#include "Arduino.h" #include "esp32-hal.h" extern "C" void receive_trampoline(uint32_t *data, size_t len, void * arg); class MyProcessor { private: rmt_obj_t* rmt_recv = NULL; float realNanoTick; uint32_t buff; // rolling buffer of most recent 32 bits. int at = 0; public: MyProcessor(uint8_t pin, float nanoTicks) { if ((rmt_recv = rmtInit(pin, RMT_RX_MODE, RMT_MEM_192)) == NULL) { Serial.println("init receiver failed\n"); } realNanoTick = rmtSetTick(rmt_recv, nanoTicks); }; void begin() { rmtRead(rmt_recv, receive_trampoline, this); }; void process(rmt_data_t *data, size_t len) { for (int i = 0; len; len--) { if (data[i].duration0 == 0) break; buff = (buff << 1) | (data[i].level0 ? 1 : 0); i++; if (data[i].duration1 == 0) break; buff = (buff << 1) | (data[i].level1 ? 1 : 0); i++; }; }; uint32_t val() { return buff; } }; void receive_trampoline(uint32_t *data, size_t len, void * arg) { MyProcessor * p = (MyProcessor *)arg; p->process((rmt_data_t*) data, len); } // Attach 3 processors to GPIO 4, 5 and 10 with different tick/speeds. MyProcessor mp1 = MyProcessor(4, 1000); MyProcessor mp2 = MyProcessor(5, 1000); MyProcessor mp3 = MyProcessor(10, 500); void setup() { Serial.begin(115200); mp1.begin(); mp2.begin(); mp3.begin(); } void loop() { Serial.printf("GPIO 4: %08x 5: %08x 10: %08x\n", mp1.val(), mp2.val(), mp3.val()); delay(500); }