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clang-p2996/llvm/lib/MC/TargetRegistry.cpp
Archibald Elliott 142aa1bdd1 [Support] Move Target/CPU Printing out of CommandLine 
This change is rather more invasive than intended. The main intention
here is to make CommandLine.cpp not rely on llvm/Support/Host.h. Right
now, this reliance is only in 3 superficial places:
- Choosing how to expand response files (in two places)
- Printing the default triple and current CPU in `--version` output.

The built in version system has a method for adding "extra version
printers", commonly used by several tools (such as llc) to report the
registered targets in the built version of LLVM. It was reasonably easy
to move the logic for printing the default triple and current CPU into
a similar function, and register it with any relevant binaries.

The incompatible change here is that now, even if
LLVM_VERSION_PRINTER_SHOW_HOST_TARGET_INFO is defined, most binaries
will no longer print out the default target triple and cpu when provided
with `--version`, for instance llvm-as and llvm-dis. This breakage is
intended, but the changes in this patch keep printing the default target
and detected in `llc` and `opt` as these were remarked as important
binaries in the LLVM install.

The change to expanding response files may also be controversial, but I
believe that these macros should correspond exactly to the host triple
introspection used before.

Differential Revision: https://reviews.llvm.org/D137837
2022-12-20 09:56:14 +00:00

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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/Support/raw_ostream.h"
#include <cassert>
#include <vector>
using namespace llvm;
// Clients are responsible for avoid race conditions in registration.
static Target *FirstTarget = nullptr;
iterator_range<TargetRegistry::iterator> TargetRegistry::targets() {
return make_range(iterator(FirstTarget), iterator());
}
const Target *TargetRegistry::lookupTarget(const std::string &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 + "'.\n";
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.getTriple(), TempError);
if (!TheTarget) {
Error = "unable to get target for '"
+ TheTriple.getTriple()
+ "', see --version and --triple.\n";
return nullptr;
}
}
return TheTarget;
}
const Target *TargetRegistry::lookupTarget(const std::string &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 = Triple(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 + "\"";
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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