lib/Driver/Action.cpp - third_party/swift-clang - Git at Google

 //===--- Action.cpp - Abstract compilation steps --------------------------===//
 //
 //                     The LLVM Compiler Infrastructure
 //
 // This file is distributed under the University of Illinois Open Source
 // License. See LICENSE.TXT for details.
 //
 //===----------------------------------------------------------------------===//

 #include "clang/Driver/Action.h"
 #include "llvm/ADT/StringSwitch.h"
 #include "llvm/Support/ErrorHandling.h"
 #include "llvm/Support/Regex.h"
 #include <cassert>
 using namespace clang::driver;
 using namespace llvm::opt;

 Action::~Action() {}

 const char *Action::getClassName(ActionClass AC) {
   switch (AC) {
   case InputClass: return "input";
   case BindArchClass: return "bind-arch";
   case CudaDeviceClass: return "cuda-device";
   case CudaHostClass: return "cuda-host";
   case PreprocessJobClass: return "preprocessor";
   case PrecompileJobClass: return "precompiler";
   case AnalyzeJobClass: return "analyzer";
   case MigrateJobClass: return "migrator";
   case CompileJobClass: return "compiler";
   case BackendJobClass: return "backend";
   case AssembleJobClass: return "assembler";
   case LinkJobClass: return "linker";
   case LipoJobClass: return "lipo";
   case DsymutilJobClass: return "dsymutil";
   case VerifyDebugInfoJobClass: return "verify-debug-info";
   case VerifyPCHJobClass: return "verify-pch";
   }

   llvm_unreachable("invalid class");
 }

 void InputAction::anchor() {}

 InputAction::InputAction(const Arg &_Input, types::ID _Type)
   : Action(InputClass, _Type), Input(_Input) {
 }

 void BindArchAction::anchor() {}

 BindArchAction::BindArchAction(Action *Input, const char *_ArchName)
     : Action(BindArchClass, Input), ArchName(_ArchName) {}

 // Converts CUDA GPU architecture, e.g. "sm_21", to its corresponding virtual
 // compute arch, e.g. "compute_20".  Returns null if the input arch is null or
 // doesn't match an existing arch.
 static const char* GpuArchToComputeName(const char *ArchName) {
   if (!ArchName)
     return nullptr;
   return llvm::StringSwitch<const char *>(ArchName)
       .Cases("sm_20", "sm_21", "compute_20")
       .Case("sm_30", "compute_30")
       .Case("sm_32", "compute_32")
       .Case("sm_35", "compute_35")
       .Case("sm_37", "compute_37")
       .Case("sm_50", "compute_50")
       .Case("sm_52", "compute_52")
       .Case("sm_53", "compute_53")
       .Default(nullptr);
 }

 void CudaDeviceAction::anchor() {}

 CudaDeviceAction::CudaDeviceAction(Action *Input, const char *ArchName,
                                    bool AtTopLevel)
     : Action(CudaDeviceClass, Input), GpuArchName(ArchName),
       AtTopLevel(AtTopLevel) {
   assert(!GpuArchName || IsValidGpuArchName(GpuArchName));
 }

 const char *CudaDeviceAction::getComputeArchName() const {
   return GpuArchToComputeName(GpuArchName);
 }

 bool CudaDeviceAction::IsValidGpuArchName(llvm::StringRef ArchName) {
   return GpuArchToComputeName(ArchName.data()) != nullptr;
 }

 void CudaHostAction::anchor() {}

 CudaHostAction::CudaHostAction(Action *Input, const ActionList &DeviceActions)
     : Action(CudaHostClass, Input), DeviceActions(DeviceActions) {}

 void JobAction::anchor() {}

 JobAction::JobAction(ActionClass Kind, Action *Input, types::ID Type)
     : Action(Kind, Input, Type) {}

 JobAction::JobAction(ActionClass Kind, const ActionList &Inputs, types::ID Type)
   : Action(Kind, Inputs, Type) {
 }

 void PreprocessJobAction::anchor() {}

 PreprocessJobAction::PreprocessJobAction(Action *Input, types::ID OutputType)
     : JobAction(PreprocessJobClass, Input, OutputType) {}

 void PrecompileJobAction::anchor() {}

 PrecompileJobAction::PrecompileJobAction(Action *Input, types::ID OutputType)
     : JobAction(PrecompileJobClass, Input, OutputType) {}

 void AnalyzeJobAction::anchor() {}

 AnalyzeJobAction::AnalyzeJobAction(Action *Input, types::ID OutputType)
     : JobAction(AnalyzeJobClass, Input, OutputType) {}

 void MigrateJobAction::anchor() {}

 MigrateJobAction::MigrateJobAction(Action *Input, types::ID OutputType)
     : JobAction(MigrateJobClass, Input, OutputType) {}

 void CompileJobAction::anchor() {}

 CompileJobAction::CompileJobAction(Action *Input, types::ID OutputType)
     : JobAction(CompileJobClass, Input, OutputType) {}

 void BackendJobAction::anchor() {}

 BackendJobAction::BackendJobAction(Action *Input, types::ID OutputType)
     : JobAction(BackendJobClass, Input, OutputType) {}

 void AssembleJobAction::anchor() {}

 AssembleJobAction::AssembleJobAction(Action *Input, types::ID OutputType)
     : JobAction(AssembleJobClass, Input, OutputType) {}

 void LinkJobAction::anchor() {}

 LinkJobAction::LinkJobAction(ActionList &Inputs, types::ID Type)
   : JobAction(LinkJobClass, Inputs, Type) {
 }

 void LipoJobAction::anchor() {}

 LipoJobAction::LipoJobAction(ActionList &Inputs, types::ID Type)
   : JobAction(LipoJobClass, Inputs, Type) {
 }

 void DsymutilJobAction::anchor() {}

 DsymutilJobAction::DsymutilJobAction(ActionList &Inputs, types::ID Type)
   : JobAction(DsymutilJobClass, Inputs, Type) {
 }

 void VerifyJobAction::anchor() {}

 VerifyJobAction::VerifyJobAction(ActionClass Kind, Action *Input,
                                  types::ID Type)
     : JobAction(Kind, Input, Type) {
   assert((Kind == VerifyDebugInfoJobClass || Kind == VerifyPCHJobClass) &&
          "ActionClass is not a valid VerifyJobAction");
 }

 void VerifyDebugInfoJobAction::anchor() {}

 VerifyDebugInfoJobAction::VerifyDebugInfoJobAction(Action *Input,
                                                    types::ID Type)
     : VerifyJobAction(VerifyDebugInfoJobClass, Input, Type) {}

 void VerifyPCHJobAction::anchor() {}

 VerifyPCHJobAction::VerifyPCHJobAction(Action *Input, types::ID Type)
     : VerifyJobAction(VerifyPCHJobClass, Input, Type) {}
	//===--- Action.cpp - Abstract compilation steps --------------------------===//
	//
	// The LLVM Compiler Infrastructure
	//
	// This file is distributed under the University of Illinois Open Source
	// License. See LICENSE.TXT for details.
	//
	//===----------------------------------------------------------------------===//

	#include "clang/Driver/Action.h"
	#include "llvm/ADT/StringSwitch.h"
	#include "llvm/Support/ErrorHandling.h"
	#include "llvm/Support/Regex.h"
	#include <cassert>
	using namespace clang::driver;
	using namespace llvm::opt;

	Action::~Action() {}

	const char *Action::getClassName(ActionClass AC) {
	switch (AC) {
	case InputClass: return "input";
	case BindArchClass: return "bind-arch";
	case CudaDeviceClass: return "cuda-device";
	case CudaHostClass: return "cuda-host";
	case PreprocessJobClass: return "preprocessor";
	case PrecompileJobClass: return "precompiler";
	case AnalyzeJobClass: return "analyzer";
	case MigrateJobClass: return "migrator";
	case CompileJobClass: return "compiler";
	case BackendJobClass: return "backend";
	case AssembleJobClass: return "assembler";
	case LinkJobClass: return "linker";
	case LipoJobClass: return "lipo";
	case DsymutilJobClass: return "dsymutil";
	case VerifyDebugInfoJobClass: return "verify-debug-info";
	case VerifyPCHJobClass: return "verify-pch";
	}

	llvm_unreachable("invalid class");
	}

	void InputAction::anchor() {}

	InputAction::InputAction(const Arg &_Input, types::ID _Type)
	: Action(InputClass, _Type), Input(_Input) {
	}

	void BindArchAction::anchor() {}

	BindArchAction::BindArchAction(Action Input, const char _ArchName)
	: Action(BindArchClass, Input), ArchName(_ArchName) {}

	// Converts CUDA GPU architecture, e.g. "sm_21", to its corresponding virtual
	// compute arch, e.g. "compute_20". Returns null if the input arch is null or
	// doesn't match an existing arch.
	static const char* GpuArchToComputeName(const char *ArchName) {
	if (!ArchName)
	return nullptr;
	return llvm::StringSwitch<const char *>(ArchName)
	.Cases("sm_20", "sm_21", "compute_20")
	.Case("sm_30", "compute_30")
	.Case("sm_32", "compute_32")
	.Case("sm_35", "compute_35")
	.Case("sm_37", "compute_37")
	.Case("sm_50", "compute_50")
	.Case("sm_52", "compute_52")
	.Case("sm_53", "compute_53")
	.Default(nullptr);
	}

	void CudaDeviceAction::anchor() {}

	CudaDeviceAction::CudaDeviceAction(Action Input, const char ArchName,
	bool AtTopLevel)
	: Action(CudaDeviceClass, Input), GpuArchName(ArchName),
	AtTopLevel(AtTopLevel) {
	assert(!GpuArchName \|\| IsValidGpuArchName(GpuArchName));
	}

	const char *CudaDeviceAction::getComputeArchName() const {
	return GpuArchToComputeName(GpuArchName);
	}

	bool CudaDeviceAction::IsValidGpuArchName(llvm::StringRef ArchName) {
	return GpuArchToComputeName(ArchName.data()) != nullptr;
	}

	void CudaHostAction::anchor() {}

	CudaHostAction::CudaHostAction(Action *Input, const ActionList &DeviceActions)
	: Action(CudaHostClass, Input), DeviceActions(DeviceActions) {}

	void JobAction::anchor() {}

	JobAction::JobAction(ActionClass Kind, Action *Input, types::ID Type)
	: Action(Kind, Input, Type) {}

	JobAction::JobAction(ActionClass Kind, const ActionList &Inputs, types::ID Type)
	: Action(Kind, Inputs, Type) {
	}

	void PreprocessJobAction::anchor() {}

	PreprocessJobAction::PreprocessJobAction(Action *Input, types::ID OutputType)
	: JobAction(PreprocessJobClass, Input, OutputType) {}

	void PrecompileJobAction::anchor() {}

	PrecompileJobAction::PrecompileJobAction(Action *Input, types::ID OutputType)
	: JobAction(PrecompileJobClass, Input, OutputType) {}

	void AnalyzeJobAction::anchor() {}

	AnalyzeJobAction::AnalyzeJobAction(Action *Input, types::ID OutputType)
	: JobAction(AnalyzeJobClass, Input, OutputType) {}

	void MigrateJobAction::anchor() {}

	MigrateJobAction::MigrateJobAction(Action *Input, types::ID OutputType)
	: JobAction(MigrateJobClass, Input, OutputType) {}

	void CompileJobAction::anchor() {}

	CompileJobAction::CompileJobAction(Action *Input, types::ID OutputType)
	: JobAction(CompileJobClass, Input, OutputType) {}

	void BackendJobAction::anchor() {}

	BackendJobAction::BackendJobAction(Action *Input, types::ID OutputType)
	: JobAction(BackendJobClass, Input, OutputType) {}

	void AssembleJobAction::anchor() {}

	AssembleJobAction::AssembleJobAction(Action *Input, types::ID OutputType)
	: JobAction(AssembleJobClass, Input, OutputType) {}

	void LinkJobAction::anchor() {}

	LinkJobAction::LinkJobAction(ActionList &Inputs, types::ID Type)
	: JobAction(LinkJobClass, Inputs, Type) {
	}

	void LipoJobAction::anchor() {}

	LipoJobAction::LipoJobAction(ActionList &Inputs, types::ID Type)
	: JobAction(LipoJobClass, Inputs, Type) {
	}

	void DsymutilJobAction::anchor() {}

	DsymutilJobAction::DsymutilJobAction(ActionList &Inputs, types::ID Type)
	: JobAction(DsymutilJobClass, Inputs, Type) {
	}

	void VerifyJobAction::anchor() {}

	VerifyJobAction::VerifyJobAction(ActionClass Kind, Action *Input,
	types::ID Type)
	: JobAction(Kind, Input, Type) {
	assert((Kind == VerifyDebugInfoJobClass \|\| Kind == VerifyPCHJobClass) &&
	"ActionClass is not a valid VerifyJobAction");
	}

	void VerifyDebugInfoJobAction::anchor() {}

	VerifyDebugInfoJobAction::VerifyDebugInfoJobAction(Action *Input,
	types::ID Type)
	: VerifyJobAction(VerifyDebugInfoJobClass, Input, Type) {}

	void VerifyPCHJobAction::anchor() {}

	VerifyPCHJobAction::VerifyPCHJobAction(Action *Input, types::ID Type)
	: VerifyJobAction(VerifyPCHJobClass, Input, Type) {}