| blob | 91edce58e15b82428fcc5f3b006e23bf5380d38c |
17 {
23 }
25 static struct combine_diff_path *intersect_paths(struct combine_diff_path *curr, int n, int num_parent)
26 {
54 }
56 }
58 /*
59 * paths in curr (linked list) and q->queue[] (array) are
60 * both sorted in the tree order.
61 */
68 /* p->path not in q->queue[]; drop it */
72 }
75 /* q->queue[i] not in p->path; skip it */
76 i++;
78 }
85 i++;
86 }
88 }
90 /* Lines lost from parent */
96 };
98 /* Lines lost from current parent (before coalescing) */
102 };
104 /* Lines surviving in the merge result */
106 /* Accumulated and coalesced lost lines */
112 /* bit 0 up to (N-1) are on if the parent has this line (i.e.
113 * we did not change it).
114 * bit N is used for "interesting" lines, including context.
115 * bit (N+1) is used for "do not show deletion before this".
116 */
119 };
124 {
128 }
134 len1--;
135 len2--;
143 }
146 }
149 /* Consume remaining spaces */
152 }
154 /* We matched full line1 and line2 */
159 }
163 /* Coalesce new lines into base by finding LCS */
167 {
179 }
181 /*
182 * Coalesce new lines into base by finding the LCS
183 * - Create the table to run dynamic programming
184 * - Compute the LCS
185 * - Then reverse read the direction structure:
186 * - If we have MATCH, assign parent to base flag, and consume
187 * both baseend and newend
188 * - Else if we have BASE, consume baseend
189 * - Else if we have NEW, insert newend lline into base and
190 * consume newend
191 */
198 }
214 }
217 }
220 }
226 /* At this point, baseend and newend point to the end of each lists */
227 i--;
228 j--;
234 i--;
235 j--;
240 /* Remove lline from new list and update newend */
243 else
249 j--;
251 /* Add lline to base list */
257 }
261 }
269 i--;
270 }
271 }
278 }
285 }
290 {
299 /* deleted blob */
311 }
313 }
316 {
320 len--;
328 else
335 }
345 };
348 {
357 /* @@ -X,Y +N,0 @@ removed Y lines
358 * that would have come *after* line N
359 * in the result. Our lost buckets hang
360 * to the line after the removed lines,
361 *
362 * Note that this is correct even when N == 0,
363 * in which case the hunk removes the first
364 * line in the file.
365 */
371 }
378 }
389 }
390 }
398 {
401 xpparam_t xpp;
402 xdemitconf_t xecfg;
403 mmfile_t parent_file;
426 /* Assign line numbers for this parent.
427 *
428 * sline[lno].p_lno[n] records the first line number
429 * (counting from 1) for parent N if the final hunk display
430 * started by showing sline[lno] (possibly showing the lost
431 * lines attached to it first).
432 */
437 /* Coalesce new lines */
445 }
447 /* How many lines would this sline advance the p_lno? */
453 }
456 }
458 }
464 {
465 /* If some parents lost lines here, or if we have added to
466 * some parent, it is interesting.
467 */
469 }
475 {
476 /* i points at the first uninteresting line. If the last line
477 * of the hunk was interesting only because it has some
478 * deletion, then it is not all that interesting for the
479 * purpose of giving trailing context lines. This is because
480 * we output '-' line and then unmodified sline[i-1] itself in
481 * that case which gives us one extra context line.
482 */
484 i--;
486 }
493 {
494 /* We have examined up to i-1 and are about to look at i.
495 * Find next interesting or uninteresting line. Here,
496 * "interesting" does not mean interesting(), but marked by
497 * the give_context() function below (i.e. it includes context
498 * lines that are not interesting to interesting() function
499 * that are surrounded by interesting() ones.
500 */
506 else
507 i++;
509 }
512 {
518 /* Two groups of interesting lines may have a short gap of
519 * uninteresting lines. Connect such groups to give them a
520 * bit of context.
521 *
522 * We first start from what the interesting() function says,
523 * and mark them with "mark", and paint context lines with the
524 * mark. So interesting() would still say false for such context
525 * lines but they are treated as "interesting" in the end.
526 */
535 /* Paint a few lines before the first interesting line. */
540 }
542 again:
543 /* we know up to i is to be included. where does the
544 * next uninteresting one start?
545 */
550 /* lookahead context lines */
555 /* k is interesting and [j,k) are not, but
556 * paint them interesting because the gap is small.
557 */
562 }
564 /* j is the first uninteresting line and there is
565 * no overlap beyond it within context lines. Paint
566 * the trailing edge a bit.
567 */
572 }
574 }
578 {
587 else
589 }
593 /* Look at each hunk, and if we have changes from only one
594 * parent, or the changes are the same from all but one
595 * parent, mark that uninteresting.
596 */
602 i++;
608 /* Look beyond the end to see if there
609 * is an interesting line after this
610 * hunk within context span.
611 */
622 }
623 }
627 }
628 }
631 /* [i..hunk_end) are interesting. Now is it really
632 * interesting? We check if there are only two versions
633 * and the result matches one of them. That is, we look
634 * at:
635 * (+) line, which records lines added to which parents;
636 * this line appears in the result.
637 * (-) line, which records from what parents the line
638 * was removed; this line does not appear in the result.
639 * then check the set of parents the result has difference
640 * from, from all lines. If there are lines that has
641 * different set of parents that the result has differences
642 * from, that means we have more than two versions.
643 *
644 * Even when we have only two versions, if the result does
645 * not match any of the parents, the it should be considered
646 * interesting. In such a case, we would have all '+' line.
647 * After passing the above "two versions" test, that would
648 * appear as "the same set of parents" to be "all parents".
649 */
656 /* This has some changes. Is it the
657 * same as others?
658 */
664 }
665 }
667 /* Lost this line from these parents;
668 * who are they? Are they the same?
669 */
675 }
677 }
678 }
681 /* This hunk is not that interesting after all */
684 }
686 }
690 }
692 static void show_parent_lno(struct sline *sline, unsigned long l0, unsigned long l1, int n, unsigned long null_context)
693 {
697 }
700 {
707 }
710 {
717 reset,
719 }
724 {
748 lno++;
749 }
756 }
762 /*
763 * Even when running with --unified=0, all
764 * lines in the hunk needs to be processed in
765 * the loop below in order to show the
766 * deletion recorded in lost_head. However,
767 * we do not want to show the resulting line
768 * with all blank context markers in such a
769 * case. Compensate.
770 */
774 null_context++;
776 }
793 }
797 c_func);
800 }
814 else
816 }
819 }
825 /*
826 * This sline was here to hang the
827 * lost lines in front of it.
828 */
832 }
833 else
838 else
841 }
843 }
844 }
845 }
849 {
850 /* We have already examined parent j and we know parent i
851 * and parent j are the same, so reuse the combined result
852 * of parent j for parent i.
853 */
865 }
868 sline++;
869 }
870 /* the overall size of the file (sline[cnt]) */
872 }
879 {
889 }
898 {
918 abbrev);
920 }
927 /* We say it was added if nobody had it */
931 DIFF_STATUS_ADDED)
944 }
947 }
949 }
957 else
963 else
966 }
971 {
979 mmfile_t result_file;
992 /* Read the result of merge first */
997 /* Used by diff-tree to read from the working tree */
1011 }
1020 else
1030 ssize_t done;
1034 /* if symlinks don't work, assume symlink if all parents
1035 * are symlinks
1036 */
1054 /* If not a fake symlink, apply filters, e.g. autocrlf */
1062 }
1063 }
1064 }
1066 deleted_file:
1071 }
1075 }
1081 }
1082 }
1099 }
1100 }
1107 }
1111 cnt++;
1112 }
1121 lno++;
1124 }
1125 }
1132 /* Even p_lno[cnt+1] is valid -- that is for the end line number
1133 * for deletion hunk at the end.
1134 */
1146 }
1147 }
1154 }
1163 }
1173 }
1174 }
1175 }
1178 }
1181 {
1198 /* As many colons as there are parents */
1202 /* Show the modes */
1207 /* Show sha1's */
1212 }
1218 }
1221 }
1223 /*
1224 * The result (p->elem) is from the working tree and their
1225 * parents are typically from multiple stages during a merge
1226 * (i.e. diff-files) or the state in HEAD and in the index
1227 * (i.e. diff-index).
1228 */
1233 {
1237 DIFF_FORMAT_NAME |
1238 DIFF_FORMAT_NAME_STATUS))
1242 }
1245 {
1248 }
1250 /*
1251 * A combine_diff_path expresses N parents on the LHS against 1 merge
1252 * result. Synthesize a diff_filepair that has N entries on the "one"
1253 * side and 1 entry on the "two" side.
1254 *
1255 * In the future, we might want to add more data to combine_diff_path
1256 * so that we can fill fields we are ignoring (most notably, size) here,
1257 * but currently nobody uses it, so this should suffice for now.
1258 */
1261 {
1277 }
1285 }
1291 {
1305 }
1308 {
1312 }
1315 /* find set of paths that every parent touches */
1318 {
1326 /* tell diff_tree to emit paths in sorted (=tree) order */
1329 /* D(A,P1...Pn) = D(A,P1) ^ ... ^ D(A,Pn) (wrt paths) */
1331 /*
1332 * show stat against the first parent even when doing
1333 * combined diff.
1334 */
1339 else
1345 /* if showing diff, show it in requested order */
1347 orderfile) {
1349 }
1352 }
1357 }
1360 /*
1361 * find set of paths that everybody touches, assuming diff is run without
1362 * rename/copy detection, etc, comparing all trees simultaneously (= faster).
1363 */
1367 {
1377 /* fake list head, so worker can assume it is non-NULL */
1386 }
1393 {
1400 /* nothing to do, if no parents */
1414 }
1421 /* find set of paths that everybody touches
1422 *
1423 * NOTE
1424 *
1425 * Diffcore transformations are bound to diff_filespec and logic
1426 * comparing two entries - i.e. they do not apply directly to combine
1427 * diff.
1428 *
1429 * If some of such transformations is requested - we launch generic
1430 * path scanning, which works significantly slower compared to
1431 * simultaneous all-trees-in-one-go scan in find_paths_multitree().
1432 *
1433 * TODO some of the filters could be ported to work on
1434 * combine_diff_paths - i.e. all functionality that skips paths, so in
1435 * theory, we could end up having only multitree path scanning.
1436 *
1437 * NOTE please keep this semantically in sync with diffcore_std()
1438 */
1448 /*
1449 * NOTE generic case also handles --stat, as it computes
1450 * diff(sha1,parent_i) for all i to do the job, specifically
1451 * for parent0.
1452 */
1454 }
1459 /*
1460 * show stat against the first parent even
1461 * when doing combined diff.
1462 */
1473 }
1474 }
1476 /* find out number of surviving paths */
1478 num_paths++;
1480 /* order paths according to diffcore_order */
1491 }
1497 }
1502 DIFF_FORMAT_NAME |
1503 DIFF_FORMAT_NAME_STATUS)) {
1507 }
1521 }
1522 }
1524 /* Clean things up */
1529 }
1532 }
1536 {
1543 }
1546 }