First off, lets assume I have endian sorted out and know the size of the types a priori.

Here's what I am doing: I have a function `bs2i(char *bitStr)`

that takes in a character array representing the binary of a signed char/short/int/long. The array can be of any length <= `sizeof(long long)`

.

What I want to do is take bitStr[0] and set it as the sign bit such that it won't be truncated if I do something like `char val = bs2i("111")`

. In this case, the function should return -125, as the bits would be set as "000...00010000011." To do this, I need to know how long the final type needs to be so I can shift the msb to the proper spot.

This is what I have thus far:

```
size_t size = (((strlen(bitStr)-1)>>3)+1)<<3;
```

But I just realized that only works for chars and shorts. For instance, a string of length 17 *should* return size 32, but would only return 24 with this method. Is there an efficient way to determine what the proper length should be?

For reference, here is the full function:

```
long long bs2i(char *bitStr) {
long long val = 0l;
size_t len = (((strlen(bitStr) - 1) >> 3) + 1) << 3;
char msb = *bitStr & 1;
bitStr++;
while (*bitStr) {
val = (val << 1l) | (*bitStr & 1);
bitStr++;
}
val = (msb << len-1l) | val; /* Use MSB as sign bit */
return val;
}
```

Bonus points, I guess, if there's a good way to do this that doesn't require a priori knowledge of type sizes.

The array can be of any length <= sizeof(long long).This is false....The limit is 64 bytes which if I am not mistaken is the size of a LongLong. I guess the point is that there is a limit. – Ramhound Sep 30 '11 at 18:41