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Add FFT Tutorial example

dds
PaulStoffregen преди 9 години
родител
ревизия
eea0639e31
променени са 4 файла, в които са добавени 4805 реда и са изтрити 0 реда
  1. +3
    -0
      examples/Tutorial/Part_1_03_Playing_Music/Part_1_03_Playing_Music.ino
  2. +4624
    -0
      examples/Tutorial/Part_3_02_Fourier_Transform/AudioSampleGuitar.cpp
  3. +3
    -0
      examples/Tutorial/Part_3_02_Fourier_Transform/AudioSampleGuitar.h
  4. +175
    -0
      examples/Tutorial/Part_3_02_Fourier_Transform/Part_3_02_Fourier_Transform.ino

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examples/Tutorial/Part_1_03_Playing_Music/Part_1_03_Playing_Music.ino Целия файл

@@ -1,6 +1,9 @@
// Advanced Microcontroller-based Audio Workshop
//
// Part 1-3: First "Hello World" program, play a music file
//
// WAV files for this and other Tutorials are here:
// http://www.pjrc.com/teensy/td_libs_AudioDataFiles.html

#include <Audio.h>
#include <Wire.h>

+ 4624
- 0
examples/Tutorial/Part_3_02_Fourier_Transform/AudioSampleGuitar.cpp
Файловите разлики са ограничени, защото са твърде много
Целия файл


+ 3
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examples/Tutorial/Part_3_02_Fourier_Transform/AudioSampleGuitar.h Целия файл

@@ -0,0 +1,3 @@
// Audio data converted from WAV file by wav2sketch

extern const unsigned int AudioSampleGuitar[36929];

+ 175
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examples/Tutorial/Part_3_02_Fourier_Transform/Part_3_02_Fourier_Transform.ino Целия файл

@@ -0,0 +1,175 @@
// Advanced Microcontroller-based Audio Workshop
//
// Part 3-1: Fourier Transform

#include <Bounce.h>
#include "AudioSampleGuitar.h"
Bounce button0 = Bounce(0, 15);
Bounce button1 = Bounce(1, 15); // 15 = 15 ms debounce time
Bounce button2 = Bounce(2, 15);


///////////////////////////////////
// copy the Design Tool code here
///////////////////////////////////





void setup() {
Serial.begin(9600);
AudioMemory(10);
sgtl5000_1.enable();
sgtl5000_1.volume(0.5);
SPI.setMOSI(7);
SPI.setSCK(14);
if (!(SD.begin(10))) {
while (1) {
Serial.println("Unable to access the SD card");
delay(500);
}
}
pinMode(0, INPUT_PULLUP);
pinMode(1, INPUT_PULLUP);
pinMode(2, INPUT_PULLUP);
mixer1.gain(0, 0.5);
mixer1.gain(1, 0.5);
mixer1.gain(2, 0.0);
mixer1.gain(3, 0.0);
// Uncomment one these to try other window functions
// fft1024_1.windowFunction(NULL);
// fft1024_1.windowFunction(AudioWindowBartlett1024);
// fft1024_1.windowFunction(AudioWindowFlattop1024);
delay(1000);
playSdWav1.play("SDTEST1.WAV");

}


int fileNumber = 0;
const char * filenames[4] = {
"SDTEST1.WAV", "SDTEST2.WAV", "SDTEST3.WAV", "SDTEST4.WAV"
};

int noteNumber = 0;
const float noteFrequency[12] = {
200.00, // A3
233.08, // A#3
246.94, // B3
261.63, // C4
277.18, // C#4
293.66, // D4
311.13, // D#4
329.63, // E4
349.23, // F4
369.99, // F#4
392.00, // G4
415.30 // G#4
};



void loop() {

// print Fourier Transform data to the Arduino Serial Monitor
if (fft1024_1.available()) {
Serial.print("FFT: ");
for (int i=0; i<30; i++) { // 0-25 --> DC to 1.25 kHz
float n = fft1024_1.read(i);
printNumber(n);
}
Serial.println();
}
button0.update();
button1.update();
button2.update();

// Left button starts playing a new song
if (button0.fallingEdge()) {
mixer1.gain(2, 0.0);
mixer1.gain(3, 0.0);
fileNumber = fileNumber + 1;
if (fileNumber >= 4) fileNumber = 0;
playMem1.stop();
playSdWav1.play(filenames[fileNumber]);
mixer1.gain(0, 0.5);
mixer1.gain(1, 0.5);
}

// Middle button plays Guitar sample
if (button1.fallingEdge()) {
mixer1.gain(0, 0.0);
mixer1.gain(1, 0.0);
mixer1.gain(3, 0.0);
playSdWav1.stop();
playMem1.play(AudioSampleGuitar);
mixer1.gain(2, 1.0);
}

// Right button plays a pure sine wave tone
if (button2.fallingEdge()) {
mixer1.gain(0, 0.0);
mixer1.gain(1, 0.0);
mixer1.gain(2, 0.0);
playSdWav1.stop();
playMem1.stop();
waveform1.begin(1.0, noteFrequency[noteNumber], WAVEFORM_SINE);
noteNumber = noteNumber + 1;
if (noteNumber >= 12) noteNumber = 0;
mixer1.gain(3, 1.0);
}
if (button2.risingEdge()) {
waveform1.amplitude(0);
}
/*
if (fft1024_1.available()) {
// each time new FFT data is available
// print to the Arduino Serial Monitor
Serial.print("FFT: ");
printNumber(fft1024_1.read(0));
printNumber(fft1024_1.read(1));
printNumber(fft1024_1.read(2,3));
printNumber(fft1024_1.read(4,6));
printNumber(fft1024_1.read(7,10));
printNumber(fft1024_1.read(11,15));
printNumber(fft1024_1.read(16,22));
printNumber(fft1024_1.read(23,32));
printNumber(fft1024_1.read(33,46));
printNumber(fft1024_1.read(47,66));
printNumber(fft1024_1.read(67,93));
printNumber(fft1024_1.read(94,131));
printNumber(fft1024_1.read(132,184));
printNumber(fft1024_1.read(185,257));
printNumber(fft1024_1.read(258,359));
printNumber(fft1024_1.read(360,511));
Serial.println();
}
*/

}


void printNumber(float n) {
if (n >= 0.004) {
Serial.print(n, 3);
Serial.print(" ");
} else {
Serial.print(" - "); // don't print "0.00"
}
/*
if (n > 0.25) {
Serial.print("***** ");
} else if (n > 0.18) {
Serial.print(" *** ");
} else if (n > 0.06) {
Serial.print(" * ");
} else if (n > 0.005) {
Serial.print(" . ");
}
*/
}

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