laurent/Horloge_Nixie_firmware
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Horloge_Nixie_firmware/nixie.cpp

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#include "esp32-hal-gpio.h"
#include "nixie.h"
#include "Arduino.h"
#include "hardware.h"
void printNixie1(int8_t a) {
switch (a) {
case 0:
digitalWrite(BCD_D, LOW); //D
digitalWrite(BCD_C, LOW); //C
digitalWrite(BCD_B, LOW); //B
digitalWrite(BCD_A, LOW); //A
digitalWrite(NX1A, 1); //Switch ON Anode Nixie 1
break;
case 1:
digitalWrite(BCD_D, LOW); //D
digitalWrite(BCD_C, LOW); //C
digitalWrite(BCD_B, LOW); //B
digitalWrite(BCD_A, HIGH); //A
digitalWrite(NX1A, 1); //Switch ON Anode Nixie 1
break;
case 2:
digitalWrite(BCD_D, LOW); //D
digitalWrite(BCD_C, LOW); //C
digitalWrite(BCD_B, HIGH); //B
digitalWrite(BCD_A, LOW); //A
digitalWrite(NX1A, 1); //Switch ON Anode Nixie 1
break;
case 3:
digitalWrite(BCD_D, LOW); //D
digitalWrite(BCD_C, LOW); //C
digitalWrite(BCD_B, HIGH); //B
digitalWrite(BCD_A, HIGH); //A
digitalWrite(NX1A, 1); //Switch ON Anode Nixie 1
break;
case 4:
digitalWrite(BCD_D, LOW); //D
digitalWrite(BCD_C, HIGH); //C
digitalWrite(BCD_B, LOW); //B
digitalWrite(BCD_A, LOW); //A
digitalWrite(NX1A, 1); //Switch ON Anode Nixie 1
break;
case 5:
digitalWrite(BCD_D, LOW); //D
digitalWrite(BCD_C, HIGH); //C
digitalWrite(BCD_B, LOW); //B
digitalWrite(BCD_A, HIGH); //A
digitalWrite(NX1A, 1); //Switch ON Anode Nixie 1
break;
case 6:
digitalWrite(BCD_D, LOW); //D
digitalWrite(BCD_C, HIGH); //C
digitalWrite(BCD_B, HIGH); //B
digitalWrite(BCD_A, LOW); //A
digitalWrite(NX1A, 1); //Switch ON Anode Nixie 1
break;
case 7:
digitalWrite(BCD_D, LOW); //D
digitalWrite(BCD_C, HIGH); //C
digitalWrite(BCD_B, HIGH); //B
digitalWrite(BCD_A, HIGH); //A
digitalWrite(NX1A, 1); //Switch ON Anode Nixie 1
break;
case 8:
digitalWrite(BCD_D, HIGH); //D
digitalWrite(BCD_C, LOW); //C
digitalWrite(BCD_B, LOW); //B
digitalWrite(BCD_A, LOW); //A
digitalWrite(NX1A, 1); //Switch ON Anode Nixie 1
break;
case 9:
digitalWrite(BCD_D, HIGH); //D
digitalWrite(BCD_C, LOW); //C
digitalWrite(BCD_B, LOW); //B
digitalWrite(BCD_A, HIGH); //A
digitalWrite(NX1A, 1); //Switch ON Anode Nixie 1
break;
default:
digitalWrite(BCD_D, HIGH); //D
digitalWrite(BCD_C, HIGH); //C
digitalWrite(BCD_B, HIGH); //B
digitalWrite(BCD_A, HIGH); //A
digitalWrite(NX1A, 0); //Switch OFF Anode Nixie 2
break;
}
}
void printNixie2(int8_t a) {
switch (a) {
case 0:
digitalWrite(BCD_D, LOW); //D
digitalWrite(BCD_C, LOW); //C
digitalWrite(BCD_B, LOW); //B
digitalWrite(BCD_A, LOW); //A
digitalWrite(NX2A, 1); //Switch ON Anode Nixie 2
break;
case 1:
digitalWrite(BCD_D, LOW); //D
digitalWrite(BCD_C, LOW); //C
digitalWrite(BCD_B, LOW); //B
digitalWrite(BCD_A, HIGH); //A
digitalWrite(NX2A, 1); //Switch ON Anode Nixie 2
break;
case 2:
digitalWrite(BCD_D, LOW); //D
digitalWrite(BCD_C, LOW); //C
digitalWrite(BCD_B, HIGH); //B
digitalWrite(BCD_A, LOW); //A
digitalWrite(NX2A, 1); //Switch ON Anode Nixie 2
break;
case 3:
digitalWrite(BCD_D, LOW); //D
digitalWrite(BCD_C, LOW); //C
digitalWrite(BCD_B, HIGH); //B
digitalWrite(BCD_A, HIGH); //A
digitalWrite(NX2A, 1); //Switch ON Anode Nixie 2
break;
case 4:
digitalWrite(BCD_D, LOW); //D
digitalWrite(BCD_C, HIGH); //C
digitalWrite(BCD_B, LOW); //B
digitalWrite(BCD_A, LOW); //A
digitalWrite(NX2A, 1); //Switch ON Anode Nixie 2
break;
case 5:
digitalWrite(BCD_D, LOW); //D
digitalWrite(BCD_C, HIGH); //C
digitalWrite(BCD_B, LOW); //B
digitalWrite(BCD_A, HIGH); //A
digitalWrite(NX2A, 1); //Switch ON Anode Nixie 2
break;
case 6:
digitalWrite(BCD_D, LOW); //D
digitalWrite(BCD_C, HIGH); //C
digitalWrite(BCD_B, HIGH); //B
digitalWrite(BCD_A, LOW); //A
digitalWrite(NX2A, 1); //Switch ON Anode Nixie 2
break;
case 7:
digitalWrite(BCD_D, LOW); //D
digitalWrite(BCD_C, HIGH); //C
digitalWrite(BCD_B, HIGH); //B
digitalWrite(BCD_A, HIGH); //A
digitalWrite(NX2A, 1); //Switch ON Anode Nixie 2
break;
case 8:
digitalWrite(BCD_D, HIGH); //D
digitalWrite(BCD_C, LOW); //C
digitalWrite(BCD_B, LOW); //B
digitalWrite(BCD_A, LOW); //A
digitalWrite(NX2A, 1); //Switch ON Anode Nixie 2
break;
case 9:
digitalWrite(BCD_D, HIGH); //D
digitalWrite(BCD_C, LOW); //C
digitalWrite(BCD_B, LOW); //B
digitalWrite(BCD_A, HIGH); //A
digitalWrite(NX2A, 1); //Switch ON Anode Nixie 2
break;
default:
digitalWrite(BCD_D, HIGH); //D
digitalWrite(BCD_C, HIGH); //C
digitalWrite(BCD_B, HIGH); //B
digitalWrite(BCD_A, HIGH); //A
digitalWrite(NX2A, 0); //Switch off Anode Nixie 2
break;
}
}
void printNixie3(int8_t a) {
switch (a) {
case 0:
digitalWrite(BCD_D, LOW); //D
digitalWrite(BCD_C, LOW); //C
digitalWrite(BCD_B, LOW); //B
digitalWrite(BCD_A, LOW); //A
digitalWrite(NX3A, 1); //Switch ON Anode Nixie 3
break;
case 1:
digitalWrite(BCD_D, LOW); //D
digitalWrite(BCD_C, LOW); //C
digitalWrite(BCD_B, LOW); //B
digitalWrite(BCD_A, HIGH); //A
digitalWrite(NX3A, 1); //Switch ON Anode Nixie 3
break;
case 2:
digitalWrite(BCD_D, LOW); //D
digitalWrite(BCD_C, LOW); //C
digitalWrite(BCD_B, HIGH); //B
digitalWrite(BCD_A, LOW); //A
digitalWrite(NX3A, 1); //Switch ON Anode Nixie 3
break;
case 3:
digitalWrite(BCD_D, LOW); //D
digitalWrite(BCD_C, LOW); //C
digitalWrite(BCD_B, HIGH); //B
digitalWrite(BCD_A, HIGH); //A
digitalWrite(NX3A, 1); //Switch ON Anode Nixie 3
break;
case 4:
digitalWrite(BCD_D, LOW); //D
digitalWrite(BCD_C, HIGH); //C
digitalWrite(BCD_B, LOW); //B
digitalWrite(BCD_A, LOW); //A
digitalWrite(NX3A, 1); //Switch ON Anode Nixie 3
break;
case 5:
digitalWrite(BCD_D, LOW); //D
digitalWrite(BCD_C, HIGH); //C
digitalWrite(BCD_B, LOW); //B
digitalWrite(BCD_A, HIGH); //A
digitalWrite(NX3A, 1); //Switch ON Anode Nixie 3
break;
case 6:
digitalWrite(BCD_D, LOW); //D
digitalWrite(BCD_C, HIGH); //C
digitalWrite(BCD_B, HIGH); //B
digitalWrite(BCD_A, LOW); //A
digitalWrite(NX3A, 1); //Switch ON Anode Nixie 3
break;
case 7:
digitalWrite(BCD_D, LOW); //D
digitalWrite(BCD_C, HIGH); //C
digitalWrite(BCD_B, HIGH); //B
digitalWrite(BCD_A, HIGH); //A
digitalWrite(NX3A, 1); //Switch ON Anode Nixie 3
break;
case 8:
digitalWrite(BCD_D, HIGH); //D
digitalWrite(BCD_C, LOW); //C
digitalWrite(BCD_B, LOW); //B
digitalWrite(BCD_A, LOW); //A
digitalWrite(NX3A, 1); //Switch ON Anode Nixie 3
break;
case 9:
digitalWrite(BCD_D, HIGH); //D
digitalWrite(BCD_C, LOW); //C
digitalWrite(BCD_B, LOW); //B
digitalWrite(BCD_A, HIGH); //A
digitalWrite(NX3A, 1); //Switch ON Anode Nixie 3
break;
default:
digitalWrite(BCD_D, HIGH); //D
digitalWrite(BCD_C, HIGH); //C
digitalWrite(BCD_B, HIGH); //B
digitalWrite(BCD_A, HIGH); //A
digitalWrite(NX3A, 0); //Switch off Anode Nixie 3
break;
}
}
void printNixie4(int8_t a) {
switch (a) {
case 0:
digitalWrite(BCD_D, LOW); //D
digitalWrite(BCD_C, LOW); //C
digitalWrite(BCD_B, LOW); //B
digitalWrite(BCD_A, LOW); //A
digitalWrite(NX4A, 1); //Switch ON Anode Nixie 4
break;
case 1:
digitalWrite(BCD_D, LOW); //D
digitalWrite(BCD_C, LOW); //C
digitalWrite(BCD_B, LOW); //B
digitalWrite(BCD_A, HIGH); //A
digitalWrite(NX4A, 1); //Switch ON Anode Nixie 4
break;
case 2:
digitalWrite(BCD_D, LOW); //D
digitalWrite(BCD_C, LOW); //C
digitalWrite(BCD_B, HIGH); //B
digitalWrite(BCD_A, LOW); //A
digitalWrite(NX4A, 1); //Switch ON Anode Nixie 4
break;
case 3:
digitalWrite(BCD_D, LOW); //D
digitalWrite(BCD_C, LOW); //C
digitalWrite(BCD_B, HIGH); //B
digitalWrite(BCD_A, HIGH); //A
digitalWrite(NX4A, 1); //Switch ON Anode Nixie 4
break;
case 4:
digitalWrite(BCD_D, LOW); //D
digitalWrite(BCD_C, HIGH); //C
digitalWrite(BCD_B, LOW); //B
digitalWrite(BCD_A, LOW); //A
digitalWrite(NX4A, 1); //Switch ON Anode Nixie 4
break;
case 5:
digitalWrite(BCD_D, LOW); //D
digitalWrite(BCD_C, HIGH); //C
digitalWrite(BCD_B, LOW); //B
digitalWrite(BCD_A, HIGH); //A
digitalWrite(NX4A, 1); //Switch ON Anode Nixie 4
break;
case 6:
digitalWrite(BCD_D, LOW); //D
digitalWrite(BCD_C, HIGH); //C
digitalWrite(BCD_B, HIGH); //B
digitalWrite(BCD_A, LOW); //A
digitalWrite(NX4A, 1); //Switch ON Anode Nixie 4
break;
case 7:
digitalWrite(BCD_D, LOW); //D
digitalWrite(BCD_C, HIGH); //C
digitalWrite(BCD_B, HIGH); //B
digitalWrite(BCD_A, HIGH); //A
digitalWrite(NX4A, 1); //Switch ON Anode Nixie 4
break;
case 8:
digitalWrite(BCD_D, HIGH); //D
digitalWrite(BCD_C, LOW); //C
digitalWrite(BCD_B, LOW); //B
digitalWrite(BCD_A, LOW); //A
digitalWrite(NX4A, 1); //Switch ON Anode Nixie 4
break;
case 9:
digitalWrite(BCD_D, HIGH); //D
digitalWrite(BCD_C, LOW); //C
digitalWrite(BCD_B, LOW); //B
digitalWrite(BCD_A, HIGH); //A
digitalWrite(NX4A, 1); //Switch ON Anode Nixie 4
break;
default:
digitalWrite(BCD_D, HIGH); //D
digitalWrite(BCD_C, HIGH); //C
digitalWrite(BCD_B, HIGH); //B
digitalWrite(BCD_A, HIGH); //A
digitalWrite(NX4A, 0); //Switch off Anode Nixie 4
break;
}
}
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