NetNewsWire/iOS/NavigationStateController.swift

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//
// NavigationModelController.swift
// NetNewsWire-iOS
//
// Created by Maurice Parker on 4/21/19.
// Copyright © 2019 Ranchero Software. All rights reserved.
//
import Foundation
import Account
import Articles
import RSCore
import RSTree
public extension Notification.Name {
static let MasterSelectionDidChange = Notification.Name(rawValue: "MasterSelectionDidChange")
static let BackingStoresDidRebuild = Notification.Name(rawValue: "BackingStoresDidRebuild")
static let ArticlesReinitialized = Notification.Name(rawValue: "ArticlesReinitialized")
static let ArticleDataDidChange = Notification.Name(rawValue: "ArticleDataDidChange")
static let ArticlesDidChange = Notification.Name(rawValue: "ArticlesDidChange")
static let ArticleSelectionDidChange = Notification.Name(rawValue: "ArticleSelectionDidChange")
}
class NavigationStateController {
static let fetchAndMergeArticlesQueue = CoalescingQueue(name: "Fetch and Merge Articles", interval: 0.5)
private var articleRowMap = [String: Int]() // articleID: rowIndex
private var animatingChanges = false
private var expandedNodes = [Node]()
private var shadowTable = [[Node]]()
private var sortDirection = AppDefaults.timelineSortDirection {
didSet {
if sortDirection != oldValue {
sortDirectionDidChange()
}
}
}
private let treeControllerDelegate = FeedTreeControllerDelegate()
lazy var treeController: TreeController = {
return TreeController(delegate: treeControllerDelegate)
}()
var rootNode: Node {
return treeController.rootNode
}
var numberOfSections: Int {
return shadowTable.count
}
var currentMasterIndexPath: IndexPath? {
didSet {
guard let ip = currentMasterIndexPath, let node = nodeFor(ip) else {
assertionFailure()
return
}
if let fetcher = node.representedObject as? ArticleFetcher {
timelineFetcher = fetcher
}
NotificationCenter.default.post(name: .MasterSelectionDidChange, object: self, userInfo: nil)
}
}
var timelineName: String? {
return (timelineFetcher as? DisplayNameProvider)?.nameForDisplay
}
var timelineFetcher: ArticleFetcher? {
didSet {
currentArticleIndexPath = nil
if timelineFetcher is Feed {
showFeedNames = false
} else {
showFeedNames = true
}
fetchArticles()
NotificationCenter.default.post(name: .ArticlesReinitialized, object: self, userInfo: nil)
}
}
var showFeedNames = false
var showAvatars = false
var isPrevArticleAvailable: Bool {
guard let indexPath = currentArticleIndexPath else {
return false
}
return indexPath.row > 0
}
var isNextArticleAvailable: Bool {
guard let indexPath = currentArticleIndexPath else {
return false
}
return indexPath.row + 1 < articles.count
}
var prevArticleIndexPath: IndexPath? {
guard let indexPath = currentArticleIndexPath else {
return nil
}
return IndexPath(row: indexPath.row - 1, section: indexPath.section)
}
var nextArticleIndexPath: IndexPath? {
guard let indexPath = currentArticleIndexPath else {
return nil
}
return IndexPath(row: indexPath.row + 1, section: indexPath.section)
}
var firstUnreadArticleIndexPath: IndexPath? {
for (row, article) in articles.enumerated() {
if !article.status.read {
return IndexPath(row: row, section: 0)
}
}
return nil
}
var currentArticle: Article? {
if let indexPath = currentArticleIndexPath {
return articles[indexPath.row]
}
return nil
}
var currentArticleIndexPath: IndexPath? {
didSet {
if currentArticleIndexPath != oldValue {
NotificationCenter.default.post(name: .ArticleSelectionDidChange, object: self, userInfo: nil)
}
}
}
var articles = ArticleArray() {
didSet {
if articles == oldValue {
return
}
if articles.representSameArticlesInSameOrder(as: oldValue) {
articleRowMap = [String: Int]()
NotificationCenter.default.post(name: .ArticleDataDidChange, object: self, userInfo: nil)
return
}
updateShowAvatars()
articleRowMap = [String: Int]()
NotificationCenter.default.post(name: .ArticlesDidChange, object: self, userInfo: nil)
}
}
var isTimelineUnreadAvailable: Bool {
if let unreadProvider = timelineFetcher as? UnreadCountProvider {
return unreadProvider.unreadCount > 0
}
return false
}
var isAnyUnreadAvailable: Bool {
return appDelegate.unreadCount > 0
}
init() {
for section in treeController.rootNode.childNodes {
expandedNodes.append(section)
shadowTable.append([Node]())
}
rebuildShadowTable()
NotificationCenter.default.addObserver(self, selector: #selector(containerChildrenDidChange(_:)), name: .ChildrenDidChange, object: nil)
NotificationCenter.default.addObserver(self, selector: #selector(batchUpdateDidPerform(_:)), name: .BatchUpdateDidPerform, object: nil)
NotificationCenter.default.addObserver(self, selector: #selector(displayNameDidChange(_:)), name: .DisplayNameDidChange, object: nil)
NotificationCenter.default.addObserver(self, selector: #selector(accountStateDidChange(_:)), name: .AccountStateDidChange, object: nil)
NotificationCenter.default.addObserver(self, selector: #selector(userDefaultsDidChange(_:)), name: UserDefaults.didChangeNotification, object: nil)
NotificationCenter.default.addObserver(self, selector: #selector(accountDidDownloadArticles(_:)), name: .AccountDidDownloadArticles, object: nil)
}
// MARK: Notifications
@objc func containerChildrenDidChange(_ note: Notification) {
rebuildBackingStores()
}
@objc func batchUpdateDidPerform(_ notification: Notification) {
rebuildBackingStores()
}
@objc func displayNameDidChange(_ note: Notification) {
rebuildBackingStores()
}
@objc func accountStateDidChange(_ note: Notification) {
rebuildBackingStores()
}
@objc func userDefaultsDidChange(_ note: Notification) {
self.sortDirection = AppDefaults.timelineSortDirection
}
@objc func accountDidDownloadArticles(_ note: Notification) {
guard let feeds = note.userInfo?[Account.UserInfoKey.feeds] as? Set<Feed> else {
return
}
let shouldFetchAndMergeArticles = timelineFetcherContainsAnyFeed(feeds) || timelineFetcherContainsAnyPseudoFeed()
if shouldFetchAndMergeArticles {
queueFetchAndMergeArticles()
}
}
// MARK: API
func beginUpdates() {
animatingChanges = true
}
func endUpdates() {
animatingChanges = false
}
func rowsInSection(_ section: Int) -> Int {
return shadowTable[section].count
}
func rebuildShadowTable() {
shadowTable = [[Node]]()
for i in 0..<treeController.rootNode.numberOfChildNodes {
var result = [Node]()
if let nodes = treeController.rootNode.childAtIndex(i)?.childNodes {
for node in nodes {
result.append(node)
if expandedNodes.contains(node) {
for child in node.childNodes {
result.append(child)
}
}
}
}
shadowTable.append(result)
}
}
func isExpanded(_ node: Node) -> Bool {
return expandedNodes.contains(node)
}
func nodeFor(_ indexPath: IndexPath) -> Node? {
guard indexPath.section < shadowTable.count || indexPath.row < shadowTable[indexPath.section].count else {
return nil
}
return shadowTable[indexPath.section][indexPath.row]
}
func indexPathFor(_ node: Node) -> IndexPath? {
for i in 0..<shadowTable.count {
if let row = shadowTable[i].firstIndex(of: node) {
return IndexPath(row: row, section: i)
}
}
return nil
}
func expand(section: Int, completion: ([IndexPath]) -> ()) {
guard let expandNode = treeController.rootNode.childAtIndex(section) else {
return
}
expandedNodes.append(expandNode)
animatingChanges = true
var indexPathsToInsert = [IndexPath]()
var i = 0
func addNode(_ node: Node) {
indexPathsToInsert.append(IndexPath(row: i, section: section))
shadowTable[section].insert(node, at: i)
i = i + 1
}
for child in expandNode.childNodes {
addNode(child)
if expandedNodes.contains(child) {
for gChild in child.childNodes {
addNode(gChild)
}
}
}
completion(indexPathsToInsert)
animatingChanges = false
}
func expand(_ indexPath: IndexPath, completion: ([IndexPath]) -> ()) {
let expandNode = shadowTable[indexPath.section][indexPath.row]
expandedNodes.append(expandNode)
animatingChanges = true
var indexPathsToInsert = [IndexPath]()
for i in 0..<expandNode.childNodes.count {
if let child = expandNode.childAtIndex(i) {
let nextIndex = indexPath.row + i + 1
indexPathsToInsert.append(IndexPath(row: nextIndex, section: indexPath.section))
shadowTable[indexPath.section].insert(child, at: nextIndex)
}
}
completion(indexPathsToInsert)
animatingChanges = false
}
func collapse(section: Int, completion: ([IndexPath]) -> ()) {
animatingChanges = true
guard let collapseNode = treeController.rootNode.childAtIndex(section) else {
return
}
if let removeNode = expandedNodes.firstIndex(of: collapseNode) {
expandedNodes.remove(at: removeNode)
}
var indexPathsToRemove = [IndexPath]()
for i in 0..<shadowTable[section].count {
indexPathsToRemove.append(IndexPath(row: i, section: section))
}
shadowTable[section] = [Node]()
completion(indexPathsToRemove)
animatingChanges = false
}
func collapse(_ indexPath: IndexPath, completion: ([IndexPath]) -> ()) {
animatingChanges = true
let collapseNode = shadowTable[indexPath.section][indexPath.row]
if let removeNode = expandedNodes.firstIndex(of: collapseNode) {
expandedNodes.remove(at: removeNode)
}
var indexPathsToRemove = [IndexPath]()
for child in collapseNode.childNodes {
if let index = shadowTable[indexPath.section].firstIndex(of: child) {
indexPathsToRemove.append(IndexPath(row: index, section: indexPath.section))
}
}
for child in collapseNode.childNodes {
if let index = shadowTable[indexPath.section].firstIndex(of: child) {
shadowTable[indexPath.section].remove(at: index)
}
}
completion(indexPathsToRemove)
animatingChanges = false
}
func indexesForArticleIDs(_ articleIDs: Set<String>) -> IndexSet {
var indexes = IndexSet()
articleIDs.forEach { (articleID) in
guard let oneIndex = row(for: articleID) else {
return
}
if oneIndex != NSNotFound {
indexes.insert(oneIndex)
}
}
return indexes
}
func selectNextUnread() {
// This should never happen, but I don't want to risk throwing us
// into an infinate loop searching for an unread that isn't there.
if appDelegate.unreadCount < 1 {
return
}
if selectNextUnreadArticleInTimeline() {
return
}
selectNextUnreadFeedFetcher()
selectNextUnreadArticleInTimeline()
}
}
private extension NavigationStateController {
func rebuildBackingStores() {
if !animatingChanges && !BatchUpdate.shared.isPerforming {
treeController.rebuild()
rebuildShadowTable()
NotificationCenter.default.post(name: .BackingStoresDidRebuild, object: self, userInfo: nil)
}
}
func updateShowAvatars() {
if showFeedNames {
self.showAvatars = true
return
}
for article in articles {
if let authors = article.authors {
for author in authors {
if author.avatarURL != nil {
self.showAvatars = true
return
}
}
}
}
self.showAvatars = false
}
// MARK: Select Next Unread
@discardableResult
func selectNextUnreadArticleInTimeline() -> Bool {
let startingRow: Int = {
if let indexPath = currentArticleIndexPath {
return indexPath.row
} else {
return 0
}
}()
for i in startingRow..<articles.count {
let article = articles[i]
if !article.status.read {
currentArticleIndexPath = IndexPath(row: i, section: 0)
return true
}
}
return false
}
func selectNextUnreadFeedFetcher() {
guard let indexPath = currentMasterIndexPath else {
assertionFailure()
return
}
// Increment or wrap around the IndexPath
let nextIndexPath: IndexPath = {
if indexPath.row + 1 >= shadowTable[indexPath.section].count {
if indexPath.section + 1 >= shadowTable.count {
return IndexPath(row: 0, section: 0)
} else {
return IndexPath(row: 0, section: indexPath.section + 1)
}
} else {
return IndexPath(row: indexPath.row + 1, section: indexPath.section)
}
}()
if selectNextUnreadFeedFetcher(startingWith: nextIndexPath) {
return
}
selectNextUnreadFeedFetcher(startingWith: IndexPath(row: 0, section: 0))
}
@discardableResult
func selectNextUnreadFeedFetcher(startingWith indexPath: IndexPath) -> Bool {
for i in indexPath.section..<shadowTable.count {
for j in indexPath.row..<shadowTable[indexPath.section].count {
let nextIndexPath = IndexPath(row: j, section: i)
guard let node = nodeFor(nextIndexPath), let unreadCountProvider = node.representedObject as? UnreadCountProvider else {
assertionFailure()
return true
}
if expandedNodes.contains(node) {
continue
}
if unreadCountProvider.unreadCount > 0 {
currentMasterIndexPath = nextIndexPath
return true
}
}
}
return false
}
// MARK: Fetching Articles
func fetchArticles() {
guard let timelineFetcher = timelineFetcher else {
articles = ArticleArray()
return
}
let fetchedArticles = timelineFetcher.fetchArticles()
updateArticles(with: fetchedArticles)
}
func emptyTheTimeline() {
if !articles.isEmpty {
articles = [Article]()
}
}
func sortDirectionDidChange() {
updateArticles(with: Set(articles))
}
func updateArticles(with unsortedArticles: Set<Article>) {
let sortedArticles = Array(unsortedArticles).sortedByDate(sortDirection)
if articles != sortedArticles {
articles = sortedArticles
}
}
func row(for articleID: String) -> Int? {
updateArticleRowMapIfNeeded()
return articleRowMap[articleID]
}
func updateArticleRowMap() {
var rowMap = [String: Int]()
var index = 0
articles.forEach { (article) in
rowMap[article.articleID] = index
index += 1
}
articleRowMap = rowMap
}
func updateArticleRowMapIfNeeded() {
if articleRowMap.isEmpty {
updateArticleRowMap()
}
}
func queueFetchAndMergeArticles() {
NavigationStateController.fetchAndMergeArticlesQueue.add(self, #selector(fetchAndMergeArticles))
}
@objc func fetchAndMergeArticles() {
guard let timelineFetcher = timelineFetcher else {
return
}
var unsortedArticles = timelineFetcher.fetchArticles()
// Merge articles by articleID. For any unique articleID in current articles, add to unsortedArticles.
let unsortedArticleIDs = unsortedArticles.articleIDs()
for article in articles {
if !unsortedArticleIDs.contains(article.articleID) {
unsortedArticles.insert(article)
}
}
updateArticles(with: unsortedArticles)
}
func timelineFetcherContainsAnyPseudoFeed() -> Bool {
if timelineFetcher is PseudoFeed {
return true
}
return false
}
func timelineFetcherContainsAnyFeed(_ feeds: Set<Feed>) -> Bool {
// Return true if theres a match or if a folder contains (recursively) one of feeds
if let feed = timelineFetcher as? Feed {
for oneFeed in feeds {
if feed.feedID == oneFeed.feedID || feed.url == oneFeed.url {
return true
}
}
} else if let folder = timelineFetcher as? Folder {
for oneFeed in feeds {
if folder.hasFeed(with: oneFeed.feedID) || folder.hasFeed(withURL: oneFeed.url) {
return true
}
}
}
return false
}
}