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libcruft-util/map/multi_fixed.hpp

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/*
* This Source Code Form is subject to the terms of the Mozilla Public
* License, v. 2.0. If a copy of the MPL was not distributed with this
* file, You can obtain one at http://mozilla.org/MPL/2.0/.
*
* Copyright 2021, Danny Robson <danny@nerdcruft.net>
*/
#pragma once
#include "../iterator/unordered_insert.hpp"
#include "../iterator/placement_output.hpp"
#include "../iterator/tuple_picker.hpp"
#include "../cast.hpp"
#include <algorithm>
#include <functional>
#include <cstddef>
namespace cruft::map {
/// A multi-map with a compile-time fixed-size backing store.
template <
std::size_t SizeV,
typename KeyT,
typename ValueT,
typename ComparatorT = std::less<>
>
class multi_fixed {
public:
static constexpr auto elements = SizeV;
using key_type = KeyT;
using mapped_type = ValueT;
using value_type = std::pair<key_type, mapped_type>;
using key_compare = ComparatorT;
using reference = value_type&;
using const_reference = value_type const&;
using pointer = value_type*;
using const_pointer = value_type const*;
using iterator = pointer;
using const_iterator = const_pointer;
multi_fixed () = default;
~multi_fixed ()
{
for (std::size_t i = 0; i < m_size; ++i)
m_store.data[i].~value_type ();
}
multi_fixed (std::initializer_list<value_type> const &src)
{
if (src.size () > capacity ())
throw std::bad_alloc ();
std::copy (
std::make_move_iterator (std::begin (src)),
std::make_move_iterator (std::end (src)),
m_store.data + 0
);
m_size = src.size ();
std::sort (
m_store.data + 0,
m_store.data + m_size,
ComparatorT {}
);
}
multi_fixed (multi_fixed const&);
multi_fixed (multi_fixed &&rhs) noexcept (std::is_nothrow_move_constructible_v<value_type>)
{
clear ();
while (m_size != rhs.m_size) {
new (m_store.data + m_size) value_type (std::move (rhs.m_store.data[m_size]));
++m_size;
}
}
multi_fixed&
operator= (multi_fixed &&rhs) noexcept (std::is_nothrow_move_assignable_v<value_type>)
{
for (std::size_t i = 0; i < m_size; ++i)
m_store.data[i].~value_type ();
m_size = 0;
for (m_size = 0; m_size != rhs.m_size; ++m_size)
m_store.data[m_size] = std::move (rhs.m_store.data[m_size]);
rhs.m_size = 0;
return *this;
}
multi_fixed&
operator= (multi_fixed const &rhs) noexcept (std::is_nothrow_assignable_v<value_type, value_type>)
{
for (std::size_t i = 0; i < m_size; ++i)
m_store.data[i].~value_type ();
for (m_size = 0; m_size != rhs.m_size; ++m_size)
m_store.data[m_size] = rhs.m_store.data[m_size];
return *this;
}
iterator begin (void)& { return m_store.data + 0; }
iterator end (void)& { return m_store.data + m_size; }
const_iterator begin (void) const& { return m_store.data + 0; }
const_iterator end (void) const& { return m_store.data + m_size; }
const_iterator cbegin (void) const& { return cbegin (); }
const_iterator cend (void) const& { return cend (); }
iterator
insert (value_type const &kv)
{
// Don't overrun our static buffer
if (size () == capacity ())
throw std::bad_alloc ();
// Find the insert position. We prefer lte comparison so that we
// avoid moving too many key-value pairs backwards to make room
// for the data.
auto cursor = begin ();
ComparatorT cmp {};
while (cmp (cursor->first, kv.first) && cursor != end ())
++cursor;
// Shuffle the items back in the storage.
auto offset = std::distance (begin (), cursor);
auto remain = size () - offset;
std::move_backward (cursor, cursor + remain, cursor + remain + 1);
// Insert the new data and return
new (cursor) value_type (kv);
++m_size;
return cursor;
}
iterator
insert (value_type &&kv)
{
return insert (kv);
}
template <typename RandomT>
void
insert (RandomT first, RandomT last)
{
static_assert (
std::is_same_v<
typename std::iterator_traits<RandomT>::iterator_category,
std::random_access_iterator_tag
>,
"We assume random iterators here to simplify offset "
"calculations and make copying a little more efficient. "
"There's no reason it needs to be restricted though."
);
auto const count = std::distance (first, last);
if (cruft::cast::sign<size_t> (count) > capacity () - size ())
throw std::bad_alloc ();
std::copy (
first,
last,
cruft::iterator::placement_output {m_store.data + size ()}
);
std::sort (
m_store.data + size (),
m_store.data + size () + count
);
std::inplace_merge (
m_store.data + 0,
m_store.data + size (),
m_store.data + size () + count
);
m_size += count;
}
template <typename K>
bool contains (K const&) const;
template <typename K>
iterator find (K const &k)&
{
ComparatorT cmp {};
for (auto cursor = begin (); cursor != end (); ++cursor)
if (!cmp (cursor->first, k) && !cmp (k, cursor->first))
return cursor;
return end ();
}
template <typename K>
const_iterator find (K const&) const&;
template <typename K>
iterator
lower_bound (K const &k)&
{
ComparatorT cmp {};
return std::find_if (
begin (),
end (),
[&] (auto const &val) { return !cmp (val.first, k); }
);
}
template <typename K>
iterator
upper_bound (K const &k)&
{
ComparatorT cmp {};
return std::find_if (
begin (),
end (),
[&] (auto const &val) { return cmp (k, val.first); }
);
}
template <typename K>
std::pair<iterator, iterator>
equal_range (K const &key)&
{
return {
lower_bound (key),
upper_bound (key)
};
}
void clear (void)
{
for (std::size_t i = 0; i < m_size; ++i)
m_store.data[i].~value_type ();
m_size = 0;
}
void erase (iterator it)
{
CHECK_GE (it, begin ());
CHECK_LT (it, end ());
CHECK (!empty ());
std::move (it + 1, end (), it);
--m_size;
m_store.data[m_size].~value_type ();
}
/// Erases the keys pointed at by the supplied iterator range.
///
/// If a key does not exist it is silently ignored.
///
/// \return The number of keys erased.
template <typename IteratorT>
std::size_t
erase_keys (IteratorT first, IteratorT last)
{
CHECK (std::is_sorted (first, last));
std::size_t tally = 0;
// HACK: This is hopelessly naive, but it works.
for (auto cursor = first; cursor != last; ++cursor) {
if (auto pos = find (*cursor); pos != end ()) {
erase (pos);
++tally;
}
}
return tally;
}
void
erase_item (value_type const &kv)
{
auto [first, last] = equal_range (kv.first);
auto const pos = std::find_if (
first,
last,
[&kv] (auto const &candidate) { return candidate.second == kv.second; }
);
if (pos == last)
throw std::out_of_range ("unknown key-value");
erase (pos);
}
std::size_t erase (key_type const&);
bool empty (void) const { return m_size == 0; }
auto size (void) const { return m_size; }
auto capacity (void) const { return elements; }
void swap (multi_fixed &rhs)
{
// To save duplicating the code which moves the trailing excess
// items between containers we instead just reverse the direction
// here.
if (rhs.size () > size ())
rhs.swap (*this);
using std::swap;
// Swap the commonly held indices
std::size_t const common = std::min (size (), rhs.size ());
for (std::size_t i = 0; i != common; ++i)
swap (m_store.data[i], rhs.m_store.data[i]);
// Move our indices to the rhs if we're larger. We don't need the
// reverse case because we took care of that earlier.
CHECK_GE (size (), rhs.size ());
if (size () > common) {
for (std::size_t i = common; i < size (); ++i)
new (rhs.m_store.data + i) value_type (std::move (m_store.data[i]));
swap (m_size, rhs.m_size);
}
}
/// A helper class that allows iteration over the keys of a
/// multi_fixed map.
///
/// The iterators it provides may be invalidated if any mutating
/// operations are performed on the underlying multi_fixed object.
class keys_proxy {
public:
using iterator_category = std::random_access_iterator_tag;
using value_type = KeyT;
using difference_type = std::ptrdiff_t;
using pointer = value_type*;
using reference = value_type&;
keys_proxy (multi_fixed const &_parent)
: m_parent (&_parent)
{ ; }
auto begin (void) const { return cruft::iterator::make_tuple_picker<0> (m_parent->begin ()); }
auto end (void) const { return cruft::iterator::make_tuple_picker<0> (m_parent->end ()); }
private:
multi_fixed const *m_parent;
};
/// Returns a container that allows traversal of the underlying keys
/// of the store.
keys_proxy keys (void) const& { return keys_proxy (*this); }
private:
std::size_t m_size = 0;
union store {
store () { ; }
~store () { ; }
char defer;
value_type data[elements];
} m_store;
};
template <
std::size_t SizeV,
typename KeyT,
typename ValueT,
typename ComparatorT
>
void swap (
multi_fixed<SizeV, KeyT, ValueT, ComparatorT> &a,
multi_fixed<SizeV, KeyT, ValueT, ComparatorT> &b
) {
a.swap (b);
}
/// Returns a concatenation of two multi_fixed maps. ie, a copy of
/// all entries in the first map, and all entries in the second map.
///
/// If both maps have the same value then the output will have duplicates.
///
/// If the combined size of the maps exceeds the static capacity a
/// std::bad_alloc will be thrown.
template <std::size_t SizeV, typename KeyT, typename ValueT, typename ComparatorT>
multi_fixed<SizeV, KeyT, ValueT, ComparatorT>
operator+ (
multi_fixed<SizeV, KeyT, ValueT, ComparatorT> const &a,
multi_fixed<SizeV, KeyT, ValueT, ComparatorT> const &b
) {
multi_fixed<SizeV, KeyT, ValueT, ComparatorT> res;
res.insert (a.begin (), a.end ());
res.insert (b.begin (), b.end ());
return res;
}
/// Returns the difference between two multi_fixed maps.
///
/// ie, the entries found in the first but not the second.
template <std::size_t SizeV, typename KeyT, typename ValueT, typename ComparatorT>
multi_fixed<SizeV, KeyT, ValueT, ComparatorT>
operator- (
multi_fixed<SizeV, KeyT, ValueT, ComparatorT> const &a,
multi_fixed<SizeV, KeyT, ValueT, ComparatorT> const &b
) {
multi_fixed<SizeV, KeyT, ValueT, ComparatorT> res;
std::set_difference (
std::begin (a), std::end (a),
std::begin (b), std::end (b),
cruft::iterator::unordered_insert (res)
);
return res;
}
template <std::size_t SizeV, typename KeyT, typename ValueT, typename ComparatorT>
bool
operator== (
multi_fixed<SizeV, KeyT, ValueT, ComparatorT> const &a,
multi_fixed<SizeV, KeyT, ValueT, ComparatorT> const &b
) {
return std::equal (
std::begin (a), std::end (a),
std::begin (b), std::end (b)
);
}
}
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