boost_1_45_0/libs/test/example/const_string.hpp - nest-learning-thermostat/5.0/boost - Git at Google

 //  (C) Copyright Gennadiy Rozental 2001-2008.
 //  Distributed under 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 http://www.boost.org/libs/test for the library home page.
 //
 //  File        : $RCSfile$
 //
 //  Version     : $Revision: 49313 $
 //
 //  Description : simple string class definition
 // ***************************************************************************

 #ifndef  CONST_STRING_HPP
 #define  CONST_STRING_HPP

 // STL
 #include <iterator>
 #include <string>
 #include <cstring>
 using std::string;

 namespace common_layer {

 // ************************************************************************** //
 // **************                 const_string                 ************** //
 // ************************************************************************** //

 class const_string {
 public:
     // Subtypes
     typedef     char const*                     iterator;
     typedef     char const*                     const_iterator;
     typedef     std::reverse_iterator<iterator> reverse_iterator;
     typedef     reverse_iterator                const_reverse_iterator;

     // Constructor
     const_string()
     : m_begin( "" ), m_end( m_begin )                      {}

     // Copy constructor is generated by compiler

     const_string( const std::string& s )
     : m_begin( s.c_str() ),
       m_end( m_begin + s.length() )                        {}

     const_string( char const* s )
     : m_begin( s ? s : "" )
     , m_end( s ? m_begin + std::strlen( s ) : m_begin )
     {}

     const_string( char const* s, size_t length )
     : m_begin( s ), m_end( m_begin + length )              { if( length == 0 ) erase(); }

     const_string( char const* first, char const* last )
     : m_begin( first ), m_end( last )                      {}

     // data access methods
     char            operator[]( size_t index ) const        { return m_begin[index]; }
     char            at( size_t index ) const                { return m_begin[index]; }

     char const*     data() const                            { return m_begin; }

     // length operators
     size_t          length() const                          { return m_end - m_begin; }
     bool            is_empty() const                        { return m_end == m_begin; }

     void            erase()                                 { m_begin = m_end = ""; }
     void            resize( size_t new_len )                { if( m_begin + new_len < m_end ) m_end = m_begin + new_len; }
     void            rshorten( size_t shift = 1 )            { m_end  -= shift; if( m_end <= m_begin ) erase(); }
     void            lshorten( size_t shift = 1 )            { m_begin += shift; if( m_end <= m_begin ) erase(); }

     // Assignment operators
     const_string&   operator=( const_string const& s );
     const_string&   operator=( string const& s )            { return *this = const_string( s ); }
     const_string&   operator=( char const* s )              { return *this = const_string( s ); }

     const_string&   assign( const_string const& s )         { return *this = s; }
     const_string&   assign( string const& s, size_t len )   { return *this = const_string( s.data(), len ); }
     const_string&   assign( string const& s )               { return *this = const_string( s ); }
     const_string&   assign( char const* s )                 { return *this = const_string( s ); }
     const_string&   assign( char const* s, size_t len )     { return *this = const_string( s, len ); }
     const_string&   assign( char const* f, char const* l )  { return *this = const_string( f, l ); }

     void            swap( const_string& s )                 {
        // do not want to include alogrithm
         char const* tmp1 = m_begin;
         char const* tmp2 = m_end;

         m_begin     = s.m_begin;
         m_end       = s.m_end;

         s.m_begin   = tmp1;
         s.m_end     = tmp2;
     }

     // Comparison operators
     friend bool     operator==( const_string const& s1, const_string const& s2 )
     {
          return s1.length() == s2.length() && std::strncmp( s1.data(), s2.data(), s1.length() ) == 0;
     }
     friend bool     operator==( const_string const& s1, char const* s2 )            { return s1 == const_string( s2 ); }
     friend bool     operator==( const_string const& s1, const string& s2 )          { return s1 == const_string( s2 ); }

     friend bool     operator!=( const_string const& s1, const_string const& s2 )    { return !(s1 == s2); }
     friend bool     operator!=( const_string const& s1, char const* s2 )            { return !(s1 == s2); }
     friend bool     operator!=( const_string const& s1, const string& s2 )          { return !(s1 == s2); }

     friend bool     operator==( char const* s2,         const_string const& s1 )    { return s1 == s2; }
     friend bool     operator==( const string& s2,       const_string const& s1 )    { return s1 == s2; }

     friend bool     operator!=( char const* s2,         const_string const& s1 )    { return !(s1 == s2); }
     friend bool     operator!=( const string& s2,       const_string const& s1 )    { return !(s1 == s2); }

     // Iterators
     iterator        begin() const                           { return m_begin; }
     iterator        end() const                             { return m_end;   }
     reverse_iterator rbegin() const                         { return reverse_iterator( m_end );   }
     reverse_iterator rend() const                           { return reverse_iterator( m_begin ); }

 private:

     // Data members
     char const*     m_begin;
     char const*     m_end;
 };

 //____________________________________________________________________________//

 // first character
 class first_char {
 public:
     char operator()( const_string source, char default_char = '\0' ) const {
         return source.is_empty() ? default_char : *source.data();
     }
 };

 //____________________________________________________________________________//

 // last character
 class last_char {
 public:
     char operator()( const_string source, char default_char = '\0' ) const {
         return source.is_empty() ? default_char : *source.rbegin();
     }
 };

 //____________________________________________________________________________//

 inline const_string&
 const_string::operator=( const_string const& s ) {
     if( &s != this ) {
         m_begin = s.m_begin;
         m_end  = s.m_end;
     }

     return *this;
 }

 //____________________________________________________________________________//

 typedef const_string const literal;

 //____________________________________________________________________________//

 inline std::ostream&
 operator<<( std::ostream& os, const_string const& str )
 {
     os << std::string( str.begin(), str.length() );

     return os;
 }

 //____________________________________________________________________________//

 }; // namespace common_layer

 #endif // CONST_STRING_HPP
	// (C) Copyright Gennadiy Rozental 2001-2008.
	// Distributed under 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 http://www.boost.org/libs/test for the library home page.
	//
	// File : $RCSfile$
	//
	// Version : $Revision: 49313 $
	//
	// Description : simple string class definition
	// ***************************************************************************

	#ifndef CONST_STRING_HPP
	#define CONST_STRING_HPP

	// STL
	#include <iterator>
	#include <string>
	#include <cstring>
	using std::string;

	namespace common_layer {

	// ************************************************************************** //
	// ************ const_string ************ //
	// ************************************************************************** //

	class const_string {
	public:
	// Subtypes
	typedef char const* iterator;
	typedef char const* const_iterator;
	typedef std::reverse_iterator<iterator> reverse_iterator;
	typedef reverse_iterator const_reverse_iterator;

	// Constructor
	const_string()
	: m_begin( "" ), m_end( m_begin ) {}

	// Copy constructor is generated by compiler

	const_string( const std::string& s )
	: m_begin( s.c_str() ),
	m_end( m_begin + s.length() ) {}

	const_string( char const* s )
	: m_begin( s ? s : "" )
	, m_end( s ? m_begin + std::strlen( s ) : m_begin )
	{}

	const_string( char const* s, size_t length )
	: m_begin( s ), m_end( m_begin + length ) { if( length == 0 ) erase(); }

	const_string( char const* first, char const* last )
	: m_begin( first ), m_end( last ) {}

	// data access methods
	char operator[]( size_t index ) const { return m_begin[index]; }
	char at( size_t index ) const { return m_begin[index]; }

	char const* data() const { return m_begin; }

	// length operators
	size_t length() const { return m_end - m_begin; }
	bool is_empty() const { return m_end == m_begin; }

	void erase() { m_begin = m_end = ""; }
	void resize( size_t new_len ) { if( m_begin + new_len < m_end ) m_end = m_begin + new_len; }
	void rshorten( size_t shift = 1 ) { m_end -= shift; if( m_end <= m_begin ) erase(); }
	void lshorten( size_t shift = 1 ) { m_begin += shift; if( m_end <= m_begin ) erase(); }

	// Assignment operators
	const_string& operator=( const_string const& s );
	const_string& operator=( string const& s ) { return *this = const_string( s ); }
	const_string& operator=( char const* s ) { return *this = const_string( s ); }

	const_string& assign( const_string const& s ) { return *this = s; }
	const_string& assign( string const& s, size_t len ) { return *this = const_string( s.data(), len ); }
	const_string& assign( string const& s ) { return *this = const_string( s ); }
	const_string& assign( char const* s ) { return *this = const_string( s ); }
	const_string& assign( char const* s, size_t len ) { return *this = const_string( s, len ); }
	const_string& assign( char const* f, char const* l ) { return *this = const_string( f, l ); }

	void swap( const_string& s ) {
	// do not want to include alogrithm
	char const* tmp1 = m_begin;
	char const* tmp2 = m_end;

	m_begin = s.m_begin;
	m_end = s.m_end;

	s.m_begin = tmp1;
	s.m_end = tmp2;
	}

	// Comparison operators
	friend bool operator==( const_string const& s1, const_string const& s2 )
	{
	return s1.length() == s2.length() && std::strncmp( s1.data(), s2.data(), s1.length() ) == 0;
	}
	friend bool operator==( const_string const& s1, char const* s2 ) { return s1 == const_string( s2 ); }
	friend bool operator==( const_string const& s1, const string& s2 ) { return s1 == const_string( s2 ); }

	friend bool operator!=( const_string const& s1, const_string const& s2 ) { return !(s1 == s2); }
	friend bool operator!=( const_string const& s1, char const* s2 ) { return !(s1 == s2); }
	friend bool operator!=( const_string const& s1, const string& s2 ) { return !(s1 == s2); }

	friend bool operator==( char const* s2, const_string const& s1 ) { return s1 == s2; }
	friend bool operator==( const string& s2, const_string const& s1 ) { return s1 == s2; }

	friend bool operator!=( char const* s2, const_string const& s1 ) { return !(s1 == s2); }
	friend bool operator!=( const string& s2, const_string const& s1 ) { return !(s1 == s2); }

	// Iterators
	iterator begin() const { return m_begin; }
	iterator end() const { return m_end; }
	reverse_iterator rbegin() const { return reverse_iterator( m_end ); }
	reverse_iterator rend() const { return reverse_iterator( m_begin ); }

	private:

	// Data members
	char const* m_begin;
	char const* m_end;
	};

	//____________________________________________________________________________//

	// first character
	class first_char {
	public:
	char operator()( const_string source, char default_char = '\0' ) const {
	return source.is_empty() ? default_char : *source.data();
	}
	};

	//____________________________________________________________________________//

	// last character
	class last_char {
	public:
	char operator()( const_string source, char default_char = '\0' ) const {
	return source.is_empty() ? default_char : *source.rbegin();
	}
	};

	//____________________________________________________________________________//

	inline const_string&
	const_string::operator=( const_string const& s ) {
	if( &s != this ) {
	m_begin = s.m_begin;
	m_end = s.m_end;
	}

	return *this;
	}

	//____________________________________________________________________________//

	typedef const_string const literal;

	//____________________________________________________________________________//

	inline std::ostream&
	operator<<( std::ostream& os, const_string const& str )
	{
	os << std::string( str.begin(), str.length() );

	return os;
	}

	//____________________________________________________________________________//

	}; // namespace common_layer

	#endif // CONST_STRING_HPP