/*
MicroDexed
MicroDexed is a port of the Dexed sound engine
( https : //github.com/asb2m10/dexed) for the Teensy-3.5/3.6/4.x with audio shield.
Dexed ist heavily based on https : //github.com/google/music-synthesizer-for-android
( c ) 2018 - 2020 H . Wirtz < wirtz @ parasitstudio . de >
This program is free software ; you can redistribute it and / or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation ; either version 3 of the License , or
( at your option ) any later version .
This program is distributed in the hope that it will be useful ,
but WITHOUT ANY WARRANTY ; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE . See the
GNU General Public License for more details .
You should have received a copy of the GNU General Public License
along with this program ; if not , write to the Free Software Foundation ,
Inc . , 51 Franklin Street , Fifth Floor , Boston , MA 02110 - 1301 USA
*/
# ifdef ENABLE_LCD_UI
# ifndef _UI_HPP_
# define _UI_HPP_
# include "config.h"
# include "Disp_Plus.h"
# include "effect_modulated_delay.h"
# include "effect_stereo_mono.h"
# include "dexed.h"
# include <LCDMenuLib2.h>
//#include <Encoder.h>
# include <MD_REncoder.h>
# define _LCDML_DISP_cols LCD_cols
# define _LCDML_DISP_rows LCD_rows
# ifdef I2C_DISPLAY
# define _LCDML_DISP_cfg_cursor 0x7E // cursor Symbol
# else
# define _LCDML_DISP_cfg_cursor 0x8d // cursor Symbol
# endif
# define _LCDML_DISP_cfg_scrollbar 1 // enable a scrollbar
extern config_t configuration ;
extern void set_volume ( uint8_t v , uint8_t m ) ;
extern bool load_sysex ( uint8_t b , uint8_t v ) ;
extern void generate_version_string ( char * buffer , uint8_t len ) ;
extern void initial_values_from_eeprom ( bool init ) ;
extern void _softRestart ( void ) ;
extern void eeprom_update_sys ( void ) ;
extern void eeprom_update_performance ( void ) ;
extern void eeprom_update_fx ( void ) ;
extern void eeprom_update_dexed ( uint8_t instance_id ) ;
extern float pseudo_log_curve ( float value ) ;
extern uint8_t selected_instance_id ;
# ifdef DISPLAY_LCD_SPI
extern void change_disp_sd ( bool d ) ;
# endif
extern AudioSourceMicroDexed * MicroDexed [ NUM_DEXED ] ;
# if defined(USE_FX)
extern AudioSynthWaveform * chorus_modulator [ NUM_DEXED ] ;
extern AudioEffectModulatedDelay * modchorus [ NUM_DEXED ] ;
extern AudioMixer4 * chorus_mixer [ NUM_DEXED ] ;
extern AudioMixer4 * delay_fb_mixer [ NUM_DEXED ] ;
extern AudioEffectDelay * delay_fx [ NUM_DEXED ] ;
extern AudioMixer4 * delay_mixer [ NUM_DEXED ] ;
# endif
extern AudioEffectMonoStereo * mono2stereo [ NUM_DEXED ] ;
extern AudioMixer4 microdexed_peak_mixer ;
extern AudioAnalyzePeak microdexed_peak ;
# if defined(USE_FX)
extern AudioMixer4 reverb_mixer_r ;
extern AudioMixer4 reverb_mixer_l ;
extern AudioEffectFreeverb freeverb_r ;
extern AudioEffectFreeverb freeverb_l ;
# endif
extern AudioMixer4 master_mixer_r ;
extern AudioMixer4 master_mixer_l ;
extern AudioEffectStereoMono stereo2mono ;
extern AudioAnalyzePeak master_peak_r ;
extern AudioAnalyzePeak master_peak_l ;
extern char sd_string [ LCD_cols + 1 ] ;
extern char g_voice_name [ NUM_DEXED ] [ VOICE_NAME_LEN ] ;
extern char g_bank_name [ NUM_DEXED ] [ BANK_NAME_LEN ] ;
/***********************************************************************
GLOBAL
* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */
elapsedMillis back_from_volume ;
uint8_t instance_num [ 8 ] [ 8 ] ;
# ifdef I2C_DISPLAY
# include <LiquidCrystal_I2C.h>
Disp_Plus < LiquidCrystal_I2C > lcd ( LCD_I2C_ADDRESS , _LCDML_DISP_cols , _LCDML_DISP_rows ) ;
# endif
# ifdef U8X8_DISPLAY
# include <U8x8lib.h>
# ifdef U8X8_HAVE_HW_SPI
# include <SPI.h>
# endif
# ifdef U8X8_HAVE_HW_I2C
# include <Wire.h>
# endif
Disp_Plus < U8X8_DISPLAY_CLASS > lcd ( /* cs=*/ U8X8_CS_PIN , /* dc=*/ U8X8_DC_PIN , /* reset=*/ U8X8_RESET_PIN ) ;
//Disp_Plus<U8X8_DISPLAY_CLASS> lcd(U8X8_PIN_NONE);
# endif
const uint8_t scroll_bar [ 5 ] [ 8 ] = {
{ B10001 , B10001 , B10001 , B10001 , B10001 , B10001 , B10001 , B10001 } , // scrollbar top
{ B11111 , B11111 , B10001 , B10001 , B10001 , B10001 , B10001 , B10001 } , // scroll state 1
{ B10001 , B10001 , B11111 , B11111 , B10001 , B10001 , B10001 , B10001 } , // scroll state 2
{ B10001 , B10001 , B10001 , B10001 , B11111 , B11111 , B10001 , B10001 } , // scroll state 3
{ B10001 , B10001 , B10001 , B10001 , B10001 , B10001 , B11111 , B11111 } // scrollbar bottom
} ;
const uint8_t block_bar [ 5 ] [ 8 ] = {
{ B10000 , B10000 , B10000 , B10000 , B10000 , B10000 , B10000 , B10000 } ,
{ B11000 , B11000 , B11000 , B11000 , B11000 , B11000 , B11000 , B11000 } ,
{ B11100 , B11100 , B11100 , B11100 , B11100 , B11100 , B11100 , B11100 } ,
{ B11110 , B11110 , B11110 , B11110 , B11110 , B11110 , B11110 , B11110 } ,
{ B11111 , B11111 , B11111 , B11111 , B11111 , B11111 , B11111 , B11111 }
} ;
const uint8_t meter_bar [ 5 ] [ 8 ] = {
{ B10000 , B10000 , B10000 , B10000 , B10000 , B10000 , B10000 , B10000 } ,
{ B01000 , B01000 , B01000 , B01000 , B01000 , B01000 , B01000 , B01000 } ,
{ B00100 , B00100 , B00100 , B00100 , B00100 , B00100 , B00100 , B00100 } ,
{ B00010 , B00010 , B00010 , B00010 , B00010 , B00010 , B00010 , B00010 } ,
{ B00001 , B00001 , B00001 , B00001 , B00001 , B00001 , B00001 , B00001 }
} ;
/*
const uint8_t block_bar [ 5 ] [ 8 ] = {
{ B00000 , B10000 , B10000 , B10000 , B10000 , B10000 , B10000 , B00000 } ,
{ B00000 , B11000 , B11000 , B11000 , B11000 , B11000 , B11000 , B00000 } ,
{ B00000 , B11100 , B11100 , B11100 , B11100 , B11100 , B11100 , B00000 } ,
{ B00000 , B11110 , B11110 , B11110 , B11110 , B11110 , B11110 , B00000 } ,
{ B00000 , B11111 , B11111 , B11111 , B11111 , B11111 , B11111 , B00000 }
} ;
const uint8_t meter_bar [ 5 ] [ 8 ] = {
{ B00000 , B10000 , B10000 , B10000 , B10000 , B10000 , B10000 , B00000 } ,
{ B00000 , B01000 , B01000 , B01000 , B01000 , B01000 , B01000 , B00000 } ,
{ B00000 , B00100 , B00100 , B00100 , B00100 , B00100 , B00100 , B00000 } ,
{ B00000 , B00010 , B00010 , B00010 , B00010 , B00010 , B00010 , B00000 } ,
{ B00000 , B00001 , B00001 , B00001 , B00001 , B00001 , B00001 , B00000 }
} ;
*/
const uint8_t special_chars [ 18 ] [ 8 ] = {
{ B11111 , B11011 , B10011 , B11011 , B11011 , B11011 , B11011 , B11111 } , // [0] 1 small invers
{ B11111 , B11011 , B10101 , B11101 , B11011 , B10111 , B10001 , B11111 } , // [1] 2 small invers
{ B11111 , B11011 , B10011 , B11011 , B11011 , B11011 , B11011 , B11111 } , // [2] 1 OP invers
{ B11111 , B11011 , B10101 , B11101 , B11011 , B10111 , B10001 , B11111 } , // [3] 2 OP invers
{ B11111 , B10001 , B11101 , B11011 , B11101 , B10101 , B11011 , B11111 } , // [4] 3 OP invers
{ B11111 , B10111 , B10111 , B10101 , B10001 , B11101 , B11101 , B11111 } , // [5] 4 OP invers
{ B11111 , B10001 , B10111 , B10011 , B11101 , B11101 , B10011 , B11111 } , // [6] 5 OP invers
{ B11111 , B11001 , B10111 , B10011 , B10101 , B10101 , B11011 , B11111 } , // [7] 6 OP invers
{ B00000 , B00000 , B00000 , B00000 , B00000 , B00000 , B00000 , B11111 } , // [8] Level 1
{ B00000 , B00000 , B00000 , B00000 , B00000 , B00000 , B11111 , B11111 } , // [9] Level 2
{ B00000 , B00000 , B00000 , B00000 , B00000 , B11111 , B11111 , B11111 } , // [10] Level 3
{ B00000 , B00000 , B00000 , B00000 , B11111 , B11111 , B11111 , B11111 } , // [11] Level 4
{ B00000 , B00000 , B00000 , B11111 , B11111 , B11111 , B11111 , B11111 } , // [12] Level 5
{ B00000 , B00000 , B11111 , B11111 , B11111 , B11111 , B11111 , B11111 } , // [13] Level 6
{ B00000 , B11111 , B11111 , B11111 , B11111 , B11111 , B11111 , B11111 } , // [14] Level 7
{ B11111 , B11111 , B11111 , B11111 , B11111 , B11111 , B11111 , B11111 } , // [15] Level 8
{ B00100 , B00110 , B00101 , B00101 , B01101 , B11101 , B11100 , B11000 } , // [16] Note
//{B01110, B10001, B10001, B11111, B11011, B11011, B11111, B00000} // [17] Disabled 2nd instance symbol
{ B01110 , B10001 , B10001 , B01110 , B00100 , B00100 , B00110 , B00110 } // [17] Disabled 2nd instance symbol
} ;
enum { SCROLLBAR , BLOCKBAR , METERBAR } ;
enum { ENC_R , ENC_L } ;
enum { MENU_VOICE_BANK , MENU_VOICE_SOUND } ;
void lcdml_menu_display ( void ) ;
void lcdml_menu_clear ( void ) ;
void lcdml_menu_control ( void ) ;
# ifdef USE_FX
void UI_func_reverb_roomsize ( uint8_t param ) ;
void UI_func_reverb_damping ( uint8_t param ) ;
void UI_func_reverb_level ( uint8_t param ) ;
void UI_func_chorus_frequency ( uint8_t param ) ;
void UI_func_chorus_waveform ( uint8_t param ) ;
void UI_func_chorus_depth ( uint8_t param ) ;
void UI_func_chorus_level ( uint8_t param ) ;
void UI_func_delay_time ( uint8_t param ) ;
void UI_func_delay_feedback ( uint8_t param ) ;
void UI_func_delay_level ( uint8_t param ) ;
void UI_func_reverb_send ( uint8_t param ) ;
void UI_func_filter_cutoff ( uint8_t param ) ;
void UI_func_filter_resonance ( uint8_t param ) ;
# endif
void UI_func_transpose ( uint8_t param ) ;
void UI_func_tune ( uint8_t param ) ;
void UI_func_midi_channel ( uint8_t param ) ;
void UI_func_lowest_note ( uint8_t param ) ;
void UI_func_highest_note ( uint8_t param ) ;
void UI_func_sound_intensity ( uint8_t param ) ;
void UI_func_panorama ( uint8_t param ) ;
void UI_func_stereo_mono ( uint8_t param ) ;
void UI_func_note_refresh ( uint8_t param ) ;
void UI_func_polyphony ( uint8_t param ) ;
void UI_func_engine ( uint8_t param ) ;
void UI_func_mono_poly ( uint8_t param ) ;
void UI_func_pb_range ( uint8_t param ) ;
void UI_func_pb_step ( uint8_t param ) ;
void UI_func_mw_range ( uint8_t param ) ;
void UI_func_mw_assign ( uint8_t param ) ;
void UI_func_mw_mode ( uint8_t param ) ;
void UI_func_fc_range ( uint8_t param ) ;
void UI_func_fc_assign ( uint8_t param ) ;
void UI_func_fc_mode ( uint8_t param ) ;
void UI_func_bc_range ( uint8_t param ) ;
void UI_func_bc_assign ( uint8_t param ) ;
void UI_func_bc_mode ( uint8_t param ) ;
void UI_func_at_range ( uint8_t param ) ;
void UI_func_at_assign ( uint8_t param ) ;
void UI_func_at_mode ( uint8_t param ) ;
void UI_func_portamento_mode ( uint8_t param ) ;
void UI_func_portamento_glissando ( uint8_t param ) ;
void UI_func_portamento_time ( uint8_t param ) ;
void UI_handle_OP ( uint8_t param ) ;
void UI_func_information ( uint8_t param ) ;
void UI_func_volume ( uint8_t param ) ;
void UI_func_load_performance ( uint8_t param ) ;
void UI_func_save_performance ( uint8_t param ) ;
void UI_func_load_voiceconfig ( uint8_t param ) ;
void UI_func_save_voiceconfig ( uint8_t param ) ;
void UI_func_save_voice ( uint8_t param ) ;
void UI_func_load_fx ( uint8_t param ) ;
void UI_func_save_fx ( uint8_t param ) ;
void UI_func_eeprom_reset ( uint8_t param ) ;
void UI_func_midi_soft_thru ( uint8_t param ) ;
void UI_func_velocity_level ( uint8_t param ) ;
void UI_func_voice_select ( uint8_t param ) ;
void UI_func_sysex_send_voice ( uint8_t param ) ;
void UI_func_sysex_receive_voice ( uint8_t param ) ;
void UI_func_save_voice ( uint8_t param ) ;
void UI_func_sysex_receive_bank ( uint8_t param ) ;
void UI_func_sysex_send_bank ( uint8_t param ) ;
void UI_function_not_enabled ( void ) ;
void UI_function_not_implemented ( uint8_t param ) ;
void lcd_display_int ( int16_t var , uint8_t size , bool zeros , bool brackets , bool sign ) ;
void lcd_display_float ( float var , uint8_t size_number , uint8_t size_fraction , bool zeros , bool brackets , bool sign ) ;
void lcd_display_bar_int ( const char * title , uint32_t value , float factor , int32_t min_value , int32_t max_value , uint8_t size , bool zeros , bool sign , bool init ) ;
void lcd_display_bar_float ( const char * title , float value , float factor , int32_t min_value , int32_t max_value , uint8_t size_number , uint8_t size_fraction , bool zeros , bool sign , bool init ) ;
void lcd_display_meter_int ( const char * title , uint32_t value , float factor , float offset , int32_t min_value , int32_t max_value , uint8_t size , bool zeros , bool sign , bool init ) ;
void lcd_display_meter_float ( const char * title , float value , float factor , float offset , int32_t min_value , int32_t max_value , uint8_t size_number , uint8_t size_fraction , bool zeros , bool sign , bool init ) ;
void lcd_active_instance_number ( uint8_t instance_id ) ;
void lcd_OP_active_instance_number ( uint8_t instance_id , uint8_t op ) ;
void lcd_special_chars ( uint8_t mode ) ;
void eeprom_update_var ( uint16_t pos , uint8_t val , const char * val_string ) ;
// normal menu
LCDMenuLib2_menu LCDML_0 ( 255 , 0 , 0 , NULL , NULL ) ; // normal root menu element (do not change)
LCDMenuLib2 LCDML ( LCDML_0 , _LCDML_DISP_rows , _LCDML_DISP_cols , lcdml_menu_display , lcdml_menu_clear , lcdml_menu_control ) ;
# if defined(USE_FX)
# include "UI_FX.h"
# else
# include "UI_NO_FX.h"
# endif
// create menu
LCDML_createMenu ( _LCDML_DISP_cnt ) ;
/***********************************************************************
CONTROL
* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */
class EncoderDirection
{
public :
EncoderDirection ( void )
{
reset ( ) ;
}
void reset ( void )
{
button_short = false ;
button_long = false ;
button_pressed = false ;
left = false ;
right = false ;
up = false ;
down = false ;
}
void ButtonShort ( bool state )
{
button_short = state ;
}
bool ButtonShort ( void )
{
if ( button_short = = true )
{
button_short = false ;
return ( true ) ;
}
return ( false ) ;
}
void ButtonLong ( bool state )
{
button_long = state ;
}
bool ButtonLong ( void )
{
if ( button_long = = true )
{
button_long = false ;
return ( true ) ;
}
return ( false ) ;
}
void ButtonPressed ( bool state )
{
button_pressed = state ;
}
bool ButtonPressed ( void )
{
return ( button_pressed ) ;
}
void Left ( bool state )
{
left = state ;
}
bool Left ( void )
{
if ( left = = true )
{
left = false ;
return ( true ) ;
}
return ( false ) ;
}
void Right ( bool state )
{
right = state ;
}
bool Right ( void )
{
if ( right = = true )
{
right = false ;
return ( true ) ;
}
return ( false ) ;
}
void Up ( bool state )
{
up = state ;
}
bool Up ( void )
{
if ( up = = true )
{
up = false ;
return ( true ) ;
}
return ( false ) ;
}
void Down ( bool state )
{
down = state ;
}
bool Down ( void )
{
if ( down = = true )
{
down = false ;
return ( true ) ;
}
return ( false ) ;
}
private :
bool button_short ;
bool button_long ;
bool button_pressed ;
bool left ;
bool right ;
bool up ;
bool down ;
} ;
//Encoder ENCODER[NUM_ENCODER] = {Encoder(ENC_R_PIN_B, ENC_R_PIN_A), Encoder(ENC_L_PIN_B, ENC_L_PIN_A)};
MD_REncoder ENCODER [ NUM_ENCODER ] = { MD_REncoder ( ENC_R_PIN_B , ENC_R_PIN_A ) , MD_REncoder ( ENC_L_PIN_B , ENC_L_PIN_A ) } ;
EncoderDirection encoderDir [ NUM_ENCODER ] ;
long g_LCDML_CONTROL_button_press_time [ NUM_ENCODER ] = { 0 , 0 } ;
bool g_LCDML_CONTROL_button_prev [ NUM_ENCODER ] = { HIGH , HIGH } ;
uint8_t g_LCDML_CONTROL_prev [ NUM_ENCODER ] = { 0 , 0 } ;
bool menu_init = true ;
# ifdef U8X8_DISPLAY
const uint8_t * flipped_scroll_bar [ 5 ] ;
const uint8_t * flipped_block_bar [ 7 ] ;
const uint8_t * flipped_meter_bar [ 7 ] ;
uint8_t * rotTile ( const uint8_t * tile )
{
uint8_t * newt = new uint8_t [ 8 ] ;
for ( int x = 0 ; x < 8 ; x + + ) {
uint8_t newb = 0 ;
for ( int y = 0 ; y < 8 ; y + + ) {
newb | = ( tile [ y ] < < x ) & 0x80 ;
newb > > = 1 ;
}
newt [ x ] = newb ;
}
return newt ;
}
# endif
void setup_ui ( void )
{
// LCD Begin
# ifdef I2C_DISPLAY
lcd . init ( ) ;
lcd . backlight ( ) ;
lcd . clear ( ) ;
lcd . noCursor ( ) ;
# else
lcd . begin ( ) ;
lcd . clear ( ) ;
lcd . setFont ( u8x8_font_amstrad_cpc_extended_f ) ;
# endif
lcd . setCursor ( 3 , 0 ) ;
lcd . print ( F ( " MicroDexed " ) ) ;
lcd . setCursor ( 0 , 1 ) ;
lcd . print ( F ( " (c)parasiTstudio " ) ) ;
lcd_special_chars ( SCROLLBAR ) ;
// LCDMenuLib Setup
LCDML_setup ( _LCDML_DISP_cnt ) ;
// Enable Menu Rollover
//LCDML.MENU_enRollover();
// Enable Screensaver (screensaver menu function, time to activate in ms)
//LCDML.SCREEN_enable(UI_func_voice_select, VOICE_SELECTION_MS);
}
# ifdef DEBUG
void setup_debug_message ( void )
{
// LCD Begin
lcd . clear ( ) ;
lcd . setCursor ( 1 , 0 ) ;
lcd . print ( F ( " * DEBUG MODE * " ) ) ;
lcd . setCursor ( 1 , 1 ) ;
lcd . print ( F ( " ENABLE CONSOLE " ) ) ;
delay ( 300 ) ;
lcd . setCursor ( 1 , 1 ) ;
lcd . print ( _LCDML_VERSION ) ;
lcd . print ( F ( " " ) ) ;
}
# endif
/***********************************************************************
MENU CONTROL
* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */
uint8_t get_current_cursor_id ( void )
{
LCDMenuLib2_menu * tmp ;
if ( ( tmp = LCDML . MENU_getCurrentObj ( ) ) ! = NULL )
return ( tmp - > getChild ( LCDML . MENU_getCursorPosAbs ( ) ) - > getID ( ) ) ;
else
return ( 0 ) ;
}
void lcdml_menu_control ( void )
{
// If something must init, put in in the setup condition
if ( LCDML . BT_setup ( ) )
{
pinMode ( BUT_R_PIN , INPUT_PULLUP ) ;
pinMode ( BUT_L_PIN , INPUT_PULLUP ) ;
ENCODER [ ENC_R ] . begin ( ) ;
ENCODER [ ENC_L ] . begin ( ) ;
}
if ( back_from_volume > BACK_FROM_VOLUME_MS & & LCDML . FUNC_getID ( ) = = LCDML . OTHER_getIDFromFunction ( UI_func_volume ) )
{
encoderDir [ ENC_L ] . reset ( ) ;
encoderDir [ ENC_R ] . reset ( ) ;
if ( LCDML . MENU_getLastActiveFunctionID ( ) < 0xff )
LCDML . OTHER_jumpToID ( LCDML . MENU_getLastActiveFunctionID ( ) ) ;
else
LCDML . OTHER_setCursorToID ( LCDML . MENU_getLastCursorPositionID ( ) ) ;
//LCDML.FUNC_goBackToMenu();
}
// Volatile Variables
long g_LCDML_CONTROL_Encoder_position [ NUM_ENCODER ] = { ENCODER [ ENC_R ] . read ( ) , ENCODER [ ENC_L ] . read ( ) } ;
bool button [ NUM_ENCODER ] = { digitalRead ( BUT_R_PIN ) , digitalRead ( BUT_L_PIN ) } ;
/************************************************************************************
Basic encoder handling ( from LCDMenuLib2 )
* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */
// RIGHT
if ( g_LCDML_CONTROL_Encoder_position [ ENC_R ] < = - 3 )
{
if ( ! button [ ENC_R ] )
{
LCDML . BT_left ( ) ;
# ifdef DEBUG
Serial . println ( F ( " ENC-R left " ) ) ;
# endif
encoderDir [ ENC_R ] . Left ( true ) ;
g_LCDML_CONTROL_button_prev [ ENC_R ] = LOW ;
g_LCDML_CONTROL_button_press_time [ ENC_R ] = - 1 ;
}
else
{
# ifdef DEBUG
Serial . println ( F ( " ENC-R down " ) ) ;
# endif
encoderDir [ ENC_R ] . Down ( true ) ;
LCDML . BT_down ( ) ;
}
ENCODER [ ENC_R ] . write ( g_LCDML_CONTROL_Encoder_position [ ENC_R ] + 4 ) ;
}
else if ( g_LCDML_CONTROL_Encoder_position [ ENC_R ] > = 3 )
{
if ( ! button [ ENC_R ] )
{
# ifdef DEBUG
Serial . println ( F ( " ENC-R right " ) ) ;
# endif
encoderDir [ ENC_R ] . Right ( true ) ;
LCDML . BT_right ( ) ;
g_LCDML_CONTROL_button_prev [ ENC_R ] = LOW ;
g_LCDML_CONTROL_button_press_time [ ENC_R ] = - 1 ;
}
else
{
# ifdef DEBUG
Serial . println ( F ( " ENC-R up " ) ) ;
# endif
encoderDir [ ENC_R ] . Up ( true ) ;
LCDML . BT_up ( ) ;
}
ENCODER [ ENC_R ] . write ( g_LCDML_CONTROL_Encoder_position [ ENC_R ] - 4 ) ;
}
else
{
if ( ! button [ ENC_R ] & & g_LCDML_CONTROL_button_prev [ ENC_R ] ) //falling edge, button pressed
{
encoderDir [ ENC_R ] . ButtonPressed ( true ) ;
g_LCDML_CONTROL_button_prev [ ENC_R ] = LOW ;
g_LCDML_CONTROL_button_press_time [ ENC_R ] = millis ( ) ;
}
else if ( button [ ENC_R ] & & ! g_LCDML_CONTROL_button_prev [ ENC_R ] ) //rising edge, button not active
{
encoderDir [ ENC_R ] . ButtonPressed ( false ) ;
g_LCDML_CONTROL_button_prev [ ENC_R ] = HIGH ;
if ( g_LCDML_CONTROL_button_press_time [ ENC_R ] < 0 )
{
g_LCDML_CONTROL_button_press_time [ ENC_R ] = millis ( ) ;
//Reset for left right action
}
else if ( ( millis ( ) - g_LCDML_CONTROL_button_press_time [ ENC_R ] ) > = LONG_BUTTON_PRESS )
{
# ifdef DEBUG
Serial . println ( " ENC-R long released " ) ;
# endif
//LCDML.BT_quit();
encoderDir [ ENC_R ] . ButtonLong ( true ) ;
}
else if ( ( millis ( ) - g_LCDML_CONTROL_button_press_time [ ENC_R ] ) > = BUT_DEBOUNCE_MS )
{
# ifdef DEBUG
Serial . println ( F ( " ENC-R short " ) ) ;
# endif
encoderDir [ ENC_R ] . ButtonShort ( true ) ;
LCDML . BT_enter ( ) ;
}
}
}
if ( encoderDir [ ENC_R ] . ButtonPressed ( ) = = true & & ( millis ( ) - g_LCDML_CONTROL_button_press_time [ ENC_R ] ) > = LONG_BUTTON_PRESS )
{
# ifdef DEBUG
Serial . println ( " ENC-R long recognized " ) ;
# endif
encoderDir [ ENC_R ] . ButtonLong ( true ) ;
# if NUM_DEXED > 1
if ( LCDML . FUNC_getID ( ) = = LCDML . OTHER_getIDFromFunction ( UI_func_voice_select ) )
{
selected_instance_id = ! selected_instance_id ;
lcd_active_instance_number ( selected_instance_id ) ;
LCDML . OTHER_updateFunc ( ) ;
LCDML . loop_menu ( ) ;
}
else
{
# endif
if ( LCDML . FUNC_getID ( ) < 0xff )
LCDML . FUNC_setGBAToLastFunc ( ) ;
else
LCDML . FUNC_setGBAToLastCursorPos ( ) ;
LCDML . OTHER_jumpToFunc ( UI_func_voice_select ) ;
# if NUM_DEXED > 1
}
# endif
encoderDir [ ENC_R ] . reset ( ) ;
}
// LEFT
if ( g_LCDML_CONTROL_Encoder_position [ ENC_L ] < = - 3 )
{
if ( ! button [ ENC_L ] )
{
# ifdef DEBUG
Serial . println ( F ( " ENC-L left " ) ) ;
# endif
encoderDir [ ENC_L ] . Left ( true ) ;
LCDML . BT_left ( ) ;
g_LCDML_CONTROL_button_prev [ ENC_L ] = LOW ;
g_LCDML_CONTROL_button_press_time [ ENC_L ] = - 1 ;
}
else
{
# ifdef DEBUG
Serial . println ( F ( " ENC-L down " ) ) ;
# endif
encoderDir [ ENC_L ] . Down ( true ) ;
LCDML . BT_down ( ) ;
if ( LCDML . FUNC_getID ( ) ! = LCDML . OTHER_getIDFromFunction ( UI_func_volume ) )
{
LCDML . OTHER_jumpToFunc ( UI_func_volume ) ;
}
}
ENCODER [ ENC_L ] . write ( g_LCDML_CONTROL_Encoder_position [ ENC_L ] + 4 ) ;
}
else if ( g_LCDML_CONTROL_Encoder_position [ ENC_L ] > = 3 )
{
if ( ! button [ ENC_L ] )
{
# ifdef DEBUG
Serial . println ( F ( " ENC-L right " ) ) ;
# endif
encoderDir [ ENC_L ] . Right ( true ) ;
LCDML . BT_right ( ) ;
g_LCDML_CONTROL_button_prev [ ENC_L ] = LOW ;
g_LCDML_CONTROL_button_press_time [ ENC_L ] = - 1 ;
}
else
{
# ifdef DEBUG
Serial . println ( F ( " ENC-L up " ) ) ;
# endif
encoderDir [ ENC_L ] . Up ( true ) ;
LCDML . BT_up ( ) ;
if ( LCDML . FUNC_getID ( ) ! = LCDML . OTHER_getIDFromFunction ( UI_func_volume ) )
{
LCDML . OTHER_jumpToFunc ( UI_func_volume ) ;
}
}
ENCODER [ ENC_L ] . write ( g_LCDML_CONTROL_Encoder_position [ ENC_L ] - 4 ) ;
}
else
{
if ( ! button [ ENC_L ] & & g_LCDML_CONTROL_button_prev [ ENC_L ] ) //falling edge, button pressed
{
encoderDir [ ENC_L ] . ButtonPressed ( true ) ;
g_LCDML_CONTROL_button_prev [ ENC_L ] = LOW ;
g_LCDML_CONTROL_button_press_time [ ENC_L ] = millis ( ) ;
}
else if ( button [ ENC_L ] & & ! g_LCDML_CONTROL_button_prev [ ENC_L ] ) //rising edge, button not active
{
encoderDir [ ENC_L ] . ButtonPressed ( false ) ;
g_LCDML_CONTROL_button_prev [ ENC_L ] = HIGH ;
if ( g_LCDML_CONTROL_button_press_time [ ENC_L ] < 0 )
{
g_LCDML_CONTROL_button_press_time [ ENC_L ] = millis ( ) ;
//Reset for left right action
}
else if ( ( millis ( ) - g_LCDML_CONTROL_button_press_time [ ENC_L ] ) > = LONG_BUTTON_PRESS )
{
# ifdef DEBUG
Serial . println ( F ( " ENC-L long released " ) ) ;
# endif
//encoderDir[ENC_L].ButtonLong(true);
//LCDML.BT_quit();
}
else if ( ( millis ( ) - g_LCDML_CONTROL_button_press_time [ ENC_L ] ) > = BUT_DEBOUNCE_MS )
{
//LCDML.BT_enter();
# ifdef DEBUG
Serial . println ( F ( " ENC-L short " ) ) ;
# endif
encoderDir [ ENC_L ] . ButtonShort ( true ) ;
if ( ( LCDML . MENU_getLastActiveFunctionID ( ) = = 0xff & & LCDML . MENU_getLastCursorPositionID ( ) = = 0 ) | | menu_init = = true )
{
LCDML . MENU_goRoot ( ) ;
menu_init = false ;
}
else if ( LCDML . FUNC_getID ( ) = = LCDML . OTHER_getIDFromFunction ( UI_func_volume ) )
{
encoderDir [ ENC_L ] . reset ( ) ;
encoderDir [ ENC_R ] . reset ( ) ;
if ( LCDML . MENU_getLastActiveFunctionID ( ) < 0xff )
LCDML . OTHER_jumpToID ( LCDML . MENU_getLastActiveFunctionID ( ) ) ;
else
LCDML . OTHER_setCursorToID ( LCDML . MENU_getLastCursorPositionID ( ) ) ;
}
else
LCDML . BT_quit ( ) ;
}
}
}
if ( encoderDir [ ENC_L ] . ButtonPressed ( ) = = true & & ( millis ( ) - g_LCDML_CONTROL_button_press_time [ ENC_L ] ) > = LONG_BUTTON_PRESS )
{
# ifdef DEBUG
Serial . println ( F ( " ENC-L long recognized " ) ) ;
# endif
for ( uint8_t i = 0 ; i < NUM_DEXED ; i + + )
MicroDexed [ i ] - > panic ( ) ;
encoderDir [ ENC_L ] . reset ( ) ;
encoderDir [ ENC_R ] . reset ( ) ;
}
}
/***********************************************************************
MENU DISPLAY
* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */
void lcdml_menu_clear ( void )
{
lcd . clear ( ) ;
lcd . setCursor ( 0 , 0 ) ;
}
void lcdml_menu_display ( void )
{
// update content
// ***************
if ( LCDML . DISP_checkMenuUpdate ( ) ) {
// clear menu
// ***************
LCDML . DISP_clear ( ) ;
// declaration of some variables
// ***************
// content variable
char content_text [ _LCDML_DISP_cols ] ; // save the content text of every menu element
// menu element object
LCDMenuLib2_menu * tmp ;
// some limit values
uint8_t i = LCDML . MENU_getScroll ( ) ;
uint8_t maxi = _LCDML_DISP_rows + i ;
uint8_t n = 0 ;
// check if this element has children
if ( ( tmp = LCDML . MENU_getDisplayedObj ( ) ) ! = NULL )
{
// loop to display lines
do
{
// check if a menu element has a condition and if the condition be true
if ( tmp - > checkCondition ( ) )
{
// check the type off a menu element
if ( tmp - > checkType_menu ( ) = = true )
{
// display normal content
LCDML_getContent ( content_text , tmp - > getID ( ) ) ;
lcd . setCursor ( 1 , n ) ;
lcd . print ( content_text ) ;
}
else
{
if ( tmp - > checkType_dynParam ( ) ) {
tmp - > callback ( n ) ;
}
}
// increment some values
i + + ;
n + + ;
}
// try to go to the next sibling and check the number of displayed rows
} while ( ( ( tmp = tmp - > getSibling ( 1 ) ) ! = NULL ) & & ( i < maxi ) ) ;
}
}
if ( LCDML . DISP_checkMenuCursorUpdate ( ) )
{
// init vars
uint8_t n_max = ( LCDML . MENU_getChilds ( ) > = _LCDML_DISP_rows ) ? _LCDML_DISP_rows : ( LCDML . MENU_getChilds ( ) ) ;
uint8_t scrollbar_min = 0 ;
uint8_t scrollbar_max = LCDML . MENU_getChilds ( ) ;
uint8_t scrollbar_cur_pos = LCDML . MENU_getCursorPosAbs ( ) ;
uint8_t scroll_pos = ( ( 1. * n_max * _LCDML_DISP_rows ) / ( scrollbar_max - 1 ) * scrollbar_cur_pos ) ;
// display rows
for ( uint8_t n = 0 ; n < n_max ; n + + )
{
//set cursor
lcd . setCursor ( 0 , n ) ;
//set cursor char
if ( n = = LCDML . MENU_getCursorPos ( ) ) {
lcd . write ( _LCDML_DISP_cfg_cursor ) ;
} else {
lcd . write ( ' ' ) ;
}
// delete or reset scrollbar
if ( _LCDML_DISP_cfg_scrollbar = = 1 ) {
if ( scrollbar_max > n_max ) {
# ifdef I2C_DISPLAY
lcd . setCursor ( ( _LCDML_DISP_cols - 1 ) , n ) ;
lcd . write ( ( uint8_t ) 0 ) ;
# else
lcd . drawTile ( ( _LCDML_DISP_cols - 1 ) , n , 1 , flipped_scroll_bar [ 0 ] ) ;
lcd . setCursor ( ( _LCDML_DISP_cols ) , n + 1 ) ;
# endif
}
else {
lcd . setCursor ( ( _LCDML_DISP_cols - 1 ) , n ) ;
lcd . print ( F ( " " ) ) ;
}
}
}
// display scrollbar
if ( _LCDML_DISP_cfg_scrollbar = = 1 ) {
if ( scrollbar_max > n_max ) {
//set scroll position
if ( scrollbar_cur_pos = = scrollbar_min ) {
// min pos
# ifdef I2C_DISPLAY
lcd . setCursor ( ( _LCDML_DISP_cols - 1 ) , 0 ) ;
lcd . write ( ( uint8_t ) 1 ) ;
# else
lcd . drawTile ( ( _LCDML_DISP_cols - 1 ) , 0 , 1 , flipped_scroll_bar [ 1 ] ) ;
lcd . setCursor ( ( _LCDML_DISP_cols ) , 1 ) ;
# endif
} else if ( scrollbar_cur_pos = = ( scrollbar_max - 1 ) ) {
// max pos
# ifdef I2C_DISPLAY
lcd . setCursor ( ( _LCDML_DISP_cols - 1 ) , ( n_max - 1 ) ) ;
lcd . write ( ( uint8_t ) 4 ) ;
# else
lcd . drawTile ( ( _LCDML_DISP_cols - 1 ) , ( n_max - 1 ) , 1 , flipped_scroll_bar [ 4 ] ) ;
lcd . setCursor ( ( _LCDML_DISP_cols ) , ( n_max ) ) ;
# endif
} else {
// between
# ifdef I2C_DISPLAY
lcd . setCursor ( ( _LCDML_DISP_cols - 1 ) , scroll_pos / n_max ) ;
lcd . write ( ( uint8_t ) ( scroll_pos % n_max ) + 1 ) ;
# else
lcd . drawTile ( ( _LCDML_DISP_cols - 1 ) , scroll_pos / n_max , 1 , flipped_scroll_bar [ ( scroll_pos % n_max ) + 1 ] ) ;
lcd . setCursor ( ( _LCDML_DISP_cols ) , ( scroll_pos / n_max ) + 1 ) ;
# endif
}
}
}
}
}
//####################################################################################################################################################################################################
/***********************************************************************
MENU
* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */
# ifdef USE_FX
void UI_func_reverb_roomsize ( uint8_t param )
{
if ( LCDML . FUNC_setup ( ) ) // ****** SETUP *********
{
encoderDir [ ENC_R ] . reset ( ) ;
lcd_special_chars ( BLOCKBAR ) ;
lcd_display_bar_int ( " Reverb Room " , configuration . fx . reverb_roomsize , 1.0 , REVERB_ROOMSIZE_MIN , REVERB_ROOMSIZE_MAX , 3 , false , false , true ) ;
}
if ( LCDML . FUNC_loop ( ) ) // ****** LOOP *********
{
if ( ( LCDML . BT_checkDown ( ) & & encoderDir [ ENC_R ] . Down ( ) ) | | ( LCDML . BT_checkUp ( ) & & encoderDir [ ENC_R ] . Up ( ) ) )
{
if ( LCDML . BT_checkDown ( ) )
configuration . fx . reverb_roomsize = constrain ( configuration . fx . reverb_roomsize + ENCODER [ ENC_R ] . speed ( ) , REVERB_ROOMSIZE_MIN , REVERB_ROOMSIZE_MAX ) ;
else if ( LCDML . BT_checkUp ( ) )
configuration . fx . reverb_roomsize = constrain ( configuration . fx . reverb_roomsize - ENCODER [ ENC_R ] . speed ( ) , REVERB_ROOMSIZE_MIN , REVERB_ROOMSIZE_MAX ) ;
}
lcd_display_bar_int ( " Reverb Room " , configuration . fx . reverb_roomsize , 1.0 , REVERB_ROOMSIZE_MIN , REVERB_ROOMSIZE_MAX , 3 , false , false , false ) ;
freeverb_r . roomsize ( mapfloat ( configuration . fx . reverb_roomsize , REVERB_ROOMSIZE_MIN , REVERB_ROOMSIZE_MAX , 0.0 , 1.0 ) ) ;
freeverb_l . roomsize ( mapfloat ( configuration . fx . reverb_roomsize , REVERB_ROOMSIZE_MIN , REVERB_ROOMSIZE_MAX , 0.0 , 1.0 ) ) ;
}
if ( LCDML . FUNC_close ( ) ) // ****** STABLE END *********
{
lcd_special_chars ( SCROLLBAR ) ;
encoderDir [ ENC_R ] . reset ( ) ;
EEPROM . update ( EEPROM_START_ADDRESS + offsetof ( configuration_s , fx . reverb_roomsize ) , configuration . fx . reverb_roomsize ) ;
}
}
void UI_func_reverb_damping ( uint8_t param )
{
if ( LCDML . FUNC_setup ( ) ) // ****** SETUP *********
{
encoderDir [ ENC_R ] . reset ( ) ;
lcd_special_chars ( BLOCKBAR ) ;
lcd_display_bar_int ( " Reverb Damp. " , configuration . fx . reverb_damping , 1.0 , REVERB_DAMPING_MIN , REVERB_DAMPING_MAX , 3 , false , false , true ) ;
}
if ( LCDML . FUNC_loop ( ) ) // ****** LOOP *********
{
if ( ( LCDML . BT_checkDown ( ) & & encoderDir [ ENC_R ] . Down ( ) ) | | ( LCDML . BT_checkUp ( ) & & encoderDir [ ENC_R ] . Up ( ) ) )
{
if ( LCDML . BT_checkDown ( ) )
configuration . fx . reverb_damping = constrain ( configuration . fx . reverb_damping + ENCODER [ ENC_R ] . speed ( ) , REVERB_DAMPING_MIN , REVERB_DAMPING_MAX ) ;
else if ( LCDML . BT_checkUp ( ) )
configuration . fx . reverb_damping = constrain ( configuration . fx . reverb_damping - ENCODER [ ENC_R ] . speed ( ) , REVERB_DAMPING_MIN , REVERB_DAMPING_MAX ) ;
}
lcd_display_bar_int ( " Reverb Damp. " , configuration . fx . reverb_damping , 1.0 , REVERB_DAMPING_MIN , REVERB_DAMPING_MAX , 3 , false , false , false ) ;
freeverb_l . damping ( mapfloat ( configuration . fx . reverb_damping , REVERB_DAMPING_MIN , REVERB_DAMPING_MAX , 0.0 , 1.0 ) ) ;
freeverb_r . damping ( mapfloat ( configuration . fx . reverb_damping , REVERB_DAMPING_MIN , REVERB_DAMPING_MAX , 0.0 , 1.0 ) ) ;
}
if ( LCDML . FUNC_close ( ) ) // ****** STABLE END *********
{
lcd_special_chars ( SCROLLBAR ) ;
encoderDir [ ENC_R ] . reset ( ) ;
EEPROM . update ( EEPROM_START_ADDRESS + offsetof ( configuration_s , fx . reverb_damping ) , configuration . fx . reverb_damping ) ;
}
}
void UI_func_reverb_level ( uint8_t param )
{
if ( LCDML . FUNC_setup ( ) ) // ****** SETUP *********
{
encoderDir [ ENC_R ] . reset ( ) ;
lcd_special_chars ( BLOCKBAR ) ;
lcd_display_bar_int ( " Reverb Level " , configuration . fx . reverb_level , 1.0 , REVERB_LEVEL_MIN , REVERB_LEVEL_MAX , 3 , false , false , true ) ;
}
if ( LCDML . FUNC_loop ( ) ) // ****** LOOP *********
{
if ( ( LCDML . BT_checkDown ( ) & & encoderDir [ ENC_R ] . Down ( ) ) | | ( LCDML . BT_checkUp ( ) & & encoderDir [ ENC_R ] . Up ( ) ) )
{
if ( LCDML . BT_checkDown ( ) )
configuration . fx . reverb_level = constrain ( configuration . fx . reverb_level + ENCODER [ ENC_R ] . speed ( ) , REVERB_LEVEL_MIN , REVERB_LEVEL_MAX ) ;
else if ( LCDML . BT_checkUp ( ) )
configuration . fx . reverb_level = constrain ( configuration . fx . reverb_level - ENCODER [ ENC_R ] . speed ( ) , REVERB_LEVEL_MIN , REVERB_LEVEL_MAX ) ;
}
lcd_display_bar_int ( " Reverb Level " , configuration . fx . reverb_level , 1.0 , REVERB_LEVEL_MIN , REVERB_LEVEL_MAX , 3 , false , false , true ) ;
master_mixer_r . gain ( 3 , pseudo_log_curve ( mapfloat ( configuration . fx . reverb_level , REVERB_LEVEL_MIN , REVERB_LEVEL_MAX , 0.0 , 1.0 ) ) ) ;
master_mixer_l . gain ( 3 , pseudo_log_curve ( mapfloat ( configuration . fx . reverb_level , REVERB_LEVEL_MIN , REVERB_LEVEL_MAX , 0.0 , 1.0 ) ) ) ;
}
if ( LCDML . FUNC_close ( ) ) // ****** STABLE END *********
{
lcd_special_chars ( SCROLLBAR ) ;
encoderDir [ ENC_R ] . reset ( ) ;
EEPROM . update ( EEPROM_START_ADDRESS + offsetof ( configuration_s , fx . reverb_level ) , configuration . fx . reverb_level ) ;
}
}
void UI_func_chorus_frequency ( uint8_t param )
{
if ( LCDML . FUNC_setup ( ) ) // ****** SETUP *********
{
encoderDir [ ENC_R ] . reset ( ) ;
lcd_special_chars ( BLOCKBAR ) ;
lcd_display_bar_float ( " Chorus Frq. " , configuration . fx . chorus_frequency [ selected_instance_id ] , 0.1 , CHORUS_FREQUENCY_MIN , CHORUS_FREQUENCY_MAX , 2 , 1 , false , false , true ) ;
lcd_active_instance_number ( selected_instance_id ) ;
lcd . setCursor ( 14 , 0 ) ;
lcd . write ( 0 ) ;
lcd . setCursor ( 15 , 0 ) ;
lcd . write ( 1 ) ;
}
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 ( ) )
configuration . fx . chorus_frequency [ selected_instance_id ] = constrain ( configuration . fx . chorus_frequency [ selected_instance_id ] + ENCODER [ ENC_R ] . speed ( ) , CHORUS_FREQUENCY_MIN , CHORUS_FREQUENCY_MAX ) ;
else if ( LCDML . BT_checkUp ( ) )
configuration . fx . chorus_frequency [ selected_instance_id ] = constrain ( configuration . fx . chorus_frequency [ selected_instance_id ] - ENCODER [ ENC_R ] . speed ( ) , CHORUS_FREQUENCY_MIN , CHORUS_FREQUENCY_MAX ) ;
# if NUM_DEXED > 1
else if ( LCDML . BT_checkEnter ( ) )
{
selected_instance_id = ! selected_instance_id ;
lcd_active_instance_number ( selected_instance_id ) ;
lcd . setCursor ( 14 , 0 ) ;
lcd . write ( 0 ) ;
lcd . setCursor ( 15 , 0 ) ;
lcd . write ( 1 ) ;
}
# endif
}
lcd_display_bar_float ( " Chorus Frq. " , configuration . fx . chorus_frequency [ selected_instance_id ] , 0.1 , CHORUS_FREQUENCY_MIN , CHORUS_FREQUENCY_MAX , 2 , 1 , false , false , false ) ;
chorus_modulator [ selected_instance_id ] - > frequency ( configuration . fx . chorus_frequency [ selected_instance_id ] / 10.0 ) ;
}
if ( LCDML . FUNC_close ( ) ) // ****** STABLE END *********
{
lcd_special_chars ( SCROLLBAR ) ;
encoderDir [ ENC_R ] . reset ( ) ;
EEPROM . update ( EEPROM_START_ADDRESS + offsetof ( configuration_s , fx . chorus_frequency [ 0 ] ) , configuration . fx . chorus_frequency [ 0 ] ) ;
# if NUM_DEXED > 1
EEPROM . update ( EEPROM_START_ADDRESS + offsetof ( configuration_s , fx . chorus_frequency [ 1 ] ) , configuration . fx . chorus_frequency [ 1 ] ) ;
# endif
}
}
void UI_func_chorus_waveform ( uint8_t param )
{
if ( LCDML . FUNC_setup ( ) ) // ****** SETUP *********
{
encoderDir [ ENC_R ] . reset ( ) ;
lcd . setCursor ( 0 , 0 ) ;
lcd . print ( F ( " Chorus Waveform " ) ) ;
lcd_active_instance_number ( selected_instance_id ) ;
lcd . setCursor ( 14 , 0 ) ;
lcd . write ( 0 ) ;
lcd . setCursor ( 15 , 0 ) ;
lcd . write ( 1 ) ;
}
if ( LCDML . FUNC_loop ( ) ) // ****** LOOP *********
{
if ( LCDML . BT_checkDown ( ) & & encoderDir [ ENC_R ] . Down ( ) )
configuration . fx . chorus_waveform [ selected_instance_id ] = constrain ( configuration . fx . chorus_waveform [ selected_instance_id ] + 1 , CHORUS_WAVEFORM_MIN , CHORUS_WAVEFORM_MAX ) ;
else if ( LCDML . BT_checkUp ( ) & & encoderDir [ ENC_R ] . Up ( ) )
configuration . fx . chorus_waveform [ selected_instance_id ] = constrain ( configuration . fx . chorus_waveform [ selected_instance_id ] - 1 , CHORUS_WAVEFORM_MIN , CHORUS_WAVEFORM_MAX ) ;
# if NUM_DEXED > 1
else if ( LCDML . BT_checkEnter ( ) & & encoderDir [ ENC_R ] . ButtonShort ( ) )
{
selected_instance_id = ! selected_instance_id ;
lcd_active_instance_number ( selected_instance_id ) ;
lcd . setCursor ( 14 , 0 ) ;
lcd . write ( 0 ) ;
lcd . setCursor ( 15 , 0 ) ;
lcd . write ( 1 ) ;
}
# endif
lcd . setCursor ( 0 , 1 ) ;
switch ( configuration . fx . chorus_waveform [ selected_instance_id ] )
{
case 0 :
chorus_modulator [ selected_instance_id ] - > begin ( WAVEFORM_TRIANGLE ) ;
lcd . print ( F ( " [TRIANGLE] " ) ) ;
break ;
case 1 :
chorus_modulator [ selected_instance_id ] - > begin ( WAVEFORM_SINE ) ;
lcd . print ( F ( " [SINE ] " ) ) ;
break ;
default :
chorus_modulator [ selected_instance_id ] - > begin ( WAVEFORM_TRIANGLE ) ;
lcd . print ( F ( " [TRIANGLE] " ) ) ;
break ;
}
}
if ( LCDML . FUNC_close ( ) ) // ****** STABLE END *********
{
lcd_special_chars ( SCROLLBAR ) ;
encoderDir [ ENC_R ] . reset ( ) ;
EEPROM . update ( EEPROM_START_ADDRESS + offsetof ( configuration_s , fx . chorus_waveform [ 0 ] ) , configuration . fx . chorus_waveform [ 0 ] ) ;
# if NUM_DEXED > 1
EEPROM . update ( EEPROM_START_ADDRESS + offsetof ( configuration_s , fx . chorus_waveform [ 1 ] ) , configuration . fx . chorus_waveform [ 1 ] ) ;
# endif
}
}
void UI_func_chorus_depth ( uint8_t param )
{
if ( LCDML . FUNC_setup ( ) ) // ****** SETUP *********
{
encoderDir [ ENC_R ] . reset ( ) ;
lcd_special_chars ( BLOCKBAR ) ;
lcd_display_bar_int ( " Chorus Dpt. " , configuration . fx . chorus_depth [ selected_instance_id ] , 1.0 , CHORUS_DEPTH_MIN , CHORUS_DEPTH_MAX , 3 , false , false , true ) ;
lcd_active_instance_number ( selected_instance_id ) ;
lcd . setCursor ( 14 , 0 ) ;
lcd . write ( 0 ) ;
lcd . setCursor ( 15 , 0 ) ;
lcd . write ( 1 ) ;
}
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 ( ) )
configuration . fx . chorus_depth [ selected_instance_id ] = constrain ( configuration . fx . chorus_depth [ selected_instance_id ] + ENCODER [ ENC_R ] . speed ( ) , CHORUS_DEPTH_MIN , CHORUS_DEPTH_MAX ) ;
else if ( LCDML . BT_checkUp ( ) )
configuration . fx . chorus_depth [ selected_instance_id ] = constrain ( configuration . fx . chorus_depth [ selected_instance_id ] - ENCODER [ ENC_R ] . speed ( ) , CHORUS_DEPTH_MIN , CHORUS_DEPTH_MAX ) ;
# if NUM_DEXED > 1
else if ( LCDML . BT_checkEnter ( ) )
{
selected_instance_id = ! selected_instance_id ;
lcd_active_instance_number ( selected_instance_id ) ;
lcd . setCursor ( 14 , 0 ) ;
lcd . write ( 0 ) ;
lcd . setCursor ( 15 , 0 ) ;
lcd . write ( 1 ) ;
}
# endif
}
lcd_display_bar_int ( " Chorus Dpt. " , configuration . fx . chorus_depth [ selected_instance_id ] , 1.0 , CHORUS_DEPTH_MIN , CHORUS_DEPTH_MAX , 3 , false , false , false ) ;
chorus_modulator [ selected_instance_id ] - > amplitude ( configuration . fx . chorus_depth [ selected_instance_id ] / 100.0 ) ;
}
if ( LCDML . FUNC_close ( ) ) // ****** STABLE END *********
{
lcd_special_chars ( SCROLLBAR ) ;
encoderDir [ ENC_R ] . reset ( ) ;
EEPROM . update ( EEPROM_START_ADDRESS + offsetof ( configuration_s , fx . chorus_depth [ 0 ] ) , configuration . fx . chorus_depth [ 0 ] ) ;
# if NUM_DEXED > 1
EEPROM . update ( EEPROM_START_ADDRESS + offsetof ( configuration_s , fx . chorus_depth [ 1 ] ) , configuration . fx . chorus_depth [ 1 ] ) ;
# endif
}
}
void UI_func_chorus_level ( uint8_t param )
{
if ( LCDML . FUNC_setup ( ) ) // ****** SETUP *********
{
encoderDir [ ENC_R ] . reset ( ) ;
lcd_special_chars ( BLOCKBAR ) ;
lcd_display_bar_int ( " Chorus Lvl. " , configuration . fx . chorus_level [ selected_instance_id ] , 1.0 , CHORUS_LEVEL_MIN , CHORUS_LEVEL_MAX , 3 , false , false , true ) ;
lcd_active_instance_number ( selected_instance_id ) ;
lcd . setCursor ( 14 , 0 ) ;
lcd . write ( 0 ) ;
lcd . setCursor ( 15 , 0 ) ;
lcd . write ( 1 ) ;
}
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 ( ) )
configuration . fx . chorus_level [ selected_instance_id ] = constrain ( configuration . fx . chorus_level [ selected_instance_id ] + ENCODER [ ENC_R ] . speed ( ) , CHORUS_LEVEL_MIN , CHORUS_LEVEL_MAX ) ;
else if ( LCDML . BT_checkUp ( ) )
configuration . fx . chorus_level [ selected_instance_id ] = constrain ( configuration . fx . chorus_level [ selected_instance_id ] - ENCODER [ ENC_R ] . speed ( ) , CHORUS_LEVEL_MIN , CHORUS_LEVEL_MAX ) ;
# if NUM_DEXED > 1
else if ( LCDML . BT_checkEnter ( ) )
{
selected_instance_id = ! selected_instance_id ;
lcd_active_instance_number ( selected_instance_id ) ;
lcd . setCursor ( 14 , 0 ) ;
lcd . write ( 0 ) ;
lcd . setCursor ( 15 , 0 ) ;
lcd . write ( 1 ) ;
}
# endif
}
lcd_display_bar_int ( " Chorus Lvl. " , configuration . fx . chorus_level [ selected_instance_id ] , 1.0 , CHORUS_LEVEL_MIN , CHORUS_LEVEL_MAX , 3 , false , false , false ) ;
//chorus_mixer[selected_instance_id]->gain(0, pseudo_log_curve(1.0 - mapfloat(configuration.fx.chorus_level[selected_instance_id], CHORUS_LEVEL_MIN, CHORUS_LEVEL_MAX, 0.0, 0.5)));
//chorus_mixer[selected_instance_id]->gain(1, pseudo_log_curve(mapfloat(configuration.fx.chorus_level[selected_instance_id], CHORUS_LEVEL_MIN, CHORUS_LEVEL_MAX, 0.0, 0.5)));
//chorus_mixer[selected_instance_id]->gain(0, 1.0 - mapfloat(configuration.fx.chorus_level[selected_instance_id], CHORUS_LEVEL_MIN, CHORUS_LEVEL_MAX, 0.0, 0.5));
chorus_mixer [ selected_instance_id ] - > gain ( 1 , mapfloat ( configuration . fx . chorus_level [ selected_instance_id ] , CHORUS_LEVEL_MIN , CHORUS_LEVEL_MAX , 0.0 , 0.5 ) ) ;
}
if ( LCDML . FUNC_close ( ) ) // ****** STABLE END *********
{
lcd_special_chars ( SCROLLBAR ) ;
encoderDir [ ENC_R ] . reset ( ) ;
EEPROM . update ( EEPROM_START_ADDRESS + offsetof ( configuration_s , fx . chorus_level [ 0 ] ) , configuration . fx . chorus_level [ 0 ] ) ;
# if NUM_DEXED > 1
EEPROM . update ( EEPROM_START_ADDRESS + offsetof ( configuration_s , fx . chorus_level [ 1 ] ) , configuration . fx . chorus_level [ 1 ] ) ;
# endif
}
}
void UI_func_delay_time ( uint8_t param )
{
if ( LCDML . FUNC_setup ( ) ) // ****** SETUP *********
{
encoderDir [ ENC_R ] . reset ( ) ;
lcd_special_chars ( BLOCKBAR ) ;
lcd_display_bar_int ( " Delay Time " , configuration . fx . delay_time [ selected_instance_id ] , 10.0 , DELAY_TIME_MIN , DELAY_TIME_MAX , 3 , false , false , true ) ;
lcd_active_instance_number ( selected_instance_id ) ;
lcd . setCursor ( 14 , 0 ) ;
lcd . write ( 0 ) ;
lcd . setCursor ( 15 , 0 ) ;
lcd . write ( 1 ) ;
}
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 ( ) )
configuration . fx . delay_time [ selected_instance_id ] = constrain ( configuration . fx . delay_time [ selected_instance_id ] + ENCODER [ ENC_R ] . speed ( ) , DELAY_TIME_MIN , DELAY_TIME_MAX ) ;
else if ( LCDML . BT_checkUp ( ) )
configuration . fx . delay_time [ selected_instance_id ] = constrain ( configuration . fx . delay_time [ selected_instance_id ] - ENCODER [ ENC_R ] . speed ( ) , DELAY_TIME_MIN , DELAY_TIME_MAX ) ;
# if NUM_DEXED > 1
else if ( LCDML . BT_checkEnter ( ) )
{
selected_instance_id = ! selected_instance_id ;
lcd_active_instance_number ( selected_instance_id ) ;
lcd . setCursor ( 14 , 0 ) ;
lcd . write ( 0 ) ;
lcd . setCursor ( 15 , 0 ) ;
lcd . write ( 1 ) ;
}
# endif
}
lcd_display_bar_int ( " Delay Time " , configuration . fx . delay_time [ selected_instance_id ] , 10.0 , DELAY_TIME_MIN , DELAY_TIME_MAX , 3 , false , false , true ) ;
if ( configuration . fx . delay_time [ selected_instance_id ] < = DELAY_TIME_MIN )
delay_fx [ selected_instance_id ] - > disable ( 0 ) ;
else
delay_fx [ selected_instance_id ] - > delay ( 0 , constrain ( configuration . fx . delay_time [ selected_instance_id ] , DELAY_TIME_MIN , DELAY_TIME_MAX ) * 10 ) ;
}
if ( LCDML . FUNC_close ( ) ) // ****** STABLE END *********
{
lcd_special_chars ( SCROLLBAR ) ;
encoderDir [ ENC_R ] . reset ( ) ;
EEPROM . update ( EEPROM_START_ADDRESS + offsetof ( configuration_s , fx . delay_time [ 0 ] ) , configuration . fx . delay_time [ 0 ] ) ;
# if NUM_DEXED > 1
EEPROM . update ( EEPROM_START_ADDRESS + offsetof ( configuration_s , fx . delay_time [ 1 ] ) , configuration . fx . delay_time [ 1 ] ) ;
# endif
}
}
void UI_func_delay_feedback ( uint8_t param )
{
if ( LCDML . FUNC_setup ( ) ) // ****** SETUP *********
{
encoderDir [ ENC_R ] . reset ( ) ;
lcd_special_chars ( BLOCKBAR ) ;
lcd_display_bar_int ( " Delay Feedb. " , configuration . fx . delay_feedback [ selected_instance_id ] , 1.0 , DELAY_FEEDBACK_MIN , DELAY_FEEDBACK_MAX , 3 , false , false , true ) ;
lcd_active_instance_number ( selected_instance_id ) ;
lcd . setCursor ( 14 , 0 ) ;
lcd . write ( 0 ) ;
lcd . setCursor ( 15 , 0 ) ;
lcd . write ( 1 ) ;
}
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 ( ) )
configuration . fx . delay_feedback [ selected_instance_id ] = constrain ( configuration . fx . delay_feedback [ selected_instance_id ] + ENCODER [ ENC_R ] . speed ( ) , DELAY_FEEDBACK_MIN , DELAY_FEEDBACK_MAX ) ;
else if ( LCDML . BT_checkUp ( ) )
configuration . fx . delay_feedback [ selected_instance_id ] = constrain ( configuration . fx . delay_feedback [ selected_instance_id ] - ENCODER [ ENC_R ] . speed ( ) , DELAY_FEEDBACK_MIN , DELAY_FEEDBACK_MAX ) ;
# if NUM_DEXED > 1
else if ( LCDML . BT_checkEnter ( ) )
{
selected_instance_id = ! selected_instance_id ;
lcd_active_instance_number ( selected_instance_id ) ;
lcd . setCursor ( 14 , 0 ) ;
lcd . write ( 0 ) ;
lcd . setCursor ( 15 , 0 ) ;
lcd . write ( 1 ) ;
}
# endif
}
lcd_display_bar_int ( " Delay Feedb. " , configuration . fx . delay_feedback [ selected_instance_id ] , 1.0 , DELAY_FEEDBACK_MIN , DELAY_FEEDBACK_MAX , 3 , false , false , false ) ;
delay_fb_mixer [ selected_instance_id ] - > gain ( 1 , pseudo_log_curve ( mapfloat ( configuration . fx . delay_feedback [ selected_instance_id ] , DELAY_FEEDBACK_MIN , DELAY_FEEDBACK_MAX , 0.0 , 1.0 ) ) ) ; // amount of feedback
}
if ( LCDML . FUNC_close ( ) ) // ****** STABLE END *********
{
lcd_special_chars ( SCROLLBAR ) ;
encoderDir [ ENC_R ] . reset ( ) ;
EEPROM . update ( EEPROM_START_ADDRESS + offsetof ( configuration_s , fx . delay_feedback [ 0 ] ) , configuration . fx . delay_feedback [ 0 ] ) ;
# if NUM_DEXED > 1
EEPROM . update ( EEPROM_START_ADDRESS + offsetof ( configuration_s , fx . delay_feedback [ 1 ] ) , configuration . fx . delay_feedback [ 1 ] ) ;
# endif
}
}
void UI_func_delay_level ( uint8_t param )
{
if ( LCDML . FUNC_setup ( ) ) // ****** SETUP *********
{
encoderDir [ ENC_R ] . reset ( ) ;
lcd_special_chars ( BLOCKBAR ) ;
lcd_display_bar_int ( " Delay Lvl. " , configuration . fx . delay_level [ selected_instance_id ] , 1.0 , DELAY_LEVEL_MIN , DELAY_LEVEL_MAX , 3 , false , false , true ) ;
lcd_active_instance_number ( selected_instance_id ) ;
lcd . setCursor ( 14 , 0 ) ;
lcd . write ( 0 ) ;
lcd . setCursor ( 15 , 0 ) ;
lcd . write ( 1 ) ;
}
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 ( ) )
configuration . fx . delay_level [ selected_instance_id ] = constrain ( configuration . fx . delay_level [ selected_instance_id ] + ENCODER [ ENC_R ] . speed ( ) , DELAY_LEVEL_MIN , DELAY_LEVEL_MAX ) ;
else if ( LCDML . BT_checkUp ( ) )
configuration . fx . delay_level [ selected_instance_id ] = constrain ( configuration . fx . delay_level [ selected_instance_id ] - ENCODER [ ENC_R ] . speed ( ) , DELAY_LEVEL_MIN , DELAY_LEVEL_MAX ) ;
# if NUM_DEXED > 1
else if ( LCDML . BT_checkEnter ( ) )
{
selected_instance_id = ! selected_instance_id ;
lcd_active_instance_number ( selected_instance_id ) ;
lcd . setCursor ( 14 , 0 ) ;
lcd . write ( 0 ) ;
lcd . setCursor ( 15 , 0 ) ;
lcd . write ( 1 ) ;
}
# endif
}
lcd_display_bar_int ( " Delay Lvl. " , configuration . fx . delay_level [ selected_instance_id ] , 1.0 , DELAY_LEVEL_MIN , DELAY_LEVEL_MAX , 3 , false , false , false ) ;
delay_mixer [ selected_instance_id ] - > gain ( 1 , pseudo_log_curve ( mapfloat ( configuration . fx . delay_level [ selected_instance_id ] , DELAY_LEVEL_MIN , DELAY_LEVEL_MAX , 0.0 , 1.0 ) ) ) ;
if ( configuration . fx . delay_level [ selected_instance_id ] < = DELAY_LEVEL_MIN )
delay_fx [ selected_instance_id ] - > disable ( 0 ) ;
else
delay_fx [ selected_instance_id ] - > delay ( 0 , constrain ( configuration . fx . delay_time [ selected_instance_id ] , DELAY_TIME_MIN , DELAY_TIME_MAX ) * 10 ) ;
}
if ( LCDML . FUNC_close ( ) ) // ****** STABLE END *********
{
lcd_special_chars ( SCROLLBAR ) ;
encoderDir [ ENC_R ] . reset ( ) ;
EEPROM . update ( EEPROM_START_ADDRESS + offsetof ( configuration_s , fx . delay_level [ 0 ] ) , configuration . fx . delay_level [ 0 ] ) ;
# if NUM_DEXED > 1
EEPROM . update ( EEPROM_START_ADDRESS + offsetof ( configuration_s , fx . delay_level [ 1 ] ) , configuration . fx . delay_level [ 1 ] ) ;
# endif
}
}
void UI_func_reverb_send ( uint8_t param )
{
if ( LCDML . FUNC_setup ( ) ) // ****** SETUP *********
{
encoderDir [ ENC_R ] . reset ( ) ;
lcd_special_chars ( BLOCKBAR ) ;
lcd_display_bar_int ( " Reverb Send " , configuration . fx . reverb_send [ selected_instance_id ] , 1.0 , REVERB_SEND_MIN , REVERB_SEND_MAX , 3 , false , false , true ) ;
lcd_active_instance_number ( selected_instance_id ) ;
lcd . setCursor ( 14 , 0 ) ;
lcd . write ( 0 ) ;
lcd . setCursor ( 15 , 0 ) ;
lcd . write ( 1 ) ;
}
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 ( ) )
configuration . fx . reverb_send [ selected_instance_id ] = constrain ( configuration . fx . reverb_send [ selected_instance_id ] + ENCODER [ ENC_R ] . speed ( ) , REVERB_SEND_MIN , REVERB_SEND_MAX ) ;
else if ( LCDML . BT_checkUp ( ) )
configuration . fx . reverb_send [ selected_instance_id ] = constrain ( configuration . fx . reverb_send [ selected_instance_id ] - ENCODER [ ENC_R ] . speed ( ) , REVERB_SEND_MIN , REVERB_SEND_MAX ) ;
# if NUM_DEXED > 1
else if ( LCDML . BT_checkEnter ( ) )
{
selected_instance_id = ! selected_instance_id ;
lcd_active_instance_number ( selected_instance_id ) ;
lcd . setCursor ( 14 , 0 ) ;
lcd . write ( 0 ) ;
lcd . setCursor ( 15 , 0 ) ;
lcd . write ( 1 ) ;
}
# endif
}
lcd_display_bar_int ( " Reverb Send " , configuration . fx . reverb_send [ selected_instance_id ] , 1.0 , REVERB_SEND_MIN , REVERB_SEND_MAX , 3 , false , false , false ) ;
reverb_mixer_r . gain ( selected_instance_id , pseudo_log_curve ( mapfloat ( configuration . fx . reverb_send [ selected_instance_id ] , REVERB_SEND_MIN , REVERB_SEND_MAX , 0.0 , 1.0 ) ) ) ;
reverb_mixer_l . gain ( selected_instance_id , pseudo_log_curve ( mapfloat ( configuration . fx . reverb_send [ selected_instance_id ] , REVERB_SEND_MIN , REVERB_SEND_MAX , 0.0 , 1.0 ) ) ) ;
}
if ( LCDML . FUNC_close ( ) ) // ****** STABLE END *********
{
lcd_special_chars ( SCROLLBAR ) ;
encoderDir [ ENC_R ] . reset ( ) ;
EEPROM . update ( EEPROM_START_ADDRESS + offsetof ( configuration_s , fx . reverb_send [ 0 ] ) , configuration . fx . reverb_send [ 0 ] ) ;
# if NUM_DEXED > 1
EEPROM . update ( EEPROM_START_ADDRESS + offsetof ( configuration_s , fx . reverb_send [ 1 ] ) , configuration . fx . reverb_send [ 1 ] ) ;
# endif
}
}
void UI_func_filter_cutoff ( uint8_t param )
{
if ( LCDML . FUNC_setup ( ) ) // ****** SETUP *********
{
encoderDir [ ENC_R ] . reset ( ) ;
lcd_special_chars ( BLOCKBAR ) ;
lcd_display_bar_int ( " Filter Cut " , configuration . dexed [ selected_instance_id ] . filter_cutoff , 1.0 , FILTER_CUTOFF_MIN , FILTER_CUTOFF_MAX , 3 , false , false , true ) ;
lcd_active_instance_number ( selected_instance_id ) ;
lcd . setCursor ( 14 , 0 ) ;
lcd . write ( 0 ) ;
lcd . setCursor ( 15 , 0 ) ;
lcd . write ( 1 ) ;
}
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 ( ) )
configuration . dexed [ selected_instance_id ] . filter_cutoff = constrain ( configuration . dexed [ selected_instance_id ] . filter_cutoff + ENCODER [ ENC_R ] . speed ( ) , FILTER_CUTOFF_MIN , FILTER_CUTOFF_MAX ) ;
else if ( LCDML . BT_checkUp ( ) )
configuration . dexed [ selected_instance_id ] . filter_cutoff = constrain ( configuration . dexed [ selected_instance_id ] . filter_cutoff - ENCODER [ ENC_R ] . speed ( ) , FILTER_CUTOFF_MIN , FILTER_CUTOFF_MAX ) ;
# if NUM_DEXED > 1
else if ( LCDML . BT_checkEnter ( ) )
{
selected_instance_id = ! selected_instance_id ;
lcd_active_instance_number ( selected_instance_id ) ;
lcd . setCursor ( 14 , 0 ) ;
lcd . write ( 0 ) ;
lcd . setCursor ( 15 , 0 ) ;
lcd . write ( 1 ) ;
}
# endif
}
lcd_display_bar_int ( " Filter Cut " , configuration . dexed [ selected_instance_id ] . filter_cutoff , 1.0 , FILTER_CUTOFF_MIN , FILTER_CUTOFF_MAX , 3 , false , false , false ) ;
MicroDexed [ selected_instance_id ] - > fx . Cutoff = mapfloat ( configuration . dexed [ selected_instance_id ] . filter_cutoff , FILTER_CUTOFF_MIN , FILTER_CUTOFF_MAX , 1.0 , 0.0 ) ;
}
if ( LCDML . FUNC_close ( ) ) // ****** STABLE END *********
{
lcd_special_chars ( SCROLLBAR ) ;
encoderDir [ ENC_R ] . reset ( ) ;
EEPROM . update ( EEPROM_START_ADDRESS + offsetof ( configuration_s , dexed [ 0 ] . filter_cutoff ) , configuration . dexed [ 0 ] . filter_cutoff ) ;
# if NUM_DEXED > 1
EEPROM . update ( EEPROM_START_ADDRESS + offsetof ( configuration_s , dexed [ 1 ] . filter_cutoff ) , configuration . dexed [ 1 ] . filter_cutoff ) ;
# endif
}
}
void UI_func_filter_resonance ( uint8_t param )
{
if ( LCDML . FUNC_setup ( ) ) // ****** SETUP *********
{
encoderDir [ ENC_R ] . reset ( ) ;
lcd_special_chars ( BLOCKBAR ) ;
lcd_display_bar_int ( " Filter Res " , configuration . dexed [ selected_instance_id ] . filter_resonance , 1.0 , FILTER_RESONANCE_MIN , FILTER_RESONANCE_MAX , 3 , false , false , true ) ;
lcd_active_instance_number ( selected_instance_id ) ;
lcd . setCursor ( 14 , 0 ) ;
lcd . write ( 0 ) ;
lcd . setCursor ( 15 , 0 ) ;
lcd . write ( 1 ) ;
}
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 ( ) )
configuration . dexed [ selected_instance_id ] . filter_resonance = constrain ( configuration . dexed [ selected_instance_id ] . filter_resonance + ENCODER [ ENC_R ] . speed ( ) , FILTER_RESONANCE_MIN , FILTER_RESONANCE_MAX ) ;
else if ( LCDML . BT_checkUp ( ) )
configuration . dexed [ selected_instance_id ] . filter_resonance = constrain ( configuration . dexed [ selected_instance_id ] . filter_resonance - ENCODER [ ENC_R ] . speed ( ) , FILTER_RESONANCE_MIN , FILTER_RESONANCE_MAX ) ;
# if NUM_DEXED > 1
else if ( LCDML . BT_checkEnter ( ) )
{
selected_instance_id = ! selected_instance_id ;
lcd_active_instance_number ( selected_instance_id ) ;
lcd . setCursor ( 14 , 0 ) ;
lcd . write ( 0 ) ;
lcd . setCursor ( 15 , 0 ) ;
lcd . write ( 1 ) ;
}
# endif
}
lcd_display_bar_int ( " Filter Res " , configuration . dexed [ selected_instance_id ] . filter_resonance , 1.0 , FILTER_RESONANCE_MIN , FILTER_RESONANCE_MAX , 3 , false , false , false ) ;
MicroDexed [ selected_instance_id ] - > fx . Reso = mapfloat ( configuration . dexed [ selected_instance_id ] . filter_resonance , FILTER_RESONANCE_MIN , FILTER_RESONANCE_MAX , 1.0 , 0.0 ) ;
}
if ( LCDML . FUNC_close ( ) ) // ****** STABLE END *********
{
lcd_special_chars ( SCROLLBAR ) ;
encoderDir [ ENC_R ] . reset ( ) ;
EEPROM . update ( EEPROM_START_ADDRESS + offsetof ( configuration_s , dexed [ 0 ] . filter_resonance ) , configuration . dexed [ 0 ] . filter_resonance ) ;
# if NUM_DEXED > 1
EEPROM . update ( EEPROM_START_ADDRESS + offsetof ( configuration_s , dexed [ 1 ] . filter_resonance ) , configuration . dexed [ 1 ] . filter_resonance ) ;
# endif
}
}
# endif
void UI_func_transpose ( uint8_t param )
{
if ( LCDML . FUNC_setup ( ) ) // ****** SETUP *********
{
encoderDir [ ENC_R ] . reset ( ) ;
lcd_special_chars ( METERBAR ) ;
lcd_display_meter_int ( " Transpose " , configuration . dexed [ selected_instance_id ] . transpose , 1.0 , - 24.0 , TRANSPOSE_MIN , TRANSPOSE_MAX , 2 , false , true , true ) ;
lcd_active_instance_number ( selected_instance_id ) ;
lcd . setCursor ( 14 , 0 ) ;
lcd . write ( 0 ) ;
lcd . setCursor ( 15 , 0 ) ;
lcd . write ( 1 ) ;
}
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 ( ) )
configuration . dexed [ selected_instance_id ] . transpose = constrain ( configuration . dexed [ selected_instance_id ] . transpose + ENCODER [ ENC_R ] . speed ( ) , TRANSPOSE_MIN , TRANSPOSE_MAX ) ;
else if ( LCDML . BT_checkUp ( ) )
configuration . dexed [ selected_instance_id ] . transpose = constrain ( configuration . dexed [ selected_instance_id ] . transpose - ENCODER [ ENC_R ] . speed ( ) , TRANSPOSE_MIN , TRANSPOSE_MAX ) ;
# if NUM_DEXED > 1
else if ( LCDML . BT_checkEnter ( ) )
{
selected_instance_id = ! selected_instance_id ;
lcd_active_instance_number ( selected_instance_id ) ;
lcd . setCursor ( 14 , 0 ) ;
lcd . write ( 0 ) ;
lcd . setCursor ( 15 , 0 ) ;
lcd . write ( 1 ) ;
}
# endif
}
lcd_display_meter_int ( " Transpose " , configuration . dexed [ selected_instance_id ] . transpose , 1.0 , - 24.0 , TRANSPOSE_MIN , TRANSPOSE_MAX , 2 , false , true , true ) ;
MicroDexed [ selected_instance_id ] - > data [ DEXED_VOICE_OFFSET + DEXED_TRANSPOSE ] = configuration . dexed [ selected_instance_id ] . transpose ;
MicroDexed [ selected_instance_id ] - > notesOff ( ) ;
}
if ( LCDML . FUNC_close ( ) ) // ****** STABLE END *********
{
lcd_special_chars ( SCROLLBAR ) ;
encoderDir [ ENC_R ] . reset ( ) ;
EEPROM . update ( EEPROM_START_ADDRESS + offsetof ( configuration_s , dexed [ 0 ] . transpose ) , configuration . dexed [ 0 ] . transpose ) ;
# if NUM_DEXED > 1
EEPROM . update ( EEPROM_START_ADDRESS + offsetof ( configuration_s , dexed [ 1 ] . transpose ) , configuration . dexed [ 1 ] . transpose ) ;
# endif
}
}
void UI_func_tune ( uint8_t param )
{
if ( LCDML . FUNC_setup ( ) ) // ****** SETUP *********
{
encoderDir [ ENC_R ] . reset ( ) ;
lcd_special_chars ( METERBAR ) ;
lcd_display_meter_int ( " Fine Tune " , configuration . dexed [ selected_instance_id ] . tune , 1.0 , - 100.0 , TUNE_MIN , TUNE_MAX , 3 , false , true , true ) ;
lcd_active_instance_number ( selected_instance_id ) ;
lcd . setCursor ( 14 , 0 ) ;
lcd . write ( 0 ) ;
lcd . setCursor ( 15 , 0 ) ;
lcd . write ( 1 ) ;
}
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 ( ) )
configuration . dexed [ selected_instance_id ] . tune = constrain ( configuration . dexed [ selected_instance_id ] . tune + ENCODER [ ENC_R ] . speed ( ) , TUNE_MIN , TUNE_MAX ) ;
else if ( LCDML . BT_checkUp ( ) )
configuration . dexed [ selected_instance_id ] . tune = constrain ( configuration . dexed [ selected_instance_id ] . tune - ENCODER [ ENC_R ] . speed ( ) , TUNE_MIN , TUNE_MAX ) ;
# if NUM_DEXED > 1
else if ( LCDML . BT_checkEnter ( ) )
{
selected_instance_id = ! selected_instance_id ;
lcd_active_instance_number ( selected_instance_id ) ;
lcd . setCursor ( 14 , 0 ) ;
lcd . write ( 0 ) ;
lcd . setCursor ( 15 , 0 ) ;
lcd . write ( 1 ) ;
}
# endif
}
lcd_display_meter_int ( " Fine Tune " , configuration . dexed [ selected_instance_id ] . tune , 1.0 , - 100.0 , TUNE_MIN , TUNE_MAX , 3 , false , true , false ) ;
MicroDexed [ selected_instance_id ] - > controllers . masterTune = ( int ( ( configuration . dexed [ selected_instance_id ] . tune - 100 ) / 100.0 * 0x4000 ) < < 11 ) * ( 1.0 / 12 ) ;
MicroDexed [ selected_instance_id ] - > doRefreshVoice ( ) ;
}
if ( LCDML . FUNC_close ( ) ) // ****** STABLE END *********
{
lcd_special_chars ( SCROLLBAR ) ;
encoderDir [ ENC_R ] . reset ( ) ;
EEPROM . update ( EEPROM_START_ADDRESS + offsetof ( configuration_s , dexed [ 0 ] . tune ) , configuration . dexed [ 0 ] . tune ) ;
# if NUM_DEXED > 1
EEPROM . update ( EEPROM_START_ADDRESS + offsetof ( configuration_s , dexed [ 1 ] . tune ) , configuration . dexed [ 1 ] . tune ) ;
# endif
}
}
void UI_func_midi_channel ( uint8_t param )
{
if ( LCDML . FUNC_setup ( ) ) // ****** SETUP *********
{
encoderDir [ ENC_R ] . reset ( ) ;
lcd . setCursor ( 0 , 0 ) ;
lcd . print ( F ( " MIDI Channel " ) ) ;
lcd_active_instance_number ( selected_instance_id ) ;
lcd . setCursor ( 14 , 0 ) ;
lcd . write ( 0 ) ;
lcd . setCursor ( 15 , 0 ) ;
lcd . write ( 1 ) ;
}
if ( LCDML . FUNC_loop ( ) ) // ****** LOOP *********
{
if ( LCDML . BT_checkDown ( ) & & encoderDir [ ENC_R ] . Down ( ) )
configuration . dexed [ selected_instance_id ] . midi_channel = constrain ( configuration . dexed [ selected_instance_id ] . midi_channel + ENCODER [ ENC_R ] . speed ( ) , MIDI_CHANNEL_MIN , MIDI_CHANNEL_MAX ) ;
else if ( LCDML . BT_checkUp ( ) & & encoderDir [ ENC_R ] . Up ( ) )
configuration . dexed [ selected_instance_id ] . midi_channel = constrain ( configuration . dexed [ selected_instance_id ] . midi_channel - ENCODER [ ENC_R ] . speed ( ) , MIDI_CHANNEL_MIN , MIDI_CHANNEL_MAX ) ;
# if NUM_DEXED > 1
else if ( LCDML . BT_checkEnter ( ) & & encoderDir [ ENC_R ] . ButtonShort ( ) )
{
selected_instance_id = ! selected_instance_id ;
lcd_active_instance_number ( selected_instance_id ) ;
lcd . setCursor ( 14 , 0 ) ;
lcd . write ( 0 ) ;
lcd . setCursor ( 15 , 0 ) ;
lcd . write ( 1 ) ;
}
# endif
lcd . setCursor ( 0 , 1 ) ;
if ( configuration . dexed [ selected_instance_id ] . midi_channel = = 0 )
{
lcd . print ( F ( " [OMNI] " ) ) ;
}
else
{
lcd_display_int ( configuration . dexed [ selected_instance_id ] . midi_channel , 4 , false , true , false ) ;
}
}
if ( LCDML . FUNC_close ( ) ) // ****** STABLE END *********
{
// you can here reset some global vars or do nothing
encoderDir [ ENC_R ] . reset ( ) ;
EEPROM . update ( EEPROM_START_ADDRESS + offsetof ( configuration_s , dexed [ 0 ] . midi_channel ) , configuration . dexed [ 0 ] . midi_channel ) ;
# if NUM_DEXED > 1
EEPROM . update ( EEPROM_START_ADDRESS + offsetof ( configuration_s , dexed [ 1 ] . midi_channel ) , configuration . dexed [ 1 ] . midi_channel ) ;
# endif
}
}
void getNoteName ( char * noteName , uint8_t noteNumber )
{
char notes [ 12 ] [ 3 ] = { " A " , " A# " , " B " , " C " , " C# " , " D " , " D# " , " E " , " F " , " F# " , " G " , " G# " } ;
uint8_t oct_index = noteNumber - 12 ;
noteNumber - = 21 ;
sprintf ( noteName , " %2s%1d " , notes [ noteNumber % 12 ] , oct_index / 12 ) ;
}
void UI_func_lowest_note ( uint8_t param )
{
char note_name [ 4 ] ;
if ( LCDML . FUNC_setup ( ) ) // ****** SETUP *********
{
encoderDir [ ENC_R ] . reset ( ) ;
getNoteName ( note_name , configuration . dexed [ selected_instance_id ] . lowest_note ) ;
lcd . setCursor ( 0 , 0 ) ;
lcd . print ( F ( " Lowest Note " ) ) ;
lcd . setCursor ( 0 , 1 ) ;
lcd . print ( F ( " [ " ) ) ;
lcd . print ( note_name ) ;
lcd . print ( F ( " ] " ) ) ;
lcd_active_instance_number ( selected_instance_id ) ;
lcd . setCursor ( 14 , 0 ) ;
lcd . write ( 0 ) ;
lcd . setCursor ( 15 , 0 ) ;
lcd . write ( 1 ) ;
}
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 ( ) )
configuration . dexed [ selected_instance_id ] . lowest_note = constrain ( configuration . dexed [ selected_instance_id ] . lowest_note + ENCODER [ ENC_R ] . speed ( ) , INSTANCE_LOWEST_NOTE_MIN , INSTANCE_LOWEST_NOTE_MAX ) ;
else if ( LCDML . BT_checkUp ( ) )
configuration . dexed [ selected_instance_id ] . lowest_note = constrain ( configuration . dexed [ selected_instance_id ] . lowest_note - ENCODER [ ENC_R ] . speed ( ) , INSTANCE_LOWEST_NOTE_MIN , INSTANCE_LOWEST_NOTE_MAX ) ;
# if NUM_DEXED > 1
else if ( LCDML . BT_checkEnter ( ) )
{
selected_instance_id = ! selected_instance_id ;
lcd_active_instance_number ( selected_instance_id ) ;
lcd . setCursor ( 14 , 0 ) ;
lcd . write ( 0 ) ;
lcd . setCursor ( 15 , 0 ) ;
lcd . write ( 1 ) ;
}
# endif
}
getNoteName ( note_name , configuration . dexed [ selected_instance_id ] . lowest_note ) ;
lcd . setCursor ( 1 , 1 ) ;
lcd . print ( note_name ) ;
}
if ( LCDML . FUNC_close ( ) ) // ****** STABLE END *********
{
encoderDir [ ENC_R ] . reset ( ) ;
EEPROM . update ( EEPROM_START_ADDRESS + offsetof ( configuration_s , dexed [ 0 ] . lowest_note ) , configuration . dexed [ 0 ] . lowest_note ) ;
# if NUM_DEXED > 1
EEPROM . update ( EEPROM_START_ADDRESS + offsetof ( configuration_s , dexed [ 1 ] . lowest_note ) , configuration . dexed [ 1 ] . lowest_note ) ;
# endif
}
}
void UI_func_highest_note ( uint8_t param )
{
char note_name [ 4 ] ;
if ( LCDML . FUNC_setup ( ) ) // ****** SETUP *********
{
encoderDir [ ENC_R ] . reset ( ) ;
getNoteName ( note_name , configuration . dexed [ selected_instance_id ] . highest_note ) ;
lcd . setCursor ( 0 , 0 ) ;
lcd . print ( F ( " Highest Note " ) ) ;
lcd . setCursor ( 0 , 1 ) ;
lcd . print ( F ( " [ " ) ) ;
lcd . print ( note_name ) ;
lcd . print ( F ( " ] " ) ) ;
lcd_active_instance_number ( selected_instance_id ) ;
lcd . setCursor ( 14 , 0 ) ;
lcd . write ( 0 ) ;
lcd . setCursor ( 15 , 0 ) ;
lcd . write ( 1 ) ;
}
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 ( ) )
configuration . dexed [ selected_instance_id ] . highest_note = constrain ( configuration . dexed [ selected_instance_id ] . highest_note + ENCODER [ ENC_R ] . speed ( ) , INSTANCE_HIGHEST_NOTE_MIN , INSTANCE_HIGHEST_NOTE_MAX ) ;
else if ( LCDML . BT_checkUp ( ) )
configuration . dexed [ selected_instance_id ] . highest_note = constrain ( configuration . dexed [ selected_instance_id ] . highest_note - ENCODER [ ENC_R ] . speed ( ) , INSTANCE_HIGHEST_NOTE_MIN , INSTANCE_HIGHEST_NOTE_MAX ) ;
# if NUM_DEXED > 1
else if ( LCDML . BT_checkEnter ( ) )
{
selected_instance_id = ! selected_instance_id ;
lcd_active_instance_number ( selected_instance_id ) ;
lcd . setCursor ( 14 , 0 ) ;
lcd . write ( 0 ) ;
lcd . setCursor ( 15 , 0 ) ;
lcd . write ( 1 ) ;
}
# endif
}
getNoteName ( note_name , configuration . dexed [ selected_instance_id ] . highest_note ) ;
lcd . setCursor ( 1 , 1 ) ;
lcd . print ( note_name ) ;
}
if ( LCDML . FUNC_close ( ) ) // ****** STABLE END *********
{
encoderDir [ ENC_R ] . reset ( ) ;
EEPROM . update ( EEPROM_START_ADDRESS + offsetof ( configuration_s , dexed [ 0 ] . highest_note ) , configuration . dexed [ 0 ] . highest_note ) ;
# if NUM_DEXED > 1
EEPROM . update ( EEPROM_START_ADDRESS + offsetof ( configuration_s , dexed [ 1 ] . highest_note ) , configuration . dexed [ 1 ] . highest_note ) ;
# endif
}
}
void UI_func_sound_intensity ( uint8_t param )
{
if ( LCDML . FUNC_setup ( ) ) // ****** SETUP *********
{
encoderDir [ ENC_R ] . reset ( ) ;
lcd_special_chars ( BLOCKBAR ) ;
lcd_display_bar_int ( " Voice Level " , configuration . dexed [ selected_instance_id ] . sound_intensity , 1.0 , SOUND_INTENSITY_MIN , SOUND_INTENSITY_MAX , 3 , false , false , true ) ;
lcd_active_instance_number ( selected_instance_id ) ;
lcd . setCursor ( 14 , 0 ) ;
lcd . write ( 0 ) ;
lcd . setCursor ( 15 , 0 ) ;
lcd . write ( 1 ) ;
}
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 ( ) ) )
{
encoderDir [ ENC_R ] . reset ( ) ;
if ( LCDML . BT_checkDown ( ) )
configuration . dexed [ selected_instance_id ] . sound_intensity = constrain ( configuration . dexed [ selected_instance_id ] . sound_intensity + ENCODER [ ENC_R ] . speed ( ) , SOUND_INTENSITY_MIN , SOUND_INTENSITY_MAX ) ;
else if ( LCDML . BT_checkUp ( ) )
configuration . dexed [ selected_instance_id ] . sound_intensity = constrain ( configuration . dexed [ selected_instance_id ] . sound_intensity - ENCODER [ ENC_R ] . speed ( ) , SOUND_INTENSITY_MIN , SOUND_INTENSITY_MAX ) ;
# if NUM_DEXED > 1
else if ( LCDML . BT_checkEnter ( ) )
{
selected_instance_id = ! selected_instance_id ;
lcd_active_instance_number ( selected_instance_id ) ;
lcd . setCursor ( 14 , 0 ) ;
lcd . write ( 0 ) ;
lcd . setCursor ( 15 , 0 ) ;
lcd . write ( 1 ) ;
}
# endif
}
lcd_display_bar_int ( " Voice Level " , configuration . dexed [ selected_instance_id ] . sound_intensity , 1.0 , SOUND_INTENSITY_MIN , SOUND_INTENSITY_MAX , 3 , false , false , false ) ;
MicroDexed [ selected_instance_id ] - > fx . Gain = mapfloat ( configuration . dexed [ selected_instance_id ] . sound_intensity , SOUND_INTENSITY_MIN , SOUND_INTENSITY_MAX , 0.0 , SOUND_INTENSITY_AMP_MAX ) ;
}
if ( LCDML . FUNC_close ( ) ) // ****** STABLE END *********
{
lcd_special_chars ( SCROLLBAR ) ;
encoderDir [ ENC_R ] . reset ( ) ;
EEPROM . update ( EEPROM_START_ADDRESS + offsetof ( configuration_s , dexed [ 0 ] . sound_intensity ) , configuration . dexed [ 0 ] . sound_intensity ) ;
# if NUM_DEXED > 1
EEPROM . update ( EEPROM_START_ADDRESS + offsetof ( configuration_s , dexed [ 1 ] . sound_intensity ) , configuration . dexed [ 1 ] . sound_intensity ) ;
# endif
}
}
void UI_func_panorama ( uint8_t param )
{
if ( LCDML . FUNC_setup ( ) ) // ****** SETUP *********
{
encoderDir [ ENC_R ] . reset ( ) ;
if ( configuration . sys . mono > 0 )
{
lcd . setCursor ( 0 , 0 ) ;
lcd . print ( F ( " Panorama " ) ) ;
lcd . setCursor ( 0 , 1 ) ;
lcd . print ( F ( " MONO-disabled " ) ) ;
return ;
}
lcd_special_chars ( METERBAR ) ;
lcd_display_meter_float ( " Panorama " , configuration . dexed [ selected_instance_id ] . pan , 0.05 , - 20.0 , PANORAMA_MIN , PANORAMA_MAX , 1 , 1 , false , true , true ) ;
lcd_active_instance_number ( selected_instance_id ) ;
lcd . setCursor ( 14 , 0 ) ;
lcd . write ( 0 ) ;
lcd . setCursor ( 15 , 0 ) ;
lcd . write ( 1 ) ;
}
if ( LCDML . FUNC_loop ( ) ) // ****** LOOP *********
{
if ( LCDML . BT_checkDown ( ) & & encoderDir [ ENC_R ] . Down ( ) & & configuration . sys . mono = = 0 )
configuration . dexed [ selected_instance_id ] . pan = constrain ( configuration . dexed [ selected_instance_id ] . pan + ENCODER [ ENC_R ] . speed ( ) , PANORAMA_MIN , PANORAMA_MAX ) ;
else if ( LCDML . BT_checkUp ( ) & & encoderDir [ ENC_R ] . Up ( ) & & configuration . sys . mono = = 0 )
configuration . dexed [ selected_instance_id ] . pan = constrain ( configuration . dexed [ selected_instance_id ] . pan - ENCODER [ ENC_R ] . speed ( ) , PANORAMA_MIN , PANORAMA_MAX ) ;
# if NUM_DEXED > 1
else if ( LCDML . BT_checkEnter ( ) & & encoderDir [ ENC_R ] . ButtonShort ( ) )
{
selected_instance_id = ! selected_instance_id ;
lcd_active_instance_number ( selected_instance_id ) ;
lcd . setCursor ( 14 , 0 ) ;
lcd . write ( 0 ) ;
lcd . setCursor ( 15 , 0 ) ;
lcd . write ( 1 ) ;
}
# endif
if ( configuration . sys . mono = = 0 )
{
lcd_display_meter_float ( " Panorama " , configuration . dexed [ selected_instance_id ] . pan , 0.05 , - 20.0 , PANORAMA_MIN , PANORAMA_MAX , 1 , 1 , false , true , false ) ;
mono2stereo [ selected_instance_id ] - > panorama ( mapfloat ( configuration . dexed [ selected_instance_id ] . pan , PANORAMA_MIN , PANORAMA_MAX , - 1.0 , 1.0 ) ) ;
}
}
if ( LCDML . FUNC_close ( ) ) // ****** STABLE END *********
{
lcd_special_chars ( SCROLLBAR ) ;
encoderDir [ ENC_R ] . reset ( ) ;
EEPROM . update ( EEPROM_START_ADDRESS + offsetof ( configuration_s , dexed [ 0 ] . pan ) , configuration . dexed [ 0 ] . pan ) ;
# if NUM_DEXED > 1
EEPROM . update ( EEPROM_START_ADDRESS + offsetof ( configuration_s , dexed [ 1 ] . pan ) , configuration . dexed [ 1 ] . pan ) ;
# endif
}
}
void UI_func_stereo_mono ( uint8_t param )
{
if ( LCDML . FUNC_setup ( ) ) // ****** SETUP *********
{
encoderDir [ ENC_R ] . reset ( ) ;
lcd . setCursor ( 0 , 0 ) ;
lcd . print ( F ( " Stereo/Mono " ) ) ;
lcd . setCursor ( 0 , 1 ) ;
switch ( configuration . sys . mono )
{
case 0 :
lcd . print ( F ( " [STEREO] " ) ) ;
stereo2mono . stereo ( true ) ;
break ;
case 1 :
lcd . print ( F ( " [MONO ] " ) ) ;
stereo2mono . stereo ( false ) ;
break ;
case 2 :
lcd . print ( F ( " [MONO-R] " ) ) ;
stereo2mono . stereo ( false ) ;
break ;
case 3 :
lcd . print ( F ( " [MONO-L] " ) ) ;
stereo2mono . stereo ( false ) ;
break ;
}
}
if ( LCDML . FUNC_loop ( ) ) // ****** LOOP *********
{
if ( LCDML . BT_checkDown ( ) )
configuration . sys . mono = constrain ( configuration . sys . mono + 1 , MONO_MIN , MONO_MAX ) ;
else if ( LCDML . BT_checkUp ( ) )
configuration . sys . mono = constrain ( configuration . sys . mono - 1 , MONO_MIN , MONO_MAX ) ;
lcd . setCursor ( 0 , 1 ) ;
switch ( configuration . sys . mono )
{
case 0 :
lcd . print ( F ( " [STEREO] " ) ) ;
stereo2mono . stereo ( true ) ;
break ;
case 1 :
lcd . print ( F ( " [MONO ] " ) ) ;
stereo2mono . stereo ( false ) ;
break ;
case 2 :
lcd . print ( F ( " [MONO-R] " ) ) ;
stereo2mono . stereo ( false ) ;
break ;
case 3 :
lcd . print ( F ( " [MONO-L] " ) ) ;
stereo2mono . stereo ( false ) ;
break ;
}
set_volume ( configuration . sys . vol , configuration . sys . mono ) ;
}
if ( LCDML . FUNC_close ( ) ) // ****** STABLE END *********
{
encoderDir [ ENC_R ] . reset ( ) ;
EEPROM . update ( EEPROM_START_ADDRESS + offsetof ( configuration_s , sys . mono ) , configuration . sys . mono ) ;
}
}
void UI_func_polyphony ( uint8_t param )
{
if ( LCDML . FUNC_setup ( ) ) // ****** SETUP *********
{
encoderDir [ ENC_R ] . reset ( ) ;
lcd_special_chars ( BLOCKBAR ) ;
lcd_display_bar_int ( " Polyphony " , configuration . dexed [ selected_instance_id ] . polyphony , 1.0 , POLYPHONY_MIN , POLYPHONY_MAX , 2 , false , false , true ) ;
lcd_active_instance_number ( selected_instance_id ) ;
lcd . setCursor ( 14 , 0 ) ;
lcd . write ( 0 ) ;
lcd . setCursor ( 15 , 0 ) ;
lcd . write ( 1 ) ;
}
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 NUM_DEXED > 1
if ( configuration . dexed [ 0 ] . polyphony + configuration . dexed [ 1 ] . polyphony + 1 < = POLYPHONY_MAX )
# endif
configuration . dexed [ selected_instance_id ] . polyphony = constrain ( configuration . dexed [ selected_instance_id ] . polyphony + 1 , POLYPHONY_MIN , POLYPHONY_MAX ) ;
}
else if ( LCDML . BT_checkUp ( ) )
{
if ( configuration . dexed [ selected_instance_id ] . polyphony - 1 < 0 )
configuration . dexed [ selected_instance_id ] . polyphony = 0 ;
else
configuration . dexed [ selected_instance_id ] . polyphony = constrain ( configuration . dexed [ selected_instance_id ] . polyphony - 1 , POLYPHONY_MIN , POLYPHONY_MAX ) ;
}
# if NUM_DEXED > 1
else if ( LCDML . BT_checkEnter ( ) )
{
selected_instance_id = ! selected_instance_id ;
lcd_active_instance_number ( selected_instance_id ) ;
lcd . setCursor ( 14 , 0 ) ;
lcd . write ( 0 ) ;
lcd . setCursor ( 15 , 0 ) ;
lcd . write ( 1 ) ;
}
lcd_active_instance_number ( selected_instance_id ) ;
# endif
}
lcd_display_bar_int ( " Polyphony " , configuration . dexed [ selected_instance_id ] . polyphony , 1.0 , POLYPHONY_MIN , POLYPHONY_MAX , 2 , false , false , false ) ;
MicroDexed [ selected_instance_id ] - > setMaxNotes ( configuration . dexed [ selected_instance_id ] . polyphony ) ;
}
if ( LCDML . FUNC_close ( ) ) // ****** STABLE END *********
{
lcd_special_chars ( SCROLLBAR ) ;
encoderDir [ ENC_R ] . reset ( ) ;
EEPROM . update ( EEPROM_START_ADDRESS + offsetof ( configuration_s , dexed [ 0 ] . polyphony ) , configuration . dexed [ 0 ] . polyphony ) ;
# if NUM_DEXED > 1
EEPROM . update ( EEPROM_START_ADDRESS + offsetof ( configuration_s , dexed [ 1 ] . polyphony ) , configuration . dexed [ 1 ] . polyphony ) ;
# endif
}
}
void UI_func_engine ( uint8_t param )
{
if ( LCDML . FUNC_setup ( ) ) // ****** SETUP *********
{
encoderDir [ ENC_R ] . reset ( ) ;
lcd . setCursor ( 0 , 0 ) ;
lcd . print ( F ( " Engine " ) ) ;
lcd_active_instance_number ( selected_instance_id ) ;
lcd . setCursor ( 14 , 0 ) ;
lcd . write ( 0 ) ;
lcd . setCursor ( 15 , 0 ) ;
lcd . write ( 1 ) ;
}
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 ( ) )
configuration . dexed [ selected_instance_id ] . engine = constrain ( configuration . dexed [ selected_instance_id ] . engine + 1 , ENGINE_MIN , ENGINE_MAX ) ;
else if ( LCDML . BT_checkUp ( ) )
configuration . dexed [ selected_instance_id ] . engine = constrain ( configuration . dexed [ selected_instance_id ] . engine - 1 , ENGINE_MIN , ENGINE_MAX ) ;
# if NUM_DEXED > 1
else if ( LCDML . BT_checkEnter ( ) )
{
selected_instance_id = ! selected_instance_id ;
lcd_active_instance_number ( selected_instance_id ) ;
lcd . setCursor ( 14 , 0 ) ;
lcd . write ( 0 ) ;
lcd . setCursor ( 15 , 0 ) ;
lcd . write ( 1 ) ;
}
# endif
}
MicroDexed [ selected_instance_id ] - > setEngineType ( configuration . dexed [ selected_instance_id ] . engine ) ;
lcd . setCursor ( 0 , 1 ) ;
switch ( configuration . dexed [ selected_instance_id ] . engine )
{
case 0 :
lcd . print ( F ( " [MODERN] " ) ) ;
break ;
case 1 :
lcd . print ( F ( " [MARK 1] " ) ) ;
break ;
case 2 :
lcd . print ( F ( " [OPL ] " ) ) ;
break ;
}
}
if ( LCDML . FUNC_close ( ) ) // ****** STABLE END *********
{
encoderDir [ ENC_R ] . reset ( ) ;
EEPROM . update ( EEPROM_START_ADDRESS + offsetof ( configuration_s , dexed [ 0 ] . engine ) , configuration . dexed [ 0 ] . engine ) ;
# if NUM_DEXED > 1
EEPROM . update ( EEPROM_START_ADDRESS + offsetof ( configuration_s , dexed [ 1 ] . engine ) , configuration . dexed [ 1 ] . engine ) ;
# endif
}
}
void UI_func_mono_poly ( uint8_t param )
{
if ( LCDML . FUNC_setup ( ) ) // ****** SETUP *********
{
encoderDir [ ENC_R ] . reset ( ) ;
lcd . setCursor ( 0 , 0 ) ;
lcd . print ( F ( " Mono/Polyphonic " ) ) ;
lcd_active_instance_number ( selected_instance_id ) ;
lcd . setCursor ( 14 , 0 ) ;
lcd . write ( 0 ) ;
lcd . setCursor ( 15 , 0 ) ;
lcd . write ( 1 ) ;
}
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 ( ) )
configuration . dexed [ selected_instance_id ] . monopoly = constrain ( configuration . dexed [ selected_instance_id ] . monopoly + 1 , MONOPOLY_MIN , MONOPOLY_MAX ) ;
else if ( LCDML . BT_checkUp ( ) )
configuration . dexed [ selected_instance_id ] . monopoly = constrain ( configuration . dexed [ selected_instance_id ] . monopoly - 1 , MONOPOLY_MIN , MONOPOLY_MAX ) ;
# if NUM_DEXED > 1
else if ( LCDML . BT_checkEnter ( ) )
{
selected_instance_id = ! selected_instance_id ;
lcd_active_instance_number ( selected_instance_id ) ;
lcd . setCursor ( 14 , 0 ) ;
lcd . write ( 0 ) ;
lcd . setCursor ( 15 , 0 ) ;
lcd . write ( 1 ) ;
}
lcd_active_instance_number ( selected_instance_id ) ;
# endif
}
MicroDexed [ selected_instance_id ] - > setMonoMode ( ! configuration . dexed [ selected_instance_id ] . monopoly ) ;
lcd . setCursor ( 0 , 1 ) ;
switch ( configuration . dexed [ selected_instance_id ] . monopoly )
{
case 0 :
lcd . print ( F ( " [MONOPHONIC] " ) ) ;
break ;
case 1 :
lcd . print ( F ( " [POLYPHONIC] " ) ) ;
break ;
}
}
if ( LCDML . FUNC_close ( ) ) // ****** STABLE END *********
{
lcd_special_chars ( SCROLLBAR ) ;
encoderDir [ ENC_R ] . reset ( ) ;
EEPROM . update ( EEPROM_START_ADDRESS + offsetof ( configuration_s , dexed [ 0 ] . monopoly ) , configuration . dexed [ 0 ] . monopoly ) ;
# if NUM_DEXED > 1
EEPROM . update ( EEPROM_START_ADDRESS + offsetof ( configuration_s , dexed [ 1 ] . monopoly ) , configuration . dexed [ 1 ] . monopoly ) ;
# endif
}
}
void UI_func_note_refresh ( uint8_t param )
{
if ( LCDML . FUNC_setup ( ) ) // ****** SETUP *********
{
encoderDir [ ENC_R ] . reset ( ) ;
lcd . setCursor ( 0 , 0 ) ;
lcd . print ( F ( " Note Refresh " ) ) ;
lcd_active_instance_number ( selected_instance_id ) ;
lcd . setCursor ( 14 , 0 ) ;
lcd . write ( 0 ) ;
lcd . setCursor ( 15 , 0 ) ;
lcd . write ( 1 ) ;
}
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 ( ) )
configuration . dexed [ selected_instance_id ] . note_refresh = constrain ( configuration . dexed [ selected_instance_id ] . note_refresh + 1 , NOTE_REFRESH_MIN , NOTE_REFRESH_MAX ) ;
else if ( LCDML . BT_checkUp ( ) )
configuration . dexed [ selected_instance_id ] . note_refresh = constrain ( configuration . dexed [ selected_instance_id ] . note_refresh - 1 , NOTE_REFRESH_MIN , NOTE_REFRESH_MAX ) ;
# if NUM_DEXED > 1
else if ( LCDML . BT_checkEnter ( ) )
{
selected_instance_id = ! selected_instance_id ;
lcd_active_instance_number ( selected_instance_id ) ;
lcd . setCursor ( 14 , 0 ) ;
lcd . write ( 0 ) ;
lcd . setCursor ( 15 , 0 ) ;
lcd . write ( 1 ) ;
}
# endif
}
MicroDexed [ selected_instance_id ] - > setRefreshMode ( configuration . dexed [ selected_instance_id ] . note_refresh ) ;
lcd . setCursor ( 0 , 1 ) ;
switch ( configuration . dexed [ selected_instance_id ] . note_refresh )
{
case 0 :
lcd . print ( F ( " [NORMAL ] " ) ) ;
break ;
case 1 :
lcd . print ( F ( " [RETRIGGERED] " ) ) ;
break ;
}
}
if ( LCDML . FUNC_close ( ) ) // ****** STABLE END *********
{
lcd_special_chars ( SCROLLBAR ) ;
encoderDir [ ENC_R ] . reset ( ) ;
EEPROM . update ( EEPROM_START_ADDRESS + offsetof ( configuration_s , dexed [ 0 ] . note_refresh ) , configuration . dexed [ 0 ] . note_refresh ) ;
# if NUM_DEXED > 1
EEPROM . update ( EEPROM_START_ADDRESS + offsetof ( configuration_s , dexed [ 1 ] . note_refresh ) , configuration . dexed [ 1 ] . note_refresh ) ;
# endif
}
}
void UI_func_pb_range ( uint8_t param )
{
if ( LCDML . FUNC_setup ( ) ) // ****** SETUP *********
{
encoderDir [ ENC_R ] . reset ( ) ;
lcd_special_chars ( BLOCKBAR ) ;
lcd_display_bar_int ( " PB Range " , configuration . dexed [ selected_instance_id ] . pb_range , 1.0 , PB_RANGE_MIN , PB_RANGE_MAX , 2 , false , false , true ) ;
lcd_active_instance_number ( selected_instance_id ) ;
lcd . setCursor ( 14 , 0 ) ;
lcd . write ( 0 ) ;
lcd . setCursor ( 15 , 0 ) ;
lcd . write ( 1 ) ;
}
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 ( ) )
configuration . dexed [ selected_instance_id ] . pb_range = constrain ( configuration . dexed [ selected_instance_id ] . pb_range + ENCODER [ ENC_R ] . speed ( ) , PB_RANGE_MIN , PB_RANGE_MAX ) ;
else if ( LCDML . BT_checkUp ( ) )
configuration . dexed [ selected_instance_id ] . pb_range = constrain ( configuration . dexed [ selected_instance_id ] . pb_range - ENCODER [ ENC_R ] . speed ( ) , PB_RANGE_MIN , PB_RANGE_MAX ) ;
# if NUM_DEXED > 1
else if ( LCDML . BT_checkEnter ( ) )
{
selected_instance_id = ! selected_instance_id ;
lcd_active_instance_number ( selected_instance_id ) ;
lcd . setCursor ( 14 , 0 ) ;
lcd . write ( 0 ) ;
lcd . setCursor ( 15 , 0 ) ;
lcd . write ( 1 ) ;
}
# endif
}
lcd_display_bar_int ( " PB Range " , configuration . dexed [ selected_instance_id ] . pb_range , 1.0 , PB_RANGE_MIN , PB_RANGE_MAX , 2 , false , false , false ) ;
MicroDexed [ selected_instance_id ] - > setPBController ( configuration . dexed [ selected_instance_id ] . pb_range , configuration . dexed [ selected_instance_id ] . pb_step ) ;
}
if ( LCDML . FUNC_close ( ) ) // ****** STABLE END *********
{
lcd_special_chars ( SCROLLBAR ) ;
encoderDir [ ENC_R ] . reset ( ) ;
EEPROM . update ( EEPROM_START_ADDRESS + offsetof ( configuration_s , dexed [ 0 ] . pb_range ) , configuration . dexed [ 0 ] . pb_range ) ;
# if NUM_DEXED > 1
EEPROM . update ( EEPROM_START_ADDRESS + offsetof ( configuration_s , dexed [ 1 ] . pb_range ) , configuration . dexed [ 1 ] . pb_range ) ;
# endif
}
}
void UI_func_pb_step ( uint8_t param )
{
if ( LCDML . FUNC_setup ( ) ) // ****** SETUP *********
{
encoderDir [ ENC_R ] . reset ( ) ;
lcd_special_chars ( BLOCKBAR ) ;
lcd_display_bar_int ( " PB Step " , configuration . dexed [ selected_instance_id ] . pb_step , 1.0 , PB_STEP_MIN , PB_STEP_MAX , 2 , false , false , true ) ;
lcd_active_instance_number ( selected_instance_id ) ;
lcd . setCursor ( 14 , 0 ) ;
lcd . write ( 0 ) ;
lcd . setCursor ( 15 , 0 ) ;
lcd . write ( 1 ) ;
}
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 ( ) )
configuration . dexed [ selected_instance_id ] . pb_step = constrain ( configuration . dexed [ selected_instance_id ] . pb_step + ENCODER [ ENC_R ] . speed ( ) , PB_STEP_MIN , PB_STEP_MAX ) ;
else if ( LCDML . BT_checkUp ( ) )
configuration . dexed [ selected_instance_id ] . pb_step = constrain ( configuration . dexed [ selected_instance_id ] . pb_step - ENCODER [ ENC_R ] . speed ( ) , PB_STEP_MIN , PB_STEP_MAX ) ;
# if NUM_DEXED > 1
else if ( LCDML . BT_checkEnter ( ) )
{
selected_instance_id = ! selected_instance_id ;
lcd_active_instance_number ( selected_instance_id ) ;
lcd . setCursor ( 14 , 0 ) ;
lcd . write ( 0 ) ;
lcd . setCursor ( 15 , 0 ) ;
lcd . write ( 1 ) ;
}
# endif
}
lcd_display_bar_int ( " PB Step " , configuration . dexed [ selected_instance_id ] . pb_step , 1.0 , PB_STEP_MIN , PB_STEP_MAX , 2 , false , false , false ) ;
MicroDexed [ selected_instance_id ] - > setPBController ( configuration . dexed [ selected_instance_id ] . pb_range , configuration . dexed [ selected_instance_id ] . pb_step ) ;
}
if ( LCDML . FUNC_close ( ) ) // ****** STABLE END *********
{
lcd_special_chars ( SCROLLBAR ) ;
encoderDir [ ENC_R ] . reset ( ) ;
EEPROM . update ( EEPROM_START_ADDRESS + offsetof ( configuration_s , dexed [ 0 ] . pb_step ) , configuration . dexed [ 0 ] . pb_step ) ;
# if NUM_DEXED > 1
EEPROM . update ( EEPROM_START_ADDRESS + offsetof ( configuration_s , dexed [ 1 ] . pb_step ) , configuration . dexed [ 1 ] . pb_step ) ;
# endif
}
}
void UI_func_mw_range ( uint8_t param )
{
if ( LCDML . FUNC_setup ( ) ) // ****** SETUP *********
{
encoderDir [ ENC_R ] . reset ( ) ;
lcd_special_chars ( BLOCKBAR ) ;
lcd_display_bar_int ( " MW Range " , configuration . dexed [ selected_instance_id ] . mw_range , 1.0 , MW_RANGE_MIN , MW_RANGE_MAX , 2 , false , false , true ) ;
lcd_active_instance_number ( selected_instance_id ) ;
lcd . setCursor ( 14 , 0 ) ;
lcd . write ( 0 ) ;
lcd . setCursor ( 15 , 0 ) ;
lcd . write ( 1 ) ;
}
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 ( ) )
configuration . dexed [ selected_instance_id ] . mw_range = constrain ( configuration . dexed [ selected_instance_id ] . mw_range + ENCODER [ ENC_R ] . speed ( ) , MW_RANGE_MIN , MW_RANGE_MAX ) ;
else if ( LCDML . BT_checkUp ( ) )
configuration . dexed [ selected_instance_id ] . mw_range = constrain ( configuration . dexed [ selected_instance_id ] . mw_range - ENCODER [ ENC_R ] . speed ( ) , MW_RANGE_MIN , MW_RANGE_MAX ) ;
# if NUM_DEXED > 1
else if ( LCDML . BT_checkEnter ( ) )
{
selected_instance_id = ! selected_instance_id ;
lcd_active_instance_number ( selected_instance_id ) ;
lcd . setCursor ( 14 , 0 ) ;
lcd . write ( 0 ) ;
lcd . setCursor ( 15 , 0 ) ;
lcd . write ( 1 ) ;
}
# endif
}
lcd_display_bar_int ( " MW Range " , configuration . dexed [ selected_instance_id ] . mw_range , 1.0 , MW_RANGE_MIN , MW_RANGE_MAX , 2 , false , false , false ) ;
MicroDexed [ selected_instance_id ] - > setMWController ( configuration . dexed [ selected_instance_id ] . mw_range , configuration . dexed [ selected_instance_id ] . mw_assign , configuration . dexed [ selected_instance_id ] . mw_mode ) ;
}
if ( LCDML . FUNC_close ( ) ) // ****** STABLE END *********
{
lcd_special_chars ( SCROLLBAR ) ;
encoderDir [ ENC_R ] . reset ( ) ;
EEPROM . update ( EEPROM_START_ADDRESS + offsetof ( configuration_s , dexed [ 0 ] . mw_range ) , configuration . dexed [ 0 ] . mw_range ) ;
# if NUM_DEXED > 1
EEPROM . update ( EEPROM_START_ADDRESS + offsetof ( configuration_s , dexed [ 1 ] . mw_range ) , configuration . dexed [ 1 ] . mw_range ) ;
# endif
}
}
void UI_func_mw_assign ( uint8_t param )
{
if ( LCDML . FUNC_setup ( ) ) // ****** SETUP *********
{
encoderDir [ ENC_R ] . reset ( ) ;
lcd . setCursor ( 0 , 0 ) ;
lcd . print ( F ( " MW Assign " ) ) ;
lcd_active_instance_number ( selected_instance_id ) ;
lcd . setCursor ( 14 , 0 ) ;
lcd . write ( 0 ) ;
lcd . setCursor ( 15 , 0 ) ;
lcd . write ( 1 ) ;
}
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 ( ) )
configuration . dexed [ selected_instance_id ] . mw_assign = constrain ( configuration . dexed [ selected_instance_id ] . mw_assign + 1 , MW_ASSIGN_MIN , MW_ASSIGN_MAX ) ;
else if ( LCDML . BT_checkUp ( ) )
configuration . dexed [ selected_instance_id ] . mw_assign = constrain ( configuration . dexed [ selected_instance_id ] . mw_assign - 1 , MW_ASSIGN_MIN , MW_ASSIGN_MAX ) ;
# if NUM_DEXED > 1
else if ( LCDML . BT_checkEnter ( ) )
{
selected_instance_id = ! selected_instance_id ;
lcd_active_instance_number ( selected_instance_id ) ;
lcd . setCursor ( 14 , 0 ) ;
lcd . write ( 0 ) ;
lcd . setCursor ( 15 , 0 ) ;
lcd . write ( 1 ) ;
}
# endif
}
MicroDexed [ selected_instance_id ] - > setMWController ( configuration . dexed [ selected_instance_id ] . mw_range , configuration . dexed [ selected_instance_id ] . mw_assign , configuration . dexed [ selected_instance_id ] . mw_mode ) ;
lcd . setCursor ( 0 , 1 ) ;
switch ( configuration . dexed [ selected_instance_id ] . mw_assign )
{
case 0 :
lcd . print ( F ( " [ NONE ] " ) ) ;
break ;
case 1 :
lcd . print ( F ( " [PTCH ] " ) ) ;
break ;
case 2 :
lcd . print ( F ( " [ AMP ] " ) ) ;
break ;
case 3 :
lcd . print ( F ( " [PTCH AMP ] " ) ) ;
break ;
case 4 :
lcd . print ( F ( " [ EG] " ) ) ;
break ;
case 5 :
lcd . print ( F ( " [PTCH EG] " ) ) ;
break ;
case 6 :
lcd . print ( F ( " [ AMP EG] " ) ) ;
break ;
case 7 :
lcd . print ( F ( " [PTCH AMP EG] " ) ) ;
break ;
}
}
if ( LCDML . FUNC_close ( ) ) // ****** STABLE END *********
{
lcd_special_chars ( SCROLLBAR ) ;
encoderDir [ ENC_R ] . reset ( ) ;
EEPROM . update ( EEPROM_START_ADDRESS + offsetof ( configuration_s , dexed [ 0 ] . mw_assign ) , configuration . dexed [ 0 ] . mw_assign ) ;
# if NUM_DEXED > 1
EEPROM . update ( EEPROM_START_ADDRESS + offsetof ( configuration_s , dexed [ 1 ] . mw_assign ) , configuration . dexed [ 1 ] . mw_assign ) ;
# endif
}
}
void UI_func_mw_mode ( uint8_t param )
{
if ( LCDML . FUNC_setup ( ) ) // ****** SETUP *********
{
encoderDir [ ENC_R ] . reset ( ) ;
lcd . setCursor ( 0 , 0 ) ;
lcd . print ( F ( " MW Mode " ) ) ;
lcd_active_instance_number ( selected_instance_id ) ;
lcd . setCursor ( 14 , 0 ) ;
lcd . write ( 0 ) ;
lcd . setCursor ( 15 , 0 ) ;
lcd . write ( 1 ) ;
}
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 ( ) )
configuration . dexed [ selected_instance_id ] . mw_mode = constrain ( configuration . dexed [ selected_instance_id ] . mw_mode + 1 , MW_MODE_MIN , MW_MODE_MAX ) ;
else if ( LCDML . BT_checkUp ( ) )
configuration . dexed [ selected_instance_id ] . mw_mode = constrain ( configuration . dexed [ selected_instance_id ] . mw_mode - 1 , MW_MODE_MIN , MW_MODE_MAX ) ;
# if NUM_DEXED > 1
else if ( LCDML . BT_checkEnter ( ) )
{
selected_instance_id = ! selected_instance_id ;
lcd_active_instance_number ( selected_instance_id ) ;
lcd . setCursor ( 14 , 0 ) ;
lcd . write ( 0 ) ;
lcd . setCursor ( 15 , 0 ) ;
lcd . write ( 1 ) ;
}
# endif
}
MicroDexed [ selected_instance_id ] - > setMWController ( configuration . dexed [ selected_instance_id ] . mw_range , configuration . dexed [ selected_instance_id ] . mw_assign , configuration . dexed [ selected_instance_id ] . mw_mode ) ;
MicroDexed [ selected_instance_id ] - > controllers . refresh ( ) ;
lcd . setCursor ( 0 , 1 ) ;
switch ( configuration . dexed [ selected_instance_id ] . mw_mode )
{
case 0 :
lcd . print ( F ( " [LINEAR ] " ) ) ;
break ;
case 1 :
lcd . print ( F ( " [REVERSE LIN.] " ) ) ;
break ;
case 2 :
lcd . print ( F ( " [DIRECT ] " ) ) ;
break ;
}
}
if ( LCDML . FUNC_close ( ) ) // ****** STABLE END *********
{
lcd_special_chars ( SCROLLBAR ) ;
encoderDir [ ENC_R ] . reset ( ) ;
EEPROM . update ( EEPROM_START_ADDRESS + offsetof ( configuration_s , dexed [ 0 ] . mw_mode ) , configuration . dexed [ 0 ] . mw_mode ) ;
# if NUM_DEXED > 1
EEPROM . update ( EEPROM_START_ADDRESS + offsetof ( configuration_s , dexed [ 1 ] . mw_mode ) , configuration . dexed [ 1 ] . mw_mode ) ;
# endif
}
}
void UI_func_fc_range ( uint8_t param )
{
if ( LCDML . FUNC_setup ( ) ) // ****** SETUP *********
{
encoderDir [ ENC_R ] . reset ( ) ;
lcd_special_chars ( BLOCKBAR ) ;
lcd_display_bar_int ( " FC Range " , configuration . dexed [ selected_instance_id ] . fc_range , 1.0 , FC_RANGE_MIN , FC_RANGE_MAX , 2 , false , false , true ) ;
lcd_active_instance_number ( selected_instance_id ) ;
lcd . setCursor ( 14 , 0 ) ;
lcd . write ( 0 ) ;
lcd . setCursor ( 15 , 0 ) ;
lcd . write ( 1 ) ;
}
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 ( ) )
configuration . dexed [ selected_instance_id ] . fc_range = constrain ( configuration . dexed [ selected_instance_id ] . fc_range + ENCODER [ ENC_R ] . speed ( ) , FC_RANGE_MIN , FC_RANGE_MAX ) ;
else if ( LCDML . BT_checkUp ( ) )
configuration . dexed [ selected_instance_id ] . fc_range = constrain ( configuration . dexed [ selected_instance_id ] . fc_range - ENCODER [ ENC_R ] . speed ( ) , FC_RANGE_MIN , FC_RANGE_MAX ) ;
# if NUM_DEXED > 1
else if ( LCDML . BT_checkEnter ( ) )
{
selected_instance_id = ! selected_instance_id ;
lcd_active_instance_number ( selected_instance_id ) ;
lcd . setCursor ( 14 , 0 ) ;
lcd . write ( 0 ) ;
lcd . setCursor ( 15 , 0 ) ;
lcd . write ( 1 ) ;
}
# endif
}
lcd_display_bar_int ( " FC Range " , configuration . dexed [ selected_instance_id ] . fc_range , 1.0 , FC_RANGE_MIN , FC_RANGE_MAX , 2 , false , false , false ) ;
MicroDexed [ selected_instance_id ] - > setFCController ( configuration . dexed [ selected_instance_id ] . fc_range , configuration . dexed [ selected_instance_id ] . fc_assign , configuration . dexed [ selected_instance_id ] . fc_mode ) ;
}
if ( LCDML . FUNC_close ( ) ) // ****** STABLE END *********
{
lcd_special_chars ( SCROLLBAR ) ;
encoderDir [ ENC_R ] . reset ( ) ;
EEPROM . update ( EEPROM_START_ADDRESS + offsetof ( configuration_s , dexed [ 0 ] . fc_range ) , configuration . dexed [ 0 ] . fc_range ) ;
# if NUM_DEXED > 1
EEPROM . update ( EEPROM_START_ADDRESS + offsetof ( configuration_s , dexed [ 1 ] . fc_range ) , configuration . dexed [ 1 ] . fc_range ) ;
# endif
}
}
void UI_func_fc_assign ( uint8_t param )
{
if ( LCDML . FUNC_setup ( ) ) // ****** SETUP *********
{
encoderDir [ ENC_R ] . reset ( ) ;
lcd . setCursor ( 0 , 0 ) ;
lcd . print ( F ( " FC Assign " ) ) ;
lcd_active_instance_number ( selected_instance_id ) ;
lcd . setCursor ( 14 , 0 ) ;
lcd . write ( 0 ) ;
lcd . setCursor ( 15 , 0 ) ;
lcd . write ( 1 ) ;
}
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 ( ) )
configuration . dexed [ selected_instance_id ] . fc_assign = constrain ( configuration . dexed [ selected_instance_id ] . fc_assign + 1 , FC_ASSIGN_MIN , FC_ASSIGN_MAX ) ;
else if ( LCDML . BT_checkUp ( ) )
configuration . dexed [ selected_instance_id ] . fc_assign = constrain ( configuration . dexed [ selected_instance_id ] . fc_assign - 1 , FC_ASSIGN_MIN , FC_ASSIGN_MAX ) ;
# if NUM_DEXED > 1
else if ( LCDML . BT_checkEnter ( ) )
{
selected_instance_id = ! selected_instance_id ;
lcd_active_instance_number ( selected_instance_id ) ;
lcd . setCursor ( 14 , 0 ) ;
lcd . write ( 0 ) ;
lcd . setCursor ( 15 , 0 ) ;
lcd . write ( 1 ) ;
}
# endif
}
MicroDexed [ selected_instance_id ] - > setFCController ( configuration . dexed [ selected_instance_id ] . fc_range , configuration . dexed [ selected_instance_id ] . fc_assign , configuration . dexed [ selected_instance_id ] . fc_mode ) ;
lcd . setCursor ( 0 , 1 ) ;
switch ( configuration . dexed [ selected_instance_id ] . fc_assign )
{
case 0 :
lcd . print ( F ( " [ NONE ] " ) ) ;
break ;
case 1 :
lcd . print ( F ( " [PTCH ] " ) ) ;
break ;
case 2 :
lcd . print ( F ( " [ AMP ] " ) ) ;
break ;
case 3 :
lcd . print ( F ( " [PTCH AMP ] " ) ) ;
break ;
case 4 :
lcd . print ( F ( " [ EG] " ) ) ;
break ;
case 5 :
lcd . print ( F ( " [PTCH EG] " ) ) ;
break ;
case 6 :
lcd . print ( F ( " [ AMP EG] " ) ) ;
break ;
case 7 :
lcd . print ( F ( " [PTCH AMP EG] " ) ) ;
break ;
}
}
if ( LCDML . FUNC_close ( ) ) // ****** STABLE END *********
{
lcd_special_chars ( SCROLLBAR ) ;
encoderDir [ ENC_R ] . reset ( ) ;
EEPROM . update ( EEPROM_START_ADDRESS + offsetof ( configuration_s , dexed [ 0 ] . fc_assign ) , configuration . dexed [ 0 ] . fc_assign ) ;
# if NUM_DEXED > 1
EEPROM . update ( EEPROM_START_ADDRESS + offsetof ( configuration_s , dexed [ 1 ] . fc_assign ) , configuration . dexed [ 1 ] . fc_assign ) ;
# endif
}
}
void UI_func_fc_mode ( uint8_t param )
{
if ( LCDML . FUNC_setup ( ) ) // ****** SETUP *********
{
encoderDir [ ENC_R ] . reset ( ) ;
lcd . setCursor ( 0 , 0 ) ;
lcd . print ( F ( " FC Mode " ) ) ;
lcd_active_instance_number ( selected_instance_id ) ;
lcd . setCursor ( 14 , 0 ) ;
lcd . write ( 0 ) ;
lcd . setCursor ( 15 , 0 ) ;
lcd . write ( 1 ) ;
}
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 ( ) )
configuration . dexed [ selected_instance_id ] . fc_mode = constrain ( configuration . dexed [ selected_instance_id ] . fc_mode + 1 , FC_MODE_MIN , FC_MODE_MAX ) ;
else if ( LCDML . BT_checkUp ( ) )
configuration . dexed [ selected_instance_id ] . fc_mode = constrain ( configuration . dexed [ selected_instance_id ] . fc_mode - 1 , FC_MODE_MIN , FC_MODE_MAX ) ;
# if NUM_DEXED > 1
else if ( LCDML . BT_checkEnter ( ) )
{
selected_instance_id = ! selected_instance_id ;
lcd_active_instance_number ( selected_instance_id ) ;
lcd . setCursor ( 14 , 0 ) ;
lcd . write ( 0 ) ;
lcd . setCursor ( 15 , 0 ) ;
lcd . write ( 1 ) ;
}
# endif
}
MicroDexed [ selected_instance_id ] - > setFCController ( configuration . dexed [ selected_instance_id ] . fc_range , configuration . dexed [ selected_instance_id ] . fc_assign , configuration . dexed [ selected_instance_id ] . fc_mode ) ;
MicroDexed [ selected_instance_id ] - > controllers . refresh ( ) ;
lcd . setCursor ( 0 , 1 ) ;
switch ( configuration . dexed [ selected_instance_id ] . fc_mode )
{
case 0 :
lcd . print ( F ( " [LINEAR ] " ) ) ;
break ;
case 1 :
lcd . print ( F ( " [REVERSE LIN.] " ) ) ;
break ;
case 2 :
lcd . print ( F ( " [DIRECT ] " ) ) ;
break ;
}
}
if ( LCDML . FUNC_close ( ) ) // ****** STABLE END *********
{
lcd_special_chars ( SCROLLBAR ) ;
encoderDir [ ENC_R ] . reset ( ) ;
EEPROM . update ( EEPROM_START_ADDRESS + offsetof ( configuration_s , dexed [ 0 ] . fc_mode ) , configuration . dexed [ 0 ] . fc_mode ) ;
# if NUM_DEXED > 1
EEPROM . update ( EEPROM_START_ADDRESS + offsetof ( configuration_s , dexed [ 1 ] . fc_mode ) , configuration . dexed [ 1 ] . fc_mode ) ;
# endif
}
}
void UI_func_bc_range ( uint8_t param )
{
if ( LCDML . FUNC_setup ( ) ) // ****** SETUP *********
{
encoderDir [ ENC_R ] . reset ( ) ;
lcd_special_chars ( BLOCKBAR ) ;
lcd_display_bar_int ( " BC Range " , configuration . dexed [ selected_instance_id ] . bc_range , 1.0 , BC_RANGE_MIN , BC_RANGE_MAX , 2 , false , false , true ) ;
lcd_active_instance_number ( selected_instance_id ) ;
lcd . setCursor ( 14 , 0 ) ;
lcd . write ( 0 ) ;
lcd . setCursor ( 15 , 0 ) ;
lcd . write ( 1 ) ;
}
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 ( ) )
configuration . dexed [ selected_instance_id ] . bc_range = constrain ( configuration . dexed [ selected_instance_id ] . bc_range + ENCODER [ ENC_R ] . speed ( ) , BC_RANGE_MIN , BC_RANGE_MAX ) ;
else if ( LCDML . BT_checkUp ( ) )
configuration . dexed [ selected_instance_id ] . bc_range = constrain ( configuration . dexed [ selected_instance_id ] . bc_range - ENCODER [ ENC_R ] . speed ( ) , BC_RANGE_MIN , BC_RANGE_MAX ) ;
# if NUM_DEXED > 1
else if ( LCDML . BT_checkEnter ( ) )
{
selected_instance_id = ! selected_instance_id ;
lcd_active_instance_number ( selected_instance_id ) ;
lcd . setCursor ( 14 , 0 ) ;
lcd . write ( 0 ) ;
lcd . setCursor ( 15 , 0 ) ;
lcd . write ( 1 ) ;
}
# endif
}
lcd_display_bar_int ( " BC Range " , configuration . dexed [ selected_instance_id ] . bc_range , 1.0 , BC_RANGE_MIN , BC_RANGE_MAX , 2 , false , false , false ) ;
MicroDexed [ selected_instance_id ] - > setBCController ( configuration . dexed [ selected_instance_id ] . bc_range , configuration . dexed [ selected_instance_id ] . bc_assign , configuration . dexed [ selected_instance_id ] . bc_mode ) ;
}
if ( LCDML . FUNC_close ( ) ) // ****** STABLE END *********
{
lcd_special_chars ( SCROLLBAR ) ;
encoderDir [ ENC_R ] . reset ( ) ;
EEPROM . update ( EEPROM_START_ADDRESS + offsetof ( configuration_s , dexed [ 0 ] . bc_range ) , configuration . dexed [ 0 ] . bc_range ) ;
# if NUM_DEXED > 1
EEPROM . update ( EEPROM_START_ADDRESS + offsetof ( configuration_s , dexed [ 1 ] . bc_range ) , configuration . dexed [ 1 ] . bc_range ) ;
# endif
}
}
void UI_func_bc_assign ( uint8_t param )
{
if ( LCDML . FUNC_setup ( ) ) // ****** SETUP *********
{
encoderDir [ ENC_R ] . reset ( ) ;
lcd . setCursor ( 0 , 0 ) ;
lcd . print ( F ( " BC Assign " ) ) ;
lcd_active_instance_number ( selected_instance_id ) ;
lcd . setCursor ( 14 , 0 ) ;
lcd . write ( 0 ) ;
lcd . setCursor ( 15 , 0 ) ;
lcd . write ( 1 ) ;
}
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 ( ) )
configuration . dexed [ selected_instance_id ] . bc_assign = constrain ( configuration . dexed [ selected_instance_id ] . bc_assign + 1 , BC_ASSIGN_MIN , BC_ASSIGN_MAX ) ;
else if ( LCDML . BT_checkUp ( ) )
configuration . dexed [ selected_instance_id ] . bc_assign = constrain ( configuration . dexed [ selected_instance_id ] . bc_assign - 1 , BC_ASSIGN_MIN , BC_ASSIGN_MAX ) ;
# if NUM_DEXED > 1
else if ( LCDML . BT_checkEnter ( ) )
{
selected_instance_id = ! selected_instance_id ;
lcd_active_instance_number ( selected_instance_id ) ;
lcd . setCursor ( 14 , 0 ) ;
lcd . write ( 0 ) ;
lcd . setCursor ( 15 , 0 ) ;
lcd . write ( 1 ) ;
}
# endif
}
MicroDexed [ selected_instance_id ] - > setBCController ( configuration . dexed [ selected_instance_id ] . bc_range , configuration . dexed [ selected_instance_id ] . bc_assign , configuration . dexed [ selected_instance_id ] . bc_mode ) ;
lcd . setCursor ( 0 , 1 ) ;
switch ( configuration . dexed [ selected_instance_id ] . bc_assign )
{
case 0 :
lcd . print ( F ( " [ NONE ] " ) ) ;
break ;
case 1 :
lcd . print ( F ( " [PTCH ] " ) ) ;
break ;
case 2 :
lcd . print ( F ( " [ AMP ] " ) ) ;
break ;
case 3 :
lcd . print ( F ( " [PTCH AMP ] " ) ) ;
break ;
case 4 :
lcd . print ( F ( " [ EG] " ) ) ;
break ;
case 5 :
lcd . print ( F ( " [PTCH EG] " ) ) ;
break ;
case 6 :
lcd . print ( F ( " [ AMP EG] " ) ) ;
break ;
case 7 :
lcd . print ( F ( " [PTCH AMP EG] " ) ) ;
break ;
}
}
if ( LCDML . FUNC_close ( ) ) // ****** STABLE END *********
{
lcd_special_chars ( SCROLLBAR ) ;
encoderDir [ ENC_R ] . reset ( ) ;
EEPROM . update ( EEPROM_START_ADDRESS + offsetof ( configuration_s , dexed [ 0 ] . bc_assign ) , configuration . dexed [ 0 ] . bc_assign ) ;
# if NUM_DEXED > 1
EEPROM . update ( EEPROM_START_ADDRESS + offsetof ( configuration_s , dexed [ 1 ] . bc_assign ) , configuration . dexed [ 1 ] . bc_assign ) ;
# endif
}
}
void UI_func_bc_mode ( uint8_t param )
{
if ( LCDML . FUNC_setup ( ) ) // ****** SETUP *********
{
encoderDir [ ENC_R ] . reset ( ) ;
lcd . setCursor ( 0 , 0 ) ;
lcd . print ( F ( " BC Mode " ) ) ;
lcd_active_instance_number ( selected_instance_id ) ;
lcd . setCursor ( 14 , 0 ) ;
lcd . write ( 0 ) ;
lcd . setCursor ( 15 , 0 ) ;
lcd . write ( 1 ) ;
}
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 ( ) )
configuration . dexed [ selected_instance_id ] . bc_mode = constrain ( configuration . dexed [ selected_instance_id ] . bc_mode + 1 , BC_MODE_MIN , BC_MODE_MAX ) ;
else if ( LCDML . BT_checkUp ( ) )
configuration . dexed [ selected_instance_id ] . bc_mode = constrain ( configuration . dexed [ selected_instance_id ] . bc_mode - 1 , BC_MODE_MIN , BC_MODE_MAX ) ;
# if NUM_DEXED > 1
else if ( LCDML . BT_checkEnter ( ) )
{
selected_instance_id = ! selected_instance_id ;
lcd_active_instance_number ( selected_instance_id ) ;
lcd . setCursor ( 14 , 0 ) ;
lcd . write ( 0 ) ;
lcd . setCursor ( 15 , 0 ) ;
lcd . write ( 1 ) ;
}
# endif
}
MicroDexed [ selected_instance_id ] - > setBCController ( configuration . dexed [ selected_instance_id ] . bc_range , configuration . dexed [ selected_instance_id ] . bc_assign , configuration . dexed [ selected_instance_id ] . bc_mode ) ;
MicroDexed [ selected_instance_id ] - > controllers . refresh ( ) ;
lcd . setCursor ( 0 , 1 ) ;
switch ( configuration . dexed [ selected_instance_id ] . bc_mode )
{
case 0 :
lcd . print ( F ( " [LINEAR ] " ) ) ;
break ;
case 1 :
lcd . print ( F ( " [REVERSE LIN.] " ) ) ;
break ;
case 2 :
lcd . print ( F ( " [DIRECT ] " ) ) ;
break ;
}
}
if ( LCDML . FUNC_close ( ) ) // ****** STABLE END *********
{
lcd_special_chars ( SCROLLBAR ) ;
encoderDir [ ENC_R ] . reset ( ) ;
EEPROM . update ( EEPROM_START_ADDRESS + offsetof ( configuration_s , dexed [ 0 ] . bc_mode ) , configuration . dexed [ 0 ] . bc_mode ) ;
# if NUM_DEXED > 1
EEPROM . update ( EEPROM_START_ADDRESS + offsetof ( configuration_s , dexed [ 1 ] . bc_mode ) , configuration . dexed [ 1 ] . bc_mode ) ;
# endif
}
}
void UI_func_at_range ( uint8_t param )
{
if ( LCDML . FUNC_setup ( ) ) // ****** SETUP *********
{
encoderDir [ ENC_R ] . reset ( ) ;
lcd_special_chars ( BLOCKBAR ) ;
lcd_display_bar_int ( " AT Range " , configuration . dexed [ selected_instance_id ] . at_range , 1.0 , AT_RANGE_MIN , AT_RANGE_MAX , 2 , false , false , true ) ;
lcd_active_instance_number ( selected_instance_id ) ;
lcd . setCursor ( 14 , 0 ) ;
lcd . write ( 0 ) ;
lcd . setCursor ( 15 , 0 ) ;
lcd . write ( 1 ) ;
}
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 ( ) )
configuration . dexed [ selected_instance_id ] . at_range = constrain ( configuration . dexed [ selected_instance_id ] . at_range + ENCODER [ ENC_R ] . speed ( ) , AT_RANGE_MIN , AT_RANGE_MAX ) ;
else if ( LCDML . BT_checkUp ( ) )
configuration . dexed [ selected_instance_id ] . at_range = constrain ( configuration . dexed [ selected_instance_id ] . at_range - ENCODER [ ENC_R ] . speed ( ) , AT_RANGE_MIN , AT_RANGE_MAX ) ;
# if NUM_DEXED > 1
else if ( LCDML . BT_checkEnter ( ) )
{
selected_instance_id = ! selected_instance_id ;
lcd_active_instance_number ( selected_instance_id ) ;
lcd . setCursor ( 14 , 0 ) ;
lcd . write ( 0 ) ;
lcd . setCursor ( 15 , 0 ) ;
lcd . write ( 1 ) ;
}
# endif
}
lcd_display_bar_int ( " AT Range " , configuration . dexed [ selected_instance_id ] . at_range , 1.0 , AT_RANGE_MIN , AT_RANGE_MAX , 2 , false , false , false ) ;
MicroDexed [ selected_instance_id ] - > setATController ( configuration . dexed [ selected_instance_id ] . at_range , configuration . dexed [ selected_instance_id ] . at_assign , configuration . dexed [ selected_instance_id ] . at_mode ) ;
}
if ( LCDML . FUNC_close ( ) ) // ****** STABLE END *********
{
lcd_special_chars ( SCROLLBAR ) ;
lcd_special_chars ( SCROLLBAR ) ;
encoderDir [ ENC_R ] . reset ( ) ;
EEPROM . update ( EEPROM_START_ADDRESS + offsetof ( configuration_s , dexed [ 0 ] . at_range ) , configuration . dexed [ 0 ] . at_range ) ;
# if NUM_DEXED > 1
EEPROM . update ( EEPROM_START_ADDRESS + offsetof ( configuration_s , dexed [ 1 ] . at_range ) , configuration . dexed [ 1 ] . at_range ) ;
# endif
}
}
void UI_func_at_assign ( uint8_t param )
{
if ( LCDML . FUNC_setup ( ) ) // ****** SETUP *********
{
encoderDir [ ENC_R ] . reset ( ) ;
lcd . setCursor ( 0 , 0 ) ;
lcd . print ( F ( " AT Assign " ) ) ;
lcd_active_instance_number ( selected_instance_id ) ;
lcd . setCursor ( 14 , 0 ) ;
lcd . write ( 0 ) ;
lcd . setCursor ( 15 , 0 ) ;
lcd . write ( 1 ) ;
}
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 ( ) )
configuration . dexed [ selected_instance_id ] . at_assign = constrain ( configuration . dexed [ selected_instance_id ] . at_assign + 1 , AT_ASSIGN_MIN , AT_ASSIGN_MAX ) ;
else if ( LCDML . BT_checkUp ( ) )
configuration . dexed [ selected_instance_id ] . at_assign = constrain ( configuration . dexed [ selected_instance_id ] . at_assign - 1 , AT_ASSIGN_MIN , AT_ASSIGN_MAX ) ;
# if NUM_DEXED > 1
else if ( LCDML . BT_checkEnter ( ) )
{
selected_instance_id = ! selected_instance_id ;
lcd_active_instance_number ( selected_instance_id ) ;
lcd . setCursor ( 14 , 0 ) ;
lcd . write ( 0 ) ;
lcd . setCursor ( 15 , 0 ) ;
lcd . write ( 1 ) ;
}
# endif
}
MicroDexed [ selected_instance_id ] - > setATController ( configuration . dexed [ selected_instance_id ] . at_range , configuration . dexed [ selected_instance_id ] . at_assign , configuration . dexed [ selected_instance_id ] . at_mode ) ;
lcd . setCursor ( 0 , 1 ) ;
switch ( configuration . dexed [ selected_instance_id ] . at_assign )
{
case 0 :
lcd . print ( F ( " [ NONE ] " ) ) ;
break ;
case 1 :
lcd . print ( F ( " [PTCH ] " ) ) ;
break ;
case 2 :
lcd . print ( F ( " [ AMP ] " ) ) ;
break ;
case 3 :
lcd . print ( F ( " [PTCH AMP ] " ) ) ;
break ;
case 4 :
lcd . print ( F ( " [ EG] " ) ) ;
break ;
case 5 :
lcd . print ( F ( " [PTCH EG] " ) ) ;
break ;
case 6 :
lcd . print ( F ( " [ AMP EG] " ) ) ;
break ;
case 7 :
lcd . print ( F ( " [PTCH AMP EG] " ) ) ;
break ;
}
}
if ( LCDML . FUNC_close ( ) ) // ****** STABLE END *********
{
lcd_special_chars ( SCROLLBAR ) ;
encoderDir [ ENC_R ] . reset ( ) ;
EEPROM . update ( EEPROM_START_ADDRESS + offsetof ( configuration_s , dexed [ 0 ] . at_assign ) , configuration . dexed [ 0 ] . at_assign ) ;
# if NUM_DEXED > 1
EEPROM . update ( EEPROM_START_ADDRESS + offsetof ( configuration_s , dexed [ 1 ] . at_assign ) , configuration . dexed [ 1 ] . at_assign ) ;
# endif
}
}
void UI_func_at_mode ( uint8_t param )
{
if ( LCDML . FUNC_setup ( ) ) // ****** SETUP *********
{
encoderDir [ ENC_R ] . reset ( ) ;
lcd . setCursor ( 0 , 0 ) ;
lcd . print ( F ( " AT Mode " ) ) ;
lcd_active_instance_number ( selected_instance_id ) ;
lcd . setCursor ( 14 , 0 ) ;
lcd . write ( 0 ) ;
lcd . setCursor ( 15 , 0 ) ;
lcd . write ( 1 ) ;
}
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 ( ) )
configuration . dexed [ selected_instance_id ] . at_mode = constrain ( configuration . dexed [ selected_instance_id ] . at_mode + 1 , AT_MODE_MIN , AT_MODE_MAX ) ;
else if ( LCDML . BT_checkUp ( ) )
configuration . dexed [ selected_instance_id ] . at_mode = constrain ( configuration . dexed [ selected_instance_id ] . at_mode - 1 , AT_MODE_MIN , AT_MODE_MAX ) ;
# if NUM_DEXED > 1
else if ( LCDML . BT_checkEnter ( ) )
{
selected_instance_id = ! selected_instance_id ;
lcd_active_instance_number ( selected_instance_id ) ;
lcd . setCursor ( 14 , 0 ) ;
lcd . write ( 0 ) ;
lcd . setCursor ( 15 , 0 ) ;
lcd . write ( 1 ) ;
}
# endif
}
MicroDexed [ selected_instance_id ] - > setATController ( configuration . dexed [ selected_instance_id ] . at_range , configuration . dexed [ selected_instance_id ] . at_assign , configuration . dexed [ selected_instance_id ] . at_mode ) ;
MicroDexed [ selected_instance_id ] - > controllers . refresh ( ) ;
lcd . setCursor ( 0 , 1 ) ;
switch ( configuration . dexed [ selected_instance_id ] . at_mode )
{
case 0 :
lcd . print ( F ( " [LINEAR ] " ) ) ;
break ;
case 1 :
lcd . print ( F ( " [REVERSE LIN.] " ) ) ;
break ;
case 2 :
lcd . print ( F ( " [DIRECT ] " ) ) ;
break ;
}
}
if ( LCDML . FUNC_close ( ) ) // ****** STABLE END *********
{
lcd_special_chars ( SCROLLBAR ) ;
encoderDir [ ENC_R ] . reset ( ) ;
EEPROM . update ( EEPROM_START_ADDRESS + offsetof ( configuration_s , dexed [ 0 ] . at_mode ) , configuration . dexed [ 0 ] . at_mode ) ;
# if NUM_DEXED > 1
EEPROM . update ( EEPROM_START_ADDRESS + offsetof ( configuration_s , dexed [ 1 ] . at_mode ) , configuration . dexed [ 1 ] . at_mode ) ;
# endif
}
}
void UI_func_portamento_mode ( uint8_t param )
{
if ( LCDML . FUNC_setup ( ) ) // ****** SETUP *********
{
encoderDir [ ENC_R ] . reset ( ) ;
lcd . setCursor ( 0 , 0 ) ;
lcd . print ( F ( " Portamento Mode " ) ) ;
lcd_active_instance_number ( selected_instance_id ) ;
lcd . setCursor ( 14 , 0 ) ;
lcd . write ( 0 ) ;
lcd . setCursor ( 15 , 0 ) ;
lcd . write ( 1 ) ;
}
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 ( ) )
configuration . dexed [ selected_instance_id ] . portamento_mode = constrain ( configuration . dexed [ selected_instance_id ] . portamento_mode + 1 , PORTAMENTO_MODE_MIN , PORTAMENTO_MODE_MAX ) ;
else if ( LCDML . BT_checkUp ( ) )
configuration . dexed [ selected_instance_id ] . portamento_mode = constrain ( configuration . dexed [ selected_instance_id ] . portamento_mode - 1 , PORTAMENTO_MODE_MIN , PORTAMENTO_MODE_MAX ) ;
# if NUM_DEXED > 1
else if ( LCDML . BT_checkEnter ( ) )
{
selected_instance_id = ! selected_instance_id ;
lcd_active_instance_number ( selected_instance_id ) ;
lcd . setCursor ( 14 , 0 ) ;
lcd . write ( 0 ) ;
lcd . setCursor ( 15 , 0 ) ;
lcd . write ( 1 ) ;
}
# endif
}
MicroDexed [ selected_instance_id ] - > setPortamentoMode ( configuration . dexed [ selected_instance_id ] . portamento_mode , configuration . dexed [ selected_instance_id ] . portamento_glissando , configuration . dexed [ selected_instance_id ] . portamento_time ) ;
lcd . setCursor ( 0 , 1 ) ;
switch ( configuration . dexed [ selected_instance_id ] . portamento_mode )
{
case 0 :
if ( configuration . dexed [ selected_instance_id ] . monopoly = = 1 )
lcd . print ( F ( " [RETAIN ] " ) ) ;
else
lcd . print ( F ( " [FINGERED] " ) ) ;
break ;
case 1 :
if ( configuration . dexed [ selected_instance_id ] . monopoly = = 1 )
lcd . print ( F ( " [FOLLOW ] " ) ) ;
else
lcd . print ( F ( " [FULL ] " ) ) ;
break ;
}
}
if ( LCDML . FUNC_close ( ) ) // ****** STABLE END *********
{
lcd_special_chars ( SCROLLBAR ) ;
encoderDir [ ENC_R ] . reset ( ) ;
EEPROM . update ( EEPROM_START_ADDRESS + offsetof ( configuration_s , dexed [ 0 ] . portamento_mode ) , configuration . dexed [ 0 ] . portamento_mode ) ;
# if NUM_DEXED > 1
EEPROM . update ( EEPROM_START_ADDRESS + offsetof ( configuration_s , dexed [ 1 ] . portamento_mode ) , configuration . dexed [ 1 ] . portamento_mode ) ;
# endif
}
}
void UI_func_portamento_glissando ( uint8_t param )
{
if ( LCDML . FUNC_setup ( ) ) // ****** SETUP *********
{
encoderDir [ ENC_R ] . reset ( ) ;
lcd . setCursor ( 0 , 0 ) ;
lcd . print ( F ( " Portam. Gliss. " ) ) ;
lcd_active_instance_number ( selected_instance_id ) ;
lcd . setCursor ( 14 , 0 ) ;
lcd . write ( 0 ) ;
lcd . setCursor ( 15 , 0 ) ;
lcd . write ( 1 ) ;
}
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 ( ) )
configuration . dexed [ selected_instance_id ] . portamento_glissando = constrain ( configuration . dexed [ selected_instance_id ] . portamento_glissando + 1 , PORTAMENTO_GLISSANDO_MIN , PORTAMENTO_GLISSANDO_MAX ) ;
else if ( LCDML . BT_checkUp ( ) )
configuration . dexed [ selected_instance_id ] . portamento_glissando = constrain ( configuration . dexed [ selected_instance_id ] . portamento_glissando - 1 , PORTAMENTO_GLISSANDO_MIN , PORTAMENTO_GLISSANDO_MAX ) ;
# if NUM_DEXED > 1
else if ( LCDML . BT_checkEnter ( ) )
{
selected_instance_id = ! selected_instance_id ;
lcd_active_instance_number ( selected_instance_id ) ;
lcd . setCursor ( 14 , 0 ) ;
lcd . write ( 0 ) ;
lcd . setCursor ( 15 , 0 ) ;
lcd . write ( 1 ) ;
}
# endif
}
MicroDexed [ selected_instance_id ] - > setPortamentoMode ( configuration . dexed [ selected_instance_id ] . portamento_mode , configuration . dexed [ selected_instance_id ] . portamento_glissando , configuration . dexed [ selected_instance_id ] . portamento_time ) ;
lcd . setCursor ( 0 , 1 ) ;
switch ( configuration . dexed [ selected_instance_id ] . portamento_glissando )
{
case 0 :
lcd . print ( F ( " [OFF] " ) ) ;
break ;
case 1 :
lcd . print ( F ( " [ON ] " ) ) ;
break ;
}
}
if ( LCDML . FUNC_close ( ) ) // ****** STABLE END *********
{
lcd_special_chars ( SCROLLBAR ) ;
encoderDir [ ENC_R ] . reset ( ) ;
EEPROM . update ( EEPROM_START_ADDRESS + offsetof ( configuration_s , dexed [ 0 ] . portamento_glissando ) , configuration . dexed [ 0 ] . portamento_glissando ) ;
# if NUM_DEXED > 1
EEPROM . update ( EEPROM_START_ADDRESS + offsetof ( configuration_s , dexed [ 1 ] . portamento_glissando ) , configuration . dexed [ 1 ] . portamento_glissando ) ;
# endif
}
}
void UI_func_portamento_time ( uint8_t param )
{
if ( LCDML . FUNC_setup ( ) ) // ****** SETUP *********
{
encoderDir [ ENC_R ] . reset ( ) ;
lcd_special_chars ( BLOCKBAR ) ;
lcd_display_bar_int ( " Portam. Time " , configuration . dexed [ selected_instance_id ] . portamento_time , 1.0 , PORTAMENTO_TIME_MIN , PORTAMENTO_TIME_MAX , 2 , false , false , true ) ;
lcd_active_instance_number ( selected_instance_id ) ;
lcd . setCursor ( 14 , 0 ) ;
lcd . write ( 0 ) ;
lcd . setCursor ( 15 , 0 ) ;
lcd . write ( 1 ) ;
}
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 ( ) )
configuration . dexed [ selected_instance_id ] . portamento_time = constrain ( configuration . dexed [ selected_instance_id ] . portamento_time + ENCODER [ ENC_R ] . speed ( ) , PORTAMENTO_TIME_MIN , PORTAMENTO_TIME_MAX ) ;
else if ( LCDML . BT_checkUp ( ) )
configuration . dexed [ selected_instance_id ] . portamento_time = constrain ( configuration . dexed [ selected_instance_id ] . portamento_time - ENCODER [ ENC_R ] . speed ( ) , PORTAMENTO_TIME_MIN , PORTAMENTO_TIME_MAX ) ;
# if NUM_DEXED > 1
else if ( LCDML . BT_checkEnter ( ) )
{
selected_instance_id = ! selected_instance_id ;
lcd_active_instance_number ( selected_instance_id ) ;
lcd . setCursor ( 14 , 0 ) ;
lcd . write ( 0 ) ;
lcd . setCursor ( 15 , 0 ) ;
lcd . write ( 1 ) ;
}
# endif
}
lcd_display_bar_int ( " Portam. Time " , configuration . dexed [ selected_instance_id ] . portamento_time , 1.0 , PORTAMENTO_TIME_MIN , PORTAMENTO_TIME_MAX , 2 , false , false , false ) ;
MicroDexed [ selected_instance_id ] - > setPortamentoMode ( configuration . dexed [ selected_instance_id ] . portamento_mode , configuration . dexed [ selected_instance_id ] . portamento_glissando , configuration . dexed [ selected_instance_id ] . portamento_time ) ;
}
if ( LCDML . FUNC_close ( ) ) // ****** STABLE END *********
{
lcd_special_chars ( SCROLLBAR ) ;
encoderDir [ ENC_R ] . reset ( ) ;
EEPROM . update ( EEPROM_START_ADDRESS + offsetof ( configuration_s , dexed [ 0 ] . portamento_time ) , configuration . dexed [ 0 ] . portamento_time ) ;
# if NUM_DEXED > 1
EEPROM . update ( EEPROM_START_ADDRESS + offsetof ( configuration_s , dexed [ 1 ] . portamento_time ) , configuration . dexed [ 1 ] . portamento_time ) ;
# endif
}
}
void UI_handle_OP ( uint8_t param )
{
static uint8_t op_selected ;
lcd_OP_active_instance_number ( selected_instance_id , configuration . dexed [ selected_instance_id ] . op_enabled ) ;
if ( LCDML . FUNC_setup ( ) ) // ****** SETUP *********
{
encoderDir [ ENC_R ] . reset ( ) ;
lcd . setCursor ( 0 , 0 ) ;
lcd . print ( F ( " Operator Enable " ) ) ;
lcd . setCursor ( 0 , 1 ) ;
for ( uint8_t i = 2 ; i < 8 ; i + + )
lcd . write ( i ) ;
lcd . setCursor ( 14 , 0 ) ;
lcd . write ( 0 ) ;
lcd . setCursor ( 15 , 0 ) ;
lcd . write ( 1 ) ;
lcd . setCursor ( op_selected , 1 ) ;
lcd . blink ( ) ;
}
if ( LCDML . FUNC_loop ( ) ) // ****** LOOP *********
{
if ( LCDML . BT_checkUp ( ) & & encoderDir [ ENC_R ] . Up ( ) )
{
# if NUM_DEXED>1
if ( op_selected = = 0 )
{
selected_instance_id = ! selected_instance_id ;
op_selected = 5 ;
lcd_OP_active_instance_number ( selected_instance_id , configuration . dexed [ selected_instance_id ] . op_enabled ) ;
}
else
# endif
op_selected = constrain ( op_selected - 1 , 0 , 5 ) ;
}
else if ( LCDML . BT_checkDown ( ) & & encoderDir [ ENC_R ] . Down ( ) )
{
# if NUM_DEXED>1
if ( op_selected = = 5 )
{
selected_instance_id = ! selected_instance_id ;
op_selected = 0 ;
lcd_OP_active_instance_number ( selected_instance_id , configuration . dexed [ selected_instance_id ] . op_enabled ) ;
}
else
# endif
op_selected = constrain ( op_selected + 1 , 0 , 5 ) ;
}
else if ( LCDML . BT_checkEnter ( ) & & encoderDir [ ENC_R ] . ButtonShort ( ) )
{
if ( bitRead ( configuration . dexed [ selected_instance_id ] . op_enabled , op_selected ) )
bitClear ( configuration . dexed [ selected_instance_id ] . op_enabled , op_selected ) ;
else
bitSet ( configuration . dexed [ selected_instance_id ] . op_enabled , op_selected ) ;
lcd_OP_active_instance_number ( selected_instance_id , configuration . dexed [ selected_instance_id ] . op_enabled ) ;
}
lcd . setCursor ( op_selected , 1 ) ;
MicroDexed [ selected_instance_id ] - > setOPs ( configuration . dexed [ selected_instance_id ] . op_enabled ) ;
MicroDexed [ selected_instance_id ] - > doRefreshVoice ( ) ;
}
if ( LCDML . FUNC_close ( ) ) // ****** STABLE END *********
{
lcd . noBlink ( ) ;
lcd . noCursor ( ) ;
lcd_special_chars ( SCROLLBAR ) ;
encoderDir [ ENC_R ] . reset ( ) ;
EEPROM . update ( EEPROM_START_ADDRESS + offsetof ( configuration_s , dexed [ 0 ] . op_enabled ) , configuration . dexed [ 0 ] . op_enabled ) ;
# if NUM_DEXED > 1
EEPROM . update ( EEPROM_START_ADDRESS + offsetof ( configuration_s , dexed [ 1 ] . op_enabled ) , configuration . dexed [ 1 ] . op_enabled ) ;
# endif
}
}
void UI_func_information ( uint8_t param )
{
if ( LCDML . FUNC_setup ( ) ) // ****** SETUP *********
{
char version_string [ LCD_cols + 1 ] ;
encoderDir [ ENC_R ] . reset ( ) ;
generate_version_string ( version_string , sizeof ( version_string ) ) ;
// setup function
lcd . setCursor ( 0 , 0 ) ;
lcd . print ( version_string ) ;
lcd . setCursor ( 0 , 1 ) ;
lcd . print ( sd_string ) ;
}
if ( LCDML . FUNC_loop ( ) ) // ****** LOOP *********
{
;
}
if ( LCDML . FUNC_close ( ) ) // ****** STABLE END *********
{
encoderDir [ ENC_R ] . reset ( ) ;
}
}
void UI_func_midi_soft_thru ( uint8_t param )
{
if ( LCDML . FUNC_setup ( ) ) // ****** SETUP *********
{
encoderDir [ ENC_R ] . reset ( ) ;
lcd . setCursor ( 0 , 0 ) ;
lcd . print ( F ( " MIDI Soft THRU " ) ) ;
}
if ( LCDML . FUNC_loop ( ) ) // ****** LOOP *********
{
if ( ( LCDML . BT_checkDown ( ) & & encoderDir [ ENC_R ] . Down ( ) ) | | ( LCDML . BT_checkUp ( ) & & encoderDir [ ENC_R ] . Up ( ) ) )
{
if ( LCDML . BT_checkDown ( ) )
configuration . sys . soft_midi_thru = constrain ( configuration . sys . soft_midi_thru + 1 , SOFT_MIDI_THRU_MIN , SOFT_MIDI_THRU_MAX ) ;
else if ( LCDML . BT_checkUp ( ) )
configuration . sys . soft_midi_thru = constrain ( configuration . sys . soft_midi_thru - 1 , SOFT_MIDI_THRU_MIN , SOFT_MIDI_THRU_MAX ) ;
}
lcd . setCursor ( 0 , 1 ) ;
switch ( configuration . sys . soft_midi_thru )
{
case 0 :
lcd . print ( F ( " [OFF] " ) ) ;
break ;
case 1 :
lcd . print ( F ( " [ON ] " ) ) ;
break ;
}
}
if ( LCDML . FUNC_close ( ) ) // ****** STABLE END *********
{
encoderDir [ ENC_R ] . reset ( ) ;
EEPROM . update ( EEPROM_START_ADDRESS + offsetof ( configuration_s , sys . soft_midi_thru ) , configuration . sys . soft_midi_thru ) ;
}
}
void UI_func_velocity_level ( uint8_t param )
{
if ( LCDML . FUNC_setup ( ) ) // ****** SETUP *********
{
encoderDir [ ENC_R ] . reset ( ) ;
lcd_special_chars ( BLOCKBAR ) ;
lcd_display_bar_int ( " Velocity Lvl " , configuration . dexed [ selected_instance_id ] . velocity_level , 1.0 , VELOCITY_LEVEL_MIN , VELOCITY_LEVEL_MAX , 3 , false , false , true ) ;
}
if ( LCDML . FUNC_loop ( ) ) // ****** LOOP *********
{
if ( ( LCDML . BT_checkDown ( ) & & encoderDir [ ENC_R ] . Down ( ) ) | | ( LCDML . BT_checkUp ( ) & & encoderDir [ ENC_R ] . Up ( ) ) )
{
if ( LCDML . BT_checkDown ( ) )
configuration . dexed [ selected_instance_id ] . velocity_level = constrain ( configuration . dexed [ selected_instance_id ] . velocity_level + ENCODER [ ENC_R ] . speed ( ) , VELOCITY_LEVEL_MIN , VELOCITY_LEVEL_MAX ) ;
else if ( LCDML . BT_checkUp ( ) )
configuration . dexed [ selected_instance_id ] . velocity_level = constrain ( configuration . dexed [ selected_instance_id ] . velocity_level - ENCODER [ ENC_R ] . speed ( ) , VELOCITY_LEVEL_MIN , VELOCITY_LEVEL_MAX ) ;
}
lcd_display_bar_int ( " Velocity Lvl " , configuration . dexed [ selected_instance_id ] . velocity_level , 1.0 , VELOCITY_LEVEL_MIN , VELOCITY_LEVEL_MAX , 3 , false , false , false ) ;
}
if ( LCDML . FUNC_close ( ) ) // ****** STABLE END *********
{
lcd_special_chars ( SCROLLBAR ) ;
encoderDir [ ENC_R ] . reset ( ) ;
if ( selected_instance_id = = 0 )
EEPROM . update ( EEPROM_START_ADDRESS + offsetof ( configuration_s , dexed [ 0 ] . velocity_level ) , configuration . dexed [ 0 ] . velocity_level ) ;
# if NUM_DEXED > 1
else
EEPROM . update ( EEPROM_START_ADDRESS + offsetof ( configuration_s , dexed [ 1 ] . velocity_level ) , configuration . dexed [ 1 ] . velocity_level ) ;
# endif
}
}
void UI_func_eeprom_reset ( uint8_t param )
{
static bool yesno = false ;
if ( LCDML . FUNC_setup ( ) ) // ****** SETUP *********
{
encoderDir [ ENC_R ] . reset ( ) ;
// setup function
lcd . print ( " Reset EEPROM? " ) ;
lcd . setCursor ( 0 , 1 ) ;
lcd . print ( " [NO ] " ) ;
}
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 ( ) )
yesno = true ;
else if ( LCDML . BT_checkUp ( ) )
yesno = false ;
else if ( LCDML . BT_checkEnter ( ) )
{
if ( yesno = = true )
{
LCDML . DISP_clear ( ) ;
lcd . print ( " EEPROM Reset: " ) ;
initial_values_from_eeprom ( true ) ;
lcd . setCursor ( 0 , 1 ) ;
lcd . print ( " Done. " ) ;
delay ( MESSAGE_WAIT_TIME ) ;
_softRestart ( ) ;
}
}
if ( yesno = = true )
{
lcd . setCursor ( 1 , 1 ) ;
lcd . print ( " YES " ) ;
}
else
{
lcd . setCursor ( 1 , 1 ) ;
lcd . print ( " NO " ) ;
}
}
}
if ( LCDML . FUNC_close ( ) ) // ****** STABLE END *********
{
lcd . setCursor ( 0 , 1 ) ;
lcd . print ( " Canceled " ) ;
delay ( MESSAGE_WAIT_TIME ) ;
encoderDir [ ENC_R ] . reset ( ) ;
}
}
void UI_func_voice_select ( uint8_t param )
{
static uint8_t menu_voice_select = MENU_VOICE_SOUND ;
if ( LCDML . FUNC_setup ( ) ) // ****** SETUP *********
{
encoderDir [ ENC_R ] . reset ( ) ;
lcd_active_instance_number ( selected_instance_id ) ;
char bank_name [ BANK_NAME_LEN ] ;
char voice_name [ VOICE_NAME_LEN ] ;
if ( ! get_bank_name ( configuration . performance . bank [ selected_instance_id ] , bank_name , sizeof ( bank_name ) ) )
strncpy ( bank_name , " *ERROR* " , sizeof ( bank_name ) ) ;
if ( ! get_voice_by_bank_name ( configuration . performance . bank [ selected_instance_id ] , bank_name , configuration . performance . voice [ selected_instance_id ] , voice_name , sizeof ( voice_name ) ) )
strncpy ( voice_name , " *ERROR* " , sizeof ( voice_name ) ) ;
lcd . setCursor ( 14 , 0 ) ;
lcd . write ( 0 ) ;
lcd . setCursor ( 15 , 0 ) ;
lcd . write ( 1 ) ;
# ifdef TEENSY3_6
lcd . createChar ( 6 , ( uint8_t * ) special_chars [ 16 ] ) ; // MIDI activity note symbol
lcd . createChar ( 7 , ( uint8_t * ) special_chars [ 16 ] ) ; // MIDI activity note symbol
# endif
}
if ( LCDML . FUNC_loop ( ) ) // ****** LOOP *********
{
char bank_name [ BANK_NAME_LEN ] ;
char voice_name [ VOICE_NAME_LEN ] ;
if ( ( LCDML . BT_checkDown ( ) & & encoderDir [ ENC_R ] . Down ( ) ) | | ( LCDML . BT_checkUp ( ) & & encoderDir [ ENC_R ] . Up ( ) ) | | ( LCDML . BT_checkEnter ( ) & & encoderDir [ ENC_R ] . ButtonShort ( ) ) )
{
uint8_t bank_tmp ;
int8_t voice_tmp ;
if ( LCDML . BT_checkUp ( ) )
{
switch ( menu_voice_select )
{
case MENU_VOICE_BANK :
memset ( g_bank_name [ selected_instance_id ] , 0 , BANK_NAME_LEN ) ;
bank_tmp = constrain ( configuration . performance . bank [ selected_instance_id ] - ENCODER [ ENC_R ] . speed ( ) , 0 , MAX_BANKS - 1 ) ;
configuration . performance . bank [ selected_instance_id ] = bank_tmp ;
# ifdef DISPLAY_LCD_SPI
change_disp_sd ( false ) ;
# endif
load_sd_voice ( configuration . performance . bank [ selected_instance_id ] , configuration . performance . voice [ selected_instance_id ] , selected_instance_id ) ;
# ifdef DISPLAY_LCD_SPI
change_disp_sd ( true ) ;
# endif
break ;
case MENU_VOICE_SOUND :
memset ( g_voice_name [ selected_instance_id ] , 0 , VOICE_NAME_LEN ) ;
voice_tmp = configuration . performance . voice [ selected_instance_id ] - ENCODER [ ENC_R ] . speed ( ) ;
if ( voice_tmp < 0 & & configuration . performance . bank [ selected_instance_id ] - 1 > = 0 )
{
configuration . performance . bank [ selected_instance_id ] - - ;
configuration . performance . bank [ selected_instance_id ] = constrain ( configuration . performance . bank [ selected_instance_id ] , 0 , MAX_BANKS - 1 ) ;
}
else if ( voice_tmp < 0 & & configuration . performance . bank [ selected_instance_id ] - 1 < = 0 )
{
voice_tmp = 0 ;
}
if ( voice_tmp < 0 )
voice_tmp = MAX_VOICES + voice_tmp ;
configuration . performance . voice [ selected_instance_id ] = constrain ( voice_tmp , 0 , MAX_VOICES - 1 ) ;
# ifdef DISPLAY_LCD_SPI
change_disp_sd ( false ) ;
# endif
load_sd_voice ( configuration . performance . bank [ selected_instance_id ] , configuration . performance . voice [ selected_instance_id ] , selected_instance_id ) ;
# ifdef DISPLAY_LCD_SPI
change_disp_sd ( true ) ;
# endif
break ;
}
}
else if ( LCDML . BT_checkDown ( ) )
{
switch ( menu_voice_select )
{
case MENU_VOICE_BANK :
memset ( g_bank_name [ selected_instance_id ] , 0 , BANK_NAME_LEN ) ;
bank_tmp = constrain ( configuration . performance . bank [ selected_instance_id ] + ENCODER [ ENC_R ] . speed ( ) , 0 , MAX_BANKS - 1 ) ;
configuration . performance . bank [ selected_instance_id ] = bank_tmp ;
# ifdef DISPLAY_LCD_SPI
change_disp_sd ( false ) ;
# endif
load_sd_voice ( configuration . performance . bank [ selected_instance_id ] , configuration . performance . voice [ selected_instance_id ] , selected_instance_id ) ;
# ifdef DISPLAY_LCD_SPI
change_disp_sd ( true ) ;
# endif
break ;
case MENU_VOICE_SOUND :
memset ( g_voice_name [ selected_instance_id ] , 0 , VOICE_NAME_LEN ) ;
voice_tmp = configuration . performance . voice [ selected_instance_id ] + ENCODER [ ENC_R ] . speed ( ) ;
if ( voice_tmp > = MAX_VOICES & & configuration . performance . bank [ selected_instance_id ] + 1 < MAX_BANKS )
{
voice_tmp % = MAX_VOICES ;
configuration . performance . bank [ selected_instance_id ] + + ;
configuration . performance . bank [ selected_instance_id ] = constrain ( configuration . performance . bank [ selected_instance_id ] , 0 , MAX_BANKS - 1 ) ;
}
else if ( voice_tmp > = MAX_VOICES & & configuration . performance . bank [ selected_instance_id ] + 1 > = MAX_BANKS )
{
voice_tmp = MAX_VOICES - 1 ;
}
configuration . performance . voice [ selected_instance_id ] = constrain ( voice_tmp , 0 , MAX_VOICES - 1 ) ;
# ifdef DISPLAY_LCD_SPI
change_disp_sd ( false ) ;
# endif
load_sd_voice ( configuration . performance . bank [ selected_instance_id ] , configuration . performance . voice [ selected_instance_id ] , selected_instance_id ) ;
# ifdef DISPLAY_LCD_SPI
change_disp_sd ( true ) ;
# endif
break ;
}
}
else if ( LCDML . BT_checkEnter ( ) )
{
if ( menu_voice_select = = MENU_VOICE_BANK )
menu_voice_select = MENU_VOICE_SOUND ;
else
menu_voice_select = MENU_VOICE_BANK ;
}
}
if ( strlen ( g_bank_name [ selected_instance_id ] ) > 0 )
{
strncpy ( bank_name , g_bank_name [ selected_instance_id ] , sizeof ( bank_name ) ) ;
}
else
{
if ( ! get_bank_name ( configuration . performance . bank [ selected_instance_id ] , bank_name , sizeof ( bank_name ) ) )
strncpy ( bank_name , " *ERROR* " , sizeof ( bank_name ) ) ;
}
if ( strlen ( g_voice_name [ selected_instance_id ] ) > 0 )
{
strncpy ( voice_name , g_voice_name [ selected_instance_id ] , sizeof ( voice_name ) ) ;
}
else
{
if ( ! get_voice_by_bank_name ( configuration . performance . bank [ selected_instance_id ] , bank_name , configuration . performance . voice [ selected_instance_id ] , voice_name , sizeof ( voice_name ) ) )
strncpy ( voice_name , " *ERROR* " , sizeof ( voice_name ) ) ;
}
lcd . show ( 0 , 0 , 2 , configuration . performance . bank [ selected_instance_id ] ) ;
lcd . show ( 1 , 0 , 2 , configuration . performance . voice [ selected_instance_id ] + 1 ) ;
lcd . show ( 0 , 3 , 10 , bank_name ) ;
lcd . show ( 1 , 3 , 10 , voice_name ) ;
switch ( menu_voice_select )
{
case MENU_VOICE_BANK :
lcd . show ( 0 , 2 , 1 , " [ " ) ;
lcd . show ( 0 , 13 , 1 , " ] " ) ;
lcd . show ( 1 , 2 , 1 , " " ) ;
lcd . show ( 1 , 13 , 1 , " " ) ;
break ;
case MENU_VOICE_SOUND :
lcd . show ( 0 , 2 , 1 , " " ) ;
lcd . show ( 0 , 13 , 1 , " " ) ;
lcd . show ( 1 , 2 , 1 , " [ " ) ;
lcd . show ( 1 , 13 , 1 , " ] " ) ;
break ;
}
}
if ( LCDML . FUNC_close ( ) ) // ****** STABLE END *********
{
lcd_special_chars ( SCROLLBAR ) ;
encoderDir [ ENC_R ] . reset ( ) ;
if ( selected_instance_id = = 0 )
{
//eeprom_update_var(offsetof(configuration_s, performance.voice[0]), configuration.performance.voice[0], "configuration.performance.voice[0]");
//eeprom_update_var(offsetof(configuration_s, performance.bank[0]), configuration.performance.bank[0], "configuration.performance.bank[0]");
EEPROM . update ( EEPROM_START_ADDRESS + offsetof ( configuration_s , performance . voice [ 0 ] ) , configuration . performance . voice [ 0 ] ) ;
EEPROM . update ( EEPROM_START_ADDRESS + offsetof ( configuration_s , performance . bank [ 0 ] ) , configuration . performance . bank [ 0 ] ) ;
}
# if NUM_DEXED > 1
else
{
EEPROM . update ( EEPROM_START_ADDRESS + offsetof ( configuration_s , performance . voice [ 1 ] ) , configuration . performance . voice [ 1 ] ) ;
EEPROM . update ( EEPROM_START_ADDRESS + offsetof ( configuration_s , performance . bank [ 1 ] ) , configuration . performance . bank [ 1 ] ) ;
}
# endif
}
}
void UI_func_volume ( uint8_t param )
{
if ( LCDML . FUNC_setup ( ) ) // ****** SETUP *********
{
encoderDir [ ENC_L ] . reset ( ) ;
lcd_special_chars ( BLOCKBAR ) ;
lcd_display_bar_int ( " Master Vol. " , configuration . sys . vol , 1.0 , VOLUME_MIN , VOLUME_MAX , 3 , false , false , true ) ;
back_from_volume = 0 ;
}
if ( LCDML . FUNC_loop ( ) ) // ****** LOOP *********
{
if ( ( LCDML . BT_checkDown ( ) & & encoderDir [ ENC_L ] . Down ( ) ) | | ( LCDML . BT_checkUp ( ) & & encoderDir [ ENC_L ] . Up ( ) ) )
{
back_from_volume = 0 ;
if ( LCDML . BT_checkDown ( ) )
{
configuration . sys . vol = constrain ( configuration . sys . vol + ENCODER [ ENC_L ] . speed ( ) , VOLUME_MIN , VOLUME_MAX ) ;
}
else if ( LCDML . BT_checkUp ( ) )
{
configuration . sys . vol = constrain ( configuration . sys . vol - ENCODER [ ENC_L ] . speed ( ) , VOLUME_MIN , VOLUME_MAX ) ;
}
}
lcd_display_bar_int ( " Master Vol. " , configuration . sys . vol , 1.0 , VOLUME_MIN , VOLUME_MAX , 3 , false , false , false ) ;
set_volume ( configuration . sys . vol , configuration . sys . mono ) ;
}
if ( LCDML . FUNC_close ( ) ) // ****** STABLE END *********
{
lcd_special_chars ( SCROLLBAR ) ;
EEPROM . update ( EEPROM_START_ADDRESS + offsetof ( configuration_s , sys . vol ) , configuration . sys . vol ) ;
encoderDir [ ENC_L ] . reset ( ) ;
}
}
void UI_func_load_performance ( uint8_t param )
{
static uint8_t mode ;
if ( LCDML . FUNC_setup ( ) ) // ****** SETUP *********
{
char tmp [ 10 ] ;
mode = 0 ;
encoderDir [ ENC_R ] . reset ( ) ;
lcd . setCursor ( 0 , 0 ) ;
lcd . print ( F ( " Load Perf. SD " ) ) ;
lcd . setCursor ( 0 , 1 ) ;
sprintf ( tmp , " [%2d] " , configuration . sys . performance_number ) ;
lcd . print ( tmp ) ;
}
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 ( ) )
{
configuration . sys . performance_number = constrain ( configuration . sys . performance_number + ENCODER [ ENC_L ] . speed ( ) , PERFORMANCE_NUM_MIN , PERFORMANCE_NUM_MAX ) ;
}
else if ( LCDML . BT_checkUp ( ) )
{
configuration . sys . performance_number = constrain ( configuration . sys . performance_number - ENCODER [ ENC_L ] . speed ( ) , PERFORMANCE_NUM_MIN , PERFORMANCE_NUM_MAX ) ;
}
else if ( LCDML . BT_checkEnter ( ) )
{
mode = 0xff ;
lcd . setCursor ( 0 , 1 ) ;
if ( load_sd_performance ( configuration . sys . performance_number ) = = false )
lcd . print ( " Does not exist. " ) ;
else
{
load_sd_voice ( configuration . performance . bank [ 0 ] , configuration . performance . voice [ 0 ] , 0 ) ;
load_sd_voiceconfig ( configuration . performance . voiceconfig_number [ 0 ] , 0 ) ;
set_voiceconfig_params ( 0 ) ;
# if NUM_DEXED > 1
set_voiceconfig_params ( 1 ) ;
load_sd_voice ( configuration . performance . bank [ 0 ] , configuration . performance . voice [ 1 ] , 1 ) ;
load_sd_voiceconfig ( configuration . performance . voiceconfig_number [ 1 ] , 1 ) ;
# endif
load_sd_fx ( configuration . performance . fx_number ) ;
set_fx_params ( ) ;
lcd . print ( " Done. " ) ;
}
delay ( MESSAGE_WAIT_TIME ) ;
LCDML . FUNC_goBackToMenu ( ) ;
}
lcd . setCursor ( 0 , 1 ) ;
char tmp [ 10 ] ;
sprintf ( tmp , " [%2d] " , configuration . sys . performance_number ) ;
lcd . print ( tmp ) ;
}
}
if ( LCDML . FUNC_close ( ) ) // ****** STABLE END *********
{
if ( mode < 0xff )
{
lcd . show ( 1 , 0 , 16 , " Canceled. " ) ;
delay ( MESSAGE_WAIT_TIME ) ;
}
else
eeprom_update_performance ( ) ;
encoderDir [ ENC_R ] . reset ( ) ;
}
}
void UI_func_save_performance ( uint8_t param )
{
static bool overwrite ;
static bool yesno ;
static uint8_t mode ;
if ( LCDML . FUNC_setup ( ) ) // ****** SETUP *********
{
char tmp [ FILENAME_LEN ] ;
yesno = false ;
mode = 0 ;
encoderDir [ ENC_R ] . reset ( ) ;
lcd . setCursor ( 0 , 0 ) ;
lcd . print ( F ( " Save Perf. SD " ) ) ;
lcd . setCursor ( 0 , 1 ) ;
sprintf ( tmp , " [%2d] " , configuration . sys . performance_number ) ;
lcd . print ( tmp ) ;
sprintf ( tmp , " /%s/%s%d.syx " , PERFORMANCE_CONFIG_PATH , PERFORMANCE_CONFIG_NAME , configuration . sys . performance_number ) ;
if ( SD . exists ( tmp ) )
overwrite = true ;
else
overwrite = false ;
}
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 ( mode = = 0 )
configuration . sys . performance_number = constrain ( configuration . sys . performance_number + ENCODER [ ENC_L ] . speed ( ) , PERFORMANCE_NUM_MIN , PERFORMANCE_NUM_MAX ) ;
else
yesno = true ;
}
else if ( LCDML . BT_checkUp ( ) )
{
if ( mode = = 0 )
configuration . sys . performance_number = constrain ( configuration . sys . performance_number - ENCODER [ ENC_L ] . speed ( ) , PERFORMANCE_NUM_MIN , PERFORMANCE_NUM_MAX ) ;
else
yesno = false ;
}
else if ( LCDML . BT_checkEnter ( ) )
{
if ( mode = = 0 & & overwrite = = true )
{
mode = 1 ;
lcd . setCursor ( 0 , 1 ) ;
lcd . print ( F ( " Overwrite: [ ] " ) ) ;
}
else
{
mode = 0xff ;
if ( overwrite = = false | | yesno = = true )
{
if ( yesno = = true )
{
char tmp [ FILENAME_LEN ] ;
sprintf ( tmp , " /%s/%s%d.syx " , PERFORMANCE_CONFIG_PATH , PERFORMANCE_CONFIG_NAME , configuration . sys . performance_number ) ;
SD . remove ( tmp ) ;
}
save_sd_performance ( configuration . sys . performance_number ) ;
lcd . show ( 1 , 0 , 16 , " Done. " ) ;
delay ( MESSAGE_WAIT_TIME ) ;
LCDML . FUNC_goBackToMenu ( ) ;
}
else if ( overwrite = = true & & yesno = = false )
{
char tmp [ 17 ] ;
mode = 0 ;
lcd . setCursor ( 0 , 1 ) ;
sprintf ( tmp , " [%2d] " , configuration . sys . performance_number ) ;
lcd . print ( tmp ) ;
}
}
}
if ( mode = = 0 )
{
char tmp [ FILENAME_LEN ] ;
sprintf ( tmp , " /%s/%s%d.syx " , PERFORMANCE_CONFIG_PATH , PERFORMANCE_CONFIG_NAME , configuration . sys . performance_number ) ;
if ( SD . exists ( tmp ) )
overwrite = true ;
else
overwrite = false ;
lcd . setCursor ( 0 , 1 ) ;
sprintf ( tmp , " [%2d] " , configuration . sys . performance_number ) ;
lcd . print ( tmp ) ;
}
else
{
lcd . setCursor ( 12 , 1 ) ;
if ( yesno = = true )
lcd . print ( F ( " YES " ) ) ;
else
lcd . print ( F ( " NO " ) ) ;
}
}
encoderDir [ ENC_R ] . reset ( ) ;
}
if ( LCDML . FUNC_close ( ) ) // ****** STABLE END *********
{
if ( mode < 0xff )
{
lcd . show ( 1 , 0 , 16 , " Canceled. " ) ;
delay ( MESSAGE_WAIT_TIME ) ;
}
EEPROM . update ( EEPROM_START_ADDRESS + offsetof ( sys_s , performance_number ) , configuration . sys . performance_number ) ;
encoderDir [ ENC_R ] . reset ( ) ;
}
}
void UI_func_load_voiceconfig ( uint8_t param )
{
# if NUMDEXED > 1
static int8_t selected_instance_id ;
# else
uint8_t selected_instance_id = 0 ;
# endif
static uint8_t mode ;
if ( LCDML . FUNC_setup ( ) ) // ****** SETUP *********
{
char tmp [ 10 ] ;
selected_instance_id = 0 ;
encoderDir [ ENC_R ] . reset ( ) ;
lcd . setCursor ( 0 , 0 ) ;
lcd . print ( F ( " Load VoiceCfg SD " ) ) ;
# if NUMDEXED > 1
mode = 0 ;
lcd . setCursor ( 0 , 1 ) ;
lcd . print ( F ( " Instance [0] " ) ) ;
# else
mode = 1 ;
lcd . setCursor ( 0 , 1 ) ;
sprintf ( tmp , " [%2d] " , configuration . performance . voiceconfig_number [ selected_instance_id ] ) ;
lcd . print ( tmp ) ;
# endif
}
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 ( mode = = 0 )
selected_instance_id = ( selected_instance_id + 1 ) % 2 ;
else if ( mode = = 1 )
configuration . performance . voiceconfig_number [ selected_instance_id ] = constrain ( configuration . performance . voiceconfig_number [ selected_instance_id ] + ENCODER [ ENC_L ] . speed ( ) , VOICECONFIG_NUM_MIN , VOICECONFIG_NUM_MAX ) ;
}
else if ( LCDML . BT_checkUp ( ) )
{
if ( mode = = 0 )
selected_instance_id = ( selected_instance_id - 1 ) % 2 ;
else if ( mode = = 1 )
configuration . performance . voiceconfig_number [ selected_instance_id ] = constrain ( configuration . performance . voiceconfig_number [ selected_instance_id ] - ENCODER [ ENC_L ] . speed ( ) , VOICECONFIG_NUM_MIN , VOICECONFIG_NUM_MAX ) ;
}
else if ( LCDML . BT_checkEnter ( ) )
{
mode = 0xff ;
lcd . setCursor ( 0 , 1 ) ;
if ( load_sd_voiceconfig ( configuration . performance . voiceconfig_number [ selected_instance_id ] , selected_instance_id ) = = false )
lcd . print ( " Does not exist. " ) ;
else
lcd . print ( " Done. " ) ;
delay ( MESSAGE_WAIT_TIME ) ;
LCDML . FUNC_goBackToMenu ( ) ;
}
if ( mode = = 0 )
{
lcd . setCursor ( 10 , 1 ) ;
lcd . print ( selected_instance_id ) ;
}
else if ( mode = = 1 )
{
lcd . setCursor ( 0 , 1 ) ;
char tmp [ 10 ] ;
sprintf ( tmp , " [%2d] " , configuration . performance . voiceconfig_number [ selected_instance_id ] ) ;
lcd . print ( tmp ) ;
}
}
encoderDir [ ENC_R ] . reset ( ) ;
}
if ( LCDML . FUNC_close ( ) ) // ****** STABLE END *********
{
if ( mode < 0xff )
{
lcd . show ( 1 , 0 , 16 , " Canceled. " ) ;
delay ( MESSAGE_WAIT_TIME ) ;
}
else
eeprom_update_dexed ( selected_instance_id ) ;
# if NUM_DEXED > 1
if ( selected_instance_id > 0 )
EEPROM . update ( EEPROM_START_ADDRESS + offsetof ( performance_s , voiceconfig_number [ 1 ] ) , configuration . performance . voiceconfig_number [ 1 ] ) ;
else
# endif
EEPROM . update ( EEPROM_START_ADDRESS + offsetof ( performance_s , voiceconfig_number [ 0 ] ) , configuration . performance . voiceconfig_number [ 0 ] ) ;
encoderDir [ ENC_R ] . reset ( ) ;
}
}
void UI_func_save_voiceconfig ( uint8_t param )
{
# if NUMDEXED > 1
static int8_t selected_instance_id ;
# else
uint8_t selected_instance_id = 0 ;
# endif
static bool overwrite ;
static bool yesno ;
static uint8_t mode ;
if ( LCDML . FUNC_setup ( ) ) // ****** SETUP *********
{
char tmp [ FILENAME_LEN ] ;
yesno = false ;
selected_instance_id = 0 ;
encoderDir [ ENC_R ] . reset ( ) ;
lcd . setCursor ( 0 , 0 ) ;
lcd . print ( F ( " Save VoiceCfg SD " ) ) ;
# if NUMDEXED > 1
mode = 0 ;
lcd . setCursor ( 0 , 1 ) ;
lcd . print ( F ( " Instance [0] " ) ) ;
# else
mode = 1 ;
lcd . setCursor ( 0 , 1 ) ;
sprintf ( tmp , " [%2d] " , configuration . performance . voiceconfig_number [ selected_instance_id ] ) ;
lcd . print ( tmp ) ;
sprintf ( tmp , " /%s/%s%d.syx " , VOICE_CONFIG_PATH , VOICE_CONFIG_NAME , configuration . performance . voiceconfig_number [ selected_instance_id ] ) ;
if ( SD . exists ( tmp ) )
overwrite = true ;
else
overwrite = false ;
# endif
}
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 ( mode = = 0 )
selected_instance_id = ( selected_instance_id + 1 ) % 2 ;
else if ( mode = = 1 )
configuration . performance . voiceconfig_number [ selected_instance_id ] = constrain ( configuration . performance . voiceconfig_number [ selected_instance_id ] + ENCODER [ ENC_L ] . speed ( ) , VOICECONFIG_NUM_MIN , VOICECONFIG_NUM_MAX ) ;
else
yesno = true ;
}
else if ( LCDML . BT_checkUp ( ) )
{
if ( mode = = 0 )
selected_instance_id = ( selected_instance_id - 1 ) % 2 ;
else if ( mode = = 1 )
configuration . performance . voiceconfig_number [ selected_instance_id ] = constrain ( configuration . performance . voiceconfig_number [ selected_instance_id ] - ENCODER [ ENC_L ] . speed ( ) , VOICECONFIG_NUM_MIN , VOICECONFIG_NUM_MAX ) ;
else
yesno = false ;
}
else if ( LCDML . BT_checkEnter ( ) )
{
if ( mode = = 1 & & overwrite = = true )
{
mode = 2 ;
lcd . setCursor ( 0 , 1 ) ;
lcd . print ( F ( " Overwrite: [ ] " ) ) ;
}
else
{
mode = 0xff ;
if ( overwrite = = false | | yesno = = true )
{
if ( yesno = = true )
{
char tmp [ FILENAME_LEN ] ;
sprintf ( tmp , " /%s/%s%d.syx " , VOICE_CONFIG_PATH , VOICE_CONFIG_NAME , configuration . performance . voiceconfig_number [ selected_instance_id ] ) ;
SD . remove ( tmp ) ;
}
save_sd_voiceconfig ( configuration . performance . voiceconfig_number [ selected_instance_id ] , selected_instance_id ) ;
lcd . show ( 1 , 0 , 16 , " Done. " ) ;
delay ( MESSAGE_WAIT_TIME ) ;
LCDML . FUNC_goBackToMenu ( ) ;
}
else if ( overwrite = = true & & yesno = = false )
{
char tmp [ 17 ] ;
mode = 1 ;
lcd . setCursor ( 0 , 1 ) ;
sprintf ( tmp , " [%2d] " , configuration . performance . voiceconfig_number [ selected_instance_id ] ) ;
lcd . print ( tmp ) ;
}
}
}
if ( mode = = 0 )
{
lcd . setCursor ( 10 , 1 ) ;
lcd . print ( configuration . performance . voiceconfig_number [ selected_instance_id ] ) ;
}
else if ( mode = = 1 )
{
char tmp [ FILENAME_LEN ] ;
sprintf ( tmp , " /%s/%s%d.syx " , VOICE_CONFIG_PATH , VOICE_CONFIG_NAME , configuration . performance . voiceconfig_number [ selected_instance_id ] ) ;
if ( SD . exists ( tmp ) )
overwrite = true ;
else
overwrite = false ;
lcd . setCursor ( 0 , 1 ) ;
sprintf ( tmp , " [%2d] " , configuration . performance . voiceconfig_number [ selected_instance_id ] ) ;
lcd . print ( tmp ) ;
}
else if ( mode = = 2 )
{
lcd . setCursor ( 12 , 1 ) ;
if ( yesno = = true )
lcd . print ( F ( " YES " ) ) ;
else
lcd . print ( F ( " NO " ) ) ;
}
}
encoderDir [ ENC_R ] . reset ( ) ;
}
if ( LCDML . FUNC_close ( ) ) // ****** STABLE END *********
{
if ( mode < 0xff )
{
lcd . show ( 1 , 0 , 16 , " Canceled. " ) ;
delay ( MESSAGE_WAIT_TIME ) ;
}
# if NUM_DEXED > 1
if ( selected_instance_id > 0 )
EEPROM . update ( EEPROM_START_ADDRESS + offsetof ( performance_s , voiceconfig_number [ 1 ] ) , configuration . performance . voiceconfig_number [ 1 ] ) ;
else
# endif
EEPROM . update ( EEPROM_START_ADDRESS + offsetof ( performance_s , voiceconfig_number [ 0 ] ) , configuration . performance . voiceconfig_number [ 0 ] ) ;
encoderDir [ ENC_R ] . reset ( ) ;
}
}
void UI_func_load_fx ( uint8_t param )
{
static uint8_t mode ;
if ( LCDML . FUNC_setup ( ) ) // ****** SETUP *********
{
char tmp [ 10 ] ;
mode = 0 ;
encoderDir [ ENC_R ] . reset ( ) ;
lcd . setCursor ( 0 , 0 ) ;
lcd . print ( F ( " Load FX SD " ) ) ;
lcd . setCursor ( 0 , 1 ) ;
sprintf ( tmp , " [%2d] " , configuration . performance . fx_number ) ;
lcd . print ( tmp ) ;
}
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 ( ) )
{
configuration . performance . fx_number = constrain ( configuration . performance . fx_number + ENCODER [ ENC_L ] . speed ( ) , FX_NUM_MIN , FX_NUM_MAX ) ;
}
else if ( LCDML . BT_checkUp ( ) )
{
configuration . performance . fx_number = constrain ( configuration . performance . fx_number - ENCODER [ ENC_L ] . speed ( ) , FX_NUM_MIN , FX_NUM_MAX ) ;
}
else if ( LCDML . BT_checkEnter ( ) )
{
mode = 0xff ;
lcd . setCursor ( 0 , 1 ) ;
if ( load_sd_fx ( configuration . performance . fx_number ) = = false )
lcd . print ( " Does not exist. " ) ;
else
lcd . print ( " Done. " ) ;
delay ( MESSAGE_WAIT_TIME ) ;
LCDML . FUNC_goBackToMenu ( ) ;
}
lcd . setCursor ( 0 , 1 ) ;
char tmp [ 10 ] ;
sprintf ( tmp , " [%2d] " , configuration . performance . fx_number ) ;
lcd . print ( tmp ) ;
}
}
if ( LCDML . FUNC_close ( ) ) // ****** STABLE END *********
{
if ( mode < 0xff )
{
lcd . show ( 1 , 0 , 16 , " Canceled. " ) ;
delay ( MESSAGE_WAIT_TIME ) ;
}
else
eeprom_update_fx ( ) ;
EEPROM . update ( EEPROM_START_ADDRESS + offsetof ( performance_s , fx_number ) , configuration . performance . fx_number ) ;
encoderDir [ ENC_R ] . reset ( ) ;
}
}
void UI_func_save_fx ( uint8_t param )
{
static bool overwrite ;
static bool yesno ;
static uint8_t mode ;
if ( LCDML . FUNC_setup ( ) ) // ****** SETUP *********
{
char tmp [ FILENAME_LEN ] ;
yesno = false ;
mode = 0 ;
encoderDir [ ENC_R ] . reset ( ) ;
lcd . setCursor ( 0 , 0 ) ;
lcd . print ( F ( " Save FX " ) ) ;
lcd . setCursor ( 0 , 1 ) ;
sprintf ( tmp , " [%2d] " , configuration . performance . fx_number ) ;
lcd . print ( tmp ) ;
sprintf ( tmp , " /%s/%s%d.syx " , FX_CONFIG_PATH , FX_CONFIG_NAME , configuration . performance . fx_number ) ;
if ( SD . exists ( tmp ) )
overwrite = true ;
else
overwrite = false ;
}
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 ( mode = = 0 )
configuration . performance . fx_number = constrain ( configuration . performance . fx_number + ENCODER [ ENC_L ] . speed ( ) , FX_NUM_MIN , FX_NUM_MAX ) ;
else
yesno = true ;
}
else if ( LCDML . BT_checkUp ( ) )
{
if ( mode = = 0 )
configuration . performance . fx_number = constrain ( configuration . performance . fx_number - ENCODER [ ENC_L ] . speed ( ) , FX_NUM_MIN , FX_NUM_MAX ) ;
else
yesno = false ;
}
else if ( LCDML . BT_checkEnter ( ) )
{
if ( mode = = 0 & & overwrite = = true )
{
mode = 1 ;
lcd . setCursor ( 0 , 1 ) ;
lcd . print ( F ( " Overwrite: [ ] " ) ) ;
}
else
{
mode = 0xff ;
if ( overwrite = = false | | yesno = = true )
{
if ( yesno = = true )
{
char tmp [ FILENAME_LEN ] ;
sprintf ( tmp , " /%s/%s%d.syx " , FX_CONFIG_PATH , FX_CONFIG_NAME , configuration . performance . fx_number ) ;
SD . remove ( tmp ) ;
}
save_sd_fx ( configuration . performance . fx_number ) ;
lcd . show ( 1 , 0 , 16 , " Done. " ) ;
LCDML . FUNC_goBackToMenu ( ) ;
delay ( MESSAGE_WAIT_TIME ) ;
}
else if ( overwrite = = true & & yesno = = false )
{
char tmp [ 17 ] ;
mode = 0 ;
lcd . setCursor ( 0 , 1 ) ;
sprintf ( tmp , " [%2d] " , configuration . performance . fx_number ) ;
lcd . print ( tmp ) ;
}
}
}
if ( mode = = 0 )
{
char tmp [ FILENAME_LEN ] ;
sprintf ( tmp , " /%s/%s%d.syx " , FX_CONFIG_PATH , FX_CONFIG_NAME , configuration . performance . fx_number ) ;
if ( SD . exists ( tmp ) )
overwrite = true ;
else
overwrite = false ;
lcd . setCursor ( 0 , 1 ) ;
sprintf ( tmp , " [%2d] " , configuration . performance . fx_number ) ;
lcd . print ( tmp ) ;
}
else
{
lcd . setCursor ( 12 , 1 ) ;
if ( yesno = = true )
lcd . print ( F ( " YES " ) ) ;
else
lcd . print ( F ( " NO " ) ) ;
}
}
encoderDir [ ENC_R ] . reset ( ) ;
}
if ( LCDML . FUNC_close ( ) ) // ****** STABLE END *********
{
if ( mode < 0xff )
{
lcd . show ( 1 , 0 , 16 , " Canceled. " ) ;
delay ( MESSAGE_WAIT_TIME ) ;
}
EEPROM . update ( EEPROM_START_ADDRESS + offsetof ( performance_s , fx_number ) , configuration . performance . fx_number ) ;
encoderDir [ ENC_R ] . reset ( ) ;
}
}
void UI_func_save_voice ( uint8_t param )
{
static bool yesno ;
static uint8_t mode ;
if ( LCDML . FUNC_setup ( ) ) // ****** SETUP *********
{
encoderDir [ ENC_R ] . reset ( ) ;
yesno = false ;
# if NUM_DEXED == 1
mode = 1 ;
# else
mode = 0 ;
# endif
# if NUM_DEXED == 1
char bank_name [ BANK_NAME_LEN ] ;
if ( ! get_bank_name ( configuration . performance . bank [ selected_instance_id ] , bank_name , sizeof ( bank_name ) ) )
strncpy ( bank_name , " *ERROR* " , sizeof ( bank_name ) ) ;
lcd . setCursor ( 0 , 0 ) ;
lcd . print ( F ( " Save to Bank " ) ) ;
lcd . show ( 1 , 0 , 2 , configuration . performance . bank [ selected_instance_id ] ) ;
lcd . show ( 1 , 4 , 10 , bank_name ) ;
lcd . show ( 1 , 2 , 2 , " [ " ) ;
lcd . show ( 1 , 14 , 1 , " ] " ) ;
# else
lcd . setCursor ( 0 , 0 ) ;
lcd . print ( F ( " Save Instance " ) ) ;
lcd_active_instance_number ( selected_instance_id ) ;
lcd . setCursor ( 5 , 1 ) ;
lcd . write ( 0 ) ;
lcd . setCursor ( 10 , 1 ) ;
lcd . write ( 1 ) ;
# endif
}
if ( LCDML . FUNC_loop ( ) ) // ****** LOOP *********
{
char bank_name [ BANK_NAME_LEN ] ;
char voice_name [ VOICE_NAME_LEN ] ;
if ( ( LCDML . BT_checkDown ( ) & & encoderDir [ ENC_R ] . Down ( ) ) | | ( LCDML . BT_checkUp ( ) & & encoderDir [ ENC_R ] . Up ( ) ) )
{
switch ( mode )
{
case 0 : // Instance selection
if ( LCDML . BT_checkDown ( ) | | LCDML . BT_checkUp ( ) )
selected_instance_id = ! selected_instance_id ;
lcd_active_instance_number ( selected_instance_id ) ;
lcd . setCursor ( 5 , 1 ) ;
lcd . write ( 0 ) ;
lcd . setCursor ( 10 , 1 ) ;
lcd . write ( 1 ) ;
break ;
case 1 : // Bank selection
if ( LCDML . BT_checkDown ( ) )
configuration . performance . bank [ selected_instance_id ] = constrain ( configuration . performance . bank [ selected_instance_id ] + ENCODER [ ENC_R ] . speed ( ) , 0 , MAX_BANKS - 1 ) ;
else if ( LCDML . BT_checkUp ( ) & & configuration . performance . bank [ selected_instance_id ] > 0 )
configuration . performance . bank [ selected_instance_id ] = constrain ( configuration . performance . bank [ selected_instance_id ] - ENCODER [ ENC_R ] . speed ( ) , 0 , MAX_BANKS - 1 ) ;
if ( ! get_bank_name ( configuration . performance . bank [ selected_instance_id ] , bank_name , sizeof ( bank_name ) ) )
strncpy ( bank_name , " *ERROR* " , sizeof ( bank_name ) ) ;
lcd . show ( 1 , 0 , 2 , configuration . performance . bank [ selected_instance_id ] ) ;
lcd . show ( 1 , 4 , 10 , bank_name ) ;
break ;
case 2 : // Voice selection
if ( LCDML . BT_checkDown ( ) & & configuration . performance . voice [ selected_instance_id ] < MAX_VOICES - 1 )
configuration . performance . voice [ selected_instance_id ] = constrain ( configuration . performance . voice [ selected_instance_id ] + ENCODER [ ENC_R ] . speed ( ) , 0 , MAX_VOICES - 1 ) ;
else if ( LCDML . BT_checkUp ( ) & & configuration . performance . voice [ selected_instance_id ] > 0 )
configuration . performance . voice [ selected_instance_id ] = constrain ( configuration . performance . voice [ selected_instance_id ] - ENCODER [ ENC_R ] . speed ( ) , 0 , MAX_VOICES - 1 ) ;
if ( ! get_bank_name ( configuration . performance . bank [ selected_instance_id ] , bank_name , sizeof ( bank_name ) ) )
strncpy ( bank_name , " *ERROR* " , sizeof ( bank_name ) ) ;
if ( ! get_voice_by_bank_name ( configuration . performance . bank [ selected_instance_id ] , bank_name , configuration . performance . voice [ selected_instance_id ] , voice_name , sizeof ( voice_name ) ) )
strncpy ( voice_name , " *ERROR* " , sizeof ( voice_name ) ) ;
lcd . show ( 1 , 0 , 2 , configuration . performance . voice [ selected_instance_id ] + 1 ) ;
lcd . show ( 1 , 4 , 10 , voice_name ) ;
break ;
case 3 : // Yes/No selection
yesno = ! yesno ;
if ( yesno = = true )
{
lcd . show ( 1 , 1 , 3 , " YES " ) ;
}
else
{
lcd . show ( 1 , 1 , 3 , " NO " ) ;
}
break ;
}
}
else if ( LCDML . BT_checkEnter ( ) )
{
if ( encoderDir [ ENC_R ] . ButtonShort ( ) )
mode + + ;
switch ( mode )
{
case 1 :
if ( ! get_bank_name ( configuration . performance . bank [ selected_instance_id ] , bank_name , sizeof ( bank_name ) ) )
strncpy ( bank_name , " *ERROR* " , sizeof ( bank_name ) ) ;
lcd . setCursor ( 0 , 0 ) ;
lcd . print ( F ( " Save to Bank " ) ) ;
lcd . show ( 1 , 0 , 2 , configuration . performance . bank [ selected_instance_id ] ) ;
lcd . show ( 1 , 4 , 10 , bank_name ) ;
lcd . show ( 1 , 2 , 2 , " [ " ) ;
lcd . show ( 1 , 14 , 1 , " ] " ) ;
break ;
case 2 :
if ( ! get_bank_name ( configuration . performance . bank [ selected_instance_id ] , bank_name , sizeof ( bank_name ) ) )
strncpy ( bank_name , " *ERROR* " , sizeof ( bank_name ) ) ;
if ( ! get_voice_by_bank_name ( configuration . performance . bank [ selected_instance_id ] , bank_name , configuration . performance . voice [ selected_instance_id ] , voice_name , sizeof ( voice_name ) ) )
strncpy ( voice_name , " *ERROR* " , sizeof ( voice_name ) ) ;
lcd . show ( 0 , 0 , 16 , " Save to Bank " ) ;
lcd . show ( 0 , 13 , 2 , configuration . performance . bank [ selected_instance_id ] ) ;
lcd . show ( 1 , 0 , 2 , configuration . performance . voice [ selected_instance_id ] + 1 ) ;
lcd . show ( 1 , 4 , 10 , voice_name ) ;
break ;
case 3 :
lcd . show ( 0 , 0 , 16 , " Overwrite? " ) ;
lcd . show ( 1 , 0 , 15 , " [NO " ) ;
lcd . show ( 1 , 4 , 1 , " ] " ) ;
break ;
default :
if ( yesno = = true )
{
# ifdef DEBUG
bool ret = save_sd_voice ( configuration . performance . bank [ selected_instance_id ] , configuration . performance . voice [ selected_instance_id ] , selected_instance_id ) ;
if ( ret = = true )
Serial . println ( F ( " Saving voice OK. " ) ) ;
else
Serial . println ( F ( " Error while saving voice. " ) ) ;
# else
save_sd_voice ( configuration . performance . bank [ selected_instance_id ] , configuration . performance . voice [ selected_instance_id ] , selected_instance_id ) ;
# endif
lcd . show ( 1 , 0 , 16 , " Done. " ) ;
delay ( MESSAGE_WAIT_TIME ) ;
mode = 0xff ;
break ;
}
LCDML . FUNC_goBackToMenu ( ) ;
}
}
}
if ( LCDML . FUNC_close ( ) ) // ****** STABLE END *********
{
if ( mode < 0xff )
{
lcd . show ( 1 , 0 , 16 , " Canceled. " ) ;
delay ( MESSAGE_WAIT_TIME ) ;
}
else
{
if ( selected_instance_id = = 0 )
{
EEPROM . update ( EEPROM_START_ADDRESS + offsetof ( configuration_s , performance . voice [ 0 ] ) , configuration . performance . voice [ 0 ] ) ;
EEPROM . update ( EEPROM_START_ADDRESS + offsetof ( configuration_s , performance . bank [ 0 ] ) , configuration . performance . bank [ 0 ] ) ;
}
# if NUM_DEXED > 1
else
{
EEPROM . update ( EEPROM_START_ADDRESS + offsetof ( configuration_s , performance . voice [ 0 ] ) , configuration . performance . voice [ 1 ] ) ;
EEPROM . update ( EEPROM_START_ADDRESS + offsetof ( configuration_s , performance . bank [ 0 ] ) , configuration . performance . bank [ 1 ] ) ;
}
# endif
}
encoderDir [ ENC_R ] . reset ( ) ;
}
}
void UI_func_sysex_receive_bank ( uint8_t param )
{
if ( LCDML . FUNC_setup ( ) ) // ****** SETUP *********
{
encoderDir [ ENC_R ] . reset ( ) ;
lcd . setCursor ( 0 , 0 ) ;
lcd . print ( F ( " MIDI Recv Bank " ) ) ;
lcd . setCursor ( 0 , 1 ) ;
lcd . print ( F ( " Not implemented. " ) ) ;
}
if ( LCDML . FUNC_loop ( ) ) // ****** LOOP *********
{
if ( ( LCDML . BT_checkDown ( ) & & encoderDir [ ENC_R ] . Down ( ) ) | | ( LCDML . BT_checkUp ( ) & & encoderDir [ ENC_R ] . Up ( ) ) )
{
if ( LCDML . BT_checkDown ( ) )
{
;
}
else if ( LCDML . BT_checkUp ( ) )
{
;
}
}
}
if ( LCDML . FUNC_close ( ) ) // ****** STABLE END *********
{
encoderDir [ ENC_R ] . reset ( ) ;
}
}
void UI_func_sysex_send_bank ( uint8_t param )
{
if ( LCDML . FUNC_setup ( ) ) // ****** SETUP *********
{
encoderDir [ ENC_R ] . reset ( ) ;
lcd . setCursor ( 0 , 0 ) ;
lcd . print ( F ( " MIDI Send Bank " ) ) ;
lcd . setCursor ( 0 , 1 ) ;
lcd . print ( F ( " Not implemented. " ) ) ;
}
if ( LCDML . FUNC_loop ( ) ) // ****** LOOP *********
{
if ( ( LCDML . BT_checkDown ( ) & & encoderDir [ ENC_R ] . Down ( ) ) | | ( LCDML . BT_checkUp ( ) & & encoderDir [ ENC_R ] . Up ( ) ) )
{
if ( LCDML . BT_checkDown ( ) )
{
;
}
else if ( LCDML . BT_checkUp ( ) )
{
;
}
}
}
if ( LCDML . FUNC_close ( ) ) // ****** STABLE END *********
{
encoderDir [ ENC_R ] . reset ( ) ;
}
}
void UI_func_sysex_send_voice ( uint8_t param )
{
if ( LCDML . FUNC_setup ( ) ) // ****** SETUP *********
{
encoderDir [ ENC_R ] . reset ( ) ;
lcd . setCursor ( 0 , 0 ) ;
lcd . print ( F ( " MIDI Send Voice " ) ) ;
lcd . setCursor ( 0 , 1 ) ;
lcd . print ( F ( " Not implemented. " ) ) ;
}
if ( LCDML . FUNC_loop ( ) ) // ****** LOOP *********
{
if ( ( LCDML . BT_checkDown ( ) & & encoderDir [ ENC_R ] . Down ( ) ) | | ( LCDML . BT_checkUp ( ) & & encoderDir [ ENC_R ] . Up ( ) ) )
{
if ( LCDML . BT_checkDown ( ) )
{
;
}
else if ( LCDML . BT_checkUp ( ) )
{
;
}
}
}
if ( LCDML . FUNC_close ( ) ) // ****** STABLE END *********
{
encoderDir [ ENC_R ] . reset ( ) ;
}
}
void UI_func_sysex_receive_voice ( uint8_t param )
{
if ( LCDML . FUNC_setup ( ) ) // ****** SETUP *********
{
encoderDir [ ENC_R ] . reset ( ) ;
lcd . setCursor ( 0 , 0 ) ;
lcd . print ( F ( " MIDI Receive Voice " ) ) ;
lcd . setCursor ( 0 , 1 ) ;
lcd . print ( F ( " Not implemented. " ) ) ;
}
if ( LCDML . FUNC_loop ( ) ) // ****** LOOP *********
{
if ( ( LCDML . BT_checkDown ( ) & & encoderDir [ ENC_R ] . Down ( ) ) | | ( LCDML . BT_checkUp ( ) & & encoderDir [ ENC_R ] . Up ( ) ) )
{
if ( LCDML . BT_checkDown ( ) )
{
;
}
else if ( LCDML . BT_checkUp ( ) )
{
;
}
}
}
if ( LCDML . FUNC_close ( ) ) // ****** STABLE END *********
{
encoderDir [ ENC_R ] . reset ( ) ;
}
}
void UI_function_not_enabled ( void )
{
if ( LCDML . FUNC_setup ( ) ) // ****** SETUP *********
{
encoderDir [ ENC_R ] . reset ( ) ;
lcd . setCursor ( 0 , 0 ) ;
lcd . print ( F ( " Function not " ) ) ;
lcd . setCursor ( 0 , 1 ) ;
lcd . print ( F ( " enbaled! " ) ) ;
}
if ( LCDML . FUNC_loop ( ) ) // ****** LOOP *********
{
;
}
if ( LCDML . FUNC_close ( ) ) // ****** STABLE END *********
{
encoderDir [ ENC_R ] . reset ( ) ;
}
}
void UI_function_not_implemented ( uint8_t param )
{
if ( LCDML . FUNC_setup ( ) ) // ****** SETUP *********
{
encoderDir [ ENC_R ] . reset ( ) ;
lcd . setCursor ( 0 , 0 ) ;
lcd . print ( F ( " Function not " ) ) ;
lcd . setCursor ( 0 , 1 ) ;
lcd . print ( F ( " implemented! " ) ) ;
}
if ( LCDML . FUNC_loop ( ) ) // ****** LOOP *********
{
;
}
if ( LCDML . FUNC_close ( ) ) // ****** STABLE END *********
{
encoderDir [ ENC_R ] . reset ( ) ;
}
}
void lcd_display_int ( int16_t var , uint8_t size , bool zeros , bool brackets , bool sign )
{
lcd_display_float ( float ( var ) , size , 0 , zeros , brackets , sign ) ;
}
void lcd_display_float ( float var , uint8_t size_number , uint8_t size_fraction , bool zeros , bool brackets , bool sign )
{
char s [ LCD_cols + 1 ] ;
char f [ LCD_cols + 1 ] ;
if ( size_fraction > 0 )
{
if ( zeros = = true & & sign = = true )
sprintf ( f , " %%+0%d.%df " , size_number + size_fraction + 2 , size_fraction ) ;
else if ( zeros = = true & & sign = = false )
sprintf ( f , " %%+0%d.%df " , size_number + size_fraction + 1 , size_fraction ) ;
else if ( zeros = = false & & sign = = true )
sprintf ( f , " %%+%d.%df " , size_number + size_fraction + 2 , size_fraction ) ;
else if ( zeros = = false & & sign = = false )
sprintf ( f , " %%%d.%df " , size_number + size_fraction + 1 , size_fraction ) ;
sprintf ( s , f , var ) ;
}
else
{
if ( zeros = = true & & sign = = true )
sprintf ( f , " %%+0%dd " , size_number + 1 ) ;
else if ( zeros = = true & & sign = = false )
sprintf ( f , " %%%0dd " , size_number ) ;
else if ( zeros = = false & & sign = = true )
sprintf ( f , " %%+%dd " , size_number + 1 ) ;
else if ( zeros = = false & & sign = = false )
sprintf ( f , " %%%dd " , size_number ) ;
sprintf ( s , f , int ( var ) ) ;
}
if ( brackets = = true )
{
char tmp [ LCD_cols + 1 ] ;
strcpy ( tmp , s ) ;
sprintf ( s , " [%s] " , tmp ) ;
}
lcd . print ( s ) ;
}
inline void lcd_display_bar_int ( const char * title , uint32_t value , float factor , int32_t min_value , int32_t max_value , uint8_t size , bool zeros , bool sign , bool init )
{
lcd_display_bar_float ( title , float ( value ) , factor , min_value , max_value , size , 0 , zeros , sign , init ) ;
}
void lcd_display_bar_float ( const char * title , float value , float factor , int32_t min_value , int32_t max_value , uint8_t size_number , uint8_t size_fraction , bool zeros , bool sign , bool init )
{
uint8_t size ;
float v ;
float _vi = 0.0 ;
uint8_t vf ;
uint8_t vi ;
if ( size_fraction = = 0 )
size = size_number ;
else
size = size_number + size_fraction + 1 ;
if ( sign = = true )
size + + ;
v = float ( ( value - min_value ) * ( LCD_cols - size ) ) / ( max_value - min_value ) ;
vf = uint8_t ( modff ( v , & _vi ) * 10.0 + 0.5 ) ;
vi = uint8_t ( _vi ) ;
if ( sign = = true )
size + = 1 ;
// Title
if ( init = = true )
lcd . show ( 0 , 0 , LCD_cols - 3 , title ) ;
// Value
lcd . setCursor ( LCD_cols - size , 1 ) ;
lcd_display_float ( value * factor , size_number , size_fraction , zeros , false , sign ) ; // TBD
// Bar
lcd . setCursor ( 0 , 1 ) ;
if ( vi = = 0 )
{
lcd . write ( ( uint8_t ) ( vf / 2.0 - 0.5 ) + 2 ) ;
for ( uint8_t i = vi + 1 ; i < LCD_cols - size ; i + + )
lcd . print ( F ( " " ) ) ; // empty block
}
else
{
for ( uint8_t i = 0 ; i < vi ; i + + )
lcd . write ( ( uint8_t ) 4 + 2 ) ; // full block
if ( vi < LCD_cols - size )
lcd . write ( ( uint8_t ) ( vf / 2.0 - 0.5 ) + 2 ) ;
for ( uint8_t i = vi + 1 ; i < LCD_cols - size ; i + + )
lcd . print ( F ( " " ) ) ; // empty block
}
}
inline void lcd_display_meter_int ( const char * title , uint32_t value , float factor , float offset , int32_t min_value , int32_t max_value , uint8_t size , bool zeros , bool sign , bool init )
{
lcd_display_meter_float ( title , float ( value ) , factor , offset , min_value , max_value , size , 0 , zeros , sign , init ) ;
}
void lcd_display_meter_float ( const char * title , float value , float factor , float offset , int32_t min_value , int32_t max_value , uint8_t size_number , uint8_t size_fraction , bool zeros , bool sign , bool init )
{
uint8_t size = 0 ;
float v ;
float _vi = 0.0 ;
uint8_t vf ;
uint8_t vi ;
if ( size_fraction = = 0 )
size = size_number ;
else
size = size_number + size_fraction + 1 ;
if ( sign = = true )
size + + ;
v = float ( ( value - min_value ) * ( LCD_cols - size ) ) / ( max_value - min_value ) ;
vf = uint8_t ( modff ( v , & _vi ) * 10.0 + 0.5 ) ;
vi = uint8_t ( _vi ) ;
if ( init = = true )
{
// Title
lcd . setCursor ( 0 , 0 ) ;
lcd . print ( title ) ;
}
// Value
lcd . setCursor ( LCD_cols - size , 1 ) ;
lcd_display_float ( ( value + offset ) * factor , size_number , size_fraction , zeros , false , sign ) ;
// Bar
lcd . setCursor ( 0 , 1 ) ;
if ( vi = = 0 )
{
lcd . write ( ( uint8_t ) ( vf / 2.0 ) + 2 ) ;
for ( uint8_t i = 1 ; i < LCD_cols - size ; i + + )
lcd . print ( F ( " " ) ) ; // empty block
}
else if ( vi = = LCD_cols - size )
{
for ( uint8_t i = 0 ; i < LCD_cols - size - 1 ; i + + )
lcd . print ( F ( " " ) ) ; // empty block
lcd . write ( 4 + 2 ) ;
}
else
{
for ( uint8_t i = 0 ; i < LCD_cols - size ; i + + )
lcd . print ( F ( " " ) ) ; // empty block
lcd . setCursor ( vi , 1 ) ;
lcd . write ( ( uint8_t ) ( vf / 2.0 ) + 2 ) ;
for ( uint8_t i = vi + 1 ; i < LCD_cols - size ; i + + )
lcd . print ( F ( " " ) ) ; // empty block
}
}
uint8_t bit_reverse8 ( uint8_t v )
{
uint8_t result = 0 ;
for ( ; v > 0 ; v > > = 1 )
( result < < = 1 ) | = ( v & 1 ) ;
return ( result ) ;
}
void lcd_active_instance_number ( uint8_t instance_id )
{
for ( uint8_t i = 0 ; i < 8 ; i + + )
{
if ( instance_id = = 0 )
{
if ( configuration . dexed [ instance_id ] . polyphony = = 0 )
instance_num [ 0 ] [ i ] = bit_reverse8 ( special_chars [ 0 ] [ i ] ) ;
else
instance_num [ 0 ] [ i ] = special_chars [ 0 ] [ i ] ;
if ( configuration . dexed [ ! instance_id ] . polyphony = = 0 )
{
instance_num [ 1 ] [ i ] = bit_reverse8 ( special_chars [ 1 ] [ i ] ) ;
instance_num [ 1 ] [ i ] = ~ instance_num [ 1 ] [ i ] ;
}
else
instance_num [ 1 ] [ i ] = ~ special_chars [ 1 ] [ i ] ;
}
else
{
if ( configuration . dexed [ ! instance_id ] . polyphony = = 0 )
{
instance_num [ 0 ] [ i ] = bit_reverse8 ( special_chars [ 0 ] [ i ] ) ;
instance_num [ 0 ] [ i ] = ~ instance_num [ 0 ] [ i ] ;
}
else
instance_num [ 0 ] [ i ] = ~ special_chars [ 0 ] [ i ] ;
if ( configuration . dexed [ instance_id ] . polyphony = = 0 )
instance_num [ 1 ] [ i ] = bit_reverse8 ( special_chars [ 1 ] [ i ] ) ;
else
instance_num [ 1 ] [ i ] = special_chars [ 1 ] [ i ] ;
}
}
# if NUM_DEXED == 1
lcd . createChar ( 0 , instance_num [ 0 ] ) ;
lcd . createChar ( 1 , ( uint8_t * ) special_chars [ 17 ] ) ;
# else
lcd . createChar ( 0 , instance_num [ 0 ] ) ;
lcd . createChar ( 1 , instance_num [ 1 ] ) ;
# endif
}
void lcd_OP_active_instance_number ( uint8_t instance_id , uint8_t op )
{
uint8_t i , n ;
for ( n = 2 ; n < 8 ; n + + )
{
for ( i = 0 ; i < 8 ; i + + )
{
if ( bitRead ( op , n - 2 ) )
instance_num [ n ] [ i ] = special_chars [ n ] [ i ] ;
else
instance_num [ n ] [ i ] = ~ special_chars [ n ] [ i ] ;
}
lcd . createChar ( n , instance_num [ n ] ) ;
}
for ( i = 0 ; i < 8 ; i + + )
{
if ( instance_id = = 0 )
{
if ( configuration . dexed [ instance_id ] . polyphony = = 0 )
instance_num [ 0 ] [ i ] = bit_reverse8 ( special_chars [ 0 ] [ i ] ) ;
else
instance_num [ 0 ] [ i ] = special_chars [ 0 ] [ i ] ;
if ( configuration . dexed [ ! instance_id ] . polyphony = = 0 )
{
instance_num [ 1 ] [ i ] = bit_reverse8 ( special_chars [ 1 ] [ i ] ) ;
instance_num [ 1 ] [ i ] = ~ instance_num [ 1 ] [ i ] ;
}
else
instance_num [ 1 ] [ i ] = ~ special_chars [ 1 ] [ i ] ;
}
else
{
if ( configuration . dexed [ ! instance_id ] . polyphony = = 0 )
{
instance_num [ 0 ] [ i ] = bit_reverse8 ( special_chars [ 0 ] [ i ] ) ;
instance_num [ 0 ] [ i ] = ~ instance_num [ 0 ] [ i ] ;
}
else
instance_num [ 0 ] [ i ] = ~ special_chars [ 0 ] [ i ] ;
if ( configuration . dexed [ instance_id ] . polyphony = = 0 )
instance_num [ 1 ] [ i ] = bit_reverse8 ( special_chars [ 1 ] [ i ] ) ;
else
instance_num [ 1 ] [ i ] = special_chars [ 1 ] [ i ] ;
}
}
lcd . createChar ( 0 , instance_num [ 0 ] ) ;
lcd . createChar ( 1 , instance_num [ 1 ] ) ;
}
void lcd_special_chars ( uint8_t mode )
{
switch ( mode )
{
case SCROLLBAR :
// set special chars for scrollbar
for ( uint8_t i = 0 ; i < 5 ; i + + )
{
# ifdef I2C_DISPLAY
lcd . createChar ( i , ( uint8_t * ) scroll_bar [ i ] ) ;
# else
flipped_scroll_bar [ i ] = rotTile ( scroll_bar [ i ] ) ;
# endif
}
break ;
case BLOCKBAR :
// set special chars for volume-bar
for ( uint8_t i = 0 ; i < 7 ; i + + )
{
# ifdef I2C_DISPLAY
lcd . createChar ( i + 2 , ( uint8_t * ) block_bar [ i ] ) ;
# else
flipped_block_bar [ i ] = rotTile ( block_bar [ i ] ) ;
# endif
}
break ;
case METERBAR :
// set special chars for panorama-bar
for ( uint8_t i = 0 ; i < 7 ; i + + )
{
# ifdef I2C_DISPLAY
lcd . createChar ( i + 2 , ( uint8_t * ) meter_bar [ i ] ) ;
# else
flipped_meter_bar [ i ] = rotTile ( meter_bar [ i ] ) ;
# endif
}
break ;
}
}
void eeprom_update_var ( uint16_t pos , uint8_t val , const char * val_string )
{
# ifdef DEBUG
char tmp [ 80 ] ;
sprintf ( tmp , " EEPROM update '%s' at position %d with value %d. " , val_string , pos , val ) ;
Serial . println ( tmp ) ;
# endif
EEPROM . update ( EEPROM_START_ADDRESS + pos , val ) ;
}
# endif
# endif