//This function should be called every tick/frame. This used the previous functions to
//Update time, get the current spectrum and the adaptive threshold and then does a check
//to see if a beat has occured. It also allows for some post-detection ignore clause.
//This function also does functions such as update the smoothing median list, create a
//timestamp object, update the lastBeatRegistered and checks to see if the song
//is still playing
bool BeatDetectorLite::update(float* left, float* right, int length) {
    float* stereo = (float*) malloc(length * sizeof(float));
    for(int i = 0; i < length; i++) {
        stereo[i] = left[i] + right[i];
    }

    if(previousFFT == NULL) {
        previousFFT = stereo;
        return false;
    }

    beatThreshold = calculateFluxAndSmoothing(stereo);

    //Beat detected
    if (specFlux > beatThreshold && (clock() - timeBetween) > 350)
    {
        smootherValues.push_back(specFlux);

        if (smootherValues.size() >= 5)
        {
            smootherValues.erase(smootherValues.begin());
        }

        timeBetween = clock();

        TimeStamp* t = new TimeStamp(currentMinutes, currentSeconds, currentMillis, specFlux);
        std::cout << "BEAT AT: " << t->getMinutes() << ":" << t->getSeconds() << ":" << t->getMilliseconds() << " -- BEAT FREQ: " << t->getFrequency() << " -- THRESHOLD: " << beatThreshold << std::endl;
        lastBeatRegistered = t;
        return true;
    }
    else if ((clock() - timeBetween) > 5000)
    {
        if (thresholdSmoother>0.4f)
            thresholdSmoother -= 0.4f;

        timeBetween = clock();
        return false;
    }

    return false;
}
Exemple #2
0
void testTimeStamp(FILE *fd,FILE *auxfd)
{
    assert(nanoSecPerSec==1000000000);
    TimeStamp current;
    current.getCurrent();
    fprintf(auxfd,"current %lli %i milliSec %lli\n",
        (long long)current.getSecondsPastEpoch(),
        current.getNanoSeconds(),
        (long long)current.getMilliseconds());
    time_t tt;
    current.toTime_t(tt);
    struct tm ctm;
    memcpy(&ctm,localtime(&tt),sizeof(struct tm));
    fprintf(auxfd,
        "%4.4d.%2.2d.%2.2d %2.2d:%2.2d:%2.2d %d isDst %s\n",
        ctm.tm_year+1900,ctm.tm_mon + 1,ctm.tm_mday,
        ctm.tm_hour,ctm.tm_min,ctm.tm_sec,
        current.getNanoSeconds(),
        (ctm.tm_isdst==0) ? "false" : "true");
    tt = time(&tt);
    current.fromTime_t(tt);
    fprintf(auxfd,"fromTime_t\ncurrent %lli %i milliSec %lli\n",
        (long long)current.getSecondsPastEpoch(),
        current.getNanoSeconds(),
        (long long)current.getMilliseconds());
    current.toTime_t(tt);
    memcpy(&ctm,localtime(&tt),sizeof(struct tm));
    fprintf(auxfd,
        "%4.4d.%2.2d.%2.2d %2.2d:%2.2d:%2.2d %d isDst %s\n",
        ctm.tm_year+1900,ctm.tm_mon + 1,ctm.tm_mday,
        ctm.tm_hour,ctm.tm_min,ctm.tm_sec,
        current.getNanoSeconds(),
        (ctm.tm_isdst==0) ? "false" : "true");
    TimeStamp right;
    TimeStamp left;
    right.put(current.getSecondsPastEpoch(),current.getNanoSeconds());
    left.put(current.getSecondsPastEpoch(),current.getNanoSeconds());
    double diff;
    diff = TimeStamp::diff(left,right);
    if(debug) fprintf(fd,"diff %e\n",diff);
    assert(diff==0.0);
    assert((left==right));
    assert(!(left!=right));
    assert((left<=right));
    assert(!(left<right));
    assert((left>=right));
    assert(!(left>right));
    left.put(current.getSecondsPastEpoch()+1,current.getNanoSeconds());
    diff = TimeStamp::diff(left,right);
    if(debug) fprintf(fd,"diff %e\n",diff);
    assert(diff==1.0);
    assert(!(left==right));
    assert((left!=right));
    assert(!(left<=right));
    assert(!(left<right));
    assert((left>=right));
    assert((left>right));
    left.put(current.getSecondsPastEpoch()-1,current.getNanoSeconds());
    diff = TimeStamp::diff(left,right);
    if(debug) fprintf(fd,"diff %e\n",diff);
    assert(diff==-1.0);
    assert(!(left==right));
    assert((left!=right));
    assert((left<=right));
    assert((left<right));
    assert(!(left>=right));
    assert(!(left>right));
    left.put(current.getSecondsPastEpoch(),current.getNanoSeconds()-nanoSecPerSec);
    diff = TimeStamp::diff(left,right);
    if(debug) fprintf(fd,"diff %e\n",diff);
    assert(diff==-1.0);
    assert(!(left==right));
    assert((left!=right));
    assert((left<=right));
    assert((left<right));
    assert(!(left>=right));
    assert(!(left>right));
    left.put(current.getSecondsPastEpoch(),current.getNanoSeconds()-1);
    diff = TimeStamp::diff(left,right);
    if(debug) fprintf(fd,"diff %e\n",diff);
    assert(diff<0.0);
    assert(!(left==right));
    assert((left!=right));
    assert((left<=right));
    assert((left<right));
    assert(!(left>=right));
    assert(!(left>right));
    left.put(current.getSecondsPastEpoch(),current.getNanoSeconds());
    left += .1;
    diff = TimeStamp::diff(left,right);
    if(debug) fprintf(fd,"diff %e\n",diff);
    left.put(current.getSecondsPastEpoch(),current.getNanoSeconds());
    int64 inc = -1;
    left += inc;
    diff = TimeStamp::diff(left,right);
    assert(diff==-1.0);
    fprintf(fd,"PASSED\n");
}