Stack Overflow is a community of 4.7 million programmers, just like you, helping each other.

Join them; it only takes a minute:

Sign up
Join the Stack Overflow community to:
  1. Ask programming questions
  2. Answer and help your peers
  3. Get recognized for your expertise

I'm having problems starting & stopping NSTimers. The docs say that a timer is stopped by [timer invalidate];

I have a timer object declared as such

NSTimer *incrementTimer;
@property (nonatomic, retain) NSTimer *incrementTimer;
@synthesize incrementTimer;
-(void)dealloc {
 [incrementTimer release];
 [super dealloc];

-The usual.

When it's needed, my method does the following:

-(void)setGenCount {
    if(!condition1 && condition2) {
        incrementTimer = [NSTimer scheduledTimerWithTimeInterval: 2.0 
                                                      target: self 
                                                    userInfo: nil 
                                                     repeats: YES]; 

Everything above works fine. However, once that timer does it's job, I want it to invalidate itself. I invalidate the timer because there is an equal decrement method that could be called and would fight against the incrementTimer if it was still active. (Previously, I noticed that my two timers, if active, were acting on the same ivar by increasing & decreasing the value (a sort of fight)... without crashing) The selector called works as follows:

-(void)incrementBatteryVoltage:(NSTimer *)timer {
    if(battVoltage < 24.0) {
         generatorDisplay.battVoltage += 0.1;
    if(battery1Voltage == 24.0) {
         [timer invalidate];

I have an equal method that Decrements the battery count. (previously mentioned)
Due to my program design: the interface simulates a voltage display. When the "machine" is turned off, I want all the timers invalidated, regardless of what any voltage value is. I'm doing this by checking to see if the timer is valid.

-(void)deEnergizeDisplays {

   if([decrementTimer isValid]) {
        [decrementTimer invalidate];
        decrementTimer = nil;

    if([incrementTimer isValid]) {
       [incrementTimer invalidate];
       incrementTimer = nil;

I'm getting numerous "BAD_ACCESS" crashes. The erroneous line call is always pointing toward my [timer isValid] call. It seems that if the timer is invalidated... the pointer doesn't exist either. I know that the [timer invalidate] message disables the timer and then it is removed from the run loop and then it is released. And my understanding is: it is an autoreleased object per it's naming covention.

My thought are: If I'm sending a retain message, shouldn't the reference still exist? I've tried several combinations, taking away:

timer = nil;

or even instead of:

if([timer isValid])

I tried :

if([timer != nil])



I always get the same crash. Thanks for any help on starting & stopping NSTimers.

share|improve this question
Unrelated to your crash, I think, but you probably don't want to be checking floating point numbers for explicit equality. – Carl Norum Feb 2 '10 at 22:07
How would you accomplish this task? Check for (battVoltage > 24)? – samfu_1 Feb 2 '10 at 23:32
That's a better way to go, yeah. – Carl Norum Feb 4 '10 at 1:16
up vote 9 down vote accepted

UPDATE: See Darren's answer. The problem is that you are not using your property accessor when setting the timers. Instead of:

incrementTimer = [NSTimer ...

You should have:

self.incrementTimer = [NSTimer ...

The self.propertyName = ... syntax will call your accessor method, and thereby automatically retain the object that you send to it (since your property is set up as retain). Simply calling propertyName = ... does not use the property accessor. You are simply changing the value of your ivar directly.

UPDATE #2: After an enlightening conversation with Peter Hosey (see comments), I have removed my earlier suggestion to "never retain or release" your timer object. I have also completely re-written my earlier code because I think the following is a better approach:


NSTimer *voltageTimer;
float targetBatteryVoltage;
@property (nonatomic, retain) NSTimer *voltageTimer;


@implementation Controller
@synthesize voltageTimer;

- (void)stopVoltageTimer {
    [voltageTimer invalidate];
    self.voltageTimer = nil;

- (void)setTargetBatteryVoltage:(float)target {
    [voltageTimer invalidate];
    targetBatteryVoltage = target;
    self.voltageTimer = [NSTimer scheduledTimerWithTimeInterval: 2.0
                                target: self
                              selector: @selector(updateBatteryVoltage:)
                              userInfo: nil
                               repeats: YES];

- (void)updateBatteryVoltage:(NSTimer *)timer {
    const float increment = 0.1;
    if (abs(battVoltage - targetBatteryVoltage) < increment) {
        [timer invalidate];
    else if (battVoltage < targetBatteryVoltage) {
        generatorDisplay.battVoltage += increment;
    else if (battVoltage > targetBatteryVoltage) {
        generatorDisplay.battVoltage -= increment;

Now, you can simply set a target battery voltage, and the timer magic will happen behind the scenes:

[self setTargetBatteryVoltage:24.0];

Your power-off method would look as follows:

- (void)deEnergizeDisplays {
    [self stopVoltageTimer];
share|improve this answer
“Never retain or release the timer. Use only invalidate.” Not retaining it is exactly why the questioner crashed upon trying to send it a message; the timer object ceased to exist when the timer callback invalidated it. If an object owns another, it should retain it; there is no good reason to make an exception for timers. – Peter Hosey Feb 3 '10 at 0:03
As for the circular reference (timers retain/strongly-reference their targets), solve that by having whatever destroys this object tell it to stop monitoring battery voltages first. In that method, invalidate and let go of the timer. That will open the circle and allow you to destroy the battery-voltage monitor object. – Peter Hosey Feb 3 '10 at 0:05
@Peter Hosey: Apple's documentation gives some specific advice on memory management for NSTimers: "Because the run loop maintains the timer, from the perspective of memory management there's typically no need to keep a reference to a timer after you’ve scheduled it."… – e.James Feb 3 '10 at 1:51
Yeah, I know what the documentation says. I disagree with it. The timer is owned by the run loop and the controller that created the timer. I see no reason why the controller should create the timer, know about the timer, and be involved in the timer's lifetime, but not own it. – Peter Hosey Feb 3 '10 at 2:24
I took the liberty of continuing this argument in my head, and you'll be happy to hear that my brain has declared you as the winner :) The controller must maintain a reference to the timer so that deEnergizeDisplays can turn it off, and there is no way for that to work reliably unless the controller retains the timer. The controller needs the timer object to be accessible, even if it has been invalidated. Thanks for setting me straight. – e.James Feb 3 '10 at 4:13

You need to retain the value assigned to incrementTimer in setGenCount. You can do this automatically by using your synthesized property, which is accessed via self.:

self.incrementTimer = [NSTimer scheduledTimerWithTimeInterval: ...
share|improve this answer
would that be done with: timer = [[NSTimer scheduledTimerWithTimeInterval: 2.0 target: self selector:@selector(incrementBatteryVoltage:) userInfo: nil repeats: YES] retain]; – samfu_1 Feb 2 '10 at 22:15
+1 Good call. I should have seen that bug sooner! – e.James Feb 2 '10 at 22:33

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.