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llvm-project/llvm/lib/MC/TargetRegistry.cpp
Nikita Popov 979c275097
[IR] Store Triple in Module (NFC) (#129868) 
The module currently stores the target triple as a string. This means
that any code that wants to actually use the triple first has to
instantiate a Triple, which is somewhat expensive. The change in #121652
caused a moderate compile-time regression due to this. While it would be
easy enough to work around, I think that architecturally, it makes more
sense to store the parsed Triple in the module, so that it can always be
directly queried.

For this change, I've opted not to add any magic conversions between
std::string and Triple for backwards-compatibilty purses, and instead
write out needed Triple()s or str()s explicitly. This is because I think
a decent number of them should be changed to work on Triple as well, to
avoid unnecessary conversions back and forth.

The only interesting part in this patch is that the default triple is
Triple("") instead of Triple() to preserve existing behavior. The former
defaults to using the ELF object format instead of unknown object
format. We should fix that as well.
2025-03-06 10:27:47 +01:00

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//===--- TargetRegistry.cpp - Target registration -------------------------===//
//
// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
// See https://llvm.org/LICENSE.txt for license information.
// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
//
//===----------------------------------------------------------------------===//
#include "llvm/MC/TargetRegistry.h"
#include "llvm/ADT/STLExtras.h"
#include "llvm/ADT/StringRef.h"
#include "llvm/MC/MCAsmBackend.h"
#include "llvm/MC/MCCodeEmitter.h"
#include "llvm/MC/MCContext.h"
#include "llvm/MC/MCObjectStreamer.h"
#include "llvm/MC/MCObjectWriter.h"
#include "llvm/Support/raw_ostream.h"
#include <cassert>
#include <vector>
using namespace llvm;
// Clients are responsible for avoid race conditions in registration.
static Target *FirstTarget = nullptr;
MCStreamer *Target::createMCObjectStreamer(
const Triple &T, MCContext &Ctx, std::unique_ptr<MCAsmBackend> TAB,
std::unique_ptr<MCObjectWriter> OW, std::unique_ptr<MCCodeEmitter> Emitter,
const MCSubtargetInfo &STI) const {
MCStreamer *S = nullptr;
switch (T.getObjectFormat()) {
case Triple::UnknownObjectFormat:
llvm_unreachable("Unknown object format");
case Triple::COFF:
assert(T.isOSWindowsOrUEFI() && "only Windows and UEFI COFF are supported");
S = COFFStreamerCtorFn(Ctx, std::move(TAB), std::move(OW),
std::move(Emitter));
break;
case Triple::MachO:
if (MachOStreamerCtorFn)
S = MachOStreamerCtorFn(Ctx, std::move(TAB), std::move(OW),
std::move(Emitter));
else
S = createMachOStreamer(Ctx, std::move(TAB), std::move(OW),
std::move(Emitter), false);
break;
case Triple::ELF:
if (ELFStreamerCtorFn)
S = ELFStreamerCtorFn(T, Ctx, std::move(TAB), std::move(OW),
std::move(Emitter));
else
S = createELFStreamer(Ctx, std::move(TAB), std::move(OW),
std::move(Emitter));
break;
case Triple::Wasm:
S = createWasmStreamer(Ctx, std::move(TAB), std::move(OW),
std::move(Emitter));
break;
case Triple::GOFF:
S = createGOFFStreamer(Ctx, std::move(TAB), std::move(OW),
std::move(Emitter));
break;
case Triple::XCOFF:
S = XCOFFStreamerCtorFn(T, Ctx, std::move(TAB), std::move(OW),
std::move(Emitter));
break;
case Triple::SPIRV:
S = createSPIRVStreamer(Ctx, std::move(TAB), std::move(OW),
std::move(Emitter));
break;
case Triple::DXContainer:
S = createDXContainerStreamer(Ctx, std::move(TAB), std::move(OW),
std::move(Emitter));
break;
}
if (ObjectTargetStreamerCtorFn)
ObjectTargetStreamerCtorFn(*S, STI);
return S;
}
MCStreamer *Target::createMCObjectStreamer(
const Triple &T, MCContext &Ctx, std::unique_ptr<MCAsmBackend> &&TAB,
std::unique_ptr<MCObjectWriter> &&OW,
std::unique_ptr<MCCodeEmitter> &&Emitter, const MCSubtargetInfo &STI, bool,
bool, bool) const {
return createMCObjectStreamer(T, Ctx, std::move(TAB), std::move(OW),
std::move(Emitter), STI);
}
MCStreamer *Target::createAsmStreamer(MCContext &Ctx,
std::unique_ptr<formatted_raw_ostream> OS,
MCInstPrinter *IP,
std::unique_ptr<MCCodeEmitter> CE,
std::unique_ptr<MCAsmBackend> TAB) const {
formatted_raw_ostream &OSRef = *OS;
MCStreamer *S = llvm::createAsmStreamer(Ctx, std::move(OS), IP,
std::move(CE), std::move(TAB));
createAsmTargetStreamer(*S, OSRef, IP);
return S;
}
MCStreamer *Target::createAsmStreamer(MCContext &Ctx,
std::unique_ptr<formatted_raw_ostream> OS,
bool IsVerboseAsm, bool UseDwarfDirectory,
MCInstPrinter *IP,
std::unique_ptr<MCCodeEmitter> &&CE,
std::unique_ptr<MCAsmBackend> &&TAB,
bool ShowInst) const {
return createAsmStreamer(Ctx, std::move(OS), IP, std::move(CE),
std::move(TAB));
}
iterator_range<TargetRegistry::iterator> TargetRegistry::targets() {
return make_range(iterator(FirstTarget), iterator());
}
const Target *TargetRegistry::lookupTarget(StringRef ArchName,
Triple &TheTriple,
std::string &Error) {
// Allocate target machine. First, check whether the user has explicitly
// specified an architecture to compile for. If so we have to look it up by
// name, because it might be a backend that has no mapping to a target triple.
const Target *TheTarget = nullptr;
if (!ArchName.empty()) {
auto I = find_if(targets(),
[&](const Target &T) { return ArchName == T.getName(); });
if (I == targets().end()) {
Error = ("invalid target '" + ArchName + "'.").str();
return nullptr;
}
TheTarget = &*I;
// Adjust the triple to match (if known), otherwise stick with the
// given triple.
Triple::ArchType Type = Triple::getArchTypeForLLVMName(ArchName);
if (Type != Triple::UnknownArch)
TheTriple.setArch(Type);
} else {
// Get the target specific parser.
std::string TempError;
TheTarget = TargetRegistry::lookupTarget(TheTriple, TempError);
if (!TheTarget) {
Error = "unable to get target for '" + TheTriple.getTriple() +
"', see --version and --triple.";
return nullptr;
}
}
return TheTarget;
}
const Target *TargetRegistry::lookupTarget(const Triple &TT,
std::string &Error) {
// Provide special warning when no targets are initialized.
if (targets().begin() == targets().end()) {
Error = "Unable to find target for this triple (no targets are registered)";
return nullptr;
}
Triple::ArchType Arch = TT.getArch();
auto ArchMatch = [&](const Target &T) { return T.ArchMatchFn(Arch); };
auto I = find_if(targets(), ArchMatch);
if (I == targets().end()) {
Error =
"No available targets are compatible with triple \"" + TT.str() + "\"";
return nullptr;
}
auto J = std::find_if(std::next(I), targets().end(), ArchMatch);
if (J != targets().end()) {
Error = std::string("Cannot choose between targets \"") + I->Name +
"\" and \"" + J->Name + "\"";
return nullptr;
}
return &*I;
}
void TargetRegistry::RegisterTarget(Target &T, const char *Name,
const char *ShortDesc,
const char *BackendName,
Target::ArchMatchFnTy ArchMatchFn,
bool HasJIT) {
assert(Name && ShortDesc && ArchMatchFn &&
"Missing required target information!");
// Check if this target has already been initialized, we allow this as a
// convenience to some clients.
if (T.Name)
return;
// Add to the list of targets.
T.Next = FirstTarget;
FirstTarget = &T;
T.Name = Name;
T.ShortDesc = ShortDesc;
T.BackendName = BackendName;
T.ArchMatchFn = ArchMatchFn;
T.HasJIT = HasJIT;
}
static int TargetArraySortFn(const std::pair<StringRef, const Target *> *LHS,
const std::pair<StringRef, const Target *> *RHS) {
return LHS->first.compare(RHS->first);
}
void TargetRegistry::printRegisteredTargetsForVersion(raw_ostream &OS) {
std::vector<std::pair<StringRef, const Target*> > Targets;
size_t Width = 0;
for (const auto &T : TargetRegistry::targets()) {
Targets.push_back(std::make_pair(T.getName(), &T));
Width = std::max(Width, Targets.back().first.size());
}
array_pod_sort(Targets.begin(), Targets.end(), TargetArraySortFn);
OS << "\n";
OS << " Registered Targets:\n";
for (const auto &Target : Targets) {
OS << " " << Target.first;
OS.indent(Width - Target.first.size())
<< " - " << Target.second->getShortDescription() << '\n';
}
if (Targets.empty())
OS << " (none)\n";
}
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