@Override protected void process(ByteBuffer buffer) { b += CHUNK_SIZE; processM(buffer.getLong()); }
@Override protected void process(ByteBuffer buffer) { b += CHUNK_SIZE; processM(buffer.getLong()); }
@Override protected void process(ByteBuffer buffer) { b += CHUNK_SIZE; processM(buffer.getLong()); }
@Override protected void process(ByteBuffer buffer) { b += CHUNK_SIZE; processM(buffer.getLong()); }
@Override protected void process(ByteBuffer buffer) { b += CHUNK_SIZE; processM(buffer.getLong()); }
@Override protected void process(ByteBuffer buffer) { b += CHUNK_SIZE; processM(buffer.getLong()); }
@Override public HashCode makeHash() { // End with a byte encoding the positive integer b mod 256. finalM ^= b << 56; processM(finalM); // Finalization v2 ^= 0xFFL; sipRound(d); return HashCode.fromLong(v0 ^ v1 ^ v2 ^ v3); }
@Override protected void process(ByteBuffer buffer) { b += CHUNK_SIZE; processM(buffer.getLong()); }
@Override public HashCode makeHash() { // End with a byte encoding the positive integer b mod 256. finalM ^= b << 56; processM(finalM); // Finalization v2 ^= 0xFFL; sipRound(d); return HashCode.fromLong(v0 ^ v1 ^ v2 ^ v3); }
@Override protected void process(ByteBuffer buffer) { b += CHUNK_SIZE; processM(buffer.getLong()); }
@Override public HashCode makeHash() { // End with a byte encoding the positive integer b mod 256. finalM ^= b << 56; processM(finalM); // Finalization v2 ^= 0xFFL; sipRound(d); return HashCode.fromLong(v0 ^ v1 ^ v2 ^ v3); }
@Override public HashCode makeHash() { // End with a byte encoding the positive integer b mod 256. finalM ^= b << 56; processM(finalM); // Finalization v2 ^= 0xFFL; sipRound(d); return HashCode.fromLong(v0 ^ v1 ^ v2 ^ v3); }
@Override public HashCode makeHash() { // End with a byte encoding the positive integer b mod 256. finalM ^= b << 56; processM(finalM); // Finalization v2 ^= 0xFFL; sipRound(d); return HashCode.fromLong(v0 ^ v1 ^ v2 ^ v3); }
@Override protected void process(ByteBuffer buffer) { b += CHUNK_SIZE; processM(buffer.getLong()); }
@Override public HashCode makeHash() { // End with a byte encoding the positive integer b mod 256. finalM ^= b << 56; processM(finalM); // Finalization v2 ^= 0xFFL; sipRound(d); return HashCode.fromLong(v0 ^ v1 ^ v2 ^ v3); }
@Override public HashCode makeHash() { // End with a byte encoding the positive integer b mod 256. finalM ^= b << 56; processM(finalM); // Finalization v2 ^= 0xFFL; sipRound(d); return HashCode.fromLong(v0 ^ v1 ^ v2 ^ v3); }
@Override public HashCode makeHash() { // End with a byte encoding the positive integer b mod 256. finalM ^= b << 56; processM(finalM); // Finalization v2 ^= 0xFFL; sipRound(d); return HashCode.fromLong(v0 ^ v1 ^ v2 ^ v3); }
@Override public HashCode makeHash() { // End with a byte encoding the positive integer b mod 256. finalM ^= b << 56; processM(finalM); // Finalization v2 ^= 0xFFL; sipRound(d); return HashCode.fromLong(v0 ^ v1 ^ v2 ^ v3); }
@Override public HashCode makeHash() { // End with a byte encoding the positive integer b mod 256. finalM ^= b << 56; processM(finalM); // Finalization v2 ^= 0xFFL; sipRound(d); return HashCode.fromLong(v0 ^ v1 ^ v2 ^ v3); }
@Override public HashCode makeHash() { // End with a byte encoding the positive integer b mod 256. finalM ^= b << 56; processM(finalM); // Finalization v2 ^= 0xFFL; sipRound(d); return HashCode.fromLong(v0 ^ v1 ^ v2 ^ v3); }