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Is there any way to probe an NSNumber to see if it is an int or unsigned int. I have tried to do this with objCType, but I can't tell the difference. Consider the following scenario:

NSNumber *number1 = [NSNumber numberWithUnsignedInt:100];
NSNumber *number2 = [NSNumber numberWithInt:100];

NSLog(@"%@",[NSString stringWithUTF8String:[number1 objCType]]);
NSLog(@"%@",[NSString stringWithUTF8String:[number2 objCType]]);

Output: i i

Does any one know how to resolve this problem?

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5 Answers 5

up vote 2 down vote accepted

objCType doesn't guarantee that the type it returns will be the same as the type you put in.

What you're trying to do essentially ignores the point of NSNumber, which is to avoid the clumsiness with which numerical values need to be treated in C. By wrapping a numerical value in an NSNumber, you can compare it with any other such value without regard to their "actual" (bit-wise) types, and you can get the value back in a different "actual" type than you started with.*

It doesn't give you back the exact same type because it doesn't need to -- you put in whatever you want and take out whatever you want. The type of a C variable isn't known at run-time, anyways.

I guess you have to use NSNumber because you need to stick numerical values into a Cocoa collection? You may have to wrap the NSNumber in your own object that also keeps a record of the initial type. This will require a long switch or a bunch of if/elses...


* The only caveat here is that now you must be concerned again with the size of the type: trying to put a value bigger than FLT_MAX into a float, for example, gives you garbage.

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Why is this a problem?

NSNumber, simply put, doesn't care if the number is unsigned or signed, and will coerce or convert as necessary; just as it doesn't care if the number is fixed or floating point.

The type of the number only really matters in creation.

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I have a program where I know what type of number it is at creation. But I may later access this number, and I need to know how to type it at access. If you can think of a more elegant way of doing this, I am open to suggestion. –  banDedo Apr 27 '11 at 22:10
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No. Under the hood NSNumber uses CFNumber, and the latter does not store unsigned values - the NSNumber methods check the value passed in and if it is too large to fit in a signed type of the same size it uses the next larger signed type. (And yes, if you store a large unsigned 64 bit integer NSNumber uses an internal 128-bit signed integer.)

If you want to keep track of the original type you will have to do so yourself, e.g. create an object with a field for the type and a field for the number...

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You can extend the NSNumber using category.

@implements NSNumber (Signed)
    - (BOOL)isNumberSigned {
        // Test if number less than zero
        // return the result
    }

That is the beauty of Objective-C; very simple to extend a class.

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Using [- doubleValue], [- stringValue] or [- decimalValue] can reveal if the original value was negative when created using a signed init method. I am surprised there is no simple - wasCreatedSigned functionality.

BOOL negTest;
negTest = ([myNSNumber doubleValue] < 0);                 // <0.1 micro sec
negTest = [[myNSNumber stringValue] hasPrefix:@"-"];      // >1.5 micro sec
negTest = ([myNSNumber decimalValue]._isNegative);        // >2.5 micro sec
negTest = ([myNSDecimalNumber decimalValue]._isNegative); // <0.1 micro sec

Internally NSNumber IS aware of the signed state of its value.

As for -objCType I've noticed it will not always reflect the init type as the documentation says. But it will accurately distinguish floats/doubles (d) away from integers (c, s, i, q, Q...).

Here is some code to play with, it will reveal some oddities (tested on iOS 4.3):

void isNeg(NSNumber* num, NSString* initMethod);
void isNeg(NSNumber* num, NSString* initMethod)
{
    printf("\r");
    NSLog(@"%@ (class:%@)", initMethod, [num class]);

    double dval = [num doubleValue];
    NSLog(@"Is Negative:%c, objCType:%s", (dval<0)?'Y':'N', [num objCType]);
    NSLog(@"strVal: %@", [num stringValue]);
    NSLog(@"%%f    : %f", dval);
    NSLog(@"%%g    : %g", dval);
    NSLog(@"%%lld  : %lld", [num longLongValue]);
    NSLog(@"%%llu  : %llu", [num unsignedLongLongValue]);
}

// main...
double testDouble = 10001e-9;
Class nc = [NSNumber class];

isNeg([nc numberWithChar:    -1], @"Char");
isNeg([nc numberWithChar:    -2], @"Char");
isNeg([nc numberWithChar:    -3], @"Char");
isNeg([nc numberWithChar:     1], @"Char");
isNeg([nc numberWithChar:    12], @"Char");
isNeg([nc numberWithChar:    13], @"Char");
isNeg([nc numberWithUnsignedChar: 12], @"UChar");
isNeg([nc numberWithUnsignedChar: 13], @"UChar");

isNeg([nc numberWithLongLong:        -LONG_LONG_MAX], @"LongLong");
isNeg([nc numberWithLongLong:         LONG_LONG_MAX], @"LongLong");
isNeg([nc numberWithUnsignedLongLong: ULONG_LONG_MAX], @"ULongLong");

isNeg([nc numberWithDouble:-LONG_LONG_MAX], @"Double");
isNeg([nc numberWithDouble: ULONG_LONG_MAX], @"Double");

isNeg([nc numberWithDouble:-testDouble], @"Double");
isNeg([nc numberWithDouble: testDouble], @"Double");

nc = [NSDecimalNumber class];
isNeg([nc numberWithDouble:-testDouble], @"Double");
isNeg([nc numberWithDouble: testDouble], @"Double");
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