# Efficient algorithm for conversion between numeral system

Is there any efficient algorithm for conversion between numeral system when the size of source integer is arbitrary?

For example, assume that there is an integer array {1, 4, 8} which is 148 in decimal format as an input. It might be converted to {9, 4} in hexadecimal format, or {2, 2, 4} in octal, or {1, 0, 0, 1, 0, 1, 0, 0} in binary format, or just {148} in 1234-ary format or something.

It's simple when the actual value can be expressed in word-size supported by machine. But when it goes to arbitrary size, I cannot find efficient way better than O(n^2).

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Should be possible in O(n). You might want to (also) try on math.stackexchange.com. – Michel de Ruiter Aug 23 '10 at 8:53

Divide by the base, push back the module, rinse and repeat while quotient != 0.

So, for example convert 148 in base 16

``````148 / 16 = 9 r 4
9 / 16 = 0 r 9
``````

So, 148 in hex is 0x94. This shouldn't take so long.

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Unfortunately, it is not that simple when a number is big enough - think about 10^100, which can't be represented in 1 atomic integer in current computer architecture. – summerlight Aug 23 '10 at 15:19
Of course, some abstraction like big_int class can be used, but it makes the problem worse, since the time complexity of a modular and division operation is O(n^2) and we need O(n) modular and division operation for a conversion. – summerlight Aug 23 '10 at 15:30