arduino-esp32/libraries/ESP32/examples/RMT/RMTCallback/RMTCallback.ino

#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) {
      assert((rmt_recv = rmtInit(21, false, RMT_MEM_192)));

      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 6: %08x\n", mp1.val(), mp2.val(), mp3.val());
  delay(500);
}
Add an aditional (void ) arg to the RMT callback (much like Ticker() et.al.). (#3345) Add an aditional (void ) arg to the RMT callback - to allow more flexible handling of the callback (e.g. by passing a private struct or a class pointer). Same pattern as used by the Ticker() and many others. Example updated & new example with a trapoline added. Fix example for new API * Fix lint warnings * Add a second missed example. * Correct timeout & improve socket error handling. 2020-10-14 13:41:50 +02:00			`#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) {`
			`assert((rmt_recv = rmtInit(21, false, RMT_MEM_192)));`

			`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 6: %08x\n", mp1.val(), mp2.val(), mp3.val());`
			`delay(500);`
			`}`