Nine years and still no direct answer about the **minimum** size for `float, double, long double`

.

Any guaranteed minimum sizes for types in C?

For *floating point* type ...

From a *practical* point-of-view, `float`

minimum size is **32-bits** and `double`

is **64- bits**. C allows `double`

and `long double`

to share similar characteristics, so a `long double`

could be as small as a `double`

. Example^{1}.

I could imagine a C compliant 48-bit `double`

may have existed – yet do not know of any.

Now, let us imagine our rich uncle dies and left us a fortune to pay for the development and cultural promotion for **www.smallest_C_float.com**.

C specifies:

1) `float`

finite range is at least [1E-37… 1E+37]. See `FLT_MIN, FLT_MAX`

2) `(1.0f + FLT_EPSILON) – 1.0f <= 1E-5`

.

3) `float`

supports positive and negative values.

```
Let X: Digit 1-9
Let Y: Digit 0-9
Let E: value -37 to 36
Let S: + or -
Let b: 0 or 1
```

Our `float`

could minimally represent all the combinations, using base 10, of `SX.YYYYY*10^E`

.

`0.0`

and `±1E+37`

are also needed (3 more). We do not need -0.0, sub-normals, ±infinity nor not-a-numbers.

That is 2*9*10^5*74 + 3 combinations or 133,200,003 which needs at least 27 bits to encode - *somehow*. Recall the goal is minimal size.

With a classic base 2 approach, we can assume an implied 1 and get
S1.bbbb_bbbb_bbbb_bbbb_b*2^e or 2*2^17*226 combinations or 26 bits.

If we try base 16, we then need about 2*15*16^(4 or 5)*57 combinations or at least 26 to 30 bits.

Conclusion: A C `float`

needs at least 26 bits of encoding.

A C’s `double`

need not express a greater exponential range than `float`

, it only has a different minimal precision requirement. `1E-9`

.

S1.bbbb_bbbb_bbbb_bbbb_ bbbb_ bbbb_ bbbb_bb*2^e --> 2*2^30*226 combinations or 39 bits.

On our *imagine-if-you-will* computer, we could have a 13-bit `char`

and so encode `float, double, long double`

without padding. Thus we can realize a non-padded 26-bit `float`

and 39-bit `double, long double`

.

^{1}: Microsoft Visual C++ for x86, which makes long double a synonym for double