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I want to create a compression scheme for 2-bit numbers such that it will reduce the size of any sequence by at least one bit. How can I prove this is not possible?

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Of course it's possible to always reduce the size by one bit. What is impossible is losslessly reversing the process. –  Mark Adler Feb 16 '13 at 4:37

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There are 4 possible two-bit numbers and 3 possible shorter bit sequences (the empty sequence of bits and the sequences 0 and 1). By the pigeonhole principle, this means that any mapping from two-bit sequences to shorter sequences must have at least two sequences compressed to the same shorter sequence. As a result, when you want to decompress this shorter sequence, you will not be able to do so because you won't know which of the original two-bit sequences it came from.

This can be generalized to show that n-bit sequences cannot be losslessly compressed to bit sequences of length less than n. This earlier answer details why this is.

Hope this helps!

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You mean "...must have at least two sequences compressed to the same shorter sequence", I think. (Obvious to anyone who already knows the argument, but perhaps not obvious to a new reader.) –  Nemo Feb 16 '13 at 3:18
@Nemo- Thanks! Fixed. –  templatetypedef Feb 16 '13 at 7:02
Hey guys thank you very much for the answers –  benji_r Feb 16 '13 at 19:57
@templatetypedef In most cases if you compress things you have to get rid of stuff, then how could you compress anything and bring back to the original form? –  benji_r Feb 16 '13 at 23:12
@benbar- In many cases data is highly redundant and it's possible to compress the data by eliminating the redundancy –  templatetypedef Feb 17 '13 at 22:15

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