## Integers

Generally we don't want to use doubles because we don't want to use the floating point ops, rounding errors etc. They are just not necessary.

For this it is a good idea to remember how to perform the ceiling division: `ceil(x / y)`

in doubles can be written as `(x + y - 1) / y`

(while avoiding negative numbers, but beware of overflow).

## Readable

If you go for readability you can of course also program it like this (example in Java, for C you could use macro's, of course):

```
public static int ceilDiv(int x, int y) {
return (x + y - 1) / y;
}
public static int paddedBase64(int n) {
int blocks = ceilDiv(n, 3);
return blocks * 4;
}
public static int unpaddedBase64(int n) {
int bits = 8 * n;
return ceilDiv(bits, 6);
}
// test only
public static void main(String[] args) {
for (int n = 0; n < 21; n++) {
System.out.println("Base 64 padded: " + paddedBase64(n));
System.out.println("Base 64 unpadded: " + unpaddedBase64(n));
}
}
```

## Inlined

**Padded**

We know that we need 4 characters blocks at the time for each 3 bytes (or less). So then the formula becomes (for x = n and y = 3):

```
blocks = (bytes + 3 - 1) / 3
chars = blocks * 4
```

or combined:

```
chars = ((bytes + 3 - 1) / 3) * 4
```

your compiler will optimize out the `3 - 1`

, so just leave it like this to maintain readability.

**Unpadded**

Less common is the unpadded variant, for this we remember that each we need a character for each 6 bits, rounded up:

```
bits = bytes * 8
chars = (bits + 6 - 1) / 6
```

or combined:

```
chars = (bytes * 8 + 6 - 1) / 6
```

we can however still divide by two (if we want to):

```
chars = (bytes * 4 + 3 - 1) / 3
```

## Unreadable

In case you don't trust your compiler to do the final optimizations for you (or if you want to confuse your colleagues):

**Padded**

```
((n + 2) / 3) << 2
```

**Unpadded**

```
((n << 2) | 2) / 3
```

So there we are, two logical ways of calculation, and we don't need any branches, bit-ops or modulo ops - unless we really want to.

Notes:

- Obviously you may need to add 1 to the calculations to include a null termination byte.
- For Mime you may need to take care of possible line termination characters and such (look for other answers for that).