ReverseManager.cc

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#include "ReverseManager.hh"
#include "Event.hh"
#include "MSXMotherBoard.hh"
#include "EventDistributor.hh"
#include "StateChangeDistributor.hh"
#include "Keyboard.hh"
#include "Debugger.hh"
#include "EventDelay.hh"
#include "MSXMixer.hh"
#include "MSXCommandController.hh"
#include "XMLException.hh"
#include "TclArgParser.hh"
#include "TclObject.hh"
#include "FileOperations.hh"
#include "FileContext.hh"
#include "StateChange.hh"
#include "Timer.hh"
#include "MSXCliComm.hh"
#include "Display.hh"
#include "Reactor.hh"
#include "CommandException.hh"
#include "MemBuffer.hh"
#include "narrow.hh"
#include "one_of.hh"
#include "ranges.hh"
#include "serialize.hh"
#include "serialize_meta.hh"
#include "view.hh"
#include <array>
#include <cassert>
#include <cmath>
#include <iomanip>
 
namespace openmsx {
 
// Time between two snapshots (in seconds)
static constexpr double SNAPSHOT_PERIOD = 1.0;
 
// Max number of snapshots in a replay file
static constexpr unsigned MAX_NOF_SNAPSHOTS = 10;
 
// Min distance between snapshots in replay file (in seconds)
static constexpr auto MIN_PARTITION_LENGTH = EmuDuration(60.0);
 
// Max distance of one before last snapshot before the end time in replay file (in seconds)
static constexpr auto MAX_DIST_1_BEFORE_LAST_SNAPSHOT = EmuDuration(30.0);
 
// A replay is a struct that contains a vector of motherboards and an MSX event
// log. Those combined are a replay, because you can replay the events from an
// existing motherboard state: the vector has to have at least one motherboard
// (the initial state), but can have optionally more motherboards, which are
// merely in-between snapshots, so it is quicker to jump to a later time in the
// event log.
 
struct Replay
{
        explicit Replay(Reactor& reactor_)
                : reactor(reactor_), currentTime(EmuTime::dummy()) {}
 
        Reactor& reactor;
 
        ReverseManager::Events* events;
        std::vector<Reactor::Board> motherBoards;
        EmuTime currentTime;
        // this is the amount of times the reverse goto command was used, which
        // is interesting for the TAS community (see tasvideos.org). It's an
        // indication of the effort it took to create the replay. Note that
        // there is no way to verify this number.
        unsigned reRecordCount;
 
        template<typename Archive>
        void serialize(Archive& ar, unsigned version)
        {
                if (ar.versionAtLeast(version, 2)) {
                        ar.serializeWithID("snapshots", motherBoards, std::ref(reactor));
                } else {
                        Reactor::Board newBoard = reactor.createEmptyMotherBoard();
                        ar.serialize("snapshot", *newBoard);
                        motherBoards.push_back(std::move(newBoard));
                }
 
                ar.serialize("events", *events);
 
                if (ar.versionAtLeast(version, 3)) {
                        ar.serialize("currentTime", currentTime);
                } else {
                        assert(Archive::IS_LOADER);
                        assert(!events->empty());
                        currentTime = events->back()->getTime();
                }
 
                if (ar.versionAtLeast(version, 4)) {
                        ar.serialize("reRecordCount", reRecordCount);
                }
        }
};
SERIALIZE_CLASS_VERSION(Replay, 4);
 
 
// struct ReverseHistory
 
void ReverseManager::ReverseHistory::swap(ReverseHistory& other) noexcept
{
        std::swap(chunks, other.chunks);
        std::swap(events, other.events);
}
 
void ReverseManager::ReverseHistory::clear()
{
        // clear() and free storage capacity
        Chunks().swap(chunks);
        Events().swap(events);
}
 
 
class EndLogEvent final : public StateChange
{
public:
        EndLogEvent() = default; // for serialize
        explicit EndLogEvent(EmuTime::param time_)
                : StateChange(time_)
        {
        }
 
        template<typename Archive> void serialize(Archive& ar, unsigned /*version*/)
        {
                ar.template serializeBase<StateChange>(*this);
        }
};
REGISTER_POLYMORPHIC_CLASS(StateChange, EndLogEvent, "EndLog");
 
// class ReverseManager
 
ReverseManager::ReverseManager(MSXMotherBoard& motherBoard_)
        : syncNewSnapshot(motherBoard_.getScheduler())
        , syncInputEvent (motherBoard_.getScheduler())
        , motherBoard(motherBoard_)
        , eventDistributor(motherBoard.getReactor().getEventDistributor())
        , reverseCmd(motherBoard.getCommandController())
{
        eventDistributor.registerEventListener(EventType::TAKE_REVERSE_SNAPSHOT, *this);
 
        assert(!isCollecting());
        assert(!isReplaying());
}
 
ReverseManager::~ReverseManager()
{
        stop();
        eventDistributor.unregisterEventListener(EventType::TAKE_REVERSE_SNAPSHOT, *this);
}
 
bool ReverseManager::isReplaying() const
{
        return replayIndex != history.events.size();
}
 
void ReverseManager::start()
{
        if (!isCollecting()) {
                // create first snapshot
                collecting = true;
                takeSnapshot(getCurrentTime());
                // schedule creation of next snapshot
                schedule(getCurrentTime());
                // start recording events
                motherBoard.getStateChangeDistributor().registerRecorder(*this);
        }
        assert(isCollecting());
}
 
void ReverseManager::stop()
{
        if (isCollecting()) {
                motherBoard.getStateChangeDistributor().unregisterRecorder(*this);
                syncNewSnapshot.removeSyncPoint(); // don't schedule new snapshot takings
                syncInputEvent .removeSyncPoint(); // stop any pending replay actions
                history.clear();
                replayIndex = 0;
                collecting = false;
                pendingTakeSnapshot = false;
        }
        assert(!pendingTakeSnapshot);
        assert(!isCollecting());
        assert(!isReplaying());
}
 
EmuTime::param ReverseManager::getEndTime(const ReverseHistory& hist) const
{
        if (!hist.events.empty()) {
                if (const auto* ev = dynamic_cast<const EndLogEvent*>(
                                hist.events.back().get())) {
                        // last log element is EndLogEvent, use that
                        return ev->getTime();
                }
        }
        // otherwise use current time
        assert(!isReplaying());
        return getCurrentTime();
}
 
bool ReverseManager::isViewOnlyMode() const
{
        return motherBoard.getStateChangeDistributor().isViewOnlyMode();
}
double ReverseManager::getBegin() const
{
        EmuTime b(isCollecting() ? begin(history.chunks)->second.time
                                 : EmuTime::zero());
        return (b - EmuTime::zero()).toDouble();
}
double ReverseManager::getEnd() const
{
        EmuTime end(isCollecting() ? getEndTime(history) : EmuTime::zero());
        return (end - EmuTime::zero()).toDouble();
}
double ReverseManager::getCurrent() const
{
        EmuTime current(isCollecting() ? getCurrentTime() : EmuTime::zero());
        return (current - EmuTime::zero()).toDouble();
}
std::vector<double> ReverseManager::getSnapshotTimes() const
{
        return to_vector(view::transform(history.chunks, [](auto& p) {
                return (p.second.time - EmuTime::zero()).toDouble();
        }));
}
 
void ReverseManager::status(TclObject& result) const
{
        result.addDictKeyValue("status", !isCollecting() ? "disabled"
                                       : isReplaying()   ? "replaying"
                                                         : "enabled");
        result.addDictKeyValue("begin", getBegin());
        result.addDictKeyValue("end", getEnd());
        result.addDictKeyValue("current", getCurrent());
 
        TclObject snapshots;
        snapshots.addListElements(view::transform(history.chunks, [](auto& p) {
                return (p.second.time - EmuTime::zero()).toDouble();
        }));
        result.addDictKeyValue("snapshots", snapshots);
 
        auto lastEvent = rbegin(history.events);
        if (lastEvent != rend(history.events) && dynamic_cast<const EndLogEvent*>(lastEvent->get())) {
                ++lastEvent;
        }
        EmuTime le(isCollecting() && (lastEvent != rend(history.events)) ? (*lastEvent)->getTime() : EmuTime::zero());
        result.addDictKeyValue("last_event", (le - EmuTime::zero()).toDouble());
}
 
void ReverseManager::debugInfo(TclObject& result) const
{
        // TODO this is useful during development, but for the end user this
        // information means nothing. We should remove this later.
        std::string res;
        size_t totalSize = 0;
        for (const auto& [idx, chunk] : history.chunks) {
                strAppend(res, idx, ' ',
                          (chunk.time - EmuTime::zero()).toDouble(), ' ',
                          ((chunk.time - EmuTime::zero()).toDouble() / (getCurrentTime() - EmuTime::zero()).toDouble()) * 100, "%"
                          " (", chunk.size, ")"
                          " (next event index: ", chunk.eventCount, ")\n");
                totalSize += chunk.size;
        }
        strAppend(res, "total size: ", totalSize, '\n');
        result = res;
}
 
static std::pair<bool, double> parseGoTo(Interpreter& interp, std::span<const TclObject> tokens)
{
        bool noVideo = false;
        std::array info = {flagArg("-novideo", noVideo)};
        auto args = parseTclArgs(interp, tokens.subspan(2), info);
        if (args.size() != 1) throw SyntaxError();
        double time = args[0].getDouble(interp);
        return {noVideo, time};
}
 
void ReverseManager::goBack(std::span<const TclObject> tokens)
{
        auto& interp = motherBoard.getReactor().getInterpreter();
        auto [noVideo, t] = parseGoTo(interp, tokens);
 
        EmuTime now = getCurrentTime();
        EmuTime target(EmuTime::dummy());
        if (t >= 0) {
                EmuDuration d(t);
                if (d < (now - EmuTime::zero())) {
                        target = now - d;
                } else {
                        target = EmuTime::zero();
                }
        } else {
                target = now + EmuDuration(-t);
        }
        goTo(target, noVideo);
}
 
void ReverseManager::goTo(std::span<const TclObject> tokens)
{
        auto& interp = motherBoard.getReactor().getInterpreter();
        auto [noVideo, t] = parseGoTo(interp, tokens);
 
        EmuTime target = EmuTime::zero() + EmuDuration(t);
        goTo(target, noVideo);
}
 
void ReverseManager::goTo(EmuTime::param target, bool noVideo)
{
        if (!isCollecting()) {
                throw CommandException(
                        "Reverse was not enabled. First execute the 'reverse "
                        "start' command to start collecting data.");
        }
        goTo(target, noVideo, history, true); // move in current time-line
}
 
// this function is used below, but factored out, because it's already way too long
static void reportProgress(Reactor& reactor, const EmuTime& targetTime, float fraction)
{
        double targetTimeDisp = (targetTime - EmuTime::zero()).toDouble();
        std::ostringstream sstr;
        sstr << "Time warping to " <<
                int(targetTimeDisp / 60) << ':' << std::setfill('0') <<
                std::setw(5) << std::setprecision(2) << std::fixed <<
                std::fmod(targetTimeDisp, 60.0);
        reactor.getCliComm().printProgress(sstr.str(), fraction);
        reactor.getDisplay().repaint();
}
 
void ReverseManager::goTo(
        EmuTime::param target, bool noVideo, ReverseHistory& hist,
        bool sameTimeLine)
{
        auto& mixer = motherBoard.getMSXMixer();
        try {
                // The call to MSXMotherBoard::fastForward() below may take
                // some time to execute. The DirectX sound driver has a problem
                // (not easily fixable) that it keeps on looping the sound
                // buffer on buffer underruns (the SDL driver plays silence on
                // underrun). At the end of this function we will switch to a
                // different active MSXMotherBoard. So we can as well now
                // already mute the current MSXMotherBoard.
                mixer.mute();
 
                // -- Locate destination snapshot --
                // We can't go back further in the past than the first snapshot.
                assert(!hist.chunks.empty());
                auto it = begin(hist.chunks);
                EmuTime firstTime = it->second.time;
                EmuTime targetTime = std::max(target, firstTime);
                // Also don't go further into the future than 'end time'.
                targetTime = std::min(targetTime, getEndTime(hist));
 
                // Duration of 2 PAL frames. Possible improvement is to use the
                // actual refresh rate (PAL/NTSC). But it should be the refresh
                // rate of the active video chip (v99x8/v9990) at the target
                // time. This is quite complex to get and the difference between
                // 2 PAL and 2 NTSC frames isn't that big.
                static constexpr double dur2frames = 2.0 * (313.0 * 1368.0) / (3579545.0 * 6.0);
                EmuDuration preDelta(noVideo ? 0.0 : dur2frames);
                EmuTime preTarget = ((targetTime - firstTime) > preDelta)
                                  ? targetTime - preDelta
                                  : firstTime;
 
                // find oldest snapshot that is not newer than requested time
                // TODO ATM we do a linear search, could be improved to do a binary search.
                assert(it->second.time <= preTarget); // first one is not newer
                assert(it != end(hist.chunks)); // there are snapshots
                do {
                        ++it;
                } while (it != end(hist.chunks) &&
                         it->second.time <= preTarget);
                // We found the first one that's newer, previous one is last
                // one that's not newer (thus older or equal).
                assert(it != begin(hist.chunks));
                --it;
                ReverseChunk& chunk = it->second;
                EmuTime snapshotTime = chunk.time;
                assert(snapshotTime <= preTarget);
 
                // IF current time is before the wanted time AND either
                //   - current time is closer than the closest (earlier) snapshot
                //   - OR current time is close enough (I arbitrarily choose 1s)
                // THEN it's cheaper to start from the current position (and
                //      emulated forward) than to start from a snapshot
                // THOUGH only when we're currently in the same time-line
                //   e.g. OK for a 'reverse goto' command, but not for a
                //   'reverse loadreplay' command.
                auto& reactor = motherBoard.getReactor();
                EmuTime currentTime = getCurrentTime();
                MSXMotherBoard* newBoard;
                Reactor::Board newBoard_; // either nullptr or the same as newBoard
                if (sameTimeLine &&
                    (currentTime <= preTarget) &&
                    ((snapshotTime <= currentTime) ||
                     ((preTarget - currentTime) < EmuDuration(1.0)))) {
                        newBoard = &motherBoard; // use current board
                        // suppress messages just in case, as we're later going
                        // to fast forward to the right time
                        newBoard->getMSXCliComm().setSuppressMessages(true);
                } else {
                        // Note: we don't (anymore) erase future snapshots
                        // -- restore old snapshot --
                        newBoard_ = reactor.createEmptyMotherBoard();
                        newBoard = newBoard_.get();
                        // suppress messages we'd get by deserializing (and
                        // thus instantiating the parts of) the new board
                        newBoard->getMSXCliComm().setSuppressMessages(true);
                        MemInputArchive in(chunk.savestate.data(),
                                           chunk.size,
                                           chunk.deltaBlocks);
                        in.serialize("machine", *newBoard);
 
                        if (eventDelay) {
                                // Handle all events that are scheduled, but not yet
                                // distributed. This makes sure no events get lost
                                // (important to keep host/msx keyboard in sync).
                                eventDelay->flush();
                        }
 
                        // terminate replay log with EndLogEvent (if not there already)
                        if (hist.events.empty() ||
                            !dynamic_cast<const EndLogEvent*>(hist.events.back().get())) {
                                hist.events.push_back(
                                        std::make_unique<EndLogEvent>(currentTime));
                        }
 
                        // Transfer history to the new ReverseManager.
                        // Also we should stop collecting in this ReverseManager,
                        // and start collecting in the new one.
                        auto& newManager = newBoard->getReverseManager();
                        newManager.transferHistory(hist, chunk.eventCount);
 
                        // transfer (or copy) state from old to new machine
                        transferState(*newBoard);
 
                        // In case of load-replay it's possible we are not collecting,
                        // but calling stop() anyway is ok.
                        stop();
                }
 
                // -- goto correct time within snapshot --
                // Fast forward 2 frames before target time.
                // If we're short on snapshots, create them at intervals that are
                // at least the usual interval, but the later, the more: each
                // time divide the remaining time in half and make a snapshot
                // there.
                auto lastProgress = Timer::getTime();
                auto startMSXTime = newBoard->getCurrentTime();
                auto lastSnapshotTarget = startMSXTime;
                bool everShowedProgress = false;
                syncNewSnapshot.removeSyncPoint(); // don't schedule new snapshot takings during fast forward
                while (true) {
                        auto currentTimeNewBoard = newBoard->getCurrentTime();
                        auto nextSnapshotTarget = std::min(
                                preTarget,
                                lastSnapshotTarget + std::max(
                                        EmuDuration(SNAPSHOT_PERIOD),
                                        (preTarget - lastSnapshotTarget) / 2
                                        ));
                        auto nextTarget = std::min(nextSnapshotTarget, currentTimeNewBoard + EmuDuration::sec(1));
                        newBoard->fastForward(nextTarget, true);
                        auto now = Timer::getTime();
                        if (((now - lastProgress) > 1000000) || ((currentTimeNewBoard >= preTarget) && everShowedProgress)) {
                                everShowedProgress = true;
                                lastProgress = now;
                                auto fraction = ((currentTimeNewBoard - startMSXTime)).toDouble() / (preTarget - startMSXTime).toDouble();
                                reportProgress(newBoard->getReactor(), targetTime, float(fraction));
                        }
                        // note: fastForward does not always stop at
                        //       _exactly_ the requested time
                        if (currentTimeNewBoard >= preTarget) break;
                        if (currentTimeNewBoard >= nextSnapshotTarget) {
                                // NOTE: there used to be
                                //newBoard->getReactor().getEventDistributor().deliverEvents();
                                // here, but that has all kinds of nasty side effects: it enables
                                // processing of hotkeys, which can cause things like the machine
                                // being deleted, causing a crash. TODO: find a better way to support
                                // live updates of the UI whilst being in a reverse action...
                                newBoard->getReverseManager().takeSnapshot(currentTimeNewBoard);
                                lastSnapshotTarget = nextSnapshotTarget;
                        }
                }
                // re-enable messages
                newBoard->getMSXCliComm().setSuppressMessages(false);
                // re-enable automatic snapshots
                schedule(getCurrentTime());
 
                // switch to the new MSXMotherBoard
                //  Note: this deletes the current MSXMotherBoard and
                //  ReverseManager. So we can't access those objects anymore.
                bool unmute = true;
                if (newBoard_) {
                        unmute = false;
                        reactor.replaceBoard(motherBoard, std::move(newBoard_));
                }
 
                // Fast forward to actual target time with board activated.
                // This makes sure the video output gets rendered.
                newBoard->fastForward(targetTime, false);
 
                // In case we didn't actually create a new board, don't leave
                // the (old) board muted.
                if (unmute) {
                        mixer.unmute();
                }
 
                //assert(!isCollecting()); // can't access 'this->' members anymore!
                assert(newBoard->getReverseManager().isCollecting());
        } catch (MSXException&) {
                // Make sure mixer doesn't stay muted in case of error.
                mixer.unmute();
                throw;
        }
}
 
void ReverseManager::transferState(MSXMotherBoard& newBoard)
{
        // Transfer view only mode
        const auto& oldDistributor = motherBoard.getStateChangeDistributor();
              auto& newDistributor = newBoard   .getStateChangeDistributor();
        newDistributor.setViewOnlyMode(oldDistributor.isViewOnlyMode());
 
        // transfer keyboard state
        auto& newManager = newBoard.getReverseManager();
        if (newManager.keyboard && keyboard) {
                newManager.keyboard->transferHostKeyMatrix(*keyboard);
        }
 
        // transfer watchpoints
        newBoard.getDebugger().transfer(motherBoard.getDebugger());
 
        // copy rerecord count
        newManager.reRecordCount = reRecordCount;
 
        // transfer settings
        const auto& oldController = motherBoard.getMSXCommandController();
        newBoard.getMSXCommandController().transferSettings(oldController);
}
 
void ReverseManager::saveReplay(
        Interpreter& interp, std::span<const TclObject> tokens, TclObject& result)
{
        const auto& chunks = history.chunks;
        if (chunks.empty()) {
                throw CommandException("No recording...");
        }
 
        std::string_view filenameArg;
        int maxNofExtraSnapshots = MAX_NOF_SNAPSHOTS;
        std::array info = {valueArg("-maxnofextrasnapshots", maxNofExtraSnapshots)};
        auto args = parseTclArgs(interp, tokens.subspan(2), info);
        switch (args.size()) {
                case 0: break; // nothing
                case 1: filenameArg = args[0].getString(); break;
                default: throw SyntaxError();
        }
        if (maxNofExtraSnapshots < 0) {
                throw CommandException("Maximum number of snapshots should be at least 0");
        }
 
        auto filename = FileOperations::parseCommandFileArgument(
                filenameArg, REPLAY_DIR, "openmsx", ".omr");
 
        auto& reactor = motherBoard.getReactor();
        Replay replay(reactor);
        replay.reRecordCount = reRecordCount;
 
        // store current time (possibly somewhere in the middle of the timeline)
        // so that on load we can go back there
        replay.currentTime = getCurrentTime();
 
        // restore first snapshot to be able to serialize it to a file
        auto initialBoard = reactor.createEmptyMotherBoard();
        MemInputArchive in(begin(chunks)->second.savestate.data(),
                           begin(chunks)->second.size,
                           begin(chunks)->second.deltaBlocks);
        in.serialize("machine", *initialBoard);
        replay.motherBoards.push_back(std::move(initialBoard));
 
        if (maxNofExtraSnapshots > 0) {
                // determine which extra snapshots to put in the replay
                const auto& startTime = begin(chunks)->second.time;
                // for the end time, try to take MAX_DIST_1_BEFORE_LAST_SNAPSHOT
                // seconds before the normal end time so that we get an extra snapshot
                // at that point, which is comfortable if you want to reverse from the
                // last snapshot after loading the replay.
                const auto& lastChunkTime = rbegin(chunks)->second.time;
                const auto& endTime   = ((startTime + MAX_DIST_1_BEFORE_LAST_SNAPSHOT) < lastChunkTime) ? lastChunkTime - MAX_DIST_1_BEFORE_LAST_SNAPSHOT : lastChunkTime;
                EmuDuration totalLength = endTime - startTime;
                EmuDuration partitionLength = totalLength.divRoundUp(maxNofExtraSnapshots);
                partitionLength = std::max(MIN_PARTITION_LENGTH, partitionLength);
                EmuTime nextPartitionEnd = startTime + partitionLength;
                auto it = begin(chunks);
                auto lastAddedIt = begin(chunks); // already added
                while (it != end(chunks)) {
                        ++it;
                        if (it == end(chunks) || (it->second.time > nextPartitionEnd)) {
                                --it;
                                assert(it->second.time <= nextPartitionEnd);
                                if (it != lastAddedIt) {
                                        // this is a new one, add it to the list of snapshots
                                        Reactor::Board board = reactor.createEmptyMotherBoard();
                                        MemInputArchive in2(it->second.savestate.data(),
                                                            it->second.size,
                                                            it->second.deltaBlocks);
                                        in2.serialize("machine", *board);
                                        replay.motherBoards.push_back(std::move(board));
                                        lastAddedIt = it;
                                }
                                ++it;
                                while (it != end(chunks) && it->second.time > nextPartitionEnd) {
                                        nextPartitionEnd += partitionLength;
                                }
                        }
                }
                assert(lastAddedIt == std::prev(end(chunks))); // last snapshot must be included
        }
 
        // add sentinel when there isn't one yet
        bool addSentinel = history.events.empty() ||
                !dynamic_cast<EndLogEvent*>(history.events.back().get());
        if (addSentinel) {
                history.events.push_back(std::make_unique<EndLogEvent>(
                        getCurrentTime()));
        }
        try {
                XmlOutputArchive out(filename);
                replay.events = &history.events;
                out.serialize("replay", replay);
                out.close();
        } catch (MSXException&) {
                if (addSentinel) {
                        history.events.pop_back();
                }
                throw;
        }
 
        if (addSentinel) {
                // Is there a cleaner way to only add the sentinel in the log?
                // I mean avoid changing/restoring the current log. We could
                // make a copy and work on that, but that seems much less
                // efficient.
                history.events.pop_back();
        }
 
        result = tmpStrCat("Saved replay to ", filename);
}
 
void ReverseManager::loadReplay(
        Interpreter& interp, std::span<const TclObject> tokens, TclObject& result)
{
        bool enableViewOnly = false;
        std::optional<TclObject> where;
        std::array info = {
                flagArg("-viewonly", enableViewOnly),
                valueArg("-goto", where),
        };
        auto arguments = parseTclArgs(interp, tokens.subspan(2), info);
        if (arguments.size() != 1) throw SyntaxError();
 
        // resolve the filename
        auto context = userDataFileContext(REPLAY_DIR);
        std::string fileNameArg(arguments[0].getString());
        std::string filename;
        try {
                // Try filename as typed by user.
                filename = context.resolve(fileNameArg);
        } catch (MSXException& /*e1*/) { try {
                // Not found, try adding '.omr'.
                filename = context.resolve(tmpStrCat(fileNameArg, ".omr"));
        } catch (MSXException& e2) { try {
                // Again not found, try adding '.gz'.
                // (this is for backwards compatibility).
                filename = context.resolve(tmpStrCat(fileNameArg, ".gz"));
        } catch (MSXException& /*e3*/) {
                // Show error message that includes the default extension.
                throw e2;
        }}}
 
        // restore replay
        auto& reactor = motherBoard.getReactor();
        Replay replay(reactor);
        Events events;
        replay.events = &events;
        try {
                XmlInputArchive in(filename);
                in.serialize("replay", replay);
        } catch (XMLException& e) {
                throw CommandException("Cannot load replay, bad file format: ",
                                       e.getMessage());
        } catch (MSXException& e) {
                throw CommandException("Cannot load replay: ", e.getMessage());
        }
 
        // get destination time index
        auto destination = EmuTime::zero();
        if (!where || (*where == "begin")) {
                destination = EmuTime::zero();
        } else if (*where == "end") {
                destination = EmuTime::infinity();
        } else if (*where == "savetime") {
                destination = replay.currentTime;
        } else {
                destination += EmuDuration(where->getDouble(interp));
        }
 
        // OK, we are going to be actually changing states now
 
        // now we can change the view only mode
        motherBoard.getStateChangeDistributor().setViewOnlyMode(enableViewOnly);
 
        assert(!replay.motherBoards.empty());
        auto& newReverseManager = replay.motherBoards[0]->getReverseManager();
        auto& newHistory = newReverseManager.history;
 
        if (newReverseManager.reRecordCount == 0) {
                // serialize Replay version >= 4
                newReverseManager.reRecordCount = replay.reRecordCount;
        } else {
                // newReverseManager.reRecordCount is initialized via
                // call from MSXMotherBoard to setReRecordCount()
        }
 
        // Restore event log
        swap(newHistory.events, events);
        auto& newEvents = newHistory.events;
 
        // Restore snapshots
        unsigned replayIdx = 0;
        for (auto& m : replay.motherBoards) {
                ReverseChunk newChunk;
                newChunk.time = m->getCurrentTime();
 
                MemOutputArchive out(newHistory.lastDeltaBlocks,
                                     newChunk.deltaBlocks, false);
                out.serialize("machine", *m);
                newChunk.savestate = out.releaseBuffer(newChunk.size);
 
                // update replayIdx
                // TODO: should we use <= instead??
                while (replayIdx < newEvents.size() &&
                       (newEvents[replayIdx]->getTime() < newChunk.time)) {
                        replayIdx++;
                }
                newChunk.eventCount = replayIdx;
 
                newHistory.chunks[newHistory.getNextSeqNum(newChunk.time)] =
                        std::move(newChunk);
        }
 
        // Note: until this point we didn't make any changes to the current
        // ReverseManager/MSXMotherBoard yet
        reRecordCount = newReverseManager.reRecordCount;
        bool noVideo = false;
        goTo(destination, noVideo, newHistory, false); // move to different time-line
 
        result = tmpStrCat("Loaded replay from ", filename);
}
 
void ReverseManager::transferHistory(ReverseHistory& oldHistory,
                                     unsigned oldEventCount)
{
        assert(!isCollecting());
        assert(history.chunks.empty());
 
        // 'ids' for old and new serialize blobs don't match, so cleanup old cache
        oldHistory.lastDeltaBlocks.clear();
 
        // actual history transfer
        history.swap(oldHistory);
 
        // resume collecting (and event recording)
        collecting = true;
        schedule(getCurrentTime());
        motherBoard.getStateChangeDistributor().registerRecorder(*this);
 
        // start replaying events
        replayIndex = oldEventCount;
        // replay log contains at least the EndLogEvent
        assert(replayIndex < history.events.size());
        replayNextEvent();
}
 
void ReverseManager::execNewSnapshot()
{
        // During record we should take regular snapshots, and 'now'
        // it's been a while since the last snapshot. But 'now' can be
        // in the middle of a CPU instruction (1). However the CPU
        // emulation code cannot handle taking snapshots at arbitrary
        // moments in EmuTime (2)(3)(4). So instead we send out an
        // event that indicates we want to take a snapshot (5).
        // (1) Schedulables are executed at the exact requested
        //     EmuTime, even in the middle of a Z80 instruction.
        // (2) The CPU code serializes all registers, current time and
        //     various other status info, but not enough info to be
        //     able to resume in the middle of an instruction.
        // (3) Only the CPU has this limitation of not being able to
        //     take a snapshot at any EmuTime, all other devices can.
        //     This is because in our emulation model the CPU 'drives
        //     time forward'. It's the only device code that can be
        //     interrupted by other emulation code (via Schedulables).
        // (4) In the past we had a CPU core that could execute/resume
        //     partial instructions (search SVN history). Though it was
        //     much more complex and it also ran slower than the
        //     current code.
        // (5) Events are delivered from the Reactor code. That code
        //     only runs when the CPU code has exited (meaning no
        //     longer active in any stackframe). So it's executed right
        //     after the CPU has finished the current instruction. And
        //     that's OK, we only require regular snapshots here, they
        //     should not be *exactly* equally far apart in time.
        pendingTakeSnapshot = true;
        eventDistributor.distributeEvent(TakeReverseSnapshotEvent());
}
 
void ReverseManager::execInputEvent()
{
        const auto& event = *history.events[replayIndex];
        try {
                // deliver current event at current time
                motherBoard.getStateChangeDistributor().distributeReplay(event);
        } catch (MSXException&) {
                // can throw in case we replay a command that fails
                // ignore
        }
        if (!dynamic_cast<const EndLogEvent*>(&event)) {
                ++replayIndex;
                replayNextEvent();
        } else {
                signalStopReplay(event.getTime());
                assert(!isReplaying());
        }
}
 
int ReverseManager::signalEvent(const Event& event)
{
        (void)event;
        assert(getType(event) == EventType::TAKE_REVERSE_SNAPSHOT);
 
        // This event is send to all MSX machines, make sure it's actually this
        // machine that requested the snapshot.
        if (pendingTakeSnapshot) {
                pendingTakeSnapshot = false;
                takeSnapshot(getCurrentTime());
                // schedule creation of next snapshot
                schedule(getCurrentTime());
        }
        return 0;
}
 
unsigned ReverseManager::ReverseHistory::getNextSeqNum(EmuTime::param time) const
{
        if (chunks.empty()) {
                return 0;
        }
        const auto& startTime = begin(chunks)->second.time;
        double duration = (time - startTime).toDouble();
        return narrow<unsigned>(lrint(duration / SNAPSHOT_PERIOD));
}
 
void ReverseManager::takeSnapshot(EmuTime::param time)
{
        // (possibly) drop old snapshots
        // TODO does snapshot pruning still happen correctly (often enough)
        //      when going back/forward in time?
        unsigned seqNum = history.getNextSeqNum(time);
        dropOldSnapshots<25>(seqNum);
 
        // During replay we might already have a snapshot with the current
        // sequence number, though this snapshot does not necessarily have the
        // exact same EmuTime (because we don't (re)start taking snapshots at
        // the same moment in time).
 
        // actually create new snapshot
        ReverseChunk& newChunk = history.chunks[seqNum];
        newChunk.deltaBlocks.clear();
        MemOutputArchive out(history.lastDeltaBlocks, newChunk.deltaBlocks, true);
        out.serialize("machine", motherBoard);
        newChunk.time = time;
        newChunk.savestate = out.releaseBuffer(newChunk.size);
        newChunk.eventCount = replayIndex;
}
 
void ReverseManager::replayNextEvent()
{
        // schedule next event at its own time
        assert(replayIndex < history.events.size());
        syncInputEvent.setSyncPoint(history.events[replayIndex]->getTime());
}
 
void ReverseManager::signalStopReplay(EmuTime::param time)
{
        motherBoard.getStateChangeDistributor().stopReplay(time);
        // this is needed to prevent a reRecordCount increase
        // due to this action ending the replay
        reRecordCount--;
}
 
void ReverseManager::stopReplay(EmuTime::param time) noexcept
{
        if (isReplaying()) {
                // if we're replaying, stop it and erase remainder of event log
                syncInputEvent.removeSyncPoint();
                Events& events = history.events;
                events.erase(begin(events) + replayIndex, end(events));
                // search snapshots that are newer than 'time' and erase them
                auto it = ranges::find_if(history.chunks, [&](auto& p) {
                        return p.second.time > time;
                });
                history.chunks.erase(it, end(history.chunks));
                // this also means someone is changing history, record that
                reRecordCount++;
        }
        assert(!isReplaying());
}
 
/* Should be called each time a new snapshot is added.
 * This function will erase zero or more earlier snapshots so that there are
 * more snapshots of recent history and less of distant history. It has the
 * following properties:
 *  - the very oldest snapshot is never deleted
 *  - it keeps the N or N+1 most recent snapshots (snapshot distance = 1)
 *  - then it keeps N or N+1 with snapshot distance 2
 *  - then N or N+1 with snapshot distance 4
 *  - ... and so on
 * @param count The index of the just added (or about to be added) element.
 *              First element should have index 1.
 */
template<unsigned N>
void ReverseManager::dropOldSnapshots(unsigned count)
{
        unsigned y = (count + N) ^ (count + N + 1);
        unsigned d = N;
        unsigned d2 = 2 * N + 1;
        while (true) {
                y >>= 1;
                if ((y == 0) || (count < d)) return;
                history.chunks.erase(count - d);
                d += d2;
                d2 *= 2;
        }
}
 
void ReverseManager::schedule(EmuTime::param time)
{
        syncNewSnapshot.setSyncPoint(time + EmuDuration(SNAPSHOT_PERIOD));
}
 
 
// class ReverseCmd
 
ReverseManager::ReverseCmd::ReverseCmd(CommandController& controller)
        : Command(controller, "reverse")
{
}
 
void ReverseManager::ReverseCmd::execute(std::span<const TclObject> tokens, TclObject& result)
{
        checkNumArgs(tokens, AtLeast{2}, "subcommand ?arg ...?");
        auto& manager = OUTER(ReverseManager, reverseCmd);
        auto& interp = getInterpreter();
        executeSubCommand(tokens[1].getString(),
                "start",      [&]{ manager.start(); },
                "stop",       [&]{ manager.stop(); },
                "status",     [&]{ manager.status(result); },
                "debug",      [&]{ manager.debugInfo(result); },
                "goback",     [&]{ manager.goBack(tokens); },
                "goto",       [&]{ manager.goTo(tokens); },
                "savereplay", [&]{ manager.saveReplay(interp, tokens, result); },
                "loadreplay", [&]{ manager.loadReplay(interp, tokens, result); },
                "viewonlymode", [&]{
                        auto& distributor = manager.motherBoard.getStateChangeDistributor();
                        switch (tokens.size()) {
                        case 2:
                                result = distributor.isViewOnlyMode();
                                break;
                        case 3:
                                distributor.setViewOnlyMode(tokens[2].getBoolean(interp));
                                break;
                        default:
                                throw SyntaxError();
                        }},
                "truncatereplay", [&] {
                        if (manager.isReplaying()) {
                                manager.signalStopReplay(manager.getCurrentTime());
                        }});
}
 
std::string ReverseManager::ReverseCmd::help(std::span<const TclObject> /*tokens*/) const
{
        return "start               start collecting reverse data\n"
               "stop                stop collecting\n"
               "status              show various status info on reverse\n"
               "goback <n>          go back <n> seconds in time\n"
               "goto <time>         go to an absolute moment in time\n"
               "viewonlymode <bool> switch viewonly mode on or off\n"
               "truncatereplay      stop replaying and remove all 'future' data\n"
               "savereplay [<name>] save the first snapshot and all replay data as a 'replay' (with optional name)\n"
               "loadreplay [-goto <begin|end|savetime|<n>>] [-viewonly] <name>   load a replay (snapshot and replay data) with given name and start replaying\n";
}
 
void ReverseManager::ReverseCmd::tabCompletion(std::vector<std::string>& tokens) const
{
        using namespace std::literals;
        if (tokens.size() == 2) {
                static constexpr std::array subCommands = {
                        "start"sv, "stop"sv, "status"sv, "goback"sv, "goto"sv,
                        "savereplay"sv, "loadreplay"sv, "viewonlymode"sv,
                        "truncatereplay"sv,
                };
                completeString(tokens, subCommands);
        } else if ((tokens.size() == 3) || (tokens[1] == "loadreplay")) {
                if (tokens[1] == one_of("loadreplay", "savereplay")) {
                        static constexpr std::array cmds = {"-goto"sv, "-viewonly"sv};
                        completeFileName(tokens, userDataFileContext(REPLAY_DIR),
                                (tokens[1] == "loadreplay") ? cmds : std::span<const std::string_view>{});
                } else if (tokens[1] == "viewonlymode") {
                        static constexpr std::array options = {"true"sv, "false"sv};
                        completeString(tokens, options);
                }
        }
}
 
} // namespace openmsx