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My question is very simple, can one using C++, implment a link-list data structure without using pointers (next nodes)? To further qualify my question, I'm mean can one create a Linked-List data structure using only class instantiations.

A common node definition might be like so:

template<typename T>
struct node
   T t;
   node<T>* next;
   node<T>* prev;

I'm aware of std::list etc, I'm just curious to know if its possible or not - and if so how? code examples will be greatly appreciated.

More clarifications:

  1. Insertions should be O(1)
  2. Traversal should be no more than O(n)
  3. A real node and a null node should be differentiable
  4. The size of the linked-list should only be limited by the amount of memory available.
share|improve this question
Is this Homework? – Mike Atlas Jun 9 '10 at 2:36
@Mike Atlas: No just curiosity. – Matthieu N. Jun 9 '10 at 2:39
I assume using smart pointers like auto_ptr or shared_ptr would be cheating. – Ken Bloom Jun 9 '10 at 2:47
@Ken: They would defeat the purpose of the question. – Matthieu N. Jun 9 '10 at 2:52
I assume that in rule 4, it's valid to be limited by the amount of available runtime stack space. – Ken Bloom Jun 9 '10 at 3:03

12 Answers 12

Sure, if you don't mind the linked list having a maximum size, you could statically allocate an array of list nodes, and then use integer indices into the array as your "previous" and "next" values for each node, rather than pointers. I've done in this in the past to save a bit of memory (since an integer can be either 2 or 4 bytes, whereas on a 64-bit system a pointer will be 8 bytes)

share|improve this answer
But then it's not a linked list, it's a vector. – Billy ONeal Jun 9 '10 at 2:41
It is a linked list. – Nyan Jun 9 '10 at 2:43
@Jeremy: As Billy mentioned, what you describe is not a linked-list wrt the true definition of the structure. – Matthieu N. Jun 9 '10 at 2:43
It is a linked list with all nodes occupying a continuous memory space. From Wikipedia: "a linked list is a data structure that consists of a sequence of data records such that in each record there is a field that contains a reference (i.e., a link) to the next record in the sequence." What @Jeremy Friesner describes satisfies this definition. – Richard Simões Jun 9 '10 at 2:49
@billy: by your logic a std::map using a pooled allocator would also be a vector if the pool use contiguous memory. – deft_code Jun 9 '10 at 5:36

Yes, it's possible. Use array indexes instead of pointers.

share|improve this answer
Sorry, no code example as this smells like homework to me and I prefer not to answer h/w quesyions unless the poster is up-front about the fact. – DVK Jun 9 '10 at 2:40
you mean something like a std::vector<std::pair<T,std::size_t>> ? – Matthieu N. Jun 9 '10 at 2:41
@DVK: True, then nor would your array be one either. – Matthieu N. Jun 9 '10 at 2:42
It's still a linked list, but it is also still using pointers. The term for this is "based pointer". – Ben Voigt Jun 9 '10 at 2:43
Billy if an entry in the list has a link to the "previous" and "next" entry in hte list then it is a linked list. The original "linked List" implementations were database structures on disk which had logical pointers for "previous' and "next" – James Anderson Jun 9 '10 at 2:59

From Wikipedia:

In computer science, a linked list is a data structure that consists of a sequence of data records such that in each record there is a field that contains a reference (i.e., a link) to the next record in the sequence.

Nothing in that definition specifies the manner in which the reference is stored or used. If you don't store a reference, it isn't a linked list -- it's something else.

If your goal is merely to avoid using a pointer (or object reference), then using a vector with an index is a common implementation. (One of the reasons for using the vector/index implementation is persistence: it's really hard to correctly persist pointers / object references outside of the active memory space.)

share|improve this answer


class node { 
  std::string filenameOfNextNode;
  std::string filenameOfPrevNode;
  std::string data;
  node nextNode() {
    node retVal;
    std::ifstream file(filenameOfNextNode.c_str());
    retVal.filenameOfNextNode = file.getline();
    retVal.filenameOfPrevNode = file.getline(); = file.getline();
    return retVal;

Inspired by a comment about the origins of linked lists

share|improve this answer

One could create a list of cons-cells using temporaries, const references, and inheritance. But you'd have to be very careful not to keep any references to it beyond its lifetime. And you probably couldn't get away with anything mutable.

This is based roughly on the Scala implementation of these lists (in particular the idea of using inheritance and a NilList subclass rather than using null pointers).

template<class T>
struct ConsList{
   virtual T const & car() const=0;
   virtual ConsList<T> const & cdr() const=0;

template<class T>
struct ConsCell:ConsList{
   ConsCell(T const & data_, ConsList<T> const & next_):
   virtual T const & car() const{return data;}
   virtual ConstList<T> const & cdr() const{return next;}

     T data;
     ConsList<T> const & next;

template<class T>
struct NilList:ConsList{  
   // replace std::exception with some other kind of exception class
   virtual T const & car() const{throw std::exception;}
   virtual ConstList<T> const & cdr() const{throw std::exception;}

void foo(ConsList<int> const & l){
   if(l != NilList<int>()){

// the whole list is destructed here, so you better not have
// any references to it stored away when you reach this comment.
share|improve this answer
Actually, you can avoid the issue with temporaries by giving each node a variable with a name, and making references to those. But that could also be living dangerously. – Ken Bloom Jun 9 '10 at 2:49
@Ken: Your solution is no different than a static array, as the size of the structure has to be known at compile-time. Furthermore the size of the structure is entirely dependent on the compilers templating depth and not the amount of memory you have available. – Matthieu N. Jun 9 '10 at 2:50
@sonicoder, this structure is not using nested templates, so the compiler's templating depth shouldn't affect anything. Moreover, if you used a recursive function to build the list and continuation passing style to operate on it then you could build a dynamically-sized list. – Ken Bloom Jun 9 '10 at 2:53
@Ken: Could you please demonstrate how one would insert a node between say, nodes 2 and 3? – Matthieu N. Jun 9 '10 at 2:54
@sonicoder: that can't be done. This is a cons-list, like one would find in a functional language, and those aren't intended to support insertions in the middle. (That's the only reason I can get away with this silly example. I if you want mutability you'll have to use pointers.) – Ken Bloom Jun 9 '10 at 2:56

While I'm not sure just what the context behind your question is, if you do a little out of the box thinking I'm sure you can.

DVK suggested arrays, which is quite true, but arrays are simply thin wrappers around pointer arithmetic.

How about something entirely different: use the filesystem to do the storage for you!

for example, the file /linked-list/1 contains the data:

Data 1!


and /linked-list/5 is the next node in the list...

If you're willing to hack enough, anything is possible :-p

Note that said implementation's complexity / speed is entirely dependent on your filesystem (i.e. it's not necessarily O(1) for everything)

share|improve this answer
That's still not a linked list. Insertion or removal requires pushing up or down elements in your file. It's more like a vector data structure. – Billy ONeal Jun 9 '10 at 2:46
@Steven: Lets just assume the solution I'm looking for should not be based on anything other than standard OS memory allocation and code execution facilities. – Matthieu N. Jun 9 '10 at 2:47
@Billy: I don't see how this is anything like a vector. If you want to insert between 1 and 5, you take 1 and change its reference to 6534, and then make 6534 point at 5. No "pushing" or "popping" needed. – Steven Schlansker Jun 9 '10 at 2:50
@sonicoder: Your question was weird enough that I felt compelled to be a little silly with it. Clearly this does not fit your desire to only use standard memory allocation, etc... – Steven Schlansker Jun 9 '10 at 2:51
What is main memory but a very, very large array, then? :-p – Steven Schlansker Jun 9 '10 at 4:04

I suppose using references is cheating and, technically, this causes UB, but here you go:

// Beware, un-compiled code ahead!
template< typename T >
struct node;

template< typename T >
struct links {
  node<T>& prev;
  node<T>& next;
  link(node<T>* prv, node<T>* nxt); // omitted

template< typename T >
struct node {
  T data;
  links<T> linked_nodes;
  node(const T& d, node* prv, node* nxt); // omitted

// technically, this causes UB...
template< typename T >
void my_list<T>::link_nodes(node<T>* prev, node<T>* next)
  node<T>* prev_prev = prev.linked_nodes.prev;
  node<T>* next_next =;
  new (prev.linked_nodes) links<T>(prev_prev, next);
  new (next.linked_nodes) links<T>(next, next_next);

template< typename T >
void my_list<T>::insert(node<T>* at, const T& data)
  node<T>* prev = at;
  node<T>* next =;
  node<T>* new_node = new node<T>(data, prev, next);

  link_nodes(prev, new_node);
  link_nodes(new_node, next);
share|improve this answer

Yes you can, it is not necessary to use pointers for a link list. It is possible to link a list without using pointers. You can statically allocate an array for the nodes, and instead of using next and previous pointer, you can just use indexes. You can do that to save some memory, if your link list is not greater than 255 for example, you can use 'unsigned char' as index (referencing C), and save 6 bytes for next and previous indications.

You may need this kind of array in embedded programming, since memory limitations can be troublesome sometimes.

Also keep in mind that your link list nodes will not necessary be contiguous in the memory.

Let's say your link list will have 60000 nodes. Allocating a free node from the array using a linear search should be inefficient. Instead, you can just keep the next free node index everytime:

Just initialize your array as each next index shows the current array index + 1, and firstEmptyIndex = 0.

When allocating a free node from the array, grab the firstEmptyIndex node, update the firstEmptyIndex as next index of the current array index (do not forget to update the next index as Null or empty or whatever after this).

When deallocating, update the next index of the deallocating node as firstEmptyIndex, then do firstEmptyIndex = deallocating node index.

In this way you create yourself a shortcut for allocating free nodes from the array.

share|improve this answer

You could make a linked-list using references, but that would probably be more complicated than necessary. you would have to implement an immutable linked-list which would be complicated without a built in garbage collector.

share|improve this answer
No you can't. The reference has to point to something that's allocated somewhere, and you can't have a linked list manage that memory like it can if you are using pointers. You'd still have to hold the allocated objects in your linked list somehow, and that wouldn't be a linked list. – Billy ONeal Jun 9 '10 at 2:44
@Billy ONeal i know, thats why it would be complicated. instead of a null pointer at the end you would create a special singleton instance for an empty list. the references would be set in constructors. if you look at Ken Blooms code this is pretty much what he is doing. – luke Jun 9 '10 at 2:46
@Luke: You'd still have the problem of the fact that the thing the reference points at will die when you try to put it into the list. There's no way to ensure the references remain valid. If you look at Ken Bloom's code, note that none of the structure remains after a single statement. – Billy ONeal Jun 9 '10 at 2:49
@Billy ONeal my C++ is a little rusty, but couldn't you just construct the object on the heap and then create a reference from the pointer and then pass these 'new'd objects to the next constructor, this would extend the lifetime of the list objects. Now obviously it would be difficult to manage all these allocations. – luke Jun 9 '10 at 3:02
@Luke: I think use of the heap requires pointers. ;) – Billy ONeal Jun 9 '10 at 3:08

Wow, NO? Surely you guys are not serious?

All a linked list needs is a link. Nothing says it has to be a pointer. Consider the case of wanting to store a linked list in shared mem, where the base addr is dynamic? Answer is simply, store the link as a Offset from the start of the mem block, (or some other constant) and redefine the iterator to do the actual logic of adding the base addr. Obviously, insert etc would have to be changed as well.

But fairly trivial!


share|improve this answer

Languages that do not support any type of reference can still create links by replacing pointers with array indices. The approach is to keep an array of records, where each record has integer fields indicating the index of the next (and possibly previous) node in the array. Not all nodes in the array need be used. If records are also not supported, parallel arrays can often be used instead.

As an example, consider the following linked list record that uses arrays instead of pointers:

record Entry {
integer next; // index of next entry in array
string data; // can be anything a struct also. }

Creata an array with a high number. And point listHead to the first indice element at the array

integer listHead;
Entry Records[10000];

Check wiki page: for details, search for "Linked lists using arrays of nodes"

share|improve this answer

Can one using C++, implment a link-list data structure without using pointers (next nodes)?

share|improve this answer
the link doesn't have to be an absolute memory address, it can be relative to a pointer, aka an array index. See the other answers. – Ramónster Jun 9 '10 at 21:38
@Ramónster: I have responded to the other answers with why I believe them incorrect. – Billy ONeal Jun 9 '10 at 22:26

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