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# Sparsemap
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2024-05-03 19:15:39 +00:00
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Bitsets, also called bitmaps, are commonly used as fast data structures.
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Unfortunately, they can use too much memory. To compensate, we often use
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compressed bitmaps.
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2024-05-03 21:12:57 +00:00
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`sparsemap` is a sparse, compressed bitmap. In the best case, it can store 2048
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bits in just 8 bytes. In the worst case, it stores the 2048 bits uncompressed and
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requires an additional 8 bytes of overhead.
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2024-04-03 00:41:55 +00:00
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The "best" case happens when large consecutive sequences of the bits are
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either set ("1") or not set ("0"). If your numbers are consecutive 64bit
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integers then sparsemap can compress up to 16kb in just 8 bytes.
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## How does it work?
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2024-04-05 00:11:09 +00:00
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On the lowest level stores bits in sm_bitvec_t's (a uint32_t or uint64_t).
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Each sm_bitvec_t has an additional descriptor (2 bits). A single word prepended
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to each sm_bitvec_t describes its condition. The descriptor word and the
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sm_bitvec_t's have the same size. The descriptor of a sm_bitvec_t
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specifies whether the sm_bitvec_t consists only of set bits ("1"), unset
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bits ("0") or has a mixed payload. In the first and second cases, the
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sm_bitvec_t is not stored.
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An example shows a sequence of 4 x 16 bits (here, each sm_bitvec_t and the
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Descriptor word has 16 bits):
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Descriptor:
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00 00 00 00 11 00 11 10
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^^ ^^ ^^ ^^-- sm_bitvec_t #0 - #3 are "0000000000000000"
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^^-- sm_bitvec_t #4 is "1111111111111111"
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^^-- sm_bitvec_t #5 is "0000000000000000"
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^^-- sm_bitvec_t #7 is "1111111111111111"
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^^-- sm_bitvec_t #7 is "0110010101111001"
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Since the first 7 sm_bitvec_t's are either all "1" or "0" they are not stored.
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The actual memory sequence looks like this:
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0000000011001110 0110010101111001
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Instead of storing 8 Words (16 bytes), we only store 2 Words (2 bytes): one
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for the descriptor, and one for the last sm_bitvec_t #7.
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The sparsemap stores a list of chunk maps, and for each chunk map, it stores the
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absolute address (i.e. if the user sets bit 0 and bit 10000, and the chunk map
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capacity is 2048, the sparsemap creates two chunk maps; the first starts at
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offset 0, the second starts at offset 8192).
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2024-04-08 22:14:47 +00:00
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## Usage instructions
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Copy the files `src/sparsemap.c` and `include/sparsemap.h` into your project.
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Review the `examples/*` and `tests/*` code.
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## Final words
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This bitmap has efficient compression when used on long sequences of set (or
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unset) bits (i.e. with a word size of 64 bit and a payload of consecutive
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numbers without gaps, the payload of 2048 x sizeof(uint64_t) = 16kb will occupy
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only 8 bytes!).
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However, if the sequence is not consecutive and has gaps, it's possible that
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the compression is inefficient, and the size (in the worst case) is identical
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to an uncompressed bit vector (sometimes higher due to the bytes required for
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metadata). In such cases, other compression schemes are more efficient (i.e.
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http://lemire.me/blog/archives/2008/08/20/the-mythical-bitmap-index/). We
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include in `lib` the amalgamated (git `2dc8070`) and well-known
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[Roaring Bitmaps](https://github.com/RoaringBitmap/CRoaring/tree/master) and
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use it in the soak test to ensure our results are as accurate as theirs.
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2024-05-06 19:43:47 +00:00
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This library was originally created by [Christoph Rupp](https://crupp.de) in
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2024-04-24 20:32:09 +00:00
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C++ and then translated to C and further improved by Greg Burd <greg@burd.me>
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for use in LMDB and OpenLDAP.
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