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I get the error " lvalue required as increment operand|" for both the printf() statements in the following program.


int main(void)
 int list[4]={12,22,32,42};

 printf("The result of *list++ is %d",*list++);

 printf("\nThe result of *(list++) is %d",*(list++));

 return 0;

But in the following program *myptr++ and *(myptr++) works fine for a pointer myptr which is assigned the base-address of list. Ideone Link


int main(void)
 int list[4]={12,22,32,42},*myptr;

 printf("The result of *myptr++ is %d",*myptr++);

 printf("\nThe result of *(myptr++) is %d",*(myptr++));

Why is there a discrepancy between the two?What is the explanation?This question cropped in my find after going through the following question posted a few minutes back.Look for H2CO3's answer.

What is the difference between *myptr++ and *(myptr++) in C

share|improve this question
Because arrays and pointers are not same. – Alok Save Apr 28 '13 at 12:16
@AlokSave We posted at the exact same moment! Neat. – user529758 Apr 28 '13 at 12:16
@AlokSave First time any communication with Alok Save.I only saw his photo on an aircraft. – Rüppell's Vulture Apr 28 '13 at 12:18
@H2CO3: Great minds think alike and at times alike :D. Sheer: JFYI, It is not an aircraft, it is a train. If you notice the photo minutely the seats are facing each other. i have never seen that in a aircraft :) – Alok Save Apr 28 '13 at 12:24
up vote 3 down vote accepted

The variable list is an array, not a pointer. Pointer arithmetic operations are defined for pointers, but not for arrays. A name of an array can be used to produce a pointer - for example, in expressions like myptr = list, but that does not mean that an array itself can be used as a pointer. In particular, array is not a modifiable lvalue, which is a fancy way of saying that you cannot reassign the array itself (although you can assign array's value).

share|improve this answer
Arrays are lvalues, but not modifiable lvalues. – Daniel Fischer Apr 28 '13 at 18:43
@DanielFischer Thanks for the comment! I edited the answer to reflect your point. – dasblinkenlight Apr 28 '13 at 20:17

Because pointers are not arrays.

You cannot increment an array. Just think about it, it doesn't make sense. An array is not a pointer, and it cannot be treated as one. That's why the C standard mandates that it's not a modifiable lvalue (which is needed for anything you want to change).

share|improve this answer
What is the plain-English explanation of the errors I mentioned lvalue required as increment operand| – Rüppell's Vulture Apr 28 '13 at 12:17
@SheerFish Lvalue explanation on Wikipedia. Basically, an array cannot be modified, only its elements. – user529758 Apr 28 '13 at 12:19
I want to be a bit petty for a moment - why doesn't it make sense? OK, sizeof won't work, and you can potentially lose all your references to it. but that is exactly what happens with function parameters and malloced arrays. – Elazar Apr 28 '13 at 13:55
@Elazar Huh? sizeof() works perfectly for arrays too. And why doesn't it make sense? Because an array is not a "scalar", if I'm permitted to use such loose terminology. An array is the ensemble of its elements, and it isn't merely a memory location (which is, after all, an integer). – user529758 Apr 28 '13 at 13:57
@H2CO3 I meant sizeof(a) will be sizeof(void*) instead its size in memory. A malloced array is not a scalar too, but all you have is a pointer to it. Less type-safe, a bit more orthogonal and simple to learn. – Elazar Apr 28 '13 at 14:00

Array is not a pointer. An array is just a continuous memory. When you mention the array's name in an expression, it "decays" to the number (of pointer type) representing its start address. This number cannot be incremented, decremented or assigned into - it is not an lvalue - since the place in which the array resides does not change.

say you have

int a[4] = { 1, 2, 3, 4};

If, in some miraculous way, you happen to know exactly what will be that address - 0x1000 for example - you can replace any occurance of a in the code with ((int*)(0x1000)).

the statement *a++=5 turns into 2 statements:


which as we say, is equivalent to:


Now, what does *((int*)(0x1000))=5 mean? this is easy: write 5 at address 0x1000. Because the expression *(pointer value) is an lvalue. but what does ((int*)(0x1000))++ mean? well, I dont know. You cannot increment 0x1000.

share|improve this answer
"an array is an address of its start address" - no, it isn't; "but it is not possible to do pointer arithmetic on it." - well, int arr[3]; *(arr + 1) = 42; – user529758 Apr 28 '13 at 12:20
I fixed the first sentence - it was not what I meant. in your example you do pointer arithmetic with the value the array decays into. – Elazar Apr 28 '13 at 12:21
I'm aware of that, perhaps it would be useful to explain that a bit more to OP. – user529758 Apr 28 '13 at 12:22
Instead of deleting, I tried to improve it. @H2CO3 please tell me if it's still not clear (or wrong). – Elazar Apr 28 '13 at 12:34
It's very good now. – user529758 Apr 28 '13 at 12:35

In most cases you can use simple assumption that int list[4] is equal to int * const list. So, it's not modifiable.

Also remember that this simple assumption doesn't work when you get sizeof(list). For example:

int list[4];
size_t s = sizeof(list); // s = sizeof(int)*4


int * const list;
size_t s = sizeof(list); // s is equal to size of pointer
share|improve this answer
Thanks for downvoting. Answer is improved, is it ok now? – kotlomoy May 18 '13 at 19:23

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