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 want to read an audio (.wav) file using C++.

So far i have read the header of the wav file. How do i loop into the data part of the wav file convert it between -1 and 1 and then write it out to a txt file.

i have done the following but when i plot the resulting txt file using MATLAB, the signal seems to be distorted.

#include <iostream>
#include <stdio.h>
#include <stdlib.h>
#include <fstream>
using namespace std;
//double byteToDouble( char firstByte, char secondByte );

// WAVE PCM soundfile format (you can find more in https://ccrma.stanford.edu/courses/422/projects/WaveFormat/ )
typedef struct header_file
    char chunk_id[4];
    int chunk_size;
    char format[4];
    char subchunk1_id[4];
    int subchunk1_size;
    short int audio_format;
    short int num_channels;
    int sample_rate;            // sample_rate denotes the sampling rate.
    int byte_rate;
    short int block_align;
    short int bits_per_sample;
    char subchunk2_id[4];
    int subchunk2_size; // subchunk2_size denotes the number of samples.
    //char data; // actual data : Added by tarmizi
} header;

typedef struct header_file* header_p;

int main()

    ofstream myFile;

    FILE * infile = fopen("0BF1S1T0.wav","rb");     // Open wave file in read mode
    FILE * outfile = fopen("Output.txt","wb");      // Create output ( wave format) file in write mode;
    FILE * svFile;

    int BUFSIZE = 256;                  // BUFSIZE can be changed according to the frame size required (eg:512)
    int count = 0;                      // For counting number of frames in wave file.
    short int buff16[BUFSIZE];              // short int used for 16 bit as input data format is 16 bit PCM audio
    header_p meta = (header_p)malloc(sizeof(header));   // header_p points to a header struct that contains the wave file metadata fields
    int nb;                         // variable storing number of bytes returned

    if (infile)
        fread(meta, 1, sizeof(header), infile);
        //fwrite(meta,1, sizeof(*meta), outfile);

        cout << "first chunk is :" << sizeof(meta->chunk_id) << " bytes in size" << endl;
        cout << "The file is a :" << meta->chunk_id << " format" << endl;
        cout << " Size of Header file is "<<sizeof(*meta)<<" bytes" << endl;
        cout << " Sampling rate of the input wave file is "<< meta->sample_rate <<" Hz" << endl;
        cout << " Number of bits per sample is: "<< meta->bits_per_sample <<"bits" << endl;
        cout << " Size of data in the audio is: " << sizeof(meta->subchunk2_size)<< " bytes" << endl;
        cout << " The number of channels of the file is "<< meta->num_channels << " channels" << endl;
        cout << " The audio format is PCM:"<< meta->audio_format << endl;
        //cout << " The size of actual data is "<< sizeof(meta->data) << "bytes" << endl;

        while (!feof(infile))          //(nb = fread(buff16,1,BUFSIZE,infile))>0
                    // Reading data in chunks of BUFSIZE
            //cout << nb <<endl;
            nb = fread(buff16,1,BUFSIZE,infile);
                            // Incrementing > of frame
            for (int i = 0; i<BUFSIZE; i+=meta->num_channels) //  BUFSIZE = 256, meta->num_channels = 1

                        int c = (buff16[i]<<8) | buff16[1+i];
                        double t = c/32768.0;

                        myFile << t<< endl;



    cout << " Number of frames in the input wave file are " <<count << endl;

return 0;

Any idea ? i think im not looping trough the data and converting properly. Can anyone help show the right way in my case here ? Thanks in advance...

share|improve this question
I assume you're aware of (libsndfile([mega-nerd.com/libsndfile/]? There seems to be a bit of wheel reinvention here. –  marko Nov 17 '13 at 11:53
yes i am aware of it. however, I am trying to avoid depending on other libraries. ;) –  tarmizi Nov 17 '13 at 15:17

3 Answers 3

This code looks wrong:

int c = (buff16[i]<<8) | buff16[1+i];
double t = c/32768.0;

You should instead declare the buffer as an array of unsigned char[32].

Then compute t like this for each channel:

int hi = (signed char) buffer[i + 1]; // always little endian
int c = (hi << 8) | buffer[i + 0];
double t = c / 32768.0;
i += 2;
share|improve this answer

The problem seems to be in the line:

nb = fread(buff16,1,BUFSIZE,infile);

it actually reads 1 * BUFSIZE bytes, while it should read 2 * BUFSIZE bytes (2 bytes for each element). Change the line to following:

nb = fread(buff16,sizeof(short int),BUFSIZE,infile);

Also, in the line

int c = (buff16[i]<<8) | buff16[1+i];

buff16[i] should be shifted by 16 bits.

I don't know much about audio formats. So there may be other errors.

share|improve this answer
Thanks, i think i've almost got it... however there are values that are way beyond -1 and 1.... So when i plot it, these extreme values seems to distort the signal.. any clues ? –  tarmizi Nov 17 '13 at 9:54

The way you are combining the two bytes into an int is always going to produce a positive result. In order to handle the sign properly you should combine the bytes into a short instead of an int.

share|improve this answer

Your Answer


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.