Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

Having spent the last few days debugging a multi-threading where one thread was deleting an object still in use by another I realised that the issue would have been far easier and quicker to diagnose if I could have made 'this' volatile. It would have changed the crash dump on the system (Symbian OS) to something far more informative.

So, is there any reason why it cannot be, or shouldn't be?

Edit: So there really is no safe way to prevent or check for this scenario. Would it be correct to say that one solution to the accessing of stale class pointers is to have a global variable that holds the pointer, and any functions that are called should be statics that use the global variable as a replacement for 'this'?

static TAny* gGlobalPointer = NULL;

#define Harness static_cast<CSomeClass*>(gGlobalPointer);

class CSomeClass : public CBase
    static void DoSomething();

    int iMember;

void CSomeClass::DoSomething()
    if (!Harness)

    Harness->iMember = 0;

So if another thread deleted and NULLed the global pointer it would be caught immediately.

One issue I think with this is that if the compiler cached the value of Harness instead of checking it each time it's used.

share|improve this question
Do you mean that it would have been easier if this was volatile, or that it would have been easier if this was a pointer-to-volatile? In other words, were you seeing in the crash dump an out-of-date value of this (which seems a bit odd since it never changes), or of some data member? –  Steve Jessop Jul 1 '11 at 10:03

5 Answers 5

up vote 7 down vote accepted

this is not a variable, but a constant. You can change the object referenced by this, but you can't change the value of this. Because constants never change, there is no need to mark them as volatile.

share|improve this answer
And by "constant" you mean T* const and not const T*. –  Mike DeSimone Jul 1 '11 at 10:09
The answer doesn't really make sense, in C++ terms. this is an expression. And const expressions can certainly change in C++: int x = 0; int const* px = &x; std::cout << *px; x = 1; std::cout << *px;. –  MSalters Jul 1 '11 at 10:18
@Mike no he doesn't mean T* const he means a T* that is not an object. It wouldn't make sense to make this const either. Well, at least I'm assuming he means. Otherwise his answer doesn't make sense to me! –  Johannes Schaub - litb Jul 2 '11 at 10:49
@Mike yes this is more of a "pointer literal". It's an rvalue anyway. It's an +a rather than an a. "it looks like one and works like one" not true. Try &this. Or try template<typename T> void f(T&); calling with f(this). Both would work if this were a T* const variable. –  Johannes Schaub - litb Jul 3 '11 at 11:49
@Mike: 9.3.2 §1 says: "In the body of a non-static (9.3) member function, the keyword this is a prvalue expression whose value is the address of the object for which the function is called. The type of this in a member function of a class X is X*. If the member function is declared const, the type of this is const X*." (Personal note: in both cases, there is no const after the *.) –  FredOverflow Jul 3 '11 at 12:31

It wouldn't help: making a variable volatile means that the compiler will make sure it reads its value from memory each time it's accessed, but the value of this doesn't change, even if, from a different context or the same, you delete the object it's pointing at.

share|improve this answer
... because deleting a pointer (specifically, the memory it's pointing to) doesn't magically set the pointer to 0. The compiler has no way of knowing where all the pointers to an object are. –  Mike DeSimone Jul 1 '11 at 10:08
If I could accept multiple answers, I would. Thanks –  James Jul 1 '11 at 10:19

It can be. Just declare the member function as volatile.

struct a
    void foo() volatile {}
share|improve this answer
And to answer the actual question, the reason this doesn't happen by default is that you wouldn't be able to pass this to a function taking a pointer-to-non-volatile. Same reason this isn't a pointer-to-const unless you mark the member function const. –  Steve Jessop Jul 1 '11 at 10:05

volatile wouldn't help you.
It would make the access to a variable volatile, but won't wait for any method to complete.

use smart pointers.


There's also an version in std in newer c++ versions.

share|improve this answer
No smart pointers in Symbian C++. I didn't want it to provide synchronization, I wanted it to crash when access a stale pointer. –  James Jul 1 '11 at 10:18
@James: Making it volatile won't achieve this, unfortunately. –  Andrew Aylett Jul 1 '11 at 10:20
shared pointers are templted classes.. you can dowonload it and add to your project –  Yochai Timmer Jul 1 '11 at 11:05

If the object is being read whilst being deleted that is a clear memory error and has nothing to do with volatile.

volatile is intended to stop the compiler from "remembering" the value of a variable in memory that may be changed by a different thread, i.e. prevent the compiler from optimising.

e.g. if your class has a pointer member p and your method is accessing:


etc. and p is volatile within "this" so p->b could be accessing a different object than it was when it did p->a

If p has been destroyed though as "this" was deleted then volatile will not come to your rescue. Presumably you think it will be "nulled" but it won't be.

Incidentally it is also a pretty sound rule that if your destructor locks a mutex in order to protect another thread using the same object, you have an issue. Your destructor may lock due to it removing its own presence from an external object that needs synchronous activity, but not to protect its own members.

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.