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When a pointer to a particular type (say int, char, float, ..) is incremented, its value is increased by the size of that data type. If a void pointer which points to data of size x is incremented, how does it get to point x bytes ahead? How does the compiler know to add x to value of the pointer?

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possible duplicate of Error Performing Pointer Arithmetic on void * in MSVC – Carl Norum Aug 19 '10 at 21:43
The question sounds as though it assumes that the compiler(/run-time) knows what type of object the pointer was set to, and adds its size to the pointer. That is a complete misconception: it only knows the address. – PJTraill May 5 '15 at 21:22
up vote 135 down vote

Final conclusion: arithmetic on a void* is illegal in both C and C++.

GCC allows it as an extension, see Arithmetic on void- and Function-Pointers (note that this section is part of the "C Extensions" chapter of the manual). Clang and ICC likely allow void* arithmetic for the purposes of compatibility with GCC. Other compilers (such as MSVC) disallow arithmetic on void*, and GCC disallows it if the -pedantic-errors flag is specified, or if the -Werror-pointer-arith flag is specified (this flag is useful if your code base must also compile with MSVC).

The C Standard Speaks

Quotes are taken from the n1256 draft.

The standard's description of the addition operation states:

6.5.6-2: For addition, either both operands shall have arithmetic type, or one operand shall be a pointer to an object type and the other shall have integer type.

So, the question here is whether void* is a pointer to an "object type", or equivalently, whether void is an "object type". The definition for "object type" is: Types are partitioned into object types (types that fully describe objects) , function types (types that describe functions), and incomplete types (types that describe objects but lack information needed to determine their sizes).

And the standard defines void as:

6.2.5-19: The void type comprises an empty set of values; it is an incomplete type that cannot be completed.

Since void is an incomplete type, it is not an object type. Therefore it is not a valid operand to an addition operation.

Therefore you cannot perform pointer arithmetic on a void pointer.


Originally, it was thought that void* arithmetic was permitted, because of these sections of the C standard:

6.2.5-27: A pointer to void shall have the same representation and alignment requirements as a pointer to a character type.


The same representation and alignment requirements are meant to imply interchangeability as arguments to functions, return values from functions, and members of unions.

So this means that printf("%s", x) has the same meaning whether x has type char* or void*, but it does not mean that you can do arithmetic on a void*.

Editor's note: This answer has been edited to reflect the final conclusion.

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From the C99 standard: ( For addition, either both operands shall have arithmetic type, or one operand shall be a pointer to an object type and the other shall have integer type. ( The void type comprises an empty set of values; it is an incomplete type that cannot be completed. I think that makes it clear that void* pointer arithmetic is not allowed. GCC has an extension that allows to do this. – Job Aug 19 '10 at 18:29
if you no longer think your answer is useful, you can just delete it. – caf Aug 20 '10 at 1:28
This answer was useful even though it proved wrong as it contains conclusive proof that void pointers aren't meant for arithmetic. – Ben Flynn Oct 17 '12 at 21:48
This is a good answer, it has the right conclusion and the necessary citations, but people who came to this question came to the wrong conclusion because they didn't read to the bottom of the answer. I've edited this to make it more obvious. – Dietrich Epp May 11 '13 at 2:37
@sleske There's nothing wrong with C89, just don't use K&R prototypes. And "ancient" is not a valid engineering assessment, it's a consumer-culture fallacy of people obsessed with novelty as being inherently superior. Furthermore, embedded work still requires C89, so it depends on the use-case. Write C89/C99 portable code, and it won't matter. – Barry Feb 7 '15 at 8:33

Pointer arithmetic is not allowed on void* pointers.

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+1 Pointer arithmetic is only defined for pointers to (complete) object types. void is an incomplete type that can never be completed by definition. – schot Aug 19 '10 at 15:33
@schot: Exactly. Moreover, pointer arithmetic is only defined on a pointer to an element of an array object and only if the result of the operation would be a pointer to an element in that same array or one past the last element of that array. If those conditions are not met, it is undefined behavior. (From C99 standard – Job Aug 19 '10 at 18:39

cast it to a char pointer an increment your pointer forward x bytes ahead.

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You can't do pointer arithmetic on void * types, for exactly this reason!

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You have to cast it to another type of pointer before doing pointer arithmetic.

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If a function accepts a void*, but will have to do something with it, which is the preferred formulation in C and/or C++ (if preferred formulation is different):

  1. Create a local variable of type (unsigned char*) or (ub*) [my unsigned byte type] and use that.
  2. Dereference with an (ub*) cast, and increment via ptr = ((ub*)ptr)+1;
  3. Something else?

On some C compilers, one could get away with having the function declaration use a void* argument while the definition used (unsigned char*), but that certainly won't work under C++, and many C compilers balk at it as well. Is there any other technique which yields efficient code and isn't ugly?

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Void pointers can point to any memory chunk. Hence the compiler does not know how many bytes to increment/decrement when we attempt pointer arithmetic on a void pointer. Therefore void pointers must be first typecast to a known type before they can be involved in any pointer arithmetic.

void *p = malloc(sizeof(char)*10);
p++; //compiler does how many where to pint the pointer after this increment operation

char * c = (char *)p;
c++;  // compiler will increment the c by 1, since size of char is 1 byte.
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Compiler knows by type cast. Given a void *x:

  • x+1 adds one byte to x, pointer goes to byte x+1
  • (int*)x+1 adds sizeof(int) bytes, pointer goes to byte x + sizeof(int)
  • (float*)x+1 addres sizeof(float) bytes, etc.

Althought the first item is not portable and is against the Galateo of C/C++, it is nevertheless C-language-correct, meaning it will compile to something on most compilers possibly necessitating an appropriate flag (like -Wpointer-arith)

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And here I thought void was a function type that returned nothing. If I understand correctly, void* is a pointer to nothing, so pointer arithmetic shouldn't be allowed for type void*.

Say, you have a function that makes a car start. This function returns nothing, you just have a function to make the engine turn over. With Objective-C (which is pretty similar to C, and I like using it the most), the syntax would be like this for calling it:

[car start];

With void*, you are pointing to the result of the engine turning over and trying to manipulate said result (which is nothing). You can't do something with nothing, so void* is not allowed. Hope I helped clarify some of the techno jargon!

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