我们知道Integer是int的包装类,在jdk1.5以上,可以实现自动装箱拆箱,就是jdk里面会自动帮我们转换,不需要我们手动去强转,所以我们经常在这两种类型中随意写,平时也没什么注意 但Integer他是对象,我们知道 == 比较的是堆中的地址,但有个奇怪的事是, 如果 Integer a = 123, Integer b = 123,可以返回true,但如果Integer a = 12345, Integer b = 12345,返回false
public class Demo { public static void main(String[] args) { Integer c = -128; Integer d = -128; System.out.println("c == d: " + (c == d)); System.out.println("c.equals(d): " + c.equals(d)); System.out.println("c.intValue() == d.intValue(): " + (c.intValue() == d.intValue())); System.out.println("Objects.equals(c, d): " + Objects.equals(c, d)); Integer e = 127; Integer f = 127; System.out.println("e == f: " + (e == f)); System.out.println("e.equals(f): " + e.equals(f)); System.out.println("e.intValue() == f.intValue(): " + (e.intValue() == f.intValue())); System.out.println("Objects.equals(e, f): " + Objects.equals(e, f)); Integer g = 128; Integer h = 128; System.out.println("g == h: " + (g == h)); System.out.println("g.equals(h): " + g.equals(h)); System.out.println("g.intValue() == h.intValue():" + (g.intValue() == h.intValue())); System.out.println("Objects.equals(g, h): " + Objects.equals(g, h)); } }
结果如下:
c == d: true c.equals(d): true c.intValue() == d.intValue(): true Objects.equals(c, d): true e == f: true e.equals(f): true e.intValue() == f.intValue(): true Objects.equals(e, f): true g == h: false g.equals(h): true g.intValue() == h.intValue():true Objects.equals(g, h): true
(1)当用“==”进行比较时,jvm默认是比较数据在java堆的地址。int是一种基本数据类型,jvm会自动将Integer转成int数值进行比较。在Integer类中,有一个内部静态类IntegerCache ,用来支持自动拆箱和装箱,如下,数值范围[-128,127]
/** * 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. The size of the cache * may be controlled by the -XX:AutoBoxCacheMax=<size> option. * During VM initialization, java.lang.Integer.IntegerCache.high property * may be set and saved in the private system properties in the * sun.misc.VM class. */ private static class IntegerCache { static final int low = -128; static final int high; static final Integer cache[]; static { // high value may be configured by property int h = 127; String integerCacheHighPropValue = sun.misc.VM.getSavedProperty("java.lang.Integer.IntegerCache.high"); if (integerCacheHighPropValue != null) { int i = parseInt(integerCacheHighPropValue); 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++) cache[k] = new Integer(j++); } private IntegerCache() {} }
默认IntegerCache.low 是-127,Integer.high是128,如果在这个区间[-128,127]内,他就会把变量i当做一个变量,放到内存中,用“==”比较是会得出true;但如果不在这个范围内,就会去new一个Integer对象,当运用“==”时,会比较Integer两个对象地址,得出false。
比较两个Integer的值是否相同,方法比较多:
1、推荐用equals(),这个还可以避免一些空指针问题的出现。
2、或者使用Integer.intValue();这样出来的就是int值,就可以直接比较了(可能会抛出空指针异常);
本文摘选两篇文章,略有修改
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作者:木林森淼
来源:CSDN
原文:https://blog.csdn.net/yangfengjueqi/article/details/81121140
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作者:不吃老鼠的小花猫
来源:CSDN
原文:https://blog.csdn.net/xiaojiesu/article/details/50215237