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//===--- ModuleAssistant.cpp - Module map generation manager -*- C++ -*---===//
//
// The LLVM Compiler Infrastructure
//
// This file is distributed under the University of Illinois Open Source
// License. See LICENSE.TXT for details.
//
//===---------------------------------------------------------------------===//
//
// This file defines the module generation entry point function,
// createModuleMap, a Module class for representing a module,
// and various implementation functions for doing the underlying
// work, described below.
//
// The "Module" class represents a module, with members for storing the module
// name, associated header file names, and sub-modules, and an "output"
// function that recursively writes the module definitions.
//
// The "createModuleMap" function implements the top-level logic of the
// assistant mode. It calls a loadModuleDescriptions function to walk
// the header list passed to it and creates a tree of Module objects
// representing the module hierarchy, represented by a "Module" object,
// the "RootModule". This root module may or may not represent an actual
// module in the module map, depending on the "--root-module" option passed
// to modularize. It then calls a writeModuleMap function to set up the
// module map file output and walk the module tree, outputting the module
// map file using a stream obtained and managed by an
// llvm::ToolOutputFile object.
//
//===---------------------------------------------------------------------===//
#include "Modularize.h"
#include "llvm/ADT/SmallString.h"
#include "llvm/Support/FileSystem.h"
#include "llvm/Support/Path.h"
#include "llvm/Support/ToolOutputFile.h"
#include <vector>
// Local definitions:
namespace {
// Internal class definitions:
// Represents a module.
class Module {
public:
Module(llvm::StringRef Name, bool Problem);
Module();
~Module();
bool output(llvm::raw_fd_ostream &OS, int Indent);
Module *findSubModule(llvm::StringRef SubName);
public:
std::string Name;
std::vector<std::string> HeaderFileNames;
std::vector<Module *> SubModules;
bool IsProblem;
};
} // end anonymous namespace.
// Module functions:
// Constructors.
Module::Module(llvm::StringRef Name, bool Problem)
: Name(Name), IsProblem(Problem) {}
Module::Module() : IsProblem(false) {}
// Destructor.
Module::~Module() {
// Free submodules.
while (!SubModules.empty()) {
Module *last = SubModules.back();
SubModules.pop_back();
delete last;
}
}
// Write a module hierarchy to the given output stream.
bool Module::output(llvm::raw_fd_ostream &OS, int Indent) {
// If this is not the nameless root module, start a module definition.
if (Name.size() != 0) {
OS.indent(Indent);
OS << "module " << Name << " {\n";
Indent += 2;
}
// Output submodules.
for (auto I = SubModules.begin(), E = SubModules.end(); I != E; ++I) {
if (!(*I)->output(OS, Indent))
return false;
}
// Output header files.
for (auto I = HeaderFileNames.begin(), E = HeaderFileNames.end(); I != E;
++I) {
OS.indent(Indent);
if (IsProblem || strstr((*I).c_str(), ".inl"))
OS << "exclude header \"" << *I << "\"\n";
else
OS << "header \"" << *I << "\"\n";
}
// If this module has header files, output export directive.
if (HeaderFileNames.size() != 0) {
OS.indent(Indent);
OS << "export *\n";
}
// If this is not the nameless root module, close the module definition.
if (Name.size() != 0) {
Indent -= 2;
OS.indent(Indent);
OS << "}\n";
}
return true;
}
// Lookup a sub-module.
Module *Module::findSubModule(llvm::StringRef SubName) {
for (auto I = SubModules.begin(), E = SubModules.end(); I != E; ++I) {
if ((*I)->Name == SubName)
return *I;
}
return nullptr;
}
// Implementation functions:
// Reserved keywords in module.modulemap syntax.
// Keep in sync with keywords in module map parser in Lex/ModuleMap.cpp,
// such as in ModuleMapParser::consumeToken().
static const char *const ReservedNames[] = {
"config_macros", "export", "module", "conflict", "framework",
"requires", "exclude", "header", "private", "explicit",
"link", "umbrella", "extern", "use", nullptr // Flag end.
};
// Convert module name to a non-keyword.
// Prepends a '_' to the name if and only if the name is a keyword.
static std::string
ensureNoCollisionWithReservedName(llvm::StringRef MightBeReservedName) {
std::string SafeName = MightBeReservedName;
for (int Index = 0; ReservedNames[Index] != nullptr; ++Index) {
if (MightBeReservedName == ReservedNames[Index]) {
SafeName.insert(0, "_");
break;
}
}
return SafeName;
}
// Convert module name to a non-keyword.
// Prepends a '_' to the name if and only if the name is a keyword.
static std::string
ensureVaidModuleName(llvm::StringRef MightBeInvalidName) {
std::string SafeName = MightBeInvalidName;
std::replace(SafeName.begin(), SafeName.end(), '-', '_');
std::replace(SafeName.begin(), SafeName.end(), '.', '_');
if (isdigit(SafeName[0]))
SafeName = "_" + SafeName;
return SafeName;
}
// Add one module, given a header file path.
static bool addModuleDescription(Module *RootModule,
llvm::StringRef HeaderFilePath,
llvm::StringRef HeaderPrefix,
DependencyMap &Dependencies,
bool IsProblemFile) {
Module *CurrentModule = RootModule;
DependentsVector &FileDependents = Dependencies[HeaderFilePath];
std::string FilePath;
// Strip prefix.
// HeaderFilePath should be compared to natively-canonicalized Prefix.
llvm::SmallString<256> NativePath, NativePrefix;
llvm::sys::path::native(HeaderFilePath, NativePath);
llvm::sys::path::native(HeaderPrefix, NativePrefix);
if (NativePath.startswith(NativePrefix))
FilePath = NativePath.substr(NativePrefix.size() + 1);
else
FilePath = HeaderFilePath;
int Count = FileDependents.size();
// Headers that go into modules must not depend on other files being
// included first. If there are any dependents, warn user and omit.
if (Count != 0) {
llvm::errs() << "warning: " << FilePath
<< " depends on other headers being included first,"
" meaning the module.modulemap won't compile."
" This header will be omitted from the module map.\n";
return true;
}
// Make canonical.
std::replace(FilePath.begin(), FilePath.end(), '\\', '/');
// Insert module into tree, using subdirectories as submodules.
for (llvm::sys::path::const_iterator I = llvm::sys::path::begin(FilePath),
E = llvm::sys::path::end(FilePath);
I != E; ++I) {
if ((*I)[0] == '.')
continue;
std::string Stem = llvm::sys::path::stem(*I);
Stem = ensureNoCollisionWithReservedName(Stem);
Stem = ensureVaidModuleName(Stem);
Module *SubModule = CurrentModule->findSubModule(Stem);
if (!SubModule) {
SubModule = new Module(Stem, IsProblemFile);
CurrentModule->SubModules.push_back(SubModule);
}
CurrentModule = SubModule;
}
// Add header file name to headers.
CurrentModule->HeaderFileNames.push_back(FilePath);
return true;
}
// Create the internal module tree representation.
static Module *loadModuleDescriptions(
llvm::StringRef RootModuleName, llvm::ArrayRef<std::string> HeaderFileNames,
llvm::ArrayRef<std::string> ProblemFileNames,
DependencyMap &Dependencies, llvm::StringRef HeaderPrefix) {
// Create root module.
auto *RootModule = new Module(RootModuleName, false);
llvm::SmallString<256> CurrentDirectory;
llvm::sys::fs::current_path(CurrentDirectory);
// If no header prefix, use current directory.
if (HeaderPrefix.size() == 0)
HeaderPrefix = CurrentDirectory;
// Walk the header file names and output the module map.
for (llvm::ArrayRef<std::string>::iterator I = HeaderFileNames.begin(),
E = HeaderFileNames.end();
I != E; ++I) {
std::string Header(*I);
bool IsProblemFile = false;
for (auto &ProblemFile : ProblemFileNames) {
if (ProblemFile == Header) {
IsProblemFile = true;
break;
}
}
// Add as a module.
if (!addModuleDescription(RootModule, Header, HeaderPrefix, Dependencies, IsProblemFile))
return nullptr;
}
return RootModule;
}
// Kick off the writing of the module map.
static bool writeModuleMap(llvm::StringRef ModuleMapPath,
llvm::StringRef HeaderPrefix, Module *RootModule) {
llvm::SmallString<256> HeaderDirectory(ModuleMapPath);
llvm::sys::path::remove_filename(HeaderDirectory);
llvm::SmallString<256> FilePath;
// Get the module map file path to be used.
if ((HeaderDirectory.size() == 0) && (HeaderPrefix.size() != 0)) {
FilePath = HeaderPrefix;
// Prepend header file name prefix if it's not absolute.
llvm::sys::path::append(FilePath, ModuleMapPath);
llvm::sys::path::native(FilePath);
} else {
FilePath = ModuleMapPath;
llvm::sys::path::native(FilePath);
}
// Set up module map output file.
std::error_code EC;
llvm::ToolOutputFile Out(FilePath, EC, llvm::sys::fs::F_Text);
if (EC) {
llvm::errs() << Argv0 << ": error opening " << FilePath << ":"
<< EC.message() << "\n";
return false;
}
// Get output stream from tool output buffer/manager.
llvm::raw_fd_ostream &OS = Out.os();
// Output file comment.
OS << "// " << ModuleMapPath << "\n";
OS << "// Generated by: " << CommandLine << "\n\n";
// Write module hierarchy from internal representation.
if (!RootModule->output(OS, 0))
return false;
// Tell ToolOutputFile that we want to keep the file.
Out.keep();
return true;
}
// Global functions:
// Module map generation entry point.
bool createModuleMap(llvm::StringRef ModuleMapPath,
llvm::ArrayRef<std::string> HeaderFileNames,
llvm::ArrayRef<std::string> ProblemFileNames,
DependencyMap &Dependencies, llvm::StringRef HeaderPrefix,
llvm::StringRef RootModuleName) {
// Load internal representation of modules.
std::unique_ptr<Module> RootModule(
loadModuleDescriptions(
RootModuleName, HeaderFileNames, ProblemFileNames, Dependencies,
HeaderPrefix));
if (!RootModule.get())
return false;
// Write module map file.
return writeModuleMap(ModuleMapPath, HeaderPrefix, RootModule.get());
}