import { Map as ImmutableMap, List as ImmutableList, OrderedSet as ImmutableOrderedSet, fromJS } from 'immutable'; import { timelineDelete } from 'mastodon/actions/timelines_typed'; import { blockAccountSuccess, muteAccountSuccess, unfollowAccountSuccess } from '../actions/accounts'; import { TIMELINE_UPDATE, TIMELINE_CLEAR, TIMELINE_EXPAND_SUCCESS, TIMELINE_EXPAND_REQUEST, TIMELINE_EXPAND_FAIL, TIMELINE_SCROLL_TOP, TIMELINE_CONNECT, TIMELINE_LOAD_PENDING, TIMELINE_MARK_AS_PARTIAL, TIMELINE_INSERT, TIMELINE_GAP, TIMELINE_SUGGESTIONS, disconnectTimeline, } from '../actions/timelines'; import { compareId } from '../compare_id'; const initialState = ImmutableMap(); const initialTimeline = ImmutableMap({ unread: 0, online: false, top: true, isLoading: false, hasMore: true, pendingItems: ImmutableList(), items: ImmutableList(), }); const isPlaceholder = value => value === TIMELINE_GAP || value === TIMELINE_SUGGESTIONS; 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); if (!next && !isLoadingRecent) mMap.set('hasMore', false); if (timeline.endsWith(':pinned')) { mMap.set('items', statuses.map(status => status.get('id'))); } else if (!statuses.isEmpty()) { usePendingItems = isLoadingRecent && (usePendingItems || !mMap.get('pendingItems').isEmpty()); 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 => !isPlaceholder(id) && compareId(id, newIds.last()) >= 0) + 1; // 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 older or within `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 => !isPlaceholder(id) && compareId(id, newIds.first()) > 0) + 1; let insertedIds = ImmutableOrderedSet(newIds).withMutations(insertedIds => { // It is possible, though unlikely, that the slice we are replacing contains items older // than the elements we got from the API. Get them and add them back at the back of the // slice. const olderIds = oldIds.slice(firstIndex, lastIndex).filter(id => !isPlaceholder(id) && compareId(id, newIds.last()) < 0); insertedIds.union(olderIds); // Make sure we aren't inserting duplicates insertedIds.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) !== TIMELINE_GAP)) { insertedIds = insertedIds.unshift(TIMELINE_GAP); } return oldIds.take(firstIndex).concat( insertedIds, oldIds.skip(lastIndex), ); }); } })); }; const updateTimeline = (state, timeline, status, usePendingItems) => { const top = state.getIn([timeline, 'top']); if (usePendingItems || !state.getIn([timeline, 'pendingItems']).isEmpty()) { if (state.getIn([timeline, 'pendingItems'], ImmutableList()).includes(status.get('id')) || state.getIn([timeline, 'items'], ImmutableList()).includes(status.get('id'))) { return state; } return state.update(timeline, initialTimeline, map => map.update('pendingItems', list => list.unshift(status.get('id'))).update('unread', unread => unread + 1)); } const ids = state.getIn([timeline, 'items'], ImmutableList()); const includesId = ids.includes(status.get('id')); const unread = state.getIn([timeline, 'unread'], 0); if (includesId) { return state; } let newIds = ids; return state.update(timeline, initialTimeline, map => map.withMutations(mMap => { if (!top) mMap.set('unread', unread + 1); if (top && ids.size > 40) newIds = newIds.take(20); mMap.set('items', newIds.unshift(status.get('id'))); })); }; const deleteStatus = (state, id, references, exclude_account = null) => { state.keySeq().forEach(timeline => { if (exclude_account === null || (timeline !== `account:${exclude_account}` && !timeline.startsWith(`account:${exclude_account}:`))) { const helper = list => list.filterNot(item => item === id); state = state.updateIn([timeline, 'items'], helper).updateIn([timeline, 'pendingItems'], helper); } }); // Remove reblogs of deleted status references.forEach(ref => { state = deleteStatus(state, ref, [], exclude_account); }); return state; }; const clearTimeline = (state, timeline) => { return state.set(timeline, initialTimeline); }; const filterTimelines = (state, relationship, statuses) => { let references; statuses.forEach(status => { if (status.get('account') !== relationship.id) { return; } references = statuses.filter(item => item.get('reblog') === status.get('id')).map(item => item.get('id')); state = deleteStatus(state, status.get('id'), references, relationship.id); }); return state; }; const filterTimeline = (timeline, state, relationship, statuses) => { const helper = list => list.filterNot(statusId => statuses.getIn([statusId, 'account']) === relationship.id); return state.updateIn([timeline, 'items'], ImmutableList(), helper).updateIn([timeline, 'pendingItems'], ImmutableList(), helper); }; const updateTop = (state, timeline, top) => { return state.update(timeline, initialTimeline, map => map.withMutations(mMap => { if (top) mMap.set('unread', mMap.get('pendingItems').size); mMap.set('top', top); })); }; const reconnectTimeline = (state, usePendingItems) => { if (state.get('online')) { return state; } return state.withMutations(mMap => { mMap.update(usePendingItems ? 'pendingItems' : 'items', items => items.first() ? items.unshift(TIMELINE_GAP) : items); mMap.set('online', true); }); }; export default function timelines(state = initialState, action) { switch(action.type) { case TIMELINE_LOAD_PENDING: return state.update(action.timeline, initialTimeline, map => map.update('items', list => map.get('pendingItems').concat(list.take(40))).set('pendingItems', ImmutableList()).set('unread', 0)); case TIMELINE_EXPAND_REQUEST: return state.update(action.timeline, initialTimeline, map => map.set('isLoading', true)); case TIMELINE_EXPAND_FAIL: return state.update(action.timeline, initialTimeline, map => map.set('isLoading', false)); case TIMELINE_EXPAND_SUCCESS: return expandNormalizedTimeline(state, action.timeline, fromJS(action.statuses), action.next, action.partial, action.isLoadingRecent, action.usePendingItems); case TIMELINE_UPDATE: return updateTimeline(state, action.timeline, fromJS(action.status), action.usePendingItems); case timelineDelete.type: return deleteStatus(state, action.payload.statusId, action.payload.references, action.payload.reblogOf); case TIMELINE_CLEAR: return clearTimeline(state, action.timeline); case blockAccountSuccess.type: case muteAccountSuccess.type: return filterTimelines(state, action.payload.relationship, action.payload.statuses); case unfollowAccountSuccess.type: return filterTimeline('home', state, action.payload.relationship, action.payload.statuses); case TIMELINE_SCROLL_TOP: return updateTop(state, action.timeline, action.top); case TIMELINE_CONNECT: return state.update(action.timeline, initialTimeline, map => reconnectTimeline(map, action.usePendingItems)); case disconnectTimeline.type: return state.update( action.payload.timeline, initialTimeline, map => map.set('online', false).update(action.payload.usePendingItems ? 'pendingItems' : 'items', items => items.first() ? items.unshift(TIMELINE_GAP) : items), ); case TIMELINE_MARK_AS_PARTIAL: return state.update( action.timeline, initialTimeline, map => map.set('isPartial', true).set('items', ImmutableList()).set('pendingItems', ImmutableList()).set('unread', 0), ); case TIMELINE_INSERT: return state.update( action.timeline, initialTimeline, map => map.update('items', ImmutableList(), list => { if (!list.includes(action.key)) { return list.insert(action.index, action.key); } return list; }) ); default: return state; } }