Adding UI for drum pan and drum reverb send.

dev
Holger Wirtz 2 years ago
parent a23e6ffab2
commit 7c8a806ec5
  1. 2
      MicroDexed.ino
  2. 166
      UI.hpp
  3. 141
      UI_FX_T4.h
  4. 4
      config.h

@ -983,7 +983,7 @@ void handleNoteOn(byte inChannel, byte inNumber, byte inVelocity) {
for (uint8_t d = 0; d < NUM_DRUMSET_CONFIG; d++) { for (uint8_t d = 0; d < NUM_DRUMSET_CONFIG; d++) {
if (inNumber == configuration.drums.midinote[d]) { if (inNumber == configuration.drums.midinote[d]) {
uint8_t slot = drum_get_slot(drum_config[d].drum_class); uint8_t slot = drum_get_slot(drum_config[d].drum_class);
float pan = mapfloat(configuration.drums.pan[d], -127.0, 127.0, 0.0, 1.0); float pan = mapfloat(configuration.drums.pan[d], DRUMS_PANORAMA_MIN, DRUMS_PANORAMA_MAX, 0.0, 1.0);
float reverb_send = configuration.drums.reverb_send[d] / 100.0f; float reverb_send = configuration.drums.reverb_send[d] / 100.0f;
float vol_min = configuration.drums.vol_min[d] / 100.0f; float vol_min = configuration.drums.vol_min[d] / 100.0f;
float vol_max = configuration.drums.vol_max[d] / 100.0f; float vol_max = configuration.drums.vol_max[d] / 100.0f;

166
UI.hpp

@ -340,8 +340,7 @@ void UI_func_epiano_chorus_depth(uint8_t param);
void UI_func_epiano_chorus_level(uint8_t param); void UI_func_epiano_chorus_level(uint8_t param);
void UI_func_drum_midi_channel(uint8_t param); void UI_func_drum_midi_channel(uint8_t param);
void UI_func_drums_main_volume(uint8_t param); void UI_func_drums_main_volume(uint8_t param);
void UI_func_drum_vol_min(uint8_t param); void UI_func_drum_vol_min_max(uint8_t param);
void UI_func_drum_vol_max(uint8_t param);
void UI_func_drum_pan(uint8_t param); void UI_func_drum_pan(uint8_t param);
void UI_func_drum_pitch(uint8_t param); void UI_func_drum_pitch(uint8_t param);
void UI_func_drum_midi_note(uint8_t param); void UI_func_drum_midi_note(uint8_t param);
@ -4003,6 +4002,7 @@ void _check_display_name(bool display_name, uint8_t digits) {
display.print(F("]")); display.print(F("]"));
} }
} }
void UI_func_drum_midi_channel(uint8_t param) { void UI_func_drum_midi_channel(uint8_t param) {
if (LCDML.FUNC_setup()) // ****** SETUP ********* if (LCDML.FUNC_setup()) // ****** SETUP *********
{ {
@ -4042,7 +4042,7 @@ void UI_func_drums_main_volume(uint8_t param) {
if (LCDML.FUNC_setup()) // ****** SETUP ********* if (LCDML.FUNC_setup()) // ****** SETUP *********
{ {
lcd_special_chars(BLOCKBAR); lcd_special_chars(BLOCKBAR);
display_bar_int("DRM Main Vol", configuration.drums.main_vol, 1.0, VOLUME_MIN, VOLUME_MAX, 3, false, false, true); display_bar_int("Main Volume", configuration.drums.main_vol, 1.0, VOLUME_MIN, VOLUME_MAX, 3, false, false, true);
} }
if (LCDML.FUNC_loop()) // ****** LOOP ********* if (LCDML.FUNC_loop()) // ****** LOOP *********
@ -4076,11 +4076,11 @@ void UI_func_drum_pitch(uint8_t param) {
midi_learn_mode = true; midi_learn_mode = true;
memset(tmp_name, ' ', 8); memset(tmp_name, ' ', 8);
tmp_name[8] = '\0';
strncpy(tmp_name, drum_config[active_sample].name, strlen(drum_config[active_sample].name)); strncpy(tmp_name, drum_config[active_sample].name, strlen(drum_config[active_sample].name));
tmp_name[8] = '\0';
display.setCursor(0, 0); display.setCursor(0, 0);
display.print(F("Drums Pitch")); display.print(F("Pitch"));
display.setCursor(1, 1); display.setCursor(1, 1);
display.print(tmp_name); display.print(tmp_name);
display.setCursor(LCD_cols - 5, 1); display.setCursor(LCD_cols - 5, 1);
@ -4119,11 +4119,11 @@ void UI_func_drum_pitch(uint8_t param) {
} }
} }
#ifdef DEBUG #ifdef DEBUG
Serial.printf("Pitch for active_sample=%d [%s]\n", active_sample, drum_config[active_sample].name); Serial.printf("Drum pitch for active_sample=%d [%s]=%d\n", active_sample, drum_config[active_sample].name, configuration.drums.pitch[active_sample]);
#endif #endif
memset(tmp_name, ' ', 8); memset(tmp_name, ' ', 8);
tmp_name[8] = '\0';
strncpy(tmp_name, drum_config[active_sample].name, strlen(drum_config[active_sample].name)); strncpy(tmp_name, drum_config[active_sample].name, strlen(drum_config[active_sample].name));
tmp_name[8] = '\0';
display.setCursor(1, 1); display.setCursor(1, 1);
display.print(tmp_name); display.print(tmp_name);
@ -4141,20 +4141,158 @@ void UI_func_drum_pitch(uint8_t param) {
} }
} }
void UI_func_drum_vol_min(uint8_t param) { void UI_func_drum_vol_min_max(uint8_t param) {
;
}
void UI_func_drum_vol_max(uint8_t param) {
; ;
} }
void UI_func_drum_pan(uint8_t param) { void UI_func_drum_pan(uint8_t param) {
; static bool display_name;
char tmp_val[5];
char tmp_name[9];
if (LCDML.FUNC_setup()) // ****** SETUP *********
{
midi_learn_mode = true;
memset(tmp_name, ' ', 8);
strncpy(tmp_name, drum_config[active_sample].name, strlen(drum_config[active_sample].name));
tmp_name[8] = '\0';
display.setCursor(0, 0);
display.print(F("Panorama"));
display.setCursor(1, 1);
display.print(tmp_name);
display.setCursor(LCD_cols - 5, 1);
snprintf_P(tmp_val, sizeof(tmp_val), PSTR("%4.1f"), configuration.drums.pan[active_sample] / 10.0);
display.print(tmp_val);
_check_display_name(display_name, 4);
}
if (LCDML.FUNC_loop()) // ****** LOOP *********
{
if ((LCDML.BT_checkDown() && encoderDir[ENC_R].Down()) || (LCDML.BT_checkUp() && encoderDir[ENC_R].Up()) || (LCDML.BT_checkEnter() && encoderDir[ENC_R].ButtonShort())) {
if (LCDML.BT_checkDown()) {
if (display_name == true) {
if (active_sample < NUM_DRUMSET_CONFIG - 2) {
active_sample++;
display.setCursor(LCD_cols - 5, 1);
snprintf_P(tmp_val, sizeof(tmp_val), PSTR("%4.1f"), configuration.drums.pan[active_sample] / 10.0);
display.print(tmp_val);
}
} else {
configuration.drums.pan[active_sample] = constrain(configuration.drums.pan[active_sample] + ENCODER[ENC_L].speed(), DRUMS_PANORAMA_MIN, DRUMS_PANORAMA_MAX);
}
} else if (LCDML.BT_checkUp()) {
if (display_name == true) {
if (active_sample > 0) {
active_sample--;
display.setCursor(LCD_cols - 5, 1);
snprintf_P(tmp_val, sizeof(tmp_val), PSTR("%4.1f"), configuration.drums.pan[active_sample] / 10.0);
display.print(tmp_val);
}
} else {
configuration.drums.pan[active_sample] = constrain(configuration.drums.pan[active_sample] - ENCODER[ENC_L].speed(), DRUMS_PANORAMA_MIN, DRUMS_PANORAMA_MAX);
}
} else if (LCDML.BT_checkEnter()) {
display_name = !display_name;
}
}
#ifdef DEBUG
Serial.printf("Drum panorama for active_sample=%d [%s]=%d\n", active_sample, drum_config[active_sample].name, configuration.drums.pan[active_sample]);
#endif
memset(tmp_name, ' ', 8);
strncpy(tmp_name, drum_config[active_sample].name, strlen(drum_config[active_sample].name));
tmp_name[8] = '\0';
display.setCursor(1, 1);
display.print(tmp_name);
display.setCursor(LCD_cols - 5, 1);
snprintf_P(tmp_val, sizeof(tmp_val), PSTR("%4.1f"), configuration.drums.pan[active_sample] / 10.0);
display.print(tmp_val);
_check_display_name(display_name, 4);
}
if (LCDML.FUNC_close()) // ****** STABLE END *********
{
encoderDir[ENC_L].reset();
midi_learn_mode = false;
}
} }
void UI_func_drum_reverb_send(uint8_t param) { void UI_func_drum_reverb_send(uint8_t param) {
; static bool display_name;
char tmp_val[5];
char tmp_name[9];
if (LCDML.FUNC_setup()) // ****** SETUP *********
{
midi_learn_mode = true;
memset(tmp_name, ' ', 8);
strncpy(tmp_name, drum_config[active_sample].name, strlen(drum_config[active_sample].name));
tmp_name[8] = '\0';
display.setCursor(0, 0);
display.print(F("Reverb Send"));
display.setCursor(1, 1);
display.print(tmp_name);
display.setCursor(LCD_cols - 3, 1);
snprintf_P(tmp_val, sizeof(tmp_val), PSTR("%2d"), configuration.drums.reverb_send[active_sample]);
display.print(tmp_val);
_check_display_name(display_name, 2);
}
if (LCDML.FUNC_loop()) // ****** LOOP *********
{
if ((LCDML.BT_checkDown() && encoderDir[ENC_R].Down()) || (LCDML.BT_checkUp() && encoderDir[ENC_R].Up()) || (LCDML.BT_checkEnter() && encoderDir[ENC_R].ButtonShort())) {
if (LCDML.BT_checkDown()) {
if (display_name == true) {
if (active_sample < NUM_DRUMSET_CONFIG - 2) {
active_sample++;
display.setCursor(LCD_cols - 3, 1);
snprintf_P(tmp_val, sizeof(tmp_val), PSTR("%2d"), configuration.drums.reverb_send[active_sample]);
display.print(tmp_val);
}
} else {
configuration.drums.reverb_send[active_sample] = constrain(configuration.drums.reverb_send[active_sample] + ENCODER[ENC_L].speed(), DRUMS_REVERB_SEND_MIN, DRUMS_REVERB_SEND_MAX);
}
} else if (LCDML.BT_checkUp()) {
if (display_name == true) {
if (active_sample > 0) {
active_sample--;
display.setCursor(LCD_cols - 3, 1);
snprintf_P(tmp_val, sizeof(tmp_val), PSTR("%2d"), configuration.drums.reverb_send[active_sample]);
display.print(tmp_val);
}
} else {
configuration.drums.reverb_send[active_sample] = constrain(configuration.drums.reverb_send[active_sample] - ENCODER[ENC_L].speed(), DRUMS_REVERB_SEND_MIN, DRUMS_REVERB_SEND_MAX);
}
} else if (LCDML.BT_checkEnter()) {
display_name = !display_name;
}
}
#ifdef DEBUG
Serial.printf("Reverb send for active_sample=%d [%s]=%d\n", active_sample, drum_config[active_sample].name, configuration.drums.reverb_send[active_sample]);
#endif
memset(tmp_name, ' ', 8);
strncpy(tmp_name, drum_config[active_sample].name, strlen(drum_config[active_sample].name));
tmp_name[8] = '\0';
display.setCursor(1, 1);
display.print(tmp_name);
display.setCursor(LCD_cols - 3, 1);
snprintf_P(tmp_val, sizeof(tmp_val), PSTR("%2d"), configuration.drums.reverb_send[active_sample]);
display.print(tmp_val);
_check_display_name(display_name, 2);
}
if (LCDML.FUNC_close()) // ****** STABLE END *********
{
encoderDir[ENC_L].reset();
midi_learn_mode = false;
}
} }
bool _get_midi_note(uint8_t note) { bool _get_midi_note(uint8_t note) {

@ -88,74 +88,73 @@ LCDML_add(54, LCDML_0_1_6, 2, "Velocity Lvl", UI_func_velocity_level);
LCDML_add(55, LCDML_0_1, 7, "Operator", UI_handle_OP); LCDML_add(55, LCDML_0_1, 7, "Operator", UI_handle_OP);
LCDML_add(56, LCDML_0_1, 8, "Save Voice", UI_func_save_voice); LCDML_add(56, LCDML_0_1, 8, "Save Voice", UI_func_save_voice);
LCDML_add(57, LCDML_0, 2, "Drums", NULL); LCDML_add(57, LCDML_0, 2, "Drums", NULL);
LCDML_add(58, LCDML_0_2, 1, "Drums Main Vol", UI_func_drums_main_volume); LCDML_add(58, LCDML_0_2, 1, "Main Volume", UI_func_drums_main_volume);
LCDML_add(59, LCDML_0_2, 2, "Drum Vol Min", UI_func_drum_vol_min); LCDML_add(59, LCDML_0_2, 2, "Vol Min/Max", UI_func_drum_vol_min_max);
LCDML_add(60, LCDML_0_2, 3, "Drum Vol Max", UI_func_drum_vol_max); LCDML_add(60, LCDML_0_2, 3, "Panorama", UI_func_drum_pan);
LCDML_add(61, LCDML_0_2, 4, "Drum Pan", UI_func_drum_pan); LCDML_add(61, LCDML_0_2, 4, "Reverb Send", UI_func_drum_reverb_send);
LCDML_add(62, LCDML_0_2, 5, "Drum Rev.Send", UI_func_drum_reverb_send); LCDML_add(62, LCDML_0_2, 5, "Pitch", UI_func_drum_pitch);
LCDML_add(63, LCDML_0_2, 6, "Drum Pitch", UI_func_drum_pitch); LCDML_add(63, LCDML_0_2, 6, "MIDI Notes", UI_func_drum_midi_note);
LCDML_add(64, LCDML_0_2, 7, "Drum MIDI Note", UI_func_drum_midi_note); LCDML_add(64, LCDML_0_2, 7, "MIDI Channel", UI_func_drum_midi_channel);
LCDML_add(65, LCDML_0_2, 8, "MIDI Channel", UI_func_drum_midi_channel); LCDML_add(65, LCDML_0, 3, "E-Piano", NULL);
LCDML_add(66, LCDML_0, 3, "E-Piano", NULL); LCDML_add(66, LCDML_0_3, 1, "Voice Level", UI_func_epiano_sound_intensity);
LCDML_add(67, LCDML_0_3, 1, "Voice Level", UI_func_epiano_sound_intensity); LCDML_add(67, LCDML_0_3, 2, "Panorama", UI_func_epiano_panorama);
LCDML_add(68, LCDML_0_3, 2, "Panorama", UI_func_epiano_panorama); LCDML_add(68, LCDML_0_3, 3, "Sound", NULL);
LCDML_add(69, LCDML_0_3, 3, "Sound", NULL); LCDML_add(69, LCDML_0_3_3, 1, "Decay", UI_func_epiano_decay); // uint8_t decay;
LCDML_add(70, LCDML_0_3_3, 1, "Decay", UI_func_epiano_decay); // uint8_t decay; LCDML_add(70, LCDML_0_3_3, 2, "Release", UI_func_epiano_release); // uint8_t release;
LCDML_add(71, LCDML_0_3_3, 2, "Release", UI_func_epiano_release); // uint8_t release; LCDML_add(71, LCDML_0_3_3, 3, "Hardness", UI_func_epiano_hardness); // uint8_t hardness;
LCDML_add(72, LCDML_0_3_3, 3, "Hardness", UI_func_epiano_hardness); // uint8_t hardness; LCDML_add(72, LCDML_0_3_3, 4, "Treble", UI_func_epiano_treble); // uint8_t treble;
LCDML_add(73, LCDML_0_3_3, 4, "Treble", UI_func_epiano_treble); // uint8_t treble; LCDML_add(73, LCDML_0_3_3, 5, "Stereo", UI_func_epiano_stereo); // uint8_t stereo;
LCDML_add(74, LCDML_0_3_3, 5, "Stereo", UI_func_epiano_stereo); // uint8_t stereo; LCDML_add(74, LCDML_0_3_3, 6, "Tune", UI_func_epiano_tune); // uint8_t tune;
LCDML_add(75, LCDML_0_3_3, 6, "Tune", UI_func_epiano_tune); // uint8_t tune; LCDML_add(75, LCDML_0_3_3, 7, "Detune", UI_func_epiano_detune); // uint8_t detune;
LCDML_add(76, LCDML_0_3_3, 7, "Detune", UI_func_epiano_detune); // uint8_t detune; LCDML_add(76, LCDML_0_3, 4, "Effects", NULL);
LCDML_add(77, LCDML_0_3, 4, "Effects", NULL); LCDML_add(77, LCDML_0_3_4, 1, "Overdrive", UI_func_epiano_overdrive); // uint8_t overdrive;
LCDML_add(78, LCDML_0_3_4, 1, "Overdrive", UI_func_epiano_overdrive); // uint8_t overdrive; LCDML_add(78, LCDML_0_3_4, 2, "Tremolo", NULL);
LCDML_add(79, LCDML_0_3_4, 2, "Tremolo", NULL); LCDML_add(79, LCDML_0_3_4_2, 1, "Width", UI_func_epiano_pan_tremolo); // uint8_t pan_tremolo;
LCDML_add(80, LCDML_0_3_4_2, 1, "Width", UI_func_epiano_pan_tremolo); // uint8_t pan_tremolo; LCDML_add(80, LCDML_0_3_4_2, 2, "LFO", UI_func_epiano_pan_lfo); // uint8_t pan_lfo;
LCDML_add(81, LCDML_0_3_4_2, 2, "LFO", UI_func_epiano_pan_lfo); // uint8_t pan_lfo; LCDML_add(81, LCDML_0_3_4, 3, "Chorus", NULL);
LCDML_add(82, LCDML_0_3_4, 3, "Chorus", NULL); LCDML_add(82, LCDML_0_3_4_3, 1, "Frequency", UI_func_epiano_chorus_frequency);
LCDML_add(83, LCDML_0_3_4_3, 1, "Frequency", UI_func_epiano_chorus_frequency); LCDML_add(83, LCDML_0_3_4_3, 2, "Waveform", UI_func_epiano_chorus_waveform);
LCDML_add(84, LCDML_0_3_4_3, 2, "Waveform", UI_func_epiano_chorus_waveform); LCDML_add(84, LCDML_0_3_4_3, 3, "Depth", UI_func_epiano_chorus_depth);
LCDML_add(85, LCDML_0_3_4_3, 3, "Depth", UI_func_epiano_chorus_depth); LCDML_add(85, LCDML_0_3_4_3, 4, "Level", UI_func_epiano_chorus_level);
LCDML_add(86, LCDML_0_3_4_3, 4, "Level", UI_func_epiano_chorus_level); LCDML_add(86, LCDML_0_3_4, 4, "Reverb Send", UI_func_epiano_reverb_send);
LCDML_add(87, LCDML_0_3_4, 4, "Reverb Send", UI_func_epiano_reverb_send); LCDML_add(87, LCDML_0_3, 6, "MIDI", NULL);
LCDML_add(88, LCDML_0_3, 6, "MIDI", NULL); LCDML_add(88, LCDML_0_3_6, 1, "MIDI Channel", UI_func_epiano_midi_channel); // uint8_t midi_channel;
LCDML_add(89, LCDML_0_3_6, 1, "MIDI Channel", UI_func_epiano_midi_channel); // uint8_t midi_channel; LCDML_add(89, LCDML_0_3_6, 2, "Lowest Note", UI_func_epiano_lowest_note); // uint8_t lowest_note;
LCDML_add(90, LCDML_0_3_6, 2, "Lowest Note", UI_func_epiano_lowest_note); // uint8_t lowest_note; LCDML_add(90, LCDML_0_3_6, 3, "Highest Note", UI_func_epiano_highest_note); // uint8_t highest_note;
LCDML_add(91, LCDML_0_3_6, 3, "Highest Note", UI_func_epiano_highest_note); // uint8_t highest_note; LCDML_add(91, LCDML_0_3, 7, "Setup", NULL);
LCDML_add(92, LCDML_0_3, 7, "Setup", NULL); LCDML_add(92, LCDML_0_3_7, 4, "Transpose", UI_func_epiano_transpose); // uint8_t transpose;
LCDML_add(93, LCDML_0_3_7, 4, "Transpose", UI_func_epiano_transpose); // uint8_t transpose; LCDML_add(93, LCDML_0_3_7, 1, "Polyphony", UI_func_epiano_polyphony); // uint8_t polyphony;
LCDML_add(94, LCDML_0_3_7, 1, "Polyphony", UI_func_epiano_polyphony); // uint8_t polyphony; LCDML_add(94, LCDML_0_3_7, 2, "Vel. Sense", UI_func_epiano_velocity_sense); // uint8_t velocity_sense;
LCDML_add(95, LCDML_0_3_7, 2, "Vel. Sense", UI_func_epiano_velocity_sense); // uint8_t velocity_sense; LCDML_add(95, LCDML_0, 4, "Master Effects", NULL);
LCDML_add(96, LCDML_0, 4, "Master Effects", NULL); LCDML_add(96, LCDML_0_4, 1, "Reverb", NULL);
LCDML_add(97, LCDML_0_4, 1, "Reverb", NULL); LCDML_add(97, LCDML_0_4_1, 1, "Roomsize", UI_func_reverb_roomsize);
LCDML_add(98, LCDML_0_4_1, 1, "Roomsize", UI_func_reverb_roomsize); LCDML_add(98, LCDML_0_4_1, 2, "Lowpass", UI_func_reverb_lowpass);
LCDML_add(99, LCDML_0_4_1, 2, "Lowpass", UI_func_reverb_lowpass); LCDML_add(99, LCDML_0_4_1, 3, "Lodamp", UI_func_reverb_lodamp);
LCDML_add(100, LCDML_0_4_1, 3, "Lodamp", UI_func_reverb_lodamp); LCDML_add(100, LCDML_0_4_1, 4, "Hidamp", UI_func_reverb_hidamp);
LCDML_add(101, LCDML_0_4_1, 4, "Hidamp", UI_func_reverb_hidamp); LCDML_add(101, LCDML_0_4_1, 5, "Diffusion", UI_func_reverb_diffusion);
LCDML_add(102, LCDML_0_4_1, 5, "Diffusion", UI_func_reverb_diffusion); LCDML_add(102, LCDML_0_4_1, 6, "Level", UI_func_reverb_level);
LCDML_add(103, LCDML_0_4_1, 6, "Level", UI_func_reverb_level); LCDML_add(103, LCDML_0_4_1, 7, "Reverb Send", UI_func_reverb_send);
LCDML_add(104, LCDML_0_4_1, 7, "Reverb Send", UI_func_reverb_send); LCDML_add(104, LCDML_0_4, 2, "EQ", NULL);
LCDML_add(105, LCDML_0_4, 2, "EQ", NULL); LCDML_add(105, LCDML_0_4_2, 1, "Low-Cut", UI_func_eq_1);
LCDML_add(106, LCDML_0_4_2, 1, "Low-Cut", UI_func_eq_1); LCDML_add(106, LCDML_0_4_2, 2, "110Hz", UI_func_eq_2);
LCDML_add(107, LCDML_0_4_2, 2, "110Hz", UI_func_eq_2); LCDML_add(107, LCDML_0_4_2, 3, "220Hz", UI_func_eq_3);
LCDML_add(108, LCDML_0_4_2, 3, "220Hz", UI_func_eq_3); LCDML_add(108, LCDML_0_4_2, 4, "1000Hz", UI_func_eq_4);
LCDML_add(109, LCDML_0_4_2, 4, "1000Hz", UI_func_eq_4); LCDML_add(109, LCDML_0_4_2, 5, "2000Hz", UI_func_eq_5);
LCDML_add(110, LCDML_0_4_2, 5, "2000Hz", UI_func_eq_5); LCDML_add(110, LCDML_0_4_2, 6, "7000Hz", UI_func_eq_6);
LCDML_add(111, LCDML_0_4_2, 6, "7000Hz", UI_func_eq_6); LCDML_add(111, LCDML_0_4_2, 7, "High-Cut", UI_func_eq_7)
LCDML_add(112, LCDML_0_4_2, 7, "High-Cut", UI_func_eq_7) LCDML_add(112, LCDML_0, 5, "Load/Save", NULL);
LCDML_add(113, LCDML_0, 5, "Load/Save", NULL); LCDML_add(113, LCDML_0_5, 1, "Load Perf.", UI_func_load_performance);
LCDML_add(114, LCDML_0_5, 1, "Load Perf.", UI_func_load_performance); LCDML_add(114, LCDML_0_5, 2, "Save Perf.", UI_func_save_performance);
LCDML_add(115, LCDML_0_5, 2, "Save Perf.", UI_func_save_performance); LCDML_add(115, LCDML_0_5, 3, "Name Perf.", UI_func_set_performance_name);
LCDML_add(116, LCDML_0_5, 3, "Name Perf.", UI_func_set_performance_name); LCDML_add(116, LCDML_0_5, 4, "MIDI", NULL);
LCDML_add(117, LCDML_0_5, 4, "MIDI", NULL); LCDML_add(117, LCDML_0_5_4, 1, "MIDI Recv Bank", UI_func_sysex_receive_bank);
LCDML_add(118, LCDML_0_5_4, 1, "MIDI Recv Bank", UI_func_sysex_receive_bank); LCDML_add(118, LCDML_0_5_4, 2, "MIDI Snd Bank", UI_func_sysex_send_bank);
LCDML_add(119, LCDML_0_5_4, 2, "MIDI Snd Bank", UI_func_sysex_send_bank); LCDML_add(119, LCDML_0_5_4, 3, "MIDI Snd Voice", UI_func_sysex_send_voice);
LCDML_add(120, LCDML_0_5_4, 3, "MIDI Snd Voice", UI_func_sysex_send_voice); LCDML_add(120, LCDML_0, 6, "System", NULL);
LCDML_add(121, LCDML_0, 6, "System", NULL); LCDML_add(121, LCDML_0_6, 1, "Stereo/Mono", UI_func_stereo_mono);
LCDML_add(122, LCDML_0_6, 1, "Stereo/Mono", UI_func_stereo_mono); LCDML_add(122, LCDML_0_6, 2, "MIDI Soft THRU", UI_func_midi_soft_thru);
LCDML_add(123, LCDML_0_6, 2, "MIDI Soft THRU", UI_func_midi_soft_thru); LCDML_add(123, LCDML_0_6, 3, "Favorites", UI_func_favorites);
LCDML_add(124, LCDML_0_6, 3, "Favorites", UI_func_favorites); LCDML_add(124, LCDML_0_6, 4, "Startup", UI_func_startup);
LCDML_add(125, LCDML_0_6, 4, "Startup", UI_func_startup); LCDML_add(125, LCDML_0, 7, "Info", UI_func_information);
LCDML_add(126, LCDML_0, 7, "Info", UI_func_information); LCDML_addAdvanced(126, LCDML_0, 8, COND_hide, "Volume", UI_func_volume, 0, _LCDML_TYPE_default);
LCDML_addAdvanced(127, LCDML_0, 8, COND_hide, "Volume", UI_func_volume, 0, _LCDML_TYPE_default); #define _LCDML_DISP_cnt 126
#define _LCDML_DISP_cnt 127

@ -651,8 +651,8 @@
#define DRUMS_MIDI_NOTE_MIN 21 #define DRUMS_MIDI_NOTE_MIN 21
#define DRUMS_MIDI_NOTE_MAX 108 #define DRUMS_MIDI_NOTE_MAX 108
#define DRUMS_PANORAMA_MIN -50 #define DRUMS_PANORAMA_MIN -10
#define DRUMS_PANORAMA_MAX 50 #define DRUMS_PANORAMA_MAX 10
#define DRUMS_VOL_MIN 0 #define DRUMS_VOL_MIN 0
#define DRUMS_VOL_MAX 99 #define DRUMS_VOL_MAX 99

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