You are trying to find something of the form

```
a0 + a1 * (2^32) + a2 * (2^32)^2 + a3 * (2^32)^3 + ...
```

which is *exactly* the definition of a base-2^{32} system, so ignore all the people that told you that your question doesn't make sense!

Anyway, what you are describing is known as *base conversion*. There are quick ways and there are easy ways to solve this. The quick ways are very complicated (there are entire chapters of books dedicated to the subject), and I'm not going to attempt to address them here (not least because I've never attempted to use them).

One easy way is to first implement two functions in your number system, multiplication and addition. (i.e. implement `BigInt add(BigInt a, BigInt b)`

and `BigInt mul(BigInt a, BigInt b)`

). Once you've solved that, you will notice that a base-10 number can be expressed as:

```
b0 + b1 * 10 + b2 * 10^2 + b3 * 10^3 + ...
```

which can also be written as:

```
b0 + 10 * (b1 + 10 * (b2 + 10 * (b3 + ...
```

so if you move left-to-right in your input string, you can peel off one base-10 digit at a time, and use your `add`

and `mul`

functions to accumulate into your `BigInt`

:

```
BigInt a = 0;
for each digit b {
a = add(mul(a, 10), b);
}
```

**Disclaimer:** This method is **not** computationally efficient, but it will at least get you started.

**Note:** Converting from base-16 is **much** simpler, because 2^{32} is an exact multiple of 16. So the conversion basically comes down to concatenating bits.

`[0,N)`

. So base 2^32 makes perfect sense: it means that large numbers are represented by a sequence of 32-bit numbers. – Mike Seymour Apr 16 '12 at 19:42`a0 + a1*(2^32) + a2*(2^32)^2 + ...`

, so he needs a base-10-to-base-2^32 converter. We happen to call that a "big integer" data-type, but that doesn't invalidate the OP's question. – Oli Charlesworth Apr 16 '12 at 19:50