java傳值還是傳引用
1.原始類型參數傳遞
public void badSwap(int var1, int var2) { int temp = var1; var1 = var2; var2 = temp; } 2.引用類型參數傳遞
public void tricky(Point arg1, Point arg2) { arg1.x = 100; arg1.y = 100; Point temp = arg1; arg1 = arg2; arg2 = temp; } public static void main(String [] args) { Point pnt1 = new Point(0,0); Point pnt2 = new Point(0,0); System.out.println("X: " + pnt1.x + " Y: " +pnt1.y); System.out.println ("X: " + pnt2.x + " Y: " +pnt2.y); System.out.println(" "); tricky(pnt1,pnt2); System.out.println("X: " + pnt1. x + " Y:" + pnt1.y); System.out.println("X: " + pnt2.x + " Y: " +pnt2.y); }運行這兩個程序,相信你會明白的:Java manipulates objects 'by reference,' but it passes object references to methods 'by value.
java回調機制
spring大量使用了java回調機制,下面對Java回調機製做一些簡單的介紹:
一句話,回調是一種雙向調用模式,什麼意思呢,就是說,被調用方在被調用時也會調用對方,這就叫回調。 “If you call me, i will call back”。
看下面關於回調機制的例子:
接口CallBackInterface :
public interface CallBackInterface { void save();}類ClassB:
public class ClassB implements CallBackInterface {public void save() {System.out.println("執行保存操作!");}//public void add(){ //這裡調用ClassA的方法同時ClasssB又會回調ClassB的save方法new ClassA().executeSave(new ClassB()); }}類ClassA:
public class ClassA { public void executeSave(CallBackInterface callBackInterface) { getConn(); callBackInterface.save(); //you call me realse(); } public void getConn() { System.out.println("獲取數據庫連接!" ); } public void realse() { System.out.println("釋放數據庫連接!"); }}更加經典的關於回調函數的使用的例子(使用java匿名類)這裡省去了源碼