// -*- C++ -*- //===----------------------------------------------------------------------===// // // ΚΚΚΚΚΚΚΚΚΚΚΚΚΚΚΚΚΚΚΚThe LLVM Compiler Infrastructure // // This file is distributed under the University of Illinois Open Source // License. See LICENSE.TXT for details. // //===----------------------------------------------------------------------===// #ifndef _LIBCPP___BIT_REFERENCE #define _LIBCPP___BIT_REFERENCE #include <__config> #include #pragma GCC system_header _LIBCPP_BEGIN_NAMESPACE_STD template class __bit_iterator; template class __bit_const_reference; template class __bit_reference { typedef typename _C::__storage_type __storage_type; typedef typename _C::__storage_pointer __storage_pointer; __storage_pointer __seg_; __storage_type __mask_; #if defined(__clang__) friend typename _C::__self; #else friend class _C::__self; #endif friend class __bit_const_reference<_C>; friend class __bit_iterator<_C, false>; public: _LIBCPP_INLINE_VISIBILITY operator bool() const {return static_cast(*__seg_ & __mask_);} _LIBCPP_INLINE_VISIBILITY bool operator ~() const {return !static_cast(*this);} _LIBCPP_INLINE_VISIBILITY __bit_reference& operator=(bool __x) { if (__x) *__seg_ |= __mask_; else *__seg_ &= ~__mask_; return *this; } _LIBCPP_INLINE_VISIBILITY __bit_reference& operator=(const __bit_reference& __x) {return operator=(static_cast(__x));} _LIBCPP_INLINE_VISIBILITY void flip() {*__seg_ ^= __mask_;} _LIBCPP_INLINE_VISIBILITY __bit_iterator<_C, false> operator&() const {return __bit_iterator<_C, false>(__seg_, static_cast(__ctz(__mask_)));} private: _LIBCPP_INLINE_VISIBILITY __bit_reference(__storage_pointer __s, __storage_type __m) : __seg_(__s), __mask_(__m) {} }; template _LIBCPP_INLINE_VISIBILITY inline void swap(__bit_reference<_C> __x, __bit_reference<_D> __y) { bool __t = __x; __x = __y; __y = __t; } template _LIBCPP_INLINE_VISIBILITY inline void swap(__bit_reference<_C> __x, bool& __y) { bool __t = __x; __x = __y; __y = __t; } template _LIBCPP_INLINE_VISIBILITY inline void swap(bool& __x, __bit_reference<_C> __y) { bool __t = __x; __x = __y; __y = __t; } template class __bit_const_reference { typedef typename _C::__storage_type __storage_type; typedef typename _C::__const_storage_pointer __storage_pointer; __storage_pointer __seg_; __storage_type __mask_; #if defined(__clang__) friend typename _C::__self; #else friend class _C::__self; #endif friend class __bit_iterator<_C, true>; public: _LIBCPP_INLINE_VISIBILITY __bit_const_reference(const __bit_reference<_C>& __x) : __seg_(__x.__seg_), __mask_(__x.__mask_) {} _LIBCPP_INLINE_VISIBILITY operator bool() const {return static_cast(*__seg_ & __mask_);} _LIBCPP_INLINE_VISIBILITY __bit_iterator<_C, true> operator&() const {return __bit_iterator<_C, true>(__seg_, static_cast(__ctz(__mask_)));} private: _LIBCPP_INLINE_VISIBILITY __bit_const_reference(__storage_pointer __s, __storage_type __m) : __seg_(__s), __mask_(__m) {} __bit_const_reference& operator=(const __bit_const_reference& __x); }; // find template __bit_iterator<_C, false> __find_bool_true(__bit_iterator<_C, false> __first, typename _C::size_type __n) { typedef __bit_iterator<_C, false> _It; typedef typename _It::__storage_type __storage_type; static const unsigned __bits_per_word = _It::__bits_per_word; // do first partial word if (__first.__ctz_ != 0) { __storage_type __clz_f = static_cast<__storage_type>(__bits_per_word - __first.__ctz_); __storage_type __dn = _STD::min(__clz_f, __n); __storage_type __m = (~__storage_type(0) << __first.__ctz_) & (~__storage_type(0) >> (__clz_f - __dn)); __storage_type __b = *__first.__seg_ & __m; if (__b) return _It(__first.__seg_, static_cast(_STD::__ctz(__b))); __n -= __dn; ++__first.__seg_; } // do middle whole words for (; __n >= __bits_per_word; ++__first.__seg_, __n -= __bits_per_word) if (*__first.__seg_) return _It(__first.__seg_, static_cast(_STD::__ctz(*__first.__seg_))); // do last partial word if (__n > 0) { __storage_type __m = ~__storage_type(0) >> (__bits_per_word - __n); __storage_type __b = *__first.__seg_ & __m; if (__b) return _It(__first.__seg_, static_cast(_STD::__ctz(__b))); } return _It(__first.__seg_, static_cast(__n)); } template __bit_iterator<_C, false> __find_bool_false(__bit_iterator<_C, false> __first, typename _C::size_type __n) { typedef __bit_iterator<_C, false> _It; typedef typename _It::__storage_type __storage_type; static const unsigned __bits_per_word = _It::__bits_per_word; // do first partial word if (__first.__ctz_ != 0) { __storage_type __clz_f = static_cast<__storage_type>(__bits_per_word - __first.__ctz_); __storage_type __dn = _STD::min(__clz_f, __n); __storage_type __m = (~__storage_type(0) << __first.__ctz_) & (~__storage_type(0) >> (__clz_f - __dn)); __storage_type __b = ~(*__first.__seg_ & __m); if (__b) return _It(__first.__seg_, static_cast(_STD::__ctz(__b))); __n -= __dn; ++__first.__seg_; } // do middle whole words for (; __n >= __bits_per_word; ++__first.__seg_, __n -= __bits_per_word) { __storage_type __b = ~*__first.__seg_; if (__b) return _It(__first.__seg_, static_cast(_STD::__ctz(__b))); } // do last partial word if (__n > 0) { __storage_type __m = ~__storage_type(0) >> (__bits_per_word - __n); __storage_type __b = ~(*__first.__seg_ & __m); if (__b) return _It(__first.__seg_, static_cast(_STD::__ctz(__b))); } return _It(__first.__seg_, static_cast(__n)); } template inline _LIBCPP_INLINE_VISIBILITY __bit_iterator<_C, false> find(__bit_iterator<_C, false> __first, __bit_iterator<_C, false> __last, const _Tp& __value) { if (static_cast(__value)) return __find_bool_true(__first, static_cast(__last - __first)); return __find_bool_false(__first, static_cast(__last - __first)); } // count template typename __bit_iterator<_C, false>::difference_type __count_bool_true(__bit_iterator<_C, false> __first, typename _C::size_type __n) { typedef __bit_iterator<_C, false> _It; typedef typename _It::__storage_type __storage_type; typedef typename _It::difference_type difference_type; static const unsigned __bits_per_word = _It::__bits_per_word; difference_type __r = 0; // do first partial word if (__first.__ctz_ != 0) { __storage_type __clz_f = static_cast<__storage_type>(__bits_per_word - __first.__ctz_); __storage_type __dn = _STD::min(__clz_f, __n); __storage_type __m = (~__storage_type(0) << __first.__ctz_) & (~__storage_type(0) >> (__clz_f - __dn)); __r = _STD::__pop_count(*__first.__seg_ & __m); __n -= __dn; ++__first.__seg_; } // do middle whole words for (; __n >= __bits_per_word; ++__first.__seg_, __n -= __bits_per_word) __r += _STD::__pop_count(*__first.__seg_); // do last partial word if (__n > 0) { __storage_type __m = ~__storage_type(0) >> (__bits_per_word - __n); __r += _STD::__pop_count(*__first.__seg_ & __m); } return __r; } template typename __bit_iterator<_C, false>::difference_type __count_bool_false(__bit_iterator<_C, false> __first, typename _C::size_type __n) { typedef __bit_iterator<_C, false> _It; typedef typename _It::__storage_type __storage_type; typedef typename _It::difference_type difference_type; static const unsigned __bits_per_word = _It::__bits_per_word; difference_type __r = 0; // do first partial word if (__first.__ctz_ != 0) { __storage_type __clz_f = static_cast<__storage_type>(__bits_per_word - __first.__ctz_); __storage_type __dn = _STD::min(__clz_f, __n); __storage_type __m = (~__storage_type(0) << __first.__ctz_) & (~__storage_type(0) >> (__clz_f - __dn)); __r = _STD::__pop_count(~(*__first.__seg_ & __m)); __n -= __dn; ++__first.__seg_; } // do middle whole words for (; __n >= __bits_per_word; ++__first.__seg_, __n -= __bits_per_word) __r += _STD::__pop_count(~*__first.__seg_); // do last partial word if (__n > 0) { __storage_type __m = ~__storage_type(0) >> (__bits_per_word - __n); __r += _STD::__pop_count(~(*__first.__seg_ & __m)); } return __r; } template inline _LIBCPP_INLINE_VISIBILITY typename __bit_iterator<_C, false>::difference_type count(__bit_iterator<_C, false> __first, __bit_iterator<_C, false> __last, const _Tp& __value) { if (static_cast(__value)) return __count_bool_true(__first, static_cast(__last - __first)); return __count_bool_false(__first, static_cast(__last - __first)); } // fill_n template void __fill_n_false(__bit_iterator<_C, false> __first, typename _C::size_type __n) { typedef __bit_iterator<_C, false> _It; typedef typename _It::__storage_type __storage_type; static const unsigned __bits_per_word = _It::__bits_per_word; // do first partial word if (__first.__ctz_ != 0) { __storage_type __clz_f = static_cast<__storage_type>(__bits_per_word - __first.__ctz_); __storage_type __dn = _STD::min(__clz_f, __n); __storage_type __m = (~__storage_type(0) << __first.__ctz_) & (~__storage_type(0) >> (__clz_f - __dn)); *__first.__seg_ &= ~__m; __n -= __dn; ++__first.__seg_; } // do middle whole words __storage_type __nw = __n / __bits_per_word; _STD::memset(__first.__seg_, 0, __nw * sizeof(__storage_type)); __n -= __nw * __bits_per_word; // do last partial word if (__n > 0) { __first.__seg_ += __nw; __storage_type __m = ~__storage_type(0) >> (__bits_per_word - __n); *__first.__seg_ &= ~__m; } } template void __fill_n_true(__bit_iterator<_C, false> __first, typename _C::size_type __n) { typedef __bit_iterator<_C, false> _It; typedef typename _It::__storage_type __storage_type; static const unsigned __bits_per_word = _It::__bits_per_word; // do first partial word if (__first.__ctz_ != 0) { __storage_type __clz_f = static_cast<__storage_type>(__bits_per_word - __first.__ctz_); __storage_type __dn = _STD::min(__clz_f, __n); __storage_type __m = (~__storage_type(0) << __first.__ctz_) & (~__storage_type(0) >> (__clz_f - __dn)); *__first.__seg_ |= __m; __n -= __dn; ++__first.__seg_; } // do middle whole words __storage_type __nw = __n / __bits_per_word; _STD::memset(__first.__seg_, -1, __nw * sizeof(__storage_type)); __n -= __nw * __bits_per_word; // do last partial word if (__n > 0) { __first.__seg_ += __nw; __storage_type __m = ~__storage_type(0) >> (__bits_per_word - __n); *__first.__seg_ |= __m; } } template _LIBCPP_INLINE_VISIBILITY inline void fill_n(__bit_iterator<_C, false> __first, typename _C::size_type __n, bool __value) { if (__n > 0) { if (__value) __fill_n_true(__first, __n); else __fill_n_false(__first, __n); } } // fill template inline _LIBCPP_INLINE_VISIBILITY void fill(__bit_iterator<_C, false> __first, __bit_iterator<_C, false> __last, bool __value) { _STD::fill_n(__first, static_cast(__last - __first), __value); } // copy template __bit_iterator<_C, false> __copy_aligned(__bit_iterator<_C, _IsConst> __first, __bit_iterator<_C, _IsConst> __last, __bit_iterator<_C, false> __result) { typedef __bit_iterator<_C, _IsConst> _In; typedef typename _In::difference_type difference_type; typedef typename _In::__storage_type __storage_type; static const unsigned __bits_per_word = _In::__bits_per_word; difference_type __n = __last - __first; if (__n > 0) { // do first word if (__first.__ctz_ != 0) { unsigned __clz = __bits_per_word - __first.__ctz_; difference_type __dn = _STD::min(static_cast(__clz), __n); __n -= __dn; __storage_type __m = (~__storage_type(0) << __first.__ctz_) & (~__storage_type(0) >> (__clz - __dn)); __storage_type __b = *__first.__seg_ & __m; *__result.__seg_ &= ~__m; *__result.__seg_ |= __b; __result.__seg_ += (__dn + __result.__ctz_) / __bits_per_word; __result.__ctz_ = static_cast((__dn + __result.__ctz_) % __bits_per_word); ++__first.__seg_; // __first.__ctz_ = 0; } // __first.__ctz_ == 0; // do middle words __storage_type __nw = __n / __bits_per_word; _STD::memmove(__result.__seg_, __first.__seg_, __nw * sizeof(__storage_type)); __n -= __nw * __bits_per_word; __result.__seg_ += __nw; // do last word if (__n > 0) { __first.__seg_ += __nw; __storage_type __m = ~__storage_type(0) >> (__bits_per_word - __n); __storage_type __b = *__first.__seg_ & __m; *__result.__seg_ &= ~__m; *__result.__seg_ |= __b; __result.__ctz_ = static_cast(__n); } } return __result; } template __bit_iterator<_C, false> __copy_unaligned(__bit_iterator<_C, _IsConst> __first, __bit_iterator<_C, _IsConst> __last, __bit_iterator<_C, false> __result) { typedef __bit_iterator<_C, _IsConst> _In; typedef typename _In::difference_type difference_type; typedef typename _In::__storage_type __storage_type; static const unsigned __bits_per_word = _In::__bits_per_word; difference_type __n = __last - __first; if (__n > 0) { // do first word if (__first.__ctz_ != 0) { unsigned __clz_f = __bits_per_word - __first.__ctz_; difference_type __dn = _STD::min(static_cast(__clz_f), __n); __n -= __dn; __storage_type __m = (~__storage_type(0) << __first.__ctz_) & (~__storage_type(0) >> (__clz_f - __dn)); __storage_type __b = *__first.__seg_ & __m; unsigned __clz_r = __bits_per_word - __result.__ctz_; __storage_type __ddn = _STD::min<__storage_type>(__dn, __clz_r); __m = (~__storage_type(0) << __result.__ctz_) & (~__storage_type(0) >> (__clz_r - __ddn)); *__result.__seg_ &= ~__m; if (__result.__ctz_ > __first.__ctz_) *__result.__seg_ |= __b << (__result.__ctz_ - __first.__ctz_); else *__result.__seg_ |= __b >> (__first.__ctz_ - __result.__ctz_); __result.__seg_ += (__ddn + __result.__ctz_) / __bits_per_word; __result.__ctz_ = static_cast((__ddn + __result.__ctz_) % __bits_per_word); __dn -= __ddn; if (__dn > 0) { __m = ~__storage_type(0) >> (__bits_per_word - __dn); *__result.__seg_ &= ~__m; *__result.__seg_ |= __b >> (__first.__ctz_ + __ddn); __result.__ctz_ = static_cast(__dn); } ++__first.__seg_; // __first.__ctz_ = 0; } // __first.__ctz_ == 0; // do middle words unsigned __clz_r = __bits_per_word - __result.__ctz_; __storage_type __m = ~__storage_type(0) << __result.__ctz_; for (; __n >= __bits_per_word; __n -= __bits_per_word, ++__first.__seg_) { __storage_type __b = *__first.__seg_; *__result.__seg_ &= ~__m; *__result.__seg_ |= __b << __result.__ctz_; ++__result.__seg_; *__result.__seg_ &= __m; *__result.__seg_ |= __b >> __clz_r; } // do last word if (__n > 0) { __m = ~__storage_type(0) >> (__bits_per_word - __n); __storage_type __b = *__first.__seg_ & __m; __storage_type __dn = _STD::min(__n, static_cast(__clz_r)); __m = (~__storage_type(0) << __result.__ctz_) & (~__storage_type(0) >> (__clz_r - __dn)); *__result.__seg_ &= ~__m; *__result.__seg_ |= __b << __result.__ctz_; __result.__seg_ += (__dn + __result.__ctz_) / __bits_per_word; __result.__ctz_ = static_cast((__dn + __result.__ctz_) % __bits_per_word); __n -= __dn; if (__n > 0) { __m = ~__storage_type(0) >> (__bits_per_word - __n); *__result.__seg_ &= ~__m; *__result.__seg_ |= __b >> __dn; __result.__ctz_ = static_cast(__n); } } } return __result; } template inline _LIBCPP_INLINE_VISIBILITY __bit_iterator<_C, false> copy(__bit_iterator<_C, _IsConst> __first, __bit_iterator<_C, _IsConst> __last, __bit_iterator<_C, false> __result) { if (__first.__ctz_ == __result.__ctz_) return __copy_aligned(__first, __last, __result); return __copy_unaligned(__first, __last, __result); } // copy_backward template __bit_iterator<_C, false> __copy_backward_aligned(__bit_iterator<_C, _IsConst> __first, __bit_iterator<_C, _IsConst> __last, __bit_iterator<_C, false> __result) { typedef __bit_iterator<_C, _IsConst> _In; typedef typename _In::difference_type difference_type; typedef typename _In::__storage_type __storage_type; static const unsigned __bits_per_word = _In::__bits_per_word; difference_type __n = __last - __first; if (__n > 0) { // do first word if (__last.__ctz_ != 0) { difference_type __dn = _STD::min(static_cast(__last.__ctz_), __n); __n -= __dn; unsigned __clz = __bits_per_word - __last.__ctz_; __storage_type __m = (~__storage_type(0) << (__last.__ctz_ - __dn)) & (~__storage_type(0) >> __clz); __storage_type __b = *__last.__seg_ & __m; *__result.__seg_ &= ~__m; *__result.__seg_ |= __b; __result.__ctz_ = static_cast(((-__dn & (__bits_per_word - 1)) + __result.__ctz_) % __bits_per_word); // __last.__ctz_ = 0 } // __last.__ctz_ == 0 || __n == 0 // __result.__ctz_ == 0 || __n == 0 // do middle words __storage_type __nw = __n / __bits_per_word; __result.__seg_ -= __nw; __last.__seg_ -= __nw; _STD::memmove(__result.__seg_, __last.__seg_, __nw * sizeof(__storage_type)); __n -= __nw * __bits_per_word; // do last word if (__n > 0) { __storage_type __m = ~__storage_type(0) << (__bits_per_word - __n); __storage_type __b = *--__last.__seg_ & __m; *--__result.__seg_ &= ~__m; *__result.__seg_ |= __b; __result.__ctz_ = static_cast(-__n & (__bits_per_word - 1)); } } return __result; } template __bit_iterator<_C, false> __copy_backward_unaligned(__bit_iterator<_C, _IsConst> __first, __bit_iterator<_C, _IsConst> __last, __bit_iterator<_C, false> __result) { typedef __bit_iterator<_C, _IsConst> _In; typedef typename _In::difference_type difference_type; typedef typename _In::__storage_type __storage_type; static const unsigned __bits_per_word = _In::__bits_per_word; difference_type __n = __last - __first; if (__n > 0) { // do first word if (__last.__ctz_ != 0) { difference_type __dn = _STD::min(static_cast(__last.__ctz_), __n); __n -= __dn; unsigned __clz_l = __bits_per_word - __last.__ctz_; __storage_type __m = (~__storage_type(0) << (__last.__ctz_ - __dn)) & (~__storage_type(0) >> __clz_l); __storage_type __b = *__last.__seg_ & __m; unsigned __clz_r = __bits_per_word - __result.__ctz_; __storage_type __ddn = _STD::min(__dn, static_cast(__result.__ctz_)); if (__ddn > 0) { __m = (~__storage_type(0) << (__result.__ctz_ - __ddn)) & (~__storage_type(0) >> __clz_r); *__result.__seg_ &= ~__m; if (__result.__ctz_ > __last.__ctz_) *__result.__seg_ |= __b << (__result.__ctz_ - __last.__ctz_); else *__result.__seg_ |= __b >> (__last.__ctz_ - __result.__ctz_); __result.__ctz_ = static_cast(((-__ddn & (__bits_per_word - 1)) + __result.__ctz_) % __bits_per_word); __dn -= __ddn; } if (__dn > 0) { // __result.__ctz_ == 0 --__result.__seg_; __result.__ctz_ = static_cast(-__dn & (__bits_per_word - 1)); __m = ~__storage_type(0) << __result.__ctz_; *__result.__seg_ &= ~__m; __last.__ctz_ -= __dn + __ddn; *__result.__seg_ |= __b << (__result.__ctz_ - __last.__ctz_); } // __last.__ctz_ = 0 } // __last.__ctz_ == 0 || __n == 0 // __result.__ctz_ != 0 || __n == 0 // do middle words unsigned __clz_r = __bits_per_word - __result.__ctz_; __storage_type __m = ~__storage_type(0) >> __clz_r; for (; __n >= __bits_per_word; __n -= __bits_per_word) { __storage_type __b = *--__last.__seg_; *__result.__seg_ &= ~__m; *__result.__seg_ |= __b >> __clz_r; *--__result.__seg_ &= __m; *__result.__seg_ |= __b << __result.__ctz_; } // do last word if (__n > 0) { __m = ~__storage_type(0) << (__bits_per_word - __n); __storage_type __b = *--__last.__seg_ & __m; unsigned __clz_r = __bits_per_word - __result.__ctz_; __storage_type __dn = _STD::min(__n, static_cast(__result.__ctz_)); __m = (~__storage_type(0) << (__result.__ctz_ - __dn)) & (~__storage_type(0) >> __clz_r); *__result.__seg_ &= ~__m; *__result.__seg_ |= __b >> (__bits_per_word - __result.__ctz_); __result.__ctz_ = static_cast(((-__dn & (__bits_per_word - 1)) + __result.__ctz_) % __bits_per_word); __n -= __dn; if (__n > 0) { // __result.__ctz_ == 0 --__result.__seg_; __result.__ctz_ = static_cast(-__n & (__bits_per_word - 1)); __m = ~__storage_type(0) << __result.__ctz_; *__result.__seg_ &= ~__m; *__result.__seg_ |= __b << (__result.__ctz_ - (__bits_per_word - __n - __dn)); } } } return __result; } template inline _LIBCPP_INLINE_VISIBILITY __bit_iterator<_C, false> copy_backward(__bit_iterator<_C, _IsConst> __first, __bit_iterator<_C, _IsConst> __last, __bit_iterator<_C, false> __result) { if (__last.__ctz_ == __result.__ctz_) return __copy_backward_aligned(__first, __last, __result); return __copy_backward_unaligned(__first, __last, __result); } // move template inline _LIBCPP_INLINE_VISIBILITY __bit_iterator<_C, false> move(__bit_iterator<_C, _IsConst> __first, __bit_iterator<_C, _IsConst> __last, __bit_iterator<_C, false> __result) { return _STD::copy(__first, __last, __result); } // move_backward template inline _LIBCPP_INLINE_VISIBILITY __bit_iterator<_C, false> move_backward(__bit_iterator<_C, _IsConst> __first, __bit_iterator<_C, _IsConst> __last, __bit_iterator<_C, false> __result) { return _STD::copy(__first, __last, __result); } // swap_ranges template __bit_iterator<_C2, false> __swap_ranges_aligned(__bit_iterator<_C1, false> __first, __bit_iterator<_C1, false> __last, __bit_iterator<_C2, false> __result) { typedef __bit_iterator<_C1, false> _I1; typedef typename _I1::difference_type difference_type; typedef typename _I1::__storage_type __storage_type; static const unsigned __bits_per_word = _I1::__bits_per_word; difference_type __n = __last - __first; if (__n > 0) { // do first word if (__first.__ctz_ != 0) { unsigned __clz = __bits_per_word - __first.__ctz_; difference_type __dn = _STD::min(static_cast(__clz), __n); __n -= __dn; __storage_type __m = (~__storage_type(0) << __first.__ctz_) & (~__storage_type(0) >> (__clz - __dn)); __storage_type __b1 = *__first.__seg_ & __m; *__first.__seg_ &= ~__m; __storage_type __b2 = *__result.__seg_ & __m; *__result.__seg_ &= ~__m; *__result.__seg_ |= __b1; *__first.__seg_ |= __b2; __result.__seg_ += (__dn + __result.__ctz_) / __bits_per_word; __result.__ctz_ = static_cast((__dn + __result.__ctz_) % __bits_per_word); ++__first.__seg_; // __first.__ctz_ = 0; } // __first.__ctz_ == 0; // do middle words for (; __n >= __bits_per_word; __n -= __bits_per_word, ++__first.__seg_, ++__result.__seg_) swap(*__first.__seg_, *__result.__seg_); // do last word if (__n > 0) { __storage_type __m = ~__storage_type(0) >> (__bits_per_word - __n); __storage_type __b1 = *__first.__seg_ & __m; *__first.__seg_ &= ~__m; __storage_type __b2 = *__result.__seg_ & __m; *__result.__seg_ &= ~__m; *__result.__seg_ |= __b1; *__first.__seg_ |= __b2; __result.__ctz_ = static_cast(__n); } } return __result; } template __bit_iterator<_C2, false> __swap_ranges_unaligned(__bit_iterator<_C1, false> __first, __bit_iterator<_C1, false> __last, __bit_iterator<_C2, false> __result) { typedef __bit_iterator<_C1, false> _I1; typedef typename _I1::difference_type difference_type; typedef typename _I1::__storage_type __storage_type; static const unsigned __bits_per_word = _I1::__bits_per_word; difference_type __n = __last - __first; if (__n > 0) { // do first word if (__first.__ctz_ != 0) { unsigned __clz_f = __bits_per_word - __first.__ctz_; difference_type __dn = _STD::min(static_cast(__clz_f), __n); __n -= __dn; __storage_type __m = (~__storage_type(0) << __first.__ctz_) & (~__storage_type(0) >> (__clz_f - __dn)); __storage_type __b1 = *__first.__seg_ & __m; *__first.__seg_ &= ~__m; unsigned __clz_r = __bits_per_word - __result.__ctz_; __storage_type __ddn = _STD::min<__storage_type>(__dn, __clz_r); __m = (~__storage_type(0) << __result.__ctz_) & (~__storage_type(0) >> (__clz_r - __ddn)); __storage_type __b2 = *__result.__seg_ & __m; *__result.__seg_ &= ~__m; if (__result.__ctz_ > __first.__ctz_) { unsigned __s = __result.__ctz_ - __first.__ctz_; *__result.__seg_ |= __b1 << __s; *__first.__seg_ |= __b2 >> __s; } else { unsigned __s = __first.__ctz_ - __result.__ctz_; *__result.__seg_ |= __b1 >> __s; *__first.__seg_ |= __b2 << __s; } __result.__seg_ += (__ddn + __result.__ctz_) / __bits_per_word; __result.__ctz_ = static_cast((__ddn + __result.__ctz_) % __bits_per_word); __dn -= __ddn; if (__dn > 0) { __m = ~__storage_type(0) >> (__bits_per_word - __dn); __b2 = *__result.__seg_ & __m; *__result.__seg_ &= ~__m; unsigned __s = __first.__ctz_ + __ddn; *__result.__seg_ |= __b1 >> __s; *__first.__seg_ |= __b2 << __s; __result.__ctz_ = static_cast(__dn); } ++__first.__seg_; // __first.__ctz_ = 0; } // __first.__ctz_ == 0; // do middle words __storage_type __m = ~__storage_type(0) << __result.__ctz_; unsigned __clz_r = __bits_per_word - __result.__ctz_; for (; __n >= __bits_per_word; __n -= __bits_per_word, ++__first.__seg_) { __storage_type __b1 = *__first.__seg_; __storage_type __b2 = *__result.__seg_ & __m; *__result.__seg_ &= ~__m; *__result.__seg_ |= __b1 << __result.__ctz_; *__first.__seg_ = __b2 >> __result.__ctz_; ++__result.__seg_; __b2 = *__result.__seg_ & ~__m; *__result.__seg_ &= __m; *__result.__seg_ |= __b1 >> __clz_r; *__first.__seg_ |= __b2 << __clz_r; } // do last word if (__n > 0) { __m = ~__storage_type(0) >> (__bits_per_word - __n); __storage_type __b1 = *__first.__seg_ & __m; *__first.__seg_ &= ~__m; __storage_type __dn = _STD::min<__storage_type>(__n, __clz_r); __m = (~__storage_type(0) << __result.__ctz_) & (~__storage_type(0) >> (__clz_r - __dn)); __storage_type __b2 = *__result.__seg_ & __m; *__result.__seg_ &= ~__m; *__result.__seg_ |= __b1 << __result.__ctz_; *__first.__seg_ |= __b2 >> __result.__ctz_; __result.__seg_ += (__dn + __result.__ctz_) / __bits_per_word; __result.__ctz_ = static_cast((__dn + __result.__ctz_) % __bits_per_word); __n -= __dn; if (__n > 0) { __m = ~__storage_type(0) >> (__bits_per_word - __n); __b2 = *__result.__seg_ & __m; *__result.__seg_ &= ~__m; *__result.__seg_ |= __b1 >> __dn; *__first.__seg_ |= __b2 << __dn; __result.__ctz_ = static_cast(__n); } } } return __result; } template inline _LIBCPP_INLINE_VISIBILITY __bit_iterator<_C2, false> swap_ranges(__bit_iterator<_C1, false> __first1, __bit_iterator<_C1, false> __last1, __bit_iterator<_C2, false> __first2) { if (__first1.__ctz_ == __first2.__ctz_) return __swap_ranges_aligned(__first1, __last1, __first2); return __swap_ranges_unaligned(__first1, __last1, __first2); } // rotate template struct __bit_array { typedef typename _C::difference_type difference_type; typedef typename _C::__storage_type __storage_type; typedef typename _C::iterator iterator; static const unsigned __bits_per_word = _C::__bits_per_word; static const unsigned _N = 4; difference_type __size_; __storage_type __word_[_N]; _LIBCPP_INLINE_VISIBILITY static difference_type capacity() {return static_cast(_N * __bits_per_word);} _LIBCPP_INLINE_VISIBILITY explicit __bit_array(difference_type __s) : __size_(__s) {} _LIBCPP_INLINE_VISIBILITY iterator begin() {return iterator(__word_, 0);} _LIBCPP_INLINE_VISIBILITY iterator end() {return iterator(__word_ + __size_ / __bits_per_word, static_cast(__size_ % __bits_per_word));} }; template __bit_iterator<_C, false> rotate(__bit_iterator<_C, false> __first, __bit_iterator<_C, false> __middle, __bit_iterator<_C, false> __last) { typedef __bit_iterator<_C, false> _I1; typedef typename _I1::difference_type difference_type; typedef typename _I1::__storage_type __storage_type; static const unsigned __bits_per_word = _I1::__bits_per_word; difference_type __d1 = __middle - __first; difference_type __d2 = __last - __middle; _I1 __r = __first + __d2; while (__d1 != 0 && __d2 != 0) { if (__d1 <= __d2) { if (__d1 <= __bit_array<_C>::capacity()) { __bit_array<_C> __b(__d1); _STD::copy(__first, __middle, __b.begin()); _STD::copy(__b.begin(), __b.end(), _STD::copy(__middle, __last, __first)); break; } else { __bit_iterator<_C, false> __mp = _STD::swap_ranges(__first, __middle, __middle); __first = __middle; __middle = __mp; __d2 -= __d1; } } else { if (__d2 <= __bit_array<_C>::capacity()) { __bit_array<_C> __b(__d2); _STD::copy(__middle, __last, __b.begin()); _STD::copy_backward(__b.begin(), __b.end(), _STD::copy_backward(__first, __middle, __last)); break; } else { __bit_iterator<_C, false> __mp = __first + __d2; _STD::swap_ranges(__first, __mp, __middle); __first = __mp; __d1 -= __d2; } } } return __r; } // equal template bool __equal_unaligned(__bit_iterator<_C, true> __first1, __bit_iterator<_C, true> __last1, __bit_iterator<_C, true> __first2) { typedef __bit_iterator<_C, true> _It; typedef typename _It::difference_type difference_type; typedef typename _It::__storage_type __storage_type; static const unsigned __bits_per_word = _It::__bits_per_word; difference_type __n = __last1 - __first1; if (__n > 0) { // do first word if (__first1.__ctz_ != 0) { unsigned __clz_f = __bits_per_word - __first1.__ctz_; difference_type __dn = _STD::min(static_cast(__clz_f), __n); __n -= __dn; __storage_type __m = (~__storage_type(0) << __first1.__ctz_) & (~__storage_type(0) >> (__clz_f - __dn)); __storage_type __b = *__first1.__seg_ & __m; unsigned __clz_r = __bits_per_word - __first2.__ctz_; __storage_type __ddn = _STD::min<__storage_type>(__dn, __clz_r); __m = (~__storage_type(0) << __first2.__ctz_) & (~__storage_type(0) >> (__clz_r - __ddn)); if (__first2.__ctz_ > __first1.__ctz_) if ((*__first2.__seg_ & __m) != (__b << (__first2.__ctz_ - __first1.__ctz_))) return false; else if ((*__first2.__seg_ & __m) != (__b >> (__first1.__ctz_ - __first2.__ctz_))) return false; __first2.__seg_ += (__ddn + __first2.__ctz_) / __bits_per_word; __first2.__ctz_ = static_cast((__ddn + __first2.__ctz_) % __bits_per_word); __dn -= __ddn; if (__dn > 0) { __m = ~__storage_type(0) >> (__bits_per_word - __dn); if ((*__first2.__seg_ & __m) != (__b >> (__first1.__ctz_ + __ddn))) return false; __first2.__ctz_ = static_cast(__dn); } ++__first1.__seg_; // __first1.__ctz_ = 0; } // __first1.__ctz_ == 0; // do middle words unsigned __clz_r = __bits_per_word - __first2.__ctz_; __storage_type __m = ~__storage_type(0) << __first2.__ctz_; for (; __n >= __bits_per_word; __n -= __bits_per_word, ++__first1.__seg_) { __storage_type __b = *__first1.__seg_; if ((*__first2.__seg_ & __m) != (__b << __first2.__ctz_)) return false; ++__first2.__seg_; if ((*__first2.__seg_ & ~__m) != (__b >> __clz_r)) return false; } // do last word if (__n > 0) { __m = ~__storage_type(0) >> (__bits_per_word - __n); __storage_type __b = *__first1.__seg_ & __m; __storage_type __dn = _STD::min(__n, static_cast(__clz_r)); __m = (~__storage_type(0) << __first2.__ctz_) & (~__storage_type(0) >> (__clz_r - __dn)); if ((*__first2.__seg_ & __m) != (__b << __first2.__ctz_)) return false; __first2.__seg_ += (__dn + __first2.__ctz_) / __bits_per_word; __first2.__ctz_ = static_cast((__dn + __first2.__ctz_) % __bits_per_word); __n -= __dn; if (__n > 0) { __m = ~__storage_type(0) >> (__bits_per_word - __n); if ((*__first2.__seg_ & __m) != (__b >> __dn)) return false; } } } return true; } template bool __equal_aligned(__bit_iterator<_C, true> __first1, __bit_iterator<_C, true> __last1, __bit_iterator<_C, true> __first2) { typedef __bit_iterator<_C, true> _It; typedef typename _It::difference_type difference_type; typedef typename _It::__storage_type __storage_type; static const unsigned __bits_per_word = _It::__bits_per_word; difference_type __n = __last1 - __first1; if (__n > 0) { // do first word if (__first1.__ctz_ != 0) { unsigned __clz = __bits_per_word - __first1.__ctz_; difference_type __dn = _STD::min(static_cast(__clz), __n); __n -= __dn; __storage_type __m = (~__storage_type(0) << __first1.__ctz_) & (~__storage_type(0) >> (__clz - __dn)); if ((*__first2.__seg_ & __m) != (*__first1.__seg_ & __m)) return false; ++__first2.__seg_; ++__first1.__seg_; // __first1.__ctz_ = 0; // __first2.__ctz_ = 0; } // __first1.__ctz_ == 0; // __first2.__ctz_ == 0; // do middle words for (; __n >= __bits_per_word; __n -= __bits_per_word, ++__first1.__seg_, ++__first2.__seg_) if (*__first2.__seg_ != *__first1.__seg_) return false; // do last word if (__n > 0) { __storage_type __m = ~__storage_type(0) >> (__bits_per_word - __n); if ((*__first2.__seg_ & __m) != (*__first1.__seg_ & __m)) return false; } } return true; } template bool equal(__bit_iterator<_C, _IC1> __first1, __bit_iterator<_C, _IC1> __last1, __bit_iterator<_C, _IC2> __first2) { if (__first1.__ctz_ == __first2.__ctz_) return __equal_aligned(__first1, __last1, __first2); return __equal_unaligned(__first1, __last1, __first2); } template class __bit_iterator { public: typedef typename _C::difference_type difference_type; typedef bool value_type; typedef __bit_iterator pointer; typedef typename conditional<_IsConst, __bit_const_reference<_C>, __bit_reference<_C> >::type reference; typedef random_access_iterator_tag iterator_category; private: typedef typename _C::__storage_type __storage_type; typedef typename conditional<_IsConst, typename _C::__const_storage_pointer, typename _C::__storage_pointer>::type __storage_pointer; static const unsigned __bits_per_word = _C::__bits_per_word; __storage_pointer __seg_; unsigned __ctz_; public: _LIBCPP_INLINE_VISIBILITY __bit_iterator() {} _LIBCPP_INLINE_VISIBILITY __bit_iterator(const __bit_iterator<_C, false>& __it) : __seg_(__it.__seg_), __ctz_(__it.__ctz_) {} _LIBCPP_INLINE_VISIBILITY reference operator*() const {return reference(__seg_, __storage_type(1) << __ctz_);} _LIBCPP_INLINE_VISIBILITY __bit_iterator& operator++() { if (__ctz_ != __bits_per_word-1) ++__ctz_; else { __ctz_ = 0; ++__seg_; } return *this; } _LIBCPP_INLINE_VISIBILITY __bit_iterator operator++(int) { __bit_iterator __tmp = *this; ++(*this); return __tmp; } _LIBCPP_INLINE_VISIBILITY __bit_iterator& operator--() { if (__ctz_ != 0) --__ctz_; else { __ctz_ = __bits_per_word - 1; --__seg_; } return *this; } _LIBCPP_INLINE_VISIBILITY __bit_iterator operator--(int) { __bit_iterator __tmp = *this; --(*this); return __tmp; } _LIBCPP_INLINE_VISIBILITY __bit_iterator& operator+=(difference_type __n) { if (__n >= 0) __seg_ += (__n + __ctz_) / __bits_per_word; else __seg_ += static_cast(__n - __bits_per_word + __ctz_ + 1) / static_cast(__bits_per_word); __n &= (__bits_per_word - 1); __ctz_ = static_cast((__n + __ctz_) % __bits_per_word); return *this; } _LIBCPP_INLINE_VISIBILITY __bit_iterator& operator-=(difference_type __n) { return *this += -__n; } _LIBCPP_INLINE_VISIBILITY __bit_iterator operator+(difference_type __n) const { __bit_iterator __t(*this); __t += __n; return __t; } _LIBCPP_INLINE_VISIBILITY __bit_iterator operator-(difference_type __n) const { __bit_iterator __t(*this); __t -= __n; return __t; } _LIBCPP_INLINE_VISIBILITY friend __bit_iterator operator+(difference_type __n, const __bit_iterator& __it) {return __it + __n;} _LIBCPP_INLINE_VISIBILITY friend difference_type operator-(const __bit_iterator& __x, const __bit_iterator& __y) {return (__x.__seg_ - __y.__seg_) * __bits_per_word + __x.__ctz_ - __y.__ctz_;} _LIBCPP_INLINE_VISIBILITY reference operator[](difference_type __n) const {return *(*this + __n);} _LIBCPP_INLINE_VISIBILITY friend bool operator==(const __bit_iterator& __x, const __bit_iterator& __y) {return __x.__seg_ == __y.__seg_ && __x.__ctz_ == __y.__ctz_;} _LIBCPP_INLINE_VISIBILITY friend bool operator!=(const __bit_iterator& __x, const __bit_iterator& __y) {return !(__x == __y);} _LIBCPP_INLINE_VISIBILITY friend bool operator<(const __bit_iterator& __x, const __bit_iterator& __y) {return __x.__seg_ < __y.__seg_ || (__x.__seg_ == __y.__seg_ && __x.__ctz_ < __y.__ctz_);} _LIBCPP_INLINE_VISIBILITY friend bool operator>(const __bit_iterator& __x, const __bit_iterator& __y) {return __y < __x;} _LIBCPP_INLINE_VISIBILITY friend bool operator<=(const __bit_iterator& __x, const __bit_iterator& __y) {return !(__y < __x);} _LIBCPP_INLINE_VISIBILITY friend bool operator>=(const __bit_iterator& __x, const __bit_iterator& __y) {return !(__x < __y);} private: _LIBCPP_INLINE_VISIBILITY __bit_iterator(__storage_pointer __s, unsigned __ctz) : __seg_(__s), __ctz_(__ctz) {} #if defined(__clang__) friend typename _C::__self; #else friend class _C::__self; #endif friend class __bit_reference<_C>; friend class __bit_const_reference<_C>; friend class __bit_iterator<_C, true>; template friend struct __bit_array; template friend void __fill_n_false(__bit_iterator<_D, false> __first, typename _D::size_type __n); template friend void __fill_n_true(__bit_iterator<_D, false> __first, typename _D::size_type __n); template friend __bit_iterator<_D, false> __copy_aligned(__bit_iterator<_D, _IC> __first, __bit_iterator<_D, _IC> __last, __bit_iterator<_D, false> __result); template friend __bit_iterator<_D, false> __copy_unaligned(__bit_iterator<_D, _IC> __first, __bit_iterator<_D, _IC> __last, __bit_iterator<_D, false> __result); template friend __bit_iterator<_D, false> copy(__bit_iterator<_D, _IC> __first, __bit_iterator<_D, _IC> __last, __bit_iterator<_D, false> __result); template friend __bit_iterator<_D, false> __copy_backward_aligned(__bit_iterator<_D, _IC> __first, __bit_iterator<_D, _IC> __last, __bit_iterator<_D, false> __result); template friend __bit_iterator<_D, false> __copy_backward_unaligned(__bit_iterator<_D, _IC> __first, __bit_iterator<_D, _IC> __last, __bit_iterator<_D, false> __result); template friend __bit_iterator<_D, false> copy_backward(__bit_iterator<_D, _IC> __first, __bit_iterator<_D, _IC> __last, __bit_iterator<_D, false> __result); template friend __bit_iterator<_C2, false> __swap_ranges_aligned(__bit_iterator<_C1, false>, __bit_iterator<_C1, false>, __bit_iterator<_C2, false>); template friend __bit_iterator<_C2, false> __swap_ranges_unaligned(__bit_iterator<_C1, false>, __bit_iterator<_C1, false>, __bit_iterator<_C2, false>); template friend __bit_iterator<_C2, false> swap_ranges(__bit_iterator<_C1, false>, __bit_iterator<_C1, false>, __bit_iterator<_C2, false>); template friend __bit_iterator<_D, false> rotate(__bit_iterator<_D, false>, __bit_iterator<_D, false>, __bit_iterator<_D, false>); template friend bool __equal_aligned(__bit_iterator<_D, true>, __bit_iterator<_D, true>, __bit_iterator<_D, true>); template friend bool __equal_unaligned(__bit_iterator<_D, true>, __bit_iterator<_D, true>, __bit_iterator<_D, true>); template friend bool equal(__bit_iterator<_D, _IC1>, __bit_iterator<_D, _IC1>, __bit_iterator<_D, _IC2>); template friend __bit_iterator<_D, false> __find_bool_true(__bit_iterator<_D, false>, typename _D::size_type); template friend __bit_iterator<_D, false> __find_bool_false(__bit_iterator<_D, false>, typename _D::size_type); }; _LIBCPP_END_NAMESPACE_STD #endif // _LIBCPP___BIT_REFERENCE