org.jruby.libraries.ThreadLibrary Maven / Gradle / Ivy
/***** BEGIN LICENSE BLOCK *****
* Version: CPL 1.0/GPL 2.0/LGPL 2.1
*
* The contents of this file are subject to the Common Public
* License Version 1.0 (the "License"); you may not use this file
* except in compliance with the License. You may obtain a copy of
* the License at http://www.eclipse.org/legal/cpl-v10.html
*
* Software distributed under the License is distributed on an "AS
* IS" basis, WITHOUT WARRANTY OF ANY KIND, either express or
* implied. See the License for the specific language governing
* rights and limitations under the License.
*
* Copyright (C) 2006 MenTaLguY
*
* Alternatively, the contents of this file may be used under the terms of
* either of the GNU General Public License Version 2 or later (the "GPL"),
* or the GNU Lesser General Public License Version 2.1 or later (the "LGPL"),
* in which case the provisions of the GPL or the LGPL are applicable instead
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/* Portions loosely based on public-domain JSR-166 code by Doug Lea et al. */
package org.jruby.libraries;
import java.io.IOException;
import java.util.LinkedList;
import static org.jruby.CompatVersion.*;
import org.jruby.Ruby;
import org.jruby.RubyObject;
import org.jruby.RubyClass;
import org.jruby.RubyBoolean;
import org.jruby.RubyThread;
import org.jruby.RubyNumeric;
import org.jruby.anno.JRubyClass;
import org.jruby.anno.JRubyMethod;
import org.jruby.exceptions.RaiseException;
import org.jruby.internal.runtime.ThreadService;
import org.jruby.runtime.Arity;
import org.jruby.runtime.Block;
import org.jruby.runtime.ObjectAllocator;
import org.jruby.runtime.ThreadContext;
import org.jruby.runtime.load.Library;
import org.jruby.runtime.builtin.IRubyObject;
/**
* @author MenTaLguY
*/
public class ThreadLibrary implements Library {
public void load(final Ruby runtime, boolean wrap) throws IOException {
runtime.getThread().defineAnnotatedMethods(ThreadMethods.class);
Mutex.setup(runtime);
ConditionVariable.setup(runtime);
Queue.setup(runtime);
SizedQueue.setup(runtime);
}
public static class ThreadMethods {
@JRubyMethod(name = "exclusive", meta = true, compat = RUBY1_8)
public static IRubyObject exclusive(ThreadContext context, IRubyObject receiver, Block block) {
ThreadService service = context.getRuntime().getThreadService();
boolean old = service.getCritical();
try {
service.setCritical(true);
return block.yield(receiver.getRuntime().getCurrentContext(), (IRubyObject) null);
} finally {
service.setCritical(old);
}
}
}
@JRubyClass(name="Mutex")
public static class Mutex extends RubyObject {
private RubyThread owner = null;
@JRubyMethod(name = "new", rest = true, meta = true)
public static Mutex newInstance(ThreadContext context, IRubyObject recv, IRubyObject[] args, Block block) {
Mutex result = new Mutex(context.getRuntime(), (RubyClass)recv);
result.callInit(args, block);
return result;
}
public Mutex(Ruby runtime, RubyClass type) {
super(runtime, type);
}
public static void setup(Ruby runtime) {
RubyClass cMutex = runtime.defineClass("Mutex", runtime.getObject(), new ObjectAllocator() {
public IRubyObject allocate(Ruby runtime, RubyClass klass) {
return new Mutex(runtime, klass);
}
});
cMutex.setReifiedClass(Mutex.class);
cMutex.defineAnnotatedMethods(Mutex.class);
}
@JRubyMethod(name = "locked?")
public synchronized RubyBoolean locked_p(ThreadContext context) {
return context.getRuntime().newBoolean(isLocked());
}
// should be called from properly synchronized context
private boolean isLocked() {
return owner != null && owner.isAlive();
}
@JRubyMethod
public RubyBoolean try_lock(ThreadContext context) {
//if (Thread.interrupted()) {
// throw new InterruptedException();
//}
synchronized (this) {
if (isLocked()) {
return context.getRuntime().getFalse();
}
lock(context);
}
return context.getRuntime().getTrue();
}
@JRubyMethod
public IRubyObject lock(ThreadContext context) {
//if (Thread.interrupted()) {
// throw new InterruptedException();
//}
try {
context.getThread().enterSleep();
synchronized (this) {
try {
if (owner == context.getThread()) {
throw context.getRuntime().newThreadError("Mutex relocking by same thread");
}
while (isLocked()) {
wait();
}
owner = context.getThread();
} catch (InterruptedException ex) {
if (!isLocked()) {
notify();
}
throw context.getRuntime().newConcurrencyError(ex.getLocalizedMessage());
}
}
} finally {
context.getThread().exitSleep();
}
return this;
}
@JRubyMethod(name = "unlock", compat = RUBY1_8)
public synchronized IRubyObject unlock(ThreadContext context) {
Ruby runtime = context.getRuntime();
if (!isLocked()) throw runtime.newThreadError("Mutex is not locked");
if (owner != context.getThread()) {
throw runtime.newThreadError("Mutex is not owned by calling thread");
}
// FIXME: 1.8 throws nil when the unlock is not waking. I don't
// think we can know this?
owner = null;
notify();
return this;
}
@JRubyMethod(name = "unlock", compat = RUBY1_9)
public synchronized IRubyObject unlock19(ThreadContext context) {
Ruby runtime = context.getRuntime();
if (!isLocked()) {
throw runtime.newThreadError("Attempt to unlock a mutex which is not locked");
}
if (owner != context.getThread()) {
throw runtime.newThreadError("Attempt to unlock a mutex which is locked by another thread");
}
owner = null;
notify();
return this;
}
@JRubyMethod(compat = RUBY1_9)
public IRubyObject sleep(ThreadContext context) {
long beg = System.currentTimeMillis();
try {
unlock(context);
context.getThread().sleep(-1);
} catch (InterruptedException ex) {
// ignore interrupted
} finally {
lock(context);
}
return context.runtime.newFixnum((System.currentTimeMillis() - beg) / 1000);
}
@JRubyMethod(compat = RUBY1_9)
public IRubyObject sleep(ThreadContext context, IRubyObject timeout) {
long beg = System.currentTimeMillis();
try {
unlock(context);
context.getThread().sleep((long)(timeout.convertToFloat().getDoubleValue() * 1000));
} catch (InterruptedException ex) {
// ignore interrupted
} finally {
lock(context);
}
return context.runtime.newFixnum((System.currentTimeMillis() - beg) / 1000);
}
@JRubyMethod
public IRubyObject synchronize(ThreadContext context, Block block) {
lock(context);
try {
return block.yield(context, null);
} finally {
unlock(context);
}
}
}
@JRubyClass(name="ConditionVariable")
public static class ConditionVariable extends RubyObject {
@JRubyMethod(name = "new", rest = true, meta = true)
public static ConditionVariable newInstance(ThreadContext context, IRubyObject recv, IRubyObject[] args, Block block) {
ConditionVariable result = new ConditionVariable(context.getRuntime(), (RubyClass)recv);
result.callInit(args, block);
return result;
}
public ConditionVariable(Ruby runtime, RubyClass type) {
super(runtime, type);
}
public static void setup(Ruby runtime) {
RubyClass cConditionVariable = runtime.defineClass("ConditionVariable", runtime.getObject(), new ObjectAllocator() {
public IRubyObject allocate(Ruby runtime, RubyClass klass) {
return new ConditionVariable(runtime, klass);
}
});
cConditionVariable.setReifiedClass(ConditionVariable.class);
cConditionVariable.defineAnnotatedMethods(ConditionVariable.class);
}
@JRubyMethod(name = "wait", required = 1, optional = 1)
public IRubyObject wait_ruby(ThreadContext context, IRubyObject args[]) {
Ruby runtime = context.getRuntime();
if ( args.length < 1 ) {
throw runtime.newArgumentError(args.length, 1);
}
if ( args.length > 2 ) {
throw runtime.newArgumentError(args.length, 2);
}
if (!( args[0] instanceof Mutex )) {
throw context.getRuntime().newTypeError(args[0], runtime.fastGetClass("Mutex"));
}
Mutex mutex = (Mutex)args[0];
Double timeout = null;
if ( args.length > 1 && !args[1].isNil() ) {
timeout = args[1].convertToFloat().getDoubleValue();
if (timeout < 0) {
throw runtime.newArgumentError("time interval must be positive");
}
}
if (Thread.interrupted()) {
throw runtime.newConcurrencyError("thread interrupted");
}
boolean success = false;
try {
synchronized (this) {
mutex.unlock(context);
try {
success = context.getThread().wait_timeout(this, timeout);
} catch (InterruptedException ie) {
throw runtime.newConcurrencyError(ie.getLocalizedMessage());
} finally {
// An interrupt or timeout may have caused us to miss
// a notify that we consumed, so do another notify in
// case someone else is available to pick it up.
if (!success) {
this.notify();
}
}
}
} finally {
mutex.lock(context);
}
if (timeout != null) {
return runtime.newBoolean(success);
} else {
return this;
}
}
@JRubyMethod
public synchronized IRubyObject broadcast(ThreadContext context) {
notifyAll();
return this;
}
@JRubyMethod
public synchronized IRubyObject signal(ThreadContext context) {
notify();
return this;
}
}
@JRubyClass(name="Queue")
public static class Queue extends RubyObject {
private LinkedList entries;
protected volatile int numWaiting=0;
@JRubyMethod(name = "new", rest = true, meta = true)
public static IRubyObject newInstance(ThreadContext context, IRubyObject recv, IRubyObject[] args, Block block) {
Queue result = new Queue(context.getRuntime(), (RubyClass)recv);
result.callInit(args, block);
return result;
}
public Queue(Ruby runtime, RubyClass type) {
super(runtime, type);
entries = new LinkedList();
}
public static void setup(Ruby runtime) {
RubyClass cQueue = runtime.defineClass("Queue", runtime.getObject(), new ObjectAllocator() {
public IRubyObject allocate(Ruby runtime, RubyClass klass) {
return new Queue(runtime, klass);
}
});
cQueue.setReifiedClass(Queue.class);
cQueue.defineAnnotatedMethods(Queue.class);
}
@JRubyMethod(name = "shutdown!")
public synchronized IRubyObject shutdown(ThreadContext context) {
entries = null;
notifyAll();
return context.getRuntime().getNil();
}
public synchronized void checkShutdown(ThreadContext context) {
if (entries == null) {
throw new RaiseException(context.getRuntime(), context.getRuntime().getThreadError(), "queue shut down", false);
}
}
@JRubyMethod
public synchronized IRubyObject clear(ThreadContext context) {
checkShutdown(context);
entries.clear();
return context.getRuntime().getNil();
}
@JRubyMethod(name = "empty?")
public synchronized RubyBoolean empty_p(ThreadContext context) {
checkShutdown(context);
return context.getRuntime().newBoolean(entries.size() == 0);
}
@JRubyMethod(name = {"length", "size"})
public synchronized RubyNumeric length(ThreadContext context) {
checkShutdown(context);
return RubyNumeric.int2fix(context.getRuntime(), entries.size());
}
protected synchronized long java_length() {
return entries.size();
}
@JRubyMethod
public RubyNumeric num_waiting(ThreadContext context) { return context.getRuntime().newFixnum(numWaiting); }
@JRubyMethod(name = {"pop", "deq", "shift"}, optional = 1)
public synchronized IRubyObject pop(ThreadContext context, IRubyObject[] args) {
checkShutdown(context);
boolean should_block = true;
if ( Arity.checkArgumentCount(context.getRuntime(), args, 0, 1) == 1 ) {
should_block = !args[0].isTrue();
}
if ( !should_block && entries.size() == 0 ) {
throw new RaiseException(context.getRuntime(), context.getRuntime().getThreadError(), "queue empty", false);
}
numWaiting++;
try {
while ( java_length() == 0 ) {
try {
context.getThread().wait_timeout(this, null);
} catch (InterruptedException e) {
}
checkShutdown(context);
}
} finally {
numWaiting--;
}
return (IRubyObject)entries.removeFirst();
}
@JRubyMethod(name = {"push", "<<", "enq"})
public synchronized IRubyObject push(ThreadContext context, IRubyObject value) {
checkShutdown(context);
entries.addLast(value);
notify();
return context.getRuntime().getNil();
}
}
@JRubyClass(name="SizedQueue", parent="Queue")
public static class SizedQueue extends Queue {
private int capacity;
@JRubyMethod(name = "new", rest = true, meta = true)
public static IRubyObject newInstance(ThreadContext context, IRubyObject recv, IRubyObject[] args, Block block) {
SizedQueue result = new SizedQueue(context.getRuntime(), (RubyClass)recv);
result.callInit(args, block);
return result;
}
public SizedQueue(Ruby runtime, RubyClass type) {
super(runtime, type);
capacity = 1;
}
public static void setup(Ruby runtime) {
RubyClass cSizedQueue = runtime.defineClass("SizedQueue", runtime.fastGetClass("Queue"), new ObjectAllocator() {
public IRubyObject allocate(Ruby runtime, RubyClass klass) {
return new SizedQueue(runtime, klass);
}
});
cSizedQueue.setReifiedClass(SizedQueue.class);
cSizedQueue.defineAnnotatedMethods(SizedQueue.class);
}
@JRubyMethod
@Override
public synchronized IRubyObject clear(ThreadContext context) {
super.clear(context);
notifyAll();
return context.getRuntime().getNil();
}
@JRubyMethod
public synchronized RubyNumeric max(ThreadContext context) {
return RubyNumeric.int2fix(context.getRuntime(), capacity);
}
@JRubyMethod(name = {"max=", "initialize"})
public synchronized IRubyObject max_set(ThreadContext context, IRubyObject arg) {
int new_capacity = RubyNumeric.fix2int(arg);
if ( new_capacity <= 0 ) {
context.getRuntime().newArgumentError("queue size must be positive");
}
int difference;
if ( new_capacity > capacity ) {
difference = new_capacity - capacity;
} else {
difference = 0;
}
capacity = new_capacity;
if ( difference > 0 ) {
notifyAll();
}
return context.getRuntime().getNil();
}
@JRubyMethod(name = {"pop", "deq", "shift"}, optional = 1)
@Override
public synchronized IRubyObject pop(ThreadContext context, IRubyObject args[]) {
IRubyObject result = super.pop(context, args);
notifyAll();
return result;
}
@JRubyMethod(name = {"push", "<<"})
@Override
public synchronized IRubyObject push(ThreadContext context, IRubyObject value) {
checkShutdown(context);
if ( java_length() >= capacity ) {
numWaiting++;
try {
while ( java_length() >= capacity ) {
try {
context.getThread().wait_timeout(this, null);
} catch (InterruptedException e) {
}
checkShutdown(context);
}
} finally {
numWaiting--;
}
}
super.push(context, value);
notifyAll();
return context.getRuntime().getNil();
}
}
}
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