So you want to convert an unsigned char array with 8 elements into an unsigned short array with 4 elements?

Assuming that `final_array`

is an `unsigned short[4]`

and `initial_array`

is an `unsigned char[8]`

:

```
for (unsigned int i = 0; i < 4; ++i) {
final_array[i] = (initial_array[i*2] << 8) + initial_array[i*2 + 1];
}
```

This is equivalent to the following:

```
final_array[0] = (initial_array[0] << 8) + initial_array[1];
final_array[1] = (initial_array[2] << 8) + initial_array[3];
final_array[2] = (initial_array[4] << 8) + initial_array[5];
final_array[3] = (initial_array[6] << 8) + initial_array[7];
```

As a side note, on a Big Endian machine, you can `memcpy`

the unsigned char buffer to the unsigned short buffer and it would work:

```
memcpy(final_array, initial_array, 8 * sizeof(unsigned char));
```

But I do **NOT** recommend it very much because

- Involving endianness when you don't need to is a terrible idea if you want your sanity.
- You'd be making assumptions about the size of a
`short`

. (Which, theoretically speaking, can vary as long as it holds at least 2 bytes and has a size that remains less than or equal to that of an `int`

)

`char`

s are typically 8 bits. How do you expect to fit`0x0125`

in a single`char`

? – Joseph Mansfield May 5 '13 at 23:26`unsigned char`

cannot represent "the concatenation of two unsigned chars". (Think of two consecutive maximal values.) – Kerrek SB May 5 '13 at 23:27