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I have some method that receives a float as an argument, and checks to see if this float is in an array. To do this, I first convert the float to a NSNumber. This is a testable simplification of my code:

float aFloat = 0.3;
NSNumber *aNSNumber = @(aFloat);

NSArray *anArray = @[@(0.0), @(0.3), @(1.0)];
NSLog(@"%d", [anArray containsObject:aNSNumber]);

This code will log 0 (i.e. NO), so it's saying that 0.3is not in anArray. If aFloat is a "round" number such as 0.0, 0.5, or 1.0, the test works and logs 1 (i.e. YES). Any number other than that, like the 0.3 above, fails.

In the other hand, if we change aFloat to be a double, it works. Or, if we change anArray to this:

NSArray *array = @[[NSNumber numberWithFloat:0.0], [NSNumber numberWithFloat:0.3], [NSNumber numberWithFloat:1.0]];

It also works. What I presumed is that the NSNumber @() notation creates a numberWithDouble:.

But, my question is, shouldn't it work even when aFloat is a float? Since I'm "converting" it anyways by saving it in aNSNumber... And shouldn't it automatically recognize that the float 0.3 and the double 0.3 are actually the same numbers? Also, why the "round" numbers works anyway?

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float and double are not the same type, so why should NSNumber go to the trouble of hashing them as the same type? –  CodaFi Aug 25 '13 at 6:03
@CodaFi because after I created them, they should all be the same NSNumber. In my opinion, it shouldn't matter how you created the NSNumber — they represent the same "real world" number (0.3 in this case), so the NSNumber created with the float 0.3 should be the same as the NSNumber created with the double 0.3. They should be only differentiable after you got their values from NSNumber using floatValue or doubleValue. –  glevco Aug 25 '13 at 18:21
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3 Answers

up vote 3 down vote accepted

@(0.3) uses -numberWithDouble: because 0.3 has type double. If you wrote @(0.3f) then it would use -numberWithFloat:.

Neither float nor double can store 0.3 exactly. (It's similar to the problem of writing 1/3 in decimal form - you can't do it exactly using a finite number of digits.) Instead, you get the float closest to 0.3 and the double closest to 0.3. These two numbers are not equal to each other, so -containsObject: can't find a match.

Both float and double can store 0.0 and 1.0 exactly, so both conversions give you the same result and -containsObject: succeeds.

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The @(0.3) in the anArray is a double wrapped in an NSNumber. And of course your aFloat is a float wrapped in an NSNumber.

Try one of the two possible changes:

1) Change float aFloat to double aFloat


2) Change @(0.3) in anArray to @(0.3f).

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Thanks, but I already have these solutions as I stated in my question. What I'm looking to is actually some sort of "why" this works like this... See my last paragraph for reference. –  glevco Aug 25 '13 at 6:14
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You can visualize the difference between 0.3 and 0.3f with this snippet:

NSLog(@"%.20f %.20f", 0.3, 0.3f);

My debugger shows: 0.29999999999999998890 0.30000001192092895508

Funny enough, the '0.3' appears more accurate than the '0.3f'. Anyway, I speculate that the compiler may take the straight 0.3 as a double first before converting it to a float whereas the 0.3f specification is a float immediately.

Another thing to observe is had you done this:

NSArray *anArray = @[@(0.0), aNSNumber, @(1.0)];

The containsObject call would have succeeded. Perhaps the compiler's route to convert the float into whatever it uses internally between the aFloat declaration and the literal has some differences. Just speculating here...

In general, I don't like testing for equality with floats or doubles for that matter. Accuracy problems can through you for a loop just too easily.

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"Funny enough, the '0.3' appears more accurate than the '0.3f'". Nothing strange about that at all. 0.3 is a double (double precision floating type) while 0.3f is a float (single precision floating type). I'd say it's very much as expected. –  David Rönnqvist Aug 25 '13 at 15:52
Ah didn't know that. I guess it makes sense the double is the compiler's default. –  Yohst Aug 26 '13 at 3:39
It's not specifically the compiler's default. It's defined by the C language spec. –  Rob Napier Aug 26 '13 at 21:18
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