/*
*
* Copyright (c) 1994
* Hewlett-Packard Company
*
* Copyright (c) 1996,1997
* Silicon Graphics Computer Systems, Inc.
*
* Copyright (c) 1997
* Moscow Center for SPARC Technology
*
* Copyright (c) 1999
* Boris Fomitchev
*
* This material is provided "as is", with absolutely no warranty expressed
* or implied. Any use is at your own risk.
*
* Permission to use or copy this software for any purpose is hereby granted
* without fee, provided the above notices are retained on all copies.
* Permission to modify the code and to distribute modified code is granted,
* provided the above notices are retained, and a notice that the code was
* modified is included with the above copyright notice.
*
*/
/* NOTE: This is an internal header file, included by other STL headers.
* You should not attempt to use it directly.
*/
#ifndef _STLP_INTERNAL_BVECTOR_H
#define _STLP_INTERNAL_BVECTOR_H
#ifndef _STLP_INTERNAL_VECTOR_H
# include <stl/_vector.h>
#endif
#define _STLP_WORD_BIT (int(CHAR_BIT*sizeof(unsigned int)))
_STLP_BEGIN_NAMESPACE
_STLP_MOVE_TO_PRIV_NAMESPACE
struct _Bit_reference {
unsigned int* _M_p;
unsigned int _M_mask;
_Bit_reference(unsigned int* __x, unsigned int __y)
: _M_p(__x), _M_mask(__y) {}
public:
_Bit_reference() : _M_p(0), _M_mask(0) {}
operator bool() const {
return !(!(*_M_p & _M_mask));
}
_Bit_reference& operator = (bool __x) {
if (__x) *_M_p |= _M_mask;
else *_M_p &= ~_M_mask;
return *this;
}
_Bit_reference& operator = (const _Bit_reference& __x) {
return *this = bool(__x);
}
bool operator == (const _Bit_reference& __x) const {
return bool(*this) == bool(__x);
}
bool operator < (const _Bit_reference& __x) const {
return !bool(*this) && bool(__x);
}
_Bit_reference& operator |= (bool __x) {
if (__x)
*_M_p |= _M_mask;
return *this;
}
_Bit_reference& operator &= (bool __x) {
if (!__x)
*_M_p &= ~_M_mask;
return *this;
}
void flip() { *_M_p ^= _M_mask; }
};
_STLP_MOVE_TO_STD_NAMESPACE
inline void swap(_STLP_PRIV _Bit_reference& __x, _STLP_PRIV _Bit_reference& __y) {
bool __tmp = (bool)__x;
__x = __y;
__y = __tmp;
}
// Might not be very useful but costs nothing!
_STLP_TEMPLATE_NULL
struct __type_traits<_STLP_PRIV _Bit_reference> {
typedef __false_type has_trivial_default_constructor;
typedef __true_type has_trivial_copy_constructor;
typedef __false_type has_trivial_assignment_operator;
typedef __true_type has_trivial_destructor;
typedef __false_type is_POD_type;
};
_STLP_MOVE_TO_PRIV_NAMESPACE
struct _Bit_iterator_base {
typedef ptrdiff_t difference_type;
unsigned int* _M_p;
unsigned int _M_offset;
void _M_bump_up() {
if (_M_offset++ == _STLP_WORD_BIT - 1) {
_M_offset = 0;
++_M_p;
}
}
void _M_bump_down() {
if (_M_offset-- == 0) {
_M_offset = _STLP_WORD_BIT - 1;
--_M_p;
}
}
_Bit_iterator_base() : _M_p(0), _M_offset(0) {}
_Bit_iterator_base(unsigned int* __x, unsigned int __y) : _M_p(__x), _M_offset(__y) {}
// see comment in doc/README.evc4 and doc/README.evc8
#if defined(_MSC_VER) && _MSC_VER<=1401 && defined(MIPS) && defined(NDEBUG)
_Bit_iterator_base( const _Bit_iterator_base& __x) : _M_p(__x._M_p), _M_offset(__x._M_offset) {}
#endif
// _Bit_iterator_base& operator = ( const _Bit_iterator_base& __x) { _M_p = __x._M_p ; _M_offset = __x._M_offset ; return *this; }
void _M_advance (difference_type __i) {
difference_type __n = __i + _M_offset;
_M_p += __n / _STLP_WORD_BIT;
__n = __n % _STLP_WORD_BIT;
if (__n < 0) {
_M_offset = (unsigned int) __n + _STLP_WORD_BIT;
--_M_p;
} else
_M_offset = (unsigned int) __n;
}
difference_type _M_subtract(const _Bit_iterator_base& __x) const {
return _STLP_WORD_BIT * (_M_p - __x._M_p) + _M_offset - __x._M_offset;
}
};
inline bool _STLP_CALL operator==(const _Bit_iterator_base& __x, const _Bit_iterator_base& __y) {
return __y._M_p == __x._M_p && __y._M_offset == __x._M_offset;
}
inline bool _STLP_CALL operator!=(const _Bit_iterator_base& __x, const _Bit_iterator_base& __y) {
return __y._M_p != __x._M_p || __y._M_offset != __x._M_offset;
}
inline bool _STLP_CALL operator<(const _Bit_iterator_base& __x, const _Bit_iterator_base& __y) {
return __x._M_p < __y._M_p || (__x._M_p == __y._M_p && __x._M_offset < __y._M_offset);
}
inline bool _STLP_CALL operator>(const _Bit_iterator_base& __x, const _Bit_iterator_base& __y) {
return operator <(__y , __x);
}
inline bool _STLP_CALL operator<=(const _Bit_iterator_base& __x, const _Bit_iterator_base& __y) {
return !(__y < __x);
}
inline bool _STLP_CALL operator>=(const _Bit_iterator_base& __x, const _Bit_iterator_base& __y) {
return !(__x < __y);
}
template <class _Ref, class _Ptr>
struct _Bit_iter : public _Bit_iterator_base {
typedef _Ref reference;
typedef _Ptr pointer;
typedef _Bit_iter<_Ref, _Ptr> _Self;
typedef random_access_iterator_tag iterator_category;
typedef bool value_type;
typedef ptrdiff_t difference_type;
typedef size_t size_type;
_Bit_iter(unsigned int* __x, unsigned int __y) : _Bit_iterator_base(__x, __y) {}
_Bit_iter() {}
_Bit_iter(const _Bit_iter<_Bit_reference, _Bit_reference*>& __x):
_Bit_iterator_base((const _Bit_iterator_base&)__x) {}
// _Self& operator = (const _Bit_iter<_Bit_reference, _Bit_reference*>& __x)
// { (_Bit_iterator_base&)*this = (const _Bit_iterator_base&)__x; return *this; }
reference operator*() const {
return _Bit_reference(_M_p, 1UL << _M_offset);
}
_Self& operator++() {
_M_bump_up();
return *this;
}
_Self operator++(int) {
_Self __tmp = *this;
_M_bump_up();
return __tmp;
}
_Self& operator--() {
_M_bump_down();
return *this;
}
_Self operator--(int) {
_Self __tmp = *this;
_M_bump_down();
return __tmp;
}
_Self& operator+=(difference_type __i) {
_M_advance(__i);
return *this;
}
_Self& operator-=(difference_type __i) {
*this += -__i;
return *this;
}
_Self operator+(difference_type __i) const {
_Self __tmp = *this;
return __tmp += __i;
}
_Self operator-(difference_type __i) const {
_Self __tmp = *this;
return __tmp -= __i;
}
difference_type operator-(const _Self& __x) const {
return _M_subtract(__x);
}
reference operator[](difference_type __i) { return *(*this + __i); }
};
template <class _Ref, class _Ptr>
inline _Bit_iter<_Ref,_Ptr> _STLP_CALL
operator+(ptrdiff_t __n, const _Bit_iter<_Ref, _Ptr>& __x) {
return __x + __n;
}
_STLP_MOVE_TO_STD_NAMESPACE
#if defined (_STLP_CLASS_PARTIAL_SPECIALIZATION)
template <class _Ref, class _Ptr>
struct __type_traits< _STLP_PRIV _Bit_iter<_Ref, _Ptr> > {
typedef __false_type has_trivial_default_constructor;
typedef __true_type has_trivial_copy_constructor;
typedef __true_type has_trivial_assignment_operator;
typedef __true_type has_trivial_destructor;
typedef __false_type is_POD_type;
};
#endif /* _STLP_CLASS_PARTIAL_SPECIALIZATION */
#if defined (_STLP_USE_OLD_HP_ITERATOR_QUERIES)
inline random_access_iterator_tag iterator_category(const _STLP_PRIV _Bit_iterator_base&)
{ return random_access_iterator_tag(); }
inline ptrdiff_t* distance_type(const _STLP_PRIV _Bit_iterator_base&)
{ return (ptrdiff_t*)0; }
inline bool* value_type(const _STLP_PRIV _Bit_iter<_STLP_PRIV _Bit_reference, _STLP_PRIV _Bit_reference*>&)
{ return (bool*)0; }
inline bool* value_type(const _STLP_PRIV _Bit_iter<bool, const bool*>&)
{ return (bool*)0; }
#endif
_STLP_MOVE_TO_PRIV_NAMESPACE
typedef _Bit_iter<bool, const bool*> _Bit_const_iterator;
typedef _Bit_iter<_Bit_reference, _Bit_reference*> _Bit_iterator;
// Bit-vector base class, which encapsulates the difference between
// old SGI-style allocators and standard-conforming allocators.
template <class _Alloc>
class _Bvector_base {
typedef _Bvector_base<_Alloc> _Self;
public:
_STLP_FORCE_ALLOCATORS(bool, _Alloc)
typedef typename _Alloc_traits<bool, _Alloc>::allocator_type allocator_type;
typedef unsigned int __chunk_type;
typedef typename _Alloc_traits<__chunk_type,
_Alloc>::allocator_type __chunk_allocator_type;
allocator_type get_allocator() const {
return _STLP_CONVERT_ALLOCATOR((const __chunk_allocator_type&)_M_end_of_storage, bool);
}
static allocator_type __get_dfl_allocator() { return allocator_type(); }
_Bvector_base(const allocator_type& __a)
: _M_start(), _M_finish(), _M_end_of_storage(_STLP_CONVERT_ALLOCATOR(__a, __chunk_type),
(__chunk_type*)0)
{}
_Bvector_base(__move_source<_Self> src)
: _M_start(src.get()._M_start), _M_finish(src.get()._M_finish),
_M_end_of_storage(src.get()._M_end_of_storage) {
//Make the source destroyable
src.get()._M_start._M_p = 0;
}
~_Bvector_base() {
_M_deallocate();
}
protected:
unsigned int* _M_bit_alloc(size_t __n) {
return _M_end_of_storage.allocate((__n + _STLP_WORD_BIT - 1)/_STLP_WORD_BIT);
}
void _M_deallocate() {
if (_M_start._M_p)
_M_end_of_storage.deallocate(_M_start._M_p,
_M_end_of_storage._M_data - _M_start._M_p);
}
_Bit_iterator _M_start;
_Bit_iterator _M_finish;
_STLP_alloc_proxy<__chunk_type*, __chunk_type, __chunk_allocator_type> _M_end_of_storage;
};
// The next few lines are confusing. What we're doing is declaring a
// partial specialization of vector<T, Alloc> if we have the necessary
// compiler support. Otherwise, we define a class bit_vector which uses
// the default allocator.
#if defined (_STLP_CLASS_PARTIAL_SPECIALIZATION) && !defined (_STLP_NO_BOOL) && !defined (__SUNPRO_CC)
# define _STLP_VECBOOL_TEMPLATE
# define __BVEC_TMPL_HEADER template <class _Alloc>
#else
# undef _STLP_VECBOOL_TEMPLATE
# ifdef _STLP_NO_BOOL
# define __BVEC_TMPL_HEADER
# else
# define __BVEC_TMPL_HEADER _STLP_TEMPLATE_NULL
# endif
# if !(defined(__MRC__)||(defined(__SC__)&&!defined(__DMC__))) //*TY 12/17/2000 -
# define _Alloc _STLP_DEFAULT_ALLOCATOR(bool)
# else
# define _Alloc allocator<bool>
# endif
#endif
#if defined (_STLP_DEBUG)
# define vector _STLP_NON_DBG_NAME(vector)
#endif
#ifdef _STLP_NO_BOOL
# define __BVECTOR_QUALIFIED bit_vector
# define __BVECTOR bit_vector
#else
# ifdef _STLP_VECBOOL_TEMPLATE
# define __BVECTOR_QUALIFIED vector<bool, _Alloc>
# else
# define __BVECTOR_QUALIFIED vector<bool, allocator<bool> >
# endif
# if defined (_STLP_PARTIAL_SPEC_NEEDS_TEMPLATE_ARGS)
# define __BVECTOR __BVECTOR_QUALIFIED
# else
# define __BVECTOR vector
# endif
#endif
#if !defined (_STLP_DEBUG) || defined (_STLP_NO_BOOL)
_STLP_MOVE_TO_STD_NAMESPACE
#endif
__BVEC_TMPL_HEADER
class __BVECTOR_QUALIFIED : public _STLP_PRIV _Bvector_base<_Alloc >
#if defined (_STLP_USE_PARTIAL_SPEC_WORKAROUND) && !defined (_STLP_DEBUG)
, public __stlport_class< __BVECTOR_QUALIFIED >
#endif
{
typedef _STLP_PRIV _Bvector_base<_Alloc > _Base;
typedef __BVECTOR_QUALIFIED _Self;
public:
typedef bool value_type;
typedef size_t size_type;
typedef ptrdiff_t difference_type;
typedef _STLP_PRIV _Bit_reference reference;
typedef bool const_reference;
typedef _STLP_PRIV _Bit_reference* pointer;
typedef const bool* const_pointer;
typedef random_access_iterator_tag _Iterator_category;
typedef _STLP_PRIV _Bit_iterator iterator;
typedef _STLP_PRIV _Bit_const_iterator const_iterator;
_STLP_DECLARE_RANDOM_ACCESS_REVERSE_ITERATORS;
#ifdef _STLP_VECBOOL_TEMPLATE
typedef typename _STLP_PRIV _Bvector_base<_Alloc >::allocator_type allocator_type;
typedef typename _STLP_PRIV _Bvector_base<_Alloc >::__chunk_type __chunk_type;
#else
typedef _STLP_PRIV _Bvector_base<_Alloc >::allocator_type allocator_type;
typedef _STLP_PRIV _Bvector_base<_Alloc >::__chunk_type __chunk_type;
#endif
protected:
void _M_initialize(size_type __n) {
unsigned int* __q = this->_M_bit_alloc(__n);
this->_M_end_of_storage._M_data = __q + (__n + _STLP_WORD_BIT - 1)/_STLP_WORD_BIT;
this->_M_start = iterator(__q, 0);
this->_M_finish = this->_M_start + difference_type(__n);
}
void _M_insert_aux(iterator __position, bool __x) {
if (this->_M_finish._M_p != this->_M_end_of_storage._M_data) {
_STLP_PRIV __copy_backward(__position, this->_M_finish, this->_M_finish + 1,
random_access_iterator_tag(), (difference_type*)0 );
*__position = __x;
++this->_M_finish;
}
else {
size_type __len = size() ? 2 * size() : _STLP_WORD_BIT;
unsigned int* __q = this->_M_bit_alloc(__len);
iterator __i = copy(begin(), __position, iterator(__q, 0));
*__i++ = __x;
this->_M_finish = copy(__position, end(), __i);
this->_M_deallocate();
this->_M_end_of_storage._M_data = __q + (__len + _STLP_WORD_BIT - 1)/_STLP_WORD_BIT;
this->_M_start = iterator(__q, 0);
}
}
#if defined (_STLP_MEMBER_TEMPLATES)
template <class _InputIterator>
void _M_initialize_range(_InputIterator __first, _InputIterator __last,
const input_iterator_tag &) {
this->_M_start = iterator();
this->_M_finish = iterator();
this->_M_end_of_storage._M_data = 0;
for ( ; __first != __last; ++__first)
push_back(*__first);
}
template <class _ForwardIterator>
void _M_initialize_range(_ForwardIterator __first, _ForwardIterator __last,
const forward_iterator_tag &) {
size_type __n = distance(__first, __last);
_M_initialize(__n);
copy(__first, __last, this->_M_start);
}
template <class _InputIterator>
void _M_insert_range(iterator __pos,
_InputIterator __first, _InputIterator __last,
const input_iterator_tag &) {
for ( ; __first != __last; ++__first) {
__pos = insert(__pos, *__first);
++__pos;
}
}
template <class _ForwardIterator>
void _M_insert_range(iterator __position,
_ForwardIterator __first, _ForwardIterator __last,
const forward_iterator_tag &) {
if (__first != __last) {
size_type __n = distance(__first, __last);
if (capacity() - size() >= __n) {
_STLP_PRIV __copy_backward(__position, end(), this->_M_finish + difference_type(__n),
random_access_iterator_tag(), (difference_type*)0 );
copy(__first, __last, __position);
this->_M_finish += difference_type(__n);
}
else {
size_type __len = size() + (max)(size(), __n);
unsigned int* __q = this->_M_bit_alloc(__len);
iterator __i = copy(begin(), __position, iterator(__q, 0));
__i = copy(__first, __last, __i);
this->_M_finish = copy(__position, end(), __i);
this->_M_deallocate();
this->_M_end_of_storage._M_data = __q + (__len + _STLP_WORD_BIT - 1)/_STLP_WORD_BIT;
this->_M_start = iterator(__q, 0);
}
}
}
#endif /* _STLP_MEMBER_TEMPLATES */
public:
iterator begin() { return this->_M_start; }
const_iterator begin() const { return this->_M_start; }
iterator end() { return this->_M_finish; }
const_iterator end() const { return this->_M_finish; }
reverse_iterator rbegin() { return reverse_iterator(end()); }
const_reverse_iterator rbegin() const {
return const_reverse_iterator(end());
}
reverse_iterator rend() { return reverse_iterator(begin()); }
const_reverse_iterator rend() const {
return const_reverse_iterator(begin());
}
size_type size() const { return size_type(end() - begin()); }
size_type max_size() const { return size_type(-1); }
size_type capacity() const {
return size_type(const_iterator(this->_M_end_of_storage._M_data, 0) - begin());
}
bool empty() const { return begin() == end(); }
reference operator[](size_type __n)
{ return *(begin() + difference_type(__n)); }
const_reference operator[](size_type __n) const
{ return *(begin() + difference_type(__n)); }
void _M_range_check(size_type __n) const {
if (__n >= this->size())
__stl_throw_range_error("vector<bool>");
}
reference at(size_type __n)
{ _M_range_check(__n); return (*this)[__n]; }
const_reference at(size_type __n) const
{ _M_range_check(__n); return (*this)[__n]; }
explicit __BVECTOR(const allocator_type& __a = allocator_type())
: _STLP_PRIV _Bvector_base<_Alloc >(__a) {}
__BVECTOR(size_type __n, bool __val,
const allocator_type& __a = allocator_type())
: _STLP_PRIV _Bvector_base<_Alloc >(__a) {
_M_initialize(__n);
fill(this->_M_start._M_p, (__chunk_type*)(this->_M_end_of_storage._M_data), __val ? ~0 : 0);
}
explicit __BVECTOR(size_type __n)
: _STLP_PRIV _Bvector_base<_Alloc >(allocator_type()) {
_M_initialize(__n);
fill(this->_M_start._M_p, (__chunk_type*)(this->_M_end_of_storage._M_data), 0);
}
__BVECTOR(const _Self& __x)
: _STLP_PRIV _Bvector_base<_Alloc >(__x.get_allocator()) {
_M_initialize(__x.size());
copy(__x.begin(), __x.end(), this->_M_start);
}
#if defined (_STLP_MEMBER_TEMPLATES)
template <class _Integer>
void _M_initialize_dispatch(_Integer __n, _Integer __x, const __true_type&) {
_M_initialize(__n);
fill(this->_M_start._M_p, this->_M_end_of_storage._M_data, __x ? ~0 : 0);
}
template <class _InputIterator>
void _M_initialize_dispatch(_InputIterator __first, _InputIterator __last,
const __false_type&) {
_M_initialize_range(__first, __last, _STLP_ITERATOR_CATEGORY(__first, _InputIterator));
}
# if defined (_STLP_NEEDS_EXTRA_TEMPLATE_CONSTRUCTORS)
// Check whether it's an integral type. If so, it's not an iterator.
template <class _InputIterator>
__BVECTOR(_InputIterator __first, _InputIterator __last)
: _STLP_PRIV _Bvector_base<_Alloc >(allocator_type()) {
typedef typename _IsIntegral<_InputIterator>::_Ret _Integral;
_M_initialize_dispatch(__first, __last, _Integral());
}
# endif
template <class _InputIterator>
__BVECTOR(_InputIterator __first, _InputIterator __last,
const allocator_type& __a _STLP_ALLOCATOR_TYPE_DFL)
: _STLP_PRIV _Bvector_base<_Alloc >(__a) {
typedef typename _IsIntegral<_InputIterator>::_Ret _Integral;
_M_initialize_dispatch(__first, __last, _Integral());
}
#else /* _STLP_MEMBER_TEMPLATES */
__BVECTOR(const_iterator __first, const_iterator __last,
const allocator_type& __a = allocator_type())
: _STLP_PRIV _Bvector_base<_Alloc >(__a) {
size_type __n = distance(__first, __last);
_M_initialize(__n);
copy(__first, __last, this->_M_start);
}
__BVECTOR(const bool* __first, const bool* __last,
const allocator_type& __a = allocator_type())
: _STLP_PRIV _Bvector_base<_Alloc >(__a) {
size_type __n = distance(__first, __last);
_M_initialize(__n);
copy(__first, __last, this->_M_start);
}
#endif /* _STLP_MEMBER_TEMPLATES */
__BVECTOR(__move_source<_Self> src)
: _STLP_PRIV _Bvector_base<_Alloc >(__move_source<_Base>(src.get())) {}
~__BVECTOR() {}
__BVECTOR_QUALIFIED& operator=(const __BVECTOR_QUALIFIED& __x) {
if (&__x == this) return *this;
if (__x.size() > capacity()) {
this->_M_deallocate();
_M_initialize(__x.size());
}
copy(__x.begin(), __x.end(), begin());
this->_M_finish = begin() + difference_type(__x.size());
return *this;
}
// assign(), a generalized assignment member function. Two
// versions: one that takes a count, and one that takes a range.
// The range version is a member template, so we dispatch on whether
// or not the type is an integer.
void _M_fill_assign(size_t __n, bool __x) {
if (__n > size()) {
fill(this->_M_start._M_p, (__chunk_type*)(this->_M_end_of_storage._M_data), __x ? ~0 : 0);
insert(end(), __n - size(), __x);
}
else {
erase(begin() + __n, end());
fill(this->_M_start._M_p, (__chunk_type*)(this->_M_end_of_storage._M_data), __x ? ~0 : 0);
}
}
void assign(size_t __n, bool __x) { _M_fill_assign(__n, __x); }
#if defined (_STLP_MEMBER_TEMPLATES)
template <class _InputIterator>
void assign(_InputIterator __first, _InputIterator __last) {
typedef typename _IsIntegral<_InputIterator>::_Ret _Integral;
_M_assign_dispatch(__first, __last, _Integral());
}
template <class _Integer>
void _M_assign_dispatch(_Integer __n, _Integer __val, const __true_type&)
{ _M_fill_assign((size_t) __n, (bool) __val); }
template <class _InputIter>
void _M_assign_dispatch(_InputIter __first, _InputIter __last, const __false_type&)
{ _M_assign_aux(__first, __last, _STLP_ITERATOR_CATEGORY(__first, _InputIter)); }
template <class _InputIterator>
void _M_assign_aux(_InputIterator __first, _InputIterator __last,
const input_iterator_tag &) {
iterator __cur = begin();
for ( ; __first != __last && __cur != end(); ++__cur, ++__first)
*__cur = *__first;
if (__first == __last)
erase(__cur, end());
else
insert(end(), __first, __last);
}
template <class _ForwardIterator>
void _M_assign_aux(_ForwardIterator __first, _ForwardIterator __last,
const forward_iterator_tag &) {
size_type __len = distance(__first, __last);
if (__len < size())
erase(copy(__first, __last, begin()), end());
else {
_ForwardIterator __mid = __first;
advance(__mid, size());
copy(__first, __mid, begin());
insert(end(), __mid, __last);
}
}
#endif /* _STLP_MEMBER_TEMPLATES */
void reserve(size_type __n) {
if (capacity() < __n) {
if (max_size() < __n)
__stl_throw_length_error("vector<bool>");
unsigned int* __q = this->_M_bit_alloc(__n);
_STLP_PRIV _Bit_iterator __z(__q, 0);
this->_M_finish = copy(begin(), end(), __z);
this->_M_deallocate();
this->_M_start = iterator(__q, 0);
this->_M_end_of_storage._M_data = __q + (__n + _STLP_WORD_BIT - 1)/_STLP_WORD_BIT;
}
}
reference front() { return *begin(); }
const_reference front() const { return *begin(); }
reference back() { return *(end() - 1); }
const_reference back() const { return *(end() - 1); }
void push_back(bool __x) {
if (this->_M_finish._M_p != this->_M_end_of_storage._M_data) {
*(this->_M_finish) = __x;
++this->_M_finish;
}
else
_M_insert_aux(end(), __x);
}
void swap(__BVECTOR_QUALIFIED& __x) {
_STLP_STD::swap(this->_M_start, __x._M_start);
_STLP_STD::swap(this->_M_finish, __x._M_finish);
this->_M_end_of_storage.swap(__x._M_end_of_storage);
}
iterator insert(iterator __position, bool __x = bool()) {
difference_type __n = __position - begin();
if (this->_M_finish._M_p != this->_M_end_of_storage._M_data && __position == end()) {
*(this->_M_finish) = __x;
++this->_M_finish;
}
else
_M_insert_aux(__position, __x);
return begin() + __n;
}
#if defined (_STLP_MEMBER_TEMPLATES)
template <class _Integer>
void _M_insert_dispatch(iterator __pos, _Integer __n, _Integer __x,
const __true_type&) {
_M_fill_insert(__pos, (size_type) __n, (bool) __x);
}
template <class _InputIterator>
void _M_insert_dispatch(iterator __pos,
_InputIterator __first, _InputIterator __last,
const __false_type&) {
_M_insert_range(__pos, __first, __last, _STLP_ITERATOR_CATEGORY(__first, _InputIterator));
}
// Check whether it's an integral type. If so, it's not an iterator.
template <class _InputIterator>
void insert(iterator __position,
_InputIterator __first, _InputIterator __last) {
typedef typename _IsIntegral<_InputIterator>::_Ret _Integral;
_M_insert_dispatch(__position, __first, __last, _Integral());
}
#else /* _STLP_MEMBER_TEMPLATES */
void insert(iterator __position,
const_iterator __first, const_iterator __last) {
if (__first == __last) return;
size_type __n = distance(__first, __last);
if (capacity() - size() >= __n) {
_STLP_PRIV __copy_backward(__position, end(), this->_M_finish + __n,
random_access_iterator_tag(), (difference_type*)0 );
copy(__first, __last, __position);
this->_M_finish += __n;
}
else {
size_type __len = size() + (max)(size(), __n);
unsigned int* __q = this->_M_bit_alloc(__len);
iterator __i = copy(begin(), __position, iterator(__q, 0));
__i = copy(__first, __last, __i);
this->_M_finish = copy(__position, end(), __i);
this->_M_deallocate();
this->_M_end_of_storage._M_data = __q + (__len + _STLP_WORD_BIT - 1)/_STLP_WORD_BIT;
this->_M_start = iterator(__q, 0);
}
}
void insert(iterator __position, const bool* __first, const bool* __last) {
if (__first == __last) return;
size_type __n = distance(__first, __last);
if (capacity() - size() >= __n) {
_STLP_PRIV __copy_backward(__position, end(), this->_M_finish + __n,
random_access_iterator_tag(), (difference_type*)0 );
copy(__first, __last, __position);
this->_M_finish += __n;
}
else {
size_type __len = size() + (max)(size(), __n);
unsigned int* __q = this->_M_bit_alloc(__len);
iterator __i = copy(begin(), __position, iterator(__q, 0));
__i = copy(__first, __last, __i);
this->_M_finish = copy(__position, end(), __i);
this->_M_deallocate();
this->_M_end_of_storage._M_data = __q + (__len + _STLP_WORD_BIT - 1)/_STLP_WORD_BIT;
this->_M_start = iterator(__q, 0);
}
}
#endif /* _STLP_MEMBER_TEMPLATES */
void _M_fill_insert(iterator __position, size_type __n, bool __x) {
if (__n == 0) return;
if (capacity() - size() >= __n) {
_STLP_PRIV __copy_backward(__position, end(), this->_M_finish + difference_type(__n),
random_access_iterator_tag(), (difference_type*)0 );
fill(__position, __position + difference_type(__n), __x);
this->_M_finish += difference_type(__n);
}
else {
size_type __len = size() + (max)(size(), __n);
unsigned int* __q = this->_M_bit_alloc(__len);
iterator __i = copy(begin(), __position, iterator(__q, 0));
fill_n(__i, __n, __x);
this->_M_finish = copy(__position, end(), __i + difference_type(__n));
this->_M_deallocate();
this->_M_end_of_storage._M_data = __q + (__len + _STLP_WORD_BIT - 1)/_STLP_WORD_BIT;
this->_M_start = iterator(__q, 0);
}
}
void insert(iterator __position, size_type __n, bool __x) {
_M_fill_insert(__position, __n, __x);
}
void pop_back() {
--this->_M_finish;
}
iterator erase(iterator __position) {
if (__position + 1 != end())
copy(__position + 1, end(), __position);
--this->_M_finish;
return __position;
}
iterator erase(iterator __first, iterator __last) {
this->_M_finish = copy(__last, end(), __first);
return __first;
}
void resize(size_type __new_size, bool __x = bool()) {
if (__new_size < size())
erase(begin() + difference_type(__new_size), end());
else
insert(end(), __new_size - size(), __x);
}
void flip() {
for (unsigned int* __p = this->_M_start._M_p; __p != this->_M_end_of_storage._M_data; ++__p)
*__p = ~*__p;
}
void clear() { erase(begin(), end()); }
};
#if defined (_STLP_NO_BOOL) || defined (__HP_aCC) // fixed soon (03/17/2000)
# define _STLP_TEMPLATE_HEADER __BVEC_TMPL_HEADER
# define _STLP_TEMPLATE_CONTAINER __BVECTOR_QUALIFIED
# include <stl/_relops_cont.h>
# undef _STLP_TEMPLATE_CONTAINER
# undef _STLP_TEMPLATE_HEADER
#endif /* NO_BOOL */
#if defined (_STLP_DEBUG) && !defined (_STLP_NO_BOOL)
_STLP_MOVE_TO_STD_NAMESPACE
#endif
_STLP_END_NAMESPACE
#undef vector
#undef _Alloc
#undef _STLP_VECBOOL_TEMPLATE
#undef __BVECTOR
#undef __BVECTOR_QUALIFIED
#undef __BVEC_TMPL_HEADER
#undef _STLP_WORD_BIT
#endif /* _STLP_INTERNAL_BVECTOR_H */
// Local Variables:
// mode:C++
// End: