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I need to check whether an ID (a long integer) is in a list of ~10,000 IDs. I need to do this about 10^9 times over on a loop, and speed is relatively important. Is using a c++ set the quickest way to do this? Something like:

set<long> myset;

// (Populate myset)

long id = 123456789;

if(myset.find(id) != myset.end()) {
     // id is in set
}

Or is there a quicker way?

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Unless you want to write your own data structure specifically optimized only for your program, then yes, this is the fastest way. –  Let_Me_Be Mar 9 '11 at 14:01
3  
If the population of the list is a one time activity and then there are multiple searches on the list, then binary search is the way to go as pointed out by @David. It offers a complexity of log2(n) (even in the worst case scenario). Only drawback is that the list needs to be sorted. –  Devendra D. Chavan Mar 9 '11 at 14:05
    
Sorting 10000 numbers take no time at all compared to a billion searches. I would go for a vector<long>, which is way more compact than a set. Each set node generally contains three pointers in addition to the data. That increases pressure on the cache. –  Bo Persson Mar 9 '11 at 15:24

5 Answers 5

up vote 14 down vote accepted

The quickest way, if your long has a limited range, is a bitmap (e.g. vector<bool>). If that's not doable, a unordered_set (hash_set) should be attempted. And if that keeps hitting worst-case, then use a set

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+1: Lookup tables are unbeatable. –  Björn Pollex Mar 9 '11 at 14:11
    
@Frerich: It'd need to be measured. Cache thrashing vs the few extra operations. –  Erik Mar 9 '11 at 14:12
    
@Erik: Indeed, I just tried it; the std::vector<bool> variant is much faster with MSVC10 (compiling using /O2). I take it all back and claim the opposite. :) –  Frerich Raabe Mar 9 '11 at 14:24
    
I'm not completely sure I understand the bitmap suggestion - do you suggest populating a vector<bool> (or similar) with an entry for every possible value of the long? I'm not sure this would be feasable given my IDs go up to about 1,000,000,000. But then I did ask for speed not space! I think the unordered_set sounds like the best suggestion. –  nick Mar 9 '11 at 14:25
    
nick: If your IDs fall within a certain range, it may be feasible to use a vector<bool> (1 bit per element). 1 billion bits would be 256MB. If your ID's e.g never go below 900'000'000 then you'd only need a vector with 100 mill bits though. –  Erik Mar 9 '11 at 14:28

Hm, depending on how you generate the numbers and how many there are, it might be faster to use an std::vector ,sort it (you can even keep it sorted while inserting the numbers), and the use binary search to check if the number is in there.

Generally, a set works fine, but there are tradeoffs. The vector has less memory overhead, and since all numbers are stored in a continuous block of memory, it might outperform a set in some situations, but you would have to test that.

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Sounds to me exactly like what std::set is providing? –  ypnos Mar 9 '11 at 14:06
1  
@ypnos: It is, with regard to complexity. However, which is faster in practice depends on other factors as well. For some sizes a naive search from begin to end could be the fastest approach. –  Björn Pollex Mar 9 '11 at 14:09
3  
@ypnos - externally they work the same, internally the set is probably a tree structure which is probably suboptimal for your specific case –  sdg Mar 9 '11 at 14:09

You can build a hash table and check in O(1) if the ID exist.

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I might be wrong but the computation of the hash + searching the hash in the list probably isn't done in constant time. Or am I missing something ? –  ereOn Mar 9 '11 at 14:19
1  
@ereOn: The calculation of the hash should happen in constant time, and the 'searching' is just putting that hash value into an array index, that's how lookup tables work. –  Xeo Mar 9 '11 at 14:32
1  
@Xeo: In (hopefully!) a few cases though, the hash function will cause collisions, so you're doing an array index and then traversing a single-linked list. So you have amortized constant time lookup (whereas a real lookup table gives real constant time). –  Frerich Raabe Mar 9 '11 at 15:17

The standard, for best intentions, decided that vector<bool> should be specialized to be implemented as a bitset.

A bit-set is fast enough, and you have the choice also of std::bitset which is fixed size, and boost::dynamic_bitset of which the size is runtime defined, and is built on top of vector<unsigned int> anyway (It may be a template on what integral type is used).

There is no point optimising further to save you some bit-twiddling so the suggestion would be to use one of these.

By the way, I have seen a "scattered" bitmap, whereby if the value falls within a certain range it uses one, otherwise it will use a tree-style lookup. (This technique can also be used for Z-table (normal distribution CDF type) functions where you "cache" the table in memory for up to 95% or 99% of the density and use the slow-calculation for the extreme values (and I once actually had to do that).

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If you really want to push it to the top, you also have the option to use a two stage approach.

  1. Use a bloom filter or similar probabilistic algorithm to find out if the value is definitively NOT in the set or "maybe" in the set.
  2. To see if step 1 produced a false positive, you then need to execute your more costly second stage only to those not filtered out with step 1. Over your many (you mentioned 10^9) queries, you should be done more quickly (if not too many queries are a hit...).

See http://en.wikipedia.org/wiki/Bloom_filter for details. Also see: Search algorithm with minimum time complexity

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