Tracking,
Weak
};
-private:
+private:
PointerIntPair<ValueHandleBase**, 2, HandleBaseKind> PrevPair;
ValueHandleBase *Next;
- Value *VP;
-
- explicit ValueHandleBase(const ValueHandleBase&); // DO NOT IMPLEMENT.
+
+ // A subclass may want to store some information along with the value
+ // pointer. Allow them to do this by making the value pointer a pointer-int
+ // pair. The 'setValPtrInt' and 'getValPtrInt' methods below give them this
+ // access.
+ PointerIntPair<Value*, 2> VP;
+
+ ValueHandleBase(const ValueHandleBase&) LLVM_DELETED_FUNCTION;
public:
explicit ValueHandleBase(HandleBaseKind Kind)
- : PrevPair(0, Kind), Next(0), VP(0) {}
+ : PrevPair(0, Kind), Next(0), VP(0, 0) {}
ValueHandleBase(HandleBaseKind Kind, Value *V)
- : PrevPair(0, Kind), Next(0), VP(V) {
- if (isValid(VP))
+ : PrevPair(0, Kind), Next(0), VP(V, 0) {
+ if (isValid(VP.getPointer()))
AddToUseList();
}
ValueHandleBase(HandleBaseKind Kind, const ValueHandleBase &RHS)
: PrevPair(0, Kind), Next(0), VP(RHS.VP) {
- if (isValid(VP))
+ if (isValid(VP.getPointer()))
AddToExistingUseList(RHS.getPrevPtr());
}
~ValueHandleBase() {
- if (isValid(VP))
+ if (isValid(VP.getPointer()))
RemoveFromUseList();
}
Value *operator=(Value *RHS) {
- if (VP == RHS) return RHS;
- if (isValid(VP)) RemoveFromUseList();
- VP = RHS;
- if (isValid(VP)) AddToUseList();
+ if (VP.getPointer() == RHS) return RHS;
+ if (isValid(VP.getPointer())) RemoveFromUseList();
+ VP.setPointer(RHS);
+ if (isValid(VP.getPointer())) AddToUseList();
return RHS;
}
Value *operator=(const ValueHandleBase &RHS) {
- if (VP == RHS.VP) return RHS.VP;
- if (isValid(VP)) RemoveFromUseList();
- VP = RHS.VP;
- if (isValid(VP)) AddToExistingUseList(RHS.getPrevPtr());
- return VP;
+ if (VP.getPointer() == RHS.VP.getPointer()) return RHS.VP.getPointer();
+ if (isValid(VP.getPointer())) RemoveFromUseList();
+ VP.setPointer(RHS.VP.getPointer());
+ if (isValid(VP.getPointer())) AddToExistingUseList(RHS.getPrevPtr());
+ return VP.getPointer();
}
Value *operator->() const { return getValPtr(); }
Value &operator*() const { return *getValPtr(); }
protected:
- Value *getValPtr() const { return VP; }
+ Value *getValPtr() const { return VP.getPointer(); }
+
+ void setValPtrInt(unsigned K) { VP.setInt(K); }
+ unsigned getValPtrInt() const { return VP.getInt(); }
+
static bool isValid(Value *V) {
return V &&
V != DenseMapInfo<Value *>::getEmptyKey() &&
V != DenseMapInfo<Value *>::getTombstoneKey();
}
-private:
+public:
// Callbacks made from Value.
static void ValueIsDeleted(Value *V);
static void ValueIsRAUWd(Value *Old, Value *New);
+private:
// Internal implementation details.
ValueHandleBase **getPrevPtr() const { return PrevPair.getPointer(); }
HandleBaseKind getKind() const { return PrevPair.getInt(); }
CallbackVH(const CallbackVH &RHS)
: ValueHandleBase(Callback, RHS) {}
- virtual ~CallbackVH();
+ virtual ~CallbackVH() {}
void setValPtr(Value *P) {
ValueHandleBase::operator=(P);
///
/// All implementations must remove the reference from this object to the
/// Value that's being destroyed.
- virtual void deleted() {
- setValPtr(NULL);
- }
+ virtual void deleted();
/// Called when this->getValPtr()->replaceAllUsesWith(new_value) is called,
/// _before_ any of the uses have actually been replaced. If WeakVH were
/// implemented as a CallbackVH, it would use this method to call
/// setValPtr(new_value). AssertingVH would do nothing in this method.
- virtual void allUsesReplacedWith(Value *) {}
+ virtual void allUsesReplacedWith(Value *);
};
// Specialize simplify_type to allow CallbackVH to participate in