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?
10 Answers
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:
6.2.5.1: 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.
Notes
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.
However,
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*
.
-
10From the C99 standard: (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. (6.2.5.19) 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.– mtvecAug 19, 2010 at 18:29 -
1
-
1This answer was useful even though it proved wrong as it contains conclusive proof that void pointers aren't meant for arithmetic. Oct 17, 2012 at 21:48
-
1This 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. May 11, 2013 at 2:37
-
3Oh, but for pointer addition, now "one operand shall be a pointer to a complete object type and the other shall have integer type.". So I guess pointer addition with a void* pointer is still undefined behavior. Dec 14, 2016 at 1:55
Pointer arithmetic is not allowed on void*
pointers.
-
20+1 Pointer arithmetic is only defined for pointers to (complete) object types.
void
is an incomplete type that can never be completed by definition.– schotAug 19, 2010 at 15:33 -
1@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 6.5.6.8)– mtvecAug 19, 2010 at 18:39
-
1Apparently it is not so with gcc 7.3.0. Compiler accepts p + 1024, where p is void*. And result is the same as ((char *)p) + 1024– uuu777Mar 24, 2019 at 2:27
-
1
cast it to a char pointer an increment your pointer forward x bytes ahead.
-
14If you are writing your sort function, which according to
man 3 qsort
should have thevoid qsort(void *base, size_t nmemb, size_t size, [snip])
, then you have no way of knowing the "right type" May 14, 2017 at 15:30 -
Also, if you are writing something like the Linux kernel's container_of macro, then you need a way to compensate for different compilers' packing of structs. For example, given this struct: ...
typedef struct a_ { x X; y Y; } a;
... If you then have a variabley *B = (something)
and you want a pointer to B's enclosinga
struct (presuming it exists), then you end up needing to do something like this: ...a *A = (a*)(((char*)B) - offsetof(a, Y));
... If you do this instead: ...a *A = (a*)(((x*)B)-1);
... then you may or may not get some very nasty surprises!– chadjoanOct 8, 2020 at 11:28
The C standard does not allow void pointer arithmetic. However, GNU C is allowed by considering the size of void is 1
.
C11 standard §6.2.5
Paragraph - 19
The
void
type comprises an empty set of values; it is an incomplete object type that cannot be completed.
Following program is working fine in GCC compiler.
#include<stdio.h>
int main()
{
int arr[2] = {1, 2};
void *ptr = &arr;
ptr = ptr + sizeof(int);
printf("%d\n", *(int *)ptr);
return 0;
}
May be other compilers generate an error.
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.
[answer copied from a comment on a later, duplicate question]
Allowing arithmetic on void pointers is a controversial, nonstandard extension. If you're thinking in assembly language, where pointers are just addresses, arithmetic on void pointers makes sense, and adding 1 just adds 1. But if you're thinking in C terms, using C's model of pointer arithmetic, adding 1 to any pointer p
actually adds sizeof(*p)
to the address, and this is what you want pointer arithmetic to do, but since sizeof(void)
is 0, it breaks down for void pointers.
If you're thinking in C terms you don't mind that it breaks down, and you don't mind inserting explicit casts to (char *)
if that's the arithmetic you want. But if you're thinking in assembler you want it to just work, which is why the extension (though a departure from the proper definition of pointer arithmetic in C) is desirable in some circles, and provided by some compilers.
Pointer arithmetic is not allowed in the void pointer.
Reason: Pointer arithmetic is not the same as normal arithmetic, as it happens relative to the base address.
Solution: Use the type cast operator at the time of the arithmetic, this will make the base data type known for the expression doing the pointer arithmetic. ex: point is the void pointer
*point=*point +1; //Not valid
*(int *)point= *(int *)point +1; //valid
Compiler knows by type cast. Given a void *x
:
x+1
adds one byte tox
, pointer goes to bytex+1
(int*)x+1
addssizeof(int)
bytes, pointer goes to bytex + sizeof(int)
(float*)x+1
addressizeof(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)
-
3
Althought the first item is not portable and is against the Galateo of C/C++
True.it is nevertheless C-language-correct
False. This is doublethink! Pointer arithmetic onvoid *
is syntactically illegal, should not compile, and produces undefined behaviour if it does. If a careless programmer can make it compile by disabling some warning, that's no excuse. Aug 20, 2016 at 6:35 -
1@underscore_d: I think some compilers used to allow it as an extension, since it's a lot more convenient than having to cast to
unsigned char*
to e.g. add asizeof
value to a pointer.– supercatAug 23, 2016 at 14:42
void
pointer which points to data of sizex
is incremented, how does it get to pointx
bytes ahead?" It doesn't. Why can't people who have such questions test them before asking - y'know, at least to the bare minimum where they check whether it actually compiles, which this doesn't. -1, can't believe this got +100 and -0.void *
advances address by 1 byte (same aschar *
). Yet, the stupid illogical standard of it being "illegal" is forced upon everybody for no reason.p + n
obviously has to addn * sizeof(*p)
to the address inp
, butsizeof(void)
is obviously 0.