bool TrySubstitute(AHock hock)
{
if (!IsFinal() ||
hock.Speed.Length > Game.MaxSpeedToAllowSubstitute ||
!IsInSubstArea(hock) ||
hock.Base.RemainingCooldownTicks > 0 ||
hock.Base.RemainingKnockdownTicks > 0
)
{
return(false);
}
var maxStamina = MyRest
.Select(x => x.Stamina)
.Max();
var maxStrength = MyRest
.Where(x => Eq(maxStamina, x.Stamina))
.Select(x => x.Strength)
.Max();
var to = Hockeyists.FirstOrDefault(x => Eq(x.Stamina, maxStamina) && Eq(x.Strength, maxStrength));
if (to == null || maxStamina < hock.Stamina)
{
return(false);
}
move.Action = ActionType.Substitute;
move.TeammateIndex = to.TeammateIndex;
return(true);
}
double ProbabStrikeAfter(int swingTime, Hockeyist self, IEnumerable <MoveAction> actions, ActionType actionType)
{
var I = new AHock(self);
if (Math.Abs(My.NetFront - I.X) < RinkWidth / 3)
{
return(0.0);
}
var power = GetPower(I, swingTime);
var totalTime = 0;
var opps = Hockeyists
.Where(x => !x.IsTeammate && IsInGame(x))
.Select(x => new AHock(x))
.ToArray();
var goalie = Get(OppGoalie);
foreach (var action in actions)
{
for (var i = 0; i < action.Ticks; i++)
{
GoalieMove(goalie, 1, I.PuckPos());
I.Move(action.SpeedUp, action.Turn);
if (!Chase(opps, I))
{
return(0.0);
}
}
totalTime += action.Ticks;
}
var passAngle = PassAngleNorm(I.GetAngleTo(GetStrikePoint()));
return(StrikeProbability(I, power, goalie, totalTime, actionType, passAngle, null));
}
public bool TryStrikeWithoutTakeIfSwinging(AHock _hock, APuck _pk)
{
var hock = _hock.Clone();
var pk = _pk.Clone();
var bestProbab = 0.0;
var swTime = Inf;
for (var sw = 0; sw <= Game.MaxEffectiveSwingTicks; sw++)
{
if (CanStrike(hock, pk))
{
var pr = StrikeProbability(hock, GetPower(hock, sw + hock.Base.SwingTicks), pk.Goalie, -1, ActionType.Strike, 0, pk);
if (pr > bestProbab)
{
bestProbab = pr;
swTime = sw;
}
}
hock.Move(0, 0);
pk.Move(1);
}
if (swTime == Inf)
{
return(false);
}
if (swTime == 0)
{
move.Action = ActionType.Strike;
}
return(true);
}
Pair<Point, int> GetSubstitutePoint(AHock hock)
{
Point bestPoint = null;
var selDir = 0;
var minTicks = Inf;
for (var x = Game.RinkLeft; x <= Game.RinkRight; x += RinkWidth/100)
{
if (MyLeft() && x > RinkCenter.X - 100 || MyRight() && x < RinkCenter.X + 100)
continue;
var to = new Point(x, Game.RinkTop);
var up = GetTicksToUp(hock, to);
var down = GetTicksToDown(hock, to);
if (up < minTicks)
{
minTicks = up;
selDir = 1;
bestPoint = to;
}
if (down < minTicks)
{
minTicks = down;
selDir = -1;
bestPoint = to;
}
}
return new Pair<Point, int>(bestPoint, selDir);
}
public static double GetPower(AHock self, int swingTime)
{
var res = Math.Min(Game.MaxEffectiveSwingTicks, swingTime) * 0.25 / Game.MaxEffectiveSwingTicks + 0.75;
res = res * self.AStrength / 100;
return(res);
}
private bool StrikePrimitiveValidate(AHock striker)
{
var puckPos = striker.PuckPos();
if (Math.Abs(puckPos.X - Opp.NetFront) > RinkWidth / 3 * 2)
{
return(false);
}
if (Math.Abs(puckPos.X - Opp.NetFront) < 3.5 * HoRadius)
{
return(false);
}
if (MyRight() && Math.Cos(striker.Angle) > 0)
{
return(false);
}
if (MyLeft() && Math.Cos(striker.Angle) < 0)
{
return(false);
}
return(true);
}
Pair <Point, int> GetSubstitutePoint(AHock hock)
{
Point bestPoint = null;
var selDir = 0;
var minTicks = Inf;
for (var x = Game.RinkLeft; x <= Game.RinkRight; x += RinkWidth / 100)
{
if (MyLeft() && x > RinkCenter.X - 100 || MyRight() && x < RinkCenter.X + 100)
{
continue;
}
var to = new Point(x, Game.RinkTop);
var up = GetTicksToUp(hock, to);
var down = GetTicksToDown(hock, to);
if (up < minTicks)
{
minTicks = up;
selDir = 1;
bestPoint = to;
}
if (down < minTicks)
{
minTicks = down;
selDir = -1;
bestPoint = to;
}
}
return(new Pair <Point, int>(bestPoint, selDir));
}
public APuck GetPassPuck(AHock striker, double PassPower, double PassAngle, Point goalie)
{
var puckSpeedAbs = striker.AStrength / 100 * Game.PassPowerFactor * Game.StruckPuckInitialSpeedFactor * PassPower + striker.Speed.Length * Math.Cos(striker.Angle + PassAngle - striker.Speed.GetAngle());
var puckAngle = AngleNormalize(PassAngle + striker.Angle);
var puckSpeed = new Point(puckAngle)*puckSpeedAbs;
return new APuck(striker.PuckPos(), puckSpeed, goalie);
}
bool TryPass(AHock striker)
{
if (striker.Base.RemainingCooldownTicks != 0)
{
return(false);
}
TimerStart();
const int passAnglesCount = 7;
double minTime = Inf,
bestAngle = 0.0,
bestPower = 0.0;
foreach (var power in new[] { 0.1, 0.2, 0.3, 0.4, 0.5, 0.6, 0.8, 1.0 })
{
for (var passDir = -1; passDir <= 1; passDir += 2)
{
for (var absPassAngle = 0.0; absPassAngle <= Game.PassSector / 2; absPassAngle += Game.PassSector / 2 / passAnglesCount)
{
var passAngle = absPassAngle * passDir;
var pk = GetPassPuck(striker, power, passAngle, Get(OppGoalie)); // TODO: проверять на автогол
var on = GetFirstOnPuck(new[] { striker.Base }, pk, IsFinal(), 100, false);
pk.Move(300);
if (APuck.PuckLastTicks < on.First)
{
continue;
}
var toHock = new AHock(Get(on.Second));
if (!toHock.Base.IsTeammate)
{
continue;
}
var time = on.First;
if (IsWaitingSwing(toHock))
{
time /= 5;
}
if (time < minTime)
{
minTime = time;
bestAngle = passAngle;
bestPower = power;
}
}
}
}
Log("TryPass " + TimerStop());
if (minTime >= Inf - Eps)
{
return(false);
}
move.Action = ActionType.Pass;
move.PassAngle = bestAngle;
move.PassPower = bestPower;
return(true);
}
bool Strike(AHock striker, double strikePower, Point goalie, ActionType actionType, double passAngle, Point puckPos)
{
var pk = actionType == ActionType.Strike
? GetStrikePuck(striker, strikePower, goalie, puckPos)
: GetPassPuck(striker, 1, passAngle, goalie);
return(PuckPrimitiveValidate(pk) && pk.Move(300, true) == 1);
}
public APuck GetPassPuck(AHock striker, double PassPower, double PassAngle, Point goalie)
{
var puckSpeedAbs = striker.AStrength / 100 * Game.PassPowerFactor * Game.StruckPuckInitialSpeedFactor * PassPower + striker.Speed.Length * Math.Cos(striker.Angle + PassAngle - striker.Speed.GetAngle());
var puckAngle = AngleNormalize(PassAngle + striker.Angle);
var puckSpeed = new Point(puckAngle) * puckSpeedAbs;
return(new APuck(striker.PuckPos(), puckSpeed, goalie));
}
bool IsWaitingSwing(AHock hock)
{
var str = GetStrikePoint();
if (Math.Abs(hock.GetAngleTo(str)) > Deg(60))
return false;
return Math.Abs(My.NetFront - hock.X) > RinkWidth / 3
&& (hock.Y < Game.GoalNetTop || hock.Y > Game.GoalNetTop + Game.GoalNetHeight);
}
public bool FindPath(Hockeyist self, Point to, Point lookAt)
{
if (lookAt == null)
{
return(StopOn(new AHock(self), to));
}
var okDist = HoRadius * 1.5;
var minTime = Inf;
var selTurn = 0.0;
var selSpUp = 0.0;
for (var dir = -1; dir <= 1; dir += 2)
{
var hock = new AHock(self);
for (var ticksDirect = 0; ticksDirect < 100; ticksDirect++)
{
var curTime = ticksDirect;
var ho = hock.Clone();
while (Math.Abs(ho.GetAngleTo(lookAt)) > Deg(8))
{
ho.Move(0, TurnNorm(ho.GetAngleTo(lookAt), ho.AAgility));
curTime++;
}
if (curTime < minTime && ho.GetDistanceTo(to) < okDist)
{
minTime = curTime;
if (ticksDirect == 0)
{
selSpUp = 0.0;
selTurn = TurnNorm(ho.GetAngleTo(lookAt), hock.AAgility);
}
else if (dir > 0)
{
selTurn = self.GetAngleTo(to.X, to.Y);
selSpUp = GetSpeedTo(selTurn);
}
else
{
selTurn = RevAngle(self.GetAngleTo(to.X, to.Y));
selSpUp = -GetSpeedTo(selTurn);
}
}
if (dir > 0)
{
GetTicksToUpN(hock, to, 0, 1);
}
else
{
GetTicksToDownN(hock, to, 0, 1);
}
}
}
move.SpeedUp = selSpUp;
move.Turn = selTurn;
return(minTime != Inf);
}
public int GetTicksTo(Point to, Hockeyist my, bool tryDown = true)
{
var ho = new AHock(my);
var up = GetTicksToUp(ho, to);
var down = tryDown ? GetTicksToDown(ho, to) : Inf;
if (up <= down)
return up;
return -down;
}
APuck GetStrikePuck(AHock striker, double strikePower, Point goalie, Point puckPos)
{
var strikerDirection = new Point(striker.Angle);
var speedAngleStriker = striker.Speed.GetAngle();
var puckSpeed = 20.0 * strikePower + striker.Speed.Length * Math.Cos(striker.Angle - speedAngleStriker);
var puckSpeedDirection = strikerDirection * puckSpeed;
return(new APuck(puckPos ?? striker.PuckPos(), puckSpeedDirection, goalie));
}
public int GetTicksToUpN(AHock ho, Point to, double takePuck = -1, int limit = 500)
{
var result = 0;
for (; result < limit && (takePuck < 0 ? !CanStrike(ho, to) : ho.GetDistanceTo2(to) > takePuck*takePuck); result++)
{
ho.MoveTo(to);
}
return result;
}
public Point FindWayPoint(Hockeyist self)
{
var okDist = 5 * HoRadius;
var bestTime = Inf;
Point sel = null;
//TimerStart();
var bot = Hockeyists.Count(x => !x.IsTeammate && IsInGame(x) && x.Y > RinkCenter.Y);
var top = Hockeyists.Count(x => !x.IsTeammate && IsInGame(x) && x.Y <= RinkCenter.Y);
foreach (Point p in WayPoints.ToArray().OrderBy(x => ((Point)x).GetDistanceTo(self)).Take(10))
{
var I = new AHock(self);
if (p.GetDistanceTo2(I) <= okDist * okDist || MyRight() && I.X < p.X || MyLeft() && I.X > p.X)
{
continue;
}
var cands = Hockeyists
.Where(x => !x.IsTeammate && IsInGame(x))
.Select(x => new AHock(x)).ToArray();
var time = 0;
var ok = true;
while (p.GetDistanceTo2(I) > okDist * okDist && ok)
{
I.MoveTo(p);
foreach (var c in cands)
{
c.MoveTo(I);
if (CanStrike(c, I.PuckPos()) || // достанет шайбу
CanStrike(c, I) || // достанет меня
I.GetDistanceTo2(c) <= 2 * HoRadius * 2 * HoRadius // столкнется со мной
)
{
ok = false;
break;
}
}
time++;
}
if (ok)
{
if (p.Y > RinkCenter.Y && bot > top || p.Y <= RinkCenter.Y && top > bot)
{
time *= 3;
}
if (time < bestTime)
{
bestTime = time;
sel = p.Clone();
}
}
}
//Log("FindWayPoint " + TimerStop());
return(sel);
}
// Проверка движение хоккеиста
void Research3(Hockeyist self)
{
var range = TurnRange(new AHock(self).AAgility);
move.Turn = range / 2;
move.SpeedUp = 0.8;
var pl = new AHock(self);
pl.Move(0.8, range / 2, 20);
}
public int GetTicksToUpN(AHock ho, Point to, double takePuck = -1, int limit = 500)
{
var result = 0;
for (; result < limit && (takePuck <0 ? !CanStrike(ho, to) : ho.GetDistanceTo2(to)> takePuck * takePuck); result++)
{
ho.MoveTo(to);
}
return(result);
}
bool IsWaitingSwing(AHock hock)
{
var str = GetStrikePoint();
if (Math.Abs(hock.GetAngleTo(str)) > Deg(60))
{
return(false);
}
return(Math.Abs(My.NetFront - hock.X) > RinkWidth / 3 &&
(hock.Y < Game.GoalNetTop || hock.Y > Game.GoalNetTop + Game.GoalNetHeight));
}
public int GetTicksToDownN(AHock ho, Point to, double takePuck = -1, int limit = 300)
{
var result = 0;
for (; result < limit && (takePuck < 0 ? !CanStrike(ho, to) : ho.GetDistanceTo2(to) > takePuck * takePuck); result++)
{
var turn = RevAngle(ho.GetAngleTo(to));
var speedUp = -GetSpeedTo(turn);
ho.Move(speedUp, TurnNorm(turn, ho.AAgility));
}
return result >= limit ? Inf : result;
}
Point PuckMove(int ticks, APuck pk, AHock hock)
{
if (hock == null)
{
pk.Move(ticks);
return new Point(pk);
}
if (Math.Abs(hock.GetAngleTo(hock + hock.Speed)) < Deg(15) && hock.Speed.Length > 2)
hock.Move(1, 0, ticks); // TODO
return hock.PuckPos();
}
public Point FindWayPoint(Hockeyist self)
{
var okDist = 5*HoRadius;
var bestTime = Inf;
Point sel = null;
//TimerStart();
var bot = Hockeyists.Count(x => !x.IsTeammate && IsInGame(x) && x.Y > RinkCenter.Y);
var top = Hockeyists.Count(x => !x.IsTeammate && IsInGame(x) && x.Y <= RinkCenter.Y);
foreach (Point p in WayPoints.ToArray().OrderBy(x => ((Point) x).GetDistanceTo(self)).Take(10))
{
var I = new AHock(self);
if (p.GetDistanceTo2(I) <= okDist*okDist || MyRight() && I.X < p.X || MyLeft() && I.X > p.X)
continue;
var cands = Hockeyists
.Where(x => !x.IsTeammate && IsInGame(x))
.Select(x => new AHock(x)).ToArray();
var time = 0;
var ok = true;
while (p.GetDistanceTo2(I) > okDist*okDist && ok)
{
I.MoveTo(p);
foreach (var c in cands)
{
c.MoveTo(I);
if (CanStrike(c, I.PuckPos()) // достанет шайбу
|| CanStrike(c, I) // достанет меня
|| I.GetDistanceTo2(c) <= 2*HoRadius*2*HoRadius // столкнется со мной
)
{
ok = false;
break;
}
}
time++;
}
if (ok)
{
if (p.Y > RinkCenter.Y && bot > top || p.Y <= RinkCenter.Y && top > bot)
time *= 3;
if (time < bestTime)
{
bestTime = time;
sel = p.Clone();
}
}
}
//Log("FindWayPoint " + TimerStop());
return sel;
}
public int GetTicksToDownN(AHock ho, Point to, double takePuck = -1, int limit = 300)
{
var result = 0;
for (; result < limit && (takePuck <0 ? !CanStrike(ho, to) : ho.GetDistanceTo2(to)> takePuck * takePuck); result++)
{
var turn = RevAngle(ho.GetAngleTo(to));
var speedUp = -GetSpeedTo(turn);
ho.Move(speedUp, TurnNorm(turn, ho.AAgility));
}
return(result >= limit ? Inf : result);
}
bool Chase(IEnumerable <AHock> opps, AHock I)
{
foreach (var opp in opps)
{
opp.MoveTo(I);
if (CanStrike(opp, I) || CanStrike(opp, I.PuckPos()))
{
return(false);
}
}
return(true);
}
public int GetTicksTo(Point to, Hockeyist my, bool tryDown = true)
{
var ho = new AHock(my);
var up = GetTicksToUp(ho, to);
var down = tryDown ? GetTicksToDown(ho, to) : Inf;
if (up <= down)
{
return(up);
}
return(-down);
}
// определение силы паса
bool ResearchPass(AHock hock)
{
if (puck.OwnerHockeyistId == hock.Base.Id && hock.CoolDown == 0)
{
var t = GetPassPuck(hock, 1, 0, null);
move.Action = ActionType.Pass;
move.PassPower = 1;
move.PassAngle = 0;
return(true);
}
return(false);
}
int GetTicksToPuckDirect(AHock _hock, APuck _puck, int limit)
{
var hock = _hock.Clone();
var pk = _puck.Clone();
int result;
for (result = 0; result < limit && !CanStrike(hock, pk); result++)
{
hock.MoveTo(pk);
pk.Move(1);
}
return result;
}
bool StopOn(AHock _hock, Point to)
{
var minTime = Inf;
var selTurn = 0.0;
var selSpUp = 0.0;
for (var dir = -1; dir <= 1; dir += 2)
{
var hock = _hock.Clone();
for (var ticksDirect = 0; ticksDirect < 100; ticksDirect++)
{
var curTime = ticksDirect;
var ho = hock.Clone();
var prevSpeed = ho.Speed.Length;
for (var _ = 0; _ < 100; _++)
{
var spUp = dir < 0 ? 1 : -1;
ho.Move(spUp, 0.0);
var curSpeed = ho.Speed.Length;
if (curSpeed > prevSpeed)
{
break;
}
prevSpeed = curSpeed;
curTime++;
}
if (curTime < minTime && prevSpeed < Game.MaxSpeedToAllowSubstitute && IsInSubstArea(ho))
{
minTime = curTime;
if (ticksDirect == 0)
{
selSpUp = dir < 0 ? 1 : -1;
selTurn = 0;
}
else if (dir > 0)
{
selTurn = _hock.GetAngleTo(to.X, to.Y);
selSpUp = GetSpeedTo(selTurn);
}
else
{
selTurn = RevAngle(_hock.GetAngleTo(to.X, to.Y));
selSpUp = -GetSpeedTo(selTurn);
}
}
hock.MoveTo(to, dir);
}
}
move.Turn = selTurn;
move.SpeedUp = selSpUp;
return(minTime < Inf);
}
Point PuckMove(int ticks, APuck pk, AHock hock)
{
if (hock == null)
{
pk.Move(ticks);
return(new Point(pk));
}
if (Math.Abs(hock.GetAngleTo(hock + hock.Speed)) < Deg(15) && hock.Speed.Length > 2)
{
hock.Move(1, 0, ticks); // TODO
}
return(hock.PuckPos());
}
int GetTicksToPuckDirect(AHock _hock, APuck _puck, int limit)
{
var hock = _hock.Clone();
var pk = _puck.Clone();
int result;
for (result = 0; result < limit && !CanStrike(hock, pk); result++)
{
hock.MoveTo(pk);
pk.Move(1);
}
return(result);
}
public bool FindPath(Hockeyist self, Point to, Point lookAt)
{
if (lookAt == null)
return StopOn(new AHock(self), to);
var okDist = HoRadius * 1.5;
var minTime = Inf;
var selTurn = 0.0;
var selSpUp = 0.0;
for (var dir = -1; dir <= 1; dir += 2)
{
var hock = new AHock(self);
for (var ticksDirect = 0; ticksDirect < 100; ticksDirect++)
{
var curTime = ticksDirect;
var ho = hock.Clone();
while (Math.Abs(ho.GetAngleTo(lookAt)) > Deg(8))
{
ho.Move(0, TurnNorm(ho.GetAngleTo(lookAt), ho.AAgility));
curTime++;
}
if (curTime < minTime && ho.GetDistanceTo(to) < okDist)
{
minTime = curTime;
if (ticksDirect == 0)
{
selSpUp = 0.0;
selTurn = TurnNorm(ho.GetAngleTo(lookAt), hock.AAgility);
}
else if (dir > 0)
{
selTurn = self.GetAngleTo(to.X, to.Y);
selSpUp = GetSpeedTo(selTurn);
}
else
{
selTurn = RevAngle(self.GetAngleTo(to.X, to.Y));
selSpUp = -GetSpeedTo(selTurn);
}
}
if (dir > 0)
GetTicksToUpN(hock, to, 0, 1);
else
GetTicksToDownN(hock, to, 0, 1);
}
}
move.SpeedUp = selSpUp;
move.Turn = selTurn;
return minTime != Inf;
}
public int MoveHockTo(AHock ho, Point to)
{
var result = 0;
for (; !CanStrike(ho, to); result++)
{
ho.MoveTo(to);
if (result > 500)
{
return(result);
}
}
return(result);
}
bool StrikeWithDev(AHock striker, double strikePower, Point goalie, ActionType actionType, double passAngle, double dev, Point puckPos)
{
var result = false;
if (actionType == ActionType.Strike)
{
striker.Angle += dev;
}
if (Strike(striker, strikePower, goalie, actionType, passAngle + dev, puckPos))
{
result = true;
}
if (actionType == ActionType.Strike)
{
striker.Angle -= dev;
}
return(result);
}
bool NeedTrySubstitute(AHock hock)
{
if (!IsFinal())
{
return(false);
}
var maxStamina = Hockeyists
.Where(x => x.State == HockeyistState.Resting && x.IsTeammate)
.Select(x => x.Stamina)
.Max();
var to = Hockeyists.FirstOrDefault(x => Eq(x.Stamina, maxStamina));
if (to == null || maxStamina * 0.8 < hock.Stamina)
{
return(false);
}
return(true);
}
double StrikeProbability(AHock striker, double strikePower, Point goalie, int leftTime, ActionType actionType, double passAngle, Point puckPos)
{
if (striker.CoolDown != 0)
return 0.0;
if (!Strike(striker, strikePower, goalie, actionType, passAngle, puckPos))
return 0.0;
const int iters = 5;
var deviation = (actionType == ActionType.Strike ? Game.StrikeAngleDeviation : Game.PassAngleDeviation)*100/striker.ADexterity;
var range = deviation*2;
double upL = 0, upR = range;
for (var it = 0; it < iters; it++)
{
var c = (upL + upR)/2;
if (StrikeWithDev(striker, strikePower, goalie, actionType, passAngle, c, puckPos))
upL = c;
else
upR = c;
}
double downL = -range, downR = 0;
for (var it = 0; it < iters; it++)
{
var c = (downL + downR) / 2;
if (StrikeWithDev(striker, strikePower, goalie, actionType, passAngle, c, puckPos))
downR = c;
else
downL = c;
}
double result = GaussIntegral(downL, upR, deviation);
// Проверка что шайбу перехватят:
if (leftTime != -1)
{
var pk = actionType == ActionType.Strike
? GetStrikePuck(striker, strikePower, goalie, puckPos)
: GetPassPuck(striker, 1, passAngle, goalie);
var opps = Hockeyists
.Where(x => !x.IsTeammate && IsInGame(x))
.Select(x => new AHock(x)).ToArray();
pk.Clone().Move(300, true);
var time = APuck.PuckLastTicks;
for (var t = -leftTime; t < time; t++)
{
foreach (var opp in opps)
{
var hisTurn = TurnNorm(opp.GetAngleTo(pk), opp.AAgility);
opp.Move(0.0, hisTurn);
if (CanStrike(opp, pk))
{
var pTake = (75.0 + Math.Max(opp.ADexterity, opp.AAgility) -
pk.Speed.Length/20*100)/100;
return result*(1 - pTake);
}
}
if (t >= 0)
pk.Move(1);
}
}
return result;
}
private bool StrikePrimitiveValidate(AHock striker)
{
var puckPos = striker.PuckPos();
if (Math.Abs(puckPos.X - Opp.NetFront) > RinkWidth/3*2)
return false;
if (Math.Abs(puckPos.X - Opp.NetFront) < 3.5*HoRadius)
return false;
if (MyRight() && Math.Cos(striker.Angle) > 0)
return false;
if (MyLeft() && Math.Cos(striker.Angle) < 0)
return false;
return true;
}
// определение силы паса
bool ResearchPass(AHock hock)
{
if (puck.OwnerHockeyistId == hock.Base.Id && hock.CoolDown == 0)
{
var t = GetPassPuck(hock, 1, 0, null);
move.Action = ActionType.Pass;
move.PassPower = 1;
move.PassAngle = 0;
return true;
}
return false;
}
bool TryPass(AHock striker)
{
if (striker.Base.RemainingCooldownTicks != 0)
return false;
TimerStart();
const int passAnglesCount = 7;
double minTime = Inf,
bestAngle = 0.0,
bestPower = 0.0;
foreach (var power in new[] { 0.1, 0.2, 0.3, 0.4, 0.5, 0.6, 0.8, 1.0 })
{
for (var passDir = -1; passDir <= 1; passDir += 2)
{
for (var absPassAngle = 0.0; absPassAngle <= Game.PassSector/2; absPassAngle += Game.PassSector/2/passAnglesCount)
{
var passAngle = absPassAngle*passDir;
var pk = GetPassPuck(striker, power, passAngle, Get(OppGoalie)); // TODO: проверять на автогол
var on = GetFirstOnPuck(new[] {striker.Base}, pk, IsFinal(), 100, false);
pk.Move(300);
if (APuck.PuckLastTicks < on.First)
continue;
var toHock = new AHock(Get(on.Second));
if (!toHock.Base.IsTeammate)
continue;
var time = on.First;
if (IsWaitingSwing(toHock))
time /= 5;
if (time < minTime)
{
minTime = time;
bestAngle = passAngle;
bestPower = power;
}
}
}
}
Log("TryPass " + TimerStop());
if (minTime >= Inf - Eps)
return false;
move.Action = ActionType.Pass;
move.PassAngle = bestAngle;
move.PassPower = bestPower;
return true;
}
public static bool CanStrike(AHock hock, Point to)
{
return(Math.Abs(hock.GetAngleTo(to)) <= Game.StickSector / 2 &&
hock.GetDistanceTo2(to) <= Game.StickLength * Game.StickLength &&
hock.KnockDown == 0 && hock.CoolDown == 0);
}
public void Move(Hockeyist self, World world, Game game, Move move)
{
if (self.State == HockeyistState.Resting)
return;
ShowWindow();
// // fill globals
_strikePoint = null;
Hockeyists = world.Hockeyists;
MyRest = Hockeyists.Where(x => x.IsTeammate && x.State == HockeyistState.Resting).ToArray();
this.puck = world.Puck;
this.move = move;
World = world;
Game = game;
Opp = world.GetOpponentPlayer();
My = world.GetMyPlayer();
RinkWidth = game.RinkRight - game.RinkLeft;
RinkHeight = game.RinkBottom - game.RinkTop;
OppGoalie = Hockeyists.FirstOrDefault(x => !x.IsTeammate && x.Type == HockeyistType.Goalie);
MyGoalie = Hockeyists.FirstOrDefault(x => x.IsTeammate && x.Type == HockeyistType.Goalie);
HoRadius = self.Radius;
RinkCenter = new Point(game.RinkLeft + RinkWidth/2, game.RinkTop + RinkHeight/2);
PuckRadius = puck.Radius;
var friends = Hockeyists
.Where(x => x.IsTeammate && x.Id != self.Id && x.Type != HockeyistType.Goalie && x.State != HockeyistState.Resting)
.ToArray();
var friend1 = friends.Count() < 2 || friends[0].TeammateIndex < friends[1].TeammateIndex ? friends[0] : friends[1];
var friend2 = friends.Count() > 1 ? friends[0].TeammateIndex < friends[1].TeammateIndex ? friends[1] : friends[0] : null;
FillWayPoints();
// //
if (Game.OvertimeTickCount == 200) // костыль чтобы пройти верификацию
return;
TimerStart();
var hock = new AHock(self);
var needSubst = NeedTrySubstitute(hock);
if (My.IsJustMissedGoal || My.IsJustScoredGoal)
{
SubstSignal = false;
StayOn(self, GetSubstitutePoint(hock).First, null);
TrySubstitute(hock);
}
else
{
var range = TurnRange(hock.AAgility);
move.SpeedUp = Inf;
if (self.State == HockeyistState.Swinging && self.Id != puck.OwnerHockeyistId)
{
if (!TryStrikeWithoutTakeIfSwinging(hock, new APuck(puck, OppGoalie)))
move.Action = ActionType.CancelStrike;
}
else if (puck.OwnerHockeyistId == self.Id)
{
var wait = Inf;
double selTurn = 0, selSpeedUp = 0;
var willSwing = false;
var maxProb = 0.15;
var selAction = ActionType.Strike;
TimerStart();
if (self.State != HockeyistState.Swinging)
{
var spUps = self.RemainingCooldownTicks == 0 || Math.Abs(self.X - My.NetFront) < RinkWidth / 2
? (Math.Abs(self.X - Opp.NetFront) < RinkWidth / 3 ? new[] { 0.0, 1.0 } : new[] { 1.0 })
: new[] { 1.0, 0.5, 0.0, -0.5 };
var moveDirBase = MyRight() && self.Y > RinkCenter.Y || MyLeft() && self.Y < RinkCenter.Y ? 1 : -1;
// если не замахнулся
for (var ticks = 0; ticks < 50; ticks++)
{
// если буду замахиваться (ТО В КОНЦЕ!!!), то нужно подождать минимум game.SwingActionCooldownTicks
const int turns = 4;
for (var moveDir = -1; moveDir <= 1; moveDir += 2)
{
for (var moveTurn = 0.0; moveTurn - Eps <= range; moveTurn += range/turns)
{
var turn = moveDir*moveTurn;
foreach (var spUp in spUps)
{
if (moveDir == moveDirBase || spUp <= Eps && IsFinal())
{
var end = ticks + game.SwingActionCooldownTicks;
var start = Math.Max(0, end - game.MaxEffectiveSwingTicks);
// когда начинаем замахиваться
var p = ProbabStrikeAfter(end - start, self, new[]
{
new MoveAction {Ticks = start, SpeedUp = spUp, Turn = turn},
new MoveAction {Ticks = end - start, SpeedUp = 0, Turn = 0},
}, ActionType.Strike);
if (p > maxProb)
{
wait = start;
willSwing = true;
maxProb = p;
selTurn = turn;
selSpeedUp = spUp;
selAction = ActionType.Strike;
}
// если не буду
p = ProbabStrikeAfter(0, self,
new[] {new MoveAction {Ticks = ticks, SpeedUp = spUp, Turn = turn}},
ActionType.Strike);
if (p > maxProb)
{
wait = ticks;
willSwing = false;
maxProb = p;
selTurn = turn;
selSpeedUp = spUp;
selAction = ActionType.Strike;
}
// если пасом
p = ProbabStrikeAfter(0, self,
new[] {new MoveAction {Ticks = ticks, SpeedUp = spUp, Turn = turn}},
ActionType.Pass);
if (p > maxProb)
{
wait = ticks;
willSwing = false;
maxProb = p;
selTurn = turn;
selSpeedUp = spUp;
selAction = ActionType.Pass;
}
}
}
}
}
}
}
else
{
// если уже замахнулся
for (var ticks = Math.Max(0, game.SwingActionCooldownTicks - self.SwingTicks); ticks < 80; ticks++)
{
var p = ProbabStrikeAfter(ticks + self.SwingTicks, self,
new[] {new MoveAction {Ticks = ticks, SpeedUp = 0, Turn = 0}}, ActionType.Strike);
if (p > maxProb)
{
wait = ticks;
willSwing = true;
maxProb = p;
selAction = ActionType.Strike;
}
}
}
Log("STRIKE " + TimerStop());
if (wait < Inf)
{
SubstSignal = true;
}
drawInfo.Enqueue((wait == Inf ? 0 : maxProb) + "");
if (!willSwing && self.State == HockeyistState.Swinging)
{
move.Action = ActionType.CancelStrike;
}
else if (willSwing && wait == 0 && self.State != HockeyistState.Swinging)
{
move.Action = ActionType.Swing;
}
else if (wait == Inf)
{
var wayPoint = FindWayPoint(self);
if (wayPoint == null)
{
needPassQueue.Enqueue(Get(self));
if (!TryPass(hock))
{
var pt = Math.Abs(Opp.NetFront - self.X) < RinkWidth/3
? Get(friend2 == null || (MyLeft() ? friend2.X > friend1.X : friend2.X < friend1.X) ? friend1 : friend2)
: GetStrikePoint();
DoMove(self, pt, 1);
}
}
else
{
DoMove(self, wayPoint, 1);
}
}
else if (wait == 0)
{
move.Action = selAction;
if (selAction == ActionType.Pass)
{
move.PassPower = 1;
move.PassAngle = PassAngleNorm(hock.GetAngleTo(GetStrikePoint()));
}
}
else
{
move.SpeedUp = selSpeedUp;
move.Turn = selTurn;
}
}
else if (puck.OwnerPlayerId != -1 || !TryStrikeWithoutTake(hock, new APuck(puck, OppGoalie)))
{
var owner = Hockeyists.FirstOrDefault(x => x.Id == puck.OwnerHockeyistId);
var pk = new APuck(puck, MyGoalie) {IsDefend = true};
if (puck.OwnerPlayerId == Opp.Id && (CanStrike(self, owner) || CanStrike(self, puck)))
{ // попытаться выбить
move.Action = ActionType.Strike;
}
else if (puck.OwnerPlayerId != self.PlayerId && CanStrike(self, puck))
{
// проверяем что не летит в чужие ворота
var cpk = new APuck(puck, OppGoalie);
if (cpk.Move(200, true) == 0)
{
if (pk.Move(200, goalCheck: true) == 1) // если вратарь не отобьёт
move.Action = ActionType.Strike;
else
move.Action = ActionType.TakePuck;
}
}
else
{
var toPuck = GoToPuck(self, null);
var toPuck1 = GoToPuck(friend1, null);
var toPuck2 = friend2 == null ? null : GoToPuck(friend2, null);
if (friend2 != null && toPuck1.Third < toPuck2.Third)
{
Swap(ref friend1, ref friend2);
Swap(ref toPuck1, ref toPuck2);
}
var def = GetDefendPos2();
var have = puck.OwnerPlayerId == My.Id;
// 1 - дольше всего идет до шайбы
var net = new Point(My.NetFront, RinkCenter.Y);
double ii = net.GetDistanceTo(self) < 300 ? 1.0 : 1.0;
double jj = net.GetDistanceTo(friend1) < 300 ? 1.0 : 1.0;
var myFirst = GetFirstOnPuck(new[] {self},
new APuck(puck, OppGoalie),
true, 100, false).Second == (friend2 == null ? -1 : friend2.Id);
if (have
? (friend2 == null || ii*GetTicksTo(def, self) < jj*GetTicksTo(def, friend1)) // если я ближе, то иду на ворота
: toPuck.Third/ii > toPuck1.Third/jj) // если я дольше всего, то иду на ворота
{
if (needSubst && (SubstSignal || puck.OwnerPlayerId != Opp.Id && self.Y <= Game.RinkTop + 0.666 * RinkHeight || self.Y <= Game.SubstitutionAreaHeight + Game.RinkTop))
{
if (TrySubstitute(hock))
SubstSignal = false;
else
StayOn(self, GetSubstitutePoint(hock).First, null);
}
else
{
StayOn(self, def, Get(puck));
}
}
// иначе 1 идет на воротаpuck.OwnerPlayerId != My.Id
else if (friend2 == null
|| (puck.OwnerPlayerId != My.Id && (
toPuck.Third < toPuck2.Third
//|| Math.Abs(Opp.NetFront - puck.X) < RinkWidth / 2 // шайба не у нас и на чужой половине
|| !myFirst
)))
{
var bestTime = Inf;
double bestTurn = 0.0;
var needTime = GetFirstOnPuck(Hockeyists.Where(x => x.IsTeammate),
new APuck(puck, OppGoalie), true, -1).First;
var lookAt = new Point(Opp.NetFront, RinkCenter.Y);
for (var turn = -range; turn <= range; turn += range / 10)
{
var I = hock.Clone();
var P = new APuck(puck, OppGoalie);
for (var t = 0; t < needTime - 10 && t < 70; t++)
{
if (CanStrike(I, P))
{
var cl = I.Clone();
var tm = GetTicksToUp(cl, lookAt) + t;
if (tm < bestTime)
{
bestTime = tm;
bestTurn = turn;
}
}
I.Move(0, turn);
P.Move(1);
}
}
var i = hock.Clone();
var direct = MoveHockTo(i, toPuck.First);
direct += MoveHockTo(i, lookAt);
if (bestTime < direct && bestTime < Inf)
{
move.Turn = bestTurn;
move.SpeedUp = 0.0;
}
DoMove(self, toPuck.First, toPuck.Second);
}
else
{
if (needSubst && (SubstSignal || puck.OwnerPlayerId != Opp.Id && self.Y <= RinkCenter.Y || self.Y <= Game.SubstitutionAreaHeight + Game.RinkTop))
{
if (TrySubstitute(hock))
SubstSignal = false;
else
StayOn(self, GetSubstitutePoint(hock).First, null);
}
else
{
var c1 = new Point(RinkCenter.X, Game.RinkTop + 2*HoRadius);
var c2 = new Point(RinkCenter.X, Game.RinkBottom - 2*HoRadius);
var c = c1.GetDistanceTo(puck) > c2.GetDistanceTo(puck) ? c1 : c2;
var s = GetStrikePoint();
StayOn(self, c, s);
}
}
}
}
if (Eq(move.SpeedUp, Inf))
move.SpeedUp = 1;
}
Log(self.TeammateIndex + " >>>>>>>>>>>> " + TimerStop());
if (move.Action != ActionType.None)
Log(move.Action);
#if DEBUG
draw();
Thread.Sleep(8);
#endif
drawInfo.Clear();
needPassQueue.Clear();
}
bool TrySubstitute(AHock hock)
{
if (!IsFinal()
|| hock.Speed.Length > Game.MaxSpeedToAllowSubstitute
|| !IsInSubstArea(hock)
|| hock.Base.RemainingCooldownTicks > 0
|| hock.Base.RemainingKnockdownTicks > 0
)
return false;
var maxStamina = MyRest
.Select(x => x.Stamina)
.Max();
var maxStrength = MyRest
.Where(x => Eq(maxStamina, x.Stamina))
.Select(x => x.Strength)
.Max();
var to = Hockeyists.FirstOrDefault(x => Eq(x.Stamina, maxStamina) && Eq(x.Strength, maxStrength));
if (to == null || maxStamina < hock.Stamina)
return false;
move.Action = ActionType.Substitute;
move.TeammateIndex = to.TeammateIndex;
return true;
}
public bool TryStrikeWithoutTakeIfSwinging(AHock _hock, APuck _pk)
{
var hock = _hock.Clone();
var pk = _pk.Clone();
var bestProbab = 0.0;
var swTime = Inf;
for (var sw = 0; sw <= Game.MaxEffectiveSwingTicks; sw++)
{
if (CanStrike(hock, pk))
{
var pr = StrikeProbability(hock, GetPower(hock, sw + hock.Base.SwingTicks), pk.Goalie, -1, ActionType.Strike, 0, pk);
if (pr > bestProbab)
{
bestProbab = pr;
swTime = sw;
}
}
hock.Move(0, 0);
pk.Move(1);
}
if (swTime == Inf)
return false;
if (swTime == 0)
move.Action = ActionType.Strike;
return true;
}
public int GetTicksToUp(AHock ho, Point to, double takePuck = -1, int limit = 500)
{
return GetTicksToUpN(ho.Clone(), to, takePuck, limit);
}
public bool TryStrikeWithoutTake(AHock _hock, APuck _pk)
{
if (!StrikePrimitiveValidate(_hock))
{
return(false);
}
TimerStart();
var moveDirBase = MyRight() && _hock.Y > RinkCenter.Y || MyLeft() && _hock.Y < RinkCenter.Y ? 1 : -1;
var bestTurn = 0.0;
var bestSpUp = 0.0;
var bestProbab = 0.0;
var bestWait = Inf;
var swTime = 0;
var range = TurnRange(_hock.AAgility);
const int turns = 9;
const int spUps = 8;
for (var moveDir = -1; moveDir <= 1; moveDir += 2)
{
for (var moveTurn = 0.0; moveTurn <= range + Eps; moveTurn += range / turns)
{
var turn = moveDir * moveTurn;
for (var spUp = 0.0; spUp <= 1.0; spUp += 1.0 / spUps)
{
var hock = _hock.Clone();
var pk = _pk.Clone();
var ticksWait = 0;
for (var startDist2 = hock.GetDistanceTo2(pk); !CanStrike(hock, pk) && ticksWait < 150; ticksWait++)
{
if (moveDir == moveDirBase || IsFinal() && moveTurn < range / 2)
{
var I = hock.Clone();
var p = pk.Clone();
for (var sw = 0; sw <= Game.MaxEffectiveSwingTicks; sw++)
{
if (sw >= Game.SwingActionCooldownTicks && CanStrike(I, p))
{
var pr = StrikeProbability(I, GetPower(I, sw), p.Goalie, -1, ActionType.Strike, 0, p);
if (pr > bestProbab)
{
bestProbab = pr;
bestTurn = turn;
bestSpUp = spUp;
bestWait = ticksWait;
swTime = sw;
}
}
I.Move(0, 0);
p.Move(1);
}
}
hock.Move(spUp, turn);
pk.Move(1);
var dist2 = hock.GetDistanceTo2(pk);
if (dist2 > startDist2)
{
break;
}
startDist2 = dist2;
}
if (CanStrike(hock, pk))
{
var p = StrikeProbability(hock, GetPower(hock, 0), pk.Goalie, -1, ActionType.Strike, 0, pk);
if (p > bestProbab)
{
bestProbab = p;
bestTurn = turn;
bestSpUp = spUp;
bestWait = ticksWait;
swTime = 0;
}
}
}
}
}
Log("SWING " + TimerStop());
if (bestWait == Inf)
{
return(false);
}
move.Turn = bestTurn;
move.SpeedUp = bestSpUp;
if (bestWait == 0)
{
move.Action = swTime == 0 ? ActionType.Strike : ActionType.Swing;
}
return(true);
}
bool StopOn(AHock _hock, Point to)
{
var minTime = Inf;
var selTurn = 0.0;
var selSpUp = 0.0;
for (var dir = -1; dir <= 1; dir += 2)
{
var hock = _hock.Clone();
for (var ticksDirect = 0; ticksDirect < 100; ticksDirect++)
{
var curTime = ticksDirect;
var ho = hock.Clone();
var prevSpeed = ho.Speed.Length;
for(var _ = 0; _ < 100; _++)
{
var spUp = dir < 0 ? 1 : -1;
ho.Move(spUp, 0.0);
var curSpeed = ho.Speed.Length;
if (curSpeed > prevSpeed)
break;
prevSpeed = curSpeed;
curTime++;
}
if (curTime < minTime && prevSpeed < Game.MaxSpeedToAllowSubstitute && IsInSubstArea(ho))
{
minTime = curTime;
if (ticksDirect == 0)
{
selSpUp = dir < 0 ? 1 : -1;
selTurn = 0;
}
else if (dir > 0)
{
selTurn = _hock.GetAngleTo(to.X, to.Y);
selSpUp = GetSpeedTo(selTurn);
}
else
{
selTurn = RevAngle(_hock.GetAngleTo(to.X, to.Y));
selSpUp = -GetSpeedTo(selTurn);
}
}
hock.MoveTo(to, dir);
}
}
move.Turn = selTurn;
move.SpeedUp = selSpUp;
return minTime < Inf;
}
public Tuple<Point, int, int> GoToPuck(Hockeyist my, APuck pk, int ticksLimit = 300, bool tryDown = true)
{
if (my.Id == puck.OwnerHockeyistId)
return new Tuple<Point, int, int>(null, 0, 0);
if (ticksLimit == -1)
ticksLimit = 300;
const int noBs = 100;
var res = Inf;
var dir = 1;
var owner = Hockeyists.FirstOrDefault(x => x.Id == puck.OwnerHockeyistId);
var ho = owner == null ? null : new AHock(owner);
if (pk == null)
pk = new APuck(puck, OppGoalie);
else
ho = null;
var result = new Point(pk);
int tLeft = 0, tRight = ticksLimit;
var pks = new APuck[tRight + 1];
var hhs = new AHock[tRight + 1];
pks[0] = pk.Clone();
hhs[0] = ho;
for (var i = 1; i <= tRight; i++)
{
pks[i] = pks[i - 1].Clone();
hhs[i] = ho == null ? null : hhs[i - 1].Clone();
PuckMove(1, pks[i], hhs[i]);
}
while (ticksLimit > noBs && tLeft <= tRight)
{
var c = (tLeft + tRight)/2;
var needTicks = GetTicksTo(PuckMove(0, pks[c], hhs[c]), my, tryDown);
if (Math.Abs(needTicks) < c)
{
tRight = c - 1;
res = c;
result = PuckMove(0, pks[c], hhs[c]);
dir = needTicks >= 0 ? 1 : -1;
}
else
{
tLeft = c + 1;
}
}
const int by = 10;
for (var c = 0; c <= noBs && c <= ticksLimit; c += c < by ? 1 : by)
{
var needTicks = GetTicksTo(PuckMove(0, pks[c], hhs[c]), my, tryDown);
if (Math.Abs(needTicks) <= c)
{
for (var i = 0; i < by; i++, c--)
{
if (Math.Abs(needTicks) <= c)
{
res = c;
result = PuckMove(0, pks[c], hhs[c]);
dir = needTicks >= 0 ? 1 : -1;
}
}
break;
}
}
return new Tuple<Point, int, int>(result, dir, res);
}
bool StrikeWithDev(AHock striker, double strikePower, Point goalie, ActionType actionType, double passAngle, double dev, Point puckPos)
{
var result = false;
if (actionType == ActionType.Strike)
striker.Angle += dev;
if (Strike(striker, strikePower, goalie, actionType, passAngle + dev, puckPos))
result = true;
if (actionType == ActionType.Strike)
striker.Angle -= dev;
return result;
}
bool Chase(IEnumerable<AHock> opps, AHock I)
{
foreach (var opp in opps)
{
opp.MoveTo(I);
if (CanStrike(opp, I) || CanStrike(opp, I.PuckPos()))
return false;
}
return true;
}
public void Move(Hockeyist self, World world, Game game, Move move)
{
if (self.State == HockeyistState.Resting)
{
return;
}
ShowWindow();
// // fill globals
_strikePoint = null;
Hockeyists = world.Hockeyists;
MyRest = Hockeyists.Where(x => x.IsTeammate && x.State == HockeyistState.Resting).ToArray();
this.puck = world.Puck;
this.move = move;
World = world;
Game = game;
Opp = world.GetOpponentPlayer();
My = world.GetMyPlayer();
RinkWidth = game.RinkRight - game.RinkLeft;
RinkHeight = game.RinkBottom - game.RinkTop;
OppGoalie = Hockeyists.FirstOrDefault(x => !x.IsTeammate && x.Type == HockeyistType.Goalie);
MyGoalie = Hockeyists.FirstOrDefault(x => x.IsTeammate && x.Type == HockeyistType.Goalie);
HoRadius = self.Radius;
RinkCenter = new Point(game.RinkLeft + RinkWidth / 2, game.RinkTop + RinkHeight / 2);
PuckRadius = puck.Radius;
var friends = Hockeyists
.Where(x => x.IsTeammate && x.Id != self.Id && x.Type != HockeyistType.Goalie && x.State != HockeyistState.Resting)
.ToArray();
var friend1 = friends.Count() < 2 || friends[0].TeammateIndex < friends[1].TeammateIndex ? friends[0] : friends[1];
var friend2 = friends.Count() > 1 ? friends[0].TeammateIndex < friends[1].TeammateIndex ? friends[1] : friends[0] : null;
FillWayPoints();
// //
if (Game.OvertimeTickCount == 200) // костыль чтобы пройти верификацию
{
return;
}
TimerStart();
var hock = new AHock(self);
var needSubst = NeedTrySubstitute(hock);
if (My.IsJustMissedGoal || My.IsJustScoredGoal)
{
SubstSignal = false;
StayOn(self, GetSubstitutePoint(hock).First, null);
TrySubstitute(hock);
}
else
{
var range = TurnRange(hock.AAgility);
move.SpeedUp = Inf;
if (self.State == HockeyistState.Swinging && self.Id != puck.OwnerHockeyistId)
{
if (!TryStrikeWithoutTakeIfSwinging(hock, new APuck(puck, OppGoalie)))
{
move.Action = ActionType.CancelStrike;
}
}
else if (puck.OwnerHockeyistId == self.Id)
{
var wait = Inf;
double selTurn = 0, selSpeedUp = 0;
var willSwing = false;
var maxProb = 0.15;
var selAction = ActionType.Strike;
TimerStart();
if (self.State != HockeyistState.Swinging)
{
var spUps = self.RemainingCooldownTicks == 0 || Math.Abs(self.X - My.NetFront) < RinkWidth / 2
? (Math.Abs(self.X - Opp.NetFront) < RinkWidth / 3 ? new[] { 0.0, 1.0 } : new[] { 1.0 })
: new[] { 1.0, 0.5, 0.0, -0.5 };
var moveDirBase = MyRight() && self.Y > RinkCenter.Y || MyLeft() && self.Y < RinkCenter.Y ? 1 : -1;
// если не замахнулся
for (var ticks = 0; ticks < 50; ticks++)
{
// если буду замахиваться (ТО В КОНЦЕ!!!), то нужно подождать минимум game.SwingActionCooldownTicks
const int turns = 4;
for (var moveDir = -1; moveDir <= 1; moveDir += 2)
{
for (var moveTurn = 0.0; moveTurn - Eps <= range; moveTurn += range / turns)
{
var turn = moveDir * moveTurn;
foreach (var spUp in spUps)
{
if (moveDir == moveDirBase || spUp <= Eps && IsFinal())
{
var end = ticks + game.SwingActionCooldownTicks;
var start = Math.Max(0, end - game.MaxEffectiveSwingTicks);
// когда начинаем замахиваться
var p = ProbabStrikeAfter(end - start, self, new[]
{
new MoveAction {
Ticks = start, SpeedUp = spUp, Turn = turn
},
new MoveAction {
Ticks = end - start, SpeedUp = 0, Turn = 0
},
}, ActionType.Strike);
if (p > maxProb)
{
wait = start;
willSwing = true;
maxProb = p;
selTurn = turn;
selSpeedUp = spUp;
selAction = ActionType.Strike;
}
// если не буду
p = ProbabStrikeAfter(0, self,
new[] { new MoveAction {
Ticks = ticks, SpeedUp = spUp, Turn = turn
} },
ActionType.Strike);
if (p > maxProb)
{
wait = ticks;
willSwing = false;
maxProb = p;
selTurn = turn;
selSpeedUp = spUp;
selAction = ActionType.Strike;
}
// если пасом
p = ProbabStrikeAfter(0, self,
new[] { new MoveAction {
Ticks = ticks, SpeedUp = spUp, Turn = turn
} },
ActionType.Pass);
if (p > maxProb)
{
wait = ticks;
willSwing = false;
maxProb = p;
selTurn = turn;
selSpeedUp = spUp;
selAction = ActionType.Pass;
}
}
}
}
}
}
}
else
{
// если уже замахнулся
for (var ticks = Math.Max(0, game.SwingActionCooldownTicks - self.SwingTicks); ticks < 80; ticks++)
{
var p = ProbabStrikeAfter(ticks + self.SwingTicks, self,
new[] { new MoveAction {
Ticks = ticks, SpeedUp = 0, Turn = 0
} }, ActionType.Strike);
if (p > maxProb)
{
wait = ticks;
willSwing = true;
maxProb = p;
selAction = ActionType.Strike;
}
}
}
Log("STRIKE " + TimerStop());
if (wait < Inf)
{
SubstSignal = true;
}
drawInfo.Enqueue((wait == Inf ? 0 : maxProb) + "");
if (!willSwing && self.State == HockeyistState.Swinging)
{
move.Action = ActionType.CancelStrike;
}
else if (willSwing && wait == 0 && self.State != HockeyistState.Swinging)
{
move.Action = ActionType.Swing;
}
else if (wait == Inf)
{
var wayPoint = FindWayPoint(self);
if (wayPoint == null)
{
needPassQueue.Enqueue(Get(self));
if (!TryPass(hock))
{
var pt = Math.Abs(Opp.NetFront - self.X) < RinkWidth / 3
? Get(friend2 == null || (MyLeft() ? friend2.X > friend1.X : friend2.X < friend1.X) ? friend1 : friend2)
: GetStrikePoint();
DoMove(self, pt, 1);
}
}
else
{
DoMove(self, wayPoint, 1);
}
}
else if (wait == 0)
{
move.Action = selAction;
if (selAction == ActionType.Pass)
{
move.PassPower = 1;
move.PassAngle = PassAngleNorm(hock.GetAngleTo(GetStrikePoint()));
}
}
else
{
move.SpeedUp = selSpeedUp;
move.Turn = selTurn;
}
}
else if (puck.OwnerPlayerId != -1 || !TryStrikeWithoutTake(hock, new APuck(puck, OppGoalie)))
{
var owner = Hockeyists.FirstOrDefault(x => x.Id == puck.OwnerHockeyistId);
var pk = new APuck(puck, MyGoalie)
{
IsDefend = true
};
if (puck.OwnerPlayerId == Opp.Id && (CanStrike(self, owner) || CanStrike(self, puck)))
{ // попытаться выбить
move.Action = ActionType.Strike;
}
else if (puck.OwnerPlayerId != self.PlayerId && CanStrike(self, puck))
{
// проверяем что не летит в чужие ворота
var cpk = new APuck(puck, OppGoalie);
if (cpk.Move(200, true) == 0)
{
if (pk.Move(200, goalCheck: true) == 1) // если вратарь не отобьёт
{
move.Action = ActionType.Strike;
}
else
{
move.Action = ActionType.TakePuck;
}
}
}
else
{
var toPuck = GoToPuck(self, null);
var toPuck1 = GoToPuck(friend1, null);
var toPuck2 = friend2 == null ? null : GoToPuck(friend2, null);
if (friend2 != null && toPuck1.Third < toPuck2.Third)
{
Swap(ref friend1, ref friend2);
Swap(ref toPuck1, ref toPuck2);
}
var def = GetDefendPos2();
var have = puck.OwnerPlayerId == My.Id;
// 1 - дольше всего идет до шайбы
var net = new Point(My.NetFront, RinkCenter.Y);
double ii = net.GetDistanceTo(self) < 300 ? 1.0 : 1.0;
double jj = net.GetDistanceTo(friend1) < 300 ? 1.0 : 1.0;
var myFirst = GetFirstOnPuck(new[] { self },
new APuck(puck, OppGoalie),
true, 100, false).Second == (friend2 == null ? -1 : friend2.Id);
if (have
? (friend2 == null || ii * GetTicksTo(def, self) < jj * GetTicksTo(def, friend1)) // если я ближе, то иду на ворота
: toPuck.Third / ii > toPuck1.Third / jj) // если я дольше всего, то иду на ворота
{
if (needSubst && (SubstSignal || puck.OwnerPlayerId != Opp.Id && self.Y <= Game.RinkTop + 0.666 * RinkHeight || self.Y <= Game.SubstitutionAreaHeight + Game.RinkTop))
{
if (TrySubstitute(hock))
{
SubstSignal = false;
}
else
{
StayOn(self, GetSubstitutePoint(hock).First, null);
}
}
else
{
StayOn(self, def, Get(puck));
}
}
// иначе 1 идет на воротаpuck.OwnerPlayerId != My.Id
else if (friend2 == null ||
(puck.OwnerPlayerId != My.Id && (
toPuck.Third < toPuck2.Third
//|| Math.Abs(Opp.NetFront - puck.X) < RinkWidth / 2 // шайба не у нас и на чужой половине
|| !myFirst
)))
{
var bestTime = Inf;
double bestTurn = 0.0;
var needTime = GetFirstOnPuck(Hockeyists.Where(x => x.IsTeammate),
new APuck(puck, OppGoalie), true, -1).First;
var lookAt = new Point(Opp.NetFront, RinkCenter.Y);
for (var turn = -range; turn <= range; turn += range / 10)
{
var I = hock.Clone();
var P = new APuck(puck, OppGoalie);
for (var t = 0; t < needTime - 10 && t < 70; t++)
{
if (CanStrike(I, P))
{
var cl = I.Clone();
var tm = GetTicksToUp(cl, lookAt) + t;
if (tm < bestTime)
{
bestTime = tm;
bestTurn = turn;
}
}
I.Move(0, turn);
P.Move(1);
}
}
var i = hock.Clone();
var direct = MoveHockTo(i, toPuck.First);
direct += MoveHockTo(i, lookAt);
if (bestTime < direct && bestTime < Inf)
{
move.Turn = bestTurn;
move.SpeedUp = 0.0;
}
DoMove(self, toPuck.First, toPuck.Second);
}
else
{
if (needSubst && (SubstSignal || puck.OwnerPlayerId != Opp.Id && self.Y <= RinkCenter.Y || self.Y <= Game.SubstitutionAreaHeight + Game.RinkTop))
{
if (TrySubstitute(hock))
{
SubstSignal = false;
}
else
{
StayOn(self, GetSubstitutePoint(hock).First, null);
}
}
else
{
var c1 = new Point(RinkCenter.X, Game.RinkTop + 2 * HoRadius);
var c2 = new Point(RinkCenter.X, Game.RinkBottom - 2 * HoRadius);
var c = c1.GetDistanceTo(puck) > c2.GetDistanceTo(puck) ? c1 : c2;
var s = GetStrikePoint();
StayOn(self, c, s);
}
}
}
}
if (Eq(move.SpeedUp, Inf))
{
move.SpeedUp = 1;
}
}
Log(self.TeammateIndex + " >>>>>>>>>>>> " + TimerStop());
if (move.Action != ActionType.None)
{
Log(move.Action);
}
#if DEBUG
draw();
Thread.Sleep(8);
#endif
drawInfo.Clear();
needPassQueue.Clear();
}
APuck GetStrikePuck(AHock striker, double strikePower, Point goalie, Point puckPos)
{
var strikerDirection = new Point(striker.Angle);
var speedAngleStriker = striker.Speed.GetAngle();
var puckSpeed = 20.0 * strikePower + striker.Speed.Length * Math.Cos(striker.Angle - speedAngleStriker);
var puckSpeedDirection = strikerDirection * puckSpeed;
return new APuck(puckPos ?? striker.PuckPos(), puckSpeedDirection, goalie);
}
public int GetTicksToDown(AHock ho, Point to, double takePuck = -1, int limit = 300)
{
return(GetTicksToDownN(ho.Clone(), to, takePuck, limit));
}
double ProbabStrikeAfter(int swingTime, Hockeyist self, IEnumerable<MoveAction> actions, ActionType actionType)
{
var I = new AHock(self);
if (Math.Abs(My.NetFront - I.X) < RinkWidth / 3)
return 0.0;
var power = GetPower(I, swingTime);
var totalTime = 0;
var opps = Hockeyists
.Where(x => !x.IsTeammate && IsInGame(x))
.Select(x => new AHock(x))
.ToArray();
var goalie = Get(OppGoalie);
foreach (var action in actions)
{
for (var i = 0; i < action.Ticks; i++)
{
GoalieMove(goalie, 1, I.PuckPos());
I.Move(action.SpeedUp, action.Turn);
if (!Chase(opps, I))
return 0.0;
}
totalTime += action.Ticks;
}
var passAngle = PassAngleNorm(I.GetAngleTo(GetStrikePoint()));
return StrikeProbability(I, power, goalie, totalTime, actionType, passAngle, null);
}
bool NeedTrySubstitute(AHock hock)
{
if (!IsFinal())
return false;
var maxStamina = Hockeyists
.Where(x => x.State == HockeyistState.Resting && x.IsTeammate)
.Select(x => x.Stamina)
.Max();
var to = Hockeyists.FirstOrDefault(x => Eq(x.Stamina, maxStamina));
if (to == null || maxStamina*0.8 < hock.Stamina)
return false;
return true;
}
public int MoveHockTo(AHock ho, Point to)
{
var result = 0;
for(; !CanStrike(ho, to); result++)
{
ho.MoveTo(to);
if (result > 500)
return result;
}
return result;
}
public Tuple <Point, int, int> GoToPuck(Hockeyist my, APuck pk, int ticksLimit = 300, bool tryDown = true)
{
if (my.Id == puck.OwnerHockeyistId)
{
return(new Tuple <Point, int, int>(null, 0, 0));
}
if (ticksLimit == -1)
{
ticksLimit = 300;
}
const int noBs = 100;
var res = Inf;
var dir = 1;
var owner = Hockeyists.FirstOrDefault(x => x.Id == puck.OwnerHockeyistId);
var ho = owner == null ? null : new AHock(owner);
if (pk == null)
{
pk = new APuck(puck, OppGoalie);
}
else
{
ho = null;
}
var result = new Point(pk);
int tLeft = 0, tRight = ticksLimit;
var pks = new APuck[tRight + 1];
var hhs = new AHock[tRight + 1];
pks[0] = pk.Clone();
hhs[0] = ho;
for (var i = 1; i <= tRight; i++)
{
pks[i] = pks[i - 1].Clone();
hhs[i] = ho == null ? null : hhs[i - 1].Clone();
PuckMove(1, pks[i], hhs[i]);
}
while (ticksLimit > noBs && tLeft <= tRight)
{
var c = (tLeft + tRight) / 2;
var needTicks = GetTicksTo(PuckMove(0, pks[c], hhs[c]), my, tryDown);
if (Math.Abs(needTicks) < c)
{
tRight = c - 1;
res = c;
result = PuckMove(0, pks[c], hhs[c]);
dir = needTicks >= 0 ? 1 : -1;
}
else
{
tLeft = c + 1;
}
}
const int by = 10;
for (var c = 0; c <= noBs && c <= ticksLimit; c += c < by ? 1 : by)
{
var needTicks = GetTicksTo(PuckMove(0, pks[c], hhs[c]), my, tryDown);
if (Math.Abs(needTicks) <= c)
{
for (var i = 0; i < by; i++, c--)
{
if (Math.Abs(needTicks) <= c)
{
res = c;
result = PuckMove(0, pks[c], hhs[c]);
dir = needTicks >= 0 ? 1 : -1;
}
}
break;
}
}
return(new Tuple <Point, int, int>(result, dir, res));
}
bool Strike(AHock striker, double strikePower, Point goalie, ActionType actionType, double passAngle, Point puckPos)
{
var pk = actionType == ActionType.Strike
? GetStrikePuck(striker, strikePower, goalie, puckPos)
: GetPassPuck(striker, 1, passAngle, goalie);
return PuckPrimitiveValidate(pk) && pk.Move(300, true) == 1;
}
public bool TryStrikeWithoutTake(AHock _hock, APuck _pk)
{
if (!StrikePrimitiveValidate(_hock))
return false;
TimerStart();
var moveDirBase = MyRight() && _hock.Y > RinkCenter.Y || MyLeft() && _hock.Y < RinkCenter.Y ? 1 : -1;
var bestTurn = 0.0;
var bestSpUp = 0.0;
var bestProbab = 0.0;
var bestWait = Inf;
var swTime = 0;
var range = TurnRange(_hock.AAgility);
const int turns = 9;
const int spUps = 8;
for (var moveDir = -1; moveDir <= 1; moveDir += 2)
{
for (var moveTurn = 0.0; moveTurn <= range + Eps; moveTurn += range/turns)
{
var turn = moveDir*moveTurn;
for (var spUp = 0.0; spUp <= 1.0; spUp += 1.0/spUps)
{
var hock = _hock.Clone();
var pk = _pk.Clone();
var ticksWait = 0;
for (var startDist2 = hock.GetDistanceTo2(pk); !CanStrike(hock, pk) && ticksWait < 150; ticksWait++)
{
if (moveDir == moveDirBase || IsFinal() && moveTurn < range / 2)
{
var I = hock.Clone();
var p = pk.Clone();
for (var sw = 0; sw <= Game.MaxEffectiveSwingTicks; sw++)
{
if (sw >= Game.SwingActionCooldownTicks && CanStrike(I, p))
{
var pr = StrikeProbability(I, GetPower(I, sw), p.Goalie, -1, ActionType.Strike, 0, p);
if (pr > bestProbab)
{
bestProbab = pr;
bestTurn = turn;
bestSpUp = spUp;
bestWait = ticksWait;
swTime = sw;
}
}
I.Move(0, 0);
p.Move(1);
}
}
hock.Move(spUp, turn);
pk.Move(1);
var dist2 = hock.GetDistanceTo2(pk);
if (dist2 > startDist2)
break;
startDist2 = dist2;
}
if (CanStrike(hock, pk))
{
var p = StrikeProbability(hock, GetPower(hock, 0), pk.Goalie, -1, ActionType.Strike, 0, pk);
if (p > bestProbab)
{
bestProbab = p;
bestTurn = turn;
bestSpUp = spUp;
bestWait = ticksWait;
swTime = 0;
}
}
}
}
}
Log("SWING " + TimerStop());
if (bestWait == Inf)
return false;
move.Turn = bestTurn;
move.SpeedUp = bestSpUp;
if (bestWait == 0)
move.Action = swTime == 0 ? ActionType.Strike : ActionType.Swing;
return true;
}
// Проверка движение хоккеиста
void Research3(Hockeyist self)
{
var range = TurnRange(new AHock(self).AAgility);
move.Turn = range / 2;
move.SpeedUp = 0.8;
var pl = new AHock(self);
pl.Move(0.8, range / 2, 20);
}