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rippled/include/xrpl/basics/partitioned_unordered_map.h
Bart 2406b28e64 refactor: Remove unused and add missing includes (#5293) 
The codebase is filled with includes that are unused, and which thus can be removed. At the same time, the files often do not include all headers that contain the definitions used in those files. This change uses clang-format and clang-tidy to clean up the includes, with minor manual intervention to ensure the code compiles on all platforms.
2025-03-11 14:16:45 -04:00

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//------------------------------------------------------------------------------
/*
This file is part of rippled: https://github.com/ripple/rippled
Copyright (c) 2021 Ripple Labs Inc.
Permission to use, copy, modify, and/or distribute this software for any
purpose with or without fee is hereby granted, provided that the above
copyright notice and this permission notice appear in all copies.
THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES
WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF
MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR
ANY SPECIAL , DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN
ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF
OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
*/
//==============================================================================
#ifndef RIPPLE_BASICS_PARTITIONED_UNORDERED_MAP_H
#define RIPPLE_BASICS_PARTITIONED_UNORDERED_MAP_H
#include <xrpl/beast/hash/uhash.h>
#include <xrpl/beast/utility/instrumentation.h>
#include <functional>
#include <optional>
#include <string>
#include <thread>
#include <unordered_map>
#include <utility>
#include <vector>
namespace ripple {
template <typename Key>
static std::size_t
extract(Key const& key)
{
return key;
}
template <>
inline std::size_t
extract(std::string const& key)
{
return ::beast::uhash<>{}(key);
}
template <
typename Key,
typename Value,
typename Hash,
typename Pred = std::equal_to<Key>,
typename Alloc = std::allocator<std::pair<const Key, Value>>>
class partitioned_unordered_map
{
std::size_t partitions_;
public:
using key_type = Key;
using mapped_type = Value;
using value_type = std::pair<Key const, mapped_type>;
using size_type = std::size_t;
using difference_type = std::size_t;
using hasher = Hash;
using key_equal = Pred;
using allocator_type = Alloc;
using reference = value_type&;
using const_reference = value_type const&;
using pointer = value_type*;
using const_pointer = value_type const*;
using map_type = std::
unordered_map<key_type, mapped_type, hasher, key_equal, allocator_type>;
using partition_map_type = std::vector<map_type>;
struct iterator
{
using iterator_category = std::forward_iterator_tag;
partition_map_type* map_{nullptr};
typename partition_map_type::iterator ait_;
typename map_type::iterator mit_;
iterator() = default;
iterator(partition_map_type* map) : map_(map)
{
}
reference
operator*() const
{
return *mit_;
}
pointer
operator->() const
{
return &(*mit_);
}
void
inc()
{
++mit_;
while (mit_ == ait_->end())
{
++ait_;
if (ait_ == map_->end())
return;
mit_ = ait_->begin();
}
}
// ++it
iterator&
operator++()
{
inc();
return *this;
}
// it++
iterator
operator++(int)
{
iterator tmp(*this);
inc();
return tmp;
}
friend bool
operator==(iterator const& lhs, iterator const& rhs)
{
return lhs.map_ == rhs.map_ && lhs.ait_ == rhs.ait_ &&
lhs.mit_ == rhs.mit_;
}
friend bool
operator!=(iterator const& lhs, iterator const& rhs)
{
return !(lhs == rhs);
}
};
struct const_iterator
{
using iterator_category = std::forward_iterator_tag;
partition_map_type* map_{nullptr};
typename partition_map_type::iterator ait_;
typename map_type::iterator mit_;
const_iterator() = default;
const_iterator(partition_map_type* map) : map_(map)
{
}
const_iterator(iterator const& orig)
{
map_ = orig.map_;
ait_ = orig.ait_;
mit_ = orig.mit_;
}
const_reference
operator*() const
{
return *mit_;
}
const_pointer
operator->() const
{
return &(*mit_);
}
void
inc()
{
++mit_;
while (mit_ == ait_->end())
{
++ait_;
if (ait_ == map_->end())
return;
mit_ = ait_->begin();
}
}
// ++it
const_iterator&
operator++()
{
inc();
return *this;
}
// it++
const_iterator
operator++(int)
{
const_iterator tmp(*this);
inc();
return tmp;
}
friend bool
operator==(const_iterator const& lhs, const_iterator const& rhs)
{
return lhs.map_ == rhs.map_ && lhs.ait_ == rhs.ait_ &&
lhs.mit_ == rhs.mit_;
}
friend bool
operator!=(const_iterator const& lhs, const_iterator const& rhs)
{
return !(lhs == rhs);
}
};
private:
std::size_t
partitioner(Key const& key) const
{
return extract(key) % partitions_;
}
template <class T>
static void
end(T& it)
{
it.ait_ = it.map_->end();
it.mit_ = it.map_->back().end();
}
template <class T>
static void
begin(T& it)
{
for (it.ait_ = it.map_->begin(); it.ait_ != it.map_->end(); ++it.ait_)
{
if (it.ait_->begin() == it.ait_->end())
continue;
it.mit_ = it.ait_->begin();
return;
}
end(it);
}
public:
partitioned_unordered_map(
std::optional<std::size_t> partitions = std::nullopt)
{
// Set partitions to the number of hardware threads if the parameter
// is either empty or set to 0.
partitions_ = partitions && *partitions
? *partitions
: std::thread::hardware_concurrency();
map_.resize(partitions_);
XRPL_ASSERT(
partitions_,
"ripple::partitioned_unordered_map::partitioned_unordered_map : "
"nonzero partitions");
}
std::size_t
partitions() const
{
return partitions_;
}
partition_map_type&
map()
{
return map_;
}
iterator
begin()
{
iterator it(&map_);
begin(it);
return it;
}
const_iterator
cbegin() const
{
const_iterator it(&map_);
begin(it);
return it;
}
const_iterator
begin() const
{
return cbegin();
}
iterator
end()
{
iterator it(&map_);
end(it);
return it;
}
const_iterator
cend() const
{
const_iterator it(&map_);
end(it);
return it;
}
const_iterator
end() const
{
return cend();
}
private:
template <class T>
void
find(key_type const& key, T& it) const
{
it.ait_ = it.map_->begin() + partitioner(key);
it.mit_ = it.ait_->find(key);
if (it.mit_ == it.ait_->end())
end(it);
}
public:
iterator
find(key_type const& key)
{
iterator it(&map_);
find(key, it);
return it;
}
const_iterator
find(key_type const& key) const
{
const_iterator it(&map_);
find(key, it);
return it;
}
template <class T, class U>
std::pair<iterator, bool>
emplace(std::piecewise_construct_t const&, T&& keyTuple, U&& valueTuple)
{
auto const& key = std::get<0>(keyTuple);
iterator it(&map_);
it.ait_ = it.map_->begin() + partitioner(key);
auto [eit, inserted] = it.ait_->emplace(
std::piecewise_construct,
std::forward<T>(keyTuple),
std::forward<U>(valueTuple));
it.mit_ = eit;
return {it, inserted};
}
template <class T, class U>
std::pair<iterator, bool>
emplace(T&& key, U&& val)
{
iterator it(&map_);
it.ait_ = it.map_->begin() + partitioner(key);
auto [eit, inserted] =
it.ait_->emplace(std::forward<T>(key), std::forward<U>(val));
it.mit_ = eit;
return {it, inserted};
}
void
clear()
{
for (auto& p : map_)
p.clear();
}
iterator
erase(const_iterator position)
{
iterator it(&map_);
it.ait_ = position.ait_;
it.mit_ = position.ait_->erase(position.mit_);
while (it.mit_ == it.ait_->end())
{
++it.ait_;
if (it.ait_ == it.map_->end())
break;
it.mit_ = it.ait_->begin();
}
return it;
}
std::size_t
size() const
{
std::size_t ret = 0;
for (auto& p : map_)
ret += p.size();
return ret;
}
Value&
operator[](Key const& key)
{
return map_[partitioner(key)][key];
}
private:
mutable partition_map_type map_{};
};
} // namespace ripple
#endif // RIPPLE_BASICS_PARTITIONED_UNORDERED_MAP_H
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