Re: Mon premier Proton Pack
Publié : 27 avril 2019, 18:20
Bon j'ai fait les modifications nécessaires, mais je n'ai pas testé, dis moi si ça fonctionne. 
Alors sache que la librairie utilisé c'est celle-ci :
https://github.com/DFRobot/DFPlayer-Mini-mp3" target="_blank" target="_blank
Pour les sons, si tu as bien compris, il faut les mettre dans un dossier nommé mp3 qui est dans la microSD. Je t'ai préparé deux trois sons:
https://1drv.ms/u/s!Am3L_puKoAG8gQODunq ... Y?e=B02G1l" target="_blank
Pour le câblage, il faut relier le RX du mp3 au TX de l'arduino avec une résistance de 1k. A brancher une fois le code téléversé, si jamais tu veut retéléverser, débrancher la connectique entre le RX TX.
Alors sache que la librairie utilisé c'est celle-ci :
https://github.com/DFRobot/DFPlayer-Mini-mp3" target="_blank" target="_blank
Pour les sons, si tu as bien compris, il faut les mettre dans un dossier nommé mp3 qui est dans la microSD. Je t'ai préparé deux trois sons:
https://1drv.ms/u/s!Am3L_puKoAG8gQODunq ... Y?e=B02G1l" target="_blank
Pour le câblage, il faut relier le RX du mp3 au TX de l'arduino avec une résistance de 1k. A brancher une fois le code téléversé, si jamais tu veut retéléverser, débrancher la connectique entre le RX TX.
Code : Tout sélectionner
#include <SoftwareSerial.h>
#include <DFPlayer_Mini_Mp3.h>
//Programme kit lumière par ProtonGamer V1.1
//Nombre maximum de musiques
#define MAX_TRACKS 1
//Paramètres
static char animcyclotron=4; //Vous pouvez modifier l'animation du cyclotron [1-2-3-4]
static char ledwanim=2; //Vous pouvez mofifier l'animation de la led blanche(1-2) ou la désactiver(0), qui sera remplacé par les deux autres leds en mode (1)[0-1-2]
static char ledrbanim=3; //Vous pouvez modifier l'animation des leds rouge et bleu(1-2-3) ou la désactiver(0), qui sera remplacé par la led blanche en mode(1)[0-1-2-3]
static char bargraphgunanim=1; //Vous pouvez modifier l'animation du bargraph du wand[1-2-3]
boolean activeov=0; //Ceci vous permet d'activer la surchauffe du proton pack[0-1]
unsigned char overheat=17; //Ceci est le réglage de la surchauffe si elle est activé [1-17]
//fin des paramètres
//Sorties pour le Powercell
const char ledp1=A0, ledp2=A1, ledp3=A2, ledp4=A3, ledp5=A4, ledp6=A5, ledp7=A6, ledp8=A7,
ledp9=A8, ledp10=A9, ledp11=A10, ledp12=A11, ledp13=A12, ledp14=A13, ledp15=A14;
//Sorties pour le bargraphe
const char ledb1=28, ledb2=29, ledb3=30, ledb4=31, ledb5=32, ledb6=33, ledb7=34, ledb8=35,
ledb9=36, ledb10=37, ledb11=38, ledb12=39, ledb13=40, ledb14=41, ledb15=42;
//Sorties pour le cyclotron
const char l1=2, l2=3, l3=4, l4=5;
//Sortie du potentiomètre pour le réglage de la vitesse
const char potar_v=A15;
//Sortie de l'activation des lumières
const char sw1=14;
//Activation du SloBlo
const char sw2=15;
//Activation du tir
const char button1=16;
//Rafraichissement du Proton Pack
const char button2=17;
//Sortie des leds du gun
const char ledr=13, ledb=6, ledw=12;
//Voyant du wand
const char ledblinkl=22, ledblinkf=23, ledsloblo=24, ledact1=25, ledact2=26, ledact3=27;
//Ne pas modifier sauf pour les connaisseurs :)
char ledp=0;
char ledbs=0;
boolean decov=0;
char ledba=0;
int val=0;
boolean s1=0;
int brightness=0;
int brightness2=0;
int brightness3=0;
int brightness4=0;
int brightnessledw=0;
int brightnessledr=0;
int brightnessledb=0;
int overheatSequenceDelay = 0;
char blinkledw=0;
char blinkledr=0;
char blinkledb=0;
char lds=0;
int readov=0;
static char ls=1;
int etatcommand=0;
const char overPin = 2;
const char relaisPin = 3;
byte track = 0;
bool alreadyTrack = 0;
byte boot = 0;
byte fire_state = 0;
void setup() {
Serial.begin (9600);
mp3_set_serial (Serial); //set Serial for DFPlayer-mini mp3 module
mp3_set_volume (15);
brightness4=255;
pinMode(ledp1,OUTPUT);
pinMode(ledp2,OUTPUT);
pinMode(ledp3,OUTPUT);
pinMode(ledp4,OUTPUT);
pinMode(ledp5,OUTPUT);
pinMode(ledp6,OUTPUT);
pinMode(ledp7,OUTPUT);
pinMode(ledp8,OUTPUT);
pinMode(ledp9,OUTPUT);
pinMode(ledp10,OUTPUT);
pinMode(ledp11,OUTPUT);
pinMode(ledp12,OUTPUT);
pinMode(ledp13,OUTPUT);
pinMode(ledp14,OUTPUT);
pinMode(ledp15,OUTPUT);
pinMode(l1,OUTPUT);
pinMode(l2,OUTPUT);
pinMode(l3,OUTPUT);
pinMode(l4,OUTPUT);
pinMode(ledr,OUTPUT);
pinMode(ledb,OUTPUT);
pinMode(ledw,OUTPUT);
pinMode(sw1,INPUT);
pinMode(sw2,INPUT);
pinMode(ledblinkl,OUTPUT);
pinMode(ledblinkf,OUTPUT);
pinMode(ledsloblo,OUTPUT);
pinMode(ledact1,OUTPUT);
pinMode(ledact2,OUTPUT);
pinMode(ledact3,OUTPUT);
pinMode(ledb1,OUTPUT);
pinMode(ledb2,OUTPUT);
pinMode(ledb3,OUTPUT);
pinMode(ledb4,OUTPUT);
pinMode(ledb5,OUTPUT);
pinMode(ledb6,OUTPUT);
pinMode(ledb7,OUTPUT);
pinMode(ledb8,OUTPUT);
pinMode(ledb9,OUTPUT);
pinMode(ledb10,OUTPUT);
pinMode(ledb11,OUTPUT);
pinMode(ledb12,OUTPUT);
pinMode(ledb13,OUTPUT);
pinMode(ledb14,OUTPUT);
pinMode(ledb15,OUTPUT);
pinMode(button2,INPUT);
pinMode(overPin,OUTPUT);
pinMode(relaisPin,OUTPUT);
if(ledrbanim==3){
brightnessledb=250;}
}
void loop() {
if(boot == 0 && digitalRead(button2) == 0 && alreadyTrack == 1){
mp3_play(8+track);//play soundtrack
track++;
if(track >= MAX_TRACKS){
track = 0;
}
alreadyTrack = 0;
}
if(boot == 0 && digitalRead(button2) == 1){
alreadyTrack = 1;
}
if(digitalRead(sw1)==HIGH){
alreadyTrack = 0;
if(boot == 0){
mp3_play(1); //play boot sound
boot = 1;
}
val = analogRead(potar_v);
digitalWrite(ledact1,HIGH);
digitalWrite(ledact2,HIGH);
digitalWrite(ledact3,HIGH);
if(digitalRead(sw2)==LOW){
digitalWrite(ledsloblo,1);}else{
digitalWrite(ledsloblo,0);}
powercell(etatcommand);
if(digitalRead(button1)==HIGH){
if(fire_state == 0){
mp3_play(3); //play fire sound
fire_state = 1;
}
if(s1==0){
ledbs=0;
digitalWrite(ledb1,LOW);
digitalWrite(ledb2,LOW);
digitalWrite(ledb3,LOW);
digitalWrite(ledb4,LOW);
digitalWrite(ledb5,LOW);
digitalWrite(ledb6,LOW);
digitalWrite(ledb7,LOW);
digitalWrite(ledb8,LOW);
digitalWrite(ledb9,LOW);
digitalWrite(ledb10,LOW);
digitalWrite(ledb11,LOW);
digitalWrite(ledb12,LOW);
digitalWrite(ledb13,LOW);
digitalWrite(ledb14,LOW);
digitalWrite(ledb15,LOW);}
if(digitalRead(sw2)==LOW){
if(bargraphgunanim==1){
bargraphgunanim2(etatcommand);}
if(bargraphgunanim==2){
bargraphgunanim3(etatcommand);}
if(bargraphgunanim==3){
bargraphgunanim4(etatcommand);}}
}
if(digitalRead(button2)==HIGH && decov == 0){
mp3_play(7); //play lite cooling
decov=1;}
if(decov==1){
readov-=4;}
if(animcyclotron == 1){
cyclotron1(etatcommand);}
if(animcyclotron == 2){
cyclotron2(etatcommand);}
if(animcyclotron == 3){
cyclotron3(etatcommand);}
if(animcyclotron == 4){
cyclotron4(etatcommand);}
if(digitalRead(button1)==HIGH){
if(activeov==1 && digitalRead(sw2)==HIGH){
bargraphgunov(etatcommand);
if(readov>overheat*15){
(overheat*15)+1;}else{
readov++;}}
if(activeov==0 && digitalRead(sw2)==HIGH){
bargraphgunanim2(etatcommand);
}
if(readov<overheat*15){
ledsgun(etatcommand);}
if(readov>overheat*15){
digitalWrite(ledw,0);
digitalWrite(ledb,0);
digitalWrite(ledr,0);
mp3_play(5);//play overheat sound
while(overheatSequenceDelay < 4900){//overheat sequence
for(int i = A0; i <= A14; i++){
static int j;
j = random(0,1000);
if(j < 500){
digitalWrite(i,0);
}
if(j >= 500){
digitalWrite(i,1);
}
}
for(int i = ledb1; i <= ledb15; i++){
static int j;
j = random(0,1000);
if(j < 500){
digitalWrite(i,0);
}
if(j >= 500){
digitalWrite(i,1);
}
}
for(int i = ledblinkl; i <= ledact3; i++){
static int j;
j = random(0,1000);
if(j < 500){
digitalWrite(i,0);
}
if(j >= 500){
digitalWrite(i,1);
}
}
for(int i = l1; i <= l4; i++){
static int j;
j = random(0,1000);
if(j < 500){
digitalWrite(i,0);
}
if(j >= 500){
digitalWrite(i,1);
}
}
overheatSequenceDelay++;
delay(1); //1ms base
}
coolingSequence(); //cooling sequence ---> Relay activated, sound, all leds off
}
s1=1;}
if(digitalRead(button1)==LOW){
if(fire_state == 1){
mp3_play(4); //play fire ended
fire_state = 0;
}
digitalWrite(ledw,LOW);
digitalWrite(ledr,LOW);
digitalWrite(ledb,LOW);
if(ledbs>0){
if(s1==1){
ledbs=0;
s1=0;}}
if(readov>0){
readov--;}
if(readov<=0){
readov=0;
decov=0;}
if(activeov==0){
bargraphgunanim1(etatcommand);}
if(activeov==1){
if(readov>0){
bargraphgunov(etatcommand);}
if(readov<=0){
bargraphgunanim1(etatcommand);}
}
}
ledp++;
ledbs++;
delay(val);
}else{
ledp=16;
ls=0;
lds=1;
ledbs=1;
readov=0;
brightnessledr=0;
brightnessledw=0;
brightnessledb=0;
brightness=0;
brightness2=0;
brightness3=0;
brightness4=255;
blinkledr=0;
blinkledw=0;
blinkledb=0;
digitalWrite(l1,LOW);
digitalWrite(l2,LOW);
digitalWrite(l3,LOW);
digitalWrite(l4,LOW);
digitalWrite(ledp1,LOW);
digitalWrite(ledp2,LOW);
digitalWrite(ledp3,LOW);
digitalWrite(ledp4,LOW);
digitalWrite(ledp5,LOW);
digitalWrite(ledp6,LOW);
digitalWrite(ledp7,LOW);
digitalWrite(ledp8,LOW);
digitalWrite(ledp9,LOW);
digitalWrite(ledp10,LOW);
digitalWrite(ledp11,LOW);
digitalWrite(ledp12,LOW);
digitalWrite(ledp13,LOW);
digitalWrite(ledp14,LOW);
digitalWrite(ledp15,LOW);
digitalWrite(ledb1,LOW);
digitalWrite(ledb2,LOW);
digitalWrite(ledb3,LOW);
digitalWrite(ledb4,LOW);
digitalWrite(ledb5,LOW);
digitalWrite(ledb6,LOW);
digitalWrite(ledb7,LOW);
digitalWrite(ledb8,LOW);
digitalWrite(ledb9,LOW);
digitalWrite(ledb10,LOW);
digitalWrite(ledb11,LOW);
digitalWrite(ledb12,LOW);
digitalWrite(ledb13,LOW);
digitalWrite(ledb14,LOW);
digitalWrite(ledb15,LOW);
digitalWrite(ledb,LOW);
digitalWrite(ledw,LOW);
digitalWrite(ledr,LOW);
digitalWrite(ledblinkl,LOW);
digitalWrite(ledblinkf,LOW);
digitalWrite(ledsloblo,LOW);
digitalWrite(ledact1,LOW);
digitalWrite(ledact2,LOW);
digitalWrite(ledact3,LOW);
if(boot == 1){
mp3_play(2); //play off sequence
boot = 0;
}
}
}
void powercell(unsigned long animavar){
if(ledp==1){
digitalWrite(ledp1,HIGH);}
if(ledp==2){
digitalWrite(ledp2,HIGH);}
if(ledp==3){
digitalWrite(ledp3,HIGH);}
if(ledp==4){
digitalWrite(ledblinkf,LOW);
digitalWrite(ledp4,HIGH);}
if(ledp==5){
digitalWrite(ledp5,HIGH);}
if(ledp==6){
digitalWrite(ledp6,HIGH);}
if(ledp==7){
digitalWrite(ledp7,HIGH);}
if(ledp==8){
digitalWrite(ledp8,HIGH);
digitalWrite(ledblinkf,HIGH);
digitalWrite(ledblinkl,HIGH);}
if(ledp==9){
digitalWrite(ledp9,HIGH);}
if(ledp==10){
digitalWrite(ledp10,HIGH);}
if(ledp==11){
digitalWrite(ledp11,HIGH);}
if(ledp==12){
digitalWrite(ledp12,HIGH);
digitalWrite(ledblinkf,LOW);}
if(ledp==13){
digitalWrite(ledp13,HIGH);}
if(ledp==14){
digitalWrite(ledp14,HIGH);}
if(ledp==15){
digitalWrite(ledp15,HIGH);
digitalWrite(ledblinkf,HIGH);
digitalWrite(ledblinkl,LOW);}
if(ledp>15){
digitalWrite(ledp1,LOW);
digitalWrite(ledp2,LOW);
digitalWrite(ledp3,LOW);
digitalWrite(ledp4,LOW);
digitalWrite(ledp5,LOW);
digitalWrite(ledp6,LOW);
digitalWrite(ledp7,LOW);
digitalWrite(ledp8,LOW);
digitalWrite(ledp9,LOW);
digitalWrite(ledp10,LOW);
digitalWrite(ledp11,LOW);
digitalWrite(ledp12,LOW);
digitalWrite(ledp13,LOW);
digitalWrite(ledp14,LOW);
digitalWrite(ledp15,LOW);
ledp=0;}
}
void cyclotron1(unsigned long animavar){
if(ls==0){
ls++;}
if(ls==1){
brightness4-=5;
brightness+=5;
analogWrite(l1,brightness);
analogWrite(l4,brightness4);
if(brightness>=255){
ls++;
brightness4=0;}}
if(ls==2){
brightness-=5;
brightness2+=5;
analogWrite(l1,brightness);
analogWrite(l2,brightness2);
if(brightness2>=255){
ls++;
brightness=0;}}
if(ls==3){
brightness3+=5;
brightness2-=5;
analogWrite(l2,brightness2);
analogWrite(l3,brightness3);
if(brightness3>=255){
ls++;
brightness2=0;}}
if(ls==4){
brightness3-=5;
brightness4+=5;
analogWrite(l3,brightness3);
analogWrite(l4,brightness4);
if(brightness4>=255){
ls++;
brightness3=0;}}
if(ls>4){
ls=1;}}
void cyclotron2(unsigned long animavar){
if(ls==0){
ls++;}
if(ls==1){
brightness4-=5;
analogWrite(l4,brightness4);
if(brightness4<=0){
ls++;
brightness4=0;}}
if(ls==2){
brightness+=5;
analogWrite(l1,brightness);
if(brightness>255){
ls++;}}
if(ls==3){
brightness-=5;
analogWrite(l1,brightness);
if(brightness<0){
ls++;
digitalWrite(l1,LOW);}}
if(ls==4){
brightness2+=5;
analogWrite(l2,brightness2);
if(brightness2>255){
ls++;}}
if(ls==5){
brightness2-=5;
analogWrite(l2,brightness2);
if(brightness2<0){
ls++;
digitalWrite(l2,LOW);}}
if(ls==6){
brightness3+=5;
analogWrite(l3,brightness3);
if(brightness3>255){
ls++;
}}
if(ls==7){
brightness3-=5;
analogWrite(l3,brightness3);
if(brightness3<0){
ls++;
digitalWrite(l3,LOW);}}
if(ls==8){
brightness4+=5;
analogWrite(l4,brightness4);
if(brightness4>254){
ls++;}}
if(ls>8){
ls=1;}
}
void cyclotron3(unsigned long animavar){
if(ls==0){
ls++;}
if(ls==1){
brightness4-=15;
brightness=255;
analogWrite(l4,brightness4);
analogWrite(l1,brightness);
if(brightness4<=0){
ls++;}}
if(ls==2){
brightness-=15;
brightness2=255;
analogWrite(l1,brightness);
analogWrite(l2,brightness2);
if(brightness<=0){
ls++;}}
if(ls==3){
brightness2-=15;
brightness3=255;
analogWrite(l2,brightness2);
analogWrite(l3,brightness3);
if(brightness2<=0){
ls++;}}
if(ls==4){
brightness3-=15;
brightness4=255;
analogWrite(l3,brightness3);
analogWrite(l4,brightness4);
if(brightness3<=0){
ls++;}
}
if(ls>4){
ls=1;}}
void cyclotron4(unsigned long animavar){
if(ls==0){
ls++;}
if(digitalRead(ledp1)==LOW){
ls++;}
if(ls==1){
digitalWrite(l3,LOW);
digitalWrite(l4,HIGH);
}
if(ls==2){
digitalWrite(l4,LOW);
digitalWrite(l1,HIGH);
}
if(ls==3){
digitalWrite(l1,LOW);
digitalWrite(l2,HIGH);
}
if(ls==4){
digitalWrite(l2,LOW);
digitalWrite(l3,HIGH);
}
if(ls>4){
ls=1;}
}
void ledsgun(unsigned long animavar){
if(digitalRead(sw2)==HIGH){
if(brightnessledr!=0 && ledwanim!=0 || ledwanim!=0 || ledwanim!=0 && brightnessledr!=0 && ledrbanim==3){
brightnessledr=0;
brightnessledb=0;
digitalWrite(ledr,LOW);
digitalWrite(ledb,LOW);}
if(ledwanim==0 && digitalRead(button1)==HIGH){
if(lds==0){
if(val<4){
brightnessledr+=5;
blinkledb++;}
else{
brightnessledr+=10;
blinkledb++;}
analogWrite(ledr, brightnessledr);
if(blinkledb==1){
digitalWrite(ledb,HIGH);
}else{
digitalWrite(ledb,LOW);
if(blinkledb==2){
blinkledb=0;}
if(brightnessledr>=250){
lds=1;}}}
if(lds==1){
if(val<4){
brightnessledr-=5;
blinkledb++;}else{
brightnessledr-=10;
blinkledb++;}
analogWrite(ledr, brightnessledr);
if(blinkledb==1){
digitalWrite(ledb,HIGH);
}else{
digitalWrite(ledb,LOW);
if(blinkledb==2){
blinkledb=0;}
if(brightnessledr<=0){
lds=0;}}}
}
if(ledwanim==1 && digitalRead(button1)==HIGH){
if(blinkledw==0){
digitalWrite(ledw,HIGH);
blinkledw++;
}
else{
digitalWrite(ledw,LOW);
blinkledw++;
}
if(blinkledw==2){
blinkledw=0;}
}
if(ledwanim==2 && digitalRead(button1)==HIGH){
if(lds==0){
brightnessledw+=20;
analogWrite(ledw, brightnessledw);
if(brightnessledw>250){
lds=1;}}
if(lds==1){
brightnessledw-=20;
analogWrite(ledw, brightnessledw);
if(brightnessledw<=0){
lds=0;}}
}
}
else{
if(brightnessledw!=0 && ledrbanim!=0 || ledrbanim!=0){
brightnessledw=0;
analogWrite(ledw, brightnessledw);
digitalWrite(ledw,LOW);}
if(ledrbanim==0){
if(blinkledw==0){
digitalWrite(ledw,HIGH);
blinkledw++;
}
else{
digitalWrite(ledw,LOW);
blinkledw++;
}
if(blinkledw==2){
blinkledw=0;}
}
if(ledrbanim==1 && digitalRead(button1)==HIGH){
if(blinkledr==0){
digitalWrite(ledr,LOW);
blinkledr++;}
else{
digitalWrite(ledr,HIGH);
blinkledr++;}
if(blinkledr>1 && digitalRead(button1)==HIGH){
blinkledr=0;}
if(blinkledb==0){
digitalWrite(ledb,LOW);
blinkledb++;}else{
digitalWrite(ledb,HIGH);
blinkledb++;}
if(blinkledb==3){
blinkledb=0;}
}
if(ledrbanim==2 && digitalRead(button1)==HIGH){
if(lds==0){
brightnessledr+=10;
blinkledb++;}
analogWrite(ledr, brightnessledr);
if(blinkledb==1){
digitalWrite(ledb,HIGH);
}else{
digitalWrite(ledb,LOW);
if(blinkledb==2){
blinkledb=0;}
if(brightnessledr>=250){
lds=1;}}
if(lds==1){
brightnessledr-=10;
blinkledb++;
analogWrite(ledr, brightnessledr);
if(blinkledb==1){
digitalWrite(ledb,HIGH);
}else{
digitalWrite(ledb,LOW);
if(blinkledb==2){
blinkledb=0;}
if(brightnessledr<=0){
lds=0;}}}
}
}
if(ledrbanim==3 && digitalRead(sw2)==LOW){
if(lds==0){
brightnessledb-=20;
brightnessledr+=20;
analogWrite(ledr, brightnessledr);
analogWrite(ledb, brightnessledb);
if(brightnessledr>250){
lds=1;}}
if(lds==1){
brightnessledr-=20;
brightnessledb+=20;
analogWrite(ledr, brightnessledr);
analogWrite(ledb, brightnessledb);
if(brightnessledr<=0){
lds=0;}}
}
}
void bargraphgunanim1(unsigned long anivar){
if(ledbs==1){
digitalWrite(ledb1,1);
digitalWrite(ledb2,LOW);
digitalWrite(ledb3,LOW);
digitalWrite(ledb4,LOW);
digitalWrite(ledb5,LOW);
digitalWrite(ledb6,LOW);
digitalWrite(ledb7,LOW);
digitalWrite(ledb8,LOW);
digitalWrite(ledb9,LOW);
digitalWrite(ledb10,LOW);
digitalWrite(ledb11,LOW);
digitalWrite(ledb12,LOW);
digitalWrite(ledb13,LOW);
digitalWrite(ledb14,LOW);
digitalWrite(ledb15,LOW);}
if(ledbs==2){
digitalWrite(ledb2,1);}
if(ledbs==3){
digitalWrite(ledb3,1);}
if(ledbs==4){
digitalWrite(ledb4,1);}
if(ledbs==5){
digitalWrite(ledb5,1);}
if(ledbs==6){
digitalWrite(ledb6,1);}
if(ledbs==7){
digitalWrite(ledb7,1);}
if(ledbs==8){
digitalWrite(ledb8,1);}
if(ledbs==9){
digitalWrite(ledb9,1);}
if(ledbs==10){
digitalWrite(ledb10,1);}
if(ledbs==11){
digitalWrite(ledb11,1);}
if(ledbs==12){
digitalWrite(ledb12,1);}
if(ledbs==13){
digitalWrite(ledb13,1);}
if(ledbs==14){
digitalWrite(ledb14,1);}
if(ledbs==15){
digitalWrite(ledb15,1);}
if(ledbs==16){
digitalWrite(ledb15,0);}
if(ledbs==17){
digitalWrite(ledb14,0);}
if(ledbs==18){
digitalWrite(ledb13,0);}
if(ledbs==19){
digitalWrite(ledb12,0);}
if(ledbs==20){
digitalWrite(ledb11,0);}
if(ledbs==21){
digitalWrite(ledb10,0);}
if(ledbs==22){
digitalWrite(ledb9,0);}
if(ledbs==23){
digitalWrite(ledb8,0);}
if(ledbs==24){
digitalWrite(ledb7,0);}
if(ledbs==25){
digitalWrite(ledb6,0);}
if(ledbs==26){
digitalWrite(ledb5,0);}
if(ledbs==27){
digitalWrite(ledb4,0);}
if(ledbs==28){
digitalWrite(ledb3,0);}
if(ledbs==29){
digitalWrite(ledb2,0);}
if(ledbs==30){
digitalWrite(ledb1,0);
digitalWrite(ledb1,LOW);
digitalWrite(ledb2,LOW);
digitalWrite(ledb3,LOW);
digitalWrite(ledb4,LOW);
digitalWrite(ledb5,LOW);
digitalWrite(ledb6,LOW);
digitalWrite(ledb7,LOW);
digitalWrite(ledb8,LOW);
digitalWrite(ledb9,LOW);
digitalWrite(ledb10,LOW);
digitalWrite(ledb11,LOW);
digitalWrite(ledb12,LOW);
digitalWrite(ledb13,LOW);
digitalWrite(ledb14,LOW);
digitalWrite(ledb15,LOW);
ledbs=0;}
}
void bargraphgunanim2(unsigned long anivar){
if(ledbs==1){
digitalWrite(ledb1,1);
digitalWrite(ledb15,1);
digitalWrite(ledb2,LOW);
digitalWrite(ledb3,LOW);
digitalWrite(ledb4,LOW);
digitalWrite(ledb5,LOW);
digitalWrite(ledb6,LOW);
digitalWrite(ledb7,LOW);
digitalWrite(ledb8,LOW);
digitalWrite(ledb9,LOW);
digitalWrite(ledb10,LOW);
digitalWrite(ledb11,LOW);
digitalWrite(ledb12,LOW);
digitalWrite(ledb13,LOW);
digitalWrite(ledb14,LOW);
}
if(ledbs==2){
digitalWrite(ledb2,1);
digitalWrite(ledb14,1);
}
if(ledbs==3){
digitalWrite(ledb3,1);
digitalWrite(ledb13,1);
}
if(ledbs==4){
digitalWrite(ledb4,1);
digitalWrite(ledb12,1);
}
if(ledbs==5){
digitalWrite(ledb5,1);
digitalWrite(ledb11,1);
}
if(ledbs==6){
digitalWrite(ledb6,1);
digitalWrite(ledb10,1);
digitalWrite(ledb1,0);
digitalWrite(ledb15,0);
}
if(ledbs==7){
digitalWrite(ledb7,1);
digitalWrite(ledb9,1);
digitalWrite(ledb2,0);
digitalWrite(ledb14,0);
}
if(ledbs==8){
digitalWrite(ledb8,1);
digitalWrite(ledb3,0);
digitalWrite(ledb13,0);
}
if(ledbs==9){
digitalWrite(ledb4,0);
digitalWrite(ledb12,0);
}
if(ledbs==10){
digitalWrite(ledb5,0);
digitalWrite(ledb11,0);
}
if(ledbs==11){
digitalWrite(ledb6,0);
digitalWrite(ledb10,0);
}
if(ledbs==12){
digitalWrite(ledb7,0);
digitalWrite(ledb9,0);
}
if(ledbs==13){
digitalWrite(ledb8,0);
ledbs=0;
}
}
void bargraphgunanim3(unsigned long anivar){
if(ledbs==1){
digitalWrite(ledb1,1);
digitalWrite(ledb2,1);
digitalWrite(ledb3,1);
digitalWrite(ledb4,1);
digitalWrite(ledb12,1);
digitalWrite(ledb13,1);
digitalWrite(ledb14,1);
digitalWrite(ledb15,1);
digitalWrite(ledb5,LOW);
digitalWrite(ledb6,LOW);
digitalWrite(ledb7,LOW);
digitalWrite(ledb8,LOW);
digitalWrite(ledb9,LOW);
digitalWrite(ledb10,LOW);
digitalWrite(ledb11,LOW);
}
if(ledbs==3){
digitalWrite(ledb1,0);
digitalWrite(ledb2,1);
digitalWrite(ledb3,1);
digitalWrite(ledb4,1);
digitalWrite(ledb5,1);
digitalWrite(ledb11,1);
digitalWrite(ledb12,1);
digitalWrite(ledb13,1);
digitalWrite(ledb14,1);
digitalWrite(ledb15,0);
}
if(ledbs==5){
digitalWrite(ledb2,0);
digitalWrite(ledb3,1);
digitalWrite(ledb4,1);
digitalWrite(ledb5,1);
digitalWrite(ledb6,1);
digitalWrite(ledb10,1);
digitalWrite(ledb11,1);
digitalWrite(ledb12,1);
digitalWrite(ledb13,1);
digitalWrite(ledb14,0);
}
if(ledbs==7){
digitalWrite(ledb3,0);
digitalWrite(ledb4,1);
digitalWrite(ledb5,1);
digitalWrite(ledb6,1);
digitalWrite(ledb7,1);
digitalWrite(ledb9,1);
digitalWrite(ledb10,1);
digitalWrite(ledb11,1);
digitalWrite(ledb12,1);
digitalWrite(ledb13,0);
}
if(ledbs==9){
digitalWrite(ledb4,0);
digitalWrite(ledb5,1);
digitalWrite(ledb6,1);
digitalWrite(ledb7,1);
digitalWrite(ledb8,1);
digitalWrite(ledb9,1);
digitalWrite(ledb10,1);
digitalWrite(ledb11,1);
digitalWrite(ledb12,0);
}
if(ledbs==11){
digitalWrite(ledb4,1);
digitalWrite(ledb5,1);
digitalWrite(ledb6,1);
digitalWrite(ledb7,1);
digitalWrite(ledb8,0);
digitalWrite(ledb9,1);
digitalWrite(ledb10,1);
digitalWrite(ledb11,1);
digitalWrite(ledb12,1);
}
if(ledbs==13){
digitalWrite(ledb3,1);
digitalWrite(ledb4,1);
digitalWrite(ledb5,1);
digitalWrite(ledb6,1);
digitalWrite(ledb7,0);
digitalWrite(ledb9,0);
digitalWrite(ledb10,1);
digitalWrite(ledb11,1);
digitalWrite(ledb12,1);
digitalWrite(ledb13,1);
}
if(ledbs==15){
digitalWrite(ledb2,1);
digitalWrite(ledb3,1);
digitalWrite(ledb4,1);
digitalWrite(ledb5,1);
digitalWrite(ledb6,0);
digitalWrite(ledb10,0);
digitalWrite(ledb11,1);
digitalWrite(ledb12,1);
digitalWrite(ledb13,1);
digitalWrite(ledb14,1);
}
if(ledbs==17){
digitalWrite(ledb1,1);
digitalWrite(ledb2,1);
digitalWrite(ledb3,1);
digitalWrite(ledb4,1);
digitalWrite(ledb5,0);
digitalWrite(ledb11,0);
digitalWrite(ledb12,1);
digitalWrite(ledb13,1);
digitalWrite(ledb14,1);
digitalWrite(ledb15,1);
ledbs=1;
}
}
void bargraphgunanim4(unsigned long anivar){
if(ledbs==1){
digitalWrite(ledb1,1);
digitalWrite(ledb4,0);
digitalWrite(ledb2,LOW);
digitalWrite(ledb3,LOW);
digitalWrite(ledb5,LOW);
digitalWrite(ledb6,LOW);
digitalWrite(ledb7,LOW);
digitalWrite(ledb8,LOW);
digitalWrite(ledb9,LOW);
digitalWrite(ledb10,LOW);
digitalWrite(ledb11,LOW);
digitalWrite(ledb12,LOW);
digitalWrite(ledb13,LOW);
digitalWrite(ledb14,LOW);
digitalWrite(ledb15,LOW);
}
if(ledbs==2){
digitalWrite(ledb2,1);
digitalWrite(ledb1,0);
digitalWrite(ledb4,1);
}
if(ledbs==3){
digitalWrite(ledb3,1);
digitalWrite(ledb2,0);
digitalWrite(ledb4,0);
}
if(ledbs==4){
digitalWrite(ledb4,1);
digitalWrite(ledb3,0);
digitalWrite(ledb4,1);
}
if(ledbs==5){
digitalWrite(ledb5,1);
digitalWrite(ledb4,0);
digitalWrite(ledb4,0);
}
if(ledbs==6){
digitalWrite(ledb6,1);
digitalWrite(ledb5,0);
digitalWrite(ledb4,1);
}
if(ledbs==7){
digitalWrite(ledb7,1);
digitalWrite(ledb6,0);
digitalWrite(ledb4,0);
}
if(ledbs==8){
digitalWrite(ledb8,1);
digitalWrite(ledb7,0);
digitalWrite(ledb4,1);
}
if(ledbs==9){
digitalWrite(ledb9,1);
digitalWrite(ledb8,0);
digitalWrite(ledb4,0);
}
if(ledbs==10){
digitalWrite(ledb10,1);
digitalWrite(ledb9,0);
digitalWrite(ledb4,1);
}
if(ledbs==11){
digitalWrite(ledb11,1);
digitalWrite(ledb10,0);
digitalWrite(ledb4,0);
}
if(ledbs==12){
digitalWrite(ledb12,1);
digitalWrite(ledb11,0);
digitalWrite(ledb4,1);
}
if(ledbs==13){
digitalWrite(ledb13,1);
digitalWrite(ledb12,0);
digitalWrite(ledb4,0);
}
if(ledbs==14){
digitalWrite(ledb14,1);
digitalWrite(ledb13,0);
digitalWrite(ledb4,1);
}
if(ledbs==15){
digitalWrite(ledb15,1);
digitalWrite(ledb14,0);
digitalWrite(ledb4,0);
}
if(ledbs==16){
digitalWrite(ledb14,1);
digitalWrite(ledb15,0);
digitalWrite(ledb4,1);
}
if(ledbs==17){
digitalWrite(ledb13,1);
digitalWrite(ledb14,0);
digitalWrite(ledb4,0);
}
if(ledbs==18){
digitalWrite(ledb12,1);
digitalWrite(ledb13,0);
digitalWrite(ledb4,1);
}
if(ledbs==19){
digitalWrite(ledb11,1);
digitalWrite(ledb12,0);
digitalWrite(ledb4,0);
}
if(ledbs==20){
digitalWrite(ledb10,1);
digitalWrite(ledb11,0);
digitalWrite(ledb4,1);
}
if(ledbs==21){
digitalWrite(ledb9,1);
digitalWrite(ledb10,0);
digitalWrite(ledb4,0);
}
if(ledbs==22){
digitalWrite(ledb8,1);
digitalWrite(ledb9,0);
digitalWrite(ledb4,1);
}
if(ledbs==23){
digitalWrite(ledb7,1);
digitalWrite(ledb8,0);
digitalWrite(ledb4,0);
}
if(ledbs==24){
digitalWrite(ledb6,1);
digitalWrite(ledb7,0);
digitalWrite(ledb4,1);
}
if(ledbs==25){
digitalWrite(ledb5,1);
digitalWrite(ledb6,0);
digitalWrite(ledb4,0);
}
if(ledbs==26){
digitalWrite(ledb4,1);
digitalWrite(ledb5,0);
digitalWrite(ledb4,1);
}
if(ledbs==27){
digitalWrite(ledb3,1);
digitalWrite(ledb4,0);
digitalWrite(ledb4,0);
}
if(ledbs==28){
digitalWrite(ledb2,1);
digitalWrite(ledb3,0);
digitalWrite(ledb4,1);
}
if(ledbs==29){
digitalWrite(ledb1,1);
digitalWrite(ledb2,0);
digitalWrite(ledb4,0);
ledbs=1;
}
}
void bargraphgunov(unsigned long anivar){
if(readov>overheat*1){
digitalWrite(ledb1,1);
digitalWrite(ledb2,LOW);
digitalWrite(ledb3,LOW);
digitalWrite(ledb5,LOW);
digitalWrite(ledb6,LOW);
digitalWrite(ledb7,LOW);
digitalWrite(ledb8,LOW);
digitalWrite(ledb9,LOW);
digitalWrite(ledb10,LOW);
digitalWrite(ledb11,LOW);
digitalWrite(ledb12,LOW);
digitalWrite(ledb13,LOW);
digitalWrite(ledb14,LOW);
digitalWrite(ledb15,LOW);
}
if(readov>overheat*2){
digitalWrite(ledb1,1);
digitalWrite(ledb2,1);
digitalWrite(ledb3,0);
digitalWrite(ledb4,0);
digitalWrite(ledb5,0);
digitalWrite(ledb6,0);
digitalWrite(ledb7,0);
digitalWrite(ledb8,0);
digitalWrite(ledb9,0);
digitalWrite(ledb10,0);
digitalWrite(ledb11,0);
digitalWrite(ledb12,0);
digitalWrite(ledb13,0);
digitalWrite(ledb14,0);
digitalWrite(ledb15,0);
}
if(readov>overheat*3){
digitalWrite(ledb1,1);
digitalWrite(ledb2,1);
digitalWrite(ledb3,1);
digitalWrite(ledb4,0);
digitalWrite(ledb5,0);
digitalWrite(ledb6,0);
digitalWrite(ledb7,0);
digitalWrite(ledb8,0);
digitalWrite(ledb9,0);
digitalWrite(ledb10,0);
digitalWrite(ledb11,0);
digitalWrite(ledb12,0);
digitalWrite(ledb13,0);
digitalWrite(ledb14,0);
digitalWrite(ledb15,0);
}
if(readov>overheat*4){
digitalWrite(ledb1,1);
digitalWrite(ledb2,1);
digitalWrite(ledb3,1);
digitalWrite(ledb4,1);
digitalWrite(ledb5,0);
digitalWrite(ledb6,0);
digitalWrite(ledb7,0);
digitalWrite(ledb8,0);
digitalWrite(ledb9,0);
digitalWrite(ledb10,0);
digitalWrite(ledb11,0);
digitalWrite(ledb12,0);
digitalWrite(ledb13,0);
digitalWrite(ledb14,0);
digitalWrite(ledb15,0);
}
if(readov>overheat*5){
digitalWrite(ledb1,1);
digitalWrite(ledb2,1);
digitalWrite(ledb3,1);
digitalWrite(ledb4,1);
digitalWrite(ledb5,1);
digitalWrite(ledb6,0);
digitalWrite(ledb7,0);
digitalWrite(ledb8,0);
digitalWrite(ledb9,0);
digitalWrite(ledb10,0);
digitalWrite(ledb11,0);
digitalWrite(ledb12,0);
digitalWrite(ledb13,0);
digitalWrite(ledb14,0);
digitalWrite(ledb15,0);
}
if(readov>overheat*6){
digitalWrite(ledb1,1);
digitalWrite(ledb2,1);
digitalWrite(ledb3,1);
digitalWrite(ledb4,1);
digitalWrite(ledb5,1);
digitalWrite(ledb6,1);
digitalWrite(ledb7,0);
digitalWrite(ledb8,0);
digitalWrite(ledb9,0);
digitalWrite(ledb10,0);
digitalWrite(ledb11,0);
digitalWrite(ledb12,0);
digitalWrite(ledb13,0);
digitalWrite(ledb14,0);
digitalWrite(ledb15,0);
}
if(readov>overheat*7){
digitalWrite(ledb1,1);
digitalWrite(ledb2,1);
digitalWrite(ledb3,1);
digitalWrite(ledb4,1);
digitalWrite(ledb5,1);
digitalWrite(ledb6,1);
digitalWrite(ledb7,1);
digitalWrite(ledb8,0);
digitalWrite(ledb9,0);
digitalWrite(ledb10,0);
digitalWrite(ledb11,0);
digitalWrite(ledb12,0);
digitalWrite(ledb13,0);
digitalWrite(ledb14,0);
digitalWrite(ledb15,0);
}
if(readov>overheat*8){
digitalWrite(ledb1,1);
digitalWrite(ledb2,1);
digitalWrite(ledb3,1);
digitalWrite(ledb4,1);
digitalWrite(ledb5,1);
digitalWrite(ledb6,1);
digitalWrite(ledb7,1);
digitalWrite(ledb8,1);
digitalWrite(ledb9,0);
digitalWrite(ledb10,0);
digitalWrite(ledb11,0);
digitalWrite(ledb12,0);
digitalWrite(ledb13,0);
digitalWrite(ledb14,0);
digitalWrite(ledb15,0);
}
if(readov>overheat*9){
digitalWrite(ledb1,1);
digitalWrite(ledb2,1);
digitalWrite(ledb3,1);
digitalWrite(ledb4,1);
digitalWrite(ledb5,1);
digitalWrite(ledb6,1);
digitalWrite(ledb7,1);
digitalWrite(ledb8,1);
digitalWrite(ledb9,1);
digitalWrite(ledb10,0);
digitalWrite(ledb11,0);
digitalWrite(ledb12,0);
digitalWrite(ledb13,0);
digitalWrite(ledb14,0);
digitalWrite(ledb15,0);
}
if(readov>overheat*10){
digitalWrite(ledb1,1);
digitalWrite(ledb2,1);
digitalWrite(ledb3,1);
digitalWrite(ledb4,1);
digitalWrite(ledb5,1);
digitalWrite(ledb6,1);
digitalWrite(ledb7,1);
digitalWrite(ledb8,1);
digitalWrite(ledb9,1);
digitalWrite(ledb10,1);
digitalWrite(ledb11,0);
digitalWrite(ledb12,0);
digitalWrite(ledb13,0);
digitalWrite(ledb14,0);
digitalWrite(ledb15,0);
}
if(readov>overheat*11){
digitalWrite(ledb1,1);
digitalWrite(ledb2,1);
digitalWrite(ledb3,1);
digitalWrite(ledb4,1);
digitalWrite(ledb5,1);
digitalWrite(ledb6,1);
digitalWrite(ledb7,1);
digitalWrite(ledb8,1);
digitalWrite(ledb9,1);
digitalWrite(ledb10,1);
digitalWrite(ledb11,1);
digitalWrite(ledb12,0);
digitalWrite(ledb13,0);
digitalWrite(ledb14,0);
digitalWrite(ledb15,0);
}
if(readov>overheat*12){
digitalWrite(ledb1,1);
digitalWrite(ledb2,1);
digitalWrite(ledb3,1);
digitalWrite(ledb4,1);
digitalWrite(ledb5,1);
digitalWrite(ledb6,1);
digitalWrite(ledb7,1);
digitalWrite(ledb8,1);
digitalWrite(ledb9,1);
digitalWrite(ledb10,1);
digitalWrite(ledb11,1);
digitalWrite(ledb12,1);
digitalWrite(ledb13,0);
digitalWrite(ledb14,0);
digitalWrite(ledb15,0);
}
if(readov>overheat*13){
digitalWrite(ledb1,1);
digitalWrite(ledb2,1);
digitalWrite(ledb3,1);
digitalWrite(ledb4,1);
digitalWrite(ledb5,1);
digitalWrite(ledb6,1);
digitalWrite(ledb7,1);
digitalWrite(ledb8,1);
digitalWrite(ledb9,1);
digitalWrite(ledb10,1);
digitalWrite(ledb11,1);
digitalWrite(ledb12,1);
digitalWrite(ledb13,1);
digitalWrite(ledb14,0);
digitalWrite(ledb15,0);
}
if(readov>overheat*14){
digitalWrite(ledb1,1);
digitalWrite(ledb2,1);
digitalWrite(ledb3,1);
digitalWrite(ledb4,1);
digitalWrite(ledb5,1);
digitalWrite(ledb6,1);
digitalWrite(ledb7,1);
digitalWrite(ledb8,1);
digitalWrite(ledb9,1);
digitalWrite(ledb10,1);
digitalWrite(ledb11,1);
digitalWrite(ledb12,1);
digitalWrite(ledb13,1);
digitalWrite(ledb14,1);
digitalWrite(ledb15,0);
}
if(readov>overheat*15){
digitalWrite(ledb1,1);
digitalWrite(ledb2,1);
digitalWrite(ledb3,1);
digitalWrite(ledb4,1);
digitalWrite(ledb5,1);
digitalWrite(ledb6,1);
digitalWrite(ledb7,1);
digitalWrite(ledb8,1);
digitalWrite(ledb9,1);
digitalWrite(ledb10,1);
digitalWrite(ledb11,1);
digitalWrite(ledb12,1);
digitalWrite(ledb13,1);
digitalWrite(ledb14,1);
digitalWrite(ledb15,1);
}
}
void coolingSequence(){
for(int i = A0; i <= A14; i++){
digitalWrite(i,0);
}
for(int i = ledb1; i <= ledb15; i++){
digitalWrite(i,0);
}
for(int i = ledblinkl; i <= ledact3; i++){
digitalWrite(i,0);
}
for(int i = l1; i <= l4; i++){
digitalWrite(i,0);
}
mp3_play(6);//play cooling sound
delay(1000);
digitalWrite(relaisPin,1); //active le relais pendant 3 secondes(ne pas le laisser activer top longtemps pour la E-cig, 3 secondes GRAND MAX !)
delay(3000);
digitalWrite(relaisPin,0); //on désactive le relais
delay(3000); //Délai à mettre en fonction de la durée de ton son overheat, j'ai 3000 ms par exemple, mais tu peut mettre une autre valeur mieux adaptée
readov = 0;
brightnessledr=0;
brightnessledw=0;
brightnessledb=0;
brightness=0;
brightness2=0;
brightness3=0;
brightness4=255;
blinkledr=0;
blinkledw=0;
blinkledb=0;
}
