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llvm-6502/unittests/ExecutionEngine/MCJIT/MCJITObjectCacheTest.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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//===- MCJITObjectCacheTest.cpp - Unit tests for MCJIT object caching -----===//
//
// The LLVM Compiler Infrastructure
//
// This file is distributed under the University of Illinois Open Source
// License. See LICENSE.TXT for details.
//
//===----------------------------------------------------------------------===//
#include "MCJITTestBase.h"
#include "llvm/ADT/SmallVector.h"
#include "llvm/ADT/StringMap.h"
#include "llvm/ADT/StringSet.h"
#include "llvm/ExecutionEngine/JIT.h"
#include "llvm/ExecutionEngine/MCJIT.h"
#include "llvm/ExecutionEngine/ObjectCache.h"
#include "llvm/ExecutionEngine/SectionMemoryManager.h"
#include "gtest/gtest.h"
using namespace llvm;
namespace {
class TestObjectCache : public ObjectCache {
public:
TestObjectCache() : DuplicateInserted(false) { }
virtual ~TestObjectCache() {
// Free any buffers we've allocated.
SmallVectorImpl<MemoryBuffer *>::iterator it, end;
end = AllocatedBuffers.end();
for (it = AllocatedBuffers.begin(); it != end; ++it) {
delete *it;
}
AllocatedBuffers.clear();
}
virtual void notifyObjectCompiled(const Module *M, const MemoryBuffer *Obj) {
// If we've seen this module before, note that.
const std::string ModuleID = M->getModuleIdentifier();
if (ObjMap.find(ModuleID) != ObjMap.end())
DuplicateInserted = true;
// Store a copy of the buffer in our map.
ObjMap[ModuleID] = copyBuffer(Obj);
}
virtual MemoryBuffer* getObject(const Module* M) {
const MemoryBuffer* BufferFound = getObjectInternal(M);
ModulesLookedUp.insert(M->getModuleIdentifier());
if (!BufferFound)
return NULL;
// Our test cache wants to maintain ownership of its object buffers
// so we make a copy here for the execution engine.
return MemoryBuffer::getMemBufferCopy(BufferFound->getBuffer());
}
// Test-harness-specific functions
bool wereDuplicatesInserted() { return DuplicateInserted; }
bool wasModuleLookedUp(const Module *M) {
return ModulesLookedUp.find(M->getModuleIdentifier())
!= ModulesLookedUp.end();
}
const MemoryBuffer* getObjectInternal(const Module* M) {
// Look for the module in our map.
const std::string ModuleID = M->getModuleIdentifier();
StringMap<const MemoryBuffer *>::iterator it = ObjMap.find(ModuleID);
if (it == ObjMap.end())
return 0;
return it->second;
}
private:
MemoryBuffer *copyBuffer(const MemoryBuffer *Buf) {
// Create a local copy of the buffer.
MemoryBuffer *NewBuffer = MemoryBuffer::getMemBufferCopy(Buf->getBuffer());
AllocatedBuffers.push_back(NewBuffer);
return NewBuffer;
}
StringMap<const MemoryBuffer *> ObjMap;
StringSet<> ModulesLookedUp;
SmallVector<MemoryBuffer *, 2> AllocatedBuffers;
bool DuplicateInserted;
};
class MCJITObjectCacheTest : public testing::Test, public MCJITTestBase {
protected:
enum {
OriginalRC = 6,
ReplacementRC = 7
};
virtual void SetUp() {
M.reset(createEmptyModule("<main>"));
Main = insertMainFunction(M.get(), OriginalRC);
}
void compileAndRun(int ExpectedRC = OriginalRC) {
// This function shouldn't be called until after SetUp.
ASSERT_TRUE(bool(TheJIT));
ASSERT_TRUE(0 != Main);
// We may be using a null cache, so ensure compilation is valid.
TheJIT->finalizeObject();
void *vPtr = TheJIT->getPointerToFunction(Main);
EXPECT_TRUE(0 != vPtr)
<< "Unable to get pointer to main() from JIT";
int (*FuncPtr)(void) = (int(*)(void))(intptr_t)vPtr;
int returnCode = FuncPtr();
EXPECT_EQ(returnCode, ExpectedRC);
}
Function *Main;
};
TEST_F(MCJITObjectCacheTest, SetNullObjectCache) {
SKIP_UNSUPPORTED_PLATFORM;
createJIT(M.release());
TheJIT->setObjectCache(NULL);
compileAndRun();
}
TEST_F(MCJITObjectCacheTest, VerifyBasicObjectCaching) {
SKIP_UNSUPPORTED_PLATFORM;
std::unique_ptr<TestObjectCache> Cache(new TestObjectCache);
// Save a copy of the module pointer before handing it off to MCJIT.
const Module * SavedModulePointer = M.get();
createJIT(M.release());
TheJIT->setObjectCache(Cache.get());
// Verify that our object cache does not contain the module yet.
const MemoryBuffer *ObjBuffer = Cache->getObjectInternal(SavedModulePointer);
EXPECT_EQ(0, ObjBuffer);
compileAndRun();
// Verify that MCJIT tried to look-up this module in the cache.
EXPECT_TRUE(Cache->wasModuleLookedUp(SavedModulePointer));
// Verify that our object cache now contains the module.
ObjBuffer = Cache->getObjectInternal(SavedModulePointer);
EXPECT_TRUE(0 != ObjBuffer);
// Verify that the cache was only notified once.
EXPECT_FALSE(Cache->wereDuplicatesInserted());
}
TEST_F(MCJITObjectCacheTest, VerifyLoadFromCache) {
SKIP_UNSUPPORTED_PLATFORM;
std::unique_ptr<TestObjectCache> Cache(new TestObjectCache);
// Compile this module with an MCJIT engine
createJIT(M.release());
TheJIT->setObjectCache(Cache.get());
TheJIT->finalizeObject();
// Destroy the MCJIT engine we just used
TheJIT.reset();
// Create a new memory manager.
MM = new SectionMemoryManager;
// Create a new module and save it. Use a different return code so we can
// tell if MCJIT compiled this module or used the cache.
M.reset(createEmptyModule("<main>"));
Main = insertMainFunction(M.get(), ReplacementRC);
const Module * SecondModulePointer = M.get();
// Create a new MCJIT instance to load this module then execute it.
createJIT(M.release());
TheJIT->setObjectCache(Cache.get());
compileAndRun();
// Verify that MCJIT tried to look-up this module in the cache.
EXPECT_TRUE(Cache->wasModuleLookedUp(SecondModulePointer));
// Verify that MCJIT didn't try to cache this again.
EXPECT_FALSE(Cache->wereDuplicatesInserted());
}
TEST_F(MCJITObjectCacheTest, VerifyNonLoadFromCache) {
SKIP_UNSUPPORTED_PLATFORM;
std::unique_ptr<TestObjectCache> Cache(new TestObjectCache);
// Compile this module with an MCJIT engine
createJIT(M.release());
TheJIT->setObjectCache(Cache.get());
TheJIT->finalizeObject();
// Destroy the MCJIT engine we just used
TheJIT.reset();
// Create a new memory manager.
MM = new SectionMemoryManager;
// Create a new module and save it. Use a different return code so we can
// tell if MCJIT compiled this module or used the cache. Note that we use
// a new module name here so the module shouldn't be found in the cache.
M.reset(createEmptyModule("<not-main>"));
Main = insertMainFunction(M.get(), ReplacementRC);
const Module * SecondModulePointer = M.get();
// Create a new MCJIT instance to load this module then execute it.
createJIT(M.release());
TheJIT->setObjectCache(Cache.get());
// Verify that our object cache does not contain the module yet.
const MemoryBuffer *ObjBuffer = Cache->getObjectInternal(SecondModulePointer);
EXPECT_EQ(0, ObjBuffer);
// Run the function and look for the replacement return code.
compileAndRun(ReplacementRC);
// Verify that MCJIT tried to look-up this module in the cache.
EXPECT_TRUE(Cache->wasModuleLookedUp(SecondModulePointer));
// Verify that our object cache now contains the module.
ObjBuffer = Cache->getObjectInternal(SecondModulePointer);
EXPECT_TRUE(0 != ObjBuffer);
// Verify that MCJIT didn't try to cache this again.
EXPECT_FALSE(Cache->wereDuplicatesInserted());
}
} // Namespace
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