convert working example to new with timer and debounce

src/main.c

@@ -3,8 +3,40 @@
 #include <util/delay.h>
 #include <avr/interrupt.h>
 #include "defs.h"
+#include "input_handler.h"
+#include "timer_counter.h"
 
 void led_pwm(void);
+void probe_int_on(ButtonKey_t *key);
+void probe_int_off(ButtonKey_t *key);
+void estop_on(ButtonKey_t *key);
+void estop_off(ButtonKey_t *key);
+
+ButtonKey_t probe_int = {
+    .instance = {1, &PINA, PROBE_INT_PIN},
+    .state = IDLE,
+    .last_state = IDLE,
+    .active_state = GPIO_PIN_SET,
+    .timer_debounce_on = 10000,  // 1000 ms
+    .timer_debounce_off = 10000, // 1 ms
+    .buttonReleased = probe_int_off,
+    .buttonPressed = probe_int_on,
+};
+
+ButtonKey_t estop_in = {
+    .instance = {2, &PINA, ESTOP_IN_PIN},
+    .state = IDLE,
+    .last_state = IDLE,
+    .active_state = GPIO_PIN_RESET,
+    .timer_debounce_on = 10,  // 1 ms
+    .timer_debounce_off = 10, // 1 ms
+    .buttonReleased = estop_off,
+    .buttonPressed = estop_on,
+};
+ButtonKey_t *inputs[2] = {
+    &probe_int,
+    &estop_in,
+};
 
 int main(void)
 {
@@ -14,30 +46,37 @@ int main(void)
     // LED12_SW_PORT |= (1 << LED12_SW_PIN);
     // LED34_SW_PORT |= (1 << LED34_SW_PIN);
     led_pwm();
+    timer0_init();
+
+    sei(); // Enable global interrupts
 
     // uint8_t i = 0;
     while (1)
     {
-        if (PINA & (1 << PROBE_INT_PIN))
-        {
-            LED12_SW_PORT |= (1 << LED12_SW_PIN);
-            LED34_SW_PORT |= (1 << LED34_SW_PIN);
-        }
-        else
-        {
-            LED12_SW_PORT &= ~(1 << LED12_SW_PIN);
-            LED34_SW_PORT &= ~(1 << LED34_SW_PIN);
-        }
+        // if (PINA & (1 << PROBE_INT_PIN))
+        // {
+        //     LED12_SW_PORT |= (1 << LED12_SW_PIN);
+        //     LED34_SW_PORT |= (1 << LED34_SW_PIN);
+        // }
+        // else
+        // {
+        //     LED12_SW_PORT &= ~(1 << LED12_SW_PIN);
+        //     LED34_SW_PORT &= ~(1 << LED34_SW_PIN);
+        // }
 
-        if (!(PINA & (1 << ESTOP_IN_PIN)))
+        // if (!(PINA & (1 << ESTOP_IN_PIN)))
+        // {
+        //     TCCR1A &= ~(1 << COM1A1); // Wyłącz PWM
+        //     LED_PWM_PORT &= ~(1 << LED_PWM_PIN);
+        // }
+        // else
+        // {
+        //     TCCR1A |= (1 << COM1A1); // Włącz PWM
+        //     // LED_PWM_PORT |= (1 << LED_PWM_PIN);
+        // }
+        for (uint8_t i = 0; i < sizeof(inputs) / sizeof(inputs[0]); i++)
         {
-            TCCR1A &= ~(1 << COM1A1); // Wyłącz PWM
-            LED_PWM_PORT &= ~(1 << LED_PWM_PIN);
-        }
-        else
-        {
-            TCCR1A |= (1 << COM1A1); // Włącz PWM
-            // LED_PWM_PORT |= (1 << LED_PWM_PIN);
+            buttonHandler(inputs[i]);
         }
     }
     return 0;
@@ -53,4 +92,25 @@ void led_pwm(void)
 
     // Ustaw wartość w rejestrze OCR1A (wypełnienie PWM)
     OCR1A = 2; // 50% wypełnienia (dla 8-bit: 128/255)
+}
+
+void probe_int_on(ButtonKey_t *key)
+{
+    LED12_SW_PORT |= (1 << LED12_SW_PIN);
+    LED34_SW_PORT |= (1 << LED34_SW_PIN);
+}
+void probe_int_off(ButtonKey_t *key)
+{
+    LED12_SW_PORT &= ~(1 << LED12_SW_PIN);
+    LED34_SW_PORT &= ~(1 << LED34_SW_PIN);
+}
+void estop_on(ButtonKey_t *key)
+{
+    TCCR1A &= ~(1 << COM1A1); // Wyłącz PWM
+    LED_PWM_PORT &= ~(1 << LED_PWM_PIN);
+}
+void estop_off(ButtonKey_t *key)
+{
+    TCCR1A |= (1 << COM1A1); // Włącz PWM
+    // LED_PWM_PORT |= (1 << LED_PWM_PIN);
 }