WLED/usermods/UserModv2_SunRiseAndSet/UserMod_SunRiseAndSet.h

156 lines
7.4 KiB
C
Raw Normal View History

#pragma once
#include "wled.h"
#include <Dusk2Dawn.h>
/*
*
* REQUIREMENTS:
* The Dusk2Dawn library must be installed. This can be found at https://github.com/dmkishi/Dusk2Dawn. The 1.0.1 version of this library found via
* Arduino or platformio library managers is buggy and won't compile. The latest version from github should be used.
*
* NTP must be enabled and functional. It simply makes no sense to have events on sunrise/sunset when an accurate time isn't available.
*
* The user's geographical latitude and longitude must be configured (in decimal, not degrees/minutes/etc) using m_fLatitude and m_fLongitude
*
* if desired, an offset of up to +/- 2 hours can be specified for each of sunrise/sunset using m_sunriseOffset and m_sunsetOffset (defaults to 0)
*
* The specific macro to run at sunrise and/or sunset can be changed using m_sunriseMacro and m_sunsetMacro. (defaults to 15 and 16)
*
* From the Dusk2Dawn library:
* HINT: An easy way to find the longitude and latitude for any location is
* to find the spot in Google Maps, right click the place on the map, and
* select "What's here?". At the bottom, youll see a card with the
* coordinates.
*
* Once configured, copy UserMod_SunRiseAndSet.h to the sketch file (the same folder as wled00.ino exists),
* and then edit "usermods_list.cpp":
* Add '#include "UserMod_SunRiseAndSet.h"' in the 'includes' area
* Add 'usermods.add(new UserMod_SunRiseAndSet());' in the registerUsermods() area
*
*/
class UserMod_SunRiseAndSet : public Usermod
{
private:
/**** USER SETTINGS ****/
float m_fLatitude = 40.6; // latitude where sunrise/set are calculated
float m_fLongitude = -79.80; // longitude where sunrise/set are calculated
int8_t m_sunriseOffset = 0; // offset from sunrise, in minutes, when macro should be run (negative for before sunrise, positive for after sunrise)
int8_t m_sunsetOffset = 0; // offset from sunset, in minutes, when macro should be run (negative for before sunset, positive for after sunset)
uint8_t m_sunriseMacro = 15; // macro number to run at sunrise
uint8_t m_sunsetMacro = 16; // macro number to run at sunset
/**** END OF USER SETTINGS. DO NOT EDIT BELOW THIS LINE! ****/
Dusk2Dawn *m_pD2D = NULL; // this must be dynamically allocated in order for parameters to be loaded from EEPROM
int m_nUserSunrise = -1; // time, in minutes from midnight, of sunrise
int m_nUserSunset = -1; // time, in minutes from midnight, of sunset
byte m_nLastRunMinute = -1; // indicates what minute the userloop was last run - used so that the code only runs once per minute
public:
virtual void setup(void)
{
/* TODO: From EEPROM, load the following variables:
*
* int16_t latitude16 = 4060; // user provided latitude, multiplied by 100 and rounded
* int16_t longitude16 = -7980; // user provided longitude, multiplied by 100 and rounded.
* int8_t sunrise_offset = 0; // number of minutes to offset the sunrise macro trigger (positive for minutes after sunrise, negative for minutes before)
* int8_t sunset_offset = 0; // number of minutes to offset the sunset macro trigger (positive for minutes after sunset, negative for minutes before)
*
* then:
* m_fLatitude = (float)latitude / 100.0;
* m_fLongitude = (float)longitude / 100.0;
* m_sunriseOffset = sunrise_offset;
* m_sunsetOffset = sunset_offset;
*/
if ((0.0 != m_fLatitude) || (0.0 != m_fLongitude))
{
m_pD2D = new Dusk2Dawn (m_fLatitude, m_fLongitude, 0 /* UTC */);
// can't really check for failures. if the alloc fails, the mod just doesn't work.
}
}
void loop(void)
{
// without NTP, or a configured lat/long, none of this stuff is going to work...
// As an alternative, need to figure out how to determine if the user has manually set the clock or not.
if (m_pD2D && (999000000L != ntpLastSyncTime))
{
// to prevent needing to import all the timezone stuff from other modules, work completely in UTC
time_t timeUTC = now();
tmElements_t tmNow;
breakTime(timeUTC, tmNow);
int nCurMinute = tmNow.Minute;
if (m_nLastRunMinute != nCurMinute) //only check once a new minute begins
{
m_nLastRunMinute = nCurMinute;
int numMinutes = (60 * tmNow.Hour) + m_nLastRunMinute; // how many minutes into the day are we?
// check to see if sunrise/sunset should be re-determined. Only do this if neither sunrise nor sunset
// are set. That happens when the device has just stated, and after both sunrise/sunset have already run.
if ((-1 == m_nUserSunrise) && (-1 == m_nUserSunset))
{
m_nUserSunrise = m_pD2D->sunrise(tmNow.Year + 1970, tmNow.Month, tmNow.Day, false);
m_nUserSunset = m_pD2D->sunset(tmNow.Year + 1970, tmNow.Month, tmNow.Day, false);
if (m_nUserSunrise > numMinutes) // has sunrise already passed? if so, recompute for tomorrow
{
breakTime(timeUTC + (60*60*24), tmNow);
m_nUserSunrise = m_pD2D->sunrise(tmNow.Year + 1970, tmNow.Month, tmNow.Day, false);
if (m_nUserSunset > numMinutes) // if sunset has also passed, recompute that as well
{
m_nUserSunset = m_pD2D->sunset(tmNow.Year + 1970, tmNow.Month, tmNow.Day, false);
}
}
#if 0
{ // debug block..
// for debugging, convert everything to "local" time
updateLocalTime();
int offset = (localTime - timeUTC) / 60;
int srMin = m_nUserSunrise + offset;
int ssMin = m_nUserSunset + offset;
Serial.printf("NEXT SUNRISE: %d:%d\n", srMin / 60, srMin % 60);
Serial.printf("NEXT SUNSET: %d:%d\n", ssMin / 60, ssMin % 60);
} // end debug block
#endif
// offset by user provided values. becuase the offsets are signed bytes, the max offset is just over 2 hours.
m_nUserSunrise += m_sunriseOffset;
m_nUserSunset += m_sunsetOffset;
}
if (numMinutes == m_nUserSunrise) // Good Morning!
{
if (m_sunriseMacro)
applyMacro(m_sunriseMacro); // run macro 15
m_nUserSunrise = -1;
}
else if (numMinutes == m_nUserSunset) // Good Night!
{
if (m_sunsetMacro)
applyMacro(m_sunsetMacro); // run macro 16
m_nUserSunset = -1;
}
} // if (m_nLastRunMinute != nCurMinute)
} // if (m_pD2D && (999000000L != ntpLastSyncTime))
}
~UserMod_SunRiseAndSet(void)
{
if (m_pD2D) delete m_pD2D;
}
};