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I want to make a FIR filter. I have an array of coefficients (buffer[size]) and an array of data (filter[size_filter]). I have to do a convolution between the two arrays:

for(j = 0;j < size+size_filter;j++)
{
  output[j] = 0;
  for(i = 0;i < size_filter;i++)
  {         
    output[j] += buffer[i]*filter[j-i];
  }
}

output[size+size_filter] is the result. Where I'm wrong?

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What result are you expecting? What's the actual result? Are there compilation errors? Crashes? What's the declaration of output/filter/buffer? Please edit your question with this information. – Joachim Pileborg Jul 30 '12 at 9:59
    
possible duplicate of 1d linear convolution in ANSI C code? – Alexey Frunze Jul 30 '12 at 9:59
up vote 0 down vote accepted
output[j] += filter[i]*buffer[j-i];

and also make sure that j-i will not be negative

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filter[..] is the input signal according to the post. Or maybe i am confused because it says "an array of coefficinets buffer[size]? – brano Jul 30 '12 at 10:02
    
I'm sorry, filter=coefficients(frequency response), output=output, buffer=input. The actual result is the compilation failed (segmentation fault). – Luca90 Jul 30 '12 at 12:43
    
If j-i is negative what I should do? – Luca90 Jul 30 '12 at 12:44
    
Output[j] is not defined for 0<=j<i, so just make for(j = i;j < size+size_filter;j++) – Luka Rahne Jul 30 '12 at 13:00
    
Luka your code won't work either, because i is not defined when you first enter the outer loop – portforwardpodcast Sep 1 '15 at 4:47

From what I can see, none of the answers given will work. I am copying this from a website, but the code below works great for processing samples from a file:

#include <stdio.h>
#include <stdint.h>

//////////////////////////////////////////////////////////////
//  Filter Code Definitions
//////////////////////////////////////////////////////////////

// maximum number of inputs that can be handled
// in one function call
#define MAX_INPUT_LEN   80
// maximum length of filter than can be handled
#define MAX_FLT_LEN     63
// buffer to hold all of the input samples
#define BUFFER_LEN      (MAX_FLT_LEN - 1 + MAX_INPUT_LEN)

// array to hold input samples
double insamp[ BUFFER_LEN ];

// FIR init
void firFloatInit( void )
{
    memset( insamp, 0, sizeof( insamp ) );
}

// the FIR filter function
void firFloat( double *coeffs, double *input, double *output,
       int length, int filterLength )
{
    double acc;     // accumulator for MACs
    double *coeffp; // pointer to coefficients
    double *inputp; // pointer to input samples
    int n;
    int k;

    // put the new samples at the high end of the buffer
    memcpy( &insamp[filterLength - 1], input,
            length * sizeof(double) );

    // apply the filter to each input sample
    for ( n = 0; n < length; n++ ) {
        // calculate output n
        coeffp = coeffs;
        inputp = &insamp[filterLength - 1 + n];
        acc = 0;
        for ( k = 0; k < filterLength; k++ ) {
            acc += (*coeffp++) * (*inputp--);
        }
        output[n] = acc;
    }
    // shift input samples back in time for next time
    memmove( &insamp[0], &insamp[length],
            (filterLength - 1) * sizeof(double) );

}

//////////////////////////////////////////////////////////////
//  Test program
//////////////////////////////////////////////////////////////

// bandpass filter centred around 1000 Hz
// sampling rate = 8000 Hz

#define FILTER_LEN  63
double coeffs[ FILTER_LEN ] =
{
  -0.0448093,  0.0322875,   0.0181163,   0.0087615,   0.0056797,
   0.0086685,  0.0148049,   0.0187190,   0.0151019,   0.0027594,
  -0.0132676, -0.0232561,  -0.0187804,   0.0006382,   0.0250536,
   0.0387214,  0.0299817,   0.0002609,  -0.0345546,  -0.0525282,
  -0.0395620,  0.0000246,   0.0440998,   0.0651867,   0.0479110,
   0.0000135, -0.0508558,  -0.0736313,  -0.0529380,  -0.0000709,
   0.0540186,  0.0766746,   0.0540186,  -0.0000709,  -0.0529380,
  -0.0736313, -0.0508558,   0.0000135,   0.0479110,   0.0651867,
   0.0440998,  0.0000246,  -0.0395620,  -0.0525282,  -0.0345546,
   0.0002609,  0.0299817,   0.0387214,   0.0250536,   0.0006382,
  -0.0187804, -0.0232561,  -0.0132676,   0.0027594,   0.0151019,
   0.0187190,  0.0148049,   0.0086685,   0.0056797,   0.0087615,
   0.0181163,  0.0322875,  -0.0448093
};

void intToFloat( int16_t *input, double *output, int length )
{
    int i;

    for ( i = 0; i < length; i++ ) {
        output[i] = (double)input[i];
    }
}

void floatToInt( double *input, int16_t *output, int length )
{
    int i;

    for ( i = 0; i < length; i++ ) {
        if ( input[i] > 32767.0 ) {
            input[i] = 32767.0;
        } else if ( input[i] < -32768.0 ) {
            input[i] = -32768.0;
        }
        // convert
        output[i] = (int16_t)input[i];
    }
}

// number of samples to read per loop
#define SAMPLES   80

int main( void )
{
    int size;
    int16_t input[SAMPLES];
    int16_t output[SAMPLES];
    double floatInput[SAMPLES];
    double floatOutput[SAMPLES];
    FILE   *in_fid;
    FILE   *out_fid;

    // open the input waveform file
    in_fid = fopen( "input.pcm", "rb" );
    if ( in_fid == 0 ) {
        printf("couldn't open input.pcm");
        return;
    }

    // open the output waveform file
    out_fid = fopen( "outputFloat.pcm", "wb" );
    if ( out_fid == 0 ) {
        printf("couldn't open outputFloat.pcm");
        return;
    }

    // initialize the filter
    firFloatInit();

    // process all of the samples
    do {
        // read samples from file
        size = fread( input, sizeof(int16_t), SAMPLES, in_fid );
        // convert to doubles
        intToFloat( input, floatInput, size );
        // perform the filtering
        firFloat( coeffs, floatInput, floatOutput, size,
               FILTER_LEN );
        // convert to ints
        floatToInt( floatOutput, output, size );
        // write samples to file
        fwrite( output, sizeof(int16_t), size, out_fid );
    } while ( size != 0 );

    fclose( in_fid );
    fclose( out_fid );

    return 0;
}

Taken from:

https://sestevenson.wordpress.com/implementation-of-fir-filtering-in-c-part-1/

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