532 lines
14 KiB
C++
532 lines
14 KiB
C++
/*
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This file is part of Telegram Desktop,
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the official desktop application for the Telegram messaging service.
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For license and copyright information please follow this link:
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https://github.com/telegramdesktop/tdesktop/blob/master/LEGAL
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*/
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#include "data/data_messages.h"
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namespace Data {
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MessagesList::Slice::Slice(
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base::flat_set<MessagePosition> &&messages,
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MessagesRange range)
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: messages(std::move(messages))
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, range(range) {
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}
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template <typename Range>
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void MessagesList::Slice::merge(
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const Range &moreMessages,
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MessagesRange moreNoSkipRange) {
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Expects(moreNoSkipRange.from <= range.till);
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Expects(range.from <= moreNoSkipRange.till);
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messages.merge(std::begin(moreMessages), std::end(moreMessages));
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range = {
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qMin(range.from, moreNoSkipRange.from),
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qMax(range.till, moreNoSkipRange.till)
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};
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}
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template <typename Range>
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int MessagesList::uniteAndAdd(
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MessagesSliceUpdate &update,
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base::flat_set<Slice>::iterator uniteFrom,
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base::flat_set<Slice>::iterator uniteTill,
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const Range &messages,
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MessagesRange noSkipRange) {
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auto uniteFromIndex = uniteFrom - _slices.begin();
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auto was = uniteFrom->messages.size();
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_slices.modify(uniteFrom, [&](Slice &slice) {
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slice.merge(messages, noSkipRange);
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});
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auto firstToErase = uniteFrom + 1;
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if (firstToErase != uniteTill) {
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for (auto it = firstToErase; it != uniteTill; ++it) {
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_slices.modify(uniteFrom, [&](Slice &slice) {
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slice.merge(it->messages, it->range);
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});
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}
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_slices.erase(firstToErase, uniteTill);
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uniteFrom = _slices.begin() + uniteFromIndex;
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}
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update.messages = &uniteFrom->messages;
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update.range = uniteFrom->range;
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return uniteFrom->messages.size() - was;
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}
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template <typename Range>
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int MessagesList::addRangeItemsAndCountNew(
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MessagesSliceUpdate &update,
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const Range &messages,
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MessagesRange noSkipRange) {
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Expects(noSkipRange.from <= noSkipRange.till);
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auto uniteFrom = ranges::lower_bound(
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_slices,
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noSkipRange.from,
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std::less<>(),
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[](const Slice &slice) { return slice.range.till; });
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auto uniteTill = ranges::upper_bound(
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_slices,
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noSkipRange.till,
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std::less<>(),
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[](const Slice &slice) { return slice.range.from; });
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if (uniteFrom < uniteTill) {
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return uniteAndAdd(update, uniteFrom, uniteTill, messages, noSkipRange);
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}
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auto sliceMessages = base::flat_set<MessagePosition> {
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std::begin(messages),
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std::end(messages) };
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auto slice = _slices.emplace(
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std::move(sliceMessages),
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noSkipRange
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).first;
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update.messages = &slice->messages;
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update.range = slice->range;
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return slice->messages.size();
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}
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template <typename Range>
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void MessagesList::addRange(
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const Range &messages,
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MessagesRange noSkipRange,
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std::optional<int> count,
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bool incrementCount) {
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Expects(!count || !incrementCount);
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auto update = MessagesSliceUpdate();
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auto result = addRangeItemsAndCountNew(
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update,
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messages,
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noSkipRange);
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if (count) {
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_count = count;
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} else if (incrementCount && _count && result > 0) {
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*_count += result;
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}
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if (_slices.size() == 1) {
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if (_slices.front().range == FullMessagesRange) {
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_count = _slices.front().messages.size();
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}
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}
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update.count = _count;
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_sliceUpdated.fire(std::move(update));
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}
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void MessagesList::addOne(MessagePosition messageId) {
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auto range = { messageId };
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addRange(range, { messageId, messageId }, std::nullopt, true);
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}
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void MessagesList::addNew(MessagePosition messageId) {
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auto range = { messageId };
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addRange(range, { messageId, MaxMessagePosition }, std::nullopt, true);
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}
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void MessagesList::addSlice(
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std::vector<MessagePosition> &&messageIds,
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MessagesRange noSkipRange,
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std::optional<int> count) {
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addRange(messageIds, noSkipRange, count);
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}
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void MessagesList::removeOne(MessagePosition messageId) {
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auto update = MessagesSliceUpdate();
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auto slice = ranges::lower_bound(
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_slices,
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messageId,
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std::less<>(),
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[](const Slice &slice) { return slice.range.till; });
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if (slice != _slices.end() && slice->range.from <= messageId) {
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_slices.modify(slice, [&](Slice &slice) {
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return slice.messages.remove(messageId);
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});
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update.messages = &slice->messages;
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update.range = slice->range;
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}
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if (_count) {
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--*_count;
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}
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update.count = _count;
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if (update.messages) {
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_sliceUpdated.fire(std::move(update));
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}
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}
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void MessagesList::removeLessThan(MessagePosition messageId) {
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auto removed = 0;
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for (auto i = begin(_slices); i != end(_slices);) {
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if (i->range.till <= messageId) {
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removed += i->messages.size();
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i = _slices.erase(i);
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continue;
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} else if (i->range.from <= messageId) {
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_slices.modify(i, [&](Slice &slice) {
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slice.range.from = MinMessagePosition;
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auto from = begin(slice.messages);
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auto till = ranges::lower_bound(slice.messages, messageId);
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if (from != till) {
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removed += till - from;
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slice.messages.erase(from, till);
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}
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});
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break;
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} else {
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break;
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}
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}
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if (removed && _count) {
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*_count -= removed;
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}
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}
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void MessagesList::invalidate() {
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_slices.clear();
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_count = std::nullopt;
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}
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void MessagesList::invalidateBottom() {
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if (!_slices.empty()) {
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const auto &last = _slices.back();
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if (last.range.till == MaxMessagePosition) {
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_slices.modify(_slices.end() - 1, [](Slice &slice) {
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slice.range.till = slice.messages.empty()
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? slice.range.from
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: slice.messages.back();
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});
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}
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}
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_count = std::nullopt;
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}
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MessagesResult MessagesList::queryCurrent(const MessagesQuery &query) const {
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if (!query.aroundId) {
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return MessagesResult();
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}
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const auto slice = ranges::lower_bound(
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_slices,
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query.aroundId,
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std::less<>(),
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[](const Slice &slice) { return slice.range.till; });
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return (slice != _slices.end() && slice->range.from <= query.aroundId)
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? queryFromSlice(query, *slice)
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: MessagesResult();
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}
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rpl::producer<MessagesResult> MessagesList::query(
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MessagesQuery &&query) const {
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return [this, query = std::move(query)](auto consumer) {
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auto current = queryCurrent(query);
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if (current.count.has_value() || !current.messageIds.empty()) {
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consumer.put_next(std::move(current));
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}
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consumer.put_done();
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return rpl::lifetime();
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};
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}
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rpl::producer<MessagesSliceUpdate> MessagesList::sliceUpdated() const {
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return _sliceUpdated.events();
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}
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MessagesResult MessagesList::snapshot(MessagesQuery &&query) const {
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return queryCurrent(query);
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}
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bool MessagesList::empty() const {
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for (const auto &slice : _slices) {
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if (!slice.messages.empty()) {
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return false;
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}
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}
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return true;
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}
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rpl::producer<MessagesResult> MessagesList::viewer(
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MessagesQuery &&query) const {
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return rpl::single(
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queryCurrent(query)
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) | rpl::then(sliceUpdated() | rpl::map([=] {
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return queryCurrent(query);
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})) | rpl::filter([=](const MessagesResult &value) {
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return value.count.has_value() || !value.messageIds.empty();
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});
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}
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MessagesResult MessagesList::queryFromSlice(
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const MessagesQuery &query,
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const Slice &slice) const {
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auto result = MessagesResult {};
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auto position = ranges::lower_bound(slice.messages, query.aroundId);
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auto haveBefore = int(position - begin(slice.messages));
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auto haveEqualOrAfter = int(end(slice.messages) - position);
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auto before = qMin(haveBefore, query.limitBefore);
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auto equalOrAfter = qMin(haveEqualOrAfter, query.limitAfter + 1);
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auto ids = std::vector<MessagePosition>(position - before, position + equalOrAfter);
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result.messageIds.merge(ids.begin(), ids.end());
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if (slice.range.from == MinMessagePosition) {
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result.skippedBefore = haveBefore - before;
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}
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if (slice.range.till == MaxMessagePosition) {
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result.skippedAfter = haveEqualOrAfter - equalOrAfter;
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}
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if (_count) {
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result.count = _count;
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if (!result.skippedBefore && result.skippedAfter) {
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result.skippedBefore = *result.count
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- *result.skippedAfter
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- int(result.messageIds.size());
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} else if (!result.skippedAfter && result.skippedBefore) {
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result.skippedAfter = *result.count
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- *result.skippedBefore
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- int(result.messageIds.size());
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}
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}
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return result;
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}
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MessagesSliceBuilder::MessagesSliceBuilder(
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Key key,
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int limitBefore,
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int limitAfter)
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: _key(key)
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, _limitBefore(limitBefore)
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, _limitAfter(limitAfter) {
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}
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bool MessagesSliceBuilder::applyInitial(const MessagesResult &result) {
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mergeSliceData(
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result.count,
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result.messageIds,
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result.skippedBefore,
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result.skippedAfter);
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return true;
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}
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bool MessagesSliceBuilder::applyUpdate(const MessagesSliceUpdate &update) {
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auto intersects = [](MessagesRange range1, MessagesRange range2) {
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return (range1.from <= range2.till)
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&& (range2.from <= range1.till);
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};
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auto needMergeMessages = (update.messages != nullptr)
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&& intersects(update.range, {
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_ids.empty() ? _key : _ids.front(),
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_ids.empty() ? _key : _ids.back()
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});
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if (!needMergeMessages && !update.count) {
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return false;
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}
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auto skippedBefore = (update.range.from == MinMessagePosition)
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? 0
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: std::optional<int> {};
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auto skippedAfter = (update.range.till == MaxMessagePosition)
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? 0
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: std::optional<int> {};
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mergeSliceData(
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update.count,
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needMergeMessages
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? *update.messages
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: base::flat_set<MessagePosition> {},
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skippedBefore,
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skippedAfter);
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return true;
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}
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bool MessagesSliceBuilder::removeOne(MessagePosition messageId) {
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auto changed = false;
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if (_fullCount && *_fullCount > 0) {
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--*_fullCount;
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changed = true;
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}
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if (_ids.contains(messageId)) {
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_ids.remove(messageId);
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changed = true;
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} else if (!_ids.empty()) {
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if (_ids.front() > messageId
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&& _skippedBefore
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&& *_skippedBefore > 0) {
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--*_skippedBefore;
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changed = true;
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} else if (_ids.back() < messageId
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&& _skippedAfter
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&& *_skippedAfter > 0) {
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--*_skippedAfter;
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changed = true;
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}
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}
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return changed;
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}
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bool MessagesSliceBuilder::removeAll() {
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_ids = {};
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_range = FullMessagesRange;
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_fullCount = 0;
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_skippedBefore = 0;
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_skippedAfter = 0;
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return true;
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}
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bool MessagesSliceBuilder::invalidated() {
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_fullCount = _skippedBefore = _skippedAfter = std::nullopt;
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_ids.clear();
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checkInsufficient();
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return false;
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}
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bool MessagesSliceBuilder::bottomInvalidated() {
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_fullCount = _skippedAfter = std::nullopt;
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checkInsufficient();
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return true;
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}
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void MessagesSliceBuilder::checkInsufficient() {
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sliceToLimits();
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}
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void MessagesSliceBuilder::mergeSliceData(
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std::optional<int> count,
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const base::flat_set<MessagePosition> &messageIds,
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std::optional<int> skippedBefore,
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std::optional<int> skippedAfter) {
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if (messageIds.empty()) {
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if (count && _fullCount != count) {
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_fullCount = count;
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if (*_fullCount <= _ids.size()) {
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_fullCount = _ids.size();
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_skippedBefore = _skippedAfter = 0;
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}
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}
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fillSkippedAndSliceToLimits();
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return;
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}
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if (count) {
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_fullCount = count;
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}
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const auto impossible = MessagePosition{ .fullId = {}, .date = -1 };
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auto wasMinId = _ids.empty() ? impossible : _ids.front();
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auto wasMaxId = _ids.empty() ? impossible : _ids.back();
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_ids.merge(messageIds.begin(), messageIds.end());
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auto adjustSkippedBefore = [&](MessagePosition oldId, int oldSkippedBefore) {
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auto it = _ids.find(oldId);
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Assert(it != _ids.end());
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_skippedBefore = oldSkippedBefore - (it - _ids.begin());
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accumulate_max(*_skippedBefore, 0);
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};
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if (skippedBefore) {
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adjustSkippedBefore(messageIds.front(), *skippedBefore);
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} else if (wasMinId != impossible && _skippedBefore) {
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adjustSkippedBefore(wasMinId, *_skippedBefore);
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} else {
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_skippedBefore = std::nullopt;
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}
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auto adjustSkippedAfter = [&](MessagePosition oldId, int oldSkippedAfter) {
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auto it = _ids.find(oldId);
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Assert(it != _ids.end());
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_skippedAfter = oldSkippedAfter - (_ids.end() - it - 1);
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accumulate_max(*_skippedAfter, 0);
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};
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if (skippedAfter) {
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adjustSkippedAfter(messageIds.back(), *skippedAfter);
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} else if (wasMaxId != impossible && _skippedAfter) {
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adjustSkippedAfter(wasMaxId, *_skippedAfter);
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} else {
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_skippedAfter = std::nullopt;
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}
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fillSkippedAndSliceToLimits();
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}
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void MessagesSliceBuilder::fillSkippedAndSliceToLimits() {
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if (_fullCount) {
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if (_skippedBefore && !_skippedAfter) {
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_skippedAfter = *_fullCount
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- *_skippedBefore
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- int(_ids.size());
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} else if (_skippedAfter && !_skippedBefore) {
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_skippedBefore = *_fullCount
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- *_skippedAfter
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- int(_ids.size());
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}
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}
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sliceToLimits();
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}
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void MessagesSliceBuilder::sliceToLimits() {
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if (!_key) {
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if (!_fullCount) {
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requestMessagesCount();
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}
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return;
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}
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auto requestedSomething = false;
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auto aroundIt = ranges::lower_bound(_ids, _key);
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auto removeFromBegin = (aroundIt - _ids.begin() - _limitBefore);
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auto removeFromEnd = (_ids.end() - aroundIt - _limitAfter - 1);
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if (removeFromBegin > 0) {
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_ids.erase(_ids.begin(), _ids.begin() + removeFromBegin);
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if (_skippedBefore) {
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*_skippedBefore += removeFromBegin;
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}
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} else if (removeFromBegin < 0
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&& (!_skippedBefore || *_skippedBefore > 0)) {
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requestedSomething = true;
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requestMessages(RequestDirection::Before);
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}
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if (removeFromEnd > 0) {
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_ids.erase(_ids.end() - removeFromEnd, _ids.end());
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if (_skippedAfter) {
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*_skippedAfter += removeFromEnd;
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}
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} else if (removeFromEnd < 0
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&& (!_skippedAfter || *_skippedAfter > 0)) {
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requestedSomething = true;
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requestMessages(RequestDirection::After);
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}
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if (!_fullCount && !requestedSomething) {
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requestMessagesCount();
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}
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}
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void MessagesSliceBuilder::requestMessages(RequestDirection direction) {
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auto requestAroundData = [&]() -> AroundData {
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if (_ids.empty()) {
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return { _key, Data::LoadDirection::Around };
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} else if (direction == RequestDirection::Before) {
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return { _ids.front(), Data::LoadDirection::Before };
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}
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return { _ids.back(), Data::LoadDirection::After };
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};
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_insufficientAround.fire(requestAroundData());
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}
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void MessagesSliceBuilder::requestMessagesCount() {
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_insufficientAround.fire({
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MessagePosition(),
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Data::LoadDirection::Around });
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}
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MessagesSlice MessagesSliceBuilder::snapshot() const {
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auto result = MessagesSlice();
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result.ids.reserve(_ids.size());
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auto nearestToAround = std::optional<FullMsgId>();
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for (const auto &position : _ids) {
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result.ids.push_back(position.fullId);
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if (!nearestToAround && position >= _key) {
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nearestToAround = position.fullId;
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}
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}
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result.nearestToAround = nearestToAround.value_or(
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_ids.empty() ? FullMsgId() : _ids.back().fullId);
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result.skippedBefore = _skippedBefore;
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result.skippedAfter = _skippedAfter;
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result.fullCount = _fullCount;
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return result;
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}
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} // namespace Data
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