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I am trying to understand how the pointers are moving. Following is the program and I am aware that if

int cs={1,2,3};  

then cs points to cs[0] what I am not clear is what is *cs pointing to.

int main()
        int array[] = { 1, 2, 3, 4, 5 };
        int *arrptr1 = array;
        int *arrptr = array;
        int i;
        for (i = 0; i < sizeof(array) / sizeof(int); i++) {
                printf("%d, %d, %d\n", array[i], *arrptr1++, *arrptr + i);

the output of above program is

1, 1, 1
2, 2, 2
3, 3, 3
4, 4, 4
5, 5, 5

then my understanding *arrptr should increase the value stored at


should get incremented by 1. Where as what I observe is the pointer is moving to next location.So just want to know what is wrong in my understanding?

As per the replies below I understand that

print("%d", *arrptr1++);

in such a statement evaluation of operators is from right to left. Hence in *arrptr1++ the ++ will get evaluated first and then arrptr and then * So to confirm the same I wrote another program

int main()
        int array[] = { 10, 20, 30, 40, 50 };
        int *q1 = array;
        printf("q1 = %p\n",q1);
      printf("*q1++ = %d\n",*q1++);
        printf("q1 = %p\n",q1);
      printf("*q1++ = %d\n",*q1);

The output of above program is different than the expected operator precedence by above logic. The output I got is

q1 = 0x7ffffcff02e0
*q1++ = 10
q1 = 0x7ffffcff02e4
*q1++ = 20

So I was expecting in the 2nd line of output instead of *q1++ = 10 following *q1++ = 20 so did the operator precedence not happened right to left?

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does it matter that you are using post-increment? –  Tim Jun 23 '11 at 7:23
Do you mean int *cs = { /* ... or int cs[] = { /* ... ? –  Charles Bailey Jun 23 '11 at 7:24
Try that again using random numbers for the array... You should see a pattern for the last of the numbers. –  Jeff Mercado Jun 23 '11 at 7:24
Simply try to change your array to {10,20,30,40,50}. May be you will get the difference. –  Manoj R Jun 23 '11 at 7:25
@Manoj R that was a great suggestion and I got a different output.+ 1 for that. –  Registered User Jun 23 '11 at 7:45

4 Answers 4

up vote 0 down vote accepted

What happens is that *arrptr1++ is interpreted as *(arrptr1++), which means that the pointer to the array is increased by one each time in the loop, and hence it will point to the same element as array[i]. *arrptr + i on the other hand is interpreted as "the value of the array element pointed to by arrptr plus the integer i". In this loop it means it will display the same thing as array[i], but it is not pointing at the same element (arrptr is always pointing to the first element in your array). If you change the values in the array to something more random, it should be obvious when you run the program again.

share|improve this answer

*arrptr1++ is parsed as *(arrptr1++), not (*arrptr1)++.

share|improve this answer
... and so the printf line has undefined behavior. –  Charles Bailey Jun 23 '11 at 7:27
@Charles Bailley I have added an update as per your comment.Is that behavor in second program due to undefined printf behavior can you confirm it? –  Registered User Jun 23 '11 at 13:02

Whenever you use dereference operator * and pre-increment(pre-decrement) or post-increment(post-decrement) operator on a variable simultaneously ,the order of operation is from right to left (if parenthesis are not used).

What you want to do is (*arrptr)++

because of higher precedence of (), it will force the compiler to first access the element pointed to by arrptr and then increment its value. When you do this *arrptr++ , as I've said it first operates rightmost operator (i.e. ++) and then the dereference operator. If you will write

EDITED (only the comment): *++arrptr // increment the pointer then access

it will first advance the pointer and then access the value stored in the address now pointed to by arrptr. One more thing,The comma used for separation of function argument is not the comma operator so the order of evaluation of the arguments is undefined. (already been told)

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thanks that was quite interesting to observe. +1 for that. –  Registered User Jun 23 '11 at 11:43
I am confused a bit for the *arrptr+i thing how does operator precedence here works? –  Registered User Jun 23 '11 at 11:47
please see the update section of my question.I have written a new program to understand what you mentioned is actually happening but that does not seems to be exactly the case.Can you comment on why is there deviation. –  Registered User Jun 23 '11 at 13:04
In your update ,*q1++ has post-increment operator so the pointer will be incremented and the value referenced will be the one previously pointed to by the pointer, not the value now pointed to by the pointer.*++q1(pre-increment) in printf will make it print 20. –  Ritesh Srivastava Jun 23 '11 at 14:47
Now your program has no undefined behavior in the printf statements. Binary + operator has lower precedence than * so it will dereference pointer and then add i into the value.Follow K&R for operator precedence list. –  Ritesh Srivastava Jun 23 '11 at 15:13

cs = &cs[0] ( cs is equal to the address of cs sub 0) ; *cs = cs[0] (cs pointer is equal to cs sub 0) ; You should remember that *'s hide the [].

    // here is a print function with a pointer
    int foo[5] = { 2, 9, 1, 3, 6};
    int *walker, count;

    walker = foo;

    for (count = 0; count < 5; walker++, count++)
        printf("Array[%d]: %d\n", count, *walker);

Recap: walker is equal to &foo[0], so when you increment walker (eg. walker++) you're moving the pointer to the next address which is foo[1]. And when we are printing the value we can't say ..., walker); since walker( &foo[whatever] ) is pointing to an address, we need to dereference the pointer to get the value. Again, the most important thing to remember

array = &array[0] AND *array = array[0]
share|improve this answer
I understood your point. I have updated my question now please have a look at the update section and let me know if you find some thing wrong in my logic. –  Registered User Jun 23 '11 at 13:12
@Registered User- I'm not sure what you're trying to do in that update section. Also, I think the "right to left" thing is confusing you. When you see these operators *, ++, --, +, etc.. You can just look up the Operator Precedence table to see what is going to happen first. –  user802140 Jun 23 '11 at 19:05
@Registered User-I think you need to focus on how the pointers work before you worry about the precedence issue, which will just come to you easily later. You should start making test code that will have pointer walk arrays ( Strings too! ). Then move to 2D integer arrays ( which you will find that using indices is much simpler, which in this case simplicity wins ), then of course you can test with 2D ragged array( strings) which would be an array of pointers to strings –  user802140 Jun 23 '11 at 19:05

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