lib/Driver/Types.cpp - clang - Git at Google

 //===--- Types.cpp - Driver input & temporary type information ------------===//
 //
 // 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/Types.h"
 #include "clang/Driver/Driver.h"
 #include "clang/Driver/DriverDiagnostic.h"
 #include "clang/Driver/Options.h"
 #include "llvm/ADT/STLExtras.h"
 #include "llvm/ADT/SmallVector.h"
 #include "llvm/ADT/StringSwitch.h"
 #include "llvm/Option/Arg.h"
 #include <cassert>
 #include <cstring>

 using namespace clang::driver;
 using namespace clang::driver::types;

 struct TypeInfo {
   const char *Name;
   const char *TempSuffix;
   ID PreprocessedType;
   const llvm::SmallVector<phases::ID, phases::MaxNumberOfPhases> Phases;
 };

 static const TypeInfo TypeInfos[] = {
 #define TYPE(NAME, ID, PP_TYPE, TEMP_SUFFIX, ...) \
   { NAME, TEMP_SUFFIX, TY_##PP_TYPE, { __VA_ARGS__ }, },
 #include "clang/Driver/Types.def"
 #undef TYPE
 };
 static const unsigned numTypes = llvm::array_lengthof(TypeInfos);

 static const TypeInfo &getInfo(unsigned id) {
   assert(id > 0 && id - 1 < numTypes && "Invalid Type ID.");
   return TypeInfos[id - 1];
 }

 const char *types::getTypeName(ID Id) {
   return getInfo(Id).Name;
 }

 types::ID types::getPreprocessedType(ID Id) {
   ID PPT = getInfo(Id).PreprocessedType;
   assert((llvm::is_contained(getInfo(Id).Phases, phases::Preprocess) !=
           (PPT == TY_INVALID)) &&
          "Unexpected Preprocess Type.");
   return PPT;
 }

 static bool isPrepeocessedModuleType(ID Id) {
   return Id == TY_CXXModule || Id == TY_PP_CXXModule;
 }

 types::ID types::getPrecompiledType(ID Id) {
   if (isPrepeocessedModuleType(Id))
     return TY_ModuleFile;
   if (onlyPrecompileType(Id))
     return TY_PCH;
   return TY_INVALID;
 }

 const char *types::getTypeTempSuffix(ID Id, bool CLMode) {
   if (CLMode) {
     switch (Id) {
     case TY_Object:
     case TY_LTO_BC:
       return "obj";
     case TY_Image:
       return "exe";
     case TY_PP_Asm:
       return "asm";
     default:
       break;
     }
   }
   return getInfo(Id).TempSuffix;
 }

 bool types::onlyAssembleType(ID Id) {
   return llvm::is_contained(getInfo(Id).Phases, phases::Assemble) &&
          !llvm::is_contained(getInfo(Id).Phases, phases::Compile) &&
          !llvm::is_contained(getInfo(Id).Phases, phases::Backend);
 }

 bool types::onlyPrecompileType(ID Id) {
   return llvm::is_contained(getInfo(Id).Phases, phases::Precompile) &&
          !isPrepeocessedModuleType(Id);
 }

 bool types::canTypeBeUserSpecified(ID Id) {
   static const clang::driver::types::ID kStaticLangageTypes[] = {
       TY_CUDA_DEVICE,   TY_HIP_DEVICE,    TY_PP_CHeader,
       TY_PP_ObjCHeader, TY_PP_CXXHeader,  TY_PP_ObjCXXHeader,
       TY_PP_CXXModule,  TY_LTO_IR,        TY_LTO_BC,
       TY_Plist,         TY_RewrittenObjC, TY_RewrittenLegacyObjC,
       TY_Remap,         TY_PCH,           TY_Object,
       TY_Image,         TY_dSYM,          TY_Dependencies,
       TY_CUDA_FATBIN,   TY_HIP_FATBIN};
   return !llvm::is_contained(kStaticLangageTypes, Id);
 }

 bool types::appendSuffixForType(ID Id) {
   return Id == TY_PCH || Id == TY_dSYM || Id == TY_CUDA_FATBIN ||
          Id == TY_HIP_FATBIN;
 }

 bool types::canLipoType(ID Id) {
   return (Id == TY_Nothing ||
           Id == TY_Image ||
           Id == TY_Object ||
           Id == TY_LTO_BC);
 }

 bool types::isAcceptedByClang(ID Id) {
   switch (Id) {
   default:
     return false;

   case TY_Asm:
   case TY_C: case TY_PP_C:
   case TY_CL:
   case TY_CUDA: case TY_PP_CUDA:
   case TY_CUDA_DEVICE:
   case TY_HIP:
   case TY_PP_HIP:
   case TY_HIP_DEVICE:
   case TY_ObjC: case TY_PP_ObjC: case TY_PP_ObjC_Alias:
   case TY_CXX: case TY_PP_CXX:
   case TY_ObjCXX: case TY_PP_ObjCXX: case TY_PP_ObjCXX_Alias:
   case TY_CHeader: case TY_PP_CHeader:
   case TY_CLHeader:
   case TY_ObjCHeader: case TY_PP_ObjCHeader:
   case TY_CXXHeader: case TY_PP_CXXHeader:
   case TY_ObjCXXHeader: case TY_PP_ObjCXXHeader:
   case TY_CXXModule: case TY_PP_CXXModule:
   case TY_AST: case TY_ModuleFile:
   case TY_LLVM_IR: case TY_LLVM_BC:
     return true;
   }
 }

 bool types::isObjC(ID Id) {
   switch (Id) {
   default:
     return false;

   case TY_ObjC: case TY_PP_ObjC: case TY_PP_ObjC_Alias:
   case TY_ObjCXX: case TY_PP_ObjCXX:
   case TY_ObjCHeader: case TY_PP_ObjCHeader:
   case TY_ObjCXXHeader: case TY_PP_ObjCXXHeader: case TY_PP_ObjCXX_Alias:
     return true;
   }
 }

 bool types::isCXX(ID Id) {
   switch (Id) {
   default:
     return false;

   case TY_CXX: case TY_PP_CXX:
   case TY_ObjCXX: case TY_PP_ObjCXX: case TY_PP_ObjCXX_Alias:
   case TY_CXXHeader: case TY_PP_CXXHeader:
   case TY_ObjCXXHeader: case TY_PP_ObjCXXHeader:
   case TY_CXXModule: case TY_PP_CXXModule:
   case TY_CUDA: case TY_PP_CUDA: case TY_CUDA_DEVICE:
   case TY_HIP:
   case TY_PP_HIP:
   case TY_HIP_DEVICE:
     return true;
   }
 }

 bool types::isLLVMIR(ID Id) {
   switch (Id) {
   default:
     return false;

   case TY_LLVM_IR:
   case TY_LLVM_BC:
   case TY_LTO_IR:
   case TY_LTO_BC:
     return true;
   }
 }

 bool types::isCuda(ID Id) {
   switch (Id) {
   default:
     return false;

   case TY_CUDA:
   case TY_PP_CUDA:
   case TY_CUDA_DEVICE:
     return true;
   }
 }

 bool types::isHIP(ID Id) {
   switch (Id) {
   default:
     return false;

   case TY_HIP:
   case TY_PP_HIP:
   case TY_HIP_DEVICE:
     return true;
   }
 }

 bool types::isSrcFile(ID Id) {
   return Id != TY_Object && getPreprocessedType(Id) != TY_INVALID;
 }

 types::ID types::lookupTypeForExtension(llvm::StringRef Ext) {
   return llvm::StringSwitch<types::ID>(Ext)
            .Case("c", TY_C)
            .Case("C", TY_CXX)
            .Case("F", TY_Fortran)
            .Case("f", TY_PP_Fortran)
            .Case("h", TY_CHeader)
            .Case("H", TY_CXXHeader)
            .Case("i", TY_PP_C)
            .Case("m", TY_ObjC)
            .Case("M", TY_ObjCXX)
            .Case("o", TY_Object)
            .Case("S", TY_Asm)
            .Case("s", TY_PP_Asm)
            .Case("bc", TY_LLVM_BC)
            .Case("cc", TY_CXX)
            .Case("CC", TY_CXX)
            .Case("cl", TY_CL)
            .Case("cp", TY_CXX)
            .Case("cu", TY_CUDA)
            .Case("hh", TY_CXXHeader)
            .Case("ii", TY_PP_CXX)
            .Case("ll", TY_LLVM_IR)
            .Case("mi", TY_PP_ObjC)
            .Case("mm", TY_ObjCXX)
            .Case("rs", TY_RenderScript)
            .Case("adb", TY_Ada)
            .Case("ads", TY_Ada)
            .Case("asm", TY_PP_Asm)
            .Case("ast", TY_AST)
            .Case("ccm", TY_CXXModule)
            .Case("cpp", TY_CXX)
            .Case("CPP", TY_CXX)
            .Case("c++", TY_CXX)
            .Case("C++", TY_CXX)
            .Case("cui", TY_PP_CUDA)
            .Case("cxx", TY_CXX)
            .Case("CXX", TY_CXX)
            .Case("F90", TY_Fortran)
            .Case("f90", TY_PP_Fortran)
            .Case("F95", TY_Fortran)
            .Case("f95", TY_PP_Fortran)
            .Case("for", TY_PP_Fortran)
            .Case("FOR", TY_PP_Fortran)
            .Case("fpp", TY_Fortran)
            .Case("FPP", TY_Fortran)
            .Case("gch", TY_PCH)
            .Case("hip", TY_HIP)
            .Case("hpp", TY_CXXHeader)
            .Case("iim", TY_PP_CXXModule)
            .Case("lib", TY_Object)
            .Case("mii", TY_PP_ObjCXX)
            .Case("obj", TY_Object)
            .Case("ifs", TY_IFS)
            .Case("pch", TY_PCH)
            .Case("pcm", TY_ModuleFile)
            .Case("c++m", TY_CXXModule)
            .Case("cppm", TY_CXXModule)
            .Case("cxxm", TY_CXXModule)
            .Default(TY_INVALID);
 }

 types::ID types::lookupTypeForTypeSpecifier(const char *Name) {
   for (unsigned i=0; i<numTypes; ++i) {
     types::ID Id = (types::ID) (i + 1);
     if (canTypeBeUserSpecified(Id) &&
         strcmp(Name, getInfo(Id).Name) == 0)
       return Id;
   }

   return TY_INVALID;
 }

 // FIXME: Why don't we just put this list in the defs file, eh.
 // FIXME: The list is now in Types.def but for now this function will verify
 //        the old behavior and a subsequent change will delete most of the body.
 void types::getCompilationPhases(ID Id, llvm::SmallVectorImpl<phases::ID> &P) {
   P = getInfo(Id).Phases;
   assert(0 < P.size() && "Not enough phases in list");
   assert(P.size() <= phases::MaxNumberOfPhases && "Too many phases in list");
 }

 void types::getCompilationPhases(const clang::driver::Driver &Driver,
                                  llvm::opt::DerivedArgList &DAL, ID Id,
                                  llvm::SmallVectorImpl<phases::ID> &P) {
   llvm::SmallVector<phases::ID, phases::MaxNumberOfPhases> PhaseList;
   types::getCompilationPhases(Id, PhaseList);

   // Filter to compiler mode. When the compiler is run as a preprocessor then
   // compilation is not an option.
   // -S runs the compiler in Assembly listing mode.
   if (Driver.CCCIsCPP() || DAL.getLastArg(options::OPT_E) ||
       DAL.getLastArg(options::OPT__SLASH_EP) ||
       DAL.getLastArg(options::OPT_M, options::OPT_MM) ||
       DAL.getLastArg(options::OPT__SLASH_P))
     llvm::copy_if(PhaseList, std::back_inserter(P),
                   [](phases::ID Phase) { return Phase <= phases::Preprocess; });

   // --precompile only runs up to precompilation.
   // This is a clang extension and is not compatible with GCC.
   else if (DAL.getLastArg(options::OPT__precompile))
     llvm::copy_if(PhaseList, std::back_inserter(P),
                   [](phases::ID Phase) { return Phase <= phases::Precompile; });

   // Treat Interface Stubs like its own compilation mode.
   else if (DAL.getLastArg(options::OPT_emit_interface_stubs)) {
     llvm::SmallVector<phases::ID, phases::MaxNumberOfPhases> IfsModePhaseList;
     llvm::SmallVector<phases::ID, phases::MaxNumberOfPhases> &PL = PhaseList;
     phases::ID LastPhase = phases::IfsMerge;
     if (Id != types::TY_IFS) {
       if (DAL.hasArg(options::OPT_c))
         LastPhase = phases::Compile;
       PL = IfsModePhaseList;
       types::getCompilationPhases(types::TY_IFS_CPP, PL);
     }
     llvm::copy_if(PL, std::back_inserter(P), [&](phases::ID Phase) {
       return Phase <= LastPhase;
     });
   }

   // -{fsyntax-only,-analyze,emit-ast} only run up to the compiler.
   else if (DAL.getLastArg(options::OPT_fsyntax_only) ||
            DAL.getLastArg(options::OPT_print_supported_cpus) ||
            DAL.getLastArg(options::OPT_module_file_info) ||
            DAL.getLastArg(options::OPT_verify_pch) ||
            DAL.getLastArg(options::OPT_rewrite_objc) ||
            DAL.getLastArg(options::OPT_rewrite_legacy_objc) ||
            DAL.getLastArg(options::OPT__migrate) ||
            DAL.getLastArg(options::OPT__analyze) ||
            DAL.getLastArg(options::OPT_emit_ast))
     llvm::copy_if(PhaseList, std::back_inserter(P),
                   [](phases::ID Phase) { return Phase <= phases::Compile; });

   else if (DAL.getLastArg(options::OPT_S) ||
            DAL.getLastArg(options::OPT_emit_llvm))
     llvm::copy_if(PhaseList, std::back_inserter(P),
                   [](phases::ID Phase) { return Phase <= phases::Backend; });

   else if (DAL.getLastArg(options::OPT_c))
     llvm::copy_if(PhaseList, std::back_inserter(P),
                   [](phases::ID Phase) { return Phase <= phases::Assemble; });

   // Generally means, do every phase until Link.
   else
     P = PhaseList;
 }

 ID types::lookupCXXTypeForCType(ID Id) {
   switch (Id) {
   default:
     return Id;

   case types::TY_C:
     return types::TY_CXX;
   case types::TY_PP_C:
     return types::TY_PP_CXX;
   case types::TY_CHeader:
     return types::TY_CXXHeader;
   case types::TY_PP_CHeader:
     return types::TY_PP_CXXHeader;
   }
 }

 ID types::lookupHeaderTypeForSourceType(ID Id) {
   switch (Id) {
   default:
     return Id;

   // FIXME: Handle preprocessed input types.
   case types::TY_C:
     return types::TY_CHeader;
   case types::TY_CXX:
   case types::TY_CXXModule:
     return types::TY_CXXHeader;
   case types::TY_ObjC:
     return types::TY_ObjCHeader;
   case types::TY_ObjCXX:
     return types::TY_ObjCXXHeader;
   case types::TY_CL:
     return types::TY_CLHeader;
   }
 }
	//===--- Types.cpp - Driver input & temporary type information ------------===//
	//
	// 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/Types.h"
	#include "clang/Driver/Driver.h"
	#include "clang/Driver/DriverDiagnostic.h"
	#include "clang/Driver/Options.h"
	#include "llvm/ADT/STLExtras.h"
	#include "llvm/ADT/SmallVector.h"
	#include "llvm/ADT/StringSwitch.h"
	#include "llvm/Option/Arg.h"
	#include <cassert>
	#include <cstring>

	using namespace clang::driver;
	using namespace clang::driver::types;

	struct TypeInfo {
	const char *Name;
	const char *TempSuffix;
	ID PreprocessedType;
	const llvm::SmallVector<phases::ID, phases::MaxNumberOfPhases> Phases;
	};

	static const TypeInfo TypeInfos[] = {
	#define TYPE(NAME, ID, PP_TYPE, TEMP_SUFFIX, ...) \
	{ NAME, TEMP_SUFFIX, TY_##PP_TYPE, { __VA_ARGS__ }, },
	#include "clang/Driver/Types.def"
	#undef TYPE
	};
	static const unsigned numTypes = llvm::array_lengthof(TypeInfos);

	static const TypeInfo &getInfo(unsigned id) {
	assert(id > 0 && id - 1 < numTypes && "Invalid Type ID.");
	return TypeInfos[id - 1];
	}

	const char *types::getTypeName(ID Id) {
	return getInfo(Id).Name;
	}

	types::ID types::getPreprocessedType(ID Id) {
	ID PPT = getInfo(Id).PreprocessedType;
	assert((llvm::is_contained(getInfo(Id).Phases, phases::Preprocess) !=
	(PPT == TY_INVALID)) &&
	"Unexpected Preprocess Type.");
	return PPT;
	}

	static bool isPrepeocessedModuleType(ID Id) {
	return Id == TY_CXXModule \|\| Id == TY_PP_CXXModule;
	}

	types::ID types::getPrecompiledType(ID Id) {
	if (isPrepeocessedModuleType(Id))
	return TY_ModuleFile;
	if (onlyPrecompileType(Id))
	return TY_PCH;
	return TY_INVALID;
	}

	const char *types::getTypeTempSuffix(ID Id, bool CLMode) {
	if (CLMode) {
	switch (Id) {
	case TY_Object:
	case TY_LTO_BC:
	return "obj";
	case TY_Image:
	return "exe";
	case TY_PP_Asm:
	return "asm";
	default:
	break;
	}
	}
	return getInfo(Id).TempSuffix;
	}

	bool types::onlyAssembleType(ID Id) {
	return llvm::is_contained(getInfo(Id).Phases, phases::Assemble) &&
	!llvm::is_contained(getInfo(Id).Phases, phases::Compile) &&
	!llvm::is_contained(getInfo(Id).Phases, phases::Backend);
	}

	bool types::onlyPrecompileType(ID Id) {
	return llvm::is_contained(getInfo(Id).Phases, phases::Precompile) &&
	!isPrepeocessedModuleType(Id);
	}

	bool types::canTypeBeUserSpecified(ID Id) {
	static const clang::driver::types::ID kStaticLangageTypes[] = {
	TY_CUDA_DEVICE, TY_HIP_DEVICE, TY_PP_CHeader,
	TY_PP_ObjCHeader, TY_PP_CXXHeader, TY_PP_ObjCXXHeader,
	TY_PP_CXXModule, TY_LTO_IR, TY_LTO_BC,
	TY_Plist, TY_RewrittenObjC, TY_RewrittenLegacyObjC,
	TY_Remap, TY_PCH, TY_Object,
	TY_Image, TY_dSYM, TY_Dependencies,
	TY_CUDA_FATBIN, TY_HIP_FATBIN};
	return !llvm::is_contained(kStaticLangageTypes, Id);
	}

	bool types::appendSuffixForType(ID Id) {
	return Id == TY_PCH \|\| Id == TY_dSYM \|\| Id == TY_CUDA_FATBIN \|\|
	Id == TY_HIP_FATBIN;
	}

	bool types::canLipoType(ID Id) {
	return (Id == TY_Nothing \|\|
	Id == TY_Image \|\|
	Id == TY_Object \|\|
	Id == TY_LTO_BC);
	}

	bool types::isAcceptedByClang(ID Id) {
	switch (Id) {
	default:
	return false;

	case TY_Asm:
	case TY_C: case TY_PP_C:
	case TY_CL:
	case TY_CUDA: case TY_PP_CUDA:
	case TY_CUDA_DEVICE:
	case TY_HIP:
	case TY_PP_HIP:
	case TY_HIP_DEVICE:
	case TY_ObjC: case TY_PP_ObjC: case TY_PP_ObjC_Alias:
	case TY_CXX: case TY_PP_CXX:
	case TY_ObjCXX: case TY_PP_ObjCXX: case TY_PP_ObjCXX_Alias:
	case TY_CHeader: case TY_PP_CHeader:
	case TY_CLHeader:
	case TY_ObjCHeader: case TY_PP_ObjCHeader:
	case TY_CXXHeader: case TY_PP_CXXHeader:
	case TY_ObjCXXHeader: case TY_PP_ObjCXXHeader:
	case TY_CXXModule: case TY_PP_CXXModule:
	case TY_AST: case TY_ModuleFile:
	case TY_LLVM_IR: case TY_LLVM_BC:
	return true;
	}
	}

	bool types::isObjC(ID Id) {
	switch (Id) {
	default:
	return false;

	case TY_ObjC: case TY_PP_ObjC: case TY_PP_ObjC_Alias:
	case TY_ObjCXX: case TY_PP_ObjCXX:
	case TY_ObjCHeader: case TY_PP_ObjCHeader:
	case TY_ObjCXXHeader: case TY_PP_ObjCXXHeader: case TY_PP_ObjCXX_Alias:
	return true;
	}
	}

	bool types::isCXX(ID Id) {
	switch (Id) {
	default:
	return false;

	case TY_CXX: case TY_PP_CXX:
	case TY_ObjCXX: case TY_PP_ObjCXX: case TY_PP_ObjCXX_Alias:
	case TY_CXXHeader: case TY_PP_CXXHeader:
	case TY_ObjCXXHeader: case TY_PP_ObjCXXHeader:
	case TY_CXXModule: case TY_PP_CXXModule:
	case TY_CUDA: case TY_PP_CUDA: case TY_CUDA_DEVICE:
	case TY_HIP:
	case TY_PP_HIP:
	case TY_HIP_DEVICE:
	return true;
	}
	}

	bool types::isLLVMIR(ID Id) {
	switch (Id) {
	default:
	return false;

	case TY_LLVM_IR:
	case TY_LLVM_BC:
	case TY_LTO_IR:
	case TY_LTO_BC:
	return true;
	}
	}

	bool types::isCuda(ID Id) {
	switch (Id) {
	default:
	return false;

	case TY_CUDA:
	case TY_PP_CUDA:
	case TY_CUDA_DEVICE:
	return true;
	}
	}

	bool types::isHIP(ID Id) {
	switch (Id) {
	default:
	return false;

	case TY_HIP:
	case TY_PP_HIP:
	case TY_HIP_DEVICE:
	return true;
	}
	}

	bool types::isSrcFile(ID Id) {
	return Id != TY_Object && getPreprocessedType(Id) != TY_INVALID;
	}

	types::ID types::lookupTypeForExtension(llvm::StringRef Ext) {
	return llvm::StringSwitch<types::ID>(Ext)
	.Case("c", TY_C)
	.Case("C", TY_CXX)
	.Case("F", TY_Fortran)
	.Case("f", TY_PP_Fortran)
	.Case("h", TY_CHeader)
	.Case("H", TY_CXXHeader)
	.Case("i", TY_PP_C)
	.Case("m", TY_ObjC)
	.Case("M", TY_ObjCXX)
	.Case("o", TY_Object)
	.Case("S", TY_Asm)
	.Case("s", TY_PP_Asm)
	.Case("bc", TY_LLVM_BC)
	.Case("cc", TY_CXX)
	.Case("CC", TY_CXX)
	.Case("cl", TY_CL)
	.Case("cp", TY_CXX)
	.Case("cu", TY_CUDA)
	.Case("hh", TY_CXXHeader)
	.Case("ii", TY_PP_CXX)
	.Case("ll", TY_LLVM_IR)
	.Case("mi", TY_PP_ObjC)
	.Case("mm", TY_ObjCXX)
	.Case("rs", TY_RenderScript)
	.Case("adb", TY_Ada)
	.Case("ads", TY_Ada)
	.Case("asm", TY_PP_Asm)
	.Case("ast", TY_AST)
	.Case("ccm", TY_CXXModule)
	.Case("cpp", TY_CXX)
	.Case("CPP", TY_CXX)
	.Case("c++", TY_CXX)
	.Case("C++", TY_CXX)
	.Case("cui", TY_PP_CUDA)
	.Case("cxx", TY_CXX)
	.Case("CXX", TY_CXX)
	.Case("F90", TY_Fortran)
	.Case("f90", TY_PP_Fortran)
	.Case("F95", TY_Fortran)
	.Case("f95", TY_PP_Fortran)
	.Case("for", TY_PP_Fortran)
	.Case("FOR", TY_PP_Fortran)
	.Case("fpp", TY_Fortran)
	.Case("FPP", TY_Fortran)
	.Case("gch", TY_PCH)
	.Case("hip", TY_HIP)
	.Case("hpp", TY_CXXHeader)
	.Case("iim", TY_PP_CXXModule)
	.Case("lib", TY_Object)
	.Case("mii", TY_PP_ObjCXX)
	.Case("obj", TY_Object)
	.Case("ifs", TY_IFS)
	.Case("pch", TY_PCH)
	.Case("pcm", TY_ModuleFile)
	.Case("c++m", TY_CXXModule)
	.Case("cppm", TY_CXXModule)
	.Case("cxxm", TY_CXXModule)
	.Default(TY_INVALID);
	}

	types::ID types::lookupTypeForTypeSpecifier(const char *Name) {
	for (unsigned i=0; i<numTypes; ++i) {
	types::ID Id = (types::ID) (i + 1);
	if (canTypeBeUserSpecified(Id) &&
	strcmp(Name, getInfo(Id).Name) == 0)
	return Id;
	}

	return TY_INVALID;
	}

	// FIXME: Why don't we just put this list in the defs file, eh.
	// FIXME: The list is now in Types.def but for now this function will verify
	// the old behavior and a subsequent change will delete most of the body.
	void types::getCompilationPhases(ID Id, llvm::SmallVectorImpl<phases::ID> &P) {
	P = getInfo(Id).Phases;
	assert(0 < P.size() && "Not enough phases in list");
	assert(P.size() <= phases::MaxNumberOfPhases && "Too many phases in list");
	}

	void types::getCompilationPhases(const clang::driver::Driver &Driver,
	llvm::opt::DerivedArgList &DAL, ID Id,
	llvm::SmallVectorImpl<phases::ID> &P) {
	llvm::SmallVector<phases::ID, phases::MaxNumberOfPhases> PhaseList;
	types::getCompilationPhases(Id, PhaseList);

	// Filter to compiler mode. When the compiler is run as a preprocessor then
	// compilation is not an option.
	// -S runs the compiler in Assembly listing mode.
	if (Driver.CCCIsCPP() \|\| DAL.getLastArg(options::OPT_E) \|\|
	DAL.getLastArg(options::OPT__SLASH_EP) \|\|
	DAL.getLastArg(options::OPT_M, options::OPT_MM) \|\|
	DAL.getLastArg(options::OPT__SLASH_P))
	llvm::copy_if(PhaseList, std::back_inserter(P),
	[](phases::ID Phase) { return Phase <= phases::Preprocess; });

	// --precompile only runs up to precompilation.
	// This is a clang extension and is not compatible with GCC.
	else if (DAL.getLastArg(options::OPT__precompile))
	llvm::copy_if(PhaseList, std::back_inserter(P),
	[](phases::ID Phase) { return Phase <= phases::Precompile; });

	// Treat Interface Stubs like its own compilation mode.
	else if (DAL.getLastArg(options::OPT_emit_interface_stubs)) {
	llvm::SmallVector<phases::ID, phases::MaxNumberOfPhases> IfsModePhaseList;
	llvm::SmallVector<phases::ID, phases::MaxNumberOfPhases> &PL = PhaseList;
	phases::ID LastPhase = phases::IfsMerge;
	if (Id != types::TY_IFS) {
	if (DAL.hasArg(options::OPT_c))
	LastPhase = phases::Compile;
	PL = IfsModePhaseList;
	types::getCompilationPhases(types::TY_IFS_CPP, PL);
	}
	llvm::copy_if(PL, std::back_inserter(P), [&](phases::ID Phase) {
	return Phase <= LastPhase;
	});
	}

	// -{fsyntax-only,-analyze,emit-ast} only run up to the compiler.
	else if (DAL.getLastArg(options::OPT_fsyntax_only) \|\|
	DAL.getLastArg(options::OPT_print_supported_cpus) \|\|
	DAL.getLastArg(options::OPT_module_file_info) \|\|
	DAL.getLastArg(options::OPT_verify_pch) \|\|
	DAL.getLastArg(options::OPT_rewrite_objc) \|\|
	DAL.getLastArg(options::OPT_rewrite_legacy_objc) \|\|
	DAL.getLastArg(options::OPT__migrate) \|\|
	DAL.getLastArg(options::OPT__analyze) \|\|
	DAL.getLastArg(options::OPT_emit_ast))
	llvm::copy_if(PhaseList, std::back_inserter(P),
	[](phases::ID Phase) { return Phase <= phases::Compile; });

	else if (DAL.getLastArg(options::OPT_S) \|\|
	DAL.getLastArg(options::OPT_emit_llvm))
	llvm::copy_if(PhaseList, std::back_inserter(P),
	[](phases::ID Phase) { return Phase <= phases::Backend; });

	else if (DAL.getLastArg(options::OPT_c))
	llvm::copy_if(PhaseList, std::back_inserter(P),
	[](phases::ID Phase) { return Phase <= phases::Assemble; });

	// Generally means, do every phase until Link.
	else
	P = PhaseList;
	}

	ID types::lookupCXXTypeForCType(ID Id) {
	switch (Id) {
	default:
	return Id;

	case types::TY_C:
	return types::TY_CXX;
	case types::TY_PP_C:
	return types::TY_PP_CXX;
	case types::TY_CHeader:
	return types::TY_CXXHeader;
	case types::TY_PP_CHeader:
	return types::TY_PP_CXXHeader;
	}
	}

	ID types::lookupHeaderTypeForSourceType(ID Id) {
	switch (Id) {
	default:
	return Id;

	// FIXME: Handle preprocessed input types.
	case types::TY_C:
	return types::TY_CHeader;
	case types::TY_CXX:
	case types::TY_CXXModule:
	return types::TY_CXXHeader;
	case types::TY_ObjC:
	return types::TY_ObjCHeader;
	case types::TY_ObjCXX:
	return types::TY_ObjCXXHeader;
	case types::TY_CL:
	return types::TY_CLHeader;
	}
	}