/*
MicroDexed
MicroDexed is a port of the Dexed sound engine
Dexed ist heavily based on https : //github.com/google/music-synthesizer-for-android
( c ) 2018 - 2022 H . Wirtz < wirtz @ parasitstudio . de >
( c ) 2021 - 2022 H . Wirtz < wirtz @ parasitstudio . de > , M . Koslowski < positionhigh @ gmx . 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
*/
# include <limits.h>
# include "config.h"
# include <Audio.h>
# include <Wire.h>
# include <MIDI.h>
# include <EEPROM.h>
# include <SD.h>
# include <SPI.h>
# include <TeensyVariablePlayback.h>
# include "midi_devices.hpp"
# include "synth_dexed.h"
# include "dexed_sd.h"
# include <effect_modulated_delay.h>
# include <effect_stereo_mono.h>
# include <effect_mono_stereo.h>
# if defined(USE_PLATEREVERB)
# include <effect_platervbstereo.h>
# else
# include <effect_freeverbf.h>
# endif
# include <template_mixer.hpp>
# include "UI.hpp"
# if NUM_DRUMS > 0
# include "midinotes.h"
# include "drumset.h"
# endif
# ifdef SGTL5000_AUDIO_ENHANCE
# include "control_sgtl5000plus.h"
# endif
# if defined(USE_EPIANO)
# include "synth_mda_epiano.h"
# include <effect_stereo_panorama.h>
# endif
// Audio engines
AudioSynthDexed * MicroDexed [ NUM_DEXED ] ;
# if defined(USE_EPIANO)
AudioSynthEPiano ep ( NUM_EPIANO_VOICES ) ;
# endif
# if defined(USE_FX)
AudioSynthWaveform * chorus_modulator [ NUM_DEXED ] ;
# if MOD_FILTER_OUTPUT != MOD_NO_FILTER_OUTPUT
AudioFilterBiquad * modchorus_filter [ NUM_DEXED ] ;
# endif
AudioEffectModulatedDelay * modchorus [ NUM_DEXED ] ;
AudioMixer < 2 > * chorus_mixer [ NUM_DEXED ] ;
AudioMixer < 2 > * delay_fb_mixer [ NUM_DEXED ] ;
AudioEffectDelay * delay_fx [ NUM_DEXED ] ;
AudioMixer < 2 > * delay_mixer [ NUM_DEXED ] ;
# endif
AudioEffectMonoStereo * mono2stereo [ NUM_DEXED ] ;
# if defined(USE_FX) && defined(USE_EPIANO)
AudioEffectStereoPanorama ep_stereo_panorama ;
AudioSynthWaveform ep_chorus_modulator ;
# if MOD_FILTER_OUTPUT != MOD_NO_FILTER_OUTPUT
AudioFilterBiquad ep_modchorus_filter ;
# endif
AudioEffectModulatedDelayStereo ep_modchorus ;
AudioMixer < 2 > ep_chorus_mixer_r ;
AudioMixer < 2 > ep_chorus_mixer_l ;
# endif
AudioMixer < 2 > microdexed_peak_mixer ;
AudioAnalyzePeak microdexed_peak ;
# if defined(USE_FX)
# if defined(USE_EPIANO)
AudioMixer < 4 > reverb_mixer_r ;
AudioMixer < 4 > reverb_mixer_l ;
# else
AudioMixer < 3 > reverb_mixer_r ;
AudioMixer < 3 > reverb_mixer_l ;
# endif
# if defined(USE_PLATEREVERB)
AudioEffectPlateReverb reverb ;
# else
AudioEffectFreeverbStereoFloat freeverb ;
# endif
# endif
# if defined(USE_FX) && defined(USE_EPIANO)
AudioMixer < 5 > master_mixer_r ;
AudioMixer < 5 > master_mixer_l ;
# else
AudioMixer < 4 > master_mixer_r ;
AudioMixer < 4 > master_mixer_l ;
# endif
AudioAmplifier volume_r ;
AudioAmplifier volume_l ;
AudioEffectStereoMono stereo2mono ;
AudioAnalyzePeak master_peak_r ;
AudioAnalyzePeak master_peak_l ;
# if defined(TEENSY_AUDIO_BOARD) && defined(SGTL5000_AUDIO_THRU)
AudioMixer < 2 > audio_thru_mixer_r ;
AudioMixer < 2 > audio_thru_mixer_l ;
# endif
// Drumset
# if NUM_DRUMS > 0
AudioPlayArrayResmp * Drum [ NUM_DRUMS ] ;
AudioMixer < NUM_DRUMS > drum_mixer_r ;
AudioMixer < NUM_DRUMS > drum_mixer_l ;
# ifdef USE_FX
# if NUM_DRUMS < 5
AudioMixer < 4 > drum_reverb_send_mixer_r ;
AudioMixer < 4 > drum_reverb_send_mixer_l ;
# else
AudioMixer < 8 > drum_reverb_send_mixer_r ;
AudioMixer < 8 > drum_reverb_send_mixer_l ;
# endif
# endif
# endif
// Outputs
# if defined(TEENSY_AUDIO_BOARD)
AudioOutputI2S i2s1 ;
# ifdef SGTL5000_AUDIO_ENHANCE
AudioControlSGTL5000Plus sgtl5000 ;
# else
AudioControlSGTL5000 sgtl5000 ;
# endif
# elif defined(I2S_AUDIO_ONLY)
AudioOutputI2S i2s1 ;
# elif defined(TGA_AUDIO_BOARD)
AudioOutputI2S i2s1 ;
AudioControlWM8731master wm8731_1 ;
# elif defined(PT8211_AUDIO)
AudioOutputPT8211 pt8211_1 ;
# elif defined(TEENSY_DAC_SYMMETRIC)
AudioOutputAnalogStereo dacOut ;
AudioMixer < 4 > invMixer ;
# elif defined(TEENSY_DAC)
AudioOutputAnalogStereo dacOut ;
# endif
# ifdef AUDIO_DEVICE_USB
AudioOutputUSB usb1 ;
# endif
# if defined(TEENSY_AUDIO_BOARD) && defined(SGTL5000_AUDIO_THRU)
AudioInputI2S i2s1in ;
# endif
//
// Static patching of audio objects
//
AudioConnection patchCord [ ] = {
// Audio chain tail
# if defined(USE_FX)
# ifdef USE_PLATEREVERB
{ reverb_mixer_r , 0 , reverb , 0 } ,
{ reverb_mixer_l , 0 , reverb , 1 } ,
{ reverb , 0 , master_mixer_r , MASTER_MIX_CH_REVERB } ,
{ reverb , 1 , master_mixer_l , MASTER_MIX_CH_REVERB } ,
# else
{ reverb_mixer_r , 0 , freeverb , 0 } ,
{ reverb_mixer_l , 0 , freeverb , 1 } ,
{ freeverb , 0 , master_mixer_r , MASTER_MIX_CH_REVERB } ,
{ freeverb , 1 , master_mixer_l , MASTER_MIX_CH_REVERB } ,
# endif
# endif
{ master_mixer_r , volume_r } ,
{ master_mixer_l , volume_l } ,
{ volume_r , 0 , stereo2mono , 0 } ,
{ volume_l , 0 , stereo2mono , 1 } ,
{ stereo2mono , 0 , master_peak_r , 0 } ,
{ stereo2mono , 0 , master_peak_l , 0 } ,
// Outputs
# if defined(TEENSY_AUDIO_BOARD)
# ifndef SGTL5000_AUDIO_THRU
{ stereo2mono , 0 , i2s1 , 0 } ,
{ stereo2mono , 1 , i2s1 , 1 } ,
# endif
# elif defined(I2S_AUDIO_ONLY)
{ stereo2mono , 0 , i2s1 , 0 } ,
{ stereo2mono , 1 , i2s1 , 1 } ,
# elif defined(TGA_AUDIO_BOARD)
{ stereo2mono , 0 , i2s1 , 0 } ,
{ stereo2mono , 1 , i2s1 , 1 } ,
# elif defined(PT8211_AUDIO)
{ stereo2mono , 0 , pt8211_1 , 0 } ,
{ stereo2mono , 1 , pt8211_1 , 1 } ,
# elif defined(TEENSY_DAC_SYMMETRIC)
{ stereo2mono , 0 , dacOut , 0 } ,
{ stereo2mono , 1 , invMixer , 0 } ,
{ invMixer , 0 , dacOut , 1 } ,
# elif defined(TEENSY_DAC)
{ stereo2mono , 0 , dacOut , 0 } ,
{ stereo2mono , 1 , dacOut , 1 } ,
# endif
# ifdef AUDIO_DEVICE_USB
{ stereo2mono , 0 , usb1 , 0 } ,
{ stereo2mono , 1 , usb1 , 1 } ,
# endif
# if defined(TEENSY_AUDIO_BOARD) && defined(SGTL5000_AUDIO_THRU)
{ stereo2mono , 0 , audio_thru_mixer_r , 0 } ,
{ stereo2mono , 1 , audio_thru_mixer_l , 0 } ,
{ i2s1in , 0 , audio_thru_mixer_r , 1 } ,
{ i2s1in , 1 , audio_thru_mixer_l , 1 } ,
{ audio_thru_mixer_r , 0 , i2s1 , 0 } ,
{ audio_thru_mixer_l , 0 , i2s1 , 1 } ,
# endif
# if NUM_DRUMS > 0
# ifdef USE_FX
{ drum_reverb_send_mixer_r , 0 , reverb_mixer_r , REVERB_MIX_CH_DRUMS } ,
{ drum_reverb_send_mixer_l , 0 , reverb_mixer_l , REVERB_MIX_CH_DRUMS } ,
{ drum_mixer_r , 0 , master_mixer_r , MASTER_MIX_CH_DRUMS } ,
{ drum_mixer_l , 0 , master_mixer_l , MASTER_MIX_CH_DRUMS } ,
# else
{ drum_mixer_r , 0 , master_mixer_r , MASTER_MIX_CH_DRUMS } ,
{ drum_mixer_l , 0 , master_mixer_l , MASTER_MIX_CH_DRUMS } ,
# endif
# endif
# if defined(USE_EPIANO)
{ ep , 0 , ep_stereo_panorama , 0 } ,
{ ep , 1 , ep_stereo_panorama , 1 } ,
# if defined(USE_FX)
{ ep_stereo_panorama , 0 , ep_chorus_mixer_r , 0 } ,
{ ep_stereo_panorama , 1 , ep_chorus_mixer_l , 0 } ,
{ ep_stereo_panorama , 0 , ep_modchorus , 0 } ,
{ ep_stereo_panorama , 1 , ep_modchorus , 1 } ,
# if MOD_FILTER_OUTPUT != MOD_NO_FILTER_OUTPUT
{ ep_chorus_modulator , 0 , ep_modchorus_filter , 0 } ,
{ ep_modchorus_filter , 0 , ep_modchorus , 2 } ,
# else
{ ep_chorus_modulator , 0 , ep_modchorus , 2 } ,
# endif
{ ep_modchorus , 0 , ep_chorus_mixer_r , 1 } ,
{ ep_modchorus , 1 , ep_chorus_mixer_l , 1 } ,
{ ep_chorus_mixer_r , 0 , reverb_mixer_r , REVERB_MIX_CH_EPIANO } ,
{ ep_chorus_mixer_l , 0 , reverb_mixer_l , REVERB_MIX_CH_EPIANO } ,
{ ep_chorus_mixer_r , 0 , master_mixer_r , MASTER_MIX_CH_EPIANO } ,
{ ep_chorus_mixer_l , 0 , master_mixer_l , MASTER_MIX_CH_EPIANO } ,
# else
{ ep_stereo_panorama , 0 , master_mixer_r , MASTER_MIX_CH_EPIANO } ,
{ ep_stereo_panorama , 1 , master_mixer_l , MASTER_MIX_CH_EPIANO } ,
# endif
# endif
} ;
//
// Dynamic patching of MicroDexed objects
//
uint8_t nDynamic = 0 ;
# if defined(USE_FX) && MOD_FILTER_OUTPUT != MOD_NO_FILTER_OUTPUT
AudioConnection * dynamicConnections [ NUM_DEXED * 16 + NUM_DRUMS * 4 ] ;
# elif defined(USE_FX) && MOD_FILTER_OUTPUT == MOD_NO_FILTER_OUTPUT
AudioConnection * dynamicConnections [ NUM_DEXED * 15 + NUM_DRUMS * 4 ] ;
# else
AudioConnection * dynamicConnections [ NUM_DEXED * 4 + NUM_DRUMS * 2 ] ;
# endif
FLASHMEM void create_audio_dexed_chain ( uint8_t instance_id ) {
MicroDexed [ instance_id ] = new AudioSynthDexed ( MAX_NOTES / NUM_DEXED , SAMPLE_RATE ) ;
mono2stereo [ instance_id ] = new AudioEffectMonoStereo ( ) ;
# if defined(USE_FX)
chorus_modulator [ instance_id ] = new AudioSynthWaveform ( ) ;
# if MOD_FILTER_OUTPUT != MOD_NO_FILTER_OUTPUT
modchorus_filter [ instance_id ] = new AudioFilterBiquad ( ) ;
# endif
modchorus [ instance_id ] = new AudioEffectModulatedDelay ( ) ;
chorus_mixer [ instance_id ] = new AudioMixer < 2 > ( ) ;
delay_fb_mixer [ instance_id ] = new AudioMixer < 2 > ( ) ;
delay_fx [ instance_id ] = new AudioEffectDelay ( ) ;
delay_mixer [ instance_id ] = new AudioMixer < 2 > ( ) ;
# endif
dynamicConnections [ nDynamic + + ] = new AudioConnection ( * MicroDexed [ instance_id ] , 0 , microdexed_peak_mixer , instance_id ) ;
# if defined(USE_FX)
dynamicConnections [ nDynamic + + ] = new AudioConnection ( * MicroDexed [ instance_id ] , 0 , * chorus_mixer [ instance_id ] , 0 ) ;
dynamicConnections [ nDynamic + + ] = new AudioConnection ( * MicroDexed [ instance_id ] , 0 , * modchorus [ instance_id ] , 0 ) ; //////////////////////
# if MOD_FILTER_OUTPUT != MOD_NO_FILTER_OUTPUT
dynamicConnections [ nDynamic + + ] = new AudioConnection ( * chorus_modulator [ instance_id ] , 0 , * modchorus_filter [ instance_id ] , 0 ) ;
dynamicConnections [ nDynamic + + ] = new AudioConnection ( * modchorus_filter [ instance_id ] , 0 , * modchorus [ instance_id ] , 1 ) ;
# else
dynamicConnections [ nDynamic + + ] = new AudioConnection ( * chorus_modulator [ instance_id ] , 0 , * modchorus [ instance_id ] , 1 ) ;
# endif
dynamicConnections [ nDynamic + + ] = new AudioConnection ( * modchorus [ instance_id ] , 0 , * chorus_mixer [ instance_id ] , 1 ) ;
dynamicConnections [ nDynamic + + ] = new AudioConnection ( * chorus_mixer [ instance_id ] , 0 , * delay_fb_mixer [ instance_id ] , 0 ) ;
dynamicConnections [ nDynamic + + ] = new AudioConnection ( * chorus_mixer [ instance_id ] , 0 , * delay_mixer [ instance_id ] , 0 ) ;
dynamicConnections [ nDynamic + + ] = new AudioConnection ( * delay_fb_mixer [ instance_id ] , 0 , * delay_fx [ instance_id ] , 0 ) ;
dynamicConnections [ nDynamic + + ] = new AudioConnection ( * delay_fx [ instance_id ] , 0 , * delay_fb_mixer [ instance_id ] , 1 ) ;
dynamicConnections [ nDynamic + + ] = new AudioConnection ( * delay_fx [ instance_id ] , 0 , * delay_mixer [ instance_id ] , 1 ) ;
dynamicConnections [ nDynamic + + ] = new AudioConnection ( * delay_mixer [ instance_id ] , 0 , * mono2stereo [ instance_id ] , 0 ) ;
dynamicConnections [ nDynamic + + ] = new AudioConnection ( * mono2stereo [ instance_id ] , 0 , reverb_mixer_r , instance_id ) ;
dynamicConnections [ nDynamic + + ] = new AudioConnection ( * mono2stereo [ instance_id ] , 1 , reverb_mixer_l , instance_id ) ;
# else
dynamicConnections [ nDynamic + + ] = new AudioConnection ( * MicroDexed [ instance_id ] , 0 , * mono2stereo [ instance_id ] , 0 ) ;
# endif
dynamicConnections [ nDynamic + + ] = new AudioConnection ( * mono2stereo [ instance_id ] , 0 , master_mixer_r , instance_id ) ;
dynamicConnections [ nDynamic + + ] = new AudioConnection ( * mono2stereo [ instance_id ] , 1 , master_mixer_l , instance_id ) ;
# ifdef DEBUG
Serial . print ( F ( " Dexed-Instance: " ) ) ;
Serial . println ( instance_id ) ;
# endif
}
//
// Dynamic patching of Drum objects
//
# if NUM_DRUMS > 0
FLASHMEM void create_audio_drum_chain ( uint8_t instance_id ) {
//Drum[instance_id] = new AudioPlayMemory();
Drum [ instance_id ] = new AudioPlayArrayResmp ( ) ;
Drum [ instance_id ] - > enableInterpolation ( false ) ;
Drum [ instance_id ] - > setPlaybackRate ( 1.0 ) ;
dynamicConnections [ nDynamic + + ] = new AudioConnection ( * Drum [ instance_id ] , 0 , drum_mixer_r , instance_id ) ;
dynamicConnections [ nDynamic + + ] = new AudioConnection ( * Drum [ instance_id ] , 0 , drum_mixer_l , instance_id ) ;
# ifdef USE_FX
dynamicConnections [ nDynamic + + ] = new AudioConnection ( * Drum [ instance_id ] , 0 , drum_reverb_send_mixer_r , instance_id ) ;
dynamicConnections [ nDynamic + + ] = new AudioConnection ( * Drum [ instance_id ] , 0 , drum_reverb_send_mixer_l , instance_id ) ;
# endif
}
# endif
// other global vars
uint8_t sd_card = 0 ;
Sd2Card card ;
SdVolume volume ;
const float midi_ticks_factor [ 10 ] = { 0.0 , 0.25 , 0.375 , 0.5 , 0.75 , 1.0 , 1.5 , 2.0 , 3.0 , 4.0 } ;
uint8_t midi_bpm_counter = 0 ;
uint8_t midi_bpm = 0 ;
int16_t _midi_bpm = - 1 ;
elapsedMillis midi_bpm_timer ;
elapsedMillis long_button_pressed ;
elapsedMillis control_rate ;
elapsedMillis save_sys ;
bool save_sys_flag = false ;
uint8_t active_voices [ NUM_DEXED ] ;
uint8_t midi_voices [ NUM_DEXED ] ;
# ifdef SHOW_CPU_LOAD_MSEC
elapsedMillis cpu_mem_millis ;
# endif
bool midi_learn_mode = false ;
uint32_t cpumax = 0 ;
uint32_t peak_dexed = 0 ;
float peak_dexed_value = 0.0 ;
uint32_t peak_r = 0 ;
uint32_t peak_l = 0 ;
config_t configuration ;
const uint8_t cs_pins [ ] = { SDCARD_TEENSY_CS_PIN , SDCARD_AUDIO_CS_PIN } ;
const uint8_t mosi_pins [ ] = { SDCARD_TEENSY_MOSI_PIN , SDCARD_AUDIO_MOSI_PIN } ;
const uint8_t sck_pins [ ] = { SDCARD_TEENSY_SCK_PIN , SDCARD_AUDIO_SCK_PIN } ;
char version_string [ LCD_cols + 1 ] ;
char sd_string [ LCD_cols + 1 ] ;
char g_voice_name [ NUM_DEXED ] [ VOICE_NAME_LEN ] ;
char g_bank_name [ NUM_DEXED ] [ BANK_NAME_LEN ] ;
char receive_bank_filename [ FILENAME_LEN ] ;
uint8_t selected_instance_id = 0 ;
uint8_t seq_UI_last_step = 0 ;
# if defined(ARDUINO_TEENSY40) || defined(ARDUINO_TEENSY41)
# if NUM_DEXED > 1
int8_t midi_decay [ NUM_DEXED ] = { - 1 , - 1 } ;
# else
int8_t midi_decay [ NUM_DEXED ] = { - 1 } ;
# endif
elapsedMillis midi_decay_timer ;
# endif
# if NUM_DEXED > 1
int perform_attack_mod [ NUM_DEXED ] = { 0 , 0 } ;
int perform_release_mod [ NUM_DEXED ] = { 0 , 0 } ;
# else
int perform_attack_mod [ NUM_DEXED ] = { 0 } ;
int perform_release_mod [ NUM_DEXED ] = { 0 } ;
# endif
# if defined(USE_FX)
// Allocate the delay lines for chorus
int16_t * delayline [ NUM_DEXED ] ;
# ifdef USE_EPIANO
int16_t * ep_delayline_r ;
int16_t * ep_delayline_l ;
# endif
# endif
# if NUM_DRUMS > 0
//extern drum_config_t drum_config[NUM_DRUMSET_CONFIG];
uint8_t drum_counter ;
uint8_t drum_type [ NUM_DRUMS ] ;
# endif
# ifdef ENABLE_LCD_UI
extern LCDMenuLib2 LCDML ;
# endif
extern void getNoteName ( char * noteName , uint8_t noteNumber ) ;
/***********************************************************************
SETUP
* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */
void setup ( ) {
# ifdef DEBUG
Serial . begin ( SERIAL_SPEED ) ;
# else
delay ( 50 ) ; // seems to be needed when no serial debugging is enabled
# endif
# ifdef ENABLE_LCD_UI
setup_ui ( ) ;
# endif
# ifndef ENABLE_LCD_UI
# ifdef DEBUG
Serial . println ( F ( " NO LCD DISPLAY ENABLED! " ) ) ;
# endif
# endif
# if defined(DEBUG) && (defined(ARDUINO_TEENSY40) || defined(ARDUINO_TEENSY41))
Serial . println ( F ( " ------------------------------------------------------------------------------- " ) ) ;
Serial . println ( F ( " Latest crash report: " ) ) ;
Serial . println ( CrashReport ) ;
Serial . println ( F ( " ------------------------------------------------------------------------------- " ) ) ;
# endif
# ifdef DEBUG
setup_debug_message ( ) ;
# endif
generate_version_string ( version_string , sizeof ( version_string ) ) ;
# ifdef DEBUG
Serial . println ( F ( " MicroDexed based on https://github.com/asb2m10/dexed " ) ) ;
Serial . println ( F ( " (c)2018-2022 H. Wirtz <wirtz@parasitstudio.de> " ) ) ;
Serial . println ( F ( " (c)2018-2022 H. Wirtz <wirtz@parasitstudio.de>, M. Koslowski <positionhigh@gmx.de> " ) ) ;
Serial . println ( F ( " https://codeberg.org/dcoredump/MicroDexed " ) ) ;
Serial . print ( F ( " Version: " ) ) ;
Serial . println ( version_string ) ;
Serial . print ( F ( " CPU-Speed: " ) ) ;
Serial . print ( F_CPU / 1000000.0 , 1 ) ;
Serial . println ( F ( " MHz " ) ) ;
Serial . println ( F ( " <setup start> " ) ) ;
Serial . flush ( ) ;
# endif
// Setup MIDI devices
setup_midi_devices ( ) ;
// Start audio system
AudioMemory ( AUDIO_MEM ) ;
# if defined(TEENSY_AUDIO_BOARD)
sgtl5000 . enable ( ) ;
sgtl5000 . lineOutLevel ( SGTL5000_LINEOUT_LEVEL ) ;
sgtl5000 . dacVolumeRamp ( ) ;
sgtl5000 . dacVolume ( 1.0 ) ;
//sgtl5000.dacVolumeRampLinear();
//sgtl5000.dacVolumeRampDisable();
sgtl5000 . unmuteHeadphone ( ) ;
sgtl5000 . unmuteLineout ( ) ;
sgtl5000 . volume ( SGTL5000_HEADPHONE_VOLUME , SGTL5000_HEADPHONE_VOLUME ) ; // Headphone volume
# ifdef SGTL5000_AUDIO_THRU
//sgtl5000.audioPreProcessorEnable();
sgtl5000 . inputSelect ( AUDIO_INPUT_LINEIN ) ;
sgtl5000 . lineInLevel ( 5 ) ;
//sgtl5000.adcHighPassFilterEnable();
# endif
# ifdef SGTL5000_AUDIO_ENHANCE
sgtl5000 . audioPostProcessorEnable ( ) ;
sgtl5000 . init_parametric_eq ( 7 ) ;
//sgtl5000.enhanceBassEnable();
//sgtl5000.enhanceBass(1.0, 1.5, 0, 5); // enhanceBass(1.0, 1.0, 1, 2); // Configures the bass enhancement by setting the levels of the original stereo signal and the bass-enhanced mono level which will be mixed together. The high-pass filter may be enabled (0) or bypassed (1).
//sgtl5000.surroundSoundEnable();
//sgtl5000.surroundSound(7, 3); // Configures virtual surround width from 0 (mono) to 7 (widest). select may be set to 1 (disable), 2 (mono input) or 3 (stereo input).
# else
sgtl5000 . audioProcessorDisable ( ) ;
sgtl5000 . autoVolumeDisable ( ) ;
sgtl5000 . surroundSoundDisable ( ) ;
sgtl5000 . enhanceBassDisable ( ) ;
# endif
# ifdef DEBUG
Serial . println ( F ( " Teensy-Audio-Board enabled. " ) ) ;
# endif
# elif defined(TGA_AUDIO_BOARD)
wm8731_1 . enable ( ) ;
wm8731_1 . volume ( 1.0 ) ;
# ifdef DEBUG
Serial . println ( F ( " TGA board enabled. " ) ) ;
# endif
# elif defined(I2S_AUDIO_ONLY)
# ifdef DEBUG
Serial . println ( F ( " I2S enabled. " ) ) ;
# endif
# elif defined(PT8211_AUDIO)
# ifdef DEBUG
Serial . println ( F ( " PT8211 enabled. " ) ) ;
# endif
# elif defined(TEENSY_DAC_SYMMETRIC)
invMixer . gain ( 0 , - 1.f ) ;
# ifdef DEBUG
Serial . println ( F ( " Internal DAC using symmetric outputs enabled. " ) ) ;
# endif
# else
# ifdef DEBUG
Serial . println ( F ( " Internal DAC enabled. " ) ) ;
# endif
# endif
// create dynamic Dexed instances
for ( uint8_t instance_id = 0 ; instance_id < NUM_DEXED ; instance_id + + ) {
# ifdef DEBUG
Serial . print ( F ( " Creating MicroDexed instance " ) ) ;
Serial . println ( instance_id , DEC ) ;
# endif
create_audio_dexed_chain ( instance_id ) ;
MicroDexed [ instance_id ] - > setCompressor ( true ) ; // just a test for enabling the compressor with default values
}
# ifdef DEBUG
for ( uint8_t instance_id = 0 ; instance_id < NUM_DEXED ; instance_id + + ) {
Serial . print ( F ( " Instance " ) ) ;
Serial . print ( instance_id ) ;
Serial . print ( F ( " : " ) ) ;
Serial . print ( MicroDexed [ instance_id ] - > getMaxNotes ( ) ) ;
Serial . println ( F ( " voices " ) ) ;
}
# endif
// Setup (PROGMEM) sample drums
# if NUM_DRUMS > 0
// create dynamic Drum instances
for ( uint8_t instance_id = 0 ; instance_id < NUM_DRUMS ; instance_id + + ) {
# ifdef DEBUG
Serial . print ( F ( " Creating Drum instance " ) ) ;
Serial . println ( instance_id , DEC ) ;
# endif
create_audio_drum_chain ( instance_id ) ;
drum_mixer_r . gain ( instance_id , 1.0 ) ;
drum_mixer_l . gain ( instance_id , 1.0 ) ;
# ifdef USE_FX
drum_reverb_send_mixer_r . gain ( instance_id , 0.0 ) ;
drum_reverb_send_mixer_l . gain ( instance_id , 0.0 ) ;
# endif
}
// Init drumset config
configuration . drums . main_vol = DRUMS_MAIN_VOL_DEFAULT ;
configuration . drums . midi_channel = DRUMS_MIDI_CHANNEL_DEFAULT ;
master_mixer_r . gain ( MASTER_MIX_CH_DRUMS , configuration . drums . main_vol ) ;
master_mixer_l . gain ( MASTER_MIX_CH_DRUMS , configuration . drums . main_vol ) ;
# endif
// Setup EPiano
# if defined(USE_FX)
# if defined(USE_EPIANO)
// EP_CHORUS
ep_delayline_r = ( int16_t * ) malloc ( MOD_DELAY_SAMPLE_BUFFER * sizeof ( int16_t ) ) ;
if ( ep_delayline_r = = NULL ) {
# ifdef DEBUG
Serial . println ( F ( " AudioEffectModulatedDelay R - memory allocation failed EP " ) ) ;
# endif
while ( 1 )
;
}
ep_delayline_l = ( int16_t * ) malloc ( MOD_DELAY_SAMPLE_BUFFER * sizeof ( int16_t ) ) ;
if ( ep_delayline_l = = NULL ) {
# ifdef DEBUG
Serial . println ( F ( " AudioEffectModulatedDelay L - memory allocation failed EP " ) ) ;
# endif
while ( 1 )
;
}
if ( ! ep_modchorus . begin ( ep_delayline_r , ep_delayline_l , MOD_DELAY_SAMPLE_BUFFER ) ) {
# ifdef DEBUG
Serial . println ( F ( " AudioEffectModulatedDelayStereo - begin failed EP " ) ) ;
# endif
while ( 1 )
;
}
# if MOD_FILTER_OUTPUT == MOD_BUTTERWORTH_FILTER_OUTPUT
// Butterworth filter, 12 db/octave
ep_modchorus_filter . setLowpass ( 0 , MOD_FILTER_CUTOFF_HZ , 0.707 ) ;
# elif MOD_FILTER_OUTPUT == MOD_LINKWITZ_RILEY_FILTER_OUTPUT
// Linkwitz-Riley filter, 48 dB/octave
ep_modchorus_filter . setLowpass ( 0 , MOD_FILTER_CUTOFF_HZ , 0.54 ) ;
ep_modchorus_filter . setLowpass ( 1 , MOD_FILTER_CUTOFF_HZ , 1.3 ) ;
ep_modchorus_filter . setLowpass ( 2 , MOD_FILTER_CUTOFF_HZ , 0.54 ) ;
ep_modchorus_filter . setLowpass ( 3 , MOD_FILTER_CUTOFF_HZ , 1.3 ) ;
# endif
ep_chorus_mixer_r . gain ( 0 , 1.0 ) ;
ep_chorus_mixer_l . gain ( 0 , 1.0 ) ;
ep_chorus_mixer_r . gain ( 1 , mapfloat ( EP_CHORUS_LEVEL_DEFAULT , EP_CHORUS_LEVEL_MIN , EP_CHORUS_LEVEL_MAX , 0.0 , 0.5 ) ) ;
ep_chorus_mixer_l . gain ( 1 , mapfloat ( EP_CHORUS_LEVEL_DEFAULT , EP_CHORUS_LEVEL_MIN , EP_CHORUS_LEVEL_MAX , 0.0 , 0.5 ) ) ;
ep_stereo_panorama . panorama ( mapfloat ( EP_PANORAMA_DEFAULT , EP_PANORAMA_MIN , EP_PANORAMA_MAX , - 1.0 , 1.0 ) ) ;
# endif
# endif
// Setup effects
# if defined(USE_FX)
for ( uint8_t instance_id = 0 ; instance_id < NUM_DEXED ; instance_id + + ) {
delayline [ instance_id ] = ( int16_t * ) malloc ( MOD_DELAY_SAMPLE_BUFFER * sizeof ( int16_t ) ) ;
if ( delayline [ instance_id ] ! = NULL ) {
memset ( delayline [ instance_id ] , 0 , MOD_DELAY_SAMPLE_BUFFER * sizeof ( int16_t ) ) ;
if ( ! modchorus [ instance_id ] - > begin ( delayline [ instance_id ] , MOD_DELAY_SAMPLE_BUFFER ) ) {
# ifdef DEBUG
Serial . print ( F ( " AudioEffectModulatedDelay - begin failed [ " ) ) ;
Serial . print ( instance_id ) ;
Serial . println ( F ( " ] " ) ) ;
# endif
while ( 1 )
;
}
} else {
# ifdef DEBUG
Serial . print ( F ( " AudioEffectModulatedDelay - memory allocation failed [ " ) ) ;
Serial . print ( instance_id ) ;
Serial . println ( F ( " ] " ) ) ;
# endif
while ( 1 )
;
}
}
# ifdef DEBUG
Serial . print ( F ( " MOD_DELAY_SAMPLE_BUFFER= " ) ) ;
Serial . print ( MOD_DELAY_SAMPLE_BUFFER , DEC ) ;
Serial . println ( F ( " samples " ) ) ;
# endif
# endif
// Start SD card
sd_card = check_sd_cards ( ) ;
if ( sd_card < 1 ) {
# ifdef DEBUG
Serial . println ( F ( " SD card not accessable. " ) ) ;
# endif
} else {
check_and_create_directories ( ) ;
for ( uint8_t instance_id = 0 ; instance_id < NUM_DEXED ; instance_id + + ) {
// load default SYSEX data
//load_sd_voice(configuration.dexed[instance_id].bank, configuration.dexed[instance_id].voice, instance_id);
memset ( g_voice_name [ instance_id ] , 0 , VOICE_NAME_LEN ) ;
memset ( g_bank_name [ instance_id ] , 0 , BANK_NAME_LEN ) ;
memset ( receive_bank_filename , 0 , FILENAME_LEN ) ;
}
}
// Load initial Performance or the last used one
initial_values ( false ) ;
// Initialize processor and memory measurements
AudioProcessorUsageMaxReset ( ) ;
AudioMemoryUsageMaxReset ( ) ;
// Load voices
# ifdef DEBUG
for ( uint8_t instance_id = 0 ; instance_id < NUM_DEXED ; instance_id + + ) {
Serial . print ( F ( " Dexed instance " ) ) ;
Serial . print ( instance_id ) ;
Serial . println ( F ( " : " ) ) ;
Serial . print ( F ( " Bank/Voice [ " ) ) ;
Serial . print ( configuration . dexed [ instance_id ] . bank , DEC ) ;
Serial . print ( F ( " / " ) ) ;
Serial . print ( configuration . dexed [ instance_id ] . voice , DEC ) ;
Serial . println ( F ( " ] " ) ) ;
Serial . print ( F ( " Polyphony: " ) ) ;
Serial . println ( configuration . dexed [ instance_id ] . polyphony , DEC ) ;
}
Serial . print ( F ( " AUDIO_BLOCK_SAMPLES= " ) ) ;
Serial . print ( AUDIO_BLOCK_SAMPLES ) ;
Serial . print ( F ( " (Time per block= " ) ) ;
Serial . print ( 1000000 / ( SAMPLE_RATE / AUDIO_BLOCK_SAMPLES ) ) ;
Serial . println ( F ( " ms) " ) ) ;
# endif
# if defined(DEBUG) && defined(SHOW_CPU_LOAD_MSEC)
show_cpu_and_mem_usage ( ) ;
# endif
// Init master_mixer
# if NUM_DEXED > 1
for ( uint8_t instance_id = 0 ; instance_id < NUM_DEXED ; instance_id + + ) {
master_mixer_r . gain ( instance_id , VOL_MAX_FLOAT ) ;
master_mixer_l . gain ( instance_id , VOL_MAX_FLOAT ) ;
}
# else
master_mixer_r . gain ( MASTER_MIX_CH_DEXED1 , VOL_MAX_FLOAT ) ;
master_mixer_l . gain ( MASTER_MIX_CH_DEXED1 , VOL_MAX_FLOAT ) ;
master_mixer_r . gain ( MASTER_MIX_CH_DEXED2 , 0.0 ) ;
master_mixer_l . gain ( MASTER_MIX_CH_DEXED2 , 0.0 ) ;
# endif
master_mixer_r . gain ( MASTER_MIX_CH_REVERB , VOL_MAX_FLOAT ) ;
master_mixer_l . gain ( MASTER_MIX_CH_REVERB , VOL_MAX_FLOAT ) ;
# if defined(USE_EPIANO)
master_mixer_r . gain ( MASTER_MIX_CH_EPIANO , VOL_MAX_FLOAT ) ;
master_mixer_l . gain ( MASTER_MIX_CH_EPIANO , VOL_MAX_FLOAT ) ;
# endif
# if NUM_DRUMS > 0
master_mixer_r . gain ( MASTER_MIX_CH_DRUMS , VOL_MAX_FLOAT ) ;
master_mixer_l . gain ( MASTER_MIX_CH_DRUMS , VOL_MAX_FLOAT ) ;
# else
master_mixer_r . gain ( MASTER_MIX_CH_DRUMS , 0.0 ) ;
master_mixer_l . gain ( MASTER_MIX_CH_DRUMS , 0.0 ) ;
# endif
# if defined(TEENSY_AUDIO_BOARD) && defined(SGTL5000_AUDIO_THRU)
audio_thru_mixer_r . gain ( 0 , VOL_MAX_FLOAT ) ; // MD signal sum
audio_thru_mixer_l . gain ( 0 , VOL_MAX_FLOAT ) ; // MD signal sum
# ifdef TEENSY_AUDIO_BOARD
audio_thru_mixer_r . gain ( 1 , VOL_MAX_FLOAT ) ; // I2S input
audio_thru_mixer_l . gain ( 1 , VOL_MAX_FLOAT ) ; // I2S input
# else
audio_thru_mixer_r . gain ( 1 , 0.0 ) ;
audio_thru_mixer_l . gain ( 1 , 0.0 ) ;
# endif
audio_thru_mixer_r . gain ( 2 , 0.0 ) ;
audio_thru_mixer_l . gain ( 2 , 0.0 ) ;
audio_thru_mixer_r . gain ( 3 , 0.0 ) ;
audio_thru_mixer_l . gain ( 3 , 0.0 ) ;
# endif
# ifdef DEBUG
Serial . println ( F ( " <setup end> " ) ) ;
# endif
//ep_modchorus.set_bypass(true);
strcpy ( configuration . performance . name , " INIT Perf " ) ;
LCDML . OTHER_jumpToFunc ( UI_func_voice_select ) ;
}
void loop ( ) {
// MIDI input handling
check_midi_devices ( ) ;
// check encoder
ENCODER [ ENC_L ] . update ( ) ;
ENCODER [ ENC_R ] . update ( ) ;
# ifdef ENABLE_LCD_UI
LCDML . loop ( ) ;
# endif
// CONTROL-RATE-EVENT-HANDLING
if ( control_rate > CONTROL_RATE_MS ) {
control_rate = 0 ;
// check for value changes, unused voices and CPU overload
for ( uint8_t instance_id = 0 ; instance_id < NUM_DEXED ; instance_id + + ) {
active_voices [ instance_id ] = MicroDexed [ instance_id ] - > getNumNotesPlaying ( ) ;
if ( active_voices [ instance_id ] = = 0 )
midi_voices [ instance_id ] = 0 ;
}
if ( LCDML . FUNC_getID ( ) = = LCDML . OTHER_getIDFromFunction ( UI_func_voice_select ) ) {
for ( uint8_t instance_id = 0 ; instance_id < NUM_DEXED ; instance_id + + ) {
# if defined(ARDUINO_TEENSY40) || defined(ARDUINO_TEENSY41)
if ( midi_decay_timer > MIDI_DECAY_TIMER & & midi_decay [ instance_id ] > 0 ) {
midi_decay [ instance_id ] - - ;
display . createChar ( 6 + instance_id , ( uint8_t * ) special_chars [ 15 - ( 7 - midi_decay [ instance_id ] ) ] ) ;
display . setCursor ( 14 + instance_id , 1 ) ;
display . write ( 6 + instance_id ) ;
} else if ( midi_voices [ instance_id ] = = 0 & & midi_decay [ instance_id ] = = 0 & & ! MicroDexed [ instance_id ] - > getSustain ( ) ) {
midi_decay [ instance_id ] - - ;
display . setCursor ( 14 + instance_id , 1 ) ;
display . write ( 20 ) ; // blank
}
# else
static bool midi_playing [ NUM_DEXED ] ;
if ( midi_voices [ instance_id ] > 0 & & midi_playing [ instance_id ] = = false ) {
midi_playing [ instance_id ] = true ;
display . setCursor ( 14 + instance_id , 1 ) ;
display . write ( 6 + instance_id ) ;
} else if ( midi_voices [ instance_id ] = = 0 & & ! MicroDexed [ instance_id ] - > getSustain ( ) ) {
midi_playing [ instance_id ] = false ;
display . setCursor ( 14 + instance_id , 1 ) ;
display . write ( 20 ) ; // blank
}
# endif
}
# if defined(ARDUINO_TEENSY40) || defined(ARDUINO_TEENSY41)
if ( midi_decay_timer > MIDI_DECAY_LEVEL_TIME ) {
midi_decay_timer = 0 ;
}
# endif
}
} else
yield ( ) ;
// SAVE-SYS-EVENT-HANDLING
if ( save_sys > SAVE_SYS_MS & & save_sys_flag = = true ) {
# ifdef DEBUG
Serial . println ( F ( " Check if we can save configuration.sys " ) ) ;
# endif
bool instance_is_playing = false ;
for ( uint8_t instance_id = 0 ; instance_id < NUM_DEXED ; instance_id + + ) {
if ( active_voices [ instance_id ] > 0 ) {
instance_is_playing = true ;
break ;
}
}
if ( instance_is_playing = = false ) {
for ( uint8_t instance_id = 0 ; instance_id < NUM_DRUMS ; instance_id + + ) {
if ( Drum [ instance_id ] - > isPlaying ( ) ) {
instance_is_playing = true ;
break ;
}
}
}
if ( instance_is_playing = = false )
save_sd_sys_json ( ) ;
else {
# ifdef DEBUG
Serial . println ( F ( " System is playing, next try... " ) ) ;
# endif
save_sys = 0 ;
}
}
# if defined(DEBUG) && defined(SHOW_CPU_LOAD_MSEC)
if ( cpu_mem_millis > = SHOW_CPU_LOAD_MSEC ) {
if ( master_peak_r . available ( ) )
if ( master_peak_r . read ( ) = = 1.0 )
peak_r + + ;
if ( master_peak_l . available ( ) )
if ( master_peak_l . read ( ) = = 1.0 )
peak_l + + ;
if ( microdexed_peak . available ( ) ) {
peak_dexed_value = microdexed_peak . read ( ) ;
if ( peak_dexed_value > 0.99 )
peak_dexed + + ;
}
cpu_mem_millis - = SHOW_CPU_LOAD_MSEC ;
show_cpu_and_mem_usage ( ) ;
}
# endif
}
/******************************************************************************
MIDI HELPER
* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */
bool checkMidiChannel ( byte inChannel , uint8_t instance_id ) {
// check for MIDI channel
if ( configuration . dexed [ instance_id ] . midi_channel = = MIDI_CHANNEL_OMNI ) {
return ( true ) ;
} else if ( inChannel ! = configuration . dexed [ instance_id ] . midi_channel ) {
# ifdef DEBUG
Serial . print ( F ( " INSTANCE " ) ) ;
Serial . print ( instance_id , DEC ) ;
Serial . print ( F ( " : Ignoring MIDI data on channel " ) ) ;
Serial . print ( inChannel ) ;
Serial . print ( F ( " (listening on " ) ) ;
Serial . print ( configuration . dexed [ instance_id ] . midi_channel ) ;
Serial . println ( F ( " ) " ) ) ;
# endif
return ( false ) ;
}
return ( true ) ;
}
void init_MIDI_send_CC ( void ) {
# ifdef DEBUG
Serial . println ( F ( " init_MIDI_send_CC(): " ) ) ;
# endif
MD_sendControlChange ( configuration . dexed [ selected_instance_id ] . midi_channel , 7 , configuration . dexed [ selected_instance_id ] . sound_intensity ) ;
MD_sendControlChange ( configuration . dexed [ selected_instance_id ] . midi_channel , 10 , configuration . dexed [ selected_instance_id ] . pan ) ;
MD_sendControlChange ( configuration . dexed [ selected_instance_id ] . midi_channel , 91 , configuration . fx . reverb_send [ selected_instance_id ] ) ;
MD_sendControlChange ( configuration . dexed [ selected_instance_id ] . midi_channel , 93 , configuration . fx . chorus_level [ selected_instance_id ] ) ;
MD_sendControlChange ( configuration . dexed [ selected_instance_id ] . midi_channel , 94 , configuration . dexed [ selected_instance_id ] . tune ) ;
MD_sendControlChange ( configuration . dexed [ selected_instance_id ] . midi_channel , 103 , configuration . fx . filter_resonance [ selected_instance_id ] ) ;
MD_sendControlChange ( configuration . dexed [ selected_instance_id ] . midi_channel , 104 , configuration . fx . filter_cutoff [ selected_instance_id ] ) ;
MD_sendControlChange ( configuration . dexed [ selected_instance_id ] . midi_channel , 105 , configuration . fx . delay_time [ selected_instance_id ] ) ;
MD_sendControlChange ( configuration . dexed [ selected_instance_id ] . midi_channel , 106 , configuration . fx . delay_feedback [ selected_instance_id ] ) ;
MD_sendControlChange ( configuration . dexed [ selected_instance_id ] . midi_channel , 107 , configuration . fx . delay_level [ selected_instance_id ] ) ;
}
/******************************************************************************
MIDI MESSAGE HANDLER
* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */
void handleNoteOn ( byte inChannel , byte inNumber , byte inVelocity ) {
//
// MIDI learn mode
//
if ( midi_learn_mode = = true ) {
int8_t tmp_channel = handle_midi_learn ( inNumber ) ;
if ( tmp_channel > = 0 )
inChannel = tmp_channel ;
}
//
// Play Notes
//
// MicroDexed
for ( uint8_t instance_id = 0 ; instance_id < NUM_DEXED ; instance_id + + ) {
if ( checkMidiChannel ( inChannel , instance_id ) ) {
if ( inNumber > = configuration . dexed [ instance_id ] . lowest_note & & inNumber < = configuration . dexed [ instance_id ] . highest_note ) {
if ( configuration . dexed [ instance_id ] . polyphony > 0 ) {
MicroDexed [ instance_id ] - > keydown ( inNumber , uint8_t ( float ( configuration . dexed [ instance_id ] . velocity_level / 127.0 ) * inVelocity + 0.5 ) ) ;
midi_voices [ instance_id ] + + ;
}
# if defined(ARDUINO_TEENSY40) || defined(ARDUINO_TEENSY41)
if ( LCDML . FUNC_getID ( ) = = LCDML . OTHER_getIDFromFunction ( UI_func_voice_select ) ) {
midi_decay_timer = 0 ;
midi_decay [ instance_id ] = min ( inVelocity / 5 , 7 ) ;
}
# endif
# ifdef DEBUG
char note_name [ 4 ] ;
getNoteName ( note_name , inNumber ) ;
Serial . print ( F ( " KeyDown " ) ) ;
Serial . print ( inNumber ) ;
Serial . print ( F ( " / " ) ) ;
Serial . print ( note_name ) ;
Serial . print ( F ( " instance " ) ) ;
Serial . print ( instance_id , DEC ) ;
Serial . print ( F ( " MIDI-channel " ) ) ;
Serial . println ( inChannel , DEC ) ;
Serial . flush ( ) ;
# endif
}
}
}
// E-Piano
# if defined(USE_EPIANO)
if ( configuration . epiano . midi_channel = = MIDI_CHANNEL_OMNI | | configuration . epiano . midi_channel = = inChannel ) {
if ( inNumber > = configuration . epiano . lowest_note & & inNumber < = configuration . epiano . highest_note ) {
ep . noteOn ( inNumber + configuration . epiano . transpose - 24 , inVelocity ) ;
# ifdef DEBUG
char note_name [ 4 ] ;
getNoteName ( note_name , inNumber ) ;
Serial . print ( F ( " KeyDown " ) ) ;
Serial . print ( inNumber ) ;
Serial . print ( F ( " / " ) ) ;
Serial . print ( note_name ) ;
Serial . print ( F ( " EPIANO " ) ) ;
Serial . print ( F ( " MIDI-channel " ) ) ;
Serial . println ( inChannel , DEC ) ;
Serial . flush ( ) ;
# endif
}
}
# endif
// Drums
# if NUM_DRUMS > 0
if ( inChannel = = configuration . drums . midi_channel | | configuration . drums . midi_channel = = MIDI_CHANNEL_OMNI ) {
if ( drum_counter > = NUM_DRUMS )
drum_counter = 0 ;
# ifdef DEBUG
char note_name [ 4 ] ;
getNoteName ( note_name , inNumber ) ;
Serial . print ( F ( " Triggring Drum[ " ) ) ;
Serial . print ( drum_counter , DEC ) ;
Serial . print ( F ( " ]: with note " ) ) ;
Serial . print ( note_name ) ;
Serial . print ( F ( " / " ) ) ;
Serial . println ( inNumber , DEC ) ;
Serial . flush ( ) ;
# endif
for ( uint8_t d = 0 ; d < NUM_DRUMSET_CONFIG ; d + + ) {
if ( inNumber = = configuration . drums . midinote [ d ] ) {
uint8_t slot = drum_get_slot ( drum_config [ d ] . drum_class ) ;
float pan = mapfloat ( configuration . drums . pan [ d ] , - 127.0 , 127.0 , 0.0 , 1.0 ) ;
//drum_mixer_r.gain(slot, (1.0 - pan) * volume_transform(mapfloat(inVelocity, 0, 127, drum_config[d].vol_min, drum_config[d].vol_max)));
//drum_mixer_l.gain(slot, pan * volume_transform(mapfloat(inVelocity, 0, 127, drum_config[d].vol_min, drum_config[d].vol_max)));
drum_mixer_r . gain ( slot , ( 1.0 - pan ) * mapfloat ( inVelocity , 0 , 127 , drum_config [ d ] . vol_min , drum_config [ d ] . vol_max ) ) ;
drum_mixer_l . gain ( slot , pan * mapfloat ( inVelocity , 0 , 127 , drum_config [ d ] . vol_min , drum_config [ d ] . vol_max ) ) ;
# ifdef USE_FX
//drum_reverb_send_mixer_r.gain(slot, (1.0 - pan) * volume_transform(drum_config[d].reverb_send));
//drum_reverb_send_mixer_l.gain(slot, pan * volume_transform(drum_config[d].reverb_send));
drum_reverb_send_mixer_r . gain ( slot , ( 1.0 - pan ) * drum_config [ d ] . reverb_send ) ;
drum_reverb_send_mixer_l . gain ( slot , pan * drum_config [ d ] . reverb_send ) ;
# endif
if ( drum_config [ d ] . drum_data ! = NULL & & drum_config [ d ] . len > 0 ) {
if ( configuration . drums . pitch [ d ] ! = 0 ) {
Drum [ slot ] - > enableInterpolation ( true ) ;
Drum [ slot ] - > setPlaybackRate ( configuration . drum . pitch [ d ] / 10.0f ) ;
}
Drum [ slot ] - > playRaw ( ( int16_t * ) drum_config [ d ] . drum_data , drum_config [ d ] . len , 1 ) ;
# ifdef DEBUG
Serial . printf ( " Playing sample [%s][%c%c] on slot [%d] main volume [%d]: drum_data=%p, len=%d \n " , drum_config [ d ] . name , drum_config [ d ] . shortname [ 0 ] , drum_config [ d ] . shortname [ 1 ] , slot , configuration . drums . main_vol , drum_config [ d ] . drum_data , drum_config [ d ] . len ) ;
# endif
}
# ifdef DEBUG
Serial . print ( F ( " Drum Slot [ " ) ) ;
Serial . print ( slot ) ;
Serial . print ( F ( " ]: Velocity= " ) ) ;
Serial . print ( mapfloat ( inVelocity , 0 , 127 , configuration . drums . vol_min [ d ] , configuration . drums . vol_max [ d ] ) , 2 ) ;
Serial . print ( F ( " Pan= " ) ) ;
Serial . print ( pan , 2 ) ;
Serial . print ( F ( " ReverbSend= " ) ) ;
Serial . println ( drum_config [ d ] . reverb_send , 2 ) ;
# endif
break ;
}
}
}
# endif
}
void handleNoteOff ( byte inChannel , byte inNumber , byte inVelocity ) {
//
// MIDI learn mode
//
if ( midi_learn_mode = = true ) {
int8_t tmp_channel = handle_midi_learn ( inNumber ) ;
if ( tmp_channel > = 0 )
inChannel = tmp_channel ;
}
// Dexed
for ( uint8_t instance_id = 0 ; instance_id < NUM_DEXED ; instance_id + + ) {
if ( checkMidiChannel ( inChannel , instance_id ) ) {
if ( inNumber > = configuration . dexed [ instance_id ] . lowest_note & & inNumber < = configuration . dexed [ instance_id ] . highest_note ) {
if ( configuration . dexed [ instance_id ] . polyphony > 0 )
MicroDexed [ instance_id ] - > keyup ( inNumber ) ;
midi_voices [ instance_id ] - - ;
# ifdef DEBUG
char note_name [ 4 ] ;
getNoteName ( note_name , inNumber ) ;
Serial . print ( F ( " KeyUp " ) ) ;
Serial . print ( note_name ) ;
Serial . print ( F ( " instance " ) ) ;
Serial . print ( instance_id , DEC ) ;
Serial . print ( F ( " MIDI-channel " ) ) ;
Serial . print ( inChannel , DEC ) ;
Serial . println ( ) ;
# endif
}
}
}
// EPiano
# if defined(USE_EPIANO)
if ( configuration . epiano . midi_channel = = MIDI_CHANNEL_OMNI | | configuration . epiano . midi_channel = = inChannel ) {
if ( inNumber > = configuration . epiano . lowest_note & & inNumber < = configuration . epiano . highest_note ) {
ep . noteOff ( inNumber + configuration . epiano . transpose - 24 ) ;
# ifdef DEBUG
char note_name [ 4 ] ;
getNoteName ( note_name , inNumber ) ;
Serial . print ( F ( " KeyUp " ) ) ;
Serial . print ( note_name ) ;
Serial . print ( F ( " EPIANO " ) ) ;
Serial . print ( F ( " MIDI-channel " ) ) ;
Serial . print ( inChannel , DEC ) ;
Serial . println ( ) ;
# endif
}
}
# endif
}
void handleControlChange ( byte inChannel , byte inCtrl , byte inValue ) {
inCtrl = constrain ( inCtrl , 0 , 127 ) ;
inValue = constrain ( inValue , 0 , 127 ) ;
// EPiano
# if defined(USE_EPIANO)
if ( configuration . epiano . midi_channel = = MIDI_CHANNEL_OMNI | | configuration . epiano . midi_channel = = inChannel )
ep . processMidiController ( inCtrl , inValue ) ;
# endif
// Dexed
for ( uint8_t instance_id = 0 ; instance_id < NUM_DEXED ; instance_id + + ) {
if ( checkMidiChannel ( inChannel , instance_id ) ) {
# ifdef DEBUG
Serial . print ( F ( " INSTANCE " ) ) ;
Serial . print ( instance_id , DEC ) ;
Serial . print ( F ( " : CC# " ) ) ;
Serial . print ( inCtrl , DEC ) ;
Serial . print ( F ( " : " ) ) ;
Serial . println ( inValue , DEC ) ;
# endif
switch ( inCtrl ) {
case 0 : // BankSelect MSB
# ifdef DEBUG
Serial . println ( F ( " BANK-SELECT MSB CC " ) ) ;
# endif
configuration . dexed [ instance_id ] . bank = constrain ( ( inValue < < 7 ) & configuration . dexed [ instance_id ] . bank , 0 , MAX_BANKS - 1 ) ;
/* load_sd_voice(configuration.dexed[instance_id].bank, configuration.dexed[instance_id].voice, instance_id);
if ( LCDML . FUNC_getID ( ) = = LCDML . OTHER_getIDFromFunction ( UI_func_voice_select ) )
{
LCDML . OTHER_updateFunc ( ) ;
LCDML . loop_menu ( ) ;
} */
break ;
case 1 :
# ifdef DEBUG
Serial . println ( F ( " MODWHEEL CC " ) ) ;
# endif
MicroDexed [ instance_id ] - > setModWheel ( inValue ) ;
MicroDexed [ instance_id ] - > ControllersRefresh ( ) ;
break ;
case 2 :
# ifdef DEBUG
Serial . println ( F ( " BREATH CC " ) ) ;
# endif
MicroDexed [ instance_id ] - > setBreathController ( inValue ) ;
MicroDexed [ instance_id ] - > ControllersRefresh ( ) ;
break ;
case 4 :
# ifdef DEBUG
Serial . println ( F ( " FOOT CC " ) ) ;
# endif
MicroDexed [ instance_id ] - > setFootController ( inValue ) ;
MicroDexed [ instance_id ] - > ControllersRefresh ( ) ;
break ;
case 5 : // Portamento time
configuration . dexed [ instance_id ] . portamento_time = inValue ;
MicroDexed [ instance_id ] - > setPortamentoTime ( configuration . dexed [ instance_id ] . portamento_time ) ;
break ;
case 7 : // Instance Volume
# ifdef DEBUG
Serial . println ( F ( " VOLUME CC " ) ) ;
# endif
configuration . dexed [ instance_id ] . sound_intensity = map ( inValue , 0 , 127 , SOUND_INTENSITY_MIN , SOUND_INTENSITY_MAX ) ;
MicroDexed [ instance_id ] - > setGain ( midi_volume_transform ( map ( configuration . dexed [ instance_id ] . sound_intensity , SOUND_INTENSITY_MIN , SOUND_INTENSITY_MAX , 0 , 127 ) ) ) ;
if ( LCDML . FUNC_getID ( ) = = LCDML . OTHER_getIDFromFunction ( UI_func_sound_intensity ) ) {
LCDML . OTHER_updateFunc ( ) ;
LCDML . loop_menu ( ) ;
}
break ;
case 10 : // Pan
# ifdef DEBUG
Serial . println ( F ( " PANORAMA CC " ) ) ;
# endif
configuration . dexed [ instance_id ] . pan = map ( inValue , 0 , 0x7f , PANORAMA_MIN , PANORAMA_MAX ) ;
mono2stereo [ instance_id ] - > panorama ( mapfloat ( configuration . dexed [ instance_id ] . pan , PANORAMA_MIN , PANORAMA_MAX , - 1.0 , 1.0 ) ) ;
if ( LCDML . FUNC_getID ( ) = = LCDML . OTHER_getIDFromFunction ( UI_func_panorama ) ) {
LCDML . OTHER_updateFunc ( ) ;
LCDML . loop_menu ( ) ;
}
break ;
case 32 : // BankSelect LSB
# ifdef DEBUG
Serial . println ( F ( " BANK-SELECT LSB CC " ) ) ;
# endif
configuration . dexed [ instance_id ] . bank = constrain ( inValue , 0 , MAX_BANKS - 1 ) ;
/*load_sd_voice(configuration.dexed[instance_id].bank, configuration.dexed[instance_id].voice, instance_id);
if ( LCDML . FUNC_getID ( ) = = LCDML . OTHER_getIDFromFunction ( UI_func_voice_select ) )
{
LCDML . OTHER_updateFunc ( ) ;
LCDML . loop_menu ( ) ;
} */
break ;
case 64 :
MicroDexed [ instance_id ] - > setSustain ( inValue > 63 ) ;
/*
if ( ! MicroDexed [ instance_id ] - > getSustain ( ) )
{
for ( uint8_t note = 0 ; note < MicroDexed [ instance_id ] - > getMaxNotes ( ) ; note + + )
{
if ( MicroDexed [ instance_id ] - > voices [ note ] . sustained & & ! MicroDexed [ instance_id ] - > voices [ note ] . keydown )
{
MicroDexed [ instance_id ] - > voices [ note ] . dx7_note - > keyup ( ) ;
MicroDexed [ instance_id ] - > voices [ note ] . sustained = false ;
}
}
}
*/
break ;
case 65 :
MicroDexed [ instance_id ] - > setPortamentoMode ( configuration . dexed [ instance_id ] . portamento_mode ) ;
if ( LCDML . FUNC_getID ( ) = = LCDML . OTHER_getIDFromFunction ( UI_func_portamento_mode ) ) {
LCDML . OTHER_updateFunc ( ) ;
LCDML . loop_menu ( ) ;
}
break ;
case 94 : // CC 94: (de)tune
configuration . dexed [ selected_instance_id ] . tune = map ( inValue , 0 , 0x7f , TUNE_MIN , TUNE_MAX ) ;
MicroDexed [ selected_instance_id ] - > setMasterTune ( ( int ( ( configuration . dexed [ selected_instance_id ] . tune - 100 ) / 100.0 * 0x4000 ) < < 11 ) * ( 1.0 / 12 ) ) ;
MicroDexed [ selected_instance_id ] - > doRefreshVoice ( ) ;
if ( LCDML . FUNC_getID ( ) = = LCDML . OTHER_getIDFromFunction ( UI_func_tune ) ) {
LCDML . OTHER_updateFunc ( ) ;
LCDML . loop_menu ( ) ;
}
break ;
# if defined(USE_FX)
case 91 : // CC 91: reverb send
configuration . fx . reverb_send [ selected_instance_id ] = map ( inValue , 0 , 0x7f , REVERB_SEND_MIN , REVERB_SEND_MAX ) ;
reverb_mixer_r . gain ( selected_instance_id , volume_transform ( mapfloat ( configuration . fx . reverb_send [ selected_instance_id ] , REVERB_SEND_MIN , REVERB_SEND_MAX , 0.0 , VOL_MAX_FLOAT ) ) ) ;
reverb_mixer_l . gain ( selected_instance_id , volume_transform ( mapfloat ( configuration . fx . reverb_send [ selected_instance_id ] , REVERB_SEND_MIN , REVERB_SEND_MAX , 0.0 , VOL_MAX_FLOAT ) ) ) ;
if ( LCDML . FUNC_getID ( ) = = LCDML . OTHER_getIDFromFunction ( UI_func_reverb_send ) ) {
LCDML . OTHER_updateFunc ( ) ;
LCDML . loop_menu ( ) ;
}
break ;
case 93 : // CC 93: chorus level
configuration . fx . chorus_level [ selected_instance_id ] = map ( inValue , 0 , 0x7f , CHORUS_LEVEL_MIN , CHORUS_LEVEL_MAX ) ;
chorus_mixer [ selected_instance_id ] - > gain ( 1 , volume_transform ( mapfloat ( configuration . fx . chorus_level [ selected_instance_id ] , CHORUS_LEVEL_MIN , CHORUS_LEVEL_MAX , 0.0 , 0.5 ) ) ) ;
if ( LCDML . FUNC_getID ( ) = = LCDML . OTHER_getIDFromFunction ( UI_func_chorus_level ) ) {
LCDML . OTHER_updateFunc ( ) ;
LCDML . loop_menu ( ) ;
}
break ;
case 103 : // CC 103: filter resonance
configuration . fx . filter_resonance [ instance_id ] = map ( inValue , 0 , 0x7f , FILTER_RESONANCE_MIN , FILTER_RESONANCE_MAX ) ;
MicroDexed [ instance_id ] - > setFilterResonance ( mapfloat ( configuration . fx . filter_resonance [ instance_id ] , FILTER_RESONANCE_MIN , FILTER_RESONANCE_MAX , 1.0 , 0.0 ) ) ;
if ( LCDML . FUNC_getID ( ) = = LCDML . OTHER_getIDFromFunction ( UI_func_filter_resonance ) ) {
LCDML . OTHER_updateFunc ( ) ;
LCDML . loop_menu ( ) ;
}
break ;
case 104 : // CC 104: filter cutoff
configuration . fx . filter_cutoff [ instance_id ] = map ( inValue , 0 , 0x7f , FILTER_CUTOFF_MIN , FILTER_CUTOFF_MAX ) ;
MicroDexed [ instance_id ] - > setFilterCutoff ( mapfloat ( configuration . fx . filter_cutoff [ instance_id ] , FILTER_CUTOFF_MIN , FILTER_CUTOFF_MAX , 1.0 , 0.0 ) ) ;
;
if ( LCDML . FUNC_getID ( ) = = LCDML . OTHER_getIDFromFunction ( UI_func_filter_cutoff ) ) {
LCDML . OTHER_updateFunc ( ) ;
LCDML . loop_menu ( ) ;
}
break ;
case 105 : // CC 105: delay time
configuration . fx . delay_time [ instance_id ] = map ( inValue , 0 , 0x7f , DELAY_TIME_MIN , DELAY_TIME_MAX ) ;
delay_fx [ instance_id ] - > delay ( 0 , constrain ( configuration . fx . delay_time [ instance_id ] * 10 , DELAY_TIME_MIN * 10 , DELAY_TIME_MAX * 10 ) ) ;
if ( LCDML . FUNC_getID ( ) = = LCDML . OTHER_getIDFromFunction ( UI_func_delay_time ) ) {
LCDML . OTHER_updateFunc ( ) ;
LCDML . loop_menu ( ) ;
}
break ;
case 106 : // CC 106: delay feedback
configuration . fx . delay_feedback [ instance_id ] = map ( inValue , 0 , 0x7f , DELAY_FEEDBACK_MIN , DELAY_FEEDBACK_MAX ) ;
delay_fb_mixer [ instance_id ] - > gain ( 1 , midi_volume_transform ( map ( configuration . fx . delay_feedback [ instance_id ] , DELAY_FEEDBACK_MIN , DELAY_FEEDBACK_MAX , 0 , 127 ) ) ) ; // amount of feedback
if ( LCDML . FUNC_getID ( ) = = LCDML . OTHER_getIDFromFunction ( UI_func_delay_feedback ) ) {
LCDML . OTHER_updateFunc ( ) ;
LCDML . loop_menu ( ) ;
}
break ;
case 107 : // CC 107: delay volume
configuration . fx . delay_level [ instance_id ] = map ( inValue , 0 , 0x7f , DELAY_LEVEL_MIN , DELAY_LEVEL_MAX ) ;
delay_mixer [ instance_id ] - > gain ( 1 , midi_volume_transform ( map ( configuration . fx . delay_level [ instance_id ] , DELAY_LEVEL_MIN , DELAY_LEVEL_MAX , 0 , 127 ) ) ) ;
if ( LCDML . FUNC_getID ( ) = = LCDML . OTHER_getIDFromFunction ( UI_func_delay_level ) ) {
LCDML . OTHER_updateFunc ( ) ;
LCDML . loop_menu ( ) ;
}
break ;
# endif
case 120 :
MicroDexed [ instance_id ] - > panic ( ) ;
break ;
case 121 :
MicroDexed [ instance_id ] - > resetControllers ( ) ;
break ;
case 123 :
MicroDexed [ instance_id ] - > notesOff ( ) ;
break ;
case 126 :
if ( inValue > 0 )
MicroDexed [ instance_id ] - > setMonoMode ( true ) ;
else
MicroDexed [ instance_id ] - > setMonoMode ( false ) ;
break ;
case 127 :
if ( inValue > 0 )
MicroDexed [ instance_id ] - > setMonoMode ( true ) ;
else
MicroDexed [ instance_id ] - > setMonoMode ( false ) ;
break ;
}
}
}
}
void handleAfterTouch ( byte inChannel , byte inPressure ) {
for ( uint8_t instance_id = 0 ; instance_id < NUM_DEXED ; instance_id + + ) {
if ( checkMidiChannel ( inChannel , instance_id ) ) {
MicroDexed [ instance_id ] - > setAftertouch ( inPressure ) ;
MicroDexed [ instance_id ] - > ControllersRefresh ( ) ;
}
}
}
void handlePitchBend ( byte inChannel , int inPitch ) {
for ( uint8_t instance_id = 0 ; instance_id < NUM_DEXED ; instance_id + + ) {
if ( checkMidiChannel ( inChannel , instance_id ) ) {
MicroDexed [ instance_id ] - > setPitchbend ( inPitch ) ;
}
}
}
void handleProgramChange ( byte inChannel , byte inProgram ) {
for ( uint8_t instance_id = 0 ; instance_id < NUM_DEXED ; instance_id + + ) {
if ( checkMidiChannel ( inChannel , instance_id ) ) {
configuration . dexed [ instance_id ] . voice = constrain ( inProgram , 0 , MAX_VOICES - 1 ) ;
load_sd_voice ( configuration . dexed [ instance_id ] . bank , configuration . dexed [ instance_id ] . voice , instance_id ) ;
if ( LCDML . FUNC_getID ( ) = = LCDML . OTHER_getIDFromFunction ( UI_func_voice_select ) ) {
LCDML . OTHER_updateFunc ( ) ;
LCDML . loop_menu ( ) ;
}
}
}
}
void handleSystemExclusive ( byte * sysex , unsigned int len ) {
int16_t sysex_return ;
for ( uint8_t instance_id = 0 ; instance_id < NUM_DEXED ; instance_id + + ) {
if ( ! checkMidiChannel ( ( sysex [ 2 ] & 0x0f ) + 1 , instance_id ) ) {
# ifdef DEBUG
Serial . print ( F ( " INSTANCE " ) ) ;
Serial . print ( instance_id , DEC ) ;
Serial . println ( F ( " : SYSEX-MIDI-Channel mismatch " ) ) ;
# endif
return ;
}
# ifdef DEBUG
Serial . print ( F ( " SysEx data length: [ " ) ) ;
Serial . print ( len ) ;
Serial . println ( F ( " ] " ) ) ;
Serial . println ( F ( " SysEx data: " ) ) ;
for ( uint16_t i = 0 ; i < len ; i + + ) {
Serial . print ( F ( " [0x " ) ) ;
uint8_t s = sysex [ i ] ;
if ( s < 16 )
Serial . print ( F ( " 0 " ) ) ;
Serial . print ( s , HEX ) ;
Serial . print ( F ( " | " ) ) ;
if ( s < 100 )
Serial . print ( F ( " 0 " ) ) ;
if ( s < 10 )
Serial . print ( F ( " 0 " ) ) ;
Serial . print ( s , DEC ) ;
Serial . print ( F ( " ] " ) ) ;
if ( ( i + 1 ) % 16 = = 0 )
Serial . println ( ) ;
}
Serial . println ( ) ;
# endif
sysex_return = MicroDexed [ instance_id ] - > checkSystemExclusive ( sysex , len ) ;
# ifdef DEBUG
Serial . print ( F ( " SYSEX handler return value: " ) ) ;
Serial . print ( sysex_return , DEC ) ;
Serial . println ( ) ;
# endif
switch ( sysex_return ) {
case - 1 :
# ifdef DEBUG
Serial . println ( F ( " E: SysEx end status byte not detected. " ) ) ;
# endif
break ;
case - 2 :
# ifdef DEBUG
Serial . println ( F ( " E: SysEx vendor not Yamaha. " ) ) ;
# endif
break ;
case - 3 :
# ifdef DEBUG
Serial . println ( F ( " E: Unknown SysEx parameter change. " ) ) ;
# endif
break ;
case - 4 :
# ifdef DEBUG
Serial . println ( F ( " E: Unknown SysEx voice or function. " ) ) ;
# endif
break ;
case - 5 :
# ifdef DEBUG
Serial . println ( F ( " E: Not a SysEx voice bulk upload. " ) ) ;
# endif
break ;
case - 6 :
# ifdef DEBUG
Serial . println ( F ( " E: Wrong length for SysEx voice bulk upload (not 155). " ) ) ;
# endif
break ;
case - 7 :
# ifdef DEBUG
Serial . println ( F ( " E: Checksum error for one voice. " ) ) ;
# endif
break ;
case - 8 :
# ifdef DEBUG
Serial . println ( F ( " E: Not a SysEx bank bulk upload. " ) ) ;
# endif
display . setCursor ( 0 , 1 ) ;
display . print ( F ( " Error (TYPE) " ) ) ;
delay ( MESSAGE_WAIT_TIME ) ;
LCDML . FUNC_goBackToMenu ( ) ;
break ;
case - 9 :
# ifdef DEBUG
Serial . println ( F ( " E: Wrong length for SysEx bank bulk upload (not 4096). " ) ) ;
# endif
display . setCursor ( 0 , 1 ) ;
display . print ( F ( " Error (SIZE) " ) ) ;
delay ( MESSAGE_WAIT_TIME ) ;
LCDML . FUNC_goBackToMenu ( ) ;
break ;
case - 10 :
# ifdef DEBUG
Serial . println ( F ( " E: Checksum error for bank. " ) ) ;
# endif
break ;
case - 11 :
# ifdef DEBUG
Serial . println ( F ( " E: Unknown SysEx message. " ) ) ;
# endif
break ;
case 64 :
case 65 :
case 66 :
case 67 :
case 68 :
case 69 :
case 70 :
case 71 :
case 72 :
case 73 :
case 74 :
case 75 :
case 76 :
case 77 :
# ifdef DEBUG
Serial . println ( F ( " SysEx Function parameter change : " ) ) ;
Serial . print ( F ( " Parameter # " ) ) ;
Serial . print ( sysex [ 4 ] , DEC ) ;
Serial . print ( F ( " Value : " ) ) ;
Serial . println ( sysex [ 5 ] , DEC ) ;
# endif
switch ( sysex [ 4 ] ) {
case 65 :
configuration . dexed [ instance_id ] . pb_range = constrain ( sysex [ 5 ] , PB_RANGE_MIN , PB_RANGE_MAX ) ;
MicroDexed [ instance_id ] - > setPitchbendRange ( configuration . dexed [ instance_id ] . pb_range ) ;
if ( LCDML . FUNC_getID ( ) = = LCDML . OTHER_getIDFromFunction ( UI_func_pb_range ) ) {
LCDML . OTHER_updateFunc ( ) ;
LCDML . loop_menu ( ) ;
}
break ;
case 66 :
configuration . dexed [ instance_id ] . pb_step = constrain ( sysex [ 5 ] , PB_STEP_MIN , PB_STEP_MAX ) ;
MicroDexed [ instance_id ] - > setPitchbendRange ( configuration . dexed [ instance_id ] . pb_step ) ;
if ( LCDML . FUNC_getID ( ) = = LCDML . OTHER_getIDFromFunction ( UI_func_pb_step ) ) {
LCDML . OTHER_updateFunc ( ) ;
LCDML . loop_menu ( ) ;
}
break ;
case 67 :
configuration . dexed [ instance_id ] . portamento_mode = constrain ( sysex [ 5 ] , PORTAMENTO_MODE_MIN , PORTAMENTO_MODE_MAX ) ;
MicroDexed [ instance_id ] - > setPortamentoMode ( configuration . dexed [ instance_id ] . portamento_mode ) ;
if ( LCDML . FUNC_getID ( ) = = LCDML . OTHER_getIDFromFunction ( UI_func_portamento_mode ) ) {
LCDML . OTHER_updateFunc ( ) ;
LCDML . loop_menu ( ) ;
}
break ;
case 68 :
configuration . dexed [ instance_id ] . portamento_glissando = constrain ( sysex [ 5 ] , PORTAMENTO_GLISSANDO_MIN , PORTAMENTO_GLISSANDO_MAX ) ;
MicroDexed [ instance_id ] - > setPortamentoGlissando ( configuration . dexed [ instance_id ] . portamento_glissando ) ;
if ( LCDML . FUNC_getID ( ) = = LCDML . OTHER_getIDFromFunction ( UI_func_portamento_glissando ) ) {
LCDML . OTHER_updateFunc ( ) ;
LCDML . loop_menu ( ) ;
}
break ;
case 69 :
configuration . dexed [ instance_id ] . portamento_time = constrain ( sysex [ 5 ] , PORTAMENTO_TIME_MIN , PORTAMENTO_TIME_MAX ) ;
MicroDexed [ instance_id ] - > setPortamentoTime ( configuration . dexed [ instance_id ] . portamento_time ) ;
if ( LCDML . FUNC_getID ( ) = = LCDML . OTHER_getIDFromFunction ( UI_func_portamento_time ) ) {
LCDML . OTHER_updateFunc ( ) ;
LCDML . loop_menu ( ) ;
}
break ;
case 70 :
configuration . dexed [ instance_id ] . mw_range = constrain ( sysex [ 5 ] , MW_RANGE_MIN , MW_RANGE_MAX ) ;
MicroDexed [ instance_id ] - > setModWheelRange ( configuration . dexed [ instance_id ] . mw_range ) ;
if ( LCDML . FUNC_getID ( ) = = LCDML . OTHER_getIDFromFunction ( UI_func_mw_range ) ) {
LCDML . OTHER_updateFunc ( ) ;
LCDML . loop_menu ( ) ;
}
break ;
case 71 :
configuration . dexed [ instance_id ] . mw_assign = constrain ( sysex [ 5 ] , MW_ASSIGN_MIN , MW_ASSIGN_MAX ) ;
MicroDexed [ instance_id ] - > setModWheelTarget ( configuration . dexed [ instance_id ] . mw_assign ) ;
if ( LCDML . FUNC_getID ( ) = = LCDML . OTHER_getIDFromFunction ( UI_func_mw_assign ) ) {
LCDML . OTHER_updateFunc ( ) ;
LCDML . loop_menu ( ) ;
}
break ;
case 72 :
configuration . dexed [ instance_id ] . fc_range = constrain ( sysex [ 5 ] , FC_RANGE_MIN , FC_RANGE_MAX ) ;
MicroDexed [ instance_id ] - > setFootControllerRange ( configuration . dexed [ instance_id ] . fc_range ) ;
if ( LCDML . FUNC_getID ( ) = = LCDML . OTHER_getIDFromFunction ( UI_func_fc_range ) ) {
LCDML . OTHER_updateFunc ( ) ;
LCDML . loop_menu ( ) ;
}
break ;
case 73 :
configuration . dexed [ instance_id ] . fc_assign = constrain ( sysex [ 5 ] , FC_ASSIGN_MIN , FC_ASSIGN_MAX ) ;
MicroDexed [ instance_id ] - > setFootControllerTarget ( configuration . dexed [ instance_id ] . fc_assign ) ;
if ( LCDML . FUNC_getID ( ) = = LCDML . OTHER_getIDFromFunction ( UI_func_fc_assign ) ) {
LCDML . OTHER_updateFunc ( ) ;
LCDML . loop_menu ( ) ;
}
break ;
case 74 :
configuration . dexed [ instance_id ] . bc_range = constrain ( sysex [ 5 ] , BC_RANGE_MIN , BC_RANGE_MAX ) ;
MicroDexed [ instance_id ] - > setBreathControllerRange ( configuration . dexed [ instance_id ] . bc_range ) ;
if ( LCDML . FUNC_getID ( ) = = LCDML . OTHER_getIDFromFunction ( UI_func_bc_range ) ) {
LCDML . OTHER_updateFunc ( ) ;
LCDML . loop_menu ( ) ;
}
break ;
case 75 :
configuration . dexed [ instance_id ] . bc_assign = constrain ( sysex [ 5 ] , BC_ASSIGN_MIN , BC_ASSIGN_MAX ) ;
MicroDexed [ instance_id ] - > setBreathControllerTarget ( configuration . dexed [ instance_id ] . bc_assign ) ;
if ( LCDML . FUNC_getID ( ) = = LCDML . OTHER_getIDFromFunction ( UI_func_bc_assign ) ) {
LCDML . OTHER_updateFunc ( ) ;
LCDML . loop_menu ( ) ;
}
break ;
case 76 :
configuration . dexed [ instance_id ] . at_range = constrain ( sysex [ 5 ] , AT_RANGE_MIN , AT_RANGE_MAX ) ;
MicroDexed [ instance_id ] - > setAftertouchRange ( configuration . dexed [ instance_id ] . at_range ) ;
if ( LCDML . FUNC_getID ( ) = = LCDML . OTHER_getIDFromFunction ( UI_func_at_range ) ) {
LCDML . OTHER_updateFunc ( ) ;
LCDML . loop_menu ( ) ;
}
break ;
case 77 :
configuration . dexed [ instance_id ] . at_assign = constrain ( sysex [ 5 ] , AT_ASSIGN_MIN , AT_ASSIGN_MAX ) ;
MicroDexed [ instance_id ] - > setAftertouchTarget ( configuration . dexed [ instance_id ] . at_assign ) ;
if ( LCDML . FUNC_getID ( ) = = LCDML . OTHER_getIDFromFunction ( UI_func_at_assign ) ) {
LCDML . OTHER_updateFunc ( ) ;
LCDML . loop_menu ( ) ;
}
break ;
}
break ;
case 100 :
// fix voice name
for ( uint8_t i = 0 ; i < 10 ; i + + ) {
if ( sysex [ 151 + i ] > 126 ) // filter characters
sysex [ 151 + i ] = 32 ;
}
// load sysex-data into voice memory
MicroDexed [ instance_id ] - > loadVoiceParameters ( & sysex [ 6 ] ) ;
# ifdef DEBUG
Serial . println ( F ( " One Voice bulk upload " ) ) ;
show_patch ( instance_id ) ;
# endif
strncpy ( g_voice_name [ instance_id ] , ( char * ) & sysex [ 151 ] , VOICE_NAME_LEN - 1 ) ;
if ( LCDML . FUNC_getID ( ) = = LCDML . OTHER_getIDFromFunction ( UI_func_voice_select ) ) {
LCDML . OTHER_updateFunc ( ) ;
LCDML . loop_menu ( ) ;
}
break ;
case 200 :
if ( strlen ( receive_bank_filename ) > 0 & & LCDML . FUNC_getID ( ) = = LCDML . OTHER_getIDFromFunction ( UI_func_sysex_receive_bank ) ) {
# ifdef DEBUG
Serial . println ( F ( " Bank bulk upload. " ) ) ;
# endif
if ( save_sd_bank ( receive_bank_filename , sysex ) ) {
# ifdef DEBUG
Serial . print ( F ( " Bank saved as [ " ) ) ;
Serial . print ( receive_bank_filename ) ;
Serial . println ( F ( " ] " ) ) ;
# endif
display . setCursor ( 0 , 1 ) ;
display . print ( F ( " Done. " ) ) ;
delay ( MESSAGE_WAIT_TIME ) ;
LCDML . FUNC_goBackToMenu ( ) ;
} else {
# ifdef DEBUG
Serial . println ( F ( " Error during saving bank as [ " ) ) ;
Serial . print ( receive_bank_filename ) ;
Serial . println ( F ( " ] " ) ) ;
# endif
display . setCursor ( 0 , 1 ) ;
display . print ( F ( " Error. " ) ) ;
delay ( MESSAGE_WAIT_TIME ) ;
LCDML . FUNC_goBackToMenu ( ) ;
}
memset ( receive_bank_filename , 0 , FILENAME_LEN ) ;
}
# ifdef DEBUG
else
Serial . println ( F ( " E : Not in MIDI receive bank mode. " ) ) ;
# endif
break ;
case 300 :
# ifdef DEBUG
Serial . println ( F ( " SysEx Voice parameter: " ) ) ;
Serial . print ( F ( " Parameter # " ) ) ;
Serial . print ( sysex [ 4 ] + ( ( sysex [ 3 ] & 0x03 ) * 128 ) , DEC ) ;
Serial . print ( F ( " Value: " ) ) ;
Serial . println ( sysex [ 5 ] , DEC ) ;
# endif
break ;
default :
# ifdef DEBUG
Serial . println ( F ( " SysEx Voice parameter change : " ) ) ;
Serial . print ( F ( " Parameter # " ) ) ;
Serial . print ( sysex_return ) ;
Serial . print ( F ( " Value : " ) ) ;
Serial . println ( sysex [ 5 ] , DEC ) ;
# endif
break ;
}
}
}
void handleTimeCodeQuarterFrame ( byte data ) {
;
}
void handleAfterTouchPoly ( byte inChannel , byte inNumber , byte inVelocity ) {
;
}
void handleSongSelect ( byte inSong ) {
;
}
void handleTuneRequest ( void ) {
;
}
void handleClock ( void ) {
if ( midi_bpm_counter % 24 = = 0 ) {
midi_bpm = ( 60000.0f / float ( midi_bpm_timer ) + 0.5 ) ;
if ( _midi_bpm > - 1 & & _midi_bpm ! = midi_bpm ) {
# ifdef DEBUG
Serial . print ( F ( " MIDI Clock: " ) ) ;
Serial . print ( midi_bpm ) ;
Serial . print ( F ( " bpm ( " ) ) ;
Serial . print ( midi_bpm_timer , DEC ) ;
Serial . println ( F ( " ms per quarter) " ) ) ;
# endif
# ifdef USE_FX
/*
1 1 / 16 = 6 ticks / 0.0625
2 1 / 16 T = 9 ticks / 0.09375
3 1 / 8 = 12 ticks / 0.125
4 1 / 8 T = 18 ticks / 0.1875
5 1 / 4 = 24 ticks / 0.25
6 1 / 4 T = 36 ticks / 0.375
7 1 / 2 = 48 ticks / 0.5
8 1 / 2 T = 72 ticks / 0.75
9 1 / 1 = 96 ticks / 1.0
*/
for ( uint8_t instance_id = 0 ; instance_id < NUM_DEXED ; instance_id + + ) {
if ( configuration . fx . delay_sync [ instance_id ] > 0 ) {
uint16_t midi_sync_delay_time = uint16_t ( 60000.0 * midi_ticks_factor [ configuration . fx . delay_sync [ instance_id ] ] / float ( midi_bpm ) + 0.5 ) ;
delay_fx [ instance_id ] - > delay ( 0 , constrain ( midi_sync_delay_time , DELAY_TIME_MIN * 10 , DELAY_TIME_MAX * 10 ) ) ;
# ifdef DEBUG
Serial . print ( F ( " Setting Delay-Sync of instance " ) ) ;
Serial . print ( instance_id ) ;
Serial . print ( F ( " to " ) ) ;
Serial . print ( constrain ( midi_sync_delay_time , DELAY_TIME_MIN * 10 , DELAY_TIME_MAX * 10 ) , DEC ) ;
Serial . println ( F ( " ms " ) ) ;
# endif
}
}
# endif
}
_midi_bpm = midi_bpm ;
midi_bpm_counter = 0 ;
midi_bpm_timer = 0 ;
}
midi_bpm_counter + + ;
}
void handleStart ( void ) {
midi_bpm_timer = 0 ;
midi_bpm_counter = 0 ;
_midi_bpm = - 1 ;
}
void handleContinue ( void ) {
;
}
void handleStop ( void ) {
MicroDexed [ 0 ] - > panic ( ) ;
# if NUM_DEXED > 1
MicroDexed [ 1 ] - > panic ( ) ;
# endif
}
void handleActiveSensing ( void ) {
;
}
void handleSystemReset ( void ) {
for ( uint8_t instance_id = 0 ; instance_id < NUM_DEXED ; instance_id + + ) {
# ifdef DEBUG
Serial . println ( F ( " MIDI SYSEX RESET " ) ) ;
# endif
MicroDexed [ instance_id ] - > notesOff ( ) ;
MicroDexed [ instance_id ] - > panic ( ) ;
MicroDexed [ instance_id ] - > resetControllers ( ) ;
}
}
/******************************************************************************
VOLUME HELPER
* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */
void dac_mute ( void ) {
sgtl5000 . lineOutLevel ( 0.0 ) ;
sgtl5000 . dacVolume ( 0.0 ) ;
sgtl5000 . volume ( 0.0 , 0.0 ) ; // Headphone volume
}
void dac_unmute ( void ) {
sgtl5000 . lineOutLevel ( SGTL5000_LINEOUT_LEVEL ) ;
sgtl5000 . dacVolume ( 1.0 ) ;
sgtl5000 . volume ( SGTL5000_HEADPHONE_VOLUME , SGTL5000_HEADPHONE_VOLUME ) ; // Headphone volume
}
void set_drums_volume ( float vol ) {
master_mixer_r . gain ( MASTER_MIX_CH_DRUMS , vol ) ;
master_mixer_l . gain ( MASTER_MIX_CH_DRUMS , vol ) ;
}
void set_volume ( uint8_t v , uint8_t m ) {
float tmp_v ;
configuration . sys . vol = v ;
if ( configuration . sys . vol > 100 )
configuration . sys . vol = 100 ;
tmp_v = float ( v ) ;
configuration . sys . mono = m ;
# ifdef DEBUG
Serial . print ( F ( " Setting volume: VOL= " ) ) ;
Serial . println ( v , DEC ) ;
Serial . print ( F ( " V= " ) ) ;
Serial . println ( volume_transform ( tmp_v / 100.0 ) ) ;
# endif
volume_r . gain ( volume_transform ( tmp_v / 100.0 ) * VOLUME_MULTIPLIER ) ;
volume_l . gain ( volume_transform ( tmp_v / 100.0 ) * VOLUME_MULTIPLIER ) ;
switch ( m ) {
case 0 : // stereo
stereo2mono . stereo ( true ) ;
for ( uint8_t instance_id = 0 ; instance_id < NUM_DEXED ; instance_id + + )
mono2stereo [ instance_id ] - > panorama ( mapfloat ( configuration . dexed [ instance_id ] . pan , PANORAMA_MIN , PANORAMA_MAX , - 1.0 , 1.0 ) ) ;
break ;
case 1 : // mono both
stereo2mono . stereo ( false ) ;
for ( uint8_t instance_id = 0 ; instance_id < NUM_DEXED ; instance_id + + )
mono2stereo [ instance_id ] - > panorama ( mapfloat ( PANORAMA_DEFAULT , PANORAMA_MIN , PANORAMA_MAX , - 1.0 , 1.0 ) ) ;
break ;
case 2 : // mono right
volume_l . gain ( 0.0 ) ;
stereo2mono . stereo ( false ) ;
for ( uint8_t instance_id = 0 ; instance_id < NUM_DEXED ; instance_id + + )
mono2stereo [ instance_id ] - > panorama ( mapfloat ( PANORAMA_MAX , PANORAMA_MIN , PANORAMA_MAX , - 1.0 , 1.0 ) ) ;
break ;
case 3 : // mono left
volume_r . gain ( 0.0 ) ;
stereo2mono . stereo ( false ) ;
for ( uint8_t instance_id = 0 ; instance_id < NUM_DEXED ; instance_id + + )
mono2stereo [ instance_id ] - > panorama ( mapfloat ( PANORAMA_MIN , PANORAMA_MIN , PANORAMA_MAX , - 1.0 , 1.0 ) ) ;
break ;
}
}
/******************************************************************************
EEPROM HELPER
* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */
void initial_values ( bool init ) {
uint16_t _m_ ;
if ( init = = true )
init_configuration ( ) ;
else {
_m_ = ( EEPROM [ EEPROM_START_ADDRESS ] < < 8 ) | EEPROM [ EEPROM_START_ADDRESS + 1 ] ;
if ( _m_ ! = EEPROM_MARKER ) {
# ifdef DEBUG
Serial . println ( F ( " Found wrong EEPROM marker, initializing EEPROM... " ) ) ;
# endif
init_configuration ( ) ;
//load_sd_performance_json(PERFORMANCE_NUM_MIN);
} else {
load_sd_sys_json ( ) ;
if ( configuration . sys . load_at_startup = = 0xff ) {
# ifdef DEBUG
Serial . print ( F ( " Loading initial system data from performance " ) ) ;
Serial . println ( configuration . sys . performance_number , DEC ) ;
# endif
load_sd_performance_json ( configuration . sys . performance_number ) ;
} else if ( configuration . sys . load_at_startup < 100 ) {
# ifdef DEBUG
Serial . print ( F ( " Loading initial system data from performance " ) ) ;
Serial . println ( configuration . sys . load_at_startup , DEC ) ;
# endif
load_sd_performance_json ( configuration . sys . load_at_startup ) ;
} else {
# ifdef DEBUG
Serial . print ( F ( " Loading initial system data from default performance " ) ) ;
Serial . println ( STARTUP_NUM_DEFAULT , DEC ) ;
# endif
load_sd_performance_json ( STARTUP_NUM_DEFAULT ) ;
}
}
# ifdef DEBUG
Serial . println ( F ( " OK, loaded! " ) ) ;
# endif
check_configuration ( ) ;
}
configuration . sys . vol = EEPROM [ EEPROM_START_ADDRESS + 2 ] ;
set_volume ( configuration . sys . vol , configuration . sys . mono ) ;
# ifdef DEBUG
show_configuration ( ) ;
# endif
}
void check_configuration ( void ) {
check_configuration_sys ( ) ;
check_configuration_fx ( ) ;
for ( uint8_t instance_id = 0 ; instance_id < NUM_DEXED ; instance_id + + )
check_configuration_dexed ( instance_id ) ;
check_configuration_epiano ( ) ;
check_configuration_drums ( ) ;
}
void check_configuration_sys ( void ) {
configuration . sys . vol = constrain ( configuration . sys . vol , VOLUME_MIN , VOLUME_MAX ) ;
configuration . sys . mono = constrain ( configuration . sys . mono , MONO_MIN , MONO_MAX ) ;
configuration . sys . soft_midi_thru = constrain ( configuration . sys . soft_midi_thru , SOFT_MIDI_THRU_MIN , SOFT_MIDI_THRU_MAX ) ;
configuration . sys . favorites = constrain ( configuration . sys . favorites , FAVORITES_NUM_MIN , FAVORITES_NUM_MAX ) ;
configuration . sys . performance_number = constrain ( configuration . sys . performance_number , PERFORMANCE_NUM_MIN , PERFORMANCE_NUM_MAX ) ;
configuration . sys . load_at_startup = constrain ( configuration . sys . load_at_startup , STARTUP_NUM_MIN , STARTUP_NUM_MAX ) ;
}
void check_configuration_fx ( void ) {
# ifdef USE_PLATEREVERB
configuration . fx . reverb_lowpass = constrain ( configuration . fx . reverb_lowpass , REVERB_LOWPASS_MIN , REVERB_LOWPASS_MAX ) ;
configuration . fx . reverb_lodamp = constrain ( configuration . fx . reverb_lodamp , REVERB_LODAMP_MIN , REVERB_LODAMP_MAX ) ;
configuration . fx . reverb_hidamp = constrain ( configuration . fx . reverb_hidamp , REVERB_HIDAMP_MIN , REVERB_HIDAMP_MAX ) ;
configuration . fx . reverb_diffusion = constrain ( configuration . fx . reverb_diffusion , REVERB_DIFFUSION_MIN , REVERB_DIFFUSION_MAX ) ;
# else
configuration . fx . reverb_damping = constrain ( configuration . fx . reverb_damping , REVERB_DAMPING_MIN , REVERB_DAMPING_MAX ) ;
# endif
configuration . fx . reverb_roomsize = constrain ( configuration . fx . reverb_roomsize , REVERB_ROOMSIZE_MIN , REVERB_ROOMSIZE_MAX ) ;
configuration . fx . reverb_level = constrain ( configuration . fx . reverb_level , REVERB_LEVEL_MIN , REVERB_LEVEL_MAX ) ;
for ( uint8_t instance_id = 0 ; instance_id < NUM_DEXED ; instance_id + + ) {
configuration . fx . filter_cutoff [ instance_id ] = constrain ( configuration . fx . filter_cutoff [ instance_id ] , FILTER_CUTOFF_MIN , FILTER_CUTOFF_MAX ) ;
configuration . fx . filter_resonance [ instance_id ] = constrain ( configuration . fx . filter_resonance [ instance_id ] , FILTER_RESONANCE_MIN , FILTER_RESONANCE_MAX ) ;
configuration . fx . chorus_frequency [ instance_id ] = constrain ( configuration . fx . chorus_frequency [ instance_id ] , CHORUS_FREQUENCY_MIN , CHORUS_FREQUENCY_MAX ) ;
configuration . fx . chorus_waveform [ instance_id ] = constrain ( configuration . fx . chorus_waveform [ instance_id ] , CHORUS_WAVEFORM_MIN , CHORUS_WAVEFORM_MAX ) ;
configuration . fx . chorus_depth [ instance_id ] = constrain ( configuration . fx . chorus_depth [ instance_id ] , CHORUS_DEPTH_MIN , CHORUS_DEPTH_MAX ) ;
configuration . fx . chorus_level [ instance_id ] = constrain ( configuration . fx . chorus_level [ instance_id ] , CHORUS_LEVEL_MIN , CHORUS_LEVEL_MAX ) ;
if ( configuration . fx . delay_sync [ instance_id ] = = 0 )
configuration . fx . delay_time [ instance_id ] = constrain ( configuration . fx . delay_time [ instance_id ] , DELAY_TIME_MIN , DELAY_TIME_MAX ) ;
configuration . fx . delay_feedback [ instance_id ] = constrain ( configuration . fx . delay_feedback [ instance_id ] , DELAY_FEEDBACK_MIN , DELAY_FEEDBACK_MAX ) ;
configuration . fx . delay_level [ instance_id ] = constrain ( configuration . fx . delay_level [ instance_id ] , DELAY_LEVEL_MIN , DELAY_LEVEL_MAX ) ;
configuration . fx . delay_sync [ instance_id ] = constrain ( configuration . fx . delay_sync [ instance_id ] , DELAY_SYNC_MIN , DELAY_SYNC_MAX ) ;
configuration . fx . reverb_send [ instance_id ] = constrain ( configuration . fx . reverb_send [ instance_id ] , REVERB_SEND_MIN , REVERB_SEND_MAX ) ;
}
configuration . fx . eq_1 = constrain ( configuration . fx . eq_1 , EQ_1_MIN , EQ_1_MAX ) ;
configuration . fx . eq_2 = constrain ( configuration . fx . eq_2 , EQ_2_MIN , EQ_2_MAX ) ;
configuration . fx . eq_3 = constrain ( configuration . fx . eq_3 , EQ_3_MIN , EQ_3_MAX ) ;
configuration . fx . eq_4 = constrain ( configuration . fx . eq_4 , EQ_4_MIN , EQ_4_MAX ) ;
configuration . fx . eq_5 = constrain ( configuration . fx . eq_5 , EQ_5_MIN , EQ_5_MAX ) ;
configuration . fx . eq_6 = constrain ( configuration . fx . eq_6 , EQ_6_MIN , EQ_6_MAX ) ;
configuration . fx . eq_7 = constrain ( configuration . fx . eq_7 , EQ_7_MIN , EQ_7_MAX ) ;
# if defined(USE_EPIANO)
configuration . fx . ep_chorus_frequency = constrain ( configuration . fx . ep_chorus_frequency , EP_CHORUS_FREQUENCY_MIN , EP_CHORUS_FREQUENCY_MAX ) ;
configuration . fx . ep_chorus_waveform = constrain ( configuration . fx . ep_chorus_waveform , EP_CHORUS_WAVEFORM_MIN , EP_CHORUS_WAVEFORM_MAX ) ;
configuration . fx . ep_chorus_depth = constrain ( configuration . fx . ep_chorus_depth , EP_CHORUS_DEPTH_MIN , EP_CHORUS_DEPTH_MAX ) ;
configuration . fx . ep_chorus_level = constrain ( configuration . fx . ep_chorus_level , EP_CHORUS_LEVEL_MIN , EP_CHORUS_LEVEL_MAX ) ;
configuration . fx . ep_reverb_send = constrain ( configuration . fx . ep_reverb_send , EP_REVERB_SEND_MIN , EP_REVERB_SEND_MAX ) ;
# endif
}
void check_configuration_dexed ( uint8_t instance_id ) {
configuration . dexed [ instance_id ] . bank = constrain ( configuration . dexed [ instance_id ] . bank , 0 , MAX_BANKS - 1 ) ;
configuration . dexed [ instance_id ] . voice = constrain ( configuration . dexed [ instance_id ] . voice , 0 , MAX_VOICES - 1 ) ;
configuration . dexed [ instance_id ] . midi_channel = constrain ( configuration . dexed [ instance_id ] . midi_channel , MIDI_CHANNEL_MIN , MIDI_CHANNEL_MAX ) ;
configuration . dexed [ instance_id ] . lowest_note = constrain ( configuration . dexed [ instance_id ] . lowest_note , INSTANCE_LOWEST_NOTE_MIN , INSTANCE_LOWEST_NOTE_MAX ) ;
configuration . dexed [ instance_id ] . highest_note = constrain ( configuration . dexed [ instance_id ] . highest_note , INSTANCE_HIGHEST_NOTE_MIN , INSTANCE_HIGHEST_NOTE_MAX ) ;
configuration . dexed [ instance_id ] . sound_intensity = constrain ( configuration . dexed [ instance_id ] . sound_intensity , SOUND_INTENSITY_MIN , SOUND_INTENSITY_MAX ) ;
configuration . dexed [ instance_id ] . pan = constrain ( configuration . dexed [ instance_id ] . pan , PANORAMA_MIN , PANORAMA_MAX ) ;
configuration . dexed [ instance_id ] . transpose = constrain ( configuration . dexed [ instance_id ] . transpose , TRANSPOSE_MIN , TRANSPOSE_MAX ) ;
configuration . dexed [ instance_id ] . tune = constrain ( configuration . dexed [ instance_id ] . tune , TUNE_MIN , TUNE_MAX ) ;
configuration . dexed [ instance_id ] . polyphony = constrain ( configuration . dexed [ instance_id ] . polyphony , POLYPHONY_MIN , POLYPHONY_MAX ) ;
configuration . dexed [ instance_id ] . velocity_level = constrain ( configuration . dexed [ instance_id ] . velocity_level , VELOCITY_LEVEL_MIN , VELOCITY_LEVEL_MAX ) ;
configuration . dexed [ instance_id ] . monopoly = constrain ( configuration . dexed [ instance_id ] . monopoly , MONOPOLY_MIN , MONOPOLY_MAX ) ;
configuration . dexed [ instance_id ] . note_refresh = constrain ( configuration . dexed [ instance_id ] . note_refresh , NOTE_REFRESH_MIN , NOTE_REFRESH_MAX ) ;
configuration . dexed [ instance_id ] . pb_range = constrain ( configuration . dexed [ instance_id ] . pb_range , PB_RANGE_MIN , PB_RANGE_MAX ) ;
configuration . dexed [ instance_id ] . pb_step = constrain ( configuration . dexed [ instance_id ] . pb_step , PB_STEP_MIN , PB_STEP_MAX ) ;
configuration . dexed [ instance_id ] . mw_range = constrain ( configuration . dexed [ instance_id ] . mw_range , MW_RANGE_MIN , MW_RANGE_MAX ) ;
configuration . dexed [ instance_id ] . mw_assign = constrain ( configuration . dexed [ instance_id ] . mw_assign , MW_ASSIGN_MIN , MW_ASSIGN_MAX ) ;
configuration . dexed [ instance_id ] . mw_mode = constrain ( configuration . dexed [ instance_id ] . mw_mode , MW_MODE_MIN , MW_MODE_MAX ) ;
configuration . dexed [ instance_id ] . fc_range = constrain ( configuration . dexed [ instance_id ] . fc_range , FC_RANGE_MIN , FC_RANGE_MAX ) ;
configuration . dexed [ instance_id ] . fc_assign = constrain ( configuration . dexed [ instance_id ] . fc_assign , FC_ASSIGN_MIN , FC_ASSIGN_MAX ) ;
configuration . dexed [ instance_id ] . fc_mode = constrain ( configuration . dexed [ instance_id ] . fc_mode , FC_MODE_MIN , FC_MODE_MAX ) ;
configuration . dexed [ instance_id ] . bc_range = constrain ( configuration . dexed [ instance_id ] . bc_range , BC_RANGE_MIN , BC_RANGE_MAX ) ;
configuration . dexed [ instance_id ] . bc_assign = constrain ( configuration . dexed [ instance_id ] . bc_assign , BC_ASSIGN_MIN , BC_ASSIGN_MAX ) ;
configuration . dexed [ instance_id ] . bc_mode = constrain ( configuration . dexed [ instance_id ] . bc_mode , BC_MODE_MIN , BC_MODE_MAX ) ;
configuration . dexed [ instance_id ] . at_range = constrain ( configuration . dexed [ instance_id ] . at_range , AT_RANGE_MIN , AT_RANGE_MAX ) ;
configuration . dexed [ instance_id ] . at_assign = constrain ( configuration . dexed [ instance_id ] . at_assign , AT_ASSIGN_MIN , AT_ASSIGN_MAX ) ;
configuration . dexed [ instance_id ] . at_mode = constrain ( configuration . dexed [ instance_id ] . at_mode , AT_MODE_MIN , AT_MODE_MAX ) ;
configuration . dexed [ instance_id ] . portamento_mode = constrain ( configuration . dexed [ instance_id ] . portamento_mode , PORTAMENTO_MODE_MIN , PORTAMENTO_MODE_MAX ) ;
configuration . dexed [ instance_id ] . portamento_glissando = constrain ( configuration . dexed [ instance_id ] . portamento_glissando , PORTAMENTO_GLISSANDO_MIN , PORTAMENTO_GLISSANDO_MAX ) ;
configuration . dexed [ instance_id ] . portamento_time = constrain ( configuration . dexed [ instance_id ] . portamento_time , PORTAMENTO_TIME_MIN , PORTAMENTO_TIME_MAX ) ;
configuration . dexed [ instance_id ] . op_enabled = constrain ( configuration . dexed [ instance_id ] . op_enabled , OP_ENABLED_MIN , OP_ENABLED_MAX ) ;
}
void check_configuration_epiano ( void ) {
configuration . epiano . decay = constrain ( configuration . epiano . decay , EP_DECAY_MIN , EP_DECAY_MAX ) ;
configuration . epiano . release = constrain ( configuration . epiano . release , EP_RELEASE_MIN , EP_RELEASE_MAX ) ;
configuration . epiano . hardness = constrain ( configuration . epiano . hardness , EP_HARDNESS_MIN , EP_HARDNESS_MAX ) ;
configuration . epiano . treble = constrain ( configuration . epiano . treble , EP_TREBLE_MIN , EP_TREBLE_MAX ) ;
configuration . epiano . pan_tremolo = constrain ( configuration . epiano . pan_tremolo , EP_PAN_TREMOLO_MIN , EP_PAN_TREMOLO_MAX ) ;
configuration . epiano . pan_lfo = constrain ( configuration . epiano . pan_lfo , EP_PAN_LFO_MIN , EP_PAN_LFO_MAX ) ;
configuration . epiano . velocity_sense = constrain ( configuration . epiano . velocity_sense , EP_VELOCITY_SENSE_MIN , EP_VELOCITY_SENSE_MAX ) ;
configuration . epiano . stereo = constrain ( configuration . epiano . stereo , EP_STEREO_MIN , EP_STEREO_MAX ) ;
configuration . epiano . polyphony = constrain ( configuration . epiano . polyphony , EP_POLYPHONY_MIN , EP_POLYPHONY_MAX ) ;
configuration . epiano . tune = constrain ( configuration . epiano . tune , EP_TUNE_MIN , EP_TUNE_MAX ) ;
configuration . epiano . detune = constrain ( configuration . epiano . detune , EP_DETUNE_MIN , EP_DETUNE_MAX ) ;
configuration . epiano . overdrive = constrain ( configuration . epiano . overdrive , EP_OVERDRIVE_MIN , EP_OVERDRIVE_MAX ) ;
configuration . epiano . lowest_note = constrain ( configuration . epiano . lowest_note , EP_LOWEST_NOTE_MIN , EP_LOWEST_NOTE_MAX ) ;
configuration . epiano . highest_note = constrain ( configuration . epiano . highest_note , EP_HIGHEST_NOTE_MIN , EP_HIGHEST_NOTE_MAX ) ;
configuration . epiano . transpose = constrain ( configuration . epiano . transpose , EP_TRANSPOSE_MIN , EP_TRANSPOSE_MAX ) ;
configuration . epiano . sound_intensity = constrain ( configuration . epiano . sound_intensity , EP_SOUND_INTENSITY_MIN , EP_SOUND_INTENSITY_MAX ) ;
configuration . epiano . pan = constrain ( configuration . epiano . pan , EP_PANORAMA_MIN , EP_PANORAMA_MAX ) ;
configuration . epiano . velocity_sense = constrain ( configuration . epiano . velocity_sense , EP_VELOCITY_SENSE_MIN , EP_VELOCITY_SENSE_MAX ) ;
configuration . epiano . midi_channel = constrain ( configuration . epiano . midi_channel , EP_MIDI_CHANNEL_MIN , EP_MIDI_CHANNEL_MAX ) ;
}
void check_configuration_drums ( void ) {
configuration . drums . main_vol = constrain ( configuration . drums . main_vol , DRUMS_MAIN_VOL_MIN , DRUMS_MAIN_VOL_MAX ) ;
configuration . drums . midi_channel = constrain ( configuration . drums . midi_channel , DRUMS_MIDI_CHANNEL_MIN , DRUMS_MIDI_CHANNEL_MAX ) ;
for ( uint8_t i = 0 ; i < NUM_DRUMSET_CONFIG - 1 ; i + + ) {
configuration . drums . midinote [ i ] = constrain ( drum_config [ i ] . midinote , DRUMS_MIDI_NOTE_MIN , DRUMS_MIDI_NOTE_MAX ) ;
configuration . drums . pitch [ i ] = mapfloat ( drum_config [ i ] . pitch , - 12.0 , 12.0 , DRUMS_PITCH_MIN , DRUMS_PITCH_MAX ) ;
configuration . drums . pan [ i ] = mapfloat ( drum_config [ i ] . pan , 0.0 , 1.0 , DRUMS_PANORAMA_MIN , DRUMS_PANORAMA_MAX ) ;
configuration . drums . vol_max [ i ] = mapfloat ( drum_config [ i ] . vol_max , 0.0 , 1.0 , DRUMS_VOL_MIN , DRUMS_VOL_MAX ) ;
configuration . drums . vol_min [ i ] = mapfloat ( drum_config [ i ] . vol_min , 0.0 , 1.0 , DRUMS_VOL_MIN , DRUMS_VOL_MAX ) ;
configuration . drums . reverb_send [ i ] = mapfloat ( drum_config [ i ] . reverb_send , 0.0 , 1.0 , DRUMS_REVERB_SEND_MIN , DRUMS_REVERB_SEND_MAX ) ;
}
}
void init_configuration ( void ) {
# ifdef DEBUG
Serial . println ( F ( " INITIALIZING CONFIGURATION " ) ) ;
# endif
configuration . sys . vol = VOLUME_DEFAULT ;
configuration . sys . mono = MONO_DEFAULT ;
configuration . sys . soft_midi_thru = SOFT_MIDI_THRU_DEFAULT ;
configuration . sys . performance_number = PERFORMANCE_NUM_DEFAULT ;
configuration . sys . load_at_startup = STARTUP_NUM_DEFAULT ;
# ifdef USE_PLATEREVERB
configuration . fx . reverb_lowpass = REVERB_LOWPASS_DEFAULT ;
configuration . fx . reverb_lodamp = REVERB_LODAMP_DEFAULT ;
configuration . fx . reverb_hidamp = REVERB_HIDAMP_DEFAULT ;
configuration . fx . reverb_diffusion = REVERB_DIFFUSION_DEFAULT ;
# else
configuration . fx . reverb_damping = REVERB_DAMPING_DEFAULT ;
# endif
configuration . fx . reverb_roomsize = REVERB_ROOMSIZE_DEFAULT ;
configuration . fx . reverb_level = REVERB_LEVEL_DEFAULT ;
# if defined(USE_EPIANO)
configuration . fx . ep_chorus_frequency = EP_CHORUS_FREQUENCY_DEFAULT ;
configuration . fx . ep_chorus_waveform = EP_CHORUS_WAVEFORM_DEFAULT ;
configuration . fx . ep_chorus_depth = EP_CHORUS_DEPTH_DEFAULT ;
configuration . fx . ep_chorus_level = EP_CHORUS_LEVEL_DEFAULT ;
configuration . fx . ep_reverb_send = EP_REVERB_SEND_DEFAULT ;
# endif
for ( uint8_t instance_id = 0 ; instance_id < NUM_DEXED ; instance_id + + ) {
configuration . dexed [ instance_id ] . bank = SYSEXBANK_DEFAULT ;
configuration . dexed [ instance_id ] . voice = SYSEXSOUND_DEFAULT ;
configuration . dexed [ instance_id ] . midi_channel = DEFAULT_MIDI_CHANNEL ;
configuration . dexed [ instance_id ] . lowest_note = INSTANCE_LOWEST_NOTE_MIN ;
configuration . dexed [ instance_id ] . highest_note = INSTANCE_HIGHEST_NOTE_MAX ;
configuration . dexed [ instance_id ] . sound_intensity = SOUND_INTENSITY_DEFAULT ;
configuration . dexed [ instance_id ] . pan = PANORAMA_DEFAULT ;
configuration . dexed [ instance_id ] . transpose = TRANSPOSE_DEFAULT ;
configuration . dexed [ instance_id ] . tune = TUNE_DEFAULT ;
configuration . dexed [ instance_id ] . polyphony = POLYPHONY_DEFAULT ;
configuration . dexed [ instance_id ] . velocity_level = VELOCITY_LEVEL_DEFAULT ;
configuration . dexed [ instance_id ] . monopoly = MONOPOLY_DEFAULT ;
configuration . dexed [ instance_id ] . note_refresh = NOTE_REFRESH_DEFAULT ;
configuration . dexed [ instance_id ] . pb_range = PB_RANGE_DEFAULT ;
configuration . dexed [ instance_id ] . pb_step = PB_STEP_DEFAULT ;
configuration . dexed [ instance_id ] . mw_range = MW_RANGE_DEFAULT ;
configuration . dexed [ instance_id ] . mw_assign = MW_ASSIGN_DEFAULT ;
configuration . dexed [ instance_id ] . mw_mode = MW_MODE_DEFAULT ;
configuration . dexed [ instance_id ] . fc_range = FC_RANGE_DEFAULT ;
configuration . dexed [ instance_id ] . fc_assign = FC_ASSIGN_DEFAULT ;
configuration . dexed [ instance_id ] . fc_mode = FC_MODE_DEFAULT ;
configuration . dexed [ instance_id ] . bc_range = BC_RANGE_DEFAULT ;
configuration . dexed [ instance_id ] . bc_assign = BC_ASSIGN_DEFAULT ;
configuration . dexed [ instance_id ] . bc_mode = BC_MODE_DEFAULT ;
configuration . dexed [ instance_id ] . at_range = AT_RANGE_DEFAULT ;
configuration . dexed [ instance_id ] . at_assign = AT_ASSIGN_DEFAULT ;
configuration . dexed [ instance_id ] . at_mode = AT_MODE_DEFAULT ;
configuration . dexed [ instance_id ] . portamento_mode = PORTAMENTO_MODE_DEFAULT ;
configuration . dexed [ instance_id ] . portamento_glissando = PORTAMENTO_GLISSANDO_DEFAULT ;
configuration . dexed [ instance_id ] . portamento_time = PORTAMENTO_TIME_DEFAULT ;
configuration . dexed [ instance_id ] . op_enabled = OP_ENABLED_DEFAULT ;
configuration . fx . filter_cutoff [ instance_id ] = FILTER_CUTOFF_DEFAULT ;
configuration . fx . filter_resonance [ instance_id ] = FILTER_RESONANCE_DEFAULT ;
configuration . fx . chorus_frequency [ instance_id ] = CHORUS_FREQUENCY_DEFAULT ;
configuration . fx . chorus_waveform [ instance_id ] = CHORUS_WAVEFORM_DEFAULT ;
configuration . fx . chorus_depth [ instance_id ] = CHORUS_DEPTH_DEFAULT ;
configuration . fx . chorus_level [ instance_id ] = CHORUS_LEVEL_DEFAULT ;
configuration . fx . delay_time [ instance_id ] = DELAY_TIME_DEFAULT / 10 ;
configuration . fx . delay_feedback [ instance_id ] = DELAY_FEEDBACK_DEFAULT ;
configuration . fx . delay_level [ instance_id ] = DELAY_LEVEL_DEFAULT ;
configuration . fx . delay_sync [ instance_id ] = DELAY_SYNC_DEFAULT ;
configuration . fx . reverb_send [ instance_id ] = REVERB_SEND_DEFAULT ;
MicroDexed [ instance_id ] - > ControllersRefresh ( ) ;
}
# if defined(USE_EPIANO)
configuration . epiano . decay = EP_DECAY_DEFAULT ;
configuration . epiano . release = EP_RELEASE_DEFAULT ;
configuration . epiano . hardness = EP_HARDNESS_DEFAULT ;
configuration . epiano . treble = EP_TREBLE_DEFAULT ;
configuration . epiano . pan_tremolo = EP_PAN_TREMOLO_DEFAULT ;
configuration . epiano . pan_lfo = EP_PAN_LFO_DEFAULT ;
configuration . epiano . velocity_sense = EP_VELOCITY_SENSE_DEFAULT ;
configuration . epiano . stereo = EP_STEREO_DEFAULT ;
configuration . epiano . polyphony = EP_POLYPHONY_DEFAULT ;
configuration . epiano . tune = EP_TUNE_DEFAULT ;
configuration . epiano . detune = EP_DETUNE_DEFAULT ;
configuration . epiano . overdrive = EP_OVERDRIVE_DEFAULT ;
configuration . epiano . lowest_note = EP_LOWEST_NOTE_DEFAULT ;
configuration . epiano . highest_note = EP_HIGHEST_NOTE_DEFAULT ;
configuration . epiano . transpose = EP_TRANSPOSE_DEFAULT ;
configuration . epiano . sound_intensity = EP_SOUND_INTENSITY_DEFAULT ;
configuration . epiano . pan = EP_PANORAMA_DEFAULT ;
configuration . epiano . velocity_sense = EP_VELOCITY_SENSE_DEFAULT ;
configuration . epiano . midi_channel = EP_MIDI_CHANNEL_DEFAULT ;
# if NUM_DRUMS > 0
configuration . drums . main_vol = DRUMS_MAIN_VOL_DEFAULT ;
configuration . drums . midi_channel = DRUMS_MIDI_CHANNEL_DEFAULT ;
# endif
# endif
eeprom_update ( ) ;
}
void eeprom_update ( void ) {
EEPROM . update ( EEPROM_START_ADDRESS , ( EEPROM_MARKER & 0xff00 ) > > 8 ) ;
EEPROM . update ( EEPROM_START_ADDRESS + 1 , EEPROM_MARKER & 0xff ) ;
EEPROM . update ( EEPROM_START_ADDRESS + 2 , configuration . sys . vol ) ;
}
void set_fx_params ( void ) {
# if defined(USE_FX)
for ( uint8_t instance_id = 0 ; instance_id < NUM_DEXED ; instance_id + + ) {
// CHORUS
switch ( configuration . fx . chorus_waveform [ instance_id ] ) {
case 0 :
chorus_modulator [ instance_id ] - > begin ( WAVEFORM_TRIANGLE ) ;
break ;
case 1 :
chorus_modulator [ instance_id ] - > begin ( WAVEFORM_SINE ) ;
break ;
default :
chorus_modulator [ instance_id ] - > begin ( WAVEFORM_TRIANGLE ) ;
}
chorus_modulator [ instance_id ] - > phase ( 0 ) ;
chorus_modulator [ instance_id ] - > frequency ( configuration . fx . chorus_frequency [ instance_id ] / 10.0 ) ;
chorus_modulator [ instance_id ] - > amplitude ( mapfloat ( configuration . fx . chorus_depth [ instance_id ] , CHORUS_DEPTH_MIN , CHORUS_DEPTH_MAX , 0.0 , 1.0 ) ) ;
chorus_modulator [ instance_id ] - > offset ( 0.0 ) ;
# if MOD_FILTER_OUTPUT == MOD_BUTTERWORTH_FILTER_OUTPUT
// Butterworth filter, 12 db/octave
modchorus_filter [ instance_id ] - > setLowpass ( 0 , MOD_FILTER_CUTOFF_HZ , 0.707 ) ;
# elif MOD_FILTER_OUTPUT == MOD_LINKWITZ_RILEY_FILTER_OUTPUT
// Linkwitz-Riley filter, 48 dB/octave
modchorus_filter [ instance_id ] - > setLowpass ( 0 , MOD_FILTER_CUTOFF_HZ , 0.54 ) ;
modchorus_filter [ instance_id ] - > setLowpass ( 1 , MOD_FILTER_CUTOFF_HZ , 1.3 ) ;
modchorus_filter [ instance_id ] - > setLowpass ( 2 , MOD_FILTER_CUTOFF_HZ , 0.54 ) ;
modchorus_filter [ instance_id ] - > setLowpass ( 3 , MOD_FILTER_CUTOFF_HZ , 1.3 ) ;
# endif
chorus_mixer [ instance_id ] - > gain ( 0 , 1.0 ) ;
chorus_mixer [ instance_id ] - > gain ( 1 , mapfloat ( configuration . fx . chorus_level [ instance_id ] , CHORUS_LEVEL_MIN , CHORUS_LEVEL_MAX , 0.0 , 0.5 ) ) ;
// DELAY
delay_mixer [ instance_id ] - > gain ( 0 , 1.0 ) ;
delay_mixer [ instance_id ] - > gain ( 1 , midi_volume_transform ( map ( configuration . fx . delay_level [ instance_id ] , DELAY_LEVEL_MIN , DELAY_LEVEL_MAX , 0 , 127 ) ) ) ;
delay_fb_mixer [ instance_id ] - > gain ( 0 , 1.0 ) ;
delay_fb_mixer [ instance_id ] - > gain ( 1 , midi_volume_transform ( map ( configuration . fx . delay_feedback [ instance_id ] , DELAY_FEEDBACK_MIN , DELAY_FEEDBACK_MAX , 0 , 127 ) ) ) ;
if ( configuration . fx . delay_level [ selected_instance_id ] < = DELAY_LEVEL_MIN )
delay_fx [ instance_id ] - > disable ( 0 ) ;
else if ( configuration . fx . delay_sync [ instance_id ] = = 0 )
delay_fx [ instance_id ] - > delay ( 0 , constrain ( configuration . fx . delay_time [ instance_id ] , DELAY_TIME_MIN , DELAY_TIME_MAX ) * 10 ) ;
if ( configuration . fx . delay_sync [ instance_id ] > 0 ) {
uint16_t midi_sync_delay_time = uint16_t ( 60000.0 * midi_ticks_factor [ configuration . fx . delay_sync [ instance_id ] ] / midi_bpm ) ;
delay_fx [ instance_id ] - > delay ( 0 , constrain ( midi_sync_delay_time , DELAY_TIME_MIN , DELAY_TIME_MAX * 10 ) ) ;
}
// REVERB SEND
reverb_mixer_r . gain ( instance_id , volume_transform ( mapfloat ( configuration . fx . reverb_send [ instance_id ] , REVERB_SEND_MIN , REVERB_SEND_MAX , 0.0 , VOL_MAX_FLOAT ) ) ) ;
reverb_mixer_l . gain ( instance_id , volume_transform ( mapfloat ( configuration . fx . reverb_send [ instance_id ] , REVERB_SEND_MIN , REVERB_SEND_MAX , 0.0 , VOL_MAX_FLOAT ) ) ) ;
// DEXED FILTER
MicroDexed [ instance_id ] - > setFilterResonance ( mapfloat ( configuration . fx . filter_resonance [ instance_id ] , FILTER_RESONANCE_MIN , FILTER_RESONANCE_MAX , 1.0 , 0.0 ) ) ;
MicroDexed [ instance_id ] - > setFilterCutoff ( mapfloat ( configuration . fx . filter_cutoff [ instance_id ] , FILTER_CUTOFF_MIN , FILTER_CUTOFF_MAX , 1.0 , 0.0 ) ) ;
MicroDexed [ instance_id ] - > doRefreshVoice ( ) ;
}
// REVERB
# ifdef USE_PLATEREVERB
reverb . size ( mapfloat ( configuration . fx . reverb_roomsize , REVERB_ROOMSIZE_MIN , REVERB_ROOMSIZE_MAX , 0.0 , 1.0 ) ) ;
reverb . lowpass ( mapfloat ( configuration . fx . reverb_lowpass , REVERB_LOWPASS_MIN , REVERB_LOWPASS_MAX , 0.0 , 1.0 ) ) ;
reverb . lodamp ( mapfloat ( configuration . fx . reverb_lodamp , REVERB_LODAMP_MIN , REVERB_LODAMP_MAX , 0.0 , 1.0 ) ) ;
reverb . hidamp ( mapfloat ( configuration . fx . reverb_hidamp , REVERB_HIDAMP_MIN , REVERB_HIDAMP_MAX , 0.0 , 1.0 ) ) ;
reverb . diffusion ( mapfloat ( configuration . fx . reverb_diffusion , REVERB_DIFFUSION_MIN , REVERB_DIFFUSION_MAX , 0.0 , 1.0 ) ) ;
# else
freeverb . roomsize ( mapfloat ( configuration . fx . reverb_roomsize , REVERB_ROOMSIZE_MIN , REVERB_ROOMSIZE_MAX , 0.0 , 1.0 ) ) ;
freeverb . damping ( mapfloat ( configuration . fx . reverb_damping , REVERB_DAMPING_MIN , REVERB_DAMPING_MAX , 0.0 , 1.0 ) ) ;
# endif
# if NUM_DRUMS > 0
# ifdef USE_FX
reverb_mixer_r . gain ( REVERB_MIX_CH_DRUMS , 1.0 ) ; // Drums Reverb-Send
reverb_mixer_l . gain ( REVERB_MIX_CH_DRUMS , 1.0 ) ; // Drums Reverb-Send
# endif
# endif
# if defined(USE_EPIANO)
# ifdef USE_FX
reverb_mixer_r . gain ( REVERB_MIX_CH_EPIANO , mapfloat ( configuration . fx . ep_reverb_send , EP_REVERB_SEND_MIN , EP_REVERB_SEND_MAX , 0.0 , 1.0 ) ) ; // EPiano Reverb-Send
reverb_mixer_l . gain ( REVERB_MIX_CH_EPIANO , mapfloat ( configuration . fx . ep_reverb_send , EP_REVERB_SEND_MIN , EP_REVERB_SEND_MAX , 0.0 , 1.0 ) ) ; // EPiano Reverb-Send
// EP_CHORUS
switch ( configuration . fx . ep_chorus_waveform ) {
case 0 :
ep_chorus_modulator . begin ( WAVEFORM_TRIANGLE ) ;
break ;
case 1 :
ep_chorus_modulator . begin ( WAVEFORM_SINE ) ;
break ;
default :
ep_chorus_modulator . begin ( WAVEFORM_TRIANGLE ) ;
}
ep_chorus_modulator . phase ( 0 ) ;
ep_chorus_modulator . frequency ( configuration . fx . ep_chorus_frequency / 10.0 ) ;
ep_chorus_modulator . amplitude ( mapfloat ( configuration . fx . ep_chorus_depth , EP_CHORUS_DEPTH_MIN , EP_CHORUS_DEPTH_MAX , 0.0 , 1.0 ) ) ;
ep_chorus_modulator . offset ( 0.0 ) ;
# if MOD_FILTER_OUTPUT == MOD_BUTTERWORTH_FILTER_OUTPUT
// Butterworth filter, 12 db/octave
ep_modchorus_filter . setLowpass ( 0 , MOD_FILTER_CUTOFF_HZ , 0.707 ) ;
# elif MOD_FILTER_OUTPUT == MOD_LINKWITZ_RILEY_FILTER_OUTPUT
// Linkwitz-Riley filter, 48 dB/octave
ep_modchorus_filter . setLowpass ( 0 , MOD_FILTER_CUTOFF_HZ , 0.54 ) ;
ep_modchorus_filter . setLowpass ( 1 , MOD_FILTER_CUTOFF_HZ , 1.3 ) ;
ep_modchorus_filter . setLowpass ( 2 , MOD_FILTER_CUTOFF_HZ , 0.54 ) ;
ep_modchorus_filter . setLowpass ( 3 , MOD_FILTER_CUTOFF_HZ , 1.3 ) ;
# endif
ep_chorus_mixer_r . gain ( 0 , 1.0 ) ;
ep_chorus_mixer_l . gain ( 0 , 1.0 ) ;
ep_chorus_mixer_r . gain ( 1 , mapfloat ( configuration . fx . ep_chorus_level , EP_CHORUS_LEVEL_MIN , EP_CHORUS_LEVEL_MAX , 0.0 , 0.5 ) ) ;
ep_chorus_mixer_l . gain ( 1 , mapfloat ( configuration . fx . ep_chorus_level , EP_CHORUS_LEVEL_MIN , EP_CHORUS_LEVEL_MAX , 0.0 , 0.5 ) ) ;
# endif
# endif
master_mixer_r . gain ( MASTER_MIX_CH_REVERB , volume_transform ( mapfloat ( configuration . fx . reverb_level , REVERB_LEVEL_MIN , REVERB_LEVEL_MAX , 0.0 , VOL_MAX_FLOAT ) ) ) ;
master_mixer_l . gain ( MASTER_MIX_CH_REVERB , volume_transform ( mapfloat ( configuration . fx . reverb_level , REVERB_LEVEL_MIN , REVERB_LEVEL_MAX , 0.0 , VOL_MAX_FLOAT ) ) ) ;
# endif
# ifdef SGTL5000_AUDIO_ENHANCE
sgtl5000 . setEQFc ( 1 , float ( configuration . fx . eq_1 ) ) ;
sgtl5000 . setEQGain ( 2 , mapfloat ( configuration . fx . eq_2 , EQ_2_MIN , EQ_2_MAX , - 9.9 , 9.9 ) ) ;
sgtl5000 . setEQGain ( 3 , mapfloat ( configuration . fx . eq_3 , EQ_3_MIN , EQ_3_MAX , - 9.9 , 9.9 ) ) ;
sgtl5000 . setEQGain ( 4 , mapfloat ( configuration . fx . eq_4 , EQ_4_MIN , EQ_4_MAX , - 9.9 , 9.9 ) ) ;
sgtl5000 . setEQGain ( 5 , mapfloat ( configuration . fx . eq_5 , EQ_5_MIN , EQ_5_MAX , - 9.9 , 9.9 ) ) ;
sgtl5000 . setEQGain ( 6 , mapfloat ( configuration . fx . eq_6 , EQ_6_MIN , EQ_6_MAX , - 9.9 , 9.9 ) ) ;
sgtl5000 . setEQFc ( 7 , float ( configuration . fx . eq_7 ) ) ;
for ( uint8_t band = 1 ; band < = 7 ; band + + ) {
sgtl5000 . commitFilter ( band ) ;
# ifdef DEBUG
sgtl5000 . show_params ( band ) ;
# endif
}
# endif
init_MIDI_send_CC ( ) ;
}
void set_voiceconfig_params ( uint8_t instance_id ) {
// INIT PEAK MIXER
microdexed_peak_mixer . gain ( instance_id , 1.0 ) ;
// Controller
MicroDexed [ instance_id ] - > setMaxNotes ( configuration . dexed [ instance_id ] . polyphony ) ;
MicroDexed [ instance_id ] - > setPBController ( configuration . dexed [ instance_id ] . pb_range , configuration . dexed [ instance_id ] . pb_step ) ;
MicroDexed [ instance_id ] - > setMWController ( configuration . dexed [ instance_id ] . mw_range , configuration . dexed [ instance_id ] . mw_assign , configuration . dexed [ instance_id ] . mw_mode ) ;
MicroDexed [ instance_id ] - > setFCController ( configuration . dexed [ instance_id ] . fc_range , configuration . dexed [ instance_id ] . fc_assign , configuration . dexed [ instance_id ] . fc_mode ) ;
MicroDexed [ instance_id ] - > setBCController ( configuration . dexed [ instance_id ] . bc_range , configuration . dexed [ instance_id ] . bc_assign , configuration . dexed [ instance_id ] . bc_mode ) ;
MicroDexed [ instance_id ] - > setATController ( configuration . dexed [ instance_id ] . at_range , configuration . dexed [ instance_id ] . at_assign , configuration . dexed [ instance_id ] . at_mode ) ;
MicroDexed [ instance_id ] - > ControllersRefresh ( ) ;
MicroDexed [ instance_id ] - > setOPAll ( configuration . dexed [ instance_id ] . op_enabled ) ;
MicroDexed [ instance_id ] - > doRefreshVoice ( ) ;
MicroDexed [ instance_id ] - > setMonoMode ( configuration . dexed [ instance_id ] . monopoly ) ;
// Dexed output level
MicroDexed [ instance_id ] - > setGain ( midi_volume_transform ( map ( configuration . dexed [ instance_id ] . sound_intensity , SOUND_INTENSITY_MIN , SOUND_INTENSITY_MAX , 0 , 127 ) ) ) ;
// PANORAMA
mono2stereo [ instance_id ] - > panorama ( mapfloat ( configuration . dexed [ instance_id ] . pan , PANORAMA_MIN , PANORAMA_MAX , - 1.0 , 1.0 ) ) ;
}
void set_epiano_params ( void ) {
# if defined(USE_EPIANO)
# ifdef DEBUG
Serial . print ( F ( " Setting EPiano parameters... " ) ) ;
# endif
ep . setDecay ( mapfloat ( configuration . epiano . decay , EP_DECAY_MIN , EP_DECAY_MAX , 0.0 , 1.0 ) ) ;
ep . setRelease ( mapfloat ( configuration . epiano . release , EP_RELEASE_MIN , EP_RELEASE_MAX , 0.0 , 1.0 ) ) ;
ep . setHardness ( mapfloat ( configuration . epiano . hardness , EP_HARDNESS_MIN , EP_HARDNESS_MAX , 0.0 , 1.0 ) ) ;
ep . setTreble ( mapfloat ( configuration . epiano . treble , EP_TREBLE_MIN , EP_TREBLE_MAX , 0.0 , 1.0 ) ) ;
ep . setPanTremolo ( mapfloat ( configuration . epiano . pan_tremolo , EP_PAN_TREMOLO_MIN , EP_PAN_TREMOLO_MAX , 0.0 , 1.0 ) ) ;
ep . setPanLFO ( mapfloat ( configuration . epiano . pan_lfo , EP_PAN_LFO_MIN , EP_PAN_LFO_MAX , 0.0 , 1.0 ) ) ;
ep . setVelocitySense ( mapfloat ( configuration . epiano . velocity_sense , EP_VELOCITY_SENSE_MIN , EP_VELOCITY_SENSE_MAX , 0.0 , 1.0 ) ) ;
ep . setStereo ( mapfloat ( configuration . epiano . stereo , EP_STEREO_MIN , EP_STEREO_MAX , 0.0 , 1.0 ) ) ;
ep . setPolyphony ( configuration . epiano . polyphony ) ;
ep . setTune ( mapfloat ( configuration . epiano . tune , EP_TUNE_MIN , EP_TUNE_MAX , 0.0 , 1.0 ) ) ;
ep . setDetune ( mapfloat ( configuration . epiano . detune , EP_DETUNE_MIN , EP_DETUNE_MAX , 0 , 1.0 ) ) ;
ep . setOverdrive ( mapfloat ( configuration . epiano . overdrive , EP_OVERDRIVE_MIN , EP_OVERDRIVE_MAX , 0 , 1.0 ) ) ;
ep . setVolume ( mapfloat ( configuration . epiano . sound_intensity , EP_SOUND_INTENSITY_MIN , EP_SOUND_INTENSITY_MAX , 0 , 1.0 ) ) ;
# ifdef DEBUG
Serial . println ( F ( " done. " ) ) ;
# endif
# else
;
# endif
}
void set_sys_params ( void ) {
// set initial volume
set_volume ( configuration . sys . vol , configuration . sys . mono ) ;
}
/******************************************************************************
HELPERS
* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */
// https://www.reddit.com/r/Teensy/comments/7r19uk/reset_and_reboot_teensy_lc_via_code/
# define SCB_AIRCR (*(volatile uint32_t*)0xE000ED0C) // Application Interrupt and Reset Control location
void _softRestart ( void ) {
Serial . end ( ) ; //clears the serial monitor if used
SCB_AIRCR = 0x05FA0004 ; //write value for restart
}
/*float pseudo_log_curve(float value)
{
//return (mapfloat(_pseudo_log * arm_sin_f32(value), 0.0, _pseudo_log * arm_sin_f32(1.0), 0.0, 1.0));
//return (1 - sqrt(1 - value * value));
//return (pow(2, value) - 1);
return ( pow ( value , 2.2 ) ) ;
} */
# if NUM_DRUMS > 0
uint8_t drum_get_slot ( uint8_t dt ) {
for ( uint8_t i = 0 ; i < NUM_DRUMS ; i + + ) {
if ( ! Drum [ i ] - > isPlaying ( ) ) {
drum_type [ i ] = DRUM_NONE ;
Drum [ i ] - > enableInterpolation ( false ) ;
Drum [ i ] - > setPlaybackRate ( 1.0 ) ;
}
// else
// {
// if (drum_type[i] == dt)
// {
//#ifdef DEBUG
// Serial.print(F("Stopping Drum "));
// Serial.print(i);
// Serial.print(F(" type "));
// Serial.println(dt);
//#endif
// Drum[i]->stop();
//
// return (i);
// }
// }
}
# ifdef DEBUG
Serial . print ( F ( " Using next free Drum slot " ) ) ;
Serial . println ( drum_counter % NUM_DRUMS ) ;
# endif
drum_type [ drum_counter % NUM_DRUMS ] = dt ;
drum_counter + + ;
return ( drum_counter - 1 % NUM_DRUMS ) ;
}
# endif
int8_t handle_midi_learn ( int8_t note ) {
int8_t ret_channel = - 1 ;
# ifdef DEBUG
Serial . print ( F ( " MIDI learning for " ) ) ;
Serial . println ( note ) ;
# endif
if ( LCDML . FUNC_getID ( ) = = LCDML . OTHER_getIDFromFunction ( UI_func_drum_midi_note ) ) {
ret_channel = configuration . drums . midi_channel ;
//LCDML.OTHER_jumpToFunc(UI_func_drum_midi_note);
} else if ( LCDML . FUNC_getID ( ) = = LCDML . OTHER_getIDFromFunction ( UI_func_epiano_lowest_note ) ) {
if ( note > configuration . epiano . highest_note )
configuration . epiano . lowest_note = configuration . epiano . highest_note ;
else
configuration . epiano . lowest_note = note ;
ret_channel = configuration . epiano . midi_channel ;
# ifdef DEBUG
Serial . print ( F ( " MIDI learned lowest note: " ) ) ;
Serial . print ( note ) ;
Serial . print ( F ( " for EPiano, ghosting MIDI channel " ) ) ;
Serial . println ( ret_channel ) ;
# endif
} else if ( LCDML . FUNC_getID ( ) = = LCDML . OTHER_getIDFromFunction ( UI_func_epiano_highest_note ) ) {
if ( note < configuration . epiano . lowest_note )
configuration . epiano . highest_note = configuration . epiano . lowest_note ;
else
configuration . epiano . highest_note = note ;
ret_channel = configuration . epiano . midi_channel ;
# ifdef DEBUG
Serial . print ( F ( " MIDI learned highest note: " ) ) ;
Serial . print ( note ) ;
Serial . print ( F ( " for EPiano, ghosting MIDI channel " ) ) ;
Serial . println ( ret_channel ) ;
# endif
}
// Check for Dexed
for ( uint8_t instance_id = 0 ; instance_id < NUM_DEXED ; instance_id + + ) {
if ( LCDML . FUNC_getID ( ) = = LCDML . OTHER_getIDFromFunction ( UI_func_lowest_note ) ) {
if ( note > configuration . dexed [ selected_instance_id ] . highest_note )
configuration . dexed [ selected_instance_id ] . lowest_note = configuration . dexed [ selected_instance_id ] . highest_note ;
else
configuration . dexed [ selected_instance_id ] . lowest_note = note ;
ret_channel = configuration . dexed [ selected_instance_id ] . midi_channel ;
# ifdef DEBUG
Serial . print ( F ( " MIDI learned lowest note: " ) ) ;
Serial . print ( note ) ;
Serial . print ( F ( " for instance: " ) ) ;
Serial . print ( selected_instance_id ) ;
Serial . print ( F ( " , ghosting MIDI channel " ) ) ;
Serial . println ( ret_channel ) ;
# endif
} else if ( LCDML . FUNC_getID ( ) = = LCDML . OTHER_getIDFromFunction ( UI_func_highest_note ) ) {
if ( note < configuration . dexed [ selected_instance_id ] . lowest_note )
configuration . dexed [ selected_instance_id ] . highest_note = configuration . dexed [ selected_instance_id ] . lowest_note ;
else
configuration . dexed [ selected_instance_id ] . highest_note = note ;
ret_channel = configuration . dexed [ selected_instance_id ] . midi_channel ;
# ifdef DEBUG
Serial . print ( F ( " MIDI learned highest note: " ) ) ;
Serial . print ( note ) ;
Serial . print ( F ( " for instance: " ) ) ;
Serial . print ( selected_instance_id ) ;
Serial . print ( F ( " , ghosting MIDI channel " ) ) ;
Serial . println ( ret_channel ) ;
# endif
}
LCDML . OTHER_updateFunc ( ) ;
}
return ( ret_channel ) ;
}
float midi_volume_transform ( uint8_t midi_amp ) {
# ifdef DEBUG
Serial . print ( F ( " midi_amp= " ) ) ;
Serial . print ( midi_amp , DEC ) ;
Serial . print ( F ( " transformed_midi_amp= " ) ) ;
Serial . println ( powf ( midi_amp / 127.0 , 4 ) , 3 ) ;
# endif
return powf ( midi_amp / 127.0 , 4 ) ;
}
float volume_transform ( float amp ) {
return powf ( amp , 4 ) ;
}
uint32_t crc32 ( byte * calc_start , uint16_t calc_bytes ) // base code from https://www.arduino.cc/en/Tutorial/EEPROMCrc
{
const uint32_t crc_table [ 16 ] = {
0x00000000 , 0x1db71064 , 0x3b6e20c8 , 0x26d930ac ,
0x76dc4190 , 0x6b6b51f4 , 0x4db26158 , 0x5005713c ,
0xedb88320 , 0xf00f9344 , 0xd6d6a3e8 , 0xcb61b38c ,
0x9b64c2b0 , 0x86d3d2d4 , 0xa00ae278 , 0xbdbdf21c
} ;
uint32_t crc = ~ 0L ;
for ( byte * index = calc_start ; index < ( calc_start + calc_bytes ) ; + + index ) {
crc = crc_table [ ( crc ^ * index ) & 0x0f ] ^ ( crc > > 4 ) ;
crc = crc_table [ ( crc ^ ( * index > > 4 ) ) & 0x0f ] ^ ( crc > > 4 ) ;
crc = ~ crc ;
}
return ( crc ) ;
}
void generate_version_string ( char * buffer , uint8_t len ) {
char tmp [ 3 ] ;
memset ( buffer , 0 , len ) ;
strncat ( buffer , VERSION , len ) ;
# if defined(ARDUINO_TEENSY36)
strncat ( buffer , " -3.6 " , 4 ) ;
# elif defined(ARDUINO_TEENSY40)
strncat ( buffer , " -4.0 " , 4 ) ;
# elif defined(ARDUINO_TEENSY41)
strncat ( buffer , " -4.1 " , 4 ) ;
# endif
# if defined(USE_FX)
strncat ( buffer , " FX " , 2 ) ;
# endif
# if defined(MAX_NOTES)
strncat ( buffer , " - " , 1 ) ;
itoa ( MAX_NOTES , tmp , 10 ) ;
strncat ( buffer , tmp , 2 ) ;
# endif
}
FLASHMEM uint8_t check_sd_cards ( void ) {
uint8_t ret = 0 ;
memset ( sd_string , 0 , sizeof ( sd_string ) ) ;
for ( uint8_t i = 0 ; i < sizeof ( cs_pins ) ; i + + ) {
# ifdef DEBUG
Serial . print ( F ( " Checking CS pin " ) ) ;
Serial . print ( cs_pins [ i ] , DEC ) ;
Serial . println ( F ( " for SD card " ) ) ;
# endif
SPI . setMOSI ( mosi_pins [ i ] ) ;
SPI . setSCK ( sck_pins [ i ] ) ;
if ( SD . begin ( cs_pins [ i ] ) = = true ) {
# ifdef DEBUG
Serial . print ( F ( " Found. Using pin " ) ) ;
Serial . println ( cs_pins [ i ] , DEC ) ;
# endif
ret = cs_pins [ i ] ;
break ;
}
}
if ( ret > = 0 ) {
if ( ! card . init ( SPI_HALF_SPEED , ret ) ) {
# ifdef DEBUG
Serial . println ( F ( " SD card initialization failed. " ) ) ;
# endif
ret = - 1 ;
}
}
if ( ret > = 0 ) {
# ifdef DEBUG
Serial . print ( F ( " Card type: " ) ) ;
# endif
switch ( card . type ( ) ) {
case SD_CARD_TYPE_SD1 :
snprintf_P ( sd_string , sizeof ( sd_string ) , PSTR ( " %-5s " ) , PSTR ( " SD1 " ) ) ;
# ifdef DEBUG
Serial . println ( F ( " SD1 " ) ) ;
# endif
break ;
case SD_CARD_TYPE_SD2 :
snprintf_P ( sd_string , sizeof ( sd_string ) , PSTR ( " %-5s " ) , PSTR ( " SD2 " ) ) ;
# ifdef DEBUG
Serial . println ( F ( " SD2 " ) ) ;
# endif
break ;
case SD_CARD_TYPE_SDHC :
snprintf_P ( sd_string , sizeof ( sd_string ) , PSTR ( " %-5s " ) , PSTR ( " SD2 " ) ) ;
# ifdef DEBUG
Serial . println ( F ( " SDHC " ) ) ;
# endif
break ;
default :
snprintf_P ( sd_string , sizeof ( sd_string ) , PSTR ( " %-5s " ) , PSTR ( " UKNW " ) ) ;
# ifdef DEBUG
Serial . println ( F ( " Unknown " ) ) ;
# endif
}
if ( ! volume . init ( card ) ) {
# ifdef DEBUG
Serial . println ( F ( " Could not find FAT16/FAT32 partition. " ) ) ;
# endif
ret = - 1 ;
}
}
if ( ret > = 0 ) {
uint32_t volumesize ;
volumesize = volume . blocksPerCluster ( ) * volume . clusterCount ( ) / 2097152 ;
if ( volumesize = = 0 )
ret = - 1 ;
# ifdef DEBUG
Serial . print ( F ( " Volume type is FAT " ) ) ;
Serial . println ( volume . fatType ( ) , DEC ) ;
Serial . print ( F ( " Volume size (GB): " ) ) ;
Serial . println ( volumesize ) ;
# endif
snprintf_P ( sd_string + 5 , sizeof ( sd_string ) , PSTR ( " FAT%2d %02dGB " ) , volume . fatType ( ) , int ( volumesize ) ) ;
}
# ifdef DEBUG
Serial . println ( sd_string ) ;
# endif
return ( ret ) ;
}
FLASHMEM void check_and_create_directories ( void ) {
if ( sd_card > 0 ) {
uint8_t i ;
char tmp [ FILENAME_LEN ] ;
# ifdef DEBUG
Serial . println ( F ( " Directory check... " ) ) ;
# endif
// create directories for banks
for ( i = 0 ; i < MAX_BANKS ; i + + ) {
snprintf_P ( tmp , sizeof ( tmp ) , PSTR ( " /%d " ) , i ) ;
if ( ! SD . exists ( tmp ) ) {
# ifdef DEBUG
Serial . print ( F ( " Creating directory " ) ) ;
Serial . println ( tmp ) ;
# endif
SD . mkdir ( tmp ) ;
}
}
snprintf_P ( tmp , sizeof ( tmp ) , PSTR ( " /%s " ) , PERFORMANCE_CONFIG_PATH ) ;
if ( ! SD . exists ( tmp ) ) {
# ifdef DEBUG
Serial . print ( F ( " Creating directory " ) ) ;
Serial . println ( tmp ) ;
# endif
SD . mkdir ( tmp ) ;
}
/*
// create directories for configuration files
snprintf_P ( tmp , sizeof ( tmp ) , PSTR ( " /%s " ) , VOICE_CONFIG_PATH ) ;
if ( ! SD . exists ( tmp ) )
{
# ifdef DEBUG
Serial . print ( F ( " Creating directory " ) ) ;
Serial . println ( tmp ) ;
# endif
SD . mkdir ( tmp ) ;
}
snprintf_P ( tmp , sizeof ( tmp ) , PSTR ( " /%s " ) , PERFORMANCE_CONFIG_PATH ) ;
if ( ! SD . exists ( tmp ) )
{
# ifdef DEBUG
Serial . print ( F ( " Creating directory " ) ) ;
Serial . println ( tmp ) ;
# endif
SD . mkdir ( tmp ) ;
}
snprintf_P ( tmp , sizeof ( tmp ) , PSTR ( " /%s " ) , FX_CONFIG_PATH ) ;
if ( ! SD . exists ( tmp ) )
{
# ifdef DEBUG
Serial . print ( F ( " Creating directory " ) ) ;
Serial . println ( tmp ) ;
# endif
SD . mkdir ( tmp ) ;
}
snprintf_P ( tmp , sizeof ( tmp ) , PSTR ( " /%s " ) , DRUM_CONFIG_PATH ) ;
if ( ! SD . exists ( tmp ) )
{
# ifdef DEBUG
Serial . print ( F ( " Creating directory " ) ) ;
Serial . println ( tmp ) ;
# endif
SD . mkdir ( tmp ) ;
}
snprintf_P ( tmp , sizeof ( tmp ) , PSTR ( " /%s " ) , FAV_CONFIG_PATH ) ;
if ( ! SD . exists ( tmp ) )
{
# ifdef DEBUG
Serial . print ( F ( " Creating directory " ) ) ;
Serial . println ( tmp ) ;
# endif
SD . mkdir ( tmp ) ;
}
*/
snprintf_P ( tmp , sizeof ( tmp ) , PSTR ( " /%s " ) , PERFORMANCE_CONFIG_PATH ) ;
if ( ! SD . exists ( tmp ) ) {
# ifdef DEBUG
Serial . print ( F ( " Creating directory " ) ) ;
Serial . println ( tmp ) ;
# endif
SD . mkdir ( tmp ) ;
}
//check if updated Fav-System is ready or if setup has to run once.
snprintf_P ( tmp , sizeof ( tmp ) , PSTR ( " /%s/fav-v2 " ) , FAV_CONFIG_PATH ) ;
if ( ! SD . exists ( tmp ) ) {
// Clear now obsolte marker files from Favs.
// Only needs to run once.
for ( uint8_t i = 0 ; i < MAX_BANKS ; i + + ) {
snprintf_P ( tmp , sizeof ( tmp ) , PSTR ( " /%s/%d/hasfav " ) , FAV_CONFIG_PATH , i ) ;
# ifdef DEBUG
Serial . print ( F ( " Delete Marker File " ) ) ;
Serial . println ( tmp ) ;
# endif
if ( SD . exists ( tmp ) )
SD . remove ( tmp ) ;
}
// Remove empty Folders. rmdir will only remove strictly emtpy folders, which is the desired result.
// Only needs to run once.
for ( uint8_t i = 0 ; i < MAX_BANKS ; i + + ) {
snprintf_P ( tmp , sizeof ( tmp ) , PSTR ( " /%s/%d " ) , FAV_CONFIG_PATH , i ) ;
# ifdef DEBUG
Serial . print ( F ( " Delete empty folder " ) ) ;
Serial . println ( tmp ) ;
# endif
if ( SD . exists ( tmp ) )
SD . rmdir ( tmp ) ;
}
snprintf_P ( tmp , sizeof ( tmp ) , PSTR ( " /%s/fav-v2 " ) , FAV_CONFIG_PATH ) ;
if ( ! SD . exists ( tmp ) )
SD . mkdir ( tmp ) ; // Set Marker so that the Cleanup loops only run once.
}
/* #ifdef DEBUG
else
Serial . println ( F ( " No SD card for directory check available. " ) ) ;
# endif * /
}
}
/******************************************************************************
DEBUG HELPER
* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */
# if defined(DEBUG) && defined(SHOW_CPU_LOAD_MSEC)
void show_cpu_and_mem_usage ( void ) {
uint32_t sum_xrun = 0 ;
uint16_t sum_render_time_max = 0 ;
for ( uint8_t instance_id = 0 ; instance_id < NUM_DEXED ; instance_id + + ) {
sum_xrun + = MicroDexed [ instance_id ] - > getXRun ( ) ;
sum_render_time_max + = MicroDexed [ instance_id ] - > getRenderTimeMax ( ) ;
MicroDexed [ instance_id ] - > resetRenderTimeMax ( ) ;
}
if ( AudioProcessorUsageMax ( ) > 99.9 ) {
cpumax + + ;
# ifdef DEBUG
Serial . print ( F ( " * " ) ) ;
# endif
}
# ifdef DEBUG
else
Serial . print ( F ( " " ) ) ;
Serial . print ( F ( " CPU: " ) ) ;
Serial . print ( AudioProcessorUsage ( ) , 2 ) ;
Serial . print ( F ( " %|CPUMAX: " ) ) ;
Serial . print ( AudioProcessorUsageMax ( ) , 2 ) ;
Serial . print ( F ( " %|CPUMAXCNT: " ) ) ;
Serial . print ( cpumax , DEC ) ;
# if defined(ARDUINO_TEENSY40) || defined(ARDUINO_TEENSY41)
Serial . print ( F ( " |CPUTEMP: " ) ) ;
Serial . print ( tempmonGetTemp ( ) , 2 ) ;
Serial . print ( F ( " C|MEM: " ) ) ;
# else
Serial . print ( F ( " |MEM: " ) ) ;
# endif
Serial . print ( AudioMemoryUsage ( ) , DEC ) ;
Serial . print ( F ( " |MEMMAX: " ) ) ;
Serial . print ( AudioMemoryUsageMax ( ) , DEC ) ;
Serial . print ( F ( " |AUDIO_MEM_MAX: " ) ) ;
Serial . print ( AUDIO_MEM , DEC ) ;
Serial . print ( F ( " |RENDERTIMEMAX: " ) ) ;
Serial . print ( sum_render_time_max , DEC ) ;
Serial . print ( F ( " |XRUN: " ) ) ;
Serial . print ( sum_xrun , DEC ) ;
Serial . print ( F ( " |PEAKR: " ) ) ;
Serial . print ( peak_r , DEC ) ;
Serial . print ( F ( " |PEAKL: " ) ) ;
Serial . print ( peak_l , DEC ) ;
Serial . print ( F ( " |PEAKMD: " ) ) ;
Serial . print ( peak_dexed , DEC ) ;
Serial . print ( F ( " |ACTPEAKMD: " ) ) ;
Serial . print ( peak_dexed_value , 1 ) ;
Serial . print ( F ( " |BLOCKSIZE: " ) ) ;
Serial . print ( AUDIO_BLOCK_SAMPLES , DEC ) ;
Serial . print ( F ( " |RAM: " ) ) ;
Serial . print ( FreeMem ( ) , DEC ) ;
Serial . print ( F ( " |ACTVOICES: " ) ) ;
for ( uint8_t instance_id = 0 ; instance_id < NUM_DEXED ; instance_id + + ) {
Serial . print ( instance_id , DEC ) ;
Serial . print ( F ( " = " ) ) ;
Serial . print ( active_voices [ instance_id ] , DEC ) ;
Serial . print ( F ( " / " ) ) ;
Serial . print ( MAX_NOTES / NUM_DEXED , DEC ) ;
if ( instance_id ! = NUM_DEXED - 1 )
Serial . print ( F ( " , " ) ) ;
}
Serial . println ( ) ;
# endif
AudioProcessorUsageMaxReset ( ) ;
AudioMemoryUsageMaxReset ( ) ;
}
# endif
# ifdef DEBUG
void show_configuration ( void ) {
Serial . println ( ) ;
Serial . println ( F ( " CONFIGURATION: " ) ) ;
Serial . println ( F ( " System " ) ) ;
Serial . print ( F ( " Volume " ) ) ;
Serial . println ( configuration . sys . vol , DEC ) ;
Serial . print ( F ( " Mono " ) ) ;
Serial . println ( configuration . sys . mono , DEC ) ;
Serial . print ( F ( " Soft MIDI Thru " ) ) ;
Serial . println ( configuration . sys . soft_midi_thru , DEC ) ;
Serial . print ( F ( " Favorites " ) ) ;
Serial . println ( configuration . sys . favorites , DEC ) ;
Serial . print ( F ( " Performance Number " ) ) ;
Serial . println ( configuration . sys . performance_number , DEC ) ;
Serial . print ( F ( " Load at startup " ) ) ;
Serial . println ( configuration . sys . load_at_startup , DEC ) ;
Serial . println ( F ( " FX " ) ) ;
Serial . print ( F ( " Reverb Roomsize " ) ) ;
Serial . println ( configuration . fx . reverb_roomsize , DEC ) ;
Serial . print ( F ( " Reverb Level " ) ) ;
Serial . println ( configuration . fx . reverb_level , DEC ) ;
# ifdef USE_PLATEREVERB
Serial . print ( F ( " Reverb Lowpass " ) ) ;
Serial . println ( configuration . fx . reverb_lowpass , DEC ) ;
Serial . print ( F ( " Reverb Lodamp " ) ) ;
Serial . println ( configuration . fx . reverb_lodamp , DEC ) ;
Serial . print ( F ( " Reverb Hidamp " ) ) ;
Serial . println ( configuration . fx . reverb_hidamp , DEC ) ;
Serial . print ( F ( " Reverb Diffusion " ) ) ;
Serial . println ( configuration . fx . reverb_diffusion , DEC ) ;
# else
Serial . print ( F ( " Reverb Damping " ) ) ;
Serial . println ( configuration . fx . reverb_damping , DEC ) ;
# endif
for ( uint8_t instance_id = 0 ; instance_id < NUM_DEXED ; instance_id + + ) {
Serial . print ( F ( " Dexed instance " ) ) ;
Serial . println ( instance_id , DEC ) ;
Serial . print ( F ( " Bank " ) ) ;
Serial . println ( configuration . dexed [ instance_id ] . bank , DEC ) ;
Serial . print ( F ( " Voice " ) ) ;
Serial . println ( configuration . dexed [ instance_id ] . voice , DEC ) ;
Serial . print ( F ( " MIDI-Channel " ) ) ;
Serial . println ( configuration . dexed [ instance_id ] . midi_channel , DEC ) ;
Serial . print ( F ( " Lowest Note " ) ) ;
Serial . println ( configuration . dexed [ instance_id ] . lowest_note , DEC ) ;
Serial . print ( F ( " Highest Note " ) ) ;
Serial . println ( configuration . dexed [ instance_id ] . highest_note , DEC ) ;
Serial . print ( F ( " Filter Cutoff " ) ) ;
Serial . println ( configuration . fx . filter_cutoff [ instance_id ] , DEC ) ;
Serial . print ( F ( " Filter Resonance " ) ) ;
Serial . println ( configuration . fx . filter_resonance [ instance_id ] , DEC ) ;
Serial . print ( F ( " Chorus Frequency " ) ) ;
Serial . println ( configuration . fx . chorus_frequency [ instance_id ] , DEC ) ;
Serial . print ( F ( " Chorus Waveform " ) ) ;
Serial . println ( configuration . fx . chorus_waveform [ instance_id ] , DEC ) ;
Serial . print ( F ( " Chorus Depth " ) ) ;
Serial . println ( configuration . fx . chorus_depth [ instance_id ] , DEC ) ;
Serial . print ( F ( " Chorus Level " ) ) ;
Serial . println ( configuration . fx . chorus_level [ instance_id ] , DEC ) ;
Serial . print ( F ( " Delay Time " ) ) ;
Serial . println ( configuration . fx . delay_time [ instance_id ] , DEC ) ;
Serial . print ( F ( " Delay Feedback " ) ) ;
Serial . println ( configuration . fx . delay_feedback [ instance_id ] , DEC ) ;
Serial . print ( F ( " Delay Level " ) ) ;
Serial . println ( configuration . fx . delay_level [ instance_id ] , DEC ) ;
Serial . print ( F ( " Delay Sync " ) ) ;
Serial . println ( configuration . fx . delay_sync [ instance_id ] , DEC ) ;
Serial . print ( F ( " Reverb Send " ) ) ;
Serial . println ( configuration . fx . reverb_send [ instance_id ] , DEC ) ;
Serial . print ( F ( " Sound Intensity " ) ) ;
Serial . println ( configuration . dexed [ instance_id ] . sound_intensity , DEC ) ;
Serial . print ( F ( " Panorama " ) ) ;
Serial . println ( configuration . dexed [ instance_id ] . pan , DEC ) ;
Serial . print ( F ( " Transpose " ) ) ;
Serial . println ( configuration . dexed [ instance_id ] . transpose , DEC ) ;
Serial . print ( F ( " Tune " ) ) ;
Serial . println ( configuration . dexed [ instance_id ] . tune , DEC ) ;
Serial . print ( F ( " Polyphony " ) ) ;
Serial . println ( configuration . dexed [ instance_id ] . polyphony , DEC ) ;
Serial . print ( F ( " Mono/Poly " ) ) ;
Serial . println ( configuration . dexed [ instance_id ] . monopoly , DEC ) ;
Serial . print ( F ( " Note Refresh " ) ) ;
Serial . println ( configuration . dexed [ instance_id ] . note_refresh , DEC ) ;
Serial . print ( F ( " Pitchbend Range " ) ) ;
Serial . println ( configuration . dexed [ instance_id ] . pb_range , DEC ) ;
Serial . print ( F ( " Pitchbend Step " ) ) ;
Serial . println ( configuration . dexed [ instance_id ] . pb_step , DEC ) ;
Serial . print ( F ( " Modwheel Range " ) ) ;
Serial . println ( configuration . dexed [ instance_id ] . mw_range , DEC ) ;
Serial . print ( F ( " Modwheel Assign " ) ) ;
Serial . println ( configuration . dexed [ instance_id ] . mw_assign , DEC ) ;
Serial . print ( F ( " Modwheel Mode " ) ) ;
Serial . println ( configuration . dexed [ instance_id ] . mw_mode , DEC ) ;
Serial . print ( F ( " Footctrl Range " ) ) ;
Serial . println ( configuration . dexed [ instance_id ] . fc_range , DEC ) ;
Serial . print ( F ( " Footctrl Assign " ) ) ;
Serial . println ( configuration . dexed [ instance_id ] . fc_assign , DEC ) ;
Serial . print ( F ( " Footctrl Mode " ) ) ;
Serial . println ( configuration . dexed [ instance_id ] . fc_mode , DEC ) ;
Serial . print ( F ( " BreathCtrl Range " ) ) ;
Serial . println ( configuration . dexed [ instance_id ] . bc_range , DEC ) ;
Serial . print ( F ( " Breathctrl Assign " ) ) ;
Serial . println ( configuration . dexed [ instance_id ] . bc_assign , DEC ) ;
Serial . print ( F ( " Breathctrl Mode " ) ) ;
Serial . println ( configuration . dexed [ instance_id ] . bc_mode , DEC ) ;
Serial . print ( F ( " Aftertouch Range " ) ) ;
Serial . println ( configuration . dexed [ instance_id ] . at_range , DEC ) ;
Serial . print ( F ( " Aftertouch Assign " ) ) ;
Serial . println ( configuration . dexed [ instance_id ] . at_assign , DEC ) ;
Serial . print ( F ( " Aftertouch Mode " ) ) ;
Serial . println ( configuration . dexed [ instance_id ] . at_mode , DEC ) ;
Serial . print ( F ( " Portamento Mode " ) ) ;
Serial . println ( configuration . dexed [ instance_id ] . portamento_mode , DEC ) ;
Serial . print ( F ( " Portamento Glissando " ) ) ;
Serial . println ( configuration . dexed [ instance_id ] . portamento_glissando , DEC ) ;
Serial . print ( F ( " Portamento Time " ) ) ;
Serial . println ( configuration . dexed [ instance_id ] . portamento_time , DEC ) ;
Serial . print ( F ( " OP Enabled " ) ) ;
Serial . println ( configuration . dexed [ instance_id ] . op_enabled , DEC ) ;
Serial . flush ( ) ;
}
Serial . println ( ) ;
Serial . flush ( ) ;
}
void show_patch ( uint8_t instance_id ) {
char vn [ VOICE_NAME_LEN ] ;
Serial . print ( F ( " INSTANCE " ) ) ;
Serial . println ( instance_id , DEC ) ;
memset ( vn , 0 , sizeof ( vn ) ) ;
Serial . println ( F ( " +==========================================================================================================+ " ) ) ;
for ( int8_t i = 5 ; i > = 0 ; - - i ) {
Serial . println ( F ( " +==========================================================================================================+ " ) ) ;
Serial . print ( F ( " | OP " ) ) ;
Serial . print ( 6 - i , DEC ) ;
Serial . println ( F ( " | " ) ) ;
Serial . println ( F ( " +======+======+======+======+======+======+======+======+================+================+================+ " ) ) ;
Serial . println ( F ( " | R1 | R2 | R3 | R4 | L1 | L2 | L3 | L4 | LEV_SCL_BRK_PT | SCL_LEFT_DEPTH | SCL_RGHT_DEPTH | " ) ) ;
Serial . println ( F ( " +------+------+------+------+------+------+------+------+----------------+----------------+----------------+ " ) ) ;
Serial . print ( F ( " | " ) ) ;
SerialPrintFormatInt3 ( MicroDexed [ instance_id ] - > getVoiceDataElement ( ( i * 21 ) + DEXED_OP_EG_R1 ) ) ;
Serial . print ( F ( " | " ) ) ;
SerialPrintFormatInt3 ( MicroDexed [ instance_id ] - > getVoiceDataElement ( ( i * 21 ) + DEXED_OP_EG_R2 ) ) ;
Serial . print ( F ( " | " ) ) ;
SerialPrintFormatInt3 ( MicroDexed [ instance_id ] - > getVoiceDataElement ( ( i * 21 ) + DEXED_OP_EG_R3 ) ) ;
Serial . print ( F ( " | " ) ) ;
SerialPrintFormatInt3 ( MicroDexed [ instance_id ] - > getVoiceDataElement ( ( i * 21 ) + DEXED_OP_EG_R4 ) ) ;
Serial . print ( F ( " | " ) ) ;
SerialPrintFormatInt3 ( MicroDexed [ instance_id ] - > getVoiceDataElement ( ( i * 21 ) + DEXED_OP_EG_L1 ) ) ;
Serial . print ( F ( " | " ) ) ;
SerialPrintFormatInt3 ( MicroDexed [ instance_id ] - > getVoiceDataElement ( ( i * 21 ) + DEXED_OP_EG_L2 ) ) ;
Serial . print ( F ( " | " ) ) ;
SerialPrintFormatInt3 ( MicroDexed [ instance_id ] - > getVoiceDataElement ( ( i * 21 ) + DEXED_OP_EG_L3 ) ) ;
Serial . print ( F ( " | " ) ) ;
SerialPrintFormatInt3 ( MicroDexed [ instance_id ] - > getVoiceDataElement ( ( i * 21 ) + DEXED_OP_EG_L4 ) ) ;
Serial . print ( F ( " | " ) ) ;
SerialPrintFormatInt3 ( MicroDexed [ instance_id ] - > getVoiceDataElement ( ( i * 21 ) + DEXED_OP_LEV_SCL_BRK_PT ) ) ;
Serial . print ( F ( " | " ) ) ;
SerialPrintFormatInt3 ( MicroDexed [ instance_id ] - > getVoiceDataElement ( ( i * 21 ) + DEXED_OP_SCL_LEFT_DEPTH ) ) ;
Serial . print ( F ( " | " ) ) ;
SerialPrintFormatInt3 ( MicroDexed [ instance_id ] - > getVoiceDataElement ( ( i * 21 ) + DEXED_OP_SCL_RGHT_DEPTH ) ) ;
Serial . println ( F ( " | " ) ) ;
Serial . println ( F ( " +======+======+======+======+======+===+==+==+===+======+====+========+==+====+=======+===+================+ " ) ) ;
Serial . println ( F ( " | SCL_L_CURVE | SCL_R_CURVE | RT_SCALE | AMS | KVS | OUT_LEV | OP_MOD | FRQ_C | FRQ_F | DETUNE | " ) ) ;
Serial . println ( F ( " +-------------+-------------+----------+-----+-----+---------+--------+-------+-------+--------------------+ " ) ) ;
Serial . print ( F ( " | " ) ) ;
SerialPrintFormatInt3 ( MicroDexed [ instance_id ] - > getVoiceDataElement ( ( i * 21 ) + DEXED_OP_SCL_LEFT_CURVE ) ) ;
Serial . print ( F ( " | " ) ) ;
SerialPrintFormatInt3 ( MicroDexed [ instance_id ] - > getVoiceDataElement ( ( i * 21 ) + DEXED_OP_SCL_RGHT_CURVE ) ) ;
Serial . print ( F ( " | " ) ) ;
SerialPrintFormatInt3 ( MicroDexed [ instance_id ] - > getVoiceDataElement ( ( i * 21 ) + DEXED_OP_OSC_RATE_SCALE ) ) ;
Serial . print ( F ( " | " ) ) ;
SerialPrintFormatInt3 ( MicroDexed [ instance_id ] - > getVoiceDataElement ( ( i * 21 ) + DEXED_OP_AMP_MOD_SENS ) ) ;
Serial . print ( F ( " | " ) ) ;
SerialPrintFormatInt3 ( MicroDexed [ instance_id ] - > getVoiceDataElement ( ( i * 21 ) + DEXED_OP_KEY_VEL_SENS ) ) ;
Serial . print ( F ( " | " ) ) ;
SerialPrintFormatInt3 ( MicroDexed [ instance_id ] - > getVoiceDataElement ( ( i * 21 ) + DEXED_OP_OUTPUT_LEV ) ) ;
Serial . print ( F ( " | " ) ) ;
SerialPrintFormatInt3 ( MicroDexed [ instance_id ] - > getVoiceDataElement ( ( i * 21 ) + DEXED_OP_OSC_MODE ) ) ;
Serial . print ( F ( " | " ) ) ;
SerialPrintFormatInt3 ( MicroDexed [ instance_id ] - > getVoiceDataElement ( ( i * 21 ) + DEXED_OP_FREQ_COARSE ) ) ;
Serial . print ( F ( " | " ) ) ;
SerialPrintFormatInt3 ( MicroDexed [ instance_id ] - > getVoiceDataElement ( ( i * 21 ) + DEXED_OP_FREQ_FINE ) ) ;
Serial . print ( F ( " | " ) ) ;
SerialPrintFormatInt3 ( MicroDexed [ instance_id ] - > getVoiceDataElement ( ( i * 21 ) + DEXED_OP_OSC_DETUNE ) ) ;
Serial . println ( F ( " | " ) ) ;
}
Serial . println ( F ( " +=======+=====+=+=======+===+===+======++====+==+==+====+====+==+======+======+=====+=+====================+ " ) ) ;
Serial . println ( F ( " | PR1 | PR2 | PR3 | PR4 | PL1 | PL2 | PL3 | PL4 | ALG | FB | OKS | TRANSPOSE | " ) ) ;
Serial . println ( F ( " +-------+-------+-------+-------+-------+-------+-------+-------+------+------+-----+----------------------+ " ) ) ;
Serial . print ( F ( " | " ) ) ;
for ( int8_t i = 0 ; i < 8 ; i + + ) {
SerialPrintFormatInt3 ( MicroDexed [ instance_id ] - > getVoiceDataElement ( DEXED_VOICE_OFFSET + i ) ) ;
Serial . print ( F ( " | " ) ) ;
}
SerialPrintFormatInt3 ( MicroDexed [ instance_id ] - > getVoiceDataElement ( DEXED_VOICE_OFFSET + DEXED_ALGORITHM ) ) ;
Serial . print ( F ( " | " ) ) ;
SerialPrintFormatInt3 ( MicroDexed [ instance_id ] - > getVoiceDataElement ( DEXED_VOICE_OFFSET + DEXED_FEEDBACK ) ) ;
Serial . print ( F ( " | " ) ) ;
SerialPrintFormatInt3 ( MicroDexed [ instance_id ] - > getVoiceDataElement ( DEXED_VOICE_OFFSET + DEXED_OSC_KEY_SYNC ) ) ;
Serial . print ( F ( " | " ) ) ;
SerialPrintFormatInt3 ( MicroDexed [ instance_id ] - > getVoiceDataElement ( DEXED_VOICE_OFFSET + DEXED_TRANSPOSE ) ) ;
Serial . println ( F ( " | " ) ) ;
Serial . println ( F ( " +=======+=+=====+===+===+=====+=+=======+=======+==+====+=====+=+======++=====+=====+======================+ " ) ) ;
Serial . println ( F ( " | LFO SPD | LFO DLY | LFO PMD | LFO AMD | LFO SYNC | LFO WAVE | LFO PMS | NAME | " ) ) ;
Serial . println ( F ( " +---------+---------+---------+---------+----------+----------+---------+----------------------------------+ " ) ) ;
Serial . print ( F ( " | " ) ) ;
SerialPrintFormatInt3 ( MicroDexed [ instance_id ] - > getVoiceDataElement ( DEXED_VOICE_OFFSET + DEXED_LFO_SPEED ) ) ;
Serial . print ( F ( " | " ) ) ;
SerialPrintFormatInt3 ( MicroDexed [ instance_id ] - > getVoiceDataElement ( DEXED_VOICE_OFFSET + DEXED_LFO_DELAY ) ) ;
Serial . print ( F ( " | " ) ) ;
SerialPrintFormatInt3 ( MicroDexed [ instance_id ] - > getVoiceDataElement ( DEXED_VOICE_OFFSET + DEXED_LFO_PITCH_MOD_DEP ) ) ;
Serial . print ( F ( " | " ) ) ;
SerialPrintFormatInt3 ( MicroDexed [ instance_id ] - > getVoiceDataElement ( DEXED_VOICE_OFFSET + DEXED_LFO_AMP_MOD_DEP ) ) ;
Serial . print ( F ( " | " ) ) ;
SerialPrintFormatInt3 ( MicroDexed [ instance_id ] - > getVoiceDataElement ( DEXED_VOICE_OFFSET + DEXED_LFO_SYNC ) ) ;
Serial . print ( F ( " | " ) ) ;
SerialPrintFormatInt3 ( MicroDexed [ instance_id ] - > getVoiceDataElement ( DEXED_VOICE_OFFSET + DEXED_LFO_WAVE ) ) ;
Serial . print ( F ( " | " ) ) ;
SerialPrintFormatInt3 ( MicroDexed [ instance_id ] - > getVoiceDataElement ( DEXED_VOICE_OFFSET + DEXED_LFO_PITCH_MOD_SENS ) ) ;
Serial . print ( F ( " | " ) ) ;
MicroDexed [ instance_id ] - > getName ( vn ) ;
Serial . print ( vn ) ;
Serial . println ( F ( " | " ) ) ;
Serial . println ( F ( " +=========+=========+=========+=========+==========+==========+=========+==================================+ " ) ) ;
Serial . println ( F ( " +==========================================================================================================+ " ) ) ;
}
void SerialPrintFormatInt3 ( uint8_t num ) {
char buf [ 4 ] ;
memset ( buf , 0 , 4 ) ;
snprintf_P ( buf , sizeof ( buf ) , PSTR ( " %3d " ) , num ) ;
Serial . print ( buf ) ;
}
# if defined(ARDUINO_TEENSY36)
/* From: https://forum.pjrc.com/threads/33443-How-to-display-free-ram */
extern " C " char * sbrk ( int incr ) ;
uint32_t FreeMem ( void ) {
char top ;
return & top - reinterpret_cast < char * > ( sbrk ( 0 ) ) ;
}
# else
/* From: https://forum.pjrc.com/threads/33443-How-to-display-free-ram */
extern unsigned long _heap_end ;
extern char * __brkval ;
int FreeMem ( void ) {
return ( char * ) & _heap_end - __brkval ;
}
# endif
# endif