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The C++11 standard defines unique_lock::unlock as (§, p. 1159)

void unlock();
Effects: pm->unlock()
Postcondition: owns == false
Throws: system_error when an exception is required (30.2.2).
Error conditions:
  — operation_not_permitted — if on entry owns is false.

All other locking operations specify that an exception is thrown on at least two occasions:

  • The mutex is NULL (throws system_error with errc::operation_not_permitted)
  • The mutex is already locked (throws system_error with errc::operation_not_permitted)

The problem with invalid mutex is obviously possible for unlock also, however, the standard specifies the behaviour of the program only for the locking problems. Is it a real error in the standard or am I missing something?

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I'm not sure I follow. Why is it "obviously possible" for unlock to be called when the mutex is invalid? You can infer that as the effect of unlock() is pm->unlock(), that to avoid undefined behavior pm must not be null and the contract for the BasicLockable *pm must be met, so the lock must be owned by the current execution agent. Is there some subtlety that I'm missing? – Charles Bailey Dec 18 '11 at 17:00
up vote 7 down vote accepted

Although not explicitly stated, unique_lock has the following invariants:

if pm == nullptr then owns == false
if owns == true then pm != nullptr

There is just no way to get the unique_lock into a state that violates these invariants except via undefined behavior. So the clause:

— operation_not_permitted — if on entry owns is false.

covers the case that pm == nullptr.

Note that ~unique_lock() only calls pm->unlock() if owns is true. If owns is true, then pm != nullptr and thus unlock() can't throw.

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pm is the mutex_type and the definition for unlock in std::mutex is:

void unlock() noexcept;

That is, the unlock function cannot throw any exceptions, therefore unique_lock::unlock doesn't have to inherit any of those exceptions. As to why it can throw any exception at all is a mystery.

It is kind of bothersome that the destructor for unique_lock may throw an exception (since I guess it may have to call unlock where it can also). This seems bad to me, since using a lock object to properly unlock during exception handling is a very common idiom. It's really bad that the lock can throw an exception during stack unwinding -- especially since the underlying mutex isn't allowed to.

Something is definitely wrong here.

I'm still working from the last public draft, perhaps this was fixed

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The am looking at the actual C++11 standard. Neither unique_ptr::~unique_ptr is noexcept, nor the proposal to implicitly add noexcept for destructors has been implemented, so it hasn't been fixed. However, I think this is a different problem. The standard does not specify what happens in the case, when unique_ptr has no associated mutex and unlock is called on that lock. – user283145 Dec 18 '11 at 15:35

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