src/work/marci_property_vector.hh
changeset 31 d93bef0c4ed3
parent 9 a9ed3f1c2c63
child 107 8d62f0072ff0
equal deleted inserted replaced
0:14f6858fd308 1:4ece727d6e98
     1 #ifndef MARCI_PROPERTY_VECTOR_HH
     1 #ifndef MARCI_PROPERTY_VECTOR_HH
     2 #define MARCI_PROPERTY_VECTOR_HH
     2 #define MARCI_PROPERTY_VECTOR_HH
     3 
     3 
     4 #include <vector>
     4 #include <vector>
     5 
       
     6 #include <marci_graph_traits.hh>
       
     7 
     5 
     8 namespace marci {
     6 namespace marci {
     9 
     7 
    10   template <typename iterator>
     8   template <typename iterator>
    11   int number_of(iterator _it) { 
     9   int number_of(iterator _it) { 
    12     int i=0;
    10     int i=0;
    13     for( ; _it.is_valid(); ++_it) { ++i; } 
    11     for( ; _it.valid(); ++_it) { ++i; } 
    14     return i;
    12     return i;
    15   }
    13   }
    16   
    14   
    17   template <typename graph_type, typename T>
    15   template <typename graph_type, typename T>
    18   class node_property_vector {
    16   class node_property_vector {
    19     typedef typename graph_traits<graph_type>::node_iterator node_iterator;
    17     typedef typename list_graph::node_iterator node_iterator;
    20     typedef typename graph_traits<graph_type>::each_node_iterator each_node_iterator;
    18     typedef typename list_graph::each_node_iterator each_node_iterator;
    21     graph_type& G; 
    19     graph_type& G; 
    22     std::vector<T> container;
    20     std::vector<T> container;
    23   public:
    21   public:
    24     node_property_vector(graph_type& _G) : G(_G) {
    22     node_property_vector(graph_type& _G) : G(_G) {
    25       int i=0;
    23       int i=0;
    26       for(each_node_iterator it=G.first_node(); it.is_valid(); ++it) ++i;
    24       for(each_node_iterator it=G.first_node(); it.valid(); ++it) ++i;
    27       container.resize(i); 
    25       container.resize(i); 
    28     }
    26     }
    29     node_property_vector(graph_type& _G, T a) : G(_G) {
    27     node_property_vector(graph_type& _G, T a) : G(_G) {
    30       for(each_node_iterator it=G.first_node(); it.is_valid(); ++it) { container.push_back(a); }
    28       for(each_node_iterator it=G.first_node(); it.valid(); ++it) { container.push_back(a); }
    31     }
    29     }
    32     void put(node_iterator nit, const T& a) { container[G.id(nit)]=a; }
    30     void put(node_iterator nit, const T& a) { container[G.id(nit)]=a; }
    33     T get(node_iterator nit) { return container[G.id(nit)]; }
    31     T get(node_iterator nit) { return container[G.id(nit)]; }
    34   };
    32   };
    35 
    33 
    36   template <typename graph_type, typename T>
    34   template <typename graph_type, typename T>
    37   class edge_property_vector {
    35   class edge_property_vector {
    38     typedef typename graph_traits<graph_type>::edge_iterator edge_iterator;
    36     typedef typename graph_type::edge_iterator edge_iterator;
    39     typedef typename graph_traits<graph_type>::each_edge_iterator each_edge_iterator;
    37     typedef typename graph_type::each_edge_iterator each_edge_iterator;
    40     graph_type& G; 
    38     graph_type& G; 
    41     std::vector<T> container;
    39     std::vector<T> container;
    42   public:
    40   public:
    43     edge_property_vector(graph_type& _G) : G(_G) {
    41     edge_property_vector(graph_type& _G) : G(_G) {
    44       int i=0;
    42       int i=0;
    45       for(each_edge_iterator it=G.first_edge(); it.is_valid(); ++it) ++i;
    43       for(each_edge_iterator it=G.first_edge(); it.valid(); ++it) ++i;
    46       container.resize(i); 
    44       container.resize(i); 
    47     }
    45     }
    48     edge_property_vector(graph_type& _G, T a) : G(_G) {
    46     edge_property_vector(graph_type& _G, T a) : G(_G) {
    49       for(each_edge_iterator it=G.first_edge(); it.is_valid(); ++it) { 
    47       for(each_edge_iterator it=G.first_edge(); it.valid(); ++it) { 
    50 	container.push_back(a); 
    48 	container.push_back(a); 
    51       }
    49       }
    52     }
    50     }
    53     void put(edge_iterator eit, const T& a) { container[G.id(eit)]=a; }
    51     void put(edge_iterator eit, const T& a) { container[G.id(eit)]=a; }
    54     T get(edge_iterator eit) { return container[G.id(eit)]; }
    52     T get(edge_iterator eit) { return container[G.id(eit)]; }