Some old AVR projects
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#pragma once
/**
An implementation of button debouncer.
First, the system must be initialized - even before including:
#define DEBO_CHANNELS 2
#define DEBO_TICKS 5
#inclue "lib/debounce.h"
A pin is registered like this:
#define BTN1 B,0
#define BTN2 B,1
debo_add(BTN0); // The function returns number assigned to the pin (0, 1, ...)
debo_add_rev(BTN1); // active low
debo_register(&PINB, PB2, 0); // direct access - register, pin & invert
Then periodically call the tick function (perhaps in a timer interrupt):
debo_tick();
To check if input is active, use
debo_get_pin(0); // state of input registered as #0
debo_get_pin(1); // state of input registered as #1
*/
#include <avr/io.h>
#include <stdbool.h>
#include "calc.h"
#include "pins.h"
// Number of pins to debounce
#ifndef DEBO_CHANNELS
# error "DEBO_CHANNELS not defined!"
#endif
#ifndef DEBO_TICKS
# warning "DEBO_TICKS not defined, defaulting to 5!"
# define DEBO_TICKS 5
#endif
/* Internal deboucer entry */
typedef struct {
PORT_P reg;
uint8_t bit;
uint8_t count;
} debo_slot_t;
/** Debounce data array */
debo_slot_t debo_slots[DEBO_CHANNELS];
uint8_t debo_next_slot = 0;
/** Define a debounced pin (must be IO!) */
#define debo_add_rev(io) debo_register(&io2pin(io_pack(io)), io2n(io_pack(io)), 1)
#define debo_add(io) debo_register(&io2pin(io_pack(io)), io2n(io_pack(io)), 0)
uint8_t debo_register(PORT_P reg, uint8_t bit, bool invert)
{
debo_slots[debo_next_slot] = (debo_slot_t){
.reg = reg,
.bit = bit | ((invert & 1) << 7) | (get_bit_p(reg, bit) << 6), // bit 7 = invert, bit 6 = state
.count = 0,
};
return debo_next_slot++;
}
/** Check debounced pins, should be called periodically. */
void debo_tick()
{
for (uint8_t i = 0; i < debo_next_slot; i++) {
// current pin value (right 3 bits, xored with inverse bit)
bool value = get_bit_p(debo_slots[i].reg, debo_slots[i].bit & 0x7);
if (value != get_bit(debo_slots[i].bit, 6)) {
// different pin state than last recorded state
if (debo_slots[i].count < DEBO_TICKS) {
debo_slots[i].count++;
} else {
// overflown -> latch value
set_bit(debo_slots[i].bit, 6, value); // set state bit
debo_slots[i].count = 0;
}
} else {
debo_slots[i].count = 0; // reset the counter
}
}
}
/** Get a value of debounced pin */
#define debo_get_pin(i) (get_bit(debo_slots[i].bit, 6) ^ get_bit(debo_slots[i].bit, 7))
//(get_bit(debo_slots[i].bit, 6) ^ get_bit(debo_slots[i].bit, 7))