Ryo Od
BaseMachine UI Controllerに分離
Dependencies: AverageAnalogIn PinDetect RotaryEncoder Sequence SequencerDisplay mbed-rtos mbed st7567LCD BaseMachineComon
Fork of
BaseMachine_Sequencer
by 
Ryo Od
main.cpp
- Committer:
- ryood
- Date:
- 2016-10-01
- Revision:
- 40:2f9616bdcf65
- Parent:
- 38:cafa2fff5565
- Child:
- 41:48864f5f5424
File content as of revision 40:2f9616bdcf65:
/*
* main.cpp
* SpiSequencerSender_test
*
* 2016.10.02 UI Controllerに分割
* 2016.08.20 mbed Rev 121 / mbed-rtos Rev 117で動作確認
*
*/
#include "mbed.h"
#include "rtos.h"
#include "st7565LCD.h"
#include "PinDetect.h"
#include "RotaryEncoder.h"
#include "AverageAnalogIn.h"
#define UART_TRACE (1)
#include "Sequence.h"
#include "ST7565_SequencerDisplay.h"
#define TITLE_STR1 ("BaseMachine UI Controller")
#define TITLE_STR2 ("20161002")
#define SEQUENCE_N (16)
#define SPI1_RATE (10000000)
#define SPI2_RATE (1000000)
//const int samplingPeriod = 1; // ms
//const int bpm = 120;
//const int envelopeLength = (60 * 1000 / (bpm * 4)) / samplingPeriod;
//const int waveShape = SpiSequenceSender::WAVESHAPE_SQUARE;
const int baseNoteNumber = 36;
const int bpmMax = 240;
const int bpmMin = 60;
const int octaveMax = 2;
const int octaveMin = -2;
const int waveShapeMax = 1;
const int UImodeMax = 2;
// Initial Sequence
const int noteOn[SEQUENCE_N] = { 1, 1, 1, 0, 1, 1, 1, 0, 1, 1, 1, 0, 1, 1, 1, 0 };
const int pitch[SEQUENCE_N] = {36,36,36,36,36,36,36,36,36,36,36,36,36,36,36,36 };
const int tie[SEQUENCE_N] = { 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0 };
const int accent[SEQUENCE_N] = { 1, 0, 0, 0, 1, 0, 0, 0, 1, 0, 0, 0, 1, 0, 0, 0 };
// Devices
//
//SPI (PinName mosi, PinName miso, PinName sclk, PinName ssel=NC)
SPI spiMaster(PA_7, PA_6, PA_5);
DigitalOut SpiMCs(PB_6);
InterruptIn stepChangeInterrupt(PC_7);
//ST7565(PinName mosi, PinName sclk, PinName cs, PinName rst, PinName a0);
ST7565 gLCD(PB_15, PB_13, PB_12, PB_2, PB_1);
AverageAnalogIn AinPulseWidth(PC_2);
AverageAnalogIn AinCutOff(PB_0);
AverageAnalogIn AinResonance(PC_1);
AverageAnalogIn AinAccentLevel(PC_3);
AverageAnalogIn AinLevel(PC_0);
AverageAnalogIn AinDuration(PA_4);
AverageAnalogIn AinDecay(PA_1);
AverageAnalogIn AinSustain(PA_0);
RotaryEncoder RotEncStep(PB_9, PB_8, 0, SEQUENCE_N - 1, 0);
RotaryEncoder RotEncPitch(PB_5, PB_4, 0, Sequence::getMaxPitch() - 1, 0);
RotaryEncoder RotEncBpm(PC_12, PC_10, bpmMin, bpmMax, 120);
PinDetect PinWaveShape(PD_2, PullUp);
PinDetect PinUIMode(PC_11, PullUp);
PinDetect PinOctaveUp(PB_3, PullUp);
PinDetect PinOctaveDown(PA_10, PullUp);
PinDetect PinNoteOnOff(PC_5, PullUp);
PinDetect PinTie(PC_6, PullUp);
PinDetect PinAccent(PC_8, PullUp);
PinDetect PinRunStop(PC_9, PullUp);
// Grobal Variables
//
Sequence sequences[SEQUENCE_N];
ST7565_SequencerDisplay sequencerDisplay(&gLCD, sequences, SEQUENCE_N);
struct OscillatorParam {
uint8_t waveShape;
uint8_t pulseWidth;
} oscillatorParam;
struct FilterParam {
uint8_t cutoff;
uint8_t resonance;
} filterParam;
struct EnvelopeParam {
int8_t level;
int8_t length;
int8_t duration;
int8_t decay;
int8_t sustain;
} envelopeParam;
uint8_t bpm = 120;
uint8_t accentLevel = 127;
int currentStep = 0;
int playingStep = 0;
bool isRunning = false;
bool isDirty = true;
int UImode = 0;
volatile bool isStepChanged = false;
volatile uint8_t pinFlag = 0x00;
enum PinBit {
bWaveShape = 0x01,
bUIMode = 0x02,
bOctaveUp = 0x04,
bOctaveDown = 0x08,
bNoteOnOff = 0x10,
bTie = 0x20,
bAccent = 0x40,
bRunStop = 0x80
};
//------------------------------------------------------------------------
// InterruptIn ISR
//------------------------------------------------------------------------
void updateStep()
{
isStepChanged = true;
}
//------------------------------------------------------------------------
// PinDetect ISR
//------------------------------------------------------------------------
void swWaveShapePressed()
{
pinFlag |= bWaveShape;
}
void swUIModePressed()
{
pinFlag |= bUIMode;
}
void swOctaveUpPressed()
{
pinFlag |= bOctaveUp;
}
void swOctaveDownPressed()
{
pinFlag |= bOctaveDown;
}
void swNoteOnOffPressed()
{
pinFlag |= bNoteOnOff;
}
void swTiePressed()
{
pinFlag |= bTie;
}
void swAccentPressed()
{
pinFlag |= bAccent;
}
void swRunStopPressed()
{
pinFlag |= bRunStop;
}
//------------------------------------------------------------------------
// Functions
//------------------------------------------------------------------------
void pollingPots()
{
oscillatorParam.pulseWidth = AinPulseWidth.read_u16() >> 8;
filterParam.cutoff = AinCutOff.read_u16() >> 8;
filterParam.resonance = AinResonance.read_u16() >> 8;
envelopeParam.level = AinLevel.read_u16() >> 8;
envelopeParam.duration = AinDuration.read_u16() >> 8;
envelopeParam.decay = AinDecay.read_u16() >> 8;
envelopeParam.sustain = AinSustain.read_u16() >> 8;
}
void pollingRotEncs()
{
int _bpm = RotEncBpm.getVal();
if (_bpm != bpm) {
bpm = _bpm;
sequencerDisplay.setBpm(_bpm);
isDirty = true;
}
int _step = RotEncStep.getVal();
if (_step != currentStep) {
currentStep = _step;
// syncronize sequence value & Rotary Encoder's value
RotEncPitch.setVal(sequences[currentStep].getPitch());
isDirty = true;
}
int _pitch = RotEncPitch.getVal();
if (_pitch != sequences[currentStep].getPitch()) {
sequences[currentStep].setPitch(_pitch);
isDirty = true;
}
}
void pollingPins()
{
if (pinFlag & bWaveShape) {
#if (UART_TRACE)
printf("PinWaveShape Pushed\r\n");
#endif
uint8_t _waveShape = oscillatorParam.waveShape;
_waveShape++;
if (_waveShape > waveShapeMax) {
_waveShape = 0;
}
oscillatorParam.waveShape = _waveShape;
sequencerDisplay.setWaveShape(_waveShape);
pinFlag &= ~bWaveShape;
isDirty = true;
}
if (pinFlag & bUIMode) {
#if (UART_TRACE)
printf("PinUIMode Pushed\r\n");
#endif
UImode++;
if (UImode > UImodeMax) {
UImode = 0;
}
pinFlag &= ~bUIMode;
isDirty = true;
}
if (pinFlag & bOctaveUp) {
#if (UART_TRACE)
printf("PinOctaveUp Pushed\r\n");
#endif
if (sequencerDisplay.getOctave() < octaveMax ) {
sequencerDisplay.setOctave(sequencerDisplay.getOctave() + 1);
isDirty = true;
}
pinFlag &= ~bOctaveUp;
}
if (pinFlag & bOctaveDown) {
#if (UART_TRACE)
printf("PinOctaveDown Pushed\r\n");
#endif
if (sequencerDisplay.getOctave () > octaveMin) {
sequencerDisplay.setOctave(sequencerDisplay.getOctave() - 1);
isDirty = true;
}
pinFlag &= ~bOctaveDown;
}
if (pinFlag & bNoteOnOff) {
#if (UART_TRACE)
printf("PinNoteOnOff Pushed\r\n");
#endif
sequences[currentStep].setNoteOn(!sequences[currentStep].isNoteOn());
pinFlag &= ~bNoteOnOff;
isDirty = true;
}
if (pinFlag & bTie) {
#if (UART_TRACE)
printf("PinTie Pushed\r\n");
#endif
sequences[currentStep].setTie(!sequences[currentStep].isTie());
pinFlag &= ~bTie;
isDirty = true;
}
if (pinFlag & bAccent) {
#if (UART_TRACE)
printf("PinAccent Pushed\r\n");
#endif
sequences[currentStep].setAccent(!sequences[currentStep].isAccent());
pinFlag &= ~bAccent;
isDirty = true;
}
if (pinFlag & bRunStop) {
#if (UART_TRACE)
printf("PinRunStop Pushed\r\n");
#endif
if (isRunning) {
isRunning = false;
} else {
isRunning = true;
}
pinFlag &= ~bRunStop;
isDirty = true;
}
}
void dumpToLCD00()
{
char buff[64];
int col = 0;
gLCD.clear();
sprintf(buff, "Run:%d BPM:%03d", isRunning, bpm);
gLCD.drawstring(0, col++, buff);
sprintf(buff, "Stp:%02d Nto:%d Pch:%02d",
currentStep, sequences[currentStep].isNoteOn(), sequences[currentStep].getPitch());
gLCD.drawstring(0, col++, buff);
sprintf(buff, "Oct:%-2d Tie:%d Acc:%d",
sequencerDisplay.getOctave(), sequences[currentStep].isTie(),sequences[currentStep].isAccent());
gLCD.drawstring(0, col++, buff);
sprintf(buff, "Wsp:%d Mod:%d", oscillatorParam.waveShape, UImode);
gLCD.drawstring(0, col++, buff);
sprintf(buff, "PW :%4d CO :%4d", oscillatorParam.pulseWidth, filterParam.cutoff);
gLCD.drawstring(0, col++, buff);
sprintf(buff, "RSO:%4d ACL:%4d", filterParam.resonance, accentLevel);
gLCD.drawstring(0, col++, buff);
sprintf(buff, "LVL:%4d DUR:%4d", envelopeParam.level, envelopeParam.duration);
gLCD.drawstring(0, col++, buff);
sprintf(buff, "DCY:%4d SUS:%4d", envelopeParam.decay, envelopeParam.sustain);
gLCD.drawstring(0, col++, buff);
gLCD.display();
}
void dumpToLCD01()
{
char buff[64];
int col = 0;
gLCD.clear();
sprintf(buff, "Cutoff %5d", AinCutOff.read_u16() >> 8);
gLCD.drawstring(0, col++, buff);
sprintf(buff, "Duration %5d", AinDuration.read_u16() >> 8);
gLCD.drawstring(0, col++, buff);
sprintf(buff, "Decay %5d", AinDecay.read_u16() >> 8);
gLCD.drawstring(0, col++, buff);
sprintf(buff, "Sustain %5d", AinSustain.read_u16() >> 8);
gLCD.drawstring(0, col++, buff);
sprintf(buff, "Resonance %5d", AinResonance.read_u16() >> 8);
gLCD.drawstring(0, col++, buff);
sprintf(buff, "Level %5d", AinLevel.read_u16() >> 8);
gLCD.drawstring(0, col++, buff);
sprintf(buff, "PulseWidth %5d", AinPulseWidth.read_u16() >> 8);
gLCD.drawstring(0, col++, buff);
sprintf(buff, "AccentLvl %5d", AinAccentLevel.read_u16() >> 8);
gLCD.drawstring(0, col++, buff);
gLCD.display();
}
//------------------------------------------------------------------------
// Main routine
//------------------------------------------------------------------------
int main()
{
#if (UART_TRACE)
printf("*** BaseMachine UI Controller ***\r\n");
#endif
//--------------------------------------------------------------------
// Setup Devices
//
spiMaster.format(8, 0);
spiMaster.frequency(SPI1_RATE);
gLCD.set_spi_frequency(SPI2_RATE);
gLCD.begin(0x12);
gLCD.clear();
gLCD.drawstring(0, 0, TITLE_STR1);
gLCD.drawstring(0, 1, TITLE_STR2);
gLCD.display();
Thread::wait(1000);
RotEncStep.setInterval(100);
RotEncPitch.setInterval(100);
RotEncBpm.setInterval(100);
PinWaveShape.attach_asserted(&swWaveShapePressed);
PinWaveShape.setAssertValue(0);
PinWaveShape.setSampleFrequency();
PinUIMode.attach_asserted(&swUIModePressed);
PinUIMode.setAssertValue(0);
PinUIMode.setSampleFrequency();
PinOctaveUp.attach_asserted(&swOctaveUpPressed);
PinOctaveUp.setAssertValue(0);
PinOctaveUp.setSampleFrequency();
PinOctaveDown.attach_asserted(&swOctaveDownPressed);
PinOctaveDown.setAssertValue(0);
PinOctaveDown.setSampleFrequency();
PinNoteOnOff.attach_asserted(&swNoteOnOffPressed);
PinNoteOnOff.setAssertValue(0);
PinNoteOnOff.setSampleFrequency();
PinTie.attach_asserted(&swTiePressed);
PinTie.setAssertValue(0);
PinTie.setSampleFrequency();
PinAccent.attach_asserted(&swAccentPressed);
PinAccent.setAssertValue(0);
PinAccent.setSampleFrequency();
PinRunStop.attach_asserted(&swRunStopPressed);
PinRunStop.setAssertValue(0);
PinRunStop.setSampleFrequency();
//--------------------------------------------------------------------
// Initialize objects
//
Sequence::setBaseNoteNumber(baseNoteNumber);
for (int i = 0; i < SEQUENCE_N; i++) {
Sequence& seq = sequences[i];
seq.setPitch(pitch[i]);
seq.setNoteOn(noteOn[i]);
seq.setTie(tie[i]);
seq.setAccent(accent[i]);
}
RotEncPitch.setVal(sequences[0].getPitch());
//--------------------------------------------------------------------
// Main loop
//
for (;;) {
pollingPots();
pollingRotEncs();
pollingPins();
if (!isRunning) {
if (isDirty) {
switch (UImode) {
case 0:
sequencerDisplay.update(SequencerDisplay::stop, currentStep, playingStep);
break;
case 1:
dumpToLCD00();
break;
}
isDirty = false;
}
if (UImode == 2) {
dumpToLCD01();
}
} else {
if (isDirty) {
sequencerDisplay.update(SequencerDisplay::run, currentStep, playingStep);
/*
static int cnt = 0;
char buffer[32];
sprintf(buffer, "%d", cnt);
cnt++;
gLCD.clear();
gLCD.drawstring(0, 0, buffer);
gLCD.display();
*/
//gLCD.fillrect((currentStep-1) * 7, 1, 7, 1, 0);
//gLCD.clear();
//gLCD.fillrect(currentStep * 7, 1, 7, 3, 1);
//gLCD.display();
isDirty = false;
}
}
}
}