| blob | 24d979022e8e2d46baa15e53ef3c8f69760ba497 |
1 /*
2 * Recursive Merge algorithm stolen from git-merge-recursive.py by
3 * Fredrik Kuivinen.
4 * The thieves were Alex Riesen and Johannes Schindelin, in June/July 2006
5 */
35 };
41 {
48 else
50 }
53 {
55 }
59 {
67 }
73 {
78 }
81 {
83 }
87 {
93 }
97 {
103 }
109 {
111 }
114 {
116 }
119 {
123 }
124 }
127 {
135 }
144 }
147 }
151 {
158 subtree_shift);
159 }
163 }
166 {
173 }
175 /*
176 * Since we use get_tree_entry(), which does not put the read object into
177 * the object pool, we cannot rely on a == b.
178 */
180 {
184 }
188 RENAME_VIA_DIR,
189 RENAME_DELETE,
190 RENAME_ONE_FILE_TO_ONE,
191 RENAME_ONE_FILE_TO_TWO,
192 RENAME_TWO_FILES_TO_ONE
193 };
205 };
207 /*
208 * Since we want to write the index eventually, we cannot reuse the index
209 * for these (temporary) data.
210 */
218 };
230 {
233 /*
234 * When we have two renames involved, it's easiest to get the
235 * correct things into stage 2 and 3, and to make sure that the
236 * content merge puts HEAD before the other branch if we just
237 * ensure that branch1 == o->branch1. So, simply flip arguments
238 * around if we don't have that.
239 */
245 o,
248 }
265 }
268 /*
269 * For each rename, there could have been
270 * modifications on the side of history where that
271 * file was not renamed.
272 */
283 }
284 }
287 {
289 }
293 {
308 }
311 {
320 DEFAULT_ABBREV);
331 }
332 }
334 }
339 {
356 }
358 }
361 {
364 }
370 {
378 else
395 /*
396 * Update the_index to match the new results, AFTER saving a copy
397 * in o->orig_index. Update src_index to point to the saved copy.
398 * (verify_uptodate() checks src_index, and the original index is
399 * the one that had the necessary modification timestamps.)
400 */
406 }
409 {
412 }
415 {
426 }
428 }
437 }
442 }
447 {
460 }
463 {
467 }
473 {
480 }
482 }
484 /*
485 * Returns an index_entry instance which doesn't have to correspond to
486 * a real cache entry in Git's index.
487 */
491 {
503 }
505 /*
506 * Create a dictionary mapping file names to stage_data objects. The
507 * dictionary contains one entry for every path with a non-zero stage entry.
508 */
510 {
527 }
531 }
534 }
537 {
540 /*
541 * Here we only care that entries for D/F conflicts are
542 * adjacent, in particular with the file of the D/F conflict
543 * appearing before files below the corresponding directory.
544 * The order of the rest of the list is irrelevant for us.
545 *
546 * To achieve this, we sort with df_name_compare and provide
547 * the mode S_IFDIR so that D/F conflicts will sort correctly.
548 * We use the mode S_IFDIR for everything else for simplicity,
549 * since in other cases any changes in their order due to
550 * sorting cause no problems for us.
551 */
554 /*
555 * Now that 'foo' and 'foo/bar' compare equal, we have to make sure
556 * that 'foo' comes before 'foo/bar'.
557 */
561 }
565 {
566 /* If there is a D/F conflict and the file for such a conflict
567 * currently exists in the working tree, we want to allow it to be
568 * removed to make room for the corresponding directory if needed.
569 * The files underneath the directories of such D/F conflicts will
570 * be processed before the corresponding file involved in the D/F
571 * conflict. If the D/F directory ends up being removed by the
572 * merge, then we won't have to touch the D/F file. If the D/F
573 * directory needs to be written to the working copy, then the D/F
574 * file will simply be removed (in make_room_for_path()) to make
575 * room for the necessary paths. Note that if both the directory
576 * and the file need to be present, then the D/F file will be
577 * reinstated with a new unique name at the time it is processed.
578 */
584 /*
585 * If we're merging merge-bases, we don't want to bother with
586 * any working directory changes.
587 */
591 /* Ensure D/F conflicts are adjacent in the entries list. */
596 }
606 /*
607 * Check if last_file & path correspond to a D/F conflict;
608 * i.e. whether path is last_file+'/'+<something>.
609 * If so, record that it's okay to remove last_file to make
610 * room for path and friends if needed.
611 */
617 }
619 /*
620 * Determine whether path could exist as a file in the
621 * working directory as a possible D/F conflict. This
622 * will only occur when it exists in stage 2 as a
623 * file.
624 */
630 }
631 }
633 }
637 /*
638 * Purpose of src_entry and dst_entry:
639 *
640 * If 'before' is renamed to 'after' then src_entry will contain
641 * the versions of 'before' from the merge_base, HEAD, and MERGE in
642 * stages 1, 2, and 3; dst_entry will contain the respective
643 * versions of 'after' in corresponding locations. Thus, we have a
644 * total of six modes and oids, though some will be null. (Stage 0
645 * is ignored; we're interested in handling conflicts.)
646 *
647 * Since we don't turn on break-rewrites by default, neither
648 * src_entry nor dst_entry can have all three of their stages have
649 * non-null oids, meaning at most four of the six will be non-null.
650 * Also, since this is a rename, both src_entry and dst_entry will
651 * have at least one non-null oid, meaning at least two will be
652 * non-null. Of the six oids, a typical rename will have three be
653 * non-null. Only two implies a rename/delete, and four implies a
654 * rename/add.
655 */
660 };
666 {
668 /*
669 * NOTE: It is usually a bad idea to call update_stages on a path
670 * before calling update_file on that same path, since it can
671 * sometimes lead to spurious "refusing to lose untracked file..."
672 * messages from update_file (via make_room_for path via
673 * would_lose_untracked). Instead, reverse the order of the calls
674 * (executing update_file first and then update_stages).
675 */
691 }
696 {
712 }
718 {
726 }
730 {
737 }
744 }
747 }
749 }
751 /* add a string to a strbuf, but converting "/" to "_" */
753 {
759 }
762 {
777 }
783 }
785 /**
786 * Check whether a directory in the index is in the way of an incoming
787 * file. Return 1 if so. If check_working_copy is non-zero, also
788 * check the working directory. If empty_ok is non-zero, also return
789 * 0 in the case where the working-tree dir exists but is empty.
790 */
792 {
808 }
813 }
815 /*
816 * Returns whether path was tracked in the index before the merge started,
817 * and its oid and mode match the specified values
818 */
821 {
826 /* we were not tracking this path before the merge */
829 /* See if the file we were tracking before matches */
832 }
834 /*
835 * Returns whether path was tracked in the index before the merge started
836 */
838 {
842 /* we were tracking this path before the merge */
846 }
849 {
850 /*
851 * This may look like it can be simplified to:
852 * return !was_tracked(o, path) && file_exists(path)
853 * but it can't. This function needs to know whether path was in
854 * the working tree due to EITHER having been tracked in the index
855 * before the merge OR having been put into the working copy and
856 * index by unpack_trees(). Due to that either-or requirement, we
857 * check the current index instead of the original one.
858 *
859 * Note that we do not need to worry about merge-recursive itself
860 * updating the index after unpack_trees() and before calling this
861 * function, because we strictly require all code paths in
862 * merge-recursive to update the working tree first and the index
863 * second. Doing otherwise would break
864 * update_file()/would_lose_untracked(); see every comment in this
865 * file which mentions "update_stages".
866 */
873 /*
874 * If stage #0, it is definitely tracked.
875 * If it has stage #2 then it was tracked
876 * before this merge started. All other
877 * cases the path was not tracked.
878 */
883 }
884 pos++;
885 }
887 }
890 {
901 }
904 {
908 /* Unlink any D/F conflict files that are in the way */
918 df_path);
923 }
924 }
926 /* Make sure leading directories are created */
930 /* something else exists */
933 }
935 /*
936 * Do not unlink a file in the work tree if we are not
937 * tracking it.
938 */
941 path);
943 /* Successful unlink is good.. */
946 /* .. and so is no existing file */
949 /* .. but not some other error (who really cares what?) */
951 }
959 {
971 /*
972 * We may later decide to recursively descend into
973 * the submodule directory and update its index
974 * and/or work tree, but we do not do that now.
975 */
978 }
986 }
993 }
994 }
999 }
1004 else
1011 }
1026 free_buf:
1028 }
1029 update_index:
1032 ADD_CACHE_OK_TO_ADD))
1035 }
1042 {
1044 }
1046 /* Low level file merging, update and removal */
1053 };
1063 {
1087 }
1088 }
1101 }
1117 }
1121 {
1136 /* get all revisions that merge commit a */
1141 /* FIXME: can't handle linked worktrees in submodules yet */
1145 /* save all revisions from the above list that contain b */
1152 }
1155 /* Now we've got all merges that contain a and b. Prune all
1156 * merges that contain another found merge and save them in
1157 * result.
1158 */
1168 }
1169 }
1173 }
1177 }
1180 {
1187 }
1193 {
1201 /* store a in result in case we fail */
1204 /* we can not handle deletion conflicts */
1215 }
1222 }
1224 /* check whether both changes are forward */
1229 }
1231 /* Case #1: a is contained in b or vice versa */
1239 else
1243 }
1251 else
1255 }
1257 /*
1258 * Case #2: There are one or more merges that contain a and b in
1259 * the submodule. If there is only one, then present it as a
1260 * suggestion to the user, but leave it marked unmerged so the
1261 * user needs to confirm the resolution.
1262 */
1264 /* Skip the search if makes no sense to the calling context. */
1268 /* find commit which merges them */
1280 "If this is correct simply add it to the index "
1292 }
1296 }
1307 {
1309 /*
1310 * It's weird getting a reverse merge with HEAD on the bottom
1311 * side of the conflict markers and the other branch on the
1312 * top. Fix that.
1313 */
1315 filename,
1318 }
1331 }
1336 /*
1337 * Merge modes
1338 */
1346 }
1347 }
1354 mmbuffer_t result_buf;
1359 extra_marker_size);
1393 }
1396 }
1402 }
1408 {
1409 /*
1410 * Handle file adds that need to be renamed due to directory rename
1411 * detection. This differs from handle_rename_normal, because
1412 * there is no content merge to do; just move the file into the
1413 * desired final location.
1414 */
1423 /*
1424 * Write the file in worktree at alt_path, but not in the
1425 * index. Instead, write to dest->path for the index but
1426 * only at the higher appropriate stage.
1427 */
1434 }
1436 /* Update dest->path both in index and in worktree */
1440 }
1450 {
1458 }
1461 /*
1462 * We cannot arbitrarily accept either a_sha or b_sha as
1463 * correct; since there is no true "middle point" between
1464 * them, simply reuse the base version for virtual merge base.
1465 */
1470 /*
1471 * Despite the four nearly duplicate messages and argument
1472 * lists below and the ugliness of the nested if-statements,
1473 * having complete messages makes the job easier for
1474 * translators.
1475 *
1476 * The slight variance among the cases is due to the fact
1477 * that:
1478 * 1) directory/file conflicts (in effect if
1479 * !alt_path) could cause us to need to write the
1480 * file to a different path.
1481 * 2) renames (in effect if !old_path) could mean that
1482 * there are two names for the path that the user
1483 * may know the file by.
1484 */
1496 }
1508 }
1509 }
1510 /*
1511 * No need to call update_file() on path when change_branch ==
1512 * o->branch1 && !alt_path, since that would needlessly touch
1513 * path. We could call update_file_flags() with update_cache=0
1514 * and update_wd=0, but that's a no-op.
1515 */
1518 }
1522 }
1528 {
1543 else
1547 }
1552 {
1560 }
1572 {
1578 /*
1579 * In the recursive case, we just opt to undo renames
1580 */
1582 /* Put first file (a_oid, a_mode) in its original spot */
1589 }
1591 /* Put second file (b_oid, b_mode) in its original spot */
1598 }
1600 /* Don't leave something at collision path if unrenaming both */
1605 }
1607 /* Remove rename sources if rename/add or rename/rename(2to1) */
1615 /*
1616 * Remove the collision path, if it wouldn't cause dirty contents
1617 * or an untracked file to get lost. We'll either overwrite with
1618 * merged contents, or just write out to differently named files.
1619 */
1622 collide_path);
1625 /*
1626 * Only way we get here is if both renames were from
1627 * a directory rename AND user had an untracked file
1628 * at the location where both files end up after the
1629 * two directory renames. See testcase 10d of t6043.
1630 */
1633 collide_path);
1636 /*
1637 * FIXME: It's possible that the two files are identical
1638 * and that the current working copy happens to match, in
1639 * which case we are unnecessarily touching the working
1640 * tree file. It's not a likely enough scenario that I
1641 * want to code up the checks for it and a better fix is
1642 * available if we restructure how unpack_trees() and
1643 * merge-recursive interoperate anyway, so punting for
1644 * now...
1645 */
1647 }
1649 /* Store things in diff_filespecs for functions that need it */
1672 /*
1673 * FIXME: If both a & b both started with conflicts (only possible
1674 * if they came from a rename/rename(2to1)), but had IDENTICAL
1675 * contents including those conflicts, then in the next line we claim
1676 * it was clean. If someone cares about this case, we should have the
1677 * caller notify us if we started with conflicts.
1678 */
1680 }
1681 #endif
1687 {
1703 }
1715 }
1716 /*
1717 * Because the double negatives somehow keep confusing me...
1718 * 1) update_wd iff !ren_src_was_dirty.
1719 * 2) no_wd iff !update_wd
1720 * 3) so, no_wd == !!ren_src_was_dirty == ren_src_was_dirty
1721 */
1735 }
1736 }
1741 else
1748 }
1752 {
1753 /* One file was renamed in both branches, but to different names. */
1773 /*
1774 * FIXME: For rename/add-source conflicts (if we could detect
1775 * such), this is wrong. We should instead find a unique
1776 * pathname and then either rename the add-source file to that
1777 * unique path, or use that unique path instead of src here.
1778 */
1782 /*
1783 * Above, we put the merged content at the merge-base's
1784 * path. Now we usually need to delete both a->path and
1785 * b->path. However, the rename on each side of the merge
1786 * could also be involved in a rename/add conflict. In
1787 * such cases, we should keep the added file around,
1788 * resolving the conflict at that path in its favor.
1789 */
1794 }
1795 else
1801 }
1802 else
1808 }
1812 {
1813 /* Two files, a & b, were renamed to the same thing, c. */
1826 "Rename %s->%s in %s. "
1847 /*
1848 * If mfi_c1.clean && mfi_c2.clean, then it might make
1849 * sense to do a two-way merge of those results. But, I
1850 * think in all cases, it makes sense to have the virtual
1851 * merge base just undo the renames; they can be detected
1852 * again later for the non-recursive merge.
1853 */
1866 path);
1868 /*
1869 * Only way we get here is if both renames were from
1870 * a directory rename AND user had an untracked file
1871 * at the location where both files end up after the
1872 * two directory renames. See testcase 10d of t6043.
1873 */
1876 path);
1877 else
1882 new_path2);
1883 /*
1884 * unpack_trees() actually populates the index for us for
1885 * "normal" rename/rename(2to1) situtations so that the
1886 * correct entries are at the higher stages, which would
1887 * make the call below to update_stages_for_stage_data
1888 * unnecessary. However, if either of the renames came
1889 * from a directory rename, then unpack_trees() will not
1890 * have gotten the right data loaded into the index, so we
1891 * need to do so now. (While it'd be tempting to move this
1892 * call to update_stages_for_stage_data() to
1893 * apply_directory_rename_modifications(), that would break
1894 * our intermediate calls to would_lose_untracked() since
1895 * those rely on the current in-memory index. See also the
1896 * big "NOTE" in update_stages()).
1897 */
1903 }
1906 }
1908 /*
1909 * Get the diff_filepairs changed between o_tree and tree.
1910 */
1914 {
1922 /*
1923 * We do not have logic to handle the detection of copies. In
1924 * fact, it may not even make sense to add such logic: would we
1925 * really want a change to a base file to be propagated through
1926 * multiple other files by a merge?
1927 */
1950 }
1953 {
1959 }
1961 /*
1962 * Return a new string that replaces the beginning portion (which matches
1963 * entry->dir), with entry->new_dir. In perl-speak:
1964 * new_path_name = (old_path =~ s/entry->dir/entry->new_dir/);
1965 * NOTE:
1966 * Caller must ensure that old_path starts with entry->dir + '/'.
1967 */
1970 {
1984 }
1988 {
1995 /*
1996 * For
1997 * "a/b/c/d/e/foo.c" -> "a/b/some/thing/else/e/foo.c"
1998 * the "e/foo.c" part is the same, we just want to know that
1999 * "a/b/c/d" was renamed to "a/b/some/thing/else"
2000 * so, for this example, this function returns "a/b/c/d" in
2001 * *old_dir and "a/b/some/thing/else" in *new_dir.
2002 *
2003 * Also, if the basename of the file changed, we don't care. We
2004 * want to know which portion of the directory, if any, changed.
2005 */
2015 /*
2016 * We've found the first non-matching character in the directory
2017 * paths. That means the current directory we were comparing
2018 * represents the rename. Move end_of_old and end_of_new back
2019 * to the full directory name.
2020 */
2022 end_of_old++;
2024 end_of_new++;
2028 /*
2029 * It may have been the case that old_path and new_path were the same
2030 * directory all along. Don't claim a rename if they're the same.
2031 */
2038 }
2039 }
2043 {
2050 }
2052 }
2054 /*
2055 * See if there is a directory rename for path, and if there are any file
2056 * level conflicts for the renamed location. If there is a rename and
2057 * there are no conflicts, return the new name. Otherwise, return NULL.
2058 */
2064 {
2070 /*
2071 * entry has the mapping of old directory name to new directory name
2072 * that we want to apply to path.
2073 */
2077 /* This should only happen when entry->non_unique_new_dir set */
2081 "Unclear where to place %s because directory "
2082 "%s was renamed to multiple other directories, "
2083 "with no destination getting a majority of the "
2088 }
2090 /*
2091 * The caller needs to have ensured that it has pre-populated
2092 * collisions with all paths that map to new_path. Do a quick check
2093 * to ensure that's the case.
2094 */
2099 /*
2100 * Check for one-sided add/add/.../add conflicts, i.e.
2101 * where implicit renames from the other side doing
2102 * directory rename(s) can affect this side of history
2103 * to put multiple paths into the same location. Warn
2104 * and bail on directory renames for such paths.
2105 */
2113 "file/dir at %s in the way of implicit "
2114 "directory rename(s) putting the following "
2123 "more than one path to %s; implicit directory "
2127 }
2129 /* Free memory we no longer need */
2134 }
2137 }
2139 /*
2140 * There are a couple things we want to do at the directory level:
2141 * 1. Check for both sides renaming to the same thing, in order to avoid
2142 * implicit renaming of files that should be left in place. (See
2143 * testcase 6b in t6043 for details.)
2144 * 2. Prune directory renames if there are still files left in the
2145 * the original directory. These represent a partial directory rename,
2146 * i.e. a rename where only some of the files within the directory
2147 * were renamed elsewhere. (Technically, this could be done earlier
2148 * in get_directory_renames(), except that would prevent us from
2149 * doing the previous check and thus failing testcase 6b.)
2150 * 3. Check for rename/rename(1to2) conflicts (at the directory level).
2151 * In the future, we could potentially record this info as well and
2152 * omit reporting rename/rename(1to2) conflicts for each path within
2153 * the affected directories, thus cleaning up the merge output.
2154 * NOTE: We do NOT check for rename/rename(2to1) conflicts at the
2155 * directory level, because merging directories is fine. If it
2156 * causes conflicts for files within those merged directories, then
2157 * that should be detected at the individual path level.
2158 */
2164 {
2179 /* 1. Renamed identically; remove it from both sides */
2187 /* 2. This wasn't a directory rename after all */
2191 }
2192 }
2201 /* 2. This wasn't a directory rename after all */
2207 /* 3. rename/rename(1to2) */
2208 /*
2209 * We can assume it's not rename/rename(1to1) because
2210 * that was case (1), already checked above. So we
2211 * know that head_ent->new_dir and merge_ent->new_dir
2212 * are different strings.
2213 */
2215 "Rename directory %s->%s in %s. "
2225 }
2226 }
2230 }
2234 {
2240 /*
2241 * Typically, we think of a directory rename as all files from a
2242 * certain directory being moved to a target directory. However,
2243 * what if someone first moved two files from the original
2244 * directory in one commit, and then renamed the directory
2245 * somewhere else in a later commit? At merge time, we just know
2246 * that files from the original directory went to two different
2247 * places, and that the bulk of them ended up in the same place.
2248 * We want each directory rename to represent where the bulk of the
2249 * files from that directory end up; this function exists to find
2250 * where the bulk of the files went.
2251 *
2252 * The first loop below simply iterates through the list of file
2253 * renames, finding out how often each directory rename pair
2254 * possibility occurs.
2255 */
2264 /* File not part of directory rename if it wasn't renamed */
2271 /* Directory didn't change at all; ignore this one. */
2281 }
2285 new_dir);
2289 }
2292 }
2294 /*
2295 * For each directory with files moved out of it, we find out which
2296 * target directory received the most files so we can declare it to
2297 * be the "winning" target location for the directory rename. This
2298 * winner gets recorded in new_dir. If there is no winner
2299 * (multiple target directories received the same number of files),
2300 * we set non_unique_new_dir. Once we've determined the winner (or
2301 * that there is no winner), we no longer need possible_new_dirs.
2302 */
2317 }
2318 }
2324 }
2325 /*
2326 * The relevant directory sub-portion of the original full
2327 * filepaths were xstrndup'ed before inserting into
2328 * possible_new_dirs, and instead of manually iterating the
2329 * list and free'ing each, just lie and tell
2330 * possible_new_dirs that it did the strdup'ing so that it
2331 * will free them for us.
2332 */
2335 }
2338 }
2342 {
2352 }
2355 }
2360 {
2363 /*
2364 * Multiple files can be mapped to the same path due to directory
2365 * renames done by the other side of history. Since that other
2366 * side of history could have merged multiple directories into one,
2367 * if our side of history added the same file basename to each of
2368 * those directories, then all N of them would get implicitly
2369 * renamed by the directory rename detection into the same path,
2370 * and we'd get an add/add/.../add conflict, and all those adds
2371 * from *this* side of history. This is not representable in the
2372 * index, and users aren't going to easily be able to make sense of
2373 * it. So we need to provide a good warning about what's
2374 * happening, and fall back to no-directory-rename detection
2375 * behavior for those paths.
2376 *
2377 * See testcases 9e and all of section 5 from t6043 for examples.
2378 */
2390 dir_renames);
2396 /*
2397 * dir_rename_ent->non_unique_new_path is true, which
2398 * means there is no directory rename for us to use,
2399 * which means it won't cause us any additional
2400 * collisions.
2401 */
2412 }
2415 }
2416 }
2425 {
2433 /*
2434 * This next part is a little weird. We do not want to do an
2435 * implicit rename into a directory we renamed on our side, because
2436 * that will result in a spurious rename/rename(1to2) conflict. An
2437 * example:
2438 * Base commit: dumbdir/afile, otherdir/bfile
2439 * Side 1: smrtdir/afile, otherdir/bfile
2440 * Side 2: dumbdir/afile, dumbdir/bfile
2441 * Here, while working on Side 1, we could notice that otherdir was
2442 * renamed/merged to dumbdir, and change the diff_filepair for
2443 * otherdir/bfile into a rename into dumbdir/bfile. However, Side
2444 * 2 will notice the rename from dumbdir to smrtdir, and do the
2445 * transitive rename to move it from dumbdir/bfile to
2446 * smrtdir/bfile. That gives us bfile in dumbdir vs being in
2447 * smrtdir, a rename/rename(1to2) conflict. We really just want
2448 * the file to end up in smrtdir. And the way to achieve that is
2449 * to not let Side1 do the rename to dumbdir, since we know that is
2450 * the source of one of our directory renames.
2451 *
2452 * That's why oentry and dir_rename_exclusions is here.
2453 *
2454 * As it turns out, this also prevents N-way transient rename
2455 * confusion; See testcases 9c and 9d of t6043.
2456 */
2466 }
2469 }
2481 {
2486 /*
2487 * In all cases where we can do directory rename detection,
2488 * unpack_trees() will have read pair->two->path into the
2489 * index and the working copy. We need to remove it so that
2490 * we can instead place it at new_path. It is guaranteed to
2491 * not be untracked (unpack_trees() would have errored out
2492 * saying the file would have been overwritten), but it might
2493 * be dirty, though.
2494 */
2501 /* Find or create a new re->dst_entry */
2504 /*
2505 * Since we're renaming on this side of history, and it's
2506 * due to a directory rename on the other side of history
2507 * (which we only allow when the directory in question no
2508 * longer exists on the other side of history), the
2509 * original entry for re->dst_entry is no longer
2510 * necessary...
2511 */
2514 /*
2515 * ...because we'll be using this new one.
2516 */
2519 /*
2520 * re->dst_entry is for the before-dir-rename path, and we
2521 * need it to hold information for the after-dir-rename
2522 * path. Before creating a new entry, we need to mark the
2523 * old one as unnecessary (...unless it is shared by
2524 * src_entry, i.e. this didn't use to be a rename, in which
2525 * case we can just allow the normal processing to happen
2526 * for it).
2527 */
2533 entries);
2536 }
2538 /*
2539 * Update the stage_data with the information about the path we are
2540 * moving into place. That slot will be empty and available for us
2541 * to write to because of the collision checks in
2542 * handle_path_level_conflicts(). In other words,
2543 * re->dst_entry->stages[stage].oid will be the null_oid, so it's
2544 * open for us to write to.
2545 *
2546 * It may be tempting to actually update the index at this point as
2547 * well, using update_stages_for_stage_data(), but as per the big
2548 * "NOTE" in update_stages(), doing so will modify the current
2549 * in-memory index which will break calls to would_lose_untracked()
2550 * that we need to make. Instead, we need to just make sure that
2551 * the various handle_rename_*() functions update the index
2552 * explicitly rather than relying on unpack_trees() to have done it.
2553 */
2559 /* Update pair status */
2561 /*
2562 * Recording rename information for this add makes it look
2563 * like a rename/delete conflict. Make sure we can
2564 * correctly handle this as an add that was moved to a new
2565 * directory instead of reporting a rename/delete conflict.
2566 */
2568 }
2569 /*
2570 * We don't actually look at pair->status again, but it seems
2571 * pedagogically correct to adjust it.
2572 */
2575 /*
2576 * Finally, record the new location.
2577 */
2579 }
2581 /*
2582 * Get information of all renames which occurred in 'pairs', making use of
2583 * any implicit directory renames inferred from the other side of history.
2584 * We need the three trees in the merge ('o_tree', 'a_tree' and 'b_tree')
2585 * to be able to associate the correct cache entries with the rename
2586 * information; tree is always equal to either a_tree or b_tree.
2587 */
2598 {
2617 }
2619 dir_renames,
2620 dir_rename_exclusions,
2622 clean_merge);
2626 }
2636 else
2643 else
2651 entries,
2652 clean_merge);
2653 }
2659 }
2662 }
2667 {
2677 }
2682 }
2702 }
2704 /* TODO: refactor, so that 1/2 are not needed */
2716 }
2722 /* BUG: We should only mark src_entry as processed if we
2723 * are not dealing with a rename + add-source case.
2724 */
2731 /* One file renamed on both sides */
2744 /* BUG: We should only remove ren1_src in
2745 * the base stage (think of rename +
2746 * add-source cases).
2747 */
2753 }
2757 branch1,
2758 branch2,
2761 o,
2762 NULL,
2763 NULL);
2765 /* Two different files renamed to the same thing */
2774 /*
2775 * BUG: We should only mark src_entry as processed
2776 * if we are not dealing with a rename + add-source
2777 * case.
2778 */
2784 branch1,
2785 branch2,
2788 o,
2793 /* Renamed in 1, maybe changed in 2 */
2794 /* we only use sha1 and mode of these */
2798 /*
2799 * unpack_trees loads entries from common-commit
2800 * into stage 1, from head-commit into stage 2, and
2801 * from merge-commit into stage 3. We keep track
2802 * of which side corresponds to the rename.
2803 */
2807 /* BUG: We should only remove ren1_src in the base
2808 * stage and in other_stage (think of rename +
2809 * add-source case).
2810 */
2826 NULL,
2827 branch1,
2828 branch2,
2830 NULL,
2831 o,
2832 NULL,
2833 NULL);
2837 NULL,
2838 branch1,
2839 branch2,
2841 NULL,
2842 o,
2843 NULL,
2844 NULL);
2847 /*
2848 * Added file on the other side identical to
2849 * the file being renamed: clean merge.
2850 * Also, there is no need to overwrite the
2851 * file already in the working copy, so call
2852 * update_file_flags() instead of
2853 * update_file().
2854 */
2858 ren1_dst,
2890 }
2903 }
2920 }
2924 NULL,
2925 branch1,
2926 NULL,
2928 NULL,
2929 o,
2930 NULL,
2931 NULL);
2932 }
2933 }
2934 }
2935 cleanup_and_return:
2940 }
2945 };
2949 {
2957 /* possible_new_dirs already cleared in get_directory_renames */
2958 }
2964 }
2972 {
2998 }
3014 cleanup:
3015 /*
3016 * Some cleanup is deferred until cleanup_renames() because the
3017 * data structures are still needed and referenced in
3018 * process_entry(). But there are a few things we can free now.
3019 */
3024 }
3027 {
3037 }
3040 }
3043 {
3046 }
3049 {
3051 }
3056 {
3066 }
3069 }
3077 {
3092 /*
3093 * Note: binary | is used so that both renormalizations are
3094 * performed. Comparison can be skipped if both files are
3095 * unchanged since their sha1s have already been compared.
3096 */
3101 error_return:
3105 }
3112 {
3127 }
3135 }
3144 {
3154 }
3168 /* If rename_conflict_info->pair2 != NULL, we are in
3169 * RENAME_ONE_FILE_TO_ONE case. Otherwise, we have a
3170 * normal rename.
3171 */
3182 }
3188 /*
3189 * We can skip updating the working tree file iff:
3190 * a) The merge is clean
3191 * b) The merge matches what was in HEAD (content, mode, pathname)
3192 * c) The target path is usable (i.e. not involved in D/F conflict)
3193 */
3204 /*
3205 * However, add_cacheinfo() will delete the old cache entry
3206 * and add a new one. We need to copy over any skip_worktree
3207 * flag to avoid making the file appear as if it were
3208 * deleted by the user.
3209 */
3216 }
3218 }
3228 }
3248 }
3250 }
3254 path);
3255 }
3260 }
3266 }
3274 {
3275 /* Merge the content and write it out */
3278 ci);
3279 }
3281 /* Per entry merge function */
3284 {
3301 path,
3305 conflict_info);
3336 }
3338 /* Case A: Deleted in one */
3342 /* Deleted in both or deleted in one and
3343 * unchanged in the other */
3346 /* do not touch working file if it did not exist */
3349 /* Modify/delete; deleted side may have put a directory in the way */
3354 }
3357 /* Case B: Added in one. */
3358 /* [nothing|directory] -> ([nothing|directory], file) */
3378 }
3394 /* do not overwrite file if already present */
3397 }
3399 /* Case C: Added in both (check for same permissions) and */
3400 /* case D: Modified in both, but differently. */
3406 NULL);
3408 /*
3409 * this entry was deleted altogether. a_mode == 0 means
3410 * we had that path and want to actively remove it.
3411 */
3417 }
3424 {
3432 }
3437 }
3443 }
3454 }
3460 /*
3461 * Only need the hashmap while processing entries, so
3462 * initialize it here and free it when we are done running
3463 * through the entries. Keeping it in the merge_options as
3464 * opposed to decaring a local hashmap is for convenience
3465 * so that we don't have to pass it to around.
3466 */
3487 }
3488 }
3489 }
3495 }
3497 cleanup:
3508 }
3509 }
3510 else
3519 }
3522 {
3528 }
3530 }
3532 /*
3533 * Merge the commits h1 and h2, return the resulting virtual
3534 * commit object and a flag indicating the cleanness of the merge.
3535 */
3541 {
3551 }
3556 }
3565 }
3569 /* if there is no common ancestor, use an empty tree */
3574 }
3579 /*
3580 * When the merge fails, the result contains files
3581 * with conflict markers. The cleanness flag is
3582 * ignored (unless indicating an error), it was never
3583 * actually used, as result of merge_trees has always
3584 * overwritten it: the committed "conflicts" were
3585 * already resolved.
3586 */
3601 }
3614 }
3620 }
3628 }
3631 {
3635 name,
3646 }
3654 {
3669 }
3670 }
3674 result);
3678 }
3685 }
3688 {
3696 }
3700 }
3702 }
3705 {
3724 }
3727 {
3748 /* clear out previous settings */
3752 }
3770 }
3776 }
3777 else
3780 }