+ if (!Small && !RHS.Small) {
+ std::swap(getLargeRep()->Buckets, RHS.getLargeRep()->Buckets);
+ std::swap(getLargeRep()->NumBuckets, RHS.getLargeRep()->NumBuckets);
+ return;
+ }
+
+ SmallDenseMap &SmallSide = Small ? *this : RHS;
+ SmallDenseMap &LargeSide = Small ? RHS : *this;
+
+ // First stash the large side's rep and move the small side across.
+ LargeRep TmpRep = llvm_move(*LargeSide.getLargeRep());
+ LargeSide.getLargeRep()->~LargeRep();
+ LargeSide.Small = true;
+ // This is similar to the standard move-from-old-buckets, but the bucket
+ // count hasn't actually rotated in this case. So we have to carefully
+ // move construct the keys and values into their new locations, but there
+ // is no need to re-hash things.
+ for (unsigned i = 0, e = InlineBuckets; i != e; ++i) {
+ BucketT *NewB = &LargeSide.getInlineBuckets()[i],
+ *OldB = &SmallSide.getInlineBuckets()[i];
+ new (&NewB->first) KeyT(llvm_move(OldB->first));
+ OldB->first.~KeyT();
+ if (!KeyInfoT::isEqual(NewB->first, EmptyKey) &&
+ !KeyInfoT::isEqual(NewB->first, TombstoneKey)) {
+ new (&NewB->second) ValueT(llvm_move(OldB->second));
+ OldB->second.~ValueT();
+ }
+ }
+
+ // The hard part of moving the small buckets across is done, just move
+ // the TmpRep into its new home.
+ SmallSide.Small = false;
+ new (SmallSide.getLargeRep()) LargeRep(llvm_move(TmpRep));
+ }
+
+ SmallDenseMap& operator=(const SmallDenseMap& other) {
+ copyFrom(other);
+ return *this;
+ }
+
+#if LLVM_USE_RVALUE_REFERENCES
+ SmallDenseMap& operator=(SmallDenseMap &&other) {
+ this->destroyAll();
+ deallocateBuckets();
+ init(0);
+ swap(other);
+ return *this;
+ }
+#endif
+
+ void copyFrom(const SmallDenseMap& other) {
+ this->destroyAll();
+ deallocateBuckets();
+ Small = true;
+ if (other.getNumBuckets() > InlineBuckets) {
+ Small = false;
+ allocateBuckets(other.getNumBuckets());
+ }
+ this->BaseT::copyFrom(other);
+ }
+
+ void init(unsigned InitBuckets) {
+ Small = true;
+ if (InitBuckets > InlineBuckets) {
+ Small = false;
+ new (getLargeRep()) LargeRep(allocateBuckets(InitBuckets));
+ }
+ this->BaseT::initEmpty();
+ }
+
+ void grow(unsigned AtLeast) {
+ if (AtLeast > InlineBuckets)
+ AtLeast = std::max<unsigned>(64, NextPowerOf2(AtLeast));
+
+ if (Small) {
+ if (AtLeast <= InlineBuckets)
+ return; // Nothing to do.
+
+ // First move the inline buckets into a temporary storage.
+ AlignedCharArrayUnion<BucketT[InlineBuckets]> TmpStorage;
+ BucketT *TmpBegin = reinterpret_cast<BucketT *>(TmpStorage.buffer);
+ BucketT *TmpEnd = TmpBegin;
+
+ // Loop over the buckets, moving non-empty, non-tombstones into the
+ // temporary storage. Have the loop move the TmpEnd forward as it goes.
+ const KeyT EmptyKey = this->getEmptyKey();
+ const KeyT TombstoneKey = this->getTombstoneKey();
+ for (BucketT *P = getBuckets(), *E = P + InlineBuckets; P != E; ++P) {
+ if (!KeyInfoT::isEqual(P->first, EmptyKey) &&
+ !KeyInfoT::isEqual(P->first, TombstoneKey)) {
+ assert(size_t(TmpEnd - TmpBegin) < InlineBuckets &&
+ "Too many inline buckets!");
+ new (&TmpEnd->first) KeyT(llvm_move(P->first));
+ new (&TmpEnd->second) ValueT(llvm_move(P->second));
+ ++TmpEnd;
+ P->second.~ValueT();
+ }
+ P->first.~KeyT();
+ }
+
+ // Now make this map use the large rep, and move all the entries back
+ // into it.
+ Small = false;
+ new (getLargeRep()) LargeRep(allocateBuckets(AtLeast));
+ this->moveFromOldBuckets(TmpBegin, TmpEnd);
+ return;
+ }
+
+ LargeRep OldRep = llvm_move(*getLargeRep());
+ getLargeRep()->~LargeRep();
+ if (AtLeast <= InlineBuckets) {
+ Small = true;
+ } else {
+ new (getLargeRep()) LargeRep(allocateBuckets(AtLeast));
+ }
+
+ this->moveFromOldBuckets(OldRep.Buckets, OldRep.Buckets+OldRep.NumBuckets);
+