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tdlight/td/telegram/OrderedMessage.h
levlam d963044eb9 Update copyright year.
2024-01-01 03:07:21 +03:00

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//
// Copyright Aliaksei Levin (levlam@telegram.org), Arseny Smirnov (arseny30@gmail.com) 2014-2024
//
// Distributed under the Boost Software License, Version 1.0. (See accompanying
// file LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt)
//
#pragma once
#include "td/telegram/MessageId.h"
#include "td/utils/common.h"
#include <functional>
namespace td {
class OrderedMessage {
public:
MessageId get_message_id() const {
return message_id_;
}
bool have_next() const {
return have_next_;
}
private:
int32 random_y_ = 0;
bool have_previous_ = false;
bool have_next_ = false;
MessageId message_id_;
unique_ptr<OrderedMessage> left_;
unique_ptr<OrderedMessage> right_;
friend class OrderedMessages;
};
class OrderedMessages {
public:
class IteratorBase {
vector<const OrderedMessage *> stack_;
protected:
IteratorBase() = default;
// points iterator to message with greatest identifier which is less or equal than message_id
IteratorBase(const OrderedMessage *root, MessageId message_id) {
CHECK(!message_id.is_scheduled());
size_t last_right_pos = 0;
while (root != nullptr) {
stack_.push_back(root);
if (root->message_id_ <= message_id) {
last_right_pos = stack_.size();
root = root->right_.get();
} else {
root = root->left_.get();
}
}
stack_.resize(last_right_pos);
}
const OrderedMessage *operator*() const {
return stack_.empty() ? nullptr : stack_.back();
}
~IteratorBase() = default;
public:
IteratorBase(const IteratorBase &) = delete;
IteratorBase &operator=(const IteratorBase &) = delete;
IteratorBase(IteratorBase &&) = default;
IteratorBase &operator=(IteratorBase &&) = default;
void operator++() {
if (stack_.empty()) {
return;
}
const OrderedMessage *cur = stack_.back();
if (!cur->have_next_) {
stack_.clear();
return;
}
if (cur->right_ == nullptr) {
while (true) {
stack_.pop_back();
if (stack_.empty()) {
return;
}
const OrderedMessage *new_cur = stack_.back();
if (new_cur->left_.get() == cur) {
return;
}
cur = new_cur;
}
}
cur = cur->right_.get();
while (cur != nullptr) {
stack_.push_back(cur);
cur = cur->left_.get();
}
}
void operator--() {
if (stack_.empty()) {
return;
}
const OrderedMessage *cur = stack_.back();
if (!cur->have_previous_) {
stack_.clear();
return;
}
if (cur->left_ == nullptr) {
while (true) {
stack_.pop_back();
if (stack_.empty()) {
return;
}
const OrderedMessage *new_cur = stack_.back();
if (new_cur->right_.get() == cur) {
return;
}
cur = new_cur;
}
}
cur = cur->left_.get();
while (cur != nullptr) {
stack_.push_back(cur);
cur = cur->right_.get();
}
}
void clear() {
stack_.clear();
}
};
class ConstIterator final : public IteratorBase {
public:
ConstIterator() = default;
ConstIterator(const OrderedMessage *root, MessageId message_id) : IteratorBase(root, message_id) {
}
const OrderedMessage *operator*() const {
return IteratorBase::operator*();
}
};
ConstIterator get_const_iterator(MessageId message_id) const {
return ConstIterator(messages_.get(), message_id);
}
void insert(MessageId message_id, bool auto_attach, MessageId old_last_message_id, const char *source);
void erase(MessageId message_id, bool only_from_memory);
void attach_message_to_previous(MessageId message_id, const char *source);
void attach_message_to_next(MessageId message_id, const char *source);
vector<MessageId> find_older_messages(MessageId max_message_id) const;
vector<MessageId> find_newer_messages(MessageId min_message_id) const;
MessageId find_message_by_date(int32 date, const std::function<int32(MessageId)> &get_message_date) const;
vector<MessageId> find_messages_by_date(int32 min_date, int32 max_date,
const std::function<int32(MessageId)> &get_message_date) const;
void traverse_messages(const std::function<bool(MessageId)> &need_scan_older,
const std::function<bool(MessageId)> &need_scan_newer) const;
// returns identifiers of the requested messages; adjust from_message_id, offset and limit accordingly
vector<MessageId> get_history(MessageId last_message_id, MessageId &from_message_id, int32 &offset, int32 &limit,
bool force) const;
bool empty() const {
return messages_ == nullptr;
}
private:
class Iterator final : public IteratorBase {
public:
Iterator() = default;
Iterator(OrderedMessage *root, MessageId message_id) : IteratorBase(root, message_id) {
}
OrderedMessage *operator*() const {
return const_cast<OrderedMessage *>(IteratorBase::operator*());
}
};
void auto_attach_message(OrderedMessage *message, MessageId last_message_id, const char *source);
Iterator get_iterator(MessageId message_id) {
return Iterator(messages_.get(), message_id);
}
static void do_find_older_messages(const OrderedMessage *ordered_message, MessageId max_message_id,
vector<MessageId> &message_ids);
static void do_find_newer_messages(const OrderedMessage *ordered_message, MessageId min_message_id,
vector<MessageId> &message_ids);
static MessageId do_find_message_by_date(const OrderedMessage *ordered_message, int32 date,
const std::function<int32(MessageId)> &get_message_date);
static void do_find_messages_by_date(const OrderedMessage *ordered_message, int32 min_date, int32 max_date,
const std::function<int32(MessageId)> &get_message_date,
vector<MessageId> &message_ids);
static void do_traverse_messages(const OrderedMessage *ordered_message,
const std::function<bool(MessageId)> &need_scan_older,
const std::function<bool(MessageId)> &need_scan_newer);
unique_ptr<OrderedMessage> messages_;
};
} // namespace td
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