handle rotaray encoder and reconnect homing

platformio.ini

@@ -9,11 +9,12 @@
 ; https://docs.platformio.org/page/projectconf.html
 
 [env:esp32]
-platform = espressif32
+platform = espressif32 @ ^6.10.0
 board = esp32dev
 framework = arduino
 lib_deps =  
     FastAccelStepper
     PubSubClient
     ArduinoJson
+    RotaryEncoder
 

src/main.cpp

@@ -2,92 +2,75 @@
 #include <FastAccelStepper.h>
 #include <WiFi.h>
 #include <PubSubClient.h>
+#include <RotaryEncoder.h>
+#include <EEPROM.h>
 
 const uint8_t bottom_dir_pin = 5, top_dir_pin = 18;
 const uint8_t bottom_step_pin = 4, top_step_pin = 17;
 const uint8_t bottom_en_pin = 12, top_en_pin = 16;
 const uint8_t encoder_a = 19, encoder_b = 21;
 
-const char* ssid = "IOT-pecan";
-const char* password = "aaaaaaaa";
-const char* mqttServer = "192.168.1.110";
-const int mqttPort = 1883;
-const char* mqttHeightTopic = "/jc/height";
-const char* mqttAngleTopic = "/jc/angle";
-const char* mqttStopTopic = "/jc/stop";
+#define EEPROM_SIZE 4
 
-const char* mqttHeightLogTopic = "/jc/height/log";
-const char* mqttAngleLogTopic = "/jc/angle/log";
-const char* mqttRPMLogTopic = "/jc/rpm/log";
+const char *ssid = "IOT-pecan";
+const char *password = "aaaaaaaa";
+const char *mqttServer = "192.168.1.110";
+const int mqttPort = 1883;
+const char *mqttHeightTopic = "/jc/height";
+const char *mqttAngleTopic = "/jc/angle";
+const char *mqttStopTopic = "/jc/stop";
+
+const char *mqttHeightLogTopic = "/jc/height/log";
+const char *mqttAngleLogTopic = "/jc/angle/log";
+const char *mqttRPMLogTopic = "/jc/rpm/log";
 
 // Thread pitch: 11 TPI (0.0909 in/rev)
 // Steps per revolution: 2000;
 const int steps_per_thou = 22;
 
 FastAccelStepperEngine engine = FastAccelStepperEngine();
-FastAccelStepper *bottom_stepper=nullptr;
-FastAccelStepper *top_stepper=nullptr;
+FastAccelStepper *bottom_stepper = nullptr;
+FastAccelStepper *top_stepper = nullptr;
+
+RotaryEncoder encoder(encoder_a, encoder_b);
 
 WiFiClient wifiClient;
 PubSubClient mqttClient(wifiClient);
 
-void callback(char* topic, byte* payload, unsigned int length);
-
-volatile int encoder_count_a = 0, encoder_count_b = 0;
-volatile int last_encoder_count_a = 0, last_encoder_count_b = 0;
-volatile double rotations_since_last = 0;
-volatile float encoder_rpm = 0;
-uint16_t ticks_per_rotation = 600;
+void callback(char *topic, byte *payload, unsigned int length);
 
 volatile long long bottom_step_goal = 0, top_step_goal = 0;
 volatile bool bottom_step_done = true, top_step_done = true;
 volatile bool bottom_step_sent = false, top_step_sent = false;
 volatile bool do_home = false;
 
-auto timer = timerBegin(0, 80, true);
-
-void setup() {
+void setup()
+{
   Serial.begin(9600);
+  EEPROM.begin(EEPROM_SIZE);
   engine.init();
   bottom_stepper = engine.stepperConnectToPin(bottom_step_pin);
-  if (bottom_stepper) {
+  if (bottom_stepper)
+  {
     bottom_stepper->setDirectionPin(bottom_dir_pin);
     bottom_stepper->setEnablePin(bottom_en_pin, false);
     bottom_stepper->setSpeedInHz(1000);
     bottom_stepper->setAcceleration(250);
+    bottom_stepper->setCurrentPosition(EEPROM.read(0) << 8 | EEPROM.read(1));
   }
   top_stepper = engine.stepperConnectToPin(top_step_pin);
-  if (top_stepper) {
+  if (top_stepper)
+  {
     top_stepper->setDirectionPin(top_dir_pin);
     top_stepper->setEnablePin(top_en_pin, false);
     top_stepper->setSpeedInHz(1000);
     top_stepper->setAcceleration(250);
+    top_stepper->setCurrentPosition(EEPROM.read(2) << 8 | EEPROM.read(3));
   }
 
-  pinMode(encoder_a, INPUT_PULLUP);
-  pinMode(encoder_b, INPUT_PULLUP);
-  attachInterrupt(encoder_a, []() {
-    encoder_count_a++;
-    double rotations = 0;
-    if(encoder_count_a > ticks_per_rotation / 100) {
-      rotations = (double)encoder_count_a / ticks_per_rotation;
-      rotations_since_last += rotations / 2;
-      encoder_count_a -= ticks_per_rotation * rotations;
-    }
-  }, FALLING);
-
-  attachInterrupt(encoder_b, []() {
-    encoder_count_b++;
-    double rotations = 0;
-    if(encoder_count_b > ticks_per_rotation / 100) {
-      rotations = (double)encoder_count_b / ticks_per_rotation;
-      rotations_since_last += rotations / 2;
-      encoder_count_b -= ticks_per_rotation * rotations;
-    }
-  }, FALLING);
-
   WiFi.begin(ssid, password);
-  while (WiFi.status() != WL_CONNECTED) {
+  while (WiFi.status() != WL_CONNECTED)
+  {
     delay(1000);
     Serial.println("Connecting to WiFi...");
   }
@@ -99,15 +82,21 @@ void setup() {
   Serial.println("Connected to MQTT");
 }
 
-void reconnect() {
-  while (!mqttClient.connected()) {
-    if (WiFi.status() != WL_CONNECTED) WiFi.reconnect();
+void reconnect()
+{
+  while (!mqttClient.connected())
+  {
+    if (WiFi.status() != WL_CONNECTED)
+      WiFi.reconnect();
     Serial.println("Attempting MQTT connection...");
-    if (mqttClient.connect("ESP32Client")) {
+    if (mqttClient.connect("ESP32Client"))
+    {
       Serial.println("connected");
       mqttClient.subscribe(mqttHeightTopic);
       mqttClient.subscribe(mqttAngleTopic);
-    } else {
+    }
+    else
+    {
       Serial.print("failed, rc=");
       Serial.print(mqttClient.state());
       Serial.println(" try again in 5 seconds");
@@ -119,16 +108,19 @@ void reconnect() {
 volatile int top_angle_difference_steps = steps_per_thou * 188;
 volatile bool stop = false;
 
-void callback(char* topic, byte* payload, unsigned int length) {
+void callback(char *topic, byte *payload, unsigned int length)
+{
   String topic_str = String(topic);
   String payload_str = "";
-  for (int i = 0; i < length; i++) {
+  for (int i = 0; i < length; i++)
+  {
     payload_str += (char)payload[i];
   }
 
   int value = payload_str.toInt();
 
-  if (topic_str == mqttHeightTopic) {
+  if (topic_str == mqttHeightTopic)
+  {
     value -= 1875 - 210;
     value *= steps_per_thou;
     Serial.println(value);
@@ -139,74 +131,92 @@ void callback(char* topic, byte* payload, unsigned int length) {
     top_step_goal = value + top_angle_difference_steps;
     top_step_done = false;
     top_step_sent = false;
-  } else if (topic_str == mqttAngleTopic) {
+  }
+  else if (topic_str == mqttAngleTopic)
+  {
     stop = false;
     top_angle_difference_steps = value * steps_per_thou;
     top_step_goal = bottom_step_goal + top_angle_difference_steps;
     top_step_done = false;
     top_step_sent = false;
-  } else if (topic_str == mqttStopTopic) {
+  }
+  else if (topic_str == mqttStopTopic)
+  {
     stop = true;
   }
-  if (top_step_goal < -1665 * steps_per_thou) top_step_goal = -1665 * steps_per_thou;
-  if (bottom_step_goal < -1665 * steps_per_thou) bottom_step_goal = -1665 * steps_per_thou;
+  if (top_step_goal < -1665 * steps_per_thou)
+    top_step_goal = -1665 * steps_per_thou;
+  if (bottom_step_goal < -1665 * steps_per_thou)
+    bottom_step_goal = -1665 * steps_per_thou;
 
-  if(top_step_goal > 0) top_step_goal = 0;
-  if(bottom_step_goal > 0) bottom_step_goal = 0;
+  if (top_step_goal > 0)
+    top_step_goal = 0;
+  if (bottom_step_goal > 0)
+    bottom_step_goal = 0;
 }
 
 long last_publish_time = 0;
 bool bot_homed = false, top_homed = false;
-void loop() {
-  if (!mqttClient.connected()) {
+void loop()
+{
+  if (!mqttClient.connected())
+  {
     reconnect();
   }
   mqttClient.loop();
 
-  if (unsigned long elapsed = (millis() - last_publish_time) > 1000) {
-    encoder_rpm = (float)rotations_since_last * 60 / elapsed;
+  encoder.tick();
 
-    // clamp encoder rpm to 0 if below 50
-    if (encoder_rpm < 50) {
-      encoder_rpm = 0;
-    }
-
-    rotations_since_last = 0;
+  if (unsigned long elapsed = (millis() - last_publish_time) > 1000)
+  {
     last_publish_time = millis();
     mqttClient.publish(mqttHeightLogTopic, String(1665 + bottom_stepper->getCurrentPosition() / steps_per_thou).c_str());
     mqttClient.publish(mqttAngleLogTopic, String((top_stepper->getCurrentPosition() - bottom_stepper->getCurrentPosition()) / steps_per_thou).c_str());
-    mqttClient.publish(mqttRPMLogTopic, String(encoder_rpm).c_str());
+    mqttClient.publish(mqttRPMLogTopic, String(encoder.getRPM()).c_str());
   }
 
-  if(stop) {
+  if (stop)
+  {
     bottom_stepper->disableOutputs();
     top_stepper->disableOutputs();
-  } else {
+  }
+  else
+  {
     bottom_stepper->enableOutputs();
     top_stepper->enableOutputs();
   }
 
-  if(bottom_stepper->getCurrentPosition() != bottom_step_goal && !bottom_step_done && !bottom_step_sent) {
+  if (bottom_stepper->getCurrentPosition() != bottom_step_goal && !bottom_step_done && !bottom_step_sent)
+  {
     bottom_stepper->moveTo(bottom_step_goal);
     bottom_step_sent = true;
     Serial.println("Moving bottom stepper");
   }
 
-  if(top_stepper->getCurrentPosition() != top_step_goal && !top_step_done && !top_step_sent) {
+  if (top_stepper->getCurrentPosition() != top_step_goal && !top_step_done && !top_step_sent)
+  {
     top_stepper->moveTo(top_step_goal);
     top_step_sent = true;
     Serial.println("Moving top stepper");
   }
 
-  if(bottom_stepper->getCurrentPosition() == bottom_step_goal && !bottom_step_done && bottom_step_sent) {
+  if (bottom_stepper->getCurrentPosition() == bottom_step_goal && !bottom_step_done && bottom_step_sent)
+  {
     bottom_step_done = true;
     bottom_step_sent = false;
+    EEPROM.write(0, bottom_stepper->getCurrentPosition() >> 8);
+    EEPROM.write(1, bottom_stepper->getCurrentPosition() & 0xFF);
     Serial.println("Bottom stepper done");
   }
 
-  if(top_stepper->getCurrentPosition() == top_step_goal && !top_step_done && top_step_sent) {
+  if (top_stepper->getCurrentPosition() == top_step_goal && !top_step_done && top_step_sent)
+  {
     top_step_done = true;
     top_step_sent = false;
+    EEPROM.write(2, top_stepper->getCurrentPosition() >> 8);
+    EEPROM.write(3, top_stepper->getCurrentPosition() & 0xFF);
     Serial.println("Top stepper done");
   }
+
+  EEPROM.commit();
 }