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Matthias Bussonnier -
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1 1 """Input transformer machinery to support IPython special syntax.
2 2
3 3 This includes the machinery to recognise and transform ``%magic`` commands,
4 4 ``!system`` commands, ``help?`` querying, prompt stripping, and so forth.
5 5
6 6 Added: IPython 7.0. Replaces inputsplitter and inputtransformer which were
7 7 deprecated in 7.0.
8 8 """
9 9
10 10 # Copyright (c) IPython Development Team.
11 11 # Distributed under the terms of the Modified BSD License.
12 12
13 13 from codeop import compile_command
14 14 import re
15 15 import tokenize
16 16 from typing import List, Tuple
17 17 import warnings
18 18
19 19 _indent_re = re.compile(r'^[ \t]+')
20 20
21 21 def leading_indent(lines):
22 22 """Remove leading indentation.
23 23
24 24 If the first line starts with a spaces or tabs, the same whitespace will be
25 25 removed from each following line in the cell.
26 26 """
27 27 m = _indent_re.match(lines[0])
28 28 if not m:
29 29 return lines
30 30 space = m.group(0)
31 31 n = len(space)
32 32 return [l[n:] if l.startswith(space) else l
33 33 for l in lines]
34 34
35 35 class PromptStripper:
36 36 """Remove matching input prompts from a block of input.
37 37
38 38 Parameters
39 39 ----------
40 40 prompt_re : regular expression
41 41 A regular expression matching any input prompt (including continuation,
42 42 e.g. ``...``)
43 43 initial_re : regular expression, optional
44 44 A regular expression matching only the initial prompt, but not continuation.
45 45 If no initial expression is given, prompt_re will be used everywhere.
46 46 Used mainly for plain Python prompts (``>>>``), where the continuation prompt
47 47 ``...`` is a valid Python expression in Python 3, so shouldn't be stripped.
48 48
49 49 If initial_re and prompt_re differ,
50 50 only initial_re will be tested against the first line.
51 51 If any prompt is found on the first two lines,
52 52 prompts will be stripped from the rest of the block.
53 53 """
54 54 def __init__(self, prompt_re, initial_re=None):
55 55 self.prompt_re = prompt_re
56 56 self.initial_re = initial_re or prompt_re
57 57
58 58 def _strip(self, lines):
59 59 return [self.prompt_re.sub('', l, count=1) for l in lines]
60 60
61 61 def __call__(self, lines):
62 62 if self.initial_re.match(lines[0]) or \
63 63 (len(lines) > 1 and self.prompt_re.match(lines[1])):
64 64 return self._strip(lines)
65 65 return lines
66 66
67 67 classic_prompt = PromptStripper(
68 68 prompt_re=re.compile(r'^(>>>|\.\.\.)( |$)'),
69 69 initial_re=re.compile(r'^>>>( |$)')
70 70 )
71 71
72 72 ipython_prompt = PromptStripper(re.compile(r'^(In \[\d+\]: |\s*\.{3,}: ?)'))
73 73
74 74 def cell_magic(lines):
75 75 if not lines[0].startswith('%%'):
76 76 return lines
77 77 if re.match('%%\w+\?', lines[0]):
78 78 # This case will be handled by help_end
79 79 return lines
80 80 magic_name, _, first_line = lines[0][2:-1].partition(' ')
81 81 body = ''.join(lines[1:])
82 82 return ['get_ipython().run_cell_magic(%r, %r, %r)\n'
83 83 % (magic_name, first_line, body)]
84 84
85 85
86 86 def _find_assign_op(token_line):
87 87 """Get the index of the first assignment in the line ('=' not inside brackets)
88 88
89 89 Note: We don't try to support multiple special assignment (a = b = %foo)
90 90 """
91 91 paren_level = 0
92 92 for i, ti in enumerate(token_line):
93 93 s = ti.string
94 94 if s == '=' and paren_level == 0:
95 95 return i
96 96 if s in '([{':
97 97 paren_level += 1
98 98 elif s in ')]}':
99 99 if paren_level > 0:
100 100 paren_level -= 1
101 101
102 102 def find_end_of_continued_line(lines, start_line: int):
103 103 """Find the last line of a line explicitly extended using backslashes.
104 104
105 105 Uses 0-indexed line numbers.
106 106 """
107 107 end_line = start_line
108 108 while lines[end_line].endswith('\\\n'):
109 109 end_line += 1
110 110 if end_line >= len(lines):
111 111 break
112 112 return end_line
113 113
114 114 def assemble_continued_line(lines, start: Tuple[int, int], end_line: int):
115 115 """Assemble a single line from multiple continued line pieces
116 116
117 117 Continued lines are lines ending in ``\``, and the line following the last
118 118 ``\`` in the block.
119 119
120 120 For example, this code continues over multiple lines::
121 121
122 122 if (assign_ix is not None) \
123 123 and (len(line) >= assign_ix + 2) \
124 124 and (line[assign_ix+1].string == '%') \
125 125 and (line[assign_ix+2].type == tokenize.NAME):
126 126
127 127 This statement contains four continued line pieces.
128 128 Assembling these pieces into a single line would give::
129 129
130 130 if (assign_ix is not None) and (len(line) >= assign_ix + 2) and (line[...
131 131
132 132 This uses 0-indexed line numbers. *start* is (lineno, colno).
133 133
134 134 Used to allow ``%magic`` and ``!system`` commands to be continued over
135 135 multiple lines.
136 136 """
137 137 parts = [lines[start[0]][start[1]:]] + lines[start[0]+1:end_line+1]
138 138 return ' '.join([p[:-2] for p in parts[:-1]] # Strip backslash+newline
139 139 + [parts[-1][:-1]]) # Strip newline from last line
140 140
141 141 class TokenTransformBase:
142 142 """Base class for transformations which examine tokens.
143 143
144 144 Special syntax should not be transformed when it occurs inside strings or
145 145 comments. This is hard to reliably avoid with regexes. The solution is to
146 146 tokenise the code as Python, and recognise the special syntax in the tokens.
147 147
148 148 IPython's special syntax is not valid Python syntax, so tokenising may go
149 149 wrong after the special syntax starts. These classes therefore find and
150 150 transform *one* instance of special syntax at a time into regular Python
151 151 syntax. After each transformation, tokens are regenerated to find the next
152 152 piece of special syntax.
153 153
154 154 Subclasses need to implement one class method (find)
155 155 and one regular method (transform).
156 156
157 157 The priority attribute can select which transformation to apply if multiple
158 158 transformers match in the same place. Lower numbers have higher priority.
159 159 This allows "%magic?" to be turned into a help call rather than a magic call.
160 160 """
161 161 # Lower numbers -> higher priority (for matches in the same location)
162 162 priority = 10
163 163
164 164 def sortby(self):
165 165 return self.start_line, self.start_col, self.priority
166 166
167 167 def __init__(self, start):
168 168 self.start_line = start[0] - 1 # Shift from 1-index to 0-index
169 169 self.start_col = start[1]
170 170
171 171 @classmethod
172 172 def find(cls, tokens_by_line):
173 173 """Find one instance of special syntax in the provided tokens.
174 174
175 175 Tokens are grouped into logical lines for convenience,
176 176 so it is easy to e.g. look at the first token of each line.
177 177 *tokens_by_line* is a list of lists of tokenize.TokenInfo objects.
178 178
179 179 This should return an instance of its class, pointing to the start
180 180 position it has found, or None if it found no match.
181 181 """
182 182 raise NotImplementedError
183 183
184 184 def transform(self, lines: List[str]):
185 185 """Transform one instance of special syntax found by ``find()``
186 186
187 187 Takes a list of strings representing physical lines,
188 188 returns a similar list of transformed lines.
189 189 """
190 190 raise NotImplementedError
191 191
192 192 class MagicAssign(TokenTransformBase):
193 193 """Transformer for assignments from magics (a = %foo)"""
194 194 @classmethod
195 195 def find(cls, tokens_by_line):
196 196 """Find the first magic assignment (a = %foo) in the cell.
197 197 """
198 198 for line in tokens_by_line:
199 199 assign_ix = _find_assign_op(line)
200 200 if (assign_ix is not None) \
201 201 and (len(line) >= assign_ix + 2) \
202 202 and (line[assign_ix+1].string == '%') \
203 203 and (line[assign_ix+2].type == tokenize.NAME):
204 204 return cls(line[assign_ix+1].start)
205 205
206 206 def transform(self, lines: List[str]):
207 207 """Transform a magic assignment found by the ``find()`` classmethod.
208 208 """
209 209 start_line, start_col = self.start_line, self.start_col
210 210 lhs = lines[start_line][:start_col]
211 211 end_line = find_end_of_continued_line(lines, start_line)
212 212 rhs = assemble_continued_line(lines, (start_line, start_col), end_line)
213 213 assert rhs.startswith('%'), rhs
214 214 magic_name, _, args = rhs[1:].partition(' ')
215 215
216 216 lines_before = lines[:start_line]
217 217 call = "get_ipython().run_line_magic({!r}, {!r})".format(magic_name, args)
218 218 new_line = lhs + call + '\n'
219 219 lines_after = lines[end_line+1:]
220 220
221 221 return lines_before + [new_line] + lines_after
222 222
223 223
224 224 class SystemAssign(TokenTransformBase):
225 225 """Transformer for assignments from system commands (a = !foo)"""
226 226 @classmethod
227 227 def find(cls, tokens_by_line):
228 228 """Find the first system assignment (a = !foo) in the cell.
229 229 """
230 230 for line in tokens_by_line:
231 231 assign_ix = _find_assign_op(line)
232 232 if (assign_ix is not None) \
233 233 and (len(line) >= assign_ix + 2) \
234 234 and (line[assign_ix + 1].type == tokenize.ERRORTOKEN):
235 235 ix = assign_ix + 1
236 236
237 237 while ix < len(line) and line[ix].type == tokenize.ERRORTOKEN:
238 238 if line[ix].string == '!':
239 239 return cls(line[ix].start)
240 240 elif not line[ix].string.isspace():
241 241 break
242 242 ix += 1
243 243
244 244 def transform(self, lines: List[str]):
245 245 """Transform a system assignment found by the ``find()`` classmethod.
246 246 """
247 247 start_line, start_col = self.start_line, self.start_col
248 248
249 249 lhs = lines[start_line][:start_col]
250 250 end_line = find_end_of_continued_line(lines, start_line)
251 251 rhs = assemble_continued_line(lines, (start_line, start_col), end_line)
252 252 assert rhs.startswith('!'), rhs
253 253 cmd = rhs[1:]
254 254
255 255 lines_before = lines[:start_line]
256 256 call = "get_ipython().getoutput({!r})".format(cmd)
257 257 new_line = lhs + call + '\n'
258 258 lines_after = lines[end_line + 1:]
259 259
260 260 return lines_before + [new_line] + lines_after
261 261
262 262 # The escape sequences that define the syntax transformations IPython will
263 263 # apply to user input. These can NOT be just changed here: many regular
264 264 # expressions and other parts of the code may use their hardcoded values, and
265 265 # for all intents and purposes they constitute the 'IPython syntax', so they
266 266 # should be considered fixed.
267 267
268 268 ESC_SHELL = '!' # Send line to underlying system shell
269 269 ESC_SH_CAP = '!!' # Send line to system shell and capture output
270 270 ESC_HELP = '?' # Find information about object
271 271 ESC_HELP2 = '??' # Find extra-detailed information about object
272 272 ESC_MAGIC = '%' # Call magic function
273 273 ESC_MAGIC2 = '%%' # Call cell-magic function
274 274 ESC_QUOTE = ',' # Split args on whitespace, quote each as string and call
275 275 ESC_QUOTE2 = ';' # Quote all args as a single string, call
276 276 ESC_PAREN = '/' # Call first argument with rest of line as arguments
277 277
278 278 ESCAPE_SINGLES = {'!', '?', '%', ',', ';', '/'}
279 279 ESCAPE_DOUBLES = {'!!', '??'} # %% (cell magic) is handled separately
280 280
281 281 def _make_help_call(target, esc, next_input=None):
282 282 """Prepares a pinfo(2)/psearch call from a target name and the escape
283 283 (i.e. ? or ??)"""
284 284 method = 'pinfo2' if esc == '??' \
285 285 else 'psearch' if '*' in target \
286 286 else 'pinfo'
287 287 arg = " ".join([method, target])
288 288 #Prepare arguments for get_ipython().run_line_magic(magic_name, magic_args)
289 289 t_magic_name, _, t_magic_arg_s = arg.partition(' ')
290 290 t_magic_name = t_magic_name.lstrip(ESC_MAGIC)
291 291 if next_input is None:
292 292 return 'get_ipython().run_line_magic(%r, %r)' % (t_magic_name, t_magic_arg_s)
293 293 else:
294 294 return 'get_ipython().set_next_input(%r);get_ipython().run_line_magic(%r, %r)' % \
295 295 (next_input, t_magic_name, t_magic_arg_s)
296 296
297 297 def _tr_help(content):
298 298 """Translate lines escaped with: ?
299 299
300 300 A naked help line should fire the intro help screen (shell.show_usage())
301 301 """
302 302 if not content:
303 303 return 'get_ipython().show_usage()'
304 304
305 305 return _make_help_call(content, '?')
306 306
307 307 def _tr_help2(content):
308 308 """Translate lines escaped with: ??
309 309
310 310 A naked help line should fire the intro help screen (shell.show_usage())
311 311 """
312 312 if not content:
313 313 return 'get_ipython().show_usage()'
314 314
315 315 return _make_help_call(content, '??')
316 316
317 317 def _tr_magic(content):
318 318 "Translate lines escaped with a percent sign: %"
319 319 name, _, args = content.partition(' ')
320 320 return 'get_ipython().run_line_magic(%r, %r)' % (name, args)
321 321
322 322 def _tr_quote(content):
323 323 "Translate lines escaped with a comma: ,"
324 324 name, _, args = content.partition(' ')
325 325 return '%s("%s")' % (name, '", "'.join(args.split()) )
326 326
327 327 def _tr_quote2(content):
328 328 "Translate lines escaped with a semicolon: ;"
329 329 name, _, args = content.partition(' ')
330 330 return '%s("%s")' % (name, args)
331 331
332 332 def _tr_paren(content):
333 333 "Translate lines escaped with a slash: /"
334 334 name, _, args = content.partition(' ')
335 335 return '%s(%s)' % (name, ", ".join(args.split()))
336 336
337 337 tr = { ESC_SHELL : 'get_ipython().system({!r})'.format,
338 338 ESC_SH_CAP : 'get_ipython().getoutput({!r})'.format,
339 339 ESC_HELP : _tr_help,
340 340 ESC_HELP2 : _tr_help2,
341 341 ESC_MAGIC : _tr_magic,
342 342 ESC_QUOTE : _tr_quote,
343 343 ESC_QUOTE2 : _tr_quote2,
344 344 ESC_PAREN : _tr_paren }
345 345
346 346 class EscapedCommand(TokenTransformBase):
347 347 """Transformer for escaped commands like %foo, !foo, or /foo"""
348 348 @classmethod
349 349 def find(cls, tokens_by_line):
350 350 """Find the first escaped command (%foo, !foo, etc.) in the cell.
351 351 """
352 352 for line in tokens_by_line:
353 353 ix = 0
354 354 while line[ix].type in {tokenize.INDENT, tokenize.DEDENT}:
355 355 ix += 1
356 356 if line[ix].string in ESCAPE_SINGLES:
357 357 return cls(line[ix].start)
358 358
359 359 def transform(self, lines):
360 360 """Transform an escaped line found by the ``find()`` classmethod.
361 361 """
362 362 start_line, start_col = self.start_line, self.start_col
363 363
364 364 indent = lines[start_line][:start_col]
365 365 end_line = find_end_of_continued_line(lines, start_line)
366 366 line = assemble_continued_line(lines, (start_line, start_col), end_line)
367 367
368 368 if line[:2] in ESCAPE_DOUBLES:
369 369 escape, content = line[:2], line[2:]
370 370 else:
371 371 escape, content = line[:1], line[1:]
372 372 call = tr[escape](content)
373 373
374 374 lines_before = lines[:start_line]
375 375 new_line = indent + call + '\n'
376 376 lines_after = lines[end_line + 1:]
377 377
378 378 return lines_before + [new_line] + lines_after
379 379
380 380 _help_end_re = re.compile(r"""(%{0,2}
381 381 [a-zA-Z_*][\w*]* # Variable name
382 382 (\.[a-zA-Z_*][\w*]*)* # .etc.etc
383 383 )
384 384 (\?\??)$ # ? or ??
385 385 """,
386 386 re.VERBOSE)
387 387
388 388 class HelpEnd(TokenTransformBase):
389 389 """Transformer for help syntax: obj? and obj??"""
390 390 # This needs to be higher priority (lower number) than EscapedCommand so
391 391 # that inspecting magics (%foo?) works.
392 392 priority = 5
393 393
394 394 def __init__(self, start, q_locn):
395 395 super().__init__(start)
396 396 self.q_line = q_locn[0] - 1 # Shift from 1-indexed to 0-indexed
397 397 self.q_col = q_locn[1]
398 398
399 399 @classmethod
400 400 def find(cls, tokens_by_line):
401 401 """Find the first help command (foo?) in the cell.
402 402 """
403 403 for line in tokens_by_line:
404 404 # Last token is NEWLINE; look at last but one
405 405 if len(line) > 2 and line[-2].string == '?':
406 406 # Find the first token that's not INDENT/DEDENT
407 407 ix = 0
408 408 while line[ix].type in {tokenize.INDENT, tokenize.DEDENT}:
409 409 ix += 1
410 410 return cls(line[ix].start, line[-2].start)
411 411
412 412 def transform(self, lines):
413 413 """Transform a help command found by the ``find()`` classmethod.
414 414 """
415 415 piece = ''.join(lines[self.start_line:self.q_line+1])
416 416 indent, content = piece[:self.start_col], piece[self.start_col:]
417 417 lines_before = lines[:self.start_line]
418 418 lines_after = lines[self.q_line + 1:]
419 419
420 420 m = _help_end_re.search(content)
421 if not m:
422 raise SyntaxError(content)
421 423 assert m is not None, content
422 424 target = m.group(1)
423 425 esc = m.group(3)
424 426
425 427 # If we're mid-command, put it back on the next prompt for the user.
426 428 next_input = None
427 429 if (not lines_before) and (not lines_after) \
428 430 and content.strip() != m.group(0):
429 431 next_input = content.rstrip('?\n')
430 432
431 433 call = _make_help_call(target, esc, next_input=next_input)
432 434 new_line = indent + call + '\n'
433 435
434 436 return lines_before + [new_line] + lines_after
435 437
436 438 def make_tokens_by_line(lines):
437 439 """Tokenize a series of lines and group tokens by line.
438 440
439 441 The tokens for a multiline Python string or expression are
440 442 grouped as one line.
441 443 """
442 444 # NL tokens are used inside multiline expressions, but also after blank
443 445 # lines or comments. This is intentional - see https://bugs.python.org/issue17061
444 446 # We want to group the former case together but split the latter, so we
445 447 # track parentheses level, similar to the internals of tokenize.
446 448 NEWLINE, NL = tokenize.NEWLINE, tokenize.NL
447 449 tokens_by_line = [[]]
448 450 parenlev = 0
449 451 try:
450 452 for token in tokenize.generate_tokens(iter(lines).__next__):
451 453 tokens_by_line[-1].append(token)
452 454 if (token.type == NEWLINE) \
453 455 or ((token.type == NL) and (parenlev <= 0)):
454 456 tokens_by_line.append([])
455 457 elif token.string in {'(', '[', '{'}:
456 458 parenlev += 1
457 459 elif token.string in {')', ']', '}'}:
458 460 if parenlev > 0:
459 461 parenlev -= 1
460 462 except tokenize.TokenError:
461 463 # Input ended in a multiline string or expression. That's OK for us.
462 464 pass
465 if not tokens_by_line[-1]:
466 tokens_by_line.pop()
463 467
464 468 return tokens_by_line
465 469
466 470 def show_linewise_tokens(s: str):
467 471 """For investigation and debugging"""
468 472 if not s.endswith('\n'):
469 473 s += '\n'
470 474 lines = s.splitlines(keepends=True)
471 475 for line in make_tokens_by_line(lines):
472 476 print("Line -------")
473 477 for tokinfo in line:
474 478 print(" ", tokinfo)
475 479
476 480 # Arbitrary limit to prevent getting stuck in infinite loops
477 481 TRANSFORM_LOOP_LIMIT = 500
478 482
479 483 class TransformerManager:
480 484 """Applies various transformations to a cell or code block.
481 485
482 486 The key methods for external use are ``transform_cell()``
483 487 and ``check_complete()``.
484 488 """
485 489 def __init__(self):
486 490 self.cleanup_transforms = [
487 491 leading_indent,
488 492 classic_prompt,
489 493 ipython_prompt,
490 494 ]
491 495 self.line_transforms = [
492 496 cell_magic,
493 497 ]
494 498 self.token_transformers = [
495 499 MagicAssign,
496 500 SystemAssign,
497 501 EscapedCommand,
498 502 HelpEnd,
499 503 ]
500 504
501 505 def do_one_token_transform(self, lines):
502 506 """Find and run the transform earliest in the code.
503 507
504 508 Returns (changed, lines).
505 509
506 510 This method is called repeatedly until changed is False, indicating
507 511 that all available transformations are complete.
508 512
509 513 The tokens following IPython special syntax might not be valid, so
510 514 the transformed code is retokenised every time to identify the next
511 515 piece of special syntax. Hopefully long code cells are mostly valid
512 516 Python, not using lots of IPython special syntax, so this shouldn't be
513 517 a performance issue.
514 518 """
515 519 tokens_by_line = make_tokens_by_line(lines)
516 520 candidates = []
517 521 for transformer_cls in self.token_transformers:
518 522 transformer = transformer_cls.find(tokens_by_line)
519 523 if transformer:
520 524 candidates.append(transformer)
521 525
522 526 if not candidates:
523 527 # Nothing to transform
524 528 return False, lines
525 529
526 530 transformer = min(candidates, key=TokenTransformBase.sortby)
531 transformed = transformer.transform(lines)
532 if transformed is None:
533 return False, lines
527 534 return True, transformer.transform(lines)
528 535
529 536 def do_token_transforms(self, lines):
530 537 for _ in range(TRANSFORM_LOOP_LIMIT):
531 538 changed, lines = self.do_one_token_transform(lines)
532 539 if not changed:
533 540 return lines
534 541
535 542 raise RuntimeError("Input transformation still changing after "
536 543 "%d iterations. Aborting." % TRANSFORM_LOOP_LIMIT)
537 544
538 545 def transform_cell(self, cell: str) -> str:
539 546 """Transforms a cell of input code"""
540 547 if not cell.endswith('\n'):
541 548 cell += '\n' # Ensure the cell has a trailing newline
542 549 lines = cell.splitlines(keepends=True)
543 550 for transform in self.cleanup_transforms + self.line_transforms:
544 551 lines = transform(lines)
545 552
546 553 lines = self.do_token_transforms(lines)
547 554 return ''.join(lines)
548 555
549 556 def check_complete(self, cell: str):
550 557 """Return whether a block of code is ready to execute, or should be continued
551 558
552 559 Parameters
553 560 ----------
554 561 source : string
555 562 Python input code, which can be multiline.
556 563
557 564 Returns
558 565 -------
559 566 status : str
560 567 One of 'complete', 'incomplete', or 'invalid' if source is not a
561 568 prefix of valid code.
562 569 indent_spaces : int or None
563 570 The number of spaces by which to indent the next line of code. If
564 571 status is not 'incomplete', this is None.
565 572 """
566 573 if not cell.endswith('\n'):
567 574 cell += '\n' # Ensure the cell has a trailing newline
568 575 lines = cell.splitlines(keepends=True)
569 576 if lines[-1][:-1].endswith('\\'):
570 577 # Explicit backslash continuation
571 578 return 'incomplete', find_last_indent(lines)
572 579
573 580 try:
574 581 for transform in self.cleanup_transforms:
575 582 lines = transform(lines)
576 583 except SyntaxError:
577 584 return 'invalid', None
578 585
579 586 if lines[0].startswith('%%'):
580 587 # Special case for cell magics - completion marked by blank line
581 588 if lines[-1].strip():
582 589 return 'incomplete', find_last_indent(lines)
583 590 else:
584 591 return 'complete', None
585 592
586 593 try:
587 594 for transform in self.line_transforms:
588 595 lines = transform(lines)
589 596 lines = self.do_token_transforms(lines)
590 597 except SyntaxError:
591 598 return 'invalid', None
592 599
593 600 tokens_by_line = make_tokens_by_line(lines)
601 if not tokens_by_line:
602 return 'incomplete', find_last_indent(lines)
594 603 if tokens_by_line[-1][-1].type != tokenize.ENDMARKER:
595 604 # We're in a multiline string or expression
596 605 return 'incomplete', find_last_indent(lines)
597
606 if len(tokens_by_line) == 1:
607 return 'incomplete', find_last_indent(lines)
598 608 # Find the last token on the previous line that's not NEWLINE or COMMENT
599 609 toks_last_line = tokens_by_line[-2]
600 610 ix = len(toks_last_line) - 1
601 611 while ix >= 0 and toks_last_line[ix].type in {tokenize.NEWLINE,
602 612 tokenize.COMMENT}:
603 613 ix -= 1
604 614
605 615 if toks_last_line[ix].string == ':':
606 616 # The last line starts a block (e.g. 'if foo:')
607 617 ix = 0
608 618 while toks_last_line[ix].type in {tokenize.INDENT, tokenize.DEDENT}:
609 619 ix += 1
610 620 indent = toks_last_line[ix].start[1]
611 621 return 'incomplete', indent + 4
612 622
613 623 # If there's a blank line at the end, assume we're ready to execute.
614 624 if not lines[-1].strip():
615 625 return 'complete', None
616 626
617 627 # At this point, our checks think the code is complete (or invalid).
618 628 # We'll use codeop.compile_command to check this with the real parser.
619 629
620 630 try:
621 631 with warnings.catch_warnings():
622 632 warnings.simplefilter('error', SyntaxWarning)
623 633 res = compile_command(''.join(lines), symbol='exec')
624 634 except (SyntaxError, OverflowError, ValueError, TypeError,
625 635 MemoryError, SyntaxWarning):
626 636 return 'invalid', None
627 637 else:
628 638 if res is None:
629 639 return 'incomplete', find_last_indent(lines)
630 640 return 'complete', None
631 641
632 642
633 643 def find_last_indent(lines):
634 644 m = _indent_re.match(lines[-1])
635 645 if not m:
636 646 return 0
637 647 return len(m.group(0).replace('\t', ' '*4))
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