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576 lines
18 KiB
576 lines
18 KiB
/*
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MicroDexed
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MicroDexed is a port of the Dexed sound engine
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(https://github.com/asb2m10/dexed) for the Teensy-3.5/3.6 with audio shield.
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Dexed ist heavily based on https://github.com/google/music-synthesizer-for-android
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(c)2018,2019 H. Wirtz <wirtz@parasitstudio.de>
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This program is free software; you can redistribute it and/or modify
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it under the terms of the GNU General Public License as published by
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the Free Software Foundation; either version 3 of the License, or
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(at your option) any later version.
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This program is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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GNU General Public License for more details.
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You should have received a copy of the GNU General Public License
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along with this program; if not, write to the Free Software Foundation,
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Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
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*/
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#include <Arduino.h>
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#include <limits.h>
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#include "config.h"
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#include "dexed.h"
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#include "dexed_sysex.h"
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#include "UI.h"
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#ifdef I2C_DISPLAY // selecting sounds by encoder, button and display
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elapsedMillis ui_back_to_main;
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void handle_ui(void)
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{
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if (ui_back_to_main >= UI_AUTO_BACK_MS && (ui_state != UI_MAIN && ui_state != UI_EFFECTS_FILTER && ui_state != UI_EFFECTS_DELAY))
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{
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enc[0].write(map(configuration.vol * 100, 0, 100, 0, ENC_VOL_STEPS));
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enc_val[0] = enc[0].read();
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ui_show_main();
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}
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if (autostore >= AUTOSTORE_MS && (ui_main_state == UI_MAIN_VOICE_SELECTED || ui_main_state == UI_MAIN_BANK_SELECTED))
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{
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ui_show_main();
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switch (ui_main_state)
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{
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case UI_MAIN_VOICE_SELECTED:
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ui_main_state = UI_MAIN_VOICE;
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break;
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case UI_MAIN_BANK_SELECTED:
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ui_main_state = UI_MAIN_BANK;
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break;
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}
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}
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for (uint8_t i = 0; i < NUM_ENCODER; i++)
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{
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but[i].update();
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if (but[i].fallingEdge())
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long_button_pressed = 0;
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if (but[i].risingEdge())
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{
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uint32_t button_released = long_button_pressed;
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if (button_released > LONG_BUTTON_PRESS)
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{
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// long pressing of button detected
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#ifdef DEBUG
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Serial.print(F("Long button pressing detected for button "));
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Serial.println(i, DEC);
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#endif
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switch (i)
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{
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case 0: // long press for left button
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break;
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case 1: // long press for right button
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switch (ui_state)
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{
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case UI_MAIN:
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ui_main_state = UI_MAIN_FILTER_RES;
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enc[i].write(effect_filter_resonance);
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enc_val[i] = enc[i].read();
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ui_show_effects_filter();
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break;
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case UI_EFFECTS_FILTER:
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ui_main_state = UI_MAIN_DELAY_TIME;
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enc[i].write(effect_delay_time);
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enc_val[i] = enc[i].read();
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ui_show_effects_delay();
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break;
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case UI_EFFECTS_DELAY:
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ui_main_state = UI_MAIN_VOICE;
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enc[i].write(configuration.voice);
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enc_val[i] = enc[i].read();
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ui_show_main();
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break;
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}
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break;
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}
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}
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else
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{
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// Button pressed
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switch (i)
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{
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case 0: // left button pressed
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switch (ui_state)
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{
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case UI_MAIN:
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enc[i].write(map(configuration.vol * 100, 0, 100, 0, ENC_VOL_STEPS));
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enc_val[i] = enc[i].read();
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ui_show_volume();
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break;
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case UI_VOLUME:
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enc[i].write(configuration.midi_channel);
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enc_val[i] = enc[i].read();
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ui_show_midichannel();
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break;
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case UI_MIDICHANNEL:
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enc[i].write(map(configuration.vol * 100, 0, 100, 0, ENC_VOL_STEPS));
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enc_val[i] = enc[i].read();
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ui_show_main();
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break;
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}
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break;
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case 1: // right button pressed
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switch (ui_state)
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{
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case UI_MAIN:
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switch (ui_main_state)
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{
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case UI_MAIN_BANK:
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case UI_MAIN_BANK_SELECTED:
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ui_main_state = UI_MAIN_VOICE;
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enc[i].write(configuration.voice);
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enc_val[i] = enc[i].read();
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break;
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case UI_MAIN_VOICE:
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case UI_MAIN_VOICE_SELECTED:
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ui_main_state = UI_MAIN_BANK;
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enc[i].write(configuration.bank);
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enc_val[i] = enc[i].read();
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break;
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}
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ui_show_main();
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break;
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case UI_EFFECTS_FILTER:
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case UI_EFFECTS_DELAY:
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switch (ui_main_state)
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{
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case UI_MAIN_FILTER_RES:
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ui_main_state = UI_MAIN_FILTER_CUT;
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enc[i].write(effect_filter_cutoff);
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enc_val[i] = enc[i].read();
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ui_show_effects_filter();
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break;
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case UI_MAIN_FILTER_CUT:
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ui_main_state = UI_MAIN_FILTER_RES;
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enc[i].write(effect_filter_resonance);
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enc_val[i] = enc[i].read();
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ui_show_effects_filter();
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break;
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case UI_MAIN_DELAY_TIME:
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ui_main_state = UI_MAIN_DELAY_FEEDBACK;
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enc[i].write(effect_delay_feedback);
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enc_val[i] = enc[i].read();
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ui_show_effects_delay();
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break;
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case UI_MAIN_DELAY_VOLUME:
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ui_main_state = UI_MAIN_DELAY_TIME;
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enc[i].write(effect_delay_time);
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enc_val[i] = enc[i].read();
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ui_show_effects_delay();
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break;
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case UI_MAIN_DELAY_FEEDBACK:
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ui_main_state = UI_MAIN_DELAY_VOLUME;
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enc[i].write(effect_delay_volume);
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enc_val[i] = enc[i].read();
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ui_show_effects_delay();
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break;
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}
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break;
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}
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}
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}
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#ifdef DEBUG
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Serial.print(F("Button "));
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Serial.println(i, DEC);
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#endif
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}
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if (enc[i].read() == enc_val[i])
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continue;
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else
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{
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switch (i)
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{
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case 0: // left encoder moved
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float tmp;
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switch (ui_state)
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{
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case UI_MAIN:
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case UI_VOLUME:
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if (enc[i].read() <= 0)
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enc[i].write(0);
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else if (enc[i].read() >= ENC_VOL_STEPS)
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enc[i].write(ENC_VOL_STEPS);
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//set_volume(float(map(enc[i].read(), 0, ENC_VOL_STEPS, 0, 100)) / 100, configuration.pan);
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tmp = (float(map(enc[i].read(), 0, ENC_VOL_STEPS, 0, 100)) / 100) - configuration.vol;
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soften_volume.diff = tmp / SOFTEN_VALUE_CHANGE_STEPS;
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soften_volume.steps = SOFTEN_VALUE_CHANGE_STEPS;
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#ifdef DEBUG
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Serial.print(F("Setting soften volume from: "));
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Serial.print(configuration.vol, 5);
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Serial.print(F(" Volume step: "));
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Serial.print(soften_volume.steps);
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Serial.print(F(" Volume diff: "));
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Serial.println(soften_volume.diff, 5);
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#endif
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eeprom_write();
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ui_show_volume();
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break;
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case UI_MIDICHANNEL:
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if (enc[i].read() <= 0)
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enc[i].write(0);
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else if (enc[i].read() >= 16)
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enc[i].write(16);
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configuration.midi_channel = enc[i].read();
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eeprom_write();
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ui_show_midichannel();
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break;
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}
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break;
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case 1: // right encoder moved
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switch (ui_state)
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{
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case UI_VOLUME:
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ui_state = UI_MAIN;
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lcd.clear();
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enc[1].write(configuration.voice);
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ui_show_main();
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break;
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case UI_MAIN:
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switch (ui_main_state)
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{
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case UI_MAIN_BANK:
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ui_main_state = UI_MAIN_BANK_SELECTED;
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case UI_MAIN_BANK_SELECTED:
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if (enc[i].read() <= 0)
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enc[i].write(0);
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else if (enc[i].read() > max_loaded_banks - 1)
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enc[i].write(max_loaded_banks - 1);
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configuration.bank = enc[i].read();
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get_voice_names_from_bank(configuration.bank);
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load_sysex(configuration.bank, configuration.voice);
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eeprom_write();
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break;
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case UI_MAIN_VOICE:
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ui_main_state = UI_MAIN_VOICE_SELECTED;
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case UI_MAIN_VOICE_SELECTED:
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if (enc[i].read() <= 0)
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{
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if (configuration.bank > 0)
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{
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enc[i].write(MAX_VOICES - 1);
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configuration.bank--;
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get_voice_names_from_bank(configuration.bank);
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}
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else
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enc[i].write(0);
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}
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else if (enc[i].read() > MAX_VOICES - 1)
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{
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if (configuration.bank < MAX_BANKS - 1)
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{
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enc[i].write(0);
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configuration.bank++;
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get_voice_names_from_bank(configuration.bank);
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}
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else
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enc[i].write(MAX_VOICES - 1);
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}
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configuration.voice = enc[i].read();
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load_sysex(configuration.bank, configuration.voice);
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eeprom_write();
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break;
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}
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ui_show_main();
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break;
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case UI_EFFECTS_FILTER:
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switch (ui_main_state)
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{
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case UI_MAIN_FILTER_RES:
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if (enc[i].read() <= 0)
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enc[i].write(0);
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else if (enc[i].read() > ENC_FILTER_RES_STEPS)
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enc[i].write(ENC_FILTER_RES_STEPS);
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effect_filter_resonance = enc[i].read();
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dexed->fx.Reso = 1.0 - float(effect_filter_resonance) / ENC_FILTER_RES_STEPS;
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#ifdef DEBUG
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Serial.print(F("Setting filter resonance to: "));
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Serial.println(1.0 - float(effect_filter_resonance) / ENC_FILTER_RES_STEPS, 5);
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#endif
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break;
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case UI_MAIN_FILTER_CUT:
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if (enc[i].read() <= 0)
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enc[i].write(0);
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else if (enc[i].read() > ENC_FILTER_CUT_STEPS)
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enc[i].write(ENC_FILTER_CUT_STEPS);
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effect_filter_cutoff = enc[i].read();
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dexed->fx.Cutoff = 1.0 - float(effect_filter_cutoff) / ENC_FILTER_CUT_STEPS;
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#ifdef DEBUG
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Serial.print(F("Setting filter cutoff to: "));
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Serial.println(1.0 - float(effect_filter_cutoff) / ENC_FILTER_CUT_STEPS, 5);
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#endif
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break;
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}
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ui_show_effects_filter();
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break;
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case UI_EFFECTS_DELAY:
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switch (ui_main_state)
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{
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case UI_MAIN_DELAY_TIME:
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if (enc[i].read() <= 0)
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enc[i].write(0);
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else if (enc[i].read() > ENC_DELAY_TIME_STEPS)
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enc[i].write(ENC_DELAY_TIME_STEPS);
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effect_delay_time = enc[i].read();;
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delay1.delay(0, mapfloat(effect_delay_time, 0, ENC_DELAY_TIME_STEPS, 0.0, DELAY_MAX_TIME));
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#ifdef DEBUG
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Serial.print(F("Setting delay time to: "));
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Serial.println(map(effect_delay_time, 0, ENC_DELAY_TIME_STEPS, 0, DELAY_MAX_TIME));
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#endif
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break;
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case UI_MAIN_DELAY_FEEDBACK:
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if (enc[i].read() <= 0)
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enc[i].write(0);
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else if (enc[i].read() > ENC_DELAY_FB_STEPS)
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enc[i].write(ENC_DELAY_FB_STEPS);
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effect_delay_feedback = enc[i].read();
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mixer1.gain(1, mapfloat(float(effect_delay_feedback), 0, ENC_DELAY_FB_STEPS, 0.0, 1.0));
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#ifdef DEBUG
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Serial.print(F("Setting delay feedback to: "));
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Serial.println(mapfloat(float(effect_delay_feedback), 0, ENC_DELAY_FB_STEPS, 0.0, 1.0));
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#endif
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break;
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case UI_MAIN_DELAY_VOLUME:
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if (enc[i].read() <= 0)
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enc[i].write(0);
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else if (enc[i].read() > ENC_DELAY_VOLUME_STEPS)
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enc[i].write(ENC_DELAY_VOLUME_STEPS);
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effect_delay_volume = enc[i].read();
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float tmp_vol = mapfloat(effect_delay_volume, 0, ENC_DELAY_VOLUME_STEPS, 0.0, 1.0);
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//mixer2.gain(0, 1.0 - mapfloat(effect_delay_volume, 0, ENC_DELAY_VOLUME_STEPS, 0.0, 1.0)); // delay tap1 signal (with added feedback)
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mixer2.gain(0, 1.0 - tmp_vol); // delay tap1 signal (with added feedback)
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mixer2.gain(1, tmp_vol); // delay tap1 signal (with added feedback)
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mixer2.gain(2, tmp_vol); // delay tap1 signal
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#ifdef DEBUG
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Serial.print(F("Setting delay volume to: "));
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Serial.println(effect_delay_volume);
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#endif
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break;
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}
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ui_show_effects_delay();
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break;
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}
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break;
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}
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#ifdef DEBUG
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Serial.print(F("Encoder "));
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Serial.print(i, DEC);
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Serial.print(F(": "));
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Serial.println(enc[i].read(), DEC);
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#endif
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}
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enc_val[i] = enc[i].read();
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}
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}
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void ui_show_main(void)
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{
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if (ui_state != UI_MAIN)
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{
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lcd.clear();
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}
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lcd.show(0, 0, 2, configuration.bank);
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lcd.show(0, 2, 1, " ");
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strip_extension(bank_names[configuration.bank], bank_name);
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if (ui_main_state == UI_MAIN_BANK || ui_main_state == UI_MAIN_BANK_SELECTED)
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{
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lcd.show(0, 2, 1, "[");
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lcd.show(0, 3, 8, bank_name);
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lcd.show(0, 11, 1, "]");
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}
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else
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{
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lcd.show(0, 2, 1, " ");
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lcd.show(0, 3, 8, bank_name);
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lcd.show(0, 11, 1, " ");
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}
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lcd.show(1, 0, 2, configuration.voice + 1);
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lcd.show(1, 2, 1, " ");
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if (ui_main_state == UI_MAIN_VOICE || ui_main_state == UI_MAIN_VOICE_SELECTED)
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{
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lcd.show(1, 2, 1, "[");
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lcd.show(1, 3, 10, voice_names[configuration.voice]);
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lcd.show(1, 14, 1, "]");
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}
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else
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{
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lcd.show(1, 2, 1, " ");
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lcd.show(1, 3, 10, voice_names[configuration.voice]);
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lcd.show(1, 14, 1, " ");
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}
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ui_state = UI_MAIN;
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}
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void ui_show_volume(void)
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{
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uint8_t pos;
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static uint8_t old_pos;
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ui_back_to_main = 0;
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// erase old marker and show new marker
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pos = map(configuration.vol * 100, 0, 100, 0, LCD_CHARS);
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if (ui_state != UI_VOLUME)
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{
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lcd.clear();
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lcd.show(0, 0, LCD_CHARS, "Volume");
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lcd.show(1, pos, 1, "*");
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old_pos = pos;
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}
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// show value
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lcd.show(0, LCD_CHARS - 3, 3, configuration.vol * 100);
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if (pos != old_pos)
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{
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lcd.show(1, pos, 1, "*");
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lcd.show(1, old_pos, 1, " ");
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old_pos=pos;
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}
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ui_state = UI_VOLUME;
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}
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void ui_show_midichannel(void)
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{
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ui_back_to_main = 0;
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if (ui_state != UI_MIDICHANNEL)
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{
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lcd.clear();
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lcd.show(0, 0, LCD_CHARS, "MIDI Channel");
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}
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if (configuration.midi_channel == MIDI_CHANNEL_OMNI)
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lcd.show(1, 0, 4, "OMNI");
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else
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{
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lcd.show(1, 0, 2, configuration.midi_channel);
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if (configuration.midi_channel == 1)
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lcd.show(1, 2, 2, " ");
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}
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ui_state = UI_MIDICHANNEL;
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}
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void ui_show_effects_filter(void)
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{
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if (ui_state != UI_EFFECTS_FILTER)
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{
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lcd.clear();
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lcd.show(0, 0, LCD_CHARS, "Filter");
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lcd.show(1, 0, 4, "Res:");
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lcd.show(1, 8, 4, "Cut:");
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}
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lcd.show(1, 5, 2, map(effect_filter_resonance, 0, ENC_FILTER_RES_STEPS, 0, 99));
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lcd.show(1, 13, 2, map(effect_filter_cutoff, 0, ENC_FILTER_CUT_STEPS, 0, 99));
|
|
|
|
if (ui_main_state == UI_MAIN_FILTER_RES)
|
|
{
|
|
lcd.show(1, 4, 1, "[");
|
|
lcd.show(1, 7, 1, "]");
|
|
}
|
|
else
|
|
{
|
|
lcd.show(1, 4, 1, " ");
|
|
lcd.show(1, 7, 1, " ");
|
|
}
|
|
|
|
if (ui_main_state == UI_MAIN_FILTER_CUT)
|
|
{
|
|
lcd.show(1, 12, 1, "[");
|
|
lcd.show(1, 15, 1, "]");
|
|
}
|
|
else
|
|
{
|
|
lcd.show(1, 12, 1, " ");
|
|
lcd.show(1, 15, 1, " ");
|
|
}
|
|
|
|
ui_state = UI_EFFECTS_FILTER;
|
|
}
|
|
|
|
void ui_show_effects_delay(void)
|
|
{
|
|
if (ui_state != UI_EFFECTS_DELAY)
|
|
{
|
|
lcd.clear();
|
|
lcd.show(0, 0, 5, "Delay");
|
|
lcd.show(0, 6, 2, "T:");
|
|
lcd.show(0, 14, 2, "ms");
|
|
lcd.show(1, 0, 3, "FB:");
|
|
lcd.show(1, 8, 5, "Vol:");
|
|
}
|
|
|
|
lcd.show(0, 9, 4, map(effect_delay_time, 0, ENC_DELAY_TIME_STEPS, 0, DELAY_MAX_TIME));
|
|
lcd.show(1, 4, 2, map(effect_delay_feedback, 0, ENC_DELAY_FB_STEPS, 0, 99));
|
|
lcd.show(1, 13, 2, map(effect_delay_volume, 0, ENC_DELAY_VOLUME_STEPS, 0, 99));
|
|
|
|
if (ui_main_state == UI_MAIN_DELAY_TIME)
|
|
{
|
|
lcd.show(0, 8, 1, "[");
|
|
lcd.show(0, 13, 1, "]");
|
|
}
|
|
else
|
|
{
|
|
lcd.show(0, 8, 1, " ");
|
|
lcd.show(0, 13, 1, " ");
|
|
}
|
|
|
|
if (ui_main_state == UI_MAIN_DELAY_FEEDBACK)
|
|
{
|
|
lcd.show(1, 3, 1, "[");
|
|
lcd.show(1, 6, 1, "]");
|
|
}
|
|
else
|
|
{
|
|
lcd.show(1, 3, 1, " ");
|
|
lcd.show(1, 6, 1, " ");
|
|
}
|
|
|
|
if (ui_main_state == UI_MAIN_DELAY_VOLUME)
|
|
{
|
|
lcd.show(1, 12, 1, "[");
|
|
lcd.show(1, 15, 1, "]");
|
|
}
|
|
else
|
|
{
|
|
lcd.show(1, 12, 1, " ");
|
|
lcd.show(1, 15, 1, " ");
|
|
}
|
|
|
|
ui_state = UI_EFFECTS_DELAY;
|
|
}
|
|
|
|
float mapfloat(float val, float in_min, float in_max, float out_min, float out_max)
|
|
{
|
|
return (val - in_min) * (out_max - out_min) / (in_max - in_min) + out_min;
|
|
}
|
|
#endif
|
|
|