# Optimal integer encoding that still sorts

One of the neat characteristics of UTF-8 is that if you compare two strings (with <) byte-by-byte, you get the same answer as if you had compared them codepoint-by-codepoint. I was wondering if there was a similar encoding that was optimal in size (e.g. UTF-8 "wastes" space by tagging bytes with 10xxxxxx if they are not the first byte representing a codepoint).

The assumption for optimality here is that a non-negative number n is more frequent than a number m if n < m.

I am most interested in knowing if there is a (byte-comparable) encoding that works for integers, with n more frequent than m if |n| < |m|.

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Please have a look at book stack compression en.wikipedia.org/wiki/Move-to-front_transform – Dmitri Chubarov May 20 '12 at 4:42
I'm not understanding what you mean by "more frequent". Could you please elaborate? – Nayuki May 20 '12 at 13:36
@NayukiMinase In order to determine optimality we must have a notion of frequency. An encoding is optimal if the sum((symbol's frequency) * (symbols length) for all symbols) is minimized. I purposefully didn't formalize my question, as I'm really looking for any information on sortable encodings. – U2EF1 May 20 '12 at 22:23
I am very well aware that you are trying to encode integers. If you are looking for a specific encoding then you need to provide a specific distribution. If you are looking for a general encoding, then the algorithms used for UTF-8 and UTF-16 are good choices for encoding sortable items (like integers or characters). – Klas Lindbäck May 22 '12 at 7:14
@KlasLindbäck A simple optimization to UTF-8 is to remove the 10 at the head of bytes after the first one. Varint style encoding saves one bit over UTF-8 after that. UTF-8 "wastes" a little space in order to invalidate certain byte sequences, and allow you to iterate over a string backwards (very intelligent tradeoffs, IMO). But I have not seen an answer to a question like: given the frequency of symbols an an ordering on them, construct a code that minimizes encoded length and maintains bit-by-bit comparison between strings. – U2EF1 May 22 '12 at 22:25

Have you considered a variant of Huffman coding? Traditionally one recursively merges the two least frequent symbols, but to preserve order one could instead merge the two adjacent symbols having the least sum.

Looks like this problem has been well-studied (and the greedy algorithm is not optimal). The optimal algorithm was given by Hu and Tucker, which is described here and more detail in this thesis.

This paper discussing order-preserving dictionary-based compression also looks interesting.

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To fully answer that question you need to know the frequency of the codepoints in the material. UTF-8 is optimal for texts in English as multi-byte characters are very rare in typical English text.

To encode integers using UTF-8 as a base algorithm would entail mapping the first n integers to a 1-byte encoding, the next m to a 2-byte encoding and so on. Whether that is an optimal encoding depends on the distribution. If the first n numbers are very frequent compared to higher numbers, then UTF-8 would be (near) optimal.

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I'm not encoding text, but numbers; smaller magnitude numbers are considered more frequent. Saying UTF-8 is optimal for English text seems a bit naïve, as it ignores variable-width encodings and multibyte characters which are used in English. – U2EF1 May 20 '12 at 19:04
My point is that there is no encoding that is optimal for all distributions. If your distribution is similar to that of typical English text, then UTF-8 is a good choice. If you have a much wider range of high-probability numbers then UTF-16 is better. Without knowing the distribution it is impossible to tell whether a specific encoding is good or not. – Klas Lindbäck May 21 '12 at 6:07

There are very few standard encodings and the answer is no. Any further optimization beyond UTF-8 should not be referred to as "encoding" but a "compression" - and lexicographically-comparable compression is a different department.

If you are solving a real-world (non-purely-academic) problem, I'd just stick with the most standard UTF8. You can learn about its efficiency compared to other standard encodings on utf8everywhere.org.

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This is why I didn't tag this question as unicode, both the answers think I'm trying to encode text when I'm trying to encode streams of numbers. – U2EF1 May 21 '12 at 16:36