1857c21b4SMisha Brukman //===-- ExecutionEngine.cpp - Common Implementation shared by EEs ---------===//
2996fe010SChris Lattner //
3482202a6SJohn Criswell //                     The LLVM Compiler Infrastructure
4482202a6SJohn Criswell //
5482202a6SJohn Criswell // This file was developed by the LLVM research group and is distributed under
6482202a6SJohn Criswell // the University of Illinois Open Source 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 
15ee937c80SChris Lattner #define DEBUG_TYPE "jit"
16996fe010SChris Lattner #include "llvm/Constants.h"
17260b0c88SMisha Brukman #include "llvm/DerivedTypes.h"
18996fe010SChris Lattner #include "llvm/Module.h"
19260b0c88SMisha Brukman #include "llvm/ModuleProvider.h"
2070e37278SReid Spencer #include "llvm/ADT/Statistic.h"
21260b0c88SMisha Brukman #include "llvm/ExecutionEngine/ExecutionEngine.h"
22ad481312SChris Lattner #include "llvm/ExecutionEngine/GenericValue.h"
237c16caa3SReid Spencer #include "llvm/Support/Debug.h"
246d8dd189SChris Lattner #include "llvm/Support/MutexGuard.h"
2570e37278SReid Spencer #include "llvm/System/DynamicLibrary.h"
2670e37278SReid Spencer #include "llvm/Target/TargetData.h"
2772ac14edSJeff Cohen #include <math.h>
2829681deeSChris Lattner using namespace llvm;
29996fe010SChris Lattner 
30c346ecd7SChris Lattner STATISTIC(NumInitBytes, "Number of bytes of global vars initialized");
31c346ecd7SChris Lattner STATISTIC(NumGlobals  , "Number of global vars initialized");
32996fe010SChris Lattner 
332d52c1b8SChris Lattner ExecutionEngine::EECtorFn ExecutionEngine::JITCtor = 0;
342d52c1b8SChris Lattner ExecutionEngine::EECtorFn ExecutionEngine::InterpCtor = 0;
352d52c1b8SChris Lattner 
360621caefSChris Lattner ExecutionEngine::ExecutionEngine(ModuleProvider *P) {
3787aee74cSChris Lattner   LazyCompilationDisabled = false;
380621caefSChris Lattner   Modules.push_back(P);
39260b0c88SMisha Brukman   assert(P && "ModuleProvider is null?");
40260b0c88SMisha Brukman }
41260b0c88SMisha Brukman 
420621caefSChris Lattner ExecutionEngine::ExecutionEngine(Module *M) {
4387aee74cSChris Lattner   LazyCompilationDisabled = false;
44260b0c88SMisha Brukman   assert(M && "Module is null?");
450621caefSChris Lattner   Modules.push_back(new ExistingModuleProvider(M));
46260b0c88SMisha Brukman }
47260b0c88SMisha Brukman 
4892f8b30dSBrian Gaeke ExecutionEngine::~ExecutionEngine() {
49603682adSReid Spencer   clearAllGlobalMappings();
500621caefSChris Lattner   for (unsigned i = 0, e = Modules.size(); i != e; ++i)
510621caefSChris Lattner     delete Modules[i];
5292f8b30dSBrian Gaeke }
5392f8b30dSBrian Gaeke 
540621caefSChris Lattner /// FindFunctionNamed - Search all of the active modules to find the one that
550621caefSChris Lattner /// defines FnName.  This is very slow operation and shouldn't be used for
560621caefSChris Lattner /// general code.
570621caefSChris Lattner Function *ExecutionEngine::FindFunctionNamed(const char *FnName) {
580621caefSChris Lattner   for (unsigned i = 0, e = Modules.size(); i != e; ++i) {
591241d6d5SReid Spencer     if (Function *F = Modules[i]->getModule()->getFunction(FnName))
600621caefSChris Lattner       return F;
610621caefSChris Lattner   }
620621caefSChris Lattner   return 0;
630621caefSChris Lattner }
640621caefSChris Lattner 
650621caefSChris Lattner 
666d8dd189SChris Lattner /// addGlobalMapping - Tell the execution engine that the specified global is
676d8dd189SChris Lattner /// at the specified location.  This is used internally as functions are JIT'd
686d8dd189SChris Lattner /// and as global variables are laid out in memory.  It can and should also be
696d8dd189SChris Lattner /// used by clients of the EE that want to have an LLVM global overlay
706d8dd189SChris Lattner /// existing data in memory.
716d8dd189SChris Lattner void ExecutionEngine::addGlobalMapping(const GlobalValue *GV, void *Addr) {
726d8dd189SChris Lattner   MutexGuard locked(lock);
736d8dd189SChris Lattner 
746d8dd189SChris Lattner   void *&CurVal = state.getGlobalAddressMap(locked)[GV];
756d8dd189SChris Lattner   assert((CurVal == 0 || Addr == 0) && "GlobalMapping already established!");
766d8dd189SChris Lattner   CurVal = Addr;
776d8dd189SChris Lattner 
786d8dd189SChris Lattner   // If we are using the reverse mapping, add it too
796d8dd189SChris Lattner   if (!state.getGlobalAddressReverseMap(locked).empty()) {
806d8dd189SChris Lattner     const GlobalValue *&V = state.getGlobalAddressReverseMap(locked)[Addr];
816d8dd189SChris Lattner     assert((V == 0 || GV == 0) && "GlobalMapping already established!");
826d8dd189SChris Lattner     V = GV;
836d8dd189SChris Lattner   }
846d8dd189SChris Lattner }
856d8dd189SChris Lattner 
866d8dd189SChris Lattner /// clearAllGlobalMappings - Clear all global mappings and start over again
876d8dd189SChris Lattner /// use in dynamic compilation scenarios when you want to move globals
886d8dd189SChris Lattner void ExecutionEngine::clearAllGlobalMappings() {
896d8dd189SChris Lattner   MutexGuard locked(lock);
906d8dd189SChris Lattner 
916d8dd189SChris Lattner   state.getGlobalAddressMap(locked).clear();
926d8dd189SChris Lattner   state.getGlobalAddressReverseMap(locked).clear();
936d8dd189SChris Lattner }
946d8dd189SChris Lattner 
956d8dd189SChris Lattner /// updateGlobalMapping - Replace an existing mapping for GV with a new
966d8dd189SChris Lattner /// address.  This updates both maps as required.  If "Addr" is null, the
976d8dd189SChris Lattner /// entry for the global is removed from the mappings.
986d8dd189SChris Lattner void ExecutionEngine::updateGlobalMapping(const GlobalValue *GV, void *Addr) {
996d8dd189SChris Lattner   MutexGuard locked(lock);
1006d8dd189SChris Lattner 
1016d8dd189SChris Lattner   // Deleting from the mapping?
1026d8dd189SChris Lattner   if (Addr == 0) {
1036d8dd189SChris Lattner     state.getGlobalAddressMap(locked).erase(GV);
1046d8dd189SChris Lattner     if (!state.getGlobalAddressReverseMap(locked).empty())
1056d8dd189SChris Lattner       state.getGlobalAddressReverseMap(locked).erase(Addr);
1066d8dd189SChris Lattner     return;
1076d8dd189SChris Lattner   }
1086d8dd189SChris Lattner 
1096d8dd189SChris Lattner   void *&CurVal = state.getGlobalAddressMap(locked)[GV];
1106d8dd189SChris Lattner   if (CurVal && !state.getGlobalAddressReverseMap(locked).empty())
1116d8dd189SChris Lattner     state.getGlobalAddressReverseMap(locked).erase(CurVal);
1126d8dd189SChris Lattner   CurVal = Addr;
1136d8dd189SChris Lattner 
1146d8dd189SChris Lattner   // If we are using the reverse mapping, add it too
1156d8dd189SChris Lattner   if (!state.getGlobalAddressReverseMap(locked).empty()) {
1166d8dd189SChris Lattner     const GlobalValue *&V = state.getGlobalAddressReverseMap(locked)[Addr];
1176d8dd189SChris Lattner     assert((V == 0 || GV == 0) && "GlobalMapping already established!");
1186d8dd189SChris Lattner     V = GV;
1196d8dd189SChris Lattner   }
1206d8dd189SChris Lattner }
1216d8dd189SChris Lattner 
1226d8dd189SChris Lattner /// getPointerToGlobalIfAvailable - This returns the address of the specified
1236d8dd189SChris Lattner /// global value if it is has already been codegen'd, otherwise it returns null.
1246d8dd189SChris Lattner ///
1256d8dd189SChris Lattner void *ExecutionEngine::getPointerToGlobalIfAvailable(const GlobalValue *GV) {
1266d8dd189SChris Lattner   MutexGuard locked(lock);
1276d8dd189SChris Lattner 
1286d8dd189SChris Lattner   std::map<const GlobalValue*, void*>::iterator I =
1296d8dd189SChris Lattner   state.getGlobalAddressMap(locked).find(GV);
1306d8dd189SChris Lattner   return I != state.getGlobalAddressMap(locked).end() ? I->second : 0;
1316d8dd189SChris Lattner }
1326d8dd189SChris Lattner 
133748e8579SChris Lattner /// getGlobalValueAtAddress - Return the LLVM global value object that starts
134748e8579SChris Lattner /// at the specified address.
135748e8579SChris Lattner ///
136748e8579SChris Lattner const GlobalValue *ExecutionEngine::getGlobalValueAtAddress(void *Addr) {
13779876f52SReid Spencer   MutexGuard locked(lock);
13879876f52SReid Spencer 
139748e8579SChris Lattner   // If we haven't computed the reverse mapping yet, do so first.
14079876f52SReid Spencer   if (state.getGlobalAddressReverseMap(locked).empty()) {
1416d8dd189SChris Lattner     for (std::map<const GlobalValue*, void *>::iterator
1426d8dd189SChris Lattner          I = state.getGlobalAddressMap(locked).begin(),
1436d8dd189SChris Lattner          E = state.getGlobalAddressMap(locked).end(); I != E; ++I)
1446d8dd189SChris Lattner       state.getGlobalAddressReverseMap(locked).insert(std::make_pair(I->second,
1456d8dd189SChris Lattner                                                                      I->first));
146748e8579SChris Lattner   }
147748e8579SChris Lattner 
148748e8579SChris Lattner   std::map<void *, const GlobalValue*>::iterator I =
14979876f52SReid Spencer     state.getGlobalAddressReverseMap(locked).find(Addr);
15079876f52SReid Spencer   return I != state.getGlobalAddressReverseMap(locked).end() ? I->second : 0;
151748e8579SChris Lattner }
1525a0d4829SChris Lattner 
1535a0d4829SChris Lattner // CreateArgv - Turn a vector of strings into a nice argv style array of
1545a0d4829SChris Lattner // pointers to null terminated strings.
1555a0d4829SChris Lattner //
1565a0d4829SChris Lattner static void *CreateArgv(ExecutionEngine *EE,
1575a0d4829SChris Lattner                         const std::vector<std::string> &InputArgv) {
15820a631fdSOwen Anderson   unsigned PtrSize = EE->getTargetData()->getPointerSize();
1595a0d4829SChris Lattner   char *Result = new char[(InputArgv.size()+1)*PtrSize];
1605a0d4829SChris Lattner 
1615834fdb3SBill Wendling   DOUT << "ARGV = " << (void*)Result << "\n";
1620d54e78aSReid Spencer   const Type *SBytePtr = PointerType::get(Type::Int8Ty);
1635a0d4829SChris Lattner 
1645a0d4829SChris Lattner   for (unsigned i = 0; i != InputArgv.size(); ++i) {
1655a0d4829SChris Lattner     unsigned Size = InputArgv[i].size()+1;
1665a0d4829SChris Lattner     char *Dest = new char[Size];
1675834fdb3SBill Wendling     DOUT << "ARGV[" << i << "] = " << (void*)Dest << "\n";
1685a0d4829SChris Lattner 
1695a0d4829SChris Lattner     std::copy(InputArgv[i].begin(), InputArgv[i].end(), Dest);
1705a0d4829SChris Lattner     Dest[Size-1] = 0;
1715a0d4829SChris Lattner 
1725a0d4829SChris Lattner     // Endian safe: Result[i] = (PointerTy)Dest;
1735a0d4829SChris Lattner     EE->StoreValueToMemory(PTOGV(Dest), (GenericValue*)(Result+i*PtrSize),
1745a0d4829SChris Lattner                            SBytePtr);
1755a0d4829SChris Lattner   }
1765a0d4829SChris Lattner 
1775a0d4829SChris Lattner   // Null terminate it
1785a0d4829SChris Lattner   EE->StoreValueToMemory(PTOGV(0),
1795a0d4829SChris Lattner                          (GenericValue*)(Result+InputArgv.size()*PtrSize),
1805a0d4829SChris Lattner                          SBytePtr);
1815a0d4829SChris Lattner   return Result;
1825a0d4829SChris Lattner }
1835a0d4829SChris Lattner 
184faae50b6SChris Lattner 
185faae50b6SChris Lattner /// runStaticConstructorsDestructors - This method is used to execute all of
1860621caefSChris Lattner /// the static constructors or destructors for a program, depending on the
187faae50b6SChris Lattner /// value of isDtors.
188faae50b6SChris Lattner void ExecutionEngine::runStaticConstructorsDestructors(bool isDtors) {
189faae50b6SChris Lattner   const char *Name = isDtors ? "llvm.global_dtors" : "llvm.global_ctors";
1900621caefSChris Lattner 
1910621caefSChris Lattner   // Execute global ctors/dtors for each module in the program.
1920621caefSChris Lattner   for (unsigned m = 0, e = Modules.size(); m != e; ++m) {
1930621caefSChris Lattner     GlobalVariable *GV = Modules[m]->getModule()->getNamedGlobal(Name);
194fe36eaebSChris Lattner 
195fe36eaebSChris Lattner     // If this global has internal linkage, or if it has a use, then it must be
196fe36eaebSChris Lattner     // an old-style (llvmgcc3) static ctor with __main linked in and in use.  If
1970621caefSChris Lattner     // this is the case, don't execute any of the global ctors, __main will do
1980621caefSChris Lattner     // it.
1995301e7c6SReid Spencer     if (!GV || GV->isDeclaration() || GV->hasInternalLinkage()) continue;
200faae50b6SChris Lattner 
2010621caefSChris Lattner     // Should be an array of '{ int, void ()* }' structs.  The first value is
2020621caefSChris Lattner     // the init priority, which we ignore.
203faae50b6SChris Lattner     ConstantArray *InitList = dyn_cast<ConstantArray>(GV->getInitializer());
2040621caefSChris Lattner     if (!InitList) continue;
205faae50b6SChris Lattner     for (unsigned i = 0, e = InitList->getNumOperands(); i != e; ++i)
2060621caefSChris Lattner       if (ConstantStruct *CS =
2070621caefSChris Lattner           dyn_cast<ConstantStruct>(InitList->getOperand(i))) {
2080621caefSChris Lattner         if (CS->getNumOperands() != 2) break; // Not array of 2-element structs.
209faae50b6SChris Lattner 
210faae50b6SChris Lattner         Constant *FP = CS->getOperand(1);
211faae50b6SChris Lattner         if (FP->isNullValue())
2120621caefSChris Lattner           break;  // Found a null terminator, exit.
213faae50b6SChris Lattner 
214faae50b6SChris Lattner         if (ConstantExpr *CE = dyn_cast<ConstantExpr>(FP))
2156c38f0bbSReid Spencer           if (CE->isCast())
216faae50b6SChris Lattner             FP = CE->getOperand(0);
217faae50b6SChris Lattner         if (Function *F = dyn_cast<Function>(FP)) {
218faae50b6SChris Lattner           // Execute the ctor/dtor function!
219faae50b6SChris Lattner           runFunction(F, std::vector<GenericValue>());
220faae50b6SChris Lattner         }
221faae50b6SChris Lattner       }
222faae50b6SChris Lattner   }
2230621caefSChris Lattner }
224faae50b6SChris Lattner 
2255a0d4829SChris Lattner /// runFunctionAsMain - This is a helper function which wraps runFunction to
2265a0d4829SChris Lattner /// handle the common task of starting up main with the specified argc, argv,
2275a0d4829SChris Lattner /// and envp parameters.
2285a0d4829SChris Lattner int ExecutionEngine::runFunctionAsMain(Function *Fn,
2295a0d4829SChris Lattner                                        const std::vector<std::string> &argv,
2305a0d4829SChris Lattner                                        const char * const * envp) {
2315a0d4829SChris Lattner   std::vector<GenericValue> GVArgs;
2325a0d4829SChris Lattner   GenericValue GVArgc;
23387aa65f4SReid Spencer   GVArgc.IntVal = APInt(32, argv.size());
234b1cad0b3SChris Lattner   unsigned NumArgs = Fn->getFunctionType()->getNumParams();
235b1cad0b3SChris Lattner   if (NumArgs) {
2365a0d4829SChris Lattner     GVArgs.push_back(GVArgc); // Arg #0 = argc.
237b1cad0b3SChris Lattner     if (NumArgs > 1) {
2385a0d4829SChris Lattner       GVArgs.push_back(PTOGV(CreateArgv(this, argv))); // Arg #1 = argv.
239b1cad0b3SChris Lattner       assert(((char **)GVTOP(GVArgs[1]))[0] &&
240b1cad0b3SChris Lattner              "argv[0] was null after CreateArgv");
241b1cad0b3SChris Lattner       if (NumArgs > 2) {
2425a0d4829SChris Lattner         std::vector<std::string> EnvVars;
2435a0d4829SChris Lattner         for (unsigned i = 0; envp[i]; ++i)
2445a0d4829SChris Lattner           EnvVars.push_back(envp[i]);
2455a0d4829SChris Lattner         GVArgs.push_back(PTOGV(CreateArgv(this, EnvVars))); // Arg #2 = envp.
246b1cad0b3SChris Lattner       }
247b1cad0b3SChris Lattner     }
248b1cad0b3SChris Lattner   }
24987aa65f4SReid Spencer   return runFunction(Fn, GVArgs).IntVal.getZExtValue();
2505a0d4829SChris Lattner }
2515a0d4829SChris Lattner 
252260b0c88SMisha Brukman /// If possible, create a JIT, unless the caller specifically requests an
253260b0c88SMisha Brukman /// Interpreter or there's an error. If even an Interpreter cannot be created,
254260b0c88SMisha Brukman /// NULL is returned.
255857c21b4SMisha Brukman ///
2562f1e2002SMisha Brukman ExecutionEngine *ExecutionEngine::create(ModuleProvider *MP,
257603682adSReid Spencer                                          bool ForceInterpreter,
258603682adSReid Spencer                                          std::string *ErrorStr) {
2594bd3bd5bSBrian Gaeke   ExecutionEngine *EE = 0;
2604bd3bd5bSBrian Gaeke 
261c8c6c03dSChris Lattner   // Unless the interpreter was explicitly selected, try making a JIT.
2622d52c1b8SChris Lattner   if (!ForceInterpreter && JITCtor)
263603682adSReid Spencer     EE = JITCtor(MP, ErrorStr);
2644bd3bd5bSBrian Gaeke 
2654bd3bd5bSBrian Gaeke   // If we can't make a JIT, make an interpreter instead.
2662d52c1b8SChris Lattner   if (EE == 0 && InterpCtor)
267603682adSReid Spencer     EE = InterpCtor(MP, ErrorStr);
268c8c6c03dSChris Lattner 
2690b2de9f2SChris Lattner   if (EE) {
27070e37278SReid Spencer     // Make sure we can resolve symbols in the program as well. The zero arg
27170e37278SReid Spencer     // to the function tells DynamicLibrary to load the program, not a library.
27263539389SChris Lattner     try {
27370e37278SReid Spencer       sys::DynamicLibrary::LoadLibraryPermanently(0);
27463539389SChris Lattner     } catch (...) {
27563539389SChris Lattner     }
2760b2de9f2SChris Lattner   }
27770e37278SReid Spencer 
2784bd3bd5bSBrian Gaeke   return EE;
2794bd3bd5bSBrian Gaeke }
2804bd3bd5bSBrian Gaeke 
281857c21b4SMisha Brukman /// getPointerToGlobal - This returns the address of the specified global
282857c21b4SMisha Brukman /// value.  This may involve code generation if it's a function.
283857c21b4SMisha Brukman ///
284996fe010SChris Lattner void *ExecutionEngine::getPointerToGlobal(const GlobalValue *GV) {
2851678e859SBrian Gaeke   if (Function *F = const_cast<Function*>(dyn_cast<Function>(GV)))
286996fe010SChris Lattner     return getPointerToFunction(F);
287996fe010SChris Lattner 
28879876f52SReid Spencer   MutexGuard locked(lock);
28969e84901SJeff Cohen   void *p = state.getGlobalAddressMap(locked)[GV];
29069e84901SJeff Cohen   if (p)
29169e84901SJeff Cohen     return p;
29269e84901SJeff Cohen 
29369e84901SJeff Cohen   // Global variable might have been added since interpreter started.
29469e84901SJeff Cohen   if (GlobalVariable *GVar =
29569e84901SJeff Cohen           const_cast<GlobalVariable *>(dyn_cast<GlobalVariable>(GV)))
29669e84901SJeff Cohen     EmitGlobalVariable(GVar);
29769e84901SJeff Cohen   else
2984da5e17cSChris Lattner     assert(0 && "Global hasn't had an address allocated yet!");
29979876f52SReid Spencer   return state.getGlobalAddressMap(locked)[GV];
300996fe010SChris Lattner }
301996fe010SChris Lattner 
3026c38f0bbSReid Spencer /// This function converts a Constant* into a GenericValue. The interesting
3036c38f0bbSReid Spencer /// part is if C is a ConstantExpr.
3046c38f0bbSReid Spencer /// @brief Get a GenericValue for a Constnat*
305996fe010SChris Lattner GenericValue ExecutionEngine::getConstantValue(const Constant *C) {
3066c38f0bbSReid Spencer   // If its undefined, return the garbage.
3074fd528f2SReid Spencer   if (isa<UndefValue>(C))
3084fd528f2SReid Spencer     return GenericValue();
3099de0d14dSChris Lattner 
3106c38f0bbSReid Spencer   // If the value is a ConstantExpr
3116c38f0bbSReid Spencer   if (const ConstantExpr *CE = dyn_cast<ConstantExpr>(C)) {
3124fd528f2SReid Spencer     Constant *Op0 = CE->getOperand(0);
3139de0d14dSChris Lattner     switch (CE->getOpcode()) {
3149de0d14dSChris Lattner     case Instruction::GetElementPtr: {
3156c38f0bbSReid Spencer       // Compute the index
3164fd528f2SReid Spencer       GenericValue Result = getConstantValue(Op0);
317c44bd78aSChris Lattner       SmallVector<Value*, 8> Indices(CE->op_begin()+1, CE->op_end());
3189de0d14dSChris Lattner       uint64_t Offset =
3194fd528f2SReid Spencer         TD->getIndexedOffset(Op0->getType(), &Indices[0], Indices.size());
3209de0d14dSChris Lattner 
32187aa65f4SReid Spencer       char* tmp = (char*) Result.PointerVal;
32287aa65f4SReid Spencer       Result = PTOGV(tmp + Offset);
3239de0d14dSChris Lattner       return Result;
3249de0d14dSChris Lattner     }
3254fd528f2SReid Spencer     case Instruction::Trunc: {
3264fd528f2SReid Spencer       GenericValue GV = getConstantValue(Op0);
3274fd528f2SReid Spencer       uint32_t BitWidth = cast<IntegerType>(CE->getType())->getBitWidth();
3284fd528f2SReid Spencer       GV.IntVal = GV.IntVal.trunc(BitWidth);
3294fd528f2SReid Spencer       return GV;
3304fd528f2SReid Spencer     }
3314fd528f2SReid Spencer     case Instruction::ZExt: {
3324fd528f2SReid Spencer       GenericValue GV = getConstantValue(Op0);
3334fd528f2SReid Spencer       uint32_t BitWidth = cast<IntegerType>(CE->getType())->getBitWidth();
3344fd528f2SReid Spencer       GV.IntVal = GV.IntVal.zext(BitWidth);
3354fd528f2SReid Spencer       return GV;
3364fd528f2SReid Spencer     }
3374fd528f2SReid Spencer     case Instruction::SExt: {
3384fd528f2SReid Spencer       GenericValue GV = getConstantValue(Op0);
3394fd528f2SReid Spencer       uint32_t BitWidth = cast<IntegerType>(CE->getType())->getBitWidth();
3404fd528f2SReid Spencer       GV.IntVal = GV.IntVal.sext(BitWidth);
3414fd528f2SReid Spencer       return GV;
3424fd528f2SReid Spencer     }
3434fd528f2SReid Spencer     case Instruction::FPTrunc: {
3444fd528f2SReid Spencer       GenericValue GV = getConstantValue(Op0);
3454fd528f2SReid Spencer       GV.FloatVal = float(GV.DoubleVal);
3464fd528f2SReid Spencer       return GV;
3474fd528f2SReid Spencer     }
3484fd528f2SReid Spencer     case Instruction::FPExt:{
3494fd528f2SReid Spencer       GenericValue GV = getConstantValue(Op0);
3504fd528f2SReid Spencer       GV.DoubleVal = double(GV.FloatVal);
3514fd528f2SReid Spencer       return GV;
3524fd528f2SReid Spencer     }
3534fd528f2SReid Spencer     case Instruction::UIToFP: {
3544fd528f2SReid Spencer       GenericValue GV = getConstantValue(Op0);
3554fd528f2SReid Spencer       if (CE->getType() == Type::FloatTy)
3564fd528f2SReid Spencer         GV.FloatVal = float(GV.IntVal.roundToDouble());
3574fd528f2SReid Spencer       else
3584fd528f2SReid Spencer         GV.DoubleVal = GV.IntVal.roundToDouble();
3594fd528f2SReid Spencer       return GV;
3604fd528f2SReid Spencer     }
3614fd528f2SReid Spencer     case Instruction::SIToFP: {
3624fd528f2SReid Spencer       GenericValue GV = getConstantValue(Op0);
3634fd528f2SReid Spencer       if (CE->getType() == Type::FloatTy)
3644fd528f2SReid Spencer         GV.FloatVal = float(GV.IntVal.signedRoundToDouble());
3654fd528f2SReid Spencer       else
3664fd528f2SReid Spencer         GV.DoubleVal = GV.IntVal.signedRoundToDouble();
3674fd528f2SReid Spencer       return GV;
3684fd528f2SReid Spencer     }
3694fd528f2SReid Spencer     case Instruction::FPToUI: // double->APInt conversion handles sign
3704fd528f2SReid Spencer     case Instruction::FPToSI: {
3714fd528f2SReid Spencer       GenericValue GV = getConstantValue(Op0);
3724fd528f2SReid Spencer       uint32_t BitWidth = cast<IntegerType>(CE->getType())->getBitWidth();
3734fd528f2SReid Spencer       if (Op0->getType() == Type::FloatTy)
3744fd528f2SReid Spencer         GV.IntVal = APIntOps::RoundFloatToAPInt(GV.FloatVal, BitWidth);
3754fd528f2SReid Spencer       else
3764fd528f2SReid Spencer         GV.IntVal = APIntOps::RoundDoubleToAPInt(GV.DoubleVal, BitWidth);
3774fd528f2SReid Spencer       return GV;
3784fd528f2SReid Spencer     }
3796c38f0bbSReid Spencer     case Instruction::PtrToInt: {
3804fd528f2SReid Spencer       GenericValue GV = getConstantValue(Op0);
3814fd528f2SReid Spencer       uint32_t PtrWidth = TD->getPointerSizeInBits();
3824fd528f2SReid Spencer       GV.IntVal = APInt(PtrWidth, uintptr_t(GV.PointerVal));
3834fd528f2SReid Spencer       return GV;
3844fd528f2SReid Spencer     }
3854fd528f2SReid Spencer     case Instruction::IntToPtr: {
3864fd528f2SReid Spencer       GenericValue GV = getConstantValue(Op0);
3874fd528f2SReid Spencer       uint32_t PtrWidth = TD->getPointerSizeInBits();
3884fd528f2SReid Spencer       if (PtrWidth != GV.IntVal.getBitWidth())
3894fd528f2SReid Spencer         GV.IntVal = GV.IntVal.zextOrTrunc(PtrWidth);
3904fd528f2SReid Spencer       assert(GV.IntVal.getBitWidth() <= 64 && "Bad pointer width");
3914fd528f2SReid Spencer       GV.PointerVal = PointerTy(uintptr_t(GV.IntVal.getZExtValue()));
3926c38f0bbSReid Spencer       return GV;
3936c38f0bbSReid Spencer     }
3946c38f0bbSReid Spencer     case Instruction::BitCast: {
3954fd528f2SReid Spencer       GenericValue GV = getConstantValue(Op0);
3964fd528f2SReid Spencer       const Type* DestTy = CE->getType();
3974fd528f2SReid Spencer       switch (Op0->getType()->getTypeID()) {
3984fd528f2SReid Spencer         default: assert(0 && "Invalid bitcast operand");
3994fd528f2SReid Spencer         case Type::IntegerTyID:
4004fd528f2SReid Spencer           assert(DestTy->isFloatingPoint() && "invalid bitcast");
4014fd528f2SReid Spencer           if (DestTy == Type::FloatTy)
4024fd528f2SReid Spencer             GV.FloatVal = GV.IntVal.bitsToFloat();
4034fd528f2SReid Spencer           else if (DestTy == Type::DoubleTy)
4044fd528f2SReid Spencer             GV.DoubleVal = GV.IntVal.bitsToDouble();
4056c38f0bbSReid Spencer           break;
4064fd528f2SReid Spencer         case Type::FloatTyID:
4074fd528f2SReid Spencer           assert(DestTy == Type::Int32Ty && "Invalid bitcast");
4084fd528f2SReid Spencer           GV.IntVal.floatToBits(GV.FloatVal);
4094fd528f2SReid Spencer           break;
4104fd528f2SReid Spencer         case Type::DoubleTyID:
4114fd528f2SReid Spencer           assert(DestTy == Type::Int64Ty && "Invalid bitcast");
4124fd528f2SReid Spencer           GV.IntVal.doubleToBits(GV.DoubleVal);
4134fd528f2SReid Spencer           break;
4144fd528f2SReid Spencer         case Type::PointerTyID:
4154fd528f2SReid Spencer           assert(isa<PointerType>(DestTy) && "Invalid bitcast");
4164fd528f2SReid Spencer           break; // getConstantValue(Op0)  above already converted it
4176c38f0bbSReid Spencer       }
4184fd528f2SReid Spencer       return GV;
41968cbcc3eSChris Lattner     }
42068cbcc3eSChris Lattner     case Instruction::Add:
4214fd528f2SReid Spencer     case Instruction::Sub:
4224fd528f2SReid Spencer     case Instruction::Mul:
4234fd528f2SReid Spencer     case Instruction::UDiv:
4244fd528f2SReid Spencer     case Instruction::SDiv:
4254fd528f2SReid Spencer     case Instruction::URem:
4264fd528f2SReid Spencer     case Instruction::SRem:
4274fd528f2SReid Spencer     case Instruction::And:
4284fd528f2SReid Spencer     case Instruction::Or:
4294fd528f2SReid Spencer     case Instruction::Xor: {
4304fd528f2SReid Spencer       GenericValue LHS = getConstantValue(Op0);
4314fd528f2SReid Spencer       GenericValue RHS = getConstantValue(CE->getOperand(1));
4324fd528f2SReid Spencer       GenericValue GV;
433c4e6bb5fSChris Lattner       switch (CE->getOperand(0)->getType()->getTypeID()) {
434c4e6bb5fSChris Lattner       default: assert(0 && "Bad add type!"); abort();
4357a9c62baSReid Spencer       case Type::IntegerTyID:
4364fd528f2SReid Spencer         switch (CE->getOpcode()) {
4374fd528f2SReid Spencer           default: assert(0 && "Invalid integer opcode");
4384fd528f2SReid Spencer           case Instruction::Add: GV.IntVal = LHS.IntVal + RHS.IntVal; break;
4394fd528f2SReid Spencer           case Instruction::Sub: GV.IntVal = LHS.IntVal - RHS.IntVal; break;
4404fd528f2SReid Spencer           case Instruction::Mul: GV.IntVal = LHS.IntVal * RHS.IntVal; break;
4414fd528f2SReid Spencer           case Instruction::UDiv:GV.IntVal = LHS.IntVal.udiv(RHS.IntVal); break;
4424fd528f2SReid Spencer           case Instruction::SDiv:GV.IntVal = LHS.IntVal.sdiv(RHS.IntVal); break;
4434fd528f2SReid Spencer           case Instruction::URem:GV.IntVal = LHS.IntVal.urem(RHS.IntVal); break;
4444fd528f2SReid Spencer           case Instruction::SRem:GV.IntVal = LHS.IntVal.srem(RHS.IntVal); break;
4454fd528f2SReid Spencer           case Instruction::And: GV.IntVal = LHS.IntVal & RHS.IntVal; break;
4464fd528f2SReid Spencer           case Instruction::Or:  GV.IntVal = LHS.IntVal | RHS.IntVal; break;
4474fd528f2SReid Spencer           case Instruction::Xor: GV.IntVal = LHS.IntVal ^ RHS.IntVal; break;
4484fd528f2SReid Spencer         }
449c4e6bb5fSChris Lattner         break;
450c4e6bb5fSChris Lattner       case Type::FloatTyID:
4514fd528f2SReid Spencer         switch (CE->getOpcode()) {
4524fd528f2SReid Spencer           default: assert(0 && "Invalid float opcode"); abort();
4534fd528f2SReid Spencer           case Instruction::Add:
4544fd528f2SReid Spencer             GV.FloatVal = LHS.FloatVal + RHS.FloatVal; break;
4554fd528f2SReid Spencer           case Instruction::Sub:
4564fd528f2SReid Spencer             GV.FloatVal = LHS.FloatVal - RHS.FloatVal; break;
4574fd528f2SReid Spencer           case Instruction::Mul:
4584fd528f2SReid Spencer             GV.FloatVal = LHS.FloatVal * RHS.FloatVal; break;
4594fd528f2SReid Spencer           case Instruction::FDiv:
4604fd528f2SReid Spencer             GV.FloatVal = LHS.FloatVal / RHS.FloatVal; break;
4614fd528f2SReid Spencer           case Instruction::FRem:
4624fd528f2SReid Spencer             GV.FloatVal = ::fmodf(LHS.FloatVal,RHS.FloatVal); break;
4634fd528f2SReid Spencer         }
464c4e6bb5fSChris Lattner         break;
465c4e6bb5fSChris Lattner       case Type::DoubleTyID:
4664fd528f2SReid Spencer         switch (CE->getOpcode()) {
4674fd528f2SReid Spencer           default: assert(0 && "Invalid double opcode"); abort();
4684fd528f2SReid Spencer           case Instruction::Add:
4694fd528f2SReid Spencer             GV.DoubleVal = LHS.DoubleVal + RHS.DoubleVal; break;
4704fd528f2SReid Spencer           case Instruction::Sub:
4714fd528f2SReid Spencer             GV.DoubleVal = LHS.DoubleVal - RHS.DoubleVal; break;
4724fd528f2SReid Spencer           case Instruction::Mul:
4734fd528f2SReid Spencer             GV.DoubleVal = LHS.DoubleVal * RHS.DoubleVal; break;
4744fd528f2SReid Spencer           case Instruction::FDiv:
4754fd528f2SReid Spencer             GV.DoubleVal = LHS.DoubleVal / RHS.DoubleVal; break;
4764fd528f2SReid Spencer           case Instruction::FRem:
4774fd528f2SReid Spencer             GV.DoubleVal = ::fmod(LHS.DoubleVal,RHS.DoubleVal); break;
4784fd528f2SReid Spencer         }
479c4e6bb5fSChris Lattner         break;
480c4e6bb5fSChris Lattner       }
4814fd528f2SReid Spencer       return GV;
4824fd528f2SReid Spencer     }
4839de0d14dSChris Lattner     default:
48468cbcc3eSChris Lattner       break;
48568cbcc3eSChris Lattner     }
4864fd528f2SReid Spencer     cerr << "ConstantExpr not handled: " << *CE << "\n";
4879de0d14dSChris Lattner     abort();
4889de0d14dSChris Lattner   }
489996fe010SChris Lattner 
4904fd528f2SReid Spencer   GenericValue Result;
4916b727599SChris Lattner   switch (C->getType()->getTypeID()) {
49287aa65f4SReid Spencer   case Type::FloatTyID:
49387aa65f4SReid Spencer     Result.FloatVal = (float)cast<ConstantFP>(C)->getValue();
4947a9c62baSReid Spencer     break;
49587aa65f4SReid Spencer   case Type::DoubleTyID:
49687aa65f4SReid Spencer     Result.DoubleVal = (double)cast<ConstantFP>(C)->getValue();
49787aa65f4SReid Spencer     break;
49887aa65f4SReid Spencer   case Type::IntegerTyID:
49987aa65f4SReid Spencer     Result.IntVal = cast<ConstantInt>(C)->getValue();
50087aa65f4SReid Spencer     break;
501996fe010SChris Lattner   case Type::PointerTyID:
5026a0fd73bSReid Spencer     if (isa<ConstantPointerNull>(C))
503996fe010SChris Lattner       Result.PointerVal = 0;
5046a0fd73bSReid Spencer     else if (const Function *F = dyn_cast<Function>(C))
5056a0fd73bSReid Spencer       Result = PTOGV(getPointerToFunctionOrStub(const_cast<Function*>(F)));
5066a0fd73bSReid Spencer     else if (const GlobalVariable* GV = dyn_cast<GlobalVariable>(C))
5076a0fd73bSReid Spencer       Result = PTOGV(getOrEmitGlobalVariable(const_cast<GlobalVariable*>(GV)));
508e6492f10SChris Lattner     else
509996fe010SChris Lattner       assert(0 && "Unknown constant pointer type!");
510996fe010SChris Lattner     break;
511996fe010SChris Lattner   default:
5124fd528f2SReid Spencer     cerr << "ERROR: Constant unimplemented for type: " << *C->getType() << "\n";
5139de0d14dSChris Lattner     abort();
514996fe010SChris Lattner   }
515996fe010SChris Lattner   return Result;
516996fe010SChris Lattner }
517996fe010SChris Lattner 
5184ca2ea5bSNate Begeman /// StoreValueToMemory - Stores the data in Val of type Ty at address Ptr.  Ptr
5194ca2ea5bSNate Begeman /// is the address of the memory at which to store Val, cast to GenericValue *.
5204ca2ea5bSNate Begeman /// It is not a pointer to a GenericValue containing the address at which to
5214ca2ea5bSNate Begeman /// store Val.
522857c21b4SMisha Brukman ///
5234e42790cSReid Spencer void ExecutionEngine::StoreValueToMemory(const GenericValue &Val, GenericValue *Ptr,
524996fe010SChris Lattner                                          const Type *Ty) {
5256b727599SChris Lattner   switch (Ty->getTypeID()) {
5267a9c62baSReid Spencer   case Type::IntegerTyID: {
5277a9c62baSReid Spencer     unsigned BitWidth = cast<IntegerType>(Ty)->getBitWidth();
52801f7e06dSReid Spencer     GenericValue TmpVal = Val;
5297a9c62baSReid Spencer     if (BitWidth <= 8)
53087aa65f4SReid Spencer       *((uint8_t*)Ptr) = uint8_t(Val.IntVal.getZExtValue());
5317a9c62baSReid Spencer     else if (BitWidth <= 16) {
53287aa65f4SReid Spencer       *((uint16_t*)Ptr) = uint16_t(Val.IntVal.getZExtValue());
5337a9c62baSReid Spencer     } else if (BitWidth <= 32) {
53487aa65f4SReid Spencer       *((uint32_t*)Ptr) = uint32_t(Val.IntVal.getZExtValue());
5357a9c62baSReid Spencer     } else if (BitWidth <= 64) {
5364e42790cSReid Spencer       *((uint64_t*)Ptr) = uint64_t(Val.IntVal.getZExtValue());
537815f8dd2SReid Spencer     } else {
538815f8dd2SReid Spencer       uint64_t *Dest = (uint64_t*)Ptr;
53987aa65f4SReid Spencer       const uint64_t *Src = Val.IntVal.getRawData();
54087aa65f4SReid Spencer       for (uint32_t i = 0; i < Val.IntVal.getNumWords(); ++i)
541815f8dd2SReid Spencer         Dest[i] = Src[i];
542815f8dd2SReid Spencer     }
543996fe010SChris Lattner     break;
5447a9c62baSReid Spencer   }
545996fe010SChris Lattner   case Type::FloatTyID:
54687aa65f4SReid Spencer     *((float*)Ptr) = Val.FloatVal;
54787aa65f4SReid Spencer     break;
54887aa65f4SReid Spencer   case Type::DoubleTyID:
54987aa65f4SReid Spencer     *((double*)Ptr) = Val.DoubleVal;
550996fe010SChris Lattner     break;
5517a9c62baSReid Spencer   case Type::PointerTyID:
55287aa65f4SReid Spencer     *((PointerTy*)Ptr) = Val.PointerVal;
553996fe010SChris Lattner     break;
554996fe010SChris Lattner   default:
555f3baad3eSBill Wendling     cerr << "Cannot store value of type " << *Ty << "!\n";
556996fe010SChris Lattner   }
557996fe010SChris Lattner }
558996fe010SChris Lattner 
559857c21b4SMisha Brukman /// FIXME: document
560857c21b4SMisha Brukman ///
56100919f57SReid Spencer void ExecutionEngine::LoadValueFromMemory(GenericValue &Result,
56200919f57SReid Spencer                                                   GenericValue *Ptr,
5637f389e8cSChris Lattner                                                   const Type *Ty) {
5646b727599SChris Lattner   switch (Ty->getTypeID()) {
5657a9c62baSReid Spencer   case Type::IntegerTyID: {
5667a9c62baSReid Spencer     unsigned BitWidth = cast<IntegerType>(Ty)->getBitWidth();
5677a9c62baSReid Spencer     if (BitWidth <= 8)
56887aa65f4SReid Spencer       Result.IntVal = APInt(BitWidth, *((uint8_t*)Ptr));
5697a9c62baSReid Spencer     else if (BitWidth <= 16) {
57087aa65f4SReid Spencer       Result.IntVal = APInt(BitWidth, *((uint16_t*)Ptr));
5717a9c62baSReid Spencer     } else if (BitWidth <= 32) {
57287aa65f4SReid Spencer       Result.IntVal = APInt(BitWidth, *((uint32_t*)Ptr));
5737a9c62baSReid Spencer     } else if (BitWidth <= 64) {
57487aa65f4SReid Spencer       Result.IntVal = APInt(BitWidth, *((uint64_t*)Ptr));
5757a9c62baSReid Spencer     } else
576*8ff9ff79SZhou Sheng       Result.IntVal = APInt(BitWidth, (BitWidth+63)/64, (uint64_t*)Ptr);
5777f389e8cSChris Lattner     break;
5787a9c62baSReid Spencer   }
5797f389e8cSChris Lattner   case Type::FloatTyID:
58087aa65f4SReid Spencer     Result.FloatVal = *((float*)Ptr);
58187aa65f4SReid Spencer     break;
58287aa65f4SReid Spencer   case Type::DoubleTyID:
58387aa65f4SReid Spencer     Result.DoubleVal = *((double*)Ptr);
5847f389e8cSChris Lattner     break;
5857a9c62baSReid Spencer   case Type::PointerTyID:
58687aa65f4SReid Spencer     Result.PointerVal = *((PointerTy*)Ptr);
5877f389e8cSChris Lattner     break;
5887f389e8cSChris Lattner   default:
589f3baad3eSBill Wendling     cerr << "Cannot load value of type " << *Ty << "!\n";
5907f389e8cSChris Lattner     abort();
5917f389e8cSChris Lattner   }
5927f389e8cSChris Lattner }
5937f389e8cSChris Lattner 
594996fe010SChris Lattner // InitializeMemory - Recursive function to apply a Constant value into the
595996fe010SChris Lattner // specified memory location...
596996fe010SChris Lattner //
597996fe010SChris Lattner void ExecutionEngine::InitializeMemory(const Constant *Init, void *Addr) {
59861753bf8SChris Lattner   if (isa<UndefValue>(Init)) {
59961753bf8SChris Lattner     return;
600d84d35baSReid Spencer   } else if (const ConstantVector *CP = dyn_cast<ConstantVector>(Init)) {
60169d62138SRobert Bocchino     unsigned ElementSize =
60220a631fdSOwen Anderson       getTargetData()->getTypeSize(CP->getType()->getElementType());
60369d62138SRobert Bocchino     for (unsigned i = 0, e = CP->getNumOperands(); i != e; ++i)
60469d62138SRobert Bocchino       InitializeMemory(CP->getOperand(i), (char*)Addr+i*ElementSize);
60569d62138SRobert Bocchino     return;
60661753bf8SChris Lattner   } else if (Init->getType()->isFirstClassType()) {
607996fe010SChris Lattner     GenericValue Val = getConstantValue(Init);
608996fe010SChris Lattner     StoreValueToMemory(Val, (GenericValue*)Addr, Init->getType());
609996fe010SChris Lattner     return;
610834b1272SChris Lattner   } else if (isa<ConstantAggregateZero>(Init)) {
61120a631fdSOwen Anderson     memset(Addr, 0, (size_t)getTargetData()->getTypeSize(Init->getType()));
612834b1272SChris Lattner     return;
613996fe010SChris Lattner   }
614996fe010SChris Lattner 
6156b727599SChris Lattner   switch (Init->getType()->getTypeID()) {
616996fe010SChris Lattner   case Type::ArrayTyID: {
617996fe010SChris Lattner     const ConstantArray *CPA = cast<ConstantArray>(Init);
618996fe010SChris Lattner     unsigned ElementSize =
61920a631fdSOwen Anderson       getTargetData()->getTypeSize(CPA->getType()->getElementType());
62083243725SAlkis Evlogimenos     for (unsigned i = 0, e = CPA->getNumOperands(); i != e; ++i)
62183243725SAlkis Evlogimenos       InitializeMemory(CPA->getOperand(i), (char*)Addr+i*ElementSize);
622996fe010SChris Lattner     return;
623996fe010SChris Lattner   }
624996fe010SChris Lattner 
625996fe010SChris Lattner   case Type::StructTyID: {
626996fe010SChris Lattner     const ConstantStruct *CPS = cast<ConstantStruct>(Init);
627996fe010SChris Lattner     const StructLayout *SL =
62820a631fdSOwen Anderson       getTargetData()->getStructLayout(cast<StructType>(CPS->getType()));
62983243725SAlkis Evlogimenos     for (unsigned i = 0, e = CPS->getNumOperands(); i != e; ++i)
630c473d8e4SChris Lattner       InitializeMemory(CPS->getOperand(i), (char*)Addr+SL->getElementOffset(i));
631996fe010SChris Lattner     return;
632996fe010SChris Lattner   }
633996fe010SChris Lattner 
634996fe010SChris Lattner   default:
635f3baad3eSBill Wendling     cerr << "Bad Type: " << *Init->getType() << "\n";
636996fe010SChris Lattner     assert(0 && "Unknown constant type to initialize memory with!");
637996fe010SChris Lattner   }
638996fe010SChris Lattner }
639996fe010SChris Lattner 
640996fe010SChris Lattner /// EmitGlobals - Emit all of the global variables to memory, storing their
641996fe010SChris Lattner /// addresses into GlobalAddress.  This must make sure to copy the contents of
642996fe010SChris Lattner /// their initializers into the memory.
643996fe010SChris Lattner ///
644996fe010SChris Lattner void ExecutionEngine::emitGlobals() {
64520a631fdSOwen Anderson   const TargetData *TD = getTargetData();
646996fe010SChris Lattner 
647996fe010SChris Lattner   // Loop over all of the global variables in the program, allocating the memory
6480621caefSChris Lattner   // to hold them.  If there is more than one module, do a prepass over globals
6490621caefSChris Lattner   // to figure out how the different modules should link together.
6500621caefSChris Lattner   //
6510621caefSChris Lattner   std::map<std::pair<std::string, const Type*>,
6520621caefSChris Lattner            const GlobalValue*> LinkedGlobalsMap;
6530621caefSChris Lattner 
6540621caefSChris Lattner   if (Modules.size() != 1) {
6550621caefSChris Lattner     for (unsigned m = 0, e = Modules.size(); m != e; ++m) {
6560621caefSChris Lattner       Module &M = *Modules[m]->getModule();
6570621caefSChris Lattner       for (Module::const_global_iterator I = M.global_begin(),
6580621caefSChris Lattner            E = M.global_end(); I != E; ++I) {
6590621caefSChris Lattner         const GlobalValue *GV = I;
6605301e7c6SReid Spencer         if (GV->hasInternalLinkage() || GV->isDeclaration() ||
6610621caefSChris Lattner             GV->hasAppendingLinkage() || !GV->hasName())
6620621caefSChris Lattner           continue;// Ignore external globals and globals with internal linkage.
6630621caefSChris Lattner 
6640621caefSChris Lattner         const GlobalValue *&GVEntry =
6650621caefSChris Lattner           LinkedGlobalsMap[std::make_pair(GV->getName(), GV->getType())];
6660621caefSChris Lattner 
6670621caefSChris Lattner         // If this is the first time we've seen this global, it is the canonical
6680621caefSChris Lattner         // version.
6690621caefSChris Lattner         if (!GVEntry) {
6700621caefSChris Lattner           GVEntry = GV;
6710621caefSChris Lattner           continue;
6720621caefSChris Lattner         }
6730621caefSChris Lattner 
6740621caefSChris Lattner         // If the existing global is strong, never replace it.
675d61d39ecSAnton Korobeynikov         if (GVEntry->hasExternalLinkage() ||
676d61d39ecSAnton Korobeynikov             GVEntry->hasDLLImportLinkage() ||
677d61d39ecSAnton Korobeynikov             GVEntry->hasDLLExportLinkage())
6780621caefSChris Lattner           continue;
6790621caefSChris Lattner 
6800621caefSChris Lattner         // Otherwise, we know it's linkonce/weak, replace it if this is a strong
6810621caefSChris Lattner         // symbol.
68212c94949SAnton Korobeynikov         if (GV->hasExternalLinkage() || GVEntry->hasExternalWeakLinkage())
6830621caefSChris Lattner           GVEntry = GV;
6840621caefSChris Lattner       }
6850621caefSChris Lattner     }
6860621caefSChris Lattner   }
6870621caefSChris Lattner 
6880621caefSChris Lattner   std::vector<const GlobalValue*> NonCanonicalGlobals;
6890621caefSChris Lattner   for (unsigned m = 0, e = Modules.size(); m != e; ++m) {
6900621caefSChris Lattner     Module &M = *Modules[m]->getModule();
6918ffb6611SChris Lattner     for (Module::const_global_iterator I = M.global_begin(), E = M.global_end();
6920621caefSChris Lattner          I != E; ++I) {
6930621caefSChris Lattner       // In the multi-module case, see what this global maps to.
6940621caefSChris Lattner       if (!LinkedGlobalsMap.empty()) {
6950621caefSChris Lattner         if (const GlobalValue *GVEntry =
6960621caefSChris Lattner               LinkedGlobalsMap[std::make_pair(I->getName(), I->getType())]) {
6970621caefSChris Lattner           // If something else is the canonical global, ignore this one.
6980621caefSChris Lattner           if (GVEntry != &*I) {
6990621caefSChris Lattner             NonCanonicalGlobals.push_back(I);
7000621caefSChris Lattner             continue;
7010621caefSChris Lattner           }
7020621caefSChris Lattner         }
7030621caefSChris Lattner       }
7040621caefSChris Lattner 
7055301e7c6SReid Spencer       if (!I->isDeclaration()) {
7060621caefSChris Lattner         // Get the type of the global.
707996fe010SChris Lattner         const Type *Ty = I->getType()->getElementType();
708996fe010SChris Lattner 
709996fe010SChris Lattner         // Allocate some memory for it!
71020a631fdSOwen Anderson         unsigned Size = TD->getTypeSize(Ty);
7116bbe3eceSChris Lattner         addGlobalMapping(I, new char[Size]);
712996fe010SChris Lattner       } else {
713e8bbcfc2SBrian Gaeke         // External variable reference. Try to use the dynamic loader to
714e8bbcfc2SBrian Gaeke         // get a pointer to it.
7150621caefSChris Lattner         if (void *SymAddr =
7160621caefSChris Lattner             sys::DynamicLibrary::SearchForAddressOfSymbol(I->getName().c_str()))
717748e8579SChris Lattner           addGlobalMapping(I, SymAddr);
7189de0d14dSChris Lattner         else {
719f3baad3eSBill Wendling           cerr << "Could not resolve external global address: "
7209de0d14dSChris Lattner                << I->getName() << "\n";
7219de0d14dSChris Lattner           abort();
7229de0d14dSChris Lattner         }
723996fe010SChris Lattner       }
7240621caefSChris Lattner     }
7250621caefSChris Lattner 
7260621caefSChris Lattner     // If there are multiple modules, map the non-canonical globals to their
7270621caefSChris Lattner     // canonical location.
7280621caefSChris Lattner     if (!NonCanonicalGlobals.empty()) {
7290621caefSChris Lattner       for (unsigned i = 0, e = NonCanonicalGlobals.size(); i != e; ++i) {
7300621caefSChris Lattner         const GlobalValue *GV = NonCanonicalGlobals[i];
7310621caefSChris Lattner         const GlobalValue *CGV =
7320621caefSChris Lattner           LinkedGlobalsMap[std::make_pair(GV->getName(), GV->getType())];
7330621caefSChris Lattner         void *Ptr = getPointerToGlobalIfAvailable(CGV);
7340621caefSChris Lattner         assert(Ptr && "Canonical global wasn't codegen'd!");
7350621caefSChris Lattner         addGlobalMapping(GV, getPointerToGlobalIfAvailable(CGV));
7360621caefSChris Lattner       }
7370621caefSChris Lattner     }
738996fe010SChris Lattner 
7397a9c62baSReid Spencer     // Now that all of the globals are set up in memory, loop through them all
7407a9c62baSReid Spencer     // and initialize their contents.
7418ffb6611SChris Lattner     for (Module::const_global_iterator I = M.global_begin(), E = M.global_end();
7420621caefSChris Lattner          I != E; ++I) {
7435301e7c6SReid Spencer       if (!I->isDeclaration()) {
7440621caefSChris Lattner         if (!LinkedGlobalsMap.empty()) {
7450621caefSChris Lattner           if (const GlobalValue *GVEntry =
7460621caefSChris Lattner                 LinkedGlobalsMap[std::make_pair(I->getName(), I->getType())])
7470621caefSChris Lattner             if (GVEntry != &*I)  // Not the canonical variable.
7480621caefSChris Lattner               continue;
7490621caefSChris Lattner         }
7506bbe3eceSChris Lattner         EmitGlobalVariable(I);
7516bbe3eceSChris Lattner       }
7520621caefSChris Lattner     }
7530621caefSChris Lattner   }
7540621caefSChris Lattner }
7556bbe3eceSChris Lattner 
7566bbe3eceSChris Lattner // EmitGlobalVariable - This method emits the specified global variable to the
7576bbe3eceSChris Lattner // address specified in GlobalAddresses, or allocates new memory if it's not
7586bbe3eceSChris Lattner // already in the map.
759fbcc0aa1SChris Lattner void ExecutionEngine::EmitGlobalVariable(const GlobalVariable *GV) {
760748e8579SChris Lattner   void *GA = getPointerToGlobalIfAvailable(GV);
7615834fdb3SBill Wendling   DOUT << "Global '" << GV->getName() << "' -> " << GA << "\n";
762dc631735SChris Lattner 
763fbcc0aa1SChris Lattner   const Type *ElTy = GV->getType()->getElementType();
76420a631fdSOwen Anderson   size_t GVSize = (size_t)getTargetData()->getTypeSize(ElTy);
7656bbe3eceSChris Lattner   if (GA == 0) {
7666bbe3eceSChris Lattner     // If it's not already specified, allocate memory for the global.
767d215992bSChris Lattner     GA = new char[GVSize];
768748e8579SChris Lattner     addGlobalMapping(GV, GA);
7696bbe3eceSChris Lattner   }
770fbcc0aa1SChris Lattner 
7716bbe3eceSChris Lattner   InitializeMemory(GV->getInitializer(), GA);
772df1f1524SChris Lattner   NumInitBytes += (unsigned)GVSize;
7736bbe3eceSChris Lattner   ++NumGlobals;
774996fe010SChris Lattner }
775