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Implement copy and move assignment for TinyPtrVector. These try to

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re-use allocated vectors as much as possible.

git-svn-id: https://llvm.org/svn/llvm-project/llvm/trunk@161041 91177308-0d34-0410-b5e6-96231b3b80d8
This commit is contained in:
Chandler Carruth 2012-07-31 09:42:24 +00:00
parent 3f5054f922
commit 06bd8ca8c2
2 changed files with 228 additions and 15 deletions
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77
include/llvm/ADT/TinyPtrVector.h
View File

@ -32,20 +32,73 @@ public:
llvm::PointerUnion<EltTy, VecTy*> Val;
TinyPtrVector() {}
TinyPtrVector(const TinyPtrVector &RHS) : Val(RHS.Val) {
if (VecTy *V = Val.template dyn_cast<VecTy*>())
Val = new VecTy(*V);
}
#if LLVM_USE_RVALUE_REFERENCES
TinyPtrVector(TinyPtrVector &&RHS) : Val(RHS.Val) {
RHS.Val = (EltTy)0;
}
#endif
~TinyPtrVector() {
if (VecTy *V = Val.template dyn_cast<VecTy*>())
delete V;
}
TinyPtrVector(const TinyPtrVector &RHS) : Val(RHS.Val) {
if (VecTy *V = Val.template dyn_cast<VecTy*>())
Val = new VecTy(*V);
}
TinyPtrVector &operator=(const TinyPtrVector &RHS) {
if (this == &RHS)
return *this;
if (RHS.empty()) {
this->clear();
return *this;
}
// Try to squeeze into the single slot. If it won't fit, allocate a copied
// vector.
if (Val.template is<EltTy>()) {
if (RHS.size() == 1)
Val = RHS.front();
else
Val = new VecTy(*RHS.Val.template get<VecTy*>());
return *this;
}
// If we have a full vector allocated, try to re-use it.
if (RHS.Val.template is<EltTy>()) {
Val.template get<VecTy*>()->clear();
Val.template get<VecTy*>()->push_back(RHS.front());
} else {
*Val.template get<VecTy*>() = *RHS.Val.template get<VecTy*>();
}
return *this;
}
#if LLVM_USE_RVALUE_REFERENCES
TinyPtrVector(TinyPtrVector &&RHS) : Val(RHS.Val) {
RHS.Val = (EltTy)0;
}
TinyPtrVector &operator=(TinyPtrVector &&RHS) {
if (this == &RHS)
return *this;
if (RHS.empty()) {
this->clear();
return *this;
}
// If this vector has been allocated on the heap, re-use it if cheap. If it
// would require more copying, just delete it and we'll steal the other
// side.
if (VecTy *V = Val.template dyn_cast<VecTy*>()) {
if (RHS.Val.template is<EltTy>()) {
V->clear();
V->push_back(RHS.front());
return *this;
}
delete V;
}
Val = RHS.Val;
RHS.Val = (EltTy)0;
return *this;
}
#endif
// implicit conversion operator to ArrayRef.
operator ArrayRef<EltTy>() const {
if (Val.isNull())
@ -173,12 +226,6 @@ public:
}
return end();
}
private:
void operator=(const TinyPtrVector&); // NOT IMPLEMENTED YET.
#if LLVM_USE_RVALUE_REFERENCES
void operator=(TinyPtrVector&&); // NOT IMPLEMENTED YET.
#endif
};
} // end namespace llvm

166
unittests/ADT/TinyPtrVectorTest.cpp
View File

@ -60,6 +60,13 @@ protected:
V.push_back(Values[i]);
}
void setVectors(ArrayRef<PtrT> Values1, ArrayRef<PtrT> Values2) {
V.clear();
appendValues(V, Values1);
V2.clear();
appendValues(V2, Values2);
}
void expectValues(const VectorT &V, ArrayRef<PtrT> Values) {
EXPECT_EQ(Values.empty(), V.empty());
EXPECT_EQ(Values.size(), V.size());
@ -157,6 +164,165 @@ TYPED_TEST(TinyPtrVectorTest, CopyAndMoveCtorTest) {
#endif
}
TYPED_TEST(TinyPtrVectorTest, CopyAndMoveTest) {
this->V = this->V2;
this->expectValues(this->V, this->testArray(0));
this->expectValues(this->V2, this->testArray(0));
#if LLVM_USE_RVALUE_REFERENCES
this->V = std::move(this->V2);
this->expectValues(this->V, this->testArray(0));
#endif
this->setVectors(this->testArray(1), this->testArray(0));
this->V = this->V2;
this->expectValues(this->V, this->testArray(0));
this->expectValues(this->V2, this->testArray(0));
#if LLVM_USE_RVALUE_REFERENCES
this->setVectors(this->testArray(1), this->testArray(0));
this->V = std::move(this->V2);
this->expectValues(this->V, this->testArray(0));
#endif
this->setVectors(this->testArray(2), this->testArray(0));
this->V = this->V2;
this->expectValues(this->V, this->testArray(0));
this->expectValues(this->V2, this->testArray(0));
#if LLVM_USE_RVALUE_REFERENCES
this->setVectors(this->testArray(2), this->testArray(0));
this->V = std::move(this->V2);
this->expectValues(this->V, this->testArray(0));
#endif
this->setVectors(this->testArray(42), this->testArray(0));
this->V = this->V2;
this->expectValues(this->V, this->testArray(0));
this->expectValues(this->V2, this->testArray(0));
#if LLVM_USE_RVALUE_REFERENCES
this->setVectors(this->testArray(42), this->testArray(0));
this->V = std::move(this->V2);
this->expectValues(this->V, this->testArray(0));
#endif
this->setVectors(this->testArray(0), this->testArray(1));
this->V = this->V2;
this->expectValues(this->V, this->testArray(1));
this->expectValues(this->V2, this->testArray(1));
#if LLVM_USE_RVALUE_REFERENCES
this->setVectors(this->testArray(0), this->testArray(1));
this->V = std::move(this->V2);
this->expectValues(this->V, this->testArray(1));
#endif
this->setVectors(this->testArray(0), this->testArray(2));
this->V = this->V2;
this->expectValues(this->V, this->testArray(2));
this->expectValues(this->V2, this->testArray(2));
#if LLVM_USE_RVALUE_REFERENCES
this->setVectors(this->testArray(0), this->testArray(2));
this->V = std::move(this->V2);
this->expectValues(this->V, this->testArray(2));
#endif
this->setVectors(this->testArray(0), this->testArray(42));
this->V = this->V2;
this->expectValues(this->V, this->testArray(42));
this->expectValues(this->V2, this->testArray(42));
#if LLVM_USE_RVALUE_REFERENCES
this->setVectors(this->testArray(0), this->testArray(42));
this->V = std::move(this->V2);
this->expectValues(this->V, this->testArray(42));
#endif
this->setVectors(this->testArray(1), this->testArray(1));
this->V = this->V2;
this->expectValues(this->V, this->testArray(1));
this->expectValues(this->V2, this->testArray(1));
#if LLVM_USE_RVALUE_REFERENCES
this->V = std::move(this->V2);
this->expectValues(this->V, this->testArray(1));
#endif
this->setVectors(this->testArray(1), this->testArray(2));
this->V = this->V2;
this->expectValues(this->V, this->testArray(2));
this->expectValues(this->V2, this->testArray(2));
#if LLVM_USE_RVALUE_REFERENCES
this->setVectors(this->testArray(1), this->testArray(2));
this->V = std::move(this->V2);
this->expectValues(this->V, this->testArray(2));
#endif
this->setVectors(this->testArray(1), this->testArray(42));
this->V = this->V2;
this->expectValues(this->V, this->testArray(42));
this->expectValues(this->V2, this->testArray(42));
#if LLVM_USE_RVALUE_REFERENCES
this->setVectors(this->testArray(1), this->testArray(42));
this->V = std::move(this->V2);
this->expectValues(this->V, this->testArray(42));
#endif
this->setVectors(this->testArray(2), this->testArray(1));
this->V = this->V2;
this->expectValues(this->V, this->testArray(1));
this->expectValues(this->V2, this->testArray(1));
#if LLVM_USE_RVALUE_REFERENCES
this->setVectors(this->testArray(2), this->testArray(1));
this->V = std::move(this->V2);
this->expectValues(this->V, this->testArray(1));
#endif
this->setVectors(this->testArray(2), this->testArray(2));
this->V = this->V2;
this->expectValues(this->V, this->testArray(2));
this->expectValues(this->V2, this->testArray(2));
#if LLVM_USE_RVALUE_REFERENCES
this->setVectors(this->testArray(2), this->testArray(2));
this->V = std::move(this->V2);
this->expectValues(this->V, this->testArray(2));
#endif
this->setVectors(this->testArray(2), this->testArray(42));
this->V = this->V2;
this->expectValues(this->V, this->testArray(42));
this->expectValues(this->V2, this->testArray(42));
#if LLVM_USE_RVALUE_REFERENCES
this->setVectors(this->testArray(2), this->testArray(42));
this->V = std::move(this->V2);
this->expectValues(this->V, this->testArray(42));
#endif
this->setVectors(this->testArray(42), this->testArray(1));
this->V = this->V2;
this->expectValues(this->V, this->testArray(1));
this->expectValues(this->V2, this->testArray(1));
#if LLVM_USE_RVALUE_REFERENCES
this->setVectors(this->testArray(42), this->testArray(1));
this->V = std::move(this->V2);
this->expectValues(this->V, this->testArray(1));
#endif
this->setVectors(this->testArray(42), this->testArray(2));
this->V = this->V2;
this->expectValues(this->V, this->testArray(2));
this->expectValues(this->V2, this->testArray(2));
#if LLVM_USE_RVALUE_REFERENCES
this->setVectors(this->testArray(42), this->testArray(2));
this->V = std::move(this->V2);
this->expectValues(this->V, this->testArray(2));
#endif
this->setVectors(this->testArray(42), this->testArray(42));
this->V = this->V2;
this->expectValues(this->V, this->testArray(42));
this->expectValues(this->V2, this->testArray(42));
#if LLVM_USE_RVALUE_REFERENCES
this->setVectors(this->testArray(42), this->testArray(42));
this->V = std::move(this->V2);
this->expectValues(this->V, this->testArray(42));
#endif
}
TYPED_TEST(TinyPtrVectorTest, EraseTest) {
this->appendValues(this->V, this->testArray(1));
this->expectValues(this->V, this->testArray(1));