673 lines
24 KiB
C
673 lines
24 KiB
C
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// Copyright 2018 The Abseil Authors.
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//
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// Licensed under the Apache License, Version 2.0 (the "License");
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// you may not use this file except in compliance with the License.
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// You may obtain a copy of the License at
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//
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// https://www.apache.org/licenses/LICENSE-2.0
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//
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// Unless required by applicable law or agreed to in writing, software
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// distributed under the License is distributed on an "AS IS" BASIS,
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// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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// See the License for the specific language governing permissions and
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// limitations under the License.
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#ifndef ABSL_CONTAINER_INTERNAL_BTREE_CONTAINER_H_
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#define ABSL_CONTAINER_INTERNAL_BTREE_CONTAINER_H_
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#include <algorithm>
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#include <initializer_list>
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#include <iterator>
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#include <utility>
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#include "absl/base/internal/throw_delegate.h"
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#include "absl/container/internal/btree.h" // IWYU pragma: export
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#include "absl/container/internal/common.h"
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#include "absl/meta/type_traits.h"
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namespace absl {
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ABSL_NAMESPACE_BEGIN
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namespace container_internal {
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// A common base class for btree_set, btree_map, btree_multiset, and
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// btree_multimap.
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template <typename Tree>
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class btree_container {
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using params_type = typename Tree::params_type;
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protected:
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// Alias used for heterogeneous lookup functions.
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// `key_arg<K>` evaluates to `K` when the functors are transparent and to
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// `key_type` otherwise. It permits template argument deduction on `K` for the
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// transparent case.
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template <class K>
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using key_arg =
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typename KeyArg<IsTransparent<typename Tree::key_compare>::value>::
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template type<K, typename Tree::key_type>;
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public:
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using key_type = typename Tree::key_type;
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using value_type = typename Tree::value_type;
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using size_type = typename Tree::size_type;
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using difference_type = typename Tree::difference_type;
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using key_compare = typename Tree::key_compare;
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using value_compare = typename Tree::value_compare;
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using allocator_type = typename Tree::allocator_type;
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using reference = typename Tree::reference;
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using const_reference = typename Tree::const_reference;
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using pointer = typename Tree::pointer;
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using const_pointer = typename Tree::const_pointer;
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using iterator = typename Tree::iterator;
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using const_iterator = typename Tree::const_iterator;
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using reverse_iterator = typename Tree::reverse_iterator;
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using const_reverse_iterator = typename Tree::const_reverse_iterator;
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using node_type = typename Tree::node_handle_type;
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// Constructors/assignments.
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btree_container() : tree_(key_compare(), allocator_type()) {}
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explicit btree_container(const key_compare &comp,
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const allocator_type &alloc = allocator_type())
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: tree_(comp, alloc) {}
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btree_container(const btree_container &other) = default;
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btree_container(btree_container &&other) noexcept = default;
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btree_container &operator=(const btree_container &other) = default;
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btree_container &operator=(btree_container &&other) noexcept(
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std::is_nothrow_move_assignable<Tree>::value) = default;
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// Iterator routines.
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iterator begin() { return tree_.begin(); }
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const_iterator begin() const { return tree_.begin(); }
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const_iterator cbegin() const { return tree_.begin(); }
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iterator end() { return tree_.end(); }
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const_iterator end() const { return tree_.end(); }
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const_iterator cend() const { return tree_.end(); }
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reverse_iterator rbegin() { return tree_.rbegin(); }
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const_reverse_iterator rbegin() const { return tree_.rbegin(); }
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const_reverse_iterator crbegin() const { return tree_.rbegin(); }
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reverse_iterator rend() { return tree_.rend(); }
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const_reverse_iterator rend() const { return tree_.rend(); }
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const_reverse_iterator crend() const { return tree_.rend(); }
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// Lookup routines.
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template <typename K = key_type>
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iterator find(const key_arg<K> &key) {
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return tree_.find(key);
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}
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template <typename K = key_type>
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const_iterator find(const key_arg<K> &key) const {
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return tree_.find(key);
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}
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template <typename K = key_type>
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bool contains(const key_arg<K> &key) const {
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return find(key) != end();
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}
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template <typename K = key_type>
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iterator lower_bound(const key_arg<K> &key) {
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return tree_.lower_bound(key);
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}
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template <typename K = key_type>
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const_iterator lower_bound(const key_arg<K> &key) const {
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return tree_.lower_bound(key);
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}
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template <typename K = key_type>
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iterator upper_bound(const key_arg<K> &key) {
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return tree_.upper_bound(key);
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}
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template <typename K = key_type>
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const_iterator upper_bound(const key_arg<K> &key) const {
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return tree_.upper_bound(key);
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}
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template <typename K = key_type>
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std::pair<iterator, iterator> equal_range(const key_arg<K> &key) {
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return tree_.equal_range(key);
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}
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template <typename K = key_type>
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std::pair<const_iterator, const_iterator> equal_range(
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const key_arg<K> &key) const {
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return tree_.equal_range(key);
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}
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// Deletion routines. Note that there is also a deletion routine that is
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// specific to btree_set_container/btree_multiset_container.
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// Erase the specified iterator from the btree. The iterator must be valid
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// (i.e. not equal to end()). Return an iterator pointing to the node after
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// the one that was erased (or end() if none exists).
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iterator erase(const_iterator iter) { return tree_.erase(iterator(iter)); }
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iterator erase(iterator iter) { return tree_.erase(iter); }
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iterator erase(const_iterator first, const_iterator last) {
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return tree_.erase_range(iterator(first), iterator(last)).second;
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}
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// Extract routines.
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node_type extract(iterator position) {
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// Use Move instead of Transfer, because the rebalancing code expects to
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// have a valid object to scribble metadata bits on top of.
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auto node = CommonAccess::Move<node_type>(get_allocator(), position.slot());
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erase(position);
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return node;
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}
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node_type extract(const_iterator position) {
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return extract(iterator(position));
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}
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public:
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// Utility routines.
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void clear() { tree_.clear(); }
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void swap(btree_container &other) { tree_.swap(other.tree_); }
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void verify() const { tree_.verify(); }
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// Size routines.
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size_type size() const { return tree_.size(); }
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size_type max_size() const { return tree_.max_size(); }
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bool empty() const { return tree_.empty(); }
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friend bool operator==(const btree_container &x, const btree_container &y) {
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if (x.size() != y.size()) return false;
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return std::equal(x.begin(), x.end(), y.begin());
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}
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friend bool operator!=(const btree_container &x, const btree_container &y) {
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return !(x == y);
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}
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friend bool operator<(const btree_container &x, const btree_container &y) {
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return std::lexicographical_compare(x.begin(), x.end(), y.begin(), y.end());
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}
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friend bool operator>(const btree_container &x, const btree_container &y) {
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return y < x;
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}
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friend bool operator<=(const btree_container &x, const btree_container &y) {
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return !(y < x);
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}
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friend bool operator>=(const btree_container &x, const btree_container &y) {
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return !(x < y);
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}
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// The allocator used by the btree.
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allocator_type get_allocator() const { return tree_.get_allocator(); }
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// The key comparator used by the btree.
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key_compare key_comp() const { return tree_.key_comp(); }
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value_compare value_comp() const { return tree_.value_comp(); }
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// Support absl::Hash.
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template <typename State>
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friend State AbslHashValue(State h, const btree_container &b) {
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for (const auto &v : b) {
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h = State::combine(std::move(h), v);
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}
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return State::combine(std::move(h), b.size());
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}
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protected:
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Tree tree_;
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};
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// A common base class for btree_set and btree_map.
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template <typename Tree>
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class btree_set_container : public btree_container<Tree> {
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using super_type = btree_container<Tree>;
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using params_type = typename Tree::params_type;
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using init_type = typename params_type::init_type;
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using is_key_compare_to = typename params_type::is_key_compare_to;
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friend class BtreeNodePeer;
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protected:
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template <class K>
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using key_arg = typename super_type::template key_arg<K>;
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public:
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using key_type = typename Tree::key_type;
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using value_type = typename Tree::value_type;
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using size_type = typename Tree::size_type;
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using key_compare = typename Tree::key_compare;
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using allocator_type = typename Tree::allocator_type;
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using iterator = typename Tree::iterator;
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using const_iterator = typename Tree::const_iterator;
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using node_type = typename super_type::node_type;
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using insert_return_type = InsertReturnType<iterator, node_type>;
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// Inherit constructors.
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using super_type::super_type;
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btree_set_container() {}
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// Range constructor.
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template <class InputIterator>
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btree_set_container(InputIterator b, InputIterator e,
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const key_compare &comp = key_compare(),
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const allocator_type &alloc = allocator_type())
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: super_type(comp, alloc) {
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insert(b, e);
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}
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// Initializer list constructor.
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btree_set_container(std::initializer_list<init_type> init,
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const key_compare &comp = key_compare(),
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const allocator_type &alloc = allocator_type())
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: btree_set_container(init.begin(), init.end(), comp, alloc) {}
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// Lookup routines.
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template <typename K = key_type>
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size_type count(const key_arg<K> &key) const {
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return this->tree_.count_unique(key);
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}
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// Insertion routines.
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std::pair<iterator, bool> insert(const value_type &v) {
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return this->tree_.insert_unique(params_type::key(v), v);
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}
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std::pair<iterator, bool> insert(value_type &&v) {
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return this->tree_.insert_unique(params_type::key(v), std::move(v));
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}
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template <typename... Args>
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std::pair<iterator, bool> emplace(Args &&... args) {
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init_type v(std::forward<Args>(args)...);
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return this->tree_.insert_unique(params_type::key(v), std::move(v));
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}
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iterator insert(const_iterator position, const value_type &v) {
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return this->tree_
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.insert_hint_unique(iterator(position), params_type::key(v), v)
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.first;
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}
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iterator insert(const_iterator position, value_type &&v) {
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return this->tree_
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.insert_hint_unique(iterator(position), params_type::key(v),
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std::move(v))
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.first;
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}
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template <typename... Args>
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iterator emplace_hint(const_iterator position, Args &&... args) {
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init_type v(std::forward<Args>(args)...);
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return this->tree_
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.insert_hint_unique(iterator(position), params_type::key(v),
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std::move(v))
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.first;
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}
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template <typename InputIterator>
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void insert(InputIterator b, InputIterator e) {
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this->tree_.insert_iterator_unique(b, e);
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}
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void insert(std::initializer_list<init_type> init) {
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this->tree_.insert_iterator_unique(init.begin(), init.end());
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}
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insert_return_type insert(node_type &&node) {
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if (!node) return {this->end(), false, node_type()};
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std::pair<iterator, bool> res =
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this->tree_.insert_unique(params_type::key(CommonAccess::GetSlot(node)),
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CommonAccess::GetSlot(node));
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if (res.second) {
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CommonAccess::Destroy(&node);
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return {res.first, true, node_type()};
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} else {
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return {res.first, false, std::move(node)};
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}
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}
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iterator insert(const_iterator hint, node_type &&node) {
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if (!node) return this->end();
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std::pair<iterator, bool> res = this->tree_.insert_hint_unique(
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iterator(hint), params_type::key(CommonAccess::GetSlot(node)),
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CommonAccess::GetSlot(node));
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if (res.second) CommonAccess::Destroy(&node);
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return res.first;
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}
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// Deletion routines.
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template <typename K = key_type>
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size_type erase(const key_arg<K> &key) {
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return this->tree_.erase_unique(key);
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}
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using super_type::erase;
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// Node extraction routines.
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template <typename K = key_type>
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node_type extract(const key_arg<K> &key) {
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auto it = this->find(key);
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return it == this->end() ? node_type() : extract(it);
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}
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using super_type::extract;
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// Merge routines.
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// Moves elements from `src` into `this`. If the element already exists in
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// `this`, it is left unmodified in `src`.
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template <
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typename T,
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typename absl::enable_if_t<
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absl::conjunction<
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std::is_same<value_type, typename T::value_type>,
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std::is_same<allocator_type, typename T::allocator_type>,
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std::is_same<typename params_type::is_map_container,
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typename T::params_type::is_map_container>>::value,
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int> = 0>
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void merge(btree_container<T> &src) { // NOLINT
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for (auto src_it = src.begin(); src_it != src.end();) {
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if (insert(std::move(*src_it)).second) {
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src_it = src.erase(src_it);
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} else {
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++src_it;
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}
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}
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}
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template <
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typename T,
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typename absl::enable_if_t<
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absl::conjunction<
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std::is_same<value_type, typename T::value_type>,
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std::is_same<allocator_type, typename T::allocator_type>,
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std::is_same<typename params_type::is_map_container,
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typename T::params_type::is_map_container>>::value,
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int> = 0>
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void merge(btree_container<T> &&src) {
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merge(src);
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}
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};
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// Base class for btree_map.
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template <typename Tree>
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class btree_map_container : public btree_set_container<Tree> {
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using super_type = btree_set_container<Tree>;
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using params_type = typename Tree::params_type;
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private:
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template <class K>
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using key_arg = typename super_type::template key_arg<K>;
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public:
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using key_type = typename Tree::key_type;
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using mapped_type = typename params_type::mapped_type;
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using value_type = typename Tree::value_type;
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using key_compare = typename Tree::key_compare;
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using allocator_type = typename Tree::allocator_type;
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using iterator = typename Tree::iterator;
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using const_iterator = typename Tree::const_iterator;
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// Inherit constructors.
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using super_type::super_type;
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btree_map_container() {}
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// Insertion routines.
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// Note: the nullptr template arguments and extra `const M&` overloads allow
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// for supporting bitfield arguments.
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// Note: when we call `std::forward<M>(obj)` twice, it's safe because
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// insert_unique/insert_hint_unique are guaranteed to not consume `obj` when
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// `ret.second` is false.
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template <class M>
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std::pair<iterator, bool> insert_or_assign(const key_type &k, const M &obj) {
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const std::pair<iterator, bool> ret = this->tree_.insert_unique(k, k, obj);
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if (!ret.second) ret.first->second = obj;
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return ret;
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}
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template <class M, key_type * = nullptr>
|
||
|
std::pair<iterator, bool> insert_or_assign(key_type &&k, const M &obj) {
|
||
|
const std::pair<iterator, bool> ret =
|
||
|
this->tree_.insert_unique(k, std::move(k), obj);
|
||
|
if (!ret.second) ret.first->second = obj;
|
||
|
return ret;
|
||
|
}
|
||
|
template <class M, M * = nullptr>
|
||
|
std::pair<iterator, bool> insert_or_assign(const key_type &k, M &&obj) {
|
||
|
const std::pair<iterator, bool> ret =
|
||
|
this->tree_.insert_unique(k, k, std::forward<M>(obj));
|
||
|
if (!ret.second) ret.first->second = std::forward<M>(obj);
|
||
|
return ret;
|
||
|
}
|
||
|
template <class M, key_type * = nullptr, M * = nullptr>
|
||
|
std::pair<iterator, bool> insert_or_assign(key_type &&k, M &&obj) {
|
||
|
const std::pair<iterator, bool> ret =
|
||
|
this->tree_.insert_unique(k, std::move(k), std::forward<M>(obj));
|
||
|
if (!ret.second) ret.first->second = std::forward<M>(obj);
|
||
|
return ret;
|
||
|
}
|
||
|
template <class M>
|
||
|
iterator insert_or_assign(const_iterator position, const key_type &k,
|
||
|
const M &obj) {
|
||
|
const std::pair<iterator, bool> ret =
|
||
|
this->tree_.insert_hint_unique(iterator(position), k, k, obj);
|
||
|
if (!ret.second) ret.first->second = obj;
|
||
|
return ret.first;
|
||
|
}
|
||
|
template <class M, key_type * = nullptr>
|
||
|
iterator insert_or_assign(const_iterator position, key_type &&k,
|
||
|
const M &obj) {
|
||
|
const std::pair<iterator, bool> ret = this->tree_.insert_hint_unique(
|
||
|
iterator(position), k, std::move(k), obj);
|
||
|
if (!ret.second) ret.first->second = obj;
|
||
|
return ret.first;
|
||
|
}
|
||
|
template <class M, M * = nullptr>
|
||
|
iterator insert_or_assign(const_iterator position, const key_type &k,
|
||
|
M &&obj) {
|
||
|
const std::pair<iterator, bool> ret = this->tree_.insert_hint_unique(
|
||
|
iterator(position), k, k, std::forward<M>(obj));
|
||
|
if (!ret.second) ret.first->second = std::forward<M>(obj);
|
||
|
return ret.first;
|
||
|
}
|
||
|
template <class M, key_type * = nullptr, M * = nullptr>
|
||
|
iterator insert_or_assign(const_iterator position, key_type &&k, M &&obj) {
|
||
|
const std::pair<iterator, bool> ret = this->tree_.insert_hint_unique(
|
||
|
iterator(position), k, std::move(k), std::forward<M>(obj));
|
||
|
if (!ret.second) ret.first->second = std::forward<M>(obj);
|
||
|
return ret.first;
|
||
|
}
|
||
|
template <typename... Args>
|
||
|
std::pair<iterator, bool> try_emplace(const key_type &k, Args &&... args) {
|
||
|
return this->tree_.insert_unique(
|
||
|
k, std::piecewise_construct, std::forward_as_tuple(k),
|
||
|
std::forward_as_tuple(std::forward<Args>(args)...));
|
||
|
}
|
||
|
template <typename... Args>
|
||
|
std::pair<iterator, bool> try_emplace(key_type &&k, Args &&... args) {
|
||
|
// Note: `key_ref` exists to avoid a ClangTidy warning about moving from `k`
|
||
|
// and then using `k` unsequenced. This is safe because the move is into a
|
||
|
// forwarding reference and insert_unique guarantees that `key` is never
|
||
|
// referenced after consuming `args`.
|
||
|
const key_type &key_ref = k;
|
||
|
return this->tree_.insert_unique(
|
||
|
key_ref, std::piecewise_construct, std::forward_as_tuple(std::move(k)),
|
||
|
std::forward_as_tuple(std::forward<Args>(args)...));
|
||
|
}
|
||
|
template <typename... Args>
|
||
|
iterator try_emplace(const_iterator hint, const key_type &k,
|
||
|
Args &&... args) {
|
||
|
return this->tree_
|
||
|
.insert_hint_unique(iterator(hint), k, std::piecewise_construct,
|
||
|
std::forward_as_tuple(k),
|
||
|
std::forward_as_tuple(std::forward<Args>(args)...))
|
||
|
.first;
|
||
|
}
|
||
|
template <typename... Args>
|
||
|
iterator try_emplace(const_iterator hint, key_type &&k, Args &&... args) {
|
||
|
// Note: `key_ref` exists to avoid a ClangTidy warning about moving from `k`
|
||
|
// and then using `k` unsequenced. This is safe because the move is into a
|
||
|
// forwarding reference and insert_hint_unique guarantees that `key` is
|
||
|
// never referenced after consuming `args`.
|
||
|
const key_type &key_ref = k;
|
||
|
return this->tree_
|
||
|
.insert_hint_unique(iterator(hint), key_ref, std::piecewise_construct,
|
||
|
std::forward_as_tuple(std::move(k)),
|
||
|
std::forward_as_tuple(std::forward<Args>(args)...))
|
||
|
.first;
|
||
|
}
|
||
|
mapped_type &operator[](const key_type &k) {
|
||
|
return try_emplace(k).first->second;
|
||
|
}
|
||
|
mapped_type &operator[](key_type &&k) {
|
||
|
return try_emplace(std::move(k)).first->second;
|
||
|
}
|
||
|
|
||
|
template <typename K = key_type>
|
||
|
mapped_type &at(const key_arg<K> &key) {
|
||
|
auto it = this->find(key);
|
||
|
if (it == this->end())
|
||
|
base_internal::ThrowStdOutOfRange("absl::btree_map::at");
|
||
|
return it->second;
|
||
|
}
|
||
|
template <typename K = key_type>
|
||
|
const mapped_type &at(const key_arg<K> &key) const {
|
||
|
auto it = this->find(key);
|
||
|
if (it == this->end())
|
||
|
base_internal::ThrowStdOutOfRange("absl::btree_map::at");
|
||
|
return it->second;
|
||
|
}
|
||
|
};
|
||
|
|
||
|
// A common base class for btree_multiset and btree_multimap.
|
||
|
template <typename Tree>
|
||
|
class btree_multiset_container : public btree_container<Tree> {
|
||
|
using super_type = btree_container<Tree>;
|
||
|
using params_type = typename Tree::params_type;
|
||
|
using init_type = typename params_type::init_type;
|
||
|
using is_key_compare_to = typename params_type::is_key_compare_to;
|
||
|
|
||
|
template <class K>
|
||
|
using key_arg = typename super_type::template key_arg<K>;
|
||
|
|
||
|
public:
|
||
|
using key_type = typename Tree::key_type;
|
||
|
using value_type = typename Tree::value_type;
|
||
|
using size_type = typename Tree::size_type;
|
||
|
using key_compare = typename Tree::key_compare;
|
||
|
using allocator_type = typename Tree::allocator_type;
|
||
|
using iterator = typename Tree::iterator;
|
||
|
using const_iterator = typename Tree::const_iterator;
|
||
|
using node_type = typename super_type::node_type;
|
||
|
|
||
|
// Inherit constructors.
|
||
|
using super_type::super_type;
|
||
|
btree_multiset_container() {}
|
||
|
|
||
|
// Range constructor.
|
||
|
template <class InputIterator>
|
||
|
btree_multiset_container(InputIterator b, InputIterator e,
|
||
|
const key_compare &comp = key_compare(),
|
||
|
const allocator_type &alloc = allocator_type())
|
||
|
: super_type(comp, alloc) {
|
||
|
insert(b, e);
|
||
|
}
|
||
|
|
||
|
// Initializer list constructor.
|
||
|
btree_multiset_container(std::initializer_list<init_type> init,
|
||
|
const key_compare &comp = key_compare(),
|
||
|
const allocator_type &alloc = allocator_type())
|
||
|
: btree_multiset_container(init.begin(), init.end(), comp, alloc) {}
|
||
|
|
||
|
// Lookup routines.
|
||
|
template <typename K = key_type>
|
||
|
size_type count(const key_arg<K> &key) const {
|
||
|
return this->tree_.count_multi(key);
|
||
|
}
|
||
|
|
||
|
// Insertion routines.
|
||
|
iterator insert(const value_type &v) { return this->tree_.insert_multi(v); }
|
||
|
iterator insert(value_type &&v) {
|
||
|
return this->tree_.insert_multi(std::move(v));
|
||
|
}
|
||
|
iterator insert(const_iterator position, const value_type &v) {
|
||
|
return this->tree_.insert_hint_multi(iterator(position), v);
|
||
|
}
|
||
|
iterator insert(const_iterator position, value_type &&v) {
|
||
|
return this->tree_.insert_hint_multi(iterator(position), std::move(v));
|
||
|
}
|
||
|
template <typename InputIterator>
|
||
|
void insert(InputIterator b, InputIterator e) {
|
||
|
this->tree_.insert_iterator_multi(b, e);
|
||
|
}
|
||
|
void insert(std::initializer_list<init_type> init) {
|
||
|
this->tree_.insert_iterator_multi(init.begin(), init.end());
|
||
|
}
|
||
|
template <typename... Args>
|
||
|
iterator emplace(Args &&... args) {
|
||
|
return this->tree_.insert_multi(init_type(std::forward<Args>(args)...));
|
||
|
}
|
||
|
template <typename... Args>
|
||
|
iterator emplace_hint(const_iterator position, Args &&... args) {
|
||
|
return this->tree_.insert_hint_multi(
|
||
|
iterator(position), init_type(std::forward<Args>(args)...));
|
||
|
}
|
||
|
iterator insert(node_type &&node) {
|
||
|
if (!node) return this->end();
|
||
|
iterator res =
|
||
|
this->tree_.insert_multi(params_type::key(CommonAccess::GetSlot(node)),
|
||
|
CommonAccess::GetSlot(node));
|
||
|
CommonAccess::Destroy(&node);
|
||
|
return res;
|
||
|
}
|
||
|
iterator insert(const_iterator hint, node_type &&node) {
|
||
|
if (!node) return this->end();
|
||
|
iterator res = this->tree_.insert_hint_multi(
|
||
|
iterator(hint),
|
||
|
std::move(params_type::element(CommonAccess::GetSlot(node))));
|
||
|
CommonAccess::Destroy(&node);
|
||
|
return res;
|
||
|
}
|
||
|
|
||
|
// Deletion routines.
|
||
|
template <typename K = key_type>
|
||
|
size_type erase(const key_arg<K> &key) {
|
||
|
return this->tree_.erase_multi(key);
|
||
|
}
|
||
|
using super_type::erase;
|
||
|
|
||
|
// Node extraction routines.
|
||
|
template <typename K = key_type>
|
||
|
node_type extract(const key_arg<K> &key) {
|
||
|
auto it = this->find(key);
|
||
|
return it == this->end() ? node_type() : extract(it);
|
||
|
}
|
||
|
using super_type::extract;
|
||
|
|
||
|
// Merge routines.
|
||
|
// Moves all elements from `src` into `this`.
|
||
|
template <
|
||
|
typename T,
|
||
|
typename absl::enable_if_t<
|
||
|
absl::conjunction<
|
||
|
std::is_same<value_type, typename T::value_type>,
|
||
|
std::is_same<allocator_type, typename T::allocator_type>,
|
||
|
std::is_same<typename params_type::is_map_container,
|
||
|
typename T::params_type::is_map_container>>::value,
|
||
|
int> = 0>
|
||
|
void merge(btree_container<T> &src) { // NOLINT
|
||
|
insert(std::make_move_iterator(src.begin()),
|
||
|
std::make_move_iterator(src.end()));
|
||
|
src.clear();
|
||
|
}
|
||
|
|
||
|
template <
|
||
|
typename T,
|
||
|
typename absl::enable_if_t<
|
||
|
absl::conjunction<
|
||
|
std::is_same<value_type, typename T::value_type>,
|
||
|
std::is_same<allocator_type, typename T::allocator_type>,
|
||
|
std::is_same<typename params_type::is_map_container,
|
||
|
typename T::params_type::is_map_container>>::value,
|
||
|
int> = 0>
|
||
|
void merge(btree_container<T> &&src) {
|
||
|
merge(src);
|
||
|
}
|
||
|
};
|
||
|
|
||
|
// A base class for btree_multimap.
|
||
|
template <typename Tree>
|
||
|
class btree_multimap_container : public btree_multiset_container<Tree> {
|
||
|
using super_type = btree_multiset_container<Tree>;
|
||
|
using params_type = typename Tree::params_type;
|
||
|
|
||
|
public:
|
||
|
using mapped_type = typename params_type::mapped_type;
|
||
|
|
||
|
// Inherit constructors.
|
||
|
using super_type::super_type;
|
||
|
btree_multimap_container() {}
|
||
|
};
|
||
|
|
||
|
} // namespace container_internal
|
||
|
ABSL_NAMESPACE_END
|
||
|
} // namespace absl
|
||
|
|
||
|
#endif // ABSL_CONTAINER_INTERNAL_BTREE_CONTAINER_H_
|