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Use references now that it is natural to do so. 

The linker never takes ownership of a module or changes which module it
is refering to, making it natural to use references.

llvm-svn: 254449
This commit is contained in:
Rafael Espindola 2015-12-01 19:50:54 +00:00
parent 9cb01aa30a
commit 0e309fe860
9 changed files with 101 additions and 107 deletions
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14
llvm/include/llvm/Linker/Linker.h
View File

@ -68,10 +68,10 @@ public:
InternalizeLinkedSymbols = (1 << 2)
};
Linker(Module *M, DiagnosticHandlerFunction DiagnosticHandler);
Linker(Module *M);
Linker(Module &M, DiagnosticHandlerFunction DiagnosticHandler);
Linker(Module &M);
Module *getModule() const { return Composite; }
Module &getModule() const { return Composite; }
/// \brief Link \p Src into the composite. The source is destroyed.
/// Passing OverrideSymbols as true will have symbols from Src
@ -80,19 +80,19 @@ public:
/// is passed. If a \p FuncToImport is provided, only that single
/// function is imported from the source module.
/// Returns true on error.
bool linkInModule(Module *Src, unsigned Flags = Flags::None,
bool linkInModule(Module &Src, unsigned Flags = Flags::None,
const FunctionInfoIndex *Index = nullptr,
Function *FuncToImport = nullptr);
static bool LinkModules(Module *Dest, Module *Src,
static bool linkModules(Module &Dest, Module &Src,
DiagnosticHandlerFunction DiagnosticHandler,
unsigned Flags = Flags::None);
static bool LinkModules(Module *Dest, Module *Src,
static bool linkModules(Module &Dest, Module &Src,
unsigned Flags = Flags::None);
private:
Module *Composite;
Module &Composite;
IdentifiedStructTypeSet IdentifiedStructTypes;

8
llvm/lib/LTO/LTOCodeGenerator.cpp
View File

@ -67,14 +67,14 @@ const char* LTOCodeGenerator::getVersionString() {
LTOCodeGenerator::LTOCodeGenerator()
: Context(getGlobalContext()),
MergedModule(new Module("ld-temp.o", Context)),
IRLinker(new Linker(MergedModule.get())) {
IRLinker(new Linker(*MergedModule)) {
initializeLTOPasses();
}
LTOCodeGenerator::LTOCodeGenerator(std::unique_ptr<LLVMContext> Context)
: OwnedContext(std::move(Context)), Context(*OwnedContext),
MergedModule(new Module("ld-temp.o", *OwnedContext)),
IRLinker(new Linker(MergedModule.get())) {
IRLinker(new Linker(*MergedModule)) {
initializeLTOPasses();
}
@ -114,7 +114,7 @@ bool LTOCodeGenerator::addModule(LTOModule *Mod) {
assert(&Mod->getModule().getContext() == &Context &&
"Expected module in same context");
bool ret = IRLinker->linkInModule(&Mod->getModule());
bool ret = IRLinker->linkInModule(Mod->getModule());
const std::vector<const char *> &undefs = Mod->getAsmUndefinedRefs();
for (int i = 0, e = undefs.size(); i != e; ++i)
@ -130,7 +130,7 @@ void LTOCodeGenerator::setModule(std::unique_ptr<LTOModule> Mod) {
AsmUndefinedRefs.clear();
MergedModule = Mod->takeModule();
IRLinker = make_unique<Linker>(MergedModule.get());
IRLinker = make_unique<Linker>(*MergedModule);
const std::vector<const char*> &Undefs = Mod->getAsmUndefinedRefs();
for (int I = 0, E = Undefs.size(); I != E; ++I)

149
llvm/lib/Linker/LinkModules.cpp
View File

@ -390,7 +390,8 @@ void LinkDiagnosticInfo::print(DiagnosticPrinter &DP) const { DP << Msg; }
/// This is an implementation class for the LinkModules function, which is the
/// entrypoint for this file.
class ModuleLinker {
Module *DstM, *SrcM;
Module &DstM;
Module &SrcM;
TypeMapTy TypeMap;
ValueMaterializerTy ValMaterializer;
@ -431,11 +432,11 @@ class ModuleLinker {
bool HasError = false;
public:
ModuleLinker(Module *dstM, Linker::IdentifiedStructTypeSet &Set, Module *srcM,
ModuleLinker(Module &DstM, Linker::IdentifiedStructTypeSet &Set, Module &SrcM,
DiagnosticHandlerFunction DiagnosticHandler, unsigned Flags,
const FunctionInfoIndex *Index = nullptr,
Function *FuncToImport = nullptr)
: DstM(dstM), SrcM(srcM), TypeMap(Set), ValMaterializer(this),
: DstM(DstM), SrcM(SrcM), TypeMap(Set), ValMaterializer(this),
DiagnosticHandler(DiagnosticHandler), Flags(Flags), ImportIndex(Index),
ImportFunction(FuncToImport), HasExportedFunctions(false),
DoneLinkingBodies(false) {
@ -446,7 +447,7 @@ public:
// backend compilation, and we need to see if it has functions that
// may be exported to another backend compilation.
if (ImportIndex && !ImportFunction)
HasExportedFunctions = ImportIndex->hasExportedFunctions(SrcM);
HasExportedFunctions = ImportIndex->hasExportedFunctions(&SrcM);
}
bool run();
@ -485,7 +486,7 @@ private:
DiagnosticHandler(LinkDiagnosticInfo(DS_Warning, Message));
}
bool getComdatLeader(Module *M, StringRef ComdatName,
bool getComdatLeader(Module &M, StringRef ComdatName,
const GlobalVariable *&GVar);
bool computeResultingSelectionKind(StringRef ComdatName,
Comdat::SelectionKind Src,
@ -508,7 +509,7 @@ private:
return nullptr;
// Otherwise see if we have a match in the destination module's symtab.
GlobalValue *DGV = DstM->getNamedValue(getName(SrcGV));
GlobalValue *DGV = DstM.getNamedValue(getName(SrcGV));
if (!DGV)
return nullptr;
@ -793,7 +794,7 @@ ModuleLinker::copyGlobalVariableProto(TypeMapTy &TypeMap,
// identical version of the symbol over in the dest module... the
// initializer will be filled in later by LinkGlobalInits.
GlobalVariable *NewDGV = new GlobalVariable(
*DstM, TypeMap.get(SGVar->getType()->getElementType()),
DstM, TypeMap.get(SGVar->getType()->getElementType()),
SGVar->isConstant(), getLinkage(SGVar), /*init*/ nullptr, getName(SGVar),
/*insertbefore*/ nullptr, SGVar->getThreadLocalMode(),
SGVar->getType()->getAddressSpace());
@ -808,7 +809,7 @@ Function *ModuleLinker::copyFunctionProto(TypeMapTy &TypeMap,
// If there is no linkage to be performed or we are linking from the source,
// bring SF over.
return Function::Create(TypeMap.get(SF->getFunctionType()), getLinkage(SF),
getName(SF), DstM);
getName(SF), &DstM);
}
/// Set up prototypes for any aliases that come over from the source module.
@ -842,7 +843,7 @@ GlobalValue *ModuleLinker::copyGlobalAliasProto(TypeMapTy &TypeMap,
// bring over SGA.
auto *Ty = TypeMap.get(SGA->getValueType());
return GlobalAlias::create(Ty, SGA->getType()->getPointerAddressSpace(),
getLinkage(SGA), getName(SGA), DstM);
getLinkage(SGA), getName(SGA), &DstM);
}
static GlobalValue::VisibilityTypes
@ -936,9 +937,9 @@ void ModuleLinker::materializeInitFor(GlobalValue *New, GlobalValue *Old) {
linkGlobalValueBody(*Old);
}
bool ModuleLinker::getComdatLeader(Module *M, StringRef ComdatName,
bool ModuleLinker::getComdatLeader(Module &M, StringRef ComdatName,
const GlobalVariable *&GVar) {
const GlobalValue *GVal = M->getNamedValue(ComdatName);
const GlobalValue *GVal = M.getNamedValue(ComdatName);
if (const auto *GA = dyn_cast_or_null<GlobalAlias>(GVal)) {
GVal = GA->getBaseObject();
if (!GVal)
@ -997,8 +998,8 @@ bool ModuleLinker::computeResultingSelectionKind(StringRef ComdatName,
getComdatLeader(SrcM, ComdatName, SrcGV))
return true;
const DataLayout &DstDL = DstM->getDataLayout();
const DataLayout &SrcDL = SrcM->getDataLayout();
const DataLayout &DstDL = DstM.getDataLayout();
const DataLayout &SrcDL = SrcM.getDataLayout();
uint64_t DstSize =
DstDL.getTypeAllocSize(DstGV->getType()->getPointerElementType());
uint64_t SrcSize =
@ -1030,7 +1031,7 @@ bool ModuleLinker::getComdatResult(const Comdat *SrcC,
bool &LinkFromSrc) {
Comdat::SelectionKind SSK = SrcC->getSelectionKind();
StringRef ComdatName = SrcC->getName();
Module::ComdatSymTabType &ComdatSymTab = DstM->getComdatSymbolTable();
Module::ComdatSymTabType &ComdatSymTab = DstM.getComdatSymbolTable();
Module::ComdatSymTabType::iterator DstCI = ComdatSymTab.find(ComdatName);
if (DstCI == ComdatSymTab.end()) {
@ -1158,7 +1159,7 @@ bool ModuleLinker::shouldLinkFromSource(bool &LinkFromSrc,
/// types 'Foo' but one got renamed when the module was loaded into the same
/// LLVMContext.
void ModuleLinker::computeTypeMapping() {
for (GlobalValue &SGV : SrcM->globals()) {
for (GlobalValue &SGV : SrcM.globals()) {
GlobalValue *DGV = getLinkedToGlobal(&SGV);
if (!DGV)
continue;
@ -1174,12 +1175,12 @@ void ModuleLinker::computeTypeMapping() {
TypeMap.addTypeMapping(DAT->getElementType(), SAT->getElementType());
}
for (GlobalValue &SGV : *SrcM) {
for (GlobalValue &SGV : SrcM) {
if (GlobalValue *DGV = getLinkedToGlobal(&SGV))
TypeMap.addTypeMapping(DGV->getType(), SGV.getType());
}
for (GlobalValue &SGV : SrcM->aliases()) {
for (GlobalValue &SGV : SrcM.aliases()) {
if (GlobalValue *DGV = getLinkedToGlobal(&SGV))
TypeMap.addTypeMapping(DGV->getType(), SGV.getType());
}
@ -1188,7 +1189,7 @@ void ModuleLinker::computeTypeMapping() {
// At this point, the destination module may have a type "%foo = { i32 }" for
// example. When the source module got loaded into the same LLVMContext, if
// it had the same type, it would have been renamed to "%foo.42 = { i32 }".
std::vector<StructType *> Types = SrcM->getIdentifiedStructTypes();
std::vector<StructType *> Types = SrcM.getIdentifiedStructTypes();
for (StructType *ST : Types) {
if (!ST->hasName())
continue;
@ -1201,7 +1202,7 @@ void ModuleLinker::computeTypeMapping() {
continue;
// Check to see if the destination module has a struct with the prefix name.
StructType *DST = DstM->getTypeByName(ST->getName().substr(0, DotPos));
StructType *DST = DstM.getTypeByName(ST->getName().substr(0, DotPos));
if (!DST)
continue;
@ -1275,10 +1276,10 @@ static void upgradeGlobalArray(GlobalVariable *GV) {
void ModuleLinker::upgradeMismatchedGlobalArray(StringRef Name) {
// Look for the global arrays.
auto *DstGV = dyn_cast_or_null<GlobalVariable>(DstM->getNamedValue(Name));
auto *DstGV = dyn_cast_or_null<GlobalVariable>(DstM.getNamedValue(Name));
if (!DstGV)
return;
auto *SrcGV = dyn_cast_or_null<GlobalVariable>(SrcM->getNamedValue(Name));
auto *SrcGV = dyn_cast_or_null<GlobalVariable>(SrcM.getNamedValue(Name));
if (!SrcGV)
return;
@ -1380,7 +1381,7 @@ bool ModuleLinker::linkAppendingVarProto(GlobalVariable *DstGV,
// Create the new global variable.
GlobalVariable *NG = new GlobalVariable(
*DstM, NewType, SrcGV->isConstant(), SrcGV->getLinkage(),
DstM, NewType, SrcGV->isConstant(), SrcGV->getLinkage(),
/*init*/ nullptr, /*name*/ "", DstGV, SrcGV->getThreadLocalMode(),
SrcGV->getType()->getAddressSpace());
@ -1430,7 +1431,7 @@ bool ModuleLinker::linkGlobalValueProto(GlobalValue *SGV) {
if (const Comdat *SC = SGV->getComdat()) {
Comdat::SelectionKind SK;
std::tie(SK, LinkFromSrc) = ComdatsChosen[SC];
C = DstM->getOrInsertComdat(SC->getName());
C = DstM.getOrInsertComdat(SC->getName());
C->setSelectionKind(SK);
if (SGV->hasInternalLinkage())
LinkFromSrc = true;
@ -1606,12 +1607,12 @@ bool ModuleLinker::linkGlobalValueBody(GlobalValue &Src) {
/// Insert all of the named MDNodes in Src into the Dest module.
void ModuleLinker::linkNamedMDNodes() {
const NamedMDNode *SrcModFlags = SrcM->getModuleFlagsMetadata();
for (const NamedMDNode &NMD : SrcM->named_metadata()) {
const NamedMDNode *SrcModFlags = SrcM.getModuleFlagsMetadata();
for (const NamedMDNode &NMD : SrcM.named_metadata()) {
// Don't link module flags here. Do them separately.
if (&NMD == SrcModFlags)
continue;
NamedMDNode *DestNMD = DstM->getOrInsertNamedMetadata(NMD.getName());
NamedMDNode *DestNMD = DstM.getOrInsertNamedMetadata(NMD.getName());
// Add Src elements into Dest node.
for (const MDNode *op : NMD.operands())
DestNMD->addOperand(MapMetadata(
@ -1623,12 +1624,12 @@ void ModuleLinker::linkNamedMDNodes() {
/// Merge the linker flags in Src into the Dest module.
bool ModuleLinker::linkModuleFlagsMetadata() {
// If the source module has no module flags, we are done.
const NamedMDNode *SrcModFlags = SrcM->getModuleFlagsMetadata();
const NamedMDNode *SrcModFlags = SrcM.getModuleFlagsMetadata();
if (!SrcModFlags) return false;
// If the destination module doesn't have module flags yet, then just copy
// over the source module's flags.
NamedMDNode *DstModFlags = DstM->getOrInsertModuleFlagsMetadata();
NamedMDNode *DstModFlags = DstM.getOrInsertModuleFlagsMetadata();
if (DstModFlags->getNumOperands() == 0) {
for (unsigned I = 0, E = SrcModFlags->getNumOperands(); I != E; ++I)
DstModFlags->addOperand(SrcModFlags->getOperand(I));
@ -1711,7 +1712,7 @@ bool ModuleLinker::linkModuleFlagsMetadata() {
auto replaceDstValue = [&](MDNode *New) {
Metadata *FlagOps[] = {DstOp->getOperand(0), ID, New};
MDNode *Flag = MDNode::get(DstM->getContext(), FlagOps);
MDNode *Flag = MDNode::get(DstM.getContext(), FlagOps);
DstModFlags->setOperand(DstIndex, Flag);
Flags[ID].first = Flag;
};
@ -1744,7 +1745,7 @@ bool ModuleLinker::linkModuleFlagsMetadata() {
MDs.append(DstValue->op_begin(), DstValue->op_end());
MDs.append(SrcValue->op_begin(), SrcValue->op_end());
replaceDstValue(MDNode::get(DstM->getContext(), MDs));
replaceDstValue(MDNode::get(DstM.getContext(), MDs));
break;
}
case Module::AppendUnique: {
@ -1754,7 +1755,7 @@ bool ModuleLinker::linkModuleFlagsMetadata() {
Elts.insert(DstValue->op_begin(), DstValue->op_end());
Elts.insert(SrcValue->op_begin(), SrcValue->op_end());
replaceDstValue(MDNode::get(DstM->getContext(),
replaceDstValue(MDNode::get(DstM.getContext(),
makeArrayRef(Elts.begin(), Elts.end())));
break;
}
@ -1833,51 +1834,47 @@ bool ModuleLinker::linkIfNeeded(GlobalValue &GV) {
}
bool ModuleLinker::run() {
assert(DstM && "Null destination module");
assert(SrcM && "Null source module");
// Inherit the target data from the source module if the destination module
// doesn't have one already.
if (DstM->getDataLayout().isDefault())
DstM->setDataLayout(SrcM->getDataLayout());
if (DstM.getDataLayout().isDefault())
DstM.setDataLayout(SrcM.getDataLayout());
if (SrcM->getDataLayout() != DstM->getDataLayout()) {
if (SrcM.getDataLayout() != DstM.getDataLayout()) {
emitWarning("Linking two modules of different data layouts: '" +
SrcM->getModuleIdentifier() + "' is '" +
SrcM->getDataLayoutStr() + "' whereas '" +
DstM->getModuleIdentifier() + "' is '" +
DstM->getDataLayoutStr() + "'\n");
SrcM.getModuleIdentifier() + "' is '" +
SrcM.getDataLayoutStr() + "' whereas '" +
DstM.getModuleIdentifier() + "' is '" +
DstM.getDataLayoutStr() + "'\n");
}
// Copy the target triple from the source to dest if the dest's is empty.
if (DstM->getTargetTriple().empty() && !SrcM->getTargetTriple().empty())
DstM->setTargetTriple(SrcM->getTargetTriple());
if (DstM.getTargetTriple().empty() && !SrcM.getTargetTriple().empty())
DstM.setTargetTriple(SrcM.getTargetTriple());
Triple SrcTriple(SrcM->getTargetTriple()), DstTriple(DstM->getTargetTriple());
Triple SrcTriple(SrcM.getTargetTriple()), DstTriple(DstM.getTargetTriple());
if (!SrcM->getTargetTriple().empty() && !triplesMatch(SrcTriple, DstTriple))
if (!SrcM.getTargetTriple().empty() && !triplesMatch(SrcTriple, DstTriple))
emitWarning("Linking two modules of different target triples: " +
SrcM->getModuleIdentifier() + "' is '" +
SrcM->getTargetTriple() + "' whereas '" +
DstM->getModuleIdentifier() + "' is '" +
DstM->getTargetTriple() + "'\n");
SrcM.getModuleIdentifier() + "' is '" + SrcM.getTargetTriple() +
"' whereas '" + DstM.getModuleIdentifier() + "' is '" +
DstM.getTargetTriple() + "'\n");
DstM->setTargetTriple(mergeTriples(SrcTriple, DstTriple));
DstM.setTargetTriple(mergeTriples(SrcTriple, DstTriple));
// Append the module inline asm string.
if (!SrcM->getModuleInlineAsm().empty()) {
if (DstM->getModuleInlineAsm().empty())
DstM->setModuleInlineAsm(SrcM->getModuleInlineAsm());
if (!SrcM.getModuleInlineAsm().empty()) {
if (DstM.getModuleInlineAsm().empty())
DstM.setModuleInlineAsm(SrcM.getModuleInlineAsm());
else
DstM->setModuleInlineAsm(DstM->getModuleInlineAsm()+"\n"+
SrcM->getModuleInlineAsm());
DstM.setModuleInlineAsm(DstM.getModuleInlineAsm() + "\n" +
SrcM.getModuleInlineAsm());
}
// Loop over all of the linked values to compute type mappings.
computeTypeMapping();
ComdatsChosen.clear();
for (const auto &SMEC : SrcM->getComdatSymbolTable()) {
for (const auto &SMEC : SrcM.getComdatSymbolTable()) {
const Comdat &C = SMEC.getValue();
if (ComdatsChosen.count(&C))
continue;
@ -1891,37 +1888,37 @@ bool ModuleLinker::run() {
// Upgrade mismatched global arrays.
upgradeMismatchedGlobals();
for (GlobalVariable &GV : SrcM->globals())
for (GlobalVariable &GV : SrcM.globals())
if (const Comdat *SC = GV.getComdat())
ComdatMembers[SC].push_back(&GV);
for (Function &SF : *SrcM)
for (Function &SF : SrcM)
if (const Comdat *SC = SF.getComdat())
ComdatMembers[SC].push_back(&SF);
for (GlobalAlias &GA : SrcM->aliases())
for (GlobalAlias &GA : SrcM.aliases())
if (const Comdat *SC = GA.getComdat())
ComdatMembers[SC].push_back(&GA);
// Insert all of the globals in src into the DstM module... without linking
// initializers (which could refer to functions not yet mapped over).
for (GlobalVariable &GV : SrcM->globals())
for (GlobalVariable &GV : SrcM.globals())
if (linkIfNeeded(GV))
return true;
for (Function &SF : *SrcM)
for (Function &SF : SrcM)
if (linkIfNeeded(SF))
return true;
for (GlobalAlias &GA : SrcM->aliases())
for (GlobalAlias &GA : SrcM.aliases())
if (linkIfNeeded(GA))
return true;
for (const auto &Entry : DstM->getComdatSymbolTable()) {
for (const auto &Entry : DstM.getComdatSymbolTable()) {
const Comdat &C = Entry.getValue();
if (C.getSelectionKind() == Comdat::Any)
continue;
const GlobalValue *GV = SrcM->getNamedValue(C.getName());
const GlobalValue *GV = SrcM.getNamedValue(C.getName());
if (GV)
MapValue(GV, ValueMap, RF_MoveDistinctMDs, &TypeMap, &ValMaterializer);
}
@ -2032,12 +2029,10 @@ bool Linker::IdentifiedStructTypeSet::hasType(StructType *Ty) {
return *I == Ty;
}
Linker::Linker(Module *M, DiagnosticHandlerFunction DiagnosticHandler) {
this->Composite = M;
this->DiagnosticHandler = DiagnosticHandler;
Linker::Linker(Module &M, DiagnosticHandlerFunction DiagnosticHandler)
: Composite(M), DiagnosticHandler(DiagnosticHandler) {
TypeFinder StructTypes;
StructTypes.run(*M, true);
StructTypes.run(M, true);
for (StructType *Ty : StructTypes) {
if (Ty->isOpaque())
IdentifiedStructTypes.addOpaque(Ty);
@ -2046,18 +2041,18 @@ Linker::Linker(Module *M, DiagnosticHandlerFunction DiagnosticHandler) {
}
}
Linker::Linker(Module *M)
Linker::Linker(Module &M)
: Linker(M, [this](const DiagnosticInfo &DI) {
Composite->getContext().diagnose(DI);
Composite.getContext().diagnose(DI);
}) {}
bool Linker::linkInModule(Module *Src, unsigned Flags,
bool Linker::linkInModule(Module &Src, unsigned Flags,
const FunctionInfoIndex *Index,
Function *FuncToImport) {
ModuleLinker TheLinker(Composite, IdentifiedStructTypes, Src,
DiagnosticHandler, Flags, Index, FuncToImport);
bool RetCode = TheLinker.run();
Composite->dropTriviallyDeadConstantArrays();
Composite.dropTriviallyDeadConstantArrays();
return RetCode;
}
@ -2070,14 +2065,14 @@ bool Linker::linkInModule(Module *Src, unsigned Flags,
/// 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,
bool Linker::linkModules(Module &Dest, Module &Src,
DiagnosticHandlerFunction DiagnosticHandler,
unsigned Flags) {
Linker L(Dest, DiagnosticHandler);
return L.linkInModule(Src, Flags);
}
bool Linker::LinkModules(Module *Dest, Module *Src, unsigned Flags) {
bool Linker::linkModules(Module &Dest, Module &Src, unsigned Flags) {
Linker L(Dest);
return L.linkInModule(Src, Flags);
}
@ -2093,8 +2088,8 @@ LLVMBool LLVMLinkModules(LLVMModuleRef Dest, LLVMModuleRef Src,
raw_string_ostream Stream(Message);
DiagnosticPrinterRawOStream DP(Stream);
LLVMBool Result = Linker::LinkModules(
D, unwrap(Src), [&](const DiagnosticInfo &DI) { DI.print(DP); });
LLVMBool Result = Linker::linkModules(
*D, *unwrap(Src), [&](const DiagnosticInfo &DI) { DI.print(DP); });
if (OutMessages && Result) {
Stream.flush();

4
llvm/lib/Transforms/IPO/FunctionImport.cpp
View File

@ -102,7 +102,7 @@ bool FunctionImporter::importFunctions(Module &M) {
/// Second step: for every call to an external function, try to import it.
// Linker that will be used for importing function
Linker L(&M, DiagnosticHandler);
Linker L(M, DiagnosticHandler);
while (!Worklist.empty()) {
auto CalledFunctionName = Worklist.pop_back_val();
@ -182,7 +182,7 @@ bool FunctionImporter::importFunctions(Module &M) {
}
// Link in the specified function.
if (L.linkInModule(&Module, Linker::Flags::None, &Index, F))
if (L.linkInModule(Module, Linker::Flags::None, &Index, F))
report_fatal_error("Function Import: link error");
// Process the newly imported function and add callees to the worklist.

2
llvm/tools/bugpoint/BugDriver.cpp
View File

@ -132,7 +132,7 @@ bool BugDriver::addSources(const std::vector<std::string> &Filenames) {
if (!M.get()) return true;
outs() << "Linking in input file: '" << Filenames[i] << "'\n";
if (Linker::LinkModules(Program, M.get()))
if (Linker::linkModules(*Program, *M))
return true;
}

8
llvm/tools/bugpoint/Miscompilation.cpp
View File

@ -222,7 +222,7 @@ static Module *TestMergedProgram(const BugDriver &BD, Module *M1, Module *M2,
M1 = CloneModule(M1);
M2 = CloneModule(M2);
}
if (Linker::LinkModules(M1, M2))
if (Linker::linkModules(*M1, *M2))
exit(1);
delete M2; // We are done with this module.
@ -390,7 +390,7 @@ static bool ExtractLoops(BugDriver &BD,
MisCompFunctions.emplace_back(F->getName(), F->getFunctionType());
}
if (Linker::LinkModules(ToNotOptimize, ToOptimizeLoopExtracted))
if (Linker::linkModules(*ToNotOptimize, *ToOptimizeLoopExtracted))
exit(1);
MiscompiledFunctions.clear();
@ -418,7 +418,7 @@ static bool ExtractLoops(BugDriver &BD,
// extraction both didn't break the program, and didn't mask the problem.
// Replace the current program with the loop extracted version, and try to
// extract another loop.
if (Linker::LinkModules(ToNotOptimize, ToOptimizeLoopExtracted))
if (Linker::linkModules(*ToNotOptimize, *ToOptimizeLoopExtracted))
exit(1);
delete ToOptimizeLoopExtracted;
@ -594,7 +594,7 @@ static bool ExtractBlocks(BugDriver &BD,
if (!I->isDeclaration())
MisCompFunctions.emplace_back(I->getName(), I->getFunctionType());
if (Linker::LinkModules(ProgClone, Extracted.get()))
if (Linker::linkModules(*ProgClone, *Extracted))
exit(1);
// Set the new program and delete the old one.

6
llvm/tools/gold/gold-plugin.cpp
View File

@ -938,7 +938,7 @@ static ld_plugin_status allSymbolsReadHook(raw_fd_ostream *ApiFile) {
}
std::unique_ptr<Module> Combined(new Module("ld-temp.o", Context));
Linker L(Combined.get());
Linker L(*Combined);
std::string DefaultTriple = sys::getDefaultTargetTriple();
@ -956,7 +956,7 @@ static ld_plugin_status allSymbolsReadHook(raw_fd_ostream *ApiFile) {
M->setTargetTriple(DefaultTriple);
}
if (L.linkInModule(M.get()))
if (L.linkInModule(*M))
message(LDPL_FATAL, "Failed to link module");
if (release_input_file(F.handle) != LDPS_OK)
message(LDPL_FATAL, "Failed to release file information");
@ -986,7 +986,7 @@ static ld_plugin_status allSymbolsReadHook(raw_fd_ostream *ApiFile) {
path = output_name;
else
path = output_name + ".bc";
saveBCFile(path, *L.getModule());
saveBCFile(path, *Combined);
if (options::TheOutputType == options::OT_BC_ONLY)
return LDPS_OK;
}

6
llvm/tools/llvm-link/llvm-link.cpp
View File

@ -198,7 +198,7 @@ static bool importFunctions(const char *argv0, LLVMContext &Context,
}
// Link in the specified function.
if (L.linkInModule(M.get(), Linker::Flags::None, Index.get(), F))
if (L.linkInModule(*M, Linker::Flags::None, Index.get(), F))
return false;
}
return true;
@ -238,7 +238,7 @@ static bool linkFiles(const char *argv0, LLVMContext &Context, Linker &L,
if (Verbose)
errs() << "Linking in '" << File << "'\n";
if (L.linkInModule(M.get(), ApplicableFlags, Index.get()))
if (L.linkInModule(*M, ApplicableFlags, Index.get()))
return false;
// All linker flags apply to linking of subsequent files.
ApplicableFlags = Flags;
@ -266,7 +266,7 @@ int main(int argc, char **argv) {
cl::ParseCommandLineOptions(argc, argv, "llvm linker\n");
auto Composite = make_unique<Module>("llvm-link", Context);
Linker L(Composite.get(), diagnosticHandler);
Linker L(*Composite, diagnosticHandler);
unsigned Flags = Linker::Flags::None;
if (Internalize)

11
llvm/unittests/Linker/LinkModulesTest.cpp
View File

@ -93,7 +93,7 @@ TEST_F(LinkModuleTest, BlockAddress) {
Builder.CreateRet(ConstantPointerNull::get(Type::getInt8PtrTy(Ctx)));
Module *LinkedModule = new Module("MyModuleLinked", Ctx);
Linker::LinkModules(LinkedModule, M.get());
Linker::linkModules(*LinkedModule, *M);
// Delete the original module.
M.reset();
@ -169,13 +169,13 @@ static Module *getInternal(LLVMContext &Ctx) {
TEST_F(LinkModuleTest, EmptyModule) {
std::unique_ptr<Module> InternalM(getInternal(Ctx));
std::unique_ptr<Module> EmptyM(new Module("EmptyModule1", Ctx));
Linker::LinkModules(EmptyM.get(), InternalM.get());
Linker::linkModules(*EmptyM, *InternalM);
}
TEST_F(LinkModuleTest, EmptyModule2) {
std::unique_ptr<Module> InternalM(getInternal(Ctx));
std::unique_ptr<Module> EmptyM(new Module("EmptyModule1", Ctx));
Linker::LinkModules(InternalM.get(), EmptyM.get());
Linker::linkModules(*InternalM, *EmptyM);
}
TEST_F(LinkModuleTest, TypeMerge) {
@ -190,7 +190,7 @@ TEST_F(LinkModuleTest, TypeMerge) {
"@t2 = weak global %t zeroinitializer\n";
std::unique_ptr<Module> M2 = parseAssemblyString(M2Str, Err, C);
Linker::LinkModules(M1.get(), M2.get(), [](const llvm::DiagnosticInfo &){});
Linker::linkModules(*M1, *M2, [](const llvm::DiagnosticInfo &) {});
EXPECT_EQ(M1->getNamedGlobal("t1")->getType(),
M1->getNamedGlobal("t2")->getType());
@ -267,8 +267,7 @@ TEST_F(LinkModuleTest, MoveDistinctMDs) {
// Link into destination module.
auto Dst = llvm::make_unique<Module>("Linked", C);
ASSERT_TRUE(Dst.get());
Linker::LinkModules(Dst.get(), Src.get(),
[](const llvm::DiagnosticInfo &) {});
Linker::linkModules(*Dst, *Src, [](const llvm::DiagnosticInfo &) {});
// Check that distinct metadata was moved, not cloned. Even !4, the uniqued
// node, should effectively be moved, since its only operand hasn't changed.