I'm using an NSTimer like this:

timer = [NSTimer scheduledTimerWithTimeInterval:30.0f target:self selector:@selector(tick) userInfo:nil repeats:YES];

Of course, NSTimer retains the target which creates a retain cycle. Furthermore, self isn't a UIViewController so I don't have anything like viewDidUnload where I can invalidate the timer to break the cycle. So I'm wondering if I could use a weak reference instead:

__weak id weakSelf = self;
timer = [NSTimer scheduledTimerWithTimeInterval:30.0f target:weakSelf selector:@selector(tick) userInfo:nil repeats:YES];

I've heard that the timer must be invalidated (i guess to release it from the run loop). But we could do that in our dealloc, right?

- (void) dealloc {
    [timer invalidate];

Is this a viable option? I've seen a lot of ways that people deal with this issue, but I haven't seen this.

  • 25
    Beyond the answers below, no one explained why invalidating the timer in dealloc is useless (from here): A timer maintains a strong reference to its target. This means that as long as a timer remains valid, its target will not be deallocated. As a corollary, this means that it does not make sense for a timer’s target to try to invalidate the timer in its dealloc method—the dealloc method will not be invoked as long as the timer is valid.
    – Guy
    Nov 12 '14 at 7:26

10 Answers 10


The proposed code:

__weak id weakSelf = self;
timer = [NSTimer scheduledTimerWithTimeInterval:30.0f target:weakSelf selector:@selector(tick) userInfo:nil repeats:YES];

has the effect that (i) a weak reference is made to self; (ii) that weak reference is read in order to provide a pointer to NSTimer. It won't have the effect of creating an NSTimer with a weak reference. The only difference between that code and using a __strong reference is that if self is deallocated in between the two lines given then you'll pass nil to the timer.

The best thing you can do is create a proxy object. Something like:

@implementation BTWeakTimerTarget
    __weak target;
    SEL selector;


- (void)timerDidFire:(NSTimer *)timer
        [target performSelector:selector withObject:timer];
        [timer invalidate];

Then you'd do something like:

BTWeakTimerTarget *target = [[BTWeakTimerTarget alloc] initWithTarget:self selector:@selector(tick)];
timer = [NSTimer scheduledTimerWithTimeInterval:30.0 target:target selector:@selector(timerDidFire:) ...];

Or even add a class method to BTWeakTimerTarget of the form +scheduledTimerWithTimeInterval:target:selector:... to create a neater form of that code. You'll probably want to expose the real NSTimer so that you can invalidate it, otherwise the rules established will be:

  1. the real target isn't retained by the timer;
  2. the timer will fire once after the real target has begun (and probably completed) deallocation, but that firing will be ignored and the timer invalidated then.
  • 3
    Awesome, thanks. I ended up making an NSWeakTimer shell that handled the selector wiring gist.github.com/bendytree/5674709
    – bendytree
    May 29 '13 at 23:43
  • @bendytree I reviewed your code. The target should not be an assign property. Rather, it should be a weak property as @Tommy described. Assign properties do not become nil after deallocating, whereas weak properties do. Thus your if (target) check will never become true.
    – Pwner
    Nov 19 '14 at 20:04
  • @Pwner I checked it and changed assign to weak but still it never invalidates it. what should I do?
    – sftsz
    Feb 13 '15 at 22:53
  • @sftsz Are you using a runloop to run the timer? Sep 28 '15 at 19:04
  • I just tried @bendytree's solution and I've been scratching my head forever until I found that you're not passing an object to your selector in the "fire" method. My application uses repeating timers and invalidates them in the selector called by "fire" if a certain condition is met. As no object was passed, the timer was never invalidated and ran forever. Whoever is copy/pasting your code should make sure to use "withObject:timer" instead of "withObject:nil". Anyways, thanks for the snippet!!
    – guitarflow
    Oct 19 '16 at 15:07

iOS 10 and macOS 10.12 "Sierra" introduced a new method, +scheduledTimerWithTimeInterval:repeats:block:, so you could capture self weakly simply as:

__weak MyClass* weakSelf = self;
_timer = [NSTimer scheduledTimerWithTimeInterval:1.0 repeats:YES block:^(NSTimer* t) {
    MyClass* _Nullable strongSelf = weakSelf;
    [strongSelf doSomething];

Equivalence in Swift 3:

_timer = Timer(timeInterval: 1.0, repeats: true) { [weak self] _ in

If you still need to target iOS 9 or below (which you should at this moment), this method cannot be used, so you would still need to use code in the other answers.

  • 1
    This doesnt’ work until timer is invalidated even if self is weak
    – protspace
    Jan 17 '18 at 11:11
  • @protspace then you could do something like this or not? guard let weakSelf = self else { timer.invalidate(); return }. The timer is going to be invalidated, when self is not available any more.
    – Baran Emre
    Sep 24 '18 at 16:26

If you are not that concerned about the millisecond accuracy of the timer events, you could use dispatch_after & __weak instead of NSTimer to do this. Here's the code pattern:

- (void) doSomethingRepeatedly
    // Do it once
    NSLog(@"doing something …");

    // Repeat it in 2.0 seconds
    __weak typeof(self) weakSelf = self;
    double delayInSeconds = 2.0;
    dispatch_time_t popTime = dispatch_time(DISPATCH_TIME_NOW, (int64_t)(delayInSeconds * NSEC_PER_SEC));
    dispatch_after(popTime, dispatch_get_main_queue(), ^(void){
        [weakSelf doSomethingRepeatedly];

No NSTimer @property, no invalidate/runloop stuff and no proxy object, just a simple clean method.

The downside of this approach is that (unlike NSTimer) the execution time of the block (containing [weakSelf doSomethingRepeatedly];) will impact scheduling of the events.

  • 1
    Great idea. And if you want it to repeat, you can check if weakSelf != nil and if so, simply recursively call dispatch_after inside the dispatch block. The only downside is it makes it difficult to alter the timer (for example to change the interval) after it has been set up.
    – devios1
    Aug 13 '14 at 22:54
  • 1
    Be careful when implementing a repeating timer using this method. When you use a regular repeating NSTimer, the execution duration of the target selector won't affect your timing. In this case, if you don't do another dispatch_after immediately when the timer is called (and even so) you will have timing skews.
    – Guy
    Nov 12 '14 at 7:24

Swift 3

App target < iOS 10:

Custom WeakTimer (GitHubGist) implementation:

final class WeakTimer {

    fileprivate weak var timer: Timer?
    fileprivate weak var target: AnyObject?
    fileprivate let action: (Timer) -> Void

    fileprivate init(timeInterval: TimeInterval,
         target: AnyObject,
         repeats: Bool,
         action: @escaping (Timer) -> Void) {
        self.target = target
        self.action = action
        self.timer = Timer.scheduledTimer(timeInterval: timeInterval,
                                          target: self,
                                          selector: #selector(fire),
                                          userInfo: nil,
                                          repeats: repeats)

    class func scheduledTimer(timeInterval: TimeInterval,
                              target: AnyObject,
                              repeats: Bool,
                              action: @escaping (Timer) -> Void) -> Timer {
        return WeakTimer(timeInterval: timeInterval,
                         target: target,
                         repeats: repeats,
                         action: action).timer!

    @objc fileprivate func fire(timer: Timer) {
        if target != nil {
        } else {


let timer = WeakTimer.scheduledTimer(timeInterval: 2,
                                     target: self,
                                     repeats: true) { [weak self] timer in
                                         // Place your action code here.

timer is instance of standard class Timer, so you can use all available methods (e.g. invalidate, fire, isValid, fireDate and etc).
timer instance will be deallocated when self is deallocated or when timer's job is done (e.g. repeats == false).

App target >= iOS 10:
Standard Timer implementation:

open class func scheduledTimer(withTimeInterval interval: TimeInterval, 
                               repeats: Bool, 
                               block: @escaping (Timer) -> Swift.Void) -> Timer


let timer = Timer.scheduledTimer(withTimeInterval: 2, repeats: true) { [weak self] timer in
    // Place your action code here.
  • But haven't you just "passed the buck" on to WeakTimer, since WeakTimer#init now passes Timer a strong reference to target: self?
    – mkirk
    Jan 19 '17 at 15:32
  • 2
    @mkirk, Yes, but Timer is the only guy who keeps strong reference to WeakTimer. That means WeakTimer instance lives as long as Timer lives. Timer lives until moment when fileprivate func fire is called and target already died. target has it's own life, nobody in above bucket keeps strong reference to target.
    – Vlad Papko
    Jan 19 '17 at 22:33

In Swift I've defined a WeakTimer helper class:

/// A factory for NSTimer instances that invoke closures, thereby allowing a weak reference to its context.
struct WeakTimerFactory {
  class WeakTimer: NSObject {
    private var timer: NSTimer!
    private let callback: () -> Void

    private init(timeInterval: NSTimeInterval, userInfo: AnyObject?, repeats: Bool, callback: () -> Void) {
      self.callback = callback
      self.timer = NSTimer(timeInterval: timeInterval, target: self, selector: "invokeCallback", userInfo: userInfo, repeats: repeats)

    func invokeCallback() {

  /// Returns a new timer that has not yet executed, and is not scheduled for execution.
  static func timerWithTimeInterval(timeInterval: NSTimeInterval, userInfo: AnyObject?, repeats: Bool, callback: () -> Void) -> NSTimer {
    return WeakTimer(timeInterval: timeInterval, userInfo: userInfo, repeats: repeats, callback: callback).timer

And then you can use it like such:

let timer = WeakTimerFactory.timerWithTimeInterval(interval, userInfo: userInfo, repeats: repeats) { [weak self] in
  // Your code here...

The returned NSTimer has a weak reference to self, so you can call its invalidate method in deinit.

  • 1
    You would want to pass userInfo into the NSTimer constructor, no?
    – pwightman
    Feb 9 '15 at 21:48
  • @pwightman Doh, great catch! I've updated the code in my reply. (As well as the code in my own repo... I had always been passing in nil for userInfo, so I totally missed this.) Thanks! Feb 10 '15 at 1:58
  • 1
    I don't get how one is suppose to execute the timer, since your block of code don't execute it Feb 16 '16 at 14:35
  • this leads to the Leak Checks issues (profile in the Instruments). try this gist.github.com/onevcat/2d1ceff1c657591eebde May 31 '16 at 14:32
  • the weakTimer returned from static method will not retain itself if it doesn't repeat. So it's only work in repeat mode. And, this should add to runloop manually.
    – leavez
    Aug 31 '16 at 15:24

It doesn't matter that weakSelf is weak, the timer still retains the object so there's still a retain cycle. Since a timer is retained by the run loop, you can (and I suggest to ) hold a weak pointer to the timer:

NSTimer* __weak timer = [NSTimer scheduledTimerWithTimeInterval:30.0f target: self selector:@selector(tick) userInfo:nil repeats:YES];

About invalidate you're way of doing is correct.

  • 7
    But then wouldn't the runloop keep a strong reference to the timer, the timer keep a strong reference to self and dealloc never occur?
    – Tommy
    May 29 '13 at 19:23
  • At least it avoids the retain cycle. I still agree that using a weak timer is better. May 30 '13 at 15:02
  • 1
    @Tommy is correct, it doesn't avoid the retain cycle. As long as the timer is not invalidated the object will never die and if only dealloc invalidates the timer, it will never be invalidated either. A weak timer is pointless and pretty much never what you want.
    – Mecki
    Sep 2 '15 at 12:37
  • The timer could also invoke a weakSelf selector.
    – delta2flat
    Apr 13 '17 at 21:19
  • 2
    @frangulyan No, it does not. It says "Because the run loop maintains the timer", which means the runloop keeps the timer alive. It doesn't matter if you keep it alive, it won't die as long as it is scheduled and the official way to unschedule a timer is to invalidate it. It also says "A timer maintains a strong reference to its target.", so as long as the timer is alive, it will keep its target alive, too. So making a timer weak fixes nothing, unless you invalidate it at some point.
    – Mecki
    Oct 5 '17 at 9:12

If you are using Swift here is an auto-cancelling timer:


The timer cancels itself automatically on deinit.

var timer: AutoCancellingTimer? // Strong reference

func startTimer() {
  timer = AutoCancellingTimer(interval: 1, repeats: true) {
    print("Timer fired")

Swift 4 version. Invalidate must be called before the dealloc.

class TimerProxy {

    var timer: Timer!
    var timerHandler: (() -> Void)?

    init(withInterval interval: TimeInterval, repeats: Bool, timerHandler: (() -> Void)?) {
        self.timerHandler = timerHandler
        timer = Timer.scheduledTimer(timeInterval: interval,
                                     target: self,
                                     selector: #selector(timerDidFire(_:)),
                                     userInfo: nil,
                                     repeats: repeats)

    @objc func timerDidFire(_ timer: Timer) {

    func invalidate() {


func  startTimer() {
    timerProxy = TimerProxy(withInterval: 10,
                            repeats: false,
                            timerHandler: { [weak self] in

@objc func fireTimer() {
    timerProxy = nil

With theory and practice.Tommy's solution is not work.

Theoretically,__weak instance is as the parameter,In the implementation of

[NSTimer scheduledTimerWithTimeInterval:target:selector: userInfo: repeats:],

target will be retained still.

You can implement a proxy ,which hold the weak reference and forward selector calling to self , and then pass the proxy as the target. Such as YYWeakProxy.


the answer in very simple. for example you can try this:

@interface Person : NSObject
@property(nonatomic, strong) DemoViewController_19 *vc;

@implementation Person

@interface DemoViewController_19 ()
@property(nonatomic, strong) Person *person;

@implementation DemoViewController_19

- (void)viewDidLoad {
    [super viewDidLoad];
    // Do any additional setup after loading the view.
    self.person = [Person new];
    __weak typeof(self) weaks = self;
    self.person.vc = weaks;


After run you can see vc dealloc is not called. It depends on Person's property of strong attribute.

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