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#pragma once
#include "asl/meta.hpp"
#include "asl/utility.hpp"
#include "asl/hash.hpp"
#include "asl/allocator.hpp"
#include "asl/hash_set.hpp"
namespace asl
{
namespace hash_map_internal
{
template<typename K, typename V>
struct Slot
{
K key;
V value;
};
template<hashable K, typename V, key_hasher<K> KeyHasher>
struct SlotHasher : public KeyHasher
{
using KeyHasher::hash;
constexpr static uint64_t hash(const Slot<K, V>& slot)
{
return KeyHasher::hash(slot.key);
}
};
template<equality_comparable K, typename V, key_comparator<K> KeyComparator>
struct SlotComparator : public KeyComparator
{
using KeyComparator::eq;
constexpr static bool eq(const Slot<K, V>& a, const Slot<K, V>& b)
{
return KeyComparator::eq(a.key, b.key);
}
constexpr static bool eq(const Slot<K, V>& a, const K& b)
{
return KeyComparator::eq(a.key, b);
}
};
} // namespace hash_map_internal
template<
is_object K,
is_object V,
allocator Allocator = DefaultAllocator,
key_hasher<K> KeyHasher = default_key_hasher<K>,
key_comparator<K> KeyComparator = default_key_comparator<K>
>
requires moveable<K> && moveable<V>
class hash_map : protected hash_set<
hash_map_internal::Slot<K, V>,
Allocator,
hash_map_internal::SlotHasher<K, V, KeyHasher>,
hash_map_internal::SlotComparator<K, V, KeyComparator>>
{
using Base =
hash_set<
hash_map_internal::Slot<K, V>,
Allocator,
hash_map_internal::SlotHasher<K, V, KeyHasher>,
hash_map_internal::SlotComparator<K, V, KeyComparator>>;
public:
constexpr hash_map() requires default_constructible<Allocator> = default;
explicit constexpr hash_map(Allocator allocator)
: Base{ASL_MOVE(allocator)}
{}
hash_map(const hash_map&) requires copyable<K> && copyable<V> = default;
hash_map& operator=(const hash_map&) requires copyable<K> && copyable<V> = default;
hash_map(hash_map&&) = default;
hash_map& operator=(hash_map&&) = default;
~hash_map() = default;
using Base::destroy;
using Base::clear;
using Base::size;
using Base::remove;
using Base::contains;
template<typename U, typename Arg0, typename... Args1>
requires
key_hasher<KeyHasher, U> &&
key_comparator<KeyComparator, K, U> &&
constructible_from<K, U&&> &&
constructible_from<V, Arg0&&, Args1&&...>
void insert(U&& key, Arg0&& arg0, Args1&&... args1)
{
Base::maybe_grow_to_fit_one_more();
auto result = Base::find_slot_insert(key);
// NOLINTBEGIN(*-pointer-arithmetic)
ASL_ASSERT(result.first_available_index >= 0);
if (result.already_present_index >= 0)
{
if (result.already_present_index != result.first_available_index)
{
ASL_ASSERT((Base::m_tags[result.first_available_index] & Base::kHasValue) == 0);
Base::m_values[result.first_available_index].construct_unsafe(ASL_MOVE(Base::m_values[result.already_present_index].as_init_unsafe()));
Base::m_values[result.already_present_index].destroy_unsafe();
Base::m_tags[result.first_available_index] = result.tag;
Base::m_tags[result.already_present_index] = Base::kTombstone;
}
ASL_ASSERT(Base::m_tags[result.first_available_index] == result.tag);
if constexpr (sizeof...(Args1) == 0 && assignable_from<V&, Arg0&&>)
{
Base::m_values[result.first_available_index].as_init_unsafe().value = ASL_FWD(arg0);
}
else
{
Base::m_values[result.first_available_index].as_init_unsafe().value = ASL_MOVE(V{ASL_FWD(arg0), ASL_FWD(args1)...});
}
}
else
{
ASL_ASSERT((Base::m_tags[result.first_available_index] & Base::kHasValue) == 0);
Base::m_values[result.first_available_index].construct_unsafe(ASL_FWD(key), V{ASL_FWD(arg0), ASL_FWD(args1)...});
Base::m_tags[result.first_available_index] = result.tag;
Base::m_size += 1;
}
// NOLINTEND(*-pointer-arithmetic)
}
// @Todo(C++23) Deducing this
template<typename U>
requires key_hasher<KeyHasher, U> && key_comparator<KeyComparator, K, U>
const V* get(const U& value) const
{
isize_t index = Base::find_slot_lookup(value);
if (index >= 0)
{
// NOLINTNEXTLINE(*-pointer-arithmetic)
return &Base::m_values[index].as_init_unsafe().value;
}
return nullptr;
}
template<typename U>
requires key_hasher<KeyHasher, U> && key_comparator<KeyComparator, K, U>
V* get(const U& value)
{
isize_t index = Base::find_slot_lookup(value);
if (index >= 0)
{
// NOLINTNEXTLINE(*-pointer-arithmetic)
return &Base::m_values[index].as_init_unsafe().value;
}
return nullptr;
}
};
} // namespace asl
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