@JRubyMethod(name = "pass", meta = true) public static IRubyObject pass(IRubyObject recv) { Ruby runtime = recv.getRuntime(); ThreadService ts = runtime.getThreadService(); boolean critical = ts.getCritical(); ts.setCritical(false); Thread.yield(); ts.setCritical(critical); return recv.getRuntime().getNil(); }
@JRubyMethod(rest = true, visibility = PRIVATE) public IRubyObject initialize(ThreadContext context, IRubyObject[] args, Block block) { Ruby runtime = getRuntime(); if (!block.isGiven()) throw runtime.newThreadError("must be called with a block"); try { RubyRunnable runnable = new RubyRunnable(this, args, context.getFrames(0), block); if (RubyInstanceConfig.POOLING_ENABLED) { FutureThread futureThread = new FutureThread(this, runnable); threadImpl = futureThread; addToCorrectThreadGroup(context); threadImpl.start(); // JRUBY-2380, associate future early so it shows up in Thread.list right away, in case it // doesn't run immediately runtime.getThreadService().associateThread(futureThread.getFuture(), this); } else { Thread thread = new Thread(runnable); thread.setDaemon(true); thread.setName( "Ruby" + thread.getName() + ": " + context.getFile() + ":" + (context.getLine() + 1)); threadImpl = new NativeThread(this, thread); addToCorrectThreadGroup(context); // JRUBY-2380, associate thread early so it shows up in Thread.list right away, in case it // doesn't run immediately runtime.getThreadService().associateThread(thread, this); threadImpl.start(); } // We yield here to hopefully permit the target thread to schedule // MRI immediately schedules it, so this is close but not exact Thread.yield(); return this; } catch (OutOfMemoryError oome) { if (oome.getMessage().equals("unable to create new native thread")) { throw runtime.newThreadError(oome.getMessage()); } throw oome; } catch (SecurityException ex) { throw runtime.newThreadError(ex.getMessage()); } }
private IRubyObject startWith(ThreadedRunnable runnable) throws RaiseException, OutOfMemoryError { Ruby runtime = getRuntime(); ThreadContext context = runtime.getCurrentContext(); try { if (RubyInstanceConfig.POOLING_ENABLED) { FutureThread futureThread = new FutureThread(this, runnable); threadImpl = futureThread; addToCorrectThreadGroup(context); threadImpl.start(); // JRUBY-2380, associate future early so it shows up in Thread.list right away, in case it // doesn't run immediately runtime.getThreadService().associateThread(futureThread.getFuture(), this); } else { Thread thread = new Thread(runnable); thread.setDaemon(true); thread.setName( "Ruby" + thread.getName() + ": " + context.getFile() + ":" + (context.getLine() + 1)); threadImpl = new NativeThread(this, thread); addToCorrectThreadGroup(context); // JRUBY-2380, associate thread early so it shows up in Thread.list right away, in case it // doesn't run immediately runtime.getThreadService().associateThread(thread, this); threadImpl.start(); } // We yield here to hopefully permit the target thread to schedule // MRI immediately schedules it, so this is close but not exact Thread.yield(); return this; } catch (OutOfMemoryError oome) { if (oome.getMessage().equals("unable to create new native thread")) { throw runtime.newThreadError(oome.getMessage()); } throw oome; } catch (SecurityException ex) { throw runtime.newThreadError(ex.getMessage()); } }