Ejemplo n.º 1
0
        internal static PredictionOutput GetPrediction(PredictionInput input, bool ft, bool checkCollision)
        {
            PredictionOutput result = null;

            if (!input.Unit.IsValidTarget(float.MaxValue, false))
            {
                return(new PredictionOutput());
            }

            if (ft)
            {
                //Increase the delay due to the latency and server tick:
                input.Delay += Game.Ping / 2000f + 0.06f;

                if (input.Aoe)
                {
                    return(AoePrediction.GetPrediction(input));
                }
            }

            //Target too far away.
            if (Math.Abs(input.Range - float.MaxValue) > float.Epsilon &&
                input.Unit.Distance(input.RangeCheckFrom, true) > Math.Pow(input.Range * 1.5, 2))
            {
                return(new PredictionOutput {
                    Input = input
                });
            }

            //Unit is dashing.
            if (input.Unit.IsDashing())
            {
                result = GetDashingPrediction(input);
            }
            else
            {
                //Unit is immobile.
                var remainingImmobileT = UnitIsImmobileUntil(input.Unit);
                if (remainingImmobileT >= 0d)
                {
                    result = GetImmobilePrediction(input, remainingImmobileT);
                }
            }

            //Normal prediction
            if (result == null)
            {
                result = GetStandardPrediction(input);
            }

            //Check if the unit position is in range
            if (Math.Abs(input.Range - float.MaxValue) > float.Epsilon)
            {
                if (result.Hitchance >= HitChance.High &&
                    input.RangeCheckFrom.Distance(input.Unit.Position, true) >
                    Math.Pow(input.Range + input.RealRadius * 3 / 4, 2))
                {
                    result.Hitchance = HitChance.Medium;
                }

                if (input.RangeCheckFrom.Distance(result.UnitPosition, true) >
                    Math.Pow(input.Range + (input.Type == SkillshotType.SkillshotCircle ? input.RealRadius : 0), 2))
                {
                    result.Hitchance = HitChance.OutOfRange;
                }

                if (input.RangeCheckFrom.Distance(result.CastPosition, true) > Math.Pow(input.Range, 2))
                {
                    if (result.Hitchance != HitChance.OutOfRange)
                    {
                        result.CastPosition = input.RangeCheckFrom +
                                              input.Range *
                                              (result.UnitPosition - input.RangeCheckFrom).To2D().Normalized().To3D();
                    }
                    else
                    {
                        result.Hitchance = HitChance.OutOfRange;
                    }
                }
            }

            //Check for collision
            if (checkCollision && input.Collision)
            {
                var positions = new List <Vector3> {
                    result.UnitPosition, result.CastPosition, input.Unit.Position
                };
                var originalUnit = input.Unit;
                result.CollisionObjects = Collision.GetCollision(positions, input);
                result.CollisionObjects.RemoveAll(x => x.NetworkId == originalUnit.NetworkId);
                result.Hitchance = result.CollisionObjects.Count > 0 ? HitChance.Collision : result.Hitchance;
            }

            return(result);
        }