public void exceptionRaised(RaiseException exception) {
assert isCurrent();
RubyException rubyException = exception.getException();
Ruby runtime = rubyException.getRuntime();
if (runtime.getSystemExit().isInstance(rubyException)) {
runtime
.getThreadService()
.getMainThread()
.raise(new IRubyObject[] {rubyException}, Block.NULL_BLOCK);
} else if (abortOnException(runtime)) {
RubyException systemExit;
if (!runtime.is1_9()) {
runtime.printError(rubyException);
systemExit = RubySystemExit.newInstance(runtime, 1);
systemExit.message = rubyException.message;
systemExit.set_backtrace(rubyException.backtrace());
} else {
systemExit = rubyException;
}
runtime
.getThreadService()
.getMainThread()
.raise(new IRubyObject[] {systemExit}, Block.NULL_BLOCK);
return;
} else if (runtime.getDebug().isTrue()) {
runtime.printError(exception.getException());
}
exitingException = exception;
}
private static RubyThread adoptThread(final IRubyObject recv, Thread t, Block block) {
final Ruby runtime = recv.getRuntime();
final RubyThread rubyThread = new RubyThread(runtime, (RubyClass) recv);
rubyThread.threadImpl = new NativeThread(rubyThread, t);
ThreadContext context = runtime.getThreadService().registerNewThread(rubyThread);
runtime.getThreadService().associateThread(t, rubyThread);
context.preAdoptThread();
// set to default thread group
runtime.getDefaultThreadGroup().addDirectly(rubyThread);
return rubyThread;
}
@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());
}
}
public static RubyClass createThreadClass(Ruby runtime) {
// FIXME: In order for Thread to play well with the standard 'new' behavior,
// it must provide an allocator that can create empty object instances which
// initialize then fills with appropriate data.
RubyClass threadClass =
runtime.defineClass(
"Thread", runtime.getObject(), ObjectAllocator.NOT_ALLOCATABLE_ALLOCATOR);
runtime.setThread(threadClass);
threadClass.index = ClassIndex.THREAD;
threadClass.setReifiedClass(RubyThread.class);
threadClass.defineAnnotatedMethods(RubyThread.class);
RubyThread rubyThread = new RubyThread(runtime, threadClass);
// TODO: need to isolate the "current" thread from class creation
rubyThread.threadImpl = new NativeThread(rubyThread, Thread.currentThread());
runtime.getThreadService().setMainThread(Thread.currentThread(), rubyThread);
// set to default thread group
runtime.getDefaultThreadGroup().addDirectly(rubyThread);
threadClass.setMarshal(ObjectMarshal.NOT_MARSHALABLE_MARSHAL);
return threadClass;
}
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());
}
}
@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();
}
/**
* For handling all non-Ruby exceptions bubbling out of threads
*
* @param exception
*/
@SuppressWarnings("deprecation")
public void exceptionRaised(Throwable exception) {
if (exception instanceof RaiseException) {
exceptionRaised((RaiseException) exception);
return;
}
assert isCurrent();
Ruby runtime = getRuntime();
if (abortOnException(runtime) && exception instanceof Error) {
// re-propagate on main thread
runtime.getThreadService().getMainThread().getNativeThread().stop(exception);
} else {
// just rethrow on this thread, let system handlers report it
UnsafeFactory.getUnsafe().throwException(exception);
}
}
@JRubyMethod(optional = 3)
public IRubyObject raise(IRubyObject[] args, Block block) {
Ruby runtime = getRuntime();
ThreadContext context = runtime.getCurrentContext();
if (this == context.getThread()) {
return RubyKernel.raise(context, runtime.getKernel(), args, block);
}
debug(this, "before raising");
RubyThread currentThread = getRuntime().getCurrentContext().getThread();
debug(this, "raising");
IRubyObject exception = prepareRaiseException(runtime, args, block);
runtime
.getThreadService()
.deliverEvent(
new ThreadService.Event(
currentThread, this, ThreadService.Event.Type.RAISE, exception));
return this;
}
@JRubyMethod(name = "join", optional = 1)
public IRubyObject join(IRubyObject[] args) {
Ruby runtime = getRuntime();
long timeoutMillis = Long.MAX_VALUE;
if (args.length > 0 && !args[0].isNil()) {
if (args.length > 1) {
throw getRuntime().newArgumentError(args.length, 1);
}
// MRI behavior: value given in seconds; converted to Float; less
// than or equal to zero returns immediately; returns nil
timeoutMillis = (long) (1000.0D * args[0].convertToFloat().getValue());
if (timeoutMillis <= 0) {
// TODO: not sure that we should skip calling join() altogether.
// Thread.join() has some implications for Java Memory Model, etc.
if (threadImpl.isAlive()) {
return getRuntime().getNil();
} else {
return this;
}
}
}
if (isCurrent()) {
throw getRuntime().newThreadError("thread " + identityString() + " tried to join itself");
}
try {
if (runtime.getThreadService().getCritical()) {
// If the target thread is sleeping or stopped, wake it
synchronized (this) {
notify();
}
// interrupt the target thread in case it's blocking or waiting
// WARNING: We no longer interrupt the target thread, since this usually means
// interrupting IO and with NIO that means the channel is no longer usable.
// We either need a new way to handle waking a target thread that's waiting
// on IO, or we need to accept that we can't wake such threads and must wait
// for them to complete their operation.
// threadImpl.interrupt();
}
RubyThread currentThread = getRuntime().getCurrentContext().getThread();
final long timeToWait = Math.min(timeoutMillis, 200);
// We need this loop in order to be able to "unblock" the
// join call without actually calling interrupt.
long start = System.currentTimeMillis();
while (true) {
currentThread.pollThreadEvents();
threadImpl.join(timeToWait);
if (!threadImpl.isAlive()) {
break;
}
if (System.currentTimeMillis() - start > timeoutMillis) {
break;
}
}
} catch (InterruptedException ie) {
ie.printStackTrace();
assert false : ie;
} catch (ExecutionException ie) {
ie.printStackTrace();
assert false : ie;
}
if (exitingException != null) {
// Set $! in the current thread before exiting
getRuntime().getGlobalVariables().set("$!", (IRubyObject) exitingException.getException());
throw exitingException;
}
if (threadImpl.isAlive()) {
return getRuntime().getNil();
} else {
return this;
}
}
