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Why is NSNumber immutable? Was there a good reason? Because now I am thinking about creating my own class just for the sake of mutability.

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Why should it be mutable? – BoltClock Apr 28 '11 at 13:30
I'm not sure what your question really is. Go ahead and subclass NSNumber (beats moaning here). – SK9 Apr 28 '11 at 13:33
Not sure why this gets so many down votes. I think immutable is the correct implementation, yet the question is valid (and I think many people asked the same question) – Eiko Apr 28 '11 at 13:51
I too think this is a perfectly valid question, especially for a beginner maybe coming from another language. If you can't ask on SO where should you ask? – hooleyhoop Apr 28 '11 at 14:02
I hope the four people who upvoted my comment weren't the four downvoters. I never said the question was bad. – BoltClock Apr 28 '11 at 14:08
up vote 10 down vote accepted

A number is a very basic data type. A number is just that - a number. If you mutate it, it just happens to be something else. A number simply cannot change.

Compare that with more complex data, where the object itself still represents the same thing.

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Yes but IMHO an NSNumber object is something really fat compared to simply storing an int. I was taught that alloc is a performance killer. And objects are structures with some more fields. Also, an NSNumber seems to store even more information. It's definitely something fat. More fat than just an int. So I was curious why the heck I can't change the instance variable of that object which represents the value. It's after all just an instance variable in an object. It must be like that. – Proud Member Apr 28 '11 at 14:22
If allocation is local, that is, it is known not to leak to some outside structures in this call and its nested calls, it can just be made on the stack at the expense of one register increment. I don't know whether ObjC compiler can track this, though. – 9000 Apr 28 '11 at 14:34
Just about everything in your app will be more memory intensive then alloc'ing an NSNumber. You're going to get more bang for your buck looking elsewhere for performance improvements. With that in mind, you may be using NSNumber where a simple int, float etc. is more appropriate. – averydev Sep 23 '11 at 0:55
Using NSNumber brings another advantage: It can be nil. Using int, float etc. will make you use some kind of hack like constants to represent a missing value. – Eiko Sep 24 '11 at 8:16
@Ant Actually it's the pointer to the NSNumber that's nil, not the number itself. It's frequently useful for optional attributes. Using some default value is not always appropriate, and later you couldn't tell if it was set manually or not. – Eiko Aug 12 '12 at 20:03

Immutable numbers save space. Assume that your program creates many NSNumbers, and most of them happen to be small numbers like 0 or 1. With immutable numbers, you only need a handful objects, one for each distinct value. With mutable numbers, you have as many objects as you have numbers.

Immutable numbers are easy to share. Assume that you wrap a primitive number (like int) with an NSNumber. With immutable NSNumber, the compiler is always sure that the values match, so it can unwrap it and pass the primitive value to function that expect a primitive value. With mutable NSNumber, you can't be sure than another thread did not change the value, and have to actually unwrap it every time, or even think about synchronization. This becomes more costly if the value is passed further and further in nested calls.

Immutable objects have many other useful properties: they are good hash keys, their lifetime and scope is easier to determine, etc. Many functional languages, e.g. Erlang or XSLT, only have immutable data structures.

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I don't think so. NSNumber is a class like every other, and there are instance methods to return the primitive values. So you mean I can do if(fatNSNumberObj == 33) {...}? Can't believe that. – Proud Member Apr 28 '11 at 14:25
Probably you're right because what you write sounds clever. But I don't get it. NSNumber is a class, it must have an instance variable to store the value. So when it has that instance variable, it just does not make sense that it is impossible to change it. Or: It is done on purpose. But I don't see where the compiler does unwrap or wrap anything automatically for me. This would mean that the compiler is aware of NSNumber and that I can forget about calling intValue etc. which is just not the case from my experience. – Proud Member Apr 28 '11 at 14:28
NSNumber has an interface like any other class. But I'm pretty sure that the compiler knows a lot about it and uses various speedups when it's safe. I'm no expert in ObjC, though; let someone more knowledgeable comment on this. – 9000 Apr 28 '11 at 14:30
@9000 “I'm pretty sure that the compiler knows a lot about it and uses various speedups” see below for a few details on this. – Jano Apr 13 '13 at 2:03
In 64-bit, some NSNumber objects are really tagged pointers. If the value is small enough, it gets encoded directly inside the pointer and there is no corresponding object allocated in memory. This won't be possible if NSNumber is mutable. – adib Feb 23 at 5:49

Eiko makes a good point: a NSNumber represents a basic data type and it makes no sense to make it mutable.

It's like having a int i=0; and asking why 0 is not mutable. And in OS X Lion x64, it is exactly that for integers, because NSNumbers are implemented as tagged pointers, which are pointers that contain data instead an address.

Example, let’s say we want to store the integer 42 in a pointer. We could create a NSNumber and then point to it, or we could replace the address with a 42, in which case we can skip object creation. But how can we tell if we are dealing with a common pointer or a tagged pointer?

A x86 64 pointer has 64 bits, but only uses 48 bits for the pointer address. The reason is that 48 bit provides a 256 TB address space, which is a lot. Using 64 bits would be wasteful because it would require more transistors in the CPU. So the potential address space is 64bit, but current CPUs are only able to use 48. Because of this, the ending bits of a pointer are 0 because they are left unused. We use these last bits to indicate that the pointer is a tagged pointer that represents an integer with a given number of bits.

Therefore, a OS X NSNumber representing an integer is literally just an integer number, but the runtime is able to detect it as a tagged pointer and present it to the user as a common instance.

For other numeric types the implementation is way more complicated, as seen in the NSNumber toll-free Core Foundation counterpart CFNumber.

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I think everybody had a pretty good answer except maybe 9000. not sure what he's talking about, though maybe it's just over my head.

The decision to make NSNumber immutable is a design decision by the creators of the Foundation Framework. I think we can all agree on that.

I assume the reason they did that was because all of the instantiated objects in Objective-C are referenced using pointers, including NSNumber. This causes some design concerns when passing NSNumber around. Let's say you create a class called "Person", with an NSNumber property, "myAge". So your application instantiates an instance of Person and sets myAge to 28. Some other part of the application now asks the Person object for its age, and it returns (NSNumber*)myAge, or a pointer to the NSNumber object that wraps the value 28. Since a pointer was passed, your Person object now has to wonder if that other part of the application changed the value of myAge!

So NSNumber is immutable, because it is an object meant to hold a value that is free to be created, retrieved, and passed around your application as a value, not as unique object.

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I guess it is immutable, like other classes (NSArray, NSString, etc.), because immutable objects are easier to use and share and pass around in threaded code. See wikipedia.

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A NSNumber Subclassing example

Note: as documentation says, objCType and value accessor of implemented type (intValue here) must be implemented.

This is done here with a designated initializer (-)init... but this may be done with the (+)method.

@interface NSMutableNumber : NSNumber
    int intValue;
@property const char *objCType;
+ (id) mutablenumberWithInt:(int)value;

@implementation NSMutableNumber
@synthesize objCType;
+ (id) mutablenumberWithInt:(int)value {
    return [[self alloc] initWithInt:value];
- (id) initWithInt:(int)value {
    if (self=[super init]) {
    return self;
- (int)intValue {
    return intValue;
- (void)setInt:(int)value {



    NSMutableNumber *mutn=[NSMutableNumber mutablenumberWithInt:2];
    NSLog(@"%@\n", mutn);

    // return 2

    [mutn setInt:4];
    NSLog(@"%@\n", mutn);

    // return 4
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