1857c21b4SMisha Brukman //===-- ExecutionEngine.cpp - Common Implementation shared by EEs ---------===// 2996fe010SChris Lattner // 3482202a6SJohn Criswell // The LLVM Compiler Infrastructure 4482202a6SJohn Criswell // 5f3ebc3f3SChris Lattner // This file is distributed under the University of Illinois Open Source 6f3ebc3f3SChris Lattner // License. See LICENSE.TXT for details. 7482202a6SJohn Criswell // 8482202a6SJohn Criswell //===----------------------------------------------------------------------===// 9482202a6SJohn Criswell // 10996fe010SChris Lattner // This file defines the common interface used by the various execution engine 11996fe010SChris Lattner // subclasses. 12996fe010SChris Lattner // 13996fe010SChris Lattner //===----------------------------------------------------------------------===// 14996fe010SChris Lattner 156bf87df5SJeffrey Yasskin #include "llvm/ExecutionEngine/ExecutionEngine.h" 160a446fd5SBenjamin Kramer #include "llvm/ADT/STLExtras.h" 17868e3f09SDaniel Dunbar #include "llvm/ADT/SmallString.h" 18390d78b3SChris Lattner #include "llvm/ADT/Statistic.h" 19ed0881b2SChandler Carruth #include "llvm/ExecutionEngine/GenericValue.h" 20b5c7b1ffSLang Hames #include "llvm/ExecutionEngine/JITEventListener.h" 21633fe146SLang Hames #include "llvm/ExecutionEngine/RTDyldMemoryManager.h" 229fb823bbSChandler Carruth #include "llvm/IR/Constants.h" 239fb823bbSChandler Carruth #include "llvm/IR/DataLayout.h" 249fb823bbSChandler Carruth #include "llvm/IR/DerivedTypes.h" 253dac3f7fSLang Hames #include "llvm/IR/Mangler.h" 269fb823bbSChandler Carruth #include "llvm/IR/Module.h" 279fb823bbSChandler Carruth #include "llvm/IR/Operator.h" 284220e9c1SChandler Carruth #include "llvm/IR/ValueHandle.h" 29dd39657aSRafael Espindola #include "llvm/Object/Archive.h" 3035907d8eSDavid Blaikie #include "llvm/Object/ObjectFile.h" 317c16caa3SReid Spencer #include "llvm/Support/Debug.h" 32ed0881b2SChandler Carruth #include "llvm/Support/DynamicLibrary.h" 336c2d233eSTorok Edwin #include "llvm/Support/ErrorHandling.h" 34ed0881b2SChandler Carruth #include "llvm/Support/Host.h" 356d8dd189SChris Lattner #include "llvm/Support/MutexGuard.h" 36ed0881b2SChandler Carruth #include "llvm/Support/TargetRegistry.h" 37ccb29cd2STorok Edwin #include "llvm/Support/raw_ostream.h" 388418fdcdSDylan Noblesmith #include "llvm/Target/TargetMachine.h" 39579f0713SAnton Korobeynikov #include <cmath> 40579f0713SAnton Korobeynikov #include <cstring> 4129681deeSChris Lattner using namespace llvm; 42996fe010SChris Lattner 43f58e376dSChandler Carruth #define DEBUG_TYPE "jit" 44f58e376dSChandler Carruth 45c346ecd7SChris Lattner STATISTIC(NumInitBytes, "Number of bytes of global vars initialized"); 46c346ecd7SChris Lattner STATISTIC(NumGlobals , "Number of global vars initialized"); 47996fe010SChris Lattner 4870ff8b05SDaniel Dunbar ExecutionEngine *(*ExecutionEngine::MCJITCtor)( 49196e323cSDavid Blaikie std::unique_ptr<Module> M, std::string *ErrorStr, 50633fe146SLang Hames std::shared_ptr<MCJITMemoryManager> MemMgr, 51633fe146SLang Hames std::shared_ptr<RuntimeDyld::SymbolResolver> Resolver, 524a5697e6SLang Hames std::unique_ptr<TargetMachine> TM) = nullptr; 5393de2a12SLang Hames 5493de2a12SLang Hames ExecutionEngine *(*ExecutionEngine::OrcMCJITReplacementCtor)( 55633fe146SLang Hames std::string *ErrorStr, std::shared_ptr<MCJITMemoryManager> MemMgr, 56633fe146SLang Hames std::shared_ptr<RuntimeDyld::SymbolResolver> Resolver, 5793de2a12SLang Hames std::unique_ptr<TargetMachine> TM) = nullptr; 5893de2a12SLang Hames 592a8a2795SRafael Espindola ExecutionEngine *(*ExecutionEngine::InterpCtor)(std::unique_ptr<Module> M, 602617dcceSCraig Topper std::string *ErrorStr) =nullptr; 612d52c1b8SChris Lattner 627ea98e14SLang Hames void JITEventListener::anchor() {} 637ea98e14SLang Hames 64a3fcefb6SMehdi Amini void ExecutionEngine::Init(std::unique_ptr<Module> M) { 654567db45SJeffrey Yasskin CompilingLazily = false; 66cdc0060eSEvan Cheng GVCompilationDisabled = false; 6784a9055eSEvan Cheng SymbolSearchingDisabled = false; 68bc876017SLang Hames 69bc876017SLang Hames // IR module verification is enabled by default in debug builds, and disabled 70bc876017SLang Hames // by default in release builds. 71bc876017SLang Hames #ifndef NDEBUG 72bc876017SLang Hames VerifyModules = true; 73bc876017SLang Hames #else 74bc876017SLang Hames VerifyModules = false; 75bc876017SLang Hames #endif 76bc876017SLang Hames 77091217beSJeffrey Yasskin assert(M && "Module is null?"); 782a8a2795SRafael Espindola Modules.push_back(std::move(M)); 79260b0c88SMisha Brukman } 80260b0c88SMisha Brukman 81a3fcefb6SMehdi Amini ExecutionEngine::ExecutionEngine(std::unique_ptr<Module> M) 82a3fcefb6SMehdi Amini : DL(M->getDataLayout()), LazyFunctionCreator(nullptr) { 83a3fcefb6SMehdi Amini Init(std::move(M)); 84a3fcefb6SMehdi Amini } 85a3fcefb6SMehdi Amini 86a3fcefb6SMehdi Amini ExecutionEngine::ExecutionEngine(DataLayout DL, std::unique_ptr<Module> M) 87a3fcefb6SMehdi Amini : DL(std::move(DL)), LazyFunctionCreator(nullptr) { 88a3fcefb6SMehdi Amini Init(std::move(M)); 89a3fcefb6SMehdi Amini } 90a3fcefb6SMehdi Amini 9192f8b30dSBrian Gaeke ExecutionEngine::~ExecutionEngine() { 92603682adSReid Spencer clearAllGlobalMappings(); 9392f8b30dSBrian Gaeke } 9492f8b30dSBrian Gaeke 95a4044332SJeffrey Yasskin namespace { 96868e3f09SDaniel Dunbar /// \brief Helper class which uses a value handler to automatically deletes the 97868e3f09SDaniel Dunbar /// memory block when the GlobalVariable is destroyed. 98774b584fSDavid Blaikie class GVMemoryBlock final : public CallbackVH { 99a4044332SJeffrey Yasskin GVMemoryBlock(const GlobalVariable *GV) 100a4044332SJeffrey Yasskin : CallbackVH(const_cast<GlobalVariable*>(GV)) {} 101a4044332SJeffrey Yasskin 102a4044332SJeffrey Yasskin public: 103868e3f09SDaniel Dunbar /// \brief Returns the address the GlobalVariable should be written into. The 104868e3f09SDaniel Dunbar /// GVMemoryBlock object prefixes that. 105cdfe20b9SMicah Villmow static char *Create(const GlobalVariable *GV, const DataLayout& TD) { 106229907cdSChris Lattner Type *ElTy = GV->getType()->getElementType(); 107a4044332SJeffrey Yasskin size_t GVSize = (size_t)TD.getTypeAllocSize(ElTy); 108a4044332SJeffrey Yasskin void *RawMemory = ::operator new( 109*da00f2fdSRui Ueyama alignTo(sizeof(GVMemoryBlock), TD.getPreferredAlignment(GV)) + GVSize); 110a4044332SJeffrey Yasskin new(RawMemory) GVMemoryBlock(GV); 111a4044332SJeffrey Yasskin return static_cast<char*>(RawMemory) + sizeof(GVMemoryBlock); 112a4044332SJeffrey Yasskin } 113a4044332SJeffrey Yasskin 114b51ff603SCraig Topper void deleted() override { 115a4044332SJeffrey Yasskin // We allocated with operator new and with some extra memory hanging off the 116a4044332SJeffrey Yasskin // end, so don't just delete this. I'm not sure if this is actually 117a4044332SJeffrey Yasskin // required. 118a4044332SJeffrey Yasskin this->~GVMemoryBlock(); 119a4044332SJeffrey Yasskin ::operator delete(this); 120a4044332SJeffrey Yasskin } 121a4044332SJeffrey Yasskin }; 122a4044332SJeffrey Yasskin } // anonymous namespace 123a4044332SJeffrey Yasskin 124a4044332SJeffrey Yasskin char *ExecutionEngine::getMemoryForGV(const GlobalVariable *GV) { 125a3fcefb6SMehdi Amini return GVMemoryBlock::Create(GV, getDataLayout()); 1265457ce9aSNicolas Geoffray } 1275457ce9aSNicolas Geoffray 12835907d8eSDavid Blaikie void ExecutionEngine::addObjectFile(std::unique_ptr<object::ObjectFile> O) { 12935907d8eSDavid Blaikie llvm_unreachable("ExecutionEngine subclass doesn't implement addObjectFile."); 13035907d8eSDavid Blaikie } 13135907d8eSDavid Blaikie 1327271c194SRafael Espindola void 1337271c194SRafael Espindola ExecutionEngine::addObjectFile(object::OwningBinary<object::ObjectFile> O) { 1347271c194SRafael Espindola llvm_unreachable("ExecutionEngine subclass doesn't implement addObjectFile."); 1357271c194SRafael Espindola } 1367271c194SRafael Espindola 13748af1c2aSRafael Espindola void ExecutionEngine::addArchive(object::OwningBinary<object::Archive> A) { 138acfd6289SRafael Espindola llvm_unreachable("ExecutionEngine subclass doesn't implement addArchive."); 139acfd6289SRafael Espindola } 140acfd6289SRafael Espindola 141091217beSJeffrey Yasskin bool ExecutionEngine::removeModule(Module *M) { 1422a8a2795SRafael Espindola for (auto I = Modules.begin(), E = Modules.end(); I != E; ++I) { 1432a8a2795SRafael Espindola Module *Found = I->get(); 144091217beSJeffrey Yasskin if (Found == M) { 1452a8a2795SRafael Espindola I->release(); 146324fe890SDevang Patel Modules.erase(I); 147091217beSJeffrey Yasskin clearGlobalMappingsFromModule(M); 148091217beSJeffrey Yasskin return true; 149324fe890SDevang Patel } 150324fe890SDevang Patel } 151091217beSJeffrey Yasskin return false; 152617001d8SNate Begeman } 153617001d8SNate Begeman 1540621caefSChris Lattner Function *ExecutionEngine::FindFunctionNamed(const char *FnName) { 1550621caefSChris Lattner for (unsigned i = 0, e = Modules.size(); i != e; ++i) { 1565f92a08fSKeno Fischer Function *F = Modules[i]->getFunction(FnName); 1575f92a08fSKeno Fischer if (F && !F->isDeclaration()) 1580621caefSChris Lattner return F; 1590621caefSChris Lattner } 1602617dcceSCraig Topper return nullptr; 1610621caefSChris Lattner } 1620621caefSChris Lattner 16373378eb1SKeno Fischer GlobalVariable *ExecutionEngine::FindGlobalVariableNamed(const char *Name, bool AllowInternal) { 16473378eb1SKeno Fischer for (unsigned i = 0, e = Modules.size(); i != e; ++i) { 16573378eb1SKeno Fischer GlobalVariable *GV = Modules[i]->getGlobalVariable(Name,AllowInternal); 16673378eb1SKeno Fischer if (GV && !GV->isDeclaration()) 16773378eb1SKeno Fischer return GV; 16873378eb1SKeno Fischer } 16973378eb1SKeno Fischer return nullptr; 17073378eb1SKeno Fischer } 1710621caefSChris Lattner 1723dac3f7fSLang Hames uint64_t ExecutionEngineState::RemoveMapping(StringRef Name) { 1733dac3f7fSLang Hames GlobalAddressMapTy::iterator I = GlobalAddressMap.find(Name); 1743dac3f7fSLang Hames uint64_t OldVal; 175868e3f09SDaniel Dunbar 176868e3f09SDaniel Dunbar // FIXME: This is silly, we shouldn't end up with a mapping -> 0 in the 177868e3f09SDaniel Dunbar // GlobalAddressMap. 178307c053fSJeffrey Yasskin if (I == GlobalAddressMap.end()) 1793dac3f7fSLang Hames OldVal = 0; 180307c053fSJeffrey Yasskin else { 1813dac3f7fSLang Hames GlobalAddressReverseMap.erase(I->second); 182307c053fSJeffrey Yasskin OldVal = I->second; 183307c053fSJeffrey Yasskin GlobalAddressMap.erase(I); 184307c053fSJeffrey Yasskin } 185307c053fSJeffrey Yasskin 186307c053fSJeffrey Yasskin return OldVal; 187307c053fSJeffrey Yasskin } 188307c053fSJeffrey Yasskin 1893dac3f7fSLang Hames std::string ExecutionEngine::getMangledName(const GlobalValue *GV) { 1903393cfdeSLang Hames assert(GV->hasName() && "Global must have name."); 1913393cfdeSLang Hames 1923dac3f7fSLang Hames MutexGuard locked(lock); 1933dac3f7fSLang Hames SmallString<128> FullName; 1943393cfdeSLang Hames 1953393cfdeSLang Hames const DataLayout &DL = 1963393cfdeSLang Hames GV->getParent()->getDataLayout().isDefault() 1973393cfdeSLang Hames ? getDataLayout() 1983393cfdeSLang Hames : GV->getParent()->getDataLayout(); 1993393cfdeSLang Hames 2003393cfdeSLang Hames Mangler::getNameWithPrefix(FullName, GV->getName(), DL); 2013dac3f7fSLang Hames return FullName.str(); 2023dac3f7fSLang Hames } 2033dac3f7fSLang Hames 2046d8dd189SChris Lattner void ExecutionEngine::addGlobalMapping(const GlobalValue *GV, void *Addr) { 205c04b892fSZachary Turner MutexGuard locked(lock); 2063dac3f7fSLang Hames addGlobalMapping(getMangledName(GV), (uint64_t) Addr); 2073dac3f7fSLang Hames } 2086d8dd189SChris Lattner 2093dac3f7fSLang Hames void ExecutionEngine::addGlobalMapping(StringRef Name, uint64_t Addr) { 2103dac3f7fSLang Hames MutexGuard locked(lock); 2113dac3f7fSLang Hames 2123dac3f7fSLang Hames assert(!Name.empty() && "Empty GlobalMapping symbol name!"); 2133dac3f7fSLang Hames 2143dac3f7fSLang Hames DEBUG(dbgs() << "JIT: Map \'" << Name << "\' to [" << Addr << "]\n";); 2153dac3f7fSLang Hames uint64_t &CurVal = EEState.getGlobalAddressMap()[Name]; 2162617dcceSCraig Topper assert((!CurVal || !Addr) && "GlobalMapping already established!"); 2176d8dd189SChris Lattner CurVal = Addr; 2186d8dd189SChris Lattner 219868e3f09SDaniel Dunbar // If we are using the reverse mapping, add it too. 2202f825df6SZachary Turner if (!EEState.getGlobalAddressReverseMap().empty()) { 2213dac3f7fSLang Hames std::string &V = EEState.getGlobalAddressReverseMap()[CurVal]; 2223dac3f7fSLang Hames assert((!V.empty() || !Name.empty()) && 2233dac3f7fSLang Hames "GlobalMapping already established!"); 2243dac3f7fSLang Hames V = Name; 2256d8dd189SChris Lattner } 2266d8dd189SChris Lattner } 2276d8dd189SChris Lattner 2286d8dd189SChris Lattner void ExecutionEngine::clearAllGlobalMappings() { 229c04b892fSZachary Turner MutexGuard locked(lock); 2306d8dd189SChris Lattner 2312f825df6SZachary Turner EEState.getGlobalAddressMap().clear(); 2322f825df6SZachary Turner EEState.getGlobalAddressReverseMap().clear(); 2336d8dd189SChris Lattner } 2346d8dd189SChris Lattner 2358f83fc4dSNate Begeman void ExecutionEngine::clearGlobalMappingsFromModule(Module *M) { 236c04b892fSZachary Turner MutexGuard locked(lock); 2378f83fc4dSNate Begeman 2384ead920cSDuncan P. N. Exon Smith for (Function &FI : *M) 2394ead920cSDuncan P. N. Exon Smith EEState.RemoveMapping(getMangledName(&FI)); 2404ead920cSDuncan P. N. Exon Smith for (GlobalVariable &GI : M->globals()) 2414ead920cSDuncan P. N. Exon Smith EEState.RemoveMapping(getMangledName(&GI)); 2428f83fc4dSNate Begeman } 2438f83fc4dSNate Begeman 2443dac3f7fSLang Hames uint64_t ExecutionEngine::updateGlobalMapping(const GlobalValue *GV, 2453dac3f7fSLang Hames void *Addr) { 2463dac3f7fSLang Hames MutexGuard locked(lock); 2473dac3f7fSLang Hames return updateGlobalMapping(getMangledName(GV), (uint64_t) Addr); 2483dac3f7fSLang Hames } 2493dac3f7fSLang Hames 2503dac3f7fSLang Hames uint64_t ExecutionEngine::updateGlobalMapping(StringRef Name, uint64_t Addr) { 251c04b892fSZachary Turner MutexGuard locked(lock); 2526d8dd189SChris Lattner 253d0fc8f80SJeffrey Yasskin ExecutionEngineState::GlobalAddressMapTy &Map = 2542f825df6SZachary Turner EEState.getGlobalAddressMap(); 255ee181730SChris Lattner 2566d8dd189SChris Lattner // Deleting from the mapping? 2572617dcceSCraig Topper if (!Addr) 2583dac3f7fSLang Hames return EEState.RemoveMapping(Name); 259ee181730SChris Lattner 2603dac3f7fSLang Hames uint64_t &CurVal = Map[Name]; 2613dac3f7fSLang Hames uint64_t OldVal = CurVal; 262ee181730SChris Lattner 2632f825df6SZachary Turner if (CurVal && !EEState.getGlobalAddressReverseMap().empty()) 2642f825df6SZachary Turner EEState.getGlobalAddressReverseMap().erase(CurVal); 2656d8dd189SChris Lattner CurVal = Addr; 2666d8dd189SChris Lattner 267868e3f09SDaniel Dunbar // If we are using the reverse mapping, add it too. 2682f825df6SZachary Turner if (!EEState.getGlobalAddressReverseMap().empty()) { 2693dac3f7fSLang Hames std::string &V = EEState.getGlobalAddressReverseMap()[CurVal]; 2703dac3f7fSLang Hames assert((!V.empty() || !Name.empty()) && 2713dac3f7fSLang Hames "GlobalMapping already established!"); 2723dac3f7fSLang Hames V = Name; 2736d8dd189SChris Lattner } 274ee181730SChris Lattner return OldVal; 2756d8dd189SChris Lattner } 2766d8dd189SChris Lattner 2773dac3f7fSLang Hames uint64_t ExecutionEngine::getAddressToGlobalIfAvailable(StringRef S) { 2783dac3f7fSLang Hames MutexGuard locked(lock); 2793dac3f7fSLang Hames uint64_t Address = 0; 2803dac3f7fSLang Hames ExecutionEngineState::GlobalAddressMapTy::iterator I = 2813dac3f7fSLang Hames EEState.getGlobalAddressMap().find(S); 2823dac3f7fSLang Hames if (I != EEState.getGlobalAddressMap().end()) 2833dac3f7fSLang Hames Address = I->second; 2843dac3f7fSLang Hames return Address; 2853dac3f7fSLang Hames } 2863dac3f7fSLang Hames 2873dac3f7fSLang Hames 2883dac3f7fSLang Hames void *ExecutionEngine::getPointerToGlobalIfAvailable(StringRef S) { 2893dac3f7fSLang Hames MutexGuard locked(lock); 2903dac3f7fSLang Hames if (void* Address = (void *) getAddressToGlobalIfAvailable(S)) 2913dac3f7fSLang Hames return Address; 2923dac3f7fSLang Hames return nullptr; 2933dac3f7fSLang Hames } 2943dac3f7fSLang Hames 2956d8dd189SChris Lattner void *ExecutionEngine::getPointerToGlobalIfAvailable(const GlobalValue *GV) { 296c04b892fSZachary Turner MutexGuard locked(lock); 2973dac3f7fSLang Hames return getPointerToGlobalIfAvailable(getMangledName(GV)); 2986d8dd189SChris Lattner } 2996d8dd189SChris Lattner 300748e8579SChris Lattner const GlobalValue *ExecutionEngine::getGlobalValueAtAddress(void *Addr) { 301c04b892fSZachary Turner MutexGuard locked(lock); 30279876f52SReid Spencer 303748e8579SChris Lattner // If we haven't computed the reverse mapping yet, do so first. 3042f825df6SZachary Turner if (EEState.getGlobalAddressReverseMap().empty()) { 305d0fc8f80SJeffrey Yasskin for (ExecutionEngineState::GlobalAddressMapTy::iterator 3062f825df6SZachary Turner I = EEState.getGlobalAddressMap().begin(), 3073dac3f7fSLang Hames E = EEState.getGlobalAddressMap().end(); I != E; ++I) { 3083dac3f7fSLang Hames StringRef Name = I->first(); 3093dac3f7fSLang Hames uint64_t Addr = I->second; 3102f825df6SZachary Turner EEState.getGlobalAddressReverseMap().insert(std::make_pair( 3113dac3f7fSLang Hames Addr, Name)); 3123dac3f7fSLang Hames } 313748e8579SChris Lattner } 314748e8579SChris Lattner 3153dac3f7fSLang Hames std::map<uint64_t, std::string>::iterator I = 3163dac3f7fSLang Hames EEState.getGlobalAddressReverseMap().find((uint64_t) Addr); 3173dac3f7fSLang Hames 3183dac3f7fSLang Hames if (I != EEState.getGlobalAddressReverseMap().end()) { 3193dac3f7fSLang Hames StringRef Name = I->second; 3203dac3f7fSLang Hames for (unsigned i = 0, e = Modules.size(); i != e; ++i) 3213dac3f7fSLang Hames if (GlobalValue *GV = Modules[i]->getNamedValue(Name)) 3223dac3f7fSLang Hames return GV; 3233dac3f7fSLang Hames } 3243dac3f7fSLang Hames return nullptr; 325748e8579SChris Lattner } 3265a0d4829SChris Lattner 327bfd38abbSJeffrey Yasskin namespace { 328bfd38abbSJeffrey Yasskin class ArgvArray { 329c4a9942aSDylan Noblesmith std::unique_ptr<char[]> Array; 330c4a9942aSDylan Noblesmith std::vector<std::unique_ptr<char[]>> Values; 331bfd38abbSJeffrey Yasskin public: 332bfd38abbSJeffrey Yasskin /// Turn a vector of strings into a nice argv style array of pointers to null 333bfd38abbSJeffrey Yasskin /// terminated strings. 334bfd38abbSJeffrey Yasskin void *reset(LLVMContext &C, ExecutionEngine *EE, 335bfd38abbSJeffrey Yasskin const std::vector<std::string> &InputArgv); 336bfd38abbSJeffrey Yasskin }; 337bfd38abbSJeffrey Yasskin } // anonymous namespace 338bfd38abbSJeffrey Yasskin void *ArgvArray::reset(LLVMContext &C, ExecutionEngine *EE, 3395a0d4829SChris Lattner const std::vector<std::string> &InputArgv) { 340c4a9942aSDylan Noblesmith Values.clear(); // Free the old contents. 341c4a9942aSDylan Noblesmith Values.reserve(InputArgv.size()); 342a3fcefb6SMehdi Amini unsigned PtrSize = EE->getDataLayout().getPointerSize(); 343c4a9942aSDylan Noblesmith Array = make_unique<char[]>((InputArgv.size()+1)*PtrSize); 3445a0d4829SChris Lattner 345c4a9942aSDylan Noblesmith DEBUG(dbgs() << "JIT: ARGV = " << (void*)Array.get() << "\n"); 346229907cdSChris Lattner Type *SBytePtr = Type::getInt8PtrTy(C); 3475a0d4829SChris Lattner 3485a0d4829SChris Lattner for (unsigned i = 0; i != InputArgv.size(); ++i) { 3495a0d4829SChris Lattner unsigned Size = InputArgv[i].size()+1; 3504b535d19SDylan Noblesmith auto Dest = make_unique<char[]>(Size); 3514b535d19SDylan Noblesmith DEBUG(dbgs() << "JIT: ARGV[" << i << "] = " << (void*)Dest.get() << "\n"); 3525a0d4829SChris Lattner 3534b535d19SDylan Noblesmith std::copy(InputArgv[i].begin(), InputArgv[i].end(), Dest.get()); 3545a0d4829SChris Lattner Dest[Size-1] = 0; 3555a0d4829SChris Lattner 356bfd38abbSJeffrey Yasskin // Endian safe: Array[i] = (PointerTy)Dest; 3574b535d19SDylan Noblesmith EE->StoreValueToMemory(PTOGV(Dest.get()), 3584b535d19SDylan Noblesmith (GenericValue*)(&Array[i*PtrSize]), SBytePtr); 3594b535d19SDylan Noblesmith Values.push_back(std::move(Dest)); 3605a0d4829SChris Lattner } 3615a0d4829SChris Lattner 3625a0d4829SChris Lattner // Null terminate it 3632617dcceSCraig Topper EE->StoreValueToMemory(PTOGV(nullptr), 364c4a9942aSDylan Noblesmith (GenericValue*)(&Array[InputArgv.size()*PtrSize]), 3655a0d4829SChris Lattner SBytePtr); 366c4a9942aSDylan Noblesmith return Array.get(); 3675a0d4829SChris Lattner } 3685a0d4829SChris Lattner 3692a8a2795SRafael Espindola void ExecutionEngine::runStaticConstructorsDestructors(Module &module, 37041fa2bd1SChris Lattner bool isDtors) { 371faae50b6SChris Lattner const char *Name = isDtors ? "llvm.global_dtors" : "llvm.global_ctors"; 3722a8a2795SRafael Espindola GlobalVariable *GV = module.getNamedGlobal(Name); 373fe36eaebSChris Lattner 374fe36eaebSChris Lattner // If this global has internal linkage, or if it has a use, then it must be 375fe36eaebSChris Lattner // an old-style (llvmgcc3) static ctor with __main linked in and in use. If 3760621caefSChris Lattner // this is the case, don't execute any of the global ctors, __main will do 3770621caefSChris Lattner // it. 3786de96a1bSRafael Espindola if (!GV || GV->isDeclaration() || GV->hasLocalLinkage()) return; 379faae50b6SChris Lattner 3800cbfcb2bSNick Lewycky // Should be an array of '{ i32, void ()* }' structs. The first value is 3810621caefSChris Lattner // the init priority, which we ignore. 38200245f42SChris Lattner ConstantArray *InitList = dyn_cast<ConstantArray>(GV->getInitializer()); 3832617dcceSCraig Topper if (!InitList) 3840f857898SNick Lewycky return; 385868e3f09SDaniel Dunbar for (unsigned i = 0, e = InitList->getNumOperands(); i != e; ++i) { 38600245f42SChris Lattner ConstantStruct *CS = dyn_cast<ConstantStruct>(InitList->getOperand(i)); 3872617dcceSCraig Topper if (!CS) continue; 388faae50b6SChris Lattner 389faae50b6SChris Lattner Constant *FP = CS->getOperand(1); 390faae50b6SChris Lattner if (FP->isNullValue()) 3910f857898SNick Lewycky continue; // Found a sentinal value, ignore. 392faae50b6SChris Lattner 393868e3f09SDaniel Dunbar // Strip off constant expression casts. 394faae50b6SChris Lattner if (ConstantExpr *CE = dyn_cast<ConstantExpr>(FP)) 3956c38f0bbSReid Spencer if (CE->isCast()) 396faae50b6SChris Lattner FP = CE->getOperand(0); 397868e3f09SDaniel Dunbar 398faae50b6SChris Lattner // Execute the ctor/dtor function! 399868e3f09SDaniel Dunbar if (Function *F = dyn_cast<Function>(FP)) 400bd7b1c89SBenjamin Kramer runFunction(F, None); 401868e3f09SDaniel Dunbar 402868e3f09SDaniel Dunbar // FIXME: It is marginally lame that we just do nothing here if we see an 403868e3f09SDaniel Dunbar // entry we don't recognize. It might not be unreasonable for the verifier 404868e3f09SDaniel Dunbar // to not even allow this and just assert here. 405faae50b6SChris Lattner } 406faae50b6SChris Lattner } 4071a9a0b7bSEvan Cheng 4081a9a0b7bSEvan Cheng void ExecutionEngine::runStaticConstructorsDestructors(bool isDtors) { 4091a9a0b7bSEvan Cheng // Execute global ctors/dtors for each module in the program. 4102a8a2795SRafael Espindola for (std::unique_ptr<Module> &M : Modules) 4112a8a2795SRafael Espindola runStaticConstructorsDestructors(*M, isDtors); 4120621caefSChris Lattner } 413faae50b6SChris Lattner 414cf3e3017SDan Gohman #ifndef NDEBUG 4151202d1b1SDuncan Sands /// isTargetNullPtr - Return whether the target pointer stored at Loc is null. 4161202d1b1SDuncan Sands static bool isTargetNullPtr(ExecutionEngine *EE, void *Loc) { 417a3fcefb6SMehdi Amini unsigned PtrSize = EE->getDataLayout().getPointerSize(); 4181202d1b1SDuncan Sands for (unsigned i = 0; i < PtrSize; ++i) 4191202d1b1SDuncan Sands if (*(i + (uint8_t*)Loc)) 4201202d1b1SDuncan Sands return false; 4211202d1b1SDuncan Sands return true; 4221202d1b1SDuncan Sands } 423cf3e3017SDan Gohman #endif 4241202d1b1SDuncan Sands 4255a0d4829SChris Lattner int ExecutionEngine::runFunctionAsMain(Function *Fn, 4265a0d4829SChris Lattner const std::vector<std::string> &argv, 4275a0d4829SChris Lattner const char * const * envp) { 4285a0d4829SChris Lattner std::vector<GenericValue> GVArgs; 4295a0d4829SChris Lattner GenericValue GVArgc; 43087aa65f4SReid Spencer GVArgc.IntVal = APInt(32, argv.size()); 4318c32c111SAnton Korobeynikov 4328c32c111SAnton Korobeynikov // Check main() type 433b1cad0b3SChris Lattner unsigned NumArgs = Fn->getFunctionType()->getNumParams(); 434229907cdSChris Lattner FunctionType *FTy = Fn->getFunctionType(); 435229907cdSChris Lattner Type* PPInt8Ty = Type::getInt8PtrTy(Fn->getContext())->getPointerTo(); 436868e3f09SDaniel Dunbar 437868e3f09SDaniel Dunbar // Check the argument types. 438868e3f09SDaniel Dunbar if (NumArgs > 3) 4392104b8d3SChris Lattner report_fatal_error("Invalid number of arguments of main() supplied"); 440868e3f09SDaniel Dunbar if (NumArgs >= 3 && FTy->getParamType(2) != PPInt8Ty) 441868e3f09SDaniel Dunbar report_fatal_error("Invalid type for third argument of main() supplied"); 442868e3f09SDaniel Dunbar if (NumArgs >= 2 && FTy->getParamType(1) != PPInt8Ty) 443868e3f09SDaniel Dunbar report_fatal_error("Invalid type for second argument of main() supplied"); 444868e3f09SDaniel Dunbar if (NumArgs >= 1 && !FTy->getParamType(0)->isIntegerTy(32)) 445868e3f09SDaniel Dunbar report_fatal_error("Invalid type for first argument of main() supplied"); 446868e3f09SDaniel Dunbar if (!FTy->getReturnType()->isIntegerTy() && 447868e3f09SDaniel Dunbar !FTy->getReturnType()->isVoidTy()) 448868e3f09SDaniel Dunbar report_fatal_error("Invalid return type of main() supplied"); 4498c32c111SAnton Korobeynikov 450bfd38abbSJeffrey Yasskin ArgvArray CArgv; 451bfd38abbSJeffrey Yasskin ArgvArray CEnv; 452b1cad0b3SChris Lattner if (NumArgs) { 4535a0d4829SChris Lattner GVArgs.push_back(GVArgc); // Arg #0 = argc. 454b1cad0b3SChris Lattner if (NumArgs > 1) { 45555f1c09eSOwen Anderson // Arg #1 = argv. 456bfd38abbSJeffrey Yasskin GVArgs.push_back(PTOGV(CArgv.reset(Fn->getContext(), this, argv))); 4571202d1b1SDuncan Sands assert(!isTargetNullPtr(this, GVTOP(GVArgs[1])) && 458b1cad0b3SChris Lattner "argv[0] was null after CreateArgv"); 459b1cad0b3SChris Lattner if (NumArgs > 2) { 4605a0d4829SChris Lattner std::vector<std::string> EnvVars; 4615a0d4829SChris Lattner for (unsigned i = 0; envp[i]; ++i) 462f5e2fc47SBenjamin Kramer EnvVars.emplace_back(envp[i]); 46355f1c09eSOwen Anderson // Arg #2 = envp. 464bfd38abbSJeffrey Yasskin GVArgs.push_back(PTOGV(CEnv.reset(Fn->getContext(), this, EnvVars))); 465b1cad0b3SChris Lattner } 466b1cad0b3SChris Lattner } 467b1cad0b3SChris Lattner } 468868e3f09SDaniel Dunbar 46987aa65f4SReid Spencer return runFunction(Fn, GVArgs).IntVal.getZExtValue(); 4705a0d4829SChris Lattner } 4715a0d4829SChris Lattner 472298a3a05SBenjamin Kramer EngineBuilder::EngineBuilder() : EngineBuilder(nullptr) {} 47393de2a12SLang Hames 4744a5697e6SLang Hames EngineBuilder::EngineBuilder(std::unique_ptr<Module> M) 475298a3a05SBenjamin Kramer : M(std::move(M)), WhichEngine(EngineKind::Either), ErrorStr(nullptr), 476633fe146SLang Hames OptLevel(CodeGenOpt::Default), MemMgr(nullptr), Resolver(nullptr), 477633fe146SLang Hames RelocModel(Reloc::Default), CMModel(CodeModel::JITDefault), 478633fe146SLang Hames UseOrcMCJITReplacement(false) { 479322db9eaSAlp Toker // IR module verification is enabled by default in debug builds, and disabled 480322db9eaSAlp Toker // by default in release builds. 481322db9eaSAlp Toker #ifndef NDEBUG 482322db9eaSAlp Toker VerifyModules = true; 483322db9eaSAlp Toker #else 484322db9eaSAlp Toker VerifyModules = false; 485322db9eaSAlp Toker #endif 486322db9eaSAlp Toker } 487322db9eaSAlp Toker 488298a3a05SBenjamin Kramer EngineBuilder::~EngineBuilder() = default; 489298a3a05SBenjamin Kramer 490298a3a05SBenjamin Kramer EngineBuilder &EngineBuilder::setMCJITMemoryManager( 491298a3a05SBenjamin Kramer std::unique_ptr<RTDyldMemoryManager> mcjmm) { 492633fe146SLang Hames auto SharedMM = std::shared_ptr<RTDyldMemoryManager>(std::move(mcjmm)); 493633fe146SLang Hames MemMgr = SharedMM; 494633fe146SLang Hames Resolver = SharedMM; 495633fe146SLang Hames return *this; 496633fe146SLang Hames } 497633fe146SLang Hames 498633fe146SLang Hames EngineBuilder& 499633fe146SLang Hames EngineBuilder::setMemoryManager(std::unique_ptr<MCJITMemoryManager> MM) { 500633fe146SLang Hames MemMgr = std::shared_ptr<MCJITMemoryManager>(std::move(MM)); 501633fe146SLang Hames return *this; 502633fe146SLang Hames } 503633fe146SLang Hames 504633fe146SLang Hames EngineBuilder& 505633fe146SLang Hames EngineBuilder::setSymbolResolver(std::unique_ptr<RuntimeDyld::SymbolResolver> SR) { 506633fe146SLang Hames Resolver = std::shared_ptr<RuntimeDyld::SymbolResolver>(std::move(SR)); 507298a3a05SBenjamin Kramer return *this; 508298a3a05SBenjamin Kramer } 509298a3a05SBenjamin Kramer 510add6f1d2SOwen Anderson ExecutionEngine *EngineBuilder::create(TargetMachine *TM) { 51156440fd8SAhmed Charles std::unique_ptr<TargetMachine> TheTM(TM); // Take ownership. 51225a3d816SBenjamin Kramer 513a53414fdSNick Lewycky // Make sure we can resolve symbols in the program as well. The zero arg 514a53414fdSNick Lewycky // to the function tells DynamicLibrary to load the program, not a library. 5152617dcceSCraig Topper if (sys::DynamicLibrary::LoadLibraryPermanently(nullptr, ErrorStr)) 5162617dcceSCraig Topper return nullptr; 517a53414fdSNick Lewycky 518fc8a2d5aSReid Kleckner // If the user specified a memory manager but didn't specify which engine to 519fc8a2d5aSReid Kleckner // create, we assume they only want the JIT, and we fail if they only want 520fc8a2d5aSReid Kleckner // the interpreter. 521633fe146SLang Hames if (MemMgr) { 52241fa2bd1SChris Lattner if (WhichEngine & EngineKind::JIT) 523fc8a2d5aSReid Kleckner WhichEngine = EngineKind::JIT; 52441fa2bd1SChris Lattner else { 5258bcc6445SChris Lattner if (ErrorStr) 526fc8a2d5aSReid Kleckner *ErrorStr = "Cannot create an interpreter with a memory manager."; 5272617dcceSCraig Topper return nullptr; 528fc8a2d5aSReid Kleckner } 5294bd3bd5bSBrian Gaeke } 5304bd3bd5bSBrian Gaeke 531fc8a2d5aSReid Kleckner // Unless the interpreter was explicitly selected or the JIT is not linked, 532fc8a2d5aSReid Kleckner // try making a JIT. 53325a3d816SBenjamin Kramer if ((WhichEngine & EngineKind::JIT) && TheTM) { 5347f26246aSDylan Noblesmith Triple TT(M->getTargetTriple()); 5357f26246aSDylan Noblesmith if (!TM->getTarget().hasJIT()) { 5367f26246aSDylan Noblesmith errs() << "WARNING: This target JIT is not designed for the host" 5377f26246aSDylan Noblesmith << " you are running. If bad things happen, please choose" 5387f26246aSDylan Noblesmith << " a different -march switch.\n"; 5397f26246aSDylan Noblesmith } 5407f26246aSDylan Noblesmith 541bc876017SLang Hames ExecutionEngine *EE = nullptr; 54293de2a12SLang Hames if (ExecutionEngine::OrcMCJITReplacementCtor && UseOrcMCJITReplacement) { 543633fe146SLang Hames EE = ExecutionEngine::OrcMCJITReplacementCtor(ErrorStr, std::move(MemMgr), 544633fe146SLang Hames std::move(Resolver), 54593de2a12SLang Hames std::move(TheTM)); 54693de2a12SLang Hames EE->addModule(std::move(M)); 54793de2a12SLang Hames } else if (ExecutionEngine::MCJITCtor) 548633fe146SLang Hames EE = ExecutionEngine::MCJITCtor(std::move(M), ErrorStr, std::move(MemMgr), 549633fe146SLang Hames std::move(Resolver), std::move(TheTM)); 55093de2a12SLang Hames 551bc876017SLang Hames if (EE) { 552bc876017SLang Hames EE->setVerifyModules(VerifyModules); 553bc876017SLang Hames return EE; 55441fa2bd1SChris Lattner } 555fc8a2d5aSReid Kleckner } 556fc8a2d5aSReid Kleckner 557fc8a2d5aSReid Kleckner // If we can't make a JIT and we didn't request one specifically, try making 558fc8a2d5aSReid Kleckner // an interpreter instead. 55941fa2bd1SChris Lattner if (WhichEngine & EngineKind::Interpreter) { 56041fa2bd1SChris Lattner if (ExecutionEngine::InterpCtor) 5612a8a2795SRafael Espindola return ExecutionEngine::InterpCtor(std::move(M), ErrorStr); 5628bcc6445SChris Lattner if (ErrorStr) 56341fa2bd1SChris Lattner *ErrorStr = "Interpreter has not been linked in."; 5642617dcceSCraig Topper return nullptr; 565fc8a2d5aSReid Kleckner } 566fc8a2d5aSReid Kleckner 56779cc1e3aSEric Christopher if ((WhichEngine & EngineKind::JIT) && !ExecutionEngine::MCJITCtor) { 5688bcc6445SChris Lattner if (ErrorStr) 5698bcc6445SChris Lattner *ErrorStr = "JIT has not been linked in."; 5708bcc6445SChris Lattner } 571868e3f09SDaniel Dunbar 5722617dcceSCraig Topper return nullptr; 573b5163bb9SChris Lattner } 574b5163bb9SChris Lattner 575996fe010SChris Lattner void *ExecutionEngine::getPointerToGlobal(const GlobalValue *GV) { 5761678e859SBrian Gaeke if (Function *F = const_cast<Function*>(dyn_cast<Function>(GV))) 577996fe010SChris Lattner return getPointerToFunction(F); 578996fe010SChris Lattner 579c04b892fSZachary Turner MutexGuard locked(lock); 5803dac3f7fSLang Hames if (void* P = getPointerToGlobalIfAvailable(GV)) 581868e3f09SDaniel Dunbar return P; 58269e84901SJeff Cohen 58369e84901SJeff Cohen // Global variable might have been added since interpreter started. 58469e84901SJeff Cohen if (GlobalVariable *GVar = 58569e84901SJeff Cohen const_cast<GlobalVariable *>(dyn_cast<GlobalVariable>(GV))) 58669e84901SJeff Cohen EmitGlobalVariable(GVar); 58769e84901SJeff Cohen else 588fbcc663cSTorok Edwin llvm_unreachable("Global hasn't had an address allocated yet!"); 589868e3f09SDaniel Dunbar 5903dac3f7fSLang Hames return getPointerToGlobalIfAvailable(GV); 591996fe010SChris Lattner } 592996fe010SChris Lattner 593868e3f09SDaniel Dunbar /// \brief Converts a Constant* into a GenericValue, including handling of 594868e3f09SDaniel Dunbar /// ConstantExpr values. 595996fe010SChris Lattner GenericValue ExecutionEngine::getConstantValue(const Constant *C) { 5966c38f0bbSReid Spencer // If its undefined, return the garbage. 597bcbdbfb3SJay Foad if (isa<UndefValue>(C)) { 598bcbdbfb3SJay Foad GenericValue Result; 599bcbdbfb3SJay Foad switch (C->getType()->getTypeID()) { 600be79a7acSNadav Rotem default: 601be79a7acSNadav Rotem break; 602bcbdbfb3SJay Foad case Type::IntegerTyID: 603bcbdbfb3SJay Foad case Type::X86_FP80TyID: 604bcbdbfb3SJay Foad case Type::FP128TyID: 605bcbdbfb3SJay Foad case Type::PPC_FP128TyID: 606bcbdbfb3SJay Foad // Although the value is undefined, we still have to construct an APInt 607bcbdbfb3SJay Foad // with the correct bit width. 608bcbdbfb3SJay Foad Result.IntVal = APInt(C->getType()->getPrimitiveSizeInBits(), 0); 609bcbdbfb3SJay Foad break; 6108e97f016SElena Demikhovsky case Type::StructTyID: { 6118e97f016SElena Demikhovsky // if the whole struct is 'undef' just reserve memory for the value. 6128e97f016SElena Demikhovsky if(StructType *STy = dyn_cast<StructType>(C->getType())) { 6138e97f016SElena Demikhovsky unsigned int elemNum = STy->getNumElements(); 6148e97f016SElena Demikhovsky Result.AggregateVal.resize(elemNum); 6158e97f016SElena Demikhovsky for (unsigned int i = 0; i < elemNum; ++i) { 6168e97f016SElena Demikhovsky Type *ElemTy = STy->getElementType(i); 6178e97f016SElena Demikhovsky if (ElemTy->isIntegerTy()) 6188e97f016SElena Demikhovsky Result.AggregateVal[i].IntVal = 6198e97f016SElena Demikhovsky APInt(ElemTy->getPrimitiveSizeInBits(), 0); 6208e97f016SElena Demikhovsky else if (ElemTy->isAggregateType()) { 6218e97f016SElena Demikhovsky const Constant *ElemUndef = UndefValue::get(ElemTy); 6228e97f016SElena Demikhovsky Result.AggregateVal[i] = getConstantValue(ElemUndef); 6238e97f016SElena Demikhovsky } 6248e97f016SElena Demikhovsky } 6258e97f016SElena Demikhovsky } 6268e97f016SElena Demikhovsky } 6278e97f016SElena Demikhovsky break; 628be79a7acSNadav Rotem case Type::VectorTyID: 629be79a7acSNadav Rotem // if the whole vector is 'undef' just reserve memory for the value. 630e3dcce97SCraig Topper auto* VTy = dyn_cast<VectorType>(C->getType()); 631e3dcce97SCraig Topper Type *ElemTy = VTy->getElementType(); 632be79a7acSNadav Rotem unsigned int elemNum = VTy->getNumElements(); 633be79a7acSNadav Rotem Result.AggregateVal.resize(elemNum); 634be79a7acSNadav Rotem if (ElemTy->isIntegerTy()) 635be79a7acSNadav Rotem for (unsigned int i = 0; i < elemNum; ++i) 636be79a7acSNadav Rotem Result.AggregateVal[i].IntVal = 637be79a7acSNadav Rotem APInt(ElemTy->getPrimitiveSizeInBits(), 0); 638bcbdbfb3SJay Foad break; 639bcbdbfb3SJay Foad } 640bcbdbfb3SJay Foad return Result; 641bcbdbfb3SJay Foad } 6429de0d14dSChris Lattner 643868e3f09SDaniel Dunbar // Otherwise, if the value is a ConstantExpr... 6446c38f0bbSReid Spencer if (const ConstantExpr *CE = dyn_cast<ConstantExpr>(C)) { 6454fd528f2SReid Spencer Constant *Op0 = CE->getOperand(0); 6469de0d14dSChris Lattner switch (CE->getOpcode()) { 6479de0d14dSChris Lattner case Instruction::GetElementPtr: { 6486c38f0bbSReid Spencer // Compute the index 6494fd528f2SReid Spencer GenericValue Result = getConstantValue(Op0); 650a3fcefb6SMehdi Amini APInt Offset(DL.getPointerSizeInBits(), 0); 651a3fcefb6SMehdi Amini cast<GEPOperator>(CE)->accumulateConstantOffset(DL, Offset); 6529de0d14dSChris Lattner 65387aa65f4SReid Spencer char* tmp = (char*) Result.PointerVal; 654b6ad9822SNuno Lopes Result = PTOGV(tmp + Offset.getSExtValue()); 6559de0d14dSChris Lattner return Result; 6569de0d14dSChris Lattner } 6574fd528f2SReid Spencer case Instruction::Trunc: { 6584fd528f2SReid Spencer GenericValue GV = getConstantValue(Op0); 6594fd528f2SReid Spencer uint32_t BitWidth = cast<IntegerType>(CE->getType())->getBitWidth(); 6604fd528f2SReid Spencer GV.IntVal = GV.IntVal.trunc(BitWidth); 6614fd528f2SReid Spencer return GV; 6624fd528f2SReid Spencer } 6634fd528f2SReid Spencer case Instruction::ZExt: { 6644fd528f2SReid Spencer GenericValue GV = getConstantValue(Op0); 6654fd528f2SReid Spencer uint32_t BitWidth = cast<IntegerType>(CE->getType())->getBitWidth(); 6664fd528f2SReid Spencer GV.IntVal = GV.IntVal.zext(BitWidth); 6674fd528f2SReid Spencer return GV; 6684fd528f2SReid Spencer } 6694fd528f2SReid Spencer case Instruction::SExt: { 6704fd528f2SReid Spencer GenericValue GV = getConstantValue(Op0); 6714fd528f2SReid Spencer uint32_t BitWidth = cast<IntegerType>(CE->getType())->getBitWidth(); 6724fd528f2SReid Spencer GV.IntVal = GV.IntVal.sext(BitWidth); 6734fd528f2SReid Spencer return GV; 6744fd528f2SReid Spencer } 6754fd528f2SReid Spencer case Instruction::FPTrunc: { 676a1336cf5SDale Johannesen // FIXME long double 6774fd528f2SReid Spencer GenericValue GV = getConstantValue(Op0); 6784fd528f2SReid Spencer GV.FloatVal = float(GV.DoubleVal); 6794fd528f2SReid Spencer return GV; 6804fd528f2SReid Spencer } 6814fd528f2SReid Spencer case Instruction::FPExt:{ 682a1336cf5SDale Johannesen // FIXME long double 6834fd528f2SReid Spencer GenericValue GV = getConstantValue(Op0); 6844fd528f2SReid Spencer GV.DoubleVal = double(GV.FloatVal); 6854fd528f2SReid Spencer return GV; 6864fd528f2SReid Spencer } 6874fd528f2SReid Spencer case Instruction::UIToFP: { 6884fd528f2SReid Spencer GenericValue GV = getConstantValue(Op0); 689fdd87907SChris Lattner if (CE->getType()->isFloatTy()) 6904fd528f2SReid Spencer GV.FloatVal = float(GV.IntVal.roundToDouble()); 691fdd87907SChris Lattner else if (CE->getType()->isDoubleTy()) 6924fd528f2SReid Spencer GV.DoubleVal = GV.IntVal.roundToDouble(); 693fdd87907SChris Lattner else if (CE->getType()->isX86_FP80Ty()) { 69431920b0aSBenjamin Kramer APFloat apf = APFloat::getZero(APFloat::x87DoubleExtended); 695ca24fd90SDan Gohman (void)apf.convertFromAPInt(GV.IntVal, 696ca24fd90SDan Gohman false, 6979150652bSDale Johannesen APFloat::rmNearestTiesToEven); 69854306fe4SDale Johannesen GV.IntVal = apf.bitcastToAPInt(); 699a1336cf5SDale Johannesen } 7004fd528f2SReid Spencer return GV; 7014fd528f2SReid Spencer } 7024fd528f2SReid Spencer case Instruction::SIToFP: { 7034fd528f2SReid Spencer GenericValue GV = getConstantValue(Op0); 704fdd87907SChris Lattner if (CE->getType()->isFloatTy()) 7054fd528f2SReid Spencer GV.FloatVal = float(GV.IntVal.signedRoundToDouble()); 706fdd87907SChris Lattner else if (CE->getType()->isDoubleTy()) 7074fd528f2SReid Spencer GV.DoubleVal = GV.IntVal.signedRoundToDouble(); 708fdd87907SChris Lattner else if (CE->getType()->isX86_FP80Ty()) { 70931920b0aSBenjamin Kramer APFloat apf = APFloat::getZero(APFloat::x87DoubleExtended); 710ca24fd90SDan Gohman (void)apf.convertFromAPInt(GV.IntVal, 711ca24fd90SDan Gohman true, 7129150652bSDale Johannesen APFloat::rmNearestTiesToEven); 71354306fe4SDale Johannesen GV.IntVal = apf.bitcastToAPInt(); 714a1336cf5SDale Johannesen } 7154fd528f2SReid Spencer return GV; 7164fd528f2SReid Spencer } 7174fd528f2SReid Spencer case Instruction::FPToUI: // double->APInt conversion handles sign 7184fd528f2SReid Spencer case Instruction::FPToSI: { 7194fd528f2SReid Spencer GenericValue GV = getConstantValue(Op0); 7204fd528f2SReid Spencer uint32_t BitWidth = cast<IntegerType>(CE->getType())->getBitWidth(); 721fdd87907SChris Lattner if (Op0->getType()->isFloatTy()) 7224fd528f2SReid Spencer GV.IntVal = APIntOps::RoundFloatToAPInt(GV.FloatVal, BitWidth); 723fdd87907SChris Lattner else if (Op0->getType()->isDoubleTy()) 7244fd528f2SReid Spencer GV.IntVal = APIntOps::RoundDoubleToAPInt(GV.DoubleVal, BitWidth); 725fdd87907SChris Lattner else if (Op0->getType()->isX86_FP80Ty()) { 72629178a34STim Northover APFloat apf = APFloat(APFloat::x87DoubleExtended, GV.IntVal); 727a1336cf5SDale Johannesen uint64_t v; 7284f0bd68cSDale Johannesen bool ignored; 729a1336cf5SDale Johannesen (void)apf.convertToInteger(&v, BitWidth, 730a1336cf5SDale Johannesen CE->getOpcode()==Instruction::FPToSI, 7314f0bd68cSDale Johannesen APFloat::rmTowardZero, &ignored); 732a1336cf5SDale Johannesen GV.IntVal = v; // endian? 733a1336cf5SDale Johannesen } 7344fd528f2SReid Spencer return GV; 7354fd528f2SReid Spencer } 7366c38f0bbSReid Spencer case Instruction::PtrToInt: { 7374fd528f2SReid Spencer GenericValue GV = getConstantValue(Op0); 738a3fcefb6SMehdi Amini uint32_t PtrWidth = DL.getTypeSizeInBits(Op0->getType()); 739fc1f2cd3SEli Friedman assert(PtrWidth <= 64 && "Bad pointer width"); 7404fd528f2SReid Spencer GV.IntVal = APInt(PtrWidth, uintptr_t(GV.PointerVal)); 741a3fcefb6SMehdi Amini uint32_t IntWidth = DL.getTypeSizeInBits(CE->getType()); 742fc1f2cd3SEli Friedman GV.IntVal = GV.IntVal.zextOrTrunc(IntWidth); 7434fd528f2SReid Spencer return GV; 7444fd528f2SReid Spencer } 7454fd528f2SReid Spencer case Instruction::IntToPtr: { 7464fd528f2SReid Spencer GenericValue GV = getConstantValue(Op0); 747a3fcefb6SMehdi Amini uint32_t PtrWidth = DL.getTypeSizeInBits(CE->getType()); 7484fd528f2SReid Spencer GV.IntVal = GV.IntVal.zextOrTrunc(PtrWidth); 7494fd528f2SReid Spencer assert(GV.IntVal.getBitWidth() <= 64 && "Bad pointer width"); 7504fd528f2SReid Spencer GV.PointerVal = PointerTy(uintptr_t(GV.IntVal.getZExtValue())); 7516c38f0bbSReid Spencer return GV; 7526c38f0bbSReid Spencer } 7536c38f0bbSReid Spencer case Instruction::BitCast: { 7544fd528f2SReid Spencer GenericValue GV = getConstantValue(Op0); 755229907cdSChris Lattner Type* DestTy = CE->getType(); 7564fd528f2SReid Spencer switch (Op0->getType()->getTypeID()) { 757fbcc663cSTorok Edwin default: llvm_unreachable("Invalid bitcast operand"); 7584fd528f2SReid Spencer case Type::IntegerTyID: 7599dff9becSDuncan Sands assert(DestTy->isFloatingPointTy() && "invalid bitcast"); 760fdd87907SChris Lattner if (DestTy->isFloatTy()) 7614fd528f2SReid Spencer GV.FloatVal = GV.IntVal.bitsToFloat(); 762fdd87907SChris Lattner else if (DestTy->isDoubleTy()) 7634fd528f2SReid Spencer GV.DoubleVal = GV.IntVal.bitsToDouble(); 7646c38f0bbSReid Spencer break; 7654fd528f2SReid Spencer case Type::FloatTyID: 7669dff9becSDuncan Sands assert(DestTy->isIntegerTy(32) && "Invalid bitcast"); 7673447fb01SJay Foad GV.IntVal = APInt::floatToBits(GV.FloatVal); 7684fd528f2SReid Spencer break; 7694fd528f2SReid Spencer case Type::DoubleTyID: 7709dff9becSDuncan Sands assert(DestTy->isIntegerTy(64) && "Invalid bitcast"); 7713447fb01SJay Foad GV.IntVal = APInt::doubleToBits(GV.DoubleVal); 7724fd528f2SReid Spencer break; 7734fd528f2SReid Spencer case Type::PointerTyID: 77419d0b47bSDuncan Sands assert(DestTy->isPointerTy() && "Invalid bitcast"); 7754fd528f2SReid Spencer break; // getConstantValue(Op0) above already converted it 7766c38f0bbSReid Spencer } 7774fd528f2SReid Spencer return GV; 77868cbcc3eSChris Lattner } 77968cbcc3eSChris Lattner case Instruction::Add: 780a5b9645cSDan Gohman case Instruction::FAdd: 7814fd528f2SReid Spencer case Instruction::Sub: 782a5b9645cSDan Gohman case Instruction::FSub: 7834fd528f2SReid Spencer case Instruction::Mul: 784a5b9645cSDan Gohman case Instruction::FMul: 7854fd528f2SReid Spencer case Instruction::UDiv: 7864fd528f2SReid Spencer case Instruction::SDiv: 7874fd528f2SReid Spencer case Instruction::URem: 7884fd528f2SReid Spencer case Instruction::SRem: 7894fd528f2SReid Spencer case Instruction::And: 7904fd528f2SReid Spencer case Instruction::Or: 7914fd528f2SReid Spencer case Instruction::Xor: { 7924fd528f2SReid Spencer GenericValue LHS = getConstantValue(Op0); 7934fd528f2SReid Spencer GenericValue RHS = getConstantValue(CE->getOperand(1)); 7944fd528f2SReid Spencer GenericValue GV; 795c4e6bb5fSChris Lattner switch (CE->getOperand(0)->getType()->getTypeID()) { 796fbcc663cSTorok Edwin default: llvm_unreachable("Bad add type!"); 7977a9c62baSReid Spencer case Type::IntegerTyID: 7984fd528f2SReid Spencer switch (CE->getOpcode()) { 799fbcc663cSTorok Edwin default: llvm_unreachable("Invalid integer opcode"); 8004fd528f2SReid Spencer case Instruction::Add: GV.IntVal = LHS.IntVal + RHS.IntVal; break; 8014fd528f2SReid Spencer case Instruction::Sub: GV.IntVal = LHS.IntVal - RHS.IntVal; break; 8024fd528f2SReid Spencer case Instruction::Mul: GV.IntVal = LHS.IntVal * RHS.IntVal; break; 8034fd528f2SReid Spencer case Instruction::UDiv:GV.IntVal = LHS.IntVal.udiv(RHS.IntVal); break; 8044fd528f2SReid Spencer case Instruction::SDiv:GV.IntVal = LHS.IntVal.sdiv(RHS.IntVal); break; 8054fd528f2SReid Spencer case Instruction::URem:GV.IntVal = LHS.IntVal.urem(RHS.IntVal); break; 8064fd528f2SReid Spencer case Instruction::SRem:GV.IntVal = LHS.IntVal.srem(RHS.IntVal); break; 8074fd528f2SReid Spencer case Instruction::And: GV.IntVal = LHS.IntVal & RHS.IntVal; break; 8084fd528f2SReid Spencer case Instruction::Or: GV.IntVal = LHS.IntVal | RHS.IntVal; break; 8094fd528f2SReid Spencer case Instruction::Xor: GV.IntVal = LHS.IntVal ^ RHS.IntVal; break; 8104fd528f2SReid Spencer } 811c4e6bb5fSChris Lattner break; 812c4e6bb5fSChris Lattner case Type::FloatTyID: 8134fd528f2SReid Spencer switch (CE->getOpcode()) { 814fbcc663cSTorok Edwin default: llvm_unreachable("Invalid float opcode"); 815a5b9645cSDan Gohman case Instruction::FAdd: 8164fd528f2SReid Spencer GV.FloatVal = LHS.FloatVal + RHS.FloatVal; break; 817a5b9645cSDan Gohman case Instruction::FSub: 8184fd528f2SReid Spencer GV.FloatVal = LHS.FloatVal - RHS.FloatVal; break; 819a5b9645cSDan Gohman case Instruction::FMul: 8204fd528f2SReid Spencer GV.FloatVal = LHS.FloatVal * RHS.FloatVal; break; 8214fd528f2SReid Spencer case Instruction::FDiv: 8224fd528f2SReid Spencer GV.FloatVal = LHS.FloatVal / RHS.FloatVal; break; 8234fd528f2SReid Spencer case Instruction::FRem: 82493cd0f1cSChris Lattner GV.FloatVal = std::fmod(LHS.FloatVal,RHS.FloatVal); break; 8254fd528f2SReid Spencer } 826c4e6bb5fSChris Lattner break; 827c4e6bb5fSChris Lattner case Type::DoubleTyID: 8284fd528f2SReid Spencer switch (CE->getOpcode()) { 829fbcc663cSTorok Edwin default: llvm_unreachable("Invalid double opcode"); 830a5b9645cSDan Gohman case Instruction::FAdd: 8314fd528f2SReid Spencer GV.DoubleVal = LHS.DoubleVal + RHS.DoubleVal; break; 832a5b9645cSDan Gohman case Instruction::FSub: 8334fd528f2SReid Spencer GV.DoubleVal = LHS.DoubleVal - RHS.DoubleVal; break; 834a5b9645cSDan Gohman case Instruction::FMul: 8354fd528f2SReid Spencer GV.DoubleVal = LHS.DoubleVal * RHS.DoubleVal; break; 8364fd528f2SReid Spencer case Instruction::FDiv: 8374fd528f2SReid Spencer GV.DoubleVal = LHS.DoubleVal / RHS.DoubleVal; break; 8384fd528f2SReid Spencer case Instruction::FRem: 83993cd0f1cSChris Lattner GV.DoubleVal = std::fmod(LHS.DoubleVal,RHS.DoubleVal); break; 8404fd528f2SReid Spencer } 841c4e6bb5fSChris Lattner break; 842a1336cf5SDale Johannesen case Type::X86_FP80TyID: 843a1336cf5SDale Johannesen case Type::PPC_FP128TyID: 844a1336cf5SDale Johannesen case Type::FP128TyID: { 84529178a34STim Northover const fltSemantics &Sem = CE->getOperand(0)->getType()->getFltSemantics(); 84629178a34STim Northover APFloat apfLHS = APFloat(Sem, LHS.IntVal); 847a1336cf5SDale Johannesen switch (CE->getOpcode()) { 848e4f47434SDaniel Dunbar default: llvm_unreachable("Invalid long double opcode"); 849a5b9645cSDan Gohman case Instruction::FAdd: 85029178a34STim Northover apfLHS.add(APFloat(Sem, RHS.IntVal), APFloat::rmNearestTiesToEven); 85154306fe4SDale Johannesen GV.IntVal = apfLHS.bitcastToAPInt(); 852a1336cf5SDale Johannesen break; 853a5b9645cSDan Gohman case Instruction::FSub: 85429178a34STim Northover apfLHS.subtract(APFloat(Sem, RHS.IntVal), 85529178a34STim Northover APFloat::rmNearestTiesToEven); 85654306fe4SDale Johannesen GV.IntVal = apfLHS.bitcastToAPInt(); 857a1336cf5SDale Johannesen break; 858a5b9645cSDan Gohman case Instruction::FMul: 85929178a34STim Northover apfLHS.multiply(APFloat(Sem, RHS.IntVal), 86029178a34STim Northover APFloat::rmNearestTiesToEven); 86154306fe4SDale Johannesen GV.IntVal = apfLHS.bitcastToAPInt(); 862a1336cf5SDale Johannesen break; 863a1336cf5SDale Johannesen case Instruction::FDiv: 86429178a34STim Northover apfLHS.divide(APFloat(Sem, RHS.IntVal), 86529178a34STim Northover APFloat::rmNearestTiesToEven); 86654306fe4SDale Johannesen GV.IntVal = apfLHS.bitcastToAPInt(); 867a1336cf5SDale Johannesen break; 868a1336cf5SDale Johannesen case Instruction::FRem: 869b12db0e4SStephen Canon apfLHS.mod(APFloat(Sem, RHS.IntVal)); 87054306fe4SDale Johannesen GV.IntVal = apfLHS.bitcastToAPInt(); 871a1336cf5SDale Johannesen break; 872a1336cf5SDale Johannesen } 873a1336cf5SDale Johannesen } 874a1336cf5SDale Johannesen break; 875c4e6bb5fSChris Lattner } 8764fd528f2SReid Spencer return GV; 8774fd528f2SReid Spencer } 8789de0d14dSChris Lattner default: 87968cbcc3eSChris Lattner break; 88068cbcc3eSChris Lattner } 881868e3f09SDaniel Dunbar 882868e3f09SDaniel Dunbar SmallString<256> Msg; 883868e3f09SDaniel Dunbar raw_svector_ostream OS(Msg); 884868e3f09SDaniel Dunbar OS << "ConstantExpr not handled: " << *CE; 885868e3f09SDaniel Dunbar report_fatal_error(OS.str()); 8869de0d14dSChris Lattner } 887996fe010SChris Lattner 888868e3f09SDaniel Dunbar // Otherwise, we have a simple constant. 8894fd528f2SReid Spencer GenericValue Result; 8906b727599SChris Lattner switch (C->getType()->getTypeID()) { 89187aa65f4SReid Spencer case Type::FloatTyID: 892bed9dc42SDale Johannesen Result.FloatVal = cast<ConstantFP>(C)->getValueAPF().convertToFloat(); 8937a9c62baSReid Spencer break; 89487aa65f4SReid Spencer case Type::DoubleTyID: 895bed9dc42SDale Johannesen Result.DoubleVal = cast<ConstantFP>(C)->getValueAPF().convertToDouble(); 89687aa65f4SReid Spencer break; 897a1336cf5SDale Johannesen case Type::X86_FP80TyID: 898a1336cf5SDale Johannesen case Type::FP128TyID: 899a1336cf5SDale Johannesen case Type::PPC_FP128TyID: 90054306fe4SDale Johannesen Result.IntVal = cast <ConstantFP>(C)->getValueAPF().bitcastToAPInt(); 901a1336cf5SDale Johannesen break; 90287aa65f4SReid Spencer case Type::IntegerTyID: 90387aa65f4SReid Spencer Result.IntVal = cast<ConstantInt>(C)->getValue(); 90487aa65f4SReid Spencer break; 905996fe010SChris Lattner case Type::PointerTyID: 9066a0fd73bSReid Spencer if (isa<ConstantPointerNull>(C)) 9072617dcceSCraig Topper Result.PointerVal = nullptr; 9086a0fd73bSReid Spencer else if (const Function *F = dyn_cast<Function>(C)) 9096a0fd73bSReid Spencer Result = PTOGV(getPointerToFunctionOrStub(const_cast<Function*>(F))); 9106a0fd73bSReid Spencer else if (const GlobalVariable *GV = dyn_cast<GlobalVariable>(C)) 9116a0fd73bSReid Spencer Result = PTOGV(getOrEmitGlobalVariable(const_cast<GlobalVariable*>(GV))); 912e6492f10SChris Lattner else 913fbcc663cSTorok Edwin llvm_unreachable("Unknown constant pointer type!"); 914996fe010SChris Lattner break; 915be79a7acSNadav Rotem case Type::VectorTyID: { 916be79a7acSNadav Rotem unsigned elemNum; 917be79a7acSNadav Rotem Type* ElemTy; 918be79a7acSNadav Rotem const ConstantDataVector *CDV = dyn_cast<ConstantDataVector>(C); 919be79a7acSNadav Rotem const ConstantVector *CV = dyn_cast<ConstantVector>(C); 920be79a7acSNadav Rotem const ConstantAggregateZero *CAZ = dyn_cast<ConstantAggregateZero>(C); 921be79a7acSNadav Rotem 922be79a7acSNadav Rotem if (CDV) { 923be79a7acSNadav Rotem elemNum = CDV->getNumElements(); 924be79a7acSNadav Rotem ElemTy = CDV->getElementType(); 925be79a7acSNadav Rotem } else if (CV || CAZ) { 926be79a7acSNadav Rotem VectorType* VTy = dyn_cast<VectorType>(C->getType()); 927be79a7acSNadav Rotem elemNum = VTy->getNumElements(); 928be79a7acSNadav Rotem ElemTy = VTy->getElementType(); 929be79a7acSNadav Rotem } else { 930be79a7acSNadav Rotem llvm_unreachable("Unknown constant vector type!"); 931be79a7acSNadav Rotem } 932be79a7acSNadav Rotem 933be79a7acSNadav Rotem Result.AggregateVal.resize(elemNum); 934be79a7acSNadav Rotem // Check if vector holds floats. 935be79a7acSNadav Rotem if(ElemTy->isFloatTy()) { 936be79a7acSNadav Rotem if (CAZ) { 937be79a7acSNadav Rotem GenericValue floatZero; 938be79a7acSNadav Rotem floatZero.FloatVal = 0.f; 939be79a7acSNadav Rotem std::fill(Result.AggregateVal.begin(), Result.AggregateVal.end(), 940be79a7acSNadav Rotem floatZero); 941be79a7acSNadav Rotem break; 942be79a7acSNadav Rotem } 943be79a7acSNadav Rotem if(CV) { 944be79a7acSNadav Rotem for (unsigned i = 0; i < elemNum; ++i) 945be79a7acSNadav Rotem if (!isa<UndefValue>(CV->getOperand(i))) 946be79a7acSNadav Rotem Result.AggregateVal[i].FloatVal = cast<ConstantFP>( 947be79a7acSNadav Rotem CV->getOperand(i))->getValueAPF().convertToFloat(); 948be79a7acSNadav Rotem break; 949be79a7acSNadav Rotem } 950be79a7acSNadav Rotem if(CDV) 951be79a7acSNadav Rotem for (unsigned i = 0; i < elemNum; ++i) 952be79a7acSNadav Rotem Result.AggregateVal[i].FloatVal = CDV->getElementAsFloat(i); 953be79a7acSNadav Rotem 954be79a7acSNadav Rotem break; 955be79a7acSNadav Rotem } 956be79a7acSNadav Rotem // Check if vector holds doubles. 957be79a7acSNadav Rotem if (ElemTy->isDoubleTy()) { 958be79a7acSNadav Rotem if (CAZ) { 959be79a7acSNadav Rotem GenericValue doubleZero; 960be79a7acSNadav Rotem doubleZero.DoubleVal = 0.0; 961be79a7acSNadav Rotem std::fill(Result.AggregateVal.begin(), Result.AggregateVal.end(), 962be79a7acSNadav Rotem doubleZero); 963be79a7acSNadav Rotem break; 964be79a7acSNadav Rotem } 965be79a7acSNadav Rotem if(CV) { 966be79a7acSNadav Rotem for (unsigned i = 0; i < elemNum; ++i) 967be79a7acSNadav Rotem if (!isa<UndefValue>(CV->getOperand(i))) 968be79a7acSNadav Rotem Result.AggregateVal[i].DoubleVal = cast<ConstantFP>( 969be79a7acSNadav Rotem CV->getOperand(i))->getValueAPF().convertToDouble(); 970be79a7acSNadav Rotem break; 971be79a7acSNadav Rotem } 972be79a7acSNadav Rotem if(CDV) 973be79a7acSNadav Rotem for (unsigned i = 0; i < elemNum; ++i) 974be79a7acSNadav Rotem Result.AggregateVal[i].DoubleVal = CDV->getElementAsDouble(i); 975be79a7acSNadav Rotem 976be79a7acSNadav Rotem break; 977be79a7acSNadav Rotem } 978be79a7acSNadav Rotem // Check if vector holds integers. 979be79a7acSNadav Rotem if (ElemTy->isIntegerTy()) { 980be79a7acSNadav Rotem if (CAZ) { 981be79a7acSNadav Rotem GenericValue intZero; 982be79a7acSNadav Rotem intZero.IntVal = APInt(ElemTy->getScalarSizeInBits(), 0ull); 983be79a7acSNadav Rotem std::fill(Result.AggregateVal.begin(), Result.AggregateVal.end(), 984be79a7acSNadav Rotem intZero); 985be79a7acSNadav Rotem break; 986be79a7acSNadav Rotem } 987be79a7acSNadav Rotem if(CV) { 988be79a7acSNadav Rotem for (unsigned i = 0; i < elemNum; ++i) 989be79a7acSNadav Rotem if (!isa<UndefValue>(CV->getOperand(i))) 990be79a7acSNadav Rotem Result.AggregateVal[i].IntVal = cast<ConstantInt>( 991be79a7acSNadav Rotem CV->getOperand(i))->getValue(); 992be79a7acSNadav Rotem else { 993be79a7acSNadav Rotem Result.AggregateVal[i].IntVal = 994be79a7acSNadav Rotem APInt(CV->getOperand(i)->getType()->getPrimitiveSizeInBits(), 0); 995be79a7acSNadav Rotem } 996be79a7acSNadav Rotem break; 997be79a7acSNadav Rotem } 998be79a7acSNadav Rotem if(CDV) 999be79a7acSNadav Rotem for (unsigned i = 0; i < elemNum; ++i) 1000be79a7acSNadav Rotem Result.AggregateVal[i].IntVal = APInt( 1001be79a7acSNadav Rotem CDV->getElementType()->getPrimitiveSizeInBits(), 1002be79a7acSNadav Rotem CDV->getElementAsInteger(i)); 1003be79a7acSNadav Rotem 1004be79a7acSNadav Rotem break; 1005be79a7acSNadav Rotem } 1006be79a7acSNadav Rotem llvm_unreachable("Unknown constant pointer type!"); 1007be79a7acSNadav Rotem } 1008be79a7acSNadav Rotem break; 1009be79a7acSNadav Rotem 1010996fe010SChris Lattner default: 1011868e3f09SDaniel Dunbar SmallString<256> Msg; 1012868e3f09SDaniel Dunbar raw_svector_ostream OS(Msg); 1013868e3f09SDaniel Dunbar OS << "ERROR: Constant unimplemented for type: " << *C->getType(); 1014868e3f09SDaniel Dunbar report_fatal_error(OS.str()); 1015996fe010SChris Lattner } 1016868e3f09SDaniel Dunbar 1017996fe010SChris Lattner return Result; 1018996fe010SChris Lattner } 1019996fe010SChris Lattner 10201202d1b1SDuncan Sands /// StoreIntToMemory - Fills the StoreBytes bytes of memory starting from Dst 10211202d1b1SDuncan Sands /// with the integer held in IntVal. 10221202d1b1SDuncan Sands static void StoreIntToMemory(const APInt &IntVal, uint8_t *Dst, 10231202d1b1SDuncan Sands unsigned StoreBytes) { 10241202d1b1SDuncan Sands assert((IntVal.getBitWidth()+7)/8 >= StoreBytes && "Integer too small!"); 1025ad06cee2SRoman Divacky const uint8_t *Src = (const uint8_t *)IntVal.getRawData(); 10265c65cb46SDuncan Sands 102741cb64f4SRafael Espindola if (sys::IsLittleEndianHost) { 10281202d1b1SDuncan Sands // Little-endian host - the source is ordered from LSB to MSB. Order the 10291202d1b1SDuncan Sands // destination from LSB to MSB: Do a straight copy. 10305c65cb46SDuncan Sands memcpy(Dst, Src, StoreBytes); 1031868e3f09SDaniel Dunbar } else { 10325c65cb46SDuncan Sands // Big-endian host - the source is an array of 64 bit words ordered from 10331202d1b1SDuncan Sands // LSW to MSW. Each word is ordered from MSB to LSB. Order the destination 10341202d1b1SDuncan Sands // from MSB to LSB: Reverse the word order, but not the bytes in a word. 10355c65cb46SDuncan Sands while (StoreBytes > sizeof(uint64_t)) { 10365c65cb46SDuncan Sands StoreBytes -= sizeof(uint64_t); 10375c65cb46SDuncan Sands // May not be aligned so use memcpy. 10385c65cb46SDuncan Sands memcpy(Dst + StoreBytes, Src, sizeof(uint64_t)); 10395c65cb46SDuncan Sands Src += sizeof(uint64_t); 10405c65cb46SDuncan Sands } 10415c65cb46SDuncan Sands 10425c65cb46SDuncan Sands memcpy(Dst, Src + sizeof(uint64_t) - StoreBytes, StoreBytes); 1043815f8dd2SReid Spencer } 10447a9c62baSReid Spencer } 10451202d1b1SDuncan Sands 104609053e62SEvan Cheng void ExecutionEngine::StoreValueToMemory(const GenericValue &Val, 1047229907cdSChris Lattner GenericValue *Ptr, Type *Ty) { 1048a3fcefb6SMehdi Amini const unsigned StoreBytes = getDataLayout().getTypeStoreSize(Ty); 10491202d1b1SDuncan Sands 10501202d1b1SDuncan Sands switch (Ty->getTypeID()) { 1051be79a7acSNadav Rotem default: 1052be79a7acSNadav Rotem dbgs() << "Cannot store value of type " << *Ty << "!\n"; 1053be79a7acSNadav Rotem break; 10541202d1b1SDuncan Sands case Type::IntegerTyID: 10551202d1b1SDuncan Sands StoreIntToMemory(Val.IntVal, (uint8_t*)Ptr, StoreBytes); 10561202d1b1SDuncan Sands break; 1057996fe010SChris Lattner case Type::FloatTyID: 105887aa65f4SReid Spencer *((float*)Ptr) = Val.FloatVal; 105987aa65f4SReid Spencer break; 106087aa65f4SReid Spencer case Type::DoubleTyID: 106187aa65f4SReid Spencer *((double*)Ptr) = Val.DoubleVal; 1062996fe010SChris Lattner break; 10634d7e4ee7SDale Johannesen case Type::X86_FP80TyID: 10644d7e4ee7SDale Johannesen memcpy(Ptr, Val.IntVal.getRawData(), 10); 1065a1336cf5SDale Johannesen break; 10667a9c62baSReid Spencer case Type::PointerTyID: 10671202d1b1SDuncan Sands // Ensure 64 bit target pointers are fully initialized on 32 bit hosts. 10681202d1b1SDuncan Sands if (StoreBytes != sizeof(PointerTy)) 106993da3c82SChandler Carruth memset(&(Ptr->PointerVal), 0, StoreBytes); 10701202d1b1SDuncan Sands 107187aa65f4SReid Spencer *((PointerTy*)Ptr) = Val.PointerVal; 1072996fe010SChris Lattner break; 1073be79a7acSNadav Rotem case Type::VectorTyID: 1074be79a7acSNadav Rotem for (unsigned i = 0; i < Val.AggregateVal.size(); ++i) { 1075be79a7acSNadav Rotem if (cast<VectorType>(Ty)->getElementType()->isDoubleTy()) 1076be79a7acSNadav Rotem *(((double*)Ptr)+i) = Val.AggregateVal[i].DoubleVal; 1077be79a7acSNadav Rotem if (cast<VectorType>(Ty)->getElementType()->isFloatTy()) 1078be79a7acSNadav Rotem *(((float*)Ptr)+i) = Val.AggregateVal[i].FloatVal; 1079be79a7acSNadav Rotem if (cast<VectorType>(Ty)->getElementType()->isIntegerTy()) { 1080be79a7acSNadav Rotem unsigned numOfBytes =(Val.AggregateVal[i].IntVal.getBitWidth()+7)/8; 1081be79a7acSNadav Rotem StoreIntToMemory(Val.AggregateVal[i].IntVal, 1082be79a7acSNadav Rotem (uint8_t*)Ptr + numOfBytes*i, numOfBytes); 1083be79a7acSNadav Rotem } 1084be79a7acSNadav Rotem } 1085be79a7acSNadav Rotem break; 1086996fe010SChris Lattner } 10871202d1b1SDuncan Sands 1088a3fcefb6SMehdi Amini if (sys::IsLittleEndianHost != getDataLayout().isLittleEndian()) 10891202d1b1SDuncan Sands // Host and target are different endian - reverse the stored bytes. 10901202d1b1SDuncan Sands std::reverse((uint8_t*)Ptr, StoreBytes + (uint8_t*)Ptr); 1091996fe010SChris Lattner } 1092996fe010SChris Lattner 10931202d1b1SDuncan Sands /// LoadIntFromMemory - Loads the integer stored in the LoadBytes bytes starting 10941202d1b1SDuncan Sands /// from Src into IntVal, which is assumed to be wide enough and to hold zero. 10951202d1b1SDuncan Sands static void LoadIntFromMemory(APInt &IntVal, uint8_t *Src, unsigned LoadBytes) { 10961202d1b1SDuncan Sands assert((IntVal.getBitWidth()+7)/8 >= LoadBytes && "Integer too small!"); 109782b63578SDavid Greene uint8_t *Dst = reinterpret_cast<uint8_t *>( 109882b63578SDavid Greene const_cast<uint64_t *>(IntVal.getRawData())); 10995c65cb46SDuncan Sands 110041cb64f4SRafael Espindola if (sys::IsLittleEndianHost) 11015c65cb46SDuncan Sands // Little-endian host - the destination must be ordered from LSB to MSB. 11025c65cb46SDuncan Sands // The source is ordered from LSB to MSB: Do a straight copy. 11035c65cb46SDuncan Sands memcpy(Dst, Src, LoadBytes); 11045c65cb46SDuncan Sands else { 11055c65cb46SDuncan Sands // Big-endian - the destination is an array of 64 bit words ordered from 11065c65cb46SDuncan Sands // LSW to MSW. Each word must be ordered from MSB to LSB. The source is 11075c65cb46SDuncan Sands // ordered from MSB to LSB: Reverse the word order, but not the bytes in 11085c65cb46SDuncan Sands // a word. 11095c65cb46SDuncan Sands while (LoadBytes > sizeof(uint64_t)) { 11105c65cb46SDuncan Sands LoadBytes -= sizeof(uint64_t); 11115c65cb46SDuncan Sands // May not be aligned so use memcpy. 11125c65cb46SDuncan Sands memcpy(Dst, Src + LoadBytes, sizeof(uint64_t)); 11135c65cb46SDuncan Sands Dst += sizeof(uint64_t); 11145c65cb46SDuncan Sands } 11155c65cb46SDuncan Sands 11165c65cb46SDuncan Sands memcpy(Dst + sizeof(uint64_t) - LoadBytes, Src, LoadBytes); 11175c65cb46SDuncan Sands } 11187a9c62baSReid Spencer } 11191202d1b1SDuncan Sands 11201202d1b1SDuncan Sands /// FIXME: document 11211202d1b1SDuncan Sands /// 11221202d1b1SDuncan Sands void ExecutionEngine::LoadValueFromMemory(GenericValue &Result, 11231202d1b1SDuncan Sands GenericValue *Ptr, 1124229907cdSChris Lattner Type *Ty) { 1125a3fcefb6SMehdi Amini const unsigned LoadBytes = getDataLayout().getTypeStoreSize(Ty); 11261202d1b1SDuncan Sands 11271202d1b1SDuncan Sands switch (Ty->getTypeID()) { 11281202d1b1SDuncan Sands case Type::IntegerTyID: 11291202d1b1SDuncan Sands // An APInt with all words initially zero. 11301202d1b1SDuncan Sands Result.IntVal = APInt(cast<IntegerType>(Ty)->getBitWidth(), 0); 11311202d1b1SDuncan Sands LoadIntFromMemory(Result.IntVal, (uint8_t*)Ptr, LoadBytes); 11321202d1b1SDuncan Sands break; 11337f389e8cSChris Lattner case Type::FloatTyID: 113487aa65f4SReid Spencer Result.FloatVal = *((float*)Ptr); 113587aa65f4SReid Spencer break; 113687aa65f4SReid Spencer case Type::DoubleTyID: 113787aa65f4SReid Spencer Result.DoubleVal = *((double*)Ptr); 11387f389e8cSChris Lattner break; 11397a9c62baSReid Spencer case Type::PointerTyID: 114087aa65f4SReid Spencer Result.PointerVal = *((PointerTy*)Ptr); 11417f389e8cSChris Lattner break; 1142a1336cf5SDale Johannesen case Type::X86_FP80TyID: { 1143a1336cf5SDale Johannesen // This is endian dependent, but it will only work on x86 anyway. 114426d6539eSDuncan Sands // FIXME: Will not trap if loading a signaling NaN. 1145ff306287SDuncan Sands uint64_t y[2]; 11464d7e4ee7SDale Johannesen memcpy(y, Ptr, 10); 11477a162881SJeffrey Yasskin Result.IntVal = APInt(80, y); 1148a1336cf5SDale Johannesen break; 1149a1336cf5SDale Johannesen } 1150be79a7acSNadav Rotem case Type::VectorTyID: { 1151e3dcce97SCraig Topper auto *VT = cast<VectorType>(Ty); 1152e3dcce97SCraig Topper Type *ElemT = VT->getElementType(); 1153be79a7acSNadav Rotem const unsigned numElems = VT->getNumElements(); 1154be79a7acSNadav Rotem if (ElemT->isFloatTy()) { 1155be79a7acSNadav Rotem Result.AggregateVal.resize(numElems); 1156be79a7acSNadav Rotem for (unsigned i = 0; i < numElems; ++i) 1157be79a7acSNadav Rotem Result.AggregateVal[i].FloatVal = *((float*)Ptr+i); 1158be79a7acSNadav Rotem } 1159be79a7acSNadav Rotem if (ElemT->isDoubleTy()) { 1160be79a7acSNadav Rotem Result.AggregateVal.resize(numElems); 1161be79a7acSNadav Rotem for (unsigned i = 0; i < numElems; ++i) 1162be79a7acSNadav Rotem Result.AggregateVal[i].DoubleVal = *((double*)Ptr+i); 1163be79a7acSNadav Rotem } 1164be79a7acSNadav Rotem if (ElemT->isIntegerTy()) { 1165be79a7acSNadav Rotem GenericValue intZero; 1166be79a7acSNadav Rotem const unsigned elemBitWidth = cast<IntegerType>(ElemT)->getBitWidth(); 1167be79a7acSNadav Rotem intZero.IntVal = APInt(elemBitWidth, 0); 1168be79a7acSNadav Rotem Result.AggregateVal.resize(numElems, intZero); 1169be79a7acSNadav Rotem for (unsigned i = 0; i < numElems; ++i) 1170be79a7acSNadav Rotem LoadIntFromMemory(Result.AggregateVal[i].IntVal, 1171be79a7acSNadav Rotem (uint8_t*)Ptr+((elemBitWidth+7)/8)*i, (elemBitWidth+7)/8); 1172be79a7acSNadav Rotem } 1173be79a7acSNadav Rotem break; 1174be79a7acSNadav Rotem } 11757f389e8cSChris Lattner default: 1176868e3f09SDaniel Dunbar SmallString<256> Msg; 1177868e3f09SDaniel Dunbar raw_svector_ostream OS(Msg); 1178868e3f09SDaniel Dunbar OS << "Cannot load value of type " << *Ty << "!"; 1179868e3f09SDaniel Dunbar report_fatal_error(OS.str()); 11807f389e8cSChris Lattner } 11817f389e8cSChris Lattner } 11827f389e8cSChris Lattner 1183996fe010SChris Lattner void ExecutionEngine::InitializeMemory(const Constant *Init, void *Addr) { 11840967d2dfSDavid Greene DEBUG(dbgs() << "JIT: Initializing " << Addr << " "); 1185b086d382SDale Johannesen DEBUG(Init->dump()); 118600245f42SChris Lattner if (isa<UndefValue>(Init)) 118761753bf8SChris Lattner return; 118800245f42SChris Lattner 118900245f42SChris Lattner if (const ConstantVector *CP = dyn_cast<ConstantVector>(Init)) { 119069d62138SRobert Bocchino unsigned ElementSize = 1191a3fcefb6SMehdi Amini getDataLayout().getTypeAllocSize(CP->getType()->getElementType()); 119269d62138SRobert Bocchino for (unsigned i = 0, e = CP->getNumOperands(); i != e; ++i) 119369d62138SRobert Bocchino InitializeMemory(CP->getOperand(i), (char*)Addr+i*ElementSize); 119469d62138SRobert Bocchino return; 119500245f42SChris Lattner } 119600245f42SChris Lattner 119700245f42SChris Lattner if (isa<ConstantAggregateZero>(Init)) { 1198a3fcefb6SMehdi Amini memset(Addr, 0, (size_t)getDataLayout().getTypeAllocSize(Init->getType())); 11991dd86b11SChris Lattner return; 120000245f42SChris Lattner } 120100245f42SChris Lattner 120200245f42SChris Lattner if (const ConstantArray *CPA = dyn_cast<ConstantArray>(Init)) { 120369ddfbfeSDan Gohman unsigned ElementSize = 1204a3fcefb6SMehdi Amini getDataLayout().getTypeAllocSize(CPA->getType()->getElementType()); 120569ddfbfeSDan Gohman for (unsigned i = 0, e = CPA->getNumOperands(); i != e; ++i) 120669ddfbfeSDan Gohman InitializeMemory(CPA->getOperand(i), (char*)Addr+i*ElementSize); 120769ddfbfeSDan Gohman return; 120800245f42SChris Lattner } 120900245f42SChris Lattner 121000245f42SChris Lattner if (const ConstantStruct *CPS = dyn_cast<ConstantStruct>(Init)) { 121169ddfbfeSDan Gohman const StructLayout *SL = 1212a3fcefb6SMehdi Amini getDataLayout().getStructLayout(cast<StructType>(CPS->getType())); 121369ddfbfeSDan Gohman for (unsigned i = 0, e = CPS->getNumOperands(); i != e; ++i) 121469ddfbfeSDan Gohman InitializeMemory(CPS->getOperand(i), (char*)Addr+SL->getElementOffset(i)); 121569ddfbfeSDan Gohman return; 121600245f42SChris Lattner } 121700245f42SChris Lattner 121800245f42SChris Lattner if (const ConstantDataSequential *CDS = 121900245f42SChris Lattner dyn_cast<ConstantDataSequential>(Init)) { 122000245f42SChris Lattner // CDS is already laid out in host memory order. 122100245f42SChris Lattner StringRef Data = CDS->getRawDataValues(); 122200245f42SChris Lattner memcpy(Addr, Data.data(), Data.size()); 122300245f42SChris Lattner return; 122400245f42SChris Lattner } 122500245f42SChris Lattner 122600245f42SChris Lattner if (Init->getType()->isFirstClassType()) { 1227996fe010SChris Lattner GenericValue Val = getConstantValue(Init); 1228996fe010SChris Lattner StoreValueToMemory(Val, (GenericValue*)Addr, Init->getType()); 1229996fe010SChris Lattner return; 1230996fe010SChris Lattner } 1231996fe010SChris Lattner 1232868e3f09SDaniel Dunbar DEBUG(dbgs() << "Bad Type: " << *Init->getType() << "\n"); 1233fbcc663cSTorok Edwin llvm_unreachable("Unknown constant type to initialize memory with!"); 1234996fe010SChris Lattner } 1235996fe010SChris Lattner 1236996fe010SChris Lattner /// EmitGlobals - Emit all of the global variables to memory, storing their 1237996fe010SChris Lattner /// addresses into GlobalAddress. This must make sure to copy the contents of 1238996fe010SChris Lattner /// their initializers into the memory. 1239996fe010SChris Lattner void ExecutionEngine::emitGlobals() { 1240996fe010SChris Lattner // Loop over all of the global variables in the program, allocating the memory 12410621caefSChris Lattner // to hold them. If there is more than one module, do a prepass over globals 12420621caefSChris Lattner // to figure out how the different modules should link together. 1243229907cdSChris Lattner std::map<std::pair<std::string, Type*>, 12440621caefSChris Lattner const GlobalValue*> LinkedGlobalsMap; 12450621caefSChris Lattner 12460621caefSChris Lattner if (Modules.size() != 1) { 12470621caefSChris Lattner for (unsigned m = 0, e = Modules.size(); m != e; ++m) { 1248091217beSJeffrey Yasskin Module &M = *Modules[m]; 124949bb65a4SRafael Espindola for (const auto &GV : M.globals()) { 125049bb65a4SRafael Espindola if (GV.hasLocalLinkage() || GV.isDeclaration() || 125149bb65a4SRafael Espindola GV.hasAppendingLinkage() || !GV.hasName()) 12520621caefSChris Lattner continue;// Ignore external globals and globals with internal linkage. 12530621caefSChris Lattner 12540621caefSChris Lattner const GlobalValue *&GVEntry = 125549bb65a4SRafael Espindola LinkedGlobalsMap[std::make_pair(GV.getName(), GV.getType())]; 12560621caefSChris Lattner 12570621caefSChris Lattner // If this is the first time we've seen this global, it is the canonical 12580621caefSChris Lattner // version. 12590621caefSChris Lattner if (!GVEntry) { 126049bb65a4SRafael Espindola GVEntry = &GV; 12610621caefSChris Lattner continue; 12620621caefSChris Lattner } 12630621caefSChris Lattner 12640621caefSChris Lattner // If the existing global is strong, never replace it. 12657157bb76SNico Rieck if (GVEntry->hasExternalLinkage()) 12660621caefSChris Lattner continue; 12670621caefSChris Lattner 12680621caefSChris Lattner // Otherwise, we know it's linkonce/weak, replace it if this is a strong 1269ce4396bcSDale Johannesen // symbol. FIXME is this right for common? 127049bb65a4SRafael Espindola if (GV.hasExternalLinkage() || GVEntry->hasExternalWeakLinkage()) 127149bb65a4SRafael Espindola GVEntry = &GV; 12720621caefSChris Lattner } 12730621caefSChris Lattner } 12740621caefSChris Lattner } 12750621caefSChris Lattner 12760621caefSChris Lattner std::vector<const GlobalValue*> NonCanonicalGlobals; 12770621caefSChris Lattner for (unsigned m = 0, e = Modules.size(); m != e; ++m) { 1278091217beSJeffrey Yasskin Module &M = *Modules[m]; 127949bb65a4SRafael Espindola for (const auto &GV : M.globals()) { 12800621caefSChris Lattner // In the multi-module case, see what this global maps to. 12810621caefSChris Lattner if (!LinkedGlobalsMap.empty()) { 12820621caefSChris Lattner if (const GlobalValue *GVEntry = 128349bb65a4SRafael Espindola LinkedGlobalsMap[std::make_pair(GV.getName(), GV.getType())]) { 12840621caefSChris Lattner // If something else is the canonical global, ignore this one. 128549bb65a4SRafael Espindola if (GVEntry != &GV) { 128649bb65a4SRafael Espindola NonCanonicalGlobals.push_back(&GV); 12870621caefSChris Lattner continue; 12880621caefSChris Lattner } 12890621caefSChris Lattner } 12900621caefSChris Lattner } 12910621caefSChris Lattner 129249bb65a4SRafael Espindola if (!GV.isDeclaration()) { 129349bb65a4SRafael Espindola addGlobalMapping(&GV, getMemoryForGV(&GV)); 1294996fe010SChris Lattner } else { 1295e8bbcfc2SBrian Gaeke // External variable reference. Try to use the dynamic loader to 1296e8bbcfc2SBrian Gaeke // get a pointer to it. 12970621caefSChris Lattner if (void *SymAddr = 129849bb65a4SRafael Espindola sys::DynamicLibrary::SearchForAddressOfSymbol(GV.getName())) 129949bb65a4SRafael Espindola addGlobalMapping(&GV, SymAddr); 13009de0d14dSChris Lattner else { 13012104b8d3SChris Lattner report_fatal_error("Could not resolve external global address: " 130249bb65a4SRafael Espindola +GV.getName()); 13039de0d14dSChris Lattner } 1304996fe010SChris Lattner } 13050621caefSChris Lattner } 13060621caefSChris Lattner 13070621caefSChris Lattner // If there are multiple modules, map the non-canonical globals to their 13080621caefSChris Lattner // canonical location. 13090621caefSChris Lattner if (!NonCanonicalGlobals.empty()) { 13100621caefSChris Lattner for (unsigned i = 0, e = NonCanonicalGlobals.size(); i != e; ++i) { 13110621caefSChris Lattner const GlobalValue *GV = NonCanonicalGlobals[i]; 13120621caefSChris Lattner const GlobalValue *CGV = 13130621caefSChris Lattner LinkedGlobalsMap[std::make_pair(GV->getName(), GV->getType())]; 13140621caefSChris Lattner void *Ptr = getPointerToGlobalIfAvailable(CGV); 13150621caefSChris Lattner assert(Ptr && "Canonical global wasn't codegen'd!"); 1316a67f06b9SNuno Lopes addGlobalMapping(GV, Ptr); 13170621caefSChris Lattner } 13180621caefSChris Lattner } 1319996fe010SChris Lattner 13207a9c62baSReid Spencer // Now that all of the globals are set up in memory, loop through them all 13217a9c62baSReid Spencer // and initialize their contents. 132249bb65a4SRafael Espindola for (const auto &GV : M.globals()) { 132349bb65a4SRafael Espindola if (!GV.isDeclaration()) { 13240621caefSChris Lattner if (!LinkedGlobalsMap.empty()) { 13250621caefSChris Lattner if (const GlobalValue *GVEntry = 132649bb65a4SRafael Espindola LinkedGlobalsMap[std::make_pair(GV.getName(), GV.getType())]) 132749bb65a4SRafael Espindola if (GVEntry != &GV) // Not the canonical variable. 13280621caefSChris Lattner continue; 13290621caefSChris Lattner } 133049bb65a4SRafael Espindola EmitGlobalVariable(&GV); 13316bbe3eceSChris Lattner } 13320621caefSChris Lattner } 13330621caefSChris Lattner } 13340621caefSChris Lattner } 13356bbe3eceSChris Lattner 13366bbe3eceSChris Lattner // EmitGlobalVariable - This method emits the specified global variable to the 13376bbe3eceSChris Lattner // address specified in GlobalAddresses, or allocates new memory if it's not 13386bbe3eceSChris Lattner // already in the map. 1339fbcc0aa1SChris Lattner void ExecutionEngine::EmitGlobalVariable(const GlobalVariable *GV) { 1340748e8579SChris Lattner void *GA = getPointerToGlobalIfAvailable(GV); 1341dc631735SChris Lattner 13422617dcceSCraig Topper if (!GA) { 13436bbe3eceSChris Lattner // If it's not already specified, allocate memory for the global. 13445457ce9aSNicolas Geoffray GA = getMemoryForGV(GV); 13453b442379SAndrew Kaylor 13463b442379SAndrew Kaylor // If we failed to allocate memory for this global, return. 13472617dcceSCraig Topper if (!GA) return; 13483b442379SAndrew Kaylor 1349748e8579SChris Lattner addGlobalMapping(GV, GA); 13506bbe3eceSChris Lattner } 1351fbcc0aa1SChris Lattner 13525457ce9aSNicolas Geoffray // Don't initialize if it's thread local, let the client do it. 13535457ce9aSNicolas Geoffray if (!GV->isThreadLocal()) 13546bbe3eceSChris Lattner InitializeMemory(GV->getInitializer(), GA); 13555457ce9aSNicolas Geoffray 1356229907cdSChris Lattner Type *ElTy = GV->getType()->getElementType(); 1357a3fcefb6SMehdi Amini size_t GVSize = (size_t)getDataLayout().getTypeAllocSize(ElTy); 1358df1f1524SChris Lattner NumInitBytes += (unsigned)GVSize; 13596bbe3eceSChris Lattner ++NumGlobals; 1360996fe010SChris Lattner } 1361