# Objective-C Integer Arithmetic

I'm trying to calculate some numbers in an iPhone application.

``````int i = 12;
int o = (60 / (i * 50)) * 1000;
``````

I would expect o to be 100 (that's milliseconds) in this example but it equals 0 as displayed by NSLog(@"%d", o).

This also equals 0.

``````int o = 60 / (i * 50) * 1000;
``````

This equals 250,000, which is straight left-to-right math.

``````int o = 60 / i * 50 * 1000;
``````

What's flying over my head here?

Thanks,
Nick

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See [C problem - division result is always zero ](stackoverflow.com/questions/2345902/…). –  Matthew Flaschen Nov 16 '10 at 18:57

In Objective-C `/` performs integer division on integer arguments, so 4/5 is truncated to 0, 3/2 is truncated to 1, and so on. You probably want to cast some of your numbers to floating-point forms before performing division.

You're also running in to issues with precedence. In the expression

``````60 / (i * 50) * 1000
``````

the term inside the parentheses is calculated first, so 60 is divided by 600 which produces the result 0. In

``````60 / i * 50 * 1000
``````

the first operation is to divide 60 by 12 which gives the result 5 and then the multiplications are carried out.

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C too, of course. Arithmetic in Objective-C is identical to arithmetic in C. :) –  Jonathan Grynspan Nov 16 '10 at 18:58
Strictly speaking, the result is not rounded, it is truncated. –  Dima Nov 16 '10 at 18:59
Well, truncation is a form of rounding (toward zero) so... yeah. –  Jonathan Grynspan Nov 16 '10 at 19:03
@Jonathan Sorry, but it helps to be precise about these things. Truncation is a form of rounding the same way integer division is a form of floating-point division. Not knowing the difference can get you into trouble, as you can see. –  Dima Nov 16 '10 at 19:08
@Dima: Trucation is equivalent to floor only for unsigned. Compare: floor(-5./2.) and -5/2. First will be -3., but second is -2. Truncation AKA round to zero if floor for positives, but ceil for negatives. That's detail, but it may foul up you. –  Vovanium Nov 16 '10 at 21:00

An integer divided by an integer is an integer.

so `60/600` is not `0.1`, it is `0`.

Cast (or declare) some stuff as `float` instead.

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Casting or introducing an implicit conversion to `float` or `double` is not the way to evaluate integer expressions. On systems without IEEE floating point, it could give very bogus results (C makes almost no requirements about the quality of floating point implementation) and even with IEEE floating point, you may get errors from loss of precision with integers too large to fit in the floating point type used. The correct solution to OP's problem is simply to algebraically simplify the expression. –  R.. Nov 16 '10 at 19:36

Replace:

``````int o = (60 / (i * 50)) * 1000;
``````

with:

``````int o = 1200/i;
``````
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Whoever the downvoter is, please explain yourself. Unlike the other answers, this answer gives the exact truncated-integer result of the computation, without any corner-cases due to overflow or loss of precision. As far as I can tell it's the only correct answer here. –  R.. Nov 16 '10 at 20:35

It's doing integer math. 60 / (12 * 50) is 0.1, truncates to 0.

Should work if you force floating point and then cast back to an integer.

``````int o = (int)(60.0 / ((double) i / 50.0) * 1000.0;
``````

Probably not really necessary to make everything a double.

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Casting or introducing an implicit conversion to `float` or `double` is not the way to evaluate integer expressions. See my comment on Dave's answer. –  R.. Nov 16 '10 at 19:36

By order of precedence, the operation:

``````60 / (12 * 50)
``````

is performed before multiplying by `1000`.

This value is less than 1 and is cast to an `int`, which truncates it to `0`. And `0` times anything is `0`.

Use a `float` or first multiply by `1000` to ensure you're not ending up with propagating a `0` in your calculations.

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All the operations in your expression are performed in integer arithmetic, meaning that the fractional part of each intermediate result is truncated. This means that if you divide a smaller integer by a larger integer you will always get 0.

To get the result you want you must either make sure the operations are performed in a particular order, or you must use floats. For example the result of

``````int o = (60.0 / (i * 50.0)) * 1000.0;
``````

should be o = 100.

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I think you need to use float here instead of int. It will work the way you want! Will give you answer in decimals as well.

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While `float` will work, that doesn't address the misunderstanding that caused the problem in the first place! –  Andrew Oct 29 '12 at 12:39