Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

I now currently try to read .wav file using delphi here is my code :

type
  TWaveHeader = packed record
    Marker_RIFF: array [0..3] of char;
    ChunkSize: cardinal;

    Marker_WAVE: array [0..3] of char;
    Marker_fmt: array [0..3] of char;
    SubChunkSize: cardinal;

    FormatTag: word;

    NumChannels: word;
    SampleRate: longint;
    BytesPerSecond: longint;
    BytesPerSample: word;
    BitsPerSample: word;


    Marker_data: array [0..3] of char;
    DataBytes: longint;
  end;

  TChannel = record
  Data : array of double;
end;

some private delcaration

private
    wavehdr:TWaveHeader;
    wavedata:array[0..3]of TChannel;
    numsamples:integer;

the function

  FillChar(wavehdr, sizeof(wavehdr), 0);
  Stream.Read(wavehdr, sizeof(wavehdr));

  { Log Header data }
  with memo1.Lines do begin
    Add('Filename : '+od.FileName);
    Add('Header size : '+inttostr(sizeof(wavehdr)));
    tmpstr := wavehdr.Marker_RIFF;
    Add('RIFF ID : '+tmpstr+'');
    Add('Chunk size : '+inttostr(wavehdr.ChunkSize));
    tmpstr := wavehdr.Marker_WAVE;
    Add('WAVE ID : '+tmpstr+'');
    tmpstr := wavehdr.Marker_fmt;
    Add('''fmt '' ID : '+tmpstr+''' ');
    Add('SubChunk size : '+inttostr(wavehdr.SubChunkSize));
    Add('Format : '+inttostr(wavehdr.FormatTag));
    Add('Num Channels : '+inttostr(wavehdr.NumChannels));
    Add('Sample rate : '+inttostr(wavehdr.SampleRate));
    Add('Bytes per second : '+inttostr(wavehdr.BytesPerSecond));
    Add('Bits per sample : '+inttostr(wavehdr.BitsPerSample));
    Add('Block Align : '+inttostr((wavehdr.NumChannels*wavehdr.BitsPerSample)div 8));
  end;

  numsamples := (file.size div (wavehdr.NumChannels*wavehdr.BitsPerSample)div 8) div wavehdr.BytesPerSample;
  case wavehdr.NumChannels of
      1:begin
        SetLength(wavedata[0].Data, numsamples);
        Stream.Read(wavedata[0].Data[0], numsamples);
      end;

      2:begin
        SetLength(wavedata[0].Data, numsamples);
        SetLength(wavedata[1].Data, numsamples);
        for i := 0 to high(wavedata[0].Data) do begin
          Stream.Read(wavedata[0].Data[i], 2);
          Stream.Read(wavedata[1].Data[i], 2);
        end;
      end;
  end;

Above code give me the exact same information and detail about the .wav header (same as MATLAB DOES) which is :

  • Filename : E:\dephi\classic3.wav
  • RIFF ID : RIFF
  • Chunk size : 18312354
  • WAVE ID : WAVE
  • 'fmt ' ID : fmt '
  • SubChunk size : 16
  • Format : 1 (PCM)
  • Num Channels : 2 (Stereo)
  • Sample rate : 44100
  • Bytes per second : 176400
  • Bits per sample : 16
  • Block Align : 4

Except the Total Sample Data Which i calculated by (size of wavedata/ blockalign of wavedata)-44, 44 is header of wav. It's not accurate, sometimes is miss by 5,1,10 . I have only tested using 5 sample.And here an example :

  • classic1.wav matlab:3420288, delphi(my calculation):(13681352/4)-44= 3420294
  • classic2.wav matlab:2912256, delphi(my calculation):(11649204/4)-44= 2912257

And also the sample data value from matlab and delphi is different like

classic1.wav MATLAB:(first 10 value leftchannel and rightchannel)

  1. -3.05175781250000e-05 [] 6.10351562500000e-05
  2. -6.10351562500000e-05 [] 6.10351562500000e-05
  3. -6.10351562500000e-05 [] 3.05175781250000e-05
  4. 0 [] -3.05175781250000e-05
  5. 6.10351562500000e-05 [] -6.10351562500000e-05
  6. 6.10351562500000e-05 [] -6.10351562500000e-05
  7. 3.05175781250000e-05 [] -3.05175781250000e-05
  8. 6.10351562500000e-05 [] -6.10351562500000e-05
  9. 3.05175781250000e-05 [] 0
  10. -3.05175781250000e-05 [] 6.10351562500000e-05

DELPHI:(first 10 value leftchannel and rightchannel)

  1. 9.90156960830442E-320 [] 1.00265682167023E-319
  2. 9.90156960830442E-320 [] 9.77113627780233E-320
  3. 3.26083326255223E-322 [] 0
  4. 1.39677298735779E-319 [] 1.37088394751571E-319
  5. 1.45932169812129E-319 [] 1.33373021094845E-319
  6. 1.23175506164681E-319 [] 1.206903559661E-319
  7. 1.28239679034554E-319 [] 1.40932225476216E-319
  8. 1.37068632125737E-319 [] 1.33382902407761E-319
  9. 1.33373021094845E-319 [] 1.25685359645555E-319
  10. 1.40907522193924E-319 [] 1.33358199125469E-319

My question are :

  1. When Finding the total sample of the wav file, how to do it correctly?
  2. Are the way matlab and delphi reading wav file (data chunk) in a different way? or maybe my code was the one here is wrong?
  3. Is there a way to get the same value like MATLAB does?

EDIT : i followed mBo advise and changed it into mbo advise

Data : array of SmallInt;
numsamples := wavehdr.DataBytes div (wavehdr.NumChannels * wavehdr.BitsPerSample div 8);
Stream.Read(wavedata[0].Data[i], SizeOf(SmallInt));

the interpreting part i'm not sure but i changed it into

floattostr(wavedata[0].Data[i]/32768.0)
floattostr(wavedata[1].Data[i]/32768.0)

the result i get :

  1. 0.611602783203125 [] 0.61932373046875
  2. 0.611602783203125 [] 0.603546142578125
  3. 0.0023193359375 [] 0
  4. 0.862762451171875 [] 0.846771240234375
  5. 0.901397705078125 [] 0.823822021484375
  6. 0.760833740234375 [] 0.7454833984375
  7. 0.7921142578125 [] 0.870513916015625
  8. 0.799774169921875 [] 0.761016845703125
  9. 0.8238525390625 [] 0.782623291015625
  10. 0.354766845703125 [] 0.76123046875
share|improve this question

1 Answer 1

up vote 5 down vote accepted

Wav-file (Bits per sample : 16) contains signed 16 bit integer data (SmallInt type), but you read data in float 8-byte type Double array.

You can declare

Data : array of SmallInt;

calculate

numsamples := wavehdr.DataBytes div (wavehdr.NumChannels * wavehdr.BitsPerSample div 8);

read them as

Stream.Read(wavedata[0].Data[0], numsamples * SizeOf(SmallInt))
or multichannel case:
Stream.Read(wavedata[0].Data[i], SizeOf(SmallInt));

and then interpret data values as floats Data[i] / 32768.0

note that matlab value 3.05175781250000e-05 = 1/32768.0 is minimal quantum of 16-bit signal

share|improve this answer
    
i have followed your advise until the interpreting data value, i use like floattostr(wavedata[0].Data[i]/32768.0) but still got different result than matlab –  Wawan Ma-chun Apr 26 '13 at 7:24
    
wew my bad it's work now, after few adjustment. Thank you very much –  Wawan Ma-chun Apr 26 '13 at 11:11

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.