class LLVMContext;
class TargetMachine;
+/// Wrapper around MemoryBufferRef, owning the identifier
+class ThinLTOBuffer {
+ std::string OwnedIdentifier;
+ StringRef Buffer;
+
+public:
+ ThinLTOBuffer(StringRef Buffer, StringRef Identifier)
+ : OwnedIdentifier(Identifier), Buffer(Buffer) {}
+
+ MemoryBufferRef getMemBuffer() const {
+ return MemoryBufferRef(Buffer,
+ {OwnedIdentifier.c_str(), OwnedIdentifier.size()});
+ }
+ StringRef getBuffer() const { return Buffer; }
+ StringRef getBufferIdentifier() const { return OwnedIdentifier; }
+};
+
/// Helper to gather options relevant to the target machine creation
struct TargetMachineBuilder {
Triple TheTriple;
/// Vector holding the input buffers containing the bitcode modules to
/// process.
- std::vector<MemoryBufferRef> Modules;
+ std::vector<ThinLTOBuffer> Modules;
/// Set of symbols that need to be preserved outside of the set of bitcode
/// files.
}
static StringMap<MemoryBufferRef>
-generateModuleMap(const std::vector<MemoryBufferRef> &Modules) {
+generateModuleMap(const std::vector<ThinLTOBuffer> &Modules) {
StringMap<MemoryBufferRef> ModuleMap;
for (auto &ModuleBuffer : Modules) {
assert(ModuleMap.find(ModuleBuffer.getBufferIdentifier()) ==
ModuleMap.end() &&
"Expect unique Buffer Identifier");
- ModuleMap[ModuleBuffer.getBufferIdentifier()] = ModuleBuffer;
+ ModuleMap[ModuleBuffer.getBufferIdentifier()] = ModuleBuffer.getMemBuffer();
}
return ModuleMap;
}
} // end anonymous namespace
void ThinLTOCodeGenerator::addModule(StringRef Identifier, StringRef Data) {
- MemoryBufferRef Buffer(Data, Identifier);
+ ThinLTOBuffer Buffer(Data, Identifier);
if (Modules.empty()) {
// First module added, so initialize the triple and some options
LLVMContext Context;
StringRef TripleStr;
- ErrorOr<std::string> TripleOrErr =
- expectedToErrorOrAndEmitErrors(Context, getBitcodeTargetTriple(Buffer));
+ ErrorOr<std::string> TripleOrErr = expectedToErrorOrAndEmitErrors(
+ Context, getBitcodeTargetTriple(Buffer.getMemBuffer()));
if (TripleOrErr)
TripleStr = *TripleOrErr;
Triple TheTriple(TripleStr);
else {
LLVMContext Context;
StringRef TripleStr;
- ErrorOr<std::string> TripleOrErr =
- expectedToErrorOrAndEmitErrors(Context, getBitcodeTargetTriple(Buffer));
+ ErrorOr<std::string> TripleOrErr = expectedToErrorOrAndEmitErrors(
+ Context, getBitcodeTargetTriple(Buffer.getMemBuffer()));
if (TripleOrErr)
TripleStr = *TripleOrErr;
assert(TMBuilder.TheTriple.str() == TripleStr &&
uint64_t NextModuleId = 0;
for (auto &ModuleBuffer : Modules) {
Expected<std::unique_ptr<object::ModuleSummaryIndexObjectFile>> ObjOrErr =
- object::ModuleSummaryIndexObjectFile::create(ModuleBuffer);
+ object::ModuleSummaryIndexObjectFile::create(
+ ModuleBuffer.getMemBuffer());
if (!ObjOrErr) {
// FIXME diagnose
logAllUnhandledErrors(
Context.setDiscardValueNames(LTODiscardValueNames);
// Parse module now
- auto TheModule = loadModuleFromBuffer(ModuleBuffer, Context, false,
- /*IsImporting*/ false);
+ auto TheModule =
+ loadModuleFromBuffer(ModuleBuffer.getMemBuffer(), Context, false,
+ /*IsImporting*/ false);
// CodeGen
auto OutputBuffer = codegen(*TheModule);
std::iota(ModulesOrdering.begin(), ModulesOrdering.end(), 0);
std::sort(ModulesOrdering.begin(), ModulesOrdering.end(),
[&](int LeftIndex, int RightIndex) {
- auto LSize = Modules[LeftIndex].getBufferSize();
- auto RSize = Modules[RightIndex].getBufferSize();
+ auto LSize = Modules[LeftIndex].getBuffer().size();
+ auto RSize = Modules[RightIndex].getBuffer().size();
return LSize > RSize;
});
}
// Parse module now
- auto TheModule = loadModuleFromBuffer(ModuleBuffer, Context, false,
- /*IsImporting*/ false);
+ auto TheModule =
+ loadModuleFromBuffer(ModuleBuffer.getMemBuffer(), Context, false,
+ /*IsImporting*/ false);
// Save temps: original file.
saveTempBitcode(*TheModule, SaveTempsDir, count, ".0.original.bc");