package basic import ( "math" . "b612.me/astro/tools" ) // Pos const ( SATURN_S_PERIOD = 1 / ((1 / 365.256363004) - (1 / 10759.0)) saturnEventSearchN = 16 saturnPhaseCoarseTolerance = 30.0 / 86400.0 ) func saturnSunLongitudeDelta(jde, degree float64, filter bool) float64 { sub := Limit360(Limit360(SaturnApparentLo(jde)-HSunApparentLo(jde)) - degree) if filter { if sub > 180 { sub -= 360 } if sub < -180 { sub += 360 } } return sub } func saturnSunLongitudeDeltaN(jde, degree float64, filter bool, n int) float64 { sub := Limit360(Limit360(SaturnApparentLoN(jde, n)-HSunApparentLoN(jde, n)) - degree) if filter { if sub > 180 { sub -= 360 } if sub < -180 { sub += 360 } } return sub } func saturnRADerivative(jde, delta float64) float64 { sub := SaturnApparentRa(jde+delta) - SaturnApparentRa(jde-delta) if sub > 180 { sub -= 360 } if sub < -180 { sub += 360 } return sub / (2 * delta) } func saturnRADerivativeN(jde, delta float64, n int) float64 { sub := SaturnApparentRaN(jde+delta, n) - SaturnApparentRaN(jde-delta, n) if sub > 180 { sub -= 360 } if sub < -180 { sub += 360 } return sub / (2 * delta) } func saturnConjunctionFull(jde, degree float64, next uint8) float64 { //0=last 1=next daysPerDegree := SATURN_S_PERIOD / 360 currentDelta := saturnSunLongitudeDelta(jde, degree, false) if next == 0 { jde -= (360 - currentDelta) * daysPerDegree } else { jde += daysPerDegree * currentDelta } estimateJD := jde for { prevJD := estimateJD longitudeDelta := saturnSunLongitudeDelta(prevJD, degree, true) longitudeSlope := (saturnSunLongitudeDelta(prevJD+0.000005, degree, true) - saturnSunLongitudeDelta(prevJD-0.000005, degree, true)) / 0.00001 estimateJD = prevJD - longitudeDelta/longitudeSlope if math.Abs(estimateJD-prevJD) <= 0.00001 { break } } return TD2UT(estimateJD, false) } func saturnConjunction(jde, degree float64, next uint8) float64 { //0=last 1=next daysPerDegree := SATURN_S_PERIOD / 360 currentDelta := saturnSunLongitudeDelta(jde, degree, false) if next == 0 { jde -= (360 - currentDelta) * daysPerDegree } else { jde += daysPerDegree * currentDelta } estimateJD := jde for { prevJD := estimateJD longitudeDelta := saturnSunLongitudeDeltaN(prevJD, degree, true, saturnEventSearchN) longitudeSlope := (saturnSunLongitudeDeltaN(prevJD+0.000005, degree, true, saturnEventSearchN) - saturnSunLongitudeDeltaN(prevJD-0.000005, degree, true, saturnEventSearchN)) / 0.00001 estimateJD = prevJD - longitudeDelta/longitudeSlope if math.Abs(estimateJD-prevJD) <= saturnPhaseCoarseTolerance { break } } for { prevJD := estimateJD longitudeDelta := saturnSunLongitudeDelta(prevJD, degree, true) longitudeSlope := (saturnSunLongitudeDelta(prevJD+0.000005, degree, true) - saturnSunLongitudeDelta(prevJD-0.000005, degree, true)) / 0.00001 estimateJD = prevJD - longitudeDelta/longitudeSlope if math.Abs(estimateJD-prevJD) <= 0.00001 { break } } return TD2UT(estimateJD, false) } func LastSaturnConjunction(jde float64) float64 { return inclusiveLastPhaseEvent(jde, 0, saturnConjunction) } func NextSaturnConjunction(jde float64) float64 { return inclusiveNextPhaseEvent(jde, 0, saturnConjunction) } func LastSaturnOpposition(jde float64) float64 { return inclusiveLastPhaseEvent(jde, 180, saturnConjunction) } func NextSaturnOpposition(jde float64) float64 { return inclusiveNextPhaseEvent(jde, 180, saturnConjunction) } func NextSaturnEasternQuadrature(jde float64) float64 { return inclusiveNextPhaseEvent(jde, 90, saturnConjunction) } func LastSaturnEasternQuadrature(jde float64) float64 { return inclusiveLastPhaseEvent(jde, 90, saturnConjunction) } func NextSaturnWesternQuadrature(jde float64) float64 { return inclusiveNextPhaseEvent(jde, 270, saturnConjunction) } func LastSaturnWesternQuadrature(jde float64) float64 { return inclusiveLastPhaseEvent(jde, 270, saturnConjunction) } func saturnRetrogradeAroundOpposition(oppositionJD float64, searchBeforeOpposition bool) float64 { oppositionTT := TD2UT(oppositionJD, true) startTT := oppositionTT endTT := oppositionTT if searchBeforeOpposition { easternQuadratureUT := saturnConjunction(oppositionTT, 90, 0) startTT = TD2UT(easternQuadratureUT, true) } else { westernQuadratureUT := saturnConjunction(oppositionTT, 270, 1) endTT = TD2UT(westernQuadratureUT, true) } bestJD := zeroEventInWindow(startTT, endTT, 2.0, 2.0, 30.0/86400.0, func(jd float64) float64 { return saturnRADerivativeN(jd, 1.0/86400.0, saturnEventSearchN) }, func(jd float64) float64 { return saturnRADerivative(jd, 0.5/86400.0) }) return TD2UT(bestJD, false) } func NextSaturnRetrogradeToPrograde(jde float64) float64 { lastOppositionJD := saturnConjunctionFull(jde, 180, 0) date := saturnRetrogradeAroundOpposition(lastOppositionJD, false) if sameEventUTQueryTT(date, jde) || eventUTQueryAfterOrEqual(date, jde) { return date } nextOppositionJD := saturnConjunctionFull(jde, 180, 1) return saturnRetrogradeAroundOpposition(nextOppositionJD, false) } func LastSaturnRetrogradeToPrograde(jde float64) float64 { lastOppositionJD := saturnConjunctionFull(jde, 180, 0) date := saturnRetrogradeAroundOpposition(lastOppositionJD, false) if sameEventUTQueryTT(date, jde) || eventUTQueryBeforeOrEqual(date, jde) { return date } previousOppositionJD := saturnConjunctionFull(eventUTLastQueryTT(lastOppositionJD), 180, 0) return saturnRetrogradeAroundOpposition(previousOppositionJD, false) } func NextSaturnProgradeToRetrograde(jde float64) float64 { nextOppositionJD := saturnConjunctionFull(jde, 180, 1) date := saturnRetrogradeAroundOpposition(nextOppositionJD, true) if sameEventUTQueryTT(date, jde) || eventUTQueryAfterOrEqual(date, jde) { return date } followingOppositionJD := saturnConjunctionFull(eventUTNextQueryTT(nextOppositionJD), 180, 1) return saturnRetrogradeAroundOpposition(followingOppositionJD, true) } func LastSaturnProgradeToRetrograde(jde float64) float64 { nextOppositionJD := saturnConjunctionFull(jde, 180, 1) date := saturnRetrogradeAroundOpposition(nextOppositionJD, true) if sameEventUTQueryTT(date, jde) || eventUTQueryBeforeOrEqual(date, jde) { return date } lastOppositionJD := saturnConjunctionFull(jde, 180, 0) return saturnRetrogradeAroundOpposition(lastOppositionJD, true) }