------------------------------------
4 # Copyright (c) 2012 The IPython Development Team.
4 # Copyright (c) 2012 The IPython Development Team.
5 #
5 #
6 # Distributed under the terms of the Modified BSD License.
6 # Distributed under the terms of the Modified BSD License.
7 #
7 #
8 # The full license is in the file COPYING.txt, distributed with this software.
8 # The full license is in the file COPYING.txt, distributed with this software.
9 #-----------------------------------------------------------------------------
9 #-----------------------------------------------------------------------------
10
10
11 #-----------------------------------------------------------------------------
11 #-----------------------------------------------------------------------------
12 # Imports
12 # Imports
13 #-----------------------------------------------------------------------------
13 #-----------------------------------------------------------------------------
14
14
15 # Stdlib
15 # Stdlib
16 import gc
16 import gc
17 import re
17 import re
18 import sys
18 import sys
19
19
20 # Our own packages
20 # Our own packages
21 from IPython.core import page
21 from IPython.core import page
22 from IPython.core.error import StdinNotImplementedError, UsageError
22 from IPython.core.error import StdinNotImplementedError, UsageError
23 from IPython.core.magic import Magics, magics_class, line_magic
23 from IPython.core.magic import Magics, magics_class, line_magic
24 from IPython.testing.skipdoctest import skip_doctest
24 from IPython.testing.skipdoctest import skip_doctest
25 from IPython.utils.encoding import DEFAULT_ENCODING
25 from IPython.utils.encoding import DEFAULT_ENCODING
26 from IPython.utils.openpy import read_py_file
26 from IPython.utils.openpy import read_py_file
27 from IPython.utils.path import get_py_filename
27 from IPython.utils.path import get_py_filename
28
28
29 #-----------------------------------------------------------------------------
29 #-----------------------------------------------------------------------------
30 # Magic implementation classes
30 # Magic implementation classes
31 #-----------------------------------------------------------------------------
31 #-----------------------------------------------------------------------------
32
32
33 @magics_class
33 @magics_class
34 class NamespaceMagics(Magics):
34 class NamespaceMagics(Magics):
35 """Magics to manage various aspects of the user's namespace.
35 """Magics to manage various aspects of the user's namespace.
36
36
37 These include listing variables, introspecting into them, etc.
37 These include listing variables, introspecting into them, etc.
38 """
38 """
39
39
40 @line_magic
40 @line_magic
41 def pinfo(self, parameter_s='', namespaces=None):
41 def pinfo(self, parameter_s='', namespaces=None):
42 """Provide detailed information about an object.
42 """Provide detailed information about an object.
43
43
44 '%pinfo object' is just a synonym for object? or ?object."""
44 '%pinfo object' is just a synonym for object? or ?object."""
45
45
46 #print 'pinfo par: <%s>' % parameter_s # dbg
46 #print 'pinfo par: <%s>' % parameter_s # dbg
47 # detail_level: 0 -> obj? , 1 -> obj??
47 # detail_level: 0 -> obj? , 1 -> obj??
48 detail_level = 0
48 detail_level = 0
49 # We need to detect if we got called as 'pinfo pinfo foo', which can
49 # We need to detect if we got called as 'pinfo pinfo foo', which can
50 # happen if the user types 'pinfo foo?' at the cmd line.
50 # happen if the user types 'pinfo foo?' at the cmd line.
51 pinfo,qmark1,oname,qmark2 = \
51 pinfo,qmark1,oname,qmark2 = \
52 re.match(r'(pinfo )?(\?*)(.*?)(\??$)',parameter_s).groups()
52 re.match(r'(pinfo )?(\?*)(.*?)(\??$)',parameter_s).groups()
53 if pinfo or qmark1 or qmark2:
53 if pinfo or qmark1 or qmark2:
54 detail_level = 1
54 detail_level = 1
55 if "*" in oname:
55 if "*" in oname:
56 self.psearch(oname)
56 self.psearch(oname)
57 else:
57 else:
58 self.shell._inspect('pinfo', oname, detail_level=detail_level,
58 self.shell._inspect('pinfo', oname, detail_level=detail_level,
59 namespaces=namespaces)
59 namespaces=namespaces)
60
60
61 @line_magic
61 @line_magic
62 def pinfo2(self, parameter_s='', namespaces=None):
62 def pinfo2(self, parameter_s='', namespaces=None):
63 """Provide extra detailed information about an object.
63 """Provide extra detailed information about an object.
64
64
65 '%pinfo2 object' is just a synonym for object?? or ??object."""
65 '%pinfo2 object' is just a synonym for object?? or ??object."""
66 self.shell._inspect('pinfo', parameter_s, detail_level=1,
66 self.shell._inspect('pinfo', parameter_s, detail_level=1,
67 namespaces=namespaces)
67 namespaces=namespaces)
68
68
69 @skip_doctest
69 @skip_doctest
70 @line_magic
70 @line_magic
71 def pdef(self, parameter_s='', namespaces=None):
71 def pdef(self, parameter_s='', namespaces=None):
72 """Print the call signature for any callable object.
72 """Print the call signature for any callable object.
73
73
74 If the object is a class, print the constructor information.
74 If the object is a class, print the constructor information.
75
75
76 Examples
76 Examples
77 --------
77 --------
78 ::
78 ::
79
79
80 In [3]: %pdef urllib.urlopen
80 In [3]: %pdef urllib.urlopen
81 urllib.urlopen(url, data=None, proxies=None)
81 urllib.urlopen(url, data=None, proxies=None)
82 """
82 """
83 self.shell._inspect('pdef',parameter_s, namespaces)
83 self.shell._inspect('pdef',parameter_s, namespaces)
84
84
85 @line_magic
85 @line_magic
86 def pdoc(self, parameter_s='', namespaces=None):
86 def pdoc(self, parameter_s='', namespaces=None):
87 """Print the docstring for an object.
87 """Print the docstring for an object.
88
88
89 If the given object is a class, it will print both the class and the
89 If the given object is a class, it will print both the class and the
90 constructor docstrings."""
90 constructor docstrings."""
91 self.shell._inspect('pdoc',parameter_s, namespaces)
91 self.shell._inspect('pdoc',parameter_s, namespaces)
92
92
93 @line_magic
93 @line_magic
94 def psource(self, parameter_s='', namespaces=None):
94 def psource(self, parameter_s='', namespaces=None):
95 """Print (or run through pager) the source code for an object."""
95 """Print (or run through pager) the source code for an object."""
96 if not parameter_s:
96 if not parameter_s:
97 raise UsageError('Missing object name.')
97 raise UsageError('Missing object name.')
98 self.shell._inspect('psource',parameter_s, namespaces)
98 self.shell._inspect('psource',parameter_s, namespaces)
99
99
100 @line_magic
100 @line_magic
101 def pfile(self, parameter_s='', namespaces=None):
101 def pfile(self, parameter_s='', namespaces=None):
102 """Print (or run through pager) the file where an object is defined.
102 """Print (or run through pager) the file where an object is defined.
103
103
104 The file opens at the line where the object definition begins. IPython
104 The file opens at the line where the object definition begins. IPython
105 will honor the environment variable PAGER if set, and otherwise will
105 will honor the environment variable PAGER if set, and otherwise will
106 do its best to print the file in a convenient form.
106 do its best to print the file in a convenient form.
107
107
108 If the given argument is not an object currently defined, IPython will
108 If the given argument is not an object currently defined, IPython will
109 try to interpret it as a filename (automatically adding a .py extension
109 try to interpret it as a filename (automatically adding a .py extension
110 if needed). You can thus use %pfile as a syntax highlighting code
110 if needed). You can thus use %pfile as a syntax highlighting code
111 viewer."""
111 viewer."""
112
112
113 # first interpret argument as an object name
113 # first interpret argument as an object name
114 out = self.shell._inspect('pfile',parameter_s, namespaces)
114 out = self.shell._inspect('pfile',parameter_s, namespaces)
115 # if not, try the input as a filename
115 # if not, try the input as a filename
116 if out == 'not found':
116 if out == 'not found':
117 try:
117 try:
118 filename = get_py_filename(parameter_s)
118 filename = get_py_filename(parameter_s)
119 except IOError as msg:
119 except IOError as msg:
120 print(msg)
120 print(msg)
121 return
121 return
122 page.page(self.shell.pycolorize(read_py_file(filename, skip_encoding_cookie=False)))
122 page.page(self.shell.pycolorize(read_py_file(filename, skip_encoding_cookie=False)))
123
123
124 @line_magic
124 @line_magic
125 def psearch(self, parameter_s=''):
125 def psearch(self, parameter_s=''):
126 """Search for object in namespaces by wildcard.
126 """Search for object in namespaces by wildcard.
127
127
128 %psearch [options] PATTERN [OBJECT TYPE]
128 %psearch [options] PATTERN [OBJECT TYPE]
129
129
130 Note: ? can be used as a synonym for %psearch, at the beginning or at
130 Note: ? can be used as a synonym for %psearch, at the beginning or at
131 the end: both a*? and ?a* are equivalent to '%psearch a*'. Still, the
131 the end: both a*? and ?a* are equivalent to '%psearch a*'. Still, the
132 rest of the command line must be unchanged (options come first), so
132 rest of the command line must be unchanged (options come first), so
133 for example the following forms are equivalent
133 for example the following forms are equivalent
134
134
135 %psearch -i a* function
135 %psearch -i a* function
136 -i a* function?
136 -i a* function?
137 ?-i a* function
137 ?-i a* function
138
138
139 Arguments:
139 Arguments:
140
140
141 PATTERN
141 PATTERN
142
142
143 where PATTERN is a string containing * as a wildcard similar to its
143 where PATTERN is a string containing * as a wildcard similar to its
144 use in a shell. The pattern is matched in all namespaces on the
144 use in a shell. The pattern is matched in all namespaces on the
145 search path. By default objects starting with a single _ are not
145 search path. By default objects starting with a single _ are not
146 matched, many IPython generated objects have a single
146 matched, many IPython generated objects have a single
147 underscore. The default is case insensitive matching. Matching is
147 underscore. The default is case insensitive matching. Matching is
148 also done on the attributes of objects and not only on the objects
148 also done on the attributes of objects and not only on the objects
149 in a module.
149 in a module.
150
150
151 [OBJECT TYPE]
151 [OBJECT TYPE]
152
152
153 Is the name of a python type from the types module. The name is
153 Is the name of a python type from the types module. The name is
154 given in lowercase without the ending type, ex. StringType is
154 given in lowercase without the ending type, ex. StringType is
155 written string. By adding a type here only objects matching the
155 written string. By adding a type here only objects matching the
156 given type are matched. Using all here makes the pattern match all
156 given type are matched. Using all here makes the pattern match all
157 types (this is the default).
157 types (this is the default).
158
158
159 Options:
159 Options:
160
160
161 -a: makes the pattern match even objects whose names start with a
161 -a: makes the pattern match even objects whose names start with a
162 single underscore. These names are normally omitted from the
162 single underscore. These names are normally omitted from the
163 search.
163 search.
164
164
165 -i/-c: make the pattern case insensitive/sensitive. If neither of
165 -i/-c: make the pattern case insensitive/sensitive. If neither of
166 these options are given, the default is read from your configuration
166 these options are given, the default is read from your configuration
167 file, with the option ``InteractiveShell.wildcards_case_sensitive``.
167 file, with the option ``InteractiveShell.wildcards_case_sensitive``.
168 If this option is not specified in your configuration file, IPython's
168 If this option is not specified in your configuration file, IPython's
169 internal default is to do a case sensitive search.
169 internal default is to do a case sensitive search.
170
170
171 -e/-s NAMESPACE: exclude/search a given namespace. The pattern you
171 -e/-s NAMESPACE: exclude/search a given namespace. The pattern you
172 specify can be searched in any of the following namespaces:
172 specify can be searched in any of the following namespaces:
173 'builtin', 'user', 'user_global','internal', 'alias', where
173 'builtin', 'user', 'user_global','internal', 'alias', where
174 'builtin' and 'user' are the search defaults. Note that you should
174 'builtin' and 'user' are the search defaults. Note that you should
175 not use quotes when specifying namespaces.
175 not use quotes when specifying namespaces.
176
176
177 -l: List all available object types for object matching. This function
177 -l: List all available object types for object matching. This function
178 can be used without arguments.
178 can be used without arguments.
179
179
180 'Builtin' contains the python module builtin, 'user' contains all
180 'Builtin' contains the python module builtin, 'user' contains all
181 user data, 'alias' only contain the shell aliases and no python
181 user data, 'alias' only contain the shell aliases and no python
182 objects, 'internal' contains objects used by IPython. The
182 objects, 'internal' contains objects used by IPython. The
183 'user_global' namespace is only used by embedded IPython instances,
183 'user_global' namespace is only used by embedded IPython instances,
184 and it contains module-level globals. You can add namespaces to the
184 and it contains module-level globals. You can add namespaces to the
185 search with -s or exclude them with -e (these options can be given
185 search with -s or exclude them with -e (these options can be given
186 more than once).
186 more than once).
187
187
188 Examples
188 Examples
189 --------
189 --------
190 ::
190 ::
191
191
192 %psearch a* -> objects beginning with an a
192 %psearch a* -> objects beginning with an a
193 %psearch -e builtin a* -> objects NOT in the builtin space starting in a
193 %psearch -e builtin a* -> objects NOT in the builtin space starting in a
194 %psearch a* function -> all functions beginning with an a
194 %psearch a* function -> all functions beginning with an a
195 %psearch re.e* -> objects beginning with an e in module re
195 %psearch re.e* -> objects beginning with an e in module re
196 %psearch r*.e* -> objects that start with e in modules starting in r
196 %psearch r*.e* -> objects that start with e in modules starting in r
197 %psearch r*.* string -> all strings in modules beginning with r
197 %psearch r*.* string -> all strings in modules beginning with r
198
198
199 Case sensitive search::
199 Case sensitive search::
200
200
201 %psearch -c a* list all object beginning with lower case a
201 %psearch -c a* list all object beginning with lower case a
202
202
203 Show objects beginning with a single _::
203 Show objects beginning with a single _::
204
204
205 %psearch -a _* list objects beginning with a single underscore
205 %psearch -a _* list objects beginning with a single underscore
206
206
207 List available objects::
207 List available objects::
208
208
209 %psearch -l list all available object types
209 %psearch -l list all available object types
210 """
210 """
211 # default namespaces to be searched
211 # default namespaces to be searched
212 def_search = ['user_local', 'user_global', 'builtin']
212 def_search = ['user_local', 'user_global', 'builtin']
213
213
214 # Process options/args
214 # Process options/args
215 opts,args = self.parse_options(parameter_s,'cias:e:l',list_all=True)
215 opts,args = self.parse_options(parameter_s,'cias:e:l',list_all=True)
216 opt = opts.get
216 opt = opts.get
217 shell = self.shell
217 shell = self.shell
218 psearch = shell.inspector.psearch
218 psearch = shell.inspector.psearch
219
219
220 # select list object types
220 # select list object types
221 list_types = False
221 list_types = False
222 if 'l' in opts:
222 if 'l' in opts:
223 list_types = True
223 list_types = True
224
224
225 # select case options
225 # select case options
226 if 'i' in opts:
226 if 'i' in opts:
227 ignore_case = True
227 ignore_case = True
228 elif 'c' in opts:
228 elif 'c' in opts:
229 ignore_case = False
229 ignore_case = False
230 else:
230 else:
231 ignore_case = not shell.wildcards_case_sensitive
231 ignore_case = not shell.wildcards_case_sensitive
232
232
233 # Build list of namespaces to search from user options
233 # Build list of namespaces to search from user options
234 def_search.extend(opt('s',[]))
234 def_search.extend(opt('s',[]))
235 ns_exclude = ns_exclude=opt('e',[])
235 ns_exclude = ns_exclude=opt('e',[])
236 ns_search = [nm for nm in def_search if nm not in ns_exclude]
236 ns_search = [nm for nm in def_search if nm not in ns_exclude]
237
237
238 # Call the actual search
238 # Call the actual search
239 try:
239 try:
240 psearch(args,shell.ns_table,ns_search,
240 psearch(args,shell.ns_table,ns_search,
241 show_all=opt('a'),ignore_case=ignore_case, list_types=list_types)
241 show_all=opt('a'),ignore_case=ignore_case, list_types=list_types)
242 except:
242 except:
243 shell.showtraceback()
243 shell.showtraceback()
244
244
245 @skip_doctest
245 @skip_doctest
246 @line_magic
246 @line_magic
247 def who_ls(self, parameter_s=''):
247 def who_ls(self, parameter_s=''):
248 """Return a sorted list of all interactive variables.
248 """Return a sorted list of all interactive variables.
249
249
250 If arguments are given, only variables of types matching these
250 If arguments are given, only variables of types matching these
251 arguments are returned.
251 arguments are returned.
252
252
253 Examples
253 Examples
254 --------
254 --------
255 Define two variables and list them with who_ls::
255 Define two variables and list them with who_ls::
256
256
257 In [1]: alpha = 123
257 In [1]: alpha = 123
258
258
259 In [2]: beta = 'test'
259 In [2]: beta = 'test'
260
260
261 In [3]: %who_ls
261 In [3]: %who_ls
262 Out[3]: ['alpha', 'beta']
262 Out[3]: ['alpha', 'beta']
263
263
264 In [4]: %who_ls int
264 In [4]: %who_ls int
265 Out[4]: ['alpha']
265 Out[4]: ['alpha']
266
266
267 In [5]: %who_ls str
267 In [5]: %who_ls str
268 Out[5]: ['beta']
268 Out[5]: ['beta']
269 """
269 """
270
270
271 user_ns = self.shell.user_ns
271 user_ns = self.shell.user_ns
272 user_ns_hidden = self.shell.user_ns_hidden
272 user_ns_hidden = self.shell.user_ns_hidden
273 nonmatching = object() # This can never be in user_ns
273 nonmatching = object() # This can never be in user_ns
274 out = [ i for i in user_ns
274 out = [ i for i in user_ns
275 if not i.startswith('_') \
275 if not i.startswith('_') \
276 and (user_ns[i] is not user_ns_hidden.get(i, nonmatching)) ]
276 and (user_ns[i] is not user_ns_hidden.get(i, nonmatching)) ]
277
277
278 typelist = parameter_s.split()
278 typelist = parameter_s.split()
279 if typelist:
279 if typelist:
280 typeset = set(typelist)
280 typeset = set(typelist)
281 out = [i for i in out if type(user_ns[i]).__name__ in typeset]
281 out = [i for i in out if type(user_ns[i]).__name__ in typeset]
282
282
283 out.sort()
283 out.sort()
284 return out
284 return out
285
285
286 @skip_doctest
286 @skip_doctest
287 @line_magic
287 @line_magic
288 def who(self, parameter_s=''):
288 def who(self, parameter_s=''):
289 """Print all interactive variables, with some minimal formatting.
289 """Print all interactive variables, with some minimal formatting.
290
290
291 If any arguments are given, only variables whose type matches one of
291 If any arguments are given, only variables whose type matches one of
292 these are printed. For example::
292 these are printed. For example::
293
293
294 %who function str
294 %who function str
295
295
296 will only list functions and strings, excluding all other types of
296 will only list functions and strings, excluding all other types of
297 variables. To find the proper type names, simply use type(var) at a
297 variables. To find the proper type names, simply use type(var) at a
298 command line to see how python prints type names. For example:
298 command line to see how python prints type names. For example:
299
299
300 ::
300 ::
301
301
302 In [1]: type('hello')\\
302 In [1]: type('hello')\\
303 Out[1]: <type 'str'>
303 Out[1]: <type 'str'>
304
304
305 indicates that the type name for strings is 'str'.
305 indicates that the type name for strings is 'str'.
306
306
307 ``%who`` always excludes executed names loaded through your configuration
307 ``%who`` always excludes executed names loaded through your configuration
308 file and things which are internal to IPython.
308 file and things which are internal to IPython.
309
309
310 This is deliberate, as typically you may load many modules and the
310 This is deliberate, as typically you may load many modules and the
311 purpose of %who is to show you only what you've manually defined.
311 purpose of %who is to show you only what you've manually defined.
312
312
313 Examples
313 Examples
314 --------
314 --------
315
315
316 Define two variables and list them with who::
316 Define two variables and list them with who::
317
317
318 In [1]: alpha = 123
318 In [1]: alpha = 123
319
319
320 In [2]: beta = 'test'
320 In [2]: beta = 'test'
321
321
322 In [3]: %who
322 In [3]: %who
323 alpha beta
323 alpha beta
324
324
325 In [4]: %who int
325 In [4]: %who int
326 alpha
326 alpha
327
327
328 In [5]: %who str
328 In [5]: %who str
329 beta
329 beta
330 """
330 """
331
331
332 varlist = self.who_ls(parameter_s)
332 varlist = self.who_ls(parameter_s)
333 if not varlist:
333 if not varlist:
334 if parameter_s:
334 if parameter_s:
335 print('No variables match your requested type.')
335 print('No variables match your requested type.')
336 else:
336 else:
337 print('Interactive namespace is empty.')
337 print('Interactive namespace is empty.')
338 return
338 return
339
339
340 # if we have variables, move on...
340 # if we have variables, move on...
341 count = 0
341 count = 0
342 for i in varlist:
342 for i in varlist:
343 print(i+'\t', end=' ')
343 print(i+'\t', end=' ')
344 count += 1
344 count += 1
345 if count > 8:
345 if count > 8:
346 count = 0
346 count = 0
347 print()
347 print()
348 print()
348 print()
349
349
350 @skip_doctest
350 @skip_doctest
351 @line_magic
351 @line_magic
352 def whos(self, parameter_s=''):
352 def whos(self, parameter_s=''):
353 """Like %who, but gives some extra information about each variable.
353 """Like %who, but gives some extra information about each variable.
354
354
355 The same type filtering of %who can be applied here.
355 The same type filtering of %who can be applied here.
356
356
357 For all variables, the type is printed. Additionally it prints:
357 For all variables, the type is printed. Additionally it prints:
358
358
359 - For {},[],(): their length.
359 - For {},[],(): their length.
360
360
361 - For numpy arrays, a summary with shape, number of
361 - For numpy arrays, a summary with shape, number of
362 elements, typecode and size in memory.
362 elements, typecode and size in memory.
363
363
364 - Everything else: a string representation, snipping their middle if
364 - Everything else: a string representation, snipping their middle if
365 too long.
365 too long.
366
366
367 Examples
367 Examples
368 --------
368 --------
369 Define two variables and list them with whos::
369 Define two variables and list them with whos::
370
370
371 In [1]: alpha = 123
371 In [1]: alpha = 123
372
372
373 In [2]: beta = 'test'
373 In [2]: beta = 'test'
374
374
375 In [3]: %whos
375 In [3]: %whos
376 Variable Type Data/Info
376 Variable Type Data/Info
377 --------------------------------
377 --------------------------------
378 alpha int 123
378 alpha int 123
379 beta str test
379 beta str test
380 """
380 """
381
381
382 varnames = self.who_ls(parameter_s)
382 varnames = self.who_ls(parameter_s)
383 if not varnames:
383 if not varnames:
384 if parameter_s:
384 if parameter_s:
385 print('No variables match your requested type.')
385 print('No variables match your requested type.')
386 else:
386 else:
387 print('Interactive namespace is empty.')
387 print('Interactive namespace is empty.')
388 return
388 return
389
389
390 # if we have variables, move on...
390 # if we have variables, move on...
391
391
392 # for these types, show len() instead of data:
392 # for these types, show len() instead of data:
393 seq_types = ['dict', 'list', 'tuple']
393 seq_types = ['dict', 'list', 'tuple']
394
394
395 # for numpy arrays, display summary info
395 # for numpy arrays, display summary info
396 ndarray_type = None
396 ndarray_type = None
397 if 'numpy' in sys.modules:
397 if 'numpy' in sys.modules:
398 try:
398 try:
399 from numpy import ndarray
399 from numpy import ndarray
400 except ImportError:
400 except ImportError:
401 pass
401 pass
402 else:
402 else:
403 ndarray_type = ndarray.__name__
403 ndarray_type = ndarray.__name__
404
404
405 # Find all variable names and types so we can figure out column sizes
405 # Find all variable names and types so we can figure out column sizes
406
406
407 # some types are well known and can be shorter
407 # some types are well known and can be shorter
408 abbrevs = {'IPython.core.macro.Macro' : 'Macro'}
408 abbrevs = {'IPython.core.macro.Macro' : 'Macro'}
409 def type_name(v):
409 def type_name(v):
410 tn = type(v).__name__
410 tn = type(v).__name__
411 return abbrevs.get(tn,tn)
411 return abbrevs.get(tn,tn)
412
412
413 varlist = [self.shell.user_ns[n] for n in varnames]
413 varlist = [self.shell.user_ns[n] for n in varnames]
414
414
415 typelist = []
415 typelist = []
416 for vv in varlist:
416 for vv in varlist:
417 tt = type_name(vv)
417 tt = type_name(vv)
418
418
419 if tt=='instance':
419 if tt=='instance':
420 typelist.append( abbrevs.get(str(vv.__class__),
420 typelist.append( abbrevs.get(str(vv.__class__),
421 str(vv.__class__)))
421 str(vv.__class__)))
422 else:
422 else:
423 typelist.append(tt)
423 typelist.append(tt)
424
424
425 # column labels and # of spaces as separator
425 # column labels and # of spaces as separator
426 varlabel = 'Variable'
426 varlabel = 'Variable'
427 typelabel = 'Type'
427 typelabel = 'Type'
428 datalabel = 'Data/Info'
428 datalabel = 'Data/Info'
429 colsep = 3
429 colsep = 3
430 # variable format strings
430 # variable format strings
431 vformat = "{0:<{varwidth}}{1:<{typewidth}}"
431 vformat = "{0:<{varwidth}}{1:<{typewidth}}"
432 aformat = "%s: %s elems, type `%s`, %s bytes"
432 aformat = "%s: %s elems, type `%s`, %s bytes"
433 # find the size of the columns to format the output nicely
433 # find the size of the columns to format the output nicely
434 varwidth = max(max(map(len,varnames)), len(varlabel)) + colsep
434 varwidth = max(max(map(len,varnames)), len(varlabel)) + colsep
435 typewidth = max(max(map(len,typelist)), len(typelabel)) + colsep
435 typewidth = max(max(map(len,typelist)), len(typelabel)) + colsep
436 # table header
436 # table header
437 print(varlabel.ljust(varwidth) + typelabel.ljust(typewidth) + \
437 print(varlabel.ljust(varwidth) + typelabel.ljust(typewidth) + \
438 ' '+datalabel+'\n' + '-'*(varwidth+typewidth+len(datalabel)+1))
438 ' '+datalabel+'\n' + '-'*(varwidth+typewidth+len(datalabel)+1))
439 # and the table itself
439 # and the table itself
440 kb = 1024
440 kb = 1024
441 Mb = 1048576 # kb**2
441 Mb = 1048576 # kb**2
442 for vname,var,vtype in zip(varnames,varlist,typelist):
442 for vname,var,vtype in zip(varnames,varlist,typelist):
443 print(vformat.format(vname, vtype, varwidth=varwidth, typewidth=typewidth), end=' ')
443 print(vformat.format(vname, vtype, varwidth=varwidth, typewidth=typewidth), end=' ')
444 if vtype in seq_types:
444 if vtype in seq_types:
445 print("n="+str(len(var)))
445 print("n="+str(len(var)))
446 elif vtype == ndarray_type:
446 elif vtype == ndarray_type:
447 vshape = str(var.shape).replace(',','').replace(' ','x')[1:-1]
447 vshape = str(var.shape).replace(',','').replace(' ','x')[1:-1]
448 if vtype==ndarray_type:
448 if vtype==ndarray_type:
449 # numpy
449 # numpy
450 vsize = var.size
450 vsize = var.size
451 vbytes = vsize*var.itemsize
451 vbytes = vsize*var.itemsize
452 vdtype = var.dtype
452 vdtype = var.dtype
453
453
454 if vbytes < 100000:
454 if vbytes < 100000:
455 print(aformat % (vshape, vsize, vdtype, vbytes))
455 print(aformat % (vshape, vsize, vdtype, vbytes))
456 else:
456 else:
457 print(aformat % (vshape, vsize, vdtype, vbytes), end=' ')
457 print(aformat % (vshape, vsize, vdtype, vbytes), end=' ')
458 if vbytes < Mb:
458 if vbytes < Mb:
459 print('(%s kb)' % (vbytes/kb,))
459 print('(%s kb)' % (vbytes/kb,))
460 else:
460 else:
461 print('(%s Mb)' % (vbytes/Mb,))
461 print('(%s Mb)' % (vbytes/Mb,))
462 else:
462 else:
463 try:
463 try:
464 vstr = str(var)
464 vstr = str(var)
465 except UnicodeEncodeError:
465 except UnicodeEncodeError:
466 vstr = var.encode(DEFAULT_ENCODING,
466 vstr = var.encode(DEFAULT_ENCODING,
467 'backslashreplace')
467 'backslashreplace')
468 except:
468 except:
469 vstr = "<object with id %d (str() failed)>" % id(var)
469 vstr = "<object with id %d (str() failed)>" % id(var)
470 vstr = vstr.replace('\n', '\\n')
470 vstr = vstr.replace('\n', '\\n')
471 if len(vstr) < 50:
471 if len(vstr) < 50:
472 print(vstr)
472 print(vstr)
473 else:
473 else:
474 print(vstr[:25] + "<...>" + vstr[-25:])
474 print(vstr[:25] + "<...>" + vstr[-25:])
475
475
476 @line_magic
476 @line_magic
477 def reset(self, parameter_s=''):
477 def reset(self, parameter_s=''):
478 """Resets the namespace by removing all names defined by the user, if
478 """Resets the namespace by removing all names defined by the user, if
479 called without arguments, or by removing some types of objects, such
479 called without arguments, or by removing some types of objects, such
480 as everything currently in IPython's In[] and Out[] containers (see
480 as everything currently in IPython's In[] and Out[] containers (see
481 the parameters for details).
481 the parameters for details).
482
482
483 Parameters
483 Parameters
484 ----------
484 ----------
485 -f : force reset without asking for confirmation.
485 -f
486 -s : 'Soft' reset: Only clears your namespace, leaving history intact.
486 force reset without asking for confirmation.
487 -s
488 'Soft' reset: Only clears your namespace, leaving history intact.
487 References to objects may be kept. By default (without this option),
489 References to objects may be kept. By default (without this option),
488 we do a 'hard' reset, giving you a new session and removing all
490 we do a 'hard' reset, giving you a new session and removing all
489 references to objects from the current session.
491 references to objects from the current session.
490 --aggressive : Try to aggressively remove modules from sys.modules ; this
492 --aggressive
493 Try to aggressively remove modules from sys.modules ; this
491 may allow you to reimport Python modules that have been updated and
494 may allow you to reimport Python modules that have been updated and
492 pick up changes, but can have unattended consequences.
495 pick up changes, but can have unattended consequences.
496
493 in : reset input history
497 in : reset input history
494 out : reset output history
498 out : reset output history
495 dhist : reset directory history
499 dhist : reset directory history
496 array : reset only variables that are NumPy arrays
500 array : reset only variables that are NumPy arrays
497
501
498 See Also
502 See Also
499 --------
503 --------
500 reset_selective : invoked as ``%reset_selective``
504 reset_selective : invoked as ``%reset_selective``
501
505
502 Examples
506 Examples
503 --------
507 --------
504 ::
508 ::
505
509
506 In [6]: a = 1
510 In [6]: a = 1
507
511
508 In [7]: a
512 In [7]: a
509 Out[7]: 1
513 Out[7]: 1
510
514
511 In [8]: 'a' in get_ipython().user_ns
515 In [8]: 'a' in get_ipython().user_ns
512 Out[8]: True
516 Out[8]: True
513
517
514 In [9]: %reset -f
518 In [9]: %reset -f
515
519
516 In [1]: 'a' in get_ipython().user_ns
520 In [1]: 'a' in get_ipython().user_ns
517 Out[1]: False
521 Out[1]: False
518
522
519 In [2]: %reset -f in
523 In [2]: %reset -f in
520 Flushing input history
524 Flushing input history
521
525
522 In [3]: %reset -f dhist in
526 In [3]: %reset -f dhist in
523 Flushing directory history
527 Flushing directory history
524 Flushing input history
528 Flushing input history
525
529
526 Notes
530 Notes
527 -----
531 -----
528 Calling this magic from clients that do not implement standard input,
532 Calling this magic from clients that do not implement standard input,
529 such as the ipython notebook interface, will reset the namespace
533 such as the ipython notebook interface, will reset the namespace
530 without confirmation.
534 without confirmation.
531 """
535 """
532 opts, args = self.parse_options(parameter_s, "sf", "aggressive", mode="list")
536 opts, args = self.parse_options(parameter_s, "sf", "aggressive", mode="list")
533 if "f" in opts:
537 if "f" in opts:
534 ans = True
538 ans = True
535 else:
539 else:
536 try:
540 try:
537 ans = self.shell.ask_yes_no(
541 ans = self.shell.ask_yes_no(
538 "Once deleted, variables cannot be recovered. Proceed (y/[n])?",
542 "Once deleted, variables cannot be recovered. Proceed (y/[n])?",
539 default='n')
543 default='n')
540 except StdinNotImplementedError:
544 except StdinNotImplementedError:
541 ans = True
545 ans = True
542 if not ans:
546 if not ans:
543 print('Nothing done.')
547 print('Nothing done.')
544 return
548 return
545
549
546 if 's' in opts: # Soft reset
550 if 's' in opts: # Soft reset
547 user_ns = self.shell.user_ns
551 user_ns = self.shell.user_ns
548 for i in self.who_ls():
552 for i in self.who_ls():
549 del(user_ns[i])
553 del(user_ns[i])
550 elif len(args) == 0: # Hard reset
554 elif len(args) == 0: # Hard reset
551 self.shell.reset(new_session=False, aggressive=("aggressive" in opts))
555 self.shell.reset(new_session=False, aggressive=("aggressive" in opts))
552
556
553 # reset in/out/dhist/array: previously extensinions/clearcmd.py
557 # reset in/out/dhist/array: previously extensinions/clearcmd.py
554 ip = self.shell
558 ip = self.shell
555 user_ns = self.shell.user_ns # local lookup, heavily used
559 user_ns = self.shell.user_ns # local lookup, heavily used
556
560
557 for target in args:
561 for target in args:
558 target = target.lower() # make matches case insensitive
562 target = target.lower() # make matches case insensitive
559 if target == 'out':
563 if target == 'out':
560 print("Flushing output cache (%d entries)" % len(user_ns['_oh']))
564 print("Flushing output cache (%d entries)" % len(user_ns['_oh']))
561 self.shell.displayhook.flush()
565 self.shell.displayhook.flush()
562
566
563 elif target == 'in':
567 elif target == 'in':
564 print("Flushing input history")
568 print("Flushing input history")
565 pc = self.shell.displayhook.prompt_count + 1
569 pc = self.shell.displayhook.prompt_count + 1
566 for n in range(1, pc):
570 for n in range(1, pc):
567 key = '_i'+repr(n)
571 key = '_i'+repr(n)
568 user_ns.pop(key,None)
572 user_ns.pop(key,None)
569 user_ns.update(dict(_i=u'',_ii=u'',_iii=u''))
573 user_ns.update(dict(_i=u'',_ii=u'',_iii=u''))
570 hm = ip.history_manager
574 hm = ip.history_manager
571 # don't delete these, as %save and %macro depending on the
575 # don't delete these, as %save and %macro depending on the
572 # length of these lists to be preserved
576 # length of these lists to be preserved
573 hm.input_hist_parsed[:] = [''] * pc
577 hm.input_hist_parsed[:] = [''] * pc
574 hm.input_hist_raw[:] = [''] * pc
578 hm.input_hist_raw[:] = [''] * pc
575 # hm has internal machinery for _i,_ii,_iii, clear it out
579 # hm has internal machinery for _i,_ii,_iii, clear it out
576 hm._i = hm._ii = hm._iii = hm._i00 = u''
580 hm._i = hm._ii = hm._iii = hm._i00 = u''
577
581
578 elif target == 'array':
582 elif target == 'array':
579 # Support cleaning up numpy arrays
583 # Support cleaning up numpy arrays
580 try:
584 try:
581 from numpy import ndarray
585 from numpy import ndarray
582 # This must be done with items and not iteritems because
586 # This must be done with items and not iteritems because
583 # we're going to modify the dict in-place.
587 # we're going to modify the dict in-place.
584 for x,val in list(user_ns.items()):
588 for x,val in list(user_ns.items()):
585 if isinstance(val,ndarray):
589 if isinstance(val,ndarray):
586 del user_ns[x]
590 del user_ns[x]
587 except ImportError:
591 except ImportError:
588 print("reset array only works if Numpy is available.")
592 print("reset array only works if Numpy is available.")
589
593
590 elif target == 'dhist':
594 elif target == 'dhist':
591 print("Flushing directory history")
595 print("Flushing directory history")
592 del user_ns['_dh'][:]
596 del user_ns['_dh'][:]
593
597
594 else:
598 else:
595 print("Don't know how to reset ", end=' ')
599 print("Don't know how to reset ", end=' ')
596 print(target + ", please run `%reset?` for details")
600 print(target + ", please run `%reset?` for details")
597
601
598 gc.collect()
602 gc.collect()
599
603
600 @line_magic
604 @line_magic
601 def reset_selective(self, parameter_s=''):
605 def reset_selective(self, parameter_s=''):
602 """Resets the namespace by removing names defined by the user.
606 """Resets the namespace by removing names defined by the user.
603
607
604 Input/Output history are left around in case you need them.
608 Input/Output history are left around in case you need them.
605
609
606 %reset_selective [-f] regex
610 %reset_selective [-f] regex
607
611
608 No action is taken if regex is not included
612 No action is taken if regex is not included
609
613
610 Options
614 Options
611 -f : force reset without asking for confirmation.
615 -f : force reset without asking for confirmation.
612
616
613 See Also
617 See Also
614 --------
618 --------
615 reset : invoked as ``%reset``
619 reset : invoked as ``%reset``
616
620
617 Examples
621 Examples
618 --------
622 --------
619 We first fully reset the namespace so your output looks identical to
623 We first fully reset the namespace so your output looks identical to
620 this example for pedagogical reasons; in practice you do not need a
624 this example for pedagogical reasons; in practice you do not need a
621 full reset::
625 full reset::
622
626
623 In [1]: %reset -f
627 In [1]: %reset -f
624
628
625 Now, with a clean namespace we can make a few variables and use
629 Now, with a clean namespace we can make a few variables and use
626 ``%reset_selective`` to only delete names that match our regexp::
630 ``%reset_selective`` to only delete names that match our regexp::
627
631
628 In [2]: a=1; b=2; c=3; b1m=4; b2m=5; b3m=6; b4m=7; b2s=8
632 In [2]: a=1; b=2; c=3; b1m=4; b2m=5; b3m=6; b4m=7; b2s=8
629
633
630 In [3]: who_ls
634 In [3]: who_ls
631 Out[3]: ['a', 'b', 'b1m', 'b2m', 'b2s', 'b3m', 'b4m', 'c']
635 Out[3]: ['a', 'b', 'b1m', 'b2m', 'b2s', 'b3m', 'b4m', 'c']
632
636
633 In [4]: %reset_selective -f b[2-3]m
637 In [4]: %reset_selective -f b[2-3]m
634
638
635 In [5]: who_ls
639 In [5]: who_ls
636 Out[5]: ['a', 'b', 'b1m', 'b2s', 'b4m', 'c']
640 Out[5]: ['a', 'b', 'b1m', 'b2s', 'b4m', 'c']
637
641
638 In [6]: %reset_selective -f d
642 In [6]: %reset_selective -f d
639
643
640 In [7]: who_ls
644 In [7]: who_ls
641 Out[7]: ['a', 'b', 'b1m', 'b2s', 'b4m', 'c']
645 Out[7]: ['a', 'b', 'b1m', 'b2s', 'b4m', 'c']
642
646
643 In [8]: %reset_selective -f c
647 In [8]: %reset_selective -f c
644
648
645 In [9]: who_ls
649 In [9]: who_ls
646 Out[9]: ['a', 'b', 'b1m', 'b2s', 'b4m']
650 Out[9]: ['a', 'b', 'b1m', 'b2s', 'b4m']
647
651
648 In [10]: %reset_selective -f b
652 In [10]: %reset_selective -f b
649
653
650 In [11]: who_ls
654 In [11]: who_ls
651 Out[11]: ['a']
655 Out[11]: ['a']
652
656
653 Notes
657 Notes
654 -----
658 -----
655 Calling this magic from clients that do not implement standard input,
659 Calling this magic from clients that do not implement standard input,
656 such as the ipython notebook interface, will reset the namespace
660 such as the ipython notebook interface, will reset the namespace
657 without confirmation.
661 without confirmation.
658 """
662 """
659
663
660 opts, regex = self.parse_options(parameter_s,'f')
664 opts, regex = self.parse_options(parameter_s,'f')
661
665
662 if 'f' in opts:
666 if 'f' in opts:
663 ans = True
667 ans = True
664 else:
668 else:
665 try:
669 try:
666 ans = self.shell.ask_yes_no(
670 ans = self.shell.ask_yes_no(
667 "Once deleted, variables cannot be recovered. Proceed (y/[n])? ",
671 "Once deleted, variables cannot be recovered. Proceed (y/[n])? ",
668 default='n')
672 default='n')
669 except StdinNotImplementedError:
673 except StdinNotImplementedError:
670 ans = True
674 ans = True
671 if not ans:
675 if not ans:
672 print('Nothing done.')
676 print('Nothing done.')
673 return
677 return
674 user_ns = self.shell.user_ns
678 user_ns = self.shell.user_ns
675 if not regex:
679 if not regex:
676 print('No regex pattern specified. Nothing done.')
680 print('No regex pattern specified. Nothing done.')
677 return
681 return
678 else:
682 else:
679 try:
683 try:
680 m = re.compile(regex)
684 m = re.compile(regex)
681 except TypeError as e:
685 except TypeError as e:
682 raise TypeError('regex must be a string or compiled pattern') from e
686 raise TypeError('regex must be a string or compiled pattern') from e
683 for i in self.who_ls():
687 for i in self.who_ls():
684 if m.search(i):
688 if m.search(i):
685 del(user_ns[i])
689 del(user_ns[i])
686
690
687 @line_magic
691 @line_magic
688 def xdel(self, parameter_s=''):
692 def xdel(self, parameter_s=''):
689 """Delete a variable, trying to clear it from anywhere that
693 """Delete a variable, trying to clear it from anywhere that
690 IPython's machinery has references to it. By default, this uses
694 IPython's machinery has references to it. By default, this uses
691 the identity of the named object in the user namespace to remove
695 the identity of the named object in the user namespace to remove
692 references held under other names. The object is also removed
696 references held under other names. The object is also removed
693 from the output history.
697 from the output history.
694
698
695 Options
699 Options
696 -n : Delete the specified name from all namespaces, without
700 -n : Delete the specified name from all namespaces, without
697 checking their identity.
701 checking their identity.
698 """
702 """
699 opts, varname = self.parse_options(parameter_s,'n')
703 opts, varname = self.parse_options(parameter_s,'n')
700 try:
704 try:
701 self.shell.del_var(varname, ('n' in opts))
705 self.shell.del_var(varname, ('n' in opts))
702 except (NameError, ValueError) as e:
706 except (NameError, ValueError) as e:
703 print(type(e).__name__ +": "+ str(e))
707 print(type(e).__name__ +": "+ str(e))
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