- case Instruction::Shl: {
- uint32_t shiftAmt = C2V.getZExtValue();
- if (shiftAmt < C1V.getBitWidth())
- return ConstantInt::get(CI1->getContext(), C1V.shl(shiftAmt));
- else
- return UndefValue::get(C1->getType()); // too big shift is undef
- }
- case Instruction::LShr: {
- uint32_t shiftAmt = C2V.getZExtValue();
- if (shiftAmt < C1V.getBitWidth())
- return ConstantInt::get(CI1->getContext(), C1V.lshr(shiftAmt));
- else
- return UndefValue::get(C1->getType()); // too big shift is undef
- }
- case Instruction::AShr: {
- uint32_t shiftAmt = C2V.getZExtValue();
- if (shiftAmt < C1V.getBitWidth())
- return ConstantInt::get(CI1->getContext(), C1V.ashr(shiftAmt));
- else
- return UndefValue::get(C1->getType()); // too big shift is undef
- }
+ case Instruction::Shl:
+ if (C2V.ult(C1V.getBitWidth()))
+ return ConstantInt::get(CI1->getContext(), C1V.shl(C2V));
+ return UndefValue::get(C1->getType()); // too big shift is undef
+ case Instruction::LShr:
+ if (C2V.ult(C1V.getBitWidth()))
+ return ConstantInt::get(CI1->getContext(), C1V.lshr(C2V));
+ return UndefValue::get(C1->getType()); // too big shift is undef
+ case Instruction::AShr:
+ if (C2V.ult(C1V.getBitWidth()))
+ return ConstantInt::get(CI1->getContext(), C1V.ashr(C2V));
+ return UndefValue::get(C1->getType()); // too big shift is undef