clang-tools-extra/modularize/ModularizeUtilities.cpp - llvm-project - Git at Google

 //===--- extra/modularize/ModularizeUtilities.cpp -------------------===//
 //
 // 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
 //
 //===----------------------------------------------------------------------===//
 //
 // This file implements a class for loading and validating a module map or
 // header list by checking that all headers in the corresponding directories
 // are accounted for.
 //
 //===----------------------------------------------------------------------===//

 #include "clang/Basic/SourceManager.h"
 #include "clang/Driver/Options.h"
 #include "clang/Frontend/CompilerInstance.h"
 #include "clang/Frontend/FrontendActions.h"
 #include "CoverageChecker.h"
 #include "llvm/ADT/SmallString.h"
 #include "llvm/Support/FileUtilities.h"
 #include "llvm/Support/MemoryBuffer.h"
 #include "llvm/Support/Path.h"
 #include "llvm/Support/raw_ostream.h"
 #include "ModularizeUtilities.h"

 using namespace clang;
 using namespace llvm;
 using namespace Modularize;

 namespace {
 // Subclass TargetOptions so we can construct it inline with
 // the minimal option, the triple.
 class ModuleMapTargetOptions : public clang::TargetOptions {
 public:
   ModuleMapTargetOptions() { Triple = llvm::sys::getDefaultTargetTriple(); }
 };
 } // namespace

 // ModularizeUtilities class implementation.

 // Constructor.
 ModularizeUtilities::ModularizeUtilities(std::vector<std::string> &InputPaths,
                                          llvm::StringRef Prefix,
                                          llvm::StringRef ProblemFilesListPath)
     : InputFilePaths(InputPaths), HeaderPrefix(Prefix),
       ProblemFilesPath(ProblemFilesListPath), HasModuleMap(false),
       MissingHeaderCount(0),
       // Init clang stuff needed for loading the module map and preprocessing.
       LangOpts(new LangOptions()), DiagIDs(new DiagnosticIDs()),
       DiagnosticOpts(new DiagnosticOptions()),
       DC(llvm::errs(), DiagnosticOpts.get()),
       Diagnostics(
           new DiagnosticsEngine(DiagIDs, DiagnosticOpts.get(), &DC, false)),
       TargetOpts(new ModuleMapTargetOptions()),
       Target(TargetInfo::CreateTargetInfo(*Diagnostics, TargetOpts)),
       FileMgr(new FileManager(FileSystemOpts)),
       SourceMgr(new SourceManager(*Diagnostics, *FileMgr, false)),
       HeaderInfo(new HeaderSearch(std::make_shared<HeaderSearchOptions>(),
                                   *SourceMgr, *Diagnostics, *LangOpts,
                                   Target.get())) {}

 // Create instance of ModularizeUtilities, to simplify setting up
 // subordinate objects.
 ModularizeUtilities *ModularizeUtilities::createModularizeUtilities(
     std::vector<std::string> &InputPaths, llvm::StringRef Prefix,
     llvm::StringRef ProblemFilesListPath) {

   return new ModularizeUtilities(InputPaths, Prefix, ProblemFilesListPath);
 }

 // Load all header lists and dependencies.
 std::error_code ModularizeUtilities::loadAllHeaderListsAndDependencies() {
   // For each input file.
   for (auto I = InputFilePaths.begin(), E = InputFilePaths.end(); I != E; ++I) {
     llvm::StringRef InputPath = *I;
     // If it's a module map.
     if (InputPath.endswith(".modulemap")) {
       // Load the module map.
       if (std::error_code EC = loadModuleMap(InputPath))
         return EC;
     }
     else {
       // Else we assume it's a header list and load it.
       if (std::error_code EC = loadSingleHeaderListsAndDependencies(InputPath)) {
         errs() << "modularize: error: Unable to get header list '" << InputPath
           << "': " << EC.message() << '\n';
         return EC;
       }
     }
   }
   // If we have a problem files list.
   if (ProblemFilesPath.size() != 0) {
     // Load problem files list.
     if (std::error_code EC = loadProblemHeaderList(ProblemFilesPath)) {
       errs() << "modularize: error: Unable to get problem header list '" << ProblemFilesPath
         << "': " << EC.message() << '\n';
       return EC;
     }
   }
   return std::error_code();
 }

 // Do coverage checks.
 // For each loaded module map, do header coverage check.
 // Starting from the directory of the module.map file,
 // Find all header files, optionally looking only at files
 // covered by the include path options, and compare against
 // the headers referenced by the module.map file.
 // Display warnings for unaccounted-for header files.
 // Returns 0 if there were no errors or warnings, 1 if there
 // were warnings, 2 if any other problem, such as a bad
 // module map path argument was specified.
 std::error_code ModularizeUtilities::doCoverageCheck(
     std::vector<std::string> &IncludePaths,
     llvm::ArrayRef<std::string> CommandLine) {
   int ModuleMapCount = ModuleMaps.size();
   int ModuleMapIndex;
   std::error_code EC;
   for (ModuleMapIndex = 0; ModuleMapIndex < ModuleMapCount; ++ModuleMapIndex) {
     std::unique_ptr<clang::ModuleMap> &ModMap = ModuleMaps[ModuleMapIndex];
     auto Checker = CoverageChecker::createCoverageChecker(
         InputFilePaths[ModuleMapIndex], IncludePaths, CommandLine,
         ModMap.get());
     std::error_code LocalEC = Checker->doChecks();
     if (LocalEC.value() > 0)
       EC = LocalEC;
   }
   return EC;
 }

 // Load single header list and dependencies.
 std::error_code ModularizeUtilities::loadSingleHeaderListsAndDependencies(
     llvm::StringRef InputPath) {

   // By default, use the path component of the list file name.
   SmallString<256> HeaderDirectory(InputPath);
   llvm::sys::path::remove_filename(HeaderDirectory);
   SmallString<256> CurrentDirectory;
   llvm::sys::fs::current_path(CurrentDirectory);

   // Get the prefix if we have one.
   if (HeaderPrefix.size() != 0)
     HeaderDirectory = HeaderPrefix;

   // Read the header list file into a buffer.
   ErrorOr<std::unique_ptr<MemoryBuffer>> listBuffer =
     MemoryBuffer::getFile(InputPath);
   if (std::error_code EC = listBuffer.getError())
     return EC;

   // Parse the header list into strings.
   SmallVector<StringRef, 32> Strings;
   listBuffer.get()->getBuffer().split(Strings, "\n", -1, false);

   // Collect the header file names from the string list.
   for (SmallVectorImpl<StringRef>::iterator I = Strings.begin(),
     E = Strings.end();
     I != E; ++I) {
     StringRef Line = I->trim();
     // Ignore comments and empty lines.
     if (Line.empty() || (Line[0] == '#'))
       continue;
     std::pair<StringRef, StringRef> TargetAndDependents = Line.split(':');
     SmallString<256> HeaderFileName;
     // Prepend header file name prefix if it's not absolute.
     if (llvm::sys::path::is_absolute(TargetAndDependents.first))
       llvm::sys::path::native(TargetAndDependents.first, HeaderFileName);
     else {
       if (HeaderDirectory.size() != 0)
         HeaderFileName = HeaderDirectory;
       else
         HeaderFileName = CurrentDirectory;
       llvm::sys::path::append(HeaderFileName, TargetAndDependents.first);
       llvm::sys::path::native(HeaderFileName);
     }
     // Handle optional dependencies.
     DependentsVector Dependents;
     SmallVector<StringRef, 4> DependentsList;
     TargetAndDependents.second.split(DependentsList, " ", -1, false);
     int Count = DependentsList.size();
     for (int Index = 0; Index < Count; ++Index) {
       SmallString<256> Dependent;
       if (llvm::sys::path::is_absolute(DependentsList[Index]))
         Dependent = DependentsList[Index];
       else {
         if (HeaderDirectory.size() != 0)
           Dependent = HeaderDirectory;
         else
           Dependent = CurrentDirectory;
         llvm::sys::path::append(Dependent, DependentsList[Index]);
       }
       llvm::sys::path::native(Dependent);
       Dependents.push_back(getCanonicalPath(Dependent.str()));
     }
     // Get canonical form.
     HeaderFileName = getCanonicalPath(HeaderFileName);
     // Save the resulting header file path and dependencies.
     HeaderFileNames.push_back(std::string(HeaderFileName.str()));
     Dependencies[HeaderFileName.str()] = Dependents;
   }
   return std::error_code();
 }

 // Load problem header list.
 std::error_code ModularizeUtilities::loadProblemHeaderList(
   llvm::StringRef InputPath) {

   // By default, use the path component of the list file name.
   SmallString<256> HeaderDirectory(InputPath);
   llvm::sys::path::remove_filename(HeaderDirectory);
   SmallString<256> CurrentDirectory;
   llvm::sys::fs::current_path(CurrentDirectory);

   // Get the prefix if we have one.
   if (HeaderPrefix.size() != 0)
     HeaderDirectory = HeaderPrefix;

   // Read the header list file into a buffer.
   ErrorOr<std::unique_ptr<MemoryBuffer>> listBuffer =
     MemoryBuffer::getFile(InputPath);
   if (std::error_code EC = listBuffer.getError())
     return EC;

   // Parse the header list into strings.
   SmallVector<StringRef, 32> Strings;
   listBuffer.get()->getBuffer().split(Strings, "\n", -1, false);

   // Collect the header file names from the string list.
   for (SmallVectorImpl<StringRef>::iterator I = Strings.begin(),
     E = Strings.end();
     I != E; ++I) {
     StringRef Line = I->trim();
     // Ignore comments and empty lines.
     if (Line.empty() || (Line[0] == '#'))
       continue;
     SmallString<256> HeaderFileName;
     // Prepend header file name prefix if it's not absolute.
     if (llvm::sys::path::is_absolute(Line))
       llvm::sys::path::native(Line, HeaderFileName);
     else {
       if (HeaderDirectory.size() != 0)
         HeaderFileName = HeaderDirectory;
       else
         HeaderFileName = CurrentDirectory;
       llvm::sys::path::append(HeaderFileName, Line);
       llvm::sys::path::native(HeaderFileName);
     }
     // Get canonical form.
     HeaderFileName = getCanonicalPath(HeaderFileName);
     // Save the resulting header file path.
     ProblemFileNames.push_back(std::string(HeaderFileName.str()));
   }
   return std::error_code();
 }

 // Load single module map and extract header file list.
 std::error_code ModularizeUtilities::loadModuleMap(
     llvm::StringRef InputPath) {
   // Get file entry for module.modulemap file.
   auto ModuleMapEntryOrErr =
     SourceMgr->getFileManager().getFile(InputPath);

   // return error if not found.
   if (!ModuleMapEntryOrErr) {
     llvm::errs() << "error: File \"" << InputPath << "\" not found.\n";
     return ModuleMapEntryOrErr.getError();
   }
   const FileEntry *ModuleMapEntry = *ModuleMapEntryOrErr;

   // Because the module map parser uses a ForwardingDiagnosticConsumer,
   // which doesn't forward the BeginSourceFile call, we do it explicitly here.
   DC.BeginSourceFile(*LangOpts, nullptr);

   // Figure out the home directory for the module map file.
   const DirectoryEntry *Dir = ModuleMapEntry->getDir();
   StringRef DirName(Dir->getName());
   if (llvm::sys::path::filename(DirName) == "Modules") {
     DirName = llvm::sys::path::parent_path(DirName);
     if (DirName.endswith(".framework")) {
       if (auto DirEntry = FileMgr->getDirectory(DirName))
         Dir = *DirEntry;
       else
         Dir = nullptr;
     }
     // FIXME: This assert can fail if there's a race between the above check
     // and the removal of the directory.
     assert(Dir && "parent must exist");
   }

   std::unique_ptr<ModuleMap> ModMap;
   ModMap.reset(new ModuleMap(*SourceMgr, *Diagnostics, *LangOpts,
     Target.get(), *HeaderInfo));

   // Parse module.modulemap file into module map.
   if (ModMap->parseModuleMapFile(ModuleMapEntry, false, Dir)) {
     return std::error_code(1, std::generic_category());
   }

   // Do matching end call.
   DC.EndSourceFile();

   // Reset missing header count.
   MissingHeaderCount = 0;

   if (!collectModuleMapHeaders(ModMap.get()))
     return std::error_code(1, std::generic_category());

   // Save module map.
   ModuleMaps.push_back(std::move(ModMap));

   // Indicate we are using module maps.
   HasModuleMap = true;

   // Return code of 1 for missing headers.
   if (MissingHeaderCount)
     return std::error_code(1, std::generic_category());

   return std::error_code();
 }

 // Collect module map headers.
 // Walks the modules and collects referenced headers into
 // HeaderFileNames.
 bool ModularizeUtilities::collectModuleMapHeaders(clang::ModuleMap *ModMap) {
   for (ModuleMap::module_iterator I = ModMap->module_begin(),
     E = ModMap->module_end();
     I != E; ++I) {
     if (!collectModuleHeaders(*I->second))
       return false;
   }
   return true;
 }

 // Collect referenced headers from one module.
 // Collects the headers referenced in the given module into
 // HeaderFileNames.
 bool ModularizeUtilities::collectModuleHeaders(const clang::Module &Mod) {

   // Ignore explicit modules because they often have dependencies
   // we can't know.
   if (Mod.IsExplicit)
     return true;

   // Treat headers in umbrella directory as dependencies.
   DependentsVector UmbrellaDependents;

   // Recursively do submodules.
   for (auto MI = Mod.submodule_begin(), MIEnd = Mod.submodule_end();
        MI != MIEnd; ++MI)
     collectModuleHeaders(**MI);

   if (const FileEntry *UmbrellaHeader = Mod.getUmbrellaHeader().Entry) {
     std::string HeaderPath = getCanonicalPath(UmbrellaHeader->getName());
     // Collect umbrella header.
     HeaderFileNames.push_back(HeaderPath);

     // FUTURE: When needed, umbrella header header collection goes here.
   }
   else if (const DirectoryEntry *UmbrellaDir = Mod.getUmbrellaDir().Entry) {
     // If there normal headers, assume these are umbrellas and skip collection.
     if (Mod.Headers->size() == 0) {
       // Collect headers in umbrella directory.
       if (!collectUmbrellaHeaders(UmbrellaDir->getName(), UmbrellaDependents))
         return false;
     }
   }

   // We ignore HK_Private, HK_Textual, HK_PrivateTextual, and HK_Excluded,
   // assuming they are marked as such either because of unsuitability for
   // modules or because they are meant to be included by another header,
   // and thus should be ignored by modularize.

   int NormalHeaderCount = Mod.Headers[clang::Module::HK_Normal].size();

   for (int Index = 0; Index < NormalHeaderCount; ++Index) {
     DependentsVector NormalDependents;
     // Collect normal header.
     const clang::Module::Header &Header(
       Mod.Headers[clang::Module::HK_Normal][Index]);
     std::string HeaderPath = getCanonicalPath(Header.Entry->getName());
     HeaderFileNames.push_back(HeaderPath);
   }

   int MissingCountThisModule = Mod.MissingHeaders.size();

   for (int Index = 0; Index < MissingCountThisModule; ++Index) {
     std::string MissingFile = Mod.MissingHeaders[Index].FileName;
     SourceLocation Loc = Mod.MissingHeaders[Index].FileNameLoc;
     errs() << Loc.printToString(*SourceMgr)
       << ": error : Header not found: " << MissingFile << "\n";
   }

   MissingHeaderCount += MissingCountThisModule;

   return true;
 }

 // Collect headers from an umbrella directory.
 bool ModularizeUtilities::collectUmbrellaHeaders(StringRef UmbrellaDirName,
   DependentsVector &Dependents) {
   // Initialize directory name.
   SmallString<256> Directory(UmbrellaDirName);
   // Walk the directory.
   std::error_code EC;
   for (llvm::sys::fs::directory_iterator I(Directory.str(), EC), E; I != E;
     I.increment(EC)) {
     if (EC)
       return false;
     std::string File(I->path());
     llvm::ErrorOr<llvm::sys::fs::basic_file_status> Status = I->status();
     if (!Status)
       return false;
     llvm::sys::fs::file_type Type = Status->type();
     // If the file is a directory, ignore the name and recurse.
     if (Type == llvm::sys::fs::file_type::directory_file) {
       if (!collectUmbrellaHeaders(File, Dependents))
         return false;
       continue;
     }
     // If the file does not have a common header extension, ignore it.
     if (!isHeader(File))
       continue;
     // Save header name.
     std::string HeaderPath = getCanonicalPath(File);
     Dependents.push_back(HeaderPath);
   }
   return true;
 }

 // Replace .. embedded in path for purposes of having
 // a canonical path.
 static std::string replaceDotDot(StringRef Path) {
   SmallString<128> Buffer;
   llvm::sys::path::const_iterator B = llvm::sys::path::begin(Path),
     E = llvm::sys::path::end(Path);
   while (B != E) {
     if (B->compare(".") == 0) {
     }
     else if (B->compare("..") == 0)
       llvm::sys::path::remove_filename(Buffer);
     else
       llvm::sys::path::append(Buffer, *B);
     ++B;
   }
   if (Path.endswith("/") || Path.endswith("\\"))
     Buffer.append(1, Path.back());
   return Buffer.c_str();
 }

 // Convert header path to canonical form.
 // The canonical form is basically just use forward slashes, and remove "./".
 // \param FilePath The file path, relative to the module map directory.
 // \returns The file path in canonical form.
 std::string ModularizeUtilities::getCanonicalPath(StringRef FilePath) {
   std::string Tmp(replaceDotDot(FilePath));
   std::replace(Tmp.begin(), Tmp.end(), '\\', '/');
   StringRef Tmp2(Tmp);
   if (Tmp2.startswith("./"))
     Tmp = std::string(Tmp2.substr(2));
   return Tmp;
 }

 // Check for header file extension.
 // If the file extension is .h, .inc, or missing, it's
 // assumed to be a header.
 // \param FileName The file name.  Must not be a directory.
 // \returns true if it has a header extension or no extension.
 bool ModularizeUtilities::isHeader(StringRef FileName) {
   StringRef Extension = llvm::sys::path::extension(FileName);
   if (Extension.size() == 0)
     return true;
   if (Extension.equals_insensitive(".h"))
     return true;
   if (Extension.equals_insensitive(".inc"))
     return true;
   return false;
 }

 // Get directory path component from file path.
 // \returns the component of the given path, which will be
 // relative if the given path is relative, absolute if the
 // given path is absolute, or "." if the path has no leading
 // path component.
 std::string ModularizeUtilities::getDirectoryFromPath(StringRef Path) {
   SmallString<256> Directory(Path);
   sys::path::remove_filename(Directory);
   if (Directory.size() == 0)
     return ".";
   return std::string(Directory.str());
 }

 // Add unique problem file.
 // Also standardizes the path.
 void ModularizeUtilities::addUniqueProblemFile(std::string FilePath) {
   FilePath = getCanonicalPath(FilePath);
   // Don't add if already present.
   for(auto &TestFilePath : ProblemFileNames) {
     if (TestFilePath == FilePath)
       return;
   }
   ProblemFileNames.push_back(FilePath);
 }

 // Add file with no compile errors.
 // Also standardizes the path.
 void ModularizeUtilities::addNoCompileErrorsFile(std::string FilePath) {
   FilePath = getCanonicalPath(FilePath);
   GoodFileNames.push_back(FilePath);
 }

 // List problem files.
 void ModularizeUtilities::displayProblemFiles() {
   errs() << "\nThese are the files with possible errors:\n\n";
   for (auto &ProblemFile : ProblemFileNames) {
     errs() << ProblemFile << "\n";
   }
 }

 // List files with no problems.
 void ModularizeUtilities::displayGoodFiles() {
   errs() << "\nThese are the files with no detected errors:\n\n";
   for (auto &GoodFile : HeaderFileNames) {
     bool Good = true;
     for (auto &ProblemFile : ProblemFileNames) {
       if (ProblemFile == GoodFile) {
         Good = false;
         break;
       }
     }
     if (Good)
       errs() << GoodFile << "\n";
   }
 }

 // List files with problem files commented out.
 void ModularizeUtilities::displayCombinedFiles() {
   errs() <<
     "\nThese are the combined files, with problem files preceded by #:\n\n";
   for (auto &File : HeaderFileNames) {
     bool Good = true;
     for (auto &ProblemFile : ProblemFileNames) {
       if (ProblemFile == File) {
         Good = false;
         break;
       }
     }
     errs() << (Good ? "" : "#") << File << "\n";
   }
 }
	//===--- extra/modularize/ModularizeUtilities.cpp -------------------===//
	//
	// 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
	//
	//===----------------------------------------------------------------------===//
	//
	// This file implements a class for loading and validating a module map or
	// header list by checking that all headers in the corresponding directories
	// are accounted for.
	//
	//===----------------------------------------------------------------------===//

	#include "clang/Basic/SourceManager.h"
	#include "clang/Driver/Options.h"
	#include "clang/Frontend/CompilerInstance.h"
	#include "clang/Frontend/FrontendActions.h"
	#include "CoverageChecker.h"
	#include "llvm/ADT/SmallString.h"
	#include "llvm/Support/FileUtilities.h"
	#include "llvm/Support/MemoryBuffer.h"
	#include "llvm/Support/Path.h"
	#include "llvm/Support/raw_ostream.h"
	#include "ModularizeUtilities.h"

	using namespace clang;
	using namespace llvm;
	using namespace Modularize;

	namespace {
	// Subclass TargetOptions so we can construct it inline with
	// the minimal option, the triple.
	class ModuleMapTargetOptions : public clang::TargetOptions {
	public:
	ModuleMapTargetOptions() { Triple = llvm::sys::getDefaultTargetTriple(); }
	};
	} // namespace

	// ModularizeUtilities class implementation.

	// Constructor.
	ModularizeUtilities::ModularizeUtilities(std::vector<std::string> &InputPaths,
	llvm::StringRef Prefix,
	llvm::StringRef ProblemFilesListPath)
	: InputFilePaths(InputPaths), HeaderPrefix(Prefix),
	ProblemFilesPath(ProblemFilesListPath), HasModuleMap(false),
	MissingHeaderCount(0),
	// Init clang stuff needed for loading the module map and preprocessing.
	LangOpts(new LangOptions()), DiagIDs(new DiagnosticIDs()),
	DiagnosticOpts(new DiagnosticOptions()),
	DC(llvm::errs(), DiagnosticOpts.get()),
	Diagnostics(
	new DiagnosticsEngine(DiagIDs, DiagnosticOpts.get(), &DC, false)),
	TargetOpts(new ModuleMapTargetOptions()),
	Target(TargetInfo::CreateTargetInfo(*Diagnostics, TargetOpts)),
	FileMgr(new FileManager(FileSystemOpts)),
	SourceMgr(new SourceManager(Diagnostics, FileMgr, false)),
	HeaderInfo(new HeaderSearch(std::make_shared<HeaderSearchOptions>(),
	SourceMgr, Diagnostics, *LangOpts,
	Target.get())) {}

	// Create instance of ModularizeUtilities, to simplify setting up
	// subordinate objects.
	ModularizeUtilities *ModularizeUtilities::createModularizeUtilities(
	std::vector<std::string> &InputPaths, llvm::StringRef Prefix,
	llvm::StringRef ProblemFilesListPath) {

	return new ModularizeUtilities(InputPaths, Prefix, ProblemFilesListPath);
	}

	// Load all header lists and dependencies.
	std::error_code ModularizeUtilities::loadAllHeaderListsAndDependencies() {
	// For each input file.
	for (auto I = InputFilePaths.begin(), E = InputFilePaths.end(); I != E; ++I) {
	llvm::StringRef InputPath = *I;
	// If it's a module map.
	if (InputPath.endswith(".modulemap")) {
	// Load the module map.
	if (std::error_code EC = loadModuleMap(InputPath))
	return EC;
	}
	else {
	// Else we assume it's a header list and load it.
	if (std::error_code EC = loadSingleHeaderListsAndDependencies(InputPath)) {
	errs() << "modularize: error: Unable to get header list '" << InputPath
	<< "': " << EC.message() << '\n';
	return EC;
	}
	}
	}
	// If we have a problem files list.
	if (ProblemFilesPath.size() != 0) {
	// Load problem files list.
	if (std::error_code EC = loadProblemHeaderList(ProblemFilesPath)) {
	errs() << "modularize: error: Unable to get problem header list '" << ProblemFilesPath
	<< "': " << EC.message() << '\n';
	return EC;
	}
	}
	return std::error_code();
	}

	// Do coverage checks.
	// For each loaded module map, do header coverage check.
	// Starting from the directory of the module.map file,
	// Find all header files, optionally looking only at files
	// covered by the include path options, and compare against
	// the headers referenced by the module.map file.
	// Display warnings for unaccounted-for header files.
	// Returns 0 if there were no errors or warnings, 1 if there
	// were warnings, 2 if any other problem, such as a bad
	// module map path argument was specified.
	std::error_code ModularizeUtilities::doCoverageCheck(
	std::vector<std::string> &IncludePaths,
	llvm::ArrayRef<std::string> CommandLine) {
	int ModuleMapCount = ModuleMaps.size();
	int ModuleMapIndex;
	std::error_code EC;
	for (ModuleMapIndex = 0; ModuleMapIndex < ModuleMapCount; ++ModuleMapIndex) {
	std::unique_ptr<clang::ModuleMap> &ModMap = ModuleMaps[ModuleMapIndex];
	auto Checker = CoverageChecker::createCoverageChecker(
	InputFilePaths[ModuleMapIndex], IncludePaths, CommandLine,
	ModMap.get());
	std::error_code LocalEC = Checker->doChecks();
	if (LocalEC.value() > 0)
	EC = LocalEC;
	}
	return EC;
	}

	// Load single header list and dependencies.
	std::error_code ModularizeUtilities::loadSingleHeaderListsAndDependencies(
	llvm::StringRef InputPath) {

	// By default, use the path component of the list file name.
	SmallString<256> HeaderDirectory(InputPath);
	llvm::sys::path::remove_filename(HeaderDirectory);
	SmallString<256> CurrentDirectory;
	llvm::sys::fs::current_path(CurrentDirectory);

	// Get the prefix if we have one.
	if (HeaderPrefix.size() != 0)
	HeaderDirectory = HeaderPrefix;

	// Read the header list file into a buffer.
	ErrorOr<std::unique_ptr<MemoryBuffer>> listBuffer =
	MemoryBuffer::getFile(InputPath);
	if (std::error_code EC = listBuffer.getError())
	return EC;

	// Parse the header list into strings.
	SmallVector<StringRef, 32> Strings;
	listBuffer.get()->getBuffer().split(Strings, "\n", -1, false);

	// Collect the header file names from the string list.
	for (SmallVectorImpl<StringRef>::iterator I = Strings.begin(),
	E = Strings.end();
	I != E; ++I) {
	StringRef Line = I->trim();
	// Ignore comments and empty lines.
	if (Line.empty() \|\| (Line[0] == '#'))
	continue;
	std::pair<StringRef, StringRef> TargetAndDependents = Line.split(':');
	SmallString<256> HeaderFileName;
	// Prepend header file name prefix if it's not absolute.
	if (llvm::sys::path::is_absolute(TargetAndDependents.first))
	llvm::sys::path::native(TargetAndDependents.first, HeaderFileName);
	else {
	if (HeaderDirectory.size() != 0)
	HeaderFileName = HeaderDirectory;
	else
	HeaderFileName = CurrentDirectory;
	llvm::sys::path::append(HeaderFileName, TargetAndDependents.first);
	llvm::sys::path::native(HeaderFileName);
	}
	// Handle optional dependencies.
	DependentsVector Dependents;
	SmallVector<StringRef, 4> DependentsList;
	TargetAndDependents.second.split(DependentsList, " ", -1, false);
	int Count = DependentsList.size();
	for (int Index = 0; Index < Count; ++Index) {
	SmallString<256> Dependent;
	if (llvm::sys::path::is_absolute(DependentsList[Index]))
	Dependent = DependentsList[Index];
	else {
	if (HeaderDirectory.size() != 0)
	Dependent = HeaderDirectory;
	else
	Dependent = CurrentDirectory;
	llvm::sys::path::append(Dependent, DependentsList[Index]);
	}
	llvm::sys::path::native(Dependent);
	Dependents.push_back(getCanonicalPath(Dependent.str()));
	}
	// Get canonical form.
	HeaderFileName = getCanonicalPath(HeaderFileName);
	// Save the resulting header file path and dependencies.
	HeaderFileNames.push_back(std::string(HeaderFileName.str()));
	Dependencies[HeaderFileName.str()] = Dependents;
	}
	return std::error_code();
	}

	// Load problem header list.
	std::error_code ModularizeUtilities::loadProblemHeaderList(
	llvm::StringRef InputPath) {

	// By default, use the path component of the list file name.
	SmallString<256> HeaderDirectory(InputPath);
	llvm::sys::path::remove_filename(HeaderDirectory);
	SmallString<256> CurrentDirectory;
	llvm::sys::fs::current_path(CurrentDirectory);

	// Get the prefix if we have one.
	if (HeaderPrefix.size() != 0)
	HeaderDirectory = HeaderPrefix;

	// Read the header list file into a buffer.
	ErrorOr<std::unique_ptr<MemoryBuffer>> listBuffer =
	MemoryBuffer::getFile(InputPath);
	if (std::error_code EC = listBuffer.getError())
	return EC;

	// Parse the header list into strings.
	SmallVector<StringRef, 32> Strings;
	listBuffer.get()->getBuffer().split(Strings, "\n", -1, false);

	// Collect the header file names from the string list.
	for (SmallVectorImpl<StringRef>::iterator I = Strings.begin(),
	E = Strings.end();
	I != E; ++I) {
	StringRef Line = I->trim();
	// Ignore comments and empty lines.
	if (Line.empty() \|\| (Line[0] == '#'))
	continue;
	SmallString<256> HeaderFileName;
	// Prepend header file name prefix if it's not absolute.
	if (llvm::sys::path::is_absolute(Line))
	llvm::sys::path::native(Line, HeaderFileName);
	else {
	if (HeaderDirectory.size() != 0)
	HeaderFileName = HeaderDirectory;
	else
	HeaderFileName = CurrentDirectory;
	llvm::sys::path::append(HeaderFileName, Line);
	llvm::sys::path::native(HeaderFileName);
	}
	// Get canonical form.
	HeaderFileName = getCanonicalPath(HeaderFileName);
	// Save the resulting header file path.
	ProblemFileNames.push_back(std::string(HeaderFileName.str()));
	}
	return std::error_code();
	}

	// Load single module map and extract header file list.
	std::error_code ModularizeUtilities::loadModuleMap(
	llvm::StringRef InputPath) {
	// Get file entry for module.modulemap file.
	auto ModuleMapEntryOrErr =
	SourceMgr->getFileManager().getFile(InputPath);

	// return error if not found.
	if (!ModuleMapEntryOrErr) {
	llvm::errs() << "error: File \"" << InputPath << "\" not found.\n";
	return ModuleMapEntryOrErr.getError();
	}
	const FileEntry ModuleMapEntry = ModuleMapEntryOrErr;

	// Because the module map parser uses a ForwardingDiagnosticConsumer,
	// which doesn't forward the BeginSourceFile call, we do it explicitly here.
	DC.BeginSourceFile(*LangOpts, nullptr);

	// Figure out the home directory for the module map file.
	const DirectoryEntry *Dir = ModuleMapEntry->getDir();
	StringRef DirName(Dir->getName());
	if (llvm::sys::path::filename(DirName) == "Modules") {
	DirName = llvm::sys::path::parent_path(DirName);
	if (DirName.endswith(".framework")) {
	if (auto DirEntry = FileMgr->getDirectory(DirName))
	Dir = *DirEntry;
	else
	Dir = nullptr;
	}
	// FIXME: This assert can fail if there's a race between the above check
	// and the removal of the directory.
	assert(Dir && "parent must exist");
	}

	std::unique_ptr<ModuleMap> ModMap;
	ModMap.reset(new ModuleMap(SourceMgr, Diagnostics, *LangOpts,
	Target.get(), *HeaderInfo));

	// Parse module.modulemap file into module map.
	if (ModMap->parseModuleMapFile(ModuleMapEntry, false, Dir)) {
	return std::error_code(1, std::generic_category());
	}

	// Do matching end call.
	DC.EndSourceFile();

	// Reset missing header count.
	MissingHeaderCount = 0;

	if (!collectModuleMapHeaders(ModMap.get()))
	return std::error_code(1, std::generic_category());

	// Save module map.
	ModuleMaps.push_back(std::move(ModMap));

	// Indicate we are using module maps.
	HasModuleMap = true;

	// Return code of 1 for missing headers.
	if (MissingHeaderCount)
	return std::error_code(1, std::generic_category());

	return std::error_code();
	}

	// Collect module map headers.
	// Walks the modules and collects referenced headers into
	// HeaderFileNames.
	bool ModularizeUtilities::collectModuleMapHeaders(clang::ModuleMap *ModMap) {
	for (ModuleMap::module_iterator I = ModMap->module_begin(),
	E = ModMap->module_end();
	I != E; ++I) {
	if (!collectModuleHeaders(*I->second))
	return false;
	}
	return true;
	}

	// Collect referenced headers from one module.
	// Collects the headers referenced in the given module into
	// HeaderFileNames.
	bool ModularizeUtilities::collectModuleHeaders(const clang::Module &Mod) {

	// Ignore explicit modules because they often have dependencies
	// we can't know.
	if (Mod.IsExplicit)
	return true;

	// Treat headers in umbrella directory as dependencies.
	DependentsVector UmbrellaDependents;

	// Recursively do submodules.
	for (auto MI = Mod.submodule_begin(), MIEnd = Mod.submodule_end();
	MI != MIEnd; ++MI)
	collectModuleHeaders(**MI);

	if (const FileEntry *UmbrellaHeader = Mod.getUmbrellaHeader().Entry) {
	std::string HeaderPath = getCanonicalPath(UmbrellaHeader->getName());
	// Collect umbrella header.
	HeaderFileNames.push_back(HeaderPath);

	// FUTURE: When needed, umbrella header header collection goes here.
	}
	else if (const DirectoryEntry *UmbrellaDir = Mod.getUmbrellaDir().Entry) {
	// If there normal headers, assume these are umbrellas and skip collection.
	if (Mod.Headers->size() == 0) {
	// Collect headers in umbrella directory.
	if (!collectUmbrellaHeaders(UmbrellaDir->getName(), UmbrellaDependents))
	return false;
	}
	}

	// We ignore HK_Private, HK_Textual, HK_PrivateTextual, and HK_Excluded,
	// assuming they are marked as such either because of unsuitability for
	// modules or because they are meant to be included by another header,
	// and thus should be ignored by modularize.

	int NormalHeaderCount = Mod.Headers[clang::Module::HK_Normal].size();

	for (int Index = 0; Index < NormalHeaderCount; ++Index) {
	DependentsVector NormalDependents;
	// Collect normal header.
	const clang::Module::Header &Header(
	Mod.Headers[clang::Module::HK_Normal][Index]);
	std::string HeaderPath = getCanonicalPath(Header.Entry->getName());
	HeaderFileNames.push_back(HeaderPath);
	}

	int MissingCountThisModule = Mod.MissingHeaders.size();

	for (int Index = 0; Index < MissingCountThisModule; ++Index) {
	std::string MissingFile = Mod.MissingHeaders[Index].FileName;
	SourceLocation Loc = Mod.MissingHeaders[Index].FileNameLoc;
	errs() << Loc.printToString(*SourceMgr)
	<< ": error : Header not found: " << MissingFile << "\n";
	}

	MissingHeaderCount += MissingCountThisModule;

	return true;
	}

	// Collect headers from an umbrella directory.
	bool ModularizeUtilities::collectUmbrellaHeaders(StringRef UmbrellaDirName,
	DependentsVector &Dependents) {
	// Initialize directory name.
	SmallString<256> Directory(UmbrellaDirName);
	// Walk the directory.
	std::error_code EC;
	for (llvm::sys::fs::directory_iterator I(Directory.str(), EC), E; I != E;
	I.increment(EC)) {
	if (EC)
	return false;
	std::string File(I->path());
	llvm::ErrorOr<llvm::sys::fs::basic_file_status> Status = I->status();
	if (!Status)
	return false;
	llvm::sys::fs::file_type Type = Status->type();
	// If the file is a directory, ignore the name and recurse.
	if (Type == llvm::sys::fs::file_type::directory_file) {
	if (!collectUmbrellaHeaders(File, Dependents))
	return false;
	continue;
	}
	// If the file does not have a common header extension, ignore it.
	if (!isHeader(File))
	continue;
	// Save header name.
	std::string HeaderPath = getCanonicalPath(File);
	Dependents.push_back(HeaderPath);
	}
	return true;
	}

	// Replace .. embedded in path for purposes of having
	// a canonical path.
	static std::string replaceDotDot(StringRef Path) {
	SmallString<128> Buffer;
	llvm::sys::path::const_iterator B = llvm::sys::path::begin(Path),
	E = llvm::sys::path::end(Path);
	while (B != E) {
	if (B->compare(".") == 0) {
	}
	else if (B->compare("..") == 0)
	llvm::sys::path::remove_filename(Buffer);
	else
	llvm::sys::path::append(Buffer, *B);
	++B;
	}
	if (Path.endswith("/") \|\| Path.endswith("\\"))
	Buffer.append(1, Path.back());
	return Buffer.c_str();
	}

	// Convert header path to canonical form.
	// The canonical form is basically just use forward slashes, and remove "./".
	// \param FilePath The file path, relative to the module map directory.
	// \returns The file path in canonical form.
	std::string ModularizeUtilities::getCanonicalPath(StringRef FilePath) {
	std::string Tmp(replaceDotDot(FilePath));
	std::replace(Tmp.begin(), Tmp.end(), '\\', '/');
	StringRef Tmp2(Tmp);
	if (Tmp2.startswith("./"))
	Tmp = std::string(Tmp2.substr(2));
	return Tmp;
	}

	// Check for header file extension.
	// If the file extension is .h, .inc, or missing, it's
	// assumed to be a header.
	// \param FileName The file name. Must not be a directory.
	// \returns true if it has a header extension or no extension.
	bool ModularizeUtilities::isHeader(StringRef FileName) {
	StringRef Extension = llvm::sys::path::extension(FileName);
	if (Extension.size() == 0)
	return true;
	if (Extension.equals_insensitive(".h"))
	return true;
	if (Extension.equals_insensitive(".inc"))
	return true;
	return false;
	}

	// Get directory path component from file path.
	// \returns the component of the given path, which will be
	// relative if the given path is relative, absolute if the
	// given path is absolute, or "." if the path has no leading
	// path component.
	std::string ModularizeUtilities::getDirectoryFromPath(StringRef Path) {
	SmallString<256> Directory(Path);
	sys::path::remove_filename(Directory);
	if (Directory.size() == 0)
	return ".";
	return std::string(Directory.str());
	}

	// Add unique problem file.
	// Also standardizes the path.
	void ModularizeUtilities::addUniqueProblemFile(std::string FilePath) {
	FilePath = getCanonicalPath(FilePath);
	// Don't add if already present.
	for(auto &TestFilePath : ProblemFileNames) {
	if (TestFilePath == FilePath)
	return;
	}
	ProblemFileNames.push_back(FilePath);
	}

	// Add file with no compile errors.
	// Also standardizes the path.
	void ModularizeUtilities::addNoCompileErrorsFile(std::string FilePath) {
	FilePath = getCanonicalPath(FilePath);
	GoodFileNames.push_back(FilePath);
	}

	// List problem files.
	void ModularizeUtilities::displayProblemFiles() {
	errs() << "\nThese are the files with possible errors:\n\n";
	for (auto &ProblemFile : ProblemFileNames) {
	errs() << ProblemFile << "\n";
	}
	}

	// List files with no problems.
	void ModularizeUtilities::displayGoodFiles() {
	errs() << "\nThese are the files with no detected errors:\n\n";
	for (auto &GoodFile : HeaderFileNames) {
	bool Good = true;
	for (auto &ProblemFile : ProblemFileNames) {
	if (ProblemFile == GoodFile) {
	Good = false;
	break;
	}
	}
	if (Good)
	errs() << GoodFile << "\n";
	}
	}

	// List files with problem files commented out.
	void ModularizeUtilities::displayCombinedFiles() {
	errs() <<
	"\nThese are the combined files, with problem files preceded by #:\n\n";
	for (auto &File : HeaderFileNames) {
	bool Good = true;
	for (auto &ProblemFile : ProblemFileNames) {
	if (ProblemFile == File) {
	Good = false;
	break;
	}
	}
	errs() << (Good ? "" : "#") << File << "\n";
	}
	}