lemon/bits/variant.h
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     1 /* -*- C++ -*-
       
     2  *
       
     3  * This file is a part of LEMON, a generic C++ optimization library
       
     4  *
       
     5  * Copyright (C) 2003-2006
       
     6  * Egervary Jeno Kombinatorikus Optimalizalasi Kutatocsoport
       
     7  * (Egervary Research Group on Combinatorial Optimization, EGRES).
       
     8  *
       
     9  * Permission to use, modify and distribute this software is granted
       
    10  * provided that this copyright notice appears in all copies. For
       
    11  * precise terms see the accompanying LICENSE file.
       
    12  *
       
    13  * This software is provided "AS IS" with no warranty of any kind,
       
    14  * express or implied, and with no claim as to its suitability for any
       
    15  * purpose.
       
    16  *
       
    17  */
       
    18 
       
    19 #ifndef LEMON_BITS_VARIANT_H
       
    20 #define LEMON_BITS_VARIANT_H
       
    21 
       
    22 #include <lemon/error.h>
       
    23 
       
    24 namespace lemon {
       
    25 
       
    26   template <bool left, bool right>
       
    27   struct CTOr {
       
    28     static const bool value = true;
       
    29   };
       
    30 
       
    31   template <>
       
    32   struct CTOr<false, false> {
       
    33     static const bool value = false;
       
    34   };
       
    35 
       
    36   template <bool left, bool right>
       
    37   struct CTAnd {
       
    38     static const bool value = false;
       
    39   };
       
    40 
       
    41   template <>
       
    42   struct CTAnd<true, true> {
       
    43     static const bool value = true;
       
    44   };
       
    45 
       
    46   template <int left, int right>
       
    47   struct CTEqual {
       
    48     static const bool value = false;
       
    49   };
       
    50 
       
    51   template <int val>
       
    52   struct CTEqual<val, val> {
       
    53     static const bool value = true;
       
    54   };
       
    55 
       
    56 
       
    57   template <int left, int right>
       
    58   struct CTLess {
       
    59     static const bool value = left < right;
       
    60   };
       
    61 
       
    62   template <int left>
       
    63   struct CTLess<left, 0> {
       
    64     static const bool value = false;
       
    65   };
       
    66 
       
    67   template <int right>
       
    68   struct CTLess<0, right> {
       
    69     static const bool value = true;
       
    70   };
       
    71 
       
    72   template <>
       
    73   struct CTLess<0, 0> {
       
    74     static const bool value = false;
       
    75   };
       
    76 
       
    77   template <>
       
    78   struct CTLess<1, 1> {
       
    79     static const bool value = false;
       
    80   };
       
    81 
       
    82   template <bool less, int left, int right>
       
    83   struct CTMaxImpl {
       
    84     static const int value = left;    
       
    85   };
       
    86 
       
    87   template <int left, int right>
       
    88   struct CTMaxImpl<true, left, right> {
       
    89     static const int value = right;
       
    90   };
       
    91   
       
    92   template <int left, int right>
       
    93   struct CTMax {
       
    94     static const int value = 
       
    95     CTMaxImpl<CTLess<left, right>::value, left, right>::value;
       
    96   };
       
    97 
       
    98 
       
    99   /// \brief Simple Variant type with two type
       
   100   ///
       
   101   /// Simple Variant type with two type
       
   102   template <typename _First, typename _Second>
       
   103   class BiVariant {
       
   104   public:
       
   105 
       
   106     typedef _First First;
       
   107     typedef _Second Second;
       
   108 
       
   109     struct WrongStateError : public lemon::LogicError {
       
   110     public:
       
   111       virtual const char* what() const throw() {
       
   112         return "lemon::BiVariant::WrongStateError";
       
   113       }
       
   114     };
       
   115 
       
   116     BiVariant() {
       
   117       flag = true;
       
   118       new(reinterpret_cast<First*>(data)) First();
       
   119     }
       
   120 
       
   121     BiVariant(const First& first) {
       
   122       flag = true;
       
   123       new(reinterpret_cast<First*>(data)) First(first);
       
   124     }
       
   125 
       
   126     BiVariant(const Second& second) {
       
   127       flag = false;
       
   128       new(reinterpret_cast<Second*>(data)) Second(second);
       
   129     }
       
   130 
       
   131     BiVariant(const BiVariant& bivariant) {
       
   132       flag = bivariant.flag;
       
   133       if (flag) {
       
   134         new(reinterpret_cast<First*>(data)) First(bivariant.first());      
       
   135       } else {
       
   136         new(reinterpret_cast<Second*>(data)) Second(bivariant.second());      
       
   137       }
       
   138     }
       
   139 
       
   140     ~BiVariant() {
       
   141       destroy();
       
   142     }
       
   143 
       
   144     BiVariant& setFirst() {
       
   145       destroy();
       
   146       flag = true;
       
   147       new(reinterpret_cast<First*>(data)) First();   
       
   148       return *this;
       
   149     }
       
   150 
       
   151     BiVariant& setFirst(const First& first) {
       
   152       destroy();
       
   153       flag = true;
       
   154       new(reinterpret_cast<First*>(data)) First(first);   
       
   155       return *this;
       
   156     }
       
   157 
       
   158     BiVariant& setSecond() {
       
   159       destroy();
       
   160       flag = false;
       
   161       new(reinterpret_cast<Second*>(data)) Second();   
       
   162       return *this;
       
   163     }
       
   164 
       
   165     BiVariant& setSecond(const Second& second) {
       
   166       destroy();
       
   167       flag = false;
       
   168       new(reinterpret_cast<Second*>(data)) Second(second);   
       
   169       return *this;
       
   170     }
       
   171 
       
   172     BiVariant& operator=(const First& first) {
       
   173       return setFirst(first);
       
   174     }
       
   175 
       
   176     BiVariant& operator=(const Second& second) {
       
   177       return setSecond(second);
       
   178     }
       
   179 
       
   180 
       
   181     BiVariant& operator=(const BiVariant& bivariant) {
       
   182       if (this == &bivariant) return *this;
       
   183       destroy();
       
   184       flag = bivariant.flag;
       
   185       if (flag) {
       
   186         new(reinterpret_cast<First*>(data)) First(bivariant.first());      
       
   187       } else {
       
   188         new(reinterpret_cast<Second*>(data)) Second(bivariant.second());      
       
   189       }
       
   190       return *this;
       
   191     }
       
   192 
       
   193     First& first() {
       
   194       LEMON_ASSERT(flag, WrongStateError());
       
   195       return *reinterpret_cast<First*>(data); 
       
   196     }
       
   197 
       
   198     const First& first() const { 
       
   199       LEMON_ASSERT(flag, WrongStateError());
       
   200       return *reinterpret_cast<const First*>(data); 
       
   201     }
       
   202 
       
   203     operator First&() { return first(); }
       
   204     operator const First&() const { return first(); }
       
   205 
       
   206     Second& second() { 
       
   207       LEMON_ASSERT(!flag, WrongStateError());
       
   208       return *reinterpret_cast<Second*>(data); 
       
   209     }
       
   210 
       
   211     const Second& second() const { 
       
   212       LEMON_ASSERT(!flag, WrongStateError());
       
   213       return *reinterpret_cast<const Second*>(data); 
       
   214     }
       
   215 
       
   216     operator Second&() { return second(); }
       
   217     operator const Second&() const { return second(); }
       
   218 
       
   219     bool firstState() const { return flag; }
       
   220     bool secondState() const { return !flag; }
       
   221 
       
   222   private:
       
   223 
       
   224     void destroy() {
       
   225       if (flag) {
       
   226         reinterpret_cast<First*>(data)->~First();
       
   227       } else {
       
   228         reinterpret_cast<Second*>(data)->~Second();
       
   229       }
       
   230     }
       
   231     
       
   232     char data[CTMax<sizeof(First), sizeof(Second)>::value];
       
   233     bool flag;
       
   234   };
       
   235 
       
   236 }
       
   237 
       
   238 
       
   239 #endif