I want to inflate an `unsigned char`

to an `uint64_t`

by repeating each bit 8 times. E.g.

```
char -> uint64_t
0x00 -> 0x00
0x01 -> 0xFF
0x02 -> 0xFF00
0x03 -> 0xFFFF
0xAA -> 0xFF00FF00FF00FF00
```

I currently have the following implementation, using bit shifts to test if a bit is set, to accomplish this:

```
#include <stdint.h>
#include <inttypes.h>
#define BIT_SET(var, pos) ((var) & (1 << (pos)))
static uint64_t inflate(unsigned char a)
{
uint64_t MASK = 0xFF;
uint64_t result = 0;
for (int i = 0; i < 8; i++) {
if (BIT_SET(a, i))
result |= (MASK << (8 * i));
}
return result;
}
```

However, I'm fairly new to C, so this fiddling with individual bits makes me a little vary that there might be a better (i.e. more efficient) way of doing this.

**EDIT TO ADD**

Ok, so after trying out the table lookup solution, here are the results. However, keep in mind that I didn't test the routine directly, but rather as part of bigger function (a multiplication of binary matrices to be precise), so this might have affected how the results turned out. So, on my computer, when multiplying a million 8x8 matrices, and compiled with:

```
gcc -O2 -Wall -std=c99 foo.c
```

I got

```
./a.out original
real 0m0.127s
user 0m0.124s
sys 0m0.000s
./a.out table_lookup
real 0m0.012s
user 0m0.012s
sys 0m0.000s
```

So at least on my machine (a virtual machine 64 bit Linux Mint I should mention), the table lookup approach seems to provide a roughly 10-times speed-up, so I will accept that as the answer.