# What happens if I assign a number with a decimal point to an integer rather than to a float?

A friend of mine asked me this question earlier, but I found myself clutching at straws trying to give him an adequate explanation.

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Have you tried it? –  Beta Sep 20 '11 at 23:52
@Beta Why does trying it help? If it is UB then trying it gets you nowhere. –  David Heffernan Sep 20 '11 at 23:56
Is it just me, or is the fact that you can happily assign a float to an int not utterly depressing. –  David Heffernan Sep 21 '11 at 0:03
I didn't need to try it, as I already understand what happens. I simply couldn't think of how to word it. –  xentoo Sep 21 '11 at 0:05

If you assign a value of any numeric type (integer, floating-point) to an object of another numeric type, the value is implicitly converted to the target type. The same thing happens in an initialization or when passing an argument to a function.

The rules for how the conversion is done vary with what kind of types you're using.

If the target type can represent the value exactly:

``````short s = 42;
int i = s;

double x = 42.0;
int j = x;
``````

there may be a change in representation, but the mathematical value is unchanged.

If a floating-point type is converted to an integer type, and the value can't be represented, it's truncated, as @sashang's answer says -- but if the truncated value can't be represented, the behavior is undefined.

Conversion of an integer (either signed or unsigned) to an unsigned type causes the value to be reduced modulo `MAX+1`, where `MAX` is the maximum value of the unsigned type. For example:

``````unsigned short s = 70000; // sets s to 4464 (70000 - 65536)
// if unsigned short is 16 bits
``````

Conversion of an integer to a signed type, if the value won't fit, is implementation-defined. It typically wraps around in a manner similar to what happens with unsigned types, but the language doesn't guarantee that.

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A float or a double will be truncated. So 2.99 will become 2 and -2.99 will become -2.

The pertinent section from the standard (section 4.9)

1 A prvalue of a floating point type can be converted to a prvalue of an integer type. The conversion truncates; that is, the fractional part is discarded. The behavior is undefined if the truncated value cannot be represented in the destination type.

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You should show the negative case as well as it might be counter-intuitive. –  Michael Dorgan Sep 20 '11 at 23:53
Thanks! For some reason I used a floundering rounding down analogy, but only achieved a barrage of questions from him. ("Why not up then? ... etc) Actually using truncated will make it clearer for him. –  xentoo Sep 20 '11 at 23:58
@DavidHeffernan: It's undefined if the truncated value can't be represented in the destination type. –  sashang Sep 20 '11 at 23:58
OK, I get it. Sorry! All the same, example with negative values would be interesting. –  David Heffernan Sep 20 '11 at 23:59
@DavidHeffernan: That's probably because of the way the shell interprets the return value from that program. -2 becomes 254. –  sashang Sep 21 '11 at 0:07