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effectflag: detect when description changed...
Boris Feld -
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1 1 # obsutil.py - utility functions for obsolescence
2 2 #
3 3 # Copyright 2017 Boris Feld <boris.feld@octobus.net>
4 4 #
5 5 # This software may be used and distributed according to the terms of the
6 6 # GNU General Public License version 2 or any later version.
7 7
8 8 from __future__ import absolute_import
9 9
10 10 from . import (
11 11 phases,
12 12 util
13 13 )
14 14
15 15 class marker(object):
16 16 """Wrap obsolete marker raw data"""
17 17
18 18 def __init__(self, repo, data):
19 19 # the repo argument will be used to create changectx in later version
20 20 self._repo = repo
21 21 self._data = data
22 22 self._decodedmeta = None
23 23
24 24 def __hash__(self):
25 25 return hash(self._data)
26 26
27 27 def __eq__(self, other):
28 28 if type(other) != type(self):
29 29 return False
30 30 return self._data == other._data
31 31
32 32 def precnode(self):
33 33 msg = ("'marker.precnode' is deprecated, "
34 34 "use 'marker.prednode'")
35 35 util.nouideprecwarn(msg, '4.4')
36 36 return self.prednode()
37 37
38 38 def prednode(self):
39 39 """Predecessor changeset node identifier"""
40 40 return self._data[0]
41 41
42 42 def succnodes(self):
43 43 """List of successor changesets node identifiers"""
44 44 return self._data[1]
45 45
46 46 def parentnodes(self):
47 47 """Parents of the predecessors (None if not recorded)"""
48 48 return self._data[5]
49 49
50 50 def metadata(self):
51 51 """Decoded metadata dictionary"""
52 52 return dict(self._data[3])
53 53
54 54 def date(self):
55 55 """Creation date as (unixtime, offset)"""
56 56 return self._data[4]
57 57
58 58 def flags(self):
59 59 """The flags field of the marker"""
60 60 return self._data[2]
61 61
62 62 def getmarkers(repo, nodes=None, exclusive=False):
63 63 """returns markers known in a repository
64 64
65 65 If <nodes> is specified, only markers "relevant" to those nodes are are
66 66 returned"""
67 67 if nodes is None:
68 68 rawmarkers = repo.obsstore
69 69 elif exclusive:
70 70 rawmarkers = exclusivemarkers(repo, nodes)
71 71 else:
72 72 rawmarkers = repo.obsstore.relevantmarkers(nodes)
73 73
74 74 for markerdata in rawmarkers:
75 75 yield marker(repo, markerdata)
76 76
77 77 def closestpredecessors(repo, nodeid):
78 78 """yield the list of next predecessors pointing on visible changectx nodes
79 79
80 80 This function respect the repoview filtering, filtered revision will be
81 81 considered missing.
82 82 """
83 83
84 84 precursors = repo.obsstore.predecessors
85 85 stack = [nodeid]
86 86 seen = set(stack)
87 87
88 88 while stack:
89 89 current = stack.pop()
90 90 currentpreccs = precursors.get(current, ())
91 91
92 92 for prec in currentpreccs:
93 93 precnodeid = prec[0]
94 94
95 95 # Basic cycle protection
96 96 if precnodeid in seen:
97 97 continue
98 98 seen.add(precnodeid)
99 99
100 100 if precnodeid in repo:
101 101 yield precnodeid
102 102 else:
103 103 stack.append(precnodeid)
104 104
105 105 def allprecursors(*args, **kwargs):
106 106 """ (DEPRECATED)
107 107 """
108 108 msg = ("'obsutil.allprecursors' is deprecated, "
109 109 "use 'obsutil.allpredecessors'")
110 110 util.nouideprecwarn(msg, '4.4')
111 111
112 112 return allpredecessors(*args, **kwargs)
113 113
114 114 def allpredecessors(obsstore, nodes, ignoreflags=0):
115 115 """Yield node for every precursors of <nodes>.
116 116
117 117 Some precursors may be unknown locally.
118 118
119 119 This is a linear yield unsuited to detecting folded changesets. It includes
120 120 initial nodes too."""
121 121
122 122 remaining = set(nodes)
123 123 seen = set(remaining)
124 124 while remaining:
125 125 current = remaining.pop()
126 126 yield current
127 127 for mark in obsstore.predecessors.get(current, ()):
128 128 # ignore marker flagged with specified flag
129 129 if mark[2] & ignoreflags:
130 130 continue
131 131 suc = mark[0]
132 132 if suc not in seen:
133 133 seen.add(suc)
134 134 remaining.add(suc)
135 135
136 136 def allsuccessors(obsstore, nodes, ignoreflags=0):
137 137 """Yield node for every successor of <nodes>.
138 138
139 139 Some successors may be unknown locally.
140 140
141 141 This is a linear yield unsuited to detecting split changesets. It includes
142 142 initial nodes too."""
143 143 remaining = set(nodes)
144 144 seen = set(remaining)
145 145 while remaining:
146 146 current = remaining.pop()
147 147 yield current
148 148 for mark in obsstore.successors.get(current, ()):
149 149 # ignore marker flagged with specified flag
150 150 if mark[2] & ignoreflags:
151 151 continue
152 152 for suc in mark[1]:
153 153 if suc not in seen:
154 154 seen.add(suc)
155 155 remaining.add(suc)
156 156
157 157 def _filterprunes(markers):
158 158 """return a set with no prune markers"""
159 159 return set(m for m in markers if m[1])
160 160
161 161 def exclusivemarkers(repo, nodes):
162 162 """set of markers relevant to "nodes" but no other locally-known nodes
163 163
164 164 This function compute the set of markers "exclusive" to a locally-known
165 165 node. This means we walk the markers starting from <nodes> until we reach a
166 166 locally-known precursors outside of <nodes>. Element of <nodes> with
167 167 locally-known successors outside of <nodes> are ignored (since their
168 168 precursors markers are also relevant to these successors).
169 169
170 170 For example:
171 171
172 172 # (A0 rewritten as A1)
173 173 #
174 174 # A0 <-1- A1 # Marker "1" is exclusive to A1
175 175
176 176 or
177 177
178 178 # (A0 rewritten as AX; AX rewritten as A1; AX is unkown locally)
179 179 #
180 180 # <-1- A0 <-2- AX <-3- A1 # Marker "2,3" are exclusive to A1
181 181
182 182 or
183 183
184 184 # (A0 has unknown precursors, A0 rewritten as A1 and A2 (divergence))
185 185 #
186 186 # <-2- A1 # Marker "2" is exclusive to A0,A1
187 187 # /
188 188 # <-1- A0
189 189 # \
190 190 # <-3- A2 # Marker "3" is exclusive to A0,A2
191 191 #
192 192 # in addition:
193 193 #
194 194 # Markers "2,3" are exclusive to A1,A2
195 195 # Markers "1,2,3" are exclusive to A0,A1,A2
196 196
197 197 See test/test-obsolete-bundle-strip.t for more examples.
198 198
199 199 An example usage is strip. When stripping a changeset, we also want to
200 200 strip the markers exclusive to this changeset. Otherwise we would have
201 201 "dangling"" obsolescence markers from its precursors: Obsolescence markers
202 202 marking a node as obsolete without any successors available locally.
203 203
204 204 As for relevant markers, the prune markers for children will be followed.
205 205 Of course, they will only be followed if the pruned children is
206 206 locally-known. Since the prune markers are relevant to the pruned node.
207 207 However, while prune markers are considered relevant to the parent of the
208 208 pruned changesets, prune markers for locally-known changeset (with no
209 209 successors) are considered exclusive to the pruned nodes. This allows
210 210 to strip the prune markers (with the rest of the exclusive chain) alongside
211 211 the pruned changesets.
212 212 """
213 213 # running on a filtered repository would be dangerous as markers could be
214 214 # reported as exclusive when they are relevant for other filtered nodes.
215 215 unfi = repo.unfiltered()
216 216
217 217 # shortcut to various useful item
218 218 nm = unfi.changelog.nodemap
219 219 precursorsmarkers = unfi.obsstore.predecessors
220 220 successormarkers = unfi.obsstore.successors
221 221 childrenmarkers = unfi.obsstore.children
222 222
223 223 # exclusive markers (return of the function)
224 224 exclmarkers = set()
225 225 # we need fast membership testing
226 226 nodes = set(nodes)
227 227 # looking for head in the obshistory
228 228 #
229 229 # XXX we are ignoring all issues in regard with cycle for now.
230 230 stack = [n for n in nodes if not _filterprunes(successormarkers.get(n, ()))]
231 231 stack.sort()
232 232 # nodes already stacked
233 233 seennodes = set(stack)
234 234 while stack:
235 235 current = stack.pop()
236 236 # fetch precursors markers
237 237 markers = list(precursorsmarkers.get(current, ()))
238 238 # extend the list with prune markers
239 239 for mark in successormarkers.get(current, ()):
240 240 if not mark[1]:
241 241 markers.append(mark)
242 242 # and markers from children (looking for prune)
243 243 for mark in childrenmarkers.get(current, ()):
244 244 if not mark[1]:
245 245 markers.append(mark)
246 246 # traverse the markers
247 247 for mark in markers:
248 248 if mark in exclmarkers:
249 249 # markers already selected
250 250 continue
251 251
252 252 # If the markers is about the current node, select it
253 253 #
254 254 # (this delay the addition of markers from children)
255 255 if mark[1] or mark[0] == current:
256 256 exclmarkers.add(mark)
257 257
258 258 # should we keep traversing through the precursors?
259 259 prec = mark[0]
260 260
261 261 # nodes in the stack or already processed
262 262 if prec in seennodes:
263 263 continue
264 264
265 265 # is this a locally known node ?
266 266 known = prec in nm
267 267 # if locally-known and not in the <nodes> set the traversal
268 268 # stop here.
269 269 if known and prec not in nodes:
270 270 continue
271 271
272 272 # do not keep going if there are unselected markers pointing to this
273 273 # nodes. If we end up traversing these unselected markers later the
274 274 # node will be taken care of at that point.
275 275 precmarkers = _filterprunes(successormarkers.get(prec))
276 276 if precmarkers.issubset(exclmarkers):
277 277 seennodes.add(prec)
278 278 stack.append(prec)
279 279
280 280 return exclmarkers
281 281
282 282 def foreground(repo, nodes):
283 283 """return all nodes in the "foreground" of other node
284 284
285 285 The foreground of a revision is anything reachable using parent -> children
286 286 or precursor -> successor relation. It is very similar to "descendant" but
287 287 augmented with obsolescence information.
288 288
289 289 Beware that possible obsolescence cycle may result if complex situation.
290 290 """
291 291 repo = repo.unfiltered()
292 292 foreground = set(repo.set('%ln::', nodes))
293 293 if repo.obsstore:
294 294 # We only need this complicated logic if there is obsolescence
295 295 # XXX will probably deserve an optimised revset.
296 296 nm = repo.changelog.nodemap
297 297 plen = -1
298 298 # compute the whole set of successors or descendants
299 299 while len(foreground) != plen:
300 300 plen = len(foreground)
301 301 succs = set(c.node() for c in foreground)
302 302 mutable = [c.node() for c in foreground if c.mutable()]
303 303 succs.update(allsuccessors(repo.obsstore, mutable))
304 304 known = (n for n in succs if n in nm)
305 305 foreground = set(repo.set('%ln::', known))
306 306 return set(c.node() for c in foreground)
307 307
308 308 # logic around storing and using effect flags
309 309 EFFECTFLAGFIELD = "ef1"
310 310
311 DESCCHANGED = 1 << 0 # action changed the description
312
311 313 def geteffectflag(relation):
312 314 """ From an obs-marker relation, compute what changed between the
313 315 predecessor and the successor.
314 316 """
315 317 effects = 0
316 318
317 319 source = relation[0]
318 320
321 for changectx in relation[1]:
322 # Check if description has changed
323 if changectx.description() != source.description():
324 effects |= DESCCHANGED
325
319 326 return effects
320 327
321 328 def getobsoleted(repo, tr):
322 329 """return the set of pre-existing revisions obsoleted by a transaction"""
323 330 torev = repo.unfiltered().changelog.nodemap.get
324 331 phase = repo._phasecache.phase
325 332 succsmarkers = repo.obsstore.successors.get
326 333 public = phases.public
327 334 addedmarkers = tr.changes.get('obsmarkers')
328 335 addedrevs = tr.changes.get('revs')
329 336 seenrevs = set(addedrevs)
330 337 obsoleted = set()
331 338 for mark in addedmarkers:
332 339 node = mark[0]
333 340 rev = torev(node)
334 341 if rev is None or rev in seenrevs:
335 342 continue
336 343 seenrevs.add(rev)
337 344 if phase(repo, rev) == public:
338 345 continue
339 346 if set(succsmarkers(node) or []).issubset(addedmarkers):
340 347 obsoleted.add(rev)
341 348 return obsoleted
342 349
343 350 class _succs(list):
344 351 """small class to represent a successors with some metadata about it"""
345 352
346 353 def __init__(self, *args, **kwargs):
347 354 super(_succs, self).__init__(*args, **kwargs)
348 355 self.markers = set()
349 356
350 357 def copy(self):
351 358 new = _succs(self)
352 359 new.markers = self.markers.copy()
353 360 return new
354 361
355 362 @util.propertycache
356 363 def _set(self):
357 364 # immutable
358 365 return set(self)
359 366
360 367 def canmerge(self, other):
361 368 return self._set.issubset(other._set)
362 369
363 370 def successorssets(repo, initialnode, closest=False, cache=None):
364 371 """Return set of all latest successors of initial nodes
365 372
366 373 The successors set of a changeset A are the group of revisions that succeed
367 374 A. It succeeds A as a consistent whole, each revision being only a partial
368 375 replacement. By default, the successors set contains non-obsolete
369 376 changesets only, walking the obsolescence graph until reaching a leaf. If
370 377 'closest' is set to True, closest successors-sets are return (the
371 378 obsolescence walk stops on known changesets).
372 379
373 380 This function returns the full list of successor sets which is why it
374 381 returns a list of tuples and not just a single tuple. Each tuple is a valid
375 382 successors set. Note that (A,) may be a valid successors set for changeset A
376 383 (see below).
377 384
378 385 In most cases, a changeset A will have a single element (e.g. the changeset
379 386 A is replaced by A') in its successors set. Though, it is also common for a
380 387 changeset A to have no elements in its successor set (e.g. the changeset
381 388 has been pruned). Therefore, the returned list of successors sets will be
382 389 [(A',)] or [], respectively.
383 390
384 391 When a changeset A is split into A' and B', however, it will result in a
385 392 successors set containing more than a single element, i.e. [(A',B')].
386 393 Divergent changesets will result in multiple successors sets, i.e. [(A',),
387 394 (A'')].
388 395
389 396 If a changeset A is not obsolete, then it will conceptually have no
390 397 successors set. To distinguish this from a pruned changeset, the successor
391 398 set will contain itself only, i.e. [(A,)].
392 399
393 400 Finally, final successors unknown locally are considered to be pruned
394 401 (pruned: obsoleted without any successors). (Final: successors not affected
395 402 by markers).
396 403
397 404 The 'closest' mode respect the repoview filtering. For example, without
398 405 filter it will stop at the first locally known changeset, with 'visible'
399 406 filter it will stop on visible changesets).
400 407
401 408 The optional `cache` parameter is a dictionary that may contains
402 409 precomputed successors sets. It is meant to reuse the computation of a
403 410 previous call to `successorssets` when multiple calls are made at the same
404 411 time. The cache dictionary is updated in place. The caller is responsible
405 412 for its life span. Code that makes multiple calls to `successorssets`
406 413 *should* use this cache mechanism or risk a performance hit.
407 414
408 415 Since results are different depending of the 'closest' most, the same cache
409 416 cannot be reused for both mode.
410 417 """
411 418
412 419 succmarkers = repo.obsstore.successors
413 420
414 421 # Stack of nodes we search successors sets for
415 422 toproceed = [initialnode]
416 423 # set version of above list for fast loop detection
417 424 # element added to "toproceed" must be added here
418 425 stackedset = set(toproceed)
419 426 if cache is None:
420 427 cache = {}
421 428
422 429 # This while loop is the flattened version of a recursive search for
423 430 # successors sets
424 431 #
425 432 # def successorssets(x):
426 433 # successors = directsuccessors(x)
427 434 # ss = [[]]
428 435 # for succ in directsuccessors(x):
429 436 # # product as in itertools cartesian product
430 437 # ss = product(ss, successorssets(succ))
431 438 # return ss
432 439 #
433 440 # But we can not use plain recursive calls here:
434 441 # - that would blow the python call stack
435 442 # - obsolescence markers may have cycles, we need to handle them.
436 443 #
437 444 # The `toproceed` list act as our call stack. Every node we search
438 445 # successors set for are stacked there.
439 446 #
440 447 # The `stackedset` is set version of this stack used to check if a node is
441 448 # already stacked. This check is used to detect cycles and prevent infinite
442 449 # loop.
443 450 #
444 451 # successors set of all nodes are stored in the `cache` dictionary.
445 452 #
446 453 # After this while loop ends we use the cache to return the successors sets
447 454 # for the node requested by the caller.
448 455 while toproceed:
449 456 # Every iteration tries to compute the successors sets of the topmost
450 457 # node of the stack: CURRENT.
451 458 #
452 459 # There are four possible outcomes:
453 460 #
454 461 # 1) We already know the successors sets of CURRENT:
455 462 # -> mission accomplished, pop it from the stack.
456 463 # 2) Stop the walk:
457 464 # default case: Node is not obsolete
458 465 # closest case: Node is known at this repo filter level
459 466 # -> the node is its own successors sets. Add it to the cache.
460 467 # 3) We do not know successors set of direct successors of CURRENT:
461 468 # -> We add those successors to the stack.
462 469 # 4) We know successors sets of all direct successors of CURRENT:
463 470 # -> We can compute CURRENT successors set and add it to the
464 471 # cache.
465 472 #
466 473 current = toproceed[-1]
467 474
468 475 # case 2 condition is a bit hairy because of closest,
469 476 # we compute it on its own
470 477 case2condition = ((current not in succmarkers)
471 478 or (closest and current != initialnode
472 479 and current in repo))
473 480
474 481 if current in cache:
475 482 # case (1): We already know the successors sets
476 483 stackedset.remove(toproceed.pop())
477 484 elif case2condition:
478 485 # case (2): end of walk.
479 486 if current in repo:
480 487 # We have a valid successors.
481 488 cache[current] = [_succs((current,))]
482 489 else:
483 490 # Final obsolete version is unknown locally.
484 491 # Do not count that as a valid successors
485 492 cache[current] = []
486 493 else:
487 494 # cases (3) and (4)
488 495 #
489 496 # We proceed in two phases. Phase 1 aims to distinguish case (3)
490 497 # from case (4):
491 498 #
492 499 # For each direct successors of CURRENT, we check whether its
493 500 # successors sets are known. If they are not, we stack the
494 501 # unknown node and proceed to the next iteration of the while
495 502 # loop. (case 3)
496 503 #
497 504 # During this step, we may detect obsolescence cycles: a node
498 505 # with unknown successors sets but already in the call stack.
499 506 # In such a situation, we arbitrary set the successors sets of
500 507 # the node to nothing (node pruned) to break the cycle.
501 508 #
502 509 # If no break was encountered we proceed to phase 2.
503 510 #
504 511 # Phase 2 computes successors sets of CURRENT (case 4); see details
505 512 # in phase 2 itself.
506 513 #
507 514 # Note the two levels of iteration in each phase.
508 515 # - The first one handles obsolescence markers using CURRENT as
509 516 # precursor (successors markers of CURRENT).
510 517 #
511 518 # Having multiple entry here means divergence.
512 519 #
513 520 # - The second one handles successors defined in each marker.
514 521 #
515 522 # Having none means pruned node, multiple successors means split,
516 523 # single successors are standard replacement.
517 524 #
518 525 for mark in sorted(succmarkers[current]):
519 526 for suc in mark[1]:
520 527 if suc not in cache:
521 528 if suc in stackedset:
522 529 # cycle breaking
523 530 cache[suc] = []
524 531 else:
525 532 # case (3) If we have not computed successors sets
526 533 # of one of those successors we add it to the
527 534 # `toproceed` stack and stop all work for this
528 535 # iteration.
529 536 toproceed.append(suc)
530 537 stackedset.add(suc)
531 538 break
532 539 else:
533 540 continue
534 541 break
535 542 else:
536 543 # case (4): we know all successors sets of all direct
537 544 # successors
538 545 #
539 546 # Successors set contributed by each marker depends on the
540 547 # successors sets of all its "successors" node.
541 548 #
542 549 # Each different marker is a divergence in the obsolescence
543 550 # history. It contributes successors sets distinct from other
544 551 # markers.
545 552 #
546 553 # Within a marker, a successor may have divergent successors
547 554 # sets. In such a case, the marker will contribute multiple
548 555 # divergent successors sets. If multiple successors have
549 556 # divergent successors sets, a Cartesian product is used.
550 557 #
551 558 # At the end we post-process successors sets to remove
552 559 # duplicated entry and successors set that are strict subset of
553 560 # another one.
554 561 succssets = []
555 562 for mark in sorted(succmarkers[current]):
556 563 # successors sets contributed by this marker
557 564 base = _succs()
558 565 base.markers.add(mark)
559 566 markss = [base]
560 567 for suc in mark[1]:
561 568 # cardinal product with previous successors
562 569 productresult = []
563 570 for prefix in markss:
564 571 for suffix in cache[suc]:
565 572 newss = prefix.copy()
566 573 newss.markers.update(suffix.markers)
567 574 for part in suffix:
568 575 # do not duplicated entry in successors set
569 576 # first entry wins.
570 577 if part not in newss:
571 578 newss.append(part)
572 579 productresult.append(newss)
573 580 markss = productresult
574 581 succssets.extend(markss)
575 582 # remove duplicated and subset
576 583 seen = []
577 584 final = []
578 585 candidates = sorted((s for s in succssets if s),
579 586 key=len, reverse=True)
580 587 for cand in candidates:
581 588 for seensuccs in seen:
582 589 if cand.canmerge(seensuccs):
583 590 seensuccs.markers.update(cand.markers)
584 591 break
585 592 else:
586 593 final.append(cand)
587 594 seen.append(cand)
588 595 final.reverse() # put small successors set first
589 596 cache[current] = final
590 597 return cache[initialnode]
591 598
592 599 def successorsandmarkers(repo, ctx):
593 600 """compute the raw data needed for computing obsfate
594 601 Returns a list of dict, one dict per successors set
595 602 """
596 603 if not ctx.obsolete():
597 604 return None
598 605
599 606 ssets = successorssets(repo, ctx.node(), closest=True)
600 607
601 608 # closestsuccessors returns an empty list for pruned revisions, remap it
602 609 # into a list containing an empty list for future processing
603 610 if ssets == []:
604 611 ssets = [[]]
605 612
606 613 # Try to recover pruned markers
607 614 succsmap = repo.obsstore.successors
608 615 fullsuccessorsets = [] # successor set + markers
609 616 for sset in ssets:
610 617 if sset:
611 618 fullsuccessorsets.append(sset)
612 619 else:
613 620 # successorsset return an empty set() when ctx or one of its
614 621 # successors is pruned.
615 622 # In this case, walk the obs-markers tree again starting with ctx
616 623 # and find the relevant pruning obs-makers, the ones without
617 624 # successors.
618 625 # Having these markers allow us to compute some information about
619 626 # its fate, like who pruned this changeset and when.
620 627
621 628 # XXX we do not catch all prune markers (eg rewritten then pruned)
622 629 # (fix me later)
623 630 foundany = False
624 631 for mark in succsmap.get(ctx.node(), ()):
625 632 if not mark[1]:
626 633 foundany = True
627 634 sset = _succs()
628 635 sset.markers.add(mark)
629 636 fullsuccessorsets.append(sset)
630 637 if not foundany:
631 638 fullsuccessorsets.append(_succs())
632 639
633 640 values = []
634 641 for sset in fullsuccessorsets:
635 642 values.append({'successors': sset, 'markers': sset.markers})
636 643
637 644 return values
638 645
639 646 def successorsetverb(successorset):
640 647 """ Return the verb summarizing the successorset
641 648 """
642 649 if not successorset:
643 650 verb = 'pruned'
644 651 elif len(successorset) == 1:
645 652 verb = 'rewritten'
646 653 else:
647 654 verb = 'split'
648 655 return verb
649 656
650 657 def markersdates(markers):
651 658 """returns the list of dates for a list of markers
652 659 """
653 660 return [m[4] for m in markers]
654 661
655 662 def markersusers(markers):
656 663 """ Returns a sorted list of markers users without duplicates
657 664 """
658 665 markersmeta = [dict(m[3]) for m in markers]
659 666 users = set(meta.get('user') for meta in markersmeta if meta.get('user'))
660 667
661 668 return sorted(users)
662 669
663 670 def markersoperations(markers):
664 671 """ Returns a sorted list of markers operations without duplicates
665 672 """
666 673 markersmeta = [dict(m[3]) for m in markers]
667 674 operations = set(meta.get('operation') for meta in markersmeta
668 675 if meta.get('operation'))
669 676
670 677 return sorted(operations)
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@@ -1,167 +1,167 b''
1 1 Test the 'effect-flags' feature
2 2
3 3 Global setup
4 4 ============
5 5
6 6 $ . $TESTDIR/testlib/obsmarker-common.sh
7 7 $ cat >> $HGRCPATH <<EOF
8 8 > [ui]
9 9 > interactive = true
10 10 > [phases]
11 11 > publish=False
12 12 > [extensions]
13 13 > rebase =
14 14 > [experimental]
15 15 > evolution = all
16 16 > effect-flags = 1
17 17 > EOF
18 18
19 19 $ hg init $TESTTMP/effect-flags
20 20 $ cd $TESTTMP/effect-flags
21 21 $ mkcommit ROOT
22 22
23 23 amend touching the description only
24 24 -----------------------------------
25 25
26 26 $ mkcommit A0
27 27 $ hg commit --amend -m "A1"
28 28
29 29 check result
30 30
31 31 $ hg debugobsolete --rev .
32 471f378eab4c5e25f6c77f785b27c936efb22874 fdf9bde5129a28d4548fadd3f62b265cdd3b7a2e 0 (Thu Jan 01 00:00:00 1970 +0000) {'ef1': '0', 'operation': 'amend', 'user': 'test'}
32 471f378eab4c5e25f6c77f785b27c936efb22874 fdf9bde5129a28d4548fadd3f62b265cdd3b7a2e 0 (Thu Jan 01 00:00:00 1970 +0000) {'ef1': '1', 'operation': 'amend', 'user': 'test'}
33 33
34 34 amend touching the user only
35 35 ----------------------------
36 36
37 37 $ mkcommit B0
38 38 $ hg commit --amend -u "bob <bob@bob.com>"
39 39
40 40 check result
41 41
42 42 $ hg debugobsolete --rev .
43 43 ef4a313b1e0ade55718395d80e6b88c5ccd875eb 5485c92d34330dac9d7a63dc07e1e3373835b964 0 (Thu Jan 01 00:00:00 1970 +0000) {'ef1': '0', 'operation': 'amend', 'user': 'test'}
44 44
45 45 amend touching the date only
46 46 ----------------------------
47 47
48 48 $ mkcommit B1
49 49 $ hg commit --amend -d "42 0"
50 50
51 51 check result
52 52
53 53 $ hg debugobsolete --rev .
54 54 2ef0680ff45038ac28c9f1ff3644341f54487280 4dd84345082e9e5291c2e6b3f335bbf8bf389378 0 (Thu Jan 01 00:00:00 1970 +0000) {'ef1': '0', 'operation': 'amend', 'user': 'test'}
55 55
56 56 amend touching the branch only
57 57 ----------------------------
58 58
59 59 $ mkcommit B2
60 60 $ hg branch my-branch
61 61 marked working directory as branch my-branch
62 62 (branches are permanent and global, did you want a bookmark?)
63 63 $ hg commit --amend
64 64
65 65 check result
66 66
67 67 $ hg debugobsolete --rev .
68 68 bd3db8264ceebf1966319f5df3be7aac6acd1a8e 14a01456e0574f0e0a0b15b2345486a6364a8d79 0 (Thu Jan 01 00:00:00 1970 +0000) {'ef1': '0', 'operation': 'amend', 'user': 'test'}
69 69
70 70 $ hg up default
71 71 0 files updated, 0 files merged, 1 files removed, 0 files unresolved
72 72
73 73 rebase (parents change)
74 74 -----------------------
75 75
76 76 $ mkcommit C0
77 77 $ mkcommit D0
78 78 $ hg rebase -r . -d 'desc(B0)'
79 79 rebasing 10:c85eff83a034 "D0" (tip)
80 80
81 81 check result
82 82
83 83 $ hg debugobsolete --rev .
84 84 c85eff83a0340efd9da52b806a94c350222f3371 da86aa2f19a30d6686b15cae15c7b6c908ec9699 0 (Thu Jan 01 00:00:00 1970 +0000) {'ef1': '0', 'operation': 'rebase', 'user': 'test'}
85 85
86 86 amend touching the diff
87 87 -----------------------
88 88
89 89 $ mkcommit E0
90 90 $ echo 42 >> E0
91 91 $ hg commit --amend
92 92
93 93 check result
94 94
95 95 $ hg debugobsolete --rev .
96 96 ebfe0333e0d96f68a917afd97c0a0af87f1c3b5f 75781fdbdbf58a987516b00c980bccda1e9ae588 0 (Thu Jan 01 00:00:00 1970 +0000) {'ef1': '0', 'operation': 'amend', 'user': 'test'}
97 97
98 98 amend with multiple effect (desc and meta)
99 99 -------------------------------------------
100 100
101 101 $ mkcommit F0
102 102 $ hg branch my-other-branch
103 103 marked working directory as branch my-other-branch
104 104 $ hg commit --amend -m F1 -u "bob <bob@bob.com>" -d "42 0"
105 105
106 106 check result
107 107
108 108 $ hg debugobsolete --rev .
109 fad47e5bd78e6aa4db1b5a0a1751bc12563655ff a94e0fd5f1c81d969381a76eb0d37ce499a44fae 0 (Thu Jan 01 00:00:00 1970 +0000) {'ef1': '0', 'operation': 'amend', 'user': 'test'}
109 fad47e5bd78e6aa4db1b5a0a1751bc12563655ff a94e0fd5f1c81d969381a76eb0d37ce499a44fae 0 (Thu Jan 01 00:00:00 1970 +0000) {'ef1': '1', 'operation': 'amend', 'user': 'test'}
110 110
111 111 rebase not touching the diff
112 112 ----------------------------
113 113
114 114 $ cat << EOF > H0
115 115 > 0
116 116 > 1
117 117 > 2
118 118 > 3
119 119 > 4
120 120 > 5
121 121 > 6
122 122 > 7
123 123 > 8
124 124 > 9
125 125 > 10
126 126 > EOF
127 127 $ hg add H0
128 128 $ hg commit -m 'H0'
129 129 $ echo "H1" >> H0
130 130 $ hg commit -m "H1"
131 131 $ hg up -r "desc(H0)"
132 132 1 files updated, 0 files merged, 0 files removed, 0 files unresolved
133 133 $ cat << EOF > H0
134 134 > H2
135 135 > 0
136 136 > 1
137 137 > 2
138 138 > 3
139 139 > 4
140 140 > 5
141 141 > 6
142 142 > 7
143 143 > 8
144 144 > 9
145 145 > 10
146 146 > EOF
147 147 $ hg commit -m "H2"
148 148 created new head
149 149 $ hg rebase -s "desc(H1)" -d "desc(H2)" -t :merge3
150 150 rebasing 17:b57fed8d8322 "H1"
151 151 merging H0
152 152 $ hg debugobsolete -r tip
153 153 b57fed8d83228a8ae3748d8c3760a77638dd4f8c e509e2eb3df5d131ff7c02350bf2a9edd0c09478 0 (Thu Jan 01 00:00:00 1970 +0000) {'ef1': '0', 'operation': 'rebase', 'user': 'test'}
154 154
155 155 amend closing the branch should be detected as meta change
156 156 ----------------------------------------------------------
157 157
158 158 $ hg branch closedbranch
159 159 marked working directory as branch closedbranch
160 160 $ mkcommit G0
161 161 $ mkcommit I0
162 162 $ hg commit --amend --close-branch
163 163
164 164 check result
165 165
166 166 $ hg debugobsolete -r .
167 167 2f599e54c1c6974299065cdf54e1ad640bfb7b5d 12c6238b5e371eea00fd2013b12edce3f070928b 0 (Thu Jan 01 00:00:00 1970 +0000) {'ef1': '0', 'operation': 'amend', 'user': 'test'}
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