luni/src/main/java/java/util/concurrent/atomic/AtomicInteger.java - platform/libcore - 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 java.util.function.IntBinaryOperator;
 import java.util.function.IntUnaryOperator;

 /**
  * An {@code int} value that may be updated atomically.  See the
  * {@link java.util.concurrent.atomic} package specification for
  * description of the properties of atomic variables. An
  * {@code AtomicInteger} is used in applications such as atomically
  * incremented counters, and cannot be used as a replacement for an
  * {@link java.lang.Integer}. However, this class does extend
  * {@code Number} to allow uniform access by tools and utilities that
  * deal with numerically-based classes.
  *
  * @since 1.5
  * @author Doug Lea
  */
 public class AtomicInteger extends Number implements java.io.Serializable {
     private static final long serialVersionUID = 6214790243416807050L;

     private static final sun.misc.Unsafe U = sun.misc.Unsafe.getUnsafe();
     private static final long VALUE;

     static {
         try {
             VALUE = U.objectFieldOffset
                 (AtomicInteger.class.getDeclaredField("value"));
         } catch (ReflectiveOperationException e) {
             throw new Error(e);
         }
     }

     private volatile int value;

     /**
      * Creates a new AtomicInteger with the given initial value.
      *
      * @param initialValue the initial value
      */
     public AtomicInteger(int initialValue) {
         value = initialValue;
     }

     /**
      * Creates a new AtomicInteger with initial value {@code 0}.
      */
     public AtomicInteger() {
     }

     /**
      * Gets the current value.
      *
      * @return the current value
      */
     public final int get() {
         return value;
     }

     /**
      * Sets to the given value.
      *
      * @param newValue the new value
      */
     public final void set(int newValue) {
         value = newValue;
     }

     /**
      * Eventually sets to the given value.
      *
      * @param newValue the new value
      * @since 1.6
      */
     public final void lazySet(int newValue) {
         U.putOrderedInt(this, VALUE, newValue);
     }

     /**
      * Atomically sets to the given value and returns the old value.
      *
      * @param newValue the new value
      * @return the previous value
      */
     public final int getAndSet(int newValue) {
         return U.getAndSetInt(this, VALUE, newValue);
     }

     /**
      * Atomically sets the value to the given updated value
      * if the current value {@code ==} the expected value.
      *
      * @param expect the expected value
      * @param update the new value
      * @return {@code true} if successful. False return indicates that
      * the actual value was not equal to the expected value.
      */
     public final boolean compareAndSet(int expect, int update) {
         return U.compareAndSwapInt(this, VALUE, expect, update);
     }

     /**
      * Atomically sets the value to the given updated value
      * if the current value {@code ==} the expected value.
      *
      * <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 expect the expected value
      * @param update the new value
      * @return {@code true} if successful
      */
     public final boolean weakCompareAndSet(int expect, int update) {
         return U.compareAndSwapInt(this, VALUE, expect, update);
     }

     /**
      * Atomically increments by one the current value.
      *
      * @return the previous value
      */
     public final int getAndIncrement() {
         return U.getAndAddInt(this, VALUE, 1);
     }

     /**
      * Atomically decrements by one the current value.
      *
      * @return the previous value
      */
     public final int getAndDecrement() {
         return U.getAndAddInt(this, VALUE, -1);
     }

     /**
      * Atomically adds the given value to the current value.
      *
      * @param delta the value to add
      * @return the previous value
      */
     public final int getAndAdd(int delta) {
         return U.getAndAddInt(this, VALUE, delta);
     }

     /**
      * Atomically increments by one the current value.
      *
      * @return the updated value
      */
     public final int incrementAndGet() {
         return U.getAndAddInt(this, VALUE, 1) + 1;
     }

     /**
      * Atomically decrements by one the current value.
      *
      * @return the updated value
      */
     public final int decrementAndGet() {
         return U.getAndAddInt(this, VALUE, -1) - 1;
     }

     /**
      * Atomically adds the given value to the current value.
      *
      * @param delta the value to add
      * @return the updated value
      */
     public final int addAndGet(int delta) {
         return U.getAndAddInt(this, VALUE, delta) + delta;
     }

     /**
      * Atomically updates the current value with the results of
      * applying the given function, returning the previous value. The
      * function should be side-effect-free, since it may be re-applied
      * when attempted updates fail due to contention among threads.
      *
      * @param updateFunction a side-effect-free function
      * @return the previous value
      * @since 1.8
      */
     public final int getAndUpdate(IntUnaryOperator updateFunction) {
         int prev, next;
         do {
             prev = get();
             next = updateFunction.applyAsInt(prev);
         } while (!compareAndSet(prev, next));
         return prev;
     }

     /**
      * Atomically updates the current value with the results of
      * applying the given function, returning the updated value. The
      * function should be side-effect-free, since it may be re-applied
      * when attempted updates fail due to contention among threads.
      *
      * @param updateFunction a side-effect-free function
      * @return the updated value
      * @since 1.8
      */
     public final int updateAndGet(IntUnaryOperator updateFunction) {
         int prev, next;
         do {
             prev = get();
             next = updateFunction.applyAsInt(prev);
         } while (!compareAndSet(prev, next));
         return next;
     }

     /**
      * Atomically updates the current value with the results of
      * applying the given function to the current and given values,
      * returning the previous value. The function should be
      * side-effect-free, since it may be re-applied when attempted
      * updates fail due to contention among threads.  The function
      * is applied with the current value as its first argument,
      * and the given update as the second argument.
      *
      * @param x the update value
      * @param accumulatorFunction a side-effect-free function of two arguments
      * @return the previous value
      * @since 1.8
      */
     public final int getAndAccumulate(int x,
                                       IntBinaryOperator accumulatorFunction) {
         int prev, next;
         do {
             prev = get();
             next = accumulatorFunction.applyAsInt(prev, x);
         } while (!compareAndSet(prev, next));
         return prev;
     }

     /**
      * Atomically updates the current value with the results of
      * applying the given function to the current and given values,
      * returning the updated value. The function should be
      * side-effect-free, since it may be re-applied when attempted
      * updates fail due to contention among threads.  The function
      * is applied with the current value as its first argument,
      * and the given update as the second argument.
      *
      * @param x the update value
      * @param accumulatorFunction a side-effect-free function of two arguments
      * @return the updated value
      * @since 1.8
      */
     public final int accumulateAndGet(int x,
                                       IntBinaryOperator accumulatorFunction) {
         int prev, next;
         do {
             prev = get();
             next = accumulatorFunction.applyAsInt(prev, x);
         } while (!compareAndSet(prev, next));
         return next;
     }

     /**
      * Returns the String representation of the current value.
      * @return the String representation of the current value
      */
     public String toString() {
         return Integer.toString(get());
     }

     /**
      * Returns the value of this {@code AtomicInteger} as an {@code int}.
      * Equivalent to {@link #get()}.
      */
     public int intValue() {
         return get();
     }

     /**
      * Returns the value of this {@code AtomicInteger} as a {@code long}
      * after a widening primitive conversion.
      * @jls 5.1.2 Widening Primitive Conversions
      */
     public long longValue() {
         return (long)get();
     }

     /**
      * Returns the value of this {@code AtomicInteger} as a {@code float}
      * after a widening primitive conversion.
      * @jls 5.1.2 Widening Primitive Conversions
      */
     public float floatValue() {
         return (float)get();
     }

     /**
      * Returns the value of this {@code AtomicInteger} as a {@code double}
      * after a widening primitive conversion.
      * @jls 5.1.2 Widening Primitive Conversions
      */
     public double doubleValue() {
         return (double)get();
     }

 }
	/*
	* 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 java.util.function.IntBinaryOperator;
	import java.util.function.IntUnaryOperator;

	/**
	* An {@code int} value that may be updated atomically. See the
	* {@link java.util.concurrent.atomic} package specification for
	* description of the properties of atomic variables. An
	* {@code AtomicInteger} is used in applications such as atomically
	* incremented counters, and cannot be used as a replacement for an
	* {@link java.lang.Integer}. However, this class does extend
	* {@code Number} to allow uniform access by tools and utilities that
	* deal with numerically-based classes.
	*
	* @since 1.5
	* @author Doug Lea
	*/
	public class AtomicInteger extends Number implements java.io.Serializable {
	private static final long serialVersionUID = 6214790243416807050L;

	private static final sun.misc.Unsafe U = sun.misc.Unsafe.getUnsafe();
	private static final long VALUE;

	static {
	try {
	VALUE = U.objectFieldOffset
	(AtomicInteger.class.getDeclaredField("value"));
	} catch (ReflectiveOperationException e) {
	throw new Error(e);
	}
	}

	private volatile int value;

	/**
	* Creates a new AtomicInteger with the given initial value.
	*
	* @param initialValue the initial value
	*/
	public AtomicInteger(int initialValue) {
	value = initialValue;
	}

	/**
	* Creates a new AtomicInteger with initial value {@code 0}.
	*/
	public AtomicInteger() {
	}

	/**
	* Gets the current value.
	*
	* @return the current value
	*/
	public final int get() {
	return value;
	}

	/**
	* Sets to the given value.
	*
	* @param newValue the new value
	*/
	public final void set(int newValue) {
	value = newValue;
	}

	/**
	* Eventually sets to the given value.
	*
	* @param newValue the new value
	* @since 1.6
	*/
	public final void lazySet(int newValue) {
	U.putOrderedInt(this, VALUE, newValue);
	}

	/**
	* Atomically sets to the given value and returns the old value.
	*
	* @param newValue the new value
	* @return the previous value
	*/
	public final int getAndSet(int newValue) {
	return U.getAndSetInt(this, VALUE, newValue);
	}

	/**
	* Atomically sets the value to the given updated value
	* if the current value {@code ==} the expected value.
	*
	* @param expect the expected value
	* @param update the new value
	* @return {@code true} if successful. False return indicates that
	* the actual value was not equal to the expected value.
	*/
	public final boolean compareAndSet(int expect, int update) {
	return U.compareAndSwapInt(this, VALUE, expect, update);
	}

	/**
	* Atomically sets the value to the given updated value
	* if the current value {@code ==} the expected value.
	*
	* <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 expect the expected value
	* @param update the new value
	* @return {@code true} if successful
	*/
	public final boolean weakCompareAndSet(int expect, int update) {
	return U.compareAndSwapInt(this, VALUE, expect, update);
	}

	/**
	* Atomically increments by one the current value.
	*
	* @return the previous value
	*/
	public final int getAndIncrement() {
	return U.getAndAddInt(this, VALUE, 1);
	}

	/**
	* Atomically decrements by one the current value.
	*
	* @return the previous value
	*/
	public final int getAndDecrement() {
	return U.getAndAddInt(this, VALUE, -1);
	}

	/**
	* Atomically adds the given value to the current value.
	*
	* @param delta the value to add
	* @return the previous value
	*/
	public final int getAndAdd(int delta) {
	return U.getAndAddInt(this, VALUE, delta);
	}

	/**
	* Atomically increments by one the current value.
	*
	* @return the updated value
	*/
	public final int incrementAndGet() {
	return U.getAndAddInt(this, VALUE, 1) + 1;
	}

	/**
	* Atomically decrements by one the current value.
	*
	* @return the updated value
	*/
	public final int decrementAndGet() {
	return U.getAndAddInt(this, VALUE, -1) - 1;
	}

	/**
	* Atomically adds the given value to the current value.
	*
	* @param delta the value to add
	* @return the updated value
	*/
	public final int addAndGet(int delta) {
	return U.getAndAddInt(this, VALUE, delta) + delta;
	}

	/**
	* Atomically updates the current value with the results of
	* applying the given function, returning the previous value. The
	* function should be side-effect-free, since it may be re-applied
	* when attempted updates fail due to contention among threads.
	*
	* @param updateFunction a side-effect-free function
	* @return the previous value
	* @since 1.8
	*/
	public final int getAndUpdate(IntUnaryOperator updateFunction) {
	int prev, next;
	do {
	prev = get();
	next = updateFunction.applyAsInt(prev);
	} while (!compareAndSet(prev, next));
	return prev;
	}

	/**
	* Atomically updates the current value with the results of
	* applying the given function, returning the updated value. The
	* function should be side-effect-free, since it may be re-applied
	* when attempted updates fail due to contention among threads.
	*
	* @param updateFunction a side-effect-free function
	* @return the updated value
	* @since 1.8
	*/
	public final int updateAndGet(IntUnaryOperator updateFunction) {
	int prev, next;
	do {
	prev = get();
	next = updateFunction.applyAsInt(prev);
	} while (!compareAndSet(prev, next));
	return next;
	}

	/**
	* Atomically updates the current value with the results of
	* applying the given function to the current and given values,
	* returning the previous value. The function should be
	* side-effect-free, since it may be re-applied when attempted
	* updates fail due to contention among threads. The function
	* is applied with the current value as its first argument,
	* and the given update as the second argument.
	*
	* @param x the update value
	* @param accumulatorFunction a side-effect-free function of two arguments
	* @return the previous value
	* @since 1.8
	*/
	public final int getAndAccumulate(int x,
	IntBinaryOperator accumulatorFunction) {
	int prev, next;
	do {
	prev = get();
	next = accumulatorFunction.applyAsInt(prev, x);
	} while (!compareAndSet(prev, next));
	return prev;
	}

	/**
	* Atomically updates the current value with the results of
	* applying the given function to the current and given values,
	* returning the updated value. The function should be
	* side-effect-free, since it may be re-applied when attempted
	* updates fail due to contention among threads. The function
	* is applied with the current value as its first argument,
	* and the given update as the second argument.
	*
	* @param x the update value
	* @param accumulatorFunction a side-effect-free function of two arguments
	* @return the updated value
	* @since 1.8
	*/
	public final int accumulateAndGet(int x,
	IntBinaryOperator accumulatorFunction) {
	int prev, next;
	do {
	prev = get();
	next = accumulatorFunction.applyAsInt(prev, x);
	} while (!compareAndSet(prev, next));
	return next;
	}

	/**
	* Returns the String representation of the current value.
	* @return the String representation of the current value
	*/
	public String toString() {
	return Integer.toString(get());
	}

	/**
	* Returns the value of this {@code AtomicInteger} as an {@code int}.
	* Equivalent to {@link #get()}.
	*/
	public int intValue() {
	return get();
	}

	/**
	* Returns the value of this {@code AtomicInteger} as a {@code long}
	* after a widening primitive conversion.
	* @jls 5.1.2 Widening Primitive Conversions
	*/
	public long longValue() {
	return (long)get();
	}

	/**
	* Returns the value of this {@code AtomicInteger} as a {@code float}
	* after a widening primitive conversion.
	* @jls 5.1.2 Widening Primitive Conversions
	*/
	public float floatValue() {
	return (float)get();
	}

	/**
	* Returns the value of this {@code AtomicInteger} as a {@code double}
	* after a widening primitive conversion.
	* @jls 5.1.2 Widening Primitive Conversions
	*/
	public double doubleValue() {
	return (double)get();
	}

	}