As a part of an assignment, I need to write two functions:

- a function that sums up two natural numbers represented as a linked list
- a functions that prints a number represented in the same way.

for some reason, both function work perfectly fine separately, but when I try to use the print function on the result of the sum function, it changes the value of the sum right in the beginning of the print function , and prints the wrong value. when I use printf to print the same value in the main, there is no problem. my code is detailed below. any ideas?

```
void main()
{
int a[1] = { 1 },
b[1] = { 2 };
int * *pa, **pb;
List lst1, lst2;
List sum;
pa = (int * *) malloc(sizeof(int * )); * pa = &a[0];
pb = (int * *) malloc(sizeof(int * )); * pb = &b[0];
lst1 = arrToList(pa, 1);
lst2 = arrToList(pb, 1);
addNumbers(lst1, lst2, &sum);
//printf("%d\n",*(sum.head->dataPtr));
printNumber(sum);
}
//a function that recieves a number represented ad a list and prints it
void printNumber(List num)
{
ListNode * curr;
int currData,
i,
number;
if (isEmptyList(num) == TRUE)
printf("the input was an empty list, nothing to print");
else
{
i = 0;
number = 0;
curr = num.head;
while (curr != NULL)
{
currData = *(curr - >dataPtr);
number = number + currData * ((int) pow(10, i));
curr = curr - >next;
i++;
}
printf("%d \n", number);
}
}
// a function that sums in list
// representation two numbers,
// each represented as a list
void addNumbers(List n1, List n2, List * sum)
{
ListNode * currN1;
ListNode * currN2;
ListNode * currSum;
int currN1N2Sum; //stores the sum of the current digits in n1 and n2
int carrier,
prevCarrier; //current and previous carriers that carries +1 to the
next digit of sum
if the lst sum was bigger then 9
if ((isEmptyList(n1) == TRUE) || (isEmptyList(n2) == TRUE))
printf("bad input =(");
else
{
currN1 = n1.head;
currN2 = n2.head; * sum = createEmptyList();
carrier = 0;
prevCarrier = 0;
while ((currN1 != NULL) && (currN2 != NULL))
{
currN1N2Sum = *(currN1->dataPtr) + *(currN2->dataPtr) + prevCarrier;
if (currN1N2Sum > 9)
{
carrier = 1;
currN1N2Sum = currN1N2Sum - 10;
}
currSum = creatNewListNode( & currN1N2Sum, NULL);
insertNodeToEnd(sum, currSum);
prevCarrier = carrier;
carrier = 0;
currN1 = currN1 - >next;
currN2 = currN2 - >next;
} //while ((currL1!=NULL)&&(currL2!=NULL))
while (currN1 != NULL)
{
currN1N2Sum = *(currN1 - >dataPtr) + prevCarrier;
currN1 = currN1 - >next;
if (prevCarrier != 0) prevCarrier = 0;
}
while (currN2 != NULL)
{
currN1N2Sum = *(currN2 - >dataPtr) + prevCarrier;
currN2 = currN2 - >next;
if (prevCarrier != 0) prevCarrier = 0;
}
} // ! ((isEmptyList(n1)==TRUE)||(isEmptyList(n2)==TRUE))
}
```

here is the rest of the code:

```
typedef struct listNode{
int* dataPtr;
struct listNode* next;
} ListNode;
typedef struct list
{
ListNode* head;
ListNode* tail;
} List;
List createEmptyList()//creates and returns an empty linked list
{
List res;
res.head = res.tail = NULL;
return res;
}
Bool isEmptyList ( List lst )//checks if a given list is empty or not
{
if (lst.head == NULL && lst.tail == NULL)
return TRUE;
else
return FALSE;
}
void insertDataToEnd ( List * lst, int *dataPtr ) //inserts new data to the end of an existing linked list
{
ListNode * newTail;
newTail = creatNewListNode ( dataPtr, NULL );
insertNodeToEnd(lst,newTail);
}
void insertNodeToEnd ( List * lst, ListNode * newTail )//insert an existing node to an existing linked list
{
if (isEmptyList(*lst) == TRUE )
insertNodeToStart ( lst,newTail );
else
{
(*lst).tail -> next = newTail;
newTail->next = NULL;
(*lst).tail = newTail;
}
}
ListNode * creatNewListNode ( int * dataPtr, ListNode * next )//inserts new node in an existing linked list
{
ListNode * res;
res = (ListNode *) malloc (sizeof(ListNode));
res -> dataPtr = dataPtr;
res -> next = next;
return res;
}
void insertNodeToStart ( List * lst, ListNode * newHead )//inserts node to the begining of a given linked list
{
if ( isEmptyList( *lst ) == TRUE )
{
(*lst).head = newHead;
(*lst).tail = newHead;
newHead -> next = NULL;
}
else
{
newHead -> next = (*lst).head;
(*lst).head = newHead;
}
}
```