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I am trying to maintain a collection of perfect, heap ordered, binary trees: enter image description here


So, i would think that creating a heapNode type, containing the relevant child/parent pointers and holding an element, and a heap type, that would implement the operations on the trees, would be straighforward. At least, this is how i would do it if i had just one tree to worry about. The problem is that, given a pointer to a node in any tree, i need to be able to delete that node. But, only given the pointer, i can't figure out how im gonna know what heap instance to call.

My idea then, is that i dont have a heap type as such, only the nodes, and then a modifier type of some sort, that will implement all the tree operations. The only thing this modifier would know about, is how to operate on heapNodes( changing links and so on ). I am thinking that the modifier type is just a collection of static methods, maybe just a collection of plain C functions.

Any thoughts on this problem? I would guess that it's a more general problem: given a reference to some (data) member of a class, how can you easily access the operations available on it? I am doing this in C++, which i don't know very well. Im fine with C though. Thanks.

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Is your problem that the root of each tree has to be handled specially? – plinth Apr 9 '14 at 19:28
Hmm, no. My problem is that say im given a pointer to the root of the second tree in my drawing. I want to delete this node but all i have is the pointer to it. If the nodes are "maintained" through a heap class, i don't know which instance the node belongs to. Thus, i don't know which heap class instance i would call to delete the node. Makes sense? – Kasper Apr 9 '14 at 19:31
if (node.isRoot()) { heap.remove(node); } node.remove(); – plinth Apr 9 '14 at 19:36
But, say each tree is of type heap. These heaps are maintained in a type heapList or similar. Which heap.remove() would i call? – Kasper Apr 9 '14 at 19:46
My problem is not as such to operate on the heaps, but more of a general OOP thing... i think. Say i had a mailbox class that would hold letters. The mailbox would have methods like trash letter, send letter and so on. Then say i instantiate three mailboxes. Now, given only a reference to some letter, not the containing mailbox, i want to, say, trash the letter. I would know which method to call, but not which mailbox object to call it on. – Kasper Apr 9 '14 at 19:53

1 Answer 1

up vote 0 down vote accepted

Where do you get the pointer into the trees from? IMHO, this violates encapsulation of your tree collection class (if there is none, this may be the problem) and is a sign of missing abstraction. Keep your internals private.

You do know that you can model a heap with an array without using nodes linked by pointers? In C++, the STL provides functions to do this.

template<typename T> class Forest {
// functions to do something with the heap,
// but do not leak internals.
void do_something(T const& x) {
    // pick a heap and add an element

// simple wrapper around STL heap functions
class Heap {
    void push(T const& x) {
        std::push_heap(mData.begin(), mData.end());

    T pop() {
        std::pop_heap(mData.begin(), mData.end());
        T const tmp(mData.back());

        std::vector<T> mData;

std::vector<Heap> mHeaps;

If you need iteration, implement a custom iterator to iterate over all heaps, but do not leak internals. Clients should not depend on implementation knowledge, e.g. the way heaps are implemented.

As mentioned in the comments, you are implementing a priority queue using heaps ( I would suggest a design like this:

  • A priority queue class that stores a collection of heaps and has the invariant mentioned in page 13 (this is good to check before and after operations for debugging). It also stores the numeral system representation. Let's say that the priority queue keeps a vector member.
  • A class to represent the numeral system. This implements a mapping to the heaps in the vector by storing iterators.
  • A class representing a single heap with operations to add, remove and elements and merge with other heaps. You could look at std::map for an example of a tree structure.

These elements can be implemented and tested almost individually. Clients of priority queue do not see anything of the implementation.

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Well, if its of interest here is some background: But my problem is not the heaps. The user will supply the reference to the node. The forest will implement a priority queue(adressable, meldable). Thus, the user will store pointers to the nodes in their application. The user doesn't know anything about the implementation, but they do know that they can call priority_queue.delete(*node) (or similar) – Kasper Apr 9 '14 at 20:04
The exact details, im not sure about yet. Maybe the user is responsible for supplying a node, containing an element, or they will be returned a reference to the node once it's in the queue. Either way, the user will be able to store these references in his/her apllication. My working prototype is not written with classes and objects. It's "handwritten" C, so i just operate on the nodes and trees as i wish. However, part of the project is to do it in C++. Good OOP design is not my strong side. – Kasper Apr 9 '14 at 20:11
Are you implementing the priority queue with binomial heaps? In an OOP design, I would strongly argue against giving out pointers to internal nodes. One of the key concepts is abstraction meaning that clients should not depend on implementation details or assumptions inside other objects. You could have a look at std::list or std::map. Both provide an abstraction of their internal structure and clients do not have to worry about the implementation of a map. – Jens Apr 9 '14 at 20:21
It is like a binomial queue yes, but using perfect binary heaps instead. It's a fairly complicated gadget. Probably mostly of theoretical interest, but thats life of a student :) – Kasper Apr 9 '14 at 20:45
But, using std::list couldn't i just store an iterator to an element and then call erase on the list if i wanted to? As far as i understand, std::list iterators are not invalidated by operating on the list. – Kasper Apr 9 '14 at 20:52

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