// Copyright 2002 The Trustees of Indiana University. // Use, modification and distribution is subject to the Boost Software // License, Version 1.0. (See accompanying file LICENSE_1_0.txt or copy at // http://www.boost.org/LICENSE_1_0.txt) // Boost.MultiArray Library // Authors: Ronald Garcia // Jeremy Siek // Andrew Lumsdaine // See http://www.boost.org/libs/multi_array for documentation. #ifndef BOOST_MULTI_ARRAY_CONCEPT_CHECKS_RG110101_HPP #define BOOST_MULTI_ARRAY_CONCEPT_CHECKS_RG110101_HPP // // concept-checks.hpp - Checks out Const MultiArray and MultiArray // concepts // #include "boost/concept_check.hpp" #include "boost/iterator/iterator_concepts.hpp" namespace boost { namespace multi_array_concepts { namespace detail { // // idgen_helper - // This is a helper for generating index_gen instantiations with // the right type in order to test the call to // operator[](index_gen). Since one would normally write: // A[ indices[range1][range2] ]; // or // B[ indices[index1][index2][range1] ]; // idgen helper allows us to generate the "indices" type by // creating it through recursive calls. template struct idgen_helper { template static void call(Array& a, const IdxGen& idgen, Call_Type c) { idgen_helper::call(a,idgen[c],c); } }; template <> struct idgen_helper<0> { template static void call(Array& a, const IdxGen& idgen, Call_Type) { a[ idgen ]; } }; } // namespace detail template struct ConstMultiArrayConcept { void constraints() { // function_requires< CopyConstructibleConcept >(); function_requires< boost_concepts::ForwardTraversalConcept >(); function_requires< boost_concepts::ReadableIteratorConcept >(); function_requires< boost_concepts::ForwardTraversalConcept >(); function_requires< boost_concepts::ReadableIteratorConcept >(); // RG - a( CollectionArchetype) when available... a[ id ]; // Test slicing, keeping only the first dimension, losing the rest detail::idgen_helper::call(a,idgen[range],id); // Test slicing, keeping all dimensions. detail::idgen_helper::call(a,idgen[range],range); st = a.size(); st = a.num_dimensions(); st = Array::dimensionality; st = a.num_elements(); stp = a.shape(); idp = a.strides(); idp = a.index_bases(); cit = a.begin(); cit = a.end(); crit = a.rbegin(); crit = a.rend(); eltp = a.origin(); } typedef typename Array::value_type value_type; typedef typename Array::reference reference; typedef typename Array::const_reference const_reference; typedef typename Array::size_type size_type; typedef typename Array::difference_type difference_type; typedef typename Array::iterator iterator; typedef typename Array::const_iterator const_iterator; typedef typename Array::reverse_iterator reverse_iterator; typedef typename Array::const_reverse_iterator const_reverse_iterator; typedef typename Array::element element; typedef typename Array::index index; typedef typename Array::index_gen index_gen; typedef typename Array::index_range index_range; typedef typename Array::extent_gen extent_gen; typedef typename Array::extent_range extent_range; Array a; size_type st; const size_type* stp; index id; const index* idp; const_iterator cit; const_reverse_iterator crit; const element* eltp; index_gen idgen; index_range range; }; template struct MutableMultiArrayConcept { void constraints() { // function_requires< CopyConstructibleConcept >(); function_requires< boost_concepts::ForwardTraversalConcept >(); function_requires< boost_concepts::ReadableIteratorConcept >(); function_requires< boost_concepts::WritableIteratorConcept >(); function_requires< boost_concepts::ForwardTraversalConcept >(); function_requires< boost_concepts::ReadableIteratorConcept >(); function_requires< boost::OutputIterator >(); // RG - a( CollectionArchetype) when available... value_type vt = a[ id ]; // Test slicing, keeping only the first dimension, losing the rest detail::idgen_helper::call(a,idgen[range],id); // Test slicing, keeping all dimensions. detail::idgen_helper::call(a,idgen[range],range); st = a.size(); st = a.num_dimensions(); st = a.num_elements(); stp = a.shape(); idp = a.strides(); idp = a.index_bases(); it = a.begin(); it = a.end(); rit = a.rbegin(); rit = a.rend(); eltp = a.origin(); const_constraints(a); } void const_constraints(const Array& a) { // value_type vt = a[ id ]; // Test slicing, keeping only the first dimension, losing the rest detail::idgen_helper::call(a,idgen[range],id); // Test slicing, keeping all dimensions. detail::idgen_helper::call(a,idgen[range],range); st = a.size(); st = a.num_dimensions(); st = a.num_elements(); stp = a.shape(); idp = a.strides(); idp = a.index_bases(); cit = a.begin(); cit = a.end(); crit = a.rbegin(); crit = a.rend(); eltp = a.origin(); } typedef typename Array::value_type value_type; typedef typename Array::reference reference; typedef typename Array::const_reference const_reference; typedef typename Array::size_type size_type; typedef typename Array::difference_type difference_type; typedef typename Array::iterator iterator; typedef typename Array::const_iterator const_iterator; typedef typename Array::reverse_iterator reverse_iterator; typedef typename Array::const_reverse_iterator const_reverse_iterator; typedef typename Array::element element; typedef typename Array::index index; typedef typename Array::index_gen index_gen; typedef typename Array::index_range index_range; typedef typename Array::extent_gen extent_gen; typedef typename Array::extent_range extent_range; Array a; size_type st; const size_type* stp; index id; const index* idp; iterator it; const_iterator cit; reverse_iterator rit; const_reverse_iterator crit; const element* eltp; index_gen idgen; index_range range; }; } // namespace multi_array namespace detail { namespace multi_array { // Old locations for these using boost::multi_array_concepts::ConstMultiArrayConcept; using boost::multi_array_concepts::MutableMultiArrayConcept; } } } // namespace boost #endif // BOOST_MULTI_ARRAY_CONCEPT_CHECKS_RG110101_HPP