#include #include char im[128], data[128], raw[128], maxval[64]; char x=64, ylim=16; int i=0, val; static long tt=0; ht1632c ledMatrix = ht1632c(&PORTB, 10, 9, 11, 8, GEOM_32x16, 2); void setup() { ledMatrix.clear(); ledMatrix.pwm(15); ledMatrix.plot(0, 0, 2); analogReference(DEFAULT); // Use default (5v) aref voltage. for (int z=0; z<64; z++) { maxval[z]=15; }; // fill the lastpass[] array with dummy data // defines for setting and clearing register bits #ifndef cbi #define cbi(sfr, bit) (_SFR_BYTE(sfr) &= ~_BV(bit)) #endif #ifndef sbi #define sbi(sfr, bit) (_SFR_BYTE(sfr) |= _BV(bit)) #endif // set prescale to 16 sbi(ADCSRA,ADPS2) ; cbi(ADCSRA,ADPS1) ; cbi(ADCSRA,ADPS0) ; }; void loop() { //if (millis() > tt ) { //noInterrupts(); if (i < 128) { val = analogRead(1); //val = ((log(analogRead(1))*1024)/log(1024)); data[i] = val - 512; im[i] = 0; i++; } else { //interrupts(); //this could be done with the fix_fftr function without the im array. //fft_windowing(data,7); fix_fft(data,im,7,0); // I am only interessted in the absolute value of the transformation bool degrade = (millis() - tt > 100); if ( degrade ) { tt = millis(); } for (i=0; i< 64;i++){ data[i] = sqrt(data[i] * data[i] + im[i] * im[i]); int y = constrain( map(data[i], 0, 15, 15, 0) , 0, 15) ; // int y = constrain( map( (log( data[i]+1) * 15/log(15)), 0, 15, 15 , 0 ) , 0, 15) ; ledMatrix.line(i, 0 , i, 15, 0); ledMatrix.line(i, y , i, 15, 1); ledMatrix.plot(i, y, 3); maxval[i] = min(maxval[i], y); ledMatrix.plot(i, maxval[i], 2); if ( degrade ) { //maxval[i] = constrain(maxval[i] +1, 0, 15) ; maxval[i] = maxval[i] + 1 ; } } i = 0; ledMatrix.sendframe(); } } };