old pwm

include/pwm.h

@@ -0,0 +1,44 @@
+#pragma once
+
+#include "PCA9685.h"
+
+#define SENSOR1 15
+#define SENSOR2 12
+
+#define INT_TIME 20         // interrupt intervall [ms]
+class Treppe {
+    private:
+    uint8_t stairs;
+    uint16_t time_per_stair = 200;          // dimmtime per stair [ms]
+    uint16_t idle_brightness = 0;
+    uint16_t active_brightness = 1048;
+
+    uint8_t direction = 0;
+    uint8_t switch_direction = 0;
+    uint8_t state = 0;
+    uint8_t switch_state = 0;
+    uint8_t finish = 1;
+
+    // initialize with i2c-Address 0, use Wire Library
+    PCA9685 pwmController;     
+    uint8_t softstart_led(uint8_t led, uint16_t startval, uint16_t stopval);
+    void ledsequence();
+
+    public:
+    Treppe(uint8_t _stairs) : stairs(_stairs){}
+    void task();        // call periodically
+
+    void setup();
+
+    // Parameter section
+    uint16_t setIdle(uint16_t _idle_brightness);
+    uint16_t setActive(uint16_t _active_brightness);
+    uint16_t setTime(uint16_t _time_per_stair);
+
+    // Runtime Parameter section
+    uint8_t setDirection(uint8_t _direction);
+    uint8_t setState(uint8_t _state);
+
+    uint8_t getState() { return state;};
+    uint8_t getDirection() {return direction;};
+};

src/pwm.cpp

@@ -0,0 +1,183 @@
+#include "pwm.h"
+
+uint8_t Treppe::softstart_led(uint8_t led, uint16_t startval, uint16_t stopval){
+    /*
+  softstart task
+
+  - get's called at regular intervals (1ms at the moment)
+  - dimms single led (0 - 15, PCA9685 outputs) with linear intervals vom startval to stopval
+  - calculates pwm steps depending on startval, stopval and timeinterval
+  - -> results in constanst speed
+  - returns 1 if led dimming is running
+  - returns 0 if led dimming is finished
+
+  */
+
+    static uint8_t lastled = 255;
+    static float current_pwm = 0;
+    static float stepsize = 1.0;
+    if(led != lastled){
+      pwmController.setChannelPWM(led, (uint16_t)startval);
+      lastled = led;
+      current_pwm = startval;
+      stepsize = INT_TIME*abs(stopval - startval)/(float)time_per_stair;      // only valid at 1ms function call interval
+      return 1;
+    }
+    
+    if(startval > stopval){
+      current_pwm -= stepsize;
+    }
+    else {
+      current_pwm += stepsize;
+    }
+    Serial.println((uint16_t)current_pwm);
+    pwmController.setChannelPWM(led, (uint16_t)current_pwm);
+    if(current_pwm > stopval - stepsize && current_pwm < stopval + stepsize){
+      if(stopval == 0) pwmController.setChannelPWM(led, 0);
+      return 0;
+    } 
+    return 1;
+}
+
+void Treppe::ledsequence(){
+  static int8_t led = 0;
+  static uint16_t brightness = 0;
+  static uint16_t lastbrightness = 0;
+  static uint16_t status = 0;
+  uint16_t status_build = 0;
+  status_build |= direction << 8;
+  status_build |= state;
+  if(status_build != status){                 // check if any parameter changed
+    finish = 0;                               // set state unfinished -> start action
+    if(direction) led = 0;                    // reset led counter depending of direction
+    else          led = stairs-1;
+    if(state){
+      brightness = active_brightness;           // set brightness value depending of on/off
+      lastbrightness = idle_brightness;
+    }     
+    else{
+      brightness = idle_brightness;
+      lastbrightness = active_brightness;
+    }          
+    status = status_build;                    // set parameter memory
+    Serial.print("----Status Changed! onoff: ");
+    Serial.print(state);
+    Serial.print(" dir: ");
+    Serial.println(direction);
+
+  }
+  if(!finish){                                // finish == 0 -> action pending
+      if(!softstart_led(led,lastbrightness, brightness)){
+        Serial.print("one LED finished: ");
+        Serial.print(led);
+        Serial.print(" last: ");
+        Serial.print(lastbrightness);
+        Serial.print(" curr: ");
+        Serial.println(brightness);
+        if(direction){
+          led++;
+          if(led >= stairs) {
+            finish = 1;
+            //lastbrightness = brightness;
+            }
+        } 
+        else{
+           led--;
+           if(led < 0){
+             //lastbrightness = brightness;
+             finish = 1;
+            }
+        }
+      }
+  }
+}
+
+void Treppe::setup(){
+    pwmController.resetDevices();
+    
+    // Deactive PCA9685 Phase Balancer due to LED Flickering
+    // https://github.com/NachtRaveVL/PCA9685-Arduino/issues/15
+    // see also lib/PCA9685-Arduin/PCA9685.h:204
+    pwmController.init(PCA9685_PhaseBalancer_None);
+    pwmController.setPWMFrequency(200);
+    pwmController.setAllChannelsPWM(idle_brightness);
+
+    pinMode(SENSOR1, INPUT);
+    pinMode(SENSOR2, INPUT);
+    Serial.println("Hello from Treppe");
+    Serial.print("Treppe: initial parameters: stairs=");
+    Serial.println(stairs);
+}
+void Treppe::task(){
+
+  if(finish){
+    direction = switch_direction;
+    state = switch_state;
+  }  
+  static uint8_t last_sensor_state[2] = {0,0}; 
+  uint8_t current_sensor_state[2] = {0,0};
+  current_sensor_state[0] = digitalRead(SENSOR1);
+  current_sensor_state[1] = digitalRead(SENSOR2);
+  
+  if(current_sensor_state[0] && !last_sensor_state[0] && state == 0){
+    setDirection(1);
+    setState(1);
+  }
+
+  if(current_sensor_state[1] && !last_sensor_state[1] && state == 0){
+    setDirection(0);
+    setState(1);
+  }
+
+  // first switch - off approach, use timer later
+  if(!current_sensor_state[0] && last_sensor_state[0] && state == 1){
+    setDirection(1);
+    setState(0);
+  }
+
+  if(!current_sensor_state[1] && last_sensor_state[1] && state == 1){
+    setDirection(0);
+    setState(0);
+  }
+
+  last_sensor_state[0] = current_sensor_state[0];
+  last_sensor_state[1] = current_sensor_state[1];
+  ledsequence();
+
+}
+
+uint16_t Treppe::setIdle(uint16_t _idle_brightness){
+    idle_brightness = _idle_brightness;
+    Serial.println("Treppe: idle brightness changed!");
+    return idle_brightness;
+}
+uint16_t Treppe::setActive(uint16_t _active_brightness){
+    active_brightness = _active_brightness;
+    Serial.println("Treppe: active brightness changed!");
+    return active_brightness;
+}
+uint16_t Treppe::setTime(uint16_t _time_per_stair){
+    time_per_stair = _time_per_stair;
+    Serial.println("Treppe: time changed!");
+    return time_per_stair;
+}
+
+uint8_t Treppe::setDirection(uint8_t _direction){
+    switch_direction = _direction;
+    Serial.println("Treppe: Direction changed!");
+    if(finish) Serial.println("apply direction request immediately");
+    else  Serial.println("currently active, dir change afterwards");
+    // to do: implement state command variable to determine dimm-state
+    return switch_direction;
+}
+
+uint8_t Treppe::setState(uint8_t _state){
+    if(state == _state) return 1;
+    else{
+        switch_state = _state;
+        Serial.println("Treppe: State Request changed!");
+        if(finish) Serial.println("apply state request immediately");
+        else Serial.println("currently active, state changes after activity");
+    }  
+    return 0;
+}