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// Copyright (c) 2016-2023 Association of Universities for Research in Astronomy, Inc. (AURA)
// For license information see LICENSE or https://opensource.org/licenses/BSD-3-Clause

package lucuma.ags

import cats.data.NonEmptyList
import cats.syntax.all.*
import coulomb.*
import lucuma.catalog.BandsList
import lucuma.catalog.BrightnessConstraints
import lucuma.catalog.FaintnessConstraint
import lucuma.catalog.SaturationConstraint
import lucuma.core.enums.CloudExtinction
import lucuma.core.enums.GuideSpeed
import lucuma.core.enums.ImageQuality
import lucuma.core.enums.Site
import lucuma.core.enums.SkyBackground
import lucuma.core.math.Angle
import lucuma.core.math.BrightnessValue
import lucuma.core.math.Wavelength
import lucuma.core.math.skycalc.averageParallacticAngle
import lucuma.core.model.ConstraintSet
import lucuma.core.model.ObjectTracking
import lucuma.core.model.PosAngleConstraint
import lucuma.core.util.Enumerated
import lucuma.core.util.TimeSpan

import java.time.Duration
import java.time.Instant

val baseFwhm = Wavelength.fromIntNanometers(500).get

// FWHM as seen on the optical wavefront sensor (WFS)
// Operate on Double, we don't need exact precision
def wfsFwhm(sciFwhm: ImageQuality, wavelength: Wavelength): Double = {
  val coeff =
    baseFwhm.toPicometers.value.value.toDouble / wavelength.toPicometers.value.value.toDouble
  (sciFwhm.toDeciArcSeconds.value.value / 10.0) * math.pow(coeff, -0.2)

}

// Calculate the widest set of constraints, useful to cache catalog results
// We get the union off all possible constraints at the slow guide speed
// darkest sky background and 300nm wavelength
val widestConstraints: BrightnessConstraints = {
  val widest = Wavelength.fromIntNanometers(300).get

  val constraints = Enumerated[ImageQuality].all.flatMap { iq =>
    Enumerated[CloudExtinction].all.map { ce =>
      faintLimit(GuideSpeed.Slow, widest, SkyBackground.Darkest, iq, ce)
    }
  }
  // The list is never empty
  val lowest      = constraints.maximumOption.get
  BrightnessConstraints(BandsList.GaiaBandsList, lowest, none)
}

/**
 * Calculates the daintness limits for a given Guide Speed/Wavelength and conditions These are based
 * on the gaia G band and described here:
 */
def faintLimit(
  guideSpeed: GuideSpeed,
  wavelength: Wavelength,
  sb:         SkyBackground,
  iq:         ImageQuality,
  ce:         CloudExtinction
): FaintnessConstraint = {
  val limit = sb match {
    case SkyBackground.Darkest =>
      guideSpeed match {
        case GuideSpeed.Fast   =>
          16.4 - 0.8 * wfsFwhm(iq, wavelength) - ce.toBrightness
        case GuideSpeed.Medium =>
          16.9 - 0.8 * wfsFwhm(iq, wavelength) - ce.toBrightness
        case GuideSpeed.Slow   =>
          17.4 - 0.8 * wfsFwhm(iq, wavelength) - ce.toBrightness
      }
    case SkyBackground.Dark    =>
      guideSpeed match {
        case GuideSpeed.Fast   =>
          16.3 - 0.8 * wfsFwhm(iq, wavelength) - ce.toBrightness
        case GuideSpeed.Medium =>
          16.8 - 0.8 * wfsFwhm(iq, wavelength) - ce.toBrightness
        case GuideSpeed.Slow   =>
          17.3 - 0.8 * wfsFwhm(iq, wavelength) - ce.toBrightness
      }
    case SkyBackground.Gray    =>
      guideSpeed match {
        case GuideSpeed.Fast   =>
          16.2 - 0.8 * wfsFwhm(iq, wavelength) - ce.toBrightness
        case GuideSpeed.Medium =>
          16.7 - 0.8 * wfsFwhm(iq, wavelength) - ce.toBrightness
        case GuideSpeed.Slow   =>
          17.2 - 0.8 * wfsFwhm(iq, wavelength) - ce.toBrightness
      }
    case SkyBackground.Bright  =>
      guideSpeed match {
        case GuideSpeed.Fast   =>
          16.1 - 0.8 * wfsFwhm(iq, wavelength) - ce.toBrightness
        case GuideSpeed.Medium =>
          16.6 - 0.8 * wfsFwhm(iq, wavelength) - ce.toBrightness
        case GuideSpeed.Slow   =>
          17.1 - 0.8 * wfsFwhm(iq, wavelength) - ce.toBrightness
      }
  }
  FaintnessConstraint(BrightnessValue.unsafeFrom(BigDecimal(limit)))
}

def gaiaBrightnessConstraints(
  guideSpeed: GuideSpeed,
  wavelength: Wavelength,
  sb:         SkyBackground,
  iq:         ImageQuality,
  ce:         CloudExtinction
): BrightnessConstraints = {
  val faintness  = faintLimit(guideSpeed, wavelength, sb, iq, ce)
  val saturation = SaturationConstraint(
    BrightnessValue.unsafeFrom(faintness.brightness.value.value - 6)
  )
  BrightnessConstraints(BandsList.GaiaBandsList, faintness, saturation.some)
}

def gaiaBrightnessConstraints(
  constraints: ConstraintSet,
  guideSpeed:  GuideSpeed,
  wavelength:  Wavelength
): BrightnessConstraints =
  gaiaBrightnessConstraints(guideSpeed,
                            wavelength,
                            constraints.skyBackground,
                            constraints.imageQuality,
                            constraints.cloudExtinction
  )

private val UnconstrainedAngles =
  NonEmptyList.fromList(
    (0 until 360 by 10).map(a => Angle.fromDoubleDegrees(a.toDouble)).toList
  )

extension (posAngleConstraint: PosAngleConstraint)
  def anglesToTestAt(
    site:     Site,
    tracking: ObjectTracking,
    vizTime:  Instant,
    duration: Duration
  ): Option[NonEmptyList[Angle]] =
    TimeSpan
      .fromDuration(duration)
      .flatMap: ts =>
        posAngleConstraint match
          case PosAngleConstraint.Fixed(a)               => NonEmptyList.of(a).some
          case PosAngleConstraint.AllowFlip(a)           => NonEmptyList.of(a, a.flip).some
          case PosAngleConstraint.ParallacticOverride(a) => NonEmptyList.of(a).some
          case PosAngleConstraint.AverageParallactic     =>
            averageParallacticAngle(site.place, tracking, vizTime, ts)
              .map(a => NonEmptyList.of(a, a.flip))
          case PosAngleConstraint.Unbounded              => UnconstrainedAngles




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