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解释器模式常用的场景是计算器,或者说公式。
也就是说解释的符号满足公式的元素,而client端把每个元素的内容代换掉就可以。
package com.jayfulmath.designpattern.experssion; import java.util.HashMap; public abstract class Experssion { //解析公式和数值,其中var中的key值是是公式中的参数,value值是具体的数字 public abstract int interpreter(HashMap<String, Integer> var); }
package com.jayfulmath.designpattern.experssion; import java.util.HashMap; public class VarExperssion extends Experssion { private String key; @Override public int interpreter(HashMap<String, Integer> var) { System.out.println("VarExperssion interpreter key:"+key); return var.get(key); } public VarExperssion(String key) { super(); this.key = key; } }
public abstract class SymbolExperssion extends Experssion { Experssion left; Experssion right; public SymbolExperssion(Experssion left, Experssion right) { super(); this.left = left; this.right = right; } }
import java.util.HashMap; public class AddExperssion extends SymbolExperssion { public AddExperssion(Experssion left, Experssion right) { super(left, right); } @Override public int interpreter(HashMap<String, Integer> var) { return super.left.interpreter(var)+super.right.interpreter(var); } }
package com.jayfulmath.designpattern.experssion; import java.util.HashMap; public class SubExperssion extends SymbolExperssion { public SubExperssion(Experssion left, Experssion right) { super(left, right); } @Override public int interpreter(HashMap<String, Integer> var) { return super.left.interpreter(var) - super.right.interpreter(var); } }
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原文地址:http://www.cnblogs.com/deman/p/4204259.html