Rain Guage

mrc-core

Using IDE 1.6.5 i get this:
In file included from C:\Users\marco\Documents\Arduino\libraries\Time\DateStrings.cpp:10:0:
C:\Users\marco\Documents\Arduino\libraries\Time\DateStrings.cpp:18:18: error: variable 'monthStr1' must be const in order to be put into read-only section by means of 'attribute((progmem))'
char monthStr1[] PROGMEM = "January";
^
C:\Users\marco\Documents\Arduino\libraries\Time\DateStrings.cpp:19:18: error: variable 'monthStr2' must be const in order to be put into read-only section by means of 'attribute((progmem))'
char monthStr2[] PROGMEM = "February";
^
C:\Users\marco\Documents\Arduino\libraries\Time\DateStrings.cpp:20:18: error: variable 'monthStr3' must be const in order to be put into read-only section by means of 'attribute((progmem))'
char monthStr3[] PROGMEM = "March";
^
C:\Users\marco\Documents\Arduino\libraries\Time\DateStrings.cpp:21:18: error: variable 'monthStr4' must be const in order to be put into read-only section by means of 'attribute((progmem))'
char monthStr4[] PROGMEM = "April";
^
C:\Users\marco\Documents\Arduino\libraries\Time\DateStrings.cpp:22:18: error: variable 'monthStr5' must be const in order to be put into read-only section by means of 'attribute((progmem))'
char monthStr5[] PROGMEM = "May";
^
C:\Users\marco\Documents\Arduino\libraries\Time\DateStrings.cpp:23:18: error: variable 'monthStr6' must be const in order to be put into read-only section by means of 'attribute((progmem))'
char monthStr6[] PROGMEM = "June";
^
C:\Users\marco\Documents\Arduino\libraries\Time\DateStrings.cpp:24:18: error: variable 'monthStr7' must be const in order to be put into read-only section by means of 'attribute((progmem))'
char monthStr7[] PROGMEM = "July";
^
C:\Users\marco\Documents\Arduino\libraries\Time\DateStrings.cpp:25:18: error: variable 'monthStr8' must be const in order to be put into read-only section by means of 'attribute((progmem))'
char monthStr8[] PROGMEM = "August";
^
C:\Users\marco\Documents\Arduino\libraries\Time\DateStrings.cpp:26:18: error: variable 'monthStr9' must be const in order to be put into read-only section by means of 'attribute((progmem))'
char monthStr9[] PROGMEM = "September";
^
C:\Users\marco\Documents\Arduino\libraries\Time\DateStrings.cpp:27:19: error: variable 'monthStr10' must be const in order to be put into read-only section by means of 'attribute((progmem))'
char monthStr10[] PROGMEM = "October";
^
C:\Users\marco\Documents\Arduino\libraries\Time\DateStrings.cpp:28:19: error: variable 'monthStr11' must be const in order to be put into read-only section by means of 'attribute((progmem))'
char monthStr11[] PROGMEM = "November";
^
C:\Users\marco\Documents\Arduino\libraries\Time\DateStrings.cpp:29:19: error: variable 'monthStr12' must be const in order to be put into read-only section by means of 'attribute((progmem))'
char monthStr12[] PROGMEM = "December";
^
C:\Users\marco\Documents\Arduino\libraries\Time\DateStrings.cpp:31:22: error: variable 'monthNames_P' must be const in order to be put into read-only section by means of 'attribute((progmem))'
PGM_P monthNames_P[] PROGMEM =
^
C:\Users\marco\Documents\Arduino\libraries\Time\DateStrings.cpp:37:26: error: variable 'monthShortNames_P' must be const in order to be put into read-only section by means of 'attribute((progmem))'
char monthShortNames_P[] PROGMEM = "ErrJanFebMarAprMayJunJulAugSepOctNovDec";
^
C:\Users\marco\Documents\Arduino\libraries\Time\DateStrings.cpp:39:16: error: variable 'dayStr0' must be const in order to be put into read-only section by means of 'attribute((progmem))'
char dayStr0[] PROGMEM = "Err";
^
C:\Users\marco\Documents\Arduino\libraries\Time\DateStrings.cpp:40:16: error: variable 'dayStr1' must be const in order to be put into read-only section by means of 'attribute((progmem))'
char dayStr1[] PROGMEM = "Sunday";
^
C:\Users\marco\Documents\Arduino\libraries\Time\DateStrings.cpp:41:16: error: variable 'dayStr2' must be const in order to be put into read-only section by means of 'attribute((progmem))'
char dayStr2[] PROGMEM = "Monday";
^
C:\Users\marco\Documents\Arduino\libraries\Time\DateStrings.cpp:42:16: error: variable 'dayStr3' must be const in order to be put into read-only section by means of 'attribute((progmem))'
char dayStr3[] PROGMEM = "Tuesday";
^
C:\Users\marco\Documents\Arduino\libraries\Time\DateStrings.cpp:43:16: error: variable 'dayStr4' must be const in order to be put into read-only section by means of 'attribute((progmem))'
char dayStr4[] PROGMEM = "Wednesday";
^
C:\Users\marco\Documents\Arduino\libraries\Time\DateStrings.cpp:44:16: error: variable 'dayStr5' must be const in order to be put into read-only section by means of 'attribute((progmem))'
char dayStr5[] PROGMEM = "Thursday";
^
C:\Users\marco\Documents\Arduino\libraries\Time\DateStrings.cpp:45:16: error: variable 'dayStr6' must be const in order to be put into read-only section by means of 'attribute((progmem))'
char dayStr6[] PROGMEM = "Friday";
^
C:\Users\marco\Documents\Arduino\libraries\Time\DateStrings.cpp:46:16: error: variable 'dayStr7' must be const in order to be put into read-only section by means of 'attribute((progmem))'
char dayStr7[] PROGMEM = "Saturday";
^
C:\Users\marco\Documents\Arduino\libraries\Time\DateStrings.cpp:48:20: error: variable 'dayNames_P' must be const in order to be put into read-only section by means of 'attribute((progmem))'
PGM_P dayNames_P[] PROGMEM = { dayStr0,dayStr1,dayStr2,dayStr3,dayStr4,dayStr5,dayStr6,dayStr7};
^
C:\Users\marco\Documents\Arduino\libraries\Time\DateStrings.cpp:49:24: error: variable 'dayShortNames_P' must be const in order to be put into read-only section by means of 'attribute((progmem))'
char dayShortNames_P[] PROGMEM = "ErrSunMonTueWedThrFriSat";
^
Erro ao compilar.

niccodemi

@mrc-core Remove folder "Time" from your libraries folder, then download the "MySensorsArduinoExamples" zip from this link and extract Time library to your libraries folder. Restart Arduino IDE and try again.

esawyja

Hi All,
Can you run this of 2 x AA batteries, does it go into sleep? It seems to fade the LED al the time, so I guess it will drain the batteries quick quickly? Does anyone have experience in powering this?
Regards

petewill

@esawyja No, currently this example is written to be powered by external power so it wouldn't work well with batteries.

Enfeet

Hi friends,

here is my replica of Rain Guage MySensors project
photos:
https://goo.gl/photos/4kA7T4d8SsDBRrrS7

The sketch is adopted for 'Adafruit Unified Sensor by Adafruit' + 'DHT sensor library' just uncomment both DHT_ON and DHT_ADAFRUIT and Yes, I'm using rfm69hw radio with encryption enabled ;-)
3d bucket model: proposal to split it on a 3 part (i split on 2 parts now and have some troubles)

#define MY_RFM69_ENABLE_ENCRYPTION

/*
 Arduino Tipping Bucket Rain Gauge

 April 26, 2015

 Version 2.0

 Arduino Tipping Bucket Rain Gauge

 Utilizing a tipping bucket sensor, your Vera home automation controller and the MySensors.org
 gateway you can measure and sense local rain.  This sketch will create two devices on your
 Vera controller.  One will display your total precipitation for the last 5 days.  The other, 
 a sensor that changes state if there is recent rain (up to last 120 hours)  above a threshold.  
 Both these settings are user definable.

 There is a build overview video here: https://youtu.be/1eMfKQaLROo

 This sketch features the following:

 * Allows you to set the rain threshold in mm
 * Allows you to determine the tripped indicator window up to 120 hours.
 * Displays the last 5 days of rain in Variable1 through Variable5
   of the Rain Sensor device
 * Configuration changes to Sensor device updated every hour
 * Should run on any Arduino
 * Will retain Tripped/Not Tripped status and data in a power interruption, saving small amount
   of data to EEPROM (Circular Buffer to maximize life of EEPROM)
 * LED status indicator
 * Optional Temp/Humidity (DHT-22 or DHT-11) and Light LUX (BH1750) sensors. To use, uncomment
   #define DHT_ON  and/or #define LUX_ON
 * Optionally send total accumulation of each day's rainfall or send only individual days rainfall totals.
   Uncomment #define USE_DAILY to display individual daily rainfall.  If it is commented out it will display
   a cumulative total rainfall (day4 = day1+day2+day3+day4 etc)

 by @BulldogLowell and @PeteWill for free public use

 */

// Enable debug prints to serial monitor
//#define MY_DEBUG
//#define MY_DEBUG_VERBOSE
#define MY_NODE_ID AUTO
// Enable and select radio type attached
//#define MY_RADIO_NRF24
#define MY_RADIO_RFM69
#define MY_IS_RFM69HW
#define MY_RFM69_FREQUENCY RF69_433MHZ
#define MY_RFM69_NETWORKID 100
#define MY_RFM69_TX_POWER 31

#include <math.h>
#include <TimeLib.h>
#include <MySensors.h>

#define SKETCH_NAME "Rain Gauge"
#define SKETCH_VERSION "2.0"

#define DWELL_TIME 40  // this allows for radio to come back to power after a transmission, ideally 0 

//#define DEBUG_ON  // Rain gauge specific debug messages. 
#define DHT_ON // uncomment out this line to enable DHT sensor

// 20170621 by Enfeet
#define DHT_ADAFRUIT // uncomment out this line to enable DHT with 'Adafruit Unified Sensor by Adafruit' + 'DHT sensor library'
//#define DHTTYPE           DHT11     // DHT 11 
#define DHTTYPE           DHT22     // DHT 22 (AM2302)
//#define DHTTYPE           DHT21     // DHT 21 (AM2301)
// /20170621 by Enfeet

//#define LUX_ON // uncomment out this line to enable BH1750 sensor
//#define USE_DAILY // Uncomment to display individual daily rainfall totals in the variables sent to your controller. If it's commented it will add each day to the next for a cumulative total.

#define TIP_SENSOR_PIN 3
//d=112 mm
//11689.863832 mm2 =  116,89863832 cm2
//42,77209787776081 mm
//88 89 91 91 90 = 89,8
//0,4763039852757329
#define CALIBRATE_FACTOR 48 // amount of rain per rain bucket tip e.g. 5 is .05mm
#define DHT_LUX_DELAY 300000  //Delay in milliseconds that the DHT and LUX sensors will wait before sending data

#define CHILD_ID_RAIN_LOG 3  // Keeps track of accumulated rainfall
#define CHILD_ID_TRIPPED_INDICATOR 4  // Indicates Tripped when rain detected
#define EEPROM_BUFFER_LOCATION 0  // location of the EEPROM circular buffer
#define E_BUFFER_LENGTH 240
#define RAIN_BUCKET_SIZE 120

  #ifdef  DEBUG_ON
    #define M_DEBUG_PRINT(x)   Serial.print(x)
    #define M_DEBUG_PRINTLN(x) Serial.println(x)  
    #define SERIAL_START(x)  Serial.begin(x)
    #else
    #define M_DEBUG_PRINT(x)
    #define M_DEBUG_PRINTLN(x)
    #define SERIAL_START(x)
  #endif
//
MyMessage msgRainRate(CHILD_ID_RAIN_LOG, V_RAINRATE);
MyMessage msgRain(CHILD_ID_RAIN_LOG, V_RAIN);
//
MyMessage msgRainVAR1(CHILD_ID_RAIN_LOG, V_VAR1);
MyMessage msgRainVAR2(CHILD_ID_RAIN_LOG, V_VAR2);
MyMessage msgRainVAR3(CHILD_ID_RAIN_LOG, V_VAR3);
MyMessage msgRainVAR4(CHILD_ID_RAIN_LOG, V_VAR4);
MyMessage msgRainVAR5(CHILD_ID_RAIN_LOG, V_VAR5);
//
MyMessage msgTripped(CHILD_ID_TRIPPED_INDICATOR, V_TRIPPED);
MyMessage msgTrippedVar1(CHILD_ID_TRIPPED_INDICATOR, V_VAR1);
MyMessage msgTrippedVar2(CHILD_ID_TRIPPED_INDICATOR, V_VAR2);
//
#ifdef DHT_ON
// 20170621 by Enfeet
  #ifdef DHT_ADAFRUIT
  #include <Adafruit_Sensor.h>
  #include <DHT_U.h>
  #endif
// /20170621 by Enfeet
  #include <DHT.h>
  #define CHILD_ID_HUM 0
  #define CHILD_ID_TEMP 1
  #define HUMIDITY_SENSOR_DIGITAL_PIN 8
  #ifndef DHT_ADAFRUIT // 20170621 by Enfeet
    DHT dht;
  #else 
    DHT_Unified dht(HUMIDITY_SENSOR_DIGITAL_PIN, DHTTYPE);
    sensors_event_t event;
  #endif // /20170621 by Enfeet  
  float lastTemp;
  float lastHum;
  bool metric = true;
  MyMessage msgHum(CHILD_ID_HUM, V_HUM);
  MyMessage msgTemp(CHILD_ID_TEMP, V_TEMP);
#endif
//
#ifdef LUX_ON
  //BH1750 is connected to SCL (analog input A5) and SDA (analog input A4)
  #include <BH1750.h>
  #include <Wire.h>
  #define CHILD_ID_LIGHT 2
  BH1750 lightSensor;
  MyMessage msg(CHILD_ID_LIGHT, V_LIGHT_LEVEL);
  unsigned int lastlux;
  uint8_t heartbeat = 10; //Used to send the light lux to gateway as soon as the device is restarted and after the DHT_LUX_DELAY has happened 10 times
#endif
unsigned long sensorPreviousMillis;
int eepromIndex;
int tipSensorPin = 3; // Pin the tipping bucket is connected to. Must be interrupt capable pin
int ledPin = 5; // Pin the LED is connected to.  PWM capable pin required
#ifdef DEBUG_ON
unsigned long dataMillis;
unsigned long serialInterval = 600000UL;
#endif
const unsigned long oneHour = 3600000UL;
unsigned long lastTipTime;
unsigned long lastRainTime; //Used for rainRate calculation
unsigned int rainBucket [RAIN_BUCKET_SIZE] ; /* 24 hours x 5 Days = 120 hours */
unsigned int rainRate = 0;
uint8_t rainWindow = 72;         //default rain window in hours.  Will be overwritten with msgTrippedVar1.
volatile int wasTippedBuffer = 0;
int rainSensorThreshold = 50; //default rain sensor sensitivity in hundredths.  Will be overwritten with msgTrippedVar2.
uint8_t state = 0;
uint8_t oldState = 2; //Setting the default to something other than 1 or 0
unsigned int lastRainRate = 0;
int lastMeasure = 0;
bool gotTime = false;
uint8_t lastHour;
uint8_t currentHour;
//
void presentation()  {
  // Register all sensors to gw (they will be created as child devices)
  sendSketchInfo(SKETCH_NAME, SKETCH_VERSION);
  wait(DWELL_TIME);
  present(CHILD_ID_RAIN_LOG, S_RAIN);
  wait(DWELL_TIME);
  present(CHILD_ID_TRIPPED_INDICATOR, S_MOTION);
  wait(DWELL_TIME);

#ifdef DHT_ON
  present(CHILD_ID_HUM, S_HUM);
  wait(DWELL_TIME);
  present(CHILD_ID_TEMP, S_TEMP);
  wait(DWELL_TIME);
#endif


#ifdef LUX_ON
  present(CHILD_ID_LIGHT, S_LIGHT_LEVEL);
#endif

  M_DEBUG_PRINTLN(F("Sensor Presentation Complete"));
}

void setup()
{
  #ifndef MY_DEBUG
  SERIAL_START(115200);  //Start serial if MySensors debugging isn't enabled
  #endif
  //
  // Set up the IO
  pinMode(TIP_SENSOR_PIN, INPUT);
  attachInterrupt (digitalPinToInterrupt(TIP_SENSOR_PIN), sensorTipped, FALLING);  // depending on location of the hall effect sensor may need CHANGE
  pinMode(ledPin, OUTPUT);
  digitalWrite(ledPin, HIGH);
  //
  //Sync time with the server
  //
  unsigned long functionTimeout = millis();
  while (timeStatus() == timeNotSet && millis() - functionTimeout < 30000UL)
  {
    requestTime();
    M_DEBUG_PRINTLN(F("Getting Time"));
    wait(1000); // call once per second
    M_DEBUG_PRINTLN(F("."));
  }
  currentHour = hour();
  lastHour = hour();
  //
  //retrieve from EEPROM stored values on a power cycle.
  //
  bool isDataOnEeprom = false;
  for (int i = 0; i < E_BUFFER_LENGTH; i++)
  {
    uint8_t locator = loadState(EEPROM_BUFFER_LOCATION + i);
    if (locator == 0xFE)  // found the EEPROM circular buffer index
    {
      eepromIndex = EEPROM_BUFFER_LOCATION + i;
      M_DEBUG_PRINT(F("EEPROM Index "));
      M_DEBUG_PRINTLN(eepromIndex);
      //Now that we have the buffer index let's populate the rainBucket[] with data from eeprom
      loadRainArray(eepromIndex);
      isDataOnEeprom = true;
      break;
    }
  }
  //
  if (!isDataOnEeprom) // Added for the first time it is run on a new Arduino
  {
    M_DEBUG_PRINTLN(F("I didn't find valid EEPROM Index, so I'm writing one to location 0"));
    eepromIndex = EEPROM_BUFFER_LOCATION;
    saveState(eepromIndex, 0xFE);
    saveState(eepromIndex + 1, 0xFE);
    //then I will clear out any bad data
    for (int i = 2; i <= E_BUFFER_LENGTH; i++)
    {
      saveState(i, 0x00);
    }
  }
  #ifdef DEBUG_ON
  dataMillis = millis();
  #endif
  lastTipTime = millis(); 
  //
  request(CHILD_ID_TRIPPED_INDICATOR, V_VAR1);
  wait(DWELL_TIME);
  request(CHILD_ID_TRIPPED_INDICATOR, V_VAR2);
  wait(DWELL_TIME);
  //
#ifdef DHT_ON
// 20170621 by Enfeet
  #ifndef DHT_ADAFRUIT
    dht.setup(HUMIDITY_SENSOR_DIGITAL_PIN);
  #else
    dht.begin();
  #endif
  metric = getControllerConfig().isMetric;
  wait(DWELL_TIME);
#endif
  //
#ifdef LUX_ON
  lightSensor.begin();
#endif
  //
  transmitRainData(); //Setup complete send any data loaded from eeprom to gateway
}

void loop()
{
  if (state)
  {
    prettyFade();  // breathe if tripped
  }
  else
  {
    slowFlash();   // blink if not tripped
  }
#ifdef DEBUG_ON  // Serial Debug Block
  if ( (millis() - dataMillis) >= serialInterval)
  {
    for (int i = 24; i <= 120; i = i + 24)
    {
      updateSerialData(i);
    }
    dataMillis = millis();
  }
#endif
  //
  // let's constantly check to see if the rain in the past rainWindow hours is greater than rainSensorThreshold
  //
  int measure = 0; // Check to see if we need to show sensor tripped in this block
  for (int i = 0; i < rainWindow; i++)
  {
    measure += rainBucket [i];
    if (measure != lastMeasure)
    {
      //      M_DEBUG_PRINT(F("measure value (total rainBucket within rainWindow): "));
      //      M_DEBUG_PRINTLN(measure);
      lastMeasure = measure;
    }
  }
  //
  state = (measure >= (rainSensorThreshold * 100));
  if (state != oldState)
  {
    send(msgTripped.set(state));
    wait(DWELL_TIME);
    M_DEBUG_PRINT(F("New Sensor State... Sensor: "));
    M_DEBUG_PRINTLN(state ? "Tripped" : "Not Tripped");
    oldState = state;
  }
  //
  unsigned long tipDelay = millis() - lastRainTime;
  if (wasTippedBuffer) // if was tipped, then update the 24hour total and transmit to Vera
  {
    M_DEBUG_PRINTLN(F("Sensor Tipped"));
    M_DEBUG_PRINT(F("rainBucket [0] value: "));
    M_DEBUG_PRINTLN(rainBucket [0]);
    send(msgRain.set((float)rainTotal(currentHour) / 100, 1)); //Calculate the total rain for the day
    wait(DWELL_TIME);
    wasTippedBuffer--;
    rainRate = ((oneHour) / tipDelay);
    if (rainRate != lastRainRate)
    {
      send(msgRainRate.set(rainRate, 1));
      wait(DWELL_TIME);
      M_DEBUG_PRINT(F("RainRate= "));
      M_DEBUG_PRINTLN(rainRate);
      lastRainRate = rainRate;
    }
    lastRainTime = lastTipTime;
  }
  //
  currentHour = hour();
  if (currentHour != lastHour)
  {
    M_DEBUG_PRINTLN(F("One hour elapsed."));
    send(msgRain.set((float)rainTotal(currentHour) / 100, 1)); // send today's rainfall
    wait(DWELL_TIME);
    saveState(eepromIndex, highByte(rainBucket[0]));
    saveState(eepromIndex + 1, lowByte(rainBucket[0]));
    M_DEBUG_PRINT(F("Saving rainBucket[0] to eeprom. rainBucket[0] = "));
    M_DEBUG_PRINTLN(rainBucket[0]);
    for (int i = RAIN_BUCKET_SIZE - 1; i >= 0; i--)//cascade an hour of values back into the array
    {
      rainBucket [i + 1] = rainBucket [i];
    }
    request(CHILD_ID_TRIPPED_INDICATOR, V_VAR1);
    wait(DWELL_TIME);
    request(CHILD_ID_TRIPPED_INDICATOR, V_VAR2);
    wait(DWELL_TIME);
    rainBucket[0] = 0;
    eepromIndex = eepromIndex + 2;
    if (eepromIndex > EEPROM_BUFFER_LOCATION + E_BUFFER_LENGTH)
    {
      eepromIndex = EEPROM_BUFFER_LOCATION;
    }
    M_DEBUG_PRINT(F("Writing to EEPROM.  Index: "));
    M_DEBUG_PRINTLN(eepromIndex);
    saveState(eepromIndex, 0xFE);
    saveState(eepromIndex + 1, 0xFE);
    requestTime(); // sync the time every hour
    wait(DWELL_TIME);
    transmitRainData();
    rainRate = 0;
    send(msgRainRate.set(rainRate, 1));
    wait(DWELL_TIME);
    M_DEBUG_PRINTLN(F("Sending rainRate is 0 to controller"));
    lastHour = hour();
  }
  if (millis() - sensorPreviousMillis > DHT_LUX_DELAY)
  {
    #ifdef DHT_ON  //DHT Code
      doDHT();
    #endif
    #ifdef LUX_ON
      doLUX();
    #endif
    sensorPreviousMillis = millis();
  }
}
//
#ifdef DHT_ON
void doDHT(void)
{
  // 20170621 by Enfeet
  #ifndef DHT_ADAFRUIT
    float temperature = dht.getTemperature();
    if (isnan(temperature))
  #else
    dht.temperature().getEvent(&event);
    float temperature = event.temperature;
    if (isnan(event.temperature))
  #endif
  // /20170621 by Enfeet   
    {
      M_DEBUG_PRINTLN(F("Failed reading temperature from DHT"));
    } else if (temperature != lastTemp) 
    {
      lastTemp = temperature;
      #ifndef DHT_ADAFRUIT
        if (!metric) 
        {
          temperature = dht.toFahrenheit(temperature);
        }
      #endif
      send(msgTemp.set(temperature, 1));
      wait(DWELL_TIME);
      M_DEBUG_PRINT(F("Temperature is: "));
      M_DEBUG_PRINTLN(temperature);
    }
  // 20170621 by Enfeet
  #ifndef DHT_ADAFRUIT
    float humidity = dht.getHumidity();;
    if (isnan(humidity)) 
  #else
    dht.humidity().getEvent(&event);
    float humidity = event.relative_humidity;
    if (isnan(event.relative_humidity))
  #endif
  // /20170621 by Enfeet     
    {
      M_DEBUG_PRINTLN(F("Failed reading humidity from DHT"));
    } else if (humidity != lastHum) 
    {
      lastHum = humidity;
      send(msgHum.set(humidity, 1));
      wait(DWELL_TIME);
      M_DEBUG_PRINT(F("Humidity is: "));
      M_DEBUG_PRINTLN(humidity);
    }
}
#endif
//
#ifdef LUX_ON
void doLUX(void)
{
  unsigned int lux = lightSensor.readLightLevel();// Get Lux value
  M_DEBUG_PRINT(F("Current LUX Level: "));
  M_DEBUG_PRINTLN(lux);
  heartbeat++;
  if (lux != lastlux || heartbeat > 10) 
  {
    send(msg.set(lux));
    lastlux = lux;
  }
  if (heartbeat > 10) 
  {
    heartbeat = 0;
  }
}
#endif
//
void sensorTipped()
{
  unsigned long thisTipTime = millis();
  if (thisTipTime - lastTipTime > 100UL)
  {
    rainBucket[0] += CALIBRATE_FACTOR; // adds CALIBRATE_FACTOR hundredths of unit each tip
    wasTippedBuffer++;
  }
  lastTipTime = thisTipTime;
}
//
int rainTotal(int hours)
{
  int total = 0;
  for ( int i = 0; i <= hours; i++)
  {
    total += rainBucket [i];
  }
  return total;
}

#ifdef DEBUG_ON
void updateSerialData(int x)
{
  M_DEBUG_PRINT(F("Rain last "));
  M_DEBUG_PRINT(x);
  M_DEBUG_PRINTLN(F(" hours: "));
  float tipCount = 0;
  for (int i = 0; i < x; i++)
  {
    tipCount = tipCount + rainBucket [i];
  }
  tipCount = tipCount / 100;
  M_DEBUG_PRINTLN(tipCount);
}
#endif

void loadRainArray(int eValue) // retrieve stored rain array from EEPROM on powerup
{
  for (int i = 1; i < RAIN_BUCKET_SIZE; i++)
  {
    eValue = eValue - 2;
    if (eValue < EEPROM_BUFFER_LOCATION)
    {
      eValue = EEPROM_BUFFER_LOCATION + E_BUFFER_LENGTH;
    }
    M_DEBUG_PRINT(F("EEPROM location: "));
    M_DEBUG_PRINTLN(eValue);
    uint8_t rainValueHigh = loadState(eValue);
    uint8_t rainValueLow = loadState(eValue + 1);
    unsigned int rainValue = rainValueHigh << 8;
    rainValue |= rainValueLow;
    rainBucket[i] = rainValue;
    //
    M_DEBUG_PRINT(F("rainBucket[ value: "));
    M_DEBUG_PRINT(i);
    M_DEBUG_PRINT(F("] value: "));
    M_DEBUG_PRINTLN(rainBucket[i]);
  }
}

void transmitRainData(void)
{
  M_DEBUG_PRINT(F("In transmitRainData. currentHour = "));
  M_DEBUG_PRINTLN(currentHour);
  int rainUpdateTotal = 0;
  for (int i = currentHour; i >= 0; i--)
  {
    rainUpdateTotal += rainBucket[i];
    M_DEBUG_PRINT(F("Adding rainBucket["));
    M_DEBUG_PRINT(i);
    M_DEBUG_PRINTLN(F("] to rainUpdateTotal."));
  }
  M_DEBUG_PRINT(F("TX Day 1: rainUpdateTotal = "));
  M_DEBUG_PRINTLN((float)rainUpdateTotal / 100.0);
  send(msgRainVAR1.set((float)rainUpdateTotal / 100.0, 1)); //Send current day rain totals (resets at midnight)
  wait(DWELL_TIME);
#ifdef USE_DAILY
  rainUpdateTotal = 0;
#endif
  for (int i = currentHour + 24; i > currentHour; i--)
  {
    rainUpdateTotal += rainBucket[i];
    M_DEBUG_PRINT(F("Adding rainBucket["));
    M_DEBUG_PRINT(i);
    M_DEBUG_PRINTLN(F("] to rainUpdateTotal."));
  }
  M_DEBUG_PRINT(F("TX Day 2: rainUpdateTotal = "));
  M_DEBUG_PRINTLN((float)rainUpdateTotal / 100.0);
  send(msgRainVAR2.set((float)rainUpdateTotal / 100.0, 1));
  wait(DWELL_TIME);
#ifdef USE_DAILY
  rainUpdateTotal = 0;
#endif
  for (int i = currentHour + 48; i > currentHour + 24; i--)
  {
    rainUpdateTotal += rainBucket[i];
    M_DEBUG_PRINT(F("Adding rainBucket["));
    M_DEBUG_PRINT(i);
    M_DEBUG_PRINTLN(F("] to rainUpdateTotal."));
  }
  M_DEBUG_PRINT(F("TX Day 3: rainUpdateTotal = "));
  M_DEBUG_PRINTLN((float)rainUpdateTotal / 100.0);
  send(msgRainVAR3.set((float)rainUpdateTotal / 100.0, 1));
  wait(DWELL_TIME);
#ifdef USE_DAILY
  rainUpdateTotal = 0;
#endif
  for (int i = currentHour + 72; i > currentHour + 48; i--)
  {
    rainUpdateTotal += rainBucket[i];
    M_DEBUG_PRINT(F("Adding rainBucket["));
    M_DEBUG_PRINT(i);
    M_DEBUG_PRINTLN(F("] to rainUpdateTotal."));
  }
  M_DEBUG_PRINT(F("TX Day 4: rainUpdateTotal = "));
  M_DEBUG_PRINTLN((float)rainUpdateTotal / 100.0);
  send(msgRainVAR4.set((float)rainUpdateTotal / 100.0, 1));
  wait(DWELL_TIME);
#ifdef USE_DAILY
  rainUpdateTotal = 0;
#endif
  for (int i = currentHour + 96; i > currentHour + 72; i--)
  {
    rainUpdateTotal += rainBucket[i];
    M_DEBUG_PRINT(F("Adding rainBucket["));
    M_DEBUG_PRINT(i);
    M_DEBUG_PRINTLN(F("] to rainUpdateTotal."));
  }
  M_DEBUG_PRINT(F("TX Day 5: rainUpdateTotal = "));
  M_DEBUG_PRINTLN((float)rainUpdateTotal / 100.0);
  send(msgRainVAR5.set((float)rainUpdateTotal / 100.0, 1));
  wait(DWELL_TIME);
}

void receive(const MyMessage &message)
{
  if (message.sensor == CHILD_ID_RAIN_LOG)
  {
    // nothing to do here
  }
  else if (message.sensor == CHILD_ID_TRIPPED_INDICATOR)
  {
    if (message.type == V_VAR1)
    {
      rainWindow = atoi(message.data);
      if (rainWindow > 120)
      {
        rainWindow = 120;
      }
      else if (rainWindow < 1)
      {
        rainWindow = 1;
      }
      if (rainWindow != atoi(message.data))   // if I changed the value back inside the boundries, push that number back to Vera
      {
        send(msgTrippedVar1.set(rainWindow));
      }
    }
    else if (message.type == V_VAR2)
    {
      rainSensorThreshold = atoi(message.data);
      if (rainSensorThreshold > 10000)
      {
        rainSensorThreshold = 10000;
      }
      else if (rainSensorThreshold < 1)
      {
        rainSensorThreshold = 1;
      }
      if (rainSensorThreshold != atoi(message.data))  // if I changed the value back inside the boundries, push that number back to Vera
      {
        send(msgTrippedVar2.set(rainSensorThreshold));
      }
    }
  }
}

void prettyFade(void)
{
  float val = (exp(sin(millis() / 2000.0 * PI)) - 0.36787944) * 108.0;
  analogWrite(ledPin, val);
}

void slowFlash(void)
{
  static bool ledState = true;
  static unsigned long pulseStart = millis();
  if (millis() - pulseStart < 100UL)
  {
    digitalWrite(ledPin, !ledState);
    pulseStart = millis();
  }
}

void receiveTime(unsigned long newTime)
{
  M_DEBUG_PRINTLN(F("Time received..."));
  setTime(newTime);
  char theTime[6];
  sprintf(theTime, "%d:%2d", hour(), minute());
  M_DEBUG_PRINTLN(theTime);
}

--
SY
Enfeet

dbemowsk

@Enfeet I am interested in checking out your code (have not looked through it yet). I am to the point with my rain gauge design that I am ready to do the code for the sensor. Out of curiosity, what type of sensor did you use for your tipping bucket? I am using a magnetic reed switch. I had originally done a bucket design like the one you have, actually when I started my project, I modeled my original one off of that one. This is my modified design:


The magnet fits in the recessed hole in the side, no need to glue it in. The big difference is that the center divider is angled out to help better with the tipping action.

Here is the rest of the sensor:

I just got the OpenSCAD file for the project cleaned up and I will be posting it to thingiverse later today.

Enfeet

@dbemowsk , i take an original .stl files from the link provided: https://drive.google.com/drive/folders/0B3KGTJHUgpw1fkwtM3RreEF2QWg4eUdsUHdSQjl6UWx2Q3dPS19WSGdqd0pZQ3hhQk1TMkE

but in order to save a support material recreate and split it a little ;-)

The result are visible on photos (link in my previous post)

here is an .scad code of my modifications on top of original files, also i print them up side down ;-)

$fn=300;
difference(){
translate([35,0,0])
import("Can.stl");
cube([210,150,150],center=true);
}




translate([62,0,0])
rotate([0,90,0])
difference(){
cylinder(d=10,h=3,center=true);
cylinder(d=4,h=6,center=true);
}


difference(){
translate([-88,0,0])
sphere(d=300);
translate([-90,0,0])
sphere(d=300);
translate([61,0,0])
rotate([0,90,0])    
cylinder(d=4,h=4,center=true);
rotate([0,90,0])
difference(){
cylinder(d=310,h=208,center=true);
cylinder(d=122.5+4,h=310,center=true);
}    
}


translate([54,0,0])
rotate([0,90,0])
difference(){
cylinder(d=122.5+4,h=108,center=true);
cylinder(d=122.5,h=310,center=true);
} 

$fn=300;

/*
difference(){
translate([35,0,0])
import("Can.stl");
cube([210,150,150],center=true);
}




translate([62,0,0])
rotate([0,90,0])
difference(){
cylinder(d=10,h=3,center=true);
cylinder(d=4,h=6,center=true);
}


difference(){
translate([-88,0,0])
sphere(d=300);
translate([-90,0,0])
sphere(d=300);
translate([61,0,0])
rotate([0,90,0])    
cylinder(d=4,h=4,center=true);
rotate([0,90,0])
difference(){
cylinder(d=310,h=208,center=true);
cylinder(d=122.5+4,h=310,center=true);
}    
}
*/

translate([54,0,0])
rotate([0,90,0])
difference(){
cylinder(d=122.5+4,h=40
   ,center=true);
cylinder(d=122.5,h=310,center=true);
} 


translate([32,0,0])
rotate([0,90,0])
difference(){
cylinder(d=122.5+4+4,h=8
   ,center=true);
cylinder(d=122.5+4,h=9,center=true);
} 

The arduino code is also from original project (https://www.mysensors.org/build/rain) but i adopt it to Adafruit Unified Sensors Library and last version of Arduino IDE 1.8.3

SY
Enfeet

Enfeet

Lets continue in correct topic https://forum.mysensors.org/topic/4821/rain-gauge/35