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realtimeroboticsgroup.org / RealtimeRoboticsGroup / test / dc6866bfe21cff39c0481df3fb8a37d6f44f3e4d / . / include / boost / numeric / ublas / fwd.hpp
blob: 69b3dd2b7e86d98f520f2fd55ff1cc73e4022de8 [file] [log] [blame]
Brian Silvermandc6866b2018-08-05 00:18:23 -0700[diff] [blame^]1//
2// Copyright (c) 2000-2010
3// Joerg Walter, Mathias Koch, David Bellot
4//
5// Distributed under the Boost Software License, Version 1.0. (See
6// accompanying file LICENSE_1_0.txt or copy at
7// http://www.boost.org/LICENSE_1_0.txt)
8//
9// The authors gratefully acknowledge the support of
10// GeNeSys mbH & Co. KG in producing this work.
11//
12
13/// \file fwd.hpp is essentially used to forward declare the main types
14
15#ifndef BOOST_UBLAS_FWD_H
16#define BOOST_UBLAS_FWD_H
17
18#include <memory>
19
20#ifdef BOOST_UBLAS_CPP_GE_2011
21#include <array>
22#endif
23
24namespace boost { namespace numeric { namespace ublas {
25
26 // Storage types
27 template<class T, class ALLOC = std::allocator<T> >
28 class unbounded_array;
29
30 template<class T, std::size_t N, class ALLOC = std::allocator<T> >
31 class bounded_array;
32
33 template <class Z = std::size_t, class D = std::ptrdiff_t>
34 class basic_range;
35 template <class Z = std::size_t, class D = std::ptrdiff_t>
36 class basic_slice;
37 typedef basic_range<> range;
38 typedef basic_slice<> slice;
39 template<class A = unbounded_array<std::size_t> >
40 class indirect_array;
41
42 template<class I, class T, class ALLOC = std::allocator<std::pair<const I, T> > >
43 class map_std;
44 template<class I, class T, class ALLOC = std::allocator<std::pair<I, T> > >
45 class map_array;
46
47 // Expression types
48 struct scalar_tag {};
49
50 struct vector_tag {};
51 template<class E>
52 class vector_expression;
53 template<class C>
54 class vector_container;
55
56 template<class E>
57 class vector_reference;
58
59 struct matrix_tag {};
60
61 template<class E>
62 class matrix_expression;
63 template<class C>
64 class matrix_container;
65
66 template<class E>
67 class matrix_reference;
68
69 template<class V>
70 class vector_range;
71 template<class V>
72 class vector_slice;
73 template<class V, class IA = indirect_array<> >
74 class vector_indirect;
75
76 template<class M>
77 class matrix_row;
78 template<class M>
79 class matrix_column;
80 template<class M>
81 class matrix_vector_range;
82 template<class M>
83 class matrix_vector_slice;
84 template<class M, class IA = indirect_array<> >
85 class matrix_vector_indirect;
86 template<class M>
87 class matrix_range;
88 template<class M>
89 class matrix_slice;
90 template<class M, class IA = indirect_array<> >
91 class matrix_indirect;
92
93 template<class T, class A = unbounded_array<T> >
94 class vector;
95#ifdef BOOST_UBLAS_CPP_GE_2011
96 template<class T, std::size_t N, class A = std::array<T, N> >
97 class fixed_vector;
98#endif
99 template<class T, std::size_t N>
100 class bounded_vector;
101
102 template<class T = int, class ALLOC = std::allocator<T> >
103 class unit_vector;
104 template<class T = int, class ALLOC = std::allocator<T> >
105 class zero_vector;
106 template<class T = int, class ALLOC = std::allocator<T> >
107 class scalar_vector;
108
109 template<class T, std::size_t N>
110 class c_vector;
111
112 // Sparse vectors
113 template<class T, class A = map_std<std::size_t, T> >
114 class mapped_vector;
115 template<class T, std::size_t IB = 0, class IA = unbounded_array<std::size_t>, class TA = unbounded_array<T> >
116 class compressed_vector;
117 template<class T, std::size_t IB = 0, class IA = unbounded_array<std::size_t>, class TA = unbounded_array<T> >
118 class coordinate_vector;
119
120 // Matrix orientation type
121 struct unknown_orientation_tag {};
122 struct row_major_tag {};
123 struct column_major_tag {};
124
125 // Matrix storage layout parameterisation
126 template <class Z = std::size_t, class D = std::ptrdiff_t>
127 struct basic_row_major;
128 typedef basic_row_major<> row_major;
129
130 template <class Z = std::size_t, class D = std::ptrdiff_t>
131 struct basic_column_major;
132 typedef basic_column_major<> column_major;
133
134 template<class T, class L = row_major, class A = unbounded_array<T> >
135 class matrix;
136#ifdef BOOST_UBLAS_CPP_GE_2011
137 template<class T, std::size_t M, std::size_t N, class L = row_major, class A = std::array<T, M*N> >
138 class fixed_matrix;
139#endif
140 template<class T, std::size_t M, std::size_t N, class L = row_major>
141 class bounded_matrix;
142
143 template<class T = int, class ALLOC = std::allocator<T> >
144 class identity_matrix;
145 template<class T = int, class ALLOC = std::allocator<T> >
146 class zero_matrix;
147 template<class T = int, class ALLOC = std::allocator<T> >
148 class scalar_matrix;
149
150 template<class T, std::size_t M, std::size_t N>
151 class c_matrix;
152
153 template<class T, class L = row_major, class A = unbounded_array<unbounded_array<T> > >
154 class vector_of_vector;
155
156 template<class T, class L = row_major, class A = vector<compressed_vector<T> > >
157 class generalized_vector_of_vector;
158
159 // Triangular matrix type
160 struct lower_tag {};
161 struct upper_tag {};
162 struct unit_lower_tag : public lower_tag {};
163 struct unit_upper_tag : public upper_tag {};
164 struct strict_lower_tag : public lower_tag {};
165 struct strict_upper_tag : public upper_tag {};
166
167 // Triangular matrix parameterisation
168 template <class Z = std::size_t>
169 struct basic_full;
170 typedef basic_full<> full;
171
172 template <class Z = std::size_t>
173 struct basic_lower;
174 typedef basic_lower<> lower;
175
176 template <class Z = std::size_t>
177 struct basic_upper;
178 typedef basic_upper<> upper;
179
180 template <class Z = std::size_t>
181 struct basic_unit_lower;
182 typedef basic_unit_lower<> unit_lower;
183
184 template <class Z = std::size_t>
185 struct basic_unit_upper;
186 typedef basic_unit_upper<> unit_upper;
187
188 template <class Z = std::size_t>
189 struct basic_strict_lower;
190 typedef basic_strict_lower<> strict_lower;
191
192 template <class Z = std::size_t>
193 struct basic_strict_upper;
194 typedef basic_strict_upper<> strict_upper;
195
196 // Special matrices
197 template<class T, class L = row_major, class A = unbounded_array<T> >
198 class banded_matrix;
199 template<class T, class L = row_major, class A = unbounded_array<T> >
200 class diagonal_matrix;
201
202 template<class T, class TRI = lower, class L = row_major, class A = unbounded_array<T> >
203 class triangular_matrix;
204 template<class M, class TRI = lower>
205 class triangular_adaptor;
206
207 template<class T, class TRI = lower, class L = row_major, class A = unbounded_array<T> >
208 class symmetric_matrix;
209 template<class M, class TRI = lower>
210 class symmetric_adaptor;
211
212 template<class T, class TRI = lower, class L = row_major, class A = unbounded_array<T> >
213 class hermitian_matrix;
214 template<class M, class TRI = lower>
215 class hermitian_adaptor;
216
217 // Sparse matrices
218 template<class T, class L = row_major, class A = map_std<std::size_t, T> >
219 class mapped_matrix;
220 template<class T, class L = row_major, class A = map_std<std::size_t, map_std<std::size_t, T> > >
221 class mapped_vector_of_mapped_vector;
222 template<class T, class L = row_major, std::size_t IB = 0, class IA = unbounded_array<std::size_t>, class TA = unbounded_array<T> >
223 class compressed_matrix;
224 template<class T, class L = row_major, std::size_t IB = 0, class IA = unbounded_array<std::size_t>, class TA = unbounded_array<T> >
225 class coordinate_matrix;
226
227}}}
228
229#endif