# 4600-project-1 Project 1 for CSCE4600, for Team G4 ## Build Build with `make` Run with `make run` Clean with `make clean` ## Explanation of Solution ### Counting Semaphores: This project uses four counting semaphores: * `sem_freelist` tracks the number of blocks on the `freelist`. * This prevents any thread from trying to read a nonexistent (`nullptr`) block from the `freelist`. * `sem_freelist_minus_1` tracks the number of blocks on the `freelist` minus 1: * This is used to circumvent a deadlock situation where Thread-1 (the producer) will eat the last block on the `freelist` and put it on `list1`, where Thread-2 (the transformer) will never be able to consume it, since it's blocked on the empty `freelist`. * Without this, you'd need to check that `sem_freelist > 1`, and the project specifications only allow the use of P() and V(), A.K.A. `wait()` and `signal()`. * `sem_list1` tracks the number of blocks on `list1`. * This prevents any thread from trying to read a nonexistent (`nullptr`) block from `list1`. * `sem_list2` tracks the number of blocks on `list2`. * This prevents any thread from trying to read a nonexistent (`nullptr`) block from `list2`. All counting semaphores were used for thread synchronization. ### Binary Semaphores: This project uses three binary semaphores: * `sem_freelist` guarantees mutual exclusion when accessing the `freelist`. * This prevents memory corruption, as list accesses are thread-unsafe. * `sem_list1` guarantees mutual exclusion when accessing `list1`. * This prevents memory corruption, as list accesses are thread-unsafe. * `sem_list2` guarantees mutual exclusion when accessing `list2`. * This prevents memory corruption, as list accesses are thread-unsafe. All binary semaphores were used for mutual exclusion.