Ryo Od
Kick Machine Prototype
main.cpp
- Committer:
- ryood
- Date:
- 2017-06-04
- Revision:
- 8:bb34a4894337
- Parent:
- 7:6735a343780e
- Child:
- 9:d1e6eae9722b
File content as of revision 8:bb34a4894337:
/*
* KIK01
* Kick Machine
*
* 2017.06.04 created.
*
*/
#include "mbed.h"
#include "rtos.h"
#define TITLE_STR1 ("KIK01 Kick Machine")
#define TITLE_STR2 ("20170604")
#define PI_F (3.1415926f)
#define SAMPLING_RATE (48000)
#define SAMPLING_PERIOD (1.0f/SAMPLING_RATE)
//#define FREQUENCY_ATTACK (5)
//#define FREQUENCY_RELEASE (300)
//#define AMPLITUDE_ATTACK (50)
//#define AMPLITUDE_RELEASE (200)
AnalogOut Dac1(PA_5);
AnalogIn Ain0(PA_0);
AnalogIn Ain1(PA_1);
AnalogIn Ain2(PA_4);
AnalogIn Ain3(PB_0);
AnalogIn Ain4(PC_1);
AnalogIn Ain5(PC_0);
AnalogIn Ain6(PC_2);
AnalogIn Ain7(PC_3);
AnalogIn Ain8(PC_4);
AnalogIn Ain9(PB_1);
AnalogIn Ain10(PC_5);
class EnvelopeAR {
public:
EnvelopeAR(int _attack, int _release, float _v0, float _v1, float _v2, float _attackTauRatio=0.36f, float _releaseTauRatio=0.36f) :
amplitude(_v0),
v0(_v0),
v1(_v1),
v2(_v2),
vLast(_v0),
attackTauRatio(_attackTauRatio),
releaseTauRatio(_releaseTauRatio)
{
setAttack(_attack);
setRelease(_release);
}
~EnvelopeAR() {}
void setAttack(int _attack) {
attack = _attack;
tau0 = attack * attackTauRatio;
}
int getAttack() { return attack; }
void setRelease(int _release) {
release = _release;
tau1 = release * releaseTauRatio;
}
int getRelease() { return release; }
void setAttackTauRatio(float _attackTauRatio) {
attackTauRatio = _attackTauRatio;
tau0 = attack * attackTauRatio;
}
float getAttackTauRatio() { return attackTauRatio; }
void setReleaseTauRatio(float _releaseTauRatio) {
releaseTauRatio = _releaseTauRatio;
tau1 = release * releaseTauRatio;
}
float getReleaseTauRatio() { return releaseTauRatio; }
float getTau0() { return tau0; }
float getTau1() { return tau1; }
void setV0(float _v0) { v0 = _v0; }
float getV0() { return v0; }
void setV1(float _v1) { v1 = _v1; }
float getV1() { return v1; }
void setV2(float _v2) { v2 = _v2; }
float getV2() { return v2; }
float getAmplitude() { return amplitude; }
float getAmplitude(int tick) {
if (tick < attack) {
// attackの処理
amplitude = v0 + (v1 - v0) * (1 - expf(-(float)tick / tau0));
vLast = amplitude;
}
else {
// releaseの処理
amplitude = (vLast - v2) * (expf(-(float)(tick - attack) / tau1)) + v2;
}
return amplitude;
}
private:
int attack;
int release;
float amplitude;
float v0;
float v1;
float v2;
float vLast;
float tau0;
float tau1;
float attackTauRatio;
float releaseTauRatio;
};
class EnvelopeParam {
public:
int attack;
int release;
float v0;
float v1;
float v2;
float attackTauRatio;
float releaseTauRatio;
};
EnvelopeAR envelopeFrequency(
5, 300, 880.0f, 120.0f, 40.0f, 0.36f, 0.1f);
EnvelopeAR envelopeAmplitude(50, 200, 0.99f, 1.0f, 0.0f);
volatile EnvelopeParam frequencyParam;
volatile EnvelopeParam amplitudeParam;
volatile int ticks;
volatile int envelopeTicks;
volatile float frequency;
volatile float phi;
volatile float phiDelta;
volatile float amplitude;
volatile float bpm;
volatile int envelopeLength;
void generateWave()
{
phi += phiDelta;
if (phi >= 1.0f) {
phi -= 2.0f;
}
float level = sinf(PI_F * phi) * amplitude;
Dac1.write((level * 0.7f + 1.0f) / 2.0f);
}
void generateEnvelope()
{
// Frequency Envelope
frequency = envelopeFrequency.getAmplitude(envelopeTicks);
phiDelta = 2.0f * frequency / SAMPLING_RATE;
// Amplitude Envelope
amplitude = envelopeAmplitude.getAmplitude(envelopeTicks);
envelopeTicks++;
if (envelopeTicks >= envelopeLength) {
envelopeTicks = 0;
}
}
void update()
{
ticks++;
if (ticks >= SAMPLING_RATE / 1000) {
ticks = 0;
// set envelope parameters
envelopeLength = 60 * 1000 / bpm;
envelopeAmplitude.setAttack(amplitudeParam.attack);
envelopeAmplitude.setRelease(amplitudeParam.release);
envelopeAmplitude.setV0(amplitudeParam.v0);
envelopeAmplitude.setV1(amplitudeParam.v1);
envelopeAmplitude.setV2(amplitudeParam.v2);
envelopeAmplitude.setAttackTauRatio(amplitudeParam.attackTauRatio);
envelopeAmplitude.setReleaseTauRatio(amplitudeParam.releaseTauRatio);
envelopeFrequency.setAttack(frequencyParam.attack);
envelopeFrequency.setRelease(frequencyParam.release);
envelopeFrequency.setV0(frequencyParam.v0);
envelopeFrequency.setV1(frequencyParam.v1);
envelopeFrequency.setV2(frequencyParam.v2);
envelopeFrequency.setAttackTauRatio(frequencyParam.attackTauRatio);
envelopeFrequency.setReleaseTauRatio(frequencyParam.releaseTauRatio);
generateEnvelope();
}
generateWave();
}
void setParams()
{
bpm = Ain0.read() * 180.0f + 60.0f;
amplitudeParam.attack = Ain1.read() * envelopeLength;
amplitudeParam.release = Ain2.read() * envelopeLength;
amplitudeParam.v0 = Ain3.read();
amplitudeParam.v1 = 1.0f;
amplitudeParam.v2 = 0.0f;
amplitudeParam.attackTauRatio = 0.36f;
amplitudeParam.releaseTauRatio = Ain4.read();
frequencyParam.attack = 5;
frequencyParam.release = 300;
frequencyParam.v0 = Ain5.read() * 4000.0f;
frequencyParam.v1 = Ain6.read() * 400.0f;
frequencyParam.v2 = Ain7.read() * 400.0f;
frequencyParam.attackTauRatio = 0.36f;
frequencyParam.releaseTauRatio = 0.1f;
}
int main()
{
printf("%s %s\r\n", TITLE_STR1, TITLE_STR2);
frequency = 1000.0f;
phiDelta = 2.0f * frequency / SAMPLING_RATE;
amplitude = 1.0f;
ticks = 0;
envelopeTicks = 0;
bpm = 120.0f;
setParams();
Ticker samplingTicker;
samplingTicker.attach(&update, SAMPLING_PERIOD);
for (;;) {
setParams();
printf("%.1f\t%d\t", bpm, envelopeLength);
printf("%d\t%d\t", amplitudeParam.attack, amplitudeParam.release);
printf("%.2f\t%.2f\t%.2f\t", amplitudeParam.v0, amplitudeParam.v1, amplitudeParam.v2);
printf("%.2f\t%.2f\t", amplitudeParam.attackTauRatio, amplitudeParam.releaseTauRatio);
printf("%d\t%d\t", frequencyParam.attack, frequencyParam.release);
printf("%.2f\t%.2f\t%.2f\t", frequencyParam.v0, frequencyParam.v1, frequencyParam.v2);
printf("%.2f\t%.2f\r\n", frequencyParam.attackTauRatio, frequencyParam.releaseTauRatio);
Thread::wait(500);
}
}