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I am a bit confused here. This is from a great C book, maybe I question it too much but somehow it didn't make sense. Hope I can tell my confusion.

Let's say below &a points to the memory address 87 and &b points to the memory address 120;

int a=3;
int b=4;
swap(&a, &b);

void swap(int *px, int *py) {
   int temp;
   temp = *px;
   *px = *py;
   *py = temp;

OK, here is the question: When we call function swap and pass the parameters to the function are we actually setting " px " to 87 or are we setting " *px " to 87?

Because if we are setting *px to 87 than by definition of * sign we are setting the value where the pointer refers to but not the memory address p holds, which is wrong in this example. On the other hand if there we are actually setting "p" to 87 than the code in swap makes sense because then when we use the * sign in the function we will be referring to the value in that address which is "3" here. But then why the syntax is confusing and looks like as if we are setting;



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7 Answers 7

up vote 2 down vote accepted

* may mean three different things, depending on the context:

  • In a * b, it means multiplication.
  • In int *a, it means "we are now declaring a variable or parameter a, whose type is int * (pointer to int).
  • In *a (assuming that there is no data type to the left of *, so that this is an expression and not a declaration), it means "a is a pointer, and we want to look at the value it points to (also known as dereferencing the pointer".

So the parameter to your method is a, not *a; the asterisk is part of the parameter's type, and a is what you are setting to 87. Writing pointer declarations as int * a or int* a instead of int *a may help making the distinction between declaration and dereferencing clearer.

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Tnx for clear explaination – Spring Jul 4 '11 at 18:12

If a is at address 88 (needs to be aligned correctly) and b is at address 120, then:

                                //   a   |   b   |   px   |  py   | temp
int a=3;                        //   3       --      --       --     --
int b=4;                        //   3       4       --       --     --
swap(&a, &b);                   //   4       3       --       --     --

void swap(int *px, int *py)
{                               //   3       4       88      120    --
  int temp;
  temp = *px;                   //   3       4       88      120     3
  *px = *py;                    //   4       4       88      120     3
  *py = temp;                   //   4       3       88      120     3

px is &a which is 88, never changes. *px refers to (aliases) a. It could be rebound to alias a different variable, but this code doesn't do that.

The parameter is px and has type int*. The parameter is not *px. For this reason, many programmers write it as int* px instead of int *px. The effect of calling swap(&a, &b) is that px = &a and not *px = &a.

But please note, C doesn't have "methods", only "functions".

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@David: I didn't say that pointers need to be aligned. I said that the variable a will be correctly aligned. – Ben Voigt Jul 4 '11 at 17:45
Tnx for the answer! – Spring Jul 4 '11 at 18:14

Consider your signature of swap:

void swap(int *px, int *py);

This means that swap takes two pointers to int. Another way to put it: it takes two addresses of int values in memory.

Now, when calling your swap function like

swap(&a, &b);

the first argument will be the address of a (which is an int), and the second argument will be the address of b (which is an int as well).

Inside swap, px will be the address of a and py will be the address of b. Consequently, dereferencing px and py will yield the values at the addresses of a and b - which would be 3 and 4.

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void swap(int *px, int *py) 

You read this that px and py point to int. Parameters in C are passed by value. So when you pass two memory addresses (i.e. pointers) to swap you are assigning those addresses to px and py.

Perhaps the confusion is due to the heavy overloading of * in C. In a parameter list * means that the parameter is a pointer to the type to the left. In the implementation of a function, * is used to dereference a pointer.

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You aren't setting any pointers, you always only set the value of the pointee. *px = *py will set a to the value of b.

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Variable a points to memory address 87. &a is 87. And then we are setting px to 87. Of course, these are addresses and not integers, but that's very close to what is happening on the CPU (of course on the CPU there isn't any a, &a or px).

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Are we actually setting " px " to 87 or are we setting " *px " to 87?

Yes, you are setting px to 87. You are making the pointers point to the same location while changing the values they are pointing at.

"Because if we are setting *px to 87" ...

No, your assumption is wrong.

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@Downvoter: Please explain. Is it because of the typo 37 instead of 87 ? – Mahesh Jul 4 '11 at 17:42

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