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If you want to have an array as a member variable of a class there are two main options:

A: Allocate the memory on the heap

class X
    int * arr;
    UnionFind(int numNodes)
        arr = new int[numNodes];

B: Use a vector

class X
    vector <int> arr;
    UnionFind(int numNodes)

Which of these is the preferred method? I know one drawback of heap allocated arrays is that you need to take care of deleting the memory yourself.

As a small side question, if an object of X is created on the heap is vector <int> arr also in the heap within the object? If so, how come vector <int> arr does not manually need to be deleted?

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The vector allocates memory for its elements from "the heap". Its destructor does the deletion. That's the whole point of using vector. One line replaces dozens of lines of constructor, destructor, copy-constructor, copy-assignment operator, move constructor. –  Matt McNabb Jun 10 '14 at 5:09
@RakibulHasan Better to learn the C++ standard library. Almost nobody uses the STL these days. –  juanchopanza Jun 10 '14 at 5:09
@user2612743: That's not enough. You also have to take care of the copy constructor, the move constructor, and the assignment operators. But even if the destructor was all you had to take care of, using a vector would be one less thing to worry about, so it's clearly better. –  Benjamin Lindley Jun 10 '14 at 5:19
Once you do that, your class will be broken in other ways, and you will have to write code to fix it. That's more code to look after, more scope for error, for possibly no gain. –  juanchopanza Jun 10 '14 at 5:23
We prefer B because once all the work to fix A is done you'll essentially have done nothing more then rewrite B. We already trust B. Don't make us look at A. –  CandiedOrange Jun 10 '14 at 5:29

2 Answers 2

up vote 6 down vote accepted

When you have the choice between a dynamically allocated C-style array and a std::vector<>, choose the vector.

  • It is safe, does all the alloc/realloc/resizing for you
  • It makes you code more flexible, readable, and easier to maintain
  • It is extremely efficient in most use cases
  • It provides explicit iterators, and plenty of member functions, including size()
  • Many implementations will do index checking in debug mode to catch out-of-bounds errors

Note that std::array exists for most of the cases where a C-array would be preferable (e.g., when allocation on the stack is preferred)

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You forgot one more advantage: many implementations will do index checking in debug mode to catch out-of-bounds errors. –  Mark Ransom Jun 10 '14 at 6:01
@Mark : added in the list, thank you. –  quantdev Jun 10 '14 at 6:06
Is there any stl that allows you to set the array length in the constructor, but once constructed does not allow for the length to be changed? –  1110101001 Jun 10 '14 at 6:13
you should ask another question for this ! but std::array allows you to fix its size at compile time. std::vector has constructors that explicit the size, but nothing prevents you from adding more elements. –  quantdev Jun 10 '14 at 6:19
Except you can't have the size determined at runtime like array<int, numNodes> arr;. Is there anything that can replace vector <int> arr` in the code in my opening post? –  1110101001 Jun 10 '14 at 6:56

You should prefer vector:

  • the vector and vector's elements' destructors are guaranteed to run at the appropriate times

  • things like .push_back are massively easier and more concise to use correctly than coding your own checks on "capacity" and resizing/copy-constructing/moving in a C++ object-aware fashion

  • it's easier to apply algorithms to Standard containers, use the iterators etc.

  • it will be easier to move from vector to another Standard container (list, stack, map, unordered_map, deque etc) if evolving application/library needs suggest it

  • vector has some housekeeping information that's useful: size(), capacity()

  • before C++11 there was a single performance issue compared to using new[] and delete[] - you couldn't do an up-front "sizing" of the vector to hold however-many elements without copy-constructing their values from a prototypical element (constructor "2" here, and resize here) - that meant the constructor or resize had to iterate over every element doing copy construction even if the default constructor was a no-op (e.g. deliberately leaving all members uninitialised)

    • this is very rarely relevant or problematic, and indeed the C++ behaviour was generally safer
  • because it's a proper class, you can (whether you should is another matter) overload operator<<, operator>> for conveniently streaming arbitrary vectors

if an object of X is created on the heap is vector <int> arr also in the heap within the object? If so, how come vector <int> arr does not manually need to be deleted?

Yes, the vector object itself will be embedded within X, so will be on the heap too (similarly, it could be embedded in an automatic/stack variable, a global/namespace/static variable, a thread-specific variable etc.). That said, the vector object contains a pointer which tracks any further memory needed for elements in the vector, and that memory is by default dynamically allocated (i.e. on the heap) regardless of where the vector object itself is held.

Member variables with destructors (such as any vector) have them called automatically by the containing class's destructor.

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