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 had always thought that checking the pointer after casting a void* to a struct* was a valid way to avoid invalid casts. Something like

MyStructOne* pStructOne = (MyStructOne*)someVoidPointer;
   return 0;

It appears that this is not the case as I can cast the same data to two different structs and get the same valid address. The program is then happy to populate my struct fields with whatever random data is in there.

What is a safe way of casting struct pointers?

I can't use dynamic_cast<> as it's not a class.

Thanks for the help!

share|improve this question
Easy. Use C++ instead of void *. – chris Sep 22 '12 at 23:54
dynamic_cast<> works with structs. - There is no difference between struct and class in C++ other that the default accessibility – shf301 Sep 22 '12 at 23:57
@shf301, but you still need at least one virtual function to use dynamic_cast, and structs don't typically have one. – Mark Ransom Sep 22 '12 at 23:59
dynamic_cast definitely does not work with structs. I got a compile error. Also I can't avoid using a void*. I'm using libev, so my only option is a void* – Josh Brittain Sep 23 '12 at 0:01
@JoshBrittain: dynamic_cast most certainly does work with structs. What it doesn't work with are types that have no virtual member functions. – Nicol Bolas Sep 23 '12 at 0:19
up vote 1 down vote accepted

If you have any control over the struct layout you can put your own type enumeration at the front of every struct to verify the type. This works in both C and C++.

If you can't use an enumeration because not all types are known ahead of time, you can use a GUID. Or a pointer to static variable or member that is unique per struct.

share|improve this answer

You can use dynamic_cast with structs or classes, as long as it has a virtual method. I would suggest you redesign your broader system to not have void*s anywhere. It's very bad practice/design.

share|improve this answer
Can't avoid using a void*. I'm using libev library. – Josh Brittain Sep 23 '12 at 0:02

There isn't one. And frankly, there can't be.

struct is simply an instruction for the compiler to treat the next sizeof() bytes in a particular semantic fashion - nothing less, nothing more.

You can cast any pointer into any pointer - all that changes is how the compiler would interpret the contents.

Using dynamic_cast<> is the only way, but it invokes RTTI (run type type information) to consider the potential legality of the assignment. Yeah, it's no longer an reinterpret_cast<>

share|improve this answer

It sounds like you want to make sure the object passed as a void* to your function is really the type you expect. The best approach would be to declare the function prototype with MyStructOne* instead of void* and let the compiler do the type checking.

If you really are trying to do something more dynamic (as in different types of objects can be passed to your function) you need to enable RTTI. This will allow you to interrogate the passed in object and ask it what type it is.

share|improve this answer

There is no "safe way of casting" in general, because casting pointers is inherently an unsafe procedure. Casting says that you know better than the type system, so you can't expect the type system to be of any help after you started casting pointers.

In C++, you should never use C-style casts (like (T) x), and instead use the C++ casts. Now a few simple rules let you determine whether casting a pointer or reference is OK:

  • If you const_cast in the bad direction and modify the object, you must be sure that the object is actually mutable.

  • You can only static_cast pointers or references within a polymorphic hierarchy or from/to void pointer. You must be sure that the dynamic type of the object is a subtype of the cast target, or in the case of void pointers that pointer is the address of an object of the correct type.

  • reinterpret_cast should only be used to or from a char * type (possibly signed or unsigned), or to convert a pointer to and from an (u)intptr_t.

In every case, it is your responsibility to ensure that the pointers or references in question refer to an object of the type that you claim in the cast. There is no check that anyone else can do for you to verify this.

share|improve this answer

The (C-style) cast you are using is compile-time operation - that is to say that the compiler generates instructions to modify the pointer to one thing so that it points to another.

With inheritance relationships, this is simply addition or subtraction from the pointer.

In the case of your code, the compiler generates precisely no code whatsoever. The cast merely serves to tell the compiler that you know what you're doing.

The compiler does not generate any code that checks the validity of your operation. If someVoidPointer is null, so will be pStructOne after the cast. \

Using a dynamic_cast<>() doesn't validate that the thing being casted is actually an object at all - it merely tells you that an object with RTTI is (or can be converted to) the type you expect. If it's not an object to start with, you'll most likely get a crash.

share|improve this answer
I should clarify that the compile error of dynamic_cast is when using it on a void*. It looks like I may have to redesign so that the void* is either null or ONLY one type at all times. – Josh Brittain Sep 23 '12 at 0:13

What is a safe way of casting struct pointers?

First, try to avoid needing to do this in the first place. Use forward declarations for structs if you don't want to include their headers. In general, you should only need to hide the data type from the signature if a function could take multiple types of data. The example for something like that is a message passing system, where you want to be able to pass arbitrary data. The sender and receiver know what types they expect, but the message system itself doesn't need to know.

Assuming you have no other alternatives, use a boost::any. This is essentially a type-safe void*; attempts to cast it to the wrong type will throw an exception. Note that this needs RTTI to work (which you generally should have available).

Note that boost::variant is a possibility if there is a fixed, limited set of possible types that can be used.

share|improve this answer

Since you have to use void*, your options are:

  1. create a single base class including a virtual destructor (and/or other virtual methods) and use that exclusively across the libev interface. Wrap the libev interface to enforce this, and only use the wrappers from your C++ code. Then, inside your C++ code, you can dynamic_cast your base class.

  2. accept that you don't have any runtime information about what type your void* really points to, and just structure your code so you always know statically. That is, make sure you cast to the correct type in the first place.

  3. use the void* to store a simple tag/cookie/id structure, and use that to look up your real struct or whatever - this is really just a more manual version of #1 though, and incurs an extra indirection to boot.

And the direct answer to

What is a safe way of casting struct pointers?


cast to the correct type, or a type you know to be layout compatible.

There just isn't any substitute for knowing statically what the correct type is. You presumably passed something in as a void*, so when you get that void* back you should be able to know what type it was.

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.