Is there a way to determine how much time a method needs to execute (in milliseconds)?

  • 1
    Are you by any chance asking because you want to find out what you can optimize to make it faster? – Mike Dunlavey Jan 25 '10 at 2:00
  • 1
    Yes, I'm using an UIWebView that is loading some pages. I want to optimize the pageloading by checking the time the method needs to load page 1 to page 10. – dan Jan 25 '10 at 2:03
  • 2
    This appears to be a duplicate of this question: stackoverflow.com/questions/889380/… – Brad Larson Jan 25 '10 at 2:12
  • @Brad Larson: Thanks! – dan Jan 25 '10 at 2:15
  • @BradLarson While it appears to be a duplicate, the other question has the better answers, i.e. there the prominent answers are not suggesting to use (the incorrect) NSDate but instead explains well why NSDate is the wrong way to do for this purpose. – Thomas Tempelmann Jun 4 '16 at 13:39

19 Answers 19

up vote 409 down vote accepted
NSDate *methodStart = [NSDate date];

/* ... Do whatever you need to do ... */

NSDate *methodFinish = [NSDate date];
NSTimeInterval executionTime = [methodFinish timeIntervalSinceDate:methodStart];
NSLog(@"executionTime = %f", executionTime);

Swift:

let methodStart = NSDate()

/* ... Do whatever you need to do ... */

let methodFinish = NSDate()
let executionTime = methodFinish.timeIntervalSinceDate(methodStart)
print("Execution time: \(executionTime)")

Swift3:

let methodStart = Date()

/* ... Do whatever you need to do ... */

let methodFinish = Date()
let executionTime = methodFinish.timeIntervalSince(methodStart)
print("Execution time: \(executionTime)")

Easy to use and has sub-millisecond precision.

  • 2
    @PeterWarbo NSTimeInterval is a typedef of double and is defined as seconds - see developer.apple.com/library/mac/#documentation/Cocoa/Reference/… – Ben Lings Nov 3 '11 at 14:50
  • 5
    You can log this value with a %f - NSLog("executionTime = %f", executionTime); – Tony Jan 16 '12 at 5:24
  • 1
    @Tony you forgot the @, NSLog(@"executionTime = %f", executionTime); – John Riselvato Apr 18 '13 at 18:30
  • 5
    I just compared NSDate and mach_absolute_time() at around 30ms level. 27 vs. 29, 36 vs. 39, 43 vs. 45. NSDate was easier to use for me and the results were similar enough not to bother with mach_absolute_time(). – nevan king Jul 31 '13 at 20:58
  • 3
    Anything based on NSDate is not safe for measuring passed time because the time can jump, even backwards. A much safer way is to use mach_absolute_time, as shown in many of the other answers here. This one should be downvoted for being a bad example. See also the related answer that explains this all in more detail: stackoverflow.com/a/30363702/43615 – Thomas Tempelmann Jun 4 '16 at 13:36

Here are two one-line macros that I use:

#define TICK   NSDate *startTime = [NSDate date]
#define TOCK   NSLog(@"Time: %f", -[startTime timeIntervalSinceNow])

Use it like this:

TICK;

/* ... Do Some Work Here ... */

TOCK;
  • 12
    Haha. I like it! – bobmoff Oct 12 '13 at 22:52
  • 4
    What makes this so good, is that tick-tock is such a memorable phrase that logging almost requires no thought. – John Riselvato Feb 7 '14 at 18:02
  • 29
    #define TOCK NSLog(@"%s Time: %f", __func__, -[startTime timeIntervalSinceNow]) makes this answer also return which function the timer was used in. I found this useful if I used the TICK TOCK to time multiple functions. – golmschenk Mar 13 '14 at 22:00
  • 3
    Great idea @golmschenk! You can also look into __PRETTY_FUNCTION__ and __LINE__ if you want more detailed information. – Ron Mar 17 '14 at 7:22
  • This is absolutely brilliant. Well done. – Trygve May 6 at 1:25

For fine-grained timing on OS X, you should use mach_absolute_time( ) declared in <mach/mach_time.h>:

#include <mach/mach_time.h>
#include <stdint.h>

// Do some stuff to setup for timing
const uint64_t startTime = mach_absolute_time();
// Do some stuff that you want to time
const uint64_t endTime = mach_absolute_time();

// Time elapsed in Mach time units.
const uint64_t elapsedMTU = endTime - startTime;

// Get information for converting from MTU to nanoseconds
mach_timebase_info_data_t info;
if (mach_timebase_info(&info))
   handleErrorConditionIfYoureBeingCareful();

// Get elapsed time in nanoseconds:
const double elapsedNS = (double)elapsedMTU * (double)info.numer / (double)info.denom;

Of course the usual caveats about fine-grained measurements apply; you're probably best off invoking the routine under test many times, and averaging/taking a minimum/some other form of processing.

Additionally, please note that you may find it more useful to profile your application running using a tool like Shark. This won't give you exact timing information, but it will tell you what percentage of the application's time is being spent where, which is often more useful (but not always).

  • 1
    Trying to get this to work in Swift... any suggestion? – zumzum Jan 16 '15 at 1:12
  • 1
    "One does not simply...convert to Swift" - Ned Stark – stonedauwg Aug 21 '15 at 16:44
  • @zumzum See my answer for an example of doing this in Swift. – jbg Aug 15 at 4:43

In Swift, I'm using:

In my Macros.swift I just added

var startTime = NSDate()
func TICK(){ startTime =  NSDate() }
func TOCK(function: String = __FUNCTION__, file: String = __FILE__, line: Int = __LINE__){
    println("\(function) Time: \(startTime.timeIntervalSinceNow)\nLine:\(line) File: \(file)")
}

you can now just call anywhere

TICK()

// your code to be tracked

TOCK()
  • this code is based on Ron's code translate to Swift, he has the credits
  • I'm using start date at global level, any suggestion to improve are welcome
  • This should be \(-startTime.timeIntervalSinceNow) (notice the negative) – Snowman Jan 8 '16 at 21:47

I know this is an old one but even I found myself wandering past it again, so I thought I'd submit my own option here.

Best bet is to check out my blog post on this: Timing things in Objective-C: A stopwatch

Basically, I wrote a class that does stop watching in a very basic way but is encapsulated so that you only need to do the following:

[MMStopwatchARC start:@"My Timer"];
// your work here ...
[MMStopwatchARC stop:@"My Timer"];

And you end up with:

MyApp[4090:15203]  -> Stopwatch: [My Timer] runtime: [0.029]

in the log...

Again, check out my post for a little more or download it here: MMStopwatch.zip

I use macros based on Ron's solution.

#define TICK(XXX) NSDate *XXX = [NSDate date]
#define TOCK(XXX) NSLog(@"%s: %f", #XXX, -[XXX timeIntervalSinceNow])

For lines of code:

TICK(TIME1);
/// do job here
TOCK(TIME1);

we'll see in console something like: TIME1: 0.096618

  • Your answer is not really that much different from Ron's answer and also I somehow fail to see in what way it is better? – Trilarion Jan 25 '16 at 21:38
  • 2
    You can't use @Ron's solution inside one context twice. This is main reason for this macros. – Sergey Teryokhin Jan 25 '16 at 23:30

You can get really fine timing (seconds.parts of seconds) using this StopWatch class. It uses the high-precision timer in the iPhone. Using NSDate will only get you second(s) accuracy. This version is designed specifically for autorelease and objective-c. I have a c++ version as well if needed. You can find the c++ version here.

StopWatch.h

#import <Foundation/Foundation.h>


@interface StopWatch : NSObject 
{
    uint64_t _start;
    uint64_t _stop;
    uint64_t _elapsed;
}

-(void) Start;
-(void) Stop;
-(void) StopWithContext:(NSString*) context;
-(double) seconds;
-(NSString*) description;
+(StopWatch*) stopWatch;
-(StopWatch*) init;
@end

StopWatch.m

#import "StopWatch.h"
#include <mach/mach_time.h>

@implementation StopWatch

-(void) Start
{
    _stop = 0;
    _elapsed = 0;
    _start = mach_absolute_time();
}
-(void) Stop
{
    _stop = mach_absolute_time();   
    if(_stop > _start)
    {
        _elapsed = _stop - _start;
    }
    else 
    {
        _elapsed = 0;
    }
    _start = mach_absolute_time();
}

-(void) StopWithContext:(NSString*) context
{
    _stop = mach_absolute_time();   
    if(_stop > _start)
    {
        _elapsed = _stop - _start;
    }
    else 
    {
        _elapsed = 0;
    }
    NSLog([NSString stringWithFormat:@"[%@] Stopped at %f",context,[self seconds]]);

    _start = mach_absolute_time();
}


-(double) seconds
{
    if(_elapsed > 0)
    {
        uint64_t elapsedTimeNano = 0;

        mach_timebase_info_data_t timeBaseInfo;
        mach_timebase_info(&timeBaseInfo);
        elapsedTimeNano = _elapsed * timeBaseInfo.numer / timeBaseInfo.denom;
        double elapsedSeconds = elapsedTimeNano * 1.0E-9;
        return elapsedSeconds;
    }
    return 0.0;
}
-(NSString*) description
{
    return [NSString stringWithFormat:@"%f secs.",[self seconds]];
}
+(StopWatch*) stopWatch
{
    StopWatch* obj = [[[StopWatch alloc] init] autorelease];
    return obj;
}
-(StopWatch*) init
{
    [super   init];
    return self;
}

@end

The class has a static stopWatch method that returns an autoreleased object.

Once you call start, use the seconds method to get the elapsed time. Call start again to restart it. Or stop to stop it. You can still read the time (call seconds) anytime after calling stop.

Example In A Function (Timing call of execution)

-(void)SomeFunc
{
   StopWatch* stopWatch = [StopWatch stopWatch];
   [stopWatch Start];

   ... do stuff

   [stopWatch StopWithContext:[NSString stringWithFormat:@"Created %d Records",[records count]]];
}
  • Your "only seconds accuracy" is incorrect. While the whole part of a NSTimeInterval is seconds, it's a double. – Steven Fisher Jan 2 '17 at 19:24

I use very minimal, one page class implementation inspired by code from this blog post:

#import <mach/mach_time.h>

@interface DBGStopwatch : NSObject

+ (void)start:(NSString *)name;
+ (void)stop:(NSString *)name;

@end

@implementation DBGStopwatch

+ (NSMutableDictionary *)watches {
    static NSMutableDictionary *Watches = nil;
    static dispatch_once_t OnceToken;
    dispatch_once(&OnceToken, ^{
        Watches = @{}.mutableCopy;
    });
    return Watches;
}

+ (double)secondsFromMachTime:(uint64_t)time {
    mach_timebase_info_data_t timebase;
    mach_timebase_info(&timebase);
    return (double)time * (double)timebase.numer /
        (double)timebase.denom / 1e9;
}

+ (void)start:(NSString *)name {
    uint64_t begin = mach_absolute_time();
    self.watches[name] = @(begin);
}

+ (void)stop:(NSString *)name {
    uint64_t end = mach_absolute_time();
    uint64_t begin = [self.watches[name] unsignedLongLongValue];
    DDLogInfo(@"Time taken for %@ %g s",
              name, [self secondsFromMachTime:(end - begin)]);
    [self.watches removeObjectForKey:name];
}

@end

The usage of it is very simple:

  • just call [DBGStopwatch start:@"slow-operation"]; at the beginning
  • and then [DBGStopwatch stop:@"slow-operation"]; after the finish, to get the time

OK, if your objective is to find out what you can fix to make it faster, that's a little different goal. Measuring the time that functions take is a good way to find out if what you did made a difference, but to find out what to do you need a different technique. This is what I recommend, and I know you can do it on iPhones.

I use this:

clock_t start, end;
double elapsed;
start = clock();

//Start code to time

//End code to time

end = clock();
elapsed = ((double) (end - start)) / CLOCKS_PER_SEC;
NSLog(@"Time: %f",elapsed);

But I'm not sure about CLOCKS_PER_SEC on the iPhone. You might want to leave it off.

  • 2
    CLOCKS_PER_SEC on iPhone is a wildly inaccurate value. – mxcl Mar 13 '11 at 14:43
  • 1
    Good to know. I'd use Matthew's answer if I had to do this now. – David Kanarek Mar 13 '11 at 16:17

I use this code:

#import <mach/mach_time.h>

float TIME_BLOCK(NSString *key, void (^block)(void)) {
    mach_timebase_info_data_t info;
    if (mach_timebase_info(&info) != KERN_SUCCESS)
    {
        return -1.0;
    }

    uint64_t start = mach_absolute_time();
    block();
    uint64_t end = mach_absolute_time();
    uint64_t elapsed = end - start;

    uint64_t nanos = elapsed * info.numer / info.denom;
    float cost = (float)nanos / NSEC_PER_SEC;

    NSLog(@"key: %@ (%f ms)\n", key, cost * 1000);
    return cost;
}

Here is another way, in Swift, to do that using the defer keyword

func methodName() {
  let methodStart = Date()
  defer {
    let executionTime = Date().timeIntervalSince(methodStart)
    print("Execution time: \(executionTime)")
  }
  // do your stuff here
}

From Apple's docs: A defer statement is used for executing code just before transferring program control outside of the scope that the defer statement appears in.

This is similar to a try/finally block with the advantage of having the related code grouped.

An example of fine-grained timing using mach_absolute_time() in Swift 4:

let start = mach_absolute_time()

// do something

let elapsedMTU = mach_absolute_time() - start
var timebase = mach_timebase_info()
if mach_timebase_info(&timebase) == 0 {
    let elapsed = Double(elapsedMTU) * Double(timebase.numer) / Double(timebase.denom)
    print("render took \(elapsed)")
}
else {
    print("timebase error")
}

Since you want to optimize time moving from one page to another in a UIWebView, does it not mean you really are looking to optimize the Javascript used in loading these pages?

To that end, I'd look at a WebKit profiler like that talked about here:

http://www.alertdebugging.com/2009/04/29/building-a-better-javascript-profiler-with-webkit/

Another approach would be to start at a high level, and think how you can design the web pages in question to minimize load times using AJAX style page loading instead of refreshing the whole webview each time.

struct TIME {

    static var ti = mach_timebase_info()
    static var k: Double = 1
    static var mach_stamp: Double {

        if ti.denom == 0 {
            mach_timebase_info(&ti)
            k = Double(ti.numer) / Double(ti.denom) * 1e-6
        }
        return Double(mach_absolute_time()) * k
    }
    static var stamp: Double { return NSDate.timeIntervalSinceReferenceDate() * 1000 }
}

do {
    let mach_start = TIME.mach_stamp
    usleep(200000)
    let mach_diff = TIME.mach_stamp - mach_start

    let start = TIME.stamp
    usleep(200000)
    let diff = TIME.stamp - start

    print(mach_diff, diff)
}

Here's a Swift 3 solution for bisecting code anywhere to find a long running process.

var increment: Int = 0

var incrementTime = NSDate()

struct Instrumentation {
    var title: String
    var point: Int
    var elapsedTime: Double

    init(_ title: String, _ point: Int, _ elapsedTime: Double) {
        self.title = title
        self.point = point
        self.elapsedTime = elapsedTime
    }
}

var elapsedTimes = [Instrumentation]()

func instrument(_ title: String) {
    increment += 1
    let incrementedTime = -incrementTime.timeIntervalSinceNow
    let newPoint = Instrumentation(title, increment, incrementedTime)
    elapsedTimes.append(newPoint)
    incrementTime = NSDate()
}

Usage: -

instrument("View Did Appear")

print("ELAPSED TIMES \(elapsedTimes)")

Sample output:-

ELAPSED TIMES [MyApp.SomeViewController.Instrumentation(title: "Start View Did Load", point: 1, elapsedTime: 0.040504038333892822), MyApp.SomeViewController.Instrumentation(title: "Finished Adding SubViews", point: 2, elapsedTime: 0.010585010051727295), MyApp.SomeViewController.Instrumentation(title: "View Did Appear", point: 3, elapsedTime: 0.56564098596572876)]

many answers are weird and don't really give result in milliseconds (but in seconds or anything else):

here what I use to get MS (MILLISECONDS):

Swift:

let startTime = NSDate().timeIntervalSince1970 * 1000

// your Swift code

let endTimeMinusStartTime = NSDate().timeIntervalSince1970 * 1000 - startTime
print("time code execution \(endTimeMinStartTime) ms")

Objective-C:

double startTime = [[NSDate date] timeIntervalSince1970] * 1000.0;

// your Objective-C code

double endTimeMinusStartTime = [[NSDate date] timeIntervalSince1970] * 1000.0 - startTime;
printf("time code execution %f ms\n", endTimeMinusStartTime );

For Swift 4, add as a Delegate to your class:

public protocol TimingDelegate: class {
    var _TICK: Date?{ get set }
}

extension TimingDelegate {
    var TICK: Date {
        _TICK = Date()
        return(_TICK)!
     }

    func TOCK(message: String)  {

        if (_TICK == nil){
            print("Call 'TICK' first!")
        }

        if (message == ""){
            print("\(Date().timeIntervalSince(_TICK!))")
        }
        else{
            print("\(message): \(Date().timeIntervalSince(_TICK!))")
        }
    }
}

Add to our class:

class MyViewcontroller: UIViewController, TimingDelegate

Then add to your class:

var _TICK: Date?

When you want to time something, start with:

TICK

And end with:

TOCK("Timing the XXX routine")
  • Did you read the answers and comments? Do not use Date for this! – matt Mar 19 at 2:24

I use this in my utils library (Swift 4.2):

public class PrintTimer {
    let start = Date()
    let name: String

    public init(file: String=#file, line: Int=#line, function: String=#function, name: String?=nil) {
        let file = file.split(separator: "/").last!
        self.name = name ?? "\(file):\(line) - \(function)"
    }

    public func done() {
        let end = Date()
        print("\(self.name) took \((end.timeIntervalSinceReferenceDate - self.start.timeIntervalSinceReferenceDate).roundToSigFigs(5)) s.")
    }
}

... then call in a method like:

func myFunctionCall() {
    let timer = PrintTimer()
    // ...
    timer.done()
}

... which in turn looks like this in the console after running:

MyFile.swift:225 - myFunctionCall() took 1.8623 s.

Not as concise as TICK/TOCK above, but it is clear enough to see what it is doing and automatically includes what is being timed (by file, line at the start of the method, and function name). Obviously if I wanted more detail (ex, if I'm not just timing a method call as is the usual case but instead am timing a block within that method) I can add the "name="Foo"" parameter on the PrintTimer init to name it something besides the defaults.

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