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@ -84,8 +84,8 @@ void handle_ui(void) |
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switch (ui_state) |
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switch (ui_state) |
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{ |
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{ |
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case UI_MAIN: |
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case UI_MAIN: |
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ui_main_state = UI_MAIN_FILTER_FRQ; |
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ui_main_state = UI_MAIN_FILTER_RES; |
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enc[i].write(effect_filter_frq); |
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enc[i].write(effect_filter_resonance); |
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enc_val[i] = enc[i].read(); |
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enc_val[i] = enc[i].read(); |
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ui_show_effects_filter(); |
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ui_show_effects_filter(); |
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break; |
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break; |
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@ -155,21 +155,15 @@ void handle_ui(void) |
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case UI_EFFECTS_DELAY: |
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case UI_EFFECTS_DELAY: |
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switch (ui_main_state) |
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switch (ui_main_state) |
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{ |
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{ |
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case UI_MAIN_FILTER_FRQ: |
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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_FILTER_RES: |
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case UI_MAIN_FILTER_RES: |
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ui_main_state = UI_MAIN_FILTER_OCT; |
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ui_main_state = UI_MAIN_FILTER_CUT; |
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enc[i].write(effect_filter_octave); |
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enc[i].write(effect_filter_cutoff); |
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enc_val[i] = enc[i].read(); |
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enc_val[i] = enc[i].read(); |
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ui_show_effects_filter(); |
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ui_show_effects_filter(); |
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break; |
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break; |
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case UI_MAIN_FILTER_OCT: |
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case UI_MAIN_FILTER_CUT: |
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ui_main_state = UI_MAIN_FILTER_FRQ; |
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ui_main_state = UI_MAIN_FILTER_RES; |
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enc[i].write(effect_filter_frq); |
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enc[i].write(effect_filter_resonance); |
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enc_val[i] = enc[i].read(); |
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enc_val[i] = enc[i].read(); |
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ui_show_effects_filter(); |
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ui_show_effects_filter(); |
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break; |
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break; |
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@ -291,61 +285,29 @@ void handle_ui(void) |
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case UI_EFFECTS_FILTER: |
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case UI_EFFECTS_FILTER: |
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switch (ui_main_state) |
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switch (ui_main_state) |
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{ |
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{ |
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case UI_MAIN_FILTER_FRQ: |
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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_FRQ_STEPS) |
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enc[i].write(ENC_FILTER_FRQ_STEPS); |
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effect_filter_frq = enc[i].read(); |
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/*
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if (effect_filter_frq == ENC_FILTER_FRQ_STEPS) |
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{ |
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// turn "off" filter
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mixer1.gain(0, 0.0); // filtered signal off
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mixer1.gain(3, 1.0); // original signal on
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} |
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else |
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{ |
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// turn "on" filter
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mixer1.gain(0, 1.0); // filtered signal on
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mixer1.gain(3, 0.0); // original signal off
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} |
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filter1.frequency(EXP_FUNC((float)map(effect_filter_frq, 0, ENC_FILTER_FRQ_STEPS, 0, 1024) / 150.0) * 10.0 + 80.0); |
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#ifdef DEBUG |
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Serial.print(F("Setting filter frequency to: ")); |
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Serial.println(EXP_FUNC((float)map(effect_filter_frq, 0, ENC_FILTER_FRQ_STEPS, 0, 1024) / 150.0) * 10.0 + 80.0, DEC); |
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#endif |
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*/ |
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break; |
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case UI_MAIN_FILTER_RES: |
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case UI_MAIN_FILTER_RES: |
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if (enc[i].read() <= 0) |
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if (enc[i].read() <= 0) |
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enc[i].write(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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else if (enc[i].read() > ENC_FILTER_RES_STEPS) |
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enc[i].write(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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effect_filter_resonance = enc[i].read(); |
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/*
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dexed->fx.Reso = 1.0 - float(effect_filter_resonance) / ENC_FILTER_RES_STEPS; |
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//filter1.resonance(mapfloat(effect_filter_resonance, 0, ENC_FILTER_RES_STEPS, 0.7, 5.0));
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filter1.resonance(EXP_FUNC(mapfloat(effect_filter_resonance, 0, ENC_FILTER_RES_STEPS, 0.7, 5.0)) * 0.044 + 0.61); |
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#ifdef DEBUG |
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#ifdef DEBUG |
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Serial.print(F("Setting filter resonance to: ")); |
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Serial.print(F("Setting filter resonance to: ")); |
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Serial.println(EXP_FUNC(mapfloat(effect_filter_resonance, 0, ENC_FILTER_RES_STEPS, 0.7, 5.0)) * 0.044 + 0.61, 2); |
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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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#endif |
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*/ |
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break; |
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break; |
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case UI_MAIN_FILTER_OCT: |
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case UI_MAIN_FILTER_CUT: |
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if (enc[i].read() <= 0) |
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if (enc[i].read() <= 0) |
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enc[i].write(0); |
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enc[i].write(0); |
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else if (enc[i].read() > ENC_FILTER_OCT_STEPS) |
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else if (enc[i].read() > ENC_FILTER_CUT_STEPS) |
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enc[i].write(ENC_FILTER_OCT_STEPS); |
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enc[i].write(ENC_FILTER_CUT_STEPS); |
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effect_filter_octave = enc[i].read(); |
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effect_filter_cutoff = enc[i].read(); |
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/*
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dexed->fx.Cutoff = 1.0 - float(effect_filter_cutoff) / ENC_FILTER_CUT_STEPS; |
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filter1.octaveControl(mapfloat(effect_filter_octave, 0, ENC_FILTER_OCT_STEPS, 0.0, 7.0)); |
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#ifdef DEBUG |
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#ifdef DEBUG |
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Serial.print(F("Setting filter octave control to: ")); |
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Serial.print(F("Setting filter cutoff to: ")); |
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Serial.println(mapfloat(effect_filter_octave, 0, ENC_FILTER_OCT_STEPS, 0.0, 7.0), 2); |
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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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#endif |
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*/ |
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break; |
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break; |
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} |
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} |
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ui_show_effects_filter(); |
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ui_show_effects_filter(); |
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@ -509,32 +471,12 @@ void ui_show_effects_filter(void) |
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{ |
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{ |
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lcd.clear(); |
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lcd.clear(); |
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lcd.show(0, 0, LCD_CHARS, "Filter"); |
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lcd.show(0, 0, LCD_CHARS, "Filter"); |
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lcd.show(0, 7, 2, "F:"); |
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lcd.show(1, 0, 4, "Res:"); |
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lcd.show(1, 0, 4, "Res:"); |
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lcd.show(1, 8, 4, "Oct:"); |
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lcd.show(1, 8, 4, "Cut:"); |
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} |
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} |
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if (effect_filter_frq == ENC_FILTER_FRQ_STEPS) |
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{ |
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lcd.show(0, 10, 4, "OFF "); |
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} |
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else |
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{ |
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lcd.show(0, 10, 4, uint16_t(EXP_FUNC((float)map(effect_filter_frq, 0, ENC_FILTER_FRQ_STEPS, 0, 1024) / 150.0) * 10.0 + 80.5)); |
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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, 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_octave, 0, ENC_FILTER_OCT_STEPS, 0, 80)); |
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lcd.show(1, 13, 2, map(effect_filter_cutoff, 0, ENC_FILTER_CUT_STEPS, 0, 99)); |
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if (ui_main_state == UI_MAIN_FILTER_FRQ) |
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{ |
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lcd.show(0, 9, 1, "["); |
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lcd.show(0, 14, 1, "]"); |
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} |
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else |
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{ |
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lcd.show(0, 9, 1, " "); |
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lcd.show(0, 14, 1, " "); |
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} |
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if (ui_main_state == UI_MAIN_FILTER_RES) |
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if (ui_main_state == UI_MAIN_FILTER_RES) |
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{ |
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{ |
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@ -547,7 +489,7 @@ void ui_show_effects_filter(void) |
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lcd.show(1, 7, 1, " "); |
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lcd.show(1, 7, 1, " "); |
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} |
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} |
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if (ui_main_state == UI_MAIN_FILTER_OCT) |
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if (ui_main_state == UI_MAIN_FILTER_CUT) |
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{ |
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{ |
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lcd.show(1, 12, 1, "["); |
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lcd.show(1, 12, 1, "["); |
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lcd.show(1, 15, 1, "]"); |
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lcd.show(1, 15, 1, "]"); |
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