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path: root/libbuild2/cc/pkgconfig.cxx
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// file      : libbuild2/cc/pkgconfig.cxx -*- C++ -*-
// license   : MIT; see accompanying LICENSE file

// In order not to complicate the bootstrap procedure with libpkgconf building
// exclude functionality that involves reading of .pc files.
//
#ifndef BUILD2_BOOTSTRAP
#  include <libpkgconf/libpkgconf.h>
#endif

#include <libbuild2/scope.hxx>
#include <libbuild2/target.hxx>
#include <libbuild2/context.hxx>
#include <libbuild2/variable.hxx>
#include <libbuild2/algorithm.hxx>
#include <libbuild2/filesystem.hxx>
#include <libbuild2/diagnostics.hxx>

#include <libbuild2/install/utility.hxx>

#include <libbuild2/bin/target.hxx>

#include <libbuild2/cc/types.hxx>
#include <libbuild2/cc/target.hxx>  // pc
#include <libbuild2/cc/utility.hxx>

#include <libbuild2/cc/common.hxx>
#include <libbuild2/cc/compile-rule.hxx>
#include <libbuild2/cc/link-rule.hxx>

#ifndef BUILD2_BOOTSTRAP

// Note that the libpkgconf library doesn't provide the version macro that we
// could use to compile the code conditionally against different API versions.
// Thus, we need to sense the pkgconf_client_new() function signature
// ourselves to call it properly.
//
namespace details
{
  void*
  pkgconf_cross_personality_default (); // Never called.
}

using namespace details;

template <typename H>
static inline pkgconf_client_t*
call_pkgconf_client_new (pkgconf_client_t* (*f) (H, void*),
                         H error_handler,
                         void* error_handler_data)
{
  return f (error_handler, error_handler_data);
}

template <typename H, typename P>
static inline pkgconf_client_t*
call_pkgconf_client_new (pkgconf_client_t* (*f) (H, void*, P),
                         H error_handler,
                         void* error_handler_data)
{
  return f (error_handler,
            error_handler_data,
            ::pkgconf_cross_personality_default ());
}

#endif

using namespace std;
using namespace butl;

namespace build2
{
#ifndef BUILD2_BOOTSTRAP

  // Load package information from a .pc file. Filter out the -I/-L options
  // that refer to system directories. This makes sure all the system search
  // directories are "pushed" to the back which minimizes the chances of
  // picking up wrong (e.g., old installed version) header/library.
  //
  // Note that the prerequisite package .pc files search order is as follows:
  //
  // - in directory of the specified file
  // - in pc_dirs directories (in the natural order)
  //
  class pkgconf
  {
  public:
    using path_type = build2::path;

    path_type path;

  public:
    explicit
    pkgconf (path_type,
             const dir_paths& pc_dirs,
             const dir_paths& sys_hdr_dirs,
             const dir_paths& sys_lib_dirs);

    // Create a special empty object. Querying package information on such
    // an object is illegal.
    //
    pkgconf () = default;

    ~pkgconf ();

    // Movable-only type.
    //
    pkgconf (pkgconf&& p)
        : path (move (p.path)),
          client_ (p.client_),
          pkg_ (p.pkg_)
    {
      p.client_ = nullptr;
      p.pkg_ = nullptr;
    }

    pkgconf&
    operator= (pkgconf&& p)
    {
      if (this != &p)
      {
        this->~pkgconf ();
        new (this) pkgconf (move (p)); // Assume noexcept move-construction.
      }
      return *this;
    }

    pkgconf (const pkgconf&) = delete;
    pkgconf& operator= (const pkgconf&) = delete;

    strings
    cflags (bool stat) const;

    strings
    libs (bool stat) const;

    string
    variable (const char*) const;

    string
    variable (const string& s) const {return variable (s.c_str ());}

  private:
    // Keep them as raw pointers not to deal with API thread-unsafety in
    // deleters and introducing additional mutex locks.
    //
    pkgconf_client_t* client_ = nullptr;
    pkgconf_pkg_t* pkg_ = nullptr;
  };

  // Currently the library is not thread-safe, even on the pkgconf_client_t
  // level (see issue #128 for details).
  //
  // @@ An update: seems that the obvious thread-safety issues are fixed.
  //    However, let's keep mutex locking for now not to introduce potential
  //    issues before we make sure that there are no other ones.
  //
  static mutex pkgconf_mutex;

  // The package dependency traversal depth limit.
  //
  static const int pkgconf_max_depth = 100;

  // Normally the error_handler() callback can be called multiple times to
  // report a single error (once per message line), to produce a multi-line
  // message like this:
  //
  //   Package foo was not found in the pkg-config search path.\n
  //   Perhaps you should add the directory containing `foo.pc'\n
  //   to the PKG_CONFIG_PATH environment variable\n
  //   Package 'foo', required by 'bar', not found\n
  //
  // For the above example callback will be called 4 times. To suppress all the
  // junk we will use PKGCONF_PKG_PKGF_SIMPLIFY_ERRORS to get just:
  //
  //   Package 'foo', required by 'bar', not found\n
  //
  // Also disable merging options like -framework into a single fragment, if
  // possible.
  //
  static const int pkgconf_flags =
    PKGCONF_PKG_PKGF_SIMPLIFY_ERRORS
#ifdef PKGCONF_PKG_PKGF_DONT_MERGE_SPECIAL_FRAGMENTS
    | PKGCONF_PKG_PKGF_DONT_MERGE_SPECIAL_FRAGMENTS
#endif
    ;

  static bool
  pkgconf_error_handler (const char* msg, const pkgconf_client_t*, const void*)
  {
    error << runtime_error (msg); // Sanitize the message.
    return true;
  }

  // Deleters. Note that they are thread-safe.
  //
  struct fragments_deleter
  {
    void operator() (pkgconf_list_t* f) const {pkgconf_fragment_free (f);}
  };

  // Convert fragments to strings. Skip the -I/-L options that refer to system
  // directories.
  //
  static strings
  to_strings (const pkgconf_list_t& frags,
              char type,
              const pkgconf_list_t& sysdirs)
  {
    assert (type == 'I' || type == 'L');

    strings r;

    auto add = [&r] (const pkgconf_fragment_t* frag)
    {
      string s;
      if (frag->type != '\0')
      {
        s += '-';
        s += frag->type;
      }

      s += frag->data;
      r.push_back (move (s));
    };

    // Option that is separated from its value, for example:
    //
    // -I /usr/lib
    //
    const pkgconf_fragment_t* opt (nullptr);

    pkgconf_node_t *node;
    PKGCONF_FOREACH_LIST_ENTRY(frags.head, node)
    {
      auto frag (static_cast<const pkgconf_fragment_t*> (node->data));

      // Add the separated option and directory, unless the latest is a system
      // one.
      //
      if (opt != nullptr)
      {
        // Note that we should restore the directory path that was
        // (mis)interpreted as an option, for example:
        //
        // -I -Ifoo
        //
        // In the above example option '-I' is followed by directory '-Ifoo',
        // which is represented by libpkgconf library as fragment 'foo' with
        // type 'I'.
        //
        if (!pkgconf_path_match_list (
              frag->type == '\0'
              ? frag->data
              : (string ({'-', frag->type}) + frag->data).c_str (),
              &sysdirs))
        {
          add (opt);
          add (frag);
        }

        opt = nullptr;
        continue;
      }

      // Skip the -I/-L option if it refers to a system directory.
      //
      if (frag->type == type)
      {
        // The option is separated from a value, that will (presumably) follow.
        //
        if (*frag->data == '\0')
        {
          opt = frag;
          continue;
        }

        if (pkgconf_path_match_list (frag->data, &sysdirs))
          continue;
      }

      add (frag);
    }

    if (opt != nullptr) // Add the dangling option.
      add (opt);

    return r;
  }

  // Note that some libpkgconf functions can potentially return NULL, failing
  // to allocate the required memory block. However, we will not check the
  // returned value for NULL as the library doesn't do so, prior to filling the
  // allocated structures. So such a code complication on our side would be
  // useless. Also, for some functions the NULL result has a special semantics,
  // for example "not found".
  //
  pkgconf::
  pkgconf (path_type p,
           const dir_paths& pc_dirs,
           const dir_paths& sys_lib_dirs,
           const dir_paths& sys_hdr_dirs)
      : path (move (p))
  {
    auto add_dirs = [] (pkgconf_list_t& dir_list,
                        const dir_paths& dirs,
                        bool suppress_dups,
                        bool cleanup = false)
    {
      if (cleanup)
      {
        pkgconf_path_free (&dir_list);
        dir_list = PKGCONF_LIST_INITIALIZER;
      }

      for (const auto& d: dirs)
        pkgconf_path_add (d.string ().c_str (), &dir_list, suppress_dups);
    };

    mlock l (pkgconf_mutex);

    // Initialize the client handle.
    //
    unique_ptr<pkgconf_client_t, void (*) (pkgconf_client_t*)> c (
      call_pkgconf_client_new (&pkgconf_client_new,
                               pkgconf_error_handler,
                               nullptr /* handler_data */),
      [] (pkgconf_client_t* c) {pkgconf_client_free (c);});

    pkgconf_client_set_flags (c.get (), pkgconf_flags);

    // Note that the system header and library directory lists are
    // automatically pre-filled by the pkgconf_client_new() call (see above).
    // We will re-create these lists from scratch.
    //
    add_dirs (c->filter_libdirs,
              sys_lib_dirs,
              false /* suppress_dups */,
              true  /* cleanup */);

    add_dirs (c->filter_includedirs,
              sys_hdr_dirs,
              false /* suppress_dups */,
              true  /* cleanup */);

    // Note that the loaded file directory is added to the (yet empty) search
    // list. Also note that loading of the prerequisite packages is delayed
    // until flags retrieval, and their file directories are not added to the
    // search list.
    //
    pkg_ = pkgconf_pkg_find (c.get (), path.string ().c_str ());

    if (pkg_ == nullptr)
      fail << "package '" << path << "' not found or invalid";

    // Add the .pc file search directories.
    //
    assert (c->dir_list.length == 1); // Package file directory (see above).
    add_dirs (c->dir_list, pc_dirs, true /* suppress_dups */);

    client_ = c.release ();
  }

  pkgconf::
  ~pkgconf ()
  {
    if (client_ != nullptr) // Not empty.
    {
      assert (pkg_ != nullptr);

      mlock l (pkgconf_mutex);
      pkgconf_pkg_unref (client_, pkg_);
      pkgconf_client_free (client_);
    }
  }

  strings pkgconf::
  cflags (bool stat) const
  {
    assert (client_ != nullptr); // Must not be empty.

    mlock l (pkgconf_mutex);

    pkgconf_client_set_flags (
      client_,
      pkgconf_flags |

      // Walk through the private package dependencies (Requires.private)
      // besides the public ones while collecting the flags. Note that we do
      // this for both static and shared linking.
      //
      PKGCONF_PKG_PKGF_SEARCH_PRIVATE |

      // Collect flags from Cflags.private besides those from Cflags for the
      // static linking.
      //
      (stat
       ? PKGCONF_PKG_PKGF_MERGE_PRIVATE_FRAGMENTS
       : 0));

    pkgconf_list_t f = PKGCONF_LIST_INITIALIZER; // Aggregate initialization.
    int e (pkgconf_pkg_cflags (client_, pkg_, &f, pkgconf_max_depth));

    if (e != PKGCONF_PKG_ERRF_OK)
      throw failed (); // Assume the diagnostics is issued.

    unique_ptr<pkgconf_list_t, fragments_deleter> fd (&f); // Auto-deleter.
    return to_strings (f, 'I', client_->filter_includedirs);
  }

  strings pkgconf::
  libs (bool stat) const
  {
    assert (client_ != nullptr); // Must not be empty.

    mlock l (pkgconf_mutex);

    pkgconf_client_set_flags (
      client_,
      pkgconf_flags |

      // Additionally collect flags from the private dependency packages
      // (see above) and from the Libs.private value for the static linking.
      //
      (stat
       ? PKGCONF_PKG_PKGF_SEARCH_PRIVATE |
         PKGCONF_PKG_PKGF_MERGE_PRIVATE_FRAGMENTS
       : 0));

    pkgconf_list_t f = PKGCONF_LIST_INITIALIZER; // Aggregate initialization.
    int e (pkgconf_pkg_libs (client_, pkg_, &f, pkgconf_max_depth));

    if (e != PKGCONF_PKG_ERRF_OK)
      throw failed (); // Assume the diagnostics is issued.

    unique_ptr<pkgconf_list_t, fragments_deleter> fd (&f); // Auto-deleter.
    return to_strings (f, 'L', client_->filter_libdirs);
  }

  string pkgconf::
  variable (const char* name) const
  {
    assert (client_ != nullptr); // Must not be empty.

    mlock l (pkgconf_mutex);
    const char* r (pkgconf_tuple_find (client_, &pkg_->vars, name));
    return r != nullptr ? string (r) : string ();
  }

#endif

  namespace cc
  {
    using namespace bin;

    // In pkg-config backslashes, spaces, etc are escaped with a backslash.
    //
    static string
    escape (const string& s)
    {
      string r;

      for (size_t p (0);;)
      {
        size_t sp (s.find_first_of (" \\\"'", p));

        if (sp != string::npos)
        {
          r.append (s, p, sp - p);
          r += '\\';
          r += s[sp];
          p = sp + 1;
        }
        else
        {
          r.append (s, p, sp);
          break;
        }
      }

      return r;
    }

    // Try to find a .pc file in the pkgconfig/ subdirectory of libd, trying
    // several names derived from stem. If not found, return false. If found,
    // load poptions, loptions, libs, and modules, set the corresponding
    // *.export.* variables and add prerequisites on targets, and return true.
    // Note that we assume the targets are locked so that all of this is
    // MT-safe.
    //
    // System library search paths (those extracted from the compiler) are
    // passed in top_sysd while the user-provided (via -L) in top_usrd.
    //
    // Note that scope and link order should be "top-level" from the
    // search_library() POV.
    //
    // Also note that the bootstrapped version of build2 will not search for
    // .pc files, always returning false (see above for the reasoning).
    //
#ifndef BUILD2_BOOTSTRAP

    // Derive pkgconf search directories from the specified library search
    // directory passing them to the callback function for as long as it
    // returns false (e.g., not found). Return true if the callback returned
    // true.
    //
    bool common::
    pkgconfig_derive (const dir_path& d, const pkgconfig_callback& f) const
    {
      dir_path pd (d);

      // First always check the pkgconfig/ subdirectory in this library
      // directory. Even on platforms where this is not the canonical place,
      // .pc files of autotools-based packages installed by the user often
      // still end up there.
      //
      if (exists (pd /= "pkgconfig") && f (move (pd)))
        return true;

      // Platform-specific locations.
      //
      if (tsys == "linux-gnu")
      {
        // On Linux (at least on Debain and Fedora) .pc files for header-only
        // libraries often go to /usr/share/pkgconfig/.
        //
        (((pd = d) /= "..") /= "share") /= "pkgconfig";

        if (exists (pd) && f (move (pd)))
          return true;
      }
      else if (tsys == "freebsd")
      {
        // On FreeBSD (but not NetBSD) .pc files go to libdata/pkgconfig/, not
        // lib/pkgconfig/.
        //
        (((pd = d) /= "..") /= "libdata") /= "pkgconfig";

        if (exists (pd) && f (move (pd)))
          return true;
      }

      return false;
    }

    // Search for the .pc files in the pkgconf directories that correspond to
    // the specified library directory. If found, return static (first) and
    // shared (second) library .pc files. If common is false, then only
    // consider our .static/.shared files.
    //
    pair<path, path> common::
    pkgconfig_search (const dir_path& libd,
                      const optional<project_name>& proj,
                      const string& stem,
                      bool common) const
    {
      // When it comes to looking for .pc files we have to decide where to
      // search (which directory(ies)) as well as what to search for (which
      // names). Suffix is our ".shared" or ".static" extension.
      //
      auto search_dir = [&proj, &stem] (const dir_path& dir,
                                        const string& sfx) -> path
      {
        path f;

        // See if there is a corresponding .pc file. About half of them are
        // called foo.pc and half libfoo.pc (and one of the pkg-config's
        // authors suggests that some of you should call yours foolib.pc, just
        // to keep things interesting, you know).
        //
        // Given the (general) import in the form <proj>%lib{<stem>}, we will
        // first try lib<stem>.pc, then <stem>.pc. Maybe it also makes sense
        // to try <proj>.pc, just in case. Though, according to pkg-config
        // docs, the .pc file should correspond to a library, not project. But
        // then you get something like zlib which calls it zlib.pc. So let's
        // just do it.
        //
        f = dir;
        f /= "lib";
        f += stem;
        f += sfx;
        f += ".pc";
        if (exists (f))
          return f;

        f = dir;
        f /= stem;
        f += sfx;
        f += ".pc";
        if (exists (f))
          return f;

        if (proj)
        {
          f = dir;
          f /= proj->string ();
          f += sfx;
          f += ".pc";
          if (exists (f))
            return f;
        }

        return path ();
      };

      // Return false (and so stop the iteration) if a .pc file is found.
      //
      // Note that we rely on the "small function object" optimization here.
      //
      struct data
      {
        path a;
        path s;
        bool common;
      } d {path (), path (), common};

      auto check = [&d, &search_dir] (dir_path&& p) -> bool
      {
        // First look for static/shared-specific files.
        //
        d.a = search_dir (p, ".static");
        d.s = search_dir (p, ".shared");

        if (!d.a.empty () || !d.s.empty ())
          return true;

        // Then the common.
        //
        if (d.common)
          d.a = d.s = search_dir (p, "");

        return !d.a.empty ();
      };

      pair<path, path> r;

      if (pkgconfig_derive (libd, check))
      {
        r.first  = move (d.a);
        r.second = move (d.s);
      }

      return r;
    };

    bool common::
    pkgconfig_load (action a,
                    const scope& s,
                    lib& lt,
                    liba* at,
                    libs* st,
                    const optional<project_name>& proj,
                    const string& stem,
                    const dir_path& libd,
                    const dir_paths& top_sysd,
                    const dir_paths& top_usrd) const
    {
      assert (at != nullptr || st != nullptr);

      pair<path, path> p (
        pkgconfig_search (libd, proj, stem, true /* common */));

      if (p.first.empty () && p.second.empty ())
        return false;

      pkgconfig_load (a, s, lt, at, st, p, libd, top_sysd, top_usrd);
      return true;
    }

    void common::
    pkgconfig_load (action a,
                    const scope& s,
                    lib& lt,
                    liba* at,
                    libs* st,
                    const pair<path, path>& paths,
                    const dir_path& libd,
                    const dir_paths& top_sysd,
                    const dir_paths& top_usrd) const
    {
      tracer trace (x, "pkgconfig_load");

      assert (at != nullptr || st != nullptr);

      const path& ap (paths.first);
      const path& sp (paths.second);

      assert (!ap.empty () || !sp.empty ());

      // Extract --cflags and set them as lib?{}:export.poptions. Note that we
      // still pass --static in case this is pkgconf which has Cflags.private.
      //
      auto parse_cflags = [&trace, this] (target& t,
                                          const pkgconf& pc,
                                          bool la)
      {
        strings pops;

        bool arg (false);
        for (auto& o: pc.cflags (la))
        {
          if (arg)
          {
            // Can only be an argument for -I, -D, -U options.
            //
            pops.push_back (move (o));
            arg = false;
            continue;
          }

          size_t n (o.size ());

          // We only keep -I, -D and -U.
          //
          if (n >= 2 &&
              o[0] == '-' &&
              (o[1] == 'I' || o[1] == 'D' || o[1] == 'U'))
          {
            pops.push_back (move (o));
            arg = (n == 2);
            continue;
          }

          l4 ([&]{trace << "ignoring " << pc.path << " --cflags option "
                        << o;});
        }

        if (arg)
          fail << "argument expected after " << pops.back () <<
            info << "while parsing pkg-config --cflags " << pc.path;

        if (!pops.empty ())
        {
          auto p (t.vars.insert (c_export_poptions));

          // The only way we could already have this value is if this same
          // library was also imported as a project (as opposed to installed).
          // Unlikely but possible. In this case the values were set by the
          // export stub and we shouldn't touch them.
          //
          if (p.second)
            p.first = move (pops);
        }
      };

      // Parse --libs into loptions/libs (interface and implementation). If
      // ps is not NULL, add each resolved library target as a prerequisite.
      //
      auto parse_libs = [a, &s, top_sysd, this] (target& t,
                                                 bool binless,
                                                 const pkgconf& pc,
                                                 bool la,
                                                 prerequisites* ps)
      {
        strings lops;
        vector<name> libs;

        // Normally we will have zero or more -L's followed by one or more
        // -l's, with the first one being the library itself, unless the
        // library is binless. But sometimes we may have other linker options,
        // for example, -Wl,... or -pthread. It's probably a bad idea to
        // ignore them. Also, theoretically, we could have just the library
        // name/path.
        //
        // The tricky part, of course, is to know whether what follows after
        // an option we don't recognize is its argument or another option or
        // library. What we do at the moment is stop recognizing just library
        // names (without -l) after seeing an unknown option.
        //
        bool arg (false), first (true), known (true), have_L;
        for (auto& o: pc.libs (la))
        {
          if (arg)
          {
            // Can only be an argument for an loption.
            //
            lops.push_back (move (o));
            arg = false;
            continue;
          }

          size_t n (o.size ());

          // See if this is -L.
          //
          if (n >= 2 && o[0] == '-' && o[1] == 'L')
          {
            have_L = true;
            lops.push_back (move (o));
            arg = (n == 2);
            continue;
          }

          // See if that's -l or just the library name/path.
          //
          if ((known && o[0] != '-') ||
              (n > 2 && o[0] == '-' && o[1] == 'l'))
          {
            // Unless binless, the first one is the library itself, which we
            // skip. Note that we don't verify this and theoretically it could
            // be some other library, but we haven't encountered such a beast
            // yet.
            //
            if (first)
            {
              first = false;

              if (!binless)
                continue;
            }

            // @@ If by some reason this is the library itself (doesn't go
            //    first or libpkgconf parsed libs in some bizarre way) we will
            //    have a dependency cycle by trying to lock its target inside
            //    search_library() as by now it is already locked. To be safe
            //    we probably shouldn't rely on the position and filter out
            //    all occurrences of the library itself (by name?) and
            //    complain if none were encountered.
            //
            //    Note also that the same situation can occur if we have a
            //    binful library for which we could not find the library
            //    binary and are treating it as binless. We now have a diag
            //    frame around the call to search_library() to help diagnose
            //    such situations.
            //
            libs.push_back (name (move (o)));
            continue;
          }

          // Otherwise we assume it is some other loption.
          //
          known = false;
          lops.push_back (move (o));
        }

        if (arg)
          fail << "argument expected after " << lops.back () <<
            info << "while parsing pkg-config --libs " << pc.path;

        // Space-separated list of escaped library flags.
        //
        auto lflags = [&pc, la] () -> string
        {
          string r;
          for (const auto& o: pc.libs (la))
          {
            if (!r.empty ())
              r += ' ';
            r += escape (o);
          }
          return r;
        };

        if (first && !binless)
          fail << "library expected in '" << lflags () << "'" <<
            info << "while parsing pkg-config --libs " << pc.path;

        // Resolve -lfoo into the library file path using our import installed
        // machinery (i.e., we are going to call search_library() that will
        // probably call us again, and so on).
        //
        // The reason we do it is the link order. For general libraries it
        // shouldn't matter if we imported them via an export stub, direct
        // import installed, or via a .pc file (which we could have generated
        // from the export stub). The exception is "runtime libraries" (which
        // are really the extension of libc or the operating system in case of
        // Windows) such as -lm, -ldl, -lpthread, etc. Those we will detect
        // and leave as -l*.
        //
        // If we managed to resolve all the -l's (sans runtime), then we can
        // omit -L's for a nice and tidy command line.
        //
        bool all (true);
        optional<dir_paths> usrd; // Populate lazily.

        for (auto i (libs.begin ()); i != libs.end (); ++i)
        {
          name& n (*i);
          string& l (n.value);

          if (tclass == "windows")
          {
            // This is a potentially very long and unstable list and we may
            // need a mechanism to extend it on the fly. See issue #59 for one
            // idea.
            //
            auto cmp = [&l] (const char* s, size_t n = string::npos)
            {
              return icasecmp (l.c_str () + 2, s, n) == 0;
            };

            if (l[0] != '-') // e.g., just shell32.lib
              continue;
            else if (cmp ("advapi32")        ||
                     cmp ("bcrypt")          ||
                     cmp ("crypt32")         ||
                     cmp ("dbgeng")          ||
                     cmp ("d3d",   3)        || // d3d*
                     cmp ("gdi32")           ||
                     cmp ("imagehlp")        ||
                     cmp ("mswsock")         ||
                     cmp ("msxml", 5)        || // msxml*
                     cmp ("normaliz")        ||
                     cmp ("odbc32")          ||
                     cmp ("ole32")           ||
                     cmp ("oleaut32")        ||
                     cmp ("rpcrt4")          ||
                     cmp ("secur32")         ||
                     cmp ("shell32")         ||
                     cmp ("shlwapi")         ||
                     cmp ("synchronization") ||
                     cmp ("version")         ||
                     cmp ("ws2")             ||
                     cmp ("ws2_32")          ||
                     cmp ("wsock32"))

            {
              if (tsys == "win32-msvc")
              {
                // Translate -l<name> to <name>.lib.
                //
                l.erase (0, 2);
                l += ".lib";
              }
              continue;
            }
          }
          else
          {
            // These ones are common/standard/POSIX.
            //
            if (l[0] != '-'      || // e.g., absolute path
                l == "-lm"       ||
                l == "-ldl"      ||
                l == "-lrt"      ||
                l == "-lpthread")
              continue;

            // Note: these lists are most likely incomplete.
            //
            if (tclass == "linux")
            {
              // Some extras from libc (see libc6-dev) and other places.
              //
              if (l == "-lanl"     ||
                  l == "-lcrypt"   ||
                  l == "-lnsl"     ||
                  l == "-lresolv"  ||
                  l == "-lgcc")
                continue;
            }
            else if (tclass == "macos")
            {
              if (l == "-lSystem")
                continue;
            }
            else if (tclass == "bsd")
            {
              if (l == "-lexecinfo")
                continue;
            }
          }

          // Prepare user search paths by entering the -L paths from the .pc
          // file.
          //
          if (have_L && !usrd)
          {
            usrd = dir_paths ();

            for (auto i (lops.begin ()); i != lops.end (); ++i)
            {
              const string& o (*i);

              if (o.size () >= 2 && o[0] == '-' && o[1] == 'L')
              {
                string p;

                if (o.size () == 2)
                  p = *++i; // We've verified it's there.
                else
                  p = string (o, 2);

                try
                {
                  dir_path d (move (p));

                  if (d.relative ())
                    fail << "relative -L directory '" << d << "' in '"
                         << lflags () << "'" <<
                      info << "while parsing pkg-config --libs " << pc.path;

                  usrd->push_back (move (d));
                }
                catch (const invalid_path& e)
                {
                  fail << "invalid -L directory '" << e.path << "' in '"
                       << lflags () << "'" <<
                    info << "while parsing pkg-config --libs " << pc.path;
                }
              }
            }
          }

          // @@ OUT: for now we assume out is undetermined, just like in
          // resolve_library().
          //
          dir_path out;
          string nm (l, 2); // Sans -l.

          prerequisite_key pk {
            nullopt, {&lib::static_type, &out, &out, &nm, nullopt}, &s};

          const target* lt;
          {
            auto df = make_diag_frame (
              [&pc, &l](const diag_record& dr)
              {
                location f (pc.path);
                dr << info (f) << "while resolving pkg-config dependency " << l;
              });

            lt = search_library (a, top_sysd, usrd, pk);
          }

          if (lt != nullptr)
          {
            // We used to pick a member but that doesn't seem right since the
            // same target could be used with different link orders.
            //
            n.dir = lt->dir;
            n.type = lib::static_type.name;
            n.value = lt->name;

            if (!lt->out.empty ())
            {
              n.pair = true;
              i = libs.insert (i + 1, name (lt->out));
            }

            if (ps != nullptr)
              ps->push_back (prerequisite (*lt));
          }
          else
          {
            // If we couldn't find the library, then leave it as -l.
            //
            all = false;

            if (tsys == "win32-msvc")
            {
              // Again, translate -l<name> to <name>.lib.
              //
              l = move (nm += ".lib");
            }
          }
        }

        // If all the -l's resolved and there were no other options, then drop
        // all the -L's. If we have unknown options, then leave them in to be
        // safe.
        //
        if (all && known)
          lops.clear ();

        if (!lops.empty ())
        {
          if (tsys == "win32-msvc")
          {
            // Translate -L to /LIBPATH.
            //
            for (auto i (lops.begin ()); i != lops.end (); )
            {
              string& o (*i);
              size_t n (o.size ());

              if (n >= 2 && o[0] == '-' && o[1] == 'L')
              {
                o.replace (0, 2, "/LIBPATH:");

                if (n == 2)
                {
                  o += *++i; // We've verified it's there.
                  i = lops.erase (i);
                  continue;
                }
              }

              ++i;
            }
          }

          auto p (t.vars.insert (c_export_loptions));

          if (p.second)
            p.first = move (lops);
        }

        // Set even if empty (export override).
        //
        {
          auto p (t.vars.insert (la ? c_export_impl_libs : c_export_libs));

          if (p.second)
            p.first = move (libs);
        }
      };

      // On Windows pkg-config will escape backslahses in paths. In fact, it
      // may escape things even on non-Windows platforms, for example,
      // spaces. So we use a slightly modified version of next_word().
      //
      auto next = [] (const string& s, size_t& b, size_t& e) -> string
      {
        string r;
        size_t n (s.size ());

        if (b != e)
          b = e;

        // Skip leading delimiters.
        //
        for (; b != n && s[b] == ' '; ++b) ;

        if (b == n)
        {
          e = n;
          return r;
        }

        // Find first trailing delimiter while taking care of escapes.
        //
        r = s[b];
        for (e = b + 1; e != n && s[e] != ' '; ++e)
        {
          if (s[e] == '\\')
          {
            if (++e == n)
              fail << "dangling escape in pkg-config output '" << s << "'";
          }

          r += s[e];
        }

        return r;
      };

      // Parse modules, enter them as targets, and add them to the
      // prerequisites.
      //
      auto parse_modules = [&trace, this,
                            &next, &s, &lt] (const pkgconf& pc,
                                             prerequisites& ps)
      {
        string val (pc.variable ("cxx_modules"));

        string m;
        for (size_t b (0), e (0); !(m = next (val, b, e)).empty (); )
        {
          // The format is <name>=<path> with `..` used as a partition
          // separator (see pkgconfig_save() for details).
          //
          size_t p (m.find ('='));
          if (p == string::npos ||
              p == 0            || // Empty name.
              p == m.size () - 1)  // Empty path.
            fail << "invalid module information in '" << val << "'" <<
              info << "while parsing pkg-config --variable=cxx_modules "
                   << pc.path;

          string mn (m, 0, p);
          path mp (m, p + 1, string::npos);
          path mf (mp.leaf ());

          // Extract module properties, if any.
          //
          string pp (pc.variable ("cxx_module_preprocessed." + mn));
          string se (pc.variable ("cxx_module_symexport." + mn));

          // Replace the partition separator.
          //
          if ((p = mn.find ("..")) != string::npos)
            mn.replace (p, 2, 1, ':');

          // For now there are only C++ modules.
          //
          auto tl (
            s.ctx.targets.insert_locked (
              *x_mod,
              mp.directory (),
              dir_path (),
              mf.base ().string (),
              mf.extension (),
              target_decl::implied,
              trace));

          target& mt (tl.first);

          // If the target already exists, then setting its variables is not
          // MT-safe. So currently we only do it if we have the lock (and thus
          // nobody can see this target yet) verifying that this has already
          // been done otherwise.
          //
          // @@ This is not quite correct, though: this target could already
          //    exist but for a "different purpose" (e.g., it could be used as
          //    a header). Well, maybe it shouldn't.
          //
          // @@ Could setting it in the rule-specific vars help? (But we
          //    are not matching a rule for it.) Note that we are setting
          //    it on the module source, not bmi*{}! So rule-specific vars
          //    don't seem to the answer here.
          //
          if (tl.second.owns_lock ())
          {
            mt.vars.assign (c_module_name) = move (mn);

            // Set module properties. Note that if unspecified we should still
            // set them to their default values since the hosting project may
            // have them set to incompatible values.
            //
            {
              value& v (mt.vars.assign (x_preprocessed)); // NULL
              if (!pp.empty ()) v = move (pp);
            }

            {
              mt.vars.assign (x_symexport) = (se == "true");
            }

            tl.second.unlock ();
          }
          else
          {
            if (!mt.vars[c_module_name])
              fail << "unexpected metadata for module target " << mt <<
                info << "module is expected to have assigned name" <<
                info << "make sure this module is used via " << lt
                   << " prerequisite";
          }

          ps.push_back (prerequisite (mt));
        }
      };

      // Parse importable headers, enter them as targets, and add them to
      // the prerequisites.
      //
      auto parse_headers = [&trace, this,
                            &next, &s, &lt] (const pkgconf& pc,
                                             const target_type& tt,
                                             const char* lang,
                                             prerequisites& ps)
      {
        string var (string (lang) + "_importable_headers");
        string val (pc.variable (var));

        string h;
        for (size_t b (0), e (0); !(h = next (val, b, e)).empty (); )
        {
          path hp (move (h));
          path hf (hp.leaf ());

          auto tl (
            s.ctx.targets.insert_locked (
              tt,
              hp.directory (),
              dir_path (),
              hf.base ().string (),
              hf.extension (),
              target_decl::implied,
              trace));

          target& ht (tl.first);

          // If the target already exists, then setting its variables is not
          // MT-safe. So currently we only do it if we have the lock (and thus
          // nobody can see this target yet) verifying that this has already
          // been done otherwise.
          //
          if (tl.second.owns_lock ())
          {
            ht.vars.assign (c_importable) = true;
            tl.second.unlock ();
          }
          else
          {
            if (!cast_false<bool> (ht.vars[c_importable]))
              fail << "unexpected metadata for existing header target " << ht <<
                info << "header is expected to be marked importable" <<
                info << "make sure this header is used via " << lt
                   << " prerequisite";
          }

          ps.push_back (prerequisite (ht));
        }
      };

      // For now we only populate prerequisites for lib{}. To do it for
      // liba{} would require weeding out duplicates that are already in
      // lib{}.
      //
      // Currently, this information is only used by the modules machinery to
      // resolve module names to module files (but we cannot only do this if
      // modules are enabled since the same installed library can be used by
      // multiple builds).
      //
      prerequisites prs;

      pkgconf apc;
      pkgconf spc;

      // Create the .pc files search directory list.
      //
      dir_paths pc_dirs;

      // Note that we rely on the "small function object" optimization here.
      //
      auto add_pc_dir = [&pc_dirs] (dir_path&& d) -> bool
      {
        pc_dirs.emplace_back (move (d));
        return false;
      };

      pkgconfig_derive (libd, add_pc_dir);
      for (const dir_path& d: top_usrd) pkgconfig_derive (d, add_pc_dir);
      for (const dir_path& d: top_sysd) pkgconfig_derive (d, add_pc_dir);

      bool pa (at != nullptr && !ap.empty ());
      if (pa || sp.empty ())
        apc = pkgconf (ap, pc_dirs, sys_lib_dirs, sys_hdr_dirs);

      bool ps (st != nullptr && !sp.empty ());
      if (ps || ap.empty ())
        spc = pkgconf (sp, pc_dirs, sys_lib_dirs, sys_hdr_dirs);

      // Sort out the interface dependencies (which we are setting on lib{}).
      // If we have the shared .pc variant, then we use that.  Otherwise --
      // static but extract without the --static option (see also the saving
      // logic).
      //
      pkgconf& ipc (ps ? spc : apc); // Interface package info.

      parse_libs (
        lt,
        (ps ? st->mtime () : at->mtime ()) == timestamp_unreal /* binless */,
        ipc,
        false,
        &prs);

      if (pa)
      {
        parse_cflags (*at, apc, true);
        parse_libs (*at, at->path ().empty (), apc, true, nullptr);
      }

      if (ps)
        parse_cflags (*st, spc, false);

      // For now we assume static and shared variants export the same set of
      // modules/importable headers. While technically possible, having
      // different sets will most likely lead to all sorts of complications
      // (at least for installed libraries) and life is short.
      //
      if (modules)
      {
        parse_modules (ipc, prs);

        // We treat headers outside of any project as C headers (see
        // enter_header() for details).
        //
        parse_headers (ipc, h::static_type /* **x_hdr */, x, prs);
        parse_headers (ipc, h::static_type, "c", prs);
      }

      assert (!lt.has_prerequisites ());
      if (!prs.empty ())
        lt.prerequisites (move (prs));
    }

#else

    pair<path, path> common::
    pkgconfig_search (const dir_path&,
                      const optional<project_name>&,
                      const string&,
                      bool) const
    {
      return pair<path, path> ();
    }

    bool common::
    pkgconfig_load (action,
                    const scope&,
                    lib&,
                    liba*,
                    libs*,
                    const optional<project_name>&,
                    const string&,
                    const dir_path&,
                    const dir_paths&,
                    const dir_paths&) const
    {
      return false;
    }

    void common::
    pkgconfig_load (action,
                    const scope&,
                    lib&,
                    liba*,
                    libs*,
                    const pair<path, path>&,
                    const dir_path&,
                    const dir_paths&,
                    const dir_paths&) const
    {
      assert (false); // Should never be called.
    }

#endif

    // If common is true, generate a "best effort" (i.e., not guaranteed to be
    // sufficient in all cases) common .pc file by ignoring any static/shared-
    // specific poptions and splitting loptions/libs into Libs/Libs.private.
    // Note that if both static and shared are being installed, the common
    // file must be generated based on the static library to get accurate
    // Libs.private.
    //
    void link_rule::
    pkgconfig_save (action a,
                    const file& l,
                    bool la,
                    bool common,
                    bool binless) const
    {
      tracer trace (x, "pkgconfig_save");

      context& ctx (l.ctx);

      const scope& bs (l.base_scope ());
      const scope& rs (*bs.root_scope ());

      auto* t (find_adhoc_member<pc> (l, (common ? pc::static_type  :
                                          la     ? pca::static_type :
                                          /*    */ pcs::static_type)));
      assert (t != nullptr);

      // This is the lib{} group if we are generating the common file and the
      // target itself otherwise.
      //
      const file& g (common ? l.group->as<file> () : l);

      // By default we assume things go into install.{include, lib}.
      //
      using install::resolve_dir;

      dir_path idir (resolve_dir (g, cast<dir_path> (g["install.include"])));
      dir_path ldir (resolve_dir (g, cast<dir_path> (g["install.lib"])));

      const path& p (t->path ());

      // Note that generation can time some time if we have a large number of
      // prerequisite libraries.
      //
      if (verb)
        text << "gen " << *t;
      else if (verb >= 2)
        text << "cat >" << p;

      if (ctx.dry_run)
        return;

      auto_rmfile arm (p);

      try
      {
        ofdstream os (p);

        {
          const project_name& n (project (rs));

          if (n.empty ())
            fail << "no project name in " <<  rs;

          lookup vl (rs.vars[ctx.var_version]);
          if (!vl)
            fail << "no version variable in project " << n <<
              info << "while generating " << p;

          const string& v (cast<string> (vl));

          os << "Name: " << n << endl;
          os << "Version: " << v << endl;

          // This one is required so make something up if unspecified.
          //
          os << "Description: ";
          if (const string* s = cast_null<string> (rs[ctx.var_project_summary]))
            os << *s << endl;
          else
            os << n << ' ' << v << endl;

          if (const string* u = cast_null<string> (rs[ctx.var_project_url]))
            os << "URL: " << *u << endl;
        }

        auto save_poptions = [&g, &os] (const variable& var)
        {
          if (const strings* v = cast_null<strings> (g[var]))
          {
            for (auto i (v->begin ()); i != v->end (); ++i)
            {
              const string& o (*i);
              size_t n (o.size ());

              // Filter out -I (both -I<dir> and -I <dir> forms).
              //
              if (n >= 2 && o[0] == '-' && o[1] == 'I')
              {
                if (n == 2)
                  ++i;

                continue;
              }

              os << ' ' << escape (o);
            }
          }
        };

        // Given a library target, return its -l-style library name.
        //
        auto save_library_target = [this] (const file& l) -> string
        {
          // If available (it may not, in case of import-installed libraris),
          // use the .pc file name to derive the -l library name (in case of
          // the shared library, l.path() may contain version).
          //
          string n;

          auto strip_lib = [&n] ()
          {
            if (n.size () > 3 &&
                path::traits_type::compare (n.c_str (), 3, "lib", 3) == 0)
              n.erase (0, 3);
          };

          if (auto* t = find_adhoc_member<pc> (l))
          {
            // We also want to strip the lib prefix unless it is part of the
            // target name while keeping custom library prefix/suffix, if any.
            //
            n = t->path ().leaf ().base ().base ().string ();

            if (path::traits_type::compare (n.c_str (), n.size (),
                                       l.name.c_str (), l.name.size ()) != 0)
              strip_lib ();
          }
          else
          {
            const path& p (l.path ());

            if (p.empty ()) // Binless.
            {
              // For a binless library the target name is all it can possibly
              // be.
              //
              n = l.name;
            }
            else
            {
              // Derive -l-name from the file name in a fuzzy, platform-
              // specific manner.
              //
              n = p.leaf ().base ().string ();

              if (cclass != compiler_class::msvc)
                strip_lib ();
            }
          }

          return "-l" + n;
        };

        // Given a (presumably) compiler-specific library name, return its
        // -l-style library name.
        //
        auto save_library_name = [this] (const string& n) -> string
        {
          if (tsys == "win32-msvc")
          {
            // Translate <name>.lib to -l<name>.
            //
            size_t p (path::traits_type::find_extension (n));

            if (p != string::npos && icasecmp (n.c_str () + p + 1, "lib") == 0)
            {
              return "-l" + string (n, 0, p);
            }

            // Fall through and return as is.
          }

          return n;
        };

        // @@ TODO: support whole archive?
        //

        // Cflags.
        //
        os << "Cflags:";
        os << " -I" << escape (idir.string ());
        save_poptions (x_export_poptions);
        save_poptions (c_export_poptions);
        os << endl;

        // Libs.
        //
        // While we generate split shared/static .pc files, in case of static
        // we still want to sort things out into Libs/Libs.private. This is
        // necessary to distinguish between interface and implementation
        // dependencies if we don't have the shared variant (see the load
        // logic for details). And also for the common .pc file, naturally.
        //
        {
          os << "Libs:";

          // While we don't need it for a binless library itselt, it may be
          // necessary to resolve its binful dependencies.
          //
          os << " -L" << escape (ldir.string ());

          // Now process ourselves as if we were being linked to something (so
          // pretty similar to link_rule::append_libraries()). We also reuse
          // the link_rule's machinery to suppress duplicates.
          //
          appended_libraries ls;
          strings args;
          bool priv (false);

          struct data
          {
            ofdstream&           os;
            appended_libraries&  ls;
            strings&             args;
          } d {os, ls, args};

          auto imp = [&priv] (const target&, bool la) {return priv && la;};

          auto lib = [&d, &save_library_target, &save_library_name] (
            const target* const* lc,
            const small_vector<reference_wrapper<const string>, 2>& ns,
            lflags,
            bool)
          {
            const file* l (lc != nullptr ? &(*lc)->as<file> () : nullptr);

            // Suppress duplicates (see append_libraries() for details).
            //
            // Note that we use the original name for duplicate tracking.
            //
            appended_library* al (l != nullptr
                                  ? &d.ls.append (*l, d.args.size ())
                                  : d.ls.append (ns, d.args.size ()));

            if (al != nullptr && al->end != appended_library::npos)
            {
              d.ls.hoist (d.args, *al);
              return true;
            }

            if (l != nullptr)
            {
              if (l->is_a<libs> () || l->is_a<liba> ()) // See through libux.
                d.args.push_back (save_library_target (*l));
            }
            else
            {
              // Something "system'y", save as is.
              //
              for (const string& n: ns)
                d.args.push_back (save_library_name (n));
            }

            if (al != nullptr)
              al->end = d.args.size (); // Close.

            return true;
          };

          auto opt = [&d] (const target& lt, const string&, bool, bool)
          {
            const file& l (lt.as<file> ());

            //@@ TODO: should we filter -L similar to -I?
            //@@ TODO: how will the Libs/Libs.private work?
            //@@ TODO: remember to use escape()

            // See link_rule::append_libraries().

            if (d.ls.append (l, d.args.size ()).end != appended_library::npos)
              return true;

            return true;
          };

          // Pretend we are linking an executable using what would be normal,
          // system-default link order.
          //
          linfo li {otype::e, la ? lorder::a_s : lorder::s_a};

          library_cache lib_cache;
          process_libraries (a, bs, li, sys_lib_dirs,
                             l, la, 0, // Link flags.
                             imp, lib, opt, !binless /* self */, &lib_cache);

          for (const string& a: args)
            os << ' ' << a;
          os << endl;

          if (la)
          {
            os << "Libs.private:";

            ls.clear ();
            args.clear ();
            priv = true;
            process_libraries (a, bs, li, sys_lib_dirs,
                               l, la, 0, // Link flags.
                               imp, lib, opt, false /* self */, &lib_cache);

            for (const string& a: args)
              os << ' ' << a;
            os << endl;
          }
        }

        // If we have modules and/or importable headers, list them in the
        // respective variables. We also save some extra info about modules
        // (yes, the rabbit hole runs deep). This code is pretty similar to
        // compiler::search_modules().
        //
        // Note that we want to convey the importable headers information even
        // if modules are not enabled.
        //
        {
          struct module
          {
            string name;
            path file;

            string preprocessed;
            bool symexport;
          };
          vector<module> mods;

          // If we were to ever support another C-based language (e.g.,
          // Objective-C) and libraries that can use a mix of languages (e.g.,
          // C++ and Objective-C), then we would need to somehow reverse-
          // lookup header target type to language. Let's hope we don't.
          //
          vector<path>   x_hdrs;
          vector<path>   c_hdrs;

          // We need to (recursively) see through libu*{}. See similar logic
          // in search_modules().
          //
          // Note that the prerequisite targets are in the member, not the
          // group (for now we don't support different sets of modules/headers
          // for static/shared library; see load above for details).
          //
          auto collect = [a, this,
                          &mods,
                          &x_hdrs, &c_hdrs] (const target& l,
                                             const auto& collect) -> void
          {
            for (const target* pt: l.prerequisite_targets[a])
            {
              if (pt == nullptr)
                continue;

              if (modules && pt->is_a<bmix> ())
              {
                // What we have is a binary module interface. What we need is
                // a module interface source it was built from. We assume it's
                // the first mxx{} target that we see.
                //
                const target* mt (nullptr);
                for (const target* t: pt->prerequisite_targets[a])
                {
                  if ((mt = t->is_a (*x_mod)))
                    break;
                }

                // Can/should there be a bmi{} without mxx{}? Can't think of a
                // reason.
                //
                assert (mt != nullptr);

                path p (install::resolve_file (mt->as<file> ()));

                if (p.empty ()) // Not installed.
                  continue;

                string pp;
                if (const string* v = cast_null<string> ((*mt)[x_preprocessed]))
                  pp = *v;

                mods.push_back (
                  module {
                    cast<string> (pt->state[a].vars[c_module_name]),
                    move (p),
                    move (pp),
                    symexport});
              }
              else if (pt->is_a (**x_hdr) || pt->is_a<h> ())
              {
                if (cast_false<bool> ((*pt)[c_importable]))
                {
                  path p (install::resolve_file (pt->as<file> ()));

                  if (p.empty ()) // Not installed.
                    continue;

                  (pt->is_a<h> () ? c_hdrs : x_hdrs).push_back (move (p));
                }
              }
              // Note that in prerequisite targets we will have the libux{}
              // members, not the group.
              //
              else if (pt->is_a<libux> ())
                collect (*pt, collect);
            }
          };

          collect (l, collect);

          if (size_t n = mods.size ())
          {
            os << endl
               << "cxx_modules =";

            // The partition separator (`:`) is not a valid character in the
            // variable name. In fact, from the pkg-config source we can see
            // that the only valid special characters in variable names are
            // `_` and `.`. So to represent partition separators we use `..`,
            // for example hello.print..impl. While in the variable values we
            // can use `:`, for consistency we use `..` there as well.
            //
            for (module& m: mods)
            {
              size_t p (m.name.find (':'));
              if (p != string::npos)
                m.name.replace (p, 1, 2, '.');

              // Module names shouldn't require escaping.
              //
              os << (n != 1 ? " \\\n" : " ")
                 << m.name << '=' << escape (m.file.string ());
            }

            os << endl;

            // Module-specific properties. The format is:
            //
            // <lang>_module_<property>.<module> = <value>
            //
            for (const module& m: mods)
            {
              if (!m.preprocessed.empty ())
                os << "cxx_module_preprocessed." << m.name << " = "
                   << m.preprocessed << endl;

              if (m.symexport)
                os << "cxx_module_symexport." << m.name << " = true" << endl;
            }
          }

          if (size_t n = c_hdrs.size ())
          {
            os << endl
               << "c_importable_headers =";

            for (const path& h: c_hdrs)
              os << (n != 1 ? " \\\n" : " ") << escape (h.string ());

            os << endl;
          }

          if (size_t n = x_hdrs.size ())
          {
            os << endl
               << x << "_importable_headers =";

            for (const path& h: x_hdrs)
              os << (n != 1 ? " \\\n" : " ") << escape (h.string ());

            os << endl;
          }
        }

        os.close ();
        arm.cancel ();
      }
      catch (const io_error& e)
      {
        fail << "unable to write to " << p << ": " << e;
      }
    }
  }
}