dexed/JuceLibraryCode/modules/juce_audio_devices/native/juce_mac_AudioCDBurner.mm

/*
  ==============================================================================

   This file is part of the JUCE library.
   Copyright (c) 2013 - Raw Material Software Ltd.

   Permission is granted to use this software under the terms of either:
   a) the GPL v2 (or any later version)
   b) the Affero GPL v3

   Details of these licenses can be found at: www.gnu.org/licenses

   JUCE is distributed in the hope that it will be useful, but WITHOUT ANY
   WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR
   A PARTICULAR PURPOSE.  See the GNU General Public License for more details.

   ------------------------------------------------------------------------------

   To release a closed-source product which uses JUCE, commercial licenses are
   available: visit www.juce.com for more information.

  ==============================================================================
*/

const int kilobytesPerSecond1x = 176;

struct AudioTrackProducerClass  : public ObjCClass <NSObject>
{
    AudioTrackProducerClass()  : ObjCClass <NSObject> ("JUCEAudioTrackProducer_")
    {
        addIvar<AudioSourceHolder*> ("source");

        addMethod (@selector (initWithAudioSourceHolder:),     initWithAudioSourceHolder,     "@@:^v");
        addMethod (@selector (cleanupTrackAfterBurn:),         cleanupTrackAfterBurn,         "v@:@");
        addMethod (@selector (cleanupTrackAfterVerification:), cleanupTrackAfterVerification, "c@:@");
        addMethod (@selector (estimateLengthOfTrack:),         estimateLengthOfTrack,         "Q@:@");
        addMethod (@selector (prepareTrack:forBurn:toMedia:),  prepareTrack,                  "c@:@@@");
        addMethod (@selector (prepareTrackForVerification:),   prepareTrackForVerification,   "c@:@");
        addMethod (@selector (produceDataForTrack:intoBuffer:length:atAddress:blockSize:ioFlags:),
                                                               produceDataForTrack,           "I@:@^cIQI^I");
        addMethod (@selector (producePreGapForTrack:intoBuffer:length:atAddress:blockSize:ioFlags:),
                                                               produceDataForTrack,           "I@:@^cIQI^I");
        addMethod (@selector (verifyDataForTrack:intoBuffer:length:atAddress:blockSize:ioFlags:),
                                                               produceDataForTrack,           "I@:@^cIQI^I");

        registerClass();
    }

    struct AudioSourceHolder
    {
        AudioSourceHolder (AudioSource* s, int numFrames)
            : source (s), readPosition (0), lengthInFrames (numFrames)
        {
        }

        ~AudioSourceHolder()
        {
            if (source != nullptr)
                source->releaseResources();
        }

        ScopedPointer<AudioSource> source;
        int readPosition, lengthInFrames;
    };

private:
    static id initWithAudioSourceHolder (id self, SEL, AudioSourceHolder* source)
    {
        self = sendSuperclassMessage (self, @selector (init));
        object_setInstanceVariable (self, "source", source);
        return self;
    }

    static AudioSourceHolder* getSource (id self)
    {
        return getIvar<AudioSourceHolder*> (self, "source");
    }

    static void dealloc (id self, SEL)
    {
        delete getSource (self);
        sendSuperclassMessage (self, @selector (dealloc));
    }

    static void cleanupTrackAfterBurn (id self, SEL, DRTrack*) {}
    static BOOL cleanupTrackAfterVerification (id self, SEL, DRTrack*) { return true; }

    static uint64_t estimateLengthOfTrack (id self, SEL, DRTrack*)
    {
        return getSource (self)->lengthInFrames;
    }

    static BOOL prepareTrack (id self, SEL, DRTrack*, DRBurn*, NSDictionary*)
    {
        if (AudioSourceHolder* const source = getSource (self))
        {
            source->source->prepareToPlay (44100 / 75, 44100);
            source->readPosition = 0;
        }

        return true;
    }

    static BOOL prepareTrackForVerification (id self, SEL, DRTrack*)
    {
        if (AudioSourceHolder* const source = getSource (self))
            source->source->prepareToPlay (44100 / 75, 44100);

        return true;
    }

    static uint32_t produceDataForTrack (id self, SEL, DRTrack*, char* buffer,
                                         uint32_t bufferLength, uint64_t /*address*/,
                                         uint32_t /*blockSize*/, uint32_t* /*flags*/)
    {
        if (AudioSourceHolder* const source = getSource (self))
        {
            const int numSamples = jmin ((int) bufferLength / 4,
                                         (source->lengthInFrames * (44100 / 75)) - source->readPosition);

            if (numSamples > 0)
            {
                AudioSampleBuffer tempBuffer (2, numSamples);
                AudioSourceChannelInfo info (tempBuffer);

                source->source->getNextAudioBlock (info);

                typedef AudioData::Pointer <AudioData::Int16,   AudioData::LittleEndian, AudioData::Interleaved,    AudioData::NonConst> CDSampleFormat;
                typedef AudioData::Pointer <AudioData::Float32, AudioData::NativeEndian, AudioData::NonInterleaved, AudioData::Const> SourceSampleFormat;

                CDSampleFormat left (buffer, 2);
                left.convertSamples (SourceSampleFormat (tempBuffer.getSampleData (0)), numSamples);
                CDSampleFormat right (buffer + 2, 2);
                right.convertSamples (SourceSampleFormat (tempBuffer.getSampleData (1)), numSamples);

                source->readPosition += numSamples;
            }

            return numSamples * 4;
        }

        return 0;
    }

    static uint32_t producePreGapForTrack (id self, SEL, DRTrack*, char* buffer,
                                           uint32_t bufferLength, uint64_t /*address*/,
                                           uint32_t /*blockSize*/, uint32_t* /*flags*/)
    {
        zeromem (buffer, bufferLength);
        return bufferLength;
    }

    static BOOL verifyDataForTrack (id self, SEL, DRTrack*, const char*,
                                    uint32_t /*bufferLength*/, uint64_t /*address*/,
                                    uint32_t /*blockSize*/, uint32_t* /*flags*/)
    {
        return true;
    }
};

struct OpenDiskDevice
{
    OpenDiskDevice (DRDevice* d)
        : device (d),
          tracks ([[NSMutableArray alloc] init]),
          underrunProtection (true)
    {
    }

    ~OpenDiskDevice()
    {
        [tracks release];
    }

    void addSourceTrack (AudioSource* source, int numSamples)
    {
        if (source != nullptr)
        {
            const int numFrames = (numSamples + 587) / 588;

            static AudioTrackProducerClass cls;

            NSObject* producer = [cls.createInstance()  performSelector: @selector (initWithAudioSourceHolder:)
                                                             withObject: (id) new AudioTrackProducerClass::AudioSourceHolder (source, numFrames)];
            DRTrack* track = [[DRTrack alloc] initWithProducer: producer];

            {
                NSMutableDictionary* p = [[track properties] mutableCopy];
                [p setObject: [DRMSF msfWithFrames: numFrames] forKey: DRTrackLengthKey];
                [p setObject: [NSNumber numberWithUnsignedShort: 2352] forKey: DRBlockSizeKey];
                [p setObject: [NSNumber numberWithInt: 0] forKey: DRDataFormKey];
                [p setObject: [NSNumber numberWithInt: 0] forKey: DRBlockTypeKey];
                [p setObject: [NSNumber numberWithInt: 0] forKey: DRTrackModeKey];
                [p setObject: [NSNumber numberWithInt: 0] forKey: DRSessionFormatKey];
                [track setProperties: p];
                [p release];
            }

            [tracks addObject: track];

            [track release];
            [producer release];
        }
    }

    String burn (AudioCDBurner::BurnProgressListener* listener,
                 bool shouldEject, bool peformFakeBurnForTesting, int burnSpeed)
    {
        DRBurn* burn = [DRBurn burnForDevice: device];

        if (! [device acquireExclusiveAccess])
            return "Couldn't open or write to the CD device";

        [device acquireMediaReservation];

        NSMutableDictionary* d = [[burn properties] mutableCopy];
        [d autorelease];
        [d setObject: [NSNumber numberWithBool: peformFakeBurnForTesting] forKey: DRBurnTestingKey];
        [d setObject: [NSNumber numberWithBool: false] forKey: DRBurnVerifyDiscKey];
        [d setObject: (shouldEject ? DRBurnCompletionActionEject : DRBurnCompletionActionMount) forKey: DRBurnCompletionActionKey];

        if (burnSpeed > 0)
            [d setObject: [NSNumber numberWithFloat: burnSpeed * kilobytesPerSecond1x] forKey: DRBurnRequestedSpeedKey];

        if (! underrunProtection)
            [d setObject: [NSNumber numberWithBool: false] forKey: DRBurnUnderrunProtectionKey];

        [burn setProperties: d];

        [burn writeLayout: tracks];

        for (;;)
        {
            Thread::sleep (300);
            float progress = [[[burn status] objectForKey: DRStatusPercentCompleteKey] floatValue];

            if (listener != nullptr && listener->audioCDBurnProgress (progress))
            {
                [burn abort];
                return "User cancelled the write operation";
            }

            if ([[[burn status] objectForKey: DRStatusStateKey] isEqualTo: DRStatusStateFailed])
                return "Write operation failed";

            if ([[[burn status] objectForKey: DRStatusStateKey] isEqualTo: DRStatusStateDone])
                break;

            NSString* err = (NSString*) [[[burn status] objectForKey: DRErrorStatusKey]
                                                        objectForKey: DRErrorStatusErrorStringKey];
            if ([err length] > 0)
                return nsStringToJuce (err);
        }

        [device releaseMediaReservation];
        [device releaseExclusiveAccess];
        return String::empty;
    }

    DRDevice* device;
    NSMutableArray* tracks;
    bool underrunProtection;
};

//==============================================================================
class AudioCDBurner::Pimpl  : public Timer
{
public:
    Pimpl (AudioCDBurner& b, int deviceIndex)  : owner (b)
    {
        if (DRDevice* dev = [[DRDevice devices] objectAtIndex: deviceIndex])
        {
            device = new OpenDiskDevice (dev);
            lastState = getDiskState();
            startTimer (1000);
        }
    }

    ~Pimpl()
    {
        stopTimer();
    }

    void timerCallback() override
    {
        const DiskState state = getDiskState();

        if (state != lastState)
        {
            lastState = state;
            owner.sendChangeMessage();
        }
    }

    DiskState getDiskState() const
    {
        if ([device->device isValid])
        {
            NSDictionary* status = [device->device status];
            NSString* state = [status objectForKey: DRDeviceMediaStateKey];

            if ([state isEqualTo: DRDeviceMediaStateNone])
            {
                if ([[status objectForKey: DRDeviceIsTrayOpenKey] boolValue])
                    return trayOpen;

                return noDisc;
            }

            if ([state isEqualTo: DRDeviceMediaStateMediaPresent])
            {
                if ([[[status objectForKey: DRDeviceMediaInfoKey] objectForKey: DRDeviceMediaBlocksFreeKey] intValue] > 0)
                    return writableDiskPresent;

                return readOnlyDiskPresent;
            }
        }

        return unknown;
    }

    bool openTray()    { return [device->device isValid] && [device->device ejectMedia]; }

    Array<int> getAvailableWriteSpeeds() const
    {
        Array<int> results;

        if ([device->device isValid])
            for (id kbPerSec in [[[device->device status] objectForKey: DRDeviceMediaInfoKey] objectForKey: DRDeviceBurnSpeedsKey])
                results.add ([kbPerSec intValue] / kilobytesPerSecond1x);

        return results;
    }

    bool setBufferUnderrunProtection (const bool shouldBeEnabled)
    {
        if ([device->device isValid])
        {
            device->underrunProtection = shouldBeEnabled;
            return shouldBeEnabled && [[[device->device status] objectForKey: DRDeviceCanUnderrunProtectCDKey] boolValue];
        }

        return false;
    }

    int getNumAvailableAudioBlocks() const
    {
        return [[[[device->device status] objectForKey: DRDeviceMediaInfoKey]
                                          objectForKey: DRDeviceMediaBlocksFreeKey] intValue];
    }

    ScopedPointer<OpenDiskDevice> device;

private:
    DiskState lastState;
    AudioCDBurner& owner;
};

//==============================================================================
AudioCDBurner::AudioCDBurner (const int deviceIndex)
{
    pimpl = new Pimpl (*this, deviceIndex);
}

AudioCDBurner::~AudioCDBurner()
{
}

AudioCDBurner* AudioCDBurner::openDevice (const int deviceIndex)
{
    ScopedPointer<AudioCDBurner> b (new AudioCDBurner (deviceIndex));

    if (b->pimpl->device == nil)
        b = nullptr;

    return b.release();
}

StringArray AudioCDBurner::findAvailableDevices()
{
    StringArray s;

    for (NSDictionary* dic in [DRDevice devices])
        if (NSString* name = [dic valueForKey: DRDeviceProductNameKey])
            s.add (nsStringToJuce (name));

    return s;
}

AudioCDBurner::DiskState AudioCDBurner::getDiskState() const
{
    return pimpl->getDiskState();
}

bool AudioCDBurner::isDiskPresent() const
{
    return getDiskState() == writableDiskPresent;
}

bool AudioCDBurner::openTray()
{
    return pimpl->openTray();
}

AudioCDBurner::DiskState AudioCDBurner::waitUntilStateChange (int timeOutMilliseconds)
{
    const int64 timeout = Time::currentTimeMillis() + timeOutMilliseconds;
    DiskState oldState = getDiskState();
    DiskState newState = oldState;

    while (newState == oldState && Time::currentTimeMillis() < timeout)
    {
        newState = getDiskState();
        Thread::sleep (100);
    }

    return newState;
}

Array<int> AudioCDBurner::getAvailableWriteSpeeds() const
{
    return pimpl->getAvailableWriteSpeeds();
}

bool AudioCDBurner::setBufferUnderrunProtection (const bool shouldBeEnabled)
{
    return pimpl->setBufferUnderrunProtection (shouldBeEnabled);
}

int AudioCDBurner::getNumAvailableAudioBlocks() const
{
    return pimpl->getNumAvailableAudioBlocks();
}

bool AudioCDBurner::addAudioTrack (AudioSource* source, int numSamps)
{
    if ([pimpl->device->device isValid])
    {
        pimpl->device->addSourceTrack (source, numSamps);
        return true;
    }

    return false;
}

String AudioCDBurner::burn (AudioCDBurner::BurnProgressListener* listener,
                            bool ejectDiscAfterwards,
                            bool performFakeBurnForTesting,
                            int writeSpeed)
{
    if ([pimpl->device->device isValid])
        return pimpl->device->burn (listener, ejectDiscAfterwards, performFakeBurnForTesting, writeSpeed);

    return "Couldn't open or write to the CD device";
}
initial commit 11 years ago			`/*`
			`==============================================================================`

			`This file is part of the JUCE library.`
			`Copyright (c) 2013 - Raw Material Software Ltd.`

			`Permission is granted to use this software under the terms of either:`
			`a) the GPL v2 (or any later version)`
			`b) the Affero GPL v3`

			`Details of these licenses can be found at: www.gnu.org/licenses`

			`JUCE is distributed in the hope that it will be useful, but WITHOUT ANY`
			`WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR`
			`A PARTICULAR PURPOSE. See the GNU General Public License for more details.`

			`------------------------------------------------------------------------------`

			`To release a closed-source product which uses JUCE, commercial licenses are`
			`available: visit www.juce.com for more information.`

			`==============================================================================`
			`*/`

			`const int kilobytesPerSecond1x = 176;`

			`struct AudioTrackProducerClass : public ObjCClass <NSObject>`
			`{`
			`AudioTrackProducerClass() : ObjCClass <NSObject> ("JUCEAudioTrackProducer_")`
			`{`
			`addIvar<AudioSourceHolder*> ("source");`

			`addMethod (@selector (initWithAudioSourceHolder:), initWithAudioSourceHolder, "@@:^v");`
			`addMethod (@selector (cleanupTrackAfterBurn:), cleanupTrackAfterBurn, "v@:@");`
			`addMethod (@selector (cleanupTrackAfterVerification:), cleanupTrackAfterVerification, "c@:@");`
			`addMethod (@selector (estimateLengthOfTrack:), estimateLengthOfTrack, "Q@:@");`
			`addMethod (@selector (prepareTrack:forBurn:toMedia:), prepareTrack, "c@:@@@");`
			`addMethod (@selector (prepareTrackForVerification:), prepareTrackForVerification, "c@:@");`
			`addMethod (@selector (produceDataForTrack:intoBuffer:length:atAddress:blockSize:ioFlags:),`
			`produceDataForTrack, "I@:@^cIQI^I");`
			`addMethod (@selector (producePreGapForTrack:intoBuffer:length:atAddress:blockSize:ioFlags:),`
			`produceDataForTrack, "I@:@^cIQI^I");`
			`addMethod (@selector (verifyDataForTrack:intoBuffer:length:atAddress:blockSize:ioFlags:),`
			`produceDataForTrack, "I@:@^cIQI^I");`

			`registerClass();`
			`}`

			`struct AudioSourceHolder`
			`{`
			`AudioSourceHolder (AudioSource* s, int numFrames)`
			`: source (s), readPosition (0), lengthInFrames (numFrames)`
			`{`
			`}`

			`~AudioSourceHolder()`
			`{`
			`if (source != nullptr)`
			`source->releaseResources();`
			`}`

			`ScopedPointer<AudioSource> source;`
			`int readPosition, lengthInFrames;`
			`};`

			`private:`
			`static id initWithAudioSourceHolder (id self, SEL, AudioSourceHolder* source)`
			`{`
			`self = sendSuperclassMessage (self, @selector (init));`
			`object_setInstanceVariable (self, "source", source);`
			`return self;`
			`}`

			`static AudioSourceHolder* getSource (id self)`
			`{`
			`return getIvar<AudioSourceHolder*> (self, "source");`
			`}`

			`static void dealloc (id self, SEL)`
			`{`
			`delete getSource (self);`
			`sendSuperclassMessage (self, @selector (dealloc));`
			`}`

			`static void cleanupTrackAfterBurn (id self, SEL, DRTrack*) {}`
			`static BOOL cleanupTrackAfterVerification (id self, SEL, DRTrack*) { return true; }`

			`static uint64_t estimateLengthOfTrack (id self, SEL, DRTrack*)`
			`{`
			`return getSource (self)->lengthInFrames;`
			`}`

			`static BOOL prepareTrack (id self, SEL, DRTrack, DRBurn, NSDictionary*)`
			`{`
			`if (AudioSourceHolder* const source = getSource (self))`
			`{`
			`source->source->prepareToPlay (44100 / 75, 44100);`
			`source->readPosition = 0;`
			`}`

			`return true;`
			`}`

			`static BOOL prepareTrackForVerification (id self, SEL, DRTrack*)`
			`{`
			`if (AudioSourceHolder* const source = getSource (self))`
			`source->source->prepareToPlay (44100 / 75, 44100);`

			`return true;`
			`}`

			`static uint32_t produceDataForTrack (id self, SEL, DRTrack, char buffer,`
			`uint32_t bufferLength, uint64_t /address/,`
			`uint32_t /blockSize/, uint32_t* /flags/)`
			`{`
			`if (AudioSourceHolder* const source = getSource (self))`
			`{`
			`const int numSamples = jmin ((int) bufferLength / 4,`
			`(source->lengthInFrames * (44100 / 75)) - source->readPosition);`

			`if (numSamples > 0)`
			`{`
			`AudioSampleBuffer tempBuffer (2, numSamples);`
			`AudioSourceChannelInfo info (tempBuffer);`

			`source->source->getNextAudioBlock (info);`

			`typedef AudioData::Pointer <AudioData::Int16, AudioData::LittleEndian, AudioData::Interleaved, AudioData::NonConst> CDSampleFormat;`
			`typedef AudioData::Pointer <AudioData::Float32, AudioData::NativeEndian, AudioData::NonInterleaved, AudioData::Const> SourceSampleFormat;`

			`CDSampleFormat left (buffer, 2);`
			`left.convertSamples (SourceSampleFormat (tempBuffer.getSampleData (0)), numSamples);`
			`CDSampleFormat right (buffer + 2, 2);`
			`right.convertSamples (SourceSampleFormat (tempBuffer.getSampleData (1)), numSamples);`

			`source->readPosition += numSamples;`
			`}`

			`return numSamples * 4;`
			`}`

			`return 0;`
			`}`

			`static uint32_t producePreGapForTrack (id self, SEL, DRTrack, char buffer,`
			`uint32_t bufferLength, uint64_t /address/,`
			`uint32_t /blockSize/, uint32_t* /flags/)`
			`{`
			`zeromem (buffer, bufferLength);`
			`return bufferLength;`
			`}`

			`static BOOL verifyDataForTrack (id self, SEL, DRTrack, const char,`
			`uint32_t /bufferLength/, uint64_t /address/,`
			`uint32_t /blockSize/, uint32_t* /flags/)`
			`{`
			`return true;`
			`}`
			`};`

			`struct OpenDiskDevice`
			`{`
			`OpenDiskDevice (DRDevice* d)`
			`: device (d),`
			`tracks ([[NSMutableArray alloc] init]),`
			`underrunProtection (true)`
			`{`
			`}`

			`~OpenDiskDevice()`
			`{`
			`[tracks release];`
			`}`

			`void addSourceTrack (AudioSource* source, int numSamples)`
			`{`
			`if (source != nullptr)`
			`{`
			`const int numFrames = (numSamples + 587) / 588;`

			`static AudioTrackProducerClass cls;`

			`NSObject* producer = [cls.createInstance() performSelector: @selector (initWithAudioSourceHolder:)`
			`withObject: (id) new AudioTrackProducerClass::AudioSourceHolder (source, numFrames)];`
			`DRTrack* track = [[DRTrack alloc] initWithProducer: producer];`

			`{`
			`NSMutableDictionary* p = [[track properties] mutableCopy];`
			`[p setObject: [DRMSF msfWithFrames: numFrames] forKey: DRTrackLengthKey];`
			`[p setObject: [NSNumber numberWithUnsignedShort: 2352] forKey: DRBlockSizeKey];`
			`[p setObject: [NSNumber numberWithInt: 0] forKey: DRDataFormKey];`
			`[p setObject: [NSNumber numberWithInt: 0] forKey: DRBlockTypeKey];`
			`[p setObject: [NSNumber numberWithInt: 0] forKey: DRTrackModeKey];`
			`[p setObject: [NSNumber numberWithInt: 0] forKey: DRSessionFormatKey];`
			`[track setProperties: p];`
			`[p release];`
			`}`

			`[tracks addObject: track];`

			`[track release];`
			`[producer release];`
			`}`
			`}`

			`String burn (AudioCDBurner::BurnProgressListener* listener,`
			`bool shouldEject, bool peformFakeBurnForTesting, int burnSpeed)`
			`{`
			`DRBurn* burn = [DRBurn burnForDevice: device];`

			`if (! [device acquireExclusiveAccess])`
			`return "Couldn't open or write to the CD device";`

			`[device acquireMediaReservation];`

			`NSMutableDictionary* d = [[burn properties] mutableCopy];`
			`[d autorelease];`
			`[d setObject: [NSNumber numberWithBool: peformFakeBurnForTesting] forKey: DRBurnTestingKey];`
			`[d setObject: [NSNumber numberWithBool: false] forKey: DRBurnVerifyDiscKey];`
			`[d setObject: (shouldEject ? DRBurnCompletionActionEject : DRBurnCompletionActionMount) forKey: DRBurnCompletionActionKey];`

			`if (burnSpeed > 0)`
			`[d setObject: [NSNumber numberWithFloat: burnSpeed * kilobytesPerSecond1x] forKey: DRBurnRequestedSpeedKey];`

			`if (! underrunProtection)`
			`[d setObject: [NSNumber numberWithBool: false] forKey: DRBurnUnderrunProtectionKey];`

			`[burn setProperties: d];`

			`[burn writeLayout: tracks];`

			`for (;;)`
			`{`
			`Thread::sleep (300);`
			`float progress = [[[burn status] objectForKey: DRStatusPercentCompleteKey] floatValue];`

			`if (listener != nullptr && listener->audioCDBurnProgress (progress))`
			`{`
			`[burn abort];`
			`return "User cancelled the write operation";`
			`}`

			`if ([[[burn status] objectForKey: DRStatusStateKey] isEqualTo: DRStatusStateFailed])`
			`return "Write operation failed";`

			`if ([[[burn status] objectForKey: DRStatusStateKey] isEqualTo: DRStatusStateDone])`
			`break;`

			`NSString* err = (NSString*) [[[burn status] objectForKey: DRErrorStatusKey]`
			`objectForKey: DRErrorStatusErrorStringKey];`
			`if ([err length] > 0)`
			`return nsStringToJuce (err);`
			`}`

			`[device releaseMediaReservation];`
			`[device releaseExclusiveAccess];`
			`return String::empty;`
			`}`

			`DRDevice* device;`
			`NSMutableArray* tracks;`
			`bool underrunProtection;`
			`};`

			`//==============================================================================`
			`class AudioCDBurner::Pimpl : public Timer`
			`{`
			`public:`
			`Pimpl (AudioCDBurner& b, int deviceIndex) : owner (b)`
			`{`
			`if (DRDevice* dev = [[DRDevice devices] objectAtIndex: deviceIndex])`
			`{`
			`device = new OpenDiskDevice (dev);`
			`lastState = getDiskState();`
			`startTimer (1000);`
			`}`
			`}`

			`~Pimpl()`
			`{`
			`stopTimer();`
			`}`

			`void timerCallback() override`
			`{`
			`const DiskState state = getDiskState();`

			`if (state != lastState)`
			`{`
			`lastState = state;`
			`owner.sendChangeMessage();`
			`}`
			`}`

			`DiskState getDiskState() const`
			`{`
			`if ([device->device isValid])`
			`{`
			`NSDictionary* status = [device->device status];`
			`NSString* state = [status objectForKey: DRDeviceMediaStateKey];`

			`if ([state isEqualTo: DRDeviceMediaStateNone])`
			`{`
			`if ([[status objectForKey: DRDeviceIsTrayOpenKey] boolValue])`
			`return trayOpen;`

			`return noDisc;`
			`}`

			`if ([state isEqualTo: DRDeviceMediaStateMediaPresent])`
			`{`
			`if ([[[status objectForKey: DRDeviceMediaInfoKey] objectForKey: DRDeviceMediaBlocksFreeKey] intValue] > 0)`
			`return writableDiskPresent;`

			`return readOnlyDiskPresent;`
			`}`
			`}`

			`return unknown;`
			`}`

			`bool openTray() { return [device->device isValid] && [device->device ejectMedia]; }`

			`Array<int> getAvailableWriteSpeeds() const`
			`{`
			`Array<int> results;`

			`if ([device->device isValid])`
			`for (id kbPerSec in [[[device->device status] objectForKey: DRDeviceMediaInfoKey] objectForKey: DRDeviceBurnSpeedsKey])`
			`results.add ([kbPerSec intValue] / kilobytesPerSecond1x);`

			`return results;`
			`}`

			`bool setBufferUnderrunProtection (const bool shouldBeEnabled)`
			`{`
			`if ([device->device isValid])`
			`{`
			`device->underrunProtection = shouldBeEnabled;`
			`return shouldBeEnabled && [[[device->device status] objectForKey: DRDeviceCanUnderrunProtectCDKey] boolValue];`
			`}`

			`return false;`
			`}`

			`int getNumAvailableAudioBlocks() const`
			`{`
			`return [[[[device->device status] objectForKey: DRDeviceMediaInfoKey]`
			`objectForKey: DRDeviceMediaBlocksFreeKey] intValue];`
			`}`

			`ScopedPointer<OpenDiskDevice> device;`

			`private:`
			`DiskState lastState;`
			`AudioCDBurner& owner;`
			`};`

			`//==============================================================================`
			`AudioCDBurner::AudioCDBurner (const int deviceIndex)`
			`{`
			`pimpl = new Pimpl (*this, deviceIndex);`
			`}`

			`AudioCDBurner::~AudioCDBurner()`
			`{`
			`}`

			`AudioCDBurner* AudioCDBurner::openDevice (const int deviceIndex)`
			`{`
			`ScopedPointer<AudioCDBurner> b (new AudioCDBurner (deviceIndex));`

			`if (b->pimpl->device == nil)`
			`b = nullptr;`

			`return b.release();`
			`}`

			`StringArray AudioCDBurner::findAvailableDevices()`
			`{`
			`StringArray s;`

			`for (NSDictionary* dic in [DRDevice devices])`
			`if (NSString* name = [dic valueForKey: DRDeviceProductNameKey])`
			`s.add (nsStringToJuce (name));`

			`return s;`
			`}`

			`AudioCDBurner::DiskState AudioCDBurner::getDiskState() const`
			`{`
			`return pimpl->getDiskState();`
			`}`

			`bool AudioCDBurner::isDiskPresent() const`
			`{`
			`return getDiskState() == writableDiskPresent;`
			`}`

			`bool AudioCDBurner::openTray()`
			`{`
			`return pimpl->openTray();`
			`}`

			`AudioCDBurner::DiskState AudioCDBurner::waitUntilStateChange (int timeOutMilliseconds)`
			`{`
			`const int64 timeout = Time::currentTimeMillis() + timeOutMilliseconds;`
			`DiskState oldState = getDiskState();`
			`DiskState newState = oldState;`

			`while (newState == oldState && Time::currentTimeMillis() < timeout)`
			`{`
			`newState = getDiskState();`
			`Thread::sleep (100);`
			`}`

			`return newState;`
			`}`

			`Array<int> AudioCDBurner::getAvailableWriteSpeeds() const`
			`{`
			`return pimpl->getAvailableWriteSpeeds();`
			`}`

			`bool AudioCDBurner::setBufferUnderrunProtection (const bool shouldBeEnabled)`
			`{`
			`return pimpl->setBufferUnderrunProtection (shouldBeEnabled);`
			`}`

			`int AudioCDBurner::getNumAvailableAudioBlocks() const`
			`{`
			`return pimpl->getNumAvailableAudioBlocks();`
			`}`

			`bool AudioCDBurner::addAudioTrack (AudioSource* source, int numSamps)`
			`{`
			`if ([pimpl->device->device isValid])`
			`{`
			`pimpl->device->addSourceTrack (source, numSamps);`
			`return true;`
			`}`

			`return false;`
			`}`

			`String AudioCDBurner::burn (AudioCDBurner::BurnProgressListener* listener,`
			`bool ejectDiscAfterwards,`
			`bool performFakeBurnForTesting,`
			`int writeSpeed)`
			`{`
			`if ([pimpl->device->device isValid])`
			`return pimpl->device->burn (listener, ejectDiscAfterwards, performFakeBurnForTesting, writeSpeed);`

			`return "Couldn't open or write to the CD device";`
			`}`