The use of
unique_lock offers resiliency in the face of changes and errors.
- If you change the flow to add intermediate "jumps" (
return for example)
- If an exception is thrown
in any case, the lock is automatically released.
On the other hand, if you attempt to do it manually, you may miss a case. And even if you don't right now, a later edit might.
Note: this is a usual idiom in C++, referred to as SBRM (Scoped Bound Resources Management) where you tie down a clean-up action to stack unwinding so you are assured that, unless crash/ungraceful exit, it is executed.
It also shows off RAII (Resources Acquisition is Initialization) since the very construction of
unique_lock acquires the resource (here the mutex). Despite its name, this acronym is also colloquially used to refer to deterministic release at destruction time, which covers a broader scope than SBRM since it refers to all kind of deterministic releases, not only those based on stack unwinding.