lemon/bits/extended_pair.h
author ladanyi
Fri, 26 Aug 2005 07:35:23 +0000
changeset 1648 dd8672338691
parent 1430 48b4f46f9d4e
permissions -rw-r--r--
- use Gtk::Dialog to set the new values of edge and node maps
- update all edges/nodes when editing a map so that edge widths and node
sizes change properly
- coordinate maps are no longer selectable in the maps window
     1 /* -*- C++ -*-
     2  * lemon/bits/extended_pair.h - Part of LEMON, a generic C++ optimization library
     3  *
     4  * Copyright (C) 2005 Egervary Jeno Kombinatorikus Optimalizalasi Kutatocsoport
     5  * (Egervary Research Group on Combinatorial Optimization, EGRES).
     6  *
     7  * Permission to use, modify and distribute this software is granted
     8  * provided that this copyright notice appears in all copies. For
     9  * precise terms see the accompanying LICENSE file.
    10  *
    11  * This software is provided "AS IS" with no warranty of any kind,
    12  * express or implied, and with no claim as to its suitability for any
    13  * purpose.
    14  *
    15  */
    16 
    17 #ifndef LEMON_EXTENDED_PAIR_H
    18 #define LEMON_EXTENDED_PAIR_H
    19 
    20 ///\ingroup misc
    21 ///\file
    22 ///\brief A more customizable pair type than std::pair.
    23 
    24 namespace lemon {
    25   
    26   /// \brief A more customizable pair type than std::pair.
    27   ///
    28   /// This type is a customizable pair type. The main goal
    29   /// is that the constructor's parameter type does not depend
    30   /// on the stored data type. This way it is possible to store
    31   /// references in the extended_pair.
    32   /// \code
    33   /// int a; char b;
    34   /// typedef extended_pair<int&, int&, char&, char&> ICPair;
    35   /// ICPair p(a, b); 
    36   /// // like a real reference to an std::pair<int, char>
    37   /// // but the pair does not exist
    38   /// p.first = 42;
    39   /// p.second = '@';
    40   /// \endcode
    41   /// \param T1 The type of first.
    42   /// \param A1 The parameter type for first.
    43   /// \param T2 The type of second.
    44   /// \param A2 The parameter type for second.
    45   template <typename T1, typename A1, typename T2, typename A2>
    46   struct extended_pair {
    47     /// \brief The type of first.
    48     ///
    49     /// The type of first.
    50     typedef T1 first_type;
    51     /// \brief The type of second.
    52     ///
    53     /// The type of second.
    54     typedef T2 second_type;
    55 
    56     /// \brief Default constructor.
    57     ///
    58     /// Default constructor. It calls the default constructor of
    59     /// first and second.
    60     extended_pair() : first(), second() {}
    61 
    62     /// \brief Constructor.
    63     ///
    64     /// Constructor. 
    65     extended_pair(A1 f, A2 s) : first(f), second(s) {}
    66 
    67     /// \brief Template constructor.
    68     ///
    69     /// Template constructor. It copies everything which has
    70     /// \c first and \c second member.
    71     template <class Pair>
    72     extended_pair(const Pair& pair) : first(pair.first), second(pair.second) {}
    73 
    74     /// \brief The first value
    75     /// 
    76     /// The first value
    77     T1 first;
    78     /// \brief The second value
    79     /// 
    80     /// The second value
    81     T2 second;
    82   };
    83 
    84   /// \brief Equality operator
    85   /// 
    86   /// Equality operator
    87   template <typename T1, typename T2, 
    88 	    typename LA1, typename LA2, typename RA1, typename RA2>
    89   bool operator==(const extended_pair<T1, LA1, T2, LA2>& left, 
    90 		  const extended_pair<T1, RA1, T2, RA2>& right) {
    91     return left.first == right.first && left.second == right.second;
    92   }
    93 
    94   /// \brief Inequality operator.
    95   /// 
    96   /// Inequality operator.
    97   template <typename T1, typename T2, 
    98 	    typename LA1, typename LA2, typename RA1, typename RA2>
    99   bool operator!=(const extended_pair<T1, LA1, T2, LA2>& left, 
   100 		  const extended_pair<T1, RA1, T2, RA2>& right) {
   101     return  !(left == right);
   102   }
   103 
   104   /// \brief Less operator.
   105   /// 
   106   /// Less operator.
   107   template <typename T1, typename T2, 
   108 	    typename LA1, typename LA2, typename RA1, typename RA2>
   109   bool operator<(const extended_pair<T1, LA1, T2, LA2>& left, 
   110 		 const extended_pair<T1, RA1, T2, RA2>& right) {
   111     return left.first < right.first || 
   112       (!(right.first<left.first) && left.second < right.second);
   113   }
   114 
   115   /// \brief Greater operator.
   116   /// 
   117   /// Greater operator.
   118   template <typename T1, typename T2, 
   119 	    typename LA1, typename LA2, typename RA1, typename RA2>
   120   bool operator>(const extended_pair<T1, LA1, T2, LA2>& left, 
   121 		 const extended_pair<T1, RA1, T2, RA2>& right) {
   122     return right < left;
   123   }
   124 
   125   /// \brief Less or equal operator.
   126   /// 
   127   /// Less or equal operator.
   128   template <typename T1, typename T2, 
   129 	    typename LA1, typename LA2, typename RA1, typename RA2>
   130   bool operator<=(const extended_pair<T1, LA1, T2, LA2>& left, 
   131 		  const extended_pair<T1, RA1, T2, RA2>& right) {
   132     return !(right > left);
   133   }
   134 
   135   /// \brief Greater or equal operator.
   136   /// 
   137   /// Greater or equal operator.
   138   template <typename T1, typename T2, 
   139 	    typename LA1, typename LA2, typename RA1, typename RA2>
   140   bool operator>=(const extended_pair<T1, LA1, T2, LA2>& left, 
   141 		  const extended_pair<T1, RA1, T2, RA2>& right) {
   142     return !(right < left);
   143   }
   144 
   145 }
   146 #endif