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I use the following code in a Thread to capture raw audio samples from the microphone and play it back through the speaker.

public void run(){
            short[] lin = new short[SIZE_OF_RECORD_ARRAY];
            int num = 0;
            // am = (AudioManager) this.getSystemService(Context.AUDIO_SERVICE); // -> MOVED THESE TO init()
            // am.setMode(AudioManager.MODE_IN_COMMUNICATION);
            record.startRecording();
            track.play();
            while (passThroughMode) {
            // while (!isInterrupted()) {
                num = record.read(lin, 0, SIZE_OF_RECORD_ARRAY);
                for(i=0;i<lin.length;i++)
                    lin[i] *= WAV_SAMPLE_MULTIPLICATION_FACTOR; 
                track.write(lin, 0, num);
            }
            // /*
            record.stop();
            track.stop();
            record.release();
            track.release();
            // */
        }  

where record is an AudioRecord and track is an Audiotrack. I need to know in detail (and in a simplified way if possible) how the AudioRecord stores PCM data and AudioTrack plays PCM data. This is how I have understood it so far:

enter image description here

As the while() loop is continuously running, record obtains SIZE_OF_RECORD_ARRAY number of samples (which is 1024 for now) as shown in the figure. The samples get saved contiguously in the lin[] array of shorts (16 bit shorts, as I am using 16 bit PCM encoding). This is done by record.read(). Then track.write() places these samples in the speaker which is played by the hardware. Is this correct or am I missing something here?

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1 Answer 1

As for how the samples are laid out in memory; they're just arrays of linear approximations to a sound wave, taken at discrete times (like your figure shows). In the case of stereo, the samples will be interleaved (LRLRLRLR...).

When it comes to the path the audio takes, you're essentially right, although there are a few more steps involved:

When recording from the internal microphone(s) you'd have more or less the same steps, except that they'd be done in the opposite order.

Note that some of these steps (essentially everything from the audio HAL and below) are platform-specific, and therefore might differ between platforms from different vendors (and even different platforms from the same vendor).

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I am sorry but what did you mean by typically going through some kind of DSP that applies various acoustic compensation filters,? Does this mean the digital representation of the microphone input isn't exactly what is on the microphone? Is it already processed in some way through hardware? –  user13267 Aug 21 '13 at 8:42
    
Again, changing the SIZE_OF_RECORD_ARRAY doesn't seem to produce any variation in the output. I thought making this value very small would produce some kind of jitters or frame skip effects on the output, but it doesn't seem to do anything at all –  user13267 Aug 21 '13 at 8:43
    
"Is it already processed in some way?". Correct. Typical filters that would be applied when recording audio are Automatic Gain Control or Dynamic Range Compression, and Noise Suppression. –  Michael Aug 21 '13 at 8:45
    
You can query the AudioRecord for the minimum buffer size using the getMinBufferSize method. –  Michael Aug 21 '13 at 8:46
    
Please, let me try to explain it in a way I understand, and please correct me if I am wrong. So what this means is that, if I record a pure tone for example, using my android device, and at the same time record it on a computer at the same sampling frequency and 16 bit PCM encoding and save the result as a wav file, then compare the hex values in the files representing the sound data from both the wav files, they will be different because the android system already applied some filters to the recording? –  user13267 Aug 21 '13 at 8:53

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