I'm having issues solving this segmentation fault. I've been trying to fix this for a few hours, but I've run out of ideas+google searches, so I'm hoping to get some help.

What I have is a queue struct, which keeps track of head & tail nodes which are also structs.

The problem that I'm having is that any interaction with queue_1 is resulting in a segmentation fault.

typedef struct customer{
    int id;
    struct customer *next;

typedef struct customer_queue{
    customer_t *head;
    customer_t *tail;

queue *queue_1;

int main(){
    initialize_queue(queue_1); //segmentation fault here.
    customer_t *customer_1 = create_customer(1234); //this section works if we ignore the above line

void initialize_queue(queue *q){
    q->head = NULL;
    q->tail = NULL;

customer_t *create_customer(int id){
    customer_t *customer = malloc(sizeof(customer_t));
    customer->id = id;
    customer->next = NULL;
    return customer;

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  • 1
    queue_1 is NULL at program start so you can't dereference it. – Nate Eldredge 2 days ago

queue_1 is set to NULL when the program starts as it is an uninitialized variable at file scope. So when you pass it to initialize_queue and subsequently try to set the fields you're dereferencing a NULL pointer. This is undefined behavior which in this particular situation causes your code to crash.

You don't need to define queue_1 as a pointer to a queue. Just define it as a queue and initialize it:

queue queue_1 = { NULL, NULL};

Strictly speaking you don't need to initialize it as both members will get implicitly initialized to NULL, but better to be explicit about it.

| improve this answer | |
  • I was hoping to define it as a non-pointer, but then I got confused when trying to pass the queue as a parameter, so I made it a pointer. So from what I gather after reading the feedback the following are true: Initializing queue as a non-pointer will initialize the struct's variables to null. I can still send the address of this non-pointer whenever I want by using '&' in the parameters. This means that even though I don't have a pointer for the queue, I can still use it as if I do have a pointer. PS: Thanks for the teachings! – Liverymen 2 days ago
void initialize_queue(queue *q){
    q = malloc(sizeof(queue));
    q->head = NULL;
    q->tail = NULL;

your queue is not allocated, to debug easily segmentation fault, use valgrind, it's a memory tracer, in complation add -g3 flag to get the line of the error on the execution, the execution : "valgring ./binary_name" and compilation: "gcc filename flags "-W -Wall .. -g""

| improve this answer | |
  • 1
    This leaks memory. – dbush 2 days ago
  • leaks causes segfaults ... – brahimi haroun 2 days ago
  • 1
    Not necessarily, but it will in this case once someone attempts to dereference queue_1 after this function returns. – dbush 2 days ago
  • Thanks for this! I really wish I understood why malloc is needed in this scenario. As far as I can tell, the queue, which contains only 2 variables will never change in size, so why does it need malloc? – Liverymen 2 days ago
  • because you use a pointer, if you don't want the pointer declare queue_1 without the pointer "queue queue_1;", and in the function you use the adress of the queue_1 "initialize_queue(&queue_1);" – brahimi haroun 2 days ago

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