switch (tag & 0x03) { case COPY_1_BYTE_OFFSET: decodeWritten = decodeCopyWith1ByteOffset(tag, in, out, written); if (decodeWritten != NOT_ENOUGH_INPUT) { state = State.READING_TAG;
switch (tag & 0x03) { case COPY_1_BYTE_OFFSET: decodeWritten = decodeCopyWith1ByteOffset(tag, in, out, written); if (decodeWritten != NOT_ENOUGH_INPUT) { state = State.READING_TAG;
switch (tag & 0x03) { case COPY_1_BYTE_OFFSET: decodeWritten = decodeCopyWith1ByteOffset(tag, in, out, written); if (decodeWritten != NOT_ENOUGH_INPUT) { state = State.READING_TAG;
switch (tag & 0x03) { case COPY_1_BYTE_OFFSET: decodeWritten = decodeCopyWith1ByteOffset(tag, in, out, written); if (decodeWritten != NOT_ENOUGH_INPUT) { state = State.READING_TAG;
switch (tag & 0x03) { case COPY_1_BYTE_OFFSET: decodeWritten = decodeCopyWith1ByteOffset(tag, in, out, written); if (decodeWritten != NOT_ENOUGH_INPUT) { state = State.READING_TAG;
switch (tag & 0x03) { case COPY_1_BYTE_OFFSET: decodeWritten = decodeCopyWith1ByteOffset(tag, in, out, written); if (decodeWritten != NOT_ENOUGH_INPUT) { state = State.READING_TAG;
switch (tag & 0x03) { case COPY_1_BYTE_OFFSET: decodeWritten = decodeCopyWith1ByteOffset(tag, in, out, written); if (decodeWritten != NOT_ENOUGH_INPUT) { state = State.READING_TAG;