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So I am trying to create my own implementation file which contains instructions for a Queue. I decided to use a linked list to implement the Queue class, meaning that I need to use my own Node struct. Unfortunately, I am stuck and don't know how to properly include this within the file.

This is what I have so far:

#include <string>

#ifndef NODE
template <class DataType>
struct Node
  DataType data;
  Node *next;

template <class DataType>
class Queue
    bool isEmpty() const;
    void push(const DataType& parameter);
    bool peek(DataType& parameter) const;
    bool pop(DataType& parameter);
    void makeEmpty();

    Node<DataType>* front;
    Node<DataType>* end;

template <class DataType>
: front(0), end(0)

template <class DataType>
bool Queue<DataType>::isEmpty() const {return 0 == front;}

template <class DataType>
void Queue<DataType>::push(const DataType& parameter)
  Node<DataType>* node = new Node<DataType>;
  node->data = parameter;
  node->next = 0;
  if (end) end->next = node;
  else front = node;
  end = node;

template <class DataType>
bool Queue<DataType>::peek(DataType& parameter) const
  if (0 == front) return false; // failed
  parameter = front->data;
  return true; // success

template <class DataType>
bool Queue<DataType>::pop(DataType& parameter)
  if (0 == front) return false; // failed
  parameter = front->data;
  Node<DataType>* p = front->next;
  delete front;
  front = p;
  if (front == 0) end = 0;
  return true; // success

template <class DataType>
void Queue<DataType>::makeEmpty()
  end = 0;
  Node<DataType>* p;
  while (front) 
  p = front->next; 
  delete front; 
  front = p;

I'm not sure if I am enclosing the struct by the #ifndef correctly (i'm not even sure if this is the route I should be taking :/), should I be doing something similar to this or should I be doing something else with the code for the struct?

share|improve this question
Why do you wrap it with #ifndef? –  icepack Nov 17 '12 at 23:20
Not sure if this is necessary, but I would have the node pointer in the node struct be Node<DataType>* node. –  Waleed Khan Nov 17 '12 at 23:23
@WaleedKhan that's no difference –  sehe Nov 17 '12 at 23:30

1 Answer 1

You can just drop the #ifdef/#endif entirely

This is a class template and it may occur many times in several tranlation units, as long as all the occurrences are identical (One Definition Rule)


Since Node<> is purely a private concern, I'd make it a nested struct.

Here's a little demo making this more 'modern C++' style.

Edit Thanks to @R.MartinhoFernandes for showing a few more improvements and for reviewing this.

#include <memory>

template <typename T>
struct Queue {
    Queue() : front(), end(/*nullptr*/) {}

    // Copy-And-Swap idiom
    // see http://en.wikibooks.org/wiki/More_C%2B%2B_Idioms/Copy-and-swap
    // or  http://stackoverflow.com/questions/3279543/what-is-the-copy-and-swap-idiom
    void swap(Queue& q) noexcept {
        using std::swap;
        swap(q.front, front);
        swap(q.end, end);
    Queue(Queue const& q) : front(), end() {
        for(auto it=q.front.get(); it; it=it->next.get())
    Queue& operator=(Queue q) {
        std::swap(*this, q);
        return *this;
    // end Copy-and-swap

    // prevent stack overflows in ~Node if the list grows large (say >1k elements) 
    ~Queue() { clear(); }

    bool isEmpty() const { 
        return !front; 
    void push(T const& data) {
        Ptr node(new Node(data));
        if (end)
            end->next = std::move(node);
            front = std::move(node);
        end = node.get();
    bool peek(T& data) const {
        if(front) data = front->data;
        return front.get();
    bool pop(T& data) {
        if(!front) return false;

        data           = front->data;
        front          = std::move(front->next);
        if(!front) end = nullptr;

        return true;
    void clear() {
        end = nullptr;
        while(front) front = std::move(front->next);
    struct Node;
    typedef std::unique_ptr<struct Node> Ptr;
    struct Node {
        Node(T data) : data(std::move(data)), next() {}
        T   data;
        Ptr next;
    Ptr front;
    Node* end;

#include <iostream>

int main(int argc, const char *argv[]) {
    Queue<int> test;
    int x;
    while(test.pop(x)) {
        std::cout << x << '\n';

Note: Perhaps the code in push has been golfed a bit too far, but hey, it shows you how modern C++ requires much less handholding (even without std::make_unique).

Note how I think Clang correctly handles the following version (i.e. with implicit std::move):

void push(const DataType& parameter) {
    end = ((end? end->next : front) = Ptr(new Node(parameter))).get();

I'm not quite sure why gcc rejects it.

share|improve this answer
The title says C++ implementation file, so this seems to be .cpp –  icepack Nov 17 '12 at 23:22
@icepack I should think that classes with templates are header files. –  Waleed Khan Nov 17 '12 at 23:28
That said, the whole header file would benefit from having an include guard, just like any other header, in case it is included multiple times in the same TU. –  Steve Jessop Nov 17 '12 at 23:51
I've added a better approach that eliminates the need for manual memory management and moves Node<> inside the Queue<> class template altogether. Also inlined all methods in good template style (you could just mark them inline instead, but I prefer the less verbose inline definition) –  sehe Nov 18 '12 at 0:57
I just realized the copy/assignment special members for this class were completely broken. I fixed this value-semantics bug (added Copy-And-Swap idiom) now. (Fixed two more issues in that... Gee I must go to bed) –  sehe Nov 18 '12 at 1:42

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