📄 matrix_expression.hpp
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BOOST_UBLAS_INLINE size_type size2 () const { return e_.size2 (); }#ifndef BOOST_UBLAS_NESTED_CLASS_DR45 private:#endif // Expression accessors BOOST_UBLAS_INLINE const expression_closure_type &expression () const { return e_; } public: // Element access BOOST_UBLAS_INLINE const_reference operator () (size_type i, size_type j) const { return functor_type::apply (e_ (i, j)); } // Closure comparison BOOST_UBLAS_INLINE bool same_closure (const matrix_unary1 &mu1) const { return (*this).expression ().same_closure (mu1.expression ()); } // Iterator types private: typedef typename E::const_iterator1 const_iterator1_type; typedef typename E::const_iterator2 const_iterator2_type; public:#ifdef BOOST_UBLAS_USE_INDEXED_ITERATOR typedef indexed_const_iterator1<const_closure_type, typename const_iterator1_type::iterator_category> const_iterator1; typedef const_iterator1 iterator1; typedef indexed_const_iterator2<const_closure_type, typename const_iterator2_type::iterator_category> const_iterator2; typedef const_iterator2 iterator2;#else class const_iterator1; typedef const_iterator1 iterator1; class const_iterator2; typedef const_iterator2 iterator2;#endif#ifdef BOOST_MSVC_STD_ITERATOR typedef reverse_iterator_base1<const_iterator1, value_type, const_reference> const_reverse_iterator1; typedef reverse_iterator_base2<const_iterator2, value_type, const_reference> const_reverse_iterator2;#else typedef reverse_iterator_base1<const_iterator1> const_reverse_iterator1; typedef reverse_iterator_base2<const_iterator2> const_reverse_iterator2;#endif // Element lookup BOOST_UBLAS_INLINE const_iterator1 find1 (int rank, size_type i, size_type j) const { const_iterator1_type it1 (e_.find1 (rank, i, j));#ifdef BOOST_UBLAS_USE_INDEXED_ITERATOR return const_iterator1 (*this, it1.index1 (), it1.index2 ());#else return const_iterator1 (*this, it1);#endif } BOOST_UBLAS_INLINE const_iterator2 find2 (int rank, size_type i, size_type j) const { const_iterator2_type it2 (e_.find2 (rank, i, j));#ifdef BOOST_UBLAS_USE_INDEXED_ITERATOR return const_iterator2 (*this, it2.index1 (), it2.index2 ());#else return const_iterator2 (*this, it2);#endif } // Iterators enhance the iterators of the referenced expression // with the unary functor.#ifndef BOOST_UBLAS_USE_INDEXED_ITERATOR class const_iterator1: public container_const_reference<matrix_unary1>,#ifndef BOOST_UBLAS_NO_ITERATOR_BASE_TRAITS public iterator_base_traits<typename E::const_iterator1::iterator_category>::template iterator_base<const_iterator1, value_type>::type {#else public random_access_iterator_base<typename E::const_iterator1::iterator_category, const_iterator1, value_type> {#endif public: typedef typename E::const_iterator1::iterator_category iterator_category;#ifdef BOOST_MSVC_STD_ITERATOR typedef const_reference reference;#else typedef typename matrix_unary1::difference_type difference_type; typedef typename matrix_unary1::value_type value_type; typedef typename matrix_unary1::const_reference reference; typedef typename matrix_unary1::const_pointer pointer;#endif typedef const_iterator2 dual_iterator_type; typedef const_reverse_iterator2 dual_reverse_iterator_type; // Construction and destruction BOOST_UBLAS_INLINE const_iterator1 (): container_const_reference<self_type> (), it_ () {} BOOST_UBLAS_INLINE const_iterator1 (const self_type &mu, const const_iterator1_type &it): container_const_reference<self_type> (mu), it_ (it) {} // Arithmetic BOOST_UBLAS_INLINE const_iterator1 &operator ++ () { ++ it_; return *this; } BOOST_UBLAS_INLINE const_iterator1 &operator -- () { -- it_; return *this; } BOOST_UBLAS_INLINE const_iterator1 &operator += (difference_type n) { it_ += n; return *this; } BOOST_UBLAS_INLINE const_iterator1 &operator -= (difference_type n) { it_ -= n; return *this; } BOOST_UBLAS_INLINE difference_type operator - (const const_iterator1 &it) const { BOOST_UBLAS_CHECK ((*this) ().same_closure (it ()), external_logic ()); return it_ - it.it_; } // Dereference BOOST_UBLAS_INLINE const_reference operator * () const { return functor_type::apply (*it_); }#ifndef BOOST_UBLAS_NO_NESTED_CLASS_RELATION BOOST_UBLAS_INLINE#ifdef BOOST_UBLAS_MSVC_NESTED_CLASS_RELATION typename self_type::#endif const_iterator2 begin () const { return (*this) ().find2 (1, index1 (), 0); } BOOST_UBLAS_INLINE#ifdef BOOST_UBLAS_MSVC_NESTED_CLASS_RELATION typename self_type::#endif const_iterator2 end () const { return (*this) ().find2 (1, index1 (), (*this) ().size2 ()); } BOOST_UBLAS_INLINE#ifdef BOOST_UBLAS_MSVC_NESTED_CLASS_RELATION typename self_type::#endif const_reverse_iterator2 rbegin () const { return const_reverse_iterator2 (end ()); } BOOST_UBLAS_INLINE#ifdef BOOST_UBLAS_MSVC_NESTED_CLASS_RELATION typename self_type::#endif const_reverse_iterator2 rend () const { return const_reverse_iterator2 (begin ()); }#endif // Indices BOOST_UBLAS_INLINE size_type index1 () const { return it_.index1 (); } BOOST_UBLAS_INLINE size_type index2 () const { return it_.index2 (); } // Assignment BOOST_UBLAS_INLINE const_iterator1 &operator = (const const_iterator1 &it) { container_const_reference<self_type>::assign (&it ()); it_ = it.it_; return *this; } // Comparison BOOST_UBLAS_INLINE bool operator == (const const_iterator1 &it) const { BOOST_UBLAS_CHECK ((*this) ().same_closure (it ()), external_logic ()); return it_ == it.it_; } BOOST_UBLAS_INLINE bool operator < (const const_iterator1 &it) const { BOOST_UBLAS_CHECK ((*this) ().same_closure (it ()), external_logic ()); return it_ < it.it_; } private: const_iterator1_type it_; };#endif BOOST_UBLAS_INLINE const_iterator1 begin1 () const { return find1 (0, 0, 0); } BOOST_UBLAS_INLINE const_iterator1 end1 () const { return find1 (0, size1 (), 0); }#ifndef BOOST_UBLAS_USE_INDEXED_ITERATOR class const_iterator2: public container_const_reference<matrix_unary1>,#ifndef BOOST_UBLAS_NO_ITERATOR_BASE_TRAITS public iterator_base_traits<typename E::const_iterator2::iterator_category>::template iterator_base<const_iterator2, value_type>::type {#else public random_access_iterator_base<typename E::const_iterator2::iterator_category, const_iterator2, value_type> {#endif public: typedef typename E::const_iterator2::iterator_category iterator_category;#ifdef BOOST_MSVC_STD_ITERATOR typedef const_reference reference;#else typedef typename matrix_unary1::difference_type difference_type; typedef typename matrix_unary1::value_type value_type; typedef typename matrix_unary1::const_reference reference; typedef typename matrix_unary1::const_pointer pointer;#endif typedef const_iterator1 dual_iterator_type; typedef const_reverse_iterator1 dual_reverse_iterator_type; // Construction and destruction BOOST_UBLAS_INLINE const_iterator2 (): container_const_reference<self_type> (), it_ () {} BOOST_UBLAS_INLINE const_iterator2 (const self_type &mu, const const_iterator2_type &it): container_const_reference<self_type> (mu), it_ (it) {} // Arithmetic BOOST_UBLAS_INLINE const_iterator2 &operator ++ () { ++ it_; return *this; } BOOST_UBLAS_INLINE const_iterator2 &operator -- () { -- it_; return *this; } BOOST_UBLAS_INLINE const_iterator2 &operator += (difference_type n) { it_ += n; return *this; } BOOST_UBLAS_INLINE const_iterator2 &operator -= (difference_type n) { it_ -= n; return *this; } BOOST_UBLAS_INLINE difference_type operator - (const const_iterator2 &it) const { BOOST_UBLAS_CHECK ((*this) ().same_closure (it ()), external_logic ()); return it_ - it.it_; } // Dereference BOOST_UBLAS_INLINE const_reference operator * () const { return functor_type::apply (*it_); }#ifndef BOOST_UBLAS_NO_NESTED_CLASS_RELATION BOOST_UBLAS_INLINE#ifdef BOOST_UBLAS_MSVC_NESTED_CLASS_RELATION typename self_type::#endif const_iterator1 begin () const { return (*this) ().find1 (1, 0, index2 ()); } BOOST_UBLAS_INLINE#ifdef BOOST_UBLAS_MSVC_NESTED_CLASS_RELATION typename self_type::#endif const_iterator1 end () const { return (*this) ().find1 (1, (*this) ().size1 (), index2 ()); } BOOST_UBLAS_INLINE#ifdef BOOST_UBLAS_MSVC_NESTED_CLASS_RELATION typename self_type::#endif const_reverse_iterator1 rbegin () const { return const_reverse_iterator1 (end ()); } BOOST_UBLAS_INLINE#ifdef BOOST_UBLAS_MSVC_NESTED_CLASS_RELATION typename self_type::#endif const_reverse_iterator1 rend () const { return const_reverse_iterator1 (begin ()); }#endif // Indices BOOST_UBLAS_INLINE size_type index1 () const { return it_.index1 (); } BOOST_UBLAS_INLINE size_type index2 () const { return it_.index2 (); } // Assignment BOOST_UBLAS_INLINE const_iterator2 &operator = (const const_iterator2 &it) { container_const_reference<self_type>::assign (&it ()); it_ = it.it_; return *this; } // Comparison BOOST_UBLAS_INLINE bool operator == (const const_iterator2 &it) const { BOOST_UBLAS_CHECK ((*this) ().same_closure (it ()), external_logic ()); return it_ == it.it_; } BOOST_UBLAS_INLINE bool operator < (const const_iterator2 &it) const { BOOST_UBLAS_CHECK ((*this) ().same_closure (it ()), external_logic ()); return it_ < it.it_; } private: const_iterator2_type it_; };#endif BOOST_UBLAS_INLINE const_iterator2 begin2 () const { return find2 (0, 0, 0); } BOOST_UBLAS_INLINE const_iterator2 end2 () const { return find2 (0, 0, size2 ()); }⌨️ 快捷键说明
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