bundleplugin/src/main/java/aQute/lib/index/Index.java - onos-felix - Gitiles

 package aQute.lib.index;

 import java.io.*;
 import java.nio.*;
 import java.nio.channels.*;
 import java.nio.channels.FileChannel.MapMode;
 import java.util.*;

 /**
  * <pre>
  *   0   ->   0, 122   -> 1
  *   123 -> 123, 244   -> 2
  *   245 -> 245, ...
  * </pre>
  *
  *
  */
 public class Index implements Iterable<byte[]> {
 	final static int					LEAF		= 0;
 	final static int					INDEX		= 1;

 	final static int					SIGNATURE	= 0;
 	final static int					MAGIC		= 0x494C4458;
 	final static int					KEYSIZE		= 4;

 	private FileChannel					file;
 	final int							pageSize	= 4096;
 	final int							keySize;
 	final int							valueSize	= 8;
 	final int							capacity;
 	public Page							root;
 	final LinkedHashMap<Integer, Page>	cache		= new LinkedHashMap<Integer, Index.Page>();
 	final MappedByteBuffer				settings;

 	private int							nextPage;

 	class Page {
 		final int				TYPE_OFFSET		= 0;
 		final int				COUNT_OFFSET	= 2;
 		final static int		START_OFFSET	= 4;
 		final int				number;
 		boolean					leaf;
 		final MappedByteBuffer	buffer;
 		int						n				= 0;
 		boolean					dirty;

 		Page(int number) throws IOException {
 			this.number = number;
 			buffer = file.map(MapMode.READ_WRITE, number * pageSize, pageSize);
 			n = buffer.getShort(COUNT_OFFSET);
 			int type = buffer.getShort(TYPE_OFFSET);
 			leaf = type != 0;
 		}

 		Page(int number, boolean leaf) throws IOException {
 			this.number = number;
 			this.leaf = leaf;
 			this.n = 0;
 			buffer = file.map(MapMode.READ_WRITE, number * pageSize, pageSize);
 		}

 		Iterator<byte[]> iterator() {
 			return new Iterator<byte[]>() {
 				Iterator<byte[]>	i;
 				int					rover	= 0;

 				public byte[] next() {
 					if (leaf) {
 						return k(rover++);
 					}

 					return i.next();
 				}

 				public boolean hasNext() {
 					try {
 						if (leaf)
 							return rover < n;
 						else {
 							while (i == null || i.hasNext() == false) {
 								int c = (int) c(rover++);
 								i = getPage(c).iterator();
 							}
 							return i.hasNext();
 						}
 					} catch (IOException e) {
 						throw new RuntimeException(e);
 					}

 				}

 				public void remove() {
 					throw new UnsupportedOperationException();
 				}

 			};
 		}

 		void write() throws IOException {
 			buffer.putShort(COUNT_OFFSET, (short) n);
 			buffer.put(TYPE_OFFSET, (byte) (leaf ? 1 : 0));
 			buffer.force();
 		}

 		int compare(byte[] key, int i) {
 			int index = pos(i);
 			for (int j = 0; j < keySize; j++, index++) {
 				int a = 0;
 				if (j < key.length)
 					a = key[j] & 0xFF;

 				int b = buffer.get(index) & 0xFF;
 				if (a == b)
 					continue;

 				return a > b ? 1 : -1;
 			}
 			return 0;
 		}

 		int pos(int i) {
 			return START_OFFSET + size(i);
 		}

 		int size(int n) {
 			return n * (keySize + valueSize);
 		}

 		void copyFrom(Page page, int start, int length) {
 			copy(page.buffer, pos(start), buffer, pos(0), size(length));
 		}

 		void copy(ByteBuffer src, int srcPos, ByteBuffer dst, int dstPos, int length) {
 			if (srcPos < dstPos) {
 				while (length-- > 0)
 					dst.put(dstPos + length, src.get(srcPos + length));

 			} else {
 				while (length-- > 0)
 					dst.put(dstPos++, src.get(srcPos++));
 			}
 		}

 		long search(byte[] k) throws Exception {
 			int cmp = 0;
 			int i = n - 1;
 			while (i >= 0 && (cmp = compare(k, i)) < 0)
 				i--;

 			if (leaf) {
 				if (cmp != 0)
 					return -1;
 				else
 					return c(i);
 			} else {
 				long value = c(i);
 				Page child = getPage((int) value);
 				return child.search(k);
 			}
 		}

 		void insert(byte[] k, long v) throws IOException {
 			if (n == capacity) {
 				int t = capacity / 2;
 				Page left = allocate(leaf);
 				Page right = allocate(leaf);
 				left.copyFrom(this, 0, t);
 				left.n = t;
 				right.copyFrom(this, t, capacity - t);
 				right.n = capacity - t;
 				leaf = false;
 				set(0, left.k(0), left.number);
 				set(1, right.k(0), right.number);
 				n = 2;
 				left.write();
 				right.write();
 			}
 			insertNonFull(k, v);
 		}

 		byte[] k(int i) {
 			buffer.position(pos(i));
 			byte[] key = new byte[keySize];
 			buffer.get(key);
 			return key;
 		}

 		long c(int i) {
 			if (i < 0) {
 				System.out.println("Arghhh");
 			}
 			int index = pos(i) + keySize;
 			return buffer.getLong(index);
 		}

 		void set(int i, byte[] k, long v) {
 			int index = pos(i);
 			for (int j = 0; j < keySize; j++) {
 				byte a = 0;
 				if (j < k.length)
 					a = k[j];
 				buffer.put(index + j, a);
 			}
 			buffer.putLong(index + keySize, v);
 		}

 		void insertNonFull(byte[] k, long v) throws IOException {
 			int cmp = 0;
 			int i = n - 1;
 			while (i >= 0 && (cmp = compare(k, i)) < 0)
 				i--;

 			if (leaf) {
 				if (cmp != 0) {
 					i++;
 					if (i != n)
 						copy(buffer, pos(i), buffer, pos(i + 1), size(n - i));
 				}
 				set(i, k, v);
 				n++;
 				dirty = true;
 			} else {
 				long value = c(i);
 				Page child = getPage((int) value);

 				if (child.n == capacity) {
 					Page left = child;
 					int t = capacity / 2;
 					Page right = allocate(child.leaf);
 					right.copyFrom(left, t, capacity - t);
 					right.n = capacity - t;
 					left.n = t;
 					i++; // place to insert
 					if (i < n) // ok if at end
 						copy(buffer, pos(i), buffer, pos(i + 1), size(n - i));
 					set(i, right.k(0), right.number);
 					n++;
 					assert i < n;
 					child = right.compare(k, 0) >= 0 ? right : left;
 					left.dirty = true;
 					right.dirty = true;
 					this.dirty = true;
 				}
 				child.insertNonFull(k, v);
 			}
 			write();
 		}

 		public String toString() {
 			StringBuilder sb = new StringBuilder();
 			try {
 				toString( sb, "");
 			} catch (IOException e) {
 				e.printStackTrace();
 			}
 			return sb.toString();
 		}

 		public void toString( StringBuilder sb, String indent ) throws IOException {
 			for (int i = 0; i < n; i++) {
 				sb.append(String.format("%s %02d:%02d %20s %s %d\n", indent, number, i, hex(k(i), 0, 4), leaf ? "==" : "->", c(i)));
 				if (! leaf ) {
 					long c = c(i);
 					Page sub = getPage((int)c);
 					sub.toString(sb,indent+" ");
 				}
 			}
 		}

 		private String hex(byte[] k, int i, int j) {
 			StringBuilder sb = new StringBuilder();

 			while ( i < j) {
 				int b = 0xFF & k[i];
 				sb.append(nibble(b>>4));
 				sb.append(nibble(b));
 				i++;
 			}
 			return sb.toString();
 		}

 		private char nibble(int i) {
 			i = i & 0xF;
 			return (char) ( i >= 10 ? i + 'A' - 10 : i + '0');
 		}

 	}

 	public Index(File file, int keySize) throws IOException {
 		capacity = (pageSize - Page.START_OFFSET) / (keySize + valueSize);
 		RandomAccessFile raf = new RandomAccessFile(file, "rw");
 		this.file = raf.getChannel();
 		settings = this.file.map(MapMode.READ_WRITE, 0, pageSize);
 		if (this.file.size() == pageSize) {
 			this.keySize = keySize;
 			settings.putInt(SIGNATURE, MAGIC);
 			settings.putInt(KEYSIZE, keySize);
 			nextPage = 1;
 			root = allocate(true);
 			root.n = 1;
 			root.set(0, new byte[KEYSIZE], 0);
 			root.write();
 		} else {
 			if (settings.getInt(SIGNATURE) != MAGIC)
 				throw new IllegalStateException("No Index file, magic is not " + MAGIC);

 			this.keySize = settings.getInt(KEYSIZE);
 			if (keySize != 0 && this.keySize != keySize)
 				throw new IllegalStateException("Invalid key size for Index file. The file is "
 						+ this.keySize + " and was expected to be " + this.keySize);

 			root = getPage(1);
 			nextPage = (int) (this.file.size() / pageSize);
 		}
 	}

 	public void insert(byte[] k, long v) throws Exception {
 		root.insert(k, v);
 	}

 	public long search(byte[] k) throws Exception {
 		return root.search(k);
 	}

 	Page allocate(boolean leaf) throws IOException {
 		Page page = new Page(nextPage++, leaf);
 		cache.put(page.number, page);
 		return page;
 	}

 	Page getPage(int number) throws IOException {
 		Page page = cache.get(number);
 		if (page == null) {
 			page = new Page(number);
 			cache.put(number, page);
 		}
 		return page;
 	}

 	public String toString() {
 		return root.toString();
 	}

 	public void close() throws IOException {
 		file.close();
 		cache.clear();
 	}

 	public Iterator<byte[]> iterator() {
 		return root.iterator();
 	}
 }
	package aQute.lib.index;

	import java.io.*;
	import java.nio.*;
	import java.nio.channels.*;
	import java.nio.channels.FileChannel.MapMode;
	import java.util.*;

	/**
	* <pre>
	* 0 -> 0, 122 -> 1
	* 123 -> 123, 244 -> 2
	* 245 -> 245, ...
	* </pre>
	*
	*
	*/
	public class Index implements Iterable<byte[]> {
	final static int LEAF = 0;
	final static int INDEX = 1;

	final static int SIGNATURE = 0;
	final static int MAGIC = 0x494C4458;
	final static int KEYSIZE = 4;

	private FileChannel file;
	final int pageSize = 4096;
	final int keySize;
	final int valueSize = 8;
	final int capacity;
	public Page root;
	final LinkedHashMap<Integer, Page> cache = new LinkedHashMap<Integer, Index.Page>();
	final MappedByteBuffer settings;

	private int nextPage;

	class Page {
	final int TYPE_OFFSET = 0;
	final int COUNT_OFFSET = 2;
	final static int START_OFFSET = 4;
	final int number;
	boolean leaf;
	final MappedByteBuffer buffer;
	int n = 0;
	boolean dirty;

	Page(int number) throws IOException {
	this.number = number;
	buffer = file.map(MapMode.READ_WRITE, number * pageSize, pageSize);
	n = buffer.getShort(COUNT_OFFSET);
	int type = buffer.getShort(TYPE_OFFSET);
	leaf = type != 0;
	}

	Page(int number, boolean leaf) throws IOException {
	this.number = number;
	this.leaf = leaf;
	this.n = 0;
	buffer = file.map(MapMode.READ_WRITE, number * pageSize, pageSize);
	}

	Iterator<byte[]> iterator() {
	return new Iterator<byte[]>() {
	Iterator<byte[]> i;
	int rover = 0;

	public byte[] next() {
	if (leaf) {
	return k(rover++);
	}

	return i.next();
	}

	public boolean hasNext() {
	try {
	if (leaf)
	return rover < n;
	else {
	while (i == null \|\| i.hasNext() == false) {
	int c = (int) c(rover++);
	i = getPage(c).iterator();
	}
	return i.hasNext();
	}
	} catch (IOException e) {
	throw new RuntimeException(e);
	}

	}

	public void remove() {
	throw new UnsupportedOperationException();
	}

	};
	}

	void write() throws IOException {
	buffer.putShort(COUNT_OFFSET, (short) n);
	buffer.put(TYPE_OFFSET, (byte) (leaf ? 1 : 0));
	buffer.force();
	}

	int compare(byte[] key, int i) {
	int index = pos(i);
	for (int j = 0; j < keySize; j++, index++) {
	int a = 0;
	if (j < key.length)
	a = key[j] & 0xFF;

	int b = buffer.get(index) & 0xFF;
	if (a == b)
	continue;

	return a > b ? 1 : -1;
	}
	return 0;
	}

	int pos(int i) {
	return START_OFFSET + size(i);
	}

	int size(int n) {
	return n * (keySize + valueSize);
	}

	void copyFrom(Page page, int start, int length) {
	copy(page.buffer, pos(start), buffer, pos(0), size(length));
	}

	void copy(ByteBuffer src, int srcPos, ByteBuffer dst, int dstPos, int length) {
	if (srcPos < dstPos) {
	while (length-- > 0)
	dst.put(dstPos + length, src.get(srcPos + length));

	} else {
	while (length-- > 0)
	dst.put(dstPos++, src.get(srcPos++));
	}
	}

	long search(byte[] k) throws Exception {
	int cmp = 0;
	int i = n - 1;
	while (i >= 0 && (cmp = compare(k, i)) < 0)
	i--;

	if (leaf) {
	if (cmp != 0)
	return -1;
	else
	return c(i);
	} else {
	long value = c(i);
	Page child = getPage((int) value);
	return child.search(k);
	}
	}

	void insert(byte[] k, long v) throws IOException {
	if (n == capacity) {
	int t = capacity / 2;
	Page left = allocate(leaf);
	Page right = allocate(leaf);
	left.copyFrom(this, 0, t);
	left.n = t;
	right.copyFrom(this, t, capacity - t);
	right.n = capacity - t;
	leaf = false;
	set(0, left.k(0), left.number);
	set(1, right.k(0), right.number);
	n = 2;
	left.write();
	right.write();
	}
	insertNonFull(k, v);
	}

	byte[] k(int i) {
	buffer.position(pos(i));
	byte[] key = new byte[keySize];
	buffer.get(key);
	return key;
	}

	long c(int i) {
	if (i < 0) {
	System.out.println("Arghhh");
	}
	int index = pos(i) + keySize;
	return buffer.getLong(index);
	}

	void set(int i, byte[] k, long v) {
	int index = pos(i);
	for (int j = 0; j < keySize; j++) {
	byte a = 0;
	if (j < k.length)
	a = k[j];
	buffer.put(index + j, a);
	}
	buffer.putLong(index + keySize, v);
	}

	void insertNonFull(byte[] k, long v) throws IOException {
	int cmp = 0;
	int i = n - 1;
	while (i >= 0 && (cmp = compare(k, i)) < 0)
	i--;

	if (leaf) {
	if (cmp != 0) {
	i++;
	if (i != n)
	copy(buffer, pos(i), buffer, pos(i + 1), size(n - i));
	}
	set(i, k, v);
	n++;
	dirty = true;
	} else {
	long value = c(i);
	Page child = getPage((int) value);

	if (child.n == capacity) {
	Page left = child;
	int t = capacity / 2;
	Page right = allocate(child.leaf);
	right.copyFrom(left, t, capacity - t);
	right.n = capacity - t;
	left.n = t;
	i++; // place to insert
	if (i < n) // ok if at end
	copy(buffer, pos(i), buffer, pos(i + 1), size(n - i));
	set(i, right.k(0), right.number);
	n++;
	assert i < n;
	child = right.compare(k, 0) >= 0 ? right : left;
	left.dirty = true;
	right.dirty = true;
	this.dirty = true;
	}
	child.insertNonFull(k, v);
	}
	write();
	}

	public String toString() {
	StringBuilder sb = new StringBuilder();
	try {
	toString( sb, "");
	} catch (IOException e) {
	e.printStackTrace();
	}
	return sb.toString();
	}

	public void toString( StringBuilder sb, String indent ) throws IOException {
	for (int i = 0; i < n; i++) {
	sb.append(String.format("%s %02d:%02d %20s %s %d\n", indent, number, i, hex(k(i), 0, 4), leaf ? "==" : "->", c(i)));
	if (! leaf ) {
	long c = c(i);
	Page sub = getPage((int)c);
	sub.toString(sb,indent+" ");
	}
	}
	}

	private String hex(byte[] k, int i, int j) {
	StringBuilder sb = new StringBuilder();

	while ( i < j) {
	int b = 0xFF & k[i];
	sb.append(nibble(b>>4));
	sb.append(nibble(b));
	i++;
	}
	return sb.toString();
	}

	private char nibble(int i) {
	i = i & 0xF;
	return (char) ( i >= 10 ? i + 'A' - 10 : i + '0');
	}

	}

	public Index(File file, int keySize) throws IOException {
	capacity = (pageSize - Page.START_OFFSET) / (keySize + valueSize);
	RandomAccessFile raf = new RandomAccessFile(file, "rw");
	this.file = raf.getChannel();
	settings = this.file.map(MapMode.READ_WRITE, 0, pageSize);
	if (this.file.size() == pageSize) {
	this.keySize = keySize;
	settings.putInt(SIGNATURE, MAGIC);
	settings.putInt(KEYSIZE, keySize);
	nextPage = 1;
	root = allocate(true);
	root.n = 1;
	root.set(0, new byte[KEYSIZE], 0);
	root.write();
	} else {
	if (settings.getInt(SIGNATURE) != MAGIC)
	throw new IllegalStateException("No Index file, magic is not " + MAGIC);

	this.keySize = settings.getInt(KEYSIZE);
	if (keySize != 0 && this.keySize != keySize)
	throw new IllegalStateException("Invalid key size for Index file. The file is "
	+ this.keySize + " and was expected to be " + this.keySize);

	root = getPage(1);
	nextPage = (int) (this.file.size() / pageSize);
	}
	}

	public void insert(byte[] k, long v) throws Exception {
	root.insert(k, v);
	}

	public long search(byte[] k) throws Exception {
	return root.search(k);
	}

	Page allocate(boolean leaf) throws IOException {
	Page page = new Page(nextPage++, leaf);
	cache.put(page.number, page);
	return page;
	}

	Page getPage(int number) throws IOException {
	Page page = cache.get(number);
	if (page == null) {
	page = new Page(number);
	cache.put(number, page);
	}
	return page;
	}

	public String toString() {
	return root.toString();
	}

	public void close() throws IOException {
	file.close();
	cache.clear();
	}

	public Iterator<byte[]> iterator() {
	return root.iterator();
	}
	}