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1 # Copyright 2015 Google Inc. All Rights Reserved.
2 #
3 # Licensed under the Apache License, Version 2.0 (the "License");
4 # you may not use this file except in compliance with the License.
5 # You may obtain a copy of the License at
6 #
7 # http://www.apache.org/licenses/LICENSE-2.0
8 #
9 # Unless required by applicable law or agreed to in writing, software
10 # distributed under the License is distributed on an "AS IS" BASIS,
11 # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
12 # See the License for the specific language governing permissions and
13 # limitations under the License.
14 """Decide what the format for the code should be.
15
16 The `logical_line.LogicalLine`s are now ready to be formatted. LogicalLInes that
17 can be merged together are. The best formatting is returned as a string.
18
19 Reformat(): the main function exported by this module.
20 """
21
22 import collections
23 import heapq
24 import re
25
26 from yapf_third_party._ylib2to3 import pytree
27 from yapf_third_party._ylib2to3.pgen2 import token
28
29 from yapf.pytree import pytree_utils
30 from yapf.yapflib import format_decision_state
31 from yapf.yapflib import format_token
32 from yapf.yapflib import line_joiner
33 from yapf.yapflib import style
34
35
36 def Reformat(llines, lines=None):
37 """Reformat the logical lines.
38
39 Arguments:
40 llines: (list of logical_line.LogicalLine) Lines we want to format.
41 lines: (set of int) The lines which can be modified or None if there is no
42 line range restriction.
43
44 Returns:
45 A string representing the reformatted code.
46 """
47 final_lines = []
48 prev_line = None # The previous line.
49 indent_width = style.Get('INDENT_WIDTH')
50
51 for lline in _SingleOrMergedLines(llines):
52 first_token = lline.first
53 _FormatFirstToken(first_token, lline.depth, prev_line, final_lines)
54
55 indent_amt = indent_width * lline.depth
56 state = format_decision_state.FormatDecisionState(lline, indent_amt)
57 state.MoveStateToNextToken()
58
59 if not lline.disable:
60 if lline.first.is_comment:
61 lline.first.value = lline.first.value.rstrip()
62 elif lline.last.is_comment:
63 lline.last.value = lline.last.value.rstrip()
64 if prev_line and prev_line.disable:
65 # Keep the vertical spacing between a disabled and enabled formatting
66 # region.
67 _RetainRequiredVerticalSpacingBetweenTokens(lline.first, prev_line.last,
68 lines)
69 if any(tok.is_comment for tok in lline.tokens):
70 _RetainVerticalSpacingBeforeComments(lline)
71
72 if lline.disable or _LineHasContinuationMarkers(lline):
73 _RetainHorizontalSpacing(lline)
74 _RetainRequiredVerticalSpacing(lline, prev_line, lines)
75 _EmitLineUnformatted(state)
76
77 elif (_LineContainsPylintDisableLineTooLong(lline) or
78 _LineContainsI18n(lline)):
79 # Don't modify vertical spacing, but fix any horizontal spacing issues.
80 _RetainRequiredVerticalSpacing(lline, prev_line, lines)
81 _EmitLineUnformatted(state)
82
83 elif _CanPlaceOnSingleLine(lline) and not any(tok.must_break_before
84 for tok in lline.tokens):
85 # The logical line fits on one line.
86 while state.next_token:
87 state.AddTokenToState(newline=False, dry_run=False)
88
89 elif not _AnalyzeSolutionSpace(state):
90 # Failsafe mode. If there isn't a solution to the line, then just emit
91 # it as is.
92 state = format_decision_state.FormatDecisionState(lline, indent_amt)
93 state.MoveStateToNextToken()
94 _RetainHorizontalSpacing(lline)
95 _RetainRequiredVerticalSpacing(lline, prev_line, None)
96 _EmitLineUnformatted(state)
97
98 final_lines.append(lline)
99 prev_line = lline
100
101 _AlignTrailingComments(final_lines)
102 return _FormatFinalLines(final_lines)
103
104
105 def _RetainHorizontalSpacing(line):
106 """Retain all horizontal spacing between tokens."""
107 for tok in line.tokens:
108 tok.RetainHorizontalSpacing(line.first.column, line.depth)
109
110
111 def _RetainRequiredVerticalSpacing(cur_line, prev_line, lines):
112 """Retain all vertical spacing between lines."""
113 prev_tok = None
114 if prev_line is not None:
115 prev_tok = prev_line.last
116
117 if cur_line.disable:
118 # After the first token we are acting on a single line. So if it is
119 # disabled we must not reformat.
120 lines = set()
121
122 for cur_tok in cur_line.tokens:
123 _RetainRequiredVerticalSpacingBetweenTokens(cur_tok, prev_tok, lines)
124 prev_tok = cur_tok
125
126
127 def _RetainRequiredVerticalSpacingBetweenTokens(cur_tok, prev_tok, lines):
128 """Retain vertical spacing between two tokens if not in editable range."""
129 if prev_tok is None:
130 return
131
132 if prev_tok.is_string:
133 prev_lineno = prev_tok.lineno + prev_tok.value.count('\n')
134 elif prev_tok.is_pseudo:
135 if not prev_tok.previous_token.is_multiline_string:
136 prev_lineno = prev_tok.previous_token.lineno
137 else:
138 prev_lineno = prev_tok.lineno
139 else:
140 prev_lineno = prev_tok.lineno
141
142 if cur_tok.is_comment:
143 cur_lineno = cur_tok.lineno - cur_tok.value.count('\n')
144 else:
145 cur_lineno = cur_tok.lineno
146
147 if not prev_tok.is_comment and prev_tok.value.endswith('\\'):
148 prev_lineno += prev_tok.value.count('\n')
149
150 required_newlines = cur_lineno - prev_lineno
151 if cur_tok.is_comment and not prev_tok.is_comment:
152 # Don't adjust between a comment and non-comment.
153 pass
154 elif lines and lines.intersection(range(prev_lineno, cur_lineno + 1)):
155 desired_newlines = cur_tok.whitespace_prefix.count('\n')
156 whitespace_lines = range(prev_lineno + 1, cur_lineno)
157 deletable_lines = len(lines.intersection(whitespace_lines))
158 required_newlines = max(required_newlines - deletable_lines,
159 desired_newlines)
160
161 cur_tok.AdjustNewlinesBefore(required_newlines)
162
163
164 def _RetainVerticalSpacingBeforeComments(line):
165 """Retain vertical spacing before comments."""
166 prev_token = None
167 for tok in line.tokens:
168 if tok.is_comment and prev_token:
169 if tok.lineno - tok.value.count('\n') - prev_token.lineno > 1:
170 tok.AdjustNewlinesBefore(ONE_BLANK_LINE)
171
172 prev_token = tok
173
174
175 def _EmitLineUnformatted(state):
176 """Emit the line without formatting.
177
178 The line contains code that if reformatted would break a non-syntactic
179 convention. E.g., i18n comments and function calls are tightly bound by
180 convention. Instead, we calculate when / if a newline should occur and honor
181 that. But otherwise the code emitted will be the same as the original code.
182
183 Arguments:
184 state: (format_decision_state.FormatDecisionState) The format decision
185 state.
186 """
187 while state.next_token:
188 previous_token = state.next_token.previous_token
189 previous_lineno = previous_token.lineno
190
191 if previous_token.is_multiline_string or previous_token.is_string:
192 previous_lineno += previous_token.value.count('\n')
193
194 if previous_token.is_continuation:
195 newline = False
196 else:
197 newline = state.next_token.lineno > previous_lineno
198
199 state.AddTokenToState(newline=newline, dry_run=False)
200
201
202 def _LineContainsI18n(line):
203 """Return true if there are i18n comments or function calls in the line.
204
205 I18n comments and pseudo-function calls are closely related. They cannot
206 be moved apart without breaking i18n.
207
208 Arguments:
209 line: (logical_line.LogicalLine) The line currently being formatted.
210
211 Returns:
212 True if the line contains i18n comments or function calls. False otherwise.
213 """
214 if style.Get('I18N_COMMENT'):
215 for tok in line.tokens:
216 if tok.is_comment and re.match(style.Get('I18N_COMMENT'), tok.value):
217 # Contains an i18n comment.
218 return True
219
220 if style.Get('I18N_FUNCTION_CALL'):
221 length = len(line.tokens)
222 for index in range(length - 1):
223 if (line.tokens[index + 1].value == '(' and
224 line.tokens[index].value in style.Get('I18N_FUNCTION_CALL')):
225 return True
226 return False
227
228
229 def _LineContainsPylintDisableLineTooLong(line):
230 """Return true if there is a "pylint: disable=line-too-long" comment."""
231 return re.search(r'\bpylint:\s+disable=line-too-long\b', line.last.value)
232
233
234 def _LineHasContinuationMarkers(line):
235 """Return true if the line has continuation markers in it."""
236 return any(tok.is_continuation for tok in line.tokens)
237
238
239 def _CanPlaceOnSingleLine(line):
240 """Determine if the logical line can go on a single line.
241
242 Arguments:
243 line: (logical_line.LogicalLine) The line currently being formatted.
244
245 Returns:
246 True if the line can or should be added to a single line. False otherwise.
247 """
248 token_types = [x.type for x in line.tokens]
249 if (style.Get('SPLIT_ARGUMENTS_WHEN_COMMA_TERMINATED') and
250 any(token_types[token_index - 1] == token.COMMA
251 for token_index, token_type in enumerate(token_types[1:], start=1)
252 if token_type == token.RPAR)):
253 return False
254 if (style.Get('FORCE_MULTILINE_DICT') and token.LBRACE in token_types):
255 return False
256 indent_amt = style.Get('INDENT_WIDTH') * line.depth
257 last = line.last
258 last_index = -1
259 if (last.is_pylint_comment or last.is_pytype_comment or
260 last.is_copybara_comment):
261 last = last.previous_token
262 last_index = -2
263 if last is None:
264 return True
265 return (last.total_length + indent_amt <= style.Get('COLUMN_LIMIT') and
266 not any(tok.is_comment for tok in line.tokens[:last_index]))
267
268
269 def _AlignTrailingComments(final_lines):
270 """Align trailing comments to the same column."""
271 final_lines_index = 0
272 while final_lines_index < len(final_lines):
273 line = final_lines[final_lines_index]
274 assert line.tokens
275
276 processed_content = False
277
278 for tok in line.tokens:
279 if (tok.is_comment and isinstance(tok.spaces_required_before, list) and
280 tok.value.startswith('#')):
281 # All trailing comments and comments that appear on a line by themselves
282 # in this block should be indented at the same level. The block is
283 # terminated by an empty line or EOF. Enumerate through each line in
284 # the block and calculate the max line length. Once complete, use the
285 # first col value greater than that value and create the necessary for
286 # each line accordingly.
287 all_pc_line_lengths = [] # All pre-comment line lengths
288 max_line_length = 0
289
290 while True:
291 # EOF
292 if final_lines_index + len(all_pc_line_lengths) == len(final_lines):
293 break
294
295 this_line = final_lines[final_lines_index + len(all_pc_line_lengths)]
296
297 # Blank line - note that content is preformatted so we don't need to
298 # worry about spaces/tabs; a blank line will always be '\n\n'.
299 assert this_line.tokens
300 if (all_pc_line_lengths and
301 this_line.tokens[0].formatted_whitespace_prefix.startswith('\n\n')
302 ):
303 break
304
305 if this_line.disable:
306 all_pc_line_lengths.append([])
307 continue
308
309 # Calculate the length of each line in this logical line.
310 line_content = ''
311 pc_line_lengths = []
312
313 for line_tok in this_line.tokens:
314 whitespace_prefix = line_tok.formatted_whitespace_prefix
315
316 newline_index = whitespace_prefix.rfind('\n')
317 if newline_index != -1:
318 max_line_length = max(max_line_length, len(line_content))
319 line_content = ''
320
321 whitespace_prefix = whitespace_prefix[newline_index + 1:]
322
323 if line_tok.is_comment:
324 pc_line_lengths.append(len(line_content))
325 else:
326 line_content += '{}{}'.format(whitespace_prefix, line_tok.value)
327
328 if pc_line_lengths:
329 max_line_length = max(max_line_length, max(pc_line_lengths))
330
331 all_pc_line_lengths.append(pc_line_lengths)
332
333 # Calculate the aligned column value
334 max_line_length += 2
335
336 aligned_col = None
337 for potential_col in tok.spaces_required_before:
338 if potential_col > max_line_length:
339 aligned_col = potential_col
340 break
341
342 if aligned_col is None:
343 aligned_col = max_line_length
344
345 # Update the comment token values based on the aligned values
346 for all_pc_line_lengths_index, pc_line_lengths in enumerate(
347 all_pc_line_lengths):
348 if not pc_line_lengths:
349 continue
350
351 this_line = final_lines[final_lines_index + all_pc_line_lengths_index]
352
353 pc_line_length_index = 0
354 for line_tok in this_line.tokens:
355 if line_tok.is_comment:
356 assert pc_line_length_index < len(pc_line_lengths)
357 assert pc_line_lengths[pc_line_length_index] < aligned_col
358
359 # Note that there may be newlines embedded in the comments, so
360 # we need to apply a whitespace prefix to each line.
361 whitespace = ' ' * (
362 aligned_col - pc_line_lengths[pc_line_length_index] - 1)
363 pc_line_length_index += 1
364
365 line_content = []
366
367 for comment_line_index, comment_line in enumerate(
368 line_tok.value.split('\n')):
369 line_content.append('{}{}'.format(whitespace,
370 comment_line.strip()))
371
372 if comment_line_index == 0:
373 whitespace = ' ' * (aligned_col - 1)
374
375 line_content = '\n'.join(line_content)
376
377 # Account for initial whitespace already slated for the
378 # beginning of the line.
379 existing_whitespace_prefix = \
380 line_tok.formatted_whitespace_prefix.lstrip('\n')
381
382 if line_content.startswith(existing_whitespace_prefix):
383 line_content = line_content[len(existing_whitespace_prefix):]
384
385 line_tok.value = line_content
386
387 assert pc_line_length_index == len(pc_line_lengths)
388
389 final_lines_index += len(all_pc_line_lengths)
390
391 processed_content = True
392 break
393
394 if not processed_content:
395 final_lines_index += 1
396
397
398 def _FormatFinalLines(final_lines):
399 """Compose the final output from the finalized lines."""
400 formatted_code = []
401 for line in final_lines:
402 formatted_line = []
403 for tok in line.tokens:
404 if not tok.is_pseudo:
405 formatted_line.append(tok.formatted_whitespace_prefix)
406 formatted_line.append(tok.value)
407 elif (not tok.next_token.whitespace_prefix.startswith('\n') and
408 not tok.next_token.whitespace_prefix.startswith(' ')):
409 if (tok.previous_token.value == ':' or
410 tok.next_token.value not in ',}])'):
411 formatted_line.append(' ')
412
413 formatted_code.append(''.join(formatted_line))
414
415 return ''.join(formatted_code) + '\n'
416
417
418 class _StateNode(object):
419 """An edge in the solution space from 'previous.state' to 'state'.
420
421 Attributes:
422 state: (format_decision_state.FormatDecisionState) The format decision state
423 for this node.
424 newline: If True, then on the edge from 'previous.state' to 'state' a
425 newline is inserted.
426 previous: (_StateNode) The previous state node in the graph.
427 """
428
429 # TODO(morbo): Add a '__cmp__' method.
430
431 def __init__(self, state, newline, previous):
432 self.state = state.Clone()
433 self.newline = newline
434 self.previous = previous
435
436 def __repr__(self): # pragma: no cover
437 return 'StateNode(state=[\n{0}\n], newline={1})'.format(
438 self.state, self.newline)
439
440
441 # A tuple of (penalty, count) that is used to prioritize the BFS. In case of
442 # equal penalties, we prefer states that were inserted first. During state
443 # generation, we make sure that we insert states first that break the line as
444 # late as possible.
445 _OrderedPenalty = collections.namedtuple('OrderedPenalty', ['penalty', 'count'])
446
447 # An item in the prioritized BFS search queue. The 'StateNode's 'state' has
448 # the given '_OrderedPenalty'.
449 _QueueItem = collections.namedtuple('QueueItem',
450 ['ordered_penalty', 'state_node'])
451
452
453 def _AnalyzeSolutionSpace(initial_state):
454 """Analyze the entire solution space starting from initial_state.
455
456 This implements a variant of Dijkstra's algorithm on the graph that spans
457 the solution space (LineStates are the nodes). The algorithm tries to find
458 the shortest path (the one with the lowest penalty) from 'initial_state' to
459 the state where all tokens are placed.
460
461 Arguments:
462 initial_state: (format_decision_state.FormatDecisionState) The initial state
463 to start the search from.
464
465 Returns:
466 True if a formatting solution was found. False otherwise.
467 """
468 count = 0
469 seen = set()
470 p_queue = []
471
472 # Insert start element.
473 node = _StateNode(initial_state, False, None)
474 heapq.heappush(p_queue, _QueueItem(_OrderedPenalty(0, count), node))
475
476 count += 1
477 while p_queue:
478 item = p_queue[0]
479 penalty = item.ordered_penalty.penalty
480 node = item.state_node
481 if not node.state.next_token:
482 break
483 heapq.heappop(p_queue)
484
485 if count > 10000:
486 node.state.ignore_stack_for_comparison = True
487
488 # Unconditionally add the state and check if it was present to avoid having
489 # to hash it twice in the common case (state hashing is expensive).
490 before_seen_count = len(seen)
491 seen.add(node.state)
492 # If seen didn't change size, the state was already present.
493 if before_seen_count == len(seen):
494 continue
495
496 # FIXME(morbo): Add a 'decision' element?
497
498 count = _AddNextStateToQueue(penalty, node, False, count, p_queue)
499 count = _AddNextStateToQueue(penalty, node, True, count, p_queue)
500
501 if not p_queue:
502 # We weren't able to find a solution. Do nothing.
503 return False
504
505 _ReconstructPath(initial_state, heapq.heappop(p_queue).state_node)
506 return True
507
508
509 def _AddNextStateToQueue(penalty, previous_node, newline, count, p_queue):
510 """Add the following state to the analysis queue.
511
512 Assume the current state is 'previous_node' and has been reached with a
513 penalty of 'penalty'. Insert a line break if 'newline' is True.
514
515 Arguments:
516 penalty: (int) The penalty associated with the path up to this point.
517 previous_node: (_StateNode) The last _StateNode inserted into the priority
518 queue.
519 newline: (bool) Add a newline if True.
520 count: (int) The number of elements in the queue.
521 p_queue: (heapq) The priority queue representing the solution space.
522
523 Returns:
524 The updated number of elements in the queue.
525 """
526 must_split = previous_node.state.MustSplit()
527 if newline and not previous_node.state.CanSplit(must_split):
528 # Don't add a newline if the token cannot be split.
529 return count
530 if not newline and must_split:
531 # Don't add a token we must split but where we aren't splitting.
532 return count
533
534 node = _StateNode(previous_node.state, newline, previous_node)
535 penalty += node.state.AddTokenToState(
536 newline=newline, dry_run=True, must_split=must_split)
537 heapq.heappush(p_queue, _QueueItem(_OrderedPenalty(penalty, count), node))
538 return count + 1
539
540
541 def _ReconstructPath(initial_state, current):
542 """Reconstruct the path through the queue with lowest penalty.
543
544 Arguments:
545 initial_state: (format_decision_state.FormatDecisionState) The initial state
546 to start the search from.
547 current: (_StateNode) The node in the decision graph that is the end point
548 of the path with the least penalty.
549 """
550 path = collections.deque()
551
552 while current.previous:
553 path.appendleft(current)
554 current = current.previous
555
556 for node in path:
557 initial_state.AddTokenToState(newline=node.newline, dry_run=False)
558
559
560 NESTED_DEPTH = []
561
562
563 def _FormatFirstToken(first_token, indent_depth, prev_line, final_lines):
564 """Format the first token in the logical line.
565
566 Add a newline and the required indent before the first token of the logical
567 line.
568
569 Arguments:
570 first_token: (format_token.FormatToken) The first token in the logical line.
571 indent_depth: (int) The line's indentation depth.
572 prev_line: (list of logical_line.LogicalLine) The logical line previous to
573 this line.
574 final_lines: (list of logical_line.LogicalLine) The logical lines that have
575 already been processed.
576 """
577 global NESTED_DEPTH
578 while NESTED_DEPTH and NESTED_DEPTH[-1] > indent_depth:
579 NESTED_DEPTH.pop()
580
581 first_nested = False
582 if _IsClassOrDef(first_token):
583 if not NESTED_DEPTH:
584 NESTED_DEPTH = [indent_depth]
585 elif NESTED_DEPTH[-1] < indent_depth:
586 first_nested = True
587 NESTED_DEPTH.append(indent_depth)
588
589 first_token.AddWhitespacePrefix(
590 _CalculateNumberOfNewlines(first_token, indent_depth, prev_line,
591 final_lines, first_nested),
592 indent_level=indent_depth)
593
594
595 NO_BLANK_LINES = 1
596 ONE_BLANK_LINE = 2
597 TWO_BLANK_LINES = 3
598
599
600 def _IsClassOrDef(tok):
601 if tok.value in {'class', 'def', '@'}:
602 return True
603 return (tok.next_token and tok.value == 'async' and
604 tok.next_token.value == 'def')
605
606
607 def _CalculateNumberOfNewlines(first_token, indent_depth, prev_line,
608 final_lines, first_nested):
609 """Calculate the number of newlines we need to add.
610
611 Arguments:
612 first_token: (format_token.FormatToken) The first token in the logical
613 line.
614 indent_depth: (int) The line's indentation depth.
615 prev_line: (list of logical_line.LogicalLine) The logical line previous to
616 this line.
617 final_lines: (list of logical_line.LogicalLine) The logical lines that have
618 already been processed.
619 first_nested: (boolean) Whether this is the first nested class or function.
620
621 Returns:
622 The number of newlines needed before the first token.
623 """
624 # TODO(morbo): Special handling for imports.
625 # TODO(morbo): Create a knob that can tune these.
626 if prev_line is None:
627 # The first line in the file. Don't add blank lines.
628 # FIXME(morbo): Is this correct?
629 if first_token.newlines is not None:
630 first_token.newlines = None
631 return 0
632
633 if first_token.is_docstring:
634 if (prev_line.first.value == 'class' and
635 style.Get('BLANK_LINE_BEFORE_CLASS_DOCSTRING')):
636 # Enforce a blank line before a class's docstring.
637 return ONE_BLANK_LINE
638 elif (prev_line.first.value.startswith('#') and
639 style.Get('BLANK_LINE_BEFORE_MODULE_DOCSTRING')):
640 # Enforce a blank line before a module's docstring.
641 return ONE_BLANK_LINE
642 # The docstring shouldn't have a newline before it.
643 return NO_BLANK_LINES
644
645 if first_token.is_name and not indent_depth:
646 if prev_line.first.value in {'from', 'import'}:
647 # Support custom number of blank lines between top-level imports and
648 # variable definitions.
649 return 1 + style.Get(
650 'BLANK_LINES_BETWEEN_TOP_LEVEL_IMPORTS_AND_VARIABLES')
651
652 prev_last_token = prev_line.last
653 if prev_last_token.is_docstring:
654 if (not indent_depth and first_token.value in {'class', 'def', 'async'}):
655 # Separate a class or function from the module-level docstring with
656 # appropriate number of blank lines.
657 return 1 + style.Get('BLANK_LINES_AROUND_TOP_LEVEL_DEFINITION')
658 if (first_nested and
659 not style.Get('BLANK_LINE_BEFORE_NESTED_CLASS_OR_DEF') and
660 _IsClassOrDef(first_token)):
661 first_token.newlines = None
662 return NO_BLANK_LINES
663 if _NoBlankLinesBeforeCurrentToken(prev_last_token.value, first_token,
664 prev_last_token):
665 return NO_BLANK_LINES
666 else:
667 return ONE_BLANK_LINE
668
669 if _IsClassOrDef(first_token):
670 # TODO(morbo): This can go once the blank line calculator is more
671 # sophisticated.
672 if not indent_depth:
673 # This is a top-level class or function.
674 is_inline_comment = prev_last_token.whitespace_prefix.count('\n') == 0
675 if (not prev_line.disable and prev_last_token.is_comment and
676 not is_inline_comment):
677 # This token follows a non-inline comment.
678 if _NoBlankLinesBeforeCurrentToken(prev_last_token.value, first_token,
679 prev_last_token):
680 # Assume that the comment is "attached" to the current line.
681 # Therefore, we want two blank lines before the comment.
682 index = len(final_lines) - 1
683 while index > 0:
684 if not final_lines[index - 1].is_comment:
685 break
686 index -= 1
687 if final_lines[index - 1].first.value == '@':
688 final_lines[index].first.AdjustNewlinesBefore(NO_BLANK_LINES)
689 else:
690 prev_last_token.AdjustNewlinesBefore(
691 1 + style.Get('BLANK_LINES_AROUND_TOP_LEVEL_DEFINITION'))
692 if first_token.newlines is not None:
693 first_token.newlines = None
694 return NO_BLANK_LINES
695 elif _IsClassOrDef(prev_line.first):
696 if first_nested and not style.Get(
697 'BLANK_LINE_BEFORE_NESTED_CLASS_OR_DEF'):
698 first_token.newlines = None
699 return NO_BLANK_LINES
700
701 # Calculate how many newlines were between the original lines. We want to
702 # retain that formatting if it doesn't violate one of the style guide rules.
703 if first_token.is_comment:
704 first_token_lineno = first_token.lineno - first_token.value.count('\n')
705 else:
706 first_token_lineno = first_token.lineno
707
708 prev_last_token_lineno = prev_last_token.lineno
709 if prev_last_token.is_multiline_string:
710 prev_last_token_lineno += prev_last_token.value.count('\n')
711
712 if first_token_lineno - prev_last_token_lineno > 1:
713 return ONE_BLANK_LINE
714
715 return NO_BLANK_LINES
716
717
718 def _SingleOrMergedLines(lines):
719 """Generate the lines we want to format.
720
721 Arguments:
722 lines: (list of logical_line.LogicalLine) Lines we want to format.
723
724 Yields:
725 Either a single line, if the current line cannot be merged with the
726 succeeding line, or the next two lines merged into one line.
727 """
728 index = 0
729 last_was_merged = False
730 while index < len(lines):
731 if lines[index].disable:
732 line = lines[index]
733 index += 1
734 while index < len(lines):
735 column = line.last.column + 2
736 if lines[index].lineno != line.lineno:
737 break
738 if line.last.value != ':':
739 leaf = pytree.Leaf(
740 type=token.SEMI, value=';', context=('', (line.lineno, column)))
741 line.AppendToken(
742 format_token.FormatToken(leaf, pytree_utils.NodeName(leaf)))
743 for tok in lines[index].tokens:
744 line.AppendToken(tok)
745 index += 1
746 yield line
747 elif line_joiner.CanMergeMultipleLines(lines[index:], last_was_merged):
748 # TODO(morbo): This splice is potentially very slow. Come up with a more
749 # performance-friendly way of determining if two lines can be merged.
750 next_line = lines[index + 1]
751 for tok in next_line.tokens:
752 lines[index].AppendToken(tok)
753 if (len(next_line.tokens) == 1 and next_line.first.is_multiline_string):
754 # This may be a multiline shebang. In that case, we want to retain the
755 # formatting. Otherwise, it could mess up the shell script's syntax.
756 lines[index].disable = True
757 yield lines[index]
758 index += 2
759 last_was_merged = True
760 else:
761 yield lines[index]
762 index += 1
763 last_was_merged = False
764
765
766 def _NoBlankLinesBeforeCurrentToken(text, cur_token, prev_token):
767 """Determine if there are no blank lines before the current token.
768
769 The previous token is a docstring or comment. The prev_token_lineno is the
770 start of the text of that token. Counting the number of newlines in its text
771 gives us the extent and thus where the line number of the end of the
772 docstring or comment. After that, we just compare it to the current token's
773 line number to see if there are blank lines between them.
774
775 Arguments:
776 text: (unicode) The text of the docstring or comment before the current
777 token.
778 cur_token: (format_token.FormatToken) The current token in the logical line.
779 prev_token: (format_token.FormatToken) The previous token in the logical
780 line.
781
782 Returns:
783 True if there is no blank line before the current token.
784 """
785 cur_token_lineno = cur_token.lineno
786 if cur_token.is_comment:
787 cur_token_lineno -= cur_token.value.count('\n')
788 num_newlines = text.count('\n') if not prev_token.is_comment else 0
789 return prev_token.lineno + num_newlines == cur_token_lineno - 1