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Is there any speed- and cache-efficient implementations of trie in C/C++? I know what a trie is, but I don't want reinvent the wheel, implementing it myself.

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10 Answers 10

up vote 27 down vote accepted

if you are looking for an ANSI C implementation you can "steal" it from FreeBSD. The file you are looking for is called radix.c. It's used for managing routing data in kernel.

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I didn't think of that. Thanks! – Anton Kazennikov Jun 24 '09 at 12:13
you should thank to *BSD folks, not me :-) – SashaN Jun 24 '09 at 13:57
@SashaN Link doesn't work. – Dannyboy Jun 12 '14 at 13:37
try this link for radix.c : opensource.apple.com/source/xnu/xnu-1456.1.26/bsd/net/radix.c – Viren Jul 16 '14 at 23:41

I realize the question was about ready implementations, but for reference...

Before you jump on Judy you should have read "A Performance Comparison of Judy to Hash Tables". Then googling the title will likely give you a lifetime of discussion and rebutals to read.

The one explicitly cache-conscious trie I know of is the HAT-trie.

The HAT-trie, when implemented correctly, is very cool. However, for prefix search you need a sorting step on the hash buckets, which somewhat clashes with the idea of a prefix structure.

A somewhat simpler trie is the burst-trie which essentially gives you an interpolation between a standard tree of some sort (like a BST) and a trie. I like it conceptually and it's much easier to implement.

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HAT-Trie +1. it's quite awesome.. – Kokizzu Feb 27 '15 at 5:41

I've had good luck with libTrie. It may not be specifically cache optimized but the performance has always been decent for my applications.

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Judy arrays: Very fast and memory efficient ordered sparse dynamic arrays for bits, integers and strings. Judy arrays are faster and more memory efficient than any binary-search-tree (incl. avl & red-black-trees).

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Wow! Intresting. I didn't know about them. – Anton Kazennikov Jun 24 '09 at 12:15


  • A Double-Array Trie implementation article (includes a C implementation)
  • TRASH - A dynamic LC-trie and hash data structure -- (a 2006 PDF reference describing a dynamic LC-trie used in the Linux kernel to implement address lookup in the IP routing table
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GCC ships with a handful of data structures as part of its "Policy-based data structures". This includes a few trie implementations.


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You can also try TommyDS at http://tommyds.sourceforge.net/

See the benchmarks page on the site for a speed comparison with nedtries and judy.

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(FYI I'm the author of nedtries) Note that the benchmarks above used the C version of nedtries. The C++ version is about 15% faster and if I'm reading the graph right, would be only slightly slower than TommyDS's version if built as C++. That said, he has far lower overhead per node than I do. I deliberately go overboard in metadata to enable really deep assertion checking during debug operation :) – Niall Douglas Apr 17 '12 at 14:17

Cedar, HAT-Trie, and JudyArray is quite awesome, you can find the benchmark here.

benchmark result

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Cache optimizations are something you'll probably are going to have to do, because you'll have to fit the data into a single cacheline which generally is something like 64 bytes (which will probably work if you start combining data, such as pointers). But it's tricky :-)

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Burst Trie's seem to be a bit more space efficient. I'm not sure how much cache-efficiency you can get out of any index since CPU-caches are so tiny. However, this kind of trie is plenty compact enough to keep large data sets in RAM (where a regular Trie would not).

I wrote a Scala implementation of a burst trie that also incorporates some space-saving techniques that I found in GWT's type-ahead implementation.


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My downvote is unintentional and is now locked by StackOverflow. I do not know how to undo it. Sorry. – Roman Mishin Mar 20 at 9:34

protected by Bo Persson Jul 14 '12 at 17:12

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