202 lines
5.3 KiB
C++
202 lines
5.3 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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#pragma once
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#include "data/data_abstract_sparse_ids.h"
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#include "data/data_messages.h"
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namespace Storage {
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struct SparseIdsListResult;
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struct SparseIdsSliceUpdate;
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} // namespace Storage
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class SparseIdsSlice final : public AbstractSparseIds<base::flat_set<MsgId>> {
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public:
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using Key = MsgId;
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using AbstractSparseIds<base::flat_set<MsgId>>::AbstractSparseIds;
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};
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using SparseUnsortedIdsSlice = AbstractSparseIds<std::vector<MsgId>>;
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class SparseIdsMergedSlice {
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public:
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using UniversalMsgId = MsgId;
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struct Key {
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Key(
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PeerId peerId,
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PeerId migratedPeerId,
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UniversalMsgId universalId,
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bool scheduled = false)
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: peerId(peerId)
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, scheduled(scheduled)
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, migratedPeerId(scheduled ? 0 : migratedPeerId)
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, universalId(universalId) {
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}
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bool operator==(const Key &other) const {
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return (peerId == other.peerId)
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&& (migratedPeerId == other.migratedPeerId)
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&& (universalId == other.universalId);
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}
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bool operator!=(const Key &other) const {
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return !(*this == other);
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}
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PeerId peerId = 0;
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bool scheduled = false;
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PeerId migratedPeerId = 0;
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UniversalMsgId universalId = 0;
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};
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SparseIdsMergedSlice(Key key);
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SparseIdsMergedSlice(
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Key key,
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SparseIdsSlice part,
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std::optional<SparseIdsSlice> migrated);
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SparseIdsMergedSlice(
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Key key,
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SparseUnsortedIdsSlice scheduled);
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std::optional<int> fullCount() const;
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std::optional<int> skippedBefore() const;
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std::optional<int> skippedAfter() const;
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std::optional<int> indexOf(FullMsgId fullId) const;
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int size() const;
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FullMsgId operator[](int index) const;
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std::optional<int> distance(const Key &a, const Key &b) const;
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std::optional<FullMsgId> nearest(UniversalMsgId id) const;
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using SimpleViewerFunction = rpl::producer<SparseIdsSlice>(
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PeerId peerId,
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SparseIdsSlice::Key simpleKey,
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int limitBefore,
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int limitAfter);
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static rpl::producer<SparseIdsMergedSlice> CreateViewer(
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SparseIdsMergedSlice::Key key,
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int limitBefore,
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int limitAfter,
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Fn<SimpleViewerFunction> simpleViewer);
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private:
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static SparseIdsSlice::Key PartKey(const Key &key) {
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return (key.universalId < 0) ? 1 : key.universalId;
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}
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static SparseIdsSlice::Key MigratedKey(const Key &key) {
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return (key.universalId < 0)
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? (ServerMaxMsgId + key.universalId)
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: (key.universalId > 0) ? (ServerMaxMsgId - 1) : 0;
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}
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static std::optional<SparseIdsSlice> MigratedSlice(const Key &key) {
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return key.migratedPeerId
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? base::make_optional(SparseIdsSlice())
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: std::nullopt;
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}
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static bool IsFromSlice(PeerId peerId, FullMsgId fullId) {
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return (peerId == fullId.peer);
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}
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static FullMsgId ComputeId(PeerId peerId, MsgId msgId) {
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return FullMsgId(peerId, msgId);
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}
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static FullMsgId ComputeId(const Key &key) {
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return (key.universalId >= 0)
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? ComputeId(key.peerId, key.universalId)
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: ComputeId(key.migratedPeerId, ServerMaxMsgId + key.universalId);
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}
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static std::optional<int> Add(
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const std::optional<int> &a,
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const std::optional<int> &b) {
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return (a && b) ? base::make_optional(*a + *b) : std::nullopt;
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}
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bool isFromPart(FullMsgId fullId) const {
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return IsFromSlice(_key.peerId, fullId);
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}
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bool isFromMigrated(FullMsgId fullId) const {
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return _migrated
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? IsFromSlice(_key.migratedPeerId, fullId)
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: false;
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}
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int migratedSize() const {
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return isolatedInPart() ? 0 : _migrated->size();
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}
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bool isolatedInPart() const {
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return IsServerMsgId(_key.universalId)
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&& (!_migrated || _part.skippedBefore() != 0);
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}
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bool isolatedInMigrated() const {
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return IsServerMsgId(ServerMaxMsgId + _key.universalId)
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&& (_migrated->skippedAfter() != 0);
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}
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Key _key;
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SparseIdsSlice _part;
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std::optional<SparseIdsSlice> _migrated;
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std::optional<SparseUnsortedIdsSlice> _scheduled;
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};
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class SparseIdsSliceBuilder {
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public:
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using Key = SparseIdsSlice::Key;
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SparseIdsSliceBuilder(Key key, int limitBefore, int limitAfter);
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bool applyInitial(const Storage::SparseIdsListResult &result);
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bool applyUpdate(const Storage::SparseIdsSliceUpdate &update);
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bool removeOne(MsgId messageId);
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bool removeAll();
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bool invalidateBottom();
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void checkInsufficient();
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struct AroundData {
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MsgId aroundId = 0;
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Data::LoadDirection direction = Data::LoadDirection::Around;
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inline bool operator<(const AroundData &other) const {
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return (aroundId < other.aroundId)
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|| ((aroundId == other.aroundId)
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&& (direction < other.direction));
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}
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};
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auto insufficientAround() const {
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return _insufficientAround.events();
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}
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SparseIdsSlice snapshot() const;
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private:
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enum class RequestDirection {
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Before,
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After,
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};
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void requestMessages(RequestDirection direction);
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void requestMessagesCount();
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void fillSkippedAndSliceToLimits();
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void sliceToLimits();
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void mergeSliceData(
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std::optional<int> count,
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const base::flat_set<MsgId> &messageIds,
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std::optional<int> skippedBefore = std::nullopt,
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std::optional<int> skippedAfter = std::nullopt);
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Key _key;
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base::flat_set<MsgId> _ids;
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std::optional<int> _fullCount;
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std::optional<int> _skippedBefore;
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std::optional<int> _skippedAfter;
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int _limitBefore = 0;
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int _limitAfter = 0;
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rpl::event_stream<AroundData> _insufficientAround;
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};
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