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llvm-6502/unittests/IR/ValueMapTest.cpp
Ahmed Charles f4ccd11075 Replace OwningPtr<T> with std::unique_ptr<T>. 
This compiles with no changes to clang/lld/lldb with MSVC and includes
overloads to various functions which are used by those projects and llvm
which have OwningPtr's as parameters. This should allow out of tree
projects some time to move. There are also no changes to libs/Target,
which should help out of tree targets have time to move, if necessary.

git-svn-id: https://llvm.org/svn/llvm-project/llvm/trunk@203083 91177308-0d34-0410-b5e6-96231b3b80d8
2014-03-06 05:51:42 +00:00

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//===- llvm/unittest/ADT/ValueMapTest.cpp - ValueMap unit tests -*- C++ -*-===//
//
// The LLVM Compiler Infrastructure
//
// This file is distributed under the University of Illinois Open Source
// License. See LICENSE.TXT for details.
//
//===----------------------------------------------------------------------===//
#include "llvm/IR/ValueMap.h"
#include "llvm/Config/llvm-config.h"
#include "llvm/IR/Constants.h"
#include "llvm/IR/Instructions.h"
#include "llvm/IR/LLVMContext.h"
#include "gtest/gtest.h"
using namespace llvm;
namespace {
// Test fixture
template<typename T>
class ValueMapTest : public testing::Test {
protected:
Constant *ConstantV;
std::unique_ptr<BitCastInst> BitcastV;
std::unique_ptr<BinaryOperator> AddV;
ValueMapTest() :
ConstantV(ConstantInt::get(Type::getInt32Ty(getGlobalContext()), 0)),
BitcastV(new BitCastInst(ConstantV, Type::getInt32Ty(getGlobalContext()))),
AddV(BinaryOperator::CreateAdd(ConstantV, ConstantV)) {
}
};
// Run everything on Value*, a subtype to make sure that casting works as
// expected, and a const subtype to make sure we cast const correctly.
typedef ::testing::Types<Value, Instruction, const Instruction> KeyTypes;
TYPED_TEST_CASE(ValueMapTest, KeyTypes);
TYPED_TEST(ValueMapTest, Null) {
ValueMap<TypeParam*, int> VM1;
VM1[NULL] = 7;
EXPECT_EQ(7, VM1.lookup(NULL));
}
TYPED_TEST(ValueMapTest, FollowsValue) {
ValueMap<TypeParam*, int> VM;
VM[this->BitcastV.get()] = 7;
EXPECT_EQ(7, VM.lookup(this->BitcastV.get()));
EXPECT_EQ(0, VM.count(this->AddV.get()));
this->BitcastV->replaceAllUsesWith(this->AddV.get());
EXPECT_EQ(7, VM.lookup(this->AddV.get()));
EXPECT_EQ(0, VM.count(this->BitcastV.get()));
this->AddV.reset();
EXPECT_EQ(0, VM.count(this->AddV.get()));
EXPECT_EQ(0, VM.count(this->BitcastV.get()));
EXPECT_EQ(0U, VM.size());
}
TYPED_TEST(ValueMapTest, OperationsWork) {
ValueMap<TypeParam*, int> VM;
ValueMap<TypeParam*, int> VM2(16); (void)VM2;
typename ValueMapConfig<TypeParam*>::ExtraData Data;
ValueMap<TypeParam*, int> VM3(Data, 16); (void)VM3;
EXPECT_TRUE(VM.empty());
VM[this->BitcastV.get()] = 7;
// Find:
typename ValueMap<TypeParam*, int>::iterator I =
VM.find(this->BitcastV.get());
ASSERT_TRUE(I != VM.end());
EXPECT_EQ(this->BitcastV.get(), I->first);
EXPECT_EQ(7, I->second);
EXPECT_TRUE(VM.find(this->AddV.get()) == VM.end());
// Const find:
const ValueMap<TypeParam*, int> &CVM = VM;
typename ValueMap<TypeParam*, int>::const_iterator CI =
CVM.find(this->BitcastV.get());
ASSERT_TRUE(CI != CVM.end());
EXPECT_EQ(this->BitcastV.get(), CI->first);
EXPECT_EQ(7, CI->second);
EXPECT_TRUE(CVM.find(this->AddV.get()) == CVM.end());
// Insert:
std::pair<typename ValueMap<TypeParam*, int>::iterator, bool> InsertResult1 =
VM.insert(std::make_pair(this->AddV.get(), 3));
EXPECT_EQ(this->AddV.get(), InsertResult1.first->first);
EXPECT_EQ(3, InsertResult1.first->second);
EXPECT_TRUE(InsertResult1.second);
EXPECT_EQ(true, VM.count(this->AddV.get()));
std::pair<typename ValueMap<TypeParam*, int>::iterator, bool> InsertResult2 =
VM.insert(std::make_pair(this->AddV.get(), 5));
EXPECT_EQ(this->AddV.get(), InsertResult2.first->first);
EXPECT_EQ(3, InsertResult2.first->second);
EXPECT_FALSE(InsertResult2.second);
// Erase:
VM.erase(InsertResult2.first);
EXPECT_EQ(0U, VM.count(this->AddV.get()));
EXPECT_EQ(1U, VM.count(this->BitcastV.get()));
VM.erase(this->BitcastV.get());
EXPECT_EQ(0U, VM.count(this->BitcastV.get()));
EXPECT_EQ(0U, VM.size());
// Range insert:
SmallVector<std::pair<Instruction*, int>, 2> Elems;
Elems.push_back(std::make_pair(this->AddV.get(), 1));
Elems.push_back(std::make_pair(this->BitcastV.get(), 2));
VM.insert(Elems.begin(), Elems.end());
EXPECT_EQ(1, VM.lookup(this->AddV.get()));
EXPECT_EQ(2, VM.lookup(this->BitcastV.get()));
}
template<typename ExpectedType, typename VarType>
void CompileAssertHasType(VarType) {
static_assert((is_same<ExpectedType, VarType>::value), "Not the same type");
}
TYPED_TEST(ValueMapTest, Iteration) {
ValueMap<TypeParam*, int> VM;
VM[this->BitcastV.get()] = 2;
VM[this->AddV.get()] = 3;
size_t size = 0;
for (typename ValueMap<TypeParam*, int>::iterator I = VM.begin(), E = VM.end();
I != E; ++I) {
++size;
std::pair<TypeParam*, int> value = *I; (void)value;
CompileAssertHasType<TypeParam*>(I->first);
if (I->second == 2) {
EXPECT_EQ(this->BitcastV.get(), I->first);
I->second = 5;
} else if (I->second == 3) {
EXPECT_EQ(this->AddV.get(), I->first);
I->second = 6;
} else {
ADD_FAILURE() << "Iterated through an extra value.";
}
}
EXPECT_EQ(2U, size);
EXPECT_EQ(5, VM[this->BitcastV.get()]);
EXPECT_EQ(6, VM[this->AddV.get()]);
size = 0;
// Cast to const ValueMap to avoid a bug in DenseMap's iterators.
const ValueMap<TypeParam*, int>& CVM = VM;
for (typename ValueMap<TypeParam*, int>::const_iterator I = CVM.begin(),
E = CVM.end(); I != E; ++I) {
++size;
std::pair<TypeParam*, int> value = *I; (void)value;
CompileAssertHasType<TypeParam*>(I->first);
if (I->second == 5) {
EXPECT_EQ(this->BitcastV.get(), I->first);
} else if (I->second == 6) {
EXPECT_EQ(this->AddV.get(), I->first);
} else {
ADD_FAILURE() << "Iterated through an extra value.";
}
}
EXPECT_EQ(2U, size);
}
TYPED_TEST(ValueMapTest, DefaultCollisionBehavior) {
// By default, we overwrite the old value with the replaced value.
ValueMap<TypeParam*, int> VM;
VM[this->BitcastV.get()] = 7;
VM[this->AddV.get()] = 9;
this->BitcastV->replaceAllUsesWith(this->AddV.get());
EXPECT_EQ(0, VM.count(this->BitcastV.get()));
EXPECT_EQ(9, VM.lookup(this->AddV.get()));
}
TYPED_TEST(ValueMapTest, ConfiguredCollisionBehavior) {
// TODO: Implement this when someone needs it.
}
template<typename KeyT>
struct LockMutex : ValueMapConfig<KeyT> {
struct ExtraData {
sys::Mutex *M;
bool *CalledRAUW;
bool *CalledDeleted;
};
static void onRAUW(const ExtraData &Data, KeyT Old, KeyT New) {
*Data.CalledRAUW = true;
EXPECT_FALSE(Data.M->tryacquire()) << "Mutex should already be locked.";
}
static void onDelete(const ExtraData &Data, KeyT Old) {
*Data.CalledDeleted = true;
EXPECT_FALSE(Data.M->tryacquire()) << "Mutex should already be locked.";
}
static sys::Mutex *getMutex(const ExtraData &Data) { return Data.M; }
};
#if LLVM_ENABLE_THREADS
TYPED_TEST(ValueMapTest, LocksMutex) {
sys::Mutex M(false); // Not recursive.
bool CalledRAUW = false, CalledDeleted = false;
typename LockMutex<TypeParam*>::ExtraData Data =
{&M, &CalledRAUW, &CalledDeleted};
ValueMap<TypeParam*, int, LockMutex<TypeParam*> > VM(Data);
VM[this->BitcastV.get()] = 7;
this->BitcastV->replaceAllUsesWith(this->AddV.get());
this->AddV.reset();
EXPECT_TRUE(CalledRAUW);
EXPECT_TRUE(CalledDeleted);
}
#endif
template<typename KeyT>
struct NoFollow : ValueMapConfig<KeyT> {
enum { FollowRAUW = false };
};
TYPED_TEST(ValueMapTest, NoFollowRAUW) {
ValueMap<TypeParam*, int, NoFollow<TypeParam*> > VM;
VM[this->BitcastV.get()] = 7;
EXPECT_EQ(7, VM.lookup(this->BitcastV.get()));
EXPECT_EQ(0, VM.count(this->AddV.get()));
this->BitcastV->replaceAllUsesWith(this->AddV.get());
EXPECT_EQ(7, VM.lookup(this->BitcastV.get()));
EXPECT_EQ(0, VM.lookup(this->AddV.get()));
this->AddV.reset();
EXPECT_EQ(7, VM.lookup(this->BitcastV.get()));
EXPECT_EQ(0, VM.lookup(this->AddV.get()));
this->BitcastV.reset();
EXPECT_EQ(0, VM.lookup(this->BitcastV.get()));
EXPECT_EQ(0, VM.lookup(this->AddV.get()));
EXPECT_EQ(0U, VM.size());
}
template<typename KeyT>
struct CountOps : ValueMapConfig<KeyT> {
struct ExtraData {
int *Deletions;
int *RAUWs;
};
static void onRAUW(const ExtraData &Data, KeyT Old, KeyT New) {
++*Data.RAUWs;
}
static void onDelete(const ExtraData &Data, KeyT Old) {
++*Data.Deletions;
}
};
TYPED_TEST(ValueMapTest, CallsConfig) {
int Deletions = 0, RAUWs = 0;
typename CountOps<TypeParam*>::ExtraData Data = {&Deletions, &RAUWs};
ValueMap<TypeParam*, int, CountOps<TypeParam*> > VM(Data);
VM[this->BitcastV.get()] = 7;
this->BitcastV->replaceAllUsesWith(this->AddV.get());
EXPECT_EQ(0, Deletions);
EXPECT_EQ(1, RAUWs);
this->AddV.reset();
EXPECT_EQ(1, Deletions);
EXPECT_EQ(1, RAUWs);
this->BitcastV.reset();
EXPECT_EQ(1, Deletions);
EXPECT_EQ(1, RAUWs);
}
template<typename KeyT>
struct ModifyingConfig : ValueMapConfig<KeyT> {
// We'll put a pointer here back to the ValueMap this key is in, so
// that we can modify it (and clobber *this) before the ValueMap
// tries to do the same modification. In previous versions of
// ValueMap, that exploded.
typedef ValueMap<KeyT, int, ModifyingConfig<KeyT> > **ExtraData;
static void onRAUW(ExtraData Map, KeyT Old, KeyT New) {
(*Map)->erase(Old);
}
static void onDelete(ExtraData Map, KeyT Old) {
(*Map)->erase(Old);
}
};
TYPED_TEST(ValueMapTest, SurvivesModificationByConfig) {
ValueMap<TypeParam*, int, ModifyingConfig<TypeParam*> > *MapAddress;
ValueMap<TypeParam*, int, ModifyingConfig<TypeParam*> > VM(&MapAddress);
MapAddress = &VM;
// Now the ModifyingConfig can modify the Map inside a callback.
VM[this->BitcastV.get()] = 7;
this->BitcastV->replaceAllUsesWith(this->AddV.get());
EXPECT_FALSE(VM.count(this->BitcastV.get()));
EXPECT_FALSE(VM.count(this->AddV.get()));
VM[this->AddV.get()] = 7;
this->AddV.reset();
EXPECT_FALSE(VM.count(this->AddV.get()));
}
}
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