unleashed-firmware/lib/toolbox/pulse_joiner.c
2024-07-15 20:02:45 +03:00

118 lines
3.3 KiB
C

#include "pulse_joiner.h"
#include <furi.h>
#define PULSE_MAX_COUNT 6
typedef struct {
bool polarity;
uint16_t time;
} Pulse;
struct PulseJoiner {
size_t pulse_index;
Pulse pulses[PULSE_MAX_COUNT];
};
PulseJoiner* pulse_joiner_alloc(void) {
PulseJoiner* pulse_joiner = malloc(sizeof(PulseJoiner));
pulse_joiner->pulse_index = 0;
for(uint8_t i = 0; i < PULSE_MAX_COUNT; i++) {
pulse_joiner->pulses[i].polarity = false;
pulse_joiner->pulses[i].time = 0;
}
return pulse_joiner;
}
void pulse_joiner_free(PulseJoiner* pulse_joiner) {
free(pulse_joiner);
}
bool pulse_joiner_push_pulse(PulseJoiner* pulse_joiner, bool polarity, size_t period, size_t pulse) {
bool result = false;
furi_check((pulse_joiner->pulse_index + 1) < PULSE_MAX_COUNT);
if(polarity == false && pulse_joiner->pulse_index == 0) {
// first negative pulse is omitted
} else {
pulse_joiner->pulses[pulse_joiner->pulse_index].polarity = polarity;
pulse_joiner->pulses[pulse_joiner->pulse_index].time = pulse;
pulse_joiner->pulse_index++;
}
if(period > pulse) {
pulse_joiner->pulses[pulse_joiner->pulse_index].polarity = !polarity;
pulse_joiner->pulses[pulse_joiner->pulse_index].time = period - pulse;
pulse_joiner->pulse_index++;
}
if(pulse_joiner->pulse_index >= 4) {
// we know that first pulse is always high
// so we wait 2 edges, hi2low and next low2hi
uint8_t edges_count = 0;
bool last_polarity = pulse_joiner->pulses[0].polarity;
for(uint8_t i = 1; i < pulse_joiner->pulse_index; i++) {
if(pulse_joiner->pulses[i].polarity != last_polarity) {
edges_count++;
last_polarity = pulse_joiner->pulses[i].polarity;
}
}
if(edges_count >= 2) {
result = true;
}
}
return result;
}
void pulse_joiner_pop_pulse(PulseJoiner* pulse_joiner, size_t* period, size_t* pulse) {
furi_check(pulse_joiner->pulse_index <= (PULSE_MAX_COUNT + 1));
uint16_t tmp_period = 0;
uint16_t tmp_pulse = 0;
uint8_t edges_count = 0;
bool last_polarity = pulse_joiner->pulses[0].polarity;
uint8_t next_fist_pulse = 0;
for(uint8_t i = 0; i < PULSE_MAX_COUNT; i++) {
// count edges
if(pulse_joiner->pulses[i].polarity != last_polarity) {
edges_count++;
last_polarity = pulse_joiner->pulses[i].polarity;
}
// wait for 2 edges
if(edges_count == 2) {
next_fist_pulse = i;
break;
}
// sum pulse time
if(pulse_joiner->pulses[i].polarity) {
tmp_period += pulse_joiner->pulses[i].time;
tmp_pulse += pulse_joiner->pulses[i].time;
} else {
tmp_period += pulse_joiner->pulses[i].time;
}
pulse_joiner->pulse_index--;
}
*period = tmp_period;
*pulse = tmp_pulse;
// remove counted periods and shift data
for(uint8_t i = 0; i < PULSE_MAX_COUNT; i++) {
if((next_fist_pulse + i) < PULSE_MAX_COUNT) {
pulse_joiner->pulses[i].polarity = pulse_joiner->pulses[next_fist_pulse + i].polarity;
pulse_joiner->pulses[i].time = pulse_joiner->pulses[next_fist_pulse + i].time;
} else {
break;
}
}
}