reference, declaration → definition definition → references, declarations, derived classes, virtual overrides reference to multiple definitions → definitions unreferenced |
1056 REX |= 1 << 3; // set REX.W 1058 if (MI.getNumOperands() == 0) return REX; 1073 REX |= 0x40; // REX fixed encoding prefix 1078 REX |= isREXExtendedReg(MI, CurOp++) << 0; // REX.B 1082 REX |= isREXExtendedReg(MI, CurOp++) << 2; // REX.R 1083 REX |= isREXExtendedReg(MI, CurOp++) << 0; // REX.B 1087 REX |= isREXExtendedReg(MI, CurOp++) << 2; // REX.R 1088 REX |= isREXExtendedReg(MI, MemOperand+X86::AddrBaseReg) << 0; // REX.B 1089 REX |= isREXExtendedReg(MI, MemOperand+X86::AddrIndexReg) << 1; // REX.X 1093 REX |= isREXExtendedReg(MI, CurOp++) << 0; // REX.B 1094 REX |= isREXExtendedReg(MI, CurOp++) << 2; // REX.R 1097 REX |= isREXExtendedReg(MI, MemOperand+X86::AddrBaseReg) << 0; // REX.B 1098 REX |= isREXExtendedReg(MI, MemOperand+X86::AddrIndexReg) << 1; // REX.X 1100 REX |= isREXExtendedReg(MI, CurOp++) << 2; // REX.R 1107 REX |= isREXExtendedReg(MI, MemOperand+X86::AddrBaseReg) << 0; // REX.B 1108 REX |= isREXExtendedReg(MI, MemOperand+X86::AddrIndexReg) << 1; // REX.X 1115 REX |= isREXExtendedReg(MI, CurOp++) << 0; // REX.B 1118 if (REX && UsesHighByteReg) 1121 return REX;