+template <typename T>
+SmallVectorImpl<T> &SmallVectorImpl<T>::operator=(SmallVectorImpl<T> &&RHS) {
+ // Avoid self-assignment.
+ if (this == &RHS) return *this;
+
+ // If the RHS isn't small, clear this vector and then steal its buffer.
+ if (!RHS.isSmall()) {
+ this->destroy_range(this->begin(), this->end());
+ if (!this->isSmall()) free(this->begin());
+ this->BeginX = RHS.BeginX;
+ this->EndX = RHS.EndX;
+ this->CapacityX = RHS.CapacityX;
+ RHS.resetToSmall();
+ return *this;
+ }
+
+ // If we already have sufficient space, assign the common elements, then
+ // destroy any excess.
+ size_t RHSSize = RHS.size();
+ size_t CurSize = this->size();
+ if (CurSize >= RHSSize) {
+ // Assign common elements.
+ iterator NewEnd = this->begin();
+ if (RHSSize)
+ NewEnd = this->move(RHS.begin(), RHS.end(), NewEnd);
+
+ // Destroy excess elements and trim the bounds.
+ this->destroy_range(NewEnd, this->end());
+ this->setEnd(NewEnd);
+
+ // Clear the RHS.
+ RHS.clear();
+
+ return *this;
+ }
+
+ // If we have to grow to have enough elements, destroy the current elements.
+ // This allows us to avoid copying them during the grow.
+ // FIXME: this may not actually make any sense if we can efficiently move
+ // elements.
+ if (this->capacity() < RHSSize) {
+ // Destroy current elements.
+ this->destroy_range(this->begin(), this->end());
+ this->setEnd(this->begin());
+ CurSize = 0;
+ this->grow(RHSSize);
+ } else if (CurSize) {
+ // Otherwise, use assignment for the already-constructed elements.
+ this->move(RHS.begin(), RHS.end(), this->begin());
+ }
+
+ // Move-construct the new elements in place.
+ this->uninitialized_move(RHS.begin()+CurSize, RHS.end(),
+ this->begin()+CurSize);
+
+ // Set end.
+ this->setEnd(this->begin()+RHSSize);
+
+ RHS.clear();
+ return *this;
+}
+
+/// Storage for the SmallVector elements which aren't contained in
+/// SmallVectorTemplateCommon. There are 'N-1' elements here. The remaining '1'
+/// element is in the base class. This is specialized for the N=1 and N=0 cases
+/// to avoid allocating unnecessary storage.
+template <typename T, unsigned N>
+struct SmallVectorStorage {
+ typename SmallVectorTemplateCommon<T>::U InlineElts[N - 1];
+};
+template <typename T> struct SmallVectorStorage<T, 1> {};
+template <typename T> struct SmallVectorStorage<T, 0> {};