mirror of git://gcc.gnu.org/git/gcc.git
276 lines
10 KiB
Java
276 lines
10 KiB
Java
/*
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* Written by Doug Lea with assistance from members of JCP JSR-166
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* Expert Group and released to the public domain, as explained at
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* http://creativecommons.org/licenses/publicdomain
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*/
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package java.util.concurrent.atomic;
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import sun.misc.Unsafe;
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import java.lang.reflect.*;
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/**
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* A reflection-based utility that enables atomic updates to
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* designated <tt>volatile</tt> reference fields of designated
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* classes. This class is designed for use in atomic data structures
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* in which several reference fields of the same node are
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* independently subject to atomic updates. For example, a tree node
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* might be declared as
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*
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* <pre>
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* class Node {
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* private volatile Node left, right;
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*
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* private static final AtomicReferenceFieldUpdater<Node, Node> leftUpdater =
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* AtomicReferenceFieldUpdater.newUpdater(Node.class, Node.class, "left");
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* private static AtomicReferenceFieldUpdater<Node, Node> rightUpdater =
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* AtomicReferenceFieldUpdater.newUpdater(Node.class, Node.class, "right");
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*
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* Node getLeft() { return left; }
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* boolean compareAndSetLeft(Node expect, Node update) {
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* return leftUpdater.compareAndSet(this, expect, update);
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* }
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* // ... and so on
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* }
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* </pre>
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*
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* <p>Note that the guarantees of the {@code compareAndSet}
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* method in this class are weaker than in other atomic classes.
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* Because this class cannot ensure that all uses of the field
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* are appropriate for purposes of atomic access, it can
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* guarantee atomicity only with respect to other invocations of
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* {@code compareAndSet} and {@code set} on the same updater.
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*
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* @since 1.5
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* @author Doug Lea
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* @param <T> The type of the object holding the updatable field
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* @param <V> The type of the field
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*/
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public abstract class AtomicReferenceFieldUpdater<T, V> {
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/**
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* Creates and returns an updater for objects with the given field.
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* The Class arguments are needed to check that reflective types and
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* generic types match.
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*
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* @param tclass the class of the objects holding the field.
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* @param vclass the class of the field
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* @param fieldName the name of the field to be updated.
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* @return the updater
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* @throws IllegalArgumentException if the field is not a volatile reference type.
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* @throws RuntimeException with a nested reflection-based
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* exception if the class does not hold field or is the wrong type.
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*/
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public static <U, W> AtomicReferenceFieldUpdater<U,W> newUpdater(Class<U> tclass, Class<W> vclass, String fieldName) {
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return new AtomicReferenceFieldUpdaterImpl<U,W>(tclass,
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vclass,
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fieldName);
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}
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/**
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* Protected do-nothing constructor for use by subclasses.
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*/
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protected AtomicReferenceFieldUpdater() {
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}
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/**
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* Atomically sets the field of the given object managed by this updater
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* to the given updated value if the current value <tt>==</tt> the
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* expected value. This method is guaranteed to be atomic with respect to
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* other calls to <tt>compareAndSet</tt> and <tt>set</tt>, but not
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* necessarily with respect to other changes in the field.
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*
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* @param obj An object whose field to conditionally set
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* @param expect the expected value
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* @param update the new value
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* @return true if successful.
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*/
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public abstract boolean compareAndSet(T obj, V expect, V update);
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/**
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* Atomically sets the field of the given object managed by this updater
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* to the given updated value if the current value <tt>==</tt> the
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* expected value. This method is guaranteed to be atomic with respect to
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* other calls to <tt>compareAndSet</tt> and <tt>set</tt>, but not
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* necessarily with respect to other changes in the field.
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* May fail spuriously and does not provide ordering guarantees,
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* so is only rarely an appropriate alternative to <tt>compareAndSet</tt>.
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*
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* @param obj An object whose field to conditionally set
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* @param expect the expected value
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* @param update the new value
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* @return true if successful.
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*/
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public abstract boolean weakCompareAndSet(T obj, V expect, V update);
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/**
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* Sets the field of the given object managed by this updater to the
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* given updated value. This operation is guaranteed to act as a volatile
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* store with respect to subsequent invocations of
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* <tt>compareAndSet</tt>.
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*
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* @param obj An object whose field to set
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* @param newValue the new value
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*/
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public abstract void set(T obj, V newValue);
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/**
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* Eventually sets the field of the given object managed by this
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* updater to the given updated value.
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*
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* @param obj An object whose field to set
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* @param newValue the new value
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* @since 1.6
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*/
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public abstract void lazySet(T obj, V newValue);
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/**
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* Gets the current value held in the field of the given object managed
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* by this updater.
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*
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* @param obj An object whose field to get
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* @return the current value
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*/
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public abstract V get(T obj);
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/**
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* Atomically sets the field of the given object managed by this updater
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* to the given value and returns the old value.
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*
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* @param obj An object whose field to get and set
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* @param newValue the new value
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* @return the previous value
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*/
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public V getAndSet(T obj, V newValue) {
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for (;;) {
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V current = get(obj);
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if (compareAndSet(obj, current, newValue))
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return current;
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}
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}
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private static final class AtomicReferenceFieldUpdaterImpl<T,V>
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extends AtomicReferenceFieldUpdater<T,V> {
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private static final Unsafe unsafe = Unsafe.getUnsafe();
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private final long offset;
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private final Class<T> tclass;
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private final Class<V> vclass;
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private final Class cclass;
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/*
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* Internal type checks within all update methods contain
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* internal inlined optimizations checking for the common
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* cases where the class is final (in which case a simple
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* getClass comparison suffices) or is of type Object (in
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* which case no check is needed because all objects are
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* instances of Object). The Object case is handled simply by
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* setting vclass to null in constructor. The targetCheck and
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* updateCheck methods are invoked when these faster
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* screenings fail.
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*/
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AtomicReferenceFieldUpdaterImpl(Class<T> tclass,
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Class<V> vclass,
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String fieldName) {
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Field field = null;
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Class fieldClass = null;
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Class caller = null;
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int modifiers = 0;
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try {
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field = tclass.getDeclaredField(fieldName);
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caller = sun.reflect.Reflection.getCallerClass(3);
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modifiers = field.getModifiers();
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sun.reflect.misc.ReflectUtil.ensureMemberAccess(
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caller, tclass, null, modifiers);
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sun.reflect.misc.ReflectUtil.checkPackageAccess(tclass);
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fieldClass = field.getType();
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} catch (Exception ex) {
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throw new RuntimeException(ex);
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}
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if (vclass != fieldClass)
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throw new ClassCastException();
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if (!Modifier.isVolatile(modifiers))
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throw new IllegalArgumentException("Must be volatile type");
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this.cclass = (Modifier.isProtected(modifiers) &&
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caller != tclass) ? caller : null;
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this.tclass = tclass;
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if (vclass == Object.class)
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this.vclass = null;
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else
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this.vclass = vclass;
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offset = unsafe.objectFieldOffset(field);
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}
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void targetCheck(T obj) {
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if (!tclass.isInstance(obj))
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throw new ClassCastException();
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if (cclass != null)
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ensureProtectedAccess(obj);
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}
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void updateCheck(T obj, V update) {
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if (!tclass.isInstance(obj) ||
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(update != null && vclass != null && !vclass.isInstance(update)))
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throw new ClassCastException();
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if (cclass != null)
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ensureProtectedAccess(obj);
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}
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public boolean compareAndSet(T obj, V expect, V update) {
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if (obj == null || obj.getClass() != tclass || cclass != null ||
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(update != null && vclass != null &&
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vclass != update.getClass()))
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updateCheck(obj, update);
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return unsafe.compareAndSwapObject(obj, offset, expect, update);
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}
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public boolean weakCompareAndSet(T obj, V expect, V update) {
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// same implementation as strong form for now
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if (obj == null || obj.getClass() != tclass || cclass != null ||
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(update != null && vclass != null &&
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vclass != update.getClass()))
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updateCheck(obj, update);
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return unsafe.compareAndSwapObject(obj, offset, expect, update);
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}
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public void set(T obj, V newValue) {
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if (obj == null || obj.getClass() != tclass || cclass != null ||
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(newValue != null && vclass != null &&
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vclass != newValue.getClass()))
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updateCheck(obj, newValue);
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unsafe.putObjectVolatile(obj, offset, newValue);
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}
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public void lazySet(T obj, V newValue) {
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if (obj == null || obj.getClass() != tclass || cclass != null ||
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(newValue != null && vclass != null &&
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vclass != newValue.getClass()))
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updateCheck(obj, newValue);
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unsafe.putOrderedObject(obj, offset, newValue);
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}
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public V get(T obj) {
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if (obj == null || obj.getClass() != tclass || cclass != null)
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targetCheck(obj);
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return (V)unsafe.getObjectVolatile(obj, offset);
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}
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private void ensureProtectedAccess(T obj) {
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if (cclass.isInstance(obj)) {
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return;
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}
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throw new RuntimeException (
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new IllegalAccessException("Class " +
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cclass.getName() +
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" can not access a protected member of class " +
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tclass.getName() +
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" using an instance of " +
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obj.getClass().getName()
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)
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);
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}
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}
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}
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