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// Copyright (c) 2022 The Bitcoin Core developers
// Distributed under the MIT software license, see the accompanying
// file COPYING or http://www.opensource.org/licenses/mit-license.php.
#ifndef BITCOIN_UTIL_BITDEQUE_H
#define BITCOIN_UTIL_BITDEQUE_H
#include <bitset>
#include <cstddef>
#include <deque>
#include <limits>
#include <stdexcept>
#include <tuple>
/** Class that mimics std::deque<bool>, but with std::vector<bool>'s bit packing.
*
* BlobSize selects the (minimum) number of bits that are allocated at once.
* Larger values reduce the asymptotic memory usage overhead, at the cost of
* needing larger up-front allocations. The default is 4096 bytes.
*/
template<int BlobSize = 4096 * 8>
class bitdeque
{
// Internal definitions
using word_type = std::bitset<BlobSize>;
using deque_type = std::deque<word_type>;
static_assert(BlobSize > 0);
static constexpr int BITS_PER_WORD = BlobSize;
// Forward and friend declarations of iterator types.
template<bool Const> class Iterator;
template<bool Const> friend class Iterator;
/** Iterator to a bitdeque element, const or not. */
template<bool Const>
class Iterator
{
using deque_iterator = std::conditional_t<Const, typename deque_type::const_iterator, typename deque_type::iterator>;
deque_iterator m_it;
int m_bitpos{0};
Iterator(const deque_iterator& it, int bitpos) : m_it(it), m_bitpos(bitpos) {}
friend class bitdeque;
public:
using iterator_category = std::random_access_iterator_tag;
using value_type = bool;
using pointer = void;
using const_pointer = void;
using reference = std::conditional_t<Const, bool, typename word_type::reference>;
using const_reference = bool;
using difference_type = std::ptrdiff_t;
/** Default constructor. */
Iterator() = default;
/** Default copy constructor. */
Iterator(const Iterator&) = default;
/** Conversion from non-const to const iterator. */
template<bool ConstArg = Const, typename = std::enable_if_t<Const && ConstArg>>
Iterator(const Iterator<false>& x) : m_it(x.m_it), m_bitpos(x.m_bitpos) {}
Iterator& operator+=(difference_type dist)
{
if (dist > 0) {
if (dist + m_bitpos >= BITS_PER_WORD) {
++m_it;
dist -= BITS_PER_WORD - m_bitpos;
m_bitpos = 0;
}
auto jump = dist / BITS_PER_WORD;
m_it += jump;
m_bitpos += dist - jump * BITS_PER_WORD;
} else if (dist < 0) {
dist = -dist;
if (dist > m_bitpos) {
--m_it;
dist -= m_bitpos + 1;
m_bitpos = BITS_PER_WORD - 1;
}
auto jump = dist / BITS_PER_WORD;
m_it -= jump;
m_bitpos -= dist - jump * BITS_PER_WORD;
}
return *this;
}
friend difference_type operator-(const Iterator& x, const Iterator& y)
{
return BITS_PER_WORD * (x.m_it - y.m_it) + x.m_bitpos - y.m_bitpos;
}
Iterator& operator=(const Iterator&) = default;
Iterator& operator-=(difference_type dist) { return operator+=(-dist); }
Iterator& operator++() { ++m_bitpos; if (m_bitpos == BITS_PER_WORD) { m_bitpos = 0; ++m_it; }; return *this; }
Iterator operator++(int) { auto ret{*this}; operator++(); return ret; }
Iterator& operator--() { if (m_bitpos == 0) { m_bitpos = BITS_PER_WORD; --m_it; }; --m_bitpos; return *this; }
Iterator operator--(int) { auto ret{*this}; operator--(); return ret; }
friend Iterator operator+(Iterator x, difference_type dist) { x += dist; return x; }
friend Iterator operator+(difference_type dist, Iterator x) { x += dist; return x; }
friend Iterator operator-(Iterator x, difference_type dist) { x -= dist; return x; }
friend bool operator<(const Iterator& x, const Iterator& y) { return std::tie(x.m_it, x.m_bitpos) < std::tie(y.m_it, y.m_bitpos); }
friend bool operator>(const Iterator& x, const Iterator& y) { return std::tie(x.m_it, x.m_bitpos) > std::tie(y.m_it, y.m_bitpos); }
friend bool operator<=(const Iterator& x, const Iterator& y) { return std::tie(x.m_it, x.m_bitpos) <= std::tie(y.m_it, y.m_bitpos); }
friend bool operator>=(const Iterator& x, const Iterator& y) { return std::tie(x.m_it, x.m_bitpos) >= std::tie(y.m_it, y.m_bitpos); }
friend bool operator==(const Iterator& x, const Iterator& y) { return x.m_it == y.m_it && x.m_bitpos == y.m_bitpos; }
friend bool operator!=(const Iterator& x, const Iterator& y) { return x.m_it != y.m_it || x.m_bitpos != y.m_bitpos; }
reference operator*() const { return (*m_it)[m_bitpos]; }
reference operator[](difference_type pos) const { return *(*this + pos); }
};
public:
using value_type = bool;
using size_type = std::size_t;
using difference_type = typename deque_type::difference_type;
using reference = typename word_type::reference;
using const_reference = bool;
using iterator = Iterator<false>;
using const_iterator = Iterator<true>;
using pointer = void;
using const_pointer = void;
using reverse_iterator = std::reverse_iterator<iterator>;
using const_reverse_iterator = std::reverse_iterator<const_iterator>;
private:
/** Deque of bitsets storing the actual bit data. */
deque_type m_deque;
/** Number of unused bits at the front of m_deque.front(). */
int m_pad_begin;
/** Number of unused bits at the back of m_deque.back(). */
int m_pad_end;
/** Shrink the container by n bits, removing from the end. */
void erase_back(size_type n)
{
if (n >= static_cast<size_type>(BITS_PER_WORD - m_pad_end)) {
n -= BITS_PER_WORD - m_pad_end;
m_pad_end = 0;
m_deque.erase(m_deque.end() - 1 - (n / BITS_PER_WORD), m_deque.end());
n %= BITS_PER_WORD;
}
if (n) {
auto& last = m_deque.back();
while (n) {
last.reset(BITS_PER_WORD - 1 - m_pad_end);
++m_pad_end;
--n;
}
}
}
/** Extend the container by n bits, adding at the end. */
void extend_back(size_type n)
{
if (n > static_cast<size_type>(m_pad_end)) {
n -= m_pad_end + 1;
m_pad_end = BITS_PER_WORD - 1;
m_deque.insert(m_deque.end(), 1 + (n / BITS_PER_WORD), {});
n %= BITS_PER_WORD;
}
m_pad_end -= n;
}
/** Shrink the container by n bits, removing from the beginning. */
void erase_front(size_type n)
{
if (n >= static_cast<size_type>(BITS_PER_WORD - m_pad_begin)) {
n -= BITS_PER_WORD - m_pad_begin;
m_pad_begin = 0;
m_deque.erase(m_deque.begin(), m_deque.begin() + 1 + (n / BITS_PER_WORD));
n %= BITS_PER_WORD;
}
if (n) {
auto& first = m_deque.front();
while (n) {
first.reset(m_pad_begin);
++m_pad_begin;
--n;
}
}
}
/** Extend the container by n bits, adding at the beginning. */
void extend_front(size_type n)
{
if (n > static_cast<size_type>(m_pad_begin)) {
n -= m_pad_begin + 1;
m_pad_begin = BITS_PER_WORD - 1;
m_deque.insert(m_deque.begin(), 1 + (n / BITS_PER_WORD), {});
n %= BITS_PER_WORD;
}
m_pad_begin -= n;
}
/** Insert a sequence of falses anywhere in the container. */
void insert_zeroes(size_type before, size_type count)
{
size_type after = size() - before;
if (before < after) {
extend_front(count);
std::move(begin() + count, begin() + count + before, begin());
} else {
extend_back(count);
std::move_backward(begin() + before, begin() + before + after, end());
}
}
public:
/** Construct an empty container. */
explicit bitdeque() : m_pad_begin{0}, m_pad_end{0} {}
/** Set the container equal to count times the value of val. */
void assign(size_type count, bool val)
{
m_deque.clear();
m_deque.resize((count + BITS_PER_WORD - 1) / BITS_PER_WORD);
m_pad_begin = 0;
m_pad_end = 0;
if (val) {
for (auto& elem : m_deque) elem.flip();
}
if (count % BITS_PER_WORD) {
erase_back(BITS_PER_WORD - (count % BITS_PER_WORD));
}
}
/** Construct a container containing count times the value of val. */
bitdeque(size_type count, bool val) { assign(count, val); }
/** Construct a container containing count false values. */
explicit bitdeque(size_t count) { assign(count, false); }
/** Copy constructor. */
bitdeque(const bitdeque&) = default;
/** Move constructor. */
bitdeque(bitdeque&&) noexcept = default;
/** Copy assignment operator. */
bitdeque& operator=(const bitdeque& other) = default;
/** Move assignment operator. */
bitdeque& operator=(bitdeque&& other) noexcept = default;
// Iterator functions.
iterator begin() noexcept { return {m_deque.begin(), m_pad_begin}; }
iterator end() noexcept { return iterator{m_deque.end(), 0} - m_pad_end; }
const_iterator begin() const noexcept { return const_iterator{m_deque.cbegin(), m_pad_begin}; }
const_iterator cbegin() const noexcept { return const_iterator{m_deque.cbegin(), m_pad_begin}; }
const_iterator end() const noexcept { return const_iterator{m_deque.cend(), 0} - m_pad_end; }
const_iterator cend() const noexcept { return const_iterator{m_deque.cend(), 0} - m_pad_end; }
reverse_iterator rbegin() noexcept { return reverse_iterator{end()}; }
reverse_iterator rend() noexcept { return reverse_iterator{begin()}; }
const_reverse_iterator rbegin() const noexcept { return const_reverse_iterator{cend()}; }
const_reverse_iterator crbegin() const noexcept { return const_reverse_iterator{cend()}; }
const_reverse_iterator rend() const noexcept { return const_reverse_iterator{cbegin()}; }
const_reverse_iterator crend() const noexcept { return const_reverse_iterator{cbegin()}; }
/** Count the number of bits in the container. */
size_type size() const noexcept { return m_deque.size() * BITS_PER_WORD - m_pad_begin - m_pad_end; }
/** Determine whether the container is empty. */
bool empty() const noexcept
{
return m_deque.size() == 0 || (m_deque.size() == 1 && (m_pad_begin + m_pad_end == BITS_PER_WORD));
}
/** Return the maximum size of the container. */
size_type max_size() const noexcept
{
if (m_deque.max_size() < std::numeric_limits<difference_type>::max() / BITS_PER_WORD) {
return m_deque.max_size() * BITS_PER_WORD;
} else {
return std::numeric_limits<difference_type>::max();
}
}
/** Set the container equal to the bits in [first,last). */
template<typename It>
void assign(It first, It last)
{
size_type count = std::distance(first, last);
assign(count, false);
auto it = begin();
while (first != last) {
*(it++) = *(first++);
}
}
/** Set the container equal to the bits in ilist. */
void assign(std::initializer_list<bool> ilist)
{
assign(ilist.size(), false);
auto it = begin();
auto init = ilist.begin();
while (init != ilist.end()) {
*(it++) = *(init++);
}
}
/** Set the container equal to the bits in ilist. */
bitdeque& operator=(std::initializer_list<bool> ilist)
{
assign(ilist);
return *this;
}
/** Construct a container containing the bits in [first,last). */
template<typename It>
bitdeque(It first, It last) { assign(first, last); }
/** Construct a container containing the bits in ilist. */
bitdeque(std::initializer_list<bool> ilist) { assign(ilist); }
// Access an element of the container, with bounds checking.
reference at(size_type position)
{
if (position >= size()) throw std::out_of_range("bitdeque::at() out of range");
return begin()[position];
}
const_reference at(size_type position) const
{
if (position >= size()) throw std::out_of_range("bitdeque::at() out of range");
return cbegin()[position];
}
// Access elements of the container without bounds checking.
reference operator[](size_type position) { return begin()[position]; }
const_reference operator[](size_type position) const { return cbegin()[position]; }
reference front() { return *begin(); }
const_reference front() const { return *cbegin(); }
reference back() { return end()[-1]; }
const_reference back() const { return cend()[-1]; }
/** Release unused memory. */
void shrink_to_fit()
{
m_deque.shrink_to_fit();
}
/** Empty the container. */
void clear() noexcept
{
m_deque.clear();
m_pad_begin = m_pad_end = 0;
}
// Append an element to the container.
void push_back(bool val)
{
extend_back(1);
back() = val;
}
reference emplace_back(bool val)
{
extend_back(1);
auto ref = back();
ref = val;
return ref;
}
// Prepend an element to the container.
void push_front(bool val)
{
extend_front(1);
front() = val;
}
reference emplace_front(bool val)
{
extend_front(1);
auto ref = front();
ref = val;
return ref;
}
// Remove the last element from the container.
void pop_back()
{
erase_back(1);
}
// Remove the first element from the container.
void pop_front()
{
erase_front(1);
}
/** Resize the container. */
void resize(size_type n)
{
if (n < size()) {
erase_back(size() - n);
} else {
extend_back(n - size());
}
}
// Swap two containers.
void swap(bitdeque& other) noexcept
{
std::swap(m_deque, other.m_deque);
std::swap(m_pad_begin, other.m_pad_begin);
std::swap(m_pad_end, other.m_pad_end);
}
friend void swap(bitdeque& b1, bitdeque& b2) noexcept { b1.swap(b2); }
// Erase elements from the container.
iterator erase(const_iterator first, const_iterator last)
{
size_type before = std::distance(cbegin(), first);
size_type dist = std::distance(first, last);
size_type after = std::distance(last, cend());
if (before < after) {
std::move_backward(begin(), begin() + before, end() - after);
erase_front(dist);
return begin() + before;
} else {
std::move(end() - after, end(), begin() + before);
erase_back(dist);
return end() - after;
}
}
iterator erase(iterator first, iterator last) { return erase(const_iterator{first}, const_iterator{last}); }
iterator erase(const_iterator pos) { return erase(pos, pos + 1); }
iterator erase(iterator pos) { return erase(const_iterator{pos}, const_iterator{pos} + 1); }
// Insert elements into the container.
iterator insert(const_iterator pos, bool val)
{
size_type before = pos - cbegin();
insert_zeroes(before, 1);
auto it = begin() + before;
*it = val;
return it;
}
iterator emplace(const_iterator pos, bool val) { return insert(pos, val); }
iterator insert(const_iterator pos, size_type count, bool val)
{
size_type before = pos - cbegin();
insert_zeroes(before, count);
auto it_begin = begin() + before;
auto it = it_begin;
auto it_end = it + count;
while (it != it_end) *(it++) = val;
return it_begin;
}
template<typename It>
iterator insert(const_iterator pos, It first, It last)
{
size_type before = pos - cbegin();
size_type count = std::distance(first, last);
insert_zeroes(before, count);
auto it_begin = begin() + before;
auto it = it_begin;
while (first != last) {
*(it++) = *(first++);
}
return it_begin;
}
};
#endif // BITCOIN_UTIL_BITDEQUE_H
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