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I have several Gb of sample data captured 'in-the-field' at 48ksps using an NI Data Acquisition module. I would like to create a WAV file from this data.

I have done this previously using MATLAB to load the data, normalise it to the 16bit PCM range, and then write it out as a WAV file. However MATLAB baulks at the file size as it does everything 'in-memory'.

I would ideally do this in C++ or C, (C# is an option), or if there is an existing utility I'd use that. Is there a simple way (i.e. an existing library) to take a raw PCM buffer, specify the sample rate, bit depth, and package it into a WAV file?

To handle the large data set, it would need to be able to append data in chunks as it would not necessarily be possible to read the whole set into memory.

I understand that I could do this from scratch using the format specification, but I do not want to re-invent the wheel, or spend time fixing bugs on this if I can help it.

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How many bits-per-sample in your raw data, and do you need this resampled to 44.1ksps? The WAV format does support 48ksps. –  MusiGenesis Sep 22 '09 at 13:23
    
WAV file format: ccrma.stanford.edu/courses/422/projects/WaveFormat –  Dan Sep 23 '09 at 0:07
    
Thanks all. The 48Ksps should be preserved. The NI captured data is floating point voltage, but was originally sampled at 14bits. I am using 16bit to preserve the signal integrity. This was not directly a programming issue, although I used programming to solve the problem. The data is a test set for an embedded signal processing application (the real programming issue). I just needed a portable way of recreating the original signal. In the end, I simply rescaled the samples to +/- 1.0 rather than voltage measurements and used sox to create the wav file directly from the floating point data. –  Clifford Sep 23 '09 at 9:24
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5 Answers

up vote 2 down vote accepted

I think you can use libsox for this.

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Looks like what I need. I am hoping that I can build it without having to pollute my PC with Cygwin. I'd rather use a Linux VM than that! –  Clifford Sep 22 '09 at 14:39
    
the pre-compiled binaries relay on cygwin; do you actually need a C library or is it enough to call sox from the command lineß –  Christoph Sep 22 '09 at 15:17
    
At the moment, invoking sox directly if my favoured option. –  Clifford Sep 22 '09 at 15:49
    
Thanks, I used sox.exe to achieve what I needed in the end. –  Clifford Sep 22 '09 at 18:40
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Interesting, I have found a bug on stackoverflow parse of code, it dont support the \ character at the end of the line like you see below, sad

//stolen from OGG Vorbis pcm to wav conversion rountines, sorry
#define VERSIONSTRING "OggDec 1.0\n"

static int quiet = 0;
static int bits = 16;
static int endian = 0;
static int raw = 0;
static int sign = 1;
unsigned char headbuf[44];  /* The whole buffer */







#define WRITE_U32(buf, x) *(buf)     = (unsigned char)((x)&0xff);\
                          *((buf)+1) = (unsigned char)(((x)>>8)&0xff);\
                          *((buf)+2) = (unsigned char)(((x)>>16)&0xff);\
                          *((buf)+3) = (unsigned char)(((x)>>24)&0xff);

#define WRITE_U16(buf, x) *(buf)     = (unsigned char)((x)&0xff);\
                          *((buf)+1) = (unsigned char)(((x)>>8)&0xff);

/*
 * Some of this based on ao/src/ao_wav.c
 */
static int
write_prelim_header (FILE * out, int channels, int samplerate)
{

  int knownlength = 0;

  unsigned int size = 0x7fffffff;
  // int channels = 2;
  // int samplerate = 44100;//change this to 48000
  int bytespersec = channels * samplerate * bits / 8;
  int align = channels * bits / 8;
  int samplesize = bits;

  if (knownlength)
    size = (unsigned int) knownlength;

  memcpy (headbuf, "RIFF", 4);
  WRITE_U32 (headbuf + 4, size - 8);
  memcpy (headbuf + 8, "WAVE", 4);
  memcpy (headbuf + 12, "fmt ", 4);
  WRITE_U32 (headbuf + 16, 16);
  WRITE_U16 (headbuf + 20, 1);  /* format */
  WRITE_U16 (headbuf + 22, channels);
  WRITE_U32 (headbuf + 24, samplerate);
  WRITE_U32 (headbuf + 28, bytespersec);
  WRITE_U16 (headbuf + 32, align);
  WRITE_U16 (headbuf + 34, samplesize);
  memcpy (headbuf + 36, "data", 4);
  WRITE_U32 (headbuf + 40, size - 44);

  if (fwrite (headbuf, 1, 44, out) != 44)
    {
      printf ("ERROR: Failed to write wav header: %s\n", strerror (errno));
      return 1;
    }

  return 0;
}

static int
rewrite_header (FILE * out, unsigned int written)
{
  unsigned int length = written;

  length += 44;

  WRITE_U32 (headbuf + 4, length - 8);
  WRITE_U32 (headbuf + 40, length - 44);
  if (fseek (out, 0, SEEK_SET) != 0)
    {
      printf ("ERROR: Failed to seek on seekable file: %s\n",
          strerror (errno));
      return 1;
    }

  if (fwrite (headbuf, 1, 44, out) != 44)
    {
      printf ("ERROR: Failed to write wav header: %s\n", strerror (errno));
      return 1;
    }
  return 0;
}
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finally I can add comments, thanks, and fix the code bug, I have lots of C code to post here –  Mandrake Oct 21 '09 at 13:58
    
bug fixed, and notice that a wav file has valid data after position 44 while in some cases the Microsoft tools that handle wav files may start at position 60, then look for the "data" position on the wav file to initiate in the correct position –  Mandrake Oct 25 '09 at 16:47
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I came across a function called WAVAPPEND on Mathworks' File Exchange site a while ago. I never got around to using it, so I'm not sure if it works or is appropriate for what you're trying to do, but perhaps it'll be useful to you.

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Thanks, that is going to be useful in future I think. –  Clifford Sep 22 '09 at 18:41
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C# would be a good choice for this. FileStreams are easy to work with, and could be used for reading and writing the data in chunks. Also, reading WAV file headers is a relatively complicated task (you have to search for RIFF chunks and so on), but writing them is cake (you just fill out a header structure and write it at the beginning of the file).

There are a number of libraries that do conversions like this, but I'm not sure they can handle the huge data sizes you're talking about. Even if they do, you would probably still have to do some programming work to feed smaller chunks of raw data to these libraries.

For writing your own method, normalization isn't difficult, and even resampling from 48ksps to 44.1ksps is relatively simple (assuming you don't mind linear interpolation). You would also presumably have greater control over the output, so it would be easier to create a set of smaller WAV files, instead of one gigantic one.

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The current Windows SDK audio capture samples capture data from the microphone and save the captured data to a .WAV file. The code is far from optimal but it should work.

Note that RIFF files (.WAV files are RIFF files) are limited to 4G in size.

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These are baseband signals from an RF receiver sampled with an analogue data acquisition module. DC offset needs to be preserved, which cannot be done with a microphone input or other AC coupled audio input. The data already exists as floating point voltage measurements. The question was about packaging the existing data into a form that could be replayed into an RF modulator for repeatable testing of a baseband decoder. The final files are far smaller than the original because the original data is double precision floats, whereas the converted data is 16bit PCM. –  Clifford Sep 25 '09 at 8:18
    
I was just pointing out that the samples contained code that built a WAV file from raw PCM data, not suggesting that you capture from the device. –  Larry Osterman Sep 26 '09 at 2:01
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