What's the advantage of multimap over map of vectors?

I don't understand why multimap exists if we can create map of vectors or map of sets. For me only differences are:

• using `equal_range` in multimap for getting elements of a key and in map of vectors we simply use `[]` operator and have vector of elements.
• using `multimap.insert(make_pair(key,value))` in multimap for adding elements and `map_of_vectors[key].push_back(value)` in map of vectors.

So why use multimap? For me it's better to have a vector than two iterators to get all values of a key.

This question applies also to unordered_map of vectors and unordered_multimap.

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I must admit I never quite understood the purpose of `multimap` :/ – Matthieu M. Dec 14 '10 at 12:13
I little bit late in the question but also multimap consumes much more memory than map of vectors due the extra pointers. The only reason I'd use them is if I want to keep the key of each element (doing `push_back` you won't keep it) – Jcao02 Aug 5 '14 at 14:08

I would say it depends on whether all the values with same key have a relationship that you want to address.

So for example, do you often go through all elements with key X, or pass them to a function, and so on? Then it is more convenient to already have them in their separate container, that you can address directly.

However, if you just have a collection of items, that may share same key value, or not, why use vectors in between? It is more convenient to run through the multimap with iterators than have a nested for loop for the map, vector case.

Another way of looking at this: If multiple entries per key is very common, your structure is more efficient in the map, vector case. If they seldomly happen, it is the opposite.

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Thanks. Your and Artyom's answer showed me a little more differences. However I still don't believe multimap is as useful in real life as map of vectors. But that's my personal opinion ;) – Mariusz Pawelski Dec 15 '10 at 18:36

There are many important differences between `multimap<x,y>` and `map<x,vector<y> >`

Once you had inserted a value into multimap, you know that the iterator would remain valid until you remove it and this is very strong property, you can't have it with map of vectors.

``````multimap<x,y>::iterator p=mymap.insert(make_pair(a,b));
``````

The iterator remains valid until it is erased from map, while in second case, it would be invalidated each time you add new entry to the vector.

Also note that `map<x,vector<y> >` may have an empty value set with existing key, while multimap does not.

These are different things that behave differently.

And to be honest I miss multimap in some languages that do not provide it in their library.

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It might be useful to think of a `multimap` as an adaptor to a `map` of `vector`s. You can achieve the same effect using `map` of `vector`s, but it's more work - `multimap` saves you doing manual labour to achieve full collection iteration, count of elements matching a key, and so on.

`map` of `vector`s is one possible implementation of `multimap`, if you like.

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two iterators ??? I think you are wrong.

when i use std::for_each() or other algo of on a multimap I use only ONE iterator range, and it is damn much simpler that worrying with a vector for each key.

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