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I'm trying to implement a generic linked list. The struct for the node is as follows -

typedef struct node{
        void *data;
        node *next;      

Now, when I try to assign an address to the data, suppose for example for an int, like -

int n1=6;
node *temp;
temp = (node*)malloc(sizeof(node));

How can I get the value of n1 from the node? If I say -


I get -

`void*' is not a pointer-to-object type 

Doesn't void pointer get typecasted to int pointer type when I assign an address of int to it?

share|improve this question
Why are you using malloc and C-style pointers in a C++ program ? – Paul R May 16 '12 at 8:50
if this is not an exercise, stop reinventing the wheel and use e.g. linked list provided in glib – Bort May 16 '12 at 8:52
@PaulRL The OP mentions C as the language of implementation in his question title. – dirkgently May 16 '12 at 8:55
@dirkgently cout is not C. – David Heffernan May 16 '12 at 8:56
Can we please keep cout/printf out of question here? It's just about dereferencing void pointer and yes its an exercise. – theharshest May 16 '12 at 8:57
up vote 4 down vote accepted

You must first typecast the void* to actual valid type of pointer (e.g int*) to tell the compiler how much memory you are expecting to dereference.

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So, in this case of generic linked list, each node has a different type of data like int or char or char*. So, to get the value of each data I need to typecast? That means I can't loop over the linked list and get the data values in a generic way? – theharshest May 16 '12 at 9:08
You need to either typecast (knowing the underlying type) or create a generic container that knows the underlying type and can properly return its value. – Kretab Chabawenizc May 16 '12 at 9:10
@theharshest, for generic linked list you should be using templatized constructs, e.g. std::list – iammilind May 16 '12 at 9:10
If nodes of the same list do not share a common type you are probably going to have to "box" them (make their values be held by specialized classes derived from a base one). – Kretab Chabawenizc May 16 '12 at 9:20

A void pointer cannot be de-referenced. You need to cast it to a suitable non-void pointer type. In this case, int*

cout << *static_cast<int*>(temp->data);

Since this is C++ you should be using C++ casts rather than C styles casts. And you should not be using malloc in C++, etc. etc.

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...and if you're writing a 'generic' linked list you should be using generics. Or as we call them, templates. :-) – Grimm The Opiner May 16 '12 at 9:00
I wonder why this answer and the accepted answer have downvotes. – David Heffernan May 16 '12 at 12:02
I think it might be because even though you answered the question perfectly correctly as it was asked, using that answer would still end up with bloody awful code! :-) – Grimm The Opiner May 17 '12 at 8:36
@user That could explain upvotes to other answers. Downvoting answers that address the question as asked is just bizarre in my view. – David Heffernan May 17 '12 at 8:45
I could imagine a down vote or two from "should be using C++ casts rather than C style". Seeing as how it ultimately matters little and has even less to do with the question. Just a guess. – Josh C Jul 29 '15 at 23:28

A void pointer cannot be dereferenced. You need to cast it to a suitable non-void pointer type. The question is about C++ so I suggest considering using templates to achieve your goal:

template <typename T> struct node
   T *data;
   node<T> *next;      


int n1=6;
node<int> *temp = new node<int>();

And finally:

cout << (*(temp->data));

Typecasting is possible, but that will be a C-style type-unsafe solution and not a C++ one.

share|improve this answer
The typedef is unnecessary in C++, and since we are taking templates... Also, it seems rather useless to have data be T*, a simple T would suffice. – Matthieu M. May 16 '12 at 9:58
Fixed. T* is used as provided by the original author. – Sergey K. May 16 '12 at 10:00
Also, use std::unique_ptr<node<T>> next; (or preferably boost::optional<node<T>> next;) instead. And the first node need not be dynamically allocated; just use node<int> temp;. – user1203803 May 16 '12 at 11:08
@SergeyK.: I disagree. The OP does not use T*, he uses void*. The important difference is that polymorphism requires indirection (an issue of size), but with parametric code there is no longer any polymorphism necessary. Therefore T is a viable substitution. – Matthieu M. May 16 '12 at 11:21
In case of T you have to store a copy (value), in case of T* the value can be shared. Though, it does not matter for integral types. – Sergey K. May 16 '12 at 14:23

Typecast temp->data to int and then print.

cout<<*((int *)temp->data);
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