I would like to implement queued locking in C++ for one of my applications. I was going through the algorithm from the following paper : http://www.google.co.in/url?sa=t&rct=j&q=&esrc=s&source=web&cd=1&cad=rja&ved=0CCUQFjAA&url=http%3A%2F%2Fwww.cs.rice.edu%2F~johnmc%2Fpapers%2Ftocs91.pdf&ei=HpRfUKCZFsfWrQfpgIGACQ&usg=AFQjCNF_QamPWhJrq5dSjJjFjO7W3WzJ5Q&sig2=3TU1vo_aAYbM2fmLxeiZ0A
type qnode = record next : ^qnode locked : Boolean type lock = ^qnode // parameter I, below, points to a qnode record allocated // (in an enclosing scope) in shared memory locally-accessible // to the invoking processor procedure acquire_lock (L : ^lock, I : ^qnode) I->next := nil predecessor : ^qnode := fetch_and_store (L, I) if predecessor != nil // queue was non-empty I->locked := true predecessor->next := I ---A repeat while I->locked // spin ---C procedure release_lock (L : ^lock, I: ^qnode) if I->next = nil // no known successor if compare_and_swap (L, I, nil) // compare_and_swap returns true iff it swapped return repeat while I->next = nil // spin --B I->next->locked := false ---D
A & B are accessing the same variable( predecessor->next & I->next ) and also C & D( locked variable ) but they are not being locked before accessing. Am I missing something here ?