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The way I know how to represent a linked list is basically creating a Node class (more preferably a struct), and the creating the actual linkedList class. However, yesterday I was searching for the logic of reversing a singly linked list operation and almost 90% of the solutions I've encountered was including that the function, returning data type Node* . Thus I got confused since if you want to reverse a list no matter what operation you done, wouldn't it be in the type of linkedList again? Am I doing it the wrong way?

The linked list implementation I do all the time;

#include <iostream>
using namespace std;

struct Node
    int data;
    Node *next;

class linkedList
    Node* firstPtr;
    Node* lastPtr;

    void insert(int value)
        Node* newNode=new Node;
        else {
    void print()
        Node *temp=firstPtr;
            cout<<temp->data<<" ";
share|improve this question
Could you please provide the function call for list reversal which you find confusing? – Andrey Apr 23 '12 at 8:52
The focus of the question is not actually the reversal function but why functions (like reversal) would return the value type Node – Ali Apr 23 '12 at 8:54
@rolandbishop: In your example, LinkedList is just a wrapper to hide the implementation details (Node*) from the client, while the solutions you saw one the net only focused on the implementation to be terse. – Matthieu M. Apr 23 '12 at 11:37
up vote 4 down vote accepted

You approach isn't wrong, but you might be giving too much emphasis on your linkedList class.

What does that class actually contain? A pointer to the first node, and a pointer to the last node (which is redundant information, since you can find the last node by only knowing the first one). So basically linkedList is just a helper class with no extra information.

The member functions from linkedList could easily be moved inside Node or made free functions that take a Node as parameter.

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Thanks for the awesome answer! So we create the linked list, reverse it in memory and just point to its initial node then? – Ali Apr 23 '12 at 8:53
@rolandbishop well... you point to the new first node. Which probably isn't your initial node, if you reversed the list. – Luchian Grigore Apr 23 '12 at 8:54
I guess the "well.." part caused by me not being able to express myself quickly. I've perfectly understood what you meant but thing I ask is that can we simply call that a linked list is basically can be obtained by a single node which is pointing to its initial node, right? – Ali Apr 23 '12 at 8:56
@rolandbishop right. A linked list is a pointer to the first node. – Luchian Grigore Apr 23 '12 at 8:59

Well, what is a linked list but a pointer to the first node? A list is fully accessible provided you can get to the first node, and all you need for that is a pointer to the first node.

Unless you want to store extra control information about the list (such as its length for example), there's no need for a separate data type for the list itself.

Now some implementations (such as yours) may also store a pointer to the last node in the list for efficiency, allowing you to append an item in O(1) instead of O(n). But that's an extra feature for the list, not a requirement of lists in general.

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Thanks makes great sense. So we just need a pointer to point the list arranged in the memory right? – Ali Apr 23 '12 at 8:52
@rolandbishop: I assume you meant "... to point to the list ..." in which case you're right. That's all you need. It's not necessarily all you want since, as stated, your extra control information has some advantages. So does storing the length since it makes size() O(1) rather than O(n) as well. – paxdiablo Apr 23 '12 at 8:54

Those functions might be returning of type Node* because after reversing the linked-list they will return the pointer to the First node of the list.

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