I don't know if you are trying to convert a string of numerical characters into a really big int, or a really big int into a string of 1s and 0s... but in general, you'll be doing something like this:

```
for (i = 0; i < digits; i++)
{
bit[i] = (big_number>>i) & 1;
// or, for the other way around
// big_number |= (bit[i] << i);
}
```

the main problem is that there is no builtin type that can store "big_number". So you'll probably be doing it more like this...

```
uint8_t big_number[10]; // the big number is stored in 10 bytes.
// (uint8_t is just "unsigned char")
for (block = 0; block < 10; block++)
{
for (i = 0; i < 8; i++)
{
bit[block*8 + i] = (big_number[block]>>i) & 1;
}
}
```

[edit]

To read an string of numerical characters into an int (without using `scanf`

, or `atoi`

, etc), I would do something like this:

```
// Supposing I have something like char token[]="23563344324467434533";
int n = strlen(token); // number of digits.
big_number = 0;
for (int i = 0; i < n; i++)
{
big_number += (token[i] - '0') * pow(10, n-i-1);
}
```

That will work for reading the number, but again, the problem with this is that there is no built-in type to store big_number. You could use a float or a double, and that would get the magnitude of the number correct, but the last few decimal places would be rounded off. If you need perfect precision, you will have to use an *arbitrary-precision integer*. A google search turns up a few possible libraries to use for that; but I don't have much personal experience with those libraries, so I won't make a recommendation.

Really though, the data type you use depends on what you want to do with the data afterwards. Maybe you need an arbitrary-precision integer, or maybe a `double`

would be exactly what you need; or maybe you can write your own basic data type using the technique I outlined with the blocks of `uint8_t`

, or maybe you're better off just leaving it as a string!