2004-05-24 05:19:22 +08:00
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//===-- LowerGC.cpp - Provide GC support for targets that don't -----------===//
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//
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// The LLVM Compiler Infrastructure
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//
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// This file was developed by the LLVM research group and is distributed under
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// the University of Illinois Open Source License. See LICENSE.TXT for details.
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//
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//===----------------------------------------------------------------------===//
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//
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// This file implements lowering for the llvm.gc* intrinsics for targets that do
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// not natively support them (which includes the C backend). Note that the code
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// generated is not as efficient as it would be for targets that natively
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// support the GC intrinsics, but it is useful for getting new targets
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// up-and-running quickly.
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//
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// This pass implements the code transformation described in this paper:
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// "Accurate Garbage Collection in an Uncooperative Environment"
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2004-05-24 05:27:29 +08:00
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// Fergus Henderson, ISMM, 2002
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2004-05-24 05:19:22 +08:00
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//
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//===----------------------------------------------------------------------===//
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#define DEBUG_TYPE "lowergc"
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#include "llvm/Transforms/Scalar.h"
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#include "llvm/Constants.h"
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#include "llvm/DerivedTypes.h"
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#include "llvm/Instructions.h"
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#include "llvm/Module.h"
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#include "llvm/Pass.h"
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2006-08-27 20:54:02 +08:00
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#include "llvm/Support/Compiler.h"
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2004-05-24 05:19:22 +08:00
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using namespace llvm;
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namespace {
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2006-06-29 06:08:15 +08:00
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class VISIBILITY_HIDDEN LowerGC : public FunctionPass {
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2004-05-24 05:19:22 +08:00
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/// GCRootInt, GCReadInt, GCWriteInt - The function prototypes for the
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/// llvm.gcread/llvm.gcwrite/llvm.gcroot intrinsics.
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Function *GCRootInt, *GCReadInt, *GCWriteInt;
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/// GCRead/GCWrite - These are the functions provided by the garbage
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/// collector for read/write barriers.
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2007-01-07 14:58:05 +08:00
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Constant *GCRead, *GCWrite;
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2004-05-24 05:19:22 +08:00
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/// RootChain - This is the global linked-list that contains the chain of GC
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/// roots.
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GlobalVariable *RootChain;
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/// MainRootRecordType - This is the type for a function root entry if it
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/// had zero roots.
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const Type *MainRootRecordType;
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public:
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2005-04-22 07:48:37 +08:00
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LowerGC() : GCRootInt(0), GCReadInt(0), GCWriteInt(0),
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2004-05-24 05:19:22 +08:00
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GCRead(0), GCWrite(0), RootChain(0), MainRootRecordType(0) {}
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virtual bool doInitialization(Module &M);
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virtual bool runOnFunction(Function &F);
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private:
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const StructType *getRootRecordType(unsigned NumRoots);
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};
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2006-08-28 06:42:52 +08:00
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RegisterPass<LowerGC>
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2004-05-24 05:19:22 +08:00
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X("lowergc", "Lower GC intrinsics, for GCless code generators");
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}
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/// createLowerGCPass - This function returns an instance of the "lowergc"
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/// pass, which lowers garbage collection intrinsics to normal LLVM code.
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FunctionPass *llvm::createLowerGCPass() {
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return new LowerGC();
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}
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/// getRootRecordType - This function creates and returns the type for a root
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/// record containing 'NumRoots' roots.
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const StructType *LowerGC::getRootRecordType(unsigned NumRoots) {
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// Build a struct that is a type used for meta-data/root pairs.
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std::vector<const Type *> ST;
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ST.push_back(GCRootInt->getFunctionType()->getParamType(0));
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ST.push_back(GCRootInt->getFunctionType()->getParamType(1));
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StructType *PairTy = StructType::get(ST);
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// Build the array of pairs.
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ArrayType *PairArrTy = ArrayType::get(PairTy, NumRoots);
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// Now build the recursive list type.
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PATypeHolder RootListH =
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MainRootRecordType ? (Type*)MainRootRecordType : (Type*)OpaqueType::get();
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ST.clear();
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ST.push_back(PointerType::get(RootListH)); // Prev pointer
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2006-12-31 13:48:39 +08:00
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ST.push_back(Type::Int32Ty); // NumElements in array
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2004-05-24 05:19:22 +08:00
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ST.push_back(PairArrTy); // The pairs
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StructType *RootList = StructType::get(ST);
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if (MainRootRecordType)
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return RootList;
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assert(NumRoots == 0 && "The main struct type should have zero entries!");
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cast<OpaqueType>((Type*)RootListH.get())->refineAbstractTypeTo(RootList);
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MainRootRecordType = RootListH;
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return cast<StructType>(RootListH.get());
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}
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/// doInitialization - If this module uses the GC intrinsics, find them now. If
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/// not, this pass does not do anything.
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bool LowerGC::doInitialization(Module &M) {
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GCRootInt = M.getNamedFunction("llvm.gcroot");
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GCReadInt = M.getNamedFunction("llvm.gcread");
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GCWriteInt = M.getNamedFunction("llvm.gcwrite");
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if (!GCRootInt && !GCReadInt && !GCWriteInt) return false;
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2006-12-31 13:48:39 +08:00
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PointerType *VoidPtr = PointerType::get(Type::Int8Ty);
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2004-05-24 05:19:22 +08:00
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PointerType *VoidPtrPtr = PointerType::get(VoidPtr);
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// If the program is using read/write barriers, find the implementations of
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// them from the GC runtime library.
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if (GCReadInt) // Make: sbyte* %llvm_gc_read(sbyte**)
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2005-10-23 12:37:20 +08:00
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GCRead = M.getOrInsertFunction("llvm_gc_read", VoidPtr, VoidPtr, VoidPtrPtr,
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(Type *)0);
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2004-05-24 05:19:22 +08:00
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if (GCWriteInt) // Make: void %llvm_gc_write(sbyte*, sbyte**)
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GCWrite = M.getOrInsertFunction("llvm_gc_write", Type::VoidTy,
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2005-10-23 12:37:20 +08:00
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VoidPtr, VoidPtr, VoidPtrPtr, (Type *)0);
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2004-05-24 05:19:22 +08:00
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// If the program has GC roots, get or create the global root list.
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if (GCRootInt) {
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const StructType *RootListTy = getRootRecordType(0);
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const Type *PRLTy = PointerType::get(RootListTy);
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M.addTypeName("llvm_gc_root_ty", RootListTy);
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// Get the root chain if it already exists.
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RootChain = M.getGlobalVariable("llvm_gc_root_chain", PRLTy);
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if (RootChain == 0) {
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// If the root chain does not exist, insert a new one with linkonce
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// linkage!
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2005-04-22 07:48:37 +08:00
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RootChain = new GlobalVariable(PRLTy, false,
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2004-10-27 11:55:24 +08:00
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GlobalValue::LinkOnceLinkage,
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Constant::getNullValue(PRLTy),
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2004-05-24 05:19:22 +08:00
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"llvm_gc_root_chain", &M);
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} else if (RootChain->hasExternalLinkage() && RootChain->isExternal()) {
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RootChain->setInitializer(Constant::getNullValue(PRLTy));
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RootChain->setLinkage(GlobalValue::LinkOnceLinkage);
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}
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}
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return true;
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}
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/// Coerce - If the specified operand number of the specified instruction does
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2006-11-27 09:05:10 +08:00
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/// not have the specified type, insert a cast. Note that this only uses BitCast
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/// because the types involved are all pointers.
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2004-05-24 05:19:22 +08:00
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static void Coerce(Instruction *I, unsigned OpNum, Type *Ty) {
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if (I->getOperand(OpNum)->getType() != Ty) {
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2005-04-22 07:48:37 +08:00
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if (Constant *C = dyn_cast<Constant>(I->getOperand(OpNum)))
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2006-11-27 09:05:10 +08:00
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I->setOperand(OpNum, ConstantExpr::getBitCast(C, Ty));
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2004-05-24 05:19:22 +08:00
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else {
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2006-12-13 08:50:17 +08:00
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CastInst *CI = new BitCastInst(I->getOperand(OpNum), Ty, "", I);
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2004-10-18 22:38:48 +08:00
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I->setOperand(OpNum, CI);
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2004-05-24 05:19:22 +08:00
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}
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}
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}
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/// runOnFunction - If the program is using GC intrinsics, replace any
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/// read/write intrinsics with the appropriate read/write barrier calls, then
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2005-04-22 07:48:37 +08:00
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/// inline them. Finally, build the data structures for
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2004-05-24 05:19:22 +08:00
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bool LowerGC::runOnFunction(Function &F) {
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// Quick exit for programs that are not using GC mechanisms.
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if (!GCRootInt && !GCReadInt && !GCWriteInt) return false;
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2006-12-31 13:48:39 +08:00
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PointerType *VoidPtr = PointerType::get(Type::Int8Ty);
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2004-05-24 05:19:22 +08:00
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PointerType *VoidPtrPtr = PointerType::get(VoidPtr);
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// If there are read/write barriers in the program, perform a quick pass over
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// the function eliminating them. While we are at it, remember where we see
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// calls to llvm.gcroot.
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std::vector<CallInst*> GCRoots;
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std::vector<CallInst*> NormalCalls;
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bool MadeChange = false;
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for (Function::iterator BB = F.begin(), E = F.end(); BB != E; ++BB)
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for (BasicBlock::iterator II = BB->begin(), E = BB->end(); II != E;)
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if (CallInst *CI = dyn_cast<CallInst>(II++)) {
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if (!CI->getCalledFunction() ||
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!CI->getCalledFunction()->getIntrinsicID())
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NormalCalls.push_back(CI); // Remember all normal function calls.
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if (Function *F = CI->getCalledFunction())
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if (F == GCRootInt)
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GCRoots.push_back(CI);
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else if (F == GCReadInt || F == GCWriteInt) {
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if (F == GCWriteInt) {
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// Change a llvm.gcwrite call to call llvm_gc_write instead.
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CI->setOperand(0, GCWrite);
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// Insert casts of the operands as needed.
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Coerce(CI, 1, VoidPtr);
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2004-07-22 13:51:13 +08:00
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Coerce(CI, 2, VoidPtr);
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Coerce(CI, 3, VoidPtrPtr);
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2004-05-24 05:19:22 +08:00
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} else {
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2004-07-22 13:51:13 +08:00
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Coerce(CI, 1, VoidPtr);
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Coerce(CI, 2, VoidPtrPtr);
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2004-05-24 05:19:22 +08:00
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if (CI->getType() == VoidPtr) {
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CI->setOperand(0, GCRead);
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} else {
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// Create a whole new call to replace the old one.
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2005-04-22 07:48:37 +08:00
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CallInst *NC = new CallInst(GCRead, CI->getOperand(1),
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2004-07-22 13:51:13 +08:00
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CI->getOperand(2),
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2004-05-24 05:19:22 +08:00
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CI->getName(), CI);
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2006-11-27 09:05:10 +08:00
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// These functions only deal with ptr type results so BitCast
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// is the correct kind of cast (no-op cast).
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Value *NV = new BitCastInst(NC, CI->getType(), "", CI);
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2004-05-24 05:19:22 +08:00
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CI->replaceAllUsesWith(NV);
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BB->getInstList().erase(CI);
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CI = NC;
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}
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}
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MadeChange = true;
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}
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}
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2005-04-22 07:48:37 +08:00
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2004-05-24 05:19:22 +08:00
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// If there are no GC roots in this function, then there is no need to create
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// a GC list record for it.
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if (GCRoots.empty()) return MadeChange;
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// Okay, there are GC roots in this function. On entry to the function, add a
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// record to the llvm_gc_root_chain, and remove it on exit.
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// Create the alloca, and zero it out.
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const StructType *RootListTy = getRootRecordType(GCRoots.size());
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AllocaInst *AI = new AllocaInst(RootListTy, 0, "gcroots", F.begin()->begin());
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// Insert the memset call after all of the allocas in the function.
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BasicBlock::iterator IP = AI;
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while (isa<AllocaInst>(IP)) ++IP;
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2006-12-31 13:48:39 +08:00
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Constant *Zero = ConstantInt::get(Type::Int32Ty, 0);
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Constant *One = ConstantInt::get(Type::Int32Ty, 1);
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2004-05-24 05:19:22 +08:00
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// Get a pointer to the prev pointer.
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std::vector<Value*> Par;
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Par.push_back(Zero);
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Par.push_back(Zero);
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Value *PrevPtrPtr = new GetElementPtrInst(AI, Par, "prevptrptr", IP);
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// Load the previous pointer.
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Value *PrevPtr = new LoadInst(RootChain, "prevptr", IP);
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// Store the previous pointer into the prevptrptr
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new StoreInst(PrevPtr, PrevPtrPtr, IP);
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// Set the number of elements in this record.
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2006-12-31 13:48:39 +08:00
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Par[1] = ConstantInt::get(Type::Int32Ty, 1);
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2004-05-24 05:19:22 +08:00
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Value *NumEltsPtr = new GetElementPtrInst(AI, Par, "numeltsptr", IP);
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2006-12-31 13:48:39 +08:00
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new StoreInst(ConstantInt::get(Type::Int32Ty, GCRoots.size()), NumEltsPtr,IP);
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2004-05-24 05:19:22 +08:00
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2006-12-31 13:48:39 +08:00
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Par[1] = ConstantInt::get(Type::Int32Ty, 2);
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2004-05-24 05:19:22 +08:00
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Par.resize(4);
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const PointerType *PtrLocTy =
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cast<PointerType>(GCRootInt->getFunctionType()->getParamType(0));
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Constant *Null = ConstantPointerNull::get(PtrLocTy);
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// Initialize all of the gcroot records now, and eliminate them as we go.
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for (unsigned i = 0, e = GCRoots.size(); i != e; ++i) {
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// Initialize the meta-data pointer.
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2006-12-31 13:48:39 +08:00
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Par[2] = ConstantInt::get(Type::Int32Ty, i);
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2004-05-24 05:19:22 +08:00
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Par[3] = One;
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Value *MetaDataPtr = new GetElementPtrInst(AI, Par, "MetaDataPtr", IP);
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2004-07-18 08:29:57 +08:00
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assert(isa<Constant>(GCRoots[i]->getOperand(2)) && "Must be a constant");
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2004-05-24 05:19:22 +08:00
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new StoreInst(GCRoots[i]->getOperand(2), MetaDataPtr, IP);
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// Initialize the root pointer to null on entry to the function.
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Par[3] = Zero;
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Value *RootPtrPtr = new GetElementPtrInst(AI, Par, "RootEntPtr", IP);
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new StoreInst(Null, RootPtrPtr, IP);
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2005-04-22 07:48:37 +08:00
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2004-05-24 05:19:22 +08:00
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// Each occurrance of the llvm.gcroot intrinsic now turns into an
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// initialization of the slot with the address and a zeroing out of the
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// address specified.
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new StoreInst(Constant::getNullValue(PtrLocTy->getElementType()),
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GCRoots[i]->getOperand(1), GCRoots[i]);
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new StoreInst(GCRoots[i]->getOperand(1), RootPtrPtr, GCRoots[i]);
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GCRoots[i]->getParent()->getInstList().erase(GCRoots[i]);
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}
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// Now that the record is all initialized, store the pointer into the global
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// pointer.
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2006-11-27 09:05:10 +08:00
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Value *C = new BitCastInst(AI, PointerType::get(MainRootRecordType), "", IP);
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2004-05-24 05:19:22 +08:00
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new StoreInst(C, RootChain, IP);
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// On exit from the function we have to remove the entry from the GC root
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// chain. Doing this is straight-forward for return and unwind instructions:
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// just insert the appropriate copy.
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for (Function::iterator BB = F.begin(), E = F.end(); BB != E; ++BB)
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if (isa<UnwindInst>(BB->getTerminator()) ||
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isa<ReturnInst>(BB->getTerminator())) {
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// We could reuse the PrevPtr loaded on entry to the function, but this
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// would make the value live for the whole function, which is probably a
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// bad idea. Just reload the value out of our stack entry.
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PrevPtr = new LoadInst(PrevPtrPtr, "prevptr", BB->getTerminator());
|
|
|
|
new StoreInst(PrevPtr, RootChain, BB->getTerminator());
|
|
|
|
}
|
|
|
|
|
|
|
|
// If an exception is thrown from a callee we have to make sure to
|
|
|
|
// unconditionally take the record off the stack. For this reason, we turn
|
|
|
|
// all call instructions into invoke whose cleanup pops the entry off the
|
|
|
|
// stack. We only insert one cleanup block, which is shared by all invokes.
|
|
|
|
if (!NormalCalls.empty()) {
|
|
|
|
// Create the shared cleanup block.
|
|
|
|
BasicBlock *Cleanup = new BasicBlock("gc_cleanup", &F);
|
|
|
|
UnwindInst *UI = new UnwindInst(Cleanup);
|
|
|
|
PrevPtr = new LoadInst(PrevPtrPtr, "prevptr", UI);
|
|
|
|
new StoreInst(PrevPtr, RootChain, UI);
|
2005-04-22 07:48:37 +08:00
|
|
|
|
2004-05-24 05:19:22 +08:00
|
|
|
// Loop over all of the function calls, turning them into invokes.
|
|
|
|
while (!NormalCalls.empty()) {
|
|
|
|
CallInst *CI = NormalCalls.back();
|
|
|
|
BasicBlock *CBB = CI->getParent();
|
|
|
|
NormalCalls.pop_back();
|
|
|
|
|
|
|
|
// Split the basic block containing the function call.
|
|
|
|
BasicBlock *NewBB = CBB->splitBasicBlock(CI, CBB->getName()+".cont");
|
|
|
|
|
|
|
|
// Remove the unconditional branch inserted at the end of the CBB.
|
|
|
|
CBB->getInstList().pop_back();
|
|
|
|
NewBB->getInstList().remove(CI);
|
2005-04-22 07:48:37 +08:00
|
|
|
|
2004-05-24 05:19:22 +08:00
|
|
|
// Create a new invoke instruction.
|
|
|
|
Value *II = new InvokeInst(CI->getCalledValue(), NewBB, Cleanup,
|
|
|
|
std::vector<Value*>(CI->op_begin()+1,
|
|
|
|
CI->op_end()),
|
|
|
|
CI->getName(), CBB);
|
|
|
|
CI->replaceAllUsesWith(II);
|
|
|
|
delete CI;
|
|
|
|
}
|
|
|
|
}
|
|
|
|
|
|
|
|
return true;
|
|
|
|
}
|