書接上文，這次來講講另一個生成對象的模式，建造者模式。什么是建造者模式？在面向對象語言中，一個對象的產生都要先經過構造器構造參數，參數可有可無，可多可少，根據需要來定。但是如果一個類中定義的內部變量個數很多，需要又不能確定的話，這時寫起代碼來就比較麻煩。所以建造者模式就是把對象的構建過程和使用分離開來，達到丁是丁卯是卯的效果，清晰方便。話不多說，上菜。

class MyHome {

    private String mDoor;

    private String mKitchen;

    private String mToilet;

    private String mBathroom;

    private String mStudy;

    public String getDoor() {

        return mDoor;

    }

    public void setDoor(String mDoor) {

        this.mDoor = mDoor;

    }

    public String getKitchen() {

        return mKitchen;

    }

    public void setKitchen(String mKitchen) {

        this.mKitchen = mKitchen;

    }

    public String getToilet() {

        return mToilet;

    }

    public void setToilet(String mToilet) {

        this.mToilet = mToilet;

    }

    public String getBathroom() {

        return mBathroom;

    }

    public void setBathroom(String mBathroom) {

        this.mBathroom = mBathroom;

    }

    public String getStudy() {

        return mStudy;

    }

    public void setStudy(String mStudy) {

        this.mStudy = mStudy;

    }

    public MyHome() {

    }



@Override

public String toString() {

return "MyHome [mDoor=" + mDoor + ", mKitchen=" + mKitchen

+ ", mToilet=" + mToilet + ", mBathroom=" + mBathroom

+ ", mStudy=" + mStudy + "]";

}

}

interface Builder{

Builder planningDoor(String door);

Builder planningKitchen(String kitchen);

Builder planningToilet(String toilet);

Builder planningBathroom(String bathroom);

Builder planningStudy(String study);



MyHome build();

}

class HomeBuilder implements Builder{

    private MyHome mMyHome = new MyHome();

    @Override

public MyHome build() {

        return mMyHome;

    }

    @Override

    public HomeBuilder planningDoor(String door) {

        mMyHome.setDoor(door);

        return this;

    }

    @Override

    public HomeBuilder planningKitchen(String kitchen) {

        mMyHome.setKitchen(kitchen);

        return this;

    }

    @Override

    public HomeBuilder planningToilet(String toilet) {

        mMyHome.setToilet(toilet);

        return this;

    }

    @Override

    public HomeBuilder planningBathroom(String bathroom) {

        mMyHome.setBathroom(bathroom);

        return this;

    }

    @Override

    public HomeBuilder planningStudy(String study) {

        mMyHome.setStudy(study);

        return this;

    }

}

public class Home {

    public static void main(String[] args) {

    Builder homeBuilder = new HomeBuilder();

    MyHome myHome = homeBuilder

                .planningBathroom("浴室")

                .planningDoor("門")

                .planningKitchen("廚房")

                .planningToilet("廁所")

                .build();

    System.out.println(myHome.toString());

}

}

這樣一個對象就生成了，參數個數可以根據自己需要來設置。

這是個簡單的例子，jdk的StringBuilder類就使用了建造者模式，我把StringBuilder的幾個重要方法提取出來新寫個類。

class CharArrayBuilder {

char[] value;

int count;

public CharArrayBuilder(){

}

public CharArrayBuilder(int capacity) {

        value = new char[capacity];

}

public int length() {

        return count;

    }

public int capacity() {

        return value.length;

    }

public void ensureCapacity(int minimumCapacity) {

        if (minimumCapacity > 0)

            ensureCapacityInternal(minimumCapacity);

    }

    private void ensureCapacityInternal(int minimumCapacity) {

        if (minimumCapacity - value.length > 0)

            expandCapacity(minimumCapacity);

    }

void expandCapacity(int minimumCapacity) {

        int newCapacity = value.length * 2 + 2;

        if (newCapacity - minimumCapacity < 0)

            newCapacity = minimumCapacity;

        if (newCapacity < 0) {

            if (minimumCapacity < 0) // overflow

                throw new OutOfMemoryError();

            newCapacity = Integer.MAX_VALUE;

        }

        value = Arrays.copyOf(value, newCapacity);

    }

public CharArrayBuilder append(String str) {

        if (str == null) str = "null";

        int len = str.length();

        ensureCapacityInternal(count + len);

        str.getChars(0, len, value, count);

        count += len;

        return this;

    }

public CharArrayBuilder append(CharArray ca) {

        if (ca == null)

            return append("null");

        int len = ca.length();

        ensureCapacityInternal(count + len);

        ca.getChars(0, len, value, count);

        count += len;

        return this;

    }

public CharArrayBuilder append(Object obj) {

        return append(String.valueOf(obj));

    }

public void getChars(int srcBegin, int srcEnd, char[] dst, int dstBegin){

        if (srcBegin < 0)

            throw new StringIndexOutOfBoundsException(srcBegin);

        if ((srcEnd < 0) || (srcEnd > count))

            throw new StringIndexOutOfBoundsException(srcEnd);

        if (srcBegin > srcEnd)

            throw new StringIndexOutOfBoundsException("srcBegin > srcEnd");

        System.arraycopy(value, srcBegin, dst, dstBegin, srcEnd - srcBegin);

    }

}



class CharArray extends CharArrayBuilder{

public CharArray() {

        super(16);

    }

public CharArray(int capacity) {

        super(capacity);

    }

public CharArray(String str) {

        super(str.length() + 16);

        append(str);

    }

public CharArray append(Object obj) {

        return append(String.valueOf(obj));

    }

    public CharArray append(String str) {

        super.append(str);

        return this;

    }



    public CharArray append(CharArray ca) {

        if (ca == null)

            return append("null");

        int len = ca.length();

        int newcount = count + len;

        if (newcount > value.length)

            expandCapacity(newcount);

        ca.getChars(0, len, value, count);

        count = newcount;

        return this;

    }



    public CharArray append(char[] str) {

        super.append(str);

        return this;

    }

    public String toString() {

        // Create a copy, don't share the array

        return new String(value, 0, count);

    }

}

public class Client {

    public static void main(String[] args) {

        CharArray charArray = new CharArray();

        charArray.append("abcdefg").append("123");

        System.out.println(charArray.capacity());

        System.out.println(charArray.length());

        System.out.println(charArray);

    }

}

相同的點是都return this，直接返回當前對象，然后繼續(xù)操作。