stackT *stackPtr defines stackPtr as a pointer to
stackT. The caller of the function passes a
stackT object to this function.
*stackPtr = node; modifies the value pointed to by the pointer
stackPtr = &node; modifies the local value of the pointer variable itself.
stackT *mystack = createStack();
//mystack points to an empty stack
StackPush1(mystack, elem1);//stackpush1 uses *stackPtr = node;
//mystack points to the node with elem1
StackPush2(mystack, elem2);//stackpush2 uses stackPtr = &node;
//the function updates its local copy, not the passed variable
//mystack still points to the elem1
//node with elem2 is not accessible and is a memory leak.
lets say we have int k=4; if I enter something like *ptr = k; in the "main" body (not inside a function), the results should be the same as ptr = &k;?
Not exactly. Run the following code and see the difference for yourself:
int k = 4;
//declare a pointer to int and initialize it
int *ptr1 = malloc(sizeof(int));
//now ptr1 contains the address of a memory location in heap
//store the current value into the address pointed to by ptr1
*ptr1 = k; /* this line will fail if we hadn't malloced
in the previous line as it would try to
write to some random location */
//declare a pointer to int
//and assign address of k to it
ptr2 = &k;
printf("Before \n*ptr1 = %d *ptr2 = %d\n", *ptr1, *ptr2);
//change the value of k
k = 5;
printf("After \n*ptr1 = %d *ptr2 = %d\n", *ptr1, *ptr2);
Post a comment if you need more clarification.