boost/filesystem/v2/convenience.hpp - platform/external/boost - Git at Google

 //  boost/filesystem/convenience.hpp  ----------------------------------------//

 //  Copyright Beman Dawes, 2002-2005
 //  Copyright Vladimir Prus, 2002
 //  Use, modification, and distribution is subject to the Boost Software
 //  License, Version 1.0. (See accompanying file LICENSE_1_0.txt or copy at
 //  http://www.boost.org/LICENSE_1_0.txt)

 //  See library home page at http://www.boost.org/libs/filesystem

 //----------------------------------------------------------------------------//

 #ifndef BOOST_FILESYSTEM2_CONVENIENCE_HPP
 #define BOOST_FILESYSTEM2_CONVENIENCE_HPP

 #include <boost/filesystem/v2/config.hpp>
 #include <boost/filesystem/v2/operations.hpp>
 #include <boost/system/error_code.hpp>
 #include <vector>
 #include <stack>

 #include <boost/config/abi_prefix.hpp> // must be the last #include

 # ifndef BOOST_FILESYSTEM2_NARROW_ONLY
 #   define BOOST_FS_FUNC(BOOST_FS_TYPE) \
       template<class Path> typename boost::enable_if<is_basic_path<Path>, \
       BOOST_FS_TYPE>::type
 #   define BOOST_FS_FUNC_STRING BOOST_FS_FUNC(typename Path::string_type)
 #   define BOOST_FS_TYPENAME typename
 # else
 #   define BOOST_FS_FUNC(BOOST_FS_TYPE) inline BOOST_FS_TYPE
     typedef boost::filesystem::path Path;
 #   define BOOST_FS_FUNC_STRING inline std::string
 #   define BOOST_FS_TYPENAME
 # endif

 namespace boost
 {
   namespace filesystem2
   {

     BOOST_FS_FUNC(bool) create_directories(const Path& ph)
     {
          if (ph.empty() || exists(ph))
          {
            if ( !ph.empty() && !is_directory(ph) )
                boost::throw_exception( basic_filesystem_error<Path>(
                  "boost::filesystem::create_directories", ph,
                  make_error_code( boost::system::errc::file_exists ) ) );
            return false;
          }

          // First create branch, by calling ourself recursively
          create_directories(ph.parent_path());
          // Now that parent's path exists, create the directory
          create_directory(ph);
          return true;
      }

 # ifndef BOOST_FILESYSTEM_NO_DEPRECATED

     BOOST_FS_FUNC_STRING extension(const Path& ph)
     {
       typedef BOOST_FS_TYPENAME Path::string_type string_type;
       string_type filename = ph.filename();

       BOOST_FS_TYPENAME string_type::size_type n = filename.rfind('.');
       if (n != string_type::npos)
         return filename.substr(n);
       else
         return string_type();
     }

     BOOST_FS_FUNC_STRING basename(const Path& ph)
     {
       typedef BOOST_FS_TYPENAME Path::string_type string_type;
       string_type filename = ph.filename();
       BOOST_FS_TYPENAME string_type::size_type n = filename.rfind('.');
       return filename.substr(0, n);
     }


     BOOST_FS_FUNC(Path) change_extension( const Path & ph,
       const BOOST_FS_TYPENAME Path::string_type & new_extension )
     {
 #   if !defined(_STLPORT_VERSION)
       return ph.parent_path() / (basename(ph) + new_extension);
 #   else
       typedef BOOST_FS_TYPENAME Path::string_type string_type;
       string_type filename = basename(ph) + new_extension;
       return ph.parent_path() / filename;
 #   endif
     }
 # endif

 # ifndef BOOST_FILESYSTEM2_NARROW_ONLY

     // "do-the-right-thing" overloads  ---------------------------------------//

     inline bool create_directories(const path& ph)
       { return create_directories<path>(ph); }
     inline bool create_directories(const wpath& ph)
       { return create_directories<wpath>(ph); }

 # ifndef BOOST_FILESYSTEM_NO_DEPRECATED
     inline std::string extension(const path& ph)
       { return extension<path>(ph); }
     inline std::wstring extension(const wpath& ph)
       { return extension<wpath>(ph); }

     inline std::string basename(const path& ph)
       { return basename<path>( ph ); }
     inline std::wstring basename(const wpath& ph)
       { return basename<wpath>( ph ); }

     inline path change_extension( const path & ph, const std::string& new_ex )
       { return change_extension<path>( ph, new_ex ); }
     inline wpath change_extension( const wpath & ph, const std::wstring& new_ex )
       { return change_extension<wpath>( ph, new_ex ); }
 # endif

 # endif


     //  basic_recursive_directory_iterator helpers  --------------------------//

     namespace detail
     {
       template< class Path >
       struct recur_dir_itr_imp
       {
         typedef basic_directory_iterator< Path > element_type;
         std::stack< element_type, std::vector< element_type > > m_stack;
         int  m_level;
         bool m_no_push;
         bool m_no_throw;

         recur_dir_itr_imp() : m_level(0), m_no_push(false), m_no_throw(false) {}
       };

     } // namespace detail

     //  basic_recursive_directory_iterator  ----------------------------------//

     template< class Path >
     class basic_recursive_directory_iterator
       : public boost::iterator_facade<
           basic_recursive_directory_iterator<Path>,
           basic_directory_entry<Path>,
           boost::single_pass_traversal_tag >
     {
     public:
       typedef Path path_type;

       basic_recursive_directory_iterator(){}  // creates the "end" iterator

       explicit basic_recursive_directory_iterator( const Path & dir_path );
       basic_recursive_directory_iterator( const Path & dir_path,
         system::error_code & ec );

       int level() const { return m_imp->m_level; }

       void pop();
       void no_push()
       {
         BOOST_ASSERT( m_imp.get() && "attempt to no_push() on end iterator" );
         m_imp->m_no_push = true;
       }

       file_status status() const
       {
         BOOST_ASSERT( m_imp.get()
           && "attempt to call status() on end recursive_iterator" );
         return m_imp->m_stack.top()->status();
       }

       file_status symlink_status() const
       {
         BOOST_ASSERT( m_imp.get()
           && "attempt to call symlink_status() on end recursive_iterator" );
         return m_imp->m_stack.top()->symlink_status();
       }

     private:

       // shared_ptr provides shallow-copy semantics required for InputIterators.
       // m_imp.get()==0 indicates the end iterator.
       boost::shared_ptr< detail::recur_dir_itr_imp< Path > >  m_imp;

       friend class boost::iterator_core_access;

       typename boost::iterator_facade<
         basic_recursive_directory_iterator<Path>,
         basic_directory_entry<Path>,
         boost::single_pass_traversal_tag >::reference
       dereference() const
       {
         BOOST_ASSERT( m_imp.get() && "attempt to dereference end iterator" );
         return *m_imp->m_stack.top();
       }

       void increment();

       bool equal( const basic_recursive_directory_iterator & rhs ) const
         { return m_imp == rhs.m_imp; }

     };

     typedef basic_recursive_directory_iterator<path> recursive_directory_iterator;
 # ifndef BOOST_FILESYSTEM2_NARROW_ONLY
     typedef basic_recursive_directory_iterator<wpath> wrecursive_directory_iterator;
 # endif

     //  basic_recursive_directory_iterator implementation  -------------------//

     //  constructors
     template<class Path>
     basic_recursive_directory_iterator<Path>::
       basic_recursive_directory_iterator( const Path & dir_path )
       : m_imp( new detail::recur_dir_itr_imp<Path> )
     {
       m_imp->m_stack.push( basic_directory_iterator<Path>( dir_path ) );
       if ( m_imp->m_stack.top () == basic_directory_iterator<Path>() )
         { m_imp.reset (); }
     }

     template<class Path>
     basic_recursive_directory_iterator<Path>::
       basic_recursive_directory_iterator( const Path & dir_path,
         system::error_code & ec )
       : m_imp( new detail::recur_dir_itr_imp<Path> )
     {
       m_imp->m_no_throw = true;
       m_imp->m_stack.push( basic_directory_iterator<Path>( dir_path, ec ) );
       if ( m_imp->m_stack.top () == basic_directory_iterator<Path>() )
         { m_imp.reset (); }
     }

     //  increment
     template<class Path>
     void basic_recursive_directory_iterator<Path>::increment()
     {
       BOOST_ASSERT( m_imp.get() && "increment on end iterator" );

       static const basic_directory_iterator<Path> end_itr;

       if ( m_imp->m_no_push )
         { m_imp->m_no_push = false; }
       else if ( is_directory( m_imp->m_stack.top()->status() ) )
       {
         system::error_code ec;
 #if BOOST_WORKAROUND(__CODEGEARC__, BOOST_TESTED_AT(0x610))
         if( m_imp->m_no_throw ) {
             m_imp->m_stack.push(
                 basic_directory_iterator<Path>( *m_imp->m_stack.top(), ec )
             );
         }
         else {
             m_imp->m_stack.push(
                 basic_directory_iterator<Path>( *m_imp->m_stack.top() )
             );
         }
 #else
         m_imp->m_stack.push(
           m_imp->m_no_throw
             ? basic_directory_iterator<Path>( *m_imp->m_stack.top(), ec )
             : basic_directory_iterator<Path>( *m_imp->m_stack.top() ) );
 #endif
         if ( m_imp->m_stack.top() != end_itr )
         {
           ++m_imp->m_level;
           return;
         }
         m_imp->m_stack.pop();
       }

       while ( !m_imp->m_stack.empty()
         && ++m_imp->m_stack.top() == end_itr )
       {
         m_imp->m_stack.pop();
         --m_imp->m_level;
       }

       if ( m_imp->m_stack.empty() ) m_imp.reset(); // done, so make end iterator
     }

     //  pop
     template<class Path>
     void basic_recursive_directory_iterator<Path>::pop()
     {
       BOOST_ASSERT( m_imp.get() && "pop on end iterator" );
       BOOST_ASSERT( m_imp->m_level > 0 && "pop with level < 1" );

       static const basic_directory_iterator<Path> end_itr;

       do
       {
         m_imp->m_stack.pop();
         --m_imp->m_level;
       }
       while ( !m_imp->m_stack.empty()
         && ++m_imp->m_stack.top() == end_itr );

       if ( m_imp->m_stack.empty() ) m_imp.reset(); // done, so make end iterator
     }

   } // namespace filesystem2
 } // namespace boost

 #undef BOOST_FS_FUNC_STRING
 #undef BOOST_FS_FUNC

 //----------------------------------------------------------------------------//

 namespace boost
 {
   namespace filesystem
   {
     using filesystem2::create_directories;
     using filesystem2::basic_recursive_directory_iterator;
     using filesystem2::recursive_directory_iterator;

 # ifndef BOOST_FILESYSTEM_NO_DEPRECATED
     using filesystem2::extension;
     using filesystem2::basename;
     using filesystem2::change_extension;
 # endif

 # ifndef BOOST_FILESYSTEM2_NARROW_ONLY
     using filesystem2::wrecursive_directory_iterator;
 # endif

   }
 }

 //----------------------------------------------------------------------------//

 #include <boost/config/abi_suffix.hpp> // pops abi_prefix.hpp pragmas
 #endif // BOOST_FILESYSTEM2_CONVENIENCE_HPP
	// boost/filesystem/convenience.hpp ----------------------------------------//

	// Copyright Beman Dawes, 2002-2005
	// Copyright Vladimir Prus, 2002
	// Use, modification, and distribution is subject to the Boost Software
	// License, Version 1.0. (See accompanying file LICENSE_1_0.txt or copy at
	// http://www.boost.org/LICENSE_1_0.txt)

	// See library home page at http://www.boost.org/libs/filesystem

	//----------------------------------------------------------------------------//

	#ifndef BOOST_FILESYSTEM2_CONVENIENCE_HPP
	#define BOOST_FILESYSTEM2_CONVENIENCE_HPP

	#include <boost/filesystem/v2/config.hpp>
	#include <boost/filesystem/v2/operations.hpp>
	#include <boost/system/error_code.hpp>
	#include <vector>
	#include <stack>

	#include <boost/config/abi_prefix.hpp> // must be the last #include

	# ifndef BOOST_FILESYSTEM2_NARROW_ONLY
	# define BOOST_FS_FUNC(BOOST_FS_TYPE) \
	template<class Path> typename boost::enable_if<is_basic_path<Path>, \
	BOOST_FS_TYPE>::type
	# define BOOST_FS_FUNC_STRING BOOST_FS_FUNC(typename Path::string_type)
	# define BOOST_FS_TYPENAME typename
	# else
	# define BOOST_FS_FUNC(BOOST_FS_TYPE) inline BOOST_FS_TYPE
	typedef boost::filesystem::path Path;
	# define BOOST_FS_FUNC_STRING inline std::string
	# define BOOST_FS_TYPENAME
	# endif

	namespace boost
	{
	namespace filesystem2
	{

	BOOST_FS_FUNC(bool) create_directories(const Path& ph)
	{
	if (ph.empty() \|\| exists(ph))
	{
	if ( !ph.empty() && !is_directory(ph) )
	boost::throw_exception( basic_filesystem_error<Path>(
	"boost::filesystem::create_directories", ph,
	make_error_code( boost::system::errc::file_exists ) ) );
	return false;
	}

	// First create branch, by calling ourself recursively
	create_directories(ph.parent_path());
	// Now that parent's path exists, create the directory
	create_directory(ph);
	return true;
	}

	# ifndef BOOST_FILESYSTEM_NO_DEPRECATED

	BOOST_FS_FUNC_STRING extension(const Path& ph)
	{
	typedef BOOST_FS_TYPENAME Path::string_type string_type;
	string_type filename = ph.filename();

	BOOST_FS_TYPENAME string_type::size_type n = filename.rfind('.');
	if (n != string_type::npos)
	return filename.substr(n);
	else
	return string_type();
	}

	BOOST_FS_FUNC_STRING basename(const Path& ph)
	{
	typedef BOOST_FS_TYPENAME Path::string_type string_type;
	string_type filename = ph.filename();
	BOOST_FS_TYPENAME string_type::size_type n = filename.rfind('.');
	return filename.substr(0, n);
	}


	BOOST_FS_FUNC(Path) change_extension( const Path & ph,
	const BOOST_FS_TYPENAME Path::string_type & new_extension )
	{
	# if !defined(_STLPORT_VERSION)
	return ph.parent_path() / (basename(ph) + new_extension);
	# else
	typedef BOOST_FS_TYPENAME Path::string_type string_type;
	string_type filename = basename(ph) + new_extension;
	return ph.parent_path() / filename;
	# endif
	}
	# endif

	# ifndef BOOST_FILESYSTEM2_NARROW_ONLY

	// "do-the-right-thing" overloads ---------------------------------------//

	inline bool create_directories(const path& ph)
	{ return create_directories<path>(ph); }
	inline bool create_directories(const wpath& ph)
	{ return create_directories<wpath>(ph); }

	# ifndef BOOST_FILESYSTEM_NO_DEPRECATED
	inline std::string extension(const path& ph)
	{ return extension<path>(ph); }
	inline std::wstring extension(const wpath& ph)
	{ return extension<wpath>(ph); }

	inline std::string basename(const path& ph)
	{ return basename<path>( ph ); }
	inline std::wstring basename(const wpath& ph)
	{ return basename<wpath>( ph ); }

	inline path change_extension( const path & ph, const std::string& new_ex )
	{ return change_extension<path>( ph, new_ex ); }
	inline wpath change_extension( const wpath & ph, const std::wstring& new_ex )
	{ return change_extension<wpath>( ph, new_ex ); }
	# endif

	# endif


	// basic_recursive_directory_iterator helpers --------------------------//

	namespace detail
	{
	template< class Path >
	struct recur_dir_itr_imp
	{
	typedef basic_directory_iterator< Path > element_type;
	std::stack< element_type, std::vector< element_type > > m_stack;
	int m_level;
	bool m_no_push;
	bool m_no_throw;

	recur_dir_itr_imp() : m_level(0), m_no_push(false), m_no_throw(false) {}
	};

	} // namespace detail

	// basic_recursive_directory_iterator ----------------------------------//

	template< class Path >
	class basic_recursive_directory_iterator
	: public boost::iterator_facade<
	basic_recursive_directory_iterator<Path>,
	basic_directory_entry<Path>,
	boost::single_pass_traversal_tag >
	{
	public:
	typedef Path path_type;

	basic_recursive_directory_iterator(){} // creates the "end" iterator

	explicit basic_recursive_directory_iterator( const Path & dir_path );
	basic_recursive_directory_iterator( const Path & dir_path,
	system::error_code & ec );

	int level() const { return m_imp->m_level; }

	void pop();
	void no_push()
	{
	BOOST_ASSERT( m_imp.get() && "attempt to no_push() on end iterator" );
	m_imp->m_no_push = true;
	}

	file_status status() const
	{
	BOOST_ASSERT( m_imp.get()
	&& "attempt to call status() on end recursive_iterator" );
	return m_imp->m_stack.top()->status();
	}

	file_status symlink_status() const
	{
	BOOST_ASSERT( m_imp.get()
	&& "attempt to call symlink_status() on end recursive_iterator" );
	return m_imp->m_stack.top()->symlink_status();
	}

	private:

	// shared_ptr provides shallow-copy semantics required for InputIterators.
	// m_imp.get()==0 indicates the end iterator.
	boost::shared_ptr< detail::recur_dir_itr_imp< Path > > m_imp;

	friend class boost::iterator_core_access;

	typename boost::iterator_facade<
	basic_recursive_directory_iterator<Path>,
	basic_directory_entry<Path>,
	boost::single_pass_traversal_tag >::reference
	dereference() const
	{
	BOOST_ASSERT( m_imp.get() && "attempt to dereference end iterator" );
	return *m_imp->m_stack.top();
	}

	void increment();

	bool equal( const basic_recursive_directory_iterator & rhs ) const
	{ return m_imp == rhs.m_imp; }

	};

	typedef basic_recursive_directory_iterator<path> recursive_directory_iterator;
	# ifndef BOOST_FILESYSTEM2_NARROW_ONLY
	typedef basic_recursive_directory_iterator<wpath> wrecursive_directory_iterator;
	# endif

	// basic_recursive_directory_iterator implementation -------------------//

	// constructors
	template<class Path>
	basic_recursive_directory_iterator<Path>::
	basic_recursive_directory_iterator( const Path & dir_path )
	: m_imp( new detail::recur_dir_itr_imp<Path> )
	{
	m_imp->m_stack.push( basic_directory_iterator<Path>( dir_path ) );
	if ( m_imp->m_stack.top () == basic_directory_iterator<Path>() )
	{ m_imp.reset (); }
	}

	template<class Path>
	basic_recursive_directory_iterator<Path>::
	basic_recursive_directory_iterator( const Path & dir_path,
	system::error_code & ec )
	: m_imp( new detail::recur_dir_itr_imp<Path> )
	{
	m_imp->m_no_throw = true;
	m_imp->m_stack.push( basic_directory_iterator<Path>( dir_path, ec ) );
	if ( m_imp->m_stack.top () == basic_directory_iterator<Path>() )
	{ m_imp.reset (); }
	}

	// increment
	template<class Path>
	void basic_recursive_directory_iterator<Path>::increment()
	{
	BOOST_ASSERT( m_imp.get() && "increment on end iterator" );

	static const basic_directory_iterator<Path> end_itr;

	if ( m_imp->m_no_push )
	{ m_imp->m_no_push = false; }
	else if ( is_directory( m_imp->m_stack.top()->status() ) )
	{
	system::error_code ec;
	#if BOOST_WORKAROUND(__CODEGEARC__, BOOST_TESTED_AT(0x610))
	if( m_imp->m_no_throw ) {
	m_imp->m_stack.push(
	basic_directory_iterator<Path>( *m_imp->m_stack.top(), ec )
	);
	}
	else {
	m_imp->m_stack.push(
	basic_directory_iterator<Path>( *m_imp->m_stack.top() )
	);
	}
	#else
	m_imp->m_stack.push(
	m_imp->m_no_throw
	? basic_directory_iterator<Path>( *m_imp->m_stack.top(), ec )
	: basic_directory_iterator<Path>( *m_imp->m_stack.top() ) );
	#endif
	if ( m_imp->m_stack.top() != end_itr )
	{
	++m_imp->m_level;
	return;
	}
	m_imp->m_stack.pop();
	}

	while ( !m_imp->m_stack.empty()
	&& ++m_imp->m_stack.top() == end_itr )
	{
	m_imp->m_stack.pop();
	--m_imp->m_level;
	}

	if ( m_imp->m_stack.empty() ) m_imp.reset(); // done, so make end iterator
	}

	// pop
	template<class Path>
	void basic_recursive_directory_iterator<Path>::pop()
	{
	BOOST_ASSERT( m_imp.get() && "pop on end iterator" );
	BOOST_ASSERT( m_imp->m_level > 0 && "pop with level < 1" );

	static const basic_directory_iterator<Path> end_itr;

	do
	{
	m_imp->m_stack.pop();
	--m_imp->m_level;
	}
	while ( !m_imp->m_stack.empty()
	&& ++m_imp->m_stack.top() == end_itr );

	if ( m_imp->m_stack.empty() ) m_imp.reset(); // done, so make end iterator
	}

	} // namespace filesystem2
	} // namespace boost

	#undef BOOST_FS_FUNC_STRING
	#undef BOOST_FS_FUNC

	//----------------------------------------------------------------------------//

	namespace boost
	{
	namespace filesystem
	{
	using filesystem2::create_directories;
	using filesystem2::basic_recursive_directory_iterator;
	using filesystem2::recursive_directory_iterator;

	# ifndef BOOST_FILESYSTEM_NO_DEPRECATED
	using filesystem2::extension;
	using filesystem2::basename;
	using filesystem2::change_extension;
	# endif

	# ifndef BOOST_FILESYSTEM2_NARROW_ONLY
	using filesystem2::wrecursive_directory_iterator;
	# endif

	}
	}

	//----------------------------------------------------------------------------//

	#include <boost/config/abi_suffix.hpp> // pops abi_prefix.hpp pragmas
	#endif // BOOST_FILESYSTEM2_CONVENIENCE_HPP