gcc/libjava/java/lang/natObject.cc
Tom Tromey ee9dd3721b Initial revision
From-SVN: r26263
1999-04-07 14:42:40 +00:00

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// natObject.cc - Implementation of the Object class.
/* Copyright (C) 1998, 1999 Cygnus Solutions
This file is part of libgcj.
This software is copyrighted work licensed under the terms of the
Libgcj License. Please consult the file "LIBGCJ_LICENSE" for
details. */
#include <config.h>
#include <string.h>
#pragma implementation "Object.h"
#include <cni.h>
#include <jvm.h>
#include <java/lang/Object.h>
#include <java-threads.h>
#include <java/lang/CloneNotSupportedException.h>
#include <java/lang/IllegalArgumentException.h>
#include <java/lang/IllegalMonitorStateException.h>
#include <java/lang/InterruptedException.h>
#include <java/lang/NullPointerException.h>
#include <java/lang/Class.h>
#include <java/lang/Cloneable.h>
#include <java/lang/Thread.h>
#define CloneableClass _CL_Q34java4lang9Cloneable
extern java::lang::Class CloneableClass;
// This is used to represent synchronization information.
struct _Jv_SyncInfo
{
#if defined (_Jv_HaveCondDestroy) || defined (_Jv_HaveMutexDestroy)
// We only need to keep track of initialization state if we can
// possibly finalize this object.
bool init;
#endif
_Jv_ConditionVariable_t condition;
_Jv_Mutex_t mutex;
};
jclass
java::lang::Object::getClass (void)
{
_Jv_VTable **dt = (_Jv_VTable **) this;
return (*dt)->clas;
}
jint
java::lang::Object::hashCode (void)
{
return _Jv_HashCode (this);
}
jobject
java::lang::Object::clone (void)
{
jclass klass = getClass ();
jobject r;
jint size;
// We also clone arrays here. If we put the array code into
// __JArray, then we'd have to figure out a way to find the array
// vtbl when creating a new array class. This is easier, if uglier.
if (klass->isArray())
{
__JArray *array = (__JArray *) this;
jclass comp = getClass()->getComponentType();
jint eltsize;
if (comp->isPrimitive())
{
r = _Jv_NewPrimArray (comp, array->length);
eltsize = comp->size();
}
else
{
r = _Jv_NewObjectArray (array->length, comp, NULL);
eltsize = sizeof (jobject);
}
size = sizeof (__JArray) + array->length * eltsize;
}
else
{
if (! CloneableClass.isAssignableFrom(klass))
JvThrow (new CloneNotSupportedException);
size = klass->size();
r = JvAllocObject (klass, size);
}
memcpy ((void *) r, (void *) this, size);
return r;
}
//
// Synchronization code.
//
// This global is used to make sure that only one thread sets an
// object's `sync_info' field.
static _Jv_Mutex_t sync_mutex;
// This macro is used to see if synchronization initialization is
// needed.
#if defined (_Jv_HaveCondDestroy) || defined (_Jv_HaveMutexDestroy)
# define INIT_NEEDED(Obj) (! (Obj)->sync_info \
|| ! ((_Jv_SyncInfo *) ((Obj)->sync_info))->init)
#else
# define INIT_NEEDED(Obj) (! (Obj)->sync_info)
#endif
#if defined (_Jv_HaveCondDestroy) || defined (_Jv_HaveMutexDestroy)
// If we have to run a destructor for a sync_info member, then this
// function is registered as a finalizer for the sync_info.
static void
finalize_sync_info (jobject obj)
{
_Jv_SyncInfo *si = (_Jv_SyncInfo *) obj;
#if defined (_Jv_HaveCondDestroy)
_Jv_CondDestroy (&si->condition);
#endif
#if defined (_Jv_HaveMutexDestroy)
_Jv_MutexDestroy (&si->mutex);
#endif
si->init = false;
}
#endif
// This is called to initialize the sync_info element of an object.
void
java::lang::Object::sync_init (void)
{
_Jv_MutexLock (&sync_mutex);
// Check again to see if initialization is needed now that we have
// the lock.
if (INIT_NEEDED (this))
{
// We assume there are no pointers in the sync_info
// representation.
_Jv_SyncInfo *si;
// We always create a new sync_info, even if there is already
// one available. Any given object can only be finalized once.
// If we get here and sync_info is not null, then it has already
// been finalized. So if we just reinitialize the old one,
// we'll never be able to (re-)destroy the mutex and/or
// condition variable.
si = (_Jv_SyncInfo *) _Jv_AllocBytes (sizeof (_Jv_SyncInfo));
// FIXME: what if si == NULL?
_Jv_MutexInit (&si->mutex);
_Jv_CondInit (&si->condition);
#if defined (_Jv_HaveCondDestroy) || defined (_Jv_HaveMutexDestroy)
// Register a finalizer.
si->init = true;
_Jv_RegisterFinalizer (si, finalize_sync_info);
#endif
sync_info = (jobject) si;
}
_Jv_MutexUnlock (&sync_mutex);
}
void
java::lang::Object::notify (void)
{
if (INIT_NEEDED (this))
sync_init ();
_Jv_SyncInfo *si = (_Jv_SyncInfo *) sync_info;
if (_Jv_CondNotify (&si->condition, &si->mutex))
JvThrow (new IllegalMonitorStateException);
}
void
java::lang::Object::notifyAll (void)
{
if (INIT_NEEDED (this))
sync_init ();
_Jv_SyncInfo *si = (_Jv_SyncInfo *) sync_info;
if (_Jv_CondNotifyAll (&si->condition, &si->mutex))
JvThrow (new IllegalMonitorStateException);
}
void
java::lang::Object::wait (jlong timeout, jint nanos)
{
if (INIT_NEEDED (this))
sync_init ();
if (timeout < 0 || nanos < 0 || nanos > 999999)
JvThrow (new IllegalArgumentException);
_Jv_SyncInfo *si = (_Jv_SyncInfo *) sync_info;
if (_Jv_CondWait (&si->condition, &si->mutex, timeout, nanos))
JvThrow (new IllegalMonitorStateException);
if (Thread::interrupted())
JvThrow (new InterruptedException);
}
//
// Some runtime code.
//
// This function is called at system startup to initialize the
// `sync_mutex'.
void
_Jv_InitializeSyncMutex (void)
{
_Jv_MutexInit (&sync_mutex);
}
jint
_Jv_MonitorEnter (jobject obj)
{
if (! obj)
JvThrow (new java::lang::NullPointerException);
if (INIT_NEEDED (obj))
obj->sync_init ();
_Jv_SyncInfo *si = (_Jv_SyncInfo *) obj->sync_info;
return _Jv_MutexLock (&si->mutex);
}
jint
_Jv_MonitorExit (jobject obj)
{
JvAssert (obj);
JvAssert (! INIT_NEEDED (obj));
_Jv_SyncInfo *si = (_Jv_SyncInfo *) obj->sync_info;
if (_Jv_MutexUnlock (&si->mutex))
JvThrow (new java::lang::IllegalMonitorStateException);
return 0;
}
void
_Jv_FinalizeObject (jobject obj)
{
java::lang::Object::hack12_6(obj);
}