philkuz/classify.ino

## classify.ino
/* classify.ino
** Processing Integration sketch for SIXT33N Music version
**
** EE16B Spring 2016
** Emily Naviasky & Nathaniel Mailoa
**
*/

#include "./fix_fft.c"
#define MIC_INPUT P6_0

//data array and index pointer
int8_t re[128]={0};
int8_t im[128]={0};
volatile int re_pointer = 0;

// Loudness variables
#define SIZE 128
float sum = 0.0;
int16_t loudness = 0;

//timer period
float timer_ms = 0.35;
int i = 0;

//past pca values
float pca1 = 0;
float pca2 = 0;
int pca_count = 0;


/*---------------*/
/* CODE BLOCK A1 */
/*---------------*/

float pca_vec[SIZE] = {0.36961871, -0.02157957, -0.06643426, -0.0472582 , -0.03475233,
       -0.03053084, -0.0357888 , -0.0319841 , -0.0373197 , -0.02290277,
       -0.02589317, -0.03865687, -0.02433723, -0.02404461, -0.03868492,
       -0.02350191, -0.04277367, -0.02927904, -0.02708781, -0.02192353,
       -0.02994287, -0.06783646, -0.04372428, -0.05410791, -0.07996994,
       -0.18553457, -0.13793853, -0.10384696, -0.18762848, -0.15174473,
       -0.11019488, -0.17577634, -0.2786608 , -0.14489447, -0.13228256,
       -0.07352004, -0.06066424, -0.07704905, -0.1140658 , -0.06518871,
       -0.03758684, -0.04655808, -0.09593589, -0.09474074, -0.05546122,
       -0.04073478, -0.03469756, -0.04917424, -0.06347584, -0.04784789,
       -0.08146853, -0.07289467, -0.05139586, -0.0437993 , -0.04043633,
       -0.0400711 , -0.0561905 , -0.05682905, -0.04342455, -0.03479911,
       -0.03157138, -0.03812093, -0.05048729, -0.08528685, -0.07269989,
       -0.07346596, -0.04162662, -0.03770049, -0.03070203, -0.03132942,
       -0.04247361, -0.0557713 , -0.05758171, -0.03686646, -0.03964496,
       -0.04290055, -0.05275807, -0.07490841, -0.07958092, -0.0473259 ,
       -0.06697581, -0.04989068, -0.03139145, -0.03778408, -0.05475513,
       -0.0958019 , -0.09641158, -0.04644897, -0.03746413, -0.06431263,
       -0.11370408, -0.07641059, -0.06273487, -0.07449759, -0.13609858,
       -0.15616847, -0.2786608 , -0.16160025, -0.11080122, -0.15096024,
       -0.18578613, -0.10231493, -0.1362872 , -0.18728865, -0.07873092,
       -0.05390055, -0.04539437, -0.06843834, -0.03162144, -0.02406253,
       -0.03186428, -0.03058804, -0.03984903, -0.02316359, -0.03600624,
       -0.0232271 , -0.02653836, -0.03798149, -0.02847182, -0.02631873,
       -0.03442672, -0.03439904, -0.0340884 , -0.03316588, -0.04039763,
       -0.04475666, -0.05986868, -0.01600604};
float pca_mean[SIZE] = {34.46929134,   3.3707584 ,   3.08001093,   5.0826622 ,
         1.60044448,   1.79059817,   1.78523682,   1.5166166 ,
         1.32300447,   1.35752607,   1.36712058,   1.54703564,
         1.33250719,   1.36035817,   1.40240013,   1.45619499,
         1.23200691,   1.55025895,   1.36007019,   1.46405677,
         1.38501608,   1.92792947,   1.57599728,   1.73404366,
         1.8871999 ,   2.92976823,   2.33234112,   1.89245232,
         2.55869569,   2.22194983,   2.15373162,   2.17644556,
         2.90070407,   2.21108739,   2.36213212,   1.49028508,
         1.3273623 ,   1.691877  ,   2.5025428 ,   1.72285417,
         1.48961834,   1.41820489,   1.89885704,   1.8607301 ,
         1.37216697,   1.41685939,   1.23410389,   1.39243199,
         1.27910646,   1.3550214 ,   1.60314305,   1.59652988,
         1.38613404,   1.3469953 ,   1.21923294,   1.22976891,
         1.31878859,   1.3961074 ,   1.21875092,   1.12668629,
         1.01179966,   1.17968176,   1.03313346,   1.3001137 ,
         1.01417323,   1.38531879,   1.14180217,   1.18117876,
         1.02306567,   1.12290801,   1.23446107,   1.42616299,
         1.24018307,   1.16994273,   1.19114701,   1.37093289,
         1.39264708,   1.5696458 ,   1.55232533,   1.33635819,
         1.22876266,   1.34241884,   1.24318354,   1.38559406,
         1.38279895,   1.83603292,   1.8639242 ,   1.39973509,
         1.52667766,   1.67743329,   2.52320923,   1.69342518,
         1.32488286,   1.47595949,   2.38470799,   2.05568551,
         2.90070407,   2.32178311,   2.14175483,   2.2348224 ,
         2.54987861,   1.86163036,   2.33139452,   3.00581412,
         1.8646359 ,   1.74405433,   1.60662148,   2.02518438,
         1.39472613,   1.49972857,   1.38313568,   1.61398369,
         1.34045559,   1.4230733 ,   1.43932994,   1.36491934,
         1.39503086,   1.54744278,   1.40614743,   1.45760556,
         1.49576406,   1.54850689,   1.84227425,   1.88801913,
         1.7815055 ,   5.16475932,   3.56839305,   4.30924351};

/*----------------------*/
/* END OF CODE BLOCK A1 */
/*----------------------*/


void setup()
{
  //microphone ADC
  pinMode(MIC_INPUT, INPUT);
  pinMode(P6_1, INPUT);
  pinMode(P6_5, INPUT);
  //recording light
  pinMode(RED_LED, OUTPUT);
  pinMode(GREEN_LED, OUTPUT);

  re_pointer = 0;
  setTimer();
  reset_blinker();

  Serial.begin(38400);
}

void loop()
{
  // This loop is entered every time the
  // data collection buffer is filled and
  // code is ready to start a new FFT
  if(re_pointer == 128){
    // Loudness calculation (with filter)
    // loudness ranges from 2500 to 4500
    sum = 0;
    for (int i = 0; i < SIZE; i++){
      sum += abs(re[i]);
    }
    loudness = loudness*0.5 + sum*0.5;
    Serial.print("loudness: ");
    Serial.println(loudness);

    // make sure imaginary is set to zero
    memset(im, 0, sizeof(im));

    // take a 128-point fft
    fix_fft(re,im,7,0);


    /*--------------*/
    /* CODE BLOCK B */
    /*--------------*/

    // Modify this section to add your
    // data processing and decision making
    // STUDENT CODE!!!!!!!!!
    float pca_val = 0;
    for (i=0; i<128; i++){
      pca_val += (norm(re[i], im[i]) - pca_mean[i]) * pca_vec[i];
    }

    // Classification
    float threshold = 0;
    if (avg_pca(pca_val) > threshold) {
      Serial.println("classical");
      digitalWrite(GREEN_LED, HIGH);
      digitalWrite(RED_LED, LOW);
    } else {
      Serial.println("rap");
      digitalWrite(GREEN_LED, LOW);
      digitalWrite(RED_LED, HIGH);
    }
    /*---------------------*/
    /* END OF CODE BLOCK B */
    /*---------------------*/
    re_pointer = 0;
  }
}
/*----------------*/
/* CODE BLOCK 420 */
/*----------------*/
float avg_pca(float curpca) {
    float avg = curpca;
    if (pca_count > 2) {
      avg = (curpca + pca1 + pca2) / 3;
    }
    pca_count += 1;
    pca2 = pca1;
    pca1 = curpca;
    return avg;
}
float norm(float x, float y) {
    float x2 = x * x;
    float y2 = y * y;
    return sqrt(x2 + y2);
}
/*-----------------------*/
/* END OF CODE BLOCK 420 */
/*-----------------------*/

#pragma vector=TIMER0_A0_VECTOR    // Timer A ISR
__interrupt void Timer1_A0_ISR( void )
{
  if(re_pointer < 128){
    digitalWrite(RED_LED, HIGH);
    re[re_pointer] = (analogRead(P6_0) >> 4) - 128;
    re_pointer += 1;
  }
}

void setTimer(){
  // set the timer based on 25MHz clock
  TA0CCR0 = (unsigned int)(25000*timer_ms);
  // enable interrupts for Timer A
  TA0CCTL0 = CCIE;
  __bis_SR_register(GIE);
  TA0CTL = TASSEL_2 + MC_1 + TACLR + ID_0;
}

void reset_blinker(){
  pinMode(RED_LED, OUTPUT);
  pinMode(GREEN_LED, OUTPUT);
  digitalWrite(RED_LED, HIGH);
  delay(100);
  digitalWrite(RED_LED, LOW);
  digitalWrite(GREEN_LED, HIGH);
  delay(100);
  digitalWrite(RED_LED, HIGH);
  digitalWrite(GREEN_LED, LOW);
  delay(100);
  digitalWrite(RED_LED, LOW);
  digitalWrite(GREEN_LED, HIGH);
  delay(100);
  digitalWrite(GREEN_LED, LOW);
}
	/* classify.ino
	** Processing Integration sketch for SIXT33N Music version
	**
	** EE16B Spring 2016
	** Emily Naviasky & Nathaniel Mailoa
	**
	*/

	#include "./fix_fft.c"
	#define MIC_INPUT P6_0

	//data array and index pointer
	int8_t re[128]={0};
	int8_t im[128]={0};
	volatile int re_pointer = 0;

	// Loudness variables
	#define SIZE 128
	float sum = 0.0;
	int16_t loudness = 0;

	//timer period
	float timer_ms = 0.35;
	int i = 0;

	//past pca values
	float pca1 = 0;
	float pca2 = 0;
	int pca_count = 0;


	/---------------/
	/* CODE BLOCK A1 */
	/---------------/

	float pca_vec[SIZE] = {0.36961871, -0.02157957, -0.06643426, -0.0472582 , -0.03475233,
	-0.03053084, -0.0357888 , -0.0319841 , -0.0373197 , -0.02290277,
	-0.02589317, -0.03865687, -0.02433723, -0.02404461, -0.03868492,
	-0.02350191, -0.04277367, -0.02927904, -0.02708781, -0.02192353,
	-0.02994287, -0.06783646, -0.04372428, -0.05410791, -0.07996994,
	-0.18553457, -0.13793853, -0.10384696, -0.18762848, -0.15174473,
	-0.11019488, -0.17577634, -0.2786608 , -0.14489447, -0.13228256,
	-0.07352004, -0.06066424, -0.07704905, -0.1140658 , -0.06518871,
	-0.03758684, -0.04655808, -0.09593589, -0.09474074, -0.05546122,
	-0.04073478, -0.03469756, -0.04917424, -0.06347584, -0.04784789,
	-0.08146853, -0.07289467, -0.05139586, -0.0437993 , -0.04043633,
	-0.0400711 , -0.0561905 , -0.05682905, -0.04342455, -0.03479911,
	-0.03157138, -0.03812093, -0.05048729, -0.08528685, -0.07269989,
	-0.07346596, -0.04162662, -0.03770049, -0.03070203, -0.03132942,
	-0.04247361, -0.0557713 , -0.05758171, -0.03686646, -0.03964496,
	-0.04290055, -0.05275807, -0.07490841, -0.07958092, -0.0473259 ,
	-0.06697581, -0.04989068, -0.03139145, -0.03778408, -0.05475513,
	-0.0958019 , -0.09641158, -0.04644897, -0.03746413, -0.06431263,
	-0.11370408, -0.07641059, -0.06273487, -0.07449759, -0.13609858,
	-0.15616847, -0.2786608 , -0.16160025, -0.11080122, -0.15096024,
	-0.18578613, -0.10231493, -0.1362872 , -0.18728865, -0.07873092,
	-0.05390055, -0.04539437, -0.06843834, -0.03162144, -0.02406253,
	-0.03186428, -0.03058804, -0.03984903, -0.02316359, -0.03600624,
	-0.0232271 , -0.02653836, -0.03798149, -0.02847182, -0.02631873,
	-0.03442672, -0.03439904, -0.0340884 , -0.03316588, -0.04039763,
	-0.04475666, -0.05986868, -0.01600604};
	float pca_mean[SIZE] = {34.46929134, 3.3707584 , 3.08001093, 5.0826622 ,
	1.60044448, 1.79059817, 1.78523682, 1.5166166 ,
	1.32300447, 1.35752607, 1.36712058, 1.54703564,
	1.33250719, 1.36035817, 1.40240013, 1.45619499,
	1.23200691, 1.55025895, 1.36007019, 1.46405677,
	1.38501608, 1.92792947, 1.57599728, 1.73404366,
	1.8871999 , 2.92976823, 2.33234112, 1.89245232,
	2.55869569, 2.22194983, 2.15373162, 2.17644556,
	2.90070407, 2.21108739, 2.36213212, 1.49028508,
	1.3273623 , 1.691877 , 2.5025428 , 1.72285417,
	1.48961834, 1.41820489, 1.89885704, 1.8607301 ,
	1.37216697, 1.41685939, 1.23410389, 1.39243199,
	1.27910646, 1.3550214 , 1.60314305, 1.59652988,
	1.38613404, 1.3469953 , 1.21923294, 1.22976891,
	1.31878859, 1.3961074 , 1.21875092, 1.12668629,
	1.01179966, 1.17968176, 1.03313346, 1.3001137 ,
	1.01417323, 1.38531879, 1.14180217, 1.18117876,
	1.02306567, 1.12290801, 1.23446107, 1.42616299,
	1.24018307, 1.16994273, 1.19114701, 1.37093289,
	1.39264708, 1.5696458 , 1.55232533, 1.33635819,
	1.22876266, 1.34241884, 1.24318354, 1.38559406,
	1.38279895, 1.83603292, 1.8639242 , 1.39973509,
	1.52667766, 1.67743329, 2.52320923, 1.69342518,
	1.32488286, 1.47595949, 2.38470799, 2.05568551,
	2.90070407, 2.32178311, 2.14175483, 2.2348224 ,
	2.54987861, 1.86163036, 2.33139452, 3.00581412,
	1.8646359 , 1.74405433, 1.60662148, 2.02518438,
	1.39472613, 1.49972857, 1.38313568, 1.61398369,
	1.34045559, 1.4230733 , 1.43932994, 1.36491934,
	1.39503086, 1.54744278, 1.40614743, 1.45760556,
	1.49576406, 1.54850689, 1.84227425, 1.88801913,
	1.7815055 , 5.16475932, 3.56839305, 4.30924351};

	/----------------------/
	/* END OF CODE BLOCK A1 */
	/----------------------/


	void setup()
	{
	//microphone ADC
	pinMode(MIC_INPUT, INPUT);
	pinMode(P6_1, INPUT);
	pinMode(P6_5, INPUT);
	//recording light
	pinMode(RED_LED, OUTPUT);
	pinMode(GREEN_LED, OUTPUT);

	re_pointer = 0;
	setTimer();
	reset_blinker();

	Serial.begin(38400);
	}

	void loop()
	{
	// This loop is entered every time the
	// data collection buffer is filled and
	// code is ready to start a new FFT
	if(re_pointer == 128){
	// Loudness calculation (with filter)
	// loudness ranges from 2500 to 4500
	sum = 0;
	for (int i = 0; i < SIZE; i++){
	sum += abs(re[i]);
	}
	loudness = loudness0.5 + sum0.5;
	Serial.print("loudness: ");
	Serial.println(loudness);

	// make sure imaginary is set to zero
	memset(im, 0, sizeof(im));

	// take a 128-point fft
	fix_fft(re,im,7,0);


	/--------------/
	/* CODE BLOCK B */
	/--------------/

	// Modify this section to add your
	// data processing and decision making
	// STUDENT CODE!!!!!!!!!
	float pca_val = 0;
	for (i=0; i<128; i++){
	pca_val += (norm(re[i], im[i]) - pca_mean[i]) * pca_vec[i];
	}

	// Classification
	float threshold = 0;
	if (avg_pca(pca_val) > threshold) {
	Serial.println("classical");
	digitalWrite(GREEN_LED, HIGH);
	digitalWrite(RED_LED, LOW);
	} else {
	Serial.println("rap");
	digitalWrite(GREEN_LED, LOW);
	digitalWrite(RED_LED, HIGH);
	}
	/---------------------/
	/* END OF CODE BLOCK B */
	/---------------------/
	re_pointer = 0;
	}
	}
	/----------------/
	/* CODE BLOCK 420 */
	/----------------/
	float avg_pca(float curpca) {
	float avg = curpca;
	if (pca_count > 2) {
	avg = (curpca + pca1 + pca2) / 3;
	}
	pca_count += 1;
	pca2 = pca1;
	pca1 = curpca;
	return avg;
	}
	float norm(float x, float y) {
	float x2 = x * x;
	float y2 = y * y;
	return sqrt(x2 + y2);
	}
	/-----------------------/
	/* END OF CODE BLOCK 420 */
	/-----------------------/

	#pragma vector=TIMER0_A0_VECTOR // Timer A ISR
	__interrupt void Timer1_A0_ISR( void )
	{
	if(re_pointer < 128){
	digitalWrite(RED_LED, HIGH);
	re[re_pointer] = (analogRead(P6_0) >> 4) - 128;
	re_pointer += 1;
	}
	}

	void setTimer(){
	// set the timer based on 25MHz clock
	TA0CCR0 = (unsigned int)(25000*timer_ms);
	// enable interrupts for Timer A
	TA0CCTL0 = CCIE;
	__bis_SR_register(GIE);
	TA0CTL = TASSEL_2 + MC_1 + TACLR + ID_0;
	}

	void reset_blinker(){
	pinMode(RED_LED, OUTPUT);
	pinMode(GREEN_LED, OUTPUT);
	digitalWrite(RED_LED, HIGH);
	delay(100);
	digitalWrite(RED_LED, LOW);
	digitalWrite(GREEN_LED, HIGH);
	delay(100);
	digitalWrite(RED_LED, HIGH);
	digitalWrite(GREEN_LED, LOW);
	delay(100);
	digitalWrite(RED_LED, LOW);
	digitalWrite(GREEN_LED, HIGH);
	delay(100);
	digitalWrite(GREEN_LED, LOW);
	}