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If I have a list L of positive integers and I am given another number K, I need to find the number in the list with which XOR of K is maximum.

I have thought of an algorithm for this. I want to verify its correctness with counter arguments. My algorithm is:

  • Find P=K's complement (1's complement). Now find the number which is closest to P in the list L. Let this number be N. The XOR of K and N will be maximum.
  • Closest number to a number I in a given set of numbers is a number whose difference with I is minimum.

Lets say, it is not correct for the numbers greater than P in the list L. But isn't it correct for the numbers <=P ?

Please tell me whether I am correct or not by providing counter arguments/suggestions/ideas.

share|improve this question
Closest <-- How do you define this? – nhahtdh Oct 20 '12 at 5:26
What, closest numerically? Then it will of course be false. – nneonneo Oct 20 '12 at 5:29
@nhahtdh I have edited – halkujabra Oct 20 '12 at 5:31
@nneonneo Please check the edit – halkujabra Oct 20 '12 at 5:31
@user1708762: No, it won't work. I remember doing a programming problem and this approach gives wrong answer for some cases. I don't want to bother constructing counter example now, though. – nhahtdh Oct 20 '12 at 5:34
up vote 2 down vote accepted

i think you need something called a Trie.

consider every bit of K, from higher to lower, of course we can be greedy when determine whether this bit of answer can be 1, i mean, first you try your best to get 1024(or even higher), and then 512, and then 256 and then......finally to the last bit 1.

So first you need to check whether some number in the list L has the opposite value to K in the highest bit, then among all the chosen numbers, then you need to find the numbers which has the opposite value to K in the second highest bit.

now the solution is obvious, build a Trie with L, determine the answer's bits from higher to lower, which corresponds to travel on that tree.

share|improve this answer

No, not right.

Let K = 0011, so that P = 1100. Let L = {0011, 1100}. Your algorithm would choose N = 1100, which is obviously incorrect since N^K = 0, while 0011^N = 3.

share|improve this answer

Coding and running the obvious brute-force algorithm would have taken far less time than you've already spent on this.

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Usually, the point of optimization is to make it always run fast, not to make it run fast once. – nneonneo Oct 20 '12 at 5:46
I didn't see any mention of optimization. Anyway, XOR is blindingly fast on almost any architecture - trying to cheese-pare a few CPU cycles is pointless. – WaywiserTundish Oct 20 '12 at 5:53
Sure, but you could make an algorithm that pre-processed L in a such a way that all such queries against that L were really fast (e.g. log(N) fast). Such an algorithm might be critical in some kinds of problems (e.g. multiple maximum-subset searches against a large, fixed collection of bitsets). In that case, even if XOR is fast, 10000 O(log(N)) queries will beat the pants off 10000 O(N) queries for big enough N. – nneonneo Oct 20 '12 at 5:57
@WaywiserTundish: Your answer actually is a good solution if the numbers are arbitrary. One case where this is a bad solution is when the list is defined as a continuous a range of numbers, defined with upper and lower bound. – nhahtdh Oct 20 '12 at 6:20
We were told nothing about any special properties of either L or K. In the absence of further information, one must assume arbitrary inputs. If you can find an algorithm for random integer L where the run time isn't dominated by by the sort or peak find function, I'll buy the next round. – WaywiserTundish Oct 20 '12 at 9:21

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