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Alright as a preface I have a need to cache a relatively small subset of rarely modified data to avoid querying the database as frequently for performance reasons. This data is heavily used in a read-only sense as it is referenced often by a much larger set of data in other tables.

I've written a class which will have the ability to store basically the entirety of the two tables in question in memory while listening for commit changes in conjunction with a thread safe callback mechanism for updating the cached objects.

My current implementation has two std::vectors one for the elements of each table. The class provides both access to the entirety of each vector as well as convenience methods for searching for a specific element of table data via std::find, std::find_if, etc.

Does anyone know if using std::list, std::set, or std::map over std::vector for searching would be preferable? Most of the time that is what will be requested of these containers after populating once from the database when a new connection is made.

I'm also open to using C++0x features supported by VS2010 or Boost.

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up vote 30 down vote accepted

For searching a particular value, with std::set and std::map it takes O(log N) time, while with the other two it takes O(N) time; So, std::set or std::map are probably better. Since you have access to C++0x, you could also use std::unordered_set or std::unordered_map which take constant time on average.

For find_if, there's little difference between them, because it takes an arbitrary predicate and containers cannot optimize arbitrarily, of course.

However if you will be calling find_if frequently with a certain predicate, you can optimize yourself: use a std::map or std::set with a custom comparator or special keys and use use find instead.

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Even without C++0x you can look for the unordered containers in TR1, i.e. #include <tr1/unordered_map> and std::tr1::unordered_map<K,V>. You really have to test, though, because the asymptotics (O(1) vs O(log n)) don't tell you the size of the constant, and n might have to be titanic before the unordered container is more efficient! – Kerrek SB Aug 8 '11 at 16:59
Yes, testing is important! If it isn't a lot of data, the "slower" containers may work better. And when using the unordered ones, the quality of the hash function can also make a difference. – R. Martinho Fernandes Aug 8 '11 at 17:02
For almost all cases the vectors combined size will be less than 500 elements. They are separate for organization only. I need to be able to search on a name field as well as an id field thus the predicates and std::find_if using lambdas. – AJG85 Aug 8 '11 at 17:14
For anyone just coming to this question like I am. I needed to do roughly a million+ lookups on a set of roughly 1 million values. Using an unordered_set it took around 7 seconds to preform all the lookups. It took over 30 min (I stopped it after finding this answer) using a vector. This is why I love stackoverflow! Thank you R. Martinho Fernandes! – William May 13 '12 at 22:26

A sorted vector using std::lower_bound can be just as fast as std::set if you're not updating very often; they're both O(log n). It's worth trying both to see which is better for your own situation.

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I failed to mention I would need to find on multiple values which would require re-sorting by name or by id. – AJG85 Aug 8 '11 at 17:23
This is by far the best answer to the question actually asked. – Howard Hinnant Aug 8 '11 at 18:18
In my experience a sorted vector is noticeably faster than a set (and less memory intensive too); the obvious trade-off being that modifying the stored data is expensive. If you need to look up by different fields, the simplest solution is to have a different sorted vector for each field (probably vectors of pointers to avoid duplicating a bunch of information) – Sumudu Fernando Aug 8 '11 at 19:04

Since from your (extended) requirements you need to search on multiple fields, I would point you to Boost.MultiIndex.

This Boost library lets you build one container (with only one exemplary of each element it contains) and index it over an arbitrary number of indices. It also lets you precise which indices to use.

To determine the kind of index to use, you'll need extensive benchmarks. 500 is a relatively low number of entries, so constant factors won't play nicely. Furthermore, there can be a noticeable difference between single-thread and multi-thread usage (most hash-table implementations can collapse on MT usage because they do not use linear-rehashing, and thus a single thread ends up rehashing the table, blocking all others).

I would recommend a sorted index (skip-list like, if possible) to accomodate range requests (all names beginning by Abc ?) if the performance difference is either unnoticeable or simply does not matter.

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The elements are complex so caching of a large amount of elements would be counterproductive it's only useful in this one case as I know the tables have limited data and limited writes. While currently not heavily implemented multi-threading is a real possibility later so I had pretty much ruled hash tables out. There does not need to be a range as there are context based RE2 regex template functions elsewhere for that functionality across table string fields. However I will give Boost.MultiIndex a perusal as I'm unfamiliar but that sounds quite useful. – AJG85 Aug 8 '11 at 20:28

If you only want to search for distinct values, one specific column in the table, then std::hash is fastest.

If you want to be able to search using several different predicates, you will need some kind of index structure. It can be implemented by extending your current vector based approach with several hash tables or maps, one for each field to search for, where the value is either an index into the vector, or a direct pointer to the element in the vector.

Going further, if you want to be able to search for ranges, such as all occasions having a date in July you need an ordered data structure, where you can extract a range.

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Test it. It is very easy, containers are almost interchangeable in STL.

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Not really. std::find is O(n) even when run on std::set, which is missing the point. – MSalters Aug 9 '11 at 8:27
containers are almost interchangeable in terms of source code. You can write container-independent code, and then test it for efficiency with different containers. – Piotr Aug 9 '11 at 11:43
Are you familiar with the O(n) / O(log N) distinction? You don't need to test, the standard already tells you what the efficiency must be. – MSalters Aug 9 '11 at 14:22
yes, but in case of real code, you don't always know your insert / find ratio, or average collection size. for small N, linear search (vector) might be faster then O(log N) on binary tree (set) – Piotr Aug 9 '11 at 18:42
Agree with @Piotr. Cache locality of contiguous arrays beat other containers in most scenarios:… (I do understand that synthetic benchmarks can be misleading :o) – Samaursa Feb 9 '13 at 20:59

Not stl, but a commercial c++ container is abax container which has O(1) in search, delete, modify, O(logn) in insert.

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Are you affiliated with Abax? – ReneS Mar 5 '15 at 13:41

Not an answer per se, but be sure to use a typedef to refer to the container type you do use, something like typedef std::vector< itemtype > data_table_cache; Then use your typedef type everywhere.

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How would the typedef make a difference other than less typing possibly? Template instantiations are resolved at compile time and I use C++0x auto keyword liberally for STL iterators to make code more readable. – AJG85 Aug 8 '11 at 20:12
Because when you decide you used the wrong container type and you want to change it, you only have to change it in one place. – Rob K Aug 30 '11 at 16:27
Containers while similar usually have differing methods and usages. For example if I were to change from std::vector to std::set I would need to change all references to push_back and empty at a minimum. So the typedef doesn't buy anything auto isn't already providing. – AJG85 Aug 31 '11 at 18:08

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