No-op if there are at least 36 bytes present after current position. * *
After encountering the end of the input stream, 64 additional zero bytes are copied to the * buffer. */ static void readMoreInput(State s) { if (s.halfOffset > HALF_WATERLINE) { doReadMoreInput(s); } } static void doReadMoreInput(State s) { if (s.endOfStreamReached != 0) { if (halfAvailable(s) >= -2) { return; } throw new BrotliRuntimeException("No more input"); } int readOffset = s.halfOffset << LOG_HALF_SIZE; int bytesInBuffer = CAPACITY - readOffset; // Move unused bytes to the head of the buffer. Utils.copyBytesWithin(s.byteBuffer, 0, readOffset, CAPACITY); s.halfOffset = 0; while (bytesInBuffer < CAPACITY) { int spaceLeft = CAPACITY - bytesInBuffer; int len = Utils.readInput(s.input, s.byteBuffer, bytesInBuffer, spaceLeft); // EOF is -1 in Java, but 0 in C#. if (len <= 0) { s.endOfStreamReached = 1; s.tailBytes = bytesInBuffer; bytesInBuffer += HALF_SIZE - 1; break; } bytesInBuffer += len; } bytesToNibbles(s, bytesInBuffer); } static void checkHealth(State s, int endOfStream) { if (s.endOfStreamReached == 0) { return; } int byteOffset = (s.halfOffset << LOG_HALF_SIZE) + ((s.bitOffset + 7) >> 3) - BYTENESS; if (byteOffset > s.tailBytes) { throw new BrotliRuntimeException("Read after end"); } if (CHECK_UNUSED_BYTES_AFTER_END && (endOfStream != 0) && (byteOffset != s.tailBytes)) { throw new BrotliRuntimeException("Unused bytes after end"); } } static void fillBitWindow(State s) { if (s.bitOffset >= HALF_BITNESS) { // Same as doFillBitWindow. JVM fails to inline it. if (BITNESS == 64) { s.accumulator64 = ((long) s.intBuffer[s.halfOffset++] << HALF_BITNESS) | (s.accumulator64 >>> HALF_BITNESS); } else { s.accumulator32 = ((int) s.shortBuffer[s.halfOffset++] << HALF_BITNESS) | (s.accumulator32 >>> HALF_BITNESS); } s.bitOffset -= HALF_BITNESS; } } private static void doFillBitWindow(State s) { if (BITNESS == 64) { s.accumulator64 = ((long) s.intBuffer[s.halfOffset++] << HALF_BITNESS) | (s.accumulator64 >>> HALF_BITNESS); } else { s.accumulator32 = ((int) s.shortBuffer[s.halfOffset++] << HALF_BITNESS) | (s.accumulator32 >>> HALF_BITNESS); } s.bitOffset -= HALF_BITNESS; } static int peekBits(State s) { if (BITNESS == 64) { return (int) (s.accumulator64 >>> s.bitOffset); } else { return s.accumulator32 >>> s.bitOffset; } } static int readFewBits(State s, int n) { int val = peekBits(s) & ((1 << n) - 1); s.bitOffset += n; return val; } static int readBits(State s, int n) { if (HALF_BITNESS >= 24) { return readFewBits(s, n); } else { return (n <= 16) ? readFewBits(s, n) : readManyBits(s, n); } } private static int readManyBits(State s, int n) { int low = readFewBits(s, 16); doFillBitWindow(s); return low | (readFewBits(s, n - 16) << 16); } static void initBitReader(State s) { s.byteBuffer = new byte[BUFFER_SIZE]; if (BITNESS == 64) { s.accumulator64 = 0; s.intBuffer = new int[HALF_BUFFER_SIZE]; } else { s.accumulator32 = 0; s.shortBuffer = new short[HALF_BUFFER_SIZE]; } s.bitOffset = BITNESS; s.halfOffset = HALVES_CAPACITY; s.endOfStreamReached = 0; prepare(s); } private static void prepare(State s) { readMoreInput(s); checkHealth(s, 0); doFillBitWindow(s); doFillBitWindow(s); } static void reload(State s) { if (s.bitOffset == BITNESS) { prepare(s); } } static void jumpToByteBoundary(State s) { int padding = (BITNESS - s.bitOffset) & 7; if (padding != 0) { int paddingBits = readFewBits(s, padding); if (paddingBits != 0) { throw new BrotliRuntimeException("Corrupted padding bits"); } } } static int halfAvailable(State s) { int limit = HALVES_CAPACITY; if (s.endOfStreamReached != 0) { limit = (s.tailBytes + (HALF_SIZE - 1)) >> LOG_HALF_SIZE; } return limit - s.halfOffset; } static void copyBytes(State s, byte[] data, int offset, int length) { if ((s.bitOffset & 7) != 0) { throw new BrotliRuntimeException("Unaligned copyBytes"); } // Drain accumulator. while ((s.bitOffset != BITNESS) && (length != 0)) { data[offset++] = (byte) peekBits(s); s.bitOffset += 8; length--; } if (length == 0) { return; } // Get data from shadow buffer with "sizeof(int)" granularity. int copyNibbles = Math.min(halfAvailable(s), length >> LOG_HALF_SIZE); if (copyNibbles > 0) { int readOffset = s.halfOffset << LOG_HALF_SIZE; int delta = copyNibbles << LOG_HALF_SIZE; System.arraycopy(s.byteBuffer, readOffset, data, offset, delta); offset += delta; length -= delta; s.halfOffset += copyNibbles; } if (length == 0) { return; } // Read tail bytes. if (halfAvailable(s) > 0) { // length = 1..3 fillBitWindow(s); while (length != 0) { data[offset++] = (byte) peekBits(s); s.bitOffset += 8; length--; } checkHealth(s, 0); return; } // Now it is possible to copy bytes directly. while (length > 0) { int len = Utils.readInput(s.input, data, offset, length); if (len == -1) { throw new BrotliRuntimeException("Unexpected end of input"); } offset += len; length -= len; } } /** * Translates bytes to halves (int/short). */ static void bytesToNibbles(State s, int byteLen) { byte[] byteBuffer = s.byteBuffer; int halfLen = byteLen >> LOG_HALF_SIZE; if (BITNESS == 64) { int[] intBuffer = s.intBuffer; for (int i = 0; i < halfLen; ++i) { intBuffer[i] = ((byteBuffer[i * 4] & 0xFF)) | ((byteBuffer[(i * 4) + 1] & 0xFF) << 8) | ((byteBuffer[(i * 4) + 2] & 0xFF) << 16) | ((byteBuffer[(i * 4) + 3] & 0xFF) << 24); } } else { short[] shortBuffer = s.shortBuffer; for (int i = 0; i < halfLen; ++i) { shortBuffer[i] = (short) ((byteBuffer[i * 2] & 0xFF) | ((byteBuffer[(i * 2) + 1] & 0xFF) << 8)); } } } }