unleashed-firmware/lib/toolbox/pulse_protocols/pulse_glue.c

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#include "pulse_glue.h"
struct PulseGlue {
int32_t hi_period;
int32_t low_period;
int32_t next_hi_period;
};
PulseGlue* pulse_glue_alloc(void) {
PulseGlue* pulse_glue = malloc(sizeof(PulseGlue));
pulse_glue_reset(pulse_glue);
return pulse_glue;
}
void pulse_glue_free(PulseGlue* pulse_glue) {
free(pulse_glue);
}
void pulse_glue_reset(PulseGlue* pulse_glue) {
pulse_glue->hi_period = 0;
pulse_glue->low_period = 0;
pulse_glue->next_hi_period = 0;
}
bool pulse_glue_push(PulseGlue* pulse_glue, bool polarity, uint32_t length) {
bool pop_ready = false;
if(polarity) {
if(pulse_glue->low_period == 0) {
// stage 1, accumulate hi period
pulse_glue->hi_period += length;
} else {
// stage 3, accumulate next hi period and be ready for pulse_glue_pop
pulse_glue->next_hi_period = length;
// data is ready
pop_ready = true;
}
} else {
if(pulse_glue->hi_period != 0) {
// stage 2, accumulate low period
pulse_glue->low_period += length;
}
}
return pop_ready;
}
void pulse_glue_pop(PulseGlue* pulse_glue, uint32_t* length, uint32_t* period) {
*length = pulse_glue->hi_period + pulse_glue->low_period;
*period = pulse_glue->hi_period;
pulse_glue->hi_period = pulse_glue->next_hi_period;
pulse_glue->low_period = 0;
pulse_glue->next_hi_period = 0;
}