llvm/lib/Target/TargetMachineRegistry.cpp - toolchain/llvm-project - Gitiles

 //===-- TargetMachineRegistry.cpp - Target Auto Registration Impl ---------===//
 //
 //                     The LLVM Compiler Infrastructure
 //
 // This file was developed by the LLVM research group and is distributed under
 // the University of Illinois Open Source License. See LICENSE.TXT for details.
 //
 //===----------------------------------------------------------------------===//
 //
 // This file exposes the RegisterTarget class, which TargetMachine
 // implementations should use to register themselves with the system.  This file
 // also exposes the TargetMachineRegistry class, which allows tools to inspect
 // all of registered targets.
 //
 //===----------------------------------------------------------------------===//

 #include "llvm/Target/TargetMachineRegistry.h"
 #include <algorithm>
 using namespace llvm;

 /// List - This is the main list of all of the registered target machines.
 const TargetMachineRegistry::Entry *TargetMachineRegistry::List = 0;

 /// Listeners - All of the listeners registered to get notified when new targets
 /// are loaded.
 static TargetRegistrationListener *Listeners = 0;

 TargetMachineRegistry::Entry::Entry(const char *N, const char *SD,
                        TargetMachine *(*CF)(const Module &, IntrinsicLowering*,
                                             const std::string &),
                            unsigned (*MMF)(const Module &M), unsigned (*JMF)())
   : Name(N), ShortDesc(SD), CtorFn(CF), ModuleMatchQualityFn(MMF),
     JITMatchQualityFn(JMF), Next(List) {
   List = this;
   for (TargetRegistrationListener *L = Listeners; L; L = L->getNext())
     L->targetRegistered(this);
 }

 TargetRegistrationListener::TargetRegistrationListener() {
   Next = Listeners;
   if (Next) Next->Prev = &Next;
   Prev = &Listeners;
   Listeners = this;
 }

 TargetRegistrationListener::~TargetRegistrationListener() {
   *Prev = Next;
 }

 /// getClosestStaticTargetForModule - Given an LLVM module, pick the best target
 /// that is compatible with the module.  If no close target can be found, this
 /// returns null and sets the Error string to a reason.
 const TargetMachineRegistry::Entry *
 TargetMachineRegistry::getClosestStaticTargetForModule(const Module &M,
                                                        std::string &Error) {
   std::vector<std::pair<unsigned, const Entry *> > UsableTargets;
   for (const Entry *E = getList(); E; E = E->getNext())
     if (unsigned Qual = E->ModuleMatchQualityFn(M))
       UsableTargets.push_back(std::make_pair(Qual, E));

   if (UsableTargets.empty()) {
     Error = "No available targets are compatible with this module";
     return 0;
   } else if (UsableTargets.size() == 1)
     return UsableTargets.back().second;

   // Otherwise, take the best target, but make sure we don't have to equally
   // good best targets.
   std::sort(UsableTargets.begin(), UsableTargets.end());
   if (UsableTargets.back().first ==UsableTargets[UsableTargets.size()-2].first){
     Error = "Cannot choose between targets \"" +
       std::string(UsableTargets.back().second->Name) + "\" and \"" +
       std::string(UsableTargets[UsableTargets.size()-2].second->Name) + "\"";
     return 0;
   }
   return UsableTargets.back().second;
 }

 /// getClosestTargetForJIT - Given an LLVM module, pick the best target that
 /// is compatible with the current host and the specified module.  If no
 /// close target can be found, this returns null and sets the Error string
 /// to a reason.
 const TargetMachineRegistry::Entry *
 TargetMachineRegistry::getClosestTargetForJIT(std::string &Error) {
   std::vector<std::pair<unsigned, const Entry *> > UsableTargets;
   for (const Entry *E = getList(); E; E = E->getNext())
     if (unsigned Qual = E->JITMatchQualityFn())
       UsableTargets.push_back(std::make_pair(Qual, E));

   if (UsableTargets.empty()) {
     Error = "No JIT is available for this host";
     return 0;
   } else if (UsableTargets.size() == 1)
     return UsableTargets.back().second;

   // Otherwise, take the best target.  If there is a tie, just pick one.
   unsigned MaxQual = UsableTargets.front().first;
   const Entry *MaxQualTarget = UsableTargets.front().second;

   for (unsigned i = 1, e = UsableTargets.size(); i != e; ++i)
     if (UsableTargets[i].first > MaxQual) {
       MaxQual = UsableTargets[i].first;
       MaxQualTarget = UsableTargets[i].second;
     }

   return MaxQualTarget;
 }
	//===-- TargetMachineRegistry.cpp - Target Auto Registration Impl ---------===//
	//
	// The LLVM Compiler Infrastructure
	//
	// This file was developed by the LLVM research group and is distributed under
	// the University of Illinois Open Source License. See LICENSE.TXT for details.
	//
	//===----------------------------------------------------------------------===//
	//
	// This file exposes the RegisterTarget class, which TargetMachine
	// implementations should use to register themselves with the system. This file
	// also exposes the TargetMachineRegistry class, which allows tools to inspect
	// all of registered targets.
	//
	//===----------------------------------------------------------------------===//

	#include "llvm/Target/TargetMachineRegistry.h"
	#include <algorithm>
	using namespace llvm;

	/// List - This is the main list of all of the registered target machines.
	const TargetMachineRegistry::Entry *TargetMachineRegistry::List = 0;

	/// Listeners - All of the listeners registered to get notified when new targets
	/// are loaded.
	static TargetRegistrationListener *Listeners = 0;

	TargetMachineRegistry::Entry::Entry(const char N, const char SD,
	TargetMachine (CF)(const Module &, IntrinsicLowering*,
	const std::string &),
	unsigned (MMF)(const Module &M), unsigned (JMF)())
	: Name(N), ShortDesc(SD), CtorFn(CF), ModuleMatchQualityFn(MMF),
	JITMatchQualityFn(JMF), Next(List) {
	List = this;
	for (TargetRegistrationListener *L = Listeners; L; L = L->getNext())
	L->targetRegistered(this);
	}

	TargetRegistrationListener::TargetRegistrationListener() {
	Next = Listeners;
	if (Next) Next->Prev = &Next;
	Prev = &Listeners;
	Listeners = this;
	}

	TargetRegistrationListener::~TargetRegistrationListener() {
	*Prev = Next;
	}

	/// getClosestStaticTargetForModule - Given an LLVM module, pick the best target
	/// that is compatible with the module. If no close target can be found, this
	/// returns null and sets the Error string to a reason.
	const TargetMachineRegistry::Entry *
	TargetMachineRegistry::getClosestStaticTargetForModule(const Module &M,
	std::string &Error) {
	std::vector<std::pair<unsigned, const Entry *> > UsableTargets;
	for (const Entry *E = getList(); E; E = E->getNext())
	if (unsigned Qual = E->ModuleMatchQualityFn(M))
	UsableTargets.push_back(std::make_pair(Qual, E));

	if (UsableTargets.empty()) {
	Error = "No available targets are compatible with this module";
	return 0;
	} else if (UsableTargets.size() == 1)
	return UsableTargets.back().second;

	// Otherwise, take the best target, but make sure we don't have to equally
	// good best targets.
	std::sort(UsableTargets.begin(), UsableTargets.end());
	if (UsableTargets.back().first ==UsableTargets[UsableTargets.size()-2].first){
	Error = "Cannot choose between targets \"" +
	std::string(UsableTargets.back().second->Name) + "\" and \"" +
	std::string(UsableTargets[UsableTargets.size()-2].second->Name) + "\"";
	return 0;
	}
	return UsableTargets.back().second;
	}

	/// getClosestTargetForJIT - Given an LLVM module, pick the best target that
	/// is compatible with the current host and the specified module. If no
	/// close target can be found, this returns null and sets the Error string
	/// to a reason.
	const TargetMachineRegistry::Entry *
	TargetMachineRegistry::getClosestTargetForJIT(std::string &Error) {
	std::vector<std::pair<unsigned, const Entry *> > UsableTargets;
	for (const Entry *E = getList(); E; E = E->getNext())
	if (unsigned Qual = E->JITMatchQualityFn())
	UsableTargets.push_back(std::make_pair(Qual, E));

	if (UsableTargets.empty()) {
	Error = "No JIT is available for this host";
	return 0;
	} else if (UsableTargets.size() == 1)
	return UsableTargets.back().second;

	// Otherwise, take the best target. If there is a tie, just pick one.
	unsigned MaxQual = UsableTargets.front().first;
	const Entry *MaxQualTarget = UsableTargets.front().second;

	for (unsigned i = 1, e = UsableTargets.size(); i != e; ++i)
	if (UsableTargets[i].first > MaxQual) {
	MaxQual = UsableTargets[i].first;
	MaxQualTarget = UsableTargets[i].second;
	}

	return MaxQualTarget;
	}