ref: e11c7aa718df592bd69de53ce1d6498cc870f256
dir: /appl/lib/timers.b/
implement Timers; include "sys.m"; sys: Sys; include "timers.m"; timerin: chan of ref Timer; init(minms: int): int { sys = load Sys Sys->PATH; timerin = chan[20] of ref Timer; if(minms <= 0) minms = 1; pid := chan of int; spawn timeproc(timerin, minms, pid); return <-pid; } shutdown() { if(timerin != nil) timerin <-= nil; } Timer.start(dt: int): ref Timer { t := ref Timer(dt, chan[1] of int); timerin <-= t; return t; } Timer.stop(t: self ref Timer) { # this is safe, because only Timer.stop sets t.timeout and timeproc only fetches it t.timeout = nil; } timeproc(req: chan of ref Timer, msec: int, pid: chan of int) { pending: list of ref Timer; pid <-= sys->pctl(Sys->NEWFD|Sys->NEWNS|Sys->NEWENV, nil); # same pgrp old := sys->millisec(); Work: for(;;){ if(pending == nil){ if((t := <-req) == nil) break Work; pending = t :: pending; old = sys->millisec(); }else{ # check quickly for new requests Check: for(;;) alt{ t := <-req => if(t == nil) break Work; pending = t :: pending; * => break Check; } } sys->sleep(msec); new := sys->millisec(); dt := new-old; old = new; if(dt < 0) continue; # millisec counter wrapped ticked := 0; for(l := pending; l != nil; l = tl l) if(((hd l).dt -= dt) <= 0) ticked = 1; if(ticked){ l = pending; pending = nil; for(; l != nil; l = tl l){ t := hd l; if(t.dt > 0 || !notify(t)) pending = t :: pending; } } } # shut down: attempt to clear pending requests for(; pending != nil; pending = tl pending) notify(hd pending); } notify(t: ref Timer): int { # copy to c to avoid race with Timer.stop if((c := t.timeout) == nil) return 1; # cancelled; consider it done alt{ c <-= 1 => return 1; * => return 0; } }