1 /////////////////////////////////////////////////////////////////////////////
2 //
3 // (C) Copyright Ion Gaztanaga 2006-2013
4 //
5 // Distributed under the Boost Software License, Version 1.0.
6 // (See accompanying file LICENSE_1_0.txt or copy at
7 // http://www.boost.org/LICENSE_1_0.txt)
8 //
9 // See http://www.boost.org/libs/intrusive for documentation.
10 //
11 /////////////////////////////////////////////////////////////////////////////
12 //[doc_advanced_value_traits_code
13 #include <boost/intrusive/link_mode.hpp>
14 #include <boost/intrusive/list.hpp>
15 #include <vector>
16
17 //This is the node that will be used with algorithms.
18 struct simple_node
19 {
20 simple_node *prev_;
21 simple_node *next_;
22 };
23 //]
24
25 //[doc_advanced_value_traits_value_traits
26 class base_1{};
27 class base_2{};
28
29 struct value_1 : public base_1, public simple_node
30 { int id_; };
31
32 struct value_2 : public base_1, public base_2, public simple_node
33 { float id_; };
34
35 //Define the node traits. A single node_traits will be enough.
36 struct simple_node_traits
37 {
38 typedef simple_node node;
39 typedef node * node_ptr;
40 typedef const node * const_node_ptr;
get_nextsimple_node_traits41 static node *get_next(const node *n) { return n->next_; }
set_nextsimple_node_traits42 static void set_next(node *n, node *next) { n->next_ = next; }
get_previoussimple_node_traits43 static node *get_previous(const node *n) { return n->prev_; }
set_previoussimple_node_traits44 static void set_previous(node *n, node *prev) { n->prev_ = prev; }
45 };
46
47 //A templatized value traits for value_1 and value_2
48 template<class ValueType>
49 struct simple_value_traits
50 {
51 typedef simple_node_traits node_traits;
52 typedef node_traits::node_ptr node_ptr;
53 typedef node_traits::const_node_ptr const_node_ptr;
54 typedef ValueType value_type;
55 typedef ValueType * pointer;
56 typedef const ValueType * const_pointer;
57 static const boost::intrusive::link_mode_type link_mode = boost::intrusive::normal_link;
to_node_ptrsimple_value_traits58 static node_ptr to_node_ptr (value_type &value) { return node_ptr(&value); }
to_node_ptrsimple_value_traits59 static const_node_ptr to_node_ptr (const value_type &value) { return const_node_ptr(&value); }
to_value_ptrsimple_value_traits60 static pointer to_value_ptr(node_ptr n) { return static_cast<value_type*>(n); }
to_value_ptrsimple_value_traits61 static const_pointer to_value_ptr(const_node_ptr n) { return static_cast<const value_type*>(n); }
62 };
63 //]
64
65 //[doc_advanced_value_traits_containers
66 //Now define two intrusive lists. Both lists will use the same algorithms:
67 // circular_list_algorithms<simple_node_traits>
68
69 using namespace boost::intrusive;
70 typedef list <value_1, value_traits<simple_value_traits<value_1> > > Value1List;
71 typedef list <value_2, value_traits<simple_value_traits<value_2> > > Value2List;
72 //]
73
74 //[doc_advanced_value_traits_test
main()75 int main()
76 {
77 typedef std::vector<value_1> Vect1;
78 typedef std::vector<value_2> Vect2;
79
80 //Create values, with a different internal number
81 Vect1 values1;
82 Vect2 values2;
83 for(int i = 0; i < 100; ++i){
84 value_1 v1; v1.id_ = i; values1.push_back(v1);
85 value_2 v2; v2.id_ = (float)i; values2.push_back(v2);
86 }
87
88 //Create the lists with the objects
89 Value1List list1(values1.begin(), values1.end());
90 Value2List list2(values2.begin(), values2.end());
91
92 //Now test both lists
93 Value1List::const_iterator bit1(list1.begin()), bitend1(list1.end());
94 Value2List::const_iterator bit2(list2.begin()), bitend2(list2.end());
95
96 Vect1::const_iterator it1(values1.begin()), itend1(values1.end());
97 Vect2::const_iterator it2(values2.begin()), itend2(values2.end());
98
99 //Test the objects inserted in our lists
100 for(; it1 != itend1; ++it1, ++bit1, ++it2, ++bit2){
101 if(&*bit1 != &*it1 || &*bit2 != &*it2) return 1;
102 }
103 return 0;
104 }
105 //]
106