# Why do these float calculations return different values? [duplicate]

I'm working with an iOS project where I have to do a bit of math. Can anyone explain to me why these two implementations return different results?

``````float total = 31/30;
NSLog(@"%f", total); // returns 1.00000 in console

float total2 = 31/30.0;
NSLog(@"%f", total2); // returns 1.03333 in console
``````
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## marked as duplicate by Josh Caswell, Martin R, haccks, Brent Worden, mathematician1975Jan 3 '14 at 22:01

Integer division. –  Matt Ball Jan 3 '14 at 20:44
The first operation isn't a "float calculation". –  Hot Licks Jan 3 '14 at 20:56
When computing floating point on a computer, some finite decimal results correspond to infinite binary sequences. For example .3 base 10 is .010101010101.... base 2. –  abden003 Jan 3 '14 at 20:58

In C division, the type of the result is the type of the most precise number in the calculation. In your first example, both `31` and `30` are integers, and so the result is then the integer `1` which is cast to a float to result in `1.00`. In your second example, while `31` is an integer, `30.0` is a literal float, and the calculation has a float result, which is than stored in your variable (`1.033333...`).
There are a few languages where there's a separate operator for integer division vs float division. I'm thinking Pascal (or at least some versions of it) uses `%` for integer division. –  Hot Licks Jan 3 '14 at 20:57
The sentence “the type of the result is the type of the most precise number in the calculation” does not reflect the actual clause of the C standard, where it is much clearer that promotions happen on the operands. This matters because there is not always a “most precise” type between two types, for instance when adding a 32-bit `int` and a 32-bit `float`. Lastly, in “the majority of computer languages”, the integer division is not the floor but the truncation (towards zero) of the real result. –  Pascal Cuoq Jan 3 '14 at 23:22