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I'm creating a old school music emulator for the old GWBasic PLAY command. To that end I have a tone generator and a music player. Between each of the notes played I'm getting a chirp sound that mucking things up. Below are both of my classes:

ToneGen.h

#import <Foundation/Foundation.h>

@interface ToneGen : NSObject
@property (nonatomic) id delegate;
@property (nonatomic) double frequency;
@property (nonatomic) double sampleRate;
@property (nonatomic) double theta;
- (void)play:(float)ms;
- (void)play;
- (void)stop;
@end

ToneGen.m

#import <AudioUnit/AudioUnit.h>
#import "ToneGen.h"

OSStatus RenderTone(
                    void *inRefCon, 
                    AudioUnitRenderActionFlags  *ioActionFlags, 
                    const AudioTimeStamp        *inTimeStamp, 
                    UInt32                      inBusNumber, 
                    UInt32                      inNumberFrames, 
                    AudioBufferList             *ioData);
void ToneInterruptionListener(void *inClientData, UInt32 inInterruptionState);


@interface ToneGen()
@property (nonatomic) AudioComponentInstance toneUnit;
@property (nonatomic) NSTimer *timer;
- (void)createToneUnit;
@end


@implementation ToneGen
@synthesize toneUnit = _toneUnit;
@synthesize timer = _timer;
@synthesize delegate = _delegate;
@synthesize frequency = _frequency;
@synthesize sampleRate = _sampleRate;
@synthesize theta = _theta;

- (id) init
{
    self = [super init];
    if (self)
    {
        self.sampleRate = 44100;
        self.frequency = 1440.0f;
        return self;
    }
    return nil;
}

- (void)play:(float)ms
{
    [self play];
    self.timer = [NSTimer scheduledTimerWithTimeInterval:(ms / 100) 
                                                  target:self 
                                                selector:@selector(stop) 
                                                userInfo:nil 
                                                 repeats:NO];
    [[NSRunLoop mainRunLoop] addTimer:self.timer forMode:NSRunLoopCommonModes];
}

- (void)play
{
    if (!self.toneUnit)
    {
        [self createToneUnit];

        // Stop changing parameters on the unit
        OSErr err = AudioUnitInitialize(self.toneUnit);
        if (err)
            DLog(@"Error initializing unit");

        // Start playback
        err = AudioOutputUnitStart(self.toneUnit);
        if (err)
            DLog(@"Error starting unit");
    }
}

- (void)stop
{
    [self.timer invalidate];
    self.timer = nil;

    if (self.toneUnit)
    {
        AudioOutputUnitStop(self.toneUnit);
        AudioUnitUninitialize(self.toneUnit);
        AudioComponentInstanceDispose(self.toneUnit);
        self.toneUnit = nil;
    }

    if(self.delegate && [self.delegate respondsToSelector:@selector(toneStop)]) {
        [self.delegate performSelector:@selector(toneStop)];
    }
}

- (void)createToneUnit
{
    AudioComponentDescription defaultOutputDescription;
    defaultOutputDescription.componentType = kAudioUnitType_Output;
    defaultOutputDescription.componentSubType = kAudioUnitSubType_DefaultOutput;
    defaultOutputDescription.componentManufacturer = kAudioUnitManufacturer_Apple;
    defaultOutputDescription.componentFlags = 0;
    defaultOutputDescription.componentFlagsMask = 0;

    // Get the default playback output unit
    AudioComponent defaultOutput = AudioComponentFindNext(NULL, &defaultOutputDescription);
    if (!defaultOutput)
        DLog(@"Can't find default output");

    // Create a new unit based on this that we'll use for output
    OSErr err = AudioComponentInstanceNew(defaultOutput, &_toneUnit);
    if (err)
        DLog(@"Error creating unit");

    // Set our tone rendering function on the unit
    AURenderCallbackStruct input;
    input.inputProc = RenderTone;
    input.inputProcRefCon = (__bridge void*)self;
    err = AudioUnitSetProperty(self.toneUnit, 
                               kAudioUnitProperty_SetRenderCallback, 
                               kAudioUnitScope_Input,
                               0, 
                               &input, 
                               sizeof(input));
    if (err)
        DLog(@"Error setting callback");

    // Set the format to 32 bit, single channel, floating point, linear PCM
    const int four_bytes_per_float = 4;
    const int eight_bits_per_byte = 8;
    AudioStreamBasicDescription streamFormat;
    streamFormat.mSampleRate = self.sampleRate;
    streamFormat.mFormatID = kAudioFormatLinearPCM;
    streamFormat.mFormatFlags =
    kAudioFormatFlagsNativeFloatPacked | kAudioFormatFlagIsNonInterleaved;
    streamFormat.mBytesPerPacket = four_bytes_per_float;
    streamFormat.mFramesPerPacket = 1;  
    streamFormat.mBytesPerFrame = four_bytes_per_float;     
    streamFormat.mChannelsPerFrame = 1; 
    streamFormat.mBitsPerChannel = four_bytes_per_float * eight_bits_per_byte;
    err = AudioUnitSetProperty (self.toneUnit,
                                kAudioUnitProperty_StreamFormat,
                                kAudioUnitScope_Input,
                                0,
                                &streamFormat,
                                sizeof(AudioStreamBasicDescription));
    if (err)
        DLog(@"Error setting stream format");
}

@end


OSStatus RenderTone(
                    void *inRefCon, 
                    AudioUnitRenderActionFlags  *ioActionFlags, 
                    const AudioTimeStamp        *inTimeStamp, 
                    UInt32                      inBusNumber, 
                    UInt32                      inNumberFrames, 
                    AudioBufferList             *ioData)

{
    // Fixed amplitude is good enough for our purposes
    const double amplitude = 0.25;

    // Get the tone parameters out of the view controller
    ToneGen *toneGen = (__bridge ToneGen *)inRefCon;
    double theta = toneGen.theta;
    double theta_increment = 2.0 * M_PI * toneGen.frequency / toneGen.sampleRate;

    // This is a mono tone generator so we only need the first buffer
    const int channel = 0;
    Float32 *buffer = (Float32 *)ioData->mBuffers[channel].mData;

    // Generate the samples
    for (UInt32 frame = 0; frame < inNumberFrames; frame++) 
    {
        buffer[frame] = sin(theta) * amplitude;

        theta += theta_increment;
        if (theta > 2.0 * M_PI)
        {
            theta -= 2.0 * M_PI;
        }
    }

    // Store the theta back in the view controller
    toneGen.theta = theta;

    return noErr;
}

void ToneInterruptionListener(void *inClientData, UInt32 inInterruptionState)
{
    ToneGen *toneGen = (__bridge ToneGen *)inClientData;
    [toneGen stop];
}

Music.h

#import <Foundation/Foundation.h>

@interface Music : NSObject
- (void) play:(NSString *)music;
- (void) stop;
@end

Music.m

#import "Music.h"
#import "ToneGen.h"

@interface Music()
@property (nonatomic, readonly) ToneGen *toneGen;
@property (nonatomic, assign) int octive;
@property (nonatomic, assign) int tempo;
@property (nonatomic, assign) int length;

@property (nonatomic, strong) NSData *music;
@property (nonatomic, assign) int dataPos;
@property (nonatomic, assign) BOOL isPlaying;

- (void)playNote;
@end

@implementation Music
@synthesize toneGen = _toneGen;
- (ToneGen*)toneGen
{
    if (_toneGen == nil)
    {
        _toneGen = [[ToneGen alloc] init];
        _toneGen.delegate = self;
    }
    return _toneGen;
}
@synthesize octive = _octive;
- (void)setOctive:(int)octive
{
    // Sinity Check
    if (octive < 0)
        octive = 0;
    if (octive > 6)
        octive = 6;
    _octive = octive;
}
@synthesize tempo = _tempo;
- (void)setTempo:(int)tempo
{
    // Sinity Check
    if (tempo < 30)
        tempo = 30;
    if (tempo > 255)
        tempo = 255;
    _tempo = tempo;
}
@synthesize length = _length;
- (void)setLength:(int)length
{
    // Sinity Check
    if (length < 1)
        length = 1;
    if (length > 64)
        length = 64;
    _length = length;
}
@synthesize music = _music;
@synthesize dataPos = _dataPos;
@synthesize isPlaying = _isPlaying;


- (id)init
{
    self = [super init];
    if (self)
    {
        self.octive = 4;
        self.tempo = 120;
        self.length = 1;
        return self;
    }
    return nil;
}

- (void) play:(NSString *)music
{
    DLog(@"%@", music);
    self.music = [[music stringByReplacingOccurrencesOfString:@"+" withString:@"#"]
                  dataUsingEncoding: NSASCIIStringEncoding];
    self.dataPos = 0;
    self.isPlaying = YES;
    [self playNote];
}

- (void)stop
{
    self.isPlaying = NO;
}

- (void)playNote
{
    if (!self.isPlaying)
        return;

    if (self.dataPos > self.music.length || self.music.length == 0) {
        self.isPlaying = NO;
        return;
    }

    unsigned char *data = (unsigned char*)[self.music bytes];
    unsigned int code = (unsigned int)data[self.dataPos];
    self.dataPos++;

    switch (code) {
        case 65: // A
        case 66: // B
        case 67: // C
        case 68: // D
        case 69: // E
        case 70: // F
        case 71: // G
            {
                // Peak at the next char to look for sharp or flat
                bool sharp = NO;
                bool flat = NO;
                if (self.dataPos < self.music.length) {
                    unsigned int peak = (unsigned int)data[self.dataPos];
                    if (peak == 35) // #
                    {
                        self.dataPos++;
                        sharp = YES;
                    }
                    else if (peak == 45)  // -
                    {
                        self.dataPos++;
                        flat = YES;
                    }
                }

                // Peak ahead for a length changes
                bool look = YES;
                int count = 0;
                int newLength = 0;
                while (self.dataPos < self.music.length && look) {
                    unsigned int peak = (unsigned int)data[self.dataPos];
                    if (peak >= 48 && peak <= 57)
                    {
                        peak -= 48;
                        int n = (count * 10);
                        if (n == 0) { n = 1; }
                        newLength += peak * n;
                        self.dataPos++;
                    } else {
                        look = NO;
                    }
                }

                // Pick the note length
                int length = self.length;
                if (newLength != 0)
                {
                    DLog(@"InlineLength: %d", newLength);
                    length = newLength;
                }


                // Create the note string
                NSString *note = [NSString stringWithFormat:@"%c", code];
                if (sharp)
                    note = [note stringByAppendingFormat:@"#"];
                else if (flat)
                    note = [note stringByAppendingFormat:@"-"];

                // Set the tone generator freq
                [self setFreq:[self getNoteNumber:note]];

                // Play the note
                [self.toneGen play:(self.tempo / length)];
            }
            break;

        case 76: // L (length)
        {
            bool look = YES;
            int newLength = 0;
            while (self.dataPos < self.music.length && look) {
                unsigned int peak = (unsigned int)data[self.dataPos];
                if (peak >= 48 && peak <= 57)
                {
                    peak -= 48;
                    newLength = newLength * 10 + peak;
                    self.dataPos++;
                } else {
                    look = NO;
                }
            }
            self.length = newLength;
            DLog(@"Length: %d", self.length);
            [self playNote];
        }
            break;

        case 79: // O (octive)
            {
                bool look = YES;
                int newOctive = 0;
                while (self.dataPos < self.music.length && look) {
                    unsigned int peak = (unsigned int)data[self.dataPos];
                    if (peak >= 48 && peak <= 57)
                    {
                        peak -= 48;
                        newOctive = newOctive * 10 + peak;
                        self.dataPos++;
                    } else {
                        look = NO;
                    }
                }
                self.octive = newOctive;
                DLog(@"Octive: %d", self.self.octive);
                [self playNote];
            }
            break;

        case 84: // T (tempo)
            {
                bool look = YES;
                int newTempo = 0;
                while (self.dataPos < self.music.length && look) {
                    unsigned int peak = (unsigned int)data[self.dataPos];
                    if (peak >= 48 && peak <= 57)
                    {
                        peak -= 48;
                        newTempo = newTempo * 10 + peak;
                        self.dataPos++;
                    } else {
                        look = NO;
                    }
                }
                self.tempo = newTempo;
                DLog(@"Tempo: %d", self.self.tempo);
                [self playNote];
            }
            break;

        default:
            [self playNote];
            break;
    }
}


- (int)getNoteNumber:(NSString*)note
{
    note = [note uppercaseString];
    DLog(@"%@", note);

    if ([note isEqualToString:@"A"])
        return 0;
    else if ([note isEqualToString:@"A#"] || [note isEqualToString:@"B-"])
        return 1;
    else if ([note isEqualToString:@"B"] || [note isEqualToString:@"C-"])
        return 2;
    else if ([note isEqualToString:@"C"] || [note isEqualToString:@"B#"])
        return 3;
    else if ([note isEqualToString:@"C#"] || [note isEqualToString:@"D-"])
        return 4;
    else if ([note isEqualToString:@"D"])
        return 5;
    else if ([note isEqualToString:@"D#"] || [note isEqualToString:@"E-"])
        return 6;
    else if ([note isEqualToString:@"E"] || [note isEqualToString:@"F-"])
        return 7;
    else if ([note isEqualToString:@"F"] || [note isEqualToString:@"E#"])
        return 8;
    else if ([note isEqualToString:@"F#"] || [note isEqualToString:@"G-"])
        return 9;
    else if ([note isEqualToString:@"G"])
        return 10;
    else if ([note isEqualToString:@"G#"])
        return 11;
}

- (void)setFreq:(int)note
{
    float a = powf(2, self.octive);
    float b = powf(1.059463, note);
    float freq = roundf((275.0 * a * b) / 10);
    self.toneGen.frequency = freq;
}

- (void)toneStop
{
    [self playNote];
}

@end

To play little tune create a Music object and play...

[self.music play:@"T180 DF#A L2 A L4 O4 AA P4 F#F# P4 O3 D DF#A L2 A L4 O4 AA P4 GG P4 O3 C#C#EB L2 B L4 O4 BB P4 GG P4 O3 C#C#EB L2 B L4 O4 BB P4 F+F+ P4 O3 DDF#A L2 O4 D L4 O5 DD P4O4 AA P4 O3 DDF#A L2 O4 D L4 O5 DD P4O4 BB P4 EEG L8 B P8 ML B1 L4 MN G#A ML L3 O5 F#1L4 MN D O4 F# ML L2 F# MN L4 E ML L2 B MN L4 AD P8 D8 D4"];

Any idea on how to remove the chirp between notes?

share|improve this question

2 Answers 2

up vote 3 down vote accepted

I think that the bit where you stop audio output between notes is the culprit:

if (self.toneUnit)
{
    AudioOutputUnitStop(self.toneUnit);
    AudioUnitUninitialize(self.toneUnit);
    AudioComponentInstanceDispose(self.toneUnit);
    self.toneUnit = nil;
}

Just leave the tone unit active and you'll have less chirping. You'll need some other way to generate silence, probably by having RenderTone continue to run but generate amplitude zero.

I was able to eliminate the slight chirps that remained by having it, on a frequency change, fade the amplitude down to nothing, update the frequenmcy, and fade back in again. This is of course what the old PC speaker couldn't do (except for a few people who rapidly switched it on again), but with a very rapid fade you can probably get the old-school effect without the chirps.

Here's my fading RenderTone function (currently using evil global variables):

double currentFrequency=0;
double currentSampleRate=0;
double currentAmplitude=0;

OSStatus RenderTone(
                    void *inRefCon, 
                    AudioUnitRenderActionFlags  *ioActionFlags, 
                    const AudioTimeStamp        *inTimeStamp, 
                    UInt32                      inBusNumber, 
                    UInt32                      inNumberFrames, 
                    AudioBufferList             *ioData)

{
    // Fixed amplitude is good enough for our purposes
    const double amplitude = 0.5;

    // Get the tone parameters out of the view controller
    ToneGen *toneGen = (__bridge ToneGen *)inRefCon;
    double theta = toneGen.theta;

    BOOL fadingOut = NO;
    if ((currentFrequency != toneGen.frequency) || (currentSampleRate != toneGen.sampleRate))
    {
        if (currentAmplitude > DBL_EPSILON)
        {
            fadingOut = YES;
        }
        else
        {
            currentFrequency = toneGen.frequency;
            currentSampleRate = toneGen.sampleRate;
        }
    }

    double theta_increment = 2.0 * M_PI * currentFrequency /currentSampleRate;

    // This is a mono tone generator so we only need the first buffer
    const int channel = 0;
    Float32 *buffer = (Float32 *)ioData->mBuffers[channel].mData;

    // Generate the samples
    for (UInt32 frame = 0; frame < inNumberFrames; frame++) 
    {
        buffer[frame] = sin(theta) * currentAmplitude;
        //NSLog(@"amplitude = %f", currentAmplitude);

        theta += theta_increment;
        if (theta > 2.0 * M_PI)
        {
            theta -= 2.0 * M_PI;
        }
        if (fadingOut)
        {
            if (currentAmplitude > 0)
            {
                currentAmplitude -= 0.001;
                if (currentAmplitude < 0)
                    currentAmplitude = 0;
            }
        }
        else
        {
            if (currentAmplitude < amplitude)
            {
                currentAmplitude += 0.001;
                if (currentAmplitude > amplitude)
                    currentAmplitude = amplitude;
            }
        }

    }

    // Store the theta back in the view controller
    toneGen.theta = theta;

    return noErr;
}
share|improve this answer
    
This worked. I had to add a minor tweak to send the delegate its message after the fadeout completed but that was easy enough to do. I have zero chirping now. –  Justin808 Apr 7 '12 at 6:03
    
I hope you used more robust data structures than I do here. Also, the 0.001 amounts control the speed of the fade. Make them larger for a faster fade, smaller for a slower fade. Also, it would be good if they were the fade duration in seconds, divided by the number of frames per second. –  Dondragmer Apr 7 '12 at 6:20
1  
A little wisdom from radio hobbyists on the "key click" phenomenon: "[for a clean signal] the falling edge has to be bell (gauss curve) or raised sine shaped with a period of 3-5 mS." Decrementing the amplitude by 1/1000th of its max seems to be sufficient for linear leading- and trailing-edges (~3 ms for 44100 Hz). –  JohnK May 31 '13 at 0:17

That little chirp is generally an artifact of mathematics. The ear essentially analyzes input signals in the frequency domain. A steady sine wave at frequency 220 Hz, for example, will sound like an A. However, when your sine wave is *un*steady, there are other frequencies that show up due to the boundary. In particular, you get a bit of a pop due to the very high frequency component of starting or stopping a sound abruptly.

The way I solved this in my synthesizer (in Javascript, not Obj-C, but the concept here is the same) is to fade the sound in over 300 samples or so on note on, and fade the sound out over 300 samples or so on note off. There's no way to truly eliminate boundary effects other than not having a boundary at all, but even a small and imperceptible amount of fade will render the boundary effect imperceptible as well.

share|improve this answer
    
In other words, the boundary adds other frequencies. These are visible when you do the Fourier transform of the bounded sinusoid. –  JohnK Apr 24 '13 at 17:35

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