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xevi/NuEVI.ino
John Stäck ae950bedfc Remove unused constants
2018-09-03 15:10:25 +02:00

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#include <Wire.h>
#include <Adafruit_MPR121.h>
#include <SPI.h>
#include <EEPROM.h>
#include <Adafruit_GFX.h>
#include <Adafruit_SSD1306.h>
#include <Filters.h> // for the breath signal LP filtering, https://github.com/edgar-bonet/Filters
/*
NAME: NuEVI
WRITTEN BY: JOHAN BERGLUND
DATE: 2018-04-19
FILE SAVED AS: NuEVI.ino
FOR: PJRC Teensy 3.2 and a MPR121 capactive touch sensor board.
Uses an SSD1306 controlled OLED display communicating over I2C.
PROGRAMME FUNCTION: EVI Wind Controller using the Freescale MP3V5004GP breath sensor
and capacitive touch keys. Output to both USB MIDI and DIN MIDI.
*/
//_______________________________________________________________________________________________ DECLARATIONS
// Compile options, comment/uncomment to change
#define FIRMWARE_VERSION "1.2.6" // FIRMWARE VERSION NUMBER HERE <<<<<<<<<<<<<<<<<<<<<<<
#define REVB
//Uncomment the following line if you have Teensyduino 1.4.0 or earlier, to make pitch bend over USB-MIDI work.
#define NEWTEENSYDUINO
// Pin definitions
// Teensy pins
#define specialKeyPin 0 // SK or S2
#define halfPitchBendKeyPin 1 // PD or S1
#define bitePin 17
#define extraPin 16
#define pbUpPin 23
#define pbDnPin 22
#define vibratoPin 15
#define dPin 3
#define ePin 4
#define uPin 5
#define mPin 6
#define bLedPin 10
#define pLedPin 9
#define statusLedPin 13
#define vMeterPin A11
#define PBD 12
#define UPWD 1
#define DNWD 0
#if defined(REVB)
// MPR121 pins Rev B (angled pins at top edge for main keys and rollers)
#define R1Pin 0
#define R2Pin 2
#define R3Pin 4
#define R4Pin 6
#define R5Pin 8
#define K4Pin 10
#define K1Pin 1
#define K2Pin 3
#define K3Pin 5
#define K5Pin 7
#define K6Pin 9
#define K7Pin 11
/*
* PINOUT ON PCB vs PINS ON MPR121 - Rev. B
*
* (R1) (R2) (R3/6) (R4) (R5) (K4) <-> (00) (02) (04) (06) (08) (10)
*
* (K1) (K2) (K3) (K5) (K6) (K7) <-> (01) (03) (05) (07) (09) (11)
*
*/
# else
// MPR121 pins Rev A (upright pins below MPR121 for main keys and rollers)
#define R1Pin 10
#define R2Pin 11
#define R3Pin 8
#define R4Pin 9
#define R5Pin 6
#define K4Pin 7
#define K1Pin 4
#define K2Pin 5
#define K3Pin 2
#define K5Pin 3
#define K6Pin 0
#define K7Pin 1
/*
* PINOUT ON PCB vs PINS ON MPR121 - Rev. A
*
* (R2) (R4) (K4) (K2) (K5) (K7) <-> (11) (09) (07) (05) (03) (01)
*
* (R1) (R3/6) (R5) (K1) (K3) (K6) <-> (10) (08) (06) (04) (02) (00)
*
*/
#endif
#define ON_Delay 20 // Set Delay after ON threshold before velocity is checked (wait for tounging peak)
//#define touch_Thr 1200 // sensitivity for Teensy touch sensors
#define CCN_Port 5 // Controller number for portamento level
#define CCN_PortOnOff 65// Controller number for portamento on/off
// Send CC data no more than every CC_INTERVAL
// milliseconds
#define CC_INTERVAL 5
// The three states of our main state machine
// No note is sounding
#define NOTE_OFF 1
// We've observed a transition from below to above the
// threshold value. We wait a while to see how fast the
// breath velocity is increasing
#define RISE_WAIT 2
// A note is sounding
#define NOTE_ON 3
//display states
#define DISPLAYOFF_IDL 0
#define MAIN_MENU 1
#define PATCH_VIEW 2
#define BREATH_ADJ_IDL 10
#define BREATH_ADJ_THR 11
#define BREATH_ADJ_MAX 12
#define PORTAM_ADJ_IDL 20
#define PORTAM_ADJ_THR 21
#define PORTAM_ADJ_MAX 22
#define PITCHB_ADJ_IDL 30
#define PITCHB_ADJ_THR 31
#define PITCHB_ADJ_MAX 32
#define EXTRAC_ADJ_IDL 40
#define EXTRAC_ADJ_THR 41
#define EXTRAC_ADJ_MAX 42
#define VIBRAT_ADJ_IDL 50
#define VIBRAT_ADJ_THR 51
#define VIBRAT_ADJ_DPT 52
#define CTOUCH_ADJ_IDL 60
#define CTOUCH_ADJ_THR 61
#define SETUP_BR_MENU 80
#define SETUP_CT_MENU 90
#define ROTATOR_MENU 100
#define VIBRATO_MENU 110
// EEPROM addresses for settings
#define VERSION_ADDR 0
#define BREATH_THR_ADDR 2
#define BREATH_MAX_ADDR 4
#define PORTAM_THR_ADDR 6
#define PORTAM_MAX_ADDR 8
#define PITCHB_THR_ADDR 10
#define PITCHB_MAX_ADDR 12
#define TRANSP_ADDR 14
#define MIDI_ADDR 16
#define BREATH_CC_ADDR 18
#define BREATH_AT_ADDR 20
#define VELOCITY_ADDR 22
#define PORTAM_ADDR 24
#define PB_ADDR 26
#define EXTRA_ADDR 28
#define VIBRATO_ADDR 30
#define DEGLITCH_ADDR 32
#define EXTRAC_THR_ADDR 34
#define EXTRAC_MAX_ADDR 36
#define PATCH_ADDR 38
#define OCTAVE_ADDR 40
#define CTOUCH_THR_ADDR 42
#define BREATHCURVE_ADDR 44
#define VEL_SMP_DL_ADDR 46
#define VEL_BIAS_ADDR 48
#define PINKY_KEY_ADDR 50
#define FP1_ADDR 52
#define FP2_ADDR 54
#define FP3_ADDR 56
#define FP4_ADDR 58
#define FP5_ADDR 60
#define FP6_ADDR 62
#define FP7_ADDR 64
#define DIPSW_BITS_ADDR 66
#define PARAL_ADDR 68
#define ROTN1_ADDR 70
#define ROTN2_ADDR 72
#define ROTN3_ADDR 74
#define ROTN4_ADDR 76
#define PRIO_ADDR 78
#define VIB_SENS_ADDR 80
#define VIB_RETN_ADDR 82
#define VIB_SQUELCH_ADDR 84
#define VIB_DIRECTION_ADDR 86
//"factory" values for settings
#define VERSION 31
#define BREATH_THR_FACTORY 1400
#define BREATH_MAX_FACTORY 4000
#define PORTAM_THR_FACTORY 2600
#define PORTAM_MAX_FACTORY 3300
#define PITCHB_THR_FACTORY 1400
#define PITCHB_MAX_FACTORY 2300
#define EXTRAC_THR_FACTORY 1200
#define EXTRAC_MAX_FACTORY 2400
#define TRANSP_FACTORY 12 // 12 is 0 transpose
#define MIDI_FACTORY 1 // 1-16
#define BREATH_CC_FACTORY 2 //thats CC#2, see ccList
#define BREATH_AT_FACTORY 0 //aftertouch default off
#define VELOCITY_FACTORY 0 // 0 is dynamic/breath controlled velocity
#define PORTAM_FACTORY 2 // 0 - OFF, 1 - ON, 2 - SW
#define PB_FACTORY 1 // 0 - OFF, 1 - 12
#define EXTRA_FACTORY 2 // 0 - OFF, 1 - Modulation wheel, 2 - Foot pedal, 3 - Filter Cutoff, 4 - Sustain pedal
#define VIBRATO_FACTORY 4 // 0 - OFF, 1 - 9 depth
#define DEGLITCH_FACTORY 20 // 0 - OFF, 5 to 70 ms in steps of 5
#define PATCH_FACTORY 1 // MIDI program change 1-128
#define OCTAVE_FACTORY 3 // 3 is 0 octave change
#define CTOUCH_THR_FACTORY 125 // MPR121 touch threshold
#define BREATHCURVE_FACTORY 4 // 0 to 12 (-4 to +4, S1 to S4)
#define VEL_SMP_DL_FACTORY 20 // 0 to 30 ms in steps of 5
#define VEL_BIAS_FACTORY 0 // 0 to 9
#define PINKY_KEY_FACTORY 12 // 0 - 11 (QuickTranspose -12 to -1), 12 (pb/2), 13 - 22 (QuickTranspose +1 to +12)
#define DIPSW_BITS_FACTORY 0 // virtual dip switch settings for special modes (work in progress)
#define PARAL_FACTORY 31 // 7 (+ 24) Rotator parallel
#define ROTN1_FACTORY 19 // -5 (+24) Rotation 1
#define ROTN2_FACTORY 14 // -10 (+24) Rotation 2
#define ROTN3_FACTORY 17 // -7 (+24) Rotation 3
#define ROTN4_FACTORY 10 // -14 (+24) Rotation 4
#define PRIO_FACTORY 0 // Mono priority 0 - BAS(e note), 1 - ROT(ating note)
#define VIB_SENS_FACTORY 6 // 1 least sensitive, higher more sensitive
#define VIB_RETN_FACTORY 2 // 0, no return, 1 slow return, higher faster return
#define VIB_SQUELCH_FACTORY 15 // 0 to 30, vib signal squelch
#define VIB_DIRECTION_FACTORY 0
#define OLED_RESET 4
Adafruit_SSD1306 display(OLED_RESET);
// 'NuEVI' logo
static const unsigned char PROGMEM nuevi_logo_bmp[] = {
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};
#ifndef SSD1306_128_64
#error("Incorrect display type, please fix Adafruit_SSD1306.h!");
#endif
//variables setup
unsigned short breathThrVal;// = 350;
unsigned short breathMaxVal;// = 1000;
unsigned short portamThrVal;// = 1730;
unsigned short portamMaxVal;// = 3300;
unsigned short pitchbThrVal;// = 1200;
unsigned short pitchbMaxVal;// = 2400;
unsigned short extracThrVal;// = 1200;
unsigned short extracMaxVal;// = 2400;
unsigned short ctouchThrVal;// = 120;
unsigned short transpose;
unsigned short MIDIchannel;
unsigned short breathCC; // OFF:MW:BR:VL:EX:MW+:BR+:VL+:EX+:CF
unsigned short breathAT;
unsigned short velocity;
unsigned short portamento;// switching on cc65? just cc5 enabled? SW:ON:OFF
unsigned short PBdepth; // OFF:1-12 divider
unsigned short extraCT; // OFF:MW:FP:CF:SP
unsigned short vibrato; // OFF:1-9
unsigned short deglitch; // 0-70 ms in steps of 5
unsigned short patch; // 1-128
unsigned short octave;
unsigned short curve;
unsigned short velSmpDl; // 0-30 ms
unsigned short velBias; // 0-9
unsigned short pinkySetting; // 0 - 11 (QuickTranspose -12 to -1), 12 (pb/2), 13 - 24 (QuickTranspose +1 to +12)
unsigned short dipSwBits; // virtual dip switch settings for special modes (work in progress)
unsigned short priority; // mono priority for rotator chords
unsigned short vibSens = 2; // vibrato sensitivity
unsigned short vibRetn = 2; // vibrato return speed
unsigned short vibSquelch = 15; //vibrato signal squelch
unsigned short vibDirection = DNWD; //direction of first vibrato wave UPWD or DNWD
unsigned short fastPatch[7] = {0,0,0,0,0,0,0};
byte rotatorOn = 0;
byte currentRotation = 0;
int rotations[4] = { -5, -10, -7, -14 }; // semitones { -5, -10, -7, -14 };
int parallel = 7; // semitones
byte gateOpen = 0; // setting for gate always open, note on sent for every time fingering changes, no matter the breath status
int breathLoLimit = 0;
int breathHiLimit = 4095;
int portamLoLimit = 1000;
int portamHiLimit = 5000;
int pitchbLoLimit = 500;
int pitchbHiLimit = 4000;
int extracLoLimit = 500;
int extracHiLimit = 4000;
int ctouchLoLimit = 50;
int ctouchHiLimit = 350;
int ttouchLoLimit = 50;
int ttouchHiLimit = 1900;
int touch_Thr = 1300;
int breathStep;
int portamStep;
int pitchbStep;
int extracStep;
int ctouchStep;
int minOffset = 50;
int deumButtons = 0;
int lastDeumButtons = 0;
int deumButtonState = 0;
byte buttonPressedAndNotUsed = 0;
byte mainMenuCursor = 1;
byte setupBrMenuCursor = 1;
byte setupCtMenuCursor = 1;
byte rotatorMenuCursor = 1;
byte vibratoMenuCursor = 1;
byte state = 0;
byte stateFirstRun = 1;
byte subTranspose = 0;
byte subOctave = 0;
byte subMIDI = 0;
byte subBreathCC = 0;
byte subBreathAT = 0;
byte subVelocity = 0;
byte subCurve = 0;
byte subPort = 0;
byte subPB = 0;
byte subExtra = 0;
byte subVibrato = 0;
byte subDeglitch = 0;
byte subPinky = 0;
byte subVelSmpDl = 0;
byte subVelBias = 0;
byte subParallel = 0;
byte subRotator = 0;
byte subPriority = 0;
byte subVibSens = 0;
byte subVibRetn = 0;
byte subVibSquelch = 0;
byte subVibDirection = 0;
byte ccList[10] = {0,1,2,7,11,1,2,7,11,74}; // OFF, Modulation, Breath, Volume, Expression (then same sent in hires)
int pbDepthList[13] = {8192,8192,4096,2731,2048,1638,1365,1170,1024,910,819,744,683};
byte cursorNow;
byte forcePix = 0;
byte forceRedraw = 0;
int pos1;
int pos2;
// the following variables are unsigned longs because the time, measured in
// milliseconds, will quickly become a bigger number than can be stored in an int.
unsigned long lastDebounceTime = 0; // the last time the output pin was toggled
unsigned long debounceDelay = 30; // the debounce time; increase if the output flickers
unsigned long buttonRepeatTime = 0;
unsigned long buttonPressedTime = 0;
unsigned long buttonRepeatInterval = 50;
unsigned long buttonRepeatDelay = 400;
unsigned long pixelUpdateTime = 0;
unsigned long pixelUpdateInterval = 100;
unsigned long cursorBlinkTime = 0; // the last time the cursor was toggled
unsigned long cursorBlinkInterval = 300; // the cursor blink toggle interval time
unsigned long patchViewTime = 0;
unsigned long patchViewTimeUp = 2000; // ms until patch view shuts off
unsigned long menuTime = 0;
unsigned long menuTimeUp = 60000; // menu shuts off after one minute of button inactivity
unsigned long lastDeglitchTime = 0; // The last time the fingering was changed
unsigned long ccSendTime = 0L; // The last time we sent CC values
unsigned long breath_on_time = 0L; // Time when breath sensor value went over the ON threshold
int lastFingering = 0; // Keep the last fingering value for debouncing
int mainState; // The state of the main state machine
int initial_breath_value; // The breath value at the time we observed the transition
byte activeMIDIchannel=1; // MIDI channel
byte activePatch=0;
byte doPatchUpdate=0;
byte legacy = 0;
byte legacyBrAct = 0;
byte halfTime = 0;
byte FPD = 0;
int breathLevel=0; // breath level (smoothed) not mapped to CC value
int oldbreath=0;
unsigned int oldbreathhires=0;
float filterFreq = 30.0;
float filterVal = 0.15;
float smoothedVal;
int pressureSensor; // pressure data from breath sensor, for midi breath cc and breath threshold checks
int lastPressure;
byte velocitySend; // remapped midi velocity from breath sensor (or set to static value if selected)
int breathCalZero;
int biteSensor=0; // capacitance data from bite sensor, for midi cc and threshold checks
byte portIsOn=0; // keep track and make sure we send CC with 0 value when off threshold
int oldport=0;
int lastBite=0;
int exSensor=0;
byte extracIsOn=0;
int oldextrac=0;
int lastEx=0;
int pitchBend=8192;
int oldpb=8192;
int vibSignal=0;
int pbUp=0;
int pbDn=0;
int lastPbUp=0;
int lastPbDn=0;
byte vibLedOff = 0;
byte oldpkey = 0;
float vibDepth[10] = {0,0.05,0.1,0.15,0.2,0.25,0.3,0.35,0.40,0.45}; // max pitch bend values (+/-) for the vibrato settings
int vibMaxList[12] = {300,275,250,225,200,175,150,125,100,75,50,25};
unsigned int curveM4[] = {0,4300,7000,8700,9900,10950,11900,12600,13300,13900,14500,15000,15450,15700,16000,16250,16383};
unsigned int curveM3[] = {0,2900,5100,6650,8200,9500,10550,11500,12300,13100,13800,14450,14950,15350,15750,16150,16383};
unsigned int curveM2[] = {0,2000,3600,5000,6450,7850,9000,10100,11100,12100,12900,13700,14400,14950,15500,16000,16383};
unsigned int curveM1[] = {0,1400,2850,4100,5300,6450,7600,8700,9800,10750,11650,12600,13350,14150,14950,15650,16383};
unsigned int curveIn[] = {0,1023,2047,3071,4095,5119,6143,7167,8191,9215,10239,11263,12287,13311,14335,15359,16383};
unsigned int curveP1[] = {0,600,1350,2150,2900,3800,4700,5600,6650,7700,8800,9900,11100,12300,13500,14850,16383};
unsigned int curveP2[] = {0,400,800,1300,2000,2650,3500,4300,5300,6250,7400,8500,9600,11050,12400,14100,16383};
unsigned int curveP3[] = {0,200,500,900,1300,1800,2350,3100,3800,4600,5550,6550,8000,9500,11250,13400,16383};
unsigned int curveP4[] = {0,100,200,400,700,1050,1500,1950,2550,3200,4000,4900,6050,7500,9300,12100,16383};
unsigned int curveS1[] = {0,600,1350,2150,2900,3800,4700,6000,8700,11000,12400,13400,14300,14950,15500,16000,16383};
unsigned int curveS2[] = {0,600,1350,2150,2900,4000,6100,9000,11000,12100,12900,13700,14400,14950,15500,16000,16383};
//unsigned int curveS3[] = {0,600,1350,2300,3800,6200,8700,10200,11100,12100,12900,13700,14400,14950,15500,16000,16383};
//unsigned int curveS4[] = {0,600,1700,4000,6600,8550,9700,10550,11400,12200,12900,13700,14400,14950,15500,16000,16383};
unsigned int curveZ1[] = {0,1400,2100,2900,3200,3900,4700,5600,6650,7700,8800,9900,11100,12300,13500,14850,16383};
unsigned int curveZ2[] = {0,2000,3200,3800,4096,4800,5100,5900,6650,7700,8800,9900,11100,12300,13500,14850,16383};
int vibThr; // this gets auto calibrated in setup
int vibThrLo;
int vibZero;
int fingeredNote; // note calculated from fingering (switches), transpose and octave settings
int fingeredNoteUntransposed; // note calculated from fingering (switches), for on the fly settings
byte activeNote; // note playing
byte startNote=36; // set startNote to C (change this value in steps of 12 to start in other octaves)
int slurBase; // first note in slur sustain chord
int slurInterval[9] = {-5,0,0,0,0,0,0,0,0};
byte addedIntervals = 1;
// Key variables, TRUE (1) for pressed, FALSE (0) for not pressed
byte K1; // Valve 1 (pitch change -2)
byte K2; // Valve 2 (pitch change -1)
byte K3; // Valve 3 (pitch change -3)
byte K4; // Left Hand index finger (pitch change -5)
byte K5; // Trill key 1 (pitch change +2)
byte K6; // Trill key 2 (pitch change +1)
byte K7; // Trill key 3 (pitch change +4)
byte octaveR = 0;
byte halfPitchBendKey;
byte specialKey;
byte pinkyKey;
byte lastSpecialKey = 0;
byte slurSustain = 0;
byte parallelChord = 0;
byte subOctaveDouble = 0;
byte breathLedBrightness = 100; // up to 255, PWM
byte portamLedBrightness = 100; // up to 255, PWM
Adafruit_MPR121 touchSensor = Adafruit_MPR121(); // This is the 12-input touch sensor
//_______________________________________________________________________________________________ SETUP
void setup() {
analogReadResolution(12); // set resolution of ADCs to 12 bit
pinMode(dPin, INPUT_PULLUP);
pinMode(ePin, INPUT_PULLUP);
pinMode(uPin, INPUT_PULLUP);
pinMode(mPin, INPUT_PULLUP);
pinMode(bLedPin, OUTPUT); // breath indicator LED
pinMode(pLedPin, OUTPUT); // portam indicator LED
pinMode(statusLedPin,OUTPUT); // Teensy onboard LED
// if stored settings are not for current version, or Enter+Menu are pressed at startup, they are replaced by factory settings
if ((readSetting(VERSION_ADDR) != VERSION) || (!digitalRead(ePin) && !digitalRead(mPin))){
writeSetting(VERSION_ADDR,VERSION);
writeSetting(TRANSP_ADDR,TRANSP_FACTORY);
writeSetting(MIDI_ADDR,MIDI_FACTORY);
writeSetting(BREATH_CC_ADDR,BREATH_CC_FACTORY);
writeSetting(BREATH_AT_ADDR,BREATH_AT_FACTORY);
writeSetting(VELOCITY_ADDR,VELOCITY_FACTORY);
writeSetting(PORTAM_ADDR,PORTAM_FACTORY);
writeSetting(PB_ADDR,PB_FACTORY);
writeSetting(EXTRA_ADDR,EXTRA_FACTORY);
writeSetting(VIBRATO_ADDR,VIBRATO_FACTORY);
writeSetting(DEGLITCH_ADDR,DEGLITCH_FACTORY);
writeSetting(PATCH_ADDR,PATCH_FACTORY);
writeSetting(OCTAVE_ADDR,OCTAVE_FACTORY);
writeSetting(BREATHCURVE_ADDR,BREATHCURVE_FACTORY);
writeSetting(VEL_SMP_DL_ADDR,VEL_SMP_DL_FACTORY);
writeSetting(VEL_BIAS_ADDR,VEL_BIAS_FACTORY);
writeSetting(PINKY_KEY_ADDR,PINKY_KEY_FACTORY);
writeSetting(FP1_ADDR,0);
writeSetting(FP2_ADDR,0);
writeSetting(FP3_ADDR,0);
writeSetting(FP4_ADDR,0);
writeSetting(FP5_ADDR,0);
writeSetting(FP6_ADDR,0);
writeSetting(FP7_ADDR,0);
writeSetting(DIPSW_BITS_ADDR,DIPSW_BITS_FACTORY);
writeSetting(PARAL_ADDR,PARAL_FACTORY);
writeSetting(ROTN1_ADDR,ROTN1_FACTORY);
writeSetting(ROTN2_ADDR,ROTN2_FACTORY);
writeSetting(ROTN3_ADDR,ROTN3_FACTORY);
writeSetting(ROTN4_ADDR,ROTN4_FACTORY);
writeSetting(PRIO_ADDR,PRIO_FACTORY);
writeSetting(VIB_SENS_ADDR,VIB_SENS_FACTORY);
writeSetting(VIB_RETN_ADDR,VIB_RETN_FACTORY);
writeSetting(VIB_SQUELCH_ADDR,VIB_SQUELCH_FACTORY);
writeSetting(VIB_DIRECTION_ADDR,VIB_DIRECTION_FACTORY);
//Set threshold/max sensor values only if upgrading from something before version 24
//In other cases, these values are saved between factory resets
if (readSetting(VERSION_ADDR) < 24) {
writeSetting(VERSION_ADDR,VERSION);
writeSetting(BREATH_THR_ADDR,BREATH_THR_FACTORY);
writeSetting(BREATH_MAX_ADDR,BREATH_MAX_FACTORY);
writeSetting(PORTAM_THR_ADDR,PORTAM_THR_FACTORY);
writeSetting(PORTAM_MAX_ADDR,PORTAM_MAX_FACTORY);
writeSetting(PITCHB_THR_ADDR,PITCHB_THR_FACTORY);
writeSetting(PITCHB_MAX_ADDR,PITCHB_MAX_FACTORY);
writeSetting(EXTRAC_THR_ADDR,EXTRAC_THR_FACTORY);
writeSetting(EXTRAC_MAX_ADDR,EXTRAC_MAX_FACTORY);
writeSetting(CTOUCH_THR_ADDR,CTOUCH_THR_FACTORY);
}
}
// read settings from EEPROM
breathThrVal = readSetting(BREATH_THR_ADDR);
breathMaxVal = readSetting(BREATH_MAX_ADDR);
portamThrVal = readSetting(PORTAM_THR_ADDR);
portamMaxVal = readSetting(PORTAM_MAX_ADDR);
pitchbThrVal = readSetting(PITCHB_THR_ADDR);
pitchbMaxVal = readSetting(PITCHB_MAX_ADDR);
transpose = readSetting(TRANSP_ADDR);
MIDIchannel = readSetting(MIDI_ADDR);
breathCC = readSetting(BREATH_CC_ADDR);
breathAT = readSetting(BREATH_AT_ADDR);
velocity = readSetting(VELOCITY_ADDR);
portamento = readSetting(PORTAM_ADDR);
PBdepth = readSetting(PB_ADDR);
extraCT = readSetting(EXTRA_ADDR);
vibrato = readSetting(VIBRATO_ADDR);
deglitch = readSetting(DEGLITCH_ADDR);
extracThrVal = readSetting(EXTRAC_THR_ADDR);
extracMaxVal = readSetting(EXTRAC_MAX_ADDR);
patch = readSetting(PATCH_ADDR);
octave = readSetting(OCTAVE_ADDR);
ctouchThrVal = readSetting(CTOUCH_THR_ADDR);
curve = readSetting(BREATHCURVE_ADDR);
velSmpDl = readSetting(VEL_SMP_DL_ADDR);
velBias = readSetting(VEL_BIAS_ADDR);
pinkySetting = readSetting(PINKY_KEY_ADDR);
fastPatch[0] = readSetting(FP1_ADDR);
fastPatch[1] = readSetting(FP2_ADDR);
fastPatch[2] = readSetting(FP3_ADDR);
fastPatch[3] = readSetting(FP4_ADDR);
fastPatch[4] = readSetting(FP5_ADDR);
fastPatch[5] = readSetting(FP6_ADDR);
fastPatch[6] = readSetting(FP7_ADDR);
dipSwBits = readSetting(DIPSW_BITS_ADDR);
parallel = readSetting(PARAL_ADDR)-24;
rotations[0] = readSetting(ROTN1_ADDR)-24;
rotations[1] = readSetting(ROTN2_ADDR)-24;
rotations[2] = readSetting(ROTN3_ADDR)-24;
rotations[3] = readSetting(ROTN4_ADDR)-24;
priority = readSetting(PRIO_ADDR);
vibSens = readSetting(VIB_SENS_ADDR);
vibRetn = readSetting(VIB_RETN_ADDR);
vibSquelch = readSetting(VIB_SQUELCH_ADDR);
vibDirection = readSetting(VIB_DIRECTION_ADDR);
legacy = dipSwBits & (1<<1);
legacyBrAct = dipSwBits & (1<<2);
activePatch = patch;
breathStep = (breathHiLimit - breathLoLimit)/92; // 92 is the number of pixels in the settings bar
portamStep = (portamHiLimit - portamLoLimit)/92;
pitchbStep = (pitchbHiLimit - pitchbLoLimit)/92;
extracStep = (extracHiLimit - extracLoLimit)/92;
ctouchStep = (ctouchHiLimit - ctouchLoLimit)/92;
touch_Thr = map(ctouchThrVal,ctouchHiLimit,ctouchLoLimit,ttouchLoLimit,ttouchHiLimit);
if (!touchSensor.begin(0x5A)) {
while (1); // Touch sensor initialization failed - stop doing stuff
}
// by default, we'll generate the high voltage from the 3.3v line internally! (neat!)
display.begin(SSD1306_SWITCHCAPVCC, 0x3C); // initialize with the I2C addr 0x3D (for the 128x64)
// init done
// Show image buffer on the display hardware.
// Since the buffer is intialized with an Adafruit splashscreen
// internally, this will display the splashscreen.
display.clearDisplay();
display.drawBitmap(0,0,nuevi_logo_bmp,128,64,1);
display.display();
//auto-calibrate the vibrato threshold while showing splash screen
int cv1=touchRead(vibratoPin);
int bc1=analogRead(A0);
digitalWrite(statusLedPin,HIGH);
delay(250);
int cv2=touchRead(vibratoPin);
int bc2=analogRead(A0);
digitalWrite(statusLedPin,LOW);
delay(250);
int cv3=touchRead(vibratoPin);
int bc3=analogRead(A0);
digitalWrite(statusLedPin,HIGH);
delay(250);
digitalWrite(statusLedPin,LOW);
int cv4=touchRead(vibratoPin);
int bc4=analogRead(A0);
vibZero=(cv1+cv2+cv3+cv4)/4;
vibThr=vibZero-vibSquelch;
vibThrLo=vibZero+vibSquelch;
breathCalZero=(bc1+bc2+bc3+bc4)/4;
delay(250);
digitalWrite(statusLedPin,HIGH);
delay(250);
digitalWrite(statusLedPin,LOW);
display.setTextColor(WHITE);
display.setTextSize(1);
display.setCursor(85,52);
display.print("v.");
display.println(FIRMWARE_VERSION);
display.display();
delay(1500);
state = DISPLAYOFF_IDL;
mainState = NOTE_OFF; // initialize main state machine
if (!digitalRead(ePin)) {
activePatch=0;
doPatchUpdate=1;
}
Serial3.begin(31250); // start serial with midi baudrate 31250
Serial3.flush();
digitalWrite(statusLedPin,HIGH); // Switch on the onboard LED to indicate power on/ready
}
//_______________________________________________________________________________________________ MAIN LOOP
void loop() {
mainLoop();
}
void mainLoop() {
FilterOnePole breathFilter( LOWPASS, filterFreq ); // create a one pole (RC) lowpass filter
while (1){
breathFilter.input(analogRead(A0));
pressureSensor = constrain((int)breathFilter.output(),0,4095); // Get the filtered pressure sensor reading from analog pin A0, input from sensor MP3V5004GP
//pressureSensor = analogRead(A0);
//pressureSensor = smooth(analogRead(0), filterVal, smoothedVal); // second parameter determines smoothness - 0 is off, .9999 is max smooth
if (mainState == NOTE_OFF) {
if (activeMIDIchannel != MIDIchannel) activeMIDIchannel = MIDIchannel; // only switch channel if no active note
if ((activePatch != patch) && doPatchUpdate){
activePatch = patch;
usbMIDI.sendProgramChange(activePatch-1,activeMIDIchannel);
dinMIDIsendProgramChange(activePatch-1,activeMIDIchannel-1);
slurSustain = 0;
parallelChord = 0;
subOctaveDouble = 0;
doPatchUpdate = 0;
}
if ((pressureSensor > breathThrVal) || gateOpen) {
// Value has risen above threshold. Move to the RISE_WAIT
// state. Record time and initial breath value.
breath_on_time = millis();
initial_breath_value = pressureSensor;
mainState = RISE_WAIT; // Go to next state
}
if (legacy || legacyBrAct){
if (((pbUp > ((pitchbMaxVal + pitchbThrVal)/2)) && (pbDn > ((pitchbMaxVal + pitchbThrVal)/2)) && legacy) || ((analogRead(0) < (breathCalZero - 500)) && legacyBrAct)){ // both pb pads touched
readSwitches();
fingeredNoteUntransposed=patchLimit(fingeredNoteUntransposed+1);
if (exSensor >= ((extracThrVal+extracMaxVal)/2)){ // instant midi setting
if ((fingeredNoteUntransposed >= 73) && (fingeredNoteUntransposed <= 88)) {
MIDIchannel = fingeredNoteUntransposed - 72; // Mid C and up
digitalWrite(statusLedPin,LOW);
delay(150);
digitalWrite(statusLedPin,HIGH);
}
} else {
if (!pinkyKey){ // note number to patch number
if (patch != fingeredNoteUntransposed){
patch = fingeredNoteUntransposed;
doPatchUpdate = 1;
digitalWrite(statusLedPin,LOW);
delay(150);
digitalWrite(statusLedPin,HIGH);
}
} else { // hi and lo patch numbers
if (fingeredNoteUntransposed > 75){
if (patch != patchLimit(fingeredNoteUntransposed + 24)){
patch = patchLimit(fingeredNoteUntransposed + 24); // add 24 to get high numbers 108 to 127
doPatchUpdate = 1;
digitalWrite(statusLedPin,LOW);
delay(150);
digitalWrite(statusLedPin,HIGH);
}
} else {
if (patch != patchLimit(fingeredNoteUntransposed - 36)){
patch = patchLimit(fingeredNoteUntransposed - 36); // subtract 36 to get low numbers 0 to 36
doPatchUpdate = 1;
digitalWrite(statusLedPin,LOW);
delay(150);
digitalWrite(statusLedPin,HIGH);
}
}
}
}
}
}
specialKey=(touchRead(specialKeyPin) > touch_Thr); //S2 on pcb
if (lastSpecialKey != specialKey){
if (specialKey){
// special key just pressed, check other keys
readSwitches();
if (K4) {
if (!slurSustain) {
slurSustain = 1;
parallelChord = 0;
rotatorOn = 0;
} else slurSustain = 0;
}
if (K5) {
if (!parallelChord) {
parallelChord = 1;
slurSustain = 0;
rotatorOn = 0;
} else parallelChord = 0;
}
if (K1) {
if (!subOctaveDouble) {
subOctaveDouble = 1;
rotatorOn = 0;
} else subOctaveDouble = 0;
}
if (!K1 && !K4 && !K5){
slurSustain = 0;
parallelChord = 0;
subOctaveDouble = 0;
rotatorOn = 0;
}
if (pinkyKey){
if (!rotatorOn) {
rotatorOn = 1;
slurSustain = 0;
parallelChord = 0;
subOctaveDouble = 0;
} else rotatorOn = 0;
}
}
}
lastSpecialKey = specialKey;
} else if (mainState == RISE_WAIT) {
if ((pressureSensor > breathThrVal) || gateOpen) {
// Has enough time passed for us to collect our second
// sample?
if ((millis() - breath_on_time > velSmpDl) || (0 == velSmpDl)) {
// Yes, so calculate MIDI note and velocity, then send a note on event
readSwitches();
// We should be at tonguing peak, so set velocity based on current pressureSensor value unless fixed velocity is set
breathLevel=constrain(max(pressureSensor,initial_breath_value),breathThrVal,breathMaxVal);
if (!velocity) {
unsigned int breathValHires = breathCurve(map(constrain(breathLevel,breathThrVal,breathMaxVal),breathThrVal,breathMaxVal,0,16383));
velocitySend = (breathValHires >>7) & 0x007F;
velocitySend = constrain(velocitySend+velocitySend*.1*velBias,1,127);
//velocitySend = map(constrain(max(pressureSensor,initial_breath_value),breathThrVal,breathMaxVal),breathThrVal,breathMaxVal,1,127);
} else velocitySend = velocity;
breath(); // send breath data
fingeredNote=noteValueCheck(fingeredNote);
if (priority){ // mono prio to last chord note
usbMIDI.sendNoteOn(fingeredNote, velocitySend, activeMIDIchannel); // send Note On message for new note
dinMIDIsendNoteOn(fingeredNote, velocitySend, activeMIDIchannel - 1);
}
if (parallelChord){
for (int i=0; i < addedIntervals; i++){
usbMIDI.sendNoteOn(noteValueCheck(fingeredNote+slurInterval[i]), velocitySend, activeMIDIchannel); // send Note On message for new note
dinMIDIsendNoteOn(noteValueCheck(fingeredNote+slurInterval[i]), velocitySend, activeMIDIchannel - 1);
}
}
if (slurSustain){
usbMIDI.sendControlChange(64,127, activeMIDIchannel);
dinMIDIsendControlChange(64,127, activeMIDIchannel - 1);
slurBase = fingeredNote;
addedIntervals = 0;
}
if (subOctaveDouble){
usbMIDI.sendNoteOn(noteValueCheck(fingeredNote-12), velocitySend, activeMIDIchannel);
dinMIDIsendNoteOn(noteValueCheck(fingeredNote-12), velocitySend, activeMIDIchannel - 1);
if (parallelChord){
for (int i=0; i < addedIntervals; i++){
usbMIDI.sendNoteOn(noteValueCheck(fingeredNote+slurInterval[i]-12), velocitySend, activeMIDIchannel); // send Note On message for new note
dinMIDIsendNoteOn(noteValueCheck(fingeredNote+slurInterval[i]-12), velocitySend, activeMIDIchannel - 1);
}
}
}
if (rotatorOn){
usbMIDI.sendNoteOn(noteValueCheck(fingeredNote+parallel), velocitySend, activeMIDIchannel); // send Note On message for new note
dinMIDIsendNoteOn(noteValueCheck(fingeredNote+parallel), velocitySend, activeMIDIchannel - 1);
if (currentRotation < 3) currentRotation++; else currentRotation = 0;
usbMIDI.sendNoteOn(noteValueCheck(fingeredNote+rotations[currentRotation]), velocitySend, activeMIDIchannel); // send Note On message for new note
dinMIDIsendNoteOn(noteValueCheck(fingeredNote+rotations[currentRotation]), velocitySend, activeMIDIchannel - 1);
}
if (!priority){ // mono prio to base note
usbMIDI.sendNoteOn(fingeredNote, velocitySend, activeMIDIchannel); // send Note On message for new note
dinMIDIsendNoteOn(fingeredNote, velocitySend, activeMIDIchannel - 1);
}
activeNote=fingeredNote;
mainState = NOTE_ON;
}
} else {
// Value fell below threshold before velocity sample delay time passed. Return to
// NOTE_OFF state (e.g. we're ignoring a short blip of breath)
mainState = NOTE_OFF;
}
} else if (mainState == NOTE_ON) {
if ((pressureSensor < breathThrVal) && !gateOpen) {
// Value has fallen below threshold - turn the note off
activeNote=noteValueCheck(activeNote);
if (priority){
usbMIDI.sendNoteOff(activeNote, velocitySend, activeMIDIchannel); // send Note Off message
dinMIDIsendNoteOff(activeNote, velocitySend, activeMIDIchannel - 1);
}
if (parallelChord){
for (int i=0; i < addedIntervals; i++){
usbMIDI.sendNoteOff(noteValueCheck(activeNote+slurInterval[i]), velocitySend, activeMIDIchannel); // send Note On message for new note
dinMIDIsendNoteOff(noteValueCheck(activeNote+slurInterval[i]), velocitySend, activeMIDIchannel - 1);
}
}
if (subOctaveDouble){
usbMIDI.sendNoteOff(noteValueCheck(activeNote-12), velocitySend, activeMIDIchannel);
dinMIDIsendNoteOff(noteValueCheck(activeNote-12), velocitySend, activeMIDIchannel - 1);
if (parallelChord){
for (int i=0; i < addedIntervals; i++){
usbMIDI.sendNoteOff(noteValueCheck(activeNote+slurInterval[i]-12), velocitySend, activeMIDIchannel); // send Note On message for new note
dinMIDIsendNoteOff(noteValueCheck(activeNote+slurInterval[i]-12), velocitySend, activeMIDIchannel - 1);
}
}
}
if (rotatorOn){
usbMIDI.sendNoteOff(noteValueCheck(activeNote+parallel), velocitySend, activeMIDIchannel); // send Note Off message for old note
dinMIDIsendNoteOff(noteValueCheck(activeNote+parallel), velocitySend, activeMIDIchannel - 1);
usbMIDI.sendNoteOff(noteValueCheck(activeNote+rotations[currentRotation]), velocitySend, activeMIDIchannel); // send Note Off message for old note
dinMIDIsendNoteOff(noteValueCheck(activeNote+rotations[currentRotation]), velocitySend, activeMIDIchannel - 1);
}
if (!priority){
usbMIDI.sendNoteOff(activeNote, velocitySend, activeMIDIchannel); // send Note Off message
dinMIDIsendNoteOff(activeNote, velocitySend, activeMIDIchannel - 1);
}
if (slurSustain){
usbMIDI.sendControlChange(64,0, activeMIDIchannel);
dinMIDIsendControlChange(64,0, activeMIDIchannel - 1);
}
breathLevel=0;
mainState = NOTE_OFF;
} else {
readSwitches();
if (fingeredNote != lastFingering){ //
// reset the debouncing timer
lastDeglitchTime = millis();
}
if ((millis() - lastDeglitchTime) > deglitch) {
// whatever the reading is at, it's been there for longer
// than the debounce delay, so take it as the actual current state
if (noteValueCheck(fingeredNote) != activeNote) {
// Player has moved to a new fingering while still blowing.
// Send a note off for the current note and a note on for
// the new note.
if (!velocity){
unsigned int breathValHires = breathCurve(map(constrain(breathLevel,breathThrVal,breathMaxVal),breathThrVal,breathMaxVal,0,16383));
velocitySend = (breathValHires >>7) & 0x007F;
velocitySend = constrain(velocitySend+velocitySend*.1*velBias,1,127);
//velocitySend = map(constrain(pressureSensor,breathThrVal,breathMaxVal),breathThrVal,breathMaxVal,7,127); // set new velocity value based on current pressure sensor level
}
activeNote=noteValueCheck(activeNote);
if ((parallelChord || subOctaveDouble || rotatorOn) && priority){ // poly playing, send old note off before new note on
usbMIDI.sendNoteOff(activeNote, velocitySend, activeMIDIchannel); // send Note Off message for old note
dinMIDIsendNoteOff(activeNote, velocitySend, activeMIDIchannel - 1);
}
if (parallelChord){
for (int i=0; i < addedIntervals; i++){
usbMIDI.sendNoteOff(noteValueCheck(activeNote+slurInterval[i]), velocitySend, activeMIDIchannel); // send Note Off message for old note
dinMIDIsendNoteOff(noteValueCheck(activeNote+slurInterval[i]), velocitySend, activeMIDIchannel - 1);
}
}
if (subOctaveDouble){
usbMIDI.sendNoteOff(noteValueCheck(activeNote-12), velocitySend, activeMIDIchannel); // send Note Off message for old note
dinMIDIsendNoteOff(noteValueCheck(activeNote-12), velocitySend, activeMIDIchannel - 1);
if (parallelChord){
for (int i=0; i < addedIntervals; i++){
usbMIDI.sendNoteOff(noteValueCheck(activeNote+slurInterval[i]-12), velocitySend, activeMIDIchannel); // send Note Off message for old note
dinMIDIsendNoteOff(noteValueCheck(activeNote+slurInterval[i]-12), velocitySend, activeMIDIchannel - 1);
}
}
}
if (rotatorOn){
usbMIDI.sendNoteOff(noteValueCheck(activeNote+parallel), velocitySend, activeMIDIchannel); // send Note Off message for old note
dinMIDIsendNoteOff(noteValueCheck(activeNote+parallel), velocitySend, activeMIDIchannel - 1);
usbMIDI.sendNoteOff(noteValueCheck(activeNote+rotations[currentRotation]), velocitySend, activeMIDIchannel); // send Note Off message for old note
dinMIDIsendNoteOff(noteValueCheck(activeNote+rotations[currentRotation]), velocitySend, activeMIDIchannel - 1);
}
if ((parallelChord || subOctaveDouble || rotatorOn) && !priority){ // poly playing, send old note off before new note on
usbMIDI.sendNoteOff(activeNote, velocitySend, activeMIDIchannel); // send Note Off message for old note
dinMIDIsendNoteOff(activeNote, velocitySend, activeMIDIchannel - 1);
}
fingeredNote=noteValueCheck(fingeredNote);
if (priority){
usbMIDI.sendNoteOn(fingeredNote, velocitySend, activeMIDIchannel); // send Note On message for new note
dinMIDIsendNoteOn(fingeredNote, velocitySend, activeMIDIchannel - 1);
}
if (parallelChord){
for (int i=0; i < addedIntervals; i++){
usbMIDI.sendNoteOn(noteValueCheck(fingeredNote+slurInterval[i]), velocitySend, activeMIDIchannel); // send Note On message for new note
dinMIDIsendNoteOn(noteValueCheck(fingeredNote+slurInterval[i]), velocitySend, activeMIDIchannel - 1);
}
}
if (subOctaveDouble){
usbMIDI.sendNoteOn(noteValueCheck(fingeredNote-12), velocitySend, activeMIDIchannel); // send Note On message for new note
dinMIDIsendNoteOn(noteValueCheck(fingeredNote-12), velocitySend, activeMIDIchannel - 1);
if (parallelChord){
for (int i=0; i < addedIntervals; i++){
usbMIDI.sendNoteOn(noteValueCheck(fingeredNote+slurInterval[i]-12), velocitySend, activeMIDIchannel); // send Note On message for new note
dinMIDIsendNoteOn(noteValueCheck(fingeredNote+slurInterval[i]-12), velocitySend, activeMIDIchannel - 1);
}
}
}
if (rotatorOn){
usbMIDI.sendNoteOn(noteValueCheck(fingeredNote+parallel), velocitySend, activeMIDIchannel); // send Note On message for new note
dinMIDIsendNoteOn(noteValueCheck(fingeredNote+parallel), velocitySend, activeMIDIchannel - 1);
if (currentRotation < 3) currentRotation++; else currentRotation = 0;
usbMIDI.sendNoteOn(noteValueCheck(fingeredNote+rotations[currentRotation]), velocitySend, activeMIDIchannel); // send Note On message for new note
dinMIDIsendNoteOn(noteValueCheck(fingeredNote+rotations[currentRotation]), velocitySend, activeMIDIchannel - 1);
}
if (!priority){
usbMIDI.sendNoteOn(fingeredNote, velocitySend, activeMIDIchannel); // send Note On message for new note
dinMIDIsendNoteOn(fingeredNote, velocitySend, activeMIDIchannel - 1);
}
if (!parallelChord && !subOctaveDouble && !rotatorOn){ // mono playing, send old note off after new note on
usbMIDI.sendNoteOff(activeNote, velocitySend, activeMIDIchannel); // send Note Off message
dinMIDIsendNoteOff(activeNote, velocitySend, activeMIDIchannel - 1);
}
if (slurSustain){
addedIntervals++;
slurInterval[addedIntervals-1] = fingeredNote - slurBase;
}
activeNote=fingeredNote;
}
}
}
if (pressureSensor > breathThrVal) cursorBlinkTime = millis(); // keep display from updating with cursor blinking if breath is over thr
}
// Is it time to send more CC data?
if (millis() - ccSendTime > CC_INTERVAL) {
// deal with Breath, Pitch Bend, Modulation, etc.
breath();
halfTime = !halfTime;
if (halfTime){
pitch_bend();
portamento_();
} else {
extraController();
statusLEDs();
doorKnobCheck();
}
ccSendTime = millis();
}
if (millis() - pixelUpdateTime > pixelUpdateInterval){
// even if we just alter a pixel, the whole display is redrawn (35ms of MPU lockup) and we can't do that all the time
// this is one of the big reasons the display is for setup use only
drawSensorPixels(); // live sensor monitoring for the setup screens
pixelUpdateTime = millis();
}
lastFingering=fingeredNote;
//do menu stuff
menu();
}
}
//_______________________________________________________________________________________________ FUNCTIONS
// non linear mapping function (http://playground.arduino.cc/Main/MultiMap)
// note: the _in array should have increasing values
unsigned int multiMap(unsigned int val, unsigned int* _in, unsigned int* _out, uint8_t size)
{
// take care the value is within range
// val = constrain(val, _in[0], _in[size-1]);
if (val <= _in[0]) return _out[0];
if (val >= _in[size-1]) return _out[size-1];
// search right interval
uint8_t pos = 1; // _in[0] allready tested
while(val > _in[pos]) pos++;
// this will handle all exact "points" in the _in array
if (val == _in[pos]) return _out[pos];
// interpolate in the right segment for the rest
return (val - _in[pos-1]) * (_out[pos] - _out[pos-1]) / (_in[pos] - _in[pos-1]) + _out[pos-1];
}
//**************************************************************
// map breath values to selected curve
unsigned int breathCurve(unsigned int inputVal){
// 0 to 16383, moving mid value up or down
switch (curve){
case 0:
// -4
return multiMap(inputVal,curveIn,curveM4,17);
break;
case 1:
// -3
return multiMap(inputVal,curveIn,curveM3,17);
break;
case 2:
// -2
return multiMap(inputVal,curveIn,curveM2,17);
break;
case 3:
// -1
return multiMap(inputVal,curveIn,curveM1,17);
break;
case 4:
// 0, linear
return inputVal;
break;
case 5:
// +1
return multiMap(inputVal,curveIn,curveP1,17);
break;
case 6:
// +2
return multiMap(inputVal,curveIn,curveP2,17);
break;
case 7:
// +3
return multiMap(inputVal,curveIn,curveP3,17);
break;
case 8:
// +4
return multiMap(inputVal,curveIn,curveP4,17);
break;
case 9:
// S1
return multiMap(inputVal,curveIn,curveS1,17);
break;
case 10:
// S2
return multiMap(inputVal,curveIn,curveS2,17);
break;
case 11:
// Z1
return multiMap(inputVal,curveIn,curveZ1,17);
break;
case 12:
// Z2
return multiMap(inputVal,curveIn,curveZ2,17);
break;
default: //Fallback option that should never be reached, use linear
return inputVal;
break;
}
}
//**************************************************************
/*
int smooth(int data, float filterVal, float smoothedVal){
if (filterVal > 1){ // check to make sure param's are within range
filterVal = .99;
}
else if (filterVal <= 0){
filterVal = 0;
}
smoothedVal = (data * (1 - filterVal)) + (smoothedVal * filterVal);
return (int)smoothedVal;
}
*/
//**************************************************************
// MIDI note value check with out of range octave repeat
int noteValueCheck(int note){
if (note > 127){
note = 115+(note-127)%12;
} else if (note < 0) {
note = 12-abs(note)%12;
}
return note;
}
//**************************************************************
int patchLimit(int value){
if (value < 1) return 1; else if (value > 128) return 128; else return value;
}
void midiPanic(){ // all notes off
usbMIDI.sendControlChange(123, 0, activeMIDIchannel);
dinMIDIsendControlChange(123, 0, activeMIDIchannel - 1);
}
//**************************************************************
void midiReset(){ // reset controllers
usbMIDI.sendControlChange(7, 100, activeMIDIchannel);
dinMIDIsendControlChange(7, 100, activeMIDIchannel - 1);
usbMIDI.sendControlChange(11, 127, activeMIDIchannel);
dinMIDIsendControlChange(11, 127, activeMIDIchannel - 1);
}
//**************************************************************
// Send a three byte din midi message
void midiSend3B(byte midistatus, byte data1, byte data2) {
Serial3.write(midistatus);
Serial3.write(data1);
Serial3.write(data2);
}
//**************************************************************
// Send a two byte din midi message
void midiSend2B(byte midistatus, byte data) {
Serial3.write(midistatus);
Serial3.write(data);
}
//**************************************************************
// Send din pitchbend
void dinMIDIsendPitchBend(int pb, byte ch) {
int pitchLSB = pb & 0x007F;
int pitchMSB = (pb >>7) & 0x007F;
midiSend3B((0xE0 | ch), pitchLSB, pitchMSB);
}
//**************************************************************
// Send din control change
void dinMIDIsendControlChange(byte ccNumber, int cc, byte ch) {
midiSend3B((0xB0 | ch), ccNumber, cc);
}
//**************************************************************
// Send din note on
void dinMIDIsendNoteOn(byte note, int vel, byte ch) {
midiSend3B((0x90 | ch), note, vel);
}
//**************************************************************
// Send din note off
void dinMIDIsendNoteOff(byte note, int vel, byte ch) {
midiSend3B((0x80 | ch), note, vel);
}
//**************************************************************
// Send din aftertouch
void dinMIDIsendAfterTouch(byte value, byte ch) {
midiSend2B((0xD0 | ch), value);
}
//**************************************************************
// Send din program change
void dinMIDIsendProgramChange(byte value, byte ch) {
midiSend2B((0xC0 | ch), value);
}
//**************************************************************
void statusLEDs() {
if (breathLevel > breathThrVal){ // breath indicator LED, labeled "B" on PCB
//analogWrite(bLedPin, map(breathLevel,0,4096,5,breathLedBrightness));
analogWrite(bLedPin, map(constrain(breathLevel,breathThrVal,breathMaxVal),breathThrVal,breathMaxVal,5,breathLedBrightness));
} else {
analogWrite(bLedPin, 0);
}
if (biteSensor > portamThrVal){ // portamento indicator LED, labeled "P" on PCB
//analogWrite(pLedPin, map(biteSensor,0,4096,5,portamLedBrightness));
analogWrite(pLedPin, map(constrain(biteSensor,portamThrVal,portamMaxVal),portamThrVal,portamMaxVal,5,portamLedBrightness));
} else {
analogWrite(pLedPin, 0);
}
}
//**************************************************************
void breath(){
int breathCCval,breathCCvalFine;
unsigned int breathCCvalHires;
breathLevel = constrain(pressureSensor,breathThrVal,breathMaxVal);
//breathLevel = breathLevel*0.6+pressureSensor*0.4; // smoothing of breathLevel value
////////breathCCval = map(constrain(breathLevel,breathThrVal,breathMaxVal),breathThrVal,breathMaxVal,0,127);
breathCCvalHires = breathCurve(map(constrain(breathLevel,breathThrVal,breathMaxVal),breathThrVal,breathMaxVal,0,16383));
breathCCval = (breathCCvalHires >>7) & 0x007F;
breathCCvalFine = breathCCvalHires & 0x007F;
if (breathCCval != oldbreath){ // only send midi data if breath has changed from previous value
if (breathCC){
// send midi cc
usbMIDI.sendControlChange(ccList[breathCC], breathCCval, activeMIDIchannel);
dinMIDIsendControlChange(ccList[breathCC], breathCCval, activeMIDIchannel - 1);
}
if (breathAT){
// send aftertouch
usbMIDI.sendAfterTouch(breathCCval, activeMIDIchannel);
dinMIDIsendAfterTouch(breathCCval, activeMIDIchannel - 1);
}
oldbreath = breathCCval;
}
if (breathCCvalHires != oldbreathhires){
if ((breathCC > 4) && (breathCC < 9)){ // send high resolution midi
usbMIDI.sendControlChange(ccList[breathCC]+32, breathCCvalFine, activeMIDIchannel);
dinMIDIsendControlChange(ccList[breathCC]+32, breathCCvalFine, activeMIDIchannel - 1);
}
oldbreathhires = breathCCvalHires;
}
}
//**************************************************************
void pitch_bend(){
// handle input from pitchbend touchpads and
// on-pcb variable capacitor for vibrato.
int vibMax;
int calculatedPBdepth;
pbUp = touchRead(pbUpPin); // SENSOR PIN 23 - PCB PIN "Pu"
pbDn = touchRead(pbDnPin); // SENSOR PIN 22 - PCB PIN "Pd"
halfPitchBendKey = (pinkySetting == PBD) && (touchRead(halfPitchBendKeyPin) > touch_Thr); // SENSOR PIN 1 - PCB PIN "S1" - hold for 1/2 pitchbend value
int vibRead = touchRead(vibratoPin); // SENSOR PIN 15 - built in var cap
calculatedPBdepth = pbDepthList[PBdepth];
if (halfPitchBendKey) calculatedPBdepth = calculatedPBdepth*0.5;
vibMax = vibMaxList[vibSens-1];
if (vibRead < vibThr){
if (UPWD == vibDirection){
vibSignal=vibSignal*0.5+0.5*map(constrain(vibRead,(vibZero-vibMax),vibThr),vibThr,(vibZero-vibMax),0,calculatedPBdepth*vibDepth[vibrato]);
} else {
vibSignal=vibSignal*0.5+0.5*map(constrain(vibRead,(vibZero-vibMax),vibThr),vibThr,(vibZero-vibMax),0,(0 - calculatedPBdepth*vibDepth[vibrato]));
}
} else if (vibRead > vibThrLo){
if (UPWD == vibDirection){
vibSignal=vibSignal*0.5+0.5*map(constrain(vibRead,vibThrLo,(vibZero+vibMax)),vibThrLo,(vibZero+vibMax),0,(0 - calculatedPBdepth*vibDepth[vibrato]));
} else {
vibSignal=vibSignal*0.5+0.5*map(constrain(vibRead,vibThrLo,(vibZero+vibMax)),vibThrLo,(vibZero+vibMax),0,calculatedPBdepth*vibDepth[vibrato]);
}
} else {
vibSignal = vibSignal*0.5;
}
switch(vibRetn){ // moving baseline
case 0:
//keep vibZero value
break;
case 1:
vibZero = vibZero*0.95+vibRead*0.05;
break;
case 2:
vibZero = vibZero*0.9+vibRead*0.1;
break;
case 3:
vibZero = vibZero*0.8+vibRead*0.2;
break;
case 4:
vibZero = vibZero*0.6+vibRead*0.4;
}
vibThr=vibZero-vibSquelch;
vibThrLo=vibZero+vibSquelch;
if ((pbUp > pitchbThrVal) && PBdepth){
pitchBend=pitchBend*0.6+0.4*map(constrain(pbUp,pitchbThrVal,pitchbMaxVal),pitchbThrVal,pitchbMaxVal,8192,(8193 + calculatedPBdepth));
} else if ((pbDn > pitchbThrVal) && PBdepth){
pitchBend=pitchBend*0.6+0.4*map(constrain(pbDn,pitchbThrVal,pitchbMaxVal),pitchbThrVal,pitchbMaxVal,8192,(8192 - calculatedPBdepth));
} else {
pitchBend = pitchBend*0.6+8192*0.4; // released, so smooth your way back to zero
if ((pitchBend > 8187) && (pitchBend < 8197)) pitchBend = 8192; // 8192 is 0 pitch bend, don't miss it bc of smoothing
}
pitchBend=pitchBend+vibSignal;
pitchBend=constrain(pitchBend, 0, 16383);
if (subVibSquelch && (8192 != pitchBend)){
digitalWrite(statusLedPin,LOW);
vibLedOff = 1;
} else if (vibLedOff){
digitalWrite(statusLedPin,HIGH);
vibLedOff = 0;
}
if (pitchBend != oldpb){// only send midi data if pitch bend has changed from previous value
#if defined(NEWTEENSYDUINO)
usbMIDI.sendPitchBend(pitchBend-8192, activeMIDIchannel); // newer teensyduino "pitchBend-8192" older just "pitchBend"... strange thing to change
#else
usbMIDI.sendPitchBend(pitchBend, activeMIDIchannel);
#endif
dinMIDIsendPitchBend(pitchBend, activeMIDIchannel - 1);
oldpb=pitchBend;
}
}
//***********************************************************
void doorKnobCheck(){
int touchValue[12];
for (byte i=0; i<12; i++){
touchValue[i]=touchSensor.filteredData(i);
}
if ((touchValue[K4Pin] < ctouchThrVal) && (touchValue[R1Pin] < ctouchThrVal) && (touchValue[R2Pin] < ctouchThrVal) && (touchValue[R3Pin] < ctouchThrVal)){ // doorknob grip on canister
if (pbUp > ((pitchbMaxVal + pitchbThrVal)/2)) {
gateOpen = 1;
digitalWrite(statusLedPin,LOW);
delay(50);
digitalWrite(statusLedPin,HIGH);
delay(50);
}
else if (pbDn > ((pitchbMaxVal + pitchbThrVal)/2)) {
gateOpen = 0;
midiPanic();
digitalWrite(statusLedPin,LOW);
delay(50);
digitalWrite(statusLedPin,HIGH);
delay(50);
digitalWrite(statusLedPin,LOW);
delay(50);
digitalWrite(statusLedPin,HIGH);
delay(50);
digitalWrite(statusLedPin,LOW);
delay(50);
digitalWrite(statusLedPin,HIGH);
delay(700);
}
}
}
//***********************************************************
void extraController(){
// Extra Controller is the lip touch sensor (proportional) in front of the mouthpiece
exSensor=exSensor*0.6+0.4*touchRead(extraPin); // get sensor data, do some smoothing - SENSOR PIN 16 - PCB PIN "EC" (marked K4 on some prototype boards)
if (extraCT && (exSensor >= extracThrVal)) { // if we are enabled and over the threshold, send data
if (!extracIsOn) {
extracIsOn=1;
if (extraCT == 4){ //Sustain ON
usbMIDI.sendControlChange(64,127, activeMIDIchannel);
dinMIDIsendControlChange(64,127, activeMIDIchannel - 1);
}
}
if (extraCT == 1){ //Send modulation
int extracCC = map(constrain(exSensor,extracThrVal,extracMaxVal),extracThrVal,extracMaxVal,1,127);
if (extracCC != oldextrac){
usbMIDI.sendControlChange(1,extracCC, activeMIDIchannel);
dinMIDIsendControlChange(1,extracCC, activeMIDIchannel - 1);
}
oldextrac = extracCC;
}
if (extraCT == 2){ //Send foot pedal (CC#4)
int extracCC = map(constrain(exSensor,extracThrVal,extracMaxVal),extracThrVal,extracMaxVal,1,127);
if (extracCC != oldextrac){
usbMIDI.sendControlChange(4,extracCC, activeMIDIchannel);
dinMIDIsendControlChange(4,extracCC, activeMIDIchannel - 1);
}
oldextrac = extracCC;
}
if ((extraCT == 3) && (breathCC != 9)){ //Send filter cutoff (CC#74)
int extracCC = map(constrain(exSensor,extracThrVal,extracMaxVal),extracThrVal,extracMaxVal,1,127);
if (extracCC != oldextrac){
usbMIDI.sendControlChange(74,extracCC, activeMIDIchannel);
dinMIDIsendControlChange(74,extracCC, activeMIDIchannel - 1);
}
oldextrac = extracCC;
}
} else if (extracIsOn) { // we have just gone below threshold, so send zero value
extracIsOn=0;
if (extraCT == 1){ //MW
if (oldextrac != 0){
//send modulation 0
usbMIDI.sendControlChange(1,0, activeMIDIchannel);
dinMIDIsendControlChange(1,0, activeMIDIchannel - 1);
oldextrac = 0;
}
} else if (extraCT == 2){ //FP
if (oldextrac != 0){
//send foot pedal 0
usbMIDI.sendControlChange(4,0, activeMIDIchannel);
dinMIDIsendControlChange(4,0, activeMIDIchannel - 1);
oldextrac = 0;
}
} else if ((extraCT == 3) && (breathCC != 9)){ //CF
if (oldextrac != 0){
//send filter cutoff 0
usbMIDI.sendControlChange(74,0, activeMIDIchannel);
dinMIDIsendControlChange(74,0, activeMIDIchannel - 1);
oldextrac = 0;
}
} else if (extraCT == 4){ //SP
//send sustain off
usbMIDI.sendControlChange(64,0, activeMIDIchannel);
dinMIDIsendControlChange(64,0, activeMIDIchannel - 1);
}
}
}
//***********************************************************
void portamento_(){
// Portamento is controlled with the bite sensor (variable capacitor) in the mouthpiece
biteSensor=touchRead(bitePin); // get sensor data, do some smoothing - SENSOR PIN 17 - PCB PINS LABELED "BITE" (GND left, sensor pin right)
if (portamento && (biteSensor >= portamThrVal)) { // if we are enabled and over the threshold, send portamento
if (!portIsOn) {
portOn();
}
port();
} else if (portIsOn) { // we have just gone below threshold, so send zero value
portOff();
}
}
//***********************************************************
void portOn(){
if (portamento == 2){ // if portamento midi switching is enabled
usbMIDI.sendControlChange(CCN_PortOnOff, 127, activeMIDIchannel);
dinMIDIsendControlChange(CCN_PortOnOff, 127, activeMIDIchannel - 1);
}
portIsOn=1;
}
//***********************************************************
void port(){
int portCC;
portCC = map(constrain(biteSensor,portamThrVal,portamMaxVal),portamThrVal,portamMaxVal,0,127);
if (portCC!=oldport){
usbMIDI.sendControlChange(CCN_Port, portCC, activeMIDIchannel);
dinMIDIsendControlChange(CCN_Port, portCC, activeMIDIchannel - 1);
}
oldport = portCC;
}
//***********************************************************
void portOff(){
if (oldport != 0){ //did a zero get sent? if not, then send one
usbMIDI.sendControlChange(CCN_Port, 0, activeMIDIchannel);
dinMIDIsendControlChange(CCN_Port, 0, activeMIDIchannel - 1);
}
if (portamento == 2){ // if portamento midi switching is enabled
usbMIDI.sendControlChange(CCN_PortOnOff, 0, activeMIDIchannel);
dinMIDIsendControlChange(CCN_PortOnOff, 0, activeMIDIchannel - 1);
}
portIsOn=0;
oldport = 0;
}
//***********************************************************
void readSwitches(){
int qTransp;
// Read touch pads (MPR121) and put value in variables
int touchValue[12];
for (byte i=0; i<12; i++){
touchValue[i]=touchSensor.filteredData(i);
}
// Octave rollers
octaveR = 0;
if ((touchValue[R5Pin] < ctouchThrVal) && (touchValue[R3Pin] < ctouchThrVal)) octaveR = 6; //R6 = R5 && R3
else if (touchValue[R5Pin] < ctouchThrVal) octaveR = 5; //R5
else if (touchValue[R4Pin] < ctouchThrVal) octaveR = 4; //R4
else if (touchValue[R3Pin] < ctouchThrVal) octaveR = 3; //R3
else if (touchValue[R2Pin] < ctouchThrVal) octaveR = 2; //R2
else if (touchValue[R1Pin] < ctouchThrVal) octaveR = 1; //R1
// Valves and trill keys
K4=(touchValue[K4Pin] < ctouchThrVal);
K1=(touchValue[K1Pin] < ctouchThrVal);
K2=(touchValue[K2Pin] < ctouchThrVal);
K3=(touchValue[K3Pin] < ctouchThrVal);
K5=(touchValue[K5Pin] < ctouchThrVal);
K6=(touchValue[K6Pin] < ctouchThrVal);
K7=(touchValue[K7Pin] < ctouchThrVal);
pinkyKey = (touchRead(halfPitchBendKeyPin) > touch_Thr); // SENSOR PIN 1 - PCB PIN "S1"
if ((pinkySetting < 12) && pinkyKey){
qTransp = pinkySetting - 12;
} else if ((pinkySetting > 12) && pinkyKey){
qTransp = pinkySetting - 12;
} else {
qTransp = 0;
}
// Calculate midi note number from pressed keys
fingeredNote=startNote-2*K1-K2-3*K3-5*K4+2*K5+K6+4*K7+octaveR*12+(octave-3)*12+transpose-12+qTransp;
fingeredNoteUntransposed=startNote-2*K1-K2-3*K3-5*K4+2*K5+K6+4*K7+octaveR*12;
}
//***********************************************************
int readTrills(){
readSwitches();
return K5+2*K6+4*K7;
}
//***********************************************************
void setFPS(int trills){
fastPatch[trills-1] = patch;
writeSetting(FP1_ADDR+2*(trills-1),patch);
FPD = 2;
}
//***********************************************************
void clearFPS(int trills){
fastPatch[trills-1] = 0;
writeSetting(FP1_ADDR+2*(trills-1),0);
FPD = 3;
}
// MENU STUFF FROM THIS POINT <<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<
void menu() {
// read the state of the switches
deumButtons = !digitalRead(dPin)+2*!digitalRead(ePin)+4*!digitalRead(uPin)+8*!digitalRead(mPin);
// check to see if you just pressed the button
// (i.e. the input went from LOW to HIGH), and you've waited long enough
// since the last press to ignore any noise:
// If the switch changed, due to noise or pressing:
if (deumButtons != lastDeumButtons) {
// reset the debouncing timer
lastDebounceTime = millis();
}
if ((millis() - lastDebounceTime) > debounceDelay) {
// whatever the reading is at, it's been there for longer than the debounce
// delay, so take it as the actual current state:
// if the button state has changed:
if (deumButtons != deumButtonState) {
deumButtonState = deumButtons;
menuTime = millis();
Serial.println(deumButtonState);
buttonPressedAndNotUsed = 1;
buttonPressedTime = millis();
}
if (((deumButtons == 1) || (deumButtons == 4)) && (millis() - buttonPressedTime > buttonRepeatDelay) && (millis() - buttonRepeatTime > buttonRepeatInterval)){
buttonPressedAndNotUsed = 1;
buttonRepeatTime = millis();
}
}
// save the reading. Next time through the loop, it'll be the lastButtonState:
lastDeumButtons = deumButtons;
if (state && ((millis() - menuTime) > menuTimeUp)) { // shut off menu system if not used for a while (changes not stored by exiting a setting manually will not be stored in EEPROM)
state = DISPLAYOFF_IDL;
stateFirstRun = 1;
subTranspose = 0;
subMIDI = 0;
subBreathCC = 0;
subBreathAT = 0;
subVelocity = 0;
subPort = 0;
subPB = 0;
subExtra = 0;
subVibrato = 0;
subDeglitch = 0;
subPinky = 0;
subVelSmpDl = 0;
subVelBias = 0;
subParallel = 0;
subRotator = 0;
subPriority = 0;
subVibSens = 0;
subVibRetn = 0;
subVibSquelch = 0;
subVibDirection = 0;
}
if (state == DISPLAYOFF_IDL){
if (stateFirstRun) {
display.ssd1306_command(SSD1306_DISPLAYOFF);
stateFirstRun = 0;
}
if (buttonPressedAndNotUsed){
buttonPressedAndNotUsed = 0;
int trills = readTrills();
switch (deumButtonState){
case 1:
// down
if (trills && (fastPatch[trills-1] > 0)){
patch = fastPatch[trills-1];
activePatch = 0;
doPatchUpdate = 1;
FPD = 1;
} else if (!trills) buttonPressedAndNotUsed = 1;
display.ssd1306_command(SSD1306_DISPLAYON);
state = PATCH_VIEW;
stateFirstRun = 1;
break;
case 2:
// enter
if (trills && (fastPatch[trills-1] > 0)){
patch = fastPatch[trills-1];
activePatch = 0;
doPatchUpdate = 1;
FPD = 1;
}
display.ssd1306_command(SSD1306_DISPLAYON);
state = PATCH_VIEW;
stateFirstRun = 1;
break;
case 4:
// up
if (trills && (fastPatch[trills-1] > 0)){
patch = fastPatch[trills-1];
activePatch = 0;
doPatchUpdate = 1;
FPD = 1;
} else if (!trills) buttonPressedAndNotUsed = 1;
display.ssd1306_command(SSD1306_DISPLAYON);
state = PATCH_VIEW;
buttonPressedAndNotUsed = 1;
stateFirstRun = 1;
break;
case 8:
// menu
if (pinkyKey && (exSensor >= ((extracThrVal+extracMaxVal)/2))){ // switch breath activated legacy settings on/off
legacyBrAct = !legacyBrAct;
dipSwBits = dipSwBits ^ (1<<2);
writeSetting(DIPSW_BITS_ADDR,dipSwBits);
digitalWrite(statusLedPin,LOW);
delay(150);
digitalWrite(statusLedPin,HIGH);
delay(150);
digitalWrite(statusLedPin, LOW);
delay(150);
digitalWrite(statusLedPin,HIGH);
} else if ((exSensor >= ((extracThrVal+extracMaxVal)/2))){ // switch pb pad activated legacy settings control on/off
legacy = !legacy;
dipSwBits = dipSwBits ^ (1<<1);
writeSetting(DIPSW_BITS_ADDR,dipSwBits);
digitalWrite(statusLedPin,LOW);
delay(150);
digitalWrite(statusLedPin,HIGH);
delay(150);
digitalWrite(statusLedPin,LOW);
delay(150);
digitalWrite(statusLedPin,HIGH);
} else if (pinkyKey){
display.ssd1306_command(SSD1306_DISPLAYON);
state = ROTATOR_MENU;
stateFirstRun = 1;
} else {
display.ssd1306_command(SSD1306_DISPLAYON);
state = MAIN_MENU;
stateFirstRun = 1;
}
break;
case 15:
//all keys depressed, reboot to programming mode
_reboot_Teensyduino_();
}
}
} else if (state == PATCH_VIEW){
if (stateFirstRun) {
drawPatchView();
patchViewTime = millis();
stateFirstRun = 0;
}
if ((millis() - patchViewTime) > patchViewTimeUp) {
state = DISPLAYOFF_IDL;
stateFirstRun = 1;
doPatchUpdate = 1;
FPD = 0;
if (readSetting(PATCH_ADDR) != patch) writeSetting(PATCH_ADDR,patch);
}
if (buttonPressedAndNotUsed){
buttonPressedAndNotUsed = 0;
int trills = readTrills();
switch (deumButtonState){
case 1:
// down
if (trills && (fastPatch[trills-1] > 0)){
patch = fastPatch[trills-1];
activePatch = 0;
doPatchUpdate = 1;
FPD = 1;
if (readSetting(PATCH_ADDR) != patch) writeSetting(PATCH_ADDR,patch);
} else if (!trills){
if (patch > 1){
patch--;
} else patch = 128;
activePatch = 0;
doPatchUpdate = 1;
FPD = 0;
}
drawPatchView();
patchViewTime = millis();
break;
case 2:
// enter
if (trills && (fastPatch[trills-1] > 0)){
patch = fastPatch[trills-1];
activePatch = 0;
doPatchUpdate = 1;
FPD = 1;
drawPatchView();
}
patchViewTime = millis();
break;
case 4:
// up
if (trills && (fastPatch[trills-1] > 0)){
patch = fastPatch[trills-1];
activePatch = 0;
doPatchUpdate = 1;
FPD = 1;
if (readSetting(PATCH_ADDR) != patch) writeSetting(PATCH_ADDR,patch);
} else if (!trills){
if (patch < 128){
patch++;
} else patch = 1;
activePatch = 0;
doPatchUpdate = 1;
FPD = 0;
}
drawPatchView();
patchViewTime = millis();
break;
case 8:
// menu
if (FPD < 2){
state = DISPLAYOFF_IDL;
stateFirstRun = 1;
doPatchUpdate = 1;
}
if (readSetting(PATCH_ADDR) != patch) writeSetting(PATCH_ADDR,patch);
FPD = 0;
break;
case 10:
// enter + menu
midiPanic();
display.clearDisplay();
display.setTextColor(WHITE);
display.setTextSize(2);
display.setCursor(35,15);
display.println("DON'T");
display.setCursor(35,30);
display.println("PANIC");
display.display();
patchViewTime = millis();
break;
case 15:
//all keys depressed, reboot to programming mode
_reboot_Teensyduino_();
}
}
} else if (state == MAIN_MENU){ // MAIN MENU HERE <<<<<<<<<<<<<<<
if (stateFirstRun) {
drawMenuScreen();
stateFirstRun = 0;
}
if (subTranspose){
if ((millis() - cursorBlinkTime) > cursorBlinkInterval) {
if (cursorNow == WHITE) cursorNow = BLACK; else cursorNow = WHITE;
plotTranspose(cursorNow);
display.display();
cursorBlinkTime = millis();
}
if (buttonPressedAndNotUsed){
buttonPressedAndNotUsed = 0;
switch (deumButtonState){
case 1:
// down
if (transpose > 0){
plotTranspose(BLACK);
transpose--;
plotTranspose(WHITE);
cursorNow = BLACK;
display.display();
cursorBlinkTime = millis();
}
break;
case 2:
// enter
plotTranspose(WHITE);
cursorNow = BLACK;
display.display();
subTranspose = 0;
if (readSetting(TRANSP_ADDR) != transpose) writeSetting(TRANSP_ADDR,transpose);
break;
case 4:
// up
if (transpose < 24){
plotTranspose(BLACK);
transpose++;
plotTranspose(WHITE);
cursorNow = BLACK;
display.display();
cursorBlinkTime = millis();
}
break;
case 8:
// menu
plotTranspose(WHITE);
cursorNow = BLACK;
display.display();
subTranspose = 0;
if (readSetting(TRANSP_ADDR) != transpose) writeSetting(TRANSP_ADDR,transpose);
break;
}
}
} else if (subOctave){
if ((millis() - cursorBlinkTime) > cursorBlinkInterval) {
if (cursorNow == WHITE) cursorNow = BLACK; else cursorNow = WHITE;
plotOctave(cursorNow);
display.display();
cursorBlinkTime = millis();
}
if (buttonPressedAndNotUsed){
buttonPressedAndNotUsed = 0;
switch (deumButtonState){
case 1:
// down
if (octave > 0){
plotOctave(BLACK);
octave--;
plotOctave(WHITE);
cursorNow = BLACK;
display.display();
cursorBlinkTime = millis();
}
break;
case 2:
// enter
plotOctave(WHITE);
cursorNow = BLACK;
display.display();
subOctave = 0;
if (readSetting(OCTAVE_ADDR) != octave) writeSetting(OCTAVE_ADDR,octave);
break;
case 4:
// up
if (octave < 6){
plotOctave(BLACK);
octave++;
plotOctave(WHITE);
cursorNow = BLACK;
display.display();
cursorBlinkTime = millis();
}
break;
case 8:
// menu
plotOctave(WHITE);
cursorNow = BLACK;
display.display();
subOctave = 0;
if (readSetting(OCTAVE_ADDR) != octave) writeSetting(OCTAVE_ADDR,octave);
break;
}
}
} else if (subMIDI) {
if ((millis() - cursorBlinkTime) > cursorBlinkInterval) {
if (cursorNow == WHITE) cursorNow = BLACK; else cursorNow = WHITE;
plotMIDI(cursorNow);
display.display();
cursorBlinkTime = millis();
}
if (buttonPressedAndNotUsed){
buttonPressedAndNotUsed = 0;
switch (deumButtonState){
case 1:
// down
if (MIDIchannel > 1){
plotMIDI(BLACK);
MIDIchannel--;
plotMIDI(WHITE);
cursorNow = BLACK;
display.display();
cursorBlinkTime = millis();
}
break;
case 2:
// enter
plotMIDI(WHITE);
cursorNow = BLACK;
display.display();
subMIDI = 0;
if (readSetting(MIDI_ADDR) != MIDIchannel) writeSetting(MIDI_ADDR,MIDIchannel);
break;
case 4:
// up
if (MIDIchannel < 16){
plotMIDI(BLACK);
MIDIchannel++;
plotMIDI(WHITE);
cursorNow = BLACK;
display.display();
cursorBlinkTime = millis();
}
break;
case 8:
// menu
plotMIDI(WHITE);
cursorNow = BLACK;
display.display();
subMIDI = 0;
if (readSetting(MIDI_ADDR) != MIDIchannel) writeSetting(MIDI_ADDR,MIDIchannel);
break;
}
}
} else {
if ((millis() - cursorBlinkTime) > cursorBlinkInterval) {
if (cursorNow == WHITE) cursorNow = BLACK; else cursorNow = WHITE;
drawMenuCursor(mainMenuCursor, cursorNow);
display.display();
cursorBlinkTime = millis();
}
if (buttonPressedAndNotUsed){
buttonPressedAndNotUsed = 0;
int trills = readTrills();
switch (deumButtonState){
case 1:
// down
if (mainMenuCursor < 6){
drawMenuCursor(mainMenuCursor, BLACK);
mainMenuCursor++;
drawMenuCursor(mainMenuCursor, WHITE);
cursorNow = BLACK;
clearSub();
display.display();
}
break;
case 2:
// enter
selectMainMenu();
break;
case 4:
// up
if (mainMenuCursor > 1){
drawMenuCursor(mainMenuCursor, BLACK);
mainMenuCursor--;
drawMenuCursor(mainMenuCursor, WHITE);
cursorNow = BLACK;
clearSub();
display.display();
}
break;
case 8:
// menu
state = DISPLAYOFF_IDL;
stateFirstRun = 1;
break;
case 9:
//menu+down
break;
case 10:
//menu+enter
if (trills){
state = PATCH_VIEW;
stateFirstRun = 1;
setFPS(trills);
}
break;
case 12:
//menu+up
if (trills){
state = PATCH_VIEW;
stateFirstRun = 1;
clearFPS(trills);
}
break;
}
}
}
} else if (state == ROTATOR_MENU){ // ROTATOR MENU HERE <<<<<<<<<<<<<<<
if (stateFirstRun) {
drawRotatorMenuScreen();
stateFirstRun = 0;
}
if (subParallel){
if (((millis() - cursorBlinkTime) > cursorBlinkInterval) || forceRedraw) {
if (cursorNow == WHITE) cursorNow = BLACK; else cursorNow = WHITE;
if (forceRedraw){
forceRedraw = 0;
cursorNow = WHITE;
}
plotRotator(cursorNow,parallel);
display.display();
cursorBlinkTime = millis();
}
if (buttonPressedAndNotUsed){
buttonPressedAndNotUsed = 0;
switch (deumButtonState){
case 1:
// down
if (parallel > -24){
plotRotator(BLACK,parallel);
parallel--;
plotRotator(WHITE,parallel);
cursorNow = BLACK;
display.display();
cursorBlinkTime = millis();
}
break;
case 2:
// enter
plotRotator(WHITE,parallel);
cursorNow = BLACK;
display.display();
subParallel = 0;
if (readSetting(PARAL_ADDR) != (parallel + 24)) writeSetting(PARAL_ADDR,(parallel + 24));
break;
case 4:
// up
if (parallel < 24){
plotRotator(BLACK,parallel);
parallel++;
plotRotator(WHITE,parallel);
cursorNow = BLACK;
display.display();
cursorBlinkTime = millis();
}
break;
case 8:
// menu
plotRotator(WHITE,parallel);
cursorNow = BLACK;
display.display();
subParallel = 0;
if (readSetting(PARAL_ADDR) != (parallel + 24)) writeSetting(PARAL_ADDR,(parallel + 24));
break;
}
}
} else if (subRotator){
if (((millis() - cursorBlinkTime) > cursorBlinkInterval) || forceRedraw) {
if (cursorNow == WHITE) cursorNow = BLACK; else cursorNow = WHITE;
if (forceRedraw){
forceRedraw = 0;
cursorNow = WHITE;
}
plotRotator(cursorNow,rotations[subRotator-1]);
display.display();
cursorBlinkTime = millis();
}
if (buttonPressedAndNotUsed){
buttonPressedAndNotUsed = 0;
switch (deumButtonState){
case 1:
// down
if (rotations[subRotator-1] > -24){
plotRotator(BLACK,rotations[subRotator-1]);
rotations[subRotator-1]--;
plotRotator(WHITE,rotations[subRotator-1]);
cursorNow = BLACK;
display.display();
cursorBlinkTime = millis();
}
break;
case 2:
// enter
plotRotator(WHITE,rotations[subRotator-1]);
cursorNow = BLACK;
display.display();
if (readSetting(ROTN1_ADDR+2*(subRotator-1)) != rotations[subRotator-1]) writeSetting(ROTN1_ADDR+2*(subRotator-1),(rotations[subRotator-1]+24));
subRotator = 0;
break;
case 4:
// up
if (rotations[subRotator-1] < 24){
plotRotator(BLACK,rotations[subRotator-1]);
rotations[subRotator-1]++;
plotRotator(WHITE,rotations[subRotator-1]);
cursorNow = BLACK;
display.display();
cursorBlinkTime = millis();
}
break;
case 8:
// menu
plotRotator(WHITE,rotations[subRotator-1]);
cursorNow = BLACK;
display.display();
if (readSetting(ROTN1_ADDR+2*(subRotator-1)) != (rotations[subRotator-1]+24)) writeSetting(ROTN1_ADDR+2*(subRotator-1),(rotations[subRotator-1]+24));
subRotator = 0;
break;
}
}
} else if (subPriority){
if ((millis() - cursorBlinkTime) > cursorBlinkInterval) {
if (cursorNow == WHITE) cursorNow = BLACK; else cursorNow = WHITE;
plotPriority(cursorNow);
display.display();
cursorBlinkTime = millis();
}
if (buttonPressedAndNotUsed){
buttonPressedAndNotUsed = 0;
switch (deumButtonState){
case 1:
// down
plotPriority(BLACK);
priority = !priority;
plotPriority(WHITE);
cursorNow = BLACK;
display.display();
cursorBlinkTime = millis();
break;
case 2:
// enter
plotPriority(WHITE);
cursorNow = BLACK;
display.display();
subPriority = 0;
if (readSetting(PRIO_ADDR) != priority) writeSetting(PRIO_ADDR,priority);
break;
case 4:
// up
plotPriority(BLACK);
priority = !priority;
plotPriority(WHITE);
cursorNow = BLACK;
display.display();
cursorBlinkTime = millis();
break;
case 8:
// menu
plotPriority(WHITE);
cursorNow = BLACK;
display.display();
subPriority = 0;
if (readSetting(PRIO_ADDR) != priority) writeSetting(PRIO_ADDR,priority);
break;
}
}
} else {
if ((millis() - cursorBlinkTime) > cursorBlinkInterval) {
if (cursorNow == WHITE) cursorNow = BLACK; else cursorNow = WHITE;
drawMenuCursor(rotatorMenuCursor, cursorNow);
display.display();
cursorBlinkTime = millis();
}
if (buttonPressedAndNotUsed){
buttonPressedAndNotUsed = 0;
int trills = readTrills();
switch (deumButtonState){
case 1:
// down
if (rotatorMenuCursor < 6){
drawMenuCursor(rotatorMenuCursor, BLACK);
rotatorMenuCursor++;
drawMenuCursor(rotatorMenuCursor, WHITE);
cursorNow = BLACK;
clearSub();
display.display();
}
break;
case 2:
// enter
selectRotatorMenu();
break;
case 4:
// up
if (rotatorMenuCursor > 1){
drawMenuCursor(rotatorMenuCursor, BLACK);
rotatorMenuCursor--;
drawMenuCursor(rotatorMenuCursor, WHITE);
cursorNow = BLACK;
clearSub();
display.display();
}
break;
case 8:
// menu
state = DISPLAYOFF_IDL;
stateFirstRun = 1;
break;
case 9:
//menu+down
break;
case 10:
//menu+enter
if (trills){
state = PATCH_VIEW;
stateFirstRun = 1;
setFPS(trills);
}
break;
case 12:
//menu+up
if (trills){
state = PATCH_VIEW;
stateFirstRun = 1;
clearFPS(trills);
}
break;
}
}
}
// end rotator menu
} else if (state == BREATH_ADJ_IDL){
if (stateFirstRun) {
drawBreathScreen();
forcePix = 1;
stateFirstRun = 0;
}
if ((millis() - cursorBlinkTime) > cursorBlinkInterval) {
if (cursorNow == WHITE) cursorNow = BLACK; else cursorNow = WHITE;
drawAdjCursor(cursorNow);
display.display();
cursorBlinkTime = millis();
}
if (buttonPressedAndNotUsed){
buttonPressedAndNotUsed = 0;
switch (deumButtonState){
case 1:
// down
state = PORTAM_ADJ_IDL;
stateFirstRun = 1;
if (readSetting(BREATH_THR_ADDR) != breathThrVal) writeSetting(BREATH_THR_ADDR,breathThrVal);
if (readSetting(BREATH_MAX_ADDR) != breathMaxVal) writeSetting(BREATH_MAX_ADDR,breathMaxVal);
break;
case 2:
// enter
state = BREATH_ADJ_THR;
break;
case 4:
// up
state = CTOUCH_ADJ_IDL;
stateFirstRun = 1;
if (readSetting(BREATH_THR_ADDR) != breathThrVal) writeSetting(BREATH_THR_ADDR,breathThrVal);
if (readSetting(BREATH_MAX_ADDR) != breathMaxVal) writeSetting(BREATH_MAX_ADDR,breathMaxVal);
break;
case 8:
// menu
state = MAIN_MENU;
stateFirstRun = 1;
if (readSetting(BREATH_THR_ADDR) != breathThrVal) writeSetting(BREATH_THR_ADDR,breathThrVal);
if (readSetting(BREATH_MAX_ADDR) != breathMaxVal) writeSetting(BREATH_MAX_ADDR,breathMaxVal);
break;
}
}
} else if (state == BREATH_ADJ_THR){
if ((millis() - cursorBlinkTime) > cursorBlinkInterval) {
if (cursorNow == WHITE) cursorNow = BLACK; else cursorNow = WHITE;
display.drawLine(pos1,20,pos1,26,cursorNow);
display.display();
cursorBlinkTime = millis();
}
if (buttonPressedAndNotUsed){
buttonPressedAndNotUsed = 0;
switch (deumButtonState){
case 1:
// down
if (breathThrVal - breathStep > breathLoLimit){
breathThrVal -= breathStep;
display.drawLine(pos1,20,pos1,26,BLACK);
pos1 = map(breathThrVal, breathLoLimit, breathHiLimit, 27, 119);
display.drawLine(pos1,20,pos1,26,WHITE);
display.display();
cursorBlinkTime = millis();
cursorNow = BLACK;
}
break;
case 2:
// enter
state = BREATH_ADJ_MAX;
display.drawLine(pos1,20,pos1,26,WHITE);
display.display();
break;
case 4:
// up
if (breathThrVal + breathStep < breathHiLimit){
breathThrVal += breathStep;
display.drawLine(pos1,20,pos1,26,BLACK);
pos1 = map(breathThrVal, breathLoLimit, breathHiLimit, 27, 119);
display.drawLine(pos1,20,pos1,26,WHITE);
display.display();
cursorBlinkTime = millis();
cursorNow = BLACK;
}
break;
case 8:
// menu
state = BREATH_ADJ_IDL;
display.drawLine(pos1,20,pos1,26,WHITE);
display.display();
break;
}
}
} else if (state == BREATH_ADJ_MAX){
if ((millis() - cursorBlinkTime) > cursorBlinkInterval) {
if (cursorNow == WHITE) cursorNow = BLACK; else cursorNow = WHITE;
display.drawLine(pos2,50,pos2,57,cursorNow);;
display.display();
cursorBlinkTime = millis();
}
if (buttonPressedAndNotUsed){
buttonPressedAndNotUsed = 0;
switch (deumButtonState){
case 1:
// down
if ((breathMaxVal - breathStep) > (breathThrVal + minOffset)){
breathMaxVal -= breathStep;
display.drawLine(pos2,50,pos2,57,BLACK);
pos2 = map(breathMaxVal, breathLoLimit, breathHiLimit, 27, 119);
display.drawLine(pos2,50,pos2,57,WHITE);
display.display();
cursorBlinkTime = millis();
cursorNow = BLACK;
}
break;
case 2:
// enter
state = BREATH_ADJ_IDL;
display.drawLine(pos2,50,pos2,57,WHITE);
display.display();
break;
case 4:
// up
if (breathMaxVal + breathStep < breathHiLimit){
breathMaxVal += breathStep;
display.drawLine(pos2,50,pos2,57,BLACK);
pos2 = map(breathMaxVal, breathLoLimit, breathHiLimit, 27, 119);
display.drawLine(pos2,50,pos2,57,WHITE);
display.display();
cursorBlinkTime = millis();
cursorNow = BLACK;
}
break;
case 8:
// menu
state = BREATH_ADJ_IDL;
display.drawLine(pos2,50,pos2,57,WHITE);
display.display();
break;
}
}
} else if (state == PORTAM_ADJ_IDL){
if (stateFirstRun) {
drawPortamScreen();
forcePix = 1;
stateFirstRun = 0;
}
if ((millis() - cursorBlinkTime) > cursorBlinkInterval) {
if (cursorNow == WHITE) cursorNow = BLACK; else cursorNow = WHITE;
drawAdjCursor(cursorNow);
display.display();
cursorBlinkTime = millis();
}
if (buttonPressedAndNotUsed){
buttonPressedAndNotUsed = 0;
switch (deumButtonState){
case 1:
// down
state = PITCHB_ADJ_IDL;
stateFirstRun = 1;
if (readSetting(PORTAM_THR_ADDR) != portamThrVal) writeSetting(PORTAM_THR_ADDR,portamThrVal);
if (readSetting(PORTAM_MAX_ADDR) != portamMaxVal) writeSetting(PORTAM_MAX_ADDR,portamMaxVal);
break;
case 2:
// enter
state = PORTAM_ADJ_THR;
break;
case 4:
// up
state = BREATH_ADJ_IDL;
stateFirstRun = 1;
if (readSetting(PORTAM_THR_ADDR) != portamThrVal) writeSetting(PORTAM_THR_ADDR,portamThrVal);
if (readSetting(PORTAM_MAX_ADDR) != portamMaxVal) writeSetting(PORTAM_MAX_ADDR,portamMaxVal);
break;
case 8:
// menu
state = MAIN_MENU;
stateFirstRun = 1;
if (readSetting(PORTAM_THR_ADDR) != portamThrVal) writeSetting(PORTAM_THR_ADDR,portamThrVal);
if (readSetting(PORTAM_MAX_ADDR) != portamMaxVal) writeSetting(PORTAM_MAX_ADDR,portamMaxVal);
break;
}
}
} else if (state == PORTAM_ADJ_THR){
if ((millis() - cursorBlinkTime) > cursorBlinkInterval) {
if (cursorNow == WHITE) cursorNow = BLACK; else cursorNow = WHITE;
display.drawLine(pos1,20,pos1,26,cursorNow);
display.display();
cursorBlinkTime = millis();
}
if (buttonPressedAndNotUsed){
buttonPressedAndNotUsed = 0;
switch (deumButtonState){
case 1:
// down
if (portamThrVal - portamStep > portamLoLimit){
portamThrVal -= portamStep;
display.drawLine(pos1,20,pos1,26,BLACK);
pos1 = map(portamThrVal, portamLoLimit, portamHiLimit, 27, 119);
display.drawLine(pos1,20,pos1,26,WHITE);
display.display();
cursorBlinkTime = millis();
cursorNow = BLACK;
}
break;
case 2:
// enter
state = PORTAM_ADJ_MAX;
display.drawLine(pos1,20,pos1,26,WHITE);
display.display();
break;
case 4:
// up
if (portamThrVal + portamStep < portamHiLimit){
portamThrVal += portamStep;
display.drawLine(pos1,20,pos1,26,BLACK);
pos1 = map(portamThrVal, portamLoLimit, portamHiLimit, 27, 119);
display.drawLine(pos1,20,pos1,26,WHITE);
display.display();
cursorBlinkTime = millis();
cursorNow = BLACK;
}
break;
case 8:
// menu
state = PORTAM_ADJ_IDL;
display.drawLine(pos1,20,pos1,26,WHITE);
display.display();
break;
}
}
} else if (state == PORTAM_ADJ_MAX){
if ((millis() - cursorBlinkTime) > cursorBlinkInterval) {
if (cursorNow == WHITE) cursorNow = BLACK; else cursorNow = WHITE;
display.drawLine(pos2,50,pos2,57,cursorNow);;
display.display();
cursorBlinkTime = millis();
}
if (buttonPressedAndNotUsed){
buttonPressedAndNotUsed = 0;
switch (deumButtonState){
case 1:
// down
if ((portamMaxVal - portamStep) > (portamThrVal + minOffset)){
portamMaxVal -= portamStep;
display.drawLine(pos2,50,pos2,57,BLACK);
pos2 = map(portamMaxVal, portamLoLimit, portamHiLimit, 27, 119);
display.drawLine(pos2,50,pos2,57,WHITE);
display.display();
cursorBlinkTime = millis();
cursorNow = BLACK;
}
break;
case 2:
// enter
state = PORTAM_ADJ_IDL;
display.drawLine(pos2,50,pos2,57,WHITE);
display.display();
break;
case 4:
// up
if (portamMaxVal + portamStep < portamHiLimit){
portamMaxVal += portamStep;
display.drawLine(pos2,50,pos2,57,BLACK);
pos2 = map(portamMaxVal, portamLoLimit, portamHiLimit, 27, 119);
display.drawLine(pos2,50,pos2,57,WHITE);
display.display();
cursorBlinkTime = millis();
cursorNow = BLACK;
}
break;
case 8:
// menu
state = PORTAM_ADJ_IDL;
display.drawLine(pos2,50,pos2,57,WHITE);
display.display();
break;
}
}
} else if (state == PITCHB_ADJ_IDL){
if (stateFirstRun) {
drawPitchbScreen();
forcePix = 1;
stateFirstRun = 0;
}
if ((millis() - cursorBlinkTime) > cursorBlinkInterval) {
if (cursorNow == WHITE) cursorNow = BLACK; else cursorNow = WHITE;
drawAdjCursor(cursorNow);
display.display();
cursorBlinkTime = millis();
}
if (buttonPressedAndNotUsed){
buttonPressedAndNotUsed = 0;
switch (deumButtonState){
case 1:
// down
state = EXTRAC_ADJ_IDL;
stateFirstRun = 1;
if (readSetting(PITCHB_THR_ADDR) != pitchbThrVal) writeSetting(PITCHB_THR_ADDR,pitchbThrVal);
if (readSetting(PITCHB_MAX_ADDR) != pitchbMaxVal) writeSetting(PITCHB_MAX_ADDR,pitchbMaxVal);
break;
case 2:
// enter
state = PITCHB_ADJ_THR;
break;
case 4:
// up
state = PORTAM_ADJ_IDL;
stateFirstRun = 1;
if (readSetting(PITCHB_THR_ADDR) != pitchbThrVal) writeSetting(PITCHB_THR_ADDR,pitchbThrVal);
if (readSetting(PITCHB_MAX_ADDR) != pitchbMaxVal) writeSetting(PITCHB_MAX_ADDR,pitchbMaxVal);
break;
case 8:
// menu
state = MAIN_MENU;
stateFirstRun = 1;
if (readSetting(PITCHB_THR_ADDR) != pitchbThrVal) writeSetting(PITCHB_THR_ADDR,pitchbThrVal);
if (readSetting(PITCHB_MAX_ADDR) != pitchbMaxVal) writeSetting(PITCHB_MAX_ADDR,pitchbMaxVal);
break;
}
}
} else if (state == PITCHB_ADJ_THR){
if ((millis() - cursorBlinkTime) > cursorBlinkInterval) {
if (cursorNow == WHITE) cursorNow = BLACK; else cursorNow = WHITE;
display.drawLine(pos1,20,pos1,26,cursorNow);
display.display();
cursorBlinkTime = millis();
}
if (buttonPressedAndNotUsed){
buttonPressedAndNotUsed = 0;
switch (deumButtonState){
case 1:
// down
if (pitchbThrVal - pitchbStep > pitchbLoLimit){
pitchbThrVal -= pitchbStep;
display.drawLine(pos1,20,pos1,26,BLACK);
pos1 = map(pitchbThrVal, pitchbLoLimit, pitchbHiLimit, 27, 119);
display.drawLine(pos1,20,pos1,26,WHITE);
display.display();
cursorBlinkTime = millis();
cursorNow = BLACK;
}
break;
case 2:
// enter
state = PITCHB_ADJ_MAX;
display.drawLine(pos1,20,pos1,26,WHITE);
display.display();
break;
case 4:
// up
if (pitchbThrVal + pitchbStep < pitchbHiLimit){
pitchbThrVal += pitchbStep;
display.drawLine(pos1,20,pos1,26,BLACK);
pos1 = map(pitchbThrVal, pitchbLoLimit, pitchbHiLimit, 27, 119);
display.drawLine(pos1,20,pos1,26,WHITE);
display.display();
cursorBlinkTime = millis();
cursorNow = BLACK;
}
break;
case 8:
// menu
state = PITCHB_ADJ_IDL;
display.drawLine(pos1,20,pos1,26,WHITE);
display.display();
break;
}
}
} else if (state == PITCHB_ADJ_MAX){
if ((millis() - cursorBlinkTime) > cursorBlinkInterval) {
if (cursorNow == WHITE) cursorNow = BLACK; else cursorNow = WHITE;
display.drawLine(pos2,50,pos2,57,cursorNow);;
display.display();
cursorBlinkTime = millis();
}
if (buttonPressedAndNotUsed){
buttonPressedAndNotUsed = 0;
switch (deumButtonState){
case 1:
// down
if ((pitchbMaxVal - pitchbStep) > (pitchbThrVal + minOffset)){
pitchbMaxVal -= pitchbStep;
display.drawLine(pos2,50,pos2,57,BLACK);
pos2 = map(pitchbMaxVal, pitchbLoLimit, pitchbHiLimit, 27, 119);
display.drawLine(pos2,50,pos2,57,WHITE);
display.display();
cursorBlinkTime = millis();
cursorNow = BLACK;
}
break;
case 2:
// enter
state = PITCHB_ADJ_IDL;
display.drawLine(pos2,50,pos2,57,WHITE);
display.display();
break;
case 4:
// up
if (pitchbMaxVal + pitchbStep < pitchbHiLimit){
pitchbMaxVal += pitchbStep;
display.drawLine(pos2,50,pos2,57,BLACK);
pos2 = map(pitchbMaxVal, pitchbLoLimit, pitchbHiLimit, 27, 119);
display.drawLine(pos2,50,pos2,57,WHITE);
display.display();
cursorBlinkTime = millis();
cursorNow = BLACK;
}
break;
case 8:
// menu
state = PITCHB_ADJ_IDL;
display.drawLine(pos2,50,pos2,57,WHITE);
display.display();
break;
}
}
} else if (state == EXTRAC_ADJ_IDL){
if (stateFirstRun) {
drawExtracScreen();
forcePix = 1;
stateFirstRun = 0;
}
if ((millis() - cursorBlinkTime) > cursorBlinkInterval) {
if (cursorNow == WHITE) cursorNow = BLACK; else cursorNow = WHITE;
drawAdjCursor(cursorNow);
display.display();
cursorBlinkTime = millis();
}
if (buttonPressedAndNotUsed){
buttonPressedAndNotUsed = 0;
switch (deumButtonState){
case 1:
// down
state = CTOUCH_ADJ_IDL;
stateFirstRun = 1;
if (readSetting(EXTRAC_THR_ADDR) != extracThrVal) writeSetting(EXTRAC_THR_ADDR,extracThrVal);
if (readSetting(EXTRAC_MAX_ADDR) != extracMaxVal) writeSetting(EXTRAC_MAX_ADDR,extracMaxVal);
break;
case 2:
// enter
state = EXTRAC_ADJ_THR;
break;
case 4:
// up
state = PITCHB_ADJ_IDL;
stateFirstRun = 1;
if (readSetting(EXTRAC_THR_ADDR) != extracThrVal) writeSetting(EXTRAC_THR_ADDR,extracThrVal);
if (readSetting(EXTRAC_MAX_ADDR) != extracMaxVal) writeSetting(EXTRAC_MAX_ADDR,extracMaxVal);
break;
case 8:
// menu
state = MAIN_MENU;
stateFirstRun = 1;
if (readSetting(EXTRAC_THR_ADDR) != extracThrVal) writeSetting(EXTRAC_THR_ADDR,extracThrVal);
if (readSetting(EXTRAC_MAX_ADDR) != extracMaxVal) writeSetting(EXTRAC_MAX_ADDR,extracMaxVal);
break;
}
}
} else if (state == EXTRAC_ADJ_THR){
if ((millis() - cursorBlinkTime) > cursorBlinkInterval) {
if (cursorNow == WHITE) cursorNow = BLACK; else cursorNow = WHITE;
display.drawLine(pos1,20,pos1,26,cursorNow);
display.display();
cursorBlinkTime = millis();
}
if (buttonPressedAndNotUsed){
buttonPressedAndNotUsed = 0;
switch (deumButtonState){
case 1:
// down
if (extracThrVal - extracStep > extracLoLimit){
extracThrVal -= extracStep;
display.drawLine(pos1,20,pos1,26,BLACK);
pos1 = map(extracThrVal, extracLoLimit, extracHiLimit, 27, 119);
display.drawLine(pos1,20,pos1,26,WHITE);
display.display();
cursorBlinkTime = millis();
cursorNow = BLACK;
}
break;
case 2:
// enter
state = EXTRAC_ADJ_MAX;
display.drawLine(pos1,20,pos1,26,WHITE);
display.display();
break;
case 4:
// up
if (extracThrVal + extracStep < extracHiLimit){
extracThrVal += extracStep;
display.drawLine(pos1,20,pos1,26,BLACK);
pos1 = map(extracThrVal, extracLoLimit, extracHiLimit, 27, 119);
display.drawLine(pos1,20,pos1,26,WHITE);
display.display();
cursorBlinkTime = millis();
cursorNow = BLACK;
}
break;
case 8:
// menu
state = EXTRAC_ADJ_IDL;
display.drawLine(pos1,20,pos1,26,WHITE);
display.display();
break;
}
}
} else if (state == EXTRAC_ADJ_MAX){
if ((millis() - cursorBlinkTime) > cursorBlinkInterval) {
if (cursorNow == WHITE) cursorNow = BLACK; else cursorNow = WHITE;
display.drawLine(pos2,50,pos2,57,cursorNow);;
display.display();
cursorBlinkTime = millis();
}
if (buttonPressedAndNotUsed){
buttonPressedAndNotUsed = 0;
switch (deumButtonState){
case 1:
// down
if ((extracMaxVal - extracStep) > (extracThrVal + minOffset)){
extracMaxVal -= extracStep;
display.drawLine(pos2,50,pos2,57,BLACK);
pos2 = map(extracMaxVal, extracLoLimit, extracHiLimit, 27, 119);
display.drawLine(pos2,50,pos2,57,WHITE);
display.display();
cursorBlinkTime = millis();
cursorNow = BLACK;
}
break;
case 2:
// enter
state = EXTRAC_ADJ_IDL;
display.drawLine(pos2,50,pos2,57,WHITE);
display.display();
break;
case 4:
// up
if (extracMaxVal + extracStep < extracHiLimit){
extracMaxVal += extracStep;
display.drawLine(pos2,50,pos2,57,BLACK);
pos2 = map(extracMaxVal, extracLoLimit, extracHiLimit, 27, 119);
display.drawLine(pos2,50,pos2,57,WHITE);
display.display();
cursorBlinkTime = millis();
cursorNow = BLACK;
}
break;
case 8:
// menu
state = EXTRAC_ADJ_IDL;
display.drawLine(pos2,50,pos2,57,WHITE);
display.display();
break;
}
}
} else if (state == CTOUCH_ADJ_IDL){
if (stateFirstRun) {
drawCtouchScreen();
forcePix = 1;
stateFirstRun = 0;
}
if ((millis() - cursorBlinkTime) > cursorBlinkInterval) {
if (cursorNow == WHITE) cursorNow = BLACK; else cursorNow = WHITE;
drawAdjCursor(cursorNow);
display.display();
cursorBlinkTime = millis();
}
if (buttonPressedAndNotUsed){
buttonPressedAndNotUsed = 0;
switch (deumButtonState){
case 1:
// down
state = BREATH_ADJ_IDL;
stateFirstRun = 1;
if (readSetting(CTOUCH_THR_ADDR) != ctouchThrVal) writeSetting(CTOUCH_THR_ADDR,ctouchThrVal);
break;
case 2:
// enter
state = CTOUCH_ADJ_THR;
break;
case 4:
// up
state = EXTRAC_ADJ_IDL;
stateFirstRun = 1;
if (readSetting(CTOUCH_THR_ADDR) != ctouchThrVal) writeSetting(CTOUCH_THR_ADDR,ctouchThrVal);
break;
case 8:
// menu
state = MAIN_MENU;
stateFirstRun = 1;
if (readSetting(CTOUCH_THR_ADDR) != ctouchThrVal) writeSetting(CTOUCH_THR_ADDR,ctouchThrVal);
break;
}
}
} else if (state == CTOUCH_ADJ_THR){
if ((millis() - cursorBlinkTime) > cursorBlinkInterval) {
if (cursorNow == WHITE) cursorNow = BLACK; else cursorNow = WHITE;
display.drawLine(pos1,20,pos1,26,cursorNow);
display.display();
cursorBlinkTime = millis();
}
if (buttonPressedAndNotUsed){
buttonPressedAndNotUsed = 0;
switch (deumButtonState){
case 1:
// down
if (ctouchThrVal - ctouchStep > ctouchLoLimit){
ctouchThrVal -= ctouchStep;
touch_Thr = map(ctouchThrVal,ctouchHiLimit,ctouchLoLimit,ttouchLoLimit,ttouchHiLimit);
display.drawLine(pos1,20,pos1,26,BLACK);
pos1 = map(ctouchThrVal, ctouchLoLimit, ctouchHiLimit, 27, 119);
display.drawLine(pos1,20,pos1,26,WHITE);
display.display();
cursorBlinkTime = millis();
cursorNow = BLACK;
}
break;
case 2:
// enter
state = CTOUCH_ADJ_IDL;
display.drawLine(pos1,20,pos1,26,WHITE);
display.display();
break;
case 4:
// up
if (ctouchThrVal + ctouchStep < ctouchHiLimit){
ctouchThrVal += ctouchStep;
touch_Thr = map(ctouchThrVal,ctouchHiLimit,ctouchLoLimit,ttouchLoLimit,ttouchHiLimit);
display.drawLine(pos1,20,pos1,26,BLACK);
pos1 = map(ctouchThrVal, ctouchLoLimit, ctouchHiLimit, 27, 119);
display.drawLine(pos1,20,pos1,26,WHITE);
display.display();
cursorBlinkTime = millis();
cursorNow = BLACK;
}
break;
case 8:
// menu
state = CTOUCH_ADJ_IDL;
display.drawLine(pos1,20,pos1,26,WHITE);
display.display();
break;
}
}
} else if (state == SETUP_BR_MENU) { // SETUP BREATH MENU HERE <<<<<<<<<<<<<<
if (stateFirstRun) {
drawSetupBrMenuScreen();
stateFirstRun = 0;
}
if (subBreathCC){
if ((millis() - cursorBlinkTime) > cursorBlinkInterval) {
if (cursorNow == WHITE) cursorNow = BLACK; else cursorNow = WHITE;
plotBreathCC(cursorNow);
display.display();
cursorBlinkTime = millis();
}
if (buttonPressedAndNotUsed){
buttonPressedAndNotUsed = 0;
switch (deumButtonState){
case 1:
// down
if (breathCC > 0){
plotBreathCC(BLACK);
breathCC--;
plotBreathCC(WHITE);
cursorNow = BLACK;
display.display();
cursorBlinkTime = millis();
} else {
plotBreathCC(BLACK);
breathCC = 9;
plotBreathCC(WHITE);
cursorNow = BLACK;
display.display();
cursorBlinkTime = millis();
}
break;
case 2:
// enter
plotBreathCC(WHITE);
cursorNow = BLACK;
display.display();
subBreathCC = 0;
if (readSetting(BREATH_CC_ADDR) != breathCC) {
writeSetting(BREATH_CC_ADDR,breathCC);
midiReset();
}
break;
case 4:
// up
if (breathCC < 9){
plotBreathCC(BLACK);
breathCC++;
plotBreathCC(WHITE);
cursorNow = BLACK;
display.display();
cursorBlinkTime = millis();
} else {
plotBreathCC(BLACK);
breathCC = 0;
plotBreathCC(WHITE);
cursorNow = BLACK;
display.display();
cursorBlinkTime = millis();
}
break;
case 8:
// menu
plotBreathCC(WHITE);
cursorNow = BLACK;
display.display();
subBreathCC = 0;
if (readSetting(BREATH_CC_ADDR) != breathCC) {
writeSetting(BREATH_CC_ADDR,breathCC);
midiReset();
}
break;
}
}
} else if (subBreathAT) {
if ((millis() - cursorBlinkTime) > cursorBlinkInterval) {
if (cursorNow == WHITE) cursorNow = BLACK; else cursorNow = WHITE;
plotBreathAT(cursorNow);
display.display();
cursorBlinkTime = millis();
}
if (buttonPressedAndNotUsed){
buttonPressedAndNotUsed = 0;
switch (deumButtonState){
case 1:
// down
plotBreathAT(BLACK);
breathAT=!breathAT;
plotBreathAT(WHITE);
cursorNow = BLACK;
display.display();
cursorBlinkTime = millis();
break;
case 2:
// enter
plotBreathAT(WHITE);
cursorNow = BLACK;
display.display();
subBreathAT = 0;
if (readSetting(BREATH_AT_ADDR) != breathAT){
writeSetting(BREATH_AT_ADDR,breathAT);
midiReset();
}
break;
case 4:
// up
plotBreathAT(BLACK);
breathAT=!breathAT;
plotBreathAT(WHITE);
cursorNow = BLACK;
display.display();
cursorBlinkTime = millis();
break;
case 8:
// menu
plotBreathAT(WHITE);
cursorNow = BLACK;
display.display();
subBreathAT = 0;
if (readSetting(BREATH_AT_ADDR) != breathAT){
writeSetting(BREATH_AT_ADDR,breathAT);
midiReset();
}
break;
}
}
} else if (subVelocity) {
if ((millis() - cursorBlinkTime) > cursorBlinkInterval) {
if (cursorNow == WHITE) cursorNow = BLACK; else cursorNow = WHITE;
plotVelocity(cursorNow);
display.display();
cursorBlinkTime = millis();
}
if (buttonPressedAndNotUsed){
buttonPressedAndNotUsed = 0;
switch (deumButtonState){
case 1:
// down
plotVelocity(BLACK);
if (velocity > 0){
velocity--;
} else velocity = 127;
plotVelocity(WHITE);
cursorNow = BLACK;
display.display();
cursorBlinkTime = millis();
break;
case 2:
// enter
plotVelocity(WHITE);
cursorNow = BLACK;
display.display();
subVelocity = 0;
if (readSetting(VELOCITY_ADDR) != velocity) writeSetting(VELOCITY_ADDR,velocity);
break;
case 4:
// up
plotVelocity(BLACK);
if (velocity < 127){
velocity++;
} else velocity = 0;
plotVelocity(WHITE);
cursorNow = BLACK;
display.display();
cursorBlinkTime = millis();
break;
case 8:
// menu
plotVelocity(WHITE);
cursorNow = BLACK;
display.display();
subVelocity = 0;
if (readSetting(VELOCITY_ADDR) != velocity) writeSetting(VELOCITY_ADDR,velocity);
break;
}
}
} else if (subCurve) {
if ((millis() - cursorBlinkTime) > cursorBlinkInterval) {
if (cursorNow == WHITE) cursorNow = BLACK; else cursorNow = WHITE;
plotCurve(cursorNow);
display.display();
cursorBlinkTime = millis();
}
if (buttonPressedAndNotUsed){
buttonPressedAndNotUsed = 0;
switch (deumButtonState){
case 1:
// down
plotCurve(BLACK);
if (curve > 0){
curve--;
} else curve = 12;
plotCurve(WHITE);
cursorNow = BLACK;
display.display();
cursorBlinkTime = millis();
break;
case 2:
// enter
plotCurve(WHITE);
cursorNow = BLACK;
display.display();
subCurve = 0;
if (readSetting(BREATHCURVE_ADDR) != curve) writeSetting(BREATHCURVE_ADDR,curve);
break;
case 4:
// up
plotCurve(BLACK);
if (curve < 12){
curve++;
} else curve = 0;
plotCurve(WHITE);
cursorNow = BLACK;
display.display();
cursorBlinkTime = millis();
break;
case 8:
// menu
plotCurve(WHITE);
cursorNow = BLACK;
display.display();
subCurve = 0;
if (readSetting(BREATHCURVE_ADDR) != curve) writeSetting(BREATHCURVE_ADDR,curve);
break;
}
}
} else if (subVelSmpDl) {
if ((millis() - cursorBlinkTime) > cursorBlinkInterval) {
if (cursorNow == WHITE) cursorNow = BLACK; else cursorNow = WHITE;
plotVelSmpDl(cursorNow);
display.display();
cursorBlinkTime = millis();
}
if (buttonPressedAndNotUsed){
buttonPressedAndNotUsed = 0;
switch (deumButtonState){
case 1:
// down
plotVelSmpDl(BLACK);
if (velSmpDl > 0){
velSmpDl-=5;
} else velSmpDl = 30;
plotVelSmpDl(WHITE);
cursorNow = BLACK;
display.display();
cursorBlinkTime = millis();
break;
case 2:
// enter
plotVelSmpDl(WHITE);
cursorNow = BLACK;
display.display();
subVelSmpDl = 0;
if (readSetting(VEL_SMP_DL_ADDR) != velSmpDl) writeSetting(VEL_SMP_DL_ADDR,velSmpDl);
break;
case 4:
// up
plotVelSmpDl(BLACK);
if (velSmpDl < 30){
velSmpDl+=5;
} else velSmpDl = 0;
plotVelSmpDl(WHITE);
cursorNow = BLACK;
display.display();
cursorBlinkTime = millis();
break;
case 8:
// menu
plotVelSmpDl(WHITE);
cursorNow = BLACK;
display.display();
subVelSmpDl = 0;
if (readSetting(VEL_SMP_DL_ADDR) != velSmpDl) writeSetting(VEL_SMP_DL_ADDR,velSmpDl);
break;
}
}
} else if (subVelBias) {
if ((millis() - cursorBlinkTime) > cursorBlinkInterval) {
if (cursorNow == WHITE) cursorNow = BLACK; else cursorNow = WHITE;
plotVelBias(cursorNow);
display.display();
cursorBlinkTime = millis();
}
if (buttonPressedAndNotUsed){
buttonPressedAndNotUsed = 0;
switch (deumButtonState){
case 1:
// down
plotVelBias(BLACK);
if (velBias > 0){
velBias--;
} else velBias = 9;
plotVelBias(WHITE);
cursorNow = BLACK;
display.display();
cursorBlinkTime = millis();
break;
case 2:
// enter
plotVelBias(WHITE);
cursorNow = BLACK;
display.display();
subVelBias = 0;
if (readSetting(VEL_BIAS_ADDR) != velBias) writeSetting(VEL_BIAS_ADDR,velBias);
break;
case 4:
// up
plotVelBias(BLACK);
if (velBias < 9){
velBias++;
} else velBias = 0;
plotVelBias(WHITE);
cursorNow = BLACK;
display.display();
cursorBlinkTime = millis();
break;
case 8:
// menu
plotVelBias(WHITE);
cursorNow = BLACK;
display.display();
subVelBias = 0;
if (readSetting(VEL_BIAS_ADDR) != velBias) writeSetting(VEL_BIAS_ADDR,velBias);
break;
}
}
} else {
if ((millis() - cursorBlinkTime) > cursorBlinkInterval) {
if (cursorNow == WHITE) cursorNow = BLACK; else cursorNow = WHITE;
drawMenuCursor(setupBrMenuCursor, cursorNow);
display.display();
cursorBlinkTime = millis();
}
if (buttonPressedAndNotUsed){
buttonPressedAndNotUsed = 0;
switch (deumButtonState){
case 1:
// down
if (setupBrMenuCursor < 6){
drawMenuCursor(setupBrMenuCursor, BLACK);
setupBrMenuCursor++;
drawMenuCursor(setupBrMenuCursor, WHITE);
cursorNow = BLACK;
clearSub();
display.display();
}
break;
case 2:
// enter
selectSetupBrMenu();
break;
case 4:
// up
if (setupBrMenuCursor > 1){
drawMenuCursor(setupBrMenuCursor, BLACK);
setupBrMenuCursor--;
drawMenuCursor(setupBrMenuCursor, WHITE);
cursorNow = BLACK;
clearSub();
display.display();
}
break;
case 8:
// menu
state = MAIN_MENU;
stateFirstRun = 1;
break;
}
}
}
} else if (state == SETUP_CT_MENU) { // SETUP CONTROLLERS MENU HERE <<<<<<<<<<<<<
if (stateFirstRun) {
drawSetupCtMenuScreen();
stateFirstRun = 0;
}
if (subPort){
if ((millis() - cursorBlinkTime) > cursorBlinkInterval) {
if (cursorNow == WHITE) cursorNow = BLACK; else cursorNow = WHITE;
plotPort(cursorNow);
display.display();
cursorBlinkTime = millis();
}
if (buttonPressedAndNotUsed){
buttonPressedAndNotUsed = 0;
switch (deumButtonState){
case 1:
// down
plotPort(BLACK);
if (portamento > 0){
portamento--;
} else portamento = 2;
plotPort(WHITE);
cursorNow = BLACK;
display.display();
cursorBlinkTime = millis();
break;
case 2:
// enter
plotPort(WHITE);
cursorNow = BLACK;
display.display();
subPort = 0;
if (readSetting(PORTAM_ADDR) != portamento) writeSetting(PORTAM_ADDR,portamento);
break;
case 4:
// up
plotPort(BLACK);
if (portamento < 2){
portamento++;
} else portamento = 0;
plotPort(WHITE);
cursorNow = BLACK;
display.display();
cursorBlinkTime = millis();
break;
case 8:
// menu
plotPort(WHITE);
cursorNow = BLACK;
display.display();
subPort = 0;
if (readSetting(PORTAM_ADDR) != portamento) writeSetting(PORTAM_ADDR,portamento);
break;
}
}
} else if (subPB) {
if ((millis() - cursorBlinkTime) > cursorBlinkInterval) {
if (cursorNow == WHITE) cursorNow = BLACK; else cursorNow = WHITE;
plotPB(cursorNow);
display.display();
cursorBlinkTime = millis();
}
if (buttonPressedAndNotUsed){
buttonPressedAndNotUsed = 0;
switch (deumButtonState){
case 1:
// down
if (PBdepth > 0){
plotPB(BLACK);
PBdepth--;
plotPB(WHITE);
cursorNow = BLACK;
display.display();
cursorBlinkTime = millis();
}
break;
case 2:
// enter
plotPB(WHITE);
cursorNow = BLACK;
display.display();
subPB = 0;
if (readSetting(PB_ADDR) != PBdepth) writeSetting(PB_ADDR,PBdepth);
break;
case 4:
// up
if (PBdepth < 12){
plotPB(BLACK);
PBdepth++;
plotPB(WHITE);
cursorNow = BLACK;
display.display();
cursorBlinkTime = millis();
}
break;
case 8:
// menu
plotPB(WHITE);
cursorNow = BLACK;
display.display();
subPB = 0;
if (readSetting(PB_ADDR) != PBdepth) writeSetting(PB_ADDR,PBdepth);
break;
}
}
} else if (subExtra) {
if ((millis() - cursorBlinkTime) > cursorBlinkInterval) {
if (cursorNow == WHITE) cursorNow = BLACK; else cursorNow = WHITE;
plotExtra(cursorNow);
display.display();
cursorBlinkTime = millis();
}
if (buttonPressedAndNotUsed){
buttonPressedAndNotUsed = 0;
switch (deumButtonState){
case 1:
// down
plotExtra(BLACK);
if (extraCT > 0){
extraCT--;
} else extraCT = 4;
plotExtra(WHITE);
cursorNow = BLACK;
display.display();
cursorBlinkTime = millis();
break;
case 2:
// enter
plotExtra(WHITE);
cursorNow = BLACK;
display.display();
subExtra = 0;
if (readSetting(EXTRA_ADDR) != extraCT) writeSetting(EXTRA_ADDR,extraCT);
break;
case 4:
// up
plotExtra(BLACK);
if (extraCT < 4){
extraCT++;
} else extraCT = 0;
plotExtra(WHITE);
cursorNow = BLACK;
display.display();
cursorBlinkTime = millis();
break;
case 8:
// menu
plotExtra(WHITE);
cursorNow = BLACK;
display.display();
subExtra = 0;
if (readSetting(EXTRA_ADDR) != extraCT) writeSetting(EXTRA_ADDR,extraCT);
break;
}
}
} else if (subDeglitch) {
if ((millis() - cursorBlinkTime) > cursorBlinkInterval) {
if (cursorNow == WHITE) cursorNow = BLACK; else cursorNow = WHITE;
plotDeglitch(cursorNow);
display.display();
cursorBlinkTime = millis();
}
if (buttonPressedAndNotUsed){
buttonPressedAndNotUsed = 0;
switch (deumButtonState){
case 1:
// down
if (deglitch > 0){
plotDeglitch(BLACK);
deglitch-=5;
plotDeglitch(WHITE);
cursorNow = BLACK;
display.display();
cursorBlinkTime = millis();
}
break;
case 2:
// enter
plotDeglitch(WHITE);
cursorNow = BLACK;
display.display();
subDeglitch = 0;
if (readSetting(DEGLITCH_ADDR) != deglitch) writeSetting(DEGLITCH_ADDR,deglitch);
break;
case 4:
// up
if (deglitch < 70){
plotDeglitch(BLACK);
deglitch+=5;
plotDeglitch(WHITE);
cursorNow = BLACK;
display.display();
cursorBlinkTime = millis();
}
break;
case 8:
// menu
plotDeglitch(WHITE);
cursorNow = BLACK;
display.display();
subDeglitch = 0;
if (readSetting(DEGLITCH_ADDR) != deglitch) writeSetting(DEGLITCH_ADDR,deglitch);
break;
}
}
} else if (subPinky) {
if ((millis() - cursorBlinkTime) > cursorBlinkInterval) {
if (cursorNow == WHITE) cursorNow = BLACK; else cursorNow = WHITE;
plotPinkyKey(cursorNow);
display.display();
cursorBlinkTime = millis();
}
if (buttonPressedAndNotUsed){
buttonPressedAndNotUsed = 0;
switch (deumButtonState){
case 1:
// down
if (pinkySetting > 0){
plotPinkyKey(BLACK);
pinkySetting-=1;
plotPinkyKey(WHITE);
cursorNow = BLACK;
display.display();
cursorBlinkTime = millis();
}
break;
case 2:
// enter
plotPinkyKey(WHITE);
cursorNow = BLACK;
display.display();
subPinky = 0;
if (readSetting(PINKY_KEY_ADDR) != pinkySetting) writeSetting(PINKY_KEY_ADDR,pinkySetting);
break;
case 4:
// up
if (pinkySetting < 24){
plotPinkyKey(BLACK);
pinkySetting+=1;
plotPinkyKey(WHITE);
cursorNow = BLACK;
display.display();
cursorBlinkTime = millis();
}
break;
case 8:
// menu
plotPinkyKey(WHITE);
cursorNow = BLACK;
display.display();
subPinky = 0;
if (readSetting(PINKY_KEY_ADDR) != pinkySetting) writeSetting(PINKY_KEY_ADDR,pinkySetting);
break;
}
}
} else {
if ((millis() - cursorBlinkTime) > cursorBlinkInterval) {
if (cursorNow == WHITE) cursorNow = BLACK; else cursorNow = WHITE;
drawMenuCursor(setupCtMenuCursor, cursorNow);
display.display();
cursorBlinkTime = millis();
}
if (buttonPressedAndNotUsed){
buttonPressedAndNotUsed = 0;
switch (deumButtonState){
case 1:
// down
if (setupCtMenuCursor < 6){
drawMenuCursor(setupCtMenuCursor, BLACK);
setupCtMenuCursor++;
drawMenuCursor(setupCtMenuCursor, WHITE);
cursorNow = BLACK;
clearSub();
display.display();
}
break;
case 2:
// enter
selectSetupCtMenu();
break;
case 4:
// up
if (setupCtMenuCursor > 1){
drawMenuCursor(setupCtMenuCursor, BLACK);
setupCtMenuCursor--;
drawMenuCursor(setupCtMenuCursor, WHITE);
cursorNow = BLACK;
clearSub();
display.display();
}
break;
case 8:
// menu
state = MAIN_MENU;
stateFirstRun = 1;
break;
}
}
}
} else if (state == VIBRATO_MENU) { // VIBRATO MENU HERE <<<<<<<<<<<<<
if (stateFirstRun) {
drawVibratoMenuScreen();
stateFirstRun = 0;
}
if (subVibrato) {
if ((millis() - cursorBlinkTime) > cursorBlinkInterval) {
if (cursorNow == WHITE) cursorNow = BLACK; else cursorNow = WHITE;
plotVibrato(cursorNow);
display.display();
cursorBlinkTime = millis();
}
if (buttonPressedAndNotUsed){
buttonPressedAndNotUsed = 0;
switch (deumButtonState){
case 1:
// down
if (vibrato > 0){
plotVibrato(BLACK);
vibrato--;
plotVibrato(WHITE);
cursorNow = BLACK;
display.display();
cursorBlinkTime = millis();
}
break;
case 2:
// enter
plotVibrato(WHITE);
cursorNow = BLACK;
display.display();
subVibrato = 0;
if (readSetting(VIBRATO_ADDR) != vibrato) writeSetting(VIBRATO_ADDR,vibrato);
break;
case 4:
// up
if (vibrato < 9){
plotVibrato(BLACK);
vibrato++;
plotVibrato(WHITE);
cursorNow = BLACK;
display.display();
cursorBlinkTime = millis();
}
break;
case 8:
// menu
plotVibrato(WHITE);
cursorNow = BLACK;
display.display();
subVibrato = 0;
if (readSetting(VIBRATO_ADDR) != vibrato) writeSetting(VIBRATO_ADDR,vibrato);
break;
}
}
} else if (subVibSens) {
if ((millis() - cursorBlinkTime) > cursorBlinkInterval) {
if (cursorNow == WHITE) cursorNow = BLACK; else cursorNow = WHITE;
plotVibSens(cursorNow);
display.display();
cursorBlinkTime = millis();
}
if (buttonPressedAndNotUsed){
buttonPressedAndNotUsed = 0;
switch (deumButtonState){
case 1:
// down
if (vibSens > 1){
plotVibSens(BLACK);
vibSens--;
plotVibSens(WHITE);
cursorNow = BLACK;
display.display();
cursorBlinkTime = millis();
}
break;
case 2:
// enter
plotVibSens(WHITE);
cursorNow = BLACK;
display.display();
subVibSens = 0;
if (readSetting(VIB_SENS_ADDR) != vibSens) writeSetting(VIB_SENS_ADDR,vibSens);
break;
case 4:
// up
if (vibSens < 12){
plotVibSens(BLACK);
vibSens++;
plotVibSens(WHITE);
cursorNow = BLACK;
display.display();
cursorBlinkTime = millis();
}
break;
case 8:
// menu
plotVibSens(WHITE);
cursorNow = BLACK;
display.display();
subVibSens = 0;
if (readSetting(VIB_SENS_ADDR) != vibSens) writeSetting(VIB_SENS_ADDR,vibSens);
break;
}
}
} else if (subVibRetn) {
if ((millis() - cursorBlinkTime) > cursorBlinkInterval) {
if (cursorNow == WHITE) cursorNow = BLACK; else cursorNow = WHITE;
plotVibRetn(cursorNow);
display.display();
cursorBlinkTime = millis();
}
if (buttonPressedAndNotUsed){
buttonPressedAndNotUsed = 0;
switch (deumButtonState){
case 1:
// down
plotVibRetn(BLACK);
if (vibRetn > 0){
vibRetn--;
}
plotVibRetn(WHITE);
cursorNow = BLACK;
display.display();
cursorBlinkTime = millis();
break;
case 2:
// enter
plotVibRetn(WHITE);
cursorNow = BLACK;
display.display();
subVibRetn = 0;
if (readSetting(VIB_RETN_ADDR) != vibRetn) writeSetting(VIB_RETN_ADDR,vibRetn);
break;
case 4:
// up
plotVibRetn(BLACK);
if (vibRetn < 4){
vibRetn++;
}
plotVibRetn(WHITE);
cursorNow = BLACK;
display.display();
cursorBlinkTime = millis();
break;
case 8:
// menu
plotVibRetn(WHITE);
cursorNow = BLACK;
display.display();
subVibRetn = 0;
if (readSetting(VIB_RETN_ADDR) != vibRetn) writeSetting(VIB_RETN_ADDR,vibRetn);
break;
}
}
} else if (subVibSquelch) {
if ((millis() - cursorBlinkTime) > cursorBlinkInterval) {
if (cursorNow == WHITE) cursorNow = BLACK; else cursorNow = WHITE;
plotVibSquelch(cursorNow);
display.display();
cursorBlinkTime = millis();
}
if (buttonPressedAndNotUsed){
buttonPressedAndNotUsed = 0;
switch (deumButtonState){
case 1:
// down
if (vibSquelch > 1){
plotVibSquelch(BLACK);
vibSquelch--;
plotVibSquelch(WHITE);
cursorNow = BLACK;
display.display();
cursorBlinkTime = millis();
}
break;
case 2:
// enter
plotVibSquelch(WHITE);
cursorNow = BLACK;
display.display();
subVibSquelch = 0;
if (readSetting(VIB_SQUELCH_ADDR) != vibSquelch) writeSetting(VIB_SQUELCH_ADDR,vibSquelch);
break;
case 4:
// up
if (vibSquelch < 30){
plotVibSquelch(BLACK);
vibSquelch++;
plotVibSquelch(WHITE);
cursorNow = BLACK;
display.display();
cursorBlinkTime = millis();
}
break;
case 8:
// menu
plotVibSquelch(WHITE);
cursorNow = BLACK;
display.display();
subVibSquelch = 0;
if (readSetting(VIB_SQUELCH_ADDR) != vibSquelch) writeSetting(VIB_SQUELCH_ADDR,vibSquelch);
break;
}
}
} else if (subVibDirection) {
if ((millis() - cursorBlinkTime) > cursorBlinkInterval) {
if (cursorNow == WHITE) cursorNow = BLACK; else cursorNow = WHITE;
plotVibDirection(cursorNow);
display.display();
cursorBlinkTime = millis();
}
if (buttonPressedAndNotUsed){
buttonPressedAndNotUsed = 0;
switch (deumButtonState){
case 1:
// down
plotVibDirection(BLACK);
vibDirection = !vibDirection;
plotVibDirection(WHITE);
cursorNow = BLACK;
display.display();
cursorBlinkTime = millis();
break;
case 2:
// enter
plotVibDirection(WHITE);
cursorNow = BLACK;
display.display();
subVibDirection = 0;
if (readSetting(VIB_DIRECTION_ADDR) != vibDirection) writeSetting(VIB_DIRECTION_ADDR,vibDirection);
break;
case 4:
// up
plotVibDirection(BLACK);
vibDirection = !vibDirection;
plotVibDirection(WHITE);
cursorNow = BLACK;
display.display();
cursorBlinkTime = millis();
break;
case 8:
// menu
plotVibDirection(WHITE);
cursorNow = BLACK;
display.display();
subVibDirection = 0;
if (readSetting(VIB_DIRECTION_ADDR) != vibDirection) writeSetting(VIB_DIRECTION_ADDR,vibDirection);
break;
}
}
} else {
if ((millis() - cursorBlinkTime) > cursorBlinkInterval) {
if (cursorNow == WHITE) cursorNow = BLACK; else cursorNow = WHITE;
drawMenuCursor(vibratoMenuCursor, cursorNow);
display.display();
cursorBlinkTime = millis();
}
if (buttonPressedAndNotUsed){
buttonPressedAndNotUsed = 0;
switch (deumButtonState){
case 1:
// down
if (vibratoMenuCursor < 5){
drawMenuCursor(vibratoMenuCursor, BLACK);
vibratoMenuCursor++;
drawMenuCursor(vibratoMenuCursor, WHITE);
cursorNow = BLACK;
clearSub();
display.display();
}
break;
case 2:
// enter
selectVibratoMenu();
break;
case 4:
// up
if (vibratoMenuCursor > 1){
drawMenuCursor(vibratoMenuCursor, BLACK);
vibratoMenuCursor--;
drawMenuCursor(vibratoMenuCursor, WHITE);
cursorNow = BLACK;
clearSub();
display.display();
}
break;
case 8:
// menu
state = SETUP_CT_MENU;
stateFirstRun = 1;
break;
}
}
}
}
}
void selectMainMenu(){
switch (mainMenuCursor){
case 1:
subTranspose = 1;
drawMenuCursor(mainMenuCursor, WHITE);
display.display();
cursorBlinkTime = millis();
drawSubTranspose();
break;
case 2:
subOctave = 1;
drawMenuCursor(mainMenuCursor, WHITE);
display.display();
cursorBlinkTime = millis();
drawSubOctave();
break;
case 3:
subMIDI = 1;
drawMenuCursor(mainMenuCursor, WHITE);
display.display();
cursorBlinkTime = millis();
drawSubMIDI();
break;
case 4:
state = BREATH_ADJ_IDL;
stateFirstRun = 1;
break;
case 5:
state = SETUP_BR_MENU;
stateFirstRun = 1;
break;
case 6:
state = SETUP_CT_MENU;
stateFirstRun = 1;
break;
}
}
void selectRotatorMenu(){
switch (rotatorMenuCursor){
case 1:
subParallel = 1;
drawMenuCursor(rotatorMenuCursor, WHITE);
display.display();
cursorBlinkTime = millis();
drawSubRotator();
break;
case 2:
subRotator = 1;
drawMenuCursor(rotatorMenuCursor, WHITE);
display.display();
cursorBlinkTime = millis();
drawSubRotator();
break;
case 3:
subRotator = 2;
drawMenuCursor(rotatorMenuCursor, WHITE);
display.display();
cursorBlinkTime = millis();
drawSubRotator();
break;
case 4:
subRotator = 3;
drawMenuCursor(rotatorMenuCursor, WHITE);
display.display();
cursorBlinkTime = millis();
drawSubRotator();
break;
case 5:
subRotator = 4;
drawMenuCursor(rotatorMenuCursor, WHITE);
display.display();
cursorBlinkTime = millis();
drawSubRotator();
break;
case 6:
subPriority = 1;
drawMenuCursor(rotatorMenuCursor, WHITE);
display.display();
cursorBlinkTime = millis();
drawSubPriority();
break;
}
}
void selectSetupBrMenu(){
switch (setupBrMenuCursor){
case 1:
subBreathCC = 1;
drawMenuCursor(setupBrMenuCursor, WHITE);
display.display();
cursorBlinkTime = millis();
drawSubBreathCC();
break;
case 2:
subBreathAT = 1;
drawMenuCursor(setupBrMenuCursor, WHITE);
display.display();
cursorBlinkTime = millis();
drawSubBreathAT();
break;
case 3:
subVelocity = 1;
drawMenuCursor(setupBrMenuCursor, WHITE);
display.display();
cursorBlinkTime = millis();
drawSubVelocity();
break;
case 4:
subCurve = 1;
drawMenuCursor(setupBrMenuCursor, WHITE);
display.display();
cursorBlinkTime = millis();
drawSubCurve();
break;
case 5:
subVelSmpDl = 1;
drawMenuCursor(setupBrMenuCursor, WHITE);
display.display();
cursorBlinkTime = millis();
drawSubVelSmpDl();
break;
case 6:
subVelBias = 1;
drawMenuCursor(setupBrMenuCursor, WHITE);
display.display();
cursorBlinkTime = millis();
drawSubVelBias();
break;
}
}
void selectSetupCtMenu(){
switch (setupCtMenuCursor){
case 1:
subPort = 1;
drawMenuCursor(setupCtMenuCursor, WHITE);
display.display();
cursorBlinkTime = millis();
drawSubPort();
break;
case 2:
subPB = 1;
drawMenuCursor(setupCtMenuCursor, WHITE);
display.display();
cursorBlinkTime = millis();
drawSubPB();
break;
case 3:
subExtra = 1;
drawMenuCursor(setupCtMenuCursor, WHITE);
display.display();
cursorBlinkTime = millis();
drawSubExtra();
break;
case 4:
//subVibrato = 1;
//drawMenuCursor(setupCtMenuCursor, WHITE);
//display.display();
//cursorBlinkTime = millis();
//drawSubVibrato();
state = VIBRATO_MENU;
stateFirstRun = 1;
break;
case 5:
subDeglitch = 1;
drawMenuCursor(setupCtMenuCursor, WHITE);
display.display();
cursorBlinkTime = millis();
drawSubDeglitch();
break;
case 6:
subPinky = 1;
drawMenuCursor(setupCtMenuCursor, WHITE);
display.display();
cursorBlinkTime = millis();
drawSubPinkyKey();
}
}
void selectVibratoMenu(){
switch (vibratoMenuCursor){
case 1:
subVibrato = 1;
drawMenuCursor(vibratoMenuCursor, WHITE);
display.display();
cursorBlinkTime = millis();
drawSubVibrato();
break;
case 2:
subVibSens = 1;
drawMenuCursor(vibratoMenuCursor, WHITE);
display.display();
cursorBlinkTime = millis();
drawSubVibSens();
break;
case 3:
subVibRetn = 1;
drawMenuCursor(vibratoMenuCursor, WHITE);
display.display();
cursorBlinkTime = millis();
drawSubVibRetn();
break;
case 4:
subVibSquelch = 1;
drawMenuCursor(vibratoMenuCursor, WHITE);
display.display();
cursorBlinkTime = millis();
drawSubVibSquelch();
break;
case 5:
subVibDirection = 1;
drawMenuCursor(vibratoMenuCursor, WHITE);
display.display();
cursorBlinkTime = millis();
drawSubVibDirection();
break;
}
}
void drawBreathScreen(){
// Clear the buffer.
display.clearDisplay();
display.setTextSize(1);
display.setTextColor(WHITE);
display.setCursor(25,2);
display.println("BREATH");
//display.drawLine(0,10,127,10,WHITE);
display.setCursor(0,20);
display.println("THR");
display.drawLine(25,17,120,17,WHITE);
display.drawLine(25,18,25,19,WHITE);
display.drawLine(120,18,120,19,WHITE);
display.drawLine(25,29,120,29,WHITE);
display.drawLine(25,27,25,28,WHITE);
display.drawLine(120,27,120,28,WHITE);
display.setCursor(0,35);
display.println("SNS");
//display.drawLine(25,38,120,38,WHITE);
display.drawLine(25,36,25,40,WHITE);
display.drawLine(120,36,120,40,WHITE);
display.setCursor(0,50);
display.println("MAX");
display.drawLine(25,47,120,47,WHITE);
display.drawLine(25,48,25,49,WHITE);
display.drawLine(120,48,120,49,WHITE);
display.drawLine(25,60,120,60,WHITE);
display.drawLine(25,58,25,59,WHITE);
display.drawLine(120,58,120,59,WHITE);
//display.drawLine(38,20,38,26,WHITE); // indikation thr
pos1 = map(breathThrVal, breathLoLimit, breathHiLimit, 27, 119);
display.drawLine(pos1,20,pos1,26,WHITE);
cursorNow = WHITE;
//display.drawLine(115,50,115,57,WHITE); // indikation max
pos2 = map(breathMaxVal, breathLoLimit, breathHiLimit, 27, 119);
display.drawLine(pos2,50,pos2,57,WHITE);
//display.drawPixel(34, 38, WHITE);
drawAdjCursor(WHITE);
display.display();
}
void drawPortamScreen(){
// Clear the buffer.
display.clearDisplay();
display.setTextSize(1);
display.setTextColor(WHITE);
display.setCursor(25,2);
display.println("PORTAMENTO");
//display.drawLine(0,10,127,10,WHITE);
display.setCursor(0,20);
display.println("THR");
display.drawLine(25,17,120,17,WHITE);
display.drawLine(25,18,25,19,WHITE);
display.drawLine(120,18,120,19,WHITE);
display.drawLine(25,29,120,29,WHITE);
display.drawLine(25,27,25,28,WHITE);
display.drawLine(120,27,120,28,WHITE);
display.setCursor(0,35);
display.println("SNS");
//display.drawLine(25,38,120,38,WHITE);
display.drawLine(25,36,25,40,WHITE);
display.drawLine(120,36,120,40,WHITE);
display.setCursor(0,50);
display.println("MAX");
display.drawLine(25,47,120,47,WHITE);
display.drawLine(25,48,25,49,WHITE);
display.drawLine(120,48,120,49,WHITE);
display.drawLine(25,60,120,60,WHITE);
display.drawLine(25,58,25,59,WHITE);
display.drawLine(120,58,120,59,WHITE);
//display.drawLine(38,20,38,26,WHITE); // indikation thr
pos1 = map(portamThrVal, portamLoLimit, portamHiLimit, 27, 119);
display.drawLine(pos1,20,pos1,26,WHITE);
cursorNow = WHITE;
//display.drawLine(115,50,115,57,WHITE); // indikation max
pos2 = map(portamMaxVal, portamLoLimit, portamHiLimit, 27, 119);
display.drawLine(pos2,50,pos2,57,WHITE);
//display.drawPixel(34, 38, WHITE);
drawAdjCursor(WHITE);
display.display();
}
void drawPitchbScreen(){
// Clear the buffer.
display.clearDisplay();
display.setTextSize(1);
display.setTextColor(WHITE);
display.setCursor(25,2);
display.println("PITCH BEND");
//display.drawLine(0,10,127,10,WHITE);
display.setCursor(0,20);
display.println("THR");
display.drawLine(25,17,120,17,WHITE);
display.drawLine(25,18,25,19,WHITE);
display.drawLine(120,18,120,19,WHITE);
display.drawLine(25,29,120,29,WHITE);
display.drawLine(25,27,25,28,WHITE);
display.drawLine(120,27,120,28,WHITE);
display.setCursor(0,35);
display.println("SNS");
//display.drawLine(25,38,120,38,WHITE);
display.drawLine(25,36,25,40,WHITE);
display.drawLine(120,36,120,40,WHITE);
display.setCursor(0,50);
display.println("MAX");
display.drawLine(25,47,120,47,WHITE);
display.drawLine(25,48,25,49,WHITE);
display.drawLine(120,48,120,49,WHITE);
display.drawLine(25,60,120,60,WHITE);
display.drawLine(25,58,25,59,WHITE);
display.drawLine(120,58,120,59,WHITE);
//display.drawLine(38,20,38,26,WHITE); // indikation thr
pos1 = map(pitchbThrVal, pitchbLoLimit, pitchbHiLimit, 27, 119);
display.drawLine(pos1,20,pos1,26,WHITE);
cursorNow = WHITE;
//display.drawLine(115,50,115,57,WHITE); // indikation max
pos2 = map(pitchbMaxVal, pitchbLoLimit, pitchbHiLimit, 27, 119);
display.drawLine(pos2,50,pos2,57,WHITE);
//display.drawPixel(34, 38, WHITE);
drawAdjCursor(WHITE);
display.display();
}
void drawExtracScreen(){
// Clear the buffer.
display.clearDisplay();
display.setTextSize(1);
display.setTextColor(WHITE);
display.setCursor(25,2);
display.println("EXTRA CONTROLLER");
//display.drawLine(0,10,127,10,WHITE);
display.setCursor(0,20);
display.println("THR");
display.drawLine(25,17,120,17,WHITE);
display.drawLine(25,18,25,19,WHITE);
display.drawLine(120,18,120,19,WHITE);
display.drawLine(25,29,120,29,WHITE);
display.drawLine(25,27,25,28,WHITE);
display.drawLine(120,27,120,28,WHITE);
display.setCursor(0,35);
display.println("SNS");
//display.drawLine(25,38,120,38,WHITE);
display.drawLine(25,36,25,40,WHITE);
display.drawLine(120,36,120,40,WHITE);
display.setCursor(0,50);
display.println("MAX");
display.drawLine(25,47,120,47,WHITE);
display.drawLine(25,48,25,49,WHITE);
display.drawLine(120,48,120,49,WHITE);
display.drawLine(25,60,120,60,WHITE);
display.drawLine(25,58,25,59,WHITE);
display.drawLine(120,58,120,59,WHITE);
//display.drawLine(38,20,38,26,WHITE); // indikation thr
pos1 = map(extracThrVal, extracLoLimit, extracHiLimit, 27, 119);
display.drawLine(pos1,20,pos1,26,WHITE);
cursorNow = WHITE;
//display.drawLine(115,50,115,57,WHITE); // indikation max
pos2 = map(extracMaxVal, extracLoLimit, extracHiLimit, 27, 119);
display.drawLine(pos2,50,pos2,57,WHITE);
//display.drawPixel(34, 38, WHITE);
drawAdjCursor(WHITE);
display.display();
}
void drawCtouchScreen(){
// Clear the buffer.
display.clearDisplay();
display.setTextSize(1);
display.setTextColor(WHITE);
display.setCursor(25,2);
display.println("TOUCH SENSE");
//display.drawLine(0,10,127,10,WHITE);
display.setCursor(0,20);
display.println("THR");
display.drawLine(25,17,120,17,WHITE);
display.drawLine(25,18,25,19,WHITE);
display.drawLine(120,18,120,19,WHITE);
display.drawLine(25,29,120,29,WHITE);
display.drawLine(25,27,25,28,WHITE);
display.drawLine(120,27,120,28,WHITE);
display.setCursor(0,35);
display.println("SNS");
//display.drawLine(25,38,120,38,WHITE);
display.drawLine(25,36,25,40,WHITE);
display.drawLine(120,36,120,40,WHITE);
//display.drawLine(38,20,38,26,WHITE); // indikation thr
pos1 = map(ctouchThrVal, ctouchLoLimit, ctouchHiLimit, 27, 119);
display.drawLine(pos1,20,pos1,26,WHITE);
cursorNow = WHITE;
//display.drawPixel(34, 38, WHITE);
drawAdjCursor(WHITE);
display.display();
}
void drawMenuCursor(byte itemNo, byte color){
byte xmid = 6 + 9 * itemNo;
display.drawTriangle(57,xmid,61,xmid+2,61,xmid-2,color);
}
void drawAdjCursor(byte color){
display.drawTriangle(16,4,20,4,18,1,color);
display.drawTriangle(16,6,20,6,18,9,color);
}
void drawMenuScreen(){
// Clear the buffer.
display.clearDisplay();
display.setTextSize(1);
display.setTextColor(WHITE);
display.setCursor(0,0);
display.print("MENU ");
int vMeterReading = analogRead(vMeterPin);
if (vMeterReading > 3000) display.print("USB "); else display.print("BAT ");
if (vMeterReading < 2294) display.print("LOW"); else {
display.print(map(vMeterReading,0,3030,0,50)*0.1,1);
display.print("V");
}
display.drawLine(0,9,127,9,WHITE);
display.setCursor(0,12);
display.println("TRANSPOSE");
display.setCursor(0,21);
display.println("OCTAVE");
display.setCursor(0,30);
display.println("MIDI CH");
display.setCursor(0,39);
display.println("ADJUST");
display.setCursor(0,48);
display.println("SETUP BR");
display.setCursor(0,57);
display.println("SETUP CTL");
drawMenuCursor(mainMenuCursor, WHITE);
display.display();
}
void drawRotatorMenuScreen(){
// Clear the buffer.
display.clearDisplay();
display.setTextSize(1);
display.setTextColor(WHITE);
display.setCursor(0,0);
display.print("ROTATOR SETUP");
display.drawLine(0,9,127,9,WHITE);
display.setCursor(0,12);
display.println("PARALLEL");
display.setCursor(0,21);
display.println("ROTATE 1");
display.setCursor(0,30);
display.println("ROTATE 2");
display.setCursor(0,39);
display.println("ROTATE 3");
display.setCursor(0,48);
display.println("ROTATE 4");
display.setCursor(0,57);
display.println("PRIORITY");
drawMenuCursor(rotatorMenuCursor, WHITE);
display.display();
}
void drawPatchView(){
display.clearDisplay();
if (FPD){
drawTrills();
}
if (FPD < 2){
display.setTextColor(WHITE);
display.setTextSize(6);
if (patch < 10){
// 1-9
display.setCursor(48,10);
} else if (patch < 100){
// 10-99
display.setCursor(31,10);
} else {
// 99-128
display.setCursor(10,10);
}
display.println(patch);
} else if (FPD == 2){
display.setTextColor(WHITE);
display.setTextSize(6);
display.setCursor(10,10);
display.println("SET");
} else {
display.setTextColor(WHITE);
display.setTextSize(6);
display.setCursor(10,10);
display.println("CLR");
}
display.display();
}
void drawTrills(){
if (K5) display.fillRect(0,0,5,5,WHITE); else display.drawRect(0,0,5,5,WHITE);
if (K6) display.fillRect(10,0,5,5,WHITE); else display.drawRect(10,0,5,5,WHITE);
if (K7) display.fillRect(20,0,5,5,WHITE); else display.drawRect(20,0,5,5,WHITE);
}
void clearSub(){
display.fillRect(63,11,64,52,BLACK);
}
void drawSubTranspose(){
display.fillRect(63,11,64,52,BLACK);
display.drawRect(63,11,64,52,WHITE);
display.setTextColor(WHITE);
display.setTextSize(1);
display.setCursor(68,15);
display.println("TRANSPOSE");
plotTranspose(WHITE);
display.display();
}
void plotTranspose(int color){
display.setTextColor(color);
display.setTextSize(2);
display.setCursor(80,33);
if ((transpose-12) > -1){
display.println("+");
display.setCursor(93,33);
display.println(transpose-12);
} else {
display.println("-");
display.setCursor(93,33);
display.println(abs(transpose-12));
}
}
void drawSubRotator(){
display.fillRect(63,11,64,52,BLACK);
display.drawRect(63,11,64,52,WHITE);
display.setTextColor(WHITE);
display.setTextSize(1);
display.setCursor(68,15);
display.println("SEMITONES");
//plotRotator(WHITE,value);
forceRedraw = 1;
display.display();
}
void plotRotator(int color,int value){
display.setTextColor(color);
display.setTextSize(2);
display.setCursor(80,33);
if ((value) > -1){
display.println("+");
display.setCursor(93,33);
display.println(value);
} else {
display.println("-");
display.setCursor(93,33);
display.println(abs(value));
}
}
void drawSubPriority(){
display.fillRect(63,11,64,52,BLACK);
display.drawRect(63,11,64,52,WHITE);
display.setTextColor(WHITE);
display.setTextSize(1);
display.setCursor(68,15);
display.println("MONO PRIO");
plotPriority(WHITE);
display.display();
}
void plotPriority(int color){
display.setTextColor(color);
display.setTextSize(2);
display.setCursor(79,33);
if (priority){
display.println("ROT");
} else {
display.println("MEL");
}
}
void drawSubOctave(){
display.fillRect(63,11,64,52,BLACK);
display.drawRect(63,11,64,52,WHITE);
display.setTextColor(WHITE);
display.setTextSize(1);
display.setCursor(77,15);
display.println("OCTAVE");
plotOctave(WHITE);
display.display();
}
void plotOctave(int color){
display.setTextColor(color);
display.setTextSize(2);
display.setCursor(80,33);
if ((octave-3) > -1){
display.println("+");
display.setCursor(93,33);
display.println(octave-3);
} else {
display.println("-");
display.setCursor(93,33);
display.println(abs(octave-3));
}
}
void drawSubMIDI(){
display.fillRect(63,11,64,52,BLACK);
display.drawRect(63,11,64,52,WHITE);
display.setTextColor(WHITE);
display.setTextSize(1);
display.setCursor(68,15);
display.println("MIDI CHNL");
plotMIDI(WHITE);
display.display();
}
void plotMIDI(int color){
display.setTextColor(color);
display.setTextSize(2);
display.setCursor(90,33);
display.println(MIDIchannel);
}
void drawSubBreathCC(){
display.fillRect(63,11,64,52,BLACK);
display.drawRect(63,11,64,52,WHITE);
display.setTextColor(WHITE);
display.setTextSize(1);
display.setCursor(68,15);
display.println("BREATH CC");
plotBreathCC(WHITE);
display.display();
}
void plotBreathCC(int color){
display.setTextColor(color);
display.setTextSize(2);
if (breathCC){
switch (breathCC){
case 1:
display.setCursor(83,33);
display.println("MW");
break;
case 2:
display.setCursor(83,33);
display.println("BR");
break;
case 3:
display.setCursor(83,33);
display.println("VL");
break;
case 4:
display.setCursor(83,33);
display.println("EX");
break;
case 5:
display.setCursor(79,33);
display.println("MW+");
break;
case 6:
display.setCursor(79,33);
display.println("BR+");
break;
case 7:
display.setCursor(79,33);
display.println("VL+");
break;
case 8:
display.setCursor(79,33);
display.println("EX+");
break;
case 9:
display.setCursor(83,33);
display.println("CF");
break;
}
} else {
display.setCursor(79,33);
display.println("OFF");
}
}
void drawSubBreathAT(){
display.fillRect(63,11,64,52,BLACK);
display.drawRect(63,11,64,52,WHITE);
display.setTextColor(WHITE);
display.setTextSize(1);
display.setCursor(68,15);
display.println("BREATH AT");
plotBreathAT(WHITE);
display.display();
}
void plotBreathAT(int color){
display.setTextColor(color);
display.setTextSize(2);
display.setCursor(79,33);
if (breathAT){
display.println("ON");
} else {
display.println("OFF");
}
}
void drawSubVelocity(){
display.fillRect(63,11,64,52,BLACK);
display.drawRect(63,11,64,52,WHITE);
display.setTextColor(WHITE);
display.setTextSize(1);
display.setCursor(71,15);
display.println("VELOCITY");
plotVelocity(WHITE);
display.display();
}
void plotVelocity(int color){
display.setTextColor(color);
display.setTextSize(2);
display.setCursor(79,33);
if (velocity){
display.println(velocity);
} else {
display.println("DYN");
}
}
void drawSubCurve(){
display.fillRect(63,11,64,52,BLACK);
display.drawRect(63,11,64,52,WHITE);
display.setTextColor(WHITE);
display.setTextSize(1);
display.setCursor(80,15);
display.println("CURVE");
plotCurve(WHITE);
display.display();
}
void plotCurve(int color){
display.setTextColor(color);
display.setTextSize(2);
switch (curve){
case 0:
display.setCursor(83,33);
display.println("-4");
break;
case 1:
display.setCursor(83,33);
display.println("-3");
break;
case 2:
display.setCursor(83,33);
display.println("-2");
break;
case 3:
display.setCursor(83,33);
display.println("-1");
break;
case 4:
display.setCursor(79,33);
display.println("LIN");
break;
case 5:
display.setCursor(83,33);
display.println("+1");
break;
case 6:
display.setCursor(83,33);
display.println("+2");
break;
case 7:
display.setCursor(83,33);
display.println("+3");
break;
case 8:
display.setCursor(83,33);
display.println("+4");
break;
case 9:
display.setCursor(83,33);
display.println("S1");
break;
case 10:
display.setCursor(83,33);
display.println("S2");
break;
case 11:
display.setCursor(83,33);
display.println("Z1");
break;
case 12:
display.setCursor(83,33);
display.println("Z2");
break;
}
}
void drawSubPort(){
display.fillRect(63,11,64,52,BLACK);
display.drawRect(63,11,64,52,WHITE);
display.setTextColor(WHITE);
display.setTextSize(1);
display.setCursor(71,15);
display.println("PORT/GLD");
plotPort(WHITE);
display.display();
}
void plotPort(int color){
display.setTextColor(color);
display.setTextSize(2);
display.setCursor(79,33);
if (portamento == 1){
display.println("ON");
} else if (portamento == 2){
display.println("SW");
} else {
display.println("OFF");
}
}
void drawSubPB(){
display.fillRect(63,11,64,52,BLACK);
display.drawRect(63,11,64,52,WHITE);
display.setTextColor(WHITE);
display.setTextSize(1);
display.setCursor(68,15);
display.println("PITCHBEND");
plotPB(WHITE);
display.display();
}
void plotPB(int color){
display.setTextColor(color);
display.setTextSize(2);
display.setCursor(76,33);
if (PBdepth){
display.println("1/");
display.setCursor(101,33);
display.println(PBdepth);
} else {
display.println("OFF");
}
}
void drawSubExtra(){
display.fillRect(63,11,64,52,BLACK);
display.drawRect(63,11,64,52,WHITE);
display.setTextColor(WHITE);
display.setTextSize(1);
display.setCursor(68,15);
display.println("EXTRA CTR");
plotExtra(WHITE);
display.display();
}
void plotExtra(int color){
display.setTextColor(color);
display.setTextSize(2);
display.setCursor(79,33);
switch (extraCT){
case 0:
display.setCursor(79,33);
display.println("OFF");
break;
case 1:
display.setCursor(83,33);
display.println("MW");
break;
case 2:
display.setCursor(83,33);
display.println("FP");
break;
case 3:
display.setCursor(83,33);
display.println("CF");
break;
case 4:
display.setCursor(83,33);
display.println("SP");
break;
}
}
void drawSubVibrato(){
display.fillRect(63,11,64,52,BLACK);
display.drawRect(63,11,64,52,WHITE);
display.setTextColor(WHITE);
display.setTextSize(1);
display.setCursor(81,15);
display.println("LEVEL");
plotVibrato(WHITE);
display.display();
}
void plotVibrato(int color){
display.setTextColor(color);
display.setTextSize(2);
if (vibrato){
display.setCursor(90,33);
display.println(vibrato);
} else {
display.setCursor(79,33);
display.println("OFF");
}
}
void drawSubVibSens(){
display.fillRect(63,11,64,52,BLACK);
display.drawRect(63,11,64,52,WHITE);
display.setTextColor(WHITE);
display.setTextSize(1);
display.setCursor(81,15);
display.println("LEVEL");
plotVibSens(WHITE);
display.display();
}
void plotVibSens(int color){
display.setTextColor(color);
display.setTextSize(2);
display.setCursor(90,33);
display.println(vibSens);
}
void drawSubVibRetn(){
display.fillRect(63,11,64,52,BLACK);
display.drawRect(63,11,64,52,WHITE);
display.setTextColor(WHITE);
display.setTextSize(1);
display.setCursor(81,15);
display.println("LEVEL");
plotVibRetn(WHITE);
display.display();
}
void plotVibRetn(int color){
display.setTextColor(color);
display.setTextSize(2);
display.setCursor(90,33);
display.println(vibRetn);
}
void drawSubVibSquelch(){
display.fillRect(63,11,64,52,BLACK);
display.drawRect(63,11,64,52,WHITE);
display.setTextColor(WHITE);
display.setTextSize(1);
display.setCursor(81,15);
display.println("LEVEL");
plotVibSquelch(WHITE);
display.display();
}
void plotVibSquelch(int color){
display.setTextColor(color);
display.setTextSize(2);
display.setCursor(83,33);
display.println(vibSquelch);
}
void drawSubVibDirection(){
display.fillRect(63,11,64,52,BLACK);
display.drawRect(63,11,64,52,WHITE);
display.setTextColor(WHITE);
display.setTextSize(1);
display.setCursor(68,15);
display.println("DIRECTION");
plotVibDirection(WHITE);
display.display();
}
void plotVibDirection(int color){
display.setTextColor(color);
display.setTextSize(2);
display.setCursor(79,33);
if (DNWD == vibDirection){
display.println("NRM");
} else {
display.println("REV");
}
}
void drawSubDeglitch(){
display.fillRect(63,11,64,52,BLACK);
display.drawRect(63,11,64,52,WHITE);
display.setTextColor(WHITE);
display.setTextSize(1);
display.setCursor(71,15);
display.println("DEGLITCH");
plotDeglitch(WHITE);
display.display();
}
void plotDeglitch(int color){
display.setTextColor(color);
display.setTextSize(2);
display.setCursor(79,33);
if (deglitch){
display.println(deglitch);
display.setCursor(105,40);
display.setTextSize(1);
display.println("ms");
} else {
display.println("OFF");
}
}
void drawSubPinkyKey(){
display.fillRect(63,11,64,52,BLACK);
display.drawRect(63,11,64,52,WHITE);
display.setTextColor(WHITE);
display.setTextSize(1);
display.setCursor(68,15);
display.println("PINKY KEY");
plotPinkyKey(WHITE);
display.display();
}
void plotPinkyKey(int color){
display.setTextColor(color);
display.setTextSize(2);
display.setCursor(79,33);
if (pinkySetting < 12){
display.println(pinkySetting - 12);
} else if (pinkySetting == PBD) {
display.println("PBD");
} else {
display.print("+");
display.println(pinkySetting - 12);
}
}
void drawSubVelSmpDl(){
display.fillRect(63,11,64,52,BLACK);
display.drawRect(63,11,64,52,WHITE);
display.setTextColor(WHITE);
display.setTextSize(1);
display.setCursor(69,15);
display.println("VEL DELAY");
plotVelSmpDl(WHITE);
display.display();
}
void plotVelSmpDl(int color){
display.setTextColor(color);
display.setTextSize(2);
display.setCursor(79,33);
if (velSmpDl){
display.println(velSmpDl);
display.setCursor(105,40);
display.setTextSize(1);
display.println("ms");
} else {
display.println("OFF");
}
}
void drawSubVelBias(){
display.fillRect(63,11,64,52,BLACK);
display.drawRect(63,11,64,52,WHITE);
display.setTextColor(WHITE);
display.setTextSize(1);
display.setCursor(72,15);
display.println("VEL BIAS");
plotVelBias(WHITE);
display.display();
}
void plotVelBias(int color){
display.setTextColor(color);
display.setTextSize(2);
if (velBias){
display.setCursor(90,33);
display.println(velBias);
} else {
display.setCursor(79,33);
display.println("OFF");
}
}
void drawSetupBrMenuScreen(){
// Clear the buffer.
display.clearDisplay();
display.setTextSize(1);
display.setTextColor(WHITE);
display.setCursor(0,0);
display.println("SETUP BREATH");
display.drawLine(0,9,127,9,WHITE);
display.setCursor(0,12);
display.println("BREATH CC");
display.setCursor(0,21);
display.println("BREATH AT");
display.setCursor(0,30);
display.println("VELOCITY");
display.setCursor(0,39);
display.println("CURVE");
display.setCursor(0,48);
display.println("VEL DELAY");
display.setCursor(0,57);
display.println("VEL BIAS");
display.display();
}
void drawSetupCtMenuScreen(){
// Clear the buffer.
display.clearDisplay();
display.setTextSize(1);
display.setTextColor(WHITE);
display.setCursor(0,0);
display.println("SETUP CTRLS");
display.drawLine(0,9,127,9,WHITE);
display.setCursor(0,12);
display.println("PORT/GLD");
display.setCursor(0,21);
display.println("PITCHBEND");
display.setCursor(0,30);
display.println("EXTRA CTR");
display.setCursor(0,39);
display.println("VIBRATO");
display.setCursor(0,48);
display.println("DEGLITCH");
display.setCursor(0,57);
display.println("PINKY KEY");
display.display();
}
void drawVibratoMenuScreen(){
// Clear the buffer.
display.clearDisplay();
display.setTextSize(1);
display.setTextColor(WHITE);
display.setCursor(0,0);
display.println("VIBRATO");
display.drawLine(0,9,127,9,WHITE);
display.setCursor(0,12);
display.println("DEPTH");
display.setCursor(0,21);
display.println("SENSE");
display.setCursor(0,30);
display.println("RETURN");
display.setCursor(0,39);
display.println("SQUELCH");
display.setCursor(0,48);
display.println("DIRECTION");
display.setCursor(0,57);
display.println("");
display.display();
}
void drawSensorPixels(){
int pos,oldpos;
int redraw=0;
if ((state == BREATH_ADJ_IDL) || (state == BREATH_ADJ_THR) || (state == BREATH_ADJ_MAX)){
pos = map(constrain(pressureSensor, breathLoLimit, breathHiLimit), breathLoLimit, breathHiLimit, 28, 118);
oldpos = map(constrain(lastPressure, breathLoLimit, breathHiLimit), breathLoLimit, breathHiLimit, 28, 118);
if (pos!=oldpos){
display.drawPixel(oldpos, 38, BLACK);
display.drawPixel(pos, 38, WHITE);
display.display();
} else if (forcePix) {
display.drawPixel(pos, 38, WHITE);
display.display();
}
lastPressure=pressureSensor;
}
if ((state == PORTAM_ADJ_IDL) || (state == PORTAM_ADJ_THR) || (state == PORTAM_ADJ_MAX)){
pos = map(constrain(biteSensor,portamLoLimit,portamHiLimit), portamLoLimit, portamHiLimit, 28, 118);
oldpos = map(constrain(lastBite,portamLoLimit,portamHiLimit), portamLoLimit, portamHiLimit, 28, 118);
if (pos!=oldpos){
display.drawPixel(oldpos, 38, BLACK);
display.drawPixel(pos, 38, WHITE);
display.display();
} else if (forcePix) {
display.drawPixel(pos, 38, WHITE);
display.display();
}
lastBite=biteSensor;
}
if ((state == PITCHB_ADJ_IDL) || (state == PITCHB_ADJ_THR) || (state == PITCHB_ADJ_MAX)){
pos = map(constrain(pbUp, pitchbLoLimit, pitchbHiLimit), pitchbLoLimit, pitchbHiLimit, 28, 118);
oldpos = map(constrain(lastPbUp, pitchbLoLimit, pitchbHiLimit), pitchbLoLimit, pitchbHiLimit, 28, 118);
if (pos!=oldpos){
display.drawPixel(oldpos, 38, BLACK);
display.drawPixel(pos, 38, WHITE);
redraw=1;
} else if (forcePix) {
display.drawPixel(pos, 38, WHITE);
redraw=1;
}
pos = map(constrain(pbDn, pitchbLoLimit, pitchbHiLimit), pitchbLoLimit, pitchbHiLimit, 28, 118);
oldpos = map(constrain(lastPbDn, pitchbLoLimit, pitchbHiLimit), pitchbLoLimit, pitchbHiLimit, 28, 118);
if (pos!=oldpos){
display.drawPixel(oldpos, 38, BLACK);
display.drawPixel(pos, 38, WHITE);
redraw=1;
} else if (forcePix) {
display.drawPixel(pos, 38, WHITE);
redraw=1;
}
if (redraw){
display.display();
redraw=0;
}
lastPbUp=pbUp;
lastPbDn=pbDn;
}
if ((state == EXTRAC_ADJ_IDL) || (state == EXTRAC_ADJ_THR) || (state == EXTRAC_ADJ_MAX)){
pos = map(constrain(exSensor, extracLoLimit, extracHiLimit), extracLoLimit, extracHiLimit, 28, 118);
oldpos = map(constrain(lastEx, extracLoLimit, extracHiLimit), extracLoLimit, extracHiLimit, 28, 118);
if (pos!=oldpos){
display.drawPixel(oldpos, 38, BLACK);
display.drawPixel(pos, 38, WHITE);
display.display();
} else if (forcePix) {
display.drawPixel(pos, 38, WHITE);
display.display();
}
lastEx=exSensor;
}
if ((state == CTOUCH_ADJ_IDL) || (state == CTOUCH_ADJ_THR)){
display.drawLine(28,38,118,38,BLACK);
for (byte i=0; i<12; i++){
pos = map(constrain(touchSensor.filteredData(i), ctouchLoLimit, ctouchHiLimit), ctouchLoLimit, ctouchHiLimit, 28, 118);
display.drawPixel(pos, 38, WHITE);
}
int posRead = map(touchRead(halfPitchBendKeyPin),ttouchLoLimit,ttouchHiLimit,ctouchHiLimit,ctouchLoLimit);
pos = map(constrain(posRead, ctouchLoLimit, ctouchHiLimit), ctouchLoLimit, ctouchHiLimit, 28, 118);
display.drawPixel(pos, 38, WHITE);
posRead = map(touchRead(specialKeyPin),ttouchLoLimit,ttouchHiLimit,ctouchHiLimit,ctouchLoLimit);
pos = map(constrain(posRead, ctouchLoLimit, ctouchHiLimit), ctouchLoLimit, ctouchHiLimit, 28, 118);
display.drawPixel(pos, 38, WHITE);
display.display();
}
forcePix = 0;
}
void writeSetting(byte address, unsigned short value){
union {
byte v[2];
unsigned short val;
} data;
data.val = value;
EEPROM.write(address, data.v[0]);
EEPROM.write(address+1, data.v[1]);
}
unsigned short readSetting(byte address){
union {
byte v[2];
unsigned short val;
} data;
data.v[0] = EEPROM.read(address);
data.v[1] = EEPROM.read(address+1);
return data.val;
}
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