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/*******************************************************************************
* Copyright (c) 2007-2012 LuaJ. All rights reserved.
*
* Permission is hereby granted, free of charge, to any person obtaining a copy
* of this software and associated documentation files (the "Software"), to deal
* in the Software without restriction, including without limitation the rights
* to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
* copies of the Software, and to permit persons to whom the Software is
* furnished to do so, subject to the following conditions:
*
* The above copyright notice and this permission notice shall be included in
* all copies or substantial portions of the Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
* AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
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* THE SOFTWARE.
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package org.luaj.vm2;
import java.lang.ref.WeakReference;
/**
* Subclass of {@link LuaValue} that implements
* a lua coroutine thread using Java Threads.
*
* A LuaThread is typically created in response to a scripted call to
* {@code coroutine.create()}
*
* The threads must be initialized with the globals, so that
* the global environment may be passed along according to rules of lua.
* This is done via a call to {@link #setGlobals(LuaValue)}
* at some point during globals initialization.
* See {@link BaseLib} for additional documentation and example code.
*
* The utility classes {@link JsePlatform} and {@link JmePlatform}
* see to it that this initialization is done properly.
* For this reason it is highly recommended to use one of these classes
* when initializing globals.
*
* The behavior of coroutine threads matches closely the behavior
* of C coroutine library. However, because of the use of Java threads
* to manage call state, it is possible to yield from anywhere in luaj.
*
* Each Java thread wakes up at regular intervals and checks a weak reference
* to determine if it can ever be resumed. If not, it throws
* {@link OrphanedThread} which is an {@link java.lang.Error}.
* Applications should not catch {@link OrphanedThread}, because it can break
* the thread safety of luaj.
*
* @see LuaValue
* @see JsePlatform
* @see JmePlatform
* @see CoroutineLib
*/
public class LuaThread extends LuaValue {
public static LuaValue s_metatable;
public static int coroutine_count = 0;
/** Interval at which to check for lua threads that are no longer referenced.
* This can be changed by Java startup code if desired.
*/
static long thread_orphan_check_interval = 30000;
public static final int STATUS_INITIAL = 0;
public static final int STATUS_SUSPENDED = 1;
public static final int STATUS_RUNNING = 2;
public static final int STATUS_NORMAL = 3;
public static final int STATUS_DEAD = 4;
public static final String[] STATUS_NAMES = {
"suspended",
"suspended",
"running",
"normal",
"dead",};
public final State state;
public static final int MAX_CALLSTACK = 256;
/** Interval to check for LuaThread dereferencing. */
public static int GC_INTERVAL = 30000;
/** Thread-local used by DebugLib to store debugging state.
* This is ano opaque value that should not be modified by applications. */
public Object callstack;
public final Globals globals;
/** Hook function control state used by debug lib. */
public LuaValue hookfunc;
/** Error message handler for this thread, if any. */
public LuaValue errorfunc;
public boolean hookline;
public boolean hookcall;
public boolean hookrtrn;
public int hookcount;
public boolean inhook;
public int lastline;
public int bytecodes;
/** Private constructor for main thread only */
public LuaThread(Globals globals) {
state = new State(globals, this, null);
state.status = STATUS_RUNNING;
this.globals = globals;
}
/**
* Create a LuaThread around a function and environment
* @param func The function to execute
*/
public LuaThread(Globals globals, LuaValue func) {
LuaValue.assert_(func != null, "function cannot be null");
state = new State(globals, this, func);
this.globals = globals;
}
public int type() {
return LuaValue.TTHREAD;
}
public String typename() {
return "thread";
}
public boolean isthread() {
return true;
}
public LuaThread optthread(LuaThread defval) {
return this;
}
public LuaThread checkthread() {
return this;
}
public LuaValue getmetatable() {
return s_metatable;
}
public String getStatus() {
return STATUS_NAMES[state.status];
}
public boolean isMainThread() {
return this.state.function == null;
}
public Varargs resume(Varargs args) {
final LuaThread.State s = this.state;
if (s.status > LuaThread.STATUS_SUSPENDED)
return LuaValue.varargsOf(LuaValue.FALSE,
LuaValue.valueOf("cannot resume "+(s.status==LuaThread.STATUS_DEAD? "dead": "non-suspended")+" coroutine"));
return s.lua_resume(this, args);
}
public static class State implements Runnable {
private final Globals globals;
final WeakReference lua_thread;
public final LuaValue function;
Varargs args = LuaValue.NONE;
Varargs result = LuaValue.NONE;
String error = null;
public int status = LuaThread.STATUS_INITIAL;
State(Globals globals, LuaThread lua_thread, LuaValue function) {
this.globals = globals;
this.lua_thread = new WeakReference(lua_thread);
this.function = function;
}
public synchronized void run() {
try {
Varargs a = this.args;
this.args = LuaValue.NONE;
this.result = function.invoke(a);
} catch (Throwable t) {
this.error = t.getMessage();
} finally {
this.status = LuaThread.STATUS_DEAD;
this.notify();
}
}
public synchronized Varargs lua_resume(LuaThread new_thread, Varargs args) {
LuaThread previous_thread = globals.running;
try {
globals.running = new_thread;
this.args = args;
if (this.status == STATUS_INITIAL) {
this.status = STATUS_RUNNING;
new Thread(this, "Coroutine-"+(++coroutine_count)).start();
} else {
this.notify();
}
if (previous_thread != null)
previous_thread.state.status = STATUS_NORMAL;
this.status = STATUS_RUNNING;
this.wait();
return (this.error != null?
LuaValue.varargsOf(LuaValue.FALSE, LuaValue.valueOf(this.error)):
LuaValue.varargsOf(LuaValue.TRUE, this.result));
} catch (InterruptedException ie) {
throw new OrphanedThread();
} finally {
this.args = LuaValue.NONE;
this.result = LuaValue.NONE;
this.error = null;
globals.running = previous_thread;
if (previous_thread != null)
globals.running.state.status =STATUS_RUNNING;
}
}
public synchronized Varargs lua_yield(Varargs args) {
try {
this.result = args;
this.status = STATUS_SUSPENDED;
this.notify();
do {
this.wait(thread_orphan_check_interval);
if (this.lua_thread.get() == null) {
this.status = STATUS_DEAD;
throw new OrphanedThread();
}
} while (this.status == STATUS_SUSPENDED);
return this.args;
} catch (InterruptedException ie) {
this.status = STATUS_DEAD;
throw new OrphanedThread();
} finally {
this.args = LuaValue.NONE;
this.result = LuaValue.NONE;
}
}
}
}