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I have to store millions of entries in a database. Each entry is identified by a set of unique integer identifiers. For example a value may be identified by a set of 10 integer identifiers, each of which are less than 100 million.

In order to reduce the size of the database, I thought of the following encoding using a single 32 bit integer value.

Identifier 1: 0 - 100,000,000
Identifier 2: 100,000,001 - 200,000,000
Identifier 10: 900,000,001 - 1,000,000,000

I am using Java. I can write a simple method to encode/decode. The user code does not have to know that I am encoding/decoding during fetch/store.

What I want to know is: what is the most efficient (fastest) and recommended way to implement such encoding/decoding. A simple implementation will perform a large number of multiplications/subtractions.

Is it possible to use shifts (or bitwise operations) and choose different partition size (the size of each segment still has to be close to 100 million)?

I am open to any suggestions, ideas, or even a totally different scheme. I want to exploit the fact that the integer identifiers are bounded to drastically reduce the storage size without noticeably compromising performance.

Edit: I just wanted to add that I went through some of the answers posted on this forum. A common solution was to split the bits for each identifier. If I use 2 bits for each identifier for a total of 10 identifiers, then my range of identifiers gets severely limited.

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you'd have to use powers of 2 for your ranges to get bit shifting to work. –  MeBigFatGuy Apr 10 '12 at 15:37
Can you gice an example of how such an encoded integer would look like (as well as how you'd decode manually)? Please use arbitrary ids (like 144,560,000, 200,0158,945, 399,888,777 etc.) for your example –  Thomas Apr 10 '12 at 15:38
Note that with shifting you'd have 3 bytes per id only (if you want to put 10 ids into 32 bits). Thus each id could only have up to 8 different values. –  Thomas Apr 10 '12 at 15:40
An example to illustrate my problem. –  Santosh Tiwari Apr 10 '12 at 15:41
@Thomas: You are right. I haven't thought it through. I can only store values if they are delineated by power of 10 or something like that. I may not be able to compress that much. I could split them at 10 millionth, 100 millionth, and 1 billionth (encode three integers into one large integer). –  Santosh Tiwari Apr 10 '12 at 15:47

3 Answers 3

up vote 1 down vote accepted

It sounds like you want to pack multiple integer values of 0...100m into a single 32bit Integer? Unless you are omitting important information that would allow to store these 0...100m values more efficiently, there is simply no way to do it.

ceil(log2(100m)) = 27bit, which means you have only 5 "spare bits".

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Thanks. I had not thought it through. –  Santosh Tiwari Apr 10 '12 at 17:53

You can make the segmentation size 27 bits which gives you 32 * 128 M segements. instead of 42 * 100 M

int value = 
int high = value >>> 27;
int low = value & ((1L << 27) -1);

It is worth nothing this calculation is likely to be trivial compared to the cost of using a database.

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It's unclear what you actually want to do, but it sounds like you want an integer value, each bit representing having a particular attribute, and applying a bitmask.

A 32-bit integer can save 32 different attributes, 64-bit 64 etc. To have more, you'll need multiple integer columns.

If that's not it, I don't know what you mean by "encode".

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You're right. I am thinking of other ways to reduce file size. –  Santosh Tiwari Apr 10 '12 at 17:53

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