clang/lib/Driver/Multilib.cpp - toolchain/llvm-project - Gitiles

 //===- Multilib.cpp - Multilib Implementation -----------------------------===//
 //
 // 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 "clang/Driver/Multilib.h"
 #include "clang/Basic/LLVM.h"
 #include "llvm/ADT/SmallString.h"
 #include "llvm/ADT/StringMap.h"
 #include "llvm/ADT/StringRef.h"
 #include "llvm/ADT/StringSet.h"
 #include "llvm/Support/Compiler.h"
 #include "llvm/Support/ErrorHandling.h"
 #include "llvm/Support/Path.h"
 #include "llvm/Support/Regex.h"
 #include "llvm/Support/raw_ostream.h"
 #include <algorithm>
 #include <cassert>
 #include <string>

 using namespace clang;
 using namespace driver;
 using namespace llvm::sys;

 /// normalize Segment to "/foo/bar" or "".
 static void normalizePathSegment(std::string &Segment) {
   StringRef seg = Segment;

   // Prune trailing "/" or "./"
   while (true) {
     StringRef last = path::filename(seg);
     if (last != ".")
       break;
     seg = path::parent_path(seg);
   }

   if (seg.empty() || seg == "/") {
     Segment.clear();
     return;
   }

   // Add leading '/'
   if (seg.front() != '/') {
     Segment = "/" + seg.str();
   } else {
     Segment = seg;
   }
 }

 Multilib::Multilib(StringRef GCCSuffix, StringRef OSSuffix,
                    StringRef IncludeSuffix)
     : GCCSuffix(GCCSuffix), OSSuffix(OSSuffix), IncludeSuffix(IncludeSuffix) {
   normalizePathSegment(this->GCCSuffix);
   normalizePathSegment(this->OSSuffix);
   normalizePathSegment(this->IncludeSuffix);
 }

 Multilib &Multilib::gccSuffix(StringRef S) {
   GCCSuffix = S;
   normalizePathSegment(GCCSuffix);
   return *this;
 }

 Multilib &Multilib::osSuffix(StringRef S) {
   OSSuffix = S;
   normalizePathSegment(OSSuffix);
   return *this;
 }

 Multilib &Multilib::includeSuffix(StringRef S) {
   IncludeSuffix = S;
   normalizePathSegment(IncludeSuffix);
   return *this;
 }

 LLVM_DUMP_METHOD void Multilib::dump() const {
   print(llvm::errs());
 }

 void Multilib::print(raw_ostream &OS) const {
   assert(GCCSuffix.empty() || (StringRef(GCCSuffix).front() == '/'));
   if (GCCSuffix.empty())
     OS << ".";
   else {
     OS << StringRef(GCCSuffix).drop_front();
   }
   OS << ";";
   for (StringRef Flag : Flags) {
     if (Flag.front() == '+')
       OS << "@" << Flag.substr(1);
   }
 }

 bool Multilib::isValid() const {
   llvm::StringMap<int> FlagSet;
   for (unsigned I = 0, N = Flags.size(); I != N; ++I) {
     StringRef Flag(Flags[I]);
     llvm::StringMap<int>::iterator SI = FlagSet.find(Flag.substr(1));

     assert(StringRef(Flag).front() == '+' || StringRef(Flag).front() == '-');

     if (SI == FlagSet.end())
       FlagSet[Flag.substr(1)] = I;
     else if (Flags[I] != Flags[SI->getValue()])
       return false;
   }
   return true;
 }

 bool Multilib::operator==(const Multilib &Other) const {
   // Check whether the flags sets match
   // allowing for the match to be order invariant
   llvm::StringSet<> MyFlags;
   for (const auto &Flag : Flags)
     MyFlags.insert(Flag);

   for (const auto &Flag : Other.Flags)
     if (MyFlags.find(Flag) == MyFlags.end())
       return false;

   if (osSuffix() != Other.osSuffix())
     return false;

   if (gccSuffix() != Other.gccSuffix())
     return false;

   if (includeSuffix() != Other.includeSuffix())
     return false;

   return true;
 }

 raw_ostream &clang::driver::operator<<(raw_ostream &OS, const Multilib &M) {
   M.print(OS);
   return OS;
 }

 MultilibSet &MultilibSet::Maybe(const Multilib &M) {
   Multilib Opposite;
   // Negate any '+' flags
   for (StringRef Flag : M.flags()) {
     if (Flag.front() == '+')
       Opposite.flags().push_back(("-" + Flag.substr(1)).str());
   }
   return Either(M, Opposite);
 }

 MultilibSet &MultilibSet::Either(const Multilib &M1, const Multilib &M2) {
   return Either({M1, M2});
 }

 MultilibSet &MultilibSet::Either(const Multilib &M1, const Multilib &M2,
                                  const Multilib &M3) {
   return Either({M1, M2, M3});
 }

 MultilibSet &MultilibSet::Either(const Multilib &M1, const Multilib &M2,
                                  const Multilib &M3, const Multilib &M4) {
   return Either({M1, M2, M3, M4});
 }

 MultilibSet &MultilibSet::Either(const Multilib &M1, const Multilib &M2,
                                  const Multilib &M3, const Multilib &M4,
                                  const Multilib &M5) {
   return Either({M1, M2, M3, M4, M5});
 }

 static Multilib compose(const Multilib &Base, const Multilib &New) {
   SmallString<128> GCCSuffix;
   llvm::sys::path::append(GCCSuffix, "/", Base.gccSuffix(), New.gccSuffix());
   SmallString<128> OSSuffix;
   llvm::sys::path::append(OSSuffix, "/", Base.osSuffix(), New.osSuffix());
   SmallString<128> IncludeSuffix;
   llvm::sys::path::append(IncludeSuffix, "/", Base.includeSuffix(),
                           New.includeSuffix());

   Multilib Composed(GCCSuffix, OSSuffix, IncludeSuffix);

   Multilib::flags_list &Flags = Composed.flags();

   Flags.insert(Flags.end(), Base.flags().begin(), Base.flags().end());
   Flags.insert(Flags.end(), New.flags().begin(), New.flags().end());

   return Composed;
 }

 MultilibSet &MultilibSet::Either(ArrayRef<Multilib> MultilibSegments) {
   multilib_list Composed;

   if (Multilibs.empty())
     Multilibs.insert(Multilibs.end(), MultilibSegments.begin(),
                      MultilibSegments.end());
   else {
     for (const auto &New : MultilibSegments) {
       for (const auto &Base : *this) {
         Multilib MO = compose(Base, New);
         if (MO.isValid())
           Composed.push_back(MO);
       }
     }

     Multilibs = Composed;
   }

   return *this;
 }

 MultilibSet &MultilibSet::FilterOut(FilterCallback F) {
   filterInPlace(F, Multilibs);
   return *this;
 }

 MultilibSet &MultilibSet::FilterOut(const char *Regex) {
   llvm::Regex R(Regex);
 #ifndef NDEBUG
   std::string Error;
   if (!R.isValid(Error)) {
     llvm::errs() << Error;
     llvm_unreachable("Invalid regex!");
   }
 #endif

   filterInPlace([&R](const Multilib &M) { return R.match(M.gccSuffix()); },
                 Multilibs);
   return *this;
 }

 void MultilibSet::push_back(const Multilib &M) { Multilibs.push_back(M); }

 void MultilibSet::combineWith(const MultilibSet &Other) {
   Multilibs.insert(Multilibs.end(), Other.begin(), Other.end());
 }

 static bool isFlagEnabled(StringRef Flag) {
   char Indicator = Flag.front();
   assert(Indicator == '+' || Indicator == '-');
   return Indicator == '+';
 }

 bool MultilibSet::select(const Multilib::flags_list &Flags, Multilib &M) const {
   llvm::StringMap<bool> FlagSet;

   // Stuff all of the flags into the FlagSet such that a true mappend indicates
   // the flag was enabled, and a false mappend indicates the flag was disabled.
   for (StringRef Flag : Flags)
     FlagSet[Flag.substr(1)] = isFlagEnabled(Flag);

   multilib_list Filtered = filterCopy([&FlagSet](const Multilib &M) {
     for (StringRef Flag : M.flags()) {
       llvm::StringMap<bool>::const_iterator SI = FlagSet.find(Flag.substr(1));
       if (SI != FlagSet.end())
         if (SI->getValue() != isFlagEnabled(Flag))
           return true;
     }
     return false;
   }, Multilibs);

   if (Filtered.empty())
     return false;
   if (Filtered.size() == 1) {
     M = Filtered[0];
     return true;
   }

   // TODO: pick the "best" multlib when more than one is suitable
   assert(false);
   return false;
 }

 LLVM_DUMP_METHOD void MultilibSet::dump() const {
   print(llvm::errs());
 }

 void MultilibSet::print(raw_ostream &OS) const {
   for (const auto &M : *this)
     OS << M << "\n";
 }

 MultilibSet::multilib_list MultilibSet::filterCopy(FilterCallback F,
                                                    const multilib_list &Ms) {
   multilib_list Copy(Ms);
   filterInPlace(F, Copy);
   return Copy;
 }

 void MultilibSet::filterInPlace(FilterCallback F, multilib_list &Ms) {
   Ms.erase(std::remove_if(Ms.begin(), Ms.end(), F), Ms.end());
 }

 raw_ostream &clang::driver::operator<<(raw_ostream &OS, const MultilibSet &MS) {
   MS.print(OS);
   return OS;
 }
	//===- Multilib.cpp - Multilib Implementation -----------------------------===//
	//
	// 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 "clang/Driver/Multilib.h"
	#include "clang/Basic/LLVM.h"
	#include "llvm/ADT/SmallString.h"
	#include "llvm/ADT/StringMap.h"
	#include "llvm/ADT/StringRef.h"
	#include "llvm/ADT/StringSet.h"
	#include "llvm/Support/Compiler.h"
	#include "llvm/Support/ErrorHandling.h"
	#include "llvm/Support/Path.h"
	#include "llvm/Support/Regex.h"
	#include "llvm/Support/raw_ostream.h"
	#include <algorithm>
	#include <cassert>
	#include <string>

	using namespace clang;
	using namespace driver;
	using namespace llvm::sys;

	/// normalize Segment to "/foo/bar" or "".
	static void normalizePathSegment(std::string &Segment) {
	StringRef seg = Segment;

	// Prune trailing "/" or "./"
	while (true) {
	StringRef last = path::filename(seg);
	if (last != ".")
	break;
	seg = path::parent_path(seg);
	}

	if (seg.empty() \|\| seg == "/") {
	Segment.clear();
	return;
	}

	// Add leading '/'
	if (seg.front() != '/') {
	Segment = "/" + seg.str();
	} else {
	Segment = seg;
	}
	}

	Multilib::Multilib(StringRef GCCSuffix, StringRef OSSuffix,
	StringRef IncludeSuffix)
	: GCCSuffix(GCCSuffix), OSSuffix(OSSuffix), IncludeSuffix(IncludeSuffix) {
	normalizePathSegment(this->GCCSuffix);
	normalizePathSegment(this->OSSuffix);
	normalizePathSegment(this->IncludeSuffix);
	}

	Multilib &Multilib::gccSuffix(StringRef S) {
	GCCSuffix = S;
	normalizePathSegment(GCCSuffix);
	return *this;
	}

	Multilib &Multilib::osSuffix(StringRef S) {
	OSSuffix = S;
	normalizePathSegment(OSSuffix);
	return *this;
	}

	Multilib &Multilib::includeSuffix(StringRef S) {
	IncludeSuffix = S;
	normalizePathSegment(IncludeSuffix);
	return *this;
	}

	LLVM_DUMP_METHOD void Multilib::dump() const {
	print(llvm::errs());
	}

	void Multilib::print(raw_ostream &OS) const {
	assert(GCCSuffix.empty() \|\| (StringRef(GCCSuffix).front() == '/'));
	if (GCCSuffix.empty())
	OS << ".";
	else {
	OS << StringRef(GCCSuffix).drop_front();
	}
	OS << ";";
	for (StringRef Flag : Flags) {
	if (Flag.front() == '+')
	OS << "@" << Flag.substr(1);
	}
	}

	bool Multilib::isValid() const {
	llvm::StringMap<int> FlagSet;
	for (unsigned I = 0, N = Flags.size(); I != N; ++I) {
	StringRef Flag(Flags[I]);
	llvm::StringMap<int>::iterator SI = FlagSet.find(Flag.substr(1));

	assert(StringRef(Flag).front() == '+' \|\| StringRef(Flag).front() == '-');

	if (SI == FlagSet.end())
	FlagSet[Flag.substr(1)] = I;
	else if (Flags[I] != Flags[SI->getValue()])
	return false;
	}
	return true;
	}

	bool Multilib::operator==(const Multilib &Other) const {
	// Check whether the flags sets match
	// allowing for the match to be order invariant
	llvm::StringSet<> MyFlags;
	for (const auto &Flag : Flags)
	MyFlags.insert(Flag);

	for (const auto &Flag : Other.Flags)
	if (MyFlags.find(Flag) == MyFlags.end())
	return false;

	if (osSuffix() != Other.osSuffix())
	return false;

	if (gccSuffix() != Other.gccSuffix())
	return false;

	if (includeSuffix() != Other.includeSuffix())
	return false;

	return true;
	}

	raw_ostream &clang::driver::operator<<(raw_ostream &OS, const Multilib &M) {
	M.print(OS);
	return OS;
	}

	MultilibSet &MultilibSet::Maybe(const Multilib &M) {
	Multilib Opposite;
	// Negate any '+' flags
	for (StringRef Flag : M.flags()) {
	if (Flag.front() == '+')
	Opposite.flags().push_back(("-" + Flag.substr(1)).str());
	}
	return Either(M, Opposite);
	}

	MultilibSet &MultilibSet::Either(const Multilib &M1, const Multilib &M2) {
	return Either({M1, M2});
	}

	MultilibSet &MultilibSet::Either(const Multilib &M1, const Multilib &M2,
	const Multilib &M3) {
	return Either({M1, M2, M3});
	}

	MultilibSet &MultilibSet::Either(const Multilib &M1, const Multilib &M2,
	const Multilib &M3, const Multilib &M4) {
	return Either({M1, M2, M3, M4});
	}

	MultilibSet &MultilibSet::Either(const Multilib &M1, const Multilib &M2,
	const Multilib &M3, const Multilib &M4,
	const Multilib &M5) {
	return Either({M1, M2, M3, M4, M5});
	}

	static Multilib compose(const Multilib &Base, const Multilib &New) {
	SmallString<128> GCCSuffix;
	llvm::sys::path::append(GCCSuffix, "/", Base.gccSuffix(), New.gccSuffix());
	SmallString<128> OSSuffix;
	llvm::sys::path::append(OSSuffix, "/", Base.osSuffix(), New.osSuffix());
	SmallString<128> IncludeSuffix;
	llvm::sys::path::append(IncludeSuffix, "/", Base.includeSuffix(),
	New.includeSuffix());

	Multilib Composed(GCCSuffix, OSSuffix, IncludeSuffix);

	Multilib::flags_list &Flags = Composed.flags();

	Flags.insert(Flags.end(), Base.flags().begin(), Base.flags().end());
	Flags.insert(Flags.end(), New.flags().begin(), New.flags().end());

	return Composed;
	}

	MultilibSet &MultilibSet::Either(ArrayRef<Multilib> MultilibSegments) {
	multilib_list Composed;

	if (Multilibs.empty())
	Multilibs.insert(Multilibs.end(), MultilibSegments.begin(),
	MultilibSegments.end());
	else {
	for (const auto &New : MultilibSegments) {
	for (const auto &Base : *this) {
	Multilib MO = compose(Base, New);
	if (MO.isValid())
	Composed.push_back(MO);
	}
	}

	Multilibs = Composed;
	}

	return *this;
	}

	MultilibSet &MultilibSet::FilterOut(FilterCallback F) {
	filterInPlace(F, Multilibs);
	return *this;
	}

	MultilibSet &MultilibSet::FilterOut(const char *Regex) {
	llvm::Regex R(Regex);
	#ifndef NDEBUG
	std::string Error;
	if (!R.isValid(Error)) {
	llvm::errs() << Error;
	llvm_unreachable("Invalid regex!");
	}
	#endif

	filterInPlace([&R](const Multilib &M) { return R.match(M.gccSuffix()); },
	Multilibs);
	return *this;
	}

	void MultilibSet::push_back(const Multilib &M) { Multilibs.push_back(M); }

	void MultilibSet::combineWith(const MultilibSet &Other) {
	Multilibs.insert(Multilibs.end(), Other.begin(), Other.end());
	}

	static bool isFlagEnabled(StringRef Flag) {
	char Indicator = Flag.front();
	assert(Indicator == '+' \|\| Indicator == '-');
	return Indicator == '+';
	}

	bool MultilibSet::select(const Multilib::flags_list &Flags, Multilib &M) const {
	llvm::StringMap<bool> FlagSet;

	// Stuff all of the flags into the FlagSet such that a true mappend indicates
	// the flag was enabled, and a false mappend indicates the flag was disabled.
	for (StringRef Flag : Flags)
	FlagSet[Flag.substr(1)] = isFlagEnabled(Flag);

	multilib_list Filtered = filterCopy([&FlagSet](const Multilib &M) {
	for (StringRef Flag : M.flags()) {
	llvm::StringMap<bool>::const_iterator SI = FlagSet.find(Flag.substr(1));
	if (SI != FlagSet.end())
	if (SI->getValue() != isFlagEnabled(Flag))
	return true;
	}
	return false;
	}, Multilibs);

	if (Filtered.empty())
	return false;
	if (Filtered.size() == 1) {
	M = Filtered[0];
	return true;
	}

	// TODO: pick the "best" multlib when more than one is suitable
	assert(false);
	return false;
	}

	LLVM_DUMP_METHOD void MultilibSet::dump() const {
	print(llvm::errs());
	}

	void MultilibSet::print(raw_ostream &OS) const {
	for (const auto &M : *this)
	OS << M << "\n";
	}

	MultilibSet::multilib_list MultilibSet::filterCopy(FilterCallback F,
	const multilib_list &Ms) {
	multilib_list Copy(Ms);
	filterInPlace(F, Copy);
	return Copy;
	}

	void MultilibSet::filterInPlace(FilterCallback F, multilib_list &Ms) {
	Ms.erase(std::remove_if(Ms.begin(), Ms.end(), F), Ms.end());
	}

	raw_ostream &clang::driver::operator<<(raw_ostream &OS, const MultilibSet &MS) {
	MS.print(OS);
	return OS;
	}