Stack Overflow is a community of 4.7 million programmers, just like you, helping each other.

Join them; it only takes a minute:

Sign up
Join the Stack Overflow community to:
  1. Ask programming questions
  2. Answer and help your peers
  3. Get recognized for your expertise

I have this very simple test function that I'm using to figure out what's going on with const qualifier.

int test(const int* dummy)
   *dummy = 1;
   return 0;

This one throws me an error with GCC 4.8.3. Yet this one compiles:

int test(const int* dummy)
   *(char*)dummy = 1;
   return 0;

So it seems like the const qualifier works only if I use the argument without casting to other type.

Recently I've seen codes that used

test(const void* vpointer, ...)

At least for me, when I used void*, I tend to cast it to char* for pointer arithmetic in stacks or for tracing. How can const void* prevent subroutine functions from modifying the data at which vpointer is pointing?

share|improve this question
const T* means that the data pointed to by the pointer is const. The 2nd one is very fragile, since it casts away the const. – Colonel Thirty Two Jan 17 at 18:50
@ColonelThirtyTwo But from what I've read on other stackoverflow posts, isn't const void* often used to prevent the data from being modified? But it seems to me that by casting it can be modified very easily. – MoneyBall Jan 17 at 18:52
@MoneyBall yes, but casting is like that. That's why casting is dangerous - I can take your "const int * " and cast it to "int64_t * " and SIGSVF or corrupt other data. The problem is with the casting not the const declarations. – Mσᶎ Jan 17 at 23:29
@Mσᶎ Right, I thought const qualifier could prevent data from being modified. Turns out C lets you cast it and modify it without raising any errors. – MoneyBall Jan 18 at 0:22
Excuse my wording, but.... how stupid would it be if const would be working in case you cast something to an non constant type? Just imagine you have a given prototype for some callback or something which for internal purpose has the argument const. But in case you know YOUR implementation will never provide an const argument OR you are able to catch the case when it is, WHY should the compiler if you explicite by cast say it has not to be treat as constant anyway treat it as constant? – Zaibis Jan 18 at 8:41
up vote 36 down vote accepted
const int *var;

const is a contract. By receiving a const int * parameter, you "tell" the caller that you (the called function) will not modify the objects the pointer points to.

Your second example explicitly breaks that contract by casting away the const qualifier and then modifying the object pointed by the received pointer. Never ever do this.

This "contract" is enforced by the compiler. *dummy = 1 won't compile. The cast is a way to bypass that, by telling the compiler that you really know what you are doing and to let you do it. Unfortunately the "I really know what I am doing" is usually not the case.

const can also be used by compiler to perform optimization it couldn't otherwise.

Undefined Behavior note:

Please note that while the cast itself is technically legal, modifying a value declared as const is Undefined Behavior. So technically, the original function is ok, as long as the pointer passed to it points to data declared mutable. Else it is Undefined Behavior.

more about this at the end of the post

As for motivation and use lets take the arguments of strcpy and memcpy functions:

char* strcpy( char* dest, const char* src );
void* memcpy( void* dest, const void* src, std::size_t count );

strcpy operates on char strings, memcpy operates on generic data. While I use strcpy as example, the following discussion is exactly the same for both, but with char * and const char * for strcpy and void * and const void * for memcpy:

dest is char * because in the buffer dest the function will put the copy. The function will modify the contents of this buffer, thus it is not const.

src is const char * because the function only reads the contents of the buffer src. It doesn't modify it.

Only by looking at the declaration of the function, a caller can assert all the above. By contract strcpy will not modify the content of the second buffer passed as argument.

const and void are orthogonal. That is all the discussion above about const applies to any type (int, char, void, ...)

void * is used in C for "generic" data.

Even more on Undefined Behavior:

Case 1:

int a = 24;
const int *cp_a = &a; // mutabale to const is perfectly legal. This is in effect
                      // a constant view (reference) into a mutable object

*(int *)cp_a = 10;    // Legal, because the object referenced (a)
                      // is declared as mutable

Case 2:

const int cb = 42;
const int *cp_cb = &cb;
*(int *)cp_cb = 10;    // Undefined Behavior.
                       // the write into a const object (cb here) is illegal.

I began with these examples because they are easier to understand. From here there is only one step to function arguments:

void foo(const int *cp) {
    *(int *)cp = 10;      // Legal in case 1. Undefined Behavior in case 2

Case 1:

int a = 0;
foo(&a);     // the write inside foo is legal

Case 2:

int const b = 0;
foo(&b);     // the write inside foo causes Undefined Behavior

Again I must emphasize: unless you really know what you are doing, and all the people working in the present and in the future on the code are experts and understand this, and you have a good motivation, unless all the above are met, never cast away the constness!!

share|improve this answer
@MoneyBall It is safe to say that C gives you methods to shoot yourself in the leg (allowing to cast away the const qualifier is one of them). That being said, it is safe to assume a function won't cast away the const qualifier. Unless it is a malicious or a bugged function. – bolov Jan 17 at 19:31
@MoneyBall I added a note about the compiler enforcing this contract – bolov Jan 17 at 19:37
You said that if callee receives const int* vpointer, the 4Bytes of data pointed by vpointer is constant. So if const is a contract between caller and callee, if callee is given const void*, what does it mean? How does callee know how much data are constant? – MoneyBall Jan 17 at 19:40
@DavidC.Rankin English is not my first language, so I might be wrong in its use, but "orthogonal" also has the meaning of "independent" , – bolov Jan 17 at 20:15
@bolov: FWIW, the version with "orthogonal" was actually better (clearer) than the version with "not coupled". On any site with large numbers of well-educated, technically-minded people, you'll encounter a lot of claims about how words are "supposed" to be used, or what they "actually" mean. Many of these claims are completely wrong; and David C. Rankin's is one of them. – ruakh Jan 17 at 20:38
int test(const int* dummy)
   *(char*)dummy = 1;
   return 0;

No, this does not work. Casting away constness (with truly const data) is undefined behavior and your program will likely crash if, for example, the implementation put const data in ROM. The fact that "it works" doesn't change the fact that your code is ill-formed.

At least for me, when I used void*, I tend to cast it to char* for pointer arithmetic in stacks or for tracing. How can const void* prevent subroutine functions from modifying the data at which vpointer is pointing?

A const void* means a pointer to some data that cannot be changed. In order to read it, yes, you have to cast it to concrete types such as char. But I said reading, not writing, which, again, is UB.

This is covered more in depth here. C allows you to entirely bypass type-safety: it's your job to prevent that.

share|improve this answer
Actually casting away constness is not undefined behavior. It is well defined even to modify the value pointed by, with the condition that the object was declared mutable. See my answer for a detailed example. But I 100% agree that is not a reason to allow casting away constness – bolov Jan 17 at 19:27
@bolov Yeah, thanks for pointing out. I sorta alluded to that when I mentioned an implementation that places const data in ROM. – black Jan 17 at 19:37

It’s possible that a given compiler on a given OS could put some of its const data in read-only memory pages. If so, attempting to write to that location would fail in hardware, such as causing a general protection fault.

The const qualifier just means that writing there is undefined behavior. This means the language standard allows the program to crash if you do (or anything else). Despite that, C lets you shoot yourself in the foot if you think you know what you’re doing.

You can’t stop a subroutine from reinterpreting the bits you give it however it wants and running any machine instruction on them it wants. The library function you’re calling might even be written in assembler. But doing that to a const pointer is undefined behavior, and you really don’t want to invoke undefined behavior.

Off the top of my head, one rare example where it might make sense: suppose you’ve got a library that passes around handle parameters. How does it generate and use them? Internally, they might be pointers to data structures. So that’s an application where you might typedef const void* my_handle; so the compiler will throw an error if your clients try to dereference it or do arithmetic on it by mistake, then cast it back to a pointer to your data structure inside your library functions. It’s not the safest implementation, and you want to be careful about attackers who can pass arbitrary values to your library, but it’s very low-overhead.

share|improve this answer

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.