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80-column violation + trailing whitespace.
git-svn-id: https://llvm.org/svn/llvm-project/llvm/trunk@65936 91177308-0d34-0410-b5e6-96231b3b80d8
This commit is contained in:
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@ -1,4 +1,4 @@
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//===- lib/Linker/LinkModules.cpp - Module Linker Implementation ----------===//
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//===- lib/Linker/LinkModules.cpp - Module Linker Implementation ---------===//
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//
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// The LLVM Compiler Infrastructure
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//
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@ -75,7 +75,7 @@ namespace {
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class LinkerTypeMap : public AbstractTypeUser {
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typedef DenseMap<const Type*, PATypeHolder> TheMapTy;
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TheMapTy TheMap;
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LinkerTypeMap(const LinkerTypeMap&); // DO NOT IMPLEMENT
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void operator=(const LinkerTypeMap&); // DO NOT IMPLEMENT
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public:
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@ -85,7 +85,7 @@ public:
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E = TheMap.end(); I != E; ++I)
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I->first->removeAbstractTypeUser(this);
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}
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/// lookup - Return the value for the specified type or null if it doesn't
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/// exist.
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const Type *lookup(const Type *Ty) const {
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@ -93,7 +93,7 @@ public:
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if (I != TheMap.end()) return I->second;
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return 0;
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}
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/// erase - Remove the specified type, returning true if it was in the set.
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bool erase(const Type *Ty) {
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if (!TheMap.erase(Ty))
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@ -102,7 +102,7 @@ public:
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Ty->removeAbstractTypeUser(this);
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return true;
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}
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/// insert - This returns true if the pointer was new to the set, false if it
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/// was already in the set.
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bool insert(const Type *Src, const Type *Dst) {
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@ -112,7 +112,7 @@ public:
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Src->addAbstractTypeUser(this);
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return true;
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}
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protected:
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/// refineAbstractType - The callback method invoked when an abstract type is
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/// resolved to another type. An object must override this method to update
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@ -122,7 +122,7 @@ protected:
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const Type *NewTy) {
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TheMapTy::iterator I = TheMap.find(OldTy);
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const Type *DstTy = I->second;
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TheMap.erase(I);
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if (OldTy->isAbstract())
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OldTy->removeAbstractTypeUser(this);
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@ -131,7 +131,7 @@ protected:
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if (NewTy->isAbstract())
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insert(NewTy, DstTy);
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}
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/// The other case which AbstractTypeUsers must be aware of is when a type
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/// makes the transition from being abstract (where it has clients on it's
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/// AbstractTypeUsers list) to concrete (where it does not). This method
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@ -140,7 +140,7 @@ protected:
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TheMap.erase(AbsTy);
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AbsTy->removeAbstractTypeUser(this);
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}
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// for debugging...
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virtual void dump() const {
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cerr << "AbstractTypeSet!\n";
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@ -167,7 +167,7 @@ static bool RecursiveResolveTypesI(const Type *DstTy, const Type *SrcTy,
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// If neither type is abstract, then they really are just different types.
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if (!DstTy->isAbstract() && !SrcTy->isAbstract())
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return true;
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// Otherwise, resolve the used type used by this derived type...
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switch (DstTy->getTypeID()) {
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default:
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@ -178,7 +178,7 @@ static bool RecursiveResolveTypesI(const Type *DstTy, const Type *SrcTy,
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if (DstFT->isVarArg() != SrcFT->isVarArg() ||
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DstFT->getNumContainedTypes() != SrcFT->getNumContainedTypes())
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return true;
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// Use TypeHolder's so recursive resolution won't break us.
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PATypeHolder ST(SrcFT), DT(DstFT);
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for (unsigned i = 0, e = DstFT->getNumContainedTypes(); i != e; ++i) {
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@ -193,7 +193,7 @@ static bool RecursiveResolveTypesI(const Type *DstTy, const Type *SrcTy,
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const StructType *SrcST = cast<StructType>(SrcTy);
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if (DstST->getNumContainedTypes() != SrcST->getNumContainedTypes())
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return true;
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PATypeHolder ST(SrcST), DT(DstST);
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for (unsigned i = 0, e = DstST->getNumContainedTypes(); i != e; ++i) {
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const Type *SE = ST->getContainedType(i), *DE = DT->getContainedType(i);
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@ -219,10 +219,10 @@ static bool RecursiveResolveTypesI(const Type *DstTy, const Type *SrcTy,
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case Type::PointerTyID: {
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const PointerType *DstPT = cast<PointerType>(DstTy);
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const PointerType *SrcPT = cast<PointerType>(SrcTy);
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if (DstPT->getAddressSpace() != SrcPT->getAddressSpace())
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return true;
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// If this is a pointer type, check to see if we have already seen it. If
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// so, we are in a recursive branch. Cut off the search now. We cannot use
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// an associative container for this search, because the type pointers (keys
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@ -230,7 +230,7 @@ static bool RecursiveResolveTypesI(const Type *DstTy, const Type *SrcTy,
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if (SrcPT->isAbstract())
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if (const Type *ExistingDestTy = Pointers.lookup(SrcPT))
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return ExistingDestTy != DstPT;
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if (DstPT->isAbstract())
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if (const Type *ExistingSrcTy = Pointers.lookup(DstPT))
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return ExistingSrcTy != SrcPT;
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@ -240,7 +240,7 @@ static bool RecursiveResolveTypesI(const Type *DstTy, const Type *SrcTy,
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Pointers.insert(DstPT, SrcPT);
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if (SrcPT->isAbstract())
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Pointers.insert(SrcPT, DstPT);
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return RecursiveResolveTypesI(DstPT->getElementType(),
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SrcPT->getElementType(), Pointers);
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}
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@ -350,7 +350,7 @@ static void PrintMap(const std::map<const Value*, Value*> &M) {
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static Value *RemapOperand(const Value *In,
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std::map<const Value*, Value*> &ValueMap) {
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std::map<const Value*,Value*>::const_iterator I = ValueMap.find(In);
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if (I != ValueMap.end())
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if (I != ValueMap.end())
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return I->second;
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// Check to see if it's a constant that we are interested in transforming.
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@ -389,13 +389,13 @@ static Value *RemapOperand(const Value *In,
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} else if (isa<InlineAsm>(In)) {
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Result = const_cast<Value*>(In);
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}
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// Cache the mapping in our local map structure
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if (Result) {
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ValueMap[In] = Result;
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return Result;
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}
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#ifndef NDEBUG
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cerr << "LinkModules ValueMap: \n";
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PrintMap(ValueMap);
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@ -426,7 +426,7 @@ static void ForceRenaming(GlobalValue *GV, const std::string &Name) {
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}
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/// CopyGVAttributes - copy additional attributes (those not needed to construct
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/// a GlobalValue) from the SrcGV to the DestGV.
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/// a GlobalValue) from the SrcGV to the DestGV.
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static void CopyGVAttributes(GlobalValue *DestGV, const GlobalValue *SrcGV) {
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// Use the maximum alignment, rather than just copying the alignment of SrcGV.
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unsigned Alignment = std::max(DestGV->getAlignment(), SrcGV->getAlignment());
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@ -458,7 +458,7 @@ static bool GetLinkageResult(GlobalValue *Dest, const GlobalValue *Src,
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if (Dest->isDeclaration()) {
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LinkFromSrc = true;
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LT = Src->getLinkage();
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}
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}
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} else if (Dest->hasExternalWeakLinkage()) {
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//If the Dest is weak, use the source linkage
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LinkFromSrc = true;
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@ -527,7 +527,7 @@ static bool LinkGlobals(Module *Dest, const Module *Src,
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std::multimap<std::string, GlobalVariable *> &AppendingVars,
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std::string *Err) {
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ValueSymbolTable &DestSymTab = Dest->getValueSymbolTable();
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// Loop over all of the globals in the src module, mapping them over as we go
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for (Module::const_global_iterator I = Src->global_begin(),
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E = Src->global_end(); I != E; ++I) {
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@ -539,12 +539,12 @@ static bool LinkGlobals(Module *Dest, const Module *Src,
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if (SGV->hasName() && !SGV->hasLocalLinkage())
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DGV = cast_or_null<GlobalValue>(DestSymTab.lookup(SGV->getNameStart(),
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SGV->getNameEnd()));
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// If we found a global with the same name in the dest module, but it has
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// internal linkage, we are really not doing any linkage here.
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if (DGV && DGV->hasLocalLinkage())
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DGV = 0;
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// If types don't agree due to opaque types, try to resolve them.
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if (DGV && DGV->getType() != SGV->getType())
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RecursiveResolveTypes(SGV->getType(), DGV->getType());
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@ -584,12 +584,12 @@ static bool LinkGlobals(Module *Dest, const Module *Src,
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AppendingVars.insert(std::make_pair(SGV->getName(), NewDGV));
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continue;
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}
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// If the visibilities of the symbols disagree and the destination is a
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// prototype, take the visibility of its input.
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if (DGV->isDeclaration())
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DGV->setVisibility(SGV->getVisibility());
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if (DGV->hasAppendingLinkage()) {
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// No linking is performed yet. Just insert a new copy of the global, and
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// keep track of the fact that it is an appending variable in the
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@ -613,12 +613,12 @@ static bool LinkGlobals(Module *Dest, const Module *Src,
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AppendingVars.insert(std::make_pair(SGV->getName(), NewDGV));
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continue;
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}
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if (LinkFromSrc) {
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if (isa<GlobalAlias>(DGV))
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return Error(Err, "Global-Alias Collision on '" + SGV->getName() +
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"': symbol multiple defined");
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// If the types don't match, and if we are to link from the source, nuke
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// DGV and create a new one of the appropriate type. Note that the thing
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// we are replacing may be a function (if a prototype, weak, etc) or a
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@ -627,11 +627,11 @@ static bool LinkGlobals(Module *Dest, const Module *Src,
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new GlobalVariable(SGV->getType()->getElementType(), SGV->isConstant(),
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NewLinkage, /*init*/0, DGV->getName(), Dest, false,
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SGV->getType()->getAddressSpace());
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// Propagate alignment, section, and visibility info.
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CopyGVAttributes(NewDGV, SGV);
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DGV->replaceAllUsesWith(ConstantExpr::getBitCast(NewDGV, DGV->getType()));
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// DGV will conflict with NewDGV because they both had the same
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// name. We must erase this now so ForceRenaming doesn't assert
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// because DGV might not have internal linkage.
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@ -645,18 +645,18 @@ static bool LinkGlobals(Module *Dest, const Module *Src,
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// symbol, DGV must be an existing global with internal linkage. Rename.
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if (NewDGV->getName() != SGV->getName() && !NewDGV->hasLocalLinkage())
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ForceRenaming(NewDGV, SGV->getName());
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// Inherit const as appropriate.
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NewDGV->setConstant(SGV->isConstant());
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// Make sure to remember this mapping.
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ValueMap[SGV] = NewDGV;
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continue;
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}
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// Not "link from source", keep the one in the DestModule and remap the
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// input onto it.
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// Special case for const propagation.
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if (GlobalVariable *DGVar = dyn_cast<GlobalVariable>(DGV))
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if (DGVar->isDeclaration() && SGV->isConstant() && !DGVar->isConstant())
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@ -671,10 +671,10 @@ static bool LinkGlobals(Module *Dest, const Module *Src,
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return Error(Err, "Global-Alias Collision on '" + SGV->getName() +
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"': symbol multiple defined");
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}
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// Set calculated linkage
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DGV->setLinkage(NewLinkage);
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// Make sure to remember this mapping...
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ValueMap[SGV] = ConstantExpr::getBitCast(DGV, SGV->getType());
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}
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@ -906,18 +906,18 @@ static bool LinkFunctionProtos(Module *Dest, const Module *Src,
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std::map<const Value*, Value*> &ValueMap,
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std::string *Err) {
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ValueSymbolTable &DestSymTab = Dest->getValueSymbolTable();
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// Loop over all of the functions in the src module, mapping them over
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for (Module::const_iterator I = Src->begin(), E = Src->end(); I != E; ++I) {
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const Function *SF = I; // SrcFunction
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GlobalValue *DGV = 0;
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// Check to see if may have to link the function with the global, alias or
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// function.
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if (SF->hasName() && !SF->hasLocalLinkage())
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DGV = cast_or_null<GlobalValue>(DestSymTab.lookup(SF->getNameStart(),
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SF->getNameEnd()));
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// If we found a global with the same name in the dest module, but it has
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// internal linkage, we are really not doing any linkage here.
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if (DGV && DGV->hasLocalLinkage())
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@ -931,7 +931,7 @@ static bool LinkFunctionProtos(Module *Dest, const Module *Src,
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bool LinkFromSrc = false;
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if (GetLinkageResult(DGV, SF, NewLinkage, LinkFromSrc, Err))
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return true;
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// If there is no linkage to be performed, just bring over SF without
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// modifying it.
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if (DGV == 0) {
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@ -941,61 +941,61 @@ static bool LinkFunctionProtos(Module *Dest, const Module *Src,
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SF->getLinkage(),
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SF->getName(), Dest);
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CopyGVAttributes(NewDF, SF);
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// If the LLVM runtime renamed the function, but it is an externally
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// visible symbol, DF must be an existing function with internal linkage.
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// Rename it.
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if (!NewDF->hasLocalLinkage() && NewDF->getName() != SF->getName())
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ForceRenaming(NewDF, SF->getName());
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// ... and remember this mapping...
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ValueMap[SF] = NewDF;
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continue;
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}
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// If the visibilities of the symbols disagree and the destination is a
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// prototype, take the visibility of its input.
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if (DGV->isDeclaration())
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DGV->setVisibility(SF->getVisibility());
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if (LinkFromSrc) {
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if (isa<GlobalAlias>(DGV))
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return Error(Err, "Function-Alias Collision on '" + SF->getName() +
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"': symbol multiple defined");
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// We have a definition of the same name but different type in the
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// source module. Copy the prototype to the destination and replace
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// uses of the destination's prototype with the new prototype.
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Function *NewDF = Function::Create(SF->getFunctionType(), NewLinkage,
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SF->getName(), Dest);
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CopyGVAttributes(NewDF, SF);
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// Any uses of DF need to change to NewDF, with cast
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DGV->replaceAllUsesWith(ConstantExpr::getBitCast(NewDF, DGV->getType()));
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// DF will conflict with NewDF because they both had the same. We must
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// erase this now so ForceRenaming doesn't assert because DF might
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// not have internal linkage.
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// not have internal linkage.
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if (GlobalVariable *Var = dyn_cast<GlobalVariable>(DGV))
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Var->eraseFromParent();
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else
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cast<Function>(DGV)->eraseFromParent();
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// If the symbol table renamed the function, but it is an externally
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// visible symbol, DF must be an existing function with internal
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// visible symbol, DF must be an existing function with internal
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// linkage. Rename it.
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if (NewDF->getName() != SF->getName() && !NewDF->hasLocalLinkage())
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ForceRenaming(NewDF, SF->getName());
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// Remember this mapping so uses in the source module get remapped
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// later by RemapOperand.
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ValueMap[SF] = NewDF;
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continue;
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}
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// Not "link from source", keep the one in the DestModule and remap the
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// input onto it.
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if (isa<GlobalAlias>(DGV)) {
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// The only valid mappings are:
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// - SF is external declaration, which is effectively a no-op.
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@ -1122,12 +1122,12 @@ static bool LinkAppendingVars(Module *M,
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if (G1->getSection() != G2->getSection())
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return Error(ErrorMsg,
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"Appending variables with different section name need to be linked!");
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unsigned NewSize = T1->getNumElements() + T2->getNumElements();
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ArrayType *NewType = ArrayType::get(T1->getElementType(), NewSize);
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G1->setName(""); // Clear G1's name in case of a conflict!
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// Create the new global variable...
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GlobalVariable *NG =
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new GlobalVariable(NewType, G1->isConstant(), G1->getLinkage(),
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@ -1228,7 +1228,7 @@ Linker::LinkModules(Module *Dest, Module *Src, std::string *ErrorMsg) {
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// Copy the target triple from the source to dest if the dest's is empty.
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if (Dest->getTargetTriple().empty() && !Src->getTargetTriple().empty())
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Dest->setTargetTriple(Src->getTargetTriple());
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if (!Src->getDataLayout().empty() && !Dest->getDataLayout().empty() &&
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Src->getDataLayout() != Dest->getDataLayout())
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cerr << "WARNING: Linking two modules of different data layouts!\n";
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@ -1244,18 +1244,18 @@ Linker::LinkModules(Module *Dest, Module *Src, std::string *ErrorMsg) {
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Dest->setModuleInlineAsm(Dest->getModuleInlineAsm()+"\n"+
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Src->getModuleInlineAsm());
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}
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// Update the destination module's dependent libraries list with the libraries
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// from the source module. There's no opportunity for duplicates here as the
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// Module ensures that duplicate insertions are discarded.
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for (Module::lib_iterator SI = Src->lib_begin(), SE = Src->lib_end();
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SI != SE; ++SI)
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SI != SE; ++SI)
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Dest->addLibrary(*SI);
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// LinkTypes - Go through the symbol table of the Src module and see if any
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// types are named in the src module that are not named in the Dst module.
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// Make sure there are no type name conflicts.
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if (LinkTypes(Dest, Src, ErrorMsg))
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if (LinkTypes(Dest, Src, ErrorMsg))
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return true;
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// ValueMap - Mapping of values from what they used to be in Src, to what they
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