How to render audio waveform?

Question

1. Is there any audio/programming-related stack-exchange site?
2. I\'m trying to make a wave form in WinForms
3. What algorithm should I use?

F

Answer 1

You can use AudioControl from code project.

and see this one: Generating various audio waveforms in C#

these projects may be useful for you if implement your code originally:

• High-Speed-Feature-Rich-and-Easy-To-Use-Graphs
• and this

Answer 2

This will help you to generate waveform from audio file using nAudio in C#...

using NAudio.Wave;
using System;
using System.Collections.Generic;
using System.Drawing;
using System.IO;
using System.Linq;
using System.Web;
using System.Web.UI;
using System.Web.UI.WebControls;

public partial class test : System.Web.UI.Page
{
    protected void Page_Load(object sender, EventArgs e)
    {
    string strPath = Server.MapPath("audio/060.mp3");
    string SongID = "2";
    byte[] bytes = File.ReadAllBytes(strPath);
    WriteToFile(SongID,strPath, bytes);
    Response.Redirect("Main.aspx");
    }

private void WriteToFile(string SongID, string strPath, byte[] Buffer)
{
    try
    {
        int samplesPerPixel = 128;
        long startPosition = 0;
        //FileStream newFile = new FileStream(GeneralUtils.Get_SongFilePath() + "/" + strPath, FileMode.Create);
        float[] data = FloatArrayFromByteArray(Buffer);

        Bitmap bmp = new Bitmap(1170, 200);

        int BORDER_WIDTH = 5;
        int width = bmp.Width - (2 * BORDER_WIDTH);
        int height = bmp.Height - (2 * BORDER_WIDTH);

        NAudio.Wave.Mp3FileReader reader = new NAudio.Wave.Mp3FileReader(strPath, wf => new NAudio.FileFormats.Mp3.DmoMp3FrameDecompressor(wf));
        NAudio.Wave.WaveChannel32 channelStream = new NAudio.Wave.WaveChannel32(reader);

        int bytesPerSample = (reader.WaveFormat.BitsPerSample / 8) * channelStream.WaveFormat.Channels;

        using (Graphics g = Graphics.FromImage(bmp))
        {

            g.Clear(Color.White);
            Pen pen1 = new Pen(Color.Gray);
            int size = data.Length;

            string hexValue1 = "#009adf";
            Color colour1 = System.Drawing.ColorTranslator.FromHtml(hexValue1);
            pen1.Color = colour1;

            Stream wavestream = new NAudio.Wave.Mp3FileReader(strPath, wf => new NAudio.FileFormats.Mp3.DmoMp3FrameDecompressor(wf));

            wavestream.Position = 0;
            int bytesRead1;
            byte[] waveData1 = new byte[samplesPerPixel * bytesPerSample];
            wavestream.Position = startPosition + (width * bytesPerSample * samplesPerPixel);

            for (float x = 0; x < width; x++)
            {
                short low = 0;
                short high = 0;
                bytesRead1 = wavestream.Read(waveData1, 0, samplesPerPixel * bytesPerSample);
                if (bytesRead1 == 0)
                    break;
                for (int n = 0; n < bytesRead1; n += 2)
                {
                    short sample = BitConverter.ToInt16(waveData1, n);
                    if (sample < low) low = sample;
                    if (sample > high) high = sample;
                }
                float lowPercent = ((((float)low) - short.MinValue) / ushort.MaxValue);
                float highPercent = ((((float)high) - short.MinValue) / ushort.MaxValue);
                float lowValue = height * lowPercent;
                float highValue = height * highPercent;
                g.DrawLine(pen1, x, lowValue, x, highValue);

            }
        }

        string filename = Server.MapPath("image/060.png");
        bmp.Save(filename);
        bmp.Dispose();

    }
catch (Exception e)
    {

    }
}
public float[] FloatArrayFromStream(System.IO.MemoryStream stream)
{
    return FloatArrayFromByteArray(stream.GetBuffer());
}

public float[] FloatArrayFromByteArray(byte[] input)
{
    float[] output = new float[input.Length / 4];
    for (int i = 0; i < output.Length; i++)
    {
        output[i] = BitConverter.ToSingle(input, i * 4);
    }
    return output;
}

}

Answer 3

1. Try dsp.stackexchange.com

2. At 200 samples per pixel, there are several approaches you can try. Whatever you do, it often works best to draw each vertical line both above and below 0, ie. treat positive and negative sample values seperately. Probably the easiest is to just calculate an RMS. At such a low resolution peak values will probably give you a misleading representation of the waveform.

Answer 4

just to document it, if you want to make the audio file fill the width of the output image

samplesPerPixel = (reader.Length / bytesPerSample) / width ;

Answer 5

Incase anyone runs into this:

You can treat the samples per pixel as your zoom level, at higher levels (zoomed out more) you will probably want to subsample that for performance reasons.

You will most likely want a fixed width that fits on the screen to draw on and use virtual scrolling (so you don't potentially have a draw area of several million pixels).

You can calculate the value for each pixel by iterating over the audio data with: skip (scroll position * samples per pixel) + (pixel * samples per pixel) take samples per pixel. This allows for performant infinite zoom and scroll as you only read and draw the minimum amount to fill the view. The scroll width is calculated with audio data length / samples per pixel.

Audio samples are generally shown in one of two ways, the peak value of the sample range or the rms value. The rms value is calculated by summing the squares of all values in the sample range, divide the sum by sample length, the rms value if the squareroot of this (rms will be a bit higher than average and is a good measure of perceived loudness)

You can increase performance in multiple ways such as increasing sub sampling (causes loss of detail), throttling the scroll and making the draw requests cancelable incase new scroll fires before previous is rendered.