Does anyone know why NextStep/Apple decided to take the "convenient method" of doing nothing when passing a Nil object a message, but the "Java method" of raising an exception when passing an instantiated object an invalid selector?

For example,

// This does "nothing"
NSObject *object = Nil;
[object thisDoesNothing];

object = [[NSObject alloc] init];
// This causes an NSInvalidArgumentException to be raised
[object thisThrowsAnException];

So on one hand, we have the convenience of not having to check for Nil (assuming we don't care too much about the result of the method call)--but on the other hand we have to check for an exception if our object doesn't respond to a method?

If I'm not sure if the object will respond, I either have to:

@try {
    [object thisThrowsAnException];
} @catch (NSException *e){
    // do something different with object, since we can't call thisThrowsAnException


if([object respondsToSelector:@selector(thisThrowsAnException)]) {
    [object thisThrowsAnException];
else {
    // do something different with object, since we can't call thisThrowsAnException

(The latter is probably the better way to do it, since if object is Nil, the selector would NOT raise an exception, thus your code might not behave the way you want it to).

My question is: WHY did Apple decide to implement it this way?
Why not have the unrecognized selector call to an instantiated object not raise an exception?
Alternatively, why not have the Nil object raise an exception if you try to call a method on it?

  • closely related: Sending a message to nil
    – jscs
    Jul 17, 2012 at 20:19
  • 5
    While it is quite conceivable to turn an ability to send messages to nil to your advantage, sending a wrong message is nearly always an indication of a coding error. Jul 17, 2012 at 20:53

3 Answers 3


I can't fully answer your question, but I can answer part of it. Objective-C allows you to send a message to nil because it makes code more elegant. You can read about this design decision here, and I will steal its example:

Let's say you want to get the last phone number that some person dialed on her office phone. If you can't send messages to nil, you have to write it like this:

Office *office = [somePerson office];
// Person might not have an office, so check it...
if (office) {
    Telephone *phone = [office telephone];
    // The office might not have a telephone, so check it...
    if (phone) {
        NSString *lastNumberDialed = [phone lastNumberDialed];
        // The phone might be brand new, so there might be no last-dialed-number...
        if (lastNumberDialed) {
            // Use the number, for example...
            [myTextField setText:lastNumberDialed];

Now suppose you can send messages to nil (and always get nil back):

NSString *lastNumberDialed = [[[somePerson office] telephone] lastNumberDialed];
if (lastNumberDialed) {
    [myTextField setText:lastNumberDialed];

As for why sending an unrecognized selector to an object raises an exception: I don't know for sure. I suspect that it's far more common for this to be a bug than to be harmless. In my code, I only want an unrecognized selector to be silently ignored when I need to send an optional protocol message (e.g. sending an optional message to a delegate). So I want the system to treat it as an error, and let me be explicit in the relatively rare case when I don't want it to be an error.

Note that you can tinker (to some extent) with the handling of unrecognized selectors in your own classes, in a few different ways. Take a look at the forwardingTargetForSelector:, forwardInvocation:, doesNotRecognizeSelector:, and resolveInstanceMethod: methods of NSObject.

  • The only good example I can think of where you would want to suppress the exception would be the case where you have some sort of polymorphism and you're not sure whether the object has the method and if it doesn't, you wouldn't do anything differently. i.e. this would usually be a case where you would cast the object then call the selector on it. This is pretty rare though... I can't think of a good practical example, but something like: if B inherits from A: for(ClassA obj : listOfAs) { [obj specialmethodCallOnlyBHas]; // do stuff with obj: } Jul 17, 2012 at 22:07
  • 2
    Right. That's a case where you want to check with respondsToSelector: first, as it's much faster than catching an exception. Apple's classes cache the results of respondsToSelector: when you first set the delegate (or data source or whatever).
    – rob mayoff
    Jul 17, 2012 at 22:17
  • an elegance we lost with Swift :-(
    – malhal
    Aug 7, 2017 at 13:11
  • @malhal Don't we use Optional Chaining for this?
    – atulkhatri
    Jan 18, 2018 at 4:53

From the good ol' documentation:

In Objective-C, it is valid to send a message to nil—it simply has no effect at runtime.

As for the other problem of the unrecognized selector behavior, an old implementation file of NSObject (from the MySTEP library) shows that the culprit is the NSObject method -doesNotRecognizeSelector:, which looks a bit as follows:

- (void) doesNotRecognizeSelector:(SEL)aSelector
    [NSException raise:NSInvalidArgumentException
                format:@"NSObject %@[%@ %@]: selector not recognized", 
                        NSStringFromClass([self class]), 

Which means that ObjC methods could feasibly be tinkered with so that they do not in fact have to raise an error. Which means the decision was entirely arbitrary, just like the decision to switch to "method-eating" messages to nil. A feat which can be done through method swizzling NSObject (wholly dangerous, as it will raise an EXC_BAD_ACCESS, or EXC_I386_BPT on mac, but at least it doesn't raise an exception)

void Swizzle(Class c, SEL orig, SEL new)
    Method origMethod = class_getInstanceMethod(c, orig);
    Method newMethod = class_getInstanceMethod(c, new);
    if(class_addMethod(c, orig, method_getImplementation(newMethod), method_getTypeEncoding(newMethod)))
        class_replaceMethod(c, new, method_getImplementation(origMethod), method_getTypeEncoding(origMethod));
        method_exchangeImplementations(origMethod, newMethod);

-(void)example:(id)sender {
    Swizzle([NSObject class], @selector(doesNotRecognizeSelector:), @selector(description));
    [self performSelector:@selector(unrecog)];

The category:

@implementation NSObject (NoExceptionMessaging)

-(void)doesNotRecognizeSelector:(SEL)aSelector {
    NSLog(@"I've got them good ol' no exception blues.");
  • Note, I'm reworking this with the modern runtime to get rid of that exception. I can simply replace the IMP, instead of swizzling.
    – CodaFi
    Jul 17, 2012 at 21:29
  • 1
    No need to swizzle; if you're willing to tread down this dark path, you can do it at compile-time and just create a category on NSObject that overrides doesNotRecognizeSelector:.
    – jscs
    Jul 17, 2012 at 21:33
  • 1
    @JoshCaswell Hiss! Categories should not be used to override methods!!!! I'll runtime this first, and use that as a last resort.
    – CodaFi
    Jul 17, 2012 at 21:34
  • Eh, neither should methods be swizzled. Do you need to send a message to super (there isn't one) here? Are you doing something with the original implementation? Those are the reasons you avoid category overrides.
    – jscs
    Jul 17, 2012 at 21:36
  • Work in progress, my friend. In fact, the category still throws an EXC_I386_BPT on OSX, so the implementations are just as dangerous.
    – CodaFi
    Jul 17, 2012 at 21:38

For everyone's amusement, due to the discussion CodaFi and I were having, here's a quickly-hacked-together way to eat normally unresponded-to messages and have them return nil:

@interface EaterOfBadMessages : NSObject 

@implementation EaterOfBadMessages

- (NSMethodSignature *)methodSignatureForSelector:(SEL)aSelector 
    NSMethodSignature * sig = [super methodSignatureForSelector:aSelector];
    if( !sig ){
        sig = [NSMethodSignature signatureWithObjCTypes:"@@:"];
    return sig;

- (void)forwardInvocation:(NSInvocation *)anInvocation 
    id nilPtr = nil;
    [anInvocation setReturnValue:&nilPtr];


int main(int argc, const char * argv[])

    @autoreleasepool {

        EaterOfBadMessages * e = [[EaterOfBadMessages alloc] init];
        // Of course, pre-ARC you could write [e chewOnThis]
        NSLog(@"-[EaterOfBadMessages chewOnThis]: %@", [e performSelector:@selector(chewOnThis)]);

    return 0;

Please don't use this in real life.

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