merge_result_end = &entry->next;
}
-static void merge_trees(struct tree_desc t[3], const char *base);
+static void merge_trees_recursive(struct tree_desc t[3], const char *base, int df_conflict);
static const char *explanation(struct merge_list *entry)
{
add_merge_entry(final);
}
-static int unresolved_directory(const struct traverse_info *info, struct name_entry n[3])
+static void unresolved_directory(const struct traverse_info *info, struct name_entry n[3],
+ int df_conflict)
{
char *newbase;
struct name_entry *p;
struct tree_desc t[3];
void *buf0, *buf1, *buf2;
- p = n;
- if (!p->mode) {
- p++;
- if (!p->mode)
- p++;
+ for (p = n; p < n + 3; p++) {
+ if (p->mode && S_ISDIR(p->mode))
+ break;
}
- if (!S_ISDIR(p->mode))
- return 0;
- /*
- * NEEDSWORK: this is broken. The path can originally be a file
- * and then one side may have turned it into a directory, in which
- * case we return and let the three-way merge as if the tree were
- * a regular file. If the path that was originally a tree is
- * now a file in either branch, fill_tree_descriptor() below will
- * die when fed a blob sha1.
- */
+ if (n + 3 <= p)
+ return; /* there is no tree here */
newbase = traverse_path(info, p);
- buf0 = fill_tree_descriptor(t+0, n[0].sha1);
- buf1 = fill_tree_descriptor(t+1, n[1].sha1);
- buf2 = fill_tree_descriptor(t+2, n[2].sha1);
- merge_trees(t, newbase);
+
+#define ENTRY_SHA1(e) (((e)->mode && S_ISDIR((e)->mode)) ? (e)->sha1 : NULL)
+ buf0 = fill_tree_descriptor(t+0, ENTRY_SHA1(n + 0));
+ buf1 = fill_tree_descriptor(t+1, ENTRY_SHA1(n + 1));
+ buf2 = fill_tree_descriptor(t+2, ENTRY_SHA1(n + 2));
+#undef ENTRY_SHA1
+
+ merge_trees_recursive(t, newbase, df_conflict);
free(buf0);
free(buf1);
free(buf2);
free(newbase);
- return 1;
}
static void unresolved(const struct traverse_info *info, struct name_entry n[3])
{
struct merge_list *entry = NULL;
+ int i;
+ unsigned dirmask = 0, mask = 0;
+
+ for (i = 0; i < 3; i++) {
+ mask |= (1 << 1);
+ if (n[i].mode && S_ISDIR(n[i].mode))
+ dirmask |= (1 << i);
+ }
+
+ unresolved_directory(info, n, dirmask && (dirmask != mask));
- if (unresolved_directory(info, n))
+ if (dirmask == mask)
return;
- /*
- * Do them in reverse order so that the resulting link
- * list has the stages in order - link_entry adds new
- * links at the front.
- */
- entry = link_entry(3, info, n + 2, entry);
- entry = link_entry(2, info, n + 1, entry);
- entry = link_entry(1, info, n + 0, entry);
+ if (n[2].mode && !S_ISDIR(n[2].mode))
+ entry = link_entry(3, info, n + 2, entry);
+ if (n[1].mode && !S_ISDIR(n[1].mode))
+ entry = link_entry(2, info, n + 1, entry);
+ if (n[0].mode && !S_ISDIR(n[0].mode))
+ entry = link_entry(1, info, n + 0, entry);
add_merge_entry(entry);
}
return mask;
}
-static void merge_trees(struct tree_desc t[3], const char *base)
+static void merge_trees_recursive(struct tree_desc t[3], const char *base, int df_conflict)
{
struct traverse_info info;
setup_traverse_info(&info, base);
+ info.data = &df_conflict;
info.fn = threeway_callback;
traverse_trees(3, t, &info);
}
+static void merge_trees(struct tree_desc t[3], const char *base)
+{
+ merge_trees_recursive(t, base, 0);
+}
+
static void *get_tree_descriptor(struct tree_desc *desc, const char *rev)
{
unsigned char sha1[20];