I remember my programming prof said that multiplication and division of pointers are not allowed. We have a seatwork that needs us to create a program that adds, subtracts, multiplies and divides two numbers using pointers.

This is my code in the main function:

float num1, num2, a, b, c, d;

printf("Enter a number: ");
scanf("%f", &num1);
printf("Enter another number: ");
scanf("%f", &num2);

a = add(&num1, &num2);
b = subtract(&num1, &num2);
c = multiply(&num1, &num2);
d = divide(&num1, &num2);

printf("Sum: %.2f\nDifference: %.2f\nProduct: %.2f\nQuotient: %.2f", a, b, c, d);
return 0;

This is my code for the add, subtract, multiply, and divide functions:

float add(float *x, float *y)
    return *x+*y;
float subtract(float *x, float *y)
    return *x-*y;
float multiply(float *x, float *y)
    return *x * *y;
float divide(float *x, float *y)
    return *x / *y;

My code runs and works but is it allowed?

  • 6
    yes it is allowed, *x is not a pointer but a value pointed by x. and hence *x+*y; is addition of two values pointed by x and y. Jan 25, 2020 at 6:51
  • Your code is fine, but it never multiplies or divides a pointer. It multiplies or divides the pointed at values, and the pointed at values are not pointers, so multiplication and division is fine. You can't add pointers, either; you can only subtract pointers. Jan 25, 2020 at 7:13
  • Think about what would happen. float arr[] = {1., 2., 3., 4., 5.}, *p = arr, *p2 = arr + 2, *p3 = p / p2; (or float *p3 = p2 / p; ) So what you have (on a 64-bit computer) is either (64-bit address - 2) / 64-bit address or (64-bit address + 2) / 64-bit address. In the first case you will have a number less than 1, in the second case, a number slightly more than 1. Both resulting addresses are likely at the bottom of the system reserved memory space (regardless you won't have valid access to the resulting address). It's just not allowed. Jan 25, 2020 at 8:00
  • Thank you! I'm still confuse what pointers are and how they actually work. Now I know the exception only applies to pointers itself.
    – zaira
    Jan 25, 2020 at 8:32
  • A pointer is simply a normal variable that holds the address of something else as its value. In other words, a pointer points to the memory address where something else can be found. For example, while int a = 5; stores the immediate value 5 as its value, int *b; creates a pointer to int, and b = &a; stores the address of a as b's value (the memory address where 5 is currently stored). If you need the value stored at the memory address held by a pointer, you dereference the pointer using the unary '*' operator, e.g. int c = *b;. Jan 25, 2020 at 13:42

2 Answers 2


Multiplication and division of pointers are not allowed in C.

For example,

int *ptr1, *ptr2, *ptr3;

ptr3 = ptr1 * ptr2; // Error: Multiplication of pointers

ptr3 = ptr1 / ptr2; // Error: Division of pointers

This discussion is worthwhile to know the reasons behind this restriction on pointers in C.

Getting into your code, it works because you are not multiplying or dividing any pointers but multiplying and dividing the values pointed by those pointers as you have used the dereference operator.

For example,

int a = 1, b = 2, c = 3;

int *ptr1 = &a;

int *ptr2 = &b;

int *ptr3 = &c;

*ptr3 = *ptr1 * *ptr2; // No error: c = a * b

*ptr3 = *ptr1 / *ptr2; // No error: c = a / b

See: meaning of "referencing" and "dereferencing"


*x and *y refer to the values pointed by them, not the pointers.

*x * *y -> allowed.

x * y -> not allowed.

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

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