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1 1 # -*- coding: utf-8 -*-
2 2 """Main IPython class."""
3 3
4 4 #-----------------------------------------------------------------------------
5 5 # Copyright (C) 2001 Janko Hauser <jhauser@zscout.de>
6 6 # Copyright (C) 2001-2007 Fernando Perez. <fperez@colorado.edu>
7 7 # Copyright (C) 2008-2011 The IPython Development Team
8 8 #
9 9 # Distributed under the terms of the BSD License. The full license is in
10 10 # the file COPYING, distributed as part of this software.
11 11 #-----------------------------------------------------------------------------
12 12
13 13
14 14 import abc
15 15 import ast
16 16 import atexit
17 17 import bdb
18 18 import builtins as builtin_mod
19 19 import functools
20 20 import inspect
21 21 import os
22 22 import re
23 23 import runpy
24 24 import subprocess
25 25 import sys
26 26 import tempfile
27 27 import traceback
28 28 import types
29 29 import warnings
30 30 from ast import stmt
31 31 from io import open as io_open
32 32 from logging import error
33 33 from pathlib import Path
34 34 from typing import Callable
35 35 from typing import List as ListType
36 36 from typing import Optional, Tuple
37 37 from warnings import warn
38 38
39 39 from pickleshare import PickleShareDB
40 40 from tempfile import TemporaryDirectory
41 41 from traitlets import (
42 42 Any,
43 43 Bool,
44 44 CaselessStrEnum,
45 45 Dict,
46 46 Enum,
47 47 Instance,
48 48 Integer,
49 49 List,
50 50 Type,
51 51 Unicode,
52 52 default,
53 53 observe,
54 54 validate,
55 55 )
56 56 from traitlets.config.configurable import SingletonConfigurable
57 57 from traitlets.utils.importstring import import_item
58 58
59 59 import IPython.core.hooks
60 60 from IPython.core import magic, oinspect, page, prefilter, ultratb
61 61 from IPython.core.alias import Alias, AliasManager
62 62 from IPython.core.autocall import ExitAutocall
63 63 from IPython.core.builtin_trap import BuiltinTrap
64 64 from IPython.core.compilerop import CachingCompiler
65 65 from IPython.core.debugger import InterruptiblePdb
66 66 from IPython.core.display_trap import DisplayTrap
67 67 from IPython.core.displayhook import DisplayHook
68 68 from IPython.core.displaypub import DisplayPublisher
69 69 from IPython.core.error import InputRejected, UsageError
70 70 from IPython.core.events import EventManager, available_events
71 71 from IPython.core.extensions import ExtensionManager
72 72 from IPython.core.formatters import DisplayFormatter
73 73 from IPython.core.history import HistoryManager
74 74 from IPython.core.inputtransformer2 import ESC_MAGIC, ESC_MAGIC2
75 75 from IPython.core.logger import Logger
76 76 from IPython.core.macro import Macro
77 77 from IPython.core.payload import PayloadManager
78 78 from IPython.core.prefilter import PrefilterManager
79 79 from IPython.core.profiledir import ProfileDir
80 80 from IPython.core.usage import default_banner
81 81 from IPython.display import display
82 82 from IPython.paths import get_ipython_dir
83 83 from IPython.testing.skipdoctest import skip_doctest
84 84 from IPython.utils import PyColorize, io, openpy, py3compat
85 85 from IPython.utils.decorators import undoc
86 86 from IPython.utils.io import ask_yes_no
87 87 from IPython.utils.ipstruct import Struct
88 88 from IPython.utils.path import ensure_dir_exists, get_home_dir, get_py_filename
89 89 from IPython.utils.process import getoutput, system
90 90 from IPython.utils.strdispatch import StrDispatch
91 91 from IPython.utils.syspathcontext import prepended_to_syspath
92 92 from IPython.utils.text import DollarFormatter, LSString, SList, format_screen
93 93
94 94 sphinxify: Optional[Callable]
95 95
96 96 try:
97 97 import docrepr.sphinxify as sphx
98 98
99 99 def sphinxify(oinfo):
100 100 wrapped_docstring = sphx.wrap_main_docstring(oinfo)
101 101
102 102 def sphinxify_docstring(docstring):
103 103 with TemporaryDirectory() as dirname:
104 104 return {
105 105 "text/html": sphx.sphinxify(wrapped_docstring, dirname),
106 106 "text/plain": docstring,
107 107 }
108 108
109 109 return sphinxify_docstring
110 110 except ImportError:
111 111 sphinxify = None
112 112
113 113
114 114 class ProvisionalWarning(DeprecationWarning):
115 115 """
116 116 Warning class for unstable features
117 117 """
118 118 pass
119 119
120 120 from ast import Module
121 121
122 122 _assign_nodes = (ast.AugAssign, ast.AnnAssign, ast.Assign)
123 123 _single_targets_nodes = (ast.AugAssign, ast.AnnAssign)
124 124
125 125 #-----------------------------------------------------------------------------
126 126 # Await Helpers
127 127 #-----------------------------------------------------------------------------
128 128
129 129 # we still need to run things using the asyncio eventloop, but there is no
130 130 # async integration
131 131 from .async_helpers import (
132 132 _asyncio_runner,
133 133 _curio_runner,
134 134 _pseudo_sync_runner,
135 135 _should_be_async,
136 136 _trio_runner,
137 137 )
138 138
139 139 #-----------------------------------------------------------------------------
140 140 # Globals
141 141 #-----------------------------------------------------------------------------
142 142
143 143 # compiled regexps for autoindent management
144 144 dedent_re = re.compile(r'^\s+raise|^\s+return|^\s+pass')
145 145
146 146 #-----------------------------------------------------------------------------
147 147 # Utilities
148 148 #-----------------------------------------------------------------------------
149 149
150 150
151 151 def is_integer_string(s: str):
152 152 """
153 153 Variant of "str.isnumeric()" that allow negative values and other ints.
154 154 """
155 155 try:
156 156 int(s)
157 157 return True
158 158 except ValueError:
159 159 return False
160 160 raise ValueError("Unexpected error")
161 161
162 162
163 163 @undoc
164 164 def softspace(file, newvalue):
165 165 """Copied from code.py, to remove the dependency"""
166 166
167 167 oldvalue = 0
168 168 try:
169 169 oldvalue = file.softspace
170 170 except AttributeError:
171 171 pass
172 172 try:
173 173 file.softspace = newvalue
174 174 except (AttributeError, TypeError):
175 175 # "attribute-less object" or "read-only attributes"
176 176 pass
177 177 return oldvalue
178 178
179 179 @undoc
180 180 def no_op(*a, **kw):
181 181 pass
182 182
183 183
184 184 class SpaceInInput(Exception): pass
185 185
186 186
187 187 class SeparateUnicode(Unicode):
188 188 r"""A Unicode subclass to validate separate_in, separate_out, etc.
189 189
190 190 This is a Unicode based trait that converts '0'->'' and ``'\\n'->'\n'``.
191 191 """
192 192
193 193 def validate(self, obj, value):
194 194 if value == '0': value = ''
195 195 value = value.replace('\\n','\n')
196 196 return super(SeparateUnicode, self).validate(obj, value)
197 197
198 198
199 199 @undoc
200 200 class DummyMod(object):
201 201 """A dummy module used for IPython's interactive module when
202 202 a namespace must be assigned to the module's __dict__."""
203 203 __spec__ = None
204 204
205 205
206 206 class ExecutionInfo(object):
207 207 """The arguments used for a call to :meth:`InteractiveShell.run_cell`
208 208
209 209 Stores information about what is going to happen.
210 210 """
211 211 raw_cell = None
212 212 store_history = False
213 213 silent = False
214 214 shell_futures = True
215 215 cell_id = None
216 216
217 217 def __init__(self, raw_cell, store_history, silent, shell_futures, cell_id):
218 218 self.raw_cell = raw_cell
219 219 self.store_history = store_history
220 220 self.silent = silent
221 221 self.shell_futures = shell_futures
222 222 self.cell_id = cell_id
223 223
224 224 def __repr__(self):
225 225 name = self.__class__.__qualname__
226 226 raw_cell = (
227 227 (self.raw_cell[:50] + "..") if len(self.raw_cell) > 50 else self.raw_cell
228 228 )
229 229 return (
230 230 '<%s object at %x, raw_cell="%s" store_history=%s silent=%s shell_futures=%s cell_id=%s>'
231 231 % (
232 232 name,
233 233 id(self),
234 234 raw_cell,
235 235 self.store_history,
236 236 self.silent,
237 237 self.shell_futures,
238 238 self.cell_id,
239 239 )
240 240 )
241 241
242 242
243 243 class ExecutionResult(object):
244 244 """The result of a call to :meth:`InteractiveShell.run_cell`
245 245
246 246 Stores information about what took place.
247 247 """
248 248 execution_count = None
249 249 error_before_exec = None
250 250 error_in_exec: Optional[BaseException] = None
251 251 info = None
252 252 result = None
253 253
254 254 def __init__(self, info):
255 255 self.info = info
256 256
257 257 @property
258 258 def success(self):
259 259 return (self.error_before_exec is None) and (self.error_in_exec is None)
260 260
261 261 def raise_error(self):
262 262 """Reraises error if `success` is `False`, otherwise does nothing"""
263 263 if self.error_before_exec is not None:
264 264 raise self.error_before_exec
265 265 if self.error_in_exec is not None:
266 266 raise self.error_in_exec
267 267
268 268 def __repr__(self):
269 269 name = self.__class__.__qualname__
270 270 return '<%s object at %x, execution_count=%s error_before_exec=%s error_in_exec=%s info=%s result=%s>' %\
271 271 (name, id(self), self.execution_count, self.error_before_exec, self.error_in_exec, repr(self.info), repr(self.result))
272 272
273 273 @functools.wraps(io_open)
274 274 def _modified_open(file, *args, **kwargs):
275 275 if file in {0, 1, 2}:
276 276 raise ValueError(
277 277 f"IPython won't let you open fd={file} by default "
278 278 "as it is likely to crash IPython. If you know what you are doing, "
279 279 "you can use builtins' open."
280 280 )
281 281
282 282 return io_open(file, *args, **kwargs)
283 283
284 284 class InteractiveShell(SingletonConfigurable):
285 285 """An enhanced, interactive shell for Python."""
286 286
287 287 _instance = None
288 288
289 289 ast_transformers = List([], help=
290 290 """
291 291 A list of ast.NodeTransformer subclass instances, which will be applied
292 292 to user input before code is run.
293 293 """
294 294 ).tag(config=True)
295 295
296 296 autocall = Enum((0,1,2), default_value=0, help=
297 297 """
298 298 Make IPython automatically call any callable object even if you didn't
299 299 type explicit parentheses. For example, 'str 43' becomes 'str(43)'
300 300 automatically. The value can be '0' to disable the feature, '1' for
301 301 'smart' autocall, where it is not applied if there are no more
302 302 arguments on the line, and '2' for 'full' autocall, where all callable
303 303 objects are automatically called (even if no arguments are present).
304 304 """
305 305 ).tag(config=True)
306 306
307 307 autoindent = Bool(True, help=
308 308 """
309 309 Autoindent IPython code entered interactively.
310 310 """
311 311 ).tag(config=True)
312 312
313 313 autoawait = Bool(True, help=
314 314 """
315 315 Automatically run await statement in the top level repl.
316 316 """
317 317 ).tag(config=True)
318 318
319 319 loop_runner_map ={
320 320 'asyncio':(_asyncio_runner, True),
321 321 'curio':(_curio_runner, True),
322 322 'trio':(_trio_runner, True),
323 323 'sync': (_pseudo_sync_runner, False)
324 324 }
325 325
326 326 loop_runner = Any(default_value="IPython.core.interactiveshell._asyncio_runner",
327 327 allow_none=True,
328 328 help="""Select the loop runner that will be used to execute top-level asynchronous code"""
329 329 ).tag(config=True)
330 330
331 331 @default('loop_runner')
332 332 def _default_loop_runner(self):
333 333 return import_item("IPython.core.interactiveshell._asyncio_runner")
334 334
335 335 @validate('loop_runner')
336 336 def _import_runner(self, proposal):
337 337 if isinstance(proposal.value, str):
338 338 if proposal.value in self.loop_runner_map:
339 339 runner, autoawait = self.loop_runner_map[proposal.value]
340 340 self.autoawait = autoawait
341 341 return runner
342 342 runner = import_item(proposal.value)
343 343 if not callable(runner):
344 344 raise ValueError('loop_runner must be callable')
345 345 return runner
346 346 if not callable(proposal.value):
347 347 raise ValueError('loop_runner must be callable')
348 348 return proposal.value
349 349
350 350 automagic = Bool(True, help=
351 351 """
352 352 Enable magic commands to be called without the leading %.
353 353 """
354 354 ).tag(config=True)
355 355
356 356 banner1 = Unicode(default_banner,
357 357 help="""The part of the banner to be printed before the profile"""
358 358 ).tag(config=True)
359 359 banner2 = Unicode('',
360 360 help="""The part of the banner to be printed after the profile"""
361 361 ).tag(config=True)
362 362
363 363 cache_size = Integer(1000, help=
364 364 """
365 365 Set the size of the output cache. The default is 1000, you can
366 366 change it permanently in your config file. Setting it to 0 completely
367 367 disables the caching system, and the minimum value accepted is 3 (if
368 368 you provide a value less than 3, it is reset to 0 and a warning is
369 369 issued). This limit is defined because otherwise you'll spend more
370 370 time re-flushing a too small cache than working
371 371 """
372 372 ).tag(config=True)
373 373 color_info = Bool(True, help=
374 374 """
375 375 Use colors for displaying information about objects. Because this
376 376 information is passed through a pager (like 'less'), and some pagers
377 377 get confused with color codes, this capability can be turned off.
378 378 """
379 379 ).tag(config=True)
380 380 colors = CaselessStrEnum(('Neutral', 'NoColor','LightBG','Linux'),
381 381 default_value='Neutral',
382 382 help="Set the color scheme (NoColor, Neutral, Linux, or LightBG)."
383 383 ).tag(config=True)
384 384 debug = Bool(False).tag(config=True)
385 385 disable_failing_post_execute = Bool(False,
386 386 help="Don't call post-execute functions that have failed in the past."
387 387 ).tag(config=True)
388 388 display_formatter = Instance(DisplayFormatter, allow_none=True)
389 389 displayhook_class = Type(DisplayHook)
390 390 display_pub_class = Type(DisplayPublisher)
391 391 compiler_class = Type(CachingCompiler)
392 392
393 393 sphinxify_docstring = Bool(False, help=
394 394 """
395 395 Enables rich html representation of docstrings. (This requires the
396 396 docrepr module).
397 397 """).tag(config=True)
398 398
399 399 @observe("sphinxify_docstring")
400 400 def _sphinxify_docstring_changed(self, change):
401 401 if change['new']:
402 402 warn("`sphinxify_docstring` is provisional since IPython 5.0 and might change in future versions." , ProvisionalWarning)
403 403
404 404 enable_html_pager = Bool(False, help=
405 405 """
406 406 (Provisional API) enables html representation in mime bundles sent
407 407 to pagers.
408 408 """).tag(config=True)
409 409
410 410 @observe("enable_html_pager")
411 411 def _enable_html_pager_changed(self, change):
412 412 if change['new']:
413 413 warn("`enable_html_pager` is provisional since IPython 5.0 and might change in future versions.", ProvisionalWarning)
414 414
415 415 data_pub_class = None
416 416
417 417 exit_now = Bool(False)
418 418 exiter = Instance(ExitAutocall)
419 419 @default('exiter')
420 420 def _exiter_default(self):
421 421 return ExitAutocall(self)
422 422 # Monotonically increasing execution counter
423 423 execution_count = Integer(1)
424 424 filename = Unicode("<ipython console>")
425 425 ipython_dir= Unicode('').tag(config=True) # Set to get_ipython_dir() in __init__
426 426
427 427 # Used to transform cells before running them, and check whether code is complete
428 428 input_transformer_manager = Instance('IPython.core.inputtransformer2.TransformerManager',
429 429 ())
430 430
431 431 @property
432 432 def input_transformers_cleanup(self):
433 433 return self.input_transformer_manager.cleanup_transforms
434 434
435 435 input_transformers_post = List([],
436 436 help="A list of string input transformers, to be applied after IPython's "
437 437 "own input transformations."
438 438 )
439 439
440 440 @property
441 441 def input_splitter(self):
442 442 """Make this available for backward compatibility (pre-7.0 release) with existing code.
443 443
444 444 For example, ipykernel ipykernel currently uses
445 445 `shell.input_splitter.check_complete`
446 446 """
447 447 from warnings import warn
448 448 warn("`input_splitter` is deprecated since IPython 7.0, prefer `input_transformer_manager`.",
449 449 DeprecationWarning, stacklevel=2
450 450 )
451 451 return self.input_transformer_manager
452 452
453 453 logstart = Bool(False, help=
454 454 """
455 455 Start logging to the default log file in overwrite mode.
456 456 Use `logappend` to specify a log file to **append** logs to.
457 457 """
458 458 ).tag(config=True)
459 459 logfile = Unicode('', help=
460 460 """
461 461 The name of the logfile to use.
462 462 """
463 463 ).tag(config=True)
464 464 logappend = Unicode('', help=
465 465 """
466 466 Start logging to the given file in append mode.
467 467 Use `logfile` to specify a log file to **overwrite** logs to.
468 468 """
469 469 ).tag(config=True)
470 470 object_info_string_level = Enum((0,1,2), default_value=0,
471 471 ).tag(config=True)
472 472 pdb = Bool(False, help=
473 473 """
474 474 Automatically call the pdb debugger after every exception.
475 475 """
476 476 ).tag(config=True)
477 477 display_page = Bool(False,
478 478 help="""If True, anything that would be passed to the pager
479 479 will be displayed as regular output instead."""
480 480 ).tag(config=True)
481 481
482 482
483 483 show_rewritten_input = Bool(True,
484 484 help="Show rewritten input, e.g. for autocall."
485 485 ).tag(config=True)
486 486
487 487 quiet = Bool(False).tag(config=True)
488 488
489 489 history_length = Integer(10000,
490 490 help='Total length of command history'
491 491 ).tag(config=True)
492 492
493 493 history_load_length = Integer(1000, help=
494 494 """
495 495 The number of saved history entries to be loaded
496 496 into the history buffer at startup.
497 497 """
498 498 ).tag(config=True)
499 499
500 500 ast_node_interactivity = Enum(['all', 'last', 'last_expr', 'none', 'last_expr_or_assign'],
501 501 default_value='last_expr',
502 502 help="""
503 503 'all', 'last', 'last_expr' or 'none', 'last_expr_or_assign' specifying
504 504 which nodes should be run interactively (displaying output from expressions).
505 505 """
506 506 ).tag(config=True)
507 507
508 508 warn_venv = Bool(
509 509 True,
510 510 help="Warn if running in a virtual environment with no IPython installed (so IPython from the global environment is used).",
511 511 ).tag(config=True)
512 512
513 513 # TODO: this part of prompt management should be moved to the frontends.
514 514 # Use custom TraitTypes that convert '0'->'' and '\\n'->'\n'
515 515 separate_in = SeparateUnicode('\n').tag(config=True)
516 516 separate_out = SeparateUnicode('').tag(config=True)
517 517 separate_out2 = SeparateUnicode('').tag(config=True)
518 518 wildcards_case_sensitive = Bool(True).tag(config=True)
519 519 xmode = CaselessStrEnum(('Context', 'Plain', 'Verbose', 'Minimal'),
520 520 default_value='Context',
521 521 help="Switch modes for the IPython exception handlers."
522 522 ).tag(config=True)
523 523
524 524 # Subcomponents of InteractiveShell
525 525 alias_manager = Instance('IPython.core.alias.AliasManager', allow_none=True)
526 526 prefilter_manager = Instance('IPython.core.prefilter.PrefilterManager', allow_none=True)
527 527 builtin_trap = Instance('IPython.core.builtin_trap.BuiltinTrap', allow_none=True)
528 528 display_trap = Instance('IPython.core.display_trap.DisplayTrap', allow_none=True)
529 529 extension_manager = Instance('IPython.core.extensions.ExtensionManager', allow_none=True)
530 530 payload_manager = Instance('IPython.core.payload.PayloadManager', allow_none=True)
531 531 history_manager = Instance('IPython.core.history.HistoryAccessorBase', allow_none=True)
532 532 magics_manager = Instance('IPython.core.magic.MagicsManager', allow_none=True)
533 533
534 534 profile_dir = Instance('IPython.core.application.ProfileDir', allow_none=True)
535 535 @property
536 536 def profile(self):
537 537 if self.profile_dir is not None:
538 538 name = os.path.basename(self.profile_dir.location)
539 539 return name.replace('profile_','')
540 540
541 541
542 542 # Private interface
543 543 _post_execute = Dict()
544 544
545 545 # Tracks any GUI loop loaded for pylab
546 546 pylab_gui_select = None
547 547
548 548 last_execution_succeeded = Bool(True, help='Did last executed command succeeded')
549 549
550 550 last_execution_result = Instance('IPython.core.interactiveshell.ExecutionResult', help='Result of executing the last command', allow_none=True)
551 551
552 552 def __init__(self, ipython_dir=None, profile_dir=None,
553 553 user_module=None, user_ns=None,
554 554 custom_exceptions=((), None), **kwargs):
555 555 # This is where traits with a config_key argument are updated
556 556 # from the values on config.
557 557 super(InteractiveShell, self).__init__(**kwargs)
558 558 if 'PromptManager' in self.config:
559 559 warn('As of IPython 5.0 `PromptManager` config will have no effect'
560 560 ' and has been replaced by TerminalInteractiveShell.prompts_class')
561 561 self.configurables = [self]
562 562
563 563 # These are relatively independent and stateless
564 564 self.init_ipython_dir(ipython_dir)
565 565 self.init_profile_dir(profile_dir)
566 566 self.init_instance_attrs()
567 567 self.init_environment()
568 568
569 569 # Check if we're in a virtualenv, and set up sys.path.
570 570 self.init_virtualenv()
571 571
572 572 # Create namespaces (user_ns, user_global_ns, etc.)
573 573 self.init_create_namespaces(user_module, user_ns)
574 574 # This has to be done after init_create_namespaces because it uses
575 575 # something in self.user_ns, but before init_sys_modules, which
576 576 # is the first thing to modify sys.
577 577 # TODO: When we override sys.stdout and sys.stderr before this class
578 578 # is created, we are saving the overridden ones here. Not sure if this
579 579 # is what we want to do.
580 580 self.save_sys_module_state()
581 581 self.init_sys_modules()
582 582
583 583 # While we're trying to have each part of the code directly access what
584 584 # it needs without keeping redundant references to objects, we have too
585 585 # much legacy code that expects ip.db to exist.
586 586 self.db = PickleShareDB(os.path.join(self.profile_dir.location, 'db'))
587 587
588 588 self.init_history()
589 589 self.init_encoding()
590 590 self.init_prefilter()
591 591
592 592 self.init_syntax_highlighting()
593 593 self.init_hooks()
594 594 self.init_events()
595 595 self.init_pushd_popd_magic()
596 596 self.init_user_ns()
597 597 self.init_logger()
598 598 self.init_builtins()
599 599
600 600 # The following was in post_config_initialization
601 601 self.init_inspector()
602 602 self.raw_input_original = input
603 603 self.init_completer()
604 604 # TODO: init_io() needs to happen before init_traceback handlers
605 605 # because the traceback handlers hardcode the stdout/stderr streams.
606 606 # This logic in in debugger.Pdb and should eventually be changed.
607 607 self.init_io()
608 608 self.init_traceback_handlers(custom_exceptions)
609 609 self.init_prompts()
610 610 self.init_display_formatter()
611 611 self.init_display_pub()
612 612 self.init_data_pub()
613 613 self.init_displayhook()
614 614 self.init_magics()
615 615 self.init_alias()
616 616 self.init_logstart()
617 617 self.init_pdb()
618 618 self.init_extension_manager()
619 619 self.init_payload()
620 620 self.events.trigger('shell_initialized', self)
621 621 atexit.register(self.atexit_operations)
622 622
623 623 # The trio runner is used for running Trio in the foreground thread. It
624 624 # is different from `_trio_runner(async_fn)` in `async_helpers.py`
625 625 # which calls `trio.run()` for every cell. This runner runs all cells
626 626 # inside a single Trio event loop. If used, it is set from
627 627 # `ipykernel.kernelapp`.
628 628 self.trio_runner = None
629 629
630 630 def get_ipython(self):
631 631 """Return the currently running IPython instance."""
632 632 return self
633 633
634 634 #-------------------------------------------------------------------------
635 635 # Trait changed handlers
636 636 #-------------------------------------------------------------------------
637 637 @observe('ipython_dir')
638 638 def _ipython_dir_changed(self, change):
639 639 ensure_dir_exists(change['new'])
640 640
641 641 def set_autoindent(self,value=None):
642 642 """Set the autoindent flag.
643 643
644 644 If called with no arguments, it acts as a toggle."""
645 645 if value is None:
646 646 self.autoindent = not self.autoindent
647 647 else:
648 648 self.autoindent = value
649 649
650 650 def set_trio_runner(self, tr):
651 651 self.trio_runner = tr
652 652
653 653 #-------------------------------------------------------------------------
654 654 # init_* methods called by __init__
655 655 #-------------------------------------------------------------------------
656 656
657 657 def init_ipython_dir(self, ipython_dir):
658 658 if ipython_dir is not None:
659 659 self.ipython_dir = ipython_dir
660 660 return
661 661
662 662 self.ipython_dir = get_ipython_dir()
663 663
664 664 def init_profile_dir(self, profile_dir):
665 665 if profile_dir is not None:
666 666 self.profile_dir = profile_dir
667 667 return
668 668 self.profile_dir = ProfileDir.create_profile_dir_by_name(
669 669 self.ipython_dir, "default"
670 670 )
671 671
672 672 def init_instance_attrs(self):
673 673 self.more = False
674 674
675 675 # command compiler
676 676 self.compile = self.compiler_class()
677 677
678 678 # Make an empty namespace, which extension writers can rely on both
679 679 # existing and NEVER being used by ipython itself. This gives them a
680 680 # convenient location for storing additional information and state
681 681 # their extensions may require, without fear of collisions with other
682 682 # ipython names that may develop later.
683 683 self.meta = Struct()
684 684
685 685 # Temporary files used for various purposes. Deleted at exit.
686 686 # The files here are stored with Path from Pathlib
687 687 self.tempfiles = []
688 688 self.tempdirs = []
689 689
690 690 # keep track of where we started running (mainly for crash post-mortem)
691 691 # This is not being used anywhere currently.
692 692 self.starting_dir = os.getcwd()
693 693
694 694 # Indentation management
695 695 self.indent_current_nsp = 0
696 696
697 697 # Dict to track post-execution functions that have been registered
698 698 self._post_execute = {}
699 699
700 700 def init_environment(self):
701 701 """Any changes we need to make to the user's environment."""
702 702 pass
703 703
704 704 def init_encoding(self):
705 705 # Get system encoding at startup time. Certain terminals (like Emacs
706 706 # under Win32 have it set to None, and we need to have a known valid
707 707 # encoding to use in the raw_input() method
708 708 try:
709 709 self.stdin_encoding = sys.stdin.encoding or 'ascii'
710 710 except AttributeError:
711 711 self.stdin_encoding = 'ascii'
712 712
713 713
714 714 @observe('colors')
715 715 def init_syntax_highlighting(self, changes=None):
716 716 # Python source parser/formatter for syntax highlighting
717 717 pyformat = PyColorize.Parser(style=self.colors, parent=self).format
718 718 self.pycolorize = lambda src: pyformat(src,'str')
719 719
720 720 def refresh_style(self):
721 721 # No-op here, used in subclass
722 722 pass
723 723
724 724 def init_pushd_popd_magic(self):
725 725 # for pushd/popd management
726 726 self.home_dir = get_home_dir()
727 727
728 728 self.dir_stack = []
729 729
730 730 def init_logger(self):
731 731 self.logger = Logger(self.home_dir, logfname='ipython_log.py',
732 732 logmode='rotate')
733 733
734 734 def init_logstart(self):
735 735 """Initialize logging in case it was requested at the command line.
736 736 """
737 737 if self.logappend:
738 738 self.magic('logstart %s append' % self.logappend)
739 739 elif self.logfile:
740 740 self.magic('logstart %s' % self.logfile)
741 741 elif self.logstart:
742 742 self.magic('logstart')
743 743
744 744
745 745 def init_builtins(self):
746 746 # A single, static flag that we set to True. Its presence indicates
747 747 # that an IPython shell has been created, and we make no attempts at
748 748 # removing on exit or representing the existence of more than one
749 749 # IPython at a time.
750 750 builtin_mod.__dict__['__IPYTHON__'] = True
751 751 builtin_mod.__dict__['display'] = display
752 752
753 753 self.builtin_trap = BuiltinTrap(shell=self)
754 754
755 755 @observe('colors')
756 756 def init_inspector(self, changes=None):
757 757 # Object inspector
758 758 self.inspector = oinspect.Inspector(oinspect.InspectColors,
759 759 PyColorize.ANSICodeColors,
760 760 self.colors,
761 761 self.object_info_string_level)
762 762
763 763 def init_io(self):
764 764 # implemented in subclasses, TerminalInteractiveShell does call
765 765 # colorama.init().
766 766 pass
767 767
768 768 def init_prompts(self):
769 769 # Set system prompts, so that scripts can decide if they are running
770 770 # interactively.
771 771 sys.ps1 = 'In : '
772 772 sys.ps2 = '...: '
773 773 sys.ps3 = 'Out: '
774 774
775 775 def init_display_formatter(self):
776 776 self.display_formatter = DisplayFormatter(parent=self)
777 777 self.configurables.append(self.display_formatter)
778 778
779 779 def init_display_pub(self):
780 780 self.display_pub = self.display_pub_class(parent=self, shell=self)
781 781 self.configurables.append(self.display_pub)
782 782
783 783 def init_data_pub(self):
784 784 if not self.data_pub_class:
785 785 self.data_pub = None
786 786 return
787 787 self.data_pub = self.data_pub_class(parent=self)
788 788 self.configurables.append(self.data_pub)
789 789
790 790 def init_displayhook(self):
791 791 # Initialize displayhook, set in/out prompts and printing system
792 792 self.displayhook = self.displayhook_class(
793 793 parent=self,
794 794 shell=self,
795 795 cache_size=self.cache_size,
796 796 )
797 797 self.configurables.append(self.displayhook)
798 798 # This is a context manager that installs/revmoes the displayhook at
799 799 # the appropriate time.
800 800 self.display_trap = DisplayTrap(hook=self.displayhook)
801 801
802 802 @staticmethod
803 803 def get_path_links(p: Path):
804 804 """Gets path links including all symlinks
805 805
806 806 Examples
807 807 --------
808 808 In [1]: from IPython.core.interactiveshell import InteractiveShell
809 809
810 810 In [2]: import sys, pathlib
811 811
812 812 In [3]: paths = InteractiveShell.get_path_links(pathlib.Path(sys.executable))
813 813
814 814 In [4]: len(paths) == len(set(paths))
815 815 Out[4]: True
816 816
817 817 In [5]: bool(paths)
818 818 Out[5]: True
819 819 """
820 820 paths = [p]
821 821 while p.is_symlink():
822 822 new_path = Path(os.readlink(p))
823 823 if not new_path.is_absolute():
824 824 new_path = p.parent / new_path
825 825 p = new_path
826 826 paths.append(p)
827 827 return paths
828 828
829 829 def init_virtualenv(self):
830 830 """Add the current virtualenv to sys.path so the user can import modules from it.
831 831 This isn't perfect: it doesn't use the Python interpreter with which the
832 832 virtualenv was built, and it ignores the --no-site-packages option. A
833 833 warning will appear suggesting the user installs IPython in the
834 834 virtualenv, but for many cases, it probably works well enough.
835 835
836 836 Adapted from code snippets online.
837 837
838 838 http://blog.ufsoft.org/2009/1/29/ipython-and-virtualenv
839 839 """
840 840 if 'VIRTUAL_ENV' not in os.environ:
841 841 # Not in a virtualenv
842 842 return
843 843 elif os.environ["VIRTUAL_ENV"] == "":
844 844 warn("Virtual env path set to '', please check if this is intended.")
845 845 return
846 846
847 847 p = Path(sys.executable)
848 848 p_venv = Path(os.environ["VIRTUAL_ENV"])
849 849
850 850 # fallback venv detection:
851 851 # stdlib venv may symlink sys.executable, so we can't use realpath.
852 852 # but others can symlink *to* the venv Python, so we can't just use sys.executable.
853 853 # So we just check every item in the symlink tree (generally <= 3)
854 854 paths = self.get_path_links(p)
855 855
856 856 # In Cygwin paths like "c:\..." and '\cygdrive\c\...' are possible
857 857 if p_venv.parts[1] == "cygdrive":
858 858 drive_name = p_venv.parts[2]
859 859 p_venv = (drive_name + ":/") / Path(*p_venv.parts[3:])
860 860
861 861 if any(p_venv == p.parents[1] for p in paths):
862 862 # Our exe is inside or has access to the virtualenv, don't need to do anything.
863 863 return
864 864
865 865 if sys.platform == "win32":
866 866 virtual_env = str(Path(os.environ["VIRTUAL_ENV"], "Lib", "site-packages"))
867 867 else:
868 868 virtual_env_path = Path(
869 869 os.environ["VIRTUAL_ENV"], "lib", "python{}.{}", "site-packages"
870 870 )
871 871 p_ver = sys.version_info[:2]
872 872
873 873 # Predict version from py[thon]-x.x in the $VIRTUAL_ENV
874 874 re_m = re.search(r"\bpy(?:thon)?([23])\.(\d+)\b", os.environ["VIRTUAL_ENV"])
875 875 if re_m:
876 876 predicted_path = Path(str(virtual_env_path).format(*re_m.groups()))
877 877 if predicted_path.exists():
878 878 p_ver = re_m.groups()
879 879
880 880 virtual_env = str(virtual_env_path).format(*p_ver)
881 881 if self.warn_venv:
882 882 warn(
883 883 "Attempting to work in a virtualenv. If you encounter problems, "
884 884 "please install IPython inside the virtualenv."
885 885 )
886 886 import site
887 887 sys.path.insert(0, virtual_env)
888 888 site.addsitedir(virtual_env)
889 889
890 890 #-------------------------------------------------------------------------
891 891 # Things related to injections into the sys module
892 892 #-------------------------------------------------------------------------
893 893
894 894 def save_sys_module_state(self):
895 895 """Save the state of hooks in the sys module.
896 896
897 897 This has to be called after self.user_module is created.
898 898 """
899 899 self._orig_sys_module_state = {'stdin': sys.stdin,
900 900 'stdout': sys.stdout,
901 901 'stderr': sys.stderr,
902 902 'excepthook': sys.excepthook}
903 903 self._orig_sys_modules_main_name = self.user_module.__name__
904 904 self._orig_sys_modules_main_mod = sys.modules.get(self.user_module.__name__)
905 905
906 906 def restore_sys_module_state(self):
907 907 """Restore the state of the sys module."""
908 908 try:
909 909 for k, v in self._orig_sys_module_state.items():
910 910 setattr(sys, k, v)
911 911 except AttributeError:
912 912 pass
913 913 # Reset what what done in self.init_sys_modules
914 914 if self._orig_sys_modules_main_mod is not None:
915 915 sys.modules[self._orig_sys_modules_main_name] = self._orig_sys_modules_main_mod
916 916
917 917 #-------------------------------------------------------------------------
918 918 # Things related to the banner
919 919 #-------------------------------------------------------------------------
920 920
921 921 @property
922 922 def banner(self):
923 923 banner = self.banner1
924 924 if self.profile and self.profile != 'default':
925 925 banner += '\nIPython profile: %s\n' % self.profile
926 926 if self.banner2:
927 927 banner += '\n' + self.banner2
928 928 return banner
929 929
930 930 def show_banner(self, banner=None):
931 931 if banner is None:
932 932 banner = self.banner
933 933 sys.stdout.write(banner)
934 934
935 935 #-------------------------------------------------------------------------
936 936 # Things related to hooks
937 937 #-------------------------------------------------------------------------
938 938
939 939 def init_hooks(self):
940 940 # hooks holds pointers used for user-side customizations
941 941 self.hooks = Struct()
942 942
943 943 self.strdispatchers = {}
944 944
945 945 # Set all default hooks, defined in the IPython.hooks module.
946 946 hooks = IPython.core.hooks
947 947 for hook_name in hooks.__all__:
948 948 # default hooks have priority 100, i.e. low; user hooks should have
949 949 # 0-100 priority
950 950 self.set_hook(hook_name, getattr(hooks, hook_name), 100)
951 951
952 952 if self.display_page:
953 953 self.set_hook('show_in_pager', page.as_hook(page.display_page), 90)
954 954
955 955 def set_hook(self, name, hook, priority=50, str_key=None, re_key=None):
956 956 """set_hook(name,hook) -> sets an internal IPython hook.
957 957
958 958 IPython exposes some of its internal API as user-modifiable hooks. By
959 959 adding your function to one of these hooks, you can modify IPython's
960 960 behavior to call at runtime your own routines."""
961 961
962 962 # At some point in the future, this should validate the hook before it
963 963 # accepts it. Probably at least check that the hook takes the number
964 964 # of args it's supposed to.
965 965
966 966 f = types.MethodType(hook,self)
967 967
968 968 # check if the hook is for strdispatcher first
969 969 if str_key is not None:
970 970 sdp = self.strdispatchers.get(name, StrDispatch())
971 971 sdp.add_s(str_key, f, priority )
972 972 self.strdispatchers[name] = sdp
973 973 return
974 974 if re_key is not None:
975 975 sdp = self.strdispatchers.get(name, StrDispatch())
976 976 sdp.add_re(re.compile(re_key), f, priority )
977 977 self.strdispatchers[name] = sdp
978 978 return
979 979
980 980 dp = getattr(self.hooks, name, None)
981 981 if name not in IPython.core.hooks.__all__:
982 982 print("Warning! Hook '%s' is not one of %s" % \
983 983 (name, IPython.core.hooks.__all__ ))
984 984
985 985 if name in IPython.core.hooks.deprecated:
986 986 alternative = IPython.core.hooks.deprecated[name]
987 987 raise ValueError(
988 988 "Hook {} has been deprecated since IPython 5.0. Use {} instead.".format(
989 989 name, alternative
990 990 )
991 991 )
992 992
993 993 if not dp:
994 994 dp = IPython.core.hooks.CommandChainDispatcher()
995 995
996 996 try:
997 997 dp.add(f,priority)
998 998 except AttributeError:
999 999 # it was not commandchain, plain old func - replace
1000 1000 dp = f
1001 1001
1002 1002 setattr(self.hooks,name, dp)
1003 1003
1004 1004 #-------------------------------------------------------------------------
1005 1005 # Things related to events
1006 1006 #-------------------------------------------------------------------------
1007 1007
1008 1008 def init_events(self):
1009 1009 self.events = EventManager(self, available_events)
1010 1010
1011 1011 self.events.register("pre_execute", self._clear_warning_registry)
1012 1012
1013 1013 def register_post_execute(self, func):
1014 1014 """DEPRECATED: Use ip.events.register('post_run_cell', func)
1015 1015
1016 1016 Register a function for calling after code execution.
1017 1017 """
1018 1018 raise ValueError(
1019 1019 "ip.register_post_execute is deprecated since IPython 1.0, use "
1020 1020 "ip.events.register('post_run_cell', func) instead."
1021 1021 )
1022 1022
1023 1023 def _clear_warning_registry(self):
1024 1024 # clear the warning registry, so that different code blocks with
1025 1025 # overlapping line number ranges don't cause spurious suppression of
1026 1026 # warnings (see gh-6611 for details)
1027 1027 if "__warningregistry__" in self.user_global_ns:
1028 1028 del self.user_global_ns["__warningregistry__"]
1029 1029
1030 1030 #-------------------------------------------------------------------------
1031 1031 # Things related to the "main" module
1032 1032 #-------------------------------------------------------------------------
1033 1033
1034 1034 def new_main_mod(self, filename, modname):
1035 1035 """Return a new 'main' module object for user code execution.
1036 1036
1037 1037 ``filename`` should be the path of the script which will be run in the
1038 1038 module. Requests with the same filename will get the same module, with
1039 1039 its namespace cleared.
1040 1040
1041 1041 ``modname`` should be the module name - normally either '__main__' or
1042 1042 the basename of the file without the extension.
1043 1043
1044 1044 When scripts are executed via %run, we must keep a reference to their
1045 1045 __main__ module around so that Python doesn't
1046 1046 clear it, rendering references to module globals useless.
1047 1047
1048 1048 This method keeps said reference in a private dict, keyed by the
1049 1049 absolute path of the script. This way, for multiple executions of the
1050 1050 same script we only keep one copy of the namespace (the last one),
1051 1051 thus preventing memory leaks from old references while allowing the
1052 1052 objects from the last execution to be accessible.
1053 1053 """
1054 1054 filename = os.path.abspath(filename)
1055 1055 try:
1056 1056 main_mod = self._main_mod_cache[filename]
1057 1057 except KeyError:
1058 1058 main_mod = self._main_mod_cache[filename] = types.ModuleType(
1059 1059 modname,
1060 1060 doc="Module created for script run in IPython")
1061 1061 else:
1062 1062 main_mod.__dict__.clear()
1063 1063 main_mod.__name__ = modname
1064 1064
1065 1065 main_mod.__file__ = filename
1066 1066 # It seems pydoc (and perhaps others) needs any module instance to
1067 1067 # implement a __nonzero__ method
1068 1068 main_mod.__nonzero__ = lambda : True
1069 1069
1070 1070 return main_mod
1071 1071
1072 1072 def clear_main_mod_cache(self):
1073 1073 """Clear the cache of main modules.
1074 1074
1075 1075 Mainly for use by utilities like %reset.
1076 1076
1077 1077 Examples
1078 1078 --------
1079 1079 In [15]: import IPython
1080 1080
1081 1081 In [16]: m = _ip.new_main_mod(IPython.__file__, 'IPython')
1082 1082
1083 1083 In [17]: len(_ip._main_mod_cache) > 0
1084 1084 Out[17]: True
1085 1085
1086 1086 In [18]: _ip.clear_main_mod_cache()
1087 1087
1088 1088 In [19]: len(_ip._main_mod_cache) == 0
1089 1089 Out[19]: True
1090 1090 """
1091 1091 self._main_mod_cache.clear()
1092 1092
1093 1093 #-------------------------------------------------------------------------
1094 1094 # Things related to debugging
1095 1095 #-------------------------------------------------------------------------
1096 1096
1097 1097 def init_pdb(self):
1098 1098 # Set calling of pdb on exceptions
1099 1099 # self.call_pdb is a property
1100 1100 self.call_pdb = self.pdb
1101 1101
1102 1102 def _get_call_pdb(self):
1103 1103 return self._call_pdb
1104 1104
1105 1105 def _set_call_pdb(self,val):
1106 1106
1107 1107 if val not in (0,1,False,True):
1108 1108 raise ValueError('new call_pdb value must be boolean')
1109 1109
1110 1110 # store value in instance
1111 1111 self._call_pdb = val
1112 1112
1113 1113 # notify the actual exception handlers
1114 1114 self.InteractiveTB.call_pdb = val
1115 1115
1116 1116 call_pdb = property(_get_call_pdb,_set_call_pdb,None,
1117 1117 'Control auto-activation of pdb at exceptions')
1118 1118
1119 1119 def debugger(self,force=False):
1120 1120 """Call the pdb debugger.
1121 1121
1122 1122 Keywords:
1123 1123
1124 1124 - force(False): by default, this routine checks the instance call_pdb
1125 1125 flag and does not actually invoke the debugger if the flag is false.
1126 1126 The 'force' option forces the debugger to activate even if the flag
1127 1127 is false.
1128 1128 """
1129 1129
1130 1130 if not (force or self.call_pdb):
1131 1131 return
1132 1132
1133 1133 if not hasattr(sys,'last_traceback'):
1134 1134 error('No traceback has been produced, nothing to debug.')
1135 1135 return
1136 1136
1137 1137 self.InteractiveTB.debugger(force=True)
1138 1138
1139 1139 #-------------------------------------------------------------------------
1140 1140 # Things related to IPython's various namespaces
1141 1141 #-------------------------------------------------------------------------
1142 1142 default_user_namespaces = True
1143 1143
1144 1144 def init_create_namespaces(self, user_module=None, user_ns=None):
1145 1145 # Create the namespace where the user will operate. user_ns is
1146 1146 # normally the only one used, and it is passed to the exec calls as
1147 1147 # the locals argument. But we do carry a user_global_ns namespace
1148 1148 # given as the exec 'globals' argument, This is useful in embedding
1149 1149 # situations where the ipython shell opens in a context where the
1150 1150 # distinction between locals and globals is meaningful. For
1151 1151 # non-embedded contexts, it is just the same object as the user_ns dict.
1152 1152
1153 1153 # FIXME. For some strange reason, __builtins__ is showing up at user
1154 1154 # level as a dict instead of a module. This is a manual fix, but I
1155 1155 # should really track down where the problem is coming from. Alex
1156 1156 # Schmolck reported this problem first.
1157 1157
1158 1158 # A useful post by Alex Martelli on this topic:
1159 1159 # Re: inconsistent value from __builtins__
1160 1160 # Von: Alex Martelli <aleaxit@yahoo.com>
1161 1161 # Datum: Freitag 01 Oktober 2004 04:45:34 nachmittags/abends
1162 1162 # Gruppen: comp.lang.python
1163 1163
1164 1164 # Michael Hohn <hohn@hooknose.lbl.gov> wrote:
1165 1165 # > >>> print type(builtin_check.get_global_binding('__builtins__'))
1166 1166 # > <type 'dict'>
1167 1167 # > >>> print type(__builtins__)
1168 1168 # > <type 'module'>
1169 1169 # > Is this difference in return value intentional?
1170 1170
1171 1171 # Well, it's documented that '__builtins__' can be either a dictionary
1172 1172 # or a module, and it's been that way for a long time. Whether it's
1173 1173 # intentional (or sensible), I don't know. In any case, the idea is
1174 1174 # that if you need to access the built-in namespace directly, you
1175 1175 # should start with "import __builtin__" (note, no 's') which will
1176 1176 # definitely give you a module. Yeah, it's somewhat confusing:-(.
1177 1177
1178 1178 # These routines return a properly built module and dict as needed by
1179 1179 # the rest of the code, and can also be used by extension writers to
1180 1180 # generate properly initialized namespaces.
1181 1181 if (user_ns is not None) or (user_module is not None):
1182 1182 self.default_user_namespaces = False
1183 1183 self.user_module, self.user_ns = self.prepare_user_module(user_module, user_ns)
1184 1184
1185 1185 # A record of hidden variables we have added to the user namespace, so
1186 1186 # we can list later only variables defined in actual interactive use.
1187 1187 self.user_ns_hidden = {}
1188 1188
1189 1189 # Now that FakeModule produces a real module, we've run into a nasty
1190 1190 # problem: after script execution (via %run), the module where the user
1191 1191 # code ran is deleted. Now that this object is a true module (needed
1192 1192 # so doctest and other tools work correctly), the Python module
1193 1193 # teardown mechanism runs over it, and sets to None every variable
1194 1194 # present in that module. Top-level references to objects from the
1195 1195 # script survive, because the user_ns is updated with them. However,
1196 1196 # calling functions defined in the script that use other things from
1197 1197 # the script will fail, because the function's closure had references
1198 1198 # to the original objects, which are now all None. So we must protect
1199 1199 # these modules from deletion by keeping a cache.
1200 1200 #
1201 1201 # To avoid keeping stale modules around (we only need the one from the
1202 1202 # last run), we use a dict keyed with the full path to the script, so
1203 1203 # only the last version of the module is held in the cache. Note,
1204 1204 # however, that we must cache the module *namespace contents* (their
1205 1205 # __dict__). Because if we try to cache the actual modules, old ones
1206 1206 # (uncached) could be destroyed while still holding references (such as
1207 1207 # those held by GUI objects that tend to be long-lived)>
1208 1208 #
1209 1209 # The %reset command will flush this cache. See the cache_main_mod()
1210 1210 # and clear_main_mod_cache() methods for details on use.
1211 1211
1212 1212 # This is the cache used for 'main' namespaces
1213 1213 self._main_mod_cache = {}
1214 1214
1215 1215 # A table holding all the namespaces IPython deals with, so that
1216 1216 # introspection facilities can search easily.
1217 1217 self.ns_table = {'user_global':self.user_module.__dict__,
1218 1218 'user_local':self.user_ns,
1219 1219 'builtin':builtin_mod.__dict__
1220 1220 }
1221 1221
1222 1222 @property
1223 1223 def user_global_ns(self):
1224 1224 return self.user_module.__dict__
1225 1225
1226 1226 def prepare_user_module(self, user_module=None, user_ns=None):
1227 1227 """Prepare the module and namespace in which user code will be run.
1228 1228
1229 1229 When IPython is started normally, both parameters are None: a new module
1230 1230 is created automatically, and its __dict__ used as the namespace.
1231 1231
1232 1232 If only user_module is provided, its __dict__ is used as the namespace.
1233 1233 If only user_ns is provided, a dummy module is created, and user_ns
1234 1234 becomes the global namespace. If both are provided (as they may be
1235 1235 when embedding), user_ns is the local namespace, and user_module
1236 1236 provides the global namespace.
1237 1237
1238 1238 Parameters
1239 1239 ----------
1240 1240 user_module : module, optional
1241 1241 The current user module in which IPython is being run. If None,
1242 1242 a clean module will be created.
1243 1243 user_ns : dict, optional
1244 1244 A namespace in which to run interactive commands.
1245 1245
1246 1246 Returns
1247 1247 -------
1248 1248 A tuple of user_module and user_ns, each properly initialised.
1249 1249 """
1250 1250 if user_module is None and user_ns is not None:
1251 1251 user_ns.setdefault("__name__", "__main__")
1252 1252 user_module = DummyMod()
1253 1253 user_module.__dict__ = user_ns
1254 1254
1255 1255 if user_module is None:
1256 1256 user_module = types.ModuleType("__main__",
1257 1257 doc="Automatically created module for IPython interactive environment")
1258 1258
1259 1259 # We must ensure that __builtin__ (without the final 's') is always
1260 1260 # available and pointing to the __builtin__ *module*. For more details:
1261 1261 # http://mail.python.org/pipermail/python-dev/2001-April/014068.html
1262 1262 user_module.__dict__.setdefault('__builtin__', builtin_mod)
1263 1263 user_module.__dict__.setdefault('__builtins__', builtin_mod)
1264 1264
1265 1265 if user_ns is None:
1266 1266 user_ns = user_module.__dict__
1267 1267
1268 1268 return user_module, user_ns
1269 1269
1270 1270 def init_sys_modules(self):
1271 1271 # We need to insert into sys.modules something that looks like a
1272 1272 # module but which accesses the IPython namespace, for shelve and
1273 1273 # pickle to work interactively. Normally they rely on getting
1274 1274 # everything out of __main__, but for embedding purposes each IPython
1275 1275 # instance has its own private namespace, so we can't go shoving
1276 1276 # everything into __main__.
1277 1277
1278 1278 # note, however, that we should only do this for non-embedded
1279 1279 # ipythons, which really mimic the __main__.__dict__ with their own
1280 1280 # namespace. Embedded instances, on the other hand, should not do
1281 1281 # this because they need to manage the user local/global namespaces
1282 1282 # only, but they live within a 'normal' __main__ (meaning, they
1283 1283 # shouldn't overtake the execution environment of the script they're
1284 1284 # embedded in).
1285 1285
1286 1286 # This is overridden in the InteractiveShellEmbed subclass to a no-op.
1287 1287 main_name = self.user_module.__name__
1288 1288 sys.modules[main_name] = self.user_module
1289 1289
1290 1290 def init_user_ns(self):
1291 1291 """Initialize all user-visible namespaces to their minimum defaults.
1292 1292
1293 1293 Certain history lists are also initialized here, as they effectively
1294 1294 act as user namespaces.
1295 1295
1296 1296 Notes
1297 1297 -----
1298 1298 All data structures here are only filled in, they are NOT reset by this
1299 1299 method. If they were not empty before, data will simply be added to
1300 1300 them.
1301 1301 """
1302 1302 # This function works in two parts: first we put a few things in
1303 1303 # user_ns, and we sync that contents into user_ns_hidden so that these
1304 1304 # initial variables aren't shown by %who. After the sync, we add the
1305 1305 # rest of what we *do* want the user to see with %who even on a new
1306 1306 # session (probably nothing, so they really only see their own stuff)
1307 1307
1308 1308 # The user dict must *always* have a __builtin__ reference to the
1309 1309 # Python standard __builtin__ namespace, which must be imported.
1310 1310 # This is so that certain operations in prompt evaluation can be
1311 1311 # reliably executed with builtins. Note that we can NOT use
1312 1312 # __builtins__ (note the 's'), because that can either be a dict or a
1313 1313 # module, and can even mutate at runtime, depending on the context
1314 1314 # (Python makes no guarantees on it). In contrast, __builtin__ is
1315 1315 # always a module object, though it must be explicitly imported.
1316 1316
1317 1317 # For more details:
1318 1318 # http://mail.python.org/pipermail/python-dev/2001-April/014068.html
1319 1319 ns = {}
1320 1320
1321 1321 # make global variables for user access to the histories
1322 1322 ns['_ih'] = self.history_manager.input_hist_parsed
1323 1323 ns['_oh'] = self.history_manager.output_hist
1324 1324 ns['_dh'] = self.history_manager.dir_hist
1325 1325
1326 1326 # user aliases to input and output histories. These shouldn't show up
1327 1327 # in %who, as they can have very large reprs.
1328 1328 ns['In'] = self.history_manager.input_hist_parsed
1329 1329 ns['Out'] = self.history_manager.output_hist
1330 1330
1331 1331 # Store myself as the public api!!!
1332 1332 ns['get_ipython'] = self.get_ipython
1333 1333
1334 1334 ns['exit'] = self.exiter
1335 1335 ns['quit'] = self.exiter
1336 1336 ns["open"] = _modified_open
1337 1337
1338 1338 # Sync what we've added so far to user_ns_hidden so these aren't seen
1339 1339 # by %who
1340 1340 self.user_ns_hidden.update(ns)
1341 1341
1342 1342 # Anything put into ns now would show up in %who. Think twice before
1343 1343 # putting anything here, as we really want %who to show the user their
1344 1344 # stuff, not our variables.
1345 1345
1346 1346 # Finally, update the real user's namespace
1347 1347 self.user_ns.update(ns)
1348 1348
1349 1349 @property
1350 1350 def all_ns_refs(self):
1351 1351 """Get a list of references to all the namespace dictionaries in which
1352 1352 IPython might store a user-created object.
1353 1353
1354 1354 Note that this does not include the displayhook, which also caches
1355 1355 objects from the output."""
1356 1356 return [self.user_ns, self.user_global_ns, self.user_ns_hidden] + \
1357 1357 [m.__dict__ for m in self._main_mod_cache.values()]
1358 1358
1359 1359 def reset(self, new_session=True, aggressive=False):
1360 1360 """Clear all internal namespaces, and attempt to release references to
1361 1361 user objects.
1362 1362
1363 1363 If new_session is True, a new history session will be opened.
1364 1364 """
1365 1365 # Clear histories
1366 1366 self.history_manager.reset(new_session)
1367 1367 # Reset counter used to index all histories
1368 1368 if new_session:
1369 1369 self.execution_count = 1
1370 1370
1371 1371 # Reset last execution result
1372 1372 self.last_execution_succeeded = True
1373 1373 self.last_execution_result = None
1374 1374
1375 1375 # Flush cached output items
1376 1376 if self.displayhook.do_full_cache:
1377 1377 self.displayhook.flush()
1378 1378
1379 1379 # The main execution namespaces must be cleared very carefully,
1380 1380 # skipping the deletion of the builtin-related keys, because doing so
1381 1381 # would cause errors in many object's __del__ methods.
1382 1382 if self.user_ns is not self.user_global_ns:
1383 1383 self.user_ns.clear()
1384 1384 ns = self.user_global_ns
1385 1385 drop_keys = set(ns.keys())
1386 1386 drop_keys.discard('__builtin__')
1387 1387 drop_keys.discard('__builtins__')
1388 1388 drop_keys.discard('__name__')
1389 1389 for k in drop_keys:
1390 1390 del ns[k]
1391 1391
1392 1392 self.user_ns_hidden.clear()
1393 1393
1394 1394 # Restore the user namespaces to minimal usability
1395 1395 self.init_user_ns()
1396 1396 if aggressive and not hasattr(self, "_sys_modules_keys"):
1397 1397 print("Cannot restore sys.module, no snapshot")
1398 1398 elif aggressive:
1399 1399 print("culling sys module...")
1400 1400 current_keys = set(sys.modules.keys())
1401 1401 for k in current_keys - self._sys_modules_keys:
1402 1402 if k.startswith("multiprocessing"):
1403 1403 continue
1404 1404 del sys.modules[k]
1405 1405
1406 1406 # Restore the default and user aliases
1407 1407 self.alias_manager.clear_aliases()
1408 1408 self.alias_manager.init_aliases()
1409 1409
1410 1410 # Now define aliases that only make sense on the terminal, because they
1411 1411 # need direct access to the console in a way that we can't emulate in
1412 1412 # GUI or web frontend
1413 1413 if os.name == 'posix':
1414 1414 for cmd in ('clear', 'more', 'less', 'man'):
1415 1415 if cmd not in self.magics_manager.magics['line']:
1416 1416 self.alias_manager.soft_define_alias(cmd, cmd)
1417 1417
1418 1418 # Flush the private list of module references kept for script
1419 1419 # execution protection
1420 1420 self.clear_main_mod_cache()
1421 1421
1422 1422 def del_var(self, varname, by_name=False):
1423 1423 """Delete a variable from the various namespaces, so that, as
1424 1424 far as possible, we're not keeping any hidden references to it.
1425 1425
1426 1426 Parameters
1427 1427 ----------
1428 1428 varname : str
1429 1429 The name of the variable to delete.
1430 1430 by_name : bool
1431 1431 If True, delete variables with the given name in each
1432 1432 namespace. If False (default), find the variable in the user
1433 1433 namespace, and delete references to it.
1434 1434 """
1435 1435 if varname in ('__builtin__', '__builtins__'):
1436 1436 raise ValueError("Refusing to delete %s" % varname)
1437 1437
1438 1438 ns_refs = self.all_ns_refs
1439 1439
1440 1440 if by_name: # Delete by name
1441 1441 for ns in ns_refs:
1442 1442 try:
1443 1443 del ns[varname]
1444 1444 except KeyError:
1445 1445 pass
1446 1446 else: # Delete by object
1447 1447 try:
1448 1448 obj = self.user_ns[varname]
1449 1449 except KeyError as e:
1450 1450 raise NameError("name '%s' is not defined" % varname) from e
1451 1451 # Also check in output history
1452 1452 ns_refs.append(self.history_manager.output_hist)
1453 1453 for ns in ns_refs:
1454 1454 to_delete = [n for n, o in ns.items() if o is obj]
1455 1455 for name in to_delete:
1456 1456 del ns[name]
1457 1457
1458 1458 # Ensure it is removed from the last execution result
1459 1459 if self.last_execution_result.result is obj:
1460 1460 self.last_execution_result = None
1461 1461
1462 1462 # displayhook keeps extra references, but not in a dictionary
1463 1463 for name in ('_', '__', '___'):
1464 1464 if getattr(self.displayhook, name) is obj:
1465 1465 setattr(self.displayhook, name, None)
1466 1466
1467 1467 def reset_selective(self, regex=None):
1468 1468 """Clear selective variables from internal namespaces based on a
1469 1469 specified regular expression.
1470 1470
1471 1471 Parameters
1472 1472 ----------
1473 1473 regex : string or compiled pattern, optional
1474 1474 A regular expression pattern that will be used in searching
1475 1475 variable names in the users namespaces.
1476 1476 """
1477 1477 if regex is not None:
1478 1478 try:
1479 1479 m = re.compile(regex)
1480 1480 except TypeError as e:
1481 1481 raise TypeError('regex must be a string or compiled pattern') from e
1482 1482 # Search for keys in each namespace that match the given regex
1483 1483 # If a match is found, delete the key/value pair.
1484 1484 for ns in self.all_ns_refs:
1485 1485 for var in ns:
1486 1486 if m.search(var):
1487 1487 del ns[var]
1488 1488
1489 1489 def push(self, variables, interactive=True):
1490 1490 """Inject a group of variables into the IPython user namespace.
1491 1491
1492 1492 Parameters
1493 1493 ----------
1494 1494 variables : dict, str or list/tuple of str
1495 1495 The variables to inject into the user's namespace. If a dict, a
1496 1496 simple update is done. If a str, the string is assumed to have
1497 1497 variable names separated by spaces. A list/tuple of str can also
1498 1498 be used to give the variable names. If just the variable names are
1499 1499 give (list/tuple/str) then the variable values looked up in the
1500 1500 callers frame.
1501 1501 interactive : bool
1502 1502 If True (default), the variables will be listed with the ``who``
1503 1503 magic.
1504 1504 """
1505 1505 vdict = None
1506 1506
1507 1507 # We need a dict of name/value pairs to do namespace updates.
1508 1508 if isinstance(variables, dict):
1509 1509 vdict = variables
1510 1510 elif isinstance(variables, (str, list, tuple)):
1511 1511 if isinstance(variables, str):
1512 1512 vlist = variables.split()
1513 1513 else:
1514 1514 vlist = variables
1515 1515 vdict = {}
1516 1516 cf = sys._getframe(1)
1517 1517 for name in vlist:
1518 1518 try:
1519 1519 vdict[name] = eval(name, cf.f_globals, cf.f_locals)
1520 1520 except:
1521 1521 print('Could not get variable %s from %s' %
1522 1522 (name,cf.f_code.co_name))
1523 1523 else:
1524 1524 raise ValueError('variables must be a dict/str/list/tuple')
1525 1525
1526 1526 # Propagate variables to user namespace
1527 1527 self.user_ns.update(vdict)
1528 1528
1529 1529 # And configure interactive visibility
1530 1530 user_ns_hidden = self.user_ns_hidden
1531 1531 if interactive:
1532 1532 for name in vdict:
1533 1533 user_ns_hidden.pop(name, None)
1534 1534 else:
1535 1535 user_ns_hidden.update(vdict)
1536 1536
1537 1537 def drop_by_id(self, variables):
1538 1538 """Remove a dict of variables from the user namespace, if they are the
1539 1539 same as the values in the dictionary.
1540 1540
1541 1541 This is intended for use by extensions: variables that they've added can
1542 1542 be taken back out if they are unloaded, without removing any that the
1543 1543 user has overwritten.
1544 1544
1545 1545 Parameters
1546 1546 ----------
1547 1547 variables : dict
1548 1548 A dictionary mapping object names (as strings) to the objects.
1549 1549 """
1550 1550 for name, obj in variables.items():
1551 1551 if name in self.user_ns and self.user_ns[name] is obj:
1552 1552 del self.user_ns[name]
1553 1553 self.user_ns_hidden.pop(name, None)
1554 1554
1555 1555 #-------------------------------------------------------------------------
1556 1556 # Things related to object introspection
1557 1557 #-------------------------------------------------------------------------
1558 1558
1559 1559 def _ofind(self, oname, namespaces=None):
1560 1560 """Find an object in the available namespaces.
1561 1561
1562 1562 self._ofind(oname) -> dict with keys: found,obj,ospace,ismagic
1563 1563
1564 1564 Has special code to detect magic functions.
1565 1565 """
1566 1566 oname = oname.strip()
1567 1567 raw_parts = oname.split(".")
1568 1568 parts = []
1569 1569 parts_ok = True
1570 1570 for p in raw_parts:
1571 1571 if p.endswith("]"):
1572 1572 var, *indices = p.split("[")
1573 1573 if not var.isidentifier():
1574 1574 parts_ok = False
1575 1575 break
1576 1576 parts.append(var)
1577 1577 for ind in indices:
1578 1578 if ind[-1] != "]" and not is_integer_string(ind[:-1]):
1579 1579 parts_ok = False
1580 1580 break
1581 1581 parts.append(ind[:-1])
1582 1582 continue
1583 1583
1584 1584 if not p.isidentifier():
1585 1585 parts_ok = False
1586 1586 parts.append(p)
1587 1587
1588 1588 if (
1589 1589 not oname.startswith(ESC_MAGIC)
1590 1590 and not oname.startswith(ESC_MAGIC2)
1591 1591 and not parts_ok
1592 1592 ):
1593 1593 return {"found": False}
1594 1594
1595 1595 if namespaces is None:
1596 1596 # Namespaces to search in:
1597 1597 # Put them in a list. The order is important so that we
1598 1598 # find things in the same order that Python finds them.
1599 1599 namespaces = [ ('Interactive', self.user_ns),
1600 1600 ('Interactive (global)', self.user_global_ns),
1601 1601 ('Python builtin', builtin_mod.__dict__),
1602 1602 ]
1603 1603
1604 1604 ismagic = False
1605 1605 isalias = False
1606 1606 found = False
1607 1607 ospace = None
1608 1608 parent = None
1609 1609 obj = None
1610 1610
1611 1611
1612 1612 # Look for the given name by splitting it in parts. If the head is
1613 1613 # found, then we look for all the remaining parts as members, and only
1614 1614 # declare success if we can find them all.
1615 1615 oname_parts = parts
1616 1616 oname_head, oname_rest = oname_parts[0],oname_parts[1:]
1617 1617 for nsname,ns in namespaces:
1618 1618 try:
1619 1619 obj = ns[oname_head]
1620 1620 except KeyError:
1621 1621 continue
1622 1622 else:
1623 1623 for idx, part in enumerate(oname_rest):
1624 1624 try:
1625 1625 parent = obj
1626 1626 # The last part is looked up in a special way to avoid
1627 1627 # descriptor invocation as it may raise or have side
1628 1628 # effects.
1629 1629 if idx == len(oname_rest) - 1:
1630 1630 obj = self._getattr_property(obj, part)
1631 1631 else:
1632 1632 if is_integer_string(part):
1633 1633 obj = obj[int(part)]
1634 1634 else:
1635 1635 obj = getattr(obj, part)
1636 1636 except:
1637 1637 # Blanket except b/c some badly implemented objects
1638 1638 # allow __getattr__ to raise exceptions other than
1639 1639 # AttributeError, which then crashes IPython.
1640 1640 break
1641 1641 else:
1642 1642 # If we finish the for loop (no break), we got all members
1643 1643 found = True
1644 1644 ospace = nsname
1645 1645 break # namespace loop
1646 1646
1647 1647 # Try to see if it's magic
1648 1648 if not found:
1649 1649 obj = None
1650 1650 if oname.startswith(ESC_MAGIC2):
1651 1651 oname = oname.lstrip(ESC_MAGIC2)
1652 1652 obj = self.find_cell_magic(oname)
1653 1653 elif oname.startswith(ESC_MAGIC):
1654 1654 oname = oname.lstrip(ESC_MAGIC)
1655 1655 obj = self.find_line_magic(oname)
1656 1656 else:
1657 1657 # search without prefix, so run? will find %run?
1658 1658 obj = self.find_line_magic(oname)
1659 1659 if obj is None:
1660 1660 obj = self.find_cell_magic(oname)
1661 1661 if obj is not None:
1662 1662 found = True
1663 1663 ospace = 'IPython internal'
1664 1664 ismagic = True
1665 1665 isalias = isinstance(obj, Alias)
1666 1666
1667 1667 # Last try: special-case some literals like '', [], {}, etc:
1668 1668 if not found and oname_head in ["''",'""','[]','{}','()']:
1669 1669 obj = eval(oname_head)
1670 1670 found = True
1671 1671 ospace = 'Interactive'
1672 1672
1673 1673 return {
1674 1674 'obj':obj,
1675 1675 'found':found,
1676 1676 'parent':parent,
1677 1677 'ismagic':ismagic,
1678 1678 'isalias':isalias,
1679 1679 'namespace':ospace
1680 1680 }
1681 1681
1682 1682 @staticmethod
1683 1683 def _getattr_property(obj, attrname):
1684 1684 """Property-aware getattr to use in object finding.
1685 1685
1686 1686 If attrname represents a property, return it unevaluated (in case it has
1687 1687 side effects or raises an error.
1688 1688
1689 1689 """
1690 1690 if not isinstance(obj, type):
1691 1691 try:
1692 1692 # `getattr(type(obj), attrname)` is not guaranteed to return
1693 1693 # `obj`, but does so for property:
1694 1694 #
1695 1695 # property.__get__(self, None, cls) -> self
1696 1696 #
1697 1697 # The universal alternative is to traverse the mro manually
1698 1698 # searching for attrname in class dicts.
1699 1699 if is_integer_string(attrname):
1700 1700 return obj[int(attrname)]
1701 1701 else:
1702 1702 attr = getattr(type(obj), attrname)
1703 1703 except AttributeError:
1704 1704 pass
1705 1705 else:
1706 1706 # This relies on the fact that data descriptors (with both
1707 1707 # __get__ & __set__ magic methods) take precedence over
1708 1708 # instance-level attributes:
1709 1709 #
1710 1710 # class A(object):
1711 1711 # @property
1712 1712 # def foobar(self): return 123
1713 1713 # a = A()
1714 1714 # a.__dict__['foobar'] = 345
1715 1715 # a.foobar # == 123
1716 1716 #
1717 1717 # So, a property may be returned right away.
1718 1718 if isinstance(attr, property):
1719 1719 return attr
1720 1720
1721 1721 # Nothing helped, fall back.
1722 1722 return getattr(obj, attrname)
1723 1723
1724 1724 def _object_find(self, oname, namespaces=None):
1725 1725 """Find an object and return a struct with info about it."""
1726 1726 return Struct(self._ofind(oname, namespaces))
1727 1727
1728 1728 def _inspect(self, meth, oname, namespaces=None, **kw):
1729 1729 """Generic interface to the inspector system.
1730 1730
1731 1731 This function is meant to be called by pdef, pdoc & friends.
1732 1732 """
1733 1733 info = self._object_find(oname, namespaces)
1734 1734 docformat = (
1735 1735 sphinxify(self.object_inspect(oname)) if self.sphinxify_docstring else None
1736 1736 )
1737 1737 if info.found:
1738 1738 pmethod = getattr(self.inspector, meth)
1739 1739 # TODO: only apply format_screen to the plain/text repr of the mime
1740 1740 # bundle.
1741 1741 formatter = format_screen if info.ismagic else docformat
1742 1742 if meth == 'pdoc':
1743 1743 pmethod(info.obj, oname, formatter)
1744 1744 elif meth == 'pinfo':
1745 1745 pmethod(
1746 1746 info.obj,
1747 1747 oname,
1748 1748 formatter,
1749 1749 info,
1750 1750 enable_html_pager=self.enable_html_pager,
1751 1751 **kw,
1752 1752 )
1753 1753 else:
1754 1754 pmethod(info.obj, oname)
1755 1755 else:
1756 1756 print('Object `%s` not found.' % oname)
1757 1757 return 'not found' # so callers can take other action
1758 1758
1759 1759 def object_inspect(self, oname, detail_level=0):
1760 1760 """Get object info about oname"""
1761 1761 with self.builtin_trap:
1762 1762 info = self._object_find(oname)
1763 1763 if info.found:
1764 1764 return self.inspector.info(info.obj, oname, info=info,
1765 1765 detail_level=detail_level
1766 1766 )
1767 1767 else:
1768 1768 return oinspect.object_info(name=oname, found=False)
1769 1769
1770 1770 def object_inspect_text(self, oname, detail_level=0):
1771 1771 """Get object info as formatted text"""
1772 1772 return self.object_inspect_mime(oname, detail_level)['text/plain']
1773 1773
1774 1774 def object_inspect_mime(self, oname, detail_level=0, omit_sections=()):
1775 1775 """Get object info as a mimebundle of formatted representations.
1776 1776
1777 1777 A mimebundle is a dictionary, keyed by mime-type.
1778 1778 It must always have the key `'text/plain'`.
1779 1779 """
1780 1780 with self.builtin_trap:
1781 1781 info = self._object_find(oname)
1782 1782 if info.found:
1783 1783 docformat = (
1784 1784 sphinxify(self.object_inspect(oname))
1785 1785 if self.sphinxify_docstring
1786 1786 else None
1787 1787 )
1788 1788 return self.inspector._get_info(
1789 1789 info.obj,
1790 1790 oname,
1791 1791 info=info,
1792 1792 detail_level=detail_level,
1793 1793 formatter=docformat,
1794 1794 omit_sections=omit_sections,
1795 1795 )
1796 1796 else:
1797 1797 raise KeyError(oname)
1798 1798
1799 1799 #-------------------------------------------------------------------------
1800 1800 # Things related to history management
1801 1801 #-------------------------------------------------------------------------
1802 1802
1803 1803 def init_history(self):
1804 1804 """Sets up the command history, and starts regular autosaves."""
1805 1805 self.history_manager = HistoryManager(shell=self, parent=self)
1806 1806 self.configurables.append(self.history_manager)
1807 1807
1808 1808 #-------------------------------------------------------------------------
1809 1809 # Things related to exception handling and tracebacks (not debugging)
1810 1810 #-------------------------------------------------------------------------
1811 1811
1812 1812 debugger_cls = InterruptiblePdb
1813 1813
1814 1814 def init_traceback_handlers(self, custom_exceptions):
1815 1815 # Syntax error handler.
1816 1816 self.SyntaxTB = ultratb.SyntaxTB(color_scheme='NoColor', parent=self)
1817 1817
1818 1818 # The interactive one is initialized with an offset, meaning we always
1819 1819 # want to remove the topmost item in the traceback, which is our own
1820 1820 # internal code. Valid modes: ['Plain','Context','Verbose','Minimal']
1821 1821 self.InteractiveTB = ultratb.AutoFormattedTB(mode = 'Plain',
1822 1822 color_scheme='NoColor',
1823 1823 tb_offset = 1,
1824 1824 debugger_cls=self.debugger_cls, parent=self)
1825 1825
1826 1826 # The instance will store a pointer to the system-wide exception hook,
1827 1827 # so that runtime code (such as magics) can access it. This is because
1828 1828 # during the read-eval loop, it may get temporarily overwritten.
1829 1829 self.sys_excepthook = sys.excepthook
1830 1830
1831 1831 # and add any custom exception handlers the user may have specified
1832 1832 self.set_custom_exc(*custom_exceptions)
1833 1833
1834 1834 # Set the exception mode
1835 1835 self.InteractiveTB.set_mode(mode=self.xmode)
1836 1836
1837 1837 def set_custom_exc(self, exc_tuple, handler):
1838 1838 """set_custom_exc(exc_tuple, handler)
1839 1839
1840 1840 Set a custom exception handler, which will be called if any of the
1841 1841 exceptions in exc_tuple occur in the mainloop (specifically, in the
1842 1842 run_code() method).
1843 1843
1844 1844 Parameters
1845 1845 ----------
1846 1846 exc_tuple : tuple of exception classes
1847 1847 A *tuple* of exception classes, for which to call the defined
1848 1848 handler. It is very important that you use a tuple, and NOT A
1849 1849 LIST here, because of the way Python's except statement works. If
1850 1850 you only want to trap a single exception, use a singleton tuple::
1851 1851
1852 1852 exc_tuple == (MyCustomException,)
1853 1853
1854 1854 handler : callable
1855 1855 handler must have the following signature::
1856 1856
1857 1857 def my_handler(self, etype, value, tb, tb_offset=None):
1858 1858 ...
1859 1859 return structured_traceback
1860 1860
1861 1861 Your handler must return a structured traceback (a list of strings),
1862 1862 or None.
1863 1863
1864 1864 This will be made into an instance method (via types.MethodType)
1865 1865 of IPython itself, and it will be called if any of the exceptions
1866 1866 listed in the exc_tuple are caught. If the handler is None, an
1867 1867 internal basic one is used, which just prints basic info.
1868 1868
1869 1869 To protect IPython from crashes, if your handler ever raises an
1870 1870 exception or returns an invalid result, it will be immediately
1871 1871 disabled.
1872 1872
1873 1873 Notes
1874 1874 -----
1875 1875 WARNING: by putting in your own exception handler into IPython's main
1876 1876 execution loop, you run a very good chance of nasty crashes. This
1877 1877 facility should only be used if you really know what you are doing.
1878 1878 """
1879 1879
1880 1880 if not isinstance(exc_tuple, tuple):
1881 1881 raise TypeError("The custom exceptions must be given as a tuple.")
1882 1882
1883 1883 def dummy_handler(self, etype, value, tb, tb_offset=None):
1884 1884 print('*** Simple custom exception handler ***')
1885 1885 print('Exception type :', etype)
1886 1886 print('Exception value:', value)
1887 1887 print('Traceback :', tb)
1888 1888
1889 1889 def validate_stb(stb):
1890 1890 """validate structured traceback return type
1891 1891
1892 1892 return type of CustomTB *should* be a list of strings, but allow
1893 1893 single strings or None, which are harmless.
1894 1894
1895 1895 This function will *always* return a list of strings,
1896 1896 and will raise a TypeError if stb is inappropriate.
1897 1897 """
1898 1898 msg = "CustomTB must return list of strings, not %r" % stb
1899 1899 if stb is None:
1900 1900 return []
1901 1901 elif isinstance(stb, str):
1902 1902 return [stb]
1903 1903 elif not isinstance(stb, list):
1904 1904 raise TypeError(msg)
1905 1905 # it's a list
1906 1906 for line in stb:
1907 1907 # check every element
1908 1908 if not isinstance(line, str):
1909 1909 raise TypeError(msg)
1910 1910 return stb
1911 1911
1912 1912 if handler is None:
1913 1913 wrapped = dummy_handler
1914 1914 else:
1915 1915 def wrapped(self,etype,value,tb,tb_offset=None):
1916 1916 """wrap CustomTB handler, to protect IPython from user code
1917 1917
1918 1918 This makes it harder (but not impossible) for custom exception
1919 1919 handlers to crash IPython.
1920 1920 """
1921 1921 try:
1922 1922 stb = handler(self,etype,value,tb,tb_offset=tb_offset)
1923 1923 return validate_stb(stb)
1924 1924 except:
1925 1925 # clear custom handler immediately
1926 1926 self.set_custom_exc((), None)
1927 1927 print("Custom TB Handler failed, unregistering", file=sys.stderr)
1928 1928 # show the exception in handler first
1929 1929 stb = self.InteractiveTB.structured_traceback(*sys.exc_info())
1930 1930 print(self.InteractiveTB.stb2text(stb))
1931 1931 print("The original exception:")
1932 1932 stb = self.InteractiveTB.structured_traceback(
1933 1933 (etype,value,tb), tb_offset=tb_offset
1934 1934 )
1935 1935 return stb
1936 1936
1937 1937 self.CustomTB = types.MethodType(wrapped,self)
1938 1938 self.custom_exceptions = exc_tuple
1939 1939
1940 1940 def excepthook(self, etype, value, tb):
1941 1941 """One more defense for GUI apps that call sys.excepthook.
1942 1942
1943 1943 GUI frameworks like wxPython trap exceptions and call
1944 1944 sys.excepthook themselves. I guess this is a feature that
1945 1945 enables them to keep running after exceptions that would
1946 1946 otherwise kill their mainloop. This is a bother for IPython
1947 1947 which expects to catch all of the program exceptions with a try:
1948 1948 except: statement.
1949 1949
1950 1950 Normally, IPython sets sys.excepthook to a CrashHandler instance, so if
1951 1951 any app directly invokes sys.excepthook, it will look to the user like
1952 1952 IPython crashed. In order to work around this, we can disable the
1953 1953 CrashHandler and replace it with this excepthook instead, which prints a
1954 1954 regular traceback using our InteractiveTB. In this fashion, apps which
1955 1955 call sys.excepthook will generate a regular-looking exception from
1956 1956 IPython, and the CrashHandler will only be triggered by real IPython
1957 1957 crashes.
1958 1958
1959 1959 This hook should be used sparingly, only in places which are not likely
1960 1960 to be true IPython errors.
1961 1961 """
1962 1962 self.showtraceback((etype, value, tb), tb_offset=0)
1963 1963
1964 1964 def _get_exc_info(self, exc_tuple=None):
1965 1965 """get exc_info from a given tuple, sys.exc_info() or sys.last_type etc.
1966 1966
1967 1967 Ensures sys.last_type,value,traceback hold the exc_info we found,
1968 1968 from whichever source.
1969 1969
1970 1970 raises ValueError if none of these contain any information
1971 1971 """
1972 1972 if exc_tuple is None:
1973 1973 etype, value, tb = sys.exc_info()
1974 1974 else:
1975 1975 etype, value, tb = exc_tuple
1976 1976
1977 1977 if etype is None:
1978 1978 if hasattr(sys, 'last_type'):
1979 1979 etype, value, tb = sys.last_type, sys.last_value, \
1980 1980 sys.last_traceback
1981 1981
1982 1982 if etype is None:
1983 1983 raise ValueError("No exception to find")
1984 1984
1985 1985 # Now store the exception info in sys.last_type etc.
1986 1986 # WARNING: these variables are somewhat deprecated and not
1987 1987 # necessarily safe to use in a threaded environment, but tools
1988 1988 # like pdb depend on their existence, so let's set them. If we
1989 1989 # find problems in the field, we'll need to revisit their use.
1990 1990 sys.last_type = etype
1991 1991 sys.last_value = value
1992 1992 sys.last_traceback = tb
1993 1993
1994 1994 return etype, value, tb
1995 1995
1996 1996 def show_usage_error(self, exc):
1997 1997 """Show a short message for UsageErrors
1998 1998
1999 1999 These are special exceptions that shouldn't show a traceback.
2000 2000 """
2001 2001 print("UsageError: %s" % exc, file=sys.stderr)
2002 2002
2003 2003 def get_exception_only(self, exc_tuple=None):
2004 2004 """
2005 2005 Return as a string (ending with a newline) the exception that
2006 2006 just occurred, without any traceback.
2007 2007 """
2008 2008 etype, value, tb = self._get_exc_info(exc_tuple)
2009 2009 msg = traceback.format_exception_only(etype, value)
2010 2010 return ''.join(msg)
2011 2011
2012 2012 def showtraceback(self, exc_tuple=None, filename=None, tb_offset=None,
2013 2013 exception_only=False, running_compiled_code=False):
2014 2014 """Display the exception that just occurred.
2015 2015
2016 2016 If nothing is known about the exception, this is the method which
2017 2017 should be used throughout the code for presenting user tracebacks,
2018 2018 rather than directly invoking the InteractiveTB object.
2019 2019
2020 2020 A specific showsyntaxerror() also exists, but this method can take
2021 2021 care of calling it if needed, so unless you are explicitly catching a
2022 2022 SyntaxError exception, don't try to analyze the stack manually and
2023 2023 simply call this method."""
2024 2024
2025 2025 try:
2026 2026 try:
2027 2027 etype, value, tb = self._get_exc_info(exc_tuple)
2028 2028 except ValueError:
2029 2029 print('No traceback available to show.', file=sys.stderr)
2030 2030 return
2031 2031
2032 2032 if issubclass(etype, SyntaxError):
2033 2033 # Though this won't be called by syntax errors in the input
2034 2034 # line, there may be SyntaxError cases with imported code.
2035 2035 self.showsyntaxerror(filename, running_compiled_code)
2036 2036 elif etype is UsageError:
2037 2037 self.show_usage_error(value)
2038 2038 else:
2039 2039 if exception_only:
2040 2040 stb = ['An exception has occurred, use %tb to see '
2041 2041 'the full traceback.\n']
2042 2042 stb.extend(self.InteractiveTB.get_exception_only(etype,
2043 2043 value))
2044 2044 else:
2045 2045 try:
2046 2046 # Exception classes can customise their traceback - we
2047 2047 # use this in IPython.parallel for exceptions occurring
2048 2048 # in the engines. This should return a list of strings.
2049 2049 if hasattr(value, "_render_traceback_"):
2050 2050 stb = value._render_traceback_()
2051 2051 else:
2052 2052 stb = self.InteractiveTB.structured_traceback(
2053 2053 etype, value, tb, tb_offset=tb_offset
2054 2054 )
2055 2055
2056 2056 except Exception:
2057 2057 print(
2058 2058 "Unexpected exception formatting exception. Falling back to standard exception"
2059 2059 )
2060 2060 traceback.print_exc()
2061 2061 return None
2062 2062
2063 2063 self._showtraceback(etype, value, stb)
2064 2064 if self.call_pdb:
2065 2065 # drop into debugger
2066 2066 self.debugger(force=True)
2067 2067 return
2068 2068
2069 2069 # Actually show the traceback
2070 2070 self._showtraceback(etype, value, stb)
2071 2071
2072 2072 except KeyboardInterrupt:
2073 2073 print('\n' + self.get_exception_only(), file=sys.stderr)
2074 2074
2075 2075 def _showtraceback(self, etype, evalue, stb: str):
2076 2076 """Actually show a traceback.
2077 2077
2078 2078 Subclasses may override this method to put the traceback on a different
2079 2079 place, like a side channel.
2080 2080 """
2081 2081 val = self.InteractiveTB.stb2text(stb)
2082 2082 try:
2083 2083 print(val)
2084 2084 except UnicodeEncodeError:
2085 2085 print(val.encode("utf-8", "backslashreplace").decode())
2086 2086
2087 2087 def showsyntaxerror(self, filename=None, running_compiled_code=False):
2088 2088 """Display the syntax error that just occurred.
2089 2089
2090 2090 This doesn't display a stack trace because there isn't one.
2091 2091
2092 2092 If a filename is given, it is stuffed in the exception instead
2093 2093 of what was there before (because Python's parser always uses
2094 2094 "<string>" when reading from a string).
2095 2095
2096 2096 If the syntax error occurred when running a compiled code (i.e. running_compile_code=True),
2097 2097 longer stack trace will be displayed.
2098 2098 """
2099 2099 etype, value, last_traceback = self._get_exc_info()
2100 2100
2101 2101 if filename and issubclass(etype, SyntaxError):
2102 2102 try:
2103 2103 value.filename = filename
2104 2104 except:
2105 2105 # Not the format we expect; leave it alone
2106 2106 pass
2107 2107
2108 2108 # If the error occurred when executing compiled code, we should provide full stacktrace.
2109 2109 elist = traceback.extract_tb(last_traceback) if running_compiled_code else []
2110 2110 stb = self.SyntaxTB.structured_traceback(etype, value, elist)
2111 2111 self._showtraceback(etype, value, stb)
2112 2112
2113 2113 # This is overridden in TerminalInteractiveShell to show a message about
2114 2114 # the %paste magic.
2115 2115 def showindentationerror(self):
2116 2116 """Called by _run_cell when there's an IndentationError in code entered
2117 2117 at the prompt.
2118 2118
2119 2119 This is overridden in TerminalInteractiveShell to show a message about
2120 2120 the %paste magic."""
2121 2121 self.showsyntaxerror()
2122 2122
2123 2123 @skip_doctest
2124 2124 def set_next_input(self, s, replace=False):
2125 2125 """ Sets the 'default' input string for the next command line.
2126 2126
2127 2127 Example::
2128 2128
2129 2129 In [1]: _ip.set_next_input("Hello Word")
2130 2130 In [2]: Hello Word_ # cursor is here
2131 2131 """
2132 2132 self.rl_next_input = s
2133 2133
2134 2134 def _indent_current_str(self):
2135 2135 """return the current level of indentation as a string"""
2136 2136 return self.input_splitter.get_indent_spaces() * ' '
2137 2137
2138 2138 #-------------------------------------------------------------------------
2139 2139 # Things related to text completion
2140 2140 #-------------------------------------------------------------------------
2141 2141
2142 2142 def init_completer(self):
2143 2143 """Initialize the completion machinery.
2144 2144
2145 2145 This creates completion machinery that can be used by client code,
2146 2146 either interactively in-process (typically triggered by the readline
2147 2147 library), programmatically (such as in test suites) or out-of-process
2148 2148 (typically over the network by remote frontends).
2149 2149 """
2150 2150 from IPython.core.completer import IPCompleter
2151 2151 from IPython.core.completerlib import (
2152 2152 cd_completer,
2153 2153 magic_run_completer,
2154 2154 module_completer,
2155 2155 reset_completer,
2156 2156 )
2157 2157
2158 2158 self.Completer = IPCompleter(shell=self,
2159 2159 namespace=self.user_ns,
2160 2160 global_namespace=self.user_global_ns,
2161 2161 parent=self,
2162 2162 )
2163 2163 self.configurables.append(self.Completer)
2164 2164
2165 2165 # Add custom completers to the basic ones built into IPCompleter
2166 2166 sdisp = self.strdispatchers.get('complete_command', StrDispatch())
2167 2167 self.strdispatchers['complete_command'] = sdisp
2168 2168 self.Completer.custom_completers = sdisp
2169 2169
2170 2170 self.set_hook('complete_command', module_completer, str_key = 'import')
2171 2171 self.set_hook('complete_command', module_completer, str_key = 'from')
2172 2172 self.set_hook('complete_command', module_completer, str_key = '%aimport')
2173 2173 self.set_hook('complete_command', magic_run_completer, str_key = '%run')
2174 2174 self.set_hook('complete_command', cd_completer, str_key = '%cd')
2175 2175 self.set_hook('complete_command', reset_completer, str_key = '%reset')
2176 2176
2177 2177 @skip_doctest
2178 2178 def complete(self, text, line=None, cursor_pos=None):
2179 2179 """Return the completed text and a list of completions.
2180 2180
2181 2181 Parameters
2182 2182 ----------
2183 2183 text : string
2184 2184 A string of text to be completed on. It can be given as empty and
2185 2185 instead a line/position pair are given. In this case, the
2186 2186 completer itself will split the line like readline does.
2187 2187 line : string, optional
2188 2188 The complete line that text is part of.
2189 2189 cursor_pos : int, optional
2190 2190 The position of the cursor on the input line.
2191 2191
2192 2192 Returns
2193 2193 -------
2194 2194 text : string
2195 2195 The actual text that was completed.
2196 2196 matches : list
2197 2197 A sorted list with all possible completions.
2198 2198
2199 2199 Notes
2200 2200 -----
2201 2201 The optional arguments allow the completion to take more context into
2202 2202 account, and are part of the low-level completion API.
2203 2203
2204 2204 This is a wrapper around the completion mechanism, similar to what
2205 2205 readline does at the command line when the TAB key is hit. By
2206 2206 exposing it as a method, it can be used by other non-readline
2207 2207 environments (such as GUIs) for text completion.
2208 2208
2209 2209 Examples
2210 2210 --------
2211 2211 In [1]: x = 'hello'
2212 2212
2213 2213 In [2]: _ip.complete('x.l')
2214 2214 Out[2]: ('x.l', ['x.ljust', 'x.lower', 'x.lstrip'])
2215 2215 """
2216 2216
2217 2217 # Inject names into __builtin__ so we can complete on the added names.
2218 2218 with self.builtin_trap:
2219 2219 return self.Completer.complete(text, line, cursor_pos)
2220 2220
2221 2221 def set_custom_completer(self, completer, pos=0) -> None:
2222 2222 """Adds a new custom completer function.
2223 2223
2224 2224 The position argument (defaults to 0) is the index in the completers
2225 2225 list where you want the completer to be inserted.
2226 2226
2227 2227 `completer` should have the following signature::
2228 2228
2229 2229 def completion(self: Completer, text: string) -> List[str]:
2230 2230 raise NotImplementedError
2231 2231
2232 2232 It will be bound to the current Completer instance and pass some text
2233 2233 and return a list with current completions to suggest to the user.
2234 2234 """
2235 2235
2236 2236 newcomp = types.MethodType(completer, self.Completer)
2237 2237 self.Completer.custom_matchers.insert(pos,newcomp)
2238 2238
2239 2239 def set_completer_frame(self, frame=None):
2240 2240 """Set the frame of the completer."""
2241 2241 if frame:
2242 2242 self.Completer.namespace = frame.f_locals
2243 2243 self.Completer.global_namespace = frame.f_globals
2244 2244 else:
2245 2245 self.Completer.namespace = self.user_ns
2246 2246 self.Completer.global_namespace = self.user_global_ns
2247 2247
2248 2248 #-------------------------------------------------------------------------
2249 2249 # Things related to magics
2250 2250 #-------------------------------------------------------------------------
2251 2251
2252 2252 def init_magics(self):
2253 2253 from IPython.core import magics as m
2254 2254 self.magics_manager = magic.MagicsManager(shell=self,
2255 2255 parent=self,
2256 2256 user_magics=m.UserMagics(self))
2257 2257 self.configurables.append(self.magics_manager)
2258 2258
2259 2259 # Expose as public API from the magics manager
2260 2260 self.register_magics = self.magics_manager.register
2261 2261
2262 2262 self.register_magics(m.AutoMagics, m.BasicMagics, m.CodeMagics,
2263 2263 m.ConfigMagics, m.DisplayMagics, m.ExecutionMagics,
2264 2264 m.ExtensionMagics, m.HistoryMagics, m.LoggingMagics,
2265 2265 m.NamespaceMagics, m.OSMagics, m.PackagingMagics,
2266 2266 m.PylabMagics, m.ScriptMagics,
2267 2267 )
2268 2268 self.register_magics(m.AsyncMagics)
2269 2269
2270 2270 # Register Magic Aliases
2271 2271 mman = self.magics_manager
2272 2272 # FIXME: magic aliases should be defined by the Magics classes
2273 2273 # or in MagicsManager, not here
2274 2274 mman.register_alias('ed', 'edit')
2275 2275 mman.register_alias('hist', 'history')
2276 2276 mman.register_alias('rep', 'recall')
2277 2277 mman.register_alias('SVG', 'svg', 'cell')
2278 2278 mman.register_alias('HTML', 'html', 'cell')
2279 2279 mman.register_alias('file', 'writefile', 'cell')
2280 2280
2281 2281 # FIXME: Move the color initialization to the DisplayHook, which
2282 2282 # should be split into a prompt manager and displayhook. We probably
2283 2283 # even need a centralize colors management object.
2284 2284 self.run_line_magic('colors', self.colors)
2285 2285
2286 2286 # Defined here so that it's included in the documentation
2287 2287 @functools.wraps(magic.MagicsManager.register_function)
2288 2288 def register_magic_function(self, func, magic_kind='line', magic_name=None):
2289 2289 self.magics_manager.register_function(
2290 2290 func, magic_kind=magic_kind, magic_name=magic_name
2291 2291 )
2292 2292
2293 2293 def _find_with_lazy_load(self, /, type_, magic_name: str):
2294 2294 """
2295 2295 Try to find a magic potentially lazy-loading it.
2296 2296
2297 2297 Parameters
2298 2298 ----------
2299 2299
2300 2300 type_: "line"|"cell"
2301 2301 the type of magics we are trying to find/lazy load.
2302 2302 magic_name: str
2303 2303 The name of the magic we are trying to find/lazy load
2304 2304
2305 2305
2306 2306 Note that this may have any side effects
2307 2307 """
2308 2308 finder = {"line": self.find_line_magic, "cell": self.find_cell_magic}[type_]
2309 2309 fn = finder(magic_name)
2310 2310 if fn is not None:
2311 2311 return fn
2312 2312 lazy = self.magics_manager.lazy_magics.get(magic_name)
2313 2313 if lazy is None:
2314 2314 return None
2315 2315
2316 2316 self.run_line_magic("load_ext", lazy)
2317 2317 res = finder(magic_name)
2318 2318 return res
2319 2319
2320 2320 def run_line_magic(self, magic_name: str, line, _stack_depth=1):
2321 2321 """Execute the given line magic.
2322 2322
2323 2323 Parameters
2324 2324 ----------
2325 2325 magic_name : str
2326 2326 Name of the desired magic function, without '%' prefix.
2327 2327 line : str
2328 2328 The rest of the input line as a single string.
2329 2329 _stack_depth : int
2330 2330 If run_line_magic() is called from magic() then _stack_depth=2.
2331 2331 This is added to ensure backward compatibility for use of 'get_ipython().magic()'
2332 2332 """
2333 2333 fn = self._find_with_lazy_load("line", magic_name)
2334 2334 if fn is None:
2335 2335 lazy = self.magics_manager.lazy_magics.get(magic_name)
2336 2336 if lazy:
2337 2337 self.run_line_magic("load_ext", lazy)
2338 2338 fn = self.find_line_magic(magic_name)
2339 2339 if fn is None:
2340 2340 cm = self.find_cell_magic(magic_name)
2341 2341 etpl = "Line magic function `%%%s` not found%s."
2342 2342 extra = '' if cm is None else (' (But cell magic `%%%%%s` exists, '
2343 2343 'did you mean that instead?)' % magic_name )
2344 2344 raise UsageError(etpl % (magic_name, extra))
2345 2345 else:
2346 2346 # Note: this is the distance in the stack to the user's frame.
2347 2347 # This will need to be updated if the internal calling logic gets
2348 2348 # refactored, or else we'll be expanding the wrong variables.
2349 2349
2350 2350 # Determine stack_depth depending on where run_line_magic() has been called
2351 2351 stack_depth = _stack_depth
2352 2352 if getattr(fn, magic.MAGIC_NO_VAR_EXPAND_ATTR, False):
2353 2353 # magic has opted out of var_expand
2354 2354 magic_arg_s = line
2355 2355 else:
2356 2356 magic_arg_s = self.var_expand(line, stack_depth)
2357 2357 # Put magic args in a list so we can call with f(*a) syntax
2358 2358 args = [magic_arg_s]
2359 2359 kwargs = {}
2360 2360 # Grab local namespace if we need it:
2361 2361 if getattr(fn, "needs_local_scope", False):
2362 2362 kwargs['local_ns'] = self.get_local_scope(stack_depth)
2363 2363 with self.builtin_trap:
2364 2364 result = fn(*args, **kwargs)
2365
2366 # The code below prevents output from being displayed
2367 # when using magic %time.
2368 # Output from '%time foo();', for instance, would never
2369 # be displayed.
2370 if magic_name == 'time' and len(magic_arg_s) > 0 and magic_arg_s[-1] == ';':
2371 return None
2372
2365 2373 return result
2366 2374
2367 2375 def get_local_scope(self, stack_depth):
2368 2376 """Get local scope at given stack depth.
2369 2377
2370 2378 Parameters
2371 2379 ----------
2372 2380 stack_depth : int
2373 2381 Depth relative to calling frame
2374 2382 """
2375 2383 return sys._getframe(stack_depth + 1).f_locals
2376 2384
2377 2385 def run_cell_magic(self, magic_name, line, cell):
2378 2386 """Execute the given cell magic.
2379 2387
2380 2388 Parameters
2381 2389 ----------
2382 2390 magic_name : str
2383 2391 Name of the desired magic function, without '%' prefix.
2384 2392 line : str
2385 2393 The rest of the first input line as a single string.
2386 2394 cell : str
2387 2395 The body of the cell as a (possibly multiline) string.
2388 2396 """
2389 2397 fn = self._find_with_lazy_load("cell", magic_name)
2390 2398 if fn is None:
2391 2399 lm = self.find_line_magic(magic_name)
2392 2400 etpl = "Cell magic `%%{0}` not found{1}."
2393 2401 extra = '' if lm is None else (' (But line magic `%{0}` exists, '
2394 2402 'did you mean that instead?)'.format(magic_name))
2395 2403 raise UsageError(etpl.format(magic_name, extra))
2396 2404 elif cell == '':
2397 2405 message = '%%{0} is a cell magic, but the cell body is empty.'.format(magic_name)
2398 2406 if self.find_line_magic(magic_name) is not None:
2399 2407 message += ' Did you mean the line magic %{0} (single %)?'.format(magic_name)
2400 2408 raise UsageError(message)
2401 2409 else:
2402 2410 # Note: this is the distance in the stack to the user's frame.
2403 2411 # This will need to be updated if the internal calling logic gets
2404 2412 # refactored, or else we'll be expanding the wrong variables.
2405 2413 stack_depth = 2
2406 2414 if getattr(fn, magic.MAGIC_NO_VAR_EXPAND_ATTR, False):
2407 2415 # magic has opted out of var_expand
2408 2416 magic_arg_s = line
2409 2417 else:
2410 2418 magic_arg_s = self.var_expand(line, stack_depth)
2411 2419 kwargs = {}
2412 2420 if getattr(fn, "needs_local_scope", False):
2413 2421 kwargs['local_ns'] = self.user_ns
2414 2422
2415 2423 with self.builtin_trap:
2416 2424 args = (magic_arg_s, cell)
2417 2425 result = fn(*args, **kwargs)
2418 2426 return result
2419 2427
2420 2428 def find_line_magic(self, magic_name):
2421 2429 """Find and return a line magic by name.
2422 2430
2423 2431 Returns None if the magic isn't found."""
2424 2432 return self.magics_manager.magics['line'].get(magic_name)
2425 2433
2426 2434 def find_cell_magic(self, magic_name):
2427 2435 """Find and return a cell magic by name.
2428 2436
2429 2437 Returns None if the magic isn't found."""
2430 2438 return self.magics_manager.magics['cell'].get(magic_name)
2431 2439
2432 2440 def find_magic(self, magic_name, magic_kind='line'):
2433 2441 """Find and return a magic of the given type by name.
2434 2442
2435 2443 Returns None if the magic isn't found."""
2436 2444 return self.magics_manager.magics[magic_kind].get(magic_name)
2437 2445
2438 2446 def magic(self, arg_s):
2439 2447 """
2440 2448 DEPRECATED
2441 2449
2442 2450 Deprecated since IPython 0.13 (warning added in
2443 2451 8.1), use run_line_magic(magic_name, parameter_s).
2444 2452
2445 2453 Call a magic function by name.
2446 2454
2447 2455 Input: a string containing the name of the magic function to call and
2448 2456 any additional arguments to be passed to the magic.
2449 2457
2450 2458 magic('name -opt foo bar') is equivalent to typing at the ipython
2451 2459 prompt:
2452 2460
2453 2461 In[1]: %name -opt foo bar
2454 2462
2455 2463 To call a magic without arguments, simply use magic('name').
2456 2464
2457 2465 This provides a proper Python function to call IPython's magics in any
2458 2466 valid Python code you can type at the interpreter, including loops and
2459 2467 compound statements.
2460 2468 """
2461 2469 warnings.warn(
2462 2470 "`magic(...)` is deprecated since IPython 0.13 (warning added in "
2463 2471 "8.1), use run_line_magic(magic_name, parameter_s).",
2464 2472 DeprecationWarning,
2465 2473 stacklevel=2,
2466 2474 )
2467 2475 # TODO: should we issue a loud deprecation warning here?
2468 2476 magic_name, _, magic_arg_s = arg_s.partition(' ')
2469 2477 magic_name = magic_name.lstrip(prefilter.ESC_MAGIC)
2470 2478 return self.run_line_magic(magic_name, magic_arg_s, _stack_depth=2)
2471 2479
2472 2480 #-------------------------------------------------------------------------
2473 2481 # Things related to macros
2474 2482 #-------------------------------------------------------------------------
2475 2483
2476 2484 def define_macro(self, name, themacro):
2477 2485 """Define a new macro
2478 2486
2479 2487 Parameters
2480 2488 ----------
2481 2489 name : str
2482 2490 The name of the macro.
2483 2491 themacro : str or Macro
2484 2492 The action to do upon invoking the macro. If a string, a new
2485 2493 Macro object is created by passing the string to it.
2486 2494 """
2487 2495
2488 2496 from IPython.core import macro
2489 2497
2490 2498 if isinstance(themacro, str):
2491 2499 themacro = macro.Macro(themacro)
2492 2500 if not isinstance(themacro, macro.Macro):
2493 2501 raise ValueError('A macro must be a string or a Macro instance.')
2494 2502 self.user_ns[name] = themacro
2495 2503
2496 2504 #-------------------------------------------------------------------------
2497 2505 # Things related to the running of system commands
2498 2506 #-------------------------------------------------------------------------
2499 2507
2500 2508 def system_piped(self, cmd):
2501 2509 """Call the given cmd in a subprocess, piping stdout/err
2502 2510
2503 2511 Parameters
2504 2512 ----------
2505 2513 cmd : str
2506 2514 Command to execute (can not end in '&', as background processes are
2507 2515 not supported. Should not be a command that expects input
2508 2516 other than simple text.
2509 2517 """
2510 2518 if cmd.rstrip().endswith('&'):
2511 2519 # this is *far* from a rigorous test
2512 2520 # We do not support backgrounding processes because we either use
2513 2521 # pexpect or pipes to read from. Users can always just call
2514 2522 # os.system() or use ip.system=ip.system_raw
2515 2523 # if they really want a background process.
2516 2524 raise OSError("Background processes not supported.")
2517 2525
2518 2526 # we explicitly do NOT return the subprocess status code, because
2519 2527 # a non-None value would trigger :func:`sys.displayhook` calls.
2520 2528 # Instead, we store the exit_code in user_ns.
2521 2529 self.user_ns['_exit_code'] = system(self.var_expand(cmd, depth=1))
2522 2530
2523 2531 def system_raw(self, cmd):
2524 2532 """Call the given cmd in a subprocess using os.system on Windows or
2525 2533 subprocess.call using the system shell on other platforms.
2526 2534
2527 2535 Parameters
2528 2536 ----------
2529 2537 cmd : str
2530 2538 Command to execute.
2531 2539 """
2532 2540 cmd = self.var_expand(cmd, depth=1)
2533 2541 # warn if there is an IPython magic alternative.
2534 2542 main_cmd = cmd.split()[0]
2535 2543 has_magic_alternatives = ("pip", "conda", "cd")
2536 2544
2537 2545 if main_cmd in has_magic_alternatives:
2538 2546 warnings.warn(
2539 2547 (
2540 2548 "You executed the system command !{0} which may not work "
2541 2549 "as expected. Try the IPython magic %{0} instead."
2542 2550 ).format(main_cmd)
2543 2551 )
2544 2552
2545 2553 # protect os.system from UNC paths on Windows, which it can't handle:
2546 2554 if sys.platform == 'win32':
2547 2555 from IPython.utils._process_win32 import AvoidUNCPath
2548 2556 with AvoidUNCPath() as path:
2549 2557 if path is not None:
2550 2558 cmd = '"pushd %s &&"%s' % (path, cmd)
2551 2559 try:
2552 2560 ec = os.system(cmd)
2553 2561 except KeyboardInterrupt:
2554 2562 print('\n' + self.get_exception_only(), file=sys.stderr)
2555 2563 ec = -2
2556 2564 else:
2557 2565 # For posix the result of the subprocess.call() below is an exit
2558 2566 # code, which by convention is zero for success, positive for
2559 2567 # program failure. Exit codes above 128 are reserved for signals,
2560 2568 # and the formula for converting a signal to an exit code is usually
2561 2569 # signal_number+128. To more easily differentiate between exit
2562 2570 # codes and signals, ipython uses negative numbers. For instance
2563 2571 # since control-c is signal 2 but exit code 130, ipython's
2564 2572 # _exit_code variable will read -2. Note that some shells like
2565 2573 # csh and fish don't follow sh/bash conventions for exit codes.
2566 2574 executable = os.environ.get('SHELL', None)
2567 2575 try:
2568 2576 # Use env shell instead of default /bin/sh
2569 2577 ec = subprocess.call(cmd, shell=True, executable=executable)
2570 2578 except KeyboardInterrupt:
2571 2579 # intercept control-C; a long traceback is not useful here
2572 2580 print('\n' + self.get_exception_only(), file=sys.stderr)
2573 2581 ec = 130
2574 2582 if ec > 128:
2575 2583 ec = -(ec - 128)
2576 2584
2577 2585 # We explicitly do NOT return the subprocess status code, because
2578 2586 # a non-None value would trigger :func:`sys.displayhook` calls.
2579 2587 # Instead, we store the exit_code in user_ns. Note the semantics
2580 2588 # of _exit_code: for control-c, _exit_code == -signal.SIGNIT,
2581 2589 # but raising SystemExit(_exit_code) will give status 254!
2582 2590 self.user_ns['_exit_code'] = ec
2583 2591
2584 2592 # use piped system by default, because it is better behaved
2585 2593 system = system_piped
2586 2594
2587 2595 def getoutput(self, cmd, split=True, depth=0):
2588 2596 """Get output (possibly including stderr) from a subprocess.
2589 2597
2590 2598 Parameters
2591 2599 ----------
2592 2600 cmd : str
2593 2601 Command to execute (can not end in '&', as background processes are
2594 2602 not supported.
2595 2603 split : bool, optional
2596 2604 If True, split the output into an IPython SList. Otherwise, an
2597 2605 IPython LSString is returned. These are objects similar to normal
2598 2606 lists and strings, with a few convenience attributes for easier
2599 2607 manipulation of line-based output. You can use '?' on them for
2600 2608 details.
2601 2609 depth : int, optional
2602 2610 How many frames above the caller are the local variables which should
2603 2611 be expanded in the command string? The default (0) assumes that the
2604 2612 expansion variables are in the stack frame calling this function.
2605 2613 """
2606 2614 if cmd.rstrip().endswith('&'):
2607 2615 # this is *far* from a rigorous test
2608 2616 raise OSError("Background processes not supported.")
2609 2617 out = getoutput(self.var_expand(cmd, depth=depth+1))
2610 2618 if split:
2611 2619 out = SList(out.splitlines())
2612 2620 else:
2613 2621 out = LSString(out)
2614 2622 return out
2615 2623
2616 2624 #-------------------------------------------------------------------------
2617 2625 # Things related to aliases
2618 2626 #-------------------------------------------------------------------------
2619 2627
2620 2628 def init_alias(self):
2621 2629 self.alias_manager = AliasManager(shell=self, parent=self)
2622 2630 self.configurables.append(self.alias_manager)
2623 2631
2624 2632 #-------------------------------------------------------------------------
2625 2633 # Things related to extensions
2626 2634 #-------------------------------------------------------------------------
2627 2635
2628 2636 def init_extension_manager(self):
2629 2637 self.extension_manager = ExtensionManager(shell=self, parent=self)
2630 2638 self.configurables.append(self.extension_manager)
2631 2639
2632 2640 #-------------------------------------------------------------------------
2633 2641 # Things related to payloads
2634 2642 #-------------------------------------------------------------------------
2635 2643
2636 2644 def init_payload(self):
2637 2645 self.payload_manager = PayloadManager(parent=self)
2638 2646 self.configurables.append(self.payload_manager)
2639 2647
2640 2648 #-------------------------------------------------------------------------
2641 2649 # Things related to the prefilter
2642 2650 #-------------------------------------------------------------------------
2643 2651
2644 2652 def init_prefilter(self):
2645 2653 self.prefilter_manager = PrefilterManager(shell=self, parent=self)
2646 2654 self.configurables.append(self.prefilter_manager)
2647 2655 # Ultimately this will be refactored in the new interpreter code, but
2648 2656 # for now, we should expose the main prefilter method (there's legacy
2649 2657 # code out there that may rely on this).
2650 2658 self.prefilter = self.prefilter_manager.prefilter_lines
2651 2659
2652 2660 def auto_rewrite_input(self, cmd):
2653 2661 """Print to the screen the rewritten form of the user's command.
2654 2662
2655 2663 This shows visual feedback by rewriting input lines that cause
2656 2664 automatic calling to kick in, like::
2657 2665
2658 2666 /f x
2659 2667
2660 2668 into::
2661 2669
2662 2670 ------> f(x)
2663 2671
2664 2672 after the user's input prompt. This helps the user understand that the
2665 2673 input line was transformed automatically by IPython.
2666 2674 """
2667 2675 if not self.show_rewritten_input:
2668 2676 return
2669 2677
2670 2678 # This is overridden in TerminalInteractiveShell to use fancy prompts
2671 2679 print("------> " + cmd)
2672 2680
2673 2681 #-------------------------------------------------------------------------
2674 2682 # Things related to extracting values/expressions from kernel and user_ns
2675 2683 #-------------------------------------------------------------------------
2676 2684
2677 2685 def _user_obj_error(self):
2678 2686 """return simple exception dict
2679 2687
2680 2688 for use in user_expressions
2681 2689 """
2682 2690
2683 2691 etype, evalue, tb = self._get_exc_info()
2684 2692 stb = self.InteractiveTB.get_exception_only(etype, evalue)
2685 2693
2686 2694 exc_info = {
2687 2695 "status": "error",
2688 2696 "traceback": stb,
2689 2697 "ename": etype.__name__,
2690 2698 "evalue": py3compat.safe_unicode(evalue),
2691 2699 }
2692 2700
2693 2701 return exc_info
2694 2702
2695 2703 def _format_user_obj(self, obj):
2696 2704 """format a user object to display dict
2697 2705
2698 2706 for use in user_expressions
2699 2707 """
2700 2708
2701 2709 data, md = self.display_formatter.format(obj)
2702 2710 value = {
2703 2711 'status' : 'ok',
2704 2712 'data' : data,
2705 2713 'metadata' : md,
2706 2714 }
2707 2715 return value
2708 2716
2709 2717 def user_expressions(self, expressions):
2710 2718 """Evaluate a dict of expressions in the user's namespace.
2711 2719
2712 2720 Parameters
2713 2721 ----------
2714 2722 expressions : dict
2715 2723 A dict with string keys and string values. The expression values
2716 2724 should be valid Python expressions, each of which will be evaluated
2717 2725 in the user namespace.
2718 2726
2719 2727 Returns
2720 2728 -------
2721 2729 A dict, keyed like the input expressions dict, with the rich mime-typed
2722 2730 display_data of each value.
2723 2731 """
2724 2732 out = {}
2725 2733 user_ns = self.user_ns
2726 2734 global_ns = self.user_global_ns
2727 2735
2728 2736 for key, expr in expressions.items():
2729 2737 try:
2730 2738 value = self._format_user_obj(eval(expr, global_ns, user_ns))
2731 2739 except:
2732 2740 value = self._user_obj_error()
2733 2741 out[key] = value
2734 2742 return out
2735 2743
2736 2744 #-------------------------------------------------------------------------
2737 2745 # Things related to the running of code
2738 2746 #-------------------------------------------------------------------------
2739 2747
2740 2748 def ex(self, cmd):
2741 2749 """Execute a normal python statement in user namespace."""
2742 2750 with self.builtin_trap:
2743 2751 exec(cmd, self.user_global_ns, self.user_ns)
2744 2752
2745 2753 def ev(self, expr):
2746 2754 """Evaluate python expression expr in user namespace.
2747 2755
2748 2756 Returns the result of evaluation
2749 2757 """
2750 2758 with self.builtin_trap:
2751 2759 return eval(expr, self.user_global_ns, self.user_ns)
2752 2760
2753 2761 def safe_execfile(self, fname, *where, exit_ignore=False, raise_exceptions=False, shell_futures=False):
2754 2762 """A safe version of the builtin execfile().
2755 2763
2756 2764 This version will never throw an exception, but instead print
2757 2765 helpful error messages to the screen. This only works on pure
2758 2766 Python files with the .py extension.
2759 2767
2760 2768 Parameters
2761 2769 ----------
2762 2770 fname : string
2763 2771 The name of the file to be executed.
2764 2772 *where : tuple
2765 2773 One or two namespaces, passed to execfile() as (globals,locals).
2766 2774 If only one is given, it is passed as both.
2767 2775 exit_ignore : bool (False)
2768 2776 If True, then silence SystemExit for non-zero status (it is always
2769 2777 silenced for zero status, as it is so common).
2770 2778 raise_exceptions : bool (False)
2771 2779 If True raise exceptions everywhere. Meant for testing.
2772 2780 shell_futures : bool (False)
2773 2781 If True, the code will share future statements with the interactive
2774 2782 shell. It will both be affected by previous __future__ imports, and
2775 2783 any __future__ imports in the code will affect the shell. If False,
2776 2784 __future__ imports are not shared in either direction.
2777 2785
2778 2786 """
2779 2787 fname = Path(fname).expanduser().resolve()
2780 2788
2781 2789 # Make sure we can open the file
2782 2790 try:
2783 2791 with fname.open("rb"):
2784 2792 pass
2785 2793 except:
2786 2794 warn('Could not open file <%s> for safe execution.' % fname)
2787 2795 return
2788 2796
2789 2797 # Find things also in current directory. This is needed to mimic the
2790 2798 # behavior of running a script from the system command line, where
2791 2799 # Python inserts the script's directory into sys.path
2792 2800 dname = str(fname.parent)
2793 2801
2794 2802 with prepended_to_syspath(dname), self.builtin_trap:
2795 2803 try:
2796 2804 glob, loc = (where + (None, ))[:2]
2797 2805 py3compat.execfile(
2798 2806 fname, glob, loc,
2799 2807 self.compile if shell_futures else None)
2800 2808 except SystemExit as status:
2801 2809 # If the call was made with 0 or None exit status (sys.exit(0)
2802 2810 # or sys.exit() ), don't bother showing a traceback, as both of
2803 2811 # these are considered normal by the OS:
2804 2812 # > python -c'import sys;sys.exit(0)'; echo $?
2805 2813 # 0
2806 2814 # > python -c'import sys;sys.exit()'; echo $?
2807 2815 # 0
2808 2816 # For other exit status, we show the exception unless
2809 2817 # explicitly silenced, but only in short form.
2810 2818 if status.code:
2811 2819 if raise_exceptions:
2812 2820 raise
2813 2821 if not exit_ignore:
2814 2822 self.showtraceback(exception_only=True)
2815 2823 except:
2816 2824 if raise_exceptions:
2817 2825 raise
2818 2826 # tb offset is 2 because we wrap execfile
2819 2827 self.showtraceback(tb_offset=2)
2820 2828
2821 2829 def safe_execfile_ipy(self, fname, shell_futures=False, raise_exceptions=False):
2822 2830 """Like safe_execfile, but for .ipy or .ipynb files with IPython syntax.
2823 2831
2824 2832 Parameters
2825 2833 ----------
2826 2834 fname : str
2827 2835 The name of the file to execute. The filename must have a
2828 2836 .ipy or .ipynb extension.
2829 2837 shell_futures : bool (False)
2830 2838 If True, the code will share future statements with the interactive
2831 2839 shell. It will both be affected by previous __future__ imports, and
2832 2840 any __future__ imports in the code will affect the shell. If False,
2833 2841 __future__ imports are not shared in either direction.
2834 2842 raise_exceptions : bool (False)
2835 2843 If True raise exceptions everywhere. Meant for testing.
2836 2844 """
2837 2845 fname = Path(fname).expanduser().resolve()
2838 2846
2839 2847 # Make sure we can open the file
2840 2848 try:
2841 2849 with fname.open("rb"):
2842 2850 pass
2843 2851 except:
2844 2852 warn('Could not open file <%s> for safe execution.' % fname)
2845 2853 return
2846 2854
2847 2855 # Find things also in current directory. This is needed to mimic the
2848 2856 # behavior of running a script from the system command line, where
2849 2857 # Python inserts the script's directory into sys.path
2850 2858 dname = str(fname.parent)
2851 2859
2852 2860 def get_cells():
2853 2861 """generator for sequence of code blocks to run"""
2854 2862 if fname.suffix == ".ipynb":
2855 2863 from nbformat import read
2856 2864 nb = read(fname, as_version=4)
2857 2865 if not nb.cells:
2858 2866 return
2859 2867 for cell in nb.cells:
2860 2868 if cell.cell_type == 'code':
2861 2869 yield cell.source
2862 2870 else:
2863 2871 yield fname.read_text(encoding="utf-8")
2864 2872
2865 2873 with prepended_to_syspath(dname):
2866 2874 try:
2867 2875 for cell in get_cells():
2868 2876 result = self.run_cell(cell, silent=True, shell_futures=shell_futures)
2869 2877 if raise_exceptions:
2870 2878 result.raise_error()
2871 2879 elif not result.success:
2872 2880 break
2873 2881 except:
2874 2882 if raise_exceptions:
2875 2883 raise
2876 2884 self.showtraceback()
2877 2885 warn('Unknown failure executing file: <%s>' % fname)
2878 2886
2879 2887 def safe_run_module(self, mod_name, where):
2880 2888 """A safe version of runpy.run_module().
2881 2889
2882 2890 This version will never throw an exception, but instead print
2883 2891 helpful error messages to the screen.
2884 2892
2885 2893 `SystemExit` exceptions with status code 0 or None are ignored.
2886 2894
2887 2895 Parameters
2888 2896 ----------
2889 2897 mod_name : string
2890 2898 The name of the module to be executed.
2891 2899 where : dict
2892 2900 The globals namespace.
2893 2901 """
2894 2902 try:
2895 2903 try:
2896 2904 where.update(
2897 2905 runpy.run_module(str(mod_name), run_name="__main__",
2898 2906 alter_sys=True)
2899 2907 )
2900 2908 except SystemExit as status:
2901 2909 if status.code:
2902 2910 raise
2903 2911 except:
2904 2912 self.showtraceback()
2905 2913 warn('Unknown failure executing module: <%s>' % mod_name)
2906 2914
2907 2915 def run_cell(
2908 2916 self,
2909 2917 raw_cell,
2910 2918 store_history=False,
2911 2919 silent=False,
2912 2920 shell_futures=True,
2913 2921 cell_id=None,
2914 2922 ):
2915 2923 """Run a complete IPython cell.
2916 2924
2917 2925 Parameters
2918 2926 ----------
2919 2927 raw_cell : str
2920 2928 The code (including IPython code such as %magic functions) to run.
2921 2929 store_history : bool
2922 2930 If True, the raw and translated cell will be stored in IPython's
2923 2931 history. For user code calling back into IPython's machinery, this
2924 2932 should be set to False.
2925 2933 silent : bool
2926 2934 If True, avoid side-effects, such as implicit displayhooks and
2927 2935 and logging. silent=True forces store_history=False.
2928 2936 shell_futures : bool
2929 2937 If True, the code will share future statements with the interactive
2930 2938 shell. It will both be affected by previous __future__ imports, and
2931 2939 any __future__ imports in the code will affect the shell. If False,
2932 2940 __future__ imports are not shared in either direction.
2933 2941
2934 2942 Returns
2935 2943 -------
2936 2944 result : :class:`ExecutionResult`
2937 2945 """
2938 2946 result = None
2939 2947 try:
2940 2948 result = self._run_cell(
2941 2949 raw_cell, store_history, silent, shell_futures, cell_id
2942 2950 )
2943 2951 finally:
2944 2952 self.events.trigger('post_execute')
2945 2953 if not silent:
2946 2954 self.events.trigger('post_run_cell', result)
2947 2955 return result
2948 2956
2949 2957 def _run_cell(
2950 2958 self,
2951 2959 raw_cell: str,
2952 2960 store_history: bool,
2953 2961 silent: bool,
2954 2962 shell_futures: bool,
2955 2963 cell_id: str,
2956 2964 ) -> ExecutionResult:
2957 2965 """Internal method to run a complete IPython cell."""
2958 2966
2959 2967 # we need to avoid calling self.transform_cell multiple time on the same thing
2960 2968 # so we need to store some results:
2961 2969 preprocessing_exc_tuple = None
2962 2970 try:
2963 2971 transformed_cell = self.transform_cell(raw_cell)
2964 2972 except Exception:
2965 2973 transformed_cell = raw_cell
2966 2974 preprocessing_exc_tuple = sys.exc_info()
2967 2975
2968 2976 assert transformed_cell is not None
2969 2977 coro = self.run_cell_async(
2970 2978 raw_cell,
2971 2979 store_history=store_history,
2972 2980 silent=silent,
2973 2981 shell_futures=shell_futures,
2974 2982 transformed_cell=transformed_cell,
2975 2983 preprocessing_exc_tuple=preprocessing_exc_tuple,
2976 2984 cell_id=cell_id,
2977 2985 )
2978 2986
2979 2987 # run_cell_async is async, but may not actually need an eventloop.
2980 2988 # when this is the case, we want to run it using the pseudo_sync_runner
2981 2989 # so that code can invoke eventloops (for example via the %run , and
2982 2990 # `%paste` magic.
2983 2991 if self.trio_runner:
2984 2992 runner = self.trio_runner
2985 2993 elif self.should_run_async(
2986 2994 raw_cell,
2987 2995 transformed_cell=transformed_cell,
2988 2996 preprocessing_exc_tuple=preprocessing_exc_tuple,
2989 2997 ):
2990 2998 runner = self.loop_runner
2991 2999 else:
2992 3000 runner = _pseudo_sync_runner
2993 3001
2994 3002 try:
2995 3003 return runner(coro)
2996 3004 except BaseException as e:
2997 3005 info = ExecutionInfo(
2998 3006 raw_cell, store_history, silent, shell_futures, cell_id
2999 3007 )
3000 3008 result = ExecutionResult(info)
3001 3009 result.error_in_exec = e
3002 3010 self.showtraceback(running_compiled_code=True)
3003 3011 return result
3004 3012
3005 3013 def should_run_async(
3006 3014 self, raw_cell: str, *, transformed_cell=None, preprocessing_exc_tuple=None
3007 3015 ) -> bool:
3008 3016 """Return whether a cell should be run asynchronously via a coroutine runner
3009 3017
3010 3018 Parameters
3011 3019 ----------
3012 3020 raw_cell : str
3013 3021 The code to be executed
3014 3022
3015 3023 Returns
3016 3024 -------
3017 3025 result: bool
3018 3026 Whether the code needs to be run with a coroutine runner or not
3019 3027 .. versionadded:: 7.0
3020 3028 """
3021 3029 if not self.autoawait:
3022 3030 return False
3023 3031 if preprocessing_exc_tuple is not None:
3024 3032 return False
3025 3033 assert preprocessing_exc_tuple is None
3026 3034 if transformed_cell is None:
3027 3035 warnings.warn(
3028 3036 "`should_run_async` will not call `transform_cell`"
3029 3037 " automatically in the future. Please pass the result to"
3030 3038 " `transformed_cell` argument and any exception that happen"
3031 3039 " during the"
3032 3040 "transform in `preprocessing_exc_tuple` in"
3033 3041 " IPython 7.17 and above.",
3034 3042 DeprecationWarning,
3035 3043 stacklevel=2,
3036 3044 )
3037 3045 try:
3038 3046 cell = self.transform_cell(raw_cell)
3039 3047 except Exception:
3040 3048 # any exception during transform will be raised
3041 3049 # prior to execution
3042 3050 return False
3043 3051 else:
3044 3052 cell = transformed_cell
3045 3053 return _should_be_async(cell)
3046 3054
3047 3055 async def run_cell_async(
3048 3056 self,
3049 3057 raw_cell: str,
3050 3058 store_history=False,
3051 3059 silent=False,
3052 3060 shell_futures=True,
3053 3061 *,
3054 3062 transformed_cell: Optional[str] = None,
3055 3063 preprocessing_exc_tuple: Optional[Any] = None,
3056 3064 cell_id=None,
3057 3065 ) -> ExecutionResult:
3058 3066 """Run a complete IPython cell asynchronously.
3059 3067
3060 3068 Parameters
3061 3069 ----------
3062 3070 raw_cell : str
3063 3071 The code (including IPython code such as %magic functions) to run.
3064 3072 store_history : bool
3065 3073 If True, the raw and translated cell will be stored in IPython's
3066 3074 history. For user code calling back into IPython's machinery, this
3067 3075 should be set to False.
3068 3076 silent : bool
3069 3077 If True, avoid side-effects, such as implicit displayhooks and
3070 3078 and logging. silent=True forces store_history=False.
3071 3079 shell_futures : bool
3072 3080 If True, the code will share future statements with the interactive
3073 3081 shell. It will both be affected by previous __future__ imports, and
3074 3082 any __future__ imports in the code will affect the shell. If False,
3075 3083 __future__ imports are not shared in either direction.
3076 3084 transformed_cell: str
3077 3085 cell that was passed through transformers
3078 3086 preprocessing_exc_tuple:
3079 3087 trace if the transformation failed.
3080 3088
3081 3089 Returns
3082 3090 -------
3083 3091 result : :class:`ExecutionResult`
3084 3092
3085 3093 .. versionadded:: 7.0
3086 3094 """
3087 3095 info = ExecutionInfo(raw_cell, store_history, silent, shell_futures, cell_id)
3088 3096 result = ExecutionResult(info)
3089 3097
3090 3098 if (not raw_cell) or raw_cell.isspace():
3091 3099 self.last_execution_succeeded = True
3092 3100 self.last_execution_result = result
3093 3101 return result
3094 3102
3095 3103 if silent:
3096 3104 store_history = False
3097 3105
3098 3106 if store_history:
3099 3107 result.execution_count = self.execution_count
3100 3108
3101 3109 def error_before_exec(value):
3102 3110 if store_history:
3103 3111 self.execution_count += 1
3104 3112 result.error_before_exec = value
3105 3113 self.last_execution_succeeded = False
3106 3114 self.last_execution_result = result
3107 3115 return result
3108 3116
3109 3117 self.events.trigger('pre_execute')
3110 3118 if not silent:
3111 3119 self.events.trigger('pre_run_cell', info)
3112 3120
3113 3121 if transformed_cell is None:
3114 3122 warnings.warn(
3115 3123 "`run_cell_async` will not call `transform_cell`"
3116 3124 " automatically in the future. Please pass the result to"
3117 3125 " `transformed_cell` argument and any exception that happen"
3118 3126 " during the"
3119 3127 "transform in `preprocessing_exc_tuple` in"
3120 3128 " IPython 7.17 and above.",
3121 3129 DeprecationWarning,
3122 3130 stacklevel=2,
3123 3131 )
3124 3132 # If any of our input transformation (input_transformer_manager or
3125 3133 # prefilter_manager) raises an exception, we store it in this variable
3126 3134 # so that we can display the error after logging the input and storing
3127 3135 # it in the history.
3128 3136 try:
3129 3137 cell = self.transform_cell(raw_cell)
3130 3138 except Exception:
3131 3139 preprocessing_exc_tuple = sys.exc_info()
3132 3140 cell = raw_cell # cell has to exist so it can be stored/logged
3133 3141 else:
3134 3142 preprocessing_exc_tuple = None
3135 3143 else:
3136 3144 if preprocessing_exc_tuple is None:
3137 3145 cell = transformed_cell
3138 3146 else:
3139 3147 cell = raw_cell
3140 3148
3141 3149 # Store raw and processed history
3142 3150 if store_history and raw_cell.strip(" %") != "paste":
3143 3151 self.history_manager.store_inputs(self.execution_count, cell, raw_cell)
3144 3152 if not silent:
3145 3153 self.logger.log(cell, raw_cell)
3146 3154
3147 3155 # Display the exception if input processing failed.
3148 3156 if preprocessing_exc_tuple is not None:
3149 3157 self.showtraceback(preprocessing_exc_tuple)
3150 3158 if store_history:
3151 3159 self.execution_count += 1
3152 3160 return error_before_exec(preprocessing_exc_tuple[1])
3153 3161
3154 3162 # Our own compiler remembers the __future__ environment. If we want to
3155 3163 # run code with a separate __future__ environment, use the default
3156 3164 # compiler
3157 3165 compiler = self.compile if shell_futures else self.compiler_class()
3158 3166
3159 3167 _run_async = False
3160 3168
3161 3169 with self.builtin_trap:
3162 3170 cell_name = compiler.cache(cell, self.execution_count, raw_code=raw_cell)
3163 3171
3164 3172 with self.display_trap:
3165 3173 # Compile to bytecode
3166 3174 try:
3167 3175 code_ast = compiler.ast_parse(cell, filename=cell_name)
3168 3176 except self.custom_exceptions as e:
3169 3177 etype, value, tb = sys.exc_info()
3170 3178 self.CustomTB(etype, value, tb)
3171 3179 return error_before_exec(e)
3172 3180 except IndentationError as e:
3173 3181 self.showindentationerror()
3174 3182 return error_before_exec(e)
3175 3183 except (OverflowError, SyntaxError, ValueError, TypeError,
3176 3184 MemoryError) as e:
3177 3185 self.showsyntaxerror()
3178 3186 return error_before_exec(e)
3179 3187
3180 3188 # Apply AST transformations
3181 3189 try:
3182 3190 code_ast = self.transform_ast(code_ast)
3183 3191 except InputRejected as e:
3184 3192 self.showtraceback()
3185 3193 return error_before_exec(e)
3186 3194
3187 3195 # Give the displayhook a reference to our ExecutionResult so it
3188 3196 # can fill in the output value.
3189 3197 self.displayhook.exec_result = result
3190 3198
3191 3199 # Execute the user code
3192 3200 interactivity = "none" if silent else self.ast_node_interactivity
3193 3201
3194 3202 has_raised = await self.run_ast_nodes(code_ast.body, cell_name,
3195 3203 interactivity=interactivity, compiler=compiler, result=result)
3196 3204
3197 3205 self.last_execution_succeeded = not has_raised
3198 3206 self.last_execution_result = result
3199 3207
3200 3208 # Reset this so later displayed values do not modify the
3201 3209 # ExecutionResult
3202 3210 self.displayhook.exec_result = None
3203 3211
3204 3212 if store_history:
3205 3213 # Write output to the database. Does nothing unless
3206 3214 # history output logging is enabled.
3207 3215 self.history_manager.store_output(self.execution_count)
3208 3216 # Each cell is a *single* input, regardless of how many lines it has
3209 3217 self.execution_count += 1
3210 3218
3211 3219 return result
3212 3220
3213 3221 def transform_cell(self, raw_cell):
3214 3222 """Transform an input cell before parsing it.
3215 3223
3216 3224 Static transformations, implemented in IPython.core.inputtransformer2,
3217 3225 deal with things like ``%magic`` and ``!system`` commands.
3218 3226 These run on all input.
3219 3227 Dynamic transformations, for things like unescaped magics and the exit
3220 3228 autocall, depend on the state of the interpreter.
3221 3229 These only apply to single line inputs.
3222 3230
3223 3231 These string-based transformations are followed by AST transformations;
3224 3232 see :meth:`transform_ast`.
3225 3233 """
3226 3234 # Static input transformations
3227 3235 cell = self.input_transformer_manager.transform_cell(raw_cell)
3228 3236
3229 3237 if len(cell.splitlines()) == 1:
3230 3238 # Dynamic transformations - only applied for single line commands
3231 3239 with self.builtin_trap:
3232 3240 # use prefilter_lines to handle trailing newlines
3233 3241 # restore trailing newline for ast.parse
3234 3242 cell = self.prefilter_manager.prefilter_lines(cell) + '\n'
3235 3243
3236 3244 lines = cell.splitlines(keepends=True)
3237 3245 for transform in self.input_transformers_post:
3238 3246 lines = transform(lines)
3239 3247 cell = ''.join(lines)
3240 3248
3241 3249 return cell
3242 3250
3243 3251 def transform_ast(self, node):
3244 3252 """Apply the AST transformations from self.ast_transformers
3245 3253
3246 3254 Parameters
3247 3255 ----------
3248 3256 node : ast.Node
3249 3257 The root node to be transformed. Typically called with the ast.Module
3250 3258 produced by parsing user input.
3251 3259
3252 3260 Returns
3253 3261 -------
3254 3262 An ast.Node corresponding to the node it was called with. Note that it
3255 3263 may also modify the passed object, so don't rely on references to the
3256 3264 original AST.
3257 3265 """
3258 3266 for transformer in self.ast_transformers:
3259 3267 try:
3260 3268 node = transformer.visit(node)
3261 3269 except InputRejected:
3262 3270 # User-supplied AST transformers can reject an input by raising
3263 3271 # an InputRejected. Short-circuit in this case so that we
3264 3272 # don't unregister the transform.
3265 3273 raise
3266 3274 except Exception:
3267 3275 warn("AST transformer %r threw an error. It will be unregistered." % transformer)
3268 3276 self.ast_transformers.remove(transformer)
3269 3277
3270 3278 if self.ast_transformers:
3271 3279 ast.fix_missing_locations(node)
3272 3280 return node
3273 3281
3274 3282 async def run_ast_nodes(
3275 3283 self,
3276 3284 nodelist: ListType[stmt],
3277 3285 cell_name: str,
3278 3286 interactivity="last_expr",
3279 3287 compiler=compile,
3280 3288 result=None,
3281 3289 ):
3282 3290 """Run a sequence of AST nodes. The execution mode depends on the
3283 3291 interactivity parameter.
3284 3292
3285 3293 Parameters
3286 3294 ----------
3287 3295 nodelist : list
3288 3296 A sequence of AST nodes to run.
3289 3297 cell_name : str
3290 3298 Will be passed to the compiler as the filename of the cell. Typically
3291 3299 the value returned by ip.compile.cache(cell).
3292 3300 interactivity : str
3293 3301 'all', 'last', 'last_expr' , 'last_expr_or_assign' or 'none',
3294 3302 specifying which nodes should be run interactively (displaying output
3295 3303 from expressions). 'last_expr' will run the last node interactively
3296 3304 only if it is an expression (i.e. expressions in loops or other blocks
3297 3305 are not displayed) 'last_expr_or_assign' will run the last expression
3298 3306 or the last assignment. Other values for this parameter will raise a
3299 3307 ValueError.
3300 3308
3301 3309 compiler : callable
3302 3310 A function with the same interface as the built-in compile(), to turn
3303 3311 the AST nodes into code objects. Default is the built-in compile().
3304 3312 result : ExecutionResult, optional
3305 3313 An object to store exceptions that occur during execution.
3306 3314
3307 3315 Returns
3308 3316 -------
3309 3317 True if an exception occurred while running code, False if it finished
3310 3318 running.
3311 3319 """
3312 3320 if not nodelist:
3313 3321 return
3314 3322
3315 3323
3316 3324 if interactivity == 'last_expr_or_assign':
3317 3325 if isinstance(nodelist[-1], _assign_nodes):
3318 3326 asg = nodelist[-1]
3319 3327 if isinstance(asg, ast.Assign) and len(asg.targets) == 1:
3320 3328 target = asg.targets[0]
3321 3329 elif isinstance(asg, _single_targets_nodes):
3322 3330 target = asg.target
3323 3331 else:
3324 3332 target = None
3325 3333 if isinstance(target, ast.Name):
3326 3334 nnode = ast.Expr(ast.Name(target.id, ast.Load()))
3327 3335 ast.fix_missing_locations(nnode)
3328 3336 nodelist.append(nnode)
3329 3337 interactivity = 'last_expr'
3330 3338
3331 3339 _async = False
3332 3340 if interactivity == 'last_expr':
3333 3341 if isinstance(nodelist[-1], ast.Expr):
3334 3342 interactivity = "last"
3335 3343 else:
3336 3344 interactivity = "none"
3337 3345
3338 3346 if interactivity == 'none':
3339 3347 to_run_exec, to_run_interactive = nodelist, []
3340 3348 elif interactivity == 'last':
3341 3349 to_run_exec, to_run_interactive = nodelist[:-1], nodelist[-1:]
3342 3350 elif interactivity == 'all':
3343 3351 to_run_exec, to_run_interactive = [], nodelist
3344 3352 else:
3345 3353 raise ValueError("Interactivity was %r" % interactivity)
3346 3354
3347 3355 try:
3348 3356
3349 3357 def compare(code):
3350 3358 is_async = inspect.CO_COROUTINE & code.co_flags == inspect.CO_COROUTINE
3351 3359 return is_async
3352 3360
3353 3361 # refactor that to just change the mod constructor.
3354 3362 to_run = []
3355 3363 for node in to_run_exec:
3356 3364 to_run.append((node, "exec"))
3357 3365
3358 3366 for node in to_run_interactive:
3359 3367 to_run.append((node, "single"))
3360 3368
3361 3369 for node, mode in to_run:
3362 3370 if mode == "exec":
3363 3371 mod = Module([node], [])
3364 3372 elif mode == "single":
3365 3373 mod = ast.Interactive([node])
3366 3374 with compiler.extra_flags(
3367 3375 getattr(ast, "PyCF_ALLOW_TOP_LEVEL_AWAIT", 0x0)
3368 3376 if self.autoawait
3369 3377 else 0x0
3370 3378 ):
3371 3379 code = compiler(mod, cell_name, mode)
3372 3380 asy = compare(code)
3373 3381 if await self.run_code(code, result, async_=asy):
3374 3382 return True
3375 3383
3376 3384 # Flush softspace
3377 3385 if softspace(sys.stdout, 0):
3378 3386 print()
3379 3387
3380 3388 except:
3381 3389 # It's possible to have exceptions raised here, typically by
3382 3390 # compilation of odd code (such as a naked 'return' outside a
3383 3391 # function) that did parse but isn't valid. Typically the exception
3384 3392 # is a SyntaxError, but it's safest just to catch anything and show
3385 3393 # the user a traceback.
3386 3394
3387 3395 # We do only one try/except outside the loop to minimize the impact
3388 3396 # on runtime, and also because if any node in the node list is
3389 3397 # broken, we should stop execution completely.
3390 3398 if result:
3391 3399 result.error_before_exec = sys.exc_info()[1]
3392 3400 self.showtraceback()
3393 3401 return True
3394 3402
3395 3403 return False
3396 3404
3397 3405 async def run_code(self, code_obj, result=None, *, async_=False):
3398 3406 """Execute a code object.
3399 3407
3400 3408 When an exception occurs, self.showtraceback() is called to display a
3401 3409 traceback.
3402 3410
3403 3411 Parameters
3404 3412 ----------
3405 3413 code_obj : code object
3406 3414 A compiled code object, to be executed
3407 3415 result : ExecutionResult, optional
3408 3416 An object to store exceptions that occur during execution.
3409 3417 async_ : Bool (Experimental)
3410 3418 Attempt to run top-level asynchronous code in a default loop.
3411 3419
3412 3420 Returns
3413 3421 -------
3414 3422 False : successful execution.
3415 3423 True : an error occurred.
3416 3424 """
3417 3425 # special value to say that anything above is IPython and should be
3418 3426 # hidden.
3419 3427 __tracebackhide__ = "__ipython_bottom__"
3420 3428 # Set our own excepthook in case the user code tries to call it
3421 3429 # directly, so that the IPython crash handler doesn't get triggered
3422 3430 old_excepthook, sys.excepthook = sys.excepthook, self.excepthook
3423 3431
3424 3432 # we save the original sys.excepthook in the instance, in case config
3425 3433 # code (such as magics) needs access to it.
3426 3434 self.sys_excepthook = old_excepthook
3427 3435 outflag = True # happens in more places, so it's easier as default
3428 3436 try:
3429 3437 try:
3430 3438 if async_:
3431 3439 await eval(code_obj, self.user_global_ns, self.user_ns)
3432 3440 else:
3433 3441 exec(code_obj, self.user_global_ns, self.user_ns)
3434 3442 finally:
3435 3443 # Reset our crash handler in place
3436 3444 sys.excepthook = old_excepthook
3437 3445 except SystemExit as e:
3438 3446 if result is not None:
3439 3447 result.error_in_exec = e
3440 3448 self.showtraceback(exception_only=True)
3441 3449 warn("To exit: use 'exit', 'quit', or Ctrl-D.", stacklevel=1)
3442 3450 except bdb.BdbQuit:
3443 3451 etype, value, tb = sys.exc_info()
3444 3452 if result is not None:
3445 3453 result.error_in_exec = value
3446 3454 # the BdbQuit stops here
3447 3455 except self.custom_exceptions:
3448 3456 etype, value, tb = sys.exc_info()
3449 3457 if result is not None:
3450 3458 result.error_in_exec = value
3451 3459 self.CustomTB(etype, value, tb)
3452 3460 except:
3453 3461 if result is not None:
3454 3462 result.error_in_exec = sys.exc_info()[1]
3455 3463 self.showtraceback(running_compiled_code=True)
3456 3464 else:
3457 3465 outflag = False
3458 3466 return outflag
3459 3467
3460 3468 # For backwards compatibility
3461 3469 runcode = run_code
3462 3470
3463 3471 def check_complete(self, code: str) -> Tuple[str, str]:
3464 3472 """Return whether a block of code is ready to execute, or should be continued
3465 3473
3466 3474 Parameters
3467 3475 ----------
3468 3476 code : string
3469 3477 Python input code, which can be multiline.
3470 3478
3471 3479 Returns
3472 3480 -------
3473 3481 status : str
3474 3482 One of 'complete', 'incomplete', or 'invalid' if source is not a
3475 3483 prefix of valid code.
3476 3484 indent : str
3477 3485 When status is 'incomplete', this is some whitespace to insert on
3478 3486 the next line of the prompt.
3479 3487 """
3480 3488 status, nspaces = self.input_transformer_manager.check_complete(code)
3481 3489 return status, ' ' * (nspaces or 0)
3482 3490
3483 3491 #-------------------------------------------------------------------------
3484 3492 # Things related to GUI support and pylab
3485 3493 #-------------------------------------------------------------------------
3486 3494
3487 3495 active_eventloop = None
3488 3496
3489 3497 def enable_gui(self, gui=None):
3490 3498 raise NotImplementedError('Implement enable_gui in a subclass')
3491 3499
3492 3500 def enable_matplotlib(self, gui=None):
3493 3501 """Enable interactive matplotlib and inline figure support.
3494 3502
3495 3503 This takes the following steps:
3496 3504
3497 3505 1. select the appropriate eventloop and matplotlib backend
3498 3506 2. set up matplotlib for interactive use with that backend
3499 3507 3. configure formatters for inline figure display
3500 3508 4. enable the selected gui eventloop
3501 3509
3502 3510 Parameters
3503 3511 ----------
3504 3512 gui : optional, string
3505 3513 If given, dictates the choice of matplotlib GUI backend to use
3506 3514 (should be one of IPython's supported backends, 'qt', 'osx', 'tk',
3507 3515 'gtk', 'wx' or 'inline'), otherwise we use the default chosen by
3508 3516 matplotlib (as dictated by the matplotlib build-time options plus the
3509 3517 user's matplotlibrc configuration file). Note that not all backends
3510 3518 make sense in all contexts, for example a terminal ipython can't
3511 3519 display figures inline.
3512 3520 """
3513 3521 from matplotlib_inline.backend_inline import configure_inline_support
3514 3522
3515 3523 from IPython.core import pylabtools as pt
3516 3524 gui, backend = pt.find_gui_and_backend(gui, self.pylab_gui_select)
3517 3525
3518 3526 if gui != 'inline':
3519 3527 # If we have our first gui selection, store it
3520 3528 if self.pylab_gui_select is None:
3521 3529 self.pylab_gui_select = gui
3522 3530 # Otherwise if they are different
3523 3531 elif gui != self.pylab_gui_select:
3524 3532 print('Warning: Cannot change to a different GUI toolkit: %s.'
3525 3533 ' Using %s instead.' % (gui, self.pylab_gui_select))
3526 3534 gui, backend = pt.find_gui_and_backend(self.pylab_gui_select)
3527 3535
3528 3536 pt.activate_matplotlib(backend)
3529 3537 configure_inline_support(self, backend)
3530 3538
3531 3539 # Now we must activate the gui pylab wants to use, and fix %run to take
3532 3540 # plot updates into account
3533 3541 self.enable_gui(gui)
3534 3542 self.magics_manager.registry['ExecutionMagics'].default_runner = \
3535 3543 pt.mpl_runner(self.safe_execfile)
3536 3544
3537 3545 return gui, backend
3538 3546
3539 3547 def enable_pylab(self, gui=None, import_all=True, welcome_message=False):
3540 3548 """Activate pylab support at runtime.
3541 3549
3542 3550 This turns on support for matplotlib, preloads into the interactive
3543 3551 namespace all of numpy and pylab, and configures IPython to correctly
3544 3552 interact with the GUI event loop. The GUI backend to be used can be
3545 3553 optionally selected with the optional ``gui`` argument.
3546 3554
3547 3555 This method only adds preloading the namespace to InteractiveShell.enable_matplotlib.
3548 3556
3549 3557 Parameters
3550 3558 ----------
3551 3559 gui : optional, string
3552 3560 If given, dictates the choice of matplotlib GUI backend to use
3553 3561 (should be one of IPython's supported backends, 'qt', 'osx', 'tk',
3554 3562 'gtk', 'wx' or 'inline'), otherwise we use the default chosen by
3555 3563 matplotlib (as dictated by the matplotlib build-time options plus the
3556 3564 user's matplotlibrc configuration file). Note that not all backends
3557 3565 make sense in all contexts, for example a terminal ipython can't
3558 3566 display figures inline.
3559 3567 import_all : optional, bool, default: True
3560 3568 Whether to do `from numpy import *` and `from pylab import *`
3561 3569 in addition to module imports.
3562 3570 welcome_message : deprecated
3563 3571 This argument is ignored, no welcome message will be displayed.
3564 3572 """
3565 3573 from IPython.core.pylabtools import import_pylab
3566 3574
3567 3575 gui, backend = self.enable_matplotlib(gui)
3568 3576
3569 3577 # We want to prevent the loading of pylab to pollute the user's
3570 3578 # namespace as shown by the %who* magics, so we execute the activation
3571 3579 # code in an empty namespace, and we update *both* user_ns and
3572 3580 # user_ns_hidden with this information.
3573 3581 ns = {}
3574 3582 import_pylab(ns, import_all)
3575 3583 # warn about clobbered names
3576 3584 ignored = {"__builtins__"}
3577 3585 both = set(ns).intersection(self.user_ns).difference(ignored)
3578 3586 clobbered = [ name for name in both if self.user_ns[name] is not ns[name] ]
3579 3587 self.user_ns.update(ns)
3580 3588 self.user_ns_hidden.update(ns)
3581 3589 return gui, backend, clobbered
3582 3590
3583 3591 #-------------------------------------------------------------------------
3584 3592 # Utilities
3585 3593 #-------------------------------------------------------------------------
3586 3594
3587 3595 def var_expand(self, cmd, depth=0, formatter=DollarFormatter()):
3588 3596 """Expand python variables in a string.
3589 3597
3590 3598 The depth argument indicates how many frames above the caller should
3591 3599 be walked to look for the local namespace where to expand variables.
3592 3600
3593 3601 The global namespace for expansion is always the user's interactive
3594 3602 namespace.
3595 3603 """
3596 3604 ns = self.user_ns.copy()
3597 3605 try:
3598 3606 frame = sys._getframe(depth+1)
3599 3607 except ValueError:
3600 3608 # This is thrown if there aren't that many frames on the stack,
3601 3609 # e.g. if a script called run_line_magic() directly.
3602 3610 pass
3603 3611 else:
3604 3612 ns.update(frame.f_locals)
3605 3613
3606 3614 try:
3607 3615 # We have to use .vformat() here, because 'self' is a valid and common
3608 3616 # name, and expanding **ns for .format() would make it collide with
3609 3617 # the 'self' argument of the method.
3610 3618 cmd = formatter.vformat(cmd, args=[], kwargs=ns)
3611 3619 except Exception:
3612 3620 # if formatter couldn't format, just let it go untransformed
3613 3621 pass
3614 3622 return cmd
3615 3623
3616 3624 def mktempfile(self, data=None, prefix='ipython_edit_'):
3617 3625 """Make a new tempfile and return its filename.
3618 3626
3619 3627 This makes a call to tempfile.mkstemp (created in a tempfile.mkdtemp),
3620 3628 but it registers the created filename internally so ipython cleans it up
3621 3629 at exit time.
3622 3630
3623 3631 Optional inputs:
3624 3632
3625 3633 - data(None): if data is given, it gets written out to the temp file
3626 3634 immediately, and the file is closed again."""
3627 3635
3628 3636 dir_path = Path(tempfile.mkdtemp(prefix=prefix))
3629 3637 self.tempdirs.append(dir_path)
3630 3638
3631 3639 handle, filename = tempfile.mkstemp(".py", prefix, dir=str(dir_path))
3632 3640 os.close(handle) # On Windows, there can only be one open handle on a file
3633 3641
3634 3642 file_path = Path(filename)
3635 3643 self.tempfiles.append(file_path)
3636 3644
3637 3645 if data:
3638 3646 file_path.write_text(data, encoding="utf-8")
3639 3647 return filename
3640 3648
3641 3649 def ask_yes_no(self, prompt, default=None, interrupt=None):
3642 3650 if self.quiet:
3643 3651 return True
3644 3652 return ask_yes_no(prompt,default,interrupt)
3645 3653
3646 3654 def show_usage(self):
3647 3655 """Show a usage message"""
3648 3656 page.page(IPython.core.usage.interactive_usage)
3649 3657
3650 3658 def extract_input_lines(self, range_str, raw=False):
3651 3659 """Return as a string a set of input history slices.
3652 3660
3653 3661 Parameters
3654 3662 ----------
3655 3663 range_str : str
3656 3664 The set of slices is given as a string, like "~5/6-~4/2 4:8 9",
3657 3665 since this function is for use by magic functions which get their
3658 3666 arguments as strings. The number before the / is the session
3659 3667 number: ~n goes n back from the current session.
3660 3668
3661 3669 If empty string is given, returns history of current session
3662 3670 without the last input.
3663 3671
3664 3672 raw : bool, optional
3665 3673 By default, the processed input is used. If this is true, the raw
3666 3674 input history is used instead.
3667 3675
3668 3676 Notes
3669 3677 -----
3670 3678 Slices can be described with two notations:
3671 3679
3672 3680 * ``N:M`` -> standard python form, means including items N...(M-1).
3673 3681 * ``N-M`` -> include items N..M (closed endpoint).
3674 3682 """
3675 3683 lines = self.history_manager.get_range_by_str(range_str, raw=raw)
3676 3684 text = "\n".join(x for _, _, x in lines)
3677 3685
3678 3686 # Skip the last line, as it's probably the magic that called this
3679 3687 if not range_str:
3680 3688 if "\n" not in text:
3681 3689 text = ""
3682 3690 else:
3683 3691 text = text[: text.rfind("\n")]
3684 3692
3685 3693 return text
3686 3694
3687 3695 def find_user_code(self, target, raw=True, py_only=False, skip_encoding_cookie=True, search_ns=False):
3688 3696 """Get a code string from history, file, url, or a string or macro.
3689 3697
3690 3698 This is mainly used by magic functions.
3691 3699
3692 3700 Parameters
3693 3701 ----------
3694 3702 target : str
3695 3703 A string specifying code to retrieve. This will be tried respectively
3696 3704 as: ranges of input history (see %history for syntax), url,
3697 3705 corresponding .py file, filename, or an expression evaluating to a
3698 3706 string or Macro in the user namespace.
3699 3707
3700 3708 If empty string is given, returns complete history of current
3701 3709 session, without the last line.
3702 3710
3703 3711 raw : bool
3704 3712 If true (default), retrieve raw history. Has no effect on the other
3705 3713 retrieval mechanisms.
3706 3714
3707 3715 py_only : bool (default False)
3708 3716 Only try to fetch python code, do not try alternative methods to decode file
3709 3717 if unicode fails.
3710 3718
3711 3719 Returns
3712 3720 -------
3713 3721 A string of code.
3714 3722 ValueError is raised if nothing is found, and TypeError if it evaluates
3715 3723 to an object of another type. In each case, .args[0] is a printable
3716 3724 message.
3717 3725 """
3718 3726 code = self.extract_input_lines(target, raw=raw) # Grab history
3719 3727 if code:
3720 3728 return code
3721 3729 try:
3722 3730 if target.startswith(('http://', 'https://')):
3723 3731 return openpy.read_py_url(target, skip_encoding_cookie=skip_encoding_cookie)
3724 3732 except UnicodeDecodeError as e:
3725 3733 if not py_only :
3726 3734 # Deferred import
3727 3735 from urllib.request import urlopen
3728 3736 response = urlopen(target)
3729 3737 return response.read().decode('latin1')
3730 3738 raise ValueError(("'%s' seem to be unreadable.") % target) from e
3731 3739
3732 3740 potential_target = [target]
3733 3741 try :
3734 3742 potential_target.insert(0,get_py_filename(target))
3735 3743 except IOError:
3736 3744 pass
3737 3745
3738 3746 for tgt in potential_target :
3739 3747 if os.path.isfile(tgt): # Read file
3740 3748 try :
3741 3749 return openpy.read_py_file(tgt, skip_encoding_cookie=skip_encoding_cookie)
3742 3750 except UnicodeDecodeError as e:
3743 3751 if not py_only :
3744 3752 with io_open(tgt,'r', encoding='latin1') as f :
3745 3753 return f.read()
3746 3754 raise ValueError(("'%s' seem to be unreadable.") % target) from e
3747 3755 elif os.path.isdir(os.path.expanduser(tgt)):
3748 3756 raise ValueError("'%s' is a directory, not a regular file." % target)
3749 3757
3750 3758 if search_ns:
3751 3759 # Inspect namespace to load object source
3752 3760 object_info = self.object_inspect(target, detail_level=1)
3753 3761 if object_info['found'] and object_info['source']:
3754 3762 return object_info['source']
3755 3763
3756 3764 try: # User namespace
3757 3765 codeobj = eval(target, self.user_ns)
3758 3766 except Exception as e:
3759 3767 raise ValueError(("'%s' was not found in history, as a file, url, "
3760 3768 "nor in the user namespace.") % target) from e
3761 3769
3762 3770 if isinstance(codeobj, str):
3763 3771 return codeobj
3764 3772 elif isinstance(codeobj, Macro):
3765 3773 return codeobj.value
3766 3774
3767 3775 raise TypeError("%s is neither a string nor a macro." % target,
3768 3776 codeobj)
3769 3777
3770 3778 def _atexit_once(self):
3771 3779 """
3772 3780 At exist operation that need to be called at most once.
3773 3781 Second call to this function per instance will do nothing.
3774 3782 """
3775 3783
3776 3784 if not getattr(self, "_atexit_once_called", False):
3777 3785 self._atexit_once_called = True
3778 3786 # Clear all user namespaces to release all references cleanly.
3779 3787 self.reset(new_session=False)
3780 3788 # Close the history session (this stores the end time and line count)
3781 3789 # this must be *before* the tempfile cleanup, in case of temporary
3782 3790 # history db
3783 3791 self.history_manager.end_session()
3784 3792 self.history_manager = None
3785 3793
3786 3794 #-------------------------------------------------------------------------
3787 3795 # Things related to IPython exiting
3788 3796 #-------------------------------------------------------------------------
3789 3797 def atexit_operations(self):
3790 3798 """This will be executed at the time of exit.
3791 3799
3792 3800 Cleanup operations and saving of persistent data that is done
3793 3801 unconditionally by IPython should be performed here.
3794 3802
3795 3803 For things that may depend on startup flags or platform specifics (such
3796 3804 as having readline or not), register a separate atexit function in the
3797 3805 code that has the appropriate information, rather than trying to
3798 3806 clutter
3799 3807 """
3800 3808 self._atexit_once()
3801 3809
3802 3810 # Cleanup all tempfiles and folders left around
3803 3811 for tfile in self.tempfiles:
3804 3812 try:
3805 3813 tfile.unlink()
3806 3814 self.tempfiles.remove(tfile)
3807 3815 except FileNotFoundError:
3808 3816 pass
3809 3817 del self.tempfiles
3810 3818 for tdir in self.tempdirs:
3811 3819 try:
3812 3820 tdir.rmdir()
3813 3821 self.tempdirs.remove(tdir)
3814 3822 except FileNotFoundError:
3815 3823 pass
3816 3824 del self.tempdirs
3817 3825
3818 3826 # Restore user's cursor
3819 3827 if hasattr(self, "editing_mode") and self.editing_mode == "vi":
3820 3828 sys.stdout.write("\x1b[0 q")
3821 3829 sys.stdout.flush()
3822 3830
3823 3831 def cleanup(self):
3824 3832 self.restore_sys_module_state()
3825 3833
3826 3834
3827 3835 # Overridden in terminal subclass to change prompts
3828 3836 def switch_doctest_mode(self, mode):
3829 3837 pass
3830 3838
3831 3839
3832 3840 class InteractiveShellABC(metaclass=abc.ABCMeta):
3833 3841 """An abstract base class for InteractiveShell."""
3834 3842
3835 3843 InteractiveShellABC.register(InteractiveShell)
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