l = (struct leaf_node *)
xcalloc(1, sizeof(struct leaf_node));
hashcpy(l->key_sha1, object_sha1);
- hashcpy(l->val_sha1, entry.sha1);
+ hashcpy(l->val_sha1, entry.oid->hash);
if (len < 20) {
if (!S_ISDIR(entry.mode) || path_len != 2)
goto handle_non_note; /* not subtree */
}
strbuf_addstr(&non_note_path, entry.path);
add_non_note(t, strbuf_detach(&non_note_path, NULL),
- entry.mode, entry.sha1);
+ entry.mode, entry.oid->hash);
}
}
free(buf);
t->first_non_note = NULL;
t->prev_non_note = NULL;
t->ref = xstrdup_or_null(notes_ref);
+ t->update_ref = (flags & NOTES_INIT_WRITABLE) ? t->ref : NULL;
t->combine_notes = combine_notes;
t->initialized = 1;
t->dirty = 0;
if (flags & NOTES_INIT_EMPTY || !notes_ref ||
- read_ref(notes_ref, object_sha1))
+ get_sha1_treeish(notes_ref, object_sha1))
return;
+ if (flags & NOTES_INIT_WRITABLE && read_ref(notes_ref, object_sha1))
+ die("Cannot use notes ref %s", notes_ref);
if (get_tree_entry(object_sha1, "", sha1, &mode))
die("Failed to read notes tree referenced by %s (%s)",
notes_ref, sha1_to_hex(object_sha1));
load_subtree(t, &root_tree, t->root, 0);
}
-struct notes_tree **load_notes_trees(struct string_list *refs)
+struct notes_tree **load_notes_trees(struct string_list *refs, int flags)
{
struct string_list_item *item;
int counter = 0;
ALLOC_ARRAY(trees, refs->nr + 1);
for_each_string_list_item(item, refs) {
struct notes_tree *t = xcalloc(1, sizeof(struct notes_tree));
- init_notes(t, item->string, combine_notes_ignore, 0);
+ init_notes(t, item->string, combine_notes_ignore, flags);
trees[counter++] = t;
}
trees[counter] = NULL;
item->string);
}
- display_notes_trees = load_notes_trees(&display_notes_refs);
+ display_notes_trees = load_notes_trees(&display_notes_refs, 0);
string_list_clear(&display_notes_refs, 0);
}
else
strbuf_insert(sb, 0, "refs/notes/", 11);
}
+
+void expand_loose_notes_ref(struct strbuf *sb)
+{
+ unsigned char object[20];
+
+ if (get_sha1(sb->buf, object)) {
+ /* fallback to expand_notes_ref */
+ expand_notes_ref(sb);
+ }
+}