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I need to have a dynamic array, so I need to allocate the necessary amount of memory through a pointer. What makes me wonder about which is a good solution, is that C++ has the ability to do something like:

int * p = new int[6];

which allocates the necessary array. What I need is that, afterwards, I want to grow some parts of this array. A(n flawed) example:

int *p1 = &p[0];
int *p2 = &p[2];
int *p3 = &p[4];
// delete positions p[2], p[3]
delete [] p2;
// create new array
p2 = new int[4];

I don't know how to achieve this behavior.

EDIT: std::vector does not work for me since I need the time of insertion/deletion of k elements to be proportional to the number k and not to the number of elements stored in the std::vector.

Using pointers, in the general case, I would point to the start of any non continuous region of memory and I would keep account of how many elements it stores. Conceptually, I would fragment the large array into many small ones and not necessarily in continuous space in the memory (the deletion creates "holes" while the allocation does not necessarily "fill" them).

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From now on, whenever you use the keyword delete you should seriously consider you're doing something wrong. :) The correct method is to wrap the resource into something that will take care of the management for you. This is SBRM (RAII). –  GManNickG Sep 27 '10 at 23:58

4 Answers 4

up vote 8 down vote accepted

You achieve this behavior by using std::vector:

std::vector<int> v(6);         // create a vector with six elements.
v.erase(v.begin() + 2);        // erase the element at v[2]
v.insert(v.begin() + 2, 4, 0); // insert four new elements starting at v[2]

Really, any time you want to use a dynamically allocated array, you should first consider using std::vector. It's not the solution to every problem, but along with the rest of the C++ standard library containers it is definitely the solution to most problems.

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Let's say k_1 the number of elements to insert, k_2 the number of elements to delete and n the total number of elements in the vector with k_1, k_2 << n. Does not the solution with vector takes O(n) instead of O(k_1 + k_2)? –  Dimitris Leventeas Sep 28 '10 at 0:07
@myle: A removal from the middle of a vector takes time proportional to the number of elements in the vector that are after the range of elements being removed. An insertion in the middle may take time proportional to the total number of elements in the vector (if a reallocation is necessary). Since arrays are stored contiguously, there's no way around this. You would need to use another data structure (like a linked list) to get different performance characteristics (note, however, that in most real-world applications, a linked list is not the best choice of data structure). –  James McNellis Sep 28 '10 at 0:11
If I could spare the memory fragmentation (which I can), if different pointers where pointing to the different "parts" of the array (as in the example) and new was allocating memory where it could do so, then I would have better performance, namely the O(k_1 + k_2). I insist on this, since it is very crucial for my implementation. –  Dimitris Leventeas Sep 28 '10 at 0:16
@myle: No, a list does not support random access because random access in a linked list is slow. Random access in your proposed data structure (effectively a jagged array of arrays) would also be relatively inefficient (compared to access in an array). –  James McNellis Sep 28 '10 at 0:42
@myle: Sure, though if your problem still isn't solved, please do ask another question with the specific problem you are trying to solve ("I need a container that supports efficient random access and O(k) insertion and removal" or something like that). –  James McNellis Sep 28 '10 at 1:03

You should look into STL containers in C++, for example vector has pretty much the functionality you want.

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I'd advise against doing this on your own. Look up std::vector for a reasonable starting point.

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another option, besides std::vector is std::deque, which works in much the same way, but is a little more efficient at inserting chunks into the middle. If that's still not good enough for you, you might get some mileage using a collection of collections. You'll have to do a little bit more work getting random access to work (perhaps writing a class to wrap the whole thing.

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In the case of bulk insert/remove, at most n/2 copies occur, whereas with a vector, n copies may occur. the speedup is not major, but it is enough to be worthwhile. –  SingleNegationElimination Sep 28 '10 at 1:18
I retract my comment; you are indeed correct. –  James McNellis Sep 28 '10 at 1:39
On the other hand, the speedup at insert comes at the cost of a similar, constant factor slowdown for random access. TANFL –  SingleNegationElimination Sep 28 '10 at 2:28

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