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I've been reading up on STL containers in my book on C++, specifically the section on the STL and it's containers. Now I do understand each and every one of them have their own specific properties, and I'm close to memorizing all of them... But what I do not yet grasp is in which scenario each of them is used.

Could a kind person explain this to me? Example code is much prefered.

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do you mean map, vectot, set etc? – Thomas Tempelmann Jan 23 '09 at 0:35
Even looking at this diagram I can't say what would be the best one to use in my quastion… – sergiol Feb 24 '12 at 19:32
@sbi: Removing the C++Faq tag from this one and adding it to the more recent and C++11 inclusiveHow can i efficiently select a Standard library container in C++11? – Alok Save May 23 '12 at 4:08

7 Answers 7

up vote 184 down vote accepted

This cheat sheet provides a pretty good summary of the different containers.

See the flowchart at the bottom as a guide on which to use in different usage scenarios:

created by David Moore and licensed CC BY-SA 3.0

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This flowchart is golden, I wish I had something like that in c# – Bruno Feb 1 '13 at 15:35
anyone have an updated link? the link is broken – Mel Oct 21 '13 at 9:07
Updated link: C++ Containers Cheat Sheet. – Bill Door Jan 2 '14 at 22:56
Starting point must be vector rather then empty.… – Eonil Feb 18 '14 at 19:34
@Ryan, where it says "size will vary widely" if there was an option that size will never under any circumstances vary then std::array might go there. – shuttle87 Jun 18 at 14:03

Here is a flowchart inspired by David Moore's version (see above) that I created, which is up-to-date (mostly) with the new standard (C++11). This is only my personal take on it, it's not indisputable, but I figured it could be valuable to this discussion:

enter image description here

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Can you share a link to the original source (some kind of flowchart file)? – kevinarpe May 2 at 9:56
@kevinarpe I drew it by hand (svg). I did not use any flowchart generation software. – Mikael Persson May 2 at 12:59
Can you make the original available? It is an excellent chart. Maybe stick on a blog or GitHub? – kevinarpe May 2 at 13:28
I think that the arrow from "In-order Traversals" shouldn not only lead to vector. It is not suitable container when elements are often added or removed. – NO_NAME Jul 26 at 13:37

Simple answer: use vector<> for everything unless you have a real reason to do otherwise.

When you find a case where you're thinking, "Gee, vector<> doesn't work well here because of X", go on the basis of X.

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However .. be careful not to delete / insert items when iterating ... use const_iterator as far as possible to avoid this .. – Vardhan Mar 20 '12 at 16:13
Hmm... I think people are over-using vector. The reason is, that the "doesn't work"-case won't happen easily - so people stick to the most often used container and misuse it for storing lists, queues, ... In my oppinion - which matches the flowchart - one should choose the container based on the intended use instead of applying the "one seems to fit all". – Black Apr 13 '12 at 13:50
@Black Point is, vector is usually faster even on operations that in theory should work slower. – Bartek Banachewicz Feb 7 '13 at 0:30
@Black I believe that the doesn't work cases comes up easily only when we consider optimization. – Eonil Feb 18 '14 at 19:01
@Vardhan std::remove_if is almost always superior to the "delete during iteration" approach. – fredoverflow Apr 29 '14 at 6:35

Look at Effective STL by Scott Meyers. It's good at explaining how to use the STL.

If you want to store a determined/undetermined number of objects and you're never going to delete any, then a vector is what you want. It's the default replacement for a C array, and it works like one, but doesn't overflow. You can set its size beforehand as well with reserve().

If you want to store an undetermined number of objects, but you'll be adding them and deleting them, then you probably want a list...because you can delete an element without moving any following elements - unlike vector. It takes more memory than a vector, though, and you can't sequentially access an element.

If you want to take a bunch of elements and find only the unique values of those elements, reading them all into a set will do it, and it will sort them for you as well.

If you have a lot of key-value pairs, and you want to sort them by key, then a map is useful...but it will only hold one value per key. If you need more than one value per key, you could have a vector/list as your value in the map, or use a multimap.

It's not in the STL, but it is in the TR1 update to the STL: if you have a lot of key-value pairs that you're going to look up by key, and you don't care about their order, you might want to use a hash - which is tr1::unordered_map. I've used it with Visual C++ 7.1, where it was called stdext::hash_map. It has a lookup of O(1) instead of a lookup of O(log n) for map.

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I've heard a couple of anecdotes now suggesting that Microsoft's hash_map isn't a very good implementation. I hope they did better on unordered_map. – Mark Ransom Jun 20 '11 at 19:01
Of lists - "you can't sequentially access an element." - I think you mean you can't random-access or index directly to an element.... – Tony D Jul 8 '12 at 4:12
^ Yes, because sequential access is precisely what a list does. Rather glaring error there. – underscore_d Nov 28 at 13:01

It all depends on what you want to store and what you want to do with the container. Here are some (very non-exhaustive) examples for the container classes that I tend to use most:

vector: Compact layout with little or no memory overhead per contained object. Efficient to iterate over. Append, insert and erase can be expensive, particularly for complex objects. Cheap to find a contained object by index, e.g. myVector[10]. Use where you would have used an array in C. Good where you have a lot of simple objects (e.g. int). Don't forget to use reserve() before adding a lot of objects to the container.

list: Small memory overhead per contained object. Efficient to iterate over. Append, insert and erase are cheap. Use where you would have used a linked list in C.

set (and multiset): Significant memory overhead per contained object. Use where you need to find out quickly if that container contains a given object, or merge containers efficiently.

map (and multimap): Significant memory overhead per contained object. Use where you want to store key-value pairs and look up values by key quickly.

The flow chart on the cheat sheet suggested by zdan provides a more exhaustive guide.

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One lesson i've learned is, try to wrap it in a class, since changing the container type one fine day can yield in to big surprises.

class CollectionOfFoo {
    Collection<Foo*> foos;
    .. delegate methods specifically 

It doesn't cost much upfront, and saves time in debugging when you want to break whenever somebody does operation x on this structure.

Coming to selection the perfect data structure for a job: Each data structure provides some operations, which can be varying time complexity : O(1), O(lg N), O (N) etc.

You essentially have to take best guess, on which operations will be done most, and use a data structure which has that operation as O(1) .

Simple, isn't it (-:

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Isn't this why we use iterators? – Platinum Azure Mar 20 '12 at 14:20
@PlatinumAzure Even iterators should be member typedef .. If you change the container type you also have to go and change all the iterator definitions ... this did got fixed in c++1x though ! – Vardhan Mar 20 '12 at 16:13
For the curious one, this is the fix in C++11: auto myIterator = whateverCollection.begin(); // <-- immune to changes of container type – Black Apr 13 '12 at 13:55
Would a typedef Collection<Foo*> CollectionOfFoo; be sufficient? – Craig McQueen Apr 12 '13 at 1:13
It's quite unlikely that you can just change your mind later and simply delegate to a different container: Beware the illusion of container-independent code – fredoverflow Apr 29 '14 at 6:38

An important point only briefly mentioned so far, is that if you require contiguous memory (like a C array gives), then you can only use vector, array, or string.

Use array is the size is known at compile time.

Use string if you only need to work with character types, and need a string not just a general-purpose container.

Use vector in all other cases (vector should be the default choice of container in most cases anyway).

With all three of these you can use the data() member function to get a pointer to the first element of the container.

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