只要一個方法操作的是類而非接口,那么你就只能使用這個類及其子類。如果你想要將這個方法應用于不在此繼承結構中的某個類,那么你就會倒大霉了。接口可以在很大程序上放寬這種限制,因此它使得我們可以編寫可復用性更好的代碼
首先看,通過類的繼承實現的一個程序
class Processor
{
public String name(){
return getClass().getSimpleName();
}
Object process(Object input){
return input;
}
}
class Upcase extends Processor{
String process(Object input){
return ((String)input).toUpperCase();
}
}
class Downcase extends Processor{
String process (Object input){
return ((String)input).toLowerCase();
}
}
class Splitter extends Processor{
String process(Object input){
return Arrays.toString(((String)input).split(" "));
}
}
public class Apply {
public static String s = "Disagredment with beliefs is by definition incorrect";
public static void process(Processor p, Object s){
System.out.println("Using Processor "+ p.name());
System.out.println(p.process(s));
}
public static void main(String[] args) {
process(new Upcase(),s);
process(new Downcase(),s);
process(new Splitter(),s);
}
}這個例子很簡單,只是把字符串轉換為大寫,小寫和以空格拆分的字符串。值得注意的是負責轉換的類Upcase, Downcase和Splitter都是繼承于Processor的,而Processor是一個普通的類。咋一看是沒問題的,但是要想通過復用把以下的別的類似的程序就不方便了
class Waveform{
private static long counter;
private final long id = counter++;
public String toString(){
return "Waveform" + id;
}
}
class Filter{
public String name(){
return getClass().getSimpleName();
}
public Waveform process(Waveform input){
return input;
}
}
class LowPass extends Filter{
double cutoff;
public LowPass(double cutoff){
this.cutoff = cutoff;
}
@Override
public Waveform process (Waveform input){
return input;
}
}
class HighPass extends Filter{
double cutoff;
public HighPass(double cutoff){
this.cutoff = cutoff;
}
public Waveform process(Waveform input){
return input;
}
}
class BandPass extends Filter{
double lowCutoff,highCutoff;
public BandPass(double lowCut, double highCut){
lowCutoff = lowCut;
highCutoff = highCut;
}
}
因為在Apply.process()方法在傳入的是Processor類,而Filter的創建者壓根不清楚它將要被用作Processor。也許你會認為通過繼承Process就把問題解決了,但是你會發現Filter.process和Process.process的方法簽名是不一樣的,那就是說Filter并沒有覆蓋Process的方法,這樣將會導致不安全性(Filter因繼承而多了一個不在設計范圍內的方法)。因此使得代碼復用就很難了,主要的原因是Apply.process()和Process之間的耦合太緊了。如果把Processor改為接口,這些限制就會變得松動了
interface Processor {
String name();
Object process(Object input);
}
//把導出類的name方法抽取出來單獨設置一個abstract類
abstract class StringProcessor implements Processor{
public String name(){
return getClass().getSimpleName();
}
public abstract String process(Object input);
}
class Upcase extends StringProcessor {
@Override
public String process(Object input) {
return ((String)input).toUpperCase();
}
}
class Splitter extends StringProcessor{
@Override
public String process(Object input) {
return Arrays.toString(((String)input).split(" "));
}
}
class Downcase extends StringProcessor {
@Override
public String process(Object input) {
return ((String)input).toLowerCase();
}
}
public class Apply {
public static String s = "Disagredment with beliefs is by definition incorrect";
public static void process(Processor p, Object s){
System.out.println("Using Processor "+ p.name());
System.out.println(p.process(s));
}
public static void main(String[] args) {
process(new Upcase(), s);
process(new Downcase(),s);
process(new Splitter(),s);
}
}
這種我們就可以通過實現接口而在復用的基礎上加入Filter了
abstract class Filter implements Processor {
public String name() {
return getClass().getSimpleName();
}
public abstract Waveform process(Object input);
}
class BandPass extends Filter{
double lowCutoff,highCutoff;
public BandPass(double lowCut, double highCut){
lowCutoff = lowCut;
highCutoff = highCut;
}
@Override
public Waveform process(Object input) {
return (Waveform) input;
}
}
class HighPass extends Filter{
double cutoff;
public HighPass(double cutoff){
this.cutoff = cutoff;
}
@Override
public Waveform process(Object input) {
return (Waveform) input;
}
}
class LowPass extends Filter{
double cutoff;
public LowPass(double cutoff){
this.cutoff = cutoff;
}
@Override
public Waveform process (Object input){
return (Waveform) input;
}
}
public class Apply {
public static String s = "Disagredment with beliefs is by definition incorrect";
public static void process(Processor p, Object s){
System.out.println("Using Processor "+ p.name());
System.out.println(p.process(s));
}
public static void main(String[] args) {
//process(new Upcase(), s);
//process(new Downcase(),s);
//process(new Splitter(),s);
Waveform w = new Waveform();
process(new LowPass(1.0),w);
process(new HighPass(3.0),w);
process(new BandPass(1.0,2.0),w);
}
}
上面的例子很好說明了,不用修改原程序(當然Filter還是要改的),可以直接通過復用接口Processor和Apply.process()。然后有的時候Filter并不是可以修改的,或者你得到的只是一個類庫,這個時候可以使用Adaptor設計模式
//Filter不能修改
class Filter{
public String name(){
return getClass().getSimpleName();
}
// @Override
public Waveform process(Waveform input){
return input;
}
}
//Filter的Adapter
class FilterAdapter implements Processor {
Filter filter;
public FilterAdapter (Filter filter){
this.filter = filter;
}
public String name() {
return filter.name();
}
public Waveform process(Object input) {
return filter.process((Waveform) input);
}
}public class Apply {
public static String s = "Disagredment with beliefs is by definition incorrect";
public static void process(Processor p, Object s){
System.out.println("Using Processor "+ p.name());
System.out.println(p.process(s));
}
public static void main(String[] args) {
Waveform w = new Waveform();
process(new FilterAdapter(new chapter9.LowPass(1.0)),w);
process(new FilterAdapter(new chapter9.HighPass(3.0)),w);
process(new FilterAdapter(new chapter9.BandPass(1.0,2.0)),w);
}
}
在這種使用適配器的方式中,FilterAdapter的構造器接受你所擁有的接口Filter,然后生成具有你所需要的Processor接口的對象。在FilterAdapter中還使用了代理