import Foundation import SwiftSignalKit import Postbox import TelegramApi import MtProtoKit public struct MessageStats: Equatable { public let views: Int public let forwards: Int public let interactionsGraph: StatsGraph public let interactionsGraphDelta: Int64 init(views: Int, forwards: Int, interactionsGraph: StatsGraph, interactionsGraphDelta: Int64) { self.views = views self.forwards = forwards self.interactionsGraph = interactionsGraph self.interactionsGraphDelta = interactionsGraphDelta } public static func == (lhs: MessageStats, rhs: MessageStats) -> Bool { if lhs.views != rhs.views { return false } if lhs.forwards != rhs.forwards { return false } if lhs.interactionsGraph != rhs.interactionsGraph { return false } if lhs.interactionsGraphDelta != rhs.interactionsGraphDelta { return false } return true } public func withUpdatedInteractionsGraph(_ interactionsGraph: StatsGraph) -> MessageStats { return MessageStats(views: self.views, forwards: self.forwards, interactionsGraph: interactionsGraph, interactionsGraphDelta: self.interactionsGraphDelta) } } public struct MessageStatsContextState: Equatable { public var stats: MessageStats? } private func requestMessageStats(postbox: Postbox, network: Network, datacenterId: Int32, messageId: MessageId, dark: Bool = false) -> Signal { return postbox.transaction { transaction -> (Peer, Message)? in if let peer = transaction.getPeer(messageId.peerId), let message = transaction.getMessage(messageId) { return (peer, message) } else { return nil } } |> mapToSignal { peerAndMessage -> Signal in guard let (peer, message) = peerAndMessage, let inputChannel = apiInputChannel(peer) else { return .never() } var flags: Int32 = 0 if dark { flags |= (1 << 1) } let request = Api.functions.stats.getMessageStats(flags: flags, channel: inputChannel, msgId: messageId.id) let signal: Signal if network.datacenterId != datacenterId { signal = network.download(datacenterId: Int(datacenterId), isMedia: false, tag: nil) |> castError(MTRpcError.self) |> mapToSignal { worker in return worker.request(request) } } else { signal = network.request(request) } var views: Int = 0 var forwards: Int = 0 for attribute in message.attributes { if let viewsAttribute = attribute as? ViewCountMessageAttribute { views = viewsAttribute.count } else if let forwardsAttribute = attribute as? ForwardCountMessageAttribute { forwards = forwardsAttribute.count } } return signal |> mapToSignal { result -> Signal in if case let .messageStats(apiViewsGraph) = result { let interactionsGraph = StatsGraph(apiStatsGraph: apiViewsGraph) var interactionsGraphDelta: Int64 = 86400 if case let .Loaded(_, data) = interactionsGraph { if let start = data.range(of: "[\"x\",") { let substring = data.suffix(from: start.upperBound) if let end = substring.range(of: "],") { let valuesString = substring.prefix(through: substring.index(before: end.lowerBound)) let values = valuesString.components(separatedBy: ",").compactMap { Int64($0) } if values.count > 1 { let first = values[0] let second = values[1] let delta = abs(second - first) / 1000 interactionsGraphDelta = delta } } } } return .single(MessageStats(views: views, forwards: forwards, interactionsGraph: interactionsGraph, interactionsGraphDelta: interactionsGraphDelta)) } else { return .single(nil) } } |> retryRequest } } private final class MessageStatsContextImpl { private let postbox: Postbox private let network: Network private let datacenterId: Int32 private let messageId: MessageId private var _state: MessageStatsContextState { didSet { if self._state != oldValue { self._statePromise.set(.single(self._state)) } } } private let _statePromise = Promise() var state: Signal { return self._statePromise.get() } private let disposable = MetaDisposable() private let disposables = DisposableDict() init(postbox: Postbox, network: Network, datacenterId: Int32, messageId: MessageId) { assert(Queue.mainQueue().isCurrent()) self.postbox = postbox self.network = network self.datacenterId = datacenterId self.messageId = messageId self._state = MessageStatsContextState(stats: nil) self._statePromise.set(.single(self._state)) self.load() } deinit { assert(Queue.mainQueue().isCurrent()) self.disposable.dispose() self.disposables.dispose() } private func load() { assert(Queue.mainQueue().isCurrent()) self.disposable.set((requestMessageStats(postbox: self.postbox, network: self.network, datacenterId: self.datacenterId, messageId: self.messageId) |> deliverOnMainQueue).start(next: { [weak self] stats in if let strongSelf = self { strongSelf._state = MessageStatsContextState(stats: stats) strongSelf._statePromise.set(.single(strongSelf._state)) } })) } func loadDetailedGraph(_ graph: StatsGraph, x: Int64) -> Signal { if let token = graph.token { return requestGraph(network: self.network, datacenterId: self.datacenterId, token: token, x: x) } else { return .single(nil) } } } public final class MessageStatsContext { private let impl: QueueLocalObject public var state: Signal { return Signal { subscriber in let disposable = MetaDisposable() self.impl.with { impl in disposable.set(impl.state.start(next: { value in subscriber.putNext(value) })) } return disposable } } public init(postbox: Postbox, network: Network, datacenterId: Int32, messageId: MessageId) { self.impl = QueueLocalObject(queue: Queue.mainQueue(), generate: { return MessageStatsContextImpl(postbox: postbox, network: network, datacenterId: datacenterId, messageId: messageId) }) } public func loadDetailedGraph(_ graph: StatsGraph, x: Int64) -> Signal { return Signal { subscriber in let disposable = MetaDisposable() self.impl.with { impl in disposable.set(impl.loadDetailedGraph(graph, x: x).start(next: { value in subscriber.putNext(value) subscriber.putCompletion() })) } return disposable } } }