source: NonGTP/Boost/boost/multi_array/concept_checks.hpp @ 857

Revision 857, 7.0 KB checked in by igarcia, 19 years ago (diff)
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[857]1// Copyright 2002 The Trustees of Indiana University.
2
3// Use, modification and distribution is subject to the Boost Software
4// License, Version 1.0. (See accompanying file LICENSE_1_0.txt or copy at
5// http://www.boost.org/LICENSE_1_0.txt)
6
7//  Boost.MultiArray Library
8//  Authors: Ronald Garcia
9//           Jeremy Siek
10//           Andrew Lumsdaine
11//  See http://www.boost.org/libs/multi_array for documentation.
12
13#ifndef BOOST_MULTI_ARRAY_CONCEPT_CHECKS_RG110101_HPP
14#define BOOST_MULTI_ARRAY_CONCEPT_CHECKS_RG110101_HPP
15
16//
17// concept-checks.hpp - Checks out Const MultiArray and MultiArray
18// concepts
19//
20
21#include "boost/concept_check.hpp"
22#include "boost/iterator/iterator_concepts.hpp"
23
24namespace boost {
25namespace detail {
26namespace multi_array {
27
28  //
29  // idgen_helper -
30  //   This is a helper for generating index_gen instantiations with
31  //   the right type in order to test the call to
32  //   operator[](index_gen).  Since one would normally write:
33  //      A[ indices[range1][range2] ]; // or
34  //      B[ indices[index1][index2][range1] ];
35  //   idgen helper allows us to generate the "indices" type by
36  //   creating it through recursive calls.
37  template <std::size_t N>
38  struct idgen_helper {
39
40    template <typename Array, typename IdxGen, typename Call_Type>
41    static void call(Array& a, const IdxGen& idgen, Call_Type c) {
42      typedef typename Array::index_range index_range;
43      typedef typename Array::index index;
44      idgen_helper<N-1>::call(a,idgen[c],c);
45    }
46  };
47
48  template <>
49  struct idgen_helper<0> {
50
51    template <typename Array, typename IdxGen, typename Call_Type>
52    static void call(Array& a, const IdxGen& idgen, Call_Type) {
53      typedef typename Array::index_range index_range;
54      typedef typename Array::index index;
55      a[ idgen ];
56    }
57  };
58
59
60  template <typename Array, std::size_t NumDims >
61  struct ConstMultiArrayConcept
62  {
63    void constraints() {
64    //    function_requires< CopyConstructibleConcept<Array> >();
65    function_requires< boost_concepts::ForwardTraversalConcept<iterator> >();
66    function_requires< boost_concepts::ReadableIteratorConcept<iterator> >();
67    function_requires< boost_concepts::ForwardTraversalConcept<const_iterator> >();
68    function_requires< boost_concepts::ReadableIteratorConcept<const_iterator> >();
69
70      // RG - a( CollectionArchetype) when available...
71      a[ id ];
72      // Test slicing, keeping only the first dimension, losing the rest
73      idgen_helper<NumDims-1>::call(a,idgen[range],id);
74
75      // Test slicing, keeping all dimensions.
76      idgen_helper<NumDims-1>::call(a,idgen[range],range);
77
78      st = a.size();
79      st = a.num_dimensions();
80      st = a.num_elements();
81      stp = a.shape();
82      idp = a.strides();
83      idp = a.index_bases();
84      cit = a.begin();
85      cit = a.end();
86      crit = a.rbegin();
87      crit = a.rend();
88      eltp = a.origin();
89    }
90
91    typedef typename Array::value_type value_type;
92    typedef typename Array::reference reference;
93    typedef typename Array::const_reference const_reference;
94    typedef typename Array::size_type size_type;
95    typedef typename Array::difference_type difference_type;
96    typedef typename Array::iterator iterator;
97    typedef typename Array::const_iterator const_iterator;
98    typedef typename Array::reverse_iterator reverse_iterator;
99    typedef typename Array::const_reverse_iterator const_reverse_iterator;
100    typedef typename Array::element element;
101    typedef typename Array::index index;
102    typedef typename Array::index_gen index_gen;
103    typedef typename Array::index_range index_range;
104    typedef typename Array::extent_gen extent_gen;
105    typedef typename Array::extent_range extent_range;
106
107    Array a;
108    size_type st;
109    const size_type* stp;
110    index id;
111    const index* idp;
112    const_iterator cit;
113    const_reverse_iterator crit;
114    const element* eltp;
115    index_gen idgen;
116    index_range range;
117  };
118
119
120  template <typename Array, std::size_t NumDims >
121  struct MutableMultiArrayConcept
122  {
123    void constraints() {
124      //    function_requires< CopyConstructibleConcept<Array> >();
125
126      function_requires< boost_concepts::ForwardTraversalConcept<iterator> >();
127      function_requires< boost_concepts::ReadableIteratorConcept<iterator> >();
128      function_requires< boost_concepts::WritableIteratorConcept<iterator> >();
129      function_requires< boost_concepts::ForwardTraversalConcept<const_iterator> >();
130      function_requires< boost_concepts::ReadableIteratorConcept<const_iterator> >();
131     
132      // RG - a( CollectionArchetype) when available...
133      value_type vt = a[ id ];
134
135      // Test slicing, keeping only the first dimension, losing the rest
136      idgen_helper<NumDims-1>::call(a,idgen[range],id);
137
138      // Test slicing, keeping all dimensions.
139      idgen_helper<NumDims-1>::call(a,idgen[range],range);
140
141      st = a.size();
142      st = a.num_dimensions();
143      st = a.num_elements();
144      stp = a.shape();
145      idp = a.strides();
146      idp = a.index_bases();
147      it = a.begin();
148      it = a.end();
149      rit = a.rbegin();
150      rit = a.rend();
151      eltp = a.origin();
152      const_constraints(a);
153    }
154
155    void const_constraints(const Array& a) {
156
157      //      value_type vt = a[ id ];
158
159      // Test slicing, keeping only the first dimension, losing the rest
160      idgen_helper<NumDims-1>::call(a,idgen[range],id);
161
162      // Test slicing, keeping all dimensions.
163      idgen_helper<NumDims-1>::call(a,idgen[range],range);
164
165      st = a.size();
166      st = a.num_dimensions();
167      st = a.num_elements();
168      stp = a.shape();
169      idp = a.strides();
170      idp = a.index_bases();
171      cit = a.begin();
172      cit = a.end();
173      crit = a.rbegin();
174      crit = a.rend();
175      eltp = a.origin();
176    }
177
178    typedef typename Array::value_type value_type;
179    typedef typename Array::reference reference;
180    typedef typename Array::const_reference const_reference;
181    typedef typename Array::size_type size_type;
182    typedef typename Array::difference_type difference_type;
183    typedef typename Array::iterator iterator;
184    typedef typename Array::const_iterator const_iterator;
185    typedef typename Array::reverse_iterator reverse_iterator;
186    typedef typename Array::const_reverse_iterator const_reverse_iterator;
187    typedef typename Array::element element;
188    typedef typename Array::index index;
189    typedef typename Array::index_gen index_gen;
190    typedef typename Array::index_range index_range;
191    typedef typename Array::extent_gen extent_gen;
192    typedef typename Array::extent_range extent_range;
193
194    Array a;
195    size_type st;
196    const size_type* stp;
197    index id;
198    const index* idp;
199    iterator it;
200    const_iterator cit;
201    reverse_iterator rit;
202    const_reverse_iterator crit;
203    const element* eltp;
204    index_gen idgen;
205    index_range range;
206  };
207
208
209} // namespace multi_array
210} // namespace detail
211} // namespace boost
212
213
214#endif // BOOST_MULTI_ARRAY_CONCEPT_CHECKS_RG110101_HPP
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