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path: root/visualization/qmpvisualization.cpp
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#include <cstdio>
#include <cstdlib>
#include <cstring>
#include <cmath>
#include <algorithm>
#include <set>
#include "qmpvisualization.hpp"

int viewdist = 100;
int notestretch = 100; //length of quarter note
int minnotelength = 100;
int noteappearance = 1, showpiano = 1, stairpiano = 1, savevp = 1, showlabel = 1;
int wwidth = 800, wheight = 600, wsupersample = 1, wmultisample = 0, showparticle = 1;
int horizontal = 1, flat = 0, osdpos = 0, fontsize = 16, showmeasure = 1;
int fov = 60, vsync = 1, tfps = 60, usespectrum = 0;
DWORD chkrtint = 0xFF999999;
const wchar_t *minors = L"abebbbf c g d a e b f#c#g#d#a#";
const wchar_t *majors = L"CbGbDbAbEbBbF C G D A E B F#C#";
double fpoffsets[] = {1, 18, 28, 50, 55, 82, 98, 109, 130, 137, 161, 164, 191};
double froffsets[] = {0, 18, 33, 50, 65, 82, 98, 113, 130, 145, 161, 176, 191};
DWORD iccolors[] = {0XFFFF0000, 0XFFFF8000, 0XFFFFBF00, 0XFFF0F000,
        0XFFB2EE00, 0XFF80FF00, 0XFF00FF00, 0XFF00EEB2,
        0XFF00EEEE, 0XFF333333, 0XFF00BFFF, 0XFF007FFF,
        0XFF0000FF, 0XFF7F00FF, 0XFFBF00FF, 0XFFFF00BF
    };
DWORD accolors[] = {0XFFFF9999, 0XFFFFCC99, 0XFFFFF4D4, 0XFFFFFFDD,
        0XFFF0FFC2, 0XFFDDFFBB, 0XFFBBFFBB, 0XFFAAFFEA,
        0XFFBBFFFF, 0XFF999999, 0XFF99EEFF, 0XFF99CCFF,
        0XFF9999FF, 0XFFCC99FF, 0XFFEE99FF, 0XFFFF99EE
    };

std::set<BYTE> sustaininst = {16, 17, 18, 19, 20, 21, 22, 23,
                   40, 41, 42, 43, 44, 45, 48, 49,
                   50, 51, 52, 53, 54, 56, 57, 58,
                   59, 60, 61, 62, 63, 64, 65, 66,
                   67, 68, 69, 70, 71, 72, 73, 74,
                   75, 76, 77, 78, 79, 80, 81, 82,
                   83, 84, 85, 86, 87, 89, 90, 91,
                   92, 93, 94, 95, 97, 101, 109, 110, 111
               };

bool cmp(MidiVisualEvent *a, MidiVisualEvent *b)
{
    if (a->tcs < b->tcs)
        return true;
    if (a->tcs > b->tcs)
        return false;
    if (a->tce < b->tce)
        return true;
    return false;
}
void qmpVisualization::showThread()
{
    wwidth = api->getOptionInt("Visualization/wwidth");
    wheight = api->getOptionInt("Visualization/wheight");
    wsupersample = api->getOptionInt("Visualization/supersampling");
    wmultisample = api->getOptionInt("Visualization/multisampling");
    fov = api->getOptionInt("Visualization/fov");
    noteappearance = api->getOptionBool("Visualization/3dnotes");
    showpiano = api->getOptionBool("Visualization/showpiano");
    stairpiano = api->getOptionBool("Visualization/stairpiano");
    showlabel = api->getOptionBool("Visualization/showlabel");
    showparticle = api->getOptionBool("Visualization/showparticle");
    horizontal = api->getOptionBool("Visualization/horizontal");
    flat = api->getOptionBool("Visualization/flat");
    showmeasure = api->getOptionBool("Visualization/showmeasure");
    savevp = api->getOptionBool("Visualization/savevp");
    vsync = api->getOptionBool("Visualization/vsync");
    tfps = api->getOptionInt("Visualization/tfps");
    osdpos = api->getOptionEnumInt("Visualization/osdpos");
    fontsize = api->getOptionInt("Visualization/fontsize");
    viewdist = api->getOptionInt("Visualization/viewdist");
    notestretch = api->getOptionInt("Visualization/notestretch");
    minnotelength = api->getOptionInt("Visualization/minnotelen");
    chkrtint = api->getOptionUint("Visualization/chkrtint");
    usespectrum = api->getOptionBool("Visualization/usespectrum");
    for (int i = 0; i < 16; ++i)
    {
        accolors[i] = api->getOptionUint("Visualization/chActiveColor" + std::to_string(i));
        iccolors[i] = api->getOptionUint("Visualization/chInactiveColor" + std::to_string(i));
    }
    sm = smGetInterface(SMELT_APILEVEL);
    sm->smVidMode(wwidth, wheight, true, !hidewindow);
    sm->smUpdateFunc(h);
    sm->smQuitFunc(closeh);
    sm->smWinTitle("QMidiPlayer Visualization");
    sm->smSetFPS(vsync ? FPS_VSYNC : tfps);
    sm->smNoSuspend(true);
    sm->smInit();
    shouldclose = false;
    sm->smTextureOpt(TPOT_POT, TFLT_LINEAR);
    chequer = sm->smTextureLoad("chequerboard.png");
    if (!chequer)
        chequer = sm->smTextureLoad("/usr/share/qmidiplayer/img/chequerboard.png");
    pianotex = sm->smTextureLoad("kb_128.png");
    if (!pianotex)
        pianotex = sm->smTextureLoad("/usr/share/qmidiplayer/img/kb_128.png");
    particletex = sm->smTextureLoad("particle.png");
    if (!particletex)
        particletex = sm->smTextureLoad("/usr/share/qmidiplayer/img/particle.png");
    bgtex = sm->smTextureLoad(api->getOptionString("Visualization/background").c_str());
    if (rendermode)
        fbcont = new DWORD[wwidth * wheight];
    if (showparticle && !horizontal)
    {
        smParticleSystemInfo psinfo;
        psinfo.acc = smvec3d(0, 0, -0.05);
        psinfo.accvar = smvec3d(0, 0, 0.005);
        psinfo.vel = smvec3d(0, 0, 0.5);
        psinfo.velvar = smvec3d(0.1, 0.1, 0.2);
        psinfo.rotv = psinfo.rota = psinfo.rotavar = smvec3d(0, 0, 0);
        psinfo.rotvvar = smvec3d(0.04, 0.04, 0.04);
        psinfo.lifespan = 1;
        psinfo.lifespanvar = 0.5;
        psinfo.maxcount = 1000;
        psinfo.emissioncount = 5;
        psinfo.ecvar = 2;
        psinfo.emissiondelay = 0.1;
        psinfo.edvar = 0;
        psinfo.initsize = 0.8;
        psinfo.initsizevar = 0.1;
        psinfo.finalsize = 0.1;
        psinfo.finalsizevar = 0.05;
        psinfo.initcolor = 0xFFFFFFFF;
        psinfo.finalcolor = 0x00FFFFFF;
        psinfo.initcolorvar = psinfo.finalcolorvar = 0;
        psinfo.texture = particletex;
        psinfo.blend = BLEND_ALPHAADD;
        psepg = new smXLinePSGenerator(.6);
        for (int i = 0; i < 16; ++i)
            for (int j = 0; j < 128; ++j)
            {
                pss[i][j] = new smParticleSystem();
                pss[i][j]->setPSEmissionPosGen(psepg);
                psinfo.initcolor = accolors[i];
                psinfo.finalcolor = SETA(accolors[i], 0);
                pss[i][j]->setParticleSystemInfo(psinfo);
                pss[i][j]->setPos(smvec3d(0.756 * ((double)j - 64) + .48, (stairpiano ? (56 - i * 7.) : (64 - i * 8.)), stairpiano * i * 2 + 0.1));
            }
    }
    else memset(pss, 0, sizeof(pss));
    if (showpiano && !horizontal)
        for (int i = 0; i < 16; ++i)
            p3d[i] = new qmpVirtualPiano3D();
    memset(traveld, 0, sizeof(traveld));
    nebuf = new smEntity3DBuffer();
    tdscn = sm->smTargetCreate(wwidth * wsupersample, wheight * wsupersample, wmultisample);
    tdparticles = sm->smTargetCreate(wwidth * wsupersample, wheight * wsupersample, wmultisample);
    if (!api->getOptionString("Visualization/font2").length() || !font.loadTTF(api->getOptionString("Visualization/font2").c_str(), fontsize))
        if (!font.loadTTF("/usr/share/fonts/truetype/freefont/FreeMono.ttf", fontsize))
            if (!font.loadTTF("/usr/share/fonts/gnu-free/FreeMono.otf", fontsize))
                if (!font.loadTTF((std::string(getenv("windir") ? getenv("windir") : "") + "/Fonts/cour.ttf").c_str(), fontsize))
                    fprintf(stderr, "W: Font load failed.\n");
    if (!api->getOptionString("Visualization/font2").length() || !fonthdpi.loadTTF(api->getOptionString("Visualization/font2").c_str(), 180))
        if (!fonthdpi.loadTTF("/usr/share/fonts/truetype/freefont/FreeMono.ttf", 180))
            if (!fonthdpi.loadTTF("/usr/share/fonts/gnu-free/FreeMono.otf", 180))
                if (!fonthdpi.loadTTF((std::string(getenv("windir") ? getenv("windir") : "") + "/Fonts/cour.ttf").c_str(), 180))
                    fprintf(stderr, "W: Font load failed.\n");
    if (!api->getOptionString("Visualization/font1").length() || !font2.loadTTF(api->getOptionString("Visualization/font1").c_str(), fontsize))
        if (!font2.loadTTF("/usr/share/fonts/truetype/wqy/wqy-microhei.ttc", fontsize))
            if (!font2.loadTTF("/usr/share/fonts/wenquanyi/wqy-microhei/wqy-microhei.ttc", fontsize))
                if (!font2.loadTTF((std::string(getenv("windir") ? getenv("windir") : "") + "/Fonts/msyh.ttc").c_str(), fontsize))
                    if (!font2.loadTTF((std::string(getenv("windir") ? getenv("windir") : "") + "/Fonts/segoeui.ttf").c_str(), fontsize))
                        fprintf(stderr, "W: Font load failed.\n");
    if (pos[0] < -1e8)
    {
        if (horizontal)
        {
            pos[0] = -20;
            pos[1] = 45;
            pos[2] = 0;
            rot[0] = 0;
            rot[1] = 90;
            rot[2] = 90;
        }
        else
        {
            pos[0] = 0;
            pos[1] = 120;
            pos[2] = 70;
            rot[0] = 0;
            rot[1] = 75;
            rot[2] = 90;
        }
    }
    debug = false;
    ctk = api->getCurrentTimeStamp();
    lst = std::chrono::steady_clock::now();
    sm->smMainLoop();
    sm->smFinale();
}
void qmpVisualization::show()
{
    rendererTh = new std::thread(&qmpVisualization::showThread, this);
}
void qmpVisualization::close()
{
    shouldclose = true;
    if (rendererTh)
    {
        rendererTh->join();
        delete rendererTh;
        rendererTh = nullptr;
    }
    else return;

    if (showpiano && !horizontal)
        for (int i = 0; i < 16; ++i)
            delete p3d[i];
    if (showparticle && !horizontal)
        for (int i = 0; i > 16; ++i)
            for (int j = 0; j < 128; ++j)
            {
                delete pss[i][j];
                pss[i][j] = 0;
            }
    delete nebuf;
    if (savevp)
    {
        api->setOptionDouble("Visualization/px", pos[0]);
        api->setOptionDouble("Visualization/py", pos[1]);
        api->setOptionDouble("Visualization/pz", pos[2]);
        api->setOptionDouble("Visualization/rx", rot[0]);
        api->setOptionDouble("Visualization/ry", rot[1]);
        api->setOptionDouble("Visualization/rz", rot[2]);
    }
    if (rendermode)
        delete[] fbcont;
    font.releaseTTF();
    font2.releaseTTF();
    fonthdpi.releaseTTF();
    sm->smTextureFree(chequer);
    sm->smTextureFree(pianotex);
    sm->smTextureFree(particletex);
    if (bgtex)
        sm->smTextureFree(bgtex);
    sm->smTargetFree(tdscn);
    sm->smTargetFree(tdparticles);
    sm->smRelease();
}
void qmpVisualization::reset()
{
    for (unsigned i = 0; i < pool.size(); ++i)
        delete pool[i];
    pool.clear();
    elb = ctk = lstk = cfr = 0;
    tspool.clear();
    cts = 0x0402;
    cks = 0;
    ctp = 500000;
    for (int i = 0; i < 16; ++i)
    {
        cpbr[i] = 2;
        cpw[i] = 8192;
    }
    for (int i = 0; i < 16; ++i)
        for (int j = 0; j < 128; ++j)
        {
            if (showparticle && !horizontal && pss[i][j])
                pss[i][j]->stopPS();
            while (!pendingt[i][j].empty())
                pendingt[i][j].pop();
            while (!pendingv[i][j].empty())
                pendingv[i][j].pop();
        }
}

void qmpVisualization::switchToRenderMode(void(*frameCallback)(void *, size_t, uint32_t, uint32_t), bool _hidewindow)
{
    rendermode = true;
    framecb = frameCallback;
    hidewindow = _hidewindow;
}
void qmpVisualization::start()
{
    playing = true;
}
void qmpVisualization::stop()
{
    playing = false;
}
void qmpVisualization::pause()
{
    playing = !playing;
}
void qmpVisualization::updateVisualization3D()
{
    smQuad q;
    if (!rendermode)
    {
        if (sm->smGetKeyState(SMK_D))
            pos[0] += cos(smMath::deg2rad(rot[2] - 90)), pos[1] += sin(smMath::deg2rad(rot[2] - 90));
        if (sm->smGetKeyState(SMK_A))
            pos[0] -= cos(smMath::deg2rad(rot[2] - 90)), pos[1] -= sin(smMath::deg2rad(rot[2] - 90));
        if (sm->smGetKeyState(SMK_S))
            pos[0] += cos(smMath::deg2rad(rot[2])), pos[1] += sin(smMath::deg2rad(rot[2]));
        if (sm->smGetKeyState(SMK_W))
            pos[0] -= cos(smMath::deg2rad(rot[2])), pos[1] -= sin(smMath::deg2rad(rot[2]));
        if (sm->smGetKeyState(SMK_Q))
            pos[2] += 1;
        if (sm->smGetKeyState(SMK_E))
            pos[2] -= 1;
        if (sm->smGetKeyState(SMK_R))
        {
            if (horizontal)
            {
                pos[0] = -20;
                pos[1] = 45;
                pos[2] = 0;
                rot[0] = 0;
                rot[1] = 90;
                rot[2] = 90;
            }
            else
            {
                pos[0] = 0;
                pos[1] = 120;
                pos[2] = 70;
                rot[0] = 0;
                rot[1] = 75;
                rot[2] = 90;
            }
        }
        if (sm->smGetKeyState(SMK_LBUTTON) == SMKST_HIT)
            sm->smSetMouseGrab(true), sm->smGetMouse2f(&lastx, &lasty);
        if (sm->smGetKeyState(SMK_LBUTTON) == SMKST_KEEP)
        {
            float x, y;
            sm->smGetMouse2f(&x, &y);
            rot[1] -= (y - lasty) * 0.01;
            rot[2] += (x - lastx) * 0.01;
            while (rot[1] > 360)
                rot[1] -= 360;
            while (rot[1] < 0)
                rot[1] += 360;
            while (rot[2] > 360)
                rot[2] -= 360;
            while (rot[2] < 0)
                rot[2] += 360;
        }
        if (sm->smGetKeyState(SMK_LBUTTON) == SMKST_RELEASE)
        {
            sm->smSetMouseGrab(false);
            sm->smSetMouse2f(wwidth / 2, wheight / 2);
        }
        if (sm->smGetKeyState(SMK_I))
            rot[1] += 1;
        if (sm->smGetKeyState(SMK_K))
            rot[1] -= 1;
        if (sm->smGetKeyState(SMK_L))
            rot[0] += 1;
        if (sm->smGetKeyState(SMK_J))
            rot[0] -= 1;
        if (sm->smGetKeyState(SMK_U))
            rot[2] += 1;
        if (sm->smGetKeyState(SMK_O))
            rot[2] -= 1;
    }
    for (int i = 0; i < 4; ++i)
    {
        q.v[i].col = chkrtint;
        q.v[i].z = (showpiano && !horizontal) ? -5 : 0;
    }
    q.tex = chequer;
    q.blend = BLEND_ALPHABLEND;
    q.v[0].x = q.v[3].x = -120;
    q.v[1].x = q.v[2].x = 120;
    q.v[0].y = q.v[1].y = -120;
    q.v[2].y = q.v[3].y = 120;
    if (horizontal)
    {
        for (int i = 0; i < 4; ++i)
            q.v[i].x = -20;
        q.v[0].y = q.v[3].y = -120;
        q.v[1].y = q.v[2].y = 120;
        q.v[0].z = q.v[1].z = -120;
        q.v[2].z = q.v[3].z = 120;
    }
    q.v[0].tx = q.v[3].tx = 0;
    q.v[1].tx = q.v[2].tx = 30;
    q.v[0].ty = q.v[1].ty = 0;
    q.v[2].ty = q.v[3].ty = 30;
    sm->smRenderBegin3D(fov, true, tdscn);
    sm->sm3DCamera6f2v(pos, rot);
    sm->smClrscr(0, 1, 1);
    sm->smRenderQuad(&q);
    double lpt = (double)notestretch / api->getDivision() / 10.*(horizontal ? 0.25 : 1);
    memcpy(lastnotestatus, notestatus, sizeof(notestatus));
    memset(notestatus, 0, sizeof(notestatus));
    for (uint32_t i = elb; i < pool.size(); ++i)
    {
        if (((double)pool[i]->tcs - ctk)*lpt > viewdist * 2)
            break;
        if (fabs((double)pool[i]->tcs - ctk)*lpt < viewdist * 2 || fabs((double)pool[i]->tce - ctk)*lpt < viewdist * 2)
        {
            if (pool[i]->ch == 999)
            {
                smvec3d a(0.63 * (-64) + .1 - 10, (stairpiano ? (56 - 0 * 7.) : (64 - 0 * 8.)) + 10, ((double)pool[i]->tcs - ctk)*lpt - minnotelength * .005);
                smvec3d b(0.63 * 64 + .7 + 10, (stairpiano ? (56 - 15 * 7.) : (64 - 15 * 8.)) + .4 - 10, ((double)pool[i]->tcs - ctk)*lpt + minnotelength * .005);
                if (horizontal)
                {
                    a = smvec3d(((double)pool[i]->tcs - ctk) * lpt - 20 - minnotelength * .001, (16 - 0 * 2.) + 2.4, 0.63 * (-64) + .1);
                    b = smvec3d(((double)pool[i]->tcs - ctk) * lpt - 20 + minnotelength * .001, (16 - 15 * 2.) + 0.4, 0.63 * 64 + .7);
                }
                smMatrix I;
                I.loadIdentity();
                smEntity3D c = smEntity3D::cube(a, b, 0xFF000000, horizontal ? 51 : 60);
                if (stairpiano && showpiano && !horizontal)
                {
                    std::vector<size_t> il = {2, 3, 6, 7};
                    for (size_t ti : il)
                    {
                        smVertex t = c.vertex(ti);
                        t.z += 30;
                        c.setVertex(ti, t);
                    }
                }
                if (showmeasure)
                    nebuf->addTransformedEntity(&c, I, smvec3d(0, 0, 0));
                continue;
            }
            if (pool[i]->ch >= 990)
                continue;
            if (api->getChannelMask(pool[i]->ch))
                continue;
            smvec3d a(0.63 * ((double)pool[i]->key - 64) + .1, (stairpiano ? (56 - pool[i]->ch * 7.) : (64 - pool[i]->ch * 8.)), ((double)pool[i]->tce - ctk)*lpt + (stairpiano && showpiano && !horizontal)*pool[i]->ch * 2.);
            smvec3d b(0.63 * ((double)pool[i]->key - 64) + .7, (stairpiano ? (56 - pool[i]->ch * 7.) : (64 - pool[i]->ch * 8.)) + .4, ((double)pool[i]->tcs - ctk)*lpt + (stairpiano && showpiano && !horizontal)*pool[i]->ch * 2.);
            bool isnoteon = pool[i]->tcs <= ctk && pool[i]->tce >= ctk;
            double pb = ((int)cpw[pool[i]->ch] - 8192) / 8192.*cpbr[pool[i]->ch];
            if (isnoteon)
            {
                a.x = 0.63 * ((double)pool[i]->key - 64 + pb) + .1;
                b.x = 0.63 * ((double)pool[i]->key - 64 + pb) + .7;
            }
            notestatus[pool[i]->ch][pool[i]->key] |= isnoteon;
            a.x *= 1.2;
            b.x *= 1.2;
            if (horizontal)
            {
                a = smvec3d(((double)pool[i]->tcs - ctk) * lpt - 20, (16 - pool[i]->ch * 2.), 0.63 * ((double)pool[i]->key - 64) + .1);
                b = smvec3d(((double)pool[i]->tce - ctk) * lpt - 20, (16 - pool[i]->ch * 2.) + .4, 0.63 * ((double)pool[i]->key - 64) + .7);
                if (isnoteon)
                {
                    a.z = 0.63 * ((double)pool[i]->key - 64 + pb) + .1;
                    b.z = 0.63 * ((double)pool[i]->key - 64 + pb) + .7;
                }
            }
            if (showparticle && !horizontal)
            {
                if (notestatus[pool[i]->ch][pool[i]->key] && !lastnotestatus[pool[i]->ch][pool[i]->key])
                {
                    pss[pool[i]->ch][pool[i]->key]->startPS();
                    pss[pool[i]->ch][pool[i]->key]->setPos(smvec3d(0.756 * ((double)pool[i]->key - 64) + .48, (stairpiano ? (56 - pool[i]->ch * 7.) : (64 - pool[i]->ch * 8.)), stairpiano * pool[i]->ch * 2 + 0.1));
                }
                else pss[pool[i]->ch][pool[i]->key]->stopPS();
            }
            if (((double)pool[i]->tce - pool[i]->tcs)*lpt < minnotelength * (horizontal ? 0.0025 : 0.01))
            {
                if (horizontal)
                    a.x = ((double)pool[i]->tcs - ctk) * lpt - minnotelength / 400. - 20;
                else
                    a.z = ((double)pool[i]->tcs - ctk) * lpt - minnotelength / 100. + stairpiano * pool[i]->ch * 2;
            }
            if (usespectrum)
            {
                if (notestatus[pool[i]->ch][pool[i]->key] && !lastnotestatus[pool[i]->ch][pool[i]->key])
                    spectra[pool[i]->ch][pool[i]->key] = pool[i]->vel * (api->getChannelCC(pool[i]->ch, 7) / 127.);
            }
            else
            {
                smColor col = smColor::fromHWColor(isnoteon ? accolors[pool[i]->ch] : iccolors[pool[i]->ch]);
                drawCube(a, b, col.lighter(37 + pool[i]->vel / 2).toHWColor(), 0);
            }
        }
    }
    if (usespectrum && playing)
        for (int i = 0; i < 16; ++i)
            for (int j = 0; j < 128; ++j)
            {
                if (sustaininst.find(api->getChannelPreset(i)) != sustaininst.end())
                {
                    if (!notestatus[i][j] && spectra[i][j])
                        spectra[i][j] = .95 * spectra[i][j];
                }
                else if (spectra[i][j])
                    spectra[i][j] = .95 * spectra[i][j];
                if (spectrar[i][j] < spectra[i][j] * 0.9)
                    spectrar[i][j] += spectra[i][j] * 0.2;
                else spectrar[i][j] = spectra[i][j];
                if (spectrar[i][j])
                {
                    double pb = ((int)cpw[i] - 8192) / 8192.*cpbr[i];
                    smvec3d a(0.756 * ((double)j - 64 + pb) + .12,
                        (stairpiano ? (56 - i * 7.) : (64 - i * 8.)),
                        spectrar[i][j] * 1.2 * (1 + 0.02 * sin(sm->smGetTime() * 32)) + (stairpiano && showpiano && !horizontal)*i * 2.);
                    smvec3d b(0.756 * ((double)j - 64 + pb) + .84,
                        (stairpiano ? (56 - i * 7.) : (64 - i * 8.)) + .4,
                        (stairpiano && showpiano && !horizontal)*i * 2.);
                    drawCube(a, b, SETA(iccolors[i], 204), 0);
                }
            }
    nebuf->drawBatch();
    if (showpiano && !horizontal)
        for (int i = 0; i < 16; ++i)
        {
            for (int j = 0; j < 128; ++j)
            {
                if (notestatus[i][j])
                    if (traveld[i][j] < 10)
                        traveld[i][j] += 2;
                    else traveld[i][j] = 10;
                else if (traveld[i][j] > 0)
                    traveld[i][j] -= 2;
                else traveld[i][j] = 0;
                p3d[i]->setKeyTravelDist(j, traveld[i][j] / 10.);
            }
            double pb = ((int)cpw[i] - 8192) / 8192.*cpbr[i];
            p3d[i]->render(smvec3d(0.756 * pb, stairpiano ? 55 - i * 7 : 62 - i * 8, stairpiano * i * 2));
        }
    for (int i = 0; i < 16; ++i)
        if (showlabel)
        {
            std::string s = api->getChannelPresetString(i);
            wchar_t ws[1024];
            mbstowcs(ws, s.c_str(), 1024);
            fonthdpi.updateString(ws);
            fonthdpi.render(-49, stairpiano ? 56 - i * 7 : 63 - i * 8, stairpiano * i * 2 + 0.1, 0xFFFFFFFF, ALIGN_RIGHT, .008, 0.01);
            fonthdpi.render(-49.05, stairpiano ? 56.05 - i * 7 : 63.05 - i * 8, stairpiano * i * 2 + 0.2, 0xFF000000, ALIGN_RIGHT, .008, 0.01);
        }
    while (pool.size() && elb < pool.size() && ((double)ctk - pool[elb]->tce)*lpt > viewdist * 2)++elb;
    sm->smRenderEnd();
    if (showparticle && !horizontal)
    {
        sm->smRenderBegin3D(fov, false, tdparticles);
        sm->sm3DCamera6f2v(pos, rot);
        sm->smClrscr(0, 1, 1);
        for (int i = 0; i < 16; ++i)
            for (int j = 0; j < 128; ++j)
            {
                pss[i][j]->setPSLookAt(smvec3d(pos[0], pos[1], pos[2]));
                pss[i][j]->updatePS();
                pss[i][j]->renderPS();
            }
        sm->smRenderEnd();
    }
}
void qmpVisualization::updateVisualization2D()
{
    double lpt = -(double)notestretch / api->getDivision() / 2.;
    memset(notestatus, 0, sizeof(notestatus));
    double notew = wwidth / 128, nh = showpiano ? wwidth / 2048.*172. : 0;
    if (horizontal)
    {
        notew = wheight / 128;
        nh = showpiano ? wheight / 2048.*172. : 0;
        lpt = -lpt;
    }
    smQuad nq;
    nq.blend = BLEND_ALPHABLEND;
    nq.tex = 0;
    for (int i = 0; i < 4; ++i)
        nq.v[i].z = 0, nq.v[i].tx = nq.v[i].ty = 0;
    for (uint32_t i = elb; i < pool.size(); ++i)
    {
        bool upperbound = ((double)pool[i]->tcs - ctk) * lpt + wheight - nh < 0;
        bool lowerbound = fabs((double)pool[i]->tce - ctk) * lpt + wheight - nh < wheight;
        if (horizontal)
        {
            upperbound = ((double)pool[i]->tcs - ctk) * lpt + nh > wwidth;
            lowerbound = fabs((double)pool[i]->tce - ctk) * lpt + nh > 0;
        }
        if (upperbound)
            break;
        if (!upperbound || lowerbound)
        {
            if (pool[i]->ch == 999)
            {
                smvec2d a(0, ((double)pool[i]->tcs - ctk)*lpt + wheight - nh - minnotelength * 0.02);
                smvec2d b(wwidth, ((double)pool[i]->tcs - ctk)*lpt + wheight - nh);
                if (horizontal)
                {
                    a = smvec2d(((double)pool[i]->tcs - ctk) * lpt + nh - minnotelength * 0.02, 0);
                    b = smvec2d(((double)pool[i]->tcs - ctk) * lpt + nh, wheight);
                }
                nq.v[0].x = nq.v[3].x = a.x;
                nq.v[0].y = nq.v[1].y = a.y;
                nq.v[1].x = nq.v[2].x = b.x;
                nq.v[2].y = nq.v[3].y = b.y;
                for (int j = 0; j < 4; ++j)
                    nq.v[j].col = 0xC0000000;
                if (showmeasure)
                    sm->smRenderQuad(&nq);
                continue;
            }
            if (pool[i]->ch >= 990)
                continue;
            if (api->getChannelMask(pool[i]->ch))
                continue;
            smvec2d a((froffsets[12] * (pool[i]->key / 12) + froffsets[pool[i]->key % 12])*wwidth / 2048., ((double)pool[i]->tce - ctk)*lpt + wheight - nh);
            smvec2d b(a.x + notew * 0.9, ((double)pool[i]->tcs - ctk)*lpt + wheight - nh);
            if (horizontal)
            {
                a = smvec2d(((double)pool[i]->tce - ctk) * lpt + nh, (froffsets[12] * (pool[i]->key / 12) + froffsets[pool[i]->key % 12]) * wheight / 2048.);
                b = smvec2d(((double)pool[i]->tcs - ctk) * lpt + nh, a.y + notew * 0.9);
            }
            bool isnoteon = pool[i]->tcs <= ctk && pool[i]->tce >= ctk;
            if (isnoteon)
            {
                double pb = ((int)cpw[pool[i]->ch] - 8192) / 8192.*cpbr[pool[i]->ch];
                uint32_t newkey = pool[i]->key + (int)floor(pb);
                double fpb = pb - floor(pb);
                if (horizontal)
                {
                    a.y = (froffsets[12] * (newkey / 12) + froffsets[newkey % 12]) * wheight / 2048. + notew * fpb;
                    b.y = a.y + notew * 0.9;
                }
                else
                {
                    a.x = (froffsets[12] * (newkey / 12) + froffsets[newkey % 12]) * wwidth / 2048. + notew * fpb;
                    b.x = a.x + notew * 0.9;
                }
            }
            if (horizontal)
                a.y = wheight - a.y, b.y = wheight - b.y;
            notestatus[pool[i]->ch][pool[i]->key] |= isnoteon;
            if (horizontal)
            {
                if (((double)pool[i]->tce - pool[i]->tcs)*lpt < minnotelength * 0.04)
                    a.x = ((double)pool[i]->tcs - ctk) * lpt + nh - minnotelength * 0.04;
            }
            else
            {
                if (((double)pool[i]->tcs - pool[i]->tce)*lpt < minnotelength * 0.04)
                    a.y = ((double)pool[i]->tcs - ctk) * lpt + wheight - nh - minnotelength * 0.04;
            }
            nq.v[0].x = nq.v[3].x = a.x;
            nq.v[0].y = nq.v[1].y = a.y;
            nq.v[1].x = nq.v[2].x = b.x;
            nq.v[2].y = nq.v[3].y = b.y;
            for (int j = 0; j < 4; ++j)
                nq.v[j].col = SETA(isnoteon ? accolors[pool[i]->ch] : iccolors[pool[i]->ch], int(pool[i]->vel * 1.6 + (isnoteon ? 52 : 32)));
            if (usespectrum)
            {
                if (notestatus[pool[i]->ch][pool[i]->key] && !lastnotestatus[pool[i]->ch][pool[i]->key])
                    spectra[pool[i]->ch][pool[i]->key] = pool[i]->vel * (api->getChannelCC(pool[i]->ch, 7) / 127.);
            }
            else sm->smRenderQuad(&nq);
        }
    }
    if (horizontal)
        while (pool.size() && elb < pool.size() && fabs((double)pool[elb]->tce - ctk)*lpt + nh < 0)++elb;
    else
        while (pool.size() && elb < pool.size() && fabs((double)pool[elb]->tce - ctk)*lpt + wheight - nh > wheight)++elb;
    smQuad q;
    q.tex = pianotex;
    q.blend = BLEND_ALPHABLEND;
    for (int i = 0; i < 4; ++i)
        q.v[i].col = 0xFFFFFFFF, q.v[i].z = 0;
    q.v[0].ty = q.v[3].ty = 0;
    q.v[1].ty = q.v[2].ty = 172. / 256.;
    q.v[0].tx = q.v[1].tx = 0;
    q.v[2].tx = q.v[3].tx = 1.;
    q.v[0].x = q.v[1].x = 0;
    q.v[2].x = q.v[3].x = wwidth;
    q.v[0].y = q.v[3].y = wheight - nh;
    q.v[1].y = q.v[2].y = wheight;
    if (horizontal)
    {
        q.v[0].tx = q.v[3].tx = 0;
        q.v[1].tx = q.v[2].tx = 1;
        q.v[0].ty = q.v[1].ty = 0;
        q.v[2].ty = q.v[3].ty = 172. / 256.;
        q.v[0].x = q.v[1].x = nh;
        q.v[2].x = q.v[3].x = 0;
        q.v[0].y = q.v[3].y = wheight;
        q.v[1].y = q.v[2].y = 0;
    }
    sm->smRenderQuad(&q);
    for (int i = 0, j; i < 128; ++i)
    {
        DWORD c = 0;
        for (j = 0; j < 16; ++j)
            if (notestatus[j][i])
            {
                c = SETA(iccolors[j], 0xFF);
                break;
            }
        if (horizontal)
        {
            q.v[0].y = q.v[1].y = (fpoffsets[12] * (i / 12) + fpoffsets[i % 12]) * wheight / 2048.;
            q.v[2].y = q.v[3].y = q.v[0].y;
            q.v[0].x = q.v[3].x = nh;
            q.v[1].x = q.v[2].x = 0;
        }
        else
        {
            q.v[0].x = q.v[1].x = (fpoffsets[12] * (i / 12) + fpoffsets[i % 12]) * wwidth / 2048.;
            q.v[2].x = q.v[3].x = q.v[0].x;
            q.v[0].y = q.v[3].y = wheight - nh;
            q.v[1].y = q.v[2].y = wheight;
        }
        if (!c)
            continue;
        for (int j = 0; j < 4; ++j)
            q.v[j].col = c;
        switch (i % 12)
        {
            case 1:
            case 3:
            case 6:
            case 8:
            case 10:
                if (horizontal)
                {
                    q.v[1].x = q.v[2].x = nh - 115 * wheight / 2048.;
                    q.v[2].y += 15.*wheight / 2048;
                    q.v[3].y += 15.*wheight / 2048;
                }
                else
                {
                    q.v[1].y = q.v[2].y = wheight - nh + 115 * wwidth / 2048.;
                    q.v[2].x += 15.*wwidth / 2048;
                    q.v[3].x += 15.*wwidth / 2048;
                }
                q.v[0].ty = q.v[1].ty = 1.;
                q.v[2].ty = q.v[3].ty = 1. - 15 / 256.;
                q.v[0].tx = q.v[3].tx = 1344 / 2048.;
                q.v[1].tx = q.v[2].tx = 1459 / 2048.;
                break;
            case 0:
                if (horizontal)
                {
                    q.v[2].y += 27.*wheight / 2048;
                    q.v[3].y += 27.*wheight / 2048;
                }
                else
                {
                    q.v[2].x += 27.*wwidth / 2048;
                    q.v[3].x += 27.*wwidth / 2048;
                }
                q.v[0].ty = q.v[1].ty = 1.;
                q.v[2].ty = q.v[3].ty = 1. - 27 / 256.;
                q.v[0].tx = q.v[3].tx = 0 / 2048.;
                q.v[1].tx = q.v[2].tx = 172 / 2048.;
                break;
            case 2:
                if (horizontal)
                {
                    q.v[2].y += 29.*wheight / 2048;
                    q.v[3].y += 29.*wheight / 2048;
                }
                else
                {
                    q.v[2].x += 29.*wwidth / 2048;
                    q.v[3].x += 29.*wwidth / 2048;
                }
                q.v[0].ty = q.v[1].ty = 1.;
                q.v[2].ty = q.v[3].ty = 1. - 29 / 256.;
                q.v[0].tx = q.v[3].tx = 192 / 2048.;
                q.v[1].tx = q.v[2].tx = 364 / 2048.;
                break;
            case 4:
                if (horizontal)
                {
                    q.v[2].y += 28.*wheight / 2048;
                    q.v[3].y += 28.*wheight / 2048;
                }
                else
                {
                    q.v[2].x += 28.*wwidth / 2048;
                    q.v[3].x += 28.*wwidth / 2048;
                }
                q.v[0].ty = q.v[1].ty = 1.;
                q.v[2].ty = q.v[3].ty = 1. - 28 / 256.;
                q.v[0].tx = q.v[3].tx = 384 / 2048.;
                q.v[1].tx = q.v[2].tx = 556 / 2048.;
                break;
            case 5:
                if (horizontal)
                {
                    q.v[2].y += 28.*wheight / 2048;
                    q.v[3].y += 28.*wheight / 2048;
                }
                else
                {
                    q.v[2].x += 28.*wwidth / 2048;
                    q.v[3].x += 28.*wwidth / 2048;
                }
                q.v[0].ty = q.v[1].ty = 1.;
                q.v[2].ty = q.v[3].ty = 1. - 28 / 256.;
                q.v[0].tx = q.v[3].tx = 576 / 2048.;
                q.v[1].tx = q.v[2].tx = 748 / 2048.;
                break;
            case 7:
                if (horizontal)
                {
                    q.v[2].y += 29.*wheight / 2048;
                    q.v[3].y += 29.*wheight / 2048;
                }
                else
                {
                    q.v[2].x += 29.*wwidth / 2048;
                    q.v[3].x += 29.*wwidth / 2048;
                }
                q.v[0].ty = q.v[1].ty = 1.;
                q.v[2].ty = q.v[3].ty = 1. - 29 / 256.;
                q.v[0].tx = q.v[3].tx = 768 / 2048.;
                q.v[1].tx = q.v[2].tx = 940 / 2048.;
                break;
            case 9:
                if (horizontal)
                {
                    q.v[2].y += 28.*wheight / 2048;
                    q.v[3].y += 28.*wheight / 2048;
                }
                else
                {
                    q.v[2].x += 28.*wwidth / 2048;
                    q.v[3].x += 28.*wwidth / 2048;
                }
                q.v[0].ty = q.v[1].ty = 1.;
                q.v[2].ty = q.v[3].ty = 1. - 28 / 256.;
                q.v[0].tx = q.v[3].tx = 960 / 2048.;
                q.v[1].tx = q.v[2].tx = 1132 / 2048.;
                break;
            case 11:
                if (horizontal)
                {
                    q.v[2].y += 28.*wheight / 2048;
                    q.v[3].y += 28.*wheight / 2048;
                }
                else
                {
                    q.v[2].x += 28.*wwidth / 2048;
                    q.v[3].x += 28.*wwidth / 2048;
                }
                q.v[0].ty = q.v[1].ty = 1.;
                q.v[2].ty = q.v[3].ty = 1. - 28 / 256.;
                q.v[0].tx = q.v[3].tx = 1152 / 2048.;
                q.v[1].tx = q.v[2].tx = 1324 / 2048.;
                break;
        }
        if (horizontal)
            for (int j = 0; j < 4; ++j)
                q.v[j].y = wheight - q.v[j].y;
        sm->smRenderQuad(&q);
    }
    if (usespectrum && playing)
        for (int i = 0; i < 16; ++i)
            for (int j = 0; j < 128; ++j)
            {
                if (sustaininst.find(api->getChannelPreset(i)) != sustaininst.end())
                {
                    if (!notestatus[i][j] && spectra[i][j])
                        spectra[i][j] = .95 * spectra[i][j];
                }
                else if (spectra[i][j])
                    spectra[i][j] = .95 * spectra[i][j];
                if (spectrar[i][j] < spectra[i][j] * 0.9)
                    spectrar[i][j] += spectra[i][j] * 0.2;
                else spectrar[i][j] = spectra[i][j];
                if (spectrar[i][j])
                {
                    smvec2d a((froffsets[12] * (j / 12) + froffsets[j % 12])*wwidth / 2048., spectrar[i][j] / -128.*(wheight - nh) * (1 + 0.02 * sin(sm->smGetTime() * 32)) + wheight - nh);
                    smvec2d b(a.x + notew * 0.9, lpt + wheight - nh);
                    double pb = ((int)cpw[i] - 8192) / 8192.*cpbr[i];
                    uint32_t newkey = j + (int)floor(pb);
                    double fpb = pb - floor(pb);
                    if (horizontal)
                    {
                        a = smvec2d(spectrar[i][j] / 128.*(wwidth - nh) * (1 + 0.02 * sin(sm->smGetTime() * 32)) + nh, (froffsets[12] * (j / 12) + froffsets[j % 12]) * wheight / 2048.);
                        b = smvec2d(nh, a.y + notew * 0.9);
                        a.y = (froffsets[12] * (newkey / 12) + froffsets[newkey % 12]) * wheight / 2048. + notew * fpb;
                        b.y = a.y + notew * 0.9;
                        a.y = wheight - a.y;
                        b.y = wheight - b.y;
                    }
                    else
                    {
                        a.x = (froffsets[12] * (newkey / 12) + froffsets[newkey % 12]) * wwidth / 2048. + notew * fpb;
                        b.x = a.x + notew * 0.9;
                    }
                    nq.v[0].x = nq.v[3].x = a.x;
                    nq.v[0].y = nq.v[1].y = a.y;
                    nq.v[1].x = nq.v[2].x = b.x;
                    nq.v[2].y = nq.v[3].y = b.y;
                    for (int j = 0; j < 4; ++j)
                        nq.v[j].col = SETA(iccolors[i], 204);
                    sm->smRenderQuad(&nq);
                }
            }
}
bool qmpVisualization::update()
{
    smQuad q;
    if (!rendermode)
    {
        if (sm->smGetKeyState(SMK_RIGHT) == SMKST_HIT)
            api->playerSeek(api->getCurrentPlaybackPercentage() + (sm->smGetKeyState(SMK_SHIFT) ? 5 : 1));
        if (sm->smGetKeyState(SMK_LEFT) == SMKST_HIT)
            api->playerSeek(api->getCurrentPlaybackPercentage() - (sm->smGetKeyState(SMK_SHIFT) ? 5 : 1));
        if (sm->smGetKeyState(SMK_B) == SMKST_HIT)
            debug ^= 1;
    }
    if (playing)
    {
        if (rendermode)
        {
            ctk = 1e6 * (cfr) / tfps / ctp * api->getDivision() + lstk;
            ++cfr;
        }
        else
            ctk = lstk + std::chrono::duration_cast<std::chrono::duration<double, std::micro>>(std::chrono::steady_clock::now() - lst).count() / api->getRawTempo() * api->getDivision();
    }
    if (!flat)
        updateVisualization3D();
    sm->smRenderBegin2D();
    sm->smClrscr(0xFF666666);
    q.blend = BLEND_ALPHABLEND;
    for (int i = 0; i < 4; ++i)
    {
        q.v[i].col = 0xFFFFFFFF;
        q.v[i].z = 0;
    }
    if (bgtex)
    {
        q.tex = bgtex;
        q.v[0].x = q.v[3].x = 0;
        q.v[1].x = q.v[2].x = wwidth;
        q.v[0].y = q.v[1].y = 0;
        q.v[2].y = q.v[3].y = wheight;
        q.v[0].tx = q.v[3].tx = 0;
        q.v[1].tx = q.v[2].tx = 1;
        q.v[0].ty = q.v[1].ty = 0;
        q.v[2].ty = q.v[3].ty = 1;
        sm->smRenderQuad(&q);
    }
    if (flat)
        updateVisualization2D();
    else
    {
        q.tex = sm->smTargetTexture(tdscn);
        q.v[0].tx = q.v[3].tx = 0;
        q.v[1].tx = q.v[2].tx = 1;
        q.v[0].ty = q.v[1].ty = 0;
        q.v[2].ty = q.v[3].ty = 1;
        q.v[0].x = q.v[1].x = 0;
        q.v[2].x = q.v[3].x = wwidth;
        q.v[0].y = q.v[3].y = 0;
        q.v[1].y = q.v[2].y = wheight;
        sm->smRenderQuad(&q);
        if (showparticle && !horizontal)
        {
            q.tex = sm->smTargetTexture(tdparticles);
            sm->smRenderQuad(&q);
        }
    }
    if (osdpos == 4)
    {
        sm->smRenderEnd();
        return shouldclose;
    }
    uint32_t ltpc = ~0u;
    for (uint32_t i = elb; i < pool.size(); ++i)
    {
        if (pool[i]->tcs > ctk)
            break;
        if (pool[i]->ch == 998)
            cts = pool[i]->key;
        if (pool[i]->ch == 997)
            cks = pool[i]->key;
        if (pool[i]->ch == 996)
            ltpc = i;
        if (pool[i]->ch == 995)
            cpbr[pool[i]->vel] = pool[i]->key;
        if (pool[i]->ch == 994)
            cpw[pool[i]->vel] = pool[i]->key;
    }
    if (~ltpc && ctp != pool[ltpc]->key)
    {
        ctp = pool[ltpc]->key;
        if (rendermode)
        {
            lstk = pool[ltpc]->tcs;
            cfr = 1;
        }
    }
    int t, r;
    t = cks;
    r = (int8_t)((t >> 8) & 0xFF) + 7;
    t &= 0xFF;
    std::wstring ts(t ? minors : majors, 2 * r, 2);
    int step = int(1.33 * fontsize);
    int xp = (osdpos & 1) ? wwidth - step - 1 : 1;
    int yp = osdpos < 2 ? wheight - step * 5 - 4 : step + 4;
    int align = osdpos & 1 ? ALIGN_RIGHT : ALIGN_LEFT;
    font2.updateString(L"Title: %ls", api->getWTitle().c_str());
    font2.render(xp, yp, 0.5, 0xFFFFFFFF, align);
    font2.render(xp - 1, yp - 1, 0.5, 0xFF000000, align);
    font.updateString(L"Time Sig: %d/%d", cts >> 8, 1 << (cts & 0xFF));
    font.render(xp, yp += step, 0.5, 0xFFFFFFFF, align);
    font.render(xp - 1, yp - 1, 0.5, 0xFF000000, align);
    font.updateString(L"Key Sig: %ls", ts.c_str());
    font.render(xp, yp += step, 0.5, 0xFFFFFFFF, align);
    font.render(xp - 1, yp - 1, 0.5, 0xFF000000, align);
    font.updateString(L"Tempo: %.2f", 60. / (ctp / 1e6));
    font.render(xp, yp += step, 0.5, 0xFFFFFFFF, align);
    font.render(xp - 1, yp - 1, 0.5, 0xFF000000, align);
    font.updateString(L"Current tick: %d", ctk);
    font.render(xp, yp += step, 0.5, 0xFFFFFFFF, align);
    font.render(xp - 1, yp - 1, 0.5, 0xFF000000, align);
    if (!rendermode)
    {
        font.updateString(L"FPS: %.2f", sm->smGetFPS());
        font.render(xp, yp += step, 0.5, 0xFFFFFFFF, align);
        font.render(xp - 1, yp - 1, 0.5, 0xFF000000, align);
    }
    if (debug)
    {
        int dosdpos = (osdpos + 1) % 4;
        xp = (dosdpos & 1) ? wwidth - step - 1 : 1;
        yp = dosdpos < 2 ? wheight - step * 5 - 4 : step + 4;
        align = dosdpos & 1 ? ALIGN_RIGHT : ALIGN_LEFT;
        std::string tstr;
        tstr = std::string(sm->smGetOSInfo());
        font.updateString(L"OS: %ls", std::wstring({std::begin(tstr), std::end(tstr)}).c_str());
        font.render(xp, yp, 0.5, 0xFFFFFFFF, align);
        font.render(xp - 1, yp - 1, 0.5, 0xFF000000, align);
        tstr = std::string(sm->smGetCPUModel());
        font.updateString(L"CPU: %ls", std::wstring({std::begin(tstr), std::end(tstr)}).c_str());
        font.render(xp, yp += step, 0.5, 0xFFFFFFFF, align);
        font.render(xp - 1, yp - 1, 0.5, 0xFF000000, align);
        tstr = std::string(sm->smGetDispDriver());
        font.updateString(L"Display %ls", std::wstring({std::begin(tstr), std::end(tstr)}).c_str());
        font.render(xp, yp += 3 * step, 0.5, 0xFFFFFFFF, align);
        font.render(xp - 1, yp - 1, 0.5, 0xFF000000, align);
    }
    sm->smRenderEnd();
    if (rendermode)
    {
        if (ctk > api->getMaxTick())
            framecb(nullptr, 0, ctk, api->getMaxTick());
        else
        {
            sm->smPixelCopy(0, 0, wwidth, wheight, 4 * wwidth * wheight, fbcont);
            framecb(fbcont, 4 * wwidth * wheight, ctk, api->getMaxTick());
        }
    }
    return shouldclose;
}

void qmpVisualization::drawCube(smvec3d a, smvec3d b, DWORD col, SMTEX tex, int faces)
{
    smQuad q;
    q.blend = BLEND_ALPHABLEND;
    q.tex = tex;
    for (int i = 0; i < 4; ++i)
        q.v[i].col = col;
    if (noteappearance == 1)
    {
        smMatrix I;
        I.loadIdentity();
        smEntity3D c = smEntity3D::cube(a, b, col, faces);
        nebuf->addTransformedEntity(&c, I, smvec3d(0, 0, 0));
    }
    else
    {
        q.v[0].x = a.x;
        q.v[0].y = b.y;
        q.v[0].z = a.z;
        q.v[1].x = b.x;
        q.v[1].y = b.y;
        q.v[1].z = a.z;
        q.v[2].x = b.x;
        q.v[2].y = b.y;
        q.v[2].z = b.z;
        q.v[3].x = a.x;
        q.v[3].y = b.y;
        q.v[3].z = b.z;
        sm->smRenderQuad(&q);
    }
}

qmpVisualization *qmpVisualization::inst = nullptr;

qmpVisualization::qmpVisualization(qmpPluginAPI *_api)
{
    api = _api;
    inst = this;
    rendermode = false;
    hidewindow = false;
}
qmpVisualization::~qmpVisualization()
{
    api = nullptr;
    inst = nullptr;
}
void qmpVisualization::init()
{
    h = new CMidiVisualHandler(this);
    closeh = new CloseHandler(this);
    rendererTh = nullptr;
    playing = false;
    cts = 0x0402;
    cks = 0;
    ctp = 500000;
    memset(rpnid, 0xFF, sizeof(rpnid));
    memset(rpnval, 0xFF, sizeof(rpnval));
    memset(spectra, 0, sizeof(spectra));
    memset(spectrar, 0, sizeof(spectrar));
    api->registerFunctionality(this, "Visualization", "Visualization", api->isDarkTheme() ? ":/img/visualization_i.svg" : ":/img/visualization.svg", 0, true);
    uihb = api->registerUIHook("main.start", [this](const void *, void *)
    {
        this->start();
    }, nullptr);
    uihs = api->registerUIHook("main.stop", [this](const void *, void *)
    {
        this->stop();
    }, nullptr);
    uihp = api->registerUIHook("main.pause", [this](const void *, void *)
    {
        this->pause();
    }, nullptr);
    uihr = api->registerUIHook("main.reset", [this](const void *, void *)
    {
        this->reset();
    }, nullptr);
    uihk = api->registerUIHook("main.seek", [this](const void *, void *)
    {
        cts = api->getTimeSig();
        cks = api->getKeySig();
        ctp = api->getRawTempo();
        for (int i = 0; i < 16; ++i)
            api->getPitchBendRaw(i, &cpw[i], &cpbr[i]);
    }, nullptr);
    herh = api->registerEventReadHandler(
            [this](const void *ee, void *)
    {
        const SEvent *e = (const SEvent *)ee;
        switch (e->type & 0xF0)
        {
            case 0x80:
                this->pushNoteOff(e->time, e->type & 0x0F, e->p1);
                break;
            case 0x90:
                if (e->p2)
                    this->pushNoteOn(e->time, e->type & 0x0F, e->p1, e->p2);
                else
                    this->pushNoteOff(e->time, e->type & 0x0F, e->p1);
                break;
            case 0xB0:
                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)
                        this->pool.push_back(new MidiVisualEvent{e->time, e->time, rpnval[e->type & 0x0F], e->type & 0x0Fu, 995});
                    rpnval[e->type & 0x0F] = ~0u;
                }
                break;
            case 0xE0:
                this->pool.push_back(new MidiVisualEvent{e->time, e->time, (e->p1 | (e->p2 << 7)) & 0x3FFFu, e->type & 0x0Fu, 994});
                break;
            case 0xF0:
                if (e->type == 0xFF && e->p1 == 0x58)
                {
                    this->tspool.push_back(std::make_pair(e->time, (e->str[0] << 24) | (e->str[1] << 16)));
                    this->pool.push_back(new MidiVisualEvent{e->time, e->time, (e->str[0] & 0xffu) << 8 | (e->str[1] & 0xffu), 0, 998});
                }
                else if (e->type == 0xFF && e->p1 == 0x59)
                    this->pool.push_back(new MidiVisualEvent{e->time, e->time, (e->str[0] & 0xffu) << 8 | (e->str[1] & 0xffu), 0, 997});
                else if (e->type == 0xFF && e->p1 == 0x51)
                    this->pool.push_back(new MidiVisualEvent{e->time, e->time, (e->str[0] & 0xffu) << 16 | (e->str[1] & 0xffu) << 8 | (e->str[2] & 0xffu), 0, 996});
                break;
        }
    }
    , nullptr);
    heh = api->registerEventHandler(
            [this](const void *, void *)
    {
        if (this->ctk > this->api->getCurrentTimeStamp() + this->api->getDivision() / 3)
            this->elb = 0;
        /*if(abs((int)this->ctk-(int)this->api->getCurrentTimeStamp())>this->api->getDivision()/4)
            fprintf(stderr,"Visualization: out of sync! %u vs %u ad: %u\n",this->ctk,this->api->getCurrentTimeStamp());*/
        this->ctk = this->api->getCurrentTimeStamp();
        this->lstk = this->ctk;
        this->lst = std::chrono::steady_clock::now();
    }
    , nullptr);
    hfrf = api->registerFileReadFinishHook(
            [this](const void *, void *)
    {
        memset(rpnval, 0xFF, sizeof(rpnval));
        memset(rpnid, 0xFF, sizeof(rpnid));
        std::sort(this->tspool.begin(), this->tspool.end());
        for (uint32_t tk = 0, n = 4, s = 0; tk <= this->api->getMaxTick();)
        {
            while (tk < (s >= this->tspool.size() ? this->api->getMaxTick() : this->tspool[s].first))
            {
                this->pool.push_back(new MidiVisualEvent{tk, tk, 0, 0, 999});
                tk += n * this->api->getDivision();
            }
            tk = (s >= this->tspool.size() ? this->api->getMaxTick() : this->tspool[s].first);
            if (tk == this->api->getMaxTick())
            {
                this->pool.push_back(new MidiVisualEvent{tk, tk, 0, 0, 999});
                ++tk;
                break;
            }
            else n = this->tspool[s++].second >> 24;
        }
        std::sort(this->pool.begin(), this->pool.end(), cmp);
    }
    , nullptr);
    api->registerOptionBool("Visualization-Appearance", "Show Piano", "Visualization/showpiano", true);
    api->registerOptionBool("Visualization-Appearance", "3D Notes", "Visualization/3dnotes", true);
    api->registerOptionBool("Visualization-Appearance", "Arrange channels on a stair", "Visualization/stairpiano", true);
    api->registerOptionBool("Visualization-Appearance", "Show channel labels", "Visualization/showlabel", true);
    api->registerOptionBool("Visualization-Appearance", "Show Particles", "Visualization/showparticle", false);
    api->registerOptionBool("Visualization-Appearance", "Horizontal Visualization", "Visualization/horizontal", false);
    api->registerOptionBool("Visualization-Appearance", "2D Visualization", "Visualization/flat", false);
    api->registerOptionBool("Visualization-Appearance", "Show Measure Indicator", "Visualization/showmeasure", true);
    api->registerOptionBool("Visualization-Appearance", "Use spectrum instead of piano roll", "Visualization/usespectrum", false);
    api->registerOptionBool("Visualization-Video", "Enable VSync", "Visualization/vsync", true);
    api->registerOptionBool("Visualization-Video", "Save Viewport", "Visualization/savevp", true);
    api->registerOptionInt("Visualization-Video", "Window Width", "Visualization/wwidth", 320, 3200, 800);
    api->registerOptionInt("Visualization-Video", "Window Height", "Visualization/wheight", 320, 3200, 600);
    api->registerOptionInt("Visualization-Video", "Target FPS", "Visualization/tfps", 5, 1000, 60);
    api->registerOptionInt("Visualization-Video", "Supersampling", "Visualization/supersampling", 1, 16, 0);
    api->registerOptionInt("Visualization-Video", "Multisampling", "Visualization/multisampling", 0, 16, 0);
    api->registerOptionInt("Visualization-Video", "FOV", "Visualization/fov", 30, 180, 60);
    std::vector<std::string> tv;
    tv.push_back("Bottom left");
    tv.push_back("Bottom right");
    tv.push_back("Top left");
    tv.push_back("Top right");
    tv.push_back("Hidden");
    api->registerOptionEnumInt("Visualization-Video", "OSD Position", "Visualization/osdpos", tv, 0);
    api->registerOptionInt("Visualization-Video", "Font Size", "Visualization/fontsize", 6, 180, 16);
    api->registerOptionString("Visualization-Video", "Custom Sans Font", "Visualization/font1", "", true);
    api->registerOptionString("Visualization-Video", "Custom Monospace Font", "Visualization/font2", "", true);
    api->registerOptionInt("Visualization-Appearance", "View distance", "Visualization/viewdist", 20, 1000, 100);
    api->registerOptionInt("Visualization-Appearance", "Note stretch", "Visualization/notestretch", 20, 500, 100);
    api->registerOptionInt("Visualization-Appearance", "Minimum note length", "Visualization/minnotelen", 20, 500, 100);
    api->registerOptionUint("Visualization-Appearance", "Chequer board tint (AARRGGBB)", "Visualization/chkrtint", 0, 0xFFFFFFFF, 0xFF999999);
    api->registerOptionString("Visualization-Appearance", "Background Image", "Visualization/background", "", true);
    api->registerOptionDouble("", "", "Visualization/px", -999999999, 999999999, -1e9);
    api->registerOptionDouble("", "", "Visualization/py", -999999999, 999999999, -1e9);
    api->registerOptionDouble("", "", "Visualization/pz", -999999999, 999999999, -1e9);
    api->registerOptionDouble("", "", "Visualization/rx", -999999999, 999999999, -1e9);
    api->registerOptionDouble("", "", "Visualization/ry", -999999999, 999999999, -1e9);
    api->registerOptionDouble("", "", "Visualization/rz", -999999999, 999999999, -1e9);
    for (int i = 0; i < 16; ++i)
    {
        api->registerOptionUint("", "", "Visualization/chActiveColor" + std::to_string(i), 0, 0xFFFFFFFF, accolors[i]);
        api->registerOptionUint("", "", "Visualization/chInactiveColor" + std::to_string(i), 0, 0xFFFFFFFF, iccolors[i]);
    }
    wwidth = api->getOptionInt("Visualization/wwidth");
    wheight = api->getOptionInt("Visualization/wheight");
    wsupersample = api->getOptionInt("Visualization/supersampling");
    wmultisample = api->getOptionInt("Visualization/multisampling");
    fov = api->getOptionInt("Visualization/fov");
    noteappearance = api->getOptionBool("Visualization/3dnotes");
    showpiano = api->getOptionBool("Visualization/showpiano");
    stairpiano = api->getOptionBool("Visualization/stairpiano");
    showlabel = api->getOptionBool("Visualization/showlabel");
    showparticle = api->getOptionBool("Visualization/showparticle");
    horizontal = api->getOptionBool("Visualization/horizontal");
    flat = api->getOptionBool("Visualization/flat");
    savevp = api->getOptionBool("Visualization/savevp");
    vsync = api->getOptionBool("Visualization/vsync");
    tfps = api->getOptionInt("Visualization/tfps");
    osdpos = api->getOptionEnumInt("Visualization/osdpos");
    fontsize = api->getOptionInt("Visualization/fontsize");
    viewdist = api->getOptionInt("Visualization/viewdist");
    notestretch = api->getOptionInt("Visualization/notestretch");
    minnotelength = api->getOptionInt("Visualization/minnotelen");
    chkrtint = api->getOptionUint("Visualization/chkrtint");
    for (int i = 0; i < 16; ++i)
    {
        accolors[i] = api->getOptionUint("Visualization/chActiveColor" + std::to_string(i));
        iccolors[i] = api->getOptionUint("Visualization/chInactiveColor" + std::to_string(i));
    }
    if (savevp)
    {
        pos[0] = api->getOptionDouble("Visualization/px");
        pos[1] = api->getOptionDouble("Visualization/py");
        pos[2] = api->getOptionDouble("Visualization/pz");
        rot[0] = api->getOptionDouble("Visualization/rx");
        rot[1] = api->getOptionDouble("Visualization/ry");
        rot[2] = api->getOptionDouble("Visualization/rz");
    }
    memset(pss, 0, sizeof(pss));
}
void qmpVisualization::deinit()
{
    if (!api)
        return;
    close();
    tspool.clear();
    for (unsigned i = 0; i < pool.size(); ++i)
        delete pool[i];
    pool.clear();
    api->unregisterUIHook("main.start", uihb);
    api->unregisterUIHook("main.stop", uihs);
    api->unregisterUIHook("main.pause", uihp);
    api->unregisterUIHook("main.reset", uihr);
    api->unregisterFunctionality("Visualization");
    api->unregisterEventReadHandler(herh);
    api->unregisterEventHandler(heh);
    api->unregisterFileReadFinishHook(hfrf);
    delete h;
    delete closeh;
}
const char *qmpVisualization::pluginGetName()
{
    return "QMidiPlayer Default Visualization Plugin";
}
const char *qmpVisualization::pluginGetVersion()
{
    return PLUGIN_VERSION;
}

qmpVisualization *qmpVisualization::instance()
{
    return inst;
}

void qmpVisualization::pushNoteOn(uint32_t tc, uint32_t ch, uint32_t key, uint32_t vel)
{
    pendingt[ch][key].push(tc);
    pendingv[ch][key].push(vel);
}
void qmpVisualization::pushNoteOff(uint32_t tc, uint32_t ch, uint32_t key)
{
    if (pendingt[ch][key].size() < 1)
        return;
    MidiVisualEvent *ne = new MidiVisualEvent();
    ne->tcs = pendingt[ch][key].top();
    pendingt[ch][key].pop();
    ne->tce = tc;
    ne->ch = ch;
    ne->key = key;
    ne->vel = pendingv[ch][key].top();
    pendingv[ch][key].pop();
    pool.push_back(ne);
}