Supprimer 'test.cpp'
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1 changed files with 0 additions and 116 deletions
116
test.cpp
116
test.cpp
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void TraitementSonsSuivants() {
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SAMPLE_TYPE* bufs[3];
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bufs[0] = _TamponDroit;
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bufs[1] = _TamponGauche;
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bufs[2] = _TamponAvant;
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int err;
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if ((err = snd_pcm_readn(_capture_handle, (void**) bufs, _TailleTampon))!= _TailleTampon) {
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fprintf(stderr, "Echec de la lecture de l'interface audio (%s)\n",snd_strerror(err));
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exit(1);
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}
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// compute the sound level (i.e. "loudness" of the sound):
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SAMPLE_TYPE Niveau = CalculNiv(_TamponDroit, _TamponGauche, _TamponAvant);
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// update the average sound level with this new measure:
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_MoyNivSonore->nvelleValeur(Niveau);
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// relative sound level of this sample compared to average:
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float NivRelatif = (float) Niveau / (float) _MoyNivSonore->getMean();
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//cout << "level " << level << ", relative " << NivRelatif << endl;
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int minDiff = INT_MAX;
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int minDiff2 = INT_MAX;
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int minDiff3 = INT_MAX;
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int minDiffTime = -1;
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int minDiffTime2 = -1;
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int minDiffTime3 = -1;
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// glisse sur l'axe du temps pour trouver la différence sonore minimum entre les microphones Droit et Gauche
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for (int t = -_nbEchantillonsDiffMax; t < _nbEchantillonsDiffMax; t++) {
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// calcule la somme des différences pour simuler une mesure de corrélation croisée:
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int diff = 0;
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for (int i = _nbEchantillonsDiffMax; i < _TailleTampon - _nbEchantillonsDiffMax - 1; i++) {
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diff += abs(_TamponGauche[i] - _TamponDroit[i + t]);
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}
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if (diff < minDiff) {
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minDiff = diff;
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minDiffTime = t;
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}
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}
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for (int t2 = -_nbEchantillonsDiffMax; t2 < _nbEchantillonsDiffMax; t2++) {
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int diff2 = 0;
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for (int i = _nbEchantillonsDiffMax; i < _TailleTampon - _nbEchantillonsDiffMax - 1; i++) {
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diff2 += abs(_TamponGauche[i] - _TamponAvant[i + t2]);
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}
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if (diff2 < minDiff2) {
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minDiff2 = diff2;
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minDiffTime2 = t2;
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}
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}
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for (int t3 = -_nbEchantillonsDiffMax; t3 < _nbEchantillonsDiffMax; t3++) {
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int diff3 = 0;
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for (int i = _nbEchantillonsDiffMax; i < _TailleTampon - _nbEchantillonsDiffMax - 1; i++) {
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diff3 += abs(_TamponAvant[i] - _TamponDroit[i + t3]);
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}
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if (diff3 < minDiff3) {
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minDiff3 = diff3;
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minDiffTime3 = t3;
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}
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}
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if (t<t2 && t<t3) {
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// Si le son est assez fort et pas extrême (= ce qui entraine généralement de fausses
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// mesures), alors on le dessine:
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if ((NivRelatif > _NiveauSonMin) && (minDiffTime > -_nbEchantillonsDiffMax) && (minDiffTime < _nbEchantillonsDiffMax)) {
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// computation of angle depending on diff time, sampling rates,
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// and geometry
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float angle = -(float) asin((minDiffTime * _Vson) / (_TauxEchantillonnageSon* _DistanceMic));
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cout << angle << ";" << NivRelatif << endl;
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}
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}
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if (t2<t && t2<t3) {
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// Si le son est assez fort et pas extrême (= ce qui entraine généralement de fausses
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// mesures), alors on le dessine:
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if ((NivRelatif > _NiveauSonMin) && (minDiffTime2 > -_nbEchantillonsDiffMax) && (minDiffTime2 < _nbEchantillonsDiffMax)) {
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// computation of angle depending on diff time, sampling rates,
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// and geometry
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float angle = -(float) asin((minDiffTime2 * _Vson) / (_TauxEchantillonnageSon* _DistanceMic));
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cout << angle << ";" << NivRelatif << endl;
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}
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}
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if (t3<t && t3<t2) {
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// Si le son est assez fort et pas extrême (= ce qui entraine généralement de fausses
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// mesures), alors on le dessine:
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if ((NivRelatif > _NiveauSonMin) && (minDiffTime3 > -_nbEchantillonsDiffMax) && (minDiffTime3 < _nbEchantillonsDiffMax)) {
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// computation of angle depending on diff time, sampling rates,
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// and geometry
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float angle = -(float) asin((minDiffTime3 * _Vson) / (_TauxEchantillonnageSon* _DistanceMic));
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cout << angle << ";" << NivRelatif << endl;
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}
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}
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}
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/**
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* Calcule du niveau sonore moyen (la puissance) pour les canaux gauche et droit.
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*/
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SAMPLE_TYPE CalculNiv(SAMPLE_TYPE Droit[], SAMPLE_TYPE Gauche[], SAMPLE_TYPE Avant[]) {
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float Niveau = 0;
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for (int i = 0; i < _TailleTampon; i++) {
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float s = (Gauche[i] + Droit[i]+ Avant[i]) / 3;
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Niveau += (s * s);
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}
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Niveau /= _TailleTampon;
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Niveau = sqrt(Niveau);
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return (SAMPLE_TYPE) Niveau;
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}
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};
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