tools/llvm-config/llvm-config.cpp - fp2-dev/platform/external/llvm - Gitiles

 //===-- llvm-config.cpp - LLVM project configuration utility --------------===//
 //
 //                     The LLVM Compiler Infrastructure
 //
 // This file is distributed under the University of Illinois Open Source
 // License. See LICENSE.TXT for details.
 //
 //===----------------------------------------------------------------------===//
 //
 // This tool encapsulates information about an LLVM project configuration for
 // use by other project's build environments (to determine installed path,
 // available features, required libraries, etc.).
 //
 // Note that although this tool *may* be used by some parts of LLVM's build
 // itself (i.e., the Makefiles use it to compute required libraries when linking
 // tools), this tool is primarily designed to support external projects.
 //
 //===----------------------------------------------------------------------===//

 #include "llvm/ADT/STLExtras.h"
 #include "llvm/ADT/StringMap.h"
 #include "llvm/ADT/StringRef.h"
 #include "llvm/ADT/Twine.h"
 #include "llvm/Config/config.h"
 #include "llvm/Config/llvm-config.h"
 #include "llvm/Support/FileSystem.h"
 #include "llvm/Support/Path.h"
 #include "llvm/Support/raw_ostream.h"
 #include <cstdlib>
 #include <set>
 #include <vector>

 using namespace llvm;

 // Include the build time variables we can report to the user. This is generated
 // at build time from the BuildVariables.inc.in file by the build system.
 #include "BuildVariables.inc"

 // Include the component table. This creates an array of struct
 // AvailableComponent entries, which record the component name, library name,
 // and required components for all of the available libraries.
 //
 // Not all components define a library, we also use "library groups" as a way to
 // create entries for pseudo groups like x86 or all-targets.
 #include "LibraryDependencies.inc"

 /// \brief Traverse a single component adding to the topological ordering in
 /// \arg RequiredLibs.
 ///
 /// \param Name - The component to traverse.
 /// \param ComponentMap - A prebuilt map of component names to descriptors.
 /// \param VisitedComponents [in] [out] - The set of already visited components.
 /// \param RequiredLibs [out] - The ordered list of required libraries.
 static void VisitComponent(StringRef Name,
                            const StringMap<AvailableComponent*> &ComponentMap,
                            std::set<AvailableComponent*> &VisitedComponents,
                            std::vector<StringRef> &RequiredLibs) {
   // Lookup the component.
   AvailableComponent *AC = ComponentMap.lookup(Name);
   assert(AC && "Invalid component name!");

   // Add to the visited table.
   if (!VisitedComponents.insert(AC).second) {
     // We are done if the component has already been visited.
     return;
   }

   // Otherwise, visit all the dependencies.
   for (unsigned i = 0; AC->RequiredLibraries[i]; ++i) {
     VisitComponent(AC->RequiredLibraries[i], ComponentMap, VisitedComponents,
                    RequiredLibs);
   }

   // Add to the required library list.
   if (AC->Library)
     RequiredLibs.push_back(AC->Library);
 }

 /// \brief Compute the list of required libraries for a given list of
 /// components, in an order suitable for passing to a linker (that is, libraries
 /// appear prior to their dependencies).
 ///
 /// \param Components - The names of the components to find libraries for.
 /// \param RequiredLibs [out] - On return, the ordered list of libraries that
 /// are required to link the given components.
 void ComputeLibsForComponents(const std::vector<StringRef> &Components,
                               std::vector<StringRef> &RequiredLibs) {
   std::set<AvailableComponent*> VisitedComponents;

   // Build a map of component names to information.
   StringMap<AvailableComponent*> ComponentMap;
   for (unsigned i = 0; i != array_lengthof(AvailableComponents); ++i) {
     AvailableComponent *AC = &AvailableComponents[i];
     ComponentMap[AC->Name] = AC;
   }

   // Visit the components.
   for (unsigned i = 0, e = Components.size(); i != e; ++i) {
     // Users are allowed to provide mixed case component names.
     std::string ComponentLower = Components[i].lower();

     // Validate that the user supplied a valid component name.
     if (!ComponentMap.count(ComponentLower)) {
       llvm::errs() << "llvm-config: unknown component name: " << Components[i]
                    << "\n";
       exit(1);
     }

     VisitComponent(ComponentLower, ComponentMap, VisitedComponents,
                    RequiredLibs);
   }

   // The list is now ordered with leafs first, we want the libraries to printed
   // in the reverse order of dependency.
   std::reverse(RequiredLibs.begin(), RequiredLibs.end());
 }

 /* *** */

 void usage() {
   errs() << "\
 usage: llvm-config <OPTION>... [<COMPONENT>...]\n\
 \n\
 Get various configuration information needed to compile programs which use\n\
 LLVM.  Typically called from 'configure' scripts.  Examples:\n\
   llvm-config --cxxflags\n\
   llvm-config --ldflags\n\
   llvm-config --libs engine bcreader scalaropts\n\
 \n\
 Options:\n\
   --version         Print LLVM version.\n\
   --prefix          Print the installation prefix.\n\
   --src-root        Print the source root LLVM was built from.\n\
   --obj-root        Print the object root used to build LLVM.\n\
   --bindir          Directory containing LLVM executables.\n\
   --includedir      Directory containing LLVM headers.\n\
   --libdir          Directory containing LLVM libraries.\n\
   --cppflags        C preprocessor flags for files that include LLVM headers.\n\
   --cflags          C compiler flags for files that include LLVM headers.\n\
   --cxxflags        C++ compiler flags for files that include LLVM headers.\n\
   --ldflags         Print Linker flags.\n\
   --libs            Libraries needed to link against LLVM components.\n\
   --libnames        Bare library names for in-tree builds.\n\
   --libfiles        Fully qualified library filenames for makefile depends.\n\
   --components      List of all possible components.\n\
   --targets-built   List of all targets currently built.\n\
   --host-target     Target triple used to configure LLVM.\n\
   --build-mode      Print build mode of LLVM tree (e.g. Debug or Release).\n\
 Typical components:\n\
   all               All LLVM libraries (default).\n\
   engine            Either a native JIT or a bitcode interpreter.\n";
   exit(1);
 }

 /// \brief Compute the path to the main executable.
 llvm::sys::Path GetExecutablePath(const char *Argv0) {
   // This just needs to be some symbol in the binary; C++ doesn't
   // allow taking the address of ::main however.
   void *P = (void*) (intptr_t) GetExecutablePath;
   return llvm::sys::Path::GetMainExecutable(Argv0, P);
 }

 int main(int argc, char **argv) {
   std::vector<StringRef> Components;
   bool PrintLibs = false, PrintLibNames = false, PrintLibFiles = false;
   bool HasAnyOption = false;

   // llvm-config is designed to support being run both from a development tree
   // and from an installed path. We try and auto-detect which case we are in so
   // that we can report the correct information when run from a development
   // tree.
   bool IsInDevelopmentTree;
   enum { MakefileStyle, CMakeStyle, CMakeBuildModeStyle } DevelopmentTreeLayout;
   llvm::SmallString<256> CurrentPath(GetExecutablePath(argv[0]).str());
   std::string CurrentExecPrefix;
   std::string ActiveObjRoot;

   // Create an absolute path, and pop up one directory (we expect to be inside a
   // bin dir).
   sys::fs::make_absolute(CurrentPath);
   CurrentExecPrefix = sys::path::parent_path(
     sys::path::parent_path(CurrentPath)).str();

   // Check to see if we are inside a development tree by comparing to possible
   // locations (prefix style or CMake style). This could be wrong in the face of
   // symbolic links, but is good enough.
   if (CurrentExecPrefix == std::string(LLVM_OBJ_ROOT) + "/" + LLVM_BUILDMODE) {
     IsInDevelopmentTree = true;
     DevelopmentTreeLayout = MakefileStyle;

     // If we are in a development tree, then check if we are in a BuildTools
     // directory. This indicates we are built for the build triple, but we
     // always want to provide information for the host triple.
     if (sys::path::filename(LLVM_OBJ_ROOT) == "BuildTools") {
       ActiveObjRoot = sys::path::parent_path(LLVM_OBJ_ROOT);
     } else {
       ActiveObjRoot = LLVM_OBJ_ROOT;
     }
   } else if (CurrentExecPrefix == std::string(LLVM_OBJ_ROOT)) {
     IsInDevelopmentTree = true;
     DevelopmentTreeLayout = CMakeStyle;
     ActiveObjRoot = LLVM_OBJ_ROOT;
   } else if (CurrentExecPrefix == std::string(LLVM_OBJ_ROOT) + "/bin") {
     IsInDevelopmentTree = true;
     DevelopmentTreeLayout = CMakeBuildModeStyle;
     ActiveObjRoot = LLVM_OBJ_ROOT;
   } else {
     IsInDevelopmentTree = false;
     DevelopmentTreeLayout = MakefileStyle; // Initialized to avoid warnings.
   }

   // Compute various directory locations based on the derived location
   // information.
   std::string ActivePrefix, ActiveBinDir, ActiveIncludeDir, ActiveLibDir;
   std::string ActiveIncludeOption;
   if (IsInDevelopmentTree) {
     ActiveIncludeDir = std::string(LLVM_SRC_ROOT) + "/include";
     ActivePrefix = CurrentExecPrefix;

     // CMake organizes the products differently than a normal prefix style
     // layout.
     switch (DevelopmentTreeLayout) {
     case MakefileStyle:
       ActiveBinDir = ActiveObjRoot + "/" + LLVM_BUILDMODE + "/bin";
       ActiveLibDir = ActiveObjRoot + "/" + LLVM_BUILDMODE + "/lib";
       break;
     case CMakeStyle:
       ActiveBinDir = ActiveObjRoot + "/bin";
       ActiveLibDir = ActiveObjRoot + "/lib";
       break;
     case CMakeBuildModeStyle:
       ActiveBinDir = ActiveObjRoot + "/bin/" + LLVM_BUILDMODE;
       ActiveLibDir = ActiveObjRoot + "/lib/" + LLVM_BUILDMODE;
       break;
     }

     // We need to include files from both the source and object trees.
     ActiveIncludeOption = ("-I" + ActiveIncludeDir + " " +
                            "-I" + ActiveObjRoot + "/include");
   } else {
     ActivePrefix = CurrentExecPrefix;
     ActiveIncludeDir = ActivePrefix + "/include";
     ActiveBinDir = ActivePrefix + "/bin";
     ActiveLibDir = ActivePrefix + "/lib";
     ActiveIncludeOption = "-I" + ActiveIncludeDir;
   }

   raw_ostream &OS = outs();
   for (int i = 1; i != argc; ++i) {
     StringRef Arg = argv[i];

     if (Arg.startswith("-")) {
       HasAnyOption = true;
       if (Arg == "--version") {
         OS << PACKAGE_VERSION << '\n';
       } else if (Arg == "--prefix") {
         OS << ActivePrefix << '\n';
       } else if (Arg == "--bindir") {
         OS << ActiveBinDir << '\n';
       } else if (Arg == "--includedir") {
         OS << ActiveIncludeDir << '\n';
       } else if (Arg == "--libdir") {
         OS << ActiveLibDir << '\n';
       } else if (Arg == "--cppflags") {
         OS << ActiveIncludeOption << ' ' << LLVM_CPPFLAGS << '\n';
       } else if (Arg == "--cflags") {
         OS << ActiveIncludeOption << ' ' << LLVM_CFLAGS << '\n';
       } else if (Arg == "--cxxflags") {
         OS << ActiveIncludeOption << ' ' << LLVM_CXXFLAGS << '\n';
       } else if (Arg == "--ldflags") {
         OS << "-L" << ActiveLibDir << ' ' << LLVM_LDFLAGS
            << ' ' << LLVM_SYSTEM_LIBS << '\n';
       } else if (Arg == "--libs") {
         PrintLibs = true;
       } else if (Arg == "--libnames") {
         PrintLibNames = true;
       } else if (Arg == "--libfiles") {
         PrintLibFiles = true;
       } else if (Arg == "--components") {
         for (unsigned j = 0; j != array_lengthof(AvailableComponents); ++j) {
           OS << ' ';
           OS << AvailableComponents[j].Name;
         }
         OS << '\n';
       } else if (Arg == "--targets-built") {
         OS << LLVM_TARGETS_BUILT << '\n';
       } else if (Arg == "--host-target") {
         OS << LLVM_DEFAULT_TARGET_TRIPLE << '\n';
       } else if (Arg == "--build-mode") {
         OS << LLVM_BUILDMODE << '\n';
       } else if (Arg == "--obj-root") {
         OS << LLVM_OBJ_ROOT << '\n';
       } else if (Arg == "--src-root") {
         OS << LLVM_SRC_ROOT << '\n';
       } else {
         usage();
       }
     } else {
       Components.push_back(Arg);
     }
   }

   if (!HasAnyOption)
     usage();

   if (PrintLibs || PrintLibNames || PrintLibFiles) {
     // If no components were specified, default to "all".
     if (Components.empty())
       Components.push_back("all");

     // Construct the list of all the required libraries.
     std::vector<StringRef> RequiredLibs;
     ComputeLibsForComponents(Components, RequiredLibs);

     for (unsigned i = 0, e = RequiredLibs.size(); i != e; ++i) {
       StringRef Lib = RequiredLibs[i];
       if (i)
         OS << ' ';

       if (PrintLibNames) {
         OS << Lib;
       } else if (PrintLibFiles) {
         OS << ActiveLibDir << '/' << Lib;
       } else if (PrintLibs) {
         // If this is a typical library name, include it using -l.
         if (Lib.startswith("lib") && Lib.endswith(".a")) {
           OS << "-l" << Lib.slice(3, Lib.size()-2);
           continue;
         }

         // Otherwise, print the full path.
         OS << ActiveLibDir << '/' << Lib;
       }
     }
     OS << '\n';
   } else if (!Components.empty()) {
     errs() << "llvm-config: error: components given, but unused\n\n";
     usage();
   }

   return 0;
 }
	//===-- llvm-config.cpp - LLVM project configuration utility --------------===//
	//
	// The LLVM Compiler Infrastructure
	//
	// This file is distributed under the University of Illinois Open Source
	// License. See LICENSE.TXT for details.
	//
	//===----------------------------------------------------------------------===//
	//
	// This tool encapsulates information about an LLVM project configuration for
	// use by other project's build environments (to determine installed path,
	// available features, required libraries, etc.).
	//
	// Note that although this tool may be used by some parts of LLVM's build
	// itself (i.e., the Makefiles use it to compute required libraries when linking
	// tools), this tool is primarily designed to support external projects.
	//
	//===----------------------------------------------------------------------===//

	#include "llvm/ADT/STLExtras.h"
	#include "llvm/ADT/StringMap.h"
	#include "llvm/ADT/StringRef.h"
	#include "llvm/ADT/Twine.h"
	#include "llvm/Config/config.h"
	#include "llvm/Config/llvm-config.h"
	#include "llvm/Support/FileSystem.h"
	#include "llvm/Support/Path.h"
	#include "llvm/Support/raw_ostream.h"
	#include <cstdlib>
	#include <set>
	#include <vector>

	using namespace llvm;

	// Include the build time variables we can report to the user. This is generated
	// at build time from the BuildVariables.inc.in file by the build system.
	#include "BuildVariables.inc"

	// Include the component table. This creates an array of struct
	// AvailableComponent entries, which record the component name, library name,
	// and required components for all of the available libraries.
	//
	// Not all components define a library, we also use "library groups" as a way to
	// create entries for pseudo groups like x86 or all-targets.
	#include "LibraryDependencies.inc"

	/// \brief Traverse a single component adding to the topological ordering in
	/// \arg RequiredLibs.
	///
	/// \param Name - The component to traverse.
	/// \param ComponentMap - A prebuilt map of component names to descriptors.
	/// \param VisitedComponents [in] [out] - The set of already visited components.
	/// \param RequiredLibs [out] - The ordered list of required libraries.
	static void VisitComponent(StringRef Name,
	const StringMap<AvailableComponent*> &ComponentMap,
	std::set<AvailableComponent*> &VisitedComponents,
	std::vector<StringRef> &RequiredLibs) {
	// Lookup the component.
	AvailableComponent *AC = ComponentMap.lookup(Name);
	assert(AC && "Invalid component name!");

	// Add to the visited table.
	if (!VisitedComponents.insert(AC).second) {
	// We are done if the component has already been visited.
	return;
	}

	// Otherwise, visit all the dependencies.
	for (unsigned i = 0; AC->RequiredLibraries[i]; ++i) {
	VisitComponent(AC->RequiredLibraries[i], ComponentMap, VisitedComponents,
	RequiredLibs);
	}

	// Add to the required library list.
	if (AC->Library)
	RequiredLibs.push_back(AC->Library);
	}

	/// \brief Compute the list of required libraries for a given list of
	/// components, in an order suitable for passing to a linker (that is, libraries
	/// appear prior to their dependencies).
	///
	/// \param Components - The names of the components to find libraries for.
	/// \param RequiredLibs [out] - On return, the ordered list of libraries that
	/// are required to link the given components.
	void ComputeLibsForComponents(const std::vector<StringRef> &Components,
	std::vector<StringRef> &RequiredLibs) {
	std::set<AvailableComponent*> VisitedComponents;

	// Build a map of component names to information.
	StringMap<AvailableComponent*> ComponentMap;
	for (unsigned i = 0; i != array_lengthof(AvailableComponents); ++i) {
	AvailableComponent *AC = &AvailableComponents[i];
	ComponentMap[AC->Name] = AC;
	}

	// Visit the components.
	for (unsigned i = 0, e = Components.size(); i != e; ++i) {
	// Users are allowed to provide mixed case component names.
	std::string ComponentLower = Components[i].lower();

	// Validate that the user supplied a valid component name.
	if (!ComponentMap.count(ComponentLower)) {
	llvm::errs() << "llvm-config: unknown component name: " << Components[i]
	<< "\n";
	exit(1);
	}

	VisitComponent(ComponentLower, ComponentMap, VisitedComponents,
	RequiredLibs);
	}

	// The list is now ordered with leafs first, we want the libraries to printed
	// in the reverse order of dependency.
	std::reverse(RequiredLibs.begin(), RequiredLibs.end());
	}

	/* *** */

	void usage() {
	errs() << "\
	usage: llvm-config <OPTION>... [<COMPONENT>...]\n\
	\n\
	Get various configuration information needed to compile programs which use\n\
	LLVM. Typically called from 'configure' scripts. Examples:\n\
	llvm-config --cxxflags\n\
	llvm-config --ldflags\n\
	llvm-config --libs engine bcreader scalaropts\n\
	\n\
	Options:\n\
	--version Print LLVM version.\n\
	--prefix Print the installation prefix.\n\
	--src-root Print the source root LLVM was built from.\n\
	--obj-root Print the object root used to build LLVM.\n\
	--bindir Directory containing LLVM executables.\n\
	--includedir Directory containing LLVM headers.\n\
	--libdir Directory containing LLVM libraries.\n\
	--cppflags C preprocessor flags for files that include LLVM headers.\n\
	--cflags C compiler flags for files that include LLVM headers.\n\
	--cxxflags C++ compiler flags for files that include LLVM headers.\n\
	--ldflags Print Linker flags.\n\
	--libs Libraries needed to link against LLVM components.\n\
	--libnames Bare library names for in-tree builds.\n\
	--libfiles Fully qualified library filenames for makefile depends.\n\
	--components List of all possible components.\n\
	--targets-built List of all targets currently built.\n\
	--host-target Target triple used to configure LLVM.\n\
	--build-mode Print build mode of LLVM tree (e.g. Debug or Release).\n\
	Typical components:\n\
	all All LLVM libraries (default).\n\
	engine Either a native JIT or a bitcode interpreter.\n";
	exit(1);
	}

	/// \brief Compute the path to the main executable.
	llvm::sys::Path GetExecutablePath(const char *Argv0) {
	// This just needs to be some symbol in the binary; C++ doesn't
	// allow taking the address of ::main however.
	void P = (void) (intptr_t) GetExecutablePath;
	return llvm::sys::Path::GetMainExecutable(Argv0, P);
	}

	int main(int argc, char **argv) {
	std::vector<StringRef> Components;
	bool PrintLibs = false, PrintLibNames = false, PrintLibFiles = false;
	bool HasAnyOption = false;

	// llvm-config is designed to support being run both from a development tree
	// and from an installed path. We try and auto-detect which case we are in so
	// that we can report the correct information when run from a development
	// tree.
	bool IsInDevelopmentTree;
	enum { MakefileStyle, CMakeStyle, CMakeBuildModeStyle } DevelopmentTreeLayout;
	llvm::SmallString<256> CurrentPath(GetExecutablePath(argv[0]).str());
	std::string CurrentExecPrefix;
	std::string ActiveObjRoot;

	// Create an absolute path, and pop up one directory (we expect to be inside a
	// bin dir).
	sys::fs::make_absolute(CurrentPath);
	CurrentExecPrefix = sys::path::parent_path(
	sys::path::parent_path(CurrentPath)).str();

	// Check to see if we are inside a development tree by comparing to possible
	// locations (prefix style or CMake style). This could be wrong in the face of
	// symbolic links, but is good enough.
	if (CurrentExecPrefix == std::string(LLVM_OBJ_ROOT) + "/" + LLVM_BUILDMODE) {
	IsInDevelopmentTree = true;
	DevelopmentTreeLayout = MakefileStyle;

	// If we are in a development tree, then check if we are in a BuildTools
	// directory. This indicates we are built for the build triple, but we
	// always want to provide information for the host triple.
	if (sys::path::filename(LLVM_OBJ_ROOT) == "BuildTools") {
	ActiveObjRoot = sys::path::parent_path(LLVM_OBJ_ROOT);
	} else {
	ActiveObjRoot = LLVM_OBJ_ROOT;
	}
	} else if (CurrentExecPrefix == std::string(LLVM_OBJ_ROOT)) {
	IsInDevelopmentTree = true;
	DevelopmentTreeLayout = CMakeStyle;
	ActiveObjRoot = LLVM_OBJ_ROOT;
	} else if (CurrentExecPrefix == std::string(LLVM_OBJ_ROOT) + "/bin") {
	IsInDevelopmentTree = true;
	DevelopmentTreeLayout = CMakeBuildModeStyle;
	ActiveObjRoot = LLVM_OBJ_ROOT;
	} else {
	IsInDevelopmentTree = false;
	DevelopmentTreeLayout = MakefileStyle; // Initialized to avoid warnings.
	}

	// Compute various directory locations based on the derived location
	// information.
	std::string ActivePrefix, ActiveBinDir, ActiveIncludeDir, ActiveLibDir;
	std::string ActiveIncludeOption;
	if (IsInDevelopmentTree) {
	ActiveIncludeDir = std::string(LLVM_SRC_ROOT) + "/include";
	ActivePrefix = CurrentExecPrefix;

	// CMake organizes the products differently than a normal prefix style
	// layout.
	switch (DevelopmentTreeLayout) {
	case MakefileStyle:
	ActiveBinDir = ActiveObjRoot + "/" + LLVM_BUILDMODE + "/bin";
	ActiveLibDir = ActiveObjRoot + "/" + LLVM_BUILDMODE + "/lib";
	break;
	case CMakeStyle:
	ActiveBinDir = ActiveObjRoot + "/bin";
	ActiveLibDir = ActiveObjRoot + "/lib";
	break;
	case CMakeBuildModeStyle:
	ActiveBinDir = ActiveObjRoot + "/bin/" + LLVM_BUILDMODE;
	ActiveLibDir = ActiveObjRoot + "/lib/" + LLVM_BUILDMODE;
	break;
	}

	// We need to include files from both the source and object trees.
	ActiveIncludeOption = ("-I" + ActiveIncludeDir + " " +
	"-I" + ActiveObjRoot + "/include");
	} else {
	ActivePrefix = CurrentExecPrefix;
	ActiveIncludeDir = ActivePrefix + "/include";
	ActiveBinDir = ActivePrefix + "/bin";
	ActiveLibDir = ActivePrefix + "/lib";
	ActiveIncludeOption = "-I" + ActiveIncludeDir;
	}

	raw_ostream &OS = outs();
	for (int i = 1; i != argc; ++i) {
	StringRef Arg = argv[i];

	if (Arg.startswith("-")) {
	HasAnyOption = true;
	if (Arg == "--version") {
	OS << PACKAGE_VERSION << '\n';
	} else if (Arg == "--prefix") {
	OS << ActivePrefix << '\n';
	} else if (Arg == "--bindir") {
	OS << ActiveBinDir << '\n';
	} else if (Arg == "--includedir") {
	OS << ActiveIncludeDir << '\n';
	} else if (Arg == "--libdir") {
	OS << ActiveLibDir << '\n';
	} else if (Arg == "--cppflags") {
	OS << ActiveIncludeOption << ' ' << LLVM_CPPFLAGS << '\n';
	} else if (Arg == "--cflags") {
	OS << ActiveIncludeOption << ' ' << LLVM_CFLAGS << '\n';
	} else if (Arg == "--cxxflags") {
	OS << ActiveIncludeOption << ' ' << LLVM_CXXFLAGS << '\n';
	} else if (Arg == "--ldflags") {
	OS << "-L" << ActiveLibDir << ' ' << LLVM_LDFLAGS
	<< ' ' << LLVM_SYSTEM_LIBS << '\n';
	} else if (Arg == "--libs") {
	PrintLibs = true;
	} else if (Arg == "--libnames") {
	PrintLibNames = true;
	} else if (Arg == "--libfiles") {
	PrintLibFiles = true;
	} else if (Arg == "--components") {
	for (unsigned j = 0; j != array_lengthof(AvailableComponents); ++j) {
	OS << ' ';
	OS << AvailableComponents[j].Name;
	}
	OS << '\n';
	} else if (Arg == "--targets-built") {
	OS << LLVM_TARGETS_BUILT << '\n';
	} else if (Arg == "--host-target") {
	OS << LLVM_DEFAULT_TARGET_TRIPLE << '\n';
	} else if (Arg == "--build-mode") {
	OS << LLVM_BUILDMODE << '\n';
	} else if (Arg == "--obj-root") {
	OS << LLVM_OBJ_ROOT << '\n';
	} else if (Arg == "--src-root") {
	OS << LLVM_SRC_ROOT << '\n';
	} else {
	usage();
	}
	} else {
	Components.push_back(Arg);
	}
	}

	if (!HasAnyOption)
	usage();

	if (PrintLibs \|\| PrintLibNames \|\| PrintLibFiles) {
	// If no components were specified, default to "all".
	if (Components.empty())
	Components.push_back("all");

	// Construct the list of all the required libraries.
	std::vector<StringRef> RequiredLibs;
	ComputeLibsForComponents(Components, RequiredLibs);

	for (unsigned i = 0, e = RequiredLibs.size(); i != e; ++i) {
	StringRef Lib = RequiredLibs[i];
	if (i)
	OS << ' ';

	if (PrintLibNames) {
	OS << Lib;
	} else if (PrintLibFiles) {
	OS << ActiveLibDir << '/' << Lib;
	} else if (PrintLibs) {
	// If this is a typical library name, include it using -l.
	if (Lib.startswith("lib") && Lib.endswith(".a")) {
	OS << "-l" << Lib.slice(3, Lib.size()-2);
	continue;
	}

	// Otherwise, print the full path.
	OS << ActiveLibDir << '/' << Lib;
	}
	}
	OS << '\n';
	} else if (!Components.empty()) {
	errs() << "llvm-config: error: components given, but unused\n\n";
	usage();
	}

	return 0;
	}