Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free.

I always thought that *&p = p = &*p in C. I tried this code:

 #include <stdio.h>
 #include <stdlib.h>

 char a[] = "programming";
 char *ap = &a[4];  

int main(void)

 printf("%x %x %x\n", ap, &*(ap), *&(ap));   /* line 13 */
 printf("%x %x %x\n\n", ap+1, &*(ap+1), *&(ap+1));   /* line 14 */

The first printf line (line 13) gives me the addresses:

40b0a8 40b0a8 40b0a8

which are the same as expected. But when I added the second printf line, Borland complains:

"first.c": E2027 Must take address of a memory location in function main at line 14

I was expecting to get:

40b0a9 40b0a9 40b0a9.

It seems that the expression *&(ap+1) on line 14 is the culprit here. I thought all three pointer expressions on line 14 are equivalent. Why am I thinking wrong?

A second related question: The line

char *ap = a;

points to the first element of array a. I used

char *ap = &a[4];  

to point to the 5th element of array a.

Is the expression

char *ap = a;

same as the expression

char *ap = &a[0];

Is the last expression only more verbose than the previous one?

Thanks a lot...

share|improve this question
To answer your second question: The value of the array name is a pointer to the zeroeth element of that array, thus a would be equivalent to &a[0]; –  Mustapha-Mohammed Abiola Apr 11 '10 at 21:51
Thanks. Yes we always point to the zeroeth element. But in C an index can be negative also and C won't complain. –  yCalleecharan Apr 11 '10 at 21:59

4 Answers 4

up vote 1 down vote accepted

When you use the C reference operator, it has to point to a valid lvalue, not an arbitrary expression. Thus, &(ap+1) isn't valid because the value ap+1 is simply an expression, not a location. You can't say ap+1 = foo();

And yes, a is the same as &a[0] here. Note that *(a+b) is 100% equivalent to a[b] (see the top answer to http://stackoverflow.com/questions/1995113/strangest-language-feature for an unusual example of this equivalence). When getting a pointer to a member of an array, you can use &array[i] or array + i. Example:

struct foo array[5];
struct foo *item_3 = &array[3];
struct foo *also_item_3 = array + 3;

In this case, whether to use array+i or &array[i] is a matter of style. &array[i] is arguably a better choice, as it is clearer that an array item is being gotten. Moreover, &vec[i] works with C++'s vectors, whereas vec+i does not.

share|improve this answer
Thanks a lot. Can we say &array[i] = array + i = &array[0] + i ? –  yCalleecharan Apr 11 '10 at 21:57
Yes, because &array[0] is the same as array (provided array is a pointer or array). –  Joey Adams Apr 11 '10 at 21:58
Funny constructions/relationships. Thanks. –  yCalleecharan Apr 11 '10 at 22:00
In case anyone does not know, lvalue means a value which can be assigned to, so can be on the Left side of the = operator –  nategoose Apr 12 '10 at 16:26

You can only take the address of an lvalue, i.e. an expression that refers to an object. ap + 1 is an address calculation. It has a value but it's a temporary object so isn't an lvalue and you can't take its address.

In answer to your second question, in most contexts in expressions an array decays to a pointer to it's first element so yes, char *ap = a; and char *ap = &a[0]; are equivalent.

share|improve this answer
Thanks. I've heard about lvalues and rvalues. I'll need to study them. –  yCalleecharan Apr 11 '10 at 21:48

If you believe one of those statements is the culprit specifically, I would break that line into three separate lines and see where the compiler complains at you. I bear the same suspicion, but to confirm it I would do just as I just told you to do.

share|improve this answer
Yes, I'm sure it's the *&(ap+1). –  yCalleecharan Apr 11 '10 at 21:46

I believe Charles is correct about your main question, and you are correct about the second question: char *ap = a; is equivalent to char *ap = &a[0];.

share|improve this answer
Thanks. C is a tough but it's always fun to learn. –  yCalleecharan Apr 11 '10 at 21:51

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

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