內部類的例子

AbstractList類有一個Itr內部類它是Iterator接口的實現,可以逐個獲取集合的元素:

private class Itr implements Iterator<E> {
	int cursor = 0;
	int lastRet = -1;
	int expectedModCount = modCount;

	public boolean hasNext() {
    		return cursor != size();
	}

	public E next() {
    	checkForComodification();
    	try {
        	int i = cursor;
        	E next = get(i);
        	lastRet = i;
        	cursor = i + 1;
        	return next;
    	} catch (IndexOutOfBoundsException e) {
        	checkForComodification();
        	throw new NoSuchElementException(e);
    	}
	}

	public void remove() {
    	if (lastRet < 0)
        	throw new IllegalStateException();
    	checkForComodification();

    	try {
        	AbstractList.this.remove(lastRet);
        	if (lastRet < cursor)
            	cursor--;
        	lastRet = -1;
        	expectedModCount = modCount;
    	} catch (IndexOutOfBoundsException e) {
   	     throw new ConcurrentModificationException();
    	}
	}

	final void checkForComodification() {
    	if (modCount != expectedModCount)
        	throw new ConcurrentModificationException();
	}
}

它在迭代器方法中使用:

public Iterator<E> iterator() {
	return new Itr();
}

這就是AbstractList的任何後代如何獲得現成的迭代器。而如果需要自定義迭代器,可以實現自己的繼承IteratorItr的類,然後重寫迭代器方法。例如,這就是ArrayList類所做的。

Java university

Itr類是非靜態的因此,Itr對象具有對AbstractList實例的引用並且可以訪問它的方法(sizegetremove)。

靜態嵌套類的示例

Integer類有一個IntegerCache嵌套

private static class IntegerCache {
	static final int low = -128;
	static final int high;
	static final Integer[] cache;
	static Integer[] archivedCache;

	static {
    	int h = 127;
    	String integerCacheHighPropValue =
        	VM.getSavedProperty("java.lang.Integer.IntegerCache.high");
    	if (integerCacheHighPropValue != null) {
        	try {
            	h = Math.max(parseInt(integerCacheHighPropValue), 127);
            	h = Math.min(h, Integer.MAX_VALUE - (-low) -1);
        	} catch( NumberFormatException nfe) {
        	}
    	}
    	high = h;

    	VM.initializeFromArchive(IntegerCache.class);
    	int size = (high - low) + 1;

    	if (archivedCache == null || size > archivedCache.length) {
        	Integer[] c = new Integer[size];
        	int j = low;
        	for(int i = 0; i < c.length; i++) {
            	c[i] = new Integer(j++);
        	}
        	archivedCache = c;
    	}
    	cache = archivedCache;
    	assert IntegerCache.high >= 127;
}

	private IntegerCache() {}
}

IntegerCache封裝了創建緩存和存儲緩存範圍以及緩存值本身的功能。因此,與緩存相關的所有內容都保存在一個單獨的類中。這使得閱讀和修改代碼變得更加容易。使用該類的代碼:

public static Integer valueOf(int i) {
	if (i >= IntegerCache.low && i <= IntegerCache.high)
    		return IntegerCache.cache[i + (-IntegerCache.low)];
	return new Integer(i);
}

IntegerCache類不訪問Integer類非靜態字段和方法。此外,它只能在靜態valueOf方法中訪問。也就是說,它綁定到Integer類本身,而不是它的各個實例。這意味著IntegerCache是靜態的。

匿名內部類的例子

作為匿名類的示例,讓我們以InputStream及其靜態nullInputStream方法為例:

public static InputStream nullInputStream() {
    return new InputStream() {
    	private volatile boolean closed;

    	private void ensureOpen() throws IOException {
        	if (closed) {
            		throw new IOException("Stream closed");
        	}
    	}

    	@Override
    	public int available () throws IOException {
        	ensureOpen();
        	return 0;
    	}

    	@Override
    	public int read() throws IOException {
        	ensureOpen();
        	return -1;
    	}

    	@Override
    	public int read(byte[] b, int off, int len) throws IOException {
        	Objects.checkFromIndexSize(off, len, b.length);
        	if (len == 0) {
            		return 0;
        	}
        	ensureOpen();
        	return -1;
    	}

    	@Override
    	public byte[] readAllBytes() throws IOException {
        	ensureOpen();
        	return new byte[0];
    	}

    	@Override
    	public int readNBytes(byte[] b, int off, int len)throws IOException {
        	Objects.checkFromIndexSize(off, len, b.length);
        	ensureOpen();
        	return 0;
    	}

    	@Override
   	 public byte[] readNBytes(int len) throws IOException {
        	if (len < 0) {
            		throw new IllegalArgumentException("len < 0");
        	}
        	ensureOpen();
        	return new byte[0];
    	}

    	@Override
    	public long skip(long n) throws IOException {
        	ensureOpen();
        	return 0L;
    	}

    	@Override
    	public void skipNBytes(long n) throws IOException {
        	ensureOpen();
        	if (n > 0) {
            		throw new EOFException();
        	}
    	}

    	@Override
    	public long transferTo(OutputStream out) throws IOException {
        	Objects.requireNonNull(out);
        	ensureOpen();
        	return 0L;
    	}

    	@Override
    	public void close() throws IOException {
        	closed = true;
    	}
    };
}

該方法返回一個空的InputStream,由匿名類實現。因為該類不應該有後代,所以我們將其設為匿名。

隨著 Java Stream API 的加入,匿名類變得無處不在:所有的 lambda 表達式都是實現了一些函數式接口的匿名類。考慮一些例子。

AbstractStringBuilder類包含著名的StringBuilderStringBuffer類父類:

@Override
public IntStream chars() {
	return StreamSupport.intStream(
        	() -> {
            	byte[] val = this.value;
            	int count = this.count;
            	byte coder = this.coder;
            	return coder == LATIN1
                   	? new StringLatin1.CharsSpliterator(val, 0, count, 0)
                   	: new StringUTF16.CharsSpliterator(val, 0, count, 0);
        	},
        	Spliterator.ORDERED | Spliterator.SIZED | Spliterator.SUBSIZED,
        	false);
}

Files類有一個用於將Closeable轉換為Runnable 的方法

private static Runnable asUncheckedRunnable(Closeable c) {
	return () -> {
    	try {
        	c.close();
    	} catch (IOException e) {
        	throw new UncheckedIOException(e);
    	}
	};
}

Class有一個獲取方法的字符串表示的方法:

private String methodToString(String name, Class<?>[] argTypes) {
	return getName() + '.' + name +
        	((argTypes == null || argTypes.length == 0) ?
        	"()" :
        	Arrays.stream(argTypes)
        	        .map(c -> c == null ? "null" : c.getName())
                	.collect(Collectors.joining(",", "(", ")")));
}