public override double ShouldAccept()
{
if (Opponent.MeetsRequirements(BaseRequirements.All))
{
if (!SmartAirDeployHelpers.AllAirDefensesFound(TownHall.Find() == null ? TownHallLimits.Limits.Length - 1 : TownHall.Find().Level))
{
return(0);
}
return(1);
}
return(0);
}
/// <summary>
/// Finds AirDefenses which can and should be ZapQuaked.
/// The length of the list is dependent on the available spells (2 lightnings, 1 earthquake = 1 AirDefense target)
/// </summary>
/// <param name="earthQuakeSpells">The available earthquake spells</param>
/// <param name="lightningSpells">The available lightning spells</param>
/// <returns>A list of AirDefenses which can and should be ZapQuaked</returns>
List <AirDefense> FindAirDefenseTargets(DeployElement earthQuakeSpells, DeployElement lightningSpells, List <VisualObject> visuals)
{
var lightningsToDestroyAirDefenses = (int)Math.Floor((double)lightningSpells.Count / 2);
var destroyableAirDefenses = Math.Min(lightningsToDestroyAirDefenses, earthQuakeSpells.Count);
Log.Info($"[Smart Air] We've got {lightningSpells.Count} Lightning Spells and {earthQuakeSpells.Count}, which is enough to destroy {destroyableAirDefenses} AirDefenses.");
var allAirDefenses = AirDefense.Find();
try
{
var targetsToFindCount = Math.Min(destroyableAirDefenses, allAirDefenses.Count());
if (targetsToFindCount == 0)
{
Log.Error("[Smart Air] FindAirDefenseTargets has been called even though it shouldn't have been called!");
return(null);
}
// If we need to find 2 or more AirDefense targets we want to find the closest AirDefenses
if (targetsToFindCount > 1)
{
var airDefensesOrderedByDeployPointDistance = allAirDefenses.OrderByDescending(x => SmartAirDeployHelpers.DistanceSqToClosestDeploypoint(x.Location.GetCenter()));
// furthestAirDefense = The airdefense which is the furthest away from deployzone
var furthestAirDefense = airDefensesOrderedByDeployPointDistance.First();
var remainingAirDefenses = airDefensesOrderedByDeployPointDistance.Skip(1).ToList();
var orderedList = OrderByDistance(furthestAirDefense, remainingAirDefenses).Take(targetsToFindCount).ToList();
// Add visuals
var orderedListCenters = orderedList.Select(x => x.Location.GetCenter());
visuals.Add(new PointsObject("AirDefenseTargets", Color.FromArgb(200, Color.CornflowerBlue), orderedListCenters));
return(orderedList);
}
var targetList = allAirDefenses.Take(1).ToList();
// Add visuals
var targetListCenters = targetList.Select(x => x.Location.GetCenter());
visuals.Add(new PointsObject("AirDefenseTargets", Color.FromArgb(200, Color.CornflowerBlue), targetListCenters));
return(targetList);
}
catch (Exception ex)
{
Log.Error("[Smart Air] Exception occured during 'ZapQuakeAirDefenses'. More information can be found inside of the debug log.");
Log.Debug("[Smart Air] Exception details: " + ex);
return(null);
}
}
List <PointFT> CreateLavaHoundDeployPoints(AirDefense[] airDefenses, List <VisualObject> visuals)
{
// don't include corners in case build huts are there
var maxRedPointX = GameGrid.RedPoints.Where(p => - 18 < p.Y && p.Y < 18)?.Max(point => point.X) + 1 ?? GameGrid.RedZoneExtents.MaxX;
var minRedPointX = GameGrid.RedPoints.Where(p => - 18 < p.Y && p.Y < 18)?.Min(point => point.X) - 1 ?? GameGrid.RedZoneExtents.MinX;
var maxRedPointY = GameGrid.RedPoints.Where(p => - 18 < p.X && p.X < 18)?.Max(point => point.Y) + 1 ?? GameGrid.RedZoneExtents.MaxY;
var minRedPointY = GameGrid.RedPoints.Where(p => - 18 < p.X && p.X < 18)?.Min(point => point.Y) - 1 ?? GameGrid.RedZoneExtents.MinY;
// border around the base
var baseBorder = new List <RectangleT>();
baseBorder.Add(new RectangleT((int)minRedPointX, (int)maxRedPointY, (int)(maxRedPointX - minRedPointX), (int)(minRedPointY - maxRedPointY)));
// Add baseborder as visual
visuals.Add(new RectangleObject("BaseBorder", Color.FromArgb(100, Color.Maroon), baseBorder, new Pen(Color.Maroon)));
// Find nearest deploy points for two airdefenses
List <PointFT> resultPoints = new List <PointFT>();
var closestAirDefenses = airDefenses.OrderBy(x => SmartAirDeployHelpers.DistanceSqToClosestDeploypoint(x.Location.GetCenter())).Take(2);
if (closestAirDefenses?.Count() == 2)
{
var start = closestAirDefenses.First().Location.GetCenter();
var end = closestAirDefenses.Last().Location.GetCenter();
var airDefenseConnection = new Line(start, end);
visuals.Add(new LinesObject("AirDefenseConnection", Color.FromArgb(180, Color.OrangeRed), new[] { airDefenseConnection }));
Point screenStart = start.ToScreenAbsolute();
Point screenEnd = end.ToScreenAbsolute();
Vector vStart = new Vector(screenStart.X, screenStart.Y);
Vector vEnd = new Vector(screenEnd.X, screenEnd.Y);
Vector vStartEnd = vEnd - vStart;
Vector vDir = vStartEnd;
vDir.Normalize();
Vector vOrthDir = new Vector(vDir.Y, -vDir.X);
Vector vOrthMidPoint = vStart + vStartEnd * 0.5;
Point midPoint = new Point((int)vOrthMidPoint.X, (int)vOrthMidPoint.Y);
// We have two lines (mid -> airDef1) and (mid -> airDef2)
// We want to know what line points "away" from the townhall (center of the map)
var mapCenterAbsolute = new PointFT(0f, 0f).ToScreenAbsolute();
Vector vMapCenter = new Vector(mapCenterAbsolute.X, mapCenterAbsolute.Y);
Vector dirTest1 = vOrthMidPoint + vOrthDir * +0.1;
Vector dirTest2 = vOrthMidPoint + vOrthDir * -0.1;
Vector dirAwayFromCenter = (vMapCenter - dirTest1).LengthSquared < (vMapCenter - dirTest2).LengthSquared
? -vOrthDir
: vOrthDir;
Vector vAirDefOrthLineEnd = vOrthMidPoint + dirAwayFromCenter * 3000;
Point airDefLineEndCorrect = new Point((int)vAirDefOrthLineEnd.X, (int)vAirDefOrthLineEnd.Y);
var orthLine = new Line(new PointF((float)vOrthMidPoint.X, (float)vOrthMidPoint.Y), new PointF(airDefLineEndCorrect.X, airDefLineEndCorrect.Y));
Log.Error($"[Smart Air] Start: ({orthLine.Start.X} , {orthLine.Start.Y}), End ({orthLine.End.X}, {orthLine.End.Y})");
visuals.Add(new LinesObject("AirDefenseOrth", new Pen(Color.OrangeRed, 3), new[] { orthLine }));
// Now we want to find the intersection of our line, with the outer rectangle.
// We know that our line starts inside the rect, and ends outside of it, that means there must be exactly one intersection point
// 1. convert all corners into vectors
var left = new PointFT(minRedPointX, maxRedPointY).ToScreenAbsolute();
var top = new PointFT(maxRedPointX, maxRedPointY).ToScreenAbsolute();
var right = new PointFT(maxRedPointX, minRedPointY).ToScreenAbsolute();
var bottom = new PointFT(minRedPointX, minRedPointY).ToScreenAbsolute();
Vector vLeftPoint = new Vector(left.X, left.Y);
Vector vTopPoint = new Vector(top.X, top.Y);
Vector vRightPoint = new Vector(right.X, right.Y);
Vector vBottomPoint = new Vector(bottom.X, bottom.Y);
// 2. create the 4 combinations of the 4 points to get all 4 edges (topleft, topright, ...)
var sidesToCheckForIntersections = new List <Tuple <Vector, Vector> >();
sidesToCheckForIntersections.Add(Tuple.Create(vTopPoint, vLeftPoint)); // Topleft
sidesToCheckForIntersections.Add(Tuple.Create(vTopPoint, vRightPoint)); // Topright
sidesToCheckForIntersections.Add(Tuple.Create(vLeftPoint, vBottomPoint)); // BottomLeft
sidesToCheckForIntersections.Add(Tuple.Create(vRightPoint, vBottomPoint)); // BottomRight
// 3. use those for the following intersection calculation:
Vector vOrthLineStartPoint = vOrthMidPoint;
Vector vOrthLineEndPoint = vAirDefOrthLineEnd;
Vector vOrth = vOrthLineStartPoint + vOrthLineEndPoint;
// 4. test this line for intersections against all 4 sides, only (and exactly) one of them will have an intersection
Vector vInterSectionPoint = default(Vector);
foreach (var side in sidesToCheckForIntersections)
{
if (SmartAirDeployHelpers.LineSegementsIntersect(side.Item1, side.Item2, vOrthLineStartPoint, vOrthLineEndPoint, out vInterSectionPoint))
{
break;
}
}
var intersectionPointF = new PointF((float)vInterSectionPoint.X, (float)vInterSectionPoint.Y);
var intersectionPointFt = new PointFT((int)intersectionPointF.X, (int)intersectionPointF.Y);
// 5. add that point to "visuals"
visuals.Add(new PointsObject("IntersectionPoint", Color.FromArgb(200, Color.Cyan), new[] { intersectionPointF }));
// deployPoints = all Points within radius x
var deployPoints = GameGrid.RedPoints.Where(x => x.DistanceSq(intersectionPointFt) < 220).ToList();
deployPoints = deployPoints.Select(x => x.TransformPositionAlongAxis(5)).ToList();
// FurthestDeployPoint 1 = Furthest Point to intersectionPoint which is still inside of the radius
var furthestDeployPoint1 = deployPoints.OrderByDescending(x => x.DistanceSq(intersectionPointFt)).First();
// FurthestDeployPoint 2 = Furthest Point to intersectionPoint which is still inside of the radius
var furthestDeployPoint2 = deployPoints.OrderByDescending(x => x.DistanceSq(furthestDeployPoint1)).First();
var lavaHoundDeployPoints = new List <PointFT>();
lavaHoundDeployPoints.Add(furthestDeployPoint1);
lavaHoundDeployPoints.Add(furthestDeployPoint2);
visuals.Add(new PointsObject("LavaHoundDeployPoints", Color.FromArgb(200, Color.Pink), lavaHoundDeployPoints));
visuals.Add(new PointsObject("AttackUnitDeployPoints", Color.FromArgb(110, Color.Black), deployPoints));
}
return(resultPoints);
}
