📄 matrix_proxy.hpp
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template<class AE>
BOOST_UBLAS_INLINE
matrix_vector_range &operator -= (const vector_expression<AE> &ae) {
vector_assign<scalar_assign> (*this, typename vector_temporary_traits<M>::type (*this - ae));
return *this;
}
template<class AE>
BOOST_UBLAS_INLINE
matrix_vector_range &minus_assign (const vector_expression<AE> &ae) {
vector_assign<scalar_minus_assign> (*this, ae);
return *this;
}
template<class AT>
BOOST_UBLAS_INLINE
matrix_vector_range &operator *= (const AT &at) {
vector_assign_scalar<scalar_multiplies_assign> (*this, at);
return *this;
}
template<class AT>
BOOST_UBLAS_INLINE
matrix_vector_range &operator /= (const AT &at) {
vector_assign_scalar<scalar_divides_assign> (*this, at);
return *this;
}
// Closure comparison
BOOST_UBLAS_INLINE
bool same_closure (const matrix_vector_range &mvr) const {
return (*this).data_.same_closure (mvr.data_);
}
// Comparison
BOOST_UBLAS_INLINE
bool operator == (const matrix_vector_range &mvr) const {
return (*this).data_ == mvr.data_ && r1_ == mvr.r1_ && r2_ == mvr.r2_;
}
// Swapping
BOOST_UBLAS_INLINE
void swap (matrix_vector_range mvr) {
if (this != &mvr) {
BOOST_UBLAS_CHECK (size () == mvr.size (), bad_size ());
// Sparse ranges may be nonconformant now.
// std::swap_ranges (begin (), end (), mvr.begin ());
vector_swap<scalar_swap> (*this, mvr);
}
}
BOOST_UBLAS_INLINE
friend void swap (matrix_vector_range mvr1, matrix_vector_range mvr2) {
mvr1.swap (mvr2);
}
// Iterator types
private:
// Use range as an index - FIXME this fails for packed assignment
typedef typename range_type::const_iterator const_subiterator1_type;
typedef typename range_type::const_iterator subiterator1_type;
typedef typename range_type::const_iterator const_subiterator2_type;
typedef typename range_type::const_iterator subiterator2_type;
public:
class const_iterator;
class iterator;
// Element lookup
BOOST_UBLAS_INLINE
const_iterator find (size_type i) const {
return const_iterator (*this, r1_.begin () + i, r2_.begin () + i);
}
BOOST_UBLAS_INLINE
iterator find (size_type i) {
return iterator (*this, r1_.begin () + i, r2_.begin () + i);
}
class const_iterator:
public container_const_reference<matrix_vector_range>,
public iterator_base_traits<typename M::const_iterator1::iterator_category>::template
iterator_base<const_iterator, value_type>::type {
public:
// FIXME Iterator can never be different code was:
// typename iterator_restrict_traits<typename M::const_iterator1::iterator_category, typename M::const_iterator2::iterator_category>::iterator_category>
BOOST_STATIC_ASSERT ((boost::is_same<typename M::const_iterator1::iterator_category, typename M::const_iterator2::iterator_category>::value ));
typedef typename matrix_vector_range::value_type value_type;
typedef typename matrix_vector_range::difference_type difference_type;
typedef typename matrix_vector_range::const_reference reference;
typedef const typename matrix_vector_range::value_type *pointer;
// Construction and destruction
BOOST_UBLAS_INLINE
const_iterator ():
container_const_reference<self_type> (), it1_ (), it2_ () {}
BOOST_UBLAS_INLINE
const_iterator (const self_type &mvr, const const_subiterator1_type &it1, const const_subiterator2_type &it2):
container_const_reference<self_type> (mvr), it1_ (it1), it2_ (it2) {}
BOOST_UBLAS_INLINE
const_iterator (const iterator &it):
container_const_reference<self_type> (it ()), it1_ (it.it1_), it2_ (it.it2_) {}
// Arithmetic
BOOST_UBLAS_INLINE
const_iterator &operator ++ () {
++ it1_;
++ it2_;
return *this;
}
BOOST_UBLAS_INLINE
const_iterator &operator -- () {
-- it1_;
-- it2_;
return *this;
}
BOOST_UBLAS_INLINE
const_iterator &operator += (difference_type n) {
it1_ += n;
it2_ += n;
return *this;
}
BOOST_UBLAS_INLINE
const_iterator &operator -= (difference_type n) {
it1_ -= n;
it2_ -= n;
return *this;
}
BOOST_UBLAS_INLINE
difference_type operator - (const const_iterator &it) const {
BOOST_UBLAS_CHECK ((*this) ().same_closure (it ()), external_logic ());
return BOOST_UBLAS_SAME (it1_ - it.it1_, it2_ - it.it2_);
}
// Dereference
BOOST_UBLAS_INLINE
const_reference operator * () const {
// FIXME replace find with at_element
return (*this) ().data_ (*it1_, *it2_);
}
// Index
BOOST_UBLAS_INLINE
size_type index () const {
return BOOST_UBLAS_SAME (it1_.index (), it2_.index ());
}
// Assignment
BOOST_UBLAS_INLINE
const_iterator &operator = (const const_iterator &it) {
container_const_reference<self_type>::assign (&it ());
it1_ = it.it1_;
it2_ = it.it2_;
return *this;
}
// Comparison
BOOST_UBLAS_INLINE
bool operator == (const const_iterator &it) const {
BOOST_UBLAS_CHECK ((*this) ().same_closure (it ()), external_logic ());
return it1_ == it.it1_ && it2_ == it.it2_;
}
BOOST_UBLAS_INLINE
bool operator < (const const_iterator &it) const {
BOOST_UBLAS_CHECK ((*this) ().same_closure (it ()), external_logic ());
return it1_ < it.it1_ && it2_ < it.it2_;
}
private:
const_subiterator1_type it1_;
const_subiterator2_type it2_;
};
BOOST_UBLAS_INLINE
const_iterator begin () const {
return find (0);
}
BOOST_UBLAS_INLINE
const_iterator end () const {
return find (size ());
}
class iterator:
public container_reference<matrix_vector_range>,
public iterator_base_traits<typename M::iterator1::iterator_category>::template
iterator_base<iterator, value_type>::type {
public:
// FIXME Iterator can never be different code was:
// typename iterator_restrict_traits<typename M::const_iterator1::iterator_category, typename M::const_iterator2::iterator_category>::iterator_category>
BOOST_STATIC_ASSERT ((boost::is_same<typename M::const_iterator1::iterator_category, typename M::const_iterator2::iterator_category>::value ));
typedef typename matrix_vector_range::value_type value_type;
typedef typename matrix_vector_range::difference_type difference_type;
typedef typename matrix_vector_range::reference reference;
typedef typename matrix_vector_range::value_type *pointer;
// Construction and destruction
BOOST_UBLAS_INLINE
iterator ():
container_reference<self_type> (), it1_ (), it2_ () {}
BOOST_UBLAS_INLINE
iterator (self_type &mvr, const subiterator1_type &it1, const subiterator2_type &it2):
container_reference<self_type> (mvr), it1_ (it1), it2_ (it2) {}
// Arithmetic
BOOST_UBLAS_INLINE
iterator &operator ++ () {
++ it1_;
++ it2_;
return *this;
}
BOOST_UBLAS_INLINE
iterator &operator -- () {
-- it1_;
-- it2_;
return *this;
}
BOOST_UBLAS_INLINE
iterator &operator += (difference_type n) {
it1_ += n;
it2_ += n;
return *this;
}
BOOST_UBLAS_INLINE
iterator &operator -= (difference_type n) {
it1_ -= n;
it2_ -= n;
return *this;
}
BOOST_UBLAS_INLINE
difference_type operator - (const iterator &it) const {
BOOST_UBLAS_CHECK ((*this) ().same_closure (it ()), external_logic ());
return BOOST_UBLAS_SAME (it1_ - it.it1_, it2_ - it.it2_);
}
// Dereference
BOOST_UBLAS_INLINE
reference operator * () const {
// FIXME replace find with at_element
return (*this) ().data_ (*it1_, *it2_);
}
// Index
BOOST_UBLAS_INLINE
size_type index () const {
return BOOST_UBLAS_SAME (it1_.index (), it2_.index ());
}
// Assignment
BOOST_UBLAS_INLINE
iterator &operator = (const iterator &it) {
container_reference<self_type>::assign (&it ());
it1_ = it.it1_;
it2_ = it.it2_;
return *this;
}
// Comparison
BOOST_UBLAS_INLINE
bool operator == (const iterator &it) const {
BOOST_UBLAS_CHECK ((*this) ().same_closure (it ()), external_logic ());
return it1_ == it.it1_ && it2_ == it.it2_;
}
BOOST_UBLAS_INLINE
bool operator < (const iterator &it) const {
BOOST_UBLAS_CHECK ((*this) ().same_closure (it ()), external_logic ());
return it1_ < it.it1_ && it2_ < it.it2_;
}
private:
subiterator1_type it1_;
subiterator2_type it2_;
friend class const_iterator;
};
BOOST_UBLAS_INLINE
iterator begin () {
return find (0);
}
BOOST_UBLAS_INLINE
iterator end () {
return find (size ());
}
// Reverse iterator
typedef reverse_iterator_base<const_iterator> const_reverse_iterator;
typedef reverse_iterator_base<iterator> reverse_iterator;
BOOST_UBLAS_INLINE
const_reverse_iterator rbegin () const {
return const_reverse_iterator (end ());
}
BOOST_UBLAS_INLINE
const_reverse_iterator rend () const {
return const_reverse_iterator (begin ());
}
BOOST_UBLAS_INLINE
reverse_iterator rbegin () {
return reverse_iterator (end ());
}
BOOST_UBLAS_INLINE
reverse_iterator rend () {
return reverse_iterator (begin ());
}
private:
matrix_closure_type data_;
range_type r1_;
range_type r2_;
};
// Specialize temporary
template <class M>
struct vector_temporary_traits< matrix_vector_range<M> >
: vector_temporary_traits< M > {} ;
// Matrix based vector slice class
template<class M>
class matrix_vector_slice:
public vector_expression<matrix_vector_slice<M> > {
typedef matrix_vector_slice<M> self_type;
public:
#ifdef BOOST_UBLAS_ENABLE_PROXY_SHORTCUTS
using vector_expression<self_type>::operator ();
#endif
typedef M matrix_type;
typedef typename M::size_type size_type;
typedef typename M::difference_type difference_type;
typedef typename M::value_type value_type;
typedef typename M::const_reference const_reference;
typedef typename boost::mpl::if_<boost::is_const<M>,
typename M::const_reference,
typename M::reference>::type reference;
typedef typename boost::mpl::if_<boost::is_const<M>,
typename M::const_closure_type,
typename M::closure_type>::type matrix_closure_type;
typedef basic_range<size_type, difference_type> range_type;
typedef basic_slice<size_type, difference_type> slice_type;
typedef const self_type const_closure_type;
typedef self_type closure_type;
typedef typename storage_restrict_traits<typename M::storage_category,
dense_proxy_tag>::storage_category storage_category;
// Construction and destruction
BOOST_UBLAS_INLINE
matrix_vector_slice (matrix_type &data, const slice_type &s1, const slice_type &s2):
data_ (data), s1_ (s1.preprocess (data.size1 ())), s2_ (s2.preprocess (data.size2 ())) {
// Early checking of preconditions here.
// BOOST_UBLAS_CHECK (s1_.start () <= data_.size1 () &&
// s1_.start () + s1_.stride () * (s1_.size () - (s1_.size () > 0)) <= data_.size1 (), bad_index ());
// BOOST_UBLAS_CHECK (s2_.start () <= data_.size2 () &&
// s2_.start () + s2_.stride () * (s2_.size () - (s2_.size () > 0)) <= data_.size2 (), bad_index ());
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