mirror of https://github.com/ArduPilot/ardupilot
260 lines
6.9 KiB
C++
260 lines
6.9 KiB
C++
#include <AP_HAL/AP_HAL.h>
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#if CONFIG_HAL_BOARD == HAL_BOARD_LINUX
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#include "ToneAlarmDriver.h"
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#include <stdio.h>
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#include <sys/types.h>
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#include <sys/stat.h>
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#include <fcntl.h>
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#include <unistd.h>
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#include <stdlib.h>
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#include <iostream>
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using namespace Linux;
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extern const AP_HAL::HAL& hal;
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static uint16_t notes[] = { 0,
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NOTE_C4, NOTE_CS4, NOTE_D4, NOTE_DS4, NOTE_E4, NOTE_F4, NOTE_FS4, NOTE_G4, NOTE_GS4, NOTE_A4, NOTE_AS4, NOTE_B4,
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NOTE_C5, NOTE_CS5, NOTE_D5, NOTE_DS5, NOTE_E5, NOTE_F5, NOTE_FS5, NOTE_G5, NOTE_GS5, NOTE_A5, NOTE_AS5, NOTE_B5,
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NOTE_C6, NOTE_CS6, NOTE_D6, NOTE_DS6, NOTE_E6, NOTE_F6, NOTE_FS6, NOTE_G6, NOTE_GS6, NOTE_A6, NOTE_AS6, NOTE_B6,
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NOTE_C7, NOTE_CS7, NOTE_D7, NOTE_DS7, NOTE_E7, NOTE_F7, NOTE_FS7, NOTE_G7, NOTE_GS7, NOTE_A7, NOTE_AS7, NOTE_B7
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};
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//List of RTTTL tones
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const char* ToneAlarm::tune[TONE_NUMBER_OF_TUNES] = {
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"Startup:d=8,o=6,b=480:a,d7,c7,a,d7,c7,a,d7,16d7,16c7,16d7,16c7,16d7,16c7,16d7,16c7",
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"Error:d=4,o=6,b=400:8a,8a,8a,p,a,a,a,p",
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"notify_pos:d=4,o=6,b=400:8e,8e,a",
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"notify_neut:d=4,o=6,b=400:8e,e",
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"notify_neg:d=4,o=6,b=400:8e,8c,8e,8c,8e,8c",
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"arming_warn:d=1,o=4,b=75:g",
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"batt_war_slow:d=4,o=6,b=200:8a",
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"batt_war_fast:d=4,o=6,b=512:8a,8a,8a,8a,8a,8a,8a,8a,8a,8a,8a,8a,8a,8a,8a,8a,8a",
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"GPS_war:d=4,o=6,b=512:a,a,a,1f#",
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"Arm_fail:d=4,o=4,b=512:b,a,p",
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"para_rel:d=16,o=6,b=512:a,g,a,g,a,g,a,g"};
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//Tune Repeat true: play rtttl tune in loop, false: play only once
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bool ToneAlarm::tune_repeat[TONE_NUMBER_OF_TUNES] = {false,true,false,false,false,false,true,true,false,false,false};
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ToneAlarm::ToneAlarm()
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{
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period_fd = open("/sys/devices/ocp.3/pwm_test_P8_36.12/period",O_WRONLY);
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duty_fd = open("/sys/devices/ocp.3/pwm_test_P8_36.12/duty",O_WRONLY);
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run_fd = open("/sys/devices/ocp.3/pwm_test_P8_36.12/run",O_WRONLY);
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tune_num = -1; //initialy no tune to play
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tune_pos = 0;
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}
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bool ToneAlarm::init()
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{
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tune_num = 0; //play startup tune
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if((period_fd == -1) || (duty_fd == -1) || (run_fd == -1)){
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hal.console->printf("ToneAlarm: Error!! please check if PWM overlays are loaded correctly");
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return false;
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}
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return true;
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}
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void ToneAlarm::set_tune(uint8_t tone)
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{
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tune_num = tone;
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}
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bool ToneAlarm::is_tune_comp()
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{
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return tune_comp;
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}
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void ToneAlarm::stop()
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{
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dprintf(run_fd,"0");
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}
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bool ToneAlarm::play()
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{
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uint16_t cur_time = hal.scheduler->millis();
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if(tune_num != prev_tune_num){
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tune_changed = true;
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return true;
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}
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if(cur_note != 0){
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dprintf(run_fd,"0");
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dprintf(period_fd,"%u",1000000000/cur_note);
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dprintf(duty_fd,"%u",500000000/cur_note);
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dprintf(run_fd,"1");
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cur_note =0;
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prev_time = cur_time;
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}
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if((cur_time - prev_time) > duration){
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stop();
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if(tune[tune_num][tune_pos] == '\0'){
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if(!tune_repeat[tune_num]){
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tune_num = -1;
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}
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tune_pos = 0;
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tune_comp = true;
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return false;
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}
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return true;
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}
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return false;
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}
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bool ToneAlarm::set_note(){
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// first, get note duration, if available
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uint16_t scale,note,num =0;
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duration = 0;
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while(isdigit(tune[tune_num][tune_pos])){ //this is a safe while loop as it can't go further than
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//the length of the rtttl tone string
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num = (num * 10) + (tune[tune_num][tune_pos++] - '0');
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}
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if(num){
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duration = wholenote / num;
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} else{
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duration = wholenote / 4; // we will need to check if we are a dotted note after
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}
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// now get the note
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note = 0;
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switch(tune[tune_num][tune_pos]){
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case 'c':
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note = 1;
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break;
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case 'd':
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note = 3;
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break;
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case 'e':
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note = 5;
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break;
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case 'f':
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note = 6;
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break;
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case 'g':
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note = 8;
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break;
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case 'a':
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note = 10;
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break;
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case 'b':
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note = 12;
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break;
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case 'p':
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default:
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note = 0;
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}
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tune_pos++;
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// now, get optional '#' sharp
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if(tune[tune_num][tune_pos] == '#'){
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note++;
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tune_pos++;
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}
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// now, get optional '.' dotted note
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if(tune[tune_num][tune_pos] == '.'){
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duration += duration/2;
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tune_pos++;
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}
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// now, get scale
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if(isdigit(tune[tune_num][tune_pos])){
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scale = tune[tune_num][tune_pos] - '0';
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tune_pos++;
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} else{
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scale = default_oct;
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}
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scale += OCTAVE_OFFSET;
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if(tune[tune_num][tune_pos] == ','){
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tune_pos++; // skip comma for next note (or we may be at the end)
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}
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// now play the note
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if(note){
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if(tune_changed == true){
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tune_pos =0;
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tune_changed = false;
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}
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cur_note = notes[(scale - 4) * 12 + note];
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return true;
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} else{
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cur_note = 0;
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return true;
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}
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}
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bool ToneAlarm::init_tune(){
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uint16_t num;
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default_dur = 4;
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default_oct = 6;
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bpm = 63;
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prev_tune_num = tune_num;
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if(tune_num <0 || tune_num > TONE_NUMBER_OF_TUNES){
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return false;
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}
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tune_comp = false;
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while(tune[tune_num][tune_pos] != ':'){
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if(tune[tune_num][tune_pos] == '\0'){
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return false;
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}
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tune_pos++;
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}
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tune_pos++;
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if(tune[tune_num][tune_pos] == 'd'){
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tune_pos+=2;
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num = 0;
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while(isdigit(tune[tune_num][tune_pos])){
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num = (num * 10) + (tune[tune_num][tune_pos++] - '0');
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}
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if(num > 0){
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default_dur = num;
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}
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tune_pos++; // skip comma
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}
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// get default octave
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if(tune[tune_num][tune_pos] == 'o')
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{
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tune_pos+=2; // skip "o="
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num = tune[tune_num][tune_pos++] - '0';
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if(num >= 3 && num <=7){
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default_oct = num;
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}
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tune_pos++; // skip comma
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}
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// get BPM
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if(tune[tune_num][tune_pos] == 'b'){
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tune_pos+=2; // skip "b="
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num = 0;
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while(isdigit(tune[tune_num][tune_pos])){
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num = (num * 10) + (tune[tune_num][tune_pos++] - '0');
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}
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bpm = num;
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tune_pos++; // skip colon
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}
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// BPM usually expresses the number of quarter notes per minute
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wholenote = (60 * 1000L / bpm) * 4; // this is the time for whole note (in milliseconds)
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return true;
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}
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#endif
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