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I have some dynamic int * arrays that I would like to use as keys for an unordered_map. I'm a bit unclear on how I should declare the key type so it would actually be the value of the entire array.

Also, to deallocate the memory for the arrays, do I use map.clear()?


unordered_map<??, int> frequency;

while (some_condition) {

  int *my_array = new int[size];

// to deallocate memory for the arrays in frequency?
share|improve this question
What's a "dynamic int * array"? A dynamic array of ints, or a dynamic array of int pointers, or an array of pointers to dynamic ints? Please post some code. – Kerrek SB Aug 22 '11 at 9:38
up vote 0 down vote accepted

You won't be able to stick int* as key inside a std::map and still be able to retrieve elements 'by value'. The reason for that is a single int* only provides the start of an array, you need the end too to compute anything (equivalently and more C-like, the length). In other words, int* does not an array (dynamic or otherwise) make; in this context it's an iterator to the start of a sequence.

You can use std::pair<int*, int*> but it should only be used for non-owning 'views' of data. That is, if you manually manage memory with a std::map<std::pair<int*, int*>, int> you'll end up with a headache. One possibility is using a smart-pointer: std::pair<std::unique_ptr<int[]>, int*>. But as others have recommended, just use std::vector as it is still compatible with C-like interfaces that deal with int*. Plus a const std::pair<std::unique_ptr<int>, int*> still allows you to scribble the memory, which can mess up the ordering of the map and ends you up in trouble.

A final blow to using int* or std::unique_ptr<int[]> is that you would need to provide the strict weak ordering that std::map requires, whereas std::vector<int> comes with an appropriate operator<. On the other hand, you need to provide a hash for both if you settle instead on std::unordered_map. For what it's worth, a simple functor that uses std::lexicographical_compare (same semantics as std::vector comparison):

struct compare {
    typedef std::pair<std::unique_ptr<int[]>, int*> value_type;
    operator()(value_type const& lhs, value_type const& rhs) const
        return std::lexicographical_compare(lhs.first.get(), lhs.second
                                           , rhs.first.get(), rhs.second);

Then you can use std::map<std::pair<std::unique_ptr<int[]>, int*>, int, compare>.

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Important: If you use a dynamically allocated object in a STL Container, then to deallocate the memory you need to walk the container and call delete (or delete[]) explicitly.

I would strongly suggest moving from int* to std::vector<int>, you would not have the issue of memory ownership any longer then.

In order to declare a key, pass the type as the template parameter:

std::unordered_map<int*, Foo>
std::unordered_map<std::vector<int>, Foo>

Of course, for unordered_map you are likely going to need a specific Hash parameter, which derives a hash value from the Key you pass.

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Unfortunately, I'm working with a lot pre-existing code that take these dynamic arrays as input. So do you think I should just convert them to vectors in my own functions, or is there a more efficient way to work with them directly. Also If i use int *, isn't that just the value of the first address in the array? – wolve80 Aug 22 '11 at 10:01
@wolve80: if a particular function takes a pointer to an array, and you have a vector, then you can pass it &vector.front(). – Mike Seymour Aug 22 '11 at 10:09
The advantage of using naked pointers as keys is that you don't need to think about hashing, and that they make for a fast key. You just have to be very careful when you erase elements from the map. – Kerrek SB Aug 22 '11 at 10:11
@wolve No. They are different objects, so array1 != array2 holds (remember we're doing pointer comparison here). Moreoever, if you want to retrieve an array that contains e.g. { 1, 2, 3 } you can't do that without holding the original pointer that you put inside it. Creating a new dynamic array of { 1, 2, 3 } will yield a different pointer. If that's not what you want, you need a custom hash. – Luc Danton Aug 22 '11 at 10:38
@wolve: If you want a range of values as a key, you should use something like the Boost range_hash, but you'll also have to provide equality comparison. – Kerrek SB Aug 22 '11 at 11:03

If you meant,

int *p = new int[size];

and you want to make p as a key, then for you better choice will be to use std::set().

Also, you cannot simply clear() it; you may want to delete[] each element before, to avoid memory leak. If you don't want to individually delete[] it then, you can use shared_ptr (or other smart pointers) which will do the job for you.

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Why is std::set() a better choice? – Dennis Aug 22 '11 at 10:44
@Dennis, because OP wants just the record of int* (pointer to dynamic array); and find() it whenever needed. OP doesn't really need any mapping. Thus set() is a good choice here. – iammilind Aug 22 '11 at 11:03
Yes I guess just adding to the set and using count would work. – Dennis Aug 22 '11 at 13:59

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