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MicroDexed/sequencer.cpp

111 lines
3.4 KiB

#include "config.h"
#include "sequencer.h"
#include <LCDMenuLib2.h>
#include <LiquidCrystal_I2C.h>
extern LCDMenuLib2 LCDML;
extern LiquidCrystal_I2C lcd;
extern config_t configuration;
extern void handleNoteOn(byte , byte , byte );
extern void handleNoteOff(byte , byte , byte );
extern void UI_func_sequencer(uint8_t);
extern const char* seq_find_shortname(uint8_t);
void sequencer(void)
{
if (seq_note_in > 0 && seq_note_in < 62 && seq_recording == false ) {
// handleNoteOff(configuration.dexed[0].midi_channel, seq_data[3][seq_step] + seq_transpose , 0);
// handleNoteOff(configuration.dexed[0].midi_channel, seq_data[3][seq_step - 1] + seq_transpose , 0);
//if (seq_note_in>65)seq_note_in=seq_note_in-12;
// seq_transpose = seq_note_in % 12 ;
//seq_transpose=seq_transpose-12;
// seq_note_in = 0;
}
if (seq_millis_timer > seq_timer_previous + seq_tempo_ms)
{
seq_timer_previous = seq_millis_timer;
if (LCDML.FUNC_getID() == LCDML.OTHER_getIDFromFunction(UI_func_sequencer)) {
//write to sequencer if in sequencer menu
if (seq_note_in > 0 && seq_recording == true) {
// if ( seq_content_type[ seq_patternchain[seq_chain_active_step][active_track] ] == 1) handleNoteOff(configuration.dexed[0].midi_channel, seq_data[active_track][seq_step] + seq_transpose , 0);
seq_data[seq_active_track][seq_step] = seq_note_in;
seq_vel[seq_active_track][seq_step] = seq_note_in_velocity;
seq_note_in = 0;
seq_note_in_velocity=0;
}
lcd.setCursor(seq_step, 1);
lcd.print("X");
if (seq_step == 0) {
lcd.setCursor(15, 1);
lcd.print(seq_find_shortname(15));
}
else
{
lcd.setCursor(seq_step - 1, 1);
lcd.print(seq_find_shortname(seq_step - 1));
}
}
for (uint8_t d = 0; d < 4; d++)
{
if ( seq_content_type[ seq_patternchain[seq_chain_active_step][d] ] == 0){// drum track
if (seq_data[ seq_patternchain[seq_chain_active_step][d] ][seq_step] > 0 && seq_vel[ seq_patternchain[seq_chain_active_step][d] ][seq_step] > 0)
{
handleNoteOn(DRUM_MIDI_CHANNEL, seq_data[ seq_patternchain[seq_chain_active_step][d] ][seq_step] , seq_vel[ seq_patternchain[seq_chain_active_step][d] ][seq_step]);
}
}
else {
if (seq_data[ seq_patternchain[seq_chain_active_step][d] ][seq_step] > 0 && seq_vel[ seq_patternchain[seq_chain_active_step][d] ][seq_step] > 0) // instrument track
{
handleNoteOn(configuration.dexed[0].midi_channel, seq_data[ seq_patternchain[seq_chain_active_step][d] ][seq_step] + seq_transpose , seq_vel[ seq_patternchain[seq_chain_active_step][d] ][seq_step]);
seq_prev_note[d]=seq_data[ seq_patternchain[seq_chain_active_step][d] ][seq_step] + seq_transpose;
}
}
seq_noteoffsent[d] = false;
}
seq_step++;
if (seq_step > 15) {
seq_step = 0;
if (seq_chain_lenght>0){
seq_chain_active_step++;
if (seq_chain_active_step>seq_chain_lenght)
{
seq_chain_active_step=0;
}
}
}
}
if (seq_millis_timer > seq_timer_previous + 80 )
{
for (uint8_t d = 0; d < 4; d++)
{
if( seq_noteoffsent[d] == false) {
if ( seq_prev_note[d] > 0) //test instrument sequencer Instance=0
{
handleNoteOff(configuration.dexed[0].midi_channel, seq_prev_note[d] , 0);
}
}
seq_noteoffsent[d] = true;
}
}
}