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Hello it's possible to make a Schedule that it depends of a coordinates to turn on a light in sunset and turn off in a sunrise? THX!!
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Not yet but we have this is our todo list
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13.12.2016, 19:45
(This post was last modified: 12.01.2017, 12:57 by Erwin van der Zwart.)
Hi Josep,
Make sure this function is inside common functions:
Code: -- sunrise / sunset calculation
function rscalc(latitude, longitude, when)
local pi = math.pi
local doublepi = pi * 2
local rads = pi / 180.0
local TZ = function(when)
local ts = os.time(when)
local utcdate, localdate = os.date('!*t', ts), os.date('*t', ts)
localdate.isdst = false
local diff = os.time(localdate) - os.time(utcdate)
return math.floor(diff / 3600)
end
local range = function(x)
local a = x / doublepi
local b = doublepi * (a - math.floor(a))
return b < 0 and (doublepi + b) or b
end
when = when or os.date('*t')
local y2k = { year = 2000, month = 1, day = 1 }
local y2kdays = os.time(when) - os.time(y2k)
y2kdays = math.ceil(y2kdays / 86400)
local meanlongitude = range(280.461 * rads + 0.9856474 * rads * y2kdays)
local meananomaly = range(357.528 * rads + 0.9856003 * rads * y2kdays)
local lambda = range(meanlongitude + 1.915 * rads * math.sin(meananomaly) + rads / 50 * math.sin(2 * meananomaly))
local obliq = 23.439 * rads - y2kdays * rads / 2500000
local alpha = math.atan2(math.cos(obliq) * math.sin(lambda), math.cos(lambda))
local declination = math.asin(math.sin(obliq) * math.sin(lambda))
local LL = meanlongitude - alpha
if meanlongitude < pi then
LL = LL + doublepi
end
local dfo = pi / 216.45
if latitude < 0 then
dfo = -dfo
end
local fo = math.min(math.tan(declination + dfo) * math.tan(latitude * rads), 1)
local ha = 12 * math.asin(fo) / pi + 6
local timezone = TZ(when)
local equation = 12 + timezone + 24 * (1 - LL / doublepi) - longitude / 15
local sunrise, sunset = equation - ha, equation + ha
if sunrise > 24 then
sunrise = sunrise - 24
end
if sunset > 24 then
sunset = sunset - 24
end
return math.floor(sunrise * 60), math.ceil(sunset * 60)
end
Then create a resident script with time 60 seconds and add this code:
Code: -- ***** Astronomic clock module Version 1.0 Created by Erwin van der Zwart ***** --
-- ********* Use this script as resident script and run every 60 seconds ******** --
-- ****** This script makes use of rscalc function inside common functions ****** --
-- ******************************** SET PARAMETERS ****************************** --
-- Set output address
adressoutput = '1/1/1' -- 1 bit output for control object
-- Set time shifting addresses
addressshifttimesunrice = '1/1/2' -- 1 or 2 byte signed integer to be able to adjust/offset calculated sunrise time (set min/max on object)
addressshifttimesundown = '1/1/3'-- 1 or 2 byte signed integer to be able to adjust/offset calculated down time (set min/max on object)
-- Set feedback adresses
addresssunrise = '1/1/4' -- 255 byte object for user feedback, shows calculated sunrise time
addresssundown = '1/1/5' -- 255 byte object for user feedback, shows calculated sundown time
addresssunriseshifted = '1/1/6' -- 255 byte object for user feedback, shows with offset calculated sunrise time
addressundownshifted = '1/1/7' -- 255 byte object for user feedback, shows with offset calculatedsundown time
-- Set location coordinates
latitude = 52.52198 --Zwolle Netherlands, Look at 'http://www.mapcoordinates.net/en' for other locations
longitude = 6.08213 --Zwolle Netherlands, Look at 'http://www.mapcoordinates.net/en' for other locations
-- ******************************** END PARAMETERS ****************************** --
-- ********************* DON'T CHANGE ANYTHING UNDER THIS LINE ****************** --
-- Function to calculate switching times based and output value
function astronomic(latitude,longitude,shiftedsunrise,shiftedsundown)
local now = os.date('*t')
local sunrise, sunset = rscalc(latitude, longitude, now) --Zwolle Netherlands, See http://www.mapcoordinates.net/en for other locations
sunriseorg = string.format('%d:%.2d', math.floor(sunrise / 60), sunrise % 60)
sunsetorg = string.format('%d:%.2d', math.floor(sunset / 60), sunset % 60)
sunrisenew = sunrise + shiftedsunrise
sunsetnew = sunset + shiftedsundown
sunrisetime = string.format('%d:%.2d', math.floor(sunrisenew / 60), sunrisenew % 60)
sunsettime = string.format('%d:%.2d', math.floor(sunsetnew / 60), sunsetnew % 60)
local minutes = now.hour * 60 + now.min
nowdark = minutes < sunrisenew or sunsetnew < minutes
local t = {sunricenormal = sunriseorg, sundownnormal = sunsetorg, sunriceshifted = sunrisetime, sundownshifted = sunsettime, output = nowdark}
return (t)
end
-- Get values for timeshifting
shiftedsunrise = grp.getvalue(addressshifttimesunrice) or 0 -- Make minutes negative to switch earlyer than normal calculated sunrice and positive to switch later than normal calculated sunrice
shiftedsundown = grp.getvalue(addressshifttimesundown) or 0 -- Make minutes negative to switch earlyer than normal calculated sundown and positive to switch later than normal calculated sundown
-- Call function to calculate astroinfo
astroinfo = astronomic(latitude,longitude,shiftedsunrise,shiftedsundown)
-- Set new sunrice time (unshifted)
currentvalue = grp.getvalue(addresssunrise)
if astroinfo.sunricenormal ~= currentvalue then
grp.update(addresssunrise, astroinfo.sunricenormal)
end
-- Set new sundown time (unshifted)
currentvalue = grp.getvalue(addresssundown)
if astroinfo.sundownnormal ~= currentvalue then
grp.update(addresssundown, astroinfo.sundownnormal)
end
-- Set new sunrice time (shifted)
currentvalue = grp.getvalue(addresssunriseshifted)
if astroinfo.sunriceshifted ~= currentvalue then
grp.update(addresssunriseshifted, astroinfo.sunriceshifted)
end
-- Set new sundown time (shifted)
currentvalue = grp.getvalue(addressundownshifted)
if astroinfo.sundownshifted ~= currentvalue then
grp.update(addressundownshifted, astroinfo.sundownshifted)
end
-- Set output value to output object
currentvalue = grp.getvalue(adressoutput)
if astroinfo.output == true then
if currentvalue == false then
grp.write(adressoutput, true)
end
else
if currentvalue == true then
grp.write(adressoutput, false)
end
end
If you want to combine it with a scheduler then make a 'and' logic, put the output of this script to input 1, output of the schedular to input 2 and the control object to the output of your 'and' logic.
BR,
Erwin
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(13.12.2016, 19:45)Erwin van der Zwart Wrote: Hi Josep,
Make sure this function is inside common functions:
If you want to combine it with a scheduler then make a 'and' logic, put the output of this script to input 1, output of the schedular to input 2 and the control object to the output of your 'and' logic.
BR,
Erwin
Hi Erwin, tried this out, but it results in this error;
Resident script:16: attempt to perform arithmetic on local 'verschuifingAM' (a nil value)
stack traceback:
Resident script:16: in function 'astronomic'
Best regards, Jørn.
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13.12.2016, 21:08
(This post was last modified: 13.12.2016, 23:40 by Erwin van der Zwart.)
Hi,
Did you create the objects mentioned on line 16 and 17?
These are for changing the output times with a offset.
Create them as 1 or 2 byte signed integer so you can set for
example -30 or +45 minutes to the original calculated sunrise/down time.
If you dont want offset set them to 0 but they must excist or you must rewrite script.
BR,
Erwin
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(13.12.2016, 21:08)Erwin van der Zwart Wrote: Hi,
Did you create the objects mentioned on line 6 and 7?
These are for changing the output times with a offset.
Create them as 1 or 2 byte signed integer so you can set for
example -30 or +45 minutes to the original calculated sunrise/down time.
If you dont want offset set them to 0 but they must excist or you must rewrite script.
BR,
Erwin
I did create the objects, but forgot to write initial value to them, that did the trick!
The time group objects used with datatype "255 byte string".
Thanks alot Erwin!
Br from Jørn.
Best regards, Jørn.
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13.12.2016, 22:59
(This post was last modified: 13.12.2016, 23:00 by Erwin van der Zwart.)
Hi Jørn,
Thanks for pointing this out, i cleaned the script from dutch texts and i added additional fallback to 0 when timeshifting objects values are not set/init.
I updated the previous post with the new version.
Please use new version to make sure it wont happen again (;
BR,
Erwin
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Hello Erwin!
I'm trying to use your script in LM4 but there is an error during the saving (Resident script).
Lua syntax error at line 28: '=' expected near 'now'
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Hi,
You probably use Chrome, there is a copy paste bug in Chrome, please try with another browser to copy the code from this forum.
BR,
Erwin
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Sunrise/sunset scheduler coming in the next FW release
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Very simple and beautiful tool
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(07.03.2017, 11:43)admin Wrote: Sunrise/sunset scheduler coming in the next FW release
Yeah wonderful feature, do you have an approx availability date ?
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April/May, we might provide RC version earlier though.
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(13.12.2016, 19:45)Erwin van der Zwart Wrote: Hi Josep,
Make sure this function is inside common functions:
Code: -- sunrise / sunset calculation
function rscalc(latitude, longitude, when)
local pi = math.pi
local doublepi = pi * 2
local rads = pi / 180.0
local TZ = function(when)
local ts = os.time(when)
local utcdate, localdate = os.date('!*t', ts), os.date('*t', ts)
localdate.isdst = false
local diff = os.time(localdate) - os.time(utcdate)
return math.floor(diff / 3600)
end
local range = function(x)
local a = x / doublepi
local b = doublepi * (a - math.floor(a))
return b < 0 and (doublepi + b) or b
end
when = when or os.date('*t')
local y2k = { year = 2000, month = 1, day = 1 }
local y2kdays = os.time(when) - os.time(y2k)
y2kdays = math.ceil(y2kdays / 86400)
local meanlongitude = range(280.461 * rads + 0.9856474 * rads * y2kdays)
local meananomaly = range(357.528 * rads + 0.9856003 * rads * y2kdays)
local lambda = range(meanlongitude + 1.915 * rads * math.sin(meananomaly) + rads / 50 * math.sin(2 * meananomaly))
local obliq = 23.439 * rads - y2kdays * rads / 2500000
local alpha = math.atan2(math.cos(obliq) * math.sin(lambda), math.cos(lambda))
local declination = math.asin(math.sin(obliq) * math.sin(lambda))
local LL = meanlongitude - alpha
if meanlongitude < pi then
LL = LL + doublepi
end
local dfo = pi / 216.45
if latitude < 0 then
dfo = -dfo
end
local fo = math.min(math.tan(declination + dfo) * math.tan(latitude * rads), 1)
local ha = 12 * math.asin(fo) / pi + 6
local timezone = TZ(when)
local equation = 12 + timezone + 24 * (1 - LL / doublepi) - longitude / 15
local sunrise, sunset = equation - ha, equation + ha
if sunrise > 24 then
sunrise = sunrise - 24
end
if sunset > 24 then
sunset = sunset - 24
end
return math.floor(sunrise * 60), math.ceil(sunset * 60)
end
Then create a resident script with time 60 seconds and add this code:
Code: -- ***** Astronomic clock module Version 1.0 Created by Erwin van der Zwart ***** --
-- ********* Use this script as resident script and run every 60 seconds ******** --
-- ****** This script makes use of rscalc function inside common functions ****** --
-- ******************************** SET PARAMETERS ****************************** --
-- Set output address
adressoutput = '1/1/1' -- 1 bit output for control object
-- Set time shifting addresses
addressshifttimesunrice = '1/1/2' -- 1 or 2 byte signed integer to be able to adjust/offset calculated sunrise time (set min/max on object)
addressshifttimesundown = '1/1/3'-- 1 or 2 byte signed integer to be able to adjust/offset calculated down time (set min/max on object)
-- Set feedback adresses
addresssunrise = '1/1/4' -- 255 byte object for user feedback, shows calculated sunrise time
addresssundown = '1/1/5' -- 255 byte object for user feedback, shows calculated sundown time
addresssunriseshifted = '1/1/6' -- 255 byte object for user feedback, shows with offset calculated sunrise time
addressundownshifted = '1/1/7' -- 255 byte object for user feedback, shows with offset calculatedsundown time
-- Set location coordinates
latitude = 52.52198 --Zwolle Netherlands, Look at 'http://www.mapcoordinates.net/en' for other locations
longitude = 6.08213 --Zwolle Netherlands, Look at 'http://www.mapcoordinates.net/en' for other locations
-- ******************************** END PARAMETERS ****************************** --
-- ********************* DON'T CHANGE ANYTHING UNDER THIS LINE ****************** --
-- Function to calculate switching times based and output value
function astronomic(latitude,longitude,shiftedsunrise,shiftedsundown)
local now = os.date('*t')
local sunrise, sunset = rscalc(latitude, longitude, now) --Zwolle Netherlands, See http://www.mapcoordinates.net/en for other locations
sunriseorg = string.format('%d:%.2d', math.floor(sunrise / 60), sunrise % 60)
sunsetorg = string.format('%d:%.2d', math.floor(sunset / 60), sunset % 60)
sunrisenew = sunrise + shiftedsunrise
sunsetnew = sunset + shiftedsundown
sunrisetime = string.format('%d:%.2d', math.floor(sunrisenew / 60), sunrisenew % 60)
sunsettime = string.format('%d:%.2d', math.floor(sunsetnew / 60), sunsetnew % 60)
local minutes = now.hour * 60 + now.min
nowdark = minutes < sunrisenew or sunsetnew < minutes
local t = {sunricenormal = sunriseorg, sundownnormal = sunsetorg, sunriceshifted = sunrisetime, sundownshifted = sunsettime, output = nowdark}
return (t)
end
-- Get values for timeshifting
shiftedsunrise = grp.getvalue(addressshifttimesunrice) or 0 -- Make minutes negative to switch earlyer than normal calculated sunrice and positive to switch later than normal calculated sunrice
shiftedsundown = grp.getvalue(addressshifttimesundown) or 0 -- Make minutes negative to switch earlyer than normal calculated sundown and positive to switch later than normal calculated sundown
-- Call function to calculate astroinfo
astroinfo = astronomic(latitude,longitude,shiftedsunrise,shiftedsundown)
-- Set new sunrice time (unshifted)
currentvalue = grp.getvalue(addresssunrise)
if astroinfo.sunricenormal ~= currentvalue then
grp.update(addresssunrise, astroinfo.sunricenormal)
end
-- Set new sundown time (unshifted)
currentvalue = grp.getvalue(addresssundown)
if astroinfo.sundownnormal ~= currentvalue then
grp.update(addresssundown, astroinfo.sundownnormal)
end
-- Set new sunrice time (shifted)
currentvalue = grp.getvalue(addresssunriseshifted)
if astroinfo.sunriceshifted ~= currentvalue then
grp.update(addresssunriseshifted, astroinfo.sunriceshifted)
end
-- Set new sundown time (shifted)
currentvalue = grp.getvalue(addressundownshifted)
if astroinfo.sundownshifted ~= currentvalue then
grp.update(addressundownshifted, astroinfo.sundownshifted)
end
-- Set output value to output object
currentvalue = grp.getvalue(adressoutput)
if astroinfo.output == true then
if currentvalue == false then
grp.write(adressoutput, true)
end
else
if currentvalue == true then
grp.write(adressoutput, false)
end
end
If you want to combine it with a scheduler then make a 'and' logic, put the output of this script to input 1, output of the schedular to input 2 and the control object to the output of your 'and' logic.
BR,
Erwin My client has asked to do a gradual ignition. I have 8 exterior ignitions and I need to set a delay of at least 15-30min between them. Any suggestions on how I could solve it?
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You can use schedulers with a sunrise/sunset offset for this. Why do you want to use a script?
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(19.07.2021, 09:13)admin Wrote: You can use schedulers with a sunrise/sunset offset for this. Why do you want to use a script?
Hello Admin. Yes, I could use that option. I have several questions about it.
Somehow the exact execution time status of each scheduler could be obtained?
Would the second script's time setting affect the first? I would be interested in being able to adjust the real sunrise and real dusk without having to change all the programmers. So my client adjusts his nightfall and then the rest is all the same always.
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Sunsire/sunset time is calculated automatically based on current date and coordinates that are set in Date/time settings. There's rscalc() function in common functions that calculates the same sunrise/sunset time.
In schedulers you can add a time offset for each event bound to sunrise/sunset. For example, if sunrise is at 7:40 and the time offset it -1:30 then the object value will be changed at 6:10. This time is calculated automatically each day so you just need to create schedulers once.
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(19.07.2021, 10:09)admin Wrote: Sunsire/sunset time is calculated automatically based on current date and coordinates that are set in Date/time settings. There's rscalc() function in common functions that calculates the same sunrise/sunset time.
In schedulers you can add a time offset for each event bound to sunrise/sunset. For example, if sunrise is at 7:40 and the time offset it -1:30 then the object value will be changed at 6:10. This time is calculated automatically each day so you just need to create schedulers once.
If I understand already, could I somehow get the status of the scheduler run time and the actual sunrise and sunset time?
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For objects you can enable logging and check the time at which the write happens.
You can also use this script to log current sunrise and sunset time:
Code: require('uci')
latitude = uci.get('genohm-scada.core.latitude')
latitude = tonumber(latitude) or 0
longitude = uci.get('genohm-scada.core.longitude')
longitude = tonumber(longitude) or 0
sunrise, sunset = rscalc(latitude, longitude)
sunrise_hour = math.floor(sunrise / 60)
sunrise_minute = sunrise % 60
sunset_hour = math.floor(sunset / 60)
sunset_minute = sunset % 60
sunrise_text = string.format('%02d:%02d', sunrise_hour, sunrise_minute)
sunset_text = string.format('%02d:%02d', sunset_hour, sunset_minute)
log('Sunrise: ' .. sunrise_text)
log('Sunset: ' .. sunset_text)
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Hi! Great script, thanks!
I'm having an issue, trying to export the 250 byte strings for sunrise and sundown and calculated sunrise and sundown, but it won't let me export those objects.
Also I did some adjustment to the script and byte the same times as 3 byte date / time but I still can't export to BACnet. Any reason it won't let me?
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