WLED/usermods/Animated_Staircase/Animated_Staircase.h

/*
 * Usermod for detecting people entering/leaving a staircase and switching the
 * staircase on/off.
 *
 * Edit the Animated_Staircase_config.h file to compile this usermod for your
 * specific configuration.
 * 
 * See the accompanying README.md file for more info.
 */
#pragma once
#include "wled.h"
#include "Animated_Staircase_config.h"
#define USERMOD_ID_ANIMATED_STAIRCASE 1011

/* Initial configuration (available in API and stored in flash) */
bool enabled = true;                   // Enable this usermod
unsigned long segment_delay_ms = 150;  // Time between switching each segment
unsigned long on_time_ms = 5 * 1000;   // The time for the light to stay on
#ifndef TOP_PIR_PIN
unsigned int topMaxTimeUs = 1749;  // default echo timout, top
#endif
#ifndef BOTTOM_PIR_PIN
unsigned int bottomMaxTimeUs = 1749;  // default echo timout, bottom
#endif

// Time between checking of the sensors
const int scanDelay = 50;

class Animated_Staircase : public Usermod {
 private:
  // Lights on or off.
  // Flipping this will start a transition.
  bool on = false;

  // Swipe direction for current transition
#define SWIPE_UP true
#define SWIPE_DOWN false
  bool swipe = SWIPE_UP;

  // Indicates which Sensor was seen last (to determine
  // the direction when swiping off)
#define LOWER false
#define UPPER true
  bool lastSensor = LOWER;

  // Time of the last transition action
  unsigned long lastTime = 0;

  // Time of the last sensor check
  unsigned long lastScanTime = 0;

  // Last time the lights were switched on or off
  unsigned long lastSwitchTime = 0;

  // segment id between onIndex and offIndex are on.
  // controll the swipe by setting/moving these indices around.
  // onIndex must be less than or equal to offIndex
  byte onIndex = 0;
  byte offIndex = 0;

  // The maximum number of configured segments.
  // Dynamically updated based on user configuration.
  byte maxSegmentId = 1;
  byte mainSegmentId = 0;

  bool saveState = false;

  // These values are used by the API to read the
  // last sensor state, or trigger a sensor
  // through the API
  bool topSensorRead = false;
  bool topSensorWrite = false;
  bool bottomSensorRead = false;
  bool bottomSensorWrite = false;  

  void updateSegments() {
    mainSegmentId = strip.getMainSegmentId();
    WS2812FX::Segment mainsegment = strip.getSegment(mainSegmentId);
    WS2812FX::Segment* segments = strip.getSegments();
    for (int i = 0; i < MAX_NUM_SEGMENTS; i++, segments++) {
      if (!segments->isActive()) {
        maxSegmentId = i - 1;
        break;
      }

      if (i >= onIndex && i < offIndex) {
        segments->setOption(SEG_OPTION_ON, 1, 1);

        // We may need to copy mode and colors from segment 0 to make sure
        // changes are propagated even when the config is changed during a wipe
        // segments->mode = mainsegment.mode;
        // segments->colors[0] = mainsegment.colors[0];
      } else {
        segments->setOption(SEG_OPTION_ON, 0, 1);
      }
      // Always mark segments as "transitional", we are animating the staircase
      segments->setOption(SEG_OPTION_TRANSITIONAL, 1, 1);
    }
    colorUpdated(NOTIFIER_CALL_MODE_DIRECT_CHANGE);
  }

  /*
   * Detects if an object is within ultrasound range.
   * signalPin: The pin where the pulse is sent
   * echoPin:   The pin where the echo is received
   * maxTimeUs: Detection timeout in microseconds. If an echo is
   *            received within this time, an object is detected
   *            and the function will return true.
   *
   * The speed of sound is 343 meters per second at 20 degress Celcius.
   * Since the sound has to travel back and forth, the detection
   * distance for the sensor in cm is (0.0343 * maxTimeUs) / 2.
   *
   * For practical reasons, here are some useful distances:
   *
   * Distance =	maxtime
   *     5 cm =  292 uS
   *    10 cm =  583 uS
   *    20 cm = 1166 uS
   *    30 cm = 1749 uS
   *    50 cm = 2915 uS
   *   100 cm = 5831 uS
   */
  bool ultrasoundRead(uint8_t signalPin,
                      uint8_t echoPin,
                      unsigned int maxTimeUs) {
    digitalWrite(signalPin, HIGH);
    delayMicroseconds(10);
    digitalWrite(signalPin, LOW);
    return pulseIn(echoPin, HIGH, maxTimeUs) > 0;
  }

  void checkSensors() {
    if ((millis() - lastScanTime) > scanDelay) {
      lastScanTime = millis();

#ifdef BOTTOM_PIR_PIN
      bottomSensorRead = bottomSensorWrite || (digitalRead(BOTTOM_PIR_PIN) == HIGH);
#else
      bottomSensorRead = bottomSensorWrite || ultrasoundRead(BOTTOM_TRIGGER_PIN, BOTTOM_ECHO_PIN, bottomMaxTimeUs);
#endif

#ifdef TOP_PIR_PIN
      topSensorRead = topSensorWrite || (digitalRead(TOP_PIR_PIN) == HIGH);
#else
      topSensorRead = topSensorWrite || ultrasoundRead(TOP_TRIGGER_PIN, TOP_ECHO_PIN, topMaxTimeUs);
#endif

      // Values read, reset the flags for next API call
      topSensorWrite = false;
      bottomSensorWrite = false;

      if (topSensorRead != bottomSensorRead) {
        lastSwitchTime = millis();

        if (on) {
          lastSensor = topSensorRead;
        } else {
          // If the bottom sensor triggered, we need to swipe up, ON
          swipe = bottomSensorRead;

          if (swipe) {
            Serial.println("ON -> Swipe up.");
          } else {
            Serial.println("ON -> Swipe down.");
          }

          if (onIndex == offIndex) {
            // Position the indices for a correct on-swipe
            if (swipe == SWIPE_UP) {
              onIndex = mainSegmentId;
            } else {
              onIndex = maxSegmentId+1;
            }
            offIndex = onIndex;
          }
          on = true;
        }
      }
    }
  }

  void autoPowerOff() {
    if (on && ((millis() - lastSwitchTime) > on_time_ms)) {
      // Swipe OFF in the direction of the last sensor detection
      swipe = lastSensor;
      on = false;

      if (swipe) {
        Serial.println("OFF -> Swipe up.");
      } else {
        Serial.println("OFF -> Swipe down.");
      }
    }
  }

  void updateSwipe() {
    if ((millis() - lastTime) > segment_delay_ms) {
      lastTime = millis();

      byte oldOnIndex = onIndex;
      byte oldOffIndex = offIndex;

      if (on) {
        // Turn on all segments
        onIndex = MAX(mainSegmentId, onIndex - 1);
        offIndex = MIN(maxSegmentId + 1, offIndex + 1);
      } else {
        if (swipe == SWIPE_UP) {
          onIndex = MIN(offIndex, onIndex + 1);
        } else {
          offIndex = MAX(onIndex, offIndex - 1);
        }
      }

      updateSegments();
    }
  }

  void writeSettingsToJson(JsonObject& root) {
    JsonObject staircase = root["staircase"];
    if (staircase.isNull()) {
      staircase = root.createNestedObject("staircase");
    }
    staircase["enabled"] = enabled;
    staircase["segment-delay-ms"] = segment_delay_ms;
    staircase["on-time-s"] = on_time_ms / 1000;

#ifdef TOP_TRIGGER_PIN
    staircase["top-echo-us"] = topMaxTimeUs;
#endif
#ifdef BOTTOM_TRIGGER_PIN
    staircase["bottom-echo-us"] = bottomMaxTimeUs;
#endif
  }

  void writeSensorsToJson(JsonObject& root) {
    JsonObject staircase = root["staircase"];
    if (staircase.isNull()) {
      staircase = root.createNestedObject("staircase");
    }
    staircase["top-sensor"] = topSensorRead;
    staircase["bottom-sensor"] = bottomSensorRead;
  }

  bool readSettingsFromJson(JsonObject& root) {
    JsonObject staircase = root["staircase"];
    bool changed = false;

    bool shouldEnable = staircase["enabled"] | enabled;
    if (shouldEnable != enabled) {
      enable(shouldEnable);
      changed = true;
    }

    unsigned long c_segment_delay_ms = staircase["segment-delay-ms"] | segment_delay_ms;
    if (c_segment_delay_ms != segment_delay_ms) {
      segment_delay_ms = c_segment_delay_ms;
      changed = true;
    }

    unsigned long c_on_time_ms = (staircase["on-time-s"] | (on_time_ms / 1000)) * 1000;
    if (c_on_time_ms != on_time_ms) {
      on_time_ms = c_on_time_ms;
      changed = true;
    }

#ifdef TOP_TRIGGER_PIN
    unsigned int c_topMaxTimeUs = staircase["top-echo-us"] | topMaxTimeUs;
    if (c_topMaxTimeUs != topMaxTimeUs) {
      topMaxTimeUs = c_topMaxTimeUs;
      changed = true;
    }
#endif
#ifdef BOTTOM_TRIGGER_PIN
    unsigned int c_bottomMaxTimeUs = staircase["bottom-echo-us"] | bottomMaxTimeUs;
    if (c_bottomMaxTimeUs != bottomMaxTimeUs) {
      bottomMaxTimeUs = c_bottomMaxTimeUs;
      changed = true;
    }
#endif

    return changed;
  }

  void readSensorsFromJson(JsonObject& root) {
    JsonObject staircase = root["staircase"];
    bottomSensorWrite = bottomSensorRead || (staircase["bottom-sensor"].as<bool>());
    topSensorWrite = topSensorRead || (staircase["top-sensor"].as<bool>());
  }

  void enable(bool enable) {
    if (enable) {
      Serial.println("Animated Staircase enabled.");
      Serial.print("Delay between steps: ");
      Serial.print(segment_delay_ms, DEC);
      Serial.print(" milliseconds.\nStairs switch off after: ");
      Serial.print(on_time_ms / 1000, DEC);
      Serial.println(" seconds.");

#ifdef BOTTOM_PIR_PIN
      pinMode(BOTTOM_PIR_PIN, INPUT);
#else
      pinMode(BOTTOM_TRIGGER_PIN, OUTPUT);
      pinMode(BOTTOM_ECHO_PIN, INPUT);
#endif

#ifdef TOP_PIR_PIN
      pinMode(TOP_PIR_PIN, INPUT);
#else
      pinMode(TOP_TRIGGER_PIN, OUTPUT);
      pinMode(TOP_ECHO_PIN, INPUT);
#endif
    } else {
      // Restore segment options
      WS2812FX::Segment mainsegment = strip.getSegment(mainSegmentId);
      WS2812FX::Segment* segments = strip.getSegments();
      for (int i = 0; i < MAX_NUM_SEGMENTS; i++, segments++) {
        if (!segments->isActive()) {
          maxSegmentId = i - 1;
          break;
        }
        segments->setOption(SEG_OPTION_ON, 1, 1);
      }
      colorUpdated(NOTIFIER_CALL_MODE_DIRECT_CHANGE);
      Serial.println("Animated Staircase disabled.");
    }
    enabled = enable;
  }

 public:
  void setup() { enable(enabled); }

  void loop() {
    // Write changed settings from to flash (see readFromJsonState())
    if (saveState) {
      serializeConfig();
      saveState = false;
    }

    if (!enabled) {
      return;
    }

    checkSensors();
    autoPowerOff();
    updateSwipe();

  }

  uint16_t getId() { return USERMOD_ID_ANIMATED_STAIRCASE; }

  /*
   * Shows configuration settings to the json API. This object looks like:
   *
   * "staircase" : {
   *   "enabled" : true
   *   "segment-delay-ms" : 150,
   *   "on-time-s" : 5
   * }
   *
   */
  void addToJsonState(JsonObject& root) {
    writeSettingsToJson(root);
    writeSensorsToJson(root);
    Serial.println("Staircase config exposed in API.");
  }

  /*
   * Reads configuration settings from the json API.
   * See void addToJsonState(JsonObject& root)
   */
  void readFromJsonState(JsonObject& root) {
    // The call to serializeConfig() must be done in the main loop,
    // so we set a flag to signal the main loop to save state.
    saveState = readSettingsFromJson(root);
    readSensorsFromJson(root);
    Serial.println("Staircase config read from API.");
  }

  /*
   * Writes the configuration to internal flash memory.
   */
  void addToConfig(JsonObject& root) {
    writeSettingsToJson(root);
    Serial.println("Staircase config saved.");
  }

  /*
   * Reads the configuration to internal flash memory before setup() is called.
   */
  void readFromConfig(JsonObject& root) {
    readSettingsFromJson(root);
    Serial.println("Staircase config loaded.");
  }

  /*
   * Shows the delay between steps and power-off time in the "info"
   * tab of the web-UI.
   */
  void addToJsonInfo(JsonObject& root) {
    JsonObject staircase = root["u"];
    if (staircase.isNull()) {
      staircase = root.createNestedObject("u");
    }

    if (enabled) {
      JsonArray usermodEnabled =
          staircase.createNestedArray("Staircase enabled");  // name
      usermodEnabled.add("yes");                             // value

      JsonArray segmentDelay =
          staircase.createNestedArray("Delay between stairs");  // name
      segmentDelay.add(segment_delay_ms);                       // value
      segmentDelay.add(" milliseconds");                        // unit

      JsonArray onTime =
          staircase.createNestedArray("Power-off stairs after");  // name
      onTime.add(on_time_ms / 1000);                              // value
      onTime.add(" seconds");                                     // unit
    } else {
      JsonArray usermodEnabled =
          staircase.createNestedArray("Staircase enabled");  // name
      usermodEnabled.add("no");                              // value
    }
  }
};
Animated Staircase Usermod (#1763) * Initial version of the PIR Staircase wipe up/down. * Add pulldown reminder * Workaround for missing D6 and D7 definitions on esp32dev * Add pinouts for d1 mini (esp8266 and esp32) and NodeMCU (and Arduino) * These IO pins on all these boards... NodeMCU and d1_mini esp32 supported. The others? Fingers crossed. * Changed to not collide with led strip pins * PIR on GPIO 15 and 16 on esp32 d1 mini * Removed PIN number ifdefs, it is impossible to match all boards * Settings in flash, info and API * Update README.md * Small doc changes * Improved README * Fixed error in reading configuration * Add API documentation * Documentation and code cleanup * Add enable/disable to API settings * Restore segment state when disabling plugin * Add debounce * Set segments in animation mode * Set segments in animation mode * Add support for HR04 sensors * Add preliminary description for using an HR04 sensor * Fixed typenumber and linked to datasheet * Moved config away from defines to prevent user error * Trigger Sensors through API * Rename scripts folder so that it's name doesn't clash with the `pio` command (prevents platformIO in VSCode to work properly on Mac) * Bugfix for detection problems * Separated config from code * Renamed Signal to Trigger pin * Filename adjusted * Clarifications and additions to README * Fixed references to pio scripts * Fixed API trigger bug * Adjustments to README.md * More efficient use of flash cycles, better naming * Bugfix: bottom sensor was not read properly * Renamed to Animated_Staircase * Add note on ultrasonic sensor and esp32 * Better naming of defines * Bugfix: Swipe down started with two steps. * Removed upload port in nodemcuv2 section Co-authored-by: Rolf <rolf@phobos.local> Co-authored-by: Rolf <> 2021-02-25 09:52:48 +01:00			`/*`
			`* Usermod for detecting people entering/leaving a staircase and switching the`
			`* staircase on/off.`
			`*`
			`* Edit the Animated_Staircase_config.h file to compile this usermod for your`
			`* specific configuration.`
			`*`
			`* See the accompanying README.md file for more info.`
			`*/`
			`#pragma once`
			`#include "wled.h"`
			`#include "Animated_Staircase_config.h"`
			`#define USERMOD_ID_ANIMATED_STAIRCASE 1011`

			`/* Initial configuration (available in API and stored in flash) */`
			`bool enabled = true; // Enable this usermod`
			`unsigned long segment_delay_ms = 150; // Time between switching each segment`
			`unsigned long on_time_ms = 5 * 1000; // The time for the light to stay on`
			`#ifndef TOP_PIR_PIN`
			`unsigned int topMaxTimeUs = 1749; // default echo timout, top`
			`#endif`
			`#ifndef BOTTOM_PIR_PIN`
			`unsigned int bottomMaxTimeUs = 1749; // default echo timout, bottom`
			`#endif`

			`// Time between checking of the sensors`
			`const int scanDelay = 50;`

			`class Animated_Staircase : public Usermod {`
			`private:`
			`// Lights on or off.`
			`// Flipping this will start a transition.`
			`bool on = false;`

			`// Swipe direction for current transition`
			`#define SWIPE_UP true`
			`#define SWIPE_DOWN false`
			`bool swipe = SWIPE_UP;`

			`// Indicates which Sensor was seen last (to determine`
			`// the direction when swiping off)`
			`#define LOWER false`
			`#define UPPER true`
			`bool lastSensor = LOWER;`

			`// Time of the last transition action`
			`unsigned long lastTime = 0;`

			`// Time of the last sensor check`
			`unsigned long lastScanTime = 0;`

			`// Last time the lights were switched on or off`
			`unsigned long lastSwitchTime = 0;`

			`// segment id between onIndex and offIndex are on.`
			`// controll the swipe by setting/moving these indices around.`
			`// onIndex must be less than or equal to offIndex`
			`byte onIndex = 0;`
			`byte offIndex = 0;`

			`// The maximum number of configured segments.`
			`// Dynamically updated based on user configuration.`
			`byte maxSegmentId = 1;`
			`byte mainSegmentId = 0;`

			`bool saveState = false;`

			`// These values are used by the API to read the`
			`// last sensor state, or trigger a sensor`
			`// through the API`
			`bool topSensorRead = false;`
			`bool topSensorWrite = false;`
			`bool bottomSensorRead = false;`
			`bool bottomSensorWrite = false;`

			`void updateSegments() {`
			`mainSegmentId = strip.getMainSegmentId();`
			`WS2812FX::Segment mainsegment = strip.getSegment(mainSegmentId);`
			`WS2812FX::Segment* segments = strip.getSegments();`
			`for (int i = 0; i < MAX_NUM_SEGMENTS; i++, segments++) {`
			`if (!segments->isActive()) {`
			`maxSegmentId = i - 1;`
			`break;`
			`}`

			`if (i >= onIndex && i < offIndex) {`
			`segments->setOption(SEG_OPTION_ON, 1, 1);`

			`// We may need to copy mode and colors from segment 0 to make sure`
			`// changes are propagated even when the config is changed during a wipe`
			`// segments->mode = mainsegment.mode;`
			`// segments->colors[0] = mainsegment.colors[0];`
			`} else {`
			`segments->setOption(SEG_OPTION_ON, 0, 1);`
			`}`
			`// Always mark segments as "transitional", we are animating the staircase`
			`segments->setOption(SEG_OPTION_TRANSITIONAL, 1, 1);`
			`}`
			`colorUpdated(NOTIFIER_CALL_MODE_DIRECT_CHANGE);`
			`}`

			`/*`
			`* Detects if an object is within ultrasound range.`
			`* signalPin: The pin where the pulse is sent`
			`* echoPin: The pin where the echo is received`
			`* maxTimeUs: Detection timeout in microseconds. If an echo is`
			`* received within this time, an object is detected`
			`* and the function will return true.`
			`*`
			`* The speed of sound is 343 meters per second at 20 degress Celcius.`
			`* Since the sound has to travel back and forth, the detection`
			`* distance for the sensor in cm is (0.0343 * maxTimeUs) / 2.`
			`*`
			`* For practical reasons, here are some useful distances:`
			`*`
			`* Distance = maxtime`
			`* 5 cm = 292 uS`
			`* 10 cm = 583 uS`
			`* 20 cm = 1166 uS`
			`* 30 cm = 1749 uS`
			`* 50 cm = 2915 uS`
			`* 100 cm = 5831 uS`
			`*/`
			`bool ultrasoundRead(uint8_t signalPin,`
			`uint8_t echoPin,`
			`unsigned int maxTimeUs) {`
			`digitalWrite(signalPin, HIGH);`
			`delayMicroseconds(10);`
			`digitalWrite(signalPin, LOW);`
			`return pulseIn(echoPin, HIGH, maxTimeUs) > 0;`
			`}`

			`void checkSensors() {`
			`if ((millis() - lastScanTime) > scanDelay) {`
			`lastScanTime = millis();`

			`#ifdef BOTTOM_PIR_PIN`
			`bottomSensorRead = bottomSensorWrite \|\| (digitalRead(BOTTOM_PIR_PIN) == HIGH);`
			`#else`
			`bottomSensorRead = bottomSensorWrite \|\| ultrasoundRead(BOTTOM_TRIGGER_PIN, BOTTOM_ECHO_PIN, bottomMaxTimeUs);`
			`#endif`

			`#ifdef TOP_PIR_PIN`
			`topSensorRead = topSensorWrite \|\| (digitalRead(TOP_PIR_PIN) == HIGH);`
			`#else`
			`topSensorRead = topSensorWrite \|\| ultrasoundRead(TOP_TRIGGER_PIN, TOP_ECHO_PIN, topMaxTimeUs);`
			`#endif`

			`// Values read, reset the flags for next API call`
			`topSensorWrite = false;`
			`bottomSensorWrite = false;`

			`if (topSensorRead != bottomSensorRead) {`
			`lastSwitchTime = millis();`

			`if (on) {`
			`lastSensor = topSensorRead;`
			`} else {`
			`// If the bottom sensor triggered, we need to swipe up, ON`
			`swipe = bottomSensorRead;`

			`if (swipe) {`
			`Serial.println("ON -> Swipe up.");`
			`} else {`
			`Serial.println("ON -> Swipe down.");`
			`}`

			`if (onIndex == offIndex) {`
			`// Position the indices for a correct on-swipe`
			`if (swipe == SWIPE_UP) {`
			`onIndex = mainSegmentId;`
			`} else {`
			`onIndex = maxSegmentId+1;`
			`}`
			`offIndex = onIndex;`
			`}`
			`on = true;`
			`}`
			`}`
			`}`
			`}`

			`void autoPowerOff() {`
			`if (on && ((millis() - lastSwitchTime) > on_time_ms)) {`
			`// Swipe OFF in the direction of the last sensor detection`
			`swipe = lastSensor;`
			`on = false;`

			`if (swipe) {`
			`Serial.println("OFF -> Swipe up.");`
			`} else {`
			`Serial.println("OFF -> Swipe down.");`
			`}`
			`}`
			`}`

			`void updateSwipe() {`
			`if ((millis() - lastTime) > segment_delay_ms) {`
			`lastTime = millis();`

			`byte oldOnIndex = onIndex;`
			`byte oldOffIndex = offIndex;`

			`if (on) {`
			`// Turn on all segments`
			`onIndex = MAX(mainSegmentId, onIndex - 1);`
			`offIndex = MIN(maxSegmentId + 1, offIndex + 1);`
			`} else {`
			`if (swipe == SWIPE_UP) {`
			`onIndex = MIN(offIndex, onIndex + 1);`
			`} else {`
			`offIndex = MAX(onIndex, offIndex - 1);`
			`}`
			`}`

			`updateSegments();`
			`}`
			`}`

			`void writeSettingsToJson(JsonObject& root) {`
			`JsonObject staircase = root["staircase"];`
			`if (staircase.isNull()) {`
			`staircase = root.createNestedObject("staircase");`
			`}`
			`staircase["enabled"] = enabled;`
			`staircase["segment-delay-ms"] = segment_delay_ms;`
			`staircase["on-time-s"] = on_time_ms / 1000;`

			`#ifdef TOP_TRIGGER_PIN`
			`staircase["top-echo-us"] = topMaxTimeUs;`
			`#endif`
			`#ifdef BOTTOM_TRIGGER_PIN`
			`staircase["bottom-echo-us"] = bottomMaxTimeUs;`
			`#endif`
			`}`

			`void writeSensorsToJson(JsonObject& root) {`
			`JsonObject staircase = root["staircase"];`
			`if (staircase.isNull()) {`
			`staircase = root.createNestedObject("staircase");`
			`}`
			`staircase["top-sensor"] = topSensorRead;`
			`staircase["bottom-sensor"] = bottomSensorRead;`
			`}`

			`bool readSettingsFromJson(JsonObject& root) {`
			`JsonObject staircase = root["staircase"];`
			`bool changed = false;`

			`bool shouldEnable = staircase["enabled"] \| enabled;`
			`if (shouldEnable != enabled) {`
			`enable(shouldEnable);`
			`changed = true;`
			`}`

			`unsigned long c_segment_delay_ms = staircase["segment-delay-ms"] \| segment_delay_ms;`
			`if (c_segment_delay_ms != segment_delay_ms) {`
			`segment_delay_ms = c_segment_delay_ms;`
			`changed = true;`
			`}`

			`unsigned long c_on_time_ms = (staircase["on-time-s"] \| (on_time_ms / 1000)) * 1000;`
			`if (c_on_time_ms != on_time_ms) {`
			`on_time_ms = c_on_time_ms;`
			`changed = true;`
			`}`

			`#ifdef TOP_TRIGGER_PIN`
			`unsigned int c_topMaxTimeUs = staircase["top-echo-us"] \| topMaxTimeUs;`
			`if (c_topMaxTimeUs != topMaxTimeUs) {`
			`topMaxTimeUs = c_topMaxTimeUs;`
			`changed = true;`
			`}`
			`#endif`
			`#ifdef BOTTOM_TRIGGER_PIN`
			`unsigned int c_bottomMaxTimeUs = staircase["bottom-echo-us"] \| bottomMaxTimeUs;`
			`if (c_bottomMaxTimeUs != bottomMaxTimeUs) {`
			`bottomMaxTimeUs = c_bottomMaxTimeUs;`
			`changed = true;`
			`}`
			`#endif`

			`return changed;`
			`}`

			`void readSensorsFromJson(JsonObject& root) {`
			`JsonObject staircase = root["staircase"];`
			`bottomSensorWrite = bottomSensorRead \|\| (staircase["bottom-sensor"].as<bool>());`
			`topSensorWrite = topSensorRead \|\| (staircase["top-sensor"].as<bool>());`
			`}`

			`void enable(bool enable) {`
			`if (enable) {`
			`Serial.println("Animated Staircase enabled.");`
			`Serial.print("Delay between steps: ");`
			`Serial.print(segment_delay_ms, DEC);`
			`Serial.print(" milliseconds.\nStairs switch off after: ");`
			`Serial.print(on_time_ms / 1000, DEC);`
			`Serial.println(" seconds.");`

			`#ifdef BOTTOM_PIR_PIN`
			`pinMode(BOTTOM_PIR_PIN, INPUT);`
			`#else`
			`pinMode(BOTTOM_TRIGGER_PIN, OUTPUT);`
			`pinMode(BOTTOM_ECHO_PIN, INPUT);`
			`#endif`

			`#ifdef TOP_PIR_PIN`
			`pinMode(TOP_PIR_PIN, INPUT);`
			`#else`
			`pinMode(TOP_TRIGGER_PIN, OUTPUT);`
			`pinMode(TOP_ECHO_PIN, INPUT);`
			`#endif`
			`} else {`
			`// Restore segment options`
			`WS2812FX::Segment mainsegment = strip.getSegment(mainSegmentId);`
			`WS2812FX::Segment* segments = strip.getSegments();`
			`for (int i = 0; i < MAX_NUM_SEGMENTS; i++, segments++) {`
			`if (!segments->isActive()) {`
			`maxSegmentId = i - 1;`
			`break;`
			`}`
			`segments->setOption(SEG_OPTION_ON, 1, 1);`
			`}`
			`colorUpdated(NOTIFIER_CALL_MODE_DIRECT_CHANGE);`
			`Serial.println("Animated Staircase disabled.");`
			`}`
			`enabled = enable;`
			`}`

			`public:`
			`void setup() { enable(enabled); }`

			`void loop() {`
			`// Write changed settings from to flash (see readFromJsonState())`
			`if (saveState) {`
			`serializeConfig();`
			`saveState = false;`
			`}`

			`if (!enabled) {`
			`return;`
			`}`

			`checkSensors();`
			`autoPowerOff();`
			`updateSwipe();`

			`}`

			`uint16_t getId() { return USERMOD_ID_ANIMATED_STAIRCASE; }`

			`/*`
			`* Shows configuration settings to the json API. This object looks like:`
			`*`
			`* "staircase" : {`
			`* "enabled" : true`
			`* "segment-delay-ms" : 150,`
			`* "on-time-s" : 5`
			`* }`
			`*`
			`*/`
			`void addToJsonState(JsonObject& root) {`
			`writeSettingsToJson(root);`
			`writeSensorsToJson(root);`
			`Serial.println("Staircase config exposed in API.");`
			`}`

			`/*`
			`* Reads configuration settings from the json API.`
			`* See void addToJsonState(JsonObject& root)`
			`*/`
			`void readFromJsonState(JsonObject& root) {`
			`// The call to serializeConfig() must be done in the main loop,`
			`// so we set a flag to signal the main loop to save state.`
			`saveState = readSettingsFromJson(root);`
			`readSensorsFromJson(root);`
			`Serial.println("Staircase config read from API.");`
			`}`

			`/*`
			`* Writes the configuration to internal flash memory.`
			`*/`
			`void addToConfig(JsonObject& root) {`
			`writeSettingsToJson(root);`
			`Serial.println("Staircase config saved.");`
			`}`

			`/*`
			`* Reads the configuration to internal flash memory before setup() is called.`
			`*/`
			`void readFromConfig(JsonObject& root) {`
			`readSettingsFromJson(root);`
			`Serial.println("Staircase config loaded.");`
			`}`

			`/*`
			`* Shows the delay between steps and power-off time in the "info"`
			`* tab of the web-UI.`
			`*/`
			`void addToJsonInfo(JsonObject& root) {`
			`JsonObject staircase = root["u"];`
			`if (staircase.isNull()) {`
			`staircase = root.createNestedObject("u");`
			`}`

			`if (enabled) {`
			`JsonArray usermodEnabled =`
			`staircase.createNestedArray("Staircase enabled"); // name`
			`usermodEnabled.add("yes"); // value`

			`JsonArray segmentDelay =`
			`staircase.createNestedArray("Delay between stairs"); // name`
			`segmentDelay.add(segment_delay_ms); // value`
			`segmentDelay.add(" milliseconds"); // unit`

			`JsonArray onTime =`
			`staircase.createNestedArray("Power-off stairs after"); // name`
			`onTime.add(on_time_ms / 1000); // value`
			`onTime.add(" seconds"); // unit`
			`} else {`
			`JsonArray usermodEnabled =`
			`staircase.createNestedArray("Staircase enabled"); // name`
			`usermodEnabled.add("no"); // value`
			`}`
			`}`
			`};`