详解Java 自动装箱与拆箱的实现原理

  public class Test {     public static void main(String[] args) {         test();     }     public static void test() {       int i = 40;       int i0 = 40;       Integer i1 = 40;       Integer i2 = 40;       Integer i3 = 0;       Integer i4 = new Integer(40);       Integer i5 = new Integer(40);       Integer i6 = new Integer(0);       Double d1=1.0;       Double d2=1.0;       System.out.println("i=i0/t" + (i == i0));       System.out.println("i1=i2/t" + (i1 == i2));       System.out.println("i1=i2+i3/t" + (i1 == i2 + i3));       System.out.println("i4=i5/t" + (i4 == i5));       System.out.println("i4=i5+i6/t" + (i4 == i5 + i6));         System.out.println("d1=d2/t" + (d1==d2));        System.out.println();         }   }

  public static Integer valueOf(int i) {    //判断i是否在-128和127之间，如果不在此范围，则从IntegerCache中获取包装类的实例。否则new一个新实例    if (i >= IntegerCache.low && i <= IntegerCache.high)      return IntegerCache.cache[i + (-IntegerCache.low)];    return new Integer(i);  }  //使用亨元模式，来减少对象的创建（亨元设计模式大家有必要了解一下，我认为是最简单的设计模式，也许大家经常在项目中使用，不知道他的名字而已）  private static class IntegerCache {    static final int low = -128;    static final int high;    static final Integer cache[];    //静态方法，类加载的时候进行初始化cache[],静态变量存放在常量池中    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) {        try {          int i = parseInt(integerCacheHighPropValue);          i = Math.max(i, 127);          // Maximum array size is Integer.MAX_VALUE          h = Math.min(i, Integer.MAX_VALUE - (-low) -1);        } catch( NumberFormatException nfe) {          // If the property cannot be parsed into an int, ignore it.        }      }      high = h;      cache = new Integer[(high - low) + 1];      int j = low;      for(int k = 0; k < cache.length; k++)        cache[k] = new Integer(j++);      // range [-128, 127] must be interned (JLS7 5.1.7)      assert IntegerCache.high >= 127;    }    private IntegerCache() {}  }

  //boolean原生类型自动装箱成Boolean  public static Boolean valueOf(boolean b) {    return (b ? TRUE : FALSE);  }  //byte原生类型自动装箱成Byte  public static Byte valueOf(byte b) {    final int offset = 128;    return ByteCache.cache[(int)b + offset];  }  //byte原生类型自动装箱成Byte  public static Short valueOf(short s) {    final int offset = 128;    int sAsInt = s;    if (sAsInt >= -128 && sAsInt <= 127) { // must cache      return ShortCache.cache[sAsInt + offset];    }    return new Short(s);  }  //char原生类型自动装箱成Character  public static Character valueOf(char c) {    if (c <= 127) { // must cache      return CharacterCache.cache[(int)c];    }    return new Character(c);  }  //int原生类型自动装箱成Integer  public static Integer valueOf(int i) {    if (i >= IntegerCache.low && i <= IntegerCache.high)      return IntegerCache.cache[i + (-IntegerCache.low)];    return new Integer(i);  }  //int原生类型自动装箱成Long  public static Long valueOf(long l) {    final int offset = 128;    if (l >= -128 && l <= 127) { // will cache      return LongCache.cache[(int)l + offset];    }    return new Long(l);  }  //double原生类型自动装箱成Double  public static Double valueOf(double d) {    return new Double(d);  }  //float原生类型自动装箱成Float  public static Float valueOf(float f) {    return new Float(f);  }

  //1、这个没解释的就是true  System.out.println("i=i0/t" + (i == i0)); //true  //2、int值只要在-128和127之间的自动装箱对象都从缓存中获取的，所以为true  System.out.println("i1=i2/t" + (i1 == i2)); //true  //3、涉及到数字的计算，就必须先拆箱成int再做加法运算，所以不管他们的值是否在-128和127之间，只要数字一样就为true  System.out.println("i1=i2+i3/t" + (i1 == i2 + i3));//true   //比较的是对象内存地址，所以为false  System.out.println("i4=i5/t" + (i4 == i5)); //false  //5、同第3条解释，拆箱做加法运算，对比的是数字，所以为true  System.out.println("i4=i5+i6/t" + (i4 == i5 + i6));//true     //double的装箱操作没有使用缓存，每次都是new Double，所以false  System.out.println("d1=d2/t" + (d1==d2));//false