build/path-map


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// file      : build/path-map -*- C++ -*-
// copyright : Copyright (c) 2014-2015 Code Synthesis Ltd
// license   : MIT; see accompanying LICENSE file

#ifndef BUILD_PATH_MAP
#define BUILD_PATH_MAP

#include <build/path>
#include <build/prefix-map>

namespace build
{
  // prefix_map for paths
  //
  // The paths should be normalized.
  //
  // Note that the path's representation of POSIX root ('/') is
  // inconsistent in that we have a trailing delimiter at the end of
  // the path (its "proper" representation would have been an empty
  // string but that would have clashed with empty paths). To work
  // around this snag, this implementation, during key comparison,
  // detects '/' and treats it as empty. Note that the map will
  // still store the key as you have first inserted it. So if you
  // want a particular representation, pre-populate the map with
  // it.
  //
  template <typename C, typename K>
  struct compare_prefix<basic_path<C, K>>: compare_prefix<std::basic_string<C>>
  {
    typedef basic_path<C, K> key_type;

    typedef C delimiter_type;
    typedef std::basic_string<C> string_type;
    typedef compare_prefix<std::basic_string<C>> base;

    explicit
    compare_prefix (delimiter_type d): base (d) {}

    bool
    operator() (const key_type& x, const key_type& y) const
    {
      const auto& xs (x.string ());
      const auto& ys (y.string ());

#ifdef _WIN32
      return base::compare (xs.c_str (),
                            xs.size (),
                            ys.c_str (),
                            ys.size ()) < 0;
#else
      return base::compare (xs.c_str (),
                            x.root () ? 0 : xs.size (),
                            ys.c_str (),
                            y.root () ? 0 : ys.size ()) < 0;
#endif
    }

    bool
    prefix (const key_type& p, const key_type& k) const
    {
      const auto& ps (p.string ());
      const auto& ks (k.string ());

#ifdef _WIN32
      return base::prefix (ps, ks);
#else
      return base::prefix (p.root () ? string_type () : ps,
                           k.root () ? string_type () : ks);
#endif
    }
  };

  template <typename T>
  using path_map = prefix_map<path, T, path::traits::directory_separator>;

  template <typename T>
  using dir_path_map =
    prefix_map<dir_path, T, dir_path::traits::directory_separator>;
}

#endif // BUILD_PATH_MAP