For a single literal constant, it shouldn't matter. In the context of an initializer, a constant of any numeric type will be implicitly converted to the type of the object being initialized. This is guaranteed by the language standard. So all of these:
float x = 0;
float x = 0.0;
float x = 0.0f;
float x = 0.0L; // converted from long double to float
are equally valid and result in the same value being stored in
A literal constant in a more complex expression can have surprising results, though.
In most cases, each expression is evaluated by itself, regardless of the context in which it appears. Any implicit conversion is applied after the subexpression has been evaluated.
So if you write:
float x = 1 / 2;
1 / 2 will be evaluated as an
0, which is then converted to
float. It will setx
, not to0.5f`.
I think you should be safe using unsuffixed floating-point constants (which are of type
Incidentally, you might consider using
double rather than
float in your program.
double, as I mentioned, is the type of an unsuffixed floating-point constant, and can be thought of in some sense as the "default" floating-point type. It usually has more range and precision than
float, and there's typically not much difference in performance.