Announcing Stack Overflow Documentation

We started with Q&A. Technical documentation is next, and we need your help.

Whether you're a beginner or an experienced developer, you can contribute.

Sign up and start helping → Learn more about Documentation →

I just started learning C++ couple of weeks ago. So now I have this school assignment problem that asks me to implement a linked-list without using "new" or anything to do with dynamically allocating memory (and cannot use any ADT from STL). The prof says that everything can be done on the stack, but how? I have been working on this since Friday and still stuck on this with absolutely no luck.

It says: Keep a stack of the file names being read. Use the following data structure for the stack:

struct Node { 
string fileName; 
Node *link; 

I tried to avoid using new but it always give me "segmentation fault" or "BUS error" when I pass the head of the list into a recursive method call. Any ideas about how I can work around this??

share|improve this question
People here will be unwilling to write your homework for you from scratch. Since you already have some code, you should cut it down to a minimal example and post it, asking where you've gone wrong. – RichieHindle Oct 12 '09 at 20:08
Can you post the full assignment text? It's not clear what file names you are talking about. Seeing the code would also be useful. Also, are you sure you're not simply asked to keep an array of pre-allocated Nodes and then create links between them? – Uri Oct 12 '09 at 20:08
could you post some code? the recursive call? – Tom Oct 12 '09 at 20:09
What operations on the linked list are you supposed to implement? A deletion of an arbitrary list member is not possible with just a stack. – oggy Oct 12 '09 at 20:16
It seems to me that there is a big difference between "Keep a stack" and "on the stack". The first is a data structure, and the second is a specific area of memory. – KeithB Oct 12 '09 at 20:17

10 Answers 10

up vote 10 down vote accepted

The difference between heap and stack are mainly (not only, but for the sake of this question mainly) where the memory is allocated and how it is freed. When you want to allocate a node on the heap, you say new Node and the system will provide you with the memory, keeps track of which chunks are used and which ones are free, and provides you with the means to free a chunk once you don't need it any longer.

But you can just as well have a pool of nodes in an array on the stack. (Automatic variables are stack variables.) You can "allocate" from that pool, keep track of which nodes in the array are used and which are free, and mark unused ones as free ones you don't need them any longer. However, since the array's size is fixed at compile-time, this means that you have a maximum length for your list.

share|improve this answer

I've created a small sample that you may find inspiring. I creates a singly linked list of elements on the stack. Take notice how the list is created in reverse and how recursion is used to 'allocate' the number of itmes you need. Also note how the list is passed to the as the parameter. Hope this helps, good luck.

#include <cstdio>

using namespace std;

struct Node {
    Node* next_;
    int value_;

// Creates a linked list of nodes containing raising values.
void intList(Node* prevNode, int restValue) {
    if (restValue) {
       // A node on the stack, which is linked to list created so far.
       Node node;
       node.next_ = prevNode;
       node.value_ = restValue; 
       // Create a next node or print this list if rest runs to zero.
       intList(&node, rest - 1);
    else {
    // Depest recursion level, whole list is complete.
    for (Node* iter = prev; iter; iter = iter->next_)
        printf("item %d\n", iter->value_);

int main() {
    intList(NULL, 10);
share|improve this answer
I think you should add that at soon as intList returns, the node it created on the stack is destroyed. After the first line of the main, there is no longer any nodes, the list is completely destroyed. – Luc Touraille Oct 13 '09 at 12:54

Once a function is called, the stack allocation is fixed for that function.

The only way to get more stack memory allocated would be to call another function. Which could then call another function. Which could then call another function. Or maybe they could all be the same function...

Each function call has it's own fixed-size stack, but the function call graph itself is a variable-sized stack of those stacks.

share|improve this answer
What does "stack allocation is fixed for that function" mean? – Liran Orevi Oct 12 '09 at 20:37
@Liran - it means that all memory allocated on the stack for a function is already allocated at the time the function is called. So you (generally) can't allocate more memory on the stack from within the function itself - except of course by calling another function. – Eric Petroelje Oct 12 '09 at 21:02

You should probably go talk to your professor and clarify the requirements, since from your description, this seems like a very odd assignment for a new c++ programmer. Requiring an implementation of a linked list with memory only on the stack is bizarre to say the least.

share|improve this answer

Think of arrays. Maybe more than one, if required.

share|improve this answer

Without much info:

Is the recursive implementation a requirement? When you make a recursive call, you get a new stack. Maybe you could use an iterative approach.

share|improve this answer

Use alloca() instead of malloc() function to allocate memory dynamically on the stack frame of the caller function instead of heap. You don't have to worry about freeing the memory because it automatically freed when the function is returns.

link text

share|improve this answer
alloca() is not, as far as I know, a standard function in any version of C or C++. It's a common extension. I'd suggest asking the professor if (a) alloca() is permitted, and if so (b) whether it's what he wants. – David Thornley Oct 12 '09 at 21:22

If you know how many filenames you need to store you could use an array of struct Node and build your list from that.

Using iteration a possible alternative is to have one struct Node object in your function and passing a pointer to it in the recursive call, where you use the pointer for the next link of the Node object in that functions stack frame.

Note that in the latter case the list is only valid on the deepest recursion, the list is broken down again when the recursive calls return to their caller.

share|improve this answer

To "create a linked list on the stack" typically you would use a function like alloca to get more stack memory. However, that doesn't sound like what you're being asked to do.

It sounds like you're supposed to keep a stack on the stack, and not an arbitrary linked list. As a hint, the general syntax for what you want to do:

void push(struct Node *oldHead, String elem) {
    struct Node newHead;
    head.fileName = elem;
    head.next = oldHead.
    struct Node *head = &newHead
    // then you need to continue what you're doing in this function, since
    // returning will effectively pop the stack.

There are (nontrivial) techniques for implementing full fledged garbage collected lists along these lines, but that's beyond the scope of what you're doing.

share|improve this answer

It's possible to use the C++ address-of operator (&) to retrieve a pointer to an object on the stack instead of dynamically allocating memory with new.

Since generating a linked list in such a manner is of questionable use except as a homework assignment, I'm not sure if that's what is actually required. Without a code sample, it's hard to say exactly where the problem is.

share|improve this answer
"questionable use" - actually, creating a linked list on the stack by recursion is basically the "first attempt" way to implement exception frames. Or, even simpler, it's basically what a call stack is: a sequence of nodes each pointing to the previous (via for example the stack slot used to preserve the link register across the next call down). So especially if the course is going to involve any compiler theory later, I say good assignment introducing a real-world concept. – Steve Jessop Oct 12 '09 at 21:04

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.