forked from OSchip/llvm-project
parent
a03c599666
commit
ed6dc3730a
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@ -43,12 +43,12 @@ class TypeMapTy : public ValueMapTypeRemapper {
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/// we speculatively add types to MappedTypes, but keep track of them here in
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/// case we need to roll back.
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SmallVector<Type*, 16> SpeculativeTypes;
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/// SrcDefinitionsToResolve - This is a list of non-opaque structs in the
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/// source module that are mapped to an opaque struct in the destination
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/// module.
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SmallVector<StructType*, 16> SrcDefinitionsToResolve;
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/// DstResolvedOpaqueTypes - This is the set of opaque types in the
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/// destination modules who are getting a body from the source module.
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SmallPtrSet<StructType*, 16> DstResolvedOpaqueTypes;
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@ -65,7 +65,7 @@ public:
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/// linkDefinedTypeBodies - Produce a body for an opaque type in the dest
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/// module from a type definition in the source module.
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void linkDefinedTypeBodies();
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/// get - Return the mapped type to use for the specified input type from the
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/// source module.
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Type *get(Type *SrcTy);
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@ -90,7 +90,7 @@ private:
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Type *remapType(Type *SrcTy) override {
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return get(SrcTy);
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}
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bool areTypesIsomorphic(Type *DstTy, Type *SrcTy);
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};
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}
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@ -98,12 +98,12 @@ private:
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void TypeMapTy::addTypeMapping(Type *DstTy, Type *SrcTy) {
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Type *&Entry = MappedTypes[SrcTy];
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if (Entry) return;
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if (DstTy == SrcTy) {
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Entry = DstTy;
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return;
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}
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// Check to see if these types are recursively isomorphic and establish a
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// mapping between them if so.
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if (!areTypesIsomorphic(DstTy, SrcTy)) {
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@ -132,7 +132,7 @@ bool TypeMapTy::areTypesIsomorphic(Type *DstTy, Type *SrcTy) {
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Entry = DstTy;
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return true;
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}
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// Okay, we have two types with identical kinds that we haven't seen before.
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// If this is an opaque struct type, special case it.
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@ -158,18 +158,18 @@ bool TypeMapTy::areTypesIsomorphic(Type *DstTy, Type *SrcTy) {
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return true;
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}
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}
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// If the number of subtypes disagree between the two types, then we fail.
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if (SrcTy->getNumContainedTypes() != DstTy->getNumContainedTypes())
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return false;
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// Fail if any of the extra properties (e.g. array size) of the type disagree.
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if (isa<IntegerType>(DstTy))
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return false; // bitwidth disagrees.
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if (PointerType *PT = dyn_cast<PointerType>(DstTy)) {
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if (PT->getAddressSpace() != cast<PointerType>(SrcTy)->getAddressSpace())
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return false;
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} else if (FunctionType *FT = dyn_cast<FunctionType>(DstTy)) {
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if (FT->isVarArg() != cast<FunctionType>(SrcTy)->isVarArg())
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return false;
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@ -195,7 +195,7 @@ bool TypeMapTy::areTypesIsomorphic(Type *DstTy, Type *SrcTy) {
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if (!areTypesIsomorphic(DstTy->getContainedType(i),
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SrcTy->getContainedType(i)))
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return false;
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// If everything seems to have lined up, then everything is great.
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return true;
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}
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@ -205,31 +205,31 @@ bool TypeMapTy::areTypesIsomorphic(Type *DstTy, Type *SrcTy) {
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void TypeMapTy::linkDefinedTypeBodies() {
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SmallVector<Type*, 16> Elements;
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SmallString<16> TmpName;
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// Note that processing entries in this loop (calling 'get') can add new
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// entries to the SrcDefinitionsToResolve vector.
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while (!SrcDefinitionsToResolve.empty()) {
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StructType *SrcSTy = SrcDefinitionsToResolve.pop_back_val();
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StructType *DstSTy = cast<StructType>(MappedTypes[SrcSTy]);
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// TypeMap is a many-to-one mapping, if there were multiple types that
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// provide a body for DstSTy then previous iterations of this loop may have
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// already handled it. Just ignore this case.
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if (!DstSTy->isOpaque()) continue;
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assert(!SrcSTy->isOpaque() && "Not resolving a definition?");
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// Map the body of the source type over to a new body for the dest type.
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Elements.resize(SrcSTy->getNumElements());
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for (unsigned i = 0, e = Elements.size(); i != e; ++i)
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Elements[i] = getImpl(SrcSTy->getElementType(i));
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DstSTy->setBody(Elements, SrcSTy->isPacked());
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// If DstSTy has no name or has a longer name than STy, then viciously steal
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// STy's name.
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if (!SrcSTy->hasName()) continue;
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StringRef SrcName = SrcSTy->getName();
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if (!DstSTy->hasName() || DstSTy->getName().size() > SrcName.size()) {
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TmpName.insert(TmpName.end(), SrcName.begin(), SrcName.end());
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SrcSTy->setName("");
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@ -237,7 +237,7 @@ void TypeMapTy::linkDefinedTypeBodies() {
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TmpName.clear();
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}
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}
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DstResolvedOpaqueTypes.clear();
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}
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@ -245,7 +245,7 @@ void TypeMapTy::linkDefinedTypeBodies() {
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/// source module.
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Type *TypeMapTy::get(Type *Ty) {
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Type *Result = getImpl(Ty);
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// If this caused a reference to any struct type, resolve it before returning.
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if (!SrcDefinitionsToResolve.empty())
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linkDefinedTypeBodies();
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@ -257,7 +257,7 @@ Type *TypeMapTy::getImpl(Type *Ty) {
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// If we already have an entry for this type, return it.
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Type **Entry = &MappedTypes[Ty];
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if (*Entry) return *Entry;
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// If this is not a named struct type, then just map all of the elements and
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// then rebuild the type from inside out.
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if (!isa<StructType>(Ty) || cast<StructType>(Ty)->isLiteral()) {
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@ -265,7 +265,7 @@ Type *TypeMapTy::getImpl(Type *Ty) {
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// true for the anonymous {} struct, things like 'float', integers, etc.
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if (Ty->getNumContainedTypes() == 0)
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return *Entry = Ty;
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// Remap all of the elements, keeping track of whether any of them change.
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bool AnyChange = false;
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SmallVector<Type*, 4> ElementTypes;
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@ -274,23 +274,23 @@ Type *TypeMapTy::getImpl(Type *Ty) {
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ElementTypes[i] = getImpl(Ty->getContainedType(i));
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AnyChange |= ElementTypes[i] != Ty->getContainedType(i);
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}
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// If we found our type while recursively processing stuff, just use it.
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Entry = &MappedTypes[Ty];
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if (*Entry) return *Entry;
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// If all of the element types mapped directly over, then the type is usable
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// as-is.
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if (!AnyChange)
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return *Entry = Ty;
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// Otherwise, rebuild a modified type.
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switch (Ty->getTypeID()) {
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default: llvm_unreachable("unknown derived type to remap");
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case Type::ArrayTyID:
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return *Entry = ArrayType::get(ElementTypes[0],
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cast<ArrayType>(Ty)->getNumElements());
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case Type::VectorTyID:
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case Type::VectorTyID:
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return *Entry = VectorType::get(ElementTypes[0],
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cast<VectorType>(Ty)->getNumElements());
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case Type::PointerTyID:
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@ -331,7 +331,7 @@ Type *TypeMapTy::getImpl(Type *Ty) {
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// and is not required for the prettiness of the linked module, we just skip
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// it and always rebuild a type here.
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StructType *STy = cast<StructType>(Ty);
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// If the type is opaque, we can just use it directly.
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if (STy->isOpaque()) {
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// A named structure type from src module is used. Add it to the Set of
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@ -339,7 +339,7 @@ Type *TypeMapTy::getImpl(Type *Ty) {
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DstStructTypesSet.insert(STy);
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return *Entry = STy;
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}
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// Otherwise we create a new type and resolve its body later. This will be
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// resolved by the top level of get().
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SrcDefinitionsToResolve.push_back(STy);
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@ -379,8 +379,8 @@ namespace {
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/// function, which is the entrypoint for this file.
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class ModuleLinker {
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Module *DstM, *SrcM;
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TypeMapTy TypeMap;
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TypeMapTy TypeMap;
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ValueMaterializerTy ValMaterializer;
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/// ValueMap - Mapping of values from what they used to be in Src, to what
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@ -388,25 +388,25 @@ namespace {
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/// some overhead due to the use of Value handles which the Linker doesn't
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/// actually need, but this allows us to reuse the ValueMapper code.
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ValueToValueMapTy ValueMap;
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struct AppendingVarInfo {
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GlobalVariable *NewGV; // New aggregate global in dest module.
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Constant *DstInit; // Old initializer from dest module.
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Constant *SrcInit; // Old initializer from src module.
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};
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std::vector<AppendingVarInfo> AppendingVars;
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unsigned Mode; // Mode to treat source module.
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// Set of items not to link in from source.
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SmallPtrSet<const Value*, 16> DoNotLinkFromSource;
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// Vector of functions to lazily link in.
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std::vector<Function*> LazilyLinkFunctions;
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bool SuppressWarnings;
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public:
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std::string ErrorMsg;
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SuppressWarnings(SuppressWarnings) {}
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bool run();
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private:
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/// emitError - Helper method for setting a message and returning an error
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/// code.
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@ -425,7 +425,7 @@ namespace {
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ErrorMsg = Message.str();
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return true;
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}
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/// getLinkageResult - This analyzes the two global values and determines
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/// what the result will look like in the destination module.
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bool getLinkageResult(GlobalValue *Dest, const GlobalValue *Src,
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// there is no name match-up going on.
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if (!SrcGV->hasName() || SrcGV->hasLocalLinkage())
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return nullptr;
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// Otherwise see if we have a match in the destination module's symtab.
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GlobalValue *DGV = DstM->getNamedValue(SrcGV->getName());
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if (!DGV) return nullptr;
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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->hasLocalLinkage())
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// Otherwise, we do in fact link to the destination global.
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return DGV;
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}
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void computeTypeMapping();
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bool linkAppendingVarProto(GlobalVariable *DstGV, GlobalVariable *SrcGV);
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bool linkGlobalProto(GlobalVariable *SrcGV);
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bool linkFunctionProto(Function *SrcF);
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bool linkAliasProto(GlobalAlias *SrcA);
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bool linkModuleFlagsMetadata();
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void linkAppendingVarInit(const AppendingVarInfo &AVI);
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void linkGlobalInits();
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void linkFunctionBody(Function *Dst, Function *Src);
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@ -547,10 +547,10 @@ bool ModuleLinker::getLinkageResult(GlobalValue *Dest, const GlobalValue *Src,
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assert(Dest && "Must have two globals being queried");
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assert(!Src->hasLocalLinkage() &&
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"If Src has internal linkage, Dest shouldn't be set!");
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bool SrcIsDeclaration = Src->isDeclaration() && !Src->isMaterializable();
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bool DestIsDeclaration = Dest->isDeclaration();
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if (SrcIsDeclaration) {
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// If Src is external or if both Src & Dest are external.. Just link the
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// external globals, we aren't adding anything.
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@ -621,18 +621,18 @@ void ModuleLinker::computeTypeMapping() {
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E = SrcM->global_end(); I != E; ++I) {
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GlobalValue *DGV = getLinkedToGlobal(I);
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if (!DGV) continue;
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if (!DGV->hasAppendingLinkage() || !I->hasAppendingLinkage()) {
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TypeMap.addTypeMapping(DGV->getType(), I->getType());
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continue;
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continue;
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}
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// Unify the element type of appending arrays.
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ArrayType *DAT = cast<ArrayType>(DGV->getType()->getElementType());
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ArrayType *SAT = cast<ArrayType>(I->getType()->getElementType());
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TypeMap.addTypeMapping(DAT->getElementType(), SAT->getElementType());
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}
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// Incorporate functions.
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for (Module::iterator I = SrcM->begin(), E = SrcM->end(); I != E; ++I) {
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if (GlobalValue *DGV = getLinkedToGlobal(I))
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for (unsigned i = 0, e = SrcStructTypes.size(); i != e; ++i) {
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StructType *ST = SrcStructTypes[i];
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if (!ST->hasName()) continue;
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// Check to see if there is a dot in the name followed by a digit.
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size_t DotPos = ST->getName().rfind('.');
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if (DotPos == 0 || DotPos == StringRef::npos ||
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ST->getName().back() == '.' ||
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!isdigit(static_cast<unsigned char>(ST->getName()[DotPos+1])))
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continue;
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// Check to see if the destination module has a struct with the prefix name.
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if (StructType *DST = DstM->getTypeByName(ST->getName().substr(0, DotPos)))
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// Don't use it if this actually came from the source module. They're in
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}
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// Don't bother incorporating aliases, they aren't generally typed well.
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// Now that we have discovered all of the type equivalences, get a body for
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// any 'opaque' types in the dest module that are now resolved.
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// any 'opaque' types in the dest module that are now resolved.
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TypeMap.linkDefinedTypeBodies();
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}
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/// them together now. Return true on error.
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bool ModuleLinker::linkAppendingVarProto(GlobalVariable *DstGV,
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GlobalVariable *SrcGV) {
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if (!SrcGV->hasAppendingLinkage() || !DstGV->hasAppendingLinkage())
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return emitError("Linking globals named '" + SrcGV->getName() +
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"': can only link appending global with another appending global!");
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ArrayType *DstTy = cast<ArrayType>(DstGV->getType()->getElementType());
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ArrayType *SrcTy =
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cast<ArrayType>(TypeMap.get(SrcGV->getType()->getElementType()));
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Type *EltTy = DstTy->getElementType();
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// Check to see that they two arrays agree on type.
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if (EltTy != SrcTy->getElementType())
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return emitError("Appending variables with different element types!");
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if (DstGV->isConstant() != SrcGV->isConstant())
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return emitError("Appending variables linked with different const'ness!");
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if (DstGV->getAlignment() != SrcGV->getAlignment())
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return emitError(
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"Appending variables with different alignment need to be linked!");
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if (DstGV->getVisibility() != SrcGV->getVisibility())
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return emitError(
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"Appending variables with different visibility need to be linked!");
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if (DstGV->getSection() != SrcGV->getSection())
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return emitError(
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"Appending variables with different section name need to be linked!");
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uint64_t NewSize = DstTy->getNumElements() + SrcTy->getNumElements();
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ArrayType *NewType = ArrayType::get(EltTy, NewSize);
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// Create the new global variable.
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GlobalVariable *NG =
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new GlobalVariable(*DstGV->getParent(), NewType, SrcGV->isConstant(),
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DstGV->getLinkage(), /*init*/nullptr, /*name*/"", DstGV,
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DstGV->getThreadLocalMode(),
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DstGV->getType()->getAddressSpace());
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// Propagate alignment, visibility and section info.
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copyGVAttributes(NG, DstGV);
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AppendingVarInfo AVI;
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AVI.NewGV = NG;
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AVI.DstInit = DstGV->getInitializer();
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@ -750,10 +750,10 @@ bool ModuleLinker::linkAppendingVarProto(GlobalVariable *DstGV,
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DstGV->replaceAllUsesWith(ConstantExpr::getBitCast(NG, DstGV->getType()));
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DstGV->eraseFromParent();
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// Track the source variable so we don't try to link it.
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DoNotLinkFromSource.insert(SrcGV);
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return false;
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}
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@ -768,7 +768,7 @@ bool ModuleLinker::linkGlobalProto(GlobalVariable *SGV) {
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// Concatenation of appending linkage variables is magic and handled later.
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if (DGV->hasAppendingLinkage() || SGV->hasAppendingLinkage())
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return linkAppendingVarProto(cast<GlobalVariable>(DGV), SGV);
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// Determine whether linkage of these two globals follows the source
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// module's definition or the destination module's definition.
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GlobalValue::LinkageTypes NewLinkage = GlobalValue::InternalLinkage;
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@ -794,15 +794,15 @@ bool ModuleLinker::linkGlobalProto(GlobalVariable *SGV) {
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// Make sure to remember this mapping.
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ValueMap[SGV] = ConstantExpr::getBitCast(DGV,TypeMap.get(SGV->getType()));
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// Track the source global so that we don't attempt to copy it over when
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// Track the source global so that we don't attempt to copy it over when
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// processing global initializers.
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DoNotLinkFromSource.insert(SGV);
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return false;
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}
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}
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// No linking to be performed or linking from the source: simply create an
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// identical version of the symbol over in the dest module... the
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// initializer will be filled in later by LinkGlobalInits.
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@ -822,7 +822,7 @@ bool ModuleLinker::linkGlobalProto(GlobalVariable *SGV) {
|
|||
DGV->replaceAllUsesWith(ConstantExpr::getBitCast(NewDGV, DGV->getType()));
|
||||
DGV->eraseFromParent();
|
||||
}
|
||||
|
||||
|
||||
// Make sure to remember this mapping.
|
||||
ValueMap[SGV] = NewDGV;
|
||||
return false;
|
||||
|
@ -852,15 +852,15 @@ bool ModuleLinker::linkFunctionProto(Function *SF) {
|
|||
|
||||
// Make sure to remember this mapping.
|
||||
ValueMap[SF] = ConstantExpr::getBitCast(DGV, TypeMap.get(SF->getType()));
|
||||
|
||||
// Track the function from the source module so we don't attempt to remap
|
||||
|
||||
// Track the function from the source module so we don't attempt to remap
|
||||
// it.
|
||||
DoNotLinkFromSource.insert(SF);
|
||||
|
||||
|
||||
return false;
|
||||
}
|
||||
}
|
||||
|
||||
|
||||
// If the function is to be lazily linked, don't create it just yet.
|
||||
// The ValueMaterializerTy will deal with creating it if it's used.
|
||||
if (!DGV && (SF->hasLocalLinkage() || SF->hasLinkOnceLinkage() ||
|
||||
|
@ -883,7 +883,7 @@ bool ModuleLinker::linkFunctionProto(Function *SF) {
|
|||
DGV->replaceAllUsesWith(ConstantExpr::getBitCast(NewDF, DGV->getType()));
|
||||
DGV->eraseFromParent();
|
||||
}
|
||||
|
||||
|
||||
ValueMap[SF] = NewDF;
|
||||
return false;
|
||||
}
|
||||
|
@ -909,14 +909,14 @@ bool ModuleLinker::linkAliasProto(GlobalAlias *SGA) {
|
|||
|
||||
// Make sure to remember this mapping.
|
||||
ValueMap[SGA] = ConstantExpr::getBitCast(DGV,TypeMap.get(SGA->getType()));
|
||||
|
||||
|
||||
// Track the alias from the source module so we don't attempt to remap it.
|
||||
DoNotLinkFromSource.insert(SGA);
|
||||
|
||||
|
||||
return false;
|
||||
}
|
||||
}
|
||||
|
||||
|
||||
// If there is no linkage to be performed or we're linking from the source,
|
||||
// bring over SGA.
|
||||
GlobalAlias *NewDA = new GlobalAlias(TypeMap.get(SGA->getType()),
|
||||
|
@ -931,7 +931,7 @@ bool ModuleLinker::linkAliasProto(GlobalAlias *SGA) {
|
|||
DGV->replaceAllUsesWith(ConstantExpr::getBitCast(NewDA, DGV->getType()));
|
||||
DGV->eraseFromParent();
|
||||
}
|
||||
|
||||
|
||||
ValueMap[SGA] = NewDA;
|
||||
return false;
|
||||
}
|
||||
|
@ -942,15 +942,15 @@ static void getArrayElements(Constant *C, SmallVectorImpl<Constant*> &Dest) {
|
|||
for (unsigned i = 0; i != NumElements; ++i)
|
||||
Dest.push_back(C->getAggregateElement(i));
|
||||
}
|
||||
|
||||
|
||||
void ModuleLinker::linkAppendingVarInit(const AppendingVarInfo &AVI) {
|
||||
// Merge the initializer.
|
||||
SmallVector<Constant*, 16> Elements;
|
||||
getArrayElements(AVI.DstInit, Elements);
|
||||
|
||||
|
||||
Constant *SrcInit = MapValue(AVI.SrcInit, ValueMap, RF_None, &TypeMap, &ValMaterializer);
|
||||
getArrayElements(SrcInit, Elements);
|
||||
|
||||
|
||||
ArrayType *NewType = cast<ArrayType>(AVI.NewGV->getType()->getElementType());
|
||||
AVI.NewGV->setInitializer(ConstantArray::get(NewType, Elements));
|
||||
}
|
||||
|
@ -961,10 +961,10 @@ void ModuleLinker::linkGlobalInits() {
|
|||
// Loop over all of the globals in the src module, mapping them over as we go
|
||||
for (Module::const_global_iterator I = SrcM->global_begin(),
|
||||
E = SrcM->global_end(); I != E; ++I) {
|
||||
|
||||
|
||||
// Only process initialized GV's or ones not already in dest.
|
||||
if (!I->hasInitializer() || DoNotLinkFromSource.count(I)) continue;
|
||||
|
||||
if (!I->hasInitializer() || DoNotLinkFromSource.count(I)) continue;
|
||||
|
||||
// Grab destination global variable.
|
||||
GlobalVariable *DGV = cast<GlobalVariable>(ValueMap[I]);
|
||||
// Figure out what the initializer looks like in the dest module.
|
||||
|
@ -992,7 +992,7 @@ void ModuleLinker::linkFunctionBody(Function *Dst, Function *Src) {
|
|||
if (Mode == Linker::DestroySource) {
|
||||
// Splice the body of the source function into the dest function.
|
||||
Dst->getBasicBlockList().splice(Dst->end(), Src->getBasicBlockList());
|
||||
|
||||
|
||||
// At this point, all of the instructions and values of the function are now
|
||||
// copied over. The only problem is that they are still referencing values in
|
||||
// the Source function as operands. Loop through all of the operands of the
|
||||
|
@ -1001,19 +1001,19 @@ void ModuleLinker::linkFunctionBody(Function *Dst, Function *Src) {
|
|||
for (BasicBlock::iterator I = BB->begin(), E = BB->end(); I != E; ++I)
|
||||
RemapInstruction(I, ValueMap, RF_IgnoreMissingEntries,
|
||||
&TypeMap, &ValMaterializer);
|
||||
|
||||
|
||||
} else {
|
||||
// Clone the body of the function into the dest function.
|
||||
SmallVector<ReturnInst*, 8> Returns; // Ignore returns.
|
||||
CloneFunctionInto(Dst, Src, ValueMap, false, Returns, "", nullptr,
|
||||
&TypeMap, &ValMaterializer);
|
||||
}
|
||||
|
||||
|
||||
// There is no need to map the arguments anymore.
|
||||
for (Function::arg_iterator I = Src->arg_begin(), E = Src->arg_end();
|
||||
I != E; ++I)
|
||||
ValueMap.erase(I);
|
||||
|
||||
|
||||
}
|
||||
|
||||
/// linkAliasBodies - Insert all of the aliases in Src into the Dest module.
|
||||
|
@ -1201,7 +1201,7 @@ bool ModuleLinker::linkModuleFlagsMetadata() {
|
|||
|
||||
return HasErr;
|
||||
}
|
||||
|
||||
|
||||
bool ModuleLinker::run() {
|
||||
assert(DstM && "Null destination module");
|
||||
assert(SrcM && "Null source module");
|
||||
|
@ -1272,13 +1272,13 @@ bool ModuleLinker::run() {
|
|||
|
||||
for (unsigned i = 0, e = AppendingVars.size(); i != e; ++i)
|
||||
linkAppendingVarInit(AppendingVars[i]);
|
||||
|
||||
|
||||
// Link in the function bodies that are defined in the source module into
|
||||
// DstM.
|
||||
for (Module::iterator SF = SrcM->begin(), E = SrcM->end(); SF != E; ++SF) {
|
||||
// Skip if not linking from source.
|
||||
if (DoNotLinkFromSource.count(SF)) continue;
|
||||
|
||||
|
||||
Function *DF = cast<Function>(ValueMap[SF]);
|
||||
if (SF->hasPrefixData()) {
|
||||
// Link in the prefix data.
|
||||
|
@ -1293,7 +1293,7 @@ bool ModuleLinker::run() {
|
|||
if (SF->Materialize(&ErrorMsg))
|
||||
return true;
|
||||
}
|
||||
|
||||
|
||||
linkFunctionBody(DF, SF);
|
||||
SF->Dematerialize();
|
||||
}
|
||||
|
@ -1318,9 +1318,9 @@ bool ModuleLinker::run() {
|
|||
bool LinkedInAnyFunctions;
|
||||
do {
|
||||
LinkedInAnyFunctions = false;
|
||||
|
||||
|
||||
for(std::vector<Function*>::iterator I = LazilyLinkFunctions.begin(),
|
||||
E = LazilyLinkFunctions.end(); I != E; ++I) {
|
||||
E = LazilyLinkFunctions.end(); I != E; ++I) {
|
||||
Function *SF = *I;
|
||||
if (!SF)
|
||||
continue;
|
||||
|
@ -1342,7 +1342,7 @@ bool ModuleLinker::run() {
|
|||
if (SF->Materialize(&ErrorMsg))
|
||||
return true;
|
||||
}
|
||||
|
||||
|
||||
// Erase from vector *before* the function body is linked - linkFunctionBody could
|
||||
// invalidate I.
|
||||
LazilyLinkFunctions.erase(I);
|
||||
|
@ -1357,11 +1357,11 @@ bool ModuleLinker::run() {
|
|||
break;
|
||||
}
|
||||
} while (LinkedInAnyFunctions);
|
||||
|
||||
|
||||
// Now that all of the types from the source are used, resolve any structs
|
||||
// copied over to the dest that didn't exist there.
|
||||
TypeMap.linkDefinedTypeBodies();
|
||||
|
||||
|
||||
return false;
|
||||
}
|
||||
|
||||
|
@ -1400,7 +1400,7 @@ bool Linker::linkInModule(Module *Src, unsigned Mode, std::string *ErrorMsg) {
|
|||
/// error occurs, true is returned and ErrorMsg (if not null) is set to indicate
|
||||
/// the problem. Upon failure, the Dest module could be in a modified state,
|
||||
/// and shouldn't be relied on to be consistent.
|
||||
bool Linker::LinkModules(Module *Dest, Module *Src, unsigned Mode,
|
||||
bool Linker::LinkModules(Module *Dest, Module *Src, unsigned Mode,
|
||||
std::string *ErrorMsg) {
|
||||
Linker L(Dest);
|
||||
return L.linkInModule(Src, Mode, ErrorMsg);
|
||||
|
|
Loading…
Reference in New Issue