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path: root/core/qmpmidiplay.cpp
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#include <cstdio>
#include <cstring>
#include <algorithm>
#include <chrono>
#include <thread>
#include "qmpmidiplay.hpp"
#ifdef _WIN32
#define NOMINMAX
#include <windows.h>
uint64_t pf;
#endif
CMidiPlayer *CMidiPlayer::ref = nullptr;
bool CMidiPlayer::processEvent(const SEvent *e)
{
    SEvent fe(*e);
    fe.flags &= 0xfe;
    if (tceptr >= eorder.size() - 1 || getEvent(tceptr + 1)->time > e->time)
        fe.flags |= 0x01;
    for (int i = 0; i < 16; ++i)
        if (eventHandlerCB[i])
            eventHandlerCB[i]->callBack((void *)&fe, eventHandlerCBuserdata[i]);
    for (auto i = event_handlers.begin(); i != event_handlers.end(); ++i)
        if (!std::get<2>(i->second))
            std::get<0>(i->second)((void *)e, std::get<1>(i->second));
    uint8_t ch = e->type & 0x0F;
    if ((e->type & 0xF0) < 0xF0)
        levtt[ch] = std::chrono::system_clock::now();
    switch (e->type & 0xF0)
    {
        case 0x80://Note off
            return true;
        case 0x90://Note on
            if ((mute >> ch) & 1 && e->p2)
                return false; //muted
            if (solo && !((solo >> ch) & 1) && e->p2)
                return false; //excluded by solo flags
            return true;
        case 0xB0://CC
            if (e->p1 == 100)
                rpnid[ch] = e->p2;
            if (e->p1 == 6)
                rpnval[ch] = e->p2;
            if (~rpnid[ch] && ~rpnval[ch])
            {
                if (rpnid[ch] == 0)
                {
                    mididev[mappedoutput[ch]].dev->rpnMessage(ch, 0, rpnval[ch] << 7);
                    pbr[ch] = rpnval[ch];
                }
                rpnid[ch] = rpnval[ch] = -1;
            }
            chstatus[ch][e->p1] = e->p2;
            return true;
        case 0xC0://PC
            chstatus[ch][128] = e->p1;
            return true;
        case 0xE0://PW
            pbv[ch] = (e->p1 | (e->p2 << 7)) & 0x3FFF;
            return true;
        case 0xF0://Meta/SysEx
            if ((e->type & 0x0F) == 0x0F)
            {
                switch (e->p1)
                {
                    case 0x51:
                    {
                        ctempo = 0;
#if (__BYTE_ORDER__==__ORDER_LITTLE_ENDIAN__)||defined(_WIN32)
                        std::string x(e->str);
                        std::reverse(x.begin(), x.end());
                        memcpy(&ctempo, x.data(), 3);
#else
                        memcpy(&ctempo, e->str.data(), 3);
                        ctempo >>= 8;
#endif
                        dpt = ctempo * 1000. / divs;
                        ttime = std::chrono::high_resolution_clock::now();
                        ttick = getTick();
                    }
                    break;
                    case 0x58:
                        ctsn = (uint32_t)e->str[0];
                        ctsd = 1 << ((uint32_t)e->str[1]);
                        break;
                    case 0x59:
                        if (e->str.length() == 2)
                            cks = (e->str[0] << 8u) | e->str[1];
                        break;
                    case 0x01:
                    case 0x02:
                    case 0x03:
                    case 0x04:
                    case 0x05:
                    case 0x06:
                    case 0x07:
                        //if(e->str)puts(e->str);
                        break;
                }
            }
            if (((e->type & 0x0F) == 0x00 || (e->type & 0x0F) == 07) && sendSysEx)
                for (auto &i : mididev)
                    if (i.refcnt)
                        i.dev->extendedMessage(uint32_t(e->str.length()), e->str.c_str());
            return false;
    }
    return false;
}
void CMidiPlayer::processEventStub(const SEvent *e)
{
    switch (e->type & 0xF0)
    {
        case 0xB0://CC
            if (e->p1 == 100)
                rpnid[e->type & 0x0F] = e->p2;
            if (e->p1 == 6)
                rpnval[e->type & 0x0F] = e->p2;
            if (~rpnid[e->type & 0x0F] && ~rpnval[e->type & 0x0F])
            {
                if (rpnid[e->type & 0x0F] == 0)
                    ccc[e->type & 0x0F][134] = rpnval[e->type & 0x0F];
                rpnval[e->type & 0x0F] = -1;
            }
            ccc[e->type & 0x0F][e->p1] = e->p2;
            break;
        case 0xC0://PC
            ccc[e->type & 0x0F][128] = e->p1;
            break;
        case 0xD0://CP
            ccc[e->type & 0x0F][129] = e->p1;
            break;
        case 0xE0://PW
            ccc[e->type & 0x0F][130] = (e->p1 | (e->p2 << 7)) & 0x3FFF;
            break;
        case 0xF0://Meta/SysEx
            if ((e->type & 0x0F) == 0x0F)
            {
                switch (e->p1)
                {
                    case 0x51:
                    {
                        ctempo = 0;
#if (__BYTE_ORDER__==__ORDER_LITTLE_ENDIAN__)||defined(_WIN32)
                        std::string x(e->str);
                        std::reverse(x.begin(), x.end());
                        memcpy(&ctempo, x.data(), 3);
#else
                        memcpy(&ctempo, e->str.data(), 3);
                        ctempo >>= 8;
#endif
                        dpt = ctempo * 1000. / divs;
                        ccc[0][131] = ctempo;
                    }
                    break;
                    case 0x58:
                        ccc[0][132] = (e->str[0] << 24u) | (e->str[1] << 16u);
                        break;
                    case 0x59:
                        if (e->str.length() >= 2)
                            ccc[0][133] = (e->str[0] << 8u) | e->str[1];
                        break;
                }
            }
            break;
    }
}
#ifdef _WIN32
void w32usleep(uint64_t t)
{
    uint64_t st = 0, ct = 0;
    timeBeginPeriod(1);
    QueryPerformanceCounter((LARGE_INTEGER *)&st);
    do
    {
        if (t > 10000 + (ct - st) * 1000000 / pf)
            Sleep((t - (ct - st) * 1000000 / pf) / 2000);
        else if (t > 5000 + (ct - st) * 1000000 / pf)
            Sleep(1);
        else
            std::this_thread::yield();
        QueryPerformanceCounter((LARGE_INTEGER *)&ct);
    } while ((ct - st) * 1000000 < t * pf);
    timeEndPeriod(1);
}
#endif
SEvent *CMidiPlayer::getEvent(uint32_t id)
{
    size_t t = eorder[id].first, e = eorder[id].second;
    return &midiFile->tracks[t].eventList[e];
}
void CMidiPlayer::prePlayInit()
{
    playerPanic(true);
    for (size_t i = 0; i < mididev.size(); ++i)
        if (mididev[i].refcnt)
            mididev[i].dev->reset(0xFF);
}
void CMidiPlayer::playEvents()
{
    static uint32_t _lrtick;
    _lrtick = 0;
    ttick = getEvent(0)->time;
    ttime = std::chrono::high_resolution_clock::now();
    for (ct = getEvent(0)->time; tceptr < ecnt;)
    {
        using namespace std::chrono;
        while (tcpaused)
            std::this_thread::sleep_for(milliseconds(100));
        if (resumed)
        {
            resumed = false;
            ct = getEvent(tceptr)->time;
            ttick = getTick();
            ttime = high_resolution_clock::now();
            continue;
        }
        high_resolution_clock::time_point b = high_resolution_clock::now();
        if (getTick() - _lrtick > divs)
        {
            _lrtick = getTick();
            //double _dt=(getTick()-ttick)*dpt-duration_cast<nanoseconds>((b-ttime)).count();
            //<0: slower than expected, >0: faster than expected
            //fprintf(stderr,"@ tick %u, dtime %.6fus",getTick(),_dt/1000.);
        }
        for (; !tcstop && midiReaders && tceptr < ecnt && ct == getEvent(tceptr)->time; ++tceptr)
        {
            if (processEvent(getEvent(tceptr)))
            {
                SEvent *e = getEvent(tceptr);
                mididev[mappedoutput[e->type & 0x0F]].dev->basicMessage(e->type, e->p1, e->p2);
            }
            for (auto i = event_handlers.begin(); i != event_handlers.end(); ++i)
                if (std::get<2>(i->second))
                    std::get<0>(i->second)((void *)getEvent(tceptr), std::get<1>(i->second));
        }
        if (tcstop || !midiReaders || tceptr >= ecnt)
            break;
        high_resolution_clock::time_point a = high_resolution_clock::now();
        auto sendtime = a - b;
        if (sendtime.count() < (getEvent(tceptr)->time - ct) * dpt)
        {
            double ns_sleep = (getEvent(tceptr)->time - ct) * dpt - sendtime.count();
            double correction = (getTick() - ttick) * dpt - (b - ttime).count();
            if (correction > 0)
                correction = 0;
            if (ns_sleep + correction > 2e8)
            {
                high_resolution_clock::time_point t = high_resolution_clock::now();
                uint64_t tts = uint64_t(ns_sleep + correction);
                while (tts > 2e8 && !tcstop && midiReaders)
                {
#ifdef _WIN32
                    w32usleep(2e5);
#else
                    std::this_thread::sleep_for(std::chrono::nanoseconds(uint64_t(2e8)));
#endif
                    tts -= uint64_t((high_resolution_clock::now() - t).count());
                    t = high_resolution_clock::now();
                }
                if (tts > 0 && !tcstop && midiReaders)
                {
#ifdef _WIN32
                    w32usleep(tts / 1000);
#else
                    std::this_thread::sleep_for(std::chrono::nanoseconds(tts));
#endif
                }
            }
            else
            {
#ifdef _WIN32
                w32usleep(uint64_t((ns_sleep + correction) / 1000));
#else
                std::this_thread::sleep_for(std::chrono::nanoseconds(uint64_t(ns_sleep + correction)));
#endif
            }
        }
        if (tcstop || !midiReaders)
            break;
        ct = getEvent(tceptr)->time;
    }
    if (tceptr >= ecnt)
        finished = 1;
}
void CMidiPlayer::fileTimer1Pass()
{
    ftime = .0;
    ctempo = 0x7A120;
    dpt = ctempo * 1000. / divs;
    for (uint32_t eptr = 0, ct = getEvent(0)->time; eptr < ecnt;)
    {
        while (eptr < ecnt && ct == getEvent(eptr)->time)
            processEventStub(getEvent(eptr++));
        if (eptr >= ecnt)
            break;
        ftime += (getEvent(eptr)->time - ct) * dpt / 1e9;
        ct = getEvent(eptr)->time;
    }
}
void CMidiPlayer::fileTimer2Pass()
{
    double ctime = .0;
    uint32_t c = 1;
    ctempo = 0x7A120;
    dpt = ctempo * 1000. / divs;
    memset(stamps, 0, sizeof(stamps));
    memset(ccstamps, 0, sizeof(ccstamps));
    memset(ccc, 0, sizeof(ccc));
    memset(rpnid, 0xFF, sizeof(rpnid));
    memset(rpnval, 0xFF, sizeof(rpnval));
    for (int i = 0; i < 16; ++i)
    {
        memset(ccc[i], 0xFF, 128 * sizeof(uint32_t));
        ccc[i][131] = ctempo;
        ccc[i][132] = 0x04021808;
        ccc[i][133] = 0;
        ccc[i][134] = 2;
    }
    for (int i = 0; i < 16; ++i)
        for (int j = 0; j < 135; ++j)
            ccstamps[0][i][j] = ccc[i][j];
    for (uint32_t eptr = 0, ct = getEvent(0)->time; eptr < ecnt;)
    {
        while (eptr < ecnt && ct == getEvent(eptr)->time)
            processEventStub(getEvent(eptr++));
        if (eptr >= ecnt)
            break;
        ctime += (getEvent(eptr)->time - ct) * dpt / 1e9;
        while (ctime > ftime * c / 100.)
        {
            for (int i = 0; i < 16; ++i)
                for (int j = 0; j < 135; ++j)
                    ccstamps[c][i][j] = ccc[i][j];
            stamps[c++] = eptr;
            if (c > 100)
                break;
        }
        ct = getEvent(eptr)->time;
    }
    while (c < 101)
    {
        for (int i = 0; i < 16; ++i)
            for (int j = 0; j < 135; ++j)
                ccstamps[c][i][j] = ccc[i][j];
        stamps[c++] = ecnt;
    }
}

CMidiPlayer::CMidiPlayer()
{
    midiReaders = new CMidiFileReaderCollection();
    resumed = false;
    midiFile = nullptr;
    waitvoice = true;
    event_handlers_id = event_read_handlers_id = file_read_finish_hooks_id = 0;
    memset(eventHandlerCB, 0, sizeof(eventHandlerCB));
    memset(eventHandlerCBuserdata, 0, sizeof(eventHandlerCBuserdata));
    memset(eventReaderCB, 0, sizeof(eventReaderCB));
    memset(eventReaderCBuserdata, 0, sizeof(eventReaderCBuserdata));
    memset(fileReadFinishCB, 0, sizeof(fileReadFinishCB));
    memset(fileReadFinishCBuserdata, 0, sizeof(fileReadFinishCBuserdata));
    memset(mappedoutput, 0xff, sizeof(mappedoutput));
    memset(chstatus, 0, sizeof(chstatus));
    for (int i = 0; i < 16; ++i)
        memset(chstatus[i], 0xff, 128 * sizeof(uint8_t));
#ifdef _WIN32
    QueryPerformanceFrequency((LARGE_INTEGER *)&pf);
#endif
    ref = this;
}
CMidiPlayer::~CMidiPlayer()
{
    if (midiFile)
        delete midiFile;
    delete midiReaders;
}
void CMidiPlayer::playerPanic(bool reset)
{
    for (auto &i : mididev)
        if (i.refcnt)
        {
            for (uint8_t j = 0; j < 16; ++j)
                reset ? i.dev->reset(j) : i.dev->panic(j);
        }
}
bool CMidiPlayer::playerLoadFile(const char *fn)
{
    notes = 0;
    if (midiFile)
        delete midiFile;
    midiFile = midiReaders->readFile(fn);
    if (!midiFile || !midiFile->valid)
        return false;
    divs = midiFile->divs;
    maxtk = ecnt = 0;
    for (CMidiTrack &i : midiFile->tracks)
    {
        ecnt += i.eventList.size();
        if (i.eventList.size())
            maxtk = std::max(maxtk, i.eventList.back().time);
    }
    for (int i = 0; i < 16; ++i)
        if (fileReadFinishCB[i])
            fileReadFinishCB[i]->callBack(nullptr, fileReadFinishCBuserdata[i]);
    for (auto i = file_read_finish_hooks.begin(); i != file_read_finish_hooks.end(); ++i)
        i->second.first(nullptr, i->second.second);
    eorder.clear();
    for (size_t i = 0; i < midiFile->tracks.size(); ++i)
        for (size_t j = 0; j < midiFile->tracks[i].eventList.size(); ++j)
            eorder.push_back(std::make_pair(i, j));
    std::sort(eorder.begin(), eorder.end(),
        [this](std::pair<size_t, size_t> &a, std::pair<size_t, size_t> &b)->bool
    {
        return midiFile->tracks[a.first].eventList[a.second] <
        midiFile->tracks[b.first].eventList[b.second];
    });
    fileTimer1Pass();
    fileTimer2Pass();
    return true;
}
void CMidiPlayer::playerInit()
{
    ctempo = 0x7A120;
    ctsn = 4;
    ctsd = 4;
    cks = 0;
    dpt = ctempo * 1000. / divs;
    tceptr = 0;
    tcstop = false;
    tcpaused = 0;
    finished = 0;
    mute = solo = 0;
    for (int i = 0; i < 16; ++i)
        pbr[i] = 2, pbv[i] = 8192;
    sendSysEx = true;
    memset(rpnid, 0xFF, sizeof(rpnid));
    memset(rpnval, 0xFF, sizeof(rpnval));
    memset(chstatus, 0, sizeof(chstatus));
    for (int i = 0; i < 16; ++i)
        memset(chstatus[i], 0xff, 128 * sizeof(uint8_t));
}
void CMidiPlayer::playerDeinit()
{
    tceptr = 0;
    tcstop = true;
    tcpaused = 0;
    delete midiFile;
    midiFile = nullptr;
}
void CMidiPlayer::playerThread()
{
    prePlayInit();
    playEvents();
}

void CMidiPlayer::sendSysX(bool send)
{
    sendSysEx = send;
}
uint32_t CMidiPlayer::getStamp(int id)
{
    return stamps[id];
}
uint32_t CMidiPlayer::getTCeptr()
{
    return tceptr;
}
void CMidiPlayer::setTCeptr(uint32_t ep, uint32_t st)
{
    resumed = true;
    if (ep == ecnt)
        tcstop = true;
    else tceptr = ep;
    for (int i = 0; i < 16; ++i)
    {
        qmpMidiOutDevice *dest = mididev[mappedoutput[i]].dev;
        for (int j = 0; j < 120; ++j)
        {
            if (~ccstamps[st][i][j])
            {
                dest->basicMessage(0xB0 | i, j, ccstamps[st][i][j]);
                chstatus[i][j] = ccstamps[st][i][j];
            }
        }
        dest->basicMessage(0xC0 | i, ccstamps[st][i][128], 0);
        chstatus[i][128] = ccstamps[st][i][128];
        dest->rpnMessage(i, 0, ccstamps[st][i][134] << 7);
        pbr[i] = ccstamps[st][i][134];
        ctempo = ccstamps[st][0][131];
        dpt = ctempo * 1000. / divs;
        ctsn = ccstamps[st][0][132] >> 24;
        ctsd = 1 << ((ccstamps[st][0][132] >> 16) & 0xFF);
        cks = ccstamps[st][0][133];
    }
}
double CMidiPlayer::getFtime()
{
    return ftime;
}
void CMidiPlayer::getCurrentTimeSignature(int *n, int *d)
{
    *n = ctsn;
    *d = ctsd;
}
int CMidiPlayer::getCurrentKeySignature()
{
    return cks;
}
uint32_t CMidiPlayer::getFileNoteCount()
{
    return notes;
}
uint32_t CMidiPlayer::getFileStandard()
{
    return midiFile ? midiFile->std : 0;
}
const char *CMidiPlayer::getTitle()
{
    return midiFile ? midiFile->title : "";
}
const char *CMidiPlayer::getCopyright()
{
    return midiFile ? midiFile->copyright : "";
}
double CMidiPlayer::getTempo()
{
    return 60. / (ctempo / 1e6);
}
uint32_t CMidiPlayer::getTick()
{
    return ct;
}
uint32_t CMidiPlayer::getRawTempo()
{
    return ctempo;
}
uint32_t CMidiPlayer::getDivision()
{
    return divs;
}
uint32_t CMidiPlayer::getMaxTick()
{
    return maxtk;
}
double CMidiPlayer::getPitchBend(int ch)
{
    return ((int)pbv[ch] - 8192) / 8192.*pbr[ch];
}
double CMidiPlayer::getPitchBendRaw(int ch, uint32_t *pb, uint32_t *pbr)
{
    if (pb)
        *pb = this->pbv[ch];
    if (pbr)
        *pbr = this->pbr[ch];
}
uint32_t CMidiPlayer::getTCpaused()
{
    return tcpaused;
}
void CMidiPlayer::setTCpaused(uint32_t ps)
{
    tcpaused = ps;
}
uint32_t CMidiPlayer::isFinished()
{
    return finished;
}
bool CMidiPlayer::stopFlag()
{
    return tcstop;
}
void CMidiPlayer::setResumed()
{
    resumed = true;
}

void CMidiPlayer::setChannelPreset(int ch, int b, int p)
{
    chstatus[ch][128] = p;
    chstatus[ch][0] = b >> 7;
    chstatus[ch][32] = b & 0x7F;
    qmpMidiOutDevice *d = mididev[mappedoutput[ch]].dev;
    d->basicMessage(0xB0 | ch, 0x00, b >> 7);
    d->basicMessage(0xB0 | ch, 0x20, b & 0x7F);
    d->basicMessage(0xC0 | ch, p, 0);
}
void CMidiPlayer::dumpFile()
{
    if (!midiFile)
        return;
    for (CMidiTrack &i : midiFile->tracks)
        for (SEvent &j : i.eventList)
            if (j.str.length())
                printf("type %x #%d @%d p1 %d p2 %d str %s\n", j.type,
                    j.iid, j.time, j.p1, j.p2, j.str.c_str());
            else
                printf("type %x #%d @%d p1 %d p2 %d\n", j.type, j.iid,
                    j.time, j.p1, j.p2);
}
//16MSB..LSB1
void CMidiPlayer::setBit(uint16_t &n, uint16_t bn, uint16_t b)
{
    n ^= (((~b) + 1)^n) & (1 << bn);
}
void CMidiPlayer::setMute(int ch, bool m)
{
    setBit(mute, ch, m ? 1 : 0);
}
void CMidiPlayer::setSolo(int ch, bool s)
{
    setBit(solo, ch, s ? 1 : 0);
}
bool CMidiPlayer::getChannelMask(int ch)
{
    return ((mute >> ch) & 1) || (solo && !((solo >> ch) & 1));
}
uint16_t CMidiPlayer::getCC(int ch, int id)
{
    if (chstatus[ch][id] == 0xff)
        return getChannelOutputDevice(ch)->getInitialCCValue(uint8_t(id), uint8_t(ch));
    return chstatus[ch][id];
}
void CMidiPlayer::setCC(int ch, int id, int val)
{
    chstatus[ch][id] = val;
    mididev[mappedoutput[ch]].dev->basicMessage(0xB0 | ch, id, val);
}

void CMidiPlayer::registerMidiOutDevice(qmpMidiOutDevice *dev, std::string name)
{
    SMidiDev d;
    d.dev = dev;
    d.name = name;
    d.refcnt = 0;
    mididev.push_back(d);
}
void CMidiPlayer::unregisterMidiOutDevice(std::string name)
{
    for (auto i = mididev.begin(); i != mididev.end(); ++i)
        if (i->name == name)
        {
            i->dev->deviceDeinit();
            mididev.erase(i);
            break;
        }
}
std::vector<std::string> CMidiPlayer::getMidiOutDevices()
{
    std::vector<std::string> ret;
    for (auto &i : mididev)
        ret.push_back(i.name);
    return ret;
}
int CMidiPlayer::getChannelOutput(int ch)
{
    return mappedoutput[ch];
}
qmpMidiOutDevice *CMidiPlayer::getChannelOutputDevice(int ch)
{
    return mididev[mappedoutput[ch]].dev;
}
void CMidiPlayer::setChannelOutput(int ch, int outid)
{
    int origoutput = mappedoutput[ch];
    if (origoutput == outid)
        return;
    SMidiDev &dnew = mididev[outid];
    dnew.dev->onMapped(ch, ++dnew.refcnt);
    for (int i = 0; i < 124; ++i)
    {
        if (i != 6 && i != 38 && i != 100 && i != 101) //avoid sending RPN/NRPN
        {
            unsigned st = chstatus[ch][i];
            if (!~st)
                st = dnew.dev->getInitialCCValue(i, ch);
            dnew.dev->basicMessage(0xB0 | ch, i, chstatus[ch][i]);
        }
    }
    dnew.dev->basicMessage(0xC0 | ch, ~chstatus[ch][128] ? chstatus[ch][128] : dnew.dev->getInitialCCValue(128, ch), 0);
    mappedoutput[ch] = outid;
    if (~origoutput)
    {
        SMidiDev &dold = mididev[origoutput];
        dold.dev->onUnmapped(ch, --dold.refcnt);
    }
}
const std::chrono::system_clock::time_point *CMidiPlayer::getLastEventTS()
{
    return levtt;
}
int CMidiPlayer::setEventHandlerCB(ICallBack *cb, void *userdata)
{
    for (int i = 0; i < 16; ++i)
    {
        if (eventHandlerCB[i] == cb)
            return i;
        if (eventHandlerCB[i] == nullptr)
        {
            eventHandlerCB[i] = cb;
            eventHandlerCBuserdata[i] = userdata;
            return i;
        }
    }
    return -1;
}
void CMidiPlayer::unsetEventHandlerCB(int id)
{
    eventHandlerCB[id] = nullptr;
    eventHandlerCBuserdata[id] = nullptr;
}
int CMidiPlayer::setEventReaderCB(ICallBack *cb, void *userdata)
{
    for (int i = 0; i < 16; ++i)
    {
        if (eventReaderCB[i] == cb)
            return i;
        if (eventReaderCB[i] == nullptr)
        {
            eventReaderCB[i] = cb;
            eventReaderCBuserdata[i] = userdata;
            return i;
        }
    }
    return -1;
}
void CMidiPlayer::unsetEventReaderCB(int id)
{
    eventReaderCB[id] = nullptr;
    eventReaderCBuserdata[id] = nullptr;
}
int CMidiPlayer::setFileReadFinishedCB(ICallBack *cb, void *userdata)
{
    for (int i = 0; i < 16; ++i)
    {
        if (fileReadFinishCB[i] == cb)
            return i;
        if (fileReadFinishCB[i] == nullptr)
        {
            fileReadFinishCB[i] = cb;
            fileReadFinishCBuserdata[i] = userdata;
            return i;
        }
    }
    return -1;
}
void CMidiPlayer::unsetFileReadFinishedCB(int id)
{
    fileReadFinishCB[id] = nullptr;
    fileReadFinishCBuserdata[id] = nullptr;
}
int CMidiPlayer::registerEventHandler(callback_t cb, void *userdata, bool post)
{
    int ret;
    event_handlers[ret = event_handlers_id++] = std::make_tuple(cb, userdata, post);
    return ret;
}
void CMidiPlayer::unregisterEventHandler(int id)
{
    event_handlers.find(id) != event_handlers.end() &&event_handlers.erase(id);
}
int CMidiPlayer::registerEventReadHandler(callback_t cb, void *userdata)
{
    int ret;
    event_read_handlers[ret = event_read_handlers_id++] = std::make_pair(cb, userdata);
    return ret;
}
void CMidiPlayer::unregisterEventReadHandler(int id)
{
    event_read_handlers.find(id) != event_read_handlers.end() &&event_read_handlers.erase(id);
}
int CMidiPlayer::registerFileReadFinishHook(callback_t cb, void *userdata)
{
    int ret;
    file_read_finish_hooks[ret = file_read_finish_hooks_id++] = std::make_pair(cb, userdata);
    return ret;
}
void CMidiPlayer::unregisterFileReadFinishHook(int id)
{
    file_read_finish_hooks.find(id) != file_read_finish_hooks.end() &&file_read_finish_hooks.erase(id);
}
void CMidiPlayer::registerReader(qmpFileReader *reader, std::string name)
{
    midiReaders->registerReader(reader, name);
}
void CMidiPlayer::unregisterReader(std::string name)
{
    midiReaders->unregisterReader(name);
}
void CMidiPlayer::callEventReaderCB(SEvent d)
{
    if ((d.type & 0xF0) == 0x90)
        ++notes;
    for (int i = 0; i < 16; ++i)
        if (eventReaderCB[i])
            eventReaderCB[i]->callBack(&d, eventReaderCBuserdata[i]);
    for (auto i = event_read_handlers.begin(); i != event_read_handlers.end(); ++i)
        i->second.first(&d, i->second.second);
}
void CMidiPlayer::discardCurrentEvent()
{
    if (midiReaders->getCurrentReader())
        midiReaders->getCurrentReader()->discardCurrentEvent();
}
void CMidiPlayer::commitEventChange(SEvent d)
{
    if (midiReaders->getCurrentReader())
        midiReaders->getCurrentReader()->commitEventChange(d);
}

CMidiPlayer *CMidiPlayer::getInstance()
{
    return ref;
}