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I have a ScopedLock class which can help to release lock automatically when running out of scope. However, the problem is: Sometimes team members write invalid lock-code such as

    ScopedLock(mutex);   // anonymous

The above code is wrong because the ScopedLock object is constructed and destructed immediately, so it fails to lock the expected area (xxx). I want the compiler to give an error when trying to compile such code. Can this be done?

I have searched g++ warning options, but fail to find the right one.

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I don't think you can forbid this (or even generate a compiler diagnostic). A much more efficient (and satisfying, maybe) solution would be to slap your co-workers when they do it, until they finally stop doing it. ;) – syam Apr 24 '13 at 10:37
BTW, the actual name is temporary objects not anonymous objects. – syam Apr 24 '13 at 10:42
Unfortunately, it looks like lists.cs.uiuc.edu/pipermail/cfe-dev/2010-December/012755.html never made it into Clang. – Sebastian Redl Apr 24 '13 at 13:23
Of course, there's the valid use ScopedLock(mutex), foo();. In isolation it's never necessary, but it can be quite handy in more complex expressions: Bar(2, (ScopedLock(mutex), foo()), 3). – MSalters Apr 25 '13 at 8:40
up vote 2 down vote accepted

To avoid this, introduce a macro which does this for you, always using the same name for the locker:

#define LOCK(mutex) ScopedLock _lock(mutex)

Then use it like this:


As an alternative, Java's synchronize block can be simulated using a macro construct: In a for-loop running always exactly once, I instantiate such a locker in the initialization statement of the for-loop, so it gets destroyed when leaving the for-loop.

However, it has some pitfalls, unexpected behavior of a break statement being one example. This "hack" is introduced here.

Of course, none of the above methods fully avoid accidental code like your example. But if you're used to write locking mutexes using one of the two macros, it will less likely happen. As the name of the locker class will then never appear in the code except in the macro definition, you can even introduce a commit hook in a version control system to avoid committing invalid code.

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Actually, this abuse of for loops can be done without those pitfalls with the new range-based loop (stackoverflow.com/a/9657748/46642) – R. Martinho Fernandes Apr 24 '13 at 10:46
Okay, but then you have to remember to use LOCK instead of ScopedLock. I don't think that you've really solved anything. – Lightness Races in Orbit Apr 24 '13 at 10:46
@leemes: I didn't mean because of the macro. I meant because up until the last paragraph you did not address the question! – Lightness Races in Orbit Apr 24 '13 at 10:55
@leemes: No problem! – Lightness Races in Orbit Apr 24 '13 at 11:31
Thank you very much. I think I can define #define ScopeLock(x) wrong_usage_lock, so when team member write ScopedLock(x) the compiler will throw error. – Raymond Apr 24 '13 at 11:44

No, unfortunately there is no way to do this, as I explored in a blog post last year.

In it, I concluded:

I guess the moral of the story is to remember this story when using scoped_locks.

You can try to force all programmers in your team to use a macro, or a range-for trick, but then if you could guarantee that in every case then you'd be able to guarantee catching this bug in every case also.

You are looking for a way to programmatically catch this specific mistake when it's made, and there is none.

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I have seen an interesting trick in one codebase, but it only works if your scoped_lock type is not a template (std::scoped_lock is).

#define scoped_lock(x) static_assert(false, "you forgot the variable name")

If you use the class correctly, you have

scoped_lock lock(mutex);

and since the scoped_lock identifier isn't followed by an open paren, the macro won't trigger and the code will remain as it is. If you write\


the macro will trigger and the code will be substituted with

static_assert(false, "you forgot the variable name");

This will generate an informative message.

If you use a qualified name


then the result will still not compile, but the message won't be as nice.

Of course, if your lock is a template, the bad code is


which won't trigger the macro.

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I didn't know that it's even possible to write the macro name without parentheses and it's still valid (and not expanded). This is a nice one. +1 – leemes Apr 24 '13 at 12:32
Other pitfalls I can think of: Typedefs will fail unless a new macro is also introduced along with it. Also, when you inherit from a class which has such a macro, you have to use a typedef first (if you don't, AFAIK you can't invoke the super constructor with the mutex as an argument) as well as for the sub class the trick fails again. In both cases (typedef + sub class), you can of course write another macro and are safe again, but as always: you have to remember it in the first place. – leemes Apr 24 '13 at 12:35

AFAIK there's no such a flag in gcc. A static analyzer may better suit your needs.

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replace it with macro

#define CON2(x,y) x##y
#define CON(x,y) CON2(x,y)
#define LOCK(x)  ScopedLock CON(unique_,__COUNTER__)(mutex)


  //do stuff

This macro will generate unique names for locks, allowing lockeng of other mutexes in inner scopes

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And if they didn't miss the variable name, they won't be missing the variable name. The point is that you have to remember to do something in both cases. The question is about programmatically detecting the bug. – Lightness Races in Orbit Apr 24 '13 at 10:50
They must remember to use the macro in the first place. – Lightness Races in Orbit Apr 24 '13 at 10:57
Using smart pointers is not the answer to "how do I make my compiler catch all incorrect uses of raw pointers?" That doesn't mean it's not a good idea, of course ;) – Lightness Races in Orbit Apr 24 '13 at 11:03
I'm serious! :-) – Lightness Races in Orbit Apr 24 '13 at 11:31
@kassak Lightness Races in Orbit is right about that. I did exactly the same mistake first in my answer when introducing a macro. Then I realized: "Hey, but now the programmer still has to use the macro while he is still allowed to write code like in the question. Now how can I avoid it?" => Simply by forbidding to use the locker without the macro, which is only possible if such a macro exists. So it is an additional requirement to address the question. Only introducing the macro is not the answer. Lightness Races in Orbit is not trolling in my opinion but rather explaining the difference. – leemes Apr 24 '13 at 11:31

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