If the number has neither a decimal point nor an exponent, it is an integer of some sort; by default, an `int`

.

If the number has a decimal point or an exponent, it is a floating point number of some sort; by default, a `double`

.

That's about it. You can append suffixes to numbers (such as `ULL`

for `unsigned long long`

) to specify the type more precisely. Otherwise (simplifying a little), integers are the smallest `int`

type (of type `int`

or longer) that will hold the value.

In your examples, the code is:

```
float a = 1.0 / 25;
double b = 1 + 2147483649;
```

The value of `a`

is calculated by noting that `1.0`

is a double and `25`

is an integer. When processing the division, the `int`

is converted to a `double`

, the calculation is performed (producing a `double`

), and the result is then coerced into a `float`

for assignment to `a`

. All of this can be done by the compiler, so the result will be pre-computed.

Similarly, on a system with 32-bit `int`

, the value `214783649`

is too big to be an `int`

, so it will be treated as a signed type bigger than `int`

(either `long`

or `long long`

); the `1`

is added (yielding the same type), and then that value is converted to a `double`

. Again, it is all done at compile time.

These computations are governed by the same rules as other computations in C.

The type rules for integer constants are detailed in §6.4.4.1 Integer constants of ISO/IEC 9899:1999. There's a table which details the types depending on the suffix (if any) and the type of constant (decimal vs octal or hexadecimal). For decimal constants, the value is always a signed integer; for octal or hexadecimal constants, the type can be signed or unsigned as required, and as soon as the value fits. Thanks to Daniel Fischer for pointing out my mistake.

`1.0`

has type`double`

, not`float`

. – Daniel Fischer Apr 17 '12 at 20:54