sdk/sources/android-23/java/util/concurrent/atomic/AtomicIntegerFieldUpdater.java - android_tools - Git at Google

 /*
  * Written by Doug Lea with assistance from members of JCP JSR-166
  * Expert Group and released to the public domain, as explained at
  * http://creativecommons.org/publicdomain/zero/1.0/
  */

 package java.util.concurrent.atomic;

 import dalvik.system.VMStack; // android-added
 import sun.misc.Unsafe;
 import java.lang.reflect.Field;
 import java.lang.reflect.Modifier;
 import java.security.AccessController;
 import java.security.PrivilegedExceptionAction;
 import java.security.PrivilegedActionException;

 /**
  * A reflection-based utility that enables atomic updates to
  * designated {@code volatile int} fields of designated classes.
  * This class is designed for use in atomic data structures in which
  * several fields of the same node are independently subject to atomic
  * updates.
  *
  * <p>Note that the guarantees of the {@code compareAndSet}
  * method in this class are weaker than in other atomic classes.
  * Because this class cannot ensure that all uses of the field
  * are appropriate for purposes of atomic access, it can
  * guarantee atomicity only with respect to other invocations of
  * {@code compareAndSet} and {@code set} on the same updater.
  *
  * @since 1.5
  * @author Doug Lea
  * @param <T> The type of the object holding the updatable field
  */
 public abstract class AtomicIntegerFieldUpdater<T> {
     /**
      * Creates and returns an updater for objects with the given field.
      * The Class argument is needed to check that reflective types and
      * generic types match.
      *
      * @param tclass the class of the objects holding the field
      * @param fieldName the name of the field to be updated
      * @return the updater
      * @throws IllegalArgumentException if the field is not a
      * volatile integer type
      * @throws RuntimeException with a nested reflection-based
      * exception if the class does not hold field or is the wrong type,
      * or the field is inaccessible to the caller according to Java language
      * access control
      */
     public static <U> AtomicIntegerFieldUpdater<U> newUpdater(Class<U> tclass, String fieldName) {
         return new AtomicIntegerFieldUpdaterImpl<U>(tclass, fieldName);
     }

     /**
      * Protected do-nothing constructor for use by subclasses.
      */
     protected AtomicIntegerFieldUpdater() {
     }

     /**
      * Atomically sets the field of the given object managed by this updater
      * to the given updated value if the current value {@code ==} the
      * expected value. This method is guaranteed to be atomic with respect to
      * other calls to {@code compareAndSet} and {@code set}, but not
      * necessarily with respect to other changes in the field.
      *
      * @param obj An object whose field to conditionally set
      * @param expect the expected value
      * @param update the new value
      * @return true if successful
      * @throws ClassCastException if {@code obj} is not an instance
      * of the class possessing the field established in the constructor
      */
     public abstract boolean compareAndSet(T obj, int expect, int update);

     /**
      * Atomically sets the field of the given object managed by this updater
      * to the given updated value if the current value {@code ==} the
      * expected value. This method is guaranteed to be atomic with respect to
      * other calls to {@code compareAndSet} and {@code set}, but not
      * necessarily with respect to other changes in the field.
      *
      * <p><a href="package-summary.html#weakCompareAndSet">May fail
      * spuriously and does not provide ordering guarantees</a>, so is
      * only rarely an appropriate alternative to {@code compareAndSet}.
      *
      * @param obj An object whose field to conditionally set
      * @param expect the expected value
      * @param update the new value
      * @return true if successful
      * @throws ClassCastException if {@code obj} is not an instance
      * of the class possessing the field established in the constructor
      */
     public abstract boolean weakCompareAndSet(T obj, int expect, int update);

     /**
      * Sets the field of the given object managed by this updater to the
      * given updated value. This operation is guaranteed to act as a volatile
      * store with respect to subsequent invocations of {@code compareAndSet}.
      *
      * @param obj An object whose field to set
      * @param newValue the new value
      */
     public abstract void set(T obj, int newValue);

     /**
      * Eventually sets the field of the given object managed by this
      * updater to the given updated value.
      *
      * @param obj An object whose field to set
      * @param newValue the new value
      * @since 1.6
      */
     public abstract void lazySet(T obj, int newValue);

     /**
      * Gets the current value held in the field of the given object managed
      * by this updater.
      *
      * @param obj An object whose field to get
      * @return the current value
      */
     public abstract int get(T obj);

     /**
      * Atomically sets the field of the given object managed by this updater
      * to the given value and returns the old value.
      *
      * @param obj An object whose field to get and set
      * @param newValue the new value
      * @return the previous value
      */
     public int getAndSet(T obj, int newValue) {
         for (;;) {
             int current = get(obj);
             if (compareAndSet(obj, current, newValue))
                 return current;
         }
     }

     /**
      * Atomically increments by one the current value of the field of the
      * given object managed by this updater.
      *
      * @param obj An object whose field to get and set
      * @return the previous value
      */
     public int getAndIncrement(T obj) {
         for (;;) {
             int current = get(obj);
             int next = current + 1;
             if (compareAndSet(obj, current, next))
                 return current;
         }
     }

     /**
      * Atomically decrements by one the current value of the field of the
      * given object managed by this updater.
      *
      * @param obj An object whose field to get and set
      * @return the previous value
      */
     public int getAndDecrement(T obj) {
         for (;;) {
             int current = get(obj);
             int next = current - 1;
             if (compareAndSet(obj, current, next))
                 return current;
         }
     }

     /**
      * Atomically adds the given value to the current value of the field of
      * the given object managed by this updater.
      *
      * @param obj An object whose field to get and set
      * @param delta the value to add
      * @return the previous value
      */
     public int getAndAdd(T obj, int delta) {
         for (;;) {
             int current = get(obj);
             int next = current + delta;
             if (compareAndSet(obj, current, next))
                 return current;
         }
     }

     /**
      * Atomically increments by one the current value of the field of the
      * given object managed by this updater.
      *
      * @param obj An object whose field to get and set
      * @return the updated value
      */
     public int incrementAndGet(T obj) {
         for (;;) {
             int current = get(obj);
             int next = current + 1;
             if (compareAndSet(obj, current, next))
                 return next;
         }
     }

     /**
      * Atomically decrements by one the current value of the field of the
      * given object managed by this updater.
      *
      * @param obj An object whose field to get and set
      * @return the updated value
      */
     public int decrementAndGet(T obj) {
         for (;;) {
             int current = get(obj);
             int next = current - 1;
             if (compareAndSet(obj, current, next))
                 return next;
         }
     }

     /**
      * Atomically adds the given value to the current value of the field of
      * the given object managed by this updater.
      *
      * @param obj An object whose field to get and set
      * @param delta the value to add
      * @return the updated value
      */
     public int addAndGet(T obj, int delta) {
         for (;;) {
             int current = get(obj);
             int next = current + delta;
             if (compareAndSet(obj, current, next))
                 return next;
         }
     }

     /**
      * Standard hotspot implementation using intrinsics
      */
     private static class AtomicIntegerFieldUpdaterImpl<T> extends AtomicIntegerFieldUpdater<T> {
         private static final Unsafe unsafe = Unsafe.getUnsafe();
         private final long offset;
         private final Class<T> tclass;
         private final Class<?> cclass;

         AtomicIntegerFieldUpdaterImpl(final Class<T> tclass, final String fieldName) {
             final Field field;
             final Class<?> caller;
             final int modifiers;
             try {
                 field = tclass.getDeclaredField(fieldName); // android-changed
                 caller = VMStack.getStackClass2(); // android-changed

                 modifiers = field.getModifiers();
                 // BEGIN android-removed
                 // sun.reflect.misc.ReflectUtil.ensureMemberAccess(
                 //     caller, tclass, null, modifiers);
                 // ClassLoader cl = tclass.getClassLoader();
                 // ClassLoader ccl = caller.getClassLoader();
                 // if ((ccl != null) && (ccl != cl) &&
                 //     ((cl == null) || !isAncestor(cl, ccl))) {
                 //   sun.reflect.misc.ReflectUtil.checkPackageAccess(tclass);
                 // }
                 // END android-removed
             // BEGIN android-removed
             // } catch (PrivilegedActionException pae) {
             //     throw new RuntimeException(pae.getException());
             // END android-removed
             } catch (Exception ex) {
                 throw new RuntimeException(ex);
             }

             Class<?> fieldt = field.getType();
             if (fieldt != int.class)
                 throw new IllegalArgumentException("Must be integer type");

             if (!Modifier.isVolatile(modifiers))
                 throw new IllegalArgumentException("Must be volatile type");

             this.cclass = (Modifier.isProtected(modifiers) &&
                            caller != tclass) ? caller : null;
             this.tclass = tclass;
             offset = unsafe.objectFieldOffset(field);
         }

         // BEGIN android-removed
         // /**
         //  * Returns true if the second classloader can be found in the first
         //  * classloader's delegation chain.
         //  * Equivalent to the inaccessible: first.isAncestor(second).
         //  */
         //  private static boolean isAncestor(ClassLoader first, ClassLoader second) {
         //     ClassLoader acl = first;
         //     do {
         //         acl = acl.getParent();
         //         if (second == acl) {
         //             return true;
         //         }
         //     } while (acl != null);
         //     return false;
         // }
         // END android-removed
         private void fullCheck(T obj) {
             if (!tclass.isInstance(obj))
                 throw new ClassCastException();
             if (cclass != null)
                 ensureProtectedAccess(obj);
         }

         public boolean compareAndSet(T obj, int expect, int update) {
             if (obj == null || obj.getClass() != tclass || cclass != null) fullCheck(obj);
             return unsafe.compareAndSwapInt(obj, offset, expect, update);
         }

         public boolean weakCompareAndSet(T obj, int expect, int update) {
             if (obj == null || obj.getClass() != tclass || cclass != null) fullCheck(obj);
             return unsafe.compareAndSwapInt(obj, offset, expect, update);
         }

         public void set(T obj, int newValue) {
             if (obj == null || obj.getClass() != tclass || cclass != null) fullCheck(obj);
             unsafe.putIntVolatile(obj, offset, newValue);
         }

         public void lazySet(T obj, int newValue) {
             if (obj == null || obj.getClass() != tclass || cclass != null) fullCheck(obj);
             unsafe.putOrderedInt(obj, offset, newValue);
         }

         public final int get(T obj) {
             if (obj == null || obj.getClass() != tclass || cclass != null) fullCheck(obj);
             return unsafe.getIntVolatile(obj, offset);
         }

         private void ensureProtectedAccess(T obj) {
             if (cclass.isInstance(obj)) {
                 return;
             }
             throw new RuntimeException(
                 new IllegalAccessException("Class " +
                     cclass.getName() +
                     " can not access a protected member of class " +
                     tclass.getName() +
                     " using an instance of " +
                     obj.getClass().getName()
                 )
             );
         }
     }
 }
	/*
	* Written by Doug Lea with assistance from members of JCP JSR-166
	* Expert Group and released to the public domain, as explained at
	* http://creativecommons.org/publicdomain/zero/1.0/
	*/

	package java.util.concurrent.atomic;

	import dalvik.system.VMStack; // android-added
	import sun.misc.Unsafe;
	import java.lang.reflect.Field;
	import java.lang.reflect.Modifier;
	import java.security.AccessController;
	import java.security.PrivilegedExceptionAction;
	import java.security.PrivilegedActionException;

	/**
	* A reflection-based utility that enables atomic updates to
	* designated {@code volatile int} fields of designated classes.
	* This class is designed for use in atomic data structures in which
	* several fields of the same node are independently subject to atomic
	* updates.
	*
	* <p>Note that the guarantees of the {@code compareAndSet}
	* method in this class are weaker than in other atomic classes.
	* Because this class cannot ensure that all uses of the field
	* are appropriate for purposes of atomic access, it can
	* guarantee atomicity only with respect to other invocations of
	* {@code compareAndSet} and {@code set} on the same updater.
	*
	* @since 1.5
	* @author Doug Lea
	* @param <T> The type of the object holding the updatable field
	*/
	public abstract class AtomicIntegerFieldUpdater<T> {
	/**
	* Creates and returns an updater for objects with the given field.
	* The Class argument is needed to check that reflective types and
	* generic types match.
	*
	* @param tclass the class of the objects holding the field
	* @param fieldName the name of the field to be updated
	* @return the updater
	* @throws IllegalArgumentException if the field is not a
	* volatile integer type
	* @throws RuntimeException with a nested reflection-based
	* exception if the class does not hold field or is the wrong type,
	* or the field is inaccessible to the caller according to Java language
	* access control
	*/
	public static <U> AtomicIntegerFieldUpdater<U> newUpdater(Class<U> tclass, String fieldName) {
	return new AtomicIntegerFieldUpdaterImpl<U>(tclass, fieldName);
	}

	/**
	* Protected do-nothing constructor for use by subclasses.
	*/
	protected AtomicIntegerFieldUpdater() {
	}

	/**
	* Atomically sets the field of the given object managed by this updater
	* to the given updated value if the current value {@code ==} the
	* expected value. This method is guaranteed to be atomic with respect to
	* other calls to {@code compareAndSet} and {@code set}, but not
	* necessarily with respect to other changes in the field.
	*
	* @param obj An object whose field to conditionally set
	* @param expect the expected value
	* @param update the new value
	* @return true if successful
	* @throws ClassCastException if {@code obj} is not an instance
	* of the class possessing the field established in the constructor
	*/
	public abstract boolean compareAndSet(T obj, int expect, int update);

	/**
	* Atomically sets the field of the given object managed by this updater
	* to the given updated value if the current value {@code ==} the
	* expected value. This method is guaranteed to be atomic with respect to
	* other calls to {@code compareAndSet} and {@code set}, but not
	* necessarily with respect to other changes in the field.
	*
	* <p><a href="package-summary.html#weakCompareAndSet">May fail
	* spuriously and does not provide ordering guarantees</a>, so is
	* only rarely an appropriate alternative to {@code compareAndSet}.
	*
	* @param obj An object whose field to conditionally set
	* @param expect the expected value
	* @param update the new value
	* @return true if successful
	* @throws ClassCastException if {@code obj} is not an instance
	* of the class possessing the field established in the constructor
	*/
	public abstract boolean weakCompareAndSet(T obj, int expect, int update);

	/**
	* Sets the field of the given object managed by this updater to the
	* given updated value. This operation is guaranteed to act as a volatile
	* store with respect to subsequent invocations of {@code compareAndSet}.
	*
	* @param obj An object whose field to set
	* @param newValue the new value
	*/
	public abstract void set(T obj, int newValue);

	/**
	* Eventually sets the field of the given object managed by this
	* updater to the given updated value.
	*
	* @param obj An object whose field to set
	* @param newValue the new value
	* @since 1.6
	*/
	public abstract void lazySet(T obj, int newValue);

	/**
	* Gets the current value held in the field of the given object managed
	* by this updater.
	*
	* @param obj An object whose field to get
	* @return the current value
	*/
	public abstract int get(T obj);

	/**
	* Atomically sets the field of the given object managed by this updater
	* to the given value and returns the old value.
	*
	* @param obj An object whose field to get and set
	* @param newValue the new value
	* @return the previous value
	*/
	public int getAndSet(T obj, int newValue) {
	for (;;) {
	int current = get(obj);
	if (compareAndSet(obj, current, newValue))
	return current;
	}
	}

	/**
	* Atomically increments by one the current value of the field of the
	* given object managed by this updater.
	*
	* @param obj An object whose field to get and set
	* @return the previous value
	*/
	public int getAndIncrement(T obj) {
	for (;;) {
	int current = get(obj);
	int next = current + 1;
	if (compareAndSet(obj, current, next))
	return current;
	}
	}

	/**
	* Atomically decrements by one the current value of the field of the
	* given object managed by this updater.
	*
	* @param obj An object whose field to get and set
	* @return the previous value
	*/
	public int getAndDecrement(T obj) {
	for (;;) {
	int current = get(obj);
	int next = current - 1;
	if (compareAndSet(obj, current, next))
	return current;
	}
	}

	/**
	* Atomically adds the given value to the current value of the field of
	* the given object managed by this updater.
	*
	* @param obj An object whose field to get and set
	* @param delta the value to add
	* @return the previous value
	*/
	public int getAndAdd(T obj, int delta) {
	for (;;) {
	int current = get(obj);
	int next = current + delta;
	if (compareAndSet(obj, current, next))
	return current;
	}
	}

	/**
	* Atomically increments by one the current value of the field of the
	* given object managed by this updater.
	*
	* @param obj An object whose field to get and set
	* @return the updated value
	*/
	public int incrementAndGet(T obj) {
	for (;;) {
	int current = get(obj);
	int next = current + 1;
	if (compareAndSet(obj, current, next))
	return next;
	}
	}

	/**
	* Atomically decrements by one the current value of the field of the
	* given object managed by this updater.
	*
	* @param obj An object whose field to get and set
	* @return the updated value
	*/
	public int decrementAndGet(T obj) {
	for (;;) {
	int current = get(obj);
	int next = current - 1;
	if (compareAndSet(obj, current, next))
	return next;
	}
	}

	/**
	* Atomically adds the given value to the current value of the field of
	* the given object managed by this updater.
	*
	* @param obj An object whose field to get and set
	* @param delta the value to add
	* @return the updated value
	*/
	public int addAndGet(T obj, int delta) {
	for (;;) {
	int current = get(obj);
	int next = current + delta;
	if (compareAndSet(obj, current, next))
	return next;
	}
	}

	/**
	* Standard hotspot implementation using intrinsics
	*/
	private static class AtomicIntegerFieldUpdaterImpl<T> extends AtomicIntegerFieldUpdater<T> {
	private static final Unsafe unsafe = Unsafe.getUnsafe();
	private final long offset;
	private final Class<T> tclass;
	private final Class<?> cclass;

	AtomicIntegerFieldUpdaterImpl(final Class<T> tclass, final String fieldName) {
	final Field field;
	final Class<?> caller;
	final int modifiers;
	try {
	field = tclass.getDeclaredField(fieldName); // android-changed
	caller = VMStack.getStackClass2(); // android-changed

	modifiers = field.getModifiers();
	// BEGIN android-removed
	// sun.reflect.misc.ReflectUtil.ensureMemberAccess(
	// caller, tclass, null, modifiers);
	// ClassLoader cl = tclass.getClassLoader();
	// ClassLoader ccl = caller.getClassLoader();
	// if ((ccl != null) && (ccl != cl) &&
	// ((cl == null) \|\| !isAncestor(cl, ccl))) {
	// sun.reflect.misc.ReflectUtil.checkPackageAccess(tclass);
	// }
	// END android-removed
	// BEGIN android-removed
	// } catch (PrivilegedActionException pae) {
	// throw new RuntimeException(pae.getException());
	// END android-removed
	} catch (Exception ex) {
	throw new RuntimeException(ex);
	}

	Class<?> fieldt = field.getType();
	if (fieldt != int.class)
	throw new IllegalArgumentException("Must be integer type");

	if (!Modifier.isVolatile(modifiers))
	throw new IllegalArgumentException("Must be volatile type");

	this.cclass = (Modifier.isProtected(modifiers) &&
	caller != tclass) ? caller : null;
	this.tclass = tclass;
	offset = unsafe.objectFieldOffset(field);
	}

	// BEGIN android-removed
	// /**
	// * Returns true if the second classloader can be found in the first
	// * classloader's delegation chain.
	// * Equivalent to the inaccessible: first.isAncestor(second).
	// */
	// private static boolean isAncestor(ClassLoader first, ClassLoader second) {
	// ClassLoader acl = first;
	// do {
	// acl = acl.getParent();
	// if (second == acl) {
	// return true;
	// }
	// } while (acl != null);
	// return false;
	// }
	// END android-removed
	private void fullCheck(T obj) {
	if (!tclass.isInstance(obj))
	throw new ClassCastException();
	if (cclass != null)
	ensureProtectedAccess(obj);
	}

	public boolean compareAndSet(T obj, int expect, int update) {
	if (obj == null \|\| obj.getClass() != tclass \|\| cclass != null) fullCheck(obj);
	return unsafe.compareAndSwapInt(obj, offset, expect, update);
	}

	public boolean weakCompareAndSet(T obj, int expect, int update) {
	if (obj == null \|\| obj.getClass() != tclass \|\| cclass != null) fullCheck(obj);
	return unsafe.compareAndSwapInt(obj, offset, expect, update);
	}

	public void set(T obj, int newValue) {
	if (obj == null \|\| obj.getClass() != tclass \|\| cclass != null) fullCheck(obj);
	unsafe.putIntVolatile(obj, offset, newValue);
	}

	public void lazySet(T obj, int newValue) {
	if (obj == null \|\| obj.getClass() != tclass \|\| cclass != null) fullCheck(obj);
	unsafe.putOrderedInt(obj, offset, newValue);
	}

	public final int get(T obj) {
	if (obj == null \|\| obj.getClass() != tclass \|\| cclass != null) fullCheck(obj);
	return unsafe.getIntVolatile(obj, offset);
	}

	private void ensureProtectedAccess(T obj) {
	if (cclass.isInstance(obj)) {
	return;
	}
	throw new RuntimeException(
	new IllegalAccessException("Class " +
	cclass.getName() +
	" can not access a protected member of class " +
	tclass.getName() +
	" using an instance of " +
	obj.getClass().getName()
	)
	);
	}
	}
	}