# why sizeof(13.33) is 8 bytes?

When I give `sizeof(a)`, where `a=13.33`, a float variable, the size is 4 bytes. But if i give `sizeof(13.33)` directly, the size is 8 bytes.

I do not understand what is happening. Can someone help?

-
Dude, stop adding and removing the `math` tag to bump this question to the top. – Xeo Apr 12 '11 at 11:49
try 13.ff instead and also refer this link stackoverflow.com/questions/2331751/… – user3073914 Dec 18 '13 at 8:52

Those are the rules of the language.

13.33 is a numeric literal. It is treated as a double because it is a double. If you want 13.33 to be treated as a float literal, then you state 13.33f.

13.33 is a double literal. If sizeof(float) == 4, sizeof(13.33f) == 4 should also hold because 13.33f is a float literal.

-

The literal 13.33 is treated as a double precision floating point value, 8 bytes wide.

-
To explicitly mark a number literal as a single precision float, try `13.33f`. `sizeof(13.33f)` returns the expected 4. – Mike Welsh Apr 4 '11 at 10:37

The 13.33 literal is being treated as 'double', not 'float'.

-

Because `13.33` is a `double`, which gets truncated to a `float` if you assign it. And a `double` is 8bytes. To create a real float, use `13.33f` (note the `f`).

-

The type and size of your variable are fine. It's just that the compiler has some default types for literals, those constant values hard-coded in your program.

If you request `sizeof(1)`, you'll get `sizeof(int)`. If you request `sizeof(2.5)`, you'll get `sizeof(double)`. Those would clearly fit into a char and a float respectively, but the compiler has default types for your literals and will treat them as such until assignment.

You can override this default behaviour, though. For example:

``````2.5 // as you didn't specify anything, the compiler will take it for a double.
2.5f // ah ha! you're specifying this literal to be float
``````

Cheers!

-