int to float conversion produces a warning?

It's surprising for me to see that even when the value can be converted, an int to float conversion always give a warning. Why is this?

``````int i = 0;
float f = 0; // warning here

// I thought this was an implicit conversion,
// meaning it is convertible with no warnings.
f = i;      // another warning here
``````

The warning is:

``````warning C4244: '=' : conversion from 'int' to 'float', possible loss of data
``````
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Assign MAX INT value to float type and see the result. –  Prince John Wesley Oct 15 '11 at 1:21
float f = 0.0f; // 0 is integer. –  Loki Astari Oct 15 '11 at 1:24
It gives same warning with both `f = MAXINT;` and `f = INT_MAX;` –  Norman Oct 15 '11 at 1:30
@John: I understand that `some_float = MAX_INT;` or `some_float = some_int` should give a warning. However, why would it be necessary for `0`? –  ruslik Oct 15 '11 at 1:38
`float f = 0;` is ok. Since it's a constant value that can be represented exactly, there shouldn't be a warning for the implicit int-to-float conversion. But personally, I'd write `float f = 0.0;`, just to be more explicit. (And I'd probably use `double` unless there's a good reason to use `float`.) –  Keith Thompson Oct 15 '11 at 1:41

It depends on how many bits you have in your `int` type. A float that is IEEE754 single precision is a 32-bit value but some of those bits are assigned to the exponent, meaning not all are available for precision.

If your `int` type has more precision than your `float`, then you may suffer loss of precision at the high end.

In other words, it may not be able to distinguish between `INT_MAX` and `INT_MAX - 1`.

Solution in that case is to use a wider floating point type (`double`) although, technically, you may find an implementation that has a 256-bit `int` type in which case you'll have to find another way :-)

This answer has a brief overview of how the floating point formats work, including the fact that only 23 of the 32 bits are available for the precision of the mantissa.

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I answered a similar question here:

Why does GCC warn against this implicit conversion?

The reason is that an `int` needs to be rounded when it is casted into a `float` because `float` cannot contain all the precision of an `int` in this case.

In your case, a `float` only has about 24 bits of precision. While an `int` has 32 bits of precision, therefore, some precision is loss by this cast, hence the warning.

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There can be (and are) implementations where `float` can hold all values of type `int` without loss of information -- for example if `int` and `float` are 16 and 32 bits, respectively, or 32 and 64 bits. But compilers are of course free to use information about the particular implementation when deciding to issue a warning. –  Keith Thompson Oct 15 '11 at 1:37
I do realize that, hence I've inserted "in this case" in my answer since it isn't defined to be universally true. –  Mysticial Oct 15 '11 at 1:37

Just for fun, try this and see what the output is (hint, you would expect the numbers to all be the same, wouldn't you?):

``````int i1(INT_MAX), i2;

float f(i1);

i2 = f;

std::cout << i1 << ' ' << f << ' ' << i2 << '\n';
``````

Well, the answers I get are:

``````2147483647 2.14748e+009 -2147483648
``````

So the compiler is quite right to point out that something might go wrong with the cast, but it isn't clever enough to know for sure, because it will only tend to happen at the extremities of the numerical range. It's always best to static_cast<> in my view, for clarity at least, and to show the compiler that it was what you intended.

By the way I'm not entirely sure why the above result happens. Perhaps someone else can explain!

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It gives me two warnings, one on initializing float and one on converting to float. –  Norman Oct 15 '11 at 1:33
@user974191: That wasn't clear from your original question. I've updated it to reflect that information (though I'm a bit surprised it warned about `float f = 0;`). Please review my edits. –  Keith Thompson Oct 15 '11 at 1:47