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/*
 * Copyright (C) 2006-2008, Shawn O. Pearce 
 * and other copyright owners as documented in the project's IP log.
 *
 * This program and the accompanying materials are made available
 * under the terms of the Eclipse Distribution License v1.0 which
 * accompanies this distribution, is reproduced below, and is
 * available at http://www.eclipse.org/org/documents/edl-v10.php
 *
 * All rights reserved.
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package org.eclipse.jgit.lib;

import java.io.IOException;
import java.io.OutputStream;
import java.io.Writer;
import java.nio.ByteBuffer;

import org.eclipse.jgit.util.NB;

/**
 * A (possibly mutable) SHA-1 abstraction.
 * 

* If this is an instance of {@link MutableObjectId} the concept of equality * with this instance can alter at any time, if this instance is modified to * represent a different object name. */ public abstract class AnyObjectId implements Comparable { /** * Compare to object identifier byte sequences for equality. * * @param firstObjectId * the first identifier to compare. Must not be null. * @param secondObjectId * the second identifier to compare. Must not be null. * @return true if the two identifiers are the same. */ public static boolean equals(final AnyObjectId firstObjectId, final AnyObjectId secondObjectId) { if (firstObjectId == secondObjectId) return true; // We test word 2 first as odds are someone already used our // word 1 as a hash code, and applying that came up with these // two instances we are comparing for equality. Therefore the // first two words are very likely to be identical. We want to // break away from collisions as quickly as possible. // return firstObjectId.w2 == secondObjectId.w2 && firstObjectId.w3 == secondObjectId.w3 && firstObjectId.w4 == secondObjectId.w4 && firstObjectId.w5 == secondObjectId.w5 && firstObjectId.w1 == secondObjectId.w1; } int w1; int w2; int w3; int w4; int w5; /** * Get the first 8 bits of the ObjectId. * * This is a faster version of {@code getByte(0)}. * * @return a discriminator usable for a fan-out style map. Returned values * are unsigned and thus are in the range [0,255] rather than the * signed byte range of [-128, 127]. */ public final int getFirstByte() { return w1 >>> 24; } /** * Get any byte from the ObjectId. * * Callers hard-coding {@code getByte(0)} should instead use the much faster * special case variant {@link #getFirstByte()}. * * @param index * index of the byte to obtain from the raw form of the ObjectId. * Must be in range [0, {@link Constants#OBJECT_ID_LENGTH}). * @return the value of the requested byte at {@code index}. Returned values * are unsigned and thus are in the range [0,255] rather than the * signed byte range of [-128, 127]. * @throws ArrayIndexOutOfBoundsException * {@code index} is less than 0, equal to * {@link Constants#OBJECT_ID_LENGTH}, or greater than * {@link Constants#OBJECT_ID_LENGTH}. */ public final int getByte(int index) { int w; switch (index >> 2) { case 0: w = w1; break; case 1: w = w2; break; case 2: w = w3; break; case 3: w = w4; break; case 4: w = w5; break; default: throw new ArrayIndexOutOfBoundsException(index); } return (w >>> (8 * (3 - (index & 3)))) & 0xff; } /** * Compare this ObjectId to another and obtain a sort ordering. * * @param other * the other id to compare to. Must not be null. * @return < 0 if this id comes before other; 0 if this id is equal to * other; > 0 if this id comes after other. */ public final int compareTo(final AnyObjectId other) { if (this == other) return 0; int cmp; cmp = NB.compareUInt32(w1, other.w1); if (cmp != 0) return cmp; cmp = NB.compareUInt32(w2, other.w2); if (cmp != 0) return cmp; cmp = NB.compareUInt32(w3, other.w3); if (cmp != 0) return cmp; cmp = NB.compareUInt32(w4, other.w4); if (cmp != 0) return cmp; return NB.compareUInt32(w5, other.w5); } public final int compareTo(final Object other) { return compareTo(((AnyObjectId) other)); } /** * Compare this ObjectId to a network-byte-order ObjectId. * * @param bs * array containing the other ObjectId in network byte order. * @param p * position within {@code bs} to start the compare at. At least * 20 bytes, starting at this position are required. * @return a negative integer, zero, or a positive integer as this object is * less than, equal to, or greater than the specified object. */ public final int compareTo(final byte[] bs, final int p) { int cmp; cmp = NB.compareUInt32(w1, NB.decodeInt32(bs, p)); if (cmp != 0) return cmp; cmp = NB.compareUInt32(w2, NB.decodeInt32(bs, p + 4)); if (cmp != 0) return cmp; cmp = NB.compareUInt32(w3, NB.decodeInt32(bs, p + 8)); if (cmp != 0) return cmp; cmp = NB.compareUInt32(w4, NB.decodeInt32(bs, p + 12)); if (cmp != 0) return cmp; return NB.compareUInt32(w5, NB.decodeInt32(bs, p + 16)); } /** * Compare this ObjectId to a network-byte-order ObjectId. * * @param bs * array containing the other ObjectId in network byte order. * @param p * position within {@code bs} to start the compare at. At least 5 * integers, starting at this position are required. * @return a negative integer, zero, or a positive integer as this object is * less than, equal to, or greater than the specified object. */ public final int compareTo(final int[] bs, final int p) { int cmp; cmp = NB.compareUInt32(w1, bs[p]); if (cmp != 0) return cmp; cmp = NB.compareUInt32(w2, bs[p + 1]); if (cmp != 0) return cmp; cmp = NB.compareUInt32(w3, bs[p + 2]); if (cmp != 0) return cmp; cmp = NB.compareUInt32(w4, bs[p + 3]); if (cmp != 0) return cmp; return NB.compareUInt32(w5, bs[p + 4]); } /** * Tests if this ObjectId starts with the given abbreviation. * * @param abbr * the abbreviation. * @return true if this ObjectId begins with the abbreviation; else false. */ public boolean startsWith(final AbbreviatedObjectId abbr) { return abbr.prefixCompare(this) == 0; } public final int hashCode() { return w2; } /** * Determine if this ObjectId has exactly the same value as another. * * @param other * the other id to compare to. May be null. * @return true only if both ObjectIds have identical bits. */ public final boolean equals(final AnyObjectId other) { return other != null ? equals(this, other) : false; } public final boolean equals(final Object o) { if (o instanceof AnyObjectId) return equals((AnyObjectId) o); else return false; } /** * Copy this ObjectId to an output writer in raw binary. * * @param w * the buffer to copy to. Must be in big endian order. */ public void copyRawTo(final ByteBuffer w) { w.putInt(w1); w.putInt(w2); w.putInt(w3); w.putInt(w4); w.putInt(w5); } /** * Copy this ObjectId to a byte array. * * @param b * the buffer to copy to. * @param o * the offset within b to write at. */ public void copyRawTo(final byte[] b, final int o) { NB.encodeInt32(b, o, w1); NB.encodeInt32(b, o + 4, w2); NB.encodeInt32(b, o + 8, w3); NB.encodeInt32(b, o + 12, w4); NB.encodeInt32(b, o + 16, w5); } /** * Copy this ObjectId to an int array. * * @param b * the buffer to copy to. * @param o * the offset within b to write at. */ public void copyRawTo(final int[] b, final int o) { b[o] = w1; b[o + 1] = w2; b[o + 2] = w3; b[o + 3] = w4; b[o + 4] = w5; } /** * Copy this ObjectId to an output writer in raw binary. * * @param w * the stream to write to. * @throws IOException * the stream writing failed. */ public void copyRawTo(final OutputStream w) throws IOException { writeRawInt(w, w1); writeRawInt(w, w2); writeRawInt(w, w3); writeRawInt(w, w4); writeRawInt(w, w5); } private static void writeRawInt(final OutputStream w, int v) throws IOException { w.write(v >>> 24); w.write(v >>> 16); w.write(v >>> 8); w.write(v); } /** * Copy this ObjectId to an output writer in hex format. * * @param w * the stream to copy to. * @throws IOException * the stream writing failed. */ public void copyTo(final OutputStream w) throws IOException { w.write(toHexByteArray()); } /** * Copy this ObjectId to a byte array in hex format. * * @param b * the buffer to copy to. * @param o * the offset within b to write at. */ public void copyTo(byte[] b, int o) { formatHexByte(b, o + 0, w1); formatHexByte(b, o + 8, w2); formatHexByte(b, o + 16, w3); formatHexByte(b, o + 24, w4); formatHexByte(b, o + 32, w5); } /** * Copy this ObjectId to a ByteBuffer in hex format. * * @param b * the buffer to copy to. */ public void copyTo(ByteBuffer b) { b.put(toHexByteArray()); } private byte[] toHexByteArray() { final byte[] dst = new byte[Constants.OBJECT_ID_STRING_LENGTH]; formatHexByte(dst, 0, w1); formatHexByte(dst, 8, w2); formatHexByte(dst, 16, w3); formatHexByte(dst, 24, w4); formatHexByte(dst, 32, w5); return dst; } private static final byte[] hexbyte = { '0', '1', '2', '3', '4', '5', '6', '7', '8', '9', 'a', 'b', 'c', 'd', 'e', 'f' }; private static void formatHexByte(final byte[] dst, final int p, int w) { int o = p + 7; while (o >= p && w != 0) { dst[o--] = hexbyte[w & 0xf]; w >>>= 4; } while (o >= p) dst[o--] = '0'; } /** * Copy this ObjectId to an output writer in hex format. * * @param w * the stream to copy to. * @throws IOException * the stream writing failed. */ public void copyTo(final Writer w) throws IOException { w.write(toHexCharArray()); } /** * Copy this ObjectId to an output writer in hex format. * * @param tmp * temporary char array to buffer construct into before writing. * Must be at least large enough to hold 2 digits for each byte * of object id (40 characters or larger). * @param w * the stream to copy to. * @throws IOException * the stream writing failed. */ public void copyTo(final char[] tmp, final Writer w) throws IOException { toHexCharArray(tmp); w.write(tmp, 0, Constants.OBJECT_ID_STRING_LENGTH); } /** * Copy this ObjectId to a StringBuilder in hex format. * * @param tmp * temporary char array to buffer construct into before writing. * Must be at least large enough to hold 2 digits for each byte * of object id (40 characters or larger). * @param w * the string to append onto. */ public void copyTo(final char[] tmp, final StringBuilder w) { toHexCharArray(tmp); w.append(tmp, 0, Constants.OBJECT_ID_STRING_LENGTH); } private char[] toHexCharArray() { final char[] dst = new char[Constants.OBJECT_ID_STRING_LENGTH]; toHexCharArray(dst); return dst; } private void toHexCharArray(final char[] dst) { formatHexChar(dst, 0, w1); formatHexChar(dst, 8, w2); formatHexChar(dst, 16, w3); formatHexChar(dst, 24, w4); formatHexChar(dst, 32, w5); } private static final char[] hexchar = { '0', '1', '2', '3', '4', '5', '6', '7', '8', '9', 'a', 'b', 'c', 'd', 'e', 'f' }; static void formatHexChar(final char[] dst, final int p, int w) { int o = p + 7; while (o >= p && w != 0) { dst[o--] = hexchar[w & 0xf]; w >>>= 4; } while (o >= p) dst[o--] = '0'; } @SuppressWarnings("nls") @Override public String toString() { return "AnyObjectId[" + name() + "]"; } /** * @return string form of the SHA-1, in lower case hexadecimal. */ public final String name() { return new String(toHexCharArray()); } /** * @return string form of the SHA-1, in lower case hexadecimal. */ public final String getName() { return name(); } /** * Return an abbreviation (prefix) of this object SHA-1. *

* This implementation does not guarantee uniqueness. Callers should * instead use {@link ObjectReader#abbreviate(AnyObjectId, int)} to obtain a * unique abbreviation within the scope of a particular object database. * * @param len * length of the abbreviated string. * @return SHA-1 abbreviation. */ public AbbreviatedObjectId abbreviate(final int len) { final int a = AbbreviatedObjectId.mask(len, 1, w1); final int b = AbbreviatedObjectId.mask(len, 2, w2); final int c = AbbreviatedObjectId.mask(len, 3, w3); final int d = AbbreviatedObjectId.mask(len, 4, w4); final int e = AbbreviatedObjectId.mask(len, 5, w5); return new AbbreviatedObjectId(len, a, b, c, d, e); } /** * Obtain an immutable copy of this current object name value. *

* Only returns this if this instance is an unsubclassed * instance of {@link ObjectId}; otherwise a new instance is returned * holding the same value. *

* This method is useful to shed any additional memory that may be tied to * the subclass, yet retain the unique identity of the object id for future * lookups within maps and repositories. * * @return an immutable copy, using the smallest memory footprint possible. */ public final ObjectId copy() { if (getClass() == ObjectId.class) return (ObjectId) this; return new ObjectId(this); } /** * Obtain an immutable copy of this current object name value. *

* See {@link #copy()} if this is a possibly subclassed (but * immutable) identity and the application needs a lightweight identity * only reference. * * @return an immutable copy. May be this if this is already * an immutable instance. */ public abstract ObjectId toObjectId(); }