public class Hello
{
public static void main(String[] args)
{
int a = 1000, b = 1000;
System.out.println(a == b);
Integer c = 1000, d = 1000;
System.out.println(c == d);
Integer e = 100, f = 100;
System.out.println(e == f);
}
}输出结果:
true false true
The Java Language Specification, 3rd Edition 写道:
为了节省内存,对于下列包装对象的两个实例,当它们的基本值相同时,他们总是==: Boolean Byte Character, u0000 - u007f(7f是十进制的127) Integer, -128 — 127
查看jdk源码,如下:
/**
* Cache to support the object identity semantics of autoboxing for values between
* -128 and 127 (inclusive) as required by JLS.
*
* The cache is initialized on first usage. During VM initialization the
* getAndRemoveCacheProperties method may be used to get and remove any system
* properites that configure the cache size. At this time, the size of the
* cache may be controlled by the vm option -XX:AutoBoxCacheMax=<size>.
*/
// value of java.lang.Integer.IntegerCache.high property (obtained during VM init)
private static String integerCacheHighPropValue;
static void getAndRemoveCacheProperties() {
if (!sun.misc.VM.isBooted()) {
Properties props = System.getProperties();
integerCacheHighPropValue =
(String)props.remove("java.lang.Integer.IntegerCache.high");
if (integerCacheHighPropValue != null)
System.setProperties(props); // remove from system props
}
}
private static class IntegerCache {
static final int high;
static final Integer cache[];
static {
final int low = -128;
// high value may be configured by property
int h = 127;
if (integerCacheHighPropValue != null) {
// Use Long.decode here to avoid invoking methods that
// require Integer's autoboxing cache to be initialized
int i = Long.decode(integerCacheHighPropValue).intValue();
i = Math.max(i, 127);
// Maximum array size is Integer.MAX_VALUE
h = Math.min(i, Integer.MAX_VALUE - -low);
}
high = h;
cache = new Integer[(high - low) + 1];
int j = low;
for(int k = 0; k < cache.length; k++) //缓存区间数据
cache[k] = new Integer(j++);
}
private IntegerCache() {}
}
/**
* Returns a <tt>Integer</tt> instance representing the specified
* <tt>int</tt> value.
* If a new <tt>Integer</tt> instance is not required, this method
* should generally be used in preference to the constructor
* {@link #Integer(int)}, as this method is likely to yield
* significantly better space and time performance by caching
* frequently requested values.
*
* @param i an <code>int</code> value.
* @return a <tt>Integer</tt> instance representing <tt>i</tt>.
* @since 1.5
*/
public static Integer valueOf(int i) {
if(i >= -128 && i <= IntegerCache.high)
return IntegerCache.cache[i + 128];
else
return new Integer(i);
}
这儿的IntegerCache有一个静态的Integer数组,在类加载时就将-128 到 127 的Integer对象创建了,并保存在cache数组中,一旦程序调用valueOf 方法,如果i的值是在-128 到 127 之间就直接在cache缓存数组中去取Integer对象。
再看其它的包装器:
Boolean:(全部缓存)
Byte:(全部缓存)
Character(<= 127缓存)
Short(-128 — 127缓存)
Long(-128 — 127缓存)
Float(没有缓存)
Doulbe(没有缓存)
Integer i = 100; i = null;//will not make any object available for GC at all.这里的代码不会有对象符合垃圾回收器的条件,这儿的i虽然被赋予null,但它之前指向的是cache中的Integer对象,而cache没有被赋null,所以Integer(100)这个对象还是存在。
而如果i大于127或小于-128则它所指向的对象将符合垃圾回收的条件:
Integer i = 10000; i = null;//will make the newly created Integer object available for GC.
转载地址: http://blog.csdn.net/xiaohai0504/article/details/6885137