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I have a map with about 100,000 pairs . Is there any way that i can speed up searching when using find(), given that the keys are in alphabetical order. Also how should i go about doing it. I know that you can specify a new comparator when you create the map. But will that speed up the find() function at all?

Thanks in advance.

[solved] Thanks a bunch guys i have decided to go with a vector and use lower and upperbound to "snip" some of the searching.

Also i am new here is there any way to mark this question as answered , or pick a best answer?

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If your compiler supports it try std::unordered_map instead. –  Mark Ransom Feb 16 '12 at 17:43
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P.S. having the keys in alphabetical order doesn't matter, map will rearrange them to be alphabetical anyway. –  Mark Ransom Feb 16 '12 at 17:44
    
@MarkRansom: Just because I'm disagreeable: it depends on the comparitor :D –  Mooing Duck Feb 16 '12 at 18:13
    
To mark the question as answered, you pick a best answer with the tick on the left-hand side of the answer, underneath the voting buttons. –  Peter Feb 17 '12 at 14:59

4 Answers 4

up vote 8 down vote accepted

A different comparator will only speed up find if it manages to do the comparison faster (which, for strings will usually be pretty difficult).

If you're basically inserting all the data in order, then doing the searching, it may be faster to use a std::vector with std::lower_bound or std::upper_bound.

If you don't really care about ordering, and just want to find the data as quickly as possible, you might find that std::unordered_map works better for you.

Edit: Just for the record: the way you "might find" or "may find" those things is normally by profiling. Depending on the situation, it might be enough faster that it's pretty obvious even in simple testing, so profiling isn't really necessary, but if there's (much) doubt, or you want to quantify the effect, a profiler is probably the right way to do it.

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Regarding the sorted std::vector<>, see also Boost.Container's boost::container::flat_map<> for a pre-written, pre-tested implementation. –  ildjarn Feb 16 '12 at 17:47
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@JerryCoffin: I removed the downvote. I do have a tendency to be disagreeable. –  Mooing Duck Feb 16 '12 at 18:38

std::map is already taking advantage of the fact the keys are in alphabetical order - it guarantees that itself. You aren't going to be able to improve it by changing the comparator (one assumes it's already a reasonably efficient string comparison).

Have you considered using unordered_map (aka hash_map in various implementations pre C++11? It should be able to search in O(1) instead of O(log(n)) for std::map.

You could also look into something slightly more exotic, like a trie, but that's not part of the standard library so you'd either have to find one elsewhere or roll your own, so I'd suggest unordered_map is a good place to start.

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If you're using std::find to find elements, you should switch to using map::find (you don't really say in your question.) map::find uses the fact that the map is ordered to search much faster.

If that's still not good enough, you might look into a hash container such as unordered_map rather than map.

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That's a good point. The question really doesn't make it clear. Using std::find would basically be the worst case for searching, both algorithmically and in terms of memory access pattern. –  bames53 Feb 16 '12 at 18:09
    
Actually, if the comparator you use for std::find is the same as the one you're using for the map ordering, couldn't std::find be specialized to use member find? –  bames53 Feb 16 '12 at 18:11
    
@bames53 No, because std::find doesn't get passed or know what the container is. It just does a linear search. –  Mark B Feb 16 '12 at 18:14
    
@bames53: it could be, but it's not required to be, and I've never seen an implementation do it, since it's far harder than it sounds. –  Mooing Duck Feb 16 '12 at 18:18
    
@MarkB That makes sense. Though I think it could be done if the iterators provide access to the containers (like debug iterators have for validity checking). Obviously it would be bad to rely on an implementation doing that and so it wouldn't be worth implementing in the first place, except as a curiousity. –  bames53 Feb 16 '12 at 18:26

I've put in a vote for unordered_map but I wanted to also make another point.

One of the things that can hurt performance on modern machines is poor use of the cache. A map is going to have nodes allocated all over the place and there won't be much locality of reference. Also since it has to store a bunch of pointers between nodes it will use up more memory.

At the recent Going Native 2012 conference Bjarne Stroustroup gave an interesting talk that touched on this topic. He compared vector and list performance at a task involving a lot of random insertions and deletions, where it might seem list ought to have dominated, but because of the memory size and layout issue vector was in fact the fastest by far. Take a look at his slides, starting at slide 43.

unordered_map gives you direct access to the element and so it probably means even less hopping around in memory than trying to stick your data in a vector (and thus better performance than vector) so my comment is simply an admonishment to always keep your memory access pattern in mind for performance

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I liked his graph of the comparisons of their speeds during that talk. –  Mooing Duck Feb 16 '12 at 18:16
    
Locality is good, but only for linear stuff. A binary search on a vector can be slower than a map. –  Mooing Duck Feb 16 '12 at 18:17
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I wonder if a binary tree would be faster than a sorted array? –  Mark Ransom Feb 16 '12 at 18:30
    
@MooingDuck well the slides do have the graph :) –  bames53 Feb 16 '12 at 18:38
    
@MooingDuck Why would a binary search of a vector be slower than searching a map? In both cases you'll be hopping around in memory, until in the vector case the range has been reduced to where it fits in a cache line. Unless all the map nodes were allocated together the map will never get that benefit, and then you're only likely to benefit if the map is small. And the vector elements will be smaller so the range that fits in cache will have more elements than the map could fit in. –  bames53 Feb 16 '12 at 18:39

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