I'm trying to play back a sound at a given pitch using (C#) XNA audio framework's SoundEffect class. So far, I have this (very basic)

public void playSynth(SoundEffect se, int midiNote) {
    float pitch = (float)functions.getMIDIFreq(midiNote) / ((float)functions.getMIDIFreq(127)/2);
    Debug.WriteLine("Note: {0}. Float: {1}",midiNote,pitch);
    synth = se.CreateInstance();
    synth.IsLooped = false;
    synth.Pitch = pitch;

Currently, the pitch played back is very off-key, because the math is wrong. The way this function works is I'm sending a MIDI note (0 through 127) to the function, using a function I made called getMIDIFreq to convert that note to a frequency - which works fine.

To call this function, I'm using this:

SoundEffect sound = SoundEffect.FromStream(TitleContainer.OpenStream(@"synth.wav"));
playSynth(sound,(int)midiNote);  //where midiNote is 0...127 number

where synth.wav is a simple C note I created in a DAW and exported. The whole point of this program is to play back the MIDI note given in that synth sound, but I'd gladly settle for a sine wave, or anything really. I can't use Console.Beep because it's extremely slow and not for playing entire songs with notes in rapid succession.

So my question is, how could I fix this code so it plays the sample at the right pitch? I realize I only have 2 octaves to work with here, so if there's a solution that involves generating a tone at a given frequency and is very fast, that would be even better.


EDIT: I'm making this a WinForms application, not an XNA game, but I have the framework downloaded and referenced in my project.

  • I think you'd be better off using the notes themselves, and calculating the ratio from that, using the numbers on this page – ppeterka Jan 16 '13 at 13:55
  • I already have the Hz frequency of the MIDI note, but I don't have to use it if another solution is better. The values on that page are far above the -1...1 float area I can use, and simply dividing the numbers don't work. – Scott Jan 16 '13 at 14:02

You can't apply an arbitrary frequency. You can only lower pitch by an octave (half frequency) or raise it by an octave (double frequency). So, to calculate the pitch bend value, you first need to know the initial pitch of the sample.

Suppose your sample is 440 Hz A, and you want an A an octave down (220 Hz). The value you need is -1. yourPitch / initiPitch = 0.5 to 2.0. You will need to make that into the scale of -1 to +1. I can't tell you exactly how, because the documentation isn't clear if the scale is logarithmic or not. You would have to experiment, but this should get you started.

  • 1
    I was just about writing exactly the same... – ppeterka Jan 16 '13 at 14:22

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