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I'm trying to generate a sine wave using Core Audio with the code below. The AIFF-file generates just fine, however, the signal is not a pure sine-wave. When played back, and frequency analyzed, there are a number of overtones in the sound. I suspect these might be introduced due to truncation errors in the conversions between SInt16s and the floats from the sin()-function. I tried replacing SHRT_MAX with 32767.0f, and various type-castings, but I can't seem to solve the problem and get a pure sine-wave with no overtones.

Any Ideas? Please help!

The main DSP-loop looks as follows;

while (sampleCount < maxSampleCount) {
    for (int i=0; i<wavelengthInSamples; i++) {

        // sine wave
        SInt16 sample = CFSwapInt16HostToBig ((SInt16) SHRT_MAX *
                                              sin (2 * M_PI * 
                                                   (i / wavelengthInSamples)));


        audioErr = AudioFileWriteBytes(audioFile,
                                       false,
                                       sampleCount*2, 
                                       &bytesToWrite,
                                       &sample);
        assert (audioErr == noErr);
        sampleCount++;


    }
}

(The code is borrowed from "Learning Core Audio" by Adamson and Avila.)

share|improve this question
    
What is the type of wavelengthInSamples ? –  Paul R Mar 12 '13 at 21:10
    
It's a float. And actually I think that solves it for me, as there will be a truncation around each repeating wave if wavelengthInSamples is not an Int, right? –  Mikkel Bech-Hansen Mar 13 '13 at 8:50
1  
exactly - you will get a discontinuity on each cycle - you need to use a phase accumulator, see e.g. dsp.stackexchange.com/questions/971/… –  Paul R Mar 13 '13 at 9:07

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