ACCOUNT_MUTE_SUCCESS,
ACCOUNT_UNFOLLOW_SUCCESS,
} from '../actions/accounts';
-import { Map as ImmutableMap, List as ImmutableList, fromJS } from 'immutable';
+import { Map as ImmutableMap, List as ImmutableList, OrderedSet as ImmutableOrderedSet, fromJS } from 'immutable';
import compareId from '../compare_id';
const initialState = ImmutableMap();
});
const expandNormalizedTimeline = (state, timeline, statuses, next, isPartial, isLoadingRecent, usePendingItems) => {
+ // This method is pretty tricky because:
+ // - existing items in the timeline might be out of order
+ // - the existing timeline may have gaps, most often explicitly noted with a `null` item
+ // - ideally, we don't want it to reorder existing items of the timeline
+ // - `statuses` may include items that are already included in the timeline
+ // - this function can be called either to fill in a gap, or load newer items
+
return state.update(timeline, initialTimeline, map => map.withMutations(mMap => {
mMap.set('isLoading', false);
mMap.set('isPartial', isPartial);
mMap.update(usePendingItems ? 'pendingItems' : 'items', ImmutableList(), oldIds => {
const newIds = statuses.map(status => status.get('id'));
+ // Now this gets tricky, as we don't necessarily know for sure where the gap to fill is
+ // and some items in the timeline may not be properly ordered.
+
+ // However, we know that `newIds.last()` is the oldest item that was requested and that
+ // there is no “hole” between `newIds.last()` and `newIds.first()`.
+
+ // First, find the furthest (if properly sorted, oldest) item in the timeline that is
+ // newer than the oldest fetched one, as it's most likely that it delimits the gap.
+ // Start the gap *after* that item.
const lastIndex = oldIds.findLastIndex(id => id !== null && compareId(id, newIds.last()) >= 0) + 1;
- const firstIndex = oldIds.take(lastIndex).findLastIndex(id => id !== null && compareId(id, newIds.first()) > 0);
- if (firstIndex < 0) {
- return (isPartial ? newIds.unshift(null) : newIds).concat(oldIds.skip(lastIndex));
+ // Then, try to find the furthest (if properly sorted, oldest) item in the timeline that
+ // is newer than the most recent fetched one, as it delimits a section comprised of only
+ // items present in `newIds` (or that were deleted from the server, so should be removed
+ // anyway).
+ // Stop the gap *after* that item.
+ const firstIndex = oldIds.take(lastIndex).findLastIndex(id => id !== null && compareId(id, newIds.first()) > 0) + 1;
+
+ // Make sure we aren't inserting duplicates
+ let insertedIds = ImmutableOrderedSet(newIds).subtract(oldIds.take(firstIndex), oldIds.skip(lastIndex)).toList();
+ // Finally, insert a gap marker if the data is marked as partial by the server
+ if (isPartial && (firstIndex === 0 || oldIds.get(firstIndex - 1) !== null)) {
+ insertedIds = insertedIds.unshift(null);
}
- return oldIds.take(firstIndex + 1).concat(
- isPartial && oldIds.get(firstIndex) !== null ? newIds.unshift(null) : newIds,
+ return oldIds.take(firstIndex).concat(
+ insertedIds,
oldIds.skip(lastIndex),
);
});
cat aescling's git repositories / mastodon.git / commitdiff