\chapter{Concurrency in \CFA}\label{s:cfa_concurrency} The groundwork for concurrency in \CFA was laid by Thierry Delisle in his Master's Thesis~\cite{Delisle18}. In that work, he introduced generators, coroutines, monitors, and user-level threading. Not listed in that work were basic concurrency features needed as building blocks, such as locks, futures, and condition variables, which he also added to \CFA. \section{Threading Model}\label{s:threading} \CFA provides user-level threading and supports an $M$:$N$ threading model where $M$ user threads are scheduled on $N$ kernel threads, where both $M$ and $N$ can be explicitly set by the user. Kernel threads are created by declaring a @processor@ structure. User-thread types are defined by creating a @thread@ aggregate-type, \ie replace @struct@ with @thread@. For each thread type a corresponding @main@ routine must be defined, which is where the thread starts running once it is created. Examples of \CFA user thread and processor creation are shown in \VRef[Listing]{l:cfa_thd_init}. \begin{cfa}[caption={Example of \CFA user thread and processor creation},label={l:cfa_thd_init}] @thread@ my_thread {...}; $\C{// user thread type}$ void @main@( my_thread & this ) { $\C{// thread start routine}$ sout | "Hello threading world"; } int main() { @processor@ p[2]; $\C{// add 2 processors = 3 total with starting processor}$ { my_thread t[2], * t3 = new(); $\C{// create 3 user threads, running in main routine}$ ... // execute concurrently delete( t3 ); $\C{// wait for thread to end and deallocate}$ } // wait for threads to end and deallocate } \end{cfa} When processors are added, they are added alongside the existing processor given to each program. Thus, for $N$ processors, allocate $N-1$ processors. A thread is implicitly joined at deallocation, either implicitly at block exit for stack allocation or explicitly at @delete@ for heap allocation. The thread performing the deallocation must wait for the thread to terminate before the deallocation can occur. A thread terminates by returning from the main routine where it starts. % Local Variables: % % tab-width: 4 % % End: %