AF_DontAutoprocessAbbrevs = 2
};
- /// Advance the current bitstream, returning the next entry in the stream.
- BitstreamEntry advance(unsigned Flags = 0) {
+ /// Advance the current bitstream, returning the next entry in the stream.
+ BitstreamEntry advance(unsigned Flags = 0) {
while (1) {
unsigned Code = ReadCode();
if (Code == bitc::END_BLOCK) {
/// Reset the stream to the specified bit number.
void JumpToBit(uint64_t BitNo) {
- uintptr_t ByteNo = uintptr_t(BitNo/8) & ~(sizeof(word_t)-1);
+ size_t ByteNo = size_t(BitNo/8) & ~(sizeof(word_t)-1);
unsigned WordBitNo = unsigned(BitNo & (sizeof(word_t)*8-1));
assert(canSkipToPos(ByteNo) && "Invalid location");
}
void fillCurWord() {
- if (Size != 0 && NextChar >= (unsigned)Size)
+ if (Size != 0 && NextChar >= Size)
report_fatal_error("Unexpected end of file");
// Read the next word from the stream.
BitCodeAbbrevOp::Encoding E = (BitCodeAbbrevOp::Encoding)Read(3);
if (BitCodeAbbrevOp::hasEncodingData(E)) {
- unsigned Data = ReadVBR64(5);
+ uint64_t Data = ReadVBR64(5);
// As a special case, handle fixed(0) (i.e., a fixed field with zero bits)
// and vbr(0) as a literal zero. This is decoded the same way, and avoids