Fix for displaying strings on display.

Small fixes.
dev
Holger Wirtz 2 years ago
parent a0d3fee52f
commit 2c1c3bb5bb
  1. 55
      UI.hpp
  2. 28
      addon/SD/PERFORMANCE/0/performance.json
  3. 8
      config.h
  4. 79
      disp_plus.h
  5. 395
      midi_devices.hpp

@ -4854,17 +4854,10 @@ void UI_func_velocity_level(uint8_t param) {
} }
void UI_update_instance_icons() { void UI_update_instance_icons() {
#ifdef TESTDISPLAY20x4
display.setCursor(18, 0);
display.write(0); //Icon for first instance
display.setCursor(19, 0);
display.write(1); //Icon for second instance
#else
display.setCursor(14, 0); display.setCursor(14, 0);
display.write(0); //Icon for first instance display.write(0); //Icon for first instance
display.setCursor(15, 0); display.setCursor(15, 0);
display.write(1); //Icon for second instance display.write(1); //Icon for second instance
#endif
} }
void UI_func_voice_select(uint8_t param) { void UI_func_voice_select(uint8_t param) {
@ -4872,12 +4865,6 @@ void UI_func_voice_select(uint8_t param) {
if (LCDML.FUNC_setup()) // ****** SETUP ********* if (LCDML.FUNC_setup()) // ****** SETUP *********
{ {
#ifdef TESTDISPLAY20x4
display.setCursor(0, 3);
display.print("MENU");
display.setCursor(17, 3);
display.print("+/-");
#endif
encoderDir[ENC_R].reset(); encoderDir[ENC_R].reset();
lcd_active_instance_number(selected_instance_id); lcd_active_instance_number(selected_instance_id);
@ -5029,26 +5016,7 @@ void UI_func_voice_select(uint8_t param) {
display.show(0, 0, 2, configuration.dexed[selected_instance_id].bank); display.show(0, 0, 2, configuration.dexed[selected_instance_id].bank);
display.show(1, 0, 2, configuration.dexed[selected_instance_id].voice + 1); display.show(1, 0, 2, configuration.dexed[selected_instance_id].voice + 1);
#ifdef TESTDISPLAY20x4
string_toupper(bank_name);
display.show(0, 4, 8, bank_name);
string_toupper(voice_name);
display.show(1, 4, 10, voice_name);
switch (menu_voice_select) {
case MENU_VOICE_BANK:
display.show(0, 3, 1, "[");
display.show(0, 12, 1, "]");
display.show(1, 3, 1, " ");
display.show(1, 14, 1, " ");
break;
case MENU_VOICE_SOUND:
display.show(0, 3, 1, " ");
display.show(0, 12, 1, " ");
display.show(1, 3, 1, "[");
display.show(1, 14, 1, "]");
break;
}
#else
string_toupper(bank_name); string_toupper(bank_name);
display.show(0, 3, 8, bank_name); display.show(0, 3, 8, bank_name);
display.show(0, 12, 1, " "); //forced because this char does not clear after fav-search (because the bank name is one char to short to do it). display.show(0, 12, 1, " "); //forced because this char does not clear after fav-search (because the bank name is one char to short to do it).
@ -5069,9 +5037,10 @@ void UI_func_voice_select(uint8_t param) {
display.show(1, 13, 1, "]"); display.show(1, 13, 1, "]");
break; break;
} }
#endif
draw_favorite_icon(configuration.dexed[selected_instance_id].bank, configuration.dexed[selected_instance_id].voice, selected_instance_id); draw_favorite_icon(configuration.dexed[selected_instance_id].bank, configuration.dexed[selected_instance_id].voice, selected_instance_id);
} }
if (LCDML.FUNC_close()) // ****** STABLE END ********* if (LCDML.FUNC_close()) // ****** STABLE END *********
{ {
lcd_special_chars(SCROLLBAR); lcd_special_chars(SCROLLBAR);
@ -6386,7 +6355,7 @@ void display_float(float var, uint8_t size_number, uint8_t size_fraction, bool z
if (brackets == true) { if (brackets == true) {
char tmp[LCD_cols + 1]; char tmp[LCD_cols + 1];
strlcpy(tmp, s,sizeof(tmp)); strlcpy(tmp, s, sizeof(tmp));
snprintf_P(s, sizeof(s), PSTR("[%s]"), tmp); snprintf_P(s, sizeof(s), PSTR("[%s]"), tmp);
} }
@ -6921,18 +6890,10 @@ void draw_favorite_icon(uint8_t b, uint8_t v, uint8_t instance_id) {
if (sd_card > 0) { if (sd_card > 0) {
snprintf_P(tmp, sizeof(tmp), PSTR("/%s/%d/%d.fav"), FAV_CONFIG_PATH, b, v); snprintf_P(tmp, sizeof(tmp), PSTR("/%s/%d/%d.fav"), FAV_CONFIG_PATH, b, v);
if (SD.exists(tmp)) { //is Favorite if (SD.exists(tmp)) { //is Favorite
#ifdef TESTDISPLAY20x4
display.setCursor(17, 0);
#else
display.setCursor(13, 0); display.setCursor(13, 0);
#endif
display.write(2); //fav symbol display.write(2); //fav symbol
} else { // it was not a favorite } else { // it was not a favorite
#ifdef TESTDISPLAY20x4
display.setCursor(17, 0);
#else
display.setCursor(13, 0); display.setCursor(13, 0);
#endif
display.print(" "); display.print(" ");
} }
} }
@ -6988,11 +6949,7 @@ void save_favorite(uint8_t b, uint8_t v, uint8_t instance_id) {
myFav = SD.open(tmp, FILE_WRITE); myFav = SD.open(tmp, FILE_WRITE);
myFav.close(); myFav.close();
Serial.println(F("Favorite saved...")); Serial.println(F("Favorite saved..."));
#ifdef TESTDISPLAY20x4
display.setCursor(17, 0);
#else
display.setCursor(13, 0); display.setCursor(13, 0);
#endif
display.write(2); //fav symbol display.write(2); //fav symbol
#ifdef DEBUG #ifdef DEBUG
Serial.println(F("Added to Favorites...")); Serial.println(F("Added to Favorites..."));
@ -7015,11 +6972,7 @@ void save_favorite(uint8_t b, uint8_t v, uint8_t instance_id) {
Serial.println(F("Removed folder since no voice in bank flagged as favorite any more")); Serial.println(F("Removed folder since no voice in bank flagged as favorite any more"));
#endif #endif
} }
#ifdef TESTDISPLAY20x4
display.setCursor(17, 0);
#else
display.setCursor(13, 0); display.setCursor(13, 0);
#endif
display.print(" "); //remove fav symbol display.print(" "); //remove fav symbol
#ifdef DEBUG #ifdef DEBUG
Serial.println(F("Removed from Favorites...")); Serial.println(F("Removed from Favorites..."));

@ -1,27 +1,3 @@
{ {
"name": [ "name": "MD-Perf1"
73, }
78,
73,
84,
32,
80,
101,
114,
102,
0,
0,
0,
0,
0,
0,
0,
0,
0,
0,
0,
0,
0,
0
]
}

@ -92,7 +92,7 @@
//************************************************************************************************* //*************************************************************************************************
//* DEBUG OUTPUT SETTINGS //* DEBUG OUTPUT SETTINGS
//************************************************************************************************* //*************************************************************************************************
//#define DEBUG 1 #define DEBUG 1
//#define DEBUG_SHOW_JSON 1 //#define DEBUG_SHOW_JSON 1
#define SERIAL_SPEED 230400 #define SERIAL_SPEED 230400
#define SHOW_XRUN 1 #define SHOW_XRUN 1
@ -231,7 +231,6 @@
#define ENABLE_LCD_UI 1 #define ENABLE_LCD_UI 1
#define STANDARD_LCD_I2C #define STANDARD_LCD_I2C
//#define OLED_SPI //#define OLED_SPI
//#define TESTDISPLAY20x4 //Currently for testing I2C Display 20x4 aka type "2004"
// LCD Display // LCD Display
//I2C_DISPLAY only //I2C_DISPLAY only
@ -239,13 +238,8 @@
#define LCD_I2C_ADDRESS 0x27 #define LCD_I2C_ADDRESS 0x27
//#define LCD_I2C_ADDRESS 0x3f //#define LCD_I2C_ADDRESS 0x3f
//Display size, must be set for U8X8 as well //Display size, must be set for U8X8 as well
#ifdef TESTDISPLAY20x4
#define LCD_cols 20
#define LCD_rows 4
#else
#define LCD_cols 16 #define LCD_cols 16
#define LCD_rows 2 #define LCD_rows 2
#endif
#define I2C_DISPLAY #define I2C_DISPLAY
// [I2C] SCL: Pin 19, SDA: Pin 18 (https://www.pjrc.com/teensy/td_libs_Wire.html) // [I2C] SCL: Pin 19, SDA: Pin 18 (https://www.pjrc.com/teensy/td_libs_Wire.html)

@ -28,61 +28,58 @@
#include "config.h" #include "config.h"
#define STRING_BUFFER_SIZE LCD_cols+1 #define STRING_BUFFER_SIZE LCD_cols + 1
template <class T> template<class T>
class Disp_Plus : public T class Disp_Plus : public T {
{ public:
public:
using T::T; using T::T;
void show(uint8_t y, uint8_t x, uint8_t fs, const char *str) void show(uint8_t y, uint8_t x, uint8_t fs, const char *str) {
{ _show(y, x, fs, str, false, false);
_show(y, x, fs, str, false, false); }
}
void show(uint8_t y, uint8_t x, uint8_t fs, long num) void show(uint8_t y, uint8_t x, uint8_t fs, long num) {
{ char _buf10[STRING_BUFFER_SIZE];
char _buf10[STRING_BUFFER_SIZE];
_show(y, x, fs, itoa(num, _buf10, 10), true, true); _show(y, x, fs, itoa(num, _buf10, 10), true, true);
} }
private: private:
void _show(uint8_t pos_y, uint8_t pos_x, uint8_t field_size, const char *str, bool justify_right, bool fill_zero) void _show(uint8_t pos_y, uint8_t pos_x, uint8_t field_size, const char *str, bool justify_right, bool fill_zero) {
{ {
{ char tmp[STRING_BUFFER_SIZE];
char tmp[STRING_BUFFER_SIZE]; char *s = tmp;
char *s = tmp; uint8_t l = strlen(str);
uint8_t l = strlen(str);
memset(tmp, 0, sizeof(tmp)); memset(tmp, 0, sizeof(tmp));
if (fill_zero == true) if (fill_zero == true)
memset(tmp, '0', field_size); memset(tmp, '0', field_size);
else else
memset(tmp, 0x20, field_size); // blank memset(tmp, 0x20, field_size); // blank
if (l > field_size) if (l > field_size)
l = field_size; l = field_size;
if (justify_right == true) if (justify_right == true)
s += field_size - l; s += field_size - l;
strlcpy(s, str, l); strncpy(s, str, l);
s[l] = '\0';
//setCursor(pos_x * getMaxCharWidth(), pos_y * getMaxCharHeight()); //setCursor(pos_x * getMaxCharWidth(), pos_y * getMaxCharHeight());
this->setCursor(pos_x, pos_y ); this->setCursor(pos_x, pos_y);
this->print(tmp); this->print(tmp);
#ifdef DEBUG #ifdef DEBUG
Serial.print(pos_y, DEC); Serial.print(pos_y, DEC);
Serial.print(F("/")); Serial.print(F("/"));
Serial.print(pos_x, DEC); Serial.print(pos_x, DEC);
Serial.print(F(": [")); Serial.print(F(": ["));
Serial.print(tmp); Serial.print(tmp);
Serial.println(F("]")); Serial.println(F("]"));
#endif #endif
}
} }
}
}; };

@ -33,9 +33,8 @@ extern config_t configuration;
#endif #endif
// override default sysex size settings // override default sysex size settings
struct MicroDexedSettings : public midi::DefaultSettings struct MicroDexedSettings : public midi::DefaultSettings {
{ static const unsigned SysExMaxSize = 4104; // Accept SysEx messages up to 1024 bytes long.
static const unsigned SysExMaxSize = 4104; // Accept SysEx messages up to 1024 bytes long.
}; };
#ifdef MIDI_DEVICE_DIN #ifdef MIDI_DEVICE_DIN
@ -71,38 +70,37 @@ void MD_sendControlChange(uint8_t channel, uint8_t cc, uint8_t value);
#define MIDI_BY_USB_HOST "MIDI_USB_HOST" #define MIDI_BY_USB_HOST "MIDI_USB_HOST"
#define MIDI_BY_USB "USB_MIDI" #define MIDI_BY_USB "USB_MIDI"
void handle_generic(byte inChannel, byte inData1, byte inData2, const char *midi_device, midi::MidiType event) void handle_generic(byte inChannel, byte inData1, byte inData2, const char *midi_device, midi::MidiType event) {
{
char text[10]; char text[10];
switch(event) { switch (event) {
case midi::NoteOn: case midi::NoteOn:
handleNoteOn(inChannel, inData1, inData2); handleNoteOn(inChannel, inData1, inData2);
strlcpy(text, "NoteOn",sizeof(text)); strlcpy(text, "NoteOn", sizeof(text));
break; break;
case midi::NoteOff: case midi::NoteOff:
handleNoteOff(inChannel, inData1, inData2); handleNoteOff(inChannel, inData1, inData2);
strlcpy(text, "NoteOff",sizeof(text)); strlcpy(text, "NoteOff", sizeof(text));
break; break;
case midi::ControlChange: case midi::ControlChange:
handleControlChange(inChannel, inData1, inData2); handleControlChange(inChannel, inData1, inData2);
strlcpy(text, "CC",sizeof(text)); strlcpy(text, "CC", sizeof(text));
break; break;
case midi::AfterTouchChannel: case midi::AfterTouchChannel:
handleAfterTouch(inChannel, inData1); handleAfterTouch(inChannel, inData1);
strlcpy(text, "Mono AT",sizeof(text)); strlcpy(text, "Mono AT", sizeof(text));
break; break;
case midi::PitchBend: case midi::PitchBend:
handlePitchBend(inChannel, inData1); handlePitchBend(inChannel, inData1);
strlcpy(text, "PB",sizeof(text)); strlcpy(text, "PB", sizeof(text));
break; break;
case midi::ProgramChange: case midi::ProgramChange:
handleProgramChange(inChannel, inData1); handleProgramChange(inChannel, inData1);
strlcpy(text, "PC",sizeof(text)); strlcpy(text, "PC", sizeof(text));
break; break;
case midi::AfterTouchPoly: case midi::AfterTouchPoly:
handleAfterTouchPoly(inChannel, inData1, inData2); handleAfterTouchPoly(inChannel, inData1, inData2);
strlcpy(text, "Poly AT",sizeof(text)); strlcpy(text, "Poly AT", sizeof(text));
break; break;
default: default:
break; break;
@ -112,11 +110,10 @@ void handle_generic(byte inChannel, byte inData1, byte inData2, const char *midi
#endif #endif
// MIDI THRU // MIDI THRU
if (configuration.sys.soft_midi_thru == 1) if (configuration.sys.soft_midi_thru == 1) {
{
#ifdef MIDI_DEVICE_USB #ifdef MIDI_DEVICE_USB
if(strcmp(MIDI_BY_USB, midi_device)) { if (strcmp(MIDI_BY_USB, midi_device)) {
switch(event) { switch (event) {
case midi::NoteOn: case midi::NoteOn:
usbMIDI.sendNoteOn(inData1, inData2, inChannel); usbMIDI.sendNoteOn(inData1, inData2, inChannel);
break; break;
@ -141,15 +138,15 @@ void handle_generic(byte inChannel, byte inData1, byte inData2, const char *midi
default: default:
break; break;
} }
#ifdef DEBUG #ifdef DEBUG
Serial.print(F(" THRU->MIDI_USB")); Serial.print(F(" THRU->MIDI_USB"));
#endif #endif
} }
#endif #endif
#ifdef MIDI_DEVICE_DIN #ifdef MIDI_DEVICE_DIN
if(strcmp(MIDI_BY_DIN, midi_device)) { if (strcmp(MIDI_BY_DIN, midi_device)) {
switch(event) { switch (event) {
case midi::NoteOn: case midi::NoteOn:
midi_serial.sendNoteOn(inData1, inData2, inChannel); midi_serial.sendNoteOn(inData1, inData2, inChannel);
break; break;
@ -174,15 +171,15 @@ void handle_generic(byte inChannel, byte inData1, byte inData2, const char *midi
default: default:
break; break;
} }
#ifdef DEBUG #ifdef DEBUG
Serial.print(F(" THRU->MIDI_DIN")); Serial.print(F(" THRU->MIDI_DIN"));
#endif #endif
} }
#endif #endif
#ifdef MIDI_DEVICE_USB_HOST #ifdef MIDI_DEVICE_USB_HOST
if(strcmp(MIDI_BY_USB_HOST, midi_device)) { if (strcmp(MIDI_BY_USB_HOST, midi_device)) {
switch(event) { switch (event) {
case midi::NoteOn: case midi::NoteOn:
midi_usb.sendNoteOn(inData1, inData2, inChannel); midi_usb.sendNoteOn(inData1, inData2, inChannel);
break; break;
@ -207,9 +204,9 @@ void handle_generic(byte inChannel, byte inData1, byte inData2, const char *midi
default: default:
break; break;
} }
#ifdef DEBUG #ifdef DEBUG
Serial.print(F(" THRU->MIDI_USB_HOST")); Serial.print(F(" THRU->MIDI_USB_HOST"));
#endif #endif
} }
#endif #endif
} }
@ -226,32 +223,31 @@ void handleSystemExclusive_generic(byte *data, uint len, const char *midi_device
#endif #endif
// MIDI THRU // MIDI THRU
if (configuration.sys.soft_midi_thru == 1) if (configuration.sys.soft_midi_thru == 1) {
{
#ifdef MIDI_DEVICE_USB #ifdef MIDI_DEVICE_USB
if(strcmp(MIDI_BY_USB, midi_device)) { if (strcmp(MIDI_BY_USB, midi_device)) {
usbMIDI.sendSysEx(len, data); usbMIDI.sendSysEx(len, data);
#ifdef DEBUG #ifdef DEBUG
Serial.print(F(" THRU->MIDI_USB")); Serial.print(F(" THRU->MIDI_USB"));
#endif #endif
} }
#endif #endif
#ifdef MIDI_DEVICE_DIN #ifdef MIDI_DEVICE_DIN
if(strcmp(MIDI_BY_DIN, midi_device)) { if (strcmp(MIDI_BY_DIN, midi_device)) {
midi_serial.sendSysEx(len, data); midi_serial.sendSysEx(len, data);
#ifdef DEBUG #ifdef DEBUG
Serial.print(F(" THRU->MIDI_DIN")); Serial.print(F(" THRU->MIDI_DIN"));
#endif #endif
} }
#endif #endif
#ifdef MIDI_DEVICE_USB_HOST #ifdef MIDI_DEVICE_USB_HOST
if(strcmp(MIDI_BY_USB_HOST, midi_device)) { if (strcmp(MIDI_BY_USB_HOST, midi_device)) {
midi_usb.sendSysEx(len, data); midi_usb.sendSysEx(len, data);
#ifdef DEBUG #ifdef DEBUG
Serial.print(F(" THRU->MIDI_USB_HOST")); Serial.print(F(" THRU->MIDI_USB_HOST"));
#endif #endif
} }
#endif #endif
} }
@ -261,22 +257,21 @@ void handleSystemExclusive_generic(byte *data, uint len, const char *midi_device
#endif #endif
} }
void handleSystemCommon_generic(byte inData1, const char *midi_device, midi::MidiType event) void handleSystemCommon_generic(byte inData1, const char *midi_device, midi::MidiType event) {
{
char text[10]; char text[10];
switch(event) { switch (event) {
case midi::TimeCodeQuarterFrame: case midi::TimeCodeQuarterFrame:
handleTimeCodeQuarterFrame(inData1); handleTimeCodeQuarterFrame(inData1);
strlcpy(text, "TimeCodeQuarterFrame",sizeof(text)); strlcpy(text, "TimeCodeQuarterFrame", sizeof(text));
break; break;
case midi::SongSelect: case midi::SongSelect:
handleSongSelect(inData1); handleSongSelect(inData1);
strlcpy(text, "SongSelect",sizeof(text)); strlcpy(text, "SongSelect", sizeof(text));
break; break;
case midi::TuneRequest: case midi::TuneRequest:
handleTuneRequest(); handleTuneRequest();
strlcpy(text, "TuneRequest",sizeof(text)); strlcpy(text, "TuneRequest", sizeof(text));
break; break;
default: default:
break; break;
@ -286,11 +281,10 @@ void handleSystemCommon_generic(byte inData1, const char *midi_device, midi::Mid
#endif #endif
// MIDI THRU // MIDI THRU
if (configuration.sys.soft_midi_thru == 1) if (configuration.sys.soft_midi_thru == 1) {
{
#ifdef MIDI_DEVICE_USB #ifdef MIDI_DEVICE_USB
if(strcmp(MIDI_BY_USB, midi_device)) { if (strcmp(MIDI_BY_USB, midi_device)) {
switch(event) { switch (event) {
case midi::TimeCodeQuarterFrame: case midi::TimeCodeQuarterFrame:
usbMIDI.sendTimeCodeQuarterFrame(0xF1, inData1); usbMIDI.sendTimeCodeQuarterFrame(0xF1, inData1);
break; break;
@ -303,15 +297,15 @@ void handleSystemCommon_generic(byte inData1, const char *midi_device, midi::Mid
default: default:
break; break;
} }
#ifdef DEBUG #ifdef DEBUG
Serial.print(F(" THRU->MIDI_USB")); Serial.print(F(" THRU->MIDI_USB"));
#endif #endif
} }
#endif #endif
#ifdef MIDI_DEVICE_DIN #ifdef MIDI_DEVICE_DIN
if(strcmp(MIDI_BY_DIN, midi_device)) { if (strcmp(MIDI_BY_DIN, midi_device)) {
switch(event) { switch (event) {
case midi::TimeCodeQuarterFrame: case midi::TimeCodeQuarterFrame:
midi_serial.sendTimeCodeQuarterFrame(inData1); midi_serial.sendTimeCodeQuarterFrame(inData1);
break; break;
@ -324,15 +318,15 @@ void handleSystemCommon_generic(byte inData1, const char *midi_device, midi::Mid
default: default:
break; break;
} }
#ifdef DEBUG #ifdef DEBUG
Serial.print(F(" THRU->MIDI_DIN")); Serial.print(F(" THRU->MIDI_DIN"));
#endif #endif
} }
#endif #endif
#ifdef MIDI_DEVICE_USB_HOST #ifdef MIDI_DEVICE_USB_HOST
if(strcmp(MIDI_BY_USB_HOST, midi_device)) { if (strcmp(MIDI_BY_USB_HOST, midi_device)) {
switch(event) { switch (event) {
case midi::TimeCodeQuarterFrame: case midi::TimeCodeQuarterFrame:
midi_usb.sendTimeCodeQuarterFrame(0xF1, inData1); midi_usb.sendTimeCodeQuarterFrame(0xF1, inData1);
break; break;
@ -345,9 +339,9 @@ void handleSystemCommon_generic(byte inData1, const char *midi_device, midi::Mid
default: default:
break; break;
} }
#ifdef DEBUG #ifdef DEBUG
Serial.print(F(" THRU->MIDI_USB_HOST")); Serial.print(F(" THRU->MIDI_USB_HOST"));
#endif #endif
} }
#endif #endif
} }
@ -357,34 +351,33 @@ void handleSystemCommon_generic(byte inData1, const char *midi_device, midi::Mid
#endif #endif
} }
void handleRealtime_generic(const char *midi_device, midi::MidiType event) void handleRealtime_generic(const char *midi_device, midi::MidiType event) {
{
char text[10]; char text[10];
switch(event) { switch (event) {
case midi::Clock: case midi::Clock:
handleClock(); handleClock();
strlcpy(text, "Clock",sizeof(text)); strlcpy(text, "Clock", sizeof(text));
break; break;
case midi::Start: case midi::Start:
handleStart(); handleStart();
strlcpy(text, "Start",sizeof(text)); strlcpy(text, "Start", sizeof(text));
break; break;
case midi::Continue: case midi::Continue:
handleContinue(); handleContinue();
strlcpy(text, "Continue",sizeof(text)); strlcpy(text, "Continue", sizeof(text));
break; break;
case midi::Stop: case midi::Stop:
handleStop(); handleStop();
strlcpy(text, "Stop",sizeof(text)); strlcpy(text, "Stop", sizeof(text));
break; break;
case midi::ActiveSensing: case midi::ActiveSensing:
handleActiveSensing(); handleActiveSensing();
strlcpy(text, "ActiveSensing",sizeof(text)); strlcpy(text, "ActiveSensing", sizeof(text));
break; break;
case midi::SystemReset: case midi::SystemReset:
handleSystemReset(); handleSystemReset();
strlcpy(text, "SystemReset",sizeof(text)); strlcpy(text, "SystemReset", sizeof(text));
break; break;
default: default:
break; break;
@ -394,32 +387,31 @@ void handleRealtime_generic(const char *midi_device, midi::MidiType event)
#endif #endif
// MIDI THRU // MIDI THRU
if (configuration.sys.soft_midi_thru == 1) if (configuration.sys.soft_midi_thru == 1) {
{
#ifdef MIDI_DEVICE_USB #ifdef MIDI_DEVICE_USB
if(strcmp(MIDI_BY_USB, midi_device)) { if (strcmp(MIDI_BY_USB, midi_device)) {
usbMIDI.sendRealTime(event); usbMIDI.sendRealTime(event);
#ifdef DEBUG #ifdef DEBUG
Serial.print(F(" THRU->MIDI_USB")); Serial.print(F(" THRU->MIDI_USB"));
#endif #endif
} }
#endif #endif
#ifdef MIDI_DEVICE_DIN #ifdef MIDI_DEVICE_DIN
if(strcmp(MIDI_BY_DIN, midi_device)) { if (strcmp(MIDI_BY_DIN, midi_device)) {
midi_serial.sendRealTime(event); midi_serial.sendRealTime(event);
#ifdef DEBUG #ifdef DEBUG
Serial.print(F(" THRU->MIDI_DIN")); Serial.print(F(" THRU->MIDI_DIN"));
#endif #endif
} }
#endif #endif
#ifdef MIDI_DEVICE_USB_HOST #ifdef MIDI_DEVICE_USB_HOST
if(strcmp(MIDI_BY_USB_HOST, midi_device)) { if (strcmp(MIDI_BY_USB_HOST, midi_device)) {
midi_usb.sendRealTime(event); midi_usb.sendRealTime(event);
#ifdef DEBUG #ifdef DEBUG
Serial.print(F(" THRU->MIDI_USB_HOST")); Serial.print(F(" THRU->MIDI_USB_HOST"));
#endif #endif
} }
#endif #endif
} }
@ -435,13 +427,13 @@ void handleRealtime_generic(const char *midi_device, midi::MidiType event)
// handleRealTimeSystem(); // handleRealTimeSystem();
// #ifdef DEBUG // #ifdef DEBUG
// switch(midi_device) { // switch(midi_device) {
// case MIDI_DIN: // case MIDI_DIN:
// Serial.print(F("[MIDI_DIN] RealTimeSystem")); // Serial.print(F("[MIDI_DIN] RealTimeSystem"));
// break; // break;
// case MIDI_USB_HOST: // case MIDI_USB_HOST:
// Serial.print(F("[MIDI_USB_HOST] RealTimeSystem")); // Serial.print(F("[MIDI_USB_HOST] RealTimeSystem"));
// break; // break;
// case USB_MIDI: // case USB_MIDI:
// Serial.print(F("[USB_MIDI] RealTimeSystem")); // Serial.print(F("[USB_MIDI] RealTimeSystem"));
// break; // break;
// } // }
@ -487,43 +479,35 @@ void handleRealtime_generic(const char *midi_device, midi::MidiType event)
*****************************************/ *****************************************/
#ifdef MIDI_DEVICE_DIN #ifdef MIDI_DEVICE_DIN
void handleNoteOn_MIDI_DEVICE_DIN(byte inChannel, byte inNoteNumber, byte inVelocity) void handleNoteOn_MIDI_DEVICE_DIN(byte inChannel, byte inNoteNumber, byte inVelocity) {
{
handle_generic(inChannel, inNoteNumber, inVelocity, MIDI_BY_DIN, midi::NoteOn); handle_generic(inChannel, inNoteNumber, inVelocity, MIDI_BY_DIN, midi::NoteOn);
} }
void handleNoteOff_MIDI_DEVICE_DIN(byte inChannel, byte inNoteNumber, byte inVelocity) void handleNoteOff_MIDI_DEVICE_DIN(byte inChannel, byte inNoteNumber, byte inVelocity) {
{
handle_generic(inChannel, inNoteNumber, inVelocity, MIDI_BY_DIN, midi::NoteOff); handle_generic(inChannel, inNoteNumber, inVelocity, MIDI_BY_DIN, midi::NoteOff);
} }
void handleControlChange_MIDI_DEVICE_DIN(byte inChannel, byte inData1, byte inData2) void handleControlChange_MIDI_DEVICE_DIN(byte inChannel, byte inData1, byte inData2) {
{
handle_generic(inChannel, inData1, inData2, MIDI_BY_DIN, midi::ControlChange); handle_generic(inChannel, inData1, inData2, MIDI_BY_DIN, midi::ControlChange);
} }
void handleAfterTouch_MIDI_DEVICE_DIN(byte inChannel, byte inPressure) void handleAfterTouch_MIDI_DEVICE_DIN(byte inChannel, byte inPressure) {
{
handle_generic(inChannel, inPressure, '\0', MIDI_BY_DIN, midi::AfterTouchChannel); handle_generic(inChannel, inPressure, '\0', MIDI_BY_DIN, midi::AfterTouchChannel);
} }
void handlePitchBend_MIDI_DEVICE_DIN(byte inChannel, int inPitch) void handlePitchBend_MIDI_DEVICE_DIN(byte inChannel, int inPitch) {
{
handle_generic(inChannel, inPitch, '\0', MIDI_BY_DIN, midi::PitchBend); handle_generic(inChannel, inPitch, '\0', MIDI_BY_DIN, midi::PitchBend);
} }
void handleProgramChange_MIDI_DEVICE_DIN(byte inChannel, byte inProgram) void handleProgramChange_MIDI_DEVICE_DIN(byte inChannel, byte inProgram) {
{
handle_generic(inChannel, inProgram, '\0', MIDI_BY_DIN, midi::ProgramChange); handle_generic(inChannel, inProgram, '\0', MIDI_BY_DIN, midi::ProgramChange);
} }
void handleAfterTouchPoly_MIDI_DEVICE_DIN(byte inChannel, byte inNoteNumber, byte inVelocity) void handleAfterTouchPoly_MIDI_DEVICE_DIN(byte inChannel, byte inNoteNumber, byte inVelocity) {
{
handle_generic(inChannel, inNoteNumber, inVelocity, MIDI_BY_DIN, midi::AfterTouchPoly); handle_generic(inChannel, inNoteNumber, inVelocity, MIDI_BY_DIN, midi::AfterTouchPoly);
} }
void handleSystemExclusive_MIDI_DEVICE_DIN(byte * data, uint len) void handleSystemExclusive_MIDI_DEVICE_DIN(byte *data, uint len) {
{
handleSystemExclusive_generic(data, len, MIDI_BY_DIN); handleSystemExclusive_generic(data, len, MIDI_BY_DIN);
} }
@ -553,48 +537,39 @@ void handleSystemExclusive_MIDI_DEVICE_DIN(byte * data, uint len)
#endif #endif
} */ } */
void handleTimeCodeQuarterFrame_MIDI_DEVICE_DIN(byte data) void handleTimeCodeQuarterFrame_MIDI_DEVICE_DIN(byte data) {
{
handleSystemCommon_generic(data, MIDI_BY_DIN, midi::TimeCodeQuarterFrame); handleSystemCommon_generic(data, MIDI_BY_DIN, midi::TimeCodeQuarterFrame);
} }
void handleSongSelect_MIDI_DEVICE_DIN(byte inSong) void handleSongSelect_MIDI_DEVICE_DIN(byte inSong) {
{
handleSystemCommon_generic(inSong, MIDI_BY_DIN, midi::SongSelect); handleSystemCommon_generic(inSong, MIDI_BY_DIN, midi::SongSelect);
} }
void handleTuneRequest_MIDI_DEVICE_DIN(void) void handleTuneRequest_MIDI_DEVICE_DIN(void) {
{
handleSystemCommon_generic('\0', MIDI_BY_DIN, midi::TuneRequest); handleSystemCommon_generic('\0', MIDI_BY_DIN, midi::TuneRequest);
} }
void handleClock_MIDI_DEVICE_DIN(void) void handleClock_MIDI_DEVICE_DIN(void) {
{
handleRealtime_generic(MIDI_BY_DIN, midi::Clock); handleRealtime_generic(MIDI_BY_DIN, midi::Clock);
} }
void handleStart_MIDI_DEVICE_DIN(void) void handleStart_MIDI_DEVICE_DIN(void) {
{
handleRealtime_generic(MIDI_BY_DIN, midi::Start); handleRealtime_generic(MIDI_BY_DIN, midi::Start);
} }
void handleContinue_MIDI_DEVICE_DIN(void) void handleContinue_MIDI_DEVICE_DIN(void) {
{
handleRealtime_generic(MIDI_BY_DIN, midi::Continue); handleRealtime_generic(MIDI_BY_DIN, midi::Continue);
} }
void handleStop_MIDI_DEVICE_DIN(void) void handleStop_MIDI_DEVICE_DIN(void) {
{
handleRealtime_generic(MIDI_BY_DIN, midi::Stop); handleRealtime_generic(MIDI_BY_DIN, midi::Stop);
} }
void handleActiveSensing_MIDI_DEVICE_DIN(void) void handleActiveSensing_MIDI_DEVICE_DIN(void) {
{
handleRealtime_generic(MIDI_BY_DIN, midi::ActiveSensing); handleRealtime_generic(MIDI_BY_DIN, midi::ActiveSensing);
} }
void handleSystemReset_MIDI_DEVICE_DIN(void) void handleSystemReset_MIDI_DEVICE_DIN(void) {
{
handleRealtime_generic(MIDI_BY_DIN, midi::SystemReset); handleRealtime_generic(MIDI_BY_DIN, midi::SystemReset);
} }
@ -602,49 +577,41 @@ void handleSystemReset_MIDI_DEVICE_DIN(void)
{ {
handleRealTimeSystem_generic(MIDI_DIN); handleRealTimeSystem_generic(MIDI_DIN);
} */ } */
#endif // MIDI_DEVICE_DIN #endif // MIDI_DEVICE_DIN
/***************************************** /*****************************************
MIDI_DEVICE_USB_HOST MIDI_DEVICE_USB_HOST
*****************************************/ *****************************************/
#ifdef MIDI_DEVICE_USB_HOST #ifdef MIDI_DEVICE_USB_HOST
void handleNoteOn_MIDI_DEVICE_USB_HOST(byte inChannel, byte inNoteNumber, byte inVelocity) void handleNoteOn_MIDI_DEVICE_USB_HOST(byte inChannel, byte inNoteNumber, byte inVelocity) {
{
handle_generic(inChannel, inNoteNumber, inVelocity, MIDI_BY_USB_HOST, midi::NoteOn); handle_generic(inChannel, inNoteNumber, inVelocity, MIDI_BY_USB_HOST, midi::NoteOn);
} }
void handleNoteOff_MIDI_DEVICE_USB_HOST(byte inChannel, byte inNoteNumber, byte inVelocity) void handleNoteOff_MIDI_DEVICE_USB_HOST(byte inChannel, byte inNoteNumber, byte inVelocity) {
{
handle_generic(inChannel, inNoteNumber, inVelocity, MIDI_BY_USB_HOST, midi::NoteOff); handle_generic(inChannel, inNoteNumber, inVelocity, MIDI_BY_USB_HOST, midi::NoteOff);
} }
void handleControlChange_MIDI_DEVICE_USB_HOST(byte inChannel, byte inData1, byte inData2) void handleControlChange_MIDI_DEVICE_USB_HOST(byte inChannel, byte inData1, byte inData2) {
{
handle_generic(inChannel, inData1, inData2, MIDI_BY_USB_HOST, midi::ControlChange); handle_generic(inChannel, inData1, inData2, MIDI_BY_USB_HOST, midi::ControlChange);
} }
void handleAfterTouch_MIDI_DEVICE_USB_HOST(byte inChannel, byte inPressure) void handleAfterTouch_MIDI_DEVICE_USB_HOST(byte inChannel, byte inPressure) {
{
handle_generic(inChannel, inPressure, '\0', MIDI_BY_USB_HOST, midi::AfterTouchChannel); handle_generic(inChannel, inPressure, '\0', MIDI_BY_USB_HOST, midi::AfterTouchChannel);
} }
void handlePitchBend_MIDI_DEVICE_USB_HOST(byte inChannel, int inPitch) void handlePitchBend_MIDI_DEVICE_USB_HOST(byte inChannel, int inPitch) {
{
handle_generic(inChannel, inPitch, '\0', MIDI_BY_USB_HOST, midi::PitchBend); handle_generic(inChannel, inPitch, '\0', MIDI_BY_USB_HOST, midi::PitchBend);
} }
void handleProgramChange_MIDI_DEVICE_USB_HOST(byte inChannel, byte inPitch) void handleProgramChange_MIDI_DEVICE_USB_HOST(byte inChannel, byte inPitch) {
{
handle_generic(inChannel, inPitch, '\0', MIDI_BY_USB_HOST, midi::ProgramChange); handle_generic(inChannel, inPitch, '\0', MIDI_BY_USB_HOST, midi::ProgramChange);
} }
void handleAfterTouchPoly_MIDI_DEVICE_USB_HOST(byte inChannel, byte inNoteNumber, byte inVelocity) void handleAfterTouchPoly_MIDI_DEVICE_USB_HOST(byte inChannel, byte inNoteNumber, byte inVelocity) {
{
handle_generic(inChannel, inNoteNumber, inVelocity, MIDI_BY_USB_HOST, midi::AfterTouchPoly); handle_generic(inChannel, inNoteNumber, inVelocity, MIDI_BY_USB_HOST, midi::AfterTouchPoly);
} }
void handleSystemExclusive_MIDI_DEVICE_USB_HOST(byte * data, uint len) void handleSystemExclusive_MIDI_DEVICE_USB_HOST(byte *data, uint len) {
{
handleSystemExclusive_generic(data, len, MIDI_BY_USB_HOST); handleSystemExclusive_generic(data, len, MIDI_BY_USB_HOST);
} }
@ -674,48 +641,39 @@ void handleSystemExclusive_MIDI_DEVICE_USB_HOST(byte * data, uint len)
#endif #endif
} */ } */
void handleTimeCodeQuarterFrame_MIDI_DEVICE_USB_HOST(midi::DataByte data) void handleTimeCodeQuarterFrame_MIDI_DEVICE_USB_HOST(midi::DataByte data) {
{
handleSystemCommon_generic(data, MIDI_BY_USB_HOST, midi::TimeCodeQuarterFrame); handleSystemCommon_generic(data, MIDI_BY_USB_HOST, midi::TimeCodeQuarterFrame);
} }
void handleSongSelect_MIDI_DEVICE_USB_HOST(byte inSong) void handleSongSelect_MIDI_DEVICE_USB_HOST(byte inSong) {
{
handleSystemCommon_generic(inSong, MIDI_BY_USB_HOST, midi::SongSelect); handleSystemCommon_generic(inSong, MIDI_BY_USB_HOST, midi::SongSelect);
} }
void handleTuneRequest_MIDI_DEVICE_USB_HOST(void) void handleTuneRequest_MIDI_DEVICE_USB_HOST(void) {
{
handleSystemCommon_generic('\0', MIDI_BY_USB_HOST, midi::TuneRequest); handleSystemCommon_generic('\0', MIDI_BY_USB_HOST, midi::TuneRequest);
} }
void handleClock_MIDI_DEVICE_USB_HOST(void) void handleClock_MIDI_DEVICE_USB_HOST(void) {
{
handleRealtime_generic(MIDI_BY_USB_HOST, midi::Clock); handleRealtime_generic(MIDI_BY_USB_HOST, midi::Clock);
} }
void handleStart_MIDI_DEVICE_USB_HOST(void) void handleStart_MIDI_DEVICE_USB_HOST(void) {
{
handleRealtime_generic(MIDI_BY_USB_HOST, midi::Start); handleRealtime_generic(MIDI_BY_USB_HOST, midi::Start);
} }
void handleContinue_MIDI_DEVICE_USB_HOST(void) void handleContinue_MIDI_DEVICE_USB_HOST(void) {
{
handleRealtime_generic(MIDI_BY_USB_HOST, midi::Continue); handleRealtime_generic(MIDI_BY_USB_HOST, midi::Continue);
} }
void handleStop_MIDI_DEVICE_USB_HOST(void) void handleStop_MIDI_DEVICE_USB_HOST(void) {
{
handleRealtime_generic(MIDI_BY_USB_HOST, midi::Stop); handleRealtime_generic(MIDI_BY_USB_HOST, midi::Stop);
} }
void handleActiveSensing_MIDI_DEVICE_USB_HOST(void) void handleActiveSensing_MIDI_DEVICE_USB_HOST(void) {
{
handleRealtime_generic(MIDI_BY_USB_HOST, midi::ActiveSensing); handleRealtime_generic(MIDI_BY_USB_HOST, midi::ActiveSensing);
} }
void handleSystemReset_MIDI_DEVICE_USB_HOST(void) void handleSystemReset_MIDI_DEVICE_USB_HOST(void) {
{
handleRealtime_generic(MIDI_BY_USB_HOST, midi::SystemReset); handleRealtime_generic(MIDI_BY_USB_HOST, midi::SystemReset);
} }
@ -723,49 +681,41 @@ void handleSystemReset_MIDI_DEVICE_USB_HOST(void)
{ {
handleRealTimeSystem_generic(inRealTime, MIDI_USB_HOST); handleRealTimeSystem_generic(inRealTime, MIDI_USB_HOST);
} */ } */
#endif // MIDI_DEVICE_USB_HOST #endif // MIDI_DEVICE_USB_HOST
/***************************************** /*****************************************
MIDI_DEVICE_USB MIDI_DEVICE_USB
*****************************************/ *****************************************/
#ifdef MIDI_DEVICE_USB #ifdef MIDI_DEVICE_USB
void handleNoteOn_MIDI_DEVICE_USB(byte inChannel, byte inNoteNumber, byte inVelocity) void handleNoteOn_MIDI_DEVICE_USB(byte inChannel, byte inNoteNumber, byte inVelocity) {
{
handle_generic(inChannel, inNoteNumber, inVelocity, MIDI_BY_USB, midi::NoteOn); handle_generic(inChannel, inNoteNumber, inVelocity, MIDI_BY_USB, midi::NoteOn);
} }
void handleNoteOff_MIDI_DEVICE_USB(byte inChannel, byte inNoteNumber, byte inVelocity) void handleNoteOff_MIDI_DEVICE_USB(byte inChannel, byte inNoteNumber, byte inVelocity) {
{
handle_generic(inChannel, inNoteNumber, inVelocity, MIDI_BY_USB, midi::NoteOff); handle_generic(inChannel, inNoteNumber, inVelocity, MIDI_BY_USB, midi::NoteOff);
} }
void handleControlChange_MIDI_DEVICE_USB(byte inChannel, byte inData1, byte inData2) void handleControlChange_MIDI_DEVICE_USB(byte inChannel, byte inData1, byte inData2) {
{
handle_generic(inChannel, inData1, inData2, MIDI_BY_USB, midi::ControlChange); handle_generic(inChannel, inData1, inData2, MIDI_BY_USB, midi::ControlChange);
} }
void handleAfterTouch_MIDI_DEVICE_USB(byte inChannel, byte inPressure) void handleAfterTouch_MIDI_DEVICE_USB(byte inChannel, byte inPressure) {
{
handle_generic(inChannel, inPressure, '\0', MIDI_BY_USB, midi::AfterTouchChannel); handle_generic(inChannel, inPressure, '\0', MIDI_BY_USB, midi::AfterTouchChannel);
} }
void handlePitchBend_MIDI_DEVICE_USB(byte inChannel, int inPitch) void handlePitchBend_MIDI_DEVICE_USB(byte inChannel, int inPitch) {
{
handle_generic(inChannel, inPitch, '\0', MIDI_BY_USB, midi::PitchBend); handle_generic(inChannel, inPitch, '\0', MIDI_BY_USB, midi::PitchBend);
} }
void handleProgramChange_MIDI_DEVICE_USB(byte inChannel, byte inProgram) void handleProgramChange_MIDI_DEVICE_USB(byte inChannel, byte inProgram) {
{
handle_generic(inChannel, inProgram, '\0', MIDI_BY_USB, midi::ProgramChange); handle_generic(inChannel, inProgram, '\0', MIDI_BY_USB, midi::ProgramChange);
} }
void handleAfterTouchPoly_MIDI_DEVICE_USB(byte inChannel, byte inNoteNumber, byte inVelocity) void handleAfterTouchPoly_MIDI_DEVICE_USB(byte inChannel, byte inNoteNumber, byte inVelocity) {
{
handle_generic(inChannel, inNoteNumber, inVelocity, MIDI_BY_USB, midi::AfterTouchPoly); handle_generic(inChannel, inNoteNumber, inVelocity, MIDI_BY_USB, midi::AfterTouchPoly);
} }
void handleSystemExclusive_MIDI_DEVICE_USB(byte * data, uint len) void handleSystemExclusive_MIDI_DEVICE_USB(byte *data, uint len) {
{
handleSystemExclusive_generic(data, len, MIDI_BY_USB); handleSystemExclusive_generic(data, len, MIDI_BY_USB);
} }
@ -795,48 +745,39 @@ void handleSystemExclusive_MIDI_DEVICE_USB(byte * data, uint len)
#endif #endif
} */ } */
void handleTimeCodeQuarterFrame_MIDI_DEVICE_USB(midi::DataByte data) void handleTimeCodeQuarterFrame_MIDI_DEVICE_USB(midi::DataByte data) {
{
handleSystemCommon_generic(data, MIDI_BY_USB, midi::TimeCodeQuarterFrame); handleSystemCommon_generic(data, MIDI_BY_USB, midi::TimeCodeQuarterFrame);
} }
void handleSongSelect_MIDI_DEVICE_USB(byte inSong) void handleSongSelect_MIDI_DEVICE_USB(byte inSong) {
{
handleSystemCommon_generic(inSong, MIDI_BY_USB, midi::SongSelect); handleSystemCommon_generic(inSong, MIDI_BY_USB, midi::SongSelect);
} }
void handleTuneRequest_MIDI_DEVICE_USB(void) void handleTuneRequest_MIDI_DEVICE_USB(void) {
{
handleSystemCommon_generic('\0', MIDI_BY_USB, midi::TuneRequest); handleSystemCommon_generic('\0', MIDI_BY_USB, midi::TuneRequest);
} }
void handleClock_MIDI_DEVICE_USB(void) void handleClock_MIDI_DEVICE_USB(void) {
{
handleRealtime_generic(MIDI_BY_USB, midi::Clock); handleRealtime_generic(MIDI_BY_USB, midi::Clock);
} }
void handleStart_MIDI_DEVICE_USB(void) void handleStart_MIDI_DEVICE_USB(void) {
{
handleRealtime_generic(MIDI_BY_USB, midi::Start); handleRealtime_generic(MIDI_BY_USB, midi::Start);
} }
void handleContinue_MIDI_DEVICE_USB(void) void handleContinue_MIDI_DEVICE_USB(void) {
{
handleRealtime_generic(MIDI_BY_USB, midi::Continue); handleRealtime_generic(MIDI_BY_USB, midi::Continue);
} }
void handleStop_MIDI_DEVICE_USB(void) void handleStop_MIDI_DEVICE_USB(void) {
{
handleRealtime_generic(MIDI_BY_USB, midi::Stop); handleRealtime_generic(MIDI_BY_USB, midi::Stop);
} }
void handleActiveSensing_MIDI_DEVICE_USB(void) void handleActiveSensing_MIDI_DEVICE_USB(void) {
{
handleRealtime_generic(MIDI_BY_USB, midi::ActiveSensing); handleRealtime_generic(MIDI_BY_USB, midi::ActiveSensing);
} }
void handleSystemReset_MIDI_DEVICE_USB(void) void handleSystemReset_MIDI_DEVICE_USB(void) {
{
handleRealtime_generic(MIDI_BY_USB, midi::SystemReset); handleRealtime_generic(MIDI_BY_USB, midi::SystemReset);
} }
@ -844,10 +785,9 @@ void handleSystemReset_MIDI_DEVICE_USB(void)
{ {
handleRealTimeSystem_generic(inRealTime, USB_MIDI); handleRealTimeSystem_generic(inRealTime, USB_MIDI);
} */ } */
#endif // MIDI_DEVICE_USB #endif // MIDI_DEVICE_USB
FLASHMEM void MD_sendControlChange(uint8_t channel, uint8_t cc, uint8_t value) FLASHMEM void MD_sendControlChange(uint8_t channel, uint8_t cc, uint8_t value) {
{
#ifdef DEBUG #ifdef DEBUG
Serial.print(F("[MD] SendControlChange CH:")); Serial.print(F("[MD] SendControlChange CH:"));
Serial.print(channel, DEC); Serial.print(channel, DEC);
@ -882,8 +822,7 @@ FLASHMEM void MD_sendControlChange(uint8_t channel, uint8_t cc, uint8_t value)
/***************************************** /*****************************************
HELPER FUNCTIONS HELPER FUNCTIONS
*****************************************/ *****************************************/
FLASHMEM void setup_midi_devices(void) FLASHMEM void setup_midi_devices(void) {
{
#ifdef MIDI_DEVICE_DIN #ifdef MIDI_DEVICE_DIN
// Start serial MIDI // Start serial MIDI
midi_serial.begin(DEFAULT_MIDI_CHANNEL); midi_serial.begin(DEFAULT_MIDI_CHANNEL);
@ -966,8 +905,7 @@ FLASHMEM void setup_midi_devices(void)
#endif #endif
} }
FLASHMEM void check_midi_devices(void) FLASHMEM void check_midi_devices(void) {
{
#ifdef MIDI_DEVICE_DIN #ifdef MIDI_DEVICE_DIN
midi_serial.read(); midi_serial.read();
#endif #endif
@ -980,82 +918,75 @@ FLASHMEM void check_midi_devices(void)
#endif #endif
} }
FLASHMEM void send_sysex_voice(uint8_t midi_channel, uint8_t* data) FLASHMEM void send_sysex_voice(uint8_t midi_channel, uint8_t *data) {
{
uint8_t checksum = 0; uint8_t checksum = 0;
uint8_t vd[161]; uint8_t vd[161];
// Send SYSEX data also via MIDI // Send SYSEX data also via MIDI
//vd[0] = 0xF0; // SysEx start //vd[0] = 0xF0; // SysEx start
vd[0] = 0x43; // ID=Yamaha vd[0] = 0x43; // ID=Yamaha
vd[1] = midi_channel; // Sub-status and MIDI channel vd[1] = midi_channel; // Sub-status and MIDI channel
vd[2] = 0x00; // Format number (0=1 voice) vd[2] = 0x00; // Format number (0=1 voice)
vd[3] = 0x01; // Byte count MSB vd[3] = 0x01; // Byte count MSB
vd[4] = 0x1B; // Byte count LSB vd[4] = 0x1B; // Byte count LSB
for (uint8_t n = 0; n < 155; n++) for (uint8_t n = 0; n < 155; n++) {
{
checksum -= data[n]; checksum -= data[n];
vd[5 + n] = data[n]; vd[5 + n] = data[n];
} }
vd[160] = checksum & 0x7f; // Checksum vd[160] = checksum & 0x7f; // Checksum
//vd[162] = 0xF7; // SysEx end //vd[162] = 0xF7; // SysEx end
#ifdef MIDI_DEVICE_DIN #ifdef MIDI_DEVICE_DIN
midi_serial.sendSysEx(161, vd); // Send to DIN MIDI midi_serial.sendSysEx(161, vd); // Send to DIN MIDI
#endif #endif
#ifdef MIDI_DEVICE_USB #ifdef MIDI_DEVICE_USB
usbMIDI.sendSysEx(161, vd); // Send to USB MIDI usbMIDI.sendSysEx(161, vd); // Send to USB MIDI
#endif #endif
#ifdef MIDI_DEVICE_USB_HOST #ifdef MIDI_DEVICE_USB_HOST
midi_usb.sendSysEx(161, vd); // Send to USB-HOST MIDI midi_usb.sendSysEx(161, vd); // Send to USB-HOST MIDI
#endif #endif
} }
FLASHMEM void send_sysex_bank(uint8_t midi_channel, uint8_t* bank_data) FLASHMEM void send_sysex_bank(uint8_t midi_channel, uint8_t *bank_data) {
{
#ifdef MIDI_DEVICE_DIN #ifdef MIDI_DEVICE_DIN
midi_serial.sendSysEx(4104, bank_data); // Send to DIN MIDI midi_serial.sendSysEx(4104, bank_data); // Send to DIN MIDI
#endif #endif
#ifdef MIDI_DEVICE_USB #ifdef MIDI_DEVICE_USB
// Sysex bank dump is splitted due to Windows USB driver limitations // Sysex bank dump is splitted due to Windows USB driver limitations
usbMIDI.sendSysEx(2048, bank_data, true); // Send to USB MIDI usbMIDI.sendSysEx(2048, bank_data, true); // Send to USB MIDI
delay(50); delay(50);
usbMIDI.sendSysEx(2048, bank_data+2048, true); usbMIDI.sendSysEx(2048, bank_data + 2048, true);
delay(50); delay(50);
usbMIDI.sendSysEx(8, bank_data+4096, true); usbMIDI.sendSysEx(8, bank_data + 4096, true);
#endif #endif
#ifdef MIDI_DEVICE_USB_HOST #ifdef MIDI_DEVICE_USB_HOST
midi_usb.sendSysEx(4104, bank_data); // Send to USB-HOST MIDI midi_usb.sendSysEx(4104, bank_data); // Send to USB-HOST MIDI
#endif #endif
} }
FLASHMEM void send_sysex_param(uint8_t midi_channel, uint8_t var, uint8_t val, uint8_t param_group) FLASHMEM void send_sysex_param(uint8_t midi_channel, uint8_t var, uint8_t val, uint8_t param_group) {
{
uint8_t s[5]; uint8_t s[5];
s[0] = 0x43; // ID=Yamaha s[0] = 0x43; // ID=Yamaha
s[1] = midi_channel; // Sub-status and MIDI channel s[1] = midi_channel; // Sub-status and MIDI channel
s[2] = (param_group & 5) << 2; // Format number (0=1 voice) s[2] = (param_group & 5) << 2; // Format number (0=1 voice)
if (param_group == 0) if (param_group == 0) {
{
s[2] |= 1; s[2] |= 1;
s[3] = var & 0x7f; s[3] = var & 0x7f;
} } else {
else
{
s[3] = var & 0x7f; s[3] = var & 0x7f;
} }
s[4] = val & 0x7f; s[4] = val & 0x7f;
#ifdef MIDI_DEVICE_DIN #ifdef MIDI_DEVICE_DIN
midi_serial.sendSysEx(5, s); // Send to DIN MIDI midi_serial.sendSysEx(5, s); // Send to DIN MIDI
#endif #endif
#ifdef MIDI_DEVICE_USB #ifdef MIDI_DEVICE_USB
usbMIDI.sendSysEx(5, s); // Send to USB MIDI usbMIDI.sendSysEx(5, s); // Send to USB MIDI
#endif #endif
#ifdef MIDI_DEVICE_USB_HOST #ifdef MIDI_DEVICE_USB_HOST
midi_usb.sendSysEx(5, s); // Send to USB-HOST MIDI midi_usb.sendSysEx(5, s); // Send to USB-HOST MIDI
#endif #endif
} }
#endif // MIDI_DEVICES_H #endif // MIDI_DEVICES_H

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