return;
}
+ // A simple case when N/1. The quotient is N.
+ if (Denominator->isOne()) {
+ *Quotient = Numerator;
+ *Remainder = D.Zero;
+ return;
+ }
+
// Split the Denominator when it is a product.
if (const SCEVMulExpr *T = dyn_cast<const SCEVMulExpr>(Denominator)) {
const SCEV *Q, *R;
assert(Numerator->isAffine() && "Numerator should be affine");
divide(SE, Numerator->getStart(), Denominator, &StartQ, &StartR);
divide(SE, Numerator->getStepRecurrence(SE), Denominator, &StepQ, &StepR);
+ // Bail out if the types do not match.
+ Type *Ty = Denominator->getType();
+ if (Ty != StartQ->getType() || Ty != StartR->getType() ||
+ Ty != StepQ->getType() || Ty != StepR->getType()) {
+ Quotient = Zero;
+ Remainder = Numerator;
+ return;
+ }
Quotient = SE.getAddRecExpr(StartQ, StepQ, Numerator->getLoop(),
Numerator->getNoWrapFlags());
Remainder = SE.getAddRecExpr(StartR, StepR, Numerator->getLoop(),
if (PTy->getElementType()->isStructTy())
C2 = ConstantExpr::getIntegerCast(
C2, Type::getInt32Ty(C->getContext()), true);
- C = ConstantExpr::getGetElementPtr(C, C2);
+ C = ConstantExpr::getGetElementPtr(PTy->getElementType(), C, C2);
} else
C = ConstantExpr::getAdd(C, C2);
}