# c/c++ notation of double floating point values

What's the notation for double precision floating point values in C/C++?

.5 is representing a double or a float value?

I'm pretty sure 2.0f is parsed as a float and 2.0 as a double but what about .5?

(Edit): Thank you very much guys. http://c.comsci.us/etymology/literals.html

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Why should `.5` vs. `.5f` be treated differently than `2.0` vs. `2.0f`? – leemes Nov 7 '12 at 19:36
Ok maybe it's not that obvious. However, the zero before the decimal sign is optional, in almost every language. Even when typing numbers on pocket calculators :) – leemes Nov 7 '12 at 19:38
But note: without the decimal sign it becomes an integer literal. The suffix `f` is illegal then... Also note that in most situations you don't need to append the `f`, for example in `float x = .5;`. The compiler will treat it just as a float. (Actually, it is a double constant assigned to a float, but the conversion is done at compile time, so it produces the same program code than with the `f` appended.) If the value is integral, you can even omit the decimal sign. However, it gets dangerous if both float and double are accepted in the context, e.g. on function overloading etc. – leemes Nov 7 '12 at 20:29
@leemes yes, most times you can omit the f suffix when you initialize a float variable with a literal, but not always, see my answer below. – aka.nice Nov 7 '12 at 23:07

It's double. Suffix it with f to get float.

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I haven't seen that mentioned anywhere, do you know any good list of the variable notations? – NT_SYSTEM Nov 7 '12 at 19:36
@NT_SYSTEM It's "literal numbers" what you should read about. I think you find some useful references on google. – leemes Nov 7 '12 at 19:37
@leemes Alright, thanks. – NT_SYSTEM Nov 7 '12 at 19:37

Technically, initializing a float with a double constant can lead to a different result (i.e. cumulate 2 round off errors) than initializing with a float constant.

Here is an example:

``````#include <stdio.h>
int main() {
double d=8388609.499999999068677425384521484375;
float f1=8388609.499999999068677425384521484375f;
float f2=8388609.499999999068677425384521484375;
float f3=(float) d;
printf("f1=%f f2=%f f3=%f\n",f1,f2,f3);
}
``````

with gcc 4.2.1 i686 I get

``````f1=8388609.000000 f2=8388610.000000 f3=8388610.000000
``````

The constant is exactly in base 2:

``````100000000000000000000001.011111111111111111111111111111
``````

Base 2 representation requires 54 bits, double only have 53. So when converted to double, it is rounded to nearest double, tie to even, thus to:

``````100000000000000000000001.10000000000000000000000000000
``````

Base 2 representation requires 25 bits, float only have 24, so if you convert this double to a float, then another rounding occur to nearest float, tie to even, thus to:

``````100000000000000000000010.
``````

If you convert the first number directly to a float, the single rounding is different:

``````100000000000000000000001.
``````

As we can see, when initializing f2, gcc convert the decimal representation to a double, then to a float (it would be interesting to check if the behaviour is determined by a standard).

Though, as this is a specially crafted number, most of the time you shouldn't encounter such difference.

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That's a good example. – Harald Brendel Jun 20 '13 at 21:39