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Hey, I right now have a list of a struct that I made, I sort this list everytime I add a new object, using the std::list sort method. I want to know what would be faster, using a std::multimap for this or std::list, since I'm iterating the whole list every frame (I am making a game).

I would like to hear your opinion, for what should I use for this incident.

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Lists are the container of last resort - for my thoughts on this subject see punchlet.wordpress.com/2009/12/27/letter-the-fourth –  anon Apr 14 '10 at 16:53
    
what else do you have to do with these objects? Iterate over it each time ? extract min ? Is it already a bottleneck? How big is the list? –  fabrizioM Apr 14 '10 at 16:56
    
how are you looking up items in the list when you want to find them? –  Ken Bloom Apr 14 '10 at 17:00
    
It is quite important, it effects my complete rendering loop, I iterate the WHOLE list, and it is quite big (could each 9999, really on extreme cases though). –  user187418 Apr 14 '10 at 17:00
    
9999 items isn't really all that much. Unless the items are large. Consider the fact that the x686 uses 4096 byte pages, meaning your worst case fits on 3 pages. Not much at all. That dataset is small enough to fit inside the L2 cache of the CPU in some cases even. –  Billy ONeal Apr 14 '10 at 19:52

4 Answers 4

up vote 5 down vote accepted

std::multimap will probably be faster, as it is O(log n) per insertion, whereas an insert and sort of the list is O(n log n).

Depending on your usage pattern, you might be better off with sorted vectors. If you insert a whole bunch of items at once and then do a bunch of reads -- i.e. reads and writes aren't interleaved -- then you'll have better performance with vector, std::sort, and std::binary_search.

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+1 for citing vector (you could have said deque too, it could prove better), however I would also suggest multiset here, since it does not seem to be a key/value pair. –  Matthieu M. Apr 14 '10 at 18:07
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Even if you insert multiple items using std::vector with std::sort will not give you better performance than std:set or std::multimap because the sort will always have O(n log n) (n items in the list) and and inserting k items into a set with n items will have O(k log n), which is better if k is much smaller than n. –  MKroehnert Apr 14 '10 at 18:10
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@MKroehnert: That's why I was talking about non interleaved reads and writes. That is, K would be significant in comparison of N. Also keep in mind that vector s have MUCH better locality of reference, as well as space efficiency, when compared with maps. All that extra dereferencing that has to go on inside a map isn't considered in theoretical complexity, but it sure has an impact on real code. See Scott Meyers' Effective STL Item 23: Consider replacing associative containers with sorted vectors. –  Billy ONeal Apr 14 '10 at 19:02
    
I will have a look at that one. Thanks. –  MKroehnert Apr 14 '10 at 21:48

You might consider using the lower_bound algorithm to find where to insert into your list. http://stdcxx.apache.org/doc/stdlibref/lower-bound.html

Edit: In light of Neil's comment, note that this will work with any sequence container (vector, deque, etc.)

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Note that lower_bound will perform poorly on lists due to linear search time. Otherwise +1. –  Billy ONeal Apr 14 '10 at 16:52
    
@Billy ONeal: No, check the reference. It's O(log n). Presumably uses a binary search. –  Fred Larson Apr 14 '10 at 16:54
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It's only (log n) with random access iterators. List provides only bidirectional iterators making it linear. It will be a logarithmic number of comparisons but you still need to linearly transverse the list. –  Billy ONeal Apr 14 '10 at 16:56
    
@Billy ONeal: Ah, I see your point. –  Fred Larson Apr 14 '10 at 17:01

If you do not need Key/Value pairs std::set or std::multiset is probably better than using std::multimap.

Reference for std::set: http://www.cplusplus.com/reference/stl/set/

Reference for std::multiset: http://www.cplusplus.com/reference/stl/multiset/

Edit: (seems like it was unclear before) It is in general better to use a container like std::(multi)set or std:(multi)map than using std::list and sorting it afterwards everytime an element is inserted because std::list does not perform very good in inserting elements in the middle of the container.

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Note that for list, inserting one by one, even with a linear insertion time, is at least O(n^2). You're better off inserting them all and sorting once. –  Billy ONeal Apr 14 '10 at 17:22
    
That is not true really true because you would have n-times an insertion of O(log n) so you would get O(n log n) which is the same as for sorting. –  MKroehnert Apr 14 '10 at 17:38
    
@MKroehnert - lists don't allow logarithmic insertions. –  Niki Yoshiuchi Apr 14 '10 at 18:03
    
The problem is that you only have O(log n) insertion in a randomly accessible structure. In a list you only have bidirectional traversal, and thus O(n) insertion even if it's sorted... –  Matthieu M. Apr 14 '10 at 18:04
    
I do not propose to use std::list. In fact I was trying to state the opposite. –  MKroehnert Apr 14 '10 at 18:12

Generally speaking, iterating over a container is likely to take about as much time as iterating over another, so if you keep adding to a container and then iterating over it, it's mainly a question of picking a container that avoids constantly having to reallocate memory and inserts the way you want quickly.

Both list and multimap will avoid having to reallocate themselves simply from adding an element (like you could get with a vector), so it's primarily a question of how long it takes to insert. Adding to the end of a list will be O(1) while adding to a multimap will be O(log n). However, the multimap will insert the elements in sorted order, while if you want to have the list be sorted, you're going to have to either sort the list in O(n log n) or insert the element in a sorted manner with something like lower_bound which would be O(n). In either case, it will be far worse (in the worst case at least) to use the list.

Generally, if you're maintaining a container in sorted order and continually adding to it rather than creating it and sorting it once, sets and maps are more efficient since they're designed to be sorted. Of course, as always, if you really care about performance, profiling your specific application and seeing which works better is what you need to do. However, in this case, I'd say that it's almost a guarantee that multimap will be faster (especially if you have very many elements at all).

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Algorithmically, it's as long to iterate over one container than another, in general. In practice, due to cache considerations, array-like structures (vector and deque) are much more efficient. –  Matthieu M. Apr 14 '10 at 18:06

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