void FFMODStudioOculusModule::OnInitialize()
{
	UE_LOG(LogFMODOculus, Verbose, TEXT("OnInitialize"));

#if FMOD_OSP_SUPPORTED
	const UFMODOculusSettings& Settings = *GetDefault<UFMODOculusSettings>();
	if (!Settings.bOculusEnabled)
	{
		UE_LOG(LogFMODOculus, Verbose, TEXT("bOculusEnabled is false - skipping init"));
		return;
	}

	FMOD::Studio::System* StudioSystem = IFMODStudioModule::Get().GetStudioSystem(EFMODSystemContext::Runtime);
	if (!StudioSystem)
	{
		UE_LOG(LogFMODOculus, Log, TEXT("StudioSystem is null - skipping init"));
		return;
	}

	if (!IFMODStudioModule::Get().LoadPlugin(TEXT("ovrfmod")))
	{
		UE_LOG(LogFMODOculus, Log, TEXT("ovrfmod failed to load - skipping init"));

		return;
	}

	UE_LOG(LogFMODOculus, Log, TEXT("Initialising OSP"));

	FMOD::System* LowLevelSystem = nullptr;
	verifyfmod(StudioSystem->getLowLevelSystem(&LowLevelSystem));
	if (LowLevelSystem)
	{
		int SampleRate = 0;
		unsigned int BufferSize = 0;
		verifyfmod(LowLevelSystem->getSoftwareFormat(&SampleRate, nullptr, nullptr));
		verifyfmod(LowLevelSystem->getDSPBufferSize(&BufferSize, nullptr));
		int returncode = OSP_FMOD_Initialize(SampleRate, BufferSize);
		if (returncode == 0)
		{
			bRunning = true;
			// Unreal units are per cm, but our plugin converts everything to metres when calling into Studio
			OSP_FMOD_SetGlobalScale(1.0f);
			UFMODOculusBlueprintStatics::SetEarlyReflectionsEnabled(Settings.bEarlyReflectionsEnabled);
			UFMODOculusBlueprintStatics::SetLateReverberationEnabled(Settings.bLateReverberationEnabled);
			UFMODOculusBlueprintStatics::SetRoomParameters(Settings.RoomParameters);
			UE_LOG(LogFMODOculus, Log, TEXT("OSP_FMOD_Initialize returned success - running with Oculus plugin enabled"));
		}
		else
		{
			UE_LOG(LogFMODOculus, Error, TEXT("OSP_FMOD_Initialize returned error %s"), returncode);
		}
	}
#else
	UE_LOG(LogFMODOculus, Log, TEXT("FMOD_OSP_SUPPORTED is not enabled"));
#endif
}
示例#2
0
int main(int argc, char *argv[])
{
    FMOD::System          *system  = 0;
    FMOD::Sound           *sound   = 0;
    FMOD::Channel         *channel = 0;
    FMOD_RESULT            result;
    FMOD_CREATESOUNDEXINFO exinfo;
    int                    key, driver, recorddriver, numdrivers, count, outputfreq, bin;
    unsigned int           version;    

    /*
        Create a System object and initialize.
    */
    result = FMOD::System_Create(&system);
    ERRCHECK(result);

    result = system->getVersion(&version);
    ERRCHECK(result);

    if (version < FMOD_VERSION)
    {
        printf("Error!  You are using an old version of FMOD %08x.  This program requires %08x\n", version, FMOD_VERSION);
        return 0;
    }

    /* 
        System initialization
    */
    printf("---------------------------------------------------------\n");    
    printf("Select OUTPUT type\n");    
    printf("---------------------------------------------------------\n");    
    printf("1 :  OSS        - Open Sound System\n");
    printf("2 :  ALSA       - Advanced Linux Sound Architecture\n");
    printf("3 :  ESD        - Enlightenment Sound Daemon\n");
    printf("4 :  PULSEAUDIO - Pulse Audio Sound Server\n");
    printf("---------------------------------------------------------\n");
    printf("Press a corresponding number or ESC to quit\n");

    do
    {
        key = getch();
    } while (key != 27 && key < '1' && key > '5');
    
    switch (key)
    {
        case '1' :  result = system->setOutput(FMOD_OUTPUTTYPE_OSS);
                    break;
        case '2' :  result = system->setOutput(FMOD_OUTPUTTYPE_ALSA);
                    break;
        case '3' :  result = system->setOutput(FMOD_OUTPUTTYPE_ESD);
                    break;
        case '4' :  result = system->setOutput(FMOD_OUTPUTTYPE_PULSEAUDIO);
                    break;                   
        default  :  return 1; 
    }  
    ERRCHECK(result);
    
    /*
        Enumerate playback devices
    */

    result = system->getNumDrivers(&numdrivers);
    ERRCHECK(result);

    printf("---------------------------------------------------------\n");    
    printf("Choose a PLAYBACK driver\n");
    printf("---------------------------------------------------------\n");    
    for (count=0; count < numdrivers; count++)
    {
        char name[256];

        result = system->getDriverInfo(count, name, 256, 0);
        ERRCHECK(result);

        printf("%d : %s\n", count + 1, name);
    }
    printf("---------------------------------------------------------\n");
    printf("Press a corresponding number or ESC to quit\n");

    do
    {
        key = getch();
        if (key == 27)
        {
            return 0;
        }
        driver = key - '1';
    } while (driver < 0 || driver >= numdrivers);

    result = system->setDriver(driver);
    ERRCHECK(result);

    /*
        Enumerate record devices
    */

    result = system->getRecordNumDrivers(&numdrivers);
    ERRCHECK(result);

    printf("---------------------------------------------------------\n");    
    printf("Choose a RECORD driver\n");
    printf("---------------------------------------------------------\n");    
    for (count=0; count < numdrivers; count++)
    {
        char name[256];

        result = system->getRecordDriverInfo(count, name, 256, 0);
        ERRCHECK(result);

        printf("%d : %s\n", count + 1, name);
    }
    printf("---------------------------------------------------------\n");
    printf("Press a corresponding number or ESC to quit\n");

    recorddriver = 0;
    do
    {
        key = getch();
        if (key == 27)
        {
            return 0;
        }
        recorddriver = key - '1';
    } while (recorddriver < 0 || recorddriver >= numdrivers);

    printf("\n");
 
    result = system->setSoftwareFormat(OUTPUTRATE, FMOD_SOUND_FORMAT_PCM16, 1, 0, FMOD_DSP_RESAMPLER_LINEAR);
    ERRCHECK(result);

    result = system->init(32, FMOD_INIT_NORMAL, 0);
    ERRCHECK(result);

    system->getSoftwareFormat(&outputfreq, 0, 0, 0, 0, 0);
    ERRCHECK(result);

    /*
        Create a sound to record to.
    */
    memset(&exinfo, 0, sizeof(FMOD_CREATESOUNDEXINFO));

    exinfo.cbsize           = sizeof(FMOD_CREATESOUNDEXINFO);
    exinfo.numchannels      = 1;
    exinfo.format           = FMOD_SOUND_FORMAT_PCM16;
    exinfo.defaultfrequency = OUTPUTRATE;
    exinfo.length           = exinfo.defaultfrequency * sizeof(short) * exinfo.numchannels * 5;
    
    result = system->createSound(0, FMOD_2D | FMOD_SOFTWARE | FMOD_LOOP_NORMAL | FMOD_OPENUSER, &exinfo, &sound);
    ERRCHECK(result);

    /*
        Start the interface
    */
    printf("=========================================================================\n");
    printf("Pitch detection example.  Copyright (c) Firelight Technologies 2004-2014.\n");
    printf("=========================================================================\n");
    printf("\n");
    printf("Record something through the selected recording device and FMOD will\n");
    printf("Determine the pitch.  Sustain the tone for at least a second to get an\n");
    printf("accurate reading.\n");
    printf("Press 'Esc' to quit\n");
    printf("\n");

    result = system->recordStart(recorddriver, sound, true);
    ERRCHECK(result);
    
    Sleep(200);      /* Give it some time to record something */
    
    result = system->playSound(FMOD_CHANNEL_REUSE, sound, false, &channel);
    ERRCHECK(result);

    /* Dont hear what is being recorded otherwise it will feedback.  Spectrum analysis is done before volume scaling in the DSP chain */
    result = channel->setVolume(0);
    ERRCHECK(result);

    bin = 0;

    /*
        Main loop.
    */
    do
    {
        static float spectrum[SPECTRUMSIZE];
        float        dominanthz = 0;
        float        max;
        int          dominantnote = 0;
        float        binsize = BINSIZE;

        if (kbhit())
        {
            key = getch();
        }

        result = channel->getSpectrum(spectrum, SPECTRUMSIZE, 0, FMOD_DSP_FFT_WINDOW_TRIANGLE);
        ERRCHECK(result);

        max = 0;

        for (count = 0; count < SPECTRUMSIZE; count++)
        {
            if (spectrum[count] > 0.01f && spectrum[count] > max)
            {
                max = spectrum[count];
                bin = count;
            }
        }        

        dominanthz  = (float)bin * BINSIZE;       /* dominant frequency min */

        dominantnote = 0;
        for (count = 0; count < 120; count++)
        {
             if (dominanthz >= notefreq[count] && dominanthz < notefreq[count + 1])
             {
                /* which is it closer to.  This note or the next note */
                if (fabs(dominanthz - notefreq[count]) < fabs(dominanthz - notefreq[count+1]))
                {
                    dominantnote = count;
                }
                else
                {
                    dominantnote = count + 1;
                }
                break;
             }
        }

        printf("Detected rate : %7.1f -> %7.1f hz.  Detected musical note. %-3s (%7.1f hz)\r", dominanthz, ((float)bin + 0.99f) * BINSIZE, note[dominantnote], notefreq[dominantnote]);
        fflush(stdout);

        system->update();

        Sleep(10);

    } while (key != 27);

    printf("\n");

    /*
        Shut down
    */
    result = sound->release();
    ERRCHECK(result);

    result = system->release();
    ERRCHECK(result);

    return 0;
}
int FMOD_Main()
{
    FMOD::System     *system;
    FMOD::Sound      *sound1, *sound2;
    FMOD::Channel    *channel = 0;
    FMOD_RESULT       result;
    unsigned int      version;
    int               selection = 0;
    void             *extradriverdata = 0;
    FMOD_SPEAKERMODE  speakermode = FMOD_SPEAKERMODE_STEREO;
    
    Common_Init(&extradriverdata);

    /*
        Create a System object and initialize.
    */
    result = FMOD::System_Create(&system);
    ERRCHECK(result);

    result = system->getVersion(&version);
    ERRCHECK(result);

    if (version < FMOD_VERSION)
    {
        Common_Fatal("FMOD lib version %08x doesn't match header version %08x", version, FMOD_VERSION);
    }

    result = system->init(32, FMOD_INIT_NORMAL, extradriverdata);
    ERRCHECK(result);

    result = system->getSoftwareFormat(0, &speakermode, 0);
    ERRCHECK(result);

    result = system->createSound(Common_MediaPath("drumloop.wav"), FMOD_2D | FMOD_LOOP_OFF, 0, &sound1);
    ERRCHECK(result);

    result = system->createSound(Common_MediaPath("stereo.ogg"), FMOD_2D | FMOD_LOOP_OFF,  0, &sound2);
    ERRCHECK(result);

    /*
        Main loop.
    */
    do
    {
        Common_Update();

        if (Common_BtnPress(BTN_UP) && (selection != 0))
        {
            selection--;
        }
        
        if (Common_BtnPress(BTN_DOWN) && (selection != (SELECTION_COUNT - 1)))
        {
            selection++;
        }

        if (Common_BtnPress(BTN_ACTION1) && isSelectionAvailable(speakermode, selection))
        {
            if (selection == 0) /* Mono front left */
            {
                result = system->playSound(sound1, 0, true, &channel);
                ERRCHECK(result);

                result = channel->setMixLevelsOutput(1.0f, 0, 0, 0, 0, 0, 0, 0);
                ERRCHECK(result);

                result = channel->setPaused(false);
                ERRCHECK(result);
            }
            else if (selection == 1) /* Mono front right */
            {
                result = system->playSound(sound1, 0, true, &channel);
                ERRCHECK(result);

                result = channel->setMixLevelsOutput(0, 1.0f, 0, 0, 0, 0, 0, 0);
                ERRCHECK(result);

                result = channel->setPaused(false);
                ERRCHECK(result);
            }
            else if (selection == 2) /* Mono center */
            {
                result = system->playSound(sound1, 0, true, &channel);
                ERRCHECK(result);

                result = channel->setMixLevelsOutput(0, 0, 1.0f, 0, 0, 0, 0, 0);
                ERRCHECK(result);

                result = channel->setPaused(false);
                ERRCHECK(result);
            }
            else if (selection == 3) /* Mono surround left */
            {
                result = system->playSound(sound1, 0, true, &channel);
                ERRCHECK(result);

                result = channel->setMixLevelsOutput(0, 0, 0, 0, 1.0f, 0, 0, 0);
                ERRCHECK(result);

                result = channel->setPaused(false);
                ERRCHECK(result);
            }
            else if (selection == 4) /* Mono surround right */
            {
                result = system->playSound(sound1, 0, true, &channel);
                ERRCHECK(result);

                result = channel->setMixLevelsOutput(0, 0, 0, 0, 0, 1.0f, 0, 0);
                ERRCHECK(result);

                result = channel->setPaused(false);
                ERRCHECK(result);
            }
            else if (selection == 5) /* Mono rear left */
            {
                result = system->playSound(sound1, 0, true, &channel);
                ERRCHECK(result);

                result = channel->setMixLevelsOutput(0, 0, 0, 0, 0, 0, 1.0f, 0);
                ERRCHECK(result);

                result = channel->setPaused(false);
                ERRCHECK(result);
            }
            else if (selection == 6) /* Mono rear right */
            {
                result = system->playSound(sound1, 0, true, &channel);
                ERRCHECK(result);

                result = channel->setMixLevelsOutput(0, 0, 0, 0, 0, 0, 0, 1.0f);
                ERRCHECK(result);

                result = channel->setPaused(false);
                ERRCHECK(result);
            }
            else if (selection == 7) /* Stereo front */
            {
                result = system->playSound(sound2, 0, false, &channel);
                ERRCHECK(result);
            }
            else if (selection == 8) /* Stereo front channel swapped */
            {
                float matrix[] = { 0.0f, 1.0f,
                                   1.0f, 0.0f };

                result = system->playSound(sound2, 0, true, &channel);
                ERRCHECK(result);

                result = channel->setMixMatrix(matrix, 2, 2);
                ERRCHECK(result);

                result = channel->setPaused(false);
                ERRCHECK(result);
            }
            else if (selection == 9) /* Stereo (right only) center */
            {
                float matrix[] = { 0.0f, 0.0f,
                                   0.0f, 0.0f,
                                   0.0f, 1.0f };

                result = system->playSound(sound2, 0, true, &channel);
                ERRCHECK(result);

                result = channel->setMixMatrix(matrix, 3, 2);
                ERRCHECK(result);

                result = channel->setPaused(false);
                ERRCHECK(result);
            }
        }

        result = system->update();
        ERRCHECK(result);

        {
            unsigned int ms = 0;
            unsigned int lenms = 0;
            bool         playing = false;
            bool         paused = false;
            int          channelsplaying = 0;

            if (channel)
            {
                FMOD::Sound *currentsound = 0;

                result = channel->isPlaying(&playing);
                if ((result != FMOD_OK) && (result != FMOD_ERR_INVALID_HANDLE) && (result != FMOD_ERR_CHANNEL_STOLEN))
                {
                    ERRCHECK(result);
                }

                result = channel->getPaused(&paused);
                if ((result != FMOD_OK) && (result != FMOD_ERR_INVALID_HANDLE) && (result != FMOD_ERR_CHANNEL_STOLEN))
                {
                    ERRCHECK(result);
                }

                result = channel->getPosition(&ms, FMOD_TIMEUNIT_MS);
                if ((result != FMOD_OK) && (result != FMOD_ERR_INVALID_HANDLE) && (result != FMOD_ERR_CHANNEL_STOLEN))
                {
                    ERRCHECK(result);
                }
               
                channel->getCurrentSound(&currentsound);
                if (currentsound)
                {
                    result = currentsound->getLength(&lenms, FMOD_TIMEUNIT_MS);
                    if ((result != FMOD_OK) && (result != FMOD_ERR_INVALID_HANDLE) && (result != FMOD_ERR_CHANNEL_STOLEN))
                    {
                        ERRCHECK(result);
                    }
                }
            }

            result = system->getChannelsPlaying(&channelsplaying);
            ERRCHECK(result);

            Common_Draw("==================================================");
            Common_Draw("Multiple Speaker Example.");
            Common_Draw("Copyright (c) Firelight Technologies 2004-2015.");
            Common_Draw("==================================================");
            Common_Draw("");
            Common_Draw("Speaker mode is set to %s%s", SPEAKERMODE_STRING[speakermode], speakermode < FMOD_SPEAKERMODE_7POINT1 ? " causing some speaker options to be unavailable" : "");
            Common_Draw("");
            Common_Draw("Press %s or %s to select mode", Common_BtnStr(BTN_UP), Common_BtnStr(BTN_DOWN));
            Common_Draw("Press %s to play the sound", Common_BtnStr(BTN_ACTION1));
            for (int i = 0; i < SELECTION_COUNT; i++)
            {
                bool disabled = !isSelectionAvailable(speakermode, i);
                Common_Draw("[%c] %s%s", (selection == i) ? (disabled ? '-' : 'X') : ' ', disabled ? "[N/A] " : "", SELECTION_STRING[i]);
            }
            Common_Draw("Press %s to quit", Common_BtnStr(BTN_QUIT));
            Common_Draw("");
            Common_Draw("Time %02d:%02d:%02d/%02d:%02d:%02d : %s", ms / 1000 / 60, ms / 1000 % 60, ms / 10 % 100, lenms / 1000 / 60, lenms / 1000 % 60, lenms / 10 % 100, paused ? "Paused " : playing ? "Playing" : "Stopped");
            Common_Draw("Channels playing: %d", channelsplaying);
        }

        Common_Sleep(50);
    } while (!Common_BtnPress(BTN_QUIT));

    /*
        Shut down
    */
    result = sound1->release();
    ERRCHECK(result);
    result = sound2->release();
    ERRCHECK(result);
    result = system->close();
    ERRCHECK(result);
    result = system->release();
    ERRCHECK(result);

    Common_Close();

    return 0;
}
示例#4
0
int FMOD_Main()
{
    FMOD::System           *system;
    FMOD::Sound            *sound[3];
    FMOD::Channel          *channel = 0;
    FMOD::ChannelGroup     *channelgroup = 0;
    FMOD_RESULT             result;
    unsigned int            version, dsp_block_len, count;
    int                     outputrate = 0;
    void                   *extradriverdata = 0;
    
    Common_Init(&extradriverdata);

    /*
        Create a System object and initialize.
    */
    result = FMOD::System_Create(&system);
    ERRCHECK(result);

    result = system->getVersion(&version);
    ERRCHECK(result);

    if (version < FMOD_VERSION)
    {
        Common_Fatal("FMOD lib version %08x doesn't match header version %08x", version, FMOD_VERSION);
    }
    
    result = system->init(100, FMOD_INIT_NORMAL, extradriverdata);
    ERRCHECK(result);

    /*
        Get information needed later for scheduling.  The mixer block size, and the output rate of the mixer.
    */
    result = system->getDSPBufferSize(&dsp_block_len, 0);
    ERRCHECK(result);

    result = system->getSoftwareFormat(&outputrate, 0, 0);
    ERRCHECK(result);

    /*
        Load 3 sounds - these are just sine wave tones at different frequencies.  C, D and E on the musical scale.
    */
    result = system->createSound(Common_MediaPath("c.ogg"), FMOD_DEFAULT, 0, &sound[NOTE_C]);
    ERRCHECK(result);
    result = system->createSound(Common_MediaPath("d.ogg"), FMOD_DEFAULT, 0, &sound[NOTE_D]);
    ERRCHECK(result);
    result = system->createSound(Common_MediaPath("e.ogg"), FMOD_DEFAULT, 0, &sound[NOTE_E]);
    ERRCHECK(result);

    /* 
        Create a channelgroup that the channels will play on.  We can use this channelgroup as our clock reference. 
        It also means we can pause and pitch bend the channelgroup, without affecting the offsets of the delays, because the channelgroup clock
        which the channels feed off, will be pausing and speeding up/slowing down and still keeping the children in sync.
    */
    result = system->createChannelGroup("Parent", &channelgroup);
    ERRCHECK(result);

    unsigned int numsounds = sizeof(note) / sizeof(note[0]);

    /*
        Play all the sounds at once! Space them apart with set delay though so that they sound like they play in order.
    */
    for (count = 0; count < numsounds; count++)
    {
        static unsigned long long clock_start = 0;
        unsigned int slen;
        FMOD::Sound *s = sound[note[count]];                            /* Pick a note from our tune. */

        result = system->playSound(s, channelgroup, true, &channel);    /* Play the sound on the channelgroup we want to use as the parent clock reference (for setDelay further down) */
        ERRCHECK(result);

        if (!clock_start)
        {
            result = channel->getDSPClock(0, &clock_start);
            ERRCHECK(result);

            clock_start += (dsp_block_len * 2);                         /* Start the sound into the future, by 2 mixer blocks worth. */
                                                                        /* Should be enough to avoid the mixer catching up and hitting the clock value before we've finished setting up everything. */
                                                                        /* Alternatively the channelgroup we're basing the clock on could be paused to stop it ticking. */
        }
        else
        {
            float freq;

            result = s->getLength(&slen, FMOD_TIMEUNIT_PCM);            /* Get the length of the sound in samples. */
            ERRCHECK(result);

            result = s->getDefaults(&freq, 0);                          /* Get the default frequency that the sound was recorded at. */
            ERRCHECK(result);

            slen = (unsigned int)((float)slen / freq * outputrate);     /* Convert the length of the sound to 'output samples' for the output timeline. */
            
            clock_start += slen;                                        /* Place the sound clock start time to this value after the last one. */
        }

        result = channel->setDelay(clock_start, 0, false);              /* Schedule the channel to start in the future at the newly calculated channelgroup clock value. */
        ERRCHECK(result);

        result = channel->setPaused(false);                             /* Unpause the sound.  Note that you won't hear the sounds, they are scheduled into the future. */
        ERRCHECK(result);
    }

    /*
        Main loop.
    */
    do
    {
        Common_Update();

        if (Common_BtnPress(BTN_ACTION1))                               /* Pausing the channelgroup as the clock parent, will pause any scheduled sounds from continuing */
        {                                                               /* If you paused the channel, this would not stop the clock it is delayed against from ticking,  */
            bool paused;                                                /* and you'd have to recalculate the delay for the channel into the future again before it was unpaused. */
            result = channelgroup->getPaused(&paused);
            ERRCHECK(result);
            result = channelgroup->setPaused(!paused);
            ERRCHECK(result);
        }
        if (Common_BtnPress(BTN_ACTION2)) 
        {                                 
            for (count = 0; count < 50; count++)
            {
                float pitch;
                result = channelgroup->getPitch(&pitch);
                ERRCHECK(result);
                pitch += 0.01f;
                result = channelgroup->setPitch(pitch);
                ERRCHECK(result);

                result = system->update();
                ERRCHECK(result);

                Common_Sleep(10);
            }
        }
        if (Common_BtnPress(BTN_ACTION3)) 
        {                                 
            for (count = 0; count < 50; count++)
            {
                float pitch;
                result = channelgroup->getPitch(&pitch);
                ERRCHECK(result);

                if (pitch > 0.1f)
                {
                    pitch -= 0.01f;
                }
                result = channelgroup->setPitch(pitch);
                ERRCHECK(result);
                
                result = system->update();
                ERRCHECK(result);

                Common_Sleep(10);
            }
        }

        result = system->update();
        ERRCHECK(result);

        /*
            Print some information
        */
        {
            bool    playing = false;
            bool    paused = false;
            int     chansplaying;

            if (channelgroup)
            {
                result = channelgroup->isPlaying(&playing);
                if ((result != FMOD_OK) && (result != FMOD_ERR_INVALID_HANDLE))
                {
                    ERRCHECK(result);
                }

                result = channelgroup->getPaused(&paused);
                if ((result != FMOD_OK) && (result != FMOD_ERR_INVALID_HANDLE))
                {
                    ERRCHECK(result);
                }
            }

            result = system->getChannelsPlaying(&chansplaying);
            ERRCHECK(result);

            Common_Draw("==================================================");
            Common_Draw("Gapless Playback example.");
            Common_Draw("Copyright (c) Firelight Technologies 2004-2014.");
            Common_Draw("==================================================");
            Common_Draw("");
            Common_Draw("Press %s to toggle pause", Common_BtnStr(BTN_ACTION1));
            Common_Draw("Press %s to increase pitch", Common_BtnStr(BTN_ACTION2));
            Common_Draw("Press %s to decrease pitch", Common_BtnStr(BTN_ACTION3));
            Common_Draw("Press %s to quit", Common_BtnStr(BTN_QUIT));
            Common_Draw("");
            Common_Draw("Channels Playing %d : %s", chansplaying, paused ? "Paused " : playing ? "Playing" : "Stopped");
        }

        Common_Sleep(50);
    } while (!Common_BtnPress(BTN_QUIT));

    /*
        Shut down
    */
    result = sound[NOTE_C]->release();
    ERRCHECK(result);
    result = sound[NOTE_D]->release();
    ERRCHECK(result);
    result = sound[NOTE_E]->release();
    ERRCHECK(result);

    result = system->close();
    ERRCHECK(result);
    result = system->release();
    ERRCHECK(result);

    Common_Close();

    return 0;
}
SoundManager::SoundManager()
: _systemVolumeMusic(1.0f)
, _systemVolumeFX(1.0f)
, _userVolumeMusic(1.0f)
, _userVolumeFX(1.0f)
, _expectedSystemVolumeFX(1.0f)
, _expectedSystemVolumeMusic(1.0f)
, _expectedUserVolumeFX(1.0f)
, _expectedUserVolumeMusic(1.0f)
{
    // Sound Init
#ifdef FMOD_ACTIVE
    //    void *extraDriverData = NULL;
    //    utilityInit(&extraDriverData);
    
    _system = NULL;
    ERRCHECK(FMOD::Studio::System::create(&_system) );
    
#if CC_TARGET_PLATFORM==CC_PLATFORM_ANDROID

    FMOD::System * lowLevelSystem = nullptr;
    ERRCHECK(_system->getLowLevelSystem(&lowLevelSystem));
    ERRCHECK(lowLevelSystem->setOutput(FMOD_OUTPUTTYPE_AUDIOTRACK));

    unsigned int bufferLength;
    int numBuffers;

    ERRCHECK(lowLevelSystem->getDSPBufferSize(&bufferLength, &numBuffers));

    CCLOG("SoundManager - Default Buffer Length %u", bufferLength);
    CCLOG("SoundManager - Default Number of Buffer %d", numBuffers);

    bufferLength = 256; // 512; // 1024;
    numBuffers = 2; // 2; // 8;

    ERRCHECK(lowLevelSystem->setDSPBufferSize(bufferLength, numBuffers));

    ERRCHECK(lowLevelSystem->getDSPBufferSize(&bufferLength, &numBuffers));

    CCLOG("SoundManager - New Buffer Length %u", bufferLength);
    CCLOG("SoundManager - New Number of Buffer %d", numBuffers);

    int sampleRate;
    FMOD_SPEAKERMODE speakerMode;
    int numRawSpeakers;

    ERRCHECK(lowLevelSystem->getSoftwareFormat(&sampleRate , &speakerMode, &numRawSpeakers));

    CCLOG("SoundManager - Default Sample Rate %d", sampleRate);
    CCLOG("SoundManager - Default Speaker mode %d", (int)speakerMode);
    CCLOG("SoundManager - Default Number of Raw Speakers %d", numRawSpeakers);

    sampleRate = 24000;

    ERRCHECK(lowLevelSystem->setSoftwareFormat(sampleRate, speakerMode, numRawSpeakers));

    ERRCHECK(lowLevelSystem->getSoftwareFormat(&sampleRate , &speakerMode, &numRawSpeakers));

    CCLOG("SoundManager - New Sample Rate %d", sampleRate);
    CCLOG("SoundManager - New Speaker mode %d", (int)speakerMode);
    CCLOG("SoundManager - New Number of Raw Speakers %d", numRawSpeakers);

#endif

    ERRCHECK(_system->initialize(64, FMOD_STUDIO_INIT_LIVEUPDATE, FMOD_INIT_NORMAL, 0) );
//    ERRCHECK(_system->initialize(64, FMOD_STUDIO_INIT_NORMAL, FMOD_INIT_NORMAL, 0) );
    //    ERRCHECK(_system->initialize(32, FMOD_STUDIO_INIT_NORMAL, FMOD_INIT_NORMAL, 0) );
    ERRCHECK(FMOD_Debug_Initialize(FMOD_DEBUG_LEVEL_WARNING, FMOD_DEBUG_MODE_TTY, 0, nullptr));
    //    ERRCHECK(_system->initialize(32, FMOD_STUDIO_INIT_NORMAL, FMOD_INIT_NORMAL, extraDriverData) );

//    _masterBank = NULL;
//    ERRCHECK(_system->loadBankFile(getMediaPath(FILE_BANK_MASTER_DATA_NAME), FMOD_STUDIO_LOAD_BANK_NORMAL, &_masterBank));
    
    //_stringsBank = static_cast<FMOD::Studio::Bank*>(this->loadAudioGroup(FILE_BANK_MASTER_META_NAME));
    _stringsBank = NULL;
    ERRCHECK(_system->loadBankFile(getMediaPath(FILE_BANK_MASTER_META_NAME), FMOD_STUDIO_LOAD_BANK_NORMAL, &_stringsBank));
    
    Director::getInstance()->getScheduler()->schedule(schedule_selector(SoundManager::updateSounds), this, 0.05, false);
#endif
}