Ryo Od / Mbed 2 deprecated BaseMachine_UI_Controller

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@35:0165b610796d, 2016-09-09 (annotated)

Committer:
ryood
Date:
Fri Sep 09 02:50:00 2016 +0000
Revision:
35:0165b610796d
Parent:
34:602ee5e771e3
Child:
36:50ad7e0a9a95
Display LCD while run (uncompleted)

Who changed what in which revision?

UserRevisionLine numberNew contents of line
ryood 15:9813d8eaf57e 1 /*
ryood 15:9813d8eaf57e 2 * main.cpp
ryood 15:9813d8eaf57e 3 * SpiSequencerSender_test
ryood 15:9813d8eaf57e 4 *
ryood 15:9813d8eaf57e 5 * 2016.08.20 mbed Rev 121 / mbed-rtos Rev 117で動作確認
ryood 15:9813d8eaf57e 6 *
ryood 15:9813d8eaf57e 7 */
ryood 15:9813d8eaf57e 8
ryood 0:21e39bc75e31 9 #include "mbed.h"
ryood 5:4abac408b827 10 #include "rtos.h"
ryood 16:b0419e3c9079 11 #include "st7565LCD.h"
ryood 18:309f794eba74 12 #include "PinDetect.h"
ryood 20:00d3b6ace8c7 13 #include "RotaryEncoder.h"
ryood 19:241a4b355413 14 #include "AverageAnalogIn.h"
ryood 0:21e39bc75e31 15
ryood 6:fc10eac60b91 16 #define UART_TRACE (0)
ryood 6:fc10eac60b91 17 #include "SpiSequenceSender.h"
ryood 9:3e4e08578e1c 18 #include "EnvelopeGenerator.h"
ryood 9:3e4e08578e1c 19 #include "SpiAmpController.h"
ryood 12:c248781608af 20 #include "SpiFilterController.h"
ryood 17:557658db3e81 21 #include "ST7565_SequencerDisplay.h"
ryood 0:21e39bc75e31 22
ryood 16:b0419e3c9079 23 #define TITLE_STR1 ("BaseMachine Sequencer")
ryood 35:0165b610796d 24 #define TITLE_STR2 ("20160909")
ryood 16:b0419e3c9079 25
ryood 6:fc10eac60b91 26 #define SEQUENCE_N (16)
ryood 28:d8614d2b82f9 27 #define SPI_RATE (16000000) // Actual frequency about 5MHz
ryood 0:21e39bc75e31 28
ryood 14:c173e03ee3ad 29 const int samplingPeriod = 1; // ms
ryood 10:fb04f9959fd9 30 const int bpm = 120;
ryood 10:fb04f9959fd9 31 const int envelopeLength = (60 * 1000 / (bpm * 4)) / samplingPeriod;
ryood 20:00d3b6ace8c7 32 const int waveShape = SpiSequenceSender::WAVESHAPE_SQUARE;
ryood 20:00d3b6ace8c7 33 const int baseNoteNumber = 36;
ryood 20:00d3b6ace8c7 34 const int bpmMax = 240;
ryood 20:00d3b6ace8c7 35 const int bpmMin = 60;
ryood 28:d8614d2b82f9 36 const int UImodeMax = 2;
ryood 14:c173e03ee3ad 37
ryood 14:c173e03ee3ad 38 // Initial Sequence
ryood 26:fbf48a178aeb 39 const int noteOn[SEQUENCE_N] = { 1, 1, 1, 0, 1, 1, 1, 0, 1, 1, 1, 0, 1, 1, 1, 0 };
ryood 26:fbf48a178aeb 40 const int pitch[SEQUENCE_N] = {36,36,36,36,36,36,36,36,36,36,36,36,36,36,36,36 };
ryood 26:fbf48a178aeb 41 const int tie[SEQUENCE_N] = { 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0 };
ryood 26:fbf48a178aeb 42 const int accent[SEQUENCE_N] = { 1, 0, 0, 0, 1, 0, 0, 0, 1, 0, 0, 0, 1, 0, 0, 0 };
ryood 10:fb04f9959fd9 43
ryood 16:b0419e3c9079 44 // Devices
ryood 16:b0419e3c9079 45 //
ryood 16:b0419e3c9079 46 //SPI (PinName mosi, PinName miso, PinName sclk, PinName ssel=NC)
ryood 19:241a4b355413 47 SPI spiMaster(PA_7, PA_6, PA_5);
ryood 16:b0419e3c9079 48
ryood 16:b0419e3c9079 49 //ST7565(PinName mosi, PinName sclk, PinName cs, PinName rst, PinName a0);
ryood 16:b0419e3c9079 50 ST7565 gLCD(PB_15, PB_13, PB_12, PB_2, PB_1);
ryood 16:b0419e3c9079 51
ryood 19:241a4b355413 52 AverageAnalogIn AinPulseWidth(PC_2);
ryood 19:241a4b355413 53 AverageAnalogIn AinCutOff(PB_0);
ryood 19:241a4b355413 54 AverageAnalogIn AinResonance(PC_1);
ryood 19:241a4b355413 55 AverageAnalogIn AinEnvMod(PC_3);
ryood 19:241a4b355413 56 AverageAnalogIn AinLevel(PC_0);
ryood 19:241a4b355413 57 AverageAnalogIn AinDuration(PA_4);
ryood 19:241a4b355413 58 AverageAnalogIn AinDecay(PA_1);
ryood 19:241a4b355413 59 AverageAnalogIn AinSustain(PA_0);
ryood 10:fb04f9959fd9 60
ryood 31:16d1fbf3a167 61 RotaryEncoder RotEncStep(PB_9, PB_8, 0, SEQUENCE_N - 1, 0);
ryood 26:fbf48a178aeb 62 RotaryEncoder RotEncPitch(PB_5, PB_4, 0, Sequence::getMaxPitch() - 1, 0);
ryood 31:16d1fbf3a167 63 RotaryEncoder RotEncBpm(PC_12, PC_10, bpmMin, bpmMax, 120);
ryood 20:00d3b6ace8c7 64
ryood 18:309f794eba74 65 PinDetect PinWaveShape(PD_2, PullUp);
ryood 28:d8614d2b82f9 66 PinDetect PinUIMode(PC_11, PullUp);
ryood 31:16d1fbf3a167 67 PinDetect PinOctaveUp(PB_3, PullUp);
ryood 31:16d1fbf3a167 68 PinDetect PinOctaveDown(PA_10, PullUp);
ryood 31:16d1fbf3a167 69 PinDetect PinNoteOnOff(PC_5, PullUp);
ryood 31:16d1fbf3a167 70 PinDetect PinTie(PC_6, PullUp);
ryood 31:16d1fbf3a167 71 PinDetect PinAccent(PC_8, PullUp);
ryood 31:16d1fbf3a167 72 PinDetect PinRunStop(PC_9, PullUp);
ryood 18:309f794eba74 73
ryood 34:602ee5e771e3 74 PwmOut LCDBackLight(PA_11);
ryood 34:602ee5e771e3 75
ryood 16:b0419e3c9079 76 // Grobal Variables
ryood 16:b0419e3c9079 77 //
ryood 16:b0419e3c9079 78 Sequence sequences[SEQUENCE_N];
ryood 16:b0419e3c9079 79 SpiSequenceSender sequenceSender(&spiMaster, D9, sequences, SEQUENCE_N, samplingPeriod, bpm);
ryood 6:fc10eac60b91 80
ryood 10:fb04f9959fd9 81 Envelope envelope(4095, envelopeLength, envelopeLength*3/4, envelopeLength/2, 2047);
ryood 9:3e4e08578e1c 82 EnvelopeGenerator envelopeGenerator;
ryood 9:3e4e08578e1c 83 SpiAmpController ampController(&spiMaster, D8, D7);
ryood 6:fc10eac60b91 84
ryood 12:c248781608af 85 SpiFilterController filterController(&spiMaster, D10);
ryood 0:21e39bc75e31 86
ryood 17:557658db3e81 87 ST7565_SequencerDisplay sequencerDisplay(&gLCD, sequences, SEQUENCE_N);
ryood 17:557658db3e81 88
ryood 16:b0419e3c9079 89 volatile int currentStep = 0;
ryood 16:b0419e3c9079 90 volatile bool isRunning = false;
ryood 26:fbf48a178aeb 91 volatile bool isDirty = true;
ryood 16:b0419e3c9079 92 volatile uint8_t pinFlag = 0x00;
ryood 28:d8614d2b82f9 93 volatile int UImode = 0;
ryood 16:b0419e3c9079 94
ryood 16:b0419e3c9079 95 enum PinBit {
ryood 16:b0419e3c9079 96 bWaveShape = 0x01,
ryood 28:d8614d2b82f9 97 bUIMode = 0x02,
ryood 16:b0419e3c9079 98 bOctaveUp = 0x04,
ryood 16:b0419e3c9079 99 bOctaveDown = 0x08,
ryood 16:b0419e3c9079 100 bNoteOnOff = 0x10,
ryood 16:b0419e3c9079 101 bTie = 0x20,
ryood 16:b0419e3c9079 102 bAccent = 0x40,
ryood 16:b0419e3c9079 103 bRunStop = 0x80
ryood 16:b0419e3c9079 104 };
ryood 16:b0419e3c9079 105
ryood 16:b0419e3c9079 106 // とりあえずの変数(後でClassのメンバ変数に格納)
ryood 21:c4d09aaa52b9 107 volatile uint8_t envMod = 127;
ryood 16:b0419e3c9079 108
ryood 16:b0419e3c9079 109 //------------------------------------------------------------------------
ryood 16:b0419e3c9079 110 // Callback functions
ryood 16:b0419e3c9079 111 //------------------------------------------------------------------------
ryood 35:0165b610796d 112 void updateTicks(int ticks)
ryood 8:de409197ff95 113 {
ryood 8:de409197ff95 114 if (ticks == 0) {
ryood 9:3e4e08578e1c 115 envelopeGenerator.init(envelope);
ryood 35:0165b610796d 116 // ToDo: 再生中のLCD表示を検討→SPI1とSPI2の信号のタイミングを調査
ryood 35:0165b610796d 117 sequencerDisplay.update(SequencerDisplay::run, sequenceSender.getStep());
ryood 8:de409197ff95 118 }
ryood 14:c173e03ee3ad 119
ryood 27:c382689e652b 120 if (sequences[sequenceSender.getStep()].isNoteOn()) {
ryood 14:c173e03ee3ad 121 uint16_t level = envelopeGenerator.getModLevel();
ryood 27:c382689e652b 122 if (!sequences[sequenceSender.getStep()].isAccent()) {
ryood 35:0165b610796d 123 level = level * 1 / 2;
ryood 27:c382689e652b 124 }
ryood 14:c173e03ee3ad 125 ampController.outDca(level);
ryood 14:c173e03ee3ad 126 } else {
ryood 14:c173e03ee3ad 127 ampController.outDca(0);
ryood 14:c173e03ee3ad 128 }
ryood 9:3e4e08578e1c 129 envelopeGenerator.update();
ryood 12:c248781608af 130
ryood 15:9813d8eaf57e 131 filterController.outDcf();
ryood 8:de409197ff95 132 }
ryood 8:de409197ff95 133
ryood 16:b0419e3c9079 134 //------------------------------------------------------------------------
ryood 18:309f794eba74 135 // PinDetect ISR
ryood 18:309f794eba74 136 //------------------------------------------------------------------------
ryood 18:309f794eba74 137 void swWaveShapePressed()
ryood 18:309f794eba74 138 {
ryood 18:309f794eba74 139 pinFlag |= bWaveShape;
ryood 18:309f794eba74 140 }
ryood 18:309f794eba74 141
ryood 28:d8614d2b82f9 142 void swUIModePressed()
ryood 18:309f794eba74 143 {
ryood 28:d8614d2b82f9 144 pinFlag |= bUIMode;
ryood 18:309f794eba74 145 }
ryood 18:309f794eba74 146
ryood 18:309f794eba74 147 void swOctaveUpPressed()
ryood 18:309f794eba74 148 {
ryood 18:309f794eba74 149 pinFlag |= bOctaveUp;
ryood 18:309f794eba74 150 }
ryood 18:309f794eba74 151
ryood 18:309f794eba74 152 void swOctaveDownPressed()
ryood 18:309f794eba74 153 {
ryood 18:309f794eba74 154 pinFlag |= bOctaveDown;
ryood 18:309f794eba74 155 }
ryood 18:309f794eba74 156
ryood 18:309f794eba74 157 void swNoteOnOffPressed()
ryood 18:309f794eba74 158 {
ryood 18:309f794eba74 159 pinFlag |= bNoteOnOff;
ryood 18:309f794eba74 160 }
ryood 18:309f794eba74 161
ryood 18:309f794eba74 162 void swTiePressed()
ryood 18:309f794eba74 163 {
ryood 18:309f794eba74 164 pinFlag |= bTie;
ryood 18:309f794eba74 165 }
ryood 18:309f794eba74 166
ryood 18:309f794eba74 167 void swAccentPressed()
ryood 18:309f794eba74 168 {
ryood 18:309f794eba74 169 pinFlag |= bAccent;
ryood 18:309f794eba74 170 }
ryood 18:309f794eba74 171
ryood 18:309f794eba74 172 void swRunStopPressed()
ryood 18:309f794eba74 173 {
ryood 18:309f794eba74 174 pinFlag |= bRunStop;
ryood 18:309f794eba74 175 }
ryood 18:309f794eba74 176
ryood 18:309f794eba74 177 //------------------------------------------------------------------------
ryood 16:b0419e3c9079 178 // Functions
ryood 16:b0419e3c9079 179 //------------------------------------------------------------------------
ryood 19:241a4b355413 180 void pollingPots()
ryood 19:241a4b355413 181 {
ryood 32:2a4554f8ad3e 182 sequenceSender.setPulseWidth(AinPulseWidth.read_u16() >> 8);
ryood 20:00d3b6ace8c7 183
ryood 19:241a4b355413 184 filterController.setCutoff(AinCutOff.read_u16() >> 8);
ryood 19:241a4b355413 185 filterController.setResonance(AinResonance.read_u16() >> 8);
ryood 34:602ee5e771e3 186
ryood 34:602ee5e771e3 187 // テスト用にバックライトの調整に使用
ryood 34:602ee5e771e3 188 LCDBackLight = AinEnvMod.read();
ryood 19:241a4b355413 189
ryood 33:a24a4c435973 190 envelope.setLevel(AinLevel.read_u16() >> 4);
ryood 19:241a4b355413 191 envelope.setDuration(AinDuration.read() * envelopeLength);
ryood 19:241a4b355413 192 envelope.setDecay(AinDecay.read() * envelopeLength);
ryood 19:241a4b355413 193 envelope.setSustain(AinSustain.read() * 4095);
ryood 20:00d3b6ace8c7 194 }
ryood 20:00d3b6ace8c7 195
ryood 20:00d3b6ace8c7 196 void pollingRotEncs()
ryood 20:00d3b6ace8c7 197 {
ryood 20:00d3b6ace8c7 198 int _bpm = RotEncBpm.getVal();
ryood 20:00d3b6ace8c7 199 if (_bpm != sequenceSender.getBpm()) {
ryood 20:00d3b6ace8c7 200 sequenceSender.setBpm(_bpm);
ryood 25:7382bc0a0329 201 sequencerDisplay.setBpm(_bpm);
ryood 20:00d3b6ace8c7 202 isDirty = true;
ryood 20:00d3b6ace8c7 203 }
ryood 20:00d3b6ace8c7 204
ryood 20:00d3b6ace8c7 205 int _step = RotEncStep.getVal();
ryood 20:00d3b6ace8c7 206 if (_step != currentStep) {
ryood 20:00d3b6ace8c7 207 currentStep = _step;
ryood 20:00d3b6ace8c7 208 // syncronize sequence value & Rotary Encoder's value
ryood 20:00d3b6ace8c7 209 RotEncPitch.setVal(sequences[currentStep].getPitch());
ryood 20:00d3b6ace8c7 210 isDirty = true;
ryood 20:00d3b6ace8c7 211 }
ryood 20:00d3b6ace8c7 212
ryood 20:00d3b6ace8c7 213 int _pitch = RotEncPitch.getVal();
ryood 20:00d3b6ace8c7 214 if (_pitch != sequences[currentStep].getPitch()) {
ryood 20:00d3b6ace8c7 215 sequences[currentStep].setPitch(_pitch);
ryood 20:00d3b6ace8c7 216 isDirty = true;
ryood 20:00d3b6ace8c7 217 }
ryood 19:241a4b355413 218 }
ryood 19:241a4b355413 219
ryood 18:309f794eba74 220 void pollingPins()
ryood 18:309f794eba74 221 {
ryood 18:309f794eba74 222 if (pinFlag & bWaveShape) {
ryood 18:309f794eba74 223 #if (UART_TRACE)
ryood 18:309f794eba74 224 printf("PinWaveShape Pushed\r\n");
ryood 18:309f794eba74 225 #endif
ryood 18:309f794eba74 226 uint8_t waveShape = sequenceSender.getWaveShape();
ryood 18:309f794eba74 227 waveShape++;
ryood 25:7382bc0a0329 228 if (waveShape == SpiSequenceSender::WAVESHAPE_N) {
ryood 25:7382bc0a0329 229 waveShape = 0;
ryood 18:309f794eba74 230 }
ryood 25:7382bc0a0329 231 sequenceSender.setWaveShape(waveShape);
ryood 25:7382bc0a0329 232 sequencerDisplay.setWaveShape(waveShape);
ryood 18:309f794eba74 233 pinFlag &= ~bWaveShape;
ryood 28:d8614d2b82f9 234 isDirty = true;
ryood 18:309f794eba74 235 }
ryood 18:309f794eba74 236
ryood 28:d8614d2b82f9 237 if (pinFlag & bUIMode) {
ryood 18:309f794eba74 238 #if (UART_TRACE)
ryood 28:d8614d2b82f9 239 printf("PinUIMode Pushed\r\n");
ryood 18:309f794eba74 240 #endif
ryood 28:d8614d2b82f9 241 UImode++;
ryood 28:d8614d2b82f9 242 if (UImode > UImodeMax) {
ryood 28:d8614d2b82f9 243 UImode = 0;
ryood 18:309f794eba74 244 }
ryood 28:d8614d2b82f9 245 pinFlag &= ~bUIMode;
ryood 28:d8614d2b82f9 246 isDirty = true;
ryood 18:309f794eba74 247 }
ryood 18:309f794eba74 248
ryood 18:309f794eba74 249 if (pinFlag & bOctaveUp) {
ryood 18:309f794eba74 250 #if (UART_TRACE)
ryood 18:309f794eba74 251 printf("PinOctaveUp Pushed\r\n");
ryood 18:309f794eba74 252 #endif
ryood 25:7382bc0a0329 253 //sequences[currentStep].setOctave(sequences[currentStep].getOctave() + 1);
ryood 25:7382bc0a0329 254 sequencerDisplay.setOctave(sequencerDisplay.getOctave() + 1);
ryood 18:309f794eba74 255 pinFlag &= ~bOctaveUp;
ryood 28:d8614d2b82f9 256 isDirty = true;
ryood 18:309f794eba74 257 }
ryood 18:309f794eba74 258
ryood 18:309f794eba74 259 if (pinFlag & bOctaveDown) {
ryood 18:309f794eba74 260 #if (UART_TRACE)
ryood 18:309f794eba74 261 printf("PinOctaveDown Pushed\r\n");
ryood 18:309f794eba74 262 #endif
ryood 25:7382bc0a0329 263 //sequences[currentStep].setOctave(sequences[currentStep].getOctave() - 1);
ryood 25:7382bc0a0329 264 sequencerDisplay.setOctave(sequencerDisplay.getOctave() - 1);
ryood 18:309f794eba74 265 pinFlag &= ~bOctaveDown;
ryood 28:d8614d2b82f9 266 isDirty = true;
ryood 18:309f794eba74 267 }
ryood 18:309f794eba74 268
ryood 18:309f794eba74 269 if (pinFlag & bNoteOnOff) {
ryood 18:309f794eba74 270 #if (UART_TRACE)
ryood 18:309f794eba74 271 printf("PinNoteOnOff Pushed\r\n");
ryood 18:309f794eba74 272 #endif
ryood 18:309f794eba74 273 sequences[currentStep].setNoteOn(!sequences[currentStep].isNoteOn());
ryood 18:309f794eba74 274 pinFlag &= ~bNoteOnOff;
ryood 28:d8614d2b82f9 275 isDirty = true;
ryood 18:309f794eba74 276 }
ryood 18:309f794eba74 277
ryood 18:309f794eba74 278 if (pinFlag & bTie) {
ryood 18:309f794eba74 279 #if (UART_TRACE)
ryood 18:309f794eba74 280 printf("PinTie Pushed\r\n");
ryood 18:309f794eba74 281 #endif
ryood 18:309f794eba74 282 sequences[currentStep].setTie(!sequences[currentStep].isTie());
ryood 18:309f794eba74 283 pinFlag &= ~bTie;
ryood 28:d8614d2b82f9 284 isDirty = true;
ryood 18:309f794eba74 285 }
ryood 18:309f794eba74 286
ryood 18:309f794eba74 287 if (pinFlag & bAccent) {
ryood 18:309f794eba74 288 #if (UART_TRACE)
ryood 18:309f794eba74 289 printf("PinAccent Pushed\r\n");
ryood 18:309f794eba74 290 #endif
ryood 18:309f794eba74 291 sequences[currentStep].setAccent(!sequences[currentStep].isAccent());
ryood 18:309f794eba74 292 pinFlag &= ~bAccent;
ryood 28:d8614d2b82f9 293 isDirty = true;
ryood 18:309f794eba74 294 }
ryood 18:309f794eba74 295
ryood 18:309f794eba74 296 if (pinFlag & bRunStop) {
ryood 18:309f794eba74 297 #if (UART_TRACE)
ryood 18:309f794eba74 298 printf("PinRunStop Pushed\r\n");
ryood 18:309f794eba74 299 #endif
ryood 18:309f794eba74 300 if (isRunning) {
ryood 22:82f1e7877f9f 301 ampController.outDca(0);
ryood 18:309f794eba74 302 sequenceSender.stop();
ryood 18:309f794eba74 303 isRunning = false;
ryood 18:309f794eba74 304 } else {
ryood 18:309f794eba74 305 sequenceSender.run(currentStep);
ryood 18:309f794eba74 306 isRunning = true;
ryood 18:309f794eba74 307 }
ryood 18:309f794eba74 308 pinFlag &= ~bRunStop;
ryood 28:d8614d2b82f9 309 isDirty = true;
ryood 18:309f794eba74 310 }
ryood 18:309f794eba74 311 }
ryood 18:309f794eba74 312
ryood 28:d8614d2b82f9 313 void dumpToLCD00()
ryood 16:b0419e3c9079 314 {
ryood 16:b0419e3c9079 315 char buff[64];
ryood 16:b0419e3c9079 316 int col = 0;
ryood 16:b0419e3c9079 317
ryood 16:b0419e3c9079 318 gLCD.clear();
ryood 16:b0419e3c9079 319
ryood 24:040cdcb2ff14 320 sprintf(buff, "Run:%d BPM:%03d", isRunning, sequenceSender.getBpm());
ryood 16:b0419e3c9079 321 gLCD.drawstring(0, col++, buff);
ryood 24:040cdcb2ff14 322
ryood 24:040cdcb2ff14 323 sprintf(buff, "Stp:%02d Nto:%d Pch:%02d",
ryood 24:040cdcb2ff14 324 currentStep, sequences[currentStep].isNoteOn(), sequences[currentStep].getPitch());
ryood 24:040cdcb2ff14 325 gLCD.drawstring(0, col++, buff);
ryood 24:040cdcb2ff14 326
ryood 24:040cdcb2ff14 327 sprintf(buff, "Oct:%-2d Tie:%d Acc:%d",
ryood 26:fbf48a178aeb 328 sequencerDisplay.getOctave(), sequences[currentStep].isTie(),sequences[currentStep].isAccent());
ryood 16:b0419e3c9079 329 gLCD.drawstring(0, col++, buff);
ryood 16:b0419e3c9079 330
ryood 28:d8614d2b82f9 331 sprintf(buff, "Wsp:%d Mod:%d", sequenceSender.getWaveShape(), UImode);
ryood 16:b0419e3c9079 332 gLCD.drawstring(0, col++, buff);
ryood 16:b0419e3c9079 333
ryood 24:040cdcb2ff14 334 sprintf(buff, "PW :%4d CO :%4d", sequenceSender.getPulseWidth(), filterController.getCutoff());
ryood 24:040cdcb2ff14 335 gLCD.drawstring(0, col++, buff);
ryood 24:040cdcb2ff14 336 sprintf(buff, "RSO:%4d ENV:%4d", filterController.getResonance(), envMod);
ryood 24:040cdcb2ff14 337 gLCD.drawstring(0, col++, buff);
ryood 24:040cdcb2ff14 338 sprintf(buff, "LVL:%4d DUR:%4d", envelope.getLevel(), envelope.getDuration());
ryood 24:040cdcb2ff14 339 gLCD.drawstring(0, col++, buff);
ryood 24:040cdcb2ff14 340 sprintf(buff, "DCY:%4d SUS:%4d", envelope.getDecay(), envelope.getSustain());
ryood 24:040cdcb2ff14 341 gLCD.drawstring(0, col++, buff);
ryood 16:b0419e3c9079 342
ryood 16:b0419e3c9079 343 gLCD.display();
ryood 16:b0419e3c9079 344 }
ryood 16:b0419e3c9079 345
ryood 28:d8614d2b82f9 346 void dumpToLCD01()
ryood 28:d8614d2b82f9 347 {
ryood 28:d8614d2b82f9 348 char buff[64];
ryood 28:d8614d2b82f9 349 int col = 0;
ryood 28:d8614d2b82f9 350
ryood 28:d8614d2b82f9 351 gLCD.clear();
ryood 28:d8614d2b82f9 352
ryood 28:d8614d2b82f9 353 sprintf(buff, "Cutoff %5d", AinCutOff.read_u16() >> 8);
ryood 28:d8614d2b82f9 354 gLCD.drawstring(0, col++, buff);
ryood 28:d8614d2b82f9 355 sprintf(buff, "Duration %5d", AinDuration.read_u16() >> 8);
ryood 28:d8614d2b82f9 356 gLCD.drawstring(0, col++, buff);
ryood 28:d8614d2b82f9 357 sprintf(buff, "Decay %5d", AinDecay.read_u16() >> 8);
ryood 28:d8614d2b82f9 358 gLCD.drawstring(0, col++, buff);
ryood 28:d8614d2b82f9 359 sprintf(buff, "Sustain %5d", AinSustain.read_u16() >> 8);
ryood 28:d8614d2b82f9 360 gLCD.drawstring(0, col++, buff);
ryood 28:d8614d2b82f9 361
ryood 28:d8614d2b82f9 362
ryood 28:d8614d2b82f9 363 sprintf(buff, "Resonance %5d", AinResonance.read_u16() >> 8);
ryood 28:d8614d2b82f9 364 gLCD.drawstring(0, col++, buff);
ryood 28:d8614d2b82f9 365 sprintf(buff, "Level %5d", AinLevel.read_u16() >> 8);
ryood 28:d8614d2b82f9 366 gLCD.drawstring(0, col++, buff);
ryood 30:0f652280d6ee 367 sprintf(buff, "PulseWidth %5d", AinPulseWidth.read_u16() >> 8);
ryood 28:d8614d2b82f9 368 gLCD.drawstring(0, col++, buff);
ryood 30:0f652280d6ee 369 sprintf(buff, "EnvMod %5d", AinEnvMod.read_u16() >> 8);
ryood 28:d8614d2b82f9 370 gLCD.drawstring(0, col++, buff);
ryood 28:d8614d2b82f9 371
ryood 28:d8614d2b82f9 372 gLCD.display();
ryood 28:d8614d2b82f9 373 }
ryood 28:d8614d2b82f9 374
ryood 16:b0419e3c9079 375 //------------------------------------------------------------------------
ryood 16:b0419e3c9079 376 // Main routine
ryood 16:b0419e3c9079 377 //------------------------------------------------------------------------
ryood 0:21e39bc75e31 378 int main()
ryood 0:21e39bc75e31 379 {
ryood 18:309f794eba74 380 #if (UART_TRACE)
ryood 18:309f794eba74 381 printf("*** BaseMachine Sequencer ***\r\n");
ryood 18:309f794eba74 382 #endif
ryood 18:309f794eba74 383
ryood 24:040cdcb2ff14 384 //--------------------------------------------------------------------
ryood 16:b0419e3c9079 385 // Setup Devices
ryood 16:b0419e3c9079 386 //
ryood 0:21e39bc75e31 387 spiMaster.format(8, 0);
ryood 0:21e39bc75e31 388 spiMaster.frequency(SPI_RATE);
ryood 0:21e39bc75e31 389
ryood 24:040cdcb2ff14 390 // Mute output
ryood 24:040cdcb2ff14 391 ampController.outDca(0);
ryood 24:040cdcb2ff14 392
ryood 34:602ee5e771e3 393 LCDBackLight.period_ms(10);
ryood 34:602ee5e771e3 394 LCDBackLight = 0.6f;
ryood 28:d8614d2b82f9 395 gLCD.set_spi_frequency(SPI_RATE);
ryood 16:b0419e3c9079 396 gLCD.begin(0x12);
ryood 16:b0419e3c9079 397 gLCD.clear();
ryood 16:b0419e3c9079 398 gLCD.drawstring(0, 0, TITLE_STR1);
ryood 16:b0419e3c9079 399 gLCD.drawstring(0, 1, TITLE_STR2);
ryood 16:b0419e3c9079 400 gLCD.display();
ryood 16:b0419e3c9079 401 Thread::wait(1000);
ryood 16:b0419e3c9079 402
ryood 20:00d3b6ace8c7 403 RotEncStep.setInterval(100);
ryood 20:00d3b6ace8c7 404 RotEncPitch.setInterval(100);
ryood 20:00d3b6ace8c7 405 RotEncBpm.setInterval(100);
ryood 17:557658db3e81 406
ryood 18:309f794eba74 407 PinWaveShape.attach_asserted(&swWaveShapePressed);
ryood 18:309f794eba74 408 PinWaveShape.setAssertValue(0);
ryood 18:309f794eba74 409 PinWaveShape.setSampleFrequency();
ryood 18:309f794eba74 410
ryood 28:d8614d2b82f9 411 PinUIMode.attach_asserted(&swUIModePressed);
ryood 28:d8614d2b82f9 412 PinUIMode.setAssertValue(0);
ryood 28:d8614d2b82f9 413 PinUIMode.setSampleFrequency();
ryood 18:309f794eba74 414
ryood 18:309f794eba74 415 PinOctaveUp.attach_asserted(&swOctaveUpPressed);
ryood 18:309f794eba74 416 PinOctaveUp.setAssertValue(0);
ryood 18:309f794eba74 417 PinOctaveUp.setSampleFrequency();
ryood 18:309f794eba74 418
ryood 18:309f794eba74 419 PinOctaveDown.attach_asserted(&swOctaveDownPressed);
ryood 18:309f794eba74 420 PinOctaveDown.setAssertValue(0);
ryood 18:309f794eba74 421 PinOctaveDown.setSampleFrequency();
ryood 18:309f794eba74 422
ryood 18:309f794eba74 423 PinNoteOnOff.attach_asserted(&swNoteOnOffPressed);
ryood 18:309f794eba74 424 PinNoteOnOff.setAssertValue(0);
ryood 18:309f794eba74 425 PinNoteOnOff.setSampleFrequency();
ryood 18:309f794eba74 426
ryood 18:309f794eba74 427 PinTie.attach_asserted(&swTiePressed);
ryood 18:309f794eba74 428 PinTie.setAssertValue(0);
ryood 18:309f794eba74 429 PinTie.setSampleFrequency();
ryood 18:309f794eba74 430
ryood 18:309f794eba74 431 PinAccent.attach_asserted(&swAccentPressed);
ryood 18:309f794eba74 432 PinAccent.setAssertValue(0);
ryood 18:309f794eba74 433 PinAccent.setSampleFrequency();
ryood 18:309f794eba74 434
ryood 18:309f794eba74 435 PinRunStop.attach_asserted(&swRunStopPressed);
ryood 18:309f794eba74 436 PinRunStop.setAssertValue(0);
ryood 18:309f794eba74 437 PinRunStop.setSampleFrequency();
ryood 18:309f794eba74 438
ryood 24:040cdcb2ff14 439 //--------------------------------------------------------------------
ryood 22:82f1e7877f9f 440 // Initialize objects
ryood 0:21e39bc75e31 441 //
ryood 15:9813d8eaf57e 442 Sequence::setBaseNoteNumber(baseNoteNumber);
ryood 14:c173e03ee3ad 443
ryood 0:21e39bc75e31 444 for (int i = 0; i < SEQUENCE_N; i++) {
ryood 0:21e39bc75e31 445 Sequence& seq = sequenceSender.getSequences()[i];
ryood 14:c173e03ee3ad 446 seq.setPitch(pitch[i]);
ryood 15:9813d8eaf57e 447 seq.setNoteOn(noteOn[i]);
ryood 15:9813d8eaf57e 448 seq.setTie(tie[i]);
ryood 26:fbf48a178aeb 449 seq.setAccent(accent[i]);
ryood 0:21e39bc75e31 450 }
ryood 26:fbf48a178aeb 451 RotEncPitch.setVal(sequences[0].getPitch());
ryood 6:fc10eac60b91 452
ryood 9:3e4e08578e1c 453 envelopeGenerator.init(envelope);
ryood 12:c248781608af 454
ryood 35:0165b610796d 455 sequenceSender.attachUpdate(&updateTicks);
ryood 14:c173e03ee3ad 456 sequenceSender.setWaveShape(waveShape);
ryood 5:4abac408b827 457
ryood 24:040cdcb2ff14 458 //--------------------------------------------------------------------
ryood 24:040cdcb2ff14 459 // Main loop
ryood 24:040cdcb2ff14 460 //
ryood 5:4abac408b827 461 for (;;) {
ryood 20:00d3b6ace8c7 462 pollingPots();
ryood 20:00d3b6ace8c7 463 pollingRotEncs();
ryood 18:309f794eba74 464 pollingPins();
ryood 23:5fe70293e34c 465 if (!isRunning) {
ryood 25:7382bc0a0329 466 if (isDirty) {
ryood 28:d8614d2b82f9 467 switch (UImode) {
ryood 28:d8614d2b82f9 468 case 0:
ryood 28:d8614d2b82f9 469 sequencerDisplay.update(SequencerDisplay::stop, currentStep);
ryood 28:d8614d2b82f9 470 break;
ryood 28:d8614d2b82f9 471 case 1:
ryood 28:d8614d2b82f9 472 dumpToLCD00();
ryood 28:d8614d2b82f9 473 break;
ryood 28:d8614d2b82f9 474 }
ryood 28:d8614d2b82f9 475 isDirty = false;
ryood 28:d8614d2b82f9 476 }
ryood 28:d8614d2b82f9 477 if (UImode == 2) {
ryood 28:d8614d2b82f9 478 dumpToLCD01();
ryood 28:d8614d2b82f9 479 }
ryood 28:d8614d2b82f9 480 } else {
ryood 28:d8614d2b82f9 481 if (isDirty) {
ryood 28:d8614d2b82f9 482 //sequencerDisplay.update(SequencerDisplay::run, currentStep);
ryood 35:0165b610796d 483 /*
ryood 28:d8614d2b82f9 484 static int cnt = 0;
ryood 28:d8614d2b82f9 485 char buffer[32];
ryood 28:d8614d2b82f9 486 sprintf(buffer, "%d", cnt);
ryood 28:d8614d2b82f9 487 cnt++;
ryood 28:d8614d2b82f9 488 gLCD.clear();
ryood 28:d8614d2b82f9 489 gLCD.drawstring(0, 0, buffer);
ryood 28:d8614d2b82f9 490 gLCD.display();
ryood 35:0165b610796d 491 */
ryood 35:0165b610796d 492 //gLCD.fillrect((currentStep-1) * 7, 1, 7, 1, 0);
ryood 35:0165b610796d 493 //gLCD.clear();
ryood 35:0165b610796d 494 //gLCD.fillrect(currentStep * 7, 1, 7, 3, 1);
ryood 35:0165b610796d 495 //gLCD.display();
ryood 35:0165b610796d 496
ryood 35:0165b610796d 497 //isDirty = false;
ryood 25:7382bc0a0329 498 }
ryood 23:5fe70293e34c 499 }
ryood 5:4abac408b827 500 }
ryood 0:21e39bc75e31 501 }