doxygen/LaserdiscPlayer_8cc_source.html

#include "LaserdiscPlayer.hh"

#include "CommandException.hh"

#include "CommandController.hh"

#include "EventDistributor.hh"

#include "FileContext.hh"

#include "DeviceConfig.hh"

#include "HardwareConfig.hh"

#include "XMLElement.hh"

#include "CassettePort.hh"

#include "MSXCliComm.hh"

#include "Display.hh"

#include "GlobalSettings.hh"

#include "Reactor.hh"

#include "ReverseManager.hh"

#include "MSXMotherBoard.hh"

#include "PioneerLDControl.hh"

#include "LDRenderer.hh"

#include "RendererFactory.hh"

#include "Math.hh"

#include "narrow.hh"

#include "one_of.hh"

#include <cstdint>

#include <cstdlib>

#include <iostream>

#include <memory>


using std::string;


namespace openmsx {


static std::string_view getLaserDiscPlayerName()

{

        return "laserdiscplayer";

}


// Command


LaserdiscPlayer::Command::Command(

                CommandController& commandController_,

                StateChangeDistributor& stateChangeDistributor_,

                Scheduler& scheduler_)

        : RecordedCommand(commandController_, stateChangeDistributor_,

                          scheduler_, getLaserDiscPlayerName())

{

}


void LaserdiscPlayer::Command::execute(

        std::span<const TclObject> tokens, TclObject& result, EmuTime::param time)

{

        auto& laserdiscPlayer = OUTER(LaserdiscPlayer, laserdiscCommand);

        if (tokens.size() == 1) {

                // Returning Tcl lists here, similar to the disk commands in

                // DiskChanger

                result.addListElement(tmpStrCat(getName(), ':'),

                                      laserdiscPlayer.getImageName().getResolved());

        } else if (tokens[1] == "eject") {

                checkNumArgs(tokens, 2, Prefix{2}, nullptr);

                result = "Ejecting laserdisc.";

                laserdiscPlayer.eject(time);

        } else if (tokens[1] == "insert") {

                checkNumArgs(tokens, 3, "filename");

                try {

                        result = "Changing laserdisc.";

                        laserdiscPlayer.setImageName(string(tokens[2].getString()), time);

                } catch (MSXException& e) {

                        throw CommandException(std::move(e).getMessage());

                }

        } else {

                throw SyntaxError();

        }

}


string LaserdiscPlayer::Command::help(std::span<const TclObject> tokens) const

{

        if (tokens.size() >= 2) {

                if (tokens[1] == "insert") {

                        return "Inserts the specified laserdisc image into "

                               "the laserdisc player.";

                } else if (tokens[1] == "eject") {

                        return "Eject the laserdisc.";

                }

        }

        return "laserdiscplayer insert <filename> "

               ": insert a (different) laserdisc image\n"

               "laserdiscplayer eject             "

               ": eject the laserdisc\n";

}


void LaserdiscPlayer::Command::tabCompletion(std::vector<string>& tokens) const

{

        if (tokens.size() == 2) {

                using namespace std::literals;

                static constexpr std::array extra = {"eject"sv, "insert"sv};

                completeString(tokens, extra);

        } else if (tokens.size() == 3 && tokens[1] == "insert") {

                completeFileName(tokens, userFileContext());

        }

}


// LaserdiscPlayer


static constexpr unsigned DUMMY_INPUT_RATE = 44100; // actual rate depends on .ogg file


LaserdiscPlayer::LaserdiscPlayer(

                const HardwareConfig& hwConf, PioneerLDControl& ldControl_)

        : ResampledSoundDevice(hwConf.getMotherBoard(), getLaserDiscPlayerName(),

                               "Laserdisc Player", 1, DUMMY_INPUT_RATE, true)

        , syncAck (hwConf.getMotherBoard().getScheduler())

        , syncOdd (hwConf.getMotherBoard().getScheduler())

        , syncEven(hwConf.getMotherBoard().getScheduler())

        , motherBoard(hwConf.getMotherBoard())

        , ldControl(ldControl_)

        , laserdiscCommand(motherBoard.getCommandController(),

                           motherBoard.getStateChangeDistributor(),

                           motherBoard.getScheduler())

        , autoRunSetting(

                motherBoard.getCommandController(), "autorunlaserdisc",

                "automatically try to run Laserdisc", true)

        , loadingIndicator(

                motherBoard.getReactor().getGlobalSettings().getThrottleManager())

{

        motherBoard.getCassettePort().setLaserdiscPlayer(this);


        Reactor& reactor = motherBoard.getReactor();

        reactor.getDisplay().attach(*this);


        createRenderer();

        reactor.getEventDistributor().registerEventListener(EventType::BOOT, *this);

        scheduleDisplayStart(getCurrentTime());


        static const XMLElement* xml = [] {

                auto& doc = XMLDocument::getStaticDocument();

                auto* result = doc.allocateElement(string(getLaserDiscPlayerName()).c_str());

                result->setFirstChild(doc.allocateElement("sound"))

                      ->setFirstChild(doc.allocateElement("volume", "30000"));

                return result;

        }();

        registerSound(DeviceConfig(hwConf, *xml));


        motherBoard.registerMediaInfo(getLaserDiscPlayerName(), *this);

        motherBoard.getMSXCliComm().update(CliComm::HARDWARE, getLaserDiscPlayerName(), "add");

}


LaserdiscPlayer::~LaserdiscPlayer()

{

        unregisterSound();

        Reactor& reactor = motherBoard.getReactor();

        reactor.getDisplay().detach(*this);

        reactor.getEventDistributor().unregisterEventListener(EventType::BOOT, *this);

        motherBoard.unregisterMediaInfo(*this);

        motherBoard.getMSXCliComm().update(CliComm::HARDWARE, getLaserDiscPlayerName(), "remove");

}


string LaserdiscPlayer::getStateString() const

{

        switch (playerState) {

                case PLAYER_STOPPED:     return "stopped";

                case PLAYER_PLAYING:     return "playing";

                case PLAYER_MULTI_SPEED: return "multispeed";

                case PLAYER_PAUSED:      return "paused";

                case PLAYER_STILL:       return "still";

        }

        UNREACHABLE; return {};

}


void LaserdiscPlayer::getMediaInfo(TclObject& result)

{

        result.addDictKeyValues("target", getImageName().getResolved(),

                                "state", getStateString());

}


void LaserdiscPlayer::scheduleDisplayStart(EmuTime::param time)

{

        Clock<60000, 1001> frameClock(time);

        // The video is 29.97Hz, however we need to do vblank processing

        // at the full 59.94Hz

        syncOdd .setSyncPoint(frameClock + 1);

        syncEven.setSyncPoint(frameClock + 2);

}


// The protocol used to communicate over the cable for commands to the

// laserdisc player is the NEC infrared protocol with minor deviations:

// 1) The leader pulse and space is a little shorter.

// 2) The remote does not send NEC repeats; full NEC codes are repeated

//    after 20ms. The main unit does not understand NEC repeats.

// 3) No carrier modulation is done over the ext protocol.

//

// My Laserdisc player is an Pioneer LD-700 which has a remote called

// the CU-700. This is much like the CU-CLD106 which is described

// here: http://lirc.sourceforge.net/remotes/pioneer/CU-CLD106

// The codes and protocol are exactly the same.

void LaserdiscPlayer::extControl(bool bit, EmuTime::param time)

{

        if (remoteLastBit == bit) return;

        remoteLastBit = bit;


        // The tolerance here is based on actual measurements of an LD-700

        EmuDuration duration = time - remoteLastEdge;

        remoteLastEdge = time;

        unsigned usec = duration.getTicksAt(1000000); // microseconds


        switch (remoteState) {

        case REMOTE_IDLE:

                if (bit) {

                        remoteBits = remoteBitNr = 0;

                        remoteState = REMOTE_HEADER_PULSE;

                }

                break;

        case REMOTE_HEADER_PULSE:

                if (5800 <= usec && usec < 11200) {

                        remoteState = NEC_HEADER_SPACE;

                } else {

                        remoteState = REMOTE_IDLE;

                }

                break;

        case NEC_HEADER_SPACE:

                if (3400 <= usec && usec < 6200) {

                        remoteState = NEC_BITS_PULSE;

                } else {

                        remoteState = REMOTE_IDLE;

                }

                break;

        case NEC_BITS_PULSE:

                if (usec >= 380 && usec < 1070) {

                        remoteState = NEC_BITS_SPACE;

                } else {

                        remoteState = REMOTE_IDLE;

                }

                break;

        case NEC_BITS_SPACE:

                if (1260 <= usec && usec < 4720) {

                        // bit 1

                        remoteBits |= 1 << remoteBitNr;

                } else if (usec < 300 || usec >= 1065) {

                        // error

                        remoteState = REMOTE_IDLE;

                        break;

                }


                // since it does not matter how long the trailing pulse

                // is, we process the button here. Note that real hardware

                // needs the trailing pulse to be at least 200µs

                if (++remoteBitNr == 32) {

                        auto custom      = narrow_cast<byte>(( remoteBits >>  0) & 0xff);

                        auto customCompl = narrow_cast<byte>((~remoteBits >>  8) & 0xff);

                        auto code        = narrow_cast<byte>(( remoteBits >> 16) & 0xff);

                        auto codeCompl   = narrow_cast<byte>((~remoteBits >> 24) & 0xff);

                        if (custom == customCompl &&

                            custom == 0xa8 &&

                            code == codeCompl) {

                                submitRemote(IR_NEC, code);

                        }

                        remoteState = REMOTE_IDLE;

                } else {

                        remoteState = NEC_BITS_PULSE;

                }


                break;

        }

}


void LaserdiscPlayer::submitRemote(RemoteProtocol protocol, uint8_t code)

{

        // The END command for seeking/waiting acknowledges repeats,

        // Esh's Aurunmilla needs play as well.

        if (protocol != remoteProtocol || code != remoteCode ||

            (protocol == IR_NEC && (code == one_of(0x42u, 0x17u)))) {

                remoteProtocol = protocol;

                remoteCode = code;

                remoteVblanksBack = 0;

                remoteExecuteDelayed = true;

        } else {

                // remote ignored

                remoteVblanksBack = 0;

                remoteExecuteDelayed = false;

        }

}


const RawFrame* LaserdiscPlayer::getRawFrame() const

{

        return renderer->getRawFrame();

}


void LaserdiscPlayer::setAck(EmuTime::param time, int wait)

{

        // activate ACK for 'wait' milliseconds

        syncAck.removeSyncPoint();

        syncAck.setSyncPoint(time + EmuDuration::msec(wait));

        ack = true;

}


void LaserdiscPlayer::remoteButtonNEC(uint8_t code, EmuTime::param time)

{

#ifdef DEBUG

        string f;

        switch (code) {

        case 0x47: f = "C+"; break;     // Increase playing speed

        case 0x46: f = "C-"; break;     // Decrease playing speed

        case 0x43: f = "D+"; break;     // Show Frame# & Chapter# OSD

        case 0x4b: f = "L+"; break;     // right

        case 0x49: f = "L-"; break;     // left

        case 0x4a: f = "L@"; break;     // stereo

        case 0x58: f = "M+"; break;     // multi speed forwards

        case 0x55: f = "M-"; break;     // multi speed backwards

        case 0x17: f = "P+"; break;     // play

        case 0x16: f = "P@"; break;     // stop

        case 0x18: f = "P/"; break;     // pause

        case 0x54: f = "S+"; break;     // frame step forward

        case 0x50: f = "S-"; break;     // frame step backwards

        case 0x45: f = "X+"; break;     // clear

        case 0x41: f = 'F'; break;      // seek frame

        case 0x40: f = 'C'; break;      // seek chapter

        case 0x42: f = "END"; break;    // done seek frame/chapter

        case 0x00: f = '0'; break;

        case 0x01: f = '1'; break;

        case 0x02: f = '2'; break;

        case 0x03: f = '3'; break;

        case 0x04: f = '4'; break;

        case 0x05: f = '5'; break;

        case 0x06: f = '6'; break;

        case 0x07: f = '7'; break;

        case 0x08: f = '8'; break;

        case 0x09: f = '9'; break;

        case 0x5f: f = "WAIT FRAME"; break;


        case 0x53: // previous chapter

        case 0x52: // next chapter

        default: break;

        }


        if (!f.empty()) {

                std::cerr << "LaserdiscPlayer::remote " << f << '\n';

        } else {

                std::cerr << "LaserdiscPlayer::remote unknown " << std::hex << code << '\n';

        }

#endif

        // When not playing the following buttons work

        // 0x17: start playing (ack sent)

        // 0x16: eject (no ack)

        // 0x49, 0x4a, 0x4b (ack sent)

        // if 0x49 is a repeat then no ACK is sent

        // if 0x49 is followed by 0x4a then ACK is sent

        if (code == one_of(0x49u, 0x4au, 0x4bu)) {

                updateStream(time);


                switch (code) {

                case 0x4b: // L+ (both channels play the left channel)

                        stereoMode = LEFT;

                        break;

                case 0x49: // L- (both channels play the right channel)

                        stereoMode = RIGHT;

                        break;

                case 0x4a: // L@ (normal stereo)

                        stereoMode = STEREO;

                        break;

                }


                setAck(time, 46);

        } else if (playerState == PLAYER_STOPPED) {

                switch (code) {

                case 0x16: // P@

                        motherBoard.getMSXCliComm().printWarning(

                                "ejecting laserdisc");

                        eject(time);

                        break;

                case 0x17: // P+

                        play(time);

                        break;

                }


                // During playing, playing will be acked if not repeated

                // within less than 115ms

        } else {

                // FIXME: while seeking, only a small subset of buttons work

                bool nonSeekAck = true;


                switch (code) {

                case 0x5f:

                        seekState = SEEK_WAIT;

                        seekNum = 0;

                        stillOnWaitFrame = false;

                        nonSeekAck = false;

                        break;

                case 0x41:

                        seekState = SEEK_FRAME;

                        seekNum = 0;

                        break;

                case 0x40:

                        seekState = SEEK_CHAPTER;

                        seekNum = 0;

                        nonSeekAck = video->getChapter(0) != 0;

                        break;

                case 0x00:

                case 0x01:

                case 0x02:

                case 0x03:

                case 0x04:

                case 0x05:

                case 0x06:

                case 0x07:

                case 0x08:

                case 0x09:

                        seekNum = seekNum * 10 + code;

                        break;

                case 0x42:

                        switch (seekState) {

                        case SEEK_FRAME:

                                seekState = SEEK_NONE;

                                seekFrame(seekNum % 100000, time);

                                nonSeekAck = false;

                                break;

                        case SEEK_CHAPTER:

                                seekState = SEEK_NONE;

                                seekChapter(seekNum % 100, time);

                                nonSeekAck = false;

                                break;

                        case SEEK_WAIT:

                                seekState = SEEK_NONE;

                                waitFrame = seekNum % 100000;

                                if (waitFrame >= 101 && waitFrame < 200) {

                                        auto frame = video->getChapter(

                                                int(waitFrame - 100));

                                        if (frame) waitFrame = frame;

                                }

                                break;

                        default:

                                seekState = SEEK_NONE;

                                break;

                        }

                        break;

                case 0x45: // Clear "X+"

                        if (seekState != SEEK_NONE && seekNum != 0) {

                                seekNum = 0;

                        } else {

                                seekState = SEEK_NONE;

                                seekNum = 0;

                        }

                        waitFrame = 0;

                        break;

                case 0x18: // P/

                        pause(time);

                        nonSeekAck = false;

                        break;

                case 0x17: // P+

                        play(time);

                        nonSeekAck = false;

                        break;

                case 0x16: // P@ (stop/eject)

                        stop(time);

                        nonSeekAck = false;

                        break;

                case 0xff:

                        nonSeekAck = false;

                        seekState = SEEK_NONE;

                        break;

                case 0x54: // S+ (frame step forward)

                        if (seekState == SEEK_WAIT) {

                                stillOnWaitFrame = true;

                        } else {

                                stepFrame(true);

                        }

                        break;

                case 0x50: // S- (frame step backwards)

                        stepFrame(false);

                        break;

                case 0x55: // M- (multi-speed backwards)

                        // Not supported

                        motherBoard.getMSXCliComm().printWarning(

                                "The Laserdisc player received a command to "

                                "play backwards (M-). This is currently not "

                                "supported.");

                        nonSeekAck = false;

                        break;

                case 0x58: // M+ (multi-speed forwards)

                        playerState = PLAYER_MULTI_SPEED;

                        setFrameStep();

                        break;

                case 0x46: // C- (play slower)

                        if (playingSpeed >= SPEED_STEP1) {

                                playingSpeed--;

                                frameStep = 1;  // FIXME: is this correct?

                        }

                        break;

                case 0x47: // C+ (play faster)

                        if (playingSpeed <= SPEED_X2) {

                                playingSpeed++;

                                frameStep = 1;  // FIXME: is this correct?

                        }

                        break;

                default:

                        motherBoard.getMSXCliComm().printWarning(

                                "The Laserdisc player received an unknown "

                                "command 0x", hex_string<2>(code));

                        nonSeekAck = false;

                        break;

                }


                if (nonSeekAck) {

                        // All ACKs for operations which do not

                        // require seeking

                        setAck(time, 46);

                }

        }

}


void LaserdiscPlayer::execSyncAck(EmuTime::param time)

{

        updateStream(time);


        if (seeking && playerState == PLAYER_PLAYING) {

                sampleClock.advance(time);

        }


        ack = false;

        seeking = false;

}


void LaserdiscPlayer::execSyncFrame(EmuTime::param time, bool odd)

{

        updateStream(time);


        if (!odd || (video && video->getFrameRate() == 60)) {

                if ((playerState != PLAYER_STOPPED) &&

                    (currentFrame > video->getFrames())) {

                        playerState = PLAYER_STOPPED;

                }


                if (auto* rawFrame = renderer->getRawFrame()) {

                        renderer->frameStart(time);


                        if (isVideoOutputAvailable(time)) {

                                auto frame = currentFrame;

                                if (video->getFrameRate() == 60) {

                                        frame *= 2;

                                        if (odd) frame--;

                                }


                                video->getFrameNo(*rawFrame, frame);


                                if (!odd) {

                                        nextFrame(time);

                                }

                        } else {

                                renderer->drawBlank(0, 128, 196);

                        }

                        renderer->frameEnd();

                }


                // Update throttling

                loadingIndicator.update(seeking || sampleReads > 500);

                sampleReads = 0;


                if (!odd) {

                        scheduleDisplayStart(time);

                }

        }


        // Processing of the remote control happens at each frame

        // (even and odd, so at 59.94Hz)

        if (remoteProtocol == IR_NEC) {

                if (remoteExecuteDelayed) {

                        remoteButtonNEC(remoteCode, time);

                }


                if (++remoteVblanksBack > 6) {

                        remoteProtocol = IR_NONE;

                }

        }

        remoteExecuteDelayed = false;

}


void LaserdiscPlayer::setFrameStep()

{

        switch (playingSpeed) {

        case SPEED_X3:

        case SPEED_X2:

        case SPEED_X1:

                frameStep = 1;

                break;

        case SPEED_1IN2:

                frameStep = 2;

                break;

        case SPEED_1IN4:

                frameStep = 4;

                break;

        case SPEED_1IN8:

                frameStep = 8;

                break;

        case SPEED_1IN16:

                frameStep = 16;

                break;

        case SPEED_STEP1:

                frameStep = 30;

                break;

        case SPEED_STEP3:

                frameStep = 90;

                break;

        }

}


void LaserdiscPlayer::nextFrame(EmuTime::param time)

{

        if (waitFrame && waitFrame == currentFrame) {

                // Leave ACK raised until the next command

                ack = true;

                waitFrame = 0;


                if (stillOnWaitFrame) {

                        playingFromSample = getCurrentSample(time);

                        playerState = PLAYER_STILL;

                        stillOnWaitFrame = false;

                }

        }


        if (playerState == PLAYER_MULTI_SPEED) {

                if (--frameStep)  {

                        return;

                }


                switch (playingSpeed) {

                case SPEED_X3:

                        currentFrame += 3;

                        break;

                case SPEED_X2:

                        currentFrame += 2;

                        break;

                default:

                        currentFrame += 1;

                        break;

                }

                setFrameStep();

        } else if (playerState == PLAYER_PLAYING) {

                currentFrame++;

        }


        // freeze if stop frame

        if ((playerState == one_of(PLAYER_PLAYING, PLAYER_MULTI_SPEED))

             && video->stopFrame(currentFrame)) {

                // stop frame reached

                playingFromSample = getCurrentSample(time);

                playerState = PLAYER_STILL;

        }

}


void LaserdiscPlayer::setImageName(string newImage, EmuTime::param time)

{

        stop(time);

        oggImage = Filename(std::move(newImage), userFileContext());

        video.emplace(oggImage, motherBoard.getMSXCliComm());


        unsigned inputRate = video->getSampleRate();

        sampleClock.setFreq(inputRate);

        if (inputRate != getInputRate()) {

                setInputRate(inputRate);

                createResampler();

        }

}


int LaserdiscPlayer::signalEvent(const Event& event)

{

        if (getType(event) == EventType::BOOT && video) {

                autoRun();

        }

        return 0;

}


void LaserdiscPlayer::autoRun()

{

        if (!autoRunSetting.getBoolean()) return;

        if (motherBoard.getReverseManager().isReplaying()) {

                // See comments in CassettePlayer::autoRun()

                return;

        }


        string var = "::auto_run_ld_counter";

        string command = strCat(

                "if ![info exists ", var, "] { set ", var, " 0 }\n"

                "incr ", var, "\n"

                "after time 2 \"if $", var, "==\\$", var, " { "

                "type_via_keyboard 1CALLLD\\\\r }\"");

        try {

                motherBoard.getCommandController().executeCommand(command);

        } catch (CommandException& e) {

                motherBoard.getMSXCliComm().printWarning(

                        "Error executing loading instruction for AutoRun: ",

                        e.getMessage(), "\n Please report a bug.");

        }

}


void LaserdiscPlayer::generateChannels(std::span<float*> buffers, unsigned num)

{

        // Single channel device: replace content of buffers[0] (not add to it).

        assert(buffers.size() == 1);

        if (playerState != PLAYER_PLAYING || seeking || (muteLeft && muteRight)) {

                buffers[0] = nullptr;

                return;

        }


        unsigned pos = 0;

        size_t currentSample;


        if (!sampleClock.before(start)) [[unlikely]] {

                // Before playing of sounds begins

                EmuDuration duration = sampleClock.getTime() - start;

                unsigned len = duration.getTicksAt(video->getSampleRate());

                if (len >= num) {

                        buffers[0] = nullptr;

                        return;

                }


                for (; pos < len; ++pos) {

                        buffers[0][pos * 2 + 0] = 0.0f;

                        buffers[0][pos * 2 + 1] = 0.0f;

                }


                currentSample = playingFromSample;

        } else {

                currentSample = getCurrentSample(start);

        }


        unsigned drift = video->getSampleRate() / 30;


        if (currentSample > (lastPlayedSample + drift) ||

            (currentSample + drift) < lastPlayedSample) {

                // audio drift

                lastPlayedSample = currentSample;

        }


        int left = stereoMode == RIGHT ? 1 : 0;

        int right = stereoMode == LEFT ? 0 : 1;


        while (pos < num) {

                const AudioFragment* audio = video->getAudio(lastPlayedSample);


                if (!audio) {

                        if (pos == 0) {

                                buffers[0] = nullptr;

                                break;

                        } else {

                                for (; pos < num; ++pos) {

                                        buffers[0][pos * 2 + 0] = 0.0f;

                                        buffers[0][pos * 2 + 1] = 0.0f;

                                }

                        }

                } else {

                        auto offset = unsigned(lastPlayedSample - audio->position);

                        unsigned len = std::min(audio->length - offset, num - pos);


                        // maybe muting should be moved out of the loop?

                        for (unsigned i = 0; i < len; ++i, ++pos) {

                                buffers[0][pos * 2 + 0] = muteLeft ? 0.0f :

                                   audio->pcm[left][offset + i];

                                buffers[0][pos * 2 + 1] = muteRight ? 0.0f :

                                   audio->pcm[right][offset + i];

                        }


                        lastPlayedSample += len;

                }

        }

}


float LaserdiscPlayer::getAmplificationFactorImpl() const

{

        return 2.0f;

}


bool LaserdiscPlayer::updateBuffer(size_t length, float* buffer,

                                   EmuTime::param time)

{

        bool result = ResampledSoundDevice::updateBuffer(length, buffer, time);

        start = time; // current end-time is next start-time

        return result;

}


void LaserdiscPlayer::setMuting(bool left, bool right, EmuTime::param time)

{

        updateStream(time);

        muteLeft = left;

        muteRight = right;

}


void LaserdiscPlayer::play(EmuTime::param time)

{

        if (video) {

                updateStream(time);


                if (seeking) {

                        // Do not ACK, play while seeking

                } else if (playerState == PLAYER_STOPPED) {

                        // Disk needs to spin up, which takes 9.6s on

                        // my Pioneer LD-92000. Also always seek to

                        // beginning (confirmed on real MSX and LD)

                        video->seek(1, 0);

                        lastPlayedSample = 0;

                        playingFromSample = 0;

                        currentFrame = 1;

                        // Note that with "fullspeedwhenloading" this

                        // should be reduced to.

                        setAck(time, 9600);

                        seekState = SEEK_NONE;

                        seeking = true;

                        waitFrame = 0;

                        stereoMode = STEREO;

                        playingSpeed = SPEED_1IN4;

                } else if (playerState == PLAYER_PLAYING) {

                        // If Play command is issued while the player

                        // is already playing, then if no ACK is sent then

                        // Astron Belt will send LD1100 commands

                        setAck(time, 46);

                } else if (playerState == PLAYER_MULTI_SPEED) {

                        // Should be hearing stuff again

                        playingFromSample = (currentFrame - 1ll) * 1001ll *

                                        video->getSampleRate() / 30000ll;

                        sampleClock.advance(time);

                        setAck(time, 46);

                } else {

                        // STILL or PAUSED

                        sampleClock.advance(time);

                        setAck(time, 46);

                }

                playerState = PLAYER_PLAYING;

        }

}


size_t LaserdiscPlayer::getCurrentSample(EmuTime::param time)

{

        switch(playerState) {

        case PLAYER_PAUSED:

        case PLAYER_STILL:

                return playingFromSample;

        default:

                return playingFromSample + sampleClock.getTicksTill(time);

        }

}


void LaserdiscPlayer::pause(EmuTime::param time)

{

        if (playerState != PLAYER_STOPPED) {

                updateStream(time);


                if (playerState == PLAYER_PLAYING) {

                        playingFromSample = getCurrentSample(time);

                } else if (playerState == PLAYER_MULTI_SPEED) {

                        playingFromSample = (currentFrame - 1ll) * 1001ll *

                                        video->getSampleRate() / 30000ll;

                        sampleClock.advance(time);

                }


                playerState = PLAYER_PAUSED;

                setAck(time, 46);

        }

}


void LaserdiscPlayer::stop(EmuTime::param time)

{

        if (playerState != PLAYER_STOPPED) {

                updateStream(time);

                playerState = PLAYER_STOPPED;

        }

}


void LaserdiscPlayer::eject(EmuTime::param time)

{

        stop(time);

        oggImage = {};

        video.reset();

}


// Step one frame forwards or backwards. The frame will be visible and

// we won't be playing afterwards

void LaserdiscPlayer::stepFrame(bool forwards)

{

        bool needSeek = false;


        // Note that on real hardware, the screen goes dark momentarily

        // if you try to step before the first frame or after the last one

        if (playerState == PLAYER_STILL) {

                if (forwards) {

                        if (currentFrame < video->getFrames()) {

                                currentFrame++;

                        }

                } else {

                        if (currentFrame > 1) {

                                currentFrame--;

                                needSeek = true;

                        }

                }

        }


        playerState = PLAYER_STILL;

        auto samplePos = (currentFrame - 1ll) * 1001ll *

                            video->getSampleRate() / 30000ll;

        playingFromSample = samplePos;


        if (needSeek) {

                if (video->getFrameRate() == 60)

                        video->seek(currentFrame * 2, samplePos);

                else

                        video->seek(currentFrame, samplePos);

        }

}


void LaserdiscPlayer::seekFrame(size_t toFrame, EmuTime::param time)

{

        if ((playerState != PLAYER_STOPPED) && video) {

                updateStream(time);


                if (toFrame <= 0) toFrame = 1;

                if (toFrame > video->getFrames()) toFrame = video->getFrames();


                // Seek time needs to be emulated correctly since

                // e.g. Astron Belt does not wait for the seek

                // to complete, it simply assumes a certain

                // delay.

                //

                // This calculation is based on measurements on

                // a Pioneer LD-92000.

                auto dist = std::abs(int64_t(toFrame) - int64_t(currentFrame));

                int seekTime = (dist < 1000) // time in ms

                             ? narrow<int>(dist + 300)

                             : narrow<int>(1800 + dist / 12);


                auto samplePos = (toFrame - 1ll) * 1001ll *

                                    video->getSampleRate() / 30000ll;


                if (video->getFrameRate() == 60) {

                        video->seek(toFrame * 2, samplePos);

                } else {

                        video->seek(toFrame, samplePos);

                }

                playerState = PLAYER_STILL;

                playingFromSample = samplePos;

                currentFrame = toFrame;


                // Seeking clears the frame to wait for

                waitFrame = 0;


                seeking = true;

                setAck(time, seekTime);

        }

}


void LaserdiscPlayer::seekChapter(int chapter, EmuTime::param time)

{

        if ((playerState != PLAYER_STOPPED) && video) {

                auto frameNo = video->getChapter(chapter);

                if (!frameNo) return;

                seekFrame(frameNo, time);

        }

}


int16_t LaserdiscPlayer::readSample(EmuTime::param time)

{

        // Here we should return the value of the sample on the

        // right audio channel, ignoring muting (this is done in the MSX)

        // but honouring the stereo mode as this is done in the

        // Laserdisc player

        if (playerState == PLAYER_PLAYING && !seeking) {

                auto sample = getCurrentSample(time);

                if (const AudioFragment* audio = video->getAudio(sample)) {

                        ++sampleReads;

                        int channel = stereoMode == LEFT ? 0 : 1;

                        return narrow_cast<int16_t>

                                (audio->pcm[channel][sample - audio->position]

                                                         * 32767.f);

                }

        }

        return 0;

}


bool LaserdiscPlayer::isVideoOutputAvailable(EmuTime::param time)

{

        updateStream(time);


        bool videoOut = [&] {

                switch (playerState) {

                case PLAYER_PLAYING:

                case PLAYER_MULTI_SPEED:

                case PLAYER_STILL:

                        return !seeking;

                default:

                        return false;

                }

        }();

        ldControl.videoIn(videoOut);


        return videoOut;

}


void LaserdiscPlayer::preVideoSystemChange() noexcept

{

        renderer.reset();

}


void LaserdiscPlayer::postVideoSystemChange() noexcept

{

        createRenderer();

}


void LaserdiscPlayer::createRenderer()

{

        Display& display = getMotherBoard().getReactor().getDisplay();

        renderer = RendererFactory::createLDRenderer(*this, display);

}


static constexpr std::initializer_list<enum_string<LaserdiscPlayer::RemoteState>> RemoteStateInfo = {

        { "IDLE",               LaserdiscPlayer::REMOTE_IDLE            },

        { "HEADER_PULSE",       LaserdiscPlayer::REMOTE_HEADER_PULSE    },

        { "NEC_HEADER_SPACE",   LaserdiscPlayer::NEC_HEADER_SPACE       },

        { "NEC_BITS_PULSE",     LaserdiscPlayer::NEC_BITS_PULSE         },

        { "NEC_BITS_SPACE",     LaserdiscPlayer::NEC_BITS_SPACE         },

};

SERIALIZE_ENUM(LaserdiscPlayer::RemoteState, RemoteStateInfo);


static constexpr std::initializer_list<enum_string<LaserdiscPlayer::PlayerState>> PlayerStateInfo = {

        { "STOPPED",            LaserdiscPlayer::PLAYER_STOPPED         },

        { "PLAYING",            LaserdiscPlayer::PLAYER_PLAYING         },

        { "MULTISPEED",         LaserdiscPlayer::PLAYER_MULTI_SPEED     },

        { "PAUSED",             LaserdiscPlayer::PLAYER_PAUSED          },

        { "STILL",              LaserdiscPlayer::PLAYER_STILL           }

};

SERIALIZE_ENUM(LaserdiscPlayer::PlayerState, PlayerStateInfo);


static constexpr std::initializer_list<enum_string<LaserdiscPlayer::SeekState>> SeekStateInfo = {

        { "NONE",               LaserdiscPlayer::SEEK_NONE              },

        { "CHAPTER",            LaserdiscPlayer::SEEK_CHAPTER           },

        { "FRAME",              LaserdiscPlayer::SEEK_FRAME             },

        { "WAIT",               LaserdiscPlayer::SEEK_WAIT              }

};

SERIALIZE_ENUM(LaserdiscPlayer::SeekState, SeekStateInfo);


static constexpr std::initializer_list<enum_string<LaserdiscPlayer::StereoMode>> StereoModeInfo = {

        { "LEFT",               LaserdiscPlayer::LEFT                   },

        { "RIGHT",              LaserdiscPlayer::RIGHT                  },

        { "STEREO",             LaserdiscPlayer::STEREO                 }

};

SERIALIZE_ENUM(LaserdiscPlayer::StereoMode, StereoModeInfo);


static constexpr std::initializer_list<enum_string<LaserdiscPlayer::RemoteProtocol>> RemoteProtocolInfo = {

        { "NONE",               LaserdiscPlayer::IR_NONE                },

        { "NEC",                LaserdiscPlayer::IR_NEC                 },

};

SERIALIZE_ENUM(LaserdiscPlayer::RemoteProtocol, RemoteProtocolInfo);


// version 1: initial version

// version 2: added 'stillOnWaitFrame'

// version 3: reversed bit order of 'remoteBits' and 'remoteCode'

// version 4: removed 'userData' from Schedulable

template<typename Archive>

void LaserdiscPlayer::serialize(Archive& ar, unsigned version)

{

        // Serialize remote control

        ar.serialize("RemoteState", remoteState);

        if (remoteState != REMOTE_IDLE) {

                ar.serialize("RemoteBitNr", remoteBitNr,

                             "RemoteBits",  remoteBits);

                if (ar.versionBelow(version, 3)) {

                        assert(Archive::IS_LOADER);

                        remoteBits = Math::reverseNBits(remoteBits, remoteBitNr);

                }

        }

        ar.serialize("RemoteLastBit",  remoteLastBit,

                     "RemoteLastEdge", remoteLastEdge,

                     "RemoteProtocol", remoteProtocol);

        if (remoteProtocol != IR_NONE) {

                ar.serialize("RemoteCode", remoteCode);

                if (ar.versionBelow(version, 3)) {

                        assert(Archive::IS_LOADER);

                        remoteCode = Math::reverseByte(remoteCode);

                }

                ar.serialize("RemoteExecuteDelayed", remoteExecuteDelayed,

                             "RemoteVblanksBack",    remoteVblanksBack);

        }


        // Serialize filename

        ar.serialize("OggImage", oggImage);

        if constexpr (Archive::IS_LOADER) {

                sampleReads = 0;

                if (!oggImage.empty()) {

                        setImageName(oggImage.getResolved(), getCurrentTime());

                } else {

                        video.reset();

                }

        }

        ar.serialize("PlayerState", playerState);


        if (playerState != PLAYER_STOPPED) {

                // Serialize seek state

                ar.serialize("SeekState", seekState);

                if (seekState != SEEK_NONE) {

                        ar.serialize("SeekNum", seekNum);

                }

                ar.serialize("seeking", seeking);


                // Playing state

                ar.serialize("WaitFrame", waitFrame);


                // This was not yet implemented in openmsx 0.8.1 and earlier

                if (ar.versionAtLeast(version, 2)) {

                        ar.serialize("StillOnWaitFrame", stillOnWaitFrame);

                }


                ar.serialize("ACK",          ack,

                             "PlayingSpeed", playingSpeed);


                // Frame position

                ar.serialize("CurrentFrame", currentFrame);

                if (playerState == PLAYER_MULTI_SPEED) {

                        ar.serialize("FrameStep", frameStep);

                }


                // Audio position

                ar.serialize("StereoMode",  stereoMode,

                             "FromSample",  playingFromSample,

                             "SampleClock", sampleClock);


                if constexpr (Archive::IS_LOADER) {

                        // If the sample rate differs, adjust accordingly

                        if (video->getSampleRate() != sampleClock.getFreq()) {

                                uint64_t pos = playingFromSample;


                                pos *= video->getSampleRate();

                                pos /= sampleClock.getFreq();


                                playingFromSample = pos;

                                sampleClock.setFreq(video->getSampleRate());

                        }


                        auto sample = getCurrentSample(getCurrentTime());

                        if (video->getFrameRate() == 60)

                                video->seek(currentFrame * 2, sample);

                        else

                                video->seek(currentFrame, sample);

                        lastPlayedSample = sample;

                }

        }


        if (ar.versionAtLeast(version, 4)) {

                ar.serialize("syncEven", syncEven,

                             "syncOdd",  syncOdd,

                             "syncAck",  syncAck);

        } else {

                Schedulable::restoreOld(ar, {&syncEven, &syncOdd, &syncAck});

        }


        if constexpr (Archive::IS_LOADER) {

                (void)isVideoOutputAvailable(getCurrentTime());

        }

}


INSTANTIATE_SERIALIZE_METHODS(LaserdiscPlayer);


} // namespace openmsx

CassettePort.hh

CommandController.hh

CommandException.hh

DeviceConfig.hh

Display.hh

EventDistributor.hh

FileContext.hh

GlobalSettings.hh

HardwareConfig.hh

LDRenderer.hh

LaserdiscPlayer.hh

MSXCliComm.hh

MSXMotherBoard.hh

Math.hh

PioneerLDControl.hh

Reactor.hh

RendererFactory.hh

ReverseManager.hh

XMLElement.hh

one_of
Definition: one_of.hh:7

openmsx::BooleanSetting::getBoolean
bool getBoolean() const noexcept
Definition: BooleanSetting.hh:17

openmsx::CassettePortInterface::setLaserdiscPlayer
virtual void setLaserdiscPlayer(LaserdiscPlayer *laserdisc)=0
Set the Laserdisc Player; when the motor control is off, sound is read from the laserdisc.

openmsx::CliComm::HARDWARE
@ HARDWARE
Definition: CliComm.hh:25

openmsx::CliComm::printWarning
void printWarning(std::string_view message)
Definition: CliComm.cc:10

openmsx::Clock
Represents a clock with a fixed frequency.
Definition: Clock.hh:19

openmsx::CommandController::executeCommand
virtual TclObject executeCommand(zstring_view command, CliConnection *connection=nullptr)=0
Execute the given command.

openmsx::DeviceConfig
Definition: DeviceConfig.hh:21

openmsx::Display::detach
void detach(VideoSystemChangeListener &listener)
Definition: Display.cc:128

openmsx::Display::attach
void attach(VideoSystemChangeListener &listener)
Definition: Display.cc:122

openmsx::DynamicClock::before
bool before(EmuTime::param e) const
Checks whether this clock's last tick is or is not before the given time stamp.
Definition: DynamicClock.hh:45

openmsx::DynamicClock::getTicksTill
unsigned getTicksTill(EmuTime::param e) const
Calculate the number of ticks for this clock until the given time.
Definition: DynamicClock.hh:52

openmsx::DynamicClock::getFreq
unsigned getFreq() const
Returns the frequency (in Hz) at which this clock ticks.
Definition: DynamicClock.hh:128

openmsx::DynamicClock::advance
void advance(EmuTime::param e)
Advance this clock in time until the last tick which is not past the given time.
Definition: DynamicClock.hh:155

openmsx::DynamicClock::setFreq
void setFreq(unsigned freq)
Change the frequency at which this clock ticks.
Definition: DynamicClock.hh:109

openmsx::DynamicClock::getTime
EmuTime::param getTime() const
Gets the time at which the last clock tick occurred.
Definition: DynamicClock.hh:38

openmsx::EmuDuration
Definition: EmuDuration.hh:22

openmsx::EmuDuration::msec
static constexpr EmuDuration msec(unsigned x)
Definition: EmuDuration.hh:44

openmsx::EmuDuration::getTicksAt
constexpr unsigned getTicksAt(unsigned freq) const
Definition: EmuDuration.hh:97

openmsx::EventDistributor::unregisterEventListener
void unregisterEventListener(EventType type, EventListener &listener)
Unregisters a previously registered event listener.
Definition: EventDistributor.cc:32

openmsx::EventDistributor::registerEventListener
void registerEventListener(EventType type, EventListener &listener, Priority priority=OTHER)
Registers a given object to receive certain events.
Definition: EventDistributor.cc:20

openmsx::Filename::empty
bool empty() const
Convenience method to test for empty filename.
Definition: Filename.cc:21

openmsx::Filename::getResolved
const std::string & getResolved() const &
Definition: Filename.hh:47

openmsx::HardwareConfig
Definition: HardwareConfig.hh:23

openmsx::LaserdiscPlayer
Definition: LaserdiscPlayer.hh:31

openmsx::LaserdiscPlayer::RemoteProtocol
RemoteProtocol
Definition: LaserdiscPlayer.hh:84

openmsx::LaserdiscPlayer::IR_NONE
@ IR_NONE
Definition: LaserdiscPlayer.hh:85

openmsx::LaserdiscPlayer::IR_NEC
@ IR_NEC
Definition: LaserdiscPlayer.hh:86

openmsx::LaserdiscPlayer::setMuting
void setMuting(bool left, bool right, EmuTime::param time)
Definition: LaserdiscPlayer.cc:775

openmsx::LaserdiscPlayer::SeekState
SeekState
Definition: LaserdiscPlayer.hh:71

openmsx::LaserdiscPlayer::SEEK_FRAME
@ SEEK_FRAME
Definition: LaserdiscPlayer.hh:74

openmsx::LaserdiscPlayer::SEEK_WAIT
@ SEEK_WAIT
Definition: LaserdiscPlayer.hh:75

openmsx::LaserdiscPlayer::SEEK_NONE
@ SEEK_NONE
Definition: LaserdiscPlayer.hh:72

openmsx::LaserdiscPlayer::SEEK_CHAPTER
@ SEEK_CHAPTER
Definition: LaserdiscPlayer.hh:73

openmsx::LaserdiscPlayer::readSample
int16_t readSample(EmuTime::param time)
Definition: LaserdiscPlayer.cc:952

openmsx::LaserdiscPlayer::extControl
void extControl(bool bit, EmuTime::param time)
Definition: LaserdiscPlayer.cc:192

openmsx::LaserdiscPlayer::getMotherBoard
MSXMotherBoard & getMotherBoard()
Definition: LaserdiscPlayer.hh:50

openmsx::LaserdiscPlayer::StereoMode
StereoMode
Definition: LaserdiscPlayer.hh:78

openmsx::LaserdiscPlayer::RIGHT
@ RIGHT
Definition: LaserdiscPlayer.hh:80

openmsx::LaserdiscPlayer::LEFT
@ LEFT
Definition: LaserdiscPlayer.hh:79

openmsx::LaserdiscPlayer::STEREO
@ STEREO
Definition: LaserdiscPlayer.hh:81

openmsx::LaserdiscPlayer::getRawFrame
const RawFrame * getRawFrame() const
Definition: LaserdiscPlayer.cc:279

openmsx::LaserdiscPlayer::getMediaInfo
void getMediaInfo(TclObject &result) override
This method gets called when information is required on the media inserted in the media slot of the p...
Definition: LaserdiscPlayer.cc:166

openmsx::LaserdiscPlayer::~LaserdiscPlayer
~LaserdiscPlayer()
Definition: LaserdiscPlayer.cc:144

openmsx::LaserdiscPlayer::PlayerState
PlayerState
Definition: LaserdiscPlayer.hh:63

openmsx::LaserdiscPlayer::PLAYER_STOPPED
@ PLAYER_STOPPED
Definition: LaserdiscPlayer.hh:64

openmsx::LaserdiscPlayer::PLAYER_STILL
@ PLAYER_STILL
Definition: LaserdiscPlayer.hh:68

openmsx::LaserdiscPlayer::PLAYER_PAUSED
@ PLAYER_PAUSED
Definition: LaserdiscPlayer.hh:67

openmsx::LaserdiscPlayer::PLAYER_PLAYING
@ PLAYER_PLAYING
Definition: LaserdiscPlayer.hh:65

openmsx::LaserdiscPlayer::PLAYER_MULTI_SPEED
@ PLAYER_MULTI_SPEED
Definition: LaserdiscPlayer.hh:66

openmsx::LaserdiscPlayer::RemoteState
RemoteState
Definition: LaserdiscPlayer.hh:55

openmsx::LaserdiscPlayer::NEC_BITS_PULSE
@ NEC_BITS_PULSE
Definition: LaserdiscPlayer.hh:59

openmsx::LaserdiscPlayer::NEC_BITS_SPACE
@ NEC_BITS_SPACE
Definition: LaserdiscPlayer.hh:60

openmsx::LaserdiscPlayer::REMOTE_IDLE
@ REMOTE_IDLE
Definition: LaserdiscPlayer.hh:56

openmsx::LaserdiscPlayer::REMOTE_HEADER_PULSE
@ REMOTE_HEADER_PULSE
Definition: LaserdiscPlayer.hh:57

openmsx::LaserdiscPlayer::NEC_HEADER_SPACE
@ NEC_HEADER_SPACE
Definition: LaserdiscPlayer.hh:58

openmsx::LaserdiscPlayer::serialize
void serialize(Archive &ar, unsigned version)
Definition: LaserdiscPlayer.cc:1050

openmsx::LoadingIndicator::update
void update(bool newState)
Called by the device to indicate its loading state may have changed.
Definition: ThrottleManager.cc:64

openmsx::MSXCliComm::update
void update(UpdateType type, std::string_view name, std::string_view value) override
Definition: MSXCliComm.cc:21

openmsx::MSXMotherBoard::registerMediaInfo
void registerMediaInfo(std::string_view name, MediaInfoProvider &provider)
Register and unregister providers of media info, for the media info topic.
Definition: MSXMotherBoard.cc:758

openmsx::MSXMotherBoard::getCommandController
CommandController & getCommandController()
Definition: MSXMotherBoard.cc:528

openmsx::MSXMotherBoard::getReactor
Reactor & getReactor()
Definition: MSXMotherBoard.hh:158

openmsx::MSXMotherBoard::unregisterMediaInfo
void unregisterMediaInfo(MediaInfoProvider &provider)
Definition: MSXMotherBoard.cc:763

openmsx::MSXMotherBoard::getMSXCliComm
MSXCliComm & getMSXCliComm()
Definition: MSXMotherBoard.cc:418

openmsx::MSXMotherBoard::getReverseManager
ReverseManager & getReverseManager()
Definition: MSXMotherBoard.hh:157

openmsx::MSXMotherBoard::getCassettePort
CassettePortInterface & getCassettePort()
Definition: MSXMotherBoard.cc:461

openmsx::PioneerLDControl
Definition: PioneerLDControl.hh:17

openmsx::PioneerLDControl::videoIn
void videoIn(bool enabled)
Definition: PioneerLDControl.cc:149

openmsx::RawFrame
A video frame as output by the VDP scanline conversion unit, before any postprocessing filters are ap...
Definition: RawFrame.hh:15

openmsx::Reactor
Contains the main loop of openMSX.
Definition: Reactor.hh:72

openmsx::Reactor::getDisplay
Display & getDisplay()
Definition: Reactor.hh:90

openmsx::Reactor::getEventDistributor
EventDistributor & getEventDistributor()
Definition: Reactor.hh:86

openmsx::ResampledSoundDevice
Definition: ResampledSoundDevice.hh:17

openmsx::ResampledSoundDevice::createResampler
void createResampler()
Definition: ResampledSoundDevice.cc:58

openmsx::ResampledSoundDevice::updateBuffer
bool updateBuffer(size_t length, float *buffer, EmuTime::param time) override
Generate sample data.
Definition: ResampledSoundDevice.cc:39

openmsx::ReverseManager::isReplaying
bool isReplaying() const
Definition: ReverseManager.cc:153

openmsx::Schedulable::restoreOld
static void restoreOld(Archive &ar, std::vector< Schedulable * > schedulables)
Definition: Schedulable.hh:77

openmsx::SoundDevice::updateStream
void updateStream(EmuTime::param time)
Definition: SoundDevice.cc:138

openmsx::SoundDevice::getInputRate
unsigned getInputRate() const
Definition: SoundDevice.hh:120

openmsx::SoundDevice::setInputRate
void setInputRate(unsigned sampleRate)
Definition: SoundDevice.hh:119

openmsx::SoundDevice::unregisterSound
void unregisterSound()
Unregisters this sound device with the Mixer.
Definition: SoundDevice.cc:133

openmsx::SoundDevice::registerSound
void registerSound(const DeviceConfig &config)
Registers this sound device with the Mixer.
Definition: SoundDevice.cc:88

openmsx::TclObject
Definition: TclObject.hh:25

openmsx::TclObject::addDictKeyValues
void addDictKeyValues(Args &&... args)
Definition: TclObject.hh:144

openmsx::XMLDocument::getStaticDocument
static XMLDocument & getStaticDocument()
Definition: XMLElement.hh:255

openmsx::XMLElement
Definition: XMLElement.hh:91

Math::reverseNBits
constexpr unsigned reverseNBits(unsigned x, unsigned bits)
Reverse the lower N bits of a given value.
Definition: Math.hh:75

Math::reverseByte
constexpr uint8_t reverseByte(uint8_t a)
Reverse the bits in a byte.
Definition: Math.hh:125

Math::e
constexpr double e
Definition: Math.hh:21

gl::length
T length(const vecN< N, T > &x)
Definition: gl_vec.hh:341

gl::min
constexpr vecN< N, T > min(const vecN< N, T > &x, const vecN< N, T > &y)
Definition: gl_vec.hh:267

openmsx::RendererFactory::createLDRenderer
std::unique_ptr< LDRenderer > createLDRenderer(LaserdiscPlayer &ld, Display &display)
Create the Laserdisc Renderer.
Definition: RendererFactory.cc:64

openmsx
This file implemented 3 utility functions:
Definition: Autofire.cc:9

openmsx::EventType::BOOT
@ BOOT

openmsx::LaserdiscPlayer
LaserdiscPlayer
Definition: LaserdiscPlayer.cc:1151

openmsx::SERIALIZE_ENUM
SERIALIZE_ENUM(CassettePlayer::State, stateInfo)

openmsx::Event
std::variant< KeyUpEvent, KeyDownEvent, MouseMotionEvent, MouseButtonUpEvent, MouseButtonDownEvent, MouseWheelEvent, JoystickAxisMotionEvent, JoystickHatEvent, JoystickButtonUpEvent, JoystickButtonDownEvent, OsdControlReleaseEvent, OsdControlPressEvent, WindowEvent, TextEvent, FileDropEvent, QuitEvent, FinishFrameEvent, CliCommandEvent, GroupEvent, BootEvent, FrameDrawnEvent, BreakEvent, SwitchRendererEvent, TakeReverseSnapshotEvent, AfterTimedEvent, MachineLoadedEvent, MachineActivatedEvent, MachineDeactivatedEvent, MidiInReaderEvent, MidiInWindowsEvent, MidiInCoreMidiEvent, MidiInCoreMidiVirtualEvent, MidiInALSAEvent, Rs232TesterEvent, ImGuiDelayedActionEvent, ImGuiActiveEvent > Event
Definition: Event.hh:450

openmsx::Filename
Filename
Definition: Filename.cc:33

openmsx::Scheduler
Scheduler
Definition: Scheduler.cc:132

openmsx::getType
EventType getType(const Event &event)
Definition: Event.hh:521

openmsx::userFileContext
FileContext userFileContext(string_view savePath)
Definition: FileContext.cc:171

narrow.hh

one_of.hh

OUTER
#define OUTER(type, member)
Definition: outer.hh:41

INSTANTIATE_SERIALIZE_METHODS
#define INSTANTIATE_SERIALIZE_METHODS(CLASS)
Definition: serialize.hh:1021

tmpStrCat
TemporaryString tmpStrCat(Ts &&... ts)
Definition: strCat.hh:693

strCat
std::string strCat(Ts &&...ts)
Definition: strCat.hh:625

openmsx::AudioFragment
Definition: OggReader.hh:22

UNREACHABLE
#define UNREACHABLE
Definition: unreachable.hh:38