2 * "Ostensibly Recursive's Twin" merge strategy, or "ort" for short. Meant
3 * as a drop-in replacement for the "recursive" merge strategy, allowing one
6 * git merge [-s recursive]
12 * Note: git's parser allows the space between '-s' and its argument to be
13 * missing. (Should I have backronymed "ham", "alsa", "kip", "nap, "alvo",
14 * "cale", "peedy", or "ins" instead of "ort"?)
18 #include "merge-ort.h"
23 #include "cache-tree.h"
25 #include "commit-reach.h"
31 #include "object-store.h"
32 #include "promisor-remote.h"
35 #include "submodule-config.h"
36 #include "submodule.h"
38 #include "unpack-trees.h"
39 #include "xdiff-interface.h"
42 * We have many arrays of size 3. Whenever we have such an array, the
43 * indices refer to one of the sides of the three-way merge. This is so
44 * pervasive that the constants 0, 1, and 2 are used in many places in the
45 * code (especially in arithmetic operations to find the other side's index
46 * or to compute a relevant mask), but sometimes these enum names are used
47 * to aid code clarity.
49 * See also 'filemask' and 'dirmask' in struct conflict_info; the "ith side"
50 * referred to there is one of these three sides.
58 static unsigned RESULT_INITIALIZED
= 0x1abe11ed; /* unlikely accidental value */
60 struct traversal_callback_data
{
62 unsigned long dirmask
;
63 struct name_entry names
[3];
66 struct deferred_traversal_data
{
68 * possible_trivial_merges: directories to be explored only when needed
70 * possible_trivial_merges is a map of directory names to
71 * dir_rename_mask. When we detect that a directory is unchanged on
72 * one side, we can sometimes resolve the directory without recursing
73 * into it. Renames are the only things that can prevent such an
74 * optimization. However, for rename sources:
75 * - If no parent directory needed directory rename detection, then
76 * no path under such a directory can be a relevant_source.
77 * and for rename destinations:
78 * - If no cached rename has a target path under the directory AND
79 * - If there are no unpaired relevant_sources elsewhere in the
81 * then we don't need any path under this directory for a rename
82 * destination. The only way to know the last item above is to defer
83 * handling such directories until the end of collect_merge_info(),
84 * in handle_deferred_entries().
86 * For each we store dir_rename_mask, since that's the only bit of
87 * information we need, other than the path, to resume the recursive
90 struct strintmap possible_trivial_merges
;
93 * trivial_merges_okay: if trivial directory merges are okay
95 * See possible_trivial_merges above. The "no unpaired
96 * relevant_sources elsewhere in the repository" is a single boolean
97 * per merge side, which we store here. Note that while 0 means no,
98 * 1 only means "maybe" rather than "yes"; we optimistically set it
99 * to 1 initially and only clear when we determine it is unsafe to
100 * do trivial directory merges.
102 unsigned trivial_merges_okay
;
105 * target_dirs: ancestor directories of rename targets
107 * target_dirs contains all directory names that are an ancestor of
108 * any rename destination.
110 struct strset target_dirs
;
115 * All variables that are arrays of size 3 correspond to data tracked
116 * for the sides in enum merge_side. Index 0 is almost always unused
117 * because we often only need to track information for MERGE_SIDE1 and
118 * MERGE_SIDE2 (MERGE_BASE can't have rename information since renames
119 * are determined relative to what changed since the MERGE_BASE).
123 * pairs: pairing of filenames from diffcore_rename()
125 struct diff_queue_struct pairs
[3];
128 * dirs_removed: directories removed on a given side of history.
130 * The keys of dirs_removed[side] are the directories that were removed
131 * on the given side of history. The value of the strintmap for each
132 * directory is a value from enum dir_rename_relevance.
134 struct strintmap dirs_removed
[3];
137 * dir_rename_count: tracking where parts of a directory were renamed to
139 * When files in a directory are renamed, they may not all go to the
140 * same location. Each strmap here tracks:
141 * old_dir => {new_dir => int}
142 * That is, dir_rename_count[side] is a strmap to a strintmap.
144 struct strmap dir_rename_count
[3];
147 * dir_renames: computed directory renames
149 * This is a map of old_dir => new_dir and is derived in part from
152 struct strmap dir_renames
[3];
155 * relevant_sources: deleted paths wanted in rename detection, and why
157 * relevant_sources is a set of deleted paths on each side of
158 * history for which we need rename detection. If a path is deleted
159 * on one side of history, we need to detect if it is part of a
161 * * the file is modified/deleted on the other side of history
162 * * we need to detect renames for an ancestor directory
163 * If neither of those are true, we can skip rename detection for
164 * that path. The reason is stored as a value from enum
165 * file_rename_relevance, as the reason can inform the algorithm in
166 * diffcore_rename_extended().
168 struct strintmap relevant_sources
[3];
170 struct deferred_traversal_data deferred
[3];
174 * 0: optimization removing unmodified potential rename source okay
175 * 2 or 4: optimization okay, but must check for files added to dir
176 * 7: optimization forbidden; need rename source in case of dir rename
178 unsigned dir_rename_mask
:3;
181 * callback_data_*: supporting data structures for alternate traversal
183 * We sometimes need to be able to traverse through all the files
184 * in a given tree before all immediate subdirectories within that
185 * tree. Since traverse_trees() doesn't do that naturally, we have
186 * a traverse_trees_wrapper() that stores any immediate
187 * subdirectories while traversing files, then traverses the
188 * immediate subdirectories later. These callback_data* variables
189 * store the information for the subdirectories so that we can do
190 * that traversal order.
192 struct traversal_callback_data
*callback_data
;
193 int callback_data_nr
, callback_data_alloc
;
194 char *callback_data_traverse_path
;
197 * merge_trees: trees passed to the merge algorithm for the merge
199 * merge_trees records the trees passed to the merge algorithm. But,
200 * this data also is stored in merge_result->priv. If a sequence of
201 * merges are being done (such as when cherry-picking or rebasing),
202 * the next merge can look at this and re-use information from
203 * previous merges under certain circumstances.
205 * See also all the cached_* variables.
207 struct tree
*merge_trees
[3];
210 * cached_pairs_valid_side: which side's cached info can be reused
212 * See the description for merge_trees. For repeated merges, at most
213 * only one side's cached information can be used. Valid values:
214 * MERGE_SIDE2: cached data from side2 can be reused
215 * MERGE_SIDE1: cached data from side1 can be reused
216 * 0: no cached data can be reused
217 * -1: See redo_after_renames; both sides can be reused.
219 int cached_pairs_valid_side
;
222 * cached_pairs: Caching of renames and deletions.
224 * These are mappings recording renames and deletions of individual
225 * files (not directories). They are thus a map from an old
226 * filename to either NULL (for deletions) or a new filename (for
229 struct strmap cached_pairs
[3];
232 * cached_target_names: just the destinations from cached_pairs
234 * We sometimes want a fast lookup to determine if a given filename
235 * is one of the destinations in cached_pairs. cached_target_names
236 * is thus duplicative information, but it provides a fast lookup.
238 struct strset cached_target_names
[3];
241 * cached_irrelevant: Caching of rename_sources that aren't relevant.
243 * If we try to detect a rename for a source path and succeed, it's
244 * part of a rename. If we try to detect a rename for a source path
245 * and fail, then it's a delete. If we do not try to detect a rename
246 * for a path, then we don't know if it's a rename or a delete. If
247 * merge-ort doesn't think the path is relevant, then we just won't
248 * cache anything for that path. But there's a slight problem in
249 * that merge-ort can think a path is RELEVANT_LOCATION, but due to
250 * commit 9bd342137e ("diffcore-rename: determine which
251 * relevant_sources are no longer relevant", 2021-03-13),
252 * diffcore-rename can downgrade the path to RELEVANT_NO_MORE. To
253 * avoid excessive calls to diffcore_rename_extended() we still need
254 * to cache such paths, though we cannot record them as either
255 * renames or deletes. So we cache them here as a "turned out to be
256 * irrelevant *for this commit*" as they are often also irrelevant
257 * for subsequent commits, though we will have to do some extra
258 * checking to see whether such paths become relevant for rename
259 * detection when cherry-picking/rebasing subsequent commits.
261 struct strset cached_irrelevant
[3];
264 * redo_after_renames: optimization flag for "restarting" the merge
266 * Sometimes it pays to detect renames, cache them, and then
267 * restart the merge operation from the beginning. The reason for
268 * this is that when we know where all the renames are, we know
269 * whether a certain directory has any paths under it affected --
270 * and if a directory is not affected then it permits us to do
271 * trivial tree merging in more cases. Doing trivial tree merging
272 * prevents the need to run process_entry() on every path
273 * underneath trees that can be trivially merged, and
274 * process_entry() is more expensive than collect_merge_info() --
275 * plus, the second collect_merge_info() will be much faster since
276 * it doesn't have to recurse into the relevant trees.
278 * Values for this flag:
279 * 0 = don't bother, not worth it (or conditions not yet checked)
280 * 1 = conditions for optimization met, optimization worthwhile
281 * 2 = we already did it (don't restart merge yet again)
283 unsigned redo_after_renames
;
286 * needed_limit: value needed for inexact rename detection to run
288 * If the current rename limit wasn't high enough for inexact
289 * rename detection to run, this records the limit needed. Otherwise,
290 * this value remains 0.
295 struct merge_options_internal
{
297 * paths: primary data structure in all of merge ort.
300 * * are full relative paths from the toplevel of the repository
301 * (e.g. "drivers/firmware/raspberrypi.c").
302 * * store all relevant paths in the repo, both directories and
303 * files (e.g. drivers, drivers/firmware would also be included)
304 * * these keys serve to intern all the path strings, which allows
305 * us to do pointer comparison on directory names instead of
306 * strcmp; we just have to be careful to use the interned strings.
308 * The values of paths:
309 * * either a pointer to a merged_info, or a conflict_info struct
310 * * merged_info contains all relevant information for a
311 * non-conflicted entry.
312 * * conflict_info contains a merged_info, plus any additional
313 * information about a conflict such as the higher orders stages
314 * involved and the names of the paths those came from (handy
315 * once renames get involved).
316 * * a path may start "conflicted" (i.e. point to a conflict_info)
317 * and then a later step (e.g. three-way content merge) determines
318 * it can be cleanly merged, at which point it'll be marked clean
319 * and the algorithm will ignore any data outside the contained
320 * merged_info for that entry
321 * * If an entry remains conflicted, the merged_info portion of a
322 * conflict_info will later be filled with whatever version of
323 * the file should be placed in the working directory (e.g. an
324 * as-merged-as-possible variation that contains conflict markers).
329 * conflicted: a subset of keys->values from "paths"
331 * conflicted is basically an optimization between process_entries()
332 * and record_conflicted_index_entries(); the latter could loop over
333 * ALL the entries in paths AGAIN and look for the ones that are
334 * still conflicted, but since process_entries() has to loop over
335 * all of them, it saves the ones it couldn't resolve in this strmap
336 * so that record_conflicted_index_entries() can iterate just the
339 struct strmap conflicted
;
342 * pool: memory pool for fast allocation/deallocation
344 * We allocate room for lots of filenames and auxiliary data
345 * structures in merge_options_internal, and it tends to all be
346 * freed together too. Using a memory pool for these provides a
349 struct mem_pool pool
;
352 * conflicts: logical conflicts and messages stored by _primary_ path
354 * This is a map of pathnames (a subset of the keys in "paths" above)
355 * to struct string_list, with each item's `util` containing a
356 * `struct logical_conflict_info`. Note, though, that for each path,
357 * it only stores the logical conflicts for which that path is the
358 * primary path; the path might be part of additional conflicts.
360 struct strmap conflicts
;
363 * renames: various data relating to rename detection
365 struct rename_info renames
;
368 * attr_index: hacky minimal index used for renormalization
370 * renormalization code _requires_ an index, though it only needs to
371 * find a .gitattributes file within the index. So, when
372 * renormalization is important, we create a special index with just
375 struct index_state attr_index
;
378 * current_dir_name, toplevel_dir: temporary vars
380 * These are used in collect_merge_info_callback(), and will set the
381 * various merged_info.directory_name for the various paths we get;
382 * see documentation for that variable and the requirements placed on
385 const char *current_dir_name
;
386 const char *toplevel_dir
;
388 /* call_depth: recursion level counter for merging merge bases */
391 /* field that holds submodule conflict information */
392 struct string_list conflicted_submodules
;
395 struct conflicted_submodule_item
{
400 static void conflicted_submodule_item_free(void *util
, const char *str
)
402 struct conflicted_submodule_item
*item
= util
;
408 struct version_info
{
409 struct object_id oid
;
414 /* if is_null, ignore result. otherwise result has oid & mode */
415 struct version_info result
;
419 * clean: whether the path in question is cleanly merged.
421 * see conflict_info.merged for more details.
426 * basename_offset: offset of basename of path.
428 * perf optimization to avoid recomputing offset of final '/'
429 * character in pathname (0 if no '/' in pathname).
431 size_t basename_offset
;
434 * directory_name: containing directory name.
436 * Note that we assume directory_name is constructed such that
437 * strcmp(dir1_name, dir2_name) == 0 iff dir1_name == dir2_name,
438 * i.e. string equality is equivalent to pointer equality. For this
439 * to hold, we have to be careful setting directory_name.
441 const char *directory_name
;
444 struct conflict_info
{
446 * merged: the version of the path that will be written to working tree
448 * WARNING: It is critical to check merged.clean and ensure it is 0
449 * before reading any conflict_info fields outside of merged.
450 * Allocated merge_info structs will always have clean set to 1.
451 * Allocated conflict_info structs will have merged.clean set to 0
452 * initially. The merged.clean field is how we know if it is safe
453 * to access other parts of conflict_info besides merged; if a
454 * conflict_info's merged.clean is changed to 1, the rest of the
455 * algorithm is not allowed to look at anything outside of the
456 * merged member anymore.
458 struct merged_info merged
;
460 /* oids & modes from each of the three trees for this path */
461 struct version_info stages
[3];
463 /* pathnames for each stage; may differ due to rename detection */
464 const char *pathnames
[3];
466 /* Whether this path is/was involved in a directory/file conflict */
467 unsigned df_conflict
:1;
470 * Whether this path is/was involved in a non-content conflict other
471 * than a directory/file conflict (e.g. rename/rename, rename/delete,
472 * file location based on possible directory rename).
474 unsigned path_conflict
:1;
477 * For filemask and dirmask, the ith bit corresponds to whether the
478 * ith entry is a file (filemask) or a directory (dirmask). Thus,
479 * filemask & dirmask is always zero, and filemask | dirmask is at
480 * most 7 but can be less when a path does not appear as either a
481 * file or a directory on at least one side of history.
483 * Note that these masks are related to enum merge_side, as the ith
484 * entry corresponds to side i.
486 * These values come from a traverse_trees() call; more info may be
487 * found looking at tree-walk.h's struct traverse_info,
488 * particularly the documentation above the "fn" member (note that
489 * filemask = mask & ~dirmask from that documentation).
495 * Optimization to track which stages match, to avoid the need to
496 * recompute it in multiple steps. Either 0 or at least 2 bits are
497 * set; if at least 2 bits are set, their corresponding stages match.
499 unsigned match_mask
:3;
502 enum conflict_and_info_types
{
503 /* "Simple" conflicts and informational messages */
504 INFO_AUTO_MERGING
= 0,
505 CONFLICT_CONTENTS
, /* text file that failed to merge */
507 CONFLICT_FILE_DIRECTORY
,
508 CONFLICT_DISTINCT_MODES
,
509 CONFLICT_MODIFY_DELETE
,
512 CONFLICT_RENAME_RENAME
, /* same file renamed differently */
513 CONFLICT_RENAME_COLLIDES
, /* rename/add or two files renamed to 1 */
514 CONFLICT_RENAME_DELETE
,
516 /* Basic directory rename */
517 CONFLICT_DIR_RENAME_SUGGESTED
,
518 INFO_DIR_RENAME_APPLIED
,
520 /* Special directory rename cases */
521 INFO_DIR_RENAME_SKIPPED_DUE_TO_RERENAME
,
522 CONFLICT_DIR_RENAME_FILE_IN_WAY
,
523 CONFLICT_DIR_RENAME_COLLISION
,
524 CONFLICT_DIR_RENAME_SPLIT
,
526 /* Basic submodule */
527 INFO_SUBMODULE_FAST_FORWARDING
,
528 CONFLICT_SUBMODULE_FAILED_TO_MERGE
,
530 /* Special submodule cases broken out from FAILED_TO_MERGE */
531 CONFLICT_SUBMODULE_FAILED_TO_MERGE_BUT_POSSIBLE_RESOLUTION
,
532 CONFLICT_SUBMODULE_NOT_INITIALIZED
,
533 CONFLICT_SUBMODULE_HISTORY_NOT_AVAILABLE
,
534 CONFLICT_SUBMODULE_MAY_HAVE_REWINDS
,
535 CONFLICT_SUBMODULE_NULL_MERGE_BASE
,
537 /* Keep this entry _last_ in the list */
542 * Short description of conflict type, relied upon by external tools.
544 * We can add more entries, but DO NOT change any of these strings. Also,
545 * Order MUST match conflict_info_and_types.
547 static const char *type_short_descriptions
[] = {
548 /*** "Simple" conflicts and informational messages ***/
549 [INFO_AUTO_MERGING
] = "Auto-merging",
550 [CONFLICT_CONTENTS
] = "CONFLICT (contents)",
551 [CONFLICT_BINARY
] = "CONFLICT (binary)",
552 [CONFLICT_FILE_DIRECTORY
] = "CONFLICT (file/directory)",
553 [CONFLICT_DISTINCT_MODES
] = "CONFLICT (distinct modes)",
554 [CONFLICT_MODIFY_DELETE
] = "CONFLICT (modify/delete)",
556 /*** Regular rename ***/
557 [CONFLICT_RENAME_RENAME
] = "CONFLICT (rename/rename)",
558 [CONFLICT_RENAME_COLLIDES
] = "CONFLICT (rename involved in collision)",
559 [CONFLICT_RENAME_DELETE
] = "CONFLICT (rename/delete)",
561 /*** Basic directory rename ***/
562 [CONFLICT_DIR_RENAME_SUGGESTED
] =
563 "CONFLICT (directory rename suggested)",
564 [INFO_DIR_RENAME_APPLIED
] = "Path updated due to directory rename",
566 /*** Special directory rename cases ***/
567 [INFO_DIR_RENAME_SKIPPED_DUE_TO_RERENAME
] =
568 "Directory rename skipped since directory was renamed on both sides",
569 [CONFLICT_DIR_RENAME_FILE_IN_WAY
] =
570 "CONFLICT (file in way of directory rename)",
571 [CONFLICT_DIR_RENAME_COLLISION
] = "CONFLICT(directory rename collision)",
572 [CONFLICT_DIR_RENAME_SPLIT
] = "CONFLICT(directory rename unclear split)",
574 /*** Basic submodule ***/
575 [INFO_SUBMODULE_FAST_FORWARDING
] = "Fast forwarding submodule",
576 [CONFLICT_SUBMODULE_FAILED_TO_MERGE
] = "CONFLICT (submodule)",
578 /*** Special submodule cases broken out from FAILED_TO_MERGE ***/
579 [CONFLICT_SUBMODULE_FAILED_TO_MERGE_BUT_POSSIBLE_RESOLUTION
] =
580 "CONFLICT (submodule with possible resolution)",
581 [CONFLICT_SUBMODULE_NOT_INITIALIZED
] =
582 "CONFLICT (submodule not initialized)",
583 [CONFLICT_SUBMODULE_HISTORY_NOT_AVAILABLE
] =
584 "CONFLICT (submodule history not available)",
585 [CONFLICT_SUBMODULE_MAY_HAVE_REWINDS
] =
586 "CONFLICT (submodule may have rewinds)",
587 [CONFLICT_SUBMODULE_NULL_MERGE_BASE
] =
588 "CONFLICT (submodule lacks merge base)"
591 struct logical_conflict_info
{
592 enum conflict_and_info_types type
;
596 /*** Function Grouping: various utility functions ***/
599 * For the next three macros, see warning for conflict_info.merged.
601 * In each of the below, mi is a struct merged_info*, and ci was defined
602 * as a struct conflict_info* (but we need to verify ci isn't actually
603 * pointed at a struct merged_info*).
605 * INITIALIZE_CI: Assign ci to mi but only if it's safe; set to NULL otherwise.
606 * VERIFY_CI: Ensure that something we assigned to a conflict_info* is one.
607 * ASSIGN_AND_VERIFY_CI: Similar to VERIFY_CI but do assignment first.
609 #define INITIALIZE_CI(ci, mi) do { \
610 (ci) = (!(mi) || (mi)->clean) ? NULL : (struct conflict_info *)(mi); \
612 #define VERIFY_CI(ci) assert(ci && !ci->merged.clean);
613 #define ASSIGN_AND_VERIFY_CI(ci, mi) do { \
614 (ci) = (struct conflict_info *)(mi); \
615 assert((ci) && !(mi)->clean); \
618 static void free_strmap_strings(struct strmap
*map
)
620 struct hashmap_iter iter
;
621 struct strmap_entry
*entry
;
623 strmap_for_each_entry(map
, &iter
, entry
) {
624 free((char*)entry
->key
);
628 static void clear_or_reinit_internal_opts(struct merge_options_internal
*opti
,
631 struct rename_info
*renames
= &opti
->renames
;
633 void (*strmap_clear_func
)(struct strmap
*, int) =
634 reinitialize
? strmap_partial_clear
: strmap_clear
;
635 void (*strintmap_clear_func
)(struct strintmap
*) =
636 reinitialize
? strintmap_partial_clear
: strintmap_clear
;
637 void (*strset_clear_func
)(struct strset
*) =
638 reinitialize
? strset_partial_clear
: strset_clear
;
640 strmap_clear_func(&opti
->paths
, 0);
643 * All keys and values in opti->conflicted are a subset of those in
644 * opti->paths. We don't want to deallocate anything twice, so we
645 * don't free the keys and we pass 0 for free_values.
647 strmap_clear_func(&opti
->conflicted
, 0);
649 if (opti
->attr_index
.cache_nr
) /* true iff opt->renormalize */
650 discard_index(&opti
->attr_index
);
652 /* Free memory used by various renames maps */
653 for (i
= MERGE_SIDE1
; i
<= MERGE_SIDE2
; ++i
) {
654 strintmap_clear_func(&renames
->dirs_removed
[i
]);
655 strmap_clear_func(&renames
->dir_renames
[i
], 0);
656 strintmap_clear_func(&renames
->relevant_sources
[i
]);
658 assert(renames
->cached_pairs_valid_side
== 0);
659 if (i
!= renames
->cached_pairs_valid_side
&&
660 -1 != renames
->cached_pairs_valid_side
) {
661 strset_clear_func(&renames
->cached_target_names
[i
]);
662 strmap_clear_func(&renames
->cached_pairs
[i
], 1);
663 strset_clear_func(&renames
->cached_irrelevant
[i
]);
664 partial_clear_dir_rename_count(&renames
->dir_rename_count
[i
]);
666 strmap_clear(&renames
->dir_rename_count
[i
], 1);
669 for (i
= MERGE_SIDE1
; i
<= MERGE_SIDE2
; ++i
) {
670 strintmap_clear_func(&renames
->deferred
[i
].possible_trivial_merges
);
671 strset_clear_func(&renames
->deferred
[i
].target_dirs
);
672 renames
->deferred
[i
].trivial_merges_okay
= 1; /* 1 == maybe */
674 renames
->cached_pairs_valid_side
= 0;
675 renames
->dir_rename_mask
= 0;
678 struct hashmap_iter iter
;
679 struct strmap_entry
*e
;
681 /* Release and free each strbuf found in output */
682 strmap_for_each_entry(&opti
->conflicts
, &iter
, e
) {
683 struct string_list
*list
= e
->value
;
684 for (int i
= 0; i
< list
->nr
; i
++) {
685 struct logical_conflict_info
*info
=
687 strvec_clear(&info
->paths
);
690 * While strictly speaking we don't need to
691 * free(conflicts) here because we could pass
692 * free_values=1 when calling strmap_clear() on
693 * opti->conflicts, that would require strmap_clear
694 * to do another strmap_for_each_entry() loop, so we
695 * just free it while we're iterating anyway.
697 string_list_clear(list
, 1);
700 strmap_clear(&opti
->conflicts
, 0);
703 mem_pool_discard(&opti
->pool
, 0);
705 string_list_clear_func(&opti
->conflicted_submodules
,
706 conflicted_submodule_item_free
);
708 /* Clean out callback_data as well. */
709 FREE_AND_NULL(renames
->callback_data
);
710 renames
->callback_data_nr
= renames
->callback_data_alloc
= 0;
713 __attribute__((format (printf
, 2, 3)))
714 static int err(struct merge_options
*opt
, const char *err
, ...)
717 struct strbuf sb
= STRBUF_INIT
;
719 strbuf_addstr(&sb
, "error: ");
720 va_start(params
, err
);
721 strbuf_vaddf(&sb
, err
, params
);
730 static void format_commit(struct strbuf
*sb
,
732 struct repository
*repo
,
733 struct commit
*commit
)
735 struct merge_remote_desc
*desc
;
736 struct pretty_print_context ctx
= {0};
737 ctx
.abbrev
= DEFAULT_ABBREV
;
739 strbuf_addchars(sb
, ' ', indent
);
740 desc
= merge_remote_util(commit
);
742 strbuf_addf(sb
, "virtual %s\n", desc
->name
);
746 repo_format_commit_message(repo
, commit
, "%h %s", sb
, &ctx
);
747 strbuf_addch(sb
, '\n');
750 __attribute__((format (printf
, 8, 9)))
751 static void path_msg(struct merge_options
*opt
,
752 enum conflict_and_info_types type
,
753 int omittable_hint
, /* skippable under --remerge-diff */
754 const char *primary_path
,
755 const char *other_path_1
, /* may be NULL */
756 const char *other_path_2
, /* may be NULL */
757 struct string_list
*other_paths
, /* may be NULL */
758 const char *fmt
, ...)
761 struct string_list
*path_conflicts
;
762 struct logical_conflict_info
*info
;
763 struct strbuf buf
= STRBUF_INIT
;
765 struct strbuf tmp
= STRBUF_INIT
;
768 assert(omittable_hint
==
769 !starts_with(type_short_descriptions
[type
], "CONFLICT") ||
770 type
== CONFLICT_DIR_RENAME_SUGGESTED
);
771 if (opt
->record_conflict_msgs_as_headers
&& omittable_hint
)
772 return; /* Do not record mere hints in headers */
773 if (opt
->priv
->call_depth
&& opt
->verbosity
< 5)
774 return; /* Ignore messages from inner merges */
776 /* Ensure path_conflicts (ptr to array of logical_conflict) allocated */
777 path_conflicts
= strmap_get(&opt
->priv
->conflicts
, primary_path
);
778 if (!path_conflicts
) {
779 path_conflicts
= xmalloc(sizeof(*path_conflicts
));
780 string_list_init_dup(path_conflicts
);
781 strmap_put(&opt
->priv
->conflicts
, primary_path
, path_conflicts
);
784 /* Add a logical_conflict at the end to store info from this call */
785 info
= xcalloc(1, sizeof(*info
));
787 strvec_init(&info
->paths
);
789 /* Handle the list of paths */
790 strvec_push(&info
->paths
, primary_path
);
792 strvec_push(&info
->paths
, other_path_1
);
794 strvec_push(&info
->paths
, other_path_2
);
796 for (int i
= 0; i
< other_paths
->nr
; i
++)
797 strvec_push(&info
->paths
, other_paths
->items
[i
].string
);
799 /* Handle message and its format, in normal case */
800 dest
= (opt
->record_conflict_msgs_as_headers
? &tmp
: &buf
);
803 if (opt
->priv
->call_depth
) {
804 strbuf_addchars(dest
, ' ', 2);
805 strbuf_addstr(dest
, "From inner merge:");
806 strbuf_addchars(dest
, ' ', opt
->priv
->call_depth
* 2);
808 strbuf_vaddf(dest
, fmt
, ap
);
811 /* Handle specialized formatting of message under --remerge-diff */
812 if (opt
->record_conflict_msgs_as_headers
) {
813 int i_sb
= 0, i_tmp
= 0;
815 /* Start with the specified prefix */
816 if (opt
->msg_header_prefix
)
817 strbuf_addf(&buf
, "%s ", opt
->msg_header_prefix
);
819 /* Copy tmp to sb, adding spaces after newlines */
820 strbuf_grow(&buf
, buf
.len
+ 2*tmp
.len
); /* more than sufficient */
821 for (; i_tmp
< tmp
.len
; i_tmp
++, i_sb
++) {
822 /* Copy next character from tmp to sb */
823 buf
.buf
[buf
.len
+ i_sb
] = tmp
.buf
[i_tmp
];
825 /* If we copied a newline, add a space */
826 if (tmp
.buf
[i_tmp
] == '\n')
827 buf
.buf
[++i_sb
] = ' ';
829 /* Update length and ensure it's NUL-terminated */
831 buf
.buf
[buf
.len
] = '\0';
833 strbuf_release(&tmp
);
835 string_list_append_nodup(path_conflicts
, strbuf_detach(&buf
, NULL
))
839 static struct diff_filespec
*pool_alloc_filespec(struct mem_pool
*pool
,
842 /* Similar to alloc_filespec(), but allocate from pool and reuse path */
843 struct diff_filespec
*spec
;
845 spec
= mem_pool_calloc(pool
, 1, sizeof(*spec
));
846 spec
->path
= (char*)path
; /* spec won't modify it */
849 spec
->is_binary
= -1;
853 static struct diff_filepair
*pool_diff_queue(struct mem_pool
*pool
,
854 struct diff_queue_struct
*queue
,
855 struct diff_filespec
*one
,
856 struct diff_filespec
*two
)
858 /* Same code as diff_queue(), except allocate from pool */
859 struct diff_filepair
*dp
;
861 dp
= mem_pool_calloc(pool
, 1, sizeof(*dp
));
869 /* add a string to a strbuf, but converting "/" to "_" */
870 static void add_flattened_path(struct strbuf
*out
, const char *s
)
873 strbuf_addstr(out
, s
);
874 for (; i
< out
->len
; i
++)
875 if (out
->buf
[i
] == '/')
879 static char *unique_path(struct merge_options
*opt
,
884 struct strbuf newpath
= STRBUF_INIT
;
887 struct strmap
*existing_paths
= &opt
->priv
->paths
;
889 strbuf_addf(&newpath
, "%s~", path
);
890 add_flattened_path(&newpath
, branch
);
892 base_len
= newpath
.len
;
893 while (strmap_contains(existing_paths
, newpath
.buf
)) {
894 strbuf_setlen(&newpath
, base_len
);
895 strbuf_addf(&newpath
, "_%d", suffix
++);
898 /* Track the new path in our memory pool */
899 ret
= mem_pool_alloc(&opt
->priv
->pool
, newpath
.len
+ 1);
900 memcpy(ret
, newpath
.buf
, newpath
.len
+ 1);
901 strbuf_release(&newpath
);
905 /*** Function Grouping: functions related to collect_merge_info() ***/
907 static int traverse_trees_wrapper_callback(int n
,
909 unsigned long dirmask
,
910 struct name_entry
*names
,
911 struct traverse_info
*info
)
913 struct merge_options
*opt
= info
->data
;
914 struct rename_info
*renames
= &opt
->priv
->renames
;
915 unsigned filemask
= mask
& ~dirmask
;
919 if (!renames
->callback_data_traverse_path
)
920 renames
->callback_data_traverse_path
= xstrdup(info
->traverse_path
);
922 if (filemask
&& filemask
== renames
->dir_rename_mask
)
923 renames
->dir_rename_mask
= 0x07;
925 ALLOC_GROW(renames
->callback_data
, renames
->callback_data_nr
+ 1,
926 renames
->callback_data_alloc
);
927 renames
->callback_data
[renames
->callback_data_nr
].mask
= mask
;
928 renames
->callback_data
[renames
->callback_data_nr
].dirmask
= dirmask
;
929 COPY_ARRAY(renames
->callback_data
[renames
->callback_data_nr
].names
,
931 renames
->callback_data_nr
++;
937 * Much like traverse_trees(), BUT:
938 * - read all the tree entries FIRST, saving them
939 * - note that the above step provides an opportunity to compute necessary
940 * additional details before the "real" traversal
941 * - loop through the saved entries and call the original callback on them
943 static int traverse_trees_wrapper(struct index_state
*istate
,
946 struct traverse_info
*info
)
948 int ret
, i
, old_offset
;
949 traverse_callback_t old_fn
;
950 char *old_callback_data_traverse_path
;
951 struct merge_options
*opt
= info
->data
;
952 struct rename_info
*renames
= &opt
->priv
->renames
;
954 assert(renames
->dir_rename_mask
== 2 || renames
->dir_rename_mask
== 4);
956 old_callback_data_traverse_path
= renames
->callback_data_traverse_path
;
958 old_offset
= renames
->callback_data_nr
;
960 renames
->callback_data_traverse_path
= NULL
;
961 info
->fn
= traverse_trees_wrapper_callback
;
962 ret
= traverse_trees(istate
, n
, t
, info
);
966 info
->traverse_path
= renames
->callback_data_traverse_path
;
968 for (i
= old_offset
; i
< renames
->callback_data_nr
; ++i
) {
970 renames
->callback_data
[i
].mask
,
971 renames
->callback_data
[i
].dirmask
,
972 renames
->callback_data
[i
].names
,
976 renames
->callback_data_nr
= old_offset
;
977 free(renames
->callback_data_traverse_path
);
978 renames
->callback_data_traverse_path
= old_callback_data_traverse_path
;
979 info
->traverse_path
= NULL
;
983 static void setup_path_info(struct merge_options
*opt
,
984 struct string_list_item
*result
,
985 const char *current_dir_name
,
986 int current_dir_name_len
,
987 char *fullpath
, /* we'll take over ownership */
988 struct name_entry
*names
,
989 struct name_entry
*merged_version
,
990 unsigned is_null
, /* boolean */
991 unsigned df_conflict
, /* boolean */
994 int resolved
/* boolean */)
996 /* result->util is void*, so mi is a convenience typed variable */
997 struct merged_info
*mi
;
999 assert(!is_null
|| resolved
);
1000 assert(!df_conflict
|| !resolved
); /* df_conflict implies !resolved */
1001 assert(resolved
== (merged_version
!= NULL
));
1003 mi
= mem_pool_calloc(&opt
->priv
->pool
, 1,
1004 resolved
? sizeof(struct merged_info
) :
1005 sizeof(struct conflict_info
));
1006 mi
->directory_name
= current_dir_name
;
1007 mi
->basename_offset
= current_dir_name_len
;
1008 mi
->clean
= !!resolved
;
1010 mi
->result
.mode
= merged_version
->mode
;
1011 oidcpy(&mi
->result
.oid
, &merged_version
->oid
);
1012 mi
->is_null
= !!is_null
;
1015 struct conflict_info
*ci
;
1017 ASSIGN_AND_VERIFY_CI(ci
, mi
);
1018 for (i
= MERGE_BASE
; i
<= MERGE_SIDE2
; i
++) {
1019 ci
->pathnames
[i
] = fullpath
;
1020 ci
->stages
[i
].mode
= names
[i
].mode
;
1021 oidcpy(&ci
->stages
[i
].oid
, &names
[i
].oid
);
1023 ci
->filemask
= filemask
;
1024 ci
->dirmask
= dirmask
;
1025 ci
->df_conflict
= !!df_conflict
;
1028 * Assume is_null for now, but if we have entries
1029 * under the directory then when it is complete in
1030 * write_completed_directory() it'll update this.
1031 * Also, for D/F conflicts, we have to handle the
1032 * directory first, then clear this bit and process
1033 * the file to see how it is handled -- that occurs
1034 * near the top of process_entry().
1038 strmap_put(&opt
->priv
->paths
, fullpath
, mi
);
1039 result
->string
= fullpath
;
1043 static void add_pair(struct merge_options
*opt
,
1044 struct name_entry
*names
,
1045 const char *pathname
,
1047 unsigned is_add
/* if false, is_delete */,
1048 unsigned match_mask
,
1049 unsigned dir_rename_mask
)
1051 struct diff_filespec
*one
, *two
;
1052 struct rename_info
*renames
= &opt
->priv
->renames
;
1053 int names_idx
= is_add
? side
: 0;
1056 assert(match_mask
== 0 || match_mask
== 6);
1057 if (strset_contains(&renames
->cached_target_names
[side
],
1061 unsigned content_relevant
= (match_mask
== 0);
1062 unsigned location_relevant
= (dir_rename_mask
== 0x07);
1064 assert(match_mask
== 0 || match_mask
== 3 || match_mask
== 5);
1067 * If pathname is found in cached_irrelevant[side] due to
1068 * previous pick but for this commit content is relevant,
1069 * then we need to remove it from cached_irrelevant.
1071 if (content_relevant
)
1072 /* strset_remove is no-op if strset doesn't have key */
1073 strset_remove(&renames
->cached_irrelevant
[side
],
1077 * We do not need to re-detect renames for paths that we already
1078 * know the pairing, i.e. for cached_pairs (or
1079 * cached_irrelevant). However, handle_deferred_entries() needs
1080 * to loop over the union of keys from relevant_sources[side] and
1081 * cached_pairs[side], so for simplicity we set relevant_sources
1082 * for all the cached_pairs too and then strip them back out in
1083 * prune_cached_from_relevant() at the beginning of
1084 * detect_regular_renames().
1086 if (content_relevant
|| location_relevant
) {
1087 /* content_relevant trumps location_relevant */
1088 strintmap_set(&renames
->relevant_sources
[side
], pathname
,
1089 content_relevant
? RELEVANT_CONTENT
: RELEVANT_LOCATION
);
1093 * Avoid creating pair if we've already cached rename results.
1094 * Note that we do this after setting relevant_sources[side]
1095 * as noted in the comment above.
1097 if (strmap_contains(&renames
->cached_pairs
[side
], pathname
) ||
1098 strset_contains(&renames
->cached_irrelevant
[side
], pathname
))
1102 one
= pool_alloc_filespec(&opt
->priv
->pool
, pathname
);
1103 two
= pool_alloc_filespec(&opt
->priv
->pool
, pathname
);
1104 fill_filespec(is_add
? two
: one
,
1105 &names
[names_idx
].oid
, 1, names
[names_idx
].mode
);
1106 pool_diff_queue(&opt
->priv
->pool
, &renames
->pairs
[side
], one
, two
);
1109 static void collect_rename_info(struct merge_options
*opt
,
1110 struct name_entry
*names
,
1111 const char *dirname
,
1112 const char *fullname
,
1115 unsigned match_mask
)
1117 struct rename_info
*renames
= &opt
->priv
->renames
;
1121 * Update dir_rename_mask (determines ignore-rename-source validity)
1123 * dir_rename_mask helps us keep track of when directory rename
1124 * detection may be relevant. Basically, whenver a directory is
1125 * removed on one side of history, and a file is added to that
1126 * directory on the other side of history, directory rename
1127 * detection is relevant (meaning we have to detect renames for all
1128 * files within that directory to deduce where the directory
1129 * moved). Also, whenever a directory needs directory rename
1130 * detection, due to the "majority rules" choice for where to move
1131 * it (see t6423 testcase 1f), we also need to detect renames for
1132 * all files within subdirectories of that directory as well.
1134 * Here we haven't looked at files within the directory yet, we are
1135 * just looking at the directory itself. So, if we aren't yet in
1136 * a case where a parent directory needed directory rename detection
1137 * (i.e. dir_rename_mask != 0x07), and if the directory was removed
1138 * on one side of history, record the mask of the other side of
1139 * history in dir_rename_mask.
1141 if (renames
->dir_rename_mask
!= 0x07 &&
1142 (dirmask
== 3 || dirmask
== 5)) {
1143 /* simple sanity check */
1144 assert(renames
->dir_rename_mask
== 0 ||
1145 renames
->dir_rename_mask
== (dirmask
& ~1));
1146 /* update dir_rename_mask; have it record mask of new side */
1147 renames
->dir_rename_mask
= (dirmask
& ~1);
1150 /* Update dirs_removed, as needed */
1151 if (dirmask
== 1 || dirmask
== 3 || dirmask
== 5) {
1152 /* absent_mask = 0x07 - dirmask; sides = absent_mask/2 */
1153 unsigned sides
= (0x07 - dirmask
)/2;
1154 unsigned relevance
= (renames
->dir_rename_mask
== 0x07) ?
1155 RELEVANT_FOR_ANCESTOR
: NOT_RELEVANT
;
1157 * Record relevance of this directory. However, note that
1158 * when collect_merge_info_callback() recurses into this
1159 * directory and calls collect_rename_info() on paths
1160 * within that directory, if we find a path that was added
1161 * to this directory on the other side of history, we will
1162 * upgrade this value to RELEVANT_FOR_SELF; see below.
1165 strintmap_set(&renames
->dirs_removed
[1], fullname
,
1168 strintmap_set(&renames
->dirs_removed
[2], fullname
,
1173 * Here's the block that potentially upgrades to RELEVANT_FOR_SELF.
1174 * When we run across a file added to a directory. In such a case,
1175 * find the directory of the file and upgrade its relevance.
1177 if (renames
->dir_rename_mask
== 0x07 &&
1178 (filemask
== 2 || filemask
== 4)) {
1180 * Need directory rename for parent directory on other side
1181 * of history from added file. Thus
1182 * side = (~filemask & 0x06) >> 1
1184 * side = 3 - (filemask/2).
1186 unsigned side
= 3 - (filemask
>> 1);
1187 strintmap_set(&renames
->dirs_removed
[side
], dirname
,
1191 if (filemask
== 0 || filemask
== 7)
1194 for (side
= MERGE_SIDE1
; side
<= MERGE_SIDE2
; ++side
) {
1195 unsigned side_mask
= (1 << side
);
1197 /* Check for deletion on side */
1198 if ((filemask
& 1) && !(filemask
& side_mask
))
1199 add_pair(opt
, names
, fullname
, side
, 0 /* delete */,
1200 match_mask
& filemask
,
1201 renames
->dir_rename_mask
);
1203 /* Check for addition on side */
1204 if (!(filemask
& 1) && (filemask
& side_mask
))
1205 add_pair(opt
, names
, fullname
, side
, 1 /* add */,
1206 match_mask
& filemask
,
1207 renames
->dir_rename_mask
);
1211 static int collect_merge_info_callback(int n
,
1213 unsigned long dirmask
,
1214 struct name_entry
*names
,
1215 struct traverse_info
*info
)
1219 * common ancestor (mbase) has mask 1, and stored in index 0 of names
1220 * head of side 1 (side1) has mask 2, and stored in index 1 of names
1221 * head of side 2 (side2) has mask 4, and stored in index 2 of names
1223 struct merge_options
*opt
= info
->data
;
1224 struct merge_options_internal
*opti
= opt
->priv
;
1225 struct rename_info
*renames
= &opt
->priv
->renames
;
1226 struct string_list_item pi
; /* Path Info */
1227 struct conflict_info
*ci
; /* typed alias to pi.util (which is void*) */
1228 struct name_entry
*p
;
1231 const char *dirname
= opti
->current_dir_name
;
1232 unsigned prev_dir_rename_mask
= renames
->dir_rename_mask
;
1233 unsigned filemask
= mask
& ~dirmask
;
1234 unsigned match_mask
= 0; /* will be updated below */
1235 unsigned mbase_null
= !(mask
& 1);
1236 unsigned side1_null
= !(mask
& 2);
1237 unsigned side2_null
= !(mask
& 4);
1238 unsigned side1_matches_mbase
= (!side1_null
&& !mbase_null
&&
1239 names
[0].mode
== names
[1].mode
&&
1240 oideq(&names
[0].oid
, &names
[1].oid
));
1241 unsigned side2_matches_mbase
= (!side2_null
&& !mbase_null
&&
1242 names
[0].mode
== names
[2].mode
&&
1243 oideq(&names
[0].oid
, &names
[2].oid
));
1244 unsigned sides_match
= (!side1_null
&& !side2_null
&&
1245 names
[1].mode
== names
[2].mode
&&
1246 oideq(&names
[1].oid
, &names
[2].oid
));
1249 * Note: When a path is a file on one side of history and a directory
1250 * in another, we have a directory/file conflict. In such cases, if
1251 * the conflict doesn't resolve from renames and deletions, then we
1252 * always leave directories where they are and move files out of the
1253 * way. Thus, while struct conflict_info has a df_conflict field to
1254 * track such conflicts, we ignore that field for any directories at
1255 * a path and only pay attention to it for files at the given path.
1256 * The fact that we leave directories were they are also means that
1257 * we do not need to worry about getting additional df_conflict
1258 * information propagated from parent directories down to children
1259 * (unlike, say traverse_trees_recursive() in unpack-trees.c, which
1260 * sets a newinfo.df_conflicts field specifically to propagate it).
1262 unsigned df_conflict
= (filemask
!= 0) && (dirmask
!= 0);
1264 /* n = 3 is a fundamental assumption. */
1266 BUG("Called collect_merge_info_callback wrong");
1269 * A bunch of sanity checks verifying that traverse_trees() calls
1270 * us the way I expect. Could just remove these at some point,
1271 * though maybe they are helpful to future code readers.
1273 assert(mbase_null
== is_null_oid(&names
[0].oid
));
1274 assert(side1_null
== is_null_oid(&names
[1].oid
));
1275 assert(side2_null
== is_null_oid(&names
[2].oid
));
1276 assert(!mbase_null
|| !side1_null
|| !side2_null
);
1277 assert(mask
> 0 && mask
< 8);
1279 /* Determine match_mask */
1280 if (side1_matches_mbase
)
1281 match_mask
= (side2_matches_mbase
? 7 : 3);
1282 else if (side2_matches_mbase
)
1284 else if (sides_match
)
1288 * Get the name of the relevant filepath, which we'll pass to
1289 * setup_path_info() for tracking.
1294 len
= traverse_path_len(info
, p
->pathlen
);
1296 /* +1 in both of the following lines to include the NUL byte */
1297 fullpath
= mem_pool_alloc(&opt
->priv
->pool
, len
+ 1);
1298 make_traverse_path(fullpath
, len
+ 1, info
, p
->path
, p
->pathlen
);
1301 * If mbase, side1, and side2 all match, we can resolve early. Even
1302 * if these are trees, there will be no renames or anything
1305 if (side1_matches_mbase
&& side2_matches_mbase
) {
1306 /* mbase, side1, & side2 all match; use mbase as resolution */
1307 setup_path_info(opt
, &pi
, dirname
, info
->pathlen
, fullpath
,
1308 names
, names
+0, mbase_null
, 0 /* df_conflict */,
1309 filemask
, dirmask
, 1 /* resolved */);
1314 * If the sides match, and all three paths are present and are
1315 * files, then we can take either as the resolution. We can't do
1316 * this with trees, because there may be rename sources from the
1319 if (sides_match
&& filemask
== 0x07) {
1320 /* use side1 (== side2) version as resolution */
1321 setup_path_info(opt
, &pi
, dirname
, info
->pathlen
, fullpath
,
1322 names
, names
+1, side1_null
, 0,
1323 filemask
, dirmask
, 1);
1328 * If side1 matches mbase and all three paths are present and are
1329 * files, then we can use side2 as the resolution. We cannot
1330 * necessarily do so this for trees, because there may be rename
1331 * destinations within side2.
1333 if (side1_matches_mbase
&& filemask
== 0x07) {
1334 /* use side2 version as resolution */
1335 setup_path_info(opt
, &pi
, dirname
, info
->pathlen
, fullpath
,
1336 names
, names
+2, side2_null
, 0,
1337 filemask
, dirmask
, 1);
1341 /* Similar to above but swapping sides 1 and 2 */
1342 if (side2_matches_mbase
&& filemask
== 0x07) {
1343 /* use side1 version as resolution */
1344 setup_path_info(opt
, &pi
, dirname
, info
->pathlen
, fullpath
,
1345 names
, names
+1, side1_null
, 0,
1346 filemask
, dirmask
, 1);
1351 * Sometimes we can tell that a source path need not be included in
1352 * rename detection -- namely, whenever either
1353 * side1_matches_mbase && side2_null
1355 * side2_matches_mbase && side1_null
1356 * However, we call collect_rename_info() even in those cases,
1357 * because exact renames are cheap and would let us remove both a
1358 * source and destination path. We'll cull the unneeded sources
1361 collect_rename_info(opt
, names
, dirname
, fullpath
,
1362 filemask
, dirmask
, match_mask
);
1365 * None of the special cases above matched, so we have a
1366 * provisional conflict. (Rename detection might allow us to
1367 * unconflict some more cases, but that comes later so all we can
1368 * do now is record the different non-null file hashes.)
1370 setup_path_info(opt
, &pi
, dirname
, info
->pathlen
, fullpath
,
1371 names
, NULL
, 0, df_conflict
, filemask
, dirmask
, 0);
1375 ci
->match_mask
= match_mask
;
1377 /* If dirmask, recurse into subdirectories */
1379 struct traverse_info newinfo
;
1380 struct tree_desc t
[3];
1381 void *buf
[3] = {NULL
, NULL
, NULL
};
1382 const char *original_dir_name
;
1386 * Check for whether we can avoid recursing due to one side
1387 * matching the merge base. The side that does NOT match is
1388 * the one that might have a rename destination we need.
1390 assert(!side1_matches_mbase
|| !side2_matches_mbase
);
1391 side
= side1_matches_mbase
? MERGE_SIDE2
:
1392 side2_matches_mbase
? MERGE_SIDE1
: MERGE_BASE
;
1393 if (filemask
== 0 && (dirmask
== 2 || dirmask
== 4)) {
1395 * Also defer recursing into new directories; set up a
1396 * few variables to let us do so.
1398 ci
->match_mask
= (7 - dirmask
);
1401 if (renames
->dir_rename_mask
!= 0x07 &&
1402 side
!= MERGE_BASE
&&
1403 renames
->deferred
[side
].trivial_merges_okay
&&
1404 !strset_contains(&renames
->deferred
[side
].target_dirs
,
1406 strintmap_set(&renames
->deferred
[side
].possible_trivial_merges
,
1407 pi
.string
, renames
->dir_rename_mask
);
1408 renames
->dir_rename_mask
= prev_dir_rename_mask
;
1412 /* We need to recurse */
1413 ci
->match_mask
&= filemask
;
1415 newinfo
.prev
= info
;
1416 newinfo
.name
= p
->path
;
1417 newinfo
.namelen
= p
->pathlen
;
1418 newinfo
.pathlen
= st_add3(newinfo
.pathlen
, p
->pathlen
, 1);
1420 * If this directory we are about to recurse into cared about
1421 * its parent directory (the current directory) having a D/F
1422 * conflict, then we'd propagate the masks in this way:
1423 * newinfo.df_conflicts |= (mask & ~dirmask);
1424 * But we don't worry about propagating D/F conflicts. (See
1425 * comment near setting of local df_conflict variable near
1426 * the beginning of this function).
1429 for (i
= MERGE_BASE
; i
<= MERGE_SIDE2
; i
++) {
1430 if (i
== 1 && side1_matches_mbase
)
1432 else if (i
== 2 && side2_matches_mbase
)
1434 else if (i
== 2 && sides_match
)
1437 const struct object_id
*oid
= NULL
;
1439 oid
= &names
[i
].oid
;
1440 buf
[i
] = fill_tree_descriptor(opt
->repo
,
1446 original_dir_name
= opti
->current_dir_name
;
1447 opti
->current_dir_name
= pi
.string
;
1448 if (renames
->dir_rename_mask
== 0 ||
1449 renames
->dir_rename_mask
== 0x07)
1450 ret
= traverse_trees(NULL
, 3, t
, &newinfo
);
1452 ret
= traverse_trees_wrapper(NULL
, 3, t
, &newinfo
);
1453 opti
->current_dir_name
= original_dir_name
;
1454 renames
->dir_rename_mask
= prev_dir_rename_mask
;
1456 for (i
= MERGE_BASE
; i
<= MERGE_SIDE2
; i
++)
1466 static void resolve_trivial_directory_merge(struct conflict_info
*ci
, int side
)
1469 assert((side
== 1 && ci
->match_mask
== 5) ||
1470 (side
== 2 && ci
->match_mask
== 3));
1471 oidcpy(&ci
->merged
.result
.oid
, &ci
->stages
[side
].oid
);
1472 ci
->merged
.result
.mode
= ci
->stages
[side
].mode
;
1473 ci
->merged
.is_null
= is_null_oid(&ci
->stages
[side
].oid
);
1475 ci
->merged
.clean
= 1; /* (ci->filemask == 0); */
1478 static int handle_deferred_entries(struct merge_options
*opt
,
1479 struct traverse_info
*info
)
1481 struct rename_info
*renames
= &opt
->priv
->renames
;
1482 struct hashmap_iter iter
;
1483 struct strmap_entry
*entry
;
1485 int path_count_before
, path_count_after
= 0;
1487 path_count_before
= strmap_get_size(&opt
->priv
->paths
);
1488 for (side
= MERGE_SIDE1
; side
<= MERGE_SIDE2
; side
++) {
1489 unsigned optimization_okay
= 1;
1490 struct strintmap copy
;
1492 /* Loop over the set of paths we need to know rename info for */
1493 strset_for_each_entry(&renames
->relevant_sources
[side
],
1495 char *rename_target
, *dir
, *dir_marker
;
1496 struct strmap_entry
*e
;
1499 * If we don't know delete/rename info for this path,
1500 * then we need to recurse into all trees to get all
1501 * adds to make sure we have it.
1503 if (strset_contains(&renames
->cached_irrelevant
[side
],
1506 e
= strmap_get_entry(&renames
->cached_pairs
[side
],
1509 optimization_okay
= 0;
1513 /* If this is a delete, we have enough info already */
1514 rename_target
= e
->value
;
1518 /* If we already walked the rename target, we're good */
1519 if (strmap_contains(&opt
->priv
->paths
, rename_target
))
1523 * Otherwise, we need to get a list of directories that
1524 * will need to be recursed into to get this
1527 dir
= xstrdup(rename_target
);
1528 while ((dir_marker
= strrchr(dir
, '/'))) {
1530 if (strset_contains(&renames
->deferred
[side
].target_dirs
,
1533 strset_add(&renames
->deferred
[side
].target_dirs
,
1538 renames
->deferred
[side
].trivial_merges_okay
= optimization_okay
;
1540 * We need to recurse into any directories in
1541 * possible_trivial_merges[side] found in target_dirs[side].
1542 * But when we recurse, we may need to queue up some of the
1543 * subdirectories for possible_trivial_merges[side]. Since
1544 * we can't safely iterate through a hashmap while also adding
1545 * entries, move the entries into 'copy', iterate over 'copy',
1546 * and then we'll also iterate anything added into
1547 * possible_trivial_merges[side] once this loop is done.
1549 copy
= renames
->deferred
[side
].possible_trivial_merges
;
1550 strintmap_init_with_options(&renames
->deferred
[side
].possible_trivial_merges
,
1554 strintmap_for_each_entry(©
, &iter
, entry
) {
1555 const char *path
= entry
->key
;
1556 unsigned dir_rename_mask
= (intptr_t)entry
->value
;
1557 struct conflict_info
*ci
;
1559 struct tree_desc t
[3];
1560 void *buf
[3] = {NULL
,};
1563 ci
= strmap_get(&opt
->priv
->paths
, path
);
1565 dirmask
= ci
->dirmask
;
1567 if (optimization_okay
&&
1568 !strset_contains(&renames
->deferred
[side
].target_dirs
,
1570 resolve_trivial_directory_merge(ci
, side
);
1575 info
->namelen
= strlen(path
);
1576 info
->pathlen
= info
->namelen
+ 1;
1578 for (i
= 0; i
< 3; i
++, dirmask
>>= 1) {
1579 if (i
== 1 && ci
->match_mask
== 3)
1581 else if (i
== 2 && ci
->match_mask
== 5)
1583 else if (i
== 2 && ci
->match_mask
== 6)
1586 const struct object_id
*oid
= NULL
;
1588 oid
= &ci
->stages
[i
].oid
;
1589 buf
[i
] = fill_tree_descriptor(opt
->repo
,
1594 ci
->match_mask
&= ci
->filemask
;
1595 opt
->priv
->current_dir_name
= path
;
1596 renames
->dir_rename_mask
= dir_rename_mask
;
1597 if (renames
->dir_rename_mask
== 0 ||
1598 renames
->dir_rename_mask
== 0x07)
1599 ret
= traverse_trees(NULL
, 3, t
, info
);
1601 ret
= traverse_trees_wrapper(NULL
, 3, t
, info
);
1603 for (i
= MERGE_BASE
; i
<= MERGE_SIDE2
; i
++)
1609 strintmap_clear(©
);
1610 strintmap_for_each_entry(&renames
->deferred
[side
].possible_trivial_merges
,
1612 const char *path
= entry
->key
;
1613 struct conflict_info
*ci
;
1615 ci
= strmap_get(&opt
->priv
->paths
, path
);
1618 assert(renames
->deferred
[side
].trivial_merges_okay
&&
1619 !strset_contains(&renames
->deferred
[side
].target_dirs
,
1621 resolve_trivial_directory_merge(ci
, side
);
1623 if (!optimization_okay
|| path_count_after
)
1624 path_count_after
= strmap_get_size(&opt
->priv
->paths
);
1626 if (path_count_after
) {
1628 * The choice of wanted_factor here does not affect
1629 * correctness, only performance. When the
1630 * path_count_after / path_count_before
1631 * ratio is high, redoing after renames is a big
1632 * performance boost. I suspect that redoing is a wash
1633 * somewhere near a value of 2, and below that redoing will
1634 * slow things down. I applied a fudge factor and picked
1635 * 3; see the commit message when this was introduced for
1636 * back of the envelope calculations for this ratio.
1638 const int wanted_factor
= 3;
1640 /* We should only redo collect_merge_info one time */
1641 assert(renames
->redo_after_renames
== 0);
1643 if (path_count_after
/ path_count_before
>= wanted_factor
) {
1644 renames
->redo_after_renames
= 1;
1645 renames
->cached_pairs_valid_side
= -1;
1647 } else if (renames
->redo_after_renames
== 2)
1648 renames
->redo_after_renames
= 0;
1652 static int collect_merge_info(struct merge_options
*opt
,
1653 struct tree
*merge_base
,
1658 struct tree_desc t
[3];
1659 struct traverse_info info
;
1661 opt
->priv
->toplevel_dir
= "";
1662 opt
->priv
->current_dir_name
= opt
->priv
->toplevel_dir
;
1663 setup_traverse_info(&info
, opt
->priv
->toplevel_dir
);
1664 info
.fn
= collect_merge_info_callback
;
1666 info
.show_all_errors
= 1;
1668 parse_tree(merge_base
);
1671 init_tree_desc(t
+ 0, merge_base
->buffer
, merge_base
->size
);
1672 init_tree_desc(t
+ 1, side1
->buffer
, side1
->size
);
1673 init_tree_desc(t
+ 2, side2
->buffer
, side2
->size
);
1675 trace2_region_enter("merge", "traverse_trees", opt
->repo
);
1676 ret
= traverse_trees(NULL
, 3, t
, &info
);
1678 ret
= handle_deferred_entries(opt
, &info
);
1679 trace2_region_leave("merge", "traverse_trees", opt
->repo
);
1684 /*** Function Grouping: functions related to threeway content merges ***/
1686 static int find_first_merges(struct repository
*repo
,
1690 struct object_array
*result
)
1693 struct object_array merges
= OBJECT_ARRAY_INIT
;
1694 struct commit
*commit
;
1695 int contains_another
;
1697 char merged_revision
[GIT_MAX_HEXSZ
+ 2];
1698 const char *rev_args
[] = { "rev-list", "--merges", "--ancestry-path",
1699 "--all", merged_revision
, NULL
};
1700 struct rev_info revs
;
1701 struct setup_revision_opt rev_opts
;
1703 memset(result
, 0, sizeof(struct object_array
));
1704 memset(&rev_opts
, 0, sizeof(rev_opts
));
1706 /* get all revisions that merge commit a */
1707 xsnprintf(merged_revision
, sizeof(merged_revision
), "^%s",
1708 oid_to_hex(&a
->object
.oid
));
1709 repo_init_revisions(repo
, &revs
, NULL
);
1710 /* FIXME: can't handle linked worktrees in submodules yet */
1711 revs
.single_worktree
= path
!= NULL
;
1712 setup_revisions(ARRAY_SIZE(rev_args
)-1, rev_args
, &revs
, &rev_opts
);
1714 /* save all revisions from the above list that contain b */
1715 if (prepare_revision_walk(&revs
))
1716 die("revision walk setup failed");
1717 while ((commit
= get_revision(&revs
)) != NULL
) {
1718 struct object
*o
= &(commit
->object
);
1719 if (repo_in_merge_bases(repo
, b
, commit
))
1720 add_object_array(o
, NULL
, &merges
);
1722 reset_revision_walk();
1724 /* Now we've got all merges that contain a and b. Prune all
1725 * merges that contain another found merge and save them in
1728 for (i
= 0; i
< merges
.nr
; i
++) {
1729 struct commit
*m1
= (struct commit
*) merges
.objects
[i
].item
;
1731 contains_another
= 0;
1732 for (j
= 0; j
< merges
.nr
; j
++) {
1733 struct commit
*m2
= (struct commit
*) merges
.objects
[j
].item
;
1734 if (i
!= j
&& repo_in_merge_bases(repo
, m2
, m1
)) {
1735 contains_another
= 1;
1740 if (!contains_another
)
1741 add_object_array(merges
.objects
[i
].item
, NULL
, result
);
1744 object_array_clear(&merges
);
1745 release_revisions(&revs
);
1749 static int merge_submodule(struct merge_options
*opt
,
1751 const struct object_id
*o
,
1752 const struct object_id
*a
,
1753 const struct object_id
*b
,
1754 struct object_id
*result
)
1756 struct repository subrepo
;
1757 struct strbuf sb
= STRBUF_INIT
;
1759 struct commit
*commit_o
, *commit_a
, *commit_b
;
1761 struct object_array merges
;
1764 int search
= !opt
->priv
->call_depth
;
1765 int sub_not_initialized
= 1;
1766 int sub_flag
= CONFLICT_SUBMODULE_FAILED_TO_MERGE
;
1768 /* store fallback answer in result in case we fail */
1769 oidcpy(result
, opt
->priv
->call_depth
? o
: a
);
1771 /* we can not handle deletion conflicts */
1772 if (is_null_oid(a
) || is_null_oid(b
))
1773 BUG("submodule deleted on one side; this should be handled outside of merge_submodule()");
1775 if ((sub_not_initialized
= repo_submodule_init(&subrepo
,
1776 opt
->repo
, path
, null_oid()))) {
1777 path_msg(opt
, CONFLICT_SUBMODULE_NOT_INITIALIZED
, 0,
1778 path
, NULL
, NULL
, NULL
,
1779 _("Failed to merge submodule %s (not checked out)"),
1781 sub_flag
= CONFLICT_SUBMODULE_NOT_INITIALIZED
;
1785 if (is_null_oid(o
)) {
1786 path_msg(opt
, CONFLICT_SUBMODULE_NULL_MERGE_BASE
, 0,
1787 path
, NULL
, NULL
, NULL
,
1788 _("Failed to merge submodule %s (no merge base)"),
1793 if (!(commit_o
= lookup_commit_reference(&subrepo
, o
)) ||
1794 !(commit_a
= lookup_commit_reference(&subrepo
, a
)) ||
1795 !(commit_b
= lookup_commit_reference(&subrepo
, b
))) {
1796 path_msg(opt
, CONFLICT_SUBMODULE_HISTORY_NOT_AVAILABLE
, 0,
1797 path
, NULL
, NULL
, NULL
,
1798 _("Failed to merge submodule %s (commits not present)"),
1800 sub_flag
= CONFLICT_SUBMODULE_HISTORY_NOT_AVAILABLE
;
1804 /* check whether both changes are forward */
1805 if (!repo_in_merge_bases(&subrepo
, commit_o
, commit_a
) ||
1806 !repo_in_merge_bases(&subrepo
, commit_o
, commit_b
)) {
1807 path_msg(opt
, CONFLICT_SUBMODULE_MAY_HAVE_REWINDS
, 0,
1808 path
, NULL
, NULL
, NULL
,
1809 _("Failed to merge submodule %s "
1810 "(commits don't follow merge-base)"),
1815 /* Case #1: a is contained in b or vice versa */
1816 if (repo_in_merge_bases(&subrepo
, commit_a
, commit_b
)) {
1818 path_msg(opt
, INFO_SUBMODULE_FAST_FORWARDING
, 1,
1819 path
, NULL
, NULL
, NULL
,
1820 _("Note: Fast-forwarding submodule %s to %s"),
1821 path
, oid_to_hex(b
));
1825 if (repo_in_merge_bases(&subrepo
, commit_b
, commit_a
)) {
1827 path_msg(opt
, INFO_SUBMODULE_FAST_FORWARDING
, 1,
1828 path
, NULL
, NULL
, NULL
,
1829 _("Note: Fast-forwarding submodule %s to %s"),
1830 path
, oid_to_hex(a
));
1836 * Case #2: There are one or more merges that contain a and b in
1837 * the submodule. If there is only one, then present it as a
1838 * suggestion to the user, but leave it marked unmerged so the
1839 * user needs to confirm the resolution.
1842 /* Skip the search if makes no sense to the calling context. */
1846 /* find commit which merges them */
1847 parent_count
= find_first_merges(&subrepo
, path
, commit_a
, commit_b
,
1849 switch (parent_count
) {
1851 path_msg(opt
, CONFLICT_SUBMODULE_FAILED_TO_MERGE
, 0,
1852 path
, NULL
, NULL
, NULL
,
1853 _("Failed to merge submodule %s"), path
);
1857 format_commit(&sb
, 4, &subrepo
,
1858 (struct commit
*)merges
.objects
[0].item
);
1859 path_msg(opt
, CONFLICT_SUBMODULE_FAILED_TO_MERGE_BUT_POSSIBLE_RESOLUTION
, 0,
1860 path
, NULL
, NULL
, NULL
,
1861 _("Failed to merge submodule %s, but a possible merge "
1862 "resolution exists: %s"),
1864 strbuf_release(&sb
);
1867 for (i
= 0; i
< merges
.nr
; i
++)
1868 format_commit(&sb
, 4, &subrepo
,
1869 (struct commit
*)merges
.objects
[i
].item
);
1870 path_msg(opt
, CONFLICT_SUBMODULE_FAILED_TO_MERGE_BUT_POSSIBLE_RESOLUTION
, 0,
1871 path
, NULL
, NULL
, NULL
,
1872 _("Failed to merge submodule %s, but multiple "
1873 "possible merges exist:\n%s"), path
, sb
.buf
);
1874 strbuf_release(&sb
);
1877 object_array_clear(&merges
);
1879 if (!opt
->priv
->call_depth
&& !ret
) {
1880 struct string_list
*csub
= &opt
->priv
->conflicted_submodules
;
1881 struct conflicted_submodule_item
*util
;
1884 util
= xmalloc(sizeof(*util
));
1885 util
->flag
= sub_flag
;
1886 util
->abbrev
= NULL
;
1887 if (!sub_not_initialized
) {
1888 abbrev
= repo_find_unique_abbrev(&subrepo
, b
, DEFAULT_ABBREV
);
1889 util
->abbrev
= xstrdup(abbrev
);
1891 string_list_append(csub
, path
)->util
= util
;
1894 if (!sub_not_initialized
)
1895 repo_clear(&subrepo
);
1899 static void initialize_attr_index(struct merge_options
*opt
)
1902 * The renormalize_buffer() functions require attributes, and
1903 * annoyingly those can only be read from the working tree or from
1904 * an index_state. merge-ort doesn't have an index_state, so we
1905 * generate a fake one containing only attribute information.
1907 struct merged_info
*mi
;
1908 struct index_state
*attr_index
= &opt
->priv
->attr_index
;
1909 struct cache_entry
*ce
;
1911 attr_index
->initialized
= 1;
1913 if (!opt
->renormalize
)
1916 mi
= strmap_get(&opt
->priv
->paths
, GITATTRIBUTES_FILE
);
1921 int len
= strlen(GITATTRIBUTES_FILE
);
1922 ce
= make_empty_cache_entry(attr_index
, len
);
1923 ce
->ce_mode
= create_ce_mode(mi
->result
.mode
);
1924 ce
->ce_flags
= create_ce_flags(0);
1925 ce
->ce_namelen
= len
;
1926 oidcpy(&ce
->oid
, &mi
->result
.oid
);
1927 memcpy(ce
->name
, GITATTRIBUTES_FILE
, len
);
1928 add_index_entry(attr_index
, ce
,
1929 ADD_CACHE_OK_TO_ADD
| ADD_CACHE_OK_TO_REPLACE
);
1930 get_stream_filter(attr_index
, GITATTRIBUTES_FILE
, &ce
->oid
);
1933 struct conflict_info
*ci
;
1935 ASSIGN_AND_VERIFY_CI(ci
, mi
);
1936 for (stage
= 0; stage
< 3; stage
++) {
1937 unsigned stage_mask
= (1 << stage
);
1939 if (!(ci
->filemask
& stage_mask
))
1941 len
= strlen(GITATTRIBUTES_FILE
);
1942 ce
= make_empty_cache_entry(attr_index
, len
);
1943 ce
->ce_mode
= create_ce_mode(ci
->stages
[stage
].mode
);
1944 ce
->ce_flags
= create_ce_flags(stage
);
1945 ce
->ce_namelen
= len
;
1946 oidcpy(&ce
->oid
, &ci
->stages
[stage
].oid
);
1947 memcpy(ce
->name
, GITATTRIBUTES_FILE
, len
);
1948 add_index_entry(attr_index
, ce
,
1949 ADD_CACHE_OK_TO_ADD
| ADD_CACHE_OK_TO_REPLACE
);
1950 get_stream_filter(attr_index
, GITATTRIBUTES_FILE
,
1956 static int merge_3way(struct merge_options
*opt
,
1958 const struct object_id
*o
,
1959 const struct object_id
*a
,
1960 const struct object_id
*b
,
1961 const char *pathnames
[3],
1962 const int extra_marker_size
,
1963 mmbuffer_t
*result_buf
)
1965 mmfile_t orig
, src1
, src2
;
1966 struct ll_merge_options ll_opts
= {0};
1967 char *base
, *name1
, *name2
;
1968 enum ll_merge_result merge_status
;
1970 if (!opt
->priv
->attr_index
.initialized
)
1971 initialize_attr_index(opt
);
1973 ll_opts
.renormalize
= opt
->renormalize
;
1974 ll_opts
.extra_marker_size
= extra_marker_size
;
1975 ll_opts
.xdl_opts
= opt
->xdl_opts
;
1977 if (opt
->priv
->call_depth
) {
1978 ll_opts
.virtual_ancestor
= 1;
1979 ll_opts
.variant
= 0;
1981 switch (opt
->recursive_variant
) {
1982 case MERGE_VARIANT_OURS
:
1983 ll_opts
.variant
= XDL_MERGE_FAVOR_OURS
;
1985 case MERGE_VARIANT_THEIRS
:
1986 ll_opts
.variant
= XDL_MERGE_FAVOR_THEIRS
;
1989 ll_opts
.variant
= 0;
1994 assert(pathnames
[0] && pathnames
[1] && pathnames
[2] && opt
->ancestor
);
1995 if (pathnames
[0] == pathnames
[1] && pathnames
[1] == pathnames
[2]) {
1996 base
= mkpathdup("%s", opt
->ancestor
);
1997 name1
= mkpathdup("%s", opt
->branch1
);
1998 name2
= mkpathdup("%s", opt
->branch2
);
2000 base
= mkpathdup("%s:%s", opt
->ancestor
, pathnames
[0]);
2001 name1
= mkpathdup("%s:%s", opt
->branch1
, pathnames
[1]);
2002 name2
= mkpathdup("%s:%s", opt
->branch2
, pathnames
[2]);
2005 read_mmblob(&orig
, o
);
2006 read_mmblob(&src1
, a
);
2007 read_mmblob(&src2
, b
);
2009 merge_status
= ll_merge(result_buf
, path
, &orig
, base
,
2010 &src1
, name1
, &src2
, name2
,
2011 &opt
->priv
->attr_index
, &ll_opts
);
2012 if (merge_status
== LL_MERGE_BINARY_CONFLICT
)
2013 path_msg(opt
, CONFLICT_BINARY
, 0,
2014 path
, NULL
, NULL
, NULL
,
2015 "warning: Cannot merge binary files: %s (%s vs. %s)",
2016 path
, name1
, name2
);
2024 return merge_status
;
2027 static int handle_content_merge(struct merge_options
*opt
,
2029 const struct version_info
*o
,
2030 const struct version_info
*a
,
2031 const struct version_info
*b
,
2032 const char *pathnames
[3],
2033 const int extra_marker_size
,
2034 struct version_info
*result
)
2037 * path is the target location where we want to put the file, and
2038 * is used to determine any normalization rules in ll_merge.
2040 * The normal case is that path and all entries in pathnames are
2041 * identical, though renames can affect which path we got one of
2042 * the three blobs to merge on various sides of history.
2044 * extra_marker_size is the amount to extend conflict markers in
2045 * ll_merge; this is neeed if we have content merges of content
2046 * merges, which happens for example with rename/rename(2to1) and
2047 * rename/add conflicts.
2052 * handle_content_merge() needs both files to be of the same type, i.e.
2053 * both files OR both submodules OR both symlinks. Conflicting types
2054 * needs to be handled elsewhere.
2056 assert((S_IFMT
& a
->mode
) == (S_IFMT
& b
->mode
));
2059 if (a
->mode
== b
->mode
|| a
->mode
== o
->mode
)
2060 result
->mode
= b
->mode
;
2062 /* must be the 100644/100755 case */
2063 assert(S_ISREG(a
->mode
));
2064 result
->mode
= a
->mode
;
2065 clean
= (b
->mode
== o
->mode
);
2067 * FIXME: If opt->priv->call_depth && !clean, then we really
2068 * should not make result->mode match either a->mode or
2069 * b->mode; that causes t6036 "check conflicting mode for
2070 * regular file" to fail. It would be best to use some other
2071 * mode, but we'll confuse all kinds of stuff if we use one
2072 * where S_ISREG(result->mode) isn't true, and if we use
2073 * something like 0100666, then tree-walk.c's calls to
2074 * canon_mode() will just normalize that to 100644 for us and
2075 * thus not solve anything.
2077 * Figure out if there's some kind of way we can work around
2083 * Trivial oid merge.
2085 * Note: While one might assume that the next four lines would
2086 * be unnecessary due to the fact that match_mask is often
2087 * setup and already handled, renames don't always take care
2090 if (oideq(&a
->oid
, &b
->oid
) || oideq(&a
->oid
, &o
->oid
))
2091 oidcpy(&result
->oid
, &b
->oid
);
2092 else if (oideq(&b
->oid
, &o
->oid
))
2093 oidcpy(&result
->oid
, &a
->oid
);
2095 /* Remaining rules depend on file vs. submodule vs. symlink. */
2096 else if (S_ISREG(a
->mode
)) {
2097 mmbuffer_t result_buf
;
2098 int ret
= 0, merge_status
;
2102 * If 'o' is different type, treat it as null so we do a
2105 two_way
= ((S_IFMT
& o
->mode
) != (S_IFMT
& a
->mode
));
2107 merge_status
= merge_3way(opt
, path
,
2108 two_way
? null_oid() : &o
->oid
,
2110 pathnames
, extra_marker_size
,
2113 if ((merge_status
< 0) || !result_buf
.ptr
)
2114 ret
= err(opt
, _("Failed to execute internal merge"));
2117 write_object_file(result_buf
.ptr
, result_buf
.size
,
2118 OBJ_BLOB
, &result
->oid
))
2119 ret
= err(opt
, _("Unable to add %s to database"),
2122 free(result_buf
.ptr
);
2125 clean
&= (merge_status
== 0);
2126 path_msg(opt
, INFO_AUTO_MERGING
, 1, path
, NULL
, NULL
, NULL
,
2127 _("Auto-merging %s"), path
);
2128 } else if (S_ISGITLINK(a
->mode
)) {
2129 int two_way
= ((S_IFMT
& o
->mode
) != (S_IFMT
& a
->mode
));
2130 clean
= merge_submodule(opt
, pathnames
[0],
2131 two_way
? null_oid() : &o
->oid
,
2132 &a
->oid
, &b
->oid
, &result
->oid
);
2133 if (opt
->priv
->call_depth
&& two_way
&& !clean
) {
2134 result
->mode
= o
->mode
;
2135 oidcpy(&result
->oid
, &o
->oid
);
2137 } else if (S_ISLNK(a
->mode
)) {
2138 if (opt
->priv
->call_depth
) {
2140 result
->mode
= o
->mode
;
2141 oidcpy(&result
->oid
, &o
->oid
);
2143 switch (opt
->recursive_variant
) {
2144 case MERGE_VARIANT_NORMAL
:
2146 oidcpy(&result
->oid
, &a
->oid
);
2148 case MERGE_VARIANT_OURS
:
2149 oidcpy(&result
->oid
, &a
->oid
);
2151 case MERGE_VARIANT_THEIRS
:
2152 oidcpy(&result
->oid
, &b
->oid
);
2157 BUG("unsupported object type in the tree: %06o for %s",
2163 /*** Function Grouping: functions related to detect_and_process_renames(), ***
2164 *** which are split into directory and regular rename detection sections. ***/
2166 /*** Function Grouping: functions related to directory rename detection ***/
2168 struct collision_info
{
2169 struct string_list source_files
;
2170 unsigned reported_already
:1;
2174 * Return a new string that replaces the beginning portion (which matches
2175 * rename_info->key), with rename_info->util.new_dir. In perl-speak:
2176 * new_path_name = (old_path =~ s/rename_info->key/rename_info->value/);
2178 * Caller must ensure that old_path starts with rename_info->key + '/'.
2180 static char *apply_dir_rename(struct strmap_entry
*rename_info
,
2181 const char *old_path
)
2183 struct strbuf new_path
= STRBUF_INIT
;
2184 const char *old_dir
= rename_info
->key
;
2185 const char *new_dir
= rename_info
->value
;
2186 int oldlen
, newlen
, new_dir_len
;
2188 oldlen
= strlen(old_dir
);
2189 if (*new_dir
== '\0')
2191 * If someone renamed/merged a subdirectory into the root
2192 * directory (e.g. 'some/subdir' -> ''), then we want to
2195 * as the rename; we need to make old_path + oldlen advance
2196 * past the '/' character.
2199 new_dir_len
= strlen(new_dir
);
2200 newlen
= new_dir_len
+ (strlen(old_path
) - oldlen
) + 1;
2201 strbuf_grow(&new_path
, newlen
);
2202 strbuf_add(&new_path
, new_dir
, new_dir_len
);
2203 strbuf_addstr(&new_path
, &old_path
[oldlen
]);
2205 return strbuf_detach(&new_path
, NULL
);
2208 static int path_in_way(struct strmap
*paths
, const char *path
, unsigned side_mask
)
2210 struct merged_info
*mi
= strmap_get(paths
, path
);
2211 struct conflict_info
*ci
;
2214 INITIALIZE_CI(ci
, mi
);
2215 return mi
->clean
|| (side_mask
& (ci
->filemask
| ci
->dirmask
));
2219 * See if there is a directory rename for path, and if there are any file
2220 * level conflicts on the given side for the renamed location. If there is
2221 * a rename and there are no conflicts, return the new name. Otherwise,
2224 static char *handle_path_level_conflicts(struct merge_options
*opt
,
2226 unsigned side_index
,
2227 struct strmap_entry
*rename_info
,
2228 struct strmap
*collisions
)
2230 char *new_path
= NULL
;
2231 struct collision_info
*c_info
;
2233 struct strbuf collision_paths
= STRBUF_INIT
;
2236 * entry has the mapping of old directory name to new directory name
2237 * that we want to apply to path.
2239 new_path
= apply_dir_rename(rename_info
, path
);
2241 BUG("Failed to apply directory rename!");
2244 * The caller needs to have ensured that it has pre-populated
2245 * collisions with all paths that map to new_path. Do a quick check
2246 * to ensure that's the case.
2248 c_info
= strmap_get(collisions
, new_path
);
2250 BUG("c_info is NULL");
2253 * Check for one-sided add/add/.../add conflicts, i.e.
2254 * where implicit renames from the other side doing
2255 * directory rename(s) can affect this side of history
2256 * to put multiple paths into the same location. Warn
2257 * and bail on directory renames for such paths.
2259 if (c_info
->reported_already
) {
2261 } else if (path_in_way(&opt
->priv
->paths
, new_path
, 1 << side_index
)) {
2262 c_info
->reported_already
= 1;
2263 strbuf_add_separated_string_list(&collision_paths
, ", ",
2264 &c_info
->source_files
);
2265 path_msg(opt
, CONFLICT_DIR_RENAME_FILE_IN_WAY
, 0,
2266 new_path
, NULL
, NULL
, &c_info
->source_files
,
2267 _("CONFLICT (implicit dir rename): Existing "
2268 "file/dir at %s in the way of implicit "
2269 "directory rename(s) putting the following "
2270 "path(s) there: %s."),
2271 new_path
, collision_paths
.buf
);
2273 } else if (c_info
->source_files
.nr
> 1) {
2274 c_info
->reported_already
= 1;
2275 strbuf_add_separated_string_list(&collision_paths
, ", ",
2276 &c_info
->source_files
);
2277 path_msg(opt
, CONFLICT_DIR_RENAME_COLLISION
, 0,
2278 new_path
, NULL
, NULL
, &c_info
->source_files
,
2279 _("CONFLICT (implicit dir rename): Cannot map "
2280 "more than one path to %s; implicit directory "
2281 "renames tried to put these paths there: %s"),
2282 new_path
, collision_paths
.buf
);
2286 /* Free memory we no longer need */
2287 strbuf_release(&collision_paths
);
2288 if (!clean
&& new_path
) {
2296 static void get_provisional_directory_renames(struct merge_options
*opt
,
2300 struct hashmap_iter iter
;
2301 struct strmap_entry
*entry
;
2302 struct rename_info
*renames
= &opt
->priv
->renames
;
2306 * dir_rename_count: old_directory -> {new_directory -> count}
2308 * dir_renames: old_directory -> best_new_directory
2309 * where best_new_directory is the one with the unique highest count.
2311 strmap_for_each_entry(&renames
->dir_rename_count
[side
], &iter
, entry
) {
2312 const char *source_dir
= entry
->key
;
2313 struct strintmap
*counts
= entry
->value
;
2314 struct hashmap_iter count_iter
;
2315 struct strmap_entry
*count_entry
;
2318 const char *best
= NULL
;
2320 strintmap_for_each_entry(counts
, &count_iter
, count_entry
) {
2321 const char *target_dir
= count_entry
->key
;
2322 intptr_t count
= (intptr_t)count_entry
->value
;
2326 else if (count
> max
) {
2335 if (bad_max
== max
) {
2336 path_msg(opt
, CONFLICT_DIR_RENAME_SPLIT
, 0,
2337 source_dir
, NULL
, NULL
, NULL
,
2338 _("CONFLICT (directory rename split): "
2339 "Unclear where to rename %s to; it was "
2340 "renamed to multiple other directories, "
2341 "with no destination getting a majority of "
2346 strmap_put(&renames
->dir_renames
[side
],
2347 source_dir
, (void*)best
);
2352 static void handle_directory_level_conflicts(struct merge_options
*opt
)
2354 struct hashmap_iter iter
;
2355 struct strmap_entry
*entry
;
2356 struct string_list duplicated
= STRING_LIST_INIT_NODUP
;
2357 struct rename_info
*renames
= &opt
->priv
->renames
;
2358 struct strmap
*side1_dir_renames
= &renames
->dir_renames
[MERGE_SIDE1
];
2359 struct strmap
*side2_dir_renames
= &renames
->dir_renames
[MERGE_SIDE2
];
2362 strmap_for_each_entry(side1_dir_renames
, &iter
, entry
) {
2363 if (strmap_contains(side2_dir_renames
, entry
->key
))
2364 string_list_append(&duplicated
, entry
->key
);
2367 for (i
= 0; i
< duplicated
.nr
; i
++) {
2368 strmap_remove(side1_dir_renames
, duplicated
.items
[i
].string
, 0);
2369 strmap_remove(side2_dir_renames
, duplicated
.items
[i
].string
, 0);
2371 string_list_clear(&duplicated
, 0);
2374 static struct strmap_entry
*check_dir_renamed(const char *path
,
2375 struct strmap
*dir_renames
)
2377 char *temp
= xstrdup(path
);
2379 struct strmap_entry
*e
= NULL
;
2381 while ((end
= strrchr(temp
, '/'))) {
2383 e
= strmap_get_entry(dir_renames
, temp
);
2391 static void compute_collisions(struct strmap
*collisions
,
2392 struct strmap
*dir_renames
,
2393 struct diff_queue_struct
*pairs
)
2397 strmap_init_with_options(collisions
, NULL
, 0);
2398 if (strmap_empty(dir_renames
))
2402 * Multiple files can be mapped to the same path due to directory
2403 * renames done by the other side of history. Since that other
2404 * side of history could have merged multiple directories into one,
2405 * if our side of history added the same file basename to each of
2406 * those directories, then all N of them would get implicitly
2407 * renamed by the directory rename detection into the same path,
2408 * and we'd get an add/add/.../add conflict, and all those adds
2409 * from *this* side of history. This is not representable in the
2410 * index, and users aren't going to easily be able to make sense of
2411 * it. So we need to provide a good warning about what's
2412 * happening, and fall back to no-directory-rename detection
2413 * behavior for those paths.
2415 * See testcases 9e and all of section 5 from t6043 for examples.
2417 for (i
= 0; i
< pairs
->nr
; ++i
) {
2418 struct strmap_entry
*rename_info
;
2419 struct collision_info
*collision_info
;
2421 struct diff_filepair
*pair
= pairs
->queue
[i
];
2423 if (pair
->status
!= 'A' && pair
->status
!= 'R')
2425 rename_info
= check_dir_renamed(pair
->two
->path
, dir_renames
);
2429 new_path
= apply_dir_rename(rename_info
, pair
->two
->path
);
2431 collision_info
= strmap_get(collisions
, new_path
);
2432 if (collision_info
) {
2435 CALLOC_ARRAY(collision_info
, 1);
2436 string_list_init_nodup(&collision_info
->source_files
);
2437 strmap_put(collisions
, new_path
, collision_info
);
2439 string_list_insert(&collision_info
->source_files
,
2444 static void free_collisions(struct strmap
*collisions
)
2446 struct hashmap_iter iter
;
2447 struct strmap_entry
*entry
;
2449 /* Free each value in the collisions map */
2450 strmap_for_each_entry(collisions
, &iter
, entry
) {
2451 struct collision_info
*info
= entry
->value
;
2452 string_list_clear(&info
->source_files
, 0);
2455 * In compute_collisions(), we set collisions.strdup_strings to 0
2456 * so that we wouldn't have to make another copy of the new_path
2457 * allocated by apply_dir_rename(). But now that we've used them
2458 * and have no other references to these strings, it is time to
2461 free_strmap_strings(collisions
);
2462 strmap_clear(collisions
, 1);
2465 static char *check_for_directory_rename(struct merge_options
*opt
,
2467 unsigned side_index
,
2468 struct strmap
*dir_renames
,
2469 struct strmap
*dir_rename_exclusions
,
2470 struct strmap
*collisions
,
2474 struct strmap_entry
*rename_info
;
2475 struct strmap_entry
*otherinfo
;
2476 const char *new_dir
;
2477 int other_side
= 3 - side_index
;
2480 * Cases where we don't have or don't want a directory rename for
2483 if (strmap_empty(dir_renames
))
2485 if (strmap_get(&collisions
[other_side
], path
))
2487 rename_info
= check_dir_renamed(path
, dir_renames
);
2492 * This next part is a little weird. We do not want to do an
2493 * implicit rename into a directory we renamed on our side, because
2494 * that will result in a spurious rename/rename(1to2) conflict. An
2496 * Base commit: dumbdir/afile, otherdir/bfile
2497 * Side 1: smrtdir/afile, otherdir/bfile
2498 * Side 2: dumbdir/afile, dumbdir/bfile
2499 * Here, while working on Side 1, we could notice that otherdir was
2500 * renamed/merged to dumbdir, and change the diff_filepair for
2501 * otherdir/bfile into a rename into dumbdir/bfile. However, Side
2502 * 2 will notice the rename from dumbdir to smrtdir, and do the
2503 * transitive rename to move it from dumbdir/bfile to
2504 * smrtdir/bfile. That gives us bfile in dumbdir vs being in
2505 * smrtdir, a rename/rename(1to2) conflict. We really just want
2506 * the file to end up in smrtdir. And the way to achieve that is
2507 * to not let Side1 do the rename to dumbdir, since we know that is
2508 * the source of one of our directory renames.
2510 * That's why otherinfo and dir_rename_exclusions is here.
2512 * As it turns out, this also prevents N-way transient rename
2513 * confusion; See testcases 9c and 9d of t6043.
2515 new_dir
= rename_info
->value
; /* old_dir = rename_info->key; */
2516 otherinfo
= strmap_get_entry(dir_rename_exclusions
, new_dir
);
2518 path_msg(opt
, INFO_DIR_RENAME_SKIPPED_DUE_TO_RERENAME
, 1,
2519 rename_info
->key
, path
, new_dir
, NULL
,
2520 _("WARNING: Avoiding applying %s -> %s rename "
2521 "to %s, because %s itself was renamed."),
2522 rename_info
->key
, new_dir
, path
, new_dir
);
2526 new_path
= handle_path_level_conflicts(opt
, path
, side_index
,
2528 &collisions
[side_index
]);
2529 *clean_merge
&= (new_path
!= NULL
);
2534 static void apply_directory_rename_modifications(struct merge_options
*opt
,
2535 struct diff_filepair
*pair
,
2539 * The basic idea is to get the conflict_info from opt->priv->paths
2540 * at old path, and insert it into new_path; basically just this:
2541 * ci = strmap_get(&opt->priv->paths, old_path);
2542 * strmap_remove(&opt->priv->paths, old_path, 0);
2543 * strmap_put(&opt->priv->paths, new_path, ci);
2544 * However, there are some factors complicating this:
2545 * - opt->priv->paths may already have an entry at new_path
2546 * - Each ci tracks its containing directory, so we need to
2548 * - If another ci has the same containing directory, then
2549 * the two char*'s MUST point to the same location. See the
2550 * comment in struct merged_info. strcmp equality is not
2551 * enough; we need pointer equality.
2552 * - opt->priv->paths must hold the parent directories of any
2553 * entries that are added. So, if this directory rename
2554 * causes entirely new directories, we must recursively add
2555 * parent directories.
2556 * - For each parent directory added to opt->priv->paths, we
2557 * also need to get its parent directory stored in its
2558 * conflict_info->merged.directory_name with all the same
2559 * requirements about pointer equality.
2561 struct string_list dirs_to_insert
= STRING_LIST_INIT_NODUP
;
2562 struct conflict_info
*ci
, *new_ci
;
2563 struct strmap_entry
*entry
;
2564 const char *branch_with_new_path
, *branch_with_dir_rename
;
2565 const char *old_path
= pair
->two
->path
;
2566 const char *parent_name
;
2567 const char *cur_path
;
2570 entry
= strmap_get_entry(&opt
->priv
->paths
, old_path
);
2571 old_path
= entry
->key
;
2575 /* Find parent directories missing from opt->priv->paths */
2576 cur_path
= mem_pool_strdup(&opt
->priv
->pool
, new_path
);
2577 free((char*)new_path
);
2578 new_path
= (char *)cur_path
;
2581 /* Find the parent directory of cur_path */
2582 char *last_slash
= strrchr(cur_path
, '/');
2584 parent_name
= mem_pool_strndup(&opt
->priv
->pool
,
2586 last_slash
- cur_path
);
2588 parent_name
= opt
->priv
->toplevel_dir
;
2592 /* Look it up in opt->priv->paths */
2593 entry
= strmap_get_entry(&opt
->priv
->paths
, parent_name
);
2595 parent_name
= entry
->key
; /* reuse known pointer */
2599 /* Record this is one of the directories we need to insert */
2600 string_list_append(&dirs_to_insert
, parent_name
);
2601 cur_path
= parent_name
;
2604 /* Traverse dirs_to_insert and insert them into opt->priv->paths */
2605 for (i
= dirs_to_insert
.nr
-1; i
>= 0; --i
) {
2606 struct conflict_info
*dir_ci
;
2607 char *cur_dir
= dirs_to_insert
.items
[i
].string
;
2609 CALLOC_ARRAY(dir_ci
, 1);
2611 dir_ci
->merged
.directory_name
= parent_name
;
2612 len
= strlen(parent_name
);
2613 /* len+1 because of trailing '/' character */
2614 dir_ci
->merged
.basename_offset
= (len
> 0 ? len
+1 : len
);
2615 dir_ci
->dirmask
= ci
->filemask
;
2616 strmap_put(&opt
->priv
->paths
, cur_dir
, dir_ci
);
2618 parent_name
= cur_dir
;
2621 assert(ci
->filemask
== 2 || ci
->filemask
== 4);
2622 assert(ci
->dirmask
== 0);
2623 strmap_remove(&opt
->priv
->paths
, old_path
, 0);
2625 branch_with_new_path
= (ci
->filemask
== 2) ? opt
->branch1
: opt
->branch2
;
2626 branch_with_dir_rename
= (ci
->filemask
== 2) ? opt
->branch2
: opt
->branch1
;
2628 /* Now, finally update ci and stick it into opt->priv->paths */
2629 ci
->merged
.directory_name
= parent_name
;
2630 len
= strlen(parent_name
);
2631 ci
->merged
.basename_offset
= (len
> 0 ? len
+1 : len
);
2632 new_ci
= strmap_get(&opt
->priv
->paths
, new_path
);
2634 /* Place ci back into opt->priv->paths, but at new_path */
2635 strmap_put(&opt
->priv
->paths
, new_path
, ci
);
2639 /* A few sanity checks */
2641 assert(ci
->filemask
== 2 || ci
->filemask
== 4);
2642 assert((new_ci
->filemask
& ci
->filemask
) == 0);
2643 assert(!new_ci
->merged
.clean
);
2645 /* Copy stuff from ci into new_ci */
2646 new_ci
->filemask
|= ci
->filemask
;
2647 if (new_ci
->dirmask
)
2648 new_ci
->df_conflict
= 1;
2649 index
= (ci
->filemask
>> 1);
2650 new_ci
->pathnames
[index
] = ci
->pathnames
[index
];
2651 new_ci
->stages
[index
].mode
= ci
->stages
[index
].mode
;
2652 oidcpy(&new_ci
->stages
[index
].oid
, &ci
->stages
[index
].oid
);
2657 if (opt
->detect_directory_renames
== MERGE_DIRECTORY_RENAMES_TRUE
) {
2658 /* Notify user of updated path */
2659 if (pair
->status
== 'A')
2660 path_msg(opt
, INFO_DIR_RENAME_APPLIED
, 1,
2661 new_path
, old_path
, NULL
, NULL
,
2662 _("Path updated: %s added in %s inside a "
2663 "directory that was renamed in %s; moving "
2665 old_path
, branch_with_new_path
,
2666 branch_with_dir_rename
, new_path
);
2668 path_msg(opt
, INFO_DIR_RENAME_APPLIED
, 1,
2669 new_path
, old_path
, NULL
, NULL
,
2670 _("Path updated: %s renamed to %s in %s, "
2671 "inside a directory that was renamed in %s; "
2672 "moving it to %s."),
2673 pair
->one
->path
, old_path
, branch_with_new_path
,
2674 branch_with_dir_rename
, new_path
);
2677 * opt->detect_directory_renames has the value
2678 * MERGE_DIRECTORY_RENAMES_CONFLICT, so mark these as conflicts.
2680 ci
->path_conflict
= 1;
2681 if (pair
->status
== 'A')
2682 path_msg(opt
, CONFLICT_DIR_RENAME_SUGGESTED
, 1,
2683 new_path
, old_path
, NULL
, NULL
,
2684 _("CONFLICT (file location): %s added in %s "
2685 "inside a directory that was renamed in %s, "
2686 "suggesting it should perhaps be moved to "
2688 old_path
, branch_with_new_path
,
2689 branch_with_dir_rename
, new_path
);
2691 path_msg(opt
, CONFLICT_DIR_RENAME_SUGGESTED
, 1,
2692 new_path
, old_path
, NULL
, NULL
,
2693 _("CONFLICT (file location): %s renamed to %s "
2694 "in %s, inside a directory that was renamed "
2695 "in %s, suggesting it should perhaps be "
2697 pair
->one
->path
, old_path
, branch_with_new_path
,
2698 branch_with_dir_rename
, new_path
);
2702 * Finally, record the new location.
2704 pair
->two
->path
= new_path
;
2707 /*** Function Grouping: functions related to regular rename detection ***/
2709 static int process_renames(struct merge_options
*opt
,
2710 struct diff_queue_struct
*renames
)
2712 int clean_merge
= 1, i
;
2714 for (i
= 0; i
< renames
->nr
; ++i
) {
2715 const char *oldpath
= NULL
, *newpath
;
2716 struct diff_filepair
*pair
= renames
->queue
[i
];
2717 struct conflict_info
*oldinfo
= NULL
, *newinfo
= NULL
;
2718 struct strmap_entry
*old_ent
, *new_ent
;
2719 unsigned int old_sidemask
;
2720 int target_index
, other_source_index
;
2721 int source_deleted
, collision
, type_changed
;
2722 const char *rename_branch
= NULL
, *delete_branch
= NULL
;
2724 old_ent
= strmap_get_entry(&opt
->priv
->paths
, pair
->one
->path
);
2725 new_ent
= strmap_get_entry(&opt
->priv
->paths
, pair
->two
->path
);
2727 oldpath
= old_ent
->key
;
2728 oldinfo
= old_ent
->value
;
2730 newpath
= pair
->two
->path
;
2732 newpath
= new_ent
->key
;
2733 newinfo
= new_ent
->value
;
2737 * If pair->one->path isn't in opt->priv->paths, that means
2738 * that either directory rename detection removed that
2739 * path, or a parent directory of oldpath was resolved and
2740 * we don't even need the rename; in either case, we can
2741 * skip it. If oldinfo->merged.clean, then the other side
2742 * of history had no changes to oldpath and we don't need
2743 * the rename and can skip it.
2745 if (!oldinfo
|| oldinfo
->merged
.clean
)
2749 * diff_filepairs have copies of pathnames, thus we have to
2750 * use standard 'strcmp()' (negated) instead of '=='.
2752 if (i
+ 1 < renames
->nr
&&
2753 !strcmp(oldpath
, renames
->queue
[i
+1]->one
->path
)) {
2754 /* Handle rename/rename(1to2) or rename/rename(1to1) */
2755 const char *pathnames
[3];
2756 struct version_info merged
;
2757 struct conflict_info
*base
, *side1
, *side2
;
2758 unsigned was_binary_blob
= 0;
2760 pathnames
[0] = oldpath
;
2761 pathnames
[1] = newpath
;
2762 pathnames
[2] = renames
->queue
[i
+1]->two
->path
;
2764 base
= strmap_get(&opt
->priv
->paths
, pathnames
[0]);
2765 side1
= strmap_get(&opt
->priv
->paths
, pathnames
[1]);
2766 side2
= strmap_get(&opt
->priv
->paths
, pathnames
[2]);
2772 if (!strcmp(pathnames
[1], pathnames
[2])) {
2773 struct rename_info
*ri
= &opt
->priv
->renames
;
2776 /* Both sides renamed the same way */
2777 assert(side1
== side2
);
2778 memcpy(&side1
->stages
[0], &base
->stages
[0],
2780 side1
->filemask
|= (1 << MERGE_BASE
);
2781 /* Mark base as resolved by removal */
2782 base
->merged
.is_null
= 1;
2783 base
->merged
.clean
= 1;
2786 * Disable remembering renames optimization;
2787 * rename/rename(1to1) is incredibly rare, and
2788 * just disabling the optimization is easier
2789 * than purging cached_pairs,
2790 * cached_target_names, and dir_rename_counts.
2792 for (j
= 0; j
< 3; j
++)
2793 ri
->merge_trees
[j
] = NULL
;
2795 /* We handled both renames, i.e. i+1 handled */
2797 /* Move to next rename */
2801 /* This is a rename/rename(1to2) */
2802 clean_merge
= handle_content_merge(opt
,
2808 1 + 2 * opt
->priv
->call_depth
,
2810 if (clean_merge
< 0)
2813 merged
.mode
== side1
->stages
[1].mode
&&
2814 oideq(&merged
.oid
, &side1
->stages
[1].oid
))
2815 was_binary_blob
= 1;
2816 memcpy(&side1
->stages
[1], &merged
, sizeof(merged
));
2817 if (was_binary_blob
) {
2819 * Getting here means we were attempting to
2820 * merge a binary blob.
2822 * Since we can't merge binaries,
2823 * handle_content_merge() just takes one
2824 * side. But we don't want to copy the
2825 * contents of one side to both paths. We
2826 * used the contents of side1 above for
2827 * side1->stages, let's use the contents of
2828 * side2 for side2->stages below.
2830 oidcpy(&merged
.oid
, &side2
->stages
[2].oid
);
2831 merged
.mode
= side2
->stages
[2].mode
;
2833 memcpy(&side2
->stages
[2], &merged
, sizeof(merged
));
2835 side1
->path_conflict
= 1;
2836 side2
->path_conflict
= 1;
2838 * TODO: For renames we normally remove the path at the
2839 * old name. It would thus seem consistent to do the
2840 * same for rename/rename(1to2) cases, but we haven't
2841 * done so traditionally and a number of the regression
2842 * tests now encode an expectation that the file is
2843 * left there at stage 1. If we ever decide to change
2844 * this, add the following two lines here:
2845 * base->merged.is_null = 1;
2846 * base->merged.clean = 1;
2847 * and remove the setting of base->path_conflict to 1.
2849 base
->path_conflict
= 1;
2850 path_msg(opt
, CONFLICT_RENAME_RENAME
, 0,
2851 pathnames
[0], pathnames
[1], pathnames
[2], NULL
,
2852 _("CONFLICT (rename/rename): %s renamed to "
2853 "%s in %s and to %s in %s."),
2855 pathnames
[1], opt
->branch1
,
2856 pathnames
[2], opt
->branch2
);
2858 i
++; /* We handled both renames, i.e. i+1 handled */
2864 target_index
= pair
->score
; /* from collect_renames() */
2865 assert(target_index
== 1 || target_index
== 2);
2866 other_source_index
= 3 - target_index
;
2867 old_sidemask
= (1 << other_source_index
); /* 2 or 4 */
2868 source_deleted
= (oldinfo
->filemask
== 1);
2869 collision
= ((newinfo
->filemask
& old_sidemask
) != 0);
2870 type_changed
= !source_deleted
&&
2871 (S_ISREG(oldinfo
->stages
[other_source_index
].mode
) !=
2872 S_ISREG(newinfo
->stages
[target_index
].mode
));
2873 if (type_changed
&& collision
) {
2875 * special handling so later blocks can handle this...
2877 * if type_changed && collision are both true, then this
2878 * was really a double rename, but one side wasn't
2879 * detected due to lack of break detection. I.e.
2881 * orig: has normal file 'foo'
2882 * side1: renames 'foo' to 'bar', adds 'foo' symlink
2883 * side2: renames 'foo' to 'bar'
2884 * In this case, the foo->bar rename on side1 won't be
2885 * detected because the new symlink named 'foo' is
2886 * there and we don't do break detection. But we detect
2887 * this here because we don't want to merge the content
2888 * of the foo symlink with the foo->bar file, so we
2889 * have some logic to handle this special case. The
2890 * easiest way to do that is make 'bar' on side1 not
2891 * be considered a colliding file but the other part
2892 * of a normal rename. If the file is very different,
2893 * well we're going to get content merge conflicts
2894 * anyway so it doesn't hurt. And if the colliding
2895 * file also has a different type, that'll be handled
2896 * by the content merge logic in process_entry() too.
2898 * See also t6430, 'rename vs. rename/symlink'
2902 if (source_deleted
) {
2903 if (target_index
== 1) {
2904 rename_branch
= opt
->branch1
;
2905 delete_branch
= opt
->branch2
;
2907 rename_branch
= opt
->branch2
;
2908 delete_branch
= opt
->branch1
;
2912 assert(source_deleted
|| oldinfo
->filemask
& old_sidemask
);
2914 /* Need to check for special types of rename conflicts... */
2915 if (collision
&& !source_deleted
) {
2916 /* collision: rename/add or rename/rename(2to1) */
2917 const char *pathnames
[3];
2918 struct version_info merged
;
2920 struct conflict_info
*base
, *side1
, *side2
;
2923 pathnames
[0] = oldpath
;
2924 pathnames
[other_source_index
] = oldpath
;
2925 pathnames
[target_index
] = newpath
;
2927 base
= strmap_get(&opt
->priv
->paths
, pathnames
[0]);
2928 side1
= strmap_get(&opt
->priv
->paths
, pathnames
[1]);
2929 side2
= strmap_get(&opt
->priv
->paths
, pathnames
[2]);
2935 clean
= handle_content_merge(opt
, pair
->one
->path
,
2940 1 + 2 * opt
->priv
->call_depth
,
2945 memcpy(&newinfo
->stages
[target_index
], &merged
,
2948 path_msg(opt
, CONFLICT_RENAME_COLLIDES
, 0,
2949 newpath
, oldpath
, NULL
, NULL
,
2950 _("CONFLICT (rename involved in "
2951 "collision): rename of %s -> %s has "
2952 "content conflicts AND collides "
2953 "with another path; this may result "
2954 "in nested conflict markers."),
2957 } else if (collision
&& source_deleted
) {
2959 * rename/add/delete or rename/rename(2to1)/delete:
2960 * since oldpath was deleted on the side that didn't
2961 * do the rename, there's not much of a content merge
2962 * we can do for the rename. oldinfo->merged.is_null
2963 * was already set, so we just leave things as-is so
2964 * they look like an add/add conflict.
2967 newinfo
->path_conflict
= 1;
2968 path_msg(opt
, CONFLICT_RENAME_DELETE
, 0,
2969 newpath
, oldpath
, NULL
, NULL
,
2970 _("CONFLICT (rename/delete): %s renamed "
2971 "to %s in %s, but deleted in %s."),
2972 oldpath
, newpath
, rename_branch
, delete_branch
);
2975 * a few different cases...start by copying the
2976 * existing stage(s) from oldinfo over the newinfo
2977 * and update the pathname(s).
2979 memcpy(&newinfo
->stages
[0], &oldinfo
->stages
[0],
2980 sizeof(newinfo
->stages
[0]));
2981 newinfo
->filemask
|= (1 << MERGE_BASE
);
2982 newinfo
->pathnames
[0] = oldpath
;
2984 /* rename vs. typechange */
2985 /* Mark the original as resolved by removal */
2986 memcpy(&oldinfo
->stages
[0].oid
, null_oid(),
2987 sizeof(oldinfo
->stages
[0].oid
));
2988 oldinfo
->stages
[0].mode
= 0;
2989 oldinfo
->filemask
&= 0x06;
2990 } else if (source_deleted
) {
2992 newinfo
->path_conflict
= 1;
2993 path_msg(opt
, CONFLICT_RENAME_DELETE
, 0,
2994 newpath
, oldpath
, NULL
, NULL
,
2995 _("CONFLICT (rename/delete): %s renamed"
2996 " to %s in %s, but deleted in %s."),
2998 rename_branch
, delete_branch
);
3001 memcpy(&newinfo
->stages
[other_source_index
],
3002 &oldinfo
->stages
[other_source_index
],
3003 sizeof(newinfo
->stages
[0]));
3004 newinfo
->filemask
|= (1 << other_source_index
);
3005 newinfo
->pathnames
[other_source_index
] = oldpath
;
3009 if (!type_changed
) {
3010 /* Mark the original as resolved by removal */
3011 oldinfo
->merged
.is_null
= 1;
3012 oldinfo
->merged
.clean
= 1;
3020 static inline int possible_side_renames(struct rename_info
*renames
,
3021 unsigned side_index
)
3023 return renames
->pairs
[side_index
].nr
> 0 &&
3024 !strintmap_empty(&renames
->relevant_sources
[side_index
]);
3027 static inline int possible_renames(struct rename_info
*renames
)
3029 return possible_side_renames(renames
, 1) ||
3030 possible_side_renames(renames
, 2) ||
3031 !strmap_empty(&renames
->cached_pairs
[1]) ||
3032 !strmap_empty(&renames
->cached_pairs
[2]);
3035 static void resolve_diffpair_statuses(struct diff_queue_struct
*q
)
3038 * A simplified version of diff_resolve_rename_copy(); would probably
3039 * just use that function but it's static...
3042 struct diff_filepair
*p
;
3044 for (i
= 0; i
< q
->nr
; ++i
) {
3046 p
->status
= 0; /* undecided */
3047 if (!DIFF_FILE_VALID(p
->one
))
3048 p
->status
= DIFF_STATUS_ADDED
;
3049 else if (!DIFF_FILE_VALID(p
->two
))
3050 p
->status
= DIFF_STATUS_DELETED
;
3051 else if (DIFF_PAIR_RENAME(p
))
3052 p
->status
= DIFF_STATUS_RENAMED
;
3056 static void prune_cached_from_relevant(struct rename_info
*renames
,
3059 /* Reason for this function described in add_pair() */
3060 struct hashmap_iter iter
;
3061 struct strmap_entry
*entry
;
3063 /* Remove from relevant_sources all entries in cached_pairs[side] */
3064 strmap_for_each_entry(&renames
->cached_pairs
[side
], &iter
, entry
) {
3065 strintmap_remove(&renames
->relevant_sources
[side
],
3068 /* Remove from relevant_sources all entries in cached_irrelevant[side] */
3069 strset_for_each_entry(&renames
->cached_irrelevant
[side
], &iter
, entry
) {
3070 strintmap_remove(&renames
->relevant_sources
[side
],
3075 static void use_cached_pairs(struct merge_options
*opt
,
3076 struct strmap
*cached_pairs
,
3077 struct diff_queue_struct
*pairs
)
3079 struct hashmap_iter iter
;
3080 struct strmap_entry
*entry
;
3083 * Add to side_pairs all entries from renames->cached_pairs[side_index].
3084 * (Info in cached_irrelevant[side_index] is not relevant here.)
3086 strmap_for_each_entry(cached_pairs
, &iter
, entry
) {
3087 struct diff_filespec
*one
, *two
;
3088 const char *old_name
= entry
->key
;
3089 const char *new_name
= entry
->value
;
3091 new_name
= old_name
;
3094 * cached_pairs has *copies* of old_name and new_name,
3095 * because it has to persist across merges. Since
3096 * pool_alloc_filespec() will just re-use the existing
3097 * filenames, which will also get re-used by
3098 * opt->priv->paths if they become renames, and then
3099 * get freed at the end of the merge, that would leave
3100 * the copy in cached_pairs dangling. Avoid this by
3101 * making a copy here.
3103 old_name
= mem_pool_strdup(&opt
->priv
->pool
, old_name
);
3104 new_name
= mem_pool_strdup(&opt
->priv
->pool
, new_name
);
3106 /* We don't care about oid/mode, only filenames and status */
3107 one
= pool_alloc_filespec(&opt
->priv
->pool
, old_name
);
3108 two
= pool_alloc_filespec(&opt
->priv
->pool
, new_name
);
3109 pool_diff_queue(&opt
->priv
->pool
, pairs
, one
, two
);
3110 pairs
->queue
[pairs
->nr
-1]->status
= entry
->value
? 'R' : 'D';
3114 static void cache_new_pair(struct rename_info
*renames
,
3121 new_path
= xstrdup(new_path
);
3122 old_value
= strmap_put(&renames
->cached_pairs
[side
],
3123 old_path
, new_path
);
3124 strset_add(&renames
->cached_target_names
[side
], new_path
);
3131 static void possibly_cache_new_pair(struct rename_info
*renames
,
3132 struct diff_filepair
*p
,
3136 int dir_renamed_side
= 0;
3140 * Directory renames happen on the other side of history from
3141 * the side that adds new files to the old directory.
3143 dir_renamed_side
= 3 - side
;
3145 int val
= strintmap_get(&renames
->relevant_sources
[side
],
3147 if (val
== RELEVANT_NO_MORE
) {
3148 assert(p
->status
== 'D');
3149 strset_add(&renames
->cached_irrelevant
[side
],
3156 if (p
->status
== 'D') {
3158 * If we already had this delete, we'll just set it's value
3159 * to NULL again, so no harm.
3161 strmap_put(&renames
->cached_pairs
[side
], p
->one
->path
, NULL
);
3162 } else if (p
->status
== 'R') {
3164 new_path
= p
->two
->path
;
3166 cache_new_pair(renames
, dir_renamed_side
,
3167 p
->two
->path
, new_path
, 0);
3168 cache_new_pair(renames
, side
, p
->one
->path
, new_path
, 1);
3169 } else if (p
->status
== 'A' && new_path
) {
3170 cache_new_pair(renames
, dir_renamed_side
,
3171 p
->two
->path
, new_path
, 0);
3175 static int compare_pairs(const void *a_
, const void *b_
)
3177 const struct diff_filepair
*a
= *((const struct diff_filepair
**)a_
);
3178 const struct diff_filepair
*b
= *((const struct diff_filepair
**)b_
);
3180 return strcmp(a
->one
->path
, b
->one
->path
);
3183 /* Call diffcore_rename() to update deleted/added pairs into rename pairs */
3184 static int detect_regular_renames(struct merge_options
*opt
,
3185 unsigned side_index
)
3187 struct diff_options diff_opts
;
3188 struct rename_info
*renames
= &opt
->priv
->renames
;
3190 prune_cached_from_relevant(renames
, side_index
);
3191 if (!possible_side_renames(renames
, side_index
)) {
3193 * No rename detection needed for this side, but we still need
3194 * to make sure 'adds' are marked correctly in case the other
3195 * side had directory renames.
3197 resolve_diffpair_statuses(&renames
->pairs
[side_index
]);
3201 partial_clear_dir_rename_count(&renames
->dir_rename_count
[side_index
]);
3202 repo_diff_setup(opt
->repo
, &diff_opts
);
3203 diff_opts
.flags
.recursive
= 1;
3204 diff_opts
.flags
.rename_empty
= 0;
3205 diff_opts
.detect_rename
= DIFF_DETECT_RENAME
;
3206 diff_opts
.rename_limit
= opt
->rename_limit
;
3207 if (opt
->rename_limit
<= 0)
3208 diff_opts
.rename_limit
= 7000;
3209 diff_opts
.rename_score
= opt
->rename_score
;
3210 diff_opts
.show_rename_progress
= opt
->show_rename_progress
;
3211 diff_opts
.output_format
= DIFF_FORMAT_NO_OUTPUT
;
3212 diff_setup_done(&diff_opts
);
3214 diff_queued_diff
= renames
->pairs
[side_index
];
3215 trace2_region_enter("diff", "diffcore_rename", opt
->repo
);
3216 diffcore_rename_extended(&diff_opts
,
3218 &renames
->relevant_sources
[side_index
],
3219 &renames
->dirs_removed
[side_index
],
3220 &renames
->dir_rename_count
[side_index
],
3221 &renames
->cached_pairs
[side_index
]);
3222 trace2_region_leave("diff", "diffcore_rename", opt
->repo
);
3223 resolve_diffpair_statuses(&diff_queued_diff
);
3225 if (diff_opts
.needed_rename_limit
> 0)
3226 renames
->redo_after_renames
= 0;
3227 if (diff_opts
.needed_rename_limit
> renames
->needed_limit
)
3228 renames
->needed_limit
= diff_opts
.needed_rename_limit
;
3230 renames
->pairs
[side_index
] = diff_queued_diff
;
3232 diff_opts
.output_format
= DIFF_FORMAT_NO_OUTPUT
;
3233 diff_queued_diff
.nr
= 0;
3234 diff_queued_diff
.queue
= NULL
;
3235 diff_flush(&diff_opts
);
3241 * Get information of all renames which occurred in 'side_pairs', making use
3242 * of any implicit directory renames in side_dir_renames (also making use of
3243 * implicit directory renames rename_exclusions as needed by
3244 * check_for_directory_rename()). Add all (updated) renames into result.
3246 static int collect_renames(struct merge_options
*opt
,
3247 struct diff_queue_struct
*result
,
3248 unsigned side_index
,
3249 struct strmap
*collisions
,
3250 struct strmap
*dir_renames_for_side
,
3251 struct strmap
*rename_exclusions
)
3254 struct diff_queue_struct
*side_pairs
;
3255 struct rename_info
*renames
= &opt
->priv
->renames
;
3257 side_pairs
= &renames
->pairs
[side_index
];
3259 for (i
= 0; i
< side_pairs
->nr
; ++i
) {
3260 struct diff_filepair
*p
= side_pairs
->queue
[i
];
3261 char *new_path
; /* non-NULL only with directory renames */
3263 if (p
->status
!= 'A' && p
->status
!= 'R') {
3264 possibly_cache_new_pair(renames
, p
, side_index
, NULL
);
3265 pool_diff_free_filepair(&opt
->priv
->pool
, p
);
3269 new_path
= check_for_directory_rename(opt
, p
->two
->path
,
3271 dir_renames_for_side
,
3276 possibly_cache_new_pair(renames
, p
, side_index
, new_path
);
3277 if (p
->status
!= 'R' && !new_path
) {
3278 pool_diff_free_filepair(&opt
->priv
->pool
, p
);
3283 apply_directory_rename_modifications(opt
, p
, new_path
);
3286 * p->score comes back from diffcore_rename_extended() with
3287 * the similarity of the renamed file. The similarity is
3288 * was used to determine that the two files were related
3289 * and are a rename, which we have already used, but beyond
3290 * that we have no use for the similarity. So p->score is
3291 * now irrelevant. However, process_renames() will need to
3292 * know which side of the merge this rename was associated
3293 * with, so overwrite p->score with that value.
3295 p
->score
= side_index
;
3296 result
->queue
[result
->nr
++] = p
;
3302 static int detect_and_process_renames(struct merge_options
*opt
,
3303 struct tree
*merge_base
,
3307 struct diff_queue_struct combined
= { 0 };
3308 struct rename_info
*renames
= &opt
->priv
->renames
;
3309 struct strmap collisions
[3];
3310 int need_dir_renames
, s
, i
, clean
= 1;
3311 unsigned detection_run
= 0;
3313 if (!possible_renames(renames
))
3316 trace2_region_enter("merge", "regular renames", opt
->repo
);
3317 detection_run
|= detect_regular_renames(opt
, MERGE_SIDE1
);
3318 detection_run
|= detect_regular_renames(opt
, MERGE_SIDE2
);
3319 if (renames
->needed_limit
) {
3320 renames
->cached_pairs_valid_side
= 0;
3321 renames
->redo_after_renames
= 0;
3323 if (renames
->redo_after_renames
&& detection_run
) {
3325 struct diff_filepair
*p
;
3327 /* Cache the renames, we found */
3328 for (side
= MERGE_SIDE1
; side
<= MERGE_SIDE2
; side
++) {
3329 for (i
= 0; i
< renames
->pairs
[side
].nr
; ++i
) {
3330 p
= renames
->pairs
[side
].queue
[i
];
3331 possibly_cache_new_pair(renames
, p
, side
, NULL
);
3335 /* Restart the merge with the cached renames */
3336 renames
->redo_after_renames
= 2;
3337 trace2_region_leave("merge", "regular renames", opt
->repo
);
3340 use_cached_pairs(opt
, &renames
->cached_pairs
[1], &renames
->pairs
[1]);
3341 use_cached_pairs(opt
, &renames
->cached_pairs
[2], &renames
->pairs
[2]);
3342 trace2_region_leave("merge", "regular renames", opt
->repo
);
3344 trace2_region_enter("merge", "directory renames", opt
->repo
);
3346 !opt
->priv
->call_depth
&&
3347 (opt
->detect_directory_renames
== MERGE_DIRECTORY_RENAMES_TRUE
||
3348 opt
->detect_directory_renames
== MERGE_DIRECTORY_RENAMES_CONFLICT
);
3350 if (need_dir_renames
) {
3351 get_provisional_directory_renames(opt
, MERGE_SIDE1
, &clean
);
3352 get_provisional_directory_renames(opt
, MERGE_SIDE2
, &clean
);
3353 handle_directory_level_conflicts(opt
);
3356 ALLOC_GROW(combined
.queue
,
3357 renames
->pairs
[1].nr
+ renames
->pairs
[2].nr
,
3359 for (i
= MERGE_SIDE1
; i
<= MERGE_SIDE2
; i
++) {
3360 int other_side
= 3 - i
;
3361 compute_collisions(&collisions
[i
],
3362 &renames
->dir_renames
[other_side
],
3363 &renames
->pairs
[i
]);
3365 clean
&= collect_renames(opt
, &combined
, MERGE_SIDE1
,
3367 &renames
->dir_renames
[2],
3368 &renames
->dir_renames
[1]);
3369 clean
&= collect_renames(opt
, &combined
, MERGE_SIDE2
,
3371 &renames
->dir_renames
[1],
3372 &renames
->dir_renames
[2]);
3373 for (i
= MERGE_SIDE1
; i
<= MERGE_SIDE2
; i
++)
3374 free_collisions(&collisions
[i
]);
3375 STABLE_QSORT(combined
.queue
, combined
.nr
, compare_pairs
);
3376 trace2_region_leave("merge", "directory renames", opt
->repo
);
3378 trace2_region_enter("merge", "process renames", opt
->repo
);
3379 clean
&= process_renames(opt
, &combined
);
3380 trace2_region_leave("merge", "process renames", opt
->repo
);
3382 goto simple_cleanup
; /* collect_renames() handles some of cleanup */
3386 * Free now unneeded filepairs, which would have been handled
3387 * in collect_renames() normally but we skipped that code.
3389 for (s
= MERGE_SIDE1
; s
<= MERGE_SIDE2
; s
++) {
3390 struct diff_queue_struct
*side_pairs
;
3393 side_pairs
= &renames
->pairs
[s
];
3394 for (i
= 0; i
< side_pairs
->nr
; ++i
) {
3395 struct diff_filepair
*p
= side_pairs
->queue
[i
];
3396 pool_diff_free_filepair(&opt
->priv
->pool
, p
);
3401 /* Free memory for renames->pairs[] and combined */
3402 for (s
= MERGE_SIDE1
; s
<= MERGE_SIDE2
; s
++) {
3403 free(renames
->pairs
[s
].queue
);
3404 DIFF_QUEUE_CLEAR(&renames
->pairs
[s
]);
3406 for (i
= 0; i
< combined
.nr
; i
++)
3407 pool_diff_free_filepair(&opt
->priv
->pool
, combined
.queue
[i
]);
3408 free(combined
.queue
);
3413 /*** Function Grouping: functions related to process_entries() ***/
3415 static int sort_dirs_next_to_their_children(const char *one
, const char *two
)
3417 unsigned char c1
, c2
;
3420 * Here we only care that entries for directories appear adjacent
3421 * to and before files underneath the directory. We can achieve
3422 * that by pretending to add a trailing slash to every file and
3423 * then sorting. In other words, we do not want the natural
3428 * Instead, we want "foo" to sort as though it were "foo/", so that
3433 * To achieve this, we basically implement our own strcmp, except that
3434 * if we get to the end of either string instead of comparing NUL to
3435 * another character, we compare '/' to it.
3437 * If this unusual "sort as though '/' were appended" perplexes
3438 * you, perhaps it will help to note that this is not the final
3439 * sort. write_tree() will sort again without the trailing slash
3440 * magic, but just on paths immediately under a given tree.
3442 * The reason to not use df_name_compare directly was that it was
3443 * just too expensive (we don't have the string lengths handy), so
3444 * it was reimplemented.
3448 * NOTE: This function will never be called with two equal strings,
3449 * because it is used to sort the keys of a strmap, and strmaps have
3450 * unique keys by construction. That simplifies our c1==c2 handling
3454 while (*one
&& (*one
== *two
)) {
3459 c1
= *one
? *one
: '/';
3460 c2
= *two
? *two
: '/';
3463 /* Getting here means one is a leading directory of the other */
3464 return (*one
) ? 1 : -1;
3469 static int read_oid_strbuf(struct merge_options
*opt
,
3470 const struct object_id
*oid
,
3474 enum object_type type
;
3476 buf
= read_object_file(oid
, &type
, &size
);
3478 return err(opt
, _("cannot read object %s"), oid_to_hex(oid
));
3479 if (type
!= OBJ_BLOB
) {
3481 return err(opt
, _("object %s is not a blob"), oid_to_hex(oid
));
3483 strbuf_attach(dst
, buf
, size
, size
+ 1);
3487 static int blob_unchanged(struct merge_options
*opt
,
3488 const struct version_info
*base
,
3489 const struct version_info
*side
,
3492 struct strbuf basebuf
= STRBUF_INIT
;
3493 struct strbuf sidebuf
= STRBUF_INIT
;
3494 int ret
= 0; /* assume changed for safety */
3495 struct index_state
*idx
= &opt
->priv
->attr_index
;
3497 if (!idx
->initialized
)
3498 initialize_attr_index(opt
);
3500 if (base
->mode
!= side
->mode
)
3502 if (oideq(&base
->oid
, &side
->oid
))
3505 if (read_oid_strbuf(opt
, &base
->oid
, &basebuf
) ||
3506 read_oid_strbuf(opt
, &side
->oid
, &sidebuf
))
3509 * Note: binary | is used so that both renormalizations are
3510 * performed. Comparison can be skipped if both files are
3511 * unchanged since their sha1s have already been compared.
3513 if (renormalize_buffer(idx
, path
, basebuf
.buf
, basebuf
.len
, &basebuf
) |
3514 renormalize_buffer(idx
, path
, sidebuf
.buf
, sidebuf
.len
, &sidebuf
))
3515 ret
= (basebuf
.len
== sidebuf
.len
&&
3516 !memcmp(basebuf
.buf
, sidebuf
.buf
, basebuf
.len
));
3519 strbuf_release(&basebuf
);
3520 strbuf_release(&sidebuf
);
3524 struct directory_versions
{
3526 * versions: list of (basename -> version_info)
3528 * The basenames are in reverse lexicographic order of full pathnames,
3529 * as processed in process_entries(). This puts all entries within
3530 * a directory together, and covers the directory itself after
3531 * everything within it, allowing us to write subtrees before needing
3532 * to record information for the tree itself.
3534 struct string_list versions
;
3537 * offsets: list of (full relative path directories -> integer offsets)
3539 * Since versions contains basenames from files in multiple different
3540 * directories, we need to know which entries in versions correspond
3541 * to which directories. Values of e.g.
3545 * Would mean that entries 0-1 of versions are files in the toplevel
3546 * directory, entries 2-4 are files under src/, and the remaining
3547 * entries starting at index 5 are files under src/moduleA/.
3549 struct string_list offsets
;
3552 * last_directory: directory that previously processed file found in
3554 * last_directory starts NULL, but records the directory in which the
3555 * previous file was found within. As soon as
3556 * directory(current_file) != last_directory
3557 * then we need to start updating accounting in versions & offsets.
3558 * Note that last_directory is always the last path in "offsets" (or
3559 * NULL if "offsets" is empty) so this exists just for quick access.
3561 const char *last_directory
;
3563 /* last_directory_len: cached computation of strlen(last_directory) */
3564 unsigned last_directory_len
;
3567 static int tree_entry_order(const void *a_
, const void *b_
)
3569 const struct string_list_item
*a
= a_
;
3570 const struct string_list_item
*b
= b_
;
3572 const struct merged_info
*ami
= a
->util
;
3573 const struct merged_info
*bmi
= b
->util
;
3574 return base_name_compare(a
->string
, strlen(a
->string
), ami
->result
.mode
,
3575 b
->string
, strlen(b
->string
), bmi
->result
.mode
);
3578 static int write_tree(struct object_id
*result_oid
,
3579 struct string_list
*versions
,
3580 unsigned int offset
,
3583 size_t maxlen
= 0, extra
;
3585 struct strbuf buf
= STRBUF_INIT
;
3588 assert(offset
<= versions
->nr
);
3589 nr
= versions
->nr
- offset
;
3591 /* No need for STABLE_QSORT -- filenames must be unique */
3592 QSORT(versions
->items
+ offset
, nr
, tree_entry_order
);
3594 /* Pre-allocate some space in buf */
3595 extra
= hash_size
+ 8; /* 8: 6 for mode, 1 for space, 1 for NUL char */
3596 for (i
= 0; i
< nr
; i
++) {
3597 maxlen
+= strlen(versions
->items
[offset
+i
].string
) + extra
;
3599 strbuf_grow(&buf
, maxlen
);
3601 /* Write each entry out to buf */
3602 for (i
= 0; i
< nr
; i
++) {
3603 struct merged_info
*mi
= versions
->items
[offset
+i
].util
;
3604 struct version_info
*ri
= &mi
->result
;
3605 strbuf_addf(&buf
, "%o %s%c",
3607 versions
->items
[offset
+i
].string
, '\0');
3608 strbuf_add(&buf
, ri
->oid
.hash
, hash_size
);
3611 /* Write this object file out, and record in result_oid */
3612 if (write_object_file(buf
.buf
, buf
.len
, OBJ_TREE
, result_oid
))
3614 strbuf_release(&buf
);
3618 static void record_entry_for_tree(struct directory_versions
*dir_metadata
,
3620 struct merged_info
*mi
)
3622 const char *basename
;
3625 /* nothing to record */
3628 basename
= path
+ mi
->basename_offset
;
3629 assert(strchr(basename
, '/') == NULL
);
3630 string_list_append(&dir_metadata
->versions
,
3631 basename
)->util
= &mi
->result
;
3634 static int write_completed_directory(struct merge_options
*opt
,
3635 const char *new_directory_name
,
3636 struct directory_versions
*info
)
3638 const char *prev_dir
;
3639 struct merged_info
*dir_info
= NULL
;
3640 unsigned int offset
, ret
= 0;
3643 * Some explanation of info->versions and info->offsets...
3645 * process_entries() iterates over all relevant files AND
3646 * directories in reverse lexicographic order, and calls this
3647 * function. Thus, an example of the paths that process_entries()
3648 * could operate on (along with the directories for those paths
3653 * src/moduleB/umm.c src/moduleB
3654 * src/moduleB/stuff.h src/moduleB
3655 * src/moduleB/baz.c src/moduleB
3657 * src/moduleA/foo.c src/moduleA
3658 * src/moduleA/bar.c src/moduleA
3665 * always contains the unprocessed entries and their
3666 * version_info information. For example, after the first five
3667 * entries above, info->versions would be:
3669 * xtract.c <xtract.c's version_info>
3670 * token.txt <token.txt's version_info>
3671 * umm.c <src/moduleB/umm.c's version_info>
3672 * stuff.h <src/moduleB/stuff.h's version_info>
3673 * baz.c <src/moduleB/baz.c's version_info>
3675 * Once a subdirectory is completed we remove the entries in
3676 * that subdirectory from info->versions, writing it as a tree
3677 * (write_tree()). Thus, as soon as we get to src/moduleB,
3678 * info->versions would be updated to
3680 * xtract.c <xtract.c's version_info>
3681 * token.txt <token.txt's version_info>
3682 * moduleB <src/moduleB's version_info>
3686 * helps us track which entries in info->versions correspond to
3687 * which directories. When we are N directories deep (e.g. 4
3688 * for src/modA/submod/subdir/), we have up to N+1 unprocessed
3689 * directories (+1 because of toplevel dir). Corresponding to
3690 * the info->versions example above, after processing five entries
3691 * info->offsets will be:
3696 * which is used to know that xtract.c & token.txt are from the
3697 * toplevel dirctory, while umm.c & stuff.h & baz.c are from the
3698 * src/moduleB directory. Again, following the example above,
3699 * once we need to process src/moduleB, then info->offsets is
3705 * which says that moduleB (and only moduleB so far) is in the
3708 * One unique thing to note about info->offsets here is that
3709 * "src" was not added to info->offsets until there was a path
3710 * (a file OR directory) immediately below src/ that got
3713 * Since process_entry() just appends new entries to info->versions,
3714 * write_completed_directory() only needs to do work if the next path
3715 * is in a directory that is different than the last directory found
3720 * If we are working with the same directory as the last entry, there
3721 * is no work to do. (See comments above the directory_name member of
3722 * struct merged_info for why we can use pointer comparison instead of
3725 if (new_directory_name
== info
->last_directory
)
3729 * If we are just starting (last_directory is NULL), or last_directory
3730 * is a prefix of the current directory, then we can just update
3731 * info->offsets to record the offset where we started this directory
3732 * and update last_directory to have quick access to it.
3734 if (info
->last_directory
== NULL
||
3735 !strncmp(new_directory_name
, info
->last_directory
,
3736 info
->last_directory_len
)) {
3737 uintptr_t offset
= info
->versions
.nr
;
3739 info
->last_directory
= new_directory_name
;
3740 info
->last_directory_len
= strlen(info
->last_directory
);
3742 * Record the offset into info->versions where we will
3743 * start recording basenames of paths found within
3744 * new_directory_name.
3746 string_list_append(&info
->offsets
,
3747 info
->last_directory
)->util
= (void*)offset
;
3752 * The next entry that will be processed will be within
3753 * new_directory_name. Since at this point we know that
3754 * new_directory_name is within a different directory than
3755 * info->last_directory, we have all entries for info->last_directory
3756 * in info->versions and we need to create a tree object for them.
3758 dir_info
= strmap_get(&opt
->priv
->paths
, info
->last_directory
);
3760 offset
= (uintptr_t)info
->offsets
.items
[info
->offsets
.nr
-1].util
;
3761 if (offset
== info
->versions
.nr
) {
3763 * Actually, we don't need to create a tree object in this
3764 * case. Whenever all files within a directory disappear
3765 * during the merge (e.g. unmodified on one side and
3766 * deleted on the other, or files were renamed elsewhere),
3767 * then we get here and the directory itself needs to be
3768 * omitted from its parent tree as well.
3770 dir_info
->is_null
= 1;
3773 * Write out the tree to the git object directory, and also
3774 * record the mode and oid in dir_info->result.
3776 dir_info
->is_null
= 0;
3777 dir_info
->result
.mode
= S_IFDIR
;
3778 if (write_tree(&dir_info
->result
.oid
, &info
->versions
, offset
,
3779 opt
->repo
->hash_algo
->rawsz
) < 0)
3784 * We've now used several entries from info->versions and one entry
3785 * from info->offsets, so we get rid of those values.
3788 info
->versions
.nr
= offset
;
3791 * Now we've taken care of the completed directory, but we need to
3792 * prepare things since future entries will be in
3793 * new_directory_name. (In particular, process_entry() will be
3794 * appending new entries to info->versions.) So, we need to make
3795 * sure new_directory_name is the last entry in info->offsets.
3797 prev_dir
= info
->offsets
.nr
== 0 ? NULL
:
3798 info
->offsets
.items
[info
->offsets
.nr
-1].string
;
3799 if (new_directory_name
!= prev_dir
) {
3800 uintptr_t c
= info
->versions
.nr
;
3801 string_list_append(&info
->offsets
,
3802 new_directory_name
)->util
= (void*)c
;
3805 /* And, of course, we need to update last_directory to match. */
3806 info
->last_directory
= new_directory_name
;
3807 info
->last_directory_len
= strlen(info
->last_directory
);
3812 /* Per entry merge function */
3813 static int process_entry(struct merge_options
*opt
,
3815 struct conflict_info
*ci
,
3816 struct directory_versions
*dir_metadata
)
3818 int df_file_index
= 0;
3821 assert(ci
->filemask
>= 0 && ci
->filemask
<= 7);
3822 /* ci->match_mask == 7 was handled in collect_merge_info_callback() */
3823 assert(ci
->match_mask
== 0 || ci
->match_mask
== 3 ||
3824 ci
->match_mask
== 5 || ci
->match_mask
== 6);
3827 record_entry_for_tree(dir_metadata
, path
, &ci
->merged
);
3828 if (ci
->filemask
== 0)
3829 /* nothing else to handle */
3831 assert(ci
->df_conflict
);
3834 if (ci
->df_conflict
&& ci
->merged
.result
.mode
== 0) {
3838 * directory no longer in the way, but we do have a file we
3839 * need to place here so we need to clean away the "directory
3840 * merges to nothing" result.
3842 ci
->df_conflict
= 0;
3843 assert(ci
->filemask
!= 0);
3844 ci
->merged
.clean
= 0;
3845 ci
->merged
.is_null
= 0;
3846 /* and we want to zero out any directory-related entries */
3847 ci
->match_mask
= (ci
->match_mask
& ~ci
->dirmask
);
3849 for (i
= MERGE_BASE
; i
<= MERGE_SIDE2
; i
++) {
3850 if (ci
->filemask
& (1 << i
))
3852 ci
->stages
[i
].mode
= 0;
3853 oidcpy(&ci
->stages
[i
].oid
, null_oid());
3855 } else if (ci
->df_conflict
&& ci
->merged
.result
.mode
!= 0) {
3857 * This started out as a D/F conflict, and the entries in
3858 * the competing directory were not removed by the merge as
3859 * evidenced by write_completed_directory() writing a value
3860 * to ci->merged.result.mode.
3862 struct conflict_info
*new_ci
;
3864 const char *old_path
= path
;
3867 assert(ci
->merged
.result
.mode
== S_IFDIR
);
3870 * If filemask is 1, we can just ignore the file as having
3871 * been deleted on both sides. We do not want to overwrite
3872 * ci->merged.result, since it stores the tree for all the
3875 if (ci
->filemask
== 1) {
3881 * This file still exists on at least one side, and we want
3882 * the directory to remain here, so we need to move this
3883 * path to some new location.
3885 new_ci
= mem_pool_calloc(&opt
->priv
->pool
, 1, sizeof(*new_ci
));
3887 /* We don't really want new_ci->merged.result copied, but it'll
3888 * be overwritten below so it doesn't matter. We also don't
3889 * want any directory mode/oid values copied, but we'll zero
3890 * those out immediately. We do want the rest of ci copied.
3892 memcpy(new_ci
, ci
, sizeof(*ci
));
3893 new_ci
->match_mask
= (new_ci
->match_mask
& ~new_ci
->dirmask
);
3894 new_ci
->dirmask
= 0;
3895 for (i
= MERGE_BASE
; i
<= MERGE_SIDE2
; i
++) {
3896 if (new_ci
->filemask
& (1 << i
))
3898 /* zero out any entries related to directories */
3899 new_ci
->stages
[i
].mode
= 0;
3900 oidcpy(&new_ci
->stages
[i
].oid
, null_oid());
3904 * Find out which side this file came from; note that we
3905 * cannot just use ci->filemask, because renames could cause
3906 * the filemask to go back to 7. So we use dirmask, then
3907 * pick the opposite side's index.
3909 df_file_index
= (ci
->dirmask
& (1 << 1)) ? 2 : 1;
3910 branch
= (df_file_index
== 1) ? opt
->branch1
: opt
->branch2
;
3911 path
= unique_path(opt
, path
, branch
);
3912 strmap_put(&opt
->priv
->paths
, path
, new_ci
);
3914 path_msg(opt
, CONFLICT_FILE_DIRECTORY
, 0,
3915 path
, old_path
, NULL
, NULL
,
3916 _("CONFLICT (file/directory): directory in the way "
3917 "of %s from %s; moving it to %s instead."),
3918 old_path
, branch
, path
);
3921 * Zero out the filemask for the old ci. At this point, ci
3922 * was just an entry for a directory, so we don't need to
3923 * do anything more with it.
3928 * Now note that we're working on the new entry (path was
3935 * NOTE: Below there is a long switch-like if-elseif-elseif... block
3936 * which the code goes through even for the df_conflict cases
3939 if (ci
->match_mask
) {
3940 ci
->merged
.clean
= !ci
->df_conflict
&& !ci
->path_conflict
;
3941 if (ci
->match_mask
== 6) {
3942 /* stages[1] == stages[2] */
3943 ci
->merged
.result
.mode
= ci
->stages
[1].mode
;
3944 oidcpy(&ci
->merged
.result
.oid
, &ci
->stages
[1].oid
);
3946 /* determine the mask of the side that didn't match */
3947 unsigned int othermask
= 7 & ~ci
->match_mask
;
3948 int side
= (othermask
== 4) ? 2 : 1;
3950 ci
->merged
.result
.mode
= ci
->stages
[side
].mode
;
3951 ci
->merged
.is_null
= !ci
->merged
.result
.mode
;
3952 if (ci
->merged
.is_null
)
3953 ci
->merged
.clean
= 1;
3954 oidcpy(&ci
->merged
.result
.oid
, &ci
->stages
[side
].oid
);
3956 assert(othermask
== 2 || othermask
== 4);
3957 assert(ci
->merged
.is_null
==
3958 (ci
->filemask
== ci
->match_mask
));
3960 } else if (ci
->filemask
>= 6 &&
3961 (S_IFMT
& ci
->stages
[1].mode
) !=
3962 (S_IFMT
& ci
->stages
[2].mode
)) {
3963 /* Two different items from (file/submodule/symlink) */
3964 if (opt
->priv
->call_depth
) {
3965 /* Just use the version from the merge base */
3966 ci
->merged
.clean
= 0;
3967 oidcpy(&ci
->merged
.result
.oid
, &ci
->stages
[0].oid
);
3968 ci
->merged
.result
.mode
= ci
->stages
[0].mode
;
3969 ci
->merged
.is_null
= (ci
->merged
.result
.mode
== 0);
3971 /* Handle by renaming one or both to separate paths. */
3972 unsigned o_mode
= ci
->stages
[0].mode
;
3973 unsigned a_mode
= ci
->stages
[1].mode
;
3974 unsigned b_mode
= ci
->stages
[2].mode
;
3975 struct conflict_info
*new_ci
;
3976 const char *a_path
= NULL
, *b_path
= NULL
;
3977 int rename_a
= 0, rename_b
= 0;
3979 new_ci
= mem_pool_alloc(&opt
->priv
->pool
,
3982 if (S_ISREG(a_mode
))
3984 else if (S_ISREG(b_mode
))
3992 a_path
= unique_path(opt
, path
, opt
->branch1
);
3994 b_path
= unique_path(opt
, path
, opt
->branch2
);
3996 if (rename_a
&& rename_b
) {
3997 path_msg(opt
, CONFLICT_DISTINCT_MODES
, 0,
3998 path
, a_path
, b_path
, NULL
,
3999 _("CONFLICT (distinct types): %s had "
4000 "different types on each side; "
4001 "renamed both of them so each can "
4002 "be recorded somewhere."),
4005 path_msg(opt
, CONFLICT_DISTINCT_MODES
, 0,
4006 path
, rename_a
? a_path
: b_path
,
4008 _("CONFLICT (distinct types): %s had "
4009 "different types on each side; "
4010 "renamed one of them so each can be "
4011 "recorded somewhere."),
4015 ci
->merged
.clean
= 0;
4016 memcpy(new_ci
, ci
, sizeof(*new_ci
));
4018 /* Put b into new_ci, removing a from stages */
4019 new_ci
->merged
.result
.mode
= ci
->stages
[2].mode
;
4020 oidcpy(&new_ci
->merged
.result
.oid
, &ci
->stages
[2].oid
);
4021 new_ci
->stages
[1].mode
= 0;
4022 oidcpy(&new_ci
->stages
[1].oid
, null_oid());
4023 new_ci
->filemask
= 5;
4024 if ((S_IFMT
& b_mode
) != (S_IFMT
& o_mode
)) {
4025 new_ci
->stages
[0].mode
= 0;
4026 oidcpy(&new_ci
->stages
[0].oid
, null_oid());
4027 new_ci
->filemask
= 4;
4030 /* Leave only a in ci, fixing stages. */
4031 ci
->merged
.result
.mode
= ci
->stages
[1].mode
;
4032 oidcpy(&ci
->merged
.result
.oid
, &ci
->stages
[1].oid
);
4033 ci
->stages
[2].mode
= 0;
4034 oidcpy(&ci
->stages
[2].oid
, null_oid());
4036 if ((S_IFMT
& a_mode
) != (S_IFMT
& o_mode
)) {
4037 ci
->stages
[0].mode
= 0;
4038 oidcpy(&ci
->stages
[0].oid
, null_oid());
4042 /* Insert entries into opt->priv_paths */
4043 assert(rename_a
|| rename_b
);
4045 strmap_put(&opt
->priv
->paths
, a_path
, ci
);
4049 strmap_put(&opt
->priv
->paths
, b_path
, new_ci
);
4051 if (rename_a
&& rename_b
)
4052 strmap_remove(&opt
->priv
->paths
, path
, 0);
4055 * Do special handling for b_path since process_entry()
4056 * won't be called on it specially.
4058 strmap_put(&opt
->priv
->conflicted
, b_path
, new_ci
);
4059 record_entry_for_tree(dir_metadata
, b_path
,
4063 * Remaining code for processing this entry should
4064 * think in terms of processing a_path.
4069 } else if (ci
->filemask
>= 6) {
4070 /* Need a two-way or three-way content merge */
4071 struct version_info merged_file
;
4073 struct version_info
*o
= &ci
->stages
[0];
4074 struct version_info
*a
= &ci
->stages
[1];
4075 struct version_info
*b
= &ci
->stages
[2];
4077 clean_merge
= handle_content_merge(opt
, path
, o
, a
, b
,
4079 opt
->priv
->call_depth
* 2,
4081 if (clean_merge
< 0)
4083 ci
->merged
.clean
= clean_merge
&&
4084 !ci
->df_conflict
&& !ci
->path_conflict
;
4085 ci
->merged
.result
.mode
= merged_file
.mode
;
4086 ci
->merged
.is_null
= (merged_file
.mode
== 0);
4087 oidcpy(&ci
->merged
.result
.oid
, &merged_file
.oid
);
4088 if (clean_merge
&& ci
->df_conflict
) {
4089 assert(df_file_index
== 1 || df_file_index
== 2);
4090 ci
->filemask
= 1 << df_file_index
;
4091 ci
->stages
[df_file_index
].mode
= merged_file
.mode
;
4092 oidcpy(&ci
->stages
[df_file_index
].oid
, &merged_file
.oid
);
4095 const char *reason
= _("content");
4096 if (ci
->filemask
== 6)
4097 reason
= _("add/add");
4098 if (S_ISGITLINK(merged_file
.mode
))
4099 reason
= _("submodule");
4100 path_msg(opt
, CONFLICT_CONTENTS
, 0,
4101 path
, NULL
, NULL
, NULL
,
4102 _("CONFLICT (%s): Merge conflict in %s"),
4105 } else if (ci
->filemask
== 3 || ci
->filemask
== 5) {
4107 const char *modify_branch
, *delete_branch
;
4108 int side
= (ci
->filemask
== 5) ? 2 : 1;
4109 int index
= opt
->priv
->call_depth
? 0 : side
;
4111 ci
->merged
.result
.mode
= ci
->stages
[index
].mode
;
4112 oidcpy(&ci
->merged
.result
.oid
, &ci
->stages
[index
].oid
);
4113 ci
->merged
.clean
= 0;
4115 modify_branch
= (side
== 1) ? opt
->branch1
: opt
->branch2
;
4116 delete_branch
= (side
== 1) ? opt
->branch2
: opt
->branch1
;
4118 if (opt
->renormalize
&&
4119 blob_unchanged(opt
, &ci
->stages
[0], &ci
->stages
[side
],
4121 if (!ci
->path_conflict
) {
4123 * Blob unchanged after renormalization, so
4124 * there's no modify/delete conflict after all;
4125 * we can just remove the file.
4127 ci
->merged
.is_null
= 1;
4128 ci
->merged
.clean
= 1;
4130 * file goes away => even if there was a
4131 * directory/file conflict there isn't one now.
4133 ci
->df_conflict
= 0;
4135 /* rename/delete, so conflict remains */
4137 } else if (ci
->path_conflict
&&
4138 oideq(&ci
->stages
[0].oid
, &ci
->stages
[side
].oid
)) {
4140 * This came from a rename/delete; no action to take,
4141 * but avoid printing "modify/delete" conflict notice
4142 * since the contents were not modified.
4145 path_msg(opt
, CONFLICT_MODIFY_DELETE
, 0,
4146 path
, NULL
, NULL
, NULL
,
4147 _("CONFLICT (modify/delete): %s deleted in %s "
4148 "and modified in %s. Version %s of %s left "
4150 path
, delete_branch
, modify_branch
,
4151 modify_branch
, path
);
4153 } else if (ci
->filemask
== 2 || ci
->filemask
== 4) {
4154 /* Added on one side */
4155 int side
= (ci
->filemask
== 4) ? 2 : 1;
4156 ci
->merged
.result
.mode
= ci
->stages
[side
].mode
;
4157 oidcpy(&ci
->merged
.result
.oid
, &ci
->stages
[side
].oid
);
4158 ci
->merged
.clean
= !ci
->df_conflict
&& !ci
->path_conflict
;
4159 } else if (ci
->filemask
== 1) {
4160 /* Deleted on both sides */
4161 ci
->merged
.is_null
= 1;
4162 ci
->merged
.result
.mode
= 0;
4163 oidcpy(&ci
->merged
.result
.oid
, null_oid());
4164 assert(!ci
->df_conflict
);
4165 ci
->merged
.clean
= !ci
->path_conflict
;
4169 * If still conflicted, record it separately. This allows us to later
4170 * iterate over just conflicted entries when updating the index instead
4171 * of iterating over all entries.
4173 if (!ci
->merged
.clean
)
4174 strmap_put(&opt
->priv
->conflicted
, path
, ci
);
4176 /* Record metadata for ci->merged in dir_metadata */
4177 record_entry_for_tree(dir_metadata
, path
, &ci
->merged
);
4181 static void prefetch_for_content_merges(struct merge_options
*opt
,
4182 struct string_list
*plist
)
4184 struct string_list_item
*e
;
4185 struct oid_array to_fetch
= OID_ARRAY_INIT
;
4187 if (opt
->repo
!= the_repository
|| !has_promisor_remote())
4190 for (e
= &plist
->items
[plist
->nr
-1]; e
>= plist
->items
; --e
) {
4191 /* char *path = e->string; */
4192 struct conflict_info
*ci
= e
->util
;
4195 /* Ignore clean entries */
4196 if (ci
->merged
.clean
)
4199 /* Ignore entries that don't need a content merge */
4200 if (ci
->match_mask
|| ci
->filemask
< 6 ||
4201 !S_ISREG(ci
->stages
[1].mode
) ||
4202 !S_ISREG(ci
->stages
[2].mode
) ||
4203 oideq(&ci
->stages
[1].oid
, &ci
->stages
[2].oid
))
4206 /* Also don't need content merge if base matches either side */
4207 if (ci
->filemask
== 7 &&
4208 S_ISREG(ci
->stages
[0].mode
) &&
4209 (oideq(&ci
->stages
[0].oid
, &ci
->stages
[1].oid
) ||
4210 oideq(&ci
->stages
[0].oid
, &ci
->stages
[2].oid
)))
4213 for (i
= 0; i
< 3; i
++) {
4214 unsigned side_mask
= (1 << i
);
4215 struct version_info
*vi
= &ci
->stages
[i
];
4217 if ((ci
->filemask
& side_mask
) &&
4218 S_ISREG(vi
->mode
) &&
4219 oid_object_info_extended(opt
->repo
, &vi
->oid
, NULL
,
4220 OBJECT_INFO_FOR_PREFETCH
))
4221 oid_array_append(&to_fetch
, &vi
->oid
);
4225 promisor_remote_get_direct(opt
->repo
, to_fetch
.oid
, to_fetch
.nr
);
4226 oid_array_clear(&to_fetch
);
4229 static int process_entries(struct merge_options
*opt
,
4230 struct object_id
*result_oid
)
4232 struct hashmap_iter iter
;
4233 struct strmap_entry
*e
;
4234 struct string_list plist
= STRING_LIST_INIT_NODUP
;
4235 struct string_list_item
*entry
;
4236 struct directory_versions dir_metadata
= { STRING_LIST_INIT_NODUP
,
4237 STRING_LIST_INIT_NODUP
,
4241 trace2_region_enter("merge", "process_entries setup", opt
->repo
);
4242 if (strmap_empty(&opt
->priv
->paths
)) {
4243 oidcpy(result_oid
, opt
->repo
->hash_algo
->empty_tree
);
4247 /* Hack to pre-allocate plist to the desired size */
4248 trace2_region_enter("merge", "plist grow", opt
->repo
);
4249 ALLOC_GROW(plist
.items
, strmap_get_size(&opt
->priv
->paths
), plist
.alloc
);
4250 trace2_region_leave("merge", "plist grow", opt
->repo
);
4252 /* Put every entry from paths into plist, then sort */
4253 trace2_region_enter("merge", "plist copy", opt
->repo
);
4254 strmap_for_each_entry(&opt
->priv
->paths
, &iter
, e
) {
4255 string_list_append(&plist
, e
->key
)->util
= e
->value
;
4257 trace2_region_leave("merge", "plist copy", opt
->repo
);
4259 trace2_region_enter("merge", "plist special sort", opt
->repo
);
4260 plist
.cmp
= sort_dirs_next_to_their_children
;
4261 string_list_sort(&plist
);
4262 trace2_region_leave("merge", "plist special sort", opt
->repo
);
4264 trace2_region_leave("merge", "process_entries setup", opt
->repo
);
4267 * Iterate over the items in reverse order, so we can handle paths
4268 * below a directory before needing to handle the directory itself.
4270 * This allows us to write subtrees before we need to write trees,
4271 * and it also enables sane handling of directory/file conflicts
4272 * (because it allows us to know whether the directory is still in
4273 * the way when it is time to process the file at the same path).
4275 trace2_region_enter("merge", "processing", opt
->repo
);
4276 prefetch_for_content_merges(opt
, &plist
);
4277 for (entry
= &plist
.items
[plist
.nr
-1]; entry
>= plist
.items
; --entry
) {
4278 char *path
= entry
->string
;
4280 * NOTE: mi may actually be a pointer to a conflict_info, but
4281 * we have to check mi->clean first to see if it's safe to
4282 * reassign to such a pointer type.
4284 struct merged_info
*mi
= entry
->util
;
4286 if (write_completed_directory(opt
, mi
->directory_name
,
4287 &dir_metadata
) < 0) {
4292 record_entry_for_tree(&dir_metadata
, path
, mi
);
4294 struct conflict_info
*ci
= (struct conflict_info
*)mi
;
4295 if (process_entry(opt
, path
, ci
, &dir_metadata
) < 0) {
4301 trace2_region_leave("merge", "processing", opt
->repo
);
4303 trace2_region_enter("merge", "process_entries cleanup", opt
->repo
);
4304 if (dir_metadata
.offsets
.nr
!= 1 ||
4305 (uintptr_t)dir_metadata
.offsets
.items
[0].util
!= 0) {
4306 printf("dir_metadata.offsets.nr = %"PRIuMAX
" (should be 1)\n",
4307 (uintmax_t)dir_metadata
.offsets
.nr
);
4308 printf("dir_metadata.offsets.items[0].util = %u (should be 0)\n",
4309 (unsigned)(uintptr_t)dir_metadata
.offsets
.items
[0].util
);
4311 BUG("dir_metadata accounting completely off; shouldn't happen");
4313 if (write_tree(result_oid
, &dir_metadata
.versions
, 0,
4314 opt
->repo
->hash_algo
->rawsz
) < 0)
4317 string_list_clear(&plist
, 0);
4318 string_list_clear(&dir_metadata
.versions
, 0);
4319 string_list_clear(&dir_metadata
.offsets
, 0);
4320 trace2_region_leave("merge", "process_entries cleanup", opt
->repo
);
4325 /*** Function Grouping: functions related to merge_switch_to_result() ***/
4327 static int checkout(struct merge_options
*opt
,
4331 /* Switch the index/working copy from old to new */
4333 struct tree_desc trees
[2];
4334 struct unpack_trees_options unpack_opts
;
4336 memset(&unpack_opts
, 0, sizeof(unpack_opts
));
4337 unpack_opts
.head_idx
= -1;
4338 unpack_opts
.src_index
= opt
->repo
->index
;
4339 unpack_opts
.dst_index
= opt
->repo
->index
;
4341 setup_unpack_trees_porcelain(&unpack_opts
, "merge");
4344 * NOTE: if this were just "git checkout" code, we would probably
4345 * read or refresh the cache and check for a conflicted index, but
4346 * builtin/merge.c or sequencer.c really needs to read the index
4347 * and check for conflicted entries before starting merging for a
4348 * good user experience (no sense waiting for merges/rebases before
4349 * erroring out), so there's no reason to duplicate that work here.
4352 /* 2-way merge to the new branch */
4353 unpack_opts
.update
= 1;
4354 unpack_opts
.merge
= 1;
4355 unpack_opts
.quiet
= 0; /* FIXME: sequencer might want quiet? */
4356 unpack_opts
.verbose_update
= (opt
->verbosity
> 2);
4357 unpack_opts
.fn
= twoway_merge
;
4358 unpack_opts
.preserve_ignored
= 0; /* FIXME: !opts->overwrite_ignore */
4360 init_tree_desc(&trees
[0], prev
->buffer
, prev
->size
);
4362 init_tree_desc(&trees
[1], next
->buffer
, next
->size
);
4364 ret
= unpack_trees(2, trees
, &unpack_opts
);
4365 clear_unpack_trees_porcelain(&unpack_opts
);
4369 static int record_conflicted_index_entries(struct merge_options
*opt
)
4371 struct hashmap_iter iter
;
4372 struct strmap_entry
*e
;
4373 struct index_state
*index
= opt
->repo
->index
;
4374 struct checkout state
= CHECKOUT_INIT
;
4376 int original_cache_nr
;
4378 if (strmap_empty(&opt
->priv
->conflicted
))
4382 * We are in a conflicted state. These conflicts might be inside
4383 * sparse-directory entries, so check if any entries are outside
4384 * of the sparse-checkout cone preemptively.
4386 * We set original_cache_nr below, but that might change if
4387 * index_name_pos() calls ask for paths within sparse directories.
4389 strmap_for_each_entry(&opt
->priv
->conflicted
, &iter
, e
) {
4390 if (!path_in_sparse_checkout(e
->key
, index
)) {
4391 ensure_full_index(index
);
4396 /* If any entries have skip_worktree set, we'll have to check 'em out */
4399 state
.refresh_cache
= 1;
4400 state
.istate
= index
;
4401 original_cache_nr
= index
->cache_nr
;
4403 /* Append every entry from conflicted into index, then sort */
4404 strmap_for_each_entry(&opt
->priv
->conflicted
, &iter
, e
) {
4405 const char *path
= e
->key
;
4406 struct conflict_info
*ci
= e
->value
;
4408 struct cache_entry
*ce
;
4414 * The index will already have a stage=0 entry for this path,
4415 * because we created an as-merged-as-possible version of the
4416 * file and checkout() moved the working copy and index over
4419 * However, previous iterations through this loop will have
4420 * added unstaged entries to the end of the cache which
4421 * ignore the standard alphabetical ordering of cache
4422 * entries and break invariants needed for index_name_pos()
4423 * to work. However, we know the entry we want is before
4424 * those appended cache entries, so do a temporary swap on
4425 * cache_nr to only look through entries of interest.
4427 SWAP(index
->cache_nr
, original_cache_nr
);
4428 pos
= index_name_pos(index
, path
, strlen(path
));
4429 SWAP(index
->cache_nr
, original_cache_nr
);
4431 if (ci
->filemask
!= 1)
4432 BUG("Conflicted %s but nothing in basic working tree or index; this shouldn't happen", path
);
4433 cache_tree_invalidate_path(index
, path
);
4435 ce
= index
->cache
[pos
];
4438 * Clean paths with CE_SKIP_WORKTREE set will not be
4439 * written to the working tree by the unpack_trees()
4440 * call in checkout(). Our conflicted entries would
4441 * have appeared clean to that code since we ignored
4442 * the higher order stages. Thus, we need override
4443 * the CE_SKIP_WORKTREE bit and manually write those
4444 * files to the working disk here.
4446 if (ce_skip_worktree(ce
))
4447 errs
|= checkout_entry(ce
, &state
, NULL
, NULL
);
4450 * Mark this cache entry for removal and instead add
4451 * new stage>0 entries corresponding to the
4452 * conflicts. If there are many conflicted entries, we
4453 * want to avoid memmove'ing O(NM) entries by
4454 * inserting the new entries one at a time. So,
4455 * instead, we just add the new cache entries to the
4456 * end (ignoring normal index requirements on sort
4457 * order) and sort the index once we're all done.
4459 ce
->ce_flags
|= CE_REMOVE
;
4462 for (i
= MERGE_BASE
; i
<= MERGE_SIDE2
; i
++) {
4463 struct version_info
*vi
;
4464 if (!(ci
->filemask
& (1ul << i
)))
4466 vi
= &ci
->stages
[i
];
4467 ce
= make_cache_entry(index
, vi
->mode
, &vi
->oid
,
4469 add_index_entry(index
, ce
, ADD_CACHE_JUST_APPEND
);
4474 * Remove the unused cache entries (and invalidate the relevant
4475 * cache-trees), then sort the index entries to get the conflicted
4476 * entries we added to the end into their right locations.
4478 remove_marked_cache_entries(index
, 1);
4480 * No need for STABLE_QSORT -- cmp_cache_name_compare sorts primarily
4481 * on filename and secondarily on stage, and (name, stage #) are a
4484 QSORT(index
->cache
, index
->cache_nr
, cmp_cache_name_compare
);
4489 static void print_submodule_conflict_suggestion(struct string_list
*csub
) {
4490 struct string_list_item
*item
;
4491 struct strbuf msg
= STRBUF_INIT
;
4492 struct strbuf tmp
= STRBUF_INIT
;
4493 struct strbuf subs
= STRBUF_INIT
;
4498 strbuf_add_separated_string_list(&subs
, " ", csub
);
4499 for_each_string_list_item(item
, csub
) {
4500 struct conflicted_submodule_item
*util
= item
->util
;
4503 * NEEDSWORK: The steps to resolve these errors deserve a more
4504 * detailed explanation than what is currently printed below.
4506 if (util
->flag
== CONFLICT_SUBMODULE_NOT_INITIALIZED
||
4507 util
->flag
== CONFLICT_SUBMODULE_HISTORY_NOT_AVAILABLE
)
4511 * TRANSLATORS: This is a line of advice to resolve a merge
4512 * conflict in a submodule. The first argument is the submodule
4513 * name, and the second argument is the abbreviated id of the
4514 * commit that needs to be merged. For example:
4515 * - go to submodule (mysubmodule), and either merge commit abc1234"
4517 strbuf_addf(&tmp
, _(" - go to submodule (%s), and either merge commit %s\n"
4518 " or update to an existing commit which has merged those changes\n"),
4519 item
->string
, util
->abbrev
);
4523 * TRANSLATORS: This is a detailed message for resolving submodule
4524 * conflicts. The first argument is string containing one step per
4525 * submodule. The second is a space-separated list of submodule names.
4528 _("Recursive merging with submodules currently only supports trivial cases.\n"
4529 "Please manually handle the merging of each conflicted submodule.\n"
4530 "This can be accomplished with the following steps:\n"
4532 " - come back to superproject and run:\n\n"
4534 " to record the above merge or update\n"
4535 " - resolve any other conflicts in the superproject\n"
4536 " - commit the resulting index in the superproject\n"),
4539 printf("%s", msg
.buf
);
4541 strbuf_release(&subs
);
4542 strbuf_release(&tmp
);
4543 strbuf_release(&msg
);
4546 void merge_display_update_messages(struct merge_options
*opt
,
4548 struct merge_result
*result
)
4550 struct merge_options_internal
*opti
= result
->priv
;
4551 struct hashmap_iter iter
;
4552 struct strmap_entry
*e
;
4553 struct string_list olist
= STRING_LIST_INIT_NODUP
;
4555 if (opt
->record_conflict_msgs_as_headers
)
4556 BUG("Either display conflict messages or record them as headers, not both");
4558 trace2_region_enter("merge", "display messages", opt
->repo
);
4560 /* Hack to pre-allocate olist to the desired size */
4561 ALLOC_GROW(olist
.items
, strmap_get_size(&opti
->conflicts
),
4564 /* Put every entry from output into olist, then sort */
4565 strmap_for_each_entry(&opti
->conflicts
, &iter
, e
) {
4566 string_list_append(&olist
, e
->key
)->util
= e
->value
;
4568 string_list_sort(&olist
);
4570 /* Iterate over the items, printing them */
4571 for (int path_nr
= 0; path_nr
< olist
.nr
; ++path_nr
) {
4572 struct string_list
*conflicts
= olist
.items
[path_nr
].util
;
4573 for (int i
= 0; i
< conflicts
->nr
; i
++) {
4574 struct logical_conflict_info
*info
=
4575 conflicts
->items
[i
].util
;
4578 printf("%lu", (unsigned long)info
->paths
.nr
);
4580 for (int n
= 0; n
< info
->paths
.nr
; n
++) {
4581 fputs(info
->paths
.v
[n
], stdout
);
4584 fputs(type_short_descriptions
[info
->type
],
4588 puts(conflicts
->items
[i
].string
);
4593 string_list_clear(&olist
, 0);
4595 print_submodule_conflict_suggestion(&opti
->conflicted_submodules
);
4597 /* Also include needed rename limit adjustment now */
4598 diff_warn_rename_limit("merge.renamelimit",
4599 opti
->renames
.needed_limit
, 0);
4601 trace2_region_leave("merge", "display messages", opt
->repo
);
4604 void merge_get_conflicted_files(struct merge_result
*result
,
4605 struct string_list
*conflicted_files
)
4607 struct hashmap_iter iter
;
4608 struct strmap_entry
*e
;
4609 struct merge_options_internal
*opti
= result
->priv
;
4611 strmap_for_each_entry(&opti
->conflicted
, &iter
, e
) {
4612 const char *path
= e
->key
;
4613 struct conflict_info
*ci
= e
->value
;
4618 for (i
= MERGE_BASE
; i
<= MERGE_SIDE2
; i
++) {
4619 struct stage_info
*si
;
4621 if (!(ci
->filemask
& (1ul << i
)))
4624 si
= xmalloc(sizeof(*si
));
4626 si
->mode
= ci
->stages
[i
].mode
;
4627 oidcpy(&si
->oid
, &ci
->stages
[i
].oid
);
4628 string_list_append(conflicted_files
, path
)->util
= si
;
4631 /* string_list_sort() uses a stable sort, so we're good */
4632 string_list_sort(conflicted_files
);
4635 void merge_switch_to_result(struct merge_options
*opt
,
4637 struct merge_result
*result
,
4638 int update_worktree_and_index
,
4639 int display_update_msgs
)
4641 assert(opt
->priv
== NULL
);
4642 if (result
->clean
>= 0 && update_worktree_and_index
) {
4643 const char *filename
;
4646 trace2_region_enter("merge", "checkout", opt
->repo
);
4647 if (checkout(opt
, head
, result
->tree
)) {
4648 /* failure to function */
4650 merge_finalize(opt
, result
);
4651 trace2_region_leave("merge", "checkout", opt
->repo
);
4654 trace2_region_leave("merge", "checkout", opt
->repo
);
4656 trace2_region_enter("merge", "record_conflicted", opt
->repo
);
4657 opt
->priv
= result
->priv
;
4658 if (record_conflicted_index_entries(opt
)) {
4659 /* failure to function */
4662 merge_finalize(opt
, result
);
4663 trace2_region_leave("merge", "record_conflicted",
4668 trace2_region_leave("merge", "record_conflicted", opt
->repo
);
4670 trace2_region_enter("merge", "write_auto_merge", opt
->repo
);
4671 filename
= git_path_auto_merge(opt
->repo
);
4672 fp
= xfopen(filename
, "w");
4673 fprintf(fp
, "%s\n", oid_to_hex(&result
->tree
->object
.oid
));
4675 trace2_region_leave("merge", "write_auto_merge", opt
->repo
);
4677 if (display_update_msgs
)
4678 merge_display_update_messages(opt
, /* detailed */ 0, result
);
4680 merge_finalize(opt
, result
);
4683 void merge_finalize(struct merge_options
*opt
,
4684 struct merge_result
*result
)
4686 struct merge_options_internal
*opti
= result
->priv
;
4688 if (opt
->renormalize
)
4689 git_attr_set_direction(GIT_ATTR_CHECKIN
);
4690 assert(opt
->priv
== NULL
);
4692 clear_or_reinit_internal_opts(opti
, 0);
4693 FREE_AND_NULL(opti
);
4696 /*** Function Grouping: helper functions for merge_incore_*() ***/
4698 static struct tree
*shift_tree_object(struct repository
*repo
,
4699 struct tree
*one
, struct tree
*two
,
4700 const char *subtree_shift
)
4702 struct object_id shifted
;
4704 if (!*subtree_shift
) {
4705 shift_tree(repo
, &one
->object
.oid
, &two
->object
.oid
, &shifted
, 0);
4707 shift_tree_by(repo
, &one
->object
.oid
, &two
->object
.oid
, &shifted
,
4710 if (oideq(&two
->object
.oid
, &shifted
))
4712 return lookup_tree(repo
, &shifted
);
4715 static inline void set_commit_tree(struct commit
*c
, struct tree
*t
)
4720 static struct commit
*make_virtual_commit(struct repository
*repo
,
4722 const char *comment
)
4724 struct commit
*commit
= alloc_commit_node(repo
);
4726 set_merge_remote_desc(commit
, comment
, (struct object
*)commit
);
4727 set_commit_tree(commit
, tree
);
4728 commit
->object
.parsed
= 1;
4732 static void merge_start(struct merge_options
*opt
, struct merge_result
*result
)
4734 struct rename_info
*renames
;
4736 struct mem_pool
*pool
= NULL
;
4738 /* Sanity checks on opt */
4739 trace2_region_enter("merge", "sanity checks", opt
->repo
);
4742 assert(opt
->branch1
&& opt
->branch2
);
4744 assert(opt
->detect_directory_renames
>= MERGE_DIRECTORY_RENAMES_NONE
&&
4745 opt
->detect_directory_renames
<= MERGE_DIRECTORY_RENAMES_TRUE
);
4746 assert(opt
->rename_limit
>= -1);
4747 assert(opt
->rename_score
>= 0 && opt
->rename_score
<= MAX_SCORE
);
4748 assert(opt
->show_rename_progress
>= 0 && opt
->show_rename_progress
<= 1);
4750 assert(opt
->xdl_opts
>= 0);
4751 assert(opt
->recursive_variant
>= MERGE_VARIANT_NORMAL
&&
4752 opt
->recursive_variant
<= MERGE_VARIANT_THEIRS
);
4754 if (opt
->msg_header_prefix
)
4755 assert(opt
->record_conflict_msgs_as_headers
);
4758 * detect_renames, verbosity, buffer_output, and obuf are ignored
4759 * fields that were used by "recursive" rather than "ort" -- but
4760 * sanity check them anyway.
4762 assert(opt
->detect_renames
>= -1 &&
4763 opt
->detect_renames
<= DIFF_DETECT_COPY
);
4764 assert(opt
->verbosity
>= 0 && opt
->verbosity
<= 5);
4765 assert(opt
->buffer_output
<= 2);
4766 assert(opt
->obuf
.len
== 0);
4768 assert(opt
->priv
== NULL
);
4769 if (result
->_properly_initialized
!= 0 &&
4770 result
->_properly_initialized
!= RESULT_INITIALIZED
)
4771 BUG("struct merge_result passed to merge_incore_*recursive() must be zeroed or filled with values from a previous run");
4772 assert(!!result
->priv
== !!result
->_properly_initialized
);
4774 opt
->priv
= result
->priv
;
4775 result
->priv
= NULL
;
4777 * opt->priv non-NULL means we had results from a previous
4778 * run; do a few sanity checks that user didn't mess with
4779 * it in an obvious fashion.
4781 assert(opt
->priv
->call_depth
== 0);
4782 assert(!opt
->priv
->toplevel_dir
||
4783 0 == strlen(opt
->priv
->toplevel_dir
));
4785 trace2_region_leave("merge", "sanity checks", opt
->repo
);
4787 /* Default to histogram diff. Actually, just hardcode it...for now. */
4788 opt
->xdl_opts
= DIFF_WITH_ALG(opt
, HISTOGRAM_DIFF
);
4790 /* Handle attr direction stuff for renormalization */
4791 if (opt
->renormalize
)
4792 git_attr_set_direction(GIT_ATTR_CHECKOUT
);
4794 /* Initialization of opt->priv, our internal merge data */
4795 trace2_region_enter("merge", "allocate/init", opt
->repo
);
4797 clear_or_reinit_internal_opts(opt
->priv
, 1);
4798 string_list_init_nodup(&opt
->priv
->conflicted_submodules
);
4799 trace2_region_leave("merge", "allocate/init", opt
->repo
);
4802 opt
->priv
= xcalloc(1, sizeof(*opt
->priv
));
4804 /* Initialization of various renames fields */
4805 renames
= &opt
->priv
->renames
;
4806 mem_pool_init(&opt
->priv
->pool
, 0);
4807 pool
= &opt
->priv
->pool
;
4808 for (i
= MERGE_SIDE1
; i
<= MERGE_SIDE2
; i
++) {
4809 strintmap_init_with_options(&renames
->dirs_removed
[i
],
4810 NOT_RELEVANT
, pool
, 0);
4811 strmap_init_with_options(&renames
->dir_rename_count
[i
],
4813 strmap_init_with_options(&renames
->dir_renames
[i
],
4816 * relevant_sources uses -1 for the default, because we need
4817 * to be able to distinguish not-in-strintmap from valid
4818 * relevant_source values from enum file_rename_relevance.
4819 * In particular, possibly_cache_new_pair() expects a negative
4820 * value for not-found entries.
4822 strintmap_init_with_options(&renames
->relevant_sources
[i
],
4823 -1 /* explicitly invalid */,
4825 strmap_init_with_options(&renames
->cached_pairs
[i
],
4827 strset_init_with_options(&renames
->cached_irrelevant
[i
],
4829 strset_init_with_options(&renames
->cached_target_names
[i
],
4832 for (i
= MERGE_SIDE1
; i
<= MERGE_SIDE2
; i
++) {
4833 strintmap_init_with_options(&renames
->deferred
[i
].possible_trivial_merges
,
4835 strset_init_with_options(&renames
->deferred
[i
].target_dirs
,
4837 renames
->deferred
[i
].trivial_merges_okay
= 1; /* 1 == maybe */
4841 * Although we initialize opt->priv->paths with strdup_strings=0,
4842 * that's just to avoid making yet another copy of an allocated
4843 * string. Putting the entry into paths means we are taking
4844 * ownership, so we will later free it.
4846 * In contrast, conflicted just has a subset of keys from paths, so
4847 * we don't want to free those (it'd be a duplicate free).
4849 strmap_init_with_options(&opt
->priv
->paths
, pool
, 0);
4850 strmap_init_with_options(&opt
->priv
->conflicted
, pool
, 0);
4853 * keys & string_lists in conflicts will sometimes need to outlive
4854 * "paths", so it will have a copy of relevant keys. It's probably
4855 * a small subset of the overall paths that have special output.
4857 strmap_init(&opt
->priv
->conflicts
);
4859 trace2_region_leave("merge", "allocate/init", opt
->repo
);
4862 static void merge_check_renames_reusable(struct merge_options
*opt
,
4863 struct merge_result
*result
,
4864 struct tree
*merge_base
,
4868 struct rename_info
*renames
;
4869 struct tree
**merge_trees
;
4870 struct merge_options_internal
*opti
= result
->priv
;
4875 renames
= &opti
->renames
;
4876 merge_trees
= renames
->merge_trees
;
4879 * Handle case where previous merge operation did not want cache to
4880 * take effect, e.g. because rename/rename(1to1) makes it invalid.
4882 if (!merge_trees
[0]) {
4883 assert(!merge_trees
[0] && !merge_trees
[1] && !merge_trees
[2]);
4884 renames
->cached_pairs_valid_side
= 0; /* neither side valid */
4889 * Handle other cases; note that merge_trees[0..2] will only
4890 * be NULL if opti is, or if all three were manually set to
4891 * NULL by e.g. rename/rename(1to1) handling.
4893 assert(merge_trees
[0] && merge_trees
[1] && merge_trees
[2]);
4895 /* Check if we meet a condition for re-using cached_pairs */
4896 if (oideq(&merge_base
->object
.oid
, &merge_trees
[2]->object
.oid
) &&
4897 oideq(&side1
->object
.oid
, &result
->tree
->object
.oid
))
4898 renames
->cached_pairs_valid_side
= MERGE_SIDE1
;
4899 else if (oideq(&merge_base
->object
.oid
, &merge_trees
[1]->object
.oid
) &&
4900 oideq(&side2
->object
.oid
, &result
->tree
->object
.oid
))
4901 renames
->cached_pairs_valid_side
= MERGE_SIDE2
;
4903 renames
->cached_pairs_valid_side
= 0; /* neither side valid */
4906 /*** Function Grouping: merge_incore_*() and their internal variants ***/
4909 * Originally from merge_trees_internal(); heavily adapted, though.
4911 static void merge_ort_nonrecursive_internal(struct merge_options
*opt
,
4912 struct tree
*merge_base
,
4915 struct merge_result
*result
)
4917 struct object_id working_tree_oid
;
4919 if (opt
->subtree_shift
) {
4920 side2
= shift_tree_object(opt
->repo
, side1
, side2
,
4921 opt
->subtree_shift
);
4922 merge_base
= shift_tree_object(opt
->repo
, side1
, merge_base
,
4923 opt
->subtree_shift
);
4927 trace2_region_enter("merge", "collect_merge_info", opt
->repo
);
4928 if (collect_merge_info(opt
, merge_base
, side1
, side2
) != 0) {
4930 * TRANSLATORS: The %s arguments are: 1) tree hash of a merge
4931 * base, and 2-3) the trees for the two trees we're merging.
4933 err(opt
, _("collecting merge info failed for trees %s, %s, %s"),
4934 oid_to_hex(&merge_base
->object
.oid
),
4935 oid_to_hex(&side1
->object
.oid
),
4936 oid_to_hex(&side2
->object
.oid
));
4940 trace2_region_leave("merge", "collect_merge_info", opt
->repo
);
4942 trace2_region_enter("merge", "renames", opt
->repo
);
4943 result
->clean
= detect_and_process_renames(opt
, merge_base
,
4945 trace2_region_leave("merge", "renames", opt
->repo
);
4946 if (opt
->priv
->renames
.redo_after_renames
== 2) {
4947 trace2_region_enter("merge", "reset_maps", opt
->repo
);
4948 clear_or_reinit_internal_opts(opt
->priv
, 1);
4949 trace2_region_leave("merge", "reset_maps", opt
->repo
);
4953 trace2_region_enter("merge", "process_entries", opt
->repo
);
4954 if (process_entries(opt
, &working_tree_oid
) < 0)
4956 trace2_region_leave("merge", "process_entries", opt
->repo
);
4958 /* Set return values */
4959 result
->path_messages
= &opt
->priv
->conflicts
;
4961 if (result
->clean
>= 0) {
4962 result
->tree
= parse_tree_indirect(&working_tree_oid
);
4963 /* existence of conflicted entries implies unclean */
4964 result
->clean
&= strmap_empty(&opt
->priv
->conflicted
);
4966 if (!opt
->priv
->call_depth
) {
4967 result
->priv
= opt
->priv
;
4968 result
->_properly_initialized
= RESULT_INITIALIZED
;
4974 * Originally from merge_recursive_internal(); somewhat adapted, though.
4976 static void merge_ort_internal(struct merge_options
*opt
,
4977 struct commit_list
*merge_bases
,
4980 struct merge_result
*result
)
4982 struct commit
*next
;
4983 struct commit
*merged_merge_bases
;
4984 const char *ancestor_name
;
4985 struct strbuf merge_base_abbrev
= STRBUF_INIT
;
4988 merge_bases
= get_merge_bases(h1
, h2
);
4989 /* See merge-ort.h:merge_incore_recursive() declaration NOTE */
4990 merge_bases
= reverse_commit_list(merge_bases
);
4993 merged_merge_bases
= pop_commit(&merge_bases
);
4994 if (!merged_merge_bases
) {
4995 /* if there is no common ancestor, use an empty tree */
4998 tree
= lookup_tree(opt
->repo
, opt
->repo
->hash_algo
->empty_tree
);
4999 merged_merge_bases
= make_virtual_commit(opt
->repo
, tree
,
5001 ancestor_name
= "empty tree";
5002 } else if (merge_bases
) {
5003 ancestor_name
= "merged common ancestors";
5005 strbuf_add_unique_abbrev(&merge_base_abbrev
,
5006 &merged_merge_bases
->object
.oid
,
5008 ancestor_name
= merge_base_abbrev
.buf
;
5011 for (next
= pop_commit(&merge_bases
); next
;
5012 next
= pop_commit(&merge_bases
)) {
5013 const char *saved_b1
, *saved_b2
;
5014 struct commit
*prev
= merged_merge_bases
;
5016 opt
->priv
->call_depth
++;
5018 * When the merge fails, the result contains files
5019 * with conflict markers. The cleanness flag is
5020 * ignored (unless indicating an error), it was never
5021 * actually used, as result of merge_trees has always
5022 * overwritten it: the committed "conflicts" were
5025 saved_b1
= opt
->branch1
;
5026 saved_b2
= opt
->branch2
;
5027 opt
->branch1
= "Temporary merge branch 1";
5028 opt
->branch2
= "Temporary merge branch 2";
5029 merge_ort_internal(opt
, NULL
, prev
, next
, result
);
5030 if (result
->clean
< 0)
5032 opt
->branch1
= saved_b1
;
5033 opt
->branch2
= saved_b2
;
5034 opt
->priv
->call_depth
--;
5036 merged_merge_bases
= make_virtual_commit(opt
->repo
,
5039 commit_list_insert(prev
, &merged_merge_bases
->parents
);
5040 commit_list_insert(next
, &merged_merge_bases
->parents
->next
);
5042 clear_or_reinit_internal_opts(opt
->priv
, 1);
5045 opt
->ancestor
= ancestor_name
;
5046 merge_ort_nonrecursive_internal(opt
,
5047 repo_get_commit_tree(opt
->repo
,
5048 merged_merge_bases
),
5049 repo_get_commit_tree(opt
->repo
, h1
),
5050 repo_get_commit_tree(opt
->repo
, h2
),
5052 strbuf_release(&merge_base_abbrev
);
5053 opt
->ancestor
= NULL
; /* avoid accidental re-use of opt->ancestor */
5056 void merge_incore_nonrecursive(struct merge_options
*opt
,
5057 struct tree
*merge_base
,
5060 struct merge_result
*result
)
5062 trace2_region_enter("merge", "incore_nonrecursive", opt
->repo
);
5064 trace2_region_enter("merge", "merge_start", opt
->repo
);
5065 assert(opt
->ancestor
!= NULL
);
5066 merge_check_renames_reusable(opt
, result
, merge_base
, side1
, side2
);
5067 merge_start(opt
, result
);
5069 * Record the trees used in this merge, so if there's a next merge in
5070 * a cherry-pick or rebase sequence it might be able to take advantage
5071 * of the cached_pairs in that next merge.
5073 opt
->priv
->renames
.merge_trees
[0] = merge_base
;
5074 opt
->priv
->renames
.merge_trees
[1] = side1
;
5075 opt
->priv
->renames
.merge_trees
[2] = side2
;
5076 trace2_region_leave("merge", "merge_start", opt
->repo
);
5078 merge_ort_nonrecursive_internal(opt
, merge_base
, side1
, side2
, result
);
5079 trace2_region_leave("merge", "incore_nonrecursive", opt
->repo
);
5082 void merge_incore_recursive(struct merge_options
*opt
,
5083 struct commit_list
*merge_bases
,
5084 struct commit
*side1
,
5085 struct commit
*side2
,
5086 struct merge_result
*result
)
5088 trace2_region_enter("merge", "incore_recursive", opt
->repo
);
5090 /* We set the ancestor label based on the merge_bases */
5091 assert(opt
->ancestor
== NULL
);
5093 trace2_region_enter("merge", "merge_start", opt
->repo
);
5094 merge_start(opt
, result
);
5095 trace2_region_leave("merge", "merge_start", opt
->repo
);
5097 merge_ort_internal(opt
, merge_bases
, side1
, side2
, result
);
5098 trace2_region_leave("merge", "incore_recursive", opt
->repo
);