lemon/concepts/matrix_maps.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_CONCEPT_MATRIX_MAPS_H
       
    20 #define LEMON_CONCEPT_MATRIX_MAPS_H
       
    21 
       
    22 #include <lemon/bits/utility.h>
       
    23 #include <lemon/concept_check.h>
       
    24 
       
    25 ///\ingroup concept
       
    26 ///\file
       
    27 ///\brief MatrixMap concepts checking classes for testing and documenting.
       
    28 
       
    29 namespace lemon {
       
    30 
       
    31   namespace concepts {
       
    32   
       
    33     /// \addtogroup concept
       
    34     /// @{
       
    35 
       
    36     /// Readable matrix map concept
       
    37     template <typename K1, typename K2, typename V>
       
    38     class ReadMatrixMap
       
    39     {
       
    40     public:
       
    41       /// Map's first key type.
       
    42       typedef K1 FirstKey;    
       
    43       /// Map's second key type.
       
    44       typedef K2 SecondKey;    
       
    45       /// \brief Map's value type. 
       
    46       /// (The type of objects associated with the pairs of keys).
       
    47       typedef V Value;
       
    48 
       
    49       // \bug Value don't need to be default constructible.
       
    50       /// Returns the value associated with a key.
       
    51       Value operator()(const FirstKey&, const SecondKey&) const {
       
    52 	return Value();
       
    53       }
       
    54 
       
    55       template <typename _ReadMatrixMap>
       
    56       struct Constraints {
       
    57 
       
    58 	void constraints() {
       
    59 	  Value val = m(first_key, second_key);
       
    60 	  val = m(first_key, second_key);
       
    61 	  typename _ReadMatrixMap::Value own_val = 
       
    62 	    m(own_first_key, own_second_key); 
       
    63 	  own_val = m(own_first_key, own_second_key);
       
    64 	  ignore_unused_variable_warning(val);
       
    65 	  ignore_unused_variable_warning(own_val);
       
    66 	}
       
    67 
       
    68 	FirstKey& first_key;
       
    69 	SecondKey& second_key;	
       
    70 	typename _ReadMatrixMap::FirstKey& own_first_key;
       
    71 	typename _ReadMatrixMap::SecondKey& own_second_key;
       
    72 	_ReadMatrixMap& m;
       
    73       };
       
    74       
       
    75     };
       
    76 
       
    77 
       
    78     /// Writable map concept
       
    79     template <typename K1, typename K2, typename V>
       
    80     class WriteMatrixMap {
       
    81     public:
       
    82       /// Map's first key type.
       
    83       typedef K1 FirstKey;    
       
    84       /// Map's second key type.
       
    85       typedef K2 SecondKey;    
       
    86       /// \brief Map's value type. 
       
    87       /// (The type of objects associated with the pairs of keys).
       
    88       typedef V Value;
       
    89 
       
    90       /// Sets the value associated with the pair of keys.
       
    91       void set(const FirstKey&, const SecondKey& ,const Value&) {}
       
    92 
       
    93       template <typename _WriteMatrixMap>
       
    94       struct Constraints {
       
    95 	void constraints() {
       
    96 	  // No constraints for constructor.
       
    97 	  m.set(first_key, second_key, val);
       
    98 	  m.set(own_first_key, own_second_key, own_val);
       
    99 	}
       
   100 
       
   101 	Value& val;
       
   102 	typename _WriteMatrixMap::Value own_val;
       
   103 	FirstKey& first_key;
       
   104 	SecondKey& second_key;
       
   105 	typename _WriteMatrixMap::FirstKey& own_first_key;
       
   106 	typename _WriteMatrixMap::SecondKey& own_second_key;
       
   107 	_WriteMatrixMap& m;
       
   108 
       
   109       };
       
   110     };
       
   111 
       
   112     ///Read/Writable map concept
       
   113     template<typename K1, typename K2, typename V>
       
   114     class ReadWriteMatrixMap 
       
   115       : public ReadMatrixMap<K1, K2, V>, public WriteMatrixMap<K1, K2, V> {
       
   116     public:
       
   117       /// Map's first key type.
       
   118       typedef K1 FirstKey;    
       
   119       /// Map's second key type.
       
   120       typedef K2 SecondKey;    
       
   121       /// \brief Map's value type. 
       
   122       /// (The type of objects associated with the pairs of keys).
       
   123       typedef V Value;
       
   124 
       
   125       /// Returns the value associated with a pair of keys.
       
   126       Value operator()(const FirstKey&, const SecondKey&) const { 
       
   127 	return Value(); 
       
   128       }
       
   129       /// Sets the value associated with the pair of keys.
       
   130       void set(const FirstKey&, const SecondKey& ,const Value&) {}
       
   131 
       
   132       template<typename _ReadWriteMatrixMap>
       
   133       struct Constraints {
       
   134 	void constraints() {
       
   135 	  checkConcept<ReadMatrixMap<K1, K2, V>, _ReadWriteMatrixMap >();
       
   136 	  checkConcept<WriteMatrixMap<K1, K2, V>, _ReadWriteMatrixMap >();
       
   137 	}
       
   138       };
       
   139     };
       
   140   
       
   141   
       
   142     ///Dereferable matrix map concept
       
   143     template<typename K1, typename K2, typename V, typename R, typename CR>
       
   144     class ReferenceMatrixMap : public ReadWriteMatrixMap<K1, K2, V>
       
   145     {
       
   146     public:
       
   147       /// Tag for reference maps.
       
   148       typedef True ReferenceMapTag;
       
   149       /// Map's first key type.
       
   150       typedef K1 FirstKey;    
       
   151       /// Map's second key type.
       
   152       typedef K1 SecondKey;    
       
   153       /// Map's value type. (The type of objects associated with the keys).
       
   154       typedef V Value;
       
   155       /// Map's reference type.
       
   156       typedef R Reference;
       
   157       /// Map's const reference type.
       
   158       typedef CR ConstReference;
       
   159 
       
   160     protected:
       
   161       Value tmp;
       
   162     public:
       
   163 
       
   164       ///Returns a reference to the value associated to a pair of keys.
       
   165       Reference operator()(const FirstKey&, const SecondKey&) { 
       
   166 	return tmp; 
       
   167       }
       
   168       ///Returns a const reference to the value associated to a pair of keys.
       
   169       ConstReference operator()(const FirstKey&, const SecondKey&) const { 
       
   170 	return tmp; 
       
   171       }
       
   172       /// Sets the value associated with the pair of keys.
       
   173       void set(const FirstKey&, const SecondKey& ,const Value&) {}
       
   174 
       
   175       // \todo rethink this concept
       
   176       template<typename _ReferenceMatrixMap>
       
   177       struct ReferenceMapConcept {
       
   178 
       
   179 	void constraints() {
       
   180 	  checkConcept<ReadWriteMatrixMap, _ReferenceMatrixMap >();
       
   181 	  m(first_key, second_key) = val;
       
   182 	  val  = m(first_key, second_key);
       
   183 	  m(first_key, second_key) = ref;
       
   184 	  ref = m(first_key, second_key);
       
   185 	  m(own_first_key, own_second_key) = own_val;
       
   186 	  own_val  = m(own_first_key, own_second_key);
       
   187 	  m(own_first_key, own_second_key) = own_ref;
       
   188 	  own_ref = m(own_first_key, own_second_key); 
       
   189 	}
       
   190 
       
   191 	typename _ReferenceMatrixMap::Key& own_first_key;
       
   192 	typename _ReferenceMatrixMap::Key& own_second_key;
       
   193 	typename _ReferenceMatrixMap::Value& own_val;
       
   194 	typename _ReferenceMatrixMap::Reference& own_ref;
       
   195 	FirstKey& first_key;
       
   196 	SecondKey& second_key;
       
   197 	Value& val;
       
   198 	Reference& ref;
       
   199 	_ReferenceMatrixMap& m;
       
   200       };
       
   201     };
       
   202 
       
   203     // @}
       
   204 
       
   205   } //namespace concepts
       
   206 } //namespace lemon
       
   207 #endif // LEMON_CONCEPT_MATRIX_MAPS_H