📄 banded.hpp
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public: typedef packed_random_access_iterator_tag iterator_category;#ifdef BOOST_MSVC_STD_ITERATOR typedef const_reference reference;#else typedef typename banded_matrix::value_type value_type; typedef typename banded_matrix::difference_type difference_type; typedef typename banded_matrix::const_reference reference; typedef const typename banded_matrix::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> (), it1_ (), it2_ () {} BOOST_UBLAS_INLINE const_iterator2 (const self_type &m, size_type it1, size_type it2): container_const_reference<self_type> (m), it1_ (it1), it2_ (it2) {} BOOST_UBLAS_INLINE const_iterator2 (const iterator2 &it): container_const_reference<self_type> (it ()), it1_ (it.it1_), it2_ (it.it2_) {} // Arithmetic BOOST_UBLAS_INLINE const_iterator2 &operator ++ () { ++ it2_; return *this; } BOOST_UBLAS_INLINE const_iterator2 &operator -- () { -- it2_; return *this; } BOOST_UBLAS_INLINE const_iterator2 &operator += (difference_type n) { it2_ += n; return *this; } BOOST_UBLAS_INLINE const_iterator2 &operator -= (difference_type n) { it2_ -= n; return *this; } BOOST_UBLAS_INLINE difference_type operator - (const const_iterator2 &it) const { BOOST_UBLAS_CHECK (&(*this) () == &it (), external_logic ()); BOOST_UBLAS_CHECK (it1_ == it.it1_, external_logic ()); return it2_ - it.it2_; } // Dereference BOOST_UBLAS_INLINE const_reference operator * () const { return (*this) () (it1_, it2_); }#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, it2_); } BOOST_UBLAS_INLINE#ifdef BOOST_UBLAS_MSVC_NESTED_CLASS_RELATION typename self_type::#endif const_iterator1 end () const { return (*this) ().find1 (1, (*this) ().size1 (), it2_); } 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 it1_; } BOOST_UBLAS_INLINE size_type index2 () const { return it2_; } // Assignment BOOST_UBLAS_INLINE const_iterator2 &operator = (const const_iterator2 &it) { container_const_reference<self_type>::assign (&it ()); it1_ = it.it1_; it2_ = it.it2_; return *this; } // Comparison BOOST_UBLAS_INLINE bool operator == (const const_iterator2 &it) const { BOOST_UBLAS_CHECK (&(*this) () == &it (), external_logic ()); BOOST_UBLAS_CHECK (it1_ == it.it1_, external_logic ()); return it2_ == it.it2_; } BOOST_UBLAS_INLINE bool operator < (const const_iterator2 &it) const { BOOST_UBLAS_CHECK (&(*this) () == &it (), external_logic ()); BOOST_UBLAS_CHECK (it1_ == it.it1_, external_logic ()); return it2_ < it.it2_; } private: size_type it1_; size_type it2_; };#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_); }#ifndef BOOST_UBLAS_USE_INDEXED_ITERATOR class iterator2: public container_reference<banded_matrix>, public random_access_iterator_base<packed_random_access_iterator_tag, iterator2, value_type> { public: typedef packed_random_access_iterator_tag iterator_category;#ifndef BOOST_MSVC_STD_ITERATOR typedef typename banded_matrix::value_type value_type; typedef typename banded_matrix::difference_type difference_type; typedef typename banded_matrix::reference reference; typedef typename banded_matrix::pointer pointer;#endif typedef iterator1 dual_iterator_type; typedef reverse_iterator1 dual_reverse_iterator_type; // Construction and destruction BOOST_UBLAS_INLINE iterator2 (): container_reference<self_type> (), it1_ (), it2_ () {} BOOST_UBLAS_INLINE iterator2 (self_type &m, size_type it1, size_type it2): container_reference<self_type> (m), it1_ (it1), it2_ (it2) {} // Arithmetic BOOST_UBLAS_INLINE iterator2 &operator ++ () { ++ it2_; return *this; } BOOST_UBLAS_INLINE iterator2 &operator -- () { -- it2_; return *this; } BOOST_UBLAS_INLINE iterator2 &operator += (difference_type n) { it2_ += n; return *this; } BOOST_UBLAS_INLINE iterator2 &operator -= (difference_type n) { it2_ -= n; return *this; } BOOST_UBLAS_INLINE difference_type operator - (const iterator2 &it) const { BOOST_UBLAS_CHECK (&(*this) () == &it (), external_logic ()); BOOST_UBLAS_CHECK (it1_ == it.it1_, external_logic ()); return it2_ - it.it2_; } // Dereference BOOST_UBLAS_INLINE reference operator * () const { return (*this) () (it1_, it2_); }#ifndef BOOST_UBLAS_NO_NESTED_CLASS_RELATION BOOST_UBLAS_INLINE#ifdef BOOST_UBLAS_MSVC_NESTED_CLASS_RELATION typename self_type::#endif iterator1 begin () const { return (*this) ().find1 (1, 0, it2_); } BOOST_UBLAS_INLINE#ifdef BOOST_UBLAS_MSVC_NESTED_CLASS_RELATION typename self_type::#endif iterator1 end () const { return (*this) ().find1 (1, (*this) ().size1 (), it2_); } BOOST_UBLAS_INLINE#ifdef BOOST_UBLAS_MSVC_NESTED_CLASS_RELATION typename self_type::#endif reverse_iterator1 rbegin () const { return reverse_iterator1 (end ()); } BOOST_UBLAS_INLINE#ifdef BOOST_UBLAS_MSVC_NESTED_CLASS_RELATION typename self_type::#endif reverse_iterator1 rend () const { return reverse_iterator1 (begin ()); }#endif // Indices BOOST_UBLAS_INLINE size_type index1 () const { return it1_; } BOOST_UBLAS_INLINE size_type index2 () const { return it2_; } // Assignment BOOST_UBLAS_INLINE iterator2 &operator = (const iterator2 &it) { container_reference<self_type>::assign (&it ()); it1_ = it.it1_; it2_ = it.it2_; return *this; } // Comparison BOOST_UBLAS_INLINE bool operator == (const iterator2 &it) const { BOOST_UBLAS_CHECK (&(*this) () == &it (), external_logic ()); BOOST_UBLAS_CHECK (it1_ == it.it1_, external_logic ()); return it2_ == it.it2_; } BOOST_UBLAS_INLINE bool operator < (const iterator2 &it) const { BOOST_UBLAS_CHECK (&(*this) () == &it (), external_logic ()); BOOST_UBLAS_CHECK (it1_ == it.it1_, external_logic ()); return it2_ < it.it2_; } private: size_type it1_; size_type it2_; friend class const_iterator2; };#endif BOOST_UBLAS_INLINE iterator2 begin2 () { return find2 (0, 0, 0); } BOOST_UBLAS_INLINE iterator2 end2 () { return find2 (0, 0, size2_); } // Reverse iterators BOOST_UBLAS_INLINE const_reverse_iterator1 rbegin1 () const { return const_reverse_iterator1 (end1 ()); } BOOST_UBLAS_INLINE const_reverse_iterator1 rend1 () const { return const_reverse_iterator1 (begin1 ()); } BOOST_UBLAS_INLINE reverse_iterator1 rbegin1 () { return reverse_iterator1 (end1 ()); } BOOST_UBLAS_INLINE reverse_iterator1 rend1 () { return reverse_iterator1 (begin1 ()); } BOOST_UBLAS_INLINE const_reverse_iterator2 rbegin2 () const { return const_reverse_iterator2 (end2 ()); } BOOST_UBLAS_INLINE const_reverse_iterator2 rend2 () const { return const_reverse_iterator2 (begin2 ()); } BOOST_UBLAS_INLINE reverse_iterator2 rbegin2 () { return reverse_iterator2 (end2 ()); } BOOST_UBLAS_INLINE reverse_iterator2 rend2 () { return reverse_iterator2 (begin2 ()); } private: size_type size1_; size_type size2_; size_type lower_; size_type upper_; array_type data_; typedef const value_type const_value_type; static const_value_type zero_; }; template<class T, class F, class A> typename banded_matrix<T, F, A>::const_value_type banded_matrix<T, F, A>::zero_#ifdef BOOST_UBLAS_STATIC_OLD_INIT = BOOST_UBLAS_TYPENAME banded_matrix<T>::const_value_type#endif (0); // Diagonal matrix class template<class T, class F, class A> class diagonal_matrix: public banded_matrix<T, F, A> { public: typedef typename A::size_type size_type; typedef banded_matrix<T, F, A> matrix_type; // Construction and destruction⌨️ 快捷键说明
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