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396 lines
13 KiB
396 lines
13 KiB
// Copyright © 2015 Abhishek Banthia |
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import Foundation |
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open class Repeater: Equatable { |
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/// State of the timer |
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/// |
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/// - paused: idle (never started yet or paused) |
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/// - running: timer is running |
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/// - executing: the observers are being executed |
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/// - finished: timer lifetime is finished |
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public enum State: Equatable, CustomStringConvertible { |
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case paused |
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case running |
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case executing |
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case finished |
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public static func == (lhs: State, rhs: State) -> Bool { |
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switch (lhs, rhs) { |
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case (.paused, .paused), |
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(.running, .running), |
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(.executing, .executing), |
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(.finished, .finished): |
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return true |
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default: |
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return false |
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} |
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} |
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/// Return `true` if timer is currently running, including when the observers are being executed. |
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public var isRunning: Bool { |
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guard self == .running || self == .executing else { return false } |
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return true |
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} |
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/// Return `true` if the observers are being executed. |
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public var isExecuting: Bool { |
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guard case .executing = self else { return false } |
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return true |
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} |
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/// Is timer finished its lifetime? |
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/// It return always `false` for infinite timers. |
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/// It return `true` for `.once` mode timer after the first fire, |
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/// and when `.remainingIterations` is zero for `.finite` mode timers |
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public var isFinished: Bool { |
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guard case .finished = self else { return false } |
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return true |
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} |
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/// State description |
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public var description: String { |
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switch self { |
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case .paused: return "idle/paused" |
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case .finished: return "finished" |
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case .running: return "running" |
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case .executing: return "executing" |
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} |
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} |
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} |
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/// Repeat interval |
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public enum Interval { |
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case nanoseconds(_: Int) |
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case microseconds(_: Int) |
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case milliseconds(_: Int) |
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case minutes(_: Int) |
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case seconds(_: Double) |
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case hours(_: Int) |
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case days(_: Int) |
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internal var value: DispatchTimeInterval { |
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switch self { |
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case let .nanoseconds(value): return .nanoseconds(value) |
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case let .microseconds(value): return .microseconds(value) |
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case let .milliseconds(value): return .milliseconds(value) |
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case let .seconds(value): return .milliseconds(Int(Double(value) * Double(1000))) |
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case let .minutes(value): return .seconds(value * 60) |
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case let .hours(value): return .seconds(value * 3600) |
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case let .days(value): return .seconds(value * 86400) |
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} |
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} |
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} |
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/// Mode of the timer. |
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/// |
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/// - infinite: infinite number of repeats. |
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/// - finite: finite number of repeats. |
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/// - once: single repeat. |
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public enum Mode { |
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case infinite |
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case finite(_: Int) |
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case once |
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/// Is timer a repeating timer? |
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internal var isRepeating: Bool { |
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switch self { |
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case .once: return false |
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default: return true |
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} |
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} |
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/// Number of repeats, if applicable. Otherwise `nil` |
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public var countIterations: Int? { |
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switch self { |
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case let .finite(counts): return counts |
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default: return nil |
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} |
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} |
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/// Is infinite timer |
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public var isInfinite: Bool { |
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guard case .infinite = self else { |
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return false |
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} |
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return true |
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} |
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} |
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/// Handler typealias |
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public typealias Observer = (Repeater) -> Void |
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/// Token assigned to the observer |
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public typealias ObserverToken = UInt64 |
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/// Current state of the timer |
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public private(set) var state: State = .paused { |
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didSet { |
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onStateChanged?(self, state) |
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} |
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} |
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/// Callback called to intercept state's change of the timer |
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public var onStateChanged: ((_ timer: Repeater, _ state: State) -> Void)? |
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/// List of the observer of the timer |
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private var observers = [ObserverToken: Observer]() |
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/// Next token of the timer |
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private var nextObserverID: UInt64 = 0 |
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/// Internal GCD Timer |
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private var timer: DispatchSourceTimer? |
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/// Is timer a repeat timer |
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public private(set) var mode: Mode |
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/// Number of remaining repeats count |
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public private(set) var remainingIterations: Int? |
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/// Interval of the timer |
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private var interval: Interval |
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/// Accuracy of the timer |
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private var tolerance: DispatchTimeInterval |
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/// Dispatch queue parent of the timer |
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private var queue: DispatchQueue? |
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/// Initialize a new timer. |
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/// |
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/// - Parameters: |
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/// - interval: interval of the timer |
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/// - mode: mode of the timer |
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/// - tolerance: tolerance of the timer, 0 is default. |
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/// - queue: queue in which the timer should be executed; if `nil` a new queue is created automatically. |
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/// - observer: observer |
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public init(interval: Interval, mode: Mode = .infinite, tolerance: DispatchTimeInterval = .nanoseconds(3), queue: DispatchQueue? = nil, observer: @escaping Observer) { |
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self.mode = mode |
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self.interval = interval |
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self.tolerance = tolerance |
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remainingIterations = mode.countIterations |
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self.queue = (queue ?? DispatchQueue(label: "com.abhishek.Clocker")) |
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timer = configureTimer() |
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observe(observer) |
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} |
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/// Add new a listener to the timer. |
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/// |
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/// - Parameter callback: callback to call for fire events. |
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/// - Returns: token used to remove the handler |
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@discardableResult |
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public func observe(_ observer: @escaping Observer) -> ObserverToken { |
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var (new, overflow) = nextObserverID.addingReportingOverflow(1) |
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if overflow { // you need to add an incredible number of offset...sure you can't |
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nextObserverID = 0 |
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new = 0 |
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} |
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nextObserverID = new |
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observers[new] = observer |
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return new |
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} |
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/// Remove an observer of the timer. |
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/// |
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/// - Parameter id: id of the observer to remove |
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public func remove(observer identifier: ObserverToken) { |
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observers.removeValue(forKey: identifier) |
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} |
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/// Remove all observers of the timer. |
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/// |
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/// - Parameter stopTimer: `true` to also stop timer by calling `pause()` function. |
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public func removeAllObservers(thenStop stopTimer: Bool = false) { |
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observers.removeAll() |
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if stopTimer { |
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pause() |
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} |
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} |
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/// Configure a new timer session. |
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/// |
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/// - Returns: dispatch timer |
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private func configureTimer() -> DispatchSourceTimer { |
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let associatedQueue = (queue ?? DispatchQueue(label: "com.repeat.\(NSUUID().uuidString)")) |
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let timer = DispatchSource.makeTimerSource(queue: associatedQueue) |
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let repeatInterval = interval.value |
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let deadline: DispatchTime = (DispatchTime.now() + repeatInterval) |
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if mode.isRepeating { |
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timer.schedule(deadline: deadline, repeating: repeatInterval, leeway: tolerance) |
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} else { |
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timer.schedule(deadline: deadline, leeway: tolerance) |
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} |
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timer.setEventHandler { [weak self] in |
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if let unwrapped = self { |
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unwrapped.timeFired() |
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} |
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} |
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return timer |
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} |
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/// Destroy current timer |
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private func destroyTimer() { |
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timer?.setEventHandler(handler: nil) |
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timer?.cancel() |
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if state == .paused || state == .finished { |
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timer?.resume() |
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} |
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} |
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/// Create and schedule a timer that will call `handler` once after the specified time. |
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/// |
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/// - Parameters: |
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/// - interval: interval delay for single fire |
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/// - queue: destination queue, if `nil` a new `DispatchQueue` is created automatically. |
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/// - observer: handler to call when timer fires. |
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/// - Returns: timer instance |
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@discardableResult |
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public class func once(after interval: Interval, queue: DispatchQueue? = nil, _ observer: @escaping Observer) -> Repeater { |
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let timer = Repeater(interval: interval, mode: .once, queue: queue, observer: observer) |
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timer.start() |
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return timer |
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} |
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/// Create and schedule a timer that will fire every interval optionally by limiting the number of fires. |
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/// |
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/// - Parameters: |
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/// - interval: interval of fire |
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/// - count: a non `nil` and > 0 value to limit the number of fire, `nil` to set it as infinite. |
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/// - queue: destination queue, if `nil` a new `DispatchQueue` is created automatically. |
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/// - handler: handler to call on fire |
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/// - Returns: timer |
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@discardableResult |
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public class func every(_ interval: Interval, count: Int? = nil, queue: DispatchQueue? = nil, _ handler: @escaping Observer) -> Repeater { |
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let mode: Mode = (count != nil ? .finite(count!) : .infinite) |
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let timer = Repeater(interval: interval, mode: mode, queue: queue, observer: handler) |
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timer.start() |
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return timer |
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} |
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/// Force fire. |
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/// |
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/// - Parameter pause: `true` to pause after fire, `false` to continue the regular firing schedule. |
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public func fire(andPause pause: Bool = false) { |
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timeFired() |
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if pause == true { |
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self.pause() |
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} |
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} |
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/// Reset the state of the timer, optionally changing the fire interval. |
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/// |
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/// - Parameters: |
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/// - interval: new fire interval; pass `nil` to keep the latest interval set. |
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/// - restart: `true` to automatically restart the timer, `false` to keep it stopped after configuration. |
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public func reset(_ interval: Interval?, restart: Bool = true) { |
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if state.isRunning { |
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setPause(from: state) |
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} |
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// For finite counter we want to also reset the repeat count |
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if case let .finite(count) = mode { |
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self.remainingIterations = count |
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} |
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// Create a new instance of timer configured |
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if let newInterval = interval { |
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self.interval = newInterval |
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} // update interval |
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destroyTimer() |
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timer = configureTimer() |
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state = .paused |
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if restart { |
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timer?.resume() |
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state = .running |
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} |
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} |
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/// Start timer. If timer is already running it does nothing. |
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@discardableResult |
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public func start() -> Bool { |
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guard state.isRunning == false else { |
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return false |
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} |
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// If timer has not finished its lifetime we want simply |
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// restart it from the current state. |
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guard state.isFinished == true else { |
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state = .running |
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timer?.resume() |
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return true |
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} |
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// Otherwise we need to reset the state based upon the mode |
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// and start it again. |
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reset(nil, restart: true) |
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return true |
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} |
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/// Pause a running timer. If timer is paused it does nothing. |
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@discardableResult |
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public func pause() -> Bool { |
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guard state != .paused, state != .finished else { |
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return false |
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} |
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return setPause(from: state) |
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} |
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/// Pause a running timer optionally changing the state with regard to the current state. |
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/// |
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/// - Parameters: |
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/// - from: the state which the timer should only be paused if it is the current state |
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/// - to: the new state to change to if the timer is paused |
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/// - Returns: `true` if timer is paused |
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@discardableResult |
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private func setPause(from currentState: State, to newState: State = .paused) -> Bool { |
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guard state == currentState else { |
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return false |
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} |
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timer?.suspend() |
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state = newState |
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return true |
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} |
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/// Called when timer is fired |
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private func timeFired() { |
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state = .executing |
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// dispatch to observers |
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observers.values.forEach { $0(self) } |
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// manage lifetime |
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switch mode { |
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case .once: |
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// once timer's lifetime is finished after the first fire |
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// you can reset it by calling `reset()` function. |
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setPause(from: .executing, to: .finished) |
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case .finite: |
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// for finite intervals we decrement the left iterations count... |
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remainingIterations! -= 1 |
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if remainingIterations! == 0 { |
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// ...if left count is zero we just pause the timer and stop |
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setPause(from: .executing, to: .finished) |
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} |
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case .infinite: |
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// infinite timer does nothing special on the state machine |
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break |
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} |
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} |
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deinit { |
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self.observers.removeAll() |
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self.destroyTimer() |
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} |
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public static func == (lhs: Repeater, rhs: Repeater) -> Bool { |
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return lhs === rhs |
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} |
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}
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