218 lines
6.2 KiB
C++
218 lines
6.2 KiB
C++
#include "LLVMWrapper.h"
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#include "llvm/Object/Archive.h"
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#include "llvm/Object/ArchiveWriter.h"
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#include "llvm/Support/Path.h"
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using namespace llvm;
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using namespace llvm::object;
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struct RustArchiveMember {
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const char *Filename;
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const char *Name;
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Archive::Child Child;
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RustArchiveMember()
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: Filename(nullptr), Name(nullptr),
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Child(nullptr, nullptr, nullptr)
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{
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}
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~RustArchiveMember() {}
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};
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struct RustArchiveIterator {
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bool First;
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Archive::child_iterator Cur;
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Archive::child_iterator End;
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std::unique_ptr<Error> Err;
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RustArchiveIterator(Archive::child_iterator Cur, Archive::child_iterator End,
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std::unique_ptr<Error> Err)
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: First(true),
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Cur(Cur),
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End(End),
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Err(std::move(Err)) {}
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};
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enum class LLVMRustArchiveKind {
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GNU,
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BSD,
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DARWIN,
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COFF,
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AIX_BIG,
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};
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static Archive::Kind fromRust(LLVMRustArchiveKind Kind) {
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switch (Kind) {
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case LLVMRustArchiveKind::GNU:
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return Archive::K_GNU;
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case LLVMRustArchiveKind::BSD:
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return Archive::K_BSD;
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case LLVMRustArchiveKind::DARWIN:
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return Archive::K_DARWIN;
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case LLVMRustArchiveKind::COFF:
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return Archive::K_COFF;
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case LLVMRustArchiveKind::AIX_BIG:
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return Archive::K_AIXBIG;
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default:
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report_fatal_error("Bad ArchiveKind.");
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}
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}
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typedef OwningBinary<Archive> *LLVMRustArchiveRef;
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typedef RustArchiveMember *LLVMRustArchiveMemberRef;
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typedef Archive::Child *LLVMRustArchiveChildRef;
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typedef Archive::Child const *LLVMRustArchiveChildConstRef;
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typedef RustArchiveIterator *LLVMRustArchiveIteratorRef;
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extern "C" LLVMRustArchiveRef LLVMRustOpenArchive(char *Path) {
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ErrorOr<std::unique_ptr<MemoryBuffer>> BufOr =
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MemoryBuffer::getFile(Path, /*IsText*/false, /*RequiresNullTerminator=*/false);
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if (!BufOr) {
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LLVMRustSetLastError(BufOr.getError().message().c_str());
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return nullptr;
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}
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Expected<std::unique_ptr<Archive>> ArchiveOr =
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Archive::create(BufOr.get()->getMemBufferRef());
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if (!ArchiveOr) {
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LLVMRustSetLastError(toString(ArchiveOr.takeError()).c_str());
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return nullptr;
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}
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OwningBinary<Archive> *Ret = new OwningBinary<Archive>(
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std::move(ArchiveOr.get()), std::move(BufOr.get()));
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return Ret;
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}
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extern "C" void LLVMRustDestroyArchive(LLVMRustArchiveRef RustArchive) {
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delete RustArchive;
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}
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extern "C" LLVMRustArchiveIteratorRef
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LLVMRustArchiveIteratorNew(LLVMRustArchiveRef RustArchive) {
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Archive *Archive = RustArchive->getBinary();
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std::unique_ptr<Error> Err = std::make_unique<Error>(Error::success());
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auto Cur = Archive->child_begin(*Err);
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if (*Err) {
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LLVMRustSetLastError(toString(std::move(*Err)).c_str());
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return nullptr;
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}
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auto End = Archive->child_end();
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return new RustArchiveIterator(Cur, End, std::move(Err));
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}
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extern "C" LLVMRustArchiveChildConstRef
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LLVMRustArchiveIteratorNext(LLVMRustArchiveIteratorRef RAI) {
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if (RAI->Cur == RAI->End)
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return nullptr;
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// Advancing the iterator validates the next child, and this can
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// uncover an error. LLVM requires that we check all Errors,
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// so we only advance the iterator if we actually need to fetch
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// the next child.
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// This means we must not advance the iterator in the *first* call,
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// but instead advance it *before* fetching the child in all later calls.
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if (!RAI->First) {
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++RAI->Cur;
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if (*RAI->Err) {
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LLVMRustSetLastError(toString(std::move(*RAI->Err)).c_str());
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return nullptr;
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}
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} else {
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RAI->First = false;
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}
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if (RAI->Cur == RAI->End)
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return nullptr;
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const Archive::Child &Child = *RAI->Cur.operator->();
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Archive::Child *Ret = new Archive::Child(Child);
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return Ret;
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}
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extern "C" void LLVMRustArchiveChildFree(LLVMRustArchiveChildRef Child) {
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delete Child;
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}
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extern "C" void LLVMRustArchiveIteratorFree(LLVMRustArchiveIteratorRef RAI) {
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delete RAI;
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}
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extern "C" const char *
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LLVMRustArchiveChildName(LLVMRustArchiveChildConstRef Child, size_t *Size) {
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Expected<StringRef> NameOrErr = Child->getName();
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if (!NameOrErr) {
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// rustc_codegen_llvm currently doesn't use this error string, but it might be
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// useful in the future, and in the meantime this tells LLVM that the
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// error was not ignored and that it shouldn't abort the process.
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LLVMRustSetLastError(toString(NameOrErr.takeError()).c_str());
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return nullptr;
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}
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StringRef Name = NameOrErr.get();
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*Size = Name.size();
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return Name.data();
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}
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extern "C" LLVMRustArchiveMemberRef
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LLVMRustArchiveMemberNew(char *Filename, char *Name,
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LLVMRustArchiveChildRef Child) {
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RustArchiveMember *Member = new RustArchiveMember;
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Member->Filename = Filename;
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Member->Name = Name;
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if (Child)
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Member->Child = *Child;
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return Member;
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}
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extern "C" void LLVMRustArchiveMemberFree(LLVMRustArchiveMemberRef Member) {
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delete Member;
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}
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extern "C" LLVMRustResult
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LLVMRustWriteArchive(char *Dst, size_t NumMembers,
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const LLVMRustArchiveMemberRef *NewMembers,
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bool WriteSymbtab, LLVMRustArchiveKind RustKind) {
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std::vector<NewArchiveMember> Members;
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auto Kind = fromRust(RustKind);
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for (size_t I = 0; I < NumMembers; I++) {
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auto Member = NewMembers[I];
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assert(Member->Name);
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if (Member->Filename) {
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Expected<NewArchiveMember> MOrErr =
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NewArchiveMember::getFile(Member->Filename, true);
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if (!MOrErr) {
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LLVMRustSetLastError(toString(MOrErr.takeError()).c_str());
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return LLVMRustResult::Failure;
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}
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MOrErr->MemberName = sys::path::filename(MOrErr->MemberName);
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Members.push_back(std::move(*MOrErr));
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} else {
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Expected<NewArchiveMember> MOrErr =
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NewArchiveMember::getOldMember(Member->Child, true);
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if (!MOrErr) {
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LLVMRustSetLastError(toString(MOrErr.takeError()).c_str());
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return LLVMRustResult::Failure;
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}
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Members.push_back(std::move(*MOrErr));
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}
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}
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#if LLVM_VERSION_LT(18, 0)
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auto Result = writeArchive(Dst, Members, WriteSymbtab, Kind, true, false);
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#else
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auto SymtabMode = WriteSymbtab ? SymtabWritingMode::NormalSymtab : SymtabWritingMode::NoSymtab;
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auto Result = writeArchive(Dst, Members, SymtabMode, Kind, true, false);
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#endif
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if (!Result)
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return LLVMRustResult::Success;
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LLVMRustSetLastError(toString(std::move(Result)).c_str());
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return LLVMRustResult::Failure;
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}
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