158 lines
4.3 KiB
JavaScript
158 lines
4.3 KiB
JavaScript
/**
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* @name Cinnamon-Dynamic-Wallpaper
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* @alias TobiZog
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* @since 2023
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*/
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const DAYPERIOD = {
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MTWILIGHT: 0,
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SUNRISE: 1,
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MORNING: 2,
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NOON: 3,
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AFTERNOON: 4,
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EVENING: 5,
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SUNSET: 6,
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NTWILIGHT: 7,
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NIGHT: 8,
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NONE: 10
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}
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const DAYMS = 1000 * 60 * 60 * 24
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const J1970 = 2440588
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const J2000 = 2451545
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function fromJulian(j) {
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let ms_date = (j + 0.5 - J1970) * DAYMS
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return new Date(ms_date)
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}
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/**
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* Calculating specific events of the sun during a day
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*
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* @param {float} latitude Location latitude
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* @param {float} longitude Location longitude
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*
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* @returns List of sun events in a day: dawn, sunrise, noon, sunset, dusk
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*/
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function sunEventsOfDay(latitude, longitude, date) {
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let rad = Math.PI / 180
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let lw = rad * (-longitude)
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let d = (date / DAYMS) - 0.5 + J1970 - J2000
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let n = Math.round(d - 0.0009 - lw / (2 * Math.PI))
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let ds = 0.0009 + lw / (2 * Math.PI) + n
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let M = rad * (357.5291 + 0.98560028 * ds)
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let C = rad * (1.9148 * Math.sin(M) + 0.02 * Math.sin(2 * M) + 0.0003 * Math.sin(3 * M))
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let P = rad * 102.9372
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let L = M + C + P + Math.PI
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let dec = Math.asin(Math.sin(rad * 23.4397) * Math.sin(L))
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// Angles for the sun
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let angles = [-0.833, -6]
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for(var i = 0; i < angles.length; i++) {
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angles[i] = angles[i] * rad
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angles[i] = Math.acos((Math.sin(angles[i]) - Math.sin(rad * latitude) * Math.sin(dec)) / (Math.cos(rad * latitude) * Math.cos(dec)))
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angles[i] = 0.0009 + (angles[i] + lw) / (2 * Math.PI) + n
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}
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let jnoon = J2000 + ds + 0.0053 * Math.sin(M) - 0.0069 * Math.sin(2 * L)
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return {
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dawn: fromJulian(jnoon - (J2000 + angles[1] + 0.0053 * Math.sin(M) - 0.0069 * Math.sin(2 * L) - jnoon)),
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sunrise: fromJulian(jnoon - (J2000 + angles[0] + 0.0053 * Math.sin(M) - 0.0069 * Math.sin(2 * L) - jnoon)),
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noon: fromJulian(jnoon),
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sunset: fromJulian(J2000 + angles[0] + 0.0053 * Math.sin(M) - 0.0069 * Math.sin(2 * L)),
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dusk: fromJulian(J2000 + angles[1] + 0.0053 * Math.sin(M) - 0.0069 * Math.sin(2 * L))
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}
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}
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function addMinutesToTime(date, minutes = 0) {
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let newDate = new Date(date)
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newDate.setMinutes(date.getMinutes() + minutes)
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return newDate
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}
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function subTimesToMinutes(date1, date2) {
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let diff = new Date(date1 - date2)
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return diff.getUTCHours() * 60 + diff.getMinutes()
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}
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function calcTimePeriod(latitude, longitude) {
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let todaySunEventsDay = sunEventsOfDay(latitude, longitude, Date.now())
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let tomorrowSunEventsDay = sunEventsOfDay(latitude, longitude, addMinutesToTime(new Date(), 1440))
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return {
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morning_twilight: [
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todaySunEventsDay.dawn,
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addMinutesToTime(todaySunEventsDay.sunrise, -1)
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],
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sunrise: [
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todaySunEventsDay.sunrise,
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addMinutesToTime(
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todaySunEventsDay.sunrise,
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subTimesToMinutes(todaySunEventsDay.noon, todaySunEventsDay.sunrise) / 8 - 1
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)
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],
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morning: [
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addMinutesToTime(
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todaySunEventsDay.sunrise,
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(subTimesToMinutes(todaySunEventsDay.noon, todaySunEventsDay.sunrise) / 8) * 1
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),
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addMinutesToTime(
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todaySunEventsDay.sunrise,
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(subTimesToMinutes(todaySunEventsDay.noon, todaySunEventsDay.sunrise) / 8)*6 - 1
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)
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],
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noon: [
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addMinutesToTime(
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todaySunEventsDay.sunrise,
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(subTimesToMinutes(todaySunEventsDay.noon, todaySunEventsDay.sunrise) / 8) * 6
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),
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addMinutesToTime(
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todaySunEventsDay.noon,
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(subTimesToMinutes(todaySunEventsDay.sunset, todaySunEventsDay.noon) / 8) * 2 - 1
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)
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],
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afternoon: [
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addMinutesToTime(
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todaySunEventsDay.noon,
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(subTimesToMinutes(todaySunEventsDay.sunset, todaySunEventsDay.noon) / 8) * 2
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),
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addMinutesToTime(
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todaySunEventsDay.noon,
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(subTimesToMinutes(todaySunEventsDay.sunset, todaySunEventsDay.noon) / 8) * 5 - 1
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)
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],
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evening: [
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addMinutesToTime(
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todaySunEventsDay.noon,
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(subTimesToMinutes(todaySunEventsDay.sunset, todaySunEventsDay.noon) / 8) * 5
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),
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addMinutesToTime(
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todaySunEventsDay.noon,
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(subTimesToMinutes(todaySunEventsDay.sunset, todaySunEventsDay.noon) / 8) * 7 - 1
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)
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],
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sunset: [
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addMinutesToTime(
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todaySunEventsDay.noon,
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(subTimesToMinutes(todaySunEventsDay.sunset, todaySunEventsDay.noon) / 8) * 7 - 1
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),
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todaySunEventsDay.sunset
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],
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night_twilight: [
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addMinutesToTime(todaySunEventsDay.sunset, 1),
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todaySunEventsDay.dusk
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],
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night: [
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addMinutesToTime(todaySunEventsDay.dusk, 1),
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addMinutesToTime(tomorrowSunEventsDay.dawn, -1)
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],
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}
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} |